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48|A||Westerman,A.G.|The Chronic Effects of Low-Level Mercury and Cadmium to Goldfish (Carassius auratus)|Ph.D Thesis, University of Kentucky, Lexington, KY:263 p.|1984|
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61|A||Coppellotti,O.|Glutathione, Cysteine and Acid-Soluble Thiol Levels in Euglena gracilis Cells Exposed to Copper and Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 35-40|1989|10.1016/0742-8413(89)90140-0
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384|T||Singh,J., S. Devi, G. Chawla, M. Gupta, and P.N. Viswanathan|Ultrastructural and Biochemical Effects of Cadmium on the Aquatic Fern Marsilea minuta Linn|Ecotoxicol. Environ. Saf.21(2): 171-181|1991|10.1016/0147-6513(91)90019-L
385|A||Gutsche,C.D.|Carbonyl Compounds. Reactions at the Carbonyl Center|In: C.D.Gutsche and D.J.Pasto (Eds.) Fundamentals of Organic Chemistry, Prentice-Hall Inc., Englewood Cliffs, NJ:886-887|1975|
386|A||Stehly,G.R., and W.L. Hayton|Disposition of Pentachlorophenol in Rainbow Trout (Salmo gairdneri):  Effect of Inhibition of Metabolism|Aquat. Toxicol.14(2): 131-148|1989|10.1016/0166-445X(89)90024-6
387|A||Johnston,P.A.|Morphological Changes in Daphnia magna (Straus) Exposed to Inorganic Selenium as Sodium Selenate|Aquat. Toxicol.14(2): 95-108|1989|10.1016/0166-445X(89)90022-2
388|A||Clements,W.H., J.L. Farris, D.S. Cherry, and J.,Jr. Cairns|The Influence of Water Quality on Macroinvertebrate Community Responses to Copper in Outdoor Experimental Streams|Aquat. Toxicol.14(3): 249-262|1989|10.1016/0166-445X(89)90019-2
389|A||Shukla,J.P.|Malathion Induced Biochemical Alterations in the Liver of the Fingerlings of Channa punctatus (Bl.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(6): 621-624|1988|10.1002/aheh.19880160612
390|A||Savino,J.F., and L.L. Tanabe|Sublethal Effects of Phenanthrene, Nicotine, and Pinane on Daphnia pulex|Bull. Environ. Contam. Toxicol.42(5): 778-784|1989|10.1007/BF01700403
391|A||Stratton,G.W.|Effect of the Solvent Acetone on Membrane Integrityin the Green Alga Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.42(5): 754-760|1989|10.1007/BF01700399
392|A||Gillespie,R.B., and S.I. Guttman|Effects of Contaminants on the Frequencies of Allozymes in Populations of the Central Stoneroller|Environ. Toxicol. Chem.8(4): 309-317|1989|10.1002/etc.5620080407
393|A||Hersh,C.M., and W.G. Crumpton|Atrazine Tolerance of Algae Isolated From Two Agricultural Streams|Environ. Toxicol. Chem.8(4): 327-332|1989|10.1002/etc.5620080409
394|A||Stackhouse,R.A., and W.H. Benson|The Effect of Humic Acid on the Toxicity and Bioavailability of Trivalent Chromium|Ecotoxicol. Environ. Saf.17(1): 105-111|1989|10.1016/0147-6513(89)90014-6
395|A||McGeachy,S.M., and D.G. Dixon|The Impact of Temperature on the Acute Toxicity of Arsenate and Arsenite to Rainbow Trout (Salmo gairdneri)|Ecotoxicol. Environ. Saf.17(1): 86-93|1989|10.1016/0147-6513(89)90012-2
396|A||Rai,L.C., and S.K. Dubey|Impact of Chromium and Tin on a Nitrogen-Fixing Cyanobacterium Anabaena doliolum:  Interaction with Bivalent Cations|Ecotoxicol. Environ. Saf.17(1): 94-104|1989|10.1016/0147-6513(89)90013-4
397|A||Servos,M.R., D.C.G. Muir, and G.R.B. Webster|The Effect of Dissolved Organic Matter on the Bioavailability of Polychlorinated Dibenzo-p-Dioxins|Aquat. Toxicol.14(2): 169-184|1989|10.1016/0166-445X(89)90026-X
398|A||Ingebrigtsen,K., J.E. Solbakken, G. Norheim, and I. Nafstad|Distribution and Elimination of [14C]Octachlorostyrene in Cod (Gadus morhua), Rainbow Trout (Salmo gairdneri), and Blue Mussel (Mytilus edulis)|J. Toxicol. Environ. Health25(3): 361-372|1988|10.1080/15287398809531215
399|A||Rai,L.C., and M. Raizada|Effect of Bimetallic Combinations of Ni, Cr, and Pb on Growth, Uptake of Nitrate and Ammonia, 14C02 Fixation, and Nitrogenase Activity of Nostoc muscorum|Ecotoxicol. Environ. Saf.17(1): 75-85|1989|10.1016/0147-6513(89)90011-0
400|A||Das,K.K., S.G. Dastidar, S. Chakrabarty, and S.K. Banerjee|Toxicity of Mercury: A Comparative Study in Air-Breathing and Non Air-Breathing Fish|Hydrobiologia (Multiple Languages)68(3): 225-229|1980|10.1007/BF00018830
402|A||Evans,J.W.|The Construction and Use of a Continuous-Flow Bioassay Apparatus to Determine a Preliminary Unionized Ammonia 96-Hour LC50 for the Crayfish|M.S.Thesis, University of Kansas, Lawrence, KS:76 p.|1979|
403|A||Shehata,S.A., and S.S. Nawar|Toxicity Effect of Anti-germ 50 to Algae and Fish|Z. Wasser-Abwasser-Forsch. (Multiple Languages)12:226-229|1979|
404|A||Duangsawasdi,M., and J.F. Klaverkamp|Acephate and Fenitrothion Toxicity in Rainbow Trout:  Effects of Temperature Stress and Investigations on the Sites of Action|ASTM Spec. Tech. Publ.:35-51|1979|
405|A||Southworth,G.R., B.R. Parkhurst, and J.J. Beauchamp|Accumulation of Acridine From Water, Food, and Sediment by the Fathead Minnow, Pimephales promelas|Water Air Soil Pollut.12:331-341|1979|10.1007/BF01047020
406|A||Alabaster,J.S., D.G. Shurben, and G. Knowles|The Effect of Dissolved Oxygen and Salinity on the Toxicity of Ammonia to Smolts of Salmon, Salmo salar L.|J. Fish Biol.15(6): 705-712|1979|10.1111/j.1095-8649.1979.tb03680.x
407|A||Redner,B.D., J.R. Tomasso, and B.A. Simco|Short Term Alleviation of Ammonia Toxicity by Environmental Sodium Chloride in Channel Catfish (Ictalurus punctatus)|J. Tenn. Acad. Sci.55:54|1980|
408|A||Rankin,D.P.|The Influence of Un-Ionized Ammonia on the Long-Term Survival of Sockeye Salmon Eggs|Fish.Mar.Serv.Tech.Rep.No.912, Pacific Biological Station, Nanaimo, B.C.:17|1979|
409|A||Rosage,T.F., R.M. Schutsky, and K.M. Rapp|Toxicity of Un-ionized Ammonia to the Spotfin Shiner (Notropis spilopterus)|Proc. Pa. Acad. Sci.53:39-42|1979|
410|A||Tomasso,J.R., C.A. Goudie, B.A. Simco, and K.B. Davis|Effects of Environmental pH and Calcium on Ammonia Toxicity in Channel Catfish|Trans. Am. Fish. Soc.109(2): 229-234|1980|10.1577/1548-8659(1980)109<229:EOEPAC>2.0.CO;2
411|A||Leach,J.M., and A.N. Thakore|Isolation and Identification of Constituents Toxic to Juvenile Rainbow Trout (Salmo gairdneri) in Caustic Extraction Effluents from Kraft Pulpmill|J. Fish. Res. Board Can.32(8): 1249-1257|1975|10.1139/f75-145
413|A||Goldsmith,L.A., and G.P. Carlson|Divergent Toxicity of Parathion in Two Freshwater Invertebrates, Orconectes rusticus and Viviparus malleatus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(6): 579-588|1979|
414|A||Smith,L.L.J., and D.M. Oseid|Chronic Effects of Low Levels of Hydrogen Sulfide on Freshwater Fish|Prog. Water Technol.7(3-4): 599-605|1975|
415|A||Abel,P.D.|Effects of Some Pollutants on the Filtration Rate of Mytilus|Mar. Pollut. Bull.7:228-231|1976|10.1016/0025-326X(76)90267-8
416|A||Brenniman,G., R. Hartung, and W.J.,Jr. Weber|A Continuous Flow Bioassay Method to Evaluate the Effects of Outboard Motor Exhausts and Selected Aromatic Toxicants on Fish|Water Res.10(2): 165-169|1976|10.1016/0043-1354(76)90117-2
417|A||Ahrens,V.D., G.A. Maylin, J.D. Henion, L.E.S.,Jr. John, and D.J. Lisk|Fabric Release, Fish Toxicity and Water Stability of the Flame Retardant, Fyrol FR-2|Bull. Environ. Contam. Toxicol.21(3): 409-412|1979|10.1007/BF01685445
418|A||Chandler,J.H.,Jr., and L.L. Marking|Toxicity of Fishery Chemicals to the Asiatic Clam, Corbicula manilensis|Prog. Fish-Cult.41(3): 148-151|1979|10.1577/1548-8659(1979)41[148:TOFCTT]2.0.CO;2
419|A||Walker,W.W., A.R. Lawler, and W.D. Burke|Acute Toxicity of 3-Chloro-4-Methyl Benzenamine Hydrochloride to Shrimp and Crabs|Bull. Environ. Contam. Toxicol.21(4/5): 643-651|1979|10.1007/BF01685483
420|A||Tatem,H.E., B.A. Cox, and J.W. Anderson|The Toxicity of Oils and Petroleum Hydrocarbons to Estuarine Crustaceans|Estuar. Coast. Mar. Sci.6(4): 365-373|1978|10.1016/0302-3524(78)90128-7
421|A||Rao,K.S.P., I.K. Ahmad, and K.V.R. Rao|Impact of Methyl Parathion on the Tissue NH3-Changes in the Fish Tilapia mossambica (Peters)|Proc. Indian Acad. Sci. Sect. B47(3): 394-397|1981|
422|A||Roy,D.|Detergent-Induced Changes in the Mapping of CertainEnzymes in Various Cell Types of Rita rita. II. Gill Epithelium|Ecotoxicol. Environ. Saf.17(1): 67-74|1989|10.1016/0147-6513(89)90010-9
423|A||Hollister,T.A., G.E. Walsh, and J. Forester|Mirex and Marine Unicellular Algae:  Accumulation, Population Growth and Oxygen Evolution|Bull. Environ. Contam. Toxicol.14(6): 753-759|1975|10.1007/BF01685254
424|A||Sadler,K.|The Toxicity of Ammonia to the European Eel (Anguilla anguilla L.)|Aquaculture26(1/2): 173-181|1981|10.1016/0044-8486(81)90121-6
425|A||Walsh,G.E., K. Ainsworth, and A.J. Wilson|Toxicity and Uptake of Kepone in Marine Unicellular Algae|Chesapeake Sci.18(2): 222-223|1977|10.2307/1350863
426|A||Schaefer,C.H., E.F.,Jr. Dupras, R.J. Stewart, L.W. Davidson, and A.E. Colwell|The Accumulation and Elimination of Diflubenzuron by Fish|Bull. Environ. Contam. Toxicol.21:249-254|1979|10.1007/BF01685419
427|A||Darrow,D.C., and G.C. Harding|Accumulation and Apparent Absence of DDT Metabolism by Marine Copepods, Calanus spp., in Culture|J. Fish. Res. Board Can.32:1845-1849|1975|10.1139/f75-219
428|A||Paris,D.F., and D.L. Lewis|Accumulation of Methoxychlor by Microorganisms Isolated From Aqueous Systems|Bull. Environ. Contam. Toxicol.15(1): 24-32|1976|10.1007/BF01686192
429|A||Renberg,L., O. Svanberg, B.E. Bengtsson, and G. Sundstrom|Chlorinated Guaiacols and Catechols Bioaccumulation Potential in Bleaks (Alburnus alburnus, Pisces) and Reproductive and Toxic Effects on the Harpacticoid Nitocra spinipes (Crustacea)|Chemosphere9(3): 143-150|1980|10.1016/0045-6535(80)90085-5
430|A||Mason,J.W., and D.R. Rowe|The Accumulation and Loss of Dieldrin and Endrin in the Eastern Oyster|Arch. Environ. Contam. Toxicol.4(3): 349-360|1976|10.1007/BF02221033
431|A||Zitko,V.|The Accumulation of Polybrominated Biphenyls by Fish|Bull. Environ. Contam. Toxicol.17(3): 285-292|1977|10.1007/BF01686081
432|A||Schimmel,S.C.|Acute Toxicity of Kepone to Four Estuarine Animals|Chesapeake Sci.18(2): 224-227|1977|10.2307/1350864
433|A||James,M.O., and J.R. Bend|Taurine Conjugation of 2,4-Dichlorophenoxyacetic Acid and Phenylacetic Acid in Two Marine Species|Xenobiotica6(7): 393-398|1976|10.3109/00498257609151651
434|A||Matsumura,F.|Absorption, Accumulation, and Elimination of Pesticides by Aquatic Organisms|Environ. Sci. Res.10:77-105|1977|
435|A||Hart,D.D., and C.T. Robinson|Resource Limitation in a Stream Community: Phosphorus Enrichment Effects on Periphyton and Grazers|Ecology71(4): 1494-1502|1990|10.2307/1938286
437|A||Roubal,W.T., T.K. Collier, and D.C. Malins|Accumulation and Metabolism of Carbon-14 Labeled Benzene, Naphthalene, and Anthracene by Young Coho Salmon (Oncorhynchus kisutch)|Arch. Environ. Contam. Toxicol.5(4): 513-529|1977|10.1007/BF02220929
438|A||Langston,W.J.|Accumulation of Polychlorinated Biphenyls in the Cockle Cerastoderma edule and the Tellin Macoma balthica|Mar. Biol.45:265-272|1978|10.1007/BF00390610
439|A||Stewart,M.E., W.J. Blogoslawski, R.Y. Hsu, and G.R. Helz|By-Products of Oxidative Biocides: Toxicity to Oyster Larvae|Mar. Pollut. Bull.10(6): 166-169|1979|10.1016/0025-326X(79)90423-5
440|A||Courtois,L.A.|Hematological Assessment and Toxicity of Antimycin A to Golden Shiners, Notemigonus crysoleucas|Prog. Fish-Cult.37(4): 202-204|1975|10.1577/1548-8659(1975)37[202:HAATOA]2.0.CO;2
441|A||Antia,N.J., and J.Y. Cheng|Culture Studies on the Effects from Borate Pollution on the Growth of Marine Phytoplankters|J. Fish. Res. Board Can.32(12): 2487-2494|1975|10.1139/f75-286
442|A||Zitko,V.|The Fate of Highly Brominated Aromatic Hydrocarbons in Fish|ACS Symp. Ser.99:177-182|1979|10.1021/bk-1979-0099.ch011
443|A||Tonogai,Y., M. Iwaida, M. Tati, Y. Ose, and T. Sato|Biochemical Decomposition of Coal-Tar Dyes.  II.  Acute Toxicity of Coal-Tar Dyes and Their Decomposed Products|J. Toxicol. Sci.3(3): 205-214|1978|10.2131/jts.3.205
444|A||Mishra,A.K., and A.B. Pandey|Toxicity of Three Herbicides to Some Nitrogen-Fixing Cyanobacteria|Ecotoxicol. Environ. Saf.17(2): 236-246|1989|10.1016/0147-6513(89)90043-2
445|A||Heldal,M., S. Norland, T. Lien, and G. Knutsen|Acute Toxicity of Several Oil Dispersants Towards the Green Algae Chlamydomonas and Dunaliella|Chemosphere7(3): 247-255|1978|10.1016/0045-6535(78)90076-0
446|A||Dey,S., and S. Bhattacharya|Ovarian Damage to Channa punctatus After Chronic Exposure to Low Concentrations of Elsan, Mercury, and Ammonia|Ecotoxicol. Environ. Saf.17(2): 247-257|1989|10.1016/0147-6513(89)90044-4
447|A||Auld,A.H., and J.R. Schubel|Preliminary Observations on the Efficacy of a Commercially Available Fungal Inhibitor and its Toxicity to Fish Eggs|Chesapeake Sci.15(2): 115-116|1974|10.2307/1351271
448|A||Woodiwiss,F.S., and G. Fretwell|The Toxicities of Sewage Effluents, Industrial Discharges and Some Chemical Substances to Brown Trout (Salmo trutta) in the Trent River Authority Area|Water Pollut. Control73:396-405|1974|
449|A||Voyer,R.A., P.P. Yevich, and C.A. Barszcz|Histological and Toxicological Responses of the Mummichog, Fundulus heteroclitus (L.) to Combinations of Levels of Cadmium and Dissolved Oxygen|Water Res.9:1069-1074|1975|10.1016/0043-1354(75)90103-7
451|A||Thompson,J.A.J., J.C. Davis, and R.E. Drew|Toxicity, Uptake and Survey Studies of Boron in the Marine Environment|Water Res.10(10): 869-875|1976|10.1016/0043-1354(76)90021-X
452|A||Maddock,B.G., and D. Taylor|The Acute Toxicity of Dissolved Elemental Phosphorus to Cod (Gadus morhua)|Water Res.10(4): 289-294|1976|10.1016/0043-1354(76)90168-8
453|A||Adelman,I.R., L.L.,Jr. Smith, and G.D. Siesennop|Chronic Toxicity of Guthion to the Fathead Minnow (Pimephales promelas Rafinesque)|Bull. Environ. Contam. Toxicol.15(6): 726-733|1976|10.1007/BF01685624
454|A||Vernberg,W.B., P.J. DeCoursey, and W.J. Padgett|Synergistic Effects of Environmental Variables on Larvae of Uca pugilator|Mar. Biol.22:307-312|1973|10.1007/BF00391386
455|A||Zitko,V., and W.V. Carson|Accumulation of Thallium in Clams and Mussels|Bull. Environ. Contam. Toxicol.11(5): 530-533|1975|10.1007/BF01683366
456|A||Hinton,M.J., and A.G. Eversole|Toxicity and Tolerance Studies with Yellow-Phase Eels: Five Chemicals|Prog. Fish-Cult.42(4): 201-203|1980|10.1577/1548-8659(1980)42[201:TATSWY]2.0.CO;2
457|A||Passino,D.R.M., and J.M. Kramer|Toxicity of Arsenic and PCBs to Fry of Deepwater Ciscoes (Coregonus)|Bull. Environ. Contam. Toxicol.24(4): 527-534|1980|10.1007/BF01608151
458|A||Pandey,K., and J.P. Shukla|Arsenic Toxicity in a Tropical Fresh Water Fish, Puntius sophore|Natl. Acad. Sci. Lett.2(11): 425-426|1979|
459|A||Calamari,D., R. Marchetti, and G. Vailati|Influence of Water Hardness on Cadmium Toxicity to Salmo gairdneri Rich|Water Res.14(10): 1421-1426|1980|10.1016/0043-1354(80)90006-8
460|A||Busacker,G.P.|Osmoregulatory Effects of Acute Cadmium Toxicity in a Model Teleost|Ph.D.Thesis, Wayne State Univ., Detroit, MI:225 p.|1980|
461|A||Andros,J.D., and R.R. Garton|Acute Lethality of Copper, Cadmium, and Zinc to Northern Squawfish|Trans. Am. Fish. Soc.109(2): 235-238|1980|10.1577/1548-8659(1980)109<235:ALOCCA>2.0.CO;2
462|A||Cairns,J.,Jr., and K.W. Thompson|A Computer Interfaced Toxicity Testing System for Simulating Variable Effluent Loading|In: P.L.Levins, J.C.Harris, and K.D.Drewitz (Eds.), EPA-600/9-81-018, Proc.2nd Symp.: Process Measurements for Environmental Assessment, Arthur D.Little, Inc., Cambridge, MA:183-191|1981|
463|A||Verma,S.R., S. Rani, S.K. Bansal, and R.C. Dalela|Effects of the Pesticides Thiotox, Dichlorvos, and Carbofuran on the Test Fish Mystus vittatus|Water Air Soil Pollut.13:229-234|1980|10.1007/BF02279549
464|A||Wroblewski,R.J.|Physiological and Behavioural Characterization of the Action of Chlorfenvinphos on Fish Lebistes reticulatus Peters|Pol. Arch. Hydrobiol.26(3): 427-456|1979|
466|A||Sastry,K.V., A.A. Siddiqui, and M. Samuel|Acute and Chronic Toxic Effects of the Carbamate Pesticide Sevin on Some Haematological, Biochemical and Enzymatic Parameters in the Fresh Water Teleost Fish Channa punctatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(6): 625-631|1988|10.1002/aheh.19880160613
467|A||Rath,S., and B.N. Misra|Sub-lethal Effects of Dichlorvos (DDVP) on Respiratory Metabolism of Tilapia mossambica Peters of 3 Age Groups|Exp. Gerontol.14:37-41|1979|10.1016/0531-5565(79)90006-8
468|A||Rao,D.M.R., A.P. Devi, and A.S. Murty|Relative Toxicity of Endosulfan, Its Isomers, and Formulated Products to the Freshwater Fish Labeo rohita|J. Toxicol. Environ. Health6:825-834|1980|10.1080/15287398009529900
469|A||Sharma,S.K., L.D. Chaturvedi, and K.V. Sastry|Acute Endrin Toxicity on Oxidases of Ophiocephalus punctatus (Bloch)|Bull. Environ. Contam. Toxicol.23(1-2): 153-157|1979|10.1007/BF01769934
470|A||Singh,H., and T.P. Singh|Short-Term Effect of Two Pesticides on the Survival, Ovarian 32P Uptake and Gonadotrophic Potency in a Freshwater Catfish, Heteropneustes fossilis (Bloch)|J. Endocrinol.85:193-199|1980|10.1677/joe.0.0850193
471|A||Han,J.C.Y.|Residue Studies with [14C]Fosamine Ammonium in Channel Catfish|J. Toxicol. Environ. Health5:957-963|1979|10.1080/15287397909529804
472|A||Fisher,J.W., C.B. Harrah, and W.O. Berry|Hydrazine:  Acute Toxicity to Bluegills and Sublethal Effects on Dorsal Light Response and Agression|Trans. Am. Fish. Soc.109(3): 304-309|1980|10.1577/1548-8659(1980)109<304:H>2.0.CO;2
473|A||Reynolds,F.A., and T.A. Haines|Effects of Chronic Exposure to Hydrogen Sulphide on Newly Hatched Brown Trout Salmo trutta L|Environ. Pollut.22:11-17|1980|10.1016/0143-1471(80)90077-X
474|A||Furmanska,M.|Studies of the Effect of Copper, Zinc, and Iron on the Biotic Components of Aquatic Ecosystems|Pol. Arch. Hydrobiol.26(1-2): 213-220|1979|
475|A||Holman,W.F., and K.J. Macek|An Aquatic Safety Assessment of Linear Alkylbenzene Sulfonate (LAS): Chronic Effects on Fathead Minnows|Trans. Am. Fish. Soc.109(1): 122-131|1980|10.1577/1548-8659(1980)109<122:AASAOL>2.0.CO;2
476|A||Rani,A.U., and R. Ramamurthi|Histopathological Alterations in the Liver of Freshwater Teleost Tilapia mossambica in Response to Cadmium Toxicity|Ecotoxicol. Environ. Saf.17(2): 221-226|1989|10.1016/0147-6513(89)90041-9
477|A||Moles,A.|Sensitivity of Parasitized Coho Salmon Fry to Crude Oil, Toluene, and Naphthalene|Trans. Am. Fish. Soc.109(3): 293-297|1980|10.1577/1548-8659(1980)109<293:SOPCSF>2.0.CO;2
478|A||Becker,C.D., and M.G. Wolford|Thermal Resistance of Juvenile Salmonids Sublethally Exposed to Nickel, Determined by the Critical Thermal Maximum Method|Environ. Pollut.21(3): 181-189|1980|10.1016/0143-1471(80)90162-2
479|A||Draper III,A.C., and W.S. Brewer|Measurement of the Aquatic Toxicity of Volatile Nitrosamines|J. Toxicol. Environ. Health5:985-993|1979|10.1080/15287397909529808
480|A||Orciari,R.D.|Rotenone Resistance of Golden Shiners from a Periodically Reclaimed Pond|Trans. Am. Fish. Soc.108(6): 641-645|1979|
481|A||Coler,R.A., and C. Asbury|Acute Toxicity of Dissolved Ozone to Eggs and Larvae of Selected Freshwater Fish Species|Ozone Sci. Eng.2(2): 177-182|1980|10.1080/01919518008550877
482|A||Asbury,C., and R. Coler|Toxicity of Dissolved Ozone to Fish Eggs and Larvae|J. Water Pollut. Control Fed.52(7): 1990-1996|1980|
483|A||Gray,C., and C.O. Knowles|Uptake of Propamocarb Fungicide by Bluegills and Channel Catfish|Chemosphere9(5/6): 329-333|1980|10.1016/0045-6535(80)90013-2
484|A||Colquhoun,J.R., and H.J. Dean|Toxicity of Propoxur to Brook Trout and Landlocked Salmon|N. Y. Fish Game J.27(1): 32-38|1980|
485|A||Skadsen,J.M., P.W. Webb, and P.T. Kostecki|Measurement of Sublethal Metabolic Stress in Rainbow Trout (Salmo gairdneri) Using Automated Respirometry|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(2): 193-206|1980|
486|A||Halter,M.T., W.J. Adams, and H.E. Johnson|Selenium Toxicity to Daphnia magna, Hyallela azteca, and the Fathead Minnow in Hard Water|Bull. Environ. Contam. Toxicol.24(1): 102-107|1980|10.1007/BF01608082
487|A||Bookhout,C.G., R. Monroe, R. Forward, and J.D.,Jr. Costlow|Effects of Soluble Fractions of Drilling Fluids and Hexavalent Chromium on the Development of the Crabs, Rhithropanopeus harrisii and Callinectes|Project Summary, EPA-600/S3-82-018, U.S.Environ.Res.Lab., Gulf Breeze, FL:7 p.|1982|
488|A||Van der Wel,H., and W. Welling|Inhibition of Acetylcholinesterase in Guppies (Poecilia reticulata) by Chlorpyrifos at Sublethal Concentrations: Methodological Aspects|Ecotoxicol. Environ. Saf.17(2): 205-215|1989|10.1016/0147-6513(89)90039-0
489|A|OECDG|Thompson,R.S., and N.G. Carmichael|1,1,1-Trichloroethane:  Medium-Term Toxicity to Carp, Daphnids, and Higher Plants|Ecotoxicol. Environ. Saf.17(2): 172-182|1989|10.1016/0147-6513(89)90036-5
490|A||Niblett,P.D., and B.A. McKeown|Effect of the Lamprey Larvicide TFM (3-Trifluoro-Methyl-4-Nitrophenol) on Embryonic Development of the Rainbow Trout (Salmo gairdneri Richardson)|Water Res.14(5): 515-519|1980|10.1016/0043-1354(80)90218-3
491|A||Johnson,W.W., and A.M. Julin|Acute Toxicity of Toxaphene to Fathead Minnows, Channel Catfish, and Bluegills|EPA-600/3-80-005, U.S.EPA, Duluth,MN:29 p.|1980|
492|A||DeGraeve,G.M., R.L. Overcast, and H.L. Bergman|Toxicity of Underground Coal Gasification Condenser Water and Selected Constituents to Aquatic Biota|Arch. Environ. Contam. Toxicol.9(5): 543-555|1980|10.1007/BF01056934
493|A||Batchelder,T.L., H.C. Alexander, and W.M. McCarty|Acute Fish Toxicity of the Versene Family of Chelating Agents|Bull. Environ. Contam. Toxicol.24(4): 543-549|1980|10.1007/BF01608153
494|A||Alexander,H.C., D.C. Dill, L.W. Smith, P.D. Guiney, and P. Dorn|Bisphenol A:  Acute Aquatic Toxicity|Environ. Toxicol. Chem.7(1): 19-26|1988|10.1002/etc.5620070104
495|A||Paulet,G., and M. Vidal|Toxicity of Some Acrylic and Methacrylic Esters of Acrylamide and Polyacrylamides|Arch. Mal. Prof. Med. Trav. Secur. Soc.36(1/2): 58-60|1975|
496|A||Ali,S.M., R. Ilyas, and N.V. Mokashi|Oxygen Consumption of Fish Channa gachua Hamilton After Exposure to Dimecron and Aldicarb|Geobios (Jodhpur)12(3/4): 107-111|1985|
497|A||Allen,P., S.Y. Min, and W.M. Keong|Acute Effects of Mercuric Chloride on Intracellular GSH Levels and Mercury Distribution in the Fish Oreochromis aureus|Bull. Environ. Contam. Toxicol.40(2): 178-184|1988|10.1007/BF01881036
498|A||Sparks,R.E., and M.J. Sandusky|Identification of Factors Responsible for Decreased Production of Fish Food Organisms in the Illinois and Mississippi Rivers|Final Rep.Proj.No.3-291-R, Illinois Nat.History Surv.River Res.Lab., Havana, IL:63 p.|1981|
499|A||Arunachalam,S., K. Jeyalakshmi, and S. Aboobucker|Toxic and Sublethal Effects of Carbaryl on a Freshwater Catfish, Mystus vittatus (Bloch)|Arch. Environ. Contam. Toxicol.9(3): 307-316|1980|10.1007/BF01057410
500|A||Johnston,J.M.|Tolerance of Juvenile Sockeye Salmon and Zooplankton to the Selective Squawfish Toxicant 1,1'-Methylenedi-2-Naphthol|Prog. Fish-Cult.34(3): 122-125|1972|10.1577/1548-8640(1972)34[122:TOJSSA]2.0.CO;2
501|A||Marking,L.L., and W.L. Mauck|Toxicity of Paired Mixtures of Candidate Forest Insecticides to Rainbow Trout|Bull. Environ. Contam. Toxicol.13(5): 518-523|1975|10.1007/BF01685172
502|A||Fabacher,D.L., and H. Chambers|Apparent Resistance to Pyrethroids in Organochlorine - Resistant Mosquitofish|Proc. Southeast. Assoc. Game Fish Comm.26:461-464|1972|
503|A||Matida,Y., H. Kumada, S. Kimura, Y. Saiga, T. Nose, M. Yokote, and H. Kawatsu|Toxicity of Mercury Compounds to Aquatic Organisms and Accumulation of the Compounds by the Organisms|Bull. Freshw. Fish. Res. Lab. (Tokyo)21(2): 197-227|1971|
504|AT||Hobbs,E.J., M.L. Keplinger, and J.C. Calandra|Toxicity of Polydimethylsiloxanes in Certain Environmental Systems|Environ. Res.10:397-406|1975|10.1016/0013-9351(75)90035-3
505|A||Macek,K.J., and R.N. Sturm|Survival and Gill Condition of Bluegill (Lepomis macrochirus) and Fathead Minnows (Pimephales promelas) Exposed to Sodium Nitrilotriacetate|J. Fish. Res. Board Can.30(2): 323-325|1973|10.1139/f73-059
506|A||Arthur,J.W., A.E. Lemke, V.R. Mattson, and B.J. Halligan|Toxicity of Sodium Nitrilotriacetate (NTA) to the Fathead Minnow and an Amphipod in Soft Water|Water Res.8(2): 187-193|1974|10.1016/0043-1354(74)90042-6
507|A||Chagnon,N.L., and S.I. Guttman|Differential Survivorship of Allozyme Genotypes in Mosquitofish Populations Exposed to Copper or Cadmium|Environ. Toxicol. Chem.8(4): 319-326|1989|10.1002/etc.5620080408
508|A||Wallen,I.E., W.C. Greer, and R. Lasater|Toxicity to Gambusia affinis of Certain Pure Chemicals in Turbid Waters|Sewage Ind. Wastes29(6): 695-711|1957|
509|A||Nath,K., and N. Kumar|Hexavalent Chromium: Toxicity and Its Impact on Certain Aspects of Carbohydrate Metabolism of the Freshwater Teleost, Colisa fasciatus|Sci. Total Environ.72:175-181|1988|10.1016/0048-9697(88)90016-2
510|A||Banas,W.P., and J.B. Sprague|Absence of Acclimation to Parathion by Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1151:170-171|1983|
511|A||Doster,R.C., R.O. Sinnhuber, and N.E. Pawlowski|Acute Intraperitoneal Toxicity of Ochratoxin A and B Derivatives in Rainbow Trout (Salmo gairdneri)|Food Cosmet. Toxicol.12:499-505|1974|10.1016/0015-6264(74)90063-7
512|A||Maruyama,T., K. Ochiai, A. Miura, and T. Yoshida|Effects of Chloramine on the Growth of Porphyra yezoensis (Rhodophyta)|Nippon Suisan Gakkaishi (Multiple Languages)54(10): 1829-1834|1988|10.2331/suisan.54.1829
513|A||Roald,S.O.|Acute Toxicity of Lignosulphonates on Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.17(6): 702-706|1977|10.1007/BF01685956
514|A||Erben,R., I. Munjko, and V. Jovanovic|The Influence of Phenol Accumulation on the Species Polycelis felina Daly (Turbellaria)|Biologia (Bratisl.)38(3): 283-288|1983|
515|A||Sorensen,E.M.B.|Ultrastructural Changes in the Hepatocytes of Green Sunfish, Lepomis cyanellus Rafinesque, Exposed to Solutions of Sodium Arsenate|J. Fish Biol.8(3): 229-240|1976|10.1111/j.1095-8649.1976.tb03947.x
517|A||Schaper,R.A., and L.A. Crowder|Uptake of 36Cl-Toxaphene in Mosquito Fish, Gambusia affinis|Bull. Environ. Contam. Toxicol.15(5): 581-587|1976|10.1007/BF01685708
518|A||Cairns,J.,Jr., A.L.,Jr. Buikema, A.G. Heath, and B.C. Parker|Effects of Temperature on Aquatic Organism Sensitivity to Selected Chemicals|Virginia Water Resources Research Center, Bulletin 106, Office of Water Research and Technology, OWRT Project B-084-VA, Virginia Polytechnic Institute and State University, Blacksburg, VA:88 p.|1978|
519|A||Broderius,S.J., L.L.,Jr. Smith, and D.T. Lind|Relative Toxicity of Free Cyanide and Dissolved Sulfide Forms to the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.34(12): 2323-2332|1977|10.1139/f77-311
520|A||Smith,L.L.,Jr., S.J. Broderius, D.M. Oseid, G.L. Kimball, and W.M. Koenst|Acute Toxicity of Hydrogen Cyanide to Freshwater Fishes|Arch. Environ. Contam. Toxicol.7(3): 325-337|1978|10.1007/BF02332060
521|A||Roberts,M.H.,Jr.|Flow-Through Toxicity Testing System for Molluscan Larvae as Applied to Halogen Toxicity in Estuarine Water|ASTM Spec. Tech. Publ.:131-139|1980|
522|A||Katz,M.|Acute Toxicity of Some Organic Insecticides to Three Species of Salmonids and to the Threespine Stickleback|Trans. Am. Fish. Soc.90(3): 264-268|1961|10.1577/1548-8659(1961)90[264:ATOSOI]2.0.CO;2
524|A||Robinette,H.R.|Effects of Selected Sublethal Levels of Ammonia on the Growth of Channel Catfish (Ictalurus punctatus)|Prog. Fish-Cult.38(1): 26-29|1976|10.1577/1548-8659(1976)38[26:EOSSLO]2.0.CO;2
525|A||Olson,L.E., and L.L. Marking|Toxicity of Four Toxicants to Green Eggs of Salmonids|Prog. Fish-Cult.37(3): 143-147|1975|10.1577/1548-8659(1975)37[143:TOFTTG]2.0.CO;2
526|A||Dawson,V.K., K.B. Cumming, and P.A. Gilderhus|Efficacy of 3-Trifluoromethyl-4-Nitrophenol (TFM), 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73), and a 98:2 Mixture As Lampricides in Laboratory|Invest.Fish Control No.77, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C:11-|1977|
527|A||Paflitschek,R.|Investigations on the Toxic Effects of Bayer 73 (Bayluscid WP) on Eggs and Yolk-Sac Larvae of Tilapia leucosticta (Cichlidae)|Experientia32(12): 1537-1538|1976|10.1007/BF01924438
528|A||Gaufin,A.R., L.D. Jensen, A.V. Nebeker, T. Nelson, and R.W. Teel|Toxicity of Ten Organic Insecticides to Various Aquatic Invertebrates|Water Sewage Works12:276-279|1965|
529|A||Amiard-Triquet,C., B. Berthet, C. Metayer, and J.C. Amiard|Contribution to the Ecotoxicological Study of Cadmium, Copper and Zinc in the Mussel Mytilus edulis.  II.  Experimental Study|Mar. Biol.92(1): 7-13|1986|10.1007/BF00392739
530|A||Nebeker,A.V., and F.A. Puglisi|Effect of Polychlorinated Biphenyls (PCB's) on Survival and Reproduction of Daphnia, Gammarus, and Tanytarsus|Trans. Am. Fish. Soc.103(4): 722-728|1974|10.1577/1548-8659(1974)103<722:EOPBPO>2.0.CO;2
531|A||Harman,W.N.|The Effects of Simazine on the Molluscan Fauna of Moriane Lake, New York|Nautilus92(3): 129-134|1978|
532|A||Berger,B.B.|Use of Hexadecanol in Reservoir Evaporation Reduction|J. Am. Water Works Assoc.50:855-858|1958|10.1002/j.1551-8833.1958.tb15663.x
533|A||Hughes,J.S., and J.T. Davis|Toxicity of Selected Herbicides to Bluegill Sunfish|Proc. La. Acad. Sci.25:86-93|1962|
534|A||Jarvinen,A.W., M.J. Hoffman, and T.W. Thorslund|Long-Term Toxic Effects of DDT Food and Water Exposure on Fathead Minnows (Pimephales promelas)|J. Fish. Res. Board Can.34(11): 2089-2103|1977|10.1139/f77-276
535|A||Jarvinen,A.W., and R.M. Tyo|Toxicity to Fathead Minnows of Endrin in Food and Water|Arch. Environ. Contam. Toxicol.7(4): 409-421|1978|10.1007/BF02332068
536|A||Kimerle,R.A., and R.D. Swisher|Reduction of Aquatic Toxicity of Linear Alkylbenzene Sulfonate (LAS) by Biodegradation|Water Res.11(1): 31-37|1977|10.1016/0043-1354(77)90178-6
537|A||Comotto,R.M., R.A. Kimerle, and R.D. Swisher|Bioconcentration and Metabolism of Linear Alkylbenzene Sulfonate by Daphnids and Fathead Minnows|ASTM Spec. Tech. Publ.:232-250|1979|
538|A||Birge,W.J., J.A. Black, J.E. Hudson, and D.M. Bruser|Embryo-Larval Toxicity Tests with Organic Compounds|ASTM Spec. Tech. Publ.:131-147|1979|
539|A||Kristoffersson,R., S. Broberg, and A. Oikari|Physiological Effects of a Sublethal Concentration of Phenol in the Pike (Esox lucius L.) in Pure Brackish Water|Ann. Zool. Fennici10(2): 392-397|1973|
540|A||Leeuwangh,P., H. Bult, and L. Schneiders|Toxicity of Hexachlorobutadiene in Aquatic Organisms|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquatic Animals, Elsevier Sci.Publ., Amsterdam, NY:167-176|1975|
541|A||Thatcher,T.O., and J.F. Santner|Acute Toxicity of LAS to Various Fish Species|Proc. 21st Purdue Ind. Waste Conf.50(2): 996-1002|1966|
542|A||Alabaster,J.S.|Survival of Fish in 164 Herbicides, Insecticides, Fungicides, Wetting Agents and Miscellaneous Substances|Int. Pest Control11(2): 29-35|1969|
543|A||Tsai,C.F., and J.A. McKee|The Toxicity to Goldfish of Mixtures of Chloramines, LAS and Copper|Tech.Rep.No.44, Water Resour.Res.Ctr., Univ.of Maryland, College Park, MD:31 p.|1978|
544|A||Pickering,Q.H., and T.O. Thatcher|The Chronic Toxicity of Linear Alkylate Sulfonate (LAS) to Pimephales promelas, Rafinesque|J. Water Pollut. Control Fed.42(2): 243-254|1970|
545|A||McKim,J.M., J.W. Arthur, and T.W. Thorslund|Toxicity of a Linear Alkylate Sulfonate Detergent to Larvae of Four Species of Freshwater Fish|Bull. Environ. Contam. Toxicol.14(1): 1-7|1975|10.1007/BF01685589
547|A|OECDG|Juhnke,I., and D. Luedemann|Results of the Investigation of 200 Chemical Compounds for Acute Fish Toxicity with the Golden Orfe Test (Ergebnisse der Untersuchung von 200 Chemischen Verbindungen auf Akute Fischtoxizitat mit dem Goldorfentest)|Z. Wasser-Abwasser-Forsch. (Multiple Languages)11(5): 161-164|1978|
548|A||Schneider,P.W.J., J.R. Gibson, G.C. Cramm, and S.P. Shrivastava|Uptake, Depuration, and Toxicity of Hexamethylphosphoramide in Aquatic Organisms|ASTM Spec. Tech. Publ.667:181-192|1979|
549|A||Hattula,M.L., H. Reunanen, V.M. Wasenius, R. Krees, and A.U. Arstila|Toxicity of 4-Chloro-o-Cresol to Fish. Light Microscopy and Chemical Analysis of the Tissue|Bull. Environ. Contam. Toxicol.22(4/5): 508-511|1979|10.1007/BF02026978
550|A||Robertson,E.B., and D.L. Bunting|The Acute Toxicity of Four Herbicides to 0-4 Hour Nauplii of Cyclops vernalis Fisher (Copepoda, Cyclopoida)|Bull. Environ. Contam. Toxicol.16(6): 682-688|1976|10.1007/BF01685573
551|A||Meier,E.P., W.H. Dennis, A.B. Rosencrance, W.F. Randall, W.J. Cooper, and M.C. Warner|Sulfotepp, a Toxic Impurity in Formulations of Diazinon|Bull. Environ. Contam. Toxicol.23(1-2): 158-164|1979|10.1007/BF01769935
552|A||Ramalingam,K.|Toxic Effects of DDT, Malathion and Mercury on the Tissue Carbohydrate Metabolism of Sarotherodon mossambicus (Peters)|Proc. Indian Acad. Sci. Anim. Sci.97(5): 443-448|1988|10.1007/BF03179951
553|A||Parkhurst,B.R., A.S. Bradshaw, J.L. Forte, and G.P. Wright|An Evaluation of the Acute Toxicity to Aquatic Biota of a Coal Conversion Effluent and its Major Components|Bull. Environ. Contam. Toxicol.23(3): 349-356|1979|10.1007/BF01769968
554|A||Van Dijk,J.J., C. Van der Meer, and M. Wijnans|The Toxicity of Sodium Pentachlorophenolate for Three Species of Decapod Crustaceans and Their Larvae|Bull. Environ. Contam. Toxicol.17(5): 622-630|1977|10.1007/BF01685988
555|A||Wilson,W.B., C.S. Giam, T.E. Goodwin, A. Aldrich, V. Carpenter, and Y.C. Hrung|The Toxicity of Phthalates to the Marine Dinoflagellate Gymnodinium breve|Bull. Environ. Contam. Toxicol.20:149-154|1978|10.1007/BF01683500
556|A||Narbonne,J.F.|Accumulation of Polychlorinated Biphenyl (Phenoclor DP6) by Estuarine Fish|Bull. Environ. Contam. Toxicol.22(1/2): 60-64|1979|10.1007/BF02026908
557|A||Coats,J.R., and N.L. O'Donnell-Jeffery|Toxicity of Four Synthetic Pyrethroid Insecticides to Rainbow Trout|Bull. Environ. Contam. Toxicol.23(1-2): 250-255|1979|10.1007/BF01769951
558|A||Benville,P.E.Jr., and S. Korn|The Acute Toxicity of Six Monocyclic Aromatic Crude Oil Components to Striped Bass (Morone saxatilis) and Bay Shrimp (Crago franciscorum)|Calif. Fish Game63(4): 204-209|1977|
559|A||Brichon,M.H.|Comparative Study of Static and Dynamic Tests to Estimate the Toxicity of Potassium Dichromate on Zebra Fish (Brachydanio rerio)|Ann. Inst. Michel Pacha11:67-90|1978|
560|A||Kikuchi,M., M. Wakabayashi, T. Nakamura, W. Inoue, K. Takahashi, T. Kawana, H. Kawahara, and Y. Koido|A Study of Detergents. II. Acute Toxicity of Anionic Surfactants on Aquatic Organisms|Ann.Rep.Tokyo Metrop.Res.Inst.Environ.Prot.:57-69|1976|
561|A||Lorz,H.W., S.W. Glenn, R.H. Williams, C.M. Kunkel, L.A. Norris, and B.R. Loper|Effects of Selected Herbicides on Smolting of Coho Salmon|EPA-600/3-79-071, U.S.EPA, Corvallis, OR:102 p.|1979|
562|A||Bennett,R.O., and R.E. Wolke|The Effect of Sublethal Endrin Exposure on Rainbow Trout, Salmo gairdneri Richardson.  I.  Evaluation of Serum Cortisol Concentrations and Immune|J. Fish Biol.31(3): 375-385|1987|10.1111/j.1095-8649.1987.tb05242.x
563|A|OECDG|Birge,W.J., J.A. Black, and D.M. Bruser|Toxicity of Organic Chemicals to Embryo-Larval Stages of Fish|EPA-560/11-79-007, U.S.EPA, Washington, D.C.:60 p.|1979|
564|A||Klaassen,H.E., and A.M. Kadoum|Distribution and Retention of Atrazine and Carbofuran in Farm Pond Ecosystems|Arch. Environ. Contam. Toxicol.8(3): 345-353|1979|10.1007/BF01056250
565|A||Doe,K.G., and P.G. Wells|Acute Aquatic Toxicity and Dispersing Effectiveness of Oil Spill Dispersants: Results of a Canadian Oil Dispersant Testing Program (1973 to 1977)|ASTM Spec. Tech. Publ.:50-65|1978|
566|A||Bharathi,C., and D.G.V. Rao|Toxicity to and Oxygen Consumption of the Freshwater Snail Thiara (Stenomelania) torulosa (Bruguiere)in Relation to Organophosphorus Insecticide|Bull. Environ. Contam. Toxicol.42(5): 773-777|1989|10.1007/BF01700402
567|A||Pant,S.C., S. Kumar, and S.S. Khanna|Toxicity of Copper Sulphate and Zinc Sulphate to Fresh Water Teleost Puntius conchonius (Ham.) in Hard Water|Comp. Physiol. Ecol.5(3): 146-149|1980|
568|A||Joshi,A.G., and M.S. Rege|Acute Toxicity of Some Pesticides & a Few Inorganic Salts to the Mosquito Fish Gambusia affinis (Baird & Girard)|Indian J. Exp. Biol.18:435-437|1980|
569|A||DeGraeve,G.M., D.L. Geiger, J.S. Meyer, and H.L. Bergman|Acute and Embryo-Larval Toxicity of Phenolic Compounds to Aquatic Biota|Arch. Environ. Contam. Toxicol.9(5): 557-568|1980|10.1007/BF01056935
570|A||Konemann,H., and K. van Leeuwen|Toxicokinetics in Fish: Accumulation and Elimination of Six Chlorobenzenes by Guppies|Chemosphere9(1): 3-19|1980|10.1016/0045-6535(80)90150-2
571|A||Anderson,R.L., and D.L. De Foe|Toxicity and Bioaccumulation of Endrin and Methoxychlor in Aquatic Invertebrates and Fish|Environ. Pollut. A.22(2): 111-121|1980|10.1016/0143-1471(80)90187-7
572|A||Zitko,V.|The Uptake and Excretion of Mirex and Dechloranes by Juvenile Atlantic Salmon|Chemosphere9(2): 73-78|1980|10.1016/0045-6535(80)90091-0
573|A||Tilak,K.S., D.M.R. Rao, A.P. Devi, and A.S. Murty|Toxicity of Carbaryl and 1-Naphthol to the Freshwater Fish Labeo rohita|Indian J. Exp. Biol.18:75-76|1980|
574|A||Minniti,F.|Effects of Copper Pollution on the Hepatopancreas of Cyclope neritea L. (Mollusca: Gastropoda)|Zool. Anz. (Multiple Languages)219(3/4): 141-146|1987|
575|A||Tooby,T.E., J. Lucey, and B. Stott|The Tolerance of Grass Carp, Ctenopharyngodon idella Val., to Aquatic Herbicides|J. Fish Biol.16(5): 591-597|1980|10.1111/j.1095-8649.1980.tb03736.x
576|A||Hanumante,M.M., and S.S. Kulkarni|Acute Toxicity of Two Molluscicides, Mercuric Chloride and Pentachlorophenol to a Freshwater Fish (Channa gachua)|Bull. Environ. Contam. Toxicol.23(6): 725-727|1979|10.1007/BF01770031
577|A|OECDG|Melancon,M.J., and J.J. Lech|Uptake, Metabolism, and Elimination of 14C-Labeled 1,2,4-Trichlorobenzene in Rainbow Trout and Carp|J. Toxicol. Environ. Health6:645-658|1980|10.1080/15287398009529882
578|A||Biagianti,S.|Ultrastructural Alterations of the Liver of Young Mullets by a Herbicide - Atrazine (S-Triazine)|Aquat. Sci. Fish. Abstr.15(11): 23639-1Q15|1985|
579|A||Srivastava,A.K., and S. Mishra|Blood Dyscrasia in a Teleost Fish, Colisa fasciatus, Associated with Cadmium Poisoning|J. Comp. Pathol.89(4): 609-613|1979|10.1016/0021-9975(79)90053-7
580|A||Maheshwari,U.K., B.C. Das, S. Paul, S.K. Chouhan, and A.K. Yadav|Bioassay Studies of Some Commercial Organic Pesticides to an Exotic Carp Fry, Hypophthalmichthys molitrix (C. & V)|J. Environ. Biol.9(4): 377-380|1988|
581|A||Abram,F.S.H., and P. Wilson|The Acute Toxicity of CS to Rainbow Trout|Water Res.13(7): 631-635|1979|10.1016/0043-1354(79)90012-5
582|A||Carlson,R.M., A.R. Oyler, E.H. Gerhart, R. Caple, K.J. Welch, H.L. Kopperman, D. Bodenner, and D. Swanson|Implications to Aquatic Environment of Polynuclear Aromatic Hydrocarbons Liberated From Northern Great Plains Coal|EPA-600/3-79-093, U.S.EPA, Duluth, MN:156 p.|1979|
583|A||Trabalka,J.R., and M.B. Burch|Effects of Water-Soluble Chlorine-Containing Organics on Aquatic Environments - Another Perspective|Toxicol. Lett.3:201-207|1979|10.1016/0378-4274(79)90034-1
584|A||Pickering,Q.H.|Chronic Toxicity of Hexavalent Chromium to the Fathead Minnow (Pimephales promelas)|Arch. Environ. Contam. Toxicol.9:405-413|1980|10.1007/BF01055292
585|A||Srivastava,A.K., S.J. Agrawal, and H.S. Chaudhry|Effects of Chromium on the Blood of a Freshwater Teleost|Ecotoxicol. Environ. Saf.3:321-324|1979|10.1016/0147-6513(79)90020-4
586|A||Thompson,K.W., A.C. Hendricks, and J.,Jr. Cairns|Acute Toxicity of Zinc and Copper Singly and in Combination to the Bluegill (Lepomis macrochirus)|Bull. Environ. Contam. Toxicol.25(1): 122-129|1980|10.1007/BF01985499
587|A||Anderson,P.D., and P.A. Spear|Copper Pharmacokinetics in Fish Gills-II Body Size Relationships for Accumulation and Tolerance|Water Res.14(8): 1107-1111|1980|10.1016/0043-1354(80)90160-8
588|A||Horning,W.B., and T.W. Neiheisel|Chronic Effect of Copper on the Bluntnose Minnow, Pimephales notatus (Rafinesque)|Arch. Environ. Contam. Toxicol.8(5): 545-552|1979|10.1007/BF01055035
589|A||Beaumont,G., R. Bastin, and H.P. Therrien|Physiological Effects of Sublethal Doses of Atrazine on Lemna minor L. I.  Influence on Growth and Chlorophyll Protein, and Total Soluble Nitrogen|Nat. Can.103(6): 527-533|1976|
590|A||Skea,J.C., and H.A. Simonin|Evaluation of Cutrine for Use in Fish Culture|Prog. Fish-Cult.41(4): 171-174|1979|10.1577/1548-8659(1979)41[171:EOCFUI]2.0.CO;2
591|A||Appleton,H.T., and H.C. Sikka|Accumulation, Elimination, and Metabolism of Dichlorobenzidine in the Bluegill Sunfish|Environ. Sci. Technol.14(1): 50-54|1980|10.1021/es60161a005
592|A||Hinton,M.J., and A.G. Eversole|Toxicity of Ten Chemicals Commonly Used in Aquaculture to the Black Eel Stage of the American Eel|Proc World Maricul Soc10:554-560|1979|
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617|A||Sielicki,M., and J.C. Burnham|The Effect of Selenite on the Physiological and Morphological Properties of the Blue-Green Alga Phormidium luridum var. olivacea|J. Phycol.9(3): 509-514|1973|
618|A||Radhaiah,V., K.V. Joseph, and K.J. Rao|Toxic Effect of Fenvalerate on Fructose-1,6-Diphosphate Aldolase Activity of Liver, Gill, Kidney, and Brain of the Fresh Water Teleost, Tilapia|Bull. Environ. Contam. Toxicol.42(1): 150-153|1989|10.1007/BF01699216
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621|A||Alikhan,M.A., and S. Zia|Nickel Uptake and Regulation in a Copper-Tolerant Decapod, Cambarus bartoni (Fabricus) (Decapoda, Crustacea)|Bull. Environ. Contam. Toxicol.42(1): 94-102|1989|10.1007/BF01699209
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629|A||Lowe,J.I.|Effects of Prolonged Exposure to Sevin on an Estuarine Fish, Leiostomus xanthurus Lacepede|Bull. Environ. Contam. Toxicol.2(3): 147-155|1967|10.1007/BF01684014
630|A||Macek,K.J., K.S. Buxton, S.K. Derr, J.W. Dean, and S. Sauter|Chronic Toxicity of Lindane to Selected Aquatic Invertebrates and Fishes|EPA-600/3-76-046, U.S.EPA, Duluth, MN:50 p.|1976|
631|A||Macek,K.J., K.S. Buxton, S. Sauter, S. Gnilka, and J.W. Dean|Chronic Toxicity of Atrazine to Selected Aquatic Invertebrates and Fishes|EPA-600/3-76-047, U.S.EPA, Duluth, MN:50 p.|1976|
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633|A||Mellinger,P.J.|The Comparative Metabolism of Two Mercury Compounds as Environmental Contaminants in the Freshwater Mussel, Margaritifera margaritifera|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:173-180|1973|
634|A||Hattula,M.L., H. Reunanen, and A.U. Arstila|The Toxicity of MCPA to Fish. Light and Electron Microscopy and the Chemical Analysis of the Tissue|Bull. Environ. Contam. Toxicol.19(4): 465-470|1978|10.1007/BF01685827
635|A||Statham,C.N., and J.J. Lech|Studies on the Mechanism of Potentiation of the Acute Toxicity of 2,4-D n-Butyl Ester and 2',5-Dichloro-4'-Nitrosalicylanilide in Rainbow Trout by Carbaryl|Toxicol. Appl. Pharmacol.36(2): 281-296|1976|10.1016/0041-008X(76)90007-7
636|A||Sitthichaikasem,S.|Some Toxicological Effects of Phosphate Esters on Rainbow Trout and Bluegill|Ph.D.Thesis, Iowa State University, Ames, IA:258 p.|1978|
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639|A||Saxena,P.K., and M. Garg|Effect of Insecticidal Pollution on Ovarian Recrudescence in the Fresh Water Teleost Channa punctatus (Bl.)|Indian J. Exp. Biol.16:689-691|1978|
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644|A||Dean,H.J., J.R. Colquhoun, and H.A. Simonin|Toxicity of Methoxychlor and Naled to Several Life Stages of Landlocked Atlantic Salmon|N. Y. Fish Game J.24(2):144-153|1977|
645|A||Kawatsu,H.|Studies on the Anemia of Fish - VIII. Hemorrhagic Anemia of Carp Caused by a Herbicide, Molinate|Nippon Suisan Gakkaishi (Multiple Languages)43(8): 905-912|1977|10.2331/suisan.43.905
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648|A||Mayer,F.L.,Jr., P.M.,Jr. Mehrle, and W.P. Dwyer|Toxaphene: Chronic Toxicity to Fathead Minnows and Channel Catfish|EPA-600/3-77-069, U.S.EPA, Duluth, MN:38 p.|1977|
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650|A||Mehrle,P.M., and F.L.,Jr. Mayer|Toxaphene Effects on Growth and Bone Composition of Fathead Minnows, Pimephales promelas|J. Fish. Res. Board Can.32(5): 593-598|1975|10.1139/f75-076
651|A||Terriere,L.C., U. Kiigemagi, A.R. Gerlach, and R.L. Borovicka|The Persistence of Toxaphene in Lake Water and Its Uptake by Aquatic Plants and Animals|J. Agric. Food Chem.14(1): 66-69|1966|10.1021/jf60143a021
652|A||Mayes,R.A., A.W. McIntosh, and V.L. Anderson|Uptake of Cadmium and Lead by a Rooted Aquatic Macrophyte (Elodea canadensis)|Ecology58(5): 1176-1180|1977|10.2307/1936940
653|A||Corbet,R.L., G.R.B. Webster, and D.C.G. Muir|Fate of 1,3,6,8-Tetrachlorodibenzo-p-Dioxin in an Outdoor Aquatic System|Environ. Toxicol. Chem.7(2): 167-180|1988|
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656|A||Zia,S., and M.A. Alikhan|Copper Uptake and Regulation in a Copper-Tolerant Decapod Cambarus bartoni (Fabricius) (Decapoda, Crustacea)|Bull. Environ. Contam. Toxicol.42(1): 103-110|1989|10.1007/BF01699210
657|A||Dawson,D.A., E.F. Stebler, S.L. Burks, and J.A. Bantle|Evaluation of the Developmental Toxicity of Metal-Contaminated Sediments Using Short-Term Fathead Minnow and Frog Embryo-Larval Assays|Environ. Toxicol. Chem.7(1): 27-34|1988|10.1897/1552-8618(1988)7[27:EOTDTO]2.0.CO;2
658|A||Matthiessen,P.|Uptake, Metabolism and Excretion of the Molluscicide N-Tritylmorpholine by the Tropical Food Fish Sarotherodon mossambicus (Peters)|J. Fish Biol.11(5): 497-509|1977|10.1111/j.1095-8649.1977.tb04142.x
659|A||Knezovich,J.P., M.P. Lawton, and L.S. Inouye|Bioaccumulation and Tissue Distribution of a Quarternary Ammonium Surfactant in Three Aquatic Species|Bull. Environ. Contam. Toxicol.42(1): 87-93|1989|10.1007/BF01699208
660|A||Hawkes,C.L., and L.A. Norris|Chronic Oral Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) to Rainbow Trout|Trans. Am. Fish. Soc.106(6): 641-645|1977|10.1577/1548-8659(1977)106<641:COTOTT>2.0.CO;2
661|A||Verma,S.R., S.K. Bansal, and R.C. Dalela|Toxicity of Selected Organic Pesticides to a Fresh Water Teleost Fish, Saccrobranchus fossilis and Its Application in Controlling Water Pollution|Arch. Environ. Contam. Toxicol.7(3): 317-323|1978|10.1007/BF02332059
662|A||Gersich,F.M., and D.P. Milazzo|Chronic Toxicity of Aniline and 2,4-Dichlorophenol to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.40(1): 1-7|1988|10.1007/BF01689377
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665|A||Mauck,W.L., L.E. Olson, and J.W. Hogan|Effects of Water Quality on Deactivation and Toxicity of Mexacarbate (Zectran) to Fish|Arch. Environ. Contam. Toxicol.6(4): 385-393|1977|10.1007/BF02097779
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670|A||Buckley,J.A.|Acute Toxicity of Un-ionized Ammonia to Fingerling Coho Salmon|Prog. Fish-Cult.40(1): 30-32|1978|10.1577/1548-8659(1978)40[30:ATOUAT]2.0.CO;2
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672|A||Bender,M.E., and J.R. Westman|The Toxicity of Malathion and Its Hydrolysis Products to the Eastern Mudminnow, Umbra pygmaea (DeKay)|Chesapeake Sci.17(2): 125-128|1976|10.2307/1351055
673|A||Slonim,A.R.|Acute Toxicity of Selected Hydrazines to the Common Guppy|Water Res.11(10): 889-895|1977|10.1016/0043-1354(77)90077-X
674|A||Keller,A.E., R.J. Dutton, and T.L. Crisman|Effect of Temperature on the Chronic Toxicity of Hydrothol-191 to the Fathead Minnow (Pimephales promelas)|Bull. Environ. Contam. Toxicol.41(5): 770-775|1988|10.1007/BF02021032
675|A||Chevalier,J.R.|Toxicity of Sodium Sulfide to Common Shiners-Dynamic Bioassay|TAPPI (Tech. Assoc. Pulp Pap. Ind.)56(5):135-136|1973|
676|A||Walsh,D.F., J.G. Armstrong, T.R. Bartley, H.A. Salman, and P.A. Frank|Residues of Emulsified Xylene in Aquatic Weed Control and Their Impact on Rainbow Trout Salmo gairdneri|REC-ERC-76-11, Appl.Sci.Branch, Eng.Res.Cent., Denver, CO:15 p.|1977|
677|A||Monserrat,J.M., E.M. Rodriguez, and R.J. Lombardo|Effects of Salinity on the Toxicity of Parathion to the Estuarine Crab Chasmagnathus granulata (Decapoda, Grapsidae)|Bull. Environ. Contam. Toxicol.46:569-575|1991|10.1007/BF01688201
678|A||Hobson,J.F., and W.J. Birge|Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Zinc|Environ. Toxicol. Chem.8(2): 157-169|1989|
679|A||Nebeker,A.V., F.A. Puglisi, and D.L. DeFoe|Effect of Polychlorinated Biphenyl Compounds on Survival and Reproduction of the Fathead Minnow and Flagfish|Trans. Am. Fish. Soc.103(3): 562-568|1974|10.1577/1548-8659(1974)103<562:EOPBCO>2.0.CO;2
680|A||DeFoe,D.L., G.D. Veith, and R.W. Carlson|Effects of Aroclor 1248 and 1260 on the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.35(7): 997-1002|1978|10.1139/f78-161
681|A||Mayer,F.L., P.M. Mehrle, and H.O. Sanders|Residue Dynamics and Biological Effects of Polychlorinated Biphenyls in Aquatic Organisms|Arch. Environ. Contam. Toxicol.5(4): 501-511|1977|10.1007/BF02220928
682|A||Isensee,A.R.|Variability of Aquatic Model Ecosystem-Derived Data|Int. J. Environ. Stud.10:35-41|1976|10.1080/00207237608737290
683|A||Krzeminski,S.F., J.T. Gilbert, and J.A. Ritts|A Pharmacokinetic Model for Predicting Pesticide Residues in Fish|Arch. Environ. Contam. Toxicol.5(2): 157-166|1977|10.1007/BF02220898
684|A||Lopez-Zavala,A., A.S. De Aluja, B.L. Elias, L. Manjarrez, A. Buchmann, L. Mercado, and S. Caltenco|The Effects of the ABS, LAS and AOS Detergents on Fish, Domestic Animals and Plants|Prog. Water Technol.7(2): 73-82|1975|
685|A||Marking,L.L.|Toxicity of 2-(Digeranylamino)-Ethanol, a Candidate Selective Fish Toxicant|Trans. Am. Fish. Soc.103(4): 736-742|1974|10.1577/1548-8659(1974)103<736:TODACS>2.0.CO;2
687|A||Johnson,W.W., and H.O. Sanders|Chemical Forest Fire Retardants: Acute Toxicity to Five Freshwater Fishes and a Scud|Tech.Pap.No.91, Fish Wildl.Serv., U.S.D.I., Washington, D.C.:7 p.|1977|
688|A||Harrison,S.E., and J.F. Klaverkamp|Uptake, Elimination and Tissue Distribution of Dietary and Aqueous Cadmium by Rainbow Trout (Salmo gairdneri Richardson) and Lake Whitefish|Environ. Toxicol. Chem.8(1): 87-97|1989|10.1002/etc.5620080110
689|A||Xu,Y., J.P. Lay, and F. Korte|Fate and Effects of Xanthates in Laboratory Freshwater Systems|Bull. Environ. Contam. Toxicol.41(5):683-689|1988|10.1007/BF02021019
690|A||Biesinger,K.E., A.E. Lemke, W.E. Smith, and R.M. Tyo|Comparative Toxicity of Polyelectrolytes to Selected Aquatic Animals|J. Water Pollut. Control Fed.48(1): 183-187|1976|
691|A||Hakkila,K., and A. Niemi|Effects of Oil and Emulsifiers on Eggs and Larvae of Northern Pike (Esox lucius) in Brackish Waters|Aqua Fenn.:44-59|1973|
692|A||Ali,A., H.N. Nigg, J.H. Stamper, M.L. Kok-Yokomi, and M. Weaver|Diflubenzuron Application to Citrus and Its Impact on Invertebrates in an Adjacent Pond|Bull. Environ. Contam. Toxicol.41(5): 781-790|1988|10.1007/BF02021034
693|A||Robertson,J.B., and C. Mazzella|Acute Toxicity of the Pesticide Diazinon to the Freshwater Snail Gillia altilis|Bull. Environ. Contam. Toxicol.42(3): 320-324|1989|10.1007/BF01699955
694|A||Miura,T., and R.M. Takahashi|Effects of a Synthetic Pyrethroid, SD43775, on Nontarget Organisms when Utilized as a Mosquito Larvicide|Mosq. News36(3): 322-326|1976|
695|A||Acey,R., P. Healy, T.F. Unger, C.E. Ford, and R.A. Hudson|Growth and Aggregation Behavior of Representative Phytoplankton as Affected by the Environmental Contaminant Di-n-Butyl Phthalate|Bull. Environ. Contam. Toxicol.39(1): 1-6|1987|10.1007/BF01691781
696|A||Dave,G., and U. Lidman|Biological and Toxicological Effects of Solvent Extraction Chemicals. Range Finding Acute Toxicity in the Rainbow Trout (Salmo gairdneri) and in the|Hydrometallurgy3:201-216|1978|10.1016/0304-386X(78)90023-3
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729|A||Oronsaye,J.A.O.|Histological Changes in the Kidneys and Gills of the Stickleback, Gasterosteus aculeatus L, Exposed to Dissolved Cadmium in Hard Water|Ecotoxicol. Environ. Saf.17(3): 279-290|1989|10.1016/0147-6513(89)90048-1
730|A||Mayer,F.L.,Jr., D.L. Stalling, and J.L. Johnson|Phthalate Esters as Environmental Contaminants|Nature238(5364): 411-413|1972|10.1038/238411a0
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732|A||Sanders,H.O., F.L.,Jr. Mayer, and D.F. Walsh|Toxicity, Residue Dynamics, and Reproductive Effects of Phthalate Esters in Aquatic Invertebrates|Environ. Res.6(1): 84-90|1973|10.1016/0013-9351(73)90020-0
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742|A||Khattat,F., and S. Farley|Acute Toxicity of Certain Pesticides to Acartia tonsa Dana|EPA-006/3-76-033, Hazleton Laboratories:39 p.|1976|
743|A||Cruz,E.R., and C.L. Pitogo|Tolerance Level and Histopathological Response of Milkfish (Chanos chanos) Fingerlings to Formalin|Aquaculture78(2): 135-145|1989|10.1016/0044-8486(89)90027-6
744|A||Sebastien,R.J., R.A. Brust, and D.M. Rosenberg|Impact of Methoxychlor on Selected Nontarget Organisms in a Riffle of the Souris River, Manitoba|Can. J. Fish. Aquat. Sci.46(6): 1047-1061|1989|10.1139/f89-136
745|A||Leland,H.V., S.V. Fend, T.L. Dudley, and J.L. Carter|Effects of Copper on Species Composition of Benthic Insects in a Sierra Nevada, California, Stream|Freshw. Biol.21(2): 163-179|1989|10.1111/j.1365-2427.1989.tb01356.x
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747|A||Nath,K., and N. Kumar|Nickel-Induced Histopathological Alterations in the Gill Architecture of a Tropical Freshwater Perch, Colisa fasciatus (Bloch and Schn.)|Sci. Total Environ.80(2-3): 293-296|1989|10.1016/0048-9697(89)90083-1
748|A||Takacs,R.L., R.B.,Jr. Forward, and W. Kirby-Smith|Effects of the Herbicide Alachlor on Larval Development of the Mud Crab, Rhithropanopeus harrisii (Gould)|Estuaries11(2): 79-82|1988|10.2307/1351993
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750|A||Sanborn,J.R., W.F. Childers, and R.L. Metcalf|Uptake of Three Polychlorinated Biphenyls, DDT and DDE by the Green Sunfish, Lepomis cyanellus Raf|Bull. Environ. Contam. Toxicol.13(2): 209-217|1975|10.1007/BF01721740
751|A||Rao,D.M.R.|Studies on the Relative Toxicity and Metabolism of Endosulfan to the Indian Major Carp Catla catla with Special Reference to Some Biochemical Changes|Pestic. Biochem. Physiol.33(3): 220-229|1989|10.1016/0048-3575(89)90120-X
752|A||Vasseur,P., P. Pandard, and D. Burnel|Influence of Some Experimental Factors on Metal Toxicity to Selenastrum capricornutum|Toxic. Assess.3(3): 331-444|1988|10.1002/tox.2540030308
753|A||Shigeoka,T., T. Yamagata, T. Minoda, and F. Yamauchi|Acute Toxicity and Hatching Inhibition of Chlorophenols to Japanese Medaka, Oryzias latipes and Structure-Activity Relationships|Eisei Kagaku (Multiple Languages)34(4): 343-349|1988|
754|A||Takimura,O., and Y. Yamaoka|Accumulation and Speciation of Arsenic in Dunaliella sp. at Growth Phase|Nippon Kagaku Kaishi5:819-822|1988|10.1246/nikkashi.1988.819
755|A||Richmonds,C., and H.M. Dutta|Effects of Malathion on the Liver Cells and Serum Proteins of Bluegill Lepomis macrochirus|Am. Zool.28(4): A196|1988|
756|A||Nasreen|Lethal Toxicity of Lead Nitrate to Tetrahymena pyriformis|Curr. Sci. (Bangalore)57(19): 1089-1091|1988|
757|A||Douben,P.E.T.|Uptake and Elimination of Waterborne Cadmium by the Fish Noemacheilus barbatulus L. (Stone Loach)|Arch. Environ. Contam. Toxicol.18(4): 576-586|1989|10.1007/BF01055025
758|A||Poulton,B.C., T.L. Beitinger, and K.W. Stewart|The Effect of Hexavalent Chromium on the Critical Thermal Maximum and Body Burden of Clioperla clio (Plecoptera: Perlodidae)|Arch. Environ. Contam. Toxicol.18(4): 594-600|1989|10.1007/BF01055027
759|A||Skelley,J.R.|Toxicity of 2-Sec-Butyl-4,6-Dinitrophenol (Dinoseb)and Monosodium Methanearsonate (MSMA), Individuallyand in a Mixture, to Channel Catfish|Environ. Toxicol. Chem.8(7): 623-628|1989|
760|A||Nebeker,A.V., W.L. Griffis, C.M. Wise, E. Hopkins, and J.A. Barbitta|Survival, Reproduction and Bioconcentration in Invertebrates and Fish Exposed to Hexachlorobenzene|Environ. Toxicol. Chem.8(7): 601-611|1989|10.1002/etc.5620080707
761|A||Thybaud,E.|Toxicite Aigue et Bioconcentration du Lindane et de la Deltamethrine par les Tetards de Rana temporaria et les Gambusies (Gambusia affinis)|Hydrobiologia (Multiple Languages)190(2): 137-145|1990|10.1007/BF00014104
762|A||Kline,E.R., A.W. Jarvinen, and M.L. Knuth|Acute Toxicity of Triphenyltin Hydroxide to Three Cladoceran Species|Environ. Pollut.56(1):11-17|1989|10.1016/0269-7491(89)90117-6
763|A||Thellen,C., N.St Louis, R. Van Coillie, and P. Lebrun|Ecotoxicity of the Insecticide Fenitrothion and its Commercial Preparation to Salmonids|Acta Oecol. Oecol. Appl. (Multiple Languages)8(4): 301-315|1987|
765|A||Khangarot,B.S., and P.K. Ray|Studies on the Toxicity of Malathion to Freshwater Teleosts, Channa punctatus (Bloch) and Puntius sophore (Hamilton)|Arch. Hydrobiol.113(3): 465-469|1988|10.1127/archiv-hydrobiol/113/1988/465
766|A||Winner,R.W., and H.A. Owen|Seasonal Variability in the Sensitivity of Freshwater Phytoplankton Communities to a Chronic Copper Stress|Aquat. Toxicol.19(2): 73-88|1991|10.1016/0166-445X(91)90028-8
768|A||Gabryelak,T., G. Zalesna, H. Roche, and G. Peres|The Effect of MS 222 an Anaesthetic on the PeroxideMetabolism Enzymes in Erythrocytes of Freshwater and Marine Fish Species|Comp. Biochem. Physiol. C Comp. Pharmacol.92(1): 5-8|1989|10.1016/0742-8413(89)90193-X
769|A||Kelada,N.L., and N. Shaker|Toxicity of Three Chemical Insecticides in Combination with Bacillus spp. Against Mosquito Larvae|Insect Sci. Appl.9(2): 229-231|1988|
770|A||Das,P.K.M.K., and S.K. Konar|Acute Toxicity of Petroleum Products, Crude Oil andOil Refinery Effluent on Plankton, Benthic Invertebrates and Fish|Environ. Ecol.6(4): 885-891|1988|
771|A||Ghatak,D.B., M.M. Hossain, and S.K. Konar|Acute Toxicity of n-Heptane and n-Hexane on Worm and Fish|Environ. Ecol.6(4): 943-947|1988|
772|A||Borgmann,U., K.M. Ralph, and W.P. Norwood|Toxicity Test Procedures for Hyalella azteca, and Chronic Toxicity of Cadmium and Pentachlorophenol to H. azteca, Gammarus fasciatus, and Daphnia magna|Arch. Environ. Contam. Toxicol.18(5): 756-764|1989|10.1007/BF01225013
773|A||Martin,R.C., D.G. Dixon, R.J. Maguire, P.V. Hodson, and R.J. Tkacz|Acute Toxicity, Uptake, Depuration and Tissue Distribution of Tri-n-Butyltin in Rainbow Trout, Salmo gairdneri|Aquat. Toxicol.15(1): 37-52|1989|10.1016/0166-445X(89)90004-0
774|A||Sicko-Goad,L., J. Hall, D. Lazinsky, and M.S. Simmons|Effects of Chlorinated Benzenes on Diatom Fatty Acid Composition and Quantitative Morphology. II. 1,3,5-Trichlorobenzene|Arch. Environ. Contam. Toxicol.18(5): 638-646|1989|10.1007/BF01225002
775|A||Sicko-Goad,L., M.S. Evans, D. Lazinsky, J. Hall, and M.S. Simmons|Effects of Chlorinated Benzenes on Diatom Fatty Acid Composition and Quantitative Morphology. IV. Pentachlorobenzene and Comparison with Trichlorobenzene Isomers|Arch. Environ. Contam. Toxicol.18(5): 656-668|1989|10.1007/BF01225004
776|A||Stephenson,M., and G.L. Mackie|A Laboratory Study of the Effects of Waterborne Cadmium, Calcium, and Carbonate Concentrations on Cadmium Concentrations in Hyalella azteca (Crustacea:  Amphipoda)|Aquat. Toxicol.15(1): 53-62|1989|10.1016/0166-445X(89)90005-2
777|A||Marty,J., P. Lesca, A. Jaylet, C. Ardourel, and J.L. Riviere|In Vivo and In Vitro Metabolism of Benzo(a)pyrene by the Larva of the Newt, Pleurodeles waltl|Comp. Biochem. Physiol. C Comp. Pharmacol.93(2): 213-219|1989|10.1016/0742-8413(89)90223-5
778|A||Hamilton,P.B., D.R.S. Lean, G.S. Jackson, N.K. Kaushik, and K.R. Solomon|The Effect of Two Applications of Atrazine on the Water Quality of Freshwater Enclosures|Environ. Pollut.60(4): 291-304|1989|10.1016/0269-7491(89)90110-3
779|A||Al-Chalabi,K.A.K., and B.H.A. Al-Khayat|The Effect of Lindane on Nucleic Acids, Protein and Carbohydrate Content in Tetrahymena pyriformis|Environ. Pollut.57(4): 281-287|1989|10.1016/0269-7491(89)90083-3
780|A||Raven,P.J., and J.J. George|Recovery by Riffle Macroinvertebrates in a River After a Major Accidental Spillage of Chlorpyrifos|Environ. Pollut.59(1): 55-70|1989|10.1016/0269-7491(89)90021-3
781|A||Reddy,S.L.N., N.B.R. Venu Gopal, A.N. Reddy, and J.V. Ramana Rao|Fluoride-Induced Changes in Carbohydrate Metabolism in the Tissues of Fresh Water Crab Barytelphusa guerini|Ecotoxicol. Environ. Saf.18(1): 59-67|1989|10.1016/0147-6513(89)90091-2
782|A||Munkittrick,K.R., and D.G. Dixon|Effects of Natural Exposure to Copper and Zinc on Egg Size and Larval Copper Tolerance in White Sucker (Catostomus commersoni)|Ecotoxicol. Environ. Saf.18(1): 15-26|1989|10.1016/0147-6513(89)90088-2
783|A||Oladimeji,A.A., and B.O. Offem|Toxicity of Lead to Clarias lazera, Oreochromis niloticus, Chironomus tentans and Benacus sp|Water Air Soil Pollut.44(3): 191-201|1989|10.1007/BF00279254
784|A||Juarez,L.M., and J. Sanchez|Toxicity of the Organophosphorous Insecticide Metamidophos (O,S-Dimethyl Phosphoramidothioate) to Larvae of the Freshwater Prawn Macrobrachium rosenbergii (De Man) and the Blue Shrimp Penaeus stylirostris Stimpson|Bull. Environ. Contam. Toxicol.43(2): 302-309|1989|10.1007/BF01701762
785|A||Tucker,C.S., R. Francis-Floyd, and M.H. Beleau|Nitrite-Induced Anemia in Channel Catfish, Ictalurus punctatus Rafinesque|Bull. Environ. Contam. Toxicol.43(2): 295-301|1989|10.1007/BF01701761
786|A||Naqvi,S.M., and R.H. Hawkins|Responses and LC50 Values for Selected Microcrustaceans Exposed to Spartan, Malathion, Sonar, Weedtrine-D, and Oust Pesticides|Bull. Environ. Contam. Toxicol.43(3): 386-393|1989|10.1007/BF01701873
787|A||Pyron,M., and T.L. Beitinger|Effect of Selenium on Reproductive Behavior and Fry of Fathead Minnows|Bull. Environ. Contam. Toxicol.42(4): 609-613|1989|10.1007/BF01700245
788|A||Chagnon,N., and I. Hlohowskyj|Effects of Phenol Exposure on the Thermal Tolerance Ability of the Central Stoneroller Minnow|Bull. Environ. Contam. Toxicol.42(4): 614-619|1989|10.1007/BF01700246
789|A||Bradbury,S.P., T.R. Henry, G.J. Niemi, R.W. Carlson, and V.M. Snarski|Use of Respiratory-Cardiovascular Responses of Rainbow Trout (Salmo gairdneri) in Identifying Acute Toxicity Syndromes in Fish: Part 3. Polar Narcotics|Environ. Toxicol. Chem.8(3): 247-261|1989|
790|A||Svensmark,B., and J. Larsen|Determination of the Labile Species of Zinc by Anodic Stripping Staircase Voltammetry, with Special Refernce to Correlation with the Toxicity to Tetrahymena|Talanta35(12): 953-957|1988|10.1016/0039-9140(88)80227-3
791|A||Anadu,D.I., G.A. Chapman, L.R. Curtis, and R.A. Tubb|Effect of Zinc Exposure on Subsequent Acute Tolerance to Heavy Metals in Rainbow Trout|Bull. Environ. Contam. Toxicol.43(3): 329-336|1989|10.1007/BF01701865
792|A|OECDG|Gersich,F.M., E.A. Bartlett, P.G. Murphy, and D.P. Milazzo|Chronic Toxicity of Biphenyl to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.43(3): 355-362|1989|10.1007/BF01701869
793|A||Solomon,K.R., G.L. Stephenson, and N.K. Kaushik|Effects of Methoxychlor on Zooplankton in Freshwater Enclosures:  Influence of Enclosure Size and Number of Applications|Environ. Toxicol. Chem.8(8): 659-699|1989|10.1002/etc.5620080804
794|A||Heming,T.A., and K.A. Blumhagen|Factors Influencing Thiocyanate Toxicity in Rainbow Trout Salmo gairdneri|Bull. Environ. Contam. Toxicol.43(3): 363-369|1989|10.1007/BF01701870
795|A||Muniandy,S.|Effects of Copper Sulfate on Food Utilization, Growth and Conversion Efficiency of the Freshwater Fish Lepidocephalichthyes thermalis|Environ. Ecol.6(4): 968-971|1988|
796|A||Machado,J., J. Coimbra, and C. Sa|Shell Thickening in Anodonta cygnea by TBTO Treatments|Comp. Biochem. Physiol. C Comp. Pharmacol.92(1): 77-80|1989|10.1016/0742-8413(89)90206-5
797|A||Ramalingam,K.|Effects of DDT, Malathion and Mercury on the Liver Histomorphology of the Fish Sarotherodon mossambicus|Environ. Ecol.6(3): 761-762|1988|
798|A||Malcolm,C.A.|Reduced Susceptibility to Permethrin and Its Relationship to DDT Resistance in Larvae of Anopheles stephensi|Med. Vet. Entomol.2(1): 27-46|1988|10.1111/j.1365-2915.1988.tb00047.x
799|A||Sherekar,P.Y., and K.M. Kulkarni|Comparative Evaluation of Some Organophosphate Pesticide Toxicity to the Fish Channa orientalis|Environ. Ecol.6(4): 877-880|1988|
800|A||Chetty,A.N., K.V. Joseph, and K.J. Rao|Effect of Methyl Parathion on Fresh Water Mussel Lamellidens marginalis|Environ. Ecol.6(3): 698-700|1988|
801|A||Ray,S., I. Chakrabarti, A. Bose, and R. Sur|Effect of Sublethal Concentrations of Methyl Parathion on the Activities of Acetylcholinesterase, Esterase, Mitochondrial ATP-ase, GOT and GPT of an|Environ. Ecol.6(3): 563-567|1988|
802|A||Gupta,A.K.|Accumulation of Cadmium in the Fishes Heteropneustes fossilis and Channa punctatus|Environ. Ecol.6(3): 577-580|1988|
803|A||Banerjee,V., and K. Kumari|Effect of Zinc, Mercury and Cadmium on Erythrocyte and Related Parameters in the Fish Anabas testudineus|Environ. Ecol.6(3): 737-739|1988|
804|A||Sarkar,S.K., and S.K. Konar|Dynamics of Abiotic-Biotic Parameters of Water and Soil in Relation to Fish Growth Exposed to Ammonium Sulfate|Environ. Ecol.6(3): 730-733|1988|
805|A||Ravindran,K.|Effect of Petroleum Hydrocarbon Toluene on Some Oxidoreductase Systems of Freshwater Fish Tilapia mossambica|Environ. Ecol.6(3): 705-708|1988|
806|A||Shivaraj,K.M., and H.S. Patil|Toxicity of Silver Chloride to a Fresh Water Fish Lepidocephalichthyes guntea|Environ. Ecol.6(3): 713-716|1988|
807|A||Butler,P.A.|Commercial Fishery Investigations|In: Circular 226, Effects of Pesticides on Fish and Wildl., U.S.D.I., Washington, DC:65-77|1965|
808|A||Singh,A., and J.S.D. Munshi|Effects of Sublethal Mercuric Chloride Exposure on Melanophores of a Catfish, Heteropneustes fossilis (Bloch.)|J. Environ. Biol.13(4): 303-308|1992|
809|A||Vasantha,N., and A. Parveen|Behavioural and Biochemical Alterations in Endosulfan-Treated Fish|Am. Zool.28(4): A161|1988|
810|A||Magnin,M., E. Marboutin, and N. Pasteur|Insecticide Resistance in Culex quinquefasciatus (Diptera: Culicidae) in West Africa|J. Med. Entomol.25(2): 99-104|1988|10.1093/jmedent/25.2.99
811|A||Ram,R.N., K.P. Joy, and A.G. Sathyanesan|Cythion-Induced Histophysiological Changes in Thyroid and Thyrotrophs of the Teleost Fish, Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.17(3): 272-278|1989|10.1016/0147-6513(89)90047-X
812|A||Jana,S.|Mercury Absorption Capacity of Hydrilla verticillata|Environ. Ecol.6(3): 727-729|1988|
813|A||Jimenez,B.D., and L.S. Burtis|Influence of Environmental Variables on the Hepatic Mixed-Function Oxidase System in Bluegill Sunfish, Lepomis macrochirus|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 11-21|1989|10.1016/0742-8413(89)90003-0
814|A||Ghosh,K., and S. Jana|Effects of Combinations of Heavy Metals on Population Growth of Fish Nematode Spinicauda spinicauda in Aquatic Environment|Environ. Ecol.6(4): 791-794|1988|
815|A||Grobler,E., J.H.J. Van Vuren, and H.H. Du Preez|Routine Oxygen Consumption of Tilapia sparrmanii (Cichlidae) Following Acute Exposure to Atrazine|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 37-42|1989|10.1016/0742-8413(89)90007-8
816|A||Stephenson,R.R.|Testing Insecticides for Use in Rice/Fish Cultivation|BCPC Monogr. - Br. Crop Prot. Counc.40:237-243|1988|
818|A||Kumar,S., R. Lal, and P. Bhatnagar|The Effects of Dieldrin, Dimethoate and Permethrin on Tetrahymena pyriformis|Environ. Pollut.57(4): 275-280|1989|10.1016/0269-7491(89)90082-1
819|A||Shigeoka,T., T. Yamagata, T. Minoda, and F. Yamauchi|Toxicity Test of 2,4-Dichlorophenol on Embryo, Larval, and Early-Juvenile Japanese Medaka (Oryzias latipes) by Semi-Static Method|Eisei Kagaku (Multiple Languages)34(3): 274-278|1988|
820|A||Crossland,N.O.|A Method for Evaluating Effects of Toxic Chemicals on Fish Growth Rates|ASTM Spec. Tech. Publ.:463-467|1988|
821|A||Ankley,G.T., J.R. Dierkes, D.A. Jensen, and G.S. Peterson|Piperonyl Butoxide as a Tool in Aquatic Toxicological Research with Organophosphate Insecticides|Ecotoxicol. Environ. Saf.21(3): 266-274|1991|10.1016/0147-6513(91)90065-W
822|A||Areechon,N.|Acute and Subchronic Toxicity of Malathion in Channel Catfish|Ph.D.Thesis, Auburn University, Auburn, AL:138 p.|1987|
823|A||Van den Dikkenberg,R.P., H.H. Canton, L.A.M. Mathijssen-Spiekman, and C.J. Roghair|The Usefulness of Gasterosteus aculeatus - The Three-Spined Stickleback - as a Test Organism in Routine Toxicity Testing|Rep.No.718625003, Natl.Inst.Public Health Environ.Protection, Bilthoven:22 p.|1989|
826|A||Wohlgemuth,E.|Toxicity of the Rodenticide Brodifacoum for Some Aqueous Animals (Toxicita Rodenticidu Brodifacoum na Nektere Vodni Zivocichy)|Agrochemia (Bratisl.) (Multiple Languages)28(4): 126-128|1988|
827|A||Hirata,H., S. Yamaski, and E. Kobirata|Effect of Benthiocarb Herbicide on Cultivation of the Rotifer, Brachionus plicatilis|Aquat. Sci. Fish. Abstr.18(7): 10250-1Q18|1988|
828|A||Baba,K., H. Yahagi, T. Iida, and N. Oki|Acute Toxicity Judgement Method Based on Fish Movement Analysis|C. A. Sel. Environ. Pollut.1:2-|1988|
829|A||Zhang,M., F. Zhou, and S. Ding|Micronuclei in Peripheral Blood Erythrocytes of Tilapia Induced by Changzhou's Major Effluents and Two Organic Toxicants|C. A. Sel. Environ. Pollut.26:3-|1988|
830|A||Urrutia,M.L., and J.R. Tomasso|Acclimation of Channel Catfish to Environmental Nitrite|J. World Aquac. Soc.18(3): 175-179|1987|10.1111/j.1749-7345.1987.tb00436.x
831|A||Tilak,K.S.|Relative Toxicity of Carbaryl, 1-Naphthol, and Three Formulations of Carbaryl to Channa punctata (Bloch)|Matsya8:45-47|1982|
832|A||Verma,D.K., A. Sharma, and M. Sharma|Accumulation of DDT Residues in the Renal Tissue of Channa punctatus|J. Ecobiol.2(2): 166-171|1990|
833|A||Hall,K.J., and C. Jacob|Bioconcentration of Chlorophenols by Leeches and Their Use as In Situ Biological Monitors|Water Pollut. Res. J. Can.23(1): 69-87|1988|
834|A||Hawkins,W.E., W.W. Walker, J.S. Lytle, T.F. Lytle, and R.M. Overstreet|Carcinogenic Effects of 7,12-Dimethylbenz[a]anthracene on the Guppy (Poecilia reticulata)|Aquat. Toxicol.15(1): 63-82|1989|10.1016/0166-445X(89)90006-4
835|A||Mauck,W.L., L.E. Olson, and L.L. Marking|Toxicity of Natural Pyrethrins and Five Pyrethroids to Fish|Arch. Environ. Contam. Toxicol.4(1): 18-29|1976|10.1007/BF02221012
836|A||Palmer,R.E., R.J. Klauda, M.A. Jepson, and E.S. Perry|Acute Sensitivity of Early Life Stages of Fathead Minnow (Pimephales promelas) to Acid and Aluminum|Water Res.23(8): 1039-1047|1989|10.1016/0043-1354(89)90179-6
837|A||Ruesink,R.G., and L.L.,Jr. Smith|The Relationship of the 96-Hour LC50 to the Lethal Threshold Concentration of Hexavalent Chromium, Phenol, and Sodium Pentachlorophenate for Fathead Minnows (Pimephales promelas Rafinesque)|Trans. Am. Fish. Soc.104(3): 567-570|1975|10.1577/1548-8659(1975)104<567:TROTHL>2.0.CO;2
838|A||Cardwell,R.D., D.G. Foreman, T.R. Payne, and D.J. Wilbur|Acute Toxicity of Selected Toxicants to Six Species of Fish|EPA-600/3-76-008, U.S.EPA, Duluth, MN:125 p.|1976|
839|A||Hanazato,T., and M. Yasuno|Effects of Carbaryl on the Spring Zooplankton Communities in Ponds|Environ. Pollut.56(1): 1-10|1989|10.1016/0269-7491(89)90116-4
840|A||Crews,R.C.|Effects of Propylene Oxide on Selected Species of Fishes|Tech.Rep.AFATL-TR-74-183, Environics Office, Air Force Armament Lab., Eglin Air Force Base, FL:13 p.|1974|
841|A||Greizerstein,H.B., and C.M. Smith|Development and Loss of Tolerance to Ethanol in Goldfish|J. Pharmacol. Exp. Ther.187(2): 391-399|1973|
842|A||Webb,M., H. Ruber, and G. Leduc|The Toxicity of Various Mining Flotation Reagents to Rainbow Trout (Salmo gairdneri)|Water Res.10(4): 303-306|1976|10.1016/0043-1354(76)90171-8
843|A||Canton,J.H., and G.V. Van Esch|The Short-Term Toxicity of Some Feed Additives to Different Freshwater Organisms|Bull. Environ. Contam. Toxicol.15(6): 720-725|1976|10.1007/BF01685623
844|A||Leach,J.M., A.N. Thakore, and J.F. Manville|Acute Toxicity to Juvenile Rainbow Trout (Salmo gairdneri) of Naturally Occurring Insect Juvenile Hormone Analogues|J. Fish. Res. Board Can.32(12): 2556-2559|1975|10.1139/f75-301
845|A||Schafer,E.W.,Jr., and L.L. Marking|Long-Term Effects of 4-Aminopyridine Exposure to Birds and Fish|J. Wildl. Manag.39(4): 807-811|1975|10.2307/3800246
846|A|OECDG|Kuhn,R., M. Pattard, K.D. Pernak, and A. Winter|Results of the Harmful Effects of Selected Water Pollutants (Anilines, Phenols, Aliphatic Compounds) to Daphnia magna|Water Res.23(4): 495-499|1989|10.1016/0043-1354(89)90141-3
847|A|OECDG|Kuhn,R., M. Pattard, K.D. Pernak, and A. Winter|Results of the Harmful Effects of Water Pollutants to Daphnia magna in the 21 Day Reproduction Test|Water Res.23(4): 501-510|1989|10.1016/0043-1354(89)90142-5
848|A||Tooby,T.E., P.A. Hursey, and J.S. Alabaster|The Acute Toxicity of 102 Pesticides and Miscellaneous Substances to Fish|Chem. Ind. (Lond.)21:523-526|1975|
849|A||Chaiyarach,S., V. Ratananun, and R.C. Harrel|Acute Toxicity of the Insecticides Toxaphene and Carbaryl and the Herbicides Propanil and Molinate to Four Species of Aquatic Organisms|Bull. Environ. Contam. Toxicol.14(3): 281-284|1975|10.1007/BF01685635
850|A||Olson,L.E., J.L. Allen, and W.L. Mauck|Dinitramine: Residues in and Toxicity to Freshwater Fish|J. Agric. Food Chem.23(3): 437-439|1975|10.1021/jf60199a031
852|A||Baudin,J.P., and A.F. Fritsch|Relative Contributions of Food and Water in the Accumulation of 60Co by a Freshwater Fish|Water Res.23(7): 817-823|1989|10.1016/0043-1354(89)90004-3
853|A||Fuerstenau,M.C., B.M. Wakawa, R.K. Price, and R.D. Wellik|Toxicity of Selected Sulfhydryl Collecters to Rainbow Trout|Trans. Am. Inst. Min. Eng.256:337-341|1974|
854|A||Macek,K.J., and S.F. Krzeminski|Susceptibility of Bluegill Sunfish (Lepomis macrochirus) to Nonionic Surfactants|Bull. Environ. Contam. Toxicol.13(3): 377-384|1975|10.1007/BF01685354
855|A||Davey,R.B., M.V. Meisch, and F.L. Carter|Toxicity of Five Ricefield Pesticides to the Mosquitofish, Gambusia affinis, and Green Sunfish, Lepomis cyanellus, Under Laboratory and Field|Environ. Entomol.5(6): 1053-1056|1976|10.1093/ee/5.6.1053
856|A||Spry,D.J., and C.M. Wood|A Kinetic Method for the Measurement of Zinc Influx In Vivo in the Rainbow Trout, and the Effects of Waterborne Calcium on Flux Rates|J. Exp. Biol.142:425-446|1989|10.1242/jeb.142.1.425
857|A||Julin,A.M., and H.O. Sanders|Toxicity and Accumulation of the Insecticide Imidan in Freshwater Invertebrates and Fishes|Trans. Am. Fish. Soc.106(4): 386-392|1977|10.1577/1548-8659(1977)106<386:TAAOTI>2.0.CO;2
858|A||McCorkle,F.M., J.E. Chambers, and J.D. Yarbrough|Acute Toxicities of Selected Herbicides to Fingerling Channel Catfish, Ictalurus punctatus|Bull. Environ. Contam. Toxicol.18(3): 267-270|1977|10.1007/BF01683417
859|A||Rehwoldt,R.E., E. Kelley, and M. Mahoney|Investigations into the Acute Toxicity and Some Chronic Effects of Selected Herbicides and Pesticides on Several Fresh Water Fish Species|Bull. Environ. Contam. Toxicol.18(3): 361-365|1977|10.1007/BF01683433
860|A||Bills,T.D., L.L. Marking, and J.H.,Jr. Chandler|Malachite Green: Its Toxicity to Aquatic Organisms, Persistence, and Removal with Activated Carbon|Invest.Fish Control No.75, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington,D.C.:6 p.|1977|
861|A||Hale,J.G.|Toxicity of Metal Mining Wastes|Bull. Environ. Contam. Toxicol.17(1): 66-73|1977|10.1007/BF01685264
862|A||Huda,J., and Z. Svobodova|Acute Toxicity of the Actellic Biocide to Fish (Akutni Toxicita Biocidniho Pripravku Acetellic Pro Ryby)|Aquat. Sci. Fish. Abstr.12(4): 24-28|1976|
863|A|OECDG|Dawson,G.W., A.L. Jennings, D. Drozdowski, and E. Rider|The Acute Toxicity of 47 Industrial Chemicals to Fresh and Saltwater Fishes|J. Hazard. Mater.1(4): 303-318|1977|10.1016/0304-3894(75)80003-3
864|A||Fogels,A., and J.B. Sprague|Comparative Short-Term Tolerance of Zebrafish, Flagfish, and Rainbow Trout to Five Poisons Including Potential Reference Toxicants|Water Res.11(9): 811-817|1977|10.1016/0043-1354(77)90052-5
865|A||Gupta,S.P., S.R. Verma, and R.C. Dalela|Studies on the Toxicity of a Few Pesticides on Colisa fasciatus and Notopterus notopterus with Reference to Histopathology and Histochemistry.|Acta Hydrochim. Hydrobiol. (Multiple Languages)7(2): 223-238|1979|10.1002/aheh.19790070209
866|A||Dennis,W.H.J., E.P. Meier, W.F. Randall, A.B. Rosencrance, and D.H. Rosenblatt|Degradation of Diazinon by Sodium Hypochlorite. Chemistry and Aquatic Toxicity|Environ. Sci. Technol.13(5): 594-598|1979|10.1021/es60153a002
867|A||Johnson,C.R.|Herbicide Toxicities in the Mosquito Fish, Gambusia affinis|Proc. R. Soc. Queensl.89:25-27|1978|
868|A||Rao,K.S., and N.K. Dad|Studies of Herbicide Toxicity in Some Freshwater Fishes and Ectoprocta|J. Fish Biol.14(6): 517-522|1979|10.1111/j.1095-8649.1979.tb03550.x
869|A||Sprague,J.B., and W.J. Logan|Separate and Joint Toxicity to Rainbow Trout of Substances Used in Drilling Fluids for Oil Exploration|Environ. Pollut.19(4): 269-281|1979|
870|A||Solbe,J.F. de L.G., and D.G. Shurben|Toxicity of Ammonia to Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|Water Res.23(1): 127-129|1989|10.1016/0043-1354(89)90071-7
871|A||Calamari,D., S. Galassi, and R. Da Gasso|A System of Tests for the Assessment of Toxic Effects on Aquatic Life: An Experimental Preliminary Approach|Ecotoxicol. Environ. Saf.3:75-89|1979|10.1016/0147-6513(79)90061-7
872|A||Kobayashi,K., H. Akitake, and K. Manabe|Relation Between Toxicity and Accumulation of Various Chlorophenols in Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)45(2): 173-175|1979|10.2331/suisan.45.173
873|A||Adelman,I.R.Jr.|Toxicity of Hydrogen Sulfide to Goldfish (Carassius auratus) as Influenced by Temperature, Oxygen, and Bioassay Techniques|J. Fish. Res. Board Can.29(9): 1309-1317|1972|10.1139/f72-199
874|A||Dave,G., H. Blanck, and K. Gustafsson|Biological Effects of Solvent Extraction Chemicals on Aquatic Organisms|J. Chem. Technol. Biotechnol.29:249-257|1979|10.1002/jctb.503290406
875|A||Curtis,M.W., T.L. Copeland, and C.H. Ward|Acute Toxicity of 12 Industrial Chemicals to Freshwater and Saltwater Organisms|Water Res.13(2): 137-141|1979|10.1016/0043-1354(79)90084-8
876|A||Bond,C.E., R.H. Lewis, and J.L. Fryer|Toxicity of Various Herbicidal Materials to Fishes|In: C.M.Tarzwell, Biological Problems in Water Pollution, U.S.Department of Health, Education, and Welfare, Cincinnati, OH:96-101|1960|
877|A||Mehrle,P.M., and F.L.,Jr. Mayer|Toxaphene Effects on Growth and Development of Brook Trout (Salvelinus fontinalis)|J. Fish. Res. Board Can.32(5): 609-613|1975|10.1139/f75-078
878|A||Henderson,C., Q.H. Pickering, and C.M. Tarzwell|Relative Toxicity of Ten Chlorinated Hydrocarbon Insecticides to Four Species of Fish|Trans. Am. Fish. Soc.88(1): 23-32|1959|10.1577/1548-8659(1959)88[23:RTOTCH]2.0.CO;2
879|A||Hughes,J.S., and J.T. Davis|Comparative Toxicity to Bluegill Sunfish of Granular and Liquid Herbicides|Proc. Southeast. Assoc. Game Fish Comm.16:319-323|1962|
880|A||Hughes,J.S., and J.T. Davis|Effects of Selected Herbicides on Bluegill Sunfish|Proc. Southeast. Assoc. Game Fish Comm.18:480-482|1964|
881|A||Van Hattum,B.P.D., L. Van den Bosch, N.M. Van Straalen, E.N.G. Joosse, and H. Govers|Bioaccumulation of Cadmium by the Freshwater Iospod Asellus aquaticus (L.) From Aqueous and Dietary Sources|Environ. Pollut.62(2-3): 129-151|1989|10.1016/0269-7491(89)90183-8
882|A||Cyriac,P.J., A. Antony, and P.N.K. Nambisan|Hemoglobin and Hematocrit Values in the Fish Oreochromis mossambicus (Peters) After Short Term Exposure to Copper and Mercury|Bull. Environ. Contam. Toxicol.43(2): 315-320|1989|10.1007/BF01701764
883|A||Mount,D.I., and C.E. Stephan|A Method for Establishing Acceptable Toxicant Limits for Fish - Malathion and the Butoxyethanol Ester of 2,4-D|Trans. Am. Fish. Soc.96(2): 185-193|1967|10.1577/1548-8659(1967)96[185:AMFEAT]2.0.CO;2
884|A||Ruparelia,S.G., Y. Verma, N.S. Mehta, and S.R. Salyed|Lead-Induced Biochemical Changes in Freshwater Fish Oreochromis mossambicus|Bull. Environ. Contam. Toxicol.43(2): 310-314|1989|10.1007/BF01701763
885|A||Sanders,H.O.|Toxicity of Pesticides to the Crustacean Gammarus lacustris|Tech.Pap.No.25, U.S.D.I., Bur.Sports Fish.Wildl., Fish Wildl.Serv., Washington, DC:18 p.|1969|
886|A||Sanders,H.O.|Toxicities of Some Herbicides to Six Species of Freshwater Crustaceans|J. Water Pollut. Control Fed.24(8): 1544-1550|1970|
887|A||Sanders,H.O.|Toxicity of Some Insecticides to Four Species of Malacostracan Crustaceans|Tech. Pap. Bur. Sport Fish. Wildl.66:19 p.|1972|
888|A||Sanders,H.O., and O.B. Cope|Toxicities of Several Pesticides to Two Species of Cladocerans|Trans. Am. Fish. Soc.95(2): 165-169|1966|10.1577/1548-8659(1966)95[165:TOSPTT]2.0.CO;2
889|A||Sanders,H.O., and O.B. Cope|The Relative Toxicities of Several Pesticides to Naiads of Three Species of Stoneflies|Limnol. Oceanogr.13(1): 112-117|1968|10.4319/lo.1968.13.1.0112
890|A||Schoettger,R.A.|Toxicology of Thiodan in Several Fish and Aquatic Invertebrates|Invest.Fish Control No.35, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:31 p.|1970|
891|A||Devi,V.U., and Y.P. Rao|Cadmium Accumulation in Fiddler Crabs Uca annulipesLatrelle and Uca triangularis (Milne Edwards)|Water Air Soil Pollut.43(3-4): 309-321|1989|10.1007/BF00279199
892|A||Surber,E.W., and Q.H. Pickering|Acute Toxicity of Endothal, Diquat, Hyamine, Dalapon, and Silvex to Fish|Prog. Fish-Cult.24(4): 164-171|1962|10.1577/1548-8659(1962)24[164:ATOEDH]2.0.CO;2
893|A||Wilson,D.C., and C.E. Bond|The Effects of the Herbicides Diquat and Dichlobenil on Pond Invertebrates. Part I. Acute Toxicity|Trans. Am. Fish. Soc.98(3): 438-442|1969|10.1577/1548-8659(1969)98[438:TEOTHD]2.0.CO;2
894|A||Casillas,E., and M.S. Myers|Effect of Bromobenzene and o-Bromophenol on Kidney and Liver of English Sole (Parophrys vetulus)|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 43-48|1989|10.1016/0742-8413(89)90008-X
895|A||Bailey,T.A., and S.M. Jeffrey|Evaluation of 215 Candidate Fungicides for Use in Fish Culture|Invest.Fish Control No.99, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, DC:9 p.|1989|
896|A||Sicko-Goad,L., J. Hall, D. Lazinsky, and M.S. Simmons|Effects of Chlorinated Benzenes on Diatom Fatty Acid Composition and Quantitative Morphology. III. 1,2,3-Trichlorobenzene|Arch. Environ. Contam. Toxicol.18(5): 647-655|1989|10.1007/BF01225003
897|A||Fernandez-Leborans,G., and M.T. Antonio-Garcia|Effects of Lead and Cadmium in a Community of Protozoans|Acta Protozool.27(2): 141-159|1988|
898|A||Skul'sky,I.A., I.V. Burovina, V.F. Vasilyeva, O.N. Lukyanova, V.A. Nikiforov, and I.G. Syasina|Uptake and Microlocalization of Cadmium in Marine Bivalve Mollusc Tissues|Comp. Biochem. Physiol. C Comp. Pharmacol.92(2): 349-353|1989|10.1016/0742-8413(89)90067-4
899|A||Gilderhus,P.A.|Effects of Diquat on Bluegills and Their Food Organisms|Prog. Fish-Cult.29(2): 67-74|1967|10.1577/1548-8640(1967)29[67:EODOBA]2.0.CO;2
900|A||Lobel,P.B.|The Effect of Dithiothreitol on the Subcellular Distribution of Zinc in the Cytosol of Mussel Kidney (Mytilus edulis): Isolation of Metallothionein|Comp. Biochem. Physiol. C Comp. Pharmacol.92(2): 189-192|1989|10.1016/0742-8413(89)90038-8
901|A||Bender,M.E.|The Toxicity of the Hydrolysis and Breakdown Products of Malathion to the Fathead Minnow (Pimephales promelas, Rafinesque)|Water Res.3(8): 571-582|1969|10.1016/0043-1354(69)90046-3
902|A||Chen,C.W., and R.E. Selleck|A Kinetic Model of Fish Toxicity Threshold|J. Water Pollut. Control Fed.41(7): R294 - R308|1969|
903|A||Hall,L.W.Jr., S.J. Bushong, W.S. Hall, and W.E. Johnson|Acute and Chronic Effects of Tributyltin on a Chesapeake Bay Copepod|Environ. Toxicol. Chem.7(1): 41-46|1988|10.1002/etc.5620070107
904|A||Marking,L.L.|Toxicity of Rhodamine B and Fluorescein Sodium to Fish and Their Compatibility with Antimycin A|Prog. Fish-Cult.31(3): 139-142|1969|10.1577/1548-8640(1969)31[139:TORBAF]2.0.CO;2
905|A||Kaitala.S.|Multiple Toxicity and Accumulation of Heavy Metals in Two Bivalve Mollusc Species|Water Sci. Technol.20(6-7): 23-32|1988|10.2166/wst.1988.0185
906|A||Portmann,J.E., and K.W. Wilson|The Toxicity of 140 Substances to the Brown Shrimp and Other Marine Animals|Shellfish Information Leaflet No.22, Ministry of Agriculture Fishery and Food, Fishery Laboratory, Burnham-on-Crouch, Essex, and Fish Experimental Station, Conway, North Wales:12 p.|1971|
907|A||Patel,B., J.P. Chandy, and S. Patel|Do Selenium and Glutathione Inhibit the Toxic Effects of Mercury in Marine Lamellibranchs?|Sci. Total Environ.76(2/3): 147-165|1988|10.1016/0048-9697(88)90104-0
908|A||Weir,P.A., and C.H. Hine|Effects of Various Metals on Behavior of Conditioned Goldfish|Arch. Environ. Health20(1): 45-51|1970|10.1080/00039896.1970.10665540
909|A||Wellborn,T.L.Jr.|The Toxicity of Nine Therapeutic and Herbicidal Compounds to Striped Bass|Prog. Fish-Cult.31(1): 27-32|1969|10.1577/1548-8640(1969)31[27:TTONTA]2.0.CO;2
910|A||Wright,D.A.|Dose-Related Toxicity of Copper and Cadmium in Striped Bass Larvae from the Chesapeake Bay:  Field Considerations|Water Sci. Technol.20(6-7): 39-48|1988|10.2166/wst.1988.0187
911|A||Ben-Shlomo,R., and E. Nevo|Isozyme Polymorphism as Monitoring of Marine Environments: The Interactive Effect of Cadmium and Mercury Pollution on the Shrimp, Palaemon elegans|Mar. Pollut. Bull.19(7): 314-317|1988|10.1016/0025-326X(88)90425-0
912|A||Granmo,A., R. Ekelund, K. Magnusson, and M. Berggren|Lethal and Sublethal Toxicity of 4-Nonylphenol to the Common Mussel (Mytilus edulis L.)|Environ. Pollut.59(2): 115-127|1989|10.1016/0269-7491(89)90100-0
913|A||Hammer,U.T., A.T. Merkowsky, and P.M. Huang|Effects of Oxygen Concentrations on Release of Mercury From Sediments and Accumulation by Ceratophyllum demersum and Anodonta grandis|Arch. Environ. Contam. Toxicol.17(2): 257-262|1988|10.1007/BF01056033
914|A||Douben,P.E.T.|Metabolic Rate and Uptake and Loss of Cadmium From Food by the Fish Noemacheilus barbatulus L. (Stone Loach)|Environ. Pollut.59(3): 177-202|1989|10.1016/0269-7491(89)90226-1
915|A||Dowden,B.F., and H.J. Bennett|Toxicity of Selected Chemicals to Certain Animals|J. Water Pollut. Control Fed.37(9): 1308-1316|1965|
916|A||Ellis,M.M.|Detection and Measurement of Stream Pollution|In: Bull.Bur.Fish.No.22, U.S.Dep.Commerce, Washington, DC:365-437|1937|
917|A||Singh,O., and R.A. Agarwal|Toxicity of Certain Pesticides to Two Economic Species of Snails in Northern India|J. Econ. Entomol.74:568-571|1981|10.1093/jee/74.5.568
918|A||Haya,K., and L.E. Burridge|Uptake and Excretion of Organochlorine Pesticides by Nereis virens under Normoxic and Hypoxic Conditions|Bull. Environ. Contam. Toxicol.40(2): 170-177|1988|10.1007/BF01881035
919|A||Yamaoka,Y., O. Takimura, and H. Fuse|Environmental Factors Relating to Arsenic Accumulation by Dunaliella sp|Appl. Organomet. Chem.2(4): 359-364|1988|10.1002/aoc.590020413
920|A||Hunt,J.W., and B.S. Anderson|Sublethal Effects of Zinc and Municipal Effluents on Larvae of the Red Abalone Haliotis rufescens|Mar. Biol.101(4): 545-552|1989|10.1007/BF00541657
921|A||Melancon,M.J., K.A. Turnquist, and J.J. Lech|Relation of Hepatic Microsomal Monooxygenase Activity to Tissue PCBs in Rainbow Trout (Salmo gairdneri) Injected With 14C PCBs|Environ. Toxicol. Chem.8(9): 777-782|1989|10.1002/etc.5620080904
922|A||Turnbull,H., J.G. Demann, and R.F. Weston|Toxicity of Various Refinery Materials to Fresh Water Fish|J. Ind. Eng. Chem.46(2): 324-333|1954|10.1021/ie50530a035
923|A||Henderson,C., Q.H. Pickering, and A.E. Lemke|The Effect of Some Organic Cyanides (Nitriles) on Fish|Proceedings of the 15th Industrial Waste Conference, Purdue University65(2): 120-130|1961|
924|A||Wan,W.T., R.G. Watts, and D.J. Moul|Effects of Different Dilution Water Types on the Acute Toxicity to Juvenile Pacific Salmonids and Rainbow Trout of Glyphosate and Its Formulated Products|Bull. Environ. Contam. Toxicol.43(3): 378-385|1989|10.1007/BF01701872
925|A||Blackman,R.A.A.|Toxicity of Oil-Sinking Agents|Mar. Pollut. Bull.5:116-118|1974|10.1016/0025-326X(74)90142-8
926|A||Smock,L.A., D.L. Stoneburner, and J.R. Clark|The Toxic Effects of Trinitrotoluene (TNT) and its Primary Degradation Products on Two Species of Algae and the Fathead Minnow|Water Res.10(6): 537-543|1976|10.1016/0043-1354(76)90191-3
927|A||Gillette,L.A., D.L. Miller, and H.E. Redman|Appraisal of a Chemical Waste Problem by Fish Toxicity Tests|Sewage Ind. Wastes24:1397-1401|1952|
928|A||Fossi,C., C. Leonzio, and S. Focardi|Regulatory Detoxication Responses in Gobiidae Experimentally Exposed to PCBs|Ecotoxicol. Environ. Saf.18(1): 11-14|1989|10.1016/0147-6513(89)90087-0
929|A||Maita,Y., and S. Kawaguchi|Amino Acid Composition of Cadmium-Binding Protein Induced in a Marine Diatom, Phaeodactylum tricornutum|Bull. Environ. Contam. Toxicol.43(3): 394-401|1989|10.1007/BF01701874
930|A||Cairns,J.,Jr., and A. Scheier|The Relationship of Bluegill Sunfish Body Size to Tolerance for Some Common Chemicals|Purdue Univ. Agric. Exp. Stn.:243-252|1959|
931|A||Uchida,N., M. Kaneko, T. Musashi, K. Tanaka, H. Anzai, and E. Nishide|Comparison of the Initial Metabolic Pathway of p,p'-DDT in Carp and Tilapia|Nippon Suisan Gakkaishi (Multiple Languages)54(12): 2217-2221|1988|10.2331/suisan.54.2217
932|A||Hemelraad,J., and H.J. Herwig|Cadmium Kinetics in Freshwater Clams. IV. Histochemical Localization of Cadmium in Anodonta cygnea and Anodonta anatina, Exposed to Cadmium|Arch. Environ. Contam. Toxicol.17(3): 333-343|1988|10.1007/BF01055171
933|A||Daugherty,F.M.J., and J.T. Garrett|Toxicity Levels of Hydrocyanic Acid and Some Industrial By-Products|Texas J. Sci.3:391-396|1951|
934|A||Clemens,H.P., and K.E. Sneed|Lethal Doses of Several Commercial Chemicals for Fingerling Channel Catfish|U.S.Fish.Wildl.Serv., Spec.Sci.Rep.- Fish No.316, Washington, DC:10 p.|1959|
935|A||Adlung,K.G.|The Toxicity of Insecticidal and Acaricidal Agents to Fish (Zur Toxizitat Insektizider und Akarizider Wirkstoffe fur Fische)|Naturwissenschaften44:471-472|1957|10.1007/BF00640896
936|A||Henderson,C., Q.H. Pickering, and C.M. Tarzwell|The Toxicity of Organic Phosphorus and Chlorinated Hydrocarbon Insecticides to Fish|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, Trans.2nd Seminar, April 20-24,1959, Tech.Rep.W60-3, U.S.Public Health Service, R.A.Taft Sanitary Engineering Center, Cincinnati, OH:76-88|1960|
937|A||Lammering,M.W.,Jr., and N.C.,Jr. Burbank|The Toxicity of Phenol, o-Chlorophenol, and o-Nitrophenol to Bluegill Sunfish|Proceedings of the 15th Industrial Waste Conference, Purdue University106:541-555|1961|
938|A||Burdick,G.E., H.J. Dean, and E.J. Harris|Toxicity of Aqualin to Fingerling Brown Trout and Bluegills|N. Y. Fish Game J.11(2): 106-114|1964|
939|A||Julin,A.M., and H.O. Sanders|Toxicity of the IGR, Diflubenzuron, to Freshwater Invertebrates and Fishes|Mosq. News38(2): 256-259|1978|
940|A||Pulich,W.M.,Jr., K. Winters, and C. Van Baalen|The Effects of a No. 2 Fuel Oil and Two Crude Oils on the Growth and Photosynthesis of Microalgae|Mar. Biol.28(2): 87-94|1974|10.1007/BF00396299
941|A||Svobodova,Z., J. Machova, R. Faina, A. Kocova, and P. Kunce|Acute Toxicity of Selected Pesticides to Aquatic Organisms|Bull. V. U. R. H. Vodnany (Non-English)1:8-20|1986|
942|A||Carter,F.L., and J.B. Graves|Measuring Effects of Insecticides on Aquatic Animals|La. Agric.16(2): 14-15|1972|
943|A||Maki,A.W., K.W. Stewart, and J.K.G. Silvey|The Effects of Dibrom on Respiratory Activity of the Stonefly, Hydroperla crosbyi, Hellgrammite, Corydalus cornutus and the Golden Shiner|Trans. Am. Fish. Soc.102(4): 806-815|1973|10.1577/1548-8659(1973)102<806:TEODOR>2.0.CO;2
944|A||Michael,A.G., and G.S. Grant|Toxicity of the Repellent DEET (N,N-Diethyl-Metatoluamide) to Gambusia affinis (Baird and Girard)|Mosq. News34(1): 32-35|1974|
945|A||Hermanutz,R.O., L.H. Mueller, and K.D. Kempfert|Captan Toxicity to Fathead Minnows (Pimephales promelas), Bluegills (Lepomis macrochirus), and Brook Trout (Salvelinus fontinalis)|J. Fish. Res. Board Can.30(12): 1811-1817|1973|10.1139/f73-291
946|A||Fabacher,D.L., and H. Chambers|Resistance to Herbicides in Insecticide-Resistant Mosquitofish, Gambusia affinis|Environ. Lett.7(1): 15-20|1974|10.1080/00139307409437379
947|A||Cajaraville,M.P., J.A. Marigomez, and E. Angulo|A Stereological Survey of Lysosomal Structure Alterations in Littorina littorea Exposed to 1-Naphthol|Comp. Biochem. Physiol. C Comp. Pharmacol.93(2): 231-237|1989|10.1016/0742-8413(89)90226-0
948|A||Stalling,D.L., and F.L.,Jr. Mayer|Toxicities of PCBs to Fish and Environmental Residues|Environ. Health Perspect.1:159-164|1972|10.1289/ehp.7201159
949|A||Patrick,R., J.,Jr. Cairns, and A. Scheier|The Relative Sensitivity of Diatoms, Snails, and Fish to Twenty Common Constituents of Industrial Wastes|Prog. Fish-Cult.30(3): 137-140|1968|10.1577/1548-8640(1968)30[137:TRSODS]2.0.CO;2
950|A||Thompson,C.Q.Jr.|Toxicity of the Organophosphate Insecticide Fenthion, Alone and with Thermal Fog Carriers, to an Estuarine Copepod and Young Fish|Bull. Environ. Contam. Toxicol.43(5): 789-796|1989|10.1007/BF01702005
951|A||Birdsong,C.L., and J.W.,Jr. Avault|Toxicity of Certain Chemicals to Juvenile Pompano|Prog. Fish-Cult.33(2): 76-80|1971|10.1577/1548-8640(1971)33[76:TOCCTJ]2.0.CO;2
952|A|OECDG|Canton,J.H., P.A. Greve, W. Slooff, and G.J. Van Esch|Toxicity, Accumulation and Elimination Studies of alpha-Hexachlorocyclohexane (alpha-HCH) with Freshwater Organisms of Different Trophic Levels|Water Res.9(12): 1163-1169|1975|10.1016/0043-1354(75)90116-5
953|A||Tracy,H.B., R.A. Lee, C.E. Woelke, and G. Sanborn|Relative Toxicities and Dispersing Evaluation of Eleven Oil Dispersing Products|J. Water Pollut. Control Fed.41(12): 2062-2069|1969|
954|A||Vance,B.D., and A.W. Maki|Bioconcentration of Dibrom by Stigeoclonium pachydermum|Bull. Environ. Contam. Toxicol.15(5): 601-607|1976|10.1007/BF01685712
955|A||Ooi,V.E.C., and F.K. Law|Changes Induced by Cadmium in the Kidney of Black Sea Bream, Mylio macrocephalus (Teleostei)|Bull. Environ. Contam. Toxicol.43(5): 769-775|1989|10.1007/BF01702001
956|A||Ingersoll,C.G., F.J. Dwyer, and T.W. May|Toxicity of Inorganic and Organic Selenium to Daphnia magna (Cladocera) and Chironomus riparius (Diptera)|Environ. Toxicol. Chem.9(9): 1171-1181|1990|10.1002/etc.5620090908
957|A||Berger,B.L., R.E. Lennon, and J.W. Hogan|Laboratory Studies on Antimycin A as a Fish Toxicant|Invest.Fish Control No.26, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:21 p.|1969|
958|A||Howland,R.M.|Interaction of Antimycin A and Rotenone in Fish Bioassays|Prog. Fish-Cult.31(1): 33-34|1969|10.1577/1548-8640(1969)31[33:IOAAAR]2.0.CO;2
959|A||Zillich,J.|A Biological Evaluation of Six Chemicals Used to Disperse Oil Spills|Michigan Dep.Natural Resour., Water Resour.Commiss., Lansing, MI:12 p.|1969|
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961|A||Hose,J.E., D. Di Fiore, H.S. Parker, and T. Sciarrotta|Toxicity of Chlorine Dioxide to Early Life Stages of Marine Organisms|Bull. Environ. Contam. Toxicol.42(3): 315-319|1989|10.1007/BF01699954
962|A||Bhatia,H.L.|Toxicity of Some Pesticides to Puntius ticto (Hamilton)|Sci. Cult.37(3): 160-161|1971|
963|A||Bell,T.A., C.S. Arume, and D.V. Lightner|Efficacy of Formalin in Reducing the Levels of Peritrichous Ciliates on Cultured Marine Shrimp|J. Fish Dis.10(1): 45-51|1987|10.1111/j.1365-2761.1987.tb00717.x
964|A||Post,G., and T.R. Schroeder|The Toxicity of Four Insecticides to Four Salmonid Species|Bull. Environ. Contam. Toxicol.6(2): 144-155|1971|10.1007/BF01540097
965|A||Ferrari,L., R.J. Lombardo, P. Del Giorgio, M.C. Tortorelli, and D.A. Hernandez|Effects of Formulated Ethyl Parathion on Fertilization of the Sea Urchin Pseudechinus magellanicus (Philippi)|Bull. Environ. Contam. Toxicol.42(3): 367-374|1989|10.1007/BF01699962
966|A||Wellborn,T.L.,Jr.|Toxicity of Some Compounds to Striped Bass Fingerlings|Prog. Fish-Cult.33(1): 32-36|1971|10.1577/1548-8640(1971)33[32:TOSCTS]2.0.CO;2
967|A||Arthur,J.W., and E.N. Leonard|Effects of Copper on Gammarus pseudolimnaeus, Physa integra, and Campeloma decisum in Soft Water|J. Fish. Res. Board Can.27(7): 1277-1283|1970|10.1139/f70-149
968|A||Goodman,L.R., G.M. Cripe, P.H. Moody, and D.G. Halsell|Acute Toxicity of Malathion, Tetrabromobisphenol-A, and Tributyltin Chloride to Mysids (Mysidopsis bahia) of Three Ages|Bull. Environ. Contam. Toxicol.41(5): 746-753|1988|10.1007/BF02021028
969|A||Garg,P., and P. Chandra|Toxicity and Accumulation of Chromium in Ceratophyllum demersum L|Bull. Environ. Contam. Toxicol.44(2): 473-478|1990|10.1007/BF01701232
970|A||Marking,L.L.|Toxicity of Methylpentynol to Selected Fishes|Invest.Fish Control No.30, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:7 p.|1969|
971|A||Rucker,R.R., and D.F. Amend|Absorption and Retention of Organic Mercurials by Rainbow Trout and Chinook and Sockeye Salmon|Prog. Fish-Cult.31(4): 197-201|1969|10.1577/1548-8640(1969)31[197:AAROOM]2.0.CO;2
972|A||Krishnakumar,P.K., R. Damordaran, and P.N.K. Nambisan|Carotenoid Content and Tolerance to Green Mussel Perna viridis (Linnaeus) to Acute Mercury and Zinc Toxicity|Indian J. Mar. Sci.16(3): 155-157|1987|
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974|A||Laska,A.L., C.K. Bartell, D.B. Condie, J.W. Brown, R.L. Evans, and J.L. Laseter|Acute and Chronic Effects of Hexachlorobenzene and Hexachlorobutadiene in Red Swamp Crayfish (Procambarus clarki) and Selected Fish Species|Toxicol. Appl. Pharmacol.43(1): 1-12|1978|10.1016/S0041-008X(78)80027-1
975|A||Reddy,M.S., and K.V.R. Rao|In Vivo Modification of Lipid Metabolism in Response to Phosphamidon, Methyl Parathion and Lindane Exposure in the Penaeid Prawn, Metapenaeus monoceros|Bull. Environ. Contam. Toxicol.43(4): 603-610|1989|10.1007/BF01701942
976|A||Arthur,J.W., and J.G. Eaton|Chloramine Toxicity to the Amphipod Gammarus pseudolimnaeus and the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.28(12): 1841-1845|1971|10.1139/f71-278
977|A||Chandini,T.|Survival, Growth and Reproduction of Daphnia carinata (Crustacea: Cladocera) Exposed to Chronic Cadmium Stress at Different Food (Chlorella) Levels|Environ. Pollut.60(1): 29-45|1989|10.1016/0269-7491(89)90218-2
978|A||Calamari,D., and R. Marchetti|The Toxicity of Mixtures of Metals and Surfactants to Rainbow Trout (Salmo gairdneri Rich.)|Water Res.7(10): 1453-1464|1973|10.1016/0043-1354(73)90118-8
979|A||McKague,A.B., and R.B. Pridmore|Toxicity of Altosid and Dimilin to Juvenile Rainbow Trout and Coho Salmon|Bull. Environ. Contam. Toxicol.20:167-169|1978|10.1007/BF01683503
980|A||Zitko,V., W.G. Carson, and C.D. Metcalfe|Toxicity of Pyrethoids to Juvenile Atlantic Salmon|Bull. Environ. Contam. Toxicol.18(1): 35-41|1977|10.1007/BF01686302
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982|A||Kuhnhold,W.W., and F. Busch|On the Uptake of Three Different Types of Hydrocarbons by Salmon Eggs (Salmo salar L.)|Meeresforschung26:50-59|1978|
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985|A||Lahav,M., and S. Sarig|Sensitivity of Pond Fish to Cotnion (Azinphosmethyl) and Parathion|Bamidgeh21(3): 61-74|1969|
986|A||Cruz,E.R., and C.T. Tamse|Acute Toxicity of Potassium Permanganate to Milkfish Fingerlings, Chanos chanos|Bull. Environ. Contam. Toxicol.43(5): 785-788|1989|10.1007/BF01702004
987|A||Grieco,M.P., J.D. Hendricks, R.A. Scanlan, R.O. Sinnhuber, and D.A. Pierce|Carcinogenicity and Acute Toxicity of Dimethylnitrosamine in Rainbow Trout (Salmo gairdneri)|J. Natl. Cancer Inst.60(5): 1127-1130|1978|10.1093/jnci/60.5.1127
988|A||Lane,C.E., and R.J. Livingston|Some Acute and Chronic Effects of Dieldrin on the Sailfin Molly, Poecilia latipinna|Trans. Am. Fish. Soc.99(3): 489-495|1970|10.1577/1548-8659(1970)99<489:SAACEO>2.0.CO;2
989|A||Cardwell,R.D., D.G. Foreman, T.R. Payne, and D.J. Wilbur|Acute and Chronic Toxicity of Chlordane to Fish and Invertebrates|EPA-600/3-77-019, U.S.EPA, Duluth, MN:126 p.|1977|
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2000|A||Lewis,M.|Acute Toxicity of Copper, Zinc, and Manganese in Single and Mixed Salt Solutions to Juvenile Longfin Dace, Agosia chrysogaster|J. Fish Biol.13(6): 695-700|1978|10.1111/j.1095-8649.1978.tb03483.x
2001|A||Rehwoldt,R., G. Bida, and B. Nerrie|Acute Toxicity of Copper, Nickel, and Zinc Ions to Some Hudson River Fish Species|Bull. Environ. Contam. Toxicol.6(5): 445-448|1971|10.1007/BF01684366
2002|A||Rehwoldt,R., L.W. Menapace, B. Nerrie, and D. Allessandrello|The Effect of Increased Temperature upon the Acute Toxicity of Some Heavy Metal Ions|Bull. Environ. Contam. Toxicol.8(2): 91-96|1972|10.1007/BF01684513
2003|A||Schaumburg,F.D., T.E. Howard, and C.C. Walden|A Method to Evaluate the Effects of Water Pollutants on Fish Respiration|Water Res.1:731-737|1967|10.1016/0043-1354(67)90075-9
2004|A||Pickering,Q.H., W. Brungs, and M. Gast|Effect of Exposure Time and Copper Concentration on Reproduction of the Fathead Minnow (Pimephales promelas)|Water Res.11(12): 1079-1083|1977|10.1016/0043-1354(77)90008-2
2005|A||Damani,L.A., and P.A. Crooks|Oxidative Metabolism of Heterocyclic Ring Systems|In: W.B.Jakoby, J.R.Bend, and I.Caldwell (Eds.), Metabolic Basis of Detoxification.Metabolism of Functional Groups.Academic Press, Inc., New York, NY:69-89|1982|
2006|A||Mount,D.I.|Chronic Toxicity of Copper to Fathead Minnows (Pimephales promelas, Rafinesque)|Water Res.2(3): 215-223|1968|10.1016/0043-1354(68)90027-4
2007|A||Joyce Shobha Rani,V., P. Venkateshwarlu, and C. Janaiah|Alteration in Aminotransferases of Freshwater Fish Clarias batrachus After Exposure to Trichlorfon|Environ. Ecol.7(4): 930-932|1989|
2008|A||Brungs,W.A., E.N. Leonard, and J.M. McKim|Acute and Long-Term Accumulation of Copper by the Brown Bullhead, Ictalurus nebulosus|J. Fish. Res. Board Can.30(4): 583-586|1973|10.1139/f73-103
2009|A||Marking,L.L.|Evaluation of p,p'-DDT as a Reference Toxicant in Bioassays|Invest.Fish Control No.10, Resourc.Publ.No.14, Fish Wildl.Serv., Bur.Sport Fish Wildl., USDI, Washington, DC:10 p.|1966|
2010|A||Chynoweth,D.P., J.A. Black, and K.H. Mancy|Effect of Organic Pollutants on Copper Toxicity to Fish|In: Toxicity to Biota of Metal Forms in Natural Water, Int.Joint Comm., Windsor, Ontario, Canada:145-158|1976|
2011|A||Macek,K.J., and H.O. Sanders|Biological Variation in the Susceptibility of Fish and Aquatic Invertebrates to DDT|Trans. Am. Fish. Soc.99(1): 89-90|1970|10.1577/1548-8659(1970)99<89:BVITSO>2.0.CO;2
2012|A||Hughes,J.S.|Acute Toxicity of Thirty Chemicals to Striped Bass (Morone saxatilis)|Proc. Annu. Conf. Western Assoc. State Game Fish Comm.:15 p.|1973|
2013|A||Stinson,C.M., and J. Mallatt|Branchial Ion Fluxes and Toxicant Extraction Efficiency in Lamprey (Petromyzon marinus) Exposed to Methylmercury|Aquat. Toxicol.15(3): 237-252|1989|10.1016/0166-445X(89)90038-6
2014|A||O'Hara,J.|Alterations in Oxygen Consumption by Bluegills Exposed to Sublethal Treatment with Copper|Water Res.5(6): 321-327|1971|10.1016/0043-1354(71)90177-1
2015|A||Kouyoumjian,H.H., and R.F. Uglow|Some Aspects of the Toxicity of p,p'-DDT, p-p'-DDE and p,p'-DDD to the Freshwater Planarian Polycelis felina (Tricladida)|Environ. Pollut.7:103-109|1974|
2016|A||Birge,W.J., and J.A. Black|Effects of Copper on Embryonic and Juvenile Stages of Aquatic Animals|In: J.O.Nriagu (Ed.), Copper in the Environment, J.Wiley and Sons, NY:373-399|1979|
2017|A||Canton,J.H., and D.M.M. Adema|Reproducibility of Short-Term and Reproduction Toxicity Experiments with Daphnia magna and Comparison of the Sensitivity of Daphnia magna with Daphnia pulex and Daphnia cucullata in Short-Term Experiments|Hydrobiologia (Multiple Languages)59(2): 135-140|1978|10.1007/BF00020774
2018|A||Adema,D.M.M.|Daphnia magna as a Test Animal in Acute and Chronic Toxicity Tests|Hydrobiologia (Multiple Languages)59(2): 125-134|1978|10.1007/BF00020773
2019|A||Buikema,A.L.,Jr., J.,Jr. Cairns, and G.W. Sullivan|Evaluation of Philodina acuticornis (Rotifera) as a Bioassay Organisms for Heavy Metals|Water Resour. Bull.10(4): 648-661|1974|10.1111/j.1752-1688.1974.tb05624.x
2020|A||Rehwoldt,R., L. Lasko, C. Shaw, and E. Wirhowski|The Acute Toxicity of Some Heavy Metal Ions Toward Benthic Organisms|Bull. Environ. Contam. Toxicol.10(5): 291-294|1973|10.1007/BF01684818
2021|A||Wier,C.F., and W.M. Walter|Toxicity of Cadmium in the Freshwater Snail, Physa gyrina Say|J. Environ. Qual.5(4): 359-362|1976|10.2134/jeq1976.00472425000500040004x
2022|A||Biesinger,K.E., and G.M. Christensen|Effects of Various Metals on Survival, Growth, Reproduction and Metabolism of Daphnia magna|J. Fish. Res. Board Can.29(12): 1691-1700|1972|10.1139/f72-269
2023|A||Garton,R.B.|Biological Effects of Cooling Tower Blowdown|AIChE Symp. Ser.69(129): 284-292|1972|
2024|A||Giesy,J.P.,Jr., G.J. Leversee, and D.R. Williams|Effects of Naturally Occuring Aquatic Organic Fractions of Cadmium Toxicity to Simocephalus serrulatus (Daphnidae) and Gambusia affinis (Poeciliidae)|Water Res.11(11): 1013-1020|1977|10.1016/0043-1354(77)90160-9
2025|A||Clubb,R.W., A.R. Gaufin, and J.L. Lords|Acute Cadmium Toxicity Studies upon Nine Species of Aquatic Insects|Environ. Res.9:332-341|1975|10.1016/0013-9351(75)90013-4
2026|A||Warnick,S.L., and H.L. Bell|The Acute Toxicity of Some Heavy Metals to Different Species of Aquatic Insects|J. Water Pollut. Control Fed.41(2 Pt.1): 280-284|1969|
2027|A||Chapman,G.A.|Toxicities of Cadmium, Copper, and Zinc to Four Juvenile Stages of Chinook Salmon and Steelhead|Trans. Am. Fish. Soc.107(6): 841-847|1978|10.1577/1548-8659(1978)107<841:TOCCAZ>2.0.CO;2
2028|A||Kumada,H., S. Kimura, and M. Yokote|Accumulation and Biological Effects of Cadmium in Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)46(1): 97-103|1980|10.2331/suisan.46.97
2029|A||Albaugh,D.W.|Insecticide Tolerances of Two Crayfish Populations (Procambarus acutus) in South-Central Texas|Bull. Environ. Contam. Toxicol.8(6): 334-338|1972|10.1007/BF01684771
2031|A||Herwig,H.J., F. Brands, E. Kruitwagen, and D.I. Zandee|Bioaccumulation and Histochemical Localization of Cadmium in Dreissena polymorpha Exposed to Cadmium Chloride|Aquat. Toxicol.15(3): 269-286|1989|10.1016/0166-445X(89)90040-4
2032|A||Carroll,J.J., S.J. Ellis, and W.S. Oliver|Influences of Hardness Constituents on the Acute Toxicity of Cadmium to Brook Trout (Salvelinus fontinalis)|Bull. Environ. Contam. Toxicol.22(4-5): 575-581|1979|10.1007/BF02026990
2033|A||Pickering,Q.H., and C. Henderson|The Acute Toxicity of Some Heavy Metals to Different Species of Warm Water Fishes|Proc. Ind. Waste Conf.10:453-463|1966|
2034|A||McCarty,L.S., J.A.C. Henry, and A.H. Houston|Toxicity of Cadmium to Goldfish Carassius auratus in Hard and Soft Water|J. Fish. Res. Board Can.35(1): 35-42|1978|10.1139/f78-005
2035|A||Cassidy,K., and J.H.,Jr. Rodgers|Response of Hydrilla (Hydrilla verticillata (L.f.) Royle) to Diquat and a Model of Uptake Under quilibrium Conditions|Environ. Toxicol. Chem.8(2): 133-140|1989|
2036|A||Wilkes,F.G., and C.M. Weiss|The Accumulation of DDT by the Dragonfly Nymph, Tetragoneuria|Trans. Am. Fish. Soc.100(2): 222-236|1971|10.1577/1548-8659(1971)100<222:TAODBT>2.0.CO;2
2037|A||Spehar,R.L.|Cadmium and Zinc Toxicity to Flagfish, Jordanella floridae|J. Fish. Res. Board Can.33(9): 1939-1945|1976|10.1139/f76-247
2038|A||Pascoe,D., and P. Cram|The Effect of Parasitism on Toxicity of Cadmium to the Three-Spined Stickleback, (Gasterosteus aculeatus) L|J. Fish Biol.10(5): 467-472|1977|10.1111/j.1095-8649.1977.tb04079.x
2039|A||Pascoe,D., and D.L. Mattey|Studies on the Toxicity of Cadmium to the Three-Spined Stickleback (Gasterosteus aculeatus) L.|J. Fish Biol.11(2): 207-215|1977|10.1111/j.1095-8649.1977.tb04114.x
2040|A||Jude,D.J.|Sublethal Effects of Ammonia and Cadmium on Growth of Green Sunfish, (Lepomis cyanellus)|Ph.D. Thesis, Michigan State University, East Lansing, MI:193 p.|1973|
2041|A||Ostrander,G.K., M.L. Landolt, and R.M. Kocan|Whole Life History Studies of Coho Salmon (Oncorhynchus kisutch) Following Embryonic Exposure to Benzo(a)pyrene|Aquat. Toxicol.15(2): 109-126|1989|10.1016/0166-445X(89)90010-6
2042|A||Tarzwell,C.M., and C. Henderson|Toxicity of Less Common Metals to Fishes|Ind. Wastes5:12-|1960|
2043|A||Slonim,C.B., and A.R. Slonim|Effect of Water Hardness on the Tolerance of the Guppy to Beryllium Sulfate|Bull. Environ. Contam. Toxicol.10(5): 295-301|1973|10.1007/BF01684819
2044|A||Slonim,A.R.|Acute Toxicity of Beryllium Sulfate to the Common Guppy|J. Water Pollut. Control Fed.45(10): 2110-2122|1973|
2045|A||Sodergren,A., and B. Svensson|Uptake and Accumulation of DDT and PCB by Ephemera danica (Ephemeroptera) in Continuous-Flow Systems|Bull. Environ. Contam. Toxicol.9(6): 345-350|1973|10.1007/BF01685084
2046|A||Reimschuessel,R., R.O. Bennett, E.B. May, and M.M. Lipsky|Renal Histopathological Changes in the Goldfish (Carassius auratus) After Sublethal Exposure to Hexachlorobutadiene|Aquat. Toxicol.15(2): 169-180|1989|10.1016/0166-445X(89)90014-3
2047|A||Hatakeyama,S.|Effect of a Herbicide, Chlornitrofen (2,4,6-Trichlorophenyl-4'-Nitrophenyl Ether), on the Growth and Reproduction of the Guppy (Poecilia reticulata)|Aquat. Toxicol.15(2): 181-196|1989|10.1016/0166-445X(89)90015-5
2048|A||Goodfellow,W.L.,Jr., and W.J. Rue|Evaluation of a Chronic Estimation Toxicity Test Using Mysidopsis bahia|ASTM Spec. Tech. Publ.12:333-344|1989|
2049|A||Reinert,R.E., L.J. Stone, and H.L. Bergman|Dieldrin and DDT: Accumulation From Water and Food by Lake Trout (Salvelinus namaycush) in the Laboratory|Proc. Conf. Gt. Lakes Res.:52-58|1974|
2050|A||Wurtz,C.B., and C.H. Bridges|Preliminary Results From Macro-Invertebrate Bioassays|Proc. Pa. Acad. Sci.35:51-56|1961|
2051|A||Herring,C.O., J.A. Adams, B.A. Wilson, and S.,Jr. Pollard|Dose-Response Studies Using Ethylene Dibromide (EDB) in Hydra oligactis|Bull. Environ. Contam. Toxicol.40(1): 35-40|1988|10.1007/BF01689383
2052|A||Cabejszek,I., and M. Stasiak|Studies on the Toxic Effects of Some Metals on the Water Biocenosis - Daphnia magna Employed as Index (Part II)|Roczyn. Zakl. Hig. Warsaw11:533-540|1960|
2053|A||Adema,D.M.M., and A.M. Degroot-Van Zijl|The Influence of Copper on the Water Flea Daphnia magna (De Invloed van Koper op de Watervlo Daphnia magna)|TNO Nieuws27(9): 474-482|1972|
2054|A||Anderson,B.G.|The Apparent Thresholds of Toxicity to Daphnia magna for Chlorides of Various Metals when Added to Lake Erie Water|Trans. Am. Fish. Soc.78:96-113|1948|10.1577/1548-8659(1948)78[96:TATOTT]2.0.CO;2
2055|A||McKague,A.B., R.B. Pridmore, and P.M. Wood|Effects of Altosid and Dimilin on Black Flies (Diptera: Simuliidae): Laboratory and Field Tests|Can. Entomol.110:1103-1110|1978|10.4039/Ent1101103-10
2056|A||Owen,J.W.|The Effects of Pentachlorophenol on the Liver of the Bluegill, Lepomis macrochirus|M.S.Thesis, University of Southern Mississippi, Hattiesburg, MS:46 p.|1977|
2057|A||Missimer,C.L., D.P. Lemarie, and W.L. Rue|Evaluation of a Chronic Estimation Toxicity Test Using Skeletonema costatum|ASTM Spec. Tech. Publ.12:345-354|1989|
2058|A||Hubschman,J.H.|Effects of Copper on Crayfish Orconectes rusticus (Girard):  I.  Acute Toxicity|Crustaceana  (Leiden)12(Pt.1): 33-42|1967|10.1163/156854067X00684
2059|A||Buikema,A.L.,Jr., C.L. See, and J.,Jr. Cairns|Rotifer Sensitivity to Combinations of Inorganic Water Pollutants|OWRT Project A-071-VA, VA Water Resour.Res.Center Bull.No.92, Blacksburg,VA:42 p.|1977|
2060|A||Chapman,G.A., and D.G. Stevens|Acutely Lethal Levels of Cadmium, Copper, and Zinc to Adult Male Coho Salmon and Steelhead|Trans. Am. Fish. Soc.107(6): 837-840|1978|10.1577/1548-8659(1978)107<837:ALLOCC>2.0.CO;2
2061|A||Lorz,H.W., and B.P. McPherson|Effects of Copper or Zinc in Fresh Water or the Adaptation to Sea Water and ATPase Activity and the Effects of Copper on Migratory Disposition of Coho Salmon (Oncorhynchus kisutch)|J. Fish. Res. Board Can.33(9): 2023-2030|1976|
2062|A||Chapman,G.A., and J.K. McCrady|Copper Toxicity: A Question of Form|In: R.A.Tubbs (Ed), EPA-600/3-77-085, Recent Advances in Fish Toxicology - A Symposium:132-151|1977|
2063|A||Chakoumakos,C., R.C. Russo, and R.V. Thurston|Toxicity of Copper to Cutthroat Trout (Salmo clarki) Under Different Conditions of Alkalinity, pH, and Hardness|Environ. Sci. Technol.13(2): 213-219|1979|10.1021/es60150a013
2064|A||Howarth,R.S., and J.B. Sprague|Copper Lethality to Rainbow Trout in Waters of Various Hardness and pH|Water Res.12(7): 455-462|1978|10.1016/0043-1354(78)90152-5
2065|A||Spear,P.|Copper Accumulation Kinetics and Lethal Tolerance in Relation to Fish Size|M.S.Thesis, Concordia University, Montreal, Canada:69 p.|1977|
2066|A||Calamari,D., and R. Marchetti|Predicted and Observed Acute Toxicity of Copper and Ammonia to Rainbow Trout, (Salmo gairdneri Rich.)|Prog. Water Technol.7(3-4): 569-577|1975|
2067|A||Sprague,J.B.|Lethal Concentrations of Copper and Zinc for Young Atlantic Salmon|J. Fish. Res. Board Can.21(1): 17-26|1964|10.1139/f64-003
2068|A||Wilson,R.C.H.|Prediction of Copper Toxicity in Receiving Waters|J. Fish. Res. Board Can.29(10): 1500-1502|1972|10.1139/f72-234
2069|A||Sprague,J.B., and B.A. Ramsey|Lethal Levels of Mixed Copper-Zinc Solutions for Juvenile Salmon|J. Fish. Res. Board Can.22(2): 425-432|1965|10.1139/f65-042
2070|A||McKim,J.M., and D.A. Benoit|Effects of Long-Term Exposures to Copper on Survival, Growth, and Reproduction of Brook Trout (Salvelinus fontinalis)|J. Fish. Res. Board Can.28:655-662|1971|10.1139/f71-097
2071|A||Geckler,J.R., W.B. Horning, T.M. Neiheisel, Q.H. Pickering, E.L. Robinson, and C.E. Stephan|Validity of Laboratory Tests for Predicting Copper Toxicity in Streams|EPA-600/3-76-116, U.S.EPA, Duluth, MN:208 p.|1976|
2072|AT||Eberhardt,L.L., R.L. Meeks, and T.J. Peterle|Food Chain Model for DDT Kinetics in a Freshwater Marsh|Nature230:60-62|1971|10.1038/230060a0
2073|A||Bedford,J.W., and M.J. Zabik|Bioactive Compounds in the Aquatic Environment: Uptake and Loss of DDT and Dieldrin by Freshwater Mussels|Arch. Environ. Contam. Toxicol.1(2): 97-111|1973|10.1007/BF01986000
2074|A||Herzberg,A.M.|Toxicity of Chlorpyrifos (Dursban) in Oreochromis aureus and O. niloticus and Data on its Residues in O. aureus|Bamidgeh39(1): 13-20|1987|
2075|A||Tonapi,G.T., and G. Varghese|Cardio-Physiological Responses of Some Selected Cladocerans to Three Common Pollutants|Arch. Hydrobiol.110(1): 59-65|1987|10.1127/archiv-hydrobiol/110/1987/59
2076|A||Randall,W.F., W.H. Dennis, and M.C. Warner|Acute Toxicity of Dechlorinated DDT, Chlordane and Lindane to Bluegill (Lepomis macrochirus) and Daphnia magna|Bull. Environ. Contam. Toxicol.21(6): 849-854|1979|10.1007/BF01685516
2077|A||Rao,T.S., M.S. Rao, and S.B.S.K. Prasad|"Median Tolerance Limits of Some Chemicals to the Fresh Water Fish ""Cyprinus carpio"""|Indian J. Environ. Health17(2): 140-146|1975|
2078|A||Mahdi,M.A.|Mortality of Some Species of Fish to Toxaphene at Three Temperatures|Invest.Fish Control No.6, Resour.Publ.No.10, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1966|
2079|A||Hodson,P.V., D.J. Spry, and B.R. Blunt|Effects on Rainbow Trout (Salmo gairdneri) of a Chronic Exposure to Waterborne Selenium|Can. J. Fish. Aquat. Sci.37(2): 233-240|1980|10.1139/f80-030
2080|A||Parrish,P.R., E.E. Dyar, J.M. Enos, and W.G. Wilson|Chronic Toxicity of Chlordane, Trifluralin, and Pentachlorophenol to Sheepshead Minnows (Cyprinodon variegatus)|EPA-600/3-78-010, U.S.EPA, Gulf Breeze, FL:53 p.|1978|
2081|A||Moore,R.B., and D.A. Dorward|Accumulation and Metabolism of Pesticides by Algae|J. Phycol.4(Suppl.): 7-|1968|
2082|A||Cohen,J.M., L.J. Kamphake, A.E. Lemke, C. Henderson, and R.L. Woodward|Effect of Fish Poisons on Water Supplies.  Part 1.  Removal of Toxic Materials|J. Am. Water Works Assoc.52(12): 1551-1566|1960|10.1002/j.1551-8833.1960.tb00630.x
2083|A||Sanders,H.O.|Sublethal Effects of Toxaphene on Daphnids, Scuds, and Midges|EPA-600/3-80-006, Fish-Pesticide Res.Lab., Fish Wildl.Serv., U.S.D.I., Columbia, MO:25 p.|1980|
2084|A||Verriopoulos,G., and M. Moraitou-Apostolopoulou|Toxicity of Zinc to the Marine Copepod Tisbe holothuriae; the Importance of the Food Factor|Arch. Hydrobiol.114(3): 457-463|1989|10.1127/archiv-hydrobiol/114/1989/457
2085|A||Macek,K.J., C. Hutchinson, and O.B. Cope|The Effects of Temperature on the Susceptibility of Bluegills and Rainbow Trout to Selected Pesticides|Bull. Environ. Contam. Toxicol.4(3): 174-183|1969|10.1007/BF01560960
2086|A||Isensee,A.R., G.E. Jones, J.A. McCann, and F.G. Pitcher|Toxicity and Fate of Nine Toxaphene Fractions in an Aquatic Ecosystem|J. Agric. Food Chem.27(5): 1041-1046|1979|10.1021/jf60225a010
2087|A||Moore,R.B.|Algae as Biological Indicators of Pesticides|J. Phycol.3 ((Suppl.)): 4-|1967|
2088|A||Isensee,A.R., E.R. Holden, E.A. Woolson, and G.E. Jones|Soil Persistence and Aquatic Bioaccumulation Potential of Hexachlorobenzene (HCB)|J. Agric. Food Chem.24(6): 1210-1214|1976|10.1021/jf60208a009
2089|A||Cole,D.R., and F.W.,Jr. Plapp|Inhibition of Growth and Photosynthesis in Chlorella Pyrenoidosa by a Polychlorinated Biphenyl and Several Insecticides|Environ. Entomol.3(2): 217-220|1974|10.1093/ee/3.2.217
2090|A||Mulla,M.S., L.W. Isaak, and H. Axelrod|Field Studies on the Effects of Insecticides on Some Aquatic Wildlife Species|J. Econ. Entomol.56(2): 184-188|1963|10.1093/jee/56.2.184
2091|A||Leonhard,S.L., S.G. Lawrence, M.K. Friesen, and J.F. Flannagan|Evaluation of the Acute Toxicity of the Heavy Metal Cadmium to Nymphs of the Burrowing Mayfly, Hexagenia rigida|In: J.F.Flannagan and K.E.Marshall (Eds.), Advances in Ephemeroptera Biology, Plenum Publ.Corp.:457-465|1980|
2092|A||Louder,D.E., and E.G. McCoy|Preliminary Investigations of the Use of Aqualin for Collecting Fishes|Proc. Southeast. Assoc. Game Fish Comm.16:240-242|1962|
2093|A||Naqvi,S.M., and D.E. Ferguson|Pesticide Tolerances of Selected Freshwater Invertebrates|J. Miss. Acad. Sci.14:121-127|1968|
2094|A||Nebeker,A.V., and A.R. Gaufin|Bioassays to Determine Pesticide Toxicity to the Amphipod Crustacean, Gammarus lacustris|Proc. Utah Acad. Sci. Arts  Lett. 4(1): 64-67|1964|
2095|A||Miller,C.W., B.M. Zuckerman, and A.J. Charig|Water Translocation of Diazinon-C14 and Parathion-S35 Off a Model Cranberry Bog and Subsequent Occurrence in Fish and Mussels|Trans. Am. Fish. Soc.95(4): 345-349|1966|10.1577/1548-8659(1966)95[345:WTODAP]2.0.CO;2
2096|A||Katz,M., and G.G. Chadwick|Toxicity of Endrin to Some Pacific Northwest Fishes|Trans. Am. Fish. Soc.90(4): 394-397|1961|10.1577/1548-8659(1961)90[394:TOETSP]2.0.CO;2
2097|A||Spehar,R.L., G.D. Veith, D.L. DeFoe, and B.V. Bergstedt|Toxicity and Bioaccumulation of Hexachlorocyclopentadiene, Hexachloronorbornadiene and Heptachloronorbornene in Larval and Early Juvenile Fathead Minnows, Pimephales promelas|Bull. Environ. Contam. Toxicol.21(4/5): 576-583|1979|10.1007/BF01685472
2098|A||Mount,D.I.|Chronic Effects of Endrin on Bluntnose Minnows and Guppies|Res.Rep.58, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:38 p.|1962|
2099|A||Brungs,W.A., and G.W. Bailey|Influence of Suspended Solids on the Acute Toxicity of Endrin to Fathead Minnows|Proc. 21st Ind. Waste Conf. , Purdue Univ. Eng. Bull 121, Part 150(2): 4-12|1966|
2100|A||Solon,J.M., J.L. Lincer, and J.H. Nair III|The Effect of Sublethal Concentration of LAS on the Acute Toxicity of Various Insecticides to the Fathead Minnow (Pimephales promelas Rafinesque)|Water Res.3(10): 767-775|1969|10.1016/0043-1354(69)90040-2
2101|A||Karez,C.S., S. Bonotto, and S. Puiseux-Dao|Response of the Unicellular Giant Alga Acetabularia acetabulum to Cadmium Toxicity and Accumulation|Toxicol. Environ. Chem.19(3-4): 223-232|1989|10.1080/02772248909357350
2102|A||Holcombe,G.W., D.A. Benoit, E.N. Leonard, and J.M. McKim|Long-Term Effects of Lead Exposure on Three Generations of Brook Trout (Salvelinus fontinalis)|J. Fish. Res. Board Can.33(8): 1731-1741|1976|10.1139/f76-220
2103|A||Davies,P.H., J.P.,Jr. Goettl, J.R. Sinley, and N.F. Smith|Acute and Chronic Toxicity of Lead to Rainbow Trout Salmo gairdneri, in Hard and Soft Water|Water Res.10(3): 199-206|1976|10.1016/0043-1354(76)90128-7
2104|A||Spehar,R.L., R.L. Anderson, and J.T. Fiandt|Toxicity and Bioaccumulation of Cadmium and Lead in Aquatic Invertebrates|Environ. Pollut.15(3): 195-208|1978|
2106|A||Cairns,J.,Jr., and A. Scheier|The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Common Bluegill (Lepomis macrochirus Raf.)|Not. Nat. Acad. Nat. Sci. Philadelphia 299:12-|1957|
2107|A||Cairns,J.,Jr., and A. Scheier|The Effects of Temperature and Hardness of Water upon the Toxicity of Zinc to the Pond Snail (Physa heterostropha)|Not. Nat. Acad. Nat. Sci. Philadelphia 308:11-|1958|
2108|A||Cairns,J.,Jr., and A. Scheier|The Effects of Periodic Low Oxygen upon the Toxicity of Various Chemicals to Aquatic Organisms|Purdue Univ. Agric. Exp. Stn.42:165-176|1958|
2109|A||Pickering,Q.H., and W.N. Vigor|The Acute Toxicity of Zinc to Eggs and Fry of the Fathead Minnow|Prog. Fish-Cult.27(3): 153-157|1965|10.1577/1548-8640(1965)27[153:TATOZT]2.0.CO;2
2110|A||Sinley,J.R., J.P.,Jr. Goettl, and P.H. Davies|The Effects of Zinc on Rainbow Trout (Salmo gairdneri) in Hard and Soft Water|Bull. Environ. Contam. Toxicol.12(2): 193-201|1974|10.1007/BF01684960
2111|A||Solbe,J.F.D.|The Toxicity of Zinc Sulfate to Rainbow Trout in Very Hard Water|Water Res.8(6): 389-391|1974|10.1016/0043-1354(74)90053-0
2112|A||McLeay,D.J.|A Rapid Method for Measuring the Acute Toxicity of Pulpmill Effluents and Other Toxicants to Salmonid Fish at Ambient Room Temperature|J. Fish. Res. Board Can.33(6): 1303-1311|1976|10.1139/f76-168
2113|A||O'Rear,C.W.J.|The Toxicity of Zinc and Copper to Striped Bass Eggs and Fry with Methods for Providing Confidence Limits|Proc. Southeast. Assoc. Game Fish Comm.26:484-489|1972|
2114|A||Judy,R.D.J., and P.H. Davies|Effects of Calcium Addition as Ca(NO3)2 on Zinc Toxicity to Fathead Minnows, (Pimephales promelas)|Bull. Environ. Contam. Toxicol.22(1-2): 88-94|1979|10.1007/BF02026913
2115|A||Rachlin,J.W., and A. Perlmutter|Response of an Inbred Strain of Platyfish and the Fathead Minnow to Zinc|Prog. Fish-Cult.30(4): 203-207|1968|10.1577/1548-8640(1968)30[203:RIAISO]2.0.CO;2
2116|A||Benoit,D.A., and G.W. Holcombe|Toxic Effects of Zinc on Fathead Minnows (Pimephales promelas) in Soft Water|J. Fish Biol.13(6): 701-708|1978|10.1111/j.1095-8649.1978.tb03484.x
2117|A||Holcombe,G.W., and R.W. Andrew|The Acute Toxicity of Zinc to Rainbow and Brook Trout: Comparisons in Hard and Soft Water|EPA-600/3-78-094, U.S.EPA, Duluth, MN:16 p.|1978|
2118|A||Mount,D.I.|The Effect of Total Hardness and pH on Acute Toxicity of Zinc to Fish|Air Water Pollut.10:49-56|1966|
2119|A||Chawla,G., V. Misra, and P.N. Viswanathan|Toxicity of Linear Alkyl Benzene Sulphonate on Some Aquatic Plants|Water Air Soil Pollut.43(1-2): 41-51|1989|10.1007/BF00175581
2120|A||Kopperman,H.L., R.M. Carlson, and R. Caple|Aqueous Chlorination and Ozonation Studies. I. Structure-Toxicity Correlations of Phenolic Compounds to Daphnia magna|Chem.-Biol. Interact.9(4): 245-251|1974|10.1016/0009-2797(74)90015-5
2121|A||Carson,W.G., and W.V. Carson|Toxicity of Copper and Zinc to Juvenile Atlantic Salmon in the Presence of Humic Acid and Lignosulfonates|Manuscr. Rep. Ser. - Fish. Res. Board Can.:14 p.|1972|
2122|A||Goettl,J.P.,Jr., J.R. Sinley, and P.H. Davies|Laboratory Studies:  Water Pollution Studies|In: L.E.Yeager and D.T.Weber (Eds.), Colorado Fish.Res.Rev.No.7, Div.Game Fish Parks, Ft.Collins, CO:36-49|1972|
2123|A||Chapman,G.A.|Effects of Continuous Zinc Exposure on Sockeye Salmon During Adult-to-Smolt Freshwater Residency|Trans. Am. Fish. Soc.107(6): 828-836|1978|10.1577/1548-8659(1978)107<828:EOCZEO>2.0.CO;2
2124|A||Carlson,A.R., H. Nelson, and D. Hammermeister|Evaluation of Site-Specific Criteria for Copper and Zinc: An Integration of Metal Addition Toxicity, Effluent and Receiving Water Toxicity, and Ecological Survey Data|EPA-600/3-86-026, U.S.EPA, Duluth, MN:68 p.|1986|
2125|A||Broderius,S.J., and L.L.,Jr. Smith|Lethal and Sublethal Effects of Binary Mixtures of Cyanide and Hexavalent Chromium, Zinc, or Ammonia to the Fathead Minnow (Pimephales promelas) and Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.36(2): 164-172|1979|10.1139/f79-026
2126|A||Nicholson,H.P., H.J. Webb, G.J. Lauer, R.E. O'Brien, A.R. Grzenda, and D.W. Shanklin|Insecticide Contamination in a Farm Pond Part I - Origin and Duration Part II - Biological Effects|Trans. Am. Fish. Soc.91(2): 213-222|1962|10.1577/1548-8659(1962)91[213:ICIAFP]2.0.CO;2
2127|A||Rand,G.M.|The Effect of Exposure to a Subacute Concentration of Parathion on the General Locomotor Behavior of the Goldfish|Bull. Environ. Contam. Toxicol.18(2): 259-266|1977|10.1007/BF01686076
2128|A||Mulla,M.S., and L.W. Isaak|Field Studies on the Toxicity of Insecticides to the Mosquito Fish, Gambusia affinis|J. Econ. Entomol.54(6): 1237-1242|1961|10.1093/jee/54.6.1237
2129|A||Davies,P.H., J.P.,Jr. Goettl, and J.R. Sinley|Toxicity of Silver to Rainbow Trout (Salmo gairdneri)|Water Res.12(2): 113-117|1978|10.1016/0043-1354(78)90014-3
2130|A||Anderson,B.G.|The Toxicity Thresholds of Various Sodium Salts Determined by the Use of Daphnia magna|Sewage Works J.18(1): 82-87|1946|
2131|A||Mulla,M.S., J. St.Amant, and L.D. Anderson|Evaluation of Organic Pesticides for Possible Use as Fish Toxicants|Prog. Fish-Cult.29(1): 36-42|1967|10.1577/1548-8640(1967)29[36:EOOPFP]2.0.CO;2
2132|A||Panda,B.B., B.L. Das, M. Lenka, and K.K. Panda|Water Hyacinth (Eichhornia crassipes) to Biomonitor Genotoxicity of Low Levels of Mercury in Aquatic Environment|Mutat. Res.206(2): 275-279|1988|10.1016/0165-1218(88)90171-1
2134|A||Weiss,C.M.|Physiological Effect of Organic Phosphorus Insecticides on Several Species of Fish|Trans. Am. Fish. Soc.90(2): 143-152|1961|10.1577/1548-8659(1961)90[143:PEOOPI]2.0.CO;2
2135|A||Inglis,A., and E.L. Davis|Effects of Water Hardness on the Toxicity of Several Organic and Inorganic Herbicides to Fish|Tech.Pap.No.67, Bur.Sport Fish.Wildl., Fish Wildl.Serv., U.S.D.I., Washington, DC:22 p.|1972|
2136|A||Holdway,D.A., and D.G. Dixon|Acute Toxicity of Permethrin or Glyphosate Pulse Exposure to Larval White Sucker (Catostomus commersoni) and Juvenile Flagfish (Jordanella|Environ. Toxicol. Chem.7(1): 63-68|1988|10.1002/etc.5620070109
2137|A||Anderson,P.D., and L.J. Weber|Toxic Response as a Quantitative Function of Body Size|Toxicol. Appl. Pharmacol.33(3): 471-483|1975|10.1016/0041-008X(75)90073-3
2138|A||Iwama,G.K., and G.L. Greer|Toxicity of Sodium Pentachlorophenate to Juvenile Chinook Salmon Under Conditions of high Loading Density and Continuous-Flow Exposure|Bull. Environ. Contam. Toxicol.23(4-5): 711-716|1979|10.1007/BF01770029
2139|A||Mehrle,P.M., F.L. Mayer, and D.R. Buckler|Kepone and Mirex: Effects on Bone Development and Swim Bladder Composition in Fathead Minnows|Trans. Am. Fish. Soc.110:638-643|1981|10.1577/1548-8659(1981)110<638:KAM>2.0.CO;2
2140|A||Herbes,S.E., and G.F. Risi|Metabolic Alteration and Excretion of Anthracene by Daphnia pulex|Bull. Environ. Contam. Toxicol.19(2): 147-155|1978|10.1007/BF01685780
2141|A||Epstein,S.S., M. Burroughs, and M. Small|The Photodynamic Effect of the Carcinogen, 3,4-Benzpyrene, on Paramecium caudatum|Cancer Res.23:35-44|1963|
2142|A||Martin,B.B., and D.F. Martin|Influence of Substituted Phenols on the Growth of Hydrilla|J. Aquat. Plant Manag.26:74-75|1988|
2143|A||Brown,E.R., L. Keith, J.J. Hazdra, and T. Arndt|Tumors in Fish Caught in Polluted Waters: Possible Explanations|In: Y.Ito and R.M.Dutcher (Eds.), Comparative Leukemia Research 1973, Leukemogenesis, Bibl.Haematol.No.40, Univ.of Tokyo Press, Tokyo/Karger, Basel:47-57|1973|
2144|A||Singh,J., and S. Devi|Effect of Linear Alkyl Benzene Sulphonate on Germination of Spores of the Aquatic Fern Ceratopteris thalictroides|Bull. Environ. Contam. Toxicol.43(1): 111-117|1989|10.1007/BF01702246
2145|A||Adelman,I.R., and L.L.,Jr. Smith|Standard Test Fish Development.  Part I.  Fathead Minnows (Pimephales promelas) and Goldfish (Carassius auratus) as Standard Fish in Bioassays and Their Reaction to Potential Reference Toxicants|EPA-600/3-76-061A, U.S.EPA, Duluth, MN:77 p.|1976|
2146|A||Petrich,S.M., and D.J. Reish|Effects of Aluminum and Nickel on Survival and Reproduction in Polychaetous Annelids|Bull. Environ. Contam. Toxicol.23(4-5): 698-702|1979|10.1007/BF01770027
2147|A||Smith,L.L.,Jr., S.J. Broderius, D.M. Oseid, G.L. Kimball, W.M. Koenst, and D.T. Lind|Acute and Chronic Toxicity of HCN to Fish and Invertebrates|EPA-600/3-79-009, U.S.EPA, Duluth, MN:115 p.|1979|
2148|A||Cairns,J.,Jr., and A. Scheier|Environmental Effects upon Cyanide Toxicity to Fish|Not. Nat. Acad. Nat. Sci. Philadelphia 361:11-|1963|
2149|A||Cardwell,R.D., D.G. Foreman, T.R. Payne, and D.J. Wilbur|Acute Toxicity of Selenium Dioxide to Freshwater Fishes|Arch. Environ. Contam. Toxicol.4(2): 129-144|1976|10.1007/BF02221018
2150|A||Devi,V.U., and Y.P. Rao|Heavy Metal Toxicity to Fiddler Crabs, Uca annulipes Latreille and Uca triangularis (Milne Edwards):  Respiration on Exposure to Copper, Mercury, Cadmium, and Zinc|Bull. Environ. Contam. Toxicol.43(1): 165-172|1989|10.1007/BF01702254
2151|A||Persoone,G., A. Van de Vel, M. Van Steertegem, and B. De Nayer|Predictive Value of Laboratory Tests With Aquatic Invertebrates: Influence of Experimental Conditions|Aquat. Toxicol.14(2): 149-166|1989|10.1016/0166-445X(89)90025-8
2152|A||Doudoroff,P.|Some Experiments on the Toxicity of Complex Cyanide to Fish|Sewage Ind. Wastes28(8): 1020-1040|1956|
2153|A||Oseid,D.M., and L.L. Smith|The Effects of Hydrogen Cyanide on Asellus communis and Gammarus pseudolimnaeus and Changes in Their Competitive Response when Exposed Simultaneously|Bull. Environ. Contam. Toxicol.21(4/5): 439-447|1979|10.1007/BF01685450
2154|A||Smith,L.L.,Jr.|Chronic Effects of Low Levels of Hydrogen Cyanide on Freshwater Fish|In: D.I.Mount, W.R.Swain, and N.Kivanikiw (Eds.), Proceedings of the First and Second USA-USSR Symposia on the Effects of Pollutants Upon Aquatic Ecosystems:278-293|1978|
2155|A||Henderson,C., and Q.H. Pickering|Toxicity of Organic Phosphorus Insecticides to Fish|Trans. Am. Fish. Soc.87:39-51|1958|10.1577/1548-8659(1957)87[39:TOOPIT]2.0.CO;2
2156|A||Muncy,R.J., and A.D.,Jr. Oliver|Toxicity of Ten Insecticides to the Red Crayfish, Procambarus clarki (Girard)|Trans. Am. Fish. Soc.92(4): 428-431|1963|10.1577/1548-8659(1963)92[428:TOTITT]2.0.CO;2
2157|A||Anderson,B.G.|The Toxicity of Organic Insecticides to Daphnia|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, Trans.2nd Seminar, April 20-24,1959, Tech.Rep.W60-3, U.S.Public Health Service, R.A.Taft Sanitary Engineering Center, Cincinnati, OH:94-95|1960|
2158|A||Carlson,C.A.|Effects of Three Organophosphorus Insecticides on Immature Hexagenia and Hydropsyche of the Upper Mississippi River|Trans. Am. Fish. Soc.95(1): 1-5|1966|10.1577/1548-8659(1966)95[1:EOTOIO]2.0.CO;2
2159|A||Parkhurst,Z.E., and H.E. Johnson|Toxicity of Malathion 500 to Fall Chinook Salmon Fingerlings|Prog. Fish-Cult.17(3): 113-116|1955|10.1577/1548-8659(1955)17[113:TOMTFC]2.0.CO;2
2160|A||Desi,I., G. Dura, L. Gonczi, Z. Kneffel, A. Strohmayer, and Z. Szabo|Toxicity of Malathion to Mammals, Aquatic Organisms and Tissue Culture Cells|Arch. Environ. Contam. Toxicol.3(4): 410-425|1976|10.1007/BF02220812
2161|A||Gaufin,A.R., L. Jensen, and T. Nelson|Bioassays to Determine Pesticide Toxicity to Aquatic Invertebrates|Water Sewage Works108:355-359|1961|
2162|A||Moore,R.B.|Effects of Pesticides on Growth and Survival of Euglena gracilis Z.|Bull. Environ. Contam. Toxicol.5(3): 226-230|1970|10.1007/BF01558316
2163|A||Bender,M.E.|Uptake and Retention of Malathion by the Carp|Prog. Fish-Cult.31(3): 155-159|1969|10.1577/1548-8640(1969)31[155:UAROMB]2.0.CO;2
2164|A||Kanazawa,J.|Uptake and Excretion of Organophosphorus and Carbamate Insecticides by Fresh Water Fish, Motsugo, Pseudorasbora parva|Bull. Environ. Contam. Toxicol.14(3): 346-352|1975|10.1007/BF01685649
2165|A||Calabrese,A., R.S. Collier, D.A. Nelson, and J.R. MacInnes|The Toxicity of Heavy Metals to Embryos of the American Oyster Crassostrea virginica|Mar. Biol.18(3): 162-166|1973|10.1007/BF00367984
2166|A||Eisler,R.|Acute Toxicities of Selected Heavy Metals to the Softshell Clam, Mya arenaria|Bull. Environ. Contam. Toxicol.17(2): 137-145|1977|10.1007/BF01685540
2167|A||Karlsson-Norrgren,L., and P. Runn|Cadmium Dynamics in Fish: Pulse Studies with 109Cd in Female Zebrafish, Brachydanio rerio|J. Fish Biol.27(5): 571-581|1985|10.1111/j.1095-8649.1985.tb03202.x
2168|A||Marking,L.L., and T.D. Bills|Toxicity of Potassium Permanganate to Fish and its Effectiveness for Detoxifying Antimycin|Trans. Am. Fish. Soc.104(3): 579-583|1975|10.1577/1548-8659(1975)104<579:TOPPTF>2.0.CO;2
2169|A||Kwasnik,G.M., R.J. Vetter, and G.J. Atchison|The Uptake of Manganese-54 by Green Algae (Protococcoidal chlorella), Daphnia magna, and Fathead Minnows (Pimephales promelas)|Hydrobiologia (Multiple Languages)59(3): 181-185|1978|10.1007/BF00036496
2170|A||Lewis,M.|Effects of Low Concentrations of Manganous Sulfate on Eggs and Fry of Rainbow Trout|Prog. Fish-Cult.38(2): 63-65|1976|10.1577/1548-8659(1976)38[63:EOLCOM]2.0.CO;2
2171|A||Anderson,B.G.|The Toxicity Thresholds of Various Substances Found in Industrial Wastes as Determined by the Use of Daphnia magna|Sewage Works J.16(6): 1156-1165|1944|
2172|A||Miller,D.W., R.J. Vetter, and G.J. Atchinson|Effect of Temperature and Dissolved Oxygen on Uptake and Retention of 54Mn in Fish|Health Phys.38(2): 221-225|1980|
2173|A||Garcia,M.T., I. Ribosa, L. Perez, J. Gonzalez, and J. Sanchez Leal|Testing of the Toxicity and Biodegradation of Surfactants for Evaluation of the Environmental Impact of Chromium Salts|Comun. Jorn. Com. Esp. Deterg.24:403-414|1993|
2174|A||Hart,B.A., and B.D. Scaife|Toxicity and Bioaccumulation of Cadmium in Chlorella pyrenoidosa|Environ. Res.14(3): 401-413|1977|10.1016/0013-9351(77)90048-2
2175|A||Pentreath,R.J.|The Accumulation and Retention of 65Zn and 54Mn by the Plaice, Pleuronectes platessa L|J. Exp. Mar. Biol. Ecol.12(1): 1-18|1973|10.1016/0022-0981(73)90034-8
2176|A||Pentreath,R.J.|The Accumulation From Water of 65Zn, 54Mn, 58Co, and 59Fe by the Mussel, Mytilus edulis|J. Mar. Biol. Assoc. U.K.53:127-143|1973|10.1017/S002531540005668X
2177|A||Clark,J.R., L.R. Goodman, P.W. Borthwick, J.M.,Jr. Patrick, G.M. Cripe, P.M. Moody, J.C. Moore, and E.M. Lores|Toxicity of Pyrethroids to Marine Invertebrates and Fish:  A Literature Review and Test Results with Sediment-Sorbed Chemicals|Environ. Toxicol. Chem.8(5): 393-401|1989|
2178|A||Andreasen,J.K.|Insecticide Resistance in Mosquitofish of the Lower Rio Grande Valley of Texas - an Ecological Hazard?|Arch. Environ. Contam. Toxicol.14(5): 573-577|1985|10.1007/BF01055387
2179|A||Cairns,J.,Jr., W.T. Waller, and J.C. Smrchek|Fish Bioassays Contrasting Constant and Fluctuating Input of Toxicants|Rev. Biol.7:75-91|1969|
2182|A||Bridges,W.R.|Effects of Time and Temperature on the Toxicity of Heptachlor and Kepone to Redear Sunfish|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, 3rd Seminar, Aug.13-17, 1962, Tech.Rep.999-WP-25, U.S.Public Health Service, R.A.Taft Sanitary Engineering Center, Cincinnati, OH:247-249|1965|
2183|A||Bengtsson,B.E.|Use of a Harpacticoid Copepod in Toxicity Tests|Mar. Pollut. Bull.9:238-241|1978|10.1016/0025-326X(78)90378-8
2185|A||Streufert,J.M., J.R. Jones, and H.O. Sanders|Toxicity and Biological Effects of Phthalate Esters on Midges (Chironomus plumosus)|Trans. Mo. Acad. Sci.14:33-40|1980|
2186|A||Buckler,D.R., A.,Jr. Witt, F.L. Mayer, and J.N. Huckins|Acute and Chronic Effects of Kepone and Mirex on the Fathead Minnow|Trans. Am. Fish. Soc.110(2): 270-280|1981|10.1577/1548-8659(1981)110<270:AACEOK>2.0.CO;2
2187|A||Kazmi,M.A., P.A. Siddiqui, S.N.H. Naqvi, and S.O. Ahmad|Effect of Dimilin on Freshwater Fish Oreochromis mossambicus (Peters). I. Toxicity and Phosphomonoesterase Inhibition|Karachi Univ. J. Sci.13(1): 71-82|1985|
2188|A||Butler,P.A.|Commercial Fisheries Investigations|Fish and Wildlife Service, Circular 167, Washington, D.C.:11-25|1963|
2189|A|OECDG|Phipps,G.L., G.W. Holcombe, and J.T. Fiandt|Acute Toxicity of Phenol and Substituted Phenols to the Fathead Minnow|Bull. Environ. Contam. Toxicol.26(5): 585-593|1981|10.1007/BF01622141
2190|A||Trama,F.B.|The Acute Toxicity of Phenol to the Common Bluegill (Lepomis macrochirus Rafinesque)|Not. Nat. Acad. Nat. Sci. Philadelphia 269:1-10|1955|
2191|A||Vymazal,J.|Uptake of Lead, Chromium, Cadmium and Cobalt by Cladophora glomerata|Bull. Environ. Contam. Toxicol.44(2): 468-472|1990|10.1007/BF01701231
2192|A||Bowman,M.C., W.L. Oller, T. Cairns, A.B. Gosnell, and K.H.,Jr. Oliver|Stressed Bioassay Systems for Rapid Screening of Pesticide Residues. Part I: Evaluation of Bioassay Systems|Arch. Environ. Contam. Toxicol.10(1): 9-24|1981|10.1007/BF01057571
2193|A||Randall,T.L., and P.V. Knopp|Detoxification of Specific Organic Substances by Wet Oxidation|J. Water Pollut. Control Fed.52(8): 2117-2130|1980|
2194|A||Jeng,S.S., and L.T. Sun|Effects of Dietary Zinc Levels on Zinc Concentrations in Tissues of Common Carp|J. Nutr.111:134-140|1981|10.1093/jn/111.1.134
2195|A||Dave,G., K. Andersson, R. Berglind, and B. Hasselrot|Toxicity of Eight Solvent Extraction Chemicals and of Cadmium to Water Fleas, Daphnia magna, Rainbow Trout, Salmo gairdneri, and Zebrafish, Brachydanio rerio|Comp. Biochem. Physiol. C Comp. Pharmacol.69(1): 83-98|1981|10.1016/0306-4492(81)90105-2
2196|A||Khan,A.T., J.S. Weis, and L. D'Andrea|Studies of Cadmium Tolerance in Two Populations of Grass Shrimp, Palaemonetes pugio|Bull. Environ. Contam. Toxicol.40(1): 30-34|1988|10.1007/BF01689382
2197|A||Parasher,C.D., M. Ozel, and F. Geike|Effect of Hexachlorobenzene and Acetone on Algal Growth:  Physiology and Ultrastructure|Chem.-Biol. Interact.20:89-95|1978|10.1016/0009-2797(78)90083-2
2198|A||Stratton,G.W., R.E. Burrell, M.L. Kurp, and C.T. Corke|Interactions Between the Solvent Acetone and the Pyrethroid Insecticide Permethrin on Activities of the Blue-Green Alga Anabaena|Bull. Environ. Contam. Toxicol.24(4): 562-569|1980|10.1007/BF01608156
2199|A||Frick,L.P., and W.Q. Dejimenez|Egg Clutches as Against Individual Eggs of Australorbis glabratus as Test Units in Molluscicide Evaluation|Bull. W. H. O.29:286-287|1963|
2200|A||Ritchie,L.S., L.A. Berrios-Duran, L.P. Frick, and I. Fox|Molluscicidal Qualities of Bayluscide (Bayer 73) Revealed by 6-Hour and 24-Hour Exposures Against Representative Stages and Sizes of Australorbis|Bull. W. H. O.29:281-286|1963|
2201|A||Williams,H.A., and R. Wootten|Some Effects of Therapeutic Levels of Formalin and Copper Sulphate on Blood Parameters in Rainbow Trout|Aquaculture24(3/4): 341-353|1981|10.1016/0044-8486(81)90068-5
2202|A||Baughman,D.S., D.W. Moore, and G.I. Scott|A Comparison and Evaluation of Field and Laboratory Toxicity Tests with Fenvalerate on an Estuarine Crustacean|Environ. Toxicol. Chem.8(5): 417-429|1989|10.1002/etc.5620080508
2203|A||Lock,R.A.C., P.M.J. Cruijsen, and A.P. Van Overbeeke|Effects of Mercuric Chloride and Methylmercuric Chloride on the Osmoregulatory Function of the Gills in Rainbow Trout, Salmo gairdneri Richardson|Comp. Biochem. Physiol. C Comp. Pharmacol.68(2): 151-159|1981|10.1016/0306-4492(81)90009-5
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2309|A||Kraus,M.L., and J.S. Weis|Differences in the Effects of Mercury on Telson Regeneration in Two Populations of the Grass Shrimp Palaemonetes pugio|Arch. Environ. Contam. Toxicol.17(1): 115-120|1988|10.1007/BF01055161
2310|A||Martell,J.M., D.A. Rickert, and F.R. Siegel|PCB's in Suburban Watershed, Reston, VA|Environ. Sci. Technol.9(9): 872-875|1975|10.1021/es60107a001
2311|A||Tomasso,J.R., B.A. Simco, and K.B. Davis|Chloride Inhibition of Nitrite-Induced Methemoglobinemia in Channel Catfish (Ictalurus punctatus)|J. Fish. Res. Board Can.36(9): 1141-1144|1979|10.1139/f79-160
2312|A||Kraus,M.L., J.S. Weis, and P. Weis|Effects of Mercury on Larval and Adult Grass Shrimp (Palaemonetes pugio)|Arch. Environ. Contam. Toxicol.17(3): 355-363|1988|10.1007/BF01055173
2313|A||Ruparelia,S.G., Y. Verma, S.R. Saiyad, and U.M. Rawal|Haematological Assessment of Fresh Water Fish Sarotherodon mossambica (Peters) Under the Influence of Cadmium|J. Nat. Conserv.1(1): 55-63|1989|
2314|A||Wedemeyer,G.A., and W.T. Yasutake|Prevention and Treatment of Nitrite Toxicity in Juvenile Steelhead Trout (Salmo gairdneri)|J. Fish. Res. Board Can.35(6): 822-827|1978|10.1139/f78-132
2315|A||Smith,C.E., and R.C. Russo|Nitrite-Induced Methemoglobinemia in Rainbow Trout|Prog. Fish-Cult.37(3): 150-152|1975|10.1577/1548-8659(1975)37[150:NMIRT]2.0.CO;2
2316|A||De Kock,A.C., and D.A. Lord|Kinetics of the Uptake and Elimination of Polychlorinated Biphenyls by an Estuarine Fish Species (Rhabdosargus holubi) After Aqueous Exposure|Chemosphere17(12): 2381-2390|1988|10.1016/0045-6535(88)90148-8
2317|A||Runyan,K.W.|Mercury Uptake in Rainbow Trout (Salmo gairdneri) in American Falls Reservoir|M.S.Thesis, Idaho State University, Pocatello, ID:69 p.|1972|
2318|A||Sanborn,J.R.|The Fate of Select Pesticides in the Aquatic Environment|EPA-660/3-74-025, U.S.EPA, Corvallis, OR:83 p.|1974|
2319|A||Snarski,V.M., and F.A. Puglisi|Effects of Aroclor 1254 on Brook Trout, Salvelinus fontinalis|EPA-600/3-76-112, U.S.EPA, Duluth, MN:42 p.|1976|
2320|A||Wickins,J.F.|The Tolerance of Warm-Water Prawns to Recirculated Water|Aquaculture9(1): 19-37|1976|10.1016/0044-8486(76)90045-4
2321|AT||CRC Press,Inc|Handbook of Chemical Synonyms and Trade Names|Gardner,W., E.I.Cooke and R.W.I.Cooke (Eds.), Handbook of Chemical Synonyms and Trade Names, CRC Press, Inc., Boca Raton, FL:|1978|
2322|A||Middaugh,D.P., M.J. Hemmer, and E.M. Lores|Teratological Effects of 2,4-Dinitrophenol, 'Produced Water' and Naphthalene on Embryos of the Inland Silverside Menidia beryllina|Dis. Aquat. Org.4(1): 53-65|1988|10.3354/dao004053
2323|A||Nimmo,D.R., J. Forester, P.T. Heitmuller, and G.H. Cook|Accumulation of Aroclor 1254 in Grass Shrimp (Palaemonetes pugio) in Laboratory and Field Exposures|Bull. Environ. Contam. Toxicol.11(4): 303-308|1974|10.1007/BF01684932
2325|A||Ben Amotz,A., J. Gressel, and M. Avron|Massive Accumulation of Phytoene Induced by Norflurazon in Dunaliella bardawil (Chlorophyceae) Prevents Recovery from Photoinhibition|J. Phycol.23(1): 176-181|1987|10.1111/j.0022-3646.1987.00176.x
2326|A||Krieger,K.A., D.B. Baker, and J.W. Kramer|Effects of Herbicides on Stream Aufwuchs Productivity and Nutrient Uptake|Arch. Environ. Contam. Toxicol.17(3): 299-306|1988|10.1007/BF01055166
2327|A||Roesijadi,G., J.W. Anderson, and C.S. Giam|Osmoregulation of the Grass Shrimp Palaemonetes pugio Exposed to Polychlorinated Biphenyls (PCBs). II. Effect on Free Amino Acids of Muscle Tissue|Mar. Biol.38(4): 357-363|1976|10.1007/BF00391375
2328|A||Roesijadi,G., J.W. Anderson, S.R. Petrocelli, and C.S. Giam|Osmoregulation of the Grass Shrimp Palaemonetes pugio Exposed to Polychlorinated Biphenyls (PCBs). I. Effect on Chloride and Osmotic Concentrations and Chloride-and Water-Exchange Kinetics|Mar. Biol.38(4): 343-355|1976|10.1007/BF00391374
2329|A||Schimmel,S.C., D.J. Hansen, and J. Forester|Effects of Aroclor 1254 on Laboratory-Reared Embryos and Fry of Sheepshead Minnows (Cyprinodon variegatus)|Trans. Am. Fish. Soc.103(3): 582-586|1974|10.1577/1548-8659(1974)103<582:EOAROL>2.0.CO;2
2330|A||Sanders,H.O., and J.H. Chandler|Biological Magnification of a Polychlorinated Biphenyl (Aroclor 1254) from Water by Aquatic Invertebrates|Bull. Environ. Contam. Toxicol.7(5): 257-263|1972|10.1007/BF01684520
2331|A||Lomte,V.S., and S.M. Alam|Temperature Dependent Toxicity of Malathion to the Freshwater Gastropod Viviparus bengalensis|Geobios (Jodhpur)12(6): 251-253|1985|
2332|A||Bengtsson,B.E., and B. Bergstrom|A Flowthrough Fecundity Test with Nitocra spinipes (Harpacticoidea Crustacea) for Aquatic Toxicity|Ecotoxicol. Environ. Saf.14:260-268|1987|10.1016/0147-6513(87)90069-8
2333|A||Mallatt,J., and M.G. Barron|High Tolerance of Lampreys to Kepone Toxicity|Arch. Environ. Contam. Toxicol.17(1): 73-80|1988|10.1007/BF01055156
2334|A||Van den Heuvel,M.R., L.S. McCarty, R.P. Lanno, B.E. Hickie, and D.G. Dixon|Effect of Total Body Lipid on the Toxicity and Toxicokinetics of Pentachlorophenol in Rainbow Trout (Oncorhychus mykiss)|Aquat. Toxicol.20(4): 235-252|1991|10.1016/0166-445X(91)90062-E
2335|A||McCahon,C.P., A.F. Brown, and D. Pascoe|The Effect of the Acanthocephalan Pomphorhynchus Laevis (Mueller 1776) on the Acute Toxicity of Cadmium to its Intermediate Host, the Amphipod|Arch. Environ. Contam. Toxicol.17(2): 239-243|1988|10.1007/BF01056030
2336|A||Wildish,D.J.|The Toxicity of Polychlorinated Biphenyls (PCB) in Sea Water to Grammarus oceanicus|Bull. Environ. Contam. Toxicol.5(3): 202-204|1970|10.1007/BF01558310
2337|A||Hofslagare,O., G. Samuelsson, and S. Sjoberg|Cadmium Effects on Photosynthesis and Nitrate Assimilation in Scenedesmus obliquus. A Potentiometric Study in an Open CO2-System|Environ. Exp. Bot.25(1): 75-82|1985|10.1016/0098-8472(85)90050-4
2338|A||Zitko,V.|Polychlorinated Biphenyls (PCB) Solubilized in Water by Nonionic Surfactants for Studies of Toxicity to Aquatic Animals|Bull. Environ. Contam. Toxicol.5(3): 279-285|1970|10.1007/BF01558327
2339|A||Zitko,V., and W.G. Carson|A Comparison of the Uptake of PCB's and Isopropyl-PCB's (Chloralkyene 12) by Fish|Chemosphere6(2/3): 133-140|1977|10.1016/0045-6535(77)90057-1
2340|A||Belluck,D., and A. Felsot|Bioconcentration of Pesticides by Egg Masses of the Caddisfly, Triaenodes tardus Milne|Bull. Environ. Contam. Toxicol.26:299-306|1981|10.1007/BF01622094
2341|A||Hodson,P.V.|delta-Amino Levulinic Acid Dehydratase Activity of Fish Blood As an Indicator of a Harmful Exposure to Lead|J. Fish. Res. Board Can.33(2): 268-271|1976|10.1139/f76-036
2343|A||Catedral,F.F., D.D. Gerochi, A.T. Quibuyen, and C.M. Casalmir|Effect of Nitrite, Ammonia, and Temperature on P. monodon Larvae|Quarterly Res. Rep. Aquacult. Dep. Southeast Asian Fish. Dev. Cent.1(3): 9-12|1977|
2344|A||McGeachy,S.M., and G. Leduc|The Influence of Season and Exercise on the Lethal Toxicity of Cyanide to Rainbow Trout (Salmo gairdneri)|Arch. Environ. Contam. Toxicol.17(3): 313-318|1988|10.1007/BF01055168
2346|A||Catedral,F.F., R. Coloso, N. Valera, C.M. Casalmir, and A.T. Quibuyen|Effect of Some Physico-Chemical Factor on the Survival and Growth of Penaeus monodon Postlarvae|Rep. SEAFDEC Aquac. Dep.1(3): 13-16|1977|
2347|A||Mehrle,P.M., D.R. Buckler, E.E. Little, L.M. Smith, J.D. Petty, P.H. Peterman, D.L. Stalling, G.M. De Graeve, J.J. Coyl|Toxicity and Bioconcentration of 2,3,7,8-Tetrachlorodibenzodioxin and 2,3,7,8-Tetrachlorodibenzofuran in Rainbow Trout|Environ. Toxicol. Chem.7(1): 47-62|1988|
2348|A||Marigomez,J.A., and M.P. Ireland|Accumulation, Distribution and Loss of Cadmium in the Marine Prosobranch Littorina littorea (L.)|Sci. Total Environ.78:1-12|1989|10.1016/0048-9697(89)90018-1
2349|A||Anderson,B.S., and J.W. Hunt|Bioassay Methods for Evaluating the Toxicity of Heavy Metals, Biocides and Sewage Effluent Using Microscopic Stages of Giant Kelp Macrocystis pyrifera (Agardh):  A Preliminary Report|Mar. Environ. Res.26(2): 113-134|1988|10.1016/0141-1136(88)90022-0
2350|A||Estes,P.S., and A.W. Pritchard|Physiological Responses of Ghost Shrimp to Carbaryl and 1-Naphthol|Am. Zool.28(4): A21|1988|
2351|A||Berail,G., P. Prudent, C. Massiani, and M. Pellegrini|Isolation of Heavy Metal-Binding Proteins from a Brown Seaweed Cystoseira barbata f. repens Cultivated in Copper or Cadmium Enriched Seawater|In: E.Merian and W.Haerdi (Eds.), Metal Compounds in Environment and Life, 4.Interrelation Between Chemistry and Biology, Sci.Technol.Lett., Northwood, Middlesex, UK:55-62|1992|
2352|A||Weis,J.S., and K. Kim|Tributyltin is a Teratogen in Producing Deformities in Limbs of the Fiddler Crab, Uca pugilator|Arch. Environ. Contam. Toxicol.17(5): 583-587|1988|10.1007/BF01055826
2353|A||Konikoff,M.|Toxicity of Nitrite to Channel Catfish|Prog. Fish-Cult.37(2): 96-98|1975|10.1577/1548-8659(1975)37[96:TONTCC]2.0.CO;2
2354|A||Dillon,T.M., W.H. Benson, R.A. Stackhouse, and A.M. Crider|Effects of Selected PCB Congeners on Survival, Growth, and Reproduction in Daphnia magna|Environ. Toxicol. Chem.9(10): 1317-1326|1990|10.1002/etc.5620091013
2355|A||Pittinger,C.A., D.M. Woltering, and J.A. Masters|Bioavailability of Sediment-Sorbed and Aqueous Surfactants to Chironomus riparius (Midge)|Environ. Toxicol. Chem.8(11): 1023-1033|1989|
2356|A||Heming,T.A., A. Sharma, and Y. Kumar|Time-Toxicity Relationships in Fish Exposed to the Organochlorine Pesticide Methoxychlor|Environ. Toxicol. Chem.8(10): 923-932|1989|
2357|A||Mohamed,M.P., R.S. Panwar, and R.K. Tyagi|Toxicity of Sublethal Aldrin on Metabolism and Swimming Activity in Oreochromis mossambicus (Peters)|J. Environ. Biol.8(1): 41-50|1987|
2358|A||Muir,D.C.G., and A.L. Yarechewski|Dietary Accumulation of Four Chlorinated Dioxin Congeners by Rainbow Trout and Fathead Minnows|Environ. Toxicol. Chem.7(3): 227-236|1988|10.1002/etc.5620070306
2359|A||Bennett,W.N., and A.S. Brooks|Measurement of Zinc Amelioration of Cadmium Toxicity in Chlorella pyrenoidosa Using Turbidostat Culture|Environ. Toxicol. Chem.8(10): 877-882|1989|10.1002/etc.5620081006
2360|A||Meade,T.L., and S.J. Perrone|Effect of Chloride Ion Concentration and pH on the Transport of Nitrite Across the Gill Epithelia of Coho Salmon|Prog. Fish-Cult.42(2): 71-72|1980|10.1577/1548-8659(1980)42[71:EOCICA]2.0.CO;2
2361|A||Hietanen,B., I. Sunila, and R. Kristoffersson|Toxic Effects of Zinc on the Common Mussel Mytilus edulis L. (Bivalvia) in Brackish Water. I. Physiological and Histopathological Studies|Ann. Zool. Fennici25(4): 341-347|1988|
2362|A||Hellou,J., J.H. Banoub, and A. Ryan|Fate of Naphthenic Hydrocarbons in the Bile of Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.8(10): 871-876|1989|10.1002/etc.5620081005
2363|A||Murthy,B.N., M.S. Reddy, Y. Venkateswarlu, and K.V.R. Rao|Lindane Induced Alterations in the Protein Breakdown and Utilization in the Selected Tissues of Fresh Water Fish, Tilapia mossambica (Peters)|Natl. Acad. Sci. Lett.9(1): 27-30|1986|
2364|A||Narbonne,J.F., P.M. Suteau, P.A. Grolier, and M.C. Daubeze|Metabolic Effects of a Polychlorinated Biphenyl (Phenoclor DP6) on Mullets, Chelon labrosus|Bull. Environ. Contam. Toxicol.40(1): 8-12|1988|10.1007/BF01689378
2365|A||Prakasam,V.R., P.S. Johnikutty, P.G. Sajeev, and P.M. George|Combined Effect of Hg and Zn in Modifying the Rate of Ciliary Activity of Lamellidens marginalis|J. Environ. Biol.10(Suppl. 2): 211-215|1989|
2366|A||Perrone,S.J., and T.L. Meade|Protective Effect of Chloride on Nitrite Toxicity to Coho Salmon (Oncorhynchus kisutch)|J. Fish. Res. Board Can.34(4): 486-492|1977|10.1139/f77-079
2367|A||Bills,T.D., J.J. Rach, and L.L. Marking|Toxicity of Rotenone to Developing Rainbow Trout|Invest.Fish Control No.93, Fish Wildl.Serv., Bur.Sport Fish Wildl, U.S.D.I., Washington, D.C.:3 p.|1988|
2368|A||Rani,V.J.S., P. Venkateshwarlu, and C. Janaiah|Changes in Carbohydrate Metabolism of Clarias batrachus (Linn) When Exposed to Two Organophosphorus Insecticides|J. Environ. Biol.10(Suppl. 2): 197-204|1989|
2369|A||Russo,R.C., C.E. Smith, and R.V. Thurston|Acute Toxicity of Nitrite to Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.31(10): 1653-1655|1974|10.1139/f74-208
2370|A||Rach,J.J., T.D. Bills, and L.L. Marking|Acute and Chronic Toxicity of Rotenone to Daphnia magna|Invest.Fish Control No.92, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:5 p.|1988|
2371|A||Brownell,C.L.|Water Quality Requirements for First-Feeding in Marine Fish Larvae.  I.  Ammonia, Nitrite, and Nitrate|J. Exp. Mar. Biol. Ecol.44(2-3): 269-283|1980|10.1016/0022-0981(80)90158-6
2372|A||Duquesne,S.J., and J.C. Coll|Metal Accumulation in the Clam Tridacna crocea Under Natural and Experimental Conditions|Aquat. Toxicol.32(2-3): 239-253|1995|10.1016/0166-445X(94)00089-9
2373|A||Pandey,S.N., and A.K. Tripathi|The Toxicity of Nickel to Chlorella vulgaris Beij. and Phormidium foveolarum (Mont.) Gomont|Comp. Physiol. Ecol.10(3): 117-120|1985|
2374|A||Gill,T.S., J.C. Pant, and H. Tewari|Cadmium Nephropathy in a Freshwater Fish, Puntius conchonius Hamilton|Ecotoxicol. Environ. Saf.18(2): 165-172|1989|10.1016/0147-6513(89)90077-8
2375|A||Armstrong,D.A., M.J. Stephenson, and A.W. Knight|Acute Toxicity of Nitrite to Larvae of the Giant Malaysian Prawn, Macrobrachium rosenbergii|Aquaculture9(1): 39-46|1976|10.1016/0044-8486(76)90046-6
2376|A||Bath,R.N., and F.B. Eddy|Transport of Nitrite Across Fish Gills|J. Exp. Zool.214:119-121|1980|10.1002/jez.1402140115
2377|A||Papathanassiou,E., and P.E. King|Ultrastructural Changes in Hepatopancreatic Cells of the Prawn Palaemon serratus Induced by Exposure to Acutely Toxic Cadmium Concentrations|Dis. Aquat. Org.2:39-47|1986|10.3354/dao002039
2378|A||Bortz,B.M.|The Administration of Tetramethylthionine Chloride as a Treatment for Nitrite-Induced Methemoglobinemia in Rainbow Trout (Salmo gairdneri)|M.S.Thesis, American Univ., Washington, DC:54 p.|1977|
2379|A||Rajeswari,K., V. Kalarani, D.C. Reddy, and R. Ramamurthi|Acute Toxicity of Endosulfan to Crabs: Effect on Hydromineral Balance|Bull. Environ. Contam. Toxicol.40(2): 212-218|1988|10.1007/BF01881041
2380|A||Reddy,B.K., K.S. Swami, and C.S. Chetty|Amino Acid Profiles in Tissues of Lamellidens marginalis Under Methyl Parathion Stress|Natl. Acad. Sci. Lett.9(2): 59-62|1986|
2381|A||Colt,J., R. Ludwig, G. Tchobanoglous, and J.J.,Jr. Cech|The Effects of Nitrite on the Short-Term Growth and Survival of Channel Catfish, Ictalurus punctatus|Aquaculture24:111-122|1981|10.1016/0044-8486(81)90048-X
2382|A||Crawford,R.E., and G.H. Allen|Seawater Inhibition of Nitrite Toxicity to Chinook Salmon|Trans. Am. Fish. Soc.106(1): 105-109|1977|10.1577/1548-8659(1977)106<105:SIONTT>2.0.CO;2
2383|A||MacKenzie,D., R. Frank, and G.J. Sirons|Aquatic Plant Control and Disappearance of Terbutryn From Treated Waters in Ontario, Canada, 1974-1977|J. Aquat. Plant Manag.21:11-16|1983|
2384|A||Reddy,M.S., and K.V.R. Rao|Inhibitory Effects of Pesticide Phosphamidon on Limb Regeneration in the Penaeid Prawn, Penaeus indicus (H. Milne Edwards)|Indian J. Mar. Sci.15(3): 197-198|1986|
2385|A||Devi,V.U., and Y.P. Rao|Zinc Accumulation in Fiddler Crabs Uca annulipes Latreille and Uca triangularis (Milne Edwards)|Ecotoxicol. Environ. Saf.18(2): 129-140|1989|10.1016/0147-6513(89)90073-0
2386|A||Westerdahl,H.E., and J.F. Hall|Threshold 2,4-D Concentrations for Control of Eurasian Watermilfoil and Sago Pondweed|J. Aquat. Plant Manag.21:22-25|1983|
2387|A||Khillare,Y.K., and S.B. Wagh|Effects of Endosulfan, Malathion and Sevin on Biochemical Constituents of the Fish Puntius stigma|Environ. Ecol.7(1): 66-69|1989|
2388|A||Shandilya,S., and V. Banerjee|Effect of Sublethal Toxicity of Zinc and Chromium on Peripheral Hemogram in the Fish Heteropneustes fossilis|Environ. Ecol.7(1): 16-23|1989|
2389|A||Miller,R.A., L.A. Norris, and C.L. Hawkes|Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Aquatic Organisms|Environ. Health Perspect.5:177-186|1973|10.1289/ehp.7305177
2390|A||Aoki,Y., S. Hatakeyama, N. Kobayashi, Y. Sumi, T. Suzuki, and K.T. Suzuki|Comparison of Cadmium-Binding Protein Induction Among Mayfly Larvae of Heavy Metal Resistant (Baetis thermicus) and Susceptible Species (B. yoshinensis and B. sahoensis)|Comp. Biochem. Physiol. C Comp. Pharmacol.93(2): 345-347|1989|10.1016/0742-8413(89)90245-4
2391|A||Sharma,R.M.|Effect of Endosulfan on Acid and Alkaline Phosphatase Activity in Liver, Kidney, and Muscles of Channa gachua|Bull. Environ. Contam. Toxicol.44(2): 443-448|1990|10.1007/BF01701227
2392|A||Weber,V.E.|The Effect of Sodium-Nitrite (NAN02) on the Guppy. (Lebistes reticulatus (Peters), 1859) (Die Wirkung von Natriumnitrite (NAN02) auf den Guppy)|Z. Angew. Zool. (Multiple Languages)53(1): 123-125|1966|
2393|A||Reddy,M.S., Y. Venkateswarlu, P. Surendranath, and K.V.R. Rao|Phosphamidon and Lindane Induced Changes in the Hemolymph Biochemistry of a Penaeid Prawn, Metapenaeus monoceros (Fabricius)|Natl. Acad. Sci. Lett.9(5): 155-157|1986|
2394|A||Bringmann,G., and R. Kuhn|Water Toxicological Studies with Protozoa as Test Organisms|TR-80-0058, Literature Research Co., Annandale, VA:13 p.|1959|
2395|A||Den Besten,P.J., H.J. Herwig, D.I. Zandee, and P.A. Voogt|Effects of Cadmium and PCBs on Reproduction of the Sea Star Asterias rubens:  Aberrations in the Early Development|Ecotoxicol. Environ. Saf.18(2): 173-180|1989|10.1016/0147-6513(89)90078-X
2396|A||Reinert,K.H., M.L. Hinman, and J.H.,Jr. Rodgers|Fate of Endothall During the Pat Mayse Lake (Texas) Aquatic Plant Management Program|Arch. Environ. Contam. Toxicol.17(2): 195-199|1988|10.1007/BF01056025
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2398|A||Varshney,P.K., and S.A.H. Abidi|Toxicity of Mercury, Copper and Lead in the Polychaete Namanereis merukensis Horst|Indian J. Mar. Sci.17:83-84|1988|
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2400|A||Davis,H.C., and H. Hidu|Effects of Pesticides on Embryonic Development of Clams and Oysters and on Survival and Growth of the Larvae|Fish. Bull.67(2): 393-404|1969|
2401|A||Wildish,D.J., H. Akagi, and N.J. Poole|Avoidance by Herring of Dissolved Components in Pulp Mill Effluents|Bull. Environ. Contam. Toxicol.18(5): 521-525|1977|10.1007/BF01683996
2402|A||Epifanio,C.E.|Effect of Dieldrin in Seawater on the Development of Two Species of Crab Larvae, Leptodius floridanus and Panopeus herbstii|Mar. Biol.11(4): 356-362|1971|10.1007/BF00352454
2403|A||Majewski,H.S., and M.A. Giles|Cardiovascular-Respiratory Responses of Rainbow Trout (Salmo gairdneri) During Chronic Exposure to Sublethal Concentrations of Cadmium|Water Res.15(10): 1211-1217|1981|10.1016/0043-1354(81)90096-8
2404|A||Soto,C., J.A. Hellebust, T.C. Hutchinson, and T. Sawa|Effect of Naphthalene and Aqueous Crude Oil Extracts on the Green Flagellate Chlamydomonas angulosa.  I.  Growth|Can. J. Bot.53:109-117|1975|10.1139/b75-017
2405|A||Toro,G.I.R., G.R. Leather, and F.A. Einhellig|Effects of Three Phenolic Compounds on Lemna gibba G3|J. Chem. Ecol.14(3): 845-854|1988|10.1007/BF01018778
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2407|A||Muench,B.|Quinaldine, a New Anesthetic for Fish|Prog. Fish-Cult.20:42-44|1958|10.1577/1548-8659(1958)20[42:QANAFF]2.0.CO;2
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2409|A||Shelford,V.E.|Article VI.  An Experimental Study of the Effects of Gas Waste upon Fishes, with Special Reference to Stream Pollution|Bull. Ill. State Lab. Nat. Hist.11(6): 381-410|1917|
2410|A||Bakthavathsalam,R., U. Balasubramanian, and G. Ravikumar|Time-Dependent Effects of Lindane (gamma-BHC) on the Bimodal Oxygen Consumption of Anabas testudineus (Bloch)|Pestic. Biochem. Physiol.28(3): 318-324|1987|10.1016/0048-3575(87)90126-X
2412|A||Opperhuizen,A., and P.I. Voors|Bioconcentration Kinetics of 2,4,5- Tri- and 3,3',4,4'-Tetrachlorobiphenyl and 2,4,5- Tri- and 3,3',4,4'-Tetrachlorodiphenylether in Fish|Chemosphere16(10/12): 2379-2388|1987|10.1016/0045-6535(87)90296-7
2414|A||Solomon,F.P., and E.M. Faustman|Developmental Toxicity of Four Model Alkylating Agents on Japanese Medaka Fish (Oryzias latipes) Embryos|Environ. Toxicol. Chem.6(10): 747-753|1987|10.1002/etc.5620061004
2415|A||Swift,M.C., R.A. Smucker, and K.W. Cummins|Effects of Dimilin on Freshwater Litter Decomposition|Environ. Toxicol. Chem.7(2): 161-166|1988|10.1002/etc.5620070210
2416|A||Tulasi,S.J., and J.V.R. Rao|Acid-Base Balance and Blood Gas Changes in the Fresh Water Field Crab, Barytelphusa guerini, on Exposure to Organic and Inorganic Lead|Bull. Environ. Contam. Toxicol.40(2): 198-203|1988|10.1007/BF01881039
2417|A||Bisbal,G.|Does Copper Affect the Mating Behavior of Gammarus annulatus Smith, 1873 (Amphipoda: Gammaridae)?|Biol. Bull.173(2): 429-|1987|
2418|A||Jain,S.K., P. Vasudevan, and N.K. Jha|Removal of Some Heavy Metals from Polluted Water byAquatic Plants:  Studies on Duckweed and Water Velvet|Biol. Wastes28(2): 115-126|1989|10.1016/0269-7483(89)90075-X
2419|A|OECDG|Van der Meer,C., C. Teunissen, and T.F.M. Boog|Toxicity of Sodium Chromate and 3,4-Dichloroaniline to Crustaceans|Bull. Environ. Contam. Toxicol.40(2): 204-211|1988|10.1007/BF01881040
2420|A||Schaefer,C.H., W.H. Wilder, F.S. Mulligan III, and E.F.,Jr. Dupras|Efficacy of Fenoxycarb Against Mosquitoes (Diptera: Culicidae) and Its Persistence in the Laboratory and Field|J. Econ. Entomol.80(1): 126-130|1987|10.1093/jee/80.1.126
2421|A||Ratnakar,A.V., and C. Awasthy|Toxicity of Aldrin to Cyprinus carpio|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:377-382|1979|
2422|A||Van Hoogen,G., and A. Opperhuizen|Toxicokinetics of Chlorobenzenes in Fish|Environ. Toxicol. Chem.7(3): 213-219|1988|10.1002/etc.5620070304
2423|A||Summerfelt,R.C., and W.M. Lewis|Repulsion of Green Sunfish by Certain Chemicals|J. Water Pollut. Control Fed.39(12): 2030-2038|1967|
2424|A||Iwanami,Y.|Retaining the Viability of the Resting Egg of Brine Shrimp (Artemia salina) in Organic Solvent|Exp. Cell Res.78:470-471|1973|10.1016/0014-4827(73)90095-5
2426|A||Pandey,B.N., A.K. Chanchal, S.B. Singh, S. Prasad, and M.P. Singh|Effect of Some Biocides on the Blood and Oxygen Consumption of Channa punctatus (Bloch)|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:343-348|1979|
2427|A||Sastry,K.V., and S.K. Sharma|Toxic Effects of Endrin on Liver and Kidney of a Fresh Water Teleost Fish|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:337-342|1979|
2428|A||Wicklund,A., P. Runn, and L. Norrgren|Cadmium and Zinc Interactions in Fish:  Effects of Zinc on the Uptake, Organ Distribution, and Elimination of 109Cd in the Zebrafish, Brachydanio rerio|Arch. Environ. Contam. Toxicol.17(3): 345-354|1988|10.1007/BF01055172
2429|A||Cairns,J.,Jr., and J.J. Loos|Changes in Guppy Populations Resulting from Exposure to Dieldrin|Prog. Fish-Cult.28(4): 220-226|1966|10.1577/1548-8640(1966)28[220:CIGPRF]2.0.CO;2
2430|A||Andrew,R.W., K.E. Biesinger, and G.E. Glass|Effects of Inorganic Complexing on the Toxicity of Copper to Daphnia magna|Water Res.11:309-315|1977|10.1016/0043-1354(77)90064-1
2431|A||Benoit,D.A., E.N. Leonard, G.M. Christensen, and J.T. Fiandt|Toxic Effects of Cadmium on Three Generations of Brook Trout (Salvelinus fontinalis)|Trans. Am. Fish. Soc.105(4): 550-560|1976|10.1577/1548-8659(1976)105<550:TEOCOT>2.0.CO;2
2432|A||Christensen,G.M.|Biochemical Effects of Methylmercuric Chloride, Cadmium Chloride, and Lead Nitrate on Embryos and Alevins of the Brook Trout, Salvelinus fontinalis|Toxicol. Appl. Pharmacol.32:191-197|1975|10.1016/0041-008X(75)90210-0
2433|A||Drummond,R.A., W.A. Spoor, and G.F. Olson|Some Short-Term Indicators of Sublethal Effects of Copper on Brook Trout, Salvelinus fontinalis|J. Fish. Res. Board Can.30(5): 698-701|1973|10.1139/f73-122
2434|A||Eaton,J.G., J.M. McKim, and G.W. Holcombe|Metal Toxicity to Embryos and Larvae of Seven Freshwater Fish Species - 1.  Cadmium|Bull. Environ. Contam. Toxicol.19:95-103|1978|10.1007/BF01685772
2435|A||Holcombe,G.W., D.A. Benoit, and E.N. Leonard|Long-Term Effects of Zinc Exposures on Brook Trout (Salvelinus fontinalis)|Trans. Am. Fish. Soc.108(1): 76-87|1979|10.1577/1548-8659(1979)108<76:LEOZEO>2.0.CO;2
2436|A||McKim,J.M., J.G. Eaton, and G.W. Holcombe|Metal Toxicity to Embryos and Larvae of Eight Species of Freshwater Fish - II.  Copper|Bull. Environ. Contam. Toxicol.19:608-616|1978|10.1007/BF01685847
2437|A||Madhyastha,M.N., and R.R. Nayak|Bioassay Studies with Sodium Lauryl Sulfate (An Anionic Detergent) With Reference to Certain Hematological Parameters of Rasbora daniconius (Ham.)|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:327-336|1979|
2438|A||Gnezdilova,S.M., I.G. Lipina, and N.K. Khristoforova|Morphological Changes in the Ovaries of the Sea Urchin Strongylocentrotus intermedius Exposed to Cadmium|Dis. Aquat. Org.2(2): 127-133|1987|
2439|A||Anderson,P.D., and P.A. Spear|Copper Pharmacokinetics in Fish Gills - I.  Kinetics in Pumpkinseed Sunfish, Lepomis gibbosus, of Different Body Sizes|Water Res.14(8): 1101-1105|1980|10.1016/0043-1354(80)90159-1
2440|A||Pickering,Q.H.|Some Effects of Dissolved Oxygen Concentrations upon the Toxicity of Zinc to the Bluegill, Lepomis macrochirus, Raf|Water Res.2:187-194|1968|10.1016/0043-1354(68)90025-0
2441|A||Poldoski,J.E.|Cadmium Bioaccumulation Assays. Their Relationship to Various Ionic Equilibria in Lake Superior Water|Environ. Sci. Technol.13(6): 701-706|1979|10.1021/es60154a015
2442|A||Spehar,R.L.|Cadmium and Zinc Toxicity to Jordanella floridae|EPA-600/3-76-096, U.S.EPA, Duluth, MN:40 p.|1976|
2443|A||Winner,R.W.|Evaluation of the Relative Sensitivities of 7-D Daphnia magna and Ceriodaphnia dubia Toxicity Tests for Cadmium and Sodium Pentachlorophenate|Environ. Toxicol. Chem.7(2): 153-159|1988|
2444|A||Brown,V.M., T.L. Shaw, and D.G. Shurben|Aspects of Water Quality and the Toxicity of Copper to Rainbow Trout|Water Res.8(10): 797-803|1974|10.1016/0043-1354(74)90025-6
2445|A||Ahsanullah,M.|Acute Toxicity of Cadmium and Zinc to Seven Invertebrate Species From Western Port, Victoria|Aust. J. Mar. Freshw. Res.27(2): 187-196|1976|10.1071/MF9760187
2446|A||Kumaraguru,A.K., D. Selvi, and V.K. Venugopalan|Mercury in Vellar Estuary and Its Toxicity to Oysters|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:253-264|1979|
2447|A||Chin,T.S., and J.C. Chen|Acute Toxicity of Ammonia to Larvae of the Tiger Prawn, Penaeus monodon|Aquaculture66:247-253|1987|10.1016/0044-8486(87)90110-4
2448|A||Buhler,D.R., M.E. Rasmusson, and W.E. Shanks|Chronic Oral DDT Toxicity in Juvenile Coho and Chinook Salmon|Toxicol. Appl. Pharmacol.14(3): 535-555|1969|10.1016/0041-008X(69)90014-3
2449|A||Buhler,D.R., and W.E. Shanks|Influence of Body Weight on Chronic Oral DDT Toxicity in Coho Salmon|J. Fish. Res. Board Can.27(2): 347-358|1970|10.1139/f70-040
2450|A||Burdick,G.E., H.J. Dean, E.J. Harris, J. Skea, R. Karcher, and C. Frisa|Effect of Rate and Duration of Feeding DDT on the Reproduction of Salmonid Fishes Reared and Held Under Controlled Conditions|N. Y. Fish Game J.19(2): 97-115|1972|
2451|A||Karen,D.J., B.M. Joab, J.M. Wallin, and K.A. Johnson|Partitioning of Chlorpyrifos Between Water and an Aquatic Macrophyte (Elodea densa)|Chemosphere37(8): 1579-1586|1998|10.1016/S0045-6535(98)00141-6
2452|A||Aubin,A.E., and P.H. Johansen|The Effects of an Acute DDT Exposure on the Spontaneous Electrical Activity of Goldfish Cerebellum|Can. J. Zool.47(2): 163-166|1969|10.1139/z69-037
2453|A||Peuranen,S., P.J. Vuorinen, M. Vuorinen, and A. Hollender|The Effects of Iron, Humic Acids and Low pH on the Gills and Physiology of Brown Trout (Salmo trutta)|Ann. Zool. Fennici31(4): 389-396|1994|
2454|A||Burdick,G.E., H.J. Dean, and E.J. Harris|Toxicity of Cyanide to Brown Trout and Smallmouth Bass|N. Y. Fish Game J.5(2): 133-163|1958|
2455|A||Black,H.H., G.N. McDermott, C. Henderson, W.A. Moore, and H.R. Pahren|Industrial Waste Guide - By-Product Coke|Proceedings of the 11th Industrial Waste Conference, Purdue University41:494-527|1957|
2457|A||Anderson,J.M.|Effect of Sublethal DDT on the Lateral Line of Brook Trout, Salvelinus fontinalis|J. Fish. Res. Board Can.25(12): 2677-2682|1968|10.1139/f68-237
2458|A||Buzzell,J.C.,Jr., R.H.F. Young, and D.W. Ryckman|Behavior of Organic Chemicals in the Aquatic Environment.  Part II. - Behavior in Dilute Systems|Environmental Sanitary Engineering Laboratory, Washington University, St.Louis, MO:81 p.|1968|
2459|A||Srivastava,G.J., and O.P. Srivastava|Toxicity of Urea to Channa punctatus (Bloch) Tolerance and Histopathological Changes in Certain Tissues|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:183-189|1979|
2460|A||MacLeod,J.C., and E. Pessah|Temperature Effects on Mercury Accumulation, Toxicity, and Metabolic Rate in Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.30:485-492|1973|10.1139/f73-086
2461|A||Zieris,F.J., D. Feind, and W. Huber|Long-Term Effects of 4-Nitrophenol in an Outdoor Synthetic Aquatic Ecosystem|Arch. Environ. Contam. Toxicol.17(2): 165-175|1988|10.1007/BF01056021
2462|A||Freeman,L., and I. Fowler|Toxicity of Combinations of Certain Inorganic Compounds to Daphnia magna Straus|Sewage Ind. Wastes25(10): 1191-1195|1953|
2464|A||Rahel,F.J.|Selection for Zinc Tolerance in Fish: Results From Laboratory and Wild Populations|Trans. Am. Fish. Soc.110:19-28|1981|10.1577/1548-8659(1981)110<19:SFZTIF>2.0.CO;2
2465|A||Dowden,B.F.|Cumulative Toxicities of Some Inorganic Salts to Daphnia magna as Determined by Median Tolerance Limits|Proc. La. Acad. Sci.23:77-85|1961|
2466|A||Ellis,M.M.|Toxicity of Phenyl Mercuric Lactate for Fish|Spec.Sci.Rep., No.42, U.S.Fish Wildl.Serv.:6 p.|1947|
2467|A||Brown,B., and M. Ahsanullah|Effect of Heavy Metals on Mortality and Growth|Mar. Pollut. Bull.2:182-187|1971|10.1016/0025-326X(71)90087-7
2468|A||Bills,T.D., L.L. Marking, and G.E. Howe|Sensitivity of Juvenile Striped Bass to Chemicals Used in Aquaculture|Resour.Publ.192, Fish Wildl.Serv., U.S.D.I., Washington, DC:11 p.|1993|
2469|A||Schaut,G.G.|Fish Catastrophes During Droughts|J. Am. Water Works Assoc.31(5): 771-822|1939|10.1002/j.1551-8833.1939.tb12820.x
2470|A||Cardwell,R.D., D.G. Foreman, T.R. Payne, and D.J. Wilbur|Acute and Chronic Toxicity of Four Organic Chemicals to Fish|U.S.EPA, Environ.Res.Lab., Duluth, MN; Contract 68-01-0711 (Unpublished):26 p.|1978|
2471|A||Antonioni,M.E.|Antimycin-Beyond Teleocide|Trans. Wis. Acad. Sci. Arts Lett.62:285-301|1974|
2472|A||Lubinski,K.S., K.L. Dickson, and J.,Jr. Cairns|Effects of Abrupt Sublethal Gradients of Ammonium Chloride on the Activity Level, Turning, and Preference-Avoidance Behavior of Bluegills|ASTM Spec. Tech. Publ.:328-340|1980|
2473|A||Ghosh,T.K., and S.K. Konar|Effects of Sublethal Levels of the Insecticide Aldrin on Fish and Fish-Food Organisms|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:103-112|1979|
2474|A||Rodriguez,E.M., and R.J. Lombardo|Acute Toxicity of Parathion and 2,4-D to Estuarine Adult Crabs|Bull. Environ. Contam. Toxicol.46(4): 576-582|1991|10.1007/BF01688202
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2476|A||Won,W.D., L.H. DiSalvo, and J. Ng|Toxicity and Mutagenicity of 2,4,6-Trinitrotoluene and Its Microbial Metabolites|Appl. Environ. Microbiol.31(4): 576-580|1976|10.1128/aem.31.4.576-580.1976
2477|A||Wuhrmann,K., and H. Woker|On the Toxic Effects of Ammonia and Cyanide Solutions on Fish at Different Oxygen Tensions and Temperatures|BTR-140-75, Translated for EPA by SCITRAN (Scientific Translation Service) Santa Barbara, CA:34 p.|1953|
2478|A||Kikuchi,M.|Toxicity Evaluation of Selected Pesticides Used in Golf Links by Algal Growth Inhibition Test|J. Jpn. Soc. Water Environ. (Non-English)16(10): 704-710|1993|10.2965/jswe.16.704
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2480|A||Lu,P.Y., and R.L. Metcalf|Environmental Fate and Biodegradability of Benzene Derivatives as Studied in a Model Aquatic Ecosystem|Environ. Health Perspect.10:269-284|1975|10.1289/ehp.7510269
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2482|A||Soto,C., J.A. Hellebust, and T.C. Hutchinson|Effect of Naphthalene and Aqueous Crude Oil Extracts on the Green Flagellate Chlamydomonas angulosa.  II.  Photosynthesis and the Uptake and Release of Naphthalene|Can. J. Bot.53(2): 118-126|1975|10.1139/b75-018
2483|A||Cleland,G.B., P.J. McElroy, and R.A. Sonstegard|The Effect of Dietary Exposure to Aroclor 1254 and/or Mirex on Humoral Immune Expression of Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.12(2): 141-146|1988|10.1016/0166-445X(88)90031-8
2484|A||Clark,J.R., J.M.,Jr. Patrick, J.C. Moore, and E.M. Lores|Waterborne and Sediment-Source Toxicities of Six Organic Chemicals to Grass Shrimp (Palaemonetes pugio) and Amphioxus (Branchiostoma caribaeum)|Arch. Environ. Contam. Toxicol.16(4): 401-407|1987|10.1007/BF01055260
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2486|A||Coleman,N., T.F. Mann, M. Mobley, and N. Hickman|"Mytilus edulis planulatus: An ""Integrator"" of Cadmium Pollution?"|Mar. Biol.92(1): 1-5|1986|10.1007/BF00392738
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2489|A||Davies,I.M., and J.C. McKie|Accumulation of Total Tin and Tributyltin in Muscle Tissue of Farmed Atlantic Salmon|Mar. Pollut. Bull.18(7): 405-407|1988|10.1016/0025-326X(87)90321-3
2490|A||Mohamed,M.P., R.A. Gupta, D. Nath, and G.N. Srivastava|Influence of Sublethal Ethyl Parathion on the Activity-Metabolism in the Carp, Labeo rohita (Hamilton)|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:89-95|1979|
2491|A||Davis,W.P.|Reproductive and Developmental Responses in the Self-Fertilizing Fish, Rivulus marmoratus, Induced by the Plasticizer, Di-n-Butylphthalate|Environ. Biol. Fishes21(2): 81-90|1988|10.1007/BF00004844
2492|A||Fingerman,S.W., and M. Fingerman|Comparison of the Effects of Fourteen-Day and Chronic Exposures to a Polychlorinated Biphenyl, Aroclor 1242, on Molting of the Fiddler Crab|Bull. Environ. Contam. Toxicol.21:352-357|1979|10.1007/BF01685435
2493|A||Baird,D.J., I. Barber, M. Bradley, A.M.V.M. Soares, and P. Calow|A Comparative Study of Genotype Sensitivity to Acute Toxic Stress Using Clones of Daphnia magna Straus|Ecotoxicol. Environ. Saf.21(3): 257-265|1991|10.1016/0147-6513(91)90064-V
2494|A||De Nicola Giudici,M., L. Migliore, S.M. Guarino, and C. Gambardella|Acute and Long-Term Toxicity of Cadmium to Idothea baltica (Crustacea, Isopoda)|Mar. Pollut. Bull.18(8): 454-458|1987|10.1016/0025-326X(87)90624-2
2495|A||El Safi,S.H., and A.M. Haridi|Field Trial of the Insect Growth Regulator, Dimilin, for Control of Anopheles pharoensis in Gezira, Sudan|Am. Mosq. Control Assoc. J.2(3): 374-375|1986|
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2499|A||Fair,P.H.|Interaction of Benzo(a)pyrene and Cadmium on GSH-S-Transferase and Benzo(a)pyrene Hydroxylase in the Black Sea Bass, Centropristis striata|Arch. Environ. Contam. Toxicol.15(3): 257-263|1986|10.1007/BF01061102
2500|A||Woker,H.|The Temperature Dependence of the Toxic Effect of Ammonia on Fish|Verh. Int. Ver. Theor. Angew. Limnol.10:575-579|1949|
2501|A||Gottofrey,J., I. Bjoerklund, and H. Tjaelve|Effect of Sodium Isopropylxanthate, Potassium Amylxanthate and Sodium Diethyldithiocarbamate on the Uptake and Distribution of Cadmium in the|Aquat. Toxicol.12(2): 171-184|1988|10.1016/0166-445X(88)90034-3
2502|A||Dhanekar,S., S. Shrivastava, K.S. Rao, and S.S. Pandya|Studies on Toxic Effects of Least Effective Concentration of Mercury on Fish: A Haematological Study|Matsya11:75-78|1986|
2503|A||Smith,B.S.|Tributyltin Compounds Induce Male Characteristics on Female Mud Snails Nassarius obsoletus = Ilyanassa obsoleta|J. Appl. Toxicol.1(3): 141-144|1981|10.1002/jat.2550010302
2504|A||Colquhoun,J.R., H.A. Simonin, H.J. Dean, and J. Symula|Swimming Performance of Juvenile Brown Trout Exposed to Acutely Sublethal Concentrations of Naled|N. Y. Fish Game J.31(2): 133-137|1984|
2505|A||Babu,T.R., P. Surendranath, K.S. Babu, and K.V. Ramana Rao|Differential Toxicity of Fenvalerate, DDT and Kelthane to Penaeus indicus and Metapenaeus monoceros|Environ. Ecol.6(3): 745-746|1988|
2506|A||Waluga,D., and J. Flis|Changes in the Peripheral Blood in Carp (Cyprinus carpio L.) Under the Influence of Ammonia Solution|Rocz. Nauk Roln.93:87-94|1971|
2507|A||Graney,R.L.,Jr.|Alterations in the Oxygen Consumption, Condition Index and Concentration of Free Amino Acids in Corbicula fluminea (Mollusca: Pelecypoda) Exposed to Sodium Dodecyl Sulfate|Environ. Toxicol. Chem.7(4): 301-305|1988|
2508|A||Heming,T.A., and K.A. Blumhagen|Plasma Acid-Base and Electrolyte States of Rainbow Trout Exposed to Alum (Aluminum Sulphate) in Acidic and Alkaline Environments|Aquat. Toxicol.12(2): 125-140|1988|10.1016/0166-445X(88)90030-6
2509|A||Rana,S.V.S., and R. Sharma|Co-enzyme Effects of Inorganic Mercury in the Liver of a Freshwater Fish Channa punctatus|J. Appl. Toxicol.2(6): 275-277|1982|10.1002/jat.2550020602
2511|A||Hilsenhoff,W.L.|The Effect of Toxaphene on the Benthos in a Thermally Stratified Lake|Trans. Am. Fish. Soc.94(3): 210-213|1965|10.1577/1548-8659(1965)94[210:TEOTOT]2.0.CO;2
2512|A||Kiser,R.W., J.R. Donaldson, and P.R. Olson|The Effect of Rotenone on Zooplankton Populations in Freshwater Lakes|Trans. Am. Fish. Soc.92(1): 17-24|1963|10.1577/1548-8659(1963)92[17:TEOROZ]2.0.CO;2
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2514|A||Water Pollution Research Board|Effects of Pollution on Fish: Toxicity of Gas Liquors|In: Water Pollution Research 1960, Water Pollution Research Board, Dep.of Scientific and Industrial Research, H.M.Stationery Office, London, England:76-81|1961|
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2547|A||Srivastava,A.K., and A.B. Gupta|The Effect of Sodium Salt of 2,4-D on Carbohydrate Metabolism in the Indian Catfish Heteropneustes fossilis (Bloch.)|Acta Hydrobiol.23(3): 259-268|1981|
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2549|A||Ramirez,P., G. Barrera, and C. Rosas|Effects of Chromium and Cadmium upon Respiration and Survival of Callinectes similis|Bull. Environ. Contam. Toxicol.43(6): 850-857|1989|10.1007/BF01702055
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2565|A||Stroganov,N.S., and A.T. Pozhitkov|Experimental Study to Establish the Physiological Boundaries for the Toxic Effect of Copper and Ammonia Ions on Fish and Certain Invertebrates|Translated by SCITRAN (Scientific Translation Service), Santa Barbara, CA:97 p.|1941|
2566|A||Singh,H.S., and T.V. Reddy|Effect of Copper Sulfate on Hematology, Blood Chemistry, and Hepato-Somatic Index of an Indian Catfish, Heteropneustes fossilis (Bloch), and Its Recovery|Ecotoxicol. Environ. Saf.20(1): 30-35|1990|10.1016/0147-6513(90)90043-5
2567|A||Lobel,P.B., and J.F. Payne|The Mercury-203 Method for Evaluating Metallothioneins: Interference by Copper, Mercury, Oxygen, Silver and Selenium|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 37-39|1987|10.1016/0742-8413(87)90140-X
2568|A||Chaudhari,P.R., I. Jayangouder, and K.P. Krishnamoorthi|Response of Some Common Fresh Water Algae to DDT Applications|Proc. Indian Acad. Sci. Plant Sci.99(3): 279-285|1989|10.1007/BF03053603
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2570|A||Boyum,K.W., and A.S. Brooks|The Effect of Selenium in Water and Food on Daphnia Populations|Arch. Environ. Contam. Toxicol.17(5): 555-560|1988|10.1007/BF01055822
2571|A||Pereira,J.J.|Morphological Effects of Mercury Exposure on Windowpane Flounder Gills as Observed by Scanning Electron Microscopy|J. Fish Biol.33(4): 571-580|1988|10.1111/j.1095-8649.1988.tb05500.x
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2593|A||Pierson,K.B.|Effects of Chronic Zinc Exposure on the Growth, Sexual Maturity, Reproduction, and Bioaccumulation of the Guppy, Poecilia reticulata|Can. J. Fish. Aquat. Sci.38(1): 23-31|1981|10.1139/f81-004
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2608|A||Bagarinao,T., and R.D. Vetter|Sulfide Tolerance and Detoxification in Shallow-Water Marine Fishes|Mar. Biol.103(3): 291-302|1989|10.1007/BF00397262
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2615|A||Reddy,P.S.|In Vivo Recovery from Copper-Induced Lipid Peroxidation in the Gill and Muscle of Perna viridis After Transferring to Clean Water|Fresenius Environ. Bull.3(12): 757-761|1994|
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2617|A||Dumpert,K.|Embryotoxic Effects of Environmental Chemicals: Tests with the South African Clawed Toad (Xenopus laevis)|Ecotoxicol. Environ. Saf.13(3): 324-338|1987|10.1016/0147-6513(87)90031-5
2618|A||Jana,S., and S.S. Sahana|Sensitivity of the Freshwater Fishes Clarias batrachus and Anabas testudineus to Heavy Metals|Environ. Ecol.7(2): 265-270|1989|
2619|A||Riley,E.E., and M.R. Weil|The Effects of Thiosemicarbazide on Development in the Wood Frog, Rana sylvatica. I. Concentration Effects|Ecotoxicol. Environ. Saf.12(2): 154-160|1986|10.1016/0147-6513(86)90052-7
2620|A||Egidius,E., and B. Moster|Effect of Neguvon and Nuvan Treatment on Crabs (Cancer pagurus, C. maenas), Lobster (Homarus gammarus) and Blue Mussel (Mytilus edulis)|Aquaculture60(2): 165-168|1987|10.1016/0044-8486(87)90309-7
2621|A||Hong,J.S., and D.J. Reish|Acute Toxicity of Cadmium to Eight Species of Marine Amphipod and Isopod Crustaceans from Southern California|Bull. Environ. Contam. Toxicol.39(5): 884-888|1987|10.1007/BF01855870
2622|A||Wojtalik,T.A., T.F. Hail, and L.O. Hill|Monitoring Ecological Conditions Associated with Wide-Scale Applications of DMA 2,4-D to Aquatic Environments|Pestic. Monit. J.4(4): 184-203|1971|
2624|A||Shemchuk,V.R.|Copper Ammoniate and Its Effect on the Bodies of Fish |Fisheries Bioassay Laboratory, Montana State University, Bozeman, MT:10 p.|1978|
2625|A||Shivaraj,K.M., B.B. Hosetti, and H.S. Patil|Oxygen Consumption in Puntius arulius Following Exposure to Sublethal Levels of Cadmium and Copper|Environ. Ecol.7(2): 298-301|1989|
2626|A||Couch,J.A., and L.A. Courtney|N-Nitrosodiethylamine-Induced Hepatocarcinogenesis in Estuarine Sheepshead Minnow (Cyprinodon variegatus): Neoplasms and Related Lesions Compared with Mammalian Lesions|J. Natl. Cancer Inst.79(2): 297-321|1987|
2628|A||Ikuta,K.|Cadmium Accumulation by a Top Shell Batillus cornutus|Nippon Suisan Gakkaishi (Multiple Languages)53(7): 1237-1242|1987|10.2331/suisan.53.1237
2629|A||Singh,S.B., S.C. Banerjee, and P.C. Chakrabarti|Preliminary Observations on Response of Young Ones of Chinese Carps to Various Physico-chemical Factors of Water|Proc. Natl. Acad. Sci. U.S.A.37(3B): 320-324|1967|
2630|A||Ikuta,K.|Concentration Thresholds in Accumulation of Heavy Metals by Haliotis discus and Batillus cornutus|Nippon Suisan Gakkaishi (Multiple Languages)53(9): 1673-1678|1987|10.2331/suisan.53.1673
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2634|A||Smith,C.E.|Effects of Metabolic Products on the Quality of Rainbow Trout|Am. Fishes U.S. Trout News17:7-8|1972|
2635|A||Wedding,R.T., L.C. Erickson, and B.L. Brannaman|Effect of 2,4-Dichlorophenoxyacetic Acid on Photosynthesis and Respiration|Plant Physiol.29:64-69|1954|10.1104/pp.29.1.64
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2637|A||Chakraborty,P.S., A. Mallik, D.K. Dingal, and S. Banerjee|Effect of Methyl Parathion on Brain and Olfactory Organ Acetylcholinesterase Activity of the Fish Heteropneustes fossilis|Environ. Ecol.7(2): 310-314|1989|
2638|A||Gauna,L., A. Caballero de Castro, M. Chifflet de Llamas, and A.M. Pechen de D'Angelo|Effects of Dieldrin Treatment on Physiological and Biochemical Aspects of the Toad Embryonic Development|Bull. Environ. Contam. Toxicol.46:633-640|1991|10.1007/BF01688210
2639|A||Moitra,A., and R. Lal|Effect on Sublethal Doses of Malathion and BHC on the Intestine of the Fish Puntius sarana|Environ. Ecol.7(2): 412-414|1989|
2640|A||Kulkarni,A.N., and R. Keshavan|Respiratory Response of a Freshwater Fish Chela phulo to Dimecron|Environ. Ecol.7(2): 489-491|1989|
2641|A||Grebe,E., and D.J. Schaeffer|Planarians in Toxicology, Standardization of a Rapid Neurobehavioral Toxicity Test Using Phenol in a Crossover Study|Bull. Environ. Contam. Toxicol.46:866-870|1991|10.1007/BF01689731
2643|A||Scudder,B.C., J.L. Carter, and H.V. Leland|Effects of Copper on Development of the Fathead Minnow, Pimephales promelas Rafinesque|Aquat. Toxicol.12(2): 107-124|1988|10.1016/0166-445X(88)90029-X
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2646|A||Gaaboub,I.A., F.M. El-Gayar, and A.A. Abdel-Gawaad|Comparative Studies on the Sensitivity of Culex pipiens fatigans Wied. Mosquito Larvae and the Microcrustacean Adults of Daphnia magna Straus as Microbioassay Test Organisms for Screening Certain Soil Insecticides Appli|Bull. Entomol. Soc. Egypt7:193-199|1973|
2647|A||Sarojini,R., A.K. Khan, and R. Nagabhushanam|Effect of Acute Exposure to Mercuric Chloride and Phenol on the Oxygen Consumption of the Freshwater Crab Barytelphusa cunicularis|Environ. Ecol.7(2): 494-496|1989|
2648|A||Wenning,R.J., R.T. Di Giulio, and E.P. Gallagher|Oxidant-Mediated Biochemical Effects of Paraquat in the Ribbed Mussel, Geukensia demissa|Aquat. Toxicol.12(2): 157-170|1988|10.1016/0166-445X(88)90033-1
2649|A||Ram,R.N., and S.K. Singh|Long-Term Effect of Ammonium Sulfate Fertilizer on Histophysiology of Adrenal in the Teleost, Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.41(6): 880-887|1988|10.1007/BF02021050
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2653|A||Hemens,J., and R.J. Warwick|The Effects of Fluoride on Estuarine Organisms|Water Res.6(11): 1301-1308|1972|10.1016/0043-1354(72)90194-7
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2665|A||Naqvi,S.M., and D.E. Ferguson|Levels of Insecticide Resistance in Fresh-Water Shrimp, Palaemonetes kadiakensis|Trans. Am. Fish. Soc.99(4): 696-699|1970|10.1577/1548-8659(1970)99<696:LOIRIF>2.0.CO;2
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2673|A||Walker,C.R., R.E. Lennon, and B.L. Berger|Preliminary Observations on the Toxicity of Antimycin A to Fish and Other Aquatic Animals|Invest.Fish Control, Circular 186, Fish Wildl.Service, U.S.D.I., Washington, D.C.:18 p.|1964|
2674|A||Batterton,J.C., G.M. Boush, and F. Matsumura|DDT:  Inhibition of Sodium Chloride Tolerance by the Blue-Green Alga Anacystis nidulans|Science176(4039): 1141-1143|1972|10.1126/science.176.4039.1141
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2676|A||Skaar,D.R., B.T. Johnson, J.R. Jones, and J.N. Huckins|Fate of Kepone and Mirex in a Model Aquatic Environment: Sediment, Fish, and Diet|Can. J. Fish. Aquat. Sci.38(8): 931-938|1981|10.1139/f81-126
2677|A||Mulla,M.S.|Persistence of Mosquito Larvicides in Water|Mosq. News23(3): 234-237|1963|
2679|A||Sreenivasan,A., and G.K. Swaminathan|Toxicity of Six Organophosphorus Insecticides to Fish|Curr. Sci. (Bangalore)36(15): 397-398|1967|
2680|A||Menzel,D.W., J. Anderson, and A. Randtke|Marine Phytoplankton Vary in Their Response to Chlorinated Hydrocarbons|Science167:1724-1726|1970|10.1126/science.167.3926.1724
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2682|A||Nishiuchi,Y., and Y. Hashimoto|Toxicity of Pesticides to Some Fresh Water Organisms|Rev. Plant Prot. Res.2:137-139|1969|
2683|A||Tagatz,M.E.|Effect of Mirex on Predator-Prey Interaction in an Experimental Estuarine Ecosystem|Trans. Am. Fish. Soc.105(4): 546-549|1976|10.1577/1548-8659(1976)105<546:EOMOPI>2.0.CO;2
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2687|A||Sato,H., and M. Yasuno|Test on Chironomidae Larvae Susceptibility to Various Insecticides|Eisei Dobutsu30(4): 361-366|1979|10.7601/mez.30.361
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2700|A||Stangenberg,M.|The Influence of the Chemical Composition of Water on the Pike Perch (Lucioperca lucioperca L.) Fry from the Lake Gopio|Limnologica9(3): 421-426|1975|
2701|A||Suzuki,K.|The Toxic Influence of Heavy Metal Salts upon Mosquito Larvae|J. Fac. Sci. Hokkaido Univ.6(14): 196-209|1959|
2702|A||Takeda,K.|Relative Growth of a Marine Centric Diatom Chaetoceros calcitrans f. pumilus (Paulsen) Takano in Media Containing Various Concentration of Manganese|Bull. Plankton. Soc. Jpn.17(2): 77-83|1970|
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2708|A||Kapoor,I.P., R.L. Metcalf, R.F. Nystrom, and G.K. Sangha|Comparative Metabolism of Methoxychlor, Methiochlor, and DDT in Mouse, Insects, and in a Model Ecosystem|J. Agric. Food Chem.18(6): 1145-1152|1970|10.1021/jf60172a017
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2710|A||Gaur,J.P.|Toxicity of Some Oil Constituents to Selenastrum capricornutum|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(6): 617-620|1988|10.1002/aheh.19880160611
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2713|A||Roeder,M., and R.H. Roeder|Effect of Iron on the Growth Rate of Fishes|J. Nutr.90:86-90|1966|10.1093/jn/90.1.86
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2716|A||Oota,Y.|Disappearance of Rhythmicity in Growth Response to Dark- and Light-Breaks in Lemna gibba G3 due to Iron Deficiency|Plant Cell Physiol.12:255-266|1971|
2718|A||Burovina,I.V., V.F. Vasil'eva, S.M. Gnezdilova, I.G. Lipina, V.A. Nikiforov, and K.Y. Ukhanov|Effect of Cadmium on Elemental Composition and Cell Morphology in the Hepatopancreas, Kidney, and Gonads of the Mussel Mytilus edulis and the Scallop|J. Evol. Biochem. Physiol.24(2): 87-95|1988|
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2723|A||Dad,N.K., S.A. Qureshi, and V.K. Pandya|Acute Toxicity of Two Insecticides to Tubificid Worms, Tubifex tubifex and Limnodrilus hoffmeisteri|Environ. Int.7(5): 361-363|1982|10.1016/0160-4120(82)90130-1
2724|A||Ikuta,K., and M. Nakahara|Uptake, Retention and Excretion 54Mn by a Perry Whelk Volutharpa ampullacea Perryi|Nippon Suisan Gakkaishi (Multiple Languages)52(10): 1853-1859|1986|10.2331/suisan.52.1853
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2729|A||Timmermans,K.R., and P.A. Walker|The Fate of Trace Metals During the Metamorphosis of Chironomids (Diptera, Chironomidae)|Environ. Pollut.62(1): 73-85|1989|10.1016/0269-7491(89)90097-3
2730|A||George,S.G.|Cadmium Effects on Plaice Liver Xenobiotic and Metal Detoxication Systems: Dose-Response|Aquat. Toxicol.15(4): 303-310|1989|10.1016/0166-445X(89)90043-X
2731|A||Young,M.L.|The Roles of Food and Direct Uptake from Water in the Accumulation of Zinc and Iron in the Tissues of the Dogwhelk, Nucella lapillus (L.)|J. Exp. Mar. Biol. Ecol.30:315-325|1977|10.1016/0022-0981(77)90039-9
2732|A||Gersdorff,W.A., and L.E. Smith|Effect of Introduction of the Halogens into the Phenol Molecule on Toxicity to Goldfish.  II.  Monobromophenols|Am. J. Pharm.112:316-322|1940|
2734|A||Deshmukh,N.V., and V.B. Masurekar|Naphthalene Induced Metabolic Stress in Metapenaeus monoceros Fab. Pre-Adapted to Different Salinities: Changes in Oxygen Consumption|J. Anim. Morphol. Physiol.30(1/2): 78-84|1983|
2735|A||Carpentier,A.G., D.L. MacKenzie, and R. Frank|Residues and Efficacy of Two Formulations of 2,4-D on Aquatic Macrophytes in Buckhorn Lake, Ontario|J. Aquat. Plant Manag.26:29-37|1988|
2737|A||Moore,M.V., and R.W. Winner|Relative Sensitivity of Cerodaphnia dubia Laboratory Tests and Pond Communities of Zooplankton and Benthos to Chronic Copper Stress|Aquat. Toxicol.15(4): 311-330|1989|10.1016/0166-445X(89)90044-1
2738|A||Mitchell,S.F., and R.G. Wetzel|A Bioassay Study of Effects of Zooplankton, Iron and NTA on the Phytoplankton Productivity of a Marl Lake|Hydrobiologia (Multiple Languages)68(3): 235-241|1980|10.1007/BF00018832
2739|A||Ingols,R.S.|The Cause of Trout Fish Kills Occurring in the Water From the Aerated Hypolimnion of Deep Lakes|Report ERC-0176, Engineering Experiment Station, Georgia Institute of Technology, Atlanta, GA:17 p.|1976|
2740|A||Bovee,E.C., D.A. Kegley, D. Sternshein, E. Wyttenbach, and B.L. Bergquist|Alleviation of the Toxicity of Copper to Tetrahymena pyriformis by Nontoxic Iron|Univ.Kans.Sci.Bull.51(24): 679-684|1979|
2741|A||Pawlaczyk-Szpilowa,M., M. Moskal, and J. Weretelnik|The Usefulness of Biological Tests for Determining the Toxicity of Some Chemical Compounds in Water (Przydatnosc Testow Biologicznych D Okreslenia Toksycznosci Niektorych Zwiazkow Chemicznych w Wodach)|Acta Hydrobiol.14(2): 115-127|1972|
2742|A||Ostrom,K.M., and T.L. Simpson|Calcium and the Release From Dormancy of Freshwater Sponge Gemmules|Dev. Biol.64:332-338|1978|10.1016/0012-1606(78)90083-0
2743|A||Miller,J.C., and R. Landesman|Reduction of Heavy Metal Toxicity to Xenopus Embryos by Magnesium Ions|Bull. Environ. Contam. Toxicol.20:93-95|1978|10.1007/BF01683491
2744|A||Bircher,L., and E. Ruber|Toxicity of Methoprene to All Stages of the Salt Marsh Copepod, Apocyclops spartinus (Cyclopoida)|Am. Mosq. Control Assoc. J.4(4): 520-523|1988|
2745|A||Mathis,B.J., T.F. Cummings, M. Gower, M. Taylor, and C. King|Dynamics of Manganese Cadmium and Lead in Experimental Power Plant Ponds|Hydrobiologia (Multiple Languages)67(3): 197-206|1979|10.1007/BF00023176
2746|A||Pons,R., and M. Pussard|The Action of Herbicide on Free Amoebas (Rhizopoda, Protozoa).  Preliminary Study|Acta Oecol. Oecol. Appl. (Multiple Languages)1(1): 15-20|1980|
2748|A||Hooper,F.N.|The Effect of Applications of Pelleted 2,4-D upon the Bottom Fauna of Kent Lake, Oakland County, Michigan|Proc. North Cent. Weed Control Conf.15:41-|1958|
2749|A||Chen,J.C., and P.C. Liu|Accumulation of Heavy Metals in the Nauplii of Artemia salina|J. World Aquac. Soc.18(2): 84-93|1987|10.1111/j.1749-7345.1987.tb00422.x
2750|A||Parma de Croux,M.J.|Benzocaine (Ethyl-p-Aminobenzoate) as an Anaesthetic for Prochilodus lineatus, Valenciennes (Pisces, Curimatidae)|J. Appl. Ichthyol.6(3): 189-192|1990|10.1111/j.1439-0426.1990.tb00578.x
2751|A||Hiltibran,R.C.|Effects of Some Herbicides on Fertilized Fish Eggs and Fry|Trans. Am. Fish. Soc.96:414-416|1967|10.1577/1548-8659(1967)96[414:EOSHOF]2.0.CO;2
2752|A||Kotsanis,N., and C.D. Metcalfe|Enhancement of Hepatocarcinogenesis in Rainbow Trout with Carbon Tetrachloride|Bull. Environ. Contam. Toxicol.46:879-886|1991|10.1007/BF01689733
2754|A||Erickson,L.C., R.T. Wedding, and B.L. Brannaman|Influence of pH on 2,4-Dichlorophenoxyacetic and Acetic Acid Activity in Chlorella|Plant Physiol.30(1): 69-74|1955|10.1104/pp.30.1.69
2755|A||Palmer,C.M., and T.E. Maloney|Preliminary Screening for Potential Algicides|Ohio J. Sci.55(1): 1-8|1955|
2756|A||Poorman,A.E.|Effects of Pesticides on Euglena Gracilis. I. Growth Studies|Bull. Environ. Contam. Toxicol.10(1): 25-28|1973|10.1007/BF01684750
2757|A||Schultz,D.P., and P.D. Harman|Residues of 2,4-D in Pond Waters, Mud, and Fish, 1971|Pestic. Monit. J.8(3): 173-179|1974|
2758|A||Sears,H.S., and W.R. Meehan|Residues in Fish, Wildlife, and Estuaries|Pestic. Monit. J.5(2): 213-217|1971|
2759|A||Marshall,C.D., and C.W. Rutschsky III|Single Herbicide Treatment: Effect on the Diversity of Aquatic Insects in Stone Valley Lake, Huntingdon County, PA|Proc. Pa. Acad. Sci.48:127-131|1974|
2760|A||Tagatz,M.E., P.W. Borthwick, J.M. Ivey, and J. Knight|Effects of Leached Mirex on Experimental Communities of Estuarine Animals|Arch. Environ. Contam. Toxicol.4(4): 435-442|1976|10.1007/BF02221040
2761|A||Van Valin,C.C., A.K. Andrews, and L.L. Eller|Some Effects of Mirex on Two Warm-Water Fishes|Trans. Am. Fish. Soc.97:185-196|1968|10.1577/1548-8659(1968)97[185:SEOMOT]2.0.CO;2
2762|A||Kricher,J.C., J.C. Urey, and M.L. Hawes|The Effects of Mirex and Methoxychlor on the Growth and Productivity of Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.14:617-620|1975|10.1007/BF01683381
2763|A||Leatherland,J.F., and R.A. Sonstegard|Lowering of Serum Thyroxine and Triiodothyronine Levels in Yearling Coho Salmon, Oncorhynchus kisutch, by Dietary Mirex and PCBs|J. Fish. Res. Board Can.35(10): 1285-1289|1978|10.1139/f78-202
2764|A||Leffler,C.W.|Effects of Ingested Mirex and DDT on Juvenile Callinectes sapidus Rathbun|Environ. Pollut.8:283-300|1975|
2765|A||Ludke,J.L., M.T. Finley, and C. Lusk|Toxicity of Mirex to Crayfish, Procambarus blandingi|Bull. Environ. Contam. Toxicol.6(1): 89-96|1971|10.1007/BF01559079
2766|A||Schoor,W.P., and S.M. Newman|The Effect of Mirex on the Burrowing Activity of the Lugworm (Arenicola cristata)|Trans. Am. Fish. Soc.105(6): 700-703|1976|10.1577/1548-8659(1976)105<700:TEOMOT>2.0.CO;2
2767|A||Schoor,W.H.|Accumulation of Mirex-14C in the Adult Blue Crab (Callinectes sapidus)|Bull. Environ. Contam. Toxicol.12:136-137|1974|10.1007/BF01684949
2768|A||Tournie,T., and H. El Mednaoui|Metal-Complexing Agents Released into the Marine Environment by the Deposit Feeder Hydrobia ulvae (Gastropoda: Prosobranchia): Characterization and Regulation Processes|Mar. Ecol. Prog. Ser.34:251-259|1986|10.3354/meps034251
2769|A||Page,D.L., and B. Colman|The Effect of Methoxychlor on Carbon Assimilation by Freshwater Phytoplankton|Can. J. Bot.54(24): 2848-2851|1976|10.1139/b76-305
2770|A||Sanders,H.O., J. Huckins, B.T. Johnson, and D. Skaar|Biological Effects of Kepone and Mirex in Freshwater Invertebrates|Arch. Environ. Contam. Toxicol.10:531-539|1981|10.1007/BF01054877
2771|A||Smith,E.J., and J.L. Sykora|Early Developmental Effects of Lime-Neutralized Iron Hydroxide Suspensions on Brook Trout and Coho Salmon|Trans. Am. Fish. Soc.105(2): 308-312|1976|10.1577/1548-8659(1976)105<308:EDEOLI>2.0.CO;2
2772|A||Sykora,J.L., E.J. Smith, and M. Synak|Effect of Lime Neutralized Iron Hydroxide Suspensions on Juvenile Brook Trout (Salvelinus fontinalis, Mitchill)|Water Res.6:935-950|1972|10.1016/0043-1354(72)90045-0
2774|A||Koschier,F.J., and J.B. Pritchard|Renal Handling of 2,4-D by the Dogfish Shark (Squalus acanthias)|Xenobiotica10(1): 1-6|1980|10.3109/00498258009033724
2775|A||Crosby,D.G., and R.K. Tucker|Toxicity of Aquatic Herbicides to Daphnia magna|Science154:289-291|1966|10.1126/science.154.3746.289
2776|A||Meehan,W.R., L.A. Norris, and H.S. Sears|Toxicity of Various Formulations of 2,4-D to Salmonids in Southeast Alaska|J. Fish. Res. Board Can.31(4): 480-484|1974|10.1139/f74-083
2777|A||Barron,M.G., I.R. Schultz, and W.L. Hayton|Presystemic Branchial Metabolism Limits Di-2-Ethylhexyl Phthalate Accumulation in Fish|Toxicol. Appl. Pharmacol.98(1): 49-57|1989|10.1016/0041-008X(89)90133-6
2778|A||Sikka,H.C., H.T. Appleton, and E.O. Gangstad|Uptake and Metabolism of Dimethylamine Salt of 2,4-Dichlorophenoxacetic Acid by Fish|J. Agric. Food Chem.25(5): 1030-1033|1977|10.1021/jf60213a005
2779|A||Stalling,D.L., and J.N. Huckins|Metabolism of 2,4-Dichlorophenoxyacetic Acid (2,4-D) in Bluegills and Water|J. Agric. Food Chem.26(2): 447-452|1978|10.1021/jf60216a055
2780|A||Schultz,D.P.|Dynamics of a Salt of (2,4-Dichlorophenoxy)Acetic Acid in Fish, Water, and Hydrosol|J. Agric. Food Chem.21(2): 186-192|1973|10.1021/jf60186a035
2781|A||Vance,B.D., and D.L. Smith|Effects of Five Herbicides on Three Green Algae|Texas J. Sci.20(4): 329-337|1969|
2782|A||Voight,R.A., and D.L. Lynch|Effects of 2,4-D and DMSO on Procaryotic and Eucaryotic Cells|Bull. Environ. Contam. Toxicol.12(4): 400-404|1974|10.1007/BF01684973
2784|A||Cooke,A.S.|The Effects of DDT, Dieldrin and 2,4-D on Amphibian Spawn and Tadpoles|Environ. Pollut.3:51-68|1972|
2785|A||Bertagnolli,B.L., and M.J. Nadakavukaren|Effect of 2,4-Dichlorophenoxyacetic Acid on the Fine Structure of Chlorella pyrenoidosa Chick|J. Phycol.6:98-100|1970|
2786|A||Davis,J.T., and W.S. Hardcastle|Biological Assay of Herbicides for Fish Toxicity|Weeds (Urbana)7:397-404|1959|10.2307/4040459
2787|A||Davis,J.T., and J.S. Hughes|Further Observations on the Toxicity of Commercial Herbicides to Bluegill Sunfish|Proc. South. Weed Sci. Soc.:337-340|1963|
2788|A||Kemp,H.T., R.G. Fuller, and R.S. Davidson|Potassium Permanganate as an Algicide|J. Am. Water Works Assoc.58(2): 255-263|1966|10.1002/j.1551-8833.1966.tb01576.x
2789|A||Lange,G.M.|Effect of Methylmercury on the Reproductive Behaviors of the Convict Cichlid (Cichlasoma nigrofasciatum)|M.S.Thesis, Central Michigan University, Mount Pleasant, MI:62 p.|1988|
2790|A||Sunila,I.|Cystic Kidneys in Copper Exposed Mussels|Dis. Aquat. Org.6(1): 63-66|1989|10.3354/dao006063
2791|A||VanVeld,P.A.|Uptake, Distribution, Metabolism and Clearance of Kepone by Channel Catfish (Ictalurus punctatus)|M.A.Thesis, College of William and Mary in Virginia, Williamsburg, VA:73 p.|1980|
2792|A||Sikka,H.C., G.L. Butler, and C.P. Rice|Effects, Uptake, and Metabolism of Methoxychlor, Mirex, and 2,4-D in Seaweeds|EPA-600/3-76-048, U.S.EPA, Gulf Breeze, FL:39 p.|1976|
2793|A||Fisher,D.J.|Effects of Ingestion of Kepone Contaminated Food by Juvenile Blue Crabs (Callinectes sapidus Rathbun)|M.A.Thesis, College of William and Mary in Virginia, Williamsburg, VA:79 p.|1980|
2794|A||Kennedy,H.D., L.L. Eller, and D.F. Walsh|Chronic Effects of Methoxychlor on Bluegills and Aquatic Invertebrates|Tech. Pap. Bur. Sport Fish. Wildl.53:18 p.|1970|
2795|A||Sibley,T.H., and J.S. Stohr|Accumulation of Am-241 and Cm-244 from Water and Sediments by Hyalella sp. and Tubifex spp|Bull. Environ. Contam. Toxicol.44(1): 165-172|1990|10.1007/BF01702377
2796|A||Metcalf,R.L., G.K. Sangha, and I.P. Kapoor|Model Ecosystem for the Evaluation of Pesticide Biodegradability and Ecological Magnification|Environ. Sci. Technol.5(8): 709-713|1971|10.1021/es60055a004
2797|A||Mitsuhashi,J., T.D.C. Grace, and D.F. Waterhouse|Effects of Insecticides on Cultures of Insect Cells|Entomol. Exp. Appl.13:327-341|1970|10.1111/j.1570-7458.1970.tb00117.x
2798|A||Naqvi,S.M.Z.|Toxicity of Twenty-Three Insecticides to a Tubificid Worm Branchiura sowerbyi from the Mississippi Delta|J. Econ. Entomol.66(1): 70-74|1973|10.1093/jee/66.1.70
2799|A||Nir,R., A. Gasith, and A.S. Perry|Cadmium Uptake and Toxicity to Water Hyacinth: Effect of Repeated Exposures Under Controlled Conditions|Bull. Environ. Contam. Toxicol.44:149-157|1990|10.1007/BF01702375
2800|A||Wong,C.K., and P.K. Wong|Life Table Evaluation of the Effects of Cadmium Exposure on the Freshwater Cladoceran, Moina macrocopa|Bull. Environ. Contam. Toxicol.44(1): 135-141|1990|10.1007/BF01702373
2801|A||Vranken,G., C. Tire, and C. Heip|The Toxicity of Paired Metal Mixtures to the Nematode Monhystera disjuncta (Bastian, 1865)|Mar. Environ. Res.26(3): 161-179|1988|10.1016/0141-1136(88)90025-6
2802|A||Swedberg,D., and L.L. Eller|Methoxychlor-Caused Effects on Cutthroat Trout Physiology|Prog.Sport Fish Res., Pest Control Res., Fish Pestic.Res.Lab/Fish Control Lab, Div.Fish.Res., Bureau Sport Fish.Wildl.No.77:107-108|1968|
2803|A||Wallace,R.R., A.S. West, A.E.R. Downe, and H.B.N. Hynes|The Effects of Experimental Blackfly (Diptera:  Simuliidae) Larviciding with Abate, Dursban, and Methoxychlor on Stream Invertebrates|Can. Entomol.105(6): 817-831|1973|10.4039/Ent105817-6
2804|A||Wallace,R.R., and H.B.N. Hynes|The Catastrophic Drift of Stream Insects After Treatments with Methoxychlor (1,1,1-Trichloro-2,2-bis(p-Methoxyphenyl) Ethane)|Environ. Pollut.8:255-268|1975|
2805|A||Schouwenburg,W.J., and K.J. Jackson|A Field Assessment of the Effects of Spraying a Small Coastal Coho Salmon Stream with Phosphamidon|Can. Fish Cult.37:35-43|1966|
2806|A||Ingebrigtsen,K., and J.U. Skaare|Distribution and Elimination of (14C)Hexachlorobenzene after Single Oral Exposure in the Rainbow Trout (Salmo gairdneri)|J. Toxicol. Environ. Health12(2-3): 309-316|1983|10.1080/15287398309530428
2807|A||Lawrence,J.M.|Toxicity of Some New Insecticides to Several Species of Pondfish|Prog. Fish-Cult.12:141-150|1950|10.1577/1548-8640(1950)12[141:TOSNIT]2.0.CO;2
2808|A||LaBrecque,G.C., J.R. Noe, and J.B. Gahan|Effectiveness of Insecticides on Granular Clay Carriers Against Mosquito Larvae|Mosq. News16:1-3|1956|
2809|A||Kruzynski,G.M.|Effects of Dietary Methoxychlor on Brook Trout (Salvelinus fontinalis)|M.S.Thesis, Sir George Williams University, Montreal, Canada:131 p.|1972|
2810|A||Rao,K.V.R., P. Surendranath, and P.R.S. Kodavanti|Levels of Transaminases in Tissues of the Penaeid Prawn, Metapenaeus monoceros (Fabricius) Following Sublehtal Kelthane Exposure|Bull. Environ. Contam. Toxicol.44(1): 114-120|1990|10.1007/BF01702370
2811|A||Rogillio,G.J.|Effects of Mirex on Selected Organs of the Channel Catfish (Ictalurus punctatus): A Light and Electron Microscopic Study|Ph.D. Thesis, Mississippi State University, MS:55-|1974|
2812|A||Deonier,C.C., H.A. Jones, H.L. Haller, E. Hinchey, and H.H. Incho|Mosquito Larvicide Tests: A Resume of Tests of Compounds Related to DDT Against Larvae of Anopheles quadrimaculatus|Soap Sanit. Chem.22(11): 118-119|1946|
2813|A||Dixon,R.D., and R.A. Brust|Field Testing of Insecticides Used in Mosquito Control, and a Description of the Bioassay Technique Used in Temporary Pools|J. Econ. Entomol.64(1): 11-14|1971|10.1093/jee/64.1.11
2814|A||Eisler,R.|Factors Affecting Pesticide-Induced Toxicity in an Estuarine Fish|Tech. Pap. Bur. Sport Fish. Wildl.45:20 p.|1970|
2815|A||Friesen,M.K.|Toxicity Testing Using Eggs of the Burrowing Mayfly Hexagenia rigida (Ephemeroptera = Ephemeridae), with Methoxychlor as Toxicant|Tech. Rep. Fish. Mar. Serv.862:266-277|1979|
2816|A||Martin,P.A., D.C. Lasenby, and R.D. Evans|Fate of Dietary Cadmium at Two Intake Levels in the Odonate Nymph, Aeshna canadensis|Bull. Environ. Contam. Toxicol.44(1): 54-58|1990|10.1007/BF01702361
2817|A||Mayer,F.L.J., J.C. Street, and J.M. Neuhold|Organochlorine Insecticide Interactions Affecting Residue Storage in Rainbow Trout|Bull. Environ. Contam. Toxicol.5(4): 300-310|1970|10.1007/BF01539942
2818|A||Leonhard,S.L.|Uptake of Fenitrothion by Caged Crayfish Orconectes virilis, in Pine Creek, Manitoba, 1973|Manit. Entomol.8:16-18|1974|
2819|A||Eisele,P.J., and R. Hartung|The Effects of Methoxychlor on Riffle Invertebrate Populations and Communities|Trans. Am. Fish. Soc.5:628-633|1976|10.1577/1548-8659(1976)105<628:TEOMOR>2.0.CO;2
2820|A||Frear,D.E.H., and J.E. Boyd|Use of Daphnia magna for the Microbioassay of Pesticides.  I.  Development of Standardized Techniques for Rearing Daphnia and Preparation of Dosage-Mortality Curves for Pesticides|J. Econ. Entomol.60(5): 1228-1236|1967|10.1093/jee/60.5.1228
2821|A||Fredeen,F.J.H., J.G. Saha, and M.H. Balba|Residues of Methoxychlor and Other Chlorinated Hydrocarbons in Water, Sand, and Selected Fauna Following Injections of Methoxychlor Black Fly|Pestic. Monit. J.8(4): 241-246|1975|
2822|A||Fredeen,F.J.H.|Reactions of the Larvae of Three Rheophilic Species of Trichoptera to Selected Insecticides|Can. Entomol.104:945-953|1972|10.4039/Ent104945-6
2823|A||Siboulet,R., S. Grinfeld, P. Deparis, and A. Jaylet|Micronuclei in Red Blood Cells of the Newt Pleurodeles waltl Michah: Induction with X-Rays and Chemicals|Mutat. Res.125(2): 275-281|1984|10.1016/0027-5107(84)90077-0
2824|A||Ginsburg,J.M.|Comparative Toxicity of DDT Isomers and Related Compounds to Mosquito Larvae and Fish|Science105:233-234|1947|10.1126/science.105.2722.233
2825|A||Gardner,D.R.|The Effect of Some DDT and Methoxychlor Analogs on Temperature Selection and Lethality in Brook Trout Fingerlings|Pestic. Biochem. Physiol.2:437-446|1973|10.1016/0048-3575(73)90056-4
2826|A||Majone,F., R. Brunetti, I. Gola, and A.G. Levis|Persistence of Micronuclei in the Marine Mussel, Mytilus galloprovincialis, After Treatment with Mitomycin C|Mutat. Res.191:157-161|1987|
2827|A||Fredeen,F.J.H.|Effects of a Single Injection of Methoxychlor Black-Fly Larvicide on Insect Larvae in a 161-KM (100-Mile) Section of the North Saskatchewan River|Can. Entomol.107:807-817|1975|10.4039/Ent107807-8
2828|A||Frempong-Boadu,J.|A Laboratory Study of the Effectiveness of Methoxychlor, Fenthion and Carbaryl Against Blackfly Larvae (Diptera: Simuliidae)|Mosq. News26(4): 562-564|1966|
2829|A||Gonda,O., A. Kaluszyner, and Y. Avi-Dor|Effect of 1:1:1-Trichloro-2:2-di-(p-Chlorophenyl) Ethane (DDT) and Related Compounds on the Adenosine Triphosphate-Phosphate Exchange Catalysed by a Particulate Fraction from the Mosquito|Biochem. J. (Lond.)73:583-587|1959|10.1042/bj0730583
2830|A||Power,F.M.|Implications of Toxicological Studies for the Marine Discharge of Liquid Waste from a Major Energy Development|Tech.Rep.No.82-1, Taranaki Catchment Commission and Water Board, Stratford, New Zealand:24-|1982|
2831|A||Hansen,L.G., I.P. Kapoor, and R.L. Metcalf|Biochemistry of Selective Toxicity and Biodegradability:  Comparative o-Dealkylation by Aquatic Organisms|Comp. Gen. Pharmacol.3:339-344|1972|10.1016/0010-4035(72)90013-4
2833|A||Hartzell,A., and E.E. Storrs|Bioassay of Insecticide Spray Residues in Processed Food|Contrib. Boyce Thompson Inst.16:47-53|1950|
2836|A||Sivaramakrishna,B., K. Radhakrishnaiah, and A. Suresh|Assessment of Mercury Toxicity by the Changes in Oxygen Consumption and Ion Levels in the Freshwater Snail, Pila globosa, and the Mussel, Lamellidens|Bull. Environ. Contam. Toxicol.46:913-920|1991|10.1007/BF01689738
2837|A||Jamnback,H., and J. Frempong-Boadu|Testing Blackfly Larvicides in the Laboratory and in Streams|Bull. W. H. O.34:405-421|1966|
2838|A||Stockard,C.R.|The Influence of Alcohol and Other Anaesthetics on Embryonic Development|Am. J. Anat.10(3): 369-392|1910|10.1002/aja.1000100110
2839|A||Bahner,L.H., and D.R. Nimmo|Methods to Assess Effects of Combinations of Toxicants, Salinity and Temperature on Estuarine Animals|Trace Subst. Environ. Health9:169-177|1975|
2840|A||Gersdorff,W.A., and L.E. Smith|Effect of Introduction of the Halogens into the Phenol Molecule on Toxicity to Goldfish.  III.  Monoiodophenols|Am. J. Pharm.112:389-394|1940|
2841|A||Aboul-Ela,I.A., and M.T. Khalil|The Acute Toxicity of Three Pesticides on Organisms of Different Trophic Levels as Parameters of Pollution in Lake Wadi El Rayan. El Fayoum, Egypt|Proc. Zool. Soc. U.A.R.13:31-36|1987|
2842|A||Fitzgerald,G.P., and S.L. Faust|Factors Affecting the Algicidal and Algistatic Properties of Copper|Appl. Microbiol.11(4): 345-351|1963|10.1128/am.11.4.345-351.1963
2843|A||Dempsey,C.H.|The Exposure of Herring Postlarvae to Chlorine in Coastal Power Stations|Mar. Environ. Res.20(4): 279-290|1986|10.1016/0141-1136(86)90053-X
2844|A||Crespo,S., and J. Balasch|Mortality, Accumulation, and Distribution of Zinc in the Gill System of the Dogfish Following Zinc Treatment|Bull. Environ. Contam. Toxicol.24(6): 940-944|1980|10.1007/BF01608215
2845|A||Sharma,D.C., and P.S. Davis|Effect of Sodium Selenite and Selenomethionine on the Accumulation and Acute Toxicity of Mercuric and Methylmercuric Chloride in the Goldfish|Indian J. Exp. Biol.18(1): 82-84|1980|
2847|A||King,S.F.|Some Effects of DDT on the Guppy and the Brown Trout|Spec.Sci.Rep.- Fish.No.399, U.S.Fish Wildl.Serv., U.S.D.I., Washington, D.C.:22 p.|1962|
2848|A||Anderson,D.M., and F.M.M. Morel|Copper Sensitivity of Gonyaulax tamarensis|Limnol. Oceanogr.23(2): 283-295|1978|10.4319/lo.1978.23.2.0283
2849|A||De Jong,L.E.D.|Tolerance of Chlorella vulgaris for Metallic and Non-Metallic Ions|Antonie van Leeuwenhoek (Gedrukt)31:301-313|1965|10.1007/BF02045910
2850|A||Berrill,M., S. Bertram, A. Wilson, S. Louis, D. Brigham, and C. Stromberg|Lethal and Sublethal Impacts of Pyrethroid Insecticides on Amphibian Embryos and Tadpoles|Environ. Toxicol. Chem.12(3): 525-539|1993|10.1002/etc.5620120313
2851|A||Jones,J.R.E.|The Relation Between the Electrolytic Solution Pressures of the Metals and Their Toxicity to the Stickleback (Gasterosteus aculeatus L.)|J. Exp. Biol.16(4): 425-437|1939|10.1242/jeb.16.4.425
2852|A||Van Leeuwen,C.J., E.M.M. Grootelaar, and G. Niebeek|Fish Embryos as Teratogenicity Screens: A Comparison of Embryotoxicity Between Fish and Birds|Ecotoxicol. Environ. Saf.20(1): 42-52|1990|10.1016/0147-6513(90)90045-7
2853|A||Harry,H.W., and D.V. Aldrich|The Distress Syndrome in Taphius glabratus (Say) as a Reaction to Toxic Concentrations of Inorganic Ions|Malacologia1(2): 283-289|1963|
2854|A||El Domiaty,N.A.|Stress Response of Juvenile Clarias lazera Elicited by Copper|Comp. Biochem. Physiol. C Comp. Pharmacol.88(2): 259-262|1987|10.1016/0742-8413(87)90119-8
2855|A||Aboul-Ela,I.A., and M.T. Khalil|The Chronic Toxicity of Three Pollutants upon the Freshwater Snail Helisoma trivolvis|Proc. Zool. Soc. U.A.R.13:17-29|1987|
2856|A||Hart,D.R., and J.A. Heddle|Micronucleus Assays in Peripheral Blood of Rainbow Trout: Timing of Response and Chemical Mutagen Sensitivity|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:993-1010|1991|
2857|A||Kusher,D.I.|Physiological Effects of Cadmium on the Bluegill, Lepomis macrochirus|Ph.D.Thesis, University of Georgia, Athens, GA:124 p.|1989|
2858|A||Sandheinrich,M.B.|Sublethal Toxicant Effects of Fish Foraging Behavior:  A Mechanistic Approach|Ph.D.Thesis, Iowa State University, Ames, IA:204 p.|1989|
2859|A||Laughlin,R.B.J., R.G. Gustafson, and P. Pendoley|Acute Toxicity of Tributyltin (TBT) to Early Life History Stages of the Hard Shell Clam, Mercenaria mercenaria|Bull. Environ. Contam. Toxicol.42(3): 352-358|1989|10.1007/BF01699960
2860|A||Berman,S.A.|Localization of Alkaline and Acid Phosphatases in the Intestines of Carp and a Change in Their Activity Under the Effect of Cobalt, Manganese, and Zinc|Stroit. Rajon. Urala Zapadn. Sib. SSSR, Pered. Proizv. Opyt Naucno-teh. Dostiz. Rekom. dla Vnedr.176:4-24|1972|
2861|A||Dureza,L.A.|Toxicity and Lesions in the Gills of Tilapia nilotica Fry and Fingerlings Exposed to Formalin, Furanace, Potassium Permanganate and Malachite Green|Ph.D.Thesis, Auburn University, Auburn, AL:79 p.|1989|
2862|A||Patrick,R., B. Crum, and J. Coles|Temperature and Manganese As Determining Factors in the Presence of Diatom or Blue-Green Algal Floras in Streams|Proc. Natl. Acad. Sci. U.S.A.64(2): 472-478|1969|10.1073/pnas.64.2.472
2863|A||Ruthven,J.A., and J.,Jr. Cairns|The Response of Fresh-Water Protozoan Artificial Communities to Metals|J.Protozool.20(1): 127-135|1973|10.1111/j.1550-7408.1973.tb06015.x
2864|A||McCarthy,J.J.|The Uptake of Urea by Marine Phytoplankton|J. Phycol.8(3): 216-222|1972|10.1111/j.1529-8817.1972.tb04031.x
2865|A||Thomas,A.|Effects of Certain Metallic Salts upon Fishes|Trans. Am. Fish. Soc.44(2): 120-124|1915|10.1577/1548-8659(1914)44[120:EOCMSU]2.0.CO;2
2866|A||Gould,E.|Low-Salinity Stress in the American Lobster, Homarus americanus, After Chronic Sublethal Exposure to Cadmium: Biochemical Effects|Helgol. Wiss. Meeresunters.33:36-46|1980|10.1007/BF02414733
2867|A||Ward,J.A.|Chemoreception of Heavy Metals by the Polychaetous Annelid Myxicola infundibulum (Sabellidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.58(2): 103-106|1977|10.1016/0306-4492(77)90087-9
2868|A||Wooldridge,C.R., and D.P. Wooldridge|Internal Damage in an Aquatic Beetle Exposed to Sublethal Concentrations of Inorganic Ions|Ann. Entomol. Soc. Am.62(4): 921-933|1969|10.1093/aesa/62.4.921
2869|A||Robertson,S.M., A.L. Lawrence, W.H. Neill, C.R. Arnold, and G. McCarty|Toxicity of the Cryoprotectants Glycerol, Dimethyl Sulfoxide, Ethylene Glycol, Methanol, Sucrose, and Sea Salt Solutions to the Embryos of Red Drum|Prog. Fish-Cult.50(3): 148-154|1988|10.1577/1548-8640(1988)050<0148:TOTCGD>2.3.CO;2
2870|A||Lancaster,J.L.,Jr., and M.V. Meisch|Effect of Mosquito Control Chemicals on Aquatic Fauna|Tech.Comp.Rep., W75-01319, OWRT-A0018-Ark(2), Water Resour.Res.Ctr., Univ.of Arkansas, Fayetteville, AR:35 p.|1974|
2871|A||Cope,O.B.|Sport Fishery Investigations|Fish and Wildlife Service Circular 226, Effects of Pesticides on Fish and Wildlife. Washington, DC:51-63|1965|
2873|A||Walsh,A.H.|The Pathology of Pesticide Poisoning in Fish|Ph.D Thesis, University of Wisconsin, Madison, WI:205 p.|1975|
2874|AT||Wachtmeister,C.A., A. Bergman, B.O. Lund, and I. Brandt|Synthesis of 1,1-Dichloro-3-Methyl-[14C]-Dimethyl Sulfone and Studies on Its Disposition in Fish and Mice|Water Sci. Technol.20(2): 181-|1988|10.2166/wst.1988.0064
2875|A||Mount,G.A., R.E. Lowe, K.F. Baldwin, N.W. Pierce, and K.E. Savage|Ultra-low Volume Aerial Sprays of Promising Insecticides for Mosquito Control|Mosq. News30(3): 342-346|1970|
2877|A||Benijts-Claus,C., and G. Persoone|Toxicity of Three Herbicides in the Aquatic Ecosystem (La Toxicite de Trois Herbicides sur L'Ecosysteme Aquatique)|Trib. Cebedeau28(383): 340-346|1975|
2878|A||Haven,D.|Mass Treatment with 2,4-D on Milfoil in Tidal Creeks in VA|Proc. South. Weed Sci. Soc.:345-350|1963|
2879|A||Swedburg,D.|Chronic Toxicity of Insecticides to Cold-Water Fish|Prog.Sport.Fish.Res., Div.Fish Res., Bureau Sport Fish Wildl.88:8-9|1969|
2880|A||Weisshaar,H., G. Retzlaff, and P. Boger|Chloroacetamide Inhibition of Fatty Acid Synthesis|Pestic. Biochem. Physiol.32(3): 212-216|1988|10.1016/0048-3575(88)90103-4
2881|A||Cabjszek,I., J. Luczak, J. Maleszewska, and J. Stanislawska|Effect of Insecticides (Aldrin and Methoxychlor) on Physical-Chemical Properties of Water Organisms|Verh. Int. Ver. Theor. Angew. Limnol.16:963-968|1966|
2882|A||Ismail,P.|Influence of Salinity on the Toxicity of Zinc and Copper to Guppy|Malays. Appl. Biol.17(1): 31-38|1988|
2883|A||Heitmuller,T.|Acute Toxicity of Kepone to Fiddler Crabs (Uca pugilator)|Toxicity Test Report, Submitted to Allied Chemical Corporation, Morristown, NJ; EG&G Environmental Consultants, Bionomics, Pensacola, FL (Unpublished):4 p.:4 p.|1975|
2884|A||Karpevich,A.F., and A.T. Shurin|Effect of Physicochemical Conditions on Edible Inverebrates and Fish in the Baltic Sea and Riga Gulf.  III. Effect of Manganese on Riga Gulf Mollusks|Rybohoz. Issled. Basseine Balt. Mora6:171-195|1970|
2885|A||Skvortsov,S.S.|Effect of Manganese on Photosynthesis of Aquatic Plants|Chem. Abstr.47:1244F|1952|
2886|A||Sigmon,C.F.|Oxygen Consumption in Lepomis macrochirus Exposed to 2,4-D or 2,4,5-T|Bull. Environ. Contam. Toxicol.21:826-830|1979|10.1007/BF01685512
2887|A||Evtushenko,N.Y., V.D. Romanenko, and T.D. Malyzheva|Metabolic Role of Zinc in Carp, Cyprinus carpio (Cyprinidae)|J. Ichthyol.24(4): 134-140|1984|
2888|A||Singh,C.B., and S.P. Singh|Effect of Mercury on Photosynthesis in Nostoc calcicola: Role of ATP and Interacting Heavy Metal Ions|J. Plant Physiol.129(1/2): 49-58|1987|10.1016/S0176-1617(87)80101-3
2889|A||Sanders,H.O., D.F. Walsh, and R.S. Campbell|Abate: Effects of the Organophosphate Insecticide on Bluegills and Invertebrates in Ponds|Tech.Pap.No.104, U.S.Fish Wildl.Serv., U.S.D.I., Washington, DC:6 p.|1981|
2890|A||Kimura,T., and H.L. Keegan|Toxicity of Some Insecticides and Molluscicides for the Asian Blood Sucking Leech, Hirudo nipponia Whitman|Am. J. Trop. Med. Hyg.15(1): 113-115|1966|10.4269/ajtmh.1966.15.113
2891|A||Sanders,H.O.|Pesticide Toxicities to Tadpoles of the Western Chorus Frog Pseudacris triseriata and Fowler's Toad Bufo woodhousii fowleri|Copeia2:246-251|1970|10.2307/1441646
2892|A||Holland,H.T., and J.I. Lowe|Malathion: Chronic Effects on Estuarine Fish|Mosq. News26(3): 383-385|1966|
2893|A||Pickering,Q.H., C. Henderson, and A.E. Lemke|The Toxicity of Organic Phosphorus Insecticides to Different Species of Warmwater Fishes|Trans. Am. Fish. Soc.91:175-184|1962|10.1577/1548-8659(1962)91[175:TTOOPI]2.0.CO;2
2894|A||Hurlbert,S.H., M.S. Mulla, J.O. Keith, W.E. Westlake, and M.E. Dusch|Biological Effects and Persistence of Dursban in Freshwater Ponds|J. Econ. Entomol.63:43-62|1970|10.1093/jee/63.1.43
2895|AT||Tagatz,M.E., P.W. Borthwick, G.H. Cook, and D.L. Coppage|Effects of Ground Applications of Malathion on Salt-Marsh Environments in Northwestern Florida|Mosq. News34(3/4): 309-315|1974|
2896|A||Eisler,R.|Latent Effects of Insecticide Intoxication to Marine Molluscs|Hydrobiologia (Multiple Languages)36(3-4): 345-352|1970|10.1007/BF00039793
2897|A||Fitzmayer,K.M., J.G. Geiger, and M.J. Van den Avyle|Acute Toxicity Effects of Simazine on Daphnia pulex and Larval Striped Bass|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies36:146-156|1982|
2898|A||Pagano,G., M. Cipollaro, G. Corsale, A. Esposito, A. Mineo, E. Ragucci, G.G. Giordano, N. Kobayashi, and N.M. Trieff|Effects of Sodium Azide on Sea Urchin Embryos and Gametes|Teratog. Carcinog. Mutagen.8(6): 363-376|1988|10.1002/tcm.1770080606
2899|A||Mulla,M.S., and A.M. Khasawinah|Laboratory and Field Evaluation of Larvicides Against Chironomid Midges|J. Econ. Entomol.62(1): 37-41|1969|10.1093/jee/62.1.37
2900|A||Sathya,K.S., and K.P. Balakrishnan|Physiological Response of Diatom Nitzschia palea (Kutz) W.Sm. to Sub-Lethal Levels of Copper|Indian J. Mar. Sci.17(4): 322-325|1988|
2901|T||Joseph,S.R., J. Mallack, and L.F. George|Field Applications of Ultra Low Volume Malathion to Three Animal Species|Mosq. News32(4): 504-506|1972|
2902|A||Coppage,D.L., and E. Matthews|Short-Term Effects of Organophosphate Pesticides on Cholinesterases of Estuarine Fishes and Pink Shrimp|Bull. Environ. Contam. Toxicol.11(5): 483-488|1974|10.1007/BF01685308
2903|A||Hatfield,C.T., and P.H. Johansen|Effects of Four Insecticides on the Ability of Atlantic Salmon Parr (Salmo salar) to Learn and Retain a Simple Conditioned Response|J. Fish. Res. Board Can.29(3): 315-321|1972|10.1139/f72-051
2904|A||Hilsenhoff,W.L.|The Evaluation of Insecticides for the Control of Tendipes plumosus (Linnaeus)|J. Econ. Entomol.52(2): 331-332|1959|10.1093/jee/52.2.331
2905|A||Lockhart,W.L., D.A. Metner, and N. Grift|Biochemical and Residue Studies on Rainbow Trout Following Field and Laboratory Exposure to Fenitrothion|Manit. Entomol.7:26-36|1973|
2906|A||Lewallen,L.L.|Toxicity of Certain Insecticides to Hydrophilid Larvae|Mosq. News22(2): 112-113|1962|
2907|A||Daugherty,F.M.J.|Effects of Some Chemicals Used in Oil Well Drilling on Marine Animals|Sewage Ind. Wastes23(10): 1282-1286|1951|
2908|A||Nag,A.|Mortality Response and Toxic Action of Some Organic Pesticides on Fishes|J. Environ. Biol.13(4): 309-314|1992|
2909|A||Kemp,P.F., and R.C. Swartz|Acute Toxicity of Interstitial and Particle-Bound Cadmium to a Marine Infaunal Amphipod|Mar. Environ. Res.26(2): 135-153|1988|10.1016/0141-1136(88)90023-2
2910|A||Wurtsbaugh,W.A., and C.S. Apperson|Effects of Mosquito Control Insecticides on Nitrogen Fixation and Growth of Blue-Green Algae in Natural Plankton Associations|Bull. Environ. Contam. Toxicol.19(6): 641-647|1978|10.1007/BF01685852
2911|A||Wallace,R.R., H.B.N. Hynes, and W.F. Merritt|Laboratory and Field Experiments with Methoxychlor as a Larvicide for Simuliidae (Diptera)|Environ. Pollut.10:251-269|1976|
2912|A||Von Windeguth,D.L., D.A. Eliason, and H.F. Schoof|The Efficacy of Carbaryl, Propoxur, Abate and Methoxychlor as Larvicides Against Field Infestations of Aedes aegypti|Mosq. News31(1): 91-95|1971|
2913|AT||Travis,B.V.|Studies of Mosquito and Other Biting-Insect Problems in Alaska|J. Econ. Entomol.42(3): 451-457|1949|10.1093/jee/42.3.451
2914|A||Rettich,F.|The Susceptibility of Mosquito Larvae to Eighteen Insecticides in Czechoslovakia|Mosq. News37(2): 252-257|1977|
2915|A||Gersdorff,W.A., and L.E. Smith|Effect of Introduction of the Halogens into the Phenol Molecule on Toxicity to Goldfish.  I.  Monochlorophenols|Am. J. Pharm.112:197-204|1940|
2916|A||Reinbold,K.A., I.P. Kapoor, W.F. Childers, W.N. Bruce, and R.L. Metcalf|Comparative Uptake and Biodegradability of DDT and Methoxychlor by Aquatic Organisms|Ill. Nat. Hist. Surv. Bull.30(6): 405-415|1971|10.21900/j.inhs.v30.160
2917|A||Reinbold,K.A., and R.L. Metcalf|Effects of the Synergist Piperonyl Butoxide on Metabolism of Pesticides in Green Sunfish|Pestic. Biochem. Physiol.6:401-412|1976|10.1016/0048-3575(76)90051-1
2918|A||Khangarot,B.S.|Toxicity of Metals to a Freshwater Tubificid Worm, Tubifex tubifex (Muller)|Bull. Environ. Contam. Toxicol.46:906-912|1991|10.1007/BF01689737
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2920|A||Davidow,B., and F.J. Sabatino|Biological Screening Test for Chlorinated Insecticides|J. Assoc. Off. Agric. Chem.37(3): 902-905|1954|
2921|A||Gilgan,M.W., and B.G. Burns|Molt Induction in Lobsters (Homarus americanus) by Intramuscular Injection of Ecdysterone Triacetate|Experientia33(8): 1114-1115|1977|10.1007/BF01946003
2922|A||Lowe,J.I., P.R. Parrish, A.J.,Jr. Wilson, P.D. Wilson, and T.W. Duke|Effects of Mirex on Selected Estuarine Organisms|In: Trans.36th North Am.Wildl.Nat.Resourc.Conf., Wildl.Manag.Inst., Washington, DC:171-186|1971|
2923|A||Bentley,R.E.|Acute Toxicity of Kepone to Bluegill (Lepomis macrochirus) and Rainbow Trout (Salmo gairdneri)|Unpublished Toxicity Report, Submitted to Allied Chemical Corporation, Morristown, NJ; EG&G Environmental Consultants, Bionomics, Wareham, MA:7 p.|1975|
2924|A||Sherman,L.R., and H. Hoang|The Bioassay and Analysis of Tributyltin Fluoride|Anal. Proc.18(5): 196-198|1981|
2926|A||Burdick,G.E., H.J. Dean, E.J. Harris, J. Skea, C. Frisa, and C. Sweeney|Methoxychlor as a Blackfly Larvicide, Persistence of Its Residues in Fish and Its Effect on Stream Arthropods|N. Y. Fish Game J.15(2): 121-142|1968|
2927|A||Pal,R., and S. Nandi|Effects of Two Mercuric Water Pollutants on Growth and Cell Division of Hydrilla verticillata|Cytologia54(3): 581-586|1989|10.1508/cytologia.54.581
2929|A||Burchfield,H.P., and E.E. Storrs|Kinetics of Insecticidal Action Based on the Photomigration of Larvae of Aedes aegypti (L.)|Contrib. Boyce Thompson Inst.17:439-452|1954|
2930|A||Eisler,R.|Tissue Changes in Puffers Exposed to Methoxychlor and Methyl Parathion|Tech.Pap.No.17, Bureau Sport Fish.Wildl., Dep.Fish.Wildl., U.S.D.I., Washington, D.C:15 p.|1967|
2931|A||Aruna,D., and V. Gopal|Toxic Effect of Sublethal Level of Mercury on Haematological Parameters|Indian J. Environ. Health29(1): 52-56|1987|
2932|A||Horton,H.F., and A. Pritchard|Effect of Rauwolfia Alkaloids on the Oxygen Consumption Rate of Hatchery-Reared Rainbow Trout|Prog. Fish-Cult.:131-133|1957|10.1577/1548-8659(1957)19[131:EORAOT]2.0.CO;2
2933|A||Allison,R.|A Preliminary Note on the Use of Di-n-Butyl Tin Oxide to Remove Tapeworms from Fish|Prog. Fish-Cult.19(3): 128-130|1957|10.1577/1548-8659(1957)19[128:APNOTU]2.0.CO;2
2934|A||King,J.E., and W.T. Penfound|Effects of Two of the New Formagenic Herbicides on Bream and Largemouth Bass|Ecology27(4): 372-374|1946|10.2307/1933548
2935|A||Kamler,E.|Bioenergetical Aspects of the Influence of 2,4-D-Na on the Early Development Stages in Carp (Cyprinus carpio L.)|Pol. Arch. Hydrobiol.19(4): 451-474|1972|
2936|A||Tomisek,A., M.R. Reid, W.A. Short, and H.E. Skipper|Studies on the Photosynthetic Reaction. III. The Effects of Various Inhibitors upon Growth and Carbonate-Fixation in Chlorella pyrenoidosa|Plant Physiol.32:7-10|1957|10.1104/pp.32.1.7
2937|A||Kruzynski,G.M., and G. Leduc|Methoxychlor, a New Threat to the Atlantic Salmon|Atlantic Salmon J.1:11-15|1972|
2938|A||Kaniewska-Prus,M.|The Effect of 2,4D-Na Herbicide on Oxygen Consumption and Survival of Simocephalus vetulus o.f. Muller (Cladocera)|Pol. Arch. Hydrobiol.22(4): 593-599|1975|
2939|AT||Lichtenstein,E.P., T.T. Liang, and B.N. Anderegg|Synergism of Insecticides by Herbicides|Science181:847-849|1973|10.1126/science.181.4102.847
2940|A||Rodgers,C.A., and D.L. Stalling|Dynamics of an Ester of 2,4-D in Organs of Three Fish Species|Weed Sci.20(1): 101-105|1972|10.1017/S0043174500035050
2941|A||Solomon,H.M.|The Teratogenic Effects of the Insecticides DDT, Carbaryl, Malathion and Parathion on Developing Medaka Eggs (Oryzias latipes)|Ph.D.Thesis, Rutgers University, Newark, NJ:158 p.|1978|
2942|A||Grantham,C.K., and J.P. Sloan|Toxicity Study Drilling Fluid Chemicals on Aquatic Life|EPA 560/1-75-004, Conf.Proc.on Environ.Aspects of Chemical Use in Well-Drilling Operations, Research Triangle Inst., NC:|1975|
2944|A||Rao,K.S., K.S. Moorthy, B.K. Reddy, K.S. Swami, and C.S. Chetty|Effect of Benthiocarb on Protein Metabolism of Freshwater Teleost, Sarotherodon mossambicus|Indian J. Environ. Health29(1): 45-51|1987|
2945|A||Kamler,E., O. Matlak, and K. Srokosz|Further Observations on the Effect of Sodium Salt of 2,4-D on Early Developmental Stages of Carp (Cyprinus carpio L.)|Pol. Arch. Hydrobiol.21(34): 481-502|1974|
2946|A||Van der Hoeven,N.|Effect of 3,4-Dichloroaniline and Metavanadate on Daphnia Populations|Ecotoxicol. Environ. Saf.20(1): 53-70|1990|10.1016/0147-6513(90)90046-8
2947|A||Young,L.G., and L. Nelson|The Effects of Heavy Metal Ions on the Motility of Sea Urchin Spermatozoa|Biol. Bull.147(1): 236-246|1974|10.2307/1540581
2948|A||Haines,T.A.|Effect of an Aerial Application of Carbaryl on Brook Trout (Salvelinus fontinalis)|Bull. Environ. Contam. Toxicol.27:534-542|1981|10.1007/BF01611061
2949|A||Grizzle,J.M., and A. Thiyagarajah|Diethylnitrosamine-Induced Hepatic Neoplasms in the Fish Rivulus ocellatus marmoratus|Dis. Aquat. Org.5(1): 39-50|1988|10.3354/dao005039
2950|A||Droy,B.F., M.E. Davis, and D.E. Hinton|Mechanism of Allyl Formate-Induced Hepatotoxicity in Rainbow Trout|Toxicol. Appl. Pharmacol.98(2): 313-324|1989|10.1016/0041-008X(89)90236-6
2951|A||Manna,G.K., and A. Sadhukhan|Induction of Lethal Mutations in the Fish, Oreochromis mossambicus by an Insecticide, Rogor 30E and the Method of Its Detection|Natl. Acad. Sci. Lett.9(8): 249-251|1986|
2952|A||Gersdorff,W.A.|A Method for the Study of Toxicity Using Goldfish|J. Am. Chem. Soc.52:3440-3445|1930|10.1021/ja01371a067
2953|A||Gersdorff,W.A.|Effect of the Introduction of the Nitro Group into the Phenol Molecule on Toxicity to Goldfish|J. Cell. Comp. Physiol.14:61-71|1939|10.1002/jcp.1030140106
2955|A||Addison,R.F., M.E. Zinck, and D.E. Willis|Mixed Function Oxidase Enzymes in Trout (Salvelinus fontinalis) Liver: Absence of Induction Following Feeding of p,p'-DDT or p,p'-DDE|Comp. Biochem. Physiol. C Comp. Pharmacol.57:39-43|1977|10.1016/0306-4492(77)90075-2
2956|A||Kennedy,H.D., and D.F. Walsh|Effects of Malathion on Two Warmwater Fishes and Aquatic Invertebrates in Ponds|Tech. Pap. Bur. Sport Fish. Wildl.55:13 p.|1970|
2957|A||Mayer,F.L., W.J. Adams, M.T. Finley, P.R. Michael, P.M. Mehrle, and V.W. Saeger|Phosphate Ester Hydraulic Fluids: An Aquatic Environmental Assessment of Pydrauls 50E and 115E|ASTM Spec. Tech. Publ.:103-123|1981|
2958|A||Speare,D., and S. Backman|Ammonia and Nitrite Waterborne Toxicity of Commercial Rainbow Trout|Can. Vet. J.29:666|1988|
2959|A||Fowler,B.A., D.W. Engel, and E. Gould|Ultrastructural and Biochemicals Effects of Prolonged Cadmium and Copper Exposure on Kidneys of the Scallop Placopecten magellanicus|Mar. Environ. Res.17(2-4): 199-|1985|10.1016/0141-1136(85)90083-2
2960|A||Agarwal,S., and N.B. Nair|Physiological Effect of Malathion on the Brain of Sarotherodon mossambicus|Curr. Sci. (Bangalore)58(18): 1046-1047|1989|
2961|A||Fowler,B.A., and E. Gould|Ultrastructural and Biochemical Studies of Intracellular Metal-Binding Patterns in Kidney Tubule Cells of the Scallop Placopecten magellanicus Following Prolonged Exposure to Cadmium or Copper|Mar. Biol.97(2): 207-216|1988|10.1007/BF00391304
2962|A||Gould,E., R.J. Thompson, L.J. Buckley, D. Rusanowsky, and G.R. Sennefelder|Uptake and Effects of Copper and Cadmium in the Gonad of the Scallop Placopecten magellanicus:  Concurrent Metal Exposure|Mar. Biol.97(2): 217-223|1988|10.1007/BF00391305
2963|A||Kobayashi,N.|Fertilized Sea Urchin Eggs as an Indicatory Material for Marine Pollution Bioassay, Preliminary Experiments|Publ. Seto Mar. Biol. Lab.18(6): 379-406|1971|10.5134/175652
2964|A||Green,D.W.J., K.A. Williams, D.R.L. Hughes, G.A.R. Shaik, and D. Pascoe|Toxicity of Phenol to Asellus aquaticus (L.) - Effects of Temperature and Episodic Exposure|Water Res.22(2): 225-231|1988|10.1016/0043-1354(88)90082-6
2965|A||Curtis,M.W., and C.H. Ward|Aquatic Toxicity of Forty Industrial Chemicals: Testing in Support of Hazardous Substance Spill Prevention Regulation|J. Hydrol.51:359-367|1981|10.1016/0022-1694(81)90144-X
2966|A||Curtis,M.W., C.M. Curran, and C.H. Ward|Aquatic Toxicity Testing As Fundament for a Spill Prevention Program|In: Proc.1980 Nat.Conf.Control of Hazardous Material Spills, Louisville, KY:284-287|1981|
2967|A||Rathore,H.S., H. Swarup, S.V.R. Rao, and L.P. Mall|A Short Note on the Pollution Ecology of Chironomus tentans (Diptera) Larvae in a River|Natl. Acad. Sci. Lett.1(6): 235-236|1978|
2969|A||Clemens,H.P., and K.E. Sneed|The Chemical Control of Some Diseases and Parasites of Channel Catfish|Prog. Fish-Cult.20(1): 8-15|1958|10.1577/1548-8659(1958)20[8:TCCOSD]2.0.CO;2
2970|A||Chan,H.M.|Accumulation and Tolerance to Cadmium, Copper, Lead and Zinc by the Green Mussel Perna viridis|Mar. Ecol. Prog. Ser.48(3): 295-303|1988|10.3354/meps048295
2971|A||Laughlin,R.B.J., R. Gustafson, and P. Pendoley|Chronic Embryo-Larval Toxicity of Tributyltin (TBT) to the Hard Shell Clam Mercenaria mercenaria|Mar. Ecol. Prog. Ser.48(1): 29-36|1988|10.3354/meps048029
2972|A||Lockhart,W.L., and D.A. Metner|Methoxychlor Residues in Fish Tissues Following Treatment of the Athabasca River, Alberta and Following Experimental Exposures|Can.Fed.Biol.Soc.Proc.21:158-|1978|
2974|A||Bjerregaard,P.|Effect of Selenium on Cadmium Uptake in Selected Benthic Invertebrates|Mar. Ecol. Prog. Ser.48(1): 17-28|1988|10.3354/meps048017
2975|A||Sahib,I.K.A., and K.V.R. Rao|Toxicity of Malathion to the Freshwater Fish Tilapia mossombica|Bull. Environ. Contam. Toxicol.24(6): 870-874|1980|10.1007/BF01608204
2976|A||Heuillet,E., A. Bermond, N. Jeanne, S. Puiseux-Dao, and C. Ducauze|Use of Factorial Experimental Design to Evaluate How Biotic and Abiotic Factors Influence Cadmium Accumulation in the Unicellular Alga Dunaliella|Mar. Ecol. Prog. Ser.44:69-75|1988|10.3354/meps044069
2977|A||O'Brien,P., H. Feldman, E.V. Grill, and A.G. Lewis|Copper Tolerance of the Life History Stages of the Splashpool Copepod Tigriopus californicus (Copepoda, Harpacticoida)|Mar. Ecol. Prog. Ser.44(1): 59-64|1988|10.3354/meps044059
2978|A||Smith,E.J., J.L. Sykora, and M.A. Shapiro|Effect of Lime Neutralized Iron Hydroxide Suspensions on Survival, Growth, and Reproduction of the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.30(8): 1147-1153|1973|10.1139/f73-185
2980|A||Verma,S.R., P.K. Tyagi, D. Dutt, R. Chand, and A.K. Sharma|Tissue Enzymes as Biomonitors of PCP intoxication in Notopterus notopterus|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(6): 633-641|1988|10.1002/aheh.19880160615
2981|A||Snegaroff,J., and J. Bach|Effects of the Fungicide Prochloraz on Xenobiotic Metabolism in Rainbow Trout: Inhibition In Vitro and Time Course of Induction In Vivo|Xenobiotica19(3): 255-267|1989|10.3109/00498258909042271
2982|A||Nimmo,D.W.R., D.V. Lightner, and L.H. Bahner|Effects of Cadmium on the Shrimps, Penaeus duorarum, Palaemonetes pugio, and Palaemonetes vulgaris|In: Symp.Physiol.Responses of Marine Biota to Pollutants, Academy Press, New York, NY:131-183|1977|
2983|A||Reddy,M.S., and K.V.R. Rao|Effects of Phosphamidon and Lindane on the Limb Regeneration of Penaeid Prawn, Penaeus monodon|Bull. Environ. Contam. Toxicol.42(1): 154-158|1989|10.1007/BF01699217
2984|A||Armstrong,D.A., D. Chippendale, A.W. Knight, and J.E. Colt|Interaction of Ionized and Un-ionized Ammonia on Short-Term Survival and Growth of Prawn Larvae, Macrobrachium rosenbergii|Biol. Bull.154:15-31|1978|10.2307/1540771
2985|A||Haesloop,U., and M. Schirmer|Accumulation of Orally Administered Cadmium by the Eel (Anguilla anguilla)|Chemosphere14(10): 1627-1634|1985|10.1016/0045-6535(85)90016-5
2986|A||Heath,A.G.|Effects of Waterborne Copper or Zinc on the Osmoregulatory Response of Bluegill to a Hypertonic NaCl Challenge|Comp. Biochem. Physiol. C Comp. Pharmacol.88(2): 307-311|1987|10.1016/0742-8413(87)90126-5
2987|A||Steele,C.W.|Responses of Zebra Fish, Brachydanio rerio, to Behavior-Altering Chemicals|Ph.D. Thesis, Texas A&M University, College Station TX:233 p.|1987|
2988|A||Skidmore,J.F.|Resistance of Zinc Sulphate of Zebrafish (Brachydanio rerio) Embryos After Removal or Rupture of the Outer Egg Membrane|J. Fish. Res. Board Can.23(7): 1037-1041|1966|10.1139/f66-095
2989|A||Diamond,D.W., L.K. Scott, R.B.,Jr. Forward, and W. Kirby-Smith|Respiration and Osmoregulation of the Estuarine Crab, Rhithropanopeus harrisii (Gould): Effects of the Herbicide, Alachlor|Comp. Biochem. Physiol. A Comp. Physiol.93(2): 313-318|1989|10.1016/0300-9629(89)90043-1
2990|A||Boge,G., D. Bussiere, and G. Peres|Effects of Hexavalent Chromium on Enzymatic Activities and Transport Process of Intestinal Brush Border Membrane of Rainbow Trout (Salmo gairdneri)|Water Res.22(4): 441-447|1988|10.1016/0043-1354(88)90038-3
2991|A||Srivastava,A.K.|Skeletal Anomalies in Indian Catfish (Heteropneustes fossilis) Exposed to Malathion|J. Environ. Biol.11(1): 45-49|1990|
2992|A||Schell,J.D.J.|Interactions of Halogenated Hydrocarbon Mixtures in the Embryo of the Japanese Medaka (Oryzias latipes)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:179 p.|1987|
2993|A||Lohner,T.W.|Effects of pH, Temperature, and Sediment on the Aquatic Fate and Toxicity of Selected Pesticides|Ph.D. Thesis, The Ohio State University, Columbus, OH48:125 p.|1987|
2994|A||Kunigelis,S.C., and K.M. Wilbur|The Effects of Inorganic Phosphates on Trochophore Larvae of the Oyster, Crassostrea virginica|Int. J. Invertebr. Reprod. Dev.12(2): 161-172|1987|10.1080/01688170.1987.10510314
2995|A||Chaudhari,T.R., and V.S. Lomte|Effect of Pesticides on Glycogen Level and Amylase Activity in Digestive Gland of Freshwater Snail Bellamya (Viviparus) bengalensis (L.)|Environ. Ecol.10(1): 188-190|1992|
2996|A||Fu,H., and R.A.C. Lock|Pituitary Response to Cadmium During the Early Development of Tilapia (Oreochromis mossambicus)|Aquat. Toxicol.16(1): 9-18|1990|10.1016/0166-445X(90)90073-X
2997|A|OECDG|Kuhn,R., and M. Pattard|Results of the Harmful Effects of Water Pollutants to Green Algae (Scenedesmus subspicatus) in the Cell Multiplication Inhibition Test|Water Res.24(1): 31-38|1990|10.1016/0043-1354(90)90061-A
2998|A||Machado,J., J. Coimbra, F. Castilho, and C. Sa|Effects of Diflubenzuron on Shell Formation of the Freshwater Clam, Anodonta cygnea|Arch. Environ. Contam. Toxicol.19(1): 35-39|1990|10.1007/BF01059810
2999|A||Cajaraville,M.P., J.A. Marigomez, and E. Angulo|Short-Term Toxic Effects of 1-Naphthol on the Digestive Gland-Gonad Complex of the Marine Prosobranch Littorina littorea (L): A Light Microscopic Study|Arch. Environ. Contam. Toxicol.19(1): 17-24|1990|10.1007/BF01059808
3000|A||Block,M., and G.E. Nilsson|Altered Brain Catecholamine Levels in Rainbow Trout (Salmo gairdneri Richardson) Exposed to Diethyldithiocarbamate and Amylxanthate|Aquat. Toxicol.16(1): 1-8|1990|10.1016/0166-445X(90)90072-W
3001|A||Bodar,C.W.M., I. Van der Sluis, J.C.P. Van Montfort, P.A. Voogt, and D.I. Zandee|Cadmium Resistance in Daphnia magna|Aquat. Toxicol.16(1): 33-40|1990|10.1016/0166-445X(90)90075-Z
3002|A||Heinis,F., K.R. Timmermans, and W.R. Swain|Short-Term Sublethal Effects of Cadmium on the Filter Feeding Chironomid Larva Glyptotendipes pallens (Meigen) (Diptera)|Aquat. Toxicol.16(1): 73-86|1990|10.1016/0166-445X(90)90078-4
3003|A||Wester,P.W., J.H. Canton, A.A.J. Van Iersel, E.I. Krajnc, and H.A.M.G. Vaessen|The Toxicity of bis(Tri-n-Butyltin)Oxide (TBTO) and di-n-Butyltindichloride (DBTC) in the Small Fish Species Oryzias latipes (Medaka) and Poecilia reticulata (Guppy)|Aquat. Toxicol.16(1): 53-72|1990|10.1016/0166-445X(90)90077-3
3004|A||Millie,D.F., D.A. Greene, and P.B. Johnsen|Effects of the Carotenoid-Inhibiting Herbicide, Fluridone, on Oscillatoria agardhii Gomont (Cyanobacteria)|Aquat. Toxicol.16(1): 41-52|1990|10.1016/0166-445X(90)90076-2
3005|A||Schuytema,G.S., D.F. Krawczyk, W.L. Griffis, A.V. Nebeker, and M.L. Robideaux|Hexachlorobenzene Uptake by Fathead Minnows and Macroinvertebrates in Recirculating Sediment/Water Systems|Arch. Environ. Contam. Toxicol.19(1): 1-9|1990|10.1007/BF01059806
3006|A||Miller,D.C., S. Poucher, J.A. Cardin, and D. Hansen|The Acute and Chronic Toxicity of Ammonia to Marine Fish and a Mysid|Arch. Environ. Contam. Toxicol.19(1): 40-48|1990|10.1007/BF01059811
3007|A||Hanazato,T., and M. Yasuno|Influence of Time of Application of an Insecticide on Recovery Patterns of a Zooplankton Community in Experimental Ponds|Arch. Environ. Contam. Toxicol.19(1): 77-83|1990|10.1007/BF01059815
3008|A||Voyer,R.A., and G. Modica|Influence of Salinity and Temperature on Acute Toxicity of Cadmium to Mysidopsis bahia Molenock|Arch. Environ. Contam. Toxicol.19(1): 124-131|1990|10.1007/BF01059820
3009|A||Berk,S.G., B.A. Mills, K.C. Stewart, R.S. Ting, and R.O. Roberts|Reversal of Phenol and Naphthalene Effects on Ciliate Chemoattraction|Bull. Environ. Contam. Toxicol.44(2): 181-188|1990|10.1007/BF01700134
3010|A||Koechlin,N., and M. Grasset|Silver Contamination in the Marine Polychaete Annelid Sabella pavonina S.: A Cytological and Analytical Study|Mar. Environ. Res.26(4): 249-263|1988|10.1016/0141-1136(88)90351-0
3011|A||Ariyoshi,T., S. Shiiba, H. Hasegawa, and K. Arizono|Effects of the Environmental Pollutants on Heme Oxygenase Activity and Cytochrome P-450 Content in Fish|Bull. Environ. Contam. Toxicol.44(2): 189-196|1990|10.1007/BF01700135
3012|A||Bootsma,N., D.J. Macey, J. Webb, and V. Talbot|Use of Carbonyl Iron to Induce Iron Loading in the Mussel Mytilus edulis|Bull. Environ. Contam. Toxicol.44(2): 205-209|1990|10.1007/BF01700137
3013|A||Hiraoka,Y., J. Tanaka, and H. Okuda|Toxicity of Fenitrothion Degradation Products to Medaka (Oryzias latipes)|Bull. Environ. Contam. Toxicol.44(2): 210-215|1990|10.1007/BF01700138
3014|A||Reddy,P.M., and M. Bashamohideen|Fenvalerate and Cypermethrin Induced Changes in the Haematological Parameters of Cyprinus carpio|Acta Hydrochim. Hydrobiol. (Multiple Languages)17(1): 101-107|1989|10.1002/aheh.19890170116
3015|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Bioconcentration and Excretion of Benthiocarb and Simetryne by Willow Shiner|Toxicol. Environ. Chem.18(1): 31-36|1988|10.1080/02772248809357306
3016|A||Rana,S.V.S., R. Singh, and S. Verma|Mercury-Induced Lipid Peroxidation in the Liver, Kidney, Brain and Gills of a Fresh Water Fish, Channa punctatus|Jpn. J. Ichthyol.42(3/4): 255-259|1995|
3017|A||Solski,A., and E. Erndt|Application of Tests at Population and Ecosystem Levels for the Estimation of Toxicity of Selected Non-Ionic Detergents|Acta Hydrobiol.29(4): 387-402|1987|
3018|A||Premkishore,G., and M.R. Chandran|Effect of DDT and Cythion on the Free Amino Acid Level of the Public Health Fish, Gambusia affinis|Pollut. Res.7(3-4): 107-109|1988|
3019|A||Johnson,I.|The Effects of Combinations of Heavy Metals, Hypoxia and Salinity on Oxygen Consumption and Carbohydrate Metabolism in Crangon crangon (L.) & Carcinus maenas (L.)|Ophelia27(3): 155-169|1987|10.1080/00785236.1987.10422019
3020|A||Azeez,P.A., and D.K. Banerjee|Effect of Chromium on Cyanobacteria and Its Accumululation|Toxicol. Environ. Chem.16(3): 229-240|1988|10.1080/02772248809357261
3021|A||Benson,W.H., C.F. Watson, K.N. Baer, and R.A. Stackhouse|Response of Hematological and Biochemical Parameters to Heavy Metal Exposure: Implications in Environmental Monitoring|Mar. Environ. Res.24(1-4): 219-222|1988|10.1016/0141-1136(88)90303-0
3022|A||Bano,Y., and M. Hasan|Mercury Induced Time-Dependent Alterations in Lipid Profiles and Lipid Peroxidation in Different Body Organs of Cat-Fish Heteropneustes fossilis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(2): 145-166|1989|
3023|A||Altenburger,R., W. Bodeker, M. Faust, and L.H. Grimme|Evaluation of the Isobologram Method for the Assessment of Mixtures of Chemicals:  Combination Effect Studies with Pesticides in Algal Biotests|Ecotoxicol. Environ. Saf.20(1): 98-114|1990|10.1016/0147-6513(90)90049-B
3024|A||Santos,M.A., and A. Hall|Influence of Inorganic Lead on the Biochemical Blood Composition of the Eel, Anguilla anguilla L|Ecotoxicol. Environ. Saf.20(1): 7-9|1990|10.1016/0147-6513(90)90040-C
3025|A||Khan,A.K., K.S. Rao, S. Alam, M.U. Patil, R. Nagabhushanan, and R. Sarojini|Effect of Naphthalene in the Organic Constituents of the Marine Edible Crab, Scylla serrata Under Lethal and Sublethal Impact|Pollut. Res.7(3-4): 109-112|1988|
3026|A||Kluytmans,J.H., F. Brands, and D.I. Zandee|Interactions of Cadmium with the Reproductive Cycle of Mytilus edulis L|Mar. Environ. Res.24(1-4): 189-192|1988|10.1016/0141-1136(88)90296-6
3027|A||Rao,K.S., A.K. Khan, R. Nagabhushnam, and R. Sarojini|Histological Changes of Testis in the Marine Crab, Scylla serrata (Forskal) Following Dimecron Exposure|Pollut. Res.7(3-4): 141-144|1988|
3028|A||Harrison,F.L., J.R. Lam, and J. Novacek|Partitioning of Metals Among Metal-Binding Proteins in the Bay Mussel, Mytilus edulis|Mar. Environ. Res.24(1-4): 167-170|1988|10.1016/0141-1136(88)90287-5
3029|A||Rajini,P.S., M.K. Krishnakumari, and S.K. Majumder|Cytotoxicity of Certain Organic Solvents and Organophosphorus Insecticides to the Ciliated Protozoan Paramecium caudatum|Microbios59(240/241): 157-164|1989|
3030|A||Jinhe,S., G. Jianying, and C. Ziyuan|Fate of Carbofuran in Model Rice/Fish Ecosystems|Pestic. Sci.26(3): 147-157|1989|10.1002/ps.2780260206
3031|A||Holtz,D.T., and J.D. Winter|Effects of the Herbicides Ortho-Diquat and Aquathol-K on Selected Physiological Parameters in Yellow Perch (Perca flavescens)|Bull. Ecol. Soc. Am.70(2): 145-|1989|10.2307/20167111
3032|A||Presing,M.|Data to the Toxic Effect of K-Othrine on Crustaceans|Arch. Hydrobiol.114(4): 621-629|1989|10.1127/archiv-hydrobiol/114/1989/621
3033|A||Kierstead,W.G., and F. Barlocher|Ecological Effects of Pentachlorophenol on the Brackish-Water Amphipod Gammarus tigrinus|Arch. Hydrobiol.115(1): 149-156|1989|
3034|A||Jeelani,S., and S.A. Shaffi|Biochemical Compartmentation of Fish Tissues: Chronic Toxicity of Mercuric Nitrate on Visceral Phosphomonoesterases in Channa punctatus (Bloch)|Acta Physiol. Hung.73(4): 477-482|1989|
3035|A||Thorpe,G.J.|A Toxicological Assessment of Cadmium Toxicity to the Larvae of Two Estuarine Crustaceans, Rhithropanopeus harrisii and Palaemonetes pugio|Ph.D. Thesis, Duke University, Durham, NC:120 p.|1988|
3036|A||Kreutzweiser,D.P., P.D. Kingsbury, and J.C. Feng|Drift Response of Stream Invertebrates to Aerial Applications of Glyphosate|Bull. Environ. Contam. Toxicol.42(3): 331-338|1989|10.1007/BF01699957
3037|A||Black,M.C.|Effects of Environmental and Physiological Variables on the Uptake of Hydrophobic Contaminants by the Gills of Rainbow Trout, Salmo gairdneri|Ph.D.Thesis, University of Tennessee, Knoxville, TN:126 p.|1989|
3038|A||Reddy,M.S., S. Ghouse Lazam, and K.V.R. Rao|Inhibition and Recovery of Acetylcholinesterase Activity in the Nervous Tissue of Prawn, Metapenaeus monoceros (Fabricius) Exposed to Phosphamidon and and Methylparathion|Curr. Sci. (Bangalore)56(15): 764-767|1987|
3039|A||Padmaja,K., P. Nagalakshmi, and M.B. Rao|A Comparative Evaluation of the Toxicity of Metacid (Methyl Parathion), Quinalphos and Nuvan (DDVP) to the Freshwater Snail, Bellamya dissimilis (Muller)|Indian J. Comp. Anim. Physiol.6(1): 34-38|1988|
3040|A||Neumann,W., H. Laasch, and W. Urbach|Mechanisms of Herbicide Sorption in Microalgae and the Influence of Environmental Factors|Pestic. Biochem. Physiol.27(2): 189-200|1987|10.1016/0048-3575(87)90046-0
3041|A||Pelekis,M.L., B.S. Mangat, and K. Krishnan|Influence of 2,4-Dichlorophenoxyacetic Acid on the Growth and Stored Polyglucan Content of Three Species of Heterotrophic Algae|Pestic. Biochem. Physiol.28(3): 349-353|1987|10.1016/0048-3575(87)90130-1
3042|A||Yameogo,L., J.M. Tapsoba, and D. Calamari|Laboratory Toxicity of Potential Blackfly Larvicides on Some African Fish Species in the Onchocerciasis Control Programme Area|Ecotoxicol. Environ. Saf.21(3): 248-256|1991|10.1016/0147-6513(91)90063-U
3043|A||Rompas,R.M., K. Kobayashi, Y. Oshima, N. Imada, K. Yamato, and Y. Mitsuyasu|Relationship Between Toxicity and Acetylcholinesterase Inhibition of Some Thiono- and Oxo-Form Organophosphates in Tiger Shrimp Larvae at Different Stages|Nippon Suisan Gakkaishi (Multiple Languages)55(4): 669-673|1989|10.2331/suisan.55.669
3044|A||Coughlan,D.J., and J.S. Velte|Dietary Toxicity of Selenium-Contaminated Red Shiners to Striped Bass|Trans. Am. Fish. Soc.118(4): 400-408|1989|10.1577/1548-8659(1989)118<0400:DTOSRS>2.3.CO;2
3045|A||Smithberg,M.|Teratogenic Effects of Tolbutamide on the Early Development of the Fish, Oryzias latipes|Am. J. Anat.111:205-213|1962|10.1002/aja.1001110206
3047|AT||ICN Biomedicals,Inc|ICN Catalog|ICN Biomedicals Inc., Irvine, CA:1951 p.|1992|
3048|A||Bashamohideen,M., N. Suneetha, and P.M. Reddy|Comparative Toxicity of Endosulfan and Methyl Parathion to the Fish Catla catla|Environ. Ecol.7(4): 1006-1008|1989|
3049|A||Reddy,P.M., and M. Bashamohideen|Toxicity of Synthetic Pyrethroid Insecticides Fenvalerate and Cypermethrin to the Fish Cyprinus carpio|Environ. Ecol.7(4): 1016-1018|1989|
3050|A||Radhaiah,V., S.V.K. Reddy, and K.J. Rao|Isoenzymes of Lactate Dehydrogenase in Different Tissues of the Fish Tilapia mossambica Exposed to Fenvalerate|Environ. Ecol.7(4): 1039-1041|1989|
3051|A||Jha,B.S., and S. Pandey|Histopathological Lesions Induced by Lead Nitrate in the Stomach of the Air-Breathing Teleost Channa punctatus|Environ. Ecol.7(3): 721-723|1989|
3052|A||Garg,V.K., S.K. Garg, and S.K. Tyagi|Hematological Parameters in Fish Channa punctatus Under the Stress of Manganese|Environ. Ecol.7(3): 752-755|1989|
3053|A||Pal,A.K., and S.K. Konar|Effects of Chronic Exposure of Phosphamidon on Aquatic Ecosystem|Environ. Ecol.7(3): 708-712|1989|
3054|A||Gaikwad,S.A.|Acute Toxicity of Mercury, Copper and Selenium to the Fish Etroplus maculatus|Environ. Ecol.7(3): 694-696|1989|
3055|A||Gopal,K., M.D. Ram, M. Anand, and P.K. Ray|Toxicity and Fate of Lindane in Fresh Water Fish Channa punctatus|Environ. Ecol.7(3): 571-576|1989|
3056|A||Jebakumar,S.R.D., S.D.J. Flora, R.M. Ganesan, G. Jagatheesan, and J. Jayaraman|Effect of Short Term Sublethal Exposure of Cypermethrin on the Organic Constituents of the Freshwater Fish Lepidocephalichthys thermalis|J. Environ. Biol.11((2-Supp.)): 203-209|1990|
3057|A||Ahsanullah,M., and A.R. Williams|Kinetics of Uranium Uptake by the Crab Pachygrapsus laevimanus and the Zebra Winkle Austrocochlea constricta|Mar. Biol.101:323-327|1989|10.1007/BF00428128
3058|A||Biondi,C., E. Fabbri, M.E. Ferretti, D. Sonetti, and A.M. Bolognani Fantin|Effects of Lead Exposure on cAMP and Correlated Enzymes in Viviparus ater (Mollusca Gastropoda) Nervous System|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 327-333|1989|10.1016/0742-8413(89)90187-4
3059|A||Hahn,M.E., B.R. Woodin, and J.J. Stegeman|Induction of Cytochrome P-450E (P-450IA1) by 2,3,7,8-Tetrachlorodibenzofuran (2,3,7,8-TCDF) in the Marine Fish Scup (Stenotomus chrysops)|Mar. Environ. Res.28(1-4): 61-65|1989|10.1016/0141-1136(89)90185-2
3060|A||Rice,S.D., and R.E. Thomas|Effect of Pre-Treatment Exposures of Toluene or Naphthalene on the Tolerance of Pink Salmon (Oncorhynchus gorbuscha) and Kelp Shrimp (Eualis suckleyi)|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 289-293|1989|10.1016/0742-8413(89)90181-3
3061|A||Nicholls,D.M., K. Teichert-Kuliszewska, and G.R. Girgis|Effect of Chronic Mercuric Chloride Exposure on Liver and Muscle Enzymes in Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 265-270|1989|10.1016/0742-8413(89)90177-1
3062|A||Hernandez-Pascual,M.D., and L. Tort|Metabolic Effects After Short-Term Sublethal Cadmium Exposure to Dogfish (Scyliorhinus canicula)|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 261-264|1989|10.1016/0742-8413(89)90176-X
3063|A||Munzinger,A.|Effects of Nickel on Daphnia magna During Chronic Exposure and Alterations in the Toxicity to Generations Pre-Exposed to Nickel|Water Res.24(7): 845-852|1990|10.1016/0043-1354(90)90134-R
3064|A||Muley,D.V., and U.H. Mane|Seasonal Variations in the Toxicity of Folithion and Lebaycid to a Freshwater Gastropod, Viviparus bengalensis (Lamarck) from Godavari River|Adv. Biosci.7(1): 37-46|1988|
3065|A||Snegaroff,J., J. Bach, and V. Prevost|Effects of Chloramphenicol on Hepatic Cytochrome P-450 in Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 215-222|1989|10.1016/0742-8413(89)90169-2
3066|A||Grobler,E., H.H. Du Preez, and J.H.J. Van Vuren|Toxic Effects of Zinc and Iron on the Routine Oxygen Consumption of Tilapia sparrmanii (Cichlidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 207-214|1989|10.1016/0742-8413(89)90168-0
3067|A||Thaker,A.A., and A.A. Haritos|Mercury Bioaccumulation and Effects on Soluble Peptides, Proteins and Enzymes in the Hepatopancreas of the Shrimp Callianassa tyrrhena|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 199-205|1989|10.1016/0742-8413(89)90167-9
3068|A||Davalli,P., G.P. Serrazanetti, E. Carpene, and A. Corti|Responses of Liver Enzymes to Cadmium Administration in the Goldfish (Carassius auratus) at Different Times of the Year|Comp. Biochem. Physiol. C Comp. Pharmacol.94(2): 177-181|1989|10.1016/0742-8413(89)90164-3
3069|A||Overnell,J., and R. McIntosh|The Effect of Supplementary Dietary Copper on Copper and Metallothionein Levels in the Fish, Dab, Limanda limanda|Mar. Environ. Res.26(4): 237-247|1988|10.1016/0141-1136(88)90350-9
3070|A||McCormick,J.H., K.M. Jensen, and L.E. Anderson|Chronic Effects of Low pH and Elevated Aluminum on Survival, Maturation, Spawning and Embryo-Larval Development of the Fathead Minnow in Soft Water|Water Air Soil Pollut.43(3/4): 293-307|1989|10.1007/BF00279198
3071|A||Shanmukhappa,H., U.G. Bhat, B. Neelakantan, and B. Shakuntala|Toxicity Studies of Linear Alkylbenzene Sulfonate (LAS) on an Estuarine Fish, Ambassis commersonii|Pollut. Res.7(3/4): 81-84|1988|
3072|A||Ghosh,T.K., and S.K. Chatterjee|Influence of Nuvan on the Organic Reserves of Indian Freshwater Murrel, Channa punctatus|J. Environ. Biol.10(1): 93-99|1989|
3073|A||Mathai,A.T., K.S. Pillai, and P.B. Deshmukh|Acute Toxicity of DEET to a Freshwater Fish, Tilapia mossambica: Effect on Tissue Glutathione Levels|J. Environ. Biol.10(2): 87-91|1989|
3074|A||Bills,T.D., L.L. Marking, V.K. Dawson, and J.J. Rach|Effects of Environmental Factors on the Toxicity of Chloramine-T to Fish|Invest.Fish Control No.96, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:6 p.|1988|
3075|A||Bills,T.D., L.L. Marking, V.K. Dawson, and G.E. Howe|Effects of Organic Matter and Loading Rates of Fish on the Toxicity of Chloramine-T|Invest.Fish Control No.97, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:4 p.|1988|
3076|A||Chandrashekar,K.R., and K.M. Kaveriappa|Effect of Pesticides on the Growth of Aquatic Hyphomycetes|Toxicol. Lett.48(3): 311-315|1989|10.1016/0378-4274(89)90058-1
3077|A||Reide,M., and R. Siegmund|Time Pattern Analysis of Swimming Activity and Heart Rate Under the Influence of Chloramphenicol in Carp (Cyprinus carpio L.) and Rainbow Trout (Salmo gairdneri R.)|Aquaculture80(3/4): 315-324|1989|10.1016/0044-8486(89)90178-6
3078|A||Sharp,J.|The Effects of Mercury on the Embryogenesis and Long-Term Survival and Growth of Etheostoma spectabile|Trans. Mo. Acad. Sci.21:154-|1987|
3079|A||Pinkney,A.E., D.A. Wright, and G.M. Hughes|A Morphometric Study of the Effects of Tributyltin Compounds on the Gills of the Mummichog, Fundulus heteroclitus|J. Fish Biol.34(5): 665-677|1989|10.1111/j.1095-8649.1989.tb03348.x
3080|A||Korver,R.M., and J.B. Sprague|Zinc Avoidance by Fathead Minnows (Pimephales promelas): Computerized Tracking and Greater Ecological Relevance|Can. J. Fish. Aquat. Sci.46(2): 494-502|1989|10.1139/f89-066
3081|A||Reddy,M.S., and K.V.R. Rao|Effects of Sublethal Concentrations of Phosphamidon, Methyl Parathion, DDT, and Lindane on Tissue Nitrogen Metabolism in the Penaeid Prawn|Ecotoxicol. Environ. Saf.19(1): 47-54|1990|10.1016/0147-6513(90)90077-I
3082|A||Lee,B.C., J.D. Hendricks, and G.S. Bailey|Rare Renal Neoplasms in Salmo gairdneri Exposed to MNNG (N-Methyl-N'-Nitro-N-Nitrosoguanidine)|Dis. Aquat. Org.6(2): 105-111|1989|10.3354/dao006105
3083|A||Nugegoda,D., and P.S. Rainbow|The Effect of Temperature on Zinc Regulation by the Decapod Crustacean Palaemon elegans Rathke|Ophelia27(1): 17-30|1987|10.1080/00785236.1987.10422008
3084|A||Overnell,J., T.C. Fletcher, and R. McIntosh|Factors Affecting Hepatic Metallothionein Levels in Marine Flatfish|Mar. Environ. Res.24(1-4): 155-158|1988|10.1016/0141-1136(88)90284-X
3085|A||Olsson,P.E., A. Larsson, and C. Haux|Metallothionein and Heavy Metal Levels in Rainbow Trout (Salmo gairdneri) During Exposure to Cadmium in the Water|Mar. Environ. Res.24(1-4): 151-153|1988|10.1016/0141-1136(88)90283-8
3086|A||Richmonds,C., and H.M. Dutta|Histopathological Changes Induced by Malathion in the Gills of Bluegill Lepomis macrochirus|Bull. Environ. Contam. Toxicol.43(1): 123-130|1989|10.1007/BF01702248
3087|A||Vranken,G., C. Tire, and C. Heip|Effect of Temperature and Food on Hexavalent Chromium Toxicity to the Marine Nematode Monhystera disjuncta|Mar. Environ. Res.27(2): 127-136|1989|10.1016/0141-1136(89)90004-4
3088|A||Vardia,H.K., and P.S. Rao|Pesticidal Effects on Chironomid Larvae|Rev. Biol.13(1-4): 113-116|1986|
3089|A||Gupta,P.K., and V.S. Durve|A Study of the Temperature Dependence of the Acute Toxicity of Pentachlorophenol to a Freshwater Pond Snail, Viviparus bengalensis L.|Rev. Biol.13(1-4): 103-112|1986|
3090|A||Kakkar,P., G. Chawla, F.N. Jaffery, and P.N. Viswanathan|Free Radical Changes in Scenedesmus quadricauda Under Photoperiodic and Xenobiotic Stress|Sci. Total Environ.78:147-153|1989|10.1016/0048-9697(89)90028-4
3091|A||Couillard,Y., P. Ross, and B. Pinel-Alloul|Acute Toxicity of Six Metals to the Rotifer Brachionus calyciflorus, with Comparisons to Other Freshwater Organisms|Toxic. Assess.4(4): 451-462|1989|10.1002/tox.2540040405
3092|A||Steele,C.W.|Effects of Sublethal Exposure to Copper on Diel Activity of Sea Catfish, Arius felis|Hydrobiologia (Multiple Languages)178:135-141|1989|10.1007/BF00011664
3093|A||Casellato,S., and P. Negrisolo|Acute and Chronic Effects of an Anionic Surfactant on Some Freshwater Tubificid Species|Hydrobiologia (Multiple Languages)180:243-252|1989|10.1007/BF00027557
3095|A||Takamura,N., F. Kasai, and M.M. Watanabe|Effects of Cu, Cd and Zn on Photosynthesis of Freshwater Benthic Algae|J. Appl. Phycol.1(1): 39-52|1989|10.1007/BF00003534
3096|A||Darnerud,P.O., A. Bergman, B.O. Lund, and I. Brandt|Selective Accumulation of Chlorinated Paraffins (C12 and C16) in the Olfactory Organ of Rainbow Trout|Chemosphere18(9/10): 1821-1827|1989|10.1016/0045-6535(89)90466-9
3097|A||Cid,A., C. Herrero, and J. Abalde|Functional Analysis of Phytoplankton by Flow Cytometry:  A Study of the Effect of Copper on a Marine Diatom|Sci. Mar.60(Suppl.1): 303-308|1996|
3099|A||Petersen,R.C.J., and L.B.M. Petersen|Compensatory Mortality in Aquatic Populations: Its Importance for Interpretation of Toxicant Effects|Ambio17(6): 381-386|1988|
3100|A||Meinel,W., R. Krause, and J. Musko|Effect of pH on the Toxicity of Cadmium to Some Groundwater Organisms|Z. Angew. Zool. (Multiple Languages)76(1): 101-125|1989|
3101|A||Miramand,P., P. Germain, and J.P. Trilles|Histo-autoradiographic Localisation of Americium (241Am) in Tissues of European Lobster Homarus gammarus and Edible Crab Cancer pagurus After Uptake|Mar. Ecol. Prog. Ser.52(3): 217-225|1989|10.3354/meps052217
3102|A||Zuolian,C., and A. Jensen|Accumulation of Organic and Inorganic Tin in Blue Mussel, Mytilus edulis, Under Natural Conditions|Mar. Pollut. Bull.20(6): 281-286|1989|10.1016/0025-326X(89)90301-9
3103|A||Goel,K.A., S.D. Shrama, and Maya |Toxicity of Metanil Yellow and Derma Orange (Textile Dyes) to a Fresh Water Teleost, Channa punctatus|Indian J. Environ. Health31(1): 83-86|1989|
3104|A||Rao,M.B., and N. Jayasree|Toxicity of Copper and Zinc to Adults and Juveniles of the Freshwater Prosobranch Snail Bellamya dissimilis (Muller)|In: K.S.Rao and S.Shrivasta (Eds.), Perspectives in Hydrobiology Symp., Feb.8-10, 1986, Ujjain, India:75-80|1987|
3105|A||Battle,H.I., and K.K. Hisaoka|Effects of Ethyl Carbamate (Urethan) on the Early Development of the Teleost Brachydanio rerio|Cancer Res.12:334-340|1952|
3106|A||Bhattacharya,T., S. Bhattacharya, A.K. Ray, and S. Dey|Influence of Industrial Pollutants on Thyroid Function in Channa punctatus (Bloch)|Indian J. Exp. Biol.27(1): 65-68|1989|
3107|A||Bashamohideen,M., N. Suneetha, and P.M. Reddy|Impact of Endosulfan and Methyl Parathion on Some Selected Parameters of Oxidative Metabolism in the Fish, Catla catla|Biol. Mem.14(1): 43-47|1988|
3108|A||Sinha,N., B. Lal, and T.P. Singh|Carbaryl-Induced Thyroid Dysfunction in the Freshwater Catfish Clarias batrachus|Ecotoxicol. Environ. Saf.21(3): 240-247|1991|10.1016/0147-6513(91)90062-T
3110|A||Belanger,S.E., J.L. Farris, and D.S. Cherry|Effects of Diet, Water Hardness, and Population Source on Acute and Chronic Copper Toxicity to Ceriodaphnia dubia|Arch. Environ. Contam. Toxicol.18(4): 601-611|1989|10.1007/BF01055028
3111|A||Hanazato,T., and M. Yasuno|Influence of Chaoborus Density on the Effects of an Insecticide on Zooplankton Communities in Ponds|Hydrobiologia (Multiple Languages)194(3): 183-197|1990|10.1007/BF00007118
3112|A||Steele,C.W., D.W. Owens, and A.D. Scarfe|Attraction of Zebrafish, Brachydanio rerio, to Alanine and Its Suppression by Copper|J. Fish Biol.36(3): 341-352|1990|10.1111/j.1095-8649.1990.tb05614.x
3114|A||Poulton,M., and D. Pascoe|Disruption of Precopula in Gammarus pulex (L.) - Development of a Behavioural Bioassay for Evaluating Pollutant and Parasite Induced Stress|Chemosphere20(3-4): 403-415|1990|10.1016/0045-6535(90)90071-Z
3115|A||Pratap,H.B., H. Fu, R.A.C. Lock, and S.E. Wendelaar Bonga|Effect of Waterborne and Dietary Cadmium on Plasma Ions of the Teleost Oreochromis mossambicus in Relation to Water Calcium Levels|Arch. Environ. Contam. Toxicol.18(4): 568-575|1989|10.1007/BF01055024
3116|A||Smith,A.D., A. Bharath, C. Mallard, D. Orr, L.S. McCarty, and G.W. Ozburn|Bioconcentration Kinetics of Some Chlorinated Benzenes and Chlorinated Phenols in American Flagfish, Jordanella floridae (Goode and Bean)|Chemosphere20(3/4): 379-386|1990|10.1016/0045-6535(90)90068-5
3117|A||Wisk,J.D., and K.R. Cooper|Comparison of the Toxicity of Several Polychlorinated Dibenzo-p-Dioxins and 2,3,7,8-Tetrachlorodibenzofuran in Embryos of the Japanese Medaka (Oryzias latipes)|Chemosphere20(3-4): 361-377|1990|10.1016/0045-6535(90)90067-4
3118|A||Maeda,S., R. Inoue, T. Kozono, T. Tokuda, A. Ohki, and T. Takeshita|Arsenic Metabolism in a Freshwater Food Chain|Chemosphere20(1/2): 101-108|1990|10.1016/0045-6535(90)90090-G
3119|A||Galey,J., F. Goudard, J. Pieri, P. Germain, and S.G. George|241Am Binding-Components in the Digestive Gland Cells of the Marine Prosobranch Littorina littorea|Comp. Biochem. Physiol. A Comp. Physiol.85(2): 333-340|1986|10.1016/0300-9629(86)90258-6
3120|A||Bierkens,J., and K. Simkiss|Europium Uptake and Accumulation in the Cells of the Crab, Carcinus maenas|Comp. Biochem. Physiol. A Comp. Physiol.91(2): 339-342|1988|10.1016/0300-9629(88)90427-6
3122|A||Bantle,J.A., D.J. Fort, and B.L. James|Identification of Developmental Toxicants Using the Frog Embryo Teratogenesis Assay-Xenopus (FETAX)|Hydrobiologia (Multiple Languages)188/189:577-585|1989|10.1007/BF00027826
3123|A||Pellerin-Massicotte,J., E. Pelletier, and M. Paquet|Cellular and Biochemical Indicators Assessing the Quality of a Marine Environment|Hydrobiologia (Multiple Languages)188/189:587-594|1989|10.1007/BF00027827
3124|A||Siefert,R.E., S.J. Lozano, J.C. Brazner, and M.L. Knuth|Littoral Enclosures for Aquatic Field Testing of Pesticides: Effects of Chlorpyrifos on a Natural System|In: J.R.Voshell,Jr.(Ed.), Using Mesocosms to Assess the Aquatic Ecological Risk of Pesticides: Theory and Practice.Entomological Society of America.Misc.Publ.No.75:57-73|1989|
3125|A||Miller,E.|Responses of Geukensia demissa to Dissolved Copper at Various Salinities|J. Shellfish Res.7(1): 127-|1988|
3127|A||Lawrence,S.G., M.H. Holoka, and R.D. Hamilton|Effects of Cadmium on a Microbial Food Chain, Chlamydomonas reinhardii and Tetrahymena vorax|Sci. Total Environ.87/88:381-395|1989|10.1016/0048-9697(89)90250-7
3128|A||Pinkney,A.E.|Biochemical, Histological, and Physiological Effects of Tributyltin Compounds in Estuarine Fish|Ph.D.Thesis, University of Maryland, College Park, MD:109 p.|1988|
3129|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Bioconcentration and Excretion of Diazinon, IBP, Malathion and Fenitrothion by Willow Shiner|Toxicol. Environ. Chem.24:185-190|1989|10.1080/02772248909357489
3130|A||Kloepper-Sams,P.J., and J.J. Stegeman|The Temporal Relationships Between P450E Protein Content, Catalytic Activity, and mRNA Levels in the Teleost Fundulus heteroclitus Following Treatment with beta-Naphthoflavone|Arch. Biochem. Biophys.268(2): 525-535|1989|10.1016/0003-9861(89)90319-6
3131|A||Banerjee,V., and M. Banerjee|Effect of Heavy Metal Poisoning on Peripheral Haemogram in Heteropneustes fossilis (Bloch) Mercury, Chromium and Zinc Chlorides (LC50)|Comp. Physiol. Ecol.13(2): 128-134|1988|
3132|A||Rao,K.V.R., K.S. Rao, I.K.A. Sahib, and S. Sivaiah|Differential Toxicity of Methyl Parathion and Malathion on Some Selected Aquatic Species|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(4): 367-370|1987|
3133|A||Alkahem,H.F.|Effect of Sublethal Copper Concentrations on the Behaviour of Cichlid Fish Oreochromis niloticus|Z. Angew. Zool. (Multiple Languages)76(1): 93-99|1989|
3134|A||Paulose,P.V.|Histological Changes in Relation to Accumulation and Elimination of Inorganic and Methyl Mercury in Gills of Labeo rohita Hamilton|Indian J. Exp. Biol.27(2): 146-150|1989|
3135|A||Burnett,K.M., and W.J. Liss|Multi-Steady-State Toxicant Fate and Effect in Laboratory Aquatic Ecosystems|Environ. Toxicol. Chem.9(3): 637-647|1990|
3136|A||Goldsborough,L.G., and G.G.C. Robinson|Functional Responses of Freshwater Periphyton to Short Simazine Exposures|Verh. Int. Ver. Theor. Angew. Limnol.23(3): 1586-1593|1988|
3137|A||Johnsen,S., J. Kukkonen, and M. Grande|Influence of Natural Aquatic Humic Substances on the Bioavailability of Benzo(a)pyrene to Atlantic Salmon|Sci. Total Environ.81/82:691-702|1989|10.1016/0048-9697(89)90180-0
3138|A||Larson,K.G., B.S. Roberson, and F.M. Hetrick|Effect of Environmental Pollutants on the Chemiluminescence of Hemocytes from the American Oyster Crassostrea virginica|Dis. Aquat. Org.6(2): 131-136|1989|10.3354/dao006131
3139|A||Roberts,S., P. Vasseur, and D. Dive|Combined Effects Between Atrazine, Copper and pH, on Target and Non Target Species|Water Res.24(4): 485-491|1990|10.1016/0043-1354(90)90233-V
3140|A||Novak,M.A., A.A. Reilly, B. Bush, and L. Shane|In Situ Determination of PCB Congener-Specific First Order Absorption/Desorption Rate Constants Using Chironomus tentans Larvae (Insecta: Diptera|Water Res.24(3): 321-327|1990|10.1016/0043-1354(90)90007-S
3141|A||Smets,B.F., and B.E. Rittmann|Sorption Equilibria for Trichloroethene on Algae|Water Res.24(3): 355-360|1990|10.1016/0043-1354(90)90013-V
3142|A||Sarkar,S.K.|Toxicity Evaluation of Superphosphate on Some Aquatic Invertebrates Exposed to Temperature|J. Environ. Biol.11(2): 97-100|1990|
3143|A||Chockalingam,S., S. Thenmozhi, and M.S.N. Sundari|Larvicidal Activity of Different Products Against Mosquito Larvae|J. Environ. Biol.11(2): 101-104|1990|
3144|A||Thakur,G.K., and P.K. Pandey|BHC (Grammaxene) Poisoning Effect on Leucocytes of an Airbreathing Fish, Clarias batrachus (Linn.)|J. Environ. Biol.11(2): 105-110|1990|
3145|A||Tulasi,S.J., R. Yasmeen, and J.V.R. Rao|Ionic Balance in the Haemolymph of the Freshwater Crab, Barytelphusa guerini (H. Miline Edwards) Exposed to Sublethal Concentrations of Lead Acetate|J. Environ. Biol.11(2): 163-168|1990|
3146|A||Morgan,M.J., and J.W. Kiceniuk|Effect of Fenitrothion on the Foraging Behavior of Juvenile Atlantic Salmon|Environ. Toxicol. Chem.9(4): 489-495|1990|10.1002/etc.5620090412
3147|A||Wajsbrot,N., A. Gasith, M.D. Krom, and T.M. Samocha|Effect of Dissolved Oxygen and the Molt Stage on the Acute Toxicity of Ammonia to Juvenile Green Tiger Prawn Penaeus semisulcatus|Environ. Toxicol. Chem.9(4): 497-504|1990|10.1002/etc.5620090413
3148|A||Dauble,D.D., and L.R. Curtis|Influence of Digestive Processes on the Absorption and Fate of Quinoline Ingested by Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.9(4): 505-512|1990|10.1002/etc.5620090414
3149|A||Trivedi,S.P., P. Singh, N. Sethi, and R.K. Singh|Evaluation of Hematotoxic Effects of Two Commonly Used Fertilizers, Diammonium Phosphate and Urea, on Fish Clarias batrachus|Ecotoxicol. Environ. Saf.19(2): 135-142|1990|10.1016/0147-6513(90)90062-A
3150|A||Saito,S., C. Tateno, A. Tanoue, and T. Matsuda|Electron Microscope Autoradiographic Examination of Uptake Behavior of Lipophilic Chemicals into Fish Gill|Ecotoxicol. Environ. Saf.19(2): 184-191|1990|10.1016/0147-6513(90)90066-E
3151|A||Meindl.U., and G. Roderer|Influence of Inorganic and Triethyl Lead on Nuclear Migration and Ultrastructure of Micrasterias|Ecotoxicol. Environ. Saf.19(2): 192-203|1990|10.1016/0147-6513(90)90067-F
3152|A||Ozoh,P.T.E.|Egg Volume Regulation in Hediste (Nereis) diversicolor Eggs: A Rapid Bioassay|Water Air Soil Pollut.49(3/4): 231-240|1990|10.1007/BF00507066
3153|A||Joy,C.M., and K.P. Balakrishnan|Effect of Fluoride on Axenic Cultures of Diatoms|Water Air Soil Pollut.49(3-4): 241-249|1990|10.1007/BF00507067
3154|A||Ozoh,P.T.E.|Volume Regulation and Accumulation of Copper in Whole and Decapitated Hediste (Nereis) diversicolor Under Varying Salinity - Copper Regimes|Water Air Soil Pollut.45(3/4): 215-230|1990|10.1007/BF00507065
3155|A||Garnier,J., and J.P. Baudin|Accumulation and Depuration of 110mAg by a Planktonic Alga, Scenedesmus obliquus|Water Air Soil Pollut.45(3-4): 287-299|1989|10.1007/BF00283459
3156|A||Oris,J.T., A. Tilghman Hall, and J.D. Tylka|Humic Acids Reduce the Photo-Induced Toxicity of Anthracene to Fish and Daphnia|Environ. Toxicol. Chem.9(5): 575-583|1990|
3157|A||Bihari,N., M. Vukmirovic, R. Batel, and R.K. Zahn|Application of the SOS umu-Test in Detection of Pollution Using Fish Liver S9 Fraction|Comp. Biochem. Physiol. C Comp. Pharmacol.95(1): 15-18|1990|10.1016/0742-8413(90)90075-K
3158|A||Kirby,G.M., J.R. Bend, I.R. Smith, and M.A. Hayes|The Role of Glutathione S-Transferases in the Hepatic Metabolism of Benzo(a)pyrene in White Suckers (Catostomus commersoni) From Polluted and|Comp. Biochem. Physiol. C Comp. Pharmacol.95(1): 25-30|1990|10.1016/0742-8413(90)90077-M
3159|A||Braunbeck,T., G. Gorge, V. Storch, and R. Nagel|Hepatic Steatosis in Zebra Fish (Brachydanio rerio) Induced by Long-Term Exposure to gamma-Hexachlorocyclohexane|Ecotoxicol. Environ. Saf.19(3): 355-374|1990|10.1016/0147-6513(90)90036-5
3160|A||Martin,J.F., S.M. Plakas, J.H. Holley, and J.V. Kitzman|Pharmacokinetics and Tissue Disposition of the Off-Flavor Compound 2-Methylisoborneol in the Channel Catfish (Ictalurus punctatus)|Can. J. Fish. Aquat. Sci.47(3): 544-547|1990|10.1139/f90-061
3161|A||Plakas,S.M., R.W. Dickey, M.G. Barron, and A.M. Guarino|Tissue Distribution and Renal Excretion of Ormetoprim After Intravascular and Oral Administration in the Channel Catfish (Ictalurus punctatus)|Can. J. Fish. Aquat. Sci.47(4): 766-771|1990|10.1139/f90-088
3162|A||Perez-Coll,C.S., and J. Herkovits|Stage Dependent Susceptibility to Lead in Bufo arenarum Embryos|Environ. Pollut.63(3): 239-245|1990|10.1016/0269-7491(90)90157-8
3163|A||Burton,D.T., and D.J. Fisher|Acute Toxicity of Cadmium, Copper, Zinc, Ammonia, 3,3'-Dichlorobenzidine, 2,6-Dichloro-4-Nitroaniline, Methylene Chloride, and 2,4,6-Trichlorophenol to Juvenile Grass Shrimp and Killifish|Bull. Environ. Contam. Toxicol.44(5): 776-783|1990|10.1007/BF01701802
3164|A||Maage,A.|Comparison of Cadmium Concentrations in Atlantic Salmon (Salmo salar) Fry fed Different Commercial Feeds|Bull. Environ. Contam. Toxicol.44(5): 770-775|1990|10.1007/BF01701801
3165|T||Waddell,D.C., and M.L. Kraus|Effects of CuCl2 on the Germination Response of Two Populations of the Saltmarsh Cordgrass, Spartina alterniflora|Bull. Environ. Contam. Toxicol.44(5): 764-769|1990|10.1007/BF01701800
3166|A||Hall,R.J.|Accumulation, Metabolism and Toxicity of Parathion in Tadpoles|Bull. Environ. Contam. Toxicol.44(4): 629-635|1990|10.1007/BF01700887
3167|A||Ariyoshi,T., S. Shiiba, H. Hasegawa, and K. Arizono|Profile of Metal-Binding Proteins and Heme Oxygenase in Red Carp Treated With Heavy Metals, Pesticides and Surfactants|Bull. Environ. Contam. Toxicol.44(4): 643-649|1990|10.1007/BF01700889
3168|A||Yadwad,V.B., V.L. Kallapur, and S. Basalingappa|Inhibition of Gill Na+ K+-ATPase Activity in Dragonfly Larva, Pantala flavesens, by Endosulfan|Bull. Environ. Contam. Toxicol.44(4): 585-589|1990|10.1007/BF01700880
3169|A||Ringwood,A.H.|The Relative Sensitivities of Different Life Stages of Isognomon californicum to Cadmium Toxicity|Arch. Environ. Contam. Toxicol.19(3): 338-340|1990|10.1007/BF01054975
3170|A||Howard,C.L., and C.S. Hacker|Effects of Salinity, Temperature, and Cadmium on Cadmium-Binding Protein in the Grass Shrimp, Palaemonetes pugio|Arch. Environ. Contam. Toxicol.19(3): 341-347|1990|10.1007/BF01054976
3171|A||Wicklund,A., L. Norrgren, and P. Runn|The Influence of Cadmium and Zinc on Cadmium Turnover in the Zebrafish, Brachydanio rerio|Arch. Environ. Contam. Toxicol.19(3): 348-353|1990|10.1007/BF01054977
3172|A||Koizumi,N., and Y. Sekine|Studies on the Accumulation and Transfer of Pollutants Through Food Chains. 8. Effects of Iron Contents in Himedaka (Oryzias latipes) on the Toxicity|Sagami Joshi Daigaku Kiyo52:27-33|1988|
3173|A||Clements,W.H., D.S. Cherry, and J.,Jr. Cairns|Macroinvertebrate Community Responses to Copper in Laboratory and Field Experimental Streams|Arch. Environ. Contam. Toxicol.19(3): 361-365|1990|10.1007/BF01054979
3174|A||Hamilton,S.J., and K.J. Buhl|Acute Toxicity of Boron, Molybdenum, and Selenium to Fry of Chinook Salmon and Coho Salmon|Arch. Environ. Contam. Toxicol.19(3): 366-373|1990|10.1007/BF01054980
3175|A||Little,E.E., R.D. Archeski, B.A. Flerov, and V.I. Kozlovskaya|Behavioral Indicators of Sublethal Toxicity in Rainbow Trout|Arch. Environ. Contam. Toxicol.19(3): 380-385|1990|10.1007/BF01054982
3176|A||Hatakeyama,S., Y. Sugaya, and N. Yokoyama|Population Dynamics of Three Species of Chironomids and a Mayfly (Baetis thermicus) Dominant in the Mazawa River Highly Polluted with Heavy Metals|Res.Rep.Natl.Inst.Environ.Stud.(Kokuritsu Kogai Kenkyusho Kenkyu Hokoku)114:177-191|1988|
3177|A||Braunbeck,T., V. Storch, and H. Bresch|Species-Specific Reaction of Liver Ultrastructure in Zebrafish (Brachydanio rerio) and Trout (Salmo gairdneri) After Prolonged Exposure to 4-Chloroaniline|Arch. Environ. Contam. Toxicol.19(3): 405-418|1990|10.1007/BF01054986
3178|A||Bresch,H., H. Beck, D. Ehlermann, H. Schlaszus, and M. Urbanek|A Long-Term Toxicity Test Comprising Reproduction and Growth of Zebrafish with 4-Chloroaniline|Arch. Environ. Contam. Toxicol.19(3): 419-427|1990|10.1007/BF01054987
3179|A||Stehly,G.R., and W.L. Hayton|Effect of pH on the Accumulation Kinetics of Pentachlorophenol in Goldfish|Arch. Environ. Contam. Toxicol.19(3): 464-470|1990|10.1007/BF01054993
3181|A||Nichols,J.W., and L.J. Weber|Oxidation of Cardiac Myoglobin In Vivo by Sodium Nitrite or Hydroxylamine|Arch. Toxicol.63:484-488|1989|10.1007/BF00316453
3182|A||Leino,R.L., J.H. McCormick, and K.M. Jensen|Multiple Effects of Acid and Aluminum on Brood Stock and Progeny of Fathead Minnows, with Emphasis on Histopathology|Can. J. Zool.68:234-244|1990|10.1139/z90-035
3183|A||Walter,P., D. Allemand, G. De Renzis, and P. Payan|Mediating Effect of Calcium in HgCl2 Cytotoxicity in Sea Urchin Egg: Role of Mitochondria in Ca2+-Mediated Cell Death|Biochim. Biophys. Acta1012(3): 219-226|1989|10.1016/0167-4889(89)90100-6
3184|A||Zaccone,G., S. Fasulo, P. Lo Cascio, L. Ainis, M.B. Ricca, and A. Licata|Effects of Chronic Exposure to Endosulfan on Complex Carbohydrates and Enzyme Activities in Gill and Epidermal Tissues of the Freshwater Catfish|Eur. Arch. Biol.100(2): 171-185|1989|
3185|A||Samuel,M., and K.V. Sastry|In Vivo Effect of Monocrotophos on the Carbohydrate Metabolism of the Freshwater Snake Head Fish, Channa punctatus|Pestic. Biochem. Physiol.34(1): 1-8|1989|10.1016/0048-3575(89)90134-X
3186|A||Parina,O.V., and R.D. Ozrina|Evaluation of the Toxic Effect of Organotin Compounds in Carp as Related to Their Accumulation and Excretion|Hydrobiol. J.25(1): 72-77|1989|
3187|A||Singhal,R.N., H.B. Sarnat, and R.W. Davies|Unimpaired RNA Synthesis in Neurons and Epithelial Cells in a Freshwater Leech Exposed to the Organophosphate Insecticide Chlorpyrifos|Sci. Total Environ.83(1-2): 195-202|1989|10.1016/0048-9697(89)90016-8
3188|A||Taylor,D.H., C.W. Steele, and S. Strickler-Shaw|Responses of Green Frog (Rana clamitans) Tadpoles to Lead-Polluted Water|Environ. Toxicol. Chem.9(1): 87-93|1990|
3189|A||Strickler-Shaw,S., and D.H. Taylor|Sublethal Exposure of Lead Inhibits Acquisition and Retention of Discriminate Avoidance Learning in Green Frog (Rana clamitans) Tadpoles|Environ. Toxicol. Chem.9(1): 47-52|1990|10.1002/etc.5620090107
3190|A||Diamond,J.M., M.J. Parson, and D. Gruber|Rapid Detection of Sublethal Toxicity Using Fish Ventilatory Behavior|Environ. Toxicol. Chem.9(1): 3-11|1990|10.1002/etc.5620090102
3191|A||Burris,J.A., M.S. Bamford, and A.J. Stewart|Behavioral Responses of Marked Snails as Indicators of Water Quality|Environ. Toxicol. Chem.9(1): 69-76|1990|10.1002/etc.5620090109
3192|A||Goodrich,M.S., and J.J. Lech|A Behavioral Screening Assay for Daphnia magna: A Method to Assess the Effects of Xenobiotics on Spacial Orientation|Environ. Toxicol. Chem.9(1): 21-30|1990|10.1002/etc.5620090104
3193|A||Cossarini-Dunier,M., A. Demael, and A.K. Siwicki|In Vivo Effect of the Organophosphorus Insecticide Trichlorphon on the Immune Response of Carp (Cyprinus carpio) I. Effect of Contamination on Antibody Production in Relation to Residue Level in Organs|Ecotoxicol. Environ. Saf.19(1): 93-98|1990|10.1016/0147-6513(90)90083-H
3194|A||Siwicki,A.K., M. Cossarini-Dunier, M. Studnicka, and A. Demael|In Vivo Effect of the Organophosphorus Insecticide Trichlorphon on Immune Response of Carp (Cyprinus carpio) II. Effect of high Doses of Trichlorphon|Ecotoxicol. Environ. Saf.19(1): 99-105|1990|10.1016/0147-6513(90)90084-I
3195|A||Cuffney,T.F., and J.B. Wallace|Discharge-Export Relationships in Headwater Streams: The Influence of Invertebrate Manipulations and Drought|J. North Am. Benthol. Soc.8(4): 331-341|1989|10.2307/1467496
3196|A||Radhaiah,V., and K.J. Rao|Toxicity of the Pyrethroid Insecticide Fenvalerate to a Fresh Water Fish, Tilapia mossambica (Peters):  Changes in Glycogen Metabolism of Muscle|Ecotoxicol. Environ. Saf.19(1): 116-121|1990|10.1016/0147-6513(90)90086-K
3197|A||Ozoh,P.T.E., and N.V. Jones|The Effects of Salinity and Temperature on the Toxicity of Copper to 1-Day and 7-Day-Old Larvae of Hediste (Nereis) diversicolor (O.F.Muller)|Ecotoxicol. Environ. Saf.19(1): 24-32|1990|10.1016/0147-6513(90)90075-G
3198|A||Birkholz,D.A., R.T. Coutts, S.E. Hrudey, R.W. Danell, and W.L. Lockhart|Aquatic Toxicology of Alkyl-Quinolines|Water Res.24(1): 67-73|1990|10.1016/0043-1354(90)90066-F
3199|A||Bushong,S.J., M.C. Ziegenfuss, M.A. Unger, and L.W.,Jr. Hall|Chronic Tributyltin Toxicity Experiments With the Chesapeake Bay Copepod, Acartia tonsa|Environ. Toxicol. Chem.9(3): 359-366|1990|10.1002/etc.5620090311
3200|A||Lindsay,D.M., and J.G. Sanders|Arsenic Uptake and Transfer in a Simplified Estuarine Food Chain|Environ. Toxicol. Chem.9(3): 391-395|1990|10.1002/etc.5620090314
3201|A||Hamilton,S.J., K.J. Buhl, N.L. Faerber, R.H. Wiedmeyer, and F.A. Bullard|Toxicity of Organic Selenium in the Diet to Chinook Salmon|Environ. Toxicol. Chem.9(3): 347-358|1990|10.1002/etc.5620090310
3202|A||Shugart,L.R.|5-Methyl Deoxycytidine Content of DNA From Bluegill Sunfish (Lepomis macrochirus) Exposed to Benzo(a)pyrene|Environ. Toxicol. Chem.9(2): 205-208|1990|
3203|A||Daramola,J.A., and A.A. Oladimeji|Accumulation of Copper in Clarias anguillaris L. and Oreochromis niloticus L.|Water Air Soil Pollut.48(3-4): 457-461|1989|10.1007/BF00283343
3205|A||Asztalos,B., J. Nemcsok, I. Benedeczky, R. Gabriel, A. Szabo, and O.J. Refaie|The Effects of Pesticides on Some Biochemical Parameters of Carp (Cyprinus carpio L.)|Arch. Environ. Contam. Toxicol.19(2): 275-282|1990|10.1007/BF01056097
3206|A||Pinkney,A.E., L.L. Matteson, and D.A. Wright|Effects of Tributyltin on Survival, Growth, Morphometry, and RNA-DNA Ratio of Larval Striped Bass, Morone saxatilis|Arch. Environ. Contam. Toxicol.19(2): 235-240|1990|10.1007/BF01056092
3207|A||Cairns,J.,Jr., B.R. Niederlehner, and J.R. Pratt|Evaluation of Joint Toxicity of Chlorine and Ammonia to Aquatic Communities|Aquat. Toxicol.16(2): 87-100|1990|10.1016/0166-445X(90)90079-5
3208|A||Rainbow,P.S., and S.L. White|Comparative Accumulation of Cobalt by Three Crustaceans: A Decapod, an Amphipod and a Barnacle|Aquat. Toxicol.16(2): 113-126|1990|10.1016/0166-445X(90)90081-Y
3210|A||Nakagawa,H., and S. Ishio|Aspects of Accumulation of Copper, Manganese and Zinc Ions in the Egg of Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)55(1): 117-121|1989|10.2331/suisan.55.117
3211|A||Nakagawa,H., and S. Ishio|Aspects of Accumulation of Cadmium Ion in the Egg of Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)54(12): 2159-2164|1988|10.2331/suisan.54.2159
3212|A||Nakagawa,H., and S. Ishio|Effects of Water pH on the Toxicity and Accumulation of Cadmium in Eggs and Larvae of Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)55(2): 327-331|1989|10.2331/suisan.55.327
3213|A||Nakagawa,H., and S. Ishio|Effects of Water Hardness on the Toxicity and Accumulation of Cadmium in Eggs and Larvae of Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)55(2): 321-326|1989|10.2331/suisan.55.321
3214|A||Langston,W.J., and G.R. Burt|Bioavailability and Effects of Sediment-Bound TBT in Deposit-Feeding Clams, Scrobicularia plana|Mar. Environ. Res.32(1-4): 61-77|1991|10.1016/0141-1136(91)90034-6
3215|A||Ikuta,K.|Localization of Heavy Metals in the Viscera and the Muscular Tissues of Haliotis discus Exposed to Selected Metal Concentration Gradients|Nippon Suisan Gakkaishi (Multiple Languages)53(12): 2269-2274|1987|10.2331/suisan.53.2269
3216|A||Kobayashi,K., Y. Oshima, S. Hamada, and C. Taguchi|Induction of Phenol-Sulfate Conjugating Activity by Exposure to Phenols and Duration of Its Induced Activity in Short-Necked Clam|Nippon Suisan Gakkaishi (Multiple Languages)53(11): 2073-2076|1987|10.2331/suisan.53.2073
3217|A|MED05|Geiger,D.L., L.T. Brooke, and D.J. Call|Acute Toxicities of Organic Chemicals to Fathead Minnows (Pimephales promelas), Volume V|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:332 p.|1990|
3218|A||Radhaiah,V., and S.V.K. Reddy|Toxic Impact of Fenvalerate on Superoxide Dismutase and Catalase Activity Levels in Liver, Muscle and Gill Tissues of a Freshwater Fish, Tilapia|Biochem. Int.18(3): 655-660|1989|
3219|AT||Chen,Z.Y., C.Y. Mi, D.C. Ye, and B. Chen|Effects of 35S-Dimehypo Pesticide on the Agricultural Environment and Ecosystem|In: Pesticides Food and Environmental Implications, Proc.Int.Symp.Changing Perspectives in Agrochemicals, International Atomic Energy Agency, Vienna, Austria:89-99|1988|
3220|A||Den Besten,P.J., H.J. Herwig, D.I. Zandee, and P.A. Voogt|Cadmium Accumulation and Metallothionein-Like Proteins in the Sea Star Asterias rubens|Mar. Environ. Res.28(1-4): 163-166|1989|10.1016/0141-1136(89)90217-1
3221|A||Hale,R.C.|Accumulation and Biotransformation of an Organophosphorus Pesticide in Fish and Bivalves|Mar. Environ. Res.28(1-4): 67-71|1989|10.1016/0141-1136(89)90186-4
3222|A||Cui,K., Y. Liu, and L. Hou|Effects of Six Heavy Metals on Hatching Eggs and Survival of Larval of Marine Fish|Haiyang Yu Huzhao (Non-English)18(2): 138-144|1987|
3223|A||Wlasow,T., and H. Dabrowska|Cellular Changes in the Blood and Haemopoietic Tissues of Common Carp Exposed to Sublethal Concentration of Ammonia|Aquat. Living Resour.2(3): 169-174|1989|10.1051/alr:1989020
3225|A||Bano,Y., and M. Hasan|Histopathological Lesions in the Body Organs of Cat-Fish (Heteropneustes fossilis) Following Mercury intoxication|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(1): 67-85|1990|
3226|A||Byrne,P., D. Speare, and H.W. Ferguson|Effects of a Cationic Detergent on the Gills and Blood Chemistry of Rainbow Trout Salmo gairdneri|Dis. Aquat. Org.6(3): 185-196|1989|10.3354/dao006185
3228|A||Ogawa,M., and H. Kitamura|Biological Assay of Plant Growth-Regulating Compounds Using Lemnaceae Plants|Annu.Rep.Sankyo Res.Lab.(Sankyo Kenkyusho Nempo)40:91-99|1988|
3231|A||Herzberg,A.M.|Toxicity and Accumulation of Permethrin in the Tilapia Oreochromis aureus|Isr. J. Aquacult. Bamidgeh40(1): 35-39|1988|
3232|A||Wu,Z., and G. Chen|Studies of Acute intoxication by Some Harmful Substances on Penaeus orientalis K.|Mar. Sci.4:36-40|1988|
3234|A||Yang,T., and F. Zhang|Acute Toxicity of 7 Pesticides on 2 Species of Common Leeches|China Environ. Sci.9(1): 51-55|1989|
3235|A||Sarkar,S.K.|Influence of Ammonium Sulphate on the Feeding Rate of Fish Under Multivariate Temperature|Comp. Physiol. Ecol.13(1): 30-33|1988|
3236|A||Radhakrishaiah,K., and B. Renukadevi|Effect of Pesticides on Succinate and Lactate Dehydrogenase Activities in the Freshwater Field Crab, Oziotelphusa senex senex (Fabricius)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.55(5-6): 339-344|1989|
3237|A||Van Wijngaarden,R., and P. Leeuwangh|Relation Between Toxicity in Laboratory and Pond: An Ecotoxicological Study with Chlorpyrifos|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)54(3b): 1061-1069|1989|
3238|A||Schell,J.D.J., and M.O. James|Glucose and Sulfate Conjugation of Phenolic Compounds by the Spiny Lobster (Panulirus argus)|J. Biochem. Toxicol.4(2): 133-138|1989|10.1002/jbt.2570040210
3239|A||Cowgill,U.M., D.P. Milazzo, and B.D. Landenberger|The Reproducibility of the Three Brood Ceriodaphnia Test Using the Reference Toxicant Sodium Lauryl Sulfate|Arch. Environ. Contam. Toxicol.19(4): 513-517|1990|10.1007/BF01059069
3240|A||Lakshmanan,P.T., and P.N.K. Nambisan|Bioaccumulation and Depuration of Some Trace Metals in the Mussel, Perna viridis (Linnaeus)|Bull. Environ. Contam. Toxicol.43(1): 131-138|1989|10.1007/BF01702249
3241|A||Dela Cruz,C.R., and A.G. Cagauan|Preliminary Study on the Bioassay of Seven Pesticides and Five Weedicides with Tilapia, Carps, Clam and Shrimp as Test Species|Fish. Res. J. Philipp.6(1): 11-18|1981|
3242|A||Kessler,C.T.|Effect of Juglone on Freshwater Algal Growth|J. Chem. Ecol.15(7): 2127-2134|1989|10.1007/BF01207443
3244|A||Virk,S., K. Kaur, and S. Kaur|Histopathological and Biochemical Changes Induced by Endrin and Carbaryl in the Stomach, Intestine and Liver of Mystus tengara|Indian J. Ecol.14(1): 14-20|1987|
3245|A||Khillare,Y.K., and S.B. Wagh|"Toxicity of an Organochlorine Insecticide ""Lindene"" to Fresh Water Fish Barbus stigma"|J. Adv. Zool.9(2): 83-86|1988|
3246|A||Swift,D.J.|Changes in Selected Blood Component Values of Rainbow Trout, Salmo gairdneri Richardson, Following the Blocking of the Cortisol Stress Response with Betamethasone and Subsequent Exposure to Phenol or Hypoxia|J. Fish Biol.21(1-3): 269-277|1982|10.1111/j.1095-8649.1982.tb02832.x
3247|A||Bhunia,A.K., D. Roy, N.K. Basu, A. Chakrabarti, and S.K. Banerjee|Response of Enzymes Involved in the Processes of Antioxidation Towards Benthiocarb and Methylparathion in Cyanobacteria Nostoc muscorum|Bull. Environ. Contam. Toxicol.47(2): 266-271|1991|10.1007/BF01688650
3248|A||Suzuki,K.T., and S. Hatakeyama|Tolerance Mechanism of the Fish to Environmental Cadmium|Kokuritsu Kogai Kenkyusho Kenkyu Hokoku (Rep. Spec. Res. Natl. Inst. Environ. Stud. Jpn.)114:245-256|1988|
3249|A||Maren,T.H., R. Embry, and L.E. Broder|The Excretion of Drugs Across the Gill of the Dogfish, Squalus acanthias|Comp. Biochem. Physiol.26:853-864|1968|10.1016/0010-406X(68)90005-4
3250|A||Salmeron-Flores,P., E. Melendez-Camargo, and L. Martinez-Tabche|Hepatotoxic and Nephrotoxic Effects of Lead on the Tilapia (Sarotherodon aureus)|An. Esc. Nac. Cienc. Biol.33:147-156|1990|
3251|A||Kulkarni,B.G.|ATPase Activity in the Tissues and Blood of the Crab Scylla serrata (Forskal) Exposed to Malathion|Natl. Acad. Sci. Lett.11(6): 197-199|1988|
3252|A||Srivastava,A.K.|Chlordane Induced Changes in Carbohydrate Metabolism of the Indian Catfish Heteropneustes fossilis (Bloch)|Bull. Inst. Zool. Acad. Sin. (Taipei)27(4): 211-215|1988|
3253|A||Misra,V., V. Kumar, S.D. Pandey, and P.N. Viswanathan|Carbohydrate Metabolism Changes in Fish Fingerlings and Yearlings Exposed to Linear Alkyl Benzene Sulphonate|Water Air Soil Pollut.50(3/4): 233-239|1990|10.1007/BF00280625
3254|A||Berthet,B., C. Amiard-Triquet, and R. Martoja|Chemical and Histological Effects of Depuration in Crassostrea gigas Thunberg Exposed Previously to Silver|Water Air Soil Pollut.50(3-4): 355-369|1990|10.1007/BF00280635
3255|A||Garnier,J., and J.P. Baudin|Retention of Ingested Ag110m by a Freshwater Fish, Salmo trutta L|Water Air Soil Pollut.50(3-4): 409-421|1990|10.1007/BF00280639
3256|A||Stauber,J.L., and T.M. Florence|Mechanism of Toxicity of Zinc to the Marine Diatom Nitzschia closterium|Mar. Biol.105(3): 519-524|1990|10.1007/BF01316323
3257|A||Saksena,D.N.|Effect of Cadmium Chloride on the Ovarian Activity in Fresh Water Catfish Clarias batrachus (Linn.)|Uttar Pradesh J. Zool.6(1): 108-114|1986|
3258|A||Ghosh,T.K.|Comparative Toxicogenic Evaluation of Two Commonly Used Pesticides, Ekalux (EC 25) and Rogor (Dimethoate) on the Ovarian Recrudescence in a Teleost|Uttar Pradesh J. Zool.6(2): 224-232|1986|
3259|A||Kumari,K., and V. Banerjee|Effect of Sublethal Toxicity of Zinc, Mercury and Cadmium on Peripheral Haemogram in Anabas testudineus (Bloch)|Uttar Pradesh J. Zool.6(2): 241-250|1986|
3260|A||Riviere,J.L., A. Devaux, O. Gonin, and G. Monod|Effect of beta-Naphthoflavone and MCPA on Liver and Kidney Drug-Metabolizing Enzymes from the Carp, Cyprinus carpio|Ecotoxicol. Environ. Saf.19(3): 276-284|1990|10.1016/0147-6513(90)90029-5
3261|A||Franks,N.P., and W.R. Lieb|Mechanisms of General Anaesthesia|Environ. Health Perspect.87:199-205|1990|10.1289/ehp.9087199
3262|A||Schultz,T.W., L.M. Arnold, T.S. Wilke, and M.P. Moulton|Relationships of Quantitative Structure-Activity for Normal Aliphatic Alcohols|Ecotoxicol. Environ. Saf.19(3): 243-253|1990|10.1016/0147-6513(90)90026-2
3264|A||Srivastava,A., and V.S. Jaiswal|Biochemical Changes in Duck Weed After Cadmium Treatment. Enhancement in Senescence|Water Air Soil Pollut.50(1-2): 163-170|1989|
3265|A||Wren,M.J., and D. McCarroll|A Simple and Sensitive Bioassay for the Detection of Toxic Materials Using a Unicellular Green Alga|Environ. Pollut.64(1): 87-91|1990|10.1016/0269-7491(90)90097-V
3267|A||Ekelund,R., A. Bergman, A. Granmo, and M. Berggren|Bioaccumulation of 4-Nonylphenol in Marine Animals - A Re-Evaluation|Environ. Pollut.64(2): 107-120|1990|10.1016/0269-7491(90)90108-O
3268|A||Ringwood,A.H.|Accumulation of Cadmium by Larvae and Adults of an Hawaiian Bivalve, Isognomon californicum, During Chronic Exposure|Mar. Biol.102(4): 499-504|1989|10.1007/BF00438351
3269|A||Gobas,F.A.P.C., and S.M. Schrap|Bioaccumulation of Some Polychlorinated Dibenzo-p-Dioxins and Octachlorodibenzofuran in the Guppy (Poecilia reticulata)|Chemosphere20(5): 495-512|1990|10.1016/0045-6535(90)90107-5
3270|A||Oikari,A., and J. Kukkonen|Bioavailability of Benzo(a)pyrene and Dehydroabietic Acid from a Few Lake Waters Containing Varying Dissolved Organic Carbon Concentrations to Daphnia|Bull. Environ. Contam. Toxicol.45(1): 54-61|1990|10.1007/BF01701828
3271|A||Wayland,M., and D.A. Boag|Toxicity of Carbofuran to Selected Macroinvertebrates in Prairie Ponds|Bull. Environ. Contam. Toxicol.45(1): 74-81|1990|10.1007/BF01701831
3272|A||Kirubagaran,R., and K.P. Joy|Changes in Brain Monoamine Levels and Monoamine Oxidase Activity in the Catfish, Clarias batrachus, During Chronic Treatments with Mercurials|Bull. Environ. Contam. Toxicol.45(1): 88-93|1990|10.1007/BF01701833
3273|A||Naqvi,S.M., C.T. Flagge, and R.L. Hawkins|Arsenic Uptake and Depuration by Red Crayfish, Procambarus clarkii, Exposed to Various Concentrations of Monosodium Methanearsonate (MSMA) Herbicide|Bull. Environ. Contam. Toxicol.45(1): 94-100|1990|10.1007/BF01701834
3274|A||Naqvi,S.M., and C.T. Flagge|Chronic Effects of Arsenic on American Red Crayfish, Procambarus clarkii, Exposed to Monosodium Metharnearsonate (MSMA) Herbicide|Bull. Environ. Contam. Toxicol.45(1): 101-106|1990|10.1007/BF01701835
3275|A||Shanmukhappa,H., and K. Neelakantan|Influence of Humic Acid on the Toxicity of Copper, Cadmium and Lead to the Unicellular Alga, Synechosystis aquatilis|Bull. Environ. Contam. Toxicol.44(6): 840-843|1990|10.1007/BF01702172
3276|A||Khangarot,B.S., and P.K. Ray|Acute Toxicity and Toxic Interaction of Chromium and Nickel to Common Guppy Poecilia reticulata (Peters)|Bull. Environ. Contam. Toxicol.44(6): 832-839|1990|10.1007/BF01702171
3277|A||Doucet,C.M., and E.J. Maly|Effect of Copper on the Interaction Between the Predator Didinium nasutum and Its Prey Paramecium caudatum|Can. J. Fish. Aquat. Sci.47(6): 1122-1127|1990|10.1139/f90-130
3278|A||Lohner,T.W., and S.W. Fisher|Effects of pH and Temperature on the Acute Toxicity and Uptake of Carbaryl in the Midge, Chironomus riparius|Aquat. Toxicol.16(4): 335-353|1990|10.1016/0166-445X(90)90045-Q
3279|A||Van Leeuwen,C.J., D.M.M. Adema, and J. Hermens|Quantitative Structure-Activity Relationships for Fish Early Life Stage Toxicity|Aquat. Toxicol.16(4): 321-334|1990|10.1016/0166-445X(90)90044-P
3280|A||Bay,S.M., D.J. Greenstein, P. Szalay, and D.A. Brown|Exposure of Scorpionfish (Scorpaena guttata) to Cadmium: Biochemical Effects of Chronic Exposure|Aquat. Toxicol.16(4): 311-320|1990|10.1016/0166-445X(90)90043-O
3281|A||Brown,D.A., S.M. Bay, and G.P. Hershelman|Exposure of Scorpionfish (Scorpaena guttata) to Cadmium: Effects of Acute and Chronic Exposures on the Cytosolic Distribution of Cadmium, Copper and Zinc|Aquat. Toxicol.16(4): 295-310|1990|10.1016/0166-445X(90)90042-N
3282|A||Fu,H., O.M. Steinebach, C.J.A. Van den Hamer, P.H.M. Balm, and R.A.C. Lock|Involvement of Cortisol and Metallothionein-Like Proteins in the Physiological Responses of Tilapia (Oreochromis mossambicus) to Sublethal Cadmium Stress|Aquat. Toxicol.16(4): 257-270|1990|10.1016/0166-445X(90)90040-V
3283|A||Smith,S.B., J.F. Savino, and M.A. Blouin|Acute Toxicity to Daphnia pulex of Six Classes of Chemical Compounds Potentially Hazardous to Great Lakes Aquatic Biota|J. Great Lakes Res.14(4): 394-404|1988|10.1016/S0380-1330(88)71572-5
3284|A||Uchida,N., K. Kojima, K. Tanaka, H. Anzai, and E. Nishide|Comparison of the Initial Metabolic Pathway of p,p'-DDT in Several Freshwater Fishes|Nippon Suisan Gakkaishi (Multiple Languages)55(7): 1277-1281|1989|10.2331/suisan.55.1277
3285|A||Vig,E., and J. Nemcsok|The Effects of Hypoxia and Paraquat on the Superoxide Dismutase Activity in Different Organs of Carp, Cyprinus carpio L|J. Fish Biol.35(1): 23-25|1989|10.1111/j.1095-8649.1989.tb03389.x
3286|A||Hartwell,S.I., J.H. Jin, D.S. Cherry, and J.,Jr. Cairns|Toxicity Versus Avoidance Response of Golden Shiner, Notemigonus crysoleucas, to Five Metals|J. Fish Biol.35(3): 447-456|1989|10.1111/j.1095-8649.1989.tb02995.x
3287|A||Rajeswari,K., S.J. Reddy, D.C. Reddy, and R. Ramamurthi|Effect of Dichlorvos on Certain Blood Parameters of the Fish Clarias batrachus|Environ. Ecol.7(4): 933-934|1989|
3288|A||Kobbia,I.A., A.E. Dowidar, E.F. Shabana, and S.A. El-Attar|Studies on the Effects of Some Heavy Metals on the Biological Activities of Some Phytoplankton Species I.  Differential Tolerance of Some Nile Phytoplanktonic Populations in Cultures to the Effects of Some Heavy Metals|Egypt. J. Physiol. Sci.13(1/2): 29-54|1986|
3289|A||Reddy,M.S., and K.V.R. Rao|Effect of Sublethal Concentrations of Phosphamidon and Methylparathion on Nitrogen Metabolism of Prawn, Penaeus indicus (H. Milne Edwards)|Natl. Acad. Sci. Lett.11(7): 233-236|1988|
3290|A||Al Akel,A.S., and M.J.K. Shamsi|Oreochromis niloticus (Cichlidae: Perciformes): Behavioural Responses Imputed by the Contamination of Water with HgCl2 and ZnSO4|J. Biol. Sci. Res.19(suppl.): 949-956|1989|
3291|A||Le Dean,L., and J. Devineau|In Search of Standardisation:  A Comparison of Toxicity Bioassays on Two Marine Crustaceans (Paleomon serratus and Tigriopus brevicornis)|Rev. Trav. Inst. Peches Marit. (Non-English)49(3-4): 187-198|1985|
3292|A||Carpenter,H.M., Q. Zhang, C. El Zahr, D.P. Selivonchick, D.E. Brock, and L.R. Curtis|In Vitro and In Vivo Temperature Modulation of Hepatic Metabolism and DNA Adduction of Aflatoxin B1 in Rainbow Trout|J. Biochem. Toxicol.10(1): 1-10|1995|
3293|AT||Hinz,R., and F. Matsumura|Comparative Metabolism of PCB Isomers by Three Species of Fish and the Rat|Bull. Environ. Contam. Toxicol.18(5): 631-639|1977|10.1007/BF01684011
3294|A||Jindal,R., and A. Verma|Copper Toxicity to Plankton|Pollut. Res.8(3): 123-128|1989|
3295|A||Melancon,M.J.,Jr., and J.J. Lech|Isolation and Identification of a Polar Metabolite of Tetrachlorobiphenyl from Bile of Rainbow Trout Exposed to 14C-Tetrachlorobiphenyl|Bull. Environ. Contam. Toxicol.15(2): 181-188|1976|10.1007/BF01685158
3296|A||Liong,P.C., W.P. Hamzah, and V. Murugan|Toxicity of Some Pesticides Towards Freshwater Fishes|Fish.Bull.Dep.Fish.(Malays.) No.57:13 p.|1988|
3297|A||Liong,P.C., and K. Rajendran|On the Toxicity of Ammonia to Cockle|On the Toxicity of Ammonia to Cockle, Fish.Bull. Dep. Fish. (Kuala Lumpur, Malays.) No.46:7 p.|1986|
3298|A||Cajaraville,M.P., J.A. Marigomez, and E. Angulo|Ultrastructural Study of the Short-Term Toxic Effects of Naphthalene on the Kidney of the Marine Prosobranch Littorina littorea|J. Invertebr. Pathol.55(2): 215-224|1990|10.1016/0022-2011(90)90057-D
3300|A||Van der Weiden,M.E.J., J. Van der Kolk, A.H. Penninks, W. Seinen, and M. Van den Berg|A Dose/Response Study with 2,3,7,8-TCDD in the Rainbow Trout (Onchorhynchus mykiss)|Chemosphere20(7-9): 1053-1058|1990|10.1016/0045-6535(90)90220-N
3302|A||Shivaram,S., and K.S. Shetty|Studies on the Effect of Pesticides on the Growth and Nitrogen Fixation by Blue-Green Algae|Mysore J. Agric. Sci.21:222-225|1988|
3304|A||Swift,D.J., and R.J. Pentreath|The Accumulation of Plutonium by the Edible Winkle (Littorina littorea L.)|J. Environ. Radioact.7(1): 29-48|1988|10.1016/0265-931X(88)90040-9
3305|A||Zitko,V.|Uptake of Chlorinated Paraffins and PCB from Suspended Solids and Food by Juvenile Atlantic Salmon|Bull. Environ. Contam. Toxicol.12(4): 406-412|1974|10.1007/BF01684974
3306|A||Lin,Y.|The Effect of DDT and BHC on the Amino Acids Content of Chlorella vulgaris Beij|Chin. J. Oceanol. Limnol.18(2): 145-150|1987|
3307|A||Mohan,C.V., T.R.C. Gupta, and N.R. Menon|Acute Toxicity of Mercury on the Early Developmental Stages of Cirrhina mrigala (Ham.)|Indian J. Fish.33(1): 133-136|1986|
3308|A||Srivastava,A.K., and J. Mishra|Heptachlor Induced Haematological and Biochemical Changes in the Indian Catfish (Heteropneustes fossilis (Bloch.)|Acta Hydrobiol.29(4): 489-495|1987|
3309|A||Takimura,O., H. Fuse, and Y. Yamaoka|Effect of Various Environmental Factors on Arsenic Accumulation in Dunaliella sp|Nihon Kagakkai Shi4:740-743|1989|
3310|A||Jeelani,S.|Zinc Sulphate Intoxication on Visceral Glucose-6-Phosphatase of Three Teleosts|Indian J. Environ. Health31(2): 137-140|1989|
3311|A||Hameed,P.S., and A.I.M. Raj|Effects of Copper, Cadmium and Mercury on Crystalline Style of the Freshwater Mussel Lamellidens marginalis (Lamarck)|Indian J. Environ. Health31(2): 131-136|1989|
3312|A||Shrivastava,S., K.S. Rao, S. Dhanekar, and S.S. Pandya|Determination of Acute Mercury Toxicity to Developing Stages of Cyprinus carpio and Cirrhinus mrigala|Fish. Technol.25(1): 29-31|1988|
3313|A||Subburaju,S., and V.R. Selvarajan|Chlorpyrifos Induced Changes in the Metabolites of the Brain of the Edible Fish Tilapia mossambica (Peters)|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere93(3): 389-395|1989|
3315|A||Unsal,M.|Evaluation of the Synergistic Effect of Selenium on the Acute Toxicity of Mercury in Fish Larvae|Rev. Int. Oceanogr. Med. (Multiple Languages)87-88:125-135|1987|
3317|A||Lukyanova,O.N., and Z.S. Evtushenko|Binding of Zinc and Cadmium with Cytoplasmic Proteins in the Organs of the Japanese Scallop at the Increased Concentration of Zinc in Seawater|Biol. Morya (Vladivost.) (Multiple Languages)5:18-24|1989|
3318|A||Carlson,A.R., and T.H. Roush|Site-Specific Water Quality Studies of the Straight River, Minnesota: Complex Effluent Toxicity, Zinc Toxicity, and Biological Survey Relationships|EPA/600/3-85/005, U.S.EPA, Duluth, MN:60 p.|1985|
3319|A||Nyholm,N.|Expression of Results from Growth Inhibition Toxicity Tests with Algae|Arch. Environ. Contam. Toxicol.19(4): 518-522|1990|10.1007/BF01059070
3320|A||Tortorelli,M.C., D.A. Hernandez, G.R. Vazquez, and A. Salibian|Effects of Paraquat on Mortality and Cardiorespiratory Function of Catfish Fry Plecostomus commersoni|Arch. Environ. Contam. Toxicol.19(4): 523-529|1990|10.1007/BF01059071
3321|A||Borgmann,U., W.P. Norwood, and K.M. Ralph|Chronic Toxicity and Bioaccumulation of 2,5,2',5'- and 3,4,3',4'-Tetrachlorobiphenyl and Aroclor 1242 in the Amphipod Hyalella azteca|Arch. Environ. Contam. Toxicol.19(4): 558-564|1990|10.1007/BF01059075
3322|A||Francesconi,K.A.|Distribution of Cadmium in the Pearl Oyster, Pinctada albina albina (Lamarck), Following Exposure to Cadmium in Seawater|Bull. Environ. Contam. Toxicol.43(2): 321-328|1989|10.1007/BF01701765
3323|A||Wilbrink,M., M. Treskes, T.A. De Vlieger, and N.P.E. Vermeulen|Comparative Toxicokinetics of 2,2'- and 4,4'-Dichlorobiphenyls in the Pond Snail Lymnaea stagnalis (L.)|Arch. Environ. Contam. Toxicol.19(4): 565-571|1990|10.1007/BF01059076
3324|A||Johansen,J.A., and G.H. Geen|Sublethal and Acute Toxicity of the Ethylene Glycol Butyl Ether Ester Formulation of Triclopyr to Juvenile Coho Salmon (Oncorhynchus kisutch)|Arch. Environ. Contam. Toxicol.19(4): 610-616|1990|10.1007/BF01059083
3325|A||Jurgensen,T.A., and K.D. Hoagland|Effects of Short-Term Pulses of Atrazine on Attached Algal Communities in a Small Stream|Arch. Environ. Contam. Toxicol.19(4): 617-623|1990|10.1007/BF01059084
3326|A||Rai,L.C., T.E. Jensen, and J.W. Rachlin|A Morphometric and X-Ray Energy Dispersive Approach to Monitoring pH-Altered Cadmium Toxicity in Anabaena flos-aquae|Arch. Environ. Contam. Toxicol.19(4): 479-487|1990|10.1007/BF01059065
3327|A||Kiffney,P., and A. Knight|The Toxicity and Bioaccumulation of Selenate, Selenite and Seleno-L-Methionine in the Cyanobacterium Anabaena flos-aquae|Arch. Environ. Contam. Toxicol.19(4): 488-494|1990|10.1007/BF01059066
3328|A||Shaw,B.P., A. Sahu, and A.K. Panigrahi|Comparative Toxicity of an Effluent from a Chlor-Alkali Industry and HgCl2|Bull. Environ. Contam. Toxicol.45(2): 280-287|1990|10.1007/BF01700196
3329|A||Pundir,R., and A.B. Saxena|Seasonal Changes in the Testes of Fish Puntius ticto, and Their Relation to Heavy Metal Toxicity|Bull. Environ. Contam. Toxicol.45(2): 288-293|1990|10.1007/BF01700197
3330|A||Nath,K., and N. Kumar|Gonadal Histopathology Following Nickel Intoxication in the Giant Gaurami Colisa fasciatus (Bloch and Schneider), a Freshwater Tropical Perch|Bull. Environ. Contam. Toxicol.45(2): 299-304|1990|10.1007/BF01700199
3331|A||Ruparelia,S.G., Y. Verma, S.R. Saiyed, and U.M. Rawal|Effect of Cadmium on Blood of Tilapia, Oreochromis mossambicus (Peters), During Prolonged Exposure|Bull. Environ. Contam. Toxicol.45(2): 305-312|1990|10.1007/BF01700200
3333|A||Alberdi,J.L., N.O. Santamaria, and D.A. Hernandez|Effects of Deltamethrin and Ethanol on Survival, and Mechanical Response of Daphnia spinulata|Bull. Environ. Contam. Toxicol.45(2): 266-271|1990|10.1007/BF01700194
3334|A||Kreutzweiser,D.P.|Response of a Brook Trout (Salvelinus fontinalis) Population to a Reduction in Stream Benthos Following an Insecticide Treatment|Can. J. Fish. Aquat. Sci.47(7): 1387-1401|1990|10.1139/f90-158
3335|A||Thompson,P.A., and P. Couture|Aspects of Carbon Metabolism in the Recovery of Selenastrum capricornutum Populations Exposed to Cadmium|Aquat. Toxicol.17(1): 1-14|1990|10.1016/0166-445X(90)90008-D
3336|A||Enserink,L., W. Luttmer, and H. Maas-Diepeveen|Reproductive Strategy of Daphnia magna Affects the Sensitivity of Its Progeny in Acute Toxicity Tests|Aquat. Toxicol.17(1): 15-26|1990|10.1016/0166-445X(90)90009-E
3337|A||Lydy,M.J., T.W. Lohner, and S.W. Fisher|Influence of pH, Temperature and Sediment Type on the Toxicity, Accumulation and Degradation of Parathion in Aquatic Systems|Aquat. Toxicol.17(1): 27-44|1990|10.1016/0166-445X(90)90010-M
3338|A||Marty,G.D., J.M. Nunez, D.J. Lauren, and D.E. Hinton|Age-Dependent Changes in Toxicity of N-Nitroso Compounds to Japanese Medaka (Oryzias latipes) Embryos|Aquat. Toxicol.17(1): 45-62|1990|10.1016/0166-445X(90)90011-D
3339|A||Winner,R.W., H.A. Owen, and M.V. Moore|Seasonal Variability in the Sensitivity of Freshwater Lentic Communities to a Chronic Copper Stress|Aquat. Toxicol.17(1): 75-92|1990|10.1016/0166-445X(90)90013-F
3340|A||Beamish,F.W.H., and A. Tandler|Ambient Ammonia, Diet and Growth in Lake Trout|Aquat. Toxicol.17(2): 155-166|1990|10.1016/0166-445X(90)90028-N
3341|A||Fisher,D.J., and J.R. Clark|Bioaccumulation of Kepone by Grass Shrimp (Palaemonetes pugio): Importance of Dietary Accumulation and Food Ration|Aquat. Toxicol.17(2): 167-186|1990|10.1016/0166-445X(90)90029-O
3342|A||Kolupayev,Y.I.|Sensitivity of Test Functions as a Basis for Selecting Bioassays for Aquatic Toxicity|Hydrobiol. J.25(5): 52-54|1990|
3343|A||Micallef,S., and P.A. Tyler|Effect of Mercury and Selenium on the Gill Function of Mytilus edulis|Mar. Pollut. Bull.21(6): 288-292|1990|10.1016/0025-326X(90)90592-V
3344|A||Camargo,J.A.|Toxic Effects of Residual Chlorine on Larvae of Hydropsyche pellucidula (Trichoptera, Hydropsychidae): A Proposal of Biological Indicator|Bull. Environ. Contam. Toxicol.47(2): 261-265|1991|10.1007/BF01688649
3345|A||Ebdon,L., K. Evans, and S. Hill|The Accumulation of Organotins in Adult and Seed Oysters from Selected Estuaries Prior to the Introduction of UK Regulations Governing the Use of Tributyltin-based Antifouling Paints|Sci. Total Environ.83(1-2): 63-84|1989|10.1016/0048-9697(89)90006-5
3346|A||Francesconi,K.A., J.S. Edmonds, and R.V. Stick|Accumulation of Arsenic in Yelloweye Mullet (Aldrichetta forsteri) Following Oral Administration of Organoarsenic Compounds and Arsenate|Sci. Total Environ.79(1): 59-67|1989|10.1016/0048-9697(89)90053-3
3347|A||Malley,D.F., P.S.S. Chang, and R.H. Hesslein|Whole Lake Addition of Cadmium-109:  Radiotracer Accumulation in the Mussel Population in the First Season|Sci. Total Environ.87/88:397-417|1989|10.1016/0048-9697(89)90251-9
3348|A||Rai,U.N., and P. Chandra|Removal of Heavy Metals from Polluted Waters by Hydrodictyon reticulatum (Linn.) Lagerheim|Sci. Total Environ.87-88:509-515|1989|10.1016/0048-9697(89)90257-X
3349|A||Shankara,C.R., N.S.A. Babu, K. Indira, and W. Rajendra|Metabolic Resistance to Methyl Parathion Toxicity in a Bivalve, Lamellidens marginalis|Curr. Sci. (Bangalore)58(13): 766-769|1989|
3350|A||Vykusova,B., and Z. Svobodova|Evaluation of the Toxicity of the Cyadox Growth Stimulator to Aquatic Organisms|Biol. Chem. Zivocisne Vyroby Vet.25(1): 41-49|1989|
3351|A||Yasmeen,R., S.J. Tulasi, and J.V.R. Rao|Thiodan Induced Changes in the Carbohydrate Metabolites of a Fresh Water Fish Anabas scandens (Cuvier)|Comp. Physiol. Ecol.14(3): 124-127|1989|
3352|A||Svobodova,Z., and M. Pecena|Changes in the Red and White Blood Picture of Carp After Acute Exposure to Toxic Substances|Pr. Vyzk. Ustav Ryb. Hydrobiol. Vodnany17:116-128|1988|
3353|A||Zheng,Z., S. Liu, and Y. Wu|Toxic Chemistry of Heavy Metals on Isochrysis galbana (Parke) in Inshore Water|Acta Oceanol. Sin.8(2): 237-251|1989|
3354|A||Shrivastava,S., and K.S. Rao|Studies on Activity Recovery in Some Mercury-Exposed Freshwater Fish by Using Selected Weeds|Bull. Environ. Contam. Toxicol.42(6): 840-846|1989|10.1007/BF01701624
3355|A||Daly,H.R., I.C. Campbell, and B.T. Hart|Copper Toxicity to Paratya australiensis:  I.  Influence of Nitrilotriacetic Acid and Glycine|Environ. Toxicol. Chem.9(8): 997-1006|1990|10.1002/etc.5620090805
3356|A||Daly,H.R., I.C. Campbell, and B.T. Hart|Copper Toxicity to Paratya australiensis:  II.  Influence of Bicarbonate and Ionic Strength|Environ. Toxicol. Chem.9(8): 1007-1011|1990|10.1002/etc.5620090806
3357|A||Daly,H.R., M.J. Jones, B.T. Hart, and I.C. Campbell|Copper Toxicity to Paratya australiensis:  III.  Influence of Dissolved Organic Matter|Environ. Toxicol. Chem.9(8): 1013-1018|1990|10.1002/etc.5620090807
3358|A||Goerke,H., and W. Ernst|Elimination of Pentachlorobiphenyls by Nereis virens (Polychaeta) in the Laboratory and the Marine Environment|Chem. Ecol.2(3): 263-285|1986|10.1080/02757548608080731
3359|A||Mishra,B.K., A.K. Sahu, and K.C. Pani|On the Breeding Response of Indian Major Carp, Labeo rohita (Ham.), Reared in Weed-Infested Ponds and Exposed to Herbicide Formulations During Normal|Vet. Arh. (Tisak)57(6): 311-318|1987|
3360|A||McCarthy,J.F., D.N. Jacobson, L.R. Shugart, and B.D. Jimenez|Pre-Exposure to 3-Methylcholanthrene Increases Benzo(a)pyrene Adducts on DNA of Bluegill Sunfish|Mar. Environ. Res.28(1-4): 323-328|1989|10.1016/0141-1136(89)90254-7
3361|A||Koivisto,S., and M. Ketola|Effects of Copper on Life-History Traits of Daphnia pulex and Bosmina longirostris|Aquat. Toxicol.32(2/3): 255-269|1995|10.1016/0166-445X(94)00094-7
3362|A||Ting,Y.P., F. Lawson, and I.G. Prince|Uptake of Cadmium and Zinc by the Alga Chlorella vulgaris: Part 1. Individual Ion Species|Biotechnol. Bioeng.34(7): 990-999|1989|10.1002/bit.260340713
3363|A||Batterman,A.R., P.M. Cook, K.B. Lodge, D.B. Lothenbach, and B.C. Butterworth|Methodology Used for a Laboratory Determination of Relative Contributions of Water, Sediment and Food Chain Routes of Uptake for 2,3,7,8-TCDD Bioaccumulation by Lake Trout in Lake Ontario|Chemosphere19(1-6): 451-458|1989|10.1016/0045-6535(89)90351-2
3364|A||Arab,A.E.E., A. Attar, L. Ballhorn, D. Freitag, and F. Korte|Behavior of Diazinon in a Perch Species|Chemosphere21(1-2): 193-199|1990|10.1016/0045-6535(90)90391-6
3365|A||Takimura,O., H. Fuse, and Y. Yamaoka|Effect of Metal Ions on Accumulation of Arsenic in Marine Green Algae, Dunaliella sp.|Appl. Organomet. Chem.4(3): 265-268|1990|10.1002/aoc.590040315
3366|A||Bhaskaran,B., and T.J. Pandian|Effect of DDT and Methyl Parathion on the Acetylcholinesterase Activity of the Air-Breathing Fish Channa striatus|J. Singapore Natl. Acad. Sci.16:48-50|1987|
3367|A||Pratt,J.R., N.J. Bowers, B.R. Niederlehner, and J.,Jr. Cairns|Response of Laboratory Ecosystems to Environmental Stress: Effect of Phenol|Toxic. Assess.4(2): 161-174|1989|10.1002/tox.2540040205
3368|A||Netrawali,M.S., and S.R. Gandhi|Mechanism of Cell Destructive Action of Organophosphorus Insecticide Phosalone in Clamydomonas reinhardtii Algal Cells|Bull. Environ. Contam. Toxicol.44(6): 819-825|1990|10.1007/BF01702169
3369|A||Tort,L., J. Planas, and J. Balasch|Gill Metabolism After Chronic Subacute Zinc Treatments|Acta Physiol. Pharmacol. Latinoam.35:375-378|1985|
3370|A||Tort,L., and M. Rosell|Variations of Organ-Body Weight Allometric Relationship in the Dogfish After Chronic Subacute Cadmium Treatment|Comp. Physiol. Ecol.14(2): 49-56|1989|
3371|A||Sun,Y., and C. Chen|Effects of Hg, Zn, Pb on Embryonic Development of Black Progy, Sparus macrocephalus Basilewsky|Mar. Sci.3:54-57|1988|
3372|A||Goettl,J.P.J., and P.H. Davies|Water Pollution Studies|Job Progress Report, Federal Aid Project F-33-R-14, DNR, Boulder, CO:43-|1979|
3374|A||Abel,P.D.|A New Method for Assessing the Lethal Impact of Short-Term, High-Level Discharges of Pollutants on Aquatic Animals|Prog. Water Technol.13:347-352|1980|
3375|A||Reddy,B.K., G.R. Reddy, G.R.V. Babu, and C.S. Chetty|Modulations in Protein Metabolism in the Selected Tissues of Freshwater Mussel, Lamellidens marginalis During Methyl Parathion Toxicity|J. Health Sci.15(2): 92-97|1989|
3376|A||Chatterjee,S.K., M. Hossain, and T.K. Ghosh|Effects of Mercuric Oxide on the Organic Reserves of Anabas testudineus|Adv. Biosci.7(1): 31-36|1988|
3377|A||Vittozzi,L., A. Di Domenico, M. Franci, F. Gramenzi, C. La Rocca, A. Mantovani, R. Miniero, and C. Perticaroli|14-Day Prolonged Toxicity of Heptachlor to Poecilia reticulata and Brachydanio rerio|Rapp.ISTISAN (Istituto Superiore Di Sanita)88-10:16-|1988|
3378|A||Graham,R.V., B.G. Blaylock, F.O. Hoffman, and M.L. Frank|Comparison of Selenomethionine and Selenite Cycling in Freshwater Experimental Ponds|Water Air Soil Pollut.62:25-42|1992|10.1007/BF00478451
3379|A||Devillers,J.|Acute Toxicity of Cresols, Xylenols, and Trimethylphenols to Daphnia magna Straus 1820|Sci. Total Environ.76(1): 79-83|1988|10.1016/0048-9697(88)90286-0
3381|A||Burton,D.T., D.J. Fisher, and R.L. Paulson|Comparative Toxicity of Solvent Yellow 33 [2-(2'-Quinolinyl)-1,3-Indandione] and Solvent Green 3 (1,4-di-p-Toluidinoanthraquinone) Dyes to Freshwater|Chemosphere19(12): 1959-1970|1989|10.1016/0045-6535(89)90019-2
3382|A||Mizrahi,L., and Y. Achituv|Effect of Heavy Metals Ions on Enzyme Activity in the Mediterranean Mussel, Donax trunculus|Bull. Environ. Contam. Toxicol.42(6): 854-859|1989|10.1007/BF01701626
3383|A|RUSSN|Stadnichenko,A.P., L.D. Ivanenko, and A.M. Sitnjakowskaja|Effect of Phenol and Pesticides on Physical and Chemical Properties of Haemolymph of Gastropods (Gastopoda, Pulmonata) Infected with Trematode Parthenits|Parazitologiya21(6): 716-720|1987|
3385|A||Shabana,E.F., A.F. Dowidar, I.A. Kobbia, and S.A. El Attar|Studies on the Effects of Some Heavy Metals on the Biological Activities of Some Phytoplankton Species. II. The Effects of Some Metallic Ions on|Egypt. J. Physiol. Sci.13(1-2): 55-71|1986|
3386|A||Kennedy,C.J.|Toxicokinetic Studies of Chlorinated Phenols and Polycyclic Aromatic Hydrocarbons in Rainbow Trout (Oncorhynchus mykiss)|Ph.D.Thesis, Simon Fraser Univ., Canada:188 p.|1990|
3387|A||Sarkar,S.K.|Role of Environmental Factors on Fish Growth Exposed to Ammonium Sulphate|Fert. News35(3): 41-43|1990|
3388|A||Charoy,C.P., C.R. Janssen, G. Persoone, and P. Clement|The Swimming Behavior of Brachionus calyciflorus (Rotifer) Under Toxic Stress.  I.  The Use of Automated Trajectometry for Determining Sublethal Effects of Chemicals|Aquat. Toxicol.32(4): 271-282|1995|10.1016/0166-445X(94)00098-B
3389|A||Olsson,P.E., A. Larsson, A. Maage, C. Haux, K. Bonham, M. Zafarullah, and L. Gedamu|Induction of Metallothionein Synthesis in Rainbow Trout, Salmo gairdneri, During Long-Term Exposure to Waterborne Cadmium|Fish Physiol. Biochem.6(4): 221-229|1989|10.1007/BF01875025
3390|A||Hickie,B.E., D.G. Dixon, and J.F. Leatherland|The Influence of Dietary Carbohydrate:Lipid Ratio on the Chronic Toxicity of Sodium Pentachlorophenate to Rainbow Trout (Salmo gairdneri Richardson)|Fish Physiol. Biochem.6(3): 175-185|1989|10.1007/BF01874774
3391|A||Ufodike,E.B.C., and B.C. Onusiriuka|Acute Toxicity of Inorganic Fertilizers to African Catfish, Clarias gariepinus (Teugals)|Aquac. Fish. Manag.21(2): 181-185|1990|
3392|A||Gaikwad,S.A.|Effects of Mixture and Three Individual Heavy Metals on Susceptibility of Three Fresh Water Fishes|Pollut. Res.8(1): 33-35|1989|
3393|A||Stubblefield,W.A.|Acclimation-Induced Changes in the Toxicity of Organic and Inorganic Toxicants to Rainbow Trout|Ph.D.Thesis, University of Wyoming, Laramie, WY:120 p.|1988|
3394|A||Hermens,J.L.M.|Electrophiles and Acute Toxicity to Fish|Environ. Health Perspect.87:219-225|1990|10.1289/ehp.9087219
3395|A||Birkholz,D.A., R.T. Coutts, and S.E. Hrudey|Uptake and Biotransformation of 6,7-Dimethylquinoline and 6,8-Dimethylquinoline by Rainbow Trout (Salmo gairdneri)|Xenobiotica19(7): 695-710|1989|10.3109/00498258909042308
3396|A||Waddell,W.J., J.J. Lech, C. Marlowe, K.M. Kleinow, and M.A. Friedman|The Distribution of [14C]Acrylamide in Rainbow Trout Studied by Whole-Body Autoradiography|Fundam. Appl. Toxicol.14(1): 84-87|1990|10.1016/0272-0590(90)90233-A
3397|A|OECDF|Garric,J., and A. Cemagref|Development of an Assay for Median Lethal and Sublethal Toxicity with Brachydanio rerio|OECD-IRCHA:|1990|
3398|A||Clements,W.H., D.S. Cherry, and J.,Jr. Cairns|The Influence of Copper Exposure on Predator-Prey Interactions in Aquatic Insect Communities|Freshw. Biol.21(3): 483-488|1989|10.1111/j.1365-2427.1989.tb01381.x
3399|A||Fu,H., R.A.C. Lock, and S.E. Wendelaar Bonga|Effect of Cadmium on Prolactin Cell Activity and Plasma Electrolytes in the Freshwater Teleost Oreochromis mossambicus|Aquat. Toxicol.14(4): 295-306|1989|10.1016/0166-445X(89)90028-3
3400|A||Palanichamy,S., T.M. Devi, and S. Arunachalam|Sublethal Effects of Thiodon and Ekalux on Food Utilization, Growth and Conversion Efficiency in the Fish Lepidocephalichthys thermalis|Uttar Pradesh J. Zool.6(1): 58-63|1986|
3401|A||Thuvander,A.|Cadmium Exposure of Rainbow Trout, Salmo gairdneri Richardson: Effects of Immune Functions|J. Fish Biol.35(4): 521-529|1989|10.1111/j.1095-8649.1989.tb03003.x
3402|A||Lee,D.R.|Development of an Invertebrate Bioassay to Screen Petroleum Refinery Effluents Discharged into Freshwater|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:108 p.|1976|
3403|A||Rosas,C., S. Espina, F. Diaz, J. Curts, and I. Rosas|Effect of Sublethal Detergent Concentration upon Gill Permeability of Ctenopharyngodon idella (Pisces; Cyprinidae)|Water Air Soil Pollut.42(3-4): 253-258|1989|
3404|A||Jollow,D.J., and C. Smith|Biochemical Aspects of Toxic Metabolites:  Formation, Detoxification and Covalent Binding|In: D.J.Jollow, J.J.Kocsis, R.Snyder, and H.Vainio (Eds.), Biological Reactive Intermediates, Plenum Press, NY:42-54|1977|
3405|A||Bozeman,J., B. Koopman, and G. Bitton|Toxicity Testing Using Immobilized Algae|Aquat. Toxicol.14(4): 345-352|1989|10.1016/0166-445X(89)90032-5
3406|A||Shabana,E.F., I.A. Kobbia, A.E. Dowidar, and S.A. El Attar|Studies on the Effects of Some Heavy Metals on the Biological Activities of Some Phytoplankton Species. III. Effects of Al3+, Cr3+, Pb2+ and Zn2+ on Heterocyst Frequency, Nitrogen and Phosphorus Metabolism of Anabaena o|Egypt. J. Physiol. Sci.13(1-2): 73-94|1986|
3407|A||Torreblanca,A., J. Del Ramo, and J. Diaz-Mayans|Gill ATPase Activity in Procambarus clarkii as an Indicator of Heavy Metal Pollution|Bull. Environ. Contam. Toxicol.42(6): 829-834|1989|10.1007/BF01701622
3409|A||Gurure,R.M.|Influence of Two Organochloride Pesticides, Thiodan and Lindane on Survival of Fingerlings of Oreochromis niloticus (Linnaeus) and Tilapia zillii|United Nations Development Programme /Food and Agriculture Organization /Nigerian Institute for Oceanography and Marine Research, Port Harcourt, Nigeria.ARAC/WP/6/87:14 p.|1987|
3410|A||Mason,R.P.|Redox Cycling of Radical Anion Metabolites of Toxic Chemicals and Drugs and the Marcus Theory of Electron Transfer|Environ. Health Perspect.87:237-243|1990|10.1289/ehp.9087237
3413|A||Varanasi,U., W.L. Reichert, B.T.L. Eberhart, and J.E. Stein|Formation and Persistence of Benzo(a)pyrene-Diolepoxide-DNA Adducts in Liver of English Sole (Parophrys vetulus)|Chem.-Biol. Interact.69(2/3): 203-216|1989|10.1016/0009-2797(89)90078-1
3414|A||Marek,J., E. Szulkowska-Wojaczek, R. Polechonski, and W. Dobicki|Effect of the Zinc Chloride ZnCl2 to Carp Fry Cyprinus carpio L. of on Aquarium Conditions|Zeszyty Naukowe Akademii Rolniczej We Wroclawiu Zootechnika34(200): 135-144|1990|
3416|A||Luk'yanenko,V.I., S.A. Cherkashin, and P.A. Kandinskiy|Behavior of Juvenile Fish and Mysids in Solutions of Organic Toxicants|Hydrobiol. J.23(4): 65-70|1987|
3417|A||Kirubagaran,R., and K.P. Joy|Toxic Effects of Mercurials on Thyroid Function of the Catfish, Clarias batrachus (L.)|Ecotoxicol. Environ. Saf.17(3): 265-271|1989|10.1016/0147-6513(89)90046-8
3418|A||Mohapatra,P.K., and R.C. Mohanty|Growth Pattern Changes of Chlorella vulgaris and Anabaena doliolum due to Toxicity of Dimethoate and Endosulfan|Bull. Environ. Contam. Toxicol.49(4): 576-581|1992|10.1007/BF00196301
3419|A||Simonaviciene,B.|Copper Ions Influence on Fish Conditioned Reflex Activity 2. Copper Sublethal Concentrations Influence on Wild Goldfish Alimentary Conditioned Reflexes|Liet. TSR Mokslu Akad. Darb. Ser. C Biol. Mokslai (Non-English)1:111-117|1989|
3420|A||Muley,D.V., and U.H. Mane|Survival and Behaviour of the Freshwater Gastropod Viviparus bengalensis (Lam.) After Exposure to Mercurial Salts in Different Seasons|Trop. Ecol.29(1): 71-78|1988|
3421|A||Yin,Y., and F. Zhang|Toxic Effect of Butyl Sodium Xanthate on Fishes (II) Sublethal Effect of Butyl Sodium Xanthate on Macropodus opercularis|Trans. Chin. Ichthyol. Soc.5:159-163|1986|
3422|A||Zhang,F., and Y. Yin|Toxic Effect of Butyl Sodium Xanthate on Fishes (I) Toxic Effect of Butyl Sodium Xanthate on Fish Embryos|Trans. Chin. Ichthyol. Soc.5:153-158|1986|
3423|A||Han,B.C., and T.C. Hung|Green Oysters Caused by Copper Pollution on the Taiwan Coast|Environ. Pollut.65(4): 347-362|1990|10.1016/0269-7491(90)90126-W
3424|A||McHardy,B.M., and J.J. George|Bioaccumulation and Toxicity of Zinc in the Green Alga, Cladophora glomerata|Environ. Pollut.66(1): 55-66|1990|10.1016/0269-7491(90)90198-L
3425|A||Lenka,M., K.K. Panda, and B.B. Panda|Studies on the Ability of Water Hyacinth (Eichhornia crassipes) to Bioconcentrate and Biomonitor Aquatic Mercury|Environ. Pollut.66(1): 89-99|1990|10.1016/0269-7491(90)90201-M
3426|A||Khillare,Y.K., and S.B. Wagh|Long-Term Effects of Pesticides Endosulfan, Malathion and Sevin on the Fish Puntius stigma|Environ. Ecol.6(3): 589-593|1988|
3427|A||Baskaran,G., and V.R. Selvarajan|Phosphamidon Induced Changes in the Brain Acetylcholinesterase Content and Oxygen Uptake and Their Recovery in the Fish Oreochromis mossambicus|Environ. Ecol.8(1A): 73-77|1990|
3428|A||Sampath,K., A. Stanley, and V. Sivakumar|Respiratory Responses of Heteropneustes fossilis Exposed to Different Temperatures and Sublethal Levels of Methyl Parathion|Environ. Ecol.8(1A): 92-94|1990|
3429|A||De,A., and R.K. Sur|Changes in Some Enzyme Activity in Different Tissues of the Crab Paratalphusa spinigera Exposed to Monocrotophos|Environ. Ecol.8(1A): 107-110|1990|
3430|A||Radhakrishnaiah,K., and B. Renukadevi|Size and Sex Related Tolerance to Pesticides in the Freshwater Field Crab Oziotelphusa senex senex|Environ. Ecol.8(1A): 111-114|1990|
3431|A||Chattopadhyay,D.N., and S.K. Konar|Removal of Toxicity of Linear Alkyl Benzene Sulfonate Through Aging|Environ. Ecol.8(1B): 352-355|1990|
3432|A||Ghosh,T.K., J.P. Kotangale, and K.P. Krishnamoorthi|Toxicity of Selective Metals to Freshwater Algae, Ciliated Protozoa and Planktonic Crustaceans|Environ. Ecol.8(1B): 356-360|1990|
3433|A||Misra,V., V. Kumar, S.D. Pandey, and P.N. Viswanathan|Uptake and Distribution of 203Hg by Fish Fingerlings, Cirrhina mrigala, Exposed to Linear Alkyl Benzene Sulphonate|Bull. Environ. Contam. Toxicol.43(1): 139-143|1989|10.1007/BF01702250
3434|A||Surendranath,P., S. Ghouse Lazam, and K.V.R. Rao|Monitoring Insecticide Biodegradation in Penaeid Prawn Penaeus indicus Following Subacute Exposure to Phosphamidon and DDT Through Reclamation Studies|Environ. Ecol.8(1B): 397-400|1990|
3435|A||Azharbaig,M., K.V. Joseph, P. Madhavilatha, and K. Jayantharao|Effect of Heptachlor on Freshwater Fish Channa punctatus and ATPase Activity in Functionally Different Muscles|Environ. Ecol.8(1B): 480-481|1990|
3436|A||Symonik,D.M., J.R. Coats, S.P. Bradbury, G.J. Atchison, and J.M. Clark|Effect of Fenvalerate on Metabolic Ion Dynamics in the Fathead Minnow (Pimephales promelas) and Bluegill (Lepomis macrochirus)|Bull. Environ. Contam. Toxicol.42(6): 821-828|1989|10.1007/BF01701621
3437|T||Williams,P.L., and D.B. Dusenbery|Aquatic Toxicity Testing Using the Nematode, Caenorhabditis elegans|Environ. Toxicol. Chem.9(10): 1285-1290|1990|10.1002/etc.5620091007
3438|A||Reddy,S.L.N., N.B.R. Venugopal, and J.V.R. Ramano Rao|In Vivo Effects of Cadmium Chloride on Certain Aspects of Carbohydrate Metabolism in the Tissues of a Freshwater Field Crab Barytelphusa guerini|Bull. Environ. Contam. Toxicol.42(6): 847-853|1989|10.1007/BF01701625
3439|A||Abele-Oeschger,D., F.J. Sartoris, and H.O. Portner|Hydrogen Peroxide Causes a Decrease in Aerobic Metabolic Rate and in Intracellular pH in the Shrimp Crangon crangon|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(2): 123-129|1997|
3440|A||Ghosh,A.R., and P. Chakrabarti|Toxicity of Arsenic and Cadmium to a Freshwater Fish Notopterus notopterus|Environ. Ecol.8(2): 576-579|1990|
3441|A||Vijayram,K., P. Geraldine, T.S. Varadarajan, L. James, K. Periaswamy, G. John, and P. Loganathan|Vertebral Deformities and Decrease of Mineral Content in Anabas testudineus Exposed to Cadmium|Environ. Ecol.8(2): 672-674|1990|
3442|A||Vasanthi,R., P. Baskaran, S. Palanichamy, and S. Arunachalam|Impact of Carbofuran on Feeding Energetics in Some Freshwater Fishes|Environ. Ecol.8(2): 686-690|1990|
3443|A||Khatib,S.A.|Response of a Freshwater Bivalve Indonaia caeruleus to Sodium Chloride|Environ. Ecol.8(2): 697-701|1990|
3444|A||Chanchal,A.K., S. Kumar, N.K. Rajan, and B.N. Pandey|Effect of Pesticides on Oxygen Consumption of Fresh Water Fish Puntius sophore|Environ. Ecol.8(2): 775-776|1990|
3445|A||Musko,I.B., W. Meinel, R. Krause, and M. Barlas|The Impact of Cd and Different pH on the Amphipod Gammarus fossarum Koch (Crustacea: Amphipoda)|Comp. Biochem. Physiol. C Comp. Pharmacol.96(1): 11-16|1990|10.1016/0742-8413(90)90036-9
3447|A||Ramaiah,N., L. Manohar, and D. Seenappa|Effect of Three Sulphonamides on the Growth of Mrigal Cirrhinus mrigala (Ham)|Indian J. Anim. Sci.59(3): 388-391|1989|
3448|A||Gupta,A.K., and V.K. Rajbanshi|Acute Toxicity of Cadmium to Channa punctatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(5): 525-535|1988|10.1002/aheh.19880160513
3449|A||Stromgren,T., and T. Bongard|The Effect of Tributyltin Oxide on Growth of Mytilus edulis|Mar. Pollut. Bull.18(1): 30-31|1987|10.1016/0025-326X(87)90654-0
3450|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Bioconcentration and Excretion of Diazinon, IBP, Malathion and Fentrothion by Carp|Comp. Biochem. Physiol. C Comp. Pharmacol.96(1): 23-26|1990|10.1016/0742-8413(90)90038-B
3451|A||Norey,C.G., M.W. Brown, A. Cryer, and J. Kay|A Comparison of the Accumulation, Tissue Distribution and Secretion of Cadmium in Different Species of Freshwater Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.96(1): 181-184|1990|10.1016/0742-8413(90)90065-H
3452|A||Rodriguez,E.M., and J.M. Monserrat|Acute and Chronic Effects of Parathion and 2,4 D on the Oxygen Consumption of Chasmagnathus granulata (Decapoda, Brachyura)|Acta Physiol. Pharmacol. Ther. Latinoam.41(2): 201-210|1991|
3453|A||Victor,B.|Histological Evaluation of Cythion Toxicity on the Oocyte Development of Oziotelphusa senex senex|J. Environ. Biol.10(1): 65-71|1989|
3454|A||Accomando,R., A. Viarengo, and M. Orunesu|In Vivo and In Vitro Effects of Heavy Metals on DNA Polymerase Activities in the Digestive Gland of Mytilus galloprovincialis Lam.|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 271-274|1990|10.1016/0742-8413(90)90116-Q
3455|A||Jagan,P., M.S. Reddy, and A.P. Rao|Effect of Certain Insecticides on the Freshwater Fish Cyprinus carpio carpio, L|J. Environ. Biol.10(2): 135-138|1989|
3456|A||Salanki,J., and L. Hiripi|Effect of Heavy Metals on the Serotonin and Dopamine Systems in the Central Nervous System of the Freshwater Mussel (Anodonta cygnea L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 301-305|1990|10.1016/0742-8413(90)90122-P
3457|A||Boitel,F., and J.P. Truchot|Comparative Study of the Effects of Copper on Haemolymph Ion Concentrations and Acid-Base Balance in Shore Crabs Carcinus maenas Acclimated to Full-Strength or Dilute Seawater|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 307-312|1990|10.1016/0742-8413(90)90123-Q
3458|A||Pratap,H.B., and S.E. Wendelaar Bonga|Effects of Water-Borne Cadmium on Plasma Cortisol and Glucose in the Cichlid Fish Oreochromis mossambicus|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 313-317|1990|10.1016/0742-8413(90)90124-R
3459|A||Demael,A., M. Dunier, and A.R. Siwicki|Some Effects of Dichlorvos on Carp Metabolism|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 237-240|1990|10.1016/0742-8413(90)90111-L
3460|A||Norey,C.G., A. Cryer, and J. Kay|Cadmium Uptake and Sequestration in the Pike (Esox lucius)|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 217-221|1990|10.1016/0742-8413(90)90107-K
3461|A||Carlson,R.W.|Ventilatory Patterns of Bluegill (Lepomis macrochirus) Exposed to Organic Chemicals with Different Mechanisms of Toxic Action|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 181-196|1990|10.1016/0742-8413(90)90102-F
3462|A||Gainey,L.F.,Jr., and J.R. Kenyon|The Effects of Reserpine on Copper Induced Cardiac Inhibition in Mytilus edulis|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 177-179|1990|10.1016/0742-8413(90)90101-E
3463|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|The Influence of pH on the Accumulation of Tri-N-Butyltin Chloride and Triphenyltin Chloride in Carp|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 151-153|1990|10.1016/0742-8413(90)90096-R
3464|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Accumulation, Excretion and Metabolism of 2,4,6-Trichlorophenyl-4'-Nitrophenyl Ether by Carp|Comp. Biochem. Physiol. C Comp. Pharmacol.95(2): 145-150|1990|10.1016/0742-8413(90)90095-Q
3465|A||Morgan,M.J., L.L. Fancey, and J.W. Kiceniuk|Response and Recovery of Brain Acetylcholinesterase Activity in Atlantic Salmon (Salmo salar) Exposed to Fenitrothion|Can. J. Fish. Aquat. Sci.47(9): 1652-1654|1990|10.1139/f90-188
3466|A||Hemelraad,J., D.A. Holwerda, H.J. Herwig, and D.I. Zandee|Effects of Cadmium in Freshwater Clams. III. Interaction with Energy Metabolism in Anodonta cygnea|Arch. Environ. Contam. Toxicol.19(5): 699-703|1990|10.1007/BF01183987
3467|A||Hemelraad,J., D.A. Holwerda, H.J.A. Wijnne, and D.I. Zandee|Effects of Cadmium in Freshwater Clams. I. Interaction with Essential Elements in Anodonta cygnea|Arch. Environ. Contam. Toxicol.19(5): 686-690|1990|10.1007/BF01183985
3468|A||Hemelraad,J., H.J. Herwig, E.G. Van Donselaar, D.A. Holwerda, and D.I. Zandee|Effects of Cadmium in Freshwater Clams. II. Ultrastructural Changes in the Renal System of Anodonta cygnea|Arch. Environ. Contam. Toxicol.19(5): 691-698|1990|10.1007/BF01183986
3469|A||Black,M.C., and J.F. McCarthy|Effects of Sublethal Exposure to Chlorine on the Uptake of Polychlorinated Biphenyl Congeners by Rainbow Trout, Salmo gairdneri (Richardson)|Aquat. Toxicol.17(3): 275-290|1990|10.1016/0166-445X(90)90069-2
3470|A||Povlsen,A.F., B. Korsgaard, and P. Bjerregaard|The Effect of Cadmium on Vitellogenin Metabolism in Estradiol-Induced Flounder (Platichthys flesus (L.)) Males and Females|Aquat. Toxicol.17(3): 253-262|1990|10.1016/0166-445X(90)90067-Y
3471|A||Ebele,S., A.A. Oladimeji, and J.A. Daramola|Molluscicidal and Piscicidal Properties of Copper(II) Tetraoxosulfate(VI) on Bulinus globosus (Morelet) and Clarias anguillaris (L.)|Aquat. Toxicol.17(3): 231-238|1990|10.1016/0166-445X(90)90065-W
3472|A||Weatherley,N.S., A.P. Rogers, X. Goenaga, and S.J. Ormerod|The Survival of Early Life Stages of Brown Trout (Salmo trutta L.) in Relation to Aluminium Speciation in Upland Welsh Streams|Aquat. Toxicol.17(3): 213-230|1990|10.1016/0166-445X(90)90064-V
3474|A||Gersich,F.M., and D.P. Milazzo|Evaluation of a 14-Day Static Renewal Toxicity Test with Daphnia magna Straus|Arch. Environ. Contam. Toxicol.19(1): 72-76|1990|10.1007/BF01059814
3476|A||Haung,Y., L. Mo, J. Ma, L. Liu, W. Lin, and L. Lu|Effects of Heavy Metal Ions on Cough Response of Mud Carp|Huanjing Kexue Xuebao (Non-English)8(2): 216-222|1988|
3477|A||Zhang,F., Y. Zhou, and R. Zhou|Toxicities of Two Metals and Two Pesticides to Grass Carps at Different Development Stages|Huanjing Kexue Xuebao (Non-English)8(1): 67-71|1988|
3478|A||Solski,A., and E. Erndt|An Assessment of Rokanol Toxicity to a Population and to an Aquatic Ecosystem|Pol. Arch. Hydrobiol.34(4): 551-566|1987|
3479|A||Solski,A., A. Lebiecka, and K. Bialoborska|The Evaluation of Impendence to Aquatic Bioceonosis some Nitro-Compounds on Basis Toxicological and Biodegradable Investigations|Ochrona Srodowiska, Wyd.PZITS Nr #365:3-10|1981|
3480|A||Lemaire,S.|Preliminary Study of Cadmium Bioaccumulation in Glass-Eels (Anguilla anguilla): Distribution in the Organism and Decontamination, in Fresh- and|C. R. Acad. Sci. Ser. 3 Sci. Vie (Non-English)310(13): 625-630|1990|
3481|A||Gehrke,P.C.|Acute Cardio-Respiratory Responses of Spangled Perch, Leiopotherapon unicolor (Gunther 1859), to Sublethal Concentrations of Zinc, Temephos and 2,4-D|Aust. J. Mar. Freshw. Res.39(6): 767-774|1988|10.1071/MF9880767
3482|A||Amat,M.A., and J.P. Braud|Ammonium Uptake by Chondrus crispus Stackhouse (Gigartinales, Rhodophyta) in Culture|Hydrobiologia (Multiple Languages)204/205:467-471|1990|10.1007/BF00040272
3483|A||Li,R., J. Li, and C.Y. Wu|Effect of Ammonium on Growth and Carrageenan Content in Kappaphycus alvarezii (Gigartinales, Rhodophyta)|Hydrobiologia (Multiple Languages)204/205:499-503|1990|10.1007/BF00040277
3484|A||Navarro,L., M.E. Torres-Marquez, S. Gonzalez-Moreno, S. Devars, R. Hernandez, and R. Moreno-Sanchez|Comparison of Physiological Changes in Euglena gracilis During Exposure to Heavy Metals of Heterotrophic and Autotrophic Cells|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(3): 265-272|1997|
3485|A||Hermens,J.L.M., S.P. Bradbury, and S.J. Broderius|Influence of Cytochrome P450 Mixed-Function Oxidase Induction on the Acute Toxicity to Rainbow Trout (Salmo gairdneri) of Primary Aromatic Amines|Ecotoxicol. Environ. Saf.20(2): 156-166|1990|10.1016/0147-6513(90)90054-9
3486|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Differences Between Freshwater and Seawater-Acclimated Guppies in the Accumulation and Excretion of Tri-N-Butyltin Chloride and Triphenyltin Chloride|Water Res.24(11): 1373-1376|1990|10.1016/0043-1354(90)90156-Z
3487|A||Garnier,J., J.P. Baudin, and L. Foulquier|Accumulation from Water and Depuration of 110mAg by a Freshwater Fish, Salmo trutta L|Water Res.24(11): 1407-1414|1990|10.1016/0043-1354(90)90161-X
3488|A||Baudin,J.P., A.F. Fritsch, and J. Georges|Influence of Labelled Food Type on the Accumulation and Retention of 60Co by a Freshwater Fish, Cyprinus carpio L|Water Air Soil Pollut.51(3-4): 261-270|1990|10.1007/BF00158223
3489|T||Sinha,S., and P. Chandra|Removal of Cu and Cd from Water by Bacopa monnieri L.|Water Air Soil Pollut.51(3-4): 271-276|1990|10.1007/BF00158224
3490|A|OECDG|Hernandez,D.A., R.J. Lombardo, L. Ferrari, and M.C. Tortorelli|Toxicity of Ethyl-Parathion and Carbaryl on Early Development of Sea Urchin|Bull. Environ. Contam. Toxicol.34(5): 734-741|1990|10.1007/BF01700994
3491|AT||Rastogi,A., and S.K. Kulshrestha|Effect of Sublethal Doses of Three Pesticides on the Ovary of a Carp Minnow Rasbora daniconius|Bull. Environ. Contam. Toxicol.45(5): 742-747|1990|10.1007/BF01700995
3492|A||Srivastava,S.K., P.R. Tiwari, and A.K. Srivastav|Effects of Chlorpyrifos on the Kidney of Freshwater Catfish, Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.45(5): 748-751|1990|10.1007/BF01700996
3493|A||Wong,P.K., and C.K. Wong|Toxicity of Nickel and Nickel Electroplating Water to Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.45(5): 752-759|1990|10.1007/BF01700997
3494|A||Reddy,S.L.N., and N.B.R. Venugopal|Effect of Fluoride on Acetylcholinesterase Activity and Oxygen Consumption in a Freshwater Field Crab, Barytelphusa guerini|Bull. Environ. Contam. Toxicol.45(5): 760-766|1990|10.1007/BF01700998
3495|A||Bahr,T.G.|Electrophysiological Responses of the Lateral Line and Heart to Stresses of Hypoxia, Cyanide, and DDT in Rainbow Trout|Ph.D. Thesis, Michigan State University, East Lansing, MI:122 p.|1968|
3496|A||Cuvin-Aralar,M.L.A., and R.W. Furness|Tissue Distribution of Mercury and Selenium in Minnows, Phoxinus phoxinus|Bull. Environ. Contam. Toxicol.45(5): 775-782|1990|10.1007/BF01701000
3497|A||Everaarts,J.M.|Uptake and Release of Cadmium in Various Organs of the Common Mussel, Mytilus edulis (L.)|Bull. Environ. Contam. Toxicol.45(4): 560-567|1990|10.1007/BF01700629
3498|A||Schultz,R., and R. Hermanutz|Transfer of Toxic Concentrations of Selenium from Parent to Progeny in the Fathead Minnow (Pimephales promelas)|Bull. Environ. Contam. Toxicol.45(5): 568-573|1990|10.1007/BF01700630
3499|A||Wan,M.T., R.G. Watts, and D.J. Moul|Acute Toxicity to Juvenile Pacific Salmonids and Rainbow Trout of Butoxyethyl Esters of 2,4-D, 2,4-DP and Their Formulated Product: Weedone CB and Its Carrier|Bull. Environ. Contam. Toxicol.45(4): 604-611|1990|10.1007/BF01700635
3500|A||Gowrinathan,K.P., and V.N.R. Rao|Detoxicification of Copper by Nitzschia obtusa Wm. Sm., a Pennate Diatom|Bull. Environ. Contam. Toxicol.45(4): 612-618|1990|10.1007/BF01700636
3501|A||Sauer,G.R., and N. Watabe|Temporal and Metal-Specific Patterns in the Accumulation of Heavy Metals by the Scales of Fundulus heteroclitus|Aquat. Toxicol.14(3): 233-248|1989|10.1016/0166-445X(89)90018-0
3502|A||Rice,C.D., and B.A. Weeks|The Influence of In Vivo Exposure to Tributyltin on Reactive Oxygen Formation in Oyster Toadfish Macrophages|Arch. Environ. Contam. Toxicol.19(6): 854-857|1990|10.1007/BF01055050
3503|A||Den Besten,P.J., H.J. Herwig, D.I. Zandee, and P.A. Voogt|Cadmium Accumulation and Metallothionein-Like Proteins in the Sea Star Asterias rubens|Arch. Environ. Contam. Toxicol.19(6): 858-862|1990|10.1007/BF01055051
3504|A||Marigomez,J.A., M.A. Cajaraville, E. Angulo, and J. Moya|Ultrastructural Alterations in the Renal Epithelium of Cadmium-Treated Littorina littorea (L.)|Arch. Environ. Contam. Toxicol.19(6): 863-871|1990|10.1007/BF01055052
3505|A||McCahon,C.P., S.F. Barton, and D. Pascoe|The Toxicity of Phenol to the Freshwater Crustacean Asellus aquaticus (L.) During Episodic Exposure-Relationship Between Sub-lethal Responses and Body|Arch. Environ. Contam. Toxicol.19(6): 926-929|1990|10.1007/BF01055063
3506|A||Pascoe,D., A.F. Brown, B.M.J. Evans, and C. McKavanagh|Effects and Fate of Cadmium During Toxicity Tests with Chironomus riparius - the Influence of Food and Artificial Sediment|Arch. Environ. Contam. Toxicol.19(6): 872-877|1990|10.1007/BF01055053
3507|A||Fletcher,R.L.|A Bioassay Technique Using the Marine Fouling Green Alga Entermorpha|Int.Biodeterior.25(6): 407-422|1989|10.1016/0265-3036(89)90067-5
3508|A||Bodar,C.W.M., P.A. Voogt, and D.I. Zandee|Ecdysteroids in Daphnia magna:  Their Role in Moulting and Reproduction and Their Levels upon Exposure to Cadmium|Aquat. Toxicol.17(4): 339-350|1990|10.1016/0166-445X(90)90016-I
3509|A||Bodar,C.W.M., E.G. Van Donselaar, and H.J. Herwig|Cytopathological Investigations of Digestive Tract and Storage Cells in Daphnia magna Exposed to Cadmium and Tributyltin|Aquat. Toxicol.17(4): 325-338|1990|10.1016/0166-445X(90)90015-H
3510|A||Jensen,F.B.|Sublethal Physiological Changes in Freshwater Crayfish, Astacus astacus, Exposed to Nitrite: Haemolymph and Muscle Tissue Electrolyte Status, and Haemolymph Acid-Base Balance and Gas Transport|Aquat. Toxicol.18(1): 51-60|1990|10.1016/0166-445X(90)90035-N
3511|A||McElroy,A.E.|Polycyclic Aromatic Hydrocarbon Metabolism in the Polychaete Nereis virens|Aquat. Toxicol.18(1): 35-50|1990|10.1016/0166-445X(90)90034-M
3512|A||Twiss,M.R., C. Nalewajko, and P.M. Stokes|Assay Technique for Determining the Effect of Copper on Photosynthesis in Scenedesmus|J. Phycol.25(2): 11-|1989|
3513|A||Ferguson,D.E., D.T. Gardner, and A.L. Lindley|Toxicity of Dursban to Three Species of Fish|Mosq. News26:80-82|1966|
3514|A||Roesijadi,G., and P.L. Klerks|Kinetic Analysis of Cadmium Binding to Metallothionein and Other Intracellular Ligands in Oyster Gills|J. Exp. Zool.251(1): 1-12|1989|10.1002/jez.1402510102
3515|A||Reardon,I.S., and R.M. Harrell|Acute Toxicity of Formalin and Copper Sulfate to Striped Bass Fingerlings held in Varying Salinities|Aquaculture87(3/4): 255-270|1990|10.1016/0044-8486(90)90063-S
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3517|A|OECDF|Roubaud,P.|Production of a Toxicity Test Based on the Common Carp's Eggs|French (OECD-IRCHA), Ecotoxicol. Dep., INERIS. Rue Lavoisier, France, http://www.ineris.fr/en/index:|1983|
3518|A|OECDF|Dive,D.|Protozoa as Test Organisms for Ten Chemicals. Comparison with the Daphnid Test|OECD-IRCHA Universite Paris-Sud, Unite d'Enseignement et de Recherche d'Hygiene et Protection de l'Homme et de son Environnement:|1984|
3519|A|OECDF|Beuffe,H.|Experimental Design Based on the Variations of DCMU Enhanced Fluorescence for Short-Term Acute Toxicity Screening|Institut de l'Information Scientifique et Technique-CNRS:|1987|
3520|A|OECDF|Marcaillou-Le Baut,C.|Development of a Test with Microcrustacea Marine|Oecd-Ircha:|1988|
3521|A|OECDF|Chouikhi,A.|Choice and Set Up of the Food Chains in Freshwater in Order to Show the Bioaccumulation Character of a Pollutant|OECD-IRCHA Universite Paris-Sud, Unite d'Enseignement et de Recherche d'Hygiene et Protection de l'Homme et de son Environnement:|1979|
3522|A||Lazorchak,J.M.|The Significance of Weight Loss of Daphnia magna Straus During Acute Toxicity Tests with Copper|Ph.D Thesis, University of Texas, Dallas, TX:191 p.|1987|
3523|A||Pinkney,A.E., D.A. Wright, M.A. Jepson, and D.W. Towle|Effects of Tributyltin Compounds on Ionic Regulation and Gill ATPase Activity in Estuarine Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.92(1): 125-129|1989|10.1016/0742-8413(89)90213-2
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3525|A||Cowgill,U.M., and D.P. Milazzo|Comparison of the Effect of Metallic Copper and Copper Nitrate (Cu(NO3)2.3H2O) on Ceriodaphnia dubia Utilizing the Three-Brood Test|Bull. Environ. Contam. Toxicol.46(1): 141-145|1991|10.1007/BF01688267
3526|A||Hamilton,S.J., and K.J. Buhl|Safety Assessment of Selected Inorganic Elements to Fry of Chinook Salmon (Oncorhynchus tshawytscha)|Ecotoxicol. Environ. Saf.20(3): 307-324|1990|10.1016/0147-6513(90)90009-T
3527|A||Khangarot,B.S., S. Mathur, and V.S. Durve|Studies on the Acute Toxicity of Copper on Selected Freshwater Organisms|Sci. Cult.47(12): 429-431|1981|
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3533|A||Rajagopalan,K.V.|Xanthine Oxidase and Aldehyde Oxidase|In: W.B.Jakoby (Ed.), Enzymatic Basis of Detoxification, Vol.1, Academic Press, Inc., New York, NY:589-591,594-595|1980|
3534|A||Rall,T.W.|Central Nervous System Stimulants. The Methylxanthines|In: A.G.Gilman, L.S.Goodman, T.W.Rall, and F.Murad (Eds.), Goodman and Gilmans The Pharmacological Basis of Therapeutics, 7th Edition, MacMillan Publ.Co., New York, NY:589-603|1985|
3535|A||Terada,H.|Uncouplers of Oxidative Phosphorylation|Environ. Health Perspect.87:213-218|1990|10.1289/ehp.9087213
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3538|A||Sheela,M., and S. Muniandy|Impacts of Pesticide Dimethoate on the Body Composition, Acid and Alkaline Phosphatases in Different Tissues of the Fish Lepidocephalichthys thermalis|Environ. Ecol.10(1): 220-223|1992|
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3541|A||Holm,G., L. Norrgren, and O. Linden|Reproductive and Histopathological Effects of Long-Term Experimental Exposure to bis(Tributyltin)oxide(TBTO) on the Three-Spined Stickleback|J. Fish Biol.38(3): 373-386|1991|10.1111/j.1095-8649.1991.tb03127.x
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3544|A||Hatakeyama,S.|Effects of Chlornitrofen, a Herbicide, on Reproduction of Brachionus urceolaris (Rotatoria) Through Water and Food (Chlorella)|Environ. Pollut.70(2): 143-156|1991|10.1016/0269-7491(91)90086-C
3545|A||MacPhee,C., and F.F. Cheng|Fish Toxicity Screening Data: Part 1: Lethal Effects of 964 Chemicals upon Steelhead Trout and Bridgelip Sucker. Part 2: Lethal Effects of 2,014|EPA 560/6-89-001, U.S.EPA, Washington, D.C.:115 p.|1989|
3546|A||Aziz,J.B., N.M. Akrawi, and G.A. Nassori|The Effect of Chronic Toxicity of Copper on the Activity of Balbiani Rings and Nucleolar Organizing Region in the Salivary Gland Chromosomes of Chironomus ninevah Larvae|Environ. Pollut.69(2-3): 125-130|1991|10.1016/0269-7491(91)90138-M
3547|A||Reddy,S.L.N., and N.B.R. Venugopal|Fluoride Induced Changes in Protein Metabolism in the Tissues of Freshwater Crab Barytelphusa guerini|Environ. Pollut.67(2): 97-108|1990|10.1016/0269-7491(90)90075-N
3548|A||Nucho,R., and J.P. Baudin|60Co Retention by a Freshwater Planktonic Alga Scenedesmus obliquus|Environ. Pollut.62(4): 265-279|1989|10.1016/0269-7491(89)90149-8
3549|A||Day,K.E., and I.M. Scott|Use of Acetylcholinesterase Activity to Detect Sublethal Toxicity in Stream Invertebrates Exposed to Low Concentrations of Organophosphate Insecticides|Aquat. Toxicol.18(2): 101-113|1990|10.1016/0166-445X(90)90021-G
3550|A||Herman,D.C., W.E. Inniss, and C.I. Mayfield|Impact of Volatile Aromatic Hydrocarbons, Alone and in Combination, on Growth of the Freshwater Alga Selenastrum capricornutum|Aquat. Toxicol.18(2): 87-100|1990|10.1016/0166-445X(90)90020-P
3551|A||Den Besten,P.J., H.J. Herwig, A.C. Smaal, D.I. Zandee, and P.A. Voogt|Interference of Polychlorinated Biphenyls (Clophen A50) with Gametogenesis in the Sea Star, Asterias rubens L|Aquat. Toxicol.18(4): 231-246|1990|10.1016/0166-445X(90)90004-9
3552|A||Molander,S., H. Blanck, and M. Soderstrom|Toxicity Assessment by Pollution-Induced Community Tolerance (PICT), and Identification of Metabolites in Periphyton Communities after Exposure to|Aquat. Toxicol.18(3): 115-136|1990|10.1016/0166-445X(90)90022-H
3553|A||Krishnakumar,P.K., P.K. Asokan, and V.K. Pillai|Physiological and Cellular Responses to Copper and Mercury in the Green Mussel Perna viridis (Linnaeus)|Aquat. Toxicol.18(3): 163-174|1990|10.1016/0166-445X(90)90024-J
3554|A||Rozados,M.V., M.D. Andres, and M.A. Aldegunde|Preliminary Studies on the Acute Effect of Lindane (gamma-HCH) on Brain Serotoninergic System in Rainbow Trout Oncorhynchus mykiss|Aquat. Toxicol.19(1): 33-40|1991|10.1016/0166-445X(91)90026-6
3555|A||Vodenicharov,D.G., T.G. Atavina, and D.I. Stom|Use of Zoospore Immobilization to Evaluate the Toxicity of Phenols|Gidrobiol. Z. (Non-English)23(1): 90-94|1987|
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3557|A||Brown,A.F., and D. Pascoe|Studies on the Acute Toxicity of Pollutants to Freshwater Macroinvertebrates. 5. The Acute toxicity of Cadmium to Twelve Species of Predatory|Arch. Hydrobiol.114(2): 311-319|1988|10.1127/archiv-hydrobiol/114/1988/311
3558|A||Bashamohideen,M., I. Sujatha, and P.M. Reddy|intoxication Effects of Methyl Parathion and Malathion on the Carbohydrate Metabolism in the Freshwater Field Crab, Oziotelphusa senex senex (Fabricius)|Z. Angew. Zool. (Multiple Languages)75(1): 37-42|1988|
3559|A||Spitsbergen,J.M., M.K. Walker, J.R. Olson, and R.E. Peterson|Pathologic Alterations in Early Life Stages of Lake Trout, Salvelinus namaycush, Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin as Fertilized Eggs|Aquat. Toxicol.19(1): 41-72|1991|10.1016/0166-445X(91)90027-7
3564|A||Dallinger,R., E. Carpene, G.J. Dalla Via, and P. Cortesi|Effects of Cadmium on Murex trunculus from the Adriatic Sea. I. Accumulation of Metal and Binding to a Metallothionein-Like Protein|Arch. Environ. Contam. Toxicol.18(4): 554-561|1989|10.1007/BF01055022
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3577|A||Fukuto,T.R.|Mechanism of Action of Organophosphorous and Carbamate Insecticides|Environ. Health Perspect.87:245-254|1990|10.1289/ehp.9087245
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3582|A||Helson,B.V., G.A. Surgeoner, and W.E. Ralley|Susceptibility of Culex spp. and Aedes spp. Larvae (Diptera:  Culicidae) to Temephos and Chlorpyrifos in Southern Ontario|Proc. Entomol. Soc. Ont.110:79-83|1979|
3583|A||Stom,D.I., A.E. Balayan, and G.V. Shakhova|Combined Action of Polyphenols and Thiols on Hydrophytes|Hydrobiol. J.24(1): 52-56|1988|
3584|A||Maeda,S., S. Fujita, A. Ohki, I. Yoshifuku, S. Higashi, and T. Takeshita|Arsenic Accumulation by Arsenic-Tolerant Freshwater Blue-Green Alga (Phormidium sp.)|Appl. Organomet. Chem.2(4): 353-357|1988|10.1002/aoc.590020412
3585|A||Jorgensen,E.H., I.C. Burkow, H. Foshaug, B. Killie, and K. Ingebrigtsen|Influence of Lipid Status on Tissue Distribution of the Persistent Organic Pollutant Octachlorostyrene in Arctic Charr (Salvelinus alpinus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 311-318|1997|
3586|A||Ruben,L., J. Lageson, B. Hyzy, and A.B. Hooper|Growth Cycle-Dependent Overproduction and Accumulation of Protoporphyrin IX in Tetrahymena:  Effect of Heavy Metals|J.Protozool.29(2): 233-238|1982|10.1111/j.1550-7408.1982.tb04018.x
3587|AT||Schartau,A.K.L., K. Aagaard, and B. Wilmann|Cycling of Cadmium in Fresh Water Following Experimental Contamination|Verh. Int. Ver. Theor. Angew. Limnol.26(2): 382-387|1997|
3588|A||De Bruijn,J., and J. Hermens|Uptake and Elimination Kinetics of Organophosphorous Pesticides in the Guppy (Poecilia reticulata): Correlations with the Octanol/Water Partition Coefficient|Environ. Toxicol. Chem.10(6): 791-804|1991|10.1002/etc.5620100610
3589|A||Kent,R.A., and P. Weinberger|Multibiological-Level Responses of Freshwater Phytoplankton to Pesticide Stress|Environ. Toxicol. Chem.10(2): 209-216|1991|
3590|A||Oris,J.T., R.W. Winner, and M.V. Moore|A Four-Day Survival and Reproduction Toxicity Test for Ceriodaphnia dubia|Environ. Toxicol. Chem.10(2): 217-224|1991|
3591|A||McNicol,R.E., and E. Scherer|Behavioral Responses of Lake Whitefish (Coregonus clupeaformis) to Cadmium During Preference-Avoidance Testing|Environ. Toxicol. Chem.10(2): 225-234|1991|
3592|A||Cleveland,L., D.R. Buckler, and W.G. Brumbaugh|Residue Dynamics and Effects of Aluminum on Growth and Mortality in Brook Trout|Environ. Toxicol. Chem.10(2): 243-248|1991|10.1002/etc.5620100213
3593|A||Morgan,J.D., G.A. Vigers, A.P. Farrell, D.M. Janz, and J.F. Manville|Acute Avoidance Reactions and Behavioral Responses of Juvenile Rainbow Trout (Oncorhynchus mykiss) to Garlon 4, Garlon 3A, And Vision Herbicides|Environ. Toxicol. Chem.10(1): 73-79|1991|10.1002/etc.5620100109
3594|A||Janz,D.M., A.P. Farrell, J.D. Morgan, and G.A. Vigers|Acute Physiological Stress Responses of Juvenile Coho Salmon (Oncorhyunchus kisutch) to Sublethal Concentations of Garlon 4, Garlon 3A, and Vision|Environ. Toxicol. Chem.10(1): 81-90|1991|10.1002/etc.5620100110
3595|A||Ernst,W.R., P. Jonah, K. Doe, G. Julien, and P. Hennigar|Toxicity to Aquatic Organisms of Off-Target Deposition of Endosulfan Applied by Aircraft|Environ. Toxicol. Chem.10(1): 103-114|1991|
3596|A||Borgmann,U., W.P. Norwood, and I.M. Babirad|Relationship Between Chronic Toxicity and Bioaccumulation of Cadmium in Hyalella azteca|Can. J. Fish. Aquat. Sci.48(6): 1055-1060|1991|10.1139/f91-124
3597|A||Walker,M.K., J.M. Spitsbergen, J.R. Olson, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Toxicity During Early Life Stage Development of Lake Trout (Salvelinus namaycush)|Can. J. Fish. Aquat. Sci.48(5): 875-883|1991|10.1139/f91-104
3598|A||Hall,A.T., and J.T. Oris|Anthracene Reduces Reproductive Potential and is Maternally Transferred During Long-Term Exposure in Fathead Minnows|Aquat. Toxicol.19(3): 249-264|1991|10.1016/0166-445X(91)90022-2
3599|A||McCloskey,J.T., I.R. Schultz, and M.C. Newman|Estimating the Oral Bioavailability of Methylmercury to Channel Catfish (Ictalurus punctatus)|Environ. Toxicol. Chem.17(8): 1524-1529|1998|10.1002/etc.5620170812
3600|A||Limsuwan,C.|Acute Toxicity of Malachite Green to Five Species of Freshwater Fish|C. A. Sel. Environ. Pollut.4:1 p.|1989|
3601|A||Wayland,M.|Effect of Carbofuran on Selected Macroinvertebrates in a Prairie Parkland Pond:  An Enclosure Approach|Arch. Environ. Contam. Toxicol.21(2): 270-280|1991|10.1007/BF01055346
3602|A||Schafers,C., and R. Nagel|Effects of 3,4-Dichloroaniline on Fish Populations. Comparison Between r- and K-Strategists: A Complete Life Cycle Test with the Guppy (Poecilia reticulata)|Arch. Environ. Contam. Toxicol.21(2): 297-302|1991|10.1007/BF01055349
3603|A||Chawla,G., J. Singh, and P.N. Viswanathan|Effect of pH and Temperature on the Uptake of Cadmium by Lemna minor L|Bull. Environ. Contam. Toxicol.47(1): 84-90|1991|10.1007/BF01689457
3605|A||Chandini,T.|Reproductive Value and the Cost of Reproduction in Daphnia carinata and Echinisca triserialis (Crustacea: Cladocera) Exposed to Food and Cadmium Stress|Bull. Environ. Contam. Toxicol.47(1): 76-83|1991|10.1007/BF01689456
3607|A||Bhunia,A.K., N.K. Basu, D. Roy, A. Chakrabarti, and S.K. Banerjee|Growth, Chlorophyll a Content, Nitrogen-Fixing Ability, and Certain Metabolic Activities of Nostoc muscorum: Effect of Methylparathion and Benthiocarb|Bull. Environ. Contam. Toxicol.47(1): 43-50|1991|10.1007/BF01689451
3608|A||Austin,A.P., G.E. Harris, and W.P. Lucey|Impact of an Organophosphate Herbicide (Glyphosate) on Periphyton Communities Developed in Experimental Streams|Bull. Environ. Contam. Toxicol.47(1): 29-35|1991|10.1007/BF01689449
3609|A||Andrew,R.W.|Toxicity Relationships to Copper Forms in Natural Waters|In: R.W.Andrew, P.V.Hodson, and D.E.Konasewich (Eds.), Toxicity to Biota of Metal Forms in Nat.Water, Duluth, MN127:127-144|1976|
3610|A||Tagatz,M.E., N.R. Gregory, and G.R. Plaia|Effects of Chlorpyrifos on Field- and Laboratory-Developed Estuarine Benthic Communities|J. Toxicol. Environ. Health10:411-421|1982|10.1080/15287398209530263
3611|A||Samis,A.J.W., P.W. Colgan, and P.H. Johansen|A Comparison of the Effects of Subchronic and Acute Spill-Mimicking Pentachlorophenol Exposures on Growth of Bluegill Sunfish (Lepomis macrochirus)|Aquat. Toxicol.19(3): 231-240|1991|10.1016/0166-445X(91)90020-A
3612|A||Voyer,R.A., and D.G. McGovern|Influence of Constant and Fluctuating Salinity on Responses of Mysidopsis bahia Exposed to Cadmium in a Life-Cycle Test|Aquat. Toxicol.19(3): 215-230|1991|10.1016/0166-445X(91)90019-6
3613|A||Nasci,C., G. Campesan, V.U. Fossato, L. Tallandini, and M. Turchetto|Induction of Cytochrome P-450 and Mixed Function Oxygenase Activity by Low Concentrations of Polychlorinated Biphenyls in Marine Fish Zosterisessor ophiocephalus (Pall.)|Aquat. Toxicol.19(4): 281-290|1991|10.1016/0166-445X(91)90053-C
3614|A||Metaxas,A., and A.G. Lewis|Copper Tolerance of Skeletonema costatum and Nitzschia thermalis|Aquat. Toxicol.19(4): 265-280|1991|10.1016/0166-445X(91)90052-B
3615|A||McKenney,C.L.J., T.L. Hamaker, and E. Matthews|Changes in the Physiological Performance and Energy Metabolism of an Estuarine Mysid (Mysidopsis bahia) Exposed in the Laboratory Through a Complete Life Cycle to the Defoliant Def.|Aquat. Toxicol.19(2): 123-135|1991|10.1016/0166-445X(91)90032-5
3616|A||Klerks,P.L., and P.R. Bartholomew|Cadmium Accumulation and Detoxification in a Cd-Resistant Population of the Oligochaete Limnodrilus hoffmeisteri|Aquat. Toxicol.19(2): 97-112|1991|10.1016/0166-445X(91)90030-D
3617|A||Dosdall,L.M., and D.M. Lehmkuhl|The Impact of Methoxychlor Treatment of the Saskatchewan River System on Artificial Substrate Populations of Aquatic Insects|Environ. Pollut.60(3): 209-222|1989|10.1016/0269-7491(89)90105-X
3618|A||Garvey,J.E., H.A. Owen, and R.W. Winner|Toxicity of Copper to the Green Alga, Chlamydomonas reinhardtii (Chlorophyceae), as Affected by Humic Substances of Terrestrial and Freshwater Origin|Aquat. Toxicol.19(2): 89-96|1991|10.1016/0166-445X(91)90029-9
3619|A||Hatakeyama,S., and M. Yasuno|Effects of Cadmium on the Periodicity of Parturition and Brood Size of Moina macrocopa (Cladocera)|Environ. Pollut. A.26:111-120|1981|10.1016/0143-1471(81)90041-6
3620|A||Bishop,W.E., and A.W. McIntosh|Acute Lethality and Effects of Sublethal Cadmium Exposure on Ventilation Frequency and Cough Rate of Bluegill (Lepomis macrochirus)|Arch. Environ. Contam. Toxicol.10:519-530|1981|10.1007/BF01054876
3621|A||Chapman,G.A., S. Ota, and F. Recht|Effects of Water Hardness on the Toxicity of Metals to Daphnia magna|U.S.EPA, Corvallis, OR:17 p.|1980|
3622|A||Sikka,H.C., H.T. Appleton, and S. Bannerjee|Fate of 3,3'-Dichlorobenzidine in Aquatic Environments|EPA 600/3-78-068, U.S.EPA, Athens, GA:49 p.|1978|
3623|A||Grebe,E., and D.J. Schaeffer|Neurobehavioral Toxicity of Cadmium Sulfate to the Planarian Dugesia dorotocephala|Bull. Environ. Contam. Toxicol.46:727-730|1991|10.1007/BF01689959
3625|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Accumulation and Metabolism of 2,4,6-Trichlorophenyl-4'-Aminophenyl Ether by Carp|Comp. Biochem. Physiol. C Comp. Pharmacol.96(1): 17-21|1990|10.1016/0742-8413(90)90037-A
3626|A||Huckins,J.N., and J.D. Petty|Dynamics of Isopropylphenyl Diphenyl Phosphate in Fathead Minnows|Chemosphere12(6): 799-807|1983|10.1016/0045-6535(83)90145-5
3627|A||Ostrander,G.K., J.J. Anderson, J.P. Fisher, M.L. Landolt, and R.M. Kocan|Decreased Performance of Rainbow Trout Oncorhynchus mykiss Emergence Behaviors Following Embryonic Exposure to Benzo(a)pyrene|Fish. Bull.88(3): 551-555|1990|
3628|A||Weeks,J.M., and P.S. Rainbow|The Uptake and Accumulation of Zinc and Copper from Solution by Two Species of Talitrid Amphipods (Crustacea)|J. Mar. Biol. Assoc. U.K.71(4): 811-826|1991|10.1017/S0025315400053479
3629|A||Wajsbrot,N., A. Gasith, M.D. Krom, and D.M. Popper|Acute Toxicity of Ammonia to Juvenile Gilthead Seabream Sparus aurata Under Reduced Oxygen Levels|Aquaculture92(2/3): 277-288|1991|10.1016/0044-8486(91)90029-7
3630|A||Ibrahim,A.M., and A. Spacie|Toxicity of Inorganic Selenium to the Green Alga Selenastrum capricornutum Printz|Environ. Exp. Bot.30(3): 265-269|1990|10.1016/0098-8472(90)90038-6
3631|A||Colwell,F.S., S.G. Hornor, and D.S. Cherry|Evidence of Structural and Functional Adaptation in Epilithon Exposed to Zinc|Hydrobiologia (Multiple Languages)171(1): 79-90|1989|10.1007/BF00005725
3632|A||Kevan,S.D., and D.G. Dixon|The Acute Toxicity of Pulse-Dosed Thiocyanate (as KSCN and NaSCN) to Rainbow Trout (Oncorhynchus mykiss) Eggs Before and After Water Hardening|Aquat. Toxicol.19(2): 113-122|1991|10.1016/0166-445X(91)90031-4
3633|A||Kleinow,K.M., J.M. Cahill, and A.E. McElroy|Influence of Preconsumptive Metabolism upon the Toxicokinetics and Bioavailability of a Model Carcinogen in the Flounder (Pseudopleuronectes americanus)|Bull. Mt. Desert Isl. Biol. Lab.28:122-123|1989|
3634|A||Agarwal,M., and D.M. Saxena|Effects of Organophosphorus Insecticide Phosphamidon on Ciliate Protozoan Tetrahymena pyriformis|Acta Protozool.29(1): 77-87|1990|
3635|A||Steele,C.W., S. Strickler-Shaw, and D.H. Taylor|Failure of Bufo americanus Tadpoles to Avoid Lead-Enriched Water|J. Herpetol.25(2): 241-243|1991|10.2307/1564663
3636|A||Ismail,P.|Effects of Pollution by Copper and Zinc upon Some Functions of Marine and Freshwater Fish|Ph.D Thesis, University College of Swansea, Wales, United Kingdom:255 p.|1984|
3638|A||Marigomez,I., M.P. Ireland, and E. Angulo|Correlation of Cadmium Shell-Weight Index with Environmental Stress Indicators at the Cellular and Organismic Levels in Littorina littorea|Mar. Ecol. Prog. Ser.67(2): 171-176|1990|10.3354/meps067171
3639|A||Larsson,A., B.E. Bengtsson, and C. Haux|Disturbed Ion Balance in Flounder, Platichthys flesus L. Exposed to Sublethal Levels of Cadmium|Aquat. Toxicol.1(1): 19-35|1981|10.1016/0166-445X(81)90004-7
3640|A||Miranda,C.L., J.L. Wang, H.S. Chang, and D.R. Buhler|Multiple Effects of 3,4,5,3',4',5'-Hexachlorobiphenyl Administration on Hepatic Cytochrome P450 Isozymes and Associated Mixed-Function Oxidase Activities in Rainbow Trout|Biochem. Pharmacol.40(2): 387-390|1990|10.1016/0006-2952(90)90706-Q
3641|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|BHC-Induced Molt Inhibition in the Fresh Water Rice Field Crab (Oziotelphusa senex senex Fabricius)|J. Exp. Zool.223(2): 183-184|1982|10.1002/jez.1402230210
3642|A||Goldman,J.C., and M.R. Dennett|Photosynthetic Responses of 15 Phytoplankton Species to Ammonium Pulsing|Mar. Ecol. Prog. Ser.20(3): 259-264|1985|10.3354/meps020259
3643|A||Kumar,D., M. Jha, and H.D. Kumar|Copper Toxicity in the Fresh Water Cyanobacterium Nostoc linckia|J. Gen. Appl. Microbiol.31:165-169|1985|10.2323/jgam.31.165
3644|A||Borthwick,P.W., and G.E. Walsh|Initial Toxicological Assessment of Ambush, Bolero, Bux, Dursban, Fentrifanil, Larvin, and Pydrin: Static Acute Toxicity Tests with Selected Estuarine Algae, Invertebrates, and Fish|EPA 600/4-81-076, U.S.EPA, Gulf Breeze, FL:9 p.|1981|
3645|A||Cairns,J.,Jr., and A. Scheier|The Effects of Temperature and Hardness of Water upon the Toxicity of Potassium Dichromate to the Common Bluegill Sunfish|In: Trans.of the Northeast Wildl.Conf., 10th Annu.Mtg., Jan.4-7 1958, Montreal, Quebec, Acad.of Nat.Sci.of Phil., Philadelphia, PA:86-98|1959|
3646|A||Beynon,K.I., M.J. Edwards, A.R. Thompson, and C.A. Edwards|Persistence of Chlorfenvinphos in Natural Waters|Pestic. Sci.2(1): 5-7|1971|10.1002/ps.2780020102
3647|A||Cruz-Lacierda,E.R., and C.T. Tamse|Tolerance Level and Tissue Response of Milkfish to Potassium Permanganate|Asian Aquacult.11(4): 4-5|1989|
3648|A||Nammalwar,P.|Biochemical Changes Resulting from Bioassay of Pesticides DDT and BHC to the Estuarine Mullet, Liza macrolepis (Smith)|In: Proc. of the Semin. on the Effects of Pesticides on Aquat. Fauna, June 1983, Mhow, India:139-145|1984|
3649|A||Nolan,C., N. Whitehead, and J.L. Teyssie|Tellurium - Speciation in Seawater and Accumulation by Marine Phytoplankton and Crustaceans|J. Environ. Radioact.13(3): 217-233|1991|10.1016/0265-931X(91)90062-K
3650|A||Banerjee,S., and S. Homechaudhuri|Hematological Monitoring of a Bio-indicator Fish, Heteropneustes fossilis, on Exposure to Copper Toxicity|Isr. J. Aquacult. Bamidgeh42(2): 46-51|1990|
3651|A||Vlcek,D., E. Miadokova, V. Vlckova, M. Slaninova, and S. Podstavkova|Metabolic Activation of meta-Phenylenediamine by the Alga Chlamydomonas reinhardtii|Mutat. Res.391(3): 143-151|1997|10.1016/S1383-5718(97)00061-2
3652|A||Erickson,S.J.|Unpublished Laboratory Data|U.S.EPA, Gulf Breeze, FL:8 p.|1980|
3653|A||Siefert,R.E., G.F. Kleiner, B.R. Nordling, L.H. Mueller, D.K. Tanner, A.W. Jarvinen, and J.A. Zischke|Effects of Dursban (Chlorpyrifos) on Non-Target Aquatic Organisms in a Natural Pond Undergoing Mosquito Control Treatment|Progress Report, U.S.EPA, Duluth, MN:197 p.|1984|
3654|A||Gregg,B.C.|The Effects of Chlorine and Heat on Selected Stream Invertebrates|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:310 p.|1975|
3655|A||Spooner,N., P.E. Gibbs, G.W. Bryan, and L.J. Goad|The Effect of Tributyltin upon Steroid Titres in the Female Dogwhelk, Nuclella lapillus, and the Development of Imposex|Mar. Environ. Res.32(1-4): 37-49|1991|10.1016/0141-1136(91)90032-4
3656|A||Zaroogian,G.E.|Interlaboratory Comparison - Acute Toxicity Tests Using the 48 Hour Oyster Embryo-Larval Assay|U.S.EPA, Narragansett, RI:17 p.|1981|
3657|A||Hughes,M.M., M.A. Heber, G.E. Morrison, S.C. Schimmel, and W.J. Berry|An Evaluation of a Short-Term Chronic Effluent Toxicity Test Using Sheepshead Minnow (Cyprinodon variegatus) Larvae|Environ. Pollut.60(1): 1-14|1989|10.1016/0269-7491(89)90216-9
3658|A||Brooke,L.T., D.J. Call, C.A. Lindberg, T.P. Markee, S.H. Poirier, and D.J. McCauley|Acute Toxicity of Silver to Selected Freshwater Invertebrates|Report to: Battelle Memorial Research Institute, Collumbus, Ohio, Subcontract No.F-4114(8834)-411; Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:11 p.:|1986|
3659|A||Ludwig,R.W.|Chloramine Toxicity Tests with Crayfish, Orconectes nais, and Orange-Throated Darters, Etheostoma spectabile|Ph.D. Thesis, University of California, Davis:76 p.|1979|
3660|A||Womeldorf,D.J., R.K. Washino, K.E. White, and P.A. Gieke|Insecticide Susceptibility of Mosquitoes in California:  Response of Anopheles freeborni Aitken Larvae to Organophosphorus Compounds|Mosq. News30(3): 375-382|1970|
3661|A||Verma,K.V.S., and S.J. Rahman|Determination of Minimum Lethal Time of Commonly Used Mosquito Larvicides|J. Commun. Dis.16(2): 162-164|1984|
3662|A||Hiney,M.P., and P.R. Smith|Initial Investigations into the Fungicidal Activity of Stabilized Chlorine Dioxide Against Saprolegnia in a Freshwater Hatchery|Bull. Eur. Assoc. Fish Pathol.13(4): 123-126|1993|
3663|A||Rongsriyam,Y., S. Prownebon, and S. Hirakoso|Effects of Insecticides on the Feeding Activity of the Guppy, a Mosquito-Eating Fish, in Thailand|Bull. W. H. O.39:977-980|1968|
3664|A||Culley,D.D.,Jr., and D.E. Ferguson|Patterns of Insecticide Resistance in the Mosquitofish, Gambusia affinis|J. Fish. Res. Board Can.26(9): 2395-2401|1969|10.1139/f69-231
3666|A||Boyd,C.E.|Aluminum Sulfate (Alum) for Precipitating Clay Turbidity from Fish Ponds|Trans. Am. Fish. Soc.108:307-313|1979|10.1577/1548-8659(1979)108<307:ASAFPC>2.0.CO;2
3667|A||Kobayashi,K., H. Akitake, and T. Tomiyama|Studies on the Metabolism of Pentachlorophenate, a Herbicide in Aquatic Organisms-I.  Turnover of Absorbed PCP in Tapes philippinarum|Nippon Suisan Gakkaishi (Multiple Languages)35(12): 1179-1183|1969|10.2331/suisan.35.1179
3668|A||Bosnak,A.D., and E.L. Morgan|Acute Toxicity of Cadmium, Zinc, and Total Residual Chlorine to Epigean and Hypogean Isopods (Asellidae)|Bull. Natl. Speleological Soc.43(1): 12-18|1981|
3670|A||Lamb,D.S., and G.C. Bailey|Acute and Chronic Effects of Alum to Midge Larvae (Diptera: Chironomidae)|Bull. Environ. Contam. Toxicol.27:59-67|1981|10.1007/BF01610987
3671|A||Ali,A., and M.S. Mulla|Activity of Organophosphate and Synthetic Pyrethroid Insecticides Against Pestiferous Midges in Some Southern California Flood Control Channels|Mosq. News40:593-597|1980|
3672|A||Bellanca,M.A., and D.S. Bailey|Effects of Chlorinated Effluents on Aquatic Ecosystem in the Lower James River|J. Water Pollut. Control Fed.49:639-645|1977|
3673|A||Stora,G., G. Bellan, and R.A. Kaim-Malka|Synergistic Tests on Marine Invertebrates. Relations with the Natural Environment|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:465-489|1984|
3674|A||Reddy,M.S., and K.V.R. Rao|Effect of Phosphamidon and Methylparathion on Tissue Proteins, Pyruvate and Excretory Products of the Penaeid Prawn, Metapenaeus monoceros (Fabricius)|Natl. Acad. Sci. Lett.11(9): 297-300|1988|
3675|A||Waheda,M.F.|Effect of Size of Fathead Minnows (Pimephales promelas) and Green Sunfish (Lepomis cyanellus) on Hexavalent Chromium Toxicity|M.S.Thesis, Wright State University, Berkley, CA:35 p.|1977|
3677|A||Pickering,Q.H.|Chronic Toxicity of Trivalent Chromium to the Fathead Minnow, (Pimephales promelas), in Hard Water|Manuscr., U.S.EPA, Cincinnati, OH:9 p.|1980|
3678|A||White,B.|Report of Two Toxicity Evaluations Conducted Using Hexavalent Chromium|Mich. Dep. Nat. Resour., Environ. Protection Bur. Point Sources Stud. Sect.:4-|1979|
3679|A||White,A.M.|The Toxicity of Hexavalent Chromium (Cr+6) to Twenty-One Species Aquatic Animals Native to Ohio|Manuscr., John Carroll Univ., University Heights, OH:13-|1983|
3680|A||Dave,G., and R. Xiu|Toxicity of Mercury, Copper, Nickel, Lead, and Cobalt to Embryos and Larvae of Zebrafish, Brachydanio rerio|Arch. Environ. Contam. Toxicol.21:126-134|1991|10.1007/BF01055567
3681|A||Mizutani,A., E. Ifune, A. Zanella, and C. Eriksen|Uptake of Lead, Cadmium and Zinc by the Fairy Shrimp, Branchinecta longiantenna (Crustacea; Anostraca)|Hydrobiologia (Multiple Languages)212:145-149|1991|10.1007/BF00025996
3682|A||Marin,M.G., M. Bressan, and R. Brunetti|Effect of Linear Alkylbenzene Sulphonate (LAS) on Two Marine Benthic Organisms|Aquat. Toxicol.19(3): 241-248|1991|10.1016/0166-445X(91)90021-Z
3683|A||Davies,P.|Use of Dialysis Tubing in Defining the Toxic Fractions of Heavy Metals in Natural Waters|In: R.W.Andrew, P.V.Hodson, and D.E.Konasewich (Eds.) Toxicity to Biota of Metal Forms in Nat.Water, Int.Joint Comm., Windsor, Canada:110-117|1976|
3684|A||Brooke,L.|Results of Acute Exposures to Aluminum at pH >6.5 with Planaria and Daphnids|July 25th Memo to C.Stephan, U.S.EPA, Duluth, MN:5 p.|1985|
3685|A||Hietanen,B., I. Sunila, and R. Kristoffersson|Toxic Effects of Zinc on the Common Mussel Mytilus edulis L. (Bivalvia) in Brackish Water. II. Accumulation Studies|Ann. Zool. Fennici25(4): 349-352|1988|
3686|A||Mount,D.I.|Description of the Toxicity Tests Performed on Cr+6 Using Cladocerans|U.S.EPA, Duluth, MN (Memo to C.Stephan, U.S.EPA, Duluth, MN):7 p.|1982|
3687|A||De Foe,D.L.|Arsenic (V) Test Results|U.S.EPA, Duluth, MN (Memo to R.L.Spehar, U.S.EPA, Duluth, MN):9 p.|1982|
3688|A||McCauley,D.J., L.T. Brooke, D.J. Call, and C.A. Lindberg|Acute and Chronic Toxicity of Aluminum to Ceriodaphnia dubia at Various pH's|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:15 p.|1986|
3689|A||Call,D.J., L.T. Brooke, C.A. Lindberg, T.P. Markee, D.J. McCauley, and S.H. Poirier|Toxicity of Aluminum to Freshwater Organisms in Water of pH 6.5-8.5|Tech.Rep.Project No.549-238-RT-WRD, Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI/November 27, 1984 Memo to C.Stephan, U.S.EPA, Duluth, MN:46 p.|1984|
3690|A||Call,D.J., L.T. Brooke, N. Ahmad, and D.D. Vaishnav|Aquatic Pollutant Hazard Assessments and Development of a Hazard Prediction Technology by Quantitative Structure-Activity Relationships|Second Quarterly Rep., U.S.EPA Coop.Agreement No.CR 809234-01-0, Ctr.for Lake Superior Environ.Stud., Univ.of Wisconsin, Superior, WI:74 p.|1981|
3692|A||Wurtz,C.B.|Zinc Effects on Fresh-Water Mollusks|Nautilus76:53-61|1962|
3693|A||Peterson,S.A., W.D. Sanville, F.S. Stay, and C.F. Powers|Nutrient Inactivation as a Lake Restoration Procedure.  Laboratory Investigations|EPA-660/3-74-032, U.S.EPA, Corvallis, OR:118 p.|1974|
3695|A||Ernst,W.R., and K.G. Doe|A Comparison of the Aquatic Toxicity of Fenitrothion Flowable and Fenitrothion Liquid Technical Formulations|Water Pollut. Res. J. Can.24(4): 553-568|1989|
3696|A||Ray,D., S.K. Banerjee, and M. Chatterjee|Bioaccumulation of Nickel and Vanadium in Tissues of the Catfish Clarias batrachus|J. Inorg. Biochem.38(3): 169-173|1990|10.1016/0162-0134(90)84010-M
3697|A||Hawkins,A.J.S., J. Rusin, B.L. Bayne, and A.J. Day|The Metabolic/Physiological Basis of Genotype-Dependent Mortality During Copper Exposure in Mytilus edulis|Mar. Environ. Res.28(1-4): 253-257|1989|10.1016/0141-1136(89)90239-0
3698|A||Lamb,D.S., and G.C. Bailey|Effects of Aluminum Sulfate to Midge Larvae (Diptera: Chironomidae) and Rainbow Trout (Salmo Gairdneri)|EPA 440/5-83-001, Lake Restoration, Protection and Management,  U.S. EPA, Washington, DC:307-312|1983|
3699|A||Durkina,V.B., and Z.S. Evtushenko|Changes in Activity of Certain Enzymes in Sea Urchin Embryos and Larvae After Exposure of Adult Organisms to Heavy Metals|Mar. Ecol. Prog. Ser.72:111-115|1991|10.3354/meps072111
3700|A||Le Bras,S.|Sensitivity of Asellus aquaticus L. (Crustacea, Isopoda) to Lindane in Relation to Biotic (Size and Metabolism) and Abiotic Factors (Concentration of|Rev. Sci. Eau (Multiple Languages)3(2): 183-193|1990|10.7202/705070ar
3701|A||Foulquier,L., J.P. Baudin, and A. Lamrechts|Data on 137Cs and 60Co Transfer in a River Ecosystem|Rev. Sci. Eau (Multiple Languages)2(4): 641-658|1989|10.7202/705047ar
3702|A||Chen,B., and M. Chen|Acute Toxicity of Arsenic, Phenol, Mercury and Chromium to the Larvae of Penaeus orientali|Mar. Sci.14(3): 51-53|1990|
3704|A||Wieke Tas,J., J.L.M. Hermens, M. Van den Berg, and W. Seinen|Bioconcentration and Elimination of Triphenyltin Hydroxide in Fish|Mar. Environ. Res.28:215-218|1989|10.1016/0141-1136(89)90228-6
3706|A||Khillare,Y.K., and S.B. Wagh|Chronic Effects of Endosulfan, Malathion and Sevin in the Fresh Water Fish, Barbus stigma Testis Histopathology|J. Sci. Res.9(1): 19-22|1987|
3707|A||Karara,A.H., and W.L. Hayton|Metabolic Inhibition and Di-2-Ethylhexyl Phthalate Pharmacokinetics in Fish|Drug Metab. Dispos.16(1): 146-150|1988|
3708|A||Butler,P.A., A.J.,Jr. Wilson, and A.J. Rick|Effect of Pesticides on Oysters|Proc. Natl. Shellfish. Assoc.51:23-32|1960|
3709|A||Ernst,W.|Factors Affecting the Evaluation of Chemicals in Laboratory Experiments Using Marine Organisms|Ecotoxicol. Environ. Saf.3:90-98|1979|10.1016/0147-6513(79)90062-9
3710|A||Anderson,D.R.|The Combined Effects of Nickel, Chlorine and Temperature on the Mortality of Rainbow Trout, Salmo gairdneri|Ph.D. Thesis, University of Washington, Seattle, WA:202 p.|1981|
3711|A||Baird,D.J., I. Barber, and P. Calow|Clonal Variation in General Responses of Daphnia magna Straus to Toxic Stress.  I.  Chronic Life-History Effects|Funct. Ecol.4(3): 399-407|1990|10.2307/2389602
3712|A||Blomqvist,P., and U. Heyman|Effects of Arsenate Additions to Pelagic Mesocosms on Phytoplankton Biomass and Composition|Limnologica20(2): 329-338|1990|
3716|A||Larsen,J., and B. Svensmark|Labile Species of Pb, Zn and Cd Determined by Anodic Stripping Staircase Voltammetry and Their Toxicity to Tetrahymena|Talanta38(9): 981-988|1991|10.1016/0039-9140(91)80313-O
3717|A||Martin,E.R., and R. Sarojini|Sex Associated Changes in Respiratory Metabolism of Freshwater Prawn, Caridina weberi Exposed to Methyl Parathion|J. Adv. Zool.11(2): 85-88|1990|
3718|A||Gill,T.S., J. Pande, and H. Tewari|Effects of Endosulfan and Phosphamidon Poisoning on the Peripheral Blood of Fish (Barbus conchonius Hamilton)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control26(2): 249-255|1991|
3719|A||Sarojini,R., B. Indira, and R. Nagabhushanam|Effect of the Lethal and Sublethal Concentrations of Two Antifouling Organometallic Compounds CuSO4 and TBTO on the Eyestalks of Freshwater Prawn, Caridina weberi|J. Freshw. Biol.2(1): 29-35|1990|
3720|A||Lee,C.K., K.S. Low, and N.S. Hew|Accumulation of Arsenic by Aquatic Plants|Sci. Total Environ.103(2/3): 215-227|1991|10.1016/0048-9697(91)90147-7
3721|A||Sinha,N., B. Lal, and T.P. Singh|Effect of Endosulfan on Thyroid Physiology in the Freshwater Catfish, Clarias batrachus|Toxicology67(2): 187-197|1991|10.1016/0300-483X(91)90142-N
3722|A||Lieffers,H.J.|Effects of the Lampricide 3-Trifluoromethyl-4-Nitrophenol on Macroinvertebrate Populations in a Small Stream|Tech. Rep. Great Lakes Fish. Comm.55:1-26|1990|
3723|A||Anderson,B.S., D.P. Middaugh, J.W. Hunt, and S.L. Turpen|Copper Toxicity to Sperm, Embryos and Larvae of Topsmelt Atherinops affinis, with Notes on Induced Spawning|Mar. Environ. Res.31(1): 17-35|1991|10.1016/0141-1136(91)90003-Q
3724|A||Rao,K.V.R., S. Ghouselazam, and P. Surendranath|Inhibition and Recovery of Selected Target Enzyme Activities in Tissues of Penaeid Prawn, Metapenaeus monoceros (Fabricius), Exposed to Different Insecticides|Indian J. Exp. Biol.29(5): 489-491|1991|
3725|A||LeBerre,R., B. Philippon, S. Grebaut, Y. Sechan, J. Lenormand, J. Etienne, and P. Garreta|Control of Simulium damnosum, the Vector of Human Onchocerciasis in West Africa. I. Supplementary Trials of New Insecticides|W.H.O.Documentary Series, WHO/VBC/76.614:18 p.|1976|
3726|A||Scott,G.I., M.H. Fulton, M.C. Crosby, P.B. Key, J.W. Daugomah, J.T. Waldren, E.D. Strozier, C.J. Louden, G.T. Chandler,|Agricultural Insecticide Runoff Effects on Estuarine Organisms:  Correlating Laboratory and Field Toxicity Tests, Ecophysiology Bioassays, and Ecotoxicological Biomonitoring|EPA 600/R-94-004, U.S.EPA, Gulf Breeze, FL:288 p.|1994|
3727|A||Muley,D.V., and U.H. Mane|Histopathological Changes in Body Parts of the Freshwater Gastropod, Viviparus bengalensis (Lam.) due to Pesticides|J. Environ. Biol.11(4): 413-425|1990|
3728|A||Gupta,A.K., and V.K. Rajbanshi|Toxicity of Copper and Cadmium to Heteropneustes fossilis (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(3): 331-340|1991|10.1002/aheh.19910190313
3729|A||Reddy,P.M., and G.H. Philip|Hepato Toxicity of Malathion on the Protein Metabolism in Cyprinus carpio|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(1): 127-130|1991|10.1002/aheh.19910190115
3730|A||Yadwad,V.B., M.R. Gandhi, V.L. Kallapur, and S. Basalingappa|Prostaglandins in Field Crab Paratelphusa hydrodromus (Milne-Edwards): Identification and Effect of Endosulfan|Indian J. Exp. Biol.28(5): 490-491|1990|
3731|A||Dorfman,D.|Tolerance of Fundulus heteroclitus to Different Metals in Salt Waters|Bull. N. J. Acad. Sci.22(2): 21-23|1977|
3732|A||Hansen,D.J.|Section on Acute Toxicity Tests to be Inserted in the April 1983 Report on Site Specific FAV's|March 21st Memo from D.J.Hansen, U.S.EPA, Gulf Breeze, FL, to W.A.Brungs, U.S.EPA, Narragansette, RI:7 p.|1983|
3733|A||Johnson,M.|Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett|Memo to D.Hansen, U.S.EPA, Narragansett, RI:3 p.|1985|
3734|A||Gentile,S., and J. Cardin|Unpublished Laboratory Data|U.S.EPA, Narragansett, RI:5 p.|1982|
3735|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Copper at ERL, Narragansett|U.S.EPA, Narragansett, RI:3 p.|1985|
3736|A||McKenney,C.L.,Jr., and S.H. Hong|Interlaboratory Comparison of Chronic Toxicity Testing Using the Estuarine Mysid (Mysidopsis bahia): A Final Report|U.S.EPA, Gulf Breeze, FL:35 p.|1982|
3737|A||Peppard,E.M., W.R. Wolters, and J.W.,Jr. Avault|Toxicity of Chelated Copper to Juvenile Red Drum Sciaenops ocellatus|J. World Aquac. Soc.22(2): 101-108|1991|10.1111/j.1749-7345.1991.tb00722.x
3739|A||Rajyasree,M., and P. Neeraja|Protein Enrichment in Fish Cyprinus carpio on Chronic Exposure to Ambient Urea|Environ. Ecol.7(4): 922-924|1989|
3740|A||Schimmel,S.C.|Results: Interlaboratory Comparison - Acute Toxicity Tests Using Estuarine Animals|Final Draft, EPA 600/4-81-003, U.S.EPA, Gulf Breeze, FL:13 p.|1981|
3741|A||Scott,K.J., P.P. Yevich, and W.S. Boothman|Toxicological Methods Using the Benthic Amphipod Ampelisca abdita Mills|U.S.EPA, Narragansett, RI:23 p.|1982|
3742|A||Donkin,P., J. Widdows, S.V. Evans, C.M. Worrall, and M. Carr|Quantitative Structure-Activity Relationships for the Effect of Hydrophobic Organic Chemicals on Rate of Feeding by Mussels (Mytilus edulis)|Aquat. Toxicol.14(3): 277-294|1989|10.1016/0166-445X(89)90021-0
3743|A||Lussier,S., and J.H. Gentile|Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1985|
3744|A||Lussier,S., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Zinc at ERL, Narragansett|U.S.EPA, Narragansett, RI:6 p.|1985|
3745|A||Sherwood,M.J.|Toxicity of Chromium to Fish|Annu.Rep., 1974, So.Calif.Coastal Water Res.Project, El Segundo, CA:61-62|1975|
3746|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Arsenic at ERL, Narragansett|U.S.EPA, Narragansett, RI:3 p.|1985|
3747|A||Lussier,S.M.|Results of Acute Toxicity Tests Conducted with Arsenic at ERL, Narragansett|U.S.EPA, Narragansett, RI:1 p.|1985|
3748|A||Scott,K.J., and C. Pesch|Results of Acute Toxicity Tests Conducted with Arsenic at ERL, Narragansett|U.S.EPA, Narragansett, RI:1 p.|1981|
3750|A||McKenney,C.,Jr., E. Matthews, and D. Lawrence|Chronic Toxicity Testing and Physiological Studies.  A. Chronic Toxicity Tests:  Invertebrates.  1. Mysid Life-Cycle Toxicity Tests|In: Progress Report, FY 81, October 1, 1980 - September 30, 1981, U.S. EPA, Environmental Research Laboratory, Gulf Breeze, FL:62-73|1981|
3751|A||Cardin,J.A.|Unpublished Laboratory Data|U.S.EPA, Narragansett, RI:9 p.|1980|
3752|A||Dinnel,P.A., Q.J. Stober, J.M. Link, M.W. Letourneau, W.E. Roberts, S.P. Felton, and R.E. Nakatani|Methodology and Validation of a Sperm Cell Toxicity Test for Testing Toxic Substances in Marine Waters|Final Rep.FRI-UW-8306, Fish.Res.Inst., Schl.of Fish., Univ.of Washington, Seattle, WA:208 p.|1983|
3754|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Chromium at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1985|
3755|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Nickel at ERL, Narragansett|U.S.EPA, Narragansett, RI:1 p.|1985|
3756|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Arsenic at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1985|
3757|A||Woelke,C.E.|Development of a Bioassay Method Using the Marine Algae - Monochrysis lutheri|Prog.Rep.- Shellfish Research, Washington Dep.of Fish.and Shellfish, Seattle, WA:9 p.|1965|
3758|A||Dimick,R.E., and W.P. Breese|Bay Mussel Embryo Bioassay|In: Proceedings of the12th Pacific Northwest Industrial Waste Conference, Seattle, WA:165-175|1965|
3759|A||Mahood,R.K., M.D. McKenzie, D.P. Middaugh, S.J. Bollar, J.R. Davis, and D. Spitsbergen|A Report on the Cooperative Blue Crab Study - South Atlantic States|Project Nos.2-79-R-1, 2-80-R-1, 2-81-R-1, and 2-82-R-1; USDA, Bur.of Comm.Fish., Washington, DC:32 p.|1970|
3760|A||Hansen,D.J., and L.R. Goodman|Toxaphene Entire Life-Cycle Toxicity Results for Sheepshead Minnows|U.S.EPA, Gulf Breeze, FL:13 p.|1986|
3761|A||McKenzie,M.D.|Fluctuations in Abundance of the Blue Crab and Factors Affecting Mortalities|Tech.Rep.No.1, Project 2-79-R-1, South Carolina Wildlife Resour., Charleston, SC:45-|1970|
3762|A||Kuhn,A., and M. Chammas|Toxaphene Acute and Chronic Results|U.S.EPA, Narragansett, RI:7 p.|1986|
3764|A||Johns,D.M., and D.C. Miller|The Use of Bioenergetics to Investigate the Mechanisms of Pollutant Toxicity in Crustacean Larvae|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, New York, NY:261-288|1982|
3765|A||Nelson,V.A.|Effects of Strontium-90 + Yttrium-90, Zinc-65, and Chromium-51 on the Larvae of the Pacific Oyster Crassostrea gigas|In: A.T.Proter, and D.L.Alverson (Eds.), The Columbia River Estuary and Adjacent Ocean Waters, Chapter 32, University of Washington Press, Seattle, WA:819-832|1972|
3766|A||Watling,H.R.|Comparative Study of the Effects of Zinc, Cadmium, and Copper on the Larval Growth of Three Oyster Species|Bull. Environ. Contam. Toxicol.28:195-201|1982|10.1007/BF01608575
3767|A||MacInnes,J.R., and A. Calabrese|Response of Embryos of the American Oyster, Crassostrea virginica, to Heavy Metals at Different Temperatures|In: D.S.McLusky, and A.J.Berry (Eds.), Physiology and Behaviour of Marine Organisms, Permagon Press, New York, NY:195-202|1978|
3768|A||Jones,L.H., N.V. Jones, and A.J. Radlett|Some Effects of Salinity on the Toxicity of Copper to the Polychaete Nereis diversicolor|Estuar. Coast. Mar. Sci.4:107-111|1976|10.1016/0302-3524(76)90011-6
3769|A||Tietze,N.S., P.G. Hester, C.F. Hallmon, M.A. Olson, and K.R. Shaffer|Acute Toxicity of Mosquitocidal Compounds to Young Mosquitofish, Gambusia affinis|Am. Mosq. Control Assoc. J.7(2): 290-293|1991|
3770|A||Bryan,G.W., and L.G. Hummerstone|Adaptation of the Polychaete Nereis diversicolor to Estuarine Sediments Containing high Concentrations of Zinc and Cadmium|J. Mar. Biol. Assoc. U.K.53(4): 839-857|1973|10.1017/S0025315400022517
3771|A||Call,D.J., L.T. Brooke, N. Ahmad, and D.D. Vaishnav|Aquatic Pollutant Hazard Assessments and Development of a Hazard Prediction Technology by Quantitative Structure-Activity Relationships|First Q.Rep., U.S.EPA Coop.Agreement No.CR 809234-01-0, Ctr.for Lake Superior Environ.Stud., Univ.of Wisconsin, Superior, WI:52 p.|1981|
3772|A||West,C.W.|Acute Toxicity of Ammonia to 14 Freshwater Species|Internal Rep., U.S.EPA, Monticello Res.Stn., Monticello, MN:19 p.|1985|
3773|A||Srivastava,P.K., D.N. Sarma, L. Dhanaraj, and R.M. Sundaram|Larval Susceptibility Status of Anopheles stephensi Against Temephos in Madras, Tamil Nadu|J. Ecotoxicol. Environ. Monit.5(2): 139-142|1995|
3774|A||Diamond,J.M., D.G. Mackler, M. Collins, and D. Gruber|Derivation of a Freshwater Silver Criteria for the New River, Virginia, Using Representative Species|Environ. Toxicol. Chem.9(11): 1425-1434|1990|10.1002/etc.5620091112
3775|A||Pantani,C., P.F. Ghetti, A. Cavacini, and P. Muccioni|Acute Toxicity of Equitoxic Binary Mixtures of Some Metals, Surfactants and Pesticides to the Freshwater Amphipod Gammarus italicus Goedm.|Environ. Technol.11(12): 1143-1146|1990|10.1080/09593339009384970
3776|A||Raj,A.I.M., and P.S. Hameed|Effect of Copper, Cadmium and Mercury on Metabolism of the Freshwater Mussel Lamellidens marginalis (Lamarck)|J. Environ. Biol.12(2): 131-135|1991|
3777|A||Saucier,D., L. Astic, and P. Rioux|The Effects of Early Chronic Exposure to Sublethal Copper on the Olfactory Discrimination of Rainbow Trout, Oncorhynchus mykiss|Environ. Biol. Fishes30(3): 345-351|1991|10.1007/BF02028850
3778|A||Reddy,S.L.N., and N.B.R. Venugopal|In Vivo Effects of Cadmium Chloride on Certain Aspects of Protein Metabolism in Tissues of a Freshwater Field Crab Barytelphusa guerini|Bull. Environ. Contam. Toxicol.46(4):583-590|1991|10.1007/BF01688203
3779|A||Bentley,R.E., T. Heitmuller, B.H. Sleight III, and P.R. Parrish|Acute Toxicity of Nickel to Bluegill (Lepomis macrochirus), Rainbow Trout (Salmo gairdneri), and Pink Shrimp (Penaeus duorarum)|U.S.EPA, Criteria Branch, WA-6-99-1414-B, Washington, D.C:14-|1975|
3780|A||Bentley,R.E., T. Heitmuller, B.H. Sleight III, and P.R. Parrish|Acute Toxicity of Cadmium to Bluegill (Lepomis macrochirus), Rainbow Trout (Salmo gairdneri), and Pink Shrimp (Penaeus duorarum)|U.S.EPA, Criteria Branch, WA-6-99-1414-B, Washington, D.C:14 p.|1975|
3781|AT|OECDG|Freitag,D., H. Geyer, A. Kraus, R. Viswanathan, D. Kotzias, A. Attar, W. Klein, and F. Korte|Ecotoxicological Profile Analysis VII. Screening Chemicals for Their Environmental Behavior by Comparative Evaluation|Ecotoxicol. Environ. Saf.6:60-81|1982|10.1016/0147-6513(82)90081-1
3782|AT||Freitag,D., L. Ballhorn, H. Geyer, and F. Korte|Environmental Hazard Profile of Organic Chemicals: An Experimental Method for the Assessment of the Behaviour of Organic Chemicals in the Ecosphere by Means of Simple Laboratory Tests with 14C Labelled Chemicals|Chemosphere14(10): 1589-1616|1985|10.1016/0045-6535(85)90014-1
3783|A||Kimball,G.|The Effects of Lesser Known Metals and One Organic to Fathead Minnows (Pimephales promelas) and Daphnia magna|Manuscript, Department of Entomology, Fisheries and Wildlife, University of Minnesota, Minneapolis, MN:88 p.|1978|
3784|A||Kumar,A., and R.P. Mathur|Bioaccumulation Kinetics and Organ Distribution of Lead in a Fresh Water Teleost, Colisa fasciatus|Environ. Technol.12(8): 731-735|1991|10.1080/09593339109385063
3785|A||Reish,D.J., and J.A. Lemay|Toxicity and Bioconcentration of Metals and Organic Compounds by Polychaeta|Ophelia5(suppl.): 653-660|1991|
3786|A||Servizi,J.A., R.W. Gordon, and J.H. Carey|Bioconcentration of Chlorophenols by Early Life Stages of Fraser River Pink and Chinook Salmon (Oncorhynchus gorbuscha, O. tshawytscha)|Water Pollut. Res. J. Can.23(1): 88-99|1988|
3787|A||Cairns,M.A.|Estimation of Chronically Safe Zinc Concentrations with Steelhead Trout (Salmo gairdneri) Emphasizing Ventilatory Responses|M.S.Thesis, Oregon State University, Corvallis, OR:72 p.|1980|
3788|A||Anadu,D.I.|Fish Acclimation and the Development of Tolerance to Zinc as a Modifying Factor in Toxicity|Ph.D.Thesis, Oregon State University, Corvallis, OR:94 p.|1983|
3789|A||Nammalwar,P.|Bioassay Studies on the Estuarine Mullet, Liza macrolepis (Smith) with Reference to DDT and BHC|In: Proc. of the Semin. on the Effects of Pesticides on Aquat. Fauna, June 1983, Mhow, India :157-162|1984|
3790|A||Nammalwar,P.|Pollution Impact and Management of the Coastal Estuaries Around Madras, India|In: N.B.Nair (Ed.), Proc.of the Natl.Semin.on Estuarine Manage., June 4-5, 1987, Trivandrum, India:190-193|1987|
3791|A||Adams,W.J., R.A. Kimerle, and R.G. Mosher|Aquatic Safety Assessment of Chemicals Sorbed to Sediments|ASTM Spec. Tech. Publ.:429-453|1985|
3792|A||Jenner,H.A., J. Hemelraad, J.M. Marquenie, and F. Noppert|Cadmium Kinetics in Freshwater Clams (Unionidae) Under Field and Laboratory Conditions|Sci. Total Environ.108(3): 205-214|1991|10.1016/0048-9697(91)90357-K
3793|A||Blust,R., A. Fontaine, and W. Decleir|Effect of Hydrogen Ions and Inorganic Complexing on the Uptake of Copper by the Brine Shrimp Artemia franciscana|Mar. Ecol. Prog. Ser.76(3): 273-282|1991|10.3354/meps076273
3794|A||Gobas,F.A.P.C., E.J. McNeil, L. Lovett-Doust, and G.D. Haffner|Bioconcentration of Chlorinated Aromatic Hydrocarbons in Aquatic Macrophytes|Environ. Sci. Technol.25(5): 924-929|1991|10.1021/es00017a015
3795|A||Baticados,M.C.L., and E.A. Tendencia|Effects of Gusathion A on the Survival and Shell Quality of Juvenile Penaeus monodon|Aquaculture93(1): 9-19|1991|10.1016/0044-8486(91)90201-H
3796|A||Barron,M.G., S.M. Plakas, and P.C. Wilga|Chlorpyrifos Pharmacokinetics and Metabolism Following Intravascular and Dietary Administration in Channel Catfish|Toxicol. Appl. Pharmacol.108(3): 474-482|1991|10.1016/0041-008X(91)90093-T
3797|A||Gill,T.S., J. Pande, and H. Tewari|Enzyme Modulation by Sublethal Concentrations of Aldicarb, Phosphamidon, and Endosulfan in Fish Tissues|Pestic. Biochem. Physiol.38(3): 231-244|1990|10.1016/0048-3575(90)90095-J
3798|A||Tjeerdema,R.S., T.W.M. Fan, R.M. Higashi, and D.G. Crosby|Sublethal Effects of Pentachlorophenol in the Abalone (Haliotis rufescens) as Measured by In Vivo 31P NMR Spectroscopy|J. Biochem. Toxicol.6(1): 45-56|1991|10.1002/jbt.2570060107
3799|A||Roncero,V., J.A. Vincente, E. Redondo, A. Gazquez, and E. Duran|Experimental Lead Nitrate Poisoning: Microscopic and Ultrastructural Study of the Gills of Tench (Tinca tinca, L.)|Environ. Health Perspect.89:137-144|1990|
3800|A||Reddy,A.N., N.B.R. Venugopal, and S.L.N. Reddy|Effects of Endosulfan 35 EC on Certain Aspects of Protein Metabolism in Various Tissues of a Fresh Water Field Crab, Barytelphusa guerini|Pestic. Biochem. Physiol.39(2): 121-129|1991|10.1016/0048-3575(91)90132-6
3801|A||Reddy,A.N., N.B.R. Venugopal, and S.L.N. Reddy|Effect of Endosulfan 35 EC on Glycogen Metabolism in the Hemolymph and Tissues of a Freshwater Field Crab, Barytelphusa guerini|Pestic. Biochem. Physiol.40(2): 176-180|1991|10.1016/0048-3575(91)90113-Z
3802|A||Gaudy,R., J.P. Guerin, and P. Kerambrun|Sublethal Effects of Cadmium on Respiratory Metabolism, Nutrition, Excretion and Hydrolase Activity in Leptomysis lingvura (Crustacea: Mysidacea)|Mar. Biol.109(3): 493-501|1991|10.1007/BF01313515
3804|A||Dosdall,L.M., M.M. Galloway, J.T. Arnason, and P. Morand|Field Evaluation of the Phototoxin, alpha-Terthienyl, for Reducing Larval Populations of Black Flies (Diptera: Simuliidae) and Its Impact on Drift of Aquatic Invertebrates|Can. Entomol.123(3): 439-449|1991|10.4039/Ent123439-3
3805|A||Chevreuil,M., and P. Testard|Monitoring of Organochlorine Pollution (PCB, Pesticides) by a Filter Feeder Lamellibranch (Dreissena polymorpha Pallas)|C. R. Acad. Sci. Ser. 2312(5): 473-477|1991|
3806|A||Neugebaur-Buchler,K.E., F.J. Zieris, and W. Huber|Reactions of an Experimental Outdoor Pond to Lindane Application|Z. Wasser-Abwasser-Forsch. (Multiple Languages)24(2): 81-92|1991|
3807|A||Ramaswami,M.|Adaptive Trends in Lipid Levels of Liver and Muscle of Sarotherodon mossambicus (Peters) Exposed to Sevin|J. Ecobiol.2(1): 56-61|1990|
3808|A||Verma,D.K.|Endosulfan Residues in the Ovary of the Fish Mystus vittatus|J. Ecobiol.2(1): 62-66|1990|
3810|A||Ali,A., and J. Lord|Experimental Insect Growth Regulators Against Some Nuisance Chironomid Midges of Central Florida|J. Econ. Entomol.73:243-249|1980|10.1093/jee/73.2.243
3811|A||Struve,M.R., J.H. Scott, and D.R. Bayne|Effects of Fluridone and Terbutryn on Phytoplankton and Water Quality in Isolated Columns of Water|J. Aquat. Plant Manag.29:67-76|1991|
3812|A||Naqvi,S.M., and D.J. Newton|Chronic Toxicity of Thiodan (Endosulfan) Insecticide to Louisiana Crayfish, Procambarus clarkii|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(4): 437-447|1991|
3813|A||Reddy,A.T.V., K. Ayyanna, and K. Yellamma|Sensitivity of Brain Cholinesterase to Cypermethrin Toxicity in Freshwater Teleost Tilapia mossambica|Biochem. Int.23(5): 959-962|1991|
3814|A||Suresh,A., B. Sivaramakrishna, P.C. Victoriamma, and K. Radhakrishnaiah|Shifts in Protein Metabolism in Some Organs of Freshwater Fish, Cyprinus carpio Under Mercury Stress|Biochem. Int.24(2): 379-389|1991|
3815|A||Reddy,P.M., G.H. Philip, and M. Bashamohideen|Inhibition of Mg2+ and Na+ -K+ ATPases in Selected Tissues of Fish, Cyprinus carpio Under Fenvalerate Toxicity|Biochem. Int.23(4): 715-721|1991|
3816|A||Reddy,A.T.V., and K. Yellamma|Cypermethrin Induced Changes in Nitrogen Metabolism of Fish, Tilapia mossambica|Biochem. Int.23(4): 649-654|1991|
3817|A||Jones,M., C. Folt, and S. Guarda|Characterizing Individual, Population and Community Effects of Sublethal Levels of Aquatic Toxicants:  An Experimental Case Study Using Daphnia|Freshw. Biol.26(1): 35-44|1991|10.1111/j.1365-2427.1991.tb00506.x
3818|A||McHenery,J.G., D. Saward, and D.D. Seaton|Lethal and Sub-lethal Effects of the Salmon Delousing Agent Dichlorvos on the Larvae of the Lobster (Homarus gammarus L.) and Herring (Clupea harengus L.)|Aquaculture98:331-347|1991|10.1016/0044-8486(91)90316-Y
3819|A||Sarkar,S.K.|Effects of the Herbicide 2,4-D on the Bottom Fauna of Fish Ponds|Prog. Fish-Cult.53(3): 161-165|1991|10.1577/1548-8640(1991)053<0161:EOTHDO>2.3.CO;2
3820|A||Pragatheeswaran,V., B. Loganathan, R. Natarajan, and V.K. Venugopalan|Cadmium Induced Malformation in Eyes of Ambassis commersoni Cuvier|Bull. Environ. Contam. Toxicol.43(5):755-760|1989|10.1007/BF01701999
3822|A||Bergerhouse,D.L.|Lethal Effects of Elevated pH and Ammonia on Early Life Stages of Several Sportfish Species|Ph.D.Thesis, Southern Illinois University, Carbondale, IL:246 p.|1989|
3823|A||Jenkins,D.G.,Jr.|Response of a Winter Plankton Food Web to Simazine|Environ. Toxicol. Chem.9(6): 693-705|1990|10.1002/etc.5620090602
3824|A||Sprague,J.B.|Avoidance Reactions of Rainbow Trout to Zinc Sulphate Solutions|Water Res.2:367-372|1968|10.1016/0043-1354(68)90048-1
3825|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Silver at ERL, Narragansett|U.S.EPA, Narragansett, RI:14 p.|1985|
3826|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Nickel at ERL, Narragansett|Memo from S.M.Lussier and J.A.Cardin to D.Hansen, U.S.EPA, Narragansett, RI:4 p.|1985|
3827|A||Snell,T.W., and G. Persoone|Acute Toxicity Bioassays Using Rotifers.  I.  A Test for Brackish and Marine Environments with Brachionus plicatilis|Aquat. Toxicol.14(1): 65-80|1989|10.1016/0166-445X(89)90055-6
3828|A||Lussier,S.M., and J. Walker|Results of Acute Toxicity Tests Conducted with Nickel at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1985|
3829|A||Tulasi,S.J., R. Yasmeen, and J.V. Ramana Rao|Physiological Responses of the Fresh Water Crab, Barytelphusa guerini During Lead Nitrate Toxicity|Comp. Physiol. Ecol.13(1): 9-12|1988|
3835|A||Pedersen,S.N., K.L. Pedersen, P. Hojrup, J. Knudsen, and M.H. Depledge|Induction and Identification of Cadmium-, Zinc- and Copper-Metallothioneins in Shore Crab Carcinus maenas (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(2): 251-259|1998|
3836|A|RUSSN|Shcherban,E.P.|Toxicity of the Herbicide Ronstar to Daphnia magna |Hydrobiol. J.22(1): 83-86|1986|
3839|A||Roy,D.|Detergent-Induced Changes in the Mapping of CertainEnzymes in Various Cell Types of Rita rita. I. Opercular Epidermis|Ecotoxicol. Environ. Saf.17(1): 59-66|1989|10.1016/0147-6513(89)90009-2
3841|A||Chen,C., L. Zhang, and Y. Wu|The Complexing Capacity of Natural Organic Matters for Copper in Estuarine Water and Its Effect on Growth of Diatom in Xiamen Estuarine Harbor|China Environ. Sci.8(1): 29-35|1988|
3842|A||Wangberg,S.A., and H. Blanck|Arsenate Sensitivity in Marine Periphyton Communities Established Under Various Nutrient Regimes|J. Exp. Mar. Biol. Ecol.139(1-2): 119-134|1990|10.1016/0022-0981(90)90042-B
3846|A||Farris,J.L., S.E. Belanger, D.S. Cherry, and J.,Jr. Cairns|Cellulolytic Activity as a Novel Approach to Assess Long-Term Zinc Stress to Corbicula|Water Res.23(10): 1275-1283|1989|10.1016/0043-1354(89)90189-9
3852|A||Wood,C.M., C. Hogstrand, F. Galvez, and R.S. Munger|The Physiology of Waterborne Silver Toxicity in Freshwater Rainbow Trout (Oncorhynchus mykiss) 2.  The Effects of Silver Thiosulfate|Aquat. Toxicol.35(2): 111-125|1996|10.1016/0166-445X(96)00004-5
3854|A||Bodar,C.W.M., A.V.D. Zee, P.A. Voogt, H. Wynne, and D.I. Zandee|Toxicity of Heavy Metals to Early Life Stages of Daphnia magna|Ecotoxicol. Environ. Saf.17(3): 333-338|1989|10.1016/0147-6513(89)90054-7
3856|A||Winner,R.W., and H.A. Owen|Toxicity of Copper to Chlamydomonas reinhardtii (Chlorophyceae) and Ceriodaphnia dubia (Crustacea) in Relation to Changes in Water Chemistry of a Freshwater Pond|Aquat. Toxicol.21:157-170|1991|10.1016/0166-445X(91)90070-P
3857|A||Stromgren,T., and M.V. Nielsen|Spawning Frequency, Growth and Mortality of Mytilus edulis Larvae, Exposed to Copper and Diesel Oil|Aquat. Toxicol.21:171-180|1991|10.1016/0166-445X(91)90071-G
3858|A||Moore,D.W., T.M. Dillon, and B.C. Suedel|Chronic Toxicity of Tributyltin to the Marine Polychaete Worm, Neanthes arenaceodentata|Aquat. Toxicol.21:181-198|1991|10.1016/0166-445X(91)90072-H
3859|A||Walker,M.K., and R.E. Peterson|Potencies of Polychlorinated Dibenzo-p-Dioxin, Dibenzofuran, and Biphenyl Congeners, Relative to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin, for Producing Early Life Stage Mortality in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.21(3/4): 219-238|1991|10.1016/0166-445X(91)90074-J
3860|A||Keizer,J., G. D'Agostino, and L. Vittozzi|The Importance of Biotransformation in the Toxicity of Xenobiotics to Fish. I. Toxicity and Bioaccumulation of Diazinon in Guppy (Poecilia reticulata) and Zebra Fish (Brachydanio rerio)|Aquat. Toxicol.21(3/4): 239-254|1991|10.1016/0166-445X(91)90075-K
3861|A||Tjeerdema,R.S., R.J. Kauten, and D.G. Crosby|Interactive Effects of Pentachlorophenol and Hypoxia in the Abalone (Haliotis rufescens) as Measured by In Vivo 31P NMR Spectroscopy|Aquat. Toxicol.21:279-294|1991|10.1016/0166-445X(91)90078-N
3862|A||McCloskey,J.T., and J.T. Oris|Effect of Water Temperature and Dissolved Oxygen Concentration on the Photo-Induced Toxicity of Anthracene to Juvenile Bluegill Sunfish (Lepomis macrochirus)|Aquat. Toxicol.21(3-4): 145-156|1991|10.1016/0166-445X(91)90069-L
3863|A||Thompson,P.A., and P. Couture|Short- and Long-Term Changes in Growth and Biochemical Composition of Selenastrum capricornutum Populations Exposed to Cadmium|Aquat. Toxicol.21:135-144|1991|10.1016/0166-445X(91)90068-K
3864|A||Reddy,D.C., V. Kalarani, and R.W. Davies|Tissue ATPase Activity and Recovery in the Freshwater Crab Oziotelphusa senex senex Exposed to a Sublethal Concentration of Endosulfan for Varying|Comp. Biochem. Physiol. C Comp. Pharmacol.99(3): 431-435|1991|10.1016/0742-8413(91)90267-W
3865|A||Bentley,P.J.|Accumulation of Cadmium by Channel Catfish (Ictalurus punctatus): Influx from Environmental Solutions|Comp. Biochem. Physiol. C Comp. Pharmacol.99(3): 527-529|1991|10.1016/0742-8413(91)90281-W
3866|A||Rao,K.R.S.S., and K.V.R. Rao|Impact of Phenthoate in Continuous Flow and Static Media on the Respiratory Enzymes of the Murrel, Channa punctatus (Bloch)|Proc. Indian Acad. Sci. Anim. Sci.95(6): 719-722|1986|10.1007/BF03179487
3867|A||Knezovich,J.P., M.P. Lawton, and F.L. Harrison|In Vivo Metabolism of Aromatic Amines by the Bay Mussel, Mytilus edulis|Mar. Environ. Res.24(1-4):89-91|1988|10.1016/0141-1136(88)90260-7
3868|A||Deoray,B.M., and S.B. Wagh|Effect of Thiodon on Muscle Contents of the Cyprinid Fish Barilius bendelisis (HAM.)|J. Environ. Biol.12(3): 307-312|1991|
3869|A||Garg,V., S.D. Tyagi, N. Singh, and S.C. Agarwal|Thallium Nitrate Induced Haematobiochemical Analysis of Heteropneustes fossilis Blood|J. Environ. Biol.12(3): 319-323|1991|
3870|A||Ghosh,A.R., and P. Chakrabarti|A Scanning Electron Microscopic Probe into the Cellular Injury in the Alimentary Canal of Notopterus notopterus (Pallas) After Cadmium Intoxication|Ecotoxicol. Environ. Saf.23:147-160|1992|10.1016/0147-6513(92)90055-8
3871|A||Wrisberg,M.N., C.M. Bilbo, and H. Spliid|Induction of Micronuclei in Hemocytes of Mytilus edulis and Statistical Analysis|Ecotoxicol. Environ. Saf.23:191-205|1992|10.1016/0147-6513(92)90058-B
3872|A||Lemaire,P., S. LeMaire-Gony, J. Berhaut, and M. LaFaurie|The Uptake, Metabolism, and Biological Half-Life of Benzo(a)pyrene Administered by Force-Feeding in Sea Bass (Dicentrarchus labrax)|Ecotoxicol. Environ. Saf.23:244-251|1992|10.1016/0147-6513(92)90062-8
3873|A||Agarwal,S.K.|Bioassay Evaluation of Acute Toxicity Levels of Mercuric Chloride to an Air-Breathing Fish Channa punctatus (Bloch): Mortality and Behaviour Study|J. Environ. Biol.12(2): 99-106|1991|
3874|A||Somanath,B.|Effect of Acute Sublethal Concentration of Tannic Acid on the Protein, Carbohydrate and Lipid Levels in the Tissues of the Fish Labeo rohita|J. Environ. Biol.12(2): 107-112|1991|
3875|A||Ornes,W.H., K.S. Sajwan, M.G. Dosskey, and D.C. Adriano|Bioaccumulation of Selenium by Floating Aquatic Plants|Water Air Soil Pollut.57-58:53-57|1991|10.1007/BF00282868
3876|A||Stay,F.S., A. Katko, C.M. Rohm, M.A. Fix, and D.P. Larsen|The Effects of Atrazine on Microcosms Developed from Four Natural Plankton Communities|Arch. Environ. Contam. Toxicol.18(6): 866-875|1989|10.1007/BF01160302
3878|A||Ansari,B.A., and K. Kumar|Malathion Toxicity: Pathological Changes in the Liver of Zebrafish, Brachydanio rerio (Cyprinidae)|Bol. Fisiol. Anim.11:27-34|1987|
3879|A||Camargo,J.A., and J.V. Ward|Short-Term Toxicity of Sodium Nitrate (NaNO3) to Non-Target Freshwater Invertebrates|Chemosphere24(1): 23-28|1992|10.1016/0045-6535(92)90563-7
3880|A||Sreedevi,P., A. Suresh, B. Sivaramakrishna, B. Prabhavathi, and K. Radhakrishnaiah|Bioaccumulation of Nickel in the Organs of the Freshwater Fish, Cyprinus carpio, and the Freshwater Mussel, Lamellidens marginalis, Under Lethal and Sublethal Nickel Stress|Chemosphere24(1):29-36|1992|10.1016/0045-6535(92)90564-8
3881|A||Merlin,G., H. Thiebaud, G. Blake, S. Sembiring, and J. Alary|Mesocosms' and Microcosms' Utilization for the Ecotoxicity Evaluation of Dichloromethane, A Chlorinated Solvent|Chemosphere24(1):37-50|1992|10.1016/0045-6535(92)90565-9
3882|A||Camargo,J.A., J.V. Ward, and K.L. Martin|The Relative Sensitivity of Competing Hydropsychid Species to Fluoride Toxicity in the Cache la Poudre River (Colorado)|Arch. Environ. Contam. Toxicol.22:107-113|1992|10.1007/BF00213308
3883|A||Venturino,A., L.E. Gauna, R.M. Bergoc, and A.M.P. D'Angelo|Effect of Exogenously Applied Polyamines on Malathion Toxicity in the Toad Bufo arenarum Hensel|Arch. Environ. Contam. Toxicol.22:135-139|1992|10.1007/BF00213312
3884|A||Rodriguez,E.M., J.M. Monserrat, and O.A. Amin|Chronic Toxicity of Ethyl Parathion and Isobutoxyethanol Ester of 2,4-Dichlorophenoxyacetic Acid to Estuarine Juvenile and Adult Crabs|Arch. Environ. Contam. Toxicol.22:140-145|1992|10.1007/BF00213313
3885|A||Lee,C.J., M.C. Newman, and M. Mulvey|Time to Death of Mosquitofish (Gambusia holbrooki) During Acute Inorganic Mercury Exposure:  Population Structure Effects|Arch. Environ. Contam. Toxicol.22:284-287|1992|10.1007/BF00212087
3886|A||Ringwood,A.H.|Comparative Sensitivity of Gametes and Early Developmental Stages of a Sea Urchin Species (Echinometra mathaei) and a Bivalve Species (Isognomon californicum) During Metal Exposures|Arch. Environ. Contam. Toxicol.22:288-295|1992|10.1007/BF00212088
3887|A||Chapman,D.C.|Failure of Gas Bladder Inflation in Striped Bass: Effect on Selenium Toxicity|Arch. Environ. Contam. Toxicol.22:296-299|1992|10.1007/BF00212089
3888|A||Stuhlbacher,A., and L. Maltby|Cadmium Resistance in Gammarus pulex (L.)|Arch. Environ. Contam. Toxicol.22:319-324|1992|10.1007/BF00212093
3889|A||Huebert,D.B., and J.M. Shay|The Effect of EDTA on Cadmium and Zinc Uptake and Toxicity in Lemna trisulca L|Arch. Environ. Contam. Toxicol.22:313-318|1992|10.1007/BF00212092
3890|A||Chattopadhyay,D.N., and S.K. Konar|Removal of Toxicity of Linear Alkyl Benzene Sulfonate Through Algae Culture|Environ. Ecol.9(2):342-344|1991|
3891|A||Patwardhan,S.A., and S.A. Gaikwad|Effect of Sumithion on Liver, Hepatopancreas and Mesentric Pancreas of Freshwater Fish Gambusia affinis affinis|Environ. Ecol.9(2): 352-355|1991|
3892|A||Sarkar,S.S., and J. Nandi|Toxic Effects of Organophosphorus Pesticide Phosphamidon on the Cholesterol Level in Some Organs of the Fish Channa punctatus|Environ. Ecol.9(2):411-413|1991|
3893|A||Gallagher,E.P., R.C. Cattley, and R.T. DiGiulio|The Acute Toxicity and Sublethal Effects of Chlorothalonil in Channel Catfish (Ictalurus punctatus)|Chemosphere24(1): 3-10|1992|10.1016/0045-6535(92)90561-5
3894|A||Hektoen,H., K. Ingebrigtsen, E.M. Brevik, and M. Oehme|Interspecies Differences in Tissue Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Between Cod (Gadus morhua) and Rainbow Trout (Oncorhynchus mykiss)|Chemosphere24(5): 581-587|1992|10.1016/0045-6535(92)90214-C
3895|A||Liber,K., N.K. Kaushik, K.R. Solomon, and J.H. Carey|"Experimental Designs for Aquatic Mesocosm Studies: A Comparison of the ""ANOVA"" and ""Regression"" Design for Assessing the Impact of Tetrachlorophenol"|Environ. Toxicol. Chem.11(1): 61-77|1992|
3896|A||Webber,E.C., W.G. Deutsch, D.R. Bayne, and W.C. Seesock|Ecosystem-Level Testing of a Synthetic Pyrethroid Insecticide in Aquatic Mesocosms|Environ. Toxicol. Chem.11(1): 87-105|1992|
3897|A||Fairchild,J.F., T.W. La Point, J.L. Zajicek, M.K. Nelson, F.J. Dwyer, and P.A. Lovely|Population-, Community- and Ecosystem-Level Responses of Aquatic Mesocosms to Pulsed Doses of a Pyrethroid Insecticide|Environ. Toxicol. Chem.11(1): 115-129|1992|
3898|A||Lozano,S.J., S.L. O'Halloran, K.W. Sargent, and J.C. Brazner|Effects of Esfenvalerate on Aquatic Organisms in Littoral Enclosures|Environ. Toxicol. Chem.11(1): 35-47|1992|10.1002/etc.5620110105
3899|A||Radhakrishnaiah,K., A. Suresh, P.C. Victoriamma, and B. Sivaramakrishna|Influence of Zinc on the Protein of Freshwater Fish Cyprinus carpio (Linnaeus)|Environ. Ecol.9(3): 612-616|1991|
3900|A||Radhakrishnaiah,K., P. Venkataramana, S. Suresh, and B. Sivaramakrishna|Effects of Lethal and Sublethal Concentrations of Copper on Glycolysis in Liver and Muscle of the Freshwater Teleost, Labeo rohita (Hamilton)|J. Environ. Biol.13(1): 63-68|1992|
3901|A||Hanazato,T., T. Iwakuma, and M. Yasuno|Effects of Temephos on Zooplankton Communities in Enclosures in a Shallow Eutrophic Lake|Environ. Pollut.59(4): 305-314|1989|10.1016/0269-7491(89)90157-7
3902|A||Pundir,R., and A.B. Saxena|Chronic Toxic Exposure of Cadmium on the Pituitary Gland of Fish Puntius ticto and Pattern of Recoupment|J. Environ. Biol.13(1): 69-74|1992|
3903|A||Singh,C.B., and S.P. Singh|Protective Effects of Ca2+, Mg2+, Cu2+, and Ni2+ on Mercury and Methylmercury Toxicity to a Cyanobacterium|Ecotoxicol. Environ. Saf.23(1): 1-10|1992|10.1016/0147-6513(92)90016-V
3904|A|OECDG|Singh,P.B.|Impact of Malathion and gamma-BHC on Lipid Metabolism in the Freshwater Female Catfish, Heteropneustes fossilis|Ecotoxicol. Environ. Saf.23:22-32|1992|10.1016/0147-6513(92)90018-X
3905|A||Tulasi,S.J., P.U.M. Reddy, and J.V.R. Rao|Accumulation of Lead and Effects on Total Lipids and Lipid Derivatives in the Freshwater Fish Anabas testudineus (Bloch)|Ecotoxicol. Environ. Saf.23:33-38|1992|10.1016/0147-6513(92)90019-Y
3906|A||Szabo,A., J. Nemcsok, B. Asztalos, Z. Rakonczay, P. Kasa, and L.H. Hieu|The Effect of Pesticides on Carp (Cyprinus carpio L.) Acetylcholinesterase and Its Biochemical Characterization|Ecotoxicol. Environ. Saf.23:39-45|1992|10.1016/0147-6513(92)90020-4
3907|A||Welling,W., and J.W. De Vries|Bioconcentration Kinetics of the Organophosphorus Insecticide Chlorpyrifos in Guppies (Poecilia reticulata)|Ecotoxicol. Environ. Saf.23:64-75|1992|10.1016/0147-6513(92)90022-U
3908|A|OECDG|Maund,S.J., A. Peither, E.J. Taylor, I. Juttner, R. Beyerle-Pfnur, J.P. Lay, and D. Pascoe|Toxicity of Lindane to Freshwater Insect Larvae in Compartments of an Experimental Pond|Ecotoxicol. Environ. Saf.23:76-88|1992|10.1016/0147-6513(92)90023-V
3909|A||Oikari,A., and B. Jimenez|Effects of Hepatotoxicants on the Induction of Microsomal Monooxygenase Activity in Sunfish Liver by beta-Naphthoflavone and Benzo(a)pyrene|Ecotoxicol. Environ. Saf.23:89-102|1992|10.1016/0147-6513(92)90024-W
3910|A||Marchini,S., M.L. Tosato, T.J. Norberg-King, D.E. Hammermeister, and M.D. Hoglund|Lethal and Sublethal Toxicity of Benzene Derivatives to the Fathead Minnow, Using a Short-Term Test|Environ. Toxicol. Chem.11(2): 187-195|1992|
3911|A||Schlekat,C.E., B.L. McGee, and E. Reinharz|Testing Sediment Toxicity in Chesapeake Bay with the Amphipod Leptocheirus plumulosus: An Evaluation|Environ. Toxicol. Chem.11(2): 225-236|1992|10.1002/etc.5620110212
3912|A||Detra,R.L., and W.J. Collins|The Relationship of Parathion Concentration, Exposure Time, Cholinesterase Inhibition and Symptoms of Toxicity in Midge Larvae (Chironomidae: Diptera)|Environ. Toxicol. Chem.10:1089-1095|1991|10.1002/etc.5620100814
3913|A||DeGraeve,G.M., J.D. Cooney, D.O. McIntyre, T.L. Pollock, N.G. Reichenbach, J.H. Dean, and M.D. Marcus|Variability in the Performance of the Seven-Day Fathead Minnow (Pimephales promelas) Larval Survival and Growth Test:  An Intra- and Interlaboratory Study|Environ. Toxicol. Chem.10:1189-1203|1991|
3914|A||Buhl,K.J., and N.L. Faerber|Acute Toxicity of Selected Herbicides and Surfactants to Larvae of the Midge Chironomus riparius|Arch. Environ. Contam. Toxicol.18(4): 530-536|1989|10.1007/BF01055019
3915|AT||Chemical Information System|Structure and Nomenclature Search System (SANSS), Version 7.02|Chemical Information System Inc., Baltimore, MD:|1992|
3916|A||Parsons,J.T., and G.A. Surgeoner|Effect of Exposure Time on the Acute Toxicities of Permethrin, Fenitrothion, Carbaryl and Carbofuran to Mosquito Larvae|Environ. Toxicol. Chem.10:1219-1227|1991|10.1002/etc.5620100913
3917|A||Parsons,J.T., and G.A. Surgeoner|Acute Toxicities of Permethrin, Fenitrothion, Carbaryl and Carbofuran to Mosquito Larvae During Single- or Multiple-Pulse Exposures|Environ. Toxicol. Chem.10(9): 1229-1233|1991|
3918|A||Haynes,G.J., A.J. Stewart, and B.C. Harvey|Gender-Dependent Problems in Toxicity Tests with Ceriodaphnia dubia|Bull. Environ. Contam. Toxicol.43(2): 271-279|1989|10.1007/BF01701758
3919|A||Carlson,A.R., G.L. Phipps, V.R. Mattson, P.A. Kosian, and A.M. Cotter|The Role of Acid-Volatile Sulfide in Determining Cadmium Bioavailability and Toxicity in Freshwater Sediments|Environ. Toxicol. Chem.10:1309-1319|1991|
3920|A||Lewis,P.A., and W.B. Horning II|Differences in Acute Toxicity Test Results of Three Reference Toxicants on Daphnia at Two Temperatures|Environ. Toxicol. Chem.10:1351-1357|1991|10.1002/etc.5620101014
3921|A||Singer,M.M., D.L. Smalheer, and R.S. Tjeerdema|Effects of Spiked Exposure to an Oil Dispersant on the Early Life Stages of Four Marine Species|Environ. Toxicol. Chem.10:1367-1374|1991|10.1002/etc.5620101016
3922|A||Bokman,E., and R.B.,Jr. Laughlin|A Study of Steady State and Kinetic Regulation of Chloride Ion and Osmotic Pressure in Hemolymph of Oysters, Crassostrea virginica, Exposed to Tri-N-Butyltin|Arch. Environ. Contam. Toxicol.18(6): 832-838|1989|10.1007/BF01160297
3923|A||Peters,G.T., D.T. Burton, R.L. Paulson, and S.D. Turley|The Acute and Chronic Toxicity of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) to Three Freshwater Invertebrates|Environ. Toxicol. Chem.10:1073-1081|1991|
3924|A||Dawson,D.A., and T.S. Wilke|Evaluation of the Frog Embryo Teratogenesis Assay: Xenopus (FETAX) as a Model System for Mixture Toxicity Hazard Assessment|Environ. Toxicol. Chem.10:941-948|1991|10.1002/etc.5620100710
3925|A||Janz,D.M., and C.D. Metcalfe|Relative Induction of Aryl Hydrocarbon Hydroxylase by 2,3,7,8-TCDD and Two Coplanar PCBs in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.10:917-923|1991|
3926|A||Kakuta,I., K. Namba, K. Uematsu, and S. Murachi|Physiological Response of the Fish, Cyprinus carpio, to Formalin Exposure I. Effects of Formalin on Urine Flow, Heart Rate, Respiration|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 405-411|1991|10.1016/0742-8413(91)90016-M
3927|A||Ghazaly,K.S.|Influences of Thiamin on Lead intoxication, Lead Deposition in Tissues and Lead Hematological Responses of Tilapia zillii|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 417-421|1991|10.1016/0742-8413(91)90018-O
3928|A||Hernandez,D.A., L. Ferrari, M.C. Tortorelli, and A. Salibian|Ecotoxicology of Herbicides: Acute Toxicity of Formulated Paraquat on South American Catfish Juvenile, Rhamdia sapo (Pisces, Pimelodidae)|Comp. Physiol. Ecol.13(2): 41-45|1988|
3929|A||Angelow,R.V., and D.M. Nicholls|The Effect of Mercury Exposure on Liver mRNA Translatability and Metallothionein in Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 439-444|1991|10.1016/0742-8413(91)90021-K
3930|A||Ogle,R.S., and A.W. Knight|Effects of Elevated Foodborne Selenium on Growth and Reproduction of the Fathead Minnow (Pimephales promelas)|Arch. Environ. Contam. Toxicol.18(6): 795-803|1989|10.1007/BF01160293
3931|A||Chen,J.C., and C.Y. Lin|Lethal Effects of Ammonia and Nitrite on Penaeus penicillatus Juveniles at Two Salinity Levels|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 477-482|1991|10.1016/0742-8413(91)90026-P
3932|A||Gill,T.S., H. Tewari, and J. Pande|In Vivo and In Vitro Effects of Cadmium on Selected Enzymes in Different Organs of the Fish Barbus conchonius HAM. (Rosy Barb)|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 501-505|1991|10.1016/0742-8413(91)90030-W
3933|A||Heath,A.G.|Effect of Water-Borne Copper on Physiological Responses of Bluegill (Lepomis macrochirus) to Acute Hypoxic Stress and Subsequent Recovery|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 559-564|1991|10.1016/0742-8413(91)90040-Z
3934|A||Munoz,M.J., M. Carballo, and J.V. Tarazona|The Effect of Sublethal Levels of Copper and Cyanide on Some Biochemical Parameters of Rainbow Trout Along Subacute Exposition|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 577-582|1991|10.1016/0742-8413(91)90043-S
3935|A||Grobler-Van Heerden,E., J.H.J. Van Vuran, and H.H. Du Preez|Bioconcentration of Atrazine, Zinc and Iron in the Blood of Tilapia sparrmanii (Cichlidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 629-633|1991|10.1016/0742-8413(91)90052-U
3936|A||Wakabayashi,M., R. Konno, and T. Nishiido|Relative Lethal Sensitivity of Two Daphnia Species to Chemicals|Tokyo Toritsu Eisei Kenkyusho Nenpo (Annu. Rep. of Tokyo Metropolitan Inst. of Public Health):126-128|1988|
3937|A||Veldhuizen-Tsoerkan,M.B., D.A. Holwerda, C.A. Van der Mast, and D.I. Zandee|Synthesis of Stress Proteins Under Normal and Heat Shock Conditions in Gill Tissue of Sea Mussels (Mytilus edulis) After Chronic Exposure to Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 699-706|1991|10.1016/0742-8413(91)90063-Y
3938|A||Patil,P.S., M.P. Gadkari, and K.M. Kulkarni|Toxicity of Organochlorine Pesticides to the Crab Paratelphusa jacquemontii (Rathbun)|Environ. Ecol.9(3): 804-806|1991|
3939|A||Hanazato,T.|Effects of Repeated Application of Carbaryl on Zooplankton Communities in Experimental Ponds With or Without the Predator Chaoborus|Environ. Pollut.74:309-324|1991|10.1016/0269-7491(91)90078-B
3940|A||Skowronski,T., S. Szubinska, B. Pawlik, M. Jakubowski, R. Bilewicz, and E. Cukrowska|The Influence of pH on Cadmium Toxicity to the Gree Alga Stichococcus bacillaris and on the Cadmium Forms Present in the Culture Medium|Environ. Pollut.74:89-100|1991|10.1016/0269-7491(91)90106-7
3941|A||Hanazato,T.|Effect of Long- and Short-Term Exposure to Carbaryl on Survival, Growth and Reproduction of Daphnia ambigua|Environ. Pollut.74(2): 139-148|1991|10.1016/0269-7491(91)90110-I
3942|A||Reddy,A.T.V., K. Ayyanna, and K. Yellamma|Cypermethrin Induced Modulations in Lipid Metabolism of Freshwater Teleost, Tilapia mossambica|Biochem. Int.23(5): 963-967|1991|
3943|A||Abdel Malik,W.E.Y., and M.M. Ishak|Sorption and Retention of Certain Radionuclides by Some Fresh Water Biota. Part 1:  Biomphalaria alexandrina|Bull. Inst. Oceanogr. Fish.10:57-65|1984|
3944|A||Assem,H.|Potential Use of Physiological Changes as Indices of Stress in the Teleost, Cyprinus carpio|Bull. Inst. Oceanogr. Fish. (Cairo)10:111-121|1984|
3945|A||Soundrapandian,S., and K. Venkataraman|Effect of Heavy Metal Salts on the Life History of Daphnia similis Claus (Crustacea:  Cladocera)|Proc. Indian Acad. Sci. Anim. Sci.99(5): 411-418|1990|10.1007/BF03191875
3946|A||Young-Lai,W.W., M. Charmantier-Daures, and G. Charmantier|Effect of Ammonia on Survival and Osmoregulation in Different Life Stages of the Lobster Homarus americanus|Mar. Biol.110:293-300|1991|10.1007/BF01313716
3947|A||Mayer,F.L.,Jr.|Acute Toxicity Handbook of Chemicals to Estuarine Organisms|EPA 600/8-87-017, U.S.EPA, Gulf Breeze, FL:274 p.|1987|
3948|A||Brafield,A.E., and A.V. Koodie|Effects of Dietary Zinc on the Assimilation Efficiency of Carp (Cyprinus carpio L.)|J. Fish Biol.39:893-895|1991|10.1111/j.1095-8649.1991.tb04418.x
3949|A||Baird,D.J., I. Barber, A.M.V.M. Soares, and P. Calow|An Early Life-Stage Test with Daphnia magna Straus:  An Alternative to the 21-Day Chronic Test?|Ecotoxicol. Environ. Saf.22:1-7|1991|10.1016/0147-6513(91)90040-V
3950|A||Munzinger,A., and F. Monicelli|A Comparison of the Sensitivity of Three Daphnia magna Populations Under Chronic Heavy Metal Stress|Ecotoxicol. Environ. Saf.22:24-31|1991|10.1016/0147-6513(91)90043-O
3951|A||Kirubagaran,R., and K.P. Joy|Changes in Adrenocortical-Pituitary Activity in the Catfish, Clarias batrachus (L.), After Mercury Treatment|Ecotoxicol. Environ. Saf.22:36-44|1991|10.1016/0147-6513(91)90045-Q
3952|A||Dunier,M., A.K. Siwicki, and A. Demael|Effects of Organophosphorus Insecticides: Effects of Trichlorfon and Dichlorvos on the Immune Response of Carp (Cyprinus carpio) III. In Vitro Effects on Lymphocyte Proliferation and Phagocytosis and in Vivo Effects on |Ecotoxicol. Environ. Saf.22:79-87|1991|10.1016/0147-6513(91)90049-U
3953|A||Cvetkovic,A.D., G. Samson, P. Couture, and R. Popovic|Study of Dependency Between Culture Growth and Photosynthetic Efficiency Measured by Fluorescence Induction in Selenastrum capricornutum Inhibited by Copper|Ecotoxicol. Environ. Saf.22:127-132|1991|10.1016/0147-6513(91)90052-Q
3954|A||Rajan,M.T., and T.K. Banerjee|Histopathological Changes Induced by Acute Toxicity of Mercuric Chloride on the Epidermis of Freshwater Catfish - Heteropneustes fossilis (Bloch)|Ecotoxicol. Environ. Saf.22:139-152|1991|10.1016/0147-6513(91)90054-S
3955|A||Ducat,D.A., and M.A.Q. Khan|Biotransformation of the Flame Retardant MC-984 by Goldfish, Carassius auratus|Bull. Environ. Contam. Toxicol.49(4):569-575|1992|
3956|A||Buhl,K.J., and S.J. Hamilton|Relative Sensitivity of Early Life Stages of Arctic Grayling, Coho Salmon, and Rainbow Trout to Nine Inorganics|Ecotoxicol. Environ. Saf.22:184-197|1991|10.1016/0147-6513(91)90058-W
3957|A||El Dib,M.A., S.A. Shehata, and H.F. Abou-Waly|Response of Freshwater Algae (Scenedesmus spp.) to Phenylurea Herbicides|Water Air Soil Pollut.55:295-303|1991|10.1007/BF00211195
3958|A||McCahon,C.P., and D. Pascoe|Brief-Exposure of First and Fourth Instar Chironomus riparius Larvae to Equivalent Assumed Doses of Cadmium: Effects on Adult Emergence|Water Air Soil Pollut.60:395-403|1991|10.1007/BF00282634
3959|A||Neiheisel,T.W., and M.E. Young|Use of Three Artificial Sea Salts to Maintain Fertile Sea Urchins (Arbacia punctulata) and to Conduct Fertilization Tests with Copper and Sodium Dodecyl Sulfate|Environ. Toxicol. Chem.11(8): 1179-1185|1992|10.1002/etc.5620110814
3960|A||MacKinnon,D.L., and A.P. Farrell|The Effect of 2-(Thiocyanomethylthio)Benzothiazole on Juvenile Coho Salmon (Oncorhynchus kisutch):  Sublethal Toxicity Testing|Environ. Toxicol. Chem.11(11): 1541-1548|1992|
3961|A||McElroy,A.E., J.M. Cahill, J.D. Sisson, and K.M. Kleinow|Relative Bioavailability and DNA Adduct Formation of Benzo(a)pyrene and Metabolites in the Diet of the Winter Flounder|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 29-32|1991|10.1016/0742-8413(91)90116-B
3962|A||Narbonne,J.F., D. Ribera, P. Garrigues, M. LaFaurie, and A. Romana|Different Pathways for the Uptake of Benzo(a)pyrene Adsorbed to Sediment by the Mussel Mytilus galloprovincialis|Bull. Environ. Contam. Toxicol.49(1):150-156|1992|
3963|A||Snell,T.W., and B.D. Moffat|A 2-D Life Cycle Test with the Rotifer Brachionus calyciflorus|Environ. Toxicol. Chem.11(9): 1249-1257|1992|
3964|A||Ensenbach,U., and R. Nagel|Toxicokinetics of Xenobiotics in Zebrafish - Comparison Between Tap and River Water|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 49-53|1991|10.1016/0742-8413(91)90120-I
3965|A||Leino,R.L., J.H. McCormick, and K.M. Jensen|Effects of Acid and Aluminum on Swim Bladder Development and Yolk Absorption in the Fathead Minnow, Pimephales promelas|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:37-41|1988|
3966|A||Tas,J.W., W. Seinen, and A. Opperhuizen|Lethal Body Burden of Triphenyltin Chloride in Fish: Preliminary Results|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1/2): 59-60|1991|10.1016/0742-8413(91)90122-A
3967|A||Fernandez-Casalderrey,A., M.D. Ferrando, M. Gamon, and E. Andreu-Moliner|Acute Toxicity and Bioaccumulation of Endosulfan in Rotifer (Brachionus calyciflorus)|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 61-63|1991|10.1016/0742-8413(91)90123-B
3968|A||Aunaas,T., S. Einarson, T.E. Southon, and K.E. Zachariassen|The Effects of Organic and Inorganic Pollutants on Intracellular Phosphate Compounds in Blue Mussels (Mytilus edulis)|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 89-93|1991|10.1016/0742-8413(91)90129-H
3969|A||Nordtug,T., J.F. Borseth, A. Olsen, and K.E. Zachariassen|Measurements of Oxygen Consumption in Mytilus edulis During Exposure to, and Recovery from, High Sublethal Concentrations of Formaldehyde, Benzene and Phenol|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 85-87|1991|10.1016/0742-8413(91)90128-G
3970|A||Ferrando,M.D., and E. Andreu-Moliner|The Effect of Time on Physiological Changes in Eel Anguilla anguilla, Induced by Lindane|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 95-98|1991|10.1016/0742-8413(91)90130-L
3972|A||Sugiura,K.|A Multispecies Laboratory Microcosm for Screening Ecotoxicological Impacts of Chemicals|Environ. Toxicol. Chem.11:1217-1226|1992|10.1002/etc.5620110902
3973|A||Rijstenbil,J.W., and J.A. Wignholds|Copper Toxicity and Adaptation in the Marine Diatom Ditylum brightwellii|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 147-150|1991|10.1016/0742-8413(91)90142-G
3975|A||Tyle,H., M. Egsmose, and N. Harrit|Mixed-Function Oxygenase in Juvenile Rainbow Trout Exposed to Hexachlorobenzene or 3,3',4,4'-Tetrachlorobiphenyl|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1/2): 161-164|1991|10.1016/0742-8413(91)90145-J
3976|A||Steele,C.W., S. Strickler-Shaw, and D.H. Taylor|Behavior of Tadpoles of the Bullfrog, Rana catesbeiana, in Response to Sublethal Lead Exposure|Aquat. Toxicol.14(4): 331-344|1989|10.1016/0166-445X(89)90031-3
3977|A||Huebert,D.B., and J.M. Shay|Zinc Toxicity and Its Interaction with Cadmium in the Submerged Aquatic Macrophyte Lemna trisulca L|Environ. Toxicol. Chem.11(5): 715-720|1992|
3978|A|OECDG|Dutta,H.M., S.S.T. Nasar, J.S.D. Munshi, and C.R. Richmonds|Malathion Induced Changes in the Optomotor Behavior of an Indian Carp, Labeo rohita|Bull. Environ. Contam. Toxicol.49(4): 562-568|1992|10.1007/BF00196299
3979|A||Chen,J.C., and F.H. Nan|Effects of Temperature, Salinity and Ambient Ammonia on Lethal Dissolved Oxygen of Penaeus chinensis Juveniles|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 459-461|1992|10.1016/0742-8413(92)90070-N
3980|A||Richmonds,C.R., and H.M. Dutta|Effect of Malathion on the Brain Acetylcholinesterase Activity of Bluegill Sunfish Lepomis macrochirus|Bull. Environ. Contam. Toxicol.49(3): 431-435|1992|10.1007/BF01239648
3981|A||Wester,P.W.|Histopathological Effects of Environmental Pollutants beta-HCH and Methyl Mercury on Reproductive Organs in Freshwater Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 237-239|1991|10.1016/0742-8413(91)90160-U
3982|A||Oh,Y.K.|Studies on Environmental Factors Affecting the Bioconcentration of Mercury in Water - An Example in Fish|Bull. Natl. Fish. Res. Dev. Agency (Korea)43:57-89|1989|
3984|A||Akarte,S.R., K.R. Rao, and D.A. Kulkarni|Acute Toxicity of Metasystox to an Esturine Lamellibranch Mollusc, Paphia laterisulca from Ratnagiri Coast, India|Int. J. Ecol. Environ. Sci.12:125-129|1986|
3985|A||Ajmalkhan,S., K. Rajendran, and R. Natarajan|Effect of Zinc on Zoeal Development of the Estuarine Hermit Crab Clibanarius olivaceus (Henderson)|Proc. Indian Acad. Sci. Anim. Sci.95(5): 515-524|1986|10.1007/BF03179413
3986|A||Agrawal,H.P.|The Accumulation of Biocide Residues in a Few Tissues of Lamellidens marginalis|J. Anim. Morphol. Physiol.33(1-2): 45-50|1986|
3987|A||Ram,M.D., P.K. Verma, and K. Gopal|Effects of Lindane on the Levels of Biogenic Amines in Various Parts of Brain of Fresh Water Fish, Channa punctatus (Bloch)|J. Adv. Zool.11(2): 79-84|1990|
3988|A||Reddy,M.S., P. Jayaprada, and K.V.R. Rao|Recovery of Carbaryl Inhibited AChE in Penaeid Prawn, Metapenaeus monoceros|Biochem. Int.22(1): 189-198|1990|
3989|A||Newman,M.C., S.A. Diamond, M. Mulvey, and P. Dixon|Allozyme Genotype and Time to Death of Mosquitofish, Gambusia affinis (Baird and Girard) During Acute Toxicant Exposure: A Comparison of Arsenate and Inorganic Mercury|Aquat. Toxicol.15(2): 141-156|1989|10.1016/0166-445X(89)90012-X
3990|A||Reddy,A.T.V., and K. Yellamma|Perturbations in Carbohydrate Metabolism During Cypermethrin Toxicity in Fish, Tilapia mossambica|Biochem. Int.23(4): 633-638|1991|
3991|A||Reddy,M.S., and K.V.R. Rao|Phosphamidon, Methylparathion and Dichlorvos Impact on Tissue Oxidative Metabolism in Penaeid Prawn, Metapenaeus monoceros|Biochem. Int.23(3): 439-447|1991|
3992|A||Reddy,M.S., and K.V.R. Rao|Tissue Glycolytic Potentials of Penaeid Prawn, Metapenaeus monoceros During Methylparathion, Carbaryl and Aldrin Exposure|Biochem. Int.23(2): 367-375|1991|
3993|A||Reddy,M.S., and K.V.R. Rao|Methylparathion, Carbaryl and Aldrin Impact on Nitrogen Metabolism of Prawn, Penaeus indicus|Biochem. Int.23(2): 389-396|1991|
3994|A||Supamataya,K., P. Papong, and W. Phromkunthong|Phytotoxicity of Herbicides in Water.  I.  Acute Toxicity of Imazapyron Nile Tilapia (Sarotherodon niloticus) and Silver Barb (Puntius goninotus)|Songklanakarin J. Sci. Technol.9(3): 309-313|1981|
3996|A||Hlohowskyj,I., and N. Chagnon|Reduction in Tolerance to Progressive Hypoxia in the Central Stoneroller Minnow Following Sublethal Exposure to Phenol|Water Air Soil Pollut.60(1-2): 189-196|1991|10.1007/BF00293974
3997|A||Ghazaly,K.S.|Physiological Alterations in Claria lazera Induced by Two Different Pollutants|Water Air Soil Pollut.60(1/2): 181-187|1991|10.1007/BF00293973
3998|A||Hermanutz,R.O., K.N. Allen, T.H. Roush, and S.F. Hedtke|Effects of Elevated Selenium Concentrations on Bluegills (Lepomis macrochirus) in Outdoor Experimental Streams|Environ. Toxicol. Chem.11(2): 217-224|1992|10.1002/etc.5620110211
3999|A||Tsuda,T., S. Aoki, M. Kojima, and T. Fujita|Accumulation and Excretion of Tri-n-Butyltin Chloride and Triphenyltin Chloride by Willow Shiner|Comp. Biochem. Physiol. C Comp. Pharmacol.101(1): 67-70|1992|10.1016/0742-8413(92)90201-H
4000|A||Hille,S., R. Hoffmann, H. Wagner, and M. Bohl|Effect of Periodic, Long Time Copper Exposition upon Rainbow-Trouts (Salmo gairdneri Rich.) - Clinic-Chemical and Histological Investigations (Zur Wirkung von Periodischen, Langfristigen Kupferexpositionen auf Regenboge|Fisch Umwelt (Multiple Languages)13:179-186|1984|
4001|A||Walsh,A.R., J. O'Halloran, and A.M. Gower|Some Effects of Elevated Levels of Chromium (III) in Sediments to the Mullet Chelon labrosus (R.)|Ecotoxicol. Environ. Saf.27(2): 168-176|1994|10.1006/eesa.1994.1014
4002|A||Fargasova,A.|Toxicity of Metals on Daphnia magna and Tubifex tubifex|Ecotoxicol. Environ. Saf.27(2): 210-213|1994|10.1006/eesa.1994.1017
4003|A||Reddy,P.S., and A. Bhagyalakshmi|Modulation of Protein Metabolism in Selected Tissues of the Crab, Oziotelphusa senex senex (Fabricius), Under Fenvalerate-Induced Stress|Ecotoxicol. Environ. Saf.27(2): 214-219|1994|10.1006/eesa.1994.1018
4004|A||Dunier,M., and A.K. Siwicki|Effects of Lindane Exposure on Rainbow Trout (Oncorhynchus mykiss) Immunity|Ecotoxicol. Environ. Saf.27(1): 1-6|1994|10.1006/eesa.1994.1001
4005|A||Davenport,R., L.R. Johnson, D.J. Schaeffer, and H. Balbach|Phototoxicology. 1. Light-Enhanced Toxicity of TNT and Some Related Compounds to Daphnia magna and Lytechinus variagatus Embryos|Ecotoxicol. Environ. Saf.27(1): 14-22|1994|10.1006/eesa.1994.1003
4006|A||Johnson,L.R., R. Davenport, H. Balbach, and D.J. Schaeffer|Phototoxicology. III. Comparative Toxicity of Trinitrotoluene and Aminodinitrotoluenes to Daphnia magna, Dugesia dorotocephala, and Sheep Erythrocytes|Ecotoxicol. Environ. Saf.27(1):34-49|1994|10.1006/eesa.1994.1005
4007|A||Reish,D.J., and T.V. Gerlinger|The Effects of Cadmium, Lead, and Zinc on Survival and Reproduction in the Polychaetous annelid Neanthes arenaceodentata (F.Nereididae)|In: P.A.Hutchings (Ed.), Proc.of the First Int.Polychaete Conf., Sydney, Aust., July 1983, The Linnean Society of New South Wales, Australia:383-389|1984|
4008|A||Schafer,H., H. Hettler, U. Fritsche, G. Pitzen, G. Roderer, and A. Wenzel|Biotests Using Unicellular Algae and Ciliates for Predicting Long-Term Effects of Toxicants|Ecotoxicol. Environ. Saf.27(1): 64-81|1994|10.1006/eesa.1994.1007
4009|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Effect of Sublethal Concentrations of Pesticides on the Feeding Behavior of Daphnia magna|Ecotoxicol. Environ. Saf.27(1): 82-89|1994|10.1006/eesa.1994.1008
4010|A||Maarouf,A.M., A. Mouabad, and J.C. Pihan|Zinc Bioaccumulation and Release by Dreissena polymorpha (Pallas)|Haliotis18:251-259|1988|
4011|A||Breneman,D.H., and K.W. Pontasch|Stream Microcosm Toxicity Tests: Predicting the Effects of Fenvalerate on Riffle Insect Communities|Environ. Toxicol. Chem.13(3): 381-387|1994|10.1002/etc.5620130304
4012|A||Kiffney,P.M., and W.H. Clements|Structural Responses of Benthic Macroinvertebrate Communities from Different Stream Orders to Zinc|Environ. Toxicol. Chem.13(3): 389-395|1994|10.1002/etc.5620130305
4013|A||Ueng,Y.F., C. Liu, C.F. Lai, L.M. Meng, Y.Y. Hung, and T.H. Ueng|Effects of Cadmium and Environmental Pollution on Metallothionein and Cytochrome P450 in Tilapia|Bull. Environ. Contam. Toxicol.57(1):125-131|1996|10.1007/s001289900165
4014|A||McNulty,H.R., B.S. Anderson, J.W. Hunt, S.L. Turpen, and M.M. Singer|Age-Specific Toxicity of Copper to Larval Topsmelt Atherinops affinis|Environ. Toxicol. Chem.13(3): 487-492|1994|
4015|A||Ham,K.D., and M.J. Peterson|Effects of Fluctuating Low-Level Chlorine Concentrations on Valve-Movement Behavior of the Asiatic Clam (Corbicula fluminea)|Environ. Toxicol. Chem.13(3): 493-498|1994|
4016|A||Byl,T.D., H.D. Sutton, and S.J. Klaine|Evaluation of Peroxidase as a Biochemical Indicator of Toxic Chemical Exposure in the Aquatic Plant Hydrilla verticillata, Royle|Environ. Toxicol. Chem.13(3): 509-515|1994|10.1002/etc.5620130322
4017|AT||Steelman,C.D., J.E. Farlow, T.P. Breaud, and P.E. Schilling|Effects of Growth Regulators on Psorophora columbiae (Dyar and Knab) and Non-Target Aquatic Insect Species in Rice Fields|Mosq. News35(1): 67-76|1975|
4018|A||Cope,W.G., J.G. Wiener, and G.J. Atchison|Hepatic Cadmium, Metal-Binding Proteins and Bioaccumulation in Bluegills Exposed to Aqueous Cadmium|Environ. Toxicol. Chem.13(4): 553-562|1994|
4019|A||Ankley,G.T., D.J. Call, J.S. Cox, M.D. Kahl, R.A. Hoke, and P.A. Kosian|Organic Carbon Partitioning as a Basis for Predicting the Toxicity of Chlorpyrifos in Sediments|Environ. Toxicol. Chem.13(4): 621-626|1994|10.1002/etc.5620130411
4020|A||Singer,M.M., S. George, S. Jacobson, I. Lee, R.S. Tjeerdema, and M.L. Sowby|Comparative Effects of Oil Dispersants to the Early Life Stages of Topsmelt (Atherinops affinis) and Kelp (Macrocystis pyrifera)|Environ. Toxicol. Chem.13(4): 649-655|1994|10.1002/etc.5620130415
4021|A||Berrill,M., S. Bertram, L. McGillivray, M. Kolohon, and B. Pauli|Effects of Low Concentrations of Forest-Use Pesticides on Frog Embryos and Tadpoles|Environ. Toxicol. Chem.13(4): 657-664|1994|
4022|A||Gupta,A.K., D. Dutt, M. Anand, and R.C. Dalela|Combined Toxicity of Chlordane, Malathion and Furadan to a Test Fish Notopterus notopterus (Mor)|J. Environ. Biol.15(1): 1-6|1994|
4023|A||Kanagaraj,M.K., M. Ramesh, and R. Manavalaramanujam|Inhibitory Effect of Cadmium Chloride on Limb Regeneration on a Freshwater Crab Paratelphusa hydrodromous (Herbts)|J. Environ. Biol.15(1):21-25|1994|
4024|A||Chandravathy,V.M., and S.L.N. Reddy|In Vivo Recovery of Protein Metabolism in Gill and Brain of a Freshwater Fish, Anabas scandens After Exposure to Lead Nitrate|J. Environ. Biol.15(1): 75-82|1994|
4025|A||Kock,G., F. Bucher, and R. Hofer|Effects of Zinc in Water and Diet on Rainbow Trout: Accumulation and Histopathology|In: 12th ESCPB - Conference, Physiological and Biochemical Approaches to the Toxicological Assessment of Environmental Pollution, Royal Netherlands Chemical Society, Aug.27-31, 1990, Utrecht, Netherlands:2 p.|1990|
4026|A||Huang,G., Z. Bai, S. Dai, and Q. Xie|Accumulation and Toxic Effect of Organometallic Compounds on Algae|Appl. Organomet. Chem.7(6): 373-380|1993|10.1002/aoc.590070604
4027|A||Goerke,H.|Testing the Fate of Xenobiotics in Nereis diversicolor and Nereis virens (Polychaeta)|In: Persoone,G., E.Jaspers, and C.Claus (Eds.), Ecotoxicol.Testing for the Mar.Environ., State Univ.Ghent and Inst.Mar.Sci.Res., Bredene, Belgium2:53-66|1984|
4028|A||Drbal,K., and Z. Svobodova|Copper Content in Fish After Short-Time Exposure to Cupric Sulphate Pentahydrate|Bull. V. U. R. H. Vodnany (Non-English)16(4): 9-13|1980|
4029|A||Lebedeva,A.F., I.B. Savelyev, and Y.V. Savanina|Freshwater Macroalgae as Test-Cultures on Vanadium Content in Medium|Vestn Mosk Univ Ser XVI Biol Pochvoved2:12-17|1993|
4030|A||Christiansen,E.|Effects of a Chytin Synthesis Inhibitor Insecticide on Crab Larvae|In: 3rd Colloquium: Mediterranean Crustacea Decapoda, Mar.25, 1985, Barcelona:526-527|1987|
4031|AT||Chuanqun,C., Y. Xu, Q. Zhang, and Z. Sun|Absorption of Cesium-134 by Aquatic Plants|Henong Xuebao4(3): 139-144|1990|
4032|A||Steffens,W., T. Mattheis, and M. Riedel|Field Observations on the Production of Rainbow Trout (Oncorhynchus mykiss) Under high Concentrations of Water-Borne Iron|Aquat. Sci.55(3):173-178|1993|10.1007/BF00877446
4033|A||Dauba,F., J. Kugler, A. Belaud, and R. Labat|Signs of the Sub-lethal Ammonia Toxicity to Rainbow Trout in Natural Streams|Ichtyophysiol. Acta15:99-114|1992|
4035|A||Leelhaphunt,O., E.S. Upatham, B. Poolsanguan, M. Duangsawasdi, and P. Kiravanich|Effects of Water Hardness and Temperature on Toxicity of Detergents to the Freshwater Prawn Macrobrachium rosenbergii De Man|Nat. Hist. Bull. Siam Soc.35(1/2): 35-46|1987|
4036|A||Benyahia,M., C. Crochard, and J.C. Pihan|Toxicity, Uptake and Release of Lead by Dreissena polymorpha. Effects of EDTA and Phosphates|Haliotis18:239-249|1988|
4037|A||Wildgust,M.A., and M.B. Jones|Salinity Change and the Toxicity of the Free Cadmium Ion [Cd2+(aq)] to Neomysis integer (Crustacea:Mysidacea)|Aquat. Toxicol.41(3):187-192|1998|10.1016/S0166-445X(97)00105-7
4038|A||Benoit-Guyod,J.L., C. Andre, and ad K. Clavel|Chlorophenols: Degradation and Toxicity (Chlorophenols: Degradation et Toxicite)|J. Fr. Hydrol.15(3): 249-266|1984|
4039|A||Mishra,D.K., P.C. Tripathy, and A.K. Hota|Toxicity of Kilex Carbaryl to a Fresh Water Teleost Channa punctatus (Bloch)|J. Appl. Zool. Res.2(2): 96-98|1991|
4040|A||Thursby,G.B., and R.L. Steele|Toxicity of Arsenite and Arsenate to the Marine Macroalga champia parvula (Rhodophyta)|Environ. Toxicol. Chem.3:391-397|1984|10.1002/etc.5620030304
4041|A||Raspor,B., J. Pavicic, and M. Branica|Cadmium-Induced Proteins from Mytilus galloprovincialis - Polarographic Characterization and Study of Their Interaction with Cadmium|Mar. Chem.28(1-3):199-214|1989|10.1016/0304-4203(89)90195-3
4042|A||Ballal,C.D., T.R.C. Gupta, and K.N. Prabhudeva|Lethal Effects of Ekalux on Various Life History Stages of Three Indian Major Carps|In: R.Hirano and I.Hanyu (Eds.), Proceedings of the 2nd Asian Fisheries Forum, Tokyo, Japan:943-946|1990|
4043|A||Ismail,P., M.N. Mohamad, and S.H. Cheah|Toxicity of Copper to Larval and Postlarval Stages of Macrobrachium rosenbergii (De Man)|In: R.Hirano and I.Hanyu (Eds.), Proceedings of the 2nd Asian Fisheries Forum, Tokyo, Japan:927-930|1990|
4044|A||Kothari,S., and G. Suneeta|Studies on the Accumulation and Toxicity of Zinc Sulfate in the Liver of a Catfish Heteropneustes fossilis (Bloch)|In: R.Hirano and I.Hanyu (Eds.), Proceedings of the 2nd Asian Fisheries Forum, Tokyo, Japan:947-950|1990|
4045|A||Pramanik,A., and P.K. Sur|Acute Toxicity of Sumithion to Oreochromis mossambicus, Diaptomus forbesi and Branchiura sowerbyi|In: R.Hirano and I.Hanyu (Eds.), Proceedings of the 2nd Asian Fisheries Forum, Tokyo, Japan:919-922|1990|
4046|A||Arunachalam,S., S. Palanichamy, M. Vasanthi, and P. Baskaran|The Impact of Pesticides on the Feeding Energetics and Body Composition in the Freshwater Catfish Mystus vittatus|In: R.Hirano and I.Hanyu (Eds.), Proceedings of the 2nd Asian Fisheries Forum, Tokyo, Japan:939-941|1990|
4047|A||Ozretic,B., and M. Krajnovic-Ozretic|Sea Urchin Gametes and Their Developing Embryos in Marine Toxicology Studies|FAO Fish. Rep.334:111-121|1986|
4048|A||Lay,J.P., and M.E. Herrmann|Ecotoxicological Effects of Trichloroethene upon Plankton|Toxicol. Environ. Chem.31-32:409-416|1991|10.1080/02772249109357715
4049|A||Rosales-Casian,J.A., I. Alfonso-Hernandez, and M.G. Hammann|Effect of Seawater Chlorination on the Survival and Growth of Grunion (Leuresthes tenuis Ayres) Larvae, in Laboratory Conditions|Cienc. Mar.16(2):31-46|1990|10.7773/cm.v16i2.693
4050|A||Rosales-Casian,J.A.|Seawater Chlorination and the Survival and Growth of Early Life Stages of Northern Anchovy (Engraulis mordax Girard), with Reference to Power Plant|Cienc. Mar.17(1):99-117|1991|10.7773/cm.v17i1.777
4055|A||Lee,S.K., D. Freitag, C. Steinberg, A. Kettrup, and Y.H. Kim|Effects of Dissolved Humic Materials on Acute Toxicity of Some Organic Chemicals to Aquatic Organisms|Water Res.27(2): 199-204|1993|10.1016/0043-1354(93)90076-T
4056|A||Steinberg,C.E.W., A. Sturm, J. Kelbel, S.K. Lee, N. Hertkorn, D. Freitag, and A.A. Kettrup|Changes of Acute Toxicity of Organic Chemicals to Daphnia magna in the Presence of Dissolved Humic Material (DHM)|Acta Hydrochim. Hydrobiol. (Multiple Languages)20(6): 326-332|1992|10.1002/aheh.19920200603
4057|T||Walsh,G.E., D.E. Weber, T.L. Simon, L.K. Brashers, and J.C. Moore|Use of Marsh Plants for Toxicity Testing of Water and Sediment|ASTM Spec. Tech. Publ.2:341-354|1991|
4059|A||Brungs,W.A.|Toxic Effects on Fish of Two Dispersants Used to Introduce Organic Pesticides into Water|Manuscr., U.S.EPA, ERL-Narragansett, RI:9 p.|1982|
4060|A||Gustavson,K., and S.A. Wangberg|Tolerance Induction and Succession in Microalgae Communities Exposed to Copper and Atrazine|Aquat. Toxicol.32(4): 283-302|1995|10.1016/0166-445X(95)00002-L
4061|A||Scott,J., and M.S. Redmond|Acute Toxicity Tests with Chloropyrifos|Memo D.J.Hansen, U.S.EPA, Narragansett, RI:3 p.|1986|
4062|T||Howard,P.H., and M. Neal|Dictionary of Chemical Names and Synonyms|P.H.Howard and M.Neal (Eds.), Lewis Publ., Chelsea, MI:|1992|
4063|A||Capelo,S., M.F. Vilhena, M.L.S. Simoes Goncalves, and M.A. Sampayo|Effect of Lead on the Uptake of Nutrients by Unicellular Algae|Water Res.27(10): 1563-1568|1993|10.1016/0043-1354(93)90101-M
4064|A||Garman,G.D., M.C. Pillai, and G.N. Cherr|Inhibition of Cellular Events During Early Algal Gametophyte Development: Effects of Select Metals and an Aqueous Petroleum Waste|Aquat. Toxicol.28(1/2): 127-144|1994|10.1016/0166-445X(94)90025-6
4065|A||Hektoen,H., A. Bernhoft, K. Ingebrigtsen, J.U. Skaare, and A. Goksoyr|Response of Hepatic Xenobiotic Metabolizing Enzymes in Rainbow Trout (Oncorhynchus mykiss) and Cod (Gadus morhua) to 2,3,7,8-Tetrachlorodibenzo-p-|Aquat. Toxicol.28(1-2):97-106|1994|10.1016/0166-445X(94)90023-X
4066|A||James,M.O., W.E. Hawkins, and W.W. Walker|Phase 1 and Phase 2 Biotransformation and Carcinogenicity of 2-Acetylaminofluorene in Medaka and Guppy|Aquat. Toxicol.28(1-2):79-95|1994|10.1016/0166-445X(94)90022-1
4067|A||De Wolf,W., B. Mast, E.S.E. Yedema, W. Seinen, and J.L.M. Hermens|Kinetics of 4-Chloroaniline in Guppy, Poecilia reticulata|Aquat. Toxicol.28(1/2): 65-78|1994|10.1016/0166-445X(94)90021-3
4068|A||Hasspieler,B.M., J.V. Behar, D.B. Carlson, D.E. Watson, and R.T. Di Giulio|Susceptibility of Channel Catfish (Ictalurus punctatus) and Brown Bullhead (Ameriurus nebulosus) to Oxidative Stress: A Comparative Study|Aquat. Toxicol.28(1-2): 53-64|1994|10.1016/0166-445X(94)90020-5
4070|A||Anton,F.A., E. Laborda, and M. De Ariz|Acute Toxicity of the Herbicide Glyphosate to Fish|Chemosphere28(4): 745-753|1994|10.1016/0045-6535(94)90228-3
4071|A||Smith,S., V.J. Furay, P.J. Layiwola, and J.A. Menezes-Filho|Evaluation of the Toxicity and Quantitative Structure-Activity Relationships (QSAR) of Chlorophenols to the Copepodid Stage of a Marine Copepod (Tisbe battagliai) and Two Species of Benthic Flatfish, the Flounder (Plati|Chemosphere28(4): 825-836|1994|10.1016/0045-6535(94)90234-8
4072|A||Roghair,C.J., A. Buijze, E.S.E. Yedema, and J.L.M. Hermens|A QSAR for Base-Line Toxicity to the Midge Chironomus riparius|Chemosphere28(5): 989-997|1994|10.1016/0045-6535(94)90015-9
4073|A||Pavicic,J., M. Skreblin, I. Kregar, M. Tusek-Znidaric, and P. Stegnar|Embryo-Larval Tolerance of Mytilus galloprovincialis, Exposed to the Elevated Sea Water Metal Concentrations-I. Toxic Effects of Cd, Zn and Hg in|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(2): 249-257|1994|
4074|A||Marek,J., E. Szulkowska-Wojaczek, and Z. Czarna|The Effect of Copper (Cu2+) on Carp (Cyprinus carpio L.) Juveniles in a Laboratory Experiment|Pol. Arch. Hydrobiol.38(3-4): 485-494|1991|
4075|A||Mohapatra,B.C., and A. Noble|Changes in Oxygen Uptake in Mullet, Liza parsia (Hamilton-Buchanan) Exposed to Dichlorvos|Fish. Technol.30(2):112-114|1993|
4076|A||Kuo,C.H., T.S. Lai, P.H. Chang, and R.S. Liu|Effects of Copper Sulfate on Kuruma Prawn (Penaeus japonica) and Culture Environments|Guoli Taiwan Daxue Nongxueyuan Yangjiu Baogao32(3): 226-234|1992|
4077|A||Henke,G.A.|Testing of Oil Dispersants in Seawater|In: Mar.Res.Invest.of Oil Accidents Meeting of the Working Group of Mar.Res.Investigations on Oil Accidents in Loccum 18-20, Sept.1985:195-207|1987|
4078|A||Low,K.S., and C.K. Lee|Cyanide Uptake by Water Hyacinths, Eichhornia crassipes (Mart) Solms|Pertanika4(2): 122-128|1981|
4079|A||Ravikumar,S.S.|Effects of Pesticides on the Cultivable Carps|Mysore J. Agric. Sci.20(1): 88-|1986|
4080|A||Kaixian,Q., and H. Ying|Toxic Concentration and Accumulation of Silver in Some Algae|Nanjing Daxue Xuebao, Ziran Kexue (J. Nanjing Univ. , Nat. Sci. )25(3): 132-138|1989|
4081|A||Padmaja,K., and M.B. Rao|The Effect of Metacid and Endosulfan on the Respiration of the Freshwater Snail Bellamya dissimilis (Muller)|Indian J. Comp. Anim. Physiol.9(2): 108-111|1991|
4082|A||Lemay,J.A., and D.J. Reish|The Transfer of Cadmium from the Polychaete, Neanthes arenaceodentata, to the Arrow Goby, Clevelandia ios|In: Malagrino,G.and H.Santoyo (Eds.), Proc.of the 5th Symp.of Marine Biology, 24-26 October 1984, La Paz, B.C.S., Mexico, Autonoma de Baja California Sur, La Paz, B.C.S.:31-37|1987|
4084|A||Thomas,R.E., and S.D. Rice|Metabolism and Clearance of Phenolic and Mono-, Di-, and Polynuclear Aromatic Hydrocarbons by Dolly Varden Char|In: W.B.Vernberg (Ed.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, London, UK:161-176:|1982|
4085|A||Crunkilton,R.L.|Bioavailability of Technical Chlordane to Channel Catfish (Ictalurus punctatus)|Ph.D. Thesis, University of Missouri, Columbia, MO:314 p.|1990|
4086|A||Richmonds,C.R.|Effects of Malathion on Some Physiological, Histological and Behavioral Aspects of Bluegill Sunfish Lepomis macrochirus|Ph.D.Thesis, Kent State University, Kent, OH:153 p.|1989|
4087|A||Gendusa,A.C.|Toxicity of Chromium and Fluoranthene from Aqueous and Sediment Sources to Selected Freshwater Fish|Ph.D.Thesis, University of North Texas, Denton, TX:138 p.|1990|
4088|A||Huey,D.W.|Lethal and Sublethal Effects of Hemoxidants, Particularly Nitrite, on Selected Aquatic Animals|Ph.D.Thesis, University of North Texas, Denton, TX:120 p.|1982|
4089|A||Morris,R.G.|Pyrethroid Insecticide Effects on Bluegill Sunfish (Lepomis macrochirus) and the Impacts of Bluegill Predation on Invertebrates in Microcosms|M.S.Thesis, University of North Texas, Denton, TX:101 p.|1991|
4090|A||Bologa,A.S.|Uptake of 59Fe, 65Zn and 85Sr by Mytilus galloprovincialis and Mya arenaria from the Romanian Black Sea Shore|Cercet. Mar. (Rech. Mar. )17:285-295|1984|
4091|A||Verriopoulos,G.|Effects of Sublethal Concentrations of Zinc, Chromium and Copper on the Marine Copepods Tisbe holothuriae and Acartia clausi|MAP Tech. Rep. Ser. (Multiple Languages)69:265-275|1992|
4092|A||Chapman,P.M., and C. McPherson|Comparative Zinc and Lead Toxicity Tests with Arctic Marine Invertebrates and Implications for Toxicant Discharges|Polar Rec.29(168): 45-54|1993|10.1017/S0032247400023202
4093|A||Ruizzo,M.A., R. Bertekap, and M.L. Mishkind|Consequences of Herbicide-Induced Pigment Deficiencies on Thylakoid Membrane Proteins of Chlamydomonas reinhardtii|Plant Sci.81(1): 13-20|1992|10.1016/0168-9452(92)90019-I
4094|A||Beaumont,A.R., P.B. Newman, and J. Smith|Some Effects of Tributyltin from Anti-Fouling Paints on Early Development and Veliger Larvae of the Mussel Mytilus edulis|In: Proceedings of the 9th International Malacological Congress, Edinburgh:55-63|1992|
4095|A||Fivelstad,S., and H. Leivestad|Aluminium Toxicity to Atlantic Salmon (Salmo salar L.) and Brown Trout (Salmo trutta L.):  Mortality and Physiological Response|Report No.61, Institute of Freshwate Research, National Swedish Board of Fisheries, Drottningholm, Sweden:70-77|1984|
4096|A||Choudhury,C., A.K. Ray, and S. Bhattacharya|Non Lethal Concentrations of Pesticide Impair Ovarian Function in the Freshwater Perch, Anabas testudineus|Environ. Biol. Fishes36(3): 319-324|1993|10.1007/BF00001728
4097|A||Guillen,J.L., M. Endo, J.F. Turnbull, H. Kawatsu, R.H. Richards, and T. Aoki|Depressed Growth Rate and Damage to the Cartilage of Red Sea Bream Larvae Associated with Exposure to Ammonia|Nippon Suisan Gakkaishi (Multiple Languages)59(7): 1231-1234|1993|10.2331/suisan.59.1231
4098|A||Parrott,J.L., and J.B. Sprague|Patterns in Toxicity of Sublethal Mixtures of Metals and Organic Chemicals Determined by Microtox and by DNA, RNA, and Protein Content of Fathead Minnows (Pimephales promelas)|Can. J. Fish. Aquat. Sci.50(10): 2245-2253|1993|10.1139/f93-250
4099|A||Dyer,J.R., D. Forgie, B.B. Martin, and D.F. Martin|Effects of Selected Copper(II)-Chelate Compounds on the Rates of Production of Oxygen by Filamentous Algae|Biomed. Lett.47(188): 363-369|1992|
4100|A||Benner,D.B., and R.S. Tjeerdema|Toxicokinetics and Biotransformation of Pentachlorophenol in the Topsmelt (Atherinops affinis)|J. Biochem. Toxicol.8(3): 111-117|1993|10.1002/jbt.2570080302
4101|A||Bonner,J.C., and J.D. Yarbrough|Role of the Brain t-Butylbicyclophosphorothionate Receptor in Vertebrate Resistance to Endrin, 1,1,1-Trichloro-2,2-bis(p-Chlorophenyl)Ethane and Cypermethrin|J. Pharmacol. Exp. Ther.249(1): 149-154|1989|
4102|A||Bonner,J.C., and J.D. Yarbrough|Alteration of the t-Butylbicyclophosphorothionate Binding Site as a Mechanism of Vertebrate Cyclodiene Insecticide Resistance|Pestic. Biochem. Physiol.29(3):260-265|1987|10.1016/0048-3575(87)90156-8
4103|A||Glynn,P.W., L.S. Howard, E. Corcoran, and A.D. Freay|Preliminary Investigations into the Occurrence and Toxicity of Commercial Herbicide Formulations in Reef Building Corals|In: Coral Reef Population Biology, Sea Grant Coop.Rep., Hawaii Univ.:473-485|1986|
4104|A||Chung,K., J.B. Wallace, and J.W. Grubaugh|The Impact of Insecticide Treatment on Abundance, Biomass and Production of Litterbag Fauna in a Headwater Stream: A Study of Pretreatment, Treatment and Recovery|Limnologica28(2): 93-106|1993|
4105|A||Birmingham,B.C., M. Thorndyke, and B. Colman|The Dynamics and Persistence of the Herbicide Aquakleen in Small Artificial Ponds and Its Impact on Non-Target Aquatic Microflora and Microfauna|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1151:12-23|1983|
4106|A||Lang,T., G. Peters, R. Hoffmann, and E. Meyer|Experimental Investigations on the Toxicity of Ammonia: Effects on Ventilation Frequency, Growth, Epidermal Mucous Cells, and Gill Structure of Rainbow Trout Salmo gairdneri|Dis. Aquat. Org.3:159-165|1987|10.3354/dao003159
4107|A||Perrin,C.J., and M.L. Bothwell|Chlorate Discharges from Pulp Mills: An Examination of Effects on River Algal Communities|Water Pollut. Res. J. Can.27(3):473-485|1992|
4108|A||Hansen,L.G., W.M. Tehseen, G.L. Foley, and D.J. Schaeffer|Modification by Polychlorinated Biphenyls (PCBs) of Cadmium Induced Lesions in the Planarian Model, Dugesia dorotocephala|Biomed. Environ. Sci.6(4): 367-384|1993|
4109|A||Pawlik,B., and T. Skowronski|Transport and Toxicity of Cadmium: Its Regulation in the Cyanobacterium Synechocystis aquatilis|Environ. Exp. Bot.34(2): 225-233|1994|10.1016/0098-8472(94)90043-4
4110|A||DeLisle,P.F.,Jr.|The Effect of Salinity on Cadmium Toxicity in the Estuarine Mysid Mysidopsis bahia:  Roles of Osmoregulation and Calcium|Mar. Environ. Res.37(1): 47-62|1994|10.1016/0141-1136(94)90062-0
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4224|A||Cooney,J.C., and E. Pickard|Field Tests with Abate and Dursban Insecticides for Control of Floodwater Mosquitoes in the Tennessee Valley Region|Mosq. News34(1): 12-22|1974|
4225|A||Goodman,L.R., D.J. Hansen, D.P. Middaugh, G.M. Cripe, and J.C. Moore|Method for Early Life-Stage Toxicity Tests Using Three Atherinid Fishes and Results with Chlorpyrifos|ASTM Spec. Tech. Publ.:145-154|1985|
4226|A||Hogstrand,C., R.W. Wilson, D. Polgar, and C.M. Wood|Effects of Zinc on the Kinetics of Branchial Calcium Uptake in Freshwater Rainbow Trout During Adaptation to Waterborne Zinc|J. Exp. Biol.186:55-73|1994|10.1242/jeb.186.1.55
4227|A||Ghate,H.V.|Toxicity and Teratogenic Effects of Carbon Disulphide in Frog Embryo|Riv. Biol.78(1): 129-132|1985|
4228|A||Good,M.L., D.S. Dundee, and G. Swindler|Bioassays and Environmental Effects of Organotin Marine Antifoulants|In: R.W.Baker (Ed.), Controlled Release of Bioactive Materials, 6th Symposium, Academic Press, NY:387-397|1980|
4229|A||Meador,J.P., F.B. Taub, and T.H. Sibley|Copper Dynamics and the Mechanism of Ecosystem Level Recovery in a Standardized Aquatic Microcosm|Ecol. Appl.3(1): 139-155|1993|10.2307/1941797
4230|A||Bolanos,L., M. Garcia-Gonzalez, P. Mateo, and I. Bonilla|Differential Toxicological Response to Cadmium in Anabaena Strain PCC 7119 Grown with NO3- or NH4+ as Nitrogen Source|J. Plant Physiol.140(3): 345-349|1992|10.1016/S0176-1617(11)81090-4
4231|A||Law,J.M., W.E. Hawkins, R.M. Overstreet, and W.W. Walker|Hepatocarcinogenesis in Western Mosquitofish (Gambusia affinis) Exposed to Methylazoxymethanol Acetate|J. Comp. Pathol.110(2): 117-127|1994|10.1016/S0021-9975(08)80183-1
4232|A||Stubblefield,W.A., B.L. Steadman, T.W. LaPoint, and H.L. Bergman|Affects of Acclimation upon the Toxicity of Zinc, Cadmium and Phenol on Adult and Fry Rainbow Trout|Am. Fish. Soc. Symp.115:3-|1985|
4233|A||Klauda,R.J.|Influence of Delayed Initial Feeding on Mortality of Striped Bass Larvae Exposed to Arsenic and Selenium|Am. Fish. Soc. Symp.115:92-93|1985|
4234|A||Alkahem,H.F.|Ethological Responses and Changes in Hemoglobin and Glycogen Content of the Common Carp, Cyprinus carpio, Exposed to Cadmium|Asian Fish. Sci.6(1):81-90|1993|
4235|A||Kean,J.C., J.D. Castell, E.W. Pass, and C.L. Chou|Feeding Trials with Juveniles of the American Lobster Homarus americanus Milne-Edwards Using Various Levels of Dietary Ascorbic Acid and Copper|J. Shellfish Res.5(1): 38-|1985|
4236|A||Johansen,K., and F. Mohlenberg|Impairment of Egg Production in Acartia tonsa Exposed to Tributyltin Oxide|Ophelia27(2): 137-141|1987|10.1080/00785236.1987.10422017
4238|A||Lay,M.M., and J.J. Menn|Amelioration of Toxicity of Molinate to Japanese Carp (Cyprinus carpio) with Selected Dichloroacetamides|Pestic. Biochem. Physiol.28(2): 149-154|1987|10.1016/0048-3575(87)90013-7
4239|A||Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori|Biochemical Effects of Zinc on the Muscle of Common Carp, Cyprinus carpio|Bull. Dep. Zool. Univ. Panjab3:71-78|1988|
4240|A||Makarewicz,J.C., J.K. Buttner, and T.W. Lewis|Uptake and Retention of Mirex by Fish Maintained on Formulated and Natural Diets in Lake Ontario Waters|Prog. Fish-Cult.55(3):163-168|1993|10.1577/1548-8640(1993)055<0163:UAROMB>2.3.CO;2
4241|A||Dalla Venezia,L., and V.U. Fossato|Effects of PCBs on Leander adspersus: Toxicity, Bioaccumulation, Oxygen Consumption, Osmoregulation|FAO Fish. Rep.334(suppl.): 39-49|1986|
4242|A||Gnassia-Barelli,M., and M. Romeo|Uptake of Zinc by Cultured Phytoplankters Hymenomonas elongata|Dis. Aquat. Org.3(1): 45-49|1987|10.3354/dao003045
4243|A||Bradley,B.P.|Are the Stress Proteins Indicators of Exposure or Effect?|Mar. Environ. Res.35(1-2): 85-88|1993|10.1016/0141-1136(93)90018-U
4244|A||Spotte,S., P.M. Bubucis, and G. Anderson|Plasma Cortisol Response of Seawater-Adapted Mummichogs (Fundulus heteroclitus) During Deep MS-222 Anesthesia|Zoo Biol.10:75-79|1991|10.1002/zoo.1430100110
4245|A||Lindahl,U., and P. Moksnes|Metallothionein as a Bioindicator of Heavy Metal Stress in Colombian Fish and Shrimp:  A Study of Dose-Dependent Induction|Fish.Dev.Ser.Natl.Swed.Board Fish.No.73:36 p.|1993|
4246|A||Ringwood,A.H., and M. Brouwer|Expression of Constitutive and Metal-Inducible Metallothioneins in Oyster Embryos (Crassostrea virginica)|Comp. Biochem. Physiol. B Comp. Biochem.106(3): 523-529|1993|10.1016/0305-0491(93)90127-Q
4247|A||Samis,A.J.W., P.W. Colgan, and P.H. Johansen|Pentachlorophenol and Reduced Food Intake of Bluegill|Trans. Am. Fish. Soc.122(6): 1156-1160|1993|10.1577/1548-8659(1993)122<1156:PARFIO>2.3.CO;2
4248|A||Litzke,J., and K. Hubel|Aquarium Experiments with Rainbow Trout (Oncorhynchus mykiss Walbaum) and Carp (Cyprinus carpio L.) to Examine the Accumulation of Radionuclides|Arch. Hydrobiol.129(1): 109-119|1993|10.1127/archiv-hydrobiol/129/1993/109
4249|A||Sanders,I.M.|Sublethal Effects of Copper on Juveniles of the Queen Conch Strombus gigas Linne|J. Shellfish Res.4(1): 31-35|1984|
4250|A||Toppin,S.R.V.|Factors and Mechanisms Affecting the Toxicity of Mercury to the Killifish, Fundulus heteroclitus|Ph.D.Thesis, Rutgers University, Newark, NJ:135 p.|1985|
4251|A||Schenck,R.C.|Copper and Gonyaulax tamarensis: Physiology, Toxicity and Requirement|Ph.D.Thesis, University of Rhode Island, Kingston, RI:164 p.|1984|
4252|A||Ball,I.R.|The Toxicity of Cadmium to Rainbow Trout (Salmo gairnderii Richardson)|Water Res.1:805-806|1967|10.1016/0043-1354(67)90023-1
4253|A||Catsiki,V.A., C. Vakalopoulou, M. Moraitou-Apostolopoulou, and G. Verriopoulos|Monodonta turbinata (Born); Toxicity and Bioaccumulation of Cu and Cu+Cr Mixtures|Toxicol. Environ. Chem.37(3-4): 173-184|1993|10.1080/02772249309357867
4254|A||Sarojini,R., K.B. Jaiswal, and R. Nagabhushanam|Physiological Mechanism and Behavioural Assessment of Freshwater Prawn, Macrobrachium kistnensis During Naphthalene Stress|J. Adv. Zool.8(2): 113-117|1987|
4255|A||Januszko,M.|Development of Algae in Ponds Treated with Foschlor and in Ponds with Controlled Time of Fill|Pol. Arch. Hydrobiol.26(3): 247-256|1979|
4256|A||Liu,P.C., and J.C. Chen|Effects of Heavy Metals on the Hatching Rates of Brine Shrimp Artemia salina Cysts|J. World Aquac. Soc.18(2): 78-83|1987|10.1111/j.1749-7345.1987.tb00421.x
4257|A||Juneja,C.J., and C.L. Mahajan|Haematological and Haemopoietic Changes in Fish Channa punctatus due to Mercury Pollution in Water|Indian J. Anim. Res.17(2): 63-71|1983|
4258|A||Lalande,M., and B. Pinel-Alloul|Acute Toxicity of Cadmium, Copper, Mercury and Zinc to Chydorus sphaericus (Cladocera) from Three Quebec Lakes|Water Pollut. Res. J. Can.18:103-113|1983|
4259|A||Kaniewska-Prus,M.|The Effect of Ammonia, Chlorine, and Chloramine Toxicity on the Mortality of Daphnia magna Straus|Pol. Arch. Hydrobiol.29(3-4): 607-624|1982|
4260|A||Begum,G., and S. Vijayaraghavan|Alterations in Protein Metabolism of Muscle Tissue in the Fish Clarias batrachus (Linn) by Commercial Grade Dimethoate|Bull. Environ. Contam. Toxicol.57(2): 223-228|1996|10.1007/s001289900179
4262|A||Marchetterre,L., G.R.B. Webster, D.C.G. Muir, and N.P. Grift|14C-Octachlorodibenzo-p-Dioxin:  Fate in Artificial Outdoor Ponds|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1480:98-102|1986|
4263|A||Jensen,F.B., N.A. Andersen, and N. Heisler|Effects of Nitrite Exposure on Blood Respiratory Properties, Acid-Base and Electrolyte Regulation in the Carp (Cyprinus carpio)|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.157(5): 533-541|1987|10.1007/BF00700972
4265|A||Spotte,S., and G. Anderson|Plasma Cortisol Changes in Seawater-Adapted Mummichogs (Fundulus heteroclitus) Exposed to Ammonia|Can. J. Fish. Aquat. Sci.46(10): 2065-2069|1989|10.1139/f89-255
4267|A||Cai,F., Y. Chen, and L. Huang|The Impact of Several Chemical Poisons on the Absobing 45Ca by the Arca granosa|Acta Oceanol. Sin.11(3): 435-440|1992|
4268|A||Dendene,M.A., T. Rolland, M. Tremolieres, and R. Carbiener|Effect of Ammonium Ions on the Net Photosynthesis of Three Species of Elodea|Aquat. Bot.46(3/4): 301-315|1993|10.1016/0304-3770(93)90010-T
4269|A||Pempkowiak,J., and J. Kozuch|Field and Laboratory Studies on the Influence of Humic Substances on the Accumulation of Cadmium by Mytilus edulis|Stud. Mater. Oceanol.64:245-251|1993|
4270|A||Kobayashi,K., Y. Wang, S. Kimura, R.M. Rompas, N. Imada, and Y. Oshima|Practical Application of Piperonyl Butoxide for the Reduction of Organophosphorus Insecticide-Toxicity to Kuruma Prawn|Nippon Suisan Gakkaishi (Multiple Languages)59(12): 2053-2057|1993|10.2331/suisan.59.2053
4271|A||Wang,Y., K. Kobayashi, R.M. Rompas, Y. Oshima, and N. Imada|Mechanism of the Reduction of Fenitrothion Toxicity in Kuruma Prawn by Piperonyl Butoxide|Nippon Suisan Gakkaishi (Multiple Languages)59(9): 1581-1585|1993|10.2331/suisan.59.1581
4272|A||Kobayashi,K., Y. Wang, N. Imada, Y. Oshima, and R.M. Rompas|Reduction of the Toxicity of Fenitrothion to Prawns by Piperonyl Butoxide|Nippon Suisan Gakkaishi (Multiple Languages)59(4): 717-720|1993|10.2331/suisan.59.717
4273|A||Lianxiang,L.|On the Summer Fingerling Chronically Poisoned by Applying Overdose of Sodium Pentachlorophenate as a Disinfectant in Fish Pond|Shuichan Xuebao (Non-English)10(3): 325-332|1986|
4274|A||Lopez,E.G.|Effect of Glyphosate on Different Densities of Water Hyacinth|J. Aquat. Plant Manag.31:255-257|1993|
4275|A||Cruz-Lacierda,E.R.|Effect of Rotenone and Saponin on the Shell Quality of Juvenile Tiger Shrimp, Penaeus monodon|Isr. J. Aquacult. Bamidgeh45(3): 126-130|1993|
4276|A||Mizrahi,L., L. Newberger-Cywiak, and Y. Achituv|Effect of Heavy Metals Ions on Enzyme Activity, Mortality and Behaviour of the Mediterranean White Mussel Donax trunculus|MAP Tech. Rep. Ser. (Multiple Languages)48:73-88|1993|
4277|A||Mulla,M.S., R.L. Norland, W.E. Westlake, B. Dell, and J. St.Amant|Aquatic Midge Larvicides, Their Efficacy and Residues in Water, Soil, and Fish in a Warm-Water Lake|Environ. Entomol.2(1): 58-65|1973|10.1093/ee/2.1.58
4278|A||Kozuch,J., J. Pempkowaik, and W. Grzybowski|Complexing Properties of Humic Substances Towards Cadmium and Their Influence on Accumulation of Cadmium by Mytilus edulis|Bull. Sea Fish. Inst. 125:15-18|1992|
4279|A||Haas-Jobulius,M., Y. Zhang, Y. Xu, and C. Zhuan|Comparative Study on the Fate of Diflubenzuron and 1-(4,-Chlorophenyl)-3-(2-Chlorobenoyl) Urea in Laboratory Water and Fish|Shuisheng Shengwu Xuebao (Multiple Languages)15(3): 207-211|1991|
4280|A||Solbakken,J.E., and K.H. Palmork|A Note on the Predominance of Non-K-Region Metabolites of Phenanthrene Found in Bony Fishes|Fiskeridir. Skr. Ser. Havunders.17(13): 499-500|1984|
4281|A||Solbakken,J.E., M. Solberg, and K.H. Palmork|A Comparative Study on the Disposition of Three Aromatic Hydrocarbons in Flounder (Platichthys flesus)|Fiskeridir. Skr. Ser. Havunders.17(13): 473-481|1984|
4282|A||McKim,J.M., and E.M. Heath|Dose Determinations for Waterborne 2,5,2',5'-[14C]Tetrachlorobiphenyl and Related Pharmacokinetics in Two Species of Trout (Salmo gairdneri and Salvelinus fontinalis):  A Mass Balance Approach|Toxicol. Appl. Pharmacol.68:177-187|1983|10.1016/0041-008X(83)90002-9
4283|A||Lawry,R.S.|Normal Morphology and the Effect of Toluene on the Gill of the Fathead Minnow Pimephales promelas Raf|M.S.Thesis, North Dakota State University of Agriculture and Applied Science, Fargo, ND:109 p.|1985|
4284|A||DeLonay,A.J.|The Effects of Low pH and Elevated Aluminum on Survival, Growth, Ionic Composition, and Behavior of Early Life Stages of Golden Trout|M.S. Thesis, University of Missouri, Columbia, MO:78 p.|1991|
4285|A||Saunders,J.P., N.M. Trieff, and E.E. Kalmaz|Bioassay for Measurement of Response to Light by Artemia (Brine Shrimp) Nauplii: Effect of Mercuric Salts|J. Am. Coll. Toxicol.2(2): 243-|1983|
4286|A||Jovanovich,M.C., and K.R. Marion|Seasonal Variation in Uptake and Depuration of Anthracene and Its Relationship to Temperature and Gross Biochemical Composition in the Clam, Rangia|Estuaries8(2B): 24A|1985|
4287|T||Morgan,E.L., Y.C.A. Wu, and J.P. Swigert|An Aquatic Toxicity Test Using the Moss Physcomitrella patens (Hedw) B.S.G|ASTM Spec. Tech. Publ.:340-352|1993|
4288|A||Sanders,J.G., and R.W. Osman|Arsenic Incorporation in a Salt Marsh Ecosystem|Estuar. Coast. Shelf Sci.20(4): 387-392|1985|10.1016/0272-7714(85)90083-6
4289|A||Khangarot,B.S., and S.K. Battish|Experimental Studies on the Acute Toxicity of Copper to Daphnia lumholtzi (Sars)|Indian J. Ecol.11(2): 183-185|1984|
4290|A||Bergerhouse,D.L.|Lethal Effects of Elevated pH and Ammonia on Early Life Stages of Hybrid Striped Bass|J. Appl. Aquacult.2(3/4): 81-100|1993|
4292|AT||Aldrich Chemical Co.|Catalog Handbook of Fine Chemicals 1994-1995|Aldrich Structure Index, Aldrich Chemical Co., Milwaukee, WI:2373 p.|1994|
4293|AT||Sigma,Chemical Co.|Biochemicals Organic Compounds for Research and Diognostic Reagents|Sigma Chemical Company, St.Louis, MO:2352 p.|1994|
4295|AT||Chapman & Hall|CHCD Dictionary of Inorganic Compounds on CD-ROM|Chapman & Hall, London, UK:|1993|
4296|A||Shimizu,M., T. Kajihara, I. Suyama, and Y. Hiyama|Uptake of 58Co by Mussel, Mytilus edulis|J. Radiat. Res.12(1): 17-28|1971|10.1269/jrr.12.17
4297|A||Wright,D.A.|The Effect of Calcium on Cadmium Uptake by the Shore Crab Carcinus maenas|J. Exp. Biol.67:163-173|1977|10.1242/jeb.67.1.163
4298|A|OECDG|Negele,R.D., and R.W. Hoffman|Short- and Longterm Effects of Atracine on Rainbow Trout (Oncorhynchus mykiss)|Ber. Bayer. Landesanst. Wasserforsch, Munich:257-|1991|
4300|A||Scott,B.F., M.D. Dickman, and P. Hayes|Effects of 2,4-D on Natural Phytoplankton Systems in Association with Myriophyllum spicatum|Verh. Int. Ver. Theor. Angew. Limnol.22(4): 2437-2446|1985|
4301|A||Burridge,L.E., and K. Haya|The Lethality of Ivermectin, a Potential Agent for Treatment of Salmonids Against Sea Lice, to the Shrimp Crangon septemspinosa|Aquaculture117(1-2): 9-14|1993|10.1016/0044-8486(93)90118-I
4302|A||Ghittino,P.|Checking on the Suitability, Toxicity and Cancerogenicity of Toprina in Rainbow Trout. Final Report|Fisch Umwelt (Multiple Languages)9:111-121|1981|
4303|A||Yasuno,M., J. Ohkita, and S. Hatakeyama|Effects of Temephos on Macrobenthos in a Stream of Mt. Tsukuba|Jpn. J. Ecol.32(1): 29-38|1982|
4304|A||Shi,J., and J. Yu|A Preliminary Study of Influences of Several Heavy Metal Ions on the Development of Early Embryo of Thick Shell Mussel (Mytilus coruscus Gould)|Donghai Mar. Sci. (Donghai Haiyang)4(1): 46-50|1986|
4305|A||Malley,D.F., J.F. Klaverkamp, S.B. Brown, and P.S.S. Chang|Increase in Metallothionein in Freshwater Mussles Anodonta grandis grandis Exposed to Cadmium in the Laboratory and the Field|Water Pollut. Res. J. Can.28(1): 253-273|1993|
4306|A||Straus,D.L., and C.S. Tucker|Acute Toxicity of Copper Sulfate and Chelated Copper to Channel Catfish Ictalurus punctatus|J. World Aquac. Soc.24(3): 390-395|1993|10.1111/j.1749-7345.1993.tb00170.x
4307|A||Cope,O.B., and B.C. Park|Effects of Forest Insect Spraying on Trout and Aquatic Insects in Some Montana Streams|Prog.Rep.for 1956, Environmental Protection Agency, Denver, CO:56 p.|1957|
4308|A||Aditya,A.K., and S. Mahapatra|Induced Changes in Behaviour and Protein Level in Dugesia bengalensis with Exposure to Ethyl-Carbamate and 2-Thiouracil|J. Mendel.9(2-4): 81-82|1992|
4309|A||Kulshrestha,S.K., and L. Jauhar|Histochemical Localization of Mucosubstances in the Intestine of Channa striatus on Exposure to Sublethal Doses of Sevin and Thiodan|Int. J. Acad. Ichthyol.5(1-2): 27-32|1984|
4310|A||McKenney,C.L.,Jr.|Interrelationships Between Energy Metabolism, Growth Dynamics, and Reproduction During the Life Cycle of Mysidopsis bahia as Influenced by Sublethal Endrin Exposure|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, NY11(3/4): 447-476|1988|
4311|A||Bhattacharya,S.|Target and Non-Target Effects of Anticholinesterase Pesticides in Fish|Sci. Total Environ.Suppl.:859-876|1993|10.1016/S0048-9697(05)80092-0
4312|A||Ramaswamy,M., and R.U. Maheswari|Comparative Lactic Acidosis in Fishes Following Pesticide Stress|Sci. Total Environ.Suppl.:877-885|1993|10.1016/S0048-9697(05)80094-4
4313|A||Hansen,H.J.M., A.G. Olsen, and P. Rosenkilde|The Effect of Cu2+ on Osmoregulation in Rainbow Trout (Oncorhynchus mykiss) Assayed by Changes in Plasma Salinity and Gill Lipid Metabolism|Sci. Total Environ.Suppl:899-905|1993|10.1016/S0048-9697(05)80096-8
4314|A||Manissery,J.K., and M.N. Madhyastha|Haematological and Histopathological Effect of Ammonia at Sublethal Levels on Fingerlings of Common Carp Cyprinus carpio|Sci. Total Environ.Suppl.:913-920|1993|10.1016/S0048-9697(05)80098-1
4315|A||Schrap,S.M., and A. Opperhuizen|Bioavailability of Chlorobenzenes: Toxicity Experiments|Sci. Total Environ.Suppl:381-385|1993|10.1016/S0048-9697(05)80038-5
4316|A||Spencer,D.F., and L.H. Nichols|Free Nickel Ion Inhibits Growth of Two Species of Green Algae|Environ. Pollut. A.31(2): 97-104|1983|10.1016/0143-1471(83)90002-8
4317|A||Kidd,K., G. Van der Kraak, and K. Munkittrick|The Effects of PCB 126 on Hepatic Mixed Function Oxygenase Activity and Steroidogenic Capacity of the Goldfish (Carassius auratus)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1942:470-475|1993|
4318|A||Jaylet,A., P. Deparis, V. Ferrier, S. Grinfeld, and R. Siboulet|A New Micronucleus Test Using Peripheral Blood Erythrocytes of the Newt Pleurodeles waltl to Detect Mutagens in Fresh-Water Pollution|Mutat. Res.164(4): 245-257|1986|10.1016/0165-1161(86)90058-0
4319|A||Fernandez,M., and J. L'Haridon|Influence of Lighting Conditions on Toxicity and Genotoxicity of Various PAH in the Newt In Vivo|Mutat. Res.298(1): 31-41|1992|10.1016/0165-1218(92)90026-V
4320|A||Kito,H., Y. Ose, T. Sato, T. Ishikawa, and H. Nagase|Isometallothioneins in Carp (Cyprinus carpio) Gills and Spleen|Eisei Kagaku (Multiple Languages)30(4): 183-188|1984|
4321|A||Neskovic,N.K., V. Karan, I. Elezovic, V. Poleksic, and M. Budimir|Toxic Effects of 2,4-D Herbicide on Fish|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes29(2): 265-279|1994|
4322|A||Imamura,H.K., and T. Yoshida|Studies on Toxic Effects of Molinate in Rainbow Trout|J. Pharm. Sci.76(11): S127|1987|
4323|A||McKenney,C.L.,Jr.|Associations Between Physiological Alterations and Population Changes in an Estuarine Mysid During Chronic Exposure to a Pesticide|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances, University of South Carolina Press, Columbia, SC11(3-4): 397-418|1988|
4324|A||L'Haridon,J., M. Fernandez, V. Ferrier, and J. Bellan|Evaluation of the Genotoxicity of N-Nitrosoatrazine, N-Nitrosodiethanolamine and Their Precursors In Vivo Using the Newt Micronucleus Test|Water Res.27(5): 855-862|1993|10.1016/0043-1354(93)90150-G
4325|A||Kobayashi,K., Y. Nakamura, R.M. Rompas, and N. Imada|Difference in Lethal Concentration In Vivo Between Fenitrothion and Its Oxo-Form in Tiger Shrimp Penaeus japonicus|Nippon Suisan Gakkaishi (Multiple Languages)52(2): 287-292|1986|10.2331/suisan.52.287
4327|A||Denton,G.R.W., and C. Burdon-Jones|Environmental Effects on Toxicity of Heavy Metals to Two Species of Tropical Marine Fish from Northern Australia|Chem. Ecol.2(3): 233-249|1986|10.1080/02757548608080729
4328|A||Schafers,C., and R. Nagel|Consequences of 3,4-Dichloroaniline to Guppy Populations (Poecilia reticulata): Computer Simulation and Experimental Validation|Sci. Total Environ.Suppl:1471-1478|1993|10.1016/S0048-9697(05)80152-4
4329|A||Ferrando,M.D., C. Janssen, E. Andreu, and G. Persoone|Ecotoxicological Studies with the Freshwater Rotifer Brachionus calyciflorus.  Resource Competition Between Rotifers and Daphnids Under Toxic Stress|Sci. Total Environ.Suppl:1059-1069|1993|10.1016/S0048-9697(05)80111-1
4330|A||Van Breukelen,S.W.F., and T.C.M. Brock|Response of a Macro-Invertebrate Community to Insecticide Application in Replicated Freshwater Microcosms with Emphasis on the Use of Principal Component Analysis|Sci. Total Environ.:1047-1058|1993|10.1016/S0048-9697(05)80110-X
4331|A||Van Wijngaarden,R.|Comparison of Response of the Mayfly Cloeon dipterum to Chlorpyrifos in a Single Species Toxicity Test, Laboratory Microcosms, Outdoor Ponds and|Sci. Total Environ.:1037-1046|1993|10.1016/S0048-9697(05)80109-3
4332|A||Faust,M., R. Altenburger, W. Boedeker, and L.H. Grimme|Additive Effects of Herbicide Combinations on Aquatic Non-Target Organisms|Sci. Total Environ.134(Suppl. 2): 941-952|1993|10.1016/S0048-9697(05)80101-9
4333|A||Lakatos,G., I. Meszaros, S. Bohatka, S. Szabo, M. Makadi, M. Csatlos, and G. Langer|Application of Lemna Species in Ecotoxicological Studies of Heavy Metals and Organic Biocides|Sci. Total Environ.Suppl:773-778|1993|10.1016/S0048-9697(05)80081-6
4334|A||Merlin,G., P. Eulaffroy, and G. Blake|Use of Fluorescence Induction Kinetics of Lemna minor as a Tool for Chemical Stress Evaluation|Sci. Total Environ.Suppl.:761-772|1993|10.1016/S0048-9697(05)80080-4
4335|A||Schafer,H., A. Wenzel, U. Fritsche, G. Roderer, and W. Traunspurger|Long-Term Effects of Selected Xenobiotica on Freshwater Green Algae:  Development of a Flow-Through Test System|Sci. Total Environ.Suppl:735-740|1993|10.1016/S0048-9697(05)80077-4
4336|A||Bhat,U.G., and K. Vamsee|Toxicity of Heavy Metals Cu, Cd and Hg to the Gammarid Amphipod Parhalella natalensis (Stebbing)|Sci. Total Environ.Suppl:887-897|1993|10.1016/S0048-9697(05)80095-6
4337|A||Barber,I., and K. Barrett|The Effect of a Pesticide Suspension Concentrate Formulation on Daphnia magna Straus Reproduction|Sci. Total Environ.134(Suppl. 2): 853-858|1993|10.1016/S0048-9697(05)80091-9
4338|A||Anton,F.A., M. Ariz, and M. Alia|Ecotoxic Effects of Four Herbicides (Glyphosate, Alachlor, Chlortoluron and Isoproturon) on the Algae Chlorella pyrenoidosa Chick|Sci. Total Environ.Suppl.:845-851|1993|10.1016/S0048-9697(05)80090-7
4339|A||Reju,M.K., P.G. Suresh, and A. Mohandas|Activity Pattern of Haemolymph Transaminases in the Freshwater Gastropod Pila virens (Lamarck) Exposed to Pesticides|Sci. Total Environ.Suppl:833-843|1993|10.1016/S0048-9697(05)80089-0
4340|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Effect of the Insecticide Methylparathion on Filtration and Ingestion Rates of Brachionus calyciflorus and Daphnia magna|Sci. Total Environ.Suppl. Part 2:867-876|1993|10.1016/S0048-9697(05)80093-2
4341|A||Pelgrom,S.M.G.J., R.A.C. Lock, P.H.M. Balm, and S.E. Wendelaar Bonga|Integrated Physiological Response of Tilapia, Oreochromis mossambicus, to Sublethal Copper Exposure|Aquat. Toxicol.32(4): 303-320|1995|10.1016/0166-445X(95)00004-N
4343|A||Marchini,S., M.D. Hoglund, S.J. Broderius, and M.L. Tosato|Comparison of the Susceptibility of Daphnids and Fish to Benzene Derivatives|Sci. Total Environ.Suppl.:799-808|1993|10.1016/S0048-9697(05)80085-3
4344|A||Pauli,W., S. Berger, L. Jaskulka, and S. Schmitz|A Case for the Inclusion of a Protozoan Test in Aquatic Toxicity Assessment Using Tetrahymena|Sci. Total Environ.134(Suppl. 1): 779-786|1993|10.1016/S0048-9697(05)80082-8
4345|A||Ghosh,P., S. Ghosh, S. Bose, and S. Bhattacharya|Glutathione Depletion in the Liver and Kidney of Channa punctatus Exposed to Carbaryl and Metacid-50|Sci. Total Environ.(suppl.): 641-645|1993|10.1016/S0048-9697(05)80066-X
4346|A||Suresh,K., and A. Mohandas|Haemolymph Protein Levels in Copper-Stressed Bivalves|Sci. Total Environ.Suppl:631-639|1993|10.1016/S0048-9697(05)80065-8
4347|A||Marsh,J.W., J.K. Chipman, and D.R. Livingstone|Formation of DNA Adducts Following Laboratory Exposure of the Mussel, Mytilus edulis, to Xenobiotics|Sci. Total Environ.Suppl:567-572|1993|10.1016/S0048-9697(05)80059-2
4348|A||Rajalekshmi,P., and A. Mohandas|Effect of Heavy Metals on Tissue Glycogen Levels in the Freshwater Mussel, Lamellidens corrianus (Lea)|Sci. Total Environ.Suppl:617-630|1993|10.1016/S0048-9697(05)80064-6
4349|A||Ohayo-Mitoko,G.J.A., and J.W. Deneer|Lethal Body Burdens of Four Organophorus Pesticides in the Guppy (Poecilia reticulata)|Sci. Total Environ.Suppl:559-565|1993|10.1016/S0048-9697(05)80058-0
4350|A||Rieb,M.H., and L.H. Grimme|Studies on Surfactant Toxicity to the Freshwater Alga Chlorella fusca: A Common Mode of Action?|Sci. Total Environ.Suppl:551-558|1993|10.1016/S0048-9697(05)80057-9
4351|A||Rijstenbil,J.W., S. Haritonidis, J. Van Drie, P. Malea, and J.A. Wijnholds|Interactions of Copper with Trace Metals and Thiols in the Marco-Algae Enteromorpha prolifera (O.F.Mull) J.Ag., Grown in Water of the Scheldt Estuary (Belgium and S.W. Netherlands)|Sci. Total Environ.Suppl:539-549|1993|10.1016/S0048-9697(05)80056-7
4352|A||Sancho,E., M.D. Ferrando, M. Gamon, and E. Andreu-Moliner|An Approach to the Diazinon Toxicity in the European Eel: Bioaccumulation Studies|Sci. Total Environ.Suppl:461-468|1993|10.1016/S0048-9697(05)80048-8
4353|A||Manthey,M., M. Faust, S. Smolka, and L.H. Grimme|Herbicide Bioconcentration in Algae:  Studies on Lipophilicity-Sorption-Activity Relationships (LSAR) with Chlorella fusca|Sci. Total Environ.Suppl:453-459|1993|10.1016/S0048-9697(05)80047-6
4354|A||Kumari,B.N., K. Yellamma, and P.M. Mohan|Toxicological Evaluation of Fenvalerate on the Fresh Water Field Crab Oziotelphusa senex senex|Environ. Ecol.5(3): 451-455|1987|
4355|A||Katti,S.R., and A.G. Sathyanesan|Changes in the Hypothalamo-Neurohypophysial Complex of Lead Treated Teleostean Fish Clarias batrachus (L.)|Z. Mikrosk.-Anat. Forsch. (Leipz.)100(3): S352|1986|
4357|A||Kedwards,T.J., S.J. Maund, and P.F. Chapman|Community Level Analysis of Ecotoxicological Field Studies:  II.  Replicated-Design Studies|Environ. Toxicol. Chem.18(2): 158-166|1999|
4358|A||Shirley,M.A.,Jr.|Influence of Lindane on Survival and Osmoregulatory /Metabolic Responses of the Larvae and Adults of the Estuarine Crab, Eurypanopeus depressus|EPA 600-D-87-261 / In: W.B.Verberg, et al.(Eds.), Pollution and Physiology of Estuarine Organisms, Univ.of Sourth Carolina Press:275-297|1987|
4359|A||Singh,H.|Effects of Malathion on Steroidogenesis and Sex Reversal in Monopterus albus|Mar. Environ. Res.35(1-2): 159-164|1993|10.1016/0141-1136(93)90031-T
4360|A||Steinert,S.A., and G.V. Pickwell|Induction of HSP70 Proteins in Mussels by Ingestion of Tributyltin|Mar. Environ. Res.35(1-2): 89-93|1993|10.1016/0141-1136(93)90019-V
4361|A||Torreblanca,A., J. Del Ramo, and J. Diaz-Mayans|Effect of Sublethal Exposure to Mercury in the Biochemical Composition of Hepatopancreas in Procambarus clarkii During the Recovery After Starvation|Mar. Environ. Res.35(1/2): 73-77|1993|10.1016/0141-1136(93)90016-S
4362|A||Batel,R.|Genotoxic Risk Assessment in the Marine Environment Using Invertebrates as Indicator Organisms|MAP Tech. Rep. Ser. (Multiple Languages)57:1-25|1991|
4363|A||Mason,A.Z., and J.R. Gully|Identification of Sites of Cu Accumulation and Turnover by Stable Isotopic Ratio Analysis|Mar. Environ. Res.35(1-2): 59-63|1993|10.1016/0141-1136(93)90014-Q
4364|A||Ringwood,A.H.|Age-Specific Differences in Cadmium Sensitivity and Bioaccumulation in Bivalve Molluscs|Mar. Environ. Res.35(1-2):35-39|1993|10.1016/0141-1136(93)90010-W
4365|A||Del Ramo,J., M. Martinez, A. Pastor, A. Torreblanca, and J. Diaz-Mayans|Effect of Cadmium Pre-Exposure in Cadmium Accumulation by Brine Shrimp Artemia: Involvement of Low-Molecular-Weight Cadmium-Binding Ligands|Mar. Environ. Res.35(1-2):29-33|1993|10.1016/0141-1136(93)90009-O
4366|A||Chaturvedi,L.D., and K. Agrawal|Physiological Responses of Fish to Rogor and Alachlor Part I.  General Impact on Heteropneustes fossilis|Uttar Pradesh J. Zool.11(2): 93-102|1991|
4367|A||Weis,J.S., and J. Perlmutter|Effects of Tributyltin on Activity and Burrowing Behavior of the Fiddler Crab, Uca pugilator|Estuaries10(4): 342-346|1987|10.2307/1351893
4368|A||Topcuoglu,S., E. Birol, and M.Y. Unlu|Factors Affecting the Accumulation and Elimination of Silver (110mAg) in Marine Isopods|Mar. Environ. Res.21(3): 189-198|1987|10.1016/0141-1136(87)90065-1
4369|A||Lubinski,K.S.|The Effects of Temperature on the Ability of Bluegills to Avoid Sublethal Gradients of Ammonium Chloride|Dev. Environ. Biol. Fishes1:132-|1981|
4370|A||Weis,J.S., and J. Kim|Specificity of Acquired Cadmium Tolerance in the Fiddler Crab, Uca pugilator|Bull. Environ. Contam. Toxicol.37(3): 362-368|1987|
4371|A||Travis,B.V., and S.M. Schuchman|Tests (1967) with Black Fly Larvicides|J. Econ. Entomol.61(3): 843-845|1968|10.1093/jee/61.3.843
4372|A||King,D.G., and I.M. Davies|Laboratory and Field Studies of the Accumulation of Inorganic Mercury by the Mussel Mytilus edulis (L.)|Int. Counc. for the Explor. of the Sea, ICES-CM-1986/E, Copenhagen, Denmark:9-|1986|
4373|A||Srivastava,D.K., and R.K. Tyagi|Toxicity of Selenium and Vanadium to the Striped Gourami, Colisa fasciatus (Bloch and Schneider)|Acta Hydrobiol.25/26(3/4): 481-486|1985|
4375|A||Reimschuessel,R., A.S. Kane, A.G. Muhvich, and M.M. Lipsky|Recovery of Histological Lesions in the Gills of Brown Bullheads Exposed to Copper|In: J.J.Stegeman, M.N.Moore, and M.E.Hahn (Eds.), Responses of Marine Organisms to Pollutants.Part 2.; Mar Environ Res35(1-2): 198-199|1993|
4376|A||Wallwork-Barber,M.K., K. Lyall, and R.W. Ferenbaugh|Thallium Movement in a Simple Aquatic Ecosystem|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control20(6): 689-700|1985|
4377|A||Legezynska,E., and E. Styczynska-Jurewicz|Accumulation of Cadmium in Two Baltic Benthic Species|Ophelia(suppl. 4): 139-145|1986|
4378|A||Harrahy,E.A., S.A. Perry, M.J. Wimmer, and W.B. Perry|The Effects of Diflubenzuron (Dimilin) on Selected Mayflies (Heptageniidae) and Stoneflies (Peltoperlidae and Pteronarcyidae)|Environ. Toxicol. Chem.13(3): 517-522|1994|10.1002/etc.5620130323
4379|A||Esquivel,I.|Short Term Copper Bioassay on the Planula of the Reef Coral Pocillopora damicornis|In: P.L.Jokiel, R.H.Richmond and R.A.Rogers (Eds.), Coral Reef Population Biology, Hawaii Univ.Sea Grant Coll.Program, Honolulu, HI:465-472|1986|
4380|A||Valente,R.M., E.M. Cosper, and C.F. Wurster|Interactive Effects of Copper and Silicic Acid on Resting Spore Formation and Viability in a Marine Diatom|J. Phycol.23(1): 156-163|1987|10.1111/j.0022-3646.1987.00156.x
4381|A||Bolognani Fantin,A.M., and B. Rebecchi|Preliminary Data on Adenylate Energy Charge Variation in Carassius carassius var. auratus Submitted to Lead intoxication|Sci. Total Environ.Suppl:907-912|1993|10.1016/S0048-9697(05)80097-X
4382|A||MacInnes,J.R.|Response of Embryos of the American Oyster, Crassostrea virginica, to Heavy Metal Mixtures|Mar. Environ. Res.4(3): 217-227|1981|10.1016/0141-1136(81)90036-2
4383|A||Schaffer,S.A.|The Energetic Response of Chlorella vulgaris to alpha Radiation and PCB Stress|Ph.D.Thesis, New York University:127-|1982|
4385|A||Carrier,R.|Temperature Tolerance of Freshwater Fish Exposed to Water-Borne Cadmium|M.S.Thesis, University of North Texas, Denton, TX:57 p.|1987|
4386|A||Hamburger,B., W. Maul, K. Patzschke, H. Theidel, and L.A. Wegner|Pilot Trials with a Fluorescent Whitening Agent of the Bis(triazolyl)Stilbenedisulfonic Acid Type in Golden Orfes|Environ. Qual. Saf. Suppl.4:165-173|1975|
4387|A||Masfaraud,J.F., A. Pfohl-Leszkowic, C. Malaveille, G. Keith, and G. Monod|7-Ethylresorufin O-Deethylase Activity and Level of DNA-Adducts in Trout Treated with Benzo(a)pyrene|Mar. Environ. Res.34(1-4): 351-354|1992|10.1016/0141-1136(92)90133-7
4388|A||Ferguson,D.E., and C.R. Bingham|Endrin Resistance in the Yellow Bullhead, Ictalurus natalis|Trans. Am. Fish. Soc.95(3): 325-326|1966|10.1577/1548-8659(1966)95[325:ERITYB]2.0.CO;2
4389|A||Ferguson,D.E., J.L. Ludke, and G.G. Murphy|Dynamics of Endrin Uptake and Release by Resistant and Susceptible Strains of Mosquitofish|Trans. Am. Fish. Soc.95(4): 335-344|1966|10.1577/1548-8659(1966)95[335:DOEUAR]2.0.CO;2
4390|AT||Bridges,W.R.|Disappearance of Endrin from Fish and Other Materials of a Pond Environment|Trans. Am. Fish. Soc.90(3): 332-334|1961|10.1577/1548-8659(1961)90[332:DOEFFA]2.0.CO;2
4391|A||Wang,W.X., J. Widdows, and D.S. Page|Effects of Organic Toxicants on the Anoxic Energy Metabolism of the Mussel Mytilus edulis|Mar. Environ. Res.34(1-4): 327-331|1992|10.1016/0141-1136(92)90129-A
4392|A||Kirchin,M.A., M.N. Moore, R.T. Dean, and G.W. Winston|The Role of Oxyradicals in Intracellular Proteolysis and Toxicity in Mussels|Mar. Environ. Res.34(1-4): 315-320|1992|10.1016/0141-1136(92)90127-8
4393|A||James,M.O., A.H. Altman, C.L.J. Li, and S.M. Boyle|Dose- and Time-Dependent Formation of Benzo(a)pyrene Metabolite DNA Adducts in the Spiny Lobster, Panulirus argus|Mar. Environ. Res.34(1-4): 299-302|1992|10.1016/0141-1136(92)90124-5
4394|A||Maslanka,R., A.R. Steward, J. Pangrekar, S. Kumar, and H.C. Sikka|Disposition and Metabolism of 2,3,7,8-Tetrachlorodibenzofuran (TCDF) in Rainbow Trout|Mar. Environ. Res.34(1-4): 255-259|1992|10.1016/0141-1136(92)90117-5
4395|A||Bolinger,R.A., and J.M. Kennish|The Effect of b-Naphthoflavone and Phenobarbital on UDP-Glucuronosyltransferase in King Salmon (Oncorhyncus tshawytscha)|Mar. Environ. Res.34(1-4): 227-231|1992|10.1016/0141-1136(92)90112-Y
4396|A||Van der Weiden,M.E.J., M. Celander, W. Seinen, M. Van den Berg, A. Goksoyr, and L. Forlin|Effects of 2,3,7,8-TCDD and Contaminated Sediment on the Cytochrome P4501A Orthologue in Rainbow Trout (Oncorhynchus mykiss) and Carp (Cyprinus carpio), Using Catalytic and Immunochemical Techniques|Mar. Environ. Res.34(1-4): 215-219|1992|10.1016/0141-1136(92)90110-8
4397|A||Lester,S.M., T.A. Braunbeck, S.J. Teh, J.J. Stegeman, M.R. Miller, and D.E. Hinton|Immunocytochemical Localization of Cytochrome P4501A1 in Liver of Rainbow Trout (Oncorhynchus mykiss)|Mar. Environ. Res.34(1-4): 117-122|1992|10.1016/0141-1136(92)90094-3
4398|A||Hinton,D.E., S.J. Teh, M.S. Okihiro, J.B. Cooke, and L.M. Parker|Phenotypically Altered Hepatocyte Populations in Diethylnitrosamine-Induced Medaka Liver Carcinogenesis: Resistance, Growth, and Fate|Mar. Environ. Res.34(1-4): 1-5|1992|10.1016/0141-1136(92)90074-V
4399|A||Darville,R.G.|The Effects of Naphthalene on the Physiology and Life Cycle of Chironomus attenuatus and Tanytarsus dissimilis|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:85 p.|1982|
4402|A||Bhattacharya,T., A.K. Ray, and S. Bhattacharya|Histopathology of the Kidney of Channa punctatus (Bloch) Exposed to Sublethal and Chronic Levels of Industrial Pollutants II. Trunk Kidney|Zool. J. Anat.115:263-272|1987|
4403|A||Andrews,A.K., C.C. Van Valin, and B.E. Stebbings|Some Effects of Heptachlor on Bluegills (Lepomis macrochirus)|Trans. Am. Fish. Soc.95(3): 297-309|1966|10.1577/1548-8659(1966)95[297:SEOHOB]2.0.CO;2
4404|A||Eisler,R., and P.H. Edmunds|Effects of Endrin on Blood and Tissue Chemistry of a Marine Fish|Trans. Am. Fish. Soc.95(2): 153-159|1966|10.1577/1548-8659(1966)95[153:EOEOBA]2.0.CO;2
4405|A||Jayasankar,P., and M.S. Muthu|Toxicity of Ammonia to the Larvae of Penaeus indicus H. Milne Edwards|Indian J. Fish.30(1): 1-12|1983|
4406|A||Sultan,S., and S.M. Khan|Histopathological Studies on the Liver and Gills in Carassius auratus Exposed to Copper Sulphate|Indian J. Fish.30(1): 95-98|1983|
4407|A||Rao,K.S.P., K.R.S.S. Rao, K.S. Prasad, and K.V.R. Rao|Methyl Parathion Impact on the Esterases of a Freshwater Teleost Tilapia mossambica (Peters)|Indian J. Fish.30(2): 148-154|1983|
4408|A||Jayasankar,P., and M.S. Muthu|Toxicity of Nitrite to the Larvae of Penaeus indicus|Indian J. Fish.30(2): 231-240|1983|
4409|A||Sahib,I.K.A., K.S.P. Rao, K.R.S.S. Rao, and K.V.R. Rao|Regulation of Acidic and Basic Types of Proteins of a Teleost Tilapia mossambica Under Sublethal Malathion Impact|Indian J. Fish.30(2): 314-319|1983|
4410|A||Kerswill,C.J., and H.E. Edwards|Fish Losses After Forest Sprayings with Insecticides in New Brunswick, 1952-62, as Shown by Caged Specimens and Other Observations|J. Fish. Res. Board Can.24(4): 709-729|1967|10.1139/f67-065
4411|A||Malison,J.A., T.B. Kayes, B.C. Wentworth, and C.H. Amundson|Growth and Feeding Responses of Male Versus Female Yellow Perch (Perca flavescens) Treated with Estradiol-17beta|Can. J. Fish. Aquat. Sci.45(11): 1942-1948|1988|10.1139/f88-226
4412|A||Howell,J.H., E.L.,Jr. King, A.J. Smith, and L.H. Hanson|Synergism of 5,2'-Dichloro-4'-Nitro-Salicylanilide and 3-Trifluormethyl-4-Nitrophenol in a Selective Lamprey Larvicide|Tech. Rep. Great Lakes Fish. Comm.8:21 p. |1964|
4413|A||Lemke,A.E., and D.I. Mount|Some Effects of Alkyl Benzene Sulfonate on the Bluegill, Lepomis macrochirus|Trans. Am. Fish. Soc.92:372-378|1963|10.1577/1548-8659(1963)92[372:SEOABS]2.0.CO;2
4414|A||Bridges,W.R., B.J. Kallman, and A.K. Andrews|Persistence of DDT and Its Metabolites in a Farm Pond|Trans. Am. Fish. Soc.92:421-427|1963|10.1577/1548-8659(1963)92[421:PODAIM]2.0.CO;2
4415|A||Ravinder,R.T.|Effect of Mercuric Chloride on Protein Metabolism of a Freshwater Mussel, Parreysia rugosa (Gmelin)|J. Ecotoxicol. Environ. Monit.1(3): 230-233|1991|
4416|A||Ueno,R., Y. Horiguchi, and S.S. Kubota|Study of Quality in Fish and Shellfish as Food-I. Concentration of Formaldehyde in Various Tissues of Cultured Eel by Formalin Bath|Bull. Fac. Fish. Mie Univ.11:37-42|1984|
4417|A||Boyce,C.B.C., and D.A. Williams|The Influence of Exposure Time on the Susceptibility of Australorbis glabratus to N-Tritylmorpholine|Ann. Trop. Med. Parasitol.61:15-20|1967|10.1080/00034983.1967.11686451
4418|A||Muirhead-Thomson,R.C.|Tolerance Levels of Select Stream Macroinvertebrates to the Simulium Larvicides, Chlorphoxim and Decamethrin|Tropenmed. Parasitol.32:265-268|1981|
4419|A||Muirhead-Thomson,R.C.|Relative Toxicity of Decamethrin, Chlorphoxim and Temephos (Abate) to Simulium Larvae|Tropenmed. Parasitol.32:189-193|1981|
4420|A||Bryan,G.W., P.E. Gibbs, L.G. Hummerstone, and G.R. Burt|The Decline of the Gastropod Nucella lapillus Around South-West England: Evidence for the Effect of Tributyltin from Antifouling Paints|J. Mar. Biol. Assoc. U.K.66:611-640|1986|10.1017/S0025315400042247
4421|A||Sultana,R., V.U. Devi, and M.N. Prasad|Effect of Heavy Metals on the Respiration of the Catfish, Mystus gulio|J. Ecotoxicol. Environ. Monit.1(3): 234-237|1991|
4423|A||Corbet,P.S.|Some Effects of DDT on the Fauna of the Victoria Nile|Rev. Zool. Bot. Afr.57:73-95|1958|
4424|A||Quillevere,C., H. Escaffre, B. Pendriez, S. Grebaut, B. Duchateau, C.W. Lee, and J. Mouchet|Control of Simulium damnosum, the Vector of Human Onchocerciasis in West Africa. III. Application by Aeroplane During the Wet Season Methods of|W.H.O.Documentary Series, WHO/VBC/76616:9-|1976|
4425|A||Wlasow,T.|Selected Indices of Immunologic Resistance in Rainbow Trout (Salmo gairdneri Rich.) During Prolonged, Subacute Phenolic intoxication|Acta Ichthyol. Piscat.15(2): 203-211|1985|10.3750/AIP1985.15.2.10
4426|A||Wlasow,T.|Erythrocyte System of Rainbow Trout, Salmo gairdneri Rich. Affected by Prolonged Subacute Phenol intoxication|Acta Ichthyol. Piscat.14(1/2): 105-119|1984|10.3750/AIP1984.14.1-2.07
4428|A||Travis,B.V., D. Guttman, and R.R. Crafts|Tests (1966) with Black Fly Larvicides|Proc. N. J. Mosq. Exterm. Assoc.54:49-53|1967|
4429|A||Mulla,M.S., R.L. Metcalf, and A.F. Geib|Laboratory and Field Evaluation of New Mosquito Larvicides|Mosq. News26(2): 236-242|1966|
4430|A||Mulla,M.S.|Susceptibility of Various Larval Instars of Culex p. quinquefasciatus Say to Insecticides|Mosq. News21(4): 320-324|1961|
4431|A||Mulla,M.S., R.L. Metcalf, and G. Kats|Evaluation of New Mosquito Larvicides, with Notes on Resistant Strains|Mosq. News24(3): 312-319|1964|
4432|A||Mulla,M.S., H.A. Darwazeh, A.F. Geib, and W.E. Westlake|Control of Pasture Aedes Mosquitoes by Dripping Larvicides into Flowing Water, with Notes on Residues in a Pasture Habitat|J. Econ. Entomol.62(2): 365-370|1969|10.1093/jee/62.2.365
4433|A||Ahmad,N., D. Benoit, L. Brooke, D. Call, A. Carlson, D. Defoe, J. Huot, A. Moriarity, J. Richter, P. Shubat, G. Veith, |Aquatic Toxicity Tests to Characterize the Hazard of Volatile Organic Chemicals in Water: A Toxicity Data Summary--Parts I and II|EPA 600/3-84-009, U.S.EPA, Duluth, MN:103 p.|1984|
4435|A||Tatem,H.E., and A.S. Portzer|Culture and Toxicity Tests Using Los Angeles District Bioassay Animal Acanthomysis and Neanthes|Misc.Pap.El-85-6, U.S.Army Waterwalls Exp.Station, Vicksburg, MS:24-|1985|
4436|T||Veech,J.A.|The Effect of Diflubenzuron on the Reproduction of Free-Living Nematodes|Nematologica24:312-320|1978|10.1163/187529278X00281
4437|A||Baldwin,I.G., M.M.I. Harman, and D.A. Neville|Performance Characteristics of a Fish Monitor for Detection of Toxic Substances-I.  Laboratory Trails|Water Res.28(10): 2191-2199|1994|10.1016/0043-1354(94)90031-0
4438|A||Srivastav,R.K., S.K. Gupta, K.D.P. Nigam, and P. Vasudevan|Treatement of Chromium and Nickel in Wastewater by Using Aquatic Plants|Water Res.28(7): 1631-1638|1994|10.1016/0043-1354(94)90231-3
4439|A||Emson,S., and M. Crane|A Comparison of the Toxicity of Cadmium to the Mysid Shrimps Neomysis integer (Leach) and Mysidopsis bahia (Molenock)|Water Res.28(8):1711-1713|1994|10.1016/0043-1354(94)90242-9
4440|A||Chen,C.Y.|Theoretical Evaluation of the Inhibitory Effects of Mercury on Algal Growth at Various Orthophosphate Levels|Water Res.28(4): 931-937|1994|10.1016/0043-1354(94)90101-5
4442|A|OECDG|Davies,P.E., L.S.J. Cook, and D. Goenarso|Sublethal Responses to Pesticides of Several Species of Australian Freshwater Fish and Crustaceans and Rainbow Trout|Environ. Toxicol. Chem.13(8): 1341-1354|1994|10.1002/etc.5620130816
4443|A||Redmond,M.S., K.J. Scott, R.C. Swartz, and J.K.P. Jones|Preliminary Culture and Life-Cycle Experiments with the Benthic Amphipod Ampelisca abdita|Environ. Toxicol. Chem.13(8): 1355-1365|1994|
4444|A||Beyers,D.W., and P.J. Sikoski|Acetylcholinesterase Inhibition in Federally Endangered Colorado Squawfish Exposed to Carbaryl and Malathion|Environ. Toxicol. Chem.13(6): 935-939|1994|10.1002/etc.5620130612
4445|A||Saxena,O.P., and A. Parashari|Thioacetamide Causes Increase in Leucocytes in Channa punctatus (Bl.)|Curr. Sci. (Bangalore)52(7): 319-320|1983|
4446|A||Borgmann,U.|Chronic Toxicity of Ammonia to the Amphipod Hyalella azteca; Importance of Ammonium Ion and Water Hardness|Environ. Pollut.86(3): 329-335|1994|10.1016/0269-7491(94)90173-2
4447|A||Havens,K.E.|Structural and Functional Responses of a Freshwater Plankton Community to Acute Copper Stress|Environ. Pollut.86(3): 259-266|1994|10.1016/0269-7491(94)90166-X
4448|A||Singhal,K.C.|Biochemical and Enzymatic Alterations due to Chronic Lead Exposure in the Freshwater Catfish, Heteropneustes fossilis|J. Environ. Biol.15(3): 185-191|1994|
4449|A||Sharma,G.D.|A Gas Chromatographic Analysis of BHC Residues in Certain Tissues of a Freshwater Teleost, Channa punctatus (Bloch)|J. Environ. Biol.15(3): 203-208|1994|
4450|A||Kaushik,N., and S. Kumar|Susceptibility of the Freshwater Crab Paratelphusa masoniana (Henserson) to Three Pesticides, Singly and in Combination|Environ. Ecol.11(3): 560-564|1993|
4451|A||Mule,M.B., and V.S. Lomte|Effect of Molluscicide Copper Sulfate on Lipid Content of the Gastropod Thiara tuberculata|Environ. Ecol.11(3): 570-573|1993|
4452|A||Verma,J.P., and R.C. Mohanty|Effect of Metasystox on Algae Scenedesmus bijuga (Turpin) Lagerheim|Environ. Ecol.11(3): 668-671|1993|
4453|A||Patil,V.T.|Some Blood Parameters in the Fish Boleophthalmus dussumieri Exposed to Monocrotophos|Environ. Ecol.11(3): 672-674|1993|
4454|A||Babu,C.S., K.P.O. Reddy, K. Gunasekhar, D.M. Raj, E.S. Latha, and P. Neeraja|Effect of Non-Protein Nitrogen on Nitrogenous End Products of the Fish Cyprinus carpio|Environ. Ecol.11(3): 675-678|1993|
4455|A||Rai,U.P., and P.K. Mandal|Behavioral Response of the Air-Breathing Catfish Heteropneustes fossilis Exposed to Cyclodiene Insecticides|Environ. Ecol.11(3): 728-730|1993|
4456|A||Gupta,A.K., and P. Chakrabarti|Toxicity of Arsenic to Freshwater Fishes Mystus vittatus (Bloch) and Puntius javanicus (Blkr.)|Environ. Ecol.11(4): 808-811|1993|
4457|A||Ghosh,K., and V. Banerjee|Alteration in Blood Parameters in the Fish Heteropneustes fossilis Exposed to Dimethoate|Environ. Ecol.11(4): 979-981|1993|
4458|A||Fox,K., G.P. Zauke, and W. Butte|Kinetics of Bioconcentration and Clearance of 28 Polychlorinated Biphenyl Congeners in Zebrafish (Brachydanio rerio)|Ecotoxicol. Environ. Saf.28(1): 99-109|1994|10.1006/eesa.1994.1038
4459|A||Thiebaud,H., G. Merlin, M.P. Capovilla, and G. Blake|Fate of a Volatile Chlorinated Solvent in Indoor Aquatic Microcosms: Sublethal and Static Exposure to (14C) Dichloromethane|Ecotoxicol. Environ. Saf.28(1): 71-81|1994|10.1006/eesa.1994.1035
4460|A||Parashari,A., and O.P. Saxena|Effect of pH and Temperature on the Toxicity of Chromium to Fresh Water Teleost Calicus pabda|Bio. -Sci. Res. Bull.1(1-2): 10-14|1985|
4461|A||Kreutzweiser,D.P., S.S. Capell, K.L. Wainio-Keizer, and D.C. Eichenberg|Toxicity of a New Molt-Inducing Insecticide (RH-5992) to Aquatic Macroinvertebrates|Ecotoxicol. Environ. Saf.28(1): 14-24|1994|10.1006/eesa.1994.1030
4462|A||Ren,L., X.D. Huang, B.J. McConkey, D.G. Dixon, and B.M. Greenberg|Photoinduced Toxicity of Three Polycylic Aromatic Hydrocarbons (Fluoranthene, Pyrene, and Naphthalene) to the Duckweed Lemna gibba L. G-3|Ecotoxicol. Environ. Saf.28(2): 160-171|1994|10.1006/eesa.1994.1042
4463|A||Malbouisson,J.F.C., T.W.K. Young, and A.W. Bark|Disruption of Precopula in Gammarus pulex as a Result of Brief Exposure to gamma-Hexachlorocyclohexane (Lindane)|Chemosphere28(11):2011-2020|1994|10.1016/0045-6535(94)90151-1
4464|A||Guilhermino,L., M.C. Lopes, A.M. Donato, L. Silveira, A.P. Carvalho, and A.M.V.M. Soares|Comparative Study Between the Toxicity of 3,4-Dichloroaniline and Sodium Bromide with 21-Days Chronic Test and Using Lactate Dehydrogenase Activity of Daphnia magna Straus|Chemosphere28(11): 2021-2027|1994|10.1016/0045-6535(94)90152-X
4465|A||Claveri,B., E. Morhain, and C. Mouvet|A Methodology for the Assessment of Accidental Copper Pollution Using the Aquatic Moss Rhynchostegium riparioides|Chemosphere28(11): 2001-2010|1994|10.1016/0045-6535(94)90150-3
4466|A||Koelmans,A.A., and C.S. Jimenez|Temperature Dependency of Chlorobenzene Bioaccumulation in Phytoplankton|Chemosphere28(12): 2041-2048|1994|10.1016/0045-6535(94)90174-0
4468|A||Playle,R.C., D.G. Dixon, and K. Burnison|Copper and Cadmium Binding to Fish Gills:  Estimates of Metal-Gill Stability Constants and Modelling of Metal Accumulation|Can. J. Fish. Aquat. Sci.50:2678-2687|1993|10.1139/f93-291
4469|A||Playle,R.C., D.G. Dixon, and K. Burnison|Copper and Cadmium Binding to Fish Gills:  Modification by Dissolved Organic Carbon and Synthetic Ligands|Can. J. Fish. Aquat. Sci.50:2667-2677|1993|10.1139/f93-290
4470|AT||Eidt,D.C.|The Effect of Fenitrothion from Large-Scale Forest Spraying on Benthos in New Brunswick Headwaters Streams|Can. Entomol.107:743-760|1975|10.4039/Ent107743-7
4471|A||Mostafa,I.Y., A.E. El Arab, and S.M.A. Zayed|Fate of 14C-Lindane in a Rice-Fish Model Ecosystem|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes22(2): 235-243|1987|
4472|A||Gaugler,R., D. Molloy, T. Haskins, and G. Rider|A Bioassay System for the Evaluation of Black Fly (Diptera: Simuliidae) Control Agents Under Simulated Stream Conditions|Can. Entomol.112:1271-1276|1980|10.4039/Ent1121271-12
4473|A||Veber,K., J. Zahradnik, I. Breyl, and F. Kredl|Toxic Effect and Accumulation of Atrazine in Algae|Bull. Environ. Contam. Toxicol.27(6): 872-876|1981|10.1007/BF01611110
4474|A||Tagatz,M.E., and J.M. Ivey|Effects of Fenvalerate on Field- and Laboratory-Developed Estuarine Benthic Communities|Bull. Environ. Contam. Toxicol.27(2): 256-267|1981|10.1007/BF01611018
4476|A||Kanazawa,J.|Bioconcentration Ratio of Diazinon by Freshwater Fish and Snail|Bull. Environ. Contam. Toxicol.20(5): 613-617|1978|10.1007/BF01683573
4477|A||Doyle,M., S. Koepp, and J. Klaunig|Acute Toxicological Response of the Crayfish (Orconectes limosus) to Mercury|Bull. Environ. Contam. Toxicol.16(4): 422-424|1976|10.1007/BF01686156
4479|A||Keil,J.E., and L.E. Priester|DDT Uptake and Metabolism by a Marine Diatom|Bull. Environ. Contam. Toxicol.4(3): 169-173|1969|10.1007/BF01560959
4480|A||Eidt,D.C.|Effects of Fenitrothion and Phosphamidon on Stream Benthos-1975|Inf.Rep.M-X-65, Maritimes For.Res.Ctr., Fredericton, New Brunswick:11 p.|1976|
4481|A||Correll,D.L., and T.L. Wu|Atrazine Toxicity to Submersed Vascular Plants in Simulated Estuarine Microcosms|Aquat. Bot.14:151-158|1982|10.1016/0304-3770(82)90094-8
4482|A||Smatresk,N.J., M.L. Burleson, and S.Q. Azizi|Chemoreflexive Responses to Hypoxia and NaCN in Longnose Gar: Evidence for Two Chemoreceptor Loci|Am. J. Physiol., Regul. Integr. Comp. Physiol.251(1/2): R116 - R125|1986|
4483|A||Sebastien,R.J., and W.L. Lockhart|Influence of Formulation on Toxicity and Rate of Uptake of Methoxychlor in Rainbow Trout|In: W.O.Haufe (Ed.), Control of Black Flies in the Athabasca River, Technical Report, Alberta Environment:197-199|1980|
4484|A||Lockhart,W.L.|Methoxychlor Studies with Fish: Athabasca River Exposures and Experimental Exposures|In: W.O.Haufe (Ed.), Control of Black Flies in the Athabasca River, Technical Report, Alberta Environment:183-196|1980|
4485|A||Haufe,W.O., K.R. Depner, and W.A. Charnetski|Impact of Methoxychlor on Drifting Aquatic Invertebrates|In: W.O.Haufe (Ed.), Control of Black Flies in the Athabasca River, Technical Report, Alberta Environment:159-168|1980|
4486|A||Bose,A.K., and H. Fujiwara|Fate of Pentachlorophenol in the Blue Crab, Callinectes sapidus|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:83-88|1978|
4487|A||Lappivaara,J., M. Nikinmaa, and H. Tuurala|Arterial Oxygen Tension and the Structure of the Secondary Lamellae of the Gills in Rainbow Trout (Oncorhynchus mykiss) After Acute Exposure to|Aquat. Toxicol.32(4): 321-331|1995|10.1016/0166-445X(94)00097-A
4488|A||Pierce,M.E.|Study of a Second Year Application of Fenac to Two Small Ponds on Vassar Campus|Proc. Northeast. Weed Control Conf.32:530-533|1967|
4489|A||Hilsenhoff,W.|Effect of Diquat on Aquatic Insects and Related Animals|J. Econ. Entomol.59(6): 1520-1521|1966|10.1093/jee/59.6.1520
4490|A||Hitchcock,S.W.|Effects of an Aerial DDT Spray on Aquatic Insects in Connecticut|J. Econ. Entomol.53(4): 608-611|1960|10.1093/jee/53.4.608
4491|A||Hansen,P.D.|Experiments on the Accumulation of Lindane (gamma-BHC) by the Primary Producers Chlorella spec. and Chlorella pyrenoidosa|Arch. Environ. Contam. Toxicol.8:721-731|1979|10.1007/BF01054873
4492|A||Eisler,R.|Some Effects of a Synthetic Detergent on Estuarine Fishes|Trans. Am. Fish. Soc.94(1): 26-31|1965|10.1577/1548-8659(1965)94[26:SEOASD]2.0.CO;2
4493|A||Applegate,V.C., and E.L.,Jr. King|Comparative Toxicity of 3-Trifluormethyl-4-nitrophenol (TFM) to Larval Lampreys and Eleven Species of Fishes|Trans. Am. Fish. Soc.91(4): 342-345|1962|10.1577/1548-8659(1962)91[342:CTOTTT]2.0.CO;2
4494|A||Zein-Eldin,Z.P., and E.F. Klima|Effects of Injected Biological Stains on Oxygen Uptake by Shrimp|Trans. Am. Fish. Soc.94(3): 277-278|1965|10.1577/1548-8659(1965)94[277:EOIBSO]2.0.CO;2
4495|A||Fribourgh,J.H.|The Effects of Potassium Tellurite on Goldfish Spermatozoan Activity|Trans. Am. Fish. Soc.94(4): 399-402|1965|10.1577/1548-8659(1965)94[399:TEOPTO]2.0.CO;2
4496|A||Croker,R.A., and A.J. Wilson|Kinetics and Effects of DDT in a Tidal Marsh Ditch|Trans. Am. Fish. Soc.94:152-159|1965|10.1577/1548-8659(1965)94[152:KAEODI]2.0.CO;2
4497|A||Meyer,F.P.|The Experimental Use of Guthion as a Selective Fish Eradicator|Trans. Am. Fish. Soc.94(3): 203-209|1965|10.1577/1548-8659(1965)94[203:TEUOGA]2.0.CO;2
4498|A||Thomson,J.D., and S.G. George|Effect of Chelating Agents on the Bioavailability of 65Zn to Oysters (Crassostrea gigas)|Tasman. Fish. Res.27:1-10|1985|
4499|A||Pierce,M.E.|The Effect of Several Herbicides on Eight Test Areas in Nobska Pond, Woods Hole, Massachusetts|Proc. Northeast. Weed Control Conf.22:195-203|1968|
4500|A||Taneja,S.K., P. Arya, and U. Bains|Effects of ZnSO4 Toxicity on the Skeletal Muscles of the Mosquito Fish, Gambusia affinis|Res. Bull. Panjab Univ. Sci.39(3/4): 207-211|1988|
4501|A||Linn,J.D.|Effects of low Volume Aerial Spraying of Dursban and Fenthion on Fish|Down Earth24:28-30|1968|
4502|A||Muirhead-Thomson,R.C.|Laboratory Studies on the Reactions of Simulium Larvae to Insecticides. I. A Laboratory Method for Studying the Effects of Insecticide on Simulium Larvae|Am. J. Trop. Med. Hyg.6:920-925|1957|10.4269/ajtmh.1957.6.920
4503|A||Marganian,V.M., and W.J.,Jr. Wall|Dursban and Diazinon Residues in Biota Following Treatment of Intertidal Plots on Cape Cod - 1967-69|Pestic. Monit. J.6(3): 160-165|1972|
4504|A||Lindquist,A.W., and A.R. Roth|Control of the Clear Lake Gnat in California|J. Econ. Entomol.44:572-577|1951|10.1093/jee/44.4.572
4505|A||Hopf,H.S., J. Duncan, and A.B. Wood|Molluscicidal Activity of Copper Compounds of Low Solubility|Bull. W. H. O.29:128-130|1963|
4506|A||Matton,P., and Q.N. Laham|Effect of the Organophosphate Dylox on Rainbow Trout Larvae|J. Fish. Res. Board Can.26(8): 2193-2199|1969|10.1139/f69-201
4507|A||Johnson,M.G.|Control of Aquatic Plants in Farm Ponds in Ontario|Prog. Fish-Cult.27:23-30|1965|10.1577/1548-8640(1965)27[23:COAPIF]2.0.CO;2
4508|A||Eidt,D.C.|Effects of Fenitrothion on Benthos in the Nashwaak Project Study Streams in 1976|Information Rep.M-X-70, Maritimes Forest Research Centre, Fredericton, New Brunswick:22 p.|1977|
4509|A||Kallman,B.J., O.B. Cope, and R.J. Navarre|Distribution and Detoxication of Toxaphene in Clayton Lake, New Mexico|Trans. Am. Fish. Soc.91:14-22|1962|10.1577/1548-8659(1962)91[14:DADOTI]2.0.CO;2
4510|A||Hazeltine,W.E.|The Development of a new Concept for Control of the Clear Lake Gnat|J. Econ. Entomol.56(5): 621-626|1963|10.1093/jee/56.5.621
4511|A||Pipe,R.K., and M.N. Moore|Arylsulphatase Activity Associated with Phenanthrene Induced Digestive Cell Deletion in the Marine Mussel Mytilus edulis|Histochem. J.18(10): 557-564|1986|10.1007/BF01675197
4512|A||Dirilgen,N., and Y. Inel|Cobalt-Copper and Cobalt-Zinc Effects on Duckweed Growth and Metal Accumulation|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(1): 63-81|1994|
4513|A||Hynes,H.B.N., and T.R. Williams|The Effect of DDT on the Fauna of a Central African Stream|Ann. Trop. Med. Parasitol.56:78-91|1962|10.1080/00034983.1962.11686094
4514|A||Jarvie,A.W.P., and S.J. Marshall|The Effects of Organolead Compounds on a Freshwater and a Marine Alga|Appl. Organomet. Chem.1:29-38|1987|10.1002/aoc.590010106
4516|AT||Smith,K.A., A.A. Grigarick, and M.J. Oraze|Field Evaluations of Diflubenzuron and Triflumuron for Control of the Rice Water Weevil in California Rice Fields|J. Agric. Entomol.5(2): 121-126|1988|
4517|A||Burdick,G.E., H.J. Dean, E.J. Harris, J. Skea, and D. Colby|Toxicity of Sevin (Carbaryl) to Fingerling Brown Trout|N. Y. Fish Game J.12(2): 127-146|1965|
4518|A||Verma,S.R., I.P. Tonk, and V. Kumar|Effects of Thiotox, Malathion and Their Two Combinations on Tissues of Notopterus notopterus|J. Environ. Biol.4(1): 27-33|1983|
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4520|A||Prevost,G., C. Lanouette, and F. Grenier|Effect of Volume on the Determination of DDT or Rotenone Toxicity of Fish|J. Wildl. Manag.12(3): 241-250|1948|
4521|A||Swabey,Y.H., and C.F. Schenk|Evaluation of Two Organophosphorus Compounds as Blackfly Larvicides|Mosq. News27(2): 149-155|1967|
4522|A||Travis,B.V., and D.P. Wilton|A Progress Report on Simulated Stream Tests of Blackfly Larvicides|Mosq. News25(2):112-117|1965|
4523|AT||Rogers,A.J., and C.B.,Jr. Rathburn|Present Status of Insecticides for Mosquito Control in Florida|Mosq. News24(3): 286-291|1964|
4524|A||Patterson,R.S., and D.L. Von Windeguth|The Use of Baytex as a Midge Larvicide|Mosq. News24(4):393-396|1964|
4525|A||Patterson,R.S., and D.L. Von Windeguth|The Effects of Baytex on Some Aquatic Organisms|Mosq. News24(1): 46-49|1964|
4526|A||Jamnback,H.A., and R.G. Means|Formulation as a Factor Influencing the Effectiveness of Abate in Control of Blackflies (Diptera:  Simuliidae)|Proc. N. J. Mosq. Exterm. Assoc.55:89-94|1968|
4527|A||Canton,J.H., and P.W. Wester|Toxicity of TBTO in Guppy (Poecilia reticulata) and Rice-Fish (Oryzias latipes)|Pharm. Weekblad6(4): 183-|1984|
4528|A||Thain,J.E., and M.J. Waldock|The Impact of Tributyl Tin (TBT) Antifouling Paints on Molluscan Fisheries|Water Sci. Technol.18:193-202|1986|10.2166/wst.1986.0195
4529|A||Mohsen,Z.H., and M.S. Mulla|Toxicity of Blackfly Larvicidal Formulations to Some Aquatic Insects in the Laboratory|Bull. Environ. Contam. Toxicol.26(5): 696-703|1981|10.1007/BF01622159
4530|AT||Buckner,C.H., B.B. McLeod, and P.D. Kingsbury|Studies of the Impact of the Carbamate Insecticide Maticil on Components of Forest Ecosystems|Rep. - Chem. Control Res. Inst.:59 p.|1975|
4531|A||Kane,A.S., and D.L. Johnson|Use of TFM (3-Trifluoromethyl-4-Nitrophenol) to Selectively Control Frog Larvae in Fish Production Ponds|Prog. Fish-Cult.51:207-213|1989|10.1577/1548-8640(1989)051<0207:UOTTNT>2.3.CO;2
4532|A||Srivastava,A.K.|Influence of Methyl Parathion on Blood Chloride Level in the Indian Catfish Heteropneustes fossilis|J. Adv. Zool.8(2): 80-83|1987|
4537|A||Nicholas,W.D., and A.R. Abernathy|Inhibition of Metabolic Hydrogen Ion Flux Resulting from Cadmium Stress in Aquatic Microecosystems|Water Sci. Technol.19(11): 85-94|1987|10.2166/wst.1987.0114
4541|A||Tyurin,A.N., and N.K. Khristoforova|The Chiton Lepidozona albrechti as Bioindicator of Heavy Metal and Detergent Contamination of Seawater|Russ. J. Mar. Biol.3:97-105|1993|
4542|A||Tyurin,A.N., and N.K. Khristoforova|Effect of Toxicants on the Development of the Chiton Ischnochiton hakodadensis|Russ. J. Mar. Biol.5-6:100-106|1993|
4544|A||Arinc,E., and A. Sen|Effects of In Vivo Benzene Treatment on Cytochrome P450 and Mixed-Function Oxidase Activities of Gilthead Seabream (Sparus aurata) Liver Microsomes|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 61-65|1993|10.1016/0742-8413(93)90112-X
4547|A||Kettle,W.D.|Description and Analysis of Toxicant-Induced Responses of Aquatic Communities in Replicated Experimental Ponds|Ph.D.Thesis, University of Kansas, Lawrence, KS:146 p.|1982|
4548|A||Totaro,E.A., F.A. Pisanti, P. Glees, and A. Continillo|The Effect of Copper Pollution on Mitochondrial Degeneration|Mar. Environ. Res.18(4): 245-253|1986|10.1016/0141-1136(86)90024-3
4549|A||Van der Schalie,W.H.|The Toxicity of Nitroguanidine and Photolyzed Nitroguanidine to Freshwater Aquatic Organisms|Tech.Rep.8404, U.S.Army Medical Bioengineering Res.and Develop.Lab, Frederick, MD:35 p. |1985|
4550|A||Venkateswaran,P., and M. Ramaswamy|Lactic Acidosis in Different Tissues of Sarotherodon mossambicus (Peters) Exposed to Sevin|Curr. Sci. (Bangalore)56(7): 320-322|1987|
4551|A||Tyagi,B.K., N. Somachari, V. Vasuki, and P.K. Das|Evaluation of Three Formulations of a Chitin Synthesis Inhibitor (Fenoxycarb) Against Mosquito Vectors|Indian J. Med. Res.85:161-167|1987|
4553|A||Khangarot,B.S., and P.K. Ray|Sensitivity of Midge Larvae of Chironomus tentans Fabricius (Diptera Chironomidae) to Heavy Metals|Bull. Environ. Contam. Toxicol.42(3): 325-330|1989|10.1007/BF01699956
4554|A||Leino,R.L., and J.H. McCormick|Responses of Juvenile Largemouth Bass to Different pH and Aluminium Levels at Overwintering Temperatures: Effects on Gill Morphology, Electrolyte balance, Scale Calcium, Liver Glycogen, and Depot Fat|Can. J. Zool.71(3): 531-543|1993|10.1139/z93-074
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4556|A||Ringelband,U., and L. Karbe|Effects of Vanadium on Population Growth and Na-K-ATPase Activity of the Brackish Water Hydroid Cordylophora caspia|Bull. Environ. Contam. Toxicol.57(1):118-124|1996|10.1007/s001289900164
4557|A||Keenleyside,M.H.A.|Effects of Forest Spraying with DDT in New Brunswick on Food of Young Atlantic Salmon|J. Fish. Res. Board Can.24(4): 807-822|1967|10.1139/f67-068
4558|A||Keenleyside,M.H.A.|Effects of Spruce Budworm Control on Salmon and Other Fishes in New Brunswick|Can. Fish Cult.24:17-22|1959|
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4658|A||Henderson,C.|Protection of Domestic Water Supplies and Studies of Pollutional Parameters During the Green River Fish Control Project|U.S.Public Health Serv., Denver, CO:62 p.|1963|
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4673|A||Teesdale,C., D.F. Hadman, and J.N. Nguriathi|The Use of Continuous Low-Dosage Copper Sulfate as a Molluscicide on an Irrigation Scheme in Kenya|Bull. W. H. O.25:563-571|1961|
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4675|AT||Unrau,G.O., M. Farooq, I.K. Dawood, L.C. Miguel, and B.C. Dazo|Field Trials in Egypt with Acrolein Herbicide-Molluscicide|Bull. W. H. O.32:249-260|1965|
4676|AT||Ferguson,F.F., I.K. Dawood, and R. Blondeau|Preliminary Field Trials of Acrolein in the Sudan|Bull. W. H. O.32:243-248|1965|
4677|A||Rosen,P.|The Susceptibility of Culex pipiens fatigans Larvae to Insecticides in Rangoon, Burma|Bull. W. H. O.37:301-310|1967|
4678|A||Chang,V.C.S., and W.H. Lange|Laboratory and Field Evaluation of Selected Pesticides for Control of the Red Crayfish in California Rice Fields|J. Econ. Entomol.60:473-477|1967|10.1093/jee/60.2.473
4679|A||Shane,M.S.|Effect of DDT Spray on Reservoir Biological Balance|J. Am. Water Works Assoc.40:333-336|1948|10.1002/j.1551-8833.1948.tb16291.x
4680|A||Hendricks,J.D., D.W. Shelton, J.L. Casteel, T.R. Meyers, and R.O. Sinnhuber|Carcinogenicity of Methyl Azoxymethanol Acetate (MAMA) to Rainbow Trout (Salmo gairdneri) Embryos, with and Without Prior Exposure to Aroclor 1254 (PCB)|Proc. Am. Assoc. Cancer Res.24:54-|1983|
4681|A||Fernandez,M., and A. Jaylet|An Antioxidant Protects Against the Clastogenic Effects of Benzo(a)pyrene in the Newt In Vivo|Mutagenesis2(4): 293-296|1987|10.1093/mutage/2.4.293
4682|A||Park,E.H., H.H. Chang, K.C. Lee, H.S. Kweon, O.S. Heo, and K.W. Ha|High Frequency of Thyroid Tumor Induction by N-Methyl-N'-Nitro-N-Nitrosoguanidine in the Hermaphroditic Fish Rivulus marmoratus|Jpn. J. Cancer Res.84(6): 608-615|1993|10.1111/j.1349-7006.1993.tb02020.x
4683|A||Salonen,L., and H.A. Vaajakorpi|Bioaccumulation of 14C-DDT in a Small Pond|Environ. Qual. Saf.5:130-140|1976|
4684|A||Stratton,G.W., A.L. Huber, and C.T. Corke|The Effect of Pesticides and Their Metabolites, Alone and in Combination, on Algal Processes|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:131-139|1980|
4685|A||Rijstenbil,J.W., and G.C. VanGalen|Chemical Control of Mussel Settlement in a Cooling Water System Using Acrolein|Environ. Pollut. A.25(3): 187-195|1981|10.1016/0143-1471(81)90103-3
4687|A||Quillevere,D., H. Escaffre, B. Pendriez, S. Grebault, J. Ouedraogo, H. Kulzer, C. Bellec, and B. Philippon|Control of Simulium damnosum, the Vector of Human Onchocerciasis in West Africa. IV. Evaluation by Helicopter of New Formulations and Simulations|W.H.O.Documentary Series, WHO/VBC/76617:19-|1976|
4688|T||Tan,K.H.|Antifeeding Effect of Cypermethrin and Permethrin at Sub-Lethal Levels Against Pieris brassicae Larvae|Pestic. Sci.12:619-626|1981|10.1002/ps.2780120606
4689|A||Stringer,G.E., and R.G. McMynn|Three Years' Use of Toxaphene as a Fish Toxicant in British Columbia|Can. Fish Cult.28:37-44|1960|
4690|A||Ogilvie,D.M., and J.M. Anderson|Effect of DDT on Temperature Selection by Young Atlantic Salmon, Salmo salar|J. Fish. Res. Board Can.22:503-512|1965|10.1139/f65-046
4691|A||Premdas,F.H., and J.M. Anderson|The Uptake and Detoxificatin of C14-Labelled DDT in Atlantic Salmon, Salmo salar|J. Fish. Res. Board Can.20:827-837|1963|10.1139/f63-053
4692|AT||Greulach,V.A., J. McKenzie, and E.M. Stacy|The Effect of Maleic Hydrazide on the Embryonic and Larval Growth of Three Amphibians|Biol. Bull.101:285-288|1951|10.2307/1538546
4693|A||Blackburn,R.D.|Evaluating Herbicides Against Aquatic Weeds|Weeds (Urbana)11:21-24|1963|10.2307/4040677
4694|A||Yeo,R.R.|Dissipation of Diquat and Paraquat, and Effects on Aquatic Weeds and Fish|Weeds (Urbana)15:42-46|1967|10.2307/4041065
4695|A||James,M.O., C.S. Heard, and W.E. Hawkins|Effect of 3-Methylcholanthrene on Monooxygenase, Epoxide Hydrolase, and Glutathione S-transferase Activities in Small Estuarine and Freshwater Fish|Aquat. Toxicol.12(1): 1-15|1988|10.1016/0166-445X(88)90015-X
4696|A|OECDG|Tchounwou,P.B., A.J.,Jr. Englande, E.A. Malek, G.J. Greer, and A.C. Anderson|The Effects of Bayluscide and Malathion on the Mortality and Infectivity of Schistosoma mansoni Cercariae|Environ. Toxicol. Water Qual.7(2): 107-117|1992|10.1002/tox.2530070202
4697|A||Law,F.C.P., and R.F. Addison|Response of Trout Hepatic Mixed-Function Oxidases to Experimental Feeding of Ten Known or Possible Chlorinated Environmental Contaminants|Bull. Environ. Contam. Toxicol.27(5): 605-609|1981|10.1007/BF01611070
4698|A||Lindblad,C.|Functional Disturbance in Baltic Sea Fucus vesiculosus Communities After Chlorate Exposure|Manuscr., Dep.of Zool., Stockholm, Sweden:23 p.|1994|
4699|A||Lindblad,C., U. Kautsky, C. Andre, N. Kautsky, and M. Tedengren|Functional Response of Fucus vesiculosus Communities to Tributyltin Measured in an In Situ Continuous Flow-Through System|Hydrobiologia (Multiple Languages)188-189:277-283|1989|10.1007/BF00027793
4700|A||Stauber,J.L.|Toxicity of Chlorate to Marine Microalgae|Aquat. Toxicol.41(3): 213-227|1998|10.1016/S0166-445X(97)00087-8
4701|A||Lindblad,C., U. Kautsky, and N. Kautsky|An In Situ System for Evaluating Effects of Toxicants on the Metabolism of Littoral Communities|ASTM Spec. Tech. Publ.:97-105|1988|
4706|A||Pierce,M.E.|Application of Fenac Granular to Four Small Ponds on Vassar College Campus|Proc. Northeast. Weed Control Conf.20:470-475|1966|
4707|A||Bhatnagar,P., S. Kumar, and R. Lal|Uptake and Bioconcentration of Dieldrin, Dimethoate, and Permethrin by Tetrahymena pyriformis|Water Air Soil Pollut.40(3-4): 345-349|1988|10.1007/BF00163738
4708|A||Fukano,K.G., and F.F. Hooper|Toxaphene (Chlorinated Camphene) as a Selective Fish Poison|Prog. Fish-Cult.20:189-190|1958|10.1577/1548-8659(1958)20[189:TCCAAS]2.0.CO;2
4709|A||Poston,T.M., D.C. Klopfer, and M.A. Simmons|Short-Term Bioconcentration Studies of Np in Freshwater Biota|Health Phys.59(6): 869-877|1990|10.1097/00004032-199012000-00010
4710|A||Hatch,R.W.|Relative Sensitivity of Salmonids to DDT|Prog. Fish-Cult.19:89-91|1957|10.1577/1548-8659(1957)19[89:RSOSTD]2.0.CO;2
4711|A||Hemphill,J.E.|Toxaphene as a Fish Poison|Prog. Fish-Cult.16:41-42|1954|10.1577/1548-8659(1954)16[41:TAAFT]2.0.CO;2
4712|A||Surber,E.W., and M.H. Everhart|Biological Effects of Nigrosine Used for Control of Weeds in Hatchery Ponds|Prog. Fish-Cult.12:135-140|1950|10.1577/1548-8640(1950)12[135:BEONUF]2.0.CO;2
4713|A||Ali,A., M.S. Mulla, A.R. Pfuntner, and L.L. Luna|Pestiferous Midges and Their Control in a Shallow Residential-Recreational Lake in Southern California|Mosq. News38(4): 528-535|1978|
4714|A||Saxena,O.P., and A. Parashari|Cadmium Induced Tumors in Liver and Kidney of Channa punctatus (Bl.)|Int. J. Acad. Ichthyol.2(2): 55-59|1981|
4715|A||Symons,P.E.K., and J.L. Metcalfe|Mortality, Recovery, and Survival of Larval Brachycentrus numerosus (Trichoptera) After Exposure to the Insecticide Fenitrothion|Can. J. Zool.56:1284-1290|1978|10.1139/z78-183
4716|A||Walsh,G.E., M.K. Louie, L.L. McLaughlin, and E.M. Lores|Lugworm (Arenicola cristata) Larvae in Toxicity Tests: Survival and Development When Exposed to Organotins|Environ. Toxicol. Chem.5:749-754|1986|10.1002/etc.5620050805
4717|A||Morrison,B.R.S., and D.E. Wells|The Fate of Fenitrothion in a Stream Environment and Its Effect on the Fauna, Following Aerial Spraying of a Scottish Forest|Sci. Total Environ.19:233-252|1981|10.1016/0048-9697(81)90020-6
4718|AT||Miura,T., and R.M. Takahashi|Effects of the IGR, TH6040, on Nontarget Organisms when Utilized as a Mosquito Control Agent|Mosq. News35:154-159|1975|
4719|A||Eidt,D.C.|Effects of Fenitrothion from 1974 Forest Spraying on Benthos of the Nashwaak Project Study Streams|Inf.Rep.M-X-49, Maritimes For.Res.Ctr., Fredericton, New Brunswick:7 p.|1975|
4720|A||Eidt,D.C.|Toxicity of Fenitrothion to Insects in a Woodland Stream|Information Rep.M-X-86, Maritimes Forest Research Centre, Fredericton, New Brunswick:1-13|1978|
4722|A||Rettich,F.|The Toxicity of Four Synthetic Pyrethroids to Mosquito Larvae and Pupae (Diptera, Culicidae) in Czechoslovakia|Acta Entomol. Bohemoslov.76:395-401|1979|
4723|A||Zhang,K.|Toxication of Zn2+ and NH3-N on Hepatopancreas of Penaeus orientalis|Shuichan Xuebao (Non-English)17(1): 52-59|1993|
4725|A||Burton,G.J., G.K. Noamesi, V.H. Zeve, and T.M. McRae|Quantitative Studies on the Mortality of Simulium damnosum Larvae Following Dosing with DDT Under Field Conditions. Mortality Within the First Three|Ghana Med. J.3:93-97|1964|
4726|A||Foster,J., and C. Turner|Toxicity of Field Simulated Farm Waste Episodes to the Crayfish Austropotamobius pallipes (Lereboullet): Elevated Ammonia and Reduced Dissolved|Freshw. Crayfish9:249-258|1993|
4727|A||Jones,T.W., and L. Winchell|Uptake and Photosynthetic Inhibition by Atrazine and Its Degradation Products on Four Species of Submerged Vascular Plants|J. Environ. Qual.13(2): 243-247|1984|10.2134/jeq1984.00472425001300020014x
4728|A||Way,J.M., J.F. Newman, N.W. Moore, and F.W. Knaggs|Some Ecological Effects of the Use of Paraquat for the Control of Weeds in Small Lakes|J. Appl. Ecol.8(2): 509-532|1971|10.2307/2402887
4729|A||Metcalf,R.L., P.Y. Lu, and S. Bowlus|Degradation and Environmental Fate of 1-(2,6-Diflurobenzoyl)-3-(4-Chlorophenyl)urea|J. Agric. Food Chem.23:359-364|1975|10.1021/jf60199a025
4730|A||Harp,G.L., and R.S. Campbell|Effects of the Herbicide Silvex on Benthos of a Farm Pond|J. Wildl. Manag.28:308-317|1964|10.2307/3798092
4731|A||Chadwick,G.G., and R.W. Brocksen|Accumulation of Dieldrin by Fish and Selected Fish-Food Organisms|J. Wildl. Manag.33(3): 693-700|1969|10.2307/3799395
4732|A||Hoffman,D.A., and J.R. Olive|The Effects of Rotenone and Toxaphene upon Plankton of Two Colorado Reservoirs|Limnol. Oceanogr.6:219-222|1961|10.4319/lo.1961.6.2.0219
4734|A||Schoettger,R.A., and J.R. Olive|Accumulation of Toxaphene by Fish-Food Organisms|Limnol. Oceanogr.6:216-219|1961|10.4319/lo.1961.6.2.0216
4735|A||Heyward,A.J.|Inhibitory Effects of Copper and Zinc Sulphates on Fertilization in Corals|In: Proceedings of the 6th International Coral Reef Symposium, Townsville, Australia2:299-303|1988|
4737|A||Bond,C.E., J.D.,Jr. Fortune, and F. Young|Results of Preliminary Bioassays with Kurosal SL and Dicamba|Prog. Fish-Cult.27:49-51|1965|10.1577/1548-8640(1965)27[49:ROPBWK]2.0.CO;2
4738|A||Sewall,T., L. Olson, L. Lange, and J. Pommerville|The Effect of Monensin on Gametogenesis and Zoosporogenesis in the Aquatic Fungus, Allomyces macrogynus|Protoplasma (Multiple Languages)133:129-139|1986|10.1007/BF01304628
4740|A||Presing,M.|On the Effects of Dikonirt (Sodium Salt of 2,4-Dichlorophenoxi-Acetic Acid) on the Mortality and Reproduction of Daphnia magna|Hydrobiologia (Multiple Languages)83:511-516|1981|10.1007/BF02187048
4741|A||Wilson,R.W., and E.W. Taylor|Differential Responses to Copper in Rainbow Trout (Oncorhynchus mykiss) Acclimated to Sea Water and Brackish Water|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.163(3): 239-246|1993|
4742|A||Philippon,B., Y. Sechan, F. Riviere, H. Kulzer, O. Pawlick, and M. Krupke|Control of Simulium damnosum, the Vector of Human Onchocerciasis in West Africa. VI. Spraying of New Insecticide Formulations by Helicopter in the|W.H.O.Documentary Series, WHO/VBC/76.619:21-|1976|
4743|A||Sharp,J.R., and J.M. Neff|Age-Dependent Response Differences of Fundulus heteroclitus Embryos Following Chronic Exposure to Mercury|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:281-308|1985|
4744|A||Prasad,T.A.V., and D.C. Reddy|Atrazine Toxicity on Hydromineral Balance of Fish, Tilapia mossambicus|Ecotoxicol. Environ. Saf.28(3): 313-316|1994|10.1006/eesa.1994.1055
4745|A||Mortimer,M.R., and D.W. Connell|Critical Internal and Aqueous Lethal Concentrations of Chlorobenzenes with Crab Portunus pelagicus (L)|Ecotoxicol. Environ. Saf.28(3): 298-312|1994|10.1006/eesa.1994.1054
4747|AT||Ribeyre,F., and A. Boudou|Experimental Study of Inorganic and Methylmercury Bioaccumulation by Four Species of Freshwater Rooted Macrophytes from Water and Sediment|Ecotoxicol. Environ. Saf.28(3): 270-286|1994|10.1006/eesa.1994.1052
4748|A||Janssen,C.R., M.D. Ferrando, and G. Persoone|Ecotoxicological Studies with the Freshwater Rotifer Brachionus calyciflorus IV.  Rotifer Behavior as a Sensitive and Rapid Sublethal Test Criterion|Ecotoxicol. Environ. Saf.28(3): 244-255|1994|10.1006/eesa.1994.1050
4749|A||Miura,T., and R.M. Takahashi|Insect Developmental Inhibitors. Effects of Candidate Mosquito Control Agents on Nontarget Aquatic Organisms|Environ. Entomol.3:631-636|1974|10.1093/ee/3.4.631
4750|A||Sjogren,R.D., and M.S. Mulla|Drip Application of Three Organophosphorus Insecticides for Mosquito Control|Mosq. News28(2): 172-177|1968|
4751|A||Glancey,B.M., K.F. Baldwin, and C.S. Lofgren|Laboratory Tests of Promising Mosquito Larvicides|Mosq. News29(1): 41-43|1969|
4752|A||Porter,C.H., and W.L. Gojmerac|Field Observations with Abate and Bromophos:  Their Effect on Mosquitoes and Aquatic Arthropods in a Wisconsin Park|Mosq. News29(4): 617-620|1969|
4753|A||Gillies,P.A., D.J. Womeldorf, and J.D. Walsh|A Bioassay Method for Measuring Mosquito Larvicide Depositions|Mosq. News28(3): 415-421|1968|
4754|A||Ikeshoji,T., and S.H. Hurlbert|Dibutyl O-Cresol: Its Effects on Mosquito Survival and Oviposition and on Plankton Populations|Mosq. News31(4): 504-508|1971|
4755|A||Wilton,D.P., and B.V. Travis|An Improved Method for Simulated Stream Tests of Blackfly Larvicides|Mosq. News25(2):118-127|1965|
4756|A||Keppler,W.J., W. Klassen, and J.B. Kitzmiller|Laboratory Evaluation of Certain Larvicides Against Culex pipiens Linn., Anopheles albimanus Wied. and Anopheles quadrimaculatus Say|Mosq. News25(4): 415-419|1965|
4757|A||Von Windeguth,D.L., and R.S. Patterson|The Effects of Two Organic Phosphate Insecticides on Segments of the Aquatic Biota|Mosq. News26(3): 377-380|1966|
4758|A||Soper,F.L.|Paris Green in the Eradication of Anopheles gambiae: Brazil, 1940; Egypt, 1945|Mosq. News26(4): 470-476|1966|
4760|AT||Lofgren,C.S., J.E. Scanlon, and V. Israngura|Evaluation of Insecticides Against Aedes aegypti (L.) and Culex pipiens quinquefasciatus Say (Diptera: Culicidae) in Bangkok, Thailand|Mosq. News27(1): 16-21|1967|
4761|A||Schober,H.|A Study of the Use of Abate in Mosquito Control in Suffolk County, Long Island, N.Y., in 1965|Mosq. News27(1): 100-104|1967|
4762|A||Moore,J.B., and S.G. Breeland|Field Evaluation of Two Mosquito Larvicides, Abate and Dursban, Against Anopheles quadrimaculatus and Associated Culex Species|Mosq. News27(1): 105-111|1967|
4763|A||Mount,G.A., and C.S. Lofgren|Ultra-Low Volume and Conventional Aerial Sprays for Control of Adult Salt-Marsh Mosquitoes, Aedes sollicitans (Walker) and Aedes taeniorhynchus|Mosq. News27(4): 473-477|1967|
4764|T||Knapp,F.W., and C.H. Gayle|ULV Aerial Insecticide Application for Adult Mosquito Control in Kentucky|Mosq. News27(4): 478-482|1967|
4765|A||Stevens,L.F., and R.F. Stroud|Control of Mosquito Adults and Larvae with Ultra-Low Volume Aerial Applications of Baygon and Baygon-Baytex Mixture|Mosq. News27(4): 482-485|1967|
4766|A||Gibbs,K.E., C.F. Rabeni, J.G. Stanley, and J.G. Trial|The Effects of a Split Application of Sevin-4-Oil on Aquatic Organisms|Report to the Maine Forest Service, Dep.Entomol., Maine Coop.Fish.Res.Unit, Univ.of Maine, Orono, ME:50 p.|1979|
4767|A||Gibbs,K.E., T.M. Mingo, and D.L. Courtemanch|The Long-Term Effects on Pond Macroinvertebrates from Forest Spraying of Carbaryl (Sevin-4-Oil) In 1980 and Its Persistence in Water and Sediment in 1981|K.G.Stratton (Ed.), Environ.Monit.Coop.Spruce Budworm Control Project, Maine Dep.Cons., Bur.of For.:20 p.|1981|
4768|A||Gibbs,K.E., T.M. Mingo, and D.L. Courtemanch|The Effects in 1982 on Pond Macroinvertebrates from Forest Spraying of Carbaryl, Sevin-4-Oil in 1980|K.G.Stratton (Ed.), Environ.Monit.Coop.Spruce Budworm Control Project, Maine Dep.Cons., Forestry:17 p.|1982|
4770|A||Rao,K.R., P.J. Conklin, and D.G. Doughtie|Physiological and Histopathological Evaluation of the Toxicity of Hexavalent Chromium to the Grass Shrimp Palaemonetes pugio Holthuis|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:199-226|1985|
4772|A||Elson,P.F., and C.J. Kerswill|Forest Spraying and Salmon Angling|Atlantic Salmon J.3:20-29|1964|
4773|A||Meehan,W.R., and W.L. Sheridan|Effects of Toxaphene on Fishes and Bottom Fauna of Big Kitoi Creek, Afognak Island, Alaska|Invest.Fish Control No.8, Resourc.Publ.No.12, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washinton, DC:9 p.|1966|
4774|A||Burress,R.M., and C.W. Luhning|Use of Antimycin for Selective Thinning of Sunfish Populations in Ponds|Invest.Fish Control No.28, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1969|
4775|A||Gaylord,W.E., and B.R. Smith|Treatment of East Bay, Alger County, Michigan, with Toxaphene for Control of Sea Lampreys|Invest.Fish Control No.7, Resour.Publ.No.11, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:7 p.|1966|
4776|A||Warnick,D.C.|Growth Rates of Yellow Perch in Two North Dakota Lakes After Population Reduction with Toxaphene|Invest.Fish Control No.5, Resour.Publ.No.9, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1966|
4777|A||Needham,R.G.|Effects of Toxaphene on Plankton and Aquatic Invertebrates in North Dakota Lakes|Invest.Fish Control No.4, Resour.Publ.No.8, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:16 p.|1966|
4778|A||Henegar,D.L.|Minimum Lethal Levels of Toxaphene as a Piscicide in North Dakota Lakes|Invest.Fish Control No.3, Resour.Publ.No.7, Fish Wildl.Serv., Bur.Sport Fish.Wildl, USDI, Washington, DC:16 p.|1966|
4780|A||Carpene,E., O. Cattani, G. Hakim, and G.P. Serrazanetti|Metallothionein from Foot and Posterior Adductor Muscle of Mytilus galloprovincialis|Comp. Biochem. Physiol. C Comp. Pharmacol.74(2): 331-336|1983|10.1016/0742-8413(83)90110-X
4781|A||Henderson,R.J., and J.R. Sargent|Studies on the Effects of di-(2-Ethylhexyl)Phthalate on Lipid Metabolism in Rainbow Trout (Salmo gairdnerii) Fed Zooplankton Rich in Wax Esters|Comp. Biochem. Physiol. C Comp. Pharmacol.74(2): 325-330|1983|10.1016/0742-8413(83)90109-3
4783|A||Wilson,R.W., and E.W. Taylor|The Physiological Responses of Freshwater Rainbow Trout, Oncorhynchus mykiss, During Acutely Lethal Copper Exposure|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.163(1): 38-47|1993|10.1007/BF00309663
4784|A||Fong,A.T., R.H. Dashwood, R. Cheng, C. Mathews, B. Ford, J.D. Hendricks, and G.S. Bailey|Carcinogenicity, Metabolism and Ki-Ras Proto-Oncogene Activation by 7,12-Dimethylbenz(a)anthracene in Rainbow Trout Embryos|Carcinogenesis14(4): 629-635|1993|10.1093/carcin/14.4.629
4785|A||Lewis,M.A., and L.C. Valentine|Acute and Chronic Toxicities of Boric Acid to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.27(3): 309-315|1981|10.1007/BF01611025
4787|A||Dallakyan,G.A., M.M. Telitchenko, I.V. Ageyeva, and S.I. Pogosyan|Inhibition of Microalgae Growth by the Photosensitizing Compound Bengal Pink|Hydrobiol. J.28(4): 21-25|1992|
4788|A||O'Neill,J.G.|Effects of Intraperitoneal Lead and Cadmium on the Humoral Immune Response of Salmo trutta|Bull. Environ. Contam. Toxicol.27(1): 42-48|1981|10.1007/BF01610984
4790|A||Werner,A.F., and R.A. Kimerle|Uptake and Distribution of C12 Alkylbenzene in Bluegill (Lepomis macrochirus)|Environ. Toxicol. Chem.1(2): 143-146|1982|10.1002/etc.5620010205
4792|A||Holland,H.T., D.L. Coppage, and P.A. Butler|Increased Sensitivity to Pesticides in Sheepshead Minnows|Trans. Am. Fish. Soc.95:110-112|1966|10.1577/1548-8659(1966)95[110:ISTPIS]2.0.CO;2
4793|A||Jones,B.R., and J.B. Moyle|Populations of Plankton Animals and Residual Chlorinated Hydrocarbons in Soils of Six Minnesota Ponds Treated for Control of Mosquito Larvae|Trans. Am. Fish. Soc.92:211-215|1963|10.1577/1548-8659(1963)92[211:POPAAR]2.0.CO;2
4794|A||Dedyu,I.I., and A.P. Gerbeleu|Toxicologic Evaluation of the Effect of Cresacin on Daphnia magna|Hydrobiol. J.28(6): 97-104|1992|
4795|A||Lindblad,C.|Perturbation of Functions in Shallow Benthic Ecosystems|Ph.D.Thesis, Stockholm University, Stockholm, Sweden:103 p.|1994|
4796|A||Slade,G.J.|Effect of Ixtoc I Crude Oil and Corexit 9527 Dispersant on Spot (Leiostomus xanthurus) Egg Mortality|Bull. Environ. Contam. Toxicol.29(5): 525-530|1982|10.1007/BF01669615
4797|A||Niimi,A.J., and C.Y. Cho|Elimination of Hexachlorobenzene (HCB) by Rainbow Trout (Salmo gairdneri), and an Examination of Its Kinetics in Lake Ontario Salmonids|Can. J. Fish. Aquat. Sci.38(11): 1350-1356|1981|10.1139/f81-181
4798|A||Schocken,M.J., and M.K. Speedie|Physiological Aspects of Atrazine Degradation by Higher Marine Fungi|Arch. Environ. Contam. Toxicol.13:707-714|1984|10.1007/BF01055934
4799|A||McCahon,C.P., D. Pascoe, and C. McKavanagh|Histochemical Observation on the Salmonids Salmo salar L. and Salmo trutta L. and the Ephemeropterans Baetis rhodani (Pict.) and Ecdyonurus venosus|Hydrobiologia (Multiple Languages)153(1):3-12|1987|10.1007/BF00005500
4800|A||Wall,W.J.,Jr., and V.M. Marganian|Control of Culicoides melleus (Coq.) (Diptera: Ceratopogonidae) with Granular Organophosphorus Pesticides, and the Direct Effect on Other Fauna|Mosq. News31(2): 209-214|1971|
4801|A||Hall,L.W.,Jr., D.T. Burton, W.C. Graves, and S.L. Margrey|Effects of Dechlorination on Early Life Stages of Striped Bass (Morone saxatilis)|Environ. Sci. Technol.15:573-578|1981|10.1021/es00087a009
4802|A||Erickson,S.J.|Inhibition of Photosynthesis in Estuarine Phytoplankton by Mixtures of Copper and Pentachlorophenol|Unpubl.Manuscript, U.S.EPA, Gulf Breeze, FL:11 p.|1981|
4803|A||Walsh,G.E.|Effects of Pesticides and Industrial Wastes on Unicellular Algae and Seagrass|In: Research and Development: Experimental Environments Branch, Prog.Rep.for Fiscal Year 1981, Unpubl.Lab.Data, U.S.EPA, ERL-Gulf Breeze, FL:3-26|1981|
4804|A||Howell,R.|Acute Toxicity of Heavy Metals to Two Species of Marine Nematodes|Mar. Environ. Res.11(3): 153-161|1984|10.1016/0141-1136(84)90043-6
4805|A||Filenko,O.F., D. Shihua, C. Xulong, Z. Yugi, and Z. Tingming|Effect of Mercury on the Relative Proportions of Certain Elements in the Tissues of Carp|Hydrobiol. J.28(4): 62-68|1991|
4806|A||Thomas,V.|Effects of Certain Extrinsic and Intrinsic Factors on the Susceptibility of Larvae of Culex pipiens fatigans Wied to DDT|Mosq. News25(1): 38-43|1965|
4807|A||Mills,G.D.,Jr., J.H. Fales, and C.G.,Jr. Durbin|Comparison of the Effect of Six Pyrethroids Against a Backswimmer, Notonecta undulata Say|Mosq. News29(4): 690-691|1969|
4808|A||Tagatz,M.E., C.H. Deans, G.R. Plaia, and J.D. Pool|Impact on and Recovery of Experimental Macrobenthic Communities Exposed to Pentachlorophenol|Northeast Gulf Sci.6(2): 131-136|1983|10.18785/negs.0602.06
4809|A||Ward,G.S., T.A. Hollister, P.T. Heitmuller, and P.R. Parrish|Acute and Chronic Toxicity of Selenium to Estuarine Organisms|Northeast Gulf Sci.4(2): 73-78|1981|10.18785/negs.0402.01
4810|A||Todd,I.S., and K.J. Jackson|The Effects on Salmon of a Program of Forest Insect Control with DDT on Northern Moresby Island|Can. Fish Cult.30:15-38|1961|
4811|A||Davis,H.C.|Effects of Some Pesticides on Eggs and Larvae of Oysters (Crassostrea virginica) and Clams (Venus mercenaria)|Commer. Fish. Rev.23(12): 8-23|1961|
4812|A||Julshamn,K.|Studies on Major and Minor Elements in Molluscs in Western Norway. VI. Accumulation and Depletion of Cadmium and Lead and 5 Further Elements in|Fiskeridir. Skr. Ser. Ernaer.1(5): 247-265|1981|
4813|A||Jayaprada,P., M.S. Reddy, and K.V.R. Rao|Subacute Physiological Stress Induced by Phosphamidon on Carbohydrate Metabolism in Midgut Gland of Prawn, Penaeus indicus|Biochem. Int.23(3): 507-514|1991|
4814|A||Nagabhushanam,R., P.R. Machale, R.V. Katyayani, P.S. Reddy, and R. Sarojini|Erythrophoretic Responses Induced by Naphthalene in Freshwater Prawn, Caridina rajadhari|J. Ecotoxicol. Environ. Monit.1(3): 185-191|1991|
4815|A||Srinivasan,S., S. Manivel, and N. Nattuthurai|Effect of Urea on Acid and Alkaline Phosphatase Activities in the Freshwater Crab Oziotelphusa senex senex (Fabricius)|J. Ecotoxicol. Environ. Monit.1(3): 163-168|1991|
4817|A||McCraren,J.P., O.B. Cope, and L. Eller|Some Chronic Effects of Diuron on Bluegills|Weed Sci.17:497-504|1969|10.1017/S0043174500054679
4818|AT||Arvick,J.H., D.L. Hyzak, and R.L. Zimdahl|Effect of Metribuzin and Two Analogs on Five Species of Algae|Weed Sci.21(3): 173-175|1973|10.1017/S0043174500032057
4819|A||Wallace,J.B., and U.E. Brady|Residue Levels of Dieldrin in Aquatic Invertebrates and Effect of Prolonged Exposure on Populations|Pestic. Monit. J.5(3):295-300|1974|
4821|A||Starkey,R.J., and J.H. Howell|Substituted Nitrosalicylanilides: A New Class Selectively Toxic Sea Lamprey Larvicides|Tech. Rep. Great Lakes Fish. Comm.11:21-29|1966|
4822|A||Applegate,V.C., B.G.H. Johnson, and M.A. Smith|The Relation Between Molecular Structure and Biological Activity Among Monitrophenols Containing Halogens|Tech. Rep. Great Lakes Fish. Comm.11:1-19|1966|
4823|A||Tatum,W.M., and R.D. Blackburn|Preliminary Study of the Effects of Diquat on the Natural Bottom Fauna and Plankton in Two Subtropical Ponds|Proc. Southeast. Assoc. Game Fish Comm.16:301-307|1962|
4824|A||Ward,G.S., G.C. Cramm, P.R. Parrish, H. Trachman, and A. Slesinger|Bioaccumulation and Chronic Toxicity of bis(Tributyltin) Oxide (TBTO):  Tests with a Saltwater Fish|ASTM Spec. Tech. Publ.:183-200|1981|
4825|A||Stewart,N.E., R.E. Millemann, and W.P. Breese|Acute Toxicity of the Insecticide Sevin and Its Hydrolytic Product 1-Naphthol to Some Marine Organisms|Trans. Am. Fish. Soc.96:25-30|1967|10.1577/1548-8659(1967)96[25:ATOTIS]2.0.CO;2
4826|A||Smith,A.J.|The Effect of the Lamprey Larvicide, 3-Trifluoromethyl-4-nitrophenol, on Selected Aquatic Invertebrates|Trans. Am. Fish. Soc.86:410-413|1967|10.1577/1548-8659(1967)96[410:TEOTLL]2.0.CO;2
4828|A||Tabak,L.M., and K.E. Gibbs|Effects of Aluminum, Calcium and Low pH on Egg Hatching and Nymphal Survival of Cloeon triangulifer McDunnough (Ephemeroptera: Baetidae)|Hydrobiologia (Multiple Languages)218(2): 157-166|1991|10.1007/BF00006788
4829|AT||Lawrence,J.M., H.H.,Jr. Funderburk, R.D. Blackburn, and P.G. Beasley|The Status of Diquat and Paraquat as Aquatic Herbicides|Proc. Southeast. Assoc. Game Fish Comm.16:247-257|1962|
4830|A||Lewis,M.A., and R.L. Perry|Acute Toxicities of Equimolar and Equitoxic Surfactant Mixtures to Daphnia magna and Lepomis macrochirus|ASTM Spec. Tech. Publ.:402-418|1981|
4831|A||Reddy,P.M., G.H. Philip, and M. Bashamohideen|Perturbations in Nitrogen Metabolic Profiles in the Tissues of Fish, Labeo rohita Exposed to Fenvalerateo|Biochem. Int.25(3): 571-576|1991|
4832|A||Pagano,G., M. Cipollaro, G. Corsale, A. Esposito, E. Ragucci, G.G. Giordano, and N.M. Treiff|Comparative Toxicities of Chlorinated Biphenyls on Sea Urchin Egg Fertilisation and Embryogenesis|Mar. Environ. Res.17(2-4): 240-244|1985|10.1016/0141-1136(85)90096-0
4833|A||Trieff,N.M., M. Cipollaro, G. Corsale, A. Esposito, E. Ragucci, G.G. Giordano, S. Ramanujam, D. Livingstone, and G. Pag|Aroclor 1254 Toxicity in Sea Urchin Embryos and Gametes|Exp. Oncol. , Life Sci. Adv.7:57-64|1988|
4834|A||Cruz,E.R., and G.L. Enriquez|Gill Lesions Associated with Acute Exposure to Ammonia|Nat.Appl.Sci.Bull.34(1): 1-13|1982|
4835|A||Thomas,P., R.S. Carr, and J.M. Neff|Biochemical Stress Responses of Mullet Mugil cephalus and Polychaete Worms Neanthes virens to Pentachlorophenol|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, New York:73-103|1981|
4836|A||McKenney,C.L.J.,Jr.|The Effects of Salinity and Mercury on Developing Megalopae and Early Crab Stages of the Blue Crab, Callinectes sapidus Rathbun|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, NY:241-262|1981|
4837|A||Cripe,G.M., D.R. Nimmo, and T.L. Hamaker|Effects of Two Organophosphate Pesticides on Swimming Stamina of the Mysid Mysidopsis bahia|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Acad.Press, NY:21-36|1981|
4838|A||McKenney,C.L.,Jr., and J.M. Neff|The Ontogeny of Resistance Adaptation and Metabolic Compensation to Salinity and Temperature by the Caridean Shrimp, Palaemonetes pugio, and Modification by Sublethal Zinc Exposure|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, New York:205-240|1981|
4839|A||Cruz,E.R.|Acute Toxicity of Un-Ionized Ammonia to Milkfish (Chanos chanos) Fingerlings|Fish. Res. J. Philipp.6(1): 33-38|1981|
4841|A||Workman,D.L.|Recovery of Rainbow Trout and Brown Trout Populations Following Chemical Poisoning in Sixteenmile Creek, Montana|N. Am. J. Fish. Manag.1(2): 144-150|1981|10.1577/1548-8659(1981)1<144:RORTAB>2.0.CO;2
4845|A||Weis,J.S., P. Weis, M. Heber, and S. Vaidya|Methylmercury Tolerance of Killifish (Fundulus heteroclitus) Embryos from a Polluted vs Non-Polluted Environment|Mar. Biol.65(3): 283-287|1981|10.1007/BF00397123
4847|A||Kukkonen,J., J.F. McCarthy, and A. Oikari|Effects of XAD-8 Fractions of Dissolved Organic Carbon on the Sorption and Bioavailability of Organic Micropollutants|Arch. Environ. Contam. Toxicol.19:551-557|1990|10.1007/BF01059074
4848|A||Seelye,J.G., and M.J. Mac|Size-Specific Mortality in Fry of Lake Trout (Salvelinus namaycush) from Lake Michigan|Bull. Environ. Contam. Toxicol.27(3): 376-379|1981|10.1007/BF01611035
4849|A||Smith,R.L., and B.R. Hargreaves|Respiratory Rate in the Mysid Neomysis americana: Effects of Naphthalene, Temperature, and Other Factors|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:477-503|1985|
4850|A||Unsal,M.|Comparative Toxicity of Crude Oil, Dispersant and Oil-Dispersant Mixture to Prawn, Palaemon elegans|Toxicol. Environ. Chem.31-32:451-459|1991|10.1080/02772249109357720
4851|A||Weis,J.S., P. Weis, and F. Wang|Developmental Effects of Tributyltin on the Fiddler Crab, Uca pugilator, and the Killifish, Fundulus heteroclitus|In: Oceans 87, IEEE Publishing Services, New York, NY4:1456-1460|1987|
4852|A||Giri,S., Y. Singh, G.C. Srivastava, and S. Mekrani|Studies on Substituted Aryloxyalkanols as Potential Fungicides|Pestic. Sci.12(3): 351-354|1981|10.1002/ps.2780120315
4853|A||George,S.G., and B.J.S. Pirie|The Occurrence of Cadmium in Sub-Cellular Particles in the Kidney of the Marine Mussel, Mytilus edulis, Exposed to Cadmium|Biochim. Biophys. Acta580:234-244|1979|10.1016/0005-2795(79)90136-3
4855|A||Kershaw,W.E., T.R. Williams, S. Frost, R.E. Matchett, M.L. Mills, and R.D. Johnson|The Selective Control of Simulium Larvae by Particulate Insecticides and Its Significance in River Management|Trans. R. Soc. Trop. Med. Hyg.62(1): 35-40|1968|10.1016/0035-9203(68)90028-X
4856|A||Iwama,G.K., and G.L. Greer|Mortality in Juvenile Chinook Salmon Exposed to Sodium Pentachlorophenate and Undergoing Progressively Symptomatic Bacterial Kidney Disease|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):9 p.|1982|
4857|A||Hagmann,L.E., and D.J. Porteous|Pre-Hatch Treatments with Dursban 1G Granular Insecticide for Control of Mosquito Larvae|Down Earth28:21-24|1972|
4858|A||Holmes,S.B., and P.D. Kingsbury|Comparative Effects of Three Matacil Field Formulations on Stream Benthos and Fish|Rep.No.FPM-X-55, Environment Canada, Forest Pest Manage.Inst., Can.Forest Serv., Sault Ste.Marie, Ontario, Canada:51-|1982|
4859|AT||Kingsbury,P.D., and D.P. Kreutzweiser|Environmental Impact Assessment of a Semi-Operational Permethrin Application|For. Pest Manag. Inst.:88 p.|1980|
4860|A||Lewallen,L.L.|Effects of Farnesol and Ziram on Mosquito Larvae|Mosq. News24:53-55|1964|
4861|A||Hardy,J.L.|Effect of Tordon Herbicides on Aquatic Chain Organisms|Down Earth22(2): 11-13|1966|
4863|A||Davies,J.B., C. Gboho, D.A.T. Baldry, C. Bellec, R. Sawadogo, and P.C. Tiao|The Effects of Helicopter Applied Adulticides for Riverine Tsetse Control on Simulium Populations in a West African Savana Habitat. I. Introduction|Trop. Pest Manag.28(3): 284-290|1982|10.1080/09670878209370722
4864|A||Harrington,R.W.,Jr., and W.L. Bidlingmayer|Effects of Dieldrin on Fishes and Invertebrates of a Salt Marsh|J. Wildl. Manag.22:76-82|1958|10.2307/3797300
4865|A||Weier,J.L., and D.F. Starr|The Use of Rotenone to Remove Rough Fish for the Purpose of Improving Migratory Waterfowl Refuge Areas|J. Wildl. Manag.14:203-205|1950|10.2307/3796333
4866|A||Eicher,G.|Aniline Dye in Aquatic Weed Control|J. Wildl. Manag.11:193-197|1947|10.2307/3796277
4867|A||Reddy,P.M., G.H. Philip, and M. Bashamohideen|Fenvalerate Induced Biochemical Changes in the Selected Tissues of Freshwater Fish, Cyprinus carpio|Biochem. Int.23(6): 1087-1096|1991|
4868|A||Reddy,S.J., B.V. Reddy, and R. Ramamurthi|Impact of Chronic Phosalone Toxicity on Erythropoietic Activity of Fish, Oreochromis mossambicus|Biochem. Int.25(3): 547-552|1991|
4869|A||Sharaf El Din,H., and H. El Nagar|Control of Snails by Copper Sulphate in the Canals of the Gezira Irrigated Area of the Sudan|J. Trop. Med. Hyg.58:260-263|1955|
4870|AT||Springer,P.F., and J.R. Webster|Papers and Proceedings of the 1951 Annual Meeting - Part II. Biological Effects of DDT Applications on Tidal Salt Marshes|Mosq. News11(2): 67-74|1951|
4871|A||Cullimore,D.R.|The In Vitro Sensitivity of Some Species of Chlorophyceae to a Selected Range of Herbicides|Weed Res. (Multiple Languages)15:401-406|1975|10.1111/j.1365-3180.1975.tb01337.x
4872|A||Kuntz,R.E., and W.H. Wells|Laboratory and Field Evaluations of Two Dinitrophenols as Molluscacides for Control of Schistosome Vectors in Egypt with Emphasis on Importance of Temperature|Am. J. Trop. Med. Hyg.31:784-824|1951|10.4269/ajtmh.1951.s1-31.784
4873|A||Fish,G.R.|Some Effects of the Destruction of Aquatic Weeds in Lake Rotoiti, New Zealand|Weed Res. (Multiple Languages)6:350-358|1966|10.1111/j.1365-3180.1966.tb00902.x
4874|A||Smith,G.N., B.S. Watson, and F.S. Fischer|The Metabolism of [14C] O,O-Diethyl O-(3,5,6-Trichloro-2-Pyridyl)Phosphorothioate (Dursban) in Fish|J. Econ. Entomol.59(6): 1464-1475|1966|10.1093/jee/59.6.1464
4875|A||Wollerman,E.H., and L.S. Putnam|Daphnids Help to Screen Systemics|J. Econ. Entomol.48(6): 759-760|1955|10.1093/jee/48.6.759
4876|A||Schmidt,C.H., and D.E. Weidhaas|Effect of Varying Conditions in a Laboratory Testing Technique on the Mortality of Mosquito Larvae|J. Econ. Entomol.52(5): 977-979|1959|10.1093/jee/52.5.977
4877|A||Fairchild,G.B., and E.A. Barreda|DDT as a Larvicide Against Simulium|J. Econ. Entomol.38(6): 694-699|1945|10.1093/jee/38.6.694
4879|A||Hasegawa,J., M. Yasuno, K. Saito, Y. Nakamura, S. Hatakeyama, and H. Sato|Impact of Temephos and Fenitrothion on Aquatic Invertebrates in a Stream of Mt. Tsukuba|Eisei Dobutsu33(4): 363-368|1982|10.7601/mez.33.363
4880|AT||Cole,H., D. Barry, and D.E.H. Frear|DDT Levels in Fish, Streams, Stream Sediments, and Soil Before and After DDT Aerial Spray Application for Fall Cankerworm in Northern Pennsylvania|Bull. Environ. Contam. Toxicol.2(3): 127-146|1967|10.1007/BF01684013
4881|A||Kolosova,L.V., N.S. Stroganov, and T.G. Novosadova|Physiological Resistance of Pond Snails to the Effect of TESC|In: Proc. III All Union Conf. on Aquatic Toxicology (Tez. Dokl. III Vsesoyuz. Konf. po Vodnoy Toksikologii) UOPKF AN USSR, Petrozavodsk.:72-73|1975|
4883|T||Snowden,R.E.D., and B.D. Wheeler|Iron Toxicity to Fen Plant Species|J. Ecol.81:35-46|1993|10.2307/2261222
4884|A||McKeown,B.A.|Long-Term Sublethal and Short-Term high Dose Effects of Physically and Chemically Dispersed Oil on Accumulation and Clearance from Various Tissues of Juvenile Coho Salmon Oncorhynchus kisutch|Mar. Environ. Res.5(4): 295-300|1981|10.1016/0141-1136(81)90013-1
4885|A||Martinez,C.B.R., S.O. Suadicani, E.N. Ferroni, and G.S. Moreira|Effect of Benzene on the Swimming Activity of Mysidopsis juniae (Crustacea, Mysidacea)|Braz. J. Med. Biol. Res.25(5):487-490|1992|
4888|A||Lakota,S., A. Raszka, and I. Kupczak|Toxic Effect of Cartap, Carbaryl, and Propoxur on Some Aquatic Organisms|Acta Hydrobiol.23(2): 183-190|1981|
4889|A||Robinson,P.E.|Dam B Reservoir Water Hyacinth Control|Proc. South. Weed Conf.:464-468|1965|
4890|A||Cunningham,P.A., J.E.H. Wilson, D.W. Evans, and J.D.,Jr. Costlow|Effects of Sediment on the Persistence and Toxicity of Diflubenzuron (Dimilin) in Estuarine Waters: A Laboratory Evaluation Using Larvae of Two|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution Physiology of Estuarine Organisms, University of South Carolina Press, Columbia, SC:299-331|1987|
4891|A||Nimmo,D.R., T.L. Hamaker, E. Matthews, and J.C. Moore|An Overview of the Acute and Chronic Effects of First and Second Generation Pesticides on an Estuarine Mysid|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, Inc., NY:3-19|1981|
4892|A||Chu,K.Y., J. Massoud, and F. Arfaa|Comparative Studies of the Molluscicidal Effect of Cuprous Chloride and Copper Sulfate in Iran|Bull. W. H. O.39:320-327|1968|
4893|A||Torblaa,R.L.|Effects of Lamprey Larvicides on Invertebrates in Streams|Spec.Sci.Rep.U.S.Fish.Wildl.Serv.(Fisheries) No.522:13-|1968|
4894|A||Rao,K.R., F.R. Fox, P.J. Conklin, and A.C. Cantelmo|Comparative Toxicology and Pharmacology of Chlorophenols:  Studies on the Grass Shrimp, Palaemonetes pugio|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, Inc., NY:37-72|1981|
4895|A||Booth,G.M., and D. Ferrell|Degradation of Dimilin by Aquatic Foodwebs|In: M.A.Q.Khan (Ed.), Pesticides in Aquatic Environments, Plenum Press, NY:221-243|1977|
4896|A||Rubio-Moran,R., W.A. Rowley, and J.R. Coats|Effect of Permethrin and Malathion on Aedes trivittatus and Culex pipiens pipiens|Iowa State J. Res.55(3): 235-244|1981|
4899|A||Mitchell,C.A.|Effects of Atrazine on Halodule wrightii Ascherson in the Laboratory|M.S.Thesis, Corpus Christi State Univ., Corpus Christi, TX:82 p.|1985|
4901|A||Andrade,C.F.S., and M. Modolo|Susceptibility of Aedes aegypti Larvae to Temephos and Bacillus thuringiensis var Israelensis in Integrated Control|Rev. Saude Publica25(3): 184-187|1991|10.1590/S0034-89101991000300004
4902|A||Sprague,J.B.|Apparent DDT Tolerance in an Aquatic Insect Disproved by Test|Can. Entomol.100(3): 279-284|1968|10.4039/Ent100279-3
4903|A||Sprague,J.B.|Preliminary Estimates of Toxicity of Five Insecticides to Juvenile Atlantic Salmon|Unpubl.Rep., Fis.Res.Board Can.:2 p.|1966|
4904|A||Sauer,G.R.|The Effect of Cadmium and Zinc on Calcium Uptake and Scale Regeneration in Fundulus heteroclitus|In: W.A.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution of Estuarine Organisms, Univ.of SC Press, Columbia, SC:373-399|1987|
4905|A||Sauer,D.S.|Cadmium-Medicated Depression of the Constitutive and Induced Mixed Function Oxidase Enzyme Systems in Fundulus heteroclitus Resulting from Exposure In|In: W.A.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution of Estuarine Organisms, Univ.of SC Press, Columbia, SC:401-420|1987|
4906|A||Bodammer,J.E.|A Preliminary Study on the Corneas of American Sand Lance Larvae Exposed to Copper|In: W.A.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution of Estuarine Organisms, Univ.of SC Press, Columbia, SC:439-448|1987|
4907|A||Wilson,J.E.H., R.B.,Jr. Forward, and J.D. Costlow|Delayed Effects of Diflubenzuron on the Swimming and Vertical Distribution of Palaemonetes pugio Larvae|In: W.A.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution of Estuarine Organisms, Univ.of SC Press, Columbia, SC:351-371|1987|
4908|A||Touart,L.W., and K.R. Rao|Influence of Diflubenzuron on Survival, Molting, and Limb Regeneration in the Grass Shrimp, Palaemonetes pugio|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution of Estuarine Organisms, Univ.of SC Press, Columbia, SC:333-349|1987|
4909|A||Scott,G.I., D.S. Baughman, A.H. Trim, and J.C. Dee|Lethal and Sublethal Effects of Insecticides Commonly Found in Nonpoint Source Agricultural Runoff to Estuarine Fish and Shellfish|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Pollution Physiology of Estuarine Organisms, University of South Carolina Press, Columbia, SC:251-273|1987|
4910|A||Hussain,M., M.A. Gabal, T. Wilson, and R.C. Summerfelt|Effect of Aflatoxin-Contaminated Feed on Morbidity and Residues in Walleye Fish|Vet. Hum. Toxicol.35(5):396-398|1993|
4911|A||Van de Guchte,C., and J.L. Mass-Diepeveen|Screening Sediments for Toxicity: A Water-Concentration Related Problem|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:81-91|1988|
4913|A||Wong,P.T.S., Y.K. Chau, and J. Yaromich|Uptake and Depuration of Tetraethyllead by Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:186-187|1988|
4914|A||Parker,W.R., K.G. Doe, and J.D.A. Vaughan|The Acute Lethality of Potassium Cyanate and Potassium Thiocyanate to Rainbow Trout as Influenced by Water Hardness and pH|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:171-172|1988|
4915|A||Liber,K., K.R. Solomon, and N.K. Kaushik|Aquatic Fate and Effects of 2,3,4,6-Tetrachlorophenol|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:168-|1988|
4916|A||Beattie,R.C., R. Tyler-Jones, and M.J. Baxter|The Effects of pH, Aluminium Concentration and Temperature on the Embryonic Development of the European Common Frog, Rana temporaria|J. Zool. (Lond.)228:557-570|1992|10.1111/j.1469-7998.1992.tb04455.x
4917|A||Chang,P.S.S., D.F. Malley, and J.D. Hueber|Response of the Mussel Anadonta grandi to Acid and Aluminum. Comparison of Blood Ions from Laboratory and Field Results|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:157-161|1988|
4918|A||Tanner,D.K., and M.L. Knuth|Effects of Azinphos-Methyl on the Reproductive Success of the Bluegill Sunfish, Lepomis macrochirus, in Littoral Enclosures|Ecotoxicol. Environ. Saf.32(2): 184-193|1995|10.1006/eesa.1995.1101
4919|A||Smith,I.R., B.A. Zajdlik, H.W. Ferguson, and M.A. Hayes|Alterations in Serum Chemistry in Rainbow Trout (Salmo gairdneri) with Liver Degeneration After Partial Hepatectomy or Treatment with Carbon|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:136-|1988|
4920|A||Bois,Y., and G. Leduc|Investigations on the Toxicokinetics of Cyanide in Juvenile Rainbow Trout (Salmo gairdneri)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:110-111|1988|
4923|A||Fortin,C., and K.R. Solomon|Susceptibility of Daphnia magna, Daphnia pulex, Macrocyclops fuscus and Diaptomus sp. to Methoprene Under Acute and Chronic Exposures|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:52-|1988|
4925|A||McGeachy,S.M., M.G. Rankin, and D.G. Dixon|The Effects of Water Temperature on Chronic Toxicity of Sodium Arsenate to Rainbow Trout (Salmo gairdneri)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:46-49|1988|
4927|A||Migalovsky,I.P., and V.V. Kosheleva|Influence of Surfactants on Early Life Stages of Marine Fishes Under the Experimental Conditions|ICES-CM-1989/E, Int. Council for the Exploration of the Sea, Copenhagen, Denmark:39 p. |1989|
4928|A||Dive,D., P. Vasseur, O. Hanssen, and P.J. Gravil|Studies on Interactions Between Components of Electroplating Wastes|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:23-33|1988|
4930|A||Ling,K.H., Y.M. Sin, and T.J. Lam|Effect of Copper Sulphate on Ichthyophthiriasis (White Spot Disease) in Goldfish (Carassius auratus)|Aquaculture118(1-2): 23-35|1993|10.1016/0044-8486(93)90277-6
4931|A||Kirk,R.S., and J.W. Lewis|An Evaluation of Pollutant Induced Changes in the Gills of Rainbow Trout Using Scanning Electron Microscopy|Environ. Technol.14(6): 577-585|1993|10.1080/09593339309385326
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4933|A||Chadwick,G., and D.L. Shumway|Effects of Dieldrin on the Growth and Development of Steelhead Trout|In: J.W.Gillett (Ed.), The Biological Impact of Pesticides in the Environment, Environmental Health Ser.No.1, Oregon State Univ., Corvallis, OR:90-96|1969|
4934|A||Cope,O.B.|Preliminary Tests of Herbicides vs. Fishes|Memorandum, U.S.Fish Wildl.Serv.:9 p.|1946|
4935|A||Vasuki,V.|Sublethal Effects of Hexaflumuron, an Insect Growth Regulator, on Some Non-Target Larvivorous Fishes|Indian J. Exp. Biol.30(12): 1163-1165|1992|
4937|A||Hawxby,K.W., and R. Mehta|The Fate of Aquazine in a Small Pond|Proc. Okla. Acad. Sci.59:16-19|1979|
4939|A||Haley,M.V., and C.W. Kurnas|Aquatic Toxicity and Fate of Nickel Coated Graphite Fibers, with Comparisons to Iron and Aluminum Coated Glass Fibers|Rep.No.ERDEC-TR-090, Edgewood Res.Dev.Eng.Center, Aberdeen Proving Ground, MD:19 p.|1993|
4940|A||Haley,M.V., and C.W. Kurnas|Toxicity and Fate Comparison Between Several Brass and Titanium Dioxide Powders|Rep.No.ERDEC-TR-094, Edgewood Res.Dev.Eng.Center, Aberdeen Proving Ground, MD:27 p.|1993|
4941|A||Thomas,P., H.W. Wofford, and J.M. Neff|Biochemical Stress Responses of Striped Mullet (Mugil cephalus L.) to Fluorene Analogs|Aquat. Toxicol.1(5/6): 329-342|1981|10.1016/0166-445X(81)90026-6
4942|A||Weis,P., and J.S. Weis|Congenital Abnormalities in Estuarine Fishes Produced by Environmental Contaminants|In: S.W.Nielsen, G.Migaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT12:94-107|1979|
4943|A||Birge,W.J., J.A. Black, and A.G. Westerman|Evaluation of Aquatic Pollutants Using Fish and Amphibian Eggs as Bioassay Organisms|In: S.W.Nielsen, G.Migaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT12:108-118|1979|
4944|A||Gopal,C., and M. Balaparameswara Rao|Copper and Zinc Toxicity and Their Effect on the Activity of the Digestive Enzymes in the Freshwater Snail, Beliamya bengalensis f. annandalei (Kobelt) (Gastropoda: Viviparidae)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:265-281|1985|
4945|A||Joshi,P.K., and A.K. Pandey|Preliminary Studies on the Impact of Malathion on Urophysis of a Fish, Oxygaster bucaila|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:253-255|1985|
4946|A||Kulkarni,A.N., S.M. Kamble, and R. Keshavan|Metabolic Depression in the Fresh Water Bivalve, Lamellidens corrianus Exposed to an Insecticide, Hildan|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:225-227|1985|
4947|A||Mathai,A.T.|Fluoride Uptake in Body Components of a Freshwater Prawn, Macrobrachium rosenbergii|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:193-197|1985|
4948|A||Akarte,S.R., D.A. Kulkarni, and U.H. Mane|Effect of Folithion on Some Biochemical Constituents of a Freshwater Bivalve Mollusc, Lamellidens marginalis|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:173-180|1985|
4949|A||Gokhle,K.S., and S.S. Borgaonkar|Effect of Cadmium on Oxygen Consumption of the Crab, Ilyoplax gangetica|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:167-172|1985|
4950|A||Singh,S., and S. Sahai|Identification of Malathion Residues in Some Tissues of Rasbora daniconius by Thin Layer Chromatography (TLC)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:159-162|1985|
4951|A||Shakila,S., and S.B. Wagh|Effect of Sub-Lethal Concentrations of Two Heavy Metal Salts on Testis of Barbus ticto (Ham.)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:143-149|1985|
4952|A||Dudhat,I.N., and S.S. Bapat|Influence of Eklux (EC 25) on the Organic Reserves of Channa gachua (Ham.)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:129-134|1985|
4953|A||Sukumar,R.V., and M.B. Rao|Toxicity of gamma-HCH, Methyl Parathion and Carbaryl to two Varieties of a Tropical Freshwater Gastropod, Bellamya bengalensis (Lamarck) (Gastropoda:  Viviparidae)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:101-106|1985|
4954|A||Vankhede,G.N.|Effect of Fertilizer Pollution on the Oxygen Consumption of a Snail, Bellamya bengalensis, f. typica (Lamarck) at Different pH and Oxygen Tension|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:261-264|1985|
4955|A||Dhanekar,S., K.S. Rao, S. Srivastava, and S.S. Pandya|Acute Mercury Toxicity to Some Fresh Water Fishes|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:229-233|1985|
4956|A||Shaikh,Y.A., and P.K. Hiradhar|Fluoride Induced Changes in Blood Glucose, Tissue Glycogen and Succinate Dehydrogenase (SDH) Activity in the Mud Skipper|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:93-99|1985|
4958|AT||Burrell,R.E., and C.T. Corke|The Effect of Ethanol on Fungicide and Herbicide Toxicity Assays with Selected Terrestrial and Aquatic Microorganisms|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1151:35-44|1983|
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4980|A||Schultz,T.W., M. Cajina-Quezada, M. Chang, D.T. Lin, and R. Jain|Structure-Toxicity Relationships of Para-Position Alkyl- and Halogen-Substituted Monoaromatic Compounds|ASTM Spec. Tech. Publ.11:410-423|1989|
4981|A||Brown,V., D. Shurben, W. Miller, and M. Crane|Cadmium Toxicity to Rainbow Trout Oncorhynchus mykiss Walbaum and Brown Trout Salmo trutta L. over Extended Exposure Periods|Ecotoxicol. Environ. Saf.29:38-46|1994|10.1016/0147-6513(94)90028-0
4982|A||McElroy,A.E.|Benz(a)anthracene in Benthic Marine Environments: Bioavailability, Metabolism, and Physiological Effects on the Polychaete Nereis virens|Ph.D.Thesis, Massachusetts Institute of Technology, Cambridge, MA:234 p.|1985|
4983|A||Deneer,J.W.|Bioconcentration of Chlorpyrifos by the Three-Spined Stickleback Under Laboratory and Field Conditions|Chemosphere29(7): 1561-1575|1994|10.1016/0045-6535(94)90286-0
4984|A||Taylor,E.J., S.J. Maund, D. Bennett, and D. Pascoe|Effects of 3,4-Dichloroaniline on the Growth of Two Freshwater Macroinvertebrates in a Stream Mesocosm|Ecotoxicol. Environ. Saf.29:80-85|1994|10.1016/0147-6513(94)90032-9
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4986|A||Camusso,M., R. Balestrini, F. Muriano, and M. Mariani|Use of Freshwater Mussel Dreissena polymorpha to Assess Trace Metal Pollution in the Lower River Po (Italy)|Chemosphere29(4): 729-745|1994|10.1016/0045-6535(94)90042-6
4987|A||Jamnback,H.A., T. Dulflo, and D. Marr|Aerial Application of Larvicides for Control of Simulium damnosum in Ghana:  A Preliminary Trial|Bull. W. H. O.42(5): 826-828|1970|
4988|A||Toshima,Y., T. Katoh, N. Nishiyama, T. Tsugukuni, and F. Saito|Biodegradation and Toxicity to Fish of Di-Long-Chain Tertiary Amine Salt Containing Ester and Amide Bonds|Ecotoxicol. Environ. Saf.29:113-121|1994|10.1016/0147-6513(94)90036-1
4989|T||Willuhn,J., H.P. Schmitt-Wrede, H. Greven, and F. Wunderlich|Cadmium-Induced mRNA Encoding a Nonmetallothionein 33-KDa Protein in Enchytraeus buchholzi (Oligochaeta)|Ecotoxicol. Environ. Saf.29:93-100|1994|10.1016/0147-6513(94)90034-5
4990|A||Benton,M.J., A.C. Nimrod, and W.H. Benson|Evaluation of Growth and Energy Storage as Biological Markers of DDT Exposure in Sailfin Mollies|Ecotoxicol. Environ. Saf.29:1-12|1994|10.1016/0147-6513(94)90025-6
4991|T||Subramanyam,C., G. Venkateswerlu, and S.L.N. Rao|Cell Wall Composition of Neurospora crassa Under Conditions of Copper Toxicity|Appl. Environ. Microbiol.46(3): 585-590|1983|10.1128/aem.46.3.585-590.1983
4992|A||Jaylet,A., D. Pierre, and D. Gaschignard|Induction of Micronuclei in Peripheral Erythrocytes of Axolotl Larvae Following In Vivo Exposure to Mutagenic Agents|Mutagenesis1(3): 211-215|1986|10.1093/mutage/1.3.211
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4997|A||Lansing,M.B., W.S. Gardner, and B.J. Eadie|Catecholamines as Potential Sub-lethal Stress Indicators in Great Lakes Macrobenthic Invertebrates|J. Great Lakes Res.19(3): 569-581|1993|10.1016/S0380-1330(93)71242-3
4998|A||Savitz,J.D., D.A. Wright, and R.A. Smucker|Toxic Effects of the Insecticide Diflubenzuron (Dimilin) on Survival and Development of Nauplii of the Estuarine Copepod, Eurytemora affinis|Mar. Environ. Res.37(3): 297-312|1994|10.1016/0141-1136(94)90056-6
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5003|A||Laughlin,R.B.,Jr., and J.M. Neff|Interactive Effects of Salinity, Temperature and Polycyclic Aromatic Hydrocarbons on the Survival and Development Rate of Larvae of the Mud Crab Rhithropanopeus harrisii|Mar. Biol.53(3): 281-291|1979|10.1007/BF00952437
5004|A||Laughlin,R.B.J., and J.M. Neff|The Respiratory Response of Juvenile Mud Crabs, Rhithropanopeus harrisii to Variations in Salinity and Following Short-Term Exposure to Halowax|Mar. Environ. Res.2(4): 275-286|1979|10.1016/0141-1136(79)90012-6
5005|A||Outridge,P.M.|Comparing Cd Toxicity Tests with Plants in Monocultures and Species Mixtures|Bull. Environ. Contam. Toxicol.48(3): 344-351|1992|10.1007/BF00195631
5006|A||Sukumar,A., and P.R. Karpagaganapathy|Pesticide-Induced Atresia in Ovary of a Fresh Water Fish, Colisa lalia (Hamilton-Buchanan)|Bull. Environ. Contam. Toxicol.48(3): 457-462|1992|10.1007/BF00195647
5007|A||Golow,A.A., and K.S. Aborah|Acute Toxicity of Wood Tar and Dieldrin to Lebistes reticulatus (PL)|Bull. Environ. Contam. Toxicol.48(3): 463-466|1992|10.1007/BF00195648
5008|A||Sakr,S.A., and S.A. Gabr|Ultrastructural Changes Induced by Diazinon and Neopybuthrin in Skeletal Muscles of Tilapia nilotica|Bull. Environ. Contam. Toxicol.48(3): 467-473|1992|10.1007/BF00195649
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5010|A||Harilal,K.S., and Y.N. Sahai|Qualitative Identification of Metabolites of Carbaryl in the Gonads of Catfish Heteropneustes fossilis (Bloch)|J. Environ. Biol.11(Suppl. 2): 253-258|1990|
5011|A||Blanco,O., and T. Meade|Effect of Dietary Ascorbic Acid on the Susceptibility of Steelhead Trout (Salmo gairdneri) to Nitrite Toxicity|Rev. Biol. Trop.28(1): 91-107|1980|
5012|A||Lee,W.Y., and J.A.C. Nicol|The Effect of Naphthalene on Survival and Activity of the Amphipod Parhyale|Bull. Environ. Contam. Toxicol.20(2): 233-240|1978|10.1007/BF01683514
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5015|A||Levitan,W.M., and M.H. Taylor|Physiology of Salinity-Dependent Naphthalene Toxicity in Fundulus heteroclitus|J. Fish. Res. Board Can.36(6): 615-620|1979|10.1139/f79-089
5016|A||Wang,Y.S., C.G. Jaw, H.C. Tang, T.S. Lin, and Y.L. Chen|Accumulation and Release of Herbicides Butachlor, Thiobencarb, and Chlomethoxyfen by Fish, Clam, and Shrimp|Bull. Environ. Contam. Toxicol.48(3): 474-480|1992|10.1007/BF00195650
5017|A||Major,C.W.|The Effect of Pure Oil Subcomponents on Mytilus edulis, the Blue Mussel|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses of Mar.Biota to Pollutants, Nov.1975, Academic Press, New York, NY:315-322|1977|
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5019|A||Handy,R.D.|The Assessment of Episodic Metal Pollution.  I.  Uses and Limitations of Tissue Contaminant Analysis in Rainbow Trout (Oncorhynchus mykiss) After Short Waterborne Exposure to Cadmium or Copper|Arch. Environ. Contam. Toxicol.22:74-81|1992|10.1007/BF00213304
5020|A||Hohreiter,D.W., R.E. Reinert, and P.B. Bush|Effect of the Insecticides Carbofuran and Fenvalerate on Adenylate Parameters in Bluegill Sunfish (Lepomis macrochirus)|Arch. Environ. Contam. Toxicol.21:325-331|1991|10.1007/BF01060353
5021|A||Tchounwou,P.B., A.J.,Jr. Englande, and E.A. Malek|Toxicity Evaluation of Bayluscide and Malathion to Three Developmental Stages of Freshwater Snails|Arch. Environ. Contam. Toxicol.21:351-358|1991|10.1007/BF01060355
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5023|A||Taylor,E.J., S.J. Maund, and D. Pascoe|Toxicity of Four Common Pollutants to the Freshwater Macroinvertebrates Chironomus riparius Meigen (Insecta:  Diptera) and Gammarus pulex (L.)|Arch. Environ. Contam. Toxicol.21:371-376|1991|10.1007/BF01060358
5024|A||Cherry,D.S., J.H.,Jr. Rodgers, R.L. Graney, and J.,Jr. Cairns|Dynamics and Control of the Asiatic Clam in the New River, Virginia|Bulletin 123, Virginia Water Resources Research Center:72 p.|1980|
5026|A||Chen,J.C., F.H. Nan, and C.M. Kuo|Oxygen Consumption and Ammonia-N Excretion of Prawns (Penaeus chinensis) Exposed to Ambient Ammonia|Arch. Environ. Contam. Toxicol.21:377-382|1991|10.1007/BF01060359
5027|A||Collos,Y., and G. Slawyk|13C and 15N Uptake by Marine Phytoplankton. I. Influence of Nitrogen Source and Concentration in Laboratory Cultures of Diatoms|J. Phycol.15(2): 186-190|1979|10.1111/j.1529-8817.1979.tb02983.x
5028|A||Colt,J., and G. Tchobanoglous|Evaluation of the Short-Term Toxicity of Nitrogenous Compounds to Channel Catfish, Ictalurus punctatus|Aquaculture8(3): 209-224|1976|10.1016/0044-8486(76)90084-3
5029|A||Malins,D.C., and W.T. Roubal|Aryl Sulfate Formation in Sea Urchins (Strongylocentrotus droebachiensis) Ingesting Marine Algae (Fucus distichus) Containing 2,6-Dimethylnaphthalene|Proc. 71st Ann. Meet. Am. Soc. Biol. Chem. , New Orleans, LA:1-15|1980|
5030|A||Korn,S., D.A. Moles, and S.D. Rice|Effects of Temperature on the Median Tolerance Limit of Pink Salmon and Shrimp Exposed to Toluene, Naphthalene, and Cook Inlet Crude Oil|Bull. Environ. Contam. Toxicol.21(4-5): 521-525|1979|10.1007/BF01685464
5031|A||Stephenson,G.L., N.K. Kaushik, and K.R. Solomon|Chronic Toxicity of a Pure and Technical Grade Pentachlorophenol to Daphnia magna|Arch. Environ. Contam. Toxicol.21:388-394|1991|10.1007/BF01060361
5033|A||Mecklenburg,T.A., and S.D. Rice|Effects of Cook Inlet Crude Oil, Benzene, and Naphthalene on Heart Rates of the Alaskan King Crab (Paralithodes camtschatica)|In: Environmental Assessment of the Alaskan Continental Shelf, Principal Investigators Rep.for the Year Ending March 197712:85-125|1977|
5034|A||Fisher,C.J., and C.D. Ziebell|Effects of Watershed Use on Water Quality and Fisheries in an Arizona Mountain Lake|Eisenhower Consortium Bull.7:1-8|1980|
5035|A||Caldwell,R.S., E.M. Caldarone, and M.H. Mallon|Effects of a Seawater-Soluble Fraction of Cook Inlet Crude Oil and Its Major Aromatic Components on Larval Stages of the Dungeness Crab, Cancer magister Dana|In: D.A.Wolfe (Ed.), Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms, Pergamon Press, Oxford:210-220|1977|
5036|A||Kulkarni,K.M., and S.V. Kamath|The Metabolic Response of Paratelphusa jacquemontii to Some Pollutants|Geobios7(2): 70-73|1980|
5037|A||Jenkins,K.D., and A.Z. Mason|Relationships Between Subcellular Distributions of Cadmium and Perturbations in Reproduction in the Polychaete Neanthes arenaceodentata|Aquat. Toxicol.12(3): 229-244|1988|10.1016/0166-445X(88)90025-2
5038|A||Holwerda,D.A.|Cadmium Kinetics in Freshwater Clams.  V.  Cadmium-Copper Interaction in Metal Accumulation by Anodonta cygnea and Characterization of the Metal-Binding Protein|Arch. Environ. Contam. Toxicol.21:432-437|1991|10.1007/BF01060367
5039|A||Moore,M.N.|Cellular Responses to Polycyclic Aromatic Hydrocarbons and Phenobarbital in Mytilus edulis|Mar. Environ. Res.2(4): 255-264|1979|10.1016/0141-1136(79)90010-2
5040|A||Jimenez,B.D., C.P. Cirmo, and J.F. McCarthy|Effects of Feeding and Temperature on Uptake, Elimination and Metabolism of Benzo(a)pyrene in the Bluegill Sunfish (Lepomis macrochirus)|Aquat. Toxicol.10(1): 41-57|1987|10.1016/0166-445X(87)90026-9
5041|A||Tkalec,M., Z. Vidakovic-Cifrek, and I. Regula|"The Effect of Oil Industry ""High Density Brines"" on Duckweed Lemna minor L"|Chemosphere37(13): 2703-2715|1998|10.1016/S0045-6535(98)00156-8
5042|A||Kalafatic,M., and D. Znidaric|Effects of Dimiline upon the Second Generation of Hydra vulgaris|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(6): 647-652|1987|10.1002/aheh.19870150613
5043|A|OECDG|Martinez-Tabche,L., M. Beatriz Estrada, and I. Galar|Parathion and Salinity Effects on Gills and Mesonephros Carbonic Anhydrase Activity of the Fish Oreochromis hornorum|Bull. Environ. Contam. Toxicol.49(6): 929-934|1992|10.1007/BF00203169
5044|A||Nielsen,G., and P. Bjerregaard|Interaction Between Accumulation of Cadmium and Selenium in the Tissues of Turbot Scophthalmus maximus|Aquat. Toxicol.20:253-266|1991|10.1016/0166-445X(91)90063-F
5045|A||Ott,F.S., R.P. Harris, and S.C.M. O'Hara|Acute and Sublethal Toxicity of Naphthalene and Three Methylated Derivatives to the Estuarine Copepod, Eurytemora affinis|Mar. Environ. Res.1(1): 49-58|1978|10.1016/0141-1136(78)90013-2
5047|A||Huey,D.W., and T.L. Beitinger|Toxicity of Nitrite to Larvae of the Salamander Ambystoma texanum|Bull. Environ. Contam. Toxicol.25(6): 909-912|1980|10.1007/BF01985629
5048|A||Garnham,P.C.C., and J.P. McMahon|The Eradication of Simulium neavei, Roubaud, from an Onchocerciasis Area in Kenya Colony|Bull. Entomol. Res.37:619-628|1946|10.1017/S000748530003011X
5049|A||Kettle,W.D.,Jr.|Effects of Cadmium Stress on the Plankton Communities of Experimental Ponds|J. Freshw. Ecol.3(4): 433-443|1986|10.1080/02705060.1986.9665136
5050|A||Parkhurst,B.R., A.S. Bradshaw, J.L. Forte, and G.P. Wright|The Chronic Toxicity to Daphnia magna of Acridine, a Representative Azaarene Present in Synthetic Fossil Fuel Products and Wastewaters|Environ. Pollut.24(1): 21-30|1981|10.1016/0143-1471(81)90119-7
5051|A||Riley,R.T., M.C. Mix, R.L. Schaffer, and D.L. Bunting|Uptake and Accumulation of Naphthalene by the Oyster Ostrea edulis, in a Flow-Through System|Mar. Biol.61(4): 267-276|1981|10.1007/BF00401565
5052|A||Kanta,S., and T.A. Sarma|Biochemical Studies on Sporulation in Blue-Green Algae II. Factors Affecting Glycogen Accumulation|Z. Allg. Mikrobiol.20(7): 459-463|1980|
5053|A||Rossi,S.S., and J.M. Neff|Toxicity of Polynuclear Aromatic Hydrocarbons to the Polychaete Neanthes arenaceodentata|Mar. Pollut. Bull.9(8): 220-223|1978|10.1016/0025-326X(78)90297-7
5054|A||Khangarot,B.S., and P.K. Ray|Response of a Freshwater Ostracod (Cypris subglobosa sowerby) Exposed to Copper at Different pH Levels|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(6): 553-558|1987|10.1002/aheh.19870150603
5057|A||Abel,P.D.|Toxicity of gamma-Hexachlorocyclohexane (Lindane) to Gammarus pulex: Mortality in Relation to Concentration and Duration of Exposure|Freshw. Biol.10(3): 251-259|1980|10.1111/j.1365-2427.1980.tb01200.x
5058|A||Block,M., A.W. Glynn, and P. Part|Xanthate Effects on Cadmium Uptake and Intracellular Distribution in Rainbow Trout (Oncorhynchus mykiss) Gills|Aquat. Toxicol.20:267-284|1991|10.1016/0166-445X(91)90064-G
5059|A||Kleeman,J.M., J.R. Olson, and R.E. Peterson|Species Differences in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Toxicity and Biotransformation in Fish|Fundam. Appl. Toxicol.10(2): 206-213|1988|10.1016/0272-0590(88)90304-1
5060|A||Wan,M.T., R.G. Watts, and D.J. Moul|Effects of Different Dilution Water Types on the Acute Toxicity to Juvenile Pacific Salmon and Rainbow Trout of Fluroxypyr Formulated Product XRM-5084|Bull. Environ. Contam. Toxicol.49(6): 914-921|1992|10.1007/BF00203167
5061|A||Sanborn,H.R., and D.C. Malins|Toxicity and Metabolism of Naphthalene: A Study with Marine Larval Invertebrates|Proc. Soc. Exp. Biol. Med.154(2): 151-155|1977|10.3181/00379727-154-39625
5062|A|OECDG|Khangarot,B.S., R. Takroo, R.R. Singh, and S.P. Srivastava|Toxicity and Bioconcentration of Hexachlorocyclohexane (HCH) in an Air-Breathing Catfish, Saccobranchus fossilis (Bloch)|Bull. Environ. Contam. Toxicol.47(6): 904-911|1991|10.1007/BF01689522
5063|A||Sanborn,H.R., and D.C. Malins|The Disposition of Aromatic Hydrocarbons in Adult Spot Shrimp (Pandalus platyceros) and the Formation of Metabolites of Naphthalene in Adult and Larval Spot Shrimp|Xenobiotica10(3): 193-200|1980|10.3109/00498258009033745
5064|A||Singh,P.B., and T.P. Singh|Impact of Malathion and gamma-BHC on Steroidogenesis in the Freshwater Catfish, Heteropneustes fossilis|Aquat. Toxicol.22:69-80|1992|10.1016/0166-445X(92)90037-N
5065|A||Hutchinson,T.C., J.A. Hellebust, D. Tam, D. Mackay, R.A. Mascarenhas, and W.Y. Shiu|The Correlation of the Toxicity to Algae of Hydrocarbons and Halogenated Hydrocarbons with Their Physical-Chemical Properties|Environ. Sci. Res.16:577-586|1980|
5066|A||Landrum,P.F.|Toxicokinetics of Organic Xenobiotics in the Amphipod, Pontoporeia hoyi: Role of Physiological and Environmental Variables|Aquat. Toxicol.12(3): 245-271|1988|10.1016/0166-445X(88)90026-4
5067|A||Cockell,K.A., J.W. Hilton, and W.J. Bettger|Chronic Toxicity of Dietary Disodium Arsenate Heptahydrate to Juvenile Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.21:518-527|1991|10.1007/BF01183873
5068|A||Wright,D.A., and P.M. Welbourn|Effect of Mercury on Unidirectional Sodium and Calcium Influx in Asellus aquaticus|Arch. Environ. Contam. Toxicol.21:567-570|1991|10.1007/BF01183879
5069|A||Abel,E.L.|Development of Tolerance to DELTA9-THC in the Frog|Experientia29(12): 1527-1528|1973|10.1007/BF01943896
5070|A||Merna,J.W., and P.J. Eisele|The Effects of Methoxychlor on Aquatic Biota|EPA-R3-73-046, U.S.EPA, Washington, DC:59 p.|1973|
5071|A||Eaton,J.G.|Chronic Cadmium Toxicity to the Bluegill (Lepomis macrochirus Rafinesque)|Trans. Am. Fish. Soc.103(4): 729-735|1974|10.1577/1548-8659(1974)103<729:CCTTTB>2.0.CO;2
5072|T||Tatara,C.P., M.C. Newman, J.T. McCloskey, and P.L. Williams|Use of Ion Characteristics to Predict Relative Toxicity of Mono-, Di- and Trivalent Metal Ions: Caenorhabditis elegans|Aquat. Toxicol.42:255-269|1998|10.1016/S0166-445X(97)00104-5
5073|A||Carlson,A.R.|Effects of Long-Term Exposure to Carbaryl (Sevin) on Survival, Growth, and Reproduction of the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.29:583-587|1972|10.1139/f72-097
5074|A||Hansen,D.J., and P.R. Parrish|Suitability of Sheepshead Minnows (Cyprinodon variegatus) for Life-Cycle Toxicity Tests|ASTM Spec. Tech. Publ.:117-126|1977|
5075|A||Mount,D.I., and C.E. Stephan|Chronic Toxicity of Copper to the Fathead Minnow (Pimephales promelas) in Soft Water|J. Fish. Res. Board Can.26(9): 2449-2457|1969|10.1139/f69-236
5076|A||Walker,M.K., L.C.,Jr. Hufnagle, M.K. Clayton, and R.E. Peterson|An Egg Injection Method for Assessing Early Life Stage Mortality of Polychlorinated Dibenzo-p-Dioxins, Dibenzofurans, and Biphenyls in Rainbow Trout, (Oncorhynchus mykiss)|Aquat. Toxicol.22(1): 15-38|1992|10.1016/0166-445X(92)90033-J
5077|A||Brungs,W.A.|Chronic Toxicity of Zinc to the Fathead Minnow, Pimephales promelas Rafinesque|Trans. Am. Fish. Soc.98(2): 272-279|1969|10.1577/1548-8659(1969)98[272:CTOZTT]2.0.CO;2
5078|A||Saxena,M.P., K. Gopal, W. Jones, and P.K. Ray|Immune Responses to Aeromonas hydrophila in Catfish (Heteropneustis fossilis) Exposed to Cadmium and Hexachlorocyclohexane|Bull. Environ. Contam. Toxicol.48(2): 194-201|1992|10.1007/BF00194371
5079|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Effect of Sublethal Diazinon Concentrations on the Demographic Parameters of Brachionus calyciflorus Pallas (Rotifera)|Bull. Environ. Contam. Toxicol.48(2): 202-208|1992|10.1007/BF00194372
5080|A||Vindimian,E., B. Vollat, and J. Garric|Effect of the Dispersion of Oil in Freshwater Based on Time-Dependent Daphnia magna Toxicity Tests|Bull. Environ. Contam. Toxicol.48(2): 209-215|1992|10.1007/BF00194373
5081|A||Lind,D., K. Alto, and S. Chatterton|Regional Copper-Nickel Study|Draft Report, Minnesota Environmental Quality Board St.Paul, MN:54-|1978|
5082|A||Reddy,A.N., N.B.R. Venugopal, and S.L.N. Reddy|Effect of Endosulfan 35 EC on ATPases in the Tissues of a Freshwater Field Crab Barytelphusa guerini|Bull. Environ. Contam. Toxicol.48(2): 216-222|1992|10.1007/BF00194374
5083|A||Mohapatra,P.K., and R.C. Mohanty|Differential Effect of Dimethoate Toxicity to Anabaena doliolum with Change in Nutrient Status|Bull. Environ. Contam. Toxicol.48(2): 223-229|1992|10.1007/BF00194375
5084|A||Benoit,D.A.|Chronic Effects of Copper on Survival, Growth, and Reproduction of the Bluegill (Lepomis macrochirus)|Trans. Am. Fish. Soc.104(2): 353-358|1975|10.1577/1548-8659(1975)104<353:CEOCOS>2.0.CO;2
5085|A||Raju,T.N., and J.V.R. Rao|Nitrite Induced Methemoglobinemia in Catfish Clarias batrachus (Linn)|Indian J. Environ. Health21(1): 79-81|1979|
5086|A||Jarvinen,A.W., M.J. Hoffman, and T.W. Thorslund|Toxicity of DDT Food and Water Exposure to Fathead Minnows|EPA-600/3-76-114, Environ.Res.Lab., U.S.EPA, Duluth, MN:67 p.|1976|
5087|A||Pearson,J.G., J.P. Glennon, J.J. Barkley, and J.W. Highfill|An Approach to the Toxicological Evaluation of a Complex Industrial Wastewater|ASTM Spec. Tech. Publ.:284-301|1979|
5088|A||Lee,L.H., B. Lustigman, I.Y. Chu, and S. Hsu|Effect of Lead and Cobalt on the Growth of Anacystis nidulans|Bull. Environ. Contam. Toxicol.48(2): 230-236|1992|10.1007/BF00194376
5089|A||Calamari,D., R. Da Gasso, S. Galassi, A. Provini, and M. Vighi|Biodegradation and Toxicity of Selected Amines on Aquatic Organisms|Chemosphere9(12): 753-762|1980|10.1016/0045-6535(80)90143-5
5090|A||Russo,R.C., and R.V. Thurston|The Acute Toxicity of Nitrite to Fishes|In: R.A.Tubbs (Ed), EPA-600/3-77-085, Recent Advances in Fish Toxicology - A Symposium:118-131|1977|
5091|A||Gendusa,T.C., and T.L. Beitinger|External Biomarkers to Assess Chromium Toxicity in Adult Lepomis macrochirus|Bull. Environ. Contam. Toxicol.48(2): 237-242|1992|10.1007/BF00194377
5092|A||Woodward,D.F.|Toxicity of the Herbicides Dinoseb and Picloram to Cutthroat (Salmo clarki) and Lake Trout (Salvelinus namaycush)|J. Fish. Res. Board Can.33(8): 1671-1676|1976|10.1139/f76-213
5093|A||Otto,D.M.E., C.K. Sen, W.L. Casley, and T.W. Moon|Regulation of 3,3',4,4'-Tetrachlorobiphenyl Induced Cytochrome P450 Metabolism by Thiols in Tissues of Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(3): 299-309|1997|
5094|A|OECDG|Woin,P., and C. Bronmark|Effect of DDT and MCPA (4-Chloro-2-Methylphenoxyacetic Acid) on Reproduction of the Pond Snail, Lymnaea stagnalis L|Bull. Environ. Contam. Toxicol.48(1): 7-13|1992|10.1007/BF00197476
5095|A||Singh,D.K., and R.A. Agarwal|Toxicity of Piperonyl Butoxide - Carbaryl Synergism on the Snail Lmynaea acuminata|Int. Rev. Gesamten Hydrobiol.74(6): 689-699|1989|10.1002/iroh.19890740610
5096|A|OECDG|Fernandez-Casalderry,A., M.D. Ferrando, and E. Andreu-Moliner|Acute Toxicity of Several Pesticides to Rotifer (Brachionus calyciflorus)|Bull. Environ. Contam. Toxicol.48(1): 14-17|1992|10.1007/BF00197477
5097|A||Smith,C.E., and W.G. Williams|Experimental Nitrite Toxicity in Rainbow Trout and Chinook Salmon|Trans. Am. Fish. Soc.103(2): 389-390|1974|10.1577/1548-8659(1974)103<389:ENTIRT>2.0.CO;2
5098|A||Epifanio,C.E., and R.F. Srna|Toxicity of Ammonia, Nitrite Ion, Nitrate Ion, and Orthophosphate to Mercenaria mercenaria and Crassostrea virginica|Mar. Biol.33(3): 241-246|1975|10.1007/BF00390928
5099|A||Abdelghani,A.A., J.W. Mason, A.C. Anderson, A.J. Englande, and J.E. Diem|Bioconcentration of MSMA in Crayfish (Procambarus sp.)|Trace Subst. Environ. Health10:235-245|1976|
5100|A||Reddy,P.M., G.H. Philip, and M. Bashamohideen|Regulation of AChE System of Freshwater Fish, Cyprinus carpio, Under Fenvalerate Toxicity|Bull. Environ. Contam. Toxicol.48(1): 18-22|1992|
5101|A||Singh,P.B., and T.P. Singh|Impact of gamma-BHC on Lipid Class Levels and Their Modulation by Reproductive Hormones in the Freshwater Catfish, Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.48(1): 23-30|1992|10.1007/BF00197479
5103|A||Asthana,R.K., S.P. Singh, and R.K. Singh|Nickel Effects on Phosphate Uptake, Alkaline Phosphatase, and ATPase of a Cyanobacterium|Bull. Environ. Contam. Toxicol.48(1): 45-54|1992|10.1007/BF00197482
5104|A||Hansen,C.R.J., J.D. Gauss, and J.A. Kawatski|Whole-Body Distribution and Malpighian Tubule Transport of 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) and 3-Trifluoromethyl-4-Nitrophenol|Xenobiotica10(4): 257-263|1980|10.3109/00498258009033753
5105|A||Hansen,D.J., D.R. Nimmo, S.C. Schimmel, G.E. Walsh, and A.J.,Jr. Wilson|Effects of Kepone on Estuarine Organisms|In: R.A.Tubbs (Ed), EPA-600/3-77-085, Recent Advances in Fish Toxicology - A Symposium:20-30|1977|
5106|A||Rafi,G.M., T. Srinivas, S.J. Reddy, D.C. Reddy, and R. Ramamurthi|Acute and Chronic Toxicity of Endosulfan to Crab: Effect on Lipid Metabolism|Bull. Environ. Contam. Toxicol.47(6): 918-924|1991|10.1007/BF01689524
5108|A||Reddy,M.S., and K.V.R. Rao|Methylparathion Induced Alterations in the Tissue Carbohydrate Catabolism of Marine Prawn, Metapenaeus monoceros|Bull. Environ. Contam. Toxicol.47(6): 925-932|1991|10.1007/BF01689525
5109|A||Mayer,F.L., P.M. Mehrle, and R.A. Schoettger|Collagen Metabolism in Fish Exposed to Organic Chemicals|In: R.A.Tubbs (Ed), EPA-600/3-77-085, Recent Advances in Fish Toxicology - A Symposium:31-54|1977|
5110|A||Le Bras,S.|Effects of Lindane on Asellus aquaticus L. Respiratory Metabolism - Correlation of Concentration with Metabolic Pathology|Hydrobiologia (Multiple Languages)148(2): 115-122|1987|10.1007/BF00008396
5111|A||Lunsford,C.A., M.P. Weinstein, and L. Scott|Uptake of Kepone by the Estuarine Bivalve Rangia cuneata, During the Dredging of Contaminated Sediments in the James River, Virginia|Water Res.21(4): 411-416|1987|10.1016/0043-1354(87)90188-6
5112|A||Torreblanca,A., J. Del Ramo, and J. Diaz-Mayans|Effects of Cadmium on the Biochemical Composition of the Freshwater Crayfish Procambarus clarkii (Girard, 1852)|Bull. Environ. Contam. Toxicol.47(6): 933-938|1991|10.1007/BF01689526
5113|A||Niimi,A.J., H.B. Lee, and G.P. Kissoon|Octanol/Water Partition Coefficients and Bioconcentration Factors of Chloronitrobenzenes in Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.8(9): 817-823|1989|10.1002/etc.5620080910
5114|A||Gill,T.S., H. Tewari, J. Pande, and S. Lal|In Vivo Tissue Enzyme Activities in the Rosy Barb (Barbus conchonius Hamilton) Experimentally Exposed to Lead|Bull. Environ. Contam. Toxicol.47(6): 939-946|1991|10.1007/BF01689527
5115|A||Westin,D.T.|Nitrate and Nitrite Toxicity to Salmonoid Fishes|Prog. Fish-Cult.36(2): 86-89|1974|10.1577/1548-8659(1974)36[86:NANTTS]2.0.CO;2
5116|A||Madoni,P., G. Esteban, and G. Gorbi|Acute Toxicity of Cadmium, Copper, Mercury, and Zinc to Ciliates from Activated Sludge Plants|Bull. Environ. Contam. Toxicol.49(6): 900-905|1992|10.1007/BF00203165
5117|A||Ram,M.D., and K. Gopal|Neurobehavioral Changes in Freshwater Fish Channa punctatus Exposed to Fenitrothion|Bull. Environ. Contam. Toxicol.47(3): 455-458|1991|10.1007/BF01702210
5118|A||Ferrando,M.D., and E. Andreu-Moliner|Changes in Selected Biochemical Parameters in the Brain of the Fish, Anguilla anguilla (L.), Exposed to Lindane|Bull. Environ. Contam. Toxicol.47(3): 459-464|1991|10.1007/BF01702211
5119|A||Hughes,J.S., M.M. Alexander, and K. Balu|An Evaluation of Appropriate Expressions of Toxicity in Aquatic Plant Bioassays as Demonstrated by the Effects of Atrazine on Algae and Duckweed|ASTM Spec. Tech. Publ.10:531-547|1988|
5120|A||Wodzinski,R.S., D.P. Labeda, and M. Alexander|Effects of Low Concentrations of Bisulfite-Sulfite and Nitrite on Microorganisms|Appl. Environ. Microbiol.35(4): 718-723|1978|10.1128/aem.35.4.718-723.1978
5121|A||Bonner,J.C., and J.D. Yarbrough|Vertebrate Cyclodiene Insecticide Resistance: Role of gamma-Aminobutyric Acid and Diazepam Binding Sites|Arch. Toxicol.62(4): 311-315|1988|10.1007/BF00332493
5123|A||Yamagata,Y., and M. Niwa|The Toxicity of Nitrite to Eels|Suisan Zoshoku (Non-English)27(1): 5-11|1979|
5124|A||Webbe,G.|The Action on Fish of Several Chlorinated Hydrocarbons When Used as Larvicides|Ann. Trop. Med. Parasitol.51:264-270|1957|10.1080/00034983.1957.11685815
5125|A||Ferrando,M.D., and E. Andreu-Moliner|Effect of Lindane on the Blood of a Freshwater Fish|Bull. Environ. Contam. Toxicol.47(3): 465-470|1991|10.1007/BF01702212
5126|A||Jirasek,J., Z. Adamek, X.T. Nguyen, and O. Holcman|Estimation of the Acute Toxicity of the Insecticide Dursban for Fish. (Stanoveni Akutni Toxicity Insecticidu Dursban Pro Ryby.)|Acta Univ. Agric. Fac. Agron.26(3): 51-56|1980|
5128|A||Depledge,M.H.|Changes in Cardiac Activity, Oxygen Uptake and Perfusion Indices in Carcinus maenas (L.) Exposed to Crude Oil and Dispersant|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 461-466|1984|10.1016/0742-8413(84)90114-2
5130|A||Frank,A.M., and R.D. Sjogren|Effect of Temephos and Chlorpyrifos on Crustacea|Mosq. News38(1): 138-139|1978|
5131|A||Maly,M.P.|A Study of the Effects of Pesticides on Single and Mixed Species Cultures of Algae|Ph.D.Thesis, Northeastern University, Boston, MA:261 p.|1980|
5132|A|OECDG|Wan,M.T., R.G. Watts, and D.J. Moul|Acute Toxicity to Juvenile Pacific Northwest Salmonids of Basacid Blue NB755 and Its Mixture with Formulated Products of 2,4-D, Glyphosate, and Triclopyr|Bull. Environ. Contam. Toxicol.47(3): 471-478|1991|10.1007/BF01702213
5133|A||Ali,A., and M.S. Mulla|Effects of Chironomid Larvicides and Diflubenzuron on Nontarget Invertebrates in Residential-Recreational Lakes|Environ. Entomol.7(1): 21-27|1978|10.1093/ee/7.1.21
5134|A||Butcher,J.E., M.G. Boyer, and C.D. Fowle|Some Changes in Pond Chemistry and Photosynthetic Activity Following Treatment with Increasing Concentrations of Chlorpyrifos|Bull. Environ. Contam. Toxicol.17(6): 752-758|1977|10.1007/BF01685965
5135|A||Hughes,D.N., M.G. Boyer, M.H. Papst, C.D. Fowle, G.A.V. Rees, and P. Baulu|Persistence of Three Organophosphorus Insecticides in Artificial Ponds and Some Biological Implications|Arch. Environ. Contam. Toxicol.9(3): 269-279|1980|10.1007/BF01057407
5136|A||Brown,J.R., and L.Y. Chow|The Effect of Dursban on Micro-Flora in Non-Saline Waters|Environ. Qual. Saf. Suppl.3:774-779|1975|
5137|A||Brown,J.R., L.Y. Chow, and C.B. Deng|The Effect of Dursban upon Fresh Water Phytoplankton|Bull. Environ. Contam. Toxicol.15(4): 437-441|1976|10.1007/BF01685068
5138|A||Maury,R., A. Boudou, F. Ribeyre, and P. Engrand|Experimental Study of Mercury Transfer between Artificially Contaminated Sediment (CH3HgCl) and Macrophytes (Elodea densa)|Aquat. Toxicol.12(3): 213-228|1988|10.1016/0166-445X(88)90024-0
5139|A|OECDG|Ferrando,M.D., and E. Andreu-Moliner|Acute Lethal Toxicity of Some Pesticides to Brachionus calyciflorus and Brachionus plicatilis|Bull. Environ. Contam. Toxicol.47(3): 479-484|1991|10.1007/BF01702214
5141|A||Nelson,J.H., D.L. Stoneburner, E.S.,Jr. Evans, N.E. Pennington, and M.V. Meisch|Diatom Diversity as a Function of Insecticidal Treatment with a Controlled-Release Formulation of Chlorpyrifos|Bull. Environ. Contam. Toxicol.15(5): 630-634|1976|10.1007/BF01685717
5142|A||Fitzpatrick,G., and D.J. Sutherland|Effects of the Organophosphorous Insecticides Temephos (Abate) and Chlorpyrifos (Dursban) on Populations of the Salt-Marsh Snail Melampus bidentatus|Mar. Biol.46(1): 23-28|1978|10.1007/BF00393816
5143|A||Thirugnanam,M., and A.J. Forgash|Environmental Impact of Mosquito Pesticides: Toxicity and Anticholinesterase Activity of Chlorpyrifos to Fish in a Salt Marsh Habitat|Arch. Environ. Contam. Toxicol.5:415-425|1977|10.1007/BF02220921
5145|A||Hansen,D.J.|Avoidance of Pesticides by Untrained Sheepshead Minnows|Trans. Am. Fish. Soc.98(3): 426-429|1969|10.1577/1548-8659(1969)98[426:AOPBUS]2.0.CO;2
5146|A||Hansen,D.J., S.C. Schimmel, and J.M.,Jr. Keltner|Avoidance of Pesticides by Grass Shrimp (Palaemonetes pugio)|Bull. Environ. Contam. Toxicol.9(3): 129-133|1973|10.1007/BF01684991
5147|A||Hansen,D.J., E. Matthews, S.L. Nall, and D.P. Dumas|Avoidance of Pesticides by Untrained Mosquitofish, Gambusia affinis|Bull. Environ. Contam. Toxicol.8(1): 46-51|1972|10.1007/BF01684503
5148|A||Fowler,B.A., and M.M. Megginson|Isolation and Partial Characterization of a high Molecular Weight Cd/Zn-Binding Protein From the Kidney of the Scallop Placopecten magellanicus|Environ. Health Perspect.65:199-203|1986|
5149|A||Johnson,C.R.|The Effects of Sublethal Concentrations of Five Organophosphorus Insecticides on Temperature Tolerance, Reflexes, and Orientation in Gambusia affinis affinis (Pisces:  Poeciliidae)|Zool. J. Linn. Soc.64(1): 63-70|1978|10.1111/j.1096-3642.1978.tb01057.x
5150|A||Ikuta,K., and M. Nakahara|Distributions of 54-Mn and Stable-Mn in Tissues of Female and Male of a Whelk Volutharpa ampullacea perryi|Nippon Suisan Gakkaishi (Multiple Languages)53(5): 809-812|1987|10.2331/suisan.53.809
5151|A||Huckins,J.N., J.F. Fairchild, and T.P. Boyle|Role of Exposure Mode in the Bioavailability of Triphenyl Phosphate to Aquatic Organisms|Arch. Environ. Contam. Toxicol.21(4): 481-485|1991|10.1007/BF01183868
5152|A||Levy,R., and T.W.,Jr. Miller|Tolerance of the Planarian Dugesia dorotocephala to high Concentrations of Pesticides and Growth Regulators|Entomophaga23(1): 31-34|1978|10.1007/BF02371988
5153|A||Macek,K.J., D.F. Walsh, J.W. Hogan, and D.D. Holz|Toxicity of the Insecticide Dursban to Fish and Aquatic Invertebrates in Ponds|Trans. Am. Fish. Soc.101(3): 420-427|1972|10.1577/1548-8659(1972)101<420:TOTIDR>2.0.CO;2
5154|A||Kumta,A., and S.A. Gaikwad|Histological Aberrations of Gonads Caused due to Nitrite Toxicity in Gambusia affinis|Environ. Ecol.16(3): 645-647|1998|
5155|A||Muirhead-Thomson,R.C.|Relative Susceptibility of Stream Macroinvertebrate to Temephos and Chlorpyrifos, Determined in Laboratory Continuous-Flow Systems|Arch. Environ. Contam. Toxicol.7(2): 129-137|1978|10.1007/BF02332043
5156|A||Muirhead-Thomson,R.C.|Lethal and Behavioral Impact of Chlorpyrifos Methyl and Temephos on Select Stream Macroinvertebrates: Experimental Studies on Downstream Drift|Arch. Environ. Contam. Toxicol.7(2): 139-147|1978|10.1007/BF02332044
5157|A||Muirhead-Thomson,R.C.|Experimental Studies on Macroinvertebrate Predator-Prey Impact of Pesticides. The Reactions of Rhyacophila and Hydropsyche (Trichoptera) Larvae to Simulium Larvicides|Can. J. Zool.57(11): 2264-2270|1979|10.1139/z79-294
5158|A||Mulla,M.S., R.L. Norland, D.M. Fanara, H.A. Darwazeh, and D.W. McKean|Control of Chironomid Midges in Recreational Lakes|J. Econ. Entomol.64(1): 300-307|1971|10.1093/jee/64.1.300
5159|A||Misra,V., V. Kumar, S.D. Pandey, and P.N. Viswanathan|Biochemical Alterations in Fish Fingerlings (Cyprinus carpio) Exposed to Sublethal Concentration of Linear Alkyl Benzene Sulphonate|Arch. Environ. Contam. Toxicol.21(4): 514-517|1991|10.1007/BF01183872
5160|A||Peterson,R.H.|Temperature Selection of Juvenile Atlantic Salmon (Salmo salar) as Influenced by Various Toxic Substances|J. Fish. Res. Board Can.33(8): 1722-1730|1976|10.1139/f76-219
5161|A|OECDF|Chabert,D., and N. Vicente|Contamination of Mediterranean Molluscs by an Organochlorine Biocide: Lindane (Contamination de Mollusques Mediterraneens par un Biocide Organochlore: Le Lindane)|Rev. Int. Oceanogr. Med. (Multiple Languages)49:45-48|1978|
5162|A||Rettich,F.|Laboratory and Field Investigations in Czechoslovakia with Fenitrothion, Pirimiphos-Methyl, Temephos and Other Organophosphorous Larvicides|Mosq. News39(2): 320-328|1979|
5163|A||Roberts,D., and T.A. Miller|The Effects of Diatoms on the Larvicidal Activity of Dursban November 1969 - March 1970|Entomol.Spec.Study No.31-002-71, U.S.Army Environ.Hyg.Agency, U.S.Dep.of the Army:14 p.|1970|
5164|A||Ruber,E., and R. Kocor|The Measurement of Upstream Migration in a Laboratory Stream as an Index of Potential Side-Effects of Temephos and Chlorpyrifos on Gammarus fasciatus (Amphipoda, Crustacea)|Mosq. News36(4): 424-429|1976|
5165|A||Scirocchi,A., and A. D'Erme|Toxicity of Seven Insecticides on Some Species of Fresh Water Fishes|Riv. Parassitol.41(1): 113-121|1980|
5166|A||Thayer,A., and E. Ruber|Previous Feeding History as a Factor in the Effects of Temephos and Chlorpyrifos on Migration of Gammarus fasciatus (Amphipoda, Crustacea)|Mosq. News36(4): 429-432|1976|
5167|A||Soto,C., J.A. Hellebust, and T.C. Hutchinson|Effect of Naphthalene and Aqueous Crude Oil Extracts on the Green Flagellate Chlamydomonas angulosa.  III.  Changes in Cellular Composition|Can. J. Bot.55(22): 2765-2777|1977|10.1139/b77-315
5168|A||Saliba,L.J., and M. Ahsanullah|Acclimation and Tolerance of Artemia salina and Ophryotrocha labronica to Copper Sulphate|Mar. Biol.23(4): 297-302|1973|10.1007/BF00389337
5169|A||Sakr,S.A., S.A. Gabr, and M.M. El Saadany|Effect of Diazinon on Freeze-Fracture Images of Microvilli of Intestinal Epithelial Cells of Tilapia nilotica|Z. Ernahrungswiss.30:268-275|1991|10.1007/BF01651956
5170|A||Ali,A., and M.S. Mulla|The IGR Diflubenzuron and Organophosphorus Insecticides Against Nuisance Midges in Man-Made Residential-Recreational Lakes|J. Econ. Entomol.70(5): 571-577|1977|10.1093/jee/70.5.571
5172|A||Johnson,C.R.|The Effect of Five Organophosphorus Insecticides on Survival and Temperature Tolerance in the Copepod, Macrocyclops albidus (Copepoda: Cyclopidae)|Zool. J. Linn. Soc.64(1): 59-62|1978|10.1111/j.1096-3642.1978.tb01056.x
5173|A||Soto,C., J.A. Hellebust, and T.C. Hutchinson|The Effects of Aqueous Extracts of Crude Oil and Naphthalene on the Physiology and Morphology of a Freshwater Green Alga|Verh. Int. Ver. Theor. Angew. Limnol.19:2145-2154|1975|
5174|A||Lazareva,L.P.|Changes in Biological Characteristics of Daphnia magna from Chronic Action of Copper and Nickel at Low Concentrations|Hydrobiol. J.21(5): 59-62|1985|
5175|A|OECDG|Barrows,M.E., S.R. Petrocelli, K.J. Macek, and J.J. Carroll|Bioconcentration and Elimination of Selected Water Pollutants by Bluegill Sunfish (Lepomis macrochirus)|In: R.Haque (Ed.), Dynamics, Exposure, and Hazard Assessment of Toxic Chemicals, Ann Arbor Science, Ann Arbor, MI176:379-392|1980|
5176|A||Erickson,S.J., and C.E. Hawkins|Effects of Halogenated Organic Compounds on Photosynthesis in Estuarine Phytoplankton|Bull. Environ. Contam. Toxicol.24(6): 910-915|1980|10.1007/BF01608210
5177|A||Ingersoll,C.G., and R.W. Winner|Effect on Daphnia pulex (De Geer) of Daily Pulse Exposures to Copper or Cadmium|Environ. Toxicol. Chem.1:321-327|1982|10.1002/etc.5620010407
5178|A||Glickman,A.H., A.A.R. Hamid, D.E. Rickert, and J.J. Lech|Elimination and Metabolism of Permethrin Isomers in Rainbow Trout|Toxicol. Appl. Pharmacol.57(1): 88-98|1981|10.1016/0041-008X(81)90028-4
5179|A||Seth,R.N., R.K. Tyagi, and R.S. Panwar|Toxicity of 2-Methoxy Ethyl Mercuric Chloride, Copper Sulphate and Mercuric Chloride to Freshwater Snail, Viviparus bengalensis (Swainson)|J. Environ. Biol.11(3): 263-267|1990|
5180|A|OECDN|Canton,J.H., R.C.C. Wegman, A. Van Oers, A.H.M. Tammer, E.A.M. Mathijssen-Spiekman, and H.H. Van den Broek|Environmental Toxicological Research with Dimethoate and Omethoate|Rep.No.121/80, Natl.Inst.Public Health Environ.Hyg.:6 p.|1980|
5181|A||Jolly,A.L.,Jr., J.W.,Jr. Avault, K.L. Koonce, and J.B. Graves|Acute Toxicity of Permethrin to Several Aquatic Animals|Trans. Am. Fish. Soc.107(6): 825-827|1978|10.1577/1548-8659(1978)107<825:ATOPTS>2.0.CO;2
5182|A||Jeyasingam,D.N.T., B. Thayumanavan, and S. Krishnaswamy|The Relative Toxicities of Insecticides on Aquatic Insect Eretes sticticus (Linn.) (Coleoptera: Dytiscidae)|J. Madurai Univ.7(1): 85-87|1978|
5183|AT||Smies,M., R.H.J. Evers, F.H.M. Peijnenburg, and J.H. Koeman|Environmental Aspects of Field Trials with Pyrethroids to Eradicate Tsetse Fly in Nigeria|Ecotoxicol. Environ. Saf.4(2): 114-128|1980|10.1016/0147-6513(80)90013-5
5184|A|OECDG|LeBlanc,G.A.|Acute Toxicity of Priority Pollutants to Water Flea (Daphnia magna)|Bull. Environ. Contam. Toxicol.24(5): 684-691|1980|10.1007/BF01608174
5185|A|OECDG|Linden,E., B.E. Bengtsson, O. Svanberg, and G. Sundstrom|The Acute Toxicity of 78 Chemicals and Pesticide Formulations Against Two Brackish Water Organisms, the Bleak (Alburnus alburnus) and the Harpacticoid Nitocra spinipes|Chemosphere8(11/12): 843-851|1979|10.1016/0045-6535(79)90015-8
5186|A||McLeese,D.W., C.D. Metcalfe, and V. Zitko|Lethality of Permethrin, Cypermethrin and Fenvalerate to Salmon, Lobster and Shrimp|Bull. Environ. Contam. Toxicol.25(6): 950-955|1980|10.1007/BF01985637
5187|A||Mitcham,R.P., and M.W. Shelley|The Control of Animals in Water Mains Using Permethrin, a Synthetic Pyrethroid|J. Inst. Water Eng. Sci.34(5): 474-483|1980|
5188|A||Muirhead-Thomson,R.C.|Lethal and Behavioral Impact of Permethrin (NRDC 143) on Selected Stream Macroinvertebrates|Mosq. News38(2): 185-190|1978|
5189|A||Hsieh,Y.P., M.B. Tomson, and C.H. Ward|Toxicity of Water-Soluble Extracts of No. 2 Fuel Oil to the Freshwater Alga Selenastrum capricornutum|Dev. Ind. Microbiol.21:401-409|1980|
5190|A||Green,F.A.,Jr., and J.M. Neff|Toxicity, Accumulation, and Release of Three Polychlorinated Naphthalenes (Halowax 1000, 1013, and 1099) in Postlarval and Adult Grass Shrimp, Palaemonetes pugio|Bull. Environ. Contam. Toxicol.17(4): 399-407|1977|10.1007/BF01685931
5194|A|OECDG|Santharam,K.R., B. Thayumanavan, and S. Krishnaswamy|Toxicity of Some Insecticides to Daphnia carinata King, an Important Link in the Food Chain in the Freshwater Ecosystems|Indian J. Ecol.3(1): 70-73|1976|
5195|A||Bakthavathsalam,R.|Hematology of the Fish Anabas testudineus Exposed to Lindane and Carbofuran at Submerged Condition and on Exposure to Air|Environ. Ecol.9(1): 124-127|1991|
5196|A||Akela,B.P., J. Yadav, Y.P. Thakur, and P. Kanti|Effect of Aldrin on Serum Cholesterol in Common Indian Catfish Clarias batrachus|Environ. Ecol.9(1): 183-186|1991|
5197|A||Stratton,G.W., and C.T. Corke|Interaction of Permethrin with Daphnia magna in the Presence and Absence of Particulate Material|Environ. Pollut.24(2): 135-144|1981|10.1016/0143-1471(81)90075-1
5198|A||Takken,W., F. Balk, R.C. Jansen, and J.H. Koeman|The Experimental Application of Insecticides from a Helicopter for the Control of Riverine Populations of Glossina tachinoides in West Africa.  VI.  Observations on Side-Effects|PANS (Pest Artic. News Summ.)24(4): 455-466|1978|
5199|A||Zitko,V., D.W. McLeese, C.D. Metcalfe, and W.G. Carson|Toxicity of Permethrin, Decamethrin, and Related Pyrethroids to Salmon and Lobster|Bull. Environ. Contam. Toxicol.21(3): 338-343|1979|10.1007/BF01685433
5200|A||Soto,C., J.A. Hellebust, T.C. Hutchinson, and R.G. Sheath|The Effect of the Hydrocarbon Naphthalene on the Morphology of the Green Flagellate Chlamydomonas angulosa|Can. J. Bot.57(24): 2729-2739|1979|10.1139/b79-323
5201|A|OECDG|Southworth,G.R., J.J. Beauchamp, and P.K. Schmieder|Bioaccumulation Potential of Polycyclic Aromatic Hydrocarbons in Daphnia pulex|Water Res.12(11): 973-977|1978|10.1016/0043-1354(78)90080-5
5202|A||Nath,K., and N. Kumar|Cobalt Induced Alterations in the Carbohydrate Metabolism of a Freshwater Tropical Perch, Colisa fasciatus|Chemosphere17(2): 465-474|1988|10.1016/0045-6535(88)90236-6
5203|A||Nelson,H., D. Benoit, R. Erickson, V. Mattson, and J. Lindberg|The Effects of Variable Hardness, pH, Alkalinity, Suspended Clay, and Humics on the Chemical Speciation and Aquatic Toxicity of Copper|EPA/600/3-86/023, U.S.EPA, Duluth, MN:120 p.|1985|
5204|A||Mullick,S., and S.K. Konar|Combined Effects of Zinc, Copper, Iron and Lead on Plankton|Environ. Ecol.9(1): 187-198|1991|
5205|A||Palladini,G., V. Margotta, A. Carolei, and M.C. Hernandez|Dopamine Agonist Performance in Planaria After Manganese Treatment|Experientia36(4): 449-450|1980|10.1007/BF01975141
5206|A||Nyberg,H.|Growth of Selenastrum capricornutum in the Presence of Synthetic Surfactants|Water Res.22(2): 217-223|1988|10.1016/0043-1354(88)90081-4
5207|A||Thomas,R.E., and S.D. Rice|The Effect of Exposure Temperatures on Oxygen Consumption and Opercular Breathing Rates of Pink Salmon Fry Exposed to Toluene, Naphthalene, and Water Soluble Fractions of Cook Inlet Crude Oil and No. 2 Fuel Oil|In: W.Vernberg, A.Calabrese, and F.P.Thurberg (Eds.), Mar.Pollut.: Functional Responses, Proc.Symp.on Pollution and Physiology of Marine Organisms, Academic Press, NY:39-52|1979|
5208|A||Kirubagaran,R., and K.P. Joy|Toxic Effects of Mercuric Chloride, Methylmercuric Chloride, and Emisan 6 (an Organic Mercurial Fungicide) on Ovarian Recrudescence in the Catfish Cl|Bull. Environ. Contam. Toxicol.41(6): 902-909|1988|10.1007/BF02021053
5209|A||Varanasi,U.|Biological Fate of Metals in Fish|In: D.A.Wolfe (Ed.), Marine Biological Effects of OCS Petroleum Development, NOAA ERL, Boulder, CO:41-53|1978|
5210|A||Varanasi,U., D.J. Gmur, and W.L. Reichert|Effect of Environmental Temperature on Naphthalene Metabolism by Juvenile Starry Flounder (Platichthys stellatus)|Arch. Environ. Contam. Toxicol.10(2): 203-214|1981|10.1007/BF01055622
5211|A||Rajkumar,R., and S.S.M. Das|Effect of Copper intoxication on Muscle Glycogen Levels in Oreochromis mossambica|Environ. Ecol.9(1): 1-3|1991|
5212|A||Varanasi,U., M. Uhler, and S.I. Stranahan|Uptake and Release of Naphthalene and Its Metabolites in Skin and Epidermal Mucus of Salmonids|Toxicol. Appl. Pharmacol.44(2): 277-289|1978|10.1016/0041-008X(78)90190-4
5213|A||Jantrarotai,W.|Acute and Subacute Toxicity of Aflatoxin B1 and Cyclopiazonic Acid to Channel Catfish|Ph.D.Thesis, Auburn University, Auburn, AL:121 p.|1990|
5214|A||Ferrando,M.D., and E. Andreu-Moliner|Effects of Lindane on Fish Carbohydrate Metabolism|Ecotoxicol. Environ. Saf.22:17-23|1991|10.1016/0147-6513(91)90042-N
5215|A||Wang,W.|Ammonia Toxicity to Macrophytes (Common Duckweed and Rice) Using Static and Renewal Methods|Environ. Toxicol. Chem.10:1173-1177|1991|10.1002/etc.5620100909
5216|A||Yoshida,T., and H. Kojima|Studies on Environmental Safety of Di-Isopropylnapthalene (DIPN). Part-I. Bioconcentration of 14C-DIPN in Carp|Chemosphere7(6): 491-496|1978|10.1016/0045-6535(78)90018-8
5217|A||Temple,A.J., B.R. Murphy, and E.F. Cheslak|Effects of Tebuthiuron on Aquatic Productivity|Hydrobiologia (Multiple Languages)224:117-127|1991|10.1007/BF00006868
5218|A||Giddings,J.M.|Acute Toxicity to Selenastrum capricornutum of Aromatic Compounds from Coal Conversion|Bull. Environ. Contam. Toxicol.23(3): 360-364|1979|10.1007/BF01769970
5219|A||Gerhart,E.H., and R.M. Carlson|Hepatic Mixed-Function Oxidase Activity in Rainbow Trout Exposed to Several Polycyclic Aromatic Compounds|Environ. Res.17(2): 284-295|1978|10.1016/0013-9351(78)90031-2
5220|A||Elcombe,C.R., and J.J. Lech|Induction and Characterization of Hemoprotein(s) P-450 and Monooxygenation in Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.49(3): 437-450|1979|10.1016/0041-008X(79)90444-7
5221|A||Dixit,D., and J.W. Anderson|Distribution of Naphthalenes Within Exposed Fundulus similus and Correlations with Stress Behavior|Am.Petrol.Inst.Rep.No.4284:633-636|1977|
5222|A||Dimichele,L., and M.H. Taylor|Histopathological and Physiological Responses of Fundulus heteroclitus to Naphthalene Exposure|J. Fish. Res. Board Can.35(8): 1060-1066|1978|10.1139/f78-169
5223|A||De Vries,A.L.|The Physiological Effect of Acute and Chronic Exposure to Hydrocarbons of Petroleum on the Near-Shore Fishes of the Bering Sea|In: Contract No.USDC-NOAA-03-5-022-86, Environmental Assessment of the Alaskan Continental Shelf, Volume 8, Effects of Contaminants, Principal Investigators Reports for the Year Ending March, 1976:1-14|1976|
5224|A||Collier,T.K., M.M. Krahn, and D.C. Malins|The Disposition of Naphthalene and Its Metabolites in the Brain of Rainbow Trout (Salmo gairdneri)|Environ. Res.23(1): 35-41|1980|10.1016/0013-9351(80)90091-2
5225|A||Pickering,Q.H.|Chronic Toxicity of Nickel to the Fathead Minnow|J. Water Pollut. Control Fed.46(4): 760-765|1974|
5226|A||Blundo,R.|The Toxic Effects of the Water Soluble Fractions of No. 2 Fuel Oil and of Three Aromatic Hydrocarbons on the Behavior and Survival of Barnacle Larvae|Contrib. Mar. Sci21:25-37|1978|
5227|A||Paulaskis,J.D., and R.W. Winner|Effects of Water Hardness and Humic Acid on Zinc Toxicity to Daphnia magna|Toxicology12:273-290|1988|
5228|A||Pevzner,R.A., L. Hernadi, and J. Salanki|Effect of Mercury on the Fish (Alburnus alburnus) Chemoreceptor Taste Buds. A Scanning Electron Microscopic Study|Acta Biol. Hung.37(3/4): 159-167|1986|
5230|A||Adelman,I.R., L.L.,Jr. Smith, and G.D. Siesennop|Acute Toxicity of Sodium Chloride, Pentachlorophenol, Guthion, and Hexavalent Chromium to Fathead Minnows (Pimephales promelas) and Goldfish (Carassius auratus)|J. Fish. Res. Board Can.33(2): 203-208|1976|10.1139/f76-030
5231|A||Pickering,Q.H., and M.H. Gast|Acute and Chronic Toxicity of Cadmium to the Fathead Minnow (Pimephales promelas)|J. Fish. Res. Board Can.29(8): 1099-1106|1972|10.1139/f72-164
5232|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Demographic Parameters of Brachionus calyciflorus Pallas (Rotifera) Exposed to Sublethal Endosulfan Concentrations|Hydrobiologia (Multiple Languages)226:103-110|1991|10.1007/BF00006811
5233|A||Wright,D.A., and C.D. Zamuda|Use of Oysters as Indicators of Copper Contamination in the Patuxent River, Maryland|Hydrobiologia (Multiple Languages)222:39-48|1991|10.1007/BF00017498
5234|A||Bardeggia,M., and M.A. Alikhan|The Relationship Between Copper and Nickel Levels in the Diet, and Their Uptake and Accumulation by Cambarus bartoni (Fabricius) (Decapoda, Crustacea)|Water Res.25(10): 1187-1192|1991|10.1016/0043-1354(91)90056-V
5235|A||Rao,K.S., and R. Nagabhushanam|Temperature Dependent Toxicity of Dimecron to the Marine Edible Crab Scylla serrata|Environ. Ecol.4(4): 597-599|1986|
5236|A||Kamshilov,M.M., and B.A. Flerov|Experimental Research on Phenol intoxication of Aquatic Organisms and Destruction of Phenol in Model Communities|In: D.I.Mount, W.R.Swain, N.K.Ivanikiw (Eds.), Proc.1st and 2nd USA-USSR Symp.on Effects of Pollutants upon Aquatic Ecosystems, Duluth, MN:181-192|1976|
5237|A||Hatakeyama,S., and H. Shiraishi|Chronic Effects of Waterborne or Dietary Exposure to a Herbicide, Chlornitrofen (2,4,6-Trichlorophenyl-4'-Nitrophenyl Ether), on Reproduction of Polypedilum nubifer (Chironomidae)|Water Res.25(8): 945-951|1991|10.1016/0043-1354(91)90142-D
5238|A||Schoettger,R.A., and W.L. Mauck|Toxicity of Experimental Forest Insecticides to Fish and Aquatic Invertebrates|In: D.I.Mount, W.R.Swain, and N.K.Ivanikiw (Eds.), Proceedings of the First and Second USA-USSR Symposia on the Effects of Pollutants Upon Aquatic Ecosystems:11-27|1978|
5240|A||Steward,A.R., C. Kandaswami, S. Chidambaram, C. Ziper, J.P. Rutkowski, and H.C. Sikka|Disposition and Metabolic Fate of Benzo(a)pyrene in the Common Carp|Aquat. Toxicol.20:205-218|1991|10.1016/0166-445X(91)90060-M
5241|A||Mayer,F.L., and P.M. Mehrle|Collagen and Hydroxyproline in Toxicological Studies with Fishes|In: D.I.Mount, W.R.Swain, and N.K.Ivanikiw (Eds.), Proc.1st and 2nd USA-USSR Symp.on Effects of Pollutants upon Aquatic Ecosystems, Vol.1, 1975, Vol 2, USSR Symp., Duluth.MN:331-340|1978|
5242|A||Schlenk,D., and M. Brouwer|Isolation of Three Copper Metallothionein Isoforms from the Blue Crab (Callinectes sapidus)|Aquat. Toxicol.20:25-34|1991|10.1016/0166-445X(91)90039-C
5244|A||Huebert,D.B., and J.M. Shay|The Effect of Cadmium and Its Interaction with External Calcium in the Submerged Aquatic Macrophyte Lemna trisulca L.|Aquat. Toxicol.20:57-72|1991|10.1016/0166-445X(91)90041-7
5245|A||Cheah,M.L., J.W.,Jr. Avault, and J.B. Graves|Acute Toxicity of Selected Rice Pesticides to Crayfish Procambarus clarkii|Prog. Fish-Cult.42(3): 169-172|1980|10.1577/1548-8659(1980)42[169:ATOSRP]2.0.CO;2
5246|A||Dauchy,J.W., W.T. Waller, and M.D. Piwoni|Acute Toxicity of Cyanate to Daphnia magna|Bull. Environ. Contam. Toxicol.25(2): 194-196|1980|10.1007/BF01985510
5247|A||Laughlin,R.B.J., and W.J. French|Comparative Study of the Acute Toxicity of a Homologous Series of Trialkyltins to Larval Shore Crabs Hemigrapsus nudus, and Lobster, Homarus americanus|Bull. Environ. Contam. Toxicol.25(5): 802-809|1980|10.1007/BF01985611
5248|A||Gopal,K., R.N. Khanna, M. Anand, and G.S.D. Gupta|The Acute Toxicity of Endosulfan to Fresh-Water Organisms|Toxicol. Lett.7:453-456|1981|10.1016/0378-4274(81)90092-8
5249|A||Anderson,R.L., C.T. Walbridge, and J.T. Fiandt|Survival and Growth of Tanytarsus dissimilis (Chironomidae) Exposed to Copper, Cadmium, Zinc, and Lead|Arch. Environ. Contam. Toxicol.9(3): 329-335|1980|10.1007/BF01057412
5250|A||Hall,R.J., and D. Swineford|Toxic Effects of Endrin and Toxaphene on the Southern Leopard Frog Rana sphenocephala|Environ. Pollut. A.23(1): 53-65|1980|10.1016/0143-1471(80)90096-3
5251|A||Den Besten,P.J., E.G. Van Donselaar, H.J. Herwig, D.I. Zandee, and P.A. Voogt|Effects of Cadmium on Gametogenesis in the Sea Star Asterias rubens L.|Aquat. Toxicol.20:83-94|1991|10.1016/0166-445X(91)90043-9
5252|A||Den Besten,P.J., J.M.L. Elenbaas, J.R. Maas, S.J. Dieleman, H.J. Herwig, and P.A. Voogt|Effects of Cadmium and Polychlorinated Biphenyls (Clophen A50) on Steroid Metabolism and Cytochrome P-450 Monooxygenase System in the Sea Star|Aquat. Toxicol.20:95-110|1991|10.1016/0166-445X(91)90044-A
5253|A||Honig,R.A., M.J. McGinniss, A.L.,Jr. Buikema, and J.,Jr. Cairns|Toxicity Tests of Aquatic Pollutants Using Chilomonas paramecium Ehrenberg (Flagellata) Populations|Bull. Environ. Contam. Toxicol.25(2): 169-175|1980|10.1007/BF01985506
5254|A||Inoue,K., S. Shimura, M. Saito, and K. Nishimura|The Use of Trichlorfon in the Control of Argulus coregoni|Fish Pathol.15(1): 37-42|1980|10.3147/jsfp.15.37
5255|A||Jirasek,J., Z. Adamek, and T. Kepr|Toxicity of Some Herbicides for Fish (Toxicita Nekterych Herbicidu pro Ryby)|Zivoc. Vyroba (Multiple Languages)53(11): 857-862|1980|
5256|A||Kumaraguru,A.K., and F.W.H. Beamish|Lethal Toxicity of Permethrin (NRDC-143) to Rainbow Trout, Salmo gairdneri, in Relation to Body Weight and Water Temperature|Water Res.15(4): 503-506|1981|10.1016/0043-1354(81)90061-0
5257|A||Lucu,C., J. Pavicic, M. Skreblin, and M. Mastrovic|Toxicological Effects of Biocide Slimicide C-30 on Some Marine Invertebrates|Mar. Pollut. Bull.11(10): 294-296|1980|10.1016/0025-326X(80)90167-8
5258|A||Lang,W.H., R.B.,Jr. Forward, D.C. Miller, and M. Marcy|Acute Toxicity and Sublethal Behavioral Effects of Copper on Barnacle Nauplii (Balanus improvisus)|Mar. Biol.58(2): 139-145|1980|10.1007/BF00396125
5259|A||Muller,H.G.|Acute Toxicity of Potassium Dichromate to Daphnia magna as a Function of the Water Quality|Bull. Environ. Contam. Toxicol.25(1): 113-117|1980|10.1007/BF01985497
5260|A||Hauch,R.G., D.R. Norris, and R.H.,Jr. Pierce|Acute and Chronic Toxicity of Sodium Pentachlorophenate to the Copepod, Pseudodiaptomus coronatus|Bull. Environ. Contam. Toxicol.25(4): 562-568|1980|10.1007/BF01985572
5261|A||Ahsanullah,M., and D.H. Palmer|Acute Toxicity of Selenium to Three Species of Marine Invertebrates, with Notes on a Continuous-Flow Test System|Aust. J. Mar. Freshw. Res.31(6): 795-802|1980|10.1071/MF9800795
5262|A||Srivastava,A.K., and N.N. Singh|Effects of Acute Exposure to Methyl Parathion on Carbohydrate Metabolism of Indian Catfish (Heteropneustes fossilis)|Acta Pharmacol. Toxicol.48(1): 26-31|1981|10.1111/j.1600-0773.1981.tb01583.x
5263|A||Hawkins,W.E., L.G. Tate, and T.G. Sarphie|Acute Effects of Cadmium on the Spot Leiostomus xanthurus (Teleostei):  Tissue Distribution and Renal Ultrastructure|J. Toxicol. Environ. Health6:283-295|1980|10.1080/15287398009529852
5264|A||Kader,H.A., B. Thayumanavan, and S. Krishnaswamy|The Relative Toxicities of Ten Biocides on Spicodiaptomus chelospinus Rajendran (1973) [Copepoda: Calanoida]|Comp. Physiol. Ecol.1(3): 78-82|1976|
5265|A||Kerfoot,W.B., and S.A. Jacobs|Cadmium Accrual in Combined Wastewater Treatment-Aquaculture System|Environ. Sci. Technol.10(7): 662-667|1976|10.1021/es60118a003
5266|A||Verma,S.R., S. Rani, A.K. Tyagi, and R.C. Dalela|Evaluation of Acute Toxicity of Phenol and Its Chloro- and Nitro-derivatives to Certain Teleosts|Water Air Soil Pollut.14:95-102|1980|10.1007/BF00291828
5267|A||Anderson,D.R., and E.B. Lusty|Acute Toxicity and Bioaccumulation of Chloroform to Four Species of Freshwater Fish: Salmo gairdneri, Rainbow Trout, Lepomis macrochirus, Bluegill|Report No.CR-0893, U.S.Nuclear Reg.Comm., Washington, DC:33 p.|1980|
5268|A||Bellavere,C., and J. Gorbi|A Comparative Analysis of Acute Toxicity of Chromium, Copper, and Cadmium to Daphnia magna, Biomphalaria glabrata, and Brachydanio rerio|Environ. Technol. Lett.2(3): 119-128|1981|10.1080/09593338109384031
5269|A||Thompson,B., S. Bay, D. Greenstein, and J. Laughlin|Sublethal Effects of Hydrogen Sulfide in Sediments on the Urchin Lytechinus pictus|Mar. Environ. Res.31(4): 309-321|1991|10.1016/0141-1136(91)90019-5
5270|A||Hattula,M.L., V.M. Wasenius, H. Reunanen, and A.U. Arstila|Acute Toxicity of Some Chlorinated Phenols, Catechols, and Cresols to Trout|Bull. Environ. Contam. Toxicol.26(3): 295-298|1981|10.1007/BF01622093
5271|A||Mukherjee,D., D. Guha, V. Kumar, and S. Chakrabarty|Impairment of Steroidogenesis and Reproduction in Sexually Mature Cyprinus carpio by Phenol and Sulfide Under Laboratory Conditions|Aquat. Toxicol.21:29-40|1991|10.1016/0166-445X(91)90004-S
5272|A||Black,J.A., and W.J. Birge|An Avoidance Response Bioassay for Aquatic Pollutants|Res.Report No.123, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:34-|1980|
5273|A||Natarajan,G.M.|Changes in the Bimodal Gas Exchange and Some Blood Parameters in the Air-Breathing Fish, Channa striatus (Bleeker) Following Lethal (LC 50/48 Hrs.)|Curr. Sci. (Bangalore)50(1): 40-41|1981|
5274|A||Jampani,C.S.R.|Detoxification of Pesticides Phosphamidon and Monocrotophos by the Blue Green Alga, Nostoc calcicola|Natl. Acad. Sci. Lett.10(11): 381-382|1987|
5275|A||Bhattacharya,T., A.K. Ray, and S. Bhattacharya|Histopathology of the Kidney of Channa punctatus (Bloch) Exposed to Sublethal and Chronic Levels of Industrial Pollutants I. Head Kidney|Zool. J. Anat.115:1-8|1987|
5276|A||Weber,D.N., A. Russo, D.B. Seale, and R.E. Spieler|Waterborne Lead Affects Feeding Abilities and Neurotransmitter Levels of Juvenile Fathead Minnows (Pimephales promelas)|Aquat. Toxicol.21:71-80|1991|10.1016/0166-445X(91)90006-U
5277|A||Jensen,E.G., J.U. Skaare, E. Egaas, and A. Goksoyr|Response of Xenobiotic Metabolizing Enzymes in Rainbow Trout (Oncorhynchus mykiss) to Endosulfan, Detected by Enzyme Activities and Immunochemical|Aquat. Toxicol.21:81-92|1991|10.1016/0166-445X(91)90007-V
5278|A||Schultz,T.W., S.R. Freeman, and J.N. Dumont|Uptake, Depuration, and Distribution of Selenium in Daphnia and Its Effects on Survival and Ultrastructure|Arch. Environ. Contam. Toxicol.9(1): 23-40|1980|10.1007/BF01055497
5279|A||Fytizas,R.|Toxicity of Paraquat to Three Marine Organisms|Bull. Environ. Contam. Toxicol.25(2): 283-288|1980|10.1007/BF01985525
5280|A||Griffiths,P.R.E.|Morphological and Ultrastructural Effects of Sublethal Cadmium Poisoning on Daphnia|Environ. Res.22(2): 277-284|1980|10.1016/0013-9351(80)90140-1
5281|A||Helder,T.|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Early Life Stages of the Pike (Esox lucius L.)|Sci. Total Environ.14(3): 255-264|1980|10.1016/0048-9697(80)90027-3
5282|A||Hollibaugh,J.T., D.L.R. Seibert, and W.H. Thomas|A Comparison of the Acute Toxicities of Ten Heavy Metals to Phytoplankton from Saanich Inlet, B.C., Canada|Estuar. Coast. Shelf Sci.10(1): 93-105|1980|10.1016/S0302-3524(80)80052-1
5283|A||Leung,T.S., S.M. Naqvi, and N.Z. Naqvi|Paraquat Toxicity to Louisiana Crayfish (Procambarus clarkii)|Bull. Environ. Contam. Toxicol.25(3): 465-469|1980|10.1007/BF01985555
5284|A||Middaugh,D.P., L.E. Burnett, and J.A. Couch|Toxicological and Physiological Responses of the Fish, Leiostomus xanthurus, Exposed to Chlorine Produced Oxidants|Estuaries3(2): 132-141|1980|10.2307/1351557
5285|A||Oksama,M., and R. Kristoffersson|The Toxicity of Phenol to Phoxinus phoxinus, Gammarus duebeni, and Mesidotea entomon in Brackish Water|Ann. Zool. Fennici16(3): 209-216|1979|
5286|A||Agarwal,H.C., and B. Gupta|Distribution and Metabolism of DDT in the Catfish Heteropneustes fossilis in Relation to the Signs of Poisoning|Toxicol. Appl. Pharmacol.29(2): 204-209|1974|10.1016/0041-008X(74)90057-X
5287|A||Pesch,G., N. Stewart, and C. Pesch|Copper Toxicity to the Bay Scallop (Argopecten irradians)|Bull. Environ. Contam. Toxicol.23(6): 759-765|1979|10.1007/BF01770038
5288|A||Qureshi,S.A., A.B. Saksena, and V.P. Singh|Acute Toxicity of Four Heavy Metals to Benthic Fish Food Organisms From the River Khan, Ujjain|Int. J. Environ. Stud.15(1): 59-61|1980|10.1080/00207238008737426
5289|A||Nussey,G., J.H.J. Van Vuren, and H.H. Du Preez|Acute Toxicity Tests of Copper on Juvenile Mozambique Tilapia, Oreochromis mossambicus (Cichlidae), at Different Temperatures|S. Afr. J. Wildl. Res.26(2): 47-55|1996|
5290|A||Adams,M., and J.R. Warr|The Mutagenic Activity of Hydroxyurea in Chlamydomonas reinhardi|Mutat. Res.41(2-3): 217-224|1976|10.1016/0027-5107(76)90094-4
5291|A||Sastry,K.V., and K. Sharma|Diazinon Effect on the Activities of Brain Enzymes From Ophiocephalus (Channa) punctatus|Bull. Environ. Contam. Toxicol.24(3): 326-332|1980|10.1007/BF01608117
5292|A||Sato,T., Y. Ose, and T. Sakai|Toxicological Effect of Selenium on Fish|Environ. Pollut. A.21(3): 217-224|1980|10.1016/0143-1471(80)90166-X
5293|A||Kovacs,P., and G. Csaba|Indomethacin Alters Phospholipid and Arachidonate Metabolism in Tetrahymena pyriformis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(3): 311-315|1997|
5294|A||Mishra,S., and A.K. Srivastava|The Acute Toxic Effects of Copper on the Blood of a Teleost|Ecotoxicol. Environ. Saf.4(2): 191-194|1980|10.1016/0147-6513(80)90019-6
5295|A||Stober,Q.J., P.A. Dinnel, E.F. Hurlburt, and D.H. DiJulio|Acute Toxicity and Behavioral Responses of Coho Salmon (Oncorhynchus kisutch) and Shiner Perch (Cymatogaster aggregata) to Chlorine in Heated|Water Res.14(4): 347-354|1980|10.1016/0043-1354(80)90082-2
5296|A||Tsai,C.F.|Survival, Overturning and Lethal Exposure Times for the Pearl Dace, Semotilus margaritus (Cope), Exposed to Copper Solution|Comp. Biochem. Physiol. C Comp. Pharmacol.64(1): 1-6|1979|10.1016/0306-4492(79)90021-2
5297|A||Walsh,G.E., and S.V. Alexander|A Marine Algal Bioassay Method:  Results with Pesticides and Industrial Wastes|Water Air Soil Pollut.13(1): 45-55|1980|10.1007/BF02262524
5298|A||Singh,P.B., and T.P. Singh|Impact of gamma-BHC on Sex Steroid Levels and Their Modulation by Ovine Luteinizing Hormone-Releasing Hormone and Mystus Gonadotropin in the Freshwater Catfish, Heteropneustes fossilis|Aquat. Toxicol.21:93-102|1991|10.1016/0166-445X(91)90008-W
5299|A||Alfelt,L.K., S. Teilmann-Ibsen, and J. Morch|Determination of Acute Toxicity by the Tubifex Method|Pharm. Acta Helv.55(6): 187-188|1980|
5300|A||Adelman,I.R., and L.L.,Jr. Smith|Standard Test Fish Development Part II. Chronic Toxicity of Guthion to the Fathead Minnow (Pimephales promelas Refinesque)|EPA-600/3-76-061B, U.S.EPA, Duluth, MN:22 p.|1976|
5301|A||Asaka,A., M. Sakai, and N. Tan|Influences of Certain Environmental Factors on Fish Toxicity of Cartap|J. Takeda Res. Lab.39(1-2): 28-33|1980|
5302|A||Biegert,E.K., and V. Valkovic|Acute Toxicity and Accumulation of Heavy Metals in Aquatic Animals|Period. Biol.82(1): 25-31|1980|
5303|A||Bringmann,G., and R. Kuhn|Comparison of the Toxicity Thresholds of Water Pollutants to Bacteria, Algae, and Protozoa in the Cell Multiplication Inhibition Test|Water Res.14(3): 231-241|1980|10.1016/0043-1354(80)90093-7
5304|A||Browne,R.A.|Acute Response Versus Reproductive Performance in Five Strains of Brine Shrimp Exposed to Copper Sulphate|Mar. Environ. Res.3(3): 185-193|1980|10.1016/0141-1136(80)90026-4
5305|A||Birge,W.J.|Aquatic Toxicology of Trace Elements of Coal and Fly Ash|In: J.H.Thorp and J.W.Gibbons (Eds.), Dep.Energy Symp.Ser., Energy and Environmental Stress in Aquatic Systems, Augusta, GA48:219-240|1978|
5306|A||Burton,D.T.|Evaluation of Pentron D-90 Toxicity to Juvenile Estuarine Fish and Blue Crabs|Bull. Environ. Contam. Toxicol.25(3): 470-476|1980|10.1007/BF01985556
5307|A||Datta,D.K., and G.M. Sinha|Estimation of Acute Toxicity of Cadmium, a Heavy Metal, in a Carnivorous Freshwater Teleost, Mystus vittatus (Bloch)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.53(1): 43-45|1987|
5308|A||Chung,K.S.|Acute Toxicity of Selected Heavy Metals to Mangrove Oyster Crassostrea rhizophorae|Nippon Suisan Gakkaishi (Multiple Languages)46(6): 777-780|1980|10.2331/suisan.46.777
5309|A||Fisher,N.S.|On the Differential Sensitivity of Estuarine and Open-Ocean Diatoms to Exotic Chemical Stress|Am. Nat.111(981): 871-895|1977|10.1086/283220
5310|A||Schimmel,S.C., and R.L. Garnas|Interlaboratory Comparison of the ASTM Bioconcentration Test Method Using the Eastern Oyster|ASTM Spec. Tech. Publ.:227-287|1985|
5311|A||Dennis,W.H.,Jr., A.B. Rosencrance, and W.F. Randall|Acid Hydrolysis of Military Standard Formulations of Diazinon|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(1): 47-60|1980|
5312|A||Jones,G.J., P.D. Nichols, R.B. Johns, and J.D. Smith|The Effect of Mercury and Cadmium on the Fatty Acid and Sterol Composition of the Marine Diatom Asterionella glacialis|Phytochemistry26(5): 1343-1348|1987|10.1016/S0031-9422(00)81809-9
5313|A||Norberg-King,T.J.|An Evaluation of the Fathead Minnow Seven-Day Subchronic Test for Estimating Chronic Toxicity|Environ. Toxicol. Chem.8(11): 1075-1089|1989|
5314|A||Pauli,W., and S. Berger|Chemosensory and Electrophysiological Responses in Toxicity Assessment: Investigations with a Ciliated Protozoan|Bull. Environ. Contam. Toxicol.49(6): 892-899|1992|10.1007/BF00203164
5315|A||Sharma,G.P., R.C. Sobti, A. Chaudhry, and K.K. Ahluwalia|Genotoxicity of Two Heavy Metal Compounds - Lead Acetate and Mercuric Chloride in the Mosquito, Anopheles stephensi Liston (Culicidae: Diptera)|Cytologia53(2): 263-267|1988|10.1508/cytologia.53.263
5316|A||Gulka,G., C.M. Doscher, and N. Watabe|Toxicity and Molt-Accelerating Effects of Diflubenzuron on the Barnacle, Balanus eburneus|Bull. Environ. Contam. Toxicol.25(3): 477-481|1980|10.1007/BF01985557
5317|A||Diamond,S.A., M.C. Newman, M. Mulvey, and S.I. Guttman|Allozyme Genotype and Time-to-Death of Mosquitofish, Gambusia holbrooki, During Acute Inorganic Mercury Exposure: A Comparison of Populations|Aquat. Toxicol.21:119-134|1991|10.1016/0166-445X(91)90010-7
5318|A||Hirayama,K., and S. Tamanoi|Acute Toxicity of MEP and Diazinon (Pesticide) to Larvae of Kuruma Prawn Penaeus japonicus and of Swimming Crab Portunus trituberculatus|Nippon Suisan Gakkaishi (Multiple Languages)46(2): 117-123|1980|10.2331/suisan.46.117
5319|A||Fent,K.|Bioconcentration and Elimination of Tributyltin Chloride by Embryos and Larvae of Minnows Phoxinus phoxinus|Aquat. Toxicol.20:147-158|1991|10.1016/0166-445X(91)90013-Y
5320|A||De Voogt,P., B. Van Hattum, P. Leonards, J.C. Klamer, and H. Govers|Bioconcentration of Polycyclic Heteroaromatic Hydrocarbons in the Guppy (Poecilia reticulata)|Aquat. Toxicol.20:169-194|1991|10.1016/0166-445X(91)90015-2
5321|A||Khangarot,B.S., and V.K. Rajbanshi|Experimental Studies on Toxicity of Zinc to a Freshwater Teleost, Rasbora daniconius (Hamilton)|Hydrobiologia (Multiple Languages)65(2): 141-144|1979|10.1007/BF00017419
5322|A||Abou-Waly,H., M.M. Abou-Setta, H.N. Nigg, and L.L. Mallory|Dose-Response Relationship of Anabaena flos-aquae and Selenastrum capricornutum to Atrazine and Hexazinone Using Chlorophyll(a) Content and 14C Uptake|Aquat. Toxicol.20(3): 195-204|1991|10.1016/0166-445X(91)90016-3
5323|A||Lio-Po,G.D., C.R. Lavilla, and A. Trillo-Llobrera|Toxicity of Malachite Green to the Larvae of Penaeus monodon|Kalikasan7(3): 238-246|1978|
5324|A||McCann,J.A., and R.K. Hitch|Simazine Toxicty to Fingerling Striped Bass|Prog. Fish-Cult.42(3): 180-181|1980|10.1577/1548-8659(1980)42[180:STTFSB]2.0.CO;2
5325|A||Miller,T.G., and W.C. Mackay|The Effects of Hardness, Alkalinity and pH of Test Water on the Toxicity of Copper to Rainbow Trout (Salmo gairdneri)|Water Res.14(2): 129-133|1980|10.1016/0043-1354(80)90228-6
5326|A||Rao,D.M., and A.S. Murty|Toxicity, Biotransformation and Elimination of Endosulfan in Anabas testudineus (Bloch)|Indian J. Exp. Biol.18(6): 664-666|1980|
5327|AT||Sine,C.|Farm Chemicals Handbook|Farm Chemicals Handbook, Meister Publ.Co., Willoughby, OH:|1992|
5329|A||Naqvi,S.M., T.S. Leung, and N.Z. Naqvi|Toxicities of Paraquat and Diquat Herbicides to Freshwater Copepods (Diaptomus sp. and Eucyclops sp.)|Bull. Environ. Contam. Toxicol.25(6): 918-920|1980|10.1007/BF01985631
5330|A||Nomura,T., and I. Shimizu|Studies on the Effect of Bathing Drugs to Salmonid Fishes-I. Bathing Toxicity of Nifurpirinol to Chum Salmon and Kokanee Fry|Sci.Rep.Hokkaido Salmon Hatchery0(33): 17-24|1979|
5331|A|OECDN|Canton,J.H., R.C.C. Wegman, E.A.M. Mathijssen-Spiekman, and J.Y. Wammes|Hydrobiological Toxicological Research with Methylbromide|Rep.No.105/80, Natl.Inst.Public Health Environ.Hyg.:4 p.|1980|
5332|A||Pesch,G.G., and N.E. Stewart|Cadmium Toxicity to Three Species of Estuarine Invertebrates|Mar. Environ. Res.3(2): 145-156|1980|10.1016/0141-1136(80)90022-7
5333|A|OECDN|Canton,J.H., and E.A.M. Mathijssen-Spiekman|Comparitive Short-Term Research with Water-Organisms to Determine the Acute Toxicity of a Number of Biocides|National Institute of Public Health and Environmental Hygiene, Report No.668115-001:6 p.|1983|
5334|A||Shaw,T.L.|A Fast Indicator for Detecting Gross Pollution by Hazardous Chemicals|N. Z. J. Mar. Freshw. Res.13(3): 393-394|1979|10.1080/00288330.1979.9515815
5336|A|OECDN|Adema,D.M.M., J.H. Canton, W. Slooff, and A.O. Hanstveit|Research for a Useful Combination of Test Methods to Determine the Aquatic Toxicity of Environmentally Dangerous Chemicals (Consecutive System of Tests for Assessment of the Effects of Chemical Agents in the Aquatic Env|Report No.CL81/100, National Institute of Public Health and Environmental Hygiene:107 p.|1981|
5337|A|OECDN|Mathijssen-Spiekman,E.A.M., J.H. Canton, and C.J. Roghair|Research After the Toxicity of TBTO for a Number of Fresh Water Organisms|Rep.No.668118-001, Natl.Inst.Public Health and Environ.Hyg:48 p.|1989|
5338|A||Thibault,D.H., and J.E. Guthrie|Mosquito Larvae: Test Organisms for Screening Liquid Effluents for Their Potential Toxicity|Manit. Entomol.11:61-68|1977|
5339|A||Baudouin,M.F., and P. Scoppa|Acute Toxicity of Various Metals to Freshwater Zooplankton|Bull. Environ. Contam. Toxicol.12(6): 745-751|1974|10.1007/BF01685925
5341|A||Upadhyaya,A., and K.S. Rao|Acute Toxicity of Tafazine to Fish|Int. J. Environ. Stud.15(3): 236-238|1980|10.1080/00207238008737446
5342|A||Vocke,R.W., K.L. Sears, J.J. O'Toole, and R.B. Wildman|Growth Responses of Selected Freshwater Algae to Trace Elements and Scrubber Ash Slurry Generated by Coal-Fired Power Plants|Water Res.14(2): 141-150|1980|10.1016/0043-1354(80)90230-4
5343|A||Svobodova,Z.|Acute Toxicity of Pesticides to Fish (Akutni Toxicita Pesticidu pro Ryby)|Agrochemia (Bratisl.) (Multiple Languages)20(11): 328-332|1980|
5344|A||Patterson,J., and T.V. Fernandez|Influence of Salinity on the Total Body Burden of Fish Etroplus maculatus Exposed to Ni, Cu and Their Mixture|Indian J. Mar. Sci.24(4): 211-214|1995|
5345|A||Li,G.C., and C.Y. Chen|Study on the Acute Toxicities of Commonly Used Pesticides to Two Kinds of Fish|KO Hsueh Fa Chan Yueh Kan9(2): 146-152|1981|
5346|A||Moulder,S.M.|Combined Effect of the Chlorides of Mercury and Copper in Sea Water on the Euryhaline Amphipod Gammarus duebeni|Mar. Biol.59(4): 193-200|1980|10.1007/BF00404741
5347|A||Shukla,J.P., M. Banerjee, and K. Pandey|Deleterious Effects of Malathion on Survivality and Growth of the Fingerlings of Channa punctatus (Bloch.), a Freshwater Murrel|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(6): 653-657|1987|10.1002/aheh.19870150614
5348|A|OECDN|Canton,J.H., R.C.C. Wegman, C.E. Voogd, A.W.M. Hofstee, J.J. Van der Stel, and C.H. Verhoef|Research After the Presence of Tetrachlorodipropylether (TCPE) in Harbour Sediment and Effluent and the Toxicity and Mutagenic Activity of this Chemical|Rep.No.64/79, Natl.Inst.Public Health Environ.Hyg.:10 p.:|1979|
5349|A||Sailatha,D., I.K.A. Sahib, and K.V.R. Rao|Toxicity of Technical and Commercial Grade Malathion to the Fish, Tilapia mossambica (Peters)|Proc. Indian Acad. Sci. Anim. Sci.90(1): 87-92|1981|
5351|A||Harrison,F.L.,Jr., and D.W.,Jr. Rice|Copper Sensitivity of Adult Pacific Oysters|In: J.H.Thorp and J.W.Gibbons (Eds.), Dep.Energy Symp.Ser., Energy and Environmental Stress in Aquatic Systems, Augusta, GA48:301-315|1978|
5352|A||Kosian,P.A., C.W. West, M.S. Pasha, J.S. Cox, D.R. Mount, R.J. Huggett, and G.T. Ankley|Use of Nonpolar Resin for Reduction of Fluoranthene Bioavailability in Sediment|Environ. Toxicol. Chem.18(2): 201-206|1999|10.1002/etc.5620180215
5353|A||Idoniboye-Obu,B.|Toxicity of Isolated Water-Soluble C6 Petroleum Hydrocarbons to Lobsters, Homarus americanus|In: S.W.Nielsen, G.Migaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT12:383-384|1979|
5354|A||Khangarot,B.S.|Experimental Investigations on the Acute Toxicity of Zinc to a Freshwater Teleost, Puntius sophore Hamilton|Rev. Biol.11(1-4): 119-127|1979|
5355|A||Koundinya,P.R., and R. Ramamurthi|Effect of Organophosphate Pesticide Sumithion (Fenitrothion) on Some Aspects of Carbohydrate Metabolism in Freshwater Fish, Sarotherodon mossambicus|Experientia35(12): 1632-1633|1979|10.1007/BF01953236
5356|A|OECDN|Hooftman,R.N., D.M.M. Adema, and J. Kauffman-Van Bommel|Developing a Set of Test Methods for the Toxicological Analysis of the Pollution Degree of Waterbottoms|Rep.No.16105, Netherlands Organization for Applied Scientific Research:68 p.|1989|
5357|A||Proteau,J.P., P. Lim, and R. Labat|Toxicity of a Nitrogenous Derivative, Hydrazine Hydrate, for Carassius carassius L., Rutilus rutilus L. and Different Development Stages of Brachydanio rerio|Ann. Limnol. (Multiple Languages)15(3): 337-346|1979|10.1051/limn/1979009
5358|A||Qureshi,S.A., A.B. Saksena, and V.P. Singh|Acute Toxicity of Some Heavy Metals to Fish Food Organisms|Int. J. Environ. Stud.14(4): 325-327|1980|10.1080/00207238008737414
5359|A||Reed,P., D. Richey, and D. Roseboom|Acute Toxicity of Zinc to Some Fishes in High Alkalinity Water|Ill. State Water Surv. Circ.142:1-21|1980|
5361|A||Amminikutty,C.K., and M.S. Rege|Acute and Chronic Effect of Thiodan 35 E.C. and Agallol '3' on Kidney, Stomach and Intestine of the Widow Tetra gymonocorymbus gernetzi Boulenger|Indian J. Exp. Biol.16(2): 202-205|1978|
5363|A||Dawson,D.A., T.W. Schultz, L.L. Baker, and T.S. Wilke|Comparative Developmental Toxicity of Acetylenic Alcohols on Embryos and Larvae of Xenopus laevis|ASTM Spec. Tech. Publ.13:267-277|1990|
5364|A||Blaylock,B.G., and M.L. Frank|A Comparison of the Toxicity of Nickel to the Developing Eggs and Larvae of Carp (Cyprinus carpio)|Bull. Environ. Contam. Toxicol.21(4-5): 604-611|1979|10.1007/BF01685477
5365|A||Boumaiza,M., M.H. Ktari, and P. Vitiello|Toxicity of Several Pesticides Used in Tunisia, for Aphanius fasciatus Nardo, 1827 (Pisces, Cyprinodontidae)|Arch. Inst. Pasteur Tunis56(3): 307-342|1979|
5367|A|OECDN|Maas,J.L.|Acute Toxicity of Inhibitors|Report No.86-04, Laboratory for Ecotoxicology, Institute for Inland Water Management and Waste Water Treatment:1 p.|1986|
5368|A||Calamari,D., R. Marchetti, and G. Vailati|Effects of Prolonged Treatments with Ammonia on Stages of Development of Salmo gairdneri (Effetti di Trattamenti Prolungati con Ammoniaca su Stadi di Sviluppo del Salmo gairdneri)|Nuovi Ann. Ig. Microbiol.28(5): 333-345|1977|
5369|A||Cardwell,R.D., C.E. Woelke, M.I. Carr, and E. Sanborn|Appraisal of a Reference Toxicant for Estimating the Quality of Oyster Larvae|Bull. Environ. Contam. Toxicol.18(6): 719-725|1977|10.1007/BF01691984
5370|A|OECDN|Maas,J.L.|Toxicity of Pesticides|Report No.82, Laboratory for Ecotoxicology, Institute for Inland Water Management and Waste Water Treatment15:4 p.|1982|
5371|A||Conklin,P.J., and K.R. Rao|Toxicity of Sodium Pentachlorophenate (Na-PCP) to the Grass Shrimp, Palaemonetes pugio, at Different Stages of the Molt Cycle|Bull. Environ. Contam. Toxicol.20(2): 275-279|1978|10.1007/BF01683520
5373|A||Dillon,T.M.|Mercury and the Estuarine Marsh Clam, Rangia cuneata Gray. I. Toxicity|Arch. Environ. Contam. Toxicol.6(2/3): 249-255|1977|10.1007/BF02097766
5374|A|OECDN|Maas,J.L.|Toxicity Research with Thiourea|Laboratory for Ecotoxicology, Institute for Inland Water Management and Waste Water Treatment, Report No.AOCE:4 p.|1990|
5375|A|OECDN|Maas-Diepeveen,J.L., and C.J. Van Leeuwen|Aquatic Toxicity of Aromatic Nitro Compounds and Anilines to Several Freshwater Species|Report No.86-42, Laboratory for Ecotoxicology, Institute for Inland Water Management and Waste Water Treatment:10 p.|1986|
5377|A||Addison,R.F., and R.P. Cote|Variation with Chain Length in Acute Toxicity of Alkylhydroxamic Acids to Salmon (Salmo salar) Fry|Lipids8(9): 493-497|1973|10.1007/BF02531983
5378|A|OECDN|Canton,J.H., A. Buyze, and E.A.M. Mathijssen|Acute Toxicity Test of Oryzias latipes with alpha-HCH|Rep.No.LMT-627901, Natl.Inst.Public Health Environ.Hyg.:7 p.|1984|
5379|A||Bengtsson,B.E.|The Effects of Zinc on the Mortality and Reproduction of the Minnow, Phoxinus phoxinus L.|Arch. Environ. Contam. Toxicol.2(4): 342-355|1974|10.1007/BF02047099
5381|A||Fandrei,G., and H.L. Collins|Total Residual Chlorine: The Effect of Short-Term Exposure on the Emerald Shiner Nortropis atherinoides (Rafinesque)|Bull. Environ. Contam. Toxicol.23(1-2): 262-268|1979|10.1007/BF01769953
5382|A||Fennikoh,K.B., H.I. Hirshfield, and T.J. Kneip|Cadmium Toxicity in Planktonic Organisms of a Freshwater Food Web|Environ. Res.15(3): 357-367|1978|10.1016/0013-9351(78)90117-2
5383|A||Finlayson,B.J.|Acute Toxicities of the Herbicides Komeen and Hydrothol-191 to Golden Shiner (Notemigonus crysoleucas)|Bull. Environ. Contam. Toxicol.25(4): 676-681|1980|10.1007/BF01985591
5384|A||Frank,P.M., and P.B. Robertson|The Influence of Salinity on Toxicity of Cadmium and Chromium to the Blue Crab, Callinectes sapidus|Bull. Environ. Contam. Toxicol.21(1-2): 74-78|1979|10.1007/BF01685389
5385|A||Greenhouse,G.A.|Toxicity of N-Phenyl-alpha-Naphthylamine and Hydrazine to Xenopus laevis Embryos and Larvae|Bull. Environ. Contam. Toxicol.18(4): 503-511|1977|10.1007/BF01683725
5386|AT||Beroza,M., M.N. Inscoe, P.H.,Jr. Schwartz, M.L. Keplinger, and C.W. Mastri|Acute Toxicity Studies with Insect Attractants|Toxicol. Appl. Pharmacol.31(3): 421-429|1975|10.1016/0041-008X(75)90264-1
5387|A||Vymazal,J.|Zn Uptake by Cladophora glomerata|Hydrobiologia (Multiple Languages)148(2): 97-101|1987|10.1007/BF00008394
5388|A||Hawryshyn,C.W., and W.C. Mackay|Toxicity and Tissue Uptake of Methylmercury Administered Intraperitoneally to Rainbow Trout (Salmo gairdneri Richardson)|Bull. Environ. Contam. Toxicol.23(1-2): 79-86|1979|10.1007/BF01769920
5389|A||Heisinger,J.F., C.D. Hansen, and J.H. Kim|Effect of Selenium Dioxide on the Accumulation and Acute Toxicity of Mercuric Chloride in Goldfish|Arch. Environ. Contam. Toxicol.8(3): 279-283|1979|10.1007/BF01056244
5390|A|OECDN|Canton,J.H., D.M.M. Adema, and D. De Zwart|Research After the Usefulness of Three Egg-Laying Fish Species in Routine Toxicity Research|Rep.No.668114-002, Natl.Inst.Public Health Environ.Hyg.:18 p.|1984|
5391|A||Johnson,M.W., and J.H. Gentile|Acute Toxicity of Cadmium, Copper, and Mercury to Larval American Lobster Homarus americanus|Bull. Environ. Contam. Toxicol.22(1/2): 258-264|1979|10.1007/BF02026939
5392|A||Jordan,M., K. Rzehak, and A. Maryanska|The Effect of Two Pesticides, Miedzian 50 and Gesagard 50, on the Development of Tadpoles of Rana temporaria|Bull. Environ. Contam. Toxicol.17(3): 349-354|1977|10.1007/BF01686089
5393|A||Judy,R.D.,Jr.|The Acute Toxicity of Copper to Gammarus fasciatus Say, a Freshwater Amphipod|Bull. Environ. Contam. Toxicol.21(1/2): 219-224|1979|10.1007/BF01685414
5394|A||Kajihara,N., T. Horimi, M. Minai, and Y. Hosaka|Laboratory Assessment of the Molluscicidal Activity of B-2, a New Chemical Against Oncomelania nosophora|Jpn. J. Med. Sci. Biol.32(3): 185-188|1979|10.7883/yoken1952.32.185
5395|AT||Kaplan,A.M., and H. Sherman|Toxicity Studies with Methyl N-[[(Methylamino)Carbonyl]Oxy]-Ethanimidothioate|Toxicol. Appl. Pharmacol.40(1): 1-17|1977|10.1016/0041-008X(77)90110-7
5396|A||Kendall,M.W.|Acute Effects of Methyl Mercury Toxicity in Channel Catfish (Ictalurus punctatus) Liver|Bull. Environ. Contam. Toxicol.18(2): 143-151|1977|10.1007/BF01686060
5397|A||Khorram,S., and A.W. Knight|The Toxicity of Kelthane to the Grass Shrimp (Crangon franciscorum)|Bull. Environ. Contam. Toxicol.18(6): 674-682|1977|10.1007/BF01691978
5398|A||Wang,W.|Site-Specific Barium Toxicity to Common Duckweed, Lemna minor|Aquat. Toxicol.12(3): 203-212|1988|10.1016/0166-445X(88)90023-9
5399|A||Knudtson,B.K.|Acute Toxicity of Vanadium to Two Species of Freshwater Fish|Bull. Environ. Contam. Toxicol.23(1-2): 95-99|1979|10.1007/BF01769923
5400|A|OECDN|Adema,D.M.M., and D. De Zwart|Research for a Useful Combination of Test Methods to Determine the Aquatic Toxicity of Environmentally Dangerous Chemicals-Research After the|Hygiene Report No. 668114-003, National Institute of Public Health and Environment:15 p.|1984|
5401|AT||Benke,G.M., K.L. Cheever, F.E. Mirer, and S.D. Murphy|Comparative Toxicity, Anticholinesterase Action and Metabolism of Methyl Parathion and Parathion in Sunfish and Mice|Toxicol. Appl. Pharmacol.28(1): 97-109|1974|10.1016/0041-008X(74)90135-5
5402|A||Lue,K.Y., and A.A. Delacruz|Mirex Incorporation in the Environment:  Toxicity in Hydra|Bull. Environ. Contam. Toxicol.19(4): 412-416|1978|10.1007/BF01685818
5403|A||Maki,A.W., and W.E. Bishop|Acute Toxicity Studies of Surfactants to Daphnia magna and Daphnia pulex|Arch. Environ. Contam. Toxicol.8(5): 599-612|1979|10.1007/BF01055040
5404|A||Manson,J.M., and E.J. O'Flaherty|Effects of Cadmium on Salamander Survival and Limb Regeneration|Environ. Res.16(1-3): 62-69|1978|10.1016/0013-9351(78)90142-1
5405|A||Wright,D.A.|Trace Metal Uptake and Sodium Regulation in Gammarus marinus from Metal Polluted Estuaries in England|J. Mar. Biol. Assoc. U.K.66(1): 83-92|1986|10.1017/S0025315400039667
5406|A||Maylin,G.A., J.D. Henion, L.J. Hicks, L. Leibovitz, V.D. Ahrens, M. Gilbert, and D.J. Lisk|Toxicity to Fish of Flame Retardant Fabrics Immersed in Their Water.  Part 1|Bull. Environ. Contam. Toxicol.17(4): 499-504|1977|10.1007/BF01685944
5408|A||McLeay,D.J., and J.R. Munro|Photoperiodic Acclimation and Circadian Variations in Tolerance of Juvenile Rainbow Trout (Salmo gairdneri) to Zinc|Bull. Environ. Contam. Toxicol.23(4-5): 552-557|1979|10.1007/BF01770002
5409|A||McLeese,D.W., and C.D. Metcalfe|Toxicities of Eight Organochlorine Compounds in Sediments and Seawater to Crangon septemspinosa|Bull. Environ. Contam. Toxicol.25(6): 921-928|1980|10.1007/BF01985632
5410|A||Anonymous|Plant Protection and Pesticide News.  Napropamide Herbicide WP and Dimethatryne-Piperophos Herbicide WP|Nogyo Oyobi Engel51(2): 99-100|1976|
5411|A|OECDN|Canton,J.H., and E.A.M. Mathijssen-Spiekman|Research After the Reproduction of Toxicity Tests with the Diatom Stephanodiscus hantzschii|Rep.No.668114-001, Natl.Inst.Public Health Environ.Hygiene:9 p.|1984|
5412|A||Nimmo,D.R., T.R. Hamaker, J.C. Moore, and C.A. Sommers|Effect of Diflubenzuron on an Estuarine Crustacean|Bull. Environ. Contam. Toxicol.22(6): 767-770|1979|10.1007/BF02027022
5414|A|OECDN|Canton,J.H., R.P. Van den Dikkenberg, and Veerman |Reproduction and Growth Experiment with alpha-HCH|Rep.No.LMT-627901, Natl.Inst.Public Health Environ.Hyg.:19 p.|1985|
5415|A||Fulton,M.H.|The Effects of Certain Intrinsic and Extrinsic Variables on the Lethal and Sublethal Toxicity of Selected Organophosphorus Insecticides in the Mummichog, Fundulus heteroclitus Under Laboratory and Field Conditions|Ph.D.Thesis, University of South Carolina, Columbia, SC:198 p.|1990|
5416|A||Asato,S.L., and D.J. Reish|The Effects of Heavy Metals on the Survival and Feeding of Holmesimysis costata (Crustacea:  Mysidacea)|In: Proceedings of the 7th International Symposium on Marine Biology, California State University, Long Beach, CA:113-120|1988|
5418|A||Smith,M.J., and A.G. Heath|Acute Toxicity of Copper, Chromate, Zinc, and Cyanide to Freshwater Fish: Effect of Different Temperatures|Bull. Environ. Contam. Toxicol.22(1-2): 113-119|1979|10.1007/BF02026917
5419|A||Sorgeloos,P., C. Remiche-Van der Wielen, and G. Persoone|The Use of Artemia nauplii for Toxicity Tests - a Critical Analysis|Ecotoxicol. Environ. Saf.2(3/4): 249-255|1978|10.1016/S0147-6513(78)80003-7
5420|A||Sullivan,J.T., J.R. Palmieri, and R. Agoes|Survival of Lymnaea rubiginosa Infected with Echinostoma audyi and Exposed to Copper Sulphate|Trans. R. Soc. Trop. Med. Hyg.71(1): 84-85|1977|10.1016/0035-9203(77)90215-2
5421|A||Boutet,C., and C. Chaisemartin|Specific Toxic Properties of Metallic Salts in Austro-potamobius pallipes pallipes and Orconectes limosus (Proprietes Toxiques Specifiques des sels Metalliques chez Austropotamobius pallipes pallipes et Orconectes limos|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)167(12): 1933-1938|1973|
5422|A||Hall,J.A., and C.L.J. Frid|Responses of Estuarine Benthic Macrofauna in Copper-Contaminated Sediments to Remediation of Sediment Quality|Mar. Pollut. Bull.30(11): 694-700|1995|10.1016/0025-326X(95)00051-N
5423|A||Tonogai,Y., Y. Ito, M. Iwaida, M. Tati, Y. Ose, and T. Sato|Studies on the Toxicity of Coal-Tar Dyes.  I.  Photodecomposed Products of Four Xanthene Dyes and Their Acute Toxicity to Fish|J. Toxicol. Sci.4(2): 115-125|1979|10.2131/jts.4.115
5424|A||Holdway,D.A., D.G. Dixon, and K.L.E. Kaiser|The Acute Toxicity of Pulse-Dosed, Para-Substituted Phenols to Larval American Flagfish (Jordanella floridae):  A Comparison with Toxicity to|Sci. Total Environ.104:229-237|1991|10.1016/0048-9697(91)90074-O
5425|A||Brown,E.A.B., J.E. Franklin, E. Pratt, and E.G. Trams|Contributions to the Pharmacology of Quinaldine (Uptake and Distribution in the Shark and Comparative Studies)|Comp. Biochem. Physiol. A Comp. Physiol.42(1): 223-231|1972|10.1016/0300-9629(72)90381-7
5426|A||Yang,C.F., and Y.P. Sun|Partition Distribution of Insecticides as a Critical Factor Affecting Their Rates of Absorption from Water and Relative Toxicities to Fish|Arch. Environ. Contam. Toxicol.6(2/3): 325-335|1977|10.1007/BF02097773
5427|A||Zaffaroni,N.P., E. Arias, G. Capodanno, and T. Zavanella|The Toxicity of Manganese Ethylenebisdithiocarbamate to the Adult Newt, Triturus cristatus|Bull. Environ. Contam. Toxicol.20(2): 261-267|1978|10.1007/BF01683518
5428|A||Oliveira,L., N.J. Antia, and T. Bisalputra|Culture Studies on the Effects from Fluoride Pollution on the Growth of Marine Phytoplankters|J. Fish. Res. Board Can.35:1500-1504|1978|10.1139/f78-237
5431|A||Burkhart,C.A., and R.G. Stross|An Aquatic Bioassay of Herbicide Bleaching in the Charophyte Sporeling, Nitella furcata|J. Aquat. Plant Manag.28:50-51|1990|
5432|A||Mostafa,I.Y., E.F. Shabana, Z. Khalil, and F.I.Y. Mostafa|The Metabolic Fate of 14C-Parathion by Some Fresh Water Phytoplankton and Its Possible Effects on the Algal Metabolism|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(5/6): 499-512|1991|
5433|A||De Moor,I.J.|The Toxic Concentration of Free Ammonia to Brachionus calyciflorus Pallas, a Rotifer Pest Species Found in High Rate Algal Ponds (HRAP'S)|J. Limnol. Soc. South. Afr.10(2): 33-36|1984|10.1080/03779688.1984.9632817
5434|A||Westlake,G.F., and K.S. Lubinski|A Chamber to Monitor the Locomotor Behavior of Free Swimming Aquatic Organisms Exposed to Simulated Spills|Proc. 3rd Natl. Conf. Control Hazardous Material Spills76:64-69|1976|
5436|A||Zok,S., G. Gorge, W. Kalsch, and R. Nagel|Bioconcentration, Metabolism and Toxicity of Substituted Anilines in the Zebrafish (Brachydanio rerio)|Sci. Total Environ.109/110:411-421|1991|10.1016/0048-9697(91)90196-L
5438|A||Powell,M.I., and K.N. White|Influence of the Heavy Metals Copper and Cadmium on the Behaviour of Semibalanus balanoides and Balanus crenatus|Mar. Behav. Physiol.14(2): 115-127|1989|10.1080/10236248909378698
5439|A||Kou,Y.Z., and J.C. Chen|Acute Toxicity of Ammonia to Penaeus japonicus Bate Juveniles|Aquac. Fish. Manag.22(2): 259-263|1991|
5441|A||Stevenson,T.J.|The Effects of Ammonia, pH and Salinity on the White Perch, Morone americana|Ph.D Thesis, University of Rhode Island, Kingston, RI:101 p.|1977|
5442|A||Shaffi,S.A.|Ammonia Toxicity: Metabolic Disorder in Nine Freshwater Teleosts|Toxicol. Lett.6(6): 349-356|1980|10.1016/0378-4274(80)90105-8
5443|A||Solomonson,L.P.|Effects of Ammonia and Some of its Derivatives on Photosynthesis in the Blue-Green Alga, Plectonema boryanum|Ph.D.Thesis, Univ.of Chicago, Chicago, IL:68 p.|1970|
5444|A||Babich,H., and G. Stotzky|Manganese Toxicity to Fungi: Influence of pH|Bull. Environ. Contam. Toxicol.27(4): 474-480|1981|10.1007/BF01611052
5446|A||Chakoumakos,C.|The Toxicity of Copper to Rainbow and Cutthroat Trouts Under Different Conditions of Alkalinity, pH, and Hardness|M.S.Thesis, University of Wisconsin, Madison, WI:46 p.|1977|
5447|A||Rice,S.D., and J.E. Bailey|Survival, Size, and Emergence of Pink Salmon, Oncorhynchus gorbuscha, Alevins After Short- and Long-Term Exposures to Ammonia|Fish. Bull.78(3): 641-648|1980|
5448|A||Reddy,N.A., and N.R. Menon|Effects of Ammonia and Ammonium on Tolerance and Byssogenesis in Perna viridis|Mar. Ecol. Prog. Ser.1(4): 315-321|1979|10.3354/meps001315
5449|A||Rao,V.N.R., and G. Ragothaman|Studies on Amphora coffeaeformis II. Inorganic and Organic Nitrogen and Phosphorus Sources for Growth|Acta Bot. Indica6(Suppl.1): 146-154|1978|
5450|A||Chagot,D., C. Alzieu, J. Sanjuan, and H. Grizel|Sublethal and Histopathological Effects of Trace Levels of Tributyltin Fluoride on Adult Oysters Crassostrea gigas|Aquat. Living Resour.3:121-130|1990|10.1051/alr:1990012
5451|A||Black,M.C., and J.F. McCarthy|Dissolved Organic Macromolecules Reduce the Uptake of Hydrophobic Organic Contaminants by the Gills of Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.7(7): 593-600|1988|10.1002/etc.5620070708
5452|A||Sarbadhikary,A., and R.K. Sur|Effect of Short Duration Exposure to Methyl Parathion Followed by Recovery on Activities of Some Enzymes of the Fish Oreochromis niloticus (Smith)|Environ. Ecol.10(2): 333-340|1992|
5453|A||Abdelhamid,A.M., and S.A. El Ayouty|Effect on Catfish (Clarias lazera) Composition of Ingestion Rearing Water Contaminated with Lead or Aluminum Compounds|Arch. Anim. Nutr.41(7-8): 757-763|1991|
5454|A||Paul,M., and R.N. Johnston|Absence of a Ca Response Following Ammonia Activation of Sea Urchin Eggs|Dev. Biol.67(2): 330-335|1978|10.1016/0012-1606(78)90203-8
5455|A||Martinez-Tabche,L., M. Martinez Campos, and E. Sanchez-Hidalgo|Effect of Lead on the Integrity of the Lysosomal Membrane of the Gills of Fish (Oreochromis hornorum)|An. Esc. Nac. Cienc. Biol.33(1-4): 103-109|1990|
5456|A||Mukherjee,D.K., and S. Bhattacharya|Response of a Fish Channa punctatus to the Chronic Sublethal Exposure of Ammonia with Special Reference to Brain Cholinesterase|Indian Biol.10(2): 57-63|1978|
5457|A||Datta,D.K., and G.M. Sinha|Response Induced on the Mucous Cells of the Digestive Tract of a Carnivorous Indian Freshwater Teleost, Mystus vittatus (Bloch) due to Long-Term|Bol. Fisiol. Anim.12:47-55|1988|
5458|A||Ludke,J.L., D.E. Ferguson, and W.D. Burke|Some Endrin Relationships in Resistant and Susceptible Populations of Golden Shiners, Notemigonus crysoleucas|Trans. Am. Fish. Soc.97:260-263|1968|10.1577/1548-8659(1968)97[260:SERIRA]2.0.CO;2
5459|A||Kitamura,H.|Relation Between the Toxicity of Some Toxicants to the Aquatic Animals (Tanichthys albonubes and Neocaridina denticulata) and the Hardness of the Test Solution|Bull. Fac. Fish. Nagasaki Univ. (Chodai Sui Kempo)67:13-19|1990|
5461|A||Mukherjee,S., and S. Bhattacharya|Variations in the Hepatopancreatic alpha-Amylase Activity in Fishes Exposed to Some Industrial Pollutants|Water Res.11(1): 71-74|1977|10.1016/0043-1354(77)90184-1
5462|A||Morgan,W.S.G.|Fishing for Toxicity:  Biological Automonitor for Continuous Water Quality Control|Effluent Water Treat. J.16(9): 471-472, 474 - 475|1976|
5463|A||Morgan,W.S.G.|Biomonitoring with Fish: An Aid to Industrial Effluent and Surface Water Quality Control|Prog. Water Technol.9(3): 703-711|1977|
5464|A||Sanders,J.G., G.R. Abbe, and G.F. Riedel|Silver Uptake and Subsequent Effects on Growth and Species Composition in an Estuarine Community|Sci. Total Environ.97/98:761-769|1990|10.1016/0048-9697(90)90273-W
5466|A||Lakhani,L., and A.K. Pandey|Effect of Dimecron Stress on Testis of Sarotherodon mossambicus|Comp. Physiol. Ecol.10(4): 171-175|1985|
5468|A||Craig,G.R., and G.L. Beggs|Evaluation of Fish Loading Rates in Regulatory Static Bioassays|Tech. Rep. Fish. Mar. Serv.:145-160|1979|
5469|A||Jangchudjai,C., E.S. Upatham, M. Duangsawasdi, and P. Kiravanich|Acute Toxicity of the Synergism of Surfactant (LAS) and Copper on the Freshwater Fish, Puntius gonionotus, Bleeker|J. Sci. Soc. Thailand13:159-167|1987|10.2306/scienceasia1513-1874.1987.13.159
5470|A||Horne,F.R., and S. McIntosh|Factors Influencing Distribution of Mussels in the Blanco River of Central Texas|Nautilus94(4): 119-133|1979|
5472|A||Bodar,C.W.M., C.J. Van Leeuwen, P.A. Voogt, and D.I. Zandee|Effect of Cadmium on the Reproduction Strategy of Daphnia magna|Aquat. Toxicol.12(4): 301-310|1988|10.1016/0166-445X(88)90058-6
5473|A||Hanaoka,H.|Harmful Effect of Ammonia on Growth of the Brine Shrimp Artemia salina and Inhibition of Ammonia Accumulation with an Alga Chlorella|Bull. Plankton. Soc. Jpn.24(2): 99-107|1977|
5475|A||Gupta,S., and R.C. Dalela|Effect of Phenolic Compounds on Alkaline Phosphatase Activity in Certain Tissues of Notopterus notopterus|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:151-157|1985|
5476|A||Thomas,W.H., J. Hastings, and M. Fujita|Ammonium Input to the Sea via Large Sewage Outfalls Part 2:  Effects of Ammonium on Growth and Photosynthesis of Southern California Phytoplankton|Mar. Environ. Res.3(4): 291-296|1980|10.1016/0141-1136(80)90041-0
5477|A||Mojzis,J., G. Mojzisova, and F. Nistiar|The Effect of Dichlorvos and Polychlorinated Biphenyl (Delor 103) on the Protozoon Tetrahymena pyriformis|Biologia (Bratisl.)48(3): 349-354|1993|
5478|A||Fedorov,K.Y., and Z.V. Smirnova|Dynamics of Ammonia Accumulation and its Effect on the Development of the Pink Salmon, Oncorhynchus gorbuscha, in Closed Circuit Incubation Systems|Vopr. Ikhtiol. (Non-English)19(2): 320-328|1978|
5479|A||Chouhan,M.S., and A.K. Pandey|On the Tolerannce Limits and Toxicity Symptoms of Guppy (Lebistes reticulatus)to Fertilizers: Urea and Ammonium Sulphate|Comp. Physiol. Ecol.12(2): 77-80|1987|
5480|A||Yasunaga,Y.|The Influence of Some Pollutants on the Survival of Eggs and Larvae of Two Species of Flatfish, Limanda yokohamae and Paralichtys olivaceus|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)86:81-111|1976|
5482|A||Calabrese,A., and D.A. Nelson|Inhibition of Embryonic Development of the Hard Clam, Mercenaria mercenaria, by Heavy Metals|Bull. Environ. Contam. Toxicol.11(1): 92-97|1974|10.1007/BF01685034
5483|A||Canton,J.H.|The Toxicity of Benomyl, Thiophanate-Methyl, and BCM to Four Freshwater Organisms|Bull. Environ. Contam. Toxicol.16(2): 214-218|1976|10.1007/BF01685230
5484|A||Goettl,J.P.J., and P.H. Davies|Water Pollution Studies|Job Progress Report, Federal Aid Project F-33-R-12, DNR, Denver, CO:68-|1977|
5485|A||Carlson,G.P.|Comparison of the Metabolism of Parathion by Lobsters and Rats|Bull. Environ. Contam. Toxicol.9(5): 296-300|1973|10.1007/BF01684787
5486|A||Reddy,M.S., and K.V.R. Rao|Inhibitory Potentiality of Phosphamidon and Lindane on the Limb Regeneration of Marine Prawn, Penaeus monodon|Indian J. Anim. Sci.59(1): 199-202|1989|
5488|A||Chambers,J.E., and J.D. Yarbrough|Parathion and Methyl Parathion Toxicity to Insecticide-Resistant and Susceptible Mosquitofish|Bull. Environ. Contam. Toxicol.11(4): 315-320|1974|10.1007/BF01684935
5490|A||Cheng,T.C., and J.T. Sullivan|A Comparative Study of the Effects of Two Copper Compounds on the Respiration and Survival of Biomphalaria glabrata (Mollusca:  Pulmonata)|Comp. Gen. Pharmacol.4(16): 315-320|1973|10.1016/0010-4035(73)90042-6
5491|A||Boese,B.L., H. Lee II, and D.T. Specht|Efficiency of Uptake of Hexachlorobenzene From Water by the Tellinid Clam, Macoma nasuta|Aquat. Toxicol.12(4): 345-356|1988|10.1016/0166-445X(88)90061-6
5492|A||Dettbarn,W.D., and F.C.G. Hoskin|Toxicity of DFP and Related Compounds to Squids in Relation to Cholinesterase Inhibition and Detoxifying Enzyme Levels|Bull. Environ. Contam. Toxicol.13(2): 133-140|1975|10.1007/BF01721726
5493|A||Carrier,R., and T.L. Beitinger|Resistance of Temperature Tolerance Ability of Green Sunfish to Cadmium Exposure|Bull. Environ. Contam. Toxicol.40(4): 475-480|1988|10.1007/BF01688369
5494|A||Dziuk,L.J., and F.W. Plapp|Insecticide Resistance in Mosquitofish from Texas|Bull. Environ. Contam. Toxicol.9(1): 15-19|1973|10.1007/BF01856765
5495|A||Hwang,D.F., M.R. Tsai, S.S. Jeng, H.I. Kojima, and T. Yoshida|Sublethal Effects of Butylated Hydroxytoluene Through Feed in Common Carp|Nippon Suisan Gakkaishi (Multiple Languages)57(6): 1153-1157|1991|10.2331/suisan.57.1153
5496|A||Fletcher,G.L.|The Acute Toxicity of a Yellow Phosphorus Contaminated Diet to Brook Trout (Salvelinus fontinalis)|Bull. Environ. Contam. Toxicol.10(2): 123-128|1973|10.1007/BF01685885
5497|T||Flickinger,E.L., K.A. King, W.F. Stout, and M.M. Mohn|Wildlife Hazards from Furadan 3G Applications to Rice in Texas|J. Wildl. Manag.44(1): 190-197|1980|10.2307/3808365
5498|A||Folmar,L.C.|Overt Avoidance Reaction of Rainbow Trout Fry to Nine Herbicides|Bull. Environ. Contam. Toxicol.15(5): 509-514|1976|10.1007/BF01685696
5499|A||Francis,B.M., L.G. Hansen, T.R. Fukuto, P.Y. Lu, and R.L. Metcalf|Ecotoxicology of Phenylphosphonothioates|Environ. Health Perspect.36:187-195|1980|10.1289/ehp.8036187
5500|A||Chattopadhyay,D.N., and S.K. Konar|Chronic Effects of Linear Alkyl Benzene Sulfonate on Aquatic Ecosystem|Environ. Ecol.3(3): 428-433|1985|
5501|A||Ghate,H.V., and L. Mulherkar|Effect of Sodium Diethyldithiocarbamate on Developing Embryos of the Frog Microhyla ornata|Indian J. Exp. Biol.18(9): 1040-1042|1980|
5502|A||Clark,J.R., P.W. Borthwick, L.R. Goodman, J.M.,Jr. Patrick, E.M. Lores, and J.C. Moore|Effects of Aerial Thermal Fog Applications of Fenthion on Caged Pink Shrimp, Mysids and Sheepshead Minnows|Am. Mosq. Control Assoc. J.3(3): 466-472|1988|
5503|A||Giles,M.A.|Accumulation of Cadmium by Rainbow Trout, Salmo gairdneri, During Extended Exposure|Can. J. Fish. Aquat. Sci.45(6): 1045-1053|1988|10.1139/f88-128
5504|A||Yamamoto,K.I.|Effects of Four Agricultural Chemicals on Gas Exchange at the Gills of the Common Carp|Nippon Suisan Gakkaishi (Multiple Languages)57(3): 433-437|1991|10.2331/suisan.57.433
5505|A||Kojima,H.I., T. Yoshida, D.F. Hwang, M.R. Tsai, and S.S. Jeng|Absorption, Distribution, and Excretion of Butylated Hydroxytoluene in Rainbow Trout and Common Carp|Nippon Suisan Gakkaishi (Multiple Languages)57(6): 1159-1164|1991|10.2331/suisan.57.1159
5506|A||Greve,P.A., and H.G. Verschuuren|Toxicity of Endosulfan for Fishes in Surface Waters. (Die Toxizitat von Endosulfan fur Fische in Oberflachengewassern)|Schriftenr Ver Wasser Boden Lufthyg Berlin - Dahlem34:63-67|1971|
5507|A||Gulati,R.D., C.W.M. Bodar, A.L.G. Schuurmans, J.A.J. Faber, and D.I. Zandee|Effects of Cadmium Exposure on Feeding of Freshwater Planktonic Crustaceans|Comp. Biochem. Physiol. C Comp. Pharmacol.90(2): 335-340|1988|10.1016/0742-8413(88)90007-2
5508|A||Reish,D.J.|The Effect of Different Pollutants on Ecologically Important Polychaete Worms|EPA 600/3-80-053, U.S.EPA, Narragansett, RI:136 p.|1980|
5509|AT||Hashimoto,Y., T. Makita, N. Ohnuma, and T. Noguchi|Acute Toxicity on Dimethyl 4,4'-o-Phenylene bis(3-Thioallophanate), Thiophanate-Methyl Fungicide|Toxicol. Appl. Pharmacol.23(4): 606-615|1972|10.1016/0041-008X(72)90101-9
5510|A||Holcombe,G.W., J.T. Fiandt, and G.L. Phipps|Effects of pH Increases and Sodium Chloride Additions on the Acute Toxicity of 2,4-Dichlorophenol to the Fathead Minnow|Water Res.14(8): 1073-1077|1980|10.1016/0043-1354(80)90155-4
5511|A||Ingram,A.J.|The Lethal and Hepatocarcinogenic Effects of Dimethylnitrosamine Injection in the Newt Triturus helveticus|Br. J. Cancer26(3): 206-215|1972|10.1038/bjc.1972.28
5512|A||Bott,T., R. Patrick, R. Larson, and C. Rhyne|The Effect of Nitroilotriacetic Acid (NTA) on the Structure and Functioning of Aquatic Communities in Streams|EPA-600/3-80-050, U.S.EPA, Duluth, MN:157 p.|1980|
5513|AT||Keplinger,M.L., O.E. Fancher, F.L. Lyman, and J.C. Calandra|Toxicologic Studies of Four Fluorescent Whitening Agents|Toxicol. Appl. Pharmacol.27(3): 494-506|1974|10.1016/0041-008X(74)90029-5
5514|A||Khan,M.A.Q., R.H. Stanton, D.J. Sutherland, J.D. Rosen, and N. Maitra|Toxicity-Metabolism Relationship of the Photoisomers of Certain Chlorinated Cyclodiene Insecticide Chemicals|Arch. Environ. Contam. Toxicol.1(2): 159-169|1973|10.1007/BF01986005
5515|A||Klaunig,J., S. Koepp, and M. McCormick|Acute Toxicity of a Native Mummichog Population (Fundulus heteroclitus) to Mercury|Bull. Environ. Contam. Toxicol.14(5): 534-536|1975|10.1007/BF01683367
5516|A||Klaverkamp,J.F., B.R. Hobden, and S.E. Harrison|Acute Lethality and In Vitro Brain Cholinesterase Inhibition of Acephate and Fenitrothion in Rainbow Trout|Proc. West. Pharmacol. Soc.18:358-361|1975|
5517|A||Suresh,A., B. Sivaramakrishna, P.C. Victoriamma, and K. Radhakrishnaiah|Comparative Study on the Inhibition of Acetylcholinesterase Activity in the Freshwater Fish Cyprinus carpio by Mercury and Zinc|Biochem. Int.26(2): 367-375|1992|
5518|T||Lappenbusch,W.L., and D.L. Willis|Acute Toxicologic Effects of Dimethyl Sulfoxide on the Rough-Skinned Newt (Taricha granulosa)|Toxicol. Appl. Pharmacol.18(1): 141-150|1971|10.1016/0041-008X(71)90323-1
5519|A||Lech,J.J.|Glucuronide Formation in Rainbow Trout-Effect of Salicylamide on the Acute Toxicity, Conjugation and Excretion of 3-Trifluoromethyl-4-Nitrophenol|Biochem. Pharmacol.23(17): 2403-2410|1974|10.1016/0006-2952(74)90231-7
5520|A||Lech,J.J., S. Pepple, and M. Anderson|Effects of Novobiocin on the Acute Toxicity, Metabolism and Biliary Excretion of 3-Trifluoromethyl-4-Nitrophenol in Rainbow Trout|Toxicol. Appl. Pharmacol.25(4): 542-552|1973|10.1016/0041-008X(73)90023-9
5521|A||Conrad,G.W.|Heavy Metal Effects on Cellular Shape Changes, Cleavage, and Larval Development of the Marine Gastropod Mollusk, (Ilyanassa obsoleta Say)|Bull. Environ. Contam. Toxicol.41(1): 79-85|1988|10.1007/BF01689062
5522|A||Gallagher,E.P., and R.T. Di Giulio|Effects of 2,4-Dichlorophenoxyacetic Acid and Picloram on Biotransformation, Peroxisomal and Serum Enzyme Activities in Channel Catfish (Ictalurus punctatus)|Toxicol. Lett.57(1): 65-72|1991|10.1016/0378-4274(91)90120-U
5523|A||Chen,J.C., P.C. Liu, and S.C. Lei|Toxicities of Ammonia and Nitrite to Penaeus monodon Adolescents|Aquaculture89(2): 127-137|1990|10.1016/0044-8486(90)90305-7
5524|A||Yasmeen,R., S.J. Tulasi, and J.V.R. Rao|Metabolic Changes in the Air-Breathing Fish Anabas scandens on Long-Term Exposure to Endosulfan|Pestic. Biochem. Physiol.40(3): 205-211|1991|10.1016/0048-3575(91)90091-Y
5525|A||Maki,A.W., and H.E. Johnson|Effects of PCB (Aroclor 1254) and p,p'-DDT on Production and Survival of Daphnia magna Strauss|Bull. Environ. Contam. Toxicol.13(4): 412-416|1975|10.1007/BF01721844
5526|A||Jantrarotai,W., R.T. Lovell, and J.M. Grizzle|Acute Toxicity of Aflatoxin B1 to Channel Catfish|J. Aquat. Anim. Health2(4): 237-247|1990|10.1577/1548-8667(1990)002<0237:ATOABT>2.3.CO;2
5527|A||Mearns,A.J., P.S. Oshida, M.J. Sherwood, D.R. Young, and D.J. Reish|Chromium Effects on Coastal Organisms|J. Water Pollut. Control Fed.48(8): 1929-1939|1976|
5529|A||Harrison,F.L., and R. Berger|Effects of Copper on the Latency of Lysosomal Hexosaminidase in the Digestive Cells of Mytilus edulis|Mar. Biol.68(2): 109-116|1982|10.1007/BF00397598
5530|A||Saucier,D., L. Astic, P. Rioux, and F. Godinot|Histopathological Changes in the Olfactory Organ of Rainbow Trout (Oncorhynchus mykiss) Induced by Early Chronic Exposure to a Sublethal Copper|Can. J. Zool.69(8): 2239-2245|1991|10.1139/z91-313
5531|A||Miller,D.L., and D.M. Ogilvie|Temperature Selection in Brook Trout (Salvelinus fontinalis) Following Exposure to DDT, PCB or Phenol|Bull. Environ. Contam. Toxicol.14(5): 545-551|1975|10.1007/BF01683369
5532|A||Sekkat,N., A. Le Du, J.M. Jouany, and M. Guerbet|Study of the Interactions Between Copper, Cadmium, and Ferbam Using the Protozoan Colpidium campylum Bioassay|Ecotoxicol. Environ. Saf.24(3): 294-300|1992|10.1016/0147-6513(92)90005-N
5533|A||Nagasawa,K., E. Koshimura, and H. Fukuda|LD50 and ED50 of Parathion and Potassium Cyanide and Their Bioassay Using Guppies (Lebistes reticulatus)|Bull. Natl. Inst. Hyg. Sci. (Tokyo)86:32-36|1968|
5534|A||Naqvi,S.M., and A.A. Dela Cruz|Mirex Incorporation in the Environment: Toxicity in Selected Freshwater Organisms|Bull. Environ. Contam. Toxicol.10(5): 305-308|1973|10.1007/BF01684821
5535|A||Nehring,R.B.,Jr.|Acute Toxicity of a Zinc-Polluted Stream to Four Species of Salmonids|Bull. Environ. Contam. Toxicol.12(4): 464-469|1974|10.1007/BF01684983
5536|A||Nimmo,D.R., T.L. Hamaker, J.C. Moore, and R.A. Wood|Acute and Chronic Effects of Dimilin on Survival and Reproduction of Mysidopsis bahia|ASTM Spec. Tech. Publ.:366-376|1980|
5537|A||Pellegrini,G., and R. Santi|Potentiation of Toxicity of Organophosphorus Compounds Containing Carboxylic Ester Functions Toward Warm-Blooded Animals by Some Organophosphorus Impurities|J. Agric. Food Chem.20(5): 944-950|1972|10.1021/jf60183a035
5538|A||Prokopenko,V.A., S.E. Panchenko, N.P. Sokol'skaia, and I.G. Kuznetsov|Ichthyotoxicological Evaluation of Kelthane|Veterinaria (Mosk.) (Non-English)3:62-64|1980|
5539|A||Rawash,I.A., I.A. Gaaboub, F.M. El-Gayar, and A.Y. El-Shazli|Standard Curves for Nuvacron, Malathion, Sevin, DDT and Kelthane Tested Against the Mosquito Culex pipiens L. and the Microcrustacean Daphnia magna Straus|Toxicology4(2): 133-144|1975|10.1016/0300-483X(75)90092-X
5540|A||Rieger,K.|Comparative Toxicological Investigations with Several Fish|Arch. Fischereiwiss.30(1): 75-80|1980|
5541|A||Davies,P.E.|Disappearance Rates of Chlorothalonil (TCIN) in the Aquatic Environment|Bull. Environ. Contam. Toxicol.40(3): 405-409|1988|10.1007/BF01689098
5542|A||Alexander,H.C., J.A.,Jr. Quick, and E.A. Bartlett|Static Acute Toxicity of Sodium Bromide to Fathead Minnows|Bull. Environ. Contam. Toxicol.27(3): 326-331|1981|10.1007/BF01611027
5543|A||De Lisle,P.F., and M.H.,Jr. Roberts|The Effect of Salinity on Cadmium Toxicity to the Estuarine Mysid Mysidopsis bahia: Role of Chemical Speciation|Aquat. Toxicol.12(4): 357-370|1988|10.1016/0166-445X(88)90062-8
5544|A||Scherf,H.R.|Toxicological Effects of Diethylnitrosamine (DENA) in Guppies (Lebistes reticulatus)|Z. Krebsforsch. Klin. Onkol.86(2): 155-163|1976|
5545|A||Schoor,W.P., and J. Brausch|The Inhibition of Acetylcholinesterase Activity in Pink Shrimp (Penaeus duorarum) by Methyl Parathion and Its Oxon|Arch. Environ. Contam. Toxicol.9(5): 599-605|1980|10.1007/BF01056939
5547|A||Slattery,G.G., and A.J. Schmidt|The Effect of Dimethyl Sulfoxide on Forelimb Regeneration of the Adult Newt, Triturus viridescens|Ann. N. Y. Acad. Sci.243:257-268|1975|10.1111/j.1749-6632.1975.tb25364.x
5548|A||Slonim,A.R., and E.E. Ray|Acute Toxicity of Beryllium Sulfate to Salamander Larvae (Ambystoma spp.)|Bull. Environ. Contam. Toxicol.13(3): 307-312|1975|10.1007/BF01685341
5549|A||Sorensen,E.M.B.|Toxicity and Accumulation of Arsenic in Green Sunfish, Lepomis cyanellus, Exposed to Arsenate in Water|Bull. Environ. Contam. Toxicol.15(6): 756-761|1976|10.1007/BF01685629
5550|A||Statham,C.N., and J.J. Lech|Potentiation of the Acute Toxicity of Several Pesticides and Herbicides in Trout by Carbaryl|Toxicol. Appl. Pharmacol.34(1): 83-87|1975|10.1016/0041-008X(75)90177-5
5551|A||Sudershan,P., and M.A.Q. Khan|Biotransformations of 14C-Endrin and 14C-Dieldrin by Bluegill Fish|Toxicol. Lett.5(1): 38-|1980|
5552|A||Thatcher,T.O., M.J. Schneider, and E.G. Wolf|Bioassays on the Combined Effects of Chlorine, Heavy Metals and Temperature on Fishes and Fish Food Organisms. Part I. Effects of Chlorine and|Bull. Environ. Contam. Toxicol.15(1): 40-48|1976|10.1007/BF01686194
5553|A||Thomas,R.J.|The Toxicologic and Teratologic Effects of DELTA9-Tetrahydrocannabinol in the Zebrafish Embryo|Toxicol. Appl. Pharmacol.32(1):184-190|1975|10.1016/0041-008X(75)90209-4
5554|A||Amiard,J.C., and C. Amiard-Triquet|Distribution of Cobalt 60 in a Mollusc, a Crustacean and a Freshwater Teleost: Variations as a Function of the Source of Pollution and During Elimination|Environ. Pollut.20(3): 199-213|1979|
5555|A||Vailati,G., D. Calamari, and R. Marchetti|Effects of (LAS) on the Development Stages of Salmo gairdneri Rich|Nuovi Ann. Ig. Microbiol.26(1): 69-84|1975|
5556|A||Gall,W.K.|Effect of Cow Feces on the Ecology of Laboratory Streams|M.S.Thesis, University of Wisconsin, Madison, WI:114 p.|1980|
5557|A||Wilson,W.B., and L.R. Freeburg|Toxicity of Metals to Marine Phytoplankton Cultures|EPA-600/3-80-025, U.S.EPA, Narragansett, RI:110 p.|1980|
5558|A||Wright,A.|The Use of Recovery As a Criterion for Toxicity|Bull. Environ. Contam. Toxicol.15(6): 747-749|1976|10.1007/BF01685627
5559|A||Ali,A.|Laboratory Evaluation of Organophosphate and New Synthetic Pyrethroid Insecticides Against Pestiferous Chironomid Midges of Central Florida|Mosq. News41(1): 157-161|1981|
5560|A||Billard,R.|Effect of Some Fish Anesthetics on Gamete Survival During Artificial Insemination of Rainbow Trout|Prog. Fish-Cult.43(2): 72-73|1981|10.1577/1548-8659(1981)43[72:EOSFAO]2.0.CO;2
5561|A||Zitko,P., W.V. Carson, and W.G. Carson|Prediction of Incipient Lethal Levels of Copper to Juvenile Atlantic Salmon in the Presence of Humic Acid by Cupric Electrode|Bull. Environ. Contam. Toxicol.10(5): 265-271|1973|10.1007/BF01684814
5562|A||Zitko,V., D.J. Wildish, O. Hutzinger, and P.M.K. Choi|Acute and Chronic Oral Toxicity of Chlorinated Dibenzofurans to Salmonid Fishes|Environ. Health Perspect.5:187-189|1973|10.1289/ehp.7305187
5563|A||Arnott,G.H., and M. Ahsanullah|Acute Toxicity of Copper, Cadmium and Zinc to Three Species of Marine Copepod|Aust. J. Mar. Freshw. Res.30(1): 63-71|1979|10.1071/MF9790063
5564|A||Bougis,P., M.C. Corre, and M. Etienne|Sea-Urchin Larvae as a Tool for Assessment of the Quality of Sea Water|Ann. Inst. Oceanogr.55(1): 21-25|1979|
5565|A||Braginskij,L.P., and E.P. Shcherban|Acute Toxicity of Heavy Metals to Aquatic Invertebrates Under Different Temperature Conditions|Hydrobiol. J.14(6): 78-82|1979|
5566|A||Carter,J.G.T.|Effect of Acute Exposure to Zinc on Osmoregulation and Water Balance of the Aquatic Larvae of the Blackfly Simulium ornatipes|Aust. J. Mar. Freshw. Res.31(3): 373-383|1980|10.1071/MF9800373
5567|A||Dalela,R.C., M.C. Bhatnagar, A.K. Tyagi, and S.R. Verma|Histologische Schadigung Der Kiemen Von Channa Gachua Bei Der Akuten Und Subakuten Einwirkung Von Endosulfan Und Rogor|Mikroskopie35(11-12): 301-307|1979|
5568|A||Farmer,G.J., D. Ashfield, and H.S. Samant|Effects of Zinc on Juvenile Atlantic Salmon Salmo salar: Acute Toxicity, Food Intake, Growth and Bioaccumulation|Environ. Pollut.19(2): 103-118|1979|
5569|A||Gill,T.S., J. Pande, and H. Tewari|Effects of Endosulfan on the Blood and Organ Chemistry of Freshwater Fish, Barbus conchonius Hamilton|Ecotoxicol. Environ. Saf.21:80-91|1991|10.1016/0147-6513(91)90010-M
5570|A||Yano,Y.|Use of Manganese Concentration in Bivalves as an Indicator of Water Pollution in Japanese Brackish Lakes|ACS Symp. Ser.654:65-76|1997|10.1021/bk-1997-0654.ch007
5571|A||Hughes,G.M., S.F. Perry, and V.M. Brown|A Morphometric Study of Effects of Nickel, Chromium and Cadmium on the Secondary Lamellae of Rainbow Trout Gills|Water Res.13(7): 665-679|1979|10.1016/0043-1354(79)90017-4
5572|A||Bull,C.J.|The Effects of Sumithion, an Organophosphate Insecticide, on the Behaviour of Juvenile Coho Salmon Oncorhynchus kisutch Walbaum|M.S.Thesis, Univ.of Victoria, BC:70 p.|1971|
5573|A||Marchetti,R.|Acute Toxicity of Alkyl Leads to Some Marine Organisms|Mar. Pollut. Bull.9(8): 206-207|1978|10.1016/0025-326X(78)90293-X
5574|A||Depledge,M.H., and D.J.H. Phillips|Arsenic Uncouples Cardiac and Respiratory Responses of Hemifusus tuba (Gmelin) to Thermal Stress|In: Proc. on Mar. Biol. of the South China Sea, China Ocean Press, Beijing, China:103-111|1988|
5575|A||Sastry,K.V., P.K. Gupta, and P.V. Malik|A Comparative Study of the Effect of Acute and Chronic Mercuric Chloride Treatment on the Activities of a Few Digestive Enzymes of a Teleost|Bull. Environ. Contam. Toxicol.22(1/2): 28-34|1979|10.1007/BF02026902
5576|A||Scharf,B.W.|A Fish Test Alarm Device for the Continual Recording of Acute Toxic Substances in Water|Arch. Hydrobiol.85(2): 250-256|1979|
5577|A||Shaffi,S.A.|The Acute Toxicity of Heptachlor for Freshwater Fishes|Toxicol. Lett.4(1): 31-37|1979|10.1016/0378-4274(79)90027-4
5578|A||Schimmel,S., T.L. Hamaker, and J. Forester|Toxicity and Bioconcentration of EPN and Leptophos to Selected Estuarine Animals|Contrib. Mar. Sci22:193-204|1979|
5580|A||Stoss,F.W., and T.A. Haines|The Effects of Toluene on Embryos and Fry of the Japanese Medaka Oryzias latipes with a Proposal for Rapid Determination of Maximum Acceptable|Environ. Pollut.20(2): 139-148|1979|
5581|A||Sundaram,K.M.S., and S.Y. Szeto|A Study of the Lethal Toxicity of Aminocarb to Freshwater Crayfish and Its In Vivo Metabolism|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(6): 589-602|1979|
5582|A||Allan,J.D., and R.E. Daniels|Sublethal Effects of Pollutants: Test of the Usefulness of Life Table for Evaluating the Impact of Chronic Toxicity|Tech.Rep.No.57, Water Resour.Res.Cen., University of Maryland, College Park, MD:69 p.|1980|
5583|A||Anees,M.A.|Susceptibility of a Freshwater Teleost Channa punctatus to Acute, Sublethal and Chronic Levels of Organophosphorus Insecticides|M.S.Thesis, University of Punjab, Pakistan, Xerox University Microfilms M-6941, Masters Abs.13(02): 103 p.|1974|
5584|A||Brooks,A.S., J.M. Bartos, and P.T. Danos|The Effects of Chlorine on Freshwater Fish Under Various Time and Chemical Conditions:  Toxicity of Chlorine to Freshwater Fish|Final Rep.EA-2481, Res.Proj.No.1435-1, Ctr.for Gt.Lakes Stud., Univ.of Wisconsin, Milwaukee, WI:50 p.|1982|
5585|A||Broderius,S.J.|Determination of Molecular Hydrocyanic Acid in Water and Studies of the Chemistry and Toxicity to Fish of the Nickelocyanide Complex|M.S.Thesis, Oregon State University, Corvallis, OR:74 p.|1970|
5586|A||Bertram,P.E., and B.A. Hart|Longevity and Reproduction of Daphnia pulex (Degeer) Exposed to Cadmium-Contaminated Food or Water|Environ. Pollut.19(4): 295-306|1979|
5587|A||Best,J.B., M. Morita, and B. Abbotts|Acute Toxic Responses of the Freshwater Planarian, Dugesia dorotocephala, to Chlordane|Bull. Environ. Contam. Toxicol.26(4): 502-507|1981|10.1007/BF01622127
5588|A||Biro,P.|Acute Effects of the Sodium Salt of 2,4-D on the Early Developmental Stages of Bleak, Alburnus alburnus|J. Fish Biol.14(1): 101-109|1979|10.1111/j.1095-8649.1979.tb03499.x
5589|A||Bluzat,R., and J. Seuge|Effects of Three Insecticides (Lindane, Fenthion, and Carbaryl) on the Acute Toxicity to Four Aquatic Invertebrate Species and the Chronic Toxicity|Environ. Pollut.18(1): 51-70|1979|
5590|A|OECDG|Buccafusco,R.J., S.J. Ells, and G.A. LeBlanc|Acute Toxicity of Priority Pollutants to Bluegill (Lepomis macrochirus)|Bull. Environ. Contam. Toxicol.26(4): 446-452|1981|10.1007/BF01622118
5591|A||Brockway,D.L.|Some Effects of Sub-Lethal Levels of Pentachlorophenol and Cyanide on the Physiology and Behavior of a Cichlid Fish Cichlasoma bimaculatum (Linnaeus)|M.S.Thesis, Oregon State University, Corvallis, OR:56 p.|1963|
5592|A||Baptist,J.P., D.E. Hoss, and C.W. Lewis|Retention of 51Cr, 59Fe, 60Co, 65Zn, 85Sr, 95Nb, 141mIn and 131I by the Atlantic Croaker (Micropogon undulatus)|Health Phys.18:141-148|1970|10.1097/00004032-197002000-00006
5593|A||Sastry,D.V., and P.V. Malik|Studies on the Effect of Dimecron on the Digestive System of a Fresh Water Fish, Channa punctatus|Arch. Environ. Contam. Toxicol.8(4): 397-407|1979|10.1007/BF01056346
5594|A||Canton,J.H., R.C.C. Wegman, T.J.A. Vulto, C.H. Verhoef, and G.J. Van Esch|Toxicity-, Accumulation- and Elimination Studies of alpha-Hexachlorocyclohexane (alpha-HCH) with Saltwater Organisms of Different Trophic Levels|Water Res.12(9): 687-690|1978|10.1016/0043-1354(78)90179-3
5595|A||Capuzzo,J.M.|The Effects of Halogen Toxicants on Survival, Feeding and Egg Production of the Rotifer Brachionus plicatilis|Estuar. Coast. Mar. Sci.8(4): 307-316|1979|10.1016/0302-3524(79)90048-3
5596|A||Thakur,G.K., P.K. Thakur, and P.K. Pandey|Acute Toxic Effects of BHC (Gammexene) on Plasma Electrolytes of an Air-Breathing Fish, Clarias batrachus (Linn.)|J. Freshw. Biol.2(2): 169-173|1990|
5597|A||Chin,Y.N., and K.I. Sudderuddin|Effect of Methamidophos on the Growth Rate and Esterase Activity of the Common Carp Cyprinus carpio L.|Environ. Pollut.18(3): 213-220|1979|
5598|A||Davenport,J., and A. Manley|The Detection of Heightened Sea-Water Copper Concentrations by the Mussel Mytilus edulis|J. Mar. Biol. Assoc. U.K.58(4): 843-850|1978|10.1017/S0025315400056800
5599|A||Ferreira,P.F., and R.E. Wolke|Acute Toxicity of Platinum to Coho Salmon (Oncorhynchus kisutch)|Mar. Pollut. Bull.10(3): 79-83|1979|10.1016/0025-326X(79)90217-0
5600|A||Adelman,I.R., L.L.,Jr. Smith, and G.D. Siesennop|Effect of Size or Age of Goldfish and Fathead Minnows on Use of Pentachlorophenol as a Reference Toxicant|Water Res.10(8): 685-687|1976|10.1016/0043-1354(76)90006-3
5601|A||Flannagan,J.F., B.E. Townsend, B.G.E. Demarch, M.K. Friesen, and S.L. Leonhard|The Effects of an Experimental Injection of Methoxychlor on Aquatic Invertebrates: Accumulation, Standing Crop, and Drift|Can. Entomol.111(1): 73-90|1979|10.4039/Ent11173-1
5602|A||Khan,A.T., and J.S. Weis|Effect of Methylmercury on Egg and Juvenile Viability in Two Populations of Killifish Fundulus heteroclitus|Environ. Res.44:272-278|1987|10.1016/S0013-9351(87)80236-0
5603|A||Glickstein,N.|Acute Toxicity of Mercury and Selenium to Crassostrea gigas Embryos and Cancer magister Larvae|Mar. Biol.49(2): 113-117|1978|10.1007/BF00387110
5604|A||Goodman,L.R., D.J. Hansen, D.L. Coppage, J.C. Moore, and E. Matthews|Diazinon:  Chronic Toxicity to, and Brain Acetylcholinesterase Inhibition in, the Sheepshead Minnow, Cyprinodon variegatus|Trans. Am. Fish. Soc.108(5): 479-488|1979|10.1577/1548-8659(1979)108<479:DR>2.0.CO;2
5605|A||Sastry,K.V., and P.K. Gupta|Alterations in the Activities of a Few Dehydrogenases in the Digestive System of Two Teleost Fishes Exposed to Lead Nitrate|Ecotoxicol. Environ. Saf.4(3): 232-239|1980|10.1016/0147-6513(80)90025-1
5606|A||Best,D.W.|Dursban Effective for Mosquito Control in Creek Bottoms and Duck Ponds|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.37:133-134|1969|
5607|A||Hejduk,J., and Z. Svobodova|Acute Toxicity of Carbamate-Based Pesticides for Fish|Acta Vet. Brno49(3/4): 251-257|1980|10.2754/avb198049030251
5608|A||Hill,M.W., E. Neale, and A.D. Bangham|Acute Tolerance to the Effects of n-Butanol and n-Hexanol in Goldfish|J. Comp. Physiol. A Sens. Neural Behav. Physiol.142(1): 61-65|1981|10.1007/BF00605476
5609|A||Hilmy,A.M., M.B. Shabana, and M.M. Saied|Blood Chemistry Levels After Acute and Chronic Exposure to HgCl2 in the Killifish Aphanus dispar (Rupp)|Water Air Soil Pollut.14:409-417|1980|10.1007/BF00291853
5610|A||Hiraoka,Y., H. Nakagawa, and S. Murachi|Blood Properties of Rainbow Trout in Acute Hepatotoxicity by Carbon Tetrachloride|Bull. Jpn. Soc. Fish. Sci.45(4): 527-532|1979|10.2331/suisan.45.527
5611|A||Johansson-Sjobeck,M.L., and A. Larsson|The Effect of Cadmium on the Hematology and on the Activity of Delta-Aminolevulinic Acid Dehydratase (ALA-D) in Blood and Hematopoietic Tissues of the flounder, Pleuronectes flesus L.|Environ. Res.17(2): 191-204|1978|10.1016/0013-9351(78)90021-X
5612|A||Serns,S.L.|Effects of Pro-noxfish on the Benthos and Zooplankton of Bug Lake, Forest County, Wisconsin|Water Resour. Bull.15(5): 1385-1393|1979|10.1111/j.1752-1688.1979.tb01137.x
5613|A||Alderson,R.|Effects of Low Concentrations of Free Chlorine on Eggs and Larvae of Plaice, Pleuronectes platessa L|Report No.FIR:MP/70/E-3,, Tech. Conf. Mar. Pollut. and Its Effects on Living Resources and Fish, Rome, Italy:8 p. |1970|
5614|A||Dutta,H.M., and J. Marcelino|Effects of Malathion on Kidney and Skin of Bluegill Fish, Lepomis macrochirus|J. Freshw. Biol.2(2): 77-88|1990|
5615|A||Kendall,M.W.|Acute Effects of Administration of Methyl Mercuric Chloride on Tissues and Enzyme Activity in Channel Catfish (Ictalurus punctatus)|Ph.D.Thesis, University of Louisville, Louisville, KY:101 p.|1972|
5616|A||Dhavale,D.M., V.B. Masurekar, and B.A. Giridhar|Cadmium Induced Inhibition of Na+/K+ ATPase Activity in Tissues of Crab Scyllaserrata (Forskal)|Bull. Environ. Contam. Toxicol.40(5): 759-763|1988|10.1007/BF01697527
5617|A||Gill,T.S., J.C. Pant, and J. Pant|Gill, Liver, and Kidney Lesions Associated with Experimental Exposures to Carbaryl and Dimethoate in the Fish (Puntius conchonius Ham.)|Bull. Environ. Contam. Toxicol.41(1): 71-78|1988|10.1007/BF01689061
5618|A||Woodward,D.F., and W.L. Mauck|Toxicity of Five Forest Insecticides to Cutthroat Trout and Two Species of Aquatic Invertebrates|Bull. Environ. Contam. Toxicol.25(6): 846-854|1980|10.1007/BF01985619
5619|A||Tsai,C.F., and J.A. McKee|Acute Toxicity to Goldfish of Mixtures of Chloramines, Copper, and Linear Alkylate Sulfonate|Trans. Am. Fish. Soc.109(1): 132-141|1980|10.1577/1548-8659(1980)109<132:ATTGOM>2.0.CO;2
5620|A||Armstrong,D.A.|Toxicity and Metabolism of Nitrogen Compounds: Effects on Survival, Growth and Osmoregulation of the Prawn, Macrobrachium rosenbergii|Ph.D. Thesis, University of California, Davis:92 p.|1978|
5621|A||Gillespie,R.B., P.C. Baumann, and C.T. Singley|Dietary Exposure of Bluegills (Lepomis macrochirus) to (75) Se: Uptake and Distribution in Organs and Tissues|Bull. Environ. Contam. Toxicol.40(5): 771-778|1988|10.1007/BF01697529
5622|A||Moles,A., S.D. Rice, and S. Korn|Sensitivity of Alaskan Freshwater and Anadromous Fishes to Prudhoe Bay Crude Oil and Benzene|Trans. Am. Fish. Soc.108(4): 408-414|1979|10.1577/1548-8659(1979)108<408:SOAFAA>2.0.CO;2
5623|A||Lawrence,J.M.|Research to Discover Means of Controlling and Destroying Certain Obnoxious Aquatic Plants by Means of Chemicals, and Their Toxicological Effects on|Final Rep., Contract #DA-01-076-CIVENG-60-215, Auburn Univ., Auburn, AL:121-|1962|
5624|A||Girija,M., and K.J. Rao|Histopathological Changes Induced by Heptachlor in Gills of a Freshwater Fish Tilapia mossambica|Environ. Ecol.3(1): 74-75|1985|
5625|A||Hollister,T.A., G.S. Ward, and P.R. Parrish|Acute Toxicity of a #6 Fuel Oil to Marine Organisms|Bull. Environ. Contam. Toxicol.24(5): 656-661|1980|10.1007/BF01608170
5626|A||Idler,D.R., G.L. Fletcher, and R.F. Addison|Effects of Yellow Phosphorus in the Canadian Environment|Natl.Res.Council Canada, NRCC #17587, Ottawa, Canada:110-|1981|
5627|A||Qureshi,S.A., and A.B. Saksena|The Acute Toxicity of Some Heavy Metals to Tilapia mossambica (Peters)|Aqua Sci. Tech. Reviews (India)1:19-20|1980|
5628|A||Amiard,J.C.|Phototactic Variations in Crustacean Larvae due to Diverse Metallic Pollutants Demonstrated by a Sublethal Toxicity Test|Mar. Biol.34(3): 239-245|1976|10.1007/BF00388801
5629|A||Kumari,S.D.R., and N.B. Nair|Toxicity of Some Insecticides to Lepidocephalus thermalis (Cuv. & Val.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.44(3): 122-132|1978|
5631|A||Neilson,A.H., A.S. Allard, S. Fischer, M. Malmberg, and T. Viktor|Incorporation of a Subacute Test with Zebra Fish into a Hierarchical System for Evaluating the Effect of Toxicants in the Aquatic Environment|Ecotoxicol. Environ. Saf.20(1): 82-97|1990|10.1016/0147-6513(90)90048-A
5632|A||Haya,K., B.A. Waiwood, and D.W. Johnston|Adenylate Energy Charge and ATPase Activity of Lobster (Homarus americanus) During Sublethal Exposure to Zinc|Aquat. Toxicol.3(2): 115-126|1983|10.1016/0166-445X(83)90033-4
5633|A||Shaffi,S.|Thiodon Toxicity:  Non-Specific Phosphomonoesterases in Nine Freshwater Teleosts|Toxicol. Lett.6(6): 339-347|1980|10.1016/0378-4274(80)90104-6
5634|A||Sharp,J.R., and J.M. Neff|Effects of the Duration of Exposure to Mercuric Chloride on the Embryogenesis of the Estuarine Teleost, Fundulus heteroclitus|Mar. Environ. Res.3(3): 195-213|1980|10.1016/0141-1136(80)90027-6
5635|A||Harrison,F.L., K. Watness, D.A. Nelson, J.E. Miller, and A. Calabrese|Mercury-Binding Proteins in the Slipper Limpet, Crepidula fornicata, Exposed to Increased Soluble Mercury|Estuaries10(1): 78-83|1987|10.2307/1352028
5636|A||Singh,S.P., and N.K. Yadav|Toxicity of Some Herbicides to Major Carp Fingerlings|Indian J. Ecol.5(2): 141-147|1978|
5637|A||Webb,D.W.|The Effects of Toxaphene Piscicide on Benthic Macroinvertebrates|J. Kans. Entomol. Soc.53(4): 731-744|1980|
5639|A|OECDG|Skibba,W.D.|The Trout Test with Salmo gairdneri Rich. for Determining the Acute Toxicity of Aggressive Substances as Well as Measurement Results for Sodium Cyanide, a Cyanidic Copper Electrolyte and Azaplant|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(1): 3-15|1981|10.1002/aheh.19810090102
5640|A||Srivastava,A.K., and S. Mishra|Blood Dyscrasia in a Teleost, Colisa fasciatus After Acute Exposure to Sublethal Concentrations of Lead|J. Fish Biol.14(2): 199-203|1979|10.1111/j.1095-8649.1979.tb03511.x
5642|A||Barton,B.A.|Time-Dose Responses of Juvenile Rainbow Trout to 2-Phenoxyethanol|Prog. Fish-Cult.32(4): 223-|1981|10.1577/1548-8659(1981)43[223:TROJRT]2.0.CO;2
5644|A||Goodnight,C.J.|Toxicity of Sodium Pentachlorophenate and Pentachlorophenol to Fish|J. Ind. Eng. Chem.34:868-872|1942|10.1021/ie50391a022
5645|A||Woodward,D.F., and F.L.,Jr. Mayer|Toxicity of Three Herbicides (Butyl, Isooctyl, and Propylene Glycol Butyl Ether Esters of 2,4-D) to Cutthroat Trout and Lake Trout|In: Tech.Pap.No.97, Bur.Sport Fish.Wildl., Fish Wildl.Serv., USDI, Washington, DC:1-6|1978|
5646|A||Zeitoun,I.H.|The Recovery and Hematological Rehabilitation of Chlorine Stressed Adult Rainbow Trout (Salmo gairdneri)|Environ. Biol. Fishes3(4): 355-359|1978|10.1007/BF00000527
5647|A||Anderson,A.C., A.A. Abdelghani, P.M. Smith, J.W. Mason, and A.J.,Jr. Englande|The Acute Toxicity of MSMA to Black Bass (Micropterus dolomieu), Crayfish (Procambarus sp.) and Channel Catfish (Ictalurus lacustris)|Bull. Environ. Contam. Toxicol.14(3): 330-333|1975|10.1007/BF01685646
5648|A||Anees,M.A.|Acute Toxicity of Four Organophosphorus Insecticides to a Freshwater Teleost Channa punctatus (Bloch)|Pak. J. Zool.7(2): 135-141|1975|
5649|A||Basak,P.K., and S.K. Konar|Toxicity of Six Insecticides to Fish|Geobios3(6): 209-210|1976|
5650|A||Bills,T.D., and L.L. Marking|Toxicity of 3-Trifluoromethyl-4-Nitrophenol (TFM), 2'5-Dichloro-4'-Nitrosalicylanilide (Bayer 73), and a 98:2 Mixture to Fingerlings of Seven Fish|Invest.Fish Control No.69, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, DC:9 p.|1976|
5651|A||Hatakeyama,S.|Effects of Heavy Metals Cadmium, Copper, and Zinc on Some Aquatic Organisms Through the Food Chain|C. A. Sel. Environ. Pollut.22:105-|1986|
5652|A||Brooks,A.S., and G.L. Seegert|The Effects of Intermittent Chlorination on Rainbow Trout and Yellow Perch|Trans. Am. Fish. Soc.106(3): 278-286|1977|10.1577/1548-8659(1977)106<278:TEOICO>2.0.CO;2
5653|A||Heming,T.A., E.J. McGuinness, L.M. George, and K.A. Blumhagen|Effects of Pulsed- and Spiked-Exposure to Methoxychlor on Early Life Stages of Rainbow Trout|Bull. Environ. Contam. Toxicol.40(5): 764-770|1988|10.1007/BF01697528
5654|A||Canton,J.H., and W. Slooff|The Usefulness of Lymnaea stagnalis L. as a Biological Indicator in Toxicological Bio-Assays (Model Substance alpha-HCH)|Water Res.11(1): 117-121|1977|10.1016/0043-1354(77)90192-0
5655|A||Khan,A.T., and J.S. Weis|Toxic Effects of Mercuric Chloride on Sperm and Egg Viability of Two Populations of Mummichog, Fundulus heteroclitus|Environ. Pollut.48:263-273|1987|10.1016/0269-7491(87)90107-2
5656|A||Ali,A., and B.H. Stanley|Effects of a New Insect Growth Regulator, UC-62644, on Target Chironomidae and Some Nontarget Aquatic Invertebrates|Mosq. News41(4): 692-701|1981|
5657|A||Gacutan,R.Q., and A.T. Llobrera|Effects of Furanace on the Zoeae and Mysis of Penaeus monodon|Kalikasan6(3): 263-268|1977|
5658|A||Ozoh,P.T.E., and N.V. Jones|Capacity Adaptation of Hediste (Nereis) diversicolor Embryogenesis to Salinity, Temperature and Copper|Mar. Environ. Res.29(3): 227-243|1990|10.1016/0141-1136(90)90035-M
5659|A||Sicko-Goad,L., D. Lazinsky, J. Hall, and M.S. Simmons|Effects of Chlorinated Benzenes on Diatom Fatty Acid Composition and Quantitative Morphology. I. 1,2,4-Trichlorobenzene|Arch. Environ. Contam. Toxicol.18(5): 629-637|1989|10.1007/BF01225001
5660|A||Gradoni,L., S. Bettini, and G. Majori|Toxicity of Altosid to the Crustacean, Gammarus aequicauda|Mosq. News36(3): 294-297|1976|
5662|A||Hansen,D.J., L.R. Goodman, and A.J.,Jr. Wilson|Kepone: Chronic Effects on Embryo, Fry, Juvenile and Adult Sheepshead Minnows (Cyprinodon variegatus)|Chesapeake Sci.18(2): 227-232|1977|10.2307/1350865
5663|A||Heath,A.G.|Toxicity of Intermittent Chlorination to Freshwater Fish:  Influence of Temperature and Chlorine Form|Hydrobiologia (Multiple Languages)56(1): 39-47|1977|10.1007/BF00023284
5664|A||Heinle,D.R., and M.S. Beaven|Effects of Chlorine on the Copepod Acartia tonsa|Chesapeake Sci.18(1): 140-|1977|10.2307/1350385
5665|A||Johnson,A.G., T.D. Williams, and C.R. Arnold|Chlorine-Induced Mortality of Eggs and Larvae of Spotted Seatrout (Cynoscion nebulosus)|Trans. Am. Fish. Soc.106(5): 466-469|1977|10.1577/1548-8659(1977)106<466:CMOEAL>2.0.CO;2
5666|A||Larson,G.L., F.E. Hutchins, and D.A. Schlesinger|Acute Toxicity of Inorganic Chloramines to Early Life Stages of Brook Trout (Salvelinus fontinalis)|J. Fish Biol.11:595-598|1977|10.1111/j.1095-8649.1977.tb05716.x
5667|A||Larson,G.L., F.E. Hutchins, and L.P. Lamperti|Laboratory Determination of Acute and Sublethal Toxicities of Inorganic Chloramines to Early Life Stages of Coho Salmon (Oncorhynchus kisutch)|Trans. Am. Fish. Soc.106(3): 268-277|1977|10.1577/1548-8659(1977)106<268:LDOAAS>2.0.CO;2
5668|A||Creed,I.F., M. Havas, and C.G. Trick|Effects of Arsenate on Growth of Nitrogen- and Phosphorus-Limited Chlorella vulgaris (Chlorophyceae) Isolates|J. Phycol.26(4): 641-650|1990|10.1111/j.0022-3646.1990.00641.x
5669|A||Holwerda,D.A., J. Hemelraad, P.R. Veenhof, and D.I. Zandee|Cadmium Accumulation and Depuration in Anodonta anatina Exposed to Cadmium Chloride or Cadmium-EDTA Complex|Bull. Environ. Contam. Toxicol.40(3): 373-380|1988|10.1007/BF01689094
5670|A||Armstrong,D.A., and R.E. Millemann|Pathology of Acute Poisoning with the Insecticide Sevin in the Bent-Nosed Clam, Macoma nasuta|J. Invertebr. Pathol.24(2): 201-212|1974|10.1016/0022-2011(74)90012-3
5671|A||Liu,D.H.W., R.J. Spanggord, H.C. Bailey, G.W.,Jr. Newell, G. Pearson, and M.C. Warner|Acute Toxicity of TNT Wastewater Components to the Fathead Minnow (Pimephales promelas)|In: R.G.Burford (Ed.), Symposium: Int.Congress on Toxicology, Toronto, Ontario, Canada:527 p.|1977|
5672|A||Armstrong,D.A., D.V. Buchanan, M.H. Mallon, R.S. Caldwell, and R.E. Millemann|Toxicity of the Insecticide Methoxychlor to the Dungeness Crab Cancer magister|Mar. Biol.38:239-252|1976|10.1007/BF00388937
5673|A||Bakke,T., and H.R. Skjoldal|Effects of Toluene on the Survival, Respiration, and Adenylate System of a Marine Isopod|Mar. Pollut. Bull.10(4): 111-115|1979|10.1016/0025-326X(79)90103-6
5674|A||De Vries,H., A.H. Penninks, N.J. Snoeij, and W. Seinen|Comparative Toxicity of Organotin Compounds to Rainbow Trout (Oncorhynchus mykiss) Yolk Sac Fry|Sci. Total Environ.103(2-3): 229-243|1991|10.1016/0048-9697(91)90148-8
5675|A||Hermens,J., H. Canton, N. Steyger, and R. Wegman|Joint Effects of a Mixture of 14 Chemicals on Mortality and Inhibition of Reproduction of Daphnia magna|Aquat. Toxicol.5(4): 315-322|1984|10.1016/0166-445X(84)90012-2
5676|A||Middaugh,D.P., J.A. Couch, and A.M. Crane|Responses of Early Life History Stages of the Striped Bass, Morone saxatilis to Chlorination|Chesapeake Sci.18(1): 141-153|1977|10.2307/1350386
5677|A||Morgan II,R.P., and R.D. Prince|Chlorine Toxicity to Eggs and Larvae of Five Chesapeake Bay Fishes|Trans. Am. Fish. Soc.106(4): 380-385|1977|10.1577/1548-8659(1977)106<380:CTTEAL>2.0.CO;2
5678|A||Mulla,M.S., H.A. Navvab-Gojrati, and H.A. Darwazeh|Biological Activity and Longevity of New Synthetic Pyrethroids Against Mosquitoes and Some Nontarget Insects|Mosq. News38(1): 90-96|1978|
5679|A||Oikari,A., J. Kukkonen, and V. Virtanen|Acute Toxicity of Chemicals to Daphnia magna in Humic Waters|Sci. Total Environ.117/118:367-377|1992|10.1016/0048-9697(92)90103-Y
5680|A||Kasai,F.|Shifts in Herbicide Tolerance in Paddy Field Periphyton Following Herbicide Application|Chemosphere38(4): 919-931|1999|10.1016/S0045-6535(98)00221-5
5681|A||Roseboom,D.P., and D.L. Richey|Acute Toxicity of Residual Chlorine on Bluegill and Channel Catfish in Illinois|Trans. Ill. State Acad. Sci.69(4): 385-398|1977|
5682|A||Stephenson,M.|A Field Bioassay Approach to Determining Tributyltin Toxicity to Oysters in California|Mar. Environ. Res.32(1-4): 51-59|1991|10.1016/0141-1136(91)90033-5
5683|A||Academy of Natural Sciences|The Sensitivity of Aquatic Life to Certain Chemicals Commonly Found in Industrial Wastes|Final Report No.RG-3965(C2R1), U.S. Public Health Service Grant, Academy of Natural Sciences, Philadelphia, PA:89 p.|1960|
5684|A||Seegert,G.L., and A.S. Brooks|The Effects of Intermittent Chlorination on Coho Salmon, Alewife, Spottail Shiner, and Rainbow Smelt|Trans. Am. Fish. Soc.107(2): 346-353|1978|10.1577/1548-8659(1978)107<346:TEOICO>2.0.CO;2
5685|A||Smith,L.L.J., D.M. Oseid, G.L. Kimball, and S.M. El-Kandelgy|Toxicity of Hydrogen Sulfide to Various Life History Stages of Bluegill (Lepomis macrochirus)|Trans. Am. Fish. Soc.105(3): 442-449|1976|10.1577/1548-8659(1976)105<442:TOHSTV>2.0.CO;2
5687|A||Tsai,S.C.|Control of Chironomids in Milkfish (Chanos chanos) Ponds with Abate (Temephos) Insecticide|Trans. Am. Fish. Soc.107(3): 493-499|1978|10.1577/1548-8659(1978)107<493:COCIMC>2.0.CO;2
5688|A||Vaughn,R.E., and B.A. Simco|Effects of Ammonia on Channel Catfish, Ictalurus punctatus|ASB Bull.24(2): 92|1977|
5689|A||Verma,S.R., S.K. Bansal, and R.C. Dalela|Bioassay Trials with a Few Organic Biocides on Fresh Water Fish Lobeo rohita|Indian J. Environ. Health19(2): 107-115|1977|
5690|A||Vigers,G.A., and A.W. Maynard|The Residual Oxygen Bioassay:  A Rapid Procedure to Predict Effluent Toxicity to Rainbow Trout|Water Res.11(4): 343-346|1977|10.1016/0043-1354(77)90019-7
5691|A||Benedeczky,I., J. Nemcsok, and K. Halasy|Electronmicroscopic Analysis of the Cytopathological Effect of Pesticides in the Liver, Kidney and Gill Tissues of Carp|Acta Biol. Szeged.32(1-4): 69-92|1986|
5692|A||Berry,C.R.,Jr.|The Effects of Herbicide Treatment on a Reservoir Ecosystem|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:212 p.|1976|
5693|A||Wells,P.G., and J.B. Sprague|Effects of Crude Oil on American Lobster (Homarus americanus) Larvae in the Laboratory|J. Fish. Res. Board Can.33(7): 1604-1614|1976|10.1139/f76-200
5695|A||Bharathi,C., G.K. Murthy, and K. Pardhasaradhi|Toxicity of Mercuric Chloride to the Pelecypod Donax cuneata|Environ. Ecol.5(2): 391-392|1987|
5697|A|OECDG|Schultz,T.W.|Aquatic Toxicology of Nitrogen Heterocyclic Molecules: Quantitative Structure Activity Relationships|Dep.Animal Sci., College of Veterinary Medicine, Univ.of Tennessee, Knoxville, TN:38 p.|1982|
5698|A||Nunes,P., and P.E.,Jr. Benville|Acute Toxicity of the Water-Soluble Fraction of Cook Inlet Crude Oil to the Manila Clam|Mar. Pollut. Bull.9(12): 324-331|1978|10.1016/0025-326X(78)90242-4
5700|A||Berry,W.O., and J.D. Brammer|Toxicity of Water-Soluble Gasoline Fractions to Fourth-Instar Larvae of the Mosquito, Aedes aegypti L.|Environ. Pollut.13(3): 229-234|1977|
5702|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Endosulfan and Diazinon Toxicity to the Freshwater Rotifer Brachionus calyciflorus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(2): 155-164|1992|
5703|A||Roncero,V., E. Duran, F. Soler, J. Masot, and L. Gomez|Morphometric, Structural, and Ultrastructural Studies of Tench (Tinca tinca L.) Hepatocytes After Copper Sulfate Administration|Environ. Res.57(1): 45-58|1992|10.1016/S0013-9351(05)80018-0
5704|A||Arillo,A., B. Uva, and M. Vallarino|Renin Activity in Rainbow Trout (Salmo gairdneri Rich.) and Effects of Environmental Ammonia|Comp. Biochem. Physiol. A Comp. Physiol.68(3): 307-311|1981|10.1016/0300-9629(81)90056-6
5705|A||Arillo,A., R. Mantovani, C. Margiocco, F. Melodia, and P. Mensi|Effects of Exposure to high Environmental pH and to Sublethal Ammonia Concentrations on Liver Carbohydrates in Salmo gairdneri|Mem. Ist. Ital. Idrobiol. Dott Marco de Marchi37:51-61|1979|
5707|A||Narbonne,J.F., J.E. Djomo, D. Ribera, V. Ferrier, and P. Garrigues|Accumulation Kinetics of Polycyclic Aromatic Hydrocarbons Adsorbed to Sediment by the Mollusk Corbicula fluminea|Ecotoxicol. Environ. Saf.42(1): 1-8|1999|10.1006/eesa.1998.1701
5708|A||Gyore,K., and J. Olah|Ammonia Tolerance of Moina rectirostris Leydig (Cladocera)|Aquac. Hung. (Szarvas)2:50-54|1980|
5709|A||Begum,S.J.|Changes in Phosphorylase System of Fish During Ammonia Stress|Environ. Ecol.5(3): 517-519|1987|
5710|A||Kumar,S.A.|Effect of Endosulfan on Oxygen Consumption of Lepidocephalicthys thermalis Bleeker|Comp. Physiol. Ecol.13(4): 191-194|1988|
5711|A||Goerke,H., and K. Weber|Population-Dependent Elimination of Various Polychlorinated Biphenyls in Nereis diversicolor (Polychaeta)|Mar. Environ. Res.29(3): 205-226|1990|10.1016/0141-1136(90)90034-L
5712|A||Buckley,J.A., C.M. Whitmore, and B.D. Liming|Effects of Prolonged Exposure to Ammonia on the Blood and Liver Glycogen of Coho Salmon (Oncorhynchus kisutch)|Comp. Biochem. Physiol. C Comp. Pharmacol.63(2): 297-303|1979|10.1016/0306-4492(79)90077-7
5713|AT||American Chemical Society|Chemical Abstracts Services Registry Handbook|Am.Chem.Soc., Columbus, OH:|1965|
5714|A||Goldman,J.C., and J.H. Ryther|Combined Toxicity Effects of Chlorine, Ammonia, and Temperature on Marine Plankton|U.S.Energy Research and Development Admin.:53 p.|1976|
5716|AT||Hartley,D., and H. Kidd|Agrochemicals Handbook|Royal Society of Chemistry, The University of Nottingham, Unwin Brothers Limited, Old Woking Surry, UK:|1983|
5717|A||Bradley,B.P.|Comparison of Residual Biotoxicity of Chlorine and Bromine Chloride to Copepods|Tech.Rep.No.47, Water Resour.Res.Center, Maryland Univ., College Park, MD:15 p.|1977|
5718|A|OECDG|Bringmann,G., and R. Kuhn|Results of the Damaging Effect of Water Pollutants on Daphnia magna (Befunde der Schadwirkung Wassergefahrdender Stoffe Gegen Daphnia magna)|TR-79-1204, Literature Research Company, Annandale, VA:26 p.|1977|
5719|A|OECDG|Bringmann,G., R. Kuhn, and A. Winter|Determination of the Biological Effect of Water Pollutants in Protozoa.  III.  Saprozoic Flagellates (Bestimmung der Biologischen Schadwirkung Wassergefahrdender Stoffe Gegen Protozoen III.  Saprozoische Flagellaten)|Z. Wasser-Abwasser-Forsch. (Multiple Languages)13(5): 170-173|1980|
5720|A||British,Columbia Research|Avoidance Reactions of Salmonids to Pulpmill Effluents|Environ.Can., Environ.Prot.Serv., Coop.Pollut.Abatement Res., CPAR Project Rep.688-1:36 p.|1978|
5722|A||Brown,K.W., D.C. Anderson, S.G. Jones, L.E. Deuel, and J.D. Price|The Relative Toxicity of Four Pesticides in Tap Water and Water From Flooded Rice Paddies|Int. J. Environ. Stud.14(1): 49-53|1979|10.1080/00207237908737374
5723|AT||Wiswesser,W.J.|Pesticide Index|Entomological Society of America, 5th Edition, College Park, MD:328 p.|1976|
5724|A||Caldwell,R.S., D.V. Buchanan, D.A. Armstrong, M.H. Mallon, and R.E. Millemann|Toxicity of the Herbicides 2,4-D, DEF, Propanil and Trifluralin to the Dungeness Crab, Cancer magister|Arch. Environ. Contam. Toxicol.8(4): 383-396|1979|10.1007/BF01056345
5725|A||Capuzzo,J.M.|The Effect of Temperature on the Toxicity of Chlorinated Cooling Waters to Marine Animals - A Preliminary Review|Mar. Pollut. Bull.10(2): 45-47|1979|10.1016/0025-326X(79)90267-4
5726|A||Cardwell,R.D., C.E. Woelke, M.I. Carr, and E. Sanborn|Variation in Toxicity Tests of Bivalve Mollusc Larvae as a Function of Termination Technique|Bull. Environ. Contam. Toxicol.20(1): 128-134|1978|10.1007/BF01683496
5727|A||Power,F.M.|Preliminary Assessment of the Toxicity of the Corrosion Inhibitor Alfloc 8339 to Three Intertidal Benthic Marine Invertebrates|Tech.Rep.No.82-2, Taranaki Catchment Commission and Water Board, Stratford, New Zealand:42 p.|1982|
5728|AT||Budavari,S.|Merck Index, 11th Edition|Merck & Co., Inc., Rahway, NJ:|1989|
5729|A||Christensen,E.R., J. Scherfig, and P.S. Dixon|Effects of Manganese, Copper and Lead on Selenastrum capricornutum and Chlorella stigmatophora|Water Res.13(1): 79-92|1979|10.1016/0043-1354(79)90258-6
5730|A||Misra,S.K., and S.C. Behera|Evaluation of Toxic Effects of Mercuric Chloride on Hematological Parameters of a Freshwater Fish Channa punctatus (Bloch)|Environ. Ecol.10(2): 394-396|1992|
5731|A||Cliburn,J.W.,Jr.|Short Term Toxicities of Pentachlorophenol for Fingerling Catfish|J. Miss. Acad. Sci.19:180-181|1975|
5732|A||Connor,P.M.|Acute Toxicity of Heavy Metals to Some Marine Larvae|Mar. Pollut. Bull.3(12): 190-192|1972|10.1016/0025-326X(72)90268-8
5733|A||Crecelius,E.A.|Measurements of Oxidants in Ozonized Seawater and Some Biological Reactions|J. Fish. Res. Board Can.36(8): 1006-1008|1979|10.1139/f79-139
5734|A||Knothe,D.W., and G.G. Van Riper|Acute Toxicity of Sodium Molybdate Dihydrate (Molyhibit 100) to Selected Saltwater Organisms|Bull. Environ. Contam. Toxicol.40(5): 785-790|1988|10.1007/BF01697531
5735|A||Curtis,M.W., T.L. Copeland, and C.H. Ward|Aquatic Toxicity of Substances Proposed for Spill Prevention Regulation|In: Proc. Natl. Conf. Control of Hazardous Material Spills, Miami Beach, FL:99-103|1978|
5736|A||Dalela,R.C., S.R. Verma, and M.C. Bhatnagar|Biocides in Relation to Water Pollution. Part I: Bioassay Studies on the Effects of a Few Biocides on Fresh Water Fish, Channa gachua|Acta Hydrochim. Hydrobiol. (Multiple Languages)6(1): 15-25|1978|10.1002/aheh.19780060103
5737|A||Przytocka-Jusiak,M.|Growth and Survival of Chlorella vulgaris in high Concentrations of Nitrogen|Acta Microbiol. Pol.25(3): 287-289|1976|
5738|A||Kosakowska,A., L. Falkowski, and J. Lewandowska|Effect of Amino Acids on the Toxicity of Heavy Metals to Phytoplankton|Bull. Environ. Contam. Toxicol.40(4): 532-538|1988|10.1007/BF01688377
5739|AT||Wauchope,R.D., T.M. Butler, A.G. Hornsby, P.W.M. Augustijn-Beckers, and J.P. Burt|The SCS/ARS/CES Pesticide Properties Database for Environmental Decision-Making|Rev. Environ. Contam. Toxicol.123:164-|1992|
5740|AT||MacGregor,J.T., L.L. Layton, and R.G. Buttery|California Bay Oil.  II. Biological Effects of Constituents|J. Agric. Food Chem.22(5): 777-780|1974|10.1021/jf60195a025
5741|A||Dill,D.C., W.M. McCarty, H.C. Alexander, and E.A. Bartlett|Toxicity of 1,1-Dichloroethylene (Vinylidene Chloride) to Aquatic Organisms|EPA-600/3-80-057, U.S.EPA, Duluth, MN:17 p.|1980|
5742|A||Do'Icheva,L.|Analytical Determination of Lethal Concentrations of the Herbicide Lasagrin (Alachlor) Under Acute Experimental Poisoning of One Year Old Carp|Khidrobiologiia9:33-37|1979|
5743|A||Dolan III,J.M., B.C. Gregg, J.,Jr. Cairns, K.L. Dickson, and A.C. Hendricks|The Acute Toxicity of Three new Surfactant Mixtures to a Mayfly Larvae|Arch. Hydrobiol.74(1): 123-132|1974|
5744|A||Draper III,A.C., and J.W. Fisher|The Effects of Selected Aquatic Sediments on the Acute Toxicity of N-Nitrosdimethylamine to Gammarus limnaeus|Tech.Rep.AMRL-TR-79-94, Aerospace Med.Res.Lab., Wright-Patterson Air Force Base, OH:10 p.|1980|
5745|A||Lydy,M.J., and T.E. Wissing|Effect of Sublethal Concentrations of Copper on the Critical Thermal Maxima (CTMax) of the Fantail (Etheostoma flabellare) and Johnny (E. nigrum)|Aquat. Toxicol.12(4): 311-322|1988|10.1016/0166-445X(88)90059-8
5746|A||Eisler,R.|Acute Toxicities of Crude Oils and Oil-Dispersant Mixtures to Red Sea Fishes and Invertebrates|Isr. J. Zool.24(1-2): 16-27|1975|
5747|A||Eisler,R., G.R. Gardner, R.J. Hennekey, G. Laroche, D.F. Walsh, and P.P. Yevich|Acute Toxicology of Sodium Nitrilotriacetic Acid (NTA) and NTA-Containing Detergents to Marine Organisms|Water Res.6(9): 1009-1027|1972|10.1016/0043-1354(72)90054-1
5748|A||Eversole,A.G.|Effects of Water-Borne Mirex on the Survival and Production of Macrobrachium rosenbergii (De Man)|Tech.Rep.No.88, Water Resourc.Res.Inst., Clemson Univ., S.C., Office Water Resour.Technol.U.S.D.I., Washington, D.C:54 p.|1980|
5749|A||Amend,D.F.|Comparative Toxicity of Two Iodophors to Rainbow Trout Eggs|Trans. Am. Fish. Soc.103(1): 73-78|1974|10.1577/1548-8659(1974)103<73:CTOTIT>2.0.CO;2
5750|A||Feron,J.P., and H.R. Hitz|Measurement of the Uptake of a 14C-Labelled Fluorescent Whitening Agent by Fish from Water and Through a Model Food Chain|Environ. Qual. Saf. Suppl.4:157-164|1975|
5751|A||Fisher,J.W., D.S. Myers, and M.L. Meyers|The Effects of Selected Hydrazines upon Fish and Invertebrates|AMRL-TR-79-93, Tech.Rep.Aerosp.Med.Res.Lab., Wright-Patterson Air Force Base, OH:25 p.|1980|
5752|A||Folmar,L.C., H.O. Sanders, and A.M. Julin|Toxicity of the Herbicide Glyphosate and Several of Its Formulations to Fish and Aquatic Invertebrates|Arch. Environ. Contam. Toxicol.8(3): 269-278|1979|10.1007/BF01056243
5753|A||Fremling,C.R.|Acute Toxicity of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) to Nymphs of Mayflies (Hexagenia sp.)|Invest.Fish Control No.58, Fish Wildl.Service, Bur.Sport Fish.Wildl., USDI, Washington, DC:8 p.|1975|
5754|A||Laughlin,R.B.,Jr., J.M. Neff, Y.C. Hrung, T.C. Goodwin, and C.S. Giam|The Effects of Three Phthalate Esters on the Larval Development of the Grass Shrimp Palaemonetes pugio (Holthuis)|Water Air Soil Pollut.9(3): 323-336|1978|10.1007/BF00280681
5755|A||Gafa,S.|Studies on Relationship Between Acute Toxicity to Fish and Surface Activity of Anionic Surfactants (Studi Sulla Relazione tra Ittiotossicita' Acuta e Attivita' Superficiale di Tensioattivi Anionici) |Riv. Ital. Sostanze Grasse51(6): 183-192|1974|
5756|A||Harrison,S.E., and P.J. Curtis|Comparative Accumulation Efficiency of 109Cadmium from Natural Food (Hyalella azteca) and Artificial Diet by Rainbow Trout (Oncorhynchus mykiss)|Bull. Environ. Contam. Toxicol.49(5): 757-764|1992|10.1007/BF00200791
5757|A||Maas-Diepeveen,J.L., and C.J. Van Leeuwen|Toxicity of Methylenebisthiocyanate (MBT) to Several Freshwater Organisms|Bull. Environ. Contam. Toxicol.40(4): 517-524|1988|10.1007/BF01688375
5758|A||Gupta,M., and S. Devi|Cadmium Sensitivity Inducing Structural Responses in Salvinia molesta Mitchell|Bull. Environ. Contam. Toxicol.49(3): 436-443|1992|10.1007/BF01239649
5759|A||Hall,L.W.,Jr., A.L. Buikema, and J.,Jr. Cairns|The Effects of a Simulated Refinery Effluent on the Grass Shrimp, Palaemonetes pugio|Arch. Environ. Contam. Toxicol.7(1): 23-35|1978|10.1007/BF02332035
5760|A||Cherry,D.S., S.R. Larrick, J.D. Giattina, K.L. Dickson, and J.,Jr. Cairns|Avoidance and Toxicity Responses of Fish to Intermittent Chlorination|Environ. Int.2(2): 85-90|1979|10.1016/0160-4120(79)90046-1
5761|A||Hashimoto,Y., and Y. Nishiuchi|Establishment of Bioassay Methods for the Evaluation of Acute Toxicity of Pesticides to Aquatic Organisms|J. Pestic. Sci. (Multiple Languages)6(2): 257-264|1981|10.1584/jpestics.6.257
5762|A||Devlin,E.W., and N.K. Mottet|Embryotoxic Action of Methyl Mercury on Coho Salmon Embryos|Bull. Environ. Contam. Toxicol.49(3): 449-454|1992|10.1007/BF01239651
5763|A||Sreenivasan,A., and R.S. Raj|Toxicity of Malathion and Parathion to Fish|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:316-318|1964|
5764|A||Hazel,R.H., C.E. Burkhead, and D.G. Huggins|The Development of Water Quality Criteria for Ammonia and Total Residual Chlorine for the Protection of Aquatic Life in Two Johnson County, Kansas Streams|Kans.Water Resour.Res.Inst.Project Comp.Report for July 1977 to Sept.1979.Office of Water Res.and Technol., U.S.Dep.of the Interior, Washington D.C.:146 p.|1979|
5765|A||Bass,M.L., and A.G. Heath|Toxicity of Intermittent Chlorination to Bluegill, Lepomis macrochirus: Interaction with Temperature|Bull. Environ. Contam. Toxicol.17(4): 416-423|1977|10.1007/BF01685933
5766|A||Mani,V.G.T., and S.K. Konar|Influence of the Organophosphorus Insecticide Malathion on Aquatic Ecosystem|Aquat. Sci. Fish. Abstr.16(4): 7154-1Q16|1986|
5767|A||Hirose,K., M. Yamazaki, and A. Ishikawa|Effects of Water Temperature on Median Lethal Concentrations (LC50) of a Few Pesticides to Seawater Teleosts|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)98:45-53|1979|
5768|A||Holdway,D.A., and J.B. Sprague|Chronic Toxicity of Vanadium to Flagfish|Water Res.13(9): 905-910|1979|10.1016/0043-1354(79)90226-4
5769|A||Canton,J.H., P.A. Greve, and W. Stooff|A Laboratory Model System for the Study of the Accumulation of Chemicals in the Aquatic Food Chain, Exemplified on alpha-Hexachlorocyclohexane|In: Proc. Int. Symp. , Recent Advances in the Assessment of the Health Effects of Environmental Pollution, Commission of the European Communities, Luxembourg:1479-1489|1975|
5770|A||Rippon,G.D., and R.V. Hyne|Purple Spotted Gudgeon: Its Use as a Standard Toxicity Test Animal in Tropical Northern Australia|Bull. Environ. Contam. Toxicol.49(3): 471-476|1992|10.1007/BF01239654
5771|A||Orstan,A.|Toxicity of Acrylamide Derivatives to Embryos of the Rotifer Adineta vaga|Bull. Environ. Contam. Toxicol.48(6): 901-906|1992|10.1007/BF00201152
5772|A||Ramana,Y.V., A.K. Pandey, and S. Singh|Dimethoate Toxicity to Gestational Embryonic Ovary of a Live Bearing Fish, Lebistes reticulatus|Bull. Environ. Contam. Toxicol.48(6): 907-913|1992|10.1007/BF00201153
5773|A||Jensen,R.A.|A Simplified Bioassay Using Finfish for Estimating Potential Spill Damage|In: Proc. Control of Hazardous Material Spills, Rockville, MD:104-108|1978|
5774|A||Kuroshima,R.|Cadmium Accumulation and its Effect on Calcium Metabolism in the Girella girella punctata during a Long Term Exposure|Nippon Suisan Gakkaishi (Multiple Languages)53(3): 445-450|1987|10.2331/suisan.53.445
5775|A||Kaila,K., and J. Saarikoski|Toxicity of Pentachlorophenol and 2,3,6-Trichlorophenol to the Crayfish (Astacus fluviatilis L.)|Environ. Pollut.12(2): 119-123|1977|
5776|A||Kawatski,J.A., M.M. Ledvina, and C.R.,Jr. Hansen|Acute Toxicities of 3-Trifluoromethyl-4-Nitrophenol (TFM) and 2',5-Dichloro-4'-Nitrosallicylanilide (Bayer 73) to Larvae of the Midge (Chironomus tentans)|Invest.Fish Control No.57, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:5 p.|1975|
5777|A||Burkhalter,D.E., and C.M. Kaya|Effects of Prolonged Exposure to Ammonia on Fertilized Eggs and Sac Fry of Rainbow Trout (Salmo gairdneri)|Trans. Am. Fish. Soc.106(5): 470-475|1977|10.1577/1548-8659(1977)106<470:EOPETA>2.0.CO;2
5778|A||Kendall,M.W.|Acute Effects of Methyl Mercury Toxicity in Channel Catfish (Ictalurus punctatus) Kidney|Bull. Environ. Contam. Toxicol.13(5): 570-578|1975|10.1007/BF01685181
5779|A||McCall,P.J., D.A. Laskowski, and H.D. Bidlack|Simulation of the Aquatic Fate of Triclopyr Butoxyethyl Ester and its Predicted Effects on Coho Salmon|Environ. Toxicol. Chem.7(7): 517-527|1988|10.1002/etc.5620070701
5780|A||Satyakala,G., and K. Jamil|Chromium-Induced Biochemical Changes in Eichhornia crassipes (Mart) Solms and Pistia stratiotes L|Bull. Environ. Contam. Toxicol.48(6): 921-928|1992|10.1007/BF00201155
5782|A||Dutta,H.M., J.V.V. Dogra, N.K. Singh, P.K. Roy, S.S.T. Nasar, S. Adhikari, J.S.D. Munshi, and C. Richmonds|Malathion Induced Changes in the Serum Proteins and Hematological Parameters of an Indian Catfish Heteropneustes fossilis (Bloch)|Bull. Environ. Contam. Toxicol.49(1): 91-97|1992|10.1007/BF00193346
5783|A||Koundinya,P.R., and R.R. Murthi|Haematological Studies in Sarotherodon (Tilapia) mossambica (Peters) Exposed to Lethal (LC50/48 Hrs) Concentration of Sumithion and Sevin|Curr. Sci. (Bangalore)48(19): 877-879|1979|
5784|A||Cebrian,C., E.S. Andreu-Moliner, A. Fernandez-Casalderrey, and M.D. Ferrando|Acute Toxicity and Oxygen Consumption in the Gills of Procambarus clarkii in Relation to Chlorpyrifos Exposure|Bull. Environ. Contam. Toxicol.49(1): 145-149|1992|10.1007/BF00193353
5785|A|OECDG|Mitterer,M., H. Bayer, and F. Schinner|Der Einfluss von Fungiziden auf die Mikrobielle Aktivitt Eines Boden|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)144:463-471|1981|10.1002/jpln.19811440505
5786|A||Reddy,D.C., P. Vijayakumari, V. Kalarani, and R.W. Davies|Changes in Erythropoietic Activity of Sarotherodon mossambicus Exposed to Sublethal Concentrations of the Herbicide Diuron|Bull. Environ. Contam. Toxicol.49(5): 730-737|1992|10.1007/BF00200787
5787|A||Kuroshima,R.|Cadmium Accumulation in the Mummichog, Fundulus heteroclitus, Adapted to Various Salinities|Bull. Environ. Contam. Toxicol.49(5): 680-685|1992|10.1007/BF00200780
5788|A||Durairaj,S., and V.R. Selvarajan|Influence of Quinalphos, an Organophosphorous Pesticide, on the Biochemical Constituents of the Tissues of Fish, Oreochromis mossambicus|J. Environ. Biol.13(3): 181-185|1992|
5789|A||Little,L.W., J.C. Lamb III, M.A. Chillingworth, and W.B. Durkin|Acute Toxicity of Selected Commercial Dyes to the Fathead Minnow and Evaluation of Biological Treatment for Reduction of Toxicity|In: Proceedings of the 29th Industrial Waste Conference, Lafayette, IN:524-534|1974|
5790|A||Landau,M., and K.R. Rao|Toxic and Sublethal Effects of Precocene II on the Early Developmental Stages of the Brine Shrimp Artemia salina (L.) and the Barnacle Balanus|Crustaceana  (Leiden)39(2): 219-221|1980|10.1163/156854080X00102
5792|A||Couillard,Y., P.G.C. Campbell, A. Tessier, J. Pellerin-Massicotte, and J.C. Auclair|Field Transplantation of a Freshwater Bivalve, Pyganodon grandis, Across a Metal Contamination Gradient.  I.  Temporal Changes in Metallothionein and Metal (Cd,Cu, and Zn) Concentrations in Soft Tissues|Can. J. Fish. Aquat. Sci.52(4): 690-702|1995|10.1139/f95-070
5793|A||Berry,W.O.|A Comparative Study of the Uptake of Toluene by Bluegill Sunfish Lepomis macrochirus and Crayfish Orconectes rusticus|Environ. Pollut.21:109-119|1980|10.1016/0143-1471(80)90039-2
5794|A||Ferrando,M.D., M.M. Almar, and E. Andreu|Lethal Toxicity of Lindane on a Teleost Fish, Anguilla anguilla from Albufera Lake (Spain): Hardness and Temperature Effects|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(1): 45-52|1988|
5795|A||Metcalfe,C.D.|Induction of Micronuclei and Nuclear Abnormalities in the Erythrocytes of Mudminnows (Umbra limi) and Brown Bullheads (Ictalurus nebulosus)|Bull. Environ. Contam. Toxicol.40(4):489-495|1988|10.1007/BF01688371
5796|A||Bhatnagar,M.C., A.K. Bana, and M. Tyagi|Respiratory Distress to Clarias batrachus (Linn.) Exposed to Endosulfan - A Histological Approach|J. Environ. Biol.13(3): 227-231|1992|
5798|A||Lundahl,P., and R. Cabridenc|Molecular Structure - Biological Properties Relationships in Anionic Surface-Active Agents|Water Res.12(1): 25-30|1978|10.1016/0043-1354(78)90191-4
5799|A||Madder,D.J., and W.L. Lockhart|A Preliminary Study of the Effects of Diflubenzuron and Methoprene on Rainbow Trout (Salmo gairdneri Richardson)|Bull. Environ. Contam. Toxicol.20(1): 66-70|1978|10.1007/BF01683487
5800|A||Maddock,B.G., and D. Taylor|The Acute Toxicity and Bioaccumulation of Some Lead Alkyl Compounds in Marine Animals|In: M.Branika and Z.Konrad (eds.), Lead in the Marine Environment.Proc.Int.Experts Discussion on Lead Occurrence.Fate and Pollution in the Marine Environment, Rovinj, Yugoslavia:233-261|1980|
5801|A||Ghosh,R., and R.V. Shrotri|Blood Glucose and Tissue Glycogen Interrelationship in Scylla serrata (Forskal), Chronically Exposed to Thiodan|J. Environ. Biol.13(3): 233-237|1992|
5802|A||McKeown,B.A., and G.L. March|The Acute Effect of Bunker C Oil and an Oil Dispersant on: 1 Serum Glucose, Serum Sodium and Gill Morphology in Both Freshwater and Seawater Acclimated Rainbow Trout (Salmo gairdneri)|Water Res.:|1978|
5803|A||Moorthy,K.S., B.K. Reddy, K.S. Swami, and C.S. Chetty|Effect of the Pesticide Dichlorvos on Succinate And Malate Dehydrogenase Activities in Fish Sarotherodon mossambicus|Environ. Ecol.3(3): 335-338|1985|
5804|A|RUSSN|Matei,V.E.|Functional State of the Hypothalamo-Hypophyseal Neurosecretory System of the Guppy Lebistes reticulatus During Acute Polychloropinene Poisoning|Vopr. Ikhtiol. (Non-English)15(1): 151-157|1975|
5805|A||McCann,J.A., and R.L. Jasper|Vertebral Damage to Bluegills Exposed to Acutely Toxic Levels of Pesticides|Trans. Am. Fish. Soc.101(2): 317-322|1972|10.1577/1548-8659(1972)101<317:VDTBET>2.0.CO;2
5806|A||Naqvi,S.M., and R. Hawkins|Toxicity of Selected Insecticides (Thiodan, Security, Spartan, and Sevin) to Mosquitofish, Gambusia affinis|Bull. Environ. Contam. Toxicol.40(5): 779-784|1988|10.1007/BF01697530
5807|A||Olla,B.L., V.B. Estelle, R.C. Swartz, G. Braun, and A.L. Studholme|Responses of Polychaetes to Cadmium-Contaminated Sediment: Comparison of Uptake and Behavior|Environ. Toxicol. Chem.7(7): 587-592|1988|
5808|A||Pagano,G., M. Cipollaro, G. Corsale, A. Esposito, G.G. Giordano, E. Ragucci, and N.M. Trieff|Comparative Toxicities of Benzene, Chlorobenzene, and Dichlorobenzenes to Sea Urchin Embryos and Sperm|Bull. Environ. Contam. Toxicol.40(4): 481-488|1988|10.1007/BF01688370
5809|A||McLeese,D.W., and C.D. Metcalfe|Toxicity of Mixtures of Phosphamidon and Methidathion to Lobsters (Homarus americanus)|Chemosphere8(2): 59-62|1979|10.1016/0045-6535(79)90050-X
5810|A|OECDG|McLeese,D.W., V. Zitko, and M.R. Peterson|Structure-Lethality Relationships for Phenols, Anilines and Other Aromatic Compounds in Shrimp and Clams|Chemosphere8(2): 53-57|1979|10.1016/0045-6535(79)90049-3
5811|A||Merna,J.W., M.E. Bender, and J.R. Novy|The Effects of Methoxychlor on Fishes. 1. Acute Toxicity and Breakdown Studies|Trans. Am. Fish. Soc.101(2): 298-301|1972|10.1577/1548-8659(1972)101<298:TEOMOF>2.0.CO;2
5812|A||Meyerhoff,R.D.|Acute Toxicity of Benzene, a Component of Crude Oil, to Juvenile Striped Bass (Morone saxatilis)|J. Fish. Res. Board Can.32(10): 1864-1866|1975|10.1139/f75-223
5813|A||Miramand,P., and M. Unsal|Acute Toxicity of Vanadium to some Marine Benthic and Phytoplanktonic Species|Chemosphere7(10): 827-832|1978|10.1016/0045-6535(78)90067-X
5814|A||Miura,T., and R.M. Takahashi|Toxicity of TH-6040 to Freshwater Crustacea and the Use of a Tolerance Index As a Method of Expressing Side Effects on Nontargets|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.42:177-180|1974|
5815|A||Morton,B., and R.S.S. Wu|The Toxic Effects of Hydrocarbons upon the Naupliar and Adult Stages of Balanus (Crustacea:  Cirripedia)|Mar. Pollut. Bull.8(10): 232-236|1977|10.1016/0025-326X(77)90432-5
5816|A||Moyer,C.J., and G.T. Barthalmus|Phototactic Behavior:  An Index for Subacute Effects of the Herbicide 2,4-Dichlorophenoxyacetic Acid in Estuarine Grass Shrimp|Neurotoxicology1(1): 105-123|1979|
5817|A||Norland,R.L., M.S. Mulla, F.W. Pelsue, and T. Ikeshoji|Conventional and New Insecticides for the Control of Chironomid Midges|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.42:181-183|1974|
5818|A||Piska,R.S., S. Waghray, and I. Devi|The Effect of Sublethal Concentration of Synthetic Pyrethroid, Cypermethrin to the Common Carp, Cyprinus carpio communis (Linnaeus) Fry|J. Environ. Biol.13(2): 89-94|1992|
5819|A||Patil,P.S., M.P. Gadkari, K.B. Bhale, and K.M. Kulkarni|Toxicity of Carbamate Insecticides to Freshwater Crab Paratelphusa jacquemontii (Rathbun)|Environ. Ecol.10(2): 397-399|1992|
5820|A||Oseid,D.M.,Jr.|Factors Influencing Acute Toxicity Estimates of Hydrogen Sulfide to Freshwater Invertebrates|Water Res.8(10): 739-746|1974|10.1016/0043-1354(74)90018-9
5822|A||Perevozchenko,I.I.|Effect of Carbamic and Thiocarbamic Acid Derivatives on Fishes and Amphibians|Hydrobiol. J.11(1): 74-76|1975|
5823|A||Patil,P.S., M.V. Chaudhary, M.P. Gadkari, and K.M. Kulkarni|Change in Protease Activity of Fish Rasbora daniconius (Ham.) Exposed to Malathion Sublethal Concentration|Environ. Ecol.10(2): 403-405|1992|
5825|A||Pruitt,G.W., B.J. Grantham, and R.H.,Jr. Pierce|Accumulation and Elimination of Pentachlorophenol by the Bluegill, Lepomis macrochirus|Trans. Am. Fish. Soc.106(5): 462-465|1977|10.1577/1548-8659(1977)106<462:AAEOPB>2.0.CO;2
5826|A||Rathore,H.S., P.K. Sanghvi, and H. Swarup|Toxicity of Cadmium Chloride and Lead Nitrate to Chironomus tentans Larvae|Environ. Pollut.18(3): 173-177|1979|
5827|A|OECDG|Bernhardt,H.|NTA: Studie uber die Aquatische Umweltvertrglichkeit von Nitrilotriessigsure|Verlag Hans Richarz, Sankt Augustin, 1.Aufl.:422 p.|1984|
5828|A||Rettich,F.|Field Evaluation of Permethrin and Decamethrin Against Mosquito Larvae and Pupae (Diptera, Culicidae)|Acta Entomol. Bohemoslov.77(2): 89-96|1980|
5829|A||Sreedevi,P., B. Sivaramakrishna, A. Suresh, and K. Radhakrishnaiah|Effect of Nickel on Some Aspects of Protein Metabolism in the Gill and Kidney of the Freshwater Fish, Cyprinus carpio L|Environ. Pollut.77(1): 59-63|1992|10.1016/0269-7491(92)90158-7
5830|A||Roberts,M.H.,Jr., and R.A. Gleeson|Acute Toxicity of Bromochlorinated Seawater to Selected Estuarine Species with a Comparison to Chlorinated Seawater Toxicity|Mar. Environ. Res.1(1): 19-30|1978|10.1016/0141-1136(78)90010-7
5832|A||Tomiyama,T., and K. Kawabe|The Toxic Effect of Pentachlorophenate, a Herbicide, on Fishery Organisms in Coastal Waters - I.  The Effect on Certain Fishes and a Shrimp|Nippon Suisan Gakkaishi (Multiple Languages)28(3): 379-382|1962|10.2331/suisan.28.379
5833|A||Roesijadi,G., D.M. Jacobsen, J.R. Bridge, and E.A. Crecelius|Disruption of Magnesium Regulation in the Crab Cancer productus Exposed to Chlorinated Seawater|Mar. Environ. Res.2(1): 71-84|1979|10.1016/0141-1136(79)90029-1
5834|A||Roseboom,D.P., and D.L. Richey|Acute Toxicity of Residual Chlorine and Ammonia to Some Native Illinois Fishes|Report of Investigations 85, Office of Water Research and Technology, Washington, D.C.:42 p.|1977|
5835|A||Palanichamy,S., S. Wilvam, and S. Arunachalam|Sublethal Effects of Urea on Food Intake, Growth and Conversion in the Fish Tilapia mossambica|Environ. Ecol.3(2): 157-161|1985|
5836|A||Rye,R.P.J.,Jr.|Acute Toxic Effects of Two Lampricides to Twenty-One Freshwater Invertebrates|Trans. Am. Fish. Soc.105(2): 322-326|1976|10.1577/1548-8659(1976)105<322:ATEOTL>2.0.CO;2
5837|A||Sahib,I.K.A., and K.V.R. Rao|Correlation Between Subacute Toxicity of Malathion and Acetylcholinesterase Inhibition in the Tissues of the Teleost Tilapia mossambica|Bull. Environ. Contam. Toxicol.24(5): 711-718|1980|10.1007/BF01608178
5838|A||Saroglia,M.G., and G. Scarano|Influence of Molting on the Sensitivity to Toxics of the Crustacean Penaeus kerathurus (Forskal)|Ecotoxicol. Environ. Saf.3(3): 310-320|1979|10.1016/0147-6513(79)90019-8
5839|A||Sastry,K.V., and M.K. Agrawal|Mercuric Chloride Induced Enzymological Changes in Kidney and Ovary of a Teleost Fish, Channa punctatus|Bull. Environ. Contam. Toxicol.22(1/2): 38-43|1979|10.1007/BF02026904
5840|A||Sastry,K.V., and P.K. Gupta|Effect of Mercuric Chloride on the Digestive System of Channa punctatus: A Histopathological Study|Environ. Res.16(3): 270-278|1978|10.1016/0013-9351(78)90161-5
5841|A||Sastry,K.V., and P.K. Gupta|Effect of Mercuric Chloride on the Digestive System of a Teleost Fish, Channa punctatus|Bull. Environ. Contam. Toxicol.20(3): 353-360|1978|10.1007/BF01683532
5842|A||Thatcher,T.O.|The Relative Sensitivity of Pacific Northwest Fishes and Invertebrates to Chlorinated Sea Water|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI:341-350|1978|
5843|A||Seegert,G.L., A.S. Brooks, J.R. Vande Castle, and K. Gradall|The Effects of Monochloramine on Selected Riverine Fishes|Trans. Am. Fish. Soc.108(1): 88-96|1979|10.1577/1548-8659(1979)108<88:TEOMOS>2.0.CO;2
5844|A||Ikuta,K.|Localization of Cadmium in the Viscera and the Muscular Tissues of Carnivorous Gastropods Before and After Exposure|Nippon Suisan Gakkaishi (Multiple Languages)53(12): 2275-2278|1987|10.2331/suisan.53.2275
5845|A||Fent,K.|Embryotoxic Effects of Tributyltin on the Minnow Phoxinus phoxinus|Environ. Pollut.76(3): 187-194|1992|
5847|A||Sharp,J.W., R.M. Sitts, and A.W. Knight|Effects of Kelthane on the Estuarine Shrimp Crangon franciscorum|Mar. Biol.50(4): 367-374|1979|10.1007/BF00387014
5848|A||Solbe,J.F.de L.G., and V.A. Cooper|Studies on the Toxicity of Copper Sulphate to Stone Loach Noemacheilus barbatulus (L.) in Hard Water|Water Res.10(6): 523-527|1976|10.1016/0043-1354(76)90189-5
5849|A||Southworth,G.R., J.J. Beauchamp, and P.K. Schmieder|Bioaccumulation Potential and Acute Toxicity of Synthetic Fuels Effluents in Freshwater Biota: Azaarenes|Environ. Sci. Technol.12(9): 1062-1066|1978|10.1021/es60145a006
5850|A|OECDG|Sunderam,R.I.M., D.M.H. Cheng, and G.B. Thompson|Toxicity of Endosulfan to Native and Introduced Fish in Australia|Environ. Toxicol. Chem.11(10): 1469-1476|1992|10.1002/etc.5620111012
5851|A||Srivastava,A.K., and S.J. Agrawal|Haematological Anomalies in a Fresh Water Teleost, Colisa fasciatus, on Acute Exposure to Cobalt|Acta Pharmacol. Toxicol.44(3): 197-199|1979|10.1111/j.1600-0773.1979.tb02317.x
5852|A||Stora,G.|Evolution Comparee de la Sensibilite de Deux Polychetes Soumises a L'Action de Detergents en Fonction d'Une Augmentation de la Temperature|Rev. Int. Oceanogr. Med. (Multiple Languages)51/52:101-113|1978|
5853|A||Sankaraperumal,G., M.K. Rajan, and A. Mohandoss|Synergistic Effect of Cadmium and Zinc on the Erythrocytes and Opercular Activity of the Fishes Lepidocephalichthyes thermalis and Amblypharyngodon|Environ. Ecol.8(4): 1213-1216|1990|
5854|A||Abel,P.D., and J.F. Skidmore|Toxic Effects of an Anionic Detergent on the Gills of Rainbow Trout|Water Res.9(8): 759-765|1975|10.1016/0043-1354(75)90068-8
5855|A||Verma,S.R., D. Mohan, A.K. Tyagi, and R.C. Dalela|In Vivo Response of ATPases in Few Tissues of the Fish Mystus vittatus (Ham.) to the Synthetic Detergent Swacofix E45 (ABS)|Bull. Environ. Contam. Toxicol.22(3): 327-331|1979|10.1007/BF02026950
5856|A||Sturm,R.N., K.E. Williams, and K.J. Macek|Fluorescent Whitening Agents: Acute Fish Toxicity and Accumulation Studies|Water Res.9(2): 211-219|1975|10.1016/0043-1354(75)90011-1
5857|A||Soares,A.M.V.M., D.J. Baird, and P. Calow|Interclonal Variation in the Performance of Daphnia magna Straus in Chronic Bioassays|Environ. Toxicol. Chem.11(10): 1477-1483|1992|
5858|A|OECDG|Beirat der Bundesrztekammer|Belastung der Bevlkerung durch Perchlorethylen|Dtsch. Arztebl.49:C2239 - C2241|1989|
5859|A||Vargo,S.L., and A.N. Sastry|Interspecific Differences in Tolerance of Eurytemora affinis and Acartia tonsa From an Estuarine Anoxic Basin to Low Dissolved Oxygen and Hydrogen Su|In: D.S.McLusky and A.J.Berry (Eds.), Physiology and Behaviour of Marine Organisms, Pergamon Press, NY:219-226|1977|
5860|A||Verma,S.R., M.C. Bhatnagar, and R.C. Dalela|Biocides in Relation to Water Pollution. Part 2:  Bioassay Studies of Few Biocides to a Fresh Water Fish, Channa gachua|Acta Hydrochim. Hydrobiol. (Multiple Languages)6(2): 137-144|1978|10.1002/aheh.19780060206
5861|A||Verma,S.R., D. Mohan, and R.C. Dalela|Studies on the Relative Toxicity of Few Synthetic Detergents to a Fish Macrones vittatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)6(2): 121-128|1978|10.1002/aheh.19780060204
5862|A||Verma,S.R., N. Pal, A.K. Tyagi, and R.C. Dalela|Toxicity of Swascol 1P (SLS) to Channa punctatus and Cirrhina mrigala: Biochemical Alterations|Bull. Environ. Contam. Toxicol.21(4/5): 711-718|1979|10.1007/BF01685493
5863|A||Verma,S.R., A.K. Tyagi, M.C. Bhatnagar, and R.C. Dalela|Organophosphate Poisoning to Some Fresh Water Teleosts - Acetylcholinesterase Inhibition|Bull. Environ. Contam. Toxicol.21(4-5): 502-506|1979|10.1007/BF01685461
5864|A||Videau,C., M. Khalanski, and M. Penot|Preliminary Results Concerning Effects of Chlorine on Monospecific Marine Phytoplankton|J. Exp. Mar. Biol. Ecol.36(2): 111-123|1979|10.1016/0022-0981(79)90104-7
5865|A||Dwyer,F.J., S.A. Burch, C.G. Ingersoll, and J.B. Hunn|Toxicity of Trace Element and Salinity Mixtures to Striped Bass (Morone saxatilis) and Daphnia magna|Environ. Toxicol. Chem.11(4): 513-520|1992|10.1002/etc.5620110409
5866|A||Wedemeyer,G.A., N.C. Nelson, and W.T. Yasutake|Physiological and Biochemical Aspects of Ozone Toxicity to Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.36(6): 605-614|1979|10.1139/f79-088
5867|A||Wells,P.G., W.R. Parker, and D. Vaughan|The Acute Toxicity of Four Insecticides and Their Formulations to Fingerling Rainbow Trout, Salmo gairdneri|EPS S-AR-78-3, Environmental Protection Services, Canada:161 p. |1978|
5868|A||Wildish,D.J.|Acute Toxicity of Polyoxyethylene Esters and Polyoxyethylene Ethers to S. salar and G. oceanicus|Water Res.6(7):759-762|1972|10.1016/0043-1354(72)90028-0
5869|A||Roberts,M.H.J.|Effects of Chlorinated Sea Water on Decapod Crustaceans|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:329-339|1978|
5870|A||Agrawal,V.P., Kalpana, Sandhya, and K.A. Goel|Lithium Induced Haemato-Chemical Changes in Snakeheaded Fish (Channa punctatus)|Indian J.Zootomy24(1): 57-60|1983|
5871|A||Wobeser,G.|Acute Toxicity of Methyl Mercury Chloride and Mercuric Chloride for Rainbow Trout (Salmo gairdneri) Fry and Fingerlings|J. Fish. Res. Board Can.32(1): 2005-2013|1975|10.1139/f75-236
5872|A||Wong,M.H., S.H. Kwan, and F.Y. Tam|Comparative Toxicity of Manganese and Zinc on Chlorella pyrenoidosa, Chlorella salina and Scenedesmus quadricauda|Microbios Lett.12(45): 37-46|1980|
5873|A||Ferraro,L.A., R.E. Wolke, and P.P. Yevich|Acute Toxicity of Water-Borne Dimethylnitrosamine (DMN) to Fundulus heteroclitus (L.)|J. Fish Biol.10(3): 203-209|1977|10.1111/j.1095-8649.1977.tb05126.x
5874|A|RUSSN|Zambriborshch,F.S., and B. Lai|The Effect of Hexachloran on the Variability of Macropodus opercularis|Gidrobiol. Z. (Non-English)12(1): 118-121|1976|
5875|A||Zamfir,G., V. Nastase, M. Srainer, M. Finichiu, and A. Dragomirescu|The Influence of Lindatox on Water Sanitary Indices (Influenta Lindatox-ului Asupra Indicatorilor Sanitari ai Apei)|Igiena (Non-English)19(5): 295-304|1970|
5876|A|OECDG|Bottger,A.|Belastung der Anwohner von Chemisch-Reinigungsanlegen durch Tetrachlorethylen|vortrag:30|1988|
5877|A||Garg,V.K., S.K. Garg, and S.K. Tyagi|Manganese Induced Haematological and Biochemical Anomalies in Heteropneustes fossilis|J. Environ. Biol.10(4): 349-353|1989|
5878|A||Alekseyev,V.A., and B.N. Antipin|Toxicological Characteristics and Symptoms of Acute Phenol Poisoning in Some Freshwater Crustaceans and Mollusks|Hydrobiol. J.12(2): 27-33|1976|
5879|A||Roberts,M.H.J., R.J. Diaz, M.E. Bender, and R.J. Huggett|Acute Toxicity of Chlorine to Selected Estuarine Species|J. Fish. Res. Board Can.32(12): 2525-2528|1975|10.1139/f75-292
5880|A||Anderson,D.R., R.M. Bean, and C.I. Gibson|Biocide By-Products in Aquatic Environments|Quarterly Progress Report Covering Period October 1 Through December 31, 1978:41 p.|1979|
5881|A||Lee,J.G., B.A. Ahner, and F.M.M. Morel|Export of Cadmium and Phytochelatin by the Marine Diatom Thalassiosira weissflogii|Environ. Sci. Technol.30(6): 1814-1821|1996|10.1021/es950331p
5882|A||Schimmel,S.C., A.M.,Jr. Patrick, and A.J.,Jr. Wilson|Acute Toxicity to and Bioconcentration of Endosulfan by Estuarine Animals|ASTM Spec. Tech. Publ.:241-252|1977|
5883|A||Shakoori,A.R., S.A. Zaheer, and M.S. Ahmad|Effect of Malathion, Dieldrin and Endrin on Blood Serum Proteins and Free Amino Acids Pool of Channa punctatus (Bloch)|Pak. J. Zool.8(2): 125-134|1976|
5884|A||Vigano,L., S. Galassi, and M. Gatto|Factors Affecting the Bioconcentration of Hexachlorocyclohexanes in Early Life Stages of Oncorhynchus mykiss|Environ. Toxicol. Chem.11(4): 535-540|1992|10.1002/etc.5620110411
5885|A||Smith,L.L.J., D.M. Oseid, and L.E. Olson|Acute and Chronic Toxicity of Hydrogen Sulfide to the Fathead Minnow, Pimephales promelas|Environ. Sci. Technol.10(6): 565-568|1976|10.1021/es60117a001
5886|A||Hattori,K.|Toxicity of Difenphos (Abate) in the Amphibia|Rep.Hokkaido Inst.Public Health /Hokkaidoritsu Eisei Kenkyusho-ho24:152-153|1974|
5887|A||De,S.N., and S. Bhattacharya|Effect of Some Industrial Pollutants on Fish Thyroid Peroxidase Activity and Role of Cytochrome C Thereon|Indian J. Exp. Biol.14(5): 561-563|1976|
5888|A||Bookhout,C.G., J.D.,Jr. Costlow, and R. Monroe|Kepone Effects on Development of Callinectes sapidus and Rhithropanopeus harisii|EPA 600/3-79-104, U.S.EPA, Gulf Breeze, FL:47 p.|1979|
5889|A||Guthrie,J.E., and O.E. Acres|Toxicity to Fish of Two Organic Reactor Coolants|Bull. Environ. Contam. Toxicol.5(2): 145-151|1970|10.1007/BF01617192
5891|A||Grothe,D.R., and J.W. Eaton|Chlorine-Induced Mortality in Fish|Trans. Am. Fish. Soc.104(4): 800-802|1975|10.1577/1548-8659(1975)104<800:CMIF>2.0.CO;2
5892|A||Tompkins,J.A., and C. Tsai|Survival Time and Lethal Exposure Time for the Blacknose Dace Exposed to Free Chlorine and Chloramines|Trans. Am. Fish. Soc.105(2): 313-321|1976|10.1577/1548-8659(1976)105<313:STALET>2.0.CO;2
5893|A||Versteeg,D.J., and S.J. Shorter|Effect of Organic Carbon on the Uptake and Toxicity of Quaternary Ammonium Compounds to the Fathead Minnow, Pimephales promelas|Environ. Toxicol. Chem.11(4): 571-580|1992|10.1002/etc.5620110415
5894|A||Dennis,W.H.,Jr., E.P. Meier, A.B. Rosencrance, W.F. Randall, M.T. Reagan, and D.H. Rosenblatt|Chemical Degradation of Military Standard Formulations of Organophosphorus and Carbamate Pesticides.  II.  Degradation of Diazinon by Sodium Hypochlorite|U.S.Army Med.Bioeng.Res.Dev.Lab., Tech.Rep.No.7904, Fort Detrick, MD:40 p.|1979|
5895|A||Jaffe,R.L.|Rapid Assay of Cytotoxicity Using Tetramitus flagellates|Toxicol. Ind. Health11(5): 543-558|1995|10.1177/074823379501100507
5896|A||McBride,J., G. Strasdine, and U.H.M. Fagerlund|Acute Toxicity of Kanamycin to Steelhead Trout (Salmo gairdneri)|J. Fish. Res. Board Can.32(4): 554-558|1975|10.1139/f75-070
5897|A||Fairchild,W.L., D.C.G. Muir, R.S. Currie, and A.L. Yarechewski|Emerging Insects as a Biotic Pathway for Movement of 2,3,7,8-Tetrachlorodibenzofuran from Lake Sediments|Environ. Toxicol. Chem.11(6): 867-872|1992|
5898|A||Hidalgo,J., L. Tort, and R. Flos|Cd-, Zn-, Cu-Binding Protein in the Elasmobranch Scyliorhinus canicula|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 159-165|1985|10.1016/0742-8413(85)90108-2
5899|A||Wilson,K.W.|Acute Toxicity of Oil Dispersants to Marine Fish Larvae|Mar. Biol.40(1): 65-74|1977|10.1007/BF00390629
5900|A||Canesi,L., C. Ciacci, G. Piccoli, V. Stocchi, A. Viarengo, and G. Gallo|In Vitro and In Vivo Effects of Heavy Metals on Mussel Digestive Gland Hexokinase Activity: The Role of Glutathione|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120:261-268|1998|
5902|A||Rosenberg,R., O. Grahn, and L. Johansson|Toxic Effects of Aliphatic Chlorinated by-Products from Vinyl Chloride Production on Marine Animals|Water Res.9(7): 607-612|1975|10.1016/0043-1354(75)90164-5
5903|A||Hammond,B., and J.,Jr. Bishop|Maximum Utilization of Water Resources in a Planned Community.  Chlorine and Ozone Toxicity Evaluation|Environ.Prot.Tech.Ser., EPA-600/2-79-050E, Municipal Environ.Res.Lab., U.S.EPA, Cincinnati, OH:39 p.|1979|
5904|A||Larsson,P., and A. Thuren|Di-2-Ethylhexylphthalate Inhibits the Hatching of Frog Eggs and is Bioaccumulated by Tadpoles|Environ. Toxicol. Chem.6(6): 417-422|1987|
5905|A||Daly,H.R., B.T. Hart, and I.C. Campbell|Copper Toxicity to Paratya australiensis. IV. Relationship with Ecdysis|Environ. Toxicol. Chem.11(6): 881-883|1992|10.1002/etc.5620110616
5906|A||Dolan III,J.M., and A.C. Hendricks|The Lethality of an Intact and Degraded LAS Mixture to Bluegill Sunfish and a Snail|J. Water Pollut. Control Fed.48(11):2570-2577|1976|
5907|A||Maki,A.W., L. Geissel, and H.E. Johnson|Comparative Toxicity of Larval Lampricide (TFM: 3-Trifluoromethyl-4-Nitrophenol) to Selected Benthic Macroinvertebrates|J. Fish. Res. Board Can.32:1455-1459|1975|10.1139/f75-168
5908|A||Block,M., and A.W. Glynn|Influence of Xanthates on the Uptake of 109Cadmium by Eurasian Dace (Phoxinus phoxinus) and Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.11(7): 873-879|1992|10.1002/etc.5620110615
5909|A||Katz,B.M.|The Effects of Cations on Sodium Fluxes in the Presence of Chlorine|Bull. Environ. Contam. Toxicol.21(4/5): 569-575|1979|10.1007/BF01685471
5910|A||Radi,A.A.R., and B. Matkovics|Effects of Metal Ions on the Antioxidant Enzyme Activities, Protein Contents and Lipid Peroxidation of Carp Tissues|Comp. Biochem. Physiol. C Comp. Pharmacol.90(1): 69-72|1988|10.1016/0742-8413(88)90099-0
5911|A||Reddy,M.S., and K.V.R. Rao|Effects of Technical and Commercial Grade Phosphamidon on the Carbohydrate Metabolism in Selected Tissues of Penaeid Prawn, Metapenaeus monoceros (Fa|Bull. Environ. Contam. Toxicol.40(3): 389-395|1988|10.1007/BF01689096
5912|A||Post,G., and R.A. Leasure|Sublethal Effect of Malathion to Three Salmonid Species|Bull. Environ. Contam. Toxicol.12(3): 312-319|1974|10.1007/BF01709125
5913|A||Ikemoto,Y., K. Motoba, T. Suzuki, and M. Uchida|Quantitative Structure-Activity Relationships of Nonspecific and Specific Toxicants in Several Organism Species|Environ. Toxicol. Chem.11(7): 931-939|1992|
5914|A||Reddy,M.S., and K.V.R. Rao|In Vivo Recovery of Acetylcholinesterase Activity from Phosphamidon and Methylparathion Induced Inhibition in the Nervous Tissue of Penaeid Prawn (Metapenaeus monoceros)|Bull. Environ. Contam. Toxicol.40(5): 752-758|1988|10.1007/BF01697526
5915|A||Sastry,K.V., and M.K. Agrawal|Effects of Lead Nitrate on the Activities of a Few Enzymes in the Kidney and Ovary of Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.22(1/2): 55-59|1979|10.1007/BF02026907
5916|A||McLeese,D.W.|Toxicity of Phosphamidon to American Lobsters (Homarus americanus) Held at 4 and 12 C|J. Fish. Res. Board Can.31(9): 1556-1558|1974|10.1139/f74-194
5917|A||Abdelghani,A.A.|Uptake, Distribution and Loss of Monosodium Methane Arsonate by Crawfish Procambarus sp.|Ph.D.Thesis, Tulane Univ., New Orleans, LA:208 p.|1978|
5918|A||Abel,P.D.|Mortality Patterns in Trout (Salmo trutta and S. gairdneri) Exposed to an Anionic Detergent in Relation to Concentration and Mechanisms of Toxic Action|Freshw. Biol.8(5): 497-504|1978|10.1111/j.1365-2427.1978.tb01472.x
5919|A||Kreutzweiser,D.P., and S.S. Capell|A Simple Stream-Side Test System for Determining Acute Lethal and Behavioral Effects of Pesticides on Aquatic Insects|Environ. Toxicol. Chem.11(7): 993-999|1992|
5920|A||Kszos,L.A., A.J. Stewart, and P.A. Taylor|An Evaluation of Nickel Toxicity to Ceriodaphnia dubia and Daphnia magna in a Contaminated Stream and in Laboratory Tests|Environ. Toxicol. Chem.11(7): 1001-1012|1992|10.1002/etc.5620110713
5921|A||Roales,R.R., and A. Perlmutter|Toxicity of Methylmercury and Copper, Applied Singly and Jointly, to the Blue Gourami, Trichogaster trichopterus|Bull. Environ. Contam. Toxicol.12(5): 633-639|1974|10.1007/BF01684931
5922|A||Persoone,G., and G. Uyttersprot|The Influence of Inorganic and Organic Pollutants on the Rate of Reproduction of a Marine Hypotrichous Ciliate:  Euplotes vannus Muller|Rev. Int. Oceanogr. Med. (Multiple Languages)37/38:125-151|1975|
5923|A||Paller,M.H., and R.C. Heidinger|The Toxicity of Ozone to the Bluegill|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control14(3): 169-193|1979|
5924|A||Shcherban,E.P.|Toxicity of Some Heavy Metals for Daphnia magna Strauss, as a Function of Temperature|Hydrobiol. J.13(4): 75-80|1977|
5925|A||Naimo,T.J., G.J. Atchison, and L.E. Holland-Bartels|Sublethal Effects of Cadmium on Physiological Responses in the Pocketbook Mussel, Lampsilis ventricosa|Environ. Toxicol. Chem.11(7): 1013-1021|1992|10.1002/etc.5620110714
5926|A||Sastry,K.V., and P.K. Gupta|Alteration in the Activities of Three Peptidases and Lipase in the Digestive System of the Fish Channa punctatus Exposed to Lead Nitrate|Bull. Environ. Contam. Toxicol.21(1-2): 190-195|1979|10.1007/BF01685409
5927|A||Crossland,N.O.|A Method for Evaluating Effects of Toxic Chemicals on the Productivity of Freshwater Ecosystems|Ecotoxicol. Environ. Saf.16(3): 279-292|1988|10.1016/0147-6513(88)90057-7
5928|A||Stora,G.|Contribution a L'Etude De La Notion De Concentration Lethale. Limite Moyenne Appliquee a Des Invertebres Marins. II. CL 50 et Determination .|Rev. Int. Oceanogr. Med. (Multiple Languages)37/38:97-123|1975|
5929|A||Mount,D.I.|Some Effects of Metals and Detergents on Fishes|In: Proceedings of the 8th Air and Pollution Conference. University of Missouri, Columbia, MO:14-17|1962|
5930|A||Sarkar,S.K., and S.K. Konar|Influence of Urea on the Feeding, Survival, Growth and Reproduction of Fish|Environ. Ecol.3(1): 162-166|1985|
5932|A||Shcherban,E.P.|Toxicity of Surfactants for Daphnia magna|Hydrobiol. J.15(3): 61-65|1979|
5933|A||Maki,A.W., A.J. Rubin, R.M. Sykes, and R.L. Shank|Reduction of Nonionic Surfactant Toxicity Following Secondary Treatment|J. Water Pollut. Control Fed.51(9): 2301-2313|1979|
5934|A||Reish,D.J., C.E. Pesch, J.H. Gentile, G. Bellan, and D. Bellan-Santini|Interlaboratory Calibration Experiments Using the Polychaetous Annelid Capitella capitata|Mar. Environ. Res.1(2): 109-118|1978|10.1016/0141-1136(78)90003-X
5936|A||Fries,C.R., and M.R. Tripp|Cytological Damage in Mercenaria mercenaria Exposed to Phenol|In: D.A.Wolfe (Ed.), Proceedings of a Symposium on Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms, Seattle, WA:174-181|1977|
5937|A||Siebers,D., and U. Ehlers|Heavy Metal Action on Transintegumentary Absorption of Glycine in Two Annelid Species|Mar. Biol.50(2): 175-179|1979|10.1007/BF00397824
5938|A||Slooff,W.|Detection Limits of a Biological Monitoring System Based on Fish Respiration|Bull. Environ. Contam. Toxicol.23(4/5): 517-523|1979|10.1007/BF01769997
5939|A||Zitko,V., and T.D. Cunningham|Fish Toxicity of S-Methyl Fenitrothion|Bull. Environ. Contam. Toxicol.14(1): 19-24|1975|10.1007/BF01685592
5940|A||Call,D.J., L.T. Brooke, and N. Ahmad|"Estimates of ""No Effect"" Concentrations of Selected Pesticides in Freshwater Organisms"|Third Quarterly Prog.Rep.to EPA, EPA Coop.Agreement No.CR 806864030, Univ.of Wisconsin, Superior, WI:37 p.|1980|
5941|A||Dive,D., H. Leclerc, and G. Persoone|Pesticide Toxicity on the Ciliate Protozoan Colpidium campylum:  Possible Consequences of the Effect of Pesticides in the Aquatic Environment|Ecotoxicol. Environ. Saf.4:129-133|1980|10.1016/0147-6513(80)90014-7
5942|A||Eshita,Y., and T. Kurihara|Effects of the Inhibition of the Insect Development by Dimilin on Four Species of Mosquitoes|Eisei Dobutsu28(3): 333-336|1977|10.7601/mez.28.333
5943|A||Kleinow,K.M., B.F. Droy, D.R. Buhler, and D.E. Williams|The Interaction of the Reference Hepatotoxins Carbon Tetrachloride and Allyl Formate with beta Naphthoflavone Mediated P-450 Induction in the Winter Flounder (Pseudopleuronectes americanus)|Bull. Mt. Desert Isl. Biol. Lab.27:22-23|1987|
5944|A||Hildebrand,L.D., D.S. Sullivan, and T.P. Sullivan|Effects of Roundup Herbicide on Populations of Daphnia magna in a Forest Pond|Bull. Environ. Contam. Toxicol.25:353-357|1980|10.1007/BF01985537
5945|A||Krivtsova,E.H., F.F. Rettikh, L.V. Sokolova, and V.N. Sokolov|The Effect of Actellic on Larvae of the Mosquito (Anopheles maculipennis messeae) in the Moscow Oblast|Med. Parazitol. Parazit. Bolezni (Non-English)47:52-57|1978|
5946|A||Minchew,C.D., R.N. Hunsinger, and R.C. Giles|Tissue Distribution of Mirex in Adult Crayfish (Procambarus clarki)|Bull. Environ. Contam. Toxicol.24:522-526|1980|10.1007/BF01608150
5947|A||Frick,H.|Boron Tolerance and Accumulation in the Duckweed, Lemna minor|J. Plant Nutr.8(12): 1123-1129|1985|10.1080/01904168509363411
5948|A||Ohkawa,H., R. Kikuchi, and J. Miyamoto|Bioaccumulation and Biodegradation of the (S)-Acid Isomer of Fenvalerate (Sumicidin) in an Aquatic Model Ecosystem|J. Pestic. Sci. (Multiple Languages)5(1): 11-22|1980|10.1584/jpestics.5.11
5949|A||Scorgie,H.R.A., and A.S. Cooke|Effects of the Triazine Herbicide Cyanatryn on Aquatic Animals|Bull. Environ. Contam. Toxicol.22:135-142|1979|10.1007/BF02026920
5950|A||Toth,D., and D. Tomasovicova|Effect of Pesticides on Survival of Tetrahymena pyriformis in Danube Water|Biologia (Bratisl.)34(3): 233-239|1979|
5951|A||Reddy,P.S., and A. Bhagyalakshmi|Fenitrothion-Induced Alterations in Ammonia Metabolism in the Crab, Oziotelphusa senex senex Fabricius|Pestic. Sci.35(3): 249-254|1992|10.1002/ps.2780350309
5952|A||Edwards,P.M.|Neurotoxicity of Acrylamide and its Analogues and Effects of These Analogues and Other Agents on Acrylamide Neuropathy|Br. J. Ind. Med.32(1): 31-38|1975|
5953|A||Cairns,J.,Jr., A. Scheier, and J.J. Loos|A Comparison of the Sensitivity to Certain Chemicals of Adult Zebra Danios, Brachydanio rerio (Hamilton-Buchanan) and Zebra Danio Eggs with that of Adult Bluegill Sunfish Lepomis macrochirus Raf.|Not. Nat. Acad. Nat. Sci. Philadelphia 381:1-9|1965|
5954|A||Alekseyev,V.A., and N.Y. Uspenskaya|A Toxicological Description of Acute Phenolic Poisoning of Certain Freshwater Worms|Hydrobiol. J.10(4): 35-41|1974|
5955|A||Anderson,K.B.|Musculium transversum in the Illinois River and an Acute Potassium Bioassay Method for the Species|M.S.Thesis, Western Illinois University, Macomb, IL:79 p.|1977|
5956|A||Khangarot,B.S.|Copper-Induced Hepatic Ultrastructural Alterations in the Snake-Headed Fish, Channa punctatus|Ecotoxicol. Environ. Saf.23(3): 282-293|1992|10.1016/0147-6513(92)90078-H
5957|A||Gill,T.S., H. Tewari, and J. Pande|Short- and Long-Term Effects of Copper on the Rosy Barb (Puntius conchonius Ham.)|Ecotoxicol. Environ. Saf.23(3): 294-306|1992|10.1016/0147-6513(92)90079-I
5958|A||Armstrong,D.A., and R.E. Millemann|Effects of the Insecticide Sevin and its First Hydrolytic Product, 1-Naphthol, on Some Early Developmental Stages of the Bay Mussel Mytilus edulis|NOAA-75062408, Report No.ORESU-R-74-022: 5p (NTIS COM -75-10967, Reprinted from Mar.Biol.28(1):11-1528(1): 11-15|1974|
5959|A||Basch,R.E., and J.G. Truchan|Toxicity of Chlorinated Power Plant Condenser Cooling Waters to Fish|EPA-600/3-76-009, U.S.EPA, Duluth, MN:104 p.|1976|
5960|A||Beeton,A.M., P.K. Kovacic, and A.S. Brooks|Effects of Chlorine and Sulfite Reduction on Lake Michigan Invertebrates|EPA-600/3-76-036, U.S.EPA, Duluth, Mn:133 p.|1976|
5961|A||Bender,M.E., and P.E. Eisele|Long Term Effects of Pesticides on Stream Invertebrates|Office Water Resour.Res., U.S.D.I., OWRR Project No.A-029-Mich:28 p.|1971|
5962|A||Bentley,R.E., J.W. Dean, S.J. Ells, T.A. Hollister, G.A. LeBlanc, S. Sauter, and B.H. Sleight|Laboratory Evaluation of the Toxicity of Cyclotrimethylene Trinitramine (RDX) to Aquatic Organisms|U.S.Army Med.Res.Develop.Command, Frederick, MD:86 p.|1977|
5963|A||Bentley,R.E., J.W. Dean, S.J. Ells, G.A. LeBlanc, S. Sauter, K.S. Buxton, and B.H. Sleight III|Laboratory Evaluation of the Toxicity of Nitroglycerine to Aquatic Organisms|U. S. Army Medical Research and Development Command, Washington, D.C.:82 p.|1978|
5964|A||Bentley,R.E., J.W. Dean, T.A. Hollister, G.A. LeBlanc, S. Sauter, B.H. Sleight III, and W.G. Wilson|Laboratory Evaluation of the Toxicity of Elemental Phosphorus (P4) to Aquatic Organisms|U.S.Army Med.Res.Dev.Command, Washington, D.C.:105 p.|1978|
5965|A||Bentley,R.E., G.A. LeBlanc, T.A. Hollister, and B.H. Sleight III|Acute Toxicity of Diisopropylmethyl Phosphonate and Dicyclopentadiene to Aquatic Organisms|Contract No.DAMD-17-75-C-5073, Final Rep., U.S.Army Med.Res.Dev.Command, Washington, DC:98 p.|1976|
5966|A||Bentley,R.E., G.A. LeBlanc, T.A. Hollister, and B.H. Sleight III|Acute Toxicity of 1,3,5,7-Tetranitrooctahydro-1,3, 5,7-Tetrazocine (HMX) to Aquatic Organisms|U. S. Army Medical Research and Development Command, Washington, D.C.:23 p.|1977|
5967|A||Bentley,R.E., G.A. LeBlanc, T.A. Hollister, and B.H. Sleight III|Laboratory Evaluation of the Toxicity of Nitrocellulose to Aquatic Organisms|U. S. Army Medical Research and Development Command, Washington, D.C.:34 p.|1976|
5968|A||Bentley,R.E., B.H. Sleight III, and K.J. Macek|Preliminary Evaluation of the Acute Toxicity of Desensitized Primer Compounds and Primer Waste Effluents to Representative Aquatic Organisms|U.S.Army Med.Res.Dev.Command, Washington, D.C.:35 p.|1975|
5969|A||Birge,W.J., and J.A. Black|Sensitivity of Vertebrate Embryos to Boron Compounds|EPA 560/1-76-008, U.S.EPA, Washington DC:66 p.|1977|
5970|A|OECDG|Kreutzweiser,D.P., S.B. Holmes, and D.J. Behmer|Effects of the Herbicides Hexazinone and Triclopyr Ester on Aquatic Insects|Ecotoxicol. Environ. Saf.23(3): 364-374|1992|10.1016/0147-6513(92)90085-H
5971|A||Sathyanathan,B., S.M. Nair, J. Chacko, and P.N.K. Nambisan|Sublethal Effects of Copper and Mercury on Some Biochemical Constituents of the Estuarine Clam Villorita cyprinoides var. cochinensis (Hanley)|Bull. Environ. Contam. Toxicol.40(4): 510-516|1988|10.1007/BF01688374
5972|A||Borthwick,P.W., and S.C. Schimmel|Toxicity of Pentachlorophenol and Related Compounds to Early Life Stages of Selected Estuarine Animals|In: EPA-600/J-78-076, K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology, and Environmental Toxicology, Plenium Press, NY:141-146|1978|
5973|A||Boush,G.M., and F. Matsumura|Pesticide Degradation by Marine Algae|Acute Toxicity of Tributyltins and Tributyltin Leachates from Marine Antibiofouling Paints, Office of Naval Research, Arlington, VA:18 p.|1975|
5974|A||Lobel,P.B.|Short-Term and Long-Term Uptake of Zinc by the Mussel, Mytilus edulis: a Study in Individual Variability|Arch. Environ. Contam. Toxicol.16(6): 723-732|1987|10.1007/BF01055423
5975|A||Notenboom,J., K. Cruys, J. Hoekstra, and P. Van Beelen|Effect of Ambient Oxygen Concentration upon the Acute Toxicity of Chlorophenols and Heavy Metals to the Groundwater Copepod Parastenocaris germanica (Crustacea)|Ecotoxicol. Environ. Saf.24(2): 131-143|1992|10.1016/0147-6513(92)90041-Z
5976|A||Brown,R.T.,Jr.|Toxicity of Antimycin to Crayfish, Procambarus spp|In: Louisiana State University, School of Forestry and Wildlife Management, Fisheries Division:351-369|1974|
5978|A||Bunting,D.L., and E.B.,Jr. Robertson|Lethal and Sublethal Effects of Herbicides on Zooplankton Species|Research Report, Water Resources Research Center, University of Tennessee, Knoxville, TN43:35 p.|1975|
5979|A||Shukla,S.P., and G.S. Gupta|Toxic Effects of Omega Chrome Red ME and Its Treatment by Adsorption|Ecotoxicol. Environ. Saf.24(2):155-163|1992|10.1016/0147-6513(92)90043-3
5980|A||Winberg,S., R. Bjerselius, E. Baatrup, and K.B. Doving|The Effect of Cu (II) on the Electro-Olfactogram (EOG) of the Atlantic Salmon (Salmo salar L.) in Artificial Freshwater of Varying Inorganic Carbon Concentrations|Ecotoxicol. Environ. Saf.24(2): 167-178|1992|10.1016/0147-6513(92)90045-5
5981|A||Burton,D.T., and S.L. Margrey|An Evaluation of Acute Bromine Chloride Toxicity to Grass Shrimp (Palaemonetes spp.) and Juvenile Blue Crabs (Callinectes sapidus)|Bull. Environ. Contam. Toxicol.19(2): 131-138|1978|10.1007/BF01685777
5982|A||Schroeder,J.H., and K. Peters|Differential Courtship Activity of Competing Guppy Males (Poecilia reticulata Peters; Pisces: Poeciliidae) as an Indicator for Low Concentrations of Aquatic Pollutants|Bull. Environ. Contam. Toxicol.40(3): 396-404|1988|10.1007/BF01689097
5983|A||Caldwell,R.S., D.A. Armstrong, D.V. Buchanan, M.H. Mallon, and R.E. Millemann|Toxicity of the Fungicide Captan to the Dungeness Crab Cancer magister|Mar. Biol.48(1): 11-17|1978|10.1007/BF00390526
5984|A||Lee,T.A., and J.K. Hardy|Copper Uptake by the Water Hyacinth|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control22(2): 141-160|1987|
5985|A||Magazzu,G., G. Cavallaro, and D. Abate|Tossicita Per Gli Organismi Marini Di Disinfettanti Aggiunti Ad Effluenti Cloacali Riversati in Mare|Arch. Oceanogr. Limnol.18(suppl.3): 201-226|1976|
5986|A||Genoni,G.P.|Short-Term Effect of a Toxicant on Scope for Change in Ascendency in a Microcosm Community|Ecotoxicol. Environ. Saf.24(2): 179-191|1992|10.1016/0147-6513(92)90046-6
5987|A||Cherry,D.S., R.C. Hoehn, S.S. Waldo, D.H. Willis, J.,Jr. Cairns, and K.L. Dickson|Field-Laboratory Determined Avoidances of the Spotfin Shiner and the Bluntnose Minnow to Chlorinated Discharges|Water Resour. Bull.13(5): 1047-1055|1977|10.1111/j.1752-1688.1977.tb03869.x
5988|A||Anees,M.A.|Changes in Starch-Gel Electrophoretic Pattern of Serum Proteins of a Freshwater Teleost Channa punctatus (Bloch), Exposed to Sublethal and Chronic Levels of Three Organophosphorus Insecticides|Ceylon J. Sci. Biol. Sci.11(1): 53-57|1974|
5989|A||Chun,S.K.|The Effects of Trichlorfon on Carp Fingerlings|J. Korean Fish. Soc. (Multiple Languages)11(4): 239-241|1978|
5990|A||Toshima,Y., T. Moriya, and K. Yoshimura|Effects of Polyoxyethylene (20) Sorbitan Monooleate on the Acute Toxicity of Linear Alkylbenzenesulfonate (C12LAS) to Fish|Ecotoxicol. Environ. Saf.24(1): 26-36|1992|10.1016/0147-6513(92)90032-X
5991|A||Power,F.M.|Petralgas Methanol Plant: Assessment of the Toxicity of Dianodic II, Betz Slimicide DE-364 and Betz Slimicide 508 to Four Intertidal Benthic Marine Invertebrates|Tech.Rep.No.82-3, Taranaki Catchment Commission and Regional Water Board, Stratford, New Zealand:212 p.|1982|
5992|AT||Cutkomp,L.K.|A Tissue Enzyme Assay for Chlorinated Hydrocarbon Insecticides|EPA 660/2-73-027, U.S.EPA, Washington, DC:39 p.|1974|
5993|A||Braunbeck,T., and H. Segner|Preexposure Temperature Acclimation and Diet as Modifying Factors for the Tolerance of Golden Ide (Leuciscus idus melanotus) to Short-Term Exposure to|Ecotoxicol. Environ. Saf.24(1):72-94|1992|10.1016/0147-6513(92)90037-4
5994|A||Dutta,H.M., J.S.D. Munshi, P.K. Roy, N.K. Singh, and C.R. Richmonds|Variation in Toxicity of Malathion to Air and Water-Breathing Teleosts|Bull. Environ. Contam. Toxicol.49(2): 279-284|1992|10.1007/BF00191767
5995|A||Duursma,E.K., and A. Hanafi|Use of Pesticides in Brackish Water Ponds. 1. Effects of Diazinon on Fish and Shrimp|Bull. Shrimp Cult. Res. Cent.1(2): 56-68|1975|
5996|A||Eddlemon,G.K.|The Effects of Three Herbicides on Larvae of the Phantom Midge, 'Chaoborus punctipennis' (Say)|M.S.Thesis, University of Tennessee, Knoxville, TN:61 p.|1974|
5997|A||Engstrom-Heg,R., R.T. Colesante, and E. Silco|Rotenone Tolerances of Stream-Bottom Insects|N. Y. Fish Game J.25(1): 31-41|1978|
5999|A||Fisher,J.W., C.B. Harrah, L.K. Weaver, and W.I. Wingo|Acute and Behavioral Effects of Hydrazine on Lepomis macrochirus|Aerospace Med.Res.Lab., Wright-Patterson Air Force Base, OH:10 p.|1978|
6000|A||Lee,H.L., B. Lustigman, V. Schwinge, I.Y. Chiu, and S. Hsu|Effect of Mercury and Cadmium on the Growth of Anacystis nidulans|Bull. Environ. Contam. Toxicol.49(2): 272-278|1992|10.1007/BF00191766
6001|A||Frick,L.P., and W.Q. Dejimenez|Molluscicidal Qualities of Three Organo-tin Compounds Revealed by 6-Hour and 24-Hour Exposures Against Representative Stages and Sizes of Australorbis glabratus|Bull. W. H. O.31:429-431|1964|
6002|A||Ferrando,M.D., and E. Andreu-Moliner|Acute Toxicity of Toluene, Hexane, Xylene, and Benzene to the Rotifers Brachionus calyciflorus and Brachionus plicatilis|Bull. Environ. Contam. Toxicol.49(2): 266-271|1992|10.1007/BF00191765
6003|A||Gentile,J.H., J. Cardin, M. Johnson, and S. Sosnowski|Power Plants, Chlorine and Estuaries|EPA-600/3-76-055, U.S.EPA, Narragansett, RI:39 p.|1976|
6004|A||Ufodike,E.B.C., and E. Omoregie|Growth of Nile Tilapia Oreochromis niloticus niloticus Subjected to Sublethal Concentrations of Gammalin 20 and Actellic 25 EC in a Continuous-Flow|J. Aquat. Anim. Health3(3): 221-223|1991|10.1577/1548-8667(1991)003<0221:CGONTO>2.3.CO;2
6005|A||Hitchen,C.S., and H.H. Goiny|Note: On the Control of Simulium damnosum in the Region of the Kainji Dam Project Northern Nigeria|WHO/Oncho 66.43/7, 65, Working Paper for W.H.O.Expert Committee on Onchocerciasis:|1965|
6006|A|OECDG|Hentrich,C., G. Schmaland, and D. Kramer|Possibilities for Estimating the Actual Toxicity of Aquatic Contamination Using Laboratory Models with Ecosystem Characters|Acta Hydrochim. Hydrobiol. (Multiple Languages)6(3): 183-190|1978|10.1002/aheh.19780060302
6007|A||Kotila,P.M., and W.L. Hilsenhoff|Effects of Antimycin on Stream Insects|Water Resour.Ctr., Univ.of Wisconsin, Madison, WI:55 p.|1978|
6008|A||Hirose,K., and K. Kawakami|Effects of Insecticides, Oil Dispersants and Synthetic Detergent on the Embryonic Development in Medaka, Oryzias latipes|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)91:9-17|1977|
6009|A||Bader,J.A., and J.M. Grizzle|Effects of Ammonia on Growth and Survival of Recently Hatched Channel Catfish|J. Aquat. Anim. Health4(1): 17-23|1992|10.1577/1548-8667(1992)004<0017:EOAOGA>2.3.CO;2
6010|A||Inman,R.C.|Acute Toxicity of Phos-Check (Trade Name) 202 and Diammonium Phosphate to Fathead Minnows|Environ.Health Lab., Kelly Air Force Base, TX:13 p.|1974|
6011|A||Shumway,S.E., D. Card, R. Getchell, and C. Newell|Effects of Calcium Oxide (Quicklime) on Non-Target Organisms in Mussel Beds|Bull. Environ. Contam. Toxicol.40(4): 503-509|1988|10.1007/BF01688373
6012|A||Keeney,M.|Biochemical and Nutritional Interactions between the Oyster (Crassostrea virginica Gmelin) and its Environment|Tech. Rep., Univ. of Maryland, College Park, MD:5 p.|1979|
6013|A||Ansari,B.A., and K. Kumar|Cypermethrin Toxicity:  Effect on the Carbohydrate Metabolism of the Indian Catfish, Heteropneustes fossilis|Sci. Total Environ.72:161-166|1988|10.1016/0048-9697(88)90014-9
6015|A||Speyer,M.R., and P. Raymond|The Acute Toxicity of Thiocyanate and Cyanate to Rainbow Trout As Modified by Water Temperature and pH|Environ. Toxicol. Chem.7(7):565-571|1988|10.1002/etc.5620070705
6016|A||Lakota,S., A. Raszka, J. Roszkowski, S. Hlond, F. Kozlowski, and J. Stefan|Examinations of the Toxicity of Diuron, Linuron, Monolinuron and Monuron for the Carp Fry in the Acute Test|Med. Weter. (Multiple Languages)34(1): 20-22|1977|
6017|A||Lustigman,B., J.M. McCormick, G. Dale, and J.J.A. McLaughlin|Effect of Increasing Copper and Salinity on Glycerol Production by Dunaliella salina|Bull. Environ. Contam. Toxicol.38(2): 359-362|1987|10.1007/BF01606687
6018|A||Maund,S.J., E.J. Taylor, and D. Pascoe|Population Responses of the Freshwater Amphipod Crustacean Gammarus pulex (L.) to Copper|Freshw. Biol.28(1): 29-36|1992|10.1111/j.1365-2427.1992.tb00559.x
6019|A||Liberatore,G.L., D.K. Christian, and J.M. Raines|Standard Bioassay Using the Barnacle Larva|David W.Taylor Naval Ship Res.Dev.Ctr., Annapolis, MD:12 p.|1977|
6020|A||Lingaraja,T., and V.K. Venugopalan|Pesticide Induced Physiological and Behavioural Changes in an Estuarine Teleost Therapon jarbua (Forsk)|Fish. Technol.15(2): 115-119|1978|
6021|A||Liu,D.H.W., R.J. Spanggord, and H.C. Bailey|Toxicity of TNT Wastewater (Pink Water) to Aquatic Organisms|Contract No.DAMD 17-75-C-5056, Defense Tech.Inf.Ctr., No.ADA031067, U.S.Army Med.Res.Develop.Command, Washington, DC:33-|1976|
6022|A||Lubinski,K.S., R.E. Sparks, and L.A. Jahn|The Development of Toxicity Indices for Assessing the Quality of the Illinois River|WRC Res.Report No.96, University of Illinois, Water Resour.Center, Urbana, IL:46 p.|1974|
6023|A||Muir,D.C.G., A.L. Yarechewski, D.A. Metner, and W.L. Lockhart|Dietary 2,3,7,8-Tetrachlorodibenzofuran in Rainbow Trout:  Accumulation, Disposition, and Hepatic Mixed-Function Oxidase Enzyme Induction|Toxicol. Appl. Pharmacol.117(1): 65-74|1992|10.1016/0041-008X(92)90218-H
6024|A||Jana,S., and M.A. Choudhuri|Senescence in Submerged Aquatic Angiosperms: Effects of Heavy Metals|New Phytol.90:477-484|1982|10.1111/j.1469-8137.1982.tb04480.x
6025|A||Mason,J.W., A.A. Abdelghani, A.C. Anderson, and A.J. Englande|A Study of the Distribution and Fate of MSMA in Crayfish and Blackberries|Res.Proj.No.74-1M, Tulane Univ.Dep.Environ.Health Sci., La.Dep.of Highways:86 p.|1976|
6026|A||Munoz,M.J., and J.V. Tarazona|Synergistic Effect of Two- and Four-Component Combinations of the Polycyclic Aromatic Hydrocarbons: Phenanthrene, Anthracene, Naphthalene and Acenaphthene on Daphnia magna|Bull. Environ. Contam. Toxicol.50(3): 363-368|1993|10.1007/BF00197195
6027|A||Shehata,S.A., M.A. El Dib, and H.F. Abou-Waly|Effect of Triazine Compounds on Freshwater Algae|Bull. Environ. Contam. Toxicol.50(3): 369-376|1993|10.1007/BF00197196
6028|A||McCain,J.C.,Jr.|The Toxicity of Selected Chemicals Used in Power Generating Stations to Hawaiian Fishes|Sea Grant Tech.Report UNIHI-Seagrant-TR-77-01, National Oceanic & Atmos.Admin., Rockville, MD:17 p.|1976|
6029|A||Timmermans,K.R., W. Peeters, and M. Tonkes|Cadmium, Zinc, Lead and Copper in Chironomus riparius (Meigen) Larvae (Diptera, Chironomidae): Uptake and Effects|Hydrobiologia (Multiple Languages)241(2): 119-134|1992|10.1007/BF00008264
6030|A||Stratton,G.W., and T.M. Smith|Interaction of Organic Solvents with the Green Alga Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.40(5): 736-742|1988|10.1007/BF01697524
6031|A||McKim,J.M., G.F. Olson, G.W. Holcombe, and E.P. Hunt|Long-Term Effects of Methylmercuric Chloride on Three Generations of Brook Trout (Salvelinus fontinalis): Toxicity, Accumulation, Distribution and Elimination|J. Fish. Res. Board Can.33(12): 2726-2739|1976|10.1139/f76-324
6032|A||Middaugh,D.P., A.M. Crane, and J.A. Couch|Toxicity of Chlorine to Juvenile Spot, Leiostomus xanthurus|Water Res.11(12): 1089-1096|1977|10.1016/0043-1354(77)90010-0
6033|A||Mills,W.L.|Bioassay Procedure to Evaluate the Acute Toxicity of Salinity and Geothermal Pollutants (Pesticides) to Gambusia affinis|North Carolina Central University, Durham, NC:20 p.|1977|
6034|A||Matida,Y., S. Kimura, H. Tanaka, and M. Yokote|Effects of Some Herbicides Applied in the Forest to the Freshwater Fishes and Other Aquatic Organisms - III. Experiments on the Assessment of Acute|Bull. Freshw. Fish. Res. Lab. (Tokyo)26(2): 79-84|1976|
6035|A||Nelson,J.H., and E.S.,Jr. Evans|Field Evaluation of the Larvicidal Effectiveness, Effects on Nontarget Species and Environmental Residues of a Slow-Release Polymer Formulation of Chlorpyrifos March - October 1973|Rep.No.44-022-73/75, U.S.Army Health Serv.Command, Fort Sam Houston, TX:188 p.|1973|
6036|A||Nimmo,D.R., L.H. Bahner, R.A. Rigby, J.M. Sheppard, and A.J.,Jr. Wilson|Mysidopsis bahia: An Estuarine Species Suitable for Life-Cycle Toxicity Tests to Determine the Effects of a Pollutant|ASTM Spec. Tech. Publ.:109-116|1977|
6037|A||Mehta,S., R.C. Srivastava, and A.N. Gupta|Relative Toxicity of Some Non-Insecticidal Chemicals to the Free Living Larvae Guinea-Worm (Dracunculus medinensis)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 397-400|1982|10.1002/aheh.19820100413
6038|A||Nunogawa,J.H., N.C.,Jr. Burbank, R.H.F. Young, and L.S. Lau|Relative Toxicities of Selected Chemicals to Several Species of Tropical Fish|Water Resour.Res.Ctr., Univ.of Hawaii, Honululu, HI:38 p.|1970|
6039|A||McLusky,D.S., and L. Hagerman|The Toxicity of Chromium, Nickel and Zinc: Effects of Salinity and Temperature, and the Osmoregulatory Consequences in the Mysid Praunus flexuosus|Aquat. Toxicol.10:225-238|1987|10.1016/0166-445X(87)90014-2
6040|A||Pearson,J.G.|The Toxicity of the Riot Control Agent CS (O-Chlorobenzylidene Malononitrile) and Its Hydrolysis Products to the Mummichog, Fundulus heteroclitus|Edgewood Arsenal, Aberdeen Proving Ground, MD:24 p.|1975|
6041|A||Pederson,G.L.|Evaluation of Toxicity of Selected TNT Wastes on Fish:  Phase I - Acute Toxicity of alpha-TNT to Bluegills|Sanitary Eng.Special Study, No.24-007-70/71, U.S.Army Environ.Hyg.Agency, Edgewood Arsenal, MD:35 p.|1970|
6042|A||Tidou,A.S., J.C. Moreteau, and F. Ramade|Effects of Lindane and Deltamethrin on Zooplankton Communities of Experimental Ponds|Hydrobiologia (Multiple Languages)232(2): 157-168|1992|10.1007/BF00017475
6043|A||Poston,T.M.|Effects of Phenol on ATPase Activities in Crude Gill Homogenates of Rainbow Trout (Salmo gairdneri Richardson)|Report PNL-2697 Batelle Pacific Northwest National Laboratories, Richland, WA:60 p.|1979|
6044|A||Rao,M.B., and U.K. Mane|The Effect of Carbofos on the Survival Rate and Respiration of Black Sea Mussels (Mytilus galloprovincialis)|Hydrobiol. J.14(6): 90-94|1978|
6045|A||Reeve,M.R., G.D. Grice, V.R. Gibson, M.A. Walter, K. Darcy, and T. Ikeda|A Controlled Environmental Pollution Experiment (CEPEX) and Its Usefulness in the Study of Larger Marine Zooplankton Under Toxic Stress|In: A.P.M.Lockwood, Effects of Pollutants on Aquatic Organisms, Vol. 2, Cambridge Univ. Press:145-162|1976|
6046|A||Struble,V.G., and H.J. Harmon|Effect of Naphthalene on Soil and Fresh-Water Algae|In: N.N.Durham and A.E.Redelfs (Eds.), Proc.2nd Int.Conf.Ground Water Quality Research, National Center for Groundwater Research, Houston, TX:214-216|1985|
6047|A||Schaumburg,F.D.|Freeze Concentration of Toxic Pollutants for Bioassay|Water Resour.Res.Inst., Oregon State University, Corvallis, OR:24 p.|1974|
6048|A||Schimmel,S.C., J.M.,Jr. Patrick, and L.F. Faas|Effects of Sodium Pentachlorophenate on Several Estuarine Animals:  Toxicity, Uptake, and Depuration|In: EPA-600/J-78-078, K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology, and Environmental Toxicology, Plenum Press, New York, NY:147-155|1978|
6049|A||Schmulbach,J.C.|Effects of Chlorinated Hydrocarbon Insecticides on the Freshwater Seed Shrimp|South Dakota University, Vermillion, SD:60 p.|1969|
6050|A||McCorkle,F.M., J.E. Chambers, and J.D. Yarbrough|Tolerance of Low Oxygen Stress in Insecticide-Resistant and Susceptible Populations of Mosquitofish (Gambusia affinis)|Life Sci.25(17): 1513-1518|1979|10.1016/0024-3205(79)90377-1
6051|A||Shifrer,C.C., E.J. Middlebrooks, D.B. Porcella, and W.F. Sigler|Effects of Temperature on the Toxicity of Oil Refinery Waste, Sodium Chlorate, and Treated Sewage to Fathead Minnows|In: Effects of Temperature on the Toxicity of Oil Refinery Waste, Sodium Chlorate, and Treated Sewage to Fathead Minnows, Utah Water Research Lab, College of Engineering, Utah State University, Logan, UT:79 p.|1974|
6052|A||Thybaud,E., and S. Le Bras|Absorption and Elimination of Lindane by Asellus aquaticus (Crustacea, Isopoda)|Bull. Environ. Contam. Toxicol.40(5):731-735|1988|10.1007/BF01697523
6054|A||Gerhardt,A.|Acute Toxicity of Cd in Stream Invertebrates in Relation to pH and Test Design|Hydrobiologia (Multiple Languages)239(2): 93-100|1992|10.1007/BF00012575
6055|A||Van Leeuwen,C.J., J.L. Buchner, and H. Van Dijk|Intermittent Flow System for Population Toxicity Studies Demonstrated with Daphnia and Copper|Bull. Environ. Contam. Toxicol.40(4): 496-502|1988|10.1007/BF01688372
6056|A||Verma,S.R., M. Saxena, and I.P. Tonk|The Influence of Idet 20 on the Biochemical Composition and Enzymes in the Liver of Clarias batrachus|Environ. Pollut. A.33(3): 245-255|1984|10.1016/0143-1471(84)90014-X
6057|A||Stainken,D.M.|The Effect of a No. 2 Fuel Oil and a South Louisiana Crude Oil on the Behavior of the Soft Shell Clam, Mya arenaria L.|Bull. Environ. Contam. Toxicol.16(6): 724-729|1976|10.1007/BF01685580
6059|A||Wester,P.W., J.H. Canton, and J.A.M. Dormans|Pathological Effects in Freshwater Fish Poecilia reticulata (Guppy) and Oryzias latipes (Medaka) Following Methyl Bromide and Sodium Bromide|Aquat. Toxicol.12(4): 323-344|1988|10.1016/0166-445X(88)90060-4
6060|A||Swift,D.J.|Some Effects of Exposing Rainbow Trout (Salmo gairdneri Richardson) to Phenol Solutions|J. Fish Biol.13(1): 7-17|1978|10.1111/j.1095-8649.1978.tb03408.x
6061|A||Hall,L.W.,Jr., D.T. Burton, and S.L. Margrey|The Influence of Acclimation Temperature on the Interactions of Chlorine, Elevated Temperature, and Exposure Duration for Grass Shrimp, Palaemonetes|Trans. Am. Fish. Soc.108(6): 626-631|1979|10.1577/1548-8659(1979)108<626:TIOATO>2.0.CO;2
6062|A||Thomas,D.L., and J.G. Montes|Spectrophotometrically Assayed Inhibitory Effects of Mercuric Compounds on Anabaena flos-aquae and Anacystis nidulans (Cyanophyceae)|J. Phycol.14(4): 494-499|1978|10.1111/j.1529-8817.1978.tb02475.x
6063|A||Topping,G.|Measurement and Effects of Sub-Lethal Levels of Some Heavy Metals on Marine Life in Simulated Marine Ecosystems|In: Proc.Anal.Div.Chem.Soc.14(8): 222-224|1977|
6064|A||Trabalka,J.R., and C.W. Gehrs|An Observation on the Toxicity of Hexavalent Chromium to Daphnia magna|Toxicol. Lett.1(3): 131-134|1977|10.1016/0378-4274(77)90002-9
6065|A||Varanka,I.|The Effect of Some Pesticides on the Rhythmic Activity of Adductor Muscle of Fresh-Water Mussel Larvae|Acta Biol. Acad. Sci. Hung.28(3): 317-332|1977|
6066|A||Ghazaly,K.S.|Sublethal Effects of Nickel on Carbohydrate Metabolism, Blood and Mineral Contents of Tilapia nilotica|Water Air Soil Pollut.64(3-4): 525-532|1992|10.1007/BF00483362
6067|A||Videau,C., M. Khalanski, and M. Penot|The Chlorination Effects of Monospecific Cultures of Marine Phytoplankton. Preliminary Results|J. Rech. Oceanogr. (Non-English)3(2): 19-28|1978|
6068|A||Ghazaly,K.S.|Hematological and Physiological Responses to Sublethal Concentrations of Cadmium in a Freshwater Teleost, Tilapia zillii|Water Air Soil Pollut.64(3-4): 551-559|1992|10.1007/BF00483365
6069|A||Wilber,C.G.|"A Mathematical Description of the Toxicity of ""Sernyl"" to Goldfish"|Ohio J. Sci.65(1): 43-46|1965|
6070|A||Wolf,E.G., J. Schneider, K.O. Schwarzmiller, and T.O. Thatcher|Toxicity Tests on the Combined Effects of Chlorine and Temperature on Rainbow (Salmo gairdneri) and Brook (Salvelinus fontinalis) Trout|Battelle Pacific Northwest Labs.Richland, WA:17 p.|1975|
6071|A||Wolverton,B.C., D.D. Harrison, and R.C. Voight|Toxicity of CS-2 Decontamination Products|Tech.Report AFATL-TR-70-68, Air Force Armament Laboratory, Eglin Air Force Base, FL:13 p.|1970|
6073|A||Zimakowska-Gnoinska,D.|Toxicological and Physiological Aspects of the Action of Herbicide, Sodium Salt of 2,4-D on Asellus aquaticus L. (Isopoda)|Pol. Arch. Hydrobiol.24(3): 389-411|1977|
6074|A||Woodall,C., N. MacLean, and F. Crossley|Responses of Trout Fry (Salmo gairdneri) and Xenopus laevis Tadpoles to Cadmium and Zinc|Comp. Biochem. Physiol. C Comp. Pharmacol.89(1): 93-99|1988|10.1016/0742-8413(88)90151-X
6075|A||Ackermann,H., H. Beitz, W. Dedek, K. Grahl, E. Ruffle, W. Georgi, and R. Reinhardt|Hygienic and Toxicological Examination of Butonate. (Zur Hygienisch-Toxikologischen Beurteilung von Butonat)|Z. Gesamte Hyg. Grenzgeb.25(7): 512-518|1979|
6076|A||Anderson,R.J., and K.V. Prahlad|The Deleterious Effects of Fungicides and Herbicides on Xenopus laevis Embryos|Arch. Environ. Contam. Toxicol.4(3): 312-323|1976|10.1007/BF02221030
6077|A||Yamada,H., and K. Takayanagi|Bioconcentration and Elimination of Bis(Tributyltin)Oxide (TBTO) and Triphenyltin Chloride (TPTC) in Several Marine Fish Species|Water Res.26(12): 1589-1595|1992|10.1016/0043-1354(92)90158-Z
6078|A||Nell,J.A., and J.E. Holliday|Effects of Potassium and Copper on the Settling Rate of Sydney Rock Oyster (Saccostrea commercialis) Larvae|Aquaculture58(3-4): 263-267|1986|10.1016/0044-8486(86)90091-8
6079|A||Reeve,M.R., M.A. Walter, K. Darcy, and T. Ikeda|Evaluation of Potential Indicators of Sub-Lethal Toxic Stress on Marine Zooplankton (Feeding, Fecundity, Respiration, and Excretion): Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 105-113|1977|
6081|A||Cardwell,R.D.|Relative Acute Toxicity of a Pesticide, Heavy Metal and Anionic Surfactants to Marine Organisms|Proc. Natl. Shellfish. Assoc.66:107-|1976|
6082|A||Fales,R.R.|The Influence of Temperature and Salinity on the Toxicity of Hexavalent Chromium to the Grass Shrimp Palaemonetes pugio (Holthuis)|Bull. Environ. Contam. Toxicol.20(4): 447-450|1978|10.1007/BF01683547
6083|A||Burress,R.M.|Development and Evaluation of On-Site Toxicity Test Procedures for Fishery Investigations|Invest.Fish Control No.68, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:11 p.|1975|
6084|A||D'Silva,C., and X.N. Verlencar|Relative Toxicity of Two Ammonium Compounds Found in the Waste of Fertilizer Plants|Mahasagar9(1/2): 41-44|1976|
6085|A||Hirose,Y., and M. Yasuno|Toxicity Test of Some Molluscicides with Juveniles of the Guppy, Poecilia reticulata|Eisei Dobutsu30(2): 167-171|1980|10.7601/mez.30.167
6086|A||Fletcher,G.L., and R.J. Hoyle|Acute Toxicity of Yellow Phosphorus to Atlantic Cod (Gadus morhua) and Atlantic Salmon (Salmo salar) Smolts|J. Fish. Res. Board Can.29(9): 1295-1301|1972|10.1139/f72-197
6087|A||Hunn,J.B., and J.L. Allen|Renal Excretion in Coho Salmon (Oncorhynchus kisutch) After Acute Exposure to 3-Trifluoromethyl-4-Nitrophenol|J. Fish. Res. Board Can.32(10): 1873-1876|1975|10.1139/f75-226
6088|A||Jorgensen,K.F., and K. Jensen|Effect of Copper (II) Chloride on the Hatching Rate of Artemia salina (L.)|Chemosphere6(6): 287-291|1977|10.1016/0045-6535(77)90092-3
6090|A||El-Refai,A., F.A. Fahmy, M.F.A. Abdel-Lateef, and A.K.E. Imam|Toxicity of Three Insecticides to Two Species of Fish|Int. Pest Control18(6): 4-8|1976|
6091|A||Koundinya,P.R., and R. Ramamurthi|Tissue Respiration in Tilapia mossambica Exposed to Lethal (LC50) Concentration of Sumithion and Sevin|Indian J. Environ. Health20(4): 426-428|1979|
6092|A||Apasheva,L.M., K.D. Poltorak, S.I. Ptitsina, and V.A. Shevchenko|Influence of Stimulating and Blocking Concentrations of Phosphororganic Pesticides on Hydrobionts Growth|Aquat. Sci. Fish. Abstr.16(6): 10118-1Q16|1986|
6093|A||Abel,P.D.|Toxic Action of Several Lethal Concentrations of An Anionic Detergent on the Gills of the Brown Trout (Salmo trutta L.)|J. Fish Biol.9(5): 441-446|1976|10.1111/j.1095-8649.1976.tb04692.x
6094|A||Agrawal,S.J., and A.K. Srivastava|Haematological Responses in a Fresh Water Fish to Experimental Manganese Poisoning|Toxicology17(1): 97-100|1980|10.1016/0300-483X(80)90031-1
6095|A||Akberali,H.B., and J.E. Black|Behavioural Responses of the Bivalve Scrobicularia plana (Dacosta) Subjected to Short-Term Copper (Cu II) Concentrations|Mar. Environ. Res.4(2): 97-107|1980|10.1016/0141-1136(80)90048-3
6096|A||Alekseyev,V.A.|Toxicological Characteristics and Symptom Complex of Acute Phenol Intoxication of Aquatic Insects and Arachnids|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:72-89|1973|
6097|A||Amiard,J.C.|Experimental Study on the Acute Toxicity of Cobalt, Antimony, Strontium and Silver Salts in Some Crustacea and Their Larvae and Some Teleostei|Rev. Int. Oceanogr. Med. (Multiple Languages)43:79-95|1976|
6098|A||Amminikutty,C.K., and M.S. Rege|Effects of Acute and Chronic Exposure to Pesticides, Thiodan E.C.35 and Agallol '3' on the Liver of Widow Tetra Gymnocorymbus ternetzi (Boulenger)|Indian J. Exp. Biol.15(3): 197-200|1977|
6099|A||Anees,M.A.|Hepatic Pathology in a Fresh-Water Teleost Channa punctatus (Bloch) Exposed to Sub-lethal and Chronic Levels of Three Organophosphorus Insecticides|Bull. Environ. Contam. Toxicol.19(5): 524-527|1978|10.1007/BF01685836
6100|A||Anees,M.A.|Intestinal Pathology in a Freshwater Teleost, Channa punctatus (Bloch) Exposed to Sub-lethal and Chronic Levels of Three Organophosphorus Insecticides|Acta Physiol. Latinoam.26(1): 63-67|1976|
6101|A||Baghdiguian,S., and A. Riva|Metabolic Modifications Brought by the Synergic Action of Cadmium and Experimental Starvation of Clams Ruditapes decussatus|Aquat. Sci. Fish. Abstr.16(10): 16036-1Q16|1986|
6102|A||Ardo,J.|K Otazke Akutnej Toxicity Niektorych Pesticidov. (Acute Toxicity of Some Pesticides)|Vodni Hospod.24(8): 222-224|1974|
6103|A||Bermane,S., V.A. Linyuchev, and R. Andrusaite|Penetration of Lead into the Bodies of Fish|C. A. Sel. Environ. Pollut.6:2-|1987|
6105|A||Fujiki,M., R. Hirota, and S. Yamaguchi|The Mechanism of Methylmercury Accumulation in Fish|EPA-600/3-77-083, Office of Radiation Programs Tech.Report, U.S.EPA:89-95|1977|
6106|A||Brock,T.C.M., S.J.H. Crum, R. Van Wijngaarden, B.J. Budde, J. Tijink, A. Zuppelli, and P. Leeuwangh|Fate and Effects of the Insecticide Dursban 4E in Indoor Elodea-Dominated and Macrophyte-Free Freshwater Model Ecosystems: I. Fate and Primary|Arch. Environ. Contam. Toxicol.23(1): 69-84|1992|10.1007/BF00225998
6107|A||Misra,V., G. Puri, S.D. Pandey, and P.N. Viswanathan|Influence of Linear Alkyl Benzene Sulphonate on the Distribution of Hexachlorocyclohexane Isomers Among Sediment-Water and Biota Compartments|Arch. Environ. Contam. Toxicol.23(1): 54-58|1992|10.1007/BF00225995
6108|A||Cairns,J.,Jr., W.F. Calhoun, M.J. McGinniss, and W. Straka|Aquatic Organisms Response to Severe Stress Following Acutely Sublethal Toxicant Exposure|Water Resour. Bull.12(6): 1233-1243|1976|10.1111/j.1752-1688.1976.tb00258.x
6109|A||Cairns,J.,Jr., D.I. Messenger, and W.F. Calhoun|Invertebrate Response to Thermal Shock Following Exposure to Acutely Sub-Lethal Concentrations of Chemicals|Arch. Hydrobiol.77(2): 164-175|1976|
6110|A||Cascella,P.J., and S. Feldman|Effect of Lidocaine and Derivatives on Time of Death and Overturn in Goldfish|J. Pharm. Sci.68(4): 401-407|1979|10.1002/jps.2600680403
6111|A||Bluzat,R., and J. Seuge|Effects of Intoxication by Thiram Present in the Environment or in the Food of the Crustacean Gammarus pulex|Environ. Pollut. A.31(2): 133-147|1983|10.1016/0143-1471(83)90005-3
6112|A||Conger,K.A., M.L. Swift, J.B. Reeves III, and S. Lakshmanan|Shell Growth of Unfed Oysters in the Laboratory: A Sublethal Bioassay System for Pollutants|Life Sci.22(3): 245-254|1978|10.1016/0024-3205(78)90525-8
6114|A||Fairchild,J.F., E.E. Little, and J.N. Huckins|Aquatic Hazard Assessment of the Organophosphate Insecticide Fonofos|Arch. Environ. Contam. Toxicol.22(4): 375-379|1992|10.1007/BF00212556
6116|A||Daoust,P.Y.|Acute Pathological Effects of Mercury, Cadmium and Copper in Rainbow Trout|Ph.D.Thesis, Saskatoon, Saskatchewan:331 p.|1981|
6117|A||Molander,S., B. Dahl, H. Blanck, J. Jonsson, and M. Sjostrom|Combined Effects of Tri-n-butyl Tin (TBT) and Diuron on Marine Periphyton Communities Detected as Pollution-Induced Community Tolerance|Arch. Environ. Contam. Toxicol.22(4): 419-427|1992|10.1007/BF00212562
6118|A||Chen,J.C., and F.H. Nan|Effect of Ambient Ammonia on Ammonia-N Excretion and ATPase Activity of Penaeus chinensis|Aquat. Toxicol.23(1): 1-10|1992|10.1016/0166-445X(92)90008-B
6119|A||Farr,J.A.|Impairment of Antipredator Behavior in Palaemonetes pugio by Exposure to Sublethal Doses of Parathion|Trans. Am. Fish. Soc.106(3): 287-290|1977|10.1577/1548-8659(1977)106<287:IOABIP>2.0.CO;2
6120|A||Fletcher,G.L., and R.F. Addison|Some Aspects of the Chemistry and Acute Toxicity of the Iron Ore Flotation Agent Dimethyl Ammonium Alkyl Hydroxamate and Some Related Compounds to Brook Trout|Bull. Environ. Contam. Toxicol.7(2/3): 147-159|1972|10.1007/BF01684806
6121|A||Thomas,P., and M.J. Juedes|Influence of Lead on the Glutathione Status of Atlantic Croaker Tissues|Aquat. Toxicol.23(1): 11-30|1992|10.1016/0166-445X(92)90009-C
6122|A||Forward,R.B.,Jr., and J.D.,Jr. Costlow|Sublethal Effects of Insect Growth Regulators upon Crab Larval Behavior|Water Air Soil Pollut.9(2): 227-238|1978|10.1007/BF00280709
6124|A||Funasaka,R., Y. Ose, and T. Sato|Studies on the Offensive-Odor Fish of the Nagara River.  VII.  Median Tolerance Limit Test of the Offensive-Odor Substances|Eisei Kagaku (Multiple Languages)22(1): 20-23|1976|
6125|A||Gould,E., and J.R. MacInnes|Short-Term Effects of Two Silver Salts on Tissue Respiration and Enzyme Activity in the Cunner (Tautogolabrus adspersus)|Bull. Environ. Contam. Toxicol.18(4): 401-408|1977|10.1007/BF01683708
6126|A||Schwaiger,J., F. Bucher, H. Ferling, W. Kalbfus, and R.D. Negele|A Prolonged Toxicity Study on the Effects of Sublethal Concentrations of Bis(Tri-n-Butyltin)Oxide (TBTO): Histopathological and Histochemical Findings in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.23(1): 31-48|1992|10.1016/0166-445X(92)90010-K
6127|A||Boyle,T.P., S.E. Finger, J.D. Petty, L.M. Smith, and J.N. Huckins|Distribution and Rate of Disappearance of Fluorene in Pond Ecosystems|Chemosphere13(9): 997-1008|1984|10.1016/0045-6535(84)90059-6
6128|A||Hirose,K., and M. Kitsukawa|Acute Toxicity of Agricultural Chemicals to Seawater Teleosts, with Special Respect to TLm and the Vertebral Abnormality|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)84:11-20|1976|
6129|A||Huda,J., and Z. Svobodova|Akutni Toxicita Biocidnich Preparatu Nalco 43-10 a Nalfloc N 206 Pro Ryby. (Acute Toxicity of the Biocide Preparations Nalco 43-10 and Nafloc 206|Veterinarstvi27(10): 463-464|1977|
6130|A||Iwama,G.K., G.L. Greer, and P.A. Larkin|Changes in Some Hematological Characteristics of Coho Salmon (Oncorhynchus kisutch) in Response to Acute Exposure to Dehydrobietic Acid (DHAA) at Different Exercise Levels|J. Fish. Res. Board Can.33(2): 285-289|1976|10.1139/f76-041
6131|A||Buzinova,N.S., O.P. Danil'chenko, R.D. Ozrina, and O.V. Parina|Changes in Structural and Functional Indexes in Relation to the Level of Organotin Compound Accumulation in Fish and Mollusks|C. A. Sel. Environ. Pollut.7:1-|1987|
6132|A|RUSSN|Kokuricheva,M.P.|Mechanism of Action of Lethal Concentrations of Chlorophos|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )5:162-168|1973|
6133|A||Koval'Chuk,L.Y., I.I. Perevozchenko, and L.P. Braginskii|Acute Toxicity of Yalan, Eptam and Sevin for Daphnia magna|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )2:56-64|1971|
6134|A||Brown,C.J.D., and R.C. Ball|An Experiment in the Use of Derris Root (Rotenone) on the Fish and Fish-Food Organisms of Third Sister Lake|Trans. Am. Fish. Soc.72:267-284|1943|10.1577/1548-8659(1942)72[267:AEITUO]2.0.CO;2
6135|A||Nowak,B.|Histological Changes in Gills Induced by Residues of Endosulfan|Aquat. Toxicol.23(1): 65-84|1992|10.1016/0166-445X(92)90012-C
6136|A||Callahan,P., and J.S. Weis|Methylmercury Effects on Regeneration and Ecdysis in Fiddler Crabs (Uca pugilator, U. pugnax) After Short-Term and Chronic Pre-Exposure|Arch. Environ. Contam. Toxicol.12(6): 707-714|1983|10.1007/BF01060755
6137|A||Diamond,J.M., E.L. Winchester, D.G. Mackler, W.J. Rasnake, J.K. Fanelli, and D. Gruber|Toxicity of Cobalt to Freshwater Indicator Species as a Function of Water Hardness|Aquat. Toxicol.22(3): 163-180|1992|10.1016/0166-445X(92)90038-O
6139|A||Maggi,P., and D. Cossa|Relative Harmfulness of Five Anionic Detergents in the Sea. I. Acute Toxicity with Regard to Fifteen Organisms|Rev. Trav. Inst. Peches Marit. (Non-English):411-417|1973|
6140|A||Mann,H.|Fish Test with Golden Orfe for Comparative Checks of Acute Toxicity of Water Contaminants and Effluents - Practical Experiences of Three Ring Tests|Z. Wasser-Abwasser-Forsch. (Multiple Languages)9(4): 103-109|1976|
6141|A||Mathews,J.G., J.B. Favor, and J.W. Crenshaw|Dominant Lethal Effects of Triethylenemelamine in the Guppy Poecilia reticulata|Mutat. Res.54:149-157|1978|10.1016/0165-1161(78)90035-3
6142|A||Alekseyev,V.A.|A Comparison of Tolerance to Phenol Exhibited by Aquatic Insects and Arachnida During Ontogenesis|Hydrobiol. J.14(6): 83-89|1978|
6144|A|RUSSN|Mezhnin,F.I.|Histological Changes in Organs and Tissues of Lebistes reticulatus Under Conditions of Acute Phenol Intoxication|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:44-52|1973|
6145|A||Nagendran,R., and K. Shakuntala|Studies on Toxicity of Biocides to Cyprinid Forage Fishes:  Part I - Effects of Sublethal Concentrations of Sodium Pentachlorophenate on the Ecophysiology of Puntius ticto (Ham)|Indian J. Exp. Biol.17(3): 270-273|1979|
6146|A||Okudaira,H.|Hymexazol, a New Plant Protecting Agent. V. Safety Tests|Sankyo Kenkyusho Nempo73(25): 48-51|1973|
6147|A|OECDG|Molander,S., and H. Blanck|Detection of Pollution-Induced Community Tolerance (PICT) in Marine Periphyton Communities Established Under Diuron Exposure|Aquat. Toxicol.22(2): 129-144|1992|10.1016/0166-445X(92)90028-L
6148|A||LeMaire-Gony,S., and P. Lemaire|Interactive Effects of Cadmium and Benzo(a)pyrene on Cellular Structure and Biotransformation Enzymes of the Liver of the European Eel Anguilla anguilla|Aquat. Toxicol.22(2):145-160|1992|10.1016/0166-445X(92)90029-M
6149|A||Darrow,D.C., R.F. Addison, and F.C.P. Law|Disposition on Diphenyl Ether Following Intravenous Administration to Thorny Skate (Raja radiata)|Comp. Biochem. Physiol. C Comp. Pharmacol.61(2): 317-321|1978|10.1016/0306-4492(78)90061-8
6150|A||Saboureau,J.L., and R. Lesel|Toxicite de Substances a des Doses Sub-lethales Chez le Poisson.  II.  Toxicite de Detergents Anionique et Cationique chez la Truite Arc-En-Ciel|Trib. Cebedeau30(403-404): 271-276|1977|
6152|A||Sano,H.|The Role of pH on the Acute Toxicity of Sulfite in Water|Water Res.10(2): 139-142|1976|10.1016/0043-1354(76)90113-5
6153|A||Carr,R.S., and J.M. Neff|Biochemical Indices of Stress in the Sandworm Neanthes virens (Sars). II. Sublethal Responses to Cadmium|Aquat. Toxicol.2(5-6): 319-333|1982|10.1016/0166-445X(82)90019-4
6154|A||See,C.L.|The Effect of Sublethal Concentrations of Selected Toxicants on the Negative Phototactic Response of Dugesia tigrina|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:79 p.|1976|
6155|A||Garnas,R.L., A.W. Bourquin, and P.H. Pritchard|The Fate and Degradation of 14C-Kepone in Estuarine Microcosms|In: Proc. of the Kepone Seminar II, Environ. Res. Lab. , U. S. EPA, Gulf Breeze, FL:330-362|1977|
6156|A||Carrier,R., and T.L. Beitinger|Reduction in Thermal Tolerance of Notropis lutrensis and Pimephales promelas Exposed to Cadmium|Water Res.22(4): 511-515|1988|10.1016/0043-1354(88)90048-6
6157|A||Gallagher,E.P., A.T. Canada, and R.T. Di Giulio|The Protective Role of Glutathione in Chlorothalonil-Induced Toxicity to Channel Catfish|Aquat. Toxicol.23(3-4): 155-168|1992|10.1016/0166-445X(92)90049-S
6158|A||Van Donk,E., M.I. Abdel-Hamid, B.A. Faafeng, and T. Kallqvist|Effects of Dursban 4E and Its Carrier on Three Algal Species During Exponential and P-Limited Growth|Aquat. Toxicol.23(3/4): 181-192|1992|10.1016/0166-445X(92)90051-N
6159|A||Srivastava,G.N., R.A. Gupta, M.P. Mohamed, and D. Nath|Effect of Sub-lethal Ethyl Parathion on the Metabolism and Activity of Colisa fasciata (Bloch Schneider)|Indian J. Environ. Health19(1): 63-66|1977|
6160|A||Stora,G.|Median Lethal Concentration (CL 50) of Detergents on Marine Invertebrates|Tethys (Cornella de Llobregat) (Multiple Languages)4(3): 597-644|1972|
6161|A||Nemcsok,J., L. Orban, B. Asztalos, Z. Buzas, A. Nemeth, and L. Boross|Investigations on Paraquat Toxicity in Fishes|Water Int.10:79-81|1985|
6162|A||Munzinger,A., and F. Monicelli|Heavy Metal Co-Tolerance in a Chromium Tolerant Strain of Daphnia magna|Aquat. Toxicol.23(3/4): 203-216|1992|10.1016/0166-445X(92)90053-P
6164|A||Coyle,J.J., D.R. Buckler, C.G. Ingersoll, J.F. Fairchild, and T.W. May|Effect of Dietary Selenium on the Reproductive Success of Bluegills (Lepomis macrochirus)|Environ. Toxicol. Chem.12:551-565|1993|10.1002/etc.5620120315
6165|A||Tscheu-Schluter,M.|Determination of the Acute Toxicity of Herbicides to Phytoplankton (Zur Bestimmung der Akuten Toxizitat von Herbiziden Gegenuber Phytoplankton)|Fortschr. Wasserchem. Ihrer. Grenzgeb.14:159-168|1972|10.1515/9783112590447-023
6166|A|OECDG|Tscheu-Schluter,M.|Acute Toxicity of Herbicides for Selected Aquatic Organisms.  I.  Synthetic Growth-Promoting Herbicides, Phenoxycarboxylic Acids|Acta Hydrochim. Hydrobiol. (Multiple Languages)2(2): 139-159|1974|10.1002/aheh.19740020205
6167|A||Tscheu-Schluter,M.|On the Acute Toxicity of Herbicides to Selected Aquatic Organisms. Part 2. Triazine Herbicides and Amitrole (Zur akuten Toxizitat von Herbiziden Gegenuber Ausgewahlten Wasserorganismen Tell 2: Triazinherbizide und Amitr|Acta Hydrochim. Hydrobiol. (Multiple Languages)4(2): 153-170|1976|10.1002/aheh.3470040205
6168|A||Vancil,J.E.|Acute Toxicity of 2,4,5-T to Three Species of Limnetic Rotifers (Keratella cochlearis (Gosse), Keratella americana Carlin, and Brachionus angularis G|Ph.D.Thesis, University of Tennessee, Knoxville, TN:148 p.|1976|
6169|A||Van der Maas,H.L., L. Van Deyl, and J.J. Kroon|The Acute and Subacute Toxicity of the Fungicide Triphenyltin Hydroxide to the Common Pond Snail, Lymnaea stagnalis L|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)37(2): 850-858|1972|
6170|A||Caquet,T., E. Thybaud, S. Le Bras, O. Jonot, and F. Ramade|Fate and Biological Effects of Lindane and Deltamethrin in Freshwater Mesocosms|Aquat. Toxicol.23(3-4): 261-278|1992|10.1016/0166-445X(92)90057-T
6172|A||Voyer,R.A.|Effect of Dissolved Oxygen Concentration on the Acute Toxicity of Cadmium to the Mummichog, Fundulus heteroclitus (L.), at Various Salinities|Trans. Am. Fish. Soc.104(1): 129-134|1975|10.1577/1548-8659(1975)104<129:EODOCO>2.0.CO;2
6173|A||Watkins,W.D., and D.C. Tarter|Acute Toxicity of Rotenone on the Naiadal Stage of the Dragonfly, Basiaeschna janata Say, Under Laboratory Conditions|Proc. W. Va. Acad. Sci.46(2): 141-145|1975|
6174|A||Nemcsok,J., L. Orban, E. Vig, B. Asztalos, and L. Boross|Effect of Cu on Some Biochemical Parameters of Fishes|Symp. Biol. Hung.29:413-426|1985|
6175|A||Wentsel,R.S.|Distributional and Sublethal Effects of Heavy Metals on Benthic Macroinvertebrates|Ph.D.Thesis, Purdue University, West Lafayette, IN:108 p.|1977|
6176|A||Newman,M.C., and M.S. Aplin|Enhancing Toxicity Data Interpretation and Prediction of Ecological Risk with Survival Time Modeling: An Illustration Using Sodium Chloride Toxicity|Aquat. Toxicol.23(2): 85-96|1992|10.1016/0166-445X(92)90001-4
6177|A||Wienberg,R.|Experimental Studies on the Effects of Sublethal Concentrations of Ionogenic Detergents on the Activities of Embryos, Larvae and Young Fry of Rivulus cylindraceus (Cyprinidonidae,Rivulinae)|Int. Rev. Gesamten Hydrobiol.62(3): 371-383|1977|10.1002/iroh.1977.3510620304
6178|A||Yokote,M., S. Kimura, H. Kumada, and Y. Matida|Effects of Some Herbicides Applied in the Forest to the Freshwater Fishes and Other Aquatic Organisms - IV.  Experiments on the Assessment of Acute and Subacute toxicities of 2,4,5-T to the Rainbow Trout|Bull. Freshw. Fish. Res. Lab. (Tokyo)26(2): 85-98|1976|
6179|A||Khan,A., J. Barbieri, S. Khan, and F. Sweeney|A New Short-Term Mysid Toxicity Test Using Sexual Maturity as an Endpoint|Aquat. Toxicol.23(2): 97-105|1992|10.1016/0166-445X(92)90002-5
6180|A||Abdelghani,A.A., A.C. Anderson, and D.B. McDonell|Toxicity of Three Arsenical Compounds|Cancer Res.13(7): 31-32|1980|
6181|AT||Anderson,A.C., A.A. Abdelghani, and D. McDonell|Screening of Four Vascular Aquatic Plants for Uptake of Monosodium Methanearsonate (MSMA)|Sci. Total Environ.16(2): 95-98|1980|10.1016/0048-9697(80)90016-9
6182|A||Ali,A., and J. Lord|Impact of Experimental Insect Growth Regulators on Some Nontarget Aquatic Invertebrates|Mosq. News40(4): 564-571|1980|
6183|A||Anderson,D.R., R.M. Bean, and R.E. Schirmer|Chronic Effects of Chlorination By-Products on Rainbow Trout, Salmo gairdneri|Pacific Northwest National Laboratory, Richland, WA:28 p.|1980|
6184|A||Baccini,P., J. Ruchti, O. Wanner, and E. Grieder|MELIMEX, an Experimental Heavy Metal Pollution Study: Regulation of Trace Metal Concentrations in Limno-Corrals|Schweiz. Z. Hydrol.41(2): 202-227|1979|
6185|A||Beaumont,G., A. Lord, and G. Grenier|Physiologic Effects of Atrazine at Sublethal Doses on Lemna minor V.  Influence on Ultrastructure of Chloroplasts|Can. J. Bot.58(14): 1571-1577|1980|10.1139/b80-191
6186|A||Elmore,M.B., T.L. Beitinger, and D.W. Huey|Toxicity of Pulsed Monochloramines to Goldfish (Carassius auratus)|Bull. Environ. Contam. Toxicol.24(5): 692-695|1980|10.1007/BF01608175
6187|A||Birge,W.J., J.A. Black, and R.A. Kuehne|Effects of Organic Compounds on Amphibian Reproduction|Research Report No. 121, Water Resources Research Institute, University of Kentucky, Lexington, KY:39 p.|1980|
6188|A||Driscoll,C.T., J.P. Baker, J.J.,Jr. Bisogni, and C.L. Schofield|Effect of Aluminium Speciation on Fish in Dilute Acidified Waters|Nature284(5752): 161-164|1980|10.1038/284161a0
6189|A||Bluzat,R., O. Jonot, G. Lespinasse, and J. Seuge|Chronic Toxicity of Acetone in the Fresh Water Snail Lymnea stagnalis|Toxicology14(2): 179-190|1979|10.1016/0300-483X(79)90063-5
6190|A||Chan,K., and S.Y. Chiu|The Effects of Diesel Oil and Oil Dispersants on Growth, Photosynthesis, and Respiration of Chlorella salina|Arch. Environ. Contam. Toxicol.14(3): 325-331|1985|10.1007/BF01055410
6191|A||Bogacka,T., and J. Groba|Toxicity and Biodegradation of Chlorfenvinphos, Carbaryl, and Propoxur in Water Environment|Bromatol. Chem. Toksykol. (Non-English)13(2): 151-158|1980|
6192|A||Christiansen,M.E.,Jr.|Ultrastructural Study of the Exoskeleton of the Estuarine Crab Rhithropanopeus harrisii: Effect of the Insect Growth Regulator Dimilin (Diflubenzuro|Mar. Biol.66(3): 217-226|1982|10.1007/BF00397025
6193|A||Gill,T.S., and A. Epple|Effects of Cadmium on Plasma Catecholamines in the American Eel, Anguilla rostrata|Aquat. Toxicol.23(2): 107-117|1992|10.1016/0166-445X(92)90003-6
6194|A||Brinkhuis,B.H., W.F. Penello, and A.C. Churchill|Cadmium and Manganese Flux in Eelgrass Zostera marina. II. Metal Uptake by Leaf and Root-Rhizome Tissue|Mar. Biol.58(3): 187-196|1980|10.1007/BF00391875
6195|A||Browne,C., and J.N. Dumont|Cytotoxic Effects of Sodium Selenite on Tadpoles (Xenopus laevis)|Arch. Environ. Contam. Toxicol.9(2): 181-191|1980|10.1007/BF01055373
6197|A||Clarke,S.E., J. Stuart, and J. Sanders-Loehr|Induction of Siderophore Activity in Anabaena spp. and Its Moderation of Copper Toxicity|Appl. Environ. Microbiol.53(5): 917-922|1987|10.1128/aem.53.5.917-922.1987
6199|A||Birge,W.J., J.E. Hudson, J.A. Black, and A.G. Westerman|Embryo-Larval Bioassays on Inorganic Coal Elements and In Situ Biomonitoring of Coal-Waste Effluents|In: Symp., U.S.Fish Wildl.Serv., Dec.3-6, 1978, Surface Mining Fish Wildl.needs in Eastern U.S., WV:97-104|1978|
6200|A|OECDG|Bayer,A.G.|Grunddatenstze zu Altstoffen der VCI-Liste|Bayer, A.G., Verband der Chemischen Industrie (VCI), Frankfurt:|1988|
6201|A||Batac-Catalan,Z., and J.,Jr. Cairns|Survival of Daphnia pulex Under Thermal Stress and Sublethal Concentration of Chromate|Kalikasan6(1): 47-54|1977|
6202|A||Brown,V.M., and R.A. Dalton|The Acute Lethal Toxicity to Rainbow Trout of Mixtures of Copper, Phenol, Zinc and Nickel|J. Fish Biol.2(3): 211-216|1970|10.1111/j.1095-8649.1970.tb03276.x
6203|A||Mehta,S., A.N. Gupta, and R.C. Srivastava|Comparative Toxicity of Certain Non-Insecticidal Chemicals to Mesocyclops leuckarti, the Carrier Host of Dracunculosis|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 361-365|1982|10.1002/aheh.19820100409
6204|A||Butler,G.W., D.E. Ferguson, and C.R. Sadler|Effects of Sublethal Parathion Exposure on the Blood of Golden Shiners, Notemigonus crysoleucas|J. Miss. Acad. Sci.15:33-36|1970|
6205|A||Emery,R.M.|The Comparative Acute Toxicity of Cresol to Two Benthic Crustaceans|Water Res.4(7): 485-491|1970|10.1016/0043-1354(70)90063-1
6206|A||Newsome,C.S., and M.J. How|Acute Fish Toxicity and Absorption Tests of an Experimental Detergent Builder, Trisodium Carboxymethyloxysuccinate|J. Test. Eval.7(1): 16-17|1979|
6207|A||Fabacher,D.L.|Toxicity of Endrin and an Endrin-Methyl Parathion Formulation to Largemouth Bass Fingerlings|Bull. Environ. Contam. Toxicol.16(3): 376-378|1976|10.1007/BF01685903
6208|A||Fernandez-Leborans,G., and A. Novillo|Hazard Evaluation of Lead Effects Using Marine Protozoan Communities|Aquat. Sci.54(2): 128-140|1992|10.1007/BF00880279
6210|A||Darwazeh,H.A., and M.S. Mulla|Toxicity of Herbicides and Mosquitoe Larvicides to the Mosquito Fish Gambusia affinis|Mosq. News34(2): 214-219|1974|
6211|A||Kariya,T., S. Eto, and S. Ogasawara|Studies on the Post-Mortem Identification of the Pollutant in Fish Killed by Water Pollution - VIII. On Acute Poisoning with Phenol|Nippon Suisan Gakkaishi (Multiple Languages)34(9): 764-769|1968|10.2331/suisan.34.764
6212|A||Bhattacharya,S.|Mechanism of Toxic Action of Pesticides on Enzymes and Its Reversal in Fishes|Geobios (Jodhpur)12(6): 241-244|1985|
6214|A||Khorram,S., and A.W. Knight|Effects of Temperature and Kelthane on Grass Shrimp|J. Environ. Eng. Div.102(5): 1043-1053|1976|10.1061/JEEGAV.0000531
6215|A||Falk,M.R., and M.J. Lawrence|Acute Toxicity of Petrochemical Drilling Fluids Components and Wastes to Fish|Tech.Rep.Ser.No.CEN T-73-1, Can.Dep.of the Environ., Fish.and Mar.Serv.Resour.Manag.Branch, Winnipeg, Manitoba, Canada:112 p.|1973|
6216|A||Hedtke,J.L., and L.A. Norris|Effect of Ammonium Chloride on Predatory Consumption Rates of Brook Trout (Salvelinus fontinalis) on Juvenile Chinook Salmon (Oncorhynchus tshawytscha) in Laboratory Streams|Bull. Environ. Contam. Toxicol.24(1): 81-89|1980|10.1007/BF01608079
6217|A||Lee,J.H., C.E. Nash, and J.R. Sylvester|Effects of Mirex and Methoxychlor on Striped Mullet, Mugil cephalus L.|EPA-660/3-75-015, U.S.EPA, Corvallis, OR:18 p.|1975|
6218|A||Anton,F.A.|Acute Toxicity of Technical Captan to Algae and Fish|Bull. Environ. Contam. Toxicol.50(3): 392-399|1993|
6219|A||Jancovic,M., and H. Mann|Untersuchungen Uber Die Akute Toxische Wirkung Von Nitrilotriessigsaure (NTA)|Arch. Fischereiwiss.20(2-3): 178-181|1969|
6220|A||Garnham,G.W., G.A. Codd, and G.M. Gadd|Kinetics of Uptake and Intracellular Location of Cobalt, Manganese and Zinc in the Estuarine Green Alga Chlorella salina|Appl. Microbiol. Biotechnol.37(2): 270-276|1992|10.1007/BF00178183
6221|A||Sancho,E., M. Ferrando, E. Andreu, and M. Gamon|Acute Toxicity, Uptake and Clearance of Diazinon by the European Eel, Anguilla anguilla L|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(2): 209-221|1992|
6222|A|OECDG|Yasuno,M., S. Hatakeyama, and M. Yashila|Effects on Reproduction in the Guppy (Poecilia reticulata) Under Chronic Exposure to Temephos and Fenitrothion|Bull. Environ. Contam. Toxicol.25(1): 29-33|1980|10.1007/BF01985481
6223|A||Mukherjee,S., and S. Bhattacharya|Changes in the Kidney Peroxidase Activity in Fish Exposed to Some Industrial Pollutants|Environ. Physiol. Biochem.5(5): 300-307|1975|
6224|A||Di Gaudio,M.R.|Thallium: Some Effects of an Environmental Toxicant|Ph.D.Thesis, New York University, New York, NY:68 p.|1975|
6225|A||Negilski,D.S.|Acute Toxicity of Zinc, Cadmium and Chromium to the Marine Fishes, Yellow-Eye Mullet (Aldrichetta forsteri C. and V.) and Small-Mouthed Hardyhead|Aust. J. Mar. Freshw. Res.27(1): 137-149|1976|10.1071/MF9760137
6227|A||Pequito,M.M.G., and J.F. De Azevedo|LD50 of Some Molluscicides (Estudo da Dose Letal Media de Alguns Moluscicidas)|Garcia de Orta (Lisb. )16(1): 15-22|1968|
6228|A||Robinson-Wilson,E.F., and W.K. Seim|The Lethal and Sublethal Effects of a Zirconium Process Effluent on Juvenile Salmonids|Water Resour. Bull.11(5): 975-986|1975|10.1111/j.1752-1688.1975.tb01818.x
6229|AT||Reuther,R.|Arsenic Introduced into a Littoral Freshwater Model Ecosystem|Sci. Total Environ.115(3): 219-237|1992|10.1016/0048-9697(92)90331-L
6230|A||Cripe,C.R., and R.J. Livingston|Dynamics of Mirex and its Principal Photoproducts in a Simulated Marsh System|Arch. Environ. Contam. Toxicol.5:295-303|1977|10.1007/BF02220911
6231|A||Sekerah,A., and M. Foy|Acute Lethal Toxicity of Corexit 9527/Purdhoe Bay Crude Oil Mixtures to Selected Arctic Invertebrates|Spill Technol. Newsl.3(2): 37-41|1978|
6232|A||Martincic,D., Z. Kwokal, Z. Peharec, D. Margus, and M. Branica|Distribution of Zn, Pb, Cd and Cu Between Seawater and Transplanted Mussels (Mytilus galloprovincialis)|Sci. Total Environ.119:211-230|1992|10.1016/0048-9697(92)90265-T
6233|A||Allen,J.L., J.B. Sills, V.K. Dawson, and R.T. Amel|Residues of Isobornyl Thiocyanoacetate (Thanite) and a Metabolite in Fish and Treated Ponds|J. Agric. Food Chem.29(3): 634-636|1981|10.1021/jf00105a049
6234|A||Hazdra,J.J., E.R. Brown, R.D. Grossberg, L. Kamin, and D.P. Becker|Chloroform and its Relationship to Leukemia in Poikilotherms|In: Yohn, Lapin, and Blakeslee (Eds), Advances in Comparative Leukemia, Elsevier, North Holland, Inc.:215-217 (1979) / Abstr.Pap.Am.Chem.Soc.180:134-|1980|
6235|A|RUSSN|Stepanov,V.S., and B.A. Flerov|Effect of Subtoxic Concentrations of Phenol on the Quantity and Quality of the Progeny of Lebistes reticulatus|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR19:60-61|1969|
6236|A||Cossarini-Dunier,M.|Effects of the Pesticides Atrazine and Lindane and of Manganese Ions on Cellular Immunity of Carp, Cyprinus carpio|J. Fish Biol.31(suppl.A): 67-73|1987|10.1111/j.1095-8649.1987.tb05295.x
6237|A||Tatem,H.E., J.W. Anderson, and J.M. Neff|Seasonal and Laboratory Variations in the Health of Grass Shrimp Palaemonetes pugio: Dodecyl Sodium Sulfate Bioassay|Bull. Environ. Contam. Toxicol.16(3): 368-375|1976|10.1007/BF01685902
6239|A|OECDG|Dumpert,K., and E. Zietz|Platanna (Xenopus laevis) as a Test Organism for Determining the Embryotoxic Effects of Environmental Chemicals|Ecotoxicol. Environ. Saf.8:55-74|1984|10.1016/0147-6513(84)90041-1
6240|A||Evtushenko,Z.S., N.N. Belcheva, and O.N. Lukyanova|Cadmium Accumulation in Organs of the Scallop Mizuhopecten yessoensis - I. Activities of Phosphatases and Composition and Amount of Lipids|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 371-376|1986|10.1016/0742-8413(86)90138-6
6241|A||Coppage,D.L., and E. Matthews|Brain-Acetylcholinesterase Inhibition in a Marine Teleost During Lethal and Sublethal Exposures to 1,2-Dibromo-2,2-Dichloroethyl Dimethyl Phosphate|Toxicol. Appl. Pharmacol.31(1): 128-133|1975|10.1016/0041-008X(75)90060-5
6242|A||Sharp,J.W., R.M. Sitts, and A.W. Knight|Effects of Kelthane and Temperature on the Respiration of Crangon franciscorum|Comp. Biochem. Physiol. C Comp. Pharmacol.59:75-79|1978|10.1016/0306-4492(78)90014-X
6243|A||Dial,N.A.|Methylmercury:  Teratogenic and Lethal Effects in Frog Embryos|Teratology13(3): 327-330|1976|10.1002/tera.1420130313
6244|A||Hamilton,R.W., J.K. Buttner, and R.G. Brunetti|Lethal Levels of Sodium Chloride and Potassium Chloride for an Oligochaete, a Chironomid Midge, and a Caddisfly of Lake Michigan|Environ. Entomol.4(6): 1003-1006|1975|10.1093/ee/4.6.1003
6245|A||Evtushenko,Z.S., N.N. Belcheva, and O.N. Lukyanova|Cadmium Accumulation in Organs of the Scallop Mizuhopecten yessoensis - II. Subcellular Distribution of Metals and Metal-Binding Proteins|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 377-383|1986|10.1016/0742-8413(86)90139-8
6246|A||Koenst,W.M., L.L.,Jr. Smith, and S.J. Broderius|Effect of Chronic Exposure of Brook Trout to Sublethal Concentrations of Hydrogen Cyanide|Environ. Sci. Technol.11(9): 883-887|1977|10.1021/es60132a004
6247|A||Marlasca,M.J., B. Valles, M.C. Riva, and S. Crespo|Sublethal Effects of Synthetic Dyes on Rainbow Trout Oncorhynchus mykiss: A Light and Electron Microscope Study|Dis. Aquat. Org.12(2): 103-110|1992|10.3354/dao012103
6248|A||Moss,J.L.|Toxicity of Selected Chemicals to the Fairy Shrimp, Streptocephalus seali, Under Laboratory and Field Conditions|Prog. Fish-Cult.40(4): 158-160|1978|10.1577/1548-8659(1978)40[158:TOSCTT]2.0.CO;2
6251|A||Rao,K.R., F.R. Fox, P.J. Conklin, A.C. Cantelmo, and A.C. Brannon|Physiological and Biochemical Investigations of the Toxicity of Pentachlorophenol to Crustaceans|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Marine Pollution: Functional Responses, Academic Press, NY:307-339|1979|
6252|A||Strzelecka,B., H. Hubner, T. Jankowska, and J. Rouba|Biological Evaluation of Acute Toxicity of Selected Finishing Agents (Biologiczna Ocena Toksycznosci Ostrej Wybranych Srodkow Pomocniczych)|Przegl. Wlok.32(2): 74-76|1978|
6253|A||Samman,J., and M.P. Thomas|Changes in Zooplankton Populations in the White Volta with Particular Reference to the Effect of Abate|Int. J. Environ. Stud.12:207-214|1978|10.1080/00207237808709783
6255|A||Amey,M.J.|Short Communication. The Application of Liquid Derris (5% Rotenone) to a Spring-Fed Upland Pond to Eradicate Perch (Perca fluviatilis L.)|Fish. Manag.12(3): 111-112|1981|
6256|A||Trabalka,J.R., and M.B. Burch|Investigation of the Effects of Halogenated Organic Compounds Produced in Cooling Systems and Process Effluents on Aquatic Organisms|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI:163-173|1978|
6257|A||Qayyum,M.A., M. Gayasuddin, and J.A. Fatani|Effect of Lead and Copper on the Serum Specific Gravity of Certain Teleosts|J. Sci. Res.3(1): 67-69|1981|
6258|A||Khangarot,B.S., and D.M. Tripathi|The Stereoscan Observations of the Skin of Catfish, Saccobranchus fossilis, Following Chromium Exposure|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(4): 1141-1148|1992|
6259|A||Wildish,D.J.|Lethal Response by Atlantic Salmon Parr to Some Polyoxyethylated Cationic and Nonionic Surfactants|Water Res.8(7): 433-437|1974|10.1016/0043-1354(74)90074-8
6260|A||Korn,S., D.A. Moles, and S.D. Rice|Effects of Low Temperature on the Survival of Pink Salmon and Shrimp Exposed to Toluene, Naphthalene, and the Water-Soluble Fraction of Cook Inlet Crude Oil|In: Environ.Assess.of the Alaskan Continental Shelf, Principal Investigators Rep.for the Year Ending Mar.197712:66-84|1977|
6261|A||Linden,O.|Effects of Oil Spill Dispersants on the Early Development of Baltic Herring|Ann. Zool. Fennici11:141-148|1974|
6262|A||Alexander,D.G., and R.M.V. Clarke|The Selection and Limitations of Phenol as a Reference Toxicant to Detect Differences in Sensitivity Among Groups of Rainbow Trout (Salmo gairdneri)|Water Res.12(12): 1085-1090|1978|10.1016/0043-1354(78)90054-4
6263|A||Hanumante,M.M., D.P. Vaidya, and R. Nagabhushanam|Toxic Effects of the Phytoalkaloid Colchicine on Oviposition and Neurosecretion of the Vector Snail (Indoplanorbis exustus)|Bull. Environ. Contam. Toxicol.24(1): 37-39|1980|10.1007/BF01608072
6264|A||Stary,J., K. Kratzer, B. Havlik, J. Prasilova, and J. Hanusova|The Cumulation of Methylmercury in Fish (Poecilia reticulata)|Int. J. Environ. Anal. Chem.8(3): 189-195|1980|10.1080/03067318008071499
6265|A||Gzhetotskii,M.I., L.V. Shkliaruk, and L.A. Dychok|Toxicological Characteristics of the Herbicide Zeazin|Vrach. Delo5:133-136|1977|
6266|A||Kanayev,A.I., L.I. Grishchenko, and G.A. Trondina|Diagnosis of Poisoning of Fish by Propanide|Veterinaria (Mosk.) (Non-English)11:110-112|1974|
6267|A||Karnak,R.E., and W.J. Collins|The Susceptibility to Selected Insecticides and Acetylcholinesterase Activity in a Laboratory Colony of Midge Larvae, Chironomus tentans (Diptera:  Chironomidae)|Bull. Environ. Contam. Toxicol.12(1): 62-69|1974|10.1007/BF01713027
6268|A||Ali,A., and M.S. Mulla|Declining Field Efficacy of Chlorpyrifos Against Chironomid Midges and Laboratory Evaluation of Substitute Larvicides|J. Econ. Entomol.71(5): 778-782|1978|10.1093/jee/71.5.778
6269|A||Ambrosi,D., A.R. Isensee, and J.A. Macchia|Distribution of Oxadiazon and Phosalone in an Aquatic Model Ecosystem|J. Agric. Food Chem.26(1): 50-53|1978|10.1021/jf60215a016
6270|A||Knapek,R., and S. Lakota|Biological Testing to Determine Toxic Effects of Pesticides in Water (Einige Biotests zur Untersuchung der Toxischen Wirkung von Pestiziden im Wasser)|Tagungsber. Akad. Landwirtschaftswiss. DDR126:105-109|1974|
6271|A||Dhawan,A., and K. Kaur|Toxic Effects of Synthetic Pyrethroids on Cyprinus carpio Linn. Eggs|Bull. Environ. Contam. Toxicol.57(6): 999-1002|1996|10.1007/s001289900289
6272|A||Nemcsok,J., C. Albers, J. Benedeczky, K.H. Gotz, K. Schricker, O. Kufcsak, and M. Juhasz|Effect of Ecological Factors on the Toxicity of CuSO4 in Fish|In: D.W.Jeffrey and B.Madden (Eds.), Bioindicators and Environmental Management, 6th Symposium, Academic Press, London, UK:365-377|1991|
6273|A||Lakota,S.|Toxic Action of Methoxychlor on Certain Water Animals (Die Toxische Wirkung Von Methoxychlor Auf Einige Wassertiere)|Tagungsber. Akad. Landwirtschaftswiss. DDR126:111-115|1974|
6274|A||Lee,J.H., J.R. Sylvester, and C.E. Nash|Effects of Mirex and Methoxychlor on Juvenile and Adult Striped Mullet, Mugil cephalus L|Bull. Environ. Contam. Toxicol.14(2): 180-186|1975|10.1007/BF01701311
6275|A||Fair,P.H., and A.R. Fortner|Effect of Ingested Benzo(a)pyrene and Cadmium on Tissue Accumulation, Hydroxylase Activity, and Intestinal Morphology of the Black Sea Bass|Environ. Res.42(1): 185-195|1987|10.1016/S0013-9351(87)80020-8
6276|A||Thomas,P.C., C. Turner, and D. Pascoe|An Assessment of Field and Laboratory Methods for Evaluating the Toxicity of Ammonia to Gammarus pulex L. - Effects of Water Velocity|In: D.W.Jeffrey and B.Madden (Eds.), Bioindic.Environ.Manage., 6th Symposium, Academic Press, London, UK:353-363|1991|
6277|A||Geiszler,P.C., B.J. Grantham, and G.J. Blomquist|Fate of Labeled N-Alkanes in the Blue Crab and Striped Mullet|Bull. Environ. Contam. Toxicol.17(4): 463-467|1977|10.1007/BF01685939
6278|A||Marking,L.L.|Toxicity of the Synthetic Pyrethroid SBP-1382 to Fish|Prog. Fish-Cult.36(3): 144-|1974|10.1577/1548-8659(1974)36[144:TOTSPS]2.0.CO;2
6279|A||Mathis,H.L., and C.P. Pant|Mosquito Susceptibility Levels to Seven New Insecticides and Their Comparative Toxicity to the Guppy, Poecilia reticulata, in Bangkok, Thailand|Southeast Asian J. Trop. Med. Public Health5(2): 299-302|1974|
6280|A||McLeese,D.W.|Fenitrothion Toxicity to the Freshwater Crayfish, Orconectes limosus|Bull. Environ. Contam. Toxicol.16(4): 411-416|1976|10.1007/BF01686154
6281|A||McLeese,D.W.|Olfactory Response and Fenitrothion Toxicity in American Lobsters (Homarus americanus)|J. Fish. Res. Board Can.31(6): 1127-1131|1974|10.1139/f74-127
6283|A||Burton,D.T., and L.B. Richardson|An Investigation of Chemistry and Toxicity of Ozone-Produced Oxidants and Bromate to Selected Estuarine Species|EPA 600/4-81-040, U.S.EPA, Gulf Breeze,FL:88 p.|1981|
6284|A||Mukherjee,S., and S. Bhattacharya|Histopathological Lesions in the Hepatopancreas of Fishes Exposed to Industrial Pollutants|Indian J. Exp. Biol.13(6): 571-573|1975|
6285|A||George,S.G., and T.L. Coombs|Effects of high Stability Iron-Complexes on the Kinetics of Iron Accumulation and Excretion in Mytilus edulis (L.)|J. Exp. Mar. Biol. Ecol.28(2): 133-140|1977|10.1016/0022-0981(77)90112-5
6286|A||Nicholson,S.A., and R.J. Clerman|Toxicity of Diquat to the Crustacean Amphipod Hyalella From Chautauqua Lake|Environ. Lett.7(3): 215-227|1974|10.1080/00139307409437401
6287|A||Nikulina,S.S., and N.P. Sokolskaya|Influence of Some Pesticides on Ontogenesis of Carp|Veterinaria (Mosk.) (Non-English)7:94-95|1975|
6288|A||Nishiuchi,Y., and K. Yoshida|Effects of Pesticides on Tadpoles.  Part 3|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)14:66-68|1975|
6289|A||Norris,L.A., and R.A. Miller|The Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Guppies (Poecilia reticulatus Peters)|Bull. Environ. Contam. Toxicol.12(1): 76-80|1974|10.1007/BF01713029
6290|A||Otsuka,S.|Plant Protection and Pesticide News.  Pesticides:  Amitoraz EC, Orthobencarb Herbicide, and Oxadiazon Combined Fertilizer|Nogyo Oyobi Engei50:1171-1172|1975|
6291|A||Roberts,D.|The Effect of Pesticides on Byssus Formation in the Common Mussel, Mytilus edulis|Environ. Pollut.8(4): 241-254|1975|
6293|A||Rosic,N., P. Lomax, and N. Kovacevic|The Toxic and Behavioural Effects of a Cholinesterase Inhibitor in Fish (Serranus scriba)|Comp. Gen. Pharmacol.5(2): 187-189|1974|10.1016/S0306-3623(74)80025-X
6294|A||Sanders,H.O., and D.F. Walsh|Toxicity and Residue Dynamics of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) in Aquatic Invertebrates|Invest.Fish Control No.59, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1975|
6295|AT||Schmidt,D.C., and L.J. Weber|The Effect of Surgical Impairment of Biliary Excretion on the Toxicity of Rotenone to Rainbow Trout and Rats|Gen. Pharmacol.6(2-3): 229-233|1975|10.1016/0306-3623(75)90057-9
6296|A||Fawade,M.M., P.R. Machale, U.H. Mane, and R. Nagabhushanam|DDT Toxicity and Mixed Function Oxidases in the Freshwater Prawn, Macrobrachium kistensis|J. Environ. Biol.4(2): 81-90|1983|
6297|A||Burress,R.M.|Improved Method of Treating Ponds with Antimycin A to Reduce Sunfish Populations|Proc. Southeast. Assoc. Game Fish Comm.24:464-472|1970|
6299|A||Toor,H.S., and K. Kaur|Toxicity of Pesticides to the Fish, Cyprinus carpio communis Linn.|Indian J. Exp. Biol.12(4): 334-336|1974|
6300|A||Waiwood,K.G., and P.H. Johansen|Oxygen Consumption and Activity of the White Sucker (Catostomus commersoni), in Lethal and Nonlethal Levels of the Organochlorine Insecticide|Water Res.8(7): 401-406|1974|10.1016/0043-1354(74)90070-0
6301|A||Ward,D.V., and D.A. Busch|Effects of Temefos, an Organophosphorous Insecticide, on Survival and Escape Behaviour of the Marsh Fiddler Crab Uca pugnax|Oikos27(2): 331-335|1976|
6302|A||Weis,P., and J.S. Weis|Schooling Behavior of Menidia medidia in the Presence of the Insecticide Sevin (Carbaryl)|Mar. Biol.28(4): 261-263|1974|10.1007/BF00388493
6303|A||Hall,L.W.,Jr., D.T. Burton, and S.L. Margrey|The Effects of Chlorine, Elevated Temperature and Exposure Duration of Power Plant Effluents on Larval White Perch Morone americana (Gmelin)|Water Resour. Bull.15(5): 1365-1373|1979|10.1111/j.1752-1688.1979.tb01135.x
6304|A||Burdick,G.E., and M. Lipschuetz|Toxicity of Ferro- and Ferricyanide Solutions to Fish, and Determination of the Cause of Mortality|Trans. Am. Fish. Soc.78:192-202|1950|10.1577/1548-8659(1948)78[192:TOFAFS]2.0.CO;2
6305|A||Gobas,F.A.P.C., J.R. McCorquodale, and G.D. Haffner|Intestinal Absorption and Biomagnification of Organochlorines|Environ. Toxicol. Chem.12:567-576|1993|10.1002/etc.5620120316
6306|A||Fisher,N.S., J.L. Teyssie, S. Krishnaswami, and M. Baskaran|Accumulation of Th, Pb, U, and Ra in Marine Phytoplankton and its Geochemical Significance|Limnol. Oceanogr.32(1): 131-142|1987|10.4319/lo.1987.32.1.0131
6307|AT||Anderson,A.C., A.A. Abdelghani, D. McDonnell, and L. Craig|Uptake of Monosodium Methanearsonate (MSMA) by Vascular Aquatic Plants|J. Plant Nutr.3(1-4): 193-201|1981|10.1080/01904168109362828
6308|A||Antychowicz,J., E. Szymbor, and J. Roszkowski|Investigations upon the Effects of Some Pesticides on Carp (Cyprinus carpio)|Bull. Vet. Inst. Pulawy23(3-4): 124-130|1979|
6309|A||Hickey,C.W., and M.L. Vickers|Comparison of the Sensitivity to Heavy Metals and Pentachlorophenol of the Mayflies Deleatidium spp. and the Cladoceran Daphnia magna|N. Z. J. Mar. Freshw. Res.26(1): 87-93|1992|10.1080/00288330.1992.9516504
6310|A||Campbell,B.C., and R.F. Denno|The Effect of Temephos and Chlorpyrifos on the Aquatic Insect Community of a New Jersey Salt Marsh|Environ. Entomol.5(3): 477-483|1976|10.1093/ee/5.3.477
6311|A||Boyd,C.E., and Y. Musig|Orthophosphate Uptake by Phytoplankton and Sediment|Aquaculture22(1-2): 165-173|1981|10.1016/0044-8486(81)90142-3
6313|AT||Breger,R.K., R.B. Franklin, and J.J. Lech|Metabolism of 2-Methylnaphthalene to Isomeric Dihydrodiols by Hepatic Microsomes of Rat and Rainbow Trout|Drug Metab. Dispos.9(2): 88-93|1981|
6314|A||Gendron,F.|Effects of Different Compounds in Organotin Based Anti-Fouling Paints on the Oyster Crassostrea gigas|Aquat. Sci. Fish. Abstr.16(10): 16009-1Q16|1986|
6315|A||Caceci,T.|Ultrastructural Morphology of Toxaphene-Treated Intestinal Cells in the Goldfish (Carassius auratus)|Ph.D.Thesis, Georgetown University, Washington, DC:130 p.|1980|
6316|A||Cairns,J.,Jr., K.W. Thompson, and A.C. Hendricks|Effects of Fluctuating, Sublethal Applications of Heavy Metal Solutions upon the Gill Ventilation Response of Bluegills (Lepomis macrochirus)|EPA-600/3-81-003, U.S.EPA, Cincinnati, OH:104 p.|1981|
6317|A||Christy,S.L., E.P. Karlander, and J.V. Parochetti|Effects of Glyphosate on the Growth Rate of Chlorella|Weed Sci.29(1): 5-7|1981|10.1017/S0043174500025728
6318|A||Richardson,L.B., and D.T. Burton|Toxicity of Ozonated Estuarine Water to Juvenile Blue Crabs (Callinectes sapidus) and Juvenile Atlantic Menhaden (Brevoortia tyrannus)|Bull. Environ. Contam. Toxicol.26(2): 171-178|1981|10.1007/BF01622072
6319|A||Aksenova,Y.I., and Z.A. Trufanova|Effect of Chlorophos and Petroleum Products on Protococcaceae and Blue-Green Algae (Experimental Data)|Hydrobiol. J.7(6): 74-76|1971|
6320|A||Fisher,D.J., D.T. Burton, L.T. Yonkos, S.D. Turley, and G.P. Ziegler|The Relative Acute Toxicity of Continuous and Intermittent Exposures of Chlorine and Bromine to Aquatic Organisms in the Presence and Absence of Ammonia|Water Res.33(3): 760-768|1999|10.1016/S0043-1354(98)00278-4
6321|A||Cravedi,J.P., and J. Tulliez|Distribution and Elimination Routes of a Naphthenic Hydrocarbon (Dodecylcyclohexane) in Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.26(3): 337-344|1981|10.1007/BF01622099
6322|A||Czinn,S.J., W.T. Speck, and H.S. Rosenkranz|Abnormalities in the Development of the American Sea Urchin Induced by Nalidixic Acid|Mutat. Res.91(2): 119-121|1981|
6323|A||Dalela,R.C., A.K. Tyagi, N. Pal, and S.R. Verma|Subacute Stress Induced by Sodium Lauryl Sulphate (SLS) on Certain Haematological Parameters in Saccobranchus fossilis|Water Air Soil Pollut.15(1): 3-9|1981|10.1007/BF00285529
6325|A||Davis,K.R., T.W. Schultz, and J.N. Dumont|Toxic and Teratogenic Effects of Selected Aromatic Amines on Embryos of the Amphibian Xenopus laevis|Arch. Environ. Contam. Toxicol.10(3): 371-391|1981|10.1007/BF01055639
6326|A||Deane,E.M., and R.W. O'Brien|Uptake of Phosphate by Symbiotic and Free-Living Dinoflagellates|Arch. Microbiol.128(3): 307-310|1981|10.1007/BF00422536
6327|A||Deane,E.M., and R.W. O'Brien|Uptake of Sulphate, Taurine, Cysteine and Methionine by Symbiotic and Free-Living Dinoflagellates|Arch. Microbiol.128(3): 311-319|1981|10.1007/BF00422537
6328|A||Dixon,D.G., and G. Leduc|Chronic Cyanide Poisoning of Rainbow Trout and Its Effects on Growth, Respiration, and Liver Histopathology|Arch. Environ. Contam. Toxicol.10(1): 117-131|1981|10.1007/BF01057580
6329|A||Dixon,D.G., and J.B. Sprague|Acclimation-Induced Changes in Toxicity of Arsenic and Cyanide to Rainbow Trout, Salmo gairdneri Richardson|J. Fish Biol.18(5): 579-589|1981|10.1111/j.1095-8649.1981.tb03798.x
6331|A||Forney,D.R.|Effects of Atrazine on Chesapeake Bay Aquatic Plants|M.S.Thesis, Auburn University, Auburn, AL:86 p.|1979|
6332|A||Atallah,Y.H., and M.M. Ishak|Toxicity of Some Commonly Used Insecticides to the Snail Biomphalaria alexandrina, Intermediate Host of Schistosoma mansoni in Egypt|Z. Angew. Entomol. (Multiple Languages)69:102-106|1971|10.1111/j.1439-0418.1971.tb03190.x
6335|A||Giam,C.S., H.E. Murray, L.E. Ray, and S. Kira|Bioaccumulation of Hexachlorobenzene in Killifish (Fundulus similis)|Bull. Environ. Contam. Toxicol.25:891-897|1980|10.1007/BF01985626
6336|A||Gibson,C.I., F.C. Tone, P. Wilkinson, J.W. Blaylock, and R.E. Schirmer|Bioaccumulation and Depuration of Bromoform in Five Marine Species|Technical Report PNL-SA-7857, Batelle Northwest National Laboratories, Richland, WA:40 p.|1979|
6337|A||Gould,E., R.J. Thompson, and L.J. Buckley|Exposure of the Scallop Placopecten magellanicus (Gmelin) to Sublethal Copper and Cadmium:  Effects on the Reproductive Effort|Aquat. Sci. Fish. Abstr.16(10): |1986|
6338|A||Gould,E.|Short-Term Low-Salinity Response in Lead-Exposed Lobsters, Homarus americanus|Am. Zool.20(4): 872-|1980|
6339|A||Groenendaal,M.|Tolerance of the Lugworm (Arenicola marina) to Sulphide|Neth. J. Sea Res.14(2): 200-207|1980|10.1016/0077-7579(80)90022-8
6341|A||Hlavek,R.R., and R.V. Bulkley|Effects of Malachite Green on Leucocyte Abundance in Rainbow Trout, Salmo gairdneri (Richardson)|J. Fish Biol.17(4): 431-444|1980|10.1111/j.1095-8649.1980.tb02776.x
6342|A||Tchounwou,P.B., A.J.,Jr. Englande, and E.A. Malek|The Influence of Selected Environmental Parameters on the Toxicity of Bayluscide to Schistosoma mansoni Miracidia|Arch. Environ. Contam. Toxicol.23(2): 223-229|1992|10.1007/BF00212279
6343|A||Ilan,Z., and Z. Yaron|Suppression by Organochlorines of the Response to Adrenocorticotrophin of the Interrenal Tissue in Sarotherodon aureus (Teleostei)|J. Endocrinol.87(2): 185-193|1980|10.1677/joe.0.0870185
6344|A||Crane,M., T. Flower, D. Holmes, and S. Watson|The Toxicity of Selenium in Experimental Freshwater Ponds|Arch. Environ. Contam. Toxicol.23(4): 440-452|1992|10.1007/BF00203807
6345|A||Visviki,I., and J.W. Rachlin|Ultrastructural Changes in Dunaliella minuta Following Acute and Chronic Exposure to Copper and Cadmium|Arch. Environ. Contam. Toxicol.23(4): 420-425|1992|10.1007/BF00203803
6346|A||Khangarot,B.S.|Chelating Agent EDTA Decreases the Toxicity of Copper to Fish|Curr. Sci. (Bangalore)50(5): 246-248|1981|
6347|A||Kimerle,R.A., K.J. Macek, B.H. Sleight III, and M.E. Burrows|Bioconcentration of Linear Alkylbenzene Sulfonate (LAS) in Bluegill (Lepomis macrochirus)|Water Res.15(2): 251-256|1981|10.1016/0043-1354(81)90118-4
6349|A||Kling,D.|Total Atresia of the Ovaries of Tilapia leucosticta (Cichlidae) After Intoxication with the Insecticide Lebaycid|Experientia37(1): 73-74|1981|10.1007/BF01965578
6350|A||Knezovich,J.P., F.L. Harrison, and J.S. Tucker|The Influence of Organic Chelators on the Toxicity of Copper to Embryos of the Pacific Oyster, Crassostrea gigas|Arch. Environ. Contam. Toxicol.10(2): 241-249|1981|10.1007/BF01055625
6351|A||Brock,T.C.M., M. Van den Bogaert, A.R. Bos, S.W.F. Van Breukelen, R. Reiche, and J. Terwoert|Fate and Effects of the Insecticide Dursban 4E in Indoor Elodea-Dominated and Macrophyte-Free Freshwater Model Ecosystems: II. Secondary Effects on|Arch. Environ. Contam. Toxicol.23(4): 391-409|1992|10.1007/BF00203801
6352|A||Havlik,B., J. Hansova, and J. Ralkova|Hygienic Importance of Increased Barium Content in Some Fresh Waters|J. Hyg. Epidemiol. Microbiol. Immunol.24(4): 396-404|1980|
6353|A||Anton,F.A., E. Laborda, P. Laborda, and E. Ramos|Carbofuran Acute Toxicity to Freshwater Algae and Fish|Bull. Environ. Contam. Toxicol.50(3): 400-406|1993|
6354|A||Konemann,H.|Quantitative Structure-Activity Relationships in Fish Toxicity Studies. Part 1: Relationship for 50 Industrial Pollutants|Toxicology19(3): 209-221|1981|10.1016/0300-483X(81)90130-X
6355|A||Gray,J.S., and R.J. Ventilla|Growth Rates of Sediment-Living Marine Protozoan as a Toxicity Indicator for Heavy Metals|Ambio2(4): 118-121|1973|
6356|A||Kraak,M.H.S., D. Lavy, W.H.M. Peeters, and C. Davids|Chronic Ecotoxicity of Copper and Cadmium to the Zebra Mussel Dreissena polymorpha|Arch. Environ. Contam. Toxicol.23(3): 363-369|1992|10.1007/BF00216246
6357|A||Rao,I.J., and M.N. Madhyastha|Toxicities of Some Heavy Metals to the Tadpoles of Frog, Microhyla ornata (Dumeril & Bibron)|Toxicol. Lett.36(2): 205-208|1987|10.1016/0378-4274(87)90186-X
6358|A||Gala,W.R., and J.P. Giesy|Photo-Induced Toxicity of Anthracene to the Green Alga, Selenastrum capricornutum|Arch. Environ. Contam. Toxicol.23(3): 316-323|1992|10.1007/BF00216240
6359|A|OECDG|Hoagland,K.D., R.W. Drenner, J.D. Smith, and D.R. Cross|Freshwater Community Responses to Mixtures of Agricultural Pesticides:  Effects of Atrazine and Bifenthrin|Environ. Toxicol. Chem.12:627-637|1993|10.1002/etc.5620120404
6360|A||Mattice,J.S., S.C. Tsai, M.B. Burch, and J.J. Beauchamp|Toxicity of Trihalomethanes to Common Carp Embryos|Trans. Am. Fish. Soc.110(2): 261-269|1981|10.1577/1548-8659(1981)110<261:TOTTCC>2.0.CO;2
6361|A||Stockard,C.R.|"The Development of Artificially Produced Cyclopean Fish - ""The Magnesium Embryo"""|J. Exp. Zool.6(2): 285-337|1909|10.1002/jez.1400060205
6362|A||Mohanty-Hejmadi,P., and S.K. Dutta|Effects of Some Pesticides on the Development of the Indian Bull Frog Rana tigerina|Environ. Pollut. A.24(2): 145-161|1981|10.1016/0143-1471(81)90076-3
6363|A||Nagaratnamma,R., and R. Ramamurthi|Comparative Evaluation of Methyl Parathion Toxicity to Some Selected Freshwater Organisms|Curr. Sci. (Bangalore)50(7): 334-335|1981|
6364|A||Okasako,J., and S. Siegel|Mercury Antagonists:  Effects of Sodium Chloride and Sulfur Group (VIa) Compounds on Excystment of the Brine Shrimp Artemia|Water Air Soil Pollut.14:235-240|1980|10.1007/BF00291838
6365|A||Osborn,D., and M.C. French|The Toxicity of the Mothproofing Chemical Eulan WA new to Frog Rana temporaria Tadpoles|Environ. Pollut. A.24(2): 117-123|1981|10.1016/0143-1471(81)90073-8
6366|A||Gupta,M., S. Devi, and J. Singh|Effects of Long-Term Low-Dose Exposure to Cadmium During the Entire Life Cycle of Ceratopteris thalictroides, a Water Fern|Arch. Environ. Contam. Toxicol.23(2): 184-189|1992|10.1007/BF00212273
6368|A||Pore,R.S., and W.G. Sorenson|Kepone Removal From Aqueous Solution by Immobilized Algae|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control16(1): 51-63|1981|
6369|A||Rao,M.B.|Effect of gamma-Hexachloran and Sevin on the Survival of the Black Sea Mussel, Mytilus galloprovincialis Lam|Hydrobiologia (Multiple Languages)78(1): 33-37|1981|10.1007/BF00019136
6370|A||Rath,S., and B.N. Misra|Toxicological Effects of Dichlorvos (DDVP) on Brain and Liver Acetylcholinesterase (ACHE) Activity of Tilapia mossambica, Peters|Toxicology19(3): 239-245|1981|10.1016/0300-483X(81)90133-5
6371|A||Riva,M.C., R. Flos, M. Crespi, and J. Balasch|Lethal Potassium Dichromate and Whitening (Blankophor) Exposure of Goldfish (Carassius auratus): Chromium Levels in Gills|Comp. Biochem. Physiol. C Comp. Pharmacol.68(2): 161-165|1981|10.1016/0306-4492(81)90010-1
6373|A||Roosenburg,W.H., J.C. Rhoderick, R.M. Block, V.S. Kennedy, and S.M. Vreenegoor|Survival of Mya arenaria Larvae (Mollusca: Bivalvia) Exposed to Chloride-Produced Oxidants|Proc. Natl. Shellfish. Assoc.70(1): 105-111|1980|
6374|A||Russell-Smith,A., and E. Ruckert|The Effects of Aerial Spraying of Endosulfan for Tsetse Fly Control on Aquatic Invertebrates in the Okavango Swamps, Botswana|Environ. Pollut. A.24:57-73|1981|10.1016/0143-1471(81)90123-9
6375|A||Seuge,J., and R. Bluzat|Long-Term Toxicology of an Organophosphorus Insecticide (Fenthion) on the Mollusk Lymnaea stagnalis L|Hydrobiologia (Multiple Languages)76(3): 241-248|1980|10.1007/BF00006215
6376|A||Singh,H., and T.P. Singh|Effect of Parathion and Aldrin on Survival, Ovarian 32P-Uptake and Gonadotrophic Potency in a Freshwater Catfish, Heteropneustes fossilis (Bloch)|Endokrinologie77(2): 173-178|1981|
6377|A||Singh,H., and T.P. Singh|Effects of Two Pesticides on Testicular 32P Uptake, Gonadotrophic Potency, Lipid and Cholesterol Content of Testis, Liver and Blood Serum During Spawning Phase in Heteropneustes fossilis (Bloch)|Endokrinologie76(3): 288-296|1980|
6378|A||Paulov,S.|Hazards of the Fungicide Afuganu (Pyrazofos) for the Development of Amphibians (Rana temporaria L.)|Biologia (Bratisl.)36(2): 135-140|1981|
6380|A||Darrow,D.C., R.F. Addison, and B.L. Bayne|Induction of Hypoxemia in Brook Trout (Salvelinus fontinalis) Following Their Exposure to N-Decanohydroxamic Acid, a Component of an Experimental|Comp. Biochem. Physiol. C Comp. Pharmacol.60(1): 83-87|1978|10.1016/0306-4492(78)90032-1
6381|A||Strother,S.|Toxic Effects of Exogenous Sorbose on Lemna minor and Some Other Angiosperms|Ann. Bot.47(4): 531-533|1981|10.1093/oxfordjournals.aob.a086050
6382|AT||Sugiura,K., T. Mase, K. Imasaki, and M. Goto|Accumulation and Excretion of Isopropylchlorobiphenyls in Mouse and Fish|Bull. Environ. Contam. Toxicol.26(1): 46-53|1981|10.1007/BF01622053
6383|A||Sullivan,D.S., T.P. Sullivan, and T. Bisalputra|Effects of Roundup Herbicide on Diatom Populations in the Aquatic Environment of a Coastal Forest|Bull. Environ. Contam. Toxicol.26(1): 91-96|1981|10.1007/BF01622060
6384|A||Tagatz,M.E., J.M. Ivey, N.R. Gregory, and J.L. Oglesby|Effects of Pentachlorophenol on Field- and Laboratory-Developed Estuarine Benthic Communities|Bull. Environ. Contam. Toxicol.26(1): 137-143|1981|10.1007/BF01622067
6385|A||Wikfors,G.H., A. Neeman, and P.J. Jackson|Cadmium-Binding Polypeptides in Microalgal Strains with Laboratory-Induced Cadmium Tolerance|Mar. Ecol. Prog. Ser.79(1-2): 163-190|1991|10.3354/meps079163
6386|A||Vardia,H.K., and V.S. Durve|Bioassay Study on Some Freshwater Fishes Exposed to 2,4-Dichlorophenoxyacetic Acid|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(2): 219-223|1981|10.1002/aheh.19810090210
6387|A||Vardia,H.K., and V.S. Durve|The Toxicity of 2,4-D to Cyprinus carpio var. communis in Relation to the Seasonal Variation in the Temperature|Hydrobiologia (Multiple Languages)77(2): 155-159|1981|10.1007/BF00008874
6388|A||Verma,S.R., S. Rani, S.K. Bansal, and R.C. Dalela|Evaluation of the Comparative Toxicity of Thiotox, Dichlorvos and Carbofuran to Two Fresh Water Teleosts Ophiocephalus punctatus and Mystus vittalus|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(2): 119-129|1981|10.1002/aheh.19810090202
6389|A||Wardhaugh,A.A.|Dominant Lethal Mutations in Tilapia mossambica (Peters) Elicited by Myleran|Mutat. Res.88(2): 191-196|1981|10.1016/0165-1218(81)90018-5
6391|A||Wheeler,P.A., and J.A. Hellebust|Uptake and Concentration of Alkylamines by a Marine Diatom|Plant Physiol.67(2): 367-372|1981|10.1104/pp.67.2.367
6392|A||Wong,P.T.S., Y.K. Chau, O. Kramar, and G.A. Bengert|Accumulation and Depuration of Tetramethyllead by Rainbow Trout|Water Res.15(5): 621-625|1981|10.1016/0043-1354(81)90026-9
6393|A||Wong,K., R.F. Addison, and F.C.P. Law|Uptake, Metabolism, and Elimination of Diphenyl Ether by Trout and Stickleback|Bull. Environ. Contam. Toxicol.26(2): 243-247|1981|10.1007/BF01622084
6394|A||Grossnickle,N.E.|The Acute Toxicity of Residual Chloramine to the Rotifer Keratella cochlearis (Gosse) and the Effect of Dechlorination with Sodium Sulfite|M.S.Thesis, University of Wisconsin, Milwaukee, WI:39 p.|1974|
6395|A||Jamil,K., and S. Hussain|Biotransfer of Metals to the Insect Neochetina eichhornae Via Aquatic Plants|Arch. Environ. Contam. Toxicol.22(4): 459-463|1992|10.1007/BF00212568
6396|A||Goutx,M.M., M. Al Mallah, and J.C. Bertrand|Effects of 9-10 Dihydroanthracene and its Biodegradation Products on the Marine Diatom Phaeodactylum tricornutum|Mar. Biol.94(1):111-115|1987|10.1007/BF00392903
6397|A||Zambriborshch,F.S., and S.E. Dyatlov|Effect of Low Chlorophos Concentrations on the Fertility of the Guppy Lebistes reticulatus Peters|Gidrobiol. Z. (Non-English)17(1): 70-74|1981|
6398|A||Ravinder,V., B.R. Babu, and G. Narayana|Decis Toxicity Study on Lactate Dehydrogenase Isozymes of a Fresh Water Cat Fish Clarias batrachus (Linnaeus)|J. Environ. Biol.10(2 suppl.): 217-225|1989|
6399|A||Bhatt,A.M.|Relative Toxicity of Emisan-6 and BHC 10% Dust on the Fish, Puntius ticto|J. Environ. Biol.12(4): 381-384|1991|
6400|A||Baigh,M.A., K.V. Joseph, and K.J. Rao|Effect of Heptachlor on Selected Biochemical Aspects in the Functionally Different Muscles of Channa punctatus|J. Environ. Biol.12(4): 341-345|1991|
6401|A||Anderson,J.W., J.M. Neff, B.A. Cox, H.E. Tatem, and G.M. Hightower|The Effects of Oil on Estuarine Animals:  Toxicity, Uptake and Depuration, Respiration|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Acad.Press, NY:285-310|1974|
6402|A||Call,D.J., L.T. Brooke, and P.Y. Lu|Uptake, Elimination, and Metabolism of Three Phenols by Fathead Minnows|Arch. Environ. Contam. Toxicol.9(6): 699-714|1980|10.1007/BF01055545
6403|A||Kirubagaran,R., and K.P. Joy|Toxic Effects of Mercury on Testicular Activity in the Freshwater Teleost, Clarias batrachus (L.)|J. Fish Biol.41:305-315|1992|10.1111/j.1095-8649.1992.tb02659.x
6404|A||Canterford,G.S.|Formation and Regeneration of Abnormal Cells of the Marine Diatom Ditylum brightwellii (West) Grunow|J. Mar. Biol. Assoc. U.K.60(1): 243-253|1980|10.1017/S0025315400024292
6405|A||Canterford,G.S., and D.R. Canterford|Toxicity of Heavy Metals to the Marine Diatom Ditylum brightwellii (West) Grunow: Correlation Between Toxicity and Metal Speciation|J. Mar. Biol. Assoc. U.K.60(1): 227-242|1980|10.1017/S0025315400024280
6406|A||Cardinal,H., G. Vernet, and G. Sinegre|Effects of a Growth Inhibitor Diflubenzuron on a Crab Carcinus mediterraneus|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)173(6): 1105-1108|1979|
6407|A||Carmichael,N.G., K.S. Squibb, D.W. Engel, and B.A. Fowler|Metals in the Molluscan Kidney: Uptake and Subcellular Distribution of 109Cd, 54Mn and 65Zn by the Clam, Mercenaria mercenaria|Comp. Biochem. Physiol. A Comp. Physiol.65(2): 203-206|1980|10.1016/0300-9629(80)90223-6
6408|A||Kennedy,C.J., N.J. Gassman, and P.J. Walsh|The Fate of Benzo(a)pyrene in the Scleractinian Corals Favia fragum and Montastrea annularis|Mar. Biol.113(2): 313-318|1992|10.1007/BF00347286
6409|A||Cascella,P.J., and P.D. Kindelspire|Effect of Edetate Disodium on Goldfish Membrane|J. Pharm. Sci.69(8): 972-974|1980|10.1002/jps.2600690829
6410|A||Granier,L.K., P. Lafrance, and P.G.C. Campbell|An Experimental Design to Probe the Interactions of Dissolved Organic Matter and Xenobiotics: Bioavailability of Pyrene and 2,2'5,5'-Tetrachlorobiphenyl to Daphnia magna|Chemosphere38(2): 335-350|1999|10.1016/S0045-6535(98)00187-8
6411|A||Forbes,V.E., and M.H. Depledge|Cadmium Effects on the Carbon and Energy Balance of Mudsnails|Mar. Biol.113(2): 263-269|1992|10.1007/BF00347280
6412|A||Rao,K.S., and R. Nagabhushanam|Effect of Organochloride Pesticide, Endocel on the Testicular Histology of the Marine Edible Crab, Scylla serrata|J. Environ. Biol.8((2 suppl.)): 179-184|1987|
6414|A||Haritonidis,S.|Uptake of Cd, Zn, Cu and Pb by Marine Macrophyceae Under Culture Conditions|In: 3rd Int.Symp.on Responses of Marine Organisms to Pollutants, Apr.17-19, 1985, Plymouth, England17(2-4): 198-199|1985|
6415|A||Chitra,T., and J.V.R. Rao|Effect of Sodium Fluoride on the Hematological Indices in Channa punctatus (Bloch.)|Fluoride13(3): 117-121|1980|
6416|A||Zanders,I.P., and W.E. Rojas|Cadmium Accumulation, LC50 and Oxygen Consumption in the Tropical Marine Amphipod Elasmopus rapax|Mar. Biol.113(3): 409-413|1992|10.1007/BF00349166
6417|A||Christiansen,M.E.,Jr., and J.D.,Jr. Costlow|Persistence of the Insect Growth Regulator Dimilin in Brackish Water:  A Laboratory Evaluation Using Larvae of an Estuarine Crab as Indicator|Helgol. Wiss. Meeresunters.33(1-4): 327-332|1980|10.1007/BF02414758
6418|A||Madsen,K.N.|Effects of Arsenic on Survival and Metabolism of Crangon crangon|Mar. Biol.113(1): 37-44|1992|10.1007/BF00367636
6419|A||Wannemacher,R., A. Rebstock, E. Kulzer, D. Schrenk, and K.W. Bock|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Reproduction and Oogensis in Zebrafish (Brachydanio rerio)|Chemosphere24(9): 1361-1368|1992|10.1016/0045-6535(92)90059-Z
6421|A||Colwell,A.E., and C.H. Schaefer|Diets of Ictalurus nebulosus and Pomoxis nigromaculatus Altered by Diflubenzuron|Can. J. Fish. Aquat. Sci.37(4): 632-639|1980|10.1139/f80-079
6422|A||Weiss,K., J.P. Lay, A. Goeppel, and R. Lang|The Rotifer Toxicity Test|Chemosphere25(4):517-524|1992|10.1016/0045-6535(92)90283-W
6424|A||Koizumi,N., M. Miyajima, and M. Susukida|Variation of Zinc and Copper in Metallothionein - Like Protein in Killifish (Oryzias latipes) Exposed to Cadmium|Chemosphere24(12): 1799-1803|1992|10.1016/0045-6535(92)90234-I
6425|A||Couch,J.A., J.T. Winstead, D.J. Hansen, and L.R. Goodman|Vertebral Dysplasia in Young Fish Exposed to the Herbicide Trifluralin|J. Fish Dis.2:35-42|1979|10.1111/j.1365-2761.1979.tb00137.x
6426|A||Courtemanch,D.L., and K.E. Gibbs|Short- and Long-Term Effects of Forest Spraying of Carbaryl (Sevin-4-Oil) on Stream Invertebrates|Can. Entomol.112(3): 271-276|1980|10.4039/Ent112271-3
6427|A||Courtney,W.A.M., and W.J. Langston|Accumulation of Polychlorinated Biphenyls in Turbot (Scophthalmus maximus) from Seawater Sediments and Food|Helgol. Wiss. Meeresunters.33(1-4): 333-339|1980|10.1007/BF02414759
6428|A||Harkey,G.A., and S.J. Klaine|Bioconcentration of trans-Chlordane by the Midge, Chironomus decorus|Chemosphere24(12): 1911-1919|1992|10.1016/0045-6535(92)90243-K
6430|A||Dalela,R.C., S. Rani, and S.R. Verma|In Vivo Subacute Physiological Stress Induced by Phenolic Compounds on Acid and Alkaline Phosphatases in Serum of a Fish, Notopterus notopterus|Toxicol. Lett.7(2): 181-186|1980|10.1016/0378-4274(80)90054-5
6431|A||Dalela,R.C., S. Rani, and S.R. Verma|Physiological Stress Induced by Sublethal Concentrations of Phenol and Pentachlorophenol in Notopterus notopterus:  Hepatic Acid and Alkaline Phosphatases and Succinic Dehydrogenase|Environ. Pollut. A.21(1): 3-8|1980|10.1016/0143-1471(80)90028-8
6432|A||Dalela,R.C., S. Rani, and S.R. Verma|Influence of pH on the Toxicity of Phenol and Its Two Derivatives Pentachlorophenol and Dinitrophenol to Some Fresh Water Teleosts|Acta Hydrochim. Hydrobiol. (Multiple Languages)8(6): 623-629|1980|10.1002/j.1521-401X.1980.tb00074.x
6434|A||Dalla Venezia,L., V.U. Fossato, and S. Scarfi|Combined Effects of Dodecyl Benzene Sulfonate and Low Salinities on Tisbe bulbisetosa (Copepoda: Harpacticoida)|Prog. Water Technol.12(1): 109-117|1980|
6435|A||Hooftman,R.N., and G.J. Vink|The Determination of Toxic Effects of Pollutants with the Marine Polychaete Worm Ophryotrocha diadema|Ecotoxicol. Environ. Saf.4(3): 252-262|1980|10.1016/0147-6513(80)90027-5
6436|A||Toledo,A.P.P., J.G. Tundisi, and V.A. D'Aquino|Humic Acid Influence on the Growth and Copper Tolerance of Chlorella sp.|Hydrobiologia (Multiple Languages)71(3): 261-263|1980|10.1007/BF00686132
6437|A||Miyamoto,M., S. Saito, Y. Takimoto, and M. Matsuo|Effect of Metabolism on Bioconcentration of Geometric Isomers of d-Phenothrin in Fish|Chemosphere24(12): 2001-2007|1992|10.1016/0045-6535(92)90248-P
6439|A||Herwig,H.J., J. Hemelraad, D.A. Holwerda, and D.I. Zandee|Cytochemical Localisation of Cadmium and Tin in Bivalves|Aquat. Sci. Fish. Abstr.16(10): 16002-1Q16|1985|
6440|A||Demael,A., D. Garin, and G. Peres|Response of the Tench (Tinca tinca L.) to Potassium Nitrate Enriched Water|J. Fish Biol.16(1): 15-22|1980|10.1111/j.1095-8649.1980.tb03684.x
6441|A||Dence,C., P. Durkin, and C. Wang|Toxicity Reduction Through Chemical and Biological Modification of Spent Pulp Bleaching Liquors|EPA-600/2-80-039, U.S.EPA, Cincinnati, OH:98 p.|1980|
6442|A||Spiegel,K.M.|The Sublethal Effects of Fluoride on Fish|M.S.Thesis, Idaho State University, Pocatello, ID:54 p.|1972|
6443|A||Engel,D.W., W.G. Sunda, and R.M. Thuotte|Effects of Copper on Marine Fish Eggs and Larvae|Environ. Health Perspect.:288-289|1976|
6444|A||Calabrese,A., R.S. Collier, and J.E. Miller|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. I. Introduction and Experimental Design|Noaa Tech.Rep.Nmfs Ssr F-681:1-3|1974|
6445|A||Gill,T.S., and A. Epple|Impact of Cadmium on the Mummichog Fundulus heteroclitus and the Role of Calcium in Suppressing Heavy Metal Toxicity|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 519-523|1992|10.1016/0742-8413(92)90080-Q
6446|A||Dobroski,C.J.J., and C.E. Epifanio|Accumulation of Benzo(a)pyrene in a Larval Bivalve Via Trophic Transfer|Can. J. Fish. Aquat. Sci.37(12): 2318-2322|1980|10.1139/f80-278
6447|A||Dodson,J.J., and C.I. Mayfield|The Dynamics and Behavioral Toxicology of Aquakleen (2,4-D Butoxyethanol Ester) As Revealed by the Modification of Rheotropism in Rainbow Trout|Trans. Am. Fish. Soc.108(6): 632-640|1979|10.1577/1548-8659(1979)108<632:TDABTO>2.0.CO;2
6449|A||Dortland,R.J.|Toxicological Evaluation of Parathion and Azinphosmethyl in Freshwater Model Ecosystems|Versl. Landbouwkd. Onderz.898:1-112|1980|
6451|A||Leadem,T.P., R.D. Campbell, and D.W. Johnson|Osmoregulatory Responses to DDT and Varying Salinities in Salmo gairdneri I. Gill Na-K-ATPase|Comp. Biochem. Physiol. A Comp. Physiol.49:197-205|1974|10.1016/0300-9629(74)90555-6
6452|A||Apostol,S.|Ethanolamine Toxicity in Aquatic Invertebrates. (Toxicitatea Etanolaminelor Pentru Nevertebratele Acvatice)|Stud. Cercet. Biol. Ser. Biol. Anim.27(4): 345-351|1975|
6453|A||Stuhlbacher,A., M.C. Bradley, C. Naylor, and P. Calow|Induction of Cadmium Tolerance in Two Clones of Dapnia magna Straus|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 571-577|1992|10.1016/0742-8413(92)90088-O
6454|A||Ryan,S.|The Dynamics of MS-222 Anaesthesia in a Marine Teleost (Pagrus auratus: Sparidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 593-600|1992|10.1016/0742-8413(92)90092-L
6455|A||Du Preez,H.H., and J.H.J. Van Vuren|Bioconcentration of Atrazine in the Banded Tilapia, Tilapia sparrmanii|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 651-655|1992|10.1016/0742-8413(92)90100-L
6456|A||Edgren,M., M. Olsson, and L. Renberg|Preliminary Results on Uptake and Elimination at Different Temperatures of p,p'-DDT and Two Chlorobiphenyls in Perch from Brackish Water|Ambio8(6): 270-272|1979|
6457|A||El Ayouty,E.Y., A.I. Khalil, M.M. Ishak, and E.A. Ibrahim|Effect of 2,4-D, Iron, Mercury and Bayluscide on the Cellular Structure of Microcystis flos-aquae, Oscillatoria amphibia, Coelastrum microporum and|Egypt. J. Bot.21(2): 121-130|1978|
6458|A||Ellgehausen,H., J.A. Guth, and H.O. Esser|Factors Determining the Bioaccumulation Potential of Pesticides in the Individual Compartments of Aquatic Food Chains|Ecotoxicol. Environ. Saf.4(2): 134-157|1980|10.1016/0147-6513(80)90015-9
6459|A||Wilbrink,M., R. Zijl, E.W. Roubos, A. Ter Maat, T.A. De Vlieger, and N.P.E. Vermeulen|Effects of 2,2'-Dichlorobiphenyl on Egg Laying in the Pond Snail Lymnaea stagnalis|Comp. Biochem. Physiol. C Comp. Pharmacol.102(1): 3-9|1992|10.1016/0742-8413(92)90034-5
6461|A||Mayhew,J.|Toxicity of Seven Different Insecticides to Rainbow Trout Salmo gairdnerii (Richardson)|Proc. Iowa Acad. Sci.62:599-606|1955|
6462|A||Gorin,J., B. Correia-Dereumaux, F. Erb, and P. Harichaux|Research into the Toxicity of Higher Fatty Alcohols on Rainbow Trout Salmo iridus.  Particular Study of the Effects of Hexa and Octadecanol on the Respiratory Function (Recherche de la Toxicite des Alcools gras Superieu|Bull. Fr. Piscic.277:163-184|1980|10.1051/kmae:1980012
6463|A||Erickson,S.J., and H.R. Foulk|Effects of Continuous Chlorination on Entrained Estuarine Plankton|J. Water Pollut. Control Fed.52(1): 44-47|1980|
6464|A||Fernandez Bernaldo De Quiros,C.|Toxicity of Technical Coumachlor and of Tomorin on Gambusia-affinis (Sobre la Toxicidad del Cumaclor Tecnico y del Tomor in en Gambusia affinis)|Bol. R. Soc. Esp. Hist. Nat. Secc. Biol.76(1/2): 109-121|1978|
6465|A||Jensen,P.K., and E. Baatrup|Histochemical Demonstration of Mercury in the Intestine, Nephridia and Epidermis of the Marine Polychaete Nereis virens Exposed to Inorganic|Mar. Biol.97(4): 533-540|1988|10.1007/BF00391049
6466|A||Chen,J.C., and S.H. Lai|Oxygen Consumption and Ammonia-N Excretion of Penaeus japonicus Adolescents Exposed to Ambient Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol.102(1): 129-133|1992|10.1016/0742-8413(92)90054-B
6467|A||Forlin,L.|Effects of Clophen A50, 3-Methylcholanthrene, Pregnenolone-16alpha-Carbonitrile, and Phenobarbital on the Hepatic Microsomal Cytochrome P-450-Dependent Monooxygenase System in Rainbow Trout, Salmo gairdneri, of Differen|Toxicol. Appl. Pharmacol.54(3): 420-430|1980|10.1016/0041-008X(80)90169-6
6468|A||Folmar,L.C.|Effects of Short-Term Field Applications of Acrolein and 2,4-D (DMA) on Flavor of the Flesh of Rainbow Trout|Bull. Environ. Contam. Toxicol.24(2): 217-224|1980|10.1007/BF01608100
6469|A||Hart,K.M., J.,Jr. Cairns, and M.S. Henebry|The Effects of a Sublethal Dose of Copper Sulfate on the Colonization Rate of Freshwater Protozoan Communities|ASB Bull.27(2): 38-39|1980|
6470|A||Fisher,N.S., and D. Frood|Heavy Metals and Marine Diatoms:  Influence of Dissolved Organic Compounds on Toxicity and Selection for Metal Tolerance Among Four Species|Mar. Biol.59(2): 85-93|1980|10.1007/BF00405458
6471|A||Regoli,F., M. Nigro, and E. Orlando|Effects of Copper and Cadmium on the Presence of Renal Concretions in the Bivalve Donacilla cornea|Comp. Biochem. Physiol. C Comp. Pharmacol.102(1): 189-192|1992|10.1016/0742-8413(92)90062-C
6472|A||Fytizas,R., and G. Vassiliou|The Influence of the Herbicide Trifluralin on Flagellar Regeneration in Chlamydomonas|Meded. Fac. Landbouwwet. Rijksuniv. Gent45(4): 923-927|1980|
6473|A||Torreblanca,A., J. Del Ramo, and J. Diaz-Mayans|Changes in Biochemical Composition of Gills, Hepatopancreas and Muscle of the Red Crayfish Procambarus clarkii (Girard) after Sublethal Exposure to|Comp. Biochem. Physiol. C Comp. Pharmacol.102(2): 247-252|1992|10.1016/0742-8413(92)90108-J
6474|A||Chen,J.C., and C.Y. Lin|Oxygen Consumption and Ammonia-N Excretion of Penaeus chinensis Juveniles Exposed to Ambient Ammonia at Different Salinity Levels|Comp. Biochem. Physiol. C Comp. Pharmacol.102(2): 287-291|1992|10.1016/0742-8413(92)90113-L
6476|A|RUSSN|Gapochka,L.D., and G.A. Karaush|Action of the Dispersant EPN-5 on a Mixed Culture of Blue-Green Algae|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)8:65-68|1980|
6477|A||Goel,K.A., and V. Garg|2,3',4-Triaminoazobenzene-Induced Hematobiochemical Anomalies in Fish (Channa punctatus)|Bull. Environ. Contam. Toxicol.25(1): 136-141|1980|10.1007/BF01985501
6478|A||Jenkins,K.D., and B.M. Sanders|Relationships Between Free Cadmium Ion Activity in Sea Water and Cadmium Metabolism, Growth and Reproduction in Polychaetes|Aquat. Sci. Fish. Abstr.16(10): 16007-1Q16|1986|
6479|A||Gill,T.S., C.P. Bianchi, and A. Epple|Trace Metal (Cu and Zn) Adaptation of Organ Systems of the American Eel, Angilla rostrata, to External Concentrations of Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol.102(3): 361-371|1992|10.1016/0742-8413(92)90127-S
6480|A||Grosell,M., H.J.M. Hansen, and P. Rosenkilde|Cu Uptake, Metabolism and Elimination in fed and Starved European Eels (Anguilla anguilla) During Adaptation to Water-Borne Cu Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(2): 295-305|1998|
6481|A||Latif,N., F.M. Asaad, and N.S. Girgis|Malononitriles & Cyanoesters: Part VII-Diaryl- & Dithienyl-Propenones & -Cyanopyridines & Their Molluscicidal Activity|Indian J. Chem.20(6): 463-466|1981|
6482|A||Giddings,J.M.|Four-Hour Algal Bioassays for Assessing the Toxicity of Coal-Derived Materials|In: Dept.Energy 2nd Symp.on Process Measurements for Environmental Assessment, Feb.25, 1980, Atlanta, GA:13 p.|1980|
6483|A||Richmonds,C.R., and H.M. Dutta|Variations Produced by Malathion on the Serum Protein Fractions of Bluegill Sunfish Lepomis macrochirus|Comp. Biochem. Physiol. C Comp. Pharmacol.102(3): 403-406|1992|10.1016/0742-8413(92)90133-R
6484|A|OECDG|Geike,F., and C.D. Parasher|Effect of Hexachlorobenzene on Some Growth Parameters of Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.15(6): 670-677|1976|10.1007/BF01685616
6485|A||Goel,K.A., and V. Garg|Histopathological Changes Produced in the Liver and Kidney of Channa punctatus After Chronic Exposure to 2,3',4-Triaminoazobenzene|Bull. Environ. Contam. Toxicol.25(2): 330-334|1980|10.1007/BF01985534
6486|A||Lemaire,P., A. Mathieu, J. Giudicelli, and M. LaFaurie|Effect of Diet on the Responses of Hepatic Biotransformation Enzymes to Benzo(a)pyrene in the European Sea Bass (Dicentrarchus labrax)|Comp. Biochem. Physiol. C Comp. Pharmacol.102(3): 413-420|1992|10.1016/0742-8413(92)90135-T
6487|A||Richmonds,C., and H.M. Dutta|Effect of Malathion on the Optomotor Behavior of Bluegill Sunfish, Lepomis macrochirus|Comp. Biochem. Physiol. C Comp. Pharmacol.102(3): 523-526|1992|10.1016/0742-8413(92)90153-X
6488|A||Gray,P.S., R.,Jr. Hunter, and R.M. Patterson|Chromosomal Aberrations Induced by Dispersion Yellow 3 in Rana clamitans Larvae During Tail Regeneration|Cytobios25(99-100): 175-182|1979|
6489|A||Geiger,J.G., A.L.,Jr. Buikema, and J.,Jr. Cairns|A Tentative Seven-Day Test for Predicting Effects of Stress on Populations of Daphnia pulex|ASTM Spec. Tech. Publ.:13-26|1980|
6490|A||Guiney,P.D., M. Dickins, and R.E. Peterson|Paradoxical Effects of Cobaltous Chloride Treatment on 2-Methylnaphthalene Disposition and Hepatic Cytochrome P-450 Content in Carp|Arch. Environ. Contam. Toxicol.9(5): 579-590|1980|10.1007/BF01056937
6491|A||Guiney,P.D., J.L. Lech, and R.E. Peterson|Distribution and Elimination of a Polychlorinated Biphenyl During Early Life Stages of Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.53(3): 521-529|1980|10.1016/0041-008X(80)90365-8
6492|A||Guiney,P.D., and R.E. Peterson|Distribution and Elimination of Polychlorinated Biphenyl After Acute Dietary Exposure in Yellow Perch and Rainbow Trout|Arch. Environ. Contam. Toxicol.9(6): 667-674|1980|10.1007/BF01055542
6493|A||Guiney,P.D., M.J.,Jr. Melancon, J.J. Lech, and R.E. Peterson|Effects of Egg and Sperm Maturation and Spawning on the Distribution and Elimination of Polychlorinated Biphenyl in Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.47:261-277|1979|10.1016/0041-008X(79)90320-X
6494|A||Gunkel,G., and B. Streit|Mechanisms of Bioaccumulation of a Herbicide (Atrazine, S-Triazine) in a Freshwater Mollusc (Ancylus fluviatilis Mull.) and a Fish (Coregonus fera Jurine)|Water Res.14(11): 1573-1584|1980|10.1016/0043-1354(80)90061-5
6495|A||Hall,R.J., and E. Kolbe|Bioconcentration of Organophosphorus Pesticides to Hazardous Levels by Amphibians|J. Toxicol. Environ. Health6(4): 853-860|1980|10.1080/15287398009529903
6496|A||Iwama,G.K., and G.L. Greer|Effect of a Bacterial Infection on the Toxicity of Sodium Pentachlorophenate to Juvenile Coho Salmon|Trans. Am. Fish. Soc.109(2): 290-292|1980|10.1577/1548-8659(1980)109<290:EOABIO>2.0.CO;2
6497|A||Bebianno,M.J., and W.J. Langston|Cadmium Induction of Metallothionein Synthesis in Mytilus galloprovincialis|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 79-85|1992|10.1016/0742-8413(92)90231-U
6498|A||Bishop,W.E., and A.W. Maki|A Critical Comparison of Two Bioconcentration Test Methods|ASTM Spec. Tech. Publ.:61-77|1980|
6499|A||Kokuricheva,M.P.|Pathomorphological Changes in Fish Under the Effect of Different Concentrations of Diuron|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )6:172-177|1976|
6500|A||Levrat,B., J.P. Breittmayer, and M. Lefaurie|Hepatocellular Carcinoma Induced by Dimethylnitrosamine in the Mullet (Mugil capito)|Aquat. Sci. Fish. Abstr.17(2-4): 335-|1985|
6501|A||Nasci,C., G. Campesan, V.U. Fossato, L. Tallandini, M. Turchetto, and S. Thomann|Induction of Cytochrome P-450 and Mixed Function Oxidase Activity by Low Concentrations of Polychlorinated Biphenyls in Fish (Zosterisessor ophiocephalus) (Pall.)|Aquat. Sci. Fish. Abstr.16(10): 15983-1|1986|
6502|A||Bailey,H.C., and D.H.W. Liu|Lumbriculus variegatus, a Benthic Oligochaete, as a Bioassay Organism|ASTM Spec. Tech. Publ.:205-215|1980|
6503|A||Smith,A.D., T.J. Griffith, D.E. Orr, and G.W. Ozburn|Assimilation Efficiency and Clearance of Trichlorobenzenes in Rainbow Trout|ASTM Spec. Tech. Publ.:216-223|1980|
6505|A||Musmeci,M.T., A. Santulli, and V. D'Amelio|Oxidized Respiratory Molecules Induced In Vivo By Nitrite in Pontodrilus littoralis (Oligochaeta)|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 101-104|1992|10.1016/0742-8413(92)90235-Y
6506|A||Lin,W., M.A. Rice, and P.K. Chien|The Effects of Copper, Cadmium and Zinc on Particle Filtration and Uptake of Glycine in the Pacific Oyster Crassostrea gigas|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 181-187|1992|10.1016/0742-8413(92)90250-B
6507|A||Rand,G.M., and G.T. Barthalmus|Use of an Unsignalled Avoidance Technique to Evaluate the Effects of the Herbicide 2,4-Dichlorophenoxyacetic Acid on Goldfish|ASTM Spec. Tech. Publ.:341-353|1980|
6508|A||Fung,D.K., and P.H. Bewick|Short-Term Toxicity of Aqueous Hydrogen Sulfide to Representative Fish Species of Lake Huron|ASTM Spec. Tech. Publ.3:377-396|1980|
6509|A||Hendricks,J.D., R.A. Scanlan, J.L. Williams, R.O. Sinnhuber, and M.P. Grieco|Carcinogenicity of N-Methyl-N'-Nitro-N-Nitroso-Guanidine to the Livers and Kidneys of Rainbow Trout (Salmo gairdneri) Exposed as Embryos|J. Natl. Cancer Inst.64(6): 1511-1519|1980|10.1093/jnci/64.6.1511
6510|A||Diamond,J.M., D.G. Mackler, W.J. Rasnake, and D. Gruber|Derivation of Site-Specific Ammonia Criteria for an Effluent-Dominated Headwater Stream|Environ. Toxicol. Chem.12:649-658|1993|
6511|A||Hendricks,J.D., R.O. Sinnhuber, J.H. Wales, M.E. Stack, and D.P.H. Hsieh|Hepatocarcinogenicity of Sterigmatocystin and Versicolorin A to Rainbow Trout (Salmo gairdneri) Embryos|J. Natl. Cancer Inst.64(6):1503-1509|1980|10.1093/jnci/64.6.1503
6512|A||Bentley,P.J.|Influx of Zinc by Channel Catfish (Ictalurus punctatus): Uptake from External Environmental Solutions|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 215-217|1992|10.1016/0742-8413(92)90263-7
6513|A||Hess,F.D.|A Chlamydomonas Algal Bioassay for Detecting Growth Inhibitor Herbicides|Weed Sci.28(5): 515-520|1980|10.1017/S0043174500061130
6515|A||Weber,D.N., S. Eisch, R.E. Spieler, and D.H. Petering|Metal Redistribution in Largemouth Bass (Micropterus salmoides) in Response to Restrainment Stress and Dietary Cadmium: Role of Metallothionein and Other Metal-Binding Proteins|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 255-262|1992|10.1016/0742-8413(92)90270-H
6516|A||Janssen,C.R., and G. Persoone|Rapid Toxicity Screening Tests for Aquatic Biota. 1. Methodology and Experiments with Daphnia magna|Environ. Toxicol. Chem.12:711-717|1993|
6517|A||Van Pittius,M.G., J.H.J. Van Vuren, and H.H. Du Preez|Effects of Chromium During pH Change on Blood Coagulation in Tilapia sparrmanii (Cichlidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 371-374|1992|10.1016/0742-8413(92)90289-J
6518|A||Wilcock,R.J., T.J. Smith, R.D. Pridmore, S.F. Thrush, V.J. Cummings, and J.E. Hewitt|Bioaccumulation and Elimination of Chlordane by Selected Intertidal Benthic Fauna|Environ. Toxicol. Chem.12:733-742|1993|10.1002/etc.5620120415
6519|A||Ferrando,M.D., and E. Andreau-Moliner|Lindane-Induced Changes in Carbohydrate Metabolism in Anguilla anguilla|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 437-441|1992|10.1016/0742-8413(92)90300-V
6520|A||Hunter,J.B., S.L. Ross, and J. Tannahill|Aluminium Pollution and Fish Toxicity|J. Water Pollut. Control Fed.79(3): 413-420|1980|
6521|A||Chen,J.C., and C.Y. Lin|Effect of Ammonia on Growth of Penaeus pencillatus Juveniles|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 443-447|1992|10.1016/0742-8413(92)90067-H
6522|A||Itow,T.|Teratogenesis of the Horseshoe Crab by alpha-Lipoic Amide (6,8-Thioctic Amide) in Marketed Vitamin Tablets|J. Nutr. Sci. Vitaminol.26(3): 237-245|1980|10.3177/jnsv.26.237
6523|A||Chen,J.C., and C.Y. Lin|Effects of Ammonia on Growth and Molting of Penaeus monodon Juveniles|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 449-452|1992|10.1016/0742-8413(92)90068-I
6525|A||Jiang,L., and R. Zhang|Histological Studies on the Toxic Effects of Phenol and Carbon Tetrachloride on the Liver and Kidney of Common Carp Cyprinus carpio and Crucian Carp|Dongwu Xuebao25(4): 311-314|1979|
6526|A||Dalela,R.C., M.C. Bhatnagar, and S.R. Verma|Histochemical Studies on the Effect of Rogor and Thiodon on the Activity of Acid Phosphatase in Liver, Muscles and Kidney of Channa gachua|Indian J. Exp. Biol.16(10): 1099-1102|1978|
6527|A||Chen,J.C., and S.F. Chen|Effects of Nitrite on Growth and Molting of Penaeus monodon Juveniles|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 453-458|1992|10.1016/0742-8413(92)90069-J
6528|A|OECDG|Gopal,K., M.D. Ram, and D. Agarwal|Some Physiological Consequences to Fresh Water Fish, Channa punctatus, After Exposure to Lindane|Bull. Environ. Contam. Toxicol.50(2): 187-191|1993|10.1007/BF00191720
6529|A||Verma,S.K., R.K. Singh, and S.P. Singh|Copper Toxicity and Phosphate Utilization in the Cyanobacterium Nostoc calcicola|Bull. Environ. Contam. Toxicol.50(2): 192-198|1993|10.1007/BF00191721
6530|A||Ferrari,L., A. Salibian, and C.V. Muino|Selective Protection of Temperature Against Cadmium Acute Toxicity to Bufo arenarum Tadpoles|Bull. Environ. Contam. Toxicol.50(2): 212-218|1993|10.1007/BF00191724
6531|A||Kikuchi,M., M. Wakabayashi, H. Kojima, and T. Yoshida|Bioaccumulation Profiles of 35S-Labelled Sodium Alkylpoly (Oxyethylene) Sulfates in Carp (Cyprinus carpio)|Water Res.14(10): 1541-1548|1980|10.1016/0043-1354(80)90022-6
6532|A||Wakabayashi,M., M. Kikuchi, H. Kojima, and T. Yoshida|Effect of Alkyl Chain on the Uptake, Distribution, and Excretion of 35S-Labeled Alkyl Sulfates in Carp|Ecotoxicol. Environ. Saf.4(2): 195-206|1980|10.1016/0147-6513(80)90020-2
6533|A||Amiard,J.C.|Accumulation of Antimony-125 by some Groups of Marine Organism|Rep.No.CEA-R-4530, Atomic Energy Commission, Cherbourg, France:14 p.|1973|
6538|A||McGeachy,S.M., and D.G. Dixon|Whole-Body Arsenic Concentrations in Rainbow Trout During Acute Exposure to Arsenate|Ecotoxicol. Environ. Saf.24(3): 301-308|1992|10.1016/0147-6513(92)90006-O
6539|A||Kobayashi,K., and T. Kishino|Effect of pH on the Toxicity and Accumulation of Pentachlorophenol in Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)46(2): 167-170|1980|10.2331/suisan.46.167
6540|A||Khan,A.T., J.S. Weis, C.E. Saharig, and A.E. Polo|Effect of Tributyltin on Mortality and Telson Regeneration of Grass Shrimp, Palaemonetes pugio|Bull. Environ. Contam. Toxicol.50(1): 152-157|1993|
6541|A||Kobayashi,N.|Comparative Sensitivity of Various Developmental Stages of Sea Urchins to Some Chemicals|Mar. Biol.58(3): 163-171|1980|10.1007/BF00391872
6542|A||Koenig,C.C., and C. McLean|'Rivulus marmoratus': A Unique Fish Useful in Chronic Marine Bioassays of Halogenated Organics|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Water Chlorination Environmental Impact and Health Effects, Vol.2, Chapter 72, Ann Arbor Sci.Publ.Inc.Ann Arbor, MI:827-833|1980|
6543|A||Niederlehner,B.R.,Jr.|Effects of Previous Zinc Exposure on pH Tolerance of Periphyton Communities|Environ. Toxicol. Chem.12:743-753|1993|10.1002/etc.5620120416
6544|A||Kordylewska,A.|Developmental Disturbances of Limnaea stagnalis L. (Gastropoda, Pulmonta) due to Phenol intoxication|Acta Biol. Crac., Ser. Zool.22(1): 105-130|1980|
6545|A||Kordylewska,A.|Effect of Phenol on the Cell Structure of the Embryos of Limnaea stagnalis L. (Gastropoda, Pulmonata). Light and Electron Microscopic Study|Acta Biol. Crac., Ser. Zool.22(1): 89-98|1980|
6547|A||Koundinya,P.R., and R. Ramamurthi|Toxicity of Sumithion and Sevin to the Freshwater Fish, Sarotherodon mossambicus (Peters)|Curr. Sci. (Bangalore)49(22): 875-876|1980|
6548|A||Kuwabara,K., A. Nakamura, and T. Kashimoto|Effect of Petroleum Oil, Pesticides, PCBs and Other Environmental Contaminants on the Hatchability of Artemia salina dry Eggs|Bull. Environ. Contam. Toxicol.25(1): 69-74|1980|10.1007/BF01985489
6549|A||Varghese,G., P.S. Naik, and M. Katdare|Respiratory Responses and Blood Sugar Level of the Crab, Barytelphusa cunicularis (Westwood), Exposed to Mercury, Copper and Zinc|Indian J. Exp. Biol.30(4): 308-312|1992|
6550|A||Jash,N.B., S. Chatterjee, and S. Bhattacharya|Role of Acetylcholine in the Recovery of Brain Acetylcholinesterase in Channa punctatus (Bloch) Exposed to Furadan|Comp. Physiol. Ecol.7(2): 56-58|1982|
6551|A||Karlander,E.P., and R.W. Krauss|Absorption and Toxicity of Beryllium and Lithium in Chlorella vannielii Shihira and Krauss|Chesapeake Sci.13(4): 245-253|1972|10.2307/1351108
6552|A||Lauthier,M.|Cell Death and Abnormalities in Limb Morphogenesis of Pleurodeles waltlii Michah. (Urodela, Amphibia) After Nitrogen Mustard Treatment|Wilhelm Roux's Arch. Dev. Biol.189(1): 35-45|1980|10.1007/BF00848565
6553|AT||Tomizawa,C., and H. Kazano|Environmental Fate of Rice Paddy Pesticides in a Model Ecosystem|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(2): 121-152|1979|
6554|A||Ortiz,J.A., A. Rueda, G. Carbonell, J.A. Camargo, F. Nieto, M.J. Reoyo, and J.V. Tarazona|Acute Toxicity of Sulfide and Lower pH in Cultured Rainbow Trout, Atlantic Salmon, and Coho Salmon|Bull. Environ. Contam. Toxicol.50(1): 164-170|1993|10.1007/BF00196556
6556|A||Naylor,C., E.J. Cox, M.C. Bradley, and P. Calow|Effect of Differing Maternal Food Ration on Susceptibility of Daphnia magna Straus Neonates to Toxic Substances|Aquat. Toxicol.24(1-2): 75-82|1992|10.1016/0166-445X(92)90017-H
6557|A||Lee,C.M., J.F. Fullard, and E. Huntington|Development of a Chronic Toxicity Test Using Chironomus riparius and the Sublethal Effects of Trisodium Carboxymethyloxysuccinate|J. Test. Eval.8(6): 282-287|1980|
6558|A||Page,D.S., E.S. Gilfillan, M. Clavette, and J.C. Foster|The Effect of Chromium Absorption and Depuration on the Activities of Glucose 6-Phosphate Dehydrogenase and Aspartate Amino Transferase in Mytilus edulis|Aquat. Sci. Fish. Abstr.16(10): 16029-1Q16|1986|
6559|A||Lenova,L.I., S.S. Stavskaya, and M.Y. Ratushnaya|Effect of Sodium Dodecyl Sulfate on Single-Cell Chlorella Algae|Gidrobiol. Z. (Non-English)16(3): 83-87|1980|
6560|A||Lien,B.C., J.R.L. Walker, and J.A. Peters|"The Effect of Fluoroacetate (""Compound 1080"") and Fluoride upon Duckweeds"|N. Z. J. Sci.23(2):179-183|1980|
6561|A||Pittinger,C.A., D.J. Versteeg, B.A. Blatz, and E.M. Meiers|Environmental Toxicology of Succinate Tartrates|Aquat. Toxicol.24(1-2): 83-102|1992|10.1016/0166-445X(92)90018-I
6562|A||Lim,L.O., S.J. Gee, and R.I. Krieger|Chemical Disposition in Marine Mussels Mytilus californianus:  Toxicity, Uptake and Elimination of Benzoic Acid and Four p-Substituted Homologues|Pap.No.350, 19th Annu.Meet., Soc.of Toxicol., Mar.9-13, 1980, Washington, DC:A117|1980|
6563|A||Van der Weiden,M.E.J., J. Van der Kolk, R. Bleumink, W. Seinen, and M. Van den Berg|Concurrence of P450 1A1 Induction and Toxic Effects After Administration of a Low Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.24(1-2): 123-142|1992|10.1016/0166-445X(92)90020-N
6564|A||Schmieder,P.K., and L.J. Weber|Blood and Water Flow Limitations on Gill Uptake of Organic Chemicals in the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.24(1/2): 103-122|1992|10.1016/0166-445X(92)90019-J
6565|A||Muir,D.C.G., N.P. Grift, A.P. Blouw, and W.L. Lockhart|Environmental Dynamics of Phosphate Esters. I. Uptake and Bioaccumulation of Triphenyl Phosphate by Rainbow Trout|Chemosphere9(9): 525-532|1980|10.1016/0045-6535(80)90068-5
6567|A|RUSSN|Aleksanyan,O.M., N.R. Kosinova, and T.M. Krilova|Action of Strontium-90 and Metaphos on Cyprinus carpio|Radiobiologiya18(1): 131-134|1978|
6568|AT||Madeley,J.R., and R.D.N. Birtley|Chlorinated Paraffins and the Environment. 2. Aquatic and Avian Toxicology|Environ. Sci. Technol.14(10): 1215-1221|1980|10.1021/es60170a004
6569|A||Part,P., J. Saarikoski, J. Tuurala, and K. Havaste|The Absorption of Hydrophobic Chemicals Across Perfused Rainbow Trout Gills: Methodological Aspects|Ecotoxicol. Environ. Saf.24(3):275-286|1992|10.1016/0147-6513(92)90003-L
6571|A||Mandal,P.K., and A.K. Kulshrestha|Histopathological Changes Induced by the Sub-lethal Sumithion in Clarias batrachus (Linn.)|Indian J. Exp. Biol.18(5): 547-552|1980|
6572|A||Venugopal,N.B.R.K., and S.L.N. Reddy|Nephrotoxic and Hepatotoxic Effects of Trivalent and Hexavalent Chromium in a Teleost Fish Anabas scandens: Enzymological and Biochemical Changes|Ecotoxicol. Environ. Saf.24(3): 287-293|1992|10.1016/0147-6513(92)90004-M
6573|A||Shumway,D.L., and J.R. Palensky|Impairment of the Flavor of Fish by Water Pollutants|EPA-R3-73-010, U.S.EPA, Washington, D.C.:80 p.|1973|
6574|A||McLeese,D.W., D.B. Sergeant, C.D. Metcalfe, V. Zitko, and L.E. Burridge|Uptake and Excretion of Aminocarb, Nonylphenol, and Pesticide Diluent 585 by Mussels (Mytilus edulis)|Bull. Environ. Contam. Toxicol.24(4): 575-581|1980|10.1007/BF01608158
6575|A||Medlin,L.K.|Effects of Di-n-butyl Phthalate and Salinity on the Growth of the Diatom Skeletonema costatum|Bull. Environ. Contam. Toxicol.25(1): 75-78|1980|10.1007/BF01985490
6577|A|RUSSN|Metelev,V.V., and V.F. Brichko|Effect of Benthiocarb on Fish|Veterinaria (Mosk.) (Non-English)12:58-60|1980|
6578|A||Anonymous|Introduction of Newly Registered Pesticides for Agricultural Use.  Pyriminil, a Rodenticide and Herupos, a Plant Growth Regulating Agent|Shokubutsu Boekijo Chosa Kenkyu Hokoku (Non-English)32(12): 530-531|1978|
6579|A||Miramand,P., J.C. Guary, and S.W. Fowler|Vanadium Transfer in the Mussel, Mytilus galloprovincialis|Mar. Biol.56(4): 281-293|1980|10.1007/BF00386866
6580|A||Besser,J.M., T.J. Canfield, and T.W. La Point|Bioaccumulation of Organic and Inorganic Selenium in a Laboratory Food Chain|Environ. Toxicol. Chem.12(1): 57-72|1993|10.1002/etc.5620120108
6581|A||Sweeney,B.W., D.H. Funk, and L.J. Standley|Use of the Stream Mayfly Cloeon triangulifer as a Bioassay Organism: Life History Response and Body Burden Following Exposure to Technical Chlordane|Environ. Toxicol. Chem.12(1): 115-125|1993|10.1002/etc.5620120113
6582|A||Suedel,B.C., J.H.,Jr. Rodgers, and P.A. Clifford|Bioavailability of Fluoranthene in Freshwater Sediment Toxicity Tests|Environ. Toxicol. Chem.12(1): 155-165|1993|10.1002/etc.5620120116
6583|A||Muir,D.C.G., N.P. Grift, A.P. Blouw, and W.L. Lockhart|Persistence of Fluridone in Small Ponds|J. Environ. Qual.9(1): 151-156|1980|10.2134/jeq1980.00472425000900010032x
6584|A||Hirata,H., S. Yamasaki, T. Hisadome, and T. Makita|Sub-Acute Toxicity of Benthiocarb Herbicide on Haemato-Diagnosis and Growth Rates in the Carp, Cyprinus carpio L|Verh. Int. Ver. Theor. Angew. Limnol.21(3): 1314-1319|1981|
6585|A||Mukhopadhyay,P.K., and P.V. Dehadrai|Biochemical Changes in the Air-Breathing Catfish Clarias batrachus (Linn.) Exposed to Malathion|Environ. Pollut. A.22(2): 149-158|1980|10.1016/0143-1471(80)90190-7
6586|A||Mukhopadhyay,P.K., and P.V. Dehadrai|Studies on Air-Breathing Catfish Clarias batrachus (Linn.) Under Sublethal Malathion Exposure|Indian J. Exp. Biol.18(4): 400-404|1980|
6587|A||Murray,H.E., and R.K. Guthrie|Effects of Carbaryl, Diazinon and Malathion on Native Aquatic Populations of Microorganisms|Bull. Environ. Contam. Toxicol.24(4): 535-542|1980|10.1007/BF01608152
6588|A||Maier,K.J., C.G. Foe, and A.W. Knight|Comparative Toxicity of Selenate, Selenite, Seleno-DL-Methionine and Seleno-DL-Cystine to Daphnia magna|Environ. Toxicol. Chem.12(4): 755-763|1993|
6589|A||Nagel,R., and K. Urich|Kinetic Studies on the Elimination of Different Substituted Phenols by Goldfish (Carassius auratus)|Bull. Environ. Contam. Toxicol.24(3): 374-378|1980|10.1007/BF01608125
6591|A||Newell,S.Y., K.E. Cooksey, J.W. Fell, I.M. Master, C. Miller, and M.A. Walter|Acute Impact of an Organophosphorus Insecticide on Microbes and Small Invertebrates of a Mangrove Estuary|Arch. Environ. Contam. Toxicol.10(4): 427-435|1981|10.1007/BF01055439
6592|A||Nilsson,J.R.|Effects of Dimethyl Sulphoxide on ATP Content and Protein Synthesis in Tetrahymena|Protoplasma (Multiple Languages)103(2): 189-200|1980|10.1007/BF01276676
6594|A||Nishiuchi,Y.|Toxicity of formulated pesticides to fresh water organisms. LXXIV|Suisan Zoshoku (Non-English)28(2): 107-112|1980|
6596|A||Taylor,P.B.|Effects of Anaesthetic MS 222 on the Orientation of Juvenile Salmon, Oncorhynchus tschawytscha Walbaum|J. Fish Biol.32(2): 161-168|1988|10.1111/j.1095-8649.1988.tb05349.x
6597|A||Paflitschek,R.|Studies on the Toxic Action of Bayluscide and Lebaycide on the Egg Juvenile and Adult Stages of the Cichlids Tilapia leucosticta and Herotilapia|Z. Angew. Zool. (Multiple Languages)66(2): 143-172|1979|
6598|A||Rippon,G.D., C.A. Le Gras, R.V. Hyne, and P.J. Cusbert|Toxic Effects of Cyanide on Aquatic Animals of the Alligator Rivers Region|Tech. Memo. - Superv. Sci. Alligator Rivers Reg:10 p.|1992|
6599|A||Workman,G.W., and J.M. Neuhold|Lethal Concentrations of Toxaphene for Goldfish, Mosquitofish, and Rainbow Trout, with Notes on Detoxification|Prog. Fish-Cult.25:23-30|1963|10.1577/1548-8659(1963)25[23:LCOTFG]2.0.CO;2
6600|A|OECDG|Yoshioka,Y., T. Mizuno, Y. Ose, and T. Sato|The Estimation for Toxicity of Chemicals on Fish by Physico-Chemical Properties|Chemosphere15(2): 195-203|1986|10.1016/0045-6535(86)90571-0
6601|A|OECDG|Bringmann,G.|Investigation of Biological Harmful Effects of Chemical Substances Which are Classified as Dangerous for Water on Protozoa|TR-80-0307, Literature Research Company, Annandale, VA11(6): 210-215|1978|
6602|A||Pfeifer,K.F., L.J. Weber, and R.E. Larson|Carbon Tetrachloride-Induced Hepatotoxic Response in Rainbow Trout, Salmo gairdneri, as Influenced by Two Commercial Fish Diets|Comp. Biochem. Physiol. C Comp. Pharmacol.67(2): 91-96|1980|10.1016/0306-4492(80)90002-7
6603|A||Chadwick,G.G., and U. Kiigemagi|Toxicity Evaluation of a Technique for Introducing Dieldrin into Water|J. Water Pollut. Control Fed.40(1): 76-82|1968|
6604|A||Plumley,F.G., D.E. Davis, J.T. McEnernery, and J.W. Everest|Effects of a Photosynthesis Inhibitor, Atrazine, on the Salt-Marsh Fiddler Crab, Uca pugnax (Smith)|Estuaries3(3): 217-223|1980|10.2307/1352072
6605|A||Kobbia,I.A., E.F. Shabana, Z. Khalil, and F.I.Y. Mostafa|Fate of 14C-Labelled Methomyl as Affected by Nostoc muscorum and Tolypothrix tenuis and Its Role in Their Metabolic Activities|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(4): 409-425|1991|
6607|A|RUSSN|Putintsev,A.I., and N.A. Gameza|Changes in Biochemical Indexes in Carp After Experimental Poisoning with Trimethyltin Chloride|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)8:29-34|1980|
6608|A||Quader,H., and P. Filner|The Action of Antimitotic Herbicides on Flagellar Regeneration in Chlamydomonas reinhardtii: A Comparison with the Action of Colchicine|Eur. J. Cell Biol.21(3): 301-304|1980|
6609|A||Chandurkar,P.S., F. Matsumura, and T. Ikeda|Identification and Toxicity of Toxicant AC, a Toxic Component of Toxaphene|Chemosphere7(2): 123-130|1978|10.1016/0045-6535(78)90039-5
6610|A||Ahrens,V.D., J.D. Henion, G.A. Maylin, L. Leibovitz, L.E.,Jr. St.John, and D.J. Lisk|A Water-Extractable Toxic Compound in Vinyl Upholstery Fabric|Bull. Environ. Contam. Toxicol.20(3): 418-422|1978|10.1007/BF01683541
6611|A||Rao,M.V.R., and R. Ramamurthi|Effect of Sub-Lethal Concentration of Sumithion on Some Biochemical Constituents of the Freshwater Snail Pila globosa (Swainson)|Geobios (Jodhpur)7(6): 247-250|1980|
6612|A||Rao,V.N.R., and P.J. Manohar|Effect of Some Antialgal Chemicals on Growth of Stigeoclonium tenue Kutz. in Laboratory Cultures|Proc. Indian Acad. Sci. Sect. B88(5, Pt. 2): 367-372|1979|10.1007/BF03046109
6613|A||Rath,S., and B.N. Misra|Age-Related Changes in Oxygen Consumption by the Gill, Brain and Muscle Tissues of Tilapia mossambica Peters Exposed to Dichlorvos (DDVP)|Environ. Pollut.23(2): 95-101|1980|10.1016/0143-1471(80)90057-4
6614|A||Rath,S., and B.N. Misra|Pigment Dispersion in Tilapia mossambica Peters Exposed to Dichlorvos (DDVP)|Curr. Sci. (Bangalore)49(23): 907-909|1980|
6615|A||Schoettger,R.A.|Fish-Pesticide Research Laboratory|In: Prog. in Sport Fish. Res., U.S. Dep. Interior, Bur. Sport Fish. and Wildl. Res., Publ. No.106:2-40|1970|
6616|A||Rhodes,R.C.|Studies with C14-Labeled Hexazinone in Water and Bluegill Sunfish|J. Agric. Food Chem.28(2): 306-310|1980|10.1021/jf60228a002
6617|A||Richardson,J.T., R.E. Frans, and R.E. Talbert|Reactions of Euglena gracilis to Fluometuron, MSMA, Metribuzin, and Glyphosate|Weed Sci.27(6): 619-624|1979|10.1017/S0043174500046002
6618|A||Rodrigues,J.D., J.F. Pedras, S.D. Rodrigues, J.A. Silva, and A.E. Klar|Treatment of Aquatic Plants with Herbicides and Insecticides. I. Effects on some Fish in the Basins of the Piracicaba and Tiete Rivers|Rev.Agric.(Piracicaba)55(1/2): 5-12|1980|
6619|A||Mohideen,M.B., and P.M. Reddy|Changes in the Brain Protein Profiles of Freshwater Fish Cyprinus carpio Under Malathion Stress|Z. Angew. Zool. (Multiple Languages)74(3): 293-298|1987|
6620|A||Sahib,I.K.A., K.S. Swami, and K.V.R. Rao|Regulation of Glutamate Dehydrogenase, Ammonia and Free Amino Acids in the Tissues of the Teleost, Tilapia mossambica (Peters) Consequent to Sublethal Malathion Exposure:  A Time Course Study|Curr. Sci. (Bangalore)49(20): 779-782|1980|
6621|A||Abban,E.K., and J. Samman|Preliminary Observations on the Effect of the Insect Larvicide Abate on Fish Catches in the River Oti, Ghana|Environ. Pollut. A.21(4): 307-311|1980|10.1016/0143-1471(80)90132-4
6622|A||Sanders,D.R.S., R.F. Theriot, W.R. Arnold, and S.D. West|Evaluation of Two Fluridone Formulations for the Control of Hydrilla in Gatun Lake Panama Canal Zone|Tech.Rep.A-79-3, Panama Canal Company, Balboa Heights, Canal Zone:45 p.|1980|
6623|A||Bell,M.V., K.F. Kelly, and J.R. Sargent|The Uptake of Orthovanadate into Various Organs of the Common Eel, Anguilla anguilla, Maintained in Fresh Water|Sci. Total Environ.16(2): 99-108|1980|10.1016/0048-9697(80)90017-0
6624|A||Savan,M., and P. Dobos|Effect of Virazole on Rainbow Trout Salmo gairdneri Richardson Fry Infected with Infectious Pancreatic Necrosis Virus|J. Fish Dis.3(5): 437-440|1980|10.1111/j.1365-2761.1980.tb00427.x
6625|A||Tort,L., and P. Torres|The Effects of Sublethal Concentrations of Cadmium on Haematological Parameters in the Dogfish, Scyliorhinus canicula|J. Fish Biol.32(2):277-282|1988|10.1111/j.1095-8649.1988.tb05361.x
6626|A||Schaefer,C.H., A.E. Colwell, and E.F.,Jr. Dupras|The Occurrence of p-Chloroaniline and p-Chlorophenylurea from the Degradation of Diflubenzuron in Water and Fish|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.:84-89|1980|
6627|A||Schefczik,K., and W. Simonis|Side Effects of Chlorinated Hydrocarbon Insecticides on Membranes of Plant Cells. I. The Influence of Lindane on the Membrane Potential of Elodea|Pestic. Biochem. Physiol.13(1): 13-19|1980|10.1016/0048-3575(80)90078-4
6628|A|OECDG|Kuhn,R., M. Pattard, and K. Pernak|Schadstoffwirkungen von Umweltchemikalien im Daphnien-Reproduktions-Test als Grundlage zur Bewertung der Umweltgefhrlichkeit in Aquatischen Systemen|Forschungsbericht 10603052, Mrz:41 p|1988|
6629|A|OECDG|Canton,J.H., W. Slooff, H.J. Kool, J. Struys, T.J.M. Pouw, R.C.C. Wegman, and G.J. Piet|Toxicity, Biodegradability, and Accumulation of a Number of Cl/N-Containing Compounds for Classification and Establishing Water Quality Criteria|Regul. Toxicol. Pharmacol.5:123-131|1985|10.1016/0273-2300(85)90026-1
6630|A||Schneider,M.J., S.A. Barraclough, R.G. Genoway, and M.L. Wolford|Effects of Phenol on Predation of Juvenile Rainbow Trout Salmo gairdneri|Environ. Pollut.23(2): 121-130|1980|10.1016/0143-1471(80)90060-4
6631|A||Khangarot,B.S., and P.K. Ray|Investigation of Correlation Between Physicochemical Properties of Metals and Their Toxicity to the Water Flea Daphnia magna Straus|Ecotoxicol. Environ. Saf.18(2): 109-120|1989|10.1016/0147-6513(89)90071-7
6632|A||Schofield,C.L., and J.R. Trojnar|Aluminum Toxicity to Brook Trout (Salvelinus fontinalis) in Acidified Waters|Environ. Sci. Res.17:341-366|1980|
6633|A||Schott,K., G. Schneider, and H. Oepen|A Pharmacological and Behavioural Study on beta-beta'-Iminodipropionitrile (IDPN)-Treated Brine Shrimp Artemia salina L|Toxicol. Lett.6(4-5):231-234|1980|10.1016/0378-4274(80)90124-1
6634|A|OECDG|Hoechst,A.G.|Grunddatenstze zu Altstoffen der VCI-Liste|Hoechst Aktiengesellschaft, Verband der Chemischen Industrie (VCI), Frankfurt, Germany:|1988|
6635|A||Schumacher,P.D., and J.J. Ney|Avoidance Response of Rainbow Trout (Salmo gairdneri) to Single-Dose Chlorination in a Power Plant Discharge Canal|Water Res.14(6): 651-655|1980|10.1016/0043-1354(80)90123-2
6636|A||Scorgie,H.R.A.|Ecological Effects of the Aquatic Herbicide Cyanatryn on a Drainage Channel|J. Appl. Ecol.17(1): 207-225|1980|10.2307/2402976
6637|A||Senger,H., and D. Ruhl|The Influence of Pentachlorophenol on the Biosynthesis of 5-Aminolevulinic Acid and Chlorophyll|Int. J. Biochem.12(5-6): 1045-1048|1980|10.1016/0020-711X(80)90209-8
6638|A||Khattak,I.U.D., and M.A. Hafeez|Effect of Malathion on Blood Parameters of the Fish, Cyprinion watsoni|Pak. J. Zool.28(1): 45-49|1996|
6639|A||Sergeant,D.B., V. Zitko, and L.E. Burridge|The Determination of Fenitrothion in Bivalves|Tech. Rep. Fish. Mar. Serv.906:27 p.|1979|
6640|A||Shaffi,S.A.|Zinc Intoxication in Some Freshwater Fishes. I. Variations in Tissue Energy Reserve|Ann. Limnol. (Multiple Languages)16(1): 91-97|1980|10.1051/limn/1980016
6641|A||Shcherban,E.P.|Effect of the Surfactant Alkylbenzolsulfonate (R=C10-C13) on the Main Bioparameters and Productivity of Daphnia magna|Hydrobiol. J.16(2): 92-95|1980|
6642|A||Kaur,K., and M.D. Ansal|Sensitivity of Selected Zooplankton Exposed to Phosphamidon, Fenitrothion, and Fenthion|Bull. Environ. Contam. Toxicol.57(2): 199-203|1996|10.1007/s001289900175
6643|A||Sigmon,C.F.|Physiological Effect of 2,4-D and 2,4,5-T on Selected Aquatic Organisms|Water Resources Research Institute, Clemson University, Clemson, SC:22 p.|1979|
6644|A||Aoki,K., Y. Taguchi, H. Matsudaira, and T. Ishikawa|Hepatic Changes of the Teleost, Oryzias latipes After Treatment with AF-2 and Nitrofurazone|Mutat. Res.38(5): 335-|1976|10.1016/0165-1161(76)90159-X
6645|A||Singh,H., and T.P. Singh|Effect of Two Pesticides on Ovarian 32P Uptake and Gonadotrophin Concentration During Different Phases of Annual Reproductive Cycle in the Freshwater Catfish, Heteropneustes fossilis (Bloch)|Environ. Res.22(1): 190-200|1980|10.1016/0013-9351(80)90131-0
6646|A||Singh,H., and T.P. Singh|Effect of Two Pesticides on Total Lipid and Cholesterol Contents of Ovary, Liver and Blood Serum During Different Phases of the Annual Reproductive Cycle in the Freshwater Teleost Heteropneustes fossilis (Bloch)|Environ. Pollut. A.23(1): 9-17|1980|10.1016/0143-1471(80)90092-6
6647|A||Singh,H., and T.P. Singh|Short-Term Effect of Two Pesticides on Lipid and Cholesterol Content of Liver, Ovary and Blood Serum During the Pre-Spawning Phase in the Freshwater Teleost, Heteropneustes fossilis (Bloch)|Environ. Pollut. A.22(2): 85-90|1980|10.1016/0143-1471(80)90184-1
6648|A||Singh,H., and T.P. Singh|Thyroid Activity and TSH Potency of the Pituitary Gland and Blood Serum in Response to Cythion and Hexadrin Treatment in the Freshwater Catfish, Heteropneustes fossilis (Bloch)|Environ. Res.22(1): 184-189|1980|10.1016/0013-9351(80)90130-9
6649|A||Sinsheimer,P., M. Coburn, and W. Troll|The Toxic Effects of Vitamin A on Sea Urchin Gametes|Biol. Bull.159(2): 469-470|1980|
6650|A||Southworth,G.R., C.C. Keffer, and J.J. Beauchamp|Potential and Realized Bioconcentration.  A Comparison of Observed and Predicted Bioconcentration of Azaarenes in the Fathead Minnow (Pimephales promelas)|Environ. Sci. Technol.14(12): 1529-1531|1980|10.1021/es60172a007
6651|A||Stamm,A.|The Effects of Sulfite on the Growth and Carbon Dioxide. (Der Einfluss Von Sulfit Auf Das Wachstum Und Die CO2-Fixierung Einzelliger Grunalgen)|Environ. Pollut. A.22:91-99|1980|10.1016/0143-1471(80)90185-3
6652|A|RUSSN|Stavskaya,S.S., and L.I. Lenova|Study of Certain Green Algae Growth in the Presence of Alkyl Sulfates|Dopov. Akad. Nauk Ukr. RSR1:87-89|1980|
6653|A||Singh,P.B., D.E. Kime, and T.P. Singh|Modulatory Actions of Mystus Gonadotropin on gamma-BHC-Induced Histological Changes, Cholesterol, and Sex Steroid Levels in Heteropneustes fossilis|Ecotoxicol. Environ. Saf.25:141-153|1993|10.1006/eesa.1993.1013
6654|AT||Solberg,K.L.|Chemical Treatment of Monodominant Cattail Stands in Semipermanent Wetlands: Duck, Invertebrate, and Vegetation Response|M.S.Thesis, South Dakota State University, Brookings, SD:105 p.|1989|
6655|A||Sugatt,R.H.|Effects of Sublethal Sodium Dichromate Exposure in Freshwater on the Salinity Tolerance and Serum Osmolality of Juvenile Coho Salmon, Oncorhynchus kisutch, in Seawater|Arch. Environ. Contam. Toxicol.9(1): 41-52|1980|10.1007/BF01055498
6656|A||Sugatt,R.H.|Effects of Sodium Dichromate Exposure on the Immune Responses of Juvenile Coho Salmon, Oncorhynchus kisutch, Against Vibrio anguillarum|Arch. Environ. Contam. Toxicol.9(2): 207-216|1980|10.1007/BF01055375
6658|A||Sullivan,M.J.|Effects of Ammonia Enrichment and High Light Intensity on a Salt Marsh Diatom Community|Water Resour.Res.Inst., Mississippi State University, Starkville, MS:61 p.|1980|
6659|A||Sur,R.K., K.C. Ghose, and A. Sur|Effects of Some Insecticides on the Development of the Catfish Heteropneustes fossilis (Bloch)|Indian Biol.11(1/2): 53-56|1979|
6661|A||Dutta,S.K., and P. Mohanty-Hejmadi|Life History & Pesticide Susceptible Embryonic Stages of the Indian Bull Frog Rana tigrina Daudin|Indian J. Exp. Biol.16(6): 727-729|1978|
6662|A||Mourad,M.H.|Cardiovascular and Respiratory Changes in Eel, Anguilla anguilla L. During Exposure to Lethal Doses of Lindane at Different Water Temperatures|Acta Ichthyol. Piscat.21(1): 73-79|1991|10.3750/AIP1991.21.1.07
6663|A||Thomas,P., J.M. Bartos, and A.S. Brooks|Comparison of the Toxicities of Monochloramine and Dichloramine to Rainbow Trout, Salmo gairdneri, Under Various Time Conditions|Water Chlorination:|1980|
6664|A||Toby,A.L., and C.L. Kemp|Nitrosoguanidine and Ultraviolet Light Mutagenesis in Eudorina elegans (Chlorophyceae)|J. Phycol.16(2): 173-177|1980|10.1111/j.1529-8817.1980.tb03014.x
6665|A||Varanka,I.|Toxicity of Mosquitocides on Freshwater Mussel Larvae|Acta Biol. Hung.37(2): 143-158|1986|
6666|A||Tsuge,S., T. Nishimura, H. Kazano, and C. Tomizawa|Uptake of Pesticides From Aquarium Tank Water by Aquatic Organisms|J. Pestic. Sci. (Multiple Languages)5(4): 585-593|1980|10.1584/jpestics.5.585
6667|A||Kane,A.S., T.M. Stockdale, and D.L. Johnson|3-Trifluoromethyl-4-Nitrophenol (TFM) Control of Tadpoles in Culture Ponds|Prog. Fish-Cult.47(4): 231-237|1985|10.1577/1548-8640(1985)47<231:TTCOTI>2.0.CO;2
6669|A||Verma,S.R., S. Rani, and R.C. Dalela|Effects of Phenol and Dinitrophenol on Acid and Alkaline Phosphatases in Tissues of a Fish (Notopterus notopterus)|Arch. Environ. Contam. Toxicol.9(4): 451-459|1980|10.1007/BF01055297
6670|A||Philp,R.B.|Effects of pH and Oxidant Stressors (Hydrogen Peroxide and Bleach) on Calcium-Induced Aggregation of Cells of the Marine Sponge Microciona prolifera|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 347-351|1997|
6671|A||Sadinski,W.J., G. Levay, M.C. Wilson, J.R. Hoffman, W.J. Bodell, and S.L. Anderson|Relationships Among DNA Adducts, Micronuclei, and Fitness Parameters in Xenopus laevis Exposed to Benzo(a)pyrene|Aquat. Toxicol.32(4): 333-352|1995|10.1016/0166-445X(94)00092-5
6672|A||Willner,A.H., and F.N. Johnson|The Effects of Lithium on the Development of Alcohol Tolerance in Carassius auratus|Int. J. Neurosci.11(2): 125-129|1980|10.3109/00207458009150336
6673|A||Zolotukhina,E.Y., E.E. Gavrilenko, and K.S. Burdin|Effect of Zinc and Copper Ions on Photosynthesis and Respiration of Marine Macroalgae|Sov. Plant Physiol.34(2): 212-220|1987|
6674|A||Conklin,P.J., and K.R. Rao|Toxicity of Sodium Pentachlorophenate to the Grass Shrimp, Palaemonetes pugio, in Relation to the Molt Cycle|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:181-192|1977|
6675|A||Xiu,R., Y. Xu, and S. Gao|Toxicity of the New Pyrethroid Insecticide, Deltamethrin, to Daphnia magna|Hydrobiologia (Multiple Languages)188-189:411-413|1989|10.1007/BF00027808
6676|A||Apperson,C.S., C.H. Schaefer, A.E. Colwell, G.H. Werner, N.L. Anderson, and E.F.,Jr. Dupras|Effects of Diflubenzuron on Chaoborus astictopus and Nontarget Organisms and Persistence of Diflubenzuron in Lentic Habitats|J. Econ. Entomol.71(3): 521-527|1978|10.1093/jee/71.3.521
6678|A||Yockim,R.S., A.R. Isensee, and E.A. Walker|Behavior of Trifluralin in Aquatic Model Ecosystems|Bull. Environ. Contam. Toxicol.24(1): 134-141|1980|10.1007/BF01608087
6679|A||Zakour,H.R.|Toxicity, Uptake and Metabolism of the N-Methylcarbamate Pesticide Carbofuran by the Freshwater Bivalve Mollusc Glebula rotundata (Lamarck)|Ph.D.Thesis, Rice University, Houston, TX:142 p.|1980|
6680|A||Zavanella,T., N.P. Zaffaroni, and E. Arias|Testing of the Fungicide Maneb for Carcinogenicity in Two Populations of the European Crested Newt|Cancer Lett.10(2): 109-116|1980|10.1016/0304-3835(80)90033-6
6681|A|OECDG|Neskovic,N.K., I. Elezovic, V. Karan, V. Poleksic, and M. Budimir|Acute and Subacute Toxicity of Atrazine to Carp (Cyprinus carpio L.)|Ecotoxicol. Environ. Saf.25:173-182|1993|10.1006/eesa.1993.1016
6682|A||Gill,T.S., and A. Epple|Stress-Related Changes in the Hematological Profile of the American Eel (Anguilla rostrata)|Ecotoxicol. Environ. Saf.25:227-235|1993|10.1006/eesa.1993.1021
6684|A||Hsiu,J.C., S.Y. Kao, P.H. Ho, and S.M. Li|Accumulation of Methylmercury in Tilapia mossambica (Peters)|Huanjing Huaxue1(1): 77-79|1980|
6685|A||Akesson,B.|Ophryotrocha labronica As Test Animal for the Study of Marine Pollution|Helgol. Wiss. Meeresunters.20(1-4): 293-303|1970|10.1007/BF01609907
6686|A||Huisman,J., H.J.G. Ten Hoopen, and A. Fuchs|The Effect of Temperature upon the Toxicity of Mercuric Chloride to Scenedusmus acutus|Environ. Pollut. A.22(2): 133-148|1980|10.1016/0143-1471(80)90189-0
6687|A||Rai,U.N., R.D. Tripathi, and N. Kumar|Bioaccumulation of Chromium and Toxicity on Growth, Photosynthetic Pigments, Photosynthesis, In Vivo Nitrate Reductase Activity and Protein Content in a Chlorococcalean Green Alga Glaucocystis nostochinearum itzigsohn|Chemosphere25(11): 1721-1732|1992|10.1016/0045-6535(92)90318-L
6688|A||Kasai,F., N. Takamura, and S. Hatakeyama|Effects of Simetryne on Growth of Various Freshwater Algal Taxa|Environ. Pollut.79(1): 77-83|1993|10.1016/0269-7491(93)90180-V
6689|A||Taylor,E.J., S.J. Blockwell, S.J. Maund, and D. Pascoe|Effects of Lindane on the Life-Cycle of a Freshwater Macroinvertebrate Chironomus riparius Meigen (Insecta: Diptera)|Arch. Environ. Contam. Toxicol.24(2): 145-150|1993|10.1007/BF01141340
6690|A||Jonsson,C.M., and M.C.F. Toledo|Acute Toxicity of Endosulfan to the Fish Hyphessobrycon bifasciatus and Brachydanio rerio|Arch. Environ. Contam. Toxicol.24(2): 151-155|1993|10.1007/BF01141341
6692|A||Mason,A.Z., and K.D. Jenkins|Effects of Cadmium Bioavailability on the Cytoplasmic Distribution of Cadmium in Neanthes arenaceodentata|Bull. Mar. Sci.48(2): 524-529|1991|
6693|A||Sicko-Goad,L., and N.A. Andresen|Effect of Diatom Lipid Composition on the Toxicity of Trichlorobenzene. II. Long-Term Effects of 1,2,3-Trichlorobenzene|Arch. Environ. Contam. Toxicol.24(2): 243-248|1993|10.1007/BF01141354
6694|A||Kaur,K., and S. Virk|Toxic Effects of Copper Sulphate Residue in Water on the Development of the Eggs of Common Carp: Cyprinus carpio Linn|Indian J. Ecol.7(2): 294-297|1980|
6695|A||Leatherland,J.F., and R.A. Sonstegard|Effect of Dietary Mirex and PCBs in Combination with Food Deprivation and Testosterone Administration on Thyroid Activity and Bioaccumulation of Organochlorines in Rainbow Trout Salmo gairdneri Richardson|J. Fish Dis.3(2): 115-124|1980|10.1111/j.1365-2761.1980.tb00194.x
6696|A||Dosdall,L.M., L.R. Goodwin, R.J. Casey, and L. Noton|The Effect of Ambient Concentrations of Chlorate on Survival of Freshwater Aquatic Invertebrates|Water Qual. Res. J. Can.32(4): 839-854|1997|10.2166/wqrj.1997.046
6697|A||Brasher,A.M., and R.S. Ogle|Comparative Toxicity of Selenite and Selenate to the Amphipod Hyalella azteca|Arch. Environ. Contam. Toxicol.24(2): 182-186|1993|10.1007/BF01141346
6698|A||Muramoto,S.|Effect of Complexans (EDTA, NTA and DTPA) on the Exposure to high Concentrations of Cadmium, Copper, Zinc and Lead|Bull. Environ. Contam. Toxicol.25(6): 941-946|1980|10.1007/BF01985635
6699|A||Narain,A.S., and P.N. Srivastava|Haematohistological Responses of the Indian Freshwater Catfish, Heteropneustes fossilis, to Environmental Pollution by Sewage, Fertilizers and Insect|Arch. Biol.90(2): 141-160|1979|
6700|A||Niimi,A.J., and C.Y. Cho|Uptake of Hexachlorobenzene (HCB) From Feed by Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.24(6): 834-839|1980|10.1007/BF01608198
6701|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Fresh Water Organisms LXXII|Suisan Zoshoku (Non-English)27(4): 238-244|1980|
6702|A||Papst,M.H., and M.G. Boyer|Effects of Two Organophosphorus Insecticides on the Chlorophyll A and Pheopigment Concentrations of Standing Ponds|Hydrobiologia (Multiple Languages)69(3): 245-250|1980|10.1007/BF00046799
6703|A||Pardue,W.J., and T.S. Wood|Baseline Toxicity Data for Freshwater Bryozoa Exposed to Copper, Cadmium, Chromium, and Zinc|J. Tenn. Acad. Sci.55(1): 27-31|1980|
6704|A||Pearson,W.H., and B.L. Olla|Threshold for Detection of Naphthalene and Other Behavioral Responses by the Blue Crab, Callinectes sapidus|Estuaries3(3): 224-229|1980|10.2307/1352073
6705|A||Sicko-Goad,L., and N.A. Andresen|Effect of Lipid Composition on the Toxicity of Trichlorobenzene Isomers to Diatoms. I. Short-Term Effects of 1,3,5-Trichlorobenzene|Arch. Environ. Contam. Toxicol.24(2):236-242|1993|10.1007/BF01141353
6706|A||Penello,W.F., and B.H. Brinkhuis|Cadmium and Manganese Flux in Eelgrass Zostera marina. I. Modelling Dynamics of Metal Release From Labelled Tissues|Mar. Biol.58(3): 181-186|1980|10.1007/BF00391874
6707|A||Penhale,P.A., and G.W. Thayer|Uptake and Transfer of Carbon and Phosphorus by Eelgrass (Zostera marina L.) and Its Epiphytes|J. Exp. Mar. Biol. Ecol.42(2): 113-123|1980|10.1016/0022-0981(80)90170-7
6708|A||Robinson,M.G., L.N. Brown, and B.D. Hall|Effect of Gold(III) on the Fouling Diatom Amphora ceffeaeformis: Uptake, Toxictiy and Interactions with Copper|Biofouling11(1): 59-79|1997|10.1080/08927019709378320
6709|A||Dalela,R.C., M.C. Bhatnagar, A.K. Tyagi, and S.R. Verma|Adenosine Triphosphatase Activity in Few Tissues of a Fresh Water Teleost, Channa gachua Following In Vivo Exposure to Endosulfan|Toxicology11(4): 361-368|1978|10.1016/S0300-483X(78)92189-3
6710|A||Cockell,K.A., J.W. Hilton, and W.J. Bettger|Hepatobiliary and Hematological Effects of Dietary Disodium Arsenate Heptahydrate in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol.103(3): 453-458|1992|10.1016/0742-8413(92)90164-3
6711|A||Pott,E.|The Reduction of Food Uptake of Daphnia pulex - a New Indicator of Sub-lethal Toxic Stress (Die Hemmung der Futteraufnahme von Daphnia pulex - eine neue Limnotoxikologische Mebgrobe)|Z. Wasser-Abwasser-Forsch. (Multiple Languages)13(2): 52-54|1980|
6712|A||Carrasco,J.M., and C. Sabater|Toxicity of Atrazine and Chlorsulfuron to Algae|Toxicol. Environ. Chem.59:89-99|1997|10.1080/02772249709358427
6713|A||Rai,L.C., and R. Dey|Environmental Effects on the Toxicity of Methyl Mercuric Chloride to Chlorella vulgaris|Acta Hydrobiol.8(4): 319-327|1980|10.1002/j.1521-401X.1980.tb00042.x
6714|A||Rainbow,P.S., A.G. Scott, E.A. Wiggins, and R.W. Jackson|Effect of Chelating Agents on the Accumulation of Cadmium by the Barnacle Semibalanus balanoides, and Complexation of Soluble Cd, Zn and Cu|Mar. Ecol. Prog. Ser.2(2): 143-152|1980|10.3354/meps002143
6715|A||Chen,J.C., and S.F. Chen|Accumulation of Nitrite in the Haemolymph of Penaeus monodon Exposed to Ambient Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol.103(3): 477-481|1992|10.1016/0742-8413(92)90168-7
6716|A||Roderer,G.|On the Toxic Effects of Tetraethyl Lead and its Derivatives on the Chrysophyte Poterioochromonas malhamensis. I. Tetraethyl Lead|Environ. Res.23(2): 371-384|1980|10.1016/0013-9351(80)90072-9
6717|A||Rudzinski,W., L. Echegoyen, and W. Jobin|Isolation, Characterization, and Toxicity of (o,o'-Dimethyl Phosphorodithioato) Copper Complexes|J. Agric. Food Chem.28(2):469-472|1980|10.1021/jf60228a066
6719|A||Pavlov,D.D., G.M. Chuiko, Y.V. Gerassimov, and V.D. Tonkopiy|Feeding Behavior and Brain Acetylcholinesterase Activity in Bream (Abramis brama L.) as affected by DDVP, an Organophosphorus Insecticide|Comp. Biochem. Physiol. C Comp. Pharmacol.103(3): 563-568|1992|10.1016/0742-8413(92)90182-7
6720|A||Sargent,J.R., M.V. Bell, K.F. Kelly, A. Johnstone, A. Hawkins, and C.D. Hall|Sodium Orthovanadate and Cardiac Activity in Teleost Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.66(1): 111-114|1980|10.1016/0306-4492(80)90081-7
6721|A||Yawetz,A., R. Manelis, and L. Fishelson|The Effects of Aroclor 1254 and Petrochemical Pollutants on Cytochrome P450 from the Digestive Gland Microsomes of Four Species of Mediterranean Molluscs|Comp. Biochem. Physiol. C Comp. Pharmacol.103(3): 607-614|1992|10.1016/0742-8413(92)90188-D
6722|A||Rao,T.S., S. Dutt, and K. Mangaiah|TLM Values of Some Modern Pesticides to the Freshwater Fish - Puntius puckelli|Environ. Health (London)9:103-109|1967|
6723|A||Truchot,J.P., and F. Boitel|In Vitro and In Vivo Effects of Copper on Haemocyanin-O2 Binding in the Shore Crab, Carcinus maenas|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 339-343|1992|10.1016/0742-8413(92)90018-3
6724|A||Subba-Rao,R.V., and M. Alexander|Effect of DDT Metabolites on Soil Respiration and on an Aquatic Alga|Bull. Environ. Contam. Toxicol.25(2): 215-220|1980|10.1007/BF01985514
6725|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Filtration and Ingestion Rates of Brachionus calyciflorus After Exposure to Endosulfan and Diazinon|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 357-361|1992|10.1016/0742-8413(92)90021-X
6726|A||Van Hoof,F.|Evaluation of an Automatic System for Detection of Toxic Substances in Surface Water Using Trout|Bull. Environ. Contam. Toxicol.25(2): 221-225|1980|10.1007/BF01985515
6728|A||Sancho,E., M.D. Ferrando, M. Gamon, and E. Andreu-Moliner|Organophosphorus Diazinon Induced Toxicity in the Fish Anguilla anguilla L|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 351-356|1992|10.1016/0742-8413(92)90020-8
6730|A||Chelomin,V.P., and N.N. Belcheva|The Effect of Heavy Metals on Processes of Lipid Peroxidation in Microsomal Membranes from the Hepatopancreas of the Bivalve Mollusc Mizuhopecten yessoensis|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 419-422|1992|10.1016/0742-8413(92)90031-2
6731|A||Yediler,A., and F. Braun|Transport and Accumulation of Mercury from Mercury (II) Chloride and Mercury (II) Nitrate in a Food Chain (Water, Sludge, Tubificide, Carp)|Fish. Umwelt.8:135-146|1980|
6732|A||Yoo,R.S.|Characterization of Algal Growth and Phytoplankton Succession in Response to Thiocarbamate Herbicides with Particular Emphasis on Benthiocarb|Ph.D. Thesis, University of California, Davis:323-446|1979|
6733|A||Young,G.R., J.A. Swader, and S.W. Bingham|Kepone Uptake by Algae and Effects on Growth, Photosynthesis and Respiration|Va. J. Sci.31(3): 47-54|1980|
6734|A||Zencirci,N.|Contribution to the Study of the Accumulation and Toxicity of Tin and Lead in Gammarid crustaceans|Hydrobiologia (Multiple Languages)69(1/2): 179-186|1980|10.1007/BF00016548
6735|A||Veldhuizen-Tsoerkan,M.B., C.A. Van der Mast, and D.A. Holwerda|Cadmium-Induced Changes in Macromolecular Synthesis at Transcriptional and Translational Level in Gill Tissue of Sea Mussels, Mytilus edulis L|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 411-417|1992|10.1016/0742-8413(92)90030-B
6736|A||Adeney,R.J., and P. Matthiessen|Sub-Lethal Effects of the Organophosphate Blackfly Larvicide, Abate (Temephos) on Sarotherodon mossambicus (Peters)|J. Fish Biol.15(5): 545-553|1979|10.1111/j.1095-8649.1979.tb03645.x
6737|A||Admiraal,W., and H. Peletier|Sulphide Tolerance of Benthic Diatoms in Relation to Their Distribution in an Estuary|Br. Phycol. J.14(2): 185-196|1979|10.1080/00071617900650201
6738|A||Ahamad,I.K., M. Sethuraman, R. Begum, and K.V.R. Rao|Effect of Malathion on Ciliary Activity of Fresh Water Mussel, Lamellidens marginalis (Lamarck)|Comp. Physiol. Ecol.4(2): 71-73|1979|
6739|A||Ahamad,I.K., S. Sivaiah, and K.V.R. Rao|On the Possible Significance of the Changes in Organic Constituents in Selected Tissues of Malathion Exposed Snail, Pila globosa (Swainson)|Comp. Physiol. Ecol.4(2): 81-83|1979|
6740|A||Alderson,R.|The Effect of Ammonia on the Growth of Juvenile Dover Sole, Solea solea (L.) and Turbot, Scophthalmus maximus (L.)|Aquaculture17(4): 291-309|1979|10.1016/0044-8486(79)90085-1
6741|A||Bleeker,E.A.J., M.H.S. Kraak, and C. Davids|Ecotoxicity of Lead to the Zebra Mussel Dreissena polymorpha, Pallas|Hydrobiol. Bull.25(3):233-236|1992|10.1007/BF02270808
6742|A||Allen,J.D., and D.E. Davis|The Effects of Fluometuron on a Salt Marsh Ecosystem|J. Environ. Qual.8(4): 566-571|1979|10.2134/jeq1979.00472425000800040025x
6743|A||Allen,J.L., V.K. Dawson, and J.B. Hunn|Excretion of the Lampricide Bayer 73 by Rainbow Trout|ASTM Spec. Tech. Publ.:52-61|1979|
6744|A||Sills,J.B., and J.L. Allen|Residues of Formaldehyde Undetected in Fish Exposed to Formalin|Prog. Fish-Cult.41(2): 67-68|1979|10.1577/1548-8659(1979)41[67:ROFUIF]2.0.CO;2
6745|A||Amend,D.F.|Efficacy, Toxicity, and Residues of Nifurpirinol in Salmonids|Invest.Fish Control No.62, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:13 p.|1972|
6748|A||Fernandez-Leborans,G., and A. Novillo-Villajos|Changes in Trophic Structure of a Freshwater Protozoan Community Subjected to Cadmium|Ecotoxicol. Environ. Saf.25:271-279|1993|10.1006/eesa.1993.1025
6749|A||Wright,D.A.|Cadmium and Calcium Interactions in the Freshwater Amphipod Gammarus pulex|Freshw. Biol.10:123-133|1980|10.1111/j.1365-2427.1980.tb01187.x
6750|A||Venkateshwarlu,P., V.J.S. Rani, C. Janaiah, and M.S.K. Prasad|Effect of Endosulfan and Kelthane on Haematology and Serum Biochemical Parameters of the Teleost, Clarias batrachus (Linn.)|Indian J. Comp. Anim. Physiol.8(1): 8-13|1990|
6751|A||Kuroshima,R., S. Kimura, K. Date, and Y. Yamamoto|Kinetic Analysis of Cadmium Toxicity to Red Sea Bream, Pagrus major|Ecotoxicol. Environ. Saf.25:300-314|1993|10.1006/eesa.1993.1028
6752|A||Fikes,M.H., and R.A. Tubb|Dieldrin Uptake in the Three-Ridge Naiad|J. Wildl. Manag.36(3): 802-809|1972|10.2307/3799433
6753|A||Saila Bala,T., and M. Basha Mohideen|Oxygen Consumption and Opercular Activity as Good Indicators of Pesticidal (Malathion and Methyl Parathion) Stress in Major Carp Catla catla|Indian J. Comp. Anim. Physiol.10(1): 20-23|1992|
6754|T||Arias,E., and T. Zavanella|Teratogenic Effects of Manganese Ethylenebisdithiocarbamate (Maneb) on Forelimb Regeneration in the Adult Newt, Triturus cristatus carnifex|Bull. Environ. Contam. Toxicol.22(3): 297-304|1979|10.1007/BF02026946
6755|A||Arillo,A., N. Maniscalco, C. Margiocco, F. Melodia, and P. Mensi|Fructose 1,6-Bisphosphatase and Total Proteolytic Activity in the Liver of Salmo gairdneri:  Effects of pH and Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol.63(2): 325-331|1979|10.1016/0306-4492(79)90082-0
6756|A||Anonymous|Introduction of the Recently Registered Pesticides Methyldimlone and Amiprophosmethyl Herbicides|Shokubutsu Boekisho Chosa Kenkyu Hokoku (See Res. Bull. Plant Prot. Serv. Jpn. )32(11): 488-489|1978|
6757|A||Arillo,A., C. Margiocco, and F. Melodia|The Gill Sialic Acid Content As an Index of Environmental Stress in Rainbow Trout, Salmo gairdneri, Richardson|J. Fish Biol.15(4): 405-410|1979|10.1111/j.1095-8649.1979.tb03623.x
6758|A||Arnold,W.R.|Fluridone - a New Aquatic Herbicide|J. Aquat. Plant Manag.17:30-33|1979|
6759|A||Badyda,A., A. Krasowska, I. Lengiewicz, and D. Proba|The Effect of Foschlor (2,2,2-Trichlor-1-hydroxyethyl 0,0-dimethylphosphonate) on Water Organisms|Rocz. Akad. Med. Bialymst.23:149-158|1978|
6760|A||Linton,T.K.|Salinity and Temperature Effects on the Chronic Toxicity of 2,4-Dinitrophenol and 4-Nitrophenol to Sheepshead Minnows (Cyprinodon variegatus)|M.S.Thesis, University of West Florida, Pensacola, FL:85 p.|1992|
6761|A||Ballester,A., and J. Castellvi|Contribution to the Study of V and Ni Uptake in Marine Organisms. (Contribucion al Estudio de la Biocinetica de V y Ni en Organismos Marinos)|Invest. Pesq.43(2): 449-478|1979|
6762|A||Koyama,J., R. Kuroshima, and A. Ishimatsu|The Seawater Fish for Evaluation of the Toxicity of Pollutants|Mizu Kankyo Gakkaishi15(11): 804-813|1992|
6763|A||Bathe,R.|A Dynamic System for Long-Term Toxicity Studies in Fish Under Laboratory Conditions|Arch. Toxicol.2:417-423|1979|10.1007/978-3-642-67265-1_49
6764|A||Southworth,G.R., J.J. Beauchamp, and P.K. Schmieder|Bioaccumulation of Carbazoles: A Potential Effluent From Synthetic Fuels|Bull. Environ. Contam. Toxicol.23(1/2): 73-78|1979|10.1007/BF01769919
6765|A||Martin,I.D., G.L. Mackie, and M.A. Baker|Control of the Biofouling Mollusc, Dreissena polymorpha (Bivalvia: Dreissenidae), with Sodium Hypochlorite and with Polyquaternary Ammonia and Benzothiazole Compounds|Arch. Environ. Contam. Toxicol.24(3): 381-388|1993|10.1007/BF01128738
6766|A||Bengtsson,B.E., O. Svanberg, E. Linden, G. Lunde, and E.B. Ofstad|Structure Related Uptake of Chlorinated Paraffins in Bleaks (Alburnus alburnus L.)|Ambio8(2-3): 121-122|1979|
6767|A||Bergsjo,T., I. Nafstad, and K. Ingebrigtsen|The Distribution of 35S-Sulfadiazine and 14C-Trimethoprim in Rainbow Trout, Salmo gairdneri|Acta Vet. Scand.20(1): 25-37|1979|10.1186/BF03546626
6768|A||Martin,I.D., G.L. Mackie, and M.A. Baker|Acute Toxicity Tests and Pulsed-Dose Delayed Mortality at 12 and 22 C in the Zebra Mussel (Dreissena polymorpha)|Arch. Environ. Contam. Toxicol.24:389-398|1993|10.1007/BF01128739
6769|A||Pereira,J.J., R. Mercaldo-Allen, C. Kuropat, D. Luedke, and G. Sennefelder|Effect of Cadmium Accumulation on Serum Vitellogenin Levels and Hepatosomatic and Gonadosomatic Indices of Winter Flounder (Pleuronectes americanus)|Arch. Environ. Contam. Toxicol.24:427-431|1993|10.1007/BF01146157
6770|A||Biggs,D.C., R.G. Rowland, and C.F. Wurster|Effects of Trichloroethylene, Hexachlorobenzene and Polychlorinated Biphenyls on the Growth and Cell Size of Marine Phytoplankton|Bull. Environ. Contam. Toxicol.21(1/2): 196-201|1979|10.1007/BF01685410
6771|A|OECDF|De Billy,F., and M.O. Soyer|Toxic Effects and Cell Adaptations After the Action of a Defoliant, 2,4,5-T on the Marine Dinoflagellate Prorocentrum micans E.: Light and Electron|J.Protozool.26(3 (Part 1)): 53-|1979|
6772|A||Birge,W.J., J.A. Black, and A.G. Westerman|Effects of Polychlorinated Biphenyl Compounds and Proposed PCB-Replacement Products on Embryo-Larval Stages of Fish and Amphibians|Res. Rep. Univ. Ky. Water Resour. Res. Inst.118:44 p.|1978|
6773|A||Victor,B.|Responses of Hemocytes and Gill Tissues to Sublethal Cadmium Chloride Poisoning in the Crab Paratelphusa hydrodromous (Herbst)|Arch. Environ. Contam. Toxicol.24:432-439|1993|10.1007/BF01146158
6774|A||McNicol,R.E., and E. Scherer|Influence of Cadmium Pre-Exposure on the Preference-Avoidance Responses of Lake Whitefish (Coregonus clupeaformis) to Cadmium|Arch. Environ. Contam. Toxicol.25:36-40|1993|
6775|A||Seuge,J., and R. Bluzat|Chronic Toxicity of Carbaryl and Lindane to the Freshwater Mollusc Lymnea stagnalis L.|Water Res.13(3): 285-293|1979|10.1016/0043-1354(79)90208-2
6777|A||Blythe,T.O., S.M. Grooms, and R.E. Frans|Determination and Characterization of the Effects of Fluometuron and MSMA on Chlorella|Weed Sci.27(3): 294-299|1979|10.1017/S0043174500044052
6778|A||Bouquegneau,J.M.|Evidence for the Protective Effect of Metallothioneins Against Inorganic Mercury Injuries to Fish|Bull. Environ. Contam. Toxicol.23(1-2): 218-219|1979|10.1007/BF01769945
6779|A||Brannon,A.C., and K.R. Rao|Barium, Strontium and Calcium Levels in the Exoskeleton, Hepatopancreas and Abdominal Muscle of the Grass Shrimp, Palaemonetes pugio: Relation to Molting and Exposure to Barite|Comp. Biochem. Physiol. A Comp. Physiol.63(2): 261-274|1979|10.1016/0300-9629(79)90158-0
6780|A||Branson,D.R., G.E. Blau, H.C. Alexander, and T.L. Peters|Taint Threshold of Diphenyl Oxide in Rainbow Trout|ASTM Spec. Tech. Publ.:107-121|1979|
6781|A||Brooks,A.S., and N.E. Liptak|The Effect of Intermittent Chlorination on Freshwater Phytoplankton|Water Res.13(1): 49-52|1979|10.1016/0043-1354(79)90253-7
6782|A||Broyles,R.H., and M.I. Noveck|Uptake and Distribution of 2,4,5,2',4',5'-Hexachlorobiphenyl in Fry of Lake Trout and Chinook Salmon and Its Effects on Viability|Toxicol. Appl. Pharmacol.50(2): 299-308|1979|10.1016/0041-008X(79)90155-8
6783|A||Broyles,R.H., and M.I. Noveck|Uptake and Distribution of 2,5,2',5'-Tetrachlorobiphenyl in Developing Lake Trout|Toxicol. Appl. Pharmacol.50(2): 291-298|1979|10.1016/0041-008X(79)90154-6
6784|A||Lin,H.C., and W.A. Dunson|The Effect of Salinity on the Acute Toxicity of Cadmium to the Tropical, Estuarine, Hermaphroditic Fish, Rivulus marmoratus:  A Comparison of Cd, Cu, and Zn Tolerance with Fundulus heteroclitus|Arch. Environ. Contam. Toxicol.25(1): 41-47|1993|10.1007/BF00230709
6785|A||Victor,B.|Histopathological Progression of Hemic Neoplasms in the Tropical Crab Paratelphusa hydrodromous (Herbst) Treated with Sublethal Cadmium Chloride|Arch. Environ. Contam. Toxicol.25:48-54|1993|10.1007/BF00230710
6786|A||Hansen,L.D., K.J. Maier, and A.W. Knight|The Effect of Sulfate on the Bioconcentration of Selenate by Chironomus decorus and Daphnia magna|Arch. Environ. Contam. Toxicol.25:72-78|1993|10.1007/BF00230714
6787|A||Das,B., and P.K. Singh|Pesticide (Hexachlorocyclohexane) Inhibition of Growth and Nitrogen Fixation in Blue-Green Algae|Z. Allg. Mikrobiol.18(3): 161-167|1978|
6788|A||Burton,D.T., L.W.,Jr. Hall, S.L. Margrey, and R.D. Small|Interactions of Chlorine, Temperature Change (Delta T), and Exposure Time on Survival of Striped Bass (Morone saxatilis) Eggs and Prolarvae|J. Fish. Res. Board Can.36(9): 1108-1113|1979|10.1139/f79-155
6789|A||Martin,M., J. Hunt, B. Anderson, L. Espinosa, and F. Palmer|Marine Bioassay Project, 2nd Report. Acute Toxicity Tests and Protocols: Mysid Shrimp, Red Abalone, and Giant Kelp|State Water Resources Control Board, Sacramento, CA:65-|1986|
6791|A|OECDG|Bringmann,G., and R. Kuhn|Determination of the Biological Effect of Water Pollutants in Protozoa.  II.  Bacteriovorous Ciliates (Bestimmung der Biologischen Schadwirkung Wassergefahrdender Stoffe Gegen Protozoen.  II.  Bakterienfressende Ciliate|Z. Wasser-Abwasser-Forsch. (Multiple Languages)13(1): 26-31|1980|
6792|A||Melendez,A.L., R.L.,Jr. Kepner, J.M. Balczon, and J.R. Pratt|Effects of Diquat on Freshwater Microbial Communities|Arch. Environ. Contam. Toxicol.25:95-101|1993|10.1007/BF00230718
6793|A||Caldwell,R.S.|Biological Effects of Pesticides on the Dungeness Crab|EPA-600/3-77-131, U.S.EPA, Gulf Breeze, FL:143 p.|1977|
6794|A||Callow,M.E., P.A. Millner, and L.V. Evans|Organotin Resistance in Green Seaweeds|Proc. Int. Seaweed Symp.9:191-198|1979|
6797|A|USGS|Mayer,F.L.,Jr., and M.R. Ellersieck|Manual of Acute Toxicity: Interpretation and Data Base for 410 Chemicals and 66 Species of Freshwater Animals|USDI Fish and Wildlife Service, Publication No.160, Washington, DC:505 p.|1986|
6799|A||Singh,N.N., and A.K. Srivastava|Biochemical Changes in the Freshwater Indian Catfish, Heteropneustes fossilis Following Exposure to Sublethal Concentration of Aldrin|J. Environ. Biol.14(1): 7-12|1993|
6800|A||Ahamad,I.K., M.R. Begum, S. Sivaiah, and K.V.R. Rao|Effect of Malathion on Free Amino Acids, Total Proteins, Glycogen and Some Enzymes of Pelecypod Lamellidens marginalis (Lamarck)|Proc. Indian Acad. Sci. Anim. Sci.B(12): 377-380|1978|10.1007/BF03179026
6801|A||Abdullah,A.M., and M.P. Ireland|Cadmium Content, Accumulation and Toxicity in Dog Whelks Collected Around the Welsh Coastline|Mar. Pollut. Bull.17(12): 557-561|1986|10.1016/0025-326X(86)90570-9
6802|A||Chabert,D., and N. Vicente|Temporal Variations of Organochlorine Compound Concentrations in the Water, Biota and Sediments of the Basic Brusc Lagoon (Var, France)|Vie Mar.1:30-37|1979|
6803|A||Chen,H.C., and C.F. Chang|Toxic Effects of Some Surfactants on the Larvae of Milkfish and Grass Shrimp|Natl.Sci.Council Mon., Roc7(7): 733-740|1979|
6804|A||Chowdary,V.D., P.V. Rao, and R. Narayanan|Effect of Copper Sulfate and Sodium Pentachlorophenate on Adenine and Andenosine Phosphates in Lymnaea luteola (Mollusca:  Gastropoda)|Bull. Environ. Contam. Toxicol.23(4-5): 615-619|1979|10.1007/BF01770013
6805|A||Abel,T., and F. Baerlocher|Uptake of Cadmium by Gammarus fossarum (Amphipoda) from Food and Water|J. Appl. Ecol.25(1): 223-231|1988|10.2307/2403620
6806|A||Corliss,J.P.|Accumulation and Depletion of Oxytetracycline in Juvenile White Shrimp (Penaeus setiferus)|Aquaculture16(1): 1-6|1979|10.1016/0044-8486(79)90167-4
6807|A||Costlow,J.D.|Effect of Dimilin on Development of Larvae of the Stone Crab Menippe mercenaria, and the Blue Crab, Callinectes sapidus|In: W.B.Vernberg, et al.(Eds.), Marine Pollution: Functional Responses, Academic Press, New York, NY:355-363|1979|
6808|A||Huebert,D.B., and J.M. Shay|The Response of Lemna trisulca L. to Cadmium|Environ. Pollut.80:247-253|1993|10.1016/0269-7491(93)90045-P
6809|A||Stuhlbacher,A., M.C. Bradley, C. Naylor, and P. Calow|Variation in the Development of Cadmium Resistance in Daphnia magna Straus; Effect of Temperature, Nutrition, Age, and Genotype|Environ. Pollut.80:153-158|1993|10.1016/0269-7491(93)90141-A
6810|A||Carroll,E.J.J., R.L. Heath, and K. Izuishi|Extreme Toxicity of Ethanol During Activation of Sea Urchin Eggs|Dev. Growth Differ.32(5): 557-561|1990|10.1111/j.1440-169X.1990.00557.x
6811|A||Singh,A., D.K. Singh, and R.A. Agarwal|Effect of Cypermethrin, Mexacarbate, and Phorate on Phospholipid and Lipid Peroxidation in the Snail Lymnaea acuminata|Bull. Environ. Contam. Toxicol.51:68-71|1993|
6812|A||Cohen,J.|Cytotoxic Versus Mutagenic Effect of Ethyl Methanesulfonate on Paramecium tetraurelia|Mutat. Res.70(2): 251-254|1980|10.1016/0027-5107(80)90165-7
6813|A||Dawson,V.K., and P.A. Gilderhus|Ethyl-p-Aminobenzoate (Benzocaine):  Efficacy as an Anesthetic for Five Species of Freshwater Fish|Invest.Fish Control Rep.No.87, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:5 p.|1979|
6814|A||Laseter,J.L., C.K. Bartell, A.L. Laska, D.G. Holmquist, D.B. Condie, J.W. Brown, and R.L. Evans|An Ecological Study of Hexachlorobenzene (HCB)|EPA-560/6-76-009, U.S.EPA, Washington, DC:62 p.|1976|
6815|A||De Filippis,L.F.|The Effect of Heavy Metal Compounds on the Permeability of Chlorella Cells|Z. Pflanzenphysiol. (Multiple Languages)92(1): 39-49|1979|10.1016/S0044-328X(79)80151-8
6816|A||Dodson,J.J., and C.I. Mayfield|Modification of the Rheotropic Response of Rainbow Trout (Salmo gairdneri) by Sublethal Doses of the Aquatic Herbicides Diquat and Simazine|Environ. Pollut.18(2): 147-157|1979|
6817|A||Villar,D., M.H. Li, and D.J. Schaeffer|Toxicity of Organophosphorus Pesticides to Dugesia dorotocephala|Bull. Environ. Contam. Toxicol.51:80-87|1993|10.1007/BF00201004
6818|A||Duke,R.C., G.W. Workman, and C.J. Hurst|The Effect of Potassium Phosphate on Cutrine and Copper Sulfate Toxicity to Mosquitofish (Gambusia affinis)|Encyclia56:23-33|1979|
6819|A||Dumont,J.N., T.W. Schultz, and R.D. Jones|Toxicity and Teratogenicity of Aromatic Amines to Xenopus laevis|Bull. Environ. Contam. Toxicol.22(1-2): 159-166|1979|10.1007/BF02026923
6820|A||Eidt,D.C.|Toxicity of Aminocarb to Insects in a Woodland Stream|Information Rep.M-X-96, Maritimes Forest Research Center, Fredericton, New Brunswick:19 p.|1979|
6821|A||Martin,M., J.W. Hunt, B.S. Anderson, S.L. Turpen, and F.H. Palmer|Experimental Evaluation of the Mysid Holmesimysis costata as a Test Organism for Effluent Toxicity Testing|Environ. Toxicol. Chem.8(11): 1003-1012|1989|10.1002/etc.5620081106
6822|A||DePeyster,A., and W.F. Long|Fathead Minnow Optomotor Response as a Behavioral Endpoint in Aquatic Toxicity Testing|Bull. Environ. Contam. Toxicol.51(1): 88-95|1993|10.1007/BF00201005
6823|A||Hansen,H., F.L. Fotel, N.J. Jensen, and L. Wittrup|Physiological Effects of the Detergent Linear Alkylbenzene Sulphonate on Blue Mussel Larvae (Mytilus edulis) in Laboratory and Mesocosm Experiments|Mar. Biol.128(4): 627-637|1997|10.1007/s002270050129
6824|A||Ellgaard,E.G., J.T. Barber, S.C. Tiwari, and A.L. Friend|An Analysis of the Swimming Behavior of Fish Exposed to the Insect Growth Regulators, Methoprene and Diflubenzuron|Mosq. News39(2): 311-314|1979|
6825|A||Nipper,M.G., C. Badaro-Pedroso, V.F. Jose, and S.L.R. Melo|Toxicity Testing with Coastal Species of Southeastern Brazil. Mysids and Copepods|Bull. Environ. Contam. Toxicol.51:99-106|1993|10.1007/BF00201007
6826|A||Engel,D.W., and W.G. Sunda|Toxicity of Cupric Ion to Eggs of the Spot Leiostomus xanthurus and the Atlantic Silverside Menidia menidia|Mar. Biol.50(2): 121-126|1979|10.1007/BF00397816
6827|A||Venegas,W., I. Hermosilla, L. Quevedo, and G. Montoya|Genotoxic and Teratogenic Effect of Pentachlorophenol, Pollutant Present in Continental Water Bodies in the South of Chile|Bull. Environ. Contam. Toxicol.51:107-114|1993|10.1007/BF00201008
6828|A||Chen,J.C., and F.H. Nan|Effects of Ammonia on Oxygen Consumption and Ammonia-N Excretion of Penaeus chinensis After Prolonged Exposure to Ammonia|Bull. Environ. Contam. Toxicol.51:122-129|1993|
6829|A||Mohanty,R.C., L. Mohanty, and P.K. Mohapatra|Effect of Glucose, Glutamate, and 2-Oxoglutarate on Mercury Toxicity to Chlorella vulgaris|Bull. Environ. Contam. Toxicol.51:130-137|1993|10.1007/BF00201011
6830|A||Estenik,J.F., and W.J. Collins|In Vivo and In Vitro Studies of Mixed-Function Oxidase in an Aquatic Insect, Chironomus riparius|ACS Symp. Ser.99:349-370|1979|10.1021/bk-1979-0099.ch021
6833|A||Fernandez Bernaldo De Quiros,C.|Histopathological Study of the Liver of the Trout Salmo irideus Intoxicated with Technical Warfarin|Bol. R. Soc. Esp. Hist. Nat. Secc. Biol.75:427-438|1977|
6834|A||Feroz,M., and M.A.Q. Khan|Metabolism of 14C-Heptachlor in Goldfish (Carassius auratus)|Arch. Environ. Contam. Toxicol.8(5): 519-531|1979|10.1007/BF01055033
6835|A||Fernandez Bernaldo De Quiros,C.|Histopathological Study of the Kidney of the Trout (Salmo irideus) Intoxicated withTechnical Warfarin (Estudio Histopatologico Del Rinon De Truchas (Salmo irideus) intoxicadas Con Warfarina Tecnica)|Bol. R. Soc. Esp. Hist. Nat. Secc. Biol.75:417-425|1977|
6837|A|RUSSN|Flerov,B.A.|Comparative Study of the Avoidance of Toxic Substances in Some Aquatic Animals|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR38:81-87|1979|
6838|A||Mercier,A., E. Pelletier, and J.F. Hamel|Toxicological Response of the Symbiotic Sea Anemone Aiptasia pallida to Butyltin Contamination|Mar. Ecol. Prog. Ser.144(1-3):133-146|1996|10.3354/meps144133
6839|A||Fuka,T., F. Nejedly, and Z. Svobodova|Toxicity to Fish of Nonionic Detergents Made From Ethoxyl Adducts of Isononylphenols|Sb.Vys.Sk.Chem.-Technol.Praze (Oddil) F: Technol.Vody ProstrediF23:47-63|1979|
6840|A||Gacutan,R.Q., A.T. Llobrera, and C.L. Baticados|Effects of Furanace on the Development of Larval Stages of Penaeus monodon Fabricius|In: Proceedings of the 2nd Biennial Crustacean Health Workshop. College Station, TX:231-244|1979|
6841|A||Riva,M.C., and R. Flos|Hematological Values of Rainbow Trout, Oncorhynchus mykiss W., Exposed to Premetallized Dyes|Bull. Environ. Contam. Toxicol.51:274-281|1993|10.1007/BF00198892
6842|A||Mayer,F.L., D.F. Woodward, and W.J. Adams|Chronic Toxicity of Pydraul 50E to Lake Trout|Bull. Environ. Contam. Toxicol.51:289-295|1993|10.1007/BF00198894
6843|A||Naqvi,S.M., and R.D. Howell|Cadmium and Lead Uptake by Red Swamp Crayfish (Procambarus clarkii) of Louisiana|Bull. Environ. Contam. Toxicol.51:296-302|1993|
6845|A||Ajmalkhan,S., K. Rajendran, and R. Natarajan|Effect of Copper on the Larval Development of the Estuarine Hermit Crab Clibanarius olivaceus Henderson|Indian J. Mar. Sci.15(4): 260-261|1986|
6846|A||Younis,M.E., M.E.H. Osman, and A.I. Soliman|Determination and Characterization of the Effects of Fluometuron on Growth and Metabolism of Chlorococcum humicola|Microbios67(271): 75-86|1991|
6848|A||Gilderhus,P.A.|Effects of Granular 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) on Benthic Macroinvertebrates in a Lake Environment|Tech. Rep. Great Lakes Fish. Comm.34:1-5|1979|
6849|A||Gilgan,M.W., and B.G. Burns|Ecdysterone Triacetate-Induced Molting in the American Lobster (Homarus americanus)|Comp. Biochem. Physiol. A Comp. Physiol.64(1): 125-131|1979|10.1016/0300-9629(79)90440-7
6850|A||Prevot,P., E. Perret, H. Jupin, and M.O. Soyer-Gobillard|Fluorescence Induction Used to Measure Parathion Toxicity in the Marine Dinoflagellate Prorocentrum micans: A Possible Model for Biodetection|Ecotoxicol. Environ. Saf.25:360-371|1993|10.1006/eesa.1993.1032
6851|A||Janssen,C.R., M.D. Ferrando Rodrigo, and G. Persoone|Ecotoxicological Studies with the Freshwater Rotifer Brachionus calyciflorus I.  Conceptual Framework and Rotifer|Hydrobiologia (Multiple Languages)255/256:21-32|1993|10.1007/BF00025816
6852|A||Goel,H.C., and R. Prasad|Action of Molluscicides on Freshly Laid Eggs of the Snail Indoplanorbis exustus (Deshayes)|Indian J. Exp. Biol.16(5): 620-622|1978|
6853|A||Goldsmith,L.A.|The Toxicity of Parathion to Orconectes rusticus and Viviparus malleatus|Ph.D.Thesis, Univ.of Rhode Island, Kingston, RI:87 p.|1978|
6854|A||Gopal,K., M. Anand, D. Misra, and G.S.D. Gupta|Studies on the Toxicity of Thiodan on Catfish (Clarias batrachus)|Indian J. Biochem. Biophys.16(1): 57-|1979|
6855|A||Ferrando,M.D., C.R. Janssen, E. Andreu, and G. Persoone|Ecotoxicological Studies with the Freshwater Rotifer Brachionus calyciflorus. II. An Assessment of the Chronic Toxicity of Lindane and 3,4-Dichloroaniline Using Life Tables|Hydrobiologia (Multiple Languages)255/256:33-40|1993|10.1007/BF00025817
6856|A||Granmo,A., and I. Varanka|Effects of Heavy Metals and a Surfactant on the Activity of Fresh - Water Mussel Larvae|Vatten-Water35(4): 283-290|1979|
6857|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Chronic Toxicity of Methylparathion to the Rotifer Brachionus calyciflorus fed on Nannochloris oculata and Chlorella pyrenoidosa|Hydrobiologia (Multiple Languages)255-256:41-49|1993|10.1007/BF00025818
6858|A||Greizerstein,H.B.|Development of Functional Tolerance to Pentobarbital in Goldfish|J. Pharmacol. Exp. Ther.208(1): 123-127|1979|
6859|A||Grenier,G., J.P. Marier, and G. Beaumont|Physiological-Effects of Sublethal Concentrations of Atrazine on Lemna-minor L.  4.  Effect on Lipid-Composition|Can. J. Bot.57(9): 1015-1020|1979|10.1139/b79-126
6860|A||Griffith,R.W., P.K.T. Pang, and L.A. Benedetto|Urea Tolerance in the Killifish, Fundulus heteroclitus|Comp. Biochem. Physiol. A Comp. Physiol.62(2): 327-330|1979|10.1016/0300-9629(79)90064-1
6861|A||Groba,J., and B. Trzcinska|Effect of Selected Organophosphorous and Carbamate Insecticides on Rainbow Trout (Salmo gairdneri R.)|Bromatol. Chem. Toksykol. (Non-English)12(1): 33-38|1979|
6862|A||Chin,T.S., and H.C. Chen|Toxic Effects of Mercury on the Hard Clam, Meretrix lusoria, in Various Salinities|Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 501-507|1993|10.1016/0742-8413(93)90092-Y
6864|A||Racz,I., and D. Lasztity|Effect of EPTC (Ethyl-N,N-Di-N-Propylthiocarbamate) and Antidotes on the Growth of Chlorella vulgaris|Bot. Kozl. (Non-English)65(2): 75-79|1978|
6865|A||Hanumante,M.M., R. Nagabhushanam, and D.P. Vaidya|Aberrations in the Neurosecretory Cells of a Freshwater Pulmonate, Indoplanorbis exustus, Chronically Exposed to Sublethal Concentration of Two Molluscicides, BaCl2 and CuSO4|Bull. Environ. Contam. Toxicol.23(1-2): 70-72|1979|10.1007/BF01769918
6866|A||Rodriguez,E.M., and A. Pisano|Effects of Parathion and 2,4-D to Eggs Incubation and Larvae Hatching in Chasmagnathus granulata (Decapoda, Brachyura)|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 71-78|1993|10.1016/0742-8413(93)90114-Z
6867|A||Shamaan,N.A., R. Hamidah, J. Jeffries, A.J. Hashim, and W.Z. Wan Ngah|Insecticide Toxicity, Glutathione Transferases and Carboxylesterase Activities in the Larva of the Aedes Mosquito|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 107-110|1993|10.1016/0742-8413(93)90120-A
6868|A||Palace,V.P., and J.F. Klaverkamp|Variation of Hepatic Enzymes in Three Species of Freshwater Fish from Precambrian Shield Lakes and the Effect of Cadmium Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 147-154|1993|10.1016/0742-8413(93)90126-6
6869|A||Havlik,B., J. Stary, J. Prasilova, K. Kratzer, and J. Hanusova|Mercury Circulation in Aquatic Environment. Part 2: Metabolism of Methyl and Phenyl Mercury in Phytoplankton|Acta Hydrochim. Hydrobiol. (Multiple Languages)7(4): 401-408|1979|10.1002/aheh.19790070404
6870|A||Mehta,R.S., and K.W. Hawxby|Effects of Simazine on the Blue-Green Alga Anacystis nidulans|Bull. Environ. Contam. Toxicol.23(3): 319-326|1979|10.1007/BF01769963
6871|A||Tulp,M.T.M., K. Haya, W.G. Carson, V. Zitko, and O. Hutzinger|Effect of Salinity on Uptake of 14C-2,2',4,5,5'-Pentachlorobiphenyl by Juvenile Atlantic Salmon|Chemosphere8(4): 243-249|1979|10.1016/0045-6535(79)90075-4
6872|A||Hess,F.D.|The Influence of the Herbicide Trifluralin on Flagellar Regeneration in Chlamydomonas|Exp. Cell Res.119(1): 99-109|1979|10.1016/0014-4827(79)90339-2
6873|A||Bjerregaard,P.|Accumulation of Cadmium and Selenium and Their Mutual Interaction in the Shore Crab Carcinus maenas (L.)|Aquat. Toxicol.2(2): 113-125|1982|10.1016/0166-445X(82)90010-8
6874|A||Basaglia,F., and C. Cucchi|Effects of Benzidine on the Electrophoretic Behaviour of Some Enzymes in Ictalurus Species (Ictaluridae, Teleostei)|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 225-232|1993|10.1016/0742-8413(93)90028-J
6875|A||Hopkin,R., and J.M. Kain|The Effects of Some Pollutants on the Survival, Growth and Respiration of Laminaria hyperborea|Estuar. Coast. Mar. Sci.7(6): 531-553|1978|10.1016/0302-3524(78)90063-4
6876|A||Iimori,M., and Y. Takita|Study of the Effect of Linear Alkylbenzenesulfonate on Fishes|Yukagaku28(3): 185-189|1979|
6877|A||Inabinet,J.R.|Environmental Impact of the South Carolina Public Service Authority's FY'76 Aquatic Weed Control Program in Lake Marion|South Carolina Deptartment of Health and Environmental Control, Bureau of Field and Analytical Services, Division of District Services, Special Services Section:60 p.|1979|
6878|A||Inui,H., S. Akutsu, K. Itoh, M. Matsuo, and J. Miyamoto|Studies on Biodegradation of 2,6-Di-Tert-Butyl-4-Methylphenol (BHT) in the Environment. Part IV: The Fate of 14C-Phenyl-BHT in Aquatic Model Ecosystems|Chemosphere8(6): 393-404|1979|10.1016/0045-6535(79)90130-9
6879|A||Battaglini,P., G. Andreozzi, R. Antonucci, N. Arcamone, P. De Girolamo, L. Ferrara, and G. Gargiulo|The Effects of Cadmium on the Gills of the Goldfish Carassius auratus L.: Metal Uptake and Histochemical Changes|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 239-247|1993|10.1016/0742-8413(93)90030-O
6880|A||Tsuda,T., S. Aoki, M. Kojima, and T. Fujita|Accumulation and Excretion of Organophosphorous Pesticides by Carp Cyprinus carpio|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 275-278|1993|10.1016/0742-8413(93)90035-J
6881|A||Schlenk,D., and M. Brouwer|Induction of Metallothionein mRNA in the Blue Crab (Callinectes sapidus) After Treatment with Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 317-321|1993|10.1016/0742-8413(93)90041-I
6882|A||Jauch,D.|Gill Lesions in Cichlid Fishes After intoxication with the Insecticide Fenthion|Experientia35(3):371-372|1979|10.1007/BF01964359
6883|A||Voogt,P.A., B. Bissumbhar, T.M. Idzinga, H.J. Wynne, and M. Jansen|Effects of Cadmium on Sterol Composition in the Aboral Body-Wall of the Sea Star Asterias rubens L|Comp. Biochem. Physiol. C Comp. Pharmacol.104(3): 415-421|1993|10.1016/0742-8413(93)90011-9
6884|A||Jurkowski,M.K.|The Effect of DBS on Survival of Juvenile Perch (Perca fluviatilis L.) in Relation to Certain Physical Factors (Wplyw Detergentu DBS na Przezywalnosc Narybku Okonia (Perca fluviatilis L.) w Zaleznosci od Niektorych Czyn|Acta Ichthyol. Piscat.9(2): 55-61|1979|10.3750/AIP1979.09.2.06
6885|A||Kabir,S.M.H., and N. Ahmed|Histopathological Changes in Climbing Perch, Anabas testudineus (Bloch) (Anabantidae: Perciformes) due to Three Granular Insecticides|Bangladesh J. Zool.7(1): 21-29|1979|
6887|A||Kandyuk,R.P.|Effect of Cation-Active and Anion-Active Detergents on the Content of Sterols in the Black Sea Mussel Mytilus galloprovincialis|Hydrobiol. J.15(6): 107-108|1979|
6888|A||Cebrian,C., E. Andreu-Moliner, and M. Gamon|The Effect of Time, Concentration and Temperature on Bioaccumulation in the Gill of Crayfish Procambarus clarkii Induced by Organochlorine Pesticides, Lindane and Endosulfan|Comp. Biochem. Physiol. C Comp. Pharmacol.104(3): 445-451|1993|10.1016/0742-8413(93)90016-E
6889|A||Kar,S., and P.K. Singh|Detoxification of Pesticides Carbofuran and Hexachlorocyclohexane by Blue-Green Algae Nostoc muscorum and Wollea bharadwajae|Microbios Lett.10(38-44): 111-114|1979|
6890|A||Kar,S., and P.K. Singh|Effect of pH, Light Intensity and Population on the Toxicity of the Pesticide Carbofuran to the Blue-Green Alga Nostoc muscorum|Microbios21(85-86): 177-184|1979|
6891|A||Kar,S., and P.K. Singh|Effect of Nutrients on the Toxicity of Pesticides Carbofuran and Hexachlorocyclohexane to Blue-Green Alga Nostoc muscorum|Z. Allg. Mikrobiol.19(7): 467-472|1979|
6892|A||Kar,S., and P.K. Singh|Mutagenicity of Pesticides Carbofuran and Hexachlorocyclohexane to Blue-Green Alga Nostoc muscorum|Microbios Lett.12(46): 79-82|1979|
6893|A||Fredricks,K.T., W.H. Gingerich, and D.C. Fater|Comparative Cardiovascular Effects of Four Fishery Anesthetics in Spinally Transected Rainbow Trout, Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol.104(3): 477-483|1993|10.1016/0742-8413(93)90021-C
6895|A||Gill,T.S., G. Leitner, S. Porta, and A. Epple|Response of Plasma Cortisol to Environmental Cadmium in the Eel, Anguilla rostrata Lesueur|Comp. Biochem. Physiol. C Comp. Pharmacol.104(3): 489-495|1993|10.1016/0742-8413(93)90023-E
6896|A||Chui,Y.C., R.F. Addison, and F.C.P. Law|Acute Toxicity and Toxicokinetics of Chlorinated Diphenyl Ethers in Trout|Xenobiotica20(5): 489-499|1990|10.3109/00498259009046864
6897|A||Auwarter,A.G.|Some Effects of Toxaphene-Methyl Parathion Interaction on Bluegill Sunfish (Lepomis macrochirus Rafinesque)|Ph.D.Thesis, University of Georgia, Athens, GA:104 p.|1977|
6898|A||Khan,M.A.Q., M. Feroz, and P. Sudershan|Metabolism of Cyclodiene Insecticides by Fish|ACS Symp. Ser.99:37-56|1979|10.1021/bk-1979-0099.ch003
6899|A||Hougard,J.M., H. Escaffre, F. Darriet, L. Lochouarn, F. Riviere, and C. Back|An Episode of Resistance to Permethrin in Larvae of Simulium squamosum (Diptera:  Simuliidae) from Cameroon, After 3 1/2 Years of Control|Am. Mosq. Control Assoc. J.8(2): 184-186|1992|
6901|A||Kikuchi,K.|Toxic Effects of a Synthetic LAS Detergent on the Colonial Green Alga, Pleodorina californica|Kawasaki Med. J.5(3-4):157-169|1979|
6902|A||Kincheloe,J.W., G.A. Wedemeyer, and D.L. Koch|Tolerance of Developing Salmonid Eggs and Fry to Nitrate Exposure|Bull. Environ. Contam. Toxicol.23(4/5): 575-578|1979|10.1007/BF01770006
6903|A||Bergerhouse,D.L.|Lethal Effects of Elevated pH and Ammonia on Early Life Stages of Walleye|N. Am. J. Fish. Manag.12(2): 356-366|1992|10.1577/1548-8675(1992)012<0356:LEOEPA>2.3.CO;2
6904|A||Rao,K.R., P.J. Conklin, and A.C. Brannon|Inhibition of Limb Regeneration in the Grass Shrimp, Palaemonetes pugio, by Sodium Pentachlorophenate|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:193-203|1978|
6905|AT||Kobayashi,S.I.|Synergism in Pesticide Toxicity (2)  Acute Oral Toxicity of Anti-ChE Pesticides in Mice|J. Med. Soc. Toho Univ.25(4): 635-649|1978|
6906|A||Pridmore,R.D., S.F. Thrush, R.J. Wilcock, T.J. Smith, J.E. Hewitt, and V.J. Cummings|Effect of the Organochlorine Pesticide Technical Chlordane on the Population Structure of Suspension and Deposit Feeding Bivalves|Mar. Ecol. Prog. Ser.76(3): 261-271|1991|10.3354/meps076261
6909|A||Koundinya,P.R., and R. Ramamurthi|Comparative Study of Inhibition of Acetylcholinesterase Activity in the Freshwater Teleost Sarotherodon (Tilapia) mossambica (Peters) by Sevin (Carbamate) and Sumithion (Organophosphate)|Curr. Sci. (Bangalore)48(18): 832-833|1979|
6910|A||Krasowska,A., and D. Proba|The Effect of Thiodan on Some Physiological Processes in Daphnia magna (Wplyw Thiodanu Na Niektore Procesy Fizjologiczne U Daphnia magna (Crustacea))|Rocz. Akad. Med. Bialymst.23:27-34|1979|
6912|A||Kubota,S.S., and T. Ochiai|Studies on Toxic Effects of Pesticides on Fish - III.  Effect of Benthiocarb on the Toxicity of the Other Pesticides|Bull. Fac. Fish. Mie Univ.6:119-128|1979|
6914|A||Hodson,P.V., R. Parisella, B. Blunt, B. Gray, and K.L.E. Kaiser|Quantitative Structure-Activity Relationships for Chronic Toxicity of Phenol, p-Chlorophenol, 2,4-Dichlorophenol, Pentachlorophenol, p-Nitrophenol, and 1,2,4-Trichlorobenzene to Early Life Stages of Rainbow Trout (Oncor|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1784:55 p.|1991|
6916|A||Laughlin,R.B.,Jr., and J.M. Neff|The Interactive Effects of Temperature, Salinity, and Sublethal Exposure to Phenanthrene, a Petroleum-Derived Polycyclic Aromatic Hydrocarbon (PAH)|Am.Petrol.Inst.Publ.4308:585-590|1979|
6917|A||Launer,C.A., and T.D. Bills|Influences of Selected Environmental Factors on the Activity of a Prospective Fish Toxicant, 2-(Digeranylamino)-Ethanol, in Laboratory Tests|Invest.Fish Control No.88, Fish Wildl.Serv., Bur.Sport Fish Wildl., U.S.D.I., Washington, D.C.:4 p.|1979|
6918|A||Leatherland,J.F., and R.A. Sonstegard|Effect of Dietary Mirex and PCB (Aroclor 1254) on Thyroid Activity and Lipid Reserves in Rainbow Trout Salmo gairdneri Richardson|J. Fish Dis.2(1): 43-48|1979|10.1111/j.1365-2761.1979.tb00138.x
6919|A||La Rocca,C., A. Di Domenico, and L. Vittozzi|Chemiobiokinetic Study in Freshwater Fish Exposed to Lindane: Uptake and Excretion Phase Rate Constants and Bioconcentration Factors|Int. J. Environ. Health Res.1(2): 103-116|1991|10.1080/09603129109356709
6920|A||Leatherland,J.F., R.A. Sonstegard, and M.V. Holdrient|Effect of Dietary Mirex and PCB's on Hepatosomatic Index, Liver Lipid, Carcass Lipid and PCB and Mirex Bioaccumulation in Yearling Coho Salmon, Oncorhynchus kisutch|Comp. Biochem. Physiol. C Comp. Pharmacol.63(2): 243-246|1979|10.1016/0306-4492(79)90068-6
6922|A||Twiss,M.R., and C. Nalewajko|Influence of Phosphorus Nutrition on Copper Toxicity to Three Strains of Scenedesmus acutus (Chlorophyceae)|J. Phycol.28(3): 291-298|1992|10.1111/j.0022-3646.1992.00291.x
6923|A||Erben,R.|Accumulation of Phenol by Isopods|Hydrobiol. J.20(5):42-45|1985|
6924|A||Fulton,M.H., and G.I. Scott|The Effect of Certain Intrinsic and Extrinsic Variables on the Acute Toxicity of Selected Organophosphorus Insecticides to the Mummichog, Fundulus heteroclitus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(5/6): 459-478|1991|
6925|A||Dow Chemical Co.|Environmental Behavior of Aqueous Acrylamide: Biodegradability and Fish Toxicity|Dow Chemical Co., Tech.Rep.Form No.192-476-76, Midland, MI:36-|1976|
6926|A||Millie,D.F., C.M. Hersh, and C.P. Dionigi|Simazine-Induced Inhibition in Photoacclimated Populations of Anabaena circinalis (Cyanophyta)|J. Phycol.28:19-26|1992|10.1111/j.0022-3646.1992.00019.x
6927|A||Playle,R., N. Janes, and J. Richards|Influence of Complexing Agents on Uptake of Silver by Rainbow Trout and by Daphnia|In: 4th Intl.Conf.Proc., Aug.25-28, 1996, Transport, Fate and Effects of Silver in the Environment, Madison, WI:137-139|1996|
6928|A||Abbasi,A.R., S.E. Shackley, and P.E. King|Effects of Copper on the Ultrastructure of Brain Cells of Atlantic Herring, Clupea harengus L.|Pak. J. Zool.27(3): 203-206|1995|
6929|A||Bruecker,P., and M. Graham|The Effects of the Anesthetic Ketamine Hydrochloride on Oxygen Consumption Rates and Behaviour in the Fish Heros (Cichlasoma) citrinellum (Gunther, 1864)|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 57-59|1993|10.1016/0742-8413(93)90111-W
6930|A||Berthet,B., J.C. Amiard, C. Amiard-Triquet, M. Martoja, and A.Y. Jeantet|Bioaccumulation, Toxicity and Physico-Chemical Speciation of Silver in Bivalve Molluscs: Ecotoxicological and Health Consequences|Sci. Total Environ.125:97-122|1992|10.1016/0048-9697(92)90385-6
6933|A||Greene,L.E., and E. Van Handel|Sulfide Sensitivity in Fishes of the Indian River Lagoon, Florida|Am. Mosq. Control Assoc. J.8(1):95-96|1992|
6934|A||McCowen,M.C., C.L. Young, S.D. West, S.J. Parka, and W.R. Arnold|Fluridone, a New Herbicide for Aquatic Plant Management|J. Aquat. Plant Manag.17:27-30|1979|
6935|A||McKinnell,R.G., D.J. Picciano, and J.W. Schaad Iv|Dominant Lethality in Frog Embryos After Paternal Treatment with Triethylenemelamine: Cytogenetics, Morphology, and Swimming Capability|Environ. Mutagen.1(3): 221-231|1979|10.1002/em.2860010304
6936|A||McLeese,D.W., C.D. Metcalfe, and D.S. Pezzack|Uptake of PCBs from Sediment by Nereis virens and Crangon septemspinosa|Arch. Environ. Contam. Toxicol.9(5): 507-518|1980|10.1007/BF01056931
6937|A||Naqvi,S.M., and R.D. Howell|Toxicity of Cadmium and Lead to Juvenile Red Swamp Crayfish, Procambarus clarkii, and Effects on Fecundity of Adults|Bull. Environ. Contam. Toxicol.51:303-308|1993|
6939|A||Melancon,M.J.J., D.R. Branson, and J.J. Lech|The Uptake, Elimination and Metabolism of 1,2,4-Trichlorobenzene in Rainbow Trout|Toxicol. Appl. Pharmacol.48(1 Part 2): A170|1979|
6940|A||Bucher,F., and R. Hofer|Histopathological Effects of Sublethal Exposure to Phenol on Two Variously Pre-Stressed Populations of Bullhead (Cottus gobio L.)|Bull. Environ. Contam. Toxicol.51:309-316|1993|10.1007/BF00198897
6941|A||Miller,R.A., L.A. Norris, and B.R. Loper|The Response of Coho Salmon and Guppies to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Water|Trans. Am. Fish. Soc.108(4): 401-407|1979|10.1577/1548-8659(1979)108<401:TROCSA>2.0.CO;2
6942|A||Miyamoto,J., Y. Takimoto, and K. Mihara|Metabolism of Organophosphorus Insecticides in Aquatic Organisms, with Special Emphasis on Fenitrothion|ACS Symp. Ser.99:3-20|1979|10.1021/bk-1979-0099.ch001
6943|A||Groth,G., K. Schreeb, V. Herdt, and K.J. Freundt|Toxicity Studies in Fertilized Zebrafish Eggs Treated with N-Methylamine, N,N,-Dimethylamine, 2-Aminoethanol, Isopropylamine, Aniline, N-Methylaniline|Bull. Environ. Contam. Toxicol.50:878-882|1993|10.1007/BF00209953
6944|A||Bjerregaard,P.|Effect of Selenium on Cadmium Uptake in the Shore Crab Carcinus maenas (L.)|Aquat. Toxicol.7(3): 177-189|1985|10.1016/S0166-445X(85)80004-7
6945|A||Musina,N.K., and R.M. Tsoy|The Effect of Different Concentrations of Ethylenimine and Nitrosoethyl Urea on Underyearlings of the Carp, Cyprinus carpio|J. Ichthyol.19(5): 114-118|1979|
6946|A|RUSSN|Nadzhafova,R.K.|Effect of Potassium Dichromate, Sodium Hydroxide and Soda Ash on the Survival Rate and Respiration of the Caspian Sea Shrimp|Izv. Akad. Nauk Kaz. SSR6:96-101|1979|
6947|A||Chang,C., and T.H. Sibley|Accumulation and Transfer of Copper by Oocystis pusilla|Bull. Environ. Contam. Toxicol.50(5): 689-695|1993|10.1007/BF00194663
6948|A||El-Elaimy,I.A., S.A. Sakr, M.M. El-Saadany, and S.A. Gabr|Electron Microscopic Study of the Liver of Tilapia nilotica Exposed to Neopybuthrin|Bull. Environ. Contam. Toxicol.50(5): 682-688|1993|10.1007/BF00194662
6949|A||Du Preez,H.H., E. Van Rensburg, and J.H.J. Van Vuren|Preliminary Laboratory Investigation of the Bioconcentration of Zinc and Iron in Selected Tissues of the Banded Tilapia, Tilapia sparrmanii (Cichlidae)|Bull. Environ. Contam. Toxicol.50(5): 674-681|1993|10.1007/BF00194661
6950|A||Necas,J., and D. Pavingerova|Mutagenic Effects of Short Term Action of N-Methyl-N'-Nitro-N-Nitrosoguanidine on Chlamydomonas geitleri|Biol. Plant. (Praha)21(5): 383-389|1979|10.1007/BF02878238
6954|A||Nishiuchi,Y., and K. Asano|Toxicity of Agricultural Chemicals to Some Freshwater Organisms - 59|Suisan Zoshoku (Non-English)27(1): 48-55|1979|
6955|A||Nishiuchi,Y.|Toxicity of Pesticides to Some Fresh Water Organisms. XXXXX|Suisan Zoshoku (Non-English)27(1): 56-60|1979|
6956|A||Nishiuchi,Y.|Toxicity of Pesticides to Animals in Freshwater.  LXII|Suisan Zoshoku (Non-English)27(2): 119-124|1979|
6958|A||Abou-Waly,H., and E.F. Shabana|Recovery of Nostoc muscorum Previously Exposed to Some Triazine and Phenylurea Herbicides|Bull. Environ. Contam. Toxicol.50(5): 665-673|1993|10.1007/BF00194660
6959|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Fresh Water Organisms. LXVIII|Suisan Zoshoku (Non-English)27(3): 184-|1979|
6960|A||Anees,M.A.|Haematological Abnormalities in a Freshwater Teleost, Channa punctatus (Bloch), Exposed to Sublethal and Chronic Levels of Three Organophosphorus Insecticides|Int. J. Ecol. Environ. Sci.4(1-3): 53-60|1978|
6961|A||Alcaraz,G., C. Rosas, and S. Espina|Effect of Detergent on the Response to Temperature and Growth of Grass Carp, Ctenopharyngodon idella|Bull. Environ. Contam. Toxicol.50:659-664|1993|10.1007/BF00194659
6962|A||Nyberg,H.|The Effects of Some Detergents on the Phosphatases and Phosphate Accumulation of Nitzschia actinastroides (Bacillariophyceae)|Ann. Bot. Fenn.16(1):28-34|1979|
6963|A||O'Brien,M.C., and G.N. Prendeville|Effect of Herbicides on Cell Membrane Permeability in Lemna minor|Weed Res. (Multiple Languages)19(6): 331-334|1979|10.1111/j.1365-3180.1979.tb01547.x
6964|A||Medeiros,D.M., L.L. Cadwell, and R.L. Preston|A Possible Physiological Uptake Mechanism of Methylmercury by the Marine Bloodworm (Glycera dibranchiata)|Bull. Environ. Contam. Toxicol.24(1): 97-101|1980|10.1007/BF01608081
6965|A||Oladimeji,A.A., S.U. Qadri, G.K.H. Tam, and A.S.W. DeFreitas|Metabolism of Inorganic Arsenic to Organoarsenicals in Rainbow Trout (Salmo gairdneri)|Ecotoxicol. Environ. Saf.3(4): 394-400|1979|10.1016/0147-6513(79)90029-0
6966|A||Ordog,V.|Effect of Organophosphate Insecticides on Green Algae (Szerves Foszforsaveszter Rovarolo Szerek Hatasa Zoldalgatenyeszetre)|Hidrol. Kozl.59(1): 36-42|1979|
6967|A||Panchenko,S.E., and N.P. Sokoi'skaia|Experimental Toxicological Characteristics of Dinobuton|Veterinaria (Mosk.) (Non-English)4:105-106|1977|
6968|A||Shaffi,S.A.|Variations in Tissue Glycogen Content Serum Lactate and Glucose Levels due to Copper intoxication in Three Freshwater Teleosts|Curr. Sci. (Bangalore)47:954-956|1978|
6969|A||Little,L.W., and J.C. Lamb III|Acute Toxicity of 46 Selected Dyes to the Fathead Minnow, Pimephales promelas|Dyes and the Environment - Reports on Selected Dyes and Their Effects, American Dye Manufacturers Institute:123 p.|1973|
6970|A||Paulov,S.|Effect of the Herbicide Dinoseb Acetate on the Viability and Body Proteins of Daphnia. (Ucinky Herbicidu Dinoseb-Acetatu Na Zivotaschopnost a|Agrochemia (Bratisl.) (Multiple Languages)19(7): 197-198|1979|
6971|A||Pearson,W.H., and B.L. Olla|Detection of Naphthalene by the Blue Crab, Callinectes sapidus|Estuaries2(1): 64-65|1979|10.2307/1352044
6972|A||Nipper,M.G., V.A. Prosperi, and A.J. Zamboni|Toxicity Testing with Coastal Species of Southeastern Brazil. Echinoderm Sperm and Embryos|Bull. Environ. Contam. Toxicol.50:646-652|1993|10.1007/BF00194657
6973|A||Wong,C.K.|Effects of Chromium, Copper, Nickel, and Zinc on Longevity and Reproduction of the Cladoceran Moina macrocopa|Bull. Environ. Contam. Toxicol.50:633-639|1993|10.1007/BF00194655
6974|A||Petrea,V.|The Action of Na-Dodecylsulfate from Polluted Waters on some Physiological Processes of the Alga Chlorella vulgaris|Rev. Roum. Biol. Ser. Biol. Veg.24(1): 39-41|1979|
6975|A||Pfeifer,K.F.|Biochemical and Physiological Aspects of Carbon-Tetrachloride Toxicity in the Rainbow Trout (Salmo gairdneri)|Ph.D.Thesis, Oregon State University, Corvallis, OR:184 p.|1979|
6976|A||Phillips,G.R., and R.W. Gregory|Assimilation Efficiency of Dietary Methylmercury by Northern Pike (Esox lucius)|J. Fish. Res. Board Can.36(12): 1516-1519|1979|10.1139/f79-221
6977|A||Wajsbrot,N., A. Gasith, A. Diamant, and D.M. Popper|Chronic Toxicity of Ammonia to Juvenile Gilthead Seabream Sparus aurata and Related Histopathological Effects|J. Fish Biol.42:321-328|1993|10.1111/j.1095-8649.1993.tb00336.x
6978|A||Pillai,M.K.K., H.C. Agarwal, and D.V. Yadav|Tolerance, Uptake and Metabolism of DDT in Gambusia affinis|Indian J. Exp. Biol.15(1): 40-41|1977|
6979|A||Powell,E.N., M.A. Crenshaw, and R.M. Rieger|Adaptations to Sulfide in the Meiofauna of the Sulfide System.  I.  35S-Sulfide Accumulation and the Presence of a Sulfide Detoxification System|J. Exp. Mar. Biol. Ecol.37(1): 57-76|1979|10.1016/0022-0981(79)90026-1
6980|A||Powers,C.D., C.F. Wurster, and R.G. Rowland|DDE Inhibition of Marine Algal Cell Division and Photosynthesis Per Cell|Pestic. Biochem. Physiol.10(3): 306-312|1979|10.1016/0048-3575(79)90036-1
6981|A||Barber,J.T., E.G. Ellgaard, and R.J. Castagno|Crustacean Molting in the Presence of Altosid SR-10|Mosq. News38(3): 417-418|1978|
6982|A||Lapota,D., D.E. Rosenberger, M.F. Platter-Rieger, and P.F. Seligman|Growth and Survival of Mytilus edulis Larvae Exposed to Low Levels of Dibutyltin and Tributyltin|Mar. Biol.115:413-419|1993|10.1007/BF00349840
6983|A||Handy,R.D.|The Accumulation of Dietary Aluminium by Rainbow Trout, Oncorhynchus mykiss, at high Exposure Concentrations|J. Fish Biol.42:603-606|1993|10.1111/j.1095-8649.1993.tb00363.x
6984|A||Vigano,L.|Reproductive Strategy of Daphnia magna and Toxicity of Organic Compounds|Water Res.27(5): 903-909|1993|10.1016/0043-1354(93)90156-C
6985|A||Baumann,P.C., J.W.A. Jaeger, and M.E. Antonioni|Toxicity of Antimycin A to Asellus intermedius, Dugesia dorotocephala, Gammarus pseudolimnaeus, and Hyalella azteca|Trans. Wis. Acad. Sci. Arts Lett.65:246-253|1977|
6986|A||Mwangi,S.M., and M.A. Alikhan|Cadmium and Nickel Uptake by Tissues of Cambarus bartoni (Astacidae, Decapoda, Crustacea): Effects on Copper and Zinc Stores|Water Res.27(5): 921-927|1993|10.1016/0043-1354(93)90158-E
6987|A||Beaumont,G., R. Bastin, and H.P. Therrien|Physiological-Effects of Sublethal Doses of Atrazine on Lemna minor L.  3.  Soluble-Proteins and Nucleic Acids (Effets Physiologiques de l'Atrazine a Doses Sublethales sur Lemna minor L.  III.  Influence sur les Protein|Nat. Can.105(2): 103-113|1978|
6988|A||Svanberg,O., B.E. Bengtsson, E. Linden, G. Lunde, and E.B. Ofstad|Chlorinated Paraffins - a Case of Accumulation and Toxicity to Fish|Ambio7(2): 64-65|1978|
6989|A||Glickman,A.H., C.N. Statham, A. Wu, and J.J. Lech|Studies on the Uptake, Metabolism, and Disposition of Pentachlorophenol and Pentachloroanisole in Rainbow Trout|Toxicol. Appl. Pharmacol.41(3): 649-658|1977|10.1016/S0041-008X(77)80018-5
6990|A||Billard,R., J.C. Cazin, J. Dequidt, F. Erb, and P. Colein|Pyralene 3010 Toxicity upon Ovules and Spermatozoons of Rainbow Trout Before and During Insemination|Bull. Fr. Piscic.270:238-249|1978|10.1051/kmae:1978008
6991|A||Bimber,D.L., and R.A. Mitchell|Effects of Diquat on Amphibian Embryo Development|Ohio J. Sci.78(1): 50-51|1978|
6992|A||Blahm,T.H.|Toxicity of Chemical Fire Retardants to Juvenile Coho Salmon and Rainbow Trout|Ph.D.Thesis, University of Idaho, Moscow, ID:40 p.|1978|
6993|A||Saouter,E., L. Hare, P.G.C. Campbell, A. Boudou, and F. Ribeyre|Mercury Accumulation in the Burrowing Mayfly Hexagenia rigida (Ephemeroptera) Exposed to CH3HgCl or HgCl2 in Water and Sediment|Water Res.27(6): 1041-1048|1993|10.1016/0043-1354(93)90068-S
6994|A||D'Aniello,A., M. Pischetola, F. Vanacore, M. De Nicola, and M. Denuce|Effect of Mercury, Cadmium and Copper on the Development and Viability of Loligo vulgaris and Sepia officinalis Embryos|Ital. J. Biochem.39(2): 130A - 132A|1990|
6996|A||Lee,L.H., B. Lustigman, and J. Maccari|Effect of Copper on the Growth of Anacystis nidulans|Bull. Environ. Contam. Toxicol.50(4): 600-607|1993|10.1007/BF00191252
6997|A||Bogardus,R.B., D.B. Boies, T.C. Teppen, and F.J. Horvath|Avoidance of Monochloramine: Test Tank Results for Rainbow Trout, Coho Salmon, Alewife, Yellow Perch and Spottail Shiner|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI:149-161|1978|
6998|A||Boikova,E.E.|Effect of Zinc Acetate on Paramecium putrinum|In: Protozoologiya, Volume 3, Nauka, St. Petersburg:105-111|1978|
6999|A|OECDG|Kaur,K., and A. Dhawan|Variable Sensitivity of Cyprinus carpio Eggs, Larvae, and Fry to Pesticides|Bull. Environ. Contam. Toxicol.50(4): 593-599|1993|10.1007/BF00191251
7000|A||Widdows,J., and D.S. Page|Effects of Tributyltin and Dibutyltin on the Physiological Energetics of the Mussel, Mytilus edulis|Mar. Environ. Res.35(3): 233-249|1993|10.1016/0141-1136(93)90096-I
7001|A||Ozretic,B., and M. Krajnovic-Ozretic|Plasma Sorbitol Dehydrogenase, Glutamate Dehydrogenase, and Alkaline Phosphatase as Potential Indicators of Liver Intoxication in Grey Mullet (Mugil auratus Risso)|Bull. Environ. Contam. Toxicol.50(4): 586-592|1993|10.1007/BF00191250
7002|A||Bottino,N.R., R.D. Newman, E.R. Cox, R. Stockton, M. Hoban, R.A. Zingaro, and K.J. Irgolic|The Effects of Arsenate and Arsenite on the Growth and Morphology of the Marine Unicellular Algae Tetraselmis chui (Chlorophyta) and Hymenomonas|J. Exp. Mar. Biol. Ecol.33(2): 153-168|1978|10.1016/0022-0981(78)90005-9
7003|A||Riley,E.E., and M.R. Weil|The Effects of Thiosemicarbazide on Development in the Wood Frog, Rana sylvatica. II. Critical Exposure Length and Age Sensitivity|Ecotoxicol. Environ. Saf.13(2): 202-207|1987|10.1016/0147-6513(87)90008-X
7004|A||Sancho,E., M.D. Ferrando, E. Andreu, and M. Gamon|Bioconcentration and Excretion of Diazinon by Eel|Bull. Environ. Contam. Toxicol.50(4): 578-585|1993|10.1007/BF00191249
7005|A||Takamatsu,Y., O. Nishimura, Y. Inamori, R. Sudo, and M. Matsumura|Effect of Temperature on Biodegradability of Surfactants in Aquatic Microcosm System|Water Sci. Technol.34(7/8): 61-68|1996|10.2166/wst.1996.0602
7006|A||Brenner,F.J., and W.L. Cooper|Effect of Suspended Iron Hydroxide on the Hatchability and Embryonic Development of the Coho Salmon|Ohio J. Sci.78(1): 34-38|1978|
7007|A||Bresch,H., and U. Arendt|Disturbances of Early Sea-Urchin Development by the Tumor Promoter TPA (Phorbol Ester)|Naturwissenschaften65(12): 660-662|1978|10.1007/BF00401918
7008|A||Bretthauer,R.|Some Ecological Limits of Tolerance of Ochromonas sociabilis|Verh. Int. Ver. Theor. Angew. Limnol.20(3): 1850-1854|1978|
7009|A||Jonsson,C.M., and M.C.F. Toledo|Bioaccumulation and Elimination of Endosulfan in the Fish Yellow Tetra (Hyphessobrycon bifasciatus)|Bull. Environ. Contam. Toxicol.50(4): 572-577|1993|10.1007/BF00191248
7010|A||Rainbow,P.S., I. Malik, and P. O'Brien|Physicochemical and Physiological Effects on the Uptake of Dissolved Zinc and Cadmium by the Amphipod Crustacean Orchestia gammarellus|Aquat. Toxicol.25:15-30|1993|10.1016/0166-445X(93)90017-U
7011|A||McCloskey,J.T., and J.T. Oris|Effect of Anthracene and Solar Ultraviolet Radiation Exposure on Gill ATPase and Selected Hematologic Measurements in the Bluegill Sunfish (Lepomis macrochirus)|Aquat. Toxicol.24(3-4): 207-217|1993|10.1016/0166-445X(93)90072-9
7012|A||Fent,K., and J.J. Stegeman|Effects of Tributyltin In Vivo on Hepatic Cytochrome P450 Forms in Marine Fish|Aquat. Toxicol.24:219-240|1993|10.1016/0166-445X(93)90073-A
7013|A||Bookhout,C.G., R.J. Monroe, R.B.,Jr. Forward, and J.D.,Jr. Costlow|Effects of Hexavalent Chromium on Development of Crabs, Rhithropanopeus harrisii and Callinectes sapidus|Water Air Soil Pollut.21(1-4): 199-216|1984|10.1007/BF00163624
7014|A||Buzinova,N.S.|Dynamics of Activity of Digestive Enzymes in Fish Under the Influence of Pollutants|J. Ichthyol.17(5): 805-808|1977|
7015|A||Bjerselius,R., S. Winberg, Y. Winberg, and K. Zeipel|Ca2+ Protects Olfactory Receptor Function Against Acute Cu(II) Toxicity in Atlantic Salmon|Aquat. Toxicol.25:125-138|1993|10.1016/0166-445X(93)90024-U
7016|A||Enserink,L., M. De la Haye, and H. Maas|Reproductive Strategy of Daphnia magna:  Implications for Chronic Toxicity Tests|Aquat. Toxicol.25:111-124|1993|10.1016/0166-445X(93)90023-T
7018|A||Cantelmo,A.C., P.J. Conklin, F.R. Fox, and K.R. Rao|Effects of Sodium Pentachlorophenate and 2,4-Dinitrophenol on Respiration in Crustaceans|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:251-263|1978|
7019|A||Wernersson,A.S., and G. Dave|Effects of Different Protective Agents on the Phototoxicity of Fluoranthene to Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(3): 373-381|1998|
7020|A||Cantelmo,F.R., and K.R. Rao|Effect of Pentachlorophenol (PCP) on Meiobenthic Communities Established in an Experimental System|Mar. Biol.46(1): 17-22|1978|10.1007/BF00393815
7021|A||Cantelmo,F.R., and K.R. Rao|Effects of Pentachlorophenol on the Meiobenthic Nematodes in an Experimental System|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:165-174|1978|
7022|A||Capuzzo,J.M.|The Effects of Free Chlorine and Chloramine on Growth and Respiration Rates of Larval Lobsters (Homarus americanus)|Water Res.11(12): 1021-1024|1977|10.1016/0043-1354(77)90001-X
7023|A||Topcuoglu,S.|Accumulation of Arsenic in Goby Fish (Proterorhinus marmorathus) and the Effect of Detergent on the Accumulation|Turk. J. Mar. Sci.2(3): 171-175|1996|
7024|A||Skak,C., and E. Baatrup|Quantitative and Histochemical Demonstration of Mercury Deposits in the Inner Ear of Trout, Salmo trutta, Exposed to Dietary Methylmercury and|Aquat. Toxicol.25:55-70|1993|10.1016/0166-445X(93)90020-2
7025|A||Nott,J.A., and W.J. Langston|Effects of Cadmium and Zinc on the Composition of Phosphate Granules in the Marine Snail Littorina littorea|Aquat. Toxicol.25:43-54|1993|10.1016/0166-445X(93)90019-W
7026|A||Calleja,M.C., and G. Persoone|The Influence of Solvents on the Acute Toxicity of some Lipophilic Chemicals to Aquatic Invertebrates|Chemosphere26(11): 2007-2022|1993|10.1016/0045-6535(93)90027-3
7027|A||Christensen,G., E. Hunt, and J. Fiandt|The Effect of Methylmercuric Chloride, Cadmium Chloride, and Lead Nitrate on Six Biochemical Factors of the Brook Trout (Salvelinus fontinalis)|Toxicol. Appl. Pharmacol.42(3): 523-530|1977|10.1016/S0041-008X(77)80037-9
7028|A||Christiansen,M.E., J.D.,Jr. Costlow, and R.J. Monroe|Effects of the Insect Growth Regulator Dimilin (TH 6040) on Larval Development of Two Estuarine Crabs|Mar. Biol.50(1): 29-36|1978|10.1007/BF00390539
7029|A||Adelman,I.R.,Jr.|Effect of Hydrogen Sulfide on Northern Pike Eggs and Sac Fry|Trans. Am. Fish. Soc.99:501-509|1970|10.1577/1548-8659(1970)99<501:EOHSON>2.0.CO;2
7030|A||Colt,J., and G. Tchobanoglous|Chronic Exposure of Channel Catfish, Ictalurus punctatus, to Ammonia: Effects on Growth and Survival|Aquaculture15(4): 353-372|1978|10.1016/0044-8486(78)90081-9
7031|A||Streit,B., and S. Winter|Cadmium Uptake and Compartmental Time Characteristics in the Freshwater Mussel Anodonta anatina|Chemosphere26(8): 1479-1490|1993|10.1016/0045-6535(93)90215-Q
7032|A||Fischer,W.K., and P. Gode|Toxicological Studies on Natural Aluminum Silicates as Additives to Detergents Using Freshwater Organisms|Vom Wasser (Non-English)49:11-26|1977|
7034|A||Cunningham,P.A., and D.S. Grosch|A Comparative Study of the Effects of Mercuric Chloride on Reproductive Performance in the Brine Shrimp, Artemia salina|Environ. Pollut.15(2):83-100|1978|
7035|A||Curtis,L.R., and R.J. Beyers|Inhibition of Oviposition in the Teleost Oryzias latipes, Induced by Subacute Kepone Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol.61(1): 15-16|1978|10.1016/0306-4492(78)90103-X
7036|A||Czerpak,R., and B. Czeczuga|Influence of CCC and Diethylamine Hydrochloride on the Development of Some Species of Blue-Green Algae, Green Algae and Diatoms|Acta Hydrobiol.20(3): 233-243|1978|
7037|A||D'Angelo,A.M., and G. Signorile|Study on the Toxicity of Methyl Acrylate and Acrylonitrile In Vitro on Some Planktonic Crustacea|Ig. Mod. (Multiple Languages)71(8): 973-979|1978|
7038|A||De Billy,F.|Effects of the Defoliant 2-4-5-T on the Dinoflagellate Prorocentrum micans in Culture|In: Comm.Int.Explor.Sci.Mer.Mediterr.Monaco 24-27 Nov., Antalya, Turkey:431-434|1978|
7040|A||Dokholyan,V.K., and T.P. Akhmedova|"The Effect of Mercuric Chloride on Some Biochemical Indicators of the Brain, Blood and Liver of the ""Caspian Roach"", Rutilus rutilus caspicus"|J. Ichthyol.18(1): 162-165|1978|
7041|A||Chagnon,N.L., and I. Hlohowskyj|Effects of Sublethal Phenol Exposure on the Temperature Tolerance and Low Oxygen Tolerance of Stoneroller Minnows, Campostoma anomalum|Ohio J. Sci.86(2): 54-|1986|
7042|A||Reimschuessel,R., R.O. Bennett, E.B. May, and M.M. Lipsky|Renal Tubular Cell Regeneration, Cell Proliferation and Chronic Nephrotoxicity in the Goldfish Carassius auratus Following Exposure to a Single Sublethal Dose of Hexachlorobutadiene|Dis. Aquat. Org.8(3): 211-224|1990|10.3354/dao008211
7043|A||Suresh,A., B. Sivaramakrishna, and K. Radhakrishnaiah|Patterns of Cadmium Accumulation in the Organs of Fry and Fingerlings of Freshwater Fish Cyprinus carpio Following Cadmium Exposure|Chemosphere26(5): 945-953|1993|10.1016/0045-6535(93)90369-G
7044|A||Black,J.A., J.B. Barnum, and W.J. Birge|An Integrated Assessment of the Biological Effects of Boron to the Rainbow Trout|Chemosphere26(7): 1383-1413|1993|10.1016/0045-6535(93)90189-C
7045|A||Ishiguro,T., K. Kitajima, M. Chiba, R. Fujisawa, F. Ichikawa, K. Kondo, and H. Takehana|Studies on Cd-Binding Proteins in Short-Necked Clams|Nippon Suisan Gakkaishi (Multiple Languages)48(6): 793-798|1982|10.2331/suisan.48.793
7047|A||Tan,Y.Y., W. Thumm, M. Jobelius-Korte, A. Attar, D. Freitag, and A. Kettrup|Fate of Two Phenylbenzoylurea Insecticides in an Algae Culture System (Scenedesmus subspicatus)|Chemosphere26(5): 955-962|1993|10.1016/0045-6535(93)90370-K
7048|A||Lay,J.P., A. Peither, I. Juttner, and K. Weiss|In Situ Pond Mesocosms for Ecotoxicological Long-Term Studies|Chemosphere26(6): 1137-1150|1993|10.1016/0045-6535(93)90201-F
7049|A||Darville,R.G., and J.L. Wilhm|The Effect of Naphthalene on Oxygen Consumption and Hemoglobin Concentration in Chironomus attenuatus and on Oxygen Consumption and Life Cycle of Tanytarsus dissimilis|Environ. Toxicol. Chem.3(1):135-141|1984|10.1002/etc.5620030115
7050|A||El Elaimy,I.A., M.M. El Saadany, S.A. Gabr, and S.A. Sakr|Pesticide-Poisoning to Fresh Water Teleost VIII. Ultrastructural Alterations of the Intestine of Tilapia nilotica Under Stress of Exposure to Diazinon and Neopybuthrin|J. Egypt. Ger. Soc. Zool.1:223-236|1990|
7051|A||Hemsworth,B.N., and A.A. Wardhaugh|The Induction of Dominant Lethal Mutations in Tilapia mossambica by Alkane Sulphonic Esters|Mutat. Res.58(2-3):263-268|1978|10.1016/0165-1218(78)90018-6
7052|A||Hendricks,A.C.|Response of Selenastrum capricornutum to Zinc Sulfides|J. Water Pollut. Control Fed.50(1):163-168|1978|
7053|A||Greizerstein,H.B.|Factors Influencing the Development of Tolerance to Ethanol|Life Sci.21(9): 1249-1258|1977|10.1016/0024-3205(77)90005-4
7054|A||Doe,K.G., and S.J. Ponsford|EEC Daphnia Reproductive Inhibition Test Results:  Chronic Effects of Sodium Bromide on Daphnia magna and Results of Some Additional Quality Control Measures|Aquat.Toxicol.Sect., Lab.Div., Air & Water Branch, Environ.Prot.Serv., Dartmouth, Nova Scotia:15 p.|1986|
7055|A||Ernst,W., K. Doe, P. Jonah, J. Young, G. Julien, and P. Hennigar|The Toxicity of Chlorothalonil to Aquatic Fauna and the Impact of Its Operational Use on a Pond Ecosystem|Arch. Environ. Contam. Toxicol.1:1-9|1991|10.1007/BF01055550
7056|A||Ernst,B., G. Julien, K. Doe, and R. Parker|Environmental Investigations of the 1980 Spruce Budworm Spray Program in New Brunswick|EPS 5-AR-81-3, Environment Canada, Halifax, Nova Scotia:46 p.|1980|
7057|A||Sijm,D.T.H.M., and A. Van der Linde|Size-Dependent Bioconcentration Kinetics of Hydrophobic Organic Chemicals in Fish Based on Diffusive Mass Transfer and Allometric Relationships|Environ. Sci. Technol.29(11): 2769-2777|1995|10.1021/es00011a011
7058|A||Isensee,A.R.|Bioaccumulation of 2,3,7,8-Tetrachlorodibenzo-para-Dioxin|Ecol. Bull.27:255-262|1978|
7059|A||Sancho,E., M.D. Ferrando, and E. Andreu|In Vivo Inhibition of AChE Activity in the European Eel Anguilla anguilla Exposed to Technical Grade Fenitrothion|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(3): 389-395|1998|
7060|A||Kabir,S.M.H., and R. Begum|Toxicity of Three Organophosphorus Insecticides to Shinghi Fish, Heteropneustes fossilis (Bloch)|Dhaka Univ. Stud. Part B Sci. 26(1): 115-122|1978|
7061|A||Kaim-Malka,R.A., and C. Donadey|Histological and Cytological Studies of Gonads of Idotea balthica basteri (Crustacea, Isopoda) Exposed to Detergents|Rev. Int. Oceanogr. Med. (Multiple Languages)49(3): 55-59|1978|
7062|A||Kaka,J.S., and W.L. Hayton|Temperature and Surfactant Dependence of Accumulation of 4-Aminoantipyrine and Ethanol in Fish|J. Pharm. Sci.67(11): 1558-1563|1978|10.1002/jps.2600671117
7064|A||Kanazawa,J., and C. Tomizawa|Intake and Excretion of 2,4,6-Trichlorophenyl-4'-Nitrophenyl Ether by Topmouth Gudgeon, Pseudorasbora parva|Arch. Environ. Contam. Toxicol.7(4): 397-407|1978|10.1007/BF02332067
7065|A||Ku,C.C., I.P. Kapoor, and J.D. Rosen|Metabolism of Cytrolane (Mephosfolan) Systemic Insecticide [(Diethoxyphosphinyl)Dithiomidocarbonic Acid, Cyclic Propylene Ester] in a Simulated|J. Agric. Food Chem.26(6):1352-1357|1978|10.1021/jf60220a010
7066|A||Kar,S., and P.K. Singh|Toxicity of Carbofuran to Blue-Green Alga Nostoc muscorum|Bull. Environ. Contam. Toxicol.20(5): 707-714|1978|10.1007/BF01683589
7067|A||Kersting,K.|Experiments with Dichlobenil in a Micro-Ecosystem|Int. Symp. Aquat. Weeds5:269-277|1978|
7069|A||MacLean,M.M., and K.G. Doe|The Comparative Toxicity of Crude and Refined Oils to Daphnia magna and Artemia|Environment Canada, EE-111, Dartmouth, Nova Scotia:64 p.|1989|
7070|A||Khudolei,V.V., and O.A. Syrenko|Tumor Induction by N-Nitroso Compounds in Bivalve Mollusks Unio pictorum|Cancer Lett.4(6): 349-354|1978|10.1016/S0304-3835(78)95722-1
7071|A||Wakabayashi,M., M. Kikuchi, H. Kojima, and T. Yoshida|Bioaccumulation Profile of Sodium Linear Alkyl-Benzene Sulfonate and Sodium Alkyl Sulfate in Carp|Chemosphere7(11): 917-924|1978|10.1016/0045-6535(78)90124-8
7072|A||Kikuchi,M., M. Wakabayashi, H. Kojima, and T. Yoshida|Uptake, Distribution, and Elimination of Sodium Linear Alkylbenzene Sulfonate and Sodium Alkyl Sulfate in Carp|Ecotoxicol. Environ. Saf.2(2): 115-127|1978|10.1016/0147-6513(78)90002-7
7073|A||Kingsbury,P.D.|A Study of the Distribution, Persistence and Biological Effects of Fenitrothion Applied to a Small Lake in an Oil Formulation|Rep.No.FPM-X-13, Environment Canada, Forest Pest Manage.Inst., Can.Forest Serv., Sault Ste.Marie, Ontario, Canada:56 p.|1978|
7074|A||Knapik,M.|Toxicity of Potassium Bichromate for Selected Marine Crustaceans|Zool. Pol.27(1): 125-133|1978|
7075|A||Norland,S., M. Heldal, T. Lien, and G. Knutsen|Toxicity Testing with Synchronized Cultures of the Green Alga Chlamydomonas|Chemosphere7(3): 231-245|1978|10.1016/0045-6535(78)90075-9
7077|A||Lage,O.M., H.M.V.M. Soares, M.T.S.D. Vasconcelos, A.M. Parente, and R. Salema|Toxicity Effects of Copper (II) on the Marine Dinoflagellate Amphidinium carterae:  Influence of Metal Speciation|Eur. J. Phycol.31(4): 341-348|1996|10.1080/09670269600651571
7078|A||Eldridge,M.B., T. Echeverria, and S. Korn|Fate of 14C-Benzene in Eggs and Larvae of Pacific Herring (Clupea harengus pallasi)|J. Fish. Res. Board Can.35(6):861-865|1978|10.1139/f78-137
7079|A||Korte,F., D. Freitag, H. Geyer, W. Klein, A.G. Kraus, and E. Lahaniatis|A Concept for Establishing Ecotoxicologic Priority Lists for Chemicals|Chemosphere7(1): 79-102|1978|10.1016/0045-6535(78)90034-6
7080|A||Kosinova,N.R., and A.M. Aleksan'yan|Investigation of Reversibility of Effects of Strontium-90 and Metaphos on Cyprinus carpio|Radiobiology18(4): 630-634|1978|
7081|A|RUSSN|Kosinova,N.R., and O.M. Aleksanyan|Study of the Reversibility of the Effects of Strontium-90 and Metaphos on Cyprinus carpio|Radiobiologiya18(4): 630-634|1978|
7082|A||Koundinya,P.R., and R. Ramamurthi|Effect of Sumithion (Fenitrothion) on Some Selected Enzyme Systems in the Fish Tilapia mossambica (Peters)|Indian J. Exp. Biol.16(7): 809-811|1978|
7083|A||International Standards Organization (ISO)|Water Quality - Determinatin of the Inhibition of the Mobility of Daphnia magna Straus (Cladocera, Crustacea)|Int.Stand.Org.(ISO), Tech.Rep.6341, 2nd Ed., Geneva, Switzerland:7-|1989|
7084|A||Brown,M.D., D. Thomas, and B.H. Kay|Acute Toxicity of Selected Pesticides to the Pacific Blue-Eye, Pseudomugil signifer (Pisces)|Am. Mosq. Control Assoc. J.14(4): 463-466|1998|
7085|A||Alam,M.K., and O.E. Maughan|The Effect of Malathion, Diazinon, and Various Concentrations of Zinc, Copper, Nickel, Lead, Iron, and Mercury on Fish|Biol. Trace Elem. Res.34(3): 225-236|1992|10.1007/BF02783678
7086|A||Lakota,S., A. Raszka, I. Kupczak, S. Hlond, J. Stefan, and J. Roszkowski|The Effect of Methoxychlor and Propoxur on the Health of Carp Fry (Cyprinus carpio L.)|Acta Hydrobiol.20(3): 197-205|1978|
7087|A||Kusk,K.O., and N. Nyholm|Toxic Effects of Chlorinated Organic Compounds and Potassium Dichromate on Growth Rate and Photosynthesis of Marine Phytoplankton|Chemosphere25(6): 875-886|1992|10.1016/0045-6535(92)90079-7
7089|A||De Wolf,W., W. Seinen, A. Opperhuizen, and J.L.M. Hermens|Bioconcentration and Lethal Body Burden of 2,3,4,5-Tetrachloroaniline in Guppy, Poecilia reticulata|Chemosphere25(6): 853-863|1992|10.1016/0045-6535(92)90076-4
7091|A||Reddy,P.M., and G.H. Philip|Changes in the Levels of Respiration and Ions in the Tissues of Freshwater Fish, Labeo rohita Under Fenvalerate Stress|Chemosphere25(6): 843-852|1992|10.1016/0045-6535(92)90075-3
7092|A||Folmar,L.C., S. Bonomelli, T. Moody, and J. Gibson|The Effect of Short-Term Exposure to Three Chemicals on the Blood Chemistry of the Pinfish (Lagodon rhomboides)|Arch. Environ. Contam. Toxicol.24(1):83-86|1993|10.1007/BF01061093
7093|A||Litav,M., and Y. Lehrer|The Effects of Ammonium in Water on Potamogeton lucens|Aquat. Bot.5(2): 127-138|1978|10.1016/0304-3770(78)90056-6
7094|A||Presing,M., K.V. Balogh, and J. Salanki|Cadmium Uptake and Depuration in Different Organs of Lymnaea stagnalis L. and the Effect of Cadmium on the Natural Zinc Level|Arch. Environ. Contam. Toxicol.24(1): 28-34|1993|10.1007/BF01061086
7095|A||Lubinski,K.S., J.,Jr. Cairns, and K.L. Dickson|Quantifying the Effects of Ammonia on the Swimming Behavior of Bluegills|Trace Subst. Environ. Health12:508-514|1978|
7096|A||Lonning,S., and I.B. Falk-Petersen|The Effects of Oil Dispersants on Marine Eggs and Larvae|Astarte11(2): 135-138|1978|
7097|A||Glynn,A.W., C. Haux, and C. Hogstrand|Chronic Toxicity and Metabolism of Cd and Zn in Juvenile Minnows (Phoxinus phoxinus) Exposed to a Cd and Zn Mixture|Can. J. Fish. Aquat. Sci.49(10): 2070-2079|1992|10.1139/f92-230
7098|A||Majewski,H.S., R.W. Danell, J. Barica, A. Lutz, and J.F. Klaverkamp|Short-Term Exposure of Rainbow Trout (Salmo gairdneri) to an Algicidal Level of Copper Sulphate in Two Hard-Water Ponds|Fish.Mar.Serv.Manuscript Rep.#1448:10 p.|1978|
7099|A||Erickson,D.A., F.E. Laib, and J.J. Lech|Biotransformation of Rotenone by Hepatic Microsomes Following Pretreatment of Rainbow Trout with Inducers of Cytochrome P450|Pestic. Biochem. Physiol.42(2): 140-150|1992|10.1016/0048-3575(92)90061-4
7100|A||Anderson,J.W., J.M. Neff, B.A. Cox, H.E. Tatem, and G.M. Hightower|Characteristics of Dispersions and Water-Soluble Extracts of Crude and Refined Oils and Their Toxicity to Estuarine Crustaceans and Fish|Mar. Biol.27(1): 75-88|1974|10.1007/BF00394763
7101|A||Marking,L.L., and J.H. Chandler|Survival of Two Species of Freshwater Clams, Corbicula leana and Magnonaias boykiniana, after Exposure to Antimycin|Invest.Fish Control No.83, Fish.Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:5 p.|1978|
7102|A||Matthiessen,P., and J.S. Johnson|Accumulation of the Organophosphate Blackfly Larvicide Abate (Temephos) in Sarotherodon mossambicus, with Reference to the Larvicidal Control of Simulium damnosum|J. Fish Biol.13(5): 575-586|1978|10.1111/j.1095-8649.1978.tb03470.x
7103|A||Dwyer,W.P., F.L. Mayer, J.L. Allen, and D.R. Buckler|Chronic and Simulated Use-Pattern Exposures of Brook Trout (Salvelinus fontinalis) to 3-Trifluoro-Methyl-4-Nitrophenol (TFM). Investigations in Fish Control|Invest.Fish Control No.84, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:6 p.|1978|
7104|A||Borgmann,U., Y.K. Chau, P.T.S. Wong, M. Brown, and J. Yaromich|The Relationship Between Tributyltin (TBT) Accumulation and Toxicity to Hyalella azteca for Use in Identifying TBT Toxicity in the Field|J. Aquat. Ecosyst. Health5(3): 199-206|1996|10.1007/BF00124107
7105|A||Naess,T., K.E. Naas, and O.B. Samuelsen|Toxicity of Rotenone to Some Potential Predators on Marine Fish Larvae - an Experimental Study|Aquac. Eng.10(3): 149-159|1991|10.1016/0144-8609(91)90020-K
7106|A||Heagler,M.G., M.C. Newman, M. Mulvey, and P.M. Dixon|Allozyme Genotype in Mosquitofish, Gambusia holbrooki, During Mercury Exposure: Temporal Stability, Concentration Effects and Field Verification|Environ. Toxicol. Chem.12(2): 385-395|1993|10.1002/etc.5620120218
7107|A||Shokod'Ko,T.I., A.I. Merezhko, and A.I. Lyashenko|The Effect of DDT and Hexachlorane on Assimilation and Outflow of 14C in Phragmites communis|Hydrobiol. J.14(4): 91-95|1978|
7108|A||Merezhko,A.I., T.I. Shokod'Ko, N.N. Smirnova, and M.B. Dontsov|The Reaction of Phragmites communis Roots to DDT and Hexachlorane|Hydrobiol. J.14(4): 100-|1978|
7109|A||Miyamoto,J., N. Mikami, K. Mihara, Y. Takimoto, H. Kohda, and H. Suzuki|Biological Activity of Fenitrothion and its Degradation Products|J. Pestic. Sci. (Multiple Languages)3(1): 35-41|1978|10.1584/jpestics.3.35
7110|A||Morrison,R.J.|The Toxicity to Fish of Diaquat-Copper Sulphate Mixtures|Fiji Agric. J.40(2): 105-|1978|
7112|A||Richer,G., and R.H. Peters|Determinants of the Short-Term Dynamics of PCB Uptake by Plankton|Environ. Toxicol. Chem.12(2): 207-218|1993|
7113|A||Murado,M.A.|Interaction Phytoplancton-Polychlorinated (SIC) Aromatic Hydrocarbons.  I.  Effects of Three Hallowax on the Growth, Photosynthetic Pigments and Dark|Invest. Pesq.42(2): 273-292|1978|
7114|A||Delgado,M., M. Bigeriego, and E. Guardiola|Uptake of Zn, Cr, and Cd by Water Hyacinths|Water Res.27(2):269-272|1993|10.1016/0043-1354(93)90085-V
7115|A||Chandra,P., and P. Garg|Absorption and Toxicity of Chromium and Cadmium in Limnanthemum cristatum Griseb|Sci. Total Environ.125:175-183|1992|10.1016/0048-9697(92)90389-A
7116|A||Dickson,G.W., J.P. Giesy, and L.A. Briese|The Effect of Chronic Cadmium Exposure on Phosphoadenylate Concentrations and Adenylate Energy Charge of Gills and Dorsal Muscle Tissue of Crayfish|Environ. Toxicol. Chem.1(2): 147-156|1982|10.1002/etc.5620010206
7118|A||Holdway,D.A.|Uranium Toxicity to Two Species of Australian Tropical Fish|Sci. Total Environ.125:137-158|1992|10.1016/0048-9697(92)90387-8
7119|A||Nishiuchi,Y., and K. Asano|Toxicity of Formulated Agrochemicals to Fresh Water Organisms LII|Suisan Zoshoku (Non-English)26(1): 26-30|1978|
7120|A||Nichols,J.W., J.M. McKim, G.J. Lien, A.D. Hoffman, and S.L. Bertelsen|Physiologically Based Toxicokinetic Modeling of Three Waterborne Chloroethanes in Rainbow Trout (Oncorhynchus mykiss)|Toxicol. Appl. Pharmacol.110(3): 374-389|1991|10.1016/0041-008X(91)90040-L
7121|A||Schlenk,D., D.A. Erickson, J.J. Lech, and D.R. Buhler|The Distribution, Elimination, and In Vivo Biotransformation of Aldicarb in the Rainbow Trout (Oncorhynchus mykiss)|Fundam. Appl. Toxicol.18(1): 131-136|1992|10.1016/0272-0590(92)90205-V
7122|A||Gorbi,G., and M.G. Corradi|Chromium Toxicity on Two Linked Trophic Levels 1. Effects of Contaminated Algae on Daphnia magna|Ecotoxicol. Environ. Saf.25(1): 64-71|1993|10.1006/eesa.1993.1007
7123|A||Corradi,M.G., and G. Gorbi|Chromium Toxicity on Two Linked Trophic Levels II. Morphophysiological Effects on Scenedesmus acutus|Ecotoxicol. Environ. Saf.25(1):72-78|1993|10.1006/eesa.1993.1008
7126|A|OECDG|Mitchell,G.C., D. Bennett, and N. Pearson|Effects of Lindane on Macroinvertebrates and Periphyton in Outdoor Artificial Streams|Ecotoxicol. Environ. Saf.25(1): 90-102|1993|10.1006/eesa.1993.1010
7128|A||Hanazato,T., and S.I. Dodson|Morphological Responses of Four Species of Cyclomorphic Daphnia to a Short-Term Exposure to the Insecticide Carbaryl|J. Plankton Res.15(9): 1087-1095|1993|10.1093/plankt/15.9.1087
7129|A||Ochiai,T., and S.S. Kubota|Studies on Toxic Effects of Pesticides on Fish - I. Toxic Effects of the Herbicide, Molinate, on Carp|Bull. Fac. Fish. Mie Univ.5:129-153|1978|
7130|A||Ochiai,T., and S.S. Kubota|Studies on Toxic Effects of Pesticides on Fish. II. Toxic Effects of the Herbicide, Benthiocarb, on Carp|Bull. Fac. Fish. Mie Univ.5:155-163|1978|
7131|A||Bartley,T.R., and A.R. Hattrup|Acrolein Residues in Irrigation Water and Effects on Rainbow Trout|Rep.No.REC-ERC-75-8, Bur.of Reclamation, Denver, CO:11 p.|1975|
7132|A||Comber,M.H.I., T.D. Williams, and K.M. Stewart|The Effects of Nonylphenol on Daphnia magna|Water Res.27(2): 273-276|1993|10.1016/0043-1354(93)90086-W
7133|A||Olson,K.R., K.S. Squibb, and R.J. Cousins|Tissue Uptake, Subcellular Distribution, and Metabolism of 14CH3HgCl and 203CH3HgCl by Rainbow Trout, Salmo gairdneri|J. Fish. Res. Board Can.35(4): 381-390|1978|10.1139/f78-068
7134|A||Riznyk,R.Z., J.T. Hardy, W. Pearson, and L. Jabs|Short-Term Effects of Polynuclear Aromatic Hydrocarbons on Sea-Surface Microlayer phytoneuston|Bull. Environ. Contam. Toxicol.38(6): 1037-1043|1987|10.1007/BF01609092
7135|A||Pagano,G., A. Esposito, G.G. Giordano, and B.E. Hagstrom|Embryotoxic and Teratogenic Effects of Styrene Derivatives on Sea Urchin Development|Scand. J. Work Environ. Health:136-141|1978|10.5271/sjweh.2753
7136|A||Umezu,T.|Saponins and Surfactants Increase Water Flux in Fish Gills|Nippon Suisan Gakkaishi (Multiple Languages)57(10): 1891-1896|1991|10.2331/suisan.57.1891
7137|A||Sastry,K.V., and K. Sharma|Effects of Mercuric Chloride on the Activities of Brain Enzymes in a Fresh Water Teleost, Ophiocephalus (Channa) punctatus|Arch. Environ. Contam. Toxicol.9(4):425-430|1980|10.1007/BF01055294
7138|A||Parrish,P.R., J.M.,Jr. Patrick, and J. Forester|Effects of Three Toxicants on Oysters (Crassostrea virginica) Exposed Continuously for Two Years|Proc. Natl. Shellfish. Assoc.67:121-122|1977|
7140|A||Kiceniuk,J.W., W.R. Penrose, and W.R. Squires|Oil Spill Dispersants Cause Bradycardia in a Marine Fish|Mar. Pollut. Bull.9(2): 42-45|1978|10.1016/0025-326X(78)90531-3
7141|A||Pentreath,R.J.|The Accumulation of 110m Ag by the Plaice, Pleuronectes platessa L. and the Thornback Ray, Raja clavata L|J. Exp. Mar. Biol. Ecol.29(3): 315-325|1977|10.1016/0022-0981(77)90074-0
7143|A||Basak,P.K., and S.K. Konar|A Simple Bioassay Method for Estimation of Safe Disposal Rates of Insecticides to Protect Fish:  Dimethoate|Indian J. Fish.25(1-2): 141-155|1978|
7145|A||Sivaramakrishna,B., A. Suresh, P. Venkataramana, and K. Radhakrishnaiah|Copper Influenced Changes of Lipid Metabolism in the Tissues of Freshwater Teleost Labeo rohita (Hamilton)|Biochem. Int.26(2): 335-342|1992|
7146|A||Planas,D., and F.P. Healey|Effects of Arsenate on Growth and Phosphorus Metabolism of Phytoplankton|J. Phycol.14(3): 337-341|1978|10.1111/j.1529-8817.1978.tb00309.x
7147|A||Ahsanullah,M., and W. Ying|Tidal Rhythms and Accumulation of Cadmium from Water and Sediment by Soldier Crabs|Mar. Pollut. Bull.26(1): 20-23|1993|10.1016/0025-326X(93)90592-8
7148|A||Wester,P.W., and C.J. Roghair|Teratogenic Effect in the Gas Gland of Fish Induced by the Fabric Softener Ditallow Dimethyl Ammonium Chloride|Dis. Aquat. Org.12(3): 207-213|1992|10.3354/dao012207
7149|A||Reiff,B.|The Effect of Biodegradation of Three Nonionic Surfactants on Their Toxicity to Rainbow Trout|Tr. Mezhdunar. Kongr. Poverkhn. - Akt. Veshchestvam:163-176|1978|
7150|A||Carballo,M., and M.J. Munoz|Effect of Sublethal Concentrations of Four Chemicals on Susceptibility of Juvenile Rainbow Trout (Oncorhynchus mykiss) to Saprolegniosis|Appl. Environ. Microbiol.57(6): 1813-1816|1991|10.1128/aem.57.6.1813-1816.1991
7153|A||Bebianno,M.J., and W.J. Langston|Metallothionein Induction in Littorina littorea (Mollusca: Prosobranchia) on Exposure to Cadmium|J. Mar. Biol. Assoc. U.K.72(2): 329-342|1992|10.1017/S0025315400037735
7154|A||Richardson,J.|Acute Toxicity of Ammonia to Juvenile Inanga (Galaxias maculatus)|N. Z. J. Mar. Freshw. Res.25(3): 327-330|1991|10.1080/00288330.1991.9516486
7155|A||Rozhanskaya,L.I., I.V. Demina, and A.V. Parkhomenko|Effect of Some Chemical Agents on the Uptake of 32P and 65Zn by Macrophytes in the Black Sea|Hydrobiol. J.14(3): 74-76|1978|
7156|A||Rubinstein,N.I.|Effect of Sodium Pentachlorophenate on the Feeding Activity of the Lugworm, Arenicola cristata Stimpson|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:175-179|1978|
7157|A||Husaini,Y., and L.C. Rai|Studies on Nitrogen and Phosphorus Metabolism and the Photosynthetic Electron Transport System of Nostoc linckia Under Cadmium Stress|J. Plant Physiol.138(4): 429-435|1991|10.1016/S0176-1617(11)80518-3
7158|A||Salanki,J., and I. Varanka|Effect of Some Insecticides on the Periodic Activity of the Fresh-Water Mussel (Anodonta cygnea L.)|Acta Biol. Acad. Sci. Hung.29(2): 173-180|1978|
7159|A||Samman,J., and M.P. Thomas|Effect of an Organophosphorus Insecticide, Abate, Used in the Control of Simulium damnosum on Non-Target Benthic Fauna|Int. J. Environ. Stud.12(2): 141-144|1978|10.1080/00207237808709773
7160|A||Sastry,K.V., and P.K. Gupta|Alterations in the Activity of Some Digestive Enzymes of Channa punctatus, Exposed to Lead Nitrate|Bull. Environ. Contam. Toxicol.19(5): 549-555|1978|10.1007/BF01685840
7161|A||Sastry,K.V., and P.K. Gupta|Chronic Mercuric Chloride intoxication in the Digestive System of Channa punctatus|J. Environ. Pathol. Toxicol.2(2): 443-446|1978|
7163|A||Sastry,K.V., and P.K. Gupta|Histopathological and Enzymological Studies on the Effects of Chronic Lead Nitrate intoxication in the Digestive System of a Freshwater Teleost, Channa|Environ. Res.17(3): 472-479|1978|10.1016/0013-9351(78)90049-X
7164|A||Rabeni,C.F., and J.G. Stanley|Operational Spraying of Acephate to Suppress Spruce Budworm Has Minor Effects on Stream Fishes and Invertebrates|Bull. Environ. Contam. Toxicol.23(3): 327-334|1979|10.1007/BF01769964
7165|A||Lanno,R.P.|The Chronic Toxicity of Thiocyanate to Rainbow Trout and Fathead Minnow|Ph.D.Thesis, University of Waterloo, Ontario, Canada:89 p.|1990|
7166|A||Schwab,M., S. Abdo, M.R. Ahuja, G. Kollinger, A. Anders, F. Anders, and K. Frese|Genetics of Susceptibility in the Platyfish/Swordtail Tumor System to Develop Fibrosarcoma and Rhabdomyosarcoma Following Treatment with N-Methyl-|Z. Krebsforsch. Klin. Onkol.91(3): 301-315|1978|10.1007/BF00312292
7167|A||Scott,G.I., and D.P. Middaugh|Seasonal Chronic Toxicity of Chlorination to the American Oyster, Crassostrea virginica (G)|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI:311-328|1978|
7168|A||Weber,D.N.|Physiological and Behavioral Effects of Waterborne Lead on Fathead Minnows (Pimephales promelas)|Ph.D.Thesis, University of Wisconsin, Milwaukee, WI:157 p.|1991|
7169|A||Cope,W.G.|Metallothionein and Bioaccumulation of Cadmium in Juvenile Bluegills Exposed to Aqueous and Sediment-Associated Cadmium|Ph.D.Thesis, Iowa State University, Ames, IA:97 p.|1991|
7170|A|RUSSN|Sherstneva,L.A.|Effect of Some Pesticides on the Fresh Water Crustaceans|Rybn. Hoz. (Mosk.) (Non-English)2:33-35|1978|
7171|A||Shimizu,T., and J.I. Fukami|Uptake and Accumulation of 14C-Rotenone in Carp|Radioisotopes27(1): 35-36|1978|
7172|A||Shimizu,T., Y. Hashimoto, and J. Fukami|Uptake and Accumulation of 14C-Labeled DDT and Parathion in Carp (Cyprinus carpio)|J. Pestic. Sci. (Multiple Languages)3(3): 311-314|1978|10.1584/jpestics.3.311
7173|A||Singh,A.P., D. Kumar, and R.S. Chauhan|Toxicity Effect of Dipterex (Bayer L 13/59) on Young Tadpoles of Rana cyanophlyctis in Aquatic Environment|Balwant Vidyapeeth J. Agric. Sci. Res.18(1): 49-53|1978|
7174|A||Jones,S.B., L.B. King, L.C. Sappington, F.J. Dwyer, M. Ellersieck, and D.R. Buckler|Effects of Carbaryl, Permethrin, 4-Nonylphenol, and Copper on Muscarinic Cholinergic Receptors in Brain of Surrogate and Listed Fish Species|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120:405-414|1998|
7176|A||Day,K.E., R.J. Maguire, D. Milani, and S.P. Batchelor|Toxicity of Tributyltin to Four Species of Freshwater Benthic Invertebrates Using Spiked Sediment Bioassays|Water Qual. Res. J. Can.33(1): 111-132|1998|10.2166/wqrj.1998.007
7177|A||Sinha,B.D., and K. Mohan|Action of Nitroimidazoles on Algae I Anacystis nidulans|Mutat. Res.53(2): 264-|1978|10.1016/0165-1161(78)90340-0
7178|A||Zhang,M., J. Wang, and J. Bao|Study on the Relationship Between Speciation of Heavy Metals and Their Ecotoxicity  I.  Toxicity of Cu, Cd, Pb and Zn in Seawater to Three Marine Algae in the Presence of Different Complexation Agents|Chin. J. Oceanol. Limnol.10(3): 215-222|1992|10.1007/BF02843822
7179|A||McCarthy,J.F., H. Gardner, M.J. Wolfe, and L.R. Shugart|DNA Alterations and Enzyme Activities in Japanese Medaka (Oryzias latipes) Exposed to Diethylnitrosamine|Neurosci. Biobehav. Rev.15(1): 99-102|1991|10.1016/S0149-7634(05)80099-5
7180|A||Sivaiah,S., and K.V.R. Rao|Effect of Malathion on the Excretory Pattern of the Snail, Pila globosa (Swainson)|Curr. Sci. (Bangalore)47(23): 894-895|1978|
7181|A||Kimball,G.L., L.L.,Jr. Smith, and S.J. Broderius|Chronic Toxicity of Hydrogen Cyanide to the Bluegill|Trans. Am. Fish. Soc.107(2): 341-345|1978|10.1577/1548-8659(1978)107<341:CTOHCT>2.0.CO;2
7182|A|RUSSN|Sokolskaya,N.P., and T.M. Krylova|Effect of Copper Chloride on Fish|Veterinaria (Mosk.) (Non-English)9:92-93|1978|
7183|A||Sonnichsen,T.|Toxicity of a Phosphate-Reducing Agent (Aluminium Sulphate) on the Zooplankton in the Lake Lyngby So|Verh. Int. Ver. Theor. Angew. Limnol.20(1): 709-713|1978|
7184|A||Statham,C.N., W.A. Croft, and J.J. Lech|Uptake, Distribution, and Effects of Carbon Tetrachloride in Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.45(1): 131-140|1978|10.1016/0041-008X(78)90034-0
7185|A||Streit,B.|Uptake, Accumulation, and Release of Organic Pesticides by Benthic Freshwater Invertebrates.  1.  Reversible Accumulation of Atrazine from Aqueous|Arch. Hydrobiol.55(1): 1-23|1978|
7186|A||Streit,B., and H.M. Peter|Long-Term Effects of Atrazine to Selected Freshwater Invertebrates|Arch. Hydrobiol.55(1): 62-77|1978|
7188|A||Sugiura,K., M. Hattori, T. Washino, M. Goto, R. Leimgruber, and H. Batzer|Effects of Surface-Active Agents on the Amount and Rate of Accumulation of Tris(2,4-Di-Ter-butylphenyl) Phosphite in Fish|Chemosphere7(9): 743-746|1978|10.1016/0045-6535(78)90113-3
7189|A||Tagatz,M.E., J.M. Ivey, and M. Tobia|Effects of Dowicide G-ST on Development of Experimental Estuarine Macrobenthic Communities|In: K.R.Rao (Ed.), Pentachlorophenol, Plenum Publ.Corp., New York, NY, EPA-600/J-78-077, U.S.EPA, Gulf Breeze, FL:9 p.|1978|
7190|A||Hara,T.J., and B.E. Thompson|The Reaction of Whitefish, Coregonus clupeaformis, to the Anionic Detergent Sodium Lauryl Sulphate and Its Effects on Their Olfactory Responses|Water Res.12(10): 893-897|1978|10.1016/0043-1354(78)90042-8
7191|A||Titova,A.A.|Concentration of the Herbicide 2,4-D by Some Higher Water Plants|Hydrobiol. J.14(4): 96-97|1978|
7192|A||Cockell,K.A., and W.J. Bettger|Investigations of the Gallbladder Pathology Associated with Dietary Exposure to Disodium Arsenate Heptahydrate in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Toxicology77(3): 233-248|1993|10.1016/0300-483X(93)90163-M
7194|A||Radoux,D., and J.M. Bouquegneau|Uptake of Mercuric Chloride From Sea Water by Serranus cabrilla|Bull. Environ. Contam. Toxicol.22(6):771-778|1979|10.1007/BF02027023
7195|A||Jindal,R., and A. Verma|Heavy Metal Toxicity to Daphnia pulex|Indian J. Environ. Health32(3): 289-292|1990|
7196|A||Tyurin,A.N.|Behavioral Reactions of the Scallop, Mizuhopecten yessoensis, and the Mussel, Crenomytilus grayanus, to Reduced Salinity and Oxygen and Exposure to|Hydrobiol. J.27(4):13-19|1991|
7198|A||Vashchenko,M.A.|Influence of Dispersants on the Embryonic Development of the Sea Urchin Strongylocentrotus nudus|Sov. J. Mar. Biol.4(5): 848-853|1978|
7199|A||Bathe,R., K. Sachsse, L. Ullmann, W.D. Hormann, F. Zak, and R. Hess|The Evaluation of Fish Toxicity in the Laboratory|Proc. Eur. Soc. Toxicol.16:113-124|1975|
7200|A||Vedajanani,K., and Y.S.R. Sarma|Effects of Antibiotics on the Green Alga Spirogyra azgospora Singh|Indian J. Exp. Biol.16(7):845-848|1978|
7201|A||Khan,S.H., and S.M. Saifullah|Toxic Effects of Copper and Lead on a Tropical Marine Blue Green Phytoplankter, Oscillatoria thiebautii|Pak. J. Bot.16(2): 267-274|1984|
7202|A||Khan,S.H., and S.M. Saifullah|Bioassay Studies of Phytoplankton of Coastal Waters of Karachi in Relation to Heavy Metal Pollution:  I.  Effect of Copper and Lead on Skeletonema costatum|Pak. J. Bot.18(1): 137-145|1986|
7203|A||Le Baut,C.M., M. Bardouil, G. Bocquene, L. Le Dean, and P. Truquet|Preliminary Studies of the Tolerance of Marine Planktonic Organisms to Two Insecticides and One Herbicide|Aquat. Sci. Fish. Abstr.14(11): 25873-1Q14|1984|
7204|A||Rai,L.C., and N. Mallick|Removal and Assessment of Toxicity of Cu and Fe to Anabaena doliolum and Chlorella vulgaris Using Free and Immobilized Cells|J. Microbiol. Biotechnol.8(2): 110-114|1992|10.1007/BF01195827
7205|A||Abbott,O.J.|The Toxicity of Ammonium Molybdate to Marine Invertebrates|Mar. Pollut. Bull.8(9): 204-205|1977|10.1016/0025-326X(77)90107-2
7206|A||Benijts-Claus,C., and G. Persoone|The Influence of the Formulation of the Herbicide Paraquat on its Toxicity for Aquatic Organisms|Meded. Fac. Landbouwwet. Rijksuniv. Gent40(2, Pt.2): 1161-1173|1975|
7207|A||Dutta,H.M., T. Zeno, and C.R. Richmonds|Toxic Action of Diazinon on the Gills of Bluegill Sunfish, Lepomis macrochirus|Ohio J. Sci.92(2): 9-|1992|
7208|A||Manna,G.K., and P.K. Mukherjee|A Study of the Genotoxic Potentiality of the Inorganic Weedicide, Sodium Arsenite in the Experimentally Treated Tilapia Fish|J. Freshw. Biol.1(2): 147-159|1989|
7209|A||Rai,L.C., N. Mallick, J.B. Singh, and H.D. Kumar|Physiological and Biochemical Characteristics of a Copper Tolerant and a Wild Type Strain of Anabaena doliolum Under Copper Stress|J. Plant Physiol.138(1): 68-74|1991|10.1016/S0176-1617(11)80732-7
7210|A||Nemcsok,J., B. Asztalos, E. Vig, and L. Orban|The Effect of an Organophosphorus Pesticide on the Enzymes of Carp (Cyprinus carpio L.)|Acta Biol. Hung.38(1): 77-85|1987|
7211|A||Weis,P., and J.S. Weis|Methylmercury Inhibition of Fin Regeneration in Fishes and Its Interaction with Salinity and Cadmium|Estuar. Coast. Mar. Sci.6(3): 327-334|1978|10.1016/0302-3524(78)90020-8
7212|A||Vollestad,L.A., E. Fjeld, T. Haugen, and S.A. Oxnevad|Developmental Instability in Grayling (Thymallus thymallus) Exposed to Methylmercury During Embryogenesis|Environ. Pollut.101:349-354|1998|10.1016/S0269-7491(98)00055-4
7213|A||Wiersma-Roem,W.J., L.W.A. Vischer, E.M.H. Frederix-Wolters, and E.G.M. Harmsen|Sub-Acute Toxicity of the Herbicide Dichlobenil (2,6-Dichlorobenzonitrile) in Rainbow Trout (Salmo gairdneri R.)|In: Proceedings of the EWRS Symposium on Aquatic Weeds:261-268|1978|
7214|A||Mazurek,U., T. Naglik, A. Wilczok, and M. Latocha|Effect of Cadmium on Photosynthetic Pigments in Synchronously Growing Chlorella Cells|Acta Biochim. Pol.37(3): 389-392|1990|
7215|A||Vranken,G., R. Vanderhaeghen, and C. Heip|Effects of Pollutants on Life-History Parameters of the Marine Nematode Monhystera disjuncta|ICES J. Mar. Sci.48:325-334|1991|10.1093/icesjms/48.3.325
7216|A||Goh,B.P.L.|Mortality and Settlement Success of Pocillopora damicornis Planula Larvae During Recovery from Low Levels of Nickel|Pac. Sci.45(3):276-286|1991|
7217|A||Batterton,J., K. Winters, and C. Van Baalen|Anilines: Selective Toxicity to Blue-Green Algae|Science199(4333): 1068-1070|1978|10.1126/science.415361
7218|A||Woltering,D.M., J.L. Hedtke, and L.J. Weber|Predator-Prey Interactions of Fishes Under the Influence of Ammonia|Trans. Am. Fish. Soc.107(3): 500-504|1978|10.1577/1548-8659(1978)107<500:PIOFUT>2.0.CO;2
7219|A||Alam,M.K., and O.E. Maughan|Acute Toxicity of Selected Organophosphorus Pesticides to Cyprinus carpio and Barilius vagra|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(1): 81-89|1993|
7220|A||Xavier,A., and J.L. Gnanarethinam|A Preliminary Study of the Effect of the Herbicide 2,4-D on the Nitrogen Metabolism of the Water Fern Salvinia natans, L.|Curr. Sci. (Bangalore)47(17): 639-640|1978|
7221|A||Lewis,J.W., A.N. Kay, and N.S. Hanna|Responses of Electric Fish (Family Mormyridae) to Chemical Changes in Water Quality: I. Cyanide|Environ. Technol. Lett.13(12): 1169-1174|1992|10.1080/09593339209385256
7224|A||Yockim,R.S., A.R. Isensee, and G.E. Jones|Distribution and Toxicity of TCDD and 2,4,5-T in an Aquatic Model Ecosystem|Chemosphere7(3): 215-220|1978|10.1016/0045-6535(78)90073-5
7225|A||Zambriborshch,F.C., and B. Lai|Effect of Hexachloran on Oxygen Consumption of Neogobius melanostomus and Neogobius fluviatilis|Sov. J. Mar. Biol.4(1): 526-529|1978|
7226|A||Tul'Chinskaya,V.P., F.S. Zambriborshch, I.I. Fal'Kova, S.Y. Dyatlov, and T.V. Mishchenko|Effect of Chlorophos and Hexachlorane on Cell Cultures of Warm-Blooded and Cold-Blooded Animals|Hydrobiol. J.14(4): 80-85|1978|
7228|A||Zhiteneva,L.D., T.I. Kalyuzhnaya, and V.P. Zavgorodnyaya|Reversibility of Pathological Changes in Acute Poisoning of Spawners of the Bester, the Hybrid of the Beluga Sturgeon, Huso huso, and the Sterlet|J. Ichthyol.18(2): 307-317|1978|
7229|A||Merrett,W.J., G.P. Rutt, N.S. Weatherley, S.P. Thomas, and S.J. Ormerod|The Response of Macroinvertebrates to Low pH and Increased Aluminium Concentrations in Welsh Streams: Multiple Episodes and Chronic Exposure|Arch. Hydrobiol.121(1): 115-125|1991|10.1127/archiv-hydrobiol/121/1991/115
7230|A||Gill,T.S., J. Pande, and H. Tewari|Individual and Combined Toxicity of Common Pesticides to Teleost Puntius conchonius Hamilton|Indian J. Exp. Biol.29(2): 145-148|1991|
7231|A||Bakthavathsalam,R., and C. Rajaretnam|Effects of Lindane and Atropine Sulphate on the Digestive Tissues of Anabas testudineus (Bloch)|Indian J. Environ. Health32(3): 284-288|1990|
7232|A||Rao,K.S.P., and K.V.R. Rao|Effect of Sublethal Concentration of Methyl Parathion on Selected Oxidative Enzymes and Organic Constituents in the Tissues of the Freshwater Fish, Tilapia mossambica (Peters)|Curr. Sci. (Bangalore)48(12): 526-528|1979|
7233|A||Schiff,K.C.|The Effect and Accumulation of Sediment-Adsorbed DDT in the Polychaete, Capitella capitata|Bull. Mar. Sci.48(2): 594-|1991|
7234|A||Reddy,T.G., and S. Gomathy|Toxicity and Respiratory Effects of Pesticide, Thiodan on Catfish, Mystus vittatus|Indian J. Environ. Health19(4): 360-363|1977|
7235|A||Sen,A.C.|The Effect of 2-4D Weed-Killer on Aquatic Fauna|Sci. Cult.23(6): 315-317|1957|
7236|A||Hyne,R.V., A. Padovan, D.L. Parry, and S.M. Renaud|Increased Fecundity of the Cladoceran Moinodaphnia macleayi on a Diet Supplemented with a Green Alga, and Its Use in Uranium Toxicity Tests|Aust. J. Mar. Freshw. Res.44(3): 389-399|1993|10.1071/MF9930389
7237|A||Roderer,G.|Inhibition of Cytokinesis and Formation of Giant Cells in Poteriochromonis malkamensis by Organic Lead Compounds and Other Agents|Protoplasma (Multiple Languages)99(1-2): 39-51|1979|10.1007/BF01274068
7239|A||Rubinstein,N.I.|A Benthic Bioassay Using Time-Lapse Photography to Measure the Effect of Toxicants on the Feeding Behavior of Lugworms (Polychaeta: Arenicolidae)|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Marine Pollution: Functional Responses, Academic Press, NY:341-351|1979|
7240|A||Sakiya,Y., and Y. Miyauchi|Kinetics on Uptake of Drugs in Goldfish. IV. Contribution of the Stationary Layer to Drug Absorption from the Gill|Chem. Pharm. Bull. (Tokyo)27(6): 1366-1372|1979|10.1248/cpb.27.1366
7241|A||Salanki,J.|Behavioural Studies on Mussels Under Changing Environmental Conditions|Symp. Biol. Hung.19:169-176|1979|
7242|A||Sastry,K.V., and P.K. Gupta|Enzyme Alterations in the Digestive System of Heteropneustes fossilis Induced by Lead Nitrate|Toxicol. Lett.3(3):145-150|1979|10.1016/0378-4274(79)90014-6
7243|A||Sastry,K.V., and P.K. Gupta|The In Vivo Effect of Mercuric Chloride on Some Digestive Enzymes of a Fresh Water Teleost Fish, Channa punctatus|Bull. Environ. Contam. Toxicol.22(1/2): 9-16|1979|10.1007/BF02026899
7244|A||Saxena,R., and A.P. Tyagi|Effect of Mercuric Chloride on the Phosphatases in the Accessory Respiratory Organs of Clarias batrachus|Hydrobiologia (Multiple Languages)63(3): 209-211|1979|10.1007/BF00023624
7245|A||Kulkarni,B.|Chronic Toxicity of Benzene on Enzymes in the Intertidal Clam Gafrarium divaricatum (Gmelin)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.56(5/6): 425-428|1990|
7246|A||Schimmel,S.C., J.M.,Jr. Patrick, and J. Forester|Toxicity and Bioconcentration of BHC and Lindane in Selected Estuarine Animals|Arch. Environ. Contam. Toxicol.6(2/3): 355-363|1977|10.1007/BF02097776
7247|A||Addison,R.F., P.D. Hansen, H.J. Pluta, and D.E. Willis|Effects of Ugilec-141, a PCB Substitute Based on Tetrachlorobenzyltoluenes, on Hepatic Mono-Oxygenase Induction in Estuarine Fish|Mar. Environ. Res.31(2): 137-144|1991|10.1016/0141-1136(91)90024-3
7248|A||Schoor,W.P.|Distribution of Mirex in an Experimental Estuarine Ecosystem|Bull. Environ. Contam. Toxicol.21(3): 315-321|1979|10.1007/BF01685429
7249|A||Rao,G.S., and T. Kannupandi|Acute Toxicity of Three Pesticides and Their Effect on the Behaviour of the Edible Crab Scylla serrata (Forskal)|Mahasagar23(2): 159-162|1990|
7250|A||Radhakrishnaiah,K., S. Suresh, and B. Sivaramakrishna|Size and Sex Related Study on Cadmium Accumulation in Different Organs of the Freshwater Field Crab, Oziotelphusa senex senex (Fabricius)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.57(5): 347-352|1991|
7251|A||Drenner,R.W., K.D. Hoagland, J.D. Smith, W.J. Barcellona, P.C. Johnson, M.A. Palmieri, and J.F. Hobson|Effects of Sediment-Bound Bifenthrin on Gizzard Shad and Plankton in Experimental Tank Mesocosms|Environ. Toxicol. Chem.12(7): 1297-1306|1993|
7252|A||Schultz,T.W., and T.C. Allison|Toxicity and Toxic Interaction of Aniline and Pyridine|Bull. Environ. Contam. Toxicol.23(6): 814-819|1979|10.1007/BF01770047
7253|A||Keizer,J., G. D'Agostino, R. Nagel, F. Gramenzi, and L. Vittozzi|Comparative Diazinon Toxicity in Guppy and Zebra Fish: Different Role of Oxidative Metabolism|Environ. Toxicol. Chem.12:1243-1250|1993|10.1002/etc.5620120713
7254|A||Seuge,J., and R. Bluzat|Study of the Chronic Toxicity of Two Insecticides (Carbaryl and Lindane) Toward the F-sub-1 Generation of Lymnea stagnalis L. (Mollusca, Gasteropoda, Pulmonata). 2. Consequences on the Reproductive Potential|Hydrobiologia (Multiple Languages)66(1): 25-31|1979|10.1007/BF00019135
7255|A||Sigmon,C.F.|Oxygen Consumption in Daphnia pulex Exposed to 2,4-D Or 2,4,5-T|Bull. Environ. Contam. Toxicol.21(6): 822-825|1979|10.1007/BF01685511
7256|A||Simonin,H.A., and J.C. Skea|Toxicity of Diquat and Cutrine to Fingerling Brown Trout|N. Y. Fish Game J.24(1): 37-45|1977|
7257|A||Sijm,D.T.H.M., M. Schipper, and A. Opperhuizen|Toxicokinetics of Halogenated Benzenes in Fish: Lethal Body Burden as a Toxicological End Point|Environ. Toxicol. Chem.12:1117-1127|1993|10.1897/1552-8618(1993)12[1117:TOHBIF]2.0.CO;2
7258|A||Singh,H.N., H.R. Singh, and A. Vaishampayan|Toxic and Mutagenic Action of the Herbicide Alachlor (Lasso) on Various Strains of the Nitrogen-Fixing Blue-Green Alga Nostoc muscorum and Characterization of the Herbicide-Induced Mutants Resistant to Methylamine and L|Environ. Exp. Bot.19(1): 5-12|1979|10.1016/0098-8472(79)90019-4
7259|A||Huang,X.D., D.G. Dixon, and B.M. Greenberg|Impacts of UV Radiation and Photomodification on the Toxicity of PAHs to the Higher Plant Lemna gibba (Duckweed)|Environ. Toxicol. Chem.12:1067-1077|1993|
7260|A||Andryushchenko,V.V.|Effect of DDT on Respiration and Survival Rate of the Black Sea Shrimp|Hydrobiol. J.8(5): 39-44|1972|
7261|A||Larsen,B.K., H.O. Portner, and F.B. Jensen|Extra- and Intracellular Acid-Base Balance and Ionic Regulation in Cod (Gadus morhua) During Combined and Isolated Exposures to Hypercapnia and Copper|Mar. Biol.128(2): 337-346|1997|10.1007/s002270050099
7264|A||Smith,P.J., A.J. Crowe, V.G.K. Das, and J. Duncan|Structure-Activity Relationships for Some Organotin Molluscicides|Pestic. Sci.10(5): 419-422|1979|10.1002/ps.2780100509
7265|A||Taylor,P.A.|An Evaluation of the Toxicity of Various Forms of Chlorine to Ceriodaphnia dubia|Environ. Toxicol. Chem.12:925-930|1993|10.1002/etc.5620120517
7266|A||Dyer,S.D., G.L. Brooks, K.L. Dickson, B.M. Sanders, and E.G. Zimmerman|Synthesis and Accumulation of Stress Proteins in Tissues of Arsenite-Exposed Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.12:913-924|1993|
7267|A||Spacie,A., and J.L. Hamelink|Dynamics of Trifluralin Accumulation in River Fishes|Environ. Sci. Technol.13(7): 817-822|1979|10.1021/es60155a007
7269|A||Palmstrom,N., and K.A. Krieger|The Effects of Atrazine and Metolachlor on the Vegetative Growth of Lemna minor L.|Ohio J. Sci.83(2): 90-|1983|
7270|A||Lazorchak,J.M., and W.T. Waller|The Relationship of Total Copper 48-H LC50s to Daphnia magna dry Weight|Environ. Toxicol. Chem.12:903-911|1993|
7271|A||Smith,I.R., G.M. Kirby, H.W. Ferguson, and M.A. Hayes|Benzo(a)pyrene Metabolism and Excretion in White Suckers with Chronic Liver Diseases|Environ. Toxicol. Chem.12:897-901|1993|10.1002/etc.5620120514
7272|A||Jacobson,P.J., J.L. Farris, D.S. Cherry, and R.J. Neves|Juvenile Freshwater Mussel (Bivalvia:  Unionidae) Responses to Acute Toxicity Testing with Copper|Environ. Toxicol. Chem.12:879-883|1993|10.1002/etc.5620120512
7273|A||Suzuki,A., and Y. Sekizawa|Residue Analyses on 2-Amino-4-Phenylthiazole, a Piscine Anesthetic, in Fishes-IV. GC/MS Analysis on Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)45(2):167-171|1979|10.2331/suisan.45.167
7274|A||Roberts,M.H.J.|Acute Toxicity of Tributyltin Chloride to Embryos and Larvae of Two Bivalve Mollusks, Crassostrea virginica and Mercenaria mercenaria|Bull. Environ. Contam. Toxicol.39:1012-1019|1987|10.1007/BF01689592
7275|A||Tagatz,M.E., J.M. Ivey, H.K. Lehman, and J.L. Oglesby|Effects of Sevin on Development of Experimental Estuarine Communities|J. Toxicol. Environ. Health5(4): 643-651|1979|10.1080/15287397909529776
7276|A||Tagatz,M.E., J.M. Ivey, and J.L. Oglesby|Toxicity of Drilling-Mud Biocides to Developing Estuarine Macrobenthic Communities|Northeast Gulf Sci.3(2): 88-95|1979|10.18785/negs.0302.04
7277|A||Little,E.E., F.J. Dwyer, J.F. Fairchild, A.J. DeLonay, and J.L. Zajicek|Survival of Bluegill and Their Behavioral Responses During Continuous and Pulsed Exposures to Esfenvalerate, a Pyrethroid Insecticide|Environ. Toxicol. Chem.12:871-878|1993|10.1002/etc.5620120511
7279|A||Tomiyama,S., M. Iimori, and Y. Takita|Changes in Red Blood Cell Numbers of Carassius auratus Exposed to a Linear Alkylbenzene Sulfonate Solution|Yukagaku28(6): 424-425|1979|
7280|A||Trnkova,J.|Toxic Effect of Endrin on Aquatic Invertebrates|Prirodoved. Pr. Ust. Akad. Ved Brne11(3): 1-30|1977|
7281|A||Trofimova,M.G.|Chronic Effect of the Herbicide Banvel-D on Daphnia magna Straus|Byull. Mosk. O-va. Ispyt. Prir. Otd. Biol.84(3): 70-77|1979|
7282|A||Hawkins,L.E., and S. Hutchinson|Physiological and Morphogenetic Effects of Monophenyltin Trichloride on Ocenebra erinacea (L.)|Funct. Ecol.4(3): 449-454|1990|10.2307/2389608
7283|A||Verma,S.R., A.K. Tyagi, N. Pal, and R.C. Dalela|In Vivo Effect of the Syndets Idet 5L and Swanic 6L on Atpase Activity in the Teleost, Channa punctatus|Arch. Environ. Contam. Toxicol.8(2): 241-246|1979|10.1007/BF01056328
7284|A|OECDG|Douglas,W.S., A. McIntosh, and J.C. Clausen|Toxicity of Sediments Containing Atrazine and Carbofuran to Larvae of the Midge Chironomus tentans|Environ. Toxicol. Chem.12:847-853|1993|10.1002/etc.5620120508
7285|A||Varanka,I.|Effect of Some Pesticides on the Rhythmic Adductor Muscle Activity of Fresh-Water Mussel Larvae|Symp. Biol. Hung.19:177-196|1979|
7286|A||Bansal,S.K., S.R. Verma, A.K. Gupta, and R.C. Dalela|Physiological Dysfunction of the Haemopoietic System in a Fresh Water Teleost, Labeo rohita, Following Chronic Chlordane Exposure. Part II|Bull. Environ. Contam. Toxicol.22(4-5): 674-680|1979|10.1007/BF02027006
7287|A||Pyatt,F.B., and N.M. Dodd|Some Effects of Metal Ions on the Freshwater Organisms, Hydra oligactis and Chlorohydra viridissima|Indian J. Exp. Biol.24(3): 169-173|1986|
7288|A||Von Hofe,E.H., K.L. Duncan, M.L. Beal, S. Mondal, and H.W. Puffer|Hydrocarbon Pollution of the Oceans: Secondary Metabolites of a Carcinogen in Fish|Proc. West. Pharmacol. Soc.22:281-284|1979|
7289|A||Schubauer-Berigan,M.K., J.R. Dierkes, P.D. Monson, and G.T. Ankley|PH-Dependent Toxicity of Cd, Cu, Ni, Pb and Zn to Ceriodaphnia dubia, Pimephales promelas, Hyalella azteca and Lumbriculus variegatus|Environ. Toxicol. Chem.12:1261-1266|1993|
7290|A||Biesinger,K.E., R.W. Andrew, and J.W. Arthur|Chronic Toxicity of NTA (Nitrilotriacetate) and Metal-NTA Complexes to Daphnia magna|J. Fish. Res. Board Can.31(4): 486-490|1974|10.1139/f74-084
7291|A||West,S.D., E.W.,Jr. Day, and R.O. Burger|Dissipation of the Experimental Aquatic Herbicide Fluridone From Lakes and Ponds|J. Agric. Food Chem.27(5): 1067-1072|1979|10.1021/jf60225a017
7292|A||Wheeler,P.A.|Uptake of Methylamine (an Ammonium Analogue) by Macrocystis pyrifera (Phaeophyta)|J. Phycol.15(1): 12-17|1979|10.1111/j.1529-8817.1979.tb02954.x
7293|A||Fisher,S.W., M.J. Lydy, J. Barger, and P.F. Landrum|Quantitative Structure-Activity Relationships for Predicting the Toxicity of Pesticides in Aquatic Systems with Sediment|Environ. Toxicol. Chem.12:1307-1318|1993|
7294|A||Willhite,C., and R.P. Sharma|Acute Dieldrin Exposure in Relation to Brain Monoamine Oxidase Activity and Concentration of Brain Serotonin and 5-Hydroxyindoleacetic Acid|Toxicol. Lett.2(2): 71-75|1978|10.1016/0378-4274(78)90076-0
7295|A||Woodward,D.F.|Assessing the Hazard of Picloram to Cutthroat Trout|J. Range Manag.32(3): 230-232|1979|10.2307/3897129
7296|A||Perona,E., E. Marco, and M.I. Orus|Alteration of Dinitrogen Fixation and Metabolism in Cyanobacterium Anabaena PCC 7119 by Phosphamidon|Environ. Exp. Bot.31(4): 479-488|1991|10.1016/0098-8472(91)90047-R
7297|A||Zakitis,L.H.|Extraction and Gas-Liquid Chromatographic Analysis of Chlorphoxim in Water and Fish|Bull. Environ. Contam. Toxicol.23(3): 391-397|1979|10.1007/BF01769977
7298|A||Zavanella,T., E. Arias, and N.P. Zaffaroni|Preliminary Study on the Carcinogenic Activity of the Fungicide Manganese Ethylenebisdithiocarbamate in the Adult Newt, Triturus cristatus carnifex|Tumori65(2): 163-167|1979|10.1177/030089167906500204
7299|A||Stallwitz,E., and D.P. Hader|Motility and Phototatic Orientation of the Flagellate Euglena gracilis Impaired by Heavy Metal Ions|J. Photochem. Photobiol. B Biol.18(1): 67-74|1993|10.1016/1011-1344(93)80041-7
7300|A||Martin,J.F., L.W. Bennett, and W. Anderson|Off-Flavor in Commerical Catfish Ponds Resulting from Molinate Contamination|Sci. Total Environ.119:281-287|1992|10.1016/0048-9697(92)90269-X
7301|A||Abrahams,D., and W.D. Brown|Evaluation of Fungicides for Haliphthoros milfordensis and Their Toxicity to Juvenile European Lobsters|Aquaculture12:31-40|1977|10.1016/0044-8486(77)90044-8
7302|A||Gulyas,P., and E. Fleit|Evaluation of Ammonia Toxicity on Daphnia magna and Some Fish Species|Aquac. Hung. (Szarvas)6:171-183|1990|
7303|A||Davies,P.H., and J.P.,Jr. Goettl|Evaluation of the Potential Impacts of Silver and/or Silver Iodide on Rainbow Trout in Laboratory and High Mountain Lake Environments|In: D.A.Klein (Ed.), Environmental Impacts of Artificial Ice Nucleating Agents, Dowden, Hutchinson and Ross Inc., Stroudsburg, PA:149-161|1978|
7304|A||Forbes,V.E.|Response of Hydrobia ventrosa (Montagu) to Environmental Stress:  Effects of Salinity Fluctuations and Cadmium Exposure on Growth|Funct. Ecol.5(5): 642-648|1991|10.2307/2389483
7305|A||Sarma,Y.S.R.K., and S. Jayaraman|Observations on Sulphur-Selenium Antagonism on the Growth of Two Desmids|Acta Bot. Indica12(1): 57-60|1984|
7306|A||Burden,V.M., M.B. Sandheinrich, and C.A. Caldwell|Effects of Lead on the Growth and delta-Aminolevulinic Acid Dehydratase Activity of Juvenile Rainbow Trout, Oncorhynchus mykiss|Environ. Pollut.101(2): 285-289|1998|10.1016/S0269-7491(98)00029-3
7307|A||Delcourt,A., and J.C. Mestre|The Effects of Phenylmercuric Acetate on the Growth of Chlamydomonas variabilis Dang|Bull. Environ. Contam. Toxicol.20(2): 145-148|1978|10.1007/BF01683499
7308|A||Person-Le Ruyet,J., R. Galland, A. LeRoux, and H. Chartois|Chronic Ammonia Toxicity in Juvenile Turbot (Scophthalmus maximus)|Aquaculture154(2): 155-171|1997|10.1016/S0044-8486(97)00052-5
7309|A||Dial,N.A.|Some Effects of Methylmercury on Development of the Eye in Medaka Fish|Growth42(3): 309-318|1978|
7310|A||Divavin,I.A., O.G. Mironov, and I.M. Tsymbal|Effect of high Concentrations of Petroleum and Phenol on the Metabolism of Nucleic Acids of Algae Macrophytes|Sov. J. Mar. Biol.4(1): 542-544|1978|
7311|A||Hewett,C.J., and D.F. Jefferies|The Accumulation of Radioactive Caesium from Water by the Brown Trout (Salmo trutta) and Its Comparison with Plaice and Rays|J. Fish Biol.9:479-489|1976|10.1111/j.1095-8649.1976.tb04697.x
7312|A||Surendranath,P., and K.V.R. Rao|Kelthane Residues in Tissues of the Tropical Penaeid Prawn, Metapenaeus monoceros (Fabricius), Under Sublethal Chronic Exposure - A Monitoring Study|J. Appl. Toxicol.11(3): 219-222|1991|10.1002/jat.2550110311
7313|A||Hofmann,A., and S. Winkler|Effects of Atrazine in Environmentally Relevant Concentrations on Submersed Macrophytes|Arch. Hydrobiol.118(1): 69-79|1990|10.1127/archiv-hydrobiol/118/1990/69
7314|A||Dortland,R.J.|Aliesterase- (ALI-E) Activity in Daphnia magna Straus as a Parameter for Exposure to Parathion|Hydrobiologia (Multiple Languages)59(2): 141-144|1978|10.1007/BF00020775
7315|A||Fagotti,A., I. Di Rosa, R. Simoncelli, R.K. Pipe, F. Panara, and R. Pascolini|The Effects of Copper on Actin and Fibronectin Organization in Mytilus galloprovincialis Haemocytes|Dev. Comp. Immunol.20(6): 383-391|1996|10.1016/S0145-305X(96)00021-3
7317|A||Duangsawasdi,M.|Organophosphate Insecticide Toxicity in Rainbow Trout (Salmo gairdneri). Effects of Temperature and Investigations on the Sites of Action|Ph.D Thesis, University of Manitoba, Canada:138 p.|1977|
7319|A||Gony,S.|Short Note on the Effects of Cadmium on the Gill of the Glass Eel (Anguilla anguilla)|Int. Rev. Gesamten Hydrobiol.75(6): 835-836|1990|10.1002/iroh.19900750625
7320|A||Miramand,P., P. Germain, and E. Boucaud-Camou|Histo-Autoradiographic Localization of Americium in the Tissues of the Scallop Pecten maximus Labelled from Sea Water: Preliminary Study on the|C. R. Acad. Sci. Ser. 3 Sci. Vie (Non-English)313(9): 395-400|1991|
7321|A||Thuvander,A., E. Wiss, and L. Norrgren|Sublethal Exposure of Rainbow Trout (Oncorhynchus mykiss) to Clophen A50: Effects on Cellular Immunity|Fish Shellfish Immunol.3(2): 107-117|1993|10.1006/fsim.1993.1012
7322|A||Sugiyama,M., H. Tanaka, and K. Fukusho|Toxicity of Total Ammonia and Nitrite Nitrogen to Young Yellowtail, Seriola quinqueradiata|Bull. Natl. Res. Inst. Aquacult. (Yoshoku Kenkyusho Kenkyu Hokoku)19:31-33|1991|
7323|A||Walker,J.R.L., and S. Evans|Effect of Quaternary Ammonium Compounds on Some Aquatic Plants|Mar. Pollut. Bull.9(5): 136-137|1978|10.1016/0025-326X(78)90589-1
7324|A||Bowmer,C.T., R.N. Hooftman, A.O. Hanstveit, P.W.M. Venderbosch, and N. Van der Hoeven|The Ecotoxicity and the Biodegradability of Lactic Acid, Alkyl Lactate Esters and Lactate Salts|Chemosphere37(7): 1317-1333|1998|10.1016/S0045-6535(98)00116-7
7325|A||Farlow,J.E., T.P. Breaud, C.D. Steelman, and P.E. Schilling|Effects of the Insect Growth Regulator Diflubenzuron on Non-Target Aquatic Populations in a Louisiana Intermediate Marsh|Environ. Entomol.7(2): 199-204|1978|10.1093/ee/7.2.199
7326|A||Fava,J.A.J., and C.F. Tsai|Delayed Behavioral Responses of the Blacknose Dace (Rhinichthys atratulus) to Chloramines and Free Chlorine|Comp. Biochem. Physiol. C Comp. Pharmacol.60(2): 123-128|1978|10.1016/0306-4492(78)90084-9
7327|A||Wang,W.X., S.B. Griscom, and N.S. Fisher|Bioavailability of Cr(III) and Cr(VI) to Marine Mussels from Solute and Particulate Pathways|Environ. Sci. Technol.31(2): 603-611|1997|10.1021/es960574x
7328|A||Folmar,L.C.|Avoidance Chamber Responses of Mayfly Nymphs Exposed to Eight Herbicides|Bull. Environ. Contam. Toxicol.19(3): 312-318|1978|10.1007/BF01685804
7329|A||Fowler,S.W., J. Heyraud, and J. La Rosa|Factors Affecting Methyl and Inorganic Mercury Dynamics in Mussels and Shrimp|Mar. Biol.46(3):267-276|1978|10.1007/BF00390688
7330|A||Fox,F.R., and K.R. Rao|Effects of Sodium Pentachlorophenate and 2,4-Dinitrophenol on Hepatopancreatic Enzymes in the Blue Crab, Callinectes sapidus|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:265-275|1978|
7331|A||Cai,A., W. Li, and G. Wu|Study on the Effects of Copper Toxicity to Chaetoceros socialis|J. Xiamen Univ. (Non-English)30(2): 223-228|1991|
7332|A||Wang,W.X., and N.S. Fisher|Assimilation of Trace Elements by the Mussel Mytilus edulis: Effects of Diatom Chemical Composition|Mar. Biol.125:715-724|1996|10.1007/BF00349254
7333|A||Delorme,P.D., F.J. Ward, W.L. Lockhart, and D.C.G. Muir|Reproductive Success of Lake Trout and White Suckers Given Single Injections of Toxaphene, Chlordane or 2,3,4,7,8-Pentachlorodibenzofuran|Proc. Conf. Gt. Lakes Res.35:180-|1992|
7334|A||Shah,S.L., M.A. Hafeez, and S.A. Shaikh|Changes in Haematological Parameters and Plasma Glucose in the Fish, Cyprinion watsoni, in Response to Zinc and Copper Treatment|Pak. J. Zool.27(3): 249-253|1995|
7335|A||Geike,F.|Effect of Hexachlorobenzene (HCB) on the Activity of Some Enzymes from Tetrahymena pyriformis|Bull. Environ. Contam. Toxicol.20(5): 640-646|1978|10.1007/BF01683577
7336|A||Gingerich,W.H., and G.M. Dalich|An Evaluation of Liver Toxicity in Rainbow Trout Following Treatment with Monochlorobenzene|Proc. West. Pharmacol. Soc.21:475-480|1978|
7337|A||Gingerich,W.H., L.J. Weber, and R.E. Larson|Carbon Tetrachloride-Induced Retention of Sulfobromophthalein in the Plasma of Rainbow Trout|Toxicol. Appl. Pharmacol.43(1): 147-158|1978|10.1016/S0041-008X(78)80039-8
7338|A||Gingerich,W.H., L.J. Weber, and R.E. Larson|The Effect of Carbon Tetrachloride on Hepatic Accumulation, Metabolism, and Biliary Excretion of Sulfobromophthalein in Rainbow Trout|Toxicol. Appl. Pharmacol.43(1): 159-167|1978|10.1016/S0041-008X(78)80040-4
7339|A||Glandon,R.P., and C.D. McNabb|The Uptake of Boron by Lemna minor|Aquat. Bot.4(1): 53-64|1978|10.1016/0304-3770(78)90006-2
7340|A||Boychuk,R.J., and W.L. Lockhart|Hepatic Mixed-Function Oxidase Enzymes in White Suckers (Catostomus commersoni) over a Seasonal Cycle, and Following Injection with PCB Congener 77|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):76-|1992|
7341|A||Goettl,J.P.J., and P.H. Davies|Water Pollution Studies|Job Progress Report, Federal Aid Project F-33-R-13, DNR, Boulder, CO:46-|1978|
7342|A||Venugopalan,V.K., and P.S. Rao|Pesticide Induced Impairment in Incubation and Post Embryonic Development of Planktonic Eggs of Estuarine Fish of Porto Novo (South India) Waters|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proc.Symp.Environ.Biol., Muzaffarnager, India:397-408|1979|
7343|A||Porte,C., and E. Escartin|Cytochrome P450 System in the Hepatopancreas of the Red Swamp Crayfish Procambarus clarkii: A Field Study|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 333-338|1998|
7344|A||Greizerstein,H.B.|Tolerance to Ethanol: Effect of Congeners Present in Bourbon|Psychopharmacology53(2): 201-203|1977|10.1007/BF00426493
7345|A||Le Du,A.|Modulation of Copper Toxicity by the Chemical Parameters of River Water|Fresenius Environ. Bull.2(11): 629-634|1993|
7346|A||Beaumont,G., R. Bastin, and H.P. Therrien|Physiological Effects of Sublethal Doses of Atrazine on Lemna minor.  II.  Influence on Photosynthesis and Respiration (Effets Physiologiques de l'Atrazine A Doses Sublethales sur Lemna minor L.  II.  Influence sur la P|Nat. Can.103(6): 535-541|1976|
7347|A||Granett,J., S. Morang, and R. Hatch|Reduced Movement of Precocious Male Atlantic Salmon Parr into Sublethal Dimilin-G1 and Carrier Concentrations|Bull. Environ. Contam. Toxicol.19(4): 462-464|1978|10.1007/BF01685826
7348|A||Cope,O.B., J.P. McCraren, and L. Eller|Effects of Dichlobenil on Two Fishpond Environments|Weed Sci.17(2): 158-165|1969|10.1017/S0043174500031222
7349|A||Greeff,C.G., and L.P. Van Dyk|Preliminary Investigation of the Effect of Fenthion Pollution on Aquatic Invertebrates|Chemosphere7(5): 393-402|1978|10.1016/0045-6535(78)90150-9
7350|A||Kowalczyk-Schroder,S., and G. Sandmann|Interference of Fluridone with the Desaturation of Phytoene by Membranes of the Cyanobacterium Aphanocapsa|Pestic. Biochem. Physiol.42(1): 7-12|1992|10.1016/0048-3575(92)90068-B
7351|A||Kramer,V.J., M.C. Newman, and G.R. Ultsch|Changes in Concentrations of Glycolysis and Krebs Cycle Metabolites in Mosquitofish, Gambusia holbrooki, Induced by Mercuric Chloride and Starvation|Environ. Biol. Fishes34(3): 315-320|1992|10.1007/BF00004779
7352|A||Greizerstein,H.B.|Tolerance to Pentobarbital in Goldfish|Int. Congr. Pharmacol. 16-21:|1978|
7353|A||Nilsen,H., A. Lillehaug, T. Taksdal, and R. Nordmo|Toxicity of Intraperitoneally Injected Formalin in Atlantic Salmon, Salmo salar L|J. Fish Dis.15(14): 323-329|1992|10.1111/j.1365-2761.1992.tb00670.x
7354|A||Werner,R.A., and J.W. Hilgert|Effects of Permethrin on Aquatic Organisms in a Freshwater Stream in South-Central Alaska|J. Econ. Entomol.85(3): 860-864|1992|10.1093/jee/85.3.860
7355|A||Haines,K.C., and P.A. Wheeler|Ammonium and Nitrate Uptake by the Marine Macrophytes Hypnea musciformis (Rhodophyta) and Macrocystis pyrifera (Phaeophyte)|J. Phycol.14(3): 319-324|1978|10.1111/j.1529-8817.1978.tb00305.x
7356|A||Hall,L.W.,Jr., D.T. Burton, and S.L. Margrey|Chlorine, Temperature, and Exposure Duration Effects of Power Plant Effluents on Juvenile Blue Crab Callinectes sapidus and Grass Shrimp Palaemonetes|J. Toxicol. Environ. Health5(4): 749-757|1979|10.1080/15287397909529784
7357|A||Day,K.E., and R.J. Maguire|Acute Toxicity of Isomers of the Pyrethroid Insecticide Deltamethrin and its Major Degradation Products to Daphnia magna|Environ. Toxicol. Chem.9(10): 1297-1300|1990|10.1002/etc.5620091009
7358|A||Civil and Environmental Engineering Development Office|Proceedings of the Conference on Environmental Chemistry of Hydrazine Fuels |CEEDO-TR-78-14, Proc. Conf. Environ. Chem. Hydrazine Fuels, Sept.13, 1977, Tyndall AFB, FL:176 p.|1978|
7359|A||Hart,B.A.|The Role of Phytoplankton in Cycling Cadmium in the Environment|Project No.A-023-VT, Vermont Water Resour.Res.Center and Office Water Res.and Technol., USDI, Washington, DC:62 p.|1977|
7360|A||Hashimoto,K., Y. Sasaki, Y. Ohara, and T. Matsuzawa|Absorption, Distribution and Excretion of 2-Mercaptobenzothiazole in Carp|Nippon Suisan Gakkaishi (Multiple Languages)44(6): 623-629|1978|10.2331/suisan.44.623
7361|A||Heath,A.G.|Influence of Chlorine Form and Ambient Temperature on the Toxicity of Intermittent Chlorination to Freshwater Fish|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:123-133|1978|
7362|A||Helfrich,L.A.|Effects of Rotenone on Macrobenthic Invertebrates of a Pennsylvania Stream|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies32:401-408|1978|
7363|A||Helson,B.V., and A.S. West|Particulate Formulations of Abate and Methoxychlor As Black Fly Larvicides: Their Selective Effects on Stream Fauna|Can. Entomol.110(6): 591-602|1978|10.4039/Ent110591-6
7364|A|OECDG|Bringmann,G., and R. Kuhn|Effect of Herbicidal Phenylurea Derivatives on Blue Algae (Model Organisms:Microcystic aeruginosa and Nostoc sp.)|GWF Wasser Abwasser116(8): 366-369|1975|
7365|A||Herbst,E., I. Scheunert, W. Klein, and F. Korte|Uptake and Conversion of 2,5,4'-Trichlorobiphenyl-14C, 2,4,6,2',4'-Pentachlorobiphenyl-14C and Chloroalkylene-9-14C by Goldfish After a Single Water Treatment|Chemosphere7(3): 221-230|1978|10.1016/0045-6535(78)90074-7
7366|A||Hildebrand,S.G., and R.M. Cushman|Toxicity of Gallium and Beryllium to Developing Carp Eggs (Cyprinus carpio) Utilizing Copper as a Reference|Toxicol. Lett.2(2): 91-95|1978|10.1016/0378-4274(78)90079-6
7367|A||Yarzhombek,A.A., A.E. Mikulin, and A.N. Zhdanova|Toxicity of Substances in Relation to Form of Exposure|J. Ichthyol.31(7): 99-106|1991|
7368|A||Chen,J.C., and C.Y. Lin|Lethal Effects of Ammonia on Penaeus chinensis Osbeck Juveniles at Different Salinity Levels|J. Exp. Mar. Biol. Ecol.156(1): 139-148|1992|10.1016/0022-0981(92)90021-2
7369|A||Grady,A.W., D.L. Fabacher, G. Frame, and B.L. Steadman|Morphological Deformities in Brown Bullheads Administered Dietary B-Naphthoflavone|J. Aquat. Anim. Health4(1): 7-16|1992|10.1577/1548-8667(1992)004<0007:MDIBBA>2.3.CO;2
7370|A||Huckabee,J.W., S.A. Janzen, B.G. Blaylock, Y. Talmi, and J.J. Beauchamp|Methylated Mercury in Brook Trout (Salvelinus fontinalis): Absence of an In Vivo Methylating Process|Trans. Am. Fish. Soc.107(6): 848-852|1978|10.1577/1548-8659(1978)107<848:MMIBTS>2.0.CO;2
7371|A||Weirich,C.R., J.R. Tomasso, and T.I.J. Smith|Toxicity of Ammonia and Nitrite to Sunshine Bass in Selected Environments|J. Aquat. Anim. Health5(1): 64-72|1993|10.1577/1548-8667(1993)005<0064:TOAANT>2.3.CO;2
7374|A||Watling,H.R.|Accumulation of Seven Metals by Crassostrea gigas, Crassostrea margaritacea, Perna perna, and Choromytilus meridionalis|Bull. Environ. Contam. Toxicol.30(3): 317-322|1983|10.1007/BF01610139
7375|A||Verma,S.R., S.K. Bansal, A.K. Gupta, N. Pal, A.K. Tyagi, M.C. Bhatnagar, K. Kumar, and R.C. Dalela|Acute Toxicity of Twenty Three Pesticides to a Fresh Water Teleost, Saccobranchus fossilis|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:481-497|1979|
7376|A||Behrens,D.W., and B.C. Larsson|Effects of Intermittent Chlorination on Selected Invertebrate Species Indigenous to Diablo Cove - A Laboratory Study|Report 7846.7-76, Pacific Gas and Electric Company, San Ramon, CA:56-|1976|
7377|A||Bender,M.E., M.H. Roberts, R. Diaz, and R.J. Huggett|Effects of Residual Chlorine on Estuarine Organisms|In: L.D.Jensen (Ed.), Biofouling and Control Procedures: Technology and Ecological Effects, M.Dekker, New York, NY:101-108|1977|
7378|A||Bodensteiner,L.R., R.J. Sheehan, W.M. Lewis, P.S. Wills, and R.L. Herman|Effects of Repetitive Formalin Treatments on Channel Catfish Juveniles|J. Aquat. Anim. Health5(1): 59-63|1993|10.1577/1548-8667(1993)005<0059:EORFTO>2.3.CO;2
7379|A||Bonn,E.W., and B.J. Follis|Effects of Hydrogen Sulfide on Channel Catfish, Ictalurus punctatus|Trans. Am. Fish. Soc.96:31-36|1967|10.1577/1548-8659(1967)96[31:EOHSOC]2.0.CO;2
7380|A||Schnitz,A.R., and J.M. O'Connor|In Vivo DNA/RNA Adduction of 7,12-Dimethylbenz(a)anthracene (DMBA) and Benzo(a)Pyrene (BaP) in the Liver of Rainbow Trout (Oncorhynchus mykiss)|J. Environ. Pathol. Toxicol. Oncol.11(4): 229-233|1992|
7381|A||Brooks,A.S., and G.L. Seegert|The Effects of Intermittent Chlorination on the Biota of Lake Michigan|Special Report No.31, Center for Great Lakes Studies, University of Wisconsin-Milwaukee, WI:167 p.|1977|
7383|A||Rao,K.V.R., and P. Surendranath|Effect of Kelthane on pH Dependency of Lipases in Tissues of the Penaeid Prawn, Metapenaeus monoceros (Fabricius) Under Sublethal Exposure|Pestic. Biochem. Physiol.39(3): 205-209|1991|10.1016/0048-3575(91)90115-3
7384|A||Zettergren,L.D., B.W. Boldt, D.H. Petering, M.S. Goodrich, D.N. Weber, and J.G. Zettergren|Effects of Prolonged Low-Level Cadmium Exposure on the Tadpole Immune System|Toxicol. Lett.55(1): 11-19|1991|10.1016/0378-4274(91)90022-X
7385|A||James,R., K. Sampath, V. Jancy Pattu, and G. Devakiamma|Utilization of Eichhornia crassipes for the Reduction of Mercury Toxicity on Food Transformation in Heteropneustes fossilis|J. Aquacult. Trop.7:189-196|1992|
7386|A||Cairns,J.,Jr., N.R. Foster, and J.J. Loos|Effects of Sublethal Concentrations of Dieldrin on Laboratory Populations of Guppies, Poecilia reticulata Peters|Proc. Acad. Nat. Sci. Philadelphia119:75-91|1967|
7387|A||Cope,O.B.|Effects of DDT Spraying for Spruce Budworm on Fish in the Yellowstone River System|Trans. Am. Fish. Soc.90(3): 239-251|1961|10.1577/1548-8659(1961)90[239:EODSFS]2.0.CO;2
7388|A||Haasch,M.L., E.M. Quardokus, L.A. Sutherland, M.S. Goodrich, and J.J. Lech|Hepatic CYP1A1 Induction in Rainbow Trout by Continuous Flowthrough Exposure to B-Naphthoflavone|Fundam. Appl. Toxicol.20(1): 72-82|1993|10.1006/faat.1993.1009
7389|A||Dent,R.J.J.|Effects upon Fishes of a Periodic Flushing of Electrical Power Plants Boiler Tubes with Chlorine|M.A.Thesis, Southern Illinois University, Carbondale, IL:41 p.|1974|
7390|A||Dickson,K.L., J.,Jr. Cairns, B.C. Gregg, D.I. Messenger, J.L. Plafkin, and W.H. Van der Schalie|Effects of Intermittent Chlorination on Aquatic Organisms and Communities|J. Water Pollut. Control Fed.49(1): 35-44|1977|
7391|A||Dressel,D.M.|The Effects of Thermal Shock and Chlorine on the Estuarine Copepod Acartia tonsa|M.S.Thesis, University of Virginia, Charlottesville, VA:58 p.|1971|
7392|A||Eren,Y., and Y. Langer|The Effect of Chlorination on Tilapia Fish|Bamidgeh25:56-60|1973|
7393|A||Ozoh,P.T.E.|The Effect of Temperature and Salinity on Copper Body-Burden and Copper Toxicity to Hediste (Nereis) diversicolor|Environ. Monit. Assess.21(1): 11-17|1992|10.1007/BF00400053
7394|A||Fobes,R.L.|Chlorine Toxicity and Its Effect on Gill Tissue Respiration of the White Sucker Catostomus commersoni (Lacepede)|M.S. Thesis, Michigan State University, East Lansing, MI:63 p.|1971|
7395|A||Gakstatter,J.H., and C.M. Weiss|The Elimination of DDT-C14, Dieldrin-C14, and Lindane-C14 from Fish Following a Single Sublethal Exposure in Aquaria|Trans. Am. Fish. Soc.96:301-307|1967|10.1577/1548-8659(1967)96[301:TEODDA]2.0.CO;2
7396|A||Gibson,C.I., T.O. Thatcher, and C.W. Apts|Some Effects of Temperature, Chlorine, and Copper on the Survival and Growth of the Coon Stripe Shrimp|In: G.W.Esch and R.W.McFarlane (Eds.), Rep.No.CONF-750425, Thermal Ecology II, Proc.1975 Symp., Augusta, GA:88-92|1976|
7397|A||Ozoh,P.T.E.|The Effects of Salinity, Temperature and Sediment on the Toxicity of Copper to Juvenile Hediste (Nereis) diversicolor (O.F.Muller)|Environ. Monit. Assess.21(1): 1-10|1992|10.1007/BF00400052
7398|A||Bailey,H.C., D.H.W. Liu, and H.A. Javitz|Time/Toxicity Relationships in Short-Term Static, Dynamic, and Plug-Flow Bioassays|ASTM Spec. Tech. Publ.:193-212|1985|
7399|A||Venugopal,N.B.R.K., and S.L.N. Reddy|Effect of Trivalent and Hexavalent Chromium on Renal and Hepatic Tissue Glycogen Metabolism of a Fresh Water Teleost Anabas scandens|Environ. Monit. Assess.21(2): 133-140|1992|10.1007/BF00403554
7400|A||Kawatski,J.A.|Toxicity and Metabolism of Two Chlorinated Hydrocarbon Insecticides (Aldrin and Dieldrin) in the Freshwater Ostracod Chlamydotheca arcuata (Sars.)|Ph.D.Thesis, University of South Dakota, Vermillion, SD:209 p.|1969|
7401|A||Camargo,J.A., D. Garcia de Jalon, M.J. Munoz, and J.V. Tarazona|Sublethal Effects of Sodium Fluoride (NaF) on Net-Spinning Caddisflies (Trichoptera)|Aquat. Insects14(1): 23-30|1992|10.1080/01650429209361457
7402|A||Latimer,D.L., A.S. Brooks, and A.M. Beeton|Toxicity of 30-Minute Exposures of Residual Chlorine to the Copepods Limnocalanus macrurus and Cyclops Bicuspidatus thomasi|J. Fish. Res. Board Can.32:2495-2501|1975|10.1139/f75-287
7403|A||Sabourin,T.D., and R.E. Tullis|Effect of Three Aromatic Hydrocarbons on Respiration and Heart Rates of the Mussel, Mytilus californianus|Bull. Environ. Contam. Toxicol.26(6): 729-736|1981|10.1007/BF01622163
7404|A||Merkens,J.C.|Studies on the Toxicity of Chlorine and Chloramines to the Rainbow Trout|Water Waste Treat. J.7:150-151|1958|
7405|A||Henderson,V., J.W. Fisher, and R. D'Allessandris|Toxic and Teratogenic Effects of Hydrazine on Fathead Minnow (Pimephales promelas) Embryos|Bull. Environ. Contam. Toxicol.26(6): 807-812|1981|10.1007/BF01622175
7407|A||Roesijadi,G., and G.W. Fellingham|Influence of Cu, Cd, and Zn Preexposure on Hg Toxicity in the Mussel Mytilus edulis|Can. J. Fish. Aquat. Sci.44:680-684|1987|10.1139/f87-082
7408|A||Salte,R., C. Syvertsen, M. Kjonnoy, and F. Fonnum|Fatal Acetylcholinesterase Inhibition in Salmonids Subjected to a Routine Organophosphate Treatment|Aquaculture6(3/4): 173-179|1987|10.1016/0044-8486(87)90146-3
7409|A||Stober,Q.J., and C.H. Hanson|Toxicity of Chlorine and Heat to Pink (Oncorhynchus gorbuscha) and Chinook Salmon (O. tshawytscha)|Trans. Am. Fish. Soc.103:569-576|1974|10.1577/1548-8659(1974)103<569:TOCAHT>2.0.CO;2
7410|A||Tagatz,M.E., and R.S. Stanley|Sensitivity Comparisons of Estuarine Benthic Animals Exposed to Toxicants in Single Species Acute Tests and Community Tests|EPA 600/X-87/167, U.S.EPA, Gulf Breeze, FL:16 p.|1987|
7411|A||Thatcher,T.O.|An Effect of Chlorination on the Hatching of Coon Stripe Shrimp Eggs: So What?|Proc. Natl. Shellfish. Assoc.67:71-74|1977|
7412|A||Marking,L.L., and J.H.,Jr. Chandler|Toxicity of Six Bird Control Chemicals to Aquatic Organisms|Bull. Environ. Contam. Toxicol.26(6): 705-716|1981|10.1007/BF01622160
7413|A||Theede,H., A. Ponat, K. Hiroki, and C. Schlieper|Studies on the Resistance of Marine Bottom Invertebrates to Oxygen-Deficiency and Hydrogen Sulphide|Mar. Biol.2:325-337|1969|10.1007/BF00355712
7414|A|RUSSN|Vrochinskii,K.K., and N.E. Kononova|The Influence of Pesticides on Life in Water Reservoirs|Vopr. Vod. Toksikol. Nauka, Moscow:88-96|1970|
7415|A||Wingfield,G.I., and J.M. Johnson|Deoxygenation of Water Following Use of the Herbicide Terbutryn Simulated in a Batch Culture System|Bull. Environ. Contam. Toxicol.26(1): 65-72|1981|10.1007/BF01622056
7416|AT||Washino,R.K., W. Ahmed, J.D. Linn, and K.G. Whitesell|Rice Field Mosquito Control Studies with Low Volume Dursban Sprays in Colusa County, California.  IV.  Effects upon Aquatic Nontarget Organisms|Mosq. News32(4): 531-537|1972|
7417|A||James,M.O., J.D. Schell, M.G. Barron, and C.L.J. Li|Rapid, Dose-Dependent Elimination of Phenol Across the Gills, and Slow Elimination of Phenyl Sulfate in the Urine of Phenol-Dosed Lobsters, Homarus|Drug Metab. Dispos.19(2): 536-542|1991|
7418|A||Zambriborshch,F.S., and B. Lay|The Effect of Hexachlorane (Hexachlorocyclohexane [HCCH]) and Chlorophos on Underyearlings of the Leaping Gray Mullet Mugil saliens|J. Ichthyol.16(5): 841-847|1976|
7419|A||Zeitoun,I.H., L.D. Hughes, and D.E. Ullrey|Effect of Shock Exposures of Chlorine on the Plasma Electrolyte Concentrations of Adult Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.34:1034-1039|1977|10.1139/f77-158
7420|A||Zeitoun,I.H.|The Effect of Chlorine Toxicity on Certain Blood Parameters of Adult Rainbow Trout (Salmo gairdneri)|Environ. Biol. Fishes1(2): 189-195|1977|10.1007/BF00000410
7421|A||Scholz,N.|Barentsia matsushimana, a Marine Entoproct Suitable for Bioassays|Bull. Environ. Contam. Toxicol.38(4): 634-640|1987|10.1007/BF01608596
7422|A||Barron,M.G., S.C. Hansen, and T. Ball|Pharmacokinetics and Metabolism of Triclopyr in the Crayfish (Procambarus clarki)|Drug Metab. Dispos.19(1): 163-167|1991|
7423|A||Wisk,J.D., and K.R. Cooper|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Benzo(a)pyrene Hydroxylase Activity in Embryos of the Japanese Medaka (Oryzias latipes)|Arch. Toxicol.66:245-249|1992|10.1007/BF02307169
7425|A||Yuan,Y.X., C.N. Gao, and D.X. Zhang|Egg Hatching and Metamorphosis to Protozoea of Penaeus chinensis (Osbeck) by Removal of Heavy Metals from Rearing Systems with Polymeric Absorbent|Aquaculture107:303-311|1992|10.1016/0044-8486(92)90079-Z
7426|A||Butler,G.L.|Effects of Five Pesticides on Twenty-One Freshwater Algae|Ph.D.Thesis, The University of Alabama, Birmingham, AL:57 p. |1974|
7427|A||Alzieu,C.|Toxicity and Persistence in the Marine Environment of an Insecticide Derived from Benzoylurea: Diflubenzuron|Rev. Trav. Inst. Peches Marit. (Non-English):317-324|1977|
7428|A||Veldhuizen-Tsoerkan,M.B., C.A. Van der Mast, and D.A. Holwerda|Short-Term Exposure to Cadmium Modifies Phosphorylation of Gill Proteins in the Sea Mussel|Comp. Biochem. Physiol. B Comp. Biochem.100(3): 475-480|1991|10.1016/0305-0491(91)90207-T
7429|A||Butler,G.L., T.R. Deason, and J.C. O'Kelley|The Effect of Atrazine, 2,4-D, Methoxychlor, Carbaryl and Diazinon on the Growth of Planktonic Algae|Br. Phycol. J.10(4): 371-376|1975|10.1080/00071617500650391
7431|A||Aoki,K., and H. Matsudaira|Induction of Hepatic Tumors in a Teleost (Oryzias latipes) After Treatment with Methylazoxymethanol Acetate: Brief Communication|J. Natl. Cancer Inst.59(6):1747-1749|1977|10.1093/jnci/59.6.1747
7432|A||Zhang,Q., K. Suorsa-Super, and L.R. Curtis|Temperature-Modulated Aflatoxin B1 Hepatic Disposition and Formation and Persistence of DNA Adducts in Rainbow Trout|Toxicol. Appl. Pharmacol.113:253-259|1992|10.1016/0041-008X(92)90122-9
7433|A||Winters,K., J.C. Batterton, and C. Van Baalen|Phenalene-1-One: Occurrence in a Fuel Oil and Toxicity to Microalgae|Environ. Sci. Technol.11(3): 270-272|1977|10.1021/es60126a003
7436|A||Bahner,L.H., A.J.,Jr. Wilson, J.M. Sheppard, J.M.,Jr. Patrick, L.R. Goodman, and G.E. Walsh|Kepone Bioconcentration, Accumulation, Loss, and Transfer Through Estuarine Food Chains|Chesapeake Sci.18(3): 299-308|1977|10.2307/1350804
7437|A||Bartoo,N.W.|Proportions of a Yellow Perch Population Surfacing After a Rotenone Treatment|Prog. Fish-Cult.39(1): 27-28|1977|10.1577/1548-8659(1977)39[27:POAYPP]2.0.CO;2
7438|A||Bauermeister,A., C.J. Thompson, and I.A. Nimmo|The Susceptibility of Rainbow Trout to Fluoroacetate|Biochem. Soc. Trans.5(1): 304-305|1977|10.1042/bst0050304
7439|A||Bazzoli,A.S., J. Manson, W.J. Scott, and J.G. Wilson|The Effects of Thalidomide and Two Analogues on The Regenerating Forelimb of the Newt|J. Embryol. Exp. Morphol.41:125-135|1977|
7440|A||Tjeerdema,R.S., and D.G. Crosby|Disposition and Biotransformation of Pentachlorophenol in the Red Abalone (Haliotis rufescens)|Xenobiotica22(6): 681-690|1992|10.3109/00498259209053130
7441|A||Takamura,N., F. Kasai, and M.M. Watanabe|Unique Response of Cyanophyceae to Copper|J. Appl. Phycol.2:293-296|1990|10.1007/BF02180917
7442|A||Garcia,E.M.|The Ability of the Unicellular Giant Alga Acetabularia sp. to Bioconcentrate Aquatic Mercury in Whole and Anucleated Cells|Toxicol. Environ. Chem.39(1/2): 29-35|1993|10.1080/02772249109357898
7443|A||Bills,T.D., L.L. Marking, and J.H.,Jr. Chandler|Formalin: Its Toxicity to Nontarget Aquatic Organisms, Persistence, and Counteraction|Invest. Fish Control73:1-7|1977|
7445|A||Afifi,S.H., and J.R. MacMillan|Ultrastructural Changes Associated with Carbon Tetrachloride Hepatotoxicity in Channel Catfish, Ictalurus punctatus Rafinesque|J. Fish Dis.15:119-129|1992|10.1111/j.1365-2761.1992.tb00646.x
7446|A||Sharma,S.D.|Haematochemical Adversities in Clarias batrachus Induced by Lithium|Indian J. Environ. Health31(4): 354-357|1989|
7447|A||Bookhout,C.G., and R.J. Monroe|Effects of Malathion on the Development of Crabs|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses of Mar.Biota to Pollutants, Nov.1975, Academic Press, NY:3-19|1977|
7450|A||Caldwell,R.S.|Hydrogen Sulfide Effects on Selected Larval and Adult Marine Invertebrates|Project No.A-020-ORE, Water Resourc.Res.Inst., Oregon State University, Corvallis, OR, Office Water Resour.Technol.U.S.D.I., Wash., DC:22 p.|1975|
7451|A||Bresch,H., and U. Arendt|Influence of Different Organochlorine Pesticides on the Development of the Sea Urchin Embryo|Environ. Res.13(1): 121-128|1977|10.1016/0013-9351(77)90010-X
7452|A||Bresch,H., and H. Ockenfels|The Influence of Tween Surfactants on the Development of the Sea Urchin Embryo|Naturwissenschaften64(11): 593-594|1977|10.1007/BF00450654
7453|A|OECDG|Bringmann,G., and R. Kuhn|Toxicity Threshold for Water Pollutants in the Cell Multiplication Test with Respect to Bacteria (Pseudomonas putida) and Green Algae (Scenedesmus quadricauda)|TR-80-0400, Literature Research Co., Annandale, VA:32 p.|1977|
7454|A||Caldwell,R.S.|Osmotic and Ionic Regulation in Decapod Crustacea Exposed to Methoxychlor|In: J.F.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Academic Press, New York, NY:197-223|1974|
7455|A||Brkovic-Popovic,I., and M. Popovic|Study of the Toxicity of Mercury, Copper, Zinc and Trinitroresorcinol on Lebistes reticulateus, Method of Survival (Ispitivanje Toksicnosti Zive, Bakra, Cinka i Trinitrorezorcina na Lebistes reticulatus.  Bioogled Kratk|Arh. Hig. Rada Toksikol.28(1): 3-16|1977|
7456|A||Brooks,J.M., G.A. Fryxell, D.F. Reid, and W.M. Sackett|Gulf Underwater Flare Experiment (GUFEX):  Effects of Hydrocarbons on Phytoplankton|In: C.S.Giam (Ed.), Proc.Pollution Effects Marine Organisms, D.C.Heath Co., Lexington, MA:45-75|1977|
7457|A||Meliyan,R.I.|Effect of Pesticides on Reproductive Function of the Freshwater Amphipod Gammarus kischineffensis|Hydrobiol. J.27(3): 33-36|1991|
7459|A||Dhaliwal,A.S., A. Campione, and S. Smaga|Effect of Linear Alkylbenzene Sulfonate (11.2 LAS) on the Morphology and Physiology of Plectonema boryanum and Chlamydomonas reinhardi|J. Phycol.13(suppl.): 18-|1977|
7460|A||Canton,J.H., G.J. Van Esch, P.A. Greve, and A.B.A.M. Van Hellemond|Accumulation and Elimination of alpha-Hexachlorocyclohexane (alpha-HCH) by the Marine Algae Chlamydomonas and Dunaliella|Water Res.11(1): 111-115|1977|10.1016/0043-1354(77)90191-9
7461|A||Bills,T.D., J.J. Rach, L.L. Marking, and G.E. Howe|Effects of the Lampricide 3-Trifluoromethyl-4-Nitrophenol on the Pink Heelsplitter|U.S.Fish Wildl.Serv.Resour.Publ.No.183, Natl.Fish.Res.Ctr., LaCrosse, WI:7 p.|1992|
7462|A||Rahman,A., and A.R. Khuda-Bukhsh|Genotoxic Potential of Some Industrial Effluents and Chemical Pollutants in Fish by a Rapid-Screening Method|J. Freshw. Biol.4(1): 39-44|1992|
7463|A||Zitko,V., W.V. Carson, and W.G. Carson|Thallium: Occurrence in the Environment and Toxicity to Fish|Bull. Environ. Contam. Toxicol.13(1): 23-30|1975|10.1007/BF01684859
7464|A||Castenholz,R.W.|The Effect of Sulfide on the Blue-Green Algae of Hot Springs. II. Yellowstone National Park|Microb. Ecol.3(7): 79-105|1977|10.1007/BF02010399
7465|A||Chambers,H., L.J. Dziuk, and J. Watkins|Hydrolytic Activation and Detoxication of 2,4-Dichlorophenoxyacetic Acid Esters in Mosquito Fish|Pestic. Biochem. Physiol.7(3): 297-300|1977|10.1016/0048-3575(77)90021-9
7466|A||Chan,K.K.S.|Chronic Effects of Methylmercury on the Reproduction of the Teleost Fish, Oryzias latipes|Ph.D.Thesis, University of British Columbia, Vancouver, Canada:135 p.|1977|
7467|A||Silverberg,B.A., P.T.S. Wong, and Y.K. Chau|Effect of Tetramethyl Lead on Freshwater Green Algae|Arch. Environ. Contam. Toxicol.5(3): 305-313|1977|10.1007/BF02220912
7470|A||Cooke,A.S.|Effects of Field Applications of the Herbicides Diquat and Dichlobenil on Amphibians|Environ. Pollut.12(1): 43-50|1977|
7471|A||Harris,R.P., V. Berdugo, S.C.M. O'Hara, and E.D.S. Corner|Accumulation of 14C-1-Naphthalene by an Oceanic and an Estuarine Copepod During Long-Term Exposure to Low-Level Concentrations|Mar. Biol.42(3): 187-195|1977|10.1007/BF00397743
7472|A||Couch,J.A., J.T. Winstead, and L.R. Goodman|Kepone-Induced Scoliosis and Its Histological Consequences in Fish|EPA-600/J-77-077, U.S.EPA, Gulf Breeze, FL:4 p.|1977|
7473|A||Craig,P.C., F.C. Withler, and R.B. Morley|Effects of Methanol on the Fertilisation of Chum Salmon (Oncorhynchus keta) Ova|Environ. Pollut.14(2): 85-92|1977|
7475|A||Radhakrishnaiah,K., B. Sivaramakrishna, and P. Sonabai|A Physiological Approach to Study the Toxicity of Mercury in the Freshwater Mussel, Lamellidens marginalis (Lamarck)|Z. Angew. Zool. (Multiple Languages)73(3): 289-294|1991|
7476|A||Surendranath,P., K. Ramanaiah, and K.V.R. Rao|Effect of Eyestalk Extract and Kelthane on Penaeid Prawn Metapenaeus monoceros (Fabricius)|Indian J. Exp. Biol.30(8): 676-679|1992|
7477|A||Ballal,C.D.|Toxic Effects of Pesticides on the Cultivable Carps|Mysore J. Agric. Sci.23(2): 438-439|1989|
7478|A||Guthrie,J.E., and A.M. Wiewel|Chronic Toxicity of the Organic Reactor Coolant OS-84 to an Aquatic Organism|Atomic Energy of Canada, Ltd., Whiteshell Nuclear Res. Establishment, Pinawa, Manitoba:20 p.|1977|
7479|A||Hagstrom,B.E., and S. Lonning|The Effects of Esso Corexit 9527 on the Fertilizing Capacity of Spermatozoa|Mar. Pollut. Bull.8(5): 136-138|1977|10.1016/0025-326X(77)90153-9
7480|A||Haines,K.C., and P.A. Wheeler|Ammonia and Nitrate Uptake Rates of the Seaweeds Hypnea musciformis (Rhodophyta) and Macrocystis pyrifera (Phaeophyta)|J. Phycol.13(S): 26-|1977|
7481|A||Hamburger,B., H. Haberling, and H.R. Hitz|Comparative Tests on Toxicity to Fish Using Minnows, Trout, Golden Orfe|Arch. Fischereiwiss.28(1): 45-55|1977|
7482|A||Steinman,A.D., P.J. Mulholland, A.V. Palumbo, and D.L. DeAngelis|Lotic Ecosystem Response to a Chlorine Disturbance|Ecol. Appl.2(4): 341-355|1992|10.2307/1941869
7483|A||Harman,W.N.|The Effects of Simazine Treatments on the Benthic Fauna of Moriane Lake, Madison County, New York|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:122-137|1977|
7484|A||Korsgaard,B., and K.L. Pedersen|Vitellogenin in Zoarces viviparus: Purification, Quantification by ELISA and Induction by Estradiol-17beta and 4-Nonylphenol|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(1): 159-166|1998|
7485|A||Hawxby,K., B. Tubea, J. Ownby, and E. Basler|Effects of Various Classes of Herbicides on Four Species of Algae|Pestic. Biochem. Physiol.7(3): 203-209|1977|10.1016/0048-3575(77)90011-6
7486|A||Healey,F.P.|Ammonium and Urea Uptake by Some Freshwater Algae|Can. J. Bot.55(1): 61-69|1977|10.1139/b77-013
7487|A||Meler,P.G., L.H. Hecker, and D.D. Hultgren|The Effect of Methoxychlor on Periphyton Under Natural Conditions|Bull. Environ. Contam. Toxicol.18(3): 370-377|1977|10.1007/BF01683435
7488|A||Chen,J.C., and F.H. Nan|Lethal Effect of Nitrite on Metapenaeus ensis Larvae|J. World Aquac. Soc.22(1): 51-56|1991|10.1111/j.1749-7345.1991.tb00716.x
7489|A||Chandler,J.H., and L.L. Marking|Toxicity of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) to Selected Aquatic Invertebrates and Frog Larvae|Invest.Fish Control No.62, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:7 p.|1975|
7490|A||Landau,M., and V. Sanchez|Effect of pH and Decapsulation on the Toxicity of Ammonia to the Brine Shrimp Artemia franciscana|J. World Aquac. Soc.22(3): 178-182|1991|10.1111/j.1749-7345.1991.tb00731.x
7491|A||Salin,D., and P. Williot|Acute Toxicity of Ammonia to Siberian Sturgeon Acipenser baeri|In: P.Willot (Ed.), Proc.1st Symposium on Sturgeon, Bordeaux (Gironde, France), Oct.3-6, 1989:153-167|1991|
7492|A||Hunt,J.W., B.S. Anderson, S.L. Turpen, H.R. Barber, M. Martin, D.L. McKeown, and F.H. Palmer|Marine Bioassay Project. 6th Report. Interlaboratory Comparison and Protocol Development with Four Marine Species|Rep.No.91-21-WQ, State Water Resour.Control Board, Sacramento, CA:204 p.|1991|
7494|A||Houf,L.J., and R.S. Campbell|Effects of Antimycin A and Rotenone on Macrobenthos in Ponds|Rep.No.80, Investig.Fish Control Rep., Fish Wildl.Serv., Bur.Sport Fish Wildl., USDI, Washington, DC:29 p.|1977|
7495|A||Hoxmark,R.C., and O. Nordby|A Warning Against Using Chloramphenicol in the Light|Plant Sci. Lett.8(2): 113-118|1977|10.1016/0304-4211(77)90020-7
7496|A||Ishio,S., J.C. Chen, and N. Ohba|Incorporation of Benzanthrone into the Nuclei of Gyrodinium sp. and the Heredity of Consequent Mitotic Delays|Nippon Suisan Gakkaishi (Multiple Languages)43(3):289-299|1977|10.2331/suisan.43.289
7497|A||Tagatz,M.E., J.M. Ivey, J.C. Moore, and M. Tobia|Effects of Pentachlorophenol on the Development of Estuarine Communities|J. Toxicol. Environ. Health3(3): 501-506|1977|10.1080/15287397709529582
7500|A||Jacobi,G.Z., and D.J. Degan|Aquatic Macroinvertebrates in a Small Wisconsin Trout Stream Before, During, and Two Years After Treatment with the Fish Toxicant Antimycin|Invest.Fish Control No.80, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:24 p.|1977|
7501|A||Weber,R.E., A. De Zwaan, and A. Bang|Interactive Effects of Ambient Copper and Anoxic, Temperature and Salinity Stress on Survival and Hemolymph and Muscle Tissue Osmotic Effectors in Mytilus edulis|J. Exp. Mar. Biol. Ecol.159(2): 135-156|1992|10.1016/0022-0981(92)90033-7
7502|A||Brock,V.|Effects of Mercury on the Biosynthesis of Porphyrins in Bivalve Molluscs (Cerstoderma edule (L.) and C. lamarcki) (Reeve))|J. Exp. Mar. Biol. Ecol.164(1): 17-29|1992|10.1016/0022-0981(92)90133-U
7503|A||Johnson,C.R.|The Effects of Copper Sulphate Exposure on Thermal Tolerance, Orientation and Survival in Adult Mosquitofish, Gambusia affinis, and Juvenile Threespined Sticklebacks, Gasterosteus aculeatus|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.45:66-68|1977|
7504|A||Johnson,C.R.|The Effects of Field Applied Rates of Five Organophosphorus Insecticides on Thermal Tolerance, Orientation, and Survival in Gambusia affinis affinis (Pisces:  Poeciliidae)|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.45:56-58|1977|
7505|A||Johnson,C.R.|The Effects of Subacute Concentrations of the Insect Growth Regulators, Dimilin and Methoprene, on Thermal Tolerance and Behavior in the Mosquitofish Gambusia affinis|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.45:54-55|1977|
7506|A||Johnson,C.R., and P.A. Gieke|The Effects of the Herbicide Diquat on Gambusia affinis and Some Associated Fauna in Freshwater Ponds|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.45:59-60|1977|
7507|A||Bhatt,S.D., and S.S. Khanna|Histopathology of the Endocrine Pancreas of a Fresh-Water Fish, Clarias batrachus L. VII. Effects of Hydrocortisone and Thyroxine Administration|Acta Biol. Acad. Sci. Hung.27(1): 25-35|1976|
7508|A||Maki,A.W., and H.E. Johnson|The Influence of Larval Lampricide (TFM: 3-Trifluormethyl-4-Nitrophenol) on Growth and Production of Two Species of Aquatic Macrophytes, Elodea canadensis (Michx.) Planchon and Myriophyllum spicatum L. |Bull. Environ. Contam. Toxicol.17(1): 57-65|1977|10.1007/BF01685263
7509|A||Jolly,A.L.,Jr., J.W.,Jr. Avault, J.B. Graves, and K.L. Koonce|Effects of Pounce on Newly Hatched and Juvenile Louisiana Red Swamp Crayfish, Procambarus clarkii (Girard)|In: O.V.Lindqvist (Ed.), Proc.3rd Int.Symp.Freshwater Crayfish, Aug.5-8, 1976, Kuspio, Finland3:389-395|1976|
7511|A||Chatterjee,K.|Toxicity of Diazinon to Fish and Fish Food Organisms|Indian Sci. Congr. Assoc. Proc.62:166-167|1975|
7512|A||McCoy,L.E., and J.E. Joy|Tolerance of Sepedon fuscipennis and Dictya sp. Larvae (Diptera:  Sciomyzidae) to the Molluscicides Bayer 73 and Sodium Pentachlorophenate|Environ. Entomol.6(2): 198-202|1977|10.1093/ee/6.2.198
7513|A||Joy,K.P.|Ammonium Sulphate as a Thyroid Inhibitor in the Freshwater Teleost Clarias batrachus (L.)|Curr. Sci. (Bangalore)46(19): 671-673|1977|
7514|AT||Judd,F.W.|Toxicity of Monosodium Methanearsonate Herbicide to Couch's Spadefoot Toad, Scaphiopus couchi|Herpetologica33(1): 44-46|1977|
7516|A||Soderberg,R.W., and J.W. Meade|Effects of Sodium and Calcium on Acute Toxicity of Un-ionized Ammonia to Atlantic Salmon and Lake Trout|J. Appl. Aquacult.1(4): 82-92|1992|
7518|A||McLeese,D.W., and L.E. Burridge|Comparative Accumulation of PAHs in Four Marine Invertebrates|In: J.M.Capuzzo and D.R.Kester (Eds.), Oceanic Processes in Marine Pollution, Vol.1: Biological Processes and Wastes in the Ocean, Robert E.Krieger, Malabar, FL:109-118|1987|
7519|A||Karpevich,A.F., and A.T. Shurin|Manganese in the Metabolic Processes of Mollusks of the Baltic Sea|Sov. J. Mar. Biol.6:437-443|1977|
7521|A||Balasubramanian,S., and M. Ramaswami|Effect of Pesticide Sevin on Acetylcholinesterase (AchE) Activity in Different Tissues of Oreochromis mossambicus (Peters)|J. Ecobiol.3(2): 117-122|1991|
7522|A||Kawatski,J.A., and A.E. Zittel|Accumulation, Elimination, and Biotransformation of the Lampricide 2',5-Dichloro-4'-Nitrosalicylanilide by Chironomus tentans|Invest.Fish Control No.79, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:8 p.|1977|
7523|A||Kayser,H.|Effect of Zinc Sulphate on the Growth of Mono- and Multispecies Cultures of Some Marine Plankton Algae|Helgol. Wiss. Meeresunters.30(1-4): 682-696|1977|10.1007/BF02207871
7524|A||Kearney,P.C., A.R. Isensee, and A. Kontson|Distribution and Degradation of Dinitroaniline Herbicides in an Aquatic Ecosystem|Pestic. Biochem. Physiol.7(3): 242-248|1977|10.1016/0048-3575(77)90015-3
7525|A||Kearney,P.C., J.E. Oliver, C.S. Helling, A.R. Isensee, and A. Kontson|Distribution, Movement, Persistence, and Metabolism of N-Nitrosoatrazine in Soils and a Model Aquatic Ecosystem|J. Agric. Food Chem.25(5): 1177-1181|1977|10.1021/jf60213a015
7526|A||Syvokiene,J., L. Mickeniene, and Z. Vosyliene|The Effect of Copper on Intestinal Microflora of Rainbow Trout (Oncorhynchus mykiss Walbaum)|Ekologija2:16-19|1997|
7527|A||Quinn,S.A., N.F. Cardarelli, and E.O. Gangstad|Aquatic Herbicide Chronicity|J. Aquat. Plant Manag.15:74-76|1977|
7528|A||Khudolei,V.V., and O.A. Sirenko|Tumor Development in the Bivalve Mollusk Unio pictorum Induced by N-Nitroso Compounds|Bull. Exp. Biol. Med.83(5): 684-686|1977|10.1007/BF00800749
7529|A||Anbu,R.B., and M. Ramaswamy|Adaptive Changes in Respiratory Movements of an Air-Breathing Fish, Channa striatus (Bleeker) Exposed to Carbamate Pesticide, Sevin|J. Ecobiol.3(1): 11-16|1991|
7530|A||Khudoley,V.V.|The Induction of Tumors in Rana temporaria with Nitrosamines|Neoplasma24(3): 249-252|1977|
7532|AT||Khudoley,V.V.|Tumor Induction by Carcinogenic Agents in Anuran Amphibian Rana temporaria|Arch. Geschwulstforsch.47(5): 385-395|1977|
7533|A||Jha,B.S.|Alterations in the Protein and Lipid Contents of Intestine, Liver and Gonads in the Lead Exposed Freshwater Murrel, Channa punctatus (Bloch)|J. Ecobiol.3(1):29-34|1991|
7534|A||Khvoles,A.G., and Y.A. Korobko|The Effect of Dimethyl Sulfate on the Reproductive System of the Loach, Misgurnus fossilis|J. Ichthyol.17(2): 333-336|1977|
7535|A||Sarkar,S.K.|Toxicity Evaluation of Urea and Ammonium Sulphate to Oreochromis mossambicus (Peters)|J. Ecobiol.3(1): 79-80|1991|
7536|A||Kawano,I., T. Oda, A. Ishimatsu, and T. Muramatsu|Inhibitory Effect of the Iron Chelator Desferrioxamine (Desferal) on the Generation of Activated Oxygen Species by Chattonella marina|Mar. Biol.126(4): 765-771|1996|10.1007/BF00351343
7537|A||Klaverkamp,J.F., M. Duangsawasdi, W.A. MacDonald, and H.S. Majewski|An Evaluation of Fenitrothion Toxicity in Four Life Stages of Rainbow Trout, Salmo gairdneri|ASTM Spec. Tech. Publ.:231-240|1977|
7538|A||Klekowski,R.Z., B. Korde, and M. Kaniewska-Prus|The Effect of Sodium Salt of 2,4-D on Oxygen Consumption of Misgurnus fossilis L. During Early Embryonal Development|Pol. Arch. Hydrobiol.24(3): 413-421|1977|
7539|A||Klyszejko,B., J. Muzykiewicz, R. Wegrzynowicz, and G. Glebocka|Effect of Deterlon (DBS) on the Electrocardiogram of Eel Anguilla anguilla (L.)|Acta Physiol. Pol.28(2):179-186|1977|
7540|A||Blaise,C., and M. Harwood|Ecotoxicological Assessment of Tebuthiuron a Substituted Urea Class Herbicide|Rev. Sci. Eau (Multiple Languages)4(1): 121-134|1991|10.7202/705093ar
7541|A||Le Bras,S., T. Caquet, E. Thybaud, and O. Jonot|Ponderal Growth of Asellus aquaticus L. Under Laboratory Conditions and in Experimental Mesocosms, Consequences of Lindane Contamination|Rev. Sci. Eau (Multiple Languages)5(3): 431-443|1992|10.7202/705140ar
7542|A||Kobayashi,N., N. Taniguchi, F. Sako, and E. Takakuwa|A Screening Method for the Toxicity of Food Dyes Using Artemia salina Larvae|J. Toxicol. Sci.2(4): 383-390|1977|10.2131/jts.2.383
7543|A||Mortimer,D.C.|Freshwater Aquatic Macrophytes as Heavy Metal Monitors - the Ottawa River Experience|Environ. Monit. Assess.5(3): 311-323|1985|10.1007/BF00394071
7544|A||Koenig,C.C.|The Effects of DDT and Mirex Alone and in Combination on the Reproduction of a Salt Marsh Cyprinodont Fish, Adinia xenica|In: F.J.Vernberg (Ed.), Physiological Responses of Marine Biota to Pollutants, Academic Press, NY:357-376|1977|
7545|A||Korostylev,M.V.|Effect of Diluron, Dilor and Methylnitrophos on Chironomids|Izv. Gos. Nauchno-Issled. Inst. Ozern. Rechn. Rybn. Khoz.121:161-164|1977|
7546|A||Chan,H.M., P. Bjerregaard, P.S. Rainbow, and M.H. Depledge|Uptake of Zinc and Cadmium by Two Populations of Shore Crabs Carcinus maenas at Different Salinities|Mar. Ecol. Prog. Ser.86(1): 91-97|1992|10.3354/meps086091
7548|A||Kurata,N., K. Koshida, and T. Fujii|Biodegradation of Surfactants in River Water and Their Toxicity to Fish|Yukagaku26(2): 115-118|1977|
7549|A||Zahn,R.K., G. Zahn, W.E.G. Mueller, I. Muller, R. Beyer, U. Muller-Berger, B. Kurelec, and M. Rijavec|Consequences of Detergent Pollution of the Sea:  Effects on Regenerating Sponge Cubes of Geodia cydonium|Sci. Total Environ.8(2): 109-151|1977|10.1016/0048-9697(77)90072-9
7550|A||Kyono,Y., and N. Egami|The Effect of Temperature During the Diethylnitrosamine Treatment on Liver Tumorigenesis in the Fish, Oryzias latipes|Eur. J. Cancer13(10): 1191-1194|1977|10.1016/0014-2964(77)90020-2
7551|A||Labus,B., W. Nobel, R. Smetana, and A. Kohler|Effects of the Waste Water Substance Marlon a (Anionic Surfactant) and Boron on the Photosynthetic Rate of Submerged Macrophytes|Verh. Ges. Oekol. Jahresversamml.77:325-333|1977|
7552|A||Labus,B., H. Schuster, W. Nobel, and A. Kohler|The Effects of Toxic Water Pollutants on Submerged Macrophytes. (Wirkung von Toxischen Abwasserkomponenten auf Submerse Makrophyten)|Angew. Bot. (Multiple Languages)51(1-2): 17-36|1977|
7553|A|OECDG|Schober,U., and W. Lampert|Effects of Sublethal Concentrations of the Herbicide Atrazin on Growth and Reproduction of Daphnia pulex|Bull. Environ. Contam. Toxicol.17(3): 269-277|1977|10.1007/BF01686079
7554|A||Blust,R., E. Kockelbergh, and M. Baillieul|Effect of Salinity on the Uptake of Cadmium by the Brine Shrimp Artemia franciscana|Mar. Ecol. Prog. Ser.84(3): 245-254|1992|10.3354/meps084245
7555|A|RUSSN|Lavrent'Eva,G.M.|Effect of the Pesticide Polychloropynen on Phytoplankton|Izv. Gos. Nauchno-Issled. Inst. Ozern. Rechn. Rybn. Khoz.121:133-160|1977|
7556|A||Zambriborshch,F.S., and B. Lay|Effect of Hexachlorane (HCCH) on Some Hematological and Biochemical Characteristics of the Blood of the Round Goby (Gobius melanostomus)|J. Ichthyol.17(3): 507-510|1977|
7557|A||Jaiswal,K., and A. Lovekar|Preliminary Study on Sublethal Ekalux (EC 25) Induced Alterations in Oxygen Consumption and Weight Changes in Fresh Water Crab, Barytelphusa cunicularis|Pollut. Res.10(1): 37-41|1991|
7558|A||Lejczak,B.|Effect of Insecticides:  Chlorphenvinphos, Carbaryl and Propoxur on Aquatic Organisms|Pol. Arch. Hydrobiol.24(4): 583-591|1977|
7560|A||Lind,D.T., L.L.,Jr. Smith, and S.J. Broderius|Chronic Effects of Hydrogen Cyanide on the Fathead Minnow|J. Water Pollut. Control Fed.49(2): 262-268|1977|
7561|A||Olofsson,S., and P.E. Lindahl|Temperature Dependence of the Effect of Ethanol, as a Model Substance, on Cod|Environ. Res.14(1): 22-29|1977|10.1016/0013-9351(77)90062-7
7562|A||Lockhart,W.L., D.A. Metner, and J. Solomon|Methoxychlor Residue Studies in Caged and Wild Fish From the Athabasca River, Alberta, Following a Single Application of Blackfly Larvicide|J. Fish. Res. Board Can.34(5): 626-632|1977|10.1139/f77-098
7563|A||Lovegrove,T.|Anti-fouling Paint in Farm Ponds|Fish Farming Int.6(2): 13 - 15,39|1979|
7564|A||Lu,P.Y., R.L. Metcalf, N. Plummer, and D. Mandel|The Environmental Fate of Three Carcinogens: Benzo(a)pyrene, Benzidine, and Vinyl Chloride Evaluated in Laboratory Model Ecosystems|Arch. Environ. Contam. Toxicol.6(2/3): 129-142|1977|10.1007/BF02097756
7565|A||Maki,A.W., and H.E. Johnson|Kinetics of Lampricide (TFM, 3-Trifluromethyl-4-Nitrophenol) Residues in Model Stream Communities|J. Fish. Res. Board Can.34:276-281|1977|10.1139/f77-042
7566|A||Sangalang,G.B., and H.C. Freeman|Tissue Uptake of Cadmium in Brook Trout During Chronic Sublethal Exposure|Arch. Environ. Contam. Toxicol.8(1): 77-84|1979|10.1007/BF01055142
7567|A||Marking,L.L., T.D. Bills, and J.H.,Jr. Chandler|Toxicity of Furanace to Fish, Aquatic Invertebrates, and Frog Eggs and Larvae|Invest.Fish Control Rep.No.76, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:6 p.|1977|
7568|A||Srivastava,M., M.M.S. Rawat, and A.K. Srivastava|Effect of Different Concentrations of Zinc on the Survival and Growth Behaviour of Chorella vulgaris|Pollut. Res.10(1): 49-51|1991|
7569|A||Verriopoulos,G., and D. Hardouvelis|Effects of Sublethal Concentration of Zinc on Survival and Fertility in Four Successive Generations of Tisbe|Mar. Pollut. Bull.19(4): 162-166|1988|10.1016/0025-326X(88)90671-6
7570|A||McConnell,R.P.|Toxicity of Molybdenum to Rainbow Trout Under Laboratory Conditions|In: W.R.Chappell and K.K.Peterson (Eds.), Molybdenum in the Environment, Vol.2, Marcel Dekker Inc., NY:725-730|1977|
7571|A||McCraren,J.P., J.L. Millard, and A.M. Woolven|Masoten (Dylox) As a Control for Clam Shrimp in Hatchery Production Ponds|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies31:329-331|1977|
7572|A||McCraren,J.P., and T.R. Phillips|Effects of Masoten (Dylox) on Plankton in Earthen Ponds|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies31:441-448|1977|
7573|A||Sreekala,K.G., J. Jennita, and V.R. Prakasam|Tolerance and Heart Rate of Daphnia sp. (Crustacean) in Response to Disinfectants, Bleaching Powder and Potassium Permanganate|Pollut. Res.10(1): 33-36|1991|
7574|A||Mehrle,P.M., F.L. Mayer, and W.W. Johnson|Diet Quality in Fish Toxicology:  Effects on Acute and Chronic Toxicity|ASTM Spec. Tech. Publ.:269-280|1977|
7575|A||Singh,A.|Heavy Metal Induced Pathomorphological Alterations of Mucous Glands in the Skin of a Catfish, Heteropneustes fossilis (Bloch)|J. Freshw. Biol.1(2): 97-102|1989|
7576|A||Meier-Brook,C., and K.Y.T. Tjhen|The Susceptibility of Marisa cornuarietis, a Predator of Schistosome Bearing Snails, to N-Tritylmorpholine|Ann. Trop. Med. Parasitol.71(1): 95-100|1977|10.1080/00034983.1977.11687165
7578|A||Sunderman,F.W.Jr.|Embryotoxicity and Teratogenicity of Ni2+ and Co2+ in Xenopus laevis|In: E.Merian and W.Haerdi (Eds.), Science and Technology Letters. Northwood, Middlesex, UK:467-474|1992|
7579|A||Martoja,M., and M. Truchet|Histoanalytical Study of Silver Intoxication in Two Freshwater Molluscs, Dreissena polymorpha and Viviparus viviparus|Vie Milieu41(1): 21-28|1991|
7580|A||Dalela,R.C., S. Rani, and S.R. Verma|Acute Toxicity of Phenol and Pentachlorophenol to Few Fresh Water Teleosts|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proceedings of Symposium on Environmental Biology, Muzaffarnagar, India:349-359|1979|
7581|A||Morgan,H.G.|Sublethal Effects of Diazinon on Stream Invertebrates|Ph.D. Thesis, University of Guelph, Ontario, Canada:189 p.|1976|
7582|A||Morrice,C.P.|The Effects of Copper Sulphate (CuSO4 5H2O) on the Feeding of Roach (Rutilus rutilus (L.))|Fish. Manag.8(3): 82-85|1977|
7583|A||Golding,L.A., M.H. Timperley, and C.W. Evans|Non-Lethal Responses of the Freshwater Snail Potamopyrgus antipodarum to Dissolved Arsenic|Environ. Monit. Assess.47(3): 239-254|1997|10.1023/A:1005796318728
7584|A||Gale,R.W., J.N. Huckins, J.D. Petty, P.H. Peterman, L.L. Williams, D. Morse, T.R. Schwartz, and D.E. Tillitt|Comparison of the Uptake of Dioxin-Like Compounds by Caged Channel Catfish and Semipermeable Membrane Devices in the Saginaw River, Michigan|Environ. Sci. Technol.31(1): 178-187|1997|10.1021/es960263m
7585|A||Brunetti,R., M. Marin, M. Bressan, M. Zordan, and A. Soggia|Effects of the Chelating Agent Nitrilotriacetic Acid (NTA) on the Toxicity of Metals (Cd, Cu, Zn and Pb) in the Sea Urchin Paracentrotus lividus LMK|Vie Milieu41(1): 39-43|1991|
7587|A||Nishimura,T.|Side Effects of Sulfamonomethoxine on Rainbow Trout I. Histopathological Study|J. Tokyo Univ. Fish.63(2): 71-79|1977|
7588|A||Andryushchenko,V.V., and G.G. Polikarpov|An Experimental Study of Uptake of Zn65 and DDT by Ulva rigida from Seawater Polluted with Both Agents|Hydrobiol. J.10(4): 41-46|1974|
7590|A||Moraes,R.B.C., L.M. Mayr, and E. Penna-Franca|Strombus pugilis as a Monitor of Co-60 in the Region of the Nuclear Power Plant of Angra dos Reis (Brazil)|Fresenius Environ. Bull.1(12): 779-784|1992|
7591|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Fresh Water Organisms.  XXXXI|Suisan Zoshoku (Non-English)24(4): 146-150|1977|
7593|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Freshwater Organisms. XXXXIII|Suisan Zoshoku (Non-English)25(2): 75-78|1977|
7594|A||Goff,J.W., and T.F. Lytle|Tributyltin Residue in Sheepshead Minnows|J. Miss. Acad. Sci.36(1): 53-|1991|
7595|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Freshwater Organisms.  XXXXV|Suisan Zoshoku (Non-English)25(3): 105-107|1977|
7596|A||Weeks,J.M.|Copper-Rich Granules in the Ventral Caeca of Talitrid Amphipods (Crustacea; Amphipoda:  Talitridae)|Ophelia36(2): 119-133|1992|10.1080/00785326.1992.10430363
7597|A||Carter,R.J., and R.S. Eriksen|Investigation into the Use of Zostera muelleri (Irmisch ex Aschers) as a Sentinel Accumulator for Copper|Sci. Total Environ.125:185-192|1992|10.1016/0048-9697(92)90390-E
7598|A||Koesoemadinata,S.|Aquatic Toxicology of Selected Rice Insecticides, with Special Reference to Their Effects on Fish Culture in West Java, Indonesia|Ph.D.Thesis, University of Stirling, Stirling, UK:379 p.|1990|
7601|AT||Coats,J.R.|Toxicity and Metabolism of Three Methoxychlor Analogues with Altered Aliphatic Moieties, and the Development of Some Novel DDT Analogues|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:88 p.|1974|
7602|A||Ishio,S., J.C. Chen, Y. Kawasaki, and N. Ohba|Cell Division of Gyrodinium sp. and Mitotic Delay Induced by Causal Substances of Algal Tumor and Carcinogens|Nippon Suisan Gakkaishi (Multiple Languages)43(5): 507-516|1977|10.2331/suisan.43.507
7603|A||Bills,T.D., and L.L. Marking|Control of Nuisance Populations of Crayfish with Traps and Toxicants|Prog. Fish-Cult.50:103-106|1988|10.1577/1548-8640(1988)050<0103:CONPOC>2.3.CO;2
7604|A||Rondelaud,D.|Effects of a Sublethal Dose of a Molluscicide (CuCl2) on the Reproductive Activity and the Movements of the Snail Host, Lymnaea truncatula Muller (Les Effets d'une Concentration Subletale de Molluscicide (CuCl2) sur l'A|Ann. Rech. Vet. (Non-English)19(4): 273-278|1988|
7605|A||Ohmori,M., K. Ohmori, and H. Strotmann|Inhibition of Nitrate Uptake by Ammonia in a Blue-Green Alga, Anabaena cylindrica|Arch. Microbiol.114(3): 225-229|1977|10.1007/BF00446866
7606|A||Ozoh,P.T.E.|The Importance of Adult Hediste (Nereis) diversicolor in Managing Heavy Metal Pollution in Shores and Estuaries|Environ. Monit. Assess.21(3): 165-171|1992|10.1007/BF00399685
7607|A||Bansal,S.K., S.R. Verma, A.K. Gupta, and R.C. Dalela|Physiological Dysfunction of the Haemopoietic System in a Fresh Water Teleost, Labeo rohita, Following Chronic Chlordane Exposure. Part I|Bull. Environ. Contam. Toxicol.22(4-5): 666-673|1979|10.1007/BF02027005
7608|A||Abbasi,S.A., V. Baji, K. Madhavan, and R. Soni|Impact of Chromium (VI) on Catfish Wallago attu|Indian J. Environ. Health33(3):336-340|1991|
7609|A||Oros,I.|Action of Some Pesticides on Oxygen Consumption in Cyprinus carpio L. (Actiunea Unor Pesticide Asupra Consumului de Oxigen la Crap)|Stud. Univ. Babes-Bolyai, Ser. Biol. (Multiple Languages)22(1): 74-76|1977|
7610|A||Chen,J.C., and T.S. Chin|Acute Toxicity of Nitrite to Tiger Prawn, Penaeus monodon, Larvae|Aquaculture69(3-4): 253-262|1988|10.1016/0044-8486(88)90333-X
7611|A||Boon,J.P., J.M. Everaarts, M.T.J. Hillebrand, M.L. Eggens, J. Pijnenburg, and A. Goksoyr|Changes in Levels of Hepatic Biotransformation Enzymes and Haemoglobin Levels in Female Plaice (Pleuronectes platessa) After Oral Administration of a|Sci. Total Environ.114:113-133|1992|10.1016/0048-9697(92)90418-R
7612|A||Pace,F., R. Ferrara, and G. Del Carratore|Effects of Sub-lethal Doses of Copper Sulphate and Lead Nitrate on Growth and Pigment Composition of Dunaliella salina Teod|Bull. Environ. Contam. Toxicol.17(6): 679-685|1977|10.1007/BF01685952
7613|A||Paris,D.F., D.L. Lewis, and J.T. Barnett|Bioconcentration of Toxaphene by Microorganisms|Bull. Environ. Contam. Toxicol.17(5): 564-572|1977|10.1007/BF01685979
7615|A||Borthwick,P.W., J.R. Clark, R.M. Montgomery, J.M.,Jr. Patrick, and E.M. Lores|Field Confirmation of a Laboratory-Derived Hazard Assessment of the Acute Toxicity of Fenthion to Pink Shrimp, Penaeus duorarum|ASTM Spec. Tech. Publ.:177-189|1985|
7616|A||Abel,P.D., and S.M. Garner|Comparisons of Median Survival Times and Median Lethal Exposure Times for Gammarus pulex Exposed to Cadmium, Permethrin and Cyanide|Water Res.20(5): 579-582|1986|10.1016/0043-1354(86)90021-7
7617|A||Edel,J., and E. Sabbioni|Accumulation, Distribution and Form of Vanadate in the Tissues and Organelles of the Mussel Mytilus edulis and the Goldfish Carassius auratus|Sci. Total Environ.133(1-2): 139-151|1993|10.1016/0048-9697(93)90118-P
7618|A||Giltner,J.H.J., and P.C. Baumann|The Acute and Chronic Effects of a Polyquaternary Ammonium Molluscicide Poly[Oxyethylene(Dimethyliminio)Ethylene-(Dimethyliminio)Ethylene Dichloride]|J. Shellfish Res.10(1): 253-254|1991|
7620|A||Perry,J.W., and M.W. Conway|Rotenone Induced Blood Respiratory Changes in the Green Sunfish, Lepomis cyanellus|Comp. Biochem. Physiol. C Comp. Pharmacol.56(2): 123-126|1977|10.1016/0306-4492(77)90026-0
7621|A||Petrea,V., and I. Spirescu|Effect of Some Basic and Acid Dyes on Various Physiological Processes in Chlorella Vulgaris Alga|Stud. Cercet. Biol. Ser. Biol. Veg.29(2): 107-111|1977|
7623|A||Pfeifer,K.F., L.J. Weber, and R.E. Larson|Alanine Aminotransferase (GPT) in Rainbow Trout: Plasma Enzyme Levels As an Index of Liver Damage|Proc. West. Pharmacol. Soc.20:431-437|1977|
7624|A||Gopal,V., and K. Maheswari Devi|Influence of Nutritional Status on the Median Tolerance Limits (LC50) of Ophiocephalus striatus for Certain Heavy Metal and Pesticide Toxicants|Indian J. Environ. Health33(3): 393-394|1991|
7625|T||Prescott,L.M., M.K. Kubovec, and D. Tryggestad|The Effects of Pesticides, Polychlorinated Biphenyls and Metals on the Growth and Reproduction of Acanthamoeba castellanii|Bull. Environ. Contam. Toxicol.18(1): 29-34|1977|10.1007/BF01686301
7626|A||Sallenave,R.M., and K.E. Day|Uptake and Bioconcentration of 2,2',4,4',5,5'-Hexachlorobiphenyl by Lotic Periphyton|Water Qual. Res. J. Can.32(3): 619-635|1997|10.2166/wqrj.1997.036
7627|A||Hemmer,M.J., D.P. Middaugh, and J.C. Moore|Effects of Temperature and Salinity on Menidia beryllina Embryos Exposed to Terbufos|Dis. Aquat. Org.8(2): 127-136|1990|10.3354/dao008127
7628|A||Kodavanti,P.R.S., and K.V.R. Rao|Studies on Some Kinetic Parameters of Aldolases in Selected Tissues of the Freshwater Fish (Tilapia mossambica) Under the Toxic Impact of Methyl Parathion|J. Appl. Toxicol.9(6): 419-426|1989|10.1002/jat.2550090609
7629|A||Brazner,J.C., L.J. Heinis, and D.A. Jensen|A Littoral Enclosure for Replicated Field Experiments|Environ. Toxicol. Chem.8:1209-1216|1989|10.1002/etc.5620081214
7630|A||Rand,G.M.|The Effect of Subacute Parathion Exposure on the Locomotor Behavior of the Bluegill Sunfish and Largemouth Bass|ASTM Spec. Tech. Publ.:253-268|1977|
7631|A||Rawls,C.K.|Field Studies of Shell Regrowth as a Bioindicator of Eastern Oyster (Crassostrea virginica Gmelin) Response to 2,4-D BEE in Maryland Tidewaters|Chesapeake Sci.18(3): 266-271|1977|10.2307/1350800
7632|A||Mule,M.B., and V.S. Lomte|Cypermethrin (Synthetic Pyrethroid) Toxicity to Freshwater Snail Thiara tuberculata|Pollut. Res.11(4): 225-229|1992|
7633|A||Roales,R.R., and A. Perlmutter|The Effects of Sub-Lethal Doses of Methylmercury and Copper, Applied Singly and Jointly, on the Immune Response of the Blue Gourami (Trichogaster trichopterus) to Viral and Bacterial Antigens|Arch. Environ. Contam. Toxicol.5(3): 325-331|1977|10.1007/BF02220914
7634|A||Ringwood,A.H.|Effects of Chronic Cadmium Exposures on Growth of Larvae of an Hawaiian Bivalve, Isognomon californicum|Mar. Ecol. Prog. Ser.83(1): 63-70|1992|10.3354/meps083063
7635|A||Rubin,A.J., and G.A. Elmaraghy|Studies on the Toxicity of Ammonia, Nitrate and Their Mixtures to Guppy Fry|Water Res.11(10): 927-935|1977|10.1016/0043-1354(77)90079-3
7636|A||Conte,F.S., and J.C. Parker|Effect of Aerially-Applied Malathion on Juvenile Brown and White Shrimp Penaeus aztecus and P. setiferus|Trans. Am. Fish. Soc.104(4): 793-799|1975|10.1577/1548-8659(1975)104<793:EOAMOJ>2.0.CO;2
7637|A||Rustamova,S.A.|The Chronic Effect of Alkali on the Growth, Development and Fecundity of the Guppy|Hydrobiol. J.13(3): 83-85|1977|
7638|A||Danil'chenko,O.P.|The Sensitivity of Fish Embryos to the Effect of Toxicants|J. Ichthyol.17(3): 455-463|1977|
7639|A||Das,B., and P.K. Singh|Detoxication of the Pesticide Benzenehexachloride by Blue-Green Algae|Microbios Lett.4(14): 99-102|1977|
7640|A||Das,B., and P.K. Singh|Mutagenecity of Pesticides in Blue-Green Algae|Microbios Lett.5(19-20): 103-107|1977|
7641|A||Straus,D.L., H.R. Robinette, and J.M. Heinen|Toxicity of Un-Ionized Ammonia and High pH to Post-Larval and Juvenile Freshwater Shrimp Macrobrachium rosenbergii|J. World Aquac. Soc.22(2): 128-133|1991|10.1111/j.1749-7345.1991.tb00725.x
7642|A||Delistraty,D.A., J.M. Carlberg, J.C. Van Olst, and R.F. Ford|Ammonia Toxicity in Cultured Larvae of the American Lobster (Homarus americanus)|Proc. Annu. Meet. World Maricult. Soc.8:647-672|1977|
7644|A||Weis,J.S., and A.A. Khan|Effects of Mercury on the Feeding Behavior of the Mummichog, Fundulus heteroclitus from a Polluted Habitat|Mar. Environ. Res.30(4): 243-249|1990|10.1016/0141-1136(90)90001-5
7645|A||Levine,S.N., D.T. Rudnick, J.R. Kelly, R.D. Morton, and L.A. Buttel|Pollutant Dynamics as Influenced by Seagrass Beds: Experiments with Tributyltin in Thalassia Microcosms|Mar. Environ. Res.30(4): 297-322|1990|10.1016/0141-1136(90)90004-8
7646|A||Tietze,N.S., M.A. Olson, P.G. Hester, and J.J. Moore|Tolerance of Sewage Treatment Plant Microorganisms to Mosquitocides|Am. Mosq. Control Assoc. J.9(4): 477-479|1993|
7647|A||Duncan,J., N. Brown, and R.W. Dunlop|The Uptake of the Molluscicide, 4'-Chloronicotin-Anilide into Biomphalaria glabrata (Say) in a Flowing Water System|Pestic. Sci.8:345-353|1977|10.1002/ps.2780080407
7648|A||Egneus,H., and H. Blanck|The Effect of a Quaternary Amine (Aliquat 336) on Growth and Photosynthesis of the Green Alga Chlorella emersonii, and the Effect on Photosynthesis in Isolate Spinach Chloroplasts|Physiol. Plant. (Multiple Languages)41(1): 73-78|1977|10.1111/j.1399-3054.1977.tb01526.x
7649|A||Day,K.E., N.K. Kaushik, and K.R. Solomon|Impact of Fenvalerate on Enclosed Freshwater Planktonic Communities and on In Situ Rates of Filtration of Zooplankton|Can. J. Fish. Aquat. Sci.44(10): 1714-1728|1987|10.1139/f87-210
7650|A||Eldefrawi,A.T., N.A. Mansour, L.B. Brattsten, V.D. Ahrens, and D.J. Lisk|Further Toxicologic Studies with Commercial and Candidate Flame Retardant Chemicals. Part II|Bull. Environ. Contam. Toxicol.17(6):720-726|1977|10.1007/BF01685960
7651|A||Eldridge,M.B., T. Echeverria, and J.A. Whipple|Energetics of Pacific Herring (Clupea harengus pallasi) Embryos and Larvae Exposed to Low Concentrations of Benzene, a Monoaromatic Component of|Trans. Am. Fish. Soc.106(5): 452-461|1977|10.1577/1548-8659(1977)106<452:EOPHCH>2.0.CO;2
7652|A||Elekes,K., L. Hiripi, and J. Nemcsok|Ultrastructural Effects of 6-Hydroxy-Dopamine and 5,6-Dihydroxytryptamine on the Central Nervous System of Fresh-Water Mussel, Anodonta cygnea L|Acta Biol. Acad. Sci. Hung.28(3): 259-272|1977|
7653|A||Monserrat,J., and A. Bianchini|Effects of Temperature and Salinity on the Toxicity of a Commercial Formulation of Methyl Parathion to Chasmagnathus granulata (Decapoda, Grapsidae)|Braz. J. Med. Biol. Res.28(1): 74-78|1995|
7654|A||Ericson,J.W.|Applicability of ATP Measurements for the Determination of Dye Toxicity in Short Term Algal Assays|In: Proc. Bi-Annual ATP Methodol. Symp. , SAI Technol. Co. , San Diego, CA:415-439|1977|
7655|A||Ernst,W.|Determination of the Bioconcentration Potential of Marine Organisms -- a Steady State Approach.  I.  Bioconcentration Data for Seven Chlorinated Pesticides in Mussels (Mytilus edulis)|Chemosphere6(11): 731-740|1977|10.1016/0045-6535(77)90144-8
7656|A||Cooke,A.S., and J.A. Zoro|The Effects of p,p'-DDCN on Tadpoles of the Frog Rana temporaria|Bull. Environ. Contam. Toxicol.13(2):233-237|1975|10.1007/BF01721744
7657|A||Evans,G.W., M. Lyes, and P.M. Lockwood|Some Effects of Oil Dispersants on the Feeding Behaviour of the Brown Shrimp, Crangon crangon|Mar. Behav. Physiol.4:171-181|1977|10.1080/10236247709386949
7658|A||Eaton,J., J. Arthur, R. Hermanutz, R. Kiefer, L. Mueller, R. Anderson, R. Erickson, and B. Nordling|Biological Effects of Continuous and Intermittent Dosing of Outdoor Experimental Streams with Chlorpyrifos|ASTM Spec. Tech. Publ.:85-118|1985|
7659|A||Rankin,P.W., J.G. Surak, and N.P. Thompson|Effect of Benomyl and Benomyl Hydrolysis Products on Tetrahymena pyriformis|Food Cosmet. Toxicol.15(3): 187-193|1977|10.1016/S0015-6264(77)80388-X
7660|A||Yadwad,V.B.|Effect of Endosulfan on Lipid Synthesis by the Hepatopancreas of the Field Crab Paratelphusa hydrodromus|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(7): 1987-1995|1992|
7661|A||Roald,S.O.|Effects of Sublethal Concentrations of Ligno Sulphonates on Growth, Intestinal Flora and Some Digestive Enzymes of Rainbow Trout (Salmo gaidneri)|Aquaculture12(4): 327-335|1977|10.1016/0044-8486(77)90211-3
7662|A||Rzehak,K., A. Maryanska-Nadachowska, and M. Jordan|The Effect of Karbatox 75, a Carbaryl Insecticide, upon the Development of Tadpoles of Rana temporaria and Xenopus laevis|Folia Biol. (Krakow)25(4): 391-399|1977|
7663|A||Saboski,E.M.|Effects of Mercury and Tin on Frustular Ultra-Structure of the Marine Diatom, Nitzschia liebethrutti|Water Air Soil Pollut.8(4): 461-466|1977|10.1007/BF00228660
7664|A||Sahai,R., P.S. Roy, and G. Kaur|A Comparative Study of the Toxicity of Synthetic Detergents on Two Common Duck Weeds at Gorakhpur|Indian J. Ecol.4(2): 242-245|1977|
7665|A||Sanborn,J.R., W.F. Childers, and L.G. Hansen|Uptake and Elimination of [14C]Hexachlorobenzene (HCB) by the Green Sunfish, Lepomis cyanellus Raf., After Feeding Contaminated Food|J. Agric. Food Chem.25(3): 551-553|1977|10.1021/jf60211a008
7666|A||Sanders,H.O.|Toxicity of the Molluscicide Bayer 73 and Residue Dynamics of Bayer 2353 in Aquatic Invertebrates|Invest.Fish Control No.78, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:7 p.|1977|
7667|A||Sarma,T.A.|Mutagenic Effects of MnCl2 in the Blue Green Alga Anacystis nidulans|Indian J. Exp. Biol.15(7): 587-588|1977|
7668|A||Sarma,Y.S.R.K., and B.R. Chaudhary|Effects of Chloral Hydrate, Maleic Hydrazide & Theobromine on Sphaeroplea annulina|Indian J. Exp. Biol.15(10): 936-939|1977|
7669|A||Coppage,D.L.|Anticholinesterase Action of Pesticidal Carbamates in the Central Nervous System of Poisoned Fishes|In: J.F.Vernberg (Ed.), Symp.Physiological Responses of Marine Biota to Pollutants, Academic Press, New York, NY:93-102|1977|
7670|A||Reish,D.J., S.L. Asato, and J.A. Lemay|The Effect of Cadmium and DDT on the Survival and Regeneration in the Amphinomid Polychaete Eurythoe complanata|In: Proceedings of the 7th International Symposium on Marine Biology, California State University, Long Beach, CA:107-111|1988|
7671|A||Schmidt-Nielsen,B., J. Sheline, D.S. Miller, and M. Deldonno|Effect of Methylmercury upon Osmoregulation, Cellular Volume, and Ion Regulation in Winter Flounder, Pseudopleuronectes americanus|In: J.F.Vernberg (Ed.), Symp.Physiological Responses of Marine Biota to Pollutants, Academic Press, NY:105-117|1977|
7672|A||Spieler,R.E., T.A. Noeske, and G.L. Seegert|Diel Variations in Sensitivity of Fishes to Potentially Lethal Stimuli|Prog. Fish-Cult.39(3): 144-147|1977|10.1577/1548-8659(1977)39[144:DVISOF]2.0.CO;2
7673|A||Serns,S.L.|Effects of Dipotassium Endothall on Rooted Aquatics and Adult and First Generation Bluegills|Water Resour. Bull.13(1): 71-80|1977|10.1111/j.1752-1688.1977.tb01991.x
7674|A||Tamaru,C.S., C. Carlstrom-Trick, and W.J.,Jr. FitzGerald|Clove Oil, Minyak cengkeh, a Natural Fish Anesthetic|In: PACON Int.Conf on Sustainable Aquaculture 95, June 11-14, 1995, Honolulu, HA:1-7|1996|
7675|A||Morrill,P.K., and B.R. Neal|Impact of Deltamethrin Insecticide on Chironomidae (Diptera) of Prairie Ponds|Can. J. Zool.68(2): 289-296|1990|10.1139/z90-043
7676|A||Sikka,H.C.|Fate of 2,4-D in Fish and Blue Crabs|U.S.Army Off.Chief of Eng., Washington, DC, Contract No.DACW39-74-C-0068:15 p.|1977|
7677|AT||Johnson Matthey Alfa Products|Alfa Catalog, Research Chemicals and Accessories|Johnson Matthey Alfa Products, P.O.Box 8247, Ward Hill, MA:1120 p.|1990|
7678|A||Simeray,J., A. Delcourt, and J.C. Mestre|Influence of Three Mercurial Derivatives on the Growth of Euglena gracilis Z|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)171(4): 901-906|1977|
7680|A||Sousa,R.J., and T.L. Meade|The Influence of Ammonia on the Oxygen Delivery System of Coho Salmon Hemoglobin|Comp. Biochem. Physiol. A Comp. Physiol.58:23-28|1977|10.1016/0300-9629(77)90007-X
7681|A||Sriwastawa,V.M.S., and A. Kumar|Toxicity of Carbamide on Stenohaline Carp Under-Yearlings|Geobios (Jodhpur)4(5): 224-|1977|
7682|A||Sriwastwa,V.M.S., and D.K. Srivastava|Cardiac and Blood Assay Under Carbamide Stress: A Study of Cirrhinus mrigala (Hamilton) Fingerlings|Matsya3:27-30|1977|
7683|A||Banerjee,V.|Effect of Heavy Metal Poisoning on Peripheral Haemogram in Heteropneustes fossilis (Bloch): I. Mercuric Sulfate (LC50)|Comp. Physiol. Ecol.11(4): 173-176|1986|
7684|A||Bhattacharya,S., and S. Mukherjee|Activity of the Hepatopancreatic Protease and Esterase in Fish Exposed to Industrial Pollutants|Comp. Physiol. Ecol.1(2): 45-50|1976|
7685|A||Stillwell,E.F., and J.P. Bryant|Diphenyl Mercury Effects on Cell Division, Calcification and Net Photosynthesis in the Coccolithophorid Cricosphaera carterae|Sci. Biol. J.3(1): 251-258|1977|
7686|A||Stom,D.J.|Influence of Polyphenols and Quinones on Aquatic Plants and Their Blocking of SH-Groups|Acta Hydrochim. Hydrobiol. (Multiple Languages)5(3): 291-298|1977|10.1002/aheh.19770050309
7687|A||Streit,B., and J. Schwoerbel|Experimental Studies on the Accumulation and Action of Herbicides in Benthic Freshwater Animals|Verh. Ges. Oekol. Jahresversamml.77:371-383|1977|
7688|A||Streufert,J.M., and H.O. Sanders|Chronic Effects of Two Phthalic Acid Esters on Midge Chironomus plumosus|Trans. Mo. Acad. Sci.10/11:297-|1977|
7690|A||Kikuchi,T., M. Kamei, S. Okubo, and M. Yasuno|Effects of the Insect Growth Regulator Methoprene and Organophosphorus Insecticides Against Non-Target Aquatic Organisms in Urban Drains|Eisei Dobutsu43(2): 65-70|1992|10.7601/mez.43.65
7691|A||Stroganov,N.S., N.N. Maksimova, and Y.I. Isakova|Long-Term Residual Effects of Polyethyleneimine on Daphnia|Hydrobiol. J.13(3): 74-82|1977|
7692|A||Stroganov,N.S., O.V. Parina, and K.F. Sorvachev|Uptake of Triethyl Tin Chloride from the Water and Its Distribution in the Organs and Tissue of the Carp|Hydrobiol. J.9(6): 45-52|1973|
7693|A||Struhsaker,J.W.|Effects of Benzene (a Toxic Component of Petroleum) on Spawning Pacific Herring, Clupea harengus pallasi|U.S.Natl.Mar.Fish.Serv.Fish.Bull.75(1): 43-49|1977|
7694|A||Zhang,G.H., M.H. Hu, and Y.P. Huang|Se Uptake and Accumulation in Marine Phytoplankton and Transfer to Se to the Clam Ruditapes philippnarum|Mar. Environ. Res.30(3): 179-190|1990|10.1016/0141-1136(90)90018-J
7697|A||Zeni,C., and A.S. Caligiuri|Morphological and Ultrastructural Changes Induced by Sublethal Concentrations of an Anionic Detergent on Ictalurus species Barbel Taste Buds|Microbios69(278): 41-52|1992|
7698|A||Ballan-Dufrancais,C., C. Marcaillou, and C. Amiard-Triquet|Response of the Phytoplanctonic Alga Tetraselmis suecica to Copper and Silver Exposure:  Vesicular Metal Bioaccumulation and Lack of Starch Bodies|Biol. Cell.72(1-2): 103-112|1991|10.1016/0248-4900(91)90084-Z
7699|A||Chien,Y.H., and Y.H. Chou|The Effects of Residual Chlorine, Temperatures and Salinities on the Development of Pacific Oyster (Crassostrea gigas)|Asian Fish. Sci.3(1): 69-84|1989|10.33997/j.afs.1989.3.1.005
7700|A||Symons,P.E.K.|Assessing and Predicting Effects of the Fenitrothion Spray Program on Aquatic Fauna|Publ.Environ.Secr.Natl.Res.Council Can.77NRCC-CNRC(16073): 391-414|1977|
7701|A||Estebenet,A.L., and N.J. Cazzaniga|Effect of Short-Term Exposure to Copper on Survival of Apple-Snails in an Integrated Control Program|J. Aquat. Plant Manag.28(2): 103-105|1990|
7702|A||Thomas,P.C., and T.L. Murthy|Effect of Phosphamidon on Hepatic and Renal Catalase of a Freshwater Bony Fish|Indian J. Fish.21(2): 594-597|1974|
7704|A||Tooby,T.E., and D.J. Macey|Absence of Pigmentation in Corixid Bugs (Hemiptera) After the Use of the Aquatic Herbicide Dichlobenil|Freshw. Biol.7:519-525|1977|10.1111/j.1365-2427.1977.tb01703.x
7706|A||Turner,W.V., J.L. Engel, and J.E. Casida|Toxaphene Components and Related Compounds: Preparation and Toxicity of Some Hepta-, Octa-, and Nonachlorobornanes, Hexa- and Heptachlorobornenes|J. Agric. Food Chem.25(6): 1394-1401|1977|10.1021/jf60214a050
7707|A||Dalla Venezia,L., and V.U. Fossato|Characteristics of Suspensions of Kuwait Oil and Corexit 7664 and Their Short-and Long-Term Effects on Tisbe bulbisetosa (Copepoda: Harpacticoida)|Mar. Biol.42(3): 233-237|1977|10.1007/BF00397747
7708|A||Verma,S.R., S.K. Bansal, and R.C. Dalela|Quantitative Estimation of Biocide Residues in a Few Tissues of Labeo rohita and Saccobranchus fossilis|Indian J. Environ. Health19(3): 189-198|1977|
7709|A||Besch,W.K., I. Schreiber, and D. Herbst|Use of Fenethcarb in Hydropsyche Toxicity Test (Der Hydropsyche-Toxizitatstest, Erprobt an Fenethcarb)|Schweiz. Z. Hydrol.39(1): 69-85|1977|
7710|A||Raine,R.C.T., J.J. Cooney, M.F. Coughlan, and J.W. Patching|Toxicity of Nuvan and Dichlorvos Towards Marine Phytoplankton|Bot. Mar.33(6): 533-537|1990|10.1515/botm.1990.33.6.533
7711|A||Weis,J.S.|Limb Regeneration in Fiddler Crabs:  Species Differences and Effects of Methylmercury|Biol. Bull.152:263-274|1977|10.2307/1540564
7712|A||Weis,P., and J.S. Weis|Methylmercury Teratogenesis in the Killifish, Fundulus heteroclitus|Teratology16(3): 317-326|1977|10.1002/tera.1420160311
7713|A||Svecevicius,G.|The Role of Olfaction in Avoidance Reactions to Pollutants by Vimba Vimba vimba (L.)|Ekologija4:3-8|1991|
7714|A||Trogisch,G.D., H. Kocher, and W.R. Ullrich|Effects of Glufosinate on Anion Uptake in Lemna gibba G 1|Z. Naturforsch. Sect. C J. Biosci.44(1/2): 33-38|1989|10.1515/znc-1989-1-206
7715|A||Wildish,D.J., and N.A. Lister|Effects of Dietary Fenitrothion on Growth and Hierarchical Position in Brook Trout|Prog. Fish-Cult.39(1): 3-9|1977|10.1577/1548-8659(1977)39[3:EODFOG]2.0.CO;2
7716|A||Coppage,D.L., E. Matthews, G.H. Cook, and J. Knight|Brain Acetylcholinesterase Inhibition in Fish As a Diagnosis of Environmental Poisoning by Malathion, O,O-Dimethyl S-(1,2-Dicarbethoxyethyl) Phosphorodithioate|Pestic. Biochem. Physiol.5(6): 536-542|1975|10.1016/0048-3575(75)90028-0
7717|A||Craigie,J.S., and O. Hutzinger|Effects of Commercial Chlorinated Hydrocarbons and Specific Chlorobiphenyls on the Growth of Seven Species of Marine Phytoplankton|Chemosphere4(3):139-144|1975|10.1016/0045-6535(75)90090-9
7718|A||Wright,D.A.|Toxicity of Fluoride to Brown Trout Fry (Salmo trutta)|Environ. Pollut.12(1): 57-62|1977|
7719|A||Suresh,K., and A. Mohandas|Hemolymph Acid Phosphatase Activity Pattern in Copper-Stressed Bivalves|J. Invertebr. Pathol.55(1): 118-125|1990|10.1016/0022-2011(90)90041-4
7720|A||Yopp,J.H., G. Albright, and D.M. Miller|Effects of Antibiotics and Ultraviolet Radiation on the Halophilic Blue-Green Alga, Aphanothece halophytica|Bot. Mar.22(5): 267-272|1979|10.1515/botm.1979.22.5.267
7721|A||Yoshinaka,R., M. Sato, and S. Ikeda|Changes in the Mechanical Strength of the Bone and in the Collagen Solubility of the Bone and the Skin of Carp Caused by beta-Aminopropionitrile|Nippon Suisan Gakkaishi (Multiple Languages)43(4): 429-435|1977|10.2331/suisan.43.429
7722|A||Sarkar,S.K.|Effects of Temperature on Eggs, Fry, and Fingerlings of Rohu (Labeo rohita) Exposed to Urea|Prog. Fish-Cult.53(4): 242-245|1991|10.1577/1548-8640(1991)053<0242:EOTOEF>2.3.CO;2
7723|A||Zambriborshch,F.S., and B. Lay|The Survival of the Young of the Grey Mullet Mugil saliens Risso in the Presence of Phenol|Hydrobiol. J.13(2): 82-84|1977|
7724|A||Gutenmann,W.H., and D.J. Lisk|Flame Retardant Release from Fabrics During Laundering and Their Toxicity to Fish|Bull. Environ. Contam. Toxicol.14(1): 61-64|1975|10.1007/BF01685600
7725|A||Vijayram,K., P. Geraldine, T.S. Varadarajan, G. John, and P. Loganathan|Cadmium Induced Changes in the Biochemistry of an Air Breathing Fish Anabas testudineus|J. Ecobiol.1(4): 245-251|1989|
7726|A||Bills,T.D., and J.B. Hunn|Changes in the Blood Chemistry of Coho Salmon Exposed to Malachite Green|Prog. Fish-Cult.38(4):214-216|1976|10.1577/1548-8659(1976)38[214:CITBCO]2.0.CO;2
7727|A||Bimber,D.L., R.W. Boenig, and M.L. Sharma|Respiratory Stress in Yellow Perch Induced by Subtoxic Concentrations of Diquat|Ohio J. Sci.76(2): 87-91|1976|
7728|A||Bisbini,P., M. Marinelli, F. Bianucci, and P. Legnani|Effect of Body Weight on the Sensitivity of Alburnus alburnus alborella to some Toxicants|Nuovi Ann. Ig. Microbiol.27(6): 557-568|1976|
7729|A||Bohm,H.H., and H. Muller|Model Studies on the Accumulation of Herbicides by Microalgae|Naturwissenschaften63(6): 296-|1976|10.1007/BF00624022
7731|A||Bookhout,C.G., J.D.,Jr. Costlow, and R. Monroe|Effects of Methoxychlor on Larval Development of Mud-Crab and Blue Crab|Water Air Soil Pollut.5(3): 349-365|1976|10.1007/BF00158350
7732|A||Jankevicius,K., S. Budriene, A. Krevs, and R. Sulijiene|Benzophosphate Effect on Green Alga Scenedesmus quadricauda Development|Ekologija4:31-36|1991|
7733|A||Wingard,C.J., and C.J. Swanson|Ventilatory Responses of Four Marine Teleosts to Acute Rotenone Exposure|J. Appl. Ichthyol.8(1-4): 132-142|1992|10.1111/j.1439-0426.1992.tb00675.x
7734|A||Beena,S., and S. Viswaranjan|Effect of Cadmium and Mercury on the Hematological Parameters of the Fish Cyprinus carpio|Environ. Ecol.5(4):726-730|1987|
7735|A||Brenner,F.J., S. Corbett, and R. Shertzer|Effect of Ferric Hydroxide Suspension on Blood Chemistry in the Common Shiner, Notropus cornutus|Trans. Am. Fish. Soc.105(3): 450-455|1976|10.1577/1548-8659(1976)105<450:EOFHSO>2.0.CO;2
7737|A||Bromage,N.R., and A. Fuchs|A Histological Study of the Response of the Interrenal Cells of the Goldfish (Carassius auratus) to Treatment with Sodium Lauryl Sulphate|J. Fish Biol.9(6): 529-536|1976|10.1111/j.1095-8649.1976.tb04702.x
7738|A||Bruskova,R.K.|Toxicity of Isophos to Daphnia magna Straus|Nauchn. Osn. Okhr. Prir.4:126-134|1976|
7739|A||Fernandez,T.V., and N.V. Jones|The Influence of Salinity and Temperature on the Toxicity of Zinc to Nereis diversicolor|Trop. Ecol.31(1): 40-46|1990|
7742|A||Buslovich,S.Y., and N.V. Borushko|Chloroderivatives of Phenoxyacetic Acid as Antagonists of Thyroid Hormones|Farmakol.Toksikol. (Moskva) (Non-English)4:481-483|1976|
7744|A||Fernandez,T.V., and N.V. Jones|Studies on the Toxicity of Zinc and Copper Applied Singly and Jointly to Nereis diversicolor at Different Salinities and Temperatures|Trop. Ecol.31(1): 47-55|1990|
7745|A||Danil'chenko,O.P., and N.S. Stroganov|Evaluation of Toxicity to the Early Ontogeny of Fishes of Substances Discharged into a Body of Water|J. Ichthyol.15(2): 311-319|1975|
7746|A||Paley,R.K., I.D. Twitchen, and F.B. Eddy|Ammonia, Na+, K+ and C1- Levels in Rainbow Trout Yolk-Sac Fry in Response to External Ammonia|J. Exp. Biol.(1): 273-284|1993|10.1242/jeb.180.1.273
7747|A||Caperon,J., and D.A. Ziemann|Synergistic Effects of Nitrate and Ammonium Ion on the Growth and Uptake Kinetics of Monochrysis lutheri in Continuous Culture|Mar. Biol.36(1): 73-84|1976|10.1007/BF00388430
7748|A||Chambers,J.E.|The Relationship of Esterases to Organophosphorus Insecticide Tolerance in Mosquitofish|Pestic. Biochem. Physiol.6(6): 517-522|1976|10.1016/0048-3575(76)90075-4
7749|A||Brkovic-Popovic,I.|Effect of Mercury on the Survival of Daphnia magna|Water Sci. Technol.22(5): 241-246|1990|10.2166/wst.1990.0035
7750|A||Claus,C.|Effect of 2,4-D on Survival and Reproduction of Daphnia magna Straus|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)41(2, Pt.2): 1467-1475|1976|
7751|A||Cook,G.H., and J.C. Moore|Determination of Malathion, Malaoxon, and Mono- and Dicarboxylic Acids of Malathion in Fish, Oyster, and Shrimp Tissue|J. Agric. Food Chem.24(3): 631-634|1976|10.1021/jf60205a051
7752|A||Cook,G.H., J.C. Moore, and D.L. Coppage|The Relationship of Malathion and its Metabolities to Fish Poisoning|Bull. Environ. Contam. Toxicol.16(3): 283-290|1976|10.1007/BF01685890
7753|T||DaSilva,E.J., L.E. Henriksson, and E. Henriksson|Effect of Pesticides on Blue-Green Algae and Nitrogen-Fixation|Arch. Environ. Contam. Toxicol.3(2): 193-204|1975|10.1007/BF02220788
7755|AT||Crowder,L.A.|Mode of Action of Cyclodiene Insecticides|EPA 600/1-76-008, U.S.EPA, Research Triangle Park, NC:74 p.|1976|
7756|A||Bremer,P.J., M.F. Barker, and M.W. Loutit|A Comparison of the Roles of Direct Absorption and Phytoplankton Ingestion in Accumulation of Chromium by Sea Urchin Larvae|Mar. Environ. Res.30(3): 233-241|1990|10.1016/0141-1136(90)90021-F
7757|A||Clark,J.R., L.R. Goodman, P.W. Borthwick, J.M.,Jr. Patrick, J.C. Moore, and E.M. Lores|Field and Laboratory Toxicity Tests with Shrimp, Mysids, and Sheepshead Minnows Exposed to Fenthion|ASTM Spec. Tech. Publ.9:161-176|1986|
7759|A||Cunningham,P.A.|Effects of Dimilin (TH 6040) on Reproduction in the Brine Shrimp, Artemia salina|Environ. Entomol.5(4): 701-706|1976|10.1093/ee/5.4.701
7760|A||Cuomo,M.G., L.S. D'Angelo, and G. Baviera|Further Investigations on the Theratogenic Effects of Veratrin Administered to the Blastoles of Anuran Amphibians|Riv. Biol.69(3-4): 277-305|1976|
7762|A||Fabacher,D.L., J.D. Davis, and D.A. Fabacher|Apparent Potentiation of the Cotton Defoliant DEF by Methyl Parathion in Mosquitofish|Bull. Environ. Contam. Toxicol.16(6): 716-718|1976|10.1007/BF01685578
7763|A||Apostol,S.|The Action of Some Pollutants on the Growth of Daphnia magna Strauss|Rev Roum Biol Ser Zool18(1): 57-69|1973|
7764|A||Di Gaudio,M.R., and H.I. Hirshfield|Respiratory Toxicity of Thallium in Paramecium bursaria|J. Cell Biol.70(2 Part 2): 60A|1976|
7767|A||Dortland,R.J., H.R. Smissaert, J. Hamoen, and M. Scholte|In Vitro and In Vivo Inhibition of Ali-Esterases and Cholinesterases by Paraoxon and Parathion in Daphnia magna Straus|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)41(2, Pt.2): 1477-1482|1976|
7768|A||Dryl,S., and K. Mehr|Physiological and Toxic Effects of Detergents on Paramecium caudatum|Acta Protozool.15(4): 501-513|1976|
7769|A||Cripe,G.M., D.J. Hansen, S.F. Macauley, and J. Forester|Effects of Diet Quantity on Sheepshead Minnows (Cyprinodon variegatus) During Early Life-Stage Exposures to Chlorpyrifos|ASTM Spec. Tech. Publ.9:450-460|1986|
7770|A||Hwang,D.F., M.R. Tsai, T. Yoshida, and S.S. Jeng|Toxicity and Excretion of Butylated Hydroxytoluene (BHT) Through Feed in Japanese Eel|Nippon Suisan Gakkaishi (Multiple Languages)58(1): 69-74|1992|10.2331/suisan.58.69
7771|A||Tsuda,T., M. Wada, S. Aoki, and Y. Matsui|Excretion of Bis(Tri-n-Butyltin)Oxide and Triphenyltin Chloride from Carp|Toxicol. Environ. Chem.16(1): 17-22|1987|10.1080/02772248709357244
7772|A||Jop,K.M., J.H.,Jr. Rodgers, P.B. Dorn, and K.L. Dickson|Use of Hexavalent Chromium as a Reference Toxicant in Aquatic Toxicity Tests|ASTM Spec. Tech. Publ.9:390-403|1986|
7773|A||Fankhauser,H., C. Brunold, and K.H. Erismann|The Influence of Sublethal Concentrations of Sulfur Dioxide on Morphology, Growth and Product Yield of the Duckweed Lemna minor L.|Oecologia23(3): 201-209|1976|10.1007/BF00361236
7774|A||Fava,G., and L. Dalla Venezia|Effects of a Commercial Detergent on Copepods of the Genus Tisbe (Copepoda harbacticoida)|Atti Ist. Veneto Sci. , Lett. Arti, Cl. Sci. Mat. Nat.134:221-237|1976|
7775|A||Federle,P.F., and W.J. Collins|Insecticide Toxicity to Three Insects from Ohio Ponds|Ohio J. Sci.76(1): 19-24|1976|
7777|A||Fisher,W.S., T.R. Rosemark, and R.A. Shleser|Toxicity of Malachite Green to Cultured American Lobster Larvae|Aquaculture8:151-156|1976|10.1016/S0044-8486(76)80071-3
7778|A||Fitzpatrick,G., and D.J. Sutherland|Uptake of the Mosquito Larvicide Temefos by the Salt Marsh Snail, New Jersey - 1973-1974|Pestic. Monit. J.10(1): 4-6|1976|
7779|A||Outridge,P.M., and T.C. Hutchinson|Effects of Cadmium on Integration and Resource Allocation in the Clonal Fern Salvinia molesta|Oceanologia (Wroc.)84(2): 215-223|1990|
7780|A||Benton,M.J., and S.I. Guttman|Relationship of Allozyme Genotype to Survivorship of Mayflies (Stenonema femoratum) Exposed to Copper|J. North Am. Benthol. Soc.9(3): 271-276|1990|10.2307/1467590
7781|A||MacCubbin,A.E., and J.J. Black|Passive Perchorionic Carcinogen Bioassay Using Rainbow Trout (Salmo gairdneri) Embryos|ASTM Spec. Tech. Publ.9:277-286|1986|
7782|A||Smolowitz,R.M., M.E. Schultz, and J.J. Stegeman|Cytochrome P4501A Induction in Tissues, Including Olfactory Epithelium, of Topminnows (Poeciliopsis spp.) by Waterborne Benzo(a)pyrene|Carcinogenesis13(12): 2395-2402|1992|10.1093/carcin/13.12.2395
7783|A||Goldsmith,L.A., G.P. Carlson, and G.C. Fuller|Toxicity and Identification of Parathion Metabolites in Freshwater Crayfish (Cambarus) and Snail (Viviparus)|Pharmacologist18(2): 170-|1976|
7784|A||El-Deen,M.A.S., and W.A. Rogers|Acute Toxicity and Some Hematological Changes in Grass Carp Exposed to Diquat|J. Aquat. Anim. Health4(4): 277-280|1992|10.1577/1548-8667(1992)004<0277:ATASHC>2.3.CO;2
7786|A||Greenhouse,G.|Effects of Pollutants on Eggs, Embryos and Larvae of Amphibian Species|Air Force Tech.Rep.AMRL-TR-76-31, University of California, Irvine, CA:24 p.|1976|
7787|A||Greenhouse,G.|Effects of Pollutants on Embryos and Larvae of Amphibian Species|Air Force Tech.Rep.AMRL-TR-76-59, University of California, Irvine, CA:14 p.|1976|
7788|A||Greenhouse,G.|The Evaluation of Toxic Effects of Chemicals in Fresh Water by Using Frog Embryos and Larvae|Environ. Pollut.11(4): 303-315|1976|
7789|A||Ribeyre,F.|"Evolution of Mercury Distribution Within an Experimental System ""Water-Sediment-Macrophytes (Elodea densa)"""|Environ. Technol.14(3):201-214|1993|10.1080/09593339309385282
7790|A||Schultz,T.W., M. Cajina-Quezada, and J.N. Dumont|Structure-Toxicity Relationships of Selected Nitrogenous Heterocyclic Compounds|Arch. Environ. Contam. Toxicol.9(5): 591-598|1980|10.1007/BF01056938
7791|A||Guarino,A.M., G. Rieck, S. Arnold, P. Fenstermacher, J. Bend, M.J. Knutson, and J.B. Anderson|Distribution and Toxicity of Selected Water Pollutants in the Spiny Dogfish, Squalus acanthias|Bull. Mt. Desert Isl. Biol. Lab.16:50-53|1976|
7792|A||Gunkel,G., and H. Kausch|Acute Toxicity of Atrazine (S-Triazine) on Coregonus fera Under Starvation Conditions|Arch. Hydrobiol.48(2): 207-234|1976|
7793|A||Gyllenberg,G., and G. Lundqvist|Some Effects of Emulsifiers and Oil on Two Copepod Species|Ann. Zool. Fennici148:1-24|1976|
7794|A||Singh,N.N., and A.K. Srivastava|Effect of Sublethal Concentration of Propoxur on Some Hematological Parameters of Freshwater Indian Catfish, Heteropneustes fossilis|J. Nat. Conserv.3(2): 121-125|1991|
7795|A||Hanks,K.S.|Toxicity of Some Chemical Therapeutics to the Commercial Shrimp, Penaeus californiensis|Aquaculture7:293-294|1976|10.1016/0044-8486(76)90148-4
7796|A||Hansen,C.R.,Jr., and J.A. Kawatski|Application of 24-Hour Postexposure Observation to Acute Toxicity Studies with Invertebrates|J. Fish. Res. Board Can.33(5): 1198-1201|1976|10.1139/f76-153
7797|A||Harada,T., T. Aikawa, Y. Abo, F. Iida, and J. Hatanaka|Influence of the Chemical Carcinogen Orthoaminoazotoluene (OAT) on the Fish Oryzias latipes. I. Influence on the Liver|Bull. Nippon Vet. Anim. Sci. Univ.25:34-44|1976|
7798|A||Hawks,B.G., and R.W. Lee|Methyl Methanesulfonate Mutagenesis of Synchronized Chlamydomonas|Mutat. Res.37(2-3): 221-228|1976|10.1016/0027-5107(76)90036-1
7800|A||Potera,G.T.|The Effects of Benzene, Toluene and Ethylbenzene on Several Important Members of the Estuarine Ecosystem|Ph.D.Thesis, Lehigh University, Bethlehem, PA:108 p.|1975|
7801|A||Tamulinas,S.H.|The Effects of Antimony Trioxide on Channel Catfish, Ictalurus punctatus|Ph.D. Thesis, Texas A&M University, College Station TX:80 p.|1979|
7802|A||Holmberg,D.J., and G.F. Lee|Effects and Persistence of Endothall in the Aquatic Environment|J. Water Pollut. Control Fed.48(23): 2738-2746|1976|
7803|A||Schubauer,J.P., C.L. Scott, K.T. Kowalski, and J.R. Spotila|Effect of Tetracycline Hydrochloride Treatment on the Critical Thermal Maximum of Common Shiners|Prog. Fish-Cult.42(1): 48-49|1980|10.1577/1548-8659(1980)42[48:EOTHTO]2.0.CO;2
7804|A||Houston,A.H., and R.J. Woods|Influence of Temperature upon Tricaine Methane Sulphonate Uptake and Induction of Anesthesia in Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.54(1): 1-6|1976|10.1016/0306-4492(76)90016-2
7806|A||Imada,K.|Studies on the Vertebral Malformation of Fishes III. Vertebral Deformation of Goldfish (Carassius auratus) and Medakafish (Olyzias latipes) Exposed to Carbamate Insecticides|Hokkaidoritsu Suisan Fukajo Kenkyu Hokoku (Sci. Rep. Hokkaido Fish Hatchery)31:43-65|1976|
7807|A||Kramer,V.J., M.C. Newman, M. Mulvey, and G.R. Ultsch|Glycolysis and Krebs Cycle Metabolites in Mosquitofish, Gambusia holbrooki, Girard 1859, Exposed to Mercuric Chloride: Allozyme Genotype Effects|Environ. Toxicol. Chem.11(3): 357-364|1992|10.1897/1552-8618(1992)11[357:GAKCMI]2.0.CO;2
7808|A||Ivanov,V.N., T.G. Usenko, and A.V. Parkhomenko|Effect of Hydrogen Sulfide on the Survival Rate of Eggs and Embryonal Mitoses of the Black Sea Turbot|Hydrobiol. J.12(2): 60-62|1976|
7809|A||Philpot,R.M., M.O. James, and J.R. Bend|Metabolism of Benzo(a)pyrene and Other Xenobiotics by Microsomal Mixed-Function Oxidases in Marine Species|Publ. - Am. Inst. Biol. Sci.:184-199|1976|
7810|A||Kwan,K.H.M., and S. Smith|Some Aspects of the Kinetics of Cadmium and Thallium Uptake by Fronds of Lemna minor L|New Phytol.117(1): 91-102|1991|10.1111/j.1469-8137.1991.tb00948.x
7811|A||Fritz,L.W., G. Ferrence, and T.R. Jacobsen|Induction of Barite Mineralization in the Asiatic Clam Corbicula fluminea|Limnol. Oceanogr.37(2): 442-448|1992|10.4319/lo.1992.37.2.0442
7812|A||Shimizu,A., and S. Kimura|Acute Toxicity of Triphenyltin Chloride (TPTC) to the Saltwater Goby, Chasmichthys dolichognathus in Natural Seawater and Artificial Seawater|Bull. Natl. Res. Inst. Fish. Sci.2:33-39|1991|
7813|AT||Johnson,C.R.|Herbicide Toxicities in Some Australian Anurans and the Effect of Subacute Dosages on Temperature Tolerance|Zool. J. Linn. Soc.59(1): 79-83|1976|10.1111/j.1096-3642.1976.tb01010.x
7814|A||Johnson,C.R., and J.E. Prine|The Effects of Sublethal Concentrations of Organophosphorus Insecticides and an Insect Growth Regulator on Temperature Tolerance in Hydrated and Dehydrated Juvenile Western Toads, Bufo boreas|Comp. Biochem. Physiol. A Comp. Physiol.53(2): 147-149|1976|10.1016/S0300-9629(76)80045-X
7815|A||Johnson,S.K.|Twenty-Four Hour Toxicity Tests of Six Chemicals to Mysis Larvae of Penaeus setiferus|Fish Dis. Diagn. Lab. , Tex. Agric. Ext. Ser. , College Station, TXS8:2 p.|1976|
7816|A||Kelly,J.R., S.N. Levine, L.A. Buttel, K.A. Carr, D.T. Rudnick, and R.D. Morton|The Effects of Tributyltin Within a Thalassia Seagrass Ecosystem|Estuaries13(3): 301-310|1990|10.2307/1351921
7817|A||Khan,D., and M.A. Haseeb|Effect of Some Insecticides on Two Species of Freshwater Cercariae|Pak. J. Zool.8(2): 173-176|1976|
7818|A||Khudolei,V.V., and V.S. Ermoshchenkov|Carcinogenic Action of Diethylstilbestrol on Frogs|Bull. Exp. Biol. Med.81(6): 898-900|1976|10.1007/BF00803017
7819|A||Harland,A.D., G.W. Bryan, and B.E. Brown|Zinc and Cadmium Absorption in the Symbiotic Anemone Anemonia viridis and the Non-Symbiotic Anemone Actinia equina|J. Mar. Biol. Assoc. U.K.70(4):789-802|1990|10.1017/S0025315400059063
7820|A||Hayasaka,S.S., and T.E. Schwedler|Effects of Trichlorfon on the Immune Response of Channel Catfish|South Carolina Water Resour.Res.Inst., Rep.No.133, Clemson, SC:19-|1991|
7821|A||Kligerman,A.D., and S.E. Bloom|Sister Chromatid Differentiation and Exchanges in Adult Mudminnows (Umbra limi) After In Vivo Exposure to 5-Bromodeoxyuridine|Chromosoma (Berl.)56(2): 101-109|1976|10.1007/BF00293110
7822|A||Kobayashi,K., H. Akitake, and S. Kimura|Studies on the Metabolism of Chlorophenols in Fish. - VI.  Turnover of Absorbed Phenol in Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)42(1): 45-50|1976|10.2331/suisan.42.45
7823|A||Hanna,T.D.|The Effect of Oxygen Supplementation on the Toxicity of Ammonia (NH3) in Rainbow Trout Oncorhynchus mykiss (Richardson)|M.S.Thesis, Montana State University, Bozeman, MT:51 p.|1992|
7824|A||Shimizu,A., and S. Kimura|Long-Term Effects of Bis(n-Tributyltin)Oxide (TBTO) on Salt-Water Goby Chasmichothys dolichognathus|Nippon Suisan Gakkaishi (Multiple Languages)58(9): 1595-1602|1992|10.2331/suisan.58.1595
7825|A||Opperhuizen,A.|Bioconcentration of Hydrophobic Chemicals in Fish|ASTM Spec. Tech. Publ.9:304-315|1986|
7826|A||Granmo,A., and S. Kollberg|Uptake Pathways and Elimination of a Nonionic Surfactant in Cod (Gadus morrhua L.)|Water Res.10(3): 189-194|1976|10.1016/0043-1354(76)90126-3
7828|A||Kopecek,K., F. Fuller, W. Ratzmann, and W. Simonis|The Light Dependent Effect of Insecticides on Unicellular Algae. (Lichtabhangige Insektizidwirkungen auf Einzellige Algen)|Ber. Dtsch. Bot. Ges. (Non-English)88(2): 269-281|1975|10.1111/j.1438-8677.1975.tb02464.x
7829|A||Kuroshima,R.|Effects of Acute Exposure to Cadmium on the Electrolyte Balance in Plasma of the Carp and Girella|Nippon Suisan Gakkaishi (Multiple Languages)58(6): 1139-1144|1992|10.2331/suisan.58.1139
7830|A||Kuroshima,R.|Comparison of Cadmium Accumulation in Tissues Between Carp Cyprinus carpio and Red Sea Bream Pagrus major|Nippon Suisan Gakkaishi (Multiple Languages)58(7):1237-1242|1992|10.2331/suisan.58.1237
7831|A||Korn,S., N. Hirsch, and J.W. Struhsaker|Uptake, Distribution, and Depuration of 14C-Benzene in Northern Anchovy, Engraulis mordax, and Striped Bass, Morone saxatilis|U.S.Natl.Mar.Serv.Fish.Bull.74(3): 545-551|1976|
7832|A||Korn,S., J.W. Struhsaker, and P.,Jr. Benville|Effects of Benzene on Growth, Fat Content, and Caloric Content of Striped Bass, Morone saxatilis|U.S.Natl.Mar.Fish.Serv.Fish.Bull.74(3): 694-698|1976|
7834|A|RUSSN|Kravchenko,M.E., and L.D. Gapochka|Toxic Effect of Detergents on a Synechocystis aquatilis Culture|Vestn. Mosk. Univ. Biol. Pochvoved.31(4): 73-77|1976|
7835|A||Pesch,C.E., P.S. Schauer, and M.A. Balboni|Effect of Diet on Copper Toxicity to Neanthes arenaceodentata (Annelida: Polychaeta)|ASTM Spec. Tech. Publ.9:369-383|1986|
7836|A||Kudamatsu,A.|Tokuthion:  A new Organophosphorus Insecticide with Low Mammalian Toxicity|Jpn. Pestic. Inf.26:14-17|1976|
7838|A||Stahl,R.G.J., and R.M. Kocan|Influence of Age on Patterns of Uptake and Excretion of Polycyclic Aromatic Hydrocarbons in the Rainbow Trout Embryo|ASTM Spec. Tech. Publ.9:287-303|1986|
7839|A||Ary,R.D.J., and M.A. Poirrier|Acute Toxicity of Nitrite to the Blue Crab (Callinectes sapidus)|Prog. Fish-Cult.51(2): 69-72|1989|10.1577/1548-8640(1989)051<0069:ATONTT>2.3.CO;2
7840|A||Lee,R.W., and R.F. Jones|Lethal and Mutagenic Effects of Nitrosoguanidine on Synchronized Chlamydomonas|Mol. Gen. Genet.147(3): 283-289|1976|10.1007/BF00582879
7841|A||Leeuwangh,P., W. Nijman, H. Visser, Z. Kolar, and J.J.M. De Goey|Toxicity of Triphenyltin Fungicides in the Aquatic Environment|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)41(2, Pt.2): 1483-1490|1976|
7842|A||Lone,K.P., and M.Y. Javaid|Effect of Sublethal Doses of Three Organophosphorus Insecticides on the Haematology of Channa punctatus (Bloch)|Pak. J. Zool.8(1): 77-84|1976|
7843|A||Lonning,S., and B.E. Hagstrom|Deleterious Effects of Corexit 9527 on Fertilization and Development|Mar. Pollut. Bull.7(7): 124-127|1976|10.1016/0025-326X(76)90197-1
7844|A||Luczak,J., M. Rybak, and D. Zycinski|Wplyw Chlorofenu Na Organizmy Wodne Oraz Charakterstyka Chemiczna Zmian W Srodowisku Wodnym Pod Wplywem Tego Preparatu. (Effect of Chlorophen on|Rocz. Panstw. Zakl. Hig. (Multiple Languages):555-561|1976|
7845|A||Ward,D.V., B.L. Howes, and D.F. Ludwig|Interactive Effects of Predation Pressure and Insecticide (Temefos) Toxicity on Populations of the Marsh Fiddler Crab Uca pugnax|Mar. Biol.35(2): 119-126|1976|10.1007/BF00390933
7846|A||Lunn,C.R., D.P. Toews, and D.J. Pree|Effects of Three Pesticides on Respiration, Coughing, and Heart Rates of Rainbow Trout (Salmo gairdneri Richardson)|Can. J. Zool.54(2): 214-219|1976|10.1139/z76-023
7847|A||Lunz,J.D.|The Importance of Particulate Clay Minerals in the Uptake and Accumulation of Copper by the American Oyster, Crassostrea virginica (Gmelin)|M.S.Thesis, Long Island University, Greenvale, NY:48 p.|1972|
7848|A||Maki,A.W., and H.E. Johnson|Evaluation of a Toxicant on the Metabolism of Model Stream Communities|J. Fish. Res. Board Can.33(12): 2740-2746|1976|10.1139/f76-325
7849|A||Maki,A.W., and H.E. Johnson|The Freshwater Mussel (Anodonta sp.) as an Indicator of Environmental Levels of 3-Trifluoro-Methyl-4-Nitrophenol (TFM)|Invest.Fish Control No.70, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:5 p.|1976|
7850|A||Manner,H.W., and C. Muehleman|LAS Inhibition of Diffusion and Uptake of Tritiated Uridine During Teleost Embryogenesis|Environ. Biol. Fishes1(1): 81-84|1976|10.1007/BF00761730
7851|A||Banks,J.L.|The Effect of Lead Acetate on Cells and Chlorophyll Content of Chlorella pyrenoidosa|M.S.Thesis, Ohio State University, Columbus, OH:56 p.|1972|
7852|A||Lenon,H.L.|Translocations and Storage Equilibria Involving Sublethal Levels of Dieldrin in Aquatic Ecosystems|Ph.D. Thesis, Michigan State University, East Lansing, MI:85 p.|1968|
7853|A||Marking,L.L., and T.D. Bills|Toxicity of Rotenone to Fish in Standardized Laboratory Tests|Invest.Fish Control No.72, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:11 p.|1976|
7854|A||Johnson,H.E.|The Effects of Endrin on the Reproduction of a Freshwater Fish (Oryzias latipes)|Ph.D. Thesis, University of Washington, Seattle, WA:137 p.|1967|
7856|A||Dowden,B.F.|Effects of Five Insecticides on the Oxygen Consumption of the Bluegill Sunfish, Lepomis macrochirus|Ph.D.Thesis, Louisiana State University, Baton Rouge, LA:104 p.|1966|
7857|A||Mauck,W.L., F.L.,Jr. Mayer, and D.D. Holz|Simazine Residue Dynamics in Small Ponds|Bull. Environ. Contam. Toxicol.16(1): 1-8|1976|10.1007/BF01753097
7858|A||Mayer,F.L.|Residue Dynamics of Di-2-Ethylhexyl Phthalate in Fathead Minnows (Pimephales promelas)|J. Fish. Res. Board Can.33:2610-2613|1976|10.1139/f76-309
7859|A||Mehrle,P.M., and F.L. Mayer|Di-2-Ethylhexyl Phthalate: Residue Dynamics and Biological Effects in Rainbow Trout and Fathead Minnows|Trace Subst. Environ. Health10:519-524|1976|
7860|A||Leland II,H.V.|Biochemical Factors Affecting Toxicity of Parathion and Selected Analogs to Fishes|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:123 p.|1968|
7861|A||Hair,E.M.|Effects of Dieldrin on Walleye Egg Development, Hatching and Fry Survival|Ph.D. Thesis, The Ohio State University, Columbus, OH:46 p.|1972|
7862|A||Hughes,D.N.|The Effects of Three Organophosphorus Insecticides on Zooplankton and Other Invertebrates in Natural and Artificial Ponds|M.S.Thesis, York Univ., Toronto, CanadA:100 p.|1977|
7863|A||Weete,J.D., P. Pillai, and D.D. Davis|Metabolism of Atrazine by Spartina alterniflora.  2.  Water-Soluble Metabolites|J. Agric. Food Chem.28(3): 636-640|1980|10.1021/jf60229a012
7864|A||Ferens,M.C.|The Impact of Mercuric Ions on Benthos and Periphyton of Artificial Streams|Ph.D.Thesis, University of Georgia, Athens, GA:100 p.|1974|
7865|A||LaPoint,T.W., and J.F. Fairchild|Use of Mesocosm Data to Predict Effects in Aquatic Ecosystems:  Limits to Interpretation|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:241-255|1994|
7866|A||Mulla,M.S., and H.A. Darwazeh|Field Evaluation of New Mosquito Larvicides and Their Impact on Some Nontarget Insects|Mosq. News36(3): 251-256|1976|
7867|A||Nakashima,H., and T. Tsudzuki|Uptake of Uridine by a Long-Day Duckweed, Lemna gibba G3|Plant Cell Physiol.17(4): 701-711|1976|10.1093/oxfordjournals.pcp.a075326
7868|A||Kleinow,K.M.|The Uptake, Disposition, and Elimination of Selenate, Selenite and Selenomethionine in the Fathead Minnow (Pimephales promelas)|Ph.D.Thesis, University of Wisconsin, Milwaukee, WI:68 p.|1984|
7869|A||Nimbargi,P.M., and S.S. Rodgi|Toxicity Studies of Dimecron to the Freshwater Prawn, Cairdina sp|Marathwada Univ. J. Sci.15(8): 45-49|1976|
7870|A||Liss,W.J.|The Dynamics of Exploited Guppy Populations Exposed to Dieldrin|M.S.Thesis, Oregon State University, Corvallis, OR:73 p.|1974|
7871|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Fresh Water Organisms. XXXIV|Suisan Zoshoku (Non-English)23(4): 178-178|1976|
7872|A||Tafanelli,R.|Effects of Intraperitoneal Injections of Cadmium Chloride on Gonads, Liver and Kidney of Goldfish, Carassius auratus (Linnaeus)|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:101 p.|1972|
7874|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Fresh Water Organisms.  XXXIX|Suisan Zoshoku (Non-English)24(3): 102-105|1976|
7875|A||Nyberg,H.|The Effects of Some Detergents on the Growth of Nitzschia holsatica Hust. (Diatomeae)|Ann. Bot. Fenn.13(2): 65-68|1976|
7876|A||O'Kelley,J.C., and T.R. Deason|Degradation of Pesticides by Algae|EPA-600/3-76-022, U.S.EPA, Athens, GA:41 p.|1976|
7877|A||Applegate,V.C., J.H. Howell, J.W. Moffett, B.G.H. Johnson, and M.A. Smith|Use of 3-Trifluormethyl-4-Nitrophenol as a Selective Sea Lamprey Larvicide|Tech. Rep. Great Lakes Fish. Comm.:35 p.|1961|
7878|A||MacPhee,C., and R. Ruelle|A Chemical Selectively Lethal to Squawfish (Ptychocheilus oregonensis and P. umpquae)|Trans. Am. Fish. Soc.98:676-684|1969|10.1577/1548-8659(1969)98[676:ACSLTS]2.0.CO;2
7879|A||Ozaki,H., and Y. Ikeda|On the Pharmacological Effects of Diisopropyl-Naphthalene on Yellow-Tail|J. Tokyo Univ. Fish.62(2): 147-157|1976|
7881|A||Panwar,R.S., D. Kapoor, H.C. Joshi, and R.A. Gupta|Toxicity of Some Insecticides to the Weed Fish, Trichogaster fasciatus (Bloch and Schneider)|J. Inl. Fish. Soc. India8:129-130|1976|
7882|A||Patnaik,S., and V. Ramachandran|Control of Blue-Green Algal Blooms with Simazine in Fish Ponds|In: C.K.Varshney and J.Rzoska (Eds.), Regional Seminar on Noxious Aquatic Vegetation.Aquatic Weeds in Southeast Asia, New Delhi, India:285-291|1976|
7883|A||Paulov,S.|The Effects of the Herbicides Burex, Zeazin-50, and Aminex on the Development of Amphibia  (Ucinky Herbicidov Burex, Zeazin-50 a Aminex Na Vyvoj Obojzivelnikov)|Agrochemia (Bratisl.) (Multiple Languages)16(4): 102-103|1976|
7884|A||Ziegenfuss,P.S., W.J. Renaudette, and W.J. Adams|Methodology for Assessing the Acute Toxicity of Chemicals Sorbed to Sediments: Testing the Equilibrium Partitioning Theory|ASTM Spec. Tech. Publ.9:479-493|1986|
7885|A||Moukrim,A., D. Rondelaud, and D. Barthe|The Effects of a Sublethal Dose of Trichlorfon in the Mollusc Lymnaea peregra ovata Muller. About Some Histopathological Observations|Bull. Soc. Zool. Fr. (Multiple Languages)113(4): 381-386|1988|
7886|A||Pequignot,J., and A. Moga|Effect of Various Toxins (Pb, Cu, Formol, NH4) in the Carp:  Histological Alterations in the Excretory and Hematopoietic Organs|TR-81-0389, Literature Research Company, Annandale, VA:17 p.|1975|
7887|A||Burress,R.M., and C.W. Luhning|Field Trials of Antimycin as a Selective Toxicant in Channel Catfish Ponds|Investig.Fish Control No.25, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:12 p.|1969|
7889|A|RUSSN|Pokrovskaya,N.N., and T.U. Maksudov|Toxic Effect of Herbicides on the Growth of Blue-Green Algae and Their Nitrogen-Fixing Activity Under Laboratory Culturing Conditions|Uzb. Biol. Z. (Non-English)3:19-22|1976|
7890|A|RUSSN|Popova,G.V.|Characteristics of the Effect of the Herbicide Prometryn on Fish|Nauchn. Osn. Okhr. Prir.4:118-125|1976|
7891|A||Dawson,V.K., K.B. Cumming, and P.A. Gilderhus|Laboratory Efficacy of 3-Trifluoromethyl-4-Nitrophenol (TFM) as a Lampricide|Invest.Fish Control No.63, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:13 p.|1975|
7892|A||Prokopenko,V.A., L.D. Zhiteneva, N.P. Sokol'skaya, T.I. Kalyuzhnaya, V.P. Zavgorodnyaya, and L.N. Isaeva|Comparative Evaluation of the Effect of Malathion on Yearlings of Some Fish Species|Tr. Vses. Nauchno-Issled. Inst. Morsk. Rybn. Khoz. Okeanogr.109:199-209|1976|
7893|A||Prokopenko,V.A., L.D. Zhiteneva, N.P. Sokol'skaya, T.I. Kalyuzhnaya, V.P. Zavgorodnyaya, L.N. Isayeva, and Z.N. Kopylov|Toxicity of Carbophos for Certain Aquatic Organisms|Hydrobiol. J.12(5): 36-40|1976|
7895|A||Quistad,G.B., D.A. Schooley, L.E. Staiger, B.J. Bergot, B.H. Sleight, and K.J. Macek|Environmental Degradation of the Insect Growth Regulator Methoprene. IX. Metabolism by Bluegill Fish|Pestic. Biochem. Physiol.6(6): 523-529|1976|10.1016/0048-3575(76)90076-6
7896|A||Ranganathan,V.S.|Effects of Dimethyl Sulfoxide on the Pellicle of the Peritrich Ciliate Vorticella nebulifera|Trans. Am. Microsc. Soc.95(3): 394-399|1976|10.2307/3225132
7897|A||Gilderhus,P.A., B.L. Berger, and R.E. Lennon|Field Trials of Antimycin A as a Fish Toxicant|Investig.Fish Control No.27, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:21 p.|1969|
7898|A||Rubin,A.J., and M.A. Elmaraghy|Studies on the Toxicity of Ammonia, Nitrate and Their Mixtures to the Common Guppy|Water Resour.Ctr.Rep.No.490, Ohio State Univ., Columbus, OH:47 p.|1976|
7899|A||Chumnantana,R., J. Sanguansin, and J. Koyama|Study on Acute Toxicity Test of Cadmium to Red Snapper Juvenile, Lutjanus argentimaculatus (Forskal)|Thai Mar. Fish. Res. Bull.3:55-59|1992|
7903|A||Didia,V., R. Lasalle, and K. Liem|The Effects of Abate 2G Mosquito Larvicide on Selected Non-Target Organisms Collected from Forested Temporary Pools|Mosq. News35(2): 227-228|1975|
7904|A||Divavin,I.A.|Influence of Petroleum and Phenol on Certain Properties of the Nucleic Acids of Black Sea Shrimp|Sov. J. Mar. Biol.3:218-220|1975|
7905|AT||Dragomirescu,A., L. Raileanu, and L. Ababei|The Effect of Carbetox on Glycolysis and the Activity of Some Enzymes in Carbohydrate Metabolism in the Fish and Rat Liver|Water Res.9(2): 205-209|1975|10.1016/0043-1354(75)90010-X
7906|A||Edwards,A.C., and D.E. Davis|Effects of an Organic Arsenical Herbicide on a Salt Marsh Ecosystem|J. Environ. Qual.4(2): 215-219|1975|10.2134/jeq1975.00472425000400020017x
7907|A||Abdullah,A.M., and M.P. Ireland|Seasonal Studies on Cadmium Concentration and Toxicity, Oxygen Consumption, Digestive Gland Glycogen, and Lipid in Dog Whelks Collected at Aberystwyt|Mar. Pollut. Bull.17(12): 562-566|1986|10.1016/0025-326X(86)90571-0
7908|A||Nowak,B.|Accumulation of Endosulfan by Catfish After Acute Exposure to Sublethal Concentrations|Verh. Int. Ver. Theor. Angew. Limnol.24(4): 2560-2562|1991|
7909|A||Nowak,B., and R.I.M. Sunderam|Toxicity and Bioaccumulation of Endosulfan to Mosquitofish, Gambusia affinis (Baird and Girard)|Verh. Int. Ver. Theor. Angew. Limnol.24(4): 2327-2329|1991|
7910|A||Fantin,A.M.B., and A. Franchini|Ultrastructural Changes in the Ganglia of Viviparus ater Following Experimental Lead intoxication|J. Invertebr. Pathol.56(3):387-394|1990|10.1016/0022-2011(90)90126-Q
7911|A||Jin,H., Y. Zhang, and R. Yang|Toxicity and Distribution of Copper in an Aquatic Microcosm Under Different Alkalinity and Hardness|Chemosphere22(5-6): 577-596|1991|10.1016/0045-6535(91)90069-P
7912|A||Solymosy,S.L., and F.W. Zurburg|Further Studies with 2,4-D and Diglycolic Acid as a Herbicide for Submerged Aquatic Weeds|Proc. South. Weed Conf.:517-520|1965|
7913|A||Amiard,J.C., C. Amiard-Triquet, B. Berthet, and C. Metayer|Comparative Study of the Patterns of Bioaccumulation of Essential (Cu, Zn) and Non-Essential (Cd, Pb) Trace Metals in Various Estuarine and Coastal Organisms|J. Exp. Mar. Biol. Ecol.106(1): 73-89|1987|10.1016/0022-0981(87)90148-1
7914|A||Eyman,L.D., C.W. Gehrs, and J.J. Beauchamp|Sublethal Effect of 5-Chlorouracil on Carp (Cyprinus carpio) Larvae|J. Fish. Res. Board Can.32(11):2227-2229|1975|10.1139/f75-264
7916|A||Fisher,J.S.|The Sublethal Effects of Hydrogen Sulfide on Crab Behavior Patterns|M.S.Thesis, University of New Hampshire, Durham, NH:50 p.|1978|
7917|A||Fitzpatrick,G.|Impact of Temefos and Other Mosquito Larvicides on the Salt Marsh Snail Melampus bidentatus Say (Basommatophora: Ellobiidae)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ36(5): 120 p.|1975|
7918|A||Asztalos,B.|LDH Enzyme As a Tool on Monitoring Tissue Necrosis in Fishes Caused by Pesticides|Acta Biol. Hung.37(1): 59-65|1986|
7919|A||Bay,S.M., P.S. Oshida, and K.D. Jenkins|A Simple New Bioassay Based on Echinochrome Synthesis by Larval Sea Urchins|Mar. Environ. Res.8(1): 29-39|1983|10.1016/0141-1136(83)90045-4
7920|A||Fontaine,C.T., R.G. Bruss, I.A. Sanderson, and D.V. Lightner|Histopathological Response to Turpentine in the White Shrimp, Penaeus setiferus|J. Invertebr. Pathol.25(3): 321-330|1975|10.1016/0022-2011(75)90089-0
7923|A||Pfuderer,P., and A.A. Francis|Phthalate Esters: Heartrate Depressors in the Goldfish|Bull. Environ. Contam. Toxicol.13(3): 275-279|1975|10.1007/BF01685335
7924|A||Freimane,T.K., and M.V. Grundule|Quantitative Changes of Lipid Fractions in Various Carp Tissues Under the Influence of Phenazone|Latv. PSR Zinat. Akad. Vestis (Multiple Languages)(9): 85-88|1975|
7925|A||Ganz,C.R., J. Schulze, P.S. Stansby, F.L. Lyman, and K. Macek|Accumulation and Elimination Studies of Four Detergent Fluorescent Whitening Agents in Bluegill (Lepomis macrochirus)|Environ. Sci. Technol.9(8): 738-744|1975|10.1021/es60106a005
7926|A||Jeney,G., J. Nemcsok, Z. Jeney, and J. Olah|Acute Effect of Sublethal Ammonia Concentrations on Common Carp (Cyprinus carpio L.). II. Effect of Ammonia on Blood Plasma Transaminases (GOT, GPT)|Aquaculture104(1-2): 149-156|1992|10.1016/0044-8486(92)90145-B
7927|A||Ghandour,A.M., and G. Webbe|The Effect of Sublethal Concentrations of the Molluscicide Niclosamide on the Infectivity of Schistosoma mansoni Cercariae|J. Helminthol.49(4): 245-250|1975|10.1017/S0022149X00026249
7928|A||Chen,J.C., and Y.Z. Kou|Effects of Ammonia on Growth and Molting of Penaeus japonicus Juveniles|Aquaculture104(3-4): 249-260|1992|10.1016/0044-8486(92)90207-2
7929|A||Bruner,K.A., and S.W. Fisher|The Effects of Temperature, pH, and Sediment on the Fate and Toxicity of 1-Naphthol to the Midge Larvae Chironomus riparius|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control28(6): 1341-1360|1993|
7930|A||Qichen,C., Z. Kejien, and Z. Guanwen|A Comprehensive Investigation on the Toxic Effects of Heavy Metals on Fish|Shuichan Xuebao (Non-English)12(1): 21-33|1988|
7931|A||Cook,P.M., D.W. Kuehl, M.K. Walker, and R.E. Peterson|Bioaccumulation and Toxicity of TCDD and Related Compounds in Aquatic Ecosystems|In: M.A.Gallo, R.J.Sheuplein, and K.A.Van der Heijden (Eds.), Banbury Report 35: Biological Basis for Risk Assessment of Dioxins and Related Compounds, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY:143-167|1991|
7933|A||Samecka-Cymerman,A., and A.J. Kempers|Tolerance of Scapania undulata (L.) Dum. to Fluoride|Aquat. Bot.37(2):163-170|1990|10.1016/0304-3770(90)90089-4
7934|A||Granmo,A., and G. Jorgensen|Effects on Fertilization and Development of the Common Mussel Mytilus edulis After Long-Term Exposure to a Nonionic Surfactant|Mar. Biol.33(1): 17-20|1975|10.1007/BF00394996
7935|A||Fronda,A., and B. Kendrick|Uptake of Diquat by Four Aero-Aquatic Hyphomycetes|Environ. Pollut. A.37(3): 229-244|1985|10.1016/0143-1471(85)90043-1
7936|A||Gruger,E.H.,Jr., N.L. Karrick, A.I. Davidson, and T. Hruby|Accumulation of 3,4,3',4'-Tetrachlorobiphenyl and 2,4,5,2',4',5'- and 2,4,6,2',4',6'-Hexachlorobiphenyl in Juvenille Coho Salmon|Environ. Sci. Technol.9(2): 121-127|1975|10.1021/es60100a010
7937|A||Maruyama,T., D. Sun, S. Hashimoto, and A. Miura|Toxic Effects of Triorganotins on the Adhesion and Germination - Growth of Conchospores of Porphyra yezoensis, Red Arga|Mar. Pollut. Bull.23:729-731|1991|10.1016/0025-326X(91)90770-S
7938|A||Murray,A.P., B.J. Richardson, and C.F. Gibbs|Bioconcentration Factors for Petroleum Hydrocarbons, PAHs, LABs and Biogenic Hydrocarbons in the Blue Mussel|Mar. Pollut. Bull.22(12): 595-603|1991|10.1016/0025-326X(91)90247-P
7939|A||Joshi,H.C., and M.K. Mukhopadhyay|Toxicity of Quinalphos and Endosulfan to Different Life-Stages of Tiger Prawn (Penaeus monodon)|Environ. Conserv.17(3): 266-267|1990|10.1017/S0376892900032434
7940|A||Meith-Avcin,N.|DDT and the Rugophilic Response of Settling Barnacles Balanus improvisus|J. Fish. Res. Board Can.31(12):1960-1963|1974|10.1139/f74-259
7941|A||Anderson,B.S., J.W. Hunt, S.L. Turpen, A.R. Coulon, and M. Martin|Copper Toxicity to Microscopic Stages of Giant Kelp Macrocystis pyrifera:  Interpopulation Comparisons and Temporal Variability|Mar. Ecol. Prog. Ser.68(1-2): 147-156|1990|10.3354/meps068147
7942|A||Beasley,T.M., J.J. Gonor, and H.V. Lorz|Technetium: Uptake, Organ Distribution and Loss in the Mussel, Mytilus californianus (Conrad) and the Oyster Crassostrea gigas (Thunberg)|Mar. Environ. Res.7(2):103-116|1982|10.1016/0141-1136(82)90036-8
7943|A||Hessov,I.|Toxicity of 5-Hydroxymethylfurfural and Furfural to Daphnia magna|Acta Pharmacol. Toxicol.37(1): 94-96|1975|10.1111/j.1600-0773.1975.tb00825.x
7944|A||Da Silva,H.C., H.S.G. Medina, E. Fanta, and M. Bacila|Sub-lethal Effects of the Organophosphate Folidol 600 (Methyl Parathion) on Callichthys callichthys (Pisces: Teleostei)|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 197-201|1993|10.1016/0742-8413(93)90194-P
7945|A||Chakravorty,S., B. Lal, and T.P. Singh|Effect of Endosulfan (Thiodan) on Vitellogenesis and Its Modulation by Different Hormones in the Vitellogenic Catfish Clarias batrachus|Toxicology75(3): 191-198|1992|10.1016/0300-483X(92)90001-U
7947|A||Hunn,J.B., and J.L. Allen|Residue Dynamics of Quinaldine and TFM in Rainbow Trout|Gen. Pharmacol.6(1):15-18|1975|10.1016/0306-3623(75)90004-X
7948|A||Avolizi,R.J., and M. Nuwayhid|Effects of Crude Oil and Dispersants on Bivalves|Mar. Pollut. Bull.5(10): 149-153|1974|10.1016/0025-326X(74)90007-1
7949|A||Isensee,A.R., and G.E. Jones|Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Aquatic Model Ecosystem|Environ. Sci. Technol.9(7): 668-672|1975|10.1021/es60105a007
7951|A||Jabbar Khan,M.A.|Susceptibility of Some Important Fresh Water Fauna (Chordates) to Synthetic Insecticides and Indigenous Vegetable Oils Used as Mosquito Larvicide|Agric. Pak.26(3): 393-400|1975|
7952|A||George,S.G., B.J.S. Pirie, and T.L. Coombs|Absorption, Accumulation and Excretion of Iron-Protein Complexes by Mytilus edulis (L.)|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(2): 887-900|1975|
7953|A||Ishii,T., T. Nishida, S. Midogohchi, T. Tokitake, T. Kaneko, H. Takehana, and T. Ishiguro|Behavior of Cadmium in Short-Necked Clam|Nippon Suisan Gakkaishi (Multiple Languages)50(12):2055-2059|1984|10.2331/suisan.50.2055
7954|A||Joshi,H.C., D. Kapoor, R.S. Panwar, and R.A. Gupta|Toxicity of Some Insecticides to Chironomid Larvae|Indian J. Environ. Health17(3): 238-241|1975|
7955|A||Ferreira,J.G.|Factors Governing Mercury Accumulation in Three Species of Marine Macroalgae|Aquat. Bot.39(3-4):335-343|1991|10.1016/0304-3770(91)90007-R
7956|A||Kaufman,Z.S.|Certain Aspects of Phenol intoxication of Enchytraeus albidus Henle (Oligochaeta) from the Standpoint of Stress Theory|Hydrobiol. J.11(5): 44-46|1975|
7957|A||Kawatski,J.A., and M.A. Bittner|Uptake, Elimination, and Biotransformation of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) by Larvae of the Aquatic Midge Chironomus tentans|Toxicology4(2):183-194|1975|10.1016/0300-483X(75)90097-9
7959|A||Guimaraes,J.R.D.|Bioaccumulation of 137Cs and 60Co by a Tropical Marine Teleost Epinephelus sp|Sci. Total Environ.120(3):205-212|1992|10.1016/0048-9697(92)90056-X
7960|A||Kersting,K.|Effects of Diuron on the Energy Budget of a Daphnia magna Population|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquatic Animals, Elsevier Sci.Publ., Amsterdam, NY:159-166|1975|
7961|A||Khanna,S.S., and T.S. Gill|Effect of Cobalt Salts on the Glycemia and Islet Histology of Channa punctatus (Bloch)|Acta Anat.92(2): 194-201|1975|10.1159/000144441
7963|A||Luk'yanova,O.N., and Z.S. Evtushenko|Metal-Binding Cytoplasmic Proteins in the Gut of the Sea Urchin Strongylocentrotus intermedius|Sov. J. Mar. Biol.2:110-113|1988|
7964|A||Kitamura,M., K. Hayakawa, and T. Shibata|Experimental Study on the Accumulation and Diminution of BHC in Fish Bodies|Jpn. J. Hyg. (Non-English):|1975|
7965|A||Rand,G., H. Kleerekoper, and J. Matis|Interaction of Odour and Flow Perception and the Effects of Parathion in the Locomotor Orientation of the Goldfish Carassius auratus L.|J. Fish Biol.7(4): 497-504|1975|10.1111/j.1095-8649.1975.tb04624.x
7966|A||Klein,S.A., D. Jenkins, and R.C. Cooper|The Toxicity to Fish of the Jet Fuel JP-9, its Components RJ-4, RJ-5 and Methylcyclohexane (MCH)|In: Tech.Rep.AMRL-TR-75-125, Aerosp.Med.Res.Lab., Pap.No.24:429-455|1975|
7967|A||Kobylinski,G.J., and R.J. Livingston|Movement of Mirex from Sediment and Uptake by the Hogchoker, Trinectes maculatus|Bull. Environ. Contam. Toxicol.14(6): 692-698|1975|10.1007/BF01685244
7968|A||Koenig,C.C.|The Effects of DDT and Mirex Alone and in Combination on the Reproduction of a Salt Marsh Cyprinodont Fish, Adinia xenica|Ph.D. Thesis, Florida State University, Tallahassee, FL:137 p.|1975|
7969|A||Komala,Z.|The Effect of Some Pesticides on Paramecium aurelia|Folia Biol. (Krakow)23(3): 231-243|1975|
7970|A||Koning,L.J.L.W., and C. Van der Meer|The Cause of Death of Palaemonetes varians (Leach, 1814) Treated with Cholinesterase Inhibitors|Comp. Biochem. Physiol. C Comp. Pharmacol.51(1): 73-77|1975|10.1016/0306-4492(75)90041-6
7971|A||Kovachev,S., and I. Uzunov|Toxic Effect of Phenol on Several Fresh Water Invertebrates|Khidrobiologiia1:65-74|1975|
7972|A||Beasley,T.M., H.V. Lorz, and D.L. Zahnle|The Biokinetic Behavior of 95MTC in Juvenile Coho Salmon, Oncorhynchus kisutch (Walbaum)|Mar. Environ. Res.19(4): 259-278|1986|10.1016/0141-1136(86)90019-X
7973|A|RUSSN|Krotov,A.I., A.F. Bekhli, and Z.G. Vorb'Eva|Toxicity of Phenasal Sodium Salt for Some Pulmonate Mollusks as Compared to Phenasal|Med. Parazitol. Parazit. Bolezni (Non-English)44(3): 310-312|1975|
7974|A||Kruglor,Y., and E.I. Mikhaylova|Decomposition of Herbicide Simazine in Cultures of Algae|Mikrobiologia (Mosc.) (Non-English)44(4): 732-735|1975|
7975|A||Beaumont,A.R., G. Tserpes, and M.D. Budd|Some Effects of Copper on the Veliger Larvae of the Mussel Mytilus edulis and the Scallop Pecten maximus (Mollusca, Bivalvia)|Mar. Environ. Res.21(4): 299-309|1987|10.1016/0141-1136(87)90052-3
7976|A||Kumar,H.D., and P.R. Gorham|Effects of Acridine Dyes and Other Substances on Growth, Lysis and Toxicity of Anabaena flos-aquae NRC-44-1|Biochem. Physiol. Pflanzen (Multiple Languages)167(6): 473-487|1975|10.1016/S0015-3796(17)31305-7
7977|A||Kummel,H.W., and L.H. Grimme|The Inhibition of Carotenoid Biosynthesis in Green Algae by Sandoz H 6706: Accumulation of Phytoene and Phytofluene in Chlorella fusca|Z. Naturforsch. Sect. C J. Biosci.30(3): 333-336|1975|10.1515/znc-1975-5-605
7978|A||Kuroda,K.|Lethal Effect of Pesticides on Saghalien Trout Fry|Mizu Shori Gijutsu16(5): 441-448|1975|
7981|A||Boyd,C.E., and D.E. Ferguson|Spectrum of Cross-Resistance to Insecticides in the Mosquito Fish, Gambusia affinis|Mosq. News24(1): 19-21|1964|
7982|A||Corner,E.D.S., and B.W. Sparrow|The Modes of Action of Toxic Agents I. Observations on the Poisoning of Certain Crustaceans by Copper and Mercury|J. Mar. Biol. Assoc. U.K.35:531-548|1956|10.1017/S0025315400010390
7983|A||Kauss,P.B.|Comparative Studies of Hydrocarbon Toxicity in the Genus Ankistrodesmus|Ph.D. Thesis, University of Toronto, Canada:482 p.|1988|
7984|A||Crosby,D.G., R.K. Tucker, and N. Aharonson|The Detection of Acute Toxicity with Daphnia magna|Food Cosmet. Toxicol.4:503-514|1966|10.1016/S0015-6264(66)80637-5
7985|A||Coutant,C.C.|Insecticide Sevin:  Effect of Aerial Spraying on Drift of Stream Insects|Science146:420-421|1964|10.1126/science.146.3642.420
7986|A||Dillon,T.M., and J.M. Neff|Mercury and the Estuarine Marsh Clam, Rangia cuneata Gray. II. Uptake, Tissue Distribution and Depuration|Mar. Environ. Res.1(1): 67-77|1978|10.1016/0141-1136(78)90015-6
7987|A||Bhattacharya,T., A.K. Ray, and S. Bhattacharya|Blood Glucose and Hepatic Glycogen Interrelationship in Channa punctatus (Bloch): A Parameter of Nonlethal Toxicity Bioassay with Industrial Pollutants|Indian J. Exp. Biol.25(8): 539-541|1987|
7988|A||Dugan,P.R.|Influence of Chronic Exposure to Anionic Detergents on Toxicity of Pesticides to Goldfish|J. Water Pollut. Control Fed.39(1): 63-71|1967|
7989|A||Elcombe,C.R., and J.J. Lech|Induction of Monooxygenation in Rainbow Trout by Polybrominated Biphenyls:  A Comparative Study|Environ. Health Perspect.23:309-314|1978|10.1289/ehp.7823309
7990|A||Prakasam,V.R.|Salinity Effect on the Toxicity of HgCl2 in Oreochromis mossambicus|Indian J. Environ. Health31(4): 339-344|1989|
7991|A||Reish,D.J., T.V. Gerlinger, C.A. Phillips, and P.D. Schmidtbauer|Toxicity of Formulated Mine Tailings on Marine Polychaete|Marine Biological Consultants, Coasta Mesa, CA:133-|1977|
7992|A||Gakstatter,J.H.|Rates of Accumulation of 14C-Dieldrin Residues in Tissues of Goldfish Exposed to a Single Sublethal Dose of 14C-Aldrin|J. Fish. Res. Board Can.25(9):1797-1801|1968|10.1139/f68-165
7994|A||Short,J.W., and F.P. Thrower|Toxicity of Tri-N-Butyl-Tin to Chinook Salmon, Oncorhynchus tshawytscha, Adapted to Seawater|Aquaculture61(3/4): 193-200|1987|10.1016/0044-8486(87)90148-7
7995|A||Grindley,J.|Toxicity to Rainbow Trout and Minnows of Some Substances Known to be Present in Waste Water Discharged to Rivers|Ann. Appl. Biol.33:103-112|1946|10.1111/j.1744-7348.1946.tb06281.x
7996|A||Pillai,K.S., A.T. Mathai, and P.B. Deshmukh|Acute Toxicity of Cypermethrin 10EC to Juveniles of a Freshwater Prawn, Macrobrachium rosenbergii and Fry of a Freshwater Fish, Labeo rohita|Pollut. Res.8(2): 95-96|1989|
7997|A||Noonan,T.R., and T.F. Lytle|Tributyltin Residues in Juvenile Sheepshead Minnows|J. Miss. Acad. Sci.37(1): 51-|1992|
7998|A||Hansen,D.J.|Aroclor 1254:  Effect on Composition of Developing Estuarine Animal Communities in the Laboratory|Contrib. Mar. Sci18:19-33|1974|
7999|A||Haynes,H.L., H.H. Moorefield, A.J. Borash, and J.W. Keays|The Toxicity of Sevin to Goldfish|J. Econ. Entomol.51(4): 540-|1958|10.1093/jee/51.4.540
8000|A||Hayton,W.L., and N.A. Hall|Apparent pH Dependence of Ethanol Absorption Rate in the Common Guppy|J. Pharm. Sci.57(1): 158-161|1968|10.1002/jps.2600570133
8001|A||Hendrick,R.D., T.R. Everett, and H.R. Caffey|Effects of Some Insecticides on the Survival, Reproduction, and Growth of the Louisiana Red Crawfish|J. Econ. Entomol.59(1): 188-192|1966|10.1093/jee/59.1.188
8002|A||Kelly,J.R., D.T. Rudnick, R.D. Morton, L.A. Buttel, and S.N. Levine|Tributyltin and Invertebrates of a Seagrass Ecosystem:  Exposure and Response of Different Species|Mar. Environ. Res.29(4): 245-276|1990|10.1016/0141-1136(90)90022-G
8003|A||Herbert,D.W.M., and K.M. Downing|A Further Study of the Toxicity of Potassium Cyanide to Rainbow Trout (Salmo gairdneri Richardson)|Ann. Appl. Biol.43(2): 237-242|1955|10.1111/j.1744-7348.1955.tb02471.x
8004|A||Herbert,D.W.M., and J.C. Merkens|The Toxicity of Potassium Cyanide to Trout|J. Exp. Biol.29:632-649|1952|10.1242/jeb.29.4.632
8005|A||Herbert,D.W.M., and D.S. Shurben|A Preliminary Study of the Effect of Physical Activity on the Resistance of Rainbow Trout (Salmo gairdnerii Richardson) to Two Poisons|Ann. Appl. Biol.52:321-326|1963|10.1111/j.1744-7348.1963.tb03754.x
8006|A||Herbert,D.W.M., and D.S. Shurben|The Toxicity to Fish of Mixtures of Poisons I. Salts of Ammonia and Zinc|Ann. Appl. Biol.53:33-41|1964|10.1111/j.1744-7348.1964.tb03778.x
8007|A||Hilsenhoff,W.L.|Toxicity of Granular Malathion to Walleyed Pike Fingerlings|Mosq. News22(1): 14-15|1962|
8008|A||Hurlbert,S.H., M.S. Mulla, and H.R. Willson|Effects of an Organophosphorus Insecticide on the Phytoplankton, Zooplankton, and Insect Populations of Fresh-Water Ponds|Ecol. Monogr.42(3): 269-299|1972|10.2307/1942211
8009|A||Butte,W., K. Fox, and G.P. Zauke|Kinetics of Bioaccumulation and Clearance of Isomeric Hexachlorocyclohexanes|Sci. Total Environ.109-110:377-382|1991|10.1016/0048-9697(91)90191-G
8010|A||Ingols,R.S., and R.H. Fetner|Toxicity of Chromium Compounds Under Aerobic Conditions|J. Water Pollut. Control Fed.33(4): 366-370|1961|
8011|A||Jones,J.R.E.|A Further Study of the Reactions of Fish to Toxic Solutions|J. Exp. Biol.25:22-34|1948|10.1242/jeb.25.1.22
8012|A||Braunbeck,T.A., S.J. Teh, S.M. Lester, and D.E. Hinton|Ultrastructural Alterations in Liver of Medaka (Oryzias latipes) Exposed to Diethylnitrosamine|Toxicol. Pathol.20(2): 179-196|1992|10.1177/019262339202000205
8013|A||Jayaraj,Y.M., M. Mandakini, and P.M. Nimbargi|Effect of Mercury and Lead on Primary Productivity of Two Water Bodies|Environ. Ecol.10(3): 653-658|1992|
8014|A||Kania,H.J., and J. O'Hara|Behavioral Alterations in a Simple Predator-Prey System due to Sub-lethal Exposure to Mercury|Trans. Am. Fish. Soc.103(1): 134-136|1974|10.1577/1548-8659(1974)103<134:BAIASP>2.0.CO;2
8015|A||Laughlin,R.B.J., and W. French|Concentration Dependence of Bis(Tributyl)tin Oxide Accumulation in the Mussel, Mytilus edulis|Environ. Toxicol. Chem.7(12): 1021-1026|1988|10.1002/etc.5620071209
8016|A||Klock,J.W.|A Field Technique for Quantitative Estimation of the Molluscicide Sodium Pentachlorophenate Based on Fish Mortality Rates|Am. J. Trop. Med. Hyg.5(2): 286-289|1956|10.4269/ajtmh.1956.5.286
8017|A||Lewallen,L.L.|Toxicity of Several Organophosphorus Insecticides to Gambusia affinis (Baird and Girard) in Laboratory Tests|Mosq. News19(1): 1-2|1959|
8018|A||Lewallen,L.L., and W.H. Wilder|Laboratory Tests of Insecticides on Mosquito Larvae in Polluted and Tap Water|J. Econ. Entomol.56(6): 834-835|1963|10.1093/jee/56.6.834
8019|A||Jayaraj,Y.M., B. Aparanji, and P.M. Nimbargi|Amelioration of Heavy Metal Toxicity on Primary Productivity of Aquatic Ecosystems by Calcium, Magnesium and Iron|Environ. Ecol.10(3): 667-674|1992|
8020|A||Lichtenstein,E.P., K.R. Schulz, R.F. Skrentny, and Y. Tsukano|Toxicity and Fate of Insecticide Residues in Water|Arch. Environ. Health12:199-212|1966|10.1080/00039896.1966.10664358
8021|A||Patil,P.S., M.P. Gadkari, and K.M. Kulkarni|Pesticide Contamination Effects on Amino Acid Transferases of the Fish Rasbora daniconius (Ham.)|Environ. Ecol.10(4): 758-761|1992|
8022|A||Maloney,T.E.|Detergent Phosphorus Effect on Algae|J. Water Pollut. Control Fed.38(3): 38-45|1966|
8023|A||Buhl,K.J., S.J. Hamilton, and J.C. Schmulbach|Chronic Toxicity of the Bromoxynil Formulation Buctril to Daphnia magna Exposed Continuously and Intermittently|Arch. Environ. Contam. Toxicol.25(2): 152-159|1993|10.1007/BF00212126
8024|A||McDonald,S.|Rapid Detection of Chlorinated Hydrocarbon Insecticides in Aqueous Suspension with Gammarus Lacustris lacustris (Sars.)|Can. J. Zool.40:719-723|1962|10.1139/z62-066
8025|AT||Meeks,R.L.|The Accumulation of 36Cl Ring-Labeled DDT in a Freshwater Marsh|J. Wildl. Manag.32(2): 376-398|1968|10.2307/3798983
8026|A||Dosdall,L.M., M.M. Galloway, and J.T. Arnason|Toxicity and Residual Action of the Photoactivated Compound, Cyano-alpha-Terthienyl, and Its Efficacy for Reducing Pre-Imaginal Populations of Mosquitoes|Am. Mosq. Control Assoc. J.8(2): 166-172|1992|
8027|A||Mulla,M.S.|Toxicity of Organochlorine Insecticides to the Mosquito Fish Gambusia affinis and the Bullfrog Rana catesbeiana|Mosq. News23(4): 299-303|1963|
8031|A||Skidmore,J.F.|Oxygen Uptake by Zebrafish (Brachydanio rerio) of Different Ages in Relation to Zinc Sulphate Resistance|J. Fish. Res. Board Can.24(6): 1253-1267|1967|10.1139/f67-107
8032|A||Kasai,F., and S. Hatakeyama|Herbicide Susceptibility in Two Green Algae, Chlorella vulgaris and Selenastrum capricornutum|Chemosphere27(5): 899-904|1993|10.1016/0045-6535(93)90019-2
8033|A||Bates,S.S., J. Worms, and J.C. Smith|Effects of Ammonium and Nitrate on Growth and Domoic Acid Production by Nitzschia pungens in Batch Culture|Can. J. Fish. Aquat. Sci.50(6):1248-1254|1993|10.1139/f93-141
8034|A||Welsh,P.G., J.F. Skidmore, D.J. Spry, D.G. Dixon, P.V. Hodson, N.J. Hutchinson, and B.E. Hickie|Effect of pH and Dissolved Organic Carbon on the Toxicity of Copper to Larval Fathead Minnow (Pimephales promelas) in Natural Lake Waters of Low Alkalinity|Can. J. Fish. Aquat. Sci.50(7): 1356-1362|1993|10.1139/f93-155
8035|A||De la Cruz,A.A., and J.D. Yarbrough|The Role of Aquatic Weeds in Maintaining Surface Water Quality|Project No. A-134-MS, Water Resources Research Institute, Mississippi State University, Mississippi State, MS:53 p.|1982|
8036|A||Toohey,J.I., C.D. Nelson, and G. Krotkov|Toxicity of Phenazine Carboxylic Acids to Some Bacteria, Algae, Higher Plants, and Animals|Can. J. Bot.43:1151-1155|1965|10.1139/b65-128
8037|A||Trama,F.B.|The Acute Toxicity of Some Common Salts of Sodium, Potassium and Calcium to the Common Bluegill (Lepomis macrochirus Rafinesque)|Proc. Acad. Nat. Sci. Philadelphia106:185-205|1954|
8038|A||Allen,P.|Effects of Acute Exposure to Cadmium (II) Chloride and Lead (II) Chloride on the Haematological Profile of Oreochromis aureus (Steindachner)|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 213-217|1993|10.1016/0742-8413(93)90197-S
8039|A||Ukeles,R.|Growth of Pure Cultures of Marine Phytoplankton in the Presence of Toxicants|Appl. Microbiol.10:532-537|1962|10.1128/am.10.6.532-537.1962
8040|A||Ukeles,R.|Inhibition of Unicellular Algae by Synthetic Surface-Active Agents|J. Phycol.1:102-110|1965|10.1111/j.1529-8817.1965.tb04566.x
8041|AT||Walker,C.R.|Simazine and Other S-Triazine Compounds as Aquatic Herbicides in Fish Habitats|Weeds (Urbana)12(2): 134-139|1964|10.2307/4040615
8042|A||Warner,R.E., K.K. Peterson, and L. Borgman|Behavioural Pathology in Fish: A Quantitative Study of Sublethal Pesticide Toxication|J. Appl. Ecol.3:223-247|1966|10.2307/2401462
8043|A||Bjerregaard,P., and T. Vislie|Effects of Cadmium on Hemolymph Composition in the Shore Crab Carcinus maenas|Mar. Ecol. Prog. Ser.27(1):135-142|1985|10.3354/meps027135
8044|A||Weis,J.S.|Effects of Mercury, Cadmium, and Lead Salts on Regeneration and Ecdysis in the Fiddler Crab, Uca pugilator|Fish. Bull.74(2): 464-467|1976|
8045|A||McKenney,C.L.,Jr., and D.M. Celestial|Variations in Larval Growth and Metabolism of an Estuarine Shrimp Palaemonetes pugio During Toxicosis by an Insect Growth Regulator|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 239-245|1993|10.1016/0742-8413(93)90201-U
8046|A||Whitten,B.K., and C.J. Goodnight|Toxicity of Some Common Insecticides to Tubificids|J. Water Pollut. Control Fed.38(2): 227-235|1966|
8047|A||Martinez,M., A. Torreblanca, J. Del Ramo, A. Pastor, and J. Diaz-Mayans|Cadmium Induced Metallothionein in Hepatopancreas of Procambarus clarkii: Quantification by a Silver-Saturation Method|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 263-267|1993|10.1016/0742-8413(93)90205-Y
8048|A||Bridges,W.R., and O.B. Cope|The Relative Toxicities of Similar Formulations of Pyrethrum and Rotenone to Fish and Immature Stoneflies|Pyrethrum Post8(1): 3-5|1965|
8049|A||Luderitz,V., and A. Nicklisch|Response of Phytoplankton to Copper Treatment with Reference to Species Sensitivity|Int. Rev. Gesamten Hydrobiol.74(6): 657-668|1989|10.1002/iroh.19890740607
8050|A||Cairns,J.,Jr., A. Scheier, and N.E. Hess|The Effects of Alkyl Benzene Sulfonate on Aquatic Organisms|Ind. Water Wastes:22-28|1964|
8051|A||Chin,E., and D.M. Allen|Toxicity of an Insecticide to Two Species of Shrimp, Penaeus aztecus and Penaeus setiferus|Texas J. Sci.9(3): 270-278|1957|
8052|A||Claffey,F.J., and J.E. Ruck|The Effect of Rotenone on Certain Fish Food Organisms|Proc. Southeast. Assoc. Game Fish Comm.20:278-283|1967|
8053|A||Herkovits,J., and C.S. Perez-Coll|Stage-Dependent Susceptibility of Bufo arenarum Embryos to Cadmium|Bull. Environ. Contam. Toxicol.50(4): 608-611|1993|10.1007/BF00191253
8054|A||Costa,H.H.|Responses of Freshwater Animals to Sodium Cyanide Solutions I. Fish|Ceylon J. Sci. Biol. Sci.5(2): 41-87|1965|
8055|A||Costa,H.H.|Responses of Freshwater Animals to Sodium Cyanide Solutions II. Gammarus pulex|Ceylon J. Sci. Biol. Sci.5(2): 88-96|1965|
8056|A||Costa,H.H.|Responses of Freshwater Animals to Sodium Cyanide Solutions III. Tadpoles of Rana temporaria|Ceylon J. Sci. Biol. Sci.5(2): 97-104|1965|
8057|A||Crandall,C.A., and C.J. Goodnight|The Effect of Various Factors on the Toxicity of Sodium Pentachlorophenate to Fish|Limnol. Oceanogr.4:53-56|1959|10.4319/lo.1959.4.1.0053
8058|A||Darsie,R.F.,Jr., and F.E. Corriden|The Toxicity of Malathion to Killifish (Cyprinodontidae) in Delaware|J. Econ. Entomol.52(4): 696-700|1959|10.1093/jee/52.4.696
8059|A||Anderson,R.S.|Effects of Rotenone on Zooplankton Communities and a Study of Their Recovery Patterns in Two Mountain Lakes in Alberta|J. Fish. Res. Board Can.27(8): 1335-1356|1970|10.1139/f70-159
8060|A||Adams,J.A., J.A. Bahner, and M.E. James|Effects of PCB (Aroclor 1254) on the Early Development and Mortality Rate in Arbacia Eggs|J. Tenn. Acad. Sci.55(2): 56-|1980|
8061|A||Singh,A., and R.A. Agarwal|Effect of Cypermethrin on Lactate and Succinic Dehydrogenase and Cytochrome Oxidase of Snail and Fish|Bull. Environ. Contam. Toxicol.51(3): 445-452|1993|10.1007/BF00201765
8062|A||Ferguson,D.E., W.D. Cotton, D.T. Gardner, and D.D. Culley|Tolerances to Five Chlorinated Hydrocarbon Insecticides in Two Species of Fish From a Transect of the Lower Mississippi River|J. Miss. Acad. Sci.11:239-245|1965|
8063|A||Ferguson,D.E., D.D. Culley, and W.D. Cotton|Tolerances of Two Populations of Fresh Water Shrimp to Five Chlorinated Hydrocarbon Insecticides|J. Miss. Acad. Sci.11:235-237|1965|
8064|A||Fitzgerald,G.P., and S.L. Faust|Bioassay for Algicidal vs. Algistatic Chemicals|Water Sewage Works:296-298|1963|
8065|A||Fitzgerald,G.P., G.C. Gerloff, and F. Skoog|Studies on Chemicals with Selective Toxicity to Blue-Green Algae|Sewage Ind. Wastes24(7): 888-896|1952|
8066|A||Freeman,L.|Toxicity Thresholds of Certain Sodium Sulfonates for Daphnia magna Straus|Sewage Ind. Wastes25(11): 1331-1335|1953|
8067|A||Rai,U.P., and P.K. Mandal|Effects of Seasonal Ambient Temperature Variations on Acute Toxicity of Chlordane to an Air-Breathing Indian Catfish, Heteropneustes fossilis (Bloch.)|Bull. Environ. Contam. Toxicol.51(3):453-459|1993|
8068|A||Garrison,R.L.|The Toxicity of Pro-noxfish to Salmonid Eggs and Fry|Prog. Fish-Cult.30(1): 35-38|1968|10.1577/1548-8640(1968)30[35:TTONTS]2.0.CO;2
8069|A||Gersdorff,W.A.|Effect of Introducing the Carboxyl Group into the Phenol Molecule on Toxicity to Goldfish|Am. J. Pharm.:159-167|1943|
8070|A||Goodman,J.R.|Toxicity of Zinc for Rainbow Trout (Salmo gairdnerii)|Calif. Fish Game37(2): 191-194|1951|
8071|A||Harrisson,J.W.E., and E.W. Rees|2,4-D Toxicity; Toxicity Towards Certain Species of Fish|Am. J. Pharm.118(12): 422-425|1946|
8072|A||Hendrick,R.D., and T.R. Everett|Toxicity to the Louisiana Red Crawfish of Some Pesticides Used in Rice Culture|J. Econ. Entomol.58(5): 958-961|1965|10.1093/jee/58.5.958
8073|AT||Eastman Chemical Co.|Laboratory Chemicals|Catalog No.55, Eastman Chemical Co., Rochester, NY:1195 p.|1993|
8074|A||Beal,D.L., and R.V. Anderson|Response of Zooplankton to Rotenone in a Small Pond|Bull. Environ. Contam. Toxicol.51(4): 551-556|1993|10.1007/BF00192171
8075|A||Hisaoka,K.K.|The Effects of 2-Acetylaminofluorene on the Embryonic Development of the Zebrafish. II. Histochemical Studies|Cancer Res.18:664-667|1958|
8076|A||Hughes,J.S.|Use of the Red Crawfish, Procambarus clarki (Girard), for Herbicidal Assays|Proc. Southeast. Assoc. Game Fish Comm.20:437-439|1967|
8077|A||Kevan,S.D., and R.G. Pearson|Toxicity of Diquat Pulse Exposure to Tropical Freshwater Shrimp (Caridina nilotica, Atyidae)|Bull. Environ. Contam. Toxicol.51(4): 564-567|1993|10.1007/BF00192173
8078|A||Rosas,C., and P. Ramirez|Effect of Chromium and Cadmium on the Thermal Tolerance of the Prawn Macrobrachium rosenbergii Exposed to Hard and Soft Water|Bull. Environ. Contam. Toxicol.51(4):568-574|1993|
8079|A||Punzo,F.|Effect of Mercuric Chloride on Fertilization and Larval Development in the River Frog, Rana heckscheri (Wright) (Anura: Ranidae)|Bull. Environ. Contam. Toxicol.51(4): 575-581|1993|10.1007/BF00192175
8080|A||Schultz,T.W., and M. Tichy|Structure-Toxicity Relationships for Unsaturated Alcohols to Tetrahymena pyriformis:  C5 and C6 Analogs and Primary Propargylic Alcohols|Bull. Environ. Contam. Toxicol.51(5): 681-688|1993|10.1007/BF00201645
8081|A||Maloney,T.E., and C.M. Palmer|Toxicity of Six Chemical Compounds to Thirty Cultures of Algae|Water Sewage Works:509-513|1956|
8082|A||Marking,L.L., and V.K. Dawson|The Half-Life of Biological Activity of Antimycin Determined by Fish Bioassay|Trans. Am. Fish. Soc.101(1): 100-105|1972|10.1577/1548-8659(1972)101<100:THOBAO>2.0.CO;2
8083|A||Matsumura,F., and H.J. Benezet|Studies on the Bioaccumulation and Microbial Degradation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Environ. Health Perspect.:253-258|1973|
8084|A||Metcalf,R.L., G.M. Booth, C.K. Schuth, D.J. Hansen, and P.Y. Lu|Uptake and Fate of Di-2-ethylhexyl Phthalate in Aquatic Organisms and in a Model Ecosystem|Environ. Health Perspect.:27-34|1973|10.1289/ehp.730427
8085|A||Meyer,F.P.|The Effect of Formulation Differences on the Toxicity of Benzene Hexachloride to Golden Shiners|Proc. Southeast. Assoc. Game Fish Comm.17:186-190|1963|
8087|A||Mount,D.I., and C.E. Stephan|A Method for Detecting Cadmium Poisoning in Fish|J. Wildl. Manag.31(1): 168-172|1967|10.2307/3798373
8088|A||Mulla,M.S.|Toxicity of new Organic Insecticides to Mosquito Fish and Some Other Aquatic Organisms|Mosq. News26(1): 87-91|1966|
8089|A||Murphy,P.G., and J.V. Murphy|Correlations Between Respiration and Direct Uptake of DDT in the Mosquito Fish Gambusia affinis|Bull. Environ. Contam. Toxicol.6(6): 581-588|1971|10.1007/BF01796870
8090|A||Odum,E.P., and W.T. Sumerford|Comparative Toxicity of DDT and Four Analogues to Goldfish, Gambusia, and Culex Larvae|Science104(2708): 480-482|1946|10.1126/science.104.2708.480
8091|A||Oglesby,L.C.|Mortality of a Freshwater Polychaete, Nereis limnicola Johnson, Attributed to Rotenone|Calif. Fish Game50(4): 268-270|1964|
8092|A||Sarojini,R., P.S. Reddy, R. Nagabhushanam, and M. Fingerman|Naphthalene-Induced Cytotoxicity on the Hepatopancreatic Cells of the Red Swamp Crayfish, Procambarus clarkii|Bull. Environ. Contam. Toxicol.51(5): 689-695|1993|10.1007/BF00201646
8093|A||Panigrahi,A.K., and B.N. Misra|Toxicological Effects of Mercury on a Freshwater Fish, Anabas scandens, Cuv. and Val. and Their Ecological Implications|Environ. Pollut.16(1): 31-39|1978|
8094|A||Petrocelli,S.R., A.R. Hanks, and J. Anderson|Uptake and Accumulation of an Organochlorine Insecticide (Dieldrin) by an Estuarine Mollusc, Rangia cuneata|Bull. Environ. Contam. Toxicol.10(5): 315-320|1973|10.1007/BF01684823
8095|A||Pickering,Q.H.|Acute Toxicity of Alkyl Benzene Sulfonate and Linear Alkylate Sulfonate to the Eggs of the Fathead Minnow, Pimephales promelas|Air Water Pollut.10:385-391|1966|
8096|A||Pickering,Q.H., and C. Henderson|The Acute Toxicity of Some Pesticides to Fish|Ohio J. Sci.66(5): 508-513|1966|
8097|A||Schmid,O.J., and H. Mann|Action of a Detergent (Dodecylbenzenesulphonate) on the Gills of the Trout|Arch. Fischereiwiss.:41-51|1961|
8098|A||Schmidt,C.H., and D.E. Weidhaas|The Toxicological Action of Three Organophosphorus Insecticides with Three Species of Mosquito Larvae|J. Econ. Entomol.54(3): 583-586|1961|10.1093/jee/54.3.583
8099|A||Keller,A.E.|Acute Toxicity of Several Pesticides, Organic Compounds, and a Wastewater Effluent to the Freshwater Mussel, Anodonta imbecilis, Ceriodaphnia dubia, and Pimephales promelas|Bull. Environ. Contam. Toxicol.51(5): 696-702|1993|10.1007/BF00201647
8100|A||Simon,L.M., L. Boross, and J. Nemcsok|Effects of Herbicides on the Cytochrome P-450 Content of Liver Microsomes in Carp (Cyprinus carpio L.)|Acta Biol. Szeged.30:11-17|1984|
8101|A||Smith,J.W., and S.G. Grigoropoulos|Toxic Effects of Odorous Trace Organics|J. Am. Water Works Assoc.60:969-979|1968|10.1002/j.1551-8833.1968.tb03630.x
8102|A||Sprague,J.B.|Avoidance of Copper-Zinc Solutions by Young Salmon in the Laboratory|J. Water Pollut. Control Fed.36(8): 990-1004|1964|
8103|A||Christian,F.A., R.N. Jackson, and T.M. Tate|Effect of Sublethal Concentrations of Glyphosate and Dalapon on Protein and Aminotransferase Activity in Pseudosuccinea columella|Bull. Environ. Contam. Toxicol.51(5): 703-709|1993|10.1007/BF00201648
8104|A||Kasturi Bai,A.R., and D. Lavanya|Toxic Effects of O,O,Diethy-O-Paranitrophenyl Phosphorothioate or Folidol on the Morphology and Nuclear Apparatus of a Few Freshwater Ciliates|Pol. Arch. Hydrobiol.21(2): 283-290|1974|
8105|A||Tarpley,W.A.|Studies on the Use of the Brine Shrimp Artemia salina (Leach) as a Test Organism for Bioassay|J. Econ. Entomol.51(6): 780-783|1958|10.1093/jee/51.6.780
8106|A||Al Atia,G.R.|Toxicity of Cadmium to Amoeba proteus: A Biochemical Approach|J.Protozool.27(1): 128-132|1980|10.1111/j.1550-7408.1980.tb04242.x
8107|A||Van Wijngaarden,R., P. Leeuwangh, W.G.H. Lucassen, K. Romijn, R. Ronday, and R. Van der Velde|Acute Toxicity of Chlorpyrifos to Fish, a Newt, and Aquatic Invertebrates|Bull. Environ. Contam. Toxicol.51(5): 716-723|1993|10.1007/BF00201650
8108|A||Trama,F.B.|The Acute Toxicity of Copper to the Common Bluegill (Lepomis macrochirus Rafinesque)|Not. Nat. Acad. Nat. Sci. Philadelphia 257:1-13|1954|
8109|A||Rai,A.K., and G. Abraham|Salinity Tolerance and Growth Analysis of the Cyanobacterium Anabaena doliolum|Bull. Environ. Contam. Toxicol.51(5): 724-731|1993|10.1007/BF00201651
8110|A||Dutta,H.M., S. Adhikari, N.K. Singh, P.K. Roy, and J.S.D. Munshi|Histopathological Changes Induced by Malathion in the Liver of a Freshwater Catfish, Heteropneustes fossilis (Bloch)|Bull. Environ. Contam. Toxicol.51(6): 895-900|1993|10.1007/BF00198287
8111|A||Walker,C.R., R.J. Starkey, and L.L. Marking|Relation of Chemical Structure to Fish Toxicity in Nitrosalicylanilides and Related Compounds|Invest.Fish Control No.9, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:12 p.|1966|
8112|A||Choudhury,S., A.H. Karara, and L.N. Ace|Pharmacokinetic Model for the Disposition of 3-Methylcholanthrene in Channel Catfish After Slow Intraaortic Infusion|Bull. Environ. Contam. Toxicol.51(6): 901-908|1993|10.1007/BF00198288
8113|A||Weiss,C.M.|Stream Pollution: Response of Fish to Sub-lethal Exposures of Organic Phosphorus Insecticides|Sewage Ind. Wastes31(5): 580-593|1959|
8114|A||Weiss,C.M., and J.L. Botts|The Response of Some Freshwater Fish to Isopropyl Methylphosphonofluoridate (Sarin) in Water|Limnol. Oceanogr.2:363-370|1957|10.1002/lno.1957.2.4.0363
8115|A||Weiss,C.M., and J.H. Gakstatter|Detection of Pesticides in Water by Biochemical Assay|J. Water Pollut. Control Fed.36(2): 240-253|1964|
8116|A||Welch,E.B., and J.C. Spindler|DDT Persistence and Its Effect on Aquatic Insects and Fish after an Aerial Application|J. Water Pollut. Control Fed.36(10): 1285-1292|1964|
8117|A||Sato,M., R. Yoshinaka, and S. Ikeda|Lathyritic Changes in Carp Caused by beta-Amino-Propionitrile and D-Penicillamine|Nippon Suisan Gakkaishi (Multiple Languages)43(3):349-355|1977|10.2331/suisan.43.349
8118|A||Wollitz,R.E.|Effects of Certain Commercial Fish Toxicants on the Limnology of Three Cold-Water Ponds, Montana|Proc. Mont. Acad. Sci.22:54-81|1962|
8119|T||Singh,J., P.N. Viswanathan, M. Gupta, and S. Devi|Uptake and Translocation of Cd109 by Two Aquatic Ferns in Relation to Relative Toxic Response|Bull. Environ. Contam. Toxicol.51(6): 914-919|1993|10.1007/BF00198290
8120|A||Crespo,S., and R. Sala|Chloride Cell Mitochondria Are Target Organelles in Acute Zinc Contamination|Mar. Pollut. Bull.17(7):329-331|1986|10.1016/0025-326X(86)90220-1
8121|AT||Sundaram,K.M.S.|Distribution, Persistence, and Fate of Mexacarbate in the Aquatic Environment of a Mixed-Wood Boreal Forest|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(5): 651-683|1995|
8122|A||Lautenbacher,H.W.|Development and Application of Analytical Methods for the Study of Biological Changes in Goldfish Exposed to Sub-lethal Concentrations of Nitrilotria|Ph.D Thesis, Temple University, Pennsylvania:174 p.|1975|
8123|A||Lech,J.J., and C.N. Statham|Role of Glucuronide Formation in the Selective Toxicity of 3-Trifluoromethyl-4-Nitrophenol (TFM) for the Sea Lamprey: Comparative Aspects of TFM|Toxicol. Appl. Pharmacol.31(1): 150-158|1975|10.1016/0041-008X(75)90063-0
8124|A||Bailey,R.L.|The Effects of Sublethal Concentrations of DDT on Schooling Behavior|Ph.D.Thesis, University of Georgia, Athens, GA:70 p.|1973|
8126|A||Lembi,C.A., and S.E. Coleridge|Selective Toxicity of Detergents and Herbicides to Phytoplankton|Water Resour.Res.Ctr., Purdue Univ., West Lafayette, IN:71 p.|1975|
8127|A||Liu,D.H.W., and J.M. Lee|Toxicity of Selected Pesticides to the Bay Mussel (Mytilus edulis)|EPA-660/3-75-016, U.S.EPA, Corvallis, OR:102 p.|1975|
8128|A||Liber,K.|Persistence and Biological Effects of a Commercial Tetrachlorophenol Formulation in Aquatic Ecosystems: Laboratory and Limnocorral Studies|Ph.D. Thesis, University of Guelph, Ontario, Canada:161 p.|1990|
8129|A||Suresh,A., B. Sivaramakrishna, and K. Radhakrishnaiah|Effect of Lethal and Sublethal Concentrations of Cadmium on Energetics in the Gills of Fry and Fingerlings of Cyprinus carpio|Bull. Environ. Contam. Toxicol.51(6): 920-926|1993|10.1007/BF00198291
8130|A||Centeno,M.D.F., L. Brendonck, and G. Persoone|Influence of Production, Processing, and Storage Conditions of Resting Eggs of Streptocephalus proboscideus (Crustacea:  Branchiopoda:  Anostraca) on the Sensitivity of Larvae to Selected Reference Toxicants|Bull. Environ. Contam. Toxicol.51(6): 927-934|1993|10.1007/BF00198292
8131|A||Jagadeesh,K.B., and S.A. Shaffi|Nickel Nitrate Induced Changes in Visceral Hexokinase Activity of Three Freshwater Teleosts|Acta Hydrochim. Hydrobiol. (Multiple Languages)18(4): 491-495|1990|10.1002/aheh.19900180415
8132|A||Lockwood,A.P.M., and C.B.E. Inman|Diuresis in the Amphipod Gammarus duebeni Induced by Methylmercury, DDT, Lindane and Fenithrothion|Comp. Biochem. Physiol. C Comp. Pharmacol.52(2): 75-80|1975|10.1016/0306-4492(75)90016-7
8133|A||Lombardo,P., J.L. Dennison, and W.W. Johnson|Bioaccumulation of Chlorinated Paraffin Residues in Fish fed Chlorowax 500C|J. AOAC Int.58(4): 707-710|1975|10.1093/jaoac/58.4.707
8134|A||Virmani,M., J.O. Evans, and R.I. Lynn|Preliminary Studies of the Effects of S-Triazine, Carbamate, Urea, and Karbutilate Herbicides on Growth of Fresh Water Algae|Chemosphere4(2): 65-71|1975|10.1016/0045-6535(75)90015-6
8135|A||Maki,A.W., L.D. Geissel, and H.E. Johnson|Toxicity of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) to 10 Species of Algae|Invest.Fish Control No.56, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:1-17|1975|
8136|A||Marking,L.L., T.D. Bills, and J.H. Chandler|Toxicity of the Lampricide 3-Trifluoromethyl-4-Nitrophenol (TFM) to Nontarget Fish in Flow-Through Tests|Invest.Fish Control No.61, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1975|
8137|A|RUSSN|Matei,V.E.|Effect of Phenol on the Central Nervous System and Neuroendocrine System of Teleost Fish|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR30:97-117|1975|
8138|A||Matida,Y., Y. Furuta, H. Kumada, H. Tanaka, M. Yokote, and S. Kimura|Effects of Some Herbicides Applied in the Forest to Freshwater Fishes and Other Aquatic Organisms-I. Survey on the Effects of Aerially Applied Sodium|Bull. Freshw. Fish. Res. Lab. (Tokyo)25(1): 41-53|1975|
8139|A||Matida,Y., S. Kimura, H. Kumada, and M. Yokote|Effects of Some Herbicides Applied in the Forest to the Freshwater Fishes and Other Aquatic Organisms-II.  Effects of Sodium Chlorate and Ammonium|Bull. Freshw. Fish. Res. Lab. (Tokyo)25(1): 55-62|1975|
8140|A||Matsushima,T., S. Sato, K. Hara, T. Sugimura, and F. Takashima|Bioassay of Environmental Carcinogens with the Guppy, Lebistes reticulatas|Mutat. Res.31(4):265-|1975|10.1016/0165-1161(75)90018-7
8142|A||Dalal,R., and S. Bhattacharya|Effect of Chronic Non-Lethal Doses of Non-Metals and Metals on Hepatic Metallothionein in Channa punctatus|Indian J. Exp. Biol.29:693-694|1991|
8143|A||McLeese,D.W.|Chemosensory Response of American Lobsters (Homarus americanus) in the Presence of Copper and Phosphamidon|J. Fish. Res. Board Can.32(11): 2055-2060|1975|10.1139/f75-242
8145|A||Power,A.E., and W.C. Walsh|Operational Control of Alligator Weed on Santee-Cooper Lakes, South Carolina|Proc. South. Weed Conf.:555-557|1965|
8146|A||Sanborn,J.R., R.L. Metcalf, C.C. Yu, and P.Y. Lu|Plasticizers in the Environment: The Fate of Di-N-Octyl Phthalate (DOP) in Two Model Ecosystems and Uptake and Metabolism of DOP by Aquatic Organisms|Arch. Environ. Contam. Toxicol.3(2): 244-255|1975|10.1007/BF02220792
8147|A|RUSSN|Metelev,V.V., and V.F. Brichko|Determination of Yalan and Propanil in Water and Fish|Veterinaria (Mosk.) (Non-English)9:106-108|1975|
8148|A||Miadokova,E., and S. Podstavkova|Genetic Variability of Chlamydomonas reinhardtii Induced by Six Urea Derivatives|Folia Microbiol. (Prague)20(6):452-459|1975|10.1007/BF02891703
8149|A||Miura,T., W.D. Murray, and R.M. Takahashi|Effects of Dimilin on Nontarget Organisms in Early-Spring Culex tarsalis Larval Habitats|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.43:79-83|1975|
8150|A||Heath,A.G., J.J.,Jr. Cech, J.G. Zinkl, and M.D. Steele|Sublethal Effects of Three Pesticides on Japanese Medaka|Arch. Environ. Contam. Toxicol.25(4): 485-491|1993|10.1007/BF00214337
8151|A||Morgan,W.S.G.|Monitoring Pesticides by Means of Changes in Electric Potential Caused by Fish Opercular Rhythms|Prog. Water Technol.7(2): 33-40|1975|
8152|A||Moss,B., and P. Woodhead|The Effect of Two Commercial Herbicides on the Settlement, Germination and Growth of Enteromorpha|Mar. Pollut. Bull.6(12): 189-192|1975|10.1016/0025-326X(75)90056-9
8153|A||Mukherjee,A.|Effects of Thiourea Treatment on Thyroid and Ovary of the Catfish Heteropneustes fossilis (Bloch)|Indian J. Exp. Biol.13(4):327-332|1975|
8155|A||Muraleedharan,K., S.P. Kumar, K.S. Hedge, and V.S. Alwar|Relative Efficiency of Copper Sulphate, Sodium Pentachlorophenate and Bayluscide Against Freshwater Snail Indoplanorbis exustus|Indian J. Anim. Sci.45(10): 739-743|1975|
8156|A||Necas,J.|Physiological and Mutagenic Effects of N-Methyl-N-Nitro-N-Nitrosoguanidine in Populations of Chlorococcal Algae|Biol. Plant. (Praha)17(2):130-138|1975|10.1007/BF02920974
8157|A||Neff,J.M., and J.W. Anderson|Accumulation, Release, and Distribution of Benzo(A)pyrene-C14 in the Clam Rangia cuneata|Proc. Conf. Prev. Control Oil Pollut.75:469-471|1975|
8158|A||Maier,K.J., and A.W. Knight|Comparative Acute Toxicity and Bioconcentration of Selenium by the Midge Chironomus decorus Exposed to Selenate, Selenite and Seleno-DL-methionine|Arch. Environ. Contam. Toxicol.25(3): 365-370|1993|10.1007/BF00210728
8159|A||Niimi,A.J., and Q.N. LaHam|Selenium Toxicity on the Early Life Stages of Zebrafish (Brachydanio rerio)|J. Fish. Res. Board Can.32(6): 803-806|1975|10.1139/f75-105
8160|A|RUSSN|Nikolov,N.N., and L.N. Miladenova|Experimental Mutagenesis in Unicellular Green Algae.  IV.  Comparative Investigation of the Mutagenic Effect of Members of the Homologous|Genetika (Non-English)11(2): 73-78|1975|
8163|A||Nishiuchi,Y.|Toxicity of Formulated Pesticides to Some Fresh-Water Organisms. XXX|Suisan Zoshoku (Non-English)23(2): 88-91|1975|
8168|A||Oseid,D.M.,Jr.|Long-Term Effects of Hydrogen Sulfide on Hexagenia limbata (Ephemeroptera)|Environ. Entomol.4(1): 15-18|1975|10.1093/ee/4.1.15
8169|A||Paulov,S.|Effects of Juvenoide ZR-515 on Development of Frogs (Rana esculenta L.)|Biologia (Bratisl.)30(5): 369-373|1975|
8170|A||Presing,M.|Influence of an Insecticide, K-Othrine, on the Reproduction and Mortality of the Pond Snail (Lymnaea stagnalis L.)|Arch. Environ. Contam. Toxicol.25(3): 387-393|1993|10.1007/BF00210731
8171|A||Dange,A.D., and V.B. Masurekar|Effect of Naphthalene Exposure on Activity of Some Enzymes in the Cichlid Fish Tilapia, Sarotherodon mossambicus Peters|J. Anim. Morphol. Physiol.31(1-2): 159-168|1984|
8173|A||Phelps,R.P.|Toxicity and Efficacy of Five Chemotherapeutics Used in Aquaculture when Applied to Waters of Different Quality|Ph.D.Thesis, Auburn University, Auburn, AL:103 p.|1975|
8174|A||Pliss,G.B., and V.V. Khudoley|Tumor Inducion by Carcinogenic Agents in Aquarium Fish|J. Natl. Cancer Inst.55(1): 129-136|1975|10.1093/jnci/55.1.129
8175|A|RUSSN|Popova,G.V.|Nature of the Action of Some Herbicides on Carp|Nauchn. Osn. Okhr. Prir.3:153-171|1975|
8176|A||Fairchild,W.L., and D.C. Eidt|Perturbation of the Aquatic Invertebrate Community of Acidic Bog Ponds by the Insecticide Fenitrothion|Arch. Environ. Contam. Toxicol.25(2): 170-183|1993|10.1007/BF00212128
8177|A||Proeger,T.S., and W.W. Dawson|Iodoacetate Poisoning in Fish Retinas with Broadly Distributed Cones|Physiol. Zool.48(2):130-141|1975|10.1086/physzool.48.2.30155646
8178|A||Prost,M., M. Studnicka, and J. Niezgoda|Comparison of the Toxicity of Methylene Blue and Malachite Green for the Fry of Rainbow Trout (Porownanie Toksycznosci Blekitu Metylenowego i Zieleni Malachitowej dla Narybku Pstraga Teczowego)|Med. Weter. (Multiple Languages)31(4): 226-229|1975|
8179|A||Racicot,J.G., M. Gaudet, and C. Leray|Blood and Liver Enzymes in Rainbow Trout (Salmo gairdneri Rich.) with Emphasis on Their Diagnostic Use: Study of CCl4 Toxicity and a Case of|J. Fish Biol.7(6): 825-835|1975|10.1111/j.1095-8649.1975.tb04653.x
8180|A||Ranke-Rybicka,B.|The Effect of Organophosphate Pesticides (Malathion, Foschlor, Dichlorvos) on Aquatic Organisms|Rocz. Panstw. Zakl. Hig. (Multiple Languages)26(3): 393-399|1975|
8181|A||Reinbold,K.A.|Effects of the Synergist Piperonyl-Butoxide on Toxicity and Metabolism of Pesticides in Green Sunfish (Lepomis cyanellus Rafinesque)|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:79 p.|1974|
8182|A||Renzoni,A.|Further Data on the Effect of Detergents on the Life of Some Marine Bivalve Larvae|Arch. Oceanogr. Limnol.18(2): 99-114|1975|
8184|A||Pietilainen,K.|Synergistic and Antagonistic Effects of Lead and Cadmium on Aquatic Primary Production|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:861-873|1976|
8185|A||Honrubia,M.P., M.P. Herraez, and R. Alvarez|The Carbamate Insecticide ZZ-Aphox Induced Structural Changes of Gills, Liver, Gall-Bladder, Heart, and Notochord of Rana perezi Tadpoles|Arch. Environ. Contam. Toxicol.25(2): 184-191|1993|10.1007/BF00212129
8186|A||Sakaguchi,H., and A. Hamaguchi|Physiological Changes in the Serum and Hepatopancreas of Yellow Tail Injected with Carbon Tetrachloride|Nippon Suisan Gakkaishi (Multiple Languages)41(3): 283-290|1975|10.2331/suisan.41.283
8187|A||Sakiya,Y., N. Umezawa, and M. Hanano|Kinetics on Uptake of Drugs in Goldfish.  II.  Uptake of Benzoic Acid, Phenol, Phenobarbital and Pentobarbital|Yakugaku Zasshi95(4): 402-410|1975|10.1248/yakushi1947.95.4_402
8188|A||Sandifer,P.A., P.B. Zielinski, and W.E. Castro|Enhanced Survival of Larval Grass Shrimp in Dilute Solutions of the Synthetic Polymer, Polyethylene Oxide|U.S.N.Mar.Fish.Serv.Fish.Bull.73(3): 678-680|1975|
8189|A||Sastry,K.V., and V.P. Agrawal|Effect of Carbon Tetrachloride on the Hepatic Alkaline and Acid Phosphatases in a Teleost Fish, Heteropneustes fossilis|Acta Anat.93(3): 361-366|1975|10.1159/000144512
8190|A||Saxena,P.N., and B.P. Singh|Resistance of Algae to Dichlorophen Toxicity|Indian J. Exp. Biol.13(4): 408-409|1975|
8191|A||Scharer,M., C. Brunold, and K.H. Erismann|Inhibition of Sulfate Uptake by Lemna minor L. During Aeration with Sublethal Concentration of SO2 (Hemmung der Sulfataufnahme durch Lemna minor L. durch SO2 in Subletalen Konzentrationen)|Experientia31(12): 1414-1415|1975|10.1007/BF01923218
8192|A|OECDG|Scherer,E.|Avoidance of Fenitrothion by Goldfish (Carassius auratus)|Bull. Environ. Contam. Toxicol.13(4): 492-496|1975|10.1007/BF01721858
8193|A||Schneider,P.W.J., and L.J. Weber|Neuromuscular Function and Acetylchloinesterase in the Pectoral Abductor Muscle of Largemouth Bass (Micropterus salmoides) as Evidenced by the|J. Fish. Res. Board Can.32(11): 2153-2161|1975|10.1139/f75-253
8194|A||Ruby,S.M., P. Jaroslawski, and R. Hull|Lead and Cyanide Toxicity in Sexually Maturing Rainbow Trout, Oncorhynchus mykiss During Spermatogenesis|Aquat. Toxicol.26(3-4): 225-238|1993|10.1016/0166-445X(93)90032-V
8195|A||Schultz,T.W.|Some Aspects of the Fine Structure of Daphnia pulex and the Cytotoxic Effects of 3-Amino-1,2,4-Triazole|Ph.D Thesis, University of Tennessee, Knoxville, TN:133 p.|1975|
8196|A||Gingerich,W.H., R.M. Elsbury, and M.T. Steingraeber|Effects of Cadmium on Hatching Success, Growth, and Osteological Development of Larval Brook Trout (Salvelinus fontinalis) in Soft, Acidic Waters|Aquat. Toxicol.11(3-4): 404-405|1988|10.1016/0166-445X(88)90100-2
8197|A||Davies,I.M., and J.D. Paul|Accumulation of Copper and Nickel from Anti-Fouling Compounds During Cultivation of Scallops (Pecten maximus L.) and Pacific Oysters (Crassostrea gigas Thun.)|Aquaculture55(2): 93-102|1986|10.1016/0044-8486(86)90065-7
8198|A||Serns,S.L.|The Effects of Dipotassium Endothall on the Zooplankton and Water Quality of a Small Pond|Water Resour. Bull.11(6): 1221-1231|1975|10.1111/j.1752-1688.1975.tb01844.x
8199|AT||Shaw,B., and P.K. Hopke|The Dynamics of Diquat in a Model Eco-system|Environ. Lett.8(4): 325-335|1975|10.1080/00139307509437442
8200|A||Handy,R.D.|The Effect of Acute Exposure to Dietary Cd and Cu on Organ Toxicant Concentrations in Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.27(1-2): 1-14|1993|10.1016/0166-445X(93)90043-Z
8201|A||Holm,G., L. Norrgren, T. Andersson, and A. Thuren|Effects of Exposure to Food Contaminated with PBDE, PCN or PCB on Reproduction, Liver Morphology and Cytochrome P450 Activity in the Three-Spined Stickleback, Gasterosteus aculeatus|Aquat. Toxicol.27(1-2): 33-50|1993|10.1016/0166-445X(93)90045-3
8202|A||Kane,A.S., W.W. Day, R. Reimschuessel, and M.M. Lipsky|3-Trifluoromethyl-4-Nitrophenol (TFM) Toxicity and Heptaic Microsomal UDP-Glucuronyltransferase Activity in Larval and Adult Bullfrogs|Aquat. Toxicol.27(1-2):51-60|1993|10.1016/0166-445X(93)90046-4
8204|A||Sheridan,R.P., and M.A. Simms|Effect of the Insecticide Zectran (Mexacarbate) on Several Algae|Bull. Environ. Contam. Toxicol.13(5): 565-569|1975|10.1007/BF01685180
8205|A||Shimura,M., and Y. Sekizawa|Residue Analyses on 2-Amino-4-Phenylthiazole, a Piscine Anesthetic in Fishes. II. Resolution on Chemical Structure of the Metabolite in Medaka|Nippon Suisan Gakkaishi (Multiple Languages)41(5):529-534|1975|10.2331/suisan.41.529
8206|A||Shukla,S.S., and R.M. Roy|Studies on the Comparative Molluscicide Effects of N-Tritylmorpholine and Copper Sulphate on the Common Aquatic Snails in Andhra Pradesh (India)|Trop. Anim. Health Prod.7(1): 45-50|1975|10.1007/BF02383243
8207|A||Sikka,H.C., D. Ford, and R.S. Lynch|Uptake, Distribution, and Metabolism of Endothall in Fish|J. Agric. Food Chem.23(5): 849-851|1975|10.1021/jf60201a009
8208|A||Rajeswari,K., S.J. Reddy, G.M. Rafi, S.N. Reddy, and D.C. Reddy|Impact of Thiodon on the Metabolic Pathway of the Fish Tilapia mossambica|Environ. Ecol.7(4): 863-866|1989|
8209|A||Sills,J.B., and J.L. Allen|Accumulation and Loss of Residues of 3-Trifluoromethyl-4-Nitrophenol (TFM) in Fish Muscle Tissue:  Laboratory Studies|Invest.Fish Control No.65, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1975|
8210|A||Skea,J.C., H.J. Dean, C. Talbot, and C.N. Frisa|Toxicity of Two Synthetic Pyrethrins to Brown Trout|N. Y. Fish Game J.22(1): 62-67|1975|
8212|A||Sliger,W.A.|An Evaluation of Bioassay Methods for Determining Acute Phenol Toxicity to Channel Catfish, Ictalurus punctatus (Rafinesque)|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:74 p.|1975|
8213|A||Adema,D.M.M., S.I. Deswaaf-Mooy, and P. Bais|Laboratory Investigations Concerning the Influence of Copper on Mussels (Mytilus edilus) (Laboratoriumonderzoek Over de Invloed Van Koper op Mosselen (Mytilus edilus)|TNO Nieuws27(9): 482-487|1972|
8214|A||Srivastava,D.K., and V.M.S. Sriwastwa|Erythrocytic Abnormalities due to Urea Stress in Cirrhinus mrigala (Ham.) Fingerlings|Curr. Sci. (Bangalore)49(20):799-800|1980|
8215|A||Gala,W.R., and J.P. Giesy|Using the Carotenoid Biosynthesis Inhibiting Herbicide, Fluridone, to Investigate the Ability of Carotenoid Pigments to Protect Algae from the Photo-Induced Toxicity of Anthracene|Aquat. Toxicol.27(1-2): 61-70|1993|10.1016/0166-445X(93)90047-5
8216|A||Statham,C.N., and J.J. Lech|Metabolism of 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) in Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.32(4):515-522|1975|10.1139/f75-063
8218|A|RUSSN|Stroganov,N.S., A.G. Dmitrieva, G.D. Lebedeva, and N.M. Chernova|Effect of Triethyltin Chloride on the Viability of Microcystis aeruginosa|In: V.A.Kovda and A.N.Tyuryukanov (Eds.), Biosfera Chel., Mater.Vses.Simp.1st, Nauka, Moscow, USSR:277-280|1975|
8219|A||Davies,I.M., J.C. McKie, and J.D. Paul|Accumulation of Tin and Tributyltin From Anti-fouling Paint by Cultivated Scallops (Pecten maximus) and Pacific Oysters (Crassostrea gigas)|Aquaculture55(2): 103-114|1986|10.1016/0044-8486(86)90066-9
8220|A||Svobodova,Z.|Changes in the Red Blood Picture of the Carp Intoxicated with Organo-Phosphate Pesticides|Acta Vet. Brno44(1-2): 49-52|1975|
8221|A||Elliott,N.G., D.A. Ritz, and R. Swain|Interaction Between Copper and Zinc Accumulation in the Barnacle Elminius modestus Darwin|Mar. Environ. Res.17(1): 13-17|1985|10.1016/0141-1136(85)90029-7
8222|A||Takahashi,R.M., and T. Miura|Insect Developmental Inhibitors: Multiple Applications of Dimilin and Altosid to Gambusia affinis (Baird and Girard)|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.43:85-87|1975|
8223|A||Stephenson,R.R., and D. Taylor|The Influence of EDTA on the Mortality and Burrowing Activity of the Clam (Venerupis decussata) Exposed to Sub-lethal Concentrations of Copper|Bull. Environ. Contam. Toxicol.14(3): 304-308|1975|10.1007/BF01685641
8224|A||Nichols,J.W., J.M. McKim, G.J. Lien, A.D. Hoffman, S.L. Bertelsen, and C.A. Gallinat|Physiologically-Based Toxicokinetic Modeling of Three Waterborne Chloroethanes in Channel Catfish, Ictalurus punctatus|Aquat. Toxicol.27(1-2): 83-112|1993|10.1016/0166-445X(93)90049-7
8225|A||Terriere,L.C., and R.J. Burnard|Uptake, Tissue Distribution, and Clearance of the Selective Piscicide 1,1'-Methylenedi-2-Naphthol (Squoxin) by the Rainbow Trout and the Squawfish|J. Agric. Food Chem.23(4):714-717|1975|10.1021/jf60200a029
8226|A||Thirugnanam,M., and A.J. Forgash|Environmental Impact of Mosquito Pesticides: Influence of Temefos on the Brain Acetylcholinesterase of Killifish|Environ. Physiol. Biochem.5(6): 451-459|1975|
8227|A||Tooby,T.E., and F.J. Durbin|Lindane Residue Accumulation and Elimination in Rainbow Trout (Salmo gairdnerii Richardson) and Roach (Rutilus rutilus Linnaeus)|Environ. Pollut.8(2): 79-89|1975|
8228|A||Tovell,P.W.A., D. Howes, and C.S. Newsome|Absorption, Metabolism and Excretion by Goldfish of the Anionic Detergent Sodium Lauryl Sulphate|Toxicology4(1): 17-29|1975|10.1016/0300-483X(75)90018-9
8229|A||Tovell,P.W.A., C. Newsome, and D. Howes|Effect of Water Hardness on the Toxicity of a Nonionic Detergent to Fish|Water Res.9(1): 31-36|1975|10.1016/0043-1354(75)90149-9
8230|A||Turunina,N.V.|Effect of Ivviol-3 on Hydrobionts|Izv. Gos. Nauchno-Issled. Inst. Ozern. Rechn. Rybn. Khoz.93:130-133|1975|
8231|A||Wakabayashi,M., M. Kikuchi, W. Inoue, H. Kawahara, and Y. Koido|Toxicity of Detergents to Some Aquatic Organisms. I. Acute Toxicity of Anionic Surfactants to Oryzias latipes|Suisan Zoshoku (Non-English)23(3): 119-124|1975|
8232|A||Weis,J.S., and P. Weis|Retardation of Fin Regeneration in Fundulus by Several Insecticides|Trans. Am. Fish. Soc.104(1): 135-137|1975|10.1577/1548-8659(1975)104<135:ROFRIF>2.0.CO;2
8233|A||Evtushenko,Z.S., O.N. Lukyanova, and N.K. Khristoforova|Biochemical Changes in Selected Body Tissues of the Scallop Patinopecten yessoenis Under Long-Term Exposure to Low Cd Concentrations|Mar. Ecol. Prog. Ser.20(1-2): 165-170|1984|10.3354/meps020165
8234|A||Lemly,A.D.|Metabolic Stress During Winter Increases the Toxicity of Selenium to Fish|Aquat. Toxicol.27(1/2): 133-158|1993|10.1016/0166-445X(93)90051-2
8235|A||Thomas,P., and H.W. Wofford|Effects of Cadmium and Aroclor 1254 on Lipid Peroxidation, Glutathione Peroxidase Activity, and Selected Antioxidants in Atlantic Croaker Tissues|Aquat. Toxicol.27(1-2): 159-178|1993|10.1016/0166-445X(93)90052-3
8236|A||Allemand,D., G. De Renzis, and P. Payan|Effects of HgCl2 on Intracellular pH in Sea Urchin Eggs: Activation of H+ Excretion and Na+/H+ Exchange Activity|Aquat. Toxicol.26(3-4):171-184|1993|10.1016/0166-445X(93)90029-Z
8239|A||Schultz,I.R., and W.L. Hayton|Toxicokinetics of Trifluralin in Rainbow Trout|Aquat. Toxicol.26(3-4): 287-306|1993|10.1016/0166-445X(93)90035-Y
8241|A||Korn,S., N. Hirsch, and J.W. Struhsaker|The Uptake, Distribution, and Depuration of 14C Benzene and 14C Toluene in Pacific Herring, Clupea harengus pallasi|Fish. Bull.75:633-636|1977|
8242|A||Breaud,T.P., J.E. Farlow, C.D. Steelman, and P.E. Schilling|Effects of the Insect Growth Regulator Methoprene on Natural Populations of Aquatic Organisms in Louisiana Intermediate Marsh Habitats|Mosq. News37(4): 704-712|1977|
8243|A||Cheng,T.C., and J.T. Sullivan|Alterations in Osmoregulation of the Pulmonate Gastropod Biomphalaria glabrata due to Copper|J. Invertebr. Pathol.29(1): 101-104|1977|10.1016/0022-2011(77)90179-3
8244|A||Norrgren,L., T. Andersson, and M. Bjork|Liver Morphology and Cytochrome P450 Activity in Fry of Rainbow Trout After Microinjection of Lipid-Soluble Xenobiotics in the Yolk-Sac Embryos|Aquat. Toxicol.26(3/4): 307-316|1993|10.1016/0166-445X(93)90036-Z
8246|A||Foy,C.L., and H. Hiranpradit|Herbicide Movement with Water and Effects of Contaminant Levels on Non-Target Organisms|OWRT Proj.A-046-VA, Virginia Water Resour.Res.Center, Virginia Polytechnic Inst.and State Univ., Blacksburg, VA:89 p.|1977|
8247|A||Den Besten,P.J., P. Lemaire, D.R. Livingstone, B. Woodin, J.J. Stegeman, H.J. Herwig, and W. Seinen|Time-Course and Dose-Response of the Apparent Induction of the Cytochrome P450 Monooxygenase System of Pyloric Caeca Microsomes of the Female Sea Star Asterias rubens L. by Benzo(a)pyrene and Polychlorinated Biphenyls|Aquat. Toxicol.26(1-2): 23-40|1993|10.1016/0166-445X(93)90003-J
8249|A||Tateda,Y., and T. Koyanagi|Accumulation of Radionuclides by Common Mussel Mytilus edulis and Purplish Bifurcate Mussel Septifer virgatus|Nippon Suisan Gakkaishi (Multiple Languages)52(11): 2019-2026|1986|10.2331/suisan.52.2019
8250|A||Graves,J.B., K.M. Hyde, F.L. Bonner, P.E. Schilling, and J.F. Fowler|Effects of Mirex on Crawfish Production in Rice Fields|La. Agric.20(2): 8-11|1977|
8251|A||Grizzle,J.M.|Hematological Changes in Fingerling Channel Catfish Exposed to Malachite Green|Prog. Fish-Cult.39(2):90-93|1977|10.1577/1548-8659(1977)39[90:HCIFCC]2.0.CO;2
8252|A||Fisher,N.S., and J.L. Teyssie|Influence of Food Composition on the Biokinetics and Tissue Distribution of Zinc and Americium in Mussels|Mar. Ecol. Prog. Ser.28(3): 197-207|1986|10.3354/meps028197
8253|A||Jurkowski,M.K.|Effect of DBS Detergent on Activity of some Enzymes of Young Carp (Cyrinus carpio L.) Brain, Gills and Serum|Acta Ichthyol. Piscat.7(2): 47-53|1977|10.3750/AIP1977.07.2.05
8254|A||Ahamad,I.K., K.V.R. Rao, and K.S. Swami|Effect of Malathion on Enzyme Activity in Foot, Mantle and Hepatopancreas of Snail Pila globosa|Indian J. Exp. Biol.16:258-260|1978|
8255|A||Locayano,H.A., and J.S. Crane|Control of Ichthyophthirius on the American Eel|Prog. Fish-Cult.39(1): 39-40|1977|10.1577/1548-8659(1977)39[39:COIOTA]2.0.CO;2
8256|A||Morse,D.E., H. Duncan, N. Hooker, and A. Morse|Hydrogen Peroxide Induces Spawning in Mollusks, with Activation of Prostaglandin Endoperoxide Synthetase|Science196:298-300|1977|10.1126/science.403609
8257|A||Muirhead-Thomson,R.C.|Comparative Tolerance Levels of Black Fly (Simulium) Larvae to Permethrin (NRDC 143) and Temephos|Mosq. News37(2): 172-179|1977|
8258|T||Pierce,P.C., J.E. Frey, and H.M. Yawn|Field Evaluations of Newer Aquatic Herbicides|Proc. South. Weed Conf.:497-506|1965|
8259|A||Rogge,R.W., and C.D. Drewes|Assessing Sublethal Neurotoxicity Effects in the Freshwater Oligochaete, Lumbriculus variegatus|Aquat. Toxicol.26(1-2): 73-90|1993|10.1016/0166-445X(93)90006-M
8260|A||Ruby,S.M., D.R. Idler, and Y.P. So|Plasma Vitellogenin, 17beta-Estradiol, T3 and T4 Levels in Sexually Maturing Rainbow Trout Oncorhynchus mykiss Following Sublethal HCN Exposure|Aquat. Toxicol.26(1-2): 91-102|1993|10.1016/0166-445X(93)90007-N
8261|A||Sako,F., N. Taniguchi, N. Kobayashi, and E. Takakuwa|Effects of Food Dyes on Paramecium caudatum:  Toxicity and Inhibitory Effects on Leucine Aminopeptidase and Acid Phosphatase Activity|Toxicol. Appl. Pharmacol.39:111-117|1977|10.1016/0041-008X(77)90183-1
8262|A||Rouleau,C., E. Pelletier, and H. Tjalve|The Uptake and Distribution of 203HgCl2 and CH3-203HgCl in the Starfish Asterias rubens After 24-H Exposure Studied by Impulse Counting and Whole Body|Aquat. Toxicol.27(1/2): 103-116|1992|
8263|A||Flos,R., L. Tort, and J. Balasch|Effects of Zinc Sulphate on Haematological Parameters in the Dogfish Scyliorhinus canicula and Influences of MS222|Mar. Environ. Res.21(4):289-298|1987|10.1016/0141-1136(87)90051-1
8264|A||Tjeerdema,R.S., R.J. Kauten, and D.G. Crosby|Interactive Effects of Pentachlorophenol and Temperature in the Abalone (Haliotis rufescens) as Measured by In Vivo 31P-NMR Spectroscopy|Aquat. Toxicol.26(1/2): 117-132|1993|10.1016/0166-445X(93)90009-P
8265|A||Pratap,H.B., and S.E. Wendelaar Bonga|Effect of Ambient and Dietary Cadmium on Pavement Cells, Chloride Cells, and Na+/K+ -ATPase Activity in the Gills of the Freshwater Teleost|Aquat. Toxicol.26(1/2): 133-150|1993|10.1016/0166-445X(93)90010-X
8266|A||Agrawal,P., and K.A. Goel|Alloxan Induced Leukemoid Condition in a Fresh Water Teleost Clarias batrachus|Curr. Sci. (Bangalore)47(15): 559-560|1978|
8267|A||Brieger,G., and R.D. Hunter|Uptake and Depuration of PCB 77, PCB 169, and Hexachlorobenzene by Zebra Mussels (Dreissena polymorpha)|Ecotoxicol. Environ. Saf.26(2): 153-165|1993|10.1006/eesa.1993.1047
8268|A||Thompson,P.A., and P. Couture|Physiology of Carbon Assimilation in a Green Alga During Exposure to and Recovery from Cadmium|Ecotoxicol. Environ. Saf.26(2): 205-215|1993|10.1006/eesa.1993.1050
8270|A||Collier,T.K., L.C. Thomas, and D.C. Malins|Influence of Environmental Temperature on Disposition of Dietary Naphthalene in Coho Salmon (Oncorhynchus kisutch): Isolation and Identification of Individual Metabolites|Comp. Biochem. Physiol. C Comp. Pharmacol.61:23-28|1978|10.1016/0306-4492(78)90105-3
8271|A||Grace,A.L.,Jr., and L.F.,Jr. Gainey|The Effects of Copper on the Heart Rate and Filtration Rate of Mytilus edulis|Mar. Pollut. Bull.18(2): 87-91|1987|10.1016/0025-326X(87)90574-1
8272|A|OECDG|Ferrando,M.D., C.R. Janssen, E. Andreu, and G. Persoone|Ecotoxicological Studies with the Freshwater Rotifer Brachionus calyciflorus III.  The Effects of Chemicals on the Feeding Behavior|Ecotoxicol. Environ. Saf.26(1): 1-9|1993|10.1006/eesa.1993.1035
8273|A||Chin,T.S., and H.C. Chen|Bioaccumulation and Distribution of Mercury in the Hard Clam, Meretrix lusoria (Bivalvia: Veneidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(1): 131-139|1993|
8274|A||Hughes,G.M., and R. Flos|Zinc Content of the Gills of Rainbow Trout (S. gairdneri) After Treatment with Zinc Solutions Under Normoxic and Hyposic Conditions|J. Fish Biol.13:717-728|1978|10.1111/j.1095-8649.1978.tb03486.x
8275|A||Mangum,C.P., J.A. Dykens, R.P. Henry, and G. Polites|The Excretion of NH4+ and Its Quabain Sensitivity in Aquatic Annelids and Molluscs|J. Exp. Zool.203:151-157|1978|10.1002/jez.1402030115
8276|A||Sheela,M., and S. Muniandy|Impact of Cypermethrin on Protein Conversion Efficiency, RNA, Protein, Glycogen Content and Protease Enzyme Activity in Different Tissues of the Fish Lepidocephalichthyes thermalis|Environ. Ecol.10(4): 829-832|1992|
8277|A||Sheela,M., and S. Muniandy|Impact of Phosphamidon on DNA, RNA, Protein, Carbohydrate and Lipid Content in Different Tissues of the Fish Channa striatus (Bloch)|Environ. Ecol.10(4): 853-856|1992|
8278|A||Palanisamy,R., and G. Kalaiselvi|Acute Toxicity of Agricultural Fertilizers to Fish Labeo rohita|Environ. Ecol.10(4): 869-873|1992|
8279|A||Thatheyus,A.J.|Behavioral Alterations Induced by Nickel and Chromium in Common Carp Cyprinus carpio Var communis (Linn)|Environ. Ecol.10(4): 911-913|1992|
8280|A||Armstrong,D.A., D.V. Buchanan, and R.S. Caldwell|A Mycosis Caused by Lagneidium sp. in Laboratory-Reared Larvae of the Dungeness Crab, Cancer magister, and Possible Chemical Treatments|J. Invertebr. Pathol.28:329-336|1976|10.1016/0022-2011(76)90007-0
8281|A||Medda,C., S.K. Sarkar, S. Ganguly, T.K. Basu, and A.K. Roy|Histopathological Changes Induced by Non-Lethal Level of Phosphamidon and Recovery in Labeo rohita Fingerlings|Environ. Ecol.10(4): 934-936|1992|
8282|A||Person-LeRuyet,J., C. Delbard, H. Chartois, and H. LeDelliou|Toxicity of Ammonia to Turbot Juveniles: 1. Effects on Survival, Growth and Food Utilisation|Aquat. Living Resour.10(5): 307-314|1997|10.1051/alr:1997034
8283|A||Pundir,R., and A. Sharma|Effect of Lead on the Pituitary and Gonads of a Freshwater Fish, Nemacheilus botia|Funct. Dev. Morphol.1(1): 55-58|1991|
8284|A||Treasurer,J.W., and A. Grant|The Efficacy of Hydrogen Peroxide for the Treatment of Farmed Atlantic Salmon, Salmo salar L. Infested with Sea Lice (Copepoda: Caligidae)|Aquaculture148(4): 265-275|1997|10.1016/S0044-8486(96)01267-7
8285|A||Sriwastwa,V.M.S., P.K. Gupta, and G.J. Srivastava|Urea Stress and Free Amino Acids in the Brain of Clarias batrachus (L.)|Geobios (Jodhpur)5(5):232-233|1978|
8286|A||Mane,U.H., M.S. Kachole, and S.S. Pawar|Effect of Pesticides and Narcotants on Bivalve Molluscs|Malacologia18:347-360|1979|
8287|A||Morrison,B.R.S.|An Investigation into the Effects of the Piscicide Antimycin A on the Fish and Invertebrates of a Scottish Stream|Fish. Manag.10(3): 111-122|1979|
8288|A||Sheela,M., and S. Muniandy|Impact of Fenvalerate on Body Composition, Protease Enzyme and Protein Conversion Efficiency in the Fish Cirrhinus mrigala (Ham.)|Environ. Ecol.10(3): 532-535|1992|
8289|A||Patil,P.S., M.V. Chaudhary, M.P. Gadkari, and K.M. Kulkarni|Effect of HCH on the Lipid Profiles of the Fish Rasbora daniconius|Environ. Ecol.10(3): 559-563|1992|
8290|A||Patil,P.S., M.V. Chaudhary, M.P. Gadkari, and K.M. Kulkarni|Toxic Effects of HCH on Glycogen Content of the Fish Rasbora daniconius (Ham.)|Environ. Ecol.10(3): 576-578|1992|
8291|A||Argyle,R.L., G.C. Williams, and H.K. Dupree|Endrin Uptake and Release by Fingerling Channel Catfish (Ictalurus punctatus)|J. Fish. Res. Board Can.30(11): 1743-1744|1973|10.1139/f73-278
8292|A||Sheela,M., R. Mathivanan, and S. Muniandy|Impact of Fenvalerate and Phosphamidon on Food Intake, Growth and Conversion Efficiency in the Fish Channa striatus (Bloch)|Environ. Ecol.10(3): 593-596|1992|
8293|A||Bansal,S.K., S.R. Verma, A.K. Gupta, and R.C. Dalela|Predicting Long-Term Toxicity by Subacute Screening of Pesticides with Larvae and Early Juveniles of Four Species of Freshwater Major Carp|Ecotoxicol. Environ. Saf.4:224-231|1980|10.1016/0147-6513(80)90024-X
8294|A||Sinha,T.K.P., and K. Kumar|Acute Toxicity of Mercuric Chloride to Anabas testudineus (Bloch)|Environ. Ecol.10(3): 720-722|1992|
8295|A||Lomte,V.S., and Y.B. Sontakke|Effect of Mercuric Chloride on Protein content of Thiara lineata|Environ. Ecol.10(3): 734-735|1992|
8296|A||Ahsanullah,M., and G.H. Arnott|Acute Toxicity of Copper, Cadmium, and Zinc to Larvae of the Crab Paragrapsus quadridentatus (H. Milne Edwards), and Implications for Water Quality Criteria|Aust. J. Mar. Freshw. Res.29(1): 1-8|1978|10.1071/MF9780001
8297|A||Airaksinen,M., E.L. Valkama, and O.V. Lindqvist|Distribution of DDT in the Crayfish Astacus astacus L. in Acute Test|In: O.V.Lindqvist (Ed.), Proc.3rd Int.Symp.Freshwater Crayfish3:349-356|1977|
8298|A||Akiyama,A.|Acute Toxicity of Two Organic Mercury Compounds to the Teleost, Oryzias latipes, in Different Stages of Development|Nippon Suisan Gakkaishi (Multiple Languages)36(6): 563-570|1970|10.2331/suisan.36.563
8299|A||Green,D.R., J.K. Stull, and T.C. Heesen|Determination of Chlorinated Hydrocarbons in Coastal Waters Using a Moored In Situ Sampler and Transplanted Live Mussels|Mar. Pollut. Bull.17(7): 324-329|1986|10.1016/0025-326X(86)90219-5
8300|A||Anderson,J.M., and H.B. Prins|Effects of Sublethal DDT on a Simple Reflex in Brook Trout|J. Fish. Res. Board Can.27(2): 331-334|1970|10.1139/f70-038
8301|A||Bahr,T.G.|Electrophysiological Responses of Trout to Dissolved Oxygen and Cyanide|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor, MI:231-255|1973|
8302|A||Baker III,D.H.|Mercury: Uptake by the Goldfish, Carassius auratus, From Low Concentrations in Water and its Tissue Distribution|M.S.Thesis, New Mexico Institute of Mining and Technology, Socorro, NM:37 p.|1973|
8303|A||Basil,J.A., and J. Jayaraman|Acute Toxicity of Carbofuran to Chosen Rice Field Organisms|Environ. Ecol.10(3): 736-738|1992|
8304|A||Sen,G., M.K. Behera, and P.N. Patel|Toxic Effects of Zinc on Liver and Brain of the Fish Channa punctatus (Bloch)|Environ. Ecol.10(3): 742-744|1992|
8305|A||Lagerspetz,K.Y.H., A. Tiiska, and K.E.O. Senius|Low Sensitivity of Ciliary Activity in the Gills of Anodonta cygnea to Some Ecotoxicals|Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 393-395|1993|10.1016/0742-8413(93)90076-W
8307|A||De Zwaan,A., O. Cattan, and V.M. Putzer|Sulfide and Cyanide Induced Mortality and Anaerobic Metabolism in the Arcid Blood Clam Scapharca inaequivalvis|Comp. Biochem. Physiol. C Comp. Pharmacol.105(1): 49-54|1993|10.1016/0742-8413(93)90056-Q
8310|A||Bhattacharya,S., and S. Mukherjee|Toxic Effects of Endrin on Hepatopancreas of the Teleost Fish, Clarias batrachus (Linn.)|Indian J. Exp. Biol.13(2): 185-186|1975|
8311|A||Birge,W.J., J.A. Black, A.G. Westerman, P.C. Francis, and J.E. Hudson|Embryopathic Effects of Waterborne and Sediment-Accumulated Cadmium, Mercury and Zinc on Reproduction and Survival of Fish and Amphibian Populations in Kentucky|Res.Rep.No.100, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:28 p.|1977|
8312|A||Bonaly,J., A. Delcourt, and J.C. Mestre|The Effects of Some Metallic Ions on the Growth of Chlamydomonas variabilis and Euglena gracilis|Mitt. Int. Ver. Limnol.21:103-109|1978|
8313|A||Deneer,J.W.|Uptake and Elimination of Chlorpyrifos in the Guppy at Sublethal and Lethal Aqueous Concentrations|Chemosphere26(9): 1607-1616|1993|10.1016/0045-6535(93)90106-F
8314|A||Borgmann,U., O. Kramar, and C. Loveridge|Rates of Mortality, Growth, and Biomass Production of Lymnaea palustris During Chronic Exposures to Lead|J. Fish. Res. Board Can.35(8): 1109-1115|1978|10.1139/f78-175
8315|A||Brannon,D.P., and L.G. Tate|Effect of Salinity on Toxicity and Tissue Accumulation of Cadmium in the Sailfin Molly, Poecilia latipinna (Poeciliidae)|ASB Bull.24(2): 39-|1977|
8316|A||Bancroft,R., and K.V. Prahlad|Effect of Ethylenebis [Dithiocarbamic Acid] Disodium Salt (Nabam) and Ethylenebis [Dithiocarbamato] Manganese (Maneb) on Xenopus laevis Development|Teratology7(2): 143-150|1973|10.1002/tera.1420070205
8317|A||Brown,V.M.|The Calculation of the Acute Toxicity of Mixtures of Poisons to Rainbow Trout|Water Res.2(10): 723-733|1968|10.1016/0043-1354(68)90044-4
8318|A||Brown,V.M., D.H.M. Jordan, and B.A. Tiller|The Effect of Temperature on the Acute Toxicity of Phenol to Rainbow Trout in Hard Water|Water Res.1(8-9): 587-594|1967|10.1016/0043-1354(67)90041-3
8319|A||Brown,V.M., D.G. Shurben, and J.K. Fawell|The Acute Toxicity of Phenol to Rainbow Trout in Saline Waters|Water Res.1(10): 683-685|1967|10.1016/0043-1354(67)90071-1
8320|A||Brungs,W.A., J.R. Geckler, and M. Gast|Acute and Chronic Toxicity of Copper to the Fathead Minnow in a Surface Water of Variable Quality|Water Res.10(1): 37-43|1976|10.1016/0043-1354(76)90155-X
8321|A||Burton,D.T., A.H. Jones, and J.,Jr. Cairns|Acute Zinc Toxicity to Rainbow Trout (Salmo gairdneri): Confirmation of the Hypothesis That Death Is Related to Tissue Hypoxia|J. Fish. Res. Board Can.29(10): 1463-1466|1972|10.1139/f72-225
8322|A||Cairns,J.,Jr., and W.T. Waller|The Use of Fish Movement Patterns to Monitor Zinc|EPA-18050-EDP-12/71, Water Pollut.Control Res.Ser., Virginia Polytechnic Inst.and State Univ., Biol.Dep.Ctr.for Environ.Studies, Blacksburg, VA:58 p.|1971|
8323|A||Schafers,C., and R. Nagel|Toxicity of 3,4-Dichloroaniline to Perch (Perca fluviatilis) in Acute and Early Life Stage Exposures|Chemosphere26(9): 1641-1651|1993|10.1016/0045-6535(93)90109-I
8324|A||Califano,R.J., J.M. O'Connor, and L.S. Peters|Uptake, Retention, and Elimination of PCB (Aroclor 1254) by Larval Striped Bass (Morone saxatilis)|Bull. Environ. Contam. Toxicol.24(3): 467-472|1980|10.1007/BF01608141
8325|A||Smith,B.P., E. Hejtmancik, and B.J. Camp|Acute Effects of Cadmium on Ictalurus punctatus (Catfish)|Bull. Environ. Contam. Toxicol.15(3): 271-277|1976|10.1007/BF01812635
8326|A||Cardeilhac,P.T., and E.R. Hall|Acute Copper Poisoning of Cultured Marine Teleosts|Am. J. Vet. Res.38(4): 525-527|1977|
8328|A||Chin,H.C., and F.F. Chou|Acute Chromium Toxicity of the Freshwater Mussel, Hyriopsis cumingii Lea|Nanjing Daxue Xuebao, Ziran Kexue (J. Nanjing Univ. , Nat. Sci. )4:96-101|1978|
8329|A||Chung,K.S.|Acute Toxicity of Cadmium and Copper in the Mangrove Oyster (La Aguda Toxididad de Cadmio y Cobre en la Ostra de Mangre (Crassostrea rhizophrae))|Acta Cient. Venez.29(2): 14-|1978|
8330|A||Harrison,F.L., and J.R. Lam|Partitioning of Copper Among Copper-Binding Proteins in the Mussel Mytilus edulis Exposed to Soluble Copper|Mar. Environ. Res.16(3): 151-163|1985|10.1016/0141-1136(85)90135-7
8331|A||Courtenay,W.R.J.,Jr.|Environmental Effects on Toxaphene Toxicity to Selected Fishes and Crustaceans|EPA-R3-73-035, U.S.EPA, Washington, DC:73 p.|1973|
8332|A||Mersch,J., E. Morhain, and C. Mouvet|Laboratory Accumulation and Depuration of Copper and Cadmium in the Freshwater Mussel Dreissena polymorpha and the Aquatic Moss Rhynchostegium ripariodes|Chemosphere27(8): 1475-1485|1993|10.1016/0045-6535(93)90242-W
8333|A||Davis,J.C., and I.G. Shand|Acute and Sublethal Copper Sensitivity, Growth and Saltwater Survival in Young Babine Lake Sockeye Salmon|Tech. Rep. Fish. Mar. Serv.847:1-55|1978|
8334|A||Middaugh,D.P., and J.M. Dean|Comparative Sensitivity of Eggs, Larvae and Adults of the Estuarine Teleost, Fundulus heteroclitus and Menidia menidia to Cadmium|Bull. Environ. Contam. Toxicol.17(6): 645-652|1977|10.1007/BF01685947
8335|A||Hughes,J.M., H.F. Chapman, and R.L. Kitching|Effects of Sublethal Concentrations of Copper and Freshwater on Behaviour in an Estuarine Gastropod Polinices sordidus|Mar. Pollut. Bull.18(3): 127-131|1987|10.1016/0025-326X(87)90134-2
8336|A||Chakraborty,P.S., and S. Banerjee|Impact of a Pesticide on Fishes Cultured in Paddy Field|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.59(1): 1-4|1989|
8338|A||D'Silva,C., and T.W. Kureishy|Experimental Studies on the Accumulation of Copper and Zinc in the Green Mussel|Mar. Pollut. Bull.9(7): 187-190|1978|10.1016/0025-326X(78)90176-5
8339|A||Dvorchik,B.H., and T.H. Maren|Distribution, Metabolism, Elimination and Toxicity of 14C-DDT in the Dogfish, Squalus acanthias|Comp. Gen. Pharmacol.5(1): 37-49|1974|10.1016/S0306-3623(74)80006-6
8340|A||Naqvi,S.M., and D.J. Newton|Bioaccumulation of Endosulfan (Thiodan R Insecticide) in the Tissues of Louisiana Crayfish, Procambarus clarkii|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(4): 511-526|1990|
8341|A||Jain,S.M.|Effects of Different Concentrations of Quinaldine on the Behaviour of Cyprinus carpio communis|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.59(1): 5-9|1989|
8342|A||Eisler,R., and G.R. Gardner|Acute Toxicology to an Estuarine Teleost of Mixtures of Cadmium, Copper and Zinc Salts|J. Fish Biol.5(2): 131-142|1973|10.1111/j.1095-8649.1973.tb04441.x
8343|A||Ellgaard,E.G., J.C. Ochsner, and J.K. Cox|Locomotor Hyperactivity Induced in the Bluegill Sunfish, Lepomis macrochirus, by Sublethal Concentrations of DDT|Can. J. Zool.55(7):1077-1081|1977|10.1139/z77-139
8344|A||Ernst,W.H.O., and M. Marquenie-Van der Werff|Aquatic Angiosperms as Indicators of Copper Contamination|Arch. Hydrobiol.83(3): 356-366|1978|
8346|A||Urmila Devi,B., and K. Radhakrishnaiah|Changes in Total Lipids in the Osmoregulatory Organs of the Freshwater Teleost, Cyprinus carpio, at Lethal and Sublethal Concentrations of Mercury|Z. Angew. Zool. (Multiple Languages)77:121-126|1990|
8347|A||Fezy,J.S., D.F. Spencer, and R.W. Greene|The Effect of Nickel on the Growth of the Freshwater Diatom Navicula pelliculosa|Environ. Pollut.20(2): 131-137|1979|
8348|A||Filip,D.S., T. Peters, V.D. Adams, and E.J. Middlebrooks|Residual Heavy Metal Removal by an Algae-Intermittent Sand Filtration System|Water Res.13(3): 305-313|1979|10.1016/0043-1354(79)90211-2
8349|A||Fingerman,S.W., C.,Jr. Van Meter, and M. Fingerman|Increased Spontaneous Locomotor Activity in the Fiddler Crab, Uca pugilator, After Exposure to a Sublethal Concentration of DDT|Bull. Environ. Contam. Toxicol.21(1-2): 11-16|1979|10.1007/BF01685378
8351|A||Gissel-Nielsen,M.|Sensitivity of Trout to Chronic and Acute Exposure to Selenium|Agric. Environ.4(1): 85-91|1978|10.1016/0304-1131(78)90009-7
8352|A||Wlasow,T., H. Dabrowska, and E. Ziomek|Hematology of Carp in Prolonged Sublethal Ammonia intoxication|Pol. Arch. Hydrobiol.37(3): 429-438|1990|
8353|A||Goode,J.W., G. Rausina, M.L. Keplinger, and J.C. Calandra|Acute Static and Subacute Dynamic Toxicity Studies Conducted with Free and Combined Cyanide in Rainbow Trout and Fathead Minnows|Toxicol. Appl. Pharmacol.37(1): 118-|1976|
8354|A||Green,F.A.J., J.W. Anderson, S.R. Petrocelli, B.J. Presley, and R. Sims|Effect of Mercury on the Survival, Respiration, and Growth of Postlarval White Shrimp, Penaeus setiferus|Mar. Biol.37:75-81|1976|10.1007/BF00386781
8355|A||Guth,D.J., H.D. Blankespoor, and J.,Jr. Cairns|Potentiation of Zinc Stress Caused by Parasitic Infection of Snails|Hydrobiologia (Multiple Languages)55(3): 225-229|1977|10.1007/BF00017554
8356|A||Haga,Y., H. Haga, T. Hagino, and T. Kariya|Studies on the Post-Mortem Identification of the Pollutant in Fish Killed by Water Pollution - XII. Acute Poisoning with Mercury (1)|Nippon Suisan Gakkaishi (Multiple Languages)36(3): 225-231|1970|10.2331/suisan.36.225
8357|A||Mathur,A.K., B.N. Gupta, C. Agarwal, S. Arora, and A. Singh|Effects of Linear Alkylbenzene Sulphonate on Fish:  An In Vivo Study|Pol. Arch. Hydrobiol.37(3): 413-418|1990|
8358|A||Hannan,P.J., and C. Patouillet|An Algal Toxicity Test and Evaluation of Adsorption Effect|J. Water Pollut. Control Fed.51(4):834-840|1979|
8359|A||Wlasow,T., and H. Dabrowska|Hematology of Carp in Acute intoxication with Ammonia|Pol. Arch. Hydrobiol.37(3): 419-428|1990|
8360|A||Plakas,S.M., and M.O. James|Bioavailability, Metabolism, and Renal Excretion of Benzoic Acid in the Channel Catfish (Ictalurus punctatus)|Drug Metab. Dispos.18(5): 552-556|1990|
8362|A||Hawkins,W.E., L.G. Tate, C.A. Foster, and T.G. Sarphie|Acute Effects of Cadmium on Tissues of a Marine Teleost|Anat. Rec.193(1): 166-|1979|
8363|A||Sellers,C.M.,Jr., A.G. Heath, and M.L. Bass|The Effect of Sublethal Concentrations of Copper and Zinc on Ventilatory Activity. Blood Oxygen and pH in Rainbow Trout (Salmo gairdneri)|Water Res.9(4): 401-408|1975|10.1016/0043-1354(75)90185-2
8364|A||Hodson,P.V.|Zinc Uptake by Atlantic Salmon (Salmo salar) Exposed to a Lethal Concentration of Zinc at 3, 11, and 19C|J. Fish. Res. Board Can.32(12): 2552-2556|1975|10.1139/f75-300
8365|A||Hodson,P.V., B.R. Blunt, and D.J. Spry|Chronic Toxicity of Water-Borne and Dietary Lead to Rainbow Trout (Salmo gairdneri) in Lake Ontario Water|Water Res.12(10): 869-878|1978|10.1016/0043-1354(78)90039-8
8366|A||Hodson,P.V., and J.B. Sprague|Temperature-Induced Changes in Acute Toxicity of Zinc to Atlantic Salmon (Salmo salar)|J. Fish. Res. Board Can.32(1): 1-10|1975|10.1139/f75-001
8367|A||Suresh,K., and A. Mohandas|Effect of Sublethal Concentrations of Copper on Hemocyte Number in Bivalves|J. Invertebr. Pathol.55(3): 325-331|1990|10.1016/0022-2011(90)90074-G
8368|A||Hoppenheit,M.|On the Dynamics of Exploited Populations of Tisbe holothuriae (Copepoda, Harpacticoida). V. The Toxicity of Cadmium:  Response to Sub-lethal Exposure|Helgol. Wiss. Meeresunters.29(4): 503-523|1977|10.1007/BF01609987
8369|A||Hoppenheit,M., and K.R. Sperling|On the Dynamics of Exploited Populations of Tisbe holothuriae (Copepoda, Harpacticoidae). IV. The Toxicity of Cadmium: Response to Lethal Exposure|Helgol. Wiss. Meeresunters.29(3): 328-336|1977|10.1007/BF01614269
8370|A||Huckabee,J.W., and N.A. Griffith|Toxicity of Mercury and Selenium to the Eggs of Carp (Cyprinus carpio)|Trans. Am. Fish. Soc.4:822-825|1974|10.1577/1548-8659(1974)103<822:TOMAST>2.0.CO;2
8371|A||Javaid,M.Y., and A. Waiz|Acute Toxicity of Five Chlorinated Hydrocarbon Insecticides to the Fish, Channa punctatuts|Pak. J. Sci. Ind. Res.15(4/5): 291-293|1972|
8372|A||Kariya,T., H. Haga, Y. Haga, and K. Kimura|Studies on the Post-Mortem Identification of the Pollutant in Fish Killed by Water Pollution - X. Acute Poisoning with Lead|Nippon Suisan Gakkaishi (Multiple Languages)35(12): 1167-1171|1969|10.2331/suisan.35.1167
8373|A||Kariya,T., H. Haga, Y. Haga, and Y. Kawasaki|Studies on the Post-Mortem Identification of the Pollutant in Fish Killed by Water Pollution - XIII. Cadmium|Nippon Suisan Gakkaishi (Multiple Languages)44(10): 1065-1072|1978|10.2331/suisan.44.1065
8375|A||McIntosh,A.W., and N.R. Kevern|Toxicity of Copper to Zooplankton|J. Environ. Qual.3(2): 166-170|1974|10.2134/jeq1974.00472425000300020018x
8376|A||Kimura,S., H. Kumada, and Y. Matida|Acute Toxicity and Accumulation of PCB (KC 300) in Freshwater Fish|Bull. Freshw. Fish. Res. Lab. (Tokyo)23(2): 115-123|1973|
8378|A||Koepp,S.J., and N.C. Dorato|Fine Structure of the Fish Chloride Cell Associated with Both Acute and Chronic Exposure to Mercury|In: Proc. of the 9th Internat. Congr. Electron Microscopy, Toronto, Canada:452-453|1978|
8379|A||Koepp,S.J., and N.C. Dorato|Cytopathologic Response of the Chloride Cell of an Estuarine Fish (Fundulus heteroclitus) Associated with Both Acute and Chronic Exposure to Mercury|Manage.Control Heavy Met.Environ.Int.Conf:148-151|1979|
8380|A||Kouyoumijian,H.H., and J.P. Villeneuve|Further Studies on the Toxicity of DDT to Planaria|Bull. Environ. Contam. Toxicol.22:109-112|1979|10.1007/BF02026916
8381|A||Kumaraguru,A.K., and K. Ramamoorthi|Toxicity of Copper to Three Estuarine Bivalves|Mar. Environ. Res.1(1): 43-48|1978|10.1016/0141-1136(78)90012-0
8382|A||Lake,P.S., R. Swain, and B. Mills|Lethal and Sublethal Effects of Cadmium on Freshwater Crustaceans|Aust.Water Resour.Counc., Tech.Memo.No.37, Aust.Gov.Publ.Serv., Canberra, Australia:195-|1979|
8383|A||Lakshmanan,P.T., and P.N.K. Nambisan|Toxicity of Copper on the Bivalve Villorita cyprinoides var. cochinensis|Indian J. Mar. Sci.6(1): 83-85|1977|
8384|A||Zambriborshch,F.S., and B. Lay|Effect of Lindane on the Survival Time of Fry of Makropodus opercularis|Hydrobiol. J.12(1): 100-102|1976|
8385|A||Leduc,G.|Deleterious Effects of Cyanide on Early Life Stages of Atlantic Salmon (Salmo salar)|J. Fish. Res. Board Can.35:166-174|1978|10.1139/f78-028
8386|A||Lett,P.F., G.J. Farmer, and F.W.H. Beamish|Effect of Copper on Some Aspects of the Bioenergetics of Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.33(6): 1335-1342|1976|10.1139/f76-172
8387|AT||Lipsky,M.M., J.E. Klaunig, and D.E. Hinton|Comparison of Acute Response to Polychlorinated Biphenyl in Liver of Rat and Channel Catfish: A Biochemical and Morphological Study|J. Toxicol. Environ. Health4(1): 107-122|1978|10.1080/15287397809529648
8388|A||Lone,K.P., and M.Y. Javaid|Effect of Sublethal Doses of DDT and Dieldrin on the Blood of Channa punctatus (Bloch)|Pak. J. Zool.8(2): 143-149|1976|
8389|A||Mahajan,C.L., and C.J. Juneja|Effect of Aldrin on Peripheral Blood of Fish Channa punctatus (Bloch)|Indian J. Environ. Health21(2):162-172|1979|
8390|A||Roch,M., and E.J. Maly|Relationship of Cadmium-Induced Hypocalcemia with Mortality in Rainbow Trout (Salmo gairdneri) and the Influence of Temperature on Toxicity|J. Fish. Res. Board Can.36(11): 1297-1303|1979|10.1139/f79-187
8391|A||Marshall,J.S.|Cadmium Toxicity to Laboratory and Field Populations of Daphnia galeata mendotae|Bull. Environ. Contam. Toxicol.21(4/5): 453-457|1979|10.1007/BF01685452
8392|A||Marshall,J.S.|Population Dynamics of Daphnia galeata mendotae as Modified by Chronic Cadmium Stress|J. Fish. Res. Board Can.35(4): 461-469|1978|10.1139/f78-080
8393|A||Martin,J.L.M.|Schema of Lethal Action of Copper on Mussels|Bull. Environ. Contam. Toxicol.21(6): 808-814|1979|10.1007/BF01685509
8394|A||Buhringer,H., K.R. Sperling, and W. Wunder|Spinal Shortening (Osteosclerosis) in Spawners of the Rainbow Trout (Salmo Gairdneri Rich.) Induced by Cadmium|Arch. Fischereiwiss.40(3): 205-228|1990|
8396|A||McKenney,C.L.J., and J.M. Dean|Effects of Acute Exposure to Sublethal Concentrations of Cadmium on the Thermal Resistance of the Mummichog|In: J.W.Gibbons and R.R.Sharitz (Eds.), Proc.Symp.Thermal Ecology, Augusta, GA:43-53 (U.S.NTIS CONF-730505):|1974|
8397|A||McKim,J.M., and D.A. Benoit|"Duration of Toxicity Tests for Establishing ""No Effect"" Concentrations for Copper with Brook Trout (Salvelinus fontinalis)"|J. Fish. Res. Board Can.31(4): 449-452|1974|10.1139/f74-073
8399|A||McLeese,D.W.|Toxicity of Copper at Two Temperatures and Three Salinities to the American Lobster (Homarus americanus)|J. Fish. Res. Board Can.31(12): 1949-1952|1974|10.1139/f74-256
8400|A||McLusky,D.S., and C.N.K. Phillips|Some Effects of Copper on the Polychaete Phyllodoce maculata|Estuar. Coast. Mar. Sci.3(1): 103-108|1975|10.1016/0302-3524(75)90010-9
8401|A||Mishra,S., and A.K. Srivastava|Hematology as Index of Sublethal Toxicity of Zinc in a Freshwater Teleost|Bull. Environ. Contam. Toxicol.22(4/5): 695-698|1979|10.1007/BF02027009
8402|A||Mohamed,M.P., D. Nath, G.N. Srivastava, and R.A. Gupta|Influence of Sublethal DDT on Standard (Basal) Metabolism of the Fresh Water Fishes Cirrhina mrigala (Hamilton), Labeo rohita (Hamilton) and Colisa fasciata (Bloch & Schneider)|Indian J. Exp. Biol.16(3): 385-386|1978|
8403|A||Moraitou-Apostolopoulou,M.|Acute Toxicity of Copper to a Copepod|Mar. Pollut. Bull.9(10): 278-280|1978|10.1016/0025-326X(78)90612-4
8404|A||Moraitou-Apostolopoulou,M., G. Verriopoulos, and P. Palla|Temperature and Adaptation to Pollution as Factors Influencing the Acute Toxicity of Cd to the Planktonic Copepod Acartia clausi|Tethys (Cornella de Llobregat) (Multiple Languages)9(2): 97-101|1979|
8405|A||Nelson,D.A., A. Calabrese, and J.R. MacInnes|Mercury Stress on Juvenile Bay Scallops, Argopecten irradians, Under Various Salinity-Temperature Regimes|Mar. Biol.43:293-297|1977|10.1007/BF00396923
8406|A||Nelson,D.A., A. Calabrese, B.A. Nelson, J.R. MacInnes, and D.R. Wenzloff|Biological Effects of Heavy Metals on Juvenile Bay Scallops, Argopecten irradians, in Short-Term Exposures|Bull. Environ. Contam. Toxicol.16(3): 275-282|1976|10.1007/BF01685889
8407|A||Nelson,J.O., and F. Matsumura|A Simplified Approach to Studies of Toxic Toxaphene Components|Bull. Environ. Contam. Toxicol.13(4): 464-470|1975|10.1007/BF01721853
8408|A||Jeffree,R.A.|The Accumulation of Radium-226 by Populations of the Freshwater Mussel, Velesunio angasi, From the Alligator Rivers Uranium Province, Northern|Verh. Int. Ver. Theor. Angew. Limnol.22:2486-2492|1985|
8411|A||Bengtsson,B.E.|Effect of Zinc on Growth of the Minnow Phoxinus phoxinus|Oikos25(1): 370-373|1974|
8412|A||O'Hara,J.|The Influence of Temperature and Salinity on the Toxicity of Cadmium to the Fiddler Crab, Uca pugilator|Fish. Bull.71(1): 149-153|1973|
8413|A||Okazaki,R.K.|Copper Toxicity in the Pacific Oyster Crassostrea gigas|Bull. Environ. Contam. Toxicol.16(6): 658-664|1976|10.1007/BF01685570
8414|A||Olson,K.R., and R.C. Harrel|Effect of Salinity on Acute Toxicity of Mercury, Copper, and Chromium for Rangia cuneata (Pelecypoda, Mactridae)|Contrib. Mar. Sci17:9-13|1973|
8415|A||Oshida,P.S., and J.L. Wright|Acute Responses of Marine Invertebrates to Chromium|Coast. Water Res. Proj. Annu. Rep.77-1:155-159|1977|
8416|A||Oshida,P.S., and J.L. Wright|Effects of Hexavalent Chromium on Sea Urchin Embryos and Brittle Stars|South.Calif.Coastal Water Res.Project Annu.Rep.1974-1978:181-185|1977|
8417|A||Ozoh,P.T.E.|Studies on Intraperitoneal Toxicity of Lead to Cichlasoma nigrofasciatum (Guenther) Development|Bull. Environ. Contam. Toxicol.21(4/5): 676-682|1979|10.1007/BF01685488
8418|A||Park,J.S., and H.G. Kim|Bioassays on Marine Organisms:  Acute Toxicity Test of Mercury, Cadmium and Copper to Arkshell, Anadara broughtonii, from Jin-Dong Bay, and to Oyster, Crassostrea gigas, from Kwang-Do Bay, South Coast of Korea|J. Korean Soc. Oceanogr.13(1): 35-43|1978|
8419|A||Park,J.S., and H.G. Kim|Bioassays on Marine Organisms.  II.  Acute Toxicity Test of Mercury, Copper and Cadmium to Clam, Meretrix lusoria|J. Korean Fish. Soc. (Multiple Languages)12(2): 113-117|1979|
8420|A||Park,J.S., and H.G. Kim|Bioassays on Marine Organisms.  III.  Acute Toxicity Test of Mercury, Copper and Cadmium to Yellowtail, Seriola quinqueradiata and Rock Bream, Oplegnathus fasciatus|J. Korean Fish. Soc. (Multiple Languages)12(2): 119-123|1979|
8421|A||Pesch,C.E.|Influence of Three Sediment Types on Copper Toxicity to the Polychaete Neanthes arenaceodentata|Mar. Biol.52(3): 237-245|1979|10.1007/BF00398137
8422|A||Pesch,C.E., and D. Morgan|Influence of Sediment in Copper Toxicity Tests with the Polychaete Neanthes arenaceodentata|Water Res.12(10): 747-751|1978|10.1016/0043-1354(78)90023-4
8423|A||Price,R.K.J., and R.F. Uglow|Some Effects of Certain Metals on Development and Mortality Within the Moult Cycle of Crangon crangon (L.)|Mar. Environ. Res.2(4): 287-299|1979|10.1016/0141-1136(79)90013-8
8424|A||Rausina,G., J.W. Goode, M.L. Keplinger, and J.C. Calandra|Four-Day Static Fish Toxicity Studies Conducted with Thirteen Cadmium Pigments in Three Species of Freshwater Fish|Toxicol. Appl. Pharmacol.33(1): 188-|1975|
8425|A||Ray,G.L., and M.R. Tripp|The Uptake of Mercury From Water by the Grass Shrimp, Palaemonetes vulgaris (Say)|J. Environ. Qual.5(2): 193-196|1976|10.2134/jeq1976.00472425000500020017x
8426|A||Reish,D.J.|Effects of Chromium on the Life History of Capitella capitata (Annelida: Polychaeta)|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses on Mar.Biota to Pollutants, Nov.1975, Academic Press, NY:199-207|1977|
8427|A||Reish,D.J.|The Effects of Heavy Metals on Polychaetous Annelids|Rev. Int. Oceanogr. Med. (Multiple Languages)49(3): 99-104|1978|
8428|A||Reish,D.J., and R.S. Carr|The Effect of Heavy Metals on the Survival, Reproduction, Development and Life Cycles for Two Species of Polychaetous Annelids|Mar. Pollut. Bull.9(1): 24-27|1978|10.1016/0025-326X(78)90280-1
8429|A||Rice,D.W.,Jr., and F.L. Harrison|Copper Sensitivity of the Northern Anchovy, Engraulis mordax, During Its Early Life History|Rep.No.UCRL-52499, U.S.Nuclear Reg.Comm., U.S.Dept.of Energy, Washington, DC:26 p.|1979|
8430|A||Rice,D.W.,Jr., and F.L. Harrison|Copper Sensitivity of Pacific Herring, Clupea harengus pallasi, During Its Early Life History|Fish. Bull.76(2): 347-356|1978|
8431|A||Richey,D., and D. Roseboom|Acute Toxicity of Copper to Some Fishes in high Alkalinity Water|Circular 131, Dep.Registration & Education, State of IL:24 p.|1978|
8432|A||Ritz,D.A.|Tolerance of Intertidal Amphipods to Fluctuating Conditions of Salinity, Oxygen and Copper|J. Mar. Biol. Assoc. U.K.60(2): 489-498|1980|10.1017/S0025315400028502
8433|A||Rodgers,J.H.,Jr., D.S. Cherry, R.L. Graney, K.L. Dickson, and J.,Jr. Cairns|Comparison of Heavy Metal Interactions in Acute and Artificial Stream Bioassay Techniques for the Asiatic Clam (Corbicula fluminea)|ASTM Spec. Tech. Publ.:266-280|1980|
8434|A||Roed,K.H.|The Effects of Interacting Salinity, Cadmium, and Mercury on Population Growth of an Archiannelid, Dinophilus gyrociliatus|Sarsia64(4): 245-252|1979|10.1080/00364827.1979.10411384
8436|A||Roesijadi,G., S.R. Petrocelli, J.W. Anderson, B.J. Presley, and R. Sims|Survival and Chloride Ion Regulation of the Porcelain Crab Petrolisthes armatus Exposed to Mercury|Mar. Biol.27:213-217|1974|10.1007/BF00391946
8437|A||Salanki,J., and I. Varanka|Effect of Copper and Lead Compounds on the Activity of the Fresh-Water Mussel|Ann. Inst. Biol. (Tihany) Hung. Acad. Sci.43:21-27|1976|
8438|A||Sastry,K.V., and S.K. Sharma|Endrin Toxicity on Liver of Channa punctatus (Bloch)|Indian J. Exp. Biol.16(3): 372-373|1978|
8439|A||Sauter,S., K.S. Buxton, K.J. Macek, and S.R. Petrocelli|Effects of Exposure to Heavy Metals on Selected Freshwater Fish:  Toxicity of Copper, Cadmium, Chromium and Lead to Eggs and Fry of Seven Fish Species|EPA-600/3-76-105, U.S.EPA, Duluth, MN:74 p.|1976|
8441|A||Servizi,J.A., and D.W. Martens|Effects of Selected Heavy Metals on Early Life of Sockeye and Pink Salmon|Rep.No.39, Int.Pacific Salmon Fish.Comm.(Br.Col.):26 p.|1978|
8442|A||Gagnon,C., and N.S. Fisher|Bioavailability of Sediment-Bound Methyl and Inorganic Mercury to a Marine Bivalve|Environ. Sci. Technol.31(4): 993-998|1997|10.1021/es960364k
8444|A||Sommani,P.|Toxicity of Heavy Metals to Clam (Donax faba Chemnitz)|Thai Fish. Gaz.32(4): 391-399|1979|
8445|A||Sosnowski,S.L., and J.H. Gentile|Toxicological Comparison of Natural and Cultured Populations of Acartia tonsa to Cadmium, Copper, and Mercury|J. Fish. Res. Board Can.35(10): 1366-1369|1978|10.1139/f78-214
8446|A||Sosnowski,S.L., D.J. Germond, and J.H. Gentile|The Effect of Nutrition on the Response of Field Populations of the Calanoid Copepod Acartia tonsa to Copper|Water Res.13(5): 449-452|1979|10.1016/0043-1354(79)90037-X
8447|A||Speranza,A.W., R.J. Seeley, V.A. Seeley, and A. Perlmutter|The Effect of Sublethal Concentrations of Zinc on Reproduction in the Zebrafish, Brachydanio rerio Hamilton-Buchanan|Environ. Pollut.12(3): 217-222|1977|
8448|A||Sporn,A., I. Dinu, L. Stoenescu, A. Cirstea, and L.G. Ghizelea|Acute and Subacute Toxicity of Cadmium (Toxicitatea Acuta Si Subacuta a Cadmiului)|Igiena (Non-English)19(4): 201-208|1970|
8449|A||Spotila,J.R., and F.V. Paladino|Toxicity of Arsenic to Developing Muskellunge Fry (Esox masquinongy)|Comp. Biochem. Physiol. C Comp. Pharmacol.62(1): 67-69|1979|10.1016/0306-4492(79)90101-1
8450|A||Stahl,R.G.J.|Effect of a PCB (Aroclor 1254) on the Striped Hermit Crab, Clibanarius vittatus (Anomura: Diogenidae) in Static Bioassays|Bull. Environ. Contam. Toxicol.23(1-2): 91-94|1979|10.1007/BF01769922
8452|A||Sullivan,J.F., G.J. Atchison, D.J. Kolar, and A.W. McIntosh|Changes in the Predator-Prey Behavior of Fathead Minnows (Pimephales promelas) and Largemouth Bass (Micropterus salmoides) Caused by Cadmium|J. Fish. Res. Board Can.35(4): 446-451|1978|10.1139/f78-077
8453|A||Sullivan,J.K.|Effects of Salinity and Temperature on the Acute Toxicity of Cadmium to the Estuarine Crab Paragrapsus gaimardii (Milne Edwards)|Aust. J. Mar. Freshw. Res.28(6): 739-743|1977|10.1071/MF9770739
8454|A||Sunda,W.G., D.W. Engel, and R.M. Thuotte|Effect of Chemical Speciation on Toxicity of Cadmium to Grass Shrimp, Palaemonetes pugio:  Importance of Free Cadmium Ion|Environ. Sci. Technol.12(4): 409-413|1978|10.1021/es60140a003
8455|A||Sweeny,K.H., J.R. Fischer, A.F. Graefe, H.L. Marcus, and D.H.W. Liu|Development of Field Applied DDT|EPA-660/2-74-036, U.S.EPA, Washington, DC:95 p.|1974|
8457|A||Theede,H., N. Scholz, and H. Fischer|Temperature and Salinity Effects on the Acute Toxicity of Cadmium to Laomedea loveni (Hydrozoa)|Mar. Ecol. Prog. Ser.1(1): 13-19|1979|10.3354/meps001013
8458|A||Thurberg,F.P., A. Calabrese, E. Gould, R.A. Greig, M.A. Dawson, and R.K. Tucker|Response of the Lobster, Homarus americanus, to Sublethal Levels of Cadmium and Mercury|In: A.Calabrese, F.P.Thurberg and W.B.Vernberg (Eds.), Physiological Responses of Marine Biota to Pollutants, Academic Press, NY77:185-197|1977|
8459|A||Tishinova,V.|A Study of the Toxic Effect of Zinc on One-Summer Old Carp; Part I. Lethal Concentrations|U.S.NTIS ORNL-TR-4353:3 p.|1977|
8460|A||Tomasso,J.R.J., and G.G. Murphy|The Effects of Aldrin and Heptachlor on Survival and Fin Regeneration in the Pugnose Minnow (Notropis anogenus)|J. Tenn. Acad. Sci.58(1/2): 14-16|1983|
8462|A||Tyler-Schroeder,D.B.|Use of the Grass Shrimp (Palaemonetes pugio) in a Life-Cycle Toxicity Test|ASTM Spec. Tech. Publ.:159-170|1979|
8463|A||Verma,S.R., S.P. Gupta, and M.P. Tyagi|Studies on the Toxicity of Lindane on Colisa fasciatus (Part I: TLM Measurements and Histopathological Changes in Certain Tissues)|Gegenbaurs Morphol. Jahrb.121(1): 38-54|1975|
8464|A||Vernberg,F.J., M.S. Guram, and A. Savory|Survival of Larval and Adult Fiddler Crabs Exposed to Aroclor 1016 and 1254 and Different Temperature-Salinity Combinations|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses on Mar.Biota to Pollutants, Nov.1975, Academic Press, NY:37-50|1977|
8465|A||Vernberg,W.B., and P.J. DeCoursey|Effect of Sublethal Metal Pollutants on the Fiddler Crab Uca pugilator|EPA-600/3-77-024, U.S.EPA, Narragansett, RI:58 p.|1977|
8466|A||Vernberg,W.B., P.J. DeCoursey, M. Kelly, and D.M. Johns|Effects of Sublethal Concentrations of Cadmium on Adult Palaemonetes pugio Under Static and Flow-Through Conditions|Bull. Environ. Contam. Toxicol.17(1): 16-24|1977|10.1007/BF01685258
8467|A||Voyer,R.A., J.F. Heltsche, and R.A. Kraus|Hatching Success and Larval Mortality in an Estuarine Teleost, Menidia menidia (Linnaeus), Exposed to Cadmium in Constant and Fluctuating Salinity Regimes|Bull. Environ. Contam. Toxicol.23(4-5): 475-481|1979|10.1007/BF01769990
8468|A||Voyer,R.A., C.E.,Jr. Wentworth, E.P. Barry, and R.J. Hennekey|Viability of Embryos of the Winter Flounder Pseudopleuronectes americanus Exposed to Combinations of Cadmium and Salinity at Selected Temperatures|Mar. Biol.44(2): 117-124|1977|10.1007/BF00386952
8469|A||Cairns,J.,Jr., T.K. Bahns, D.T. Burton, K.L. Dickson, R.E. Sparks, and W.T. Waller|The Effects of pH, Solubility and Temperature upon the Acute Toxicity of Zinc to the Bluegill Sunfish (Lepomis macrochirus Raf.)|Trans. Kans. Acad. Sci.74(1): 81-92|1972|10.2307/3627673
8470|A||Watson,T.A., and B.A. McKeown|The Effect of Sublethal Concentrations of Zinc on Growth and Plasma Glucose Levels in Rainbow Trout, Salmo gairdneri (Richardson)|J. Wildl. Dis.12(2): 263-270|1976|10.7589/0090-3558-12.2.263
8472|A||Bengtsson,B.E.|Effect of Zinc on the Movement Pattern of the Minnow, Phoxinus phoxinus L|Water Res.8(10): 829-833|1974|10.1016/0043-1354(74)90029-3
8473|A||Bengtsson,B.E.|The Effect of Zinc on the Ability of the Minnow, Phoxinus phoxinus L., to Compensate for Torque in a Rotating Water-Current|Bull. Environ. Contam. Toxicol.12(6): 654-658|1974|10.1007/BF01685908
8476|A||Winner,R.W.|Toxicity of Copper to Daphnids in Reconstituted and Natural Waters|EPA-600/3-76-051, U.S.EPA, Duluth, MN:68 p.|1976|
8477|A||Winner,R.W., and M.P. Farrell|Acute and Chronic Toxicity of Copper to Four Species of Daphnia|J. Fish. Res. Board Can.33(8): 1685-1691|1976|10.1139/f76-215
8478|A||Winner,R.W., T. Keeling, R. Yeager, and M.P. Farrell|Effect of Food Type on the Acute and Chronic Toxicity of Copper to Daphnia magna|Freshw. Biol.7(4): 343-349|1977|10.1111/j.1365-2427.1977.tb01682.x
8479|AT||Traunspurger,W., H. Schafer, and A. Remde|Comparative Investigation on the Effect of a Herbicide on Aquatic Organisms in Single Species Tests and Aquatic Microcosms|Chemosphere33(6): 1129-1141|1996|10.1016/0045-6535(96)00252-4
8480|A||Wohlgemuth,E.|Toxicity of Endrin to Some Species of Aquatic Vertebrates|Prirodoved. Pr. Ust. Akad. Ved Brne11(6): 1-38|1977|
8481|A||Wrench,J.J.|Biochemical Aspects of the Uptake of Mercury and Selenium by the Native British Oyster (Ostrea edulis)|Ph.D. Thesis, University of Southampton, United Kingdom:114 p.|1977|
8483|A||Zitko,V., and W.G. Carson|A Mechanism of the Effects of Water Hardness on the Lethality of Heavy Metals to Fish|Chemosphere5(5): 299-303|1976|10.1016/0045-6535(76)90003-5
8484|A||Zitko,V., and W.G. Carson|Seasonal and Developmental Variation in the Lethality of Zinc to Juvenile Atlantic Salmon (Salmo salar)|J. Fish. Res. Board Can.34(1): 139-141|1977|10.1139/f77-018
8485|A||Bengtsson,B.E.|Vertebral Damage to Minnows Phoxinus phoxinus Exposed to Zinc|Oikos25(2):134-139|1974|
8486|AT||Benke,G.M., and S.D. Murphy|Anticholinesterase Action of Methyl Parathion, Parathion and Azinphosmethyl in Mice and Fish: Onset and Recovery of Inhibition|Bull. Environ. Contam. Toxicol.12(1): 117-122|1974|10.1007/BF01713037
8487|A||Bertagnolli,B.L., and M.J. Nadakavukaren|Some Physiological Responses of Chlorella pyrenoidosa to 2,4-Dichlorophenoxyacetic Acid|J. Exp. Bot.25(84): 180-188|1974|10.1093/jxb/25.1.180
8488|AT||Birge,W.J., A.G. Westerman, and O.W. Roberts|Lethal and Teratogenic Effects of Metallic Pollutants on Vertebrate Embryos|Proceedings of the Second Annual NSFRANN Trace Contaminants Conference, Springfield, VA:316-320|1974|
8489|A||Black,J.A.|The Effect of Certain Organic Pollutants on Copper Toxicity to Fish (Lebistes reticulatus)|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:129 p.|1974|
8491|A||Johansson,C., D.J. Cain, and S.N. Luoma|Variability in the Fractionation of Cu, Ag, and Zn Among Cytosolic Proteins in the Bivalve Macoma balthica|Mar. Ecol. Prog. Ser.28(1-2): 87-97|1986|10.3354/meps028087
8492|A||Bolier,G., H.L. Van der Maas, and R. Bootsma|The Toxicity of Herbicide Dichlobenil to Goldfish (Carassius auratus)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)38(3): 733-740|1973|
8493|A||Booth,G.M., K.M. Chang, D. Ferrell, and J.R. Larsen|Fate and Metabolism of BAS 290-H|Proc. West. Soc. Weed Sci.27:24-33|1974|
8494|A||Khan,A.T., and J.S. Weis|Effect of Mercuric Chloride on Eggs and Juvenile Viability in Two Populations of Killifish|Mar. Pollut. Bull.18(9): 504-505|1987|10.1016/0025-326X(87)90362-6
8495|A||Boulekbache,H., and C. Spiess|Effects of Lindane on Trout Fry (Salmo irideus Gibb.) Changes in Glycolytic Enzymes|Bull. Soc. Zool. Fr. (Multiple Languages)99(1): 79-85|1974|
8496|A||Bresch,H., and R. Spielhoff|Toxic Effects of Some Nitrosamines on the Sea-Urchin Embryo|Naturwissenschaften61(8): 368-369|1974|10.1007/BF00600314
8499|A||Shaw,T.L., and V.M. Brown|The Toxicity of Some Forms of Copper to Rainbow Trout|Water Res.8(6): 377-382|1974|10.1016/0043-1354(74)90051-7
8500|A||Addison,R.F., P.D. Hansen, and H.J. Pluta|Absence of Hepatic Monooxygenase Induction in Marine Fish by a PCB Substitute, Ugilec 141|Mar. Environ. Res.28(1-4): 141-|1989|10.1016/0141-1136(89)90199-2
8503|A||Bull,C.J., and J.E. McInerney|Behavior of Juvenile Coho Salmon (Oncorhynchus kisutch) Exposed to Sumithion (Fenitrothion), an Organophosphate Insecticide|J. Fish. Res. Board Can.31(12): 1867-1872|1974|10.1139/f74-243
8504|A||Burdick,G.E., H.J. Dean, J.C. Skea, and C.N. Frisa|Effect of Blackfly Larviciding in Some Adirondack Streams|N. Y. Fish Game J.21(1): 1-17|1974|
8506|A||Burkett,R.D.|The Influence of Temperature on Uptake of Methylmercury-203 by Bluntnose Minnows, Pimephales notatus (Rafinesque)|Bull. Environ. Contam. Toxicol.12(6): 703-709|1974|10.1007/BF01685918
8507|A|RUSSN|Burkovskii,A.L., P.V. Vershinin, and V.V. Kondrat'Eva|Toxicity of Some Organic Phosphorus Compounds for Fish|Izv. Gos. Nauchno-Issled. Inst. Ozern. Rechn. Rybn. Khoz.98:32-39|1974|
8508|A||Calapaj,G.G.|Ricerche Di Laboratorio Sull'Inquinamento Chimico Dei Mitili Nota II: Cadmio, Zinco. (Chemical Pollution of Mytilus. II. Cadmium and Zinc)|Ig. Mod. (Multiple Languages)67(2): 136-145|1974|
8509|A||Li,X.|The Toxic Effects of Butyl Xanthate on Developing Embryos of Loach, Misgurnus angaillicaudatus|China Environ. Sci.10(4): 269-276|1990|
8510|A||Tas,J.W., A. Opperhuizen, and W. Seinen|Uptake and Elimination Kinetics of Triphenyltin Hydroxide by Two Fish Species|Toxicol. Environ. Chem.28(2-3): 129-141|1990|10.1080/02772249009357597
8511|A||Cearley,J.E., and R.L. Coleman|Cadmium Toxicity and Bioconcentration in Largemouth Bass and Bluegill|Bull. Environ. Contam. Toxicol.11(2): 146-151|1974|10.1007/BF01684594
8512|A||Phillips,J., M. Wells, and C. Chandler|Metabolism of DDT by the Freshwater Planarian, Phagocata velata|Bull. Environ. Contam. Toxicol.12(3): 355-358|1974|10.1007/BF01709132
8513|A||Chang,L.W., K.R. Reuhl, and A.W.,Jr. Dudley|Effects of Methylmercury Chloride on Rana pipiens Tadpoles|Environ. Res.8(1): 82-91|1974|10.1016/0013-9351(74)90065-6
8515|A||Udoidiong,O.M., and P.M. Akpan|Toxicity of Cadmium, Lead and Lindane to Egeria radiata Lamarck (Lamellibranchia, Donacidae)|Rev. Hydrobiol. Trop.24(2): 111-117|1991|
8517|A||Coleman,R.L., and J.E. Cearley|Silver Toxicity and Accumulation in Largemouth Bass and Bluegill|Bull. Environ. Contam. Toxicol.12(1): 53-61|1974|10.1007/BF01713026
8518|A||Maltby,L., and C. Naylor|Preliminary Observations on the Ecological Relevance of the Gammarus `Scope for Growth' Assay: Effect of Zinc on Reproduction|Funct. Ecol.4(3): 393-397|1990|10.2307/2389601
8519|A||Meador,J.P., U. Varanasi, and C.A. Krone|Differential Sensitivity of Marine Infaunal Amphipods to Tributyltin|Mar. Biol.116(2): 231-239|1993|10.1007/BF00350012
8521|A||Couch,J.A., and D.W.R. Nimmo|Ultrastructural Studies of Shrimp Exposed to the Pollutant Chemical, Polychlorinated Biphenyl (Aroclor 1254)|Toxicol. Pathol.30(3): 371-|1974|
8522|A||Courtois,L.A.|Physiological Responses of Striped Bass, Roccus saxatilis (Walbaum), to Changes in Diet, Salinity, Temperature, and Acute Copper Exposure|Ph.D. Thesis, University of California, Davis:118 p.|1974|
8523|A||Currie,A.B., A.C. Brown, and G.R. Bennett|The Effect of Ammonium Nitrate Solutions on Some Aspects of the Biology of the Black Mussel, Choromytilus meridionalis|Trans. R. Soc. S. Afr.41(2): 209-215|1974|10.1080/00359197409520072
8525|A||D'Amelio,V., G. Russo, and D. Ferraro|The Effect of Heavy Metal on Protein Synthesis in Crustaceans and Fish|Rev. Int. Oceanogr. Med. (Multiple Languages)33:111-118|1974|
8526|A|RUSSN|Danil'chenko,O.P., and N.S. Stroganov|Evaluation of the Action of Low Tripropylene Chloride Concentrations on the Mollusc Lymnaea stagnalis L. According to a Change in its|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)6:130-134|1974|
8527|A||Davies,A.G.|The Growth Kinetics of Isochrysis galbana in Cultures Containing Sublethal Concentrations of Mercuric Chloride|J. Mar. Biol. Assoc. U.K.54(1): 157-169|1974|10.1017/S002531540002213X
8528|A||Davy,F.B.|The Role of Chemoreception in Teleost Locomotor Behavior as Affected by a Pesticide|Ph.D. Thesis, Texas A&M University, College Station TX:177 p.|1973|
8529|A||Willis,M.|Experimental Studies on the Effects of Zinc on Erpobdella octulata (L.) (Annelida: Hirudinea) from the Afon Crafnant, N. Wales|Arch. Hydrobiol.116(4): 449-469|1989|10.1127/archiv-hydrobiol/116/1989/449
8530|A||De Angelis,E., and G.G. Giordano|Sea Urchin Egg Development Under the Action of Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene|Cancer Res.34(6): 1275-1280|1974|
8531|A||Delcourt,A., B.K. Vaidehi, and J.C. Mestre|The Toxic Effects of Some Mercuric Derivatives on Freshwater Algae and Meristems of Allium Grown in Solution.  Application to the Problems of Water|J. Fr. Hydrol.15:47-53|1974|
8533|A||Dill,P.A., and R.C. Saunders|Retarded Behavioral Development and Impaired Balance in Atlantic Salmon (Salmo salar) Alevins Hatched From Gastrulae Exposed to DDT|J. Fish. Res. Board Can.31(12): 1936-1938|1974|10.1139/f74-251
8534|A||Dillaman,R.M.|The Toxicity and Accumulation of Cadmium in Helisoma anceps (Gastropoda: Pulmonata) and Its Effect on the Ultrastructure of the Kidney|Ph.D.Thesis, University of South Carolina, Columbia, SC:290 p.|1974|
8535|A||Dolan III,J.M.|Comparative Studies of the Toxic Effects of Three Surfactants on a Fish (Lepomis macrochirus, Rafinesque) and a Snail (Goniobasis lea sp.)|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:160 p.|1974|
8536|A||Prasad,T.A.V., T. Srinivas, M. Rafi, and D.C. Reddy|Chronic Effect of Atrazine on Hydromineral Balance in the Crab|Biochem. Int.22(3): 435-440|1990|
8537|A||Thakur,G.K., B.P. Choudhary, P. Pathak, P.K. Thakur, and M.M. Choudhary|Effect of BHC on an Air-Breathing Fish Clarias batrachus (Linn.)|J. Adv. Zool.2(2): 80-85|1981|
8538|A||Dorn,P.|The Effects of Mercuric Chloride upon Respiration in Congeria leucophaeata|Bull. Environ. Contam. Toxicol.12(1): 86-91|1974|10.1007/BF01713031
8539|A||Khayrallah,N.H.|The Tolerance of Bathyporeia pilosa Lindstrom (Amphipoda: Haustoriidae) to Organic and Inorganic Salts of Mercury|Mar. Environ. Res.15(2): 137-151|1985|10.1016/0141-1136(85)90134-5
8541|A||Drummond,R.A., G.F. Olson, and A.R. Batterman|Cough Response and Uptake of Mercury by Brook Trout, Salvelinus fontinalis, Exposed to Mercuric Compounds at Different Hydrogen-Ion Concentrations|Trans. Am. Fish. Soc.103(2): 244-249|1974|10.1577/1548-8659(1974)103<244:CRAUOM>2.0.CO;2
8542|A||Elder,J.A., and A.R. Gaufin|The Toxicity of Three Mercurials to Pteronarcys californica Newport, and Some Possible Physiological Effects Which Influence the Toxicities|Environ. Res.7(2): 169-175|1974|10.1016/0013-9351(74)90147-9
8543|A||Elder,J.A., and J.L. Lords|Effect of Selected Mercurials on Glyceraldehyde-3-Phosphate-Dehydrogenase in Pteronarcys californica|J. Insect Physiol.20(1): 41-48|1974|10.1016/0022-1910(74)90121-8
8544|A||Eppley,R.M.|Sensitivity of Brine Shrimp (Artemia salina) to Trichothecenes|J. Assoc. Off. Anal. Chem.57(3): 618-620|1974|
8545|A||Filimonova,Z.I.|Effect of Baytex on Some Members of the Aquatic Fauna of Karelia|Hydrobiol. J.10(3): 39-44|1974|
8546|A||Alayse-Danet,A.M., J.L. Charlou, M. Jezequel, and J.F. Samain|Model of Rapid Detection of Sublethal Effects of Pollutants:  Modification of Amylase and Trypsin Levels of Artemia salina Contaminated by Copper or Zinc|Mar. Biol.:41-46|1979|10.1007/BF00389029
8547|A||Finenko,Z.Z., and D.K. Krupatkina-Akinina|Effect of Inorganic Phosphorus on the Growth Rate of Diatoms|Mar. Biol.26(3): 193-201|1974|10.1007/BF00389251
8548|A||Fisher,N.S.|Effects of Chlorinated Hydrocarbon Pollutants on Growth of Marine Phytoplankton in Culture|Ph.D.Thesis, State University of New York, Stony Brook, NY:195 p.|1974|
8549|A||Fisher,N.S., E.J. Carpenter, C.C. Remsen, and C.F. Wurster|Effects of PCB on Interspecific Competition in Natural and Anotobiotic Phytoplankton Communities in Continuous and Batch Cultures|Microb. Ecol.1(1): 39-50|1974|10.1007/BF02512378
8550|A||Flannagan,J.F.|Influence of Trisodium Nitrilotriacetate on the Mortality, Growth, and Fecundity of the Freshwater Snail (Helisoma trivolvis) Through Four Generations|J. Fish. Res. Board Can.31(2): 155-161|1974|10.1139/f74-026
8551|A||Fletcher,G.L.|The Dynamics of Yellow Phosphorus in Atlantic Cod and Atlantic Salmon: Biological Half-Times, Uptake Rates and Distribution in Tissues|Environ. Physiol. Biochem.4(3): 121-138|1974|
8552|A||French,J.E., and J.F. Roberts|Effects of DDT and Polychlorinated Biphenyls on Cellular Metabolism and Ultrastructure of Crithidia fasciculata, a Flagellated Protozoan|Report AFRRI SR76-31, Nuclear Defence Agency, Armed Forces Radiobiology Research Inst., Bethesda, MD:22 p.|1976|
8553|A||Ikuta,K.|Interrelationship Between Positive and Negative for Cadmium Localization Indices of Muscular and Visceral Parts of Four Marine Gastropods|Miyazaki Daigaku Nogakubu Kenkyu Hokoku (Non-English)35(2): 37-46|1988|
8556|A||Gouda,M.W.|Effect of Surfactants on Absorption Through Membranes I. Enhancement of Pentobarbital Absorption in the Goldfish by Dioctyl Sodium Sulfosuccinate and Poloxalene|Can. J. Pharm. Sci.9(2): 37-40|1974|
8557|A||Gould,E., and J.J. Karolus|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. V. Observations on the Biochemistry|Noaa Tech.Rep.Nmfs Ssr F-681:21-25|1974|
8558|A||Gray,J.S.|Synergistic Effects of Three Heavy Metals on Growth Rates of a Marine Ciliate Protozoan|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Marine Organisms, Acad.Press, NY:465-485|1974|
8559|A||Greenwood,P.J., and A.C. Brown|Effect of Ammonium Nitrate Solutions on Fertilization and Development of the Sea Urchin, Parechinus angulosus|Zool. Afr.9(2): 205-209|1974|10.1080/00445096.1974.11448526
8560|A||Gregg,B.C., J.M. Dolan III, J.,Jr. Cairns, K.L. Dickson, and A.C. Hendricks|Toxicity Tests with Surfactants and the Mayfly Isonychia (Ephemeroptera: Isonychiidae)|ASB Bull.21(2): 58-|1974|
8561|A||Greig,R.A., A.E. Adams, and B.A. Nelson|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. II. Uptake of Cadmium by Organs and Tissues|In: NOAA Tech.Rep.NMFS SSR F-681:5-9|1974|
8562|A||Kitching,R.L., H.F. Chapman, and J.M. Hughes|Levels of Activity as Indicators of Sublethal Impacts of Copper Contamination and Salinity Reduction in the Intertidal Gastropod, Polinices incei Philippi|Mar. Environ. Res.23(2): 79-87|1987|10.1016/0141-1136(87)90039-0
8563|A||Groch,L., and Z. Svobodova|Histopathological Changes in the Fish After the intoxication of Organophosphorus Insecticides|Cesk. Hyg.19(9): 442-444|1974|
8564|T||Lapham,V.T.|Further Notes on the Control of Alligatorweed Using Dichlobenil|Proc. Annu. Meeting Southern Weed Conf.18:552-554|1965|
8565|A||Guarino,A.M., J.B. Pritchard, J.B. Anderson, and D.P. Rall|Tissue Distribution of [14C]DDT in the Lobster After Administration Via Intravascular or Oral Routes or After Exposure From Ambient Sea Water|Toxicol. Appl. Pharmacol.29(2): 277-288|1974|10.1016/0041-008X(74)90065-9
8566|A||Hansen,D.J., P.R. Parrish, and J. Forester|Aroclor 1016:  Toxicity to and Uptake by Estuarine Animals|Environ. Res.7(3): 363-373|1974|10.1016/0013-9351(74)90037-1
8567|A||Hargrave,B.T., and C.P. Newcombe|Crawling and Respiration as Indices of Sublethal Effects of Oil and a Dispersant on an Intertidal Snail Littorina littorea|J. Fish. Res. Board Can.30(12. Pt. 1): 1789-1792|1973|10.1139/f73-288
8568|A||Moore,S.A.Jr., and R.C. Harriss|Differential Sensitivity to PCB by Phytoplankton|Mar. Pollut. Bull.5(11): 174-176|1974|10.1016/0025-326X(74)90132-5
8569|A||Ikuta,K.|Relations Between Biomass/Water Volume Ratios and Cadmium Accumulation Amounts in Some Marine Mollusks|Miyazaki Daigaku Nogakubu Kenkyu Hokoku (Non-English)34(1): 131-137|1987|
8570|A||Yokoyama,T., H. Saka, S. Fujita, and Y. Nishiuchi|Sensitivity of Japanese Eel, Anguilla japonica, to 68 Kinds of Agricultural Chemicals|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)28:26-33|1988|
8571|A||Asano,K., H. Iwamura, and Y. Nishiuchi|Bioconcentration of Paddy - Herbicides in Carp, Cyprinus carpio|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)29:33-36|1989|
8572|A||Scheil,H.G., and W. Hinz|Influence of Divalent Mercury Ions on the Filtration Rate of Pisidium Casertanum poli (Bivalvia)|Hydrobiologia (Multiple Languages)45(4): 543-545|1974|10.1007/BF00012035
8574|A||Ward,D.V., and B.L. Howes|The Effects of Abate, an Organophosphorous Insecticide, on Marsh Fiddler Crab Populations|Bull. Environ. Contam. Toxicol.12(6): 694-697|1974|10.1007/BF01685916
8575|A||Thomas,P.|Effects of Aroclor 1254 and Cadmium on Reproductive Endocrine Function and Ovarian Growth in Atlantic Croaker|Mar. Environ. Res.28:499-503|1989|10.1016/0141-1136(89)90291-2
8576|A||Jin,X., C. Nalewajko, and D.J. Kushner|Comparative Study of Nickel Toxicity to Growth and Photosynthesis in Nickel-Resistant and -Sensitive Strains of Scenedesmus acutus f. alternans|Microb. Ecol.31(1): 103-114|1996|10.1007/BF00175079
8577|A||Hudson,D.K.M.|Effects of Mercury Compounds on Algae|Ph.D Thesis, University of Southern Mississippi, Hattiesburg, MS:182 p.|1973|
8579|A||Hunt,D.M.|Toxicity of Paraquat to Paracalliope fluviatilis (Amphipoda)|Mauri Ora2:67-72|1974|
8580|A||Hutcheson,M.S.|The Effect of Temperature and Salinity on Cadmium Uptake by the Blue Crab, Callinectes sapidus|Chesapeake Sci.15(4): 237-241|1974|10.2307/1350976
8581|A||Hutchinson,T.C., and H. Czyrska|Heavy Metal Toxicity and Synergism to Floating Aquatic Weeds|Verh. Int. Ver. Theor. Angew. Limnol.19:2102-2111|1975|
8583|A||Ishioka,H., O. Fukuhara, and S. Sakaguchi|Studies on the Anesthetic Effects of Eugenol to Kuruma Prawn Juveniles|Bull. Nansei Reg. Fish. Res. Lab.7:31-42|1974|
8584|A||Ivie,G.W., J.R. Gibson, H.E. Bryant, J.J. Begin, J.R. Barnett, and H.W. Dorough|Accumulation, Distribution, and Excretion of Mirex-14C in Animals Exposed for Long Periods to the Insecticide in the Diet|J. Agric. Food Chem.22(4): 646-653|1974|10.1021/jf60194a054
8586|A||Iwai,T.T.I., and K. Tamura|The Toxicity of Nitrite on Ayu-Fry, Plecoglossus altivelis, and the Chlorinity in the Culturing Water|Bull. Fac. Fish. Mie Univ.1:43-51|1974|
8587|A||Langston,W.J., and M. Zhou|Cadmium Accumulation, Distribution and Elimination in the Bivalve Macoma balthica: Neither Metallothionein nor Metallothionein-Like|Mar. Environ. Res.21(3): 225-237|1987|10.1016/0141-1136(87)90067-5
8588|A||Jeanne-Levain,N.|The Effects of Lindane on the Morphology and the Growth of Some Unicellular Organisms|Bull. Soc. Zool. Fr. (Multiple Languages)99(1): 105-109|1974|
8589|A||Nishiuchi,Y.|Toxicity of Pesticides to Some Aquatic Animals. XI. Toxicity of Some Pesticides to Tadpoles|C. A. Sel. Environ. Pollut.18:3-72754Y|1990|
8590|A||Johnson,S.K.|Toxicity of Several Management Chemicals to Penaeid Shrimp|Tex.Agric.Ext.Serv.Fish.Dis.Diagn.Lab, Report FDDL-S (FDDL-S3):12 p.|1974|
8591|A||Jones,M.B.|Influence of Salinity and Temperature on the Toxicity of Mercury to Marine and Brackish Water Iospods (Crustacea)|Estuar. Coast. Mar. Sci.1(4): 425-431|1973|10.1016/0302-3524(73)90032-7
8592|A||Kalac,J.|Ucinky Organofosforovych Zlucenin Na Aktivitu Niektorych Enzymov Zazivacieho Traktu. The Effect of Organo Phosphorus Compounds on the Activity of Some Digestive Enzymes|Cesk. Hyg.19(8): 355-362|1974|
8593|A||Lipina,I.G., S.M. Gnezdilova, and N.K. Khristoforova|Cadmium Distribution in Gonads of the Sea Urchin Strongylocentrotus intermedius|Mar. Ecol. Prog. Ser.36(3): 263-266|1987|10.3354/meps036263
8595|A||Kawatski,J.A., V.K. Dawson, and M.L. Reuvers|Effect of TFM and Bayer 73 on In Vivo Oxygen Consumption of the Aquatic Midge Chironomus tentans|Trans. Am. Fish. Soc.103(3): 551-556|1974|10.1577/1548-8659(1974)103<551:EOTABO>2.0.CO;2
8596|A||Micallef,S., and P.A. Tyler|Preliminary Observations of the Interactions of Mercury and Selenium in Mytilus edulis|Mar. Pollut. Bull.18(4): 180-185|1987|10.1016/0025-326X(87)90243-8
8597|A||Wang,M.P., and S.A. Hanson|The Acute Toxicity of Chlorine on Freshwater Organisms: Time-Concentration Relationships of Constant and Intermittent Exposures|In: R.C.Bahner and D.J.Hansen (Eds.), Aquatic Toxicology and Hazard Assessment, 8th Symposium, ATSM STP 891, Philadelphia, PA:213-232|1985|
8598|A||Becker,A.J.Jr., and E.C.,Jr. Keller|The Effects of Iron and Sulfate Compounds on the Growth of Chlorella|Proc. W. Va. Acad. Sci.45(2): 127-135|1973|
8599|A||Khudairi,S.Y.A.D., and E. Ruber|Survival and Reproduction of Ostracods as Affected by Pesticides and Temperature|J. Econ. Entomol.67(1): 22-24|1974|10.1093/jee/67.1.22
8601|A||Kirillova,L.M.|Effect of Chlorophos and Entobacterin on the Representative of Nektobenthic Fauna Gammarus pulex L.|Izv. Gos. Nauchno-Issled. Inst. Ozern. Rechn. Rybn. Khoz.98:20-23|1974|
8602|A||Klass,E., D.W. Rowe, and E.J. Massaro|The Effect of Cadmium on Population Growth of the Green Alga Scenedesmus quadracauda|Bull. Environ. Contam. Toxicol.12(4): 442-445|1974|10.1007/BF01684980
8603|A||Kleerekoper,H.|Effects of Exposure to a Subacute Concentration of Parathion on the Interaction Between Chemoreception and Water Flow|In: F.J.Vernberg and W.B.Vernberg, (Eds.), Symposium: Pollution and Physiology of Marine Organisms, Academic Press, NY:237-245|1974|
8604|A||Westlake,G.F., and H. Kleerekoper|The Locomotor Response of Goldfish to a Steep Gradient of Copper Ions|Water Resour. Res.10(1): 103-105|1974|10.1029/WR010i001p00103
8605|A||Klein,M.L., and J.L. Lincer|Behavioral Effects of Dieldrin upon the Fiddler Crab, Uca pugilator|In: F.J.Vernberg and W.B.Vernberg (Eds.), Symp.Pollution and Physiology of Marine Organisms, Academic Press, NY:181-196|1974|
8606|A||Knepp,G.L., and G.F. Arkin|Ammonia Toxicity Levels and Nitrate Tolerance of Channel Catfish|Prog. Fish-Cult.35(4): 221-224|1973|10.1577/1548-8659(1973)35[221:ATLANT]2.0.CO;2
8608|A||Kopfler,F.C.|The Accumulation of Organic and Inorganic Mercury Compounds by the Eastern Oyster (Crassostrea virginica)|Bull. Environ. Contam. Toxicol.11(3): 275-280|1974|10.1007/BF01685108
8610|A||Kramer,H.J., and B. Neidhart|Accumulation of Mercury in Fish|In: J.R.Vogt and W.Meyer (Eds.), Proc.2nd Int.Conf.on Nuclear Methods in Environ.Res., University of Missouri-Columbia, MO:213-223|1974|
8611|A||Kristoffersson,R., S. Broberg, A. Oikari, and M. Pekkarinen|Effect of a Sublethal Concentration of Phenol on Some Blood Plasma Enzyme Activities in the Pike (Esox lucius L.) in Brackish Water|Ann. Zool. Fennici11(3): 220-223|1974|
8612|A||Van Emden,H.M., C.C.M. Kroon, E.N. Schoeman, and H.A. Van Seventer|The Toxicity of Some Detergents Tested on Aedes aegypti L., Lebistes reticulatus Peters, and Biomphalaria glabrata (Say)|Environ. Pollut.6(4): 297-308|1974|
8613|A||Moore,D.W.|An Integrated Laboratory and Field Study of Nonpoint Source Agricultural Insecticide Runoff and Its Effects on the Grass Shrimp, Palaemonetes pugio (Holthius)|Ph.D.Thesis, University of South Carolina, Columbia, SC:323 p.|1988|
8614|A||Kumar,H.D.|Mutagenic Action of Methyl Methane Sulphonate on the Bluegreen Alga Anacystis nidulans|Z. Allg. Mikrobiol.14(5): 371-382|1974|
8615|A||Kuroda,K.|Survival Abilities of Salmon Fry in the Presence of Pesticides|Mizu Shori Gijutsu15(8): 783-793|1974|
8616|A||Kutt,E.C., and D.F. Martin|Effect of Selected Surfactants on the Growth Characteristics of Gymnodinium breve|Mar. Biol.28(4): 253-259|1974|10.1007/BF00388492
8619|A||Singh,N.N., and A.K. Srivastava|Effect of Sublethal Concentration of Aldrin on Some Haematological Parameters of Freshwater Indian Catfish, Heteropneustes fossilis|J. Freshw. Biol.3(3): 223-227|1991|
8620|A||Campbell,R.D., T.P. Leadem, and D.W. Johnson|The In Vivo Effect of p,p'DDT on Na+ - K+ - Activiated ATPase Activity in Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.11(5): 425-428|1974|10.1007/BF01685298
8621|A||Legore,R.S.|The Effect of Alaskan Crude Oil and Selected Hydrocarbon Compounds on Embryonic Development of the Pacific Oyster, Crassostrea gigas|Ph.D. Thesis, University of Washington, Seattle, WA:189 p.|1974|
8622|A||Lemma,A., and P. Yau|Studies on the Molluscicidal Properties of Endod (Phytolacca dodecandra):  II.  Comparative Toxicity of Various Molluscicides to Fish and Snails|Ethiop. Med. J.12(3): 109-114|1974|
8623|A||Naess,T.|Ontogenetic and Sex Dependent Rotenone Tolerance of a Marine Copepod, Acartia clausi Giesbrecht|Sarsia76(1-2): 29-32|1991|10.1080/00364827.1991.10413463
8624|A||Tjeerdema,R.S., and R.S. Jacobs|Elimination of 2,4,5,2',4',5'-Hexachlorobiphenyl by the Purple Sea Urchin, Strongylocentrotus purpuratus, Following Single Exposure|Bull. Environ. Contam. Toxicol.38(6): 1029-1036|1987|10.1007/BF01609091
8625|A||Lieb,A.J., D.D. Bills, and R.O. Sinnhuber|Accumulation of Dietary Polychlorinated Biphenyls (Aroclor 1254) by Rainbow Trout (Salmo gairdneri)|J. Agric. Food Chem.22(4): 638-642|1974|10.1021/jf60194a019
8627|A||Litzbarski,B., and H. Litzbarski|Inhibition of Acetylcholinesterase by Toxaphene in Insects and Fish. (Hemmung Der Acetylcholinesterase Durch Toxaphen in Insekten Und Fischen)|Biologische Rundschau12(5): 345-346|1974|
8628|A||Liu,L.C., and A. Cendeno-Maldonado|Effects of Fluometuron, Prometryne, Ametryne, and Diuron on Growth of Two Lemna Species|J. Agric. Univ. P. R.63(4): 483-488|1974|10.46429/jaupr.v58i4.10646
8630|A||Alekseyev,V.A.|Study of Acute Phenolic intoxication of Certain Species of Aquatic Insects and Arachnids|Hydrobiol. J.6(5):22-30|1970|
8631|A||Maki,A.W.|The Effects and Fate of Lampricide (TFM: 3-Trifluormethyl-4-Nitrophenol) in Model Stream Communities|Ph.D. Thesis, Michigan State University, East Lansing, MI:175 p.|1974|
8633|A||Marcoci,S., and M. Ionescu|Toxic Action of Acrylonitrile on Fish. (Actiunea Toxica A Acrilonitrilului Asupra Pestilor)|Stud. Prot. Calitatii Apelor16:7-22|1974|
8634|A||Doig III,M.T., and D.F. Martin|A Note Concerning the Environmental Acceptability of Nitrilo-Triacetic Acid (NTA):  The Effect of NTA on the Growth of Gymnodinium breve|Environ. Lett.6(1): 31-36|1974|10.1080/00139307409437343
8635|A||Reish,D.J., F. Piltz, J.M. Martin, and J.Q. Word|Induction of Abnormal Polychaete Larvae by Heavy Metals|Mar. Pollut. Bull.5(8): 125-126|1974|10.1016/0025-326X(74)90146-5
8638|A||Mathur,D.S.|Toxicity of Sevin to Certain Fishes|J. Inl. Fish. Soc. India6:0-|1974|
8640|AT||Benke,G.M., K.L. Cheever, and S.D. Murphy|Comparative Toxicity, Anticholinesterase Action and Metabolism of Methyl Parathion, Parathion and Guthion in Sunfish and Mice|In: Proc. 12th Annu. Meet. Soc. of Toxicol. , A731032, New York:473-474|1973|
8642|A||Vismann,B.|Sulfide Species and Total Sulfide Toxicity in the Shrimp Crangon crangon|J. Exp. Mar. Biol. Ecol.204(1-2): 141-154|1996|10.1016/0022-0981(96)02577-4
8643|A||Mehrle,P.M., and R.A. Bloomfield|Ammonia Detoxifying Mechanisms of Rainbow Trout Altered by Dietary Dieldrin|Toxicol. Appl. Pharmacol.27(2): 355-365|1974|10.1016/0041-008X(74)90207-5
8644|A||Newman,M.W., and S.A. MaClean|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. VI. Histopathology|Noaa Tech.Rep.Nmfs Ssr F-681:27-33|1974|
8645|A||Meith-Avcin,N.|Sublethal Effectifs of DDT on the Behavioral Responses of Barnacles to Chemical and Tactile Stimuli|Rev. Int. Oceanogr. Med. (Multiple Languages)33:91-102|1974|
8646|A||Kamata,Y., M. Mita, A. Fujiwara, T. Tojo, J. Takano, A. Ide, and I. Yasumasu|Probable Participitation of Phospholipase A2 Reaction in the Process of Fertilization-Induced Activation of Sea Urchin Eggs|Dev. Growth Differ.39(4): 419-428|1997|10.1046/j.1440-169X.1997.t01-3-00002.x
8647|A||Pellegrini,L., S.G. Delivopoulos, and M. Pellegrini|Arsenic-Induced Ultrastructural Changes in the Vegetative Cells of Cystoseira barbata Forma repens Zinova et Kalugina (Fucophyceae, Fucales)|Bot. Mar.33(3): 229-234|1990|10.1515/botm.1990.33.3.229
8648|A||Middaugh,D.P., and C.L. Rose|Retention of Two Mercurials by Striped Mullet, Mugil cephalus|Water Res.8:173-177|1974|10.1016/0043-1354(74)90040-2
8650|A||Mortimer,D.C.|Differences in the Characteristics of Mercury Uptake by Two Species of Elodea|In: Proc. 17th Annu. Meeting of Can. Fed. of Biol. Sciences, Hamilton, Canada:100-|1974|
8651|A||Mosser,J.L., T.C. Teng, W.G. Walther, and C.F. Wurster|Interactions of PCB's, DDT and DDE in a Marine Diatom|Bull. Environ. Contam. Toxicol.12(6): 665-668|1974|10.1007/BF01685910
8652|A||Motohashi,K., and T. Tsuchida|Uptake of Cadium by Pure Cultured Diatom, Skeletonema costatum|Bull. Plankton. Soc. Jpn.21(1): 55-59|1974|
8653|A||Truscott,R., and K.N. White|The Influence of Metal and Temperature Stress on the Immune System of Crabs|Funct. Ecol.4(3): 455-461|1990|10.2307/2389609
8654|A||Nagell,B., M. Notini, and O. Grahn|Toxicity of Four Oil Dispersants to Some Animals From the Baltic Sea|Mar. Biol.28(4): 237-243|1974|10.1007/BF00388490
8655|A||Miramand,P., and P. Germain|Sea Water Uptake, Sediment Transfer and Histoautoradiographic Study of Plutonium (239Pu) and Americium (241Am) in the Edible Cockle|Mar. Ecol. Prog. Ser.22(1): 59-68|1985|10.3354/meps022059
8656|A||Robohm,R.A., and M.F. Nitkowski|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. IV. Effects on the Immune System|Noaa Tech.Rep.Nmfs Ssr F-681:15-20|1974|
8657|A||Niimi,A.J., and Q.N. Laham|Relative Toxicity of Organic and Inorganic Compounds of Selenium to Newly Hatched Zebrafish (Brachydanio rerio)|Can. J. Zool.54(4): 501-509|1976|10.1139/z76-056
8658|A||Nimmo,D.R., and L.H. Bahner|Some Physiological Consequences of Polychlorinated Biphenyl- and Salinity- Stress in Penaeid Shrimp|In: F.J.Vernberg and W.B.Vernberg (Eds.), Symp.Pollution and Physiology of Marine Organisms, Academic Press, NY:427-443|1974|
8659|A||Bianucci,F., and P. Legnani|"Research on the Toxicity of Chromium-Anionic Detergent Mixtures to ""Alburnus alburnus,"" ""Alborella"" Variety"|U.S.NTIS ORNL-TR-4473:5 p.|1973|
8660|A||Chassard-Bouchaud,C., J.F. Boutin, P. Hallegot, and P. Galle|Chromium Uptake, Distribution and Loss in the Mussel Mytilus edulis: A Structural, Ultrastructural and Microanalytical Study|Dis. Aquat. Org.7(2):117-136|1989|10.3354/dao007117
8661|A||Belanger,S.E., and D.S. Cherry|Interacting Effects of pH Acclimation, pH, and Heavy Metals on Acute and Chronic Toxicity to Ceriodaphnia dubia (Cladocera)|J. Crustac. Biol.10(2): 225-235|1990|10.2307/1548483
8662|AT||Schaefer,C.H., and T. Miura|Chemical Persistence and Effects of S-31183, 2-[1-Methyl-2-(4-Phenoxyphenoxy)Ethoxy]Pyridine, on Aquatic Organisms in Field Tests|J. Econ. Entomol.83(5): 1768-1776|1990|10.1093/jee/83.5.1768
8663|A||Oseid,D.M.,Jr.|Chronic Toxicity of Hydrogen Sulfide to Gammarus pseudolimnaeus|Trans. Am. Fish. Soc.103(4): 819-822|1974|10.1577/1548-8659(1974)103<819:CTOHST>2.0.CO;2
8664|A||Stamouli,M., and C. Papadopoulou|Trivalent Cr-51 Bioaccumulation Study in Two Mollusc Species|Thalassographica13(suppl. 1): 49-52|1990|
8665|A||Parrish,P.R.|Aroclor 1254, DDT and DDD, Dieldrin: Accumulation and Loss by American Oysters (Crassostrea virginica) Exposed Continuously for 56 Weeks|Proc. Natl. Shellfish. Assoc.64:7-|1974|
8666|A||Parrish,P.R., J.A. Couch, J. Forester, J.M.,Jr. Patrick, and G.H. Cook|Dieldrin: Effects on Several Estuarine Organisms|Proc. Southeast. Assoc. Game Fish Comm.27:427-434|1973|
8667|A||Parrish,P.R., D.J. Hansen, J.N. Couch, J.M.,Jr. Patrick, and G.H. Cook|Effects of the Polychlorinated Biphenyl, Aroclor 1016, on Estuarine Animals|ASB Bull.21(2): 74-|1974|
8668|A||Moraitou-Apostolopoulou,M., G. Verriopoulos, and I. Karakassis|Effects of Pre-Exposure on the Tolerance of Artemia salina to Oil and Oil Dispersant|Mar. Pollut. Bull.17(2): 72-76|1986|10.1016/0025-326X(86)90295-X
8669|A|RUSSN|Patin,S.A., and V.N. Tkachenko|Effect of Metals on Photosynthesis of Marine Phytoplankton|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)17(5): 67-69|1974|
8670|A||Pavicic,J., and T. Jarvenpaa|Cadmium Toxicity in Adults and Early Larval Stages of the Mussel Mytilus galloprovincialis Lam|In: Proc. Comparative Studies of Food and Environmental Contamination, Int. Atomic Energy Agency, Vienna, Austria:179-188|1974|
8671|A||Pelsue,F.W., G.C. McFarland, and C. Beesley|Field Evaluation of Two Insect Growth Regulators Against Chironomid Midges in Water Spreading Basins|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.42:157-163|1974|
8672|A||Peterson,R.H.|Influence of Fenitrothion on Swimming Velocities of Brook Trout (Salvelinus fontinalis)|J. Fish. Res. Board Can.31(11): 1757-1762|1974|10.1139/f74-223
8673|A||Pillmore,R.E.|Toxicity of Pyrethrum to Fish and Wildlife|In: J.E.Casida (Ed.), Pyrethrum, the Natural Insecticide.Symp.17, Academic Press, NY:143-165|1973|
8674|A||Pelletier,E., and R. Larocque|Bioaccumulation of Mercury in Starfish From Contaminated Mussels|Mar. Pollut. Bull.18(9): 482-485|1987|10.1016/0025-326X(87)90358-4
8678|A||Jarvinen,A.W., D.K. Tanner, E.R. Kline, and M.L. Knuth|Acute and Chronic Toxicity of Triphenyltin Hydroxide to Fathead Minnows (Pimephales promelas) Following Brief or Continuous Exposure|Environ. Pollut.52(4): 289-301|1988|10.1016/0269-7491(88)90131-5
8679|A||Rana,B.C., and H.D. Kumar|Eco-Physiological Studies on the Uptake of the Pollutants, Copper, Zinc and Phosphate, by Certain Algae|Indian J. Ecol.1(1): 1-11|1974|
8681|A||Rebechini,H.M., and L. Hanzely|Lead-Induced Ultrastructural Changes in Chloroplasts of the Hydrophyte, Certophyllum demersum|Z. Pflanzenphysiol. (Multiple Languages)73(5): 377-386|1974|10.1016/S0044-328X(74)80106-6
8682|A||Thomas,P.|Teleost Model for Studying the Effects of Chemicals on Female Reproductive Endocrine Function|J. Exp. Zool.4:126-128|1990|10.1002/jez.1402560421
8683|A||Rehwoldt,R., L. Lasko, C. Shaw, and E. Wirhowski|Toxicity Study of Two Oil Spill Reagents Toward Hudson River Fish Species|Bull. Environ. Contam. Toxicol.11(2): 159-162|1974|10.1007/BF01684597
8684|A||Chester,N.A., M.V. Haley, and W.G. Landis|The Aquatic Toxicity of Isopropylamine: Comparison of Experimentally Derived Values with Structure Activity Predictions|Environ. Sci.1(3): 117-126|1992|
8685|A||Renfro,J.L., B. Schmidt-Nielsen, D. Miller, D. Benos, and J. Allen|Methyl Mercury and Inorganic Mercury:  Uptake, Distribution, and Effect on Osmoregulatory Mechanisms in Fishes|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Acad.Press, NY:101-122|1974|
8686|A||Renzoni,A.|Influence of Toxicants on Marine Invertebrate Larvae|Thalassia Jugosl.10(1/2): 197-211|1974|
8687|A||Thurberg,F.P., and M.A. Dawson|Physiological Response of the Cunner, Tautogolabrus adspersus, to Cadmium. III. Changes in Osmoregulation and Oxygen Consumption|Noaa Tech.Rep.Nmfs Ssr F-681:11-13|1974|
8688|A||Roales,R.R., and A. Perlmutter|Toxicity of Zinc and Cygon, Applied Singly and Jointly, to Zebrafish Embryos|Bull. Environ. Contam. Toxicol.12(4): 475-480|1974|10.1007/BF01684985
8690|A||Romanenko,V.I., and I.A. Velichko|Effect of Chromate Ions on the Vital Activity of Bacteria and Algae|U.S.NTIS ORNL-TR-4516:5 p.|1974|
8691|A||Westernhagen,H., H. Rosenthal, and K.R. Sperling|Combined Effects of Cadmium and Salinity on Development and Survival of Herring Eggs|Helgol. Wiss. Meeresunters.26(3-4): 416-433|1974|10.1007/BF01627625
8692|A||Bilinski,E., and R.E.E. Jonas|Effects of Cadmium and Copper on the Oxidation of Lactate by Rainbow Trout (Salmo gairdneri) Gills|J. Fish. Res. Board Can.30(10): 1553-1558|1973|10.1139/f73-245
8693|A||Rowe,D.W., and E.J. Massaro|Cadmium Uptake and Time Dependent Alterations in Tissue Levels in the White Catfish Ictalurus catus (Pisces: Ictaluridae)|Bull. Environ. Contam. Toxicol.11(3): 244-249|1974|10.1007/BF01685101
8694|A||Aksenova,E.I., Z.N. Kopylova, Z.A. Trufanova, and M.S. Sheinin|Effect of Chlorophos on Some Representatives of Freshwater Phyto- and Zooplankton|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )3:89-96|1972|
8695|A||Popken,G.J.|Effects of Calcium on the Toxicity of Zinc to Embryos and Larvae of the Fathead Minnow (Pimephales promelas)|M.S.Thesis, Eastern Kentucky University, Richmond, KY:64 p.|1990|
8696|A||Ryazhenov,N.I.|Toxicity of a Mineral Oil Emulsion of the gamma Isomer of Hexachlorocyclohexane to Fish|Tr. Vses. Nauchno-Issled. Inst. Vet. Sanit.49:195-198|1974|
8697|A||Siammai,H., and S. Chiayvareesajja|Acute Toxicity of Lead on Grouper (Epinephelus spp.)|Songklanakarin J.Sci.Technol.10(2): 179-184|1988|
8698|A||Bhalla,P.R., and P.S. Sabharwal|Effects of Tobacco Smoke and Some of its Constituents on Growth and Flowering of Lemna gibba G3|Environ. Pollut.6(1): 59-66|1974|
8700|T||Kannan,N., S. Tanabe, and R. Tatsukawa|"Toxic Potential of Non-Ortho and Mono-Ortho Coplanar PCBs in Commercial PCB Preparations: ""2,3,7,8-T4 CDD Toxicity Equivalence Factors Approach"|Bull. Environ. Contam. Toxicol.41:267-276|1988|10.1007/BF01705441
8701|A||Sangalang,G.B., and H.C. Freeman|Effects of Sublethal Cadmium on Maturation and Testosterone and 11-Ketosterone Production In Vivo in the Brook Trout|Biol. Reprod.11:429-435|1974|10.1095/biolreprod11.4.429
8703|AT||Birge,W.J., J.J. Just, A. Westerman, and A.D. Rose|Sensitivity of Vertebrate Embryos to Heavy Metals as a Criterion of Water Quality - Phase I|Res. Rep. Univ. Ky. Water Resour. Res. Inst.71:38 p.|1973|
8704|A||Di Delupis,G.D., and R. Miniero|Preliminary Studies on the TBTO Effects on Fresh Water Biotic Communities|Riv. Idrobiol.28(1-2): 63-68|1989|
8705|A||Regoli,F., E. Orlando, M. Mauri, M. Nigro, and G.A. Cognetti|Heavy Metal Accumulation and Calcium Content in the Bivalve Donacilla cornea|Mar. Ecol. Prog. Ser.74(2-3): 219-224|1991|10.3354/meps074219
8706|A||Schott,C.D., and E.C. Worthley|The Toxicity of TNT and Related Wastes to an Aquatic Flowering Plant, 'Lemna perpusilla' Torr|Edgewood Arsenal Tech.Rep.EB-TR-74016, Edgewood Arsenal, Aberdeen Proving Grd., MD:18 p.|1974|
8707|A||Schulz-Baldes,M.|Lead Uptake From Sea Water and Food, and Lead Loss in the Common Mussel Mytilus edulis|Mar. Biol.25(3): 177-193|1974|10.1007/BF00394964
8708|A||Oyamada,N., G. Takahashi, and M. Ishizaki|Methylation of Inorganic Selenium Compounds by Freshwater Green Algae, Ankistrodesmus sp., Chlorella vulgaris and Selenastrum sp|Eisei Kagaku (Multiple Languages)37(2): 83-88|1991|
8709|A||See,C.L., A.L.,Jr. Buikema, and J.,Jr. Cairns|The Effects of Selected Toxicants on Survival of Dugesia tigrina (Turbellaria)|ASB Bull.21(2): 82-|1974|
8711|A||Shannon,L.R.|Accumulation and Elimination of Dieldrin by Channel Catfish (Ictalurus punctatus)|Ph.D.Thesis, Iowa State University, Ames, IA:91 p.|1974|
8712|A||Shin,E.B., and P.A. Krenkel|Mercury Uptake by Fish and Biomethylation Mechanisms|J. Water Pollut. Control Fed.48(3): 473-501|1976|
8713|A||Sikka,H.C., and C.P. Rice|Interaction of Selected Pesticides with Marine Microorganisms|Off.of Naval Res., Arlington, VA:78 p.|1974|
8714|AT||Sikka,H.C., R.S. Lynch, and M. Lindenberger|Uptake and Metabolism of Dichlobenil by Emersed Aquatic Plants|J. Agric. Food Chem.22(2): 230-233|1974|10.1021/jf60192a025
8715|A||Singh,P.K.|Algicidal Effect of 2,4-Dichlorophenoxy Acetic Acid on Blue-Green Alga Cylindrospermum sp|Arch. Microbiol.97(1): 69-72|1974|10.1007/BF00403046
8716|A||Goel,H.C., and C.P. Srivastava|Laboratory Evaluation of Some Molluscicides Against Fresh Water Snails, Indoplanorbis and Lymnaea Species|J. Commun. Dis.13(2): 121-127|1981|
8717|A||Skaar,H., B. Rystad, and A. Jensen|The Uptake of 63Ni by the Diatom Phaeodactylum tricornutum|Physiol. Plant. (Multiple Languages)32(4): 353-358|1974|10.1111/j.1399-3054.1974.tb03150.x
8718|A||Marcenko,E.|Cadmium Cytotoxicity and Resistance in Euglena gracilis|Acta Bot. Croat. (Multiple Languages)45:33-42|1986|
8719|A||Smith,L.L.J., and D.M. Oseid|Effect of Hydrogen Sulfide on Development and Survival of Eight Freshwater Fish Species|In: J.H.S.Blaxter (Ed.), The Early Life History of Fish, Proceedings of an International Symposium, Oban, Scotland:417-430|1974|
8720|A||Pesch,C.E., and G.L. Hoffman|Adaptation of the Polychaete Neanthes arenaceodentata to Copper|Mar. Environ. Res.6(4): 307-317|1982|10.1016/0141-1136(82)90044-7
8721|A||Snyder,C.E., and R.P. Sheridan|Toxicity of the Pesticide Zectran on Photosynthesis Respiration, and Growth in Four Algae|J. Phycol.10(2): 137-139|1974|10.1111/j.1529-8817.1974.tb02690.x
8722|A||Fackler,P.H., E. Dionne, D.A. Hartley, and J.L. Hamelink|Bioconcentration by Fish of a Highly Volatile Silicone Compound in a Totally Enclosed Aquatic Exposure System|Environ. Toxicol. Chem.14(10): 1649-1656|1995|10.1002/etc.5620141004
8723|A||Stanisstreet,M.|Comparison of the Effects of Lithium, beta-Phenylethylamine and Tyrosine on Xenopus Embryos|Experientia30(9): 1081-1082|1974|10.1007/BF01939022
8724|A||Stewart,D.J., and R.A. Stein|Short-Term Fate of Dietary Dieldrin in the Digestive Tract of Juvenile Lake Trout (Salvelinus namaycush)|Bull. Environ. Contam. Toxicol.11(6): 563-566|1974|10.1007/BF01685015
8726|A||Stroganov,N.S., O.V. Parina, and K.F. Sorvachev|Effect of Triethyltin Chloride on the Uptake of Inorganic Carbon (NaHC14O3) by Carp|Hydrobiol. J.10(5): 20-24|1974|
8727|A||Struhsaker,J.W., M.B. Eldridge, and T. Echerverria|Effects of Benzene (a Water-Soluble Component of Crude Oil) on Eggs and Larvae of Pacific Herring and Northern Anchovy|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Acad.Press, NY:253-284|1974|
8728|A||Sugawara,N.|Effect of Phthalate Esters on Shrimp|Bull. Environ. Contam. Toxicol.12(4): 421-424|1974|10.1007/BF01684977
8729|A||Sugawara,N.|Toxic Effect of a Normal Series of Phthalate Esters on the Hatching of Shrimp Eggs|Toxicol. Appl. Pharmacol.30(1): 87-89|1974|10.1016/0041-008X(74)90249-X
8730|A||Thatcher,T.O.|Combined Effects of Mercury and Temperature on the Mortality of Rainbow Trout|AEC Symp. Ser.32:54-58|1974|
8731|A||Thorp,V.J., and P.S. Lake|Toxicity Bioassays of Cadmium on Selected Freshwater Invertebrates and the Interaction of Cadmium and Zinc on the Freshwater Shrimp (Paratya tasmanensis Ric.)|Aust. J. Mar. Freshw. Res.25(1): 97-104|1974|10.1071/MF9740097
8732|A||Thurberg,F.P., M.A. Dawson, and R.S. Collier|Effects of Copper and Cadmium on Osmoregulation and Oxygen Consumption in Two Species of Estuarine Crabs|Mar. Biol.23(3): 171-175|1973|10.1007/BF00389481
8733|A||Thurberg,F.P., A. Calabrese, and M.A. Dawson|Effects of Silver on Oxygen Consumption of Bivalves at Various Salinities|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Acad.Press, NY:67-78|1974|
8734|A||Tkachenko,V.N., S.V. Mortina, and E.V. Lukankina|Toxic Effects of Heavy Metal on Marine Unicellular Algae|Tr. Vses. Nauchno-Issled. Inst. Morsk. Rybn. Khoz. Okeanogr.100:63-67|1974|
8735|A||Tomiyama,S.|Effects of Surfactants on Fish|Nippon Suisan Gakkaishi (Multiple Languages)40(12): 1291-1296|1974|10.2331/suisan.40.1291
8736|A||Tooby,T.E., F.J. Durbin, and R.J. Rycroft|Accumulation and Elimination of Residues of the Aquatic Herbicide Dichlobenil in Two Species of British Freshwater Fish|In: F.Beran (Ed.), Proc.Eur.Weed Res.Counc.4th Int.Symp.Wasserunkraeuter Aquatic Weeds, Bundesanst.Pflanzen, Vienna, Austria:202-209|1974|
8737|A||Toor,H.S., K. Mehta, and S. Chhina|Toxicity of Insecticides (Commercial Formulations) to the Exotic Fish, Common Carp Cyprinus carpio communis Linnaeus|J. Res. Punjab Agric. Univ.10(3): 341-345|1973|
8738|A||Tovell,P.W.A., C. Newsome, and D. Howes|Effect of Water Hardness on the Toxicity of an Anionic Detergent to Fish|Water Res.8(5): 291-296|1974|10.1016/0043-1354(74)90091-8
8739|A||Tripp,M.R.|Effects of Organophosphate Pesticides on Adult Oysters (Crassostrea virginica)|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Mar.Organisms, Acad.Press, NY:225-236|1974|
8741|A||Tsukidate,J.|Tracer Experiments on the Effect of Micronutrients on the Growth of Porphyra Plants-II Manganese-54 and Zinc-65 Assimilation in Relation to|Bull. Nansei Reg. Fish. Res. Lab.7:9-18|1974|
8742|A||Rebhun,S., and A. Ben Amotz|Antagonistic Effect of Manganese to Cadmium Toxicity in the Alga Dunaliella salina|Mar. Ecol. Prog. Ser.42(1): 97-104|1988|10.3354/meps042097
8743|A||Vaidehi,B.K., A. Delcourt, and J.C. Mestre|Toxicity of Phenylmercury Hydroxide to Freshwater Algae, Scenedesmus subspicatus W. and Euglena gracilis Klebs|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)279(23): 1801-1804|1974|
8745|A||Verma,S.R., S.P. Gupta, R.C. Dalela, and M.P. Tyagi|Studies on the Toxicity of DDT on Fresh Water Teleost Fishes Part I. TLM Measurments and Accumulation of DDT in Liver and Intestine of Colisa|Gegenbaurs Morphol. Jahrb.120(3): 439-449|1974|
8746|A||Roesijadi,G., A.S. Drum, J.M. Thomas, and G.W. Fellingham|Enhanced Mercury Tolerance in Marine Mussels and Relationship to Low Molecular Weight, Mercury-Binding Proteins|Mar. Pollut. Bull.13(7): 250-253|1982|10.1016/0025-326X(82)90349-6
8747|A||Booth,G.M., C.C. Yu, and D.J. Hansen|Fate, Metabolism, and Toxicity of 3-Isopropyl-1H-2,1,3-Benzothiadiazin-4(3H)-1-2,2-Dioxide in a Model Ecosystem|J. Environ. Qual.2(3): 408-411|1973|10.2134/jeq1973.00472425000200030025x
8748|A||Vreeland,V.|Uptake of Chlorobiphenyls by Oysters|Environ. Pollut.6(2): 135-140|1974|
8749|A||Vreeland,V.|Uptake, Translocation and Elimination of Individual Chlorobiphenyls by Oysters|In: Proc. NSF Trace Contaminants Conf. Annu. Rep. No. 1, Oak Ridge Natl. Lab, Oak Ridge, TN:292-297|1974|
8751|A||Webster,H.D., A.G. Ulsamer, and M.F. O'Connell|Hexachlorophene Induced Myelin Lesions in the Developing Nervous System of Xenopus Tadpoles: Morphological and Biochemical Observations|J. Neuropathol. Exp. Neurol.33(1): 144-163|1974|10.1097/00005072-197401000-00011
8752|A||Wedemeyer,G., and W.T. Yasutake|Stress of Formalin Treatment in Juvenile Spring Chinook Salmon (Oncorhynchus tshawytscha) and Steelhead Trout (Salmo gairdneri)|J. Fish. Res. Board Can.31(2): 179-184|1974|10.1139/f74-029
8753|A||Weis,P.|Ultrastructural Changes Induced by Low Concentrations of DDT in the Livers of the Zebrafish and the Guppy|Chem.-Biol. Interact.8(1): 25-30|1974|10.1016/0009-2797(74)90074-X
8754|A||Weis,P., and J.S. Weis|Cardiac Malformations and other Effects Due to Insecticides in Embryos of the Killifish, Fundulus heteroclitus|Teratology10(3): 263-267|1974|10.1002/tera.1420100308
8755|A||Weis,P., and J.S. Weis|DDT Causes Changes in Activity and Schooling Behavior in Goldfish|Environ. Res.7(1): 68-74|1974|10.1016/0013-9351(74)90076-0
8756|A||Weisbart,M., and D. Feiner|Sublethal Effect of DDT on Osmotic and Ionic Regulation by the Goldfish Carassius auratus|Can. J. Zool.52(6): 739-744|1974|10.1139/z74-096
8758|A||Borghi,H., S. Puiseux-Dao, S. Bonotto, and D. Hoursiangou-Neubrun|The Effects of Lindane on Acetabularia mediterranea|Protoplasma (Multiple Languages)78(1-2): 99-112|1973|10.1007/BF01281525
8759|A||Wierzbicka,M.|Influence of 2,4-D Sodium Salt on the Survival of Some Copepoda Species|Pol. Arch. Hydrobiol.21(2): 275-282|1974|
8760|A||Wildish,D.J.|Arrestant Effect of Polyoxyethylene Esters on Swimming in the Winter Flounder|Water Res.8(8): 579-583|1974|10.1016/0043-1354(74)90067-0
8761|A||Wobeser,G.|Prolonged Oral Administration of Methyl Mercury Chloride to Rainbow Trout (Salmo gairdneri) Fingerlings|J. Fish. Res. Board Can.32(11): 2015-2023|1975|10.1139/f75-237
8763|A||Yamane,S., A. Kino, and S. Teshima|Histochemical Demonstration of Cholinesterase Activity in Tissues of the Carp and Effect of DDVP on Its Activity In Situ|Acta Histochem. Cytochem.7(2): 167-174|1974|10.1267/ahc.7.167
8764|A||Hickey,C.W.|Sensitivity of Four New Zealand Cladoceran Species and Daphnia magna to Aquatic Toxicants|N. Z. J. Mar. Freshw. Res.23(1): 131-137|1989|10.1080/00288330.1989.9516348
8766|A||Leland,H.V., J.L. Carter, S.V. Fend, and T.M. Jenkins|Effects of Copper on Structure and Function of Biological Communities in a Sierra Nevada, California, Stream|Aquat. Toxicol.11(3-4): 409-|1988|10.1016/0166-445X(88)90106-3
8767|A||Wolmarans,C.T., E. Yssel, and V.L. Hamilton-Attwell|Toxic Effects of Chromium on Schistosoma haematobium miracidia|Bull. Environ. Contam. Toxicol.41(6): 928-935|1988|10.1007/BF02021057
8768|A||Yentsch,C.M., C.S. Yentsch, C. Owen, and M. Salvaggio|Stimulatory Effects on Growth and Photosynthesis of the Toxic Red Tide Dinoflagellate, Gonyaulax tamarensis, with the Addition of Nitrilotriacetic Acid (NTA) N(CH2COOH)|Environ. Lett.6(3): 231-238|1974|10.1080/00139307409437365
8769|A||Zarafonetis,J.H., and R.E. Hampton|Some Effects of Small Concentrations of Chromium on Growth and Photosynthesis in Algae|Mich.Acad.6(4): 417-421|1974|
8770|A||Zinck,M.E., and R.F. Addison|The Fate of 2-,3-, and 4-Chlorobiphenyl Following Intravenous Administration to the Thorny Skate (Raja radiata) and the Winter Skate (Raja ocellata)|Arch. Environ. Contam. Toxicol.2(1): 52-61|1974|10.1007/BF01985800
8771|A||Hande,R.S., and P.V. Pradhan|Effect of Sumicidin on Acetylcholinesterase Activity in the Freshwater Teleost, Notopterus notopterus|Indian J. Comp. Anim. Physiol.8(2): 55-59|1990|
8774|A||Janz,D.M., and C.D. Metcalfe|Nonadditive Interactions of Mixtures of 2,3,7,8-TCDd and 3,3'4,4'-Tetrachlorobiphenyl on Aryl Hydrocarbon Hydroxylase Induction in Rainbow Trout|Chemosphere23(4): 467-472|1991|10.1016/0045-6535(91)90197-L
8775|A||Braginskii,L.P., and A.K. Migal|Effect of Atrazine on the Vital Activity of Some Aquatic Plants|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )5:179-187|1973|
8776|A||Brereton,A., H. Lord, I. Thornton, and J.S. Webb|Effect of Zinc on Growth and Development of Larvae of the Pacific Oyster Crassostrea gigas|Mar. Biol.19(2): 96-101|1973|10.1007/BF00353580
8777|A||Brocksen,R.W., and H.T. Bailey|Respiratory Response of Juvenile Chinook Salmon and Striped Bass Exposed to Benzene, a Water Soluble Component of Crude Oil|Int. Oil Spill Conf. Proc.1973(1): 783-791|1973|10.7901/2169-3358-1973-1-783
8778|A||Broderius,S.J.|Determinations of Molecular Hydrocyanic Acid in Water and Studies of the Chemistry and Toxicity to Fish of Metal-Cyanide Complexes|Ph.D.Thesis, Oregon State University, Corvallis, OR:287 p.|1973|
8779|A||Fry,J.C., M.P. Brooker, and P.L. Thomas|Changes in the Microbial Populations of a Reservoir Treated with the Herbicide Paraquat|Water Res.7(3): 395-407|1973|10.1016/0043-1354(73)90022-5
8780|A||Brown,A.C., and A.B. Currie|Tolerance of Bullia digitalis (Prosobranchiata) to Solutions of Ammonium Nitrate in Natural Sea Water|S. Afr. J. Sci.69:219-220|1973|
8781|A||Brown,D.H.|Toxicity Studies on the Components of an Oil-Spill Emulsifier Using Lichina pygmaea and Xanthoria parietina|Mar. Biol.18(4): 291-297|1973|10.1007/BF00347791
8782|A||Burrows,W.D., and P.A. Krenkel|Studies on Uptake and Loss of Methylmercury-203 by Bluegills (Lepomis macrochirus Raf.)|Environ. Sci. Technol.7(13): 1127-1130|1973|10.1021/es60085a012
8783|A||Burtnaya,I.L.|The Variability of Caloricity and the Organic Matter Content in Molluscs Radix ovata Drap. Under Chronic Effect of Hexachlorane gamma Isomer|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )4:87-90|1973|
8784|A||Henry,C.J.|Effects of Rodeo Herbicide on Aquatic Invertebrates and Fathead Minnows|M.S.Thesis, South Dakota State University, Brookings, SD:63 p.|1992|
8785|A||Trucco,R.G., J. Inda, and M.L. Fernandez|Acute Toxicity and Accumulation of Copper, Manganese and Molybdenum by Basilichthys australis|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:1132-|1991|
8786|A||Calapaj,G.G.|Chemical Pollution of Mytilus I. Radiostrontium, Radiocesium, Inorganic Mercury, Hexavalent Chromium (Ricerche Di Laboratorio Sull'Inquinamento Chimico Dei Mitili Nota I: Radiostronzio, Radiocesio, Mercurio Inorganico, |Ig. Mod. (Multiple Languages)66(3): 243-270|1973|
8787|A||De Freitas,A.S.W., S.U. Qadri, and B.E. Case|Origins and Fate of Mercury Compounds in Fish|In: Proceedings of the International Conference on Transport of Persistent Chemicals in Aquatic Ecosystems, Ottawa, Canada:31-36|1974|
8788|A||Jonczyk,E., K.G. Doe, P.C. Wells, and S.G. Yee|Technical Evaluation of the Sea Urchin Fertilization Test: Proceedings of a Workshop in Dartmouth, Nova Scotia|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:323-330|1991|
8789|A||Cearley,J.E., and R.L. Coleman|Cadmium Toxicity and Accumulation in Southern Naiad|Bull. Environ. Contam. Toxicol.9(2): 100-101|1973|10.1007/BF01684763
8790|A||Cenci,P., and G. Cavazzini|Effetti Della Monofluoroacetammide (MNFA) Sulla Microflora Dell'Ambiente. (Effects of Monofluoroacetamide (MNFA) on the Environmental Microflora|Ig. Mod. (Multiple Languages)66(3): 271-285|1973|
8791|A||Muir,D.C.G., D.F. Kenny, N.P. Grift, R.D. Robinson, R.D. Titman, and H.R. Murkin|Fate and Acute Toxicity of Bromoxynil Esters in an Experimental Prairie Wetland|Environ. Toxicol. Chem.10(3): 395-406|1991|10.1002/etc.5620100312
8792|A||Kruzynski,G.M., and I.K. Birtwell|Some Respiratory Responses of Juvenile Pacific Salmon to the Antisapstain Chemical TCMTB|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:298-300|1991|
8793|A||Lanno,R.P., and D.G. Dixon|The Induction of Lethality in Rainbow Trout Exposed to Thiocyanate by Application of a Stressor: Acute or Chronic Response|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:241-242|1991|
8796|A||Lanno,R.P., and D.G. Dixon|Chronic Effects of Thiocyanate in Fathead Minnows: A Model for the Effects of a Waterborne Antithyroid on Reproduction in Fish|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:496-500|1991|
8797|A||Cocks,J.A.|The Effect of Aldrin on Water Balance in the Freshwater Pulmonate Gastropod (Biomphalaria glabrata)|Environ. Pollut.5(2): 149-151|1973|
8798|A||Cole,B.S.|Uptake and Translocation of 15N by Potamogeton nodosus|Ph.D.Thesis, Univ.of Oklahoma, Norman,OK:54 p.|1973|
8799|A||Cole,S.L., and J. Wilhm|Effect of Phenol on Oxygen Uptake Rate of a Laboratory Population of Chironomus attenuatus (Walk.)|Water Res.7(11): 1691-1700|1973|10.1016/0043-1354(73)90137-1
8800|A||Collier,R.S., J.E. Miller, M.A. Dawson, and F.P. Thurberg|Physiological Response of the Mud Crab, Eurypanopeus depressus to Cadmium|Bull. Environ. Contam. Toxicol.10(6): 378-382|1973|10.1007/BF01721007
8801|A||Colmano,G.|Molybdenum Toxicity: Abnormal Cellular Division of Teratogenic Appearance in Euglena gracilis|Bull. Environ. Contam. Toxicol.9(6): 361-364|1973|10.1007/BF01685087
8802|A||Cooke,A.S.|The Effects of DDT, When Used As a Mosquito Larvicide, on Tadpoles of the Frog Rana temporaria|Environ. Pollut.5(4): 259-273|1973|
8803|A||Cooke,A.S.|Response of Rana temporaria Tadpoles to Chronic Doses of pp'-DDT|Copeia4:647-652|1973|10.2307/1443062
8804|A||Cooley,N.R., J.M.,Jr. Keltner, and J. Forester|The Polychlorinated Biphenyls, Aroclors 1248 and 1260: Effect on and Accumulation by Tetrahymena pyriformus|J.Protozool.20(3): 443-445|1973|10.1111/j.1550-7408.1973.tb00920.x
8805|A||Corbet,S.A., J. Green, and E. Betney|A Study of a Small Tropical Lake Treated with the Molluscicide Frescon|Environ. Pollut.4(3): 193-206|1973|
8806|A||Crawford,R.B., J.B. Anderson, and A.M. Guanno|Effects of DDT on Fundulus heteroclitus: Survival, Uptake, and Distribution|Bull. Mt. Desert Isl. Biol. Lab.12:19-22|1972|
8807|A||Cunningham,P.A., and M.R. Tripp|Accumulation and Depuration of Mercury in the American Oyster Crassostrea virginica|Mar. Biol.20(1): 14-19|1973|10.1007/BF00387669
8808|A||Heimbach,F., W. Pflueger, and H.T. Ratte|Use of Small Artificial Ponds for Assessment of Hazards to Aquatic Ecosystems|Environ. Toxicol. Chem.11(1): 27-34|1992|10.1002/etc.5620110104
8809|A||Dacre,J.C., and D. Scott|Effects of Dieldrin on Brown Trout in Field and Laboratory Studies|N. Z. J. Mar. Freshw. Res.7(3): 235-246|1973|10.1080/00288330.1973.9515470
8810|A||Rouleau,C., E. Pelletier, and H. Tjalve|Bioconcentration and Distribution of 54Mn2+ and Effects of Chelating Agents in the Brown Trout, Salmo trutta|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1863:330-339|1992|
8811|A||Danil'chenko,O.I., and N.S. Stroganov|Comparative Effect of Triethyltin Chloride and Sodium Pentachlorophenolate on the Embryonal Development of Teleost Fish|Eksp. Vodn. Toksikol. (Non-English)5:61-67|1973|
8812|A||Davenport,J.|A Comparison of the Effects of Oil, B.P.1100 and Oleophilic Fluff upon the Porcelain Crab, Porcellana platycheles|Chemosphere2(1): 3-6|1973|10.1016/0045-6535(73)90023-4
8813|A||Davies,P.H., and W.H. Everhart|Effects of Chemical Variations in Aquatic Environments: Vol. III Lead Toxicity to Rainbow Trout and Testing Application Factor Concept|EPA-R3-73-011C, U.S.EPA, Washington, D.C.:80 p.|1973|
8814|A||Davy,F.B., H. Kleerekoper, and J.H. Matis|Effects of Exposure to Sublethal DDT on the Exploratory Behavior of Goldfish (Carassius auratus)|Water Resour. Res.9(4): 900-905|1973|10.1029/WR009i004p00900
8816|A||Deakins,D.E.|The Effects of Methylmercury Chloride on the Survival and Behavior of the Three-Spined Stickleback (Gasterosteus aculeatus L.)|Ph.D.Thesis, University of Southern California, Los Angeles, CA:257 p.|1973|
8817|A||DeCew,M.G.|Antibiotic Toxicity, Efficacy, and Teratogenicity in Adult Spring Chinook Salmon (Oncorhynchus tshawytscha)|J. Fish. Res. Board Can.29(11): 1513-1517|1972|10.1139/f72-239
8818|A||Huebert,D.B., and J.M. Shay|The Effect of EDTA on Cadmium and Zinc Uptake and Toxicity in the Submerged Aquatic Macrophyte Lemna trisulca L.|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1863:144-147|1992|
8819|A||Dickman,M.|Changes in Periphytic Algae Following Bicarbonate Additions to a Small Stream|J. Fish. Res. Board Can.30(12 Pt 1): 1882-1884|1973|10.1139/f73-301
8821|A||Patil,V.T., S.V. Shinde, and A.B. Kulkarni|Histopathological Changes Induced by Monocrotophos in the Liver of the Fish Boleophthalmus dussumieri|Environ. Ecol.10(1): 52-54|1992|
8822|A||Allen,J.L., C.W. Luhning, and P.D. Harman|Residues of MS-222 in Northern Pike, Muskellunge, and Walleye|In: Invest.Fish.Control.No.45, Fish.Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, DC:3-8|1972|
8824|A||Dvorchik,B.H.|The Distribution, Binding, Fate, and Toxicity of p,p'-DDT[2,2-Bis(p-Chlorophenyl)-1,1,1-Trichloroethane] in the Dogfish, Squalus acanthias|Ph.D Thesis, University of Florida, Gainesville, FL:104 p.|1973|
8825|A||Tort,L., P. Torres, and R. Flos|Effects on Dogfish Haematology and Liver Composition After Acute Copper Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 349-353|1987|10.1016/0742-8413(87)90020-X
8829|A||Epifanio,C.E.|Dieldrin Uptake by Larvae of the Crab Leptodius floridanus|Mar. Biol.19(4): 320-322|1973|10.1007/BF00348901
8830|A||Everhart,W.H., and R.A. Freeman|Effects of Chemical Variations in Aquatic Environments.  Vol. II.  Toxic Effects of Aqueous Aluminum to Rainbow Trout|EPA/R3-73-011B, U.S.EPA, Washington, DC:46 p.|1973|
8831|A||Fang,S.C.|Uptake and Biotransformation of Phenylmercuric Acetate by Aquatic Organisms|Arch. Environ. Contam. Toxicol.1(1): 18-26|1973|10.1007/BF02030142
8832|A||Fisher,N.S., L.B. Graham, E.J. Carpenter, and C.F. Wurster|Geographic Differences in Phytoplankton Sensitivity to PCBs|Nature241(5391): 548-549|1973|10.1038/241548a0
8833|A||Fisher,N.S., and C.F. Wurster|Individual and Combined Effects of Temperature and Polychlorinated Biphenyls on the Growth of Three Species of Phytoplankton|Environ. Pollut.5(3): 205-212|1973|
8835|A||West,C.W., V.R. Mattson, E.N. Leonard, G.L. Phipps, and G.T. Ankley|Comparison of the Relative Sensitivity of Three Benthic Invertebrates to Copper-Contaminated Sediments from the Keweenaw Waterway|Hydrobiologia (Multiple Languages)262:57-63|1993|10.1007/BF00010989
8836|A||Fraizier,A.|Study of Zinc Toxicity to the Rose Prawn Palaemon serratus Pennant (Etude de la Toxicite du Zinc Pour la Crevette Rose Palaemon serratus Pennant)|Rev. Trav. Inst. Peches Marit. (Non-English)37(2): 291-302|1973|
8837|A||Roesijadi,G., J.S. Young, A.S. Drum, and J.M. Gurtisen|Behavior of Trace Metals in Mytilus edulis During a Reciprocal Transplant Field Experiment|Mar. Ecol. Prog. Ser.18(1-2): 155-170|1984|10.3354/meps018155
8839|A||Fromm,P.O., and K.R. Olson|Industrial and Municipal Wastes: Action of Some Water Soluble Pollutants on Fish|Office of Water Res.and Technol., Michigan State University, East Lansing, MI:24 p.|1973|
8840|A||Olson,K.R., H.L. Bergman, and P.O. Fromm|Uptake of Methyl Mercuric Chloride and Mercuric Chloride by Trout: a Study of Uptake Pathways into the Whole Animal and Uptake by Erythrocytes in|J. Fish. Res. Board Can.30(9): 1293-1299|1973|10.1139/f73-209
8841|A||Gardner,G.R., and G. Laroche|Copper Induced Lesions in Estuarine Teleosts|J. Fish. Res. Board Can.30(3): 363-368|1973|10.1139/f73-066
8842|A||Ghosh,A., and S.K. Konar|Effects of Phosphamidon on the Activity of the Digestive Enzyme Invertase, in the Catfish Clarias batrachus (Linnaeus)|J. Inl. Fish. Soc. India5:129-130|1973|
8843|A||Giblin,F.J., and E.J. Massaro|Pharmacodynamics of Methyl Mercury in the Rainbow Trout (Salmo gairdneri): Tissue Uptake, Distribution and Excretion|Toxicol. Appl. Pharmacol.24(1): 81-91|1973|10.1016/0041-008X(73)90183-X
8844|A||Gibson,J.R., and J.L. Ludke|Effect of SKF-525A on Brain Acetylcholinesterase Inhibition by Parathion in Fishes|Bull. Environ. Contam. Toxicol.9(3): 140-142|1973|10.1007/BF01684993
8845|A||Gilbert,B., C. Castleton, and M.S. Bulhoes|Molluscicidal Activity of Trifenmorph in Field Trials|Bull. W. H. O.49(4): 377-379|1973|
8846|A||Buhl,K.J., S.J. Hamilton, and J.C. Schmulbach|Acute Toxicity of the Herbicide Bromoxynil to Daphnia magna|Environ. Toxicol. Chem.12:1455-1468|1993|10.1002/etc.5620120813
8848|A||DeLonay,A.J., E.E. Little, D.F. Woodward, W.G. Brumbaugh, A.M. Farag, and C.F. Rabeni|Sensitivity of Early-Life-Stage Golden Trout to Low pH and Elevated Aluminum|Environ. Toxicol. Chem.12:1223-1232|1993|
8849|A||Laroche,G., G.R. Gardner, R. Eisler, E.H. Jackim, P.P. Yevish, and G.E. Zaroogian|Analysis of Toxic Response in Marine Poikilotherms|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor, MI:199-216|1973|
8850|A||Grant,B.F., and P.M. Mehrle|Endrin Toxicosis in Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.30(1): 31-40|1973|10.1139/f73-004
8851|A||Leduc,G., H. Ruber, and M. Webb|Toxicity of Mine Flotation Reagents|Northern Natural Resources and Environment Branch, Department of Indian Affiairs and Northern Development:10 p.|1973|
8852|A||Grosch,D.S.|Reproduction Tests: The Toxicity for Artemia of Derivatives from Non-Persistent Pesticides|Biol. Bull.145(2): 340-351|1973|10.2307/1540044
8853|A||Khan,I.A., and P. Thomas|Aroclor 1254-Induced Alterations in Hypothalamic Monoamine Metabolism in the Atlantic Croaker (Micropogonias undulatas):  Correlation with Pituitary Gonadotropin Release|Neurotoxicology18(2): 553-560|1997|
8854|A||Gupta,R.S., and H.D. Kumar|Action of Mutagenic Chemicals on Blue-Green Algae|Biochem. Physiol. Pflanzen (Multiple Languages)164(1): 14-21|1973|10.1016/S0015-3796(17)30657-1
8856|A||Hallas,T.E.|On the Accumulation and Metabolization of Pentachlorophenol in Fish|Medd. Dan. Fisk. Havunders.7:75-84|1973|
8857|A||Hasegawa,M.|"Studies on the Wild Animals As ""Contamination-Index"". (Part 1) The Effects of PCB on Frog Tadpoles (Rana chensinensis)"|Rep.Hokkaido Inst.Public Health /Hokkaidoritsu Eisei Kenkynsho-ho23:6-9|1973|
8858|A||Hattula,M.L., and O. Karlog|Absorption and Elimination of Polychlorinated Biphenyls (PCB) in Goldfish|Acta Pharmacol. Toxicol.32(3-4): 237-245|1973|10.1111/j.1600-0773.1973.tb01467.x
8859|A||Shutes,B., B. Ellis, M. Revitt, and A. Bascombe|The Use of Freshwater Invertebrates for the Assessment of Metal Pollution in Urban Receiving Waters|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:201-222|1993|
8860|A||Hollister,T.A., and G.E. Walsh|Differential Responses of Marine Phytoplankton to Herbicides:  Oxygen Evolution|Bull. Environ. Contam. Toxicol.9(5): 291-295|1973|10.1007/BF01684786
8861|A||Mourad,M.H.|Cardio and Respiratory Responses in Eel, Anguilla anguilla L. During Exposure to Diazepam|Acta Ichthyol. Piscat.22(1): 119-123|1992|10.3750/AIP1992.22.1.10
8862|A||Hostetter,H.P.|Toxic Effects of Copper on Algae Determined by Polarography|Proc. Phycological Soc. Am. Annu. Meeting A732280; Supplement to J. Phycol. 9:13:|1973|
8863|A||Hughes,R.A., and G.F. Lee|Toxaphene Accumulation in Fish in Lakes Treated for Rough Fish Control|Environ. Sci. Technol.7(10): 934-939|1973|10.1021/es60082a010
8864|A||Hutchinson,T.C.|Comparative Studies of the Toxicity of Heavy Metals to Phytoplankton and Their Synergistic Interactions|Water Pollut. Res. Can.8:68-90|1973|
8865|A||Hutchinson,T.C., and P.M. Stokes|Heavy Metal Toxicity and Algal Bioassays|ASTM Spec. Tech. Publ.:320-343|1975|
8866|A||Ito,Y.|Studies on the Influence of PCB on Aquatic Organisms-III Relationship between the Intake of PCB and its Accumulation in Various Tissues of Carp|Nippon Suisan Gakkaishi (Multiple Languages)39(11): 1139-1143|1973|10.2331/suisan.39.1139
8868|A||Jackim,E.|Influence of Lead and Other Metals on Fish Delta-Aminolevulinate Dehydrase Activity|J. Fish. Res. Board Can.30(4): 560-562|1973|10.1139/f73-096
8869|A||Solbakken,J.E., A.H. Knap, T.D. Sleeter, C.E. Searle, and K.H. Palmork|Investigation into the Fate of 14C-Labelled Xenobiotics (Naphthalene, Phenanthrene, 2,4,5,2',4',5'-Hexachlorobiphenyl, Octachlorostyrene) in Bermudian Corals|Mar. Ecol. Prog. Ser.16(1-2): 149-154|1984|10.3354/meps016149
8870|A||Trim,A.H.|Acute Toxicity of Emulsifiable Concentrations of Three Insecticides Commonly Found in Nonpoint Source Runoff into Estuarine Waters to the Mummichog, Fundulus heteroclitus|Bull. Environ. Contam. Toxicol.38(4): 681-686|1987|10.1007/BF01608603
8871|A||Jank,B.E., H.M. Guo, and V.W. Cairns|Biological Treatment of Airport Wastewater Containing Aircraft De-icing Fluids|EPS 4-WP-73-6, Environmental Protection Services, Water Pollut.Control Dir., Wastewater Tech.Centre Ontario, Canada:122 p.|1973|
8872|A||Hatfield,C.T., and J.M. Anderson|Effects of Two Insecticides on the Vulnerability of Alantic Salmon (Salmo salar) Parr to Brook Trout (Salvelinus fontinalis) Predation|J. Fish. Res. Board Can.29(1): 27-29|1972|10.1139/f72-004
8873|A||Kaim-Malka,R.A.|In Vitro Action of Some Cationic Detergents on Three Crustacea Species (Action In Vitro de Quelques Detergents Cationiques sur Trois Especes de Crustaces)|Tethys (Cornella de Llobregat) (Multiple Languages)5(1): 125-128|1973|
8874|A||Kamler,E.|Effect of 2,4D-Na on the Respiration and Calorific Value in Embryonic and Larval Development of Carp (Cyprinus carpio L.)|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )5:45-60|1973|
8875|A||Kapkov,V.T.|Toxicity of Copper Complexes to Freshwater Mollusks|Technical Report. DTIC Defense Logistics Agency, Alexandria, VA:5 p.|1971|
8877|A||Kauss,P., T.C. Hutchinson, C. Soto, J. Hellebust, and M. Griffiths|The Toxicity of Crude Oil and its Components to Freshwater Algae|Int. Oil Spill Conf. Proc.1973(1): 703-714|1973|10.7901/2169-3358-1973-1-703
8878|A||Kahn,H.A., and S.K. Mukhopadhyay|Effect of Yeast and Cobalt Chloride in Increasing Survival Rate of Hatchlings of Heteropneustes fossilis (Bloch)|Indian J. Anim. Sci.43(6): 540-542|1973|
8879|A||Hanazato,T., and M. Yasuno|Influence of Persistence Period of an Insecticide on Recovery Patterns of a Zooplankton Community in Experimental Ponds|Environ. Pollut.67:109-122|1990|10.1016/0269-7491(90)90076-O
8881|A||Khudolei,V.V.|Induction of Liver Tumors by Some Azo Compounds in Aquarium Guppies (Lebistes reticulatus (Peters))|J. Ichthyol.12(2): 319-324|1972|
8885|A||Kleerekoper,H.|Effects of Copper on the Locomotor Orientation of Fish|EPA-R3-73-045, U.S.EPA, Duluth, MN:97 p.|1973|
8886|A||Sarkar,S.K.|Toxicity Evaluation of Sodium Cyanide to Fish and Aquatic Organisms: Effects of Temperature|Sci. Cult.56(4): 165-168|1990|
8889|A||Korn,S.|The Uptake and Persistence of Carbaryl in Channel Catfish|Trans. Am. Fish. Soc.102(1): 137-139|1973|10.1577/1548-8659(1973)102<137:TUAPOC>2.0.CO;2
8890|A||Hubble,D.R., and B. Reiff|Reproduction of Guppies (Lebistes Reticulatus) After a Single Exposure to Dieldrin - A 12 Months' Study|Bull. Environ. Contam. Toxicol.2:57-63|1967|10.1007/BF01684484
8891|A|RUSSN|Kostyaev,V.Y.|Effect of Phenol on Algae|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:98-113|1973|
8892|A||Kostyaev,V.Y.|The Effect of Phenol on the Hydrochemical Regime, Phytoplankton, and Plant Overgrowth in Artificial Bodies of Water|ORNL-TR-2934:69 p.(ENG TRANSL) / Tr.Inst.Biol.Vnutr.Vod.Akad.Nauk SSSR24:119-151|1973|
8893|A||Lee,R.F., R. Sauerheber, and G.H. Dobbs|Uptake, Metabolism and Discharge of Polycyclic Aromatic Hydrocarbons by Marine Fish|Mar. Biol.17(3): 201-208|1972|10.1007/BF00366294
8894|A||Krieger,R.I., and P.W. Lee|Inhibition of In Vivo and In Vitro Epoxidation of Aldrin, and Potentiation of Toxicity of Various Insecticide Chemicals by Diquat in Two Species of Fish|Arch. Environ. Contam. Toxicol.1(2): 112-121|1973|10.1007/BF01986001
8896|A||Leonte,E.|Effect of CuSO4 Algicide Doses upon the Routine Metabolism of Common Carp (Cyprinus carpio L.) and Prussian carp Carpio L.  (Carassius auratus gibelio; Bloch)  (Efectul Dozelor Algicide de CuSO4 Asupra Metabolismului En|Bul. Cercet. Piscic.31(1-2): 137-144|1973|
8899|A||Luard,E.J.|Sensitivity of Dunaliella and Scenedesmus (Chlorophyceae) to Chlorinated Hydrocarbons|Phycologia12(1/2): 29-33|1973|10.2216/i0031-8884-12-1-29.1
8900|A||Allemand,D., P. Walter, P. Delmas, and G. De Renzis|Alteration of Calcium Transport as a Mechanism of Cell Injury Induced by HgCl2 in Sea Urchin Eggs|Mar. Environ. Res.28(1-4): 227-230|1989|10.1016/0141-1136(89)90234-1
8901|A||Luhning,C.W.|Residues of MS-222, Benzocaine, and Their Metabolites in Striped Bass Following Anesthesia|Invest.Fish Control 52, Southeast.Fish.Control Lab., Warm Springs, GA:11 p.|1973|
8902|A||MacInnes,J.R., and F.P. Thurberg|Effects of Metals on the Behaviour and Oxygen Consumption of the Mud Snail|Mar. Pollut. Bull.4(12): 185-186|1973|10.1016/0025-326X(73)90225-7
8903|A||Mackay,N.J.|The Effects of Methallibure (I.C.I. 33,828) and Thiourea on Gametogenesis in the Firetail Gudgeon, Hypseleotris galii|Gen. Comp. Endocrinol.20(2): 221-235|1973|10.1016/0016-6480(73)90175-5
8904|A||Colak,A., A. Atalay, and S. Cengiz|A Study of the Biological Effects of 2,4-D Ester Used as Herbicide on the Freshwater Fishes in the Sivas Region|Turk. J. Vet. Anim. Sci.14(1): 178-186|1990|
8905|A||Brkovic-Popovic,I., and M. Popovic|Effects of Heavy Metals on Survival and Respiration Rate of Tubificid Worms:  Part 1 - Effects on Survival|Environ. Pollut.13(1): 65-72|1977|
8907|A||Mann,H.|Effect of Borates on Fishes and Some Other Organisms of Fresh- and Brackish Water|Arch. Fischereiwiss.24(1-3): 171-175|1973|
8908|A||Martin,P.N., C. Chaisemartin, and M. Bernard|Dynamics of Carbon-14 Labelled DDT in the Crayfish Astacus leptodactylus. Dynamique Du 14C p,p'-DDT Chez Astacus leptodactylus|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)167(5): 728-732|1973|
8909|A|RUSSN|Matei,V.E.|Hypothalamic Neurosecretion in Lebistes reticulatus Under Conditions of Chronic Phenol Intoxication|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:39-43|1973|
8910|A||Matei,V.E.|Hypothalmic-Hypophyseal Neurosecretory System of Guppy Lebistes reticulatus in Chronic Phenol Poisoning|J. Evol. Biochem. Physiol.9:416-421|1973|
8911|A||Naylor,G.P.L.|The Responses of Cockles to Heavy Metal Pollution and Their Use in the Study of Metal to Metal Uptake Interactions|Ph.D.Thesis, University of Manchester, UK:169 p.|1987|
8912|A||Matsui,S.|Biological Accumulation of Mercuric and Methyl Mercury by Chlorella pyrenoidosa|Ph.D.Thesis, University of Texas, Austin, TX:252 p.|1972|
8913|A||Matthiessen,P., and A.E. Brafield|The Effects of Dissolved Zinc on the Gills of the Stickleback Gasterosteus aculeatus (L.)|J. Fish Biol.5(5): 607-613|1973|10.1111/j.1095-8649.1973.tb04494.x
8914|A||Samuel,K., and S. Bose|Effects of SANDOZ 9789 on Growth and Pigment Content of Chlorella protethecoides Grown Under Two Different Light Intensities|J. Environ. Biol.14(3): 231-241|1993|
8917|A||McIntyre,J.D.|Toxicity of Methyl Mercury for Steelhead Trout Sperm|Bull. Environ. Contam. Toxicol.9(2): 98-99|1973|10.1007/BF01684762
8918|A||McLean,R.I.|Chlorine and Temperature Stress on Estuarine Invertebrates|J. Water Pollut. Control Fed.45(5): 837-841|1973|
8919|A||McMahon,J.W.|Feeding Rate of Daphnia magna Straus in Different Concentrations of Terphenyl Coolant-HB-40|Technical Report AECL-4361, Atomic Energy of Canada Ltd., Chalk River Nuclear Labs, Chalk River, Ontario:12 p.|1973|
8920|A||Meadows,B.S.|Toxicity of Rotenone to Some Species of Coarse Fish and Invertebrates|J. Fish Biol.5(2): 155-163|1973|10.1111/j.1095-8649.1973.tb04444.x
8921|A|RUSSN|Mezhnin,F.I.|Histopathological Changes in Organs and Tissues of Lebistes reticulatus During Acute Experimental Intoxication with Polychloropinene, Phenol, and   ...|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:53-66|1973|
8923|A||Miura,T., and R.M. Takahashi|Insect Developmental Inhibitors. 3. Effects on Nontarget Aquatic Organisms|J. Econ. Entomol.66(4): 917-922|1973|10.1093/jee/66.4.917
8924|A||Mommaerts-Billiet,F.|Growth and Toxicity Tests on the Marine Nanoplanktonic Alga Platymonas tetrathele G.S. West in the Presence of Crude Oil and Emulsifiers|Environ. Pollut.4(4): 261-282|1973|
8925|A||Montesano,R., A.J. Ingram, and P.N. Magee|Metabolism of Dimethylnitrosamine by Amphibians and Fish In Vitro|Experientia29(5):599-601|1973|10.1007/BF01926689
8926|A||Moore,S.A.J.|Impact of Pesticides on Phytoplankton in Everglades Estuaries|Ecol.Rep.No.DI-SFEP-74-15 / South Florida Environ.Project, Natl.Park Serv., Atlanta, GA:92 p.|1973|
8927|A||Morris,O.P., and G. Russell|Effect of Chelation on Toxicity of Copper|Mar. Pollut. Bull.4(10): 159-160|1973|10.1016/0025-326X(73)90256-7
8928|A||Sundaram,K.M.S., and J. Curry|Partitioning and Uptake of Permethrin by Stream Invertebrates and Periphyton|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(2): 219-239|1991|
8929|A||Moulton,T.P.|The Effects of Various Insecticides (Especially Thiodan and BHC) on Fish in the Paddy Fields of West Malaysia|Malays. Agric. J.49(2): 224-253|1973|
8930|A||Muscarella,A., and V. Galofaro|Anatomical Lesions in Some Fresh-Water Fish Caused By Paraquat. (Lesioni Anatomo-Patologiche Provocate Dal Paraquat Su Alcuni Pesci Di Acqua Dolce)|Nuova Vet.49(4): 211-221|1973|
8931|A||George,S.G., P.A. Hodgson, P. Tytler, and K. Todd|Inducibility of Metallothionein mRNA Expression and Cadmium Tolerance in Larvae of a Marine Teleost, the Turbot (Scophthalmus maximus)|Fundam. Appl. Toxicol.33(1): 91-99|1996|10.1006/faat.1996.0146
8932|A||Jagoe,C.H., A. Faivre, and M.C. Newman|Morphological and Morphometric Changes in the Gills of Mosquitofish (Gambusia holbrooki) After Exposure to Mercury (II)|Aquat. Toxicol.34(2): 163-183|1996|10.1016/0166-445X(95)00033-Z
8933|AT||Hanson,W.R.|Effects of Some Herbicides and Insecticides on Biota of North Dakota Marshes|J. Wildl. Manag.16(3): 299-308|1952|10.2307/3796642
8934|A||Narbonne,J.F., J.C. Murat, and A. Serfaty|Intoxication by Lead Nitrate in the Carp Cyprinus carpio Data on Modifications of Nucleo Protein and Glucidic Metabolism|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)167(3/4): 572-575|1973|
8935|A||Nikolov,N.N.|Experimental Mutagenesis in Unicellular Green Algae.  Communication I.  Mutagenic Effect of N-Nitrosomethyl Urethan and N-Nitrosoethyl Urethan|Genetika (Non-English)9(5): 622-626|1973|
8936|A||Nikolov,N.N.|Experimental Mutagenesis in Unicellular Green Algae. Communication II. Comparative Study of Mutagenic Effect of Some Compounds of the N-Nitrosoalkylu|Sov.Genet.Eng.Transl.9(6):751-753 / Genetika9(6): 107-110|1973|
8937|A||Nikolov,N.N.|Experimental Mutagenesis in Unicellular Green Algae.  Communication III.  Mutagenic Effect of Some N-Nitrosoalkyl Amines on Scenedesmus acutus|Sov. Genet. Cover-to-Cover Transl. Genetika9(7): 45-48|1973|
8938|A||O'Hara,J.|Cadmium Uptake by Fiddler Crabs Exposed to Temperature and Salinity Stress|J. Fish. Res. Board Can.30(6): 846-848|1973|10.1139/f73-143
8939|A||Lytle,J.S., T.F. Lytle, and W.W. Walker|Fatty Acid Composition of Muscle, Liver, Brain, and Viscera Lipids in Sheepshead Minnows (Cyprinodon variegatus) After Chronic Exposure to Tributyltin|J. Miss. Acad. Sci.37(1): 48-|1992|
8940|A||Wise,D.J., C.R. Weirich, and J.R. Tomasso|Toxicity of Ammonia to Red Drum Sciaenops ocellatus Fingerlings with Information on Uptake and Depuration|J. World Aquac. Soc.20(4): 188-192|1989|10.1111/j.1749-7345.1989.tb01001.x
8942|A||Olson,K.R., and P.O. Fromm|Mercury Uptake and Ion Distribution in Gills of Rainbow Trout (Salmo gairdneri): Tissue Scans with an Electron Microprobe|J. Fish. Res. Board Can.30(10): 1575-1578|1973|10.1139/f73-248
8943|A||Olson,L.E., and L.L. Marking|Toxicity of TFM (Lampricide) to Six Early Life Stages of Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.30(8): 1047-1052|1973|10.1139/f73-176
8945|A||Stroemgren,T.|Effect of Oil and Dispersants on the Growth of Mussels|Mar. Environ. Res.21(4):239-246|1987|10.1016/0141-1136(87)90048-1
8947|A||Fisher,W.S., and S.S. Foss|A Simple Test for Toxicity of Number 2 Fuel Oil and Oil Dispersants to Embryos of Grass Shrimp, Palaemonetes pugio|Mar. Pollut. Bull.26(7): 385-391|1993|10.1016/0025-326X(93)90186-N
8948|A||Parker,G.G.J.|Tests of Rhodamine Wt Dye for Toxicity to Oysters and Fish|J. Res. U. S. Geol. Surv.1(4): 499-|1973|
8949|A||Parry,G.D.R., and J. Hayward|The Uptake of 65Zn by Dunaliella tertiolecta Butcher|J. Mar. Biol. Assoc. U.K.53(4): 915-922|1973|10.1017/S0025315400022578
8950|A||Keklak,M.M., M.C. Newman, and M. Mulvey|Enhanced Uranium Tolerance of an Exposed Fish Population|Bull. S. C. Acad. Sci.54:81-|1992|
8952|A||Peterson,R.H.|Temperature Selection of Atlantic Salmon (Salmo salar) and Brook Trout (Salvelinus fontinalis) as Influenced by Various Chlorinated Hydrocarbons|J. Fish. Res. Board Can.30(8): 1091-1097|1973|10.1139/f73-179
8953|A||Josa,A., E. Espinosa, J.I. Cruz, L. Gil, M.V. Falceto, and R. Lozano|Use of 2-Phenoxyethanol as an Anaesthetic Agent in Goldfish (Cyprinus carpio)|Vet. Rec.131(20): 468-|1992|10.1136/vr.131.20.468
8954|A||Gilderhus,P.A., T.D. Bills, and D.A. Johnson|Methods for Detoxifying the Lampricide 3-Trifluoromethyl-4-Nitrophenol in a Stream|U.S.Fish Wildl.Serv.Resour.Publ.No.184, Natl.Fish.Res.Ctr., LaCrosse, WI:5 p.|1992|
8956|A||Polster,M.|On Problems of Toxicity of Heptachlor Residues|Scr. Med. Fac. Med. Univ. Brun. Purkynianae46(2): 71-77|1973|
8957|A|RUSSN|Popova,G.V.|Change in the Morphophysiological Indexes of Some Fish Caused by Stam F-34 (Propanid)|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )4:38-49|1973|
8959|A||Pritchard,J.B., A.M. Guarino, and W.B. Kinter|Distribution, Metabolism, and Excretion of DDT and Mirex by a Marine Teleost, the Winter Flounder|Environ. Health Perspect.4:45-54|1973|10.1289/ehp.730445
8960|AT||Barnhart,E.L., and G.R. Campbell|The Effect of Chlorination on Selected Organic Chemicals|EPA-12020-EXG, U.S.EPA, Washington, D.C.:105 p.|1972|
8961|A||Redmann,G.|Studies on the Toxicity of Mirex to the Estuarine Grass Shrimp, Palaemonetes pugio|Gulf Res. Rep.4(2): 272-277|1973|
8962|A||Hanazato,T., and M. Yasuno|Influence of Overwintering Daphnia on Spring Zooplankton Communities: An Experimental Study|Ecol. Res.4:323-338|1989|10.1007/BF02348452
8963|A||Das,B.K., and A. Kaviraj|Accumulation of Cadmium in Heteropneustes fossilis and Changes in Haematological Parameters|J. Nat. Conserv.2(1): 25-30|1990|
8965|A||Rice,C.P., and H.C. Sikka|Uptake and Metabolism of DDT by Six Species of Marine Algae|J. Agric. Food Chem.21(2): 148-152|1973|10.1021/jf60186a012
8968|A||Sangalang,G.B., and M.J. O'Halloran|Adverse Effects of Cadmium on Brook Trout Testis and on In Vitro Testicular Androgen Synthesis|Biol. Reprod.9(4): 394-403|1973|10.1093/biolreprod/9.4.394
8970|A||Semov,V., and D. Iosifov|Toxicity of Some Bulgarian Pesticides Studied with the Test Organism Daphnia magna|Tr. Nauchnoizsled. Inst. Vodosnabdyavane, Kanaliz. Sanit. Tekh.9(2): 159-167|1973|
8972|A||James,R., K. Sampath, and K.P. Ponmani|Effect of Metal Mixtures on Activity of Two Respiratory Enzymes and Their Recovery in Oreochromis mossambicus (Peters)|Indian J. Exp. Biol.30(6): 496-499|1992|
8973|A||Prasad,P.N., C.V.N. Prasad, H. Shanmukhappa, and B. Neelakantan|Comparative Toxicity of Three Detergents on the Juveniles of Banana Prawn Penaeus merguiensis (De Man)|Mahasagar22(3):131-134|1989|
8974|A||Shcherban,E.P.|Effect of Atrazine on Biological Parameters and Potential Productivity of Daphnia magna and Moina rectirostris|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )4:80-86|1973|
8975|A||Sherr,C.A., and K.B. Armitage|Preliminary Studies of the Effects of Dichromate Ion on Survival and Oxygen Consumption of Daphnia pulex (L.)|Crustaceana  (Leiden)25(1): 51-69|1973|10.1163/156854073X00489
8976|A||Shieh,Y.J., and J. Barber|Uptake of Mercury by Chlorella and Its Effect on Potassium Regulation|Planta (Multiple Languages)109(1): 49-60|1973|10.1007/BF00385452
8977|A||Shim,J.C., and L.S. Self|Toxicity of Agricultural Chemicals to Larvivorous Fish in Korean Rice Fields|Trop. Med.15(3): 123-130|1973|
8979|A||Shoshkov,D.|Studies on the Toxicity of Methyl and Ethyl Parathion to the Rainbow Trout|Nauchn.Tr., Vissh.Veterinarnomed.Inst.Sofia23:609-615|1973|
8980|A||Thomas,P., and M.J. Juedes|Altered Glutathione Status in Atlantic Croaker (Micropogonias undulatus) Tissues Exposed to Lead|Mar. Environ. Res.17(2-4): 192-195|1985|10.1016/0141-1136(85)90078-9
8981|A||Siegel,S.M., A. Eshleman, I. Umeno, N. Puerner, and C.W. Smith|The General and Comparative Biology of Toxic Metals and Their Derivatives: Mercury and Lead|In: D.R.Buhler (Ed.), Mercury in the Western Environment, Oregon State University, Corvallis, OR:119-134|1973|
8982|A||Sikka,H.C., S. Miyazaki, and C.P. Rice|Metabolism of Selected Pesticides by Marine Microorganisms|Rep.No.SURC-TR-73-520, Life Sci.Div., Syracuse Univ.Res.Corp., Syracuse, NY:16 p.|1973|
8983|A||Silbergeld,E.K.|Dieldrin. Effects of Chronic Sublethal Exposure on Adaptation to Thermal Stress in Freshwater Fish|Environ. Sci. Technol.7(9): 846-849|1973|10.1021/es60081a010
8984|A||Sills,J.B., J.L. Allen, P.D. Harman, and C.W. Luhning|Residue of Quinaldine in Ten Species of Fish Following Anesthesia with Quinaldine Sulfate|Invest.Fish Control No.50, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1973|
8986|A||Singh,P.K.|Effect of Pesticides on Blue-Green Algae|Arch. Mikrobiol.89(4): 317-320|1973|10.1007/BF00408898
8987|A||Rai,U.N., and P. Chandra|Accumulation of Copper, Lead, Manganese and Iron by Field Populations of Hydrodictyon reticulatum (Linn.) Lagerheim|Sci. Total Environ.116(3): 203-211|1992|10.1016/0048-9697(92)90449-3
8988|A||Bolognani Fantin,A.M., A. Franchini, P. Trevisan, and A. Pederzoli|Histomorphological and Cytochemical Changes Induced in the Liver of Goldfish Carassius carassius var. auratus by Short-Term Exposure to Lead|Acta Histochem.92(2): 228-235|1992|10.1016/S0065-1281(11)80086-3
8989|A||Smith,C.E., J.E. Holway, and G.L. Hammer|Sulphamerazine Toxicity in Cut-Throat Trout Broodfish Salmo clarki (Richardson)|J. Fish Biol.5(1): 97-101|1973|10.1111/j.1095-8649.1973.tb04434.x
8991|A||Stein,A., and E.C.,Jr. Keller|Gene and Growth Dynamics of Chlorella Under Continuous Culture During Phenol Stress|Proc. W. Va. Acad. Sci.45(2): 103-111|1973|
8992|A||Floore,T.G., C.B.,Jr. Rathburn, J.C. Dukes, B.W.,Jr. Clements, and A.H.,Jr. Boike|Control of Aedes taeniorhynchus and Culex quinquefasciatus Emergence with Sustained Release Altosid Sand Granules and Pellets in Saltwater and Freshwater Test Plots|Am. Mosq. Control Assoc. J.7(3): 405-408|1991|
8994|A||James,R., K. Sampath, and M. Narayanan|Effect of Sublethal Concentrations of Ammonia on Food Intake and Growth in Mystus vittatus|J. Environ. Biol.14(3): 243-248|1993|
8995|A||Sturm,R.N., and A.G. Payne|Environmental Testing of Trisodium Nitrilotriacetate: Bioassays for Aquatic Safety and Algal Stimulation|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor, MI:403-424|1973|
8996|A||Sun,L.T., and M.L. Gorman|The Toxicity to Fish of Herbicides Recommended for Weed Control in the Rewa|Fiji Agric. J.35(1): 31-33|1973|
8997|A||Jampani,C.S.R.|Detoxification of Pesticides Dimethoate and Thiometon by Green Alga|Environ. Ecol.7(2): 504-505|1989|
8998|A||Swedmark,M., A. Granmo, and S. Kollberg|Effects of Oil Dispersants and Oil Emulsions on Marine Animals|Water Res.7(11): 1649-1672|1973|10.1016/0043-1354(73)90134-6
8999|A||Symons,P.E.K.|Behavior of Young Atlantic Salmon (Salmo salar) Exposed to or Force-fed Fenitrothion, an Organophosphate Insecticide|J. Fish. Res. Board Can.30(5): 651-655|1973|10.1139/f73-113
9000|A||Taimi,K.I.|Uptake of Methylmercury by Fish|Vanderbilt Univ., Tech.Rep., Environ.Water Resour.Eng.Dep.32:80-133|1973|
9001|A||Taneeva,A.I.|Toxicity of Some Heavy Metals for Hydrobionts|In: V.N.Greze (Ed.), Proc. Mater. Vses. Simp. Izuch. Chern. Sredizemnogo Morei, IspolZ Okhr. Ikh. Resur. Kiev, USSR Ser. 4:114-117|1973|
9002|A||Tatem,H.E., and J.W. Anderson|The Toxicity of Four Oils to Palaemonetes pugio (Holthuis) in Relation to Uptake and Retention of Specific Petroleum Hydrocarbons|Am. Zool.13(4): 1307-1308|1973|
9003|A||Russom,C.L.|Aster Unpublished Algorithms, Mode of Action Equations and Mode of Action Text|Personal Communication, U. S. EPA, Environmental Research Laboratory, Duluth, MN:23 p.|1991|
9004|A||Tingle,L.E., W.A. Pavlat, and I.L. Cameron|Sublethal Cytotoxic Effects of Mercuric Chloride on the Ciliate Tetrahymena pyriformis|J.Protozool.20(2): 301-304|1973|10.1111/j.1550-7408.1973.tb00882.x
9005|A||Toutain,F.|Effects of a Paraffin Sulfonate Biodegradable Detergent on the Fish of the Family Cyprinidae|C. R. Congr. Natl. Soc. Savantes, Sect. Sci.96(3): 361-364|1973|
9006|A||Trask,T.|The Effect of Methylmercuric Chloride on the Larval Development of Cancer anthonyi Ranthbun (Decapoda, Brachyura) with a Description of the Internal and External Anatomy of the Larval Stages|Ph.D.Thesis, University of Southern California, Los Angeles, CA:90 p.|1973|
9007|A||Trzebiatowski,R.|Toxic Effect of Detergents Type DBS and TBS upon Fishes (Toksyczne Dzialanie na Ryby Detergentow Typu DBS and TBS)|Rocz. Nauk Roln. Ser. H Rybactwo.95(2): 83-94|1973|
9009|A||Lorio,W.J., J.H. Jenkins, and M.T. Huish|Deposition of Dieldrin in Four Components of Two Artificial Aquatic Systems and a Farm Pond|Trans. Am. Fish. Soc.105(6): 695-699|1976|10.1577/1548-8659(1976)105<695:DODIFC>2.0.CO;2
9010|A||Valentine,D.W., and M. Soule|Effect of p,p'-DDT on Developmental Stability of Pectoral Fin Rays in the Grunion, Leuresthes tenuis|Fish. Bull.71(4): 921-926|1973|
9011|A||Shaikh,Y.A., and P.K. Hiradhar|Histological Observation on Changes Induced in Some Tissues of the Edible Mudskipper, Boleophthalmus dussumieri Exposed to Sublethal Concentrations of Sodium Fluoride|J. Anim. Morphol. Physiol.34(1-2): 69-75|1987|
9012|A||Epifanio,C.E.|Effects of Dieldrin-Contaminated Food on the Development of Leptodius floridanus Larvae|Mar. Biol.13(4): 292-297|1972|10.1007/BF00348076
9013|A||Vince,S., and I. Valiela|The Effects of Ammonium and Phosphate Enrichments on Chlorophyll A, Pigment Ratio and Species Composition of Phytoplankton of Vineyard Sound|Mar. Biol.19(1): 69-73|1973|10.1007/BF00355422
9014|A|RUSSN|Volodin,V.M.|Effect of Phenol on Development of Fish Embryos|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR24:67-71|1973|
9015|A||Voronkin,A.S., and Y.T. Loshakov|Toxic Effect of Pesticides on Tubifex tubifex|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )5:169-178|1973|
9017|A||Dange,A.D., and V.B. Masurekar|Acute Toxicity of Petroleum Hydrocarbons to the Estuarine Fish Therapon jarbua (Forsskal) and the Estuarine Clam Katelysia opima (Gmelin)|Proc. Symp. Coastal Aquacult.3:828-832|1984|
9019|A||Warr,J.R., and D. Gibbons|Effect of Benzimidazole and Cobalt on Free Cystine Levels of Chlamydomonas Wild Type and Cell Division Mutant Strains|Exp. Cell Res.78(2): 454-456|1973|10.1016/0014-4827(73)90090-6
9020|A||Krajnovic-Ozretic,M., and B. Ozretic|Estimation of the Enzymes LDH, GOT and GPT in Plasma of Grey Mullet Mugil auratus and Their Significance in Liver intoxication|Dis. Aquat. Org.3(3): 187-193|1987|10.3354/dao003187
9022|A||Wilbur,R.L., and E.W. Whitney|Toxicity of the Herbicide Kuron (Silvex) to Bluegill Eggs and Fry|Trans. Am. Fish. Soc.102(3): 630-633|1973|10.1577/1548-8659(1973)102<630:TOTHKR>2.0.CO;2
9024|A||Wildish,D.J., and N.A. Lister|Biological Effects of Fenitrothion in the Diet of Brook Trout|Bull. Environ. Contam. Toxicol.10(6): 333-339|1973|10.1007/BF01720999
9025|A||Hannan,P.J., P.E. Wilkniss, C. Patouillet, and R.A. Carr|Measurements of Mercury Sorption by Algae|NRL Rep.No.7628, U.S.Navy, Washington, DC:28 p.|1973|
9026|A||Willomitzer,J., and Z. Lucky|The Molluscicide Action of Frescon and its Toxicity to Fishes. (Die Molluskozide Wirkung von Frescon und Seine Toxizitat auf Fische)|Helminthologia (Bratisl.)11:285-290|1970|
9027|A||Topcuoglu,S., and S.W. Fowler|Factors Affecting the Biokinetics of Technetium (95MTC) in Marine Macroalgae|Mar. Environ. Res.12(1): 25-43|1984|10.1016/0141-1136(84)90060-6
9028|A||Wells,M.R., and J.D. Yarbrough|In Vivo and In Vitro Retention of (14C) Aldrin and (14C) Dieldrin in Cellular Fractions from Brain and Liver Tissues of Insecticide-Resistant and|Toxicol. Appl. Pharmacol.24(2): 190-196|1973|10.1016/0041-008X(73)90139-7
9029|A||Toudal,K., and H.U. Riisgard|Acute and Sublethal Effects of Cadmium on Ingestion, Egg Production and Life-Cycle Development in the Copepod Acartia tonsa|Mar. Ecol. Prog. Ser.37(2-3):141-146|1987|10.3354/meps037141
9030|A||Yoshida,T., F. Takashima, and T. Watanabe|Distribution of [14C] PCBs in Carp|Ambio2(4): 111-113|1973|
9032|A||Zhukovskaya,N.M., S.A. Kovalev, V.A. Rekubratskii, E.N. Ryvkin, and A.E. Tarasov|Stimulation of Fish Development by Low Concentrations of Chemical Mutagens|In: A.S.Troshin (Ed.), Proc.1st Biokhim.Genet.Ryb, Mater.Vses.So.Veshch:104-109|1973|
9033|A||Zimakowska,D.|Effects of 2,4-D-Na of Various Concentrations on Respiration of an Aquatic Crustacean Asellus aquaticus L.|Pol. Arch. Hydrobiol.20(3): 469-473|1973|
9036|A||Fabacher,D.L., and H. Chambers|Rotenone Tolerance in Mosquitofish|Environ. Pollut.3(2): 139-141|1972|
9037|A||Arthur,J.W.|Chronic Effects of Linear Alkylate Sulfonate Detergent on Gammarus pseudolimnaeus, Campeloma decisum and Physa integra|Water Res.4(4): 251-257|1970|10.1016/0043-1354(70)90071-0
9038|A||Hashimoto,Y., and J.I. Fukami|Toxicity of Orally and Topically Applied Pesticide Ingredients to Carp, Cyprinus carpio Linne|Bochu-Kagaku34(2): 63-66|1969|
9040|A||Bellan,G., D.J. Reish, and J.P. Foret|The Sublethal Effects of a Detergent on the Reproduction, Development, and Settlement in the Polychaetous Annelid Capitella capitata|Mar. Biol.14(3): 183-188|1972|10.1007/BF00348278
9041|A|RUSSN|Belousov,Y.A.|Morphological Changes in Some Fish Organs During Poisoning|In: L.D.Voronova (Ed.), Vliyanie Pestits.Dikikh Zhivotn., Moscow, USSR, Tsent.Lab.Okhr.Prir:41-45|1972|
9042|A||Pillai,C.G.P., J.D. Weete, and D.E. Davis|Metabolism of Atrazine by Spartina alterniflora.  1.  Chloroform-Soluble Metabolites|J. Agric. Food Chem.25(4): 852-855|1977|10.1021/jf60212a010
9044|A||Betzer,S.B.|Copper Metabolism, Copper Toxicity, and a Review of the Function of Hemocyanin in Busycon canaliculatum (L.)|Ph.D.Thesis, University of Rhode Island, Kingston, RI:173 p.|1972|
9047|A||Bowes,G.W.|Uptake and Metabolism of 2,2-bis-(p-Chlorophenyl)-1,1,1-Trichloroethane (DDT) by Marine Phytoplankton and Its Effect on Growth and Chloroplast Electron Transport|Plant Physiol.49(2): 172-176|1972|10.1104/pp.49.2.172
9048|A||Braaten,B., A. Granmo, and R. Lange|Tissue-Swelling in Mytilus edulis L. Induced by Exposure to a Nonionic Surface Active Agent|Norw. J. Zool.20(2): 137-140|1972|
9050|A||Brockway,D.L.|The Uptake, Storage, and Release of Dieldrin and Some Effects of its Release in the Fish, Cichlasoma bimaculatum (Linnaeus)|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:104-|1972|
9052|A||Sharp,J.R.|The Effect of Salinity on Cadmium Toxicity and Fin Regeneration of Penfish, Lagodon rhomboides|Trans. Mo. Acad. Sci.22:136-|1988|
9053|A||Schlenk,D., and C.T. Moore|Distribution and Elimination of the Herbicide Propanil in the Channel Catfish (Ictalurus punctatus)|Xenobiotica23(9): 1017-1024|1993|10.3109/00498259309057040
9054|A||Christensen,G.M., J.M. McKim, W.A. Brungs, and E.P. Hunt|Changes in the Blood of the Brown Bullhead (Ictalurus nebulosus (Lesueur)) Following Short and Long Term Exposure to Copper (II)|Toxicol. Appl. Pharmacol.23(3): 417-427|1972|10.1016/0041-008X(72)90044-0
9055|A||Cohen,L.A.|Some Ultrastructural, Biochemical and Physiological Changes Induced by the Carcinogen 4-Nitroquinoline N-oxide in the Flagellate, Crithidia fasciculata|Ph.D.Thesis, The City University of New York, New York, NY:225 p.|1972|
9056|A||Cooley,N.R.,Jr.|Effect of Aroclor 1248, a Polychlorinated Biphenyl, on Growth of Populations of Tetrahymena pyriformis W (Ciliatea: Hymenostomatida:Hymenostomatidae)|ASB Bull.19(2): 61-62|1972|
9057|A||Nasu,Y., K. Hirabayashi, and M. Kugimoto|The Toxicity of Some Water Pollutants for Lemnaceae (Duckweed) Plant|Proc. ICMR Semin.8:485-491|1988|
9058|A||Soucek,D.J., and G.P. Noblet|Copper Toxicity to the Endoparasitic Trematode (Posthodiplostomum minimum) Relative to Physid Snail and Bluegill Sunfish Intermediate Hosts|Environ. Toxicol. Chem.17(12):2512-2516|1998|10.1002/etc.5620171219
9059|A||Costantini,F., and V. Andreoli|Herbicides and Fauna.  I.  Effects of Herbicides on the Embryonic and Post-Embryonic Development of Bufo vulgaris  (Erbicidi e Fauna. Nota I. Effetti Degli Erbicide Sullo Sviluppo Embrionale e Post Embrionale di Bufo vu|Ann. Fac. Agrar. Univ. Stud. Perugia (Multiple Languages)27:225-236|1972|
9060|A||Courtney,C.H., and J.K. Reed|Accumulation of DDT from Food and from Water by Golden Shiner Minnows, Notemigonus crysoleucas|Proc. Southeast. Assoc. Game Fish Comm.25:426-431|1971|
9061|A||Cunningham,P.A.|The Effects of Mercuric Acetate on Adult, Juvenile, and Larval Oysters Crassostrea virginica|Am. Zool.12(3): 29-|1972|
9062|A||Dandy,J.W.T.|Activity Response to Chlorine in the Brook Trout, Salvelinus fontinalis (Mitchill)|Can. J. Zool.50(4): 405-410|1972|10.1139/z72-057
9063|A||Grygierek,E., and B.E. Wasilewska|The Effect of Foschlor (Organic Phosphorous-Acid Esters) on Zooplankton and Benthos of Fish Ponds|Ekol. Pol.29(2): 257-270|1981|
9064|A||Calabrese,A., J.R. MacInnes, D.A. Nelson, and J.E. Miller|Survival and Growth of Bivalve Larvae Under Heavy-Metal Stress|Mar. Biol.41:179-184|1977|10.1007/BF00394024
9065|A||Davy,F.B., H. Kleerekoper, and P. Gensler|Effects of Exposure to Sublethal DDT on the Locomotor Behavior of the Goldfish (Carassius auratus)|J. Fish. Res. Board Can.29(9): 1333-1336|1972|10.1139/f72-202
9066|A||De Coursey,P.J., and W.B. Vernberg|Effect of Mercury on Survival. Metabolism and Behavior of Larval Uca pugilator (Brachyura)|Oikos23(2): 241-247|1972|
9067|A||Cockell,K.A.|Chronic Toxicity of Dietary Arsenic to Rainbow Trout, Oncorhynchus mykiss|Ph.D Thesis, Univ.of Guelph, Ontario, Canada:187 p.|1990|
9068|T||Naqvi,S.M., R.D. Howell, and M. Sholas|Cadmium and Lead Residues in Field-Collected Red Swamp Crayfish (Procambarus clarkii) and Uptake by Alligator Weed, Alternanthera philoxiroides|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(4): 473-485|1993|
9069|A||De Wolf,P., W.C. De Kock, and A. Stam|Field Experiments on the Influence of Copper and Mercury in a Natural Mussel Bed (Veldproeven over de Invloed Van Koper en Kwik op een Natuurlijke Mossel Bank)|TNO Nieuws27(9): 497-504|1972|
9071|A||Viarengo,A., S. Palmero, G. Zanicchi, R. Capelli, R. Vaissiere, and M. Orunesu|Role of Metallothioneins in Cu and Cd Accumulation and Elimination in the Gill and Digestive Gland Cells of Mytilus galloprovincialis Lam|Mar. Environ. Res.16(1): 23-36|1985|10.1016/0141-1136(85)90018-2
9078|A||Erickson,S.J.|Toxicity of Copper to Thalassiosira pseudonana in Unenriched Inshore Seawater|J. Phycol.8(4): 318-323|1972|10.1111/j.1529-8817.1972.tb04045.x
9079|A||Fabacher,D.L.|Tolerance to Botanical Insecticides and Investigations into Endrin Resistance in Mosquitofish (Gambusia affinis) Baird and Girard|Ph.D. Thesis, Mississippi State University, Starkville, MS:24 p.|1972|
9081|A||Helder,T., and W. Seinen|Standardization and Application of an E.L.S.- Bioassay for PCDDs and PCDFs|Chemosphere14(2): 183-193|1985|10.1016/0045-6535(85)90097-9
9082|A||Filip,D.S., and R.I. Lynn|Mercury Accumulation by the Freshwater Alga Selenastrum capricornutum|Chemosphere1(6): 251-254|1972|10.1016/0045-6535(72)90028-8
9083|A||Van Dolah,F.M., T.C. Siewicki, G.W. Collins, and J.S. Logan|Effects of Environmental Parameters on the Elimination of Cadmium by Eastern Oysters, Crassostrea virginica|Arch. Environ. Contam. Toxicol.16(6): 733-743|1987|10.1007/BF01055424
9084|A||Derr,S.K., and M.J. Zabik|Biologically Active Compounds in the Aquatic Environment: The Uptake and Distribution of [1,1-Dichloro-2,2-Bis(P-Chlorophenyl)Ethylene], DDE|Trans. Am. Fish. Soc.101(2): 323-329|1972|10.1577/1548-8659(1972)101<323:BACITA>2.0.CO;2
9085|A||Fujita,M., and K. Hashizume|The Accumulation of Mercury by Freshwater Planktonic Diatom|Chemosphere1(5): 203-207|1972|10.1016/0045-6535(72)90039-2
9087|A||Gibson,C.E.|The Algicidal Effect of Copper on a Green and a Blue-Green Alga and Some Ecological Implications|J. Appl. Ecol.9(2): 513-518|1972|10.2307/2402449
9088|A||Gibson,H.R., and D.W. Chapman|Effects of Zectran Insecticide on Aquatic Organisms in Bear Valley Creek, Idaho|Trans. Am. Fish. Soc.101(2): 330-344|1972|10.1577/1548-8659(1972)101<330:EOZIOA>2.0.CO;2
9090|A||Granmo,A.|Development and Growth of Eggs and Larvae of Mytilus edulis Exposed to a Linear Dodecylbenzene-Sulphonate, LAS|Mar. Biol.15(4): 356-358|1972|10.1007/BF00401396
9093|A||Grzenda,A.R., W.J. Taylor, and D.F. Paris|The Elimination and Turnover of 14C-Dieldrin by Different Goldfish Tissues|Trans. Am. Fish. Soc.101(4): 686-690|1972|10.1577/1548-8659(1972)101<686:TEATOC>2.0.CO;2
9095|A||Hannan,P.J., and C. Patouillet|Effects of Pollutants on Growth of Algae|Rep.NRL (Nav.Res.Lab.) Prog.:8 p.|1972|
9096|A||Hansen,D.J.|DDT and Malathion: Effect on Salinity Selection by Mosquitofish|Trans. Am. Fish. Soc.101(2): 346-350|1972|10.1577/1548-8659(1972)101<346:DAM>2.0.CO;2
9097|A||Haring,G.E., and E.B. Nemanic|A Study of the Rate of Absorption of Methylated Mercury by Carassius auratus|Proc. Indiana Acad. Sci81:271-273|1971|
9098|A||Hattula,M.L., and O. Karlog|Toxicity of Polychlorinated Biphenyls (PCB) to Goldfish|Acta Pharmacol. Toxicol.31(3): 238-240|1972|10.1111/j.1600-0773.1972.tb00718.x
9099|A||Weis,J.S., and J. Perlmutter|Burrowing Behavior by the Fiddler Crab Uca pugilator: Inhibition by the Insecticide Diflubenzuron|Mar. Ecol. Prog. Ser.38(2): 109-113|1987|10.3354/meps038109
9100|A||Eisler,R., G.E. Zaroogian, and R.J. Hennekey|Cadmium Uptake by Marine Organisms|J. Fish. Res. Board Can.29(9): 1367-1369|1972|10.1139/f72-212
9101|A||Biddinger,G.R.|Effects of Sodium Arsenite on the Growth, Development and Reproduction of the Japanese Medaka, Oryzias latipes|Ph.D.Thesis, Indiana State University, Terre Haute, IN:71 p.|1981|
9102|A||Holmberg,B., S. Jensen, A. Larsson, K. Lewander, and M. Olsson|Metabolic Effects of Technical Pentachlorophenol (PCP) on the Eel Anguilla anguilla L.|Comp. Biochem. Physiol. B Comp. Biochem.43(1): 171-183|1972|10.1016/0305-0491(72)90214-3
9103|A||Morison,R.|The Acute Sublethal Effects of the Pesticides Carbaryl and Malathion on Partial Ethograms of the Yellow Bullhead (Ictalurus natalis (Lesueur))|Ph.D.Thesis, University of Tennessee, Knoxville, TN:435 p.|1984|
9104|A||Johansson,N., A. Larsson, and K. Lewander|Metabolic Effects of PCB (Polychlorinated Biphenyls) on the Brown Trout (Salmo trutta)|Comp. Gen. Pharmacol.3(11): 310-314|1972|10.1016/0010-4035(72)90009-2
9105|A||Jonsson,B.G.|Effects of Thalidomide on the Embryonic Development of the Axolotl (Ambystoma mexicanum)|Acta Pharmacol. Toxicol.31(1-2): 27-32|1972|10.1111/j.1600-0773.1972.tb00693.x
9106|A||Kaim-Malka,R.A.|Action of Nonionic Detergents on the Valviferous Isopod Idotea balthica basteri In Vitro 1827|Tethys (Cornella de Llobregat) (Multiple Languages)4(1): 51-61|1972|
9108|A||Khanna,S.S., and K. Rekhari|Changes in the Blood Glucose and Histology of the Pancreatic Islets of Heteropneustes fossilis (Bl.) After Treatment with Alloxan|Acta Anat.82(4): 619-632|1972|10.1159/000143837
9109|A||Califano,R.J.|Accumulation and Tissue Distribtuion of Polychlorinated Biphenyls (PCBs) in Early Life Stages of the Striped Bass, Morone saxatilis|Ph.D.Thesis, New York University, New York, NY:163 p.|1981|
9110|A||Kinter,W.B., L.S. Merkens, R.H. Janicki, and A.M. Guarino|Studies on the Mechanism of Toxicity of DDT and Polychlorinated Biphenyls (PCBs): Disruption of Osmoregulation in Marine Fish|Environ. Health Perspect.1:169-173|1972|
9112|A||Kleerekoper,H., G.F. Westlake, J.H. Matis, and P.J. Gensler|Orientation of Goldfish (Carassius auratus) in Response to a Shallow Gradient of a Sublethal Concentration of Copper in an Open Field; An Analysis of the Orientation of Goldfish (Carassius auratus) in Response to a Shal|J. Fish. Res. Board Can.29(1): 45-54|1971|10.1139/f72-006
9113|A|OECDG|Knauf,W., and E.F. Schulze|Long Range Effect of Sublethal Amounts of the Herbicides Linuron and Monolinuron on some Representative Water Fauna and Flora|Schriftenr. Ver. Wasser Boden Lufthyg.37:231-239|1972|
9114|A||Kok,L.T.|Toxicity of Insecticides Used for Asiatic Rice Borer Control to Tropical Fish in Rice Paddies|In: The Careless Technol.: Conf.on the Ecological Aspects of Int.Development:489-498|1972|
9115|A||Komarovskii,F.Y.|Experimental Study of Toxicity of the Complex Preparation Monurox for Fish Under Chronic Experimental Conditions|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )3:17-24|1972|
9117|A||Alikhan,M.A., G. Bagatto, and S. Zia|"The Crayfish as a ""Biological Indicator"" of Aquatic Contamination by Heavy Metals"|Water Res.24(9): 1069-1076|1990|10.1016/0043-1354(90)90168-6
9119|A||Lee,R.F., R. Sauerheber, and A.A. Benson|Petroleum Hydrocarbons:  Uptake and Discharge by the Marine Mussel Mytilus edulis|Science177(4046): 344-346|1972|10.1126/science.177.4046.344
9120|A||White,S.L., and P.S. Rainbow|Regulation and Accumulation of Copper, Zinc and Cadmium by the Shrimp Palaemon elegans|Mar. Ecol. Prog. Ser.8(1): 95-101|1982|10.3354/meps008095
9121|A||Lenicque,P.M., M.R. Paris, and M. Poulot|Effects of Some Components of Cannabis sativa on the Regenerating Planarian Worm Dugesia tigrina|Experientia28(11): 1399-1400|1972|10.1007/BF01965371
9122|A||Lewis,A.G., P.H. Whitfield, and A. Ramnarine|Some Particulate and Soluble Agents Affecting the Relationship Between Metal Toxicity and Organism Survival in the Calanoid Copepod Euchaeta japonica|Mar. Biol.17(3): 215-221|1972|10.1007/BF00366296
9123|A||Collier,T.K., and U. Varanasi|Hepatic Activities of Xenobiotic Metabolizing Enzymes and Biliary Levels of Xenobiotics in English Sole (Parophrys vetulus) Exposed to Environmental|Arch. Environ. Contam. Toxicol.20(4): 462-473|1991|10.1007/BF01065834
9124|A||Logan,J.W.M., and E.J. Perkins|Toxicity of Essolvene|Mar. Pollut. Bull.3(10): 155-157|1972|10.1016/0025-326X(72)90359-1
9125|A||Lysak,A., and J. Marcinek|Multiple Toxic Effect of Simultaneous Action of Some Chemical Substances on Fish|Rocz. Nauk Roln. Ser. H Rybactwo.94(3): 53-63|1972|
9126|A||MacFarlane,R.B., W.A. Glooschenko, and R.C. Hariss|The Interaction of Light Intensity and DDT Concentration upon the Marine Diatom, Nitzschia delicatissima Cleve|Hydrobiologia (Multiple Languages)39(3): 373-382|1972|10.1007/BF00046651
9127|A||Albergoni,V., E. Piccinni, and O. Coppellotti|Response to Heavy Metals in Organisms - I. Excretion and Accumulation of Physiological and Non Physiological Metals in Euglena gracilis|Comp. Biochem. Physiol. C Comp. Pharmacol.67(2): 121-127|1980|10.1016/0306-4492(80)90006-4
9128|A||Marking,L.L.|Salicylanilide I, an Effective Non-Persistent Candidate Piscicide|Trans. Am. Fish. Soc.101(3): 526-533|1972|10.1577/1548-8659(1972)101<526:SIAENC>2.0.CO;2
9129|A||Marking,L.L., E.L. King, C.R. Walker, and J.H. Howell|Toxicity of 33NCS (3'-Chloro-3-Nitrosalicylanilide) to Freshwater Fish and Sea Lamprey|Invest.Fish Control No.38, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:16 p.|1970|
9130|A||Marking,L.L., and W.A. Willford|Comparative Toxicity of 29 Nitrosalicylanilides and Related Compounds to Eight Species of Fish|Invest.Fish Control No.37, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:11 p.|1970|
9131|A||Matei,V.E., and A.L. Polenov|Effect of Hypertonic Medium and Phenol Intoxication on the Hypothalamohypophyseal Neurosecretory System of the Teleost Fish Lebistes reticulatus|Zh. Evol. Biokhim. Fiziol.8(4): 388-394|1972|
9132|A||Matlak,O.|Sodium Salt (2,4-D) Related to Embryo and Larval Development to Carp|Pol. Arch. Hydrobiol.19(4): 437-449|1972|
9133|A||Zarnescu,O., V. Manolache, and C. Tesio|Effects of Mercuric Chloride Exposure in the Foot of Anodonta piscinalis (Nilsson). Histopathological and Histochemical Features|Rev. Roumaine Biol. Ser. Biol. Anim.41(1): 35-44|1996|
9134|A||Kleinow,K.M., B.F. Droy, D.R. Buhler, and D.E. Williams|Interaction of Carbon Tetrachloride with beta-Naphthoflavone-Mediated Cytochrome P450 Induction in Winter Flounder (Pseudopleuronectes americanus)|Toxicol. Appl. Pharmacol.104(2): 367-374|1990|10.1016/0041-008X(90)90309-I
9135|A||Mayer,F.L.J., J.C. Street, and J.M. Neuhold|DDT intoxication in Rainbow Trout As Affected by Dieldrin|Toxicol. Appl. Pharmacol.22(3): 347-354|1972|10.1016/0041-008X(72)90240-2
9138|A||McKeown,B.A.|Effect of 2-Br-alpha-Ergocryptine on Fresh Water Survival in the Teleosts, Xiphophorus hellerii and Poecilia latipinna|Experientia28(6): 675-676|1972|10.1007/BF01944972
9139|A||McManus,D.A., and D.W. Connell|Toxicity of the Oil Dispersant, Corexit 7664, to Certain Australian Marine Animals|Search3(6): 222-224|1972|
9140|A||Mehrle,P.M., and M.E. Declue|Phenylalanine Metabolism Altered by Dietary Dieldrin|Nature238(5365): 462-463|1972|10.1038/238462a0
9142|A||Mellinger,P.J.|The Comparative Metabolism of Cadmium, Mercury and Zinc as Environmental Contaminants in the Freshwater Mussel, Margaritifera margaritifera|Ph.D.Thesis, Oregon State University, Corvallis, OR:120 p.|1972|
9145|A||Mills,E.R., and D.D.,Jr. Culley|Toxicity of Various Off-Shore Crude Oils and Dispersants to Marine and Estuarine Shrimp|Proc. Southeast. Assoc. Game Fish Comm.25:642-650|1972|
9146|AT||Schauerte,W., J.P. Lay, W. Klein, and F. Korte|Long-Term Fate of Organochlorine Xenobiotics in Aquatic Ecosystems. Distribution, Residual Behavior, and Metabolism of Hexachlorobenzene|Ecotoxicol. Environ. Saf.6:560-569|1982|10.1016/0147-6513(82)90037-9
9147|A||Wright,D.A., and C.D. Zamuda|Copper Accumulation by Two Bivalve Molluscs:  Salinity Effect is Independent of Cupric Ion Activity|Mar. Environ. Res.23(1): 1-14|1987|10.1016/0141-1136(87)90013-4
9148|A||Lanari,D., G. Lang, and R. Ballestrazzi|Toxic Effects of Malachite Green on Some Biochemical Parameters in Rainbow Trout (Oncorhynchus mykiss, Walbaum)|Riv. Ital. Acquacolt.31:59-74|1996|
9149|A||Nagabhushanam,R., and A.D. Diwan|Effect of Toxic Substances on Oxygen Consumption of the Freshwater Crab, Barytelphusa cunicularis (Westwood)|Marathwada Univ. J. Sci.11:127-129|1972|
9151|A||Necas,J.|Comparison of N-Ethyl-N-Nitrosourea Effects in Three Strains of Chlorococcal Algae|Biol. Plant. (Praha)14(5): 356-363|1972|10.1007/BF02933188
9152|A||Necas,J.|Effects of N-Ethyl-N-Nitrosourea on Populations of Chlorella Cells|Mutat. Res.16(3): 265-278|1972|10.1016/0027-5107(72)90157-1
9153|A||Heinis,L.J., and M.L. Knuth|The Mixing, Distribution and Persistence of Esfenvalerate Within Littoral Enclosures|Environ. Toxicol. Chem.11(1): 11-25|1992|10.1002/etc.5620110103
9154|A||Nelson,V.A.|Effects of Ionizing Radiation and Temperature on the Larvae of the Pacific Oyster, Crassostrea gigas|Proc.Third Natl.Symp.on Radioecology, Rep.No.Conf-710501-10:24 p.|1971|
9155|A||Niemi,A.|Effects of Toxicants on Brackish-Water Phytoplankton Assimilation|Commentat.Biol.Soc.Sci.Fenn.55:22 p.|1972|
9156|A||Nimmo,D.R., and R.R. Blackman|Effects of DDT on Cations in the Hepatopancreas of Penaeid Shrimp|Trans. Am. Fish. Soc.101(3): 547-549|1972|10.1577/1548-8659(1972)101<547:EODOCI>2.0.CO;2
9157|A||Brazner,J.C., and E.R. Kline|Effects of Chlorpyrifos on the Diet and Growth of Larval Fathead Minnows, Pimephales promelas, in Littoral Enclosures|Can. J. Fish. Aquat. Sci.47:1157-1165|1990|10.1139/f90-135
9158|A||Nishiuchi,Y., and K. Yoshida|The Effects of Several Pesticides on Fresh Water Snails|TR 77-336, Translated for EPA by Leo Kanner Associates, Redwood, CA(13 p.): |1972|
9159|A||Davis,D.E.|Effects of Herbicides on Submerged Seed Plants|Completion Rep.Project A-067-ALA, Office of Water Res.and Technol., Washington, DC:19 p.|1980|
9160|A||Nuzzi,R.|Toxicity of Mercury to Phytoplankton|Nature237(5349): 38-40|1972|10.1038/237038a0
9162|A||Crossland,N.O., and K.E. Elgar|Fate and Biological Effects of Insecticides in Ponds|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:551-556|1983|
9163|A||Smith,L.L., and D.M. Oseid|Effects of Hydrogen Sulfide on Fish Eggs and Fry|Water Res.6(6): 711-720|1972|10.1016/0043-1354(72)90186-8
9164|A||Oseid,D., and L.L.,Jr. Smith|Swimming Endurance and Resistance to Copper and Malathion of Bluegills Treated by Long-Term Exposure to Sublethal Levels of Hydrogen Sulfide|Trans. Am. Fish. Soc.101(4): 620-625|1972|10.1577/1548-8659(1972)101<620:SEARTC>2.0.CO;2
9165|A||Owen,P.H.|The Uptake of DDT and Metabolism by a Marine Alga|M.A.Thesis, California State University, Long Beach, CA:80 p.|1972|
9167|A||Vives-Rego,J., J. Martinez, and A. Calleja|Aquatic Toxicity of Linear and Branched Alkyl Benzene Sulphonates Assessed by Mortality of Naturally Occuring Bacteria, Daphnia and Microtox Test|Tenside Surfactants Deterg.28:31-34|1991|10.1515/tsd-1991-280112
9168|A||Roy,P.K., and J.S.D. Munshi|Malathion Induced Structural Morphometric Changes of Gills of a Fresh Water Major Carp, Cirrhinus mrigala (Ham.)|J. Environ. Biol.12(1): 79-87|1991|
9169|A||Peterson,J.L.|Biology and Drift of Aquatic Insects in Seasonal Irrigation Waters and Their Susceptibility to ULV Malathion|Ph.D. Thesis, University of Nebraska, Lincoln, NE:69 p.|1972|
9170|A|OECDF|Plusquellec,A., and Y. Le Gal|Mutagenic Effect of N-Methyl-N'-nitro-N-nitrosoguanidine During the Chlamydomonas reinhardi Cell Cycle|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)166(4-5): 538-541|1972|
9172|A|RUSSN|Popova,G.V.|Chronic Action of Propanide on Fish in a Body of Water|Vliyamie Pestits, Dikikh. Zhivotn.:27-34|1972|
9173|A|RUSSN|Popova,G.V.|Pathomorphological Changes in Erythrocytes in Fish During Chronic Diuron Poisoning|Vliyamie Pestits, Dikikh. Zhivotn.:12-18|1972|
9174|A||Bengtsson,B.E., and A. Larsson|Hyperactivity and Changed Diurnal Activity in Flounders, Platichthys flesus, Exposed to DDT|Mar. Pollut. Bull.12(3): 100-102|1981|10.1016/0025-326X(81)90201-0
9175|A|RUSSN|Pushkar,I.G.|Effect of the Herbicide Propanide on Plankton Organisms in a Closed Body of Water|In: L.D.Voronova (Ed.), Vliyanie Pestits.Dikikh Zhivotn., Moscow, USSR, Tsent.Lab.Okhr.Prir:24-26|1972|
9176|A||Ranke-Rybicka,B.|Badabua Bad Przezywalnoscia Kijanek Rana temporaria L. Poddawanych Okresowemu Dzialaniu Pestycydow Fosforoorganicznych (Foschlor, Malation)|Rocz. Panstw. Zakl. Hig. (Multiple Languages)23(3): 371-377|1972|
9177|A||Ranke-Rybicka,B., and J. Stanislawska|Changes in Periphyton Organisms Caused by Organophosphorus Pesticides (Malathion, Phoschlor)|Rocz. Panstw. Zakl. Hig. (Multiple Languages)23(2): 137-146|1972|
9179|A||Roberts,D.|The Assimilation and Chronic Effects of Sub-lethal Concentrations of Endosulfan on Condition and Spawning in the Common Mussel Mytilus edulis|Mar. Biol.16(2): 119-125|1972|10.1007/BF00347949
9180|A||Gale,N.L., B.G. Wixson, and M. Erten|An Evaluation of the Acute Toxicity of Lead, Zinc, and Cadmium in Missouri Ozark Groundwater|Trace Subst. Environ. Health25:169-183|1992|
9181|A||Best,B.R.|Effects of Chlorine-Induced Oxidants on Selected Inshore Oganisms Around Guam|Micronesica37(4): 287-|1991|
9182|A||Sakaguchi,H.|On the Effects of Agricultural Chemicals upon Fish. I. Changes of Chemical Components in Serum and Liver of Carp Exposed to Organophosphate Compounds|Nippon Suisan Gakkaishi (Multiple Languages)38(6): 555-560|1972|10.2331/suisan.38.555
9183|A||Sangalang,G.B., and M.J. O'Halloran|Cadmium-Induced Testicular Injury and Alteration of Androgen Synthesis in Brook Trout|Nature240(5382): 470-471|1972|10.1038/240470a0
9184|A||Worthley,E.G., and C.D. Schott|The Comparative Effects of CS and Various Pollutants on Fresh Water Phytoplankton Colonies of Wolffia papulifera Thompson|Edgewater Arsenal Tech.Rep.EATR 4595:29 p.|1972|
9185|A||Schulz,D.|Proliferative Endocarditis in the Heart of Carps After Exposure to the Herbicide Karmex|Zentbl. Vetmed. Reihe A19(5): 390-406|1972|10.1111/j.1439-0442.1972.tb00491.x
9187|A||Schulz-Baldes,M.|Toxicity and Accumulation of Lead in the Common Mussel Mytilus edulis in Laboratory Experiment|Mar. Biol.16(3): 226-229|1972|10.1007/BF00346945
9188|A||Sestokas,J., and J. Cukerzis|Effect of Chemical Preparations on the Crayfish Astacus astacus and Astacus leptodactylus|Liet. TSR Mokslu Akad. Darb. Ser. C Biol. Mokslai (Non-English)Ser.C(4): 119-124|1972|
9190|A|RUSSN|Shcherbakov,Y.A., and N.G. Chemova|Pathomorphological Changes in Parenchymatous Organs of Fish Under the Effect of the Butyl Ester of 2,4 D of Different Concentrations|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )3:10-16|1972|
9192|A||Shcherban,E.P.|Effect of Diuron on Individual Bioparameters and Potential Productivity of Scapholeberis mucronata|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )3:71-79|1972|
9193|A||Shcherban,E.P.|Effect of Low Concentrations of Atrazine and Diuron on the Productivity of Cladocera|Hydrobiol. J.8(2): 54-58|1972|
9194|A||Shmal'gauzen,O.I.|Influence of Phenol Ion Prelarval Development of Sturgeons. I. External Structure and Behavior|Sov. J. Dev. Biol.2(6): 481-487|1971|
9195|A||Sielicki,M.|The Effects of Selenium on the Ultrastructure and Physiological Properties of the Blue-Green Alga Phormidium luridum var. olivacea|Rep.No.OWRT-1-025-OHIO(2), M.S.Thesis, Univ.of Toledo, Toledo, OH, Off.Water Res.Technol., Washington, DC:156 p.|1972|
9196|A||Bazin,C., P. Chambon, M. Bonnefille, and G. Larbaigt|Compared Sensitivity of Luminescent Marine Bacteria (Photobacterium phosphoreum) and Daphnia Bioassays (Comparaison des Sensibilites du Test de Luminescence Bacerienne (Photobacterium phosphoreum) et du Test Daphnie (Da|Rev. Fr. Sci. Eau6:403-413|1987|
9197|A||Skidmore,J.F., and P.W.A. Tovell|Toxic Effects of Zinc Sulphate on the Gills of Rainbow Trout|Water Res.6(3): 217-230|1972|10.1016/0043-1354(72)90001-2
9198|A||Sparks,R.E., W.T. Waller, and J.,Jr. Cairns|Effect of Shelters on the Resistance of Dominant and Submissive Bluegills (Lepomis macrochirus) to a Lethal Concentration of Zinc|J. Fish. Res. Board Can.29(9): 1356-1358|1972|10.1139/f72-208
9199|A||Springer,M.|Effect of Triethylenemelamine (TEM) on the Retinal Development of the Newt (Triturus alpestris). Electron Microscope Study|Wilhelm Roux' Arch. Entwicklungsmech. Org.170(2): 90-114|1972|10.1007/BF00577011
9200|A||Reddy,S.L.N., and N.B.R. Venugopal|Effect of Cadmium on Acetylcholinesterase Activity and Oxygen Consumption in a Freshwater Field Crab, Barytelphusa guerini|J. Environ. Biol.14(3): 203-210|1993|
9203|A||Timms,A.M., H. Kleerekoper, and J. Matis|Locomotor Response of Goldfish, Channel Catfish, and Largemouth Bass to a 'Copper-Polluted' Mass of Water in an Open Field|Water Resour. Res.8(6): 1574-1580|1972|10.1029/WR008i006p01574
9204|A||Timourian,H., and G. Watchmaker|Nickel Uptake by Sea Urchin Embryos and Their Subsequent Development|J. Exp. Zool.182(3): 379-387|1972|10.1002/jez.1401820309
9205|A||Suzuki,Y., R. Nakamura, and T. Ueda|Accumulation of Strontium and Calcium in Freshwater Fishes of Japan|J. Radiat. Res.13(4): 199-207|1972|10.1269/jrr.13.199
9206|A||Venkataraman,G.S., and B. Rajyalakshmi|Relative Tolerance of Nitrogen-Fixing Blue-Green Algae to Pesticides|Indian J. Agric. Sci.42(2): 119-121|1972|
9207|A||Berg,A., and N. Verheyden|Physiological Effect of Sublethal Doses of Metallic Pollutants and Detergents on Fish in Soft Water: Modification of Calcium Exchange|In: International Symposium on Radioecology Applied to the Protection of Man and his Environment. Rome, Italy:759-771|1972|
9208|A||Vernberg,W.B., and J. O'Hara|Temperature-Salinity Stress and Mercury Uptake in the Fiddler Crab, Uca pugilator|J. Fish. Res. Board Can.29(10): 1491-1494|1972|10.1139/f72-232
9209|A||Vernberg,W.B., and J. Vernberg|The Synergistic Effects of Temperature, Salinity, and Mercury on Survival and Metabolism of the Adult Fiddler Crab, Uca pugilator|Fish. Bull.70(2): 415-420|1972|
9210|A||Vink,G.J.|Fish-Toxicological Investigations with Copper (Vis-Toxicologisch Onderzoek met Koper)|TNO Nieuws27(9): 487-492|1972|
9211|A||Walsh,G.E.|Effects of Herbicides on Photosynthesis and Growth of Marine Unicellular Algae|Hyacinth Control J.10:45-48|1972|
9212|A||Van Weers,A.W.|Zinc and Cobalt Uptake by the Brown Seaweed Fucus spiralis (L.)|In: International Symposium on Radioecology Applied to the Protection of Man and his Environment. Rome, Italy4800:1357-1367|1972|
9213|A||Wells,M.R., and J.D. Yarbrough|Retention of 14-C-DDT in Cellular Fractions of Vertebrate Insecticide-Resistant and Susceptible Fish|Toxicol. Appl. Pharmacol.22(3): 409-414|1972|10.1016/0041-008X(72)90246-3
9214|A||Welsh,M.J., and C.W. Hanselka|Toxicity and Sublethal Effects of Methyl Parathion on Behavior of Siamese Fighting Fish (Betta splendens)|Texas J. Sci.23(4): 519-529|1972|
9215|A||Koppar,B.J., R.S. Kulkarni, and S.A.T. Venkatachari|Application of Static Bioassay Procedure in Determining the Comparative Relative Toxicity of Pesticide Methyl Parathion on Two Freshwater Mussels|J. Environ. Biol.14(3): 183-193|1993|
9216|A||Whitton,B.A.|Toxicity of Zinc, Copper and Lead to Chlorophyta from Flowing Waters|Arch. Microbiol.72:353-360|1970|
9217|A||Wildish,D.J.|Polychlorinated Biphenyls (PCB) in the Sea Water and Their Effect on Reproduction of Gammarus oceanicus|Bull. Environ. Contam. Toxicol.7(2-3): 182-187|1972|10.1007/BF01684810
9218|A||Wright,S.J.L.|The Effect of Some Herbicides on the Growth of Chlorella pyrenoidosa|Chemosphere1(1): 11-14|1972|10.1016/0045-6535(72)90005-7
9220|A||Wells,M.R., and J.D. Yarbrough|Vertebrate Insecticide Resistance: In Vivo and In Vitro Endrin Binding to Cellular Fractions from Brain and Liver Tissues of Gambusia|J. Agric. Food Chem.20(1): 14-16|1972|10.1021/jf60179a031
9221|A||Egloff,D.A., and R. Partridge|Resistance to DDT of a Freshwater Alga|Ohio J. Sci.72(1): 6-10|1972|
9223|A||Skaare,J.U., E.G. Jensen, A. Goksoyr, and E. Egaas|Response of Xenobiotic Metabolizing Enzymes of Rainbow Trout (Oncorhynchus mykiss) to the Mono-ortho Substituted Polychlorinated PCB Congener 2,3',4,4',5-Pentachlorobiphenyl, PCB-118, Detected by Enzyme Activities and I|Arch. Environ. Contam. Toxicol.20(3): 349-352|1991|10.1007/BF01064401
9224|A||Derr,S.K., and M.J. Zabik|Biologically Active Compounds in the Aquatic Environment: The Effect of DDE on the Egg Viability of Chironomus tentans|Bull. Environ. Contam. Toxicol.7(6): 366-368|1972|10.1007/BF01684461
9225|A||Sastry,K.V., and V. Shukla|Uptake and Distribution of Cadmium in Tissues of Channa punctatus|J. Environ. Biol.14(2): 137-142|1993|
9226|A||Alam,M.N., and M. Shafi|Toxicity of Two Agricultural Chemicals Metacid 50 and Ekalux EC 25 to Tadpoles of Rana tigrina|Environ. Ecol.9(4): 870-872|1991|
9227|A||Wallace,J.B., A.D. Huryn, and G.J. Lugthart|Colonization of a Headwater Stream During Three Years of Seasonal Insecticidal Applications|Hydrobiologia (Multiple Languages)211(1): 65-76|1991|10.1007/BF00008618
9228|A||Xu,Q., and D. Pascoe|The Bioconcentration of Zinc by Gammarus pulex (L.) and the Application of a Kinetic Model to Determine Bioconcentration Factors|Water Res.27(11): 1683-1688|1993|10.1016/0043-1354(93)90132-2
9229|A||Nonnotte,L., F. Boitel, and J.P. Truchot|Waterborne Copper Causes Gill Damage and Hemolymph Hypoxia in the Shore Crab Carcinus maenas|Can. J. Zool.71(8): 1569-1576|1993|10.1139/z93-222
9231|A||Engel,R.H., M.J. Neat, and R.E. Hillman|Sublethal Chronic Effects of DDT and Lindane on Glycolytic and Gluconeogenic Enzymes of the Quahog, Mercenaria mercenaria|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Rome, Italy; Fishing News (Books) Ltd., London, England:257-260|1972|
9232|A||Ernst,W.|Accumulation and Metabolism of DDT-14C (Dichlorodiphenyl-Trichloro-Ethane) in Marine Organisms|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Rome, Italy; Fishing News (Books) Ltd., London, England:260-262|1972|
9233|A||Ornes,W.H., and K.S. Sajwan|Cadmium Accumulation and Bioavailability in Coontail (Ceratophyllum demersum L.) Plants|Water Air Soil Pollut.69(2-3): 291-300|1993|10.1007/BF00478165
9234|A||Fredeen,F.J.H.|The Temporary Abatement of Nuisance Species of Trichoptera with DDD (TDE) Larvicide|Can. Entomol.104(2): 145-163|1972|10.4039/Ent104145-2
9237|A||Grib,L.V., V.Z. Kovban, and A.L. Burtsev|Effect of Insecticides (Used to Control Blood-Sucking Flies) on the Hydrobiological Conditions of Small Rivers in Western Poles'Ye|Hydrobiol. J.8(1): 78-82|1972|
9239|A||Yamamoto,K.I.|Effects of Formalin on Gas Exchange in the Gills of Carp Cyprinus carpio|Comp. Biochem. Physiol. C Comp. Pharmacol.98(2-3): 463-465|1991|10.1016/0742-8413(91)90234-K
9240|A||Tsuda,T., S. Aoki, M. Kojima, and H. Harada|Accumulation of Tri-n-Butyltin Chloride and Triphenyltin Chloride by Oral and Via Gill Intake of Goldfish (Carassius auratus)|Comp. Biochem. Physiol. C Comp. Pharmacol.99(1-2): 69-72|1991|
9242|A||Keffler,L.R.|A Study of the Influence of Calcium on the Effects of DDT on Fishes|Ph.D Thesis, University of Mississippi, University, MS:125 p.|1972|
9243|A||Norey,C.G., A. Cryer, and J. Kay|A Comparison of Cadmium-Induced Metallothionein Gene Expression and Me2+ Distribution in the Tissues of Cadmium-Sensitive (Rainbow Trout; Salmo|Comp. Biochem. Physiol. C Comp. Pharmacol.97(2): 221-225|1990|10.1016/0742-8413(90)90131-R
9244|A||Khan,M.A.Q., A. Kamal, R.J. Wolin, and J. Runnels|In Vivo and In Vitro Epoxidation of Aldrin by Aquatic Food Chain Organisms|Bull. Environ. Contam. Toxicol.8(4): 219-228|1972|10.1007/BF01839516
9245|A||Kumada,H., S. Kimura, M. Yokote, and Y. Matida|Acute and Chronic Toxicity, Uptake and Retention of Cadmium in Freshwater Organisms|Bull. Freshw. Fish. Res. Lab. (Tokyo)22(2): 157-165|1973|
9246|A||DuBois,R.B., and S.D. Plaster|Effects of Lampricide Treatment on Macroinvertebrate Drift in a Small, Softwater Stream|Hydrobiologia (Multiple Languages)263:119-127|1993|10.1007/BF00006208
9247|A||Latta,W.C., and R.L. Weitzel|The Relationship of Methoxychlor to Periphyton Production Under Laboratory and Semi-Natural Conditions|Rep.No.OWRR-A-053-MICH(1), Office of Water Resour.Res.U.S.D.I., Washington, DC:54 p.|1973|
9248|A||Borgmann,U., W.P. Norwood, and C. Clarke|Accumulation, Regulation and Toxicity of Copper, Zinc, Lead and Mercury in Hyalella azteca|Hydrobiologia (Multiple Languages)259:79-89|1993|10.1007/BF00008374
9249|A||Marking,L.L.|Methods of Estimating the Half-Life of Biological Activity of Toxic Chemicals in Water|Invest.Fish Control No.46, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1972|
9250|A||Mehrle,P.M.J.|Amino Acid Metabolism of Rainbow Trout (Salmo gairdneri) as Affected by Chronic Dieldrin Exposure|Ph.D. Thesis, University of Missouri, Columbia, MO:77 p.|1971|
9251|A||Nilsson,G.E., and M. Block|Decreased Norepinephrine and Epinephrine Contents in Chromaffin Tissue of Rainbow Trout (Oncorhynchus mykiss) Exposed to Diethyldithiocarbamate and Aamylxanthate|Comp. Biochem. Physiol. C Comp. Pharmacol.98(2-3): 391-394|1991|10.1016/0742-8413(91)90222-F
9252|A||Davalli,P., E. Carpene, G.P. Serrazanetti, S. Bettuzzi, R. Viviani, and A. Corti|Responses of Polyamine Metabolism to Metal Treatment (Co, Cu, Zn, Cd) in the Liver of the Goldfish (Carassius auratus):  Distinct Effect of Season and Temperature|Comp. Biochem. Physiol. C Comp. Pharmacol.97(2): 305-310|1990|10.1016/0742-8413(90)90146-Z
9253|A||Shafiei,T.M., and H.H. Costa|The Susceptibility and Resistance of Fry and Fingerlings of Oreochromis mossambicus Peters to Some Pesticides Commonly used in Sri Lanka|J. Appl. Ichthyol.6(2): 73-80|1990|10.1111/j.1439-0426.1990.tb00504.x
9254|A||Coleman,N.|The Effect of Emersion on Cadmium Accumulation by Mytilus edulis|Mar. Pollut. Bull.11(12): 359-362|1980|10.1016/0025-326X(80)90283-0
9255|A||Allen,J.L.|Residues of Malachite Green in Muscle, Eggs, and Fry of Treated Atlantic Salmon and Chinook Salmon|Invest.Fish Control No.101, Fish.Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:4 p.|1990|
9256|A||Norup,B.|Toxicity of Chemicals in Paper Factory Effluents|Water Res.6(12): 1585-1588|1972|10.1016/0043-1354(72)90082-6
9257|A||Adhikary,S.P., P. Dash, and H. Pattnaik|Effect of the Carbamate Insecticide Sevin on Anabaena sp. and Westiellopsis prolifica|Acta Microbiol. Hung.31(4): 335-338|1984|
9258|A||Portmann,J.E.|Results of Acute Toxicity Tests with Marine Organisms, Using a Standard Method|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Rome, Italy / Fishing News (Books) Ltd., London, England:212-217|1972|
9259|A||Rahimian,H.|The Effect of Calcium on Growth and Morphogenesis of Chlorella, Golenkinia, and Scenedesmus|Ph.D.Thesis, Washington State University, Pullman, WA:78 p.|1972|
9260|A||Shcherban,E.P.|The Effect of Low Concentrations of Pesticides on the Development of Some Cladocera and the Abundance of Their Progeny|Hydrobiol. J.6(6): 85-89|1972|
9261|A||Sikka,H.C., and C.P. Rice|Uptake and Metabolism of DDT and Dieldrin by Marine Algae|Annu. Rep. No. 1, Syracuse University, Res. Corp., Life Sci. Div., Syracuse, NY:36 p.|1972|
9262|A||Slonim,A.R., and F.C. Damm|Beryllium Uptake by the Common Guppy Using Radioisotope 7BE. II. Beryllium Concentration in Fish|Rep.No.AMRL-TR-72-95, Aerospace Medical Res.Lab., Wright-Patterson Air Force Base, OH:25 p.|1972|
9263|A||Smith,C.E., and R.G. Piper|Pathological Effects in Formalin-Treated Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.29(3): 328-329|1972|10.1139/f72-053
9264|A||Smith,R.M.|The Effect of Gametic Concentrations of DDT and Dieldrin on Reproduction in Winter Flounder|Ph.D.Thesis, University of Massachusetts, Amherst, MA:54 p.|1972|
9265|A||Spicer,E.J.F., and D.H. Barry|A Quantitative Histochemical Bio-Assay System for DDT in the Carp|In: S.B.DE C.Baker and G.A.Neuhaus (Eds.), Toxicological Problems of Drug Combinations, Excerpta Medica, Amsterdam:307 p.|1972|
9267|A||Stroganov,N.S., V.G. Khobot'ev, and L.V. Kolosova|Study of the Connection of the Chemical Composition of Organometallic Compounds with Their Toxicity for Hydrobionts|U.S.D.I.Bur.of Comm.Fisheries, Washington, DC:10 p.|1972|
9268|A||Suarez,A.G., M.E. Ramiro, and J.J. Tapanes|Effects of Dimecron on Survival of the Spiny Lobster, Panulirus argus, in Relation to the Water Circulation on the Cuban Continental Shelf|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Rome, Italy; Fishing News (Books) Ltd., London, England:238-242|1972|
9269|A||Trofimova,M.G., and A.M. Mitrofanov|Effect of Granulated DDT Used in Mosquito Control on Water Organisms|Med. Parazitol. Parazit. Bolezni (Non-English)41(5): 620-622|1972|
9270|A||Warren,C.E.|Effects of Dieldrin on the Longevity, Reproduction and Growth of Aquatic Animals in Laboratory Ecosystems|Oregon State Univ.Environ.Health Sci.Cen:181-185|1972|
9271|A||Zamuda,C.D., D.A. Wright, and R.A. Smucker|The Importance of Dissolved Organic Compounds in the Accumulation of Copper by the American Oyster, Crassostrea virginica|Mar. Environ. Res.16(1): 1-12|1985|10.1016/0141-1136(85)90016-9
9275|A||Spazier,E., V. Storch, and T. Braunbeck|Cytopathology of Spleen in Eel Anguilla anguilla Exposed to a Chemical Spill in the Rhine River|Dis. Aquat. Org.14(1): 1-22|1992|10.3354/dao014001
9276|A||Arora,H.C., S.K. Shrivastava, and A.K. Seth|Bioassay Studies of Some Commercial Organic Insecticides. Part I. Studies with Exotic Carp Puntius sophore (Ham.)|Indian J. Environ. Health13(3): 226-233|1971|
9277|A||Arora,H.C., S.K. Shrivastava, and A.K. Seth|Bioassay Studies of Some Commercial Organic Insecticides. Part II. Trials of Malathion with Exotic and Indigenous Carps|Indian J. Environ. Health13(4): 300-306|1971|
9278|A||McKone,C.E., R.G. Young, C.A. Bache, and D.J. Lisk|Rapid Uptake of Mercuric Ion by Goldfish|Environ. Sci. Technol.5(11): 1138-1139|1971|10.1021/es60058a011
9279|A||Bahr,T.G., and R.C. Ball|Action of DDT on Evoked and Spontaneous Activity from the Rainbow Trout Lateral Line Nerve|Comp. Biochem. Physiol. A Comp. Physiol.38(2): 279-284|1971|10.1016/0300-9629(71)90054-5
9280|A||Stephenson,M., and M.A. Turner|A Field Study of Cadmium Dynamics in Periphyton and in Hyalella azteca (Crustacea:Amphipoda)|Water Air Soil Pollut.68:341-361|1993|10.1007/BF00478462
9281|A||Basch,R.E., M.E. Newton, J.G. Truchan, and C.M. Fetterolf|Chlorinated Municipal Waste Toxicities to Rainbow Trout and Fathead Minnows|EPA-18050-GZZ-10/ 71, Water Pollut.Control Res.Ser., Res.and Monit., U.S.EPA:53 p.|1971|
9282|A||Batterton,J.C., G.M. Boush, and F. Matsumura|Growth Response of Blue-Green Algae to Aldrin, Dieldrin, Endrin and Their Metabolites|Bull. Environ. Contam. Toxicol.6(6): 589-594|1971|10.1007/BF01796871
9284|A||Stein,J.E., W.L. Reichert, B. French, and U. Varanasi|32P-Postlabeling Analysis of DNA Adduct Formation and Persistence in English Sole (Pleuronectes vetulus) Exposed to Benzo(a)pyrene and 7H-Dibenzo(c,g)|Chem.-Biol. Interact.88(1): 55-69|1993|10.1016/0009-2797(93)90084-C
9286|A||Avivi,A., and A. Chari-Bitron|Estimation of Low Chlorpromazine Concentrations by Surfacing and Sinking Reaction of Minnows (Gambusia affinis)|Psychopharmacologia18(4): 407-411|1970|10.1007/BF00402766
9288|A||Neeraja,P., C.S. Rao, and K. Santhi|Response of Fish Oreochromis mossambicus to Ambient Ammonium Sulphate Stress|J. Inl. Fish. Soc. India19(2): 32-36|1987|
9289|A||Singh,A., and J.S.D. Munshi|The Effects of Heavy Metals on Gills of Fishes:  A Morphometric Study|J. Freshw. Biol.2(1): 69-72|1990|
9290|A||Calabrese,A.|Effects of Some Pollutants on Embryos and Larvae of the American Oyster and Hard Shell Clam|Am.Chem.Soc., Div.Water, Air Waste Chem., Gen.Pap.11(2): 64-75|1971|
9291|A||Calapaj,G.G., and D. Ongaro|Selective Assumption on Mn54 by the Mollusc Pinna nobilis|Rev. Int. Oceanogr. Med. (Multiple Languages)21:125-133|1971|
9292|A||Dauble,D.D., D.C. Klopfer, D.W. Carlile, and R.W.,Jr. Hanf|Usefulness of the Lipid Index for Bioaccumulation Studies with Daphnia magna|ASTM Spec. Tech. Publ.:350-358|1985|
9293|A||Srikanth,S., and S.G. Berk|Stimulatory Effect of Cooling Tower Biocides on Amoebae|Appl. Environ. Microbiol.59(10): 3245-3249|1993|10.1128/aem.59.10.3245-3249.1993
9294|A||Srivastava,A.K., and N.N. Singh|Biochemical Alterations in Freshwater Indian Catfish Heteropneustes fossilis Exposed to 96-h LC0 of Aldrin|Bull. Inst. Zool. Acad. Sin. (Taipei)31(2): 137-140|1992|
9295|A||Helson,B.V., N.J. Payne, and K.M.S. Sundaram|Impact Assessment of Spray Drift from Silvicultural Aerial Applications of Permethrin on Aquatic Invertebrates Using Mosquito Bioassays|Environ. Toxicol. Chem.12(9): 1635-1642|1993|10.1002/etc.5620120912
9296|A||Chavin,W.|Distribution and Turnover of a Cytotoxic Depigmentary Agent (Hydroquinone) in Black Goldfish, Carassius auratus L., and Consideration of the Mechanisim of Action|Virchows Arch. Abt. B Zellpathol.9(4): 343-353|1971|10.1007/BF02894057
9297|A||Chen,P.S., Y.N. Lin, and C.L. Chung|Laboratory Studies on the Susceptibility of Mosquito-Eating Fish, Lebistes reticulatus and the Larvae of Culex pipiens fatigans to Insecticides|Res. Rep. Taiwan Sugar Exp. Stn.70(1): 28-35|1971|
9298|A||Chinnayya,B.|Effect of Heavy Metals on the Oxygen Consumption by the Shrimp, Caridina rajadhari Bouvier|Indian J. Exp. Biol.9(2): 277-278|1971|
9299|A||Coleman,R.D., R.L. Coleman, and E.L. Rice|Zinc and Cobalt Bioconcentration and Toxicity in Selected Algal Species|Bot. Gaz.132(2): 102-109|1971|10.1086/336568
9302|A||Cooke,A.S.|Selective Predation by Newts on Frog Tadpoles Treated with DDT|Nature229(282): 275-276|1971|10.1038/229275a0
9303|A||Crosby,D.G., and R.K. Tucker|Accumulation of DDT by Daphnia magna|Environ. Sci. Technol.5(8): 714-716|1971|10.1021/es60055a003
9304|AT||Siegfried,B.D.|Comparative Toxicity of Pyrethroid Insecticides to Terrestrial and Aquatic Insects|Environ. Toxicol. Chem.12(9): 1683-1689|1993|10.1002/etc.5620120917
9305|A||Dahlberg,M.D.|Toxicity of Acrolein to Barnacles (Balanus eburneus)|Chesapeake Sci.12(4): 282-284|1971|10.2307/1350920
9306|A||Thompson,D.G., S.B. Holmes, D. Thomas, L. MacDonald, and K.R. Solomon|Impact of Hexazinone and Metsulfuron Methyl on the Phytoplankton Community of a Mixed-Wood/Boreal Forest Lake|Environ. Toxicol. Chem.12(9): 1695-1707|1993|
9307|A|OECDG|Thompson,D.G., S.B. Holmes, K. Wainio-Keizer, L. MacDonald, and K.R. Solomon|Impact of Hexazinone and Metsulfuron Methyl on the Zooplankton Community of a Boreal Forest Lake|Environ. Toxicol. Chem.12(9): 1709-1717|1993|10.1002/etc.5620120920
9308|A||Dawson,V.K., T.D. Bills, and M.A. Boogaard|Avoidance Behavior of Ruffe Exposed to Selected Formulations of Piscicides|J. Great Lakes Res.24(2): 343-350|1998|10.1016/S0380-1330(98)70825-1
9310|A||Derby,S.B., and E. Ruber|Primary Production:  Depression of Oxygen Evolution in Algal Cultures by Organophosphorus Insecticides|Bull. Environ. Contam. Toxicol.5(6): 553-557|1971|10.1007/BF01539986
9311|A||Fairchild,J.F., F.J. Dwyer, and T.W. LaPoint|Evaluation of a Laboratory-Generated NOEC for Linear Alkylbenzene Sulfonate in Outdoor Experimental Streams|Environ. Toxicol. Chem.12(10): 1763-1775|1993|
9312|A||Amaldoss,S.V.D.G., and A. Mary|Chromium Effects on Neurosecretion of the Shrimp Penaeus monodon|J. Environ. Biol.13(3): 239-246|1992|
9313|A||Dolar,S.G., D.R. Keeney, and G. Chesters|Mercury Accumulation by Myriophyllum spicatum L|Environ. Lett.1(3): 191-198|1971|10.1080/00139307109434981
9314|A||Gersich,F.M., D.L. Hopkins, S.L. Applegath, C.G. Mendoza, and D.P. Milazzo|The Sensitivity of Chronic Endpoints Used in Daphnia magna Straus Life-Cycle Tests|ASTM Spec. Tech. Publ.:245-252|1985|
9315|A||Earnest,R.D.|The Effects of Paraquat on Fish in a Colorado Farm Pond|Prog. Fish-Cult.33(1): 27-31|1971|10.1577/1548-8640(1971)33[27:TEOPOF]2.0.CO;2
9316|A||Eisler,R.|Cadmium Poisoning in Fundulus heteroclitus (Pisces:  Cyprinodontidae) and Other Marine Organisms|J. Fish. Res. Board Can.28(9): 1225-1234|1971|10.1139/f71-188
9317|A||Eller,L.L.|Histopathologic Lesions in Cutthroat Trout (Salmo clarki) Exposed Chronically to the Insecticide Endrin|Am. J. Pathol.64(2): 321-336|1971|
9318|A||Thybaud,E., and T. Caquet|Uptake and Elimination of Lindane by Lymnaea-palustris (Mollusca: Gastropoda):  A Pharmacokinetic Approach|Ecotoxicol. Environ. Saf.21(3): 365-376|1991|10.1016/0147-6513(91)90075-Z
9319|A||Albright,L.J., P.C. Oloffs, and S.Y. Szeto|Residues in Cutthroat Trout (Salmo clarki) and California Newts (Tarichia torosa) from a Lake Treated with Technical Chlordane|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(4): 333-349|1980|
9320|A||Flannagan,J.F.|Toxicity Evaluation of Trisodium Nitrilotriacetate to Selected Aquatic Invertebrates and Amphibians|Tech.Rep.No.258, Fish.Res.Board.Can., Nanaimo, B.C:21 p.|1971|
9321|A|RUSSN|Volodin,V.M., V.I. Lukyanenko, and B.A. Flerov|Comparative Characteristics of Fish Resistance to Phenol in Early Stages of Development|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR10(3): 300-310|1966|
9322|A||Lukyanenko,V.I., and B.A. Flerov|Comparative Investigation of the Resistance to Phenol of Two Different Age Groups of Salmo iridens Gibb.|Ser. Hold. Libr. Meml. Univ. Nfld. St. John's Public Libr.5(2): 14-16|1971|
9323|A||Fletcher,G.L.|Accumulation of Yellow Phosphorus by Several Marine Invertebrates and Seaweed|J. Fish. Res. Board Can.28(5): 793-796|1971|10.1139/f71-117
9326|A||Foulquier,L., B. Reynier, A. Grauby, and P. Bovard|Toxicity of Lindane to Eels (Anguilla anguilla L.)|Bull. Seances Soc. R. Cent. Agric. (Non-English)57(12): 1060-1068|1971|
9328|A||Freeman,R.A., and W.H. Everhart|Toxicity of Aluminum Hydroxide Complexes in Neutral and Basic Media to Rainbow Trout|Trans. Am. Fish. Soc.100(4): 644-658|1971|10.1577/1548-8659(1971)100<644:TOAHCI>2.0.CO;2
9330|A||Mayes,M.A., and G.R. Oliver|An Aquatic Hazard Assessment: Picloram|ASTM Spec. Tech. Publ.:253-269|1985|
9331|A||Bates,R.C., and R.E. Hurlbert|The Effect of Acetate on Euglena gracilis var. bacillaris as a Function of Environmental Conditions|J.Protozool.17(1): 134-138|1970|10.1111/j.1550-7408.1970.tb05172.x
9332|A||Gearing,P.J., C. Vanbaalen, and P.L. Parker|Response of Blue-Green Algae to Technetium|In: D.J.Nelson (Ed), Radionuclides in Ecosystems, Proc.3rd Natl.Symp.on Radioecology, Volume 2, CONF-710501-Pt.2 Tech.Inf.Center, Oak Ridge, TN:857-865|1971|
9333|A||Georgacakis,E., S.R. Chadran, and M.A.Q. Khan|Toxicity-Metabolism Relationship of the Photoisomers of Cyclodiene Insecticides in Freshwater Animals|Bull. Environ. Contam. Toxicol.6(6): 535-538|1971|10.1007/BF01796862
9334|A||Georgacakis,E., and M.A.Q. Khan|Toxicity of the Photoisomers of Cyclodiene Insecticides to Freshwater Animals|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)233(5315): 120-121|1971|
9335|A||George,J.D.|The Effects of Pollution by Oil and Oil-Dispersants on the Common Intertidal Polychaetes, Cirriformia tentaculata and Cirratulus cirratus|J. Appl. Ecol.8(2): 411-420|1971|10.2307/2402880
9336|A||Verriopoulos,G., M. Moraitou-Apostolopoulou, and E. Milliou|Combined Toxicity of Four Toxicants (Cu, Cr, Oil, Oil Dispersant) to Artemia salina|Bull. Environ. Contam. Toxicol.38(3): 483-490|1987|10.1007/BF01606618
9337|A||Glooschenko,W.A.|The Effect of DDT and Dieldrin upon 14C Uptake by In Situ Phytoplankton in Lakes Erie and Ontario|In: Proc. 14th Conf. Int. Assoc. Great Lakes Res. , Ann Arbor, MI:219-223|1971|
9338|A||Goncharov,G.D., and V.R. Mikryakov|The Effect of Low Concentrations of Phenol on Antibody Formation in Carp, Cyprinus carpio L.|In: Prob.Aquat.Toxicol./ Vopr.Vod.Toksikol.Mosc.:171-175|1971|
9339|A||Belanger,S.E., D.H. Davidson, J.L. Farris, D. Reed, and D.S. Cherry|Effects of Cationic Surfactant Exposure to a Bivalve Mollusc in Stream Mesocosms|Environ. Toxicol. Chem.12(10): 1789-1802|1993|10.1002/etc.5620121005
9340|A||Grosch,D.S.|Poisoning with DDT: Second-and Third-Year Reproductive Performance of Artemia|Bioscience20(16): 913-|1970|10.2307/1295584
9341|A||Grzenda,A.R., W.J. Taylor, and D.F. Paris|The Uptake and Distribution of Chlorinated Residues by Goldfish (Carassius auratus) fed a 14C-Dieldrin Contaminated Diet|Trans. Am. Fish. Soc.100(2): 215-221|1971|10.1577/1548-8659(1971)100<215:TUADOC>2.0.CO;2
9342|A||Lewis,M.A., C.A. Pittinger, D.H. Davidson, and C.J. Ritchie|In Situ Response of Natural Periphyton to an Anionic Surfactant and an Environmental Risk Assessment for Phytotoxic Effects|Environ. Toxicol. Chem.12(10): 1803-1812|1993|10.1002/etc.5620121006
9343|A||Singer,M.M., S. George, D. Benner, S. Jacobson, R.S. Tjeerdema, and M.L. Sowby|Comparative Toxicity of Two Oil Dispersants to the Early Life Stages of Two Marine Species|Environ. Toxicol. Chem.12(10): 1855-1863|1993|10.1002/etc.5620121013
9344|A||Hoffmann,S.|Studies of the Subacute Toxicity of Trichloroethylene on Rainbow Trout (Oncorhynchus mykiss)|D.V.M.Thesis, Ludwig-Maximilians University, Muenchen, Germany:282 p.|1990|
9345|A||Harshbarger,J.C., G.E. Cantwell, and M.F. Stanton|Effects of N-Nitrosodimethylamine on the Crayfish, Procambarus clarkii|In: Proc. 4th Int. Colloquim on Insect Pathology with the Soc. for Invertebrate Pathology:425-430|1971|
9347|A||Hazel,C.R., W. Thomsen, and S.J. Meith|Sensitivity of Striped Bass and Stickleback to Ammonia in Relation to Temperature and Salinity|Calif. Fish Game57(3): 138-153|1971|
9348|A||Herbst,H.V.|Studies on the Toxicity of Endosulfan to Fish and Invertebrates. (Untersuchungen Zur Toxizitat Von Endosulfan Auf Fische Und Wirbellose Tiere)|Schriftenr Ver Wasser Boden Lufthyg Berlin - Dahlem34:69-75|1971|
9349|A||Herzel,F., and D.,Jr. Leudemann|Behavior and Toxicity of Endosulfan in Water Under Different Experimental Conditions|Z. Angew. Zool. (Multiple Languages)58(1): 57-61|1971|
9352|A||Alderdice,D.F., T.R. Rao, and H. Rosenthal|Osmotic Responses of Eggs and Larvae of the Pacific Herring to Salinity and Cadmium|Helgol. Wiss. Meeresunters.32(4): 508-538|1979|10.1007/BF02277992
9353|A||Hoestlandt,H.|Effect of 2 Molluscicides (Bayluscides and Frescon) on Freshwater Mussels = Dreissan polymorpha pallas|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)272(14): 1912-1914|1971|
9354|A||Hogan,R.L., and E.W. Roelofs|Concentrations of Dieldrin in the Blood and Brain of the Green Sunfish, Lepomis cyanellus, at Death|J. Fish. Res. Board Can.28(4): 610-612|1971|10.1139/f71-087
9355|A||Hokanson,K.E.F.,Jr.|Some Factors Influencing Toxicity of Linear Alkylate Sulfonate (LAS) to the Bluegill|Trans. Am. Fish. Soc.100(1): 1-12|1971|10.1577/1548-8659(1971)100<1:SFITOL>2.0.CO;2
9356|A||Hopkins,R., and J.M. Kain|The Effect of Marine Pollutants on Laminarea hyperboria|Mar. Pollut. Bull.2(5): 75-77|1971|10.1016/0025-326X(71)90228-1
9358|A||Barron,M.G., S.M. Plakas, P.C. Wilga, and T. Ball|Absorption, Tissue Distribution and Metabolism of Chlorpyrifos in Channel Catfish Following Waterborne Exposure|Environ. Toxicol. Chem.12(8): 1469-1476|1993|10.1002/etc.5620120814
9359|A||Ishio,S., and H. Nakagawa|Susceptibility of Marine Organisms to Calcium Fluoride|Nippon Suisan Gakkaishi (Multiple Languages)37(2): 98-104|1971|10.2331/suisan.37.98
9360|A||Iwasa,T., E. Higashide, H. Yamamoto, and M. Shibata|Studies on Validamycins, new Antibiotics. II. Production and Biological Properties of Validamycins A and B|J. Antibiot.24(2): 107-113|1971|10.7164/antibiotics.24.107
9361|A||Martello,L.B., R.S. Tjeerdema, W.S. Smith, R.J. Kauten, and D.G. Crosby|Influence of Salinity on the Actions of Pentachlorophenol in Haliotis as Measured by In Vivo 31P NMR Spectroscopy|Aquat. Toxicol.41(3): 229-250|1998|10.1016/S0166-445X(97)00080-5
9362|A||Vijayalakshmi,P., D.V.S. Sastry, and K.V.R. Rao|Interaction between Salinity and Toxicity of Phosphamidon in Metapenaeus monoceros (Fabricius)|Bull. Environ. Contam. Toxicol.37(6): 797-801|1986|10.1007/BF01607841
9363|A||Javaid,M.Y., and F. Hassan|Effect of Temperature and Sublethal DDT Treatment on the Brain Tissue Oxygen Consumption of Channa punctatus|Pak. J. Sci. Res.23(1-2): 81-88|1971|
9364|A||Johnson,B.T., C.R. Saunders, H.O. Sanders, and R.S. Campbell|Biological Magnification and Degradation of DDT and Aldrin by Freshwater Invertebrates|J. Fish. Res. Board Can.28(5): 705-709|1971|10.1139/f71-099
9365|A||Green,A.S., G.T. Chandler, and E.R. Blood|Aqueous-, Pore-Water-, and Sediment-Phase Cadmium: Toxicity Relationships for a Meiobenthic Copepod|Environ. Toxicol. Chem.12(8): 1497-1506|1993|
9366|A||Kawatski,J.A., and J.C. Schmulbach|Toxicities of Aldrin and Dieldrin to the Freshwater Ostracod Chlamydotheca arcuata|J. Econ. Entomol.64(5): 1082-1085|1971|10.1093/jee/64.5.1082
9368|A||Calamari,D., R. Marchetti, and G. Vailati|Effects of Long-Term Exposure to Ammonia on the Developmental Stages of Rainbow Trout (Salmo gairdneri Richardson)|Rapp. P. V. Reun. Comm. Int. Explor. Sci. Mer Mediterr.178:81-86|1981|
9369|A||Gavrilenko,Y.Y., and Y.Y. Zolotukhina|Accumulation and Interaction of Copper, Zinc, Manganese, Cadmium, Nickel and Lead Ions Absorbed by Aquatic Macrophytes|Hydrobiol. J.25(5): 54-61|1989|
9370|A||Kihlstrom,J.E., C. Lundberg, and L. Hulth|Number of Eggs and Young Produced by Zebrafishes (Brachydanio rerio, Ham.-Buch.) Spawning in Water Containing Small Amounts of Phenylmercuric Acetate|Environ. Res.4(4): 355-359|1971|10.1016/0013-9351(71)90034-X
9371|A||Klekowski,R.Z., and J. Zvirgzds|The Influence of Herbicide 2,4-D-Na on Respiration and Survival of Simocephalus vetulus (O.F.Muller) (Cladocera)|Pol. Arch. Hydrobiol.18(4): 393-400|1971|
9374|A|RUSSN|Korde,B., and J. Zvirgzds|Effect of Sodium 2,4-D on the Survival of Fertilized Eggs and the Rate of Early Embryonic Development of the Loach (Misgurnus fossilis L.)|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )2:31-42|1971|
9375|A||Kortus,J., P. Macoch, J. Mayer, K. Durcek, and V. Kromery|Uptake of 32P-Parathion and 32P-Imidan by Euglena gracilis|J. Hyg. Epidemiol. Microbiol. Immunol.15(1): 101-103|1971|
9376|A||Kumar,H.D., and G. Prakash|Toxicity of Selenium to the Blue-Green Algae, Anacystis nidulans and Anabaena variabilis|Ann. Bot.35(141): 697-705|1971|10.1093/oxfordjournals.aob.a084515
9377|A||Kvitko,K.V., B.T. Mukhamadiev, and O.V. Zalenskii|Effect of DCMU, an Inhibitor of Photophosphorylation, on the Variability of Chlorella|In: Y.S.Nasyrov (Ed.), Genet.Aspektyfotosin., Dushanbe, USSR:255-268|1971|
9378|A||Montgomery,R.M., J. Forester, and C.N. D'Asaro|Effects of Triethylene Glycol on Mysidopsis bahia (Crustacea: Mysidacea) and Menidia peninsulae (Pisces: Atherinidae)|ASTM Spec. Tech. Publ.:270-276|1985|
9379|A||Shaari,M., and S.A. Latiff|The Effect of Oil Slick Dispersant, Esso Corexit 7664 and the Joint Effect with Crude Oil on the Survival of Marine Glass Fish, Ambassis sp. and Shrimps|Malays. Agric. J.48(1): 13-19|1971|
9380|A||Porta,A.A., and A.E. Ronco|Cu(II) Acute Toxicity to the Rotifer Brachionus calyciflorus, as Affected by Fulvic Acids of Freshwater Origin|Environ. Pollut.82(3): 263-267|1993|10.1016/0269-7491(93)90128-B
9382|A||Lewis,S.D., and W.M. Lewis|The Effect of Zinc and Copper on the Osmolality of Blood Serum of the Channel Catfish, Ictalurus punctatus Rafinesque, and Golden Shiner, Notemigonus crysoleucas Mitchill|Trans. Am. Fish. Soc.100(4): 639-643|1971|10.1577/1548-8659(1971)100<639:TEOZAC>2.0.CO;2
9383|A||Muir,D.C.G., A.L. Yarechewski, and G.R.B. Webster|Bioconcentration of Four Chlorinated Dioxins by Rainbow Trout and Fathead Minnows|ASTM Spec. Tech. Publ.:440-454|1985|
9384|A|RUSSN|Flerov,B.A., and V.I. Lukyanenko|The Role of Environmental Factors in Resistance of Fishes to Phenol|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR10(13): 319-330|1966|
9385|A|OECDG|Snell,T.W., B.D. Moffat, C. Janssen, and G. Persoone|Acute Toxicity Tests Using Rotifers IV.  Effects of Cyst Age, Temperature, and Salinity on the Sensitivity of Brachionus calyciflorus|Ecotoxicol. Environ. Saf.21(3): 308-317|1991|10.1016/0147-6513(91)90070-6
9387|A||Mann,H.|Research on the Effects of Laundry Enzymes on Fish and Other Aquatic Organisms|Arch. Fischereiwiss.22(2): 146-154|1971|
9388|A||Rice,D.S., J.W. Short, and W.B. Stickle|Uptake and Catabolism of Tributyltin by Blue Crabs fed TBT Contaminated Prey|Mar. Environ. Res.27(2): 137-145|1989|10.1016/0141-1136(89)90005-6
9389|A||Matida,Y., S. Kimura, M. Yokote, H. Kumada, and H. Tanaka|Study on the Toxicity of Agricultural Control Chemicals in Relation to Freshwater Fisheries Management No. 5. Some Effects of Sodium Pentachlorophena to Freshwater Fishes|Bull. Freshw. Fish. Res. Lab. (Tokyo)20(2): 127-146|1970|
9390|A||Gendusa,T.C., T.L. Beitinger, and J.H. Rodgers|Toxicity of Hexavalent Chromium from Aqueous and Sediment Sources to Pimephales promelas and Ictalurus punctatus|Bull. Environ. Contam. Toxicol.50(1): 144-151|1993|10.1007/BF00196553
9391|A||Ganesan,R.M., S.R.D. Jebakumar, and J. Jayaraman|Sublethal Effects of Organochlorine Insecticide (Endosulfan) on Protein, Carbohydrate and Lipid Contents in Liver Tissues of Oreochromis mossambicus|Proc. Indian Acad. Sci. Anim. Sci.98(1): 51-55|1989|10.1007/BF03179564
9394|A||Nacci,D.E., and E. Jackim|Rapid Aquatic Toxicity Assay Using Incorporation of Tritiated-Thymidine into Sea Urchin, Arbacia punctulata, Embryo:  Evaluation of Toxicant Exposure Procedures|ASTM Spec. Tech. Publ.:382-394|1985|
9395|A||Mohri,H.|Effects of Lycorcidinol Cleavage of Sea-Urchin Eggs|Sci. Pap. Coll. Gen. Educ. Univ. Tokyo (Biol. Part)21(2): 167-173|1971|
9396|A||De Koning,H.W., and D.C. Mortimer|DDT Uptake and Growth of Euglena gracilis|Bull. Environ. Contam. Toxicol.6(3): 244-248|1971|10.1007/BF01539934
9398|A||Murphy,P.G.|The Effect of Size on the Uptake of DDT From Water by Fish|Bull. Environ. Contam. Toxicol.6(1): 20-23|1971|10.1007/BF01559067
9400|A||Nazarenko,I.V.|Effect of Formaldehyde on Aquatic Organisms (Vliyanie Formal'degida Na Vodnye Organizmy)|Bur.Sport Fish.Wildl., Washington, DC:6 p.(1971) / Trans.All-Union Hydrobiol.Soc./Tr.Vses.Gidrobiol.Ova.10:170-174|1960|
9401|AT||Siegel,B.Z., S.M. Siegel, T. Correa, C. Dagan, G. Galvez, L. LeeLoy, A. Padua, and E. Yaeger|The Protection of Invertebrates, Fish, and Vascular Plants Against Inorganic Mercury Poisoning by Sulfur and Selenium Derivatives|Arch. Environ. Contam. Toxicol.20(2): 241-246|1991|10.1007/BF01055910
9403|A||Coats,J.R.|Mechanisms of Toxic Action and Structure-Activity Relationships for Organochlorine and Synthetic Pyrethroid Insecticides|Environ. Health Perspect.87:255-262|1990|10.1289/ehp.9087255
9407|A||Olson,P.R.|Accumulation of Calcium-45 in Developing Coho Salmon Eggs and Fry Reared in Varying Concentrations of Stable Calcium|Rep.No.CONF-710501-29, Proc.3rd Natl.Symp.on Radioecology, Oak Ridge, TN:30 p.|1971|
9408|A||Opuszynski,K.|Temperature Preference of Fathead Minnow Pimephales promelas (Rafinesque) and Its Changes Induced by Copper Salt CuSO4|Pol. Arch. Hydrobiol.18(4): 401-408|1971|
9409|A||Ostadal,B., and V. Rychterova|Effect of Necrogenic Doses of Isoproterenol on the Heart of the Tench (Tinca tinca-Osteichthyes), the Frog (Rana temporaria-Anura) and the Pigeon|Physiol. Bohemoslov.20(6): 541-547|1971|
9411|A||Page,T.|Algicidal Effects of Copper Sulfate on the Structure and Productivity of a Reservoir Plankton Community|Ph.D.Thesis, Kent State University, Kent, OH:144 p.|1971|
9412|A||Parrish,P.R., S.C. Schimmel, D.J. Hansen, J.M.,Jr. Patrick, and J. Forester|Chlordane:  Effects on Several Estuarine Organisms|J. Toxicol. Environ. Health1:485-494|1976|10.1080/15287397609529347
9413|A||Jensen,S., and O. Pettersson|2,5-Di-(Benzoxazole-2-Yl) Thiophene, an Optical Brightener Contaminating Sludge and Fish|Environ. Pollut.2(2): 145-155|1971|
9414|A|RUSSN|Lukyanenko,V.I., and L.A. Petukhova|Changes in Activity of Chloinesterase in the Muscles and Amount of Ammoniac in Brain of Phenol Poisoned Carassius carassius|Tr. Inst. Biol. Vnutr. Vod. Akad. Nauk SSSR10(13): 311-318|1966|
9415|A||Erickson,D.A., M.S. Goodrich, and J.J. Lech|The Effect of Piperonyl Butoxide on Hepatic Cytochrome P-450-Dependent Monooxygenase Activities in Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.94(1): 1-10|1988|10.1016/0041-008X(88)90331-6
9417|A||Vranken,G., R. Vanderhaeghen, and C. Heip|Toxicity of Cadmium to Free-Living Marine and Brackish Water Nematodes (Monhystera microphthalma, Monhystera disjuncta, Pellioditis marina)|Dis. Aquat. Org.1:49-58|1985|10.3354/dao001049
9418|A||Preston,E.M.|The Importance of Ingestion in Chromium-51 Accumulation by Crassostrea virginica (Gmelin)|J. Exp. Mar. Biol. Ecol.6(1): 47-54|1971|10.1016/0022-0981(71)90047-5
9419|A||Wangberg,S.A., U. Heyman, and H. Blanck|Long-Term and Short-Term Arsenate Toxicity to Freshwater Phytoplankton and Periphyton in Limnocorrals|Can. J. Fish. Aquat. Sci.48(2): 173-182|1991|10.1139/f91-024
9420|A||Roberts,D.R., and T.A. Miller|Effects of Polymer Formulations of Dursban and Abate on Non-Target Organism Populations April-October 1970|Entomol.Spec.Study No.31-004-71, U.S.Army Environ.Hyg.Agency, Edgewood Arsenal, MD:24 p.|1971|
9421|A||Romeril,M.G.|The Uptake and Distribution of 65Zn in Oysters|Mar. Biol.9(4): 347-354|1971|10.1007/BF00372829
9422|A||Kesh,A.B., K. Sengupta, A.K. Das, and G.M. Sinha|Lead intoxication and the Effects of Chelating Agents on the Stomach and Intestine of the Fish Heteropneustes fossilis (Bloch)|Environ. Ecol.11(2): 405-411|1993|
9423|A||Rowe-Rowe,D.T.|Rotenone Tolerances of Some Freshwater Fishes of Natal|Prog. Fish-Cult.33(4): 206-209|1971|10.1577/1548-8640(1971)33[206:RTOSFF]2.0.CO;2
9424|A||Pierce,R.H., J.M. Weeks, and J.M. Prappas|Nitrate Toxicity to Five Species of Marine Fish|J. World Aquac. Soc.24(1): 105-107|1993|10.1111/j.1749-7345.1993.tb00156.x
9425|A||Saski,W., M. Mannelli, M.F. Saettone, and F. Bottari|Relative Toxicity of Three Homologous Series of Nonionic Surfactants in the Planarian|J. Pharm. Sci.60(6): 854-859|1971|10.1002/jps.2600600610
9426|A||Schulz,D.|Light Microscopic, Biochemical and Electron Microscopic Changes Caused by the Herbicide Dowpon in the Exocrine Pancreas of the Carp|Z. Angew. Zool. (Multiple Languages)58(1): 63-97|1971|
9427|A||Sergeant,M., D. Blazek, J.H. Elder, C.A. Lembi, and D.J. Morre|The Toxicity of 2,4-D and Picloram Herbicides to Fish|Proc. Indiana Acad. Sci80:114-123|1971|
9428|A||Shaw,T.L., and V.M. Brown|Heavy Metals and the Fertilization of Rainbow Trout Eggs|Nature230(5291): 251-|1971|10.1038/230251a0
9429|A||Hanna,V.K.V., K.H. Rao, and K.S. Sundari|Histopathological Changes in Target Tissues of Mytilopsis sallei (Recluz) Exposed to Cadmium|In: M.F.Thompson, R.Nagabhushanam, R.Sarojini, and M.Fingerman (Eds.), Recent Developments in Biofouling Control, Oxford & IBH Publ.Co., New Delhi, India:107-114|1994|
9430|A||Caux,P.Y., and P. Weinberger|Lemna minor Membranes Affected by Adjuvants|Environ. Pollut.81(2): 151-156|1993|10.1016/0269-7491(93)90080-8
9431|A||Selvaraj,C., and L. Kannan|Toxicity of Organochlorine Pesticide, Lindane to the Marine Diatom Bellerochea malleus (BtW.) V.H. in Culture|Int. J. Ecol. Environ. Sci.12:81-88|1986|
9432|A||Sodergren,A.|Accumulation and Distribution of Chlorinated Hydrocarbons in Cultures of Chlorella pyrenoidosa (Chlorophyceae)|Oikos22(2): 215-220|1971|
9433|A||Miura,T., C.H. Schaefer, and R.J. Stewart|Impact of Carbamate Insect Growth Regulators on the Selected Aquatic Organisms: A Preliminary Study|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.:36-38|1986|
9435|A|RUSSN|Stroganov,N.S., V.G. Khobot'ev, L.V. Kolosova, D.A. Kochkin, and G.E. El'Khanov|Toxic Action of Some Organometallic Compounds on Hydrobionts. II. Action of Alkyl (Aryl) Organolead Compounds|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)14(3): 21-24|1971|
9436|A||Swedmark,M., B. Braaten, E. Emanuelsson, and A. Granmo|Biological Effects of Surface Active Agents on Marine Animals|Mar. Biol.9(3): 183-201|1971|10.1007/BF00351378
9437|A|RUSSN|Shcheglov,V.V., and G.V. Grigorai|Effect of Heavy Metals on the Inhibition of Protein and RNA Formation in Sea Urchins|Exp. Water Toxicol. (Eksp. Vodn. Toksikol. )12:73-81|1987|
9438|A||Tasseron-De Jong,J.G., and H. Veldstra|Investigations on Cytokinins. I. Effect of 6-Benzylaminopurine on Growth and Starch Content of Lemna minor|Physiol. Plant. (Multiple Languages)24(2): 235-238|1971|10.1111/j.1399-3054.1971.tb03485.x
9439|AT||Muir,D.C.G., M. Pitze, A.P. Blouw, and W.L. Lockhart|Fate of Terbutryn in Macrophyte-Free and Macrophyte-Containing Farm Ponds|Weed Res. (Multiple Languages)21(2): 59-70|1981|10.1111/j.1365-3180.1981.tb00097.x
9441|A|RUSSN|Tsoi,R.M.|Effect of Dimethyl Sulfate on S and N Gene Mutation Rates in Cyprinus carpio|Dokl. Akad. Nauk SSSR (Non-English)197(3): 701-704|1971|
9442|A||Umemoto,T.|Effect of Chlorogenic Acid on Flower Production in Long-Day Duckweed, Lemna gibba G3|Plant Cell Physiol.12(1): 165-169|1971|10.1093/oxfordjournals.pcp.a074602
9443|A||Van den Bercken,J., and L.M.A. Akkermans|Temperature and the Effect of DDT on the Lateral Line Organ of Xenopus laevis|In: E.Broda (Ed.), Proc.1st Eur.Biophys.Congr., Verlag Wiener Med.Akad., Vienna, Aus.5:173-177|1971|
9444|A||Venkataraman,G.S., and B. Rajyalakshmi|Tolerance of Blue-Green Algae to Pesticides|Curr. Sci. (Bangalore)40(6): 143-144|1971|
9445|A||Vickers,D.H., and C.E. Boyd|Effects of Organic Insecticides upon Carbon-14 Uptake by Freshwater Phytoplankton|Rep.No.CONF-710501-PL, Proc.3rd Natl.Symposium on Radioecology, May 10-12, Oak Ridge, TN:492-496|1971|
9446|A||Walsh,G.E., and T.E. Grow|Depression of Carbohydrate in Marine Algae by Urea Herbicides|Weed Sci.19(5): 568-570|1971|10.1017/S0043174500050700
9447|A||Walsh,G.E., C.W. Miller, and P.T. Heitmuller|Uptake and Effects of Dichlobenil in a Small Pond|Bull. Environ. Contam. Toxicol.6(3): 279-288|1971|10.1007/BF01539939
9448|A||Wedemeyer,G.|The Stress of Formalin Treatments in Rainbow Trout (Salmo gairdneri) and Coho Salmon (Oncorhynchus kisutch)|J. Fish. Res. Board Can.28(12): 1899-1904|1971|10.1139/f71-285
9449|A||Lingaraja,T., B.P.S. Rao, and V.K. Venugopalan|DDT Induced Ethological Changes in Estuarine Fish|Environ. Biol. Fishes4(1): 83-88|1979|10.1007/BF00005932
9450|A||Riisgard,H.U., and S. Hansen|Biomagnification of Mercury in a Marine Grazing Food-Chain: Algal Cells Phaeodactylum tricornutum, Mussels Mytilus edulis and Flounders Platichthys|Mar. Ecol. Prog. Ser.62(3): 259-270|1990|10.3354/meps062259
9451|AT||Ballschmiter,K., and M. Zell|Analysis of Polychlorinated Biphenyls (PCB) by Glass Capillary Gas Chromatography|Fresenius' J. Anal. Chem.302:20-31|1980|10.1007/BF00469758
9452|A||Wildish,D.J., and V. Zitko|Uptake of Polychlorinated Biphenyls from Sea Water by Gammarus oceanicus|Mar. Biol.9(3): 213-218|1971|10.1007/BF00351381
9455|A||Wilson,K.W.|Toxicity of Oil-Spill Dispersants to Embryos and Larvae of Some Marine Fish|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Rome, Italy; Fishing News (Books) Ltd., London, England:18-322|1972|
9457|A||Wojcik,J., and B. Ranke-Rybicka|The Sensitivity to Tritox-30 (DDT, gamma-HCH, DMDT) of the Tadpoles of Xenopus leavus Daudin and Rana temporaria L.|Rocz. Panstw. Zakl. Hig. (Multiple Languages)22(4): 413-419|1971|
9458|A||Cresswell,R.C., and P.J. Syrett|Uptake of Nitrate by the Diatom Phaeodactylum tricornutum|J. Exp. Bot.32(126): 19-25|1981|10.1093/jxb/32.1.19
9459|A||Moza,P.N., I. Scheunert, W. Klein, and F. Korte|Metabolism of Chloroalkylene-9-14C in the Marsh Plant Veronica beccabunga|Chemosphere6(9): 575-580|1977|10.1016/0045-6535(77)90112-6
9460|A||Muir,D.C.G., B.E. Townsend, and W.L. Lockhart|Bioavailability of Six Organic Chemicals to Chironomus tentans Larvae in Sediment and Water|Environ. Toxicol. Chem.2(3): 269-282|1983|
9462|A||Morgan,J.R.|Effects of Aroclor 1242 (a Polychlorinated Biphenyl) and DDT on Cultures of an Alga, Protozoan, Daphnid, Ostracod, and Guppy|M.S.Thesis, University of Washington, Seattle, WA:95 p.|1971|
9465|A||Gill,T.S., and J.C. Pant|Effects of Sublethal Concentrations of Mercury in a Teleost Puntius conchonius: Biochemical and Haematological Responses|Indian J. Exp. Biol.19(6): 571-573|1981|
9466|A||Hall,A.|Copper Accumulation in Copper-Tolerant and Non-Tolerant Populations of the Marine Fouling Alga, Ectocarpus siliculosus (Dillw.) Lyngbye|Bot. Mar.24(4): 223-228|1981|10.1515/botm.1981.24.4.223
9467|A||Harding,G.C., W.P. Vass, and K.F. Drinkwater|Importance of Feeding, Direct Uptake from Seawater, and Transfer from Generation to Generation in the Accumulation of an Organochlorine (p,p'-DDT) by the Marine Planktonic Copepod Calanus finmarchicus|Can. J. Fish. Aquat. Sci.38(1): 101-119|1981|10.1139/f81-013
9469|A||Waiwood,B.A., V. Zitko, K. Haya, L.E. Burridge, and D.W. McLeese|Uptake and Excretion of Zinc by Several Tissues of the Lobster (Homarus americanus)|Environ. Toxicol. Chem.6(1): 27-32|1987|10.1002/etc.5620060104
9471|A||Kooijman,S.A.L.M.|Parametric Analyses of Mortality Rates in Bioassays|Water Res.15(1): 107-119|1981|10.1016/0043-1354(81)90190-1
9472|A||Pal,A.K., and S.K. Konar|Influence of the Organophosphorus Insecticide DDVP on Aquatic Ecosystem|Environ. Ecol.3(4): 489-492|1985|
9473|A||Kubota,S.S., T. Ochiai, and S. Akeda|Ultrastructural Study of Inclusion-Like Bodies in Hepatocytes of Cyprinus carpio L. Induced by the Herbicide Benthiocarb|J. Fish Dis.4(1): 77-81|1981|10.1111/j.1365-2761.1981.tb01111.x
9474|A||Kuiper,J.|Fate and Effects of Mercury in Marine Plankton Communities in Experimental Enclosures|Ecotoxicol. Environ. Saf.5(1): 106-134|1981|10.1016/0147-6513(81)90050-6
9475|A||Kumar,S., and S.C. Pant|Histopathologic Effects of Acutely Toxic Levels of Copper and Zinc on Gills, Liver and Kidney of Puntius conchonius (Ham.)|Indian J. Exp. Biol.19(2): 191-194|1981|
9477|A||Laube,V.M., C.N. McKenzie, and D.J. Kushner|Strategies of Response to Copper, Cadmium, and Lead by Blue-Green and a Green Alga|Can. J. Microbiol.26(11): 1300-1311|1980|10.1139/m80-217
9478|A||Li,W.K.W.|Cellular Accumulation and Distribution of Cadmium in Isochrysis galbana During Growth Inhibition and Recovery|J. Plankton Res.2(4): 283-294|1980|10.1093/plankt/2.4.283
9479|A||Lemke,A.E.|Interlaboratory Comparison Acute Testing Set|EPA-600/3-81-005, U.S.EPA, Duluth, MN:29 p.|1981|
9480|A||Markham,J.W., B.P. Kremer, and K.R. Sperling|Effects of Cadmium on Laminaria saccharina in Culture|Mar. Ecol. Prog. Ser.3(1): 31-39|1981|
9481|A||De Silva,C.D., and J. Ranasinghe|Toxicity of Four Commonly Used Agrochemicals on Oreochromis niloticus (L.) Fry|Asian Fish. Sci.2(2): 135-145|1989|10.33997/j.afs.1989.2.2.002
9483|A||Murphy,L.S., R.R.L. Guillard, and J.F. Brown|The Effects of Iron and Manganese on Copper Sensitivity in Diatoms:  Differences in the Responses of Closely Related Neritic and Oceanic Species|Biol. Oceanogr.3(2): 187-201|1984|
9484|A||Mierle,G.|Modification of Copper Toxicity by Other Cations|J. Plant Nutr.3(1-4): 293-308|1981|10.1080/01904168109362838
9485|A||Franchini,A., E. Barbanti, and A.M.B. Fantin|Effects of Lead on Hepatocyte Ultrastructure in Carassius carassius (L.) Var. auratus|Tissue Cell23(6): 893-901|1991|10.1016/0040-8166(91)90038-U
9486|A||Mowdy,D.E.|Elimination of Laboratory-Acquired Cadmium by the Oyster Crassostrea virginica in the Natural Environment|Bull. Environ. Contam. Toxicol.26(3): 345-351|1981|10.1007/BF01622100
9487|A||Mysing-Gubala,M., and M.A. Poirrier|The Effects of Cadmium and Mercury on Gemmule Formation and Gemmosclere Morphology in Ephydatia fluviatilis (Porifera:  Spongillidae)|Hydrobiologia (Multiple Languages)76(1/2): 145-148|1981|10.1007/BF00014045
9488|A||Gupta,B.D., and S. Mukherji|Effects of Toxic Concentrations of Copper on Growth and Metabolism of Rice Seedlings|Z. Pflanzenphysiol. (Multiple Languages)82:95-106|1977|10.1016/S0044-328X(77)80218-3
9489|A||Nasu,Y., and M. Kugimoto|Lemna (Duckweed) as an Indicator of Water Pollution I.  The Sensitivity of Lemna paucicostata to Heavy Metals|Arch. Environ. Contam. Toxicol.10(2): 159-169|1981|10.1007/BF01055618
9490|A||Pande,A.S., R. Sarkar, and K.P. Krishnamoorthi|Toxicity of Copper Sulphate to the Alga, Spirulina platensis, & the Ciliate Tetrahymena pyriformis|Indian J. Exp. Biol.19(5): 500-502|1981|
9491|A||Parkhurst,B.R., J.L. Forte, and G.P. Wright|Reproducibility of a Life-Cycle Toxicity Test with Daphnia magna|Bull. Environ. Contam. Toxicol.26(1): 1-8|1981|10.1007/BF01622045
9492|A||Besser,J.M., J.N. Huckins, E.E. Little, and T.W. La Point|Distribution and Bioaccumulation of Selenium in Aquatic Microcosms|Environ. Pollut.62(1): 1-12|1989|10.1016/0269-7491(89)90091-2
9493|A||Pillai,M.K.K., P.K. Mittal, and H.C. Agarwal|Bioaccumulation, Metabolism and Elimination of DDT by the Fresh Water Clam Indonaia caerulea (Lea)|Indian J. Exp. Biol.18(12): 1439-1442|1980|
9495|A||Bennett,H.J., and J.W.,Jr. Day|Absorption of Endrin by the Bluegill Sunfish, Lepomis macrochirus|Pestic. Monit. J.3(4): 201-203|1970|
9496|A||Ray,S., D.W. McLeese, and M.R. Peterson|Accumulation of Copper, Zinc, Cadmium and Lead From Two Contaminated Sediments by Three Marine Invertebrates - a Laboratory Study|Bull. Environ. Contam. Toxicol.26(3): 315-322|1981|10.1007/BF01622096
9497|A||Peverly,J.H., and R.L. Johnson|Nutrient Chemistry in Herbicide-Treated Ponds of Differing Fertility|J. Environ. Qual.8(3): 294-300|1979|10.2134/jeq1979.00472425000800030006x
9498|A||Call,D.J., and L.T. Brooke|Report on Stonefly Toxicity Tests with Priority Pollutants|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI (Memo to R.E.Siefert, U.S.EPA, Duluth, MN):2 p.|1982|
9499|A||Sanders,J.G., J.H. Ryther, and J.H. Batchelder|Effects of Copper, Chlorine, and Thermal Addition on the Species Composition of Marine Phytoplankton|J. Exp. Mar. Biol. Ecol.49(1): 81-102|1981|10.1016/0022-0981(81)90149-0
9500|A||Shaffi,S.A.|Mercury Toxicity:  Biochemical and Physiological Alterations in Nine Freshwater Teleosts|Toxicol. Lett.8(3): 187-194|1981|10.1016/0378-4274(81)90048-5
9501|A||Stokes,P.M.|Multiple Metal Tolerance in Copper Tolerant Green Algae|J. Plant Nutr.3(1-4): 667-678|1981|10.1080/01904168109362869
9502|A||Sutherland,J., and C.W. Major|Internal Heavy Metal Changes as a Consequence of Exposure of Mytilus edulis, the Blue Mussel, to Elevated External Copper (II) Levels|Comp. Biochem. Physiol. C Comp. Pharmacol.68(1): 63-67|1981|10.1016/0306-4492(81)90038-1
9503|A||Boyle,T.P., S.E. Finger, R.L. Paulson, and C.F. Rabeni|Comparison of Laboratory and Field Assessment of Fluorene - Part II: Effects on the Ecological Structure and Function of Experimental Pond|ASTM Spec. Tech. Publ.:134-151|1985|
9504|A||DeNoyelles,F.,Jr., and W.D. Kettle|Experimental Ponds for Evaluating Bioassay Predictions|ASTM Spec. Tech. Publ.:91-103|1985|
9505|A||Viarengo,A., M. Pertica, G. Mancinelli, R. Capelli, and M. Orunesu|Effects of Copper on the Uptake of Amino Acids, on Protein Synthesis and on ATP Content in Different Tissues of Mytilus galloprovincialis Lam.|Mar. Environ. Res.4(2): 145-152|1980|10.1016/0141-1136(80)90052-5
9506|A||White,K.N., and G. Walker|Uptake, Accumulation, and Excretion of Zinc by the Barnacle, Balanus balanoides (L.)|J. Exp. Mar. Biol. Ecol.51(2-3): 285-298|1981|10.1016/0022-0981(81)90134-9
9507|A||Wong,M.H.|Toxic Effects of Cobalt and Zinc to Chlorella pyrenoidosa (26) in Soft and Hard Water|Microbios28(111): 19-26|1980|
9508|A||Wright,D.A., and J.W. Frain|Cadmium Toxicity in Marinogammarus obtusatus:  Effect of External Calcium|Environ. Res.24(2): 338-344|1981|10.1016/0013-9351(81)90164-X
9509|A||Wright,D.A., and J.W. Frain|The Effect of Calcium on Cadmium Toxicity in the Freshwater Amphipod, Gammarus pulex (L.)|Arch. Environ. Contam. Toxicol.10(3): 321-328|1981|10.1007/BF01055633
9510|A||Young,J.S., R.R. Adee, I. Piscopo, and R.L. Buschbom|Effects of Copper on the Sabellid Polychaete, Eduistylia vancouveri.  II.  Copper Accumulation and Tissue Injury in the Branchial Crown|Arch. Environ. Contam. Toxicol.10(1): 87-104|1981|10.1007/BF01057578
9512|A||Finger,S.E., E.F. Little, M.G. Henry, J.F. Fairchild, and T.P. Boyle|Comparison of Laboratory and Field Assessment of Fluorene - Part 1: Effects of Fluorene on the Survival, Growth, Reproduction, and Behavior of Aquatic Organisms in Laboratory Tests|ASTM Spec. Tech. Publ.:120-133|1985|
9513|A||Spieler,R.E., and D.N. Weber|Effects of Waterborne Lead on Circulating Thyroid Hormones and Cortisol in Rainbow Trout|Med. Sci. Res.19(15): 477-|1991|
9514|A||Harrass,M.C., and F.B. Taub|Comparison of Laboratory Microcosms and Field Responses to Copper|ASTM Spec. Tech. Publ.:57-74|1985|
9515|A||Bishop,D.G., and R.M. Smillie|The Effect of Chloramphenicol and Cycloheximide on Lipid Synthesis During Chloroplast Development in Euglena gracilis|Arch. Biochem. Biophys.137(1): 179-189|1970|10.1016/0003-9861(70)90059-7
9517|A||Boney,A.D.|Toxicity Studies with an Oil-Spill Emulsifier and the Green Alga Prasinocladus marinus|J. Mar. Biol. Assoc. U.K.50(2): 461-473|1970|10.1017/S0025315400004653
9518|A||Sarasquete,M.C., M.L. Gonzales de Canales, and S. Gimeno|Comparative Histopathological Alterations in the Diestive Gland of Marine Bivalves Exposed to Cu and Cd|Eur. J. Histochem.36(2): 223-232|1992|
9520|A||Brodtmann,N.V.J.|Studies on the Assimilation of 1,1,1-Trichloro-2,2-bis(p-Chlorophenyl) Ethane (DDT) by Crassostrea virginica Gmelin|Bull. Environ. Contam. Toxicol.5(5): 455-462|1970|10.1007/BF01559059
9521|A||Buchanan,D.V., R.E. Millemann, and N.E. Stewart|Effects of the Insecticide Sevin on Various Stages of the Dungeness Crab, Cancer magister|J. Fish. Res. Board Can.27(1): 93-104|1970|10.1139/f70-010
9522|A||Lan,W., and N. Chen|Acute Toxicity of Hg, Cu, Cd, Zn to Larvae of Red Sea Bream, Chrysophrys major|Mar. Sci.5:56-60|1991|
9523|A||Camargo,J.A., and J.V. Tarazona|Short-Term Toxicity of Fluoride Ion (F-) in Soft Water to Rainbow Trout (Salmo gairdneri) and Brown Trout (Salmo trutta fario)|Fluoride24(2): 76-83|1991|
9524|A||Cabejszek,I., and J. Maleszewska|The Effect of Methyl Parathion and Thiometon on the Oxygen Comsumption of Aquatic Organisms|Rocz. Panstw. Zakl. Hig. (Multiple Languages)21(1): 1-6|1970|
9525|A||Xia,Z., X. Lu, X. Wang, M. Tao, L. Zhou, and G. Dong|Mercurial Pollution Effects on Chaetoceros sp. in Seawater Under Limited Phosphorous Nutrient Conditions|J. Ocean Univ. Qingdao20(4): 93-99|1990|
9526|A||Stay,F.S., D.P. Larsen, A. Katko, and C.M. Rohm|Effects of Atrazine on Community Level Responses in Taub Microcosms|ASTM Spec. Tech. Publ.:75-90|1985|
9528|A||Chavin,W., and J.E. Young|Effects of Alloxan upon Goldfish (Carassius auratus L.)|Gen. Comp. Endocrinol.14(3): 438-460|1970|10.1016/0016-6480(70)90028-6
9529|A||Cheng,J.Y., and N.J. Antia|Enhancement by Glycerol of Phototrophic Growth of Marine Planktonic Algae and its Significance to the Ecology of Glycerol Pollution|J. Fish. Res. Board Can.27(2): 335-346|1970|10.1139/f70-039
9530|A|RUSSN|Chernyaev,Z.A.|Mechanism of the Action of Iron Dissolved in Water on Baikal Omul Spawn|In: A.V.Topachevskii (Ed.), Vopr.Vodn.Toksikol., Nauka, Moscow, USSR:211-213|1970|
9531|A||Sun,B., Z. Shi, and H. Cui|Toxicity of Copper to Phacodactylum tricornutum|J. Ocean Univ. Qingdao20(4): 9-18|1990|
9532|A||Buu,B., and Y. Le Gal|Cadmium Intoxication of the Common Cockle Cardium edule (Responses de la Coque Cardium edule a L'intoxication par le Cadmium)|Oceanis (Non-English)15(4): 591-597|1989|
9533|A||Christie,A.E.|Trisodium Nitrilotriacetate and Algae|Water Sewage Works117(2): 58-59|1970|
9534|A||Starzecka,A., T. Bednarz, M. Bombowna, E. Dumnicka, E. Grabacka, and B. Kawecka|The Development of Bacteria on the Background of Other Components of the Biocenosis of the River Nida (Southern Poland) Remaining Under the Influence of Surface Run-off from an Intensively Fertilized Meadow|Arch. Hydrobiol.113(2): 251-271|1988|10.1127/archiv-hydrobiol/113/1988/251
9535|A||Cope,O.B., E.M. Wood, and G.H. Wallen|Some Chronic Effects of 2,4-D on the Bluegill (Lepomis macrochirus)|Trans. Am. Fish. Soc.99(1): 1-12|1970|10.1577/1548-8659(1970)99<1:SCEODO>2.0.CO;2
9536|A||Davies,P.H., W.C. Gorman, C.A. Carlson, and S.F. Brinkman|Effect of Hardness on Bioavailability and Toxicity of Cadmium to Rainbow Trout|Chem. Spec. Bioavail.5(2): 67-77|1993|10.1080/09542299.1993.11083205
9537|A||Baticados,M.C.L., R.M. Coloso, and R.C. Duremdez|Studies on the Chronic Soft-Shell Syndrome in the Tiger Prawn, Penaeus monodon Fabricius, from Brackishwater Ponds|Aquaculture56(3/4): 271-285|1986|10.1016/0044-8486(86)90342-X
9538|A||Cox,J.L.|Low Ambient Level Uptake of 14C-DDT by Three Species of Marine Phytoplankton|Bull. Environ. Contam. Toxicol.5(3): 218-221|1970|10.1007/BF01558314
9539|A||Reddy,P.M.|Effect of Malathion on the Oxygen Consumption and Rate of Opercular Movement of Cyprinus carpio|Geobios15(1): 7-10|1988|
9540|A||Mao,S., and C. Wang|The Effect of Some Pollutants on SCE of Grass Carp (Ctenopharyngodon idellus) Cells|Haiyang Yu Huzhao (Non-English)21(3): 205-211|1990|
9542|A||De Souza,C.P., and E. Paulini|Effects of Suspensions of Organic Material on the Toxicity of Frescon (Trityl Morpholine)|Rev. Bras. Malariol. Doencas Trop.22(2-4): 417-421|1970|
9543|A||Weber,D.N.|Exposure to Sublethal Levels of Waterborne Lead Alters Reproductive Behavior Patterns in Fathead Minnows (Pimephales promelas)|Neurotoxicology14(2/3): 347-358|1993|
9544|A||Enesco,H.E., A. Wolanskyj, and M. Sawada|Effect of Copper on Lifespan and Lipid Peroxidation in Rotifers|Age (Omaha)12(1): 19-23|1989|10.1007/BF02432514
9546|A||Dimov,I., T. Marinov, Z. Dobrevska, and A. Konsulov|The Influence of Elevated Temperature, Hydrogen Sulphide, and Chlorine on Overgrowing Species of the Cooling System of the Varna Thermoelectric|Izv. Nauchno-Izsled. Inst. Ribno Stopkeanogr. Varna10:55-64|1970|
9547|A||Sun,B., L. Yap, Z. Shi, Y. Wang, and M. Xie|Effects of Chromium (VI) on the Growth Phytoplankton in Sea Water|J. Ocean Univ. Qingdao20(4): 1-8|1990|
9548|A||Zhang,X., L. He, H. Dang, and G. Tan|Mutagenetic Action of Ethyl Methanesulfonate on Spirulina platensis|Acta Oceanol. Sin.10(4): 625-627|1991|
9550|A||Verma,D.K.|Gas Liquid Chromatographic Analysis of DDT Residues in the Kidney of Labeo rohita|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(3): 327-329|1991|10.1002/aheh.19910190311
9551|A||Ellis,R.J.|Effects of Acetate on the Growth and Chlorophyll Content of Golenkinia|J. Phycol.6(4): 364-368|1970|10.1111/j.1529-8817.1970.tb02408.x
9552|A||Shrivastava,R.S., R.P. Singh, A. Sharma, and D.K. Verma|Accumulation of DDT Residues in the Testes of Channa punctatus (Bloch): A Gas Liquid Chromatographic Analysis|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(2): 245-248|1991|10.1002/aheh.19910190218
9553|A||Erickson,S.J., T.E. Maloney, and J.H. Gentile|Effect of Nitrilotriacetic Acid on the Growth and Metabolism of Estuarine Phytoplankton|J. Water Pollut. Control Fed.42(8 Pt.2): R329 - R335|1970|
9555|A||Ernst,W.|Metabolism of Pesticides in Marine Organisms. II. Biotransformation and Accumulation of DDT-14C in Flounder, Platichthys flesus|Veroeff. Inst. Meeresforsch. Bremerhav.12:353-360|1970|
9556|A||Finley,M.T., D.E. Ferguson, and J.L. Ludke|Possible Selective Mechanisms in the Development of Insecticide-Resistant Fish|Pestic. Monit. J.3(4): 212-218|1970|
9557|A|RUSSN|Flerov,B.A.|Chronic Phenol Poisoning of Lebistes reticulatus|In: A.V.Topachevskii (Ed.), Vopr.Vodn.Toksikol., Nauka, Moscow, USSR:163-168|1970|
9558|A||Rao,V.N.R., and G.M. Latheef|Effect of Copper on Artemia salina Linn. and of Skeletonema costatum (Grev.) Cleve as Feed|Comp. Physiol. Ecol.14(2): 41-48|1989|
9559|A||Fletcher,G.L., R.J. Hoyle, and D.A. Horne|Yellow Phosphorus Pollution: Its Toxicity to Sea-water Maintained Brook Trout (Salvelinus fontinalis) and Smelt (Osmerus mordax)|J. Fish. Res. Board Can.27(8): 1379-1384|1970|10.1139/f70-162
9560|A||Odzak,N., and T. Zvonaric|The Use of the Mytilus galloprovincialis Foot as Biological Indicator of Lead Contamination in Coastal Waters|Fresenius Environ. Bull.1(6): 370-375|1992|
9561|A||Ramamurthy,R., R. Nagaratnamma, B. Jayasundaramma, and R. Rao|Histopathological Lesions in the Gills of Freshwater Teleost, Cyprinus carpio Induced by Methyl Parathion|Matsya12/13:144-147|1986|
9563|A||Fowler,S.W., and L.F. Small|Distribution of Ingested Zinc-65 in the Tissues of Some Marine Crustaceans|J. Fish. Res. Board Can.27(6): 1051-1058|1970|10.1139/f70-121
9564|A||Fredeen,F.J.H., and J.R. Duffy|Insecticide Residues in Some Components of the St. Lawrence River Ecosystem Following Applications of DDD|Pestic. Monit. J.3(4): 219-226|1970|
9565|A||Narain,A.S., and B.B. Singh|Histopathological Lesions in Heteropneustes fossilis Subjected to Acute Thiodan Toxicity|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(2): 235-243|1991|10.1002/aheh.19910190216
9567|A||Gazzinelli,G., F.J. Ramalho-Pinto, J. Pellegrino, and B. Gilbert|Uptake of 59Fe as a Tool for Study of the Crowding Effect in Biomphalaria glabrata|Am. J. Trop. Med. Hyg.19(6): 1034-1037|1970|10.4269/ajtmh.1970.19.1034
9568|A||Girardi,F., M. Merlini, C. Bigliocca, G. Pozzi, and A. Berg|A Radiotracer Technique for the Study In Vivo of the Biological Pathway of Heavy Metals in Aquatic Organisms|In: Nuclear Techniques in Environmental Pollution, International Atomic Energy Agency (IAEA), Vienna, Austria:721-733|1971|
9569|T||Glavind,J., and E. Arffmann|The Possible Carcinogenic Properties of Altered Lipids|Acta Pathol. Microbiol Immunol. Scand. A 78(3): 345-350|1970|10.1111/j.1699-0463.1970.tb03310.x
9570|A||Mane,U.H., and D.V. Muley|Endosulfan Induced Toxicity to Lamellidens marginalis by Temperature Changes|Comp. Physiol. Ecol.14(3): 171-175|1989|
9571|A||Grant,B.F., and P.M. Mehrle|Chronic Endrin Poisoning in Goldfish, Carassius auratus|J. Fish. Res. Board Can.27(12): 2225-2232|1970|10.1139/f70-251
9572|A||Grishchenko,L.I.|Pathomorphological Changes in Pesticide-Poisoned Fish|Veterinaria (Mosk.) (Non-English)47(1): 62-63|1970|
9573|A||Lakshmi,R., R. Kundu, and A.P. Mansuri|Toxicity of Mercury to Mudskipper, Boleophthalmus dentatus (Cuv. and Val.). Part 1: Changes in the Activity of ATPAses in Gills|Acta Hydrochim. Hydrobiol. (Multiple Languages)18(5): 605-611|1990|10.1002/aheh.19900180514
9574|A||Gupta,R.S., and H.D. Kumar|The Effect of Maleic Hydrazide on Growth and Mutation of a Blue-Green Alga|Arch. Microbiol.70(4): 330-339|1970|
9575|A||Kulkarni,D.A., K.R. Rao, D.V. Muley, and U.H. Mane|Acute Toxicity of Endocel (Endosulfan) on Estuarine Edible Lamellibranch Mollusc, Paphia laterisulca from West Coast of India|Comp. Physiol. Ecol.14(4): 194-197|1989|
9576|A||Hansen,D.J., and A.J.,Jr. Wilson|Significance of DDT Residues from the Estuary near Pensacola, Fla|Pestic. Monit. J.4(2): 51-56|1970|
9577|A||Harriss,R.C., D.B. White, and R.B. MacFarlane|Mercury Compounds Reduce Photosynthesis by Plankton|Science170(3959): 736-737|1970|10.1126/science.170.3959.736
9578|A||Kagan,J., D. Sinnott, and E.D. Kagan|The Toxicity of Pyrene in the Fish Pimephales promelas:  Synergism by Piperonyl Butoxide and by Ultraviolet Light|Chemosphere16(10-12): 2291-2298|1987|10.1016/0045-6535(87)90286-4
9579|A||Hatfield,C.T., and L.G. Riche|Effects of Aerial Sumithion Spraying on Juvenile Atlantic Salmon (Salmo salar L.) and Brook Trout (Salvelinus fontinalis Mitchill) in Newfoundland|Bull. Environ. Contam. Toxicol.5(5): 440-442|1970|10.1007/BF01559055
9580|A||Kale,P.G., and A.M. Bhagwat|Effect of Copper on Catalase and Peroxidase Heterogeneity in Tilapia mossambica (Peters)|Matsya12-13:101-111|1986|
9582|A||Hazel,C.R., and S.J. Meith|Bioassay of King Salmon Eggs and Sac Fry in Copper Solutions|Calif. Fish Game56(2): 121-124|1970|
9583|A||Rao,C.S., and P. Neeraja|Transamination Pattern and Protein Levels in Selected Tissues of Fish Tilapia mossambica on Chronic Ammonia Stress|Environ. Ecol.7(4): 915-917|1989|
9584|A||Hirayama,K., and R. Hirano|Influences of High Temperature and Residual Chlorine on Marine Phytoplankton|Mar. Biol.7(3): 205-213|1970|10.1007/BF00367490
9585|A||Holland,H.T., and D.L. Coppage|Sensitivity to Pesticides in Three Generations of Sheepshead Minnows|Bull. Environ. Contam. Toxicol.5(4): 362-367|1970|10.1007/BF01539951
9586|A||McKim,J.M., G.M. Christensen, and E.P. Hunt|Changes in the Blood of Brook Trout (Salvelinus fontinalis) After Short-Term and Long-Term Exposure to Copper|J. Fish. Res. Board Can.27(10): 1883-1889|1970|10.1139/f70-210
9587|A||Kalafatic,M., D. Znidaric, A. Lui, and M. Wrischer|Effect of Insecticides (Dimiline WP 25, Torak EC 24 and Gamacide 20) on Hydra (Hydra vulgaris Pallas)|Int. J. Dev. Biol.35(3): 335-340|1991|
9588|A||Kaladharan,P., S.V. Alavandi, V.K. Pillai, and V.K. Balachandran|Inhibition of Primary Production as Induced by Heavy Metal Ions on Phytoplankton Populations Off Cochin|Indian J. Fish.37(1): 51-54|1990|
9589|A||John,K.R.|Histopathology and Protein Pattern of the Common Carp, Cyprinus carpio Linnaeus Exposed to Endosulfan|Mysore J. Agric. Sci.23(2): 284-285|1989|
9590|A||Ishii,Y., and Y. Hashimoto|Metabolic Fate of Carbaryl (1-Naphthyl N-Methyl Carbamate) Orally Administered to Carp, Cyprinus carpio|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)10:48-50|1970|
9591|A||Jackson,D.A., J.M. Anderson, and D.R. Gardner|Further Investigations of the Effect of DDT on Learning in Fish|Can. J. Zool.48(3): 577-580|1970|10.1139/z70-096
9592|A||Jansen,G.A., and N.M. Greene|Morphine Metabolism and Morphine Tolerance in Goldfish|Anesthesiology32(3): 231-235|1970|10.1097/00000542-197003000-00011
9593|A||James,R.|Individual and Combined Effects of Heavy Metals on Behaviour and Respiratory Responses of Oreochromis mossambicus|Indian J. Fish.37(2): 139-143|1990|
9595|A||Kameda,K., M. Shimizu, and Y. Hiyama|On the Uptake of 65Zn and Concentration Factor of Zn in Marine Organisms. II. Changes in Zn and 65Zn Concentration in Rearing Water|J. Radiat. Res.11(1): 44-52|1970|10.1269/jrr.11.44
9596|A||Hall,F., M. Morita, and J.B. Best|Neoplastic Transformation in the Planarian:  1.  Cocarcinogenesis and Histopathology|J. Exp. Zool.240(2): 211-228|1986|10.1002/jez.1402400209
9597|A||Ferrando,M.D., E. Andreu-Moliner, and A. Fernandez-Casalderrey|Relative Sensitivity of Daphnia magna and Brachionus calyciflorus to Five Pesticides|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(5): 511-522|1992|
9598|A||Bowen,G.M.R.|Joint Action of Sublethal Copper and Zinc on Locomotory Behaviour of Fathead Minnows|M.S. Thesis, University of Guelph, Ontario, Canada:100 p.|1990|
9599|A||Wildish,D.J., and J.K. Elner|Absence of Long-Term Changes in the Microbiology of Freshwater Ponds Treated with Matacil|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1049:17 p.|1981|
9601|A||Kirkwood,R.C., and W.W. Fletcher|Factors Influencing the Herbicidal Efficiency of MCPA and MCPB in Three Species of Micro-algae|Weed Res. (Multiple Languages)10(1): 3-10|1970|10.1111/j.1365-3180.1970.tb00917.x
9602|A||Konar,S.K.|Toxicity of Heptachlor to Aquatic Life|J. Water Pollut. Control Fed.42(8 Pt 2): R299 - R303|1970|
9605|A||Krueger,F.W., G. Walker, and M. Wiessler|Carcinogenic Action of Dimethylnitrosamine in Trout Not Related to Methylation of Nucleic Acids and Protein In Vivo|Experientia26(5):520-522|1970|10.1007/BF01898485
9607|A||U.S. Environmental Protection Agency|In-Depth Studies on Health and Environmental Impacts of Selected Water Pollutants|U.S.EPA Contract No.68-01-4646, Duluth, MN:9 p.|1978|
9608|A||Lane,C.E., D.B. Seba, and W.L. Hearn|Possible Metabolites of Dieldrin in the Sailfin Mollie (Poecilia latipinna)|Proc. Soc. Exp. Biol. Med.133(4): 1375-1377|1970|10.3181/00379727-133-34693
9609|A||Scrivener,J.C., and S. Carruthers|Changes in the Invertebrate Populations of the Main Stream and Back Channels of Carnation Creek, British Columbia Following Spraying with the Herbicide ROUNDUP (Glyphosate)|FRDA Rep.:263-272|1989|
9613|A||Nevo,E., R. Noy, B. Lavie, A. Beiles, and S. Muchtar|Genetic Diversity and Resistance to Marine Pollution|Biol. J. Linn. Soc.29(2): 139-144|1986|10.1111/j.1095-8312.1986.tb01828.x
9614|A||Piska,R.S., and S. Waghray|Toxic Effects of Dimethoate on Primary Production of Lake Ecosystem|Indian J. Environ. Health33(1): 126-127|1991|
9615|A||Lincer,J.L., J.M. Solon, and J.H. Nair III|DDT and Endrin Fish Toxicity Under Static Versus Dynamic Bioassay Conditions|Trans. Am. Fish. Soc.99(1): 13-19|1970|10.1577/1548-8659(1970)99<13:DAEFTU>2.0.CO;2
9616|A||Lindahl,P.E., and C.E.B. Hell|Effects of Short-Term Exposure of Leuciscus rutilus L. (Pisces) to Phenylmercuric Hydroxide|Oikos21(2): 267-275|1970|
9617|A||Loeb,H.A., and R. Engstrom-Heg|Time-Dependent Changes in Toxicity of Rotenone Dispersions to Trout|Toxicol. Appl. Pharmacol.17(3): 605-614|1970|10.1016/0041-008X(70)90035-9
9619|A||Loppes,R.|Growth Inhibition by NH4+ Ions in Arginine-Requiring Mutants of Chlamydomonas reinhardi|Mol. Gen. Genet.109(3): 233-240|1970|10.1007/BF00267011
9620|A||Loppes,R.|Selection of Arginine-Requiring Mutants in Chlamydomonas reinhardi After Treatment with Three Mutagens|Experientia26(6): 660-661|1970|10.1007/BF01898750
9621|A||Arunlertarce,C., and H. Kawatsu|Acute Toxicity of Paraquat to Various Developmental Stages of Common Carp, Cyprinus carpio Linneaus|Fish Pathol.27(2): 63-68|1992|10.3147/jsfp.27.63
9622|A||Knap,A.H., J.E. Solbakken, R.E. Dodge, T.D. Sleeter, S.J. Wyers, and K.H. Palmork|Accumulation and Elimination of (9-14C) Phenanthrene in the Reef-Building Coral (Diploria strigosa)|Bull. Environ. Contam. Toxicol.28(3): 281-284|1982|10.1007/BF01608508
9623|A||Macek,K.J., C.R. Rodgers, D.L. Stalling, and S. Korn|The Uptake, Distribution and Elimination of Dietary 14C-DDT and 14C-Dieldrin in Rainbow Trout|Trans. Am. Fish. Soc.99(4): 689-695|1970|10.1577/1548-8659(1970)99<689:TUDAEO>2.0.CO;2
9624|A||An,Y., and Z. He|Toxicity of Four Heavy Metals in Marine Water to Moina mongolica|Shuichan Xuebao (Non-English)15(4): 273-282|1991|
9625|A||Oliver,B.G.|The Relationship Between Bioconcentration Factor in Rainbow Trout and Physical-Chemical Properties for Some Halogenated Compounds|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:301-317|1984|
9627|A||Pascoe,D., K.A. Williams, and D.W.J. Green|Chronic Toxicity of Cadmium to Chironomus riparius Meigen - Effects upon Larval Development and Adult Emergence|Hydrobiologia (Multiple Languages)175(2): 109-115|1989|10.1007/BF00765121
9628|A||Zachariassen,K.E., T. Aunaas, J.F. Borseth, S. Einarson, T. Nordtug, A. Olsen, and G. Skjervo|Physiological Parameters in Ecotoxicology|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 77-79|1991|10.1016/0742-8413(91)90126-E
9629|A||Malone,C.R., and B.G. Blaylock|Toxicity of Insecticide Formulations to Carp Embryos Reared In Vitro|J. Wildl. Manag.34(2): 460-463|1970|10.2307/3799034
9630|A||Kollig,H.P.|Biotransformation Rates of the Butoxyethyl Ester of 2,4-D by Bottom and Surface Aufwuchs|Chemosphere14(11-12): 1779-1787|1985|10.1016/0045-6535(85)90120-1
9631|A||Wester,P.W., and J.H. Canton|The Usefulness of Histopathology in Aquatic Toxicity Studies|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1/2): 115-117|1991|10.1016/0742-8413(91)90135-G
9632|A||Yasuno,M., J. Okita, K. Saito, Y. Nakamura, S. Hatakeyama, and S. Kasuga|Effects of Fenitrothion on Benthic Fauna in Small Streams of Mt. Tsukuba, Japan|Jpn. J. Ecol.31(5): 237-245|1981|
9633|A||Mathur,D.S.|Histopathological Changes in the Intestine, Kidney and Ovaries of Certain Fishes Induced by Benzene Hexachloride and Dieldrin|Toxicon8(2): 141-142|1970|
9634|A||Matsuo,K., and T. Tamura|Laboratory Experiments on the Effect of Insecticides Against Blackfly Larvae (Diptera: Simuliidae) and Fishes|Sci. Pest Control (Botyu-Kagaku)35(4): 125-130|1970|
9637|A||Van Sprang,P., P. Leger, and P. Sorgeloos|A New Test System for the Evaluation of Toxic Levels of Liposoluble Products in the Aquatic Food Chain Using Artemia and Mysidopsis bahia as|Aquat. Toxicol.19:319-328|1991|10.1016/0166-445X(91)90056-F
9638|A||Bonning,B.C., and J. Hemingway|The Efficacy of Acetylcholinesterase in Organophosphorus and Carbamate Resistance in Culex pipiens L. from Italy|Pestic. Biochem. Physiol.40(2): 143-148|1991|10.1016/0048-3575(91)90109-Y
9639|A||McCahon,C.P., and D. Pascoe|Cadmium Toxicity to the Freshwater Amphipod Gammarus pulex (L.) During the Moult Cycle|Freshw. Biol.19(2): 197-203|1988|10.1111/j.1365-2427.1988.tb00342.x
9640|A||McReynolds,H.E.|Practicality of Endrin as a Fish Toxicant|Proc. Indiana Acad. Sci79:148-161|1970|
9642|A||Schaefer,C.H., and F.S. Mulligan III|Potential for Resistance to Pyriproxyfen: A Promising New Mosquito Larvicide|Am. Mosq. Control Assoc. J.7(3): 409-411|1991|
9643|A||Milad,A.B., G. Tadros, A.F. Abdel Ghani, and G.E. Mawla|Laboratory Studies with the Molluscicide N-Tritylomorpholine on Lymnaea cailliaudi and L. alexandrina Snails, Intermediate Hosts of Fasciola Gigantic and Gambosia Fish|Proc. 9th Arab Annu. Vet. Congr. , Egypt. Vet. Med. Assoc. , Cairo, UAR:217-225|1970|
9644|A||Miller,W.O., and L.K. Cochran|Results Obtained with Dursban Insecticide Applied to a Salt Marsh Habitat|Down Earth26(2): 17-21|1970|
9645|A||Minchew,C.D., and D.E. Ferguson|Toxicities of Six Insecticides to Resistant and Susceptible Green Sunfish and Golden Shiners in Static Bioassays|J. Miss. Acad. Sci.15:29-32|1970|
9646|A||Pickwell,G.V., and S.A. Steinert|Uptake and Accumulation of Organotin Compounds by Oyster and Mussel Hemocytes: Correlation with Serum Biochemical and Cytological Factors and|Aquat. Toxicol.11(3-4): 419-420|1988|10.1016/0166-445X(88)90120-8
9647|A||Murphy,P.G.|Effects of Salinity on Uptake of DDT, DDE and DDD by Fish|Bull. Environ. Contam. Toxicol.5(5): 404-407|1970|10.1007/BF01559049
9648|A||Hester,P.G., M.A. Olson, and J.C. Dukes|Effects of Arosurf MSF on a Variety of Aquatic Nontarget Organisms in the Laboratory|Am. Mosq. Control Assoc. J.7(1): 48-51|1991|
9649|A||Gossiaux,D.C., P.F. Landrum, and V.N. Tsymbal|Response of the Amphipod Diporeia spp. to Various Stressors: Cadmium, Salinity, and Temperature|J. Great Lakes Res.18(3): 364-371|1992|10.1016/S0380-1330(92)71304-5
9650|A||Prasad,M., and M. Shil|Histopathology of Skin of the Catfish, Heteropneustes fossilis: Short-Term Effects of Mercuric Chloride|J. Fish Dis.16(2):143-147|1993|10.1111/j.1365-2761.1993.tb00858.x
9651|A||Premdas,P.D., and B. Kendrick|The Effects of 2,4-Dichlorophenoxyacetic Acid, Pentachlorophenol and Mixtures of These on an Aero-Aquatic Fungus|J. Freshw. Ecol.6(2): 147-154|1991|10.1080/02705060.1991.9665288
9652|A||Necas,J.|The Growth Rate Variability of Chlorella vulgaris Beijer. Clones Grown After Mutagen Treatment Under Autotrophic or Heterotrophic Conditions on the Surface of a Solid Medium|Biol. Plant. (Praha)12(5): 359-367|1970|10.1007/BF02922190
9653|A||Best,J.B., and M. Morita|Toxicology of Planarians|Hydrobiologia (Multiple Languages)227:375-383|1991|10.1007/BF00027626
9654|A||Newsted,J.L., and J.P. Giesy|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on the Epidermal Growth Factor Receptor in Hepatic Plasma Membranes of Rainbow Trout (Oncorhynchus mykiss)|Toxicol. Appl. Pharmacol.119:41-51|1993|10.1006/taap.1993.1042
9655|A||Nimmo,D.R., A.J.,Jr. Wilson, and R.R. Blackman|Localization of DDT in the Body Organs of Pink and White Shrimp|Bull. Environ. Contam. Toxicol.5(4): 333-341|1970|10.1007/BF01539947
9656|AT||Oberheu,J.C., R.D. Soule, and M.A. Wolf|The Correlation of Cholinesterase Levels in Test Animals and Exposure Levels Resulting from Thermal Fog and Aerial Spray Applications of Dursban Insecticide|Down Earth26(1): 12-16|1970|
9657|A||Poirier,D.G., and G.A. Surgeoner|Evaluation of a Field Bioassay Technique to Predict the Impact of Aerial Applications of Forestry Insecticides on Stream Invertebrates|Can. Entomol.120(7): 627-637|1988|10.4039/Ent120627-7
9658|A||Gates,V.L., and R.S. Tjeerdema|Disposition and Biotransformation of Pentachlorophenol in the Striped Bass (Morone saxatilis)|Pestic. Biochem. Physiol.46(2): 161-170|1993|10.1006/pest.1993.1047
9659|AT||Parker,B.L., J.E. Dewey, and C.A. Bache|Carbamate Bioassay Using Daphnia magna|J. Econ. Entomol.63(3): 710-714|1970|10.1093/jee/63.3.710
9660|A||Srivastava,S.K., P.R. Tiwari, and A.K. Srivastava|Chlorpyrifos - Induced Histological Changes in the Gill of Freshwater Catfish, Heteropneustes fossilis|Bol. Fisiol. Anim.13:23-28|1989|
9662|A||Duncan,J., and J.W. Pavlik|Effects of Structural Rearrangement on the Molluscicidal Activity of Certain Fluorinated Aromatic Compounds|Bull. W. H. O.42(5): 820-825|1970|
9663|A||Price,K.C.|Effects of the Herbicide Silvex (PGBEE) on Farm Pond Fishes and Invertebrates|M.S.Thesis, La.State Univ., Baton Rouge, LA:57 p.|1967|
9664|A||Peaslee,M.H.|Influence of DDT upon Pituitary Melanocyte-Stimulating Hormone (MSH) Activity in the Anuran Tadpole|Gen. Comp. Endocrinol.14(3): 594-595|1970|10.1016/0016-6480(70)90044-4
9665|A||De Souza,C.P., and E. Paulini|Absorption of Molluscicides by Calcium Carbonate (Absorcao de Moluscicida pelo Carbonato de Calcio)|Rev. Bras. Malariol. Doencas Trop.21(4): 799-818|1970|
9666|A||Perkins,E.J.|Some Effects of Detergents in the Marine Environment|Chem. Ind. (Lond.)1:14-22|1970|
9667|A||Birdsong,C.L.|Toxicity of Certain Chemicals to Juvenile Pompano, Trachinotus carolinus|M.S.Thesis, La.State Univ., Baton Rouge, LA:36 p.|1969|
9669|A||Cardullo,P.A.|A 31P NMR Spectroscopy Study of the Effects of Malathion on Rivulus marmoratus Poey|M.S.Thesis, Florida Institute of Technology, Melbourne, FL:39 p.|1992|
9670|A||Popova,G.V.|Hematological Indexes During an Evaluation of the Toxicity of Pesticides for Fish|Eksp. Vodn. Toksikol. (Non-English):19-29|1970|
9671|A||Kosanke,G.J., W.W. Schwippert, and T.W. Beneke|The Impairment of Mobility and Development in Freshwater Snails (Physa fontinalis and Lymnaea stagnalis) Caused by Herbicides|Comp. Biochem. Physiol. C Comp. Pharmacol.90(2): 373-379|1988|10.1016/0742-8413(88)90013-8
9672|A||Cain,J.R., and R.K. Allen|Use of a Cell Wall-Less Mutant Strain to Assess the Role of the Cell Wall in Cadmium and Mercury Tolerance by Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.25(5): 797-801|1980|10.1007/BF01985610
9673|A||Ray,J., and V. Stevens|Using Baytex to Control Crayfish in Ponds|Prog. Fish-Cult.32(1): 58-60|1970|10.1577/1548-8640(1970)32[58:UBTCCI]2.0.CO;2
9674|A||Mattson,N.S., E. Egidius, and J.E. Solbakken|Uptake and Elimination of (Methyl-14C) Trichlorfon in Blue Mussel (Mytilus edulis) and European Oyster (Ostrea edulis)-Impact of Neguvon Disposal on|Aquaculture71(1-2): 9-14|1988|10.1016/0044-8486(88)90268-2
9675|A||Reish,D.J.|The Effects of Varying Concentrations of Nutrients, Chlorinity, and Dissolved Oxygen on Polychaetous Annelids|Water Res.4(11): 721-735|1970|10.1016/0043-1354(70)90009-6
9676|A||De Mond,D.K.|The Effect of Pentachlorophenate on Temperature Selection of the Bluegill, Lepomis macrochirus|M.S.Thesis, University of Southern Mississippi, Hattiesburg, MS:79 p.|1979|
9677|A||Rodgers,C.A.|Uptake and Elimination of Simazine by Green Sunfish (Lepomis cyanellus Raf.)|Weed Sci.18(1): 134-136|1970|10.1017/S0043174500077535
9678|A||Rose,F.L., and C.D. McIntire|Accumulation of Dieldrin by Benthic Algae in Laboratory Streams|Hydrobiologia (Multiple Languages)35(3-4): 481-493|1970|10.1007/BF00184572
9679|AT||America,T.C.I.|Organic Chemicals, Laboratory Organics Fine and Specialty Organics Mfg., 91/92 Catalog|TCI America, Portland, OR:1405 p.|1991|
9680|A||Russell,G., and O.P. Morris|Copper Tolerance in the Marine Fouling Alga Ectocarpus siliculosus|Nature228(5268): 288-289|1970|10.1038/228288a0
9682|A||Salazar,M.H., and S. Salazar|Mussels as Bioindicators: Effects of TBT on Survival, Bioaccumulation and Growth Under Natural Conditions|In: M.A.Champ and P.F.Seligman (Eds.), Organotin: Environmental Fate and Effects, Chapman and Hall, London:43 p.|1993|
9683|A||Salazar,M.H., and S.M. Salazar|Tributyltin and Mussel Growth in San Diego Bay|In: Oceans 88, IEEE Publishing Services, New York, NY:1188-1197|1988|
9685|A||Salazar,M.H., and S.M. Salazar|Tributyltin Effects on Juvenile Mussel Growth|In: Oceans 87, IEEE Publishing Services, New York, NY4:1504-1510|1987|
9686|A||Saxena,P.K., and S. Aggarwal|Toxicity of Some Insecticides to the Indian Cat-Fish, Heteropneustes fossilis (Bloch)|Anat. Anz.127:502-503|1970|
9687|A||Watts,M.M., and D. Pascoe|Use of the Freshwater Macroinvertebrate Chironomus riparius (Diptera:  Chironomidae) in the Assessment of Sediment Toxicity|Water Sci. Technol.34(7-8): 101-107|1996|10.2166/wst.1996.0607
9688|A||Schulz,D.|Studies on the Side Effects of the Herbicide NATA (Sodium Trichloracetate) on Carp|Zentbl. Vetmed. Reihe A17(3): 230-251|1970|10.1111/j.1439-0442.1970.tb02049.x
9689|A||Schulz,D.|Research into the Side Effects of the Herbicide NATA (Sodium Trichloracetate) on Carp. Part II: The Ventral Abdominal Wall|Berl. Muench. Tierarztl. Wochenschr.83(13): 258-264|1970|
9690|A||Lane,C.E., and E.D. Scura|Effects of Dieldrin on Glutamic Oxaloacetic Transaminase in Poecilia latipinna|J. Fish. Res. Board Can.27(10): 1869-1871|1970|10.1139/f70-206
9691|A||Ettajani,H., C. Amiard-Triquet, A.Y. Jeantet, and J.C. Amiard|Fate and Effects of Soluble or Sediment-Bound Arsenic in Oysters (Crassostrea gigas Thun.)|Arch. Environ. Contam. Toxicol.31(1): 38-46|1996|10.1007/BF00203905
9695|A||King,E.L.J., and J.A. Gabel|Comparative Toxicity of the Lampricide 3-Trifluoromethyl-4-Nitrophenol to Ammocetes of Three Species of Lampreys|Tech. Rep. Great Lakes Fish. Comm.47:1-5|1985|
9696|A||Kranz,H., and J. Gercken|Effects of Sublethal Concentrations of Potassium Dichromate on the Occurrence of Splenic Melanomacrophage Centres in Juvenile Plaice, Pleuronectes plates|J. Fish Biol.31 (Suppl. A): 75-80|1987|10.1111/j.1095-8649.1987.tb05296.x
9697|A||Skidmore,J.F.|Respiration and Osmoregulation in Rainbow Trout with Gills Damaged by Zinc Sulphate|J. Exp. Biol.52(2): 481-494|1970|10.1242/jeb.52.2.481
9698|A||Bills,T.D., L.L. Marking, and J.J. Rach|Toxicity of the Lampricides 3-Trifluoromethyl-4-Nitrophenol (TFM) and 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) to Eggs and Nymphs of the Mayfly|Tech. Rep. Great Lakes Fish. Comm.47:13-23|1985|
9699|A||Smith,L.L.J., and D.M. Oseid|Toxic Effects of Hydrogen Sulfide to Juvenile Fish and Fish Eggs|Proc. Ind. Waste Conf.137(2): 739-744|1970|
9700|A||Jackim,E., J.M. Hamlin, and S. Sonis|Effects of Metal Poisoning on Five Liver Enzymes in the Killifish (Fundulus heteroclitus)|J. Fish. Res. Board Can.27(2): 383-390|1970|10.1139/f70-043
9701|A||Jaiswal,K., R. Nagabhushanam, and R. Sarojini|Naphthalene Toxicity Induced Variation in Protein, RNA and DNA in the Tissue of Freshwater Prawn, Macrobrachium kistnensis|Uttar Pradesh J. Zool.7(2): 180-186|1987|
9702|A||Goodman,L.R., M.J. Hemmer, D.P. Middaugh, and J.C. Moore|Effects of Fenvalerate on the Early Life Stage of Topsmelt (Atherinops affinis)|Environ. Toxicol. Chem.11(3): 409-414|1992|10.1002/etc.5620110315
9703|A||Stroganov,N.S., V.G. Khobot'ev, D.A. Kochkin, L.V. Kolosova, and G.E. El'Khanov|Toxic Action of Some Organometallic Compounds on Hydrobionts. I. Action of Alkylmethacryloxy-Plumbanes|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)10:13-17|1970|
9704|A||Studnicka,M.|Investications on the Remnants of the Phospho-organic Compound Foschlor in Tissues of Fishes Subjected to the Treatment with the Preparation|Pol. Arch. Weter.13(3): 107-121|1970|
9705|A||Sutton,D.L., and S.W. Bingham|Uptake and Translocation of 2,4-D-1-14C in Parrot-Feather|Weed Sci.18(2): 193-196|1970|10.1017/S0043174500079534
9706|A||Sutton,D.L., L.W. Weldon, and R.D. Blackburn|Effect of Diquat on Uptake of Copper in Aquatic Plants|Weed Sci.18(6): 703-707|1970|10.1017/S0043174500034585
9707|A||Trams,E.G., and E.A.B. Brown|Metabolism of Quinaldine (2-Methylquinoline).  Uptake and Excretion by Nurse Sharks|Life Sci.9(1, Pt.2): 27-35|1970|10.1016/0024-3205(70)90185-2
9708|A||Tsay,S.F., J.M. Lee, and J.Q. Lynd|The Interaction of Cu++ and Cn- with Paraquat Phytotoxicity to Chlorella|Weed Sci.18(5): 596-598|1970|10.1017/S0043174500034287
9710|A||Netherland,M.D., and C.A. Lembi|Gibberellin Synthesis Inhibitor Effects on Submersed Aquatic Weed Species|Weed Sci.40:29-36|1992|10.1017/S0043174500056903
9711|A||Darmono,G.R.W.D., and R.S.F. Campbell|The Pathology of Cadmium and Nickel Toxicity in the Banana Shrimp (Penaeus merguiensis de Man)|Asian Fish. Sci.3(3): 287-297|1990|10.33997/j.afs.1990.3.3.002
9712|A||Van Jaarsveld,J.H.|Laboratory Study on the Toxicity of Dieldrin to Fresh Water Invertebrates|Phytophylactica2:269-274|1970|
9713|A||Rainbow,P.S.|Accumulation of Zn, Cu and Cd by Crabs and Barnacles|Estuar. Coast. Shelf Sci.21(5): 669-686|1985|10.1016/0272-7714(85)90065-4
9714|A||Nias,D.J., S.C. McKillup, and K.S. Edyvane|Imposex in Lepsiella vinosa from Southern Australia|Mar. Pollut. Bull.26(7): 380-384|1993|10.1016/0025-326X(93)90185-M
9715|A||Yamane,A.N., M. Okada, and R. Sudo|Inhibitory Effects of Laundry Detergents on the Growth of Freshwater Algae|Suishitsu Odaku Kenkyu7(9): 576-582|1984|
9716|A||Oppenborn,J.B., and C.A. Goudie|Acute and Sublethal Effects of Ammonia on Striped Bass and Hybrid Striped Bass|J. World Aquac. Soc.24(1): 90-101|1993|10.1111/j.1749-7345.1993.tb00154.x
9717|A||Kobayashi,N.|Marine Pollution Bioassay by Sea Urchin Eggs, an Attempt to Enhance Sensitivity|Publ. Seto Mar. Biol. Lab.34(4-6): 225-237|1990|10.5134/176165
9719|A||Migliore,L., and M. De Nicola Guidici|Effect of Heavy Metals (Hg, Cd, Cu and Fe) on Two Species of Crustacean Isopods, Asellus aquaticus (L.) and Proasellus coxalis Dollf.|Verh. Int. Ver. Theor. Angew. Limnol.23(3): 1655-1659|1988|
9720|A||Wheeler,W.B.|Experimental Absorption of Dieldrin by Chlorella|J. Agric. Food Chem.18(3): 416-419|1970|10.1021/jf60169a039
9721|A||Whitley,L.S., and R.A. Sikora|The Effect of Three Common Pollutants on the Respiration Rate of Tubificid Worms|J. Water Pollut. Control Fed.42(2): R57 - R66|1970|
9722|A||De Nicola Guidici,M., and L. Migliore|Long Term Effect of Cadmium or Copper on Asellus aquaticus (L.) (Crustacea, Isopoda)|Verh. Int. Ver. Theor. Angew. Limnol.23(3): 1660-1662|1988|
9723|A||Norrgren,L., and E. Degerman|Effects of Different Water Qualities on the Early Development of Atlantic Salmon and Brown Trout Exposed In Situ|Ambio22(4): 213-218|1993|
9724|A||Kale,S.P., and K. Raghu|Fate of 14C Nitrofen in Rice Paddy Ecosystem|Bull. Environ. Contam. Toxicol.42(4): 544-547|1989|10.1007/BF01700235
9725|A||Yeo,R.R.|Dissipation of Endothall and Effects on Aquatic Weeds and Fish|Weed Sci.18(2): 282-284|1970|10.1017/S0043174500079765
9726|A||Young,C.W., F.J. Hendler, E. Simmel, and D.A. Karnofsky|Studies on 2-Piperidino-8-Mercaptoadenine, a Potent Inhibitor of Cleavage in Echinoderm Embryos|Exp. Cell Res.60(1): 45-53|1970|10.1016/0014-4827(70)90487-8
9727|A||Zamfir,G., L. Raileanu, R. Avadanii, and A. Dragomirescu|Biochemical Alterations of Some Sub-lethal Tetradifon Doses. (Modificari Biochimice Ale Unor Doze Sublethale De Tetradifon)|Igiena (Non-English)21(11): 665-670|1972|
9728|A||Gill,T.S., J. Pande, and H. Tewari|Hemopathological Changes Associated with Experimental Aldicarb Poisoning in Fish (Puntius conchonius Hamilton)|Bull. Environ. Contam. Toxicol.47(4): 628-633|1991|10.1007/BF01700956
9730|A|OECDG|Rodriguez,E.M., and O.A. Amin|Acute Toxicity of Parathion and 2,4-D to Larval and Juvenile Stages of Chasmagnathus granulata (Decapoda, Brachyura)|Bull. Environ. Contam. Toxicol.47(4): 634-640|1991|10.1007/BF01700957
9731|A||Zitko,V., D.E. Aiken, S.N. Tibbo, K.W.T. Besch, and J.M. Anderson|Toxicity of Yellow Phosphorus to Herring (Clupea harengus), Atlantic Salmon (Salmo salar), Lobster (Homarus americanus), and Beach Flea (Gammarus oceanicus)|J. Fish. Res. Board Can.27(1): 21-29|1970|10.1139/f70-003
9732|A||Giddings,J.M., and G.K. Eddlemon|The Effects of Microcosm Size and Substrate Type on Aquatic Microcosm Behavior and Arsenic Transport|Arch. Environ. Contam. Toxicol.6(4): 491-505|1977|10.1007/BF02097788
9733|A||Pollard,S.,Jr., and J.A. Adams|Artificially Induced Metamorphosis Acetone in Acris gryllus|Arch. Environ. Contam. Toxicol.17(4):419-428|1988|10.1007/BF01055506
9734|A||Kwan,K.H.M., and S. Smith|The Effect of Thallium on the Growth of Lemna minor and Plant Tissue Concentrations in Relation to Both Exposure and Toxicity|Environ. Pollut.52(3): 203-219|1988|10.1016/0269-7491(88)90004-8
9735|A||Rafiee,P., C.O. Matthews, J.C. Bagshaw, and T.H. MacRae|Reversible Arrest of Artemia Development by Cadmium|Can. J. Zool.64(8): 1633-1641|1986|10.1139/z86-246
9736|A||O'Keeffe,D.H., T.E. Wiese, and M.R. Benjamin|Effects of Positional Isomerism on the Uptake of Monosubstituted Phenols by the Water Hyacinth|In: K.R.Reddy and W.H.Smith (Eds.), Aquatic Plants for Water Treatment and Resource Recovery, Magnolia Publ., Inc.:505-512|1987|
9737|A||Andryushchenko,V.V., and O.N. Khokhryakova|Accumulation and Elimination of DDT in the Barents Sea Pollock (Pollachius virens)|Hydrobiol. J.16(1):47-50|1980|
9738|A||Ojaveer,E., J. Annist, H. Jankowski, T. Palm, and T. Raid|On Effect of Copper, Cadmium and Zinc on the Embryonic Development of Baltic Spring Spawning Herring|Finn. Mar. Res.247:135-140|1980|
9739|A||Armstrong,J.B., and L.L. Gillespie|Dominant Lethal Induction by Ethyl Methanesulfonate in the Male Axolotl (Ambystoma mexicanum)|J. Exp. Zool.212(3): 415-421|1980|10.1002/jez.1402120314
9740|A||Slooff,W., and R. Baerselman|Comparison of the Usefulness of the Mexican Axolotl (Ambystoma mexicanum) and the Clawed Toad (Xenopus laevis) in Toxicological Bioassays|Bull. Environ. Contam. Toxicol.24(3): 439-443|1980|10.1007/BF01608136
9741|A||Mazhar,F.M., M.A. Ashry, and S.M. Kadry|The Accumulation of Inorganic Mercury by the Freshwater Catfish Clarias lazera|Proc. Zool. Soc. U.A.R.12:59-73|1986|
9742|A||Mazhar,F.M., M.A. Ashry, and S.M. Kadry|Effects of Environmental Pollution on the Histological Features of the Major Organs of the Nile Catfish Clarias lazera|Proc. Zool. Soc. U.A.R.12:75-89|1986|
9743|A||Banerjee,S.K., P.K. Mukhopadhyay, and P.V. Dehadrai|Studies of Environmental Pollutants on Air-Breathing Fish (Clarias batrachus, L.) and Non-Air-Breathing Fish (Tilapia mossambica Peters)|In: S.W.Nielsen, G.Magaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT12:378-|1979|
9744|A||Batey,B.H., and M.R. Wells|Effects of p,p'-DDT, p,p'-DDD, and p,p'-DDE on Oxygen Uptake in the Freshwater Planarian (Phagocata gracilis)|Bull. Environ. Contam. Toxicol.24(1): 128-133|1980|10.1007/BF01608086
9745|A||Morrison,G.E., and E.A. Petrocelli|Suitability of Mulinia lateralis as a Euryhaline Toxicity Test Species|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774(1): 337-339|1991|
9746|A||Bengtsson,B.E.|Long-Term Effects of PCB (Clophen A50) on Growth, Reproduction and Swimming Performance in the Minnow, Phoxinus phoxinus|Water Res.14(6): 681-687|1980|10.1016/0043-1354(80)90127-X
9747|A||Mazhar,F.M., M.A. Ashry, and S.M. Kadry|Effects of Environmental Pollution by Mercury on Blood Parameters of the Nile Catfish Clarias lazera|Proc. Zool. Soc. U.A.R.13:247-256|1987|
9748|A||Bergsjoe,T., and E. Soegnen|Plasma and Tissue Levels of Trimethorprim in the Rainbow Trout, Salmo gairdneri, After Absorption from Fresh and Salt Water|Acta Vet. Scand.21(1): 18-25|1980|10.1186/BF03546896
9749|A||Beritic,T., J. Zibar-Sikic, D. Prpic-Majic, and M. Tudor|Some Morphological and Biochemical Hematological Parameters of Abnormal Lead Absorption in Fish|In: M.Branica and Z.Konrad (Eds.), Lead Marine Environment, Pergamon Press, Oxford, England:263-269|1980|
9750|A||Bhagyalakshmi,A., and R. Ramamurthi|Recovery of Acetylcholinesterase Activity From Fenitrothion-Induced Inhibitionin the Freshwater Field Crab (Oziotelphusa senex senex)|Bull. Environ. Contam. Toxicol.24(6): 866-869|1980|10.1007/BF01608203
9751|A||Saleh,H.H.|Study on the Uptake of DDT by Tilapia zillii (Gerv) Living in Fresh or Saline Water|Bull. Inst. Oceanogr. Fish. (Cairo)10:25-33|1984|
9752|A||Fajt,J.R., and J.M. Grizzle|Oral Toxicity of Rotenone for Common Carp|Trans. Am. Fish. Soc.122(2): 302-304|1993|10.1577/1548-8659(1993)122<0302:OTORFC>2.3.CO;2
9754|A||Blasiola,G.C.,Jr., R.P. Dempster, and P. Morales|Uptake Studies of Ampicillin, Nitrofurazone and Oxytetracycline in Carp, Cyprinus carpio, with Special Reference to Use of Antibacterials in Aquaria and Notes on Heparin as an Anticoagulant|J. Aquaric.1(1): 1-5|1980|
9755|A||Reish,D.J.|Effects of Metals and Organic Compounds on Survival and Bioaccumulation in Two Species of Marine Gammaridean Amphipod, Together with a Summary of Toxicological Research on this Group|J. Nat. Hist.27(4): 781-794|1993|10.1080/00222939300770471
9756|A||Bolis,L., and J.C. Rankin|Interactions Between Vascular Actions of Detergent and Catecholamines in Perfused Gills of European Eel, Anguilla anguilla L. and Brown Trout, Salmo|J. Fish Biol.16(1): 61-73|1980|10.1111/j.1095-8649.1980.tb03686.x
9757|A||Borgmann,U.|Interactive Effects of Metals in Mixtures on Biomass Production Kinetics of Freshwater Copepods|Can. J. Fish. Aquat. Sci.37(8): 1295-1302|1980|10.1139/f80-165
9758|A||Borgmann,U., R. Cove, and C. Loveridge|Effect of Metals on the Biomass Production Kinetics of Freshwater Copepods|Can. J. Fish. Aquat. Sci.37(4): 567-575|1980|10.1139/f80-072
9759|A||Ribeyre,F., and A. Boudou|An Experimental Trophic Chain in a Limnic Environment: Direct Contaminations of a Third-Order Consumer (Salmo gairdneri) by Methymercury.|Water Air Soil Pollut.14:349-357|1980|10.1007/BF00291848
9760|A||Boudou,A., F. Ribeyre, A. Delarche, and R. Marty|Bioaccumulation and Bioamplification of Mercury Derivatives by a Third Order Consumer: Salmo gairdneri - Effects of Temperature|Water Res.14(1): 61-65|1980|10.1016/0043-1354(80)90042-1
9761|A||Braek,G.S., D. Malnes, and A. Jensen|Heavy Metal Tolerance of Marine Phytoplankton.  IV.  Combined Effect of Zinc and Cadmium on Growth and Uptake in Some Marine Diatoms|J. Exp. Mar. Biol. Ecol.42:39-54|1980|10.1016/0022-0981(80)90165-3
9762|A||Braun,F., and A. Yediler|On the Importance of Fish As Indicators of Environment. Laboratory Experiments on the Carp (Cyprinus carpio L.) with Mercury|Acta Hydrochim. Hydrobiol. (Multiple Languages)8(3): 259-267|1980|10.1002/j.1521-401X.1980.tb00031.x
9763|A||Breittmayer,J.P., R. Guido, and S. Tuncer|The Effect of Cadmium on the Toxicity of Mercury to the Mussel Mytilus edulis (L.)|Chemosphere9(11): 725-728|1980|10.1016/0045-6535(80)90125-3
9764|A||Brenniman,G.R., M.R. Anver, R. Hartung, and S.H. Rosenberg|Effects of Outboard Motor Exhaust Emissions on Goldfish (Carassius auratus)|J. Environ. Pathol. Toxicol.2(6): 1267-1281|1979|
9765|A||Walker,C.R.|Diuron, Fenuron, Monuron, Neburon, and TCA Mixtures as Aquatic Herbicides in Fish Habitats|Weeds (Urbana)13:297-301|1965|10.2307/4040879
9766|A||Reading,J.T., and A.L.,Jr. Buikema|Effects of Sublethal Concentrations of Selenium on Metabolism and Filtering Rate of Daphnia pulex|Bull. Environ. Contam. Toxicol.24(6): 929-935|1980|10.1007/BF01608213
9767|A||Holtby,L.B., and S.J. Baillie|Effects of the Herbicide Roundup (Glyphosate) on Periphyton in Carnation Creek, British Columbia|FRDA Rep.63:224-231|1989|
9768|A||Butler,M., A.E.J. Haskew, and M.M. Young|Copper Tolerance in the Green Alga, Chlorella vulgaris|Plant Cell Environ.3(2): 119-126|1980|10.1111/1365-3040.ep11580913
9769|A||Cain,J.R., D.C. Paschal, and C.M. Hayden|Toxicity and Bioaccumulation of Cadmium in the Colonial Green Alga Scenedesmus obliquus|Arch. Environ. Contam. Toxicol.9(1): 9-16|1980|10.1007/BF01055495
9770|A||Castagna,A.|Effect of Mercury on Egg Development in the Sea Urchin Arbacia lixula|Boll. Pesca Piscic. Idrobiol.31(1/2): 163-169|1976|
9771|A||Chassard-Bouchaud,C.|The Effects of Temperature on Cadmium Bioaccumulation by the Crayfish Pontastacus leptodactylus. Microprobe and Secondary Ion Emission Microanalysis|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)290(4): 347-350|1980|
9772|A||Chau,Y.K., and P.T.S. Wong|Biotransformation and Toxicity of Lead in the Aquatic Environment|In: M.Branica and Z.Konrad (Eds.), Proc.Lead Mar.Environ., Pergamon Press, Oxford, England:225-231|1980|
9773|A||Christensen,E.R., and P.A. Zielski|Toxicity of Arsenic and PCB to a Green Alga (Chlamydomonas)|Bull. Environ. Contam. Toxicol.25(1): 43-48|1980|10.1007/BF01985484
9775|A||Cloutier-Mantha,L., and D.A. Brown|The Effects of Mercury Exposure on Intracellular Distribution of Mercury, Copper and Zinc in Skeletonema costatum (Grev.) Cleve|Bot. Mar.23(1): 53-57|1980|10.1515/botm.1980.23.1.53
9776|A||Cloutier-Mantha,L., and P.J. Harrison|Effects of Sublethal Concentrations of Mercuric Chloride on Ammonium-Limited Skeletonema costatum|Mar. Biol.56(3): 219-232|1980|10.1007/BF00645346
9777|A||Gipps,J.F., and B.A.W. Coller|Effect of Physical and Culture Conditions on Uptake of Cadmium by Chlorella pyrenoidosa|Aust. J. Mar. Freshw. Res.31(6): 747-755|1980|10.1071/MF9800747
9778|A||Cooney,R.V., and A.A. Benson|Arsenic Metabolism in Homarus americanus|Chemosphere9(5-6): 335-341|1980|10.1016/0045-6535(80)90014-4
9779|A||Couch,J.A., L.A. Courtney, J.T. Winstead, and S.S. Foss|The American Oyster ('Crassostrea virginica') as an Indicator of Carcinogens in the Aquatic Environment|EPA 600/J-79-080 / In: Animals Monitors Environ.Pollut.1977, Storrs, CT12:65-84|1979|
9780|A||Ali,A.|Activity of New Formulations of Methoprene Against Midges (Diptera: Chironomidae) in Experimental Ponds|Am. Mosq. Control Assoc. J.7(4): 616-620|1991|
9781|A||Cristiani,G., R. Gassend, and H. Augier|Experimental Contamination of the Marine Phanerogam Posidonia oceanica by Mercury Compounds I. Modalities of Contamination by Mercuric Chloride|Environ. Pollut. A.23(2): 153-162|1980|10.1016/0143-1471(80)90062-8
9782|T||DeLaune,R.D., and C.W. Lindau|Fate of Added 15N Labelled Nitrogen in a Sagittaria lancifolia L. Gulf Coast Marsh|J. Freshw. Ecol.5(3): 265-268|1990|10.1080/02705060.1990.9665239
9783|A||Spehar,R.L., J.T. Fiandt, R.L. Anderson, and D.L. DeFoe|Comparative Toxicity of Arsenic Compounds and Their Accumulation in Invertebrates and Fish|Arch. Environ. Contam. Toxicol.9(1): 53-63|1980|10.1007/BF01055499
9784|A||Kettle,W.D., F.,Jr. DeNoyelles, and C.H. Lei|Oxygen Consumption of Zooplankton as Affected by Laboratory and Field Cadmium Exposures|Bull. Environ. Contam. Toxicol.25(4): 547-553|1980|10.1007/BF01985570
9785|A||Deutch,B., B. Borg, L. Kloster, H. Meyer, and M.M. Moller|The Accumulation of 65Zn by Various Marine Organisms|OpheliaSuppl 1:235-240|1980|
9786|A||Dillaman,R.M.|Toxicity of Cadmium to Helisoma anceps and its Effect on Kidney Ultrastructure|J. Invertebr. Pathol.36(2):223-234|1980|10.1016/0022-2011(80)90028-2
9787|A||Trial,J.G.|The Effectiveness of Upstream Refugia for Promoting Recolonization of Plecoptera Killed by Exposure to Carbaryl|J. Freshw. Ecol.1(6): 563-567|1982|10.1080/02705060.1982.9664077
9789|A||Drifmeyer,J.E.|Uptake of 65Zn by Eelgrass, Zostera marina, L|Sci. Total Environ.16(3): 263-265|1980|10.1016/0048-9697(80)90110-2
9790|A||Lembright,H.W.|Dosage Studies with low Volume Applications of Dursban Insecticide|Down Earth24:16-19|1968|
9791|A||Edgren,M., and M. Notter|Cadmium Uptake by Fingerlings of Perch (Perca fluviatilis) Studied by Cd-115M at Two Different Temperatures|Bull. Environ. Contam. Toxicol.24(5): 647-651|1980|10.1007/BF01608168
9792|A||Crawford,S.A.|Successional Events Following Simazine Application|Hydrobiologia (Multiple Languages)77(3): 217-223|1981|10.1007/BF00019669
9793|A||Erdem,C., and P.S. Meadows|The Influence of Mercury on the Burrowing Behavior of Corophium volutator|Mar. Biol.56(3): 233-237|1980|10.1007/BF00645347
9794|A||Establier,R., and M. Gutierrez|Cadmium Accumulation From Sea Water on Dicentrarchus labrax and Sparus aurata and Its Histopathological Effects|Invest. Pesq.44(1): 43-54|1980|
9795|A||Evans,M.L.|Copper Accumulation in the Crayfish (Orconectes rusticus)|Bull. Environ. Contam. Toxicol.24(6): 916-920|1980|10.1007/BF01608211
9796|A||Ferri,S., and N. Macha|Lysosomal Enhancement in Hepatic Cells of a Teleost Fish Induced by Cadmium|Cell Biol. Int. Rep.4(4): 357-363|1980|10.1016/0309-1651(80)90217-9
9797|A||Fingerman,S.W., and M. Fingerman|Inhibition by the Polychlorinated Biphenyl Aroclor 1242 of Limb Regeneration in the Fiddler Crab, Uca pugilator, in Different Salinities from Which|Bull. Environ. Contam. Toxicol.25(5): 744-750|1980|10.1007/BF01985602
9798|A||Fingerman,S.W., and L.C. Russell|Effects of the Polychlorinated Biphenyl Aroclor 1242 on Locomotor Activity and on the Neurotransmitters Dopamine and Norepinephrine in the Brain of the Gulf Killifish, Fundulus grandis|Bull. Environ. Contam. Toxicol.25(2): 682-687|1980|10.1007/BF01985592
9799|A||Fischer,E., J. Filip, and L. Molnar|The Effect of Bivalent Heavy Metals on the Oxygen-Dependent Nuclear Volume Alterations of the Chloragocytes in Tubifex tubifex Mull|Environ. Pollut. A.23(4): 261-265|1980|10.1016/0143-1471(80)90068-9
9800|A||Fischer,E., J. Filip, L. Molnar, and E. Nagy|Karyometric Studies of the Effect of Lead and Cadmium in Relation to the Oxygen Supply in the Chloragocytes of Tubifex tubifex Mull|Environ. Pollut. A.21(3): 203-207|1980|10.1016/0143-1471(80)90164-6
9801|A||Francke,J.A., and H. Hillebrand|Effects of Copper on Some Filamentous Chlorophyta|Aquat. Bot.8(3): 285-289|1980|10.1016/0304-3770(80)90057-1
9802|A||Franklin,F.L.|Assessing the Toxicity of Industrial Wastes, with Particular Reference to Variations in Sensitivity of Test Animals|Minist.Agric., Fish.Food, Tech.Rep.No.61, Lowestoft, UK:8 p.|1980|
9803|A||Franklin,R.B., C.R. Elcombe, M.J. Vodicnik, and J.J. Lech|Comparative Aspects of Hepatic Monooxygenase Induction in Rat and Rainbow Trout by Several PCB Isomers|In: J.M.Coon, A.H.Conney, and R.W.Estabrook (Eds.), Microsomes, Drug Oxid., Chem.Carcinog., Academic Press, NY:833-836|1980|
9804|A||Freedman,M.L., P.M. Cunningham, J.E. Schindler, and M.J. Zimmerman|Effect of Lead Speciation on Toxicity|Bull. Environ. Contam. Toxicol.25(3): 389-393|1980|10.1007/BF01985543
9805|A||Wallace,J.B., G.J. Lugthart, T.F. Cuffney, and G.A. Schurr|The Impact of Repeated Insecticidal Treatments on Drift and Benthos of a Headwater Stream|Hydrobiologia (Multiple Languages)179(2): 135-147|1989|10.1007/BF00007601
9806|A||Fujiki,M.|Methylmercury Accumulation in Plankton and Fish|In: R.A.Baker (Ed.), Contam.Sediments, Series 2, Ann Arbor Sci.Publ., Ann Arbor, MI:485-491|1980|
9807|A||Muir,D.C.G., G.P. Rawn, and N.P. Grift|Fate of the Pyrethroid Insecticide Deltamethrin in Small Ponds: A Mass Balance Study|J. Agric. Food Chem.33(4): 603-609|1985|10.1021/jf00064a011
9808|A||Cooke,A.S.|Tadpoles as Indicators of Harmful Levels of Pollution in the Field|Environ. Pollut. A.25(2): 123-133|1981|10.1016/0143-1471(81)90012-X
9809|A||Holtby,L.B., and S.J. Baillie|Effects of the Herbicide Roundup on Coho Salmon Fingerlings in an Over-Sprayed Tributary of Carnation Creek, British Columbia|FRDA Rep.63:273-285|1989|
9810|A||Ghate,H.V., and L. Mulherkar|Effect of Mercuric Chloride on Embryonic Development of the Frog Microhyla ornata|Indian J. Exp. Biol.18(10): 1094-1096|1980|
9811|A||Ghate,H.V., and L. Mulherkar|Histological Changes in the Gills of Two Freshwater Prawn Species Exposed to Copper Sulphate|Indian J. Exp. Biol.17(8): 838-840|1979|
9812|A||Roberts,R.O., and S.G. Berk|Development of a Protozoan Chemoattraction Bioassay for Evaluating Toxicity of Aquatic Pollutants|Toxic. Assess.5:279-292|1990|10.1002/tox.2540050307
9813|A||Gopal,K., R.N. Khanna, M. Anand, and G.S.D. Gupta|Hematological Study in the Assessment of the Endosulphan Toxicity for Fish|Indian J. Biochem. Biophys.17(4): S111|1980|
9814|A||Berk,S.G., and B.A. Mills|Factors Affecting Results of Chemotaxis Inhibition Tests with Protozoa|J. Test. Eval.14(3): 140-144|1986|
9815|A||Cairns,J.,Jr., J.R. Pratt, B.R. Niederlehner, and P.V. McCormick|A Simple, Cost-Effective Multispecies Toxicity Test Using Organisms with a Cosmopolitan Distribution|Environ. Monit. Assess.6:207-220|1986|10.1007/BF00396790
9816|A||Grolle,T., and J. Kuiper|Development of Marine Periphyton Under Mercury Stress in a Controlled Ecosystem Experiment|Bull. Environ. Contam. Toxicol.24(6): 858-865|1980|10.1007/BF01608202
9817|A||Kumari,M., and V. Banerjee|Effect of Lethal and Sublethal Levels of Mercury on the Blood of the Fish Clarias batrachus|Environ. Ecol.11(2): 465-467|1993|
9818|A||Xu,Y., J.P. Lay, and Y. Zhang|Uptake and Transfer of 14C-Simetryne Through the Laboratory Freshwater Food Chain|Chin. J. Oceanol. Limnol.7(1): 10-16|1989|10.1007/BF02842653
9819|A||Rao,K.J., A. Baig, V. Radhaiah, and K. Ramamurthy|Pesticidal Impact on Freshwater Teleost, Tilapia mossambica Retina|Curr. Sci. (Bangalore)56(17): 883-885|1987|
9820|A||Gutierrez-Galindo,E.A.|Study of the Removal of Cadmium by Mytilus edulis in the Presence of EDTA and Phosphate|Chemosphere9(7-8): 495-500|1980|10.1016/0045-6535(80)90034-X
9822|A||Haider,G.|Histopathological Effects of Sublethal Poisoning by Heavy Metals upon the Lateral Line System in Rainbow Trout (Salmo gairdneri Rich.)  (Histopathologische Veranderungen am Seitenliniensystem der Regenbogenforelle (Salm|Zool. Anz. (Multiple Languages)203(5-6): 378-391|1979|
9823|A||Ufodike,E.B.C., and E. Omoregie|Acute Toxicity of Gammalin 20 and Actellic 25 EC to Oreochromis niloticus niloticus|Acta Hydrobiol.32(3-4): 447-455|1990|
9824|A||Worthing,C.R., and R.J. Hance|The Pesticide Manual, 9th Edition|The British Crop Protection Council, Farnham, Surrey, U.K.:1141 p.|1991|
9825|AT||Weast,R.C., and M.J. Astle|CRC Handbook of Data on Organic Compounds|In: C.S.Giam and L.E.Ray (Eds.), Pollutant Studies in Marine Animals, CRC Press Inc, Boca Raton, FL1-2:|1985|
9826|AT||Fluka Chemical Corp.|Fluka Chemical Catalog|Fluka Chemical Co., Ronkonkoma, NY:1512 p.|1993|
9827|A||Orner,G.A., J.D. Hendricks, D. Arbogast, and D.E. Williams|Modulation of N-Methyl-N'-Nitro-Nitrosoguanidine Multiorgan Carcinogenesis by Dehydroepiandrosterone in Rainbow Trout|Toxicol. Appl. Pharmacol.141(2): 548-554|1996|10.1006/taap.1996.0321
9828|A||Hilmy,A.M., M.B. Shabana, and M.M. Saied|Haematological Responses to Mercury Toxicity in the Marine Teleost, Aphanius dispar (Rupp)|Comp. Biochem. Physiol. C Comp. Pharmacol.67(2): 147-158|1980|10.1016/0306-4492(80)90010-6
9829|A||Hilton,J.W., P.V. Hodson, and S.J. Slinger|The Requirement and Toxicity of Selenium in Rainbow Trout (Salmo gairdneri)|J. Nutr.110(12): 2527-2535|1980|10.1093/jn/110.12.2527
9830|A||Hodson,P.V., J.W. Hilton, B.R. Blunt, and S.J. Slinger|Effects of Dietary Ascorbic Acid on Chronic Lead Toxicity to Young Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.37(2): 170-176|1980|10.1139/f80-022
9831|A||Hongve,D., O.K. Skogheim, A. Hindar, and H. Abrahamsen|Effects of Heavy Metals in Combination with NTA, Humic Acid, and Suspended Sediment on Natural Phytoplankton Photosynthesis|Bull. Environ. Contam. Toxicol.25(4): 594-600|1980|10.1007/BF01985577
9832|A||Hose,J.E., and R.J. Stoffel|Avoidance Response of Juvenile Chromis punctipinnis to Chlorinated Seawater|Bull. Environ. Contam. Toxicol.25(6): 929-935|1980|10.1007/BF01985633
9833|A||Ito,Y., and T. Murata|Studies on the Influence of Polychlorinated Biphenyls (PCB) on Aquatic Organisms. VIII. Influence of PCB on Drug-Metabolizing Enzyme System in Carp|Eisei Kagaku (Multiple Languages)26(1): 21-27|1980|
9834|A||Ito,Y., and T. Murata|Lipid Peroxidation in the Hepatopancreas of Carp by PCB-Treatment. (Studies on the Influence of PCB on Aquatic Organisms Part XI)|J. Agric. Chem. Soc. Jpn. 54(4): 263-270|1980|
9835|A||James,M.O., and J.R. Bend|Polycyclic Aromatic Hydrocarbon Induction of Cytochrome P-450-Dependent Mixed-Function Oxidases in Marine Fish|Toxicol. Appl. Pharmacol.54(1): 117-133|1980|10.1016/0041-008X(80)90012-5
9836|A||Janssen,H.H., and N. Scholz|Uptake and Cellular Distribution of Cadmium in Mytilus edulis|Mar. Biol.55(2): 133-142|1979|10.1007/BF00397309
9837|A||Jones,D.H., D.H. Lewis, T.E. Eurell, and M.S. Cannon|Alteration of the Immune Response of Channel Catfish (Ictalurus punctatus) by Polychlorinated Biphenyls|In: S.W.Nielsen, G.Migaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT12:385-386|1979|
9838|A||Sharma,B., M.D. Ram, S. Lata, and K. Gopal|Carbaryl Induced Alterations in the Level of Biogenic Amines in Various Parts of the Brain of Clarias batrachus|Toxicol. Environ. Chem.38(1-2): 95-99|1993|10.1080/02772249309357879
9839|A||Rubio,R., P. Tineo, A. Torreblanca, J. Del Ramo, and J.D. Mayans|Histological and Electron Microscopical Observations on the Effects of Lead on Gills and Midgut Gland of Procambarus clarkii|Toxicol. Environ. Chem.31-32:347-352|1991|10.1080/02772249109357707
9840|A||Kasschau,M.R., M.M. Skaggs, and E.C.M. Chen|Accumulation of Glutamate in Sea Anemones Exposed to Heavy Metals and Organic Amines|Bull. Environ. Contam. Toxicol.25(6): 873-878|1980|10.1007/BF01985623
9841|A||Kayser,H., and K.R. Sperling|Cadmium Effects and Accumulation in Cultures of Prorocentrum micans (Dinophyta)|Helgol. Wiss. Meeresunters.33(1-4): 89-102|1980|10.1007/BF02414738
9842|A||Khangarot,B.S., and R.C. Somani|Toxic Effects of Mercury on the Gills of a Freshwater Teleost, Puntius sophore Hamilton|Curr. Sci. (Bangalore)49(21): 832-834|1980|
9843|A||Rajagopal,V., B. Pandi, and S. Palanichamy|Influence of Carbofuron on Growth and Protein Conversion Efficiency in Some Freshwater Fishes|J. Ecobiol.2(1): 85-88|1990|
9844|A||Kostyayev,V.Y., S.N. Yagodka, and V.A. Sokolov|Sensitivity of Anabaena spiroides to Zinc and Cobalt|Hydrobiol. J.16(2): 81-84|1980|
9845|A||Kumaraguru,A.K., D. Selvi, and V.K. Venugopalan|Copper Toxicity to an Estuarine Clam (Meretrix casta)|Bull. Environ. Contam. Toxicol.24(6): 853-857|1980|10.1007/BF01608201
9846|A||Kurata,A., Y. Yoshida, and F. Taguchi|Uptake of Ni by Marine Bacteria and Algae|La Mer (Bull. Soc. Fr. -Jpn. Oceanogr. )18(2): 49-54|1980|
9847|A||Laird,C.E.,Jr.|Effects of Chlorinated Seawater on the Blue Crab, Callinectes sapidus|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Water Chlorination Environ.Impact Health Eff., Ann Arbor Sci.Publ., Ann Arbor, MI3:569-579|1980|
9848|A||Lipsky,M.M.,Jr., J.E. Klaunig, and D.E. Hinton|Effects of Acute PCB Exposure on the Hepatic Mixed-Function Oxidative System in Channel Catfish (Ictalurus punctatus)|In: S.W.Nielsen, G.Migaki, and D.G.Scarpelli (Eds.), Symp.Animals Monitors Environ.Pollut.1977, Storrs, CT:391-|1977|
9849|A||Lue-Kim,H., P.C. Wozniak, and R.A. Fletcher|Cadmium Toxicity on Synchronous Populations of Chlorella ellipsoidea|Can. J. Bot.58(16): 1780-1788|1980|10.1139/b80-206
9850|A||Mushrifah,I., and P.J. Peterson|Uptake and Accumulation of Cadmium and Tin to the Insoluble Fractions of Anabaena flos-aquae|Biomed. Lett.46(183):189-198|1991|
9851|A||Maciorowski,A.F., E.F. Benfield, and J.,Jr. Cairns|Preference-Avoidance Reactions of Crayfish to Sublethal Concentrations of Cadmium|Hydrobiologia (Multiple Languages)74(2): 105-112|1980|10.1007/BF00014561
9852|A||Ghate,H.V.|Gill Melanization and Heavy Metals in Freshwater Prawns|Indian J. Fish.31(3): 389-393|1984|
9853|A||Omkar, and G.S. Shukla|Alteration in Carbohydrate Metabolism of Freshwater Prawn, Macrobrachium lamarrei After Dichlorvos Exposure|Ind. Health22(2): 113-136|1984|10.2486/indhealth.22.133
9854|A||Markham,J.W., B.P. Kremer, and K.R. Sperling|Cadmium Effects on Growth and Physiology of Ulva lactuca|Helgol. Wiss. Meeresunters.33(1-4): 103-110|1980|10.1007/BF02414739
9855|A||McCracken,I.R., and G. Leduc|Allometric Growth Response of Exercised Rainbow Trout to Cyanide Poisoning|ASTM Spec. Tech. Publ.:303-320|1980|
9856|A||Kleppel,G.S., and J.J.A. McLaughlin|PCB Toxicity to Phytoplankton: Effect of Dose and Density-Dependent Recovery Responses|Bull. Environ. Contam. Toxicol.24(5): 696-703|1980|10.1007/BF01608176
9857|A||Ray,S., D.W. McLeese, B.A. Waiwood, and D. Pezzack|The Disposition of Cadmium and Zinc in Pandalus montagui|Arch. Environ. Contam. Toxicol.9(6): 675-681|1980|10.1007/BF01055543
9858|A||Miller III,W.R., D. Gruber, J.,Jr. Cairns, A.C. Hendricks, and R.C. Hoehn|Biological Monitoring of Chlorine-Induced Ventilatory Changes in Bluegill Sunfish (Lepomis macrochirus)|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Water Chlorination Environ.Impact Health Eff., Ann Arbor Sci.Publ., Ann Arbor, MI3:589-597|1980|
9859|A||Mittal,P.K., H.C. Agarwal, and M.K.K. Pillai|Tolerance, Uptake and Metabolism of DDT by the Freshwater Flea Simocephalus sp. (Cladocera)|Indian J. Exp. Biol.18(11): 1326-1329|1980|
9860|A||Buckler,D.R.|Chronic Effects of Kepone and Mirex in the Fathead Minnow (Pimephales promelas)|M.S. Thesis, University of Missouri, Columbia, MO:29 p.|1979|
9861|A||Moore,M.N., A. Bubel, and D.M. Lowe|Cytology and Cytochemistry of the Pericardial Gland Cells of Mytilus edulis and Their Lysosomal Responses to Injected Horseradish Peroxidase|J. Mar. Biol. Assoc. U.K.60(1): 135-149|1980|10.1017/S0025315400024188
9862|A||Hughey,R.E.|The Effects of Fish Toxicants Antimycin A and Rotenone on Zooplankton Communities in Ponds|M.S. Thesis, University of Missouri, Columbia, MO:67 p.|1975|
9864|A||Nakahara,M., S. Hirano, T. Ishii, and T. Koyanagi|Accumulation and Excretion of Cobalt-60 Taken up from Seawater by Marine Fishes|Nippon Suisan Gakkaishi (Multiple Languages)45(11): 1423-1428|1979|10.2331/suisan.45.1423
9865|A||Nassos,P.A., J.R. Coats, R.L. Metcalf, D.D. Brown, and L.G. Hansen|Model Ecosystem, Toxicity, and Uptake Evaluation of 75Se-Selenite|Bull. Environ. Contam. Toxicol.24(5): 752-758|1980|10.1007/BF01608184
9866|A||Nilov,V.I.|Concentration of 65Zn and 203Hg by Selected Freshwater Invertebrates|Hydrobiol. J.16(5): 87-93|1980|
9867|A||Hall,T.|Nickel Uptake, Retention and Loss in Daphnia magna|M.S. Thesis, University of Toronto, Ontario, Canada:205 p.|1978|
9868|A||Cearley,J.E.|Toxicity and Bioconcentration of Cadmium, Chromium, and Silver in Micropterus salmonides and Lepomis macrochirus|Ph.D.Thesis, University of Oklahoma, Oklahoma City, OK:76 p.|1971|
9869|A||Osborne,L.L., R.W. Davies, and J.B. Rasmussen|The Effect of Total Residual Chlorine on the Respiration Rates of Two Species of Freshwater Leech (Hirudinoidea)|Comp. Biochem. Physiol. C Comp. Pharmacol.67(2): 203-205|1980|10.1016/0306-4492(80)90018-0
9870|A||Ozoh,P.T.E.|Effect of Lead on Pigment Pattern Formation in Zebrafish (Brachydanio rerio)|Bull. Environ. Contam. Toxicol.24(2): 276-282|1980|10.1007/BF01608109
9871|A||Leduc,G.|Some Physiological and Biochemical Responses of Fish to Chronic Poisoning by Cyanide|Ph.D.Thesis, Oregon State University, Corvallis, OR:146 p.|1966|
9872|A||O'Rear,C.W.,Jr.|Some Environmental Influences on the Zinc and Copper Content of Striped Bass, Morone saxatilis (Walbaum)|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:71 p.|1971|
9873|A||Panigrahi,A.K., and B.N. Misra|Toxicological Effects of a Sub-lethal Concentration of Inorganic Mercury on the Fresh Water Fish, Tilapia mossambica, Peters|Arch. Toxicol.44(4): 269-278|1980|10.1007/BF00278034
9874|A||Paulov,S.|Influence of the Herbicide Dinoseb Acetate (Aretit) on Viability and Proteins of the Fish (Poecilia reticulata)|Biologia (Bratisl.)35(11): 827-830|1980|
9875|A||Paulov,S.|Effect of Dinoseb Acetate on the GOT and GPT Activities in Fish Muscles|Agrochemia (Bratisl.) (Multiple Languages)20(5): 147-149|1980|
9876|A||Petukhov,S.A., and N.G. Storozhuk|Toxic Effect of Mercury on Salmon Larval, Oncorhynchus keta and O. kisutch|J. Ichthyol.20(6): 138-141|1980|
9879|A||Price,R.K.J., and R.F. Uglow|Cardiac and Ventilatory Responses of Crangon crangon to Cadmium, Copper and Zinc|Helgol. Wiss. Meeresunters.33(1-4): 59-67|1980|10.1007/BF02414735
9880|A||Pruell,R.J., and F.R. Engelhardt|Liver Cadmium Uptake, Catalase Inhibition and Cadmium Thionein Production in the Killifish (Fundulus heteroclitus) Induced by Experimental|Mar. Environ. Res.3(2): 101-111|1980|10.1016/0141-1136(80)90019-7
9881|A||Rabsch,U., and M. Elbraechter|Cadmium and Zinc Uptake, Growth, and Primary Production in Coscinodiscus granii Cultures Containing Low Levels of Cells and Dissolved Organic Carbon|Helgol. Wiss. Meeresunters.33(1-4): 79-88|1980|10.1007/BF02414737
9882|A||Rai,L.C., and N. Khatoniar|Response of Chlorella to Mercury Pollution|Indian J. Environ. Health22(2): 113-123|1980|
9883|A||Kerrison,P.H., A.R. Sprocati, O. Ravera, and L. Amantini|Effects of Cadmium on an Aquatic Community Using Artificial Enclosures|Environ. Technol. Lett.1(3): 169-176|1980|10.1080/09593338009383963
9884|A||Ray,S., D. McLeese, and D. Pezzack|Accumulation of Cadmium by Nereis virens|Arch. Environ. Contam. Toxicol.9(1): 1-8|1980|10.1007/BF01055494
9885|A||Reinhardt,E., G. Burger, and G. Weise|Study of the Phytotoxic Effect of Zinc, Cadmium and Copper on Elodea canadensis Michx. by Determining the Deplasmolysis Time (Zur Erkundung der Phytotoxischen Wirkung von Zink, Kadmium und Kupfer auf Elodea canadensis M|Acta Hydrochim. Hydrobiol. (Multiple Languages)8(2): 149-160|1980|10.1002/j.1521-401X.1980.tb00017.x
9886|A||Roales,R.R., and A. Perlmutter|Methylmercury/Copper Effects on Hemosiderin:  Possible Mechanism of Immune Suppression in Fish|Bull. Environ. Contam. Toxicol.24(5): 704-710|1980|10.1007/BF01608177
9887|A||Roed,K.H.|Effects of Salinity and Cadmium Interaction on Reproduction and Growth During Three Successive Generations of Ophryotrocha labronica (Polychaeta)|Helgol. Wiss. Meeresunters.33(1-4): 47-58|1980|10.1007/BF02414734
9888|A||Roesijadi,G.|Influence of Copper on the Clam Protothaca staminea:  Effects on Gills and Occurrence of Copper-Binding Proteins|Biol. Bull.158(2): 233-247|1980|10.2307/1540933
9889|A||Sanders,J.G., and H.L. Windom|The Uptake and Reduction of Arsenic Species by Marine Algae|Estuar. Coast. Mar. Sci.10(5): 555-567|1980|10.1016/S0302-3524(80)80075-2
9890|A||Sandmann,G., and P. Boger|Copper Deficiency and Toxicity in Scenedesmus|Z. Pflanzenphysiol. (Multiple Languages)98(1): 53-59|1980|10.1016/S0044-328X(80)80219-4
9891|A||Sastry,K.V., and K. Sharma|Mercury Induced Haematological and Biochemical Anomalies in Ophiocephalus (Channa) punctatus|Toxicol. Lett.5(3/4): 245-249|1980|10.1016/0378-4274(80)90067-3
9892|A||Lal,R., and D.M. Saxena|Effect of DDT on Cell Population Growth, Cell Division, and DNA Synthesis in Stylonychia notophora (Stokes)|Arch. Environ. Contam. Toxicol.9(2): 163-170|1980|10.1007/BF01055371
9893|A||Schmidt,D., and C.A. Picos|The Influence of Cadmium on Some Hematological Indices in Fish|An. Univ. Bucur. Biol.29:99-105|1980|
9894|A||Scholz,N.|Accumulation, Loss and Molecular Distribution of Cadmium in Mytilus edulis|Helgol. Wiss. Meeresunters.33(1-4): 68-78|1980|10.1007/BF02414736
9896|A||Sharma,D.C., and P.S. Davis|Effect of Methylmercury on Protein Synthesis in Liver of the European Carp Cyprinus carpio|Indian J. Exp. Biol.18(9): 1054-1055|1980|
9898|A||Helms,D.R.|Use of Formalin for Selective Control of Tadpoles in the Presence of Fishes|Prog. Fish-Cult.29:43-47|1967|10.1577/1548-8640(1967)29[43:UOFFSC]2.0.CO;2
9899|A||Signorile,G., and A.M. D'Angelo|Toxic Effect of Hexavalent Chromium on Freshwater Rotifers and Planktonic Crustaceans In Vitro|Ig. Mod. (Multiple Languages)74(6): 910-916|1980|
9901|A||Stromgren,T.|The Effect of Dissolved Copper on the Increase in Length of Four Species of Intertidal Fucoid Algae|Mar. Environ. Res.3(1): 5-13|1980|10.1016/0141-1136(80)90032-X
9903|A||Subramanian,A., B.R. Subramanian, and V.K. Venugopalan|Toxicity of Copper and Zinc on Cultures of Skeletonema costatum (Grev.) Cleve and Nitzschia longissima|Curr. Sci. (Bangalore)49(7): 266-268|1980|
9904|A||Sudershan,P., and M.A.Q. Khan|Metabolic Fate of (14C)Endrin in Bluegill Fish|Pestic. Biochem. Physiol.14(1): 5-12|1980|10.1016/0048-3575(80)90018-8
9905|A||Sudershan,P., and M.A.Q. Khan|Metabolic Fate (14C)Photodieldrin in Goldfish|Pestic. Biochem. Physiol.13(2): 148-157|1980|10.1016/0048-3575(80)90066-8
9906|A||Sudershan,P., and M.A.Q. Khan|Metabolism of Cis-[14C]Chlordane and Cis-[14C]Photochlordane in Bluegill Fish|J. Agric. Food Chem.28(2): 291-296|1980|10.1021/jf60228a006
9907|A||Garnham,G.W., G.A. Codd, and G.M. Gadd|Accumulation of Technetium by Cyanobacteria|J. Appl. Phycol.5(3): 307-315|1993|10.1007/BF02186233
9908|A||Thomas,W.H., J.T. Hollibaugh, and D.L.R. Seibert|Effects of Heavy Metals on the Morphology of Some Marine Phytoplankton|Phycologia19(3): 202-209|1980|10.2216/i0031-8884-19-3-202.1
9909|A||Truhaut,R., J.F. Ferard, and J.M. Jouany|Cadmium IC50 Determinations on Chlorella vulgaris Involving Different Parameters|Ecotoxicol. Environ. Saf.4(3): 215-223|1980|10.1016/0147-6513(80)90023-8
9910|A||Ruiz,J.M., G.W. Bryan, G.D. Wigham, and P.E. Gibbs|Effects of Copper on the 48-H Embryonic Development of the Bivalve Scrobicularia plana|J. Mar. Biol. Assoc. U.K.76(3): 829-832|1996|10.1017/S0025315400031507
9911|A||Woo,P.T.K., Y.M. Sin, and M.K. Wong|The Effects of Short-Term Acute Cadmium Exposure on Blue Tilapia, Oreochromis aureus|Environ. Biol. Fishes37(1): 67-74|1993|10.1007/BF00000714
9912|A||Vasil'eva,V.S., A.A. Zhuchikhina, L.N. Propp, and E.P. Sergeeva|Effect of Copper on the Organism, Tissue, and Some Enzyme Systems of the Bivalve Mollusk Glycymeris yessoensis|Sov. J. Mar. Biol.5(6): 504-510|1979|
9913|A||Verma,S.R., K. Kumar, and R.C. Dalela|Short Term Toxicity Tests with Heavy Metals for Predicting Safe Application Factor|Toxicol. Lett.Suppl.1:113-|1980|
9914|A||Viarengo,A., M. Pertica, G. Mancinelli, G. Zanicchi, and M. Orunesu|Rapid Induction of Copper-Binding Proteins in the Gills of Metal Exposed Mussels|Comp. Biochem. Physiol. C Comp. Pharmacol.67(2): 215-218|1980|10.1016/0306-4492(80)90021-0
9915|A||Videau,C., M. Khalanski, and M. Penot|Physiological Response to Chlorination of the Unicellular Marine Alga Dunaliella primolecta Butcher|J. Exp. Mar. Biol. Ecol.47(2): 113-126|1980|10.1016/0022-0981(80)90106-9
9916|A||Virtanen,M.T., and A.U. Arstila|Effects of an Organochlorine Pesticide on the Structure of the Gills of Poecilia reticulatus. Light and Electron Microscopic Study|Toxicol. Lett.5(suppl.1): 144-|1980|
9917|A||Waiwood,K.G.|Changes in Hematocrit of Rainbow Trout Exposed to Various Combinations of Water Hardness, pH, and Copper|Trans. Am. Fish. Soc.109(4): 461-463|1980|10.1577/1548-8659(1980)109<461:CIHORT>2.0.CO;2
9918|A||Watson,T.A., and F.W.H. Beamish|Effects of Zinc on Branchial ATPase Activity In Vivo in Rainbow Trout, Salmo gairdneri|Comp. Biochem. Physiol. C Comp. Pharmacol.66(1): 77-82|1980|10.1016/0306-4492(80)90075-1
9919|A||Shea,P.J., H.J. Strek, and J.B. Weber|Polychlorinated Biphenyls:  Absorption and Bioaccumulation by Goldfish (Carassius auratus) and Inactivation by Activated Carbon|Chemosphere9(3): 157-164|1980|10.1016/0045-6535(80)90087-9
9920|A||Nayeemunnisa, and N. Yasmeen|On the Presence of Calmodulin in the Brain of Control and Methyl Parathion-Exposed Developing Tadpoles of Frog, Rana cyanophlictis|Curr. Sci. (Bangalore)55(11): 546-548|1986|
9921|A||Weis,J.S.|Effect of Zinc on Regeneration in the Fiddler Crab Uca pugilator and its Interactions with Methyl-Mercury and Cadmium|Mar. Environ. Res.3(4): 249-255|1980|10.1016/0141-1136(80)90037-9
9922|A||Weis,P., and J.S. Weis|Effect of Zinc on Fin Regeneration in the Mummichog Fundulus heteroclitus, and its Interaction with Methylmercury|Fish. Bull.78(1): 163-166|1980|
9923|A||Westernhagen,H., V. Dethlefsen, and H. Rosenthal|Correlation Between Cadmium Concentration in the Water and Tissue Residue Levels in Dab, Limanda limanda L., and Plaice, Pleuronectes platessa L|J. Mar. Biol. Assoc. U.K.60(1): 45-58|1980|10.1017/S0025315400024103
9924|A||Willis,D.E., M.E. Zinck, D.C. Darrow, and R.F. Addison|Induction of Mixed Function Oxidase Enzymes in Fish by Halogenated and Aromatic Hydrocarbons|Environ. Sci. Res.16:531-536|1980|
9925|A||Wyman,K.D.,Jr.|Implications of Short-Term PCB Uptake by Small Estuarine Copepods (Genus acartia) From PCB-Contaminated Water, Inorganic Sediments and Phytoplankton|Estuar. Coast. Mar. Sci.11(2): 121-131|1980|10.1016/S0302-3524(80)80036-3
9926|A||Zaroogian,G.E.|Crassostrea virginica as an Indicator of Cadmium Pollution|Mar. Biol.58(4): 275-284|1980|10.1007/BF00390776
9927|A||Golab,Z., and R.W. Smith|Accumulation of Lead in Two Fresh Water Algae|Minerals Eng.5(9): 1003-1010|1992|10.1016/0892-6875(92)90127-U
9928|A||Bourquin,A.W., L.A. Kiefer, N.H. Berner, S. Crow, and D.G. Ahearn|Inhibition of Estuarine Microorganisms by Polychlorinated Biphenyls|Dev. Ind. Microbiol.16:256-261|1975|
9929|A||Parrish,P.R., G.H. Cook, and J.M.,Jr. Patrick|Hexachlorobenzene: Effects on Several Estuarine Animals|Proc. Southeast. Assoc. Game Fish Comm.28:179-187|1974|
9930|A||Schimmel,S.C., J.M.,Jr. Patrick, and J. Forester|Heptachlor: Uptake, Depuration, Retention, and Metabolism by Spot, Leiostomus xanthurus|J. Toxicol. Environ. Health2:169-178|1976|10.1080/15287397609529424
9931|A||Allison,D.T.|Use of Exposure Units for Estimating Aquatic Toxicity of Organophosphate Pesticides|EPA-600/3-77-077, U.S.EPA, Duluth, MN:25 p.|1977|
9932|A||Beyerle-Pfnur,R., G. Burkhardt, and A. Peither|Chronic Ecotoxicity of 3,4-Dichloroaniline to Freshwater Ecosystems|Toxicol. Environ. Chem.31-32:367-373|1991|10.1080/02772249109357710
9933|A||Walsh,G.E., M.J. Yoder, L.L. McLaughlin, and E.M. Lores|Responses of Marine Unicellular Algae to Brominated Organic Compounds in Six Growth Media|Ecotoxicol. Environ. Saf.14:215-222|1987|10.1016/0147-6513(87)90064-9
9935|A||Kaur,K., and H.S. Toor|Toxicity of Pesticides to Embryonic Stages of Cyprinus carpio communis Linn.|Indian J. Exp. Biol.15:193-196|1977|
9936|A||Brandt,O.M., R.W. Fujimura, and B.J. Finlayson|Use of Neomysis mercedis (Crustacea: Mysidacea) for Estuarine Toxicity Tests|Trans. Am. Fish. Soc.122(2): 279-288|1993|10.1577/1548-8659(1993)122<0279:UONMCM>2.3.CO;2
9937|A||Schimmel,S.C., J.M.,Jr. Patrick, and J. Forester|Uptake and Toxicity of Toxaphene in Several Estuarine Organisms|Arch. Environ. Contam. Toxicol.5:353-367|1977|10.1007/BF02220917
9938|A||Tsoi,R.M.|Effects of Dimethyl Sulphate and N-Nitrosomethyl Urea on the Development of Eggs and Salmo irideus G. and Coregonus peled Gmel|Citologia (Non-English)11(11): 1440-1448|1969|
9939|A||Williams,G.,Jr., R.C. Simmonds, and J.F. Boyd|Effects of the Antimicrobial Furanace on Fundulus heteroclitus Embryos|J. Fish. Res. Board Can.32:69-71|1975|10.1139/f75-010
9940|A||Wright,L.D.|Effect of Malachite Green and Formalin on the Survival of Largemouth Bass Eggs and Fry|Prog. Fish-Cult.38(3): 155-157|1976|10.1577/1548-8659(1976)38[155:EOMGAF]2.0.CO;2
9941|A||Wright,L.D., and J.R. Snow|The Effect of Six Chemicals for Disinfection of Largemouth Bass Eggs|Prog. Fish-Cult.37(4): 213-217|1975|10.1577/1548-8659(1975)37[213:TEOSCF]2.0.CO;2
9943|A||Nakai,T., T. Kanno, E.R. Cruz, and K. Muroga|The Effects of Iron Compounds on the Virulence of Vibrio anguillarum in Japanese Eels and Ayu|Fish Pathol.22(4): 185-189|1987|10.3147/jsfp.22.185
9944|A||Fargasova,A.|Effect of Five Toxic Metals on the Alga Scenedesmus quadricauda|Biologia (Bratisl.)48(3): 301-304|1993|
9945|A||Evans,H.L., A.R. Little, Z.L. Gong, J.S. Duffy, I. Wirgin, and H.A.N. El-Fawal|Glial Fibrillary Acidic Protein (GFAP) Indicates In Vivo Exposure to Environmental Contaminants: PCBs in the Atlantic Tomcod|Ann. N. Y. Acad. Sci.679:402-406|1993|10.1111/j.1749-6632.1993.tb18329.x
9946|A||Gupta,A.K., and V.K. Rajbanshi|Pathological Changes Resulting from Bioassay of Copper to Heteropneustes fossilis (Bloch)|In: S.R.Verma, A.K.Tyagi, and S.K.Bansal (Eds.), Environmental Biology: Proc.Symp.Environ.Biol., Muzaffarnager, India:167-172|1979|
9947|A||Black,M.C., D.S. Millsap, and J.F. McCarthy|Effects of Acute Temperature Change on Respiration and Toxicant Uptake by Rainbow Trout, Salmo gairdneri (Richardson)|Physiol. Zool.64(1): 145-168|1991|10.1086/physzool.64.1.30158517
9948|A||Aoyama,I., and H. Okamura|Interactive Toxic Effect and Bioconcentration Between Cadmium and Chromium Using Continuous Algal Culture|Environ. Toxicol. Water Qual.8(3): 255-269|1993|10.1002/tox.2530080303
9949|A||Plakas,S.M., P.M. Loveland, G.S. Bailey, V.S. Blazer, and G.L. Wilson|Tissue Disposition and Excretion of 14C-Labelled Aflatoxin B1 After Oral Administration in Channel Catfish|Food Chem. Toxicol.29(12):805-808|1991|10.1016/0278-6915(91)90106-H
9951|AT||Mottley,J.|Studies on the Modes of Action of n-Alkylguanidines and Triorganotins on Photosynthetic Energy Conservation in the Pea and the Unicellular Alga Chlamydomonas reinhardi Dangeard|Pestic. Biochem. Physiol.9(3): 340-350|1978|10.1016/0048-3575(78)90015-9
9952|A||Reimschuessel,R., R.O. Bennett, E.B. May, and M.M. Lipsky|Ultrastructural Injury and Regeneration in the Goldfish Nephron Following Sublethal Exposure to Hexachlorobutadiene|J. Aquat. Anim. Health3(1): 1-15|1991|10.1577/1548-8667(1991)003<0001:UIARIT>2.3.CO;2
9953|A||Ward,G.S., P.R. Parrish, and R.A. Rigby|Early Life Stage Toxicity Tests with a Saltwater Fish: Effects of Eight Chemicals on Survival, Growth, and Development of Sheepshead Minnows|J. Toxicol. Environ. Health8(1/2): 225-240|1981|10.1080/15287398109530066
9954|A||Ramesh Babu,S.B., B. Jayasundaramma, and R. Ramamurthi|Physiology of Recovery in the Juveniles of Cyprinus carpio from Methyl Parathion Induced Stress|Matsya11:97-101|1985|
9955|A||Bengeri,K.V., and H.S. Patil|Histopathological Changes Induced by Zinc in the Intestine of a Freshwater Fish Labeo rohita (Ham)|Matsya11:92-95|1986|
9956|A||Huang,Y., L. Mo, J. Ma, M. Wu, and M. Chen|The Effects of Heavy Metal Ions (Cu2+, Hg2+, Ag+) on the Respiratory Movements in Carp and Crucian Carp|Zhongshan Daxua Xuebao. Ziran Kexueban4:80-85|1987|
9957|A||Skidmore,J.F., and I.C. Firth|Prediction of the Toxicity of Copper to Australian Freshwater Animals|In: D.Pascoe and R.W.Edwards (Eds.), Freshwater Biological Monitoring.Proc.Specialized Conf.Int.Assoc.on Water Pollution Research and Control, Pergamon Press, New York, NY:93-100|1984|
9958|A||Zajicek,K.D., and R.B. Phillips|Relative Sensitivity of Cytogenetic, Carcinogenic and Developmental Endpoints in Mutagen-Treated Rainbow Trout Embryos|Proc. Conf. Gt. Lakes Res.:67-|1985|
9959|A||Vigers,G.A., J.B. Marliave, R.G. Janssen, and P. Borgmann|Use of Larval Herring in Bioassays|In: J.C.Davis, G.L.Greer, and I.K.Birtwell (Eds.), Proc.4th Annual Aquatic Toxicol.Workshop, Nov.8-10, 1977, Vancouver, B.C., Can.Fish.Mar.Serv.Tech.Rep.No.818:31-52|1978|
9960|A||Smith,S.B., J.F. Savino, and D.R.M. Passino|Toxicity of Polyaromatic Hydrocarbons and Alkyl Halides in Great Lakes Fish to Daphnia pulex|Proc. Conf. Gt. Lakes Res.:63-|1985|
9961|A||Mayes,M.A., P.G. Murphy, D.L. Hopkins, F.M. Gersich, and F.A. Blanchard|The Toxicity and Metabolism of Triclopyr Butoxethyl Ester: Coho Salmon|Toxicologist6:26-|1986|
9962|A||Cohn,S.L.|An Evaluation of the Toxicity and Sublethal Effects of Atrazine on the Physiology and Growth Phases of the Aquatic Macrophyte Vallisneria americana L.|Ph.D.Thesis, The American Univ., Washington, DC:142 p.|1985|
9963|A||Tarr,B.D.|Squoxin Toxicity and Phthalate Accumulation Kinetics in Fish|Ph.D.Thesis, Washington State University, Pullman, WA:129 p.|1986|
9965|A||Nishiuchi,Y., H. Iwamura, and K. Asano|Toxicity of Pesticides to Some Aquatic Animals.  VI.  Acute Toxicity of Latest Registered Pesticides to Some Aquatic Animals|Seitai Kagaku (Non-English)8(12): 13-15|1985|
9972|A||Bengeri,K.V., and H.S. Patil|Histopathological Changes in the Gill of Puntius arulius Induced by Lead|J. Anim. Morphol. Physiol.34(1-2): 113-116|1987|
9973|A||Agrawal,H.P.|Evaluation of the Toxicity of Phenol and Sodium Pentachlorophenate to the Snail Indoplanorbis exustus (Deshayes)|J. Anim. Morphol. Physiol.34(1-2): 107-112|1987|
9974|A||Rani,A.U., and R. Ramamurthi|Effects of Sub-lethal Concentration of Cadmium on Oxidative Metabolism in the Fresh Water Teleost, Tilapia mossambica|Indian J. Comp. Anim. Physiol.5(2): 71-74|1987|
9975|A||Venkateswarlu,P., V.J.S. Rani, C. Janaiah, and M.S.K. Prasad|Effect of Endosulfan on Carbohydrate Metabolism in Clarias batrachus (Linn)|Indian J. Comp. Anim. Physiol.5(2): 79-84|1987|
9977|A||Taub,F.B., A.C. Kindig, and L.L. Conquest|Interlaboratory Testing of a Standardized Aquatic Microcosm|ASTM Spec. Tech. Publ.10:384-405|1987|
9978|A||Bach,J., and J. Snegaroff|Effects of the Fungicide Prochloraz on Xenobiotic Metabolism in Rainbow Trout: In Vivo Induction|Xenobiotica19(1): 1-9|1989|10.3109/00498258909034671
9979|A||De Nicola Giudici,M., and S.M. Guarino|Effects of Chronic Exposure to Cadmium or Copper on Idothea baltica (Crustacea, Isopoda)|Mar. Pollut. Bull.20(2): 69-73|1989|10.1016/0025-326X(89)90229-4
9980|A||Purcell III,T.W.|The Effects of Atrazine and Nitrate, Alone and in Combination, on a Natural Phytoplankton Population of the Potomac River|Ph.D.Thesis, University of Maryland, College Park, MD:133 p.|1988|
9981|A||De Lisle,P.F.|The Effects of Salinity on Cadmium Toxicity to the Bay Mysid, Mysidopsis bahia Molenock|Ph.D.Thesis, The College of William and Mary, Williamsburg, VA:131 p.|1988|
9983|A||Winegar,B.D., G.D. Bittner, and S.W. Leslie|Effects of Pentobarbital on Behavioral and Synaptic Plasticities in Crayfish|Brain Res.475(1): 21-27|1988|10.1016/0006-8993(88)90194-1
9984|A||Shaikh,Y.A., and P.K. Hiradhar|Alterations in the Acid and Alkaline Phosphatase Quantities in Fluoride-Exposed Estuarine Goby, Boleophthalmus dussumieri|Fluoride21(3): 131-136|1988|
9985|A||Gandhi,S.R., S.B. Kulkarni, and M.S. Netrawali|Comparative Effects of Synthetic Insecticides- Endosulfan, Phosalone and Permethrin - on Chlamydomonas reinhardtii Algal Cells|Acta Microbiol. Hung.35(2): 93-99|1988|
9986|A||Fong,A.T., J.D. Hendricks, R.H. Dashwood, S. Van Winkle, and G.S. Bailey|Formation and Persistence of Ethylguanines in Liver DNA of Rainbow Trout (Salmo gairdneri) Treated With Diethylnitrosamine by Water Exposure|Food Chem. Toxicol.26(8):669-704|1988|
9987|A||Parkinson,C., and C. Agius|Acute Toxicity of DDT to Tilapia (Oreochromis spilurus Gunther) In Vivo and In Vitro|Alt. Lab. Anim. (ATLA)15(4): 298-302|1988|10.1177/026119298801500405
9988|A||Rao,D.R., and G. Paul|Growth Regulatory Activity of Dimilin Against Mesocyclops thermocyclopoides|Curr. Sci. (Bangalore)57(7): 399-400|1988|
9989|A||Weinberger,P., C. Dechacin, and M. Czuba|Effects of Nonyl Phenol, a Pesticide Surfactant, on Some Metabolic Processes of Chlamydomonas segnis|Can. J. Bot.65(4): 696-702|1987|10.1139/b87-092
9990|A||Dhanaraj,P.S., S. Kumar, and R. Lal|Bioconcentration and Metabolism of Aldrin and Phorate by the Blue-Green Algae Anabaena (ARM 310) and Aulosira fertilissima (ARM 68)|Agric. Ecosyst. Environ.25(2-3): 187-193|1989|10.1016/0167-8809(89)90050-9
9991|A||Day,K.E.|Effects of Dissolved Organic Carbon on Accumulation and Acute Toxicity of Fenvalerate, Deltamethrin and Cyhalothrin to Daphnia magna (Straus)|Environ. Toxicol. Chem.10(1): 91-101|1991|10.1002/etc.5620100111
9992|A||Moese,M.D.|Bioaccumulation and Disposition of Dietary Phenanthrene in Blue Crabs (Callinectes sapidus) -a Pharmacokinetic Approach|Ph.D.Thesis, New York University, New York, NY:132 p.|1988|
9994|A||Turner,L.W.|Acute Toxicity of Selected Chemicals to Fathead Minnow, Water Flea and Mysid Shrimp Under Static and Flow-Through Test Conditions|Final Rep.Coop.Agreement 807479-01-0, U.S.EPA, Off.of Pestic.and Toxic Subst., Washington, DC:258 p.|1982|
9995|A||Reddy,M.S., and K.V.R. Rao|In Vivo Sub-Acute Physiological Stress Induced by Phosphamidon on Carbohydrate Metabolism in Phasic and Tonic Muscles of Penaeid Prawn, Penaeus|Proc. Indian Acad. Sci. Anim. Sci.95(5): 525-532|1986|10.1007/BF03179414
9996|A||Svobodova,Z., J. Bulinova, B. Machova, B. Vykusova, and R. Faina|The Toxicity of Selected Organic Dyes to Aquatic Organisms|Pr. Vyzk. Ustav Ryb. Hydrobiol. Vodnany15:52-60|1986|
9997|A||Gibbs,P.E., P.L. Pascoe, and G.R. Burt|Sex Change in the Female Dog-Whelk, Nucella lapillus, Induced by Tributyltin from Antifouling Paints|J. Mar. Biol. Assoc. U.K.68(3): 715-731|1988|10.1017/S0025315400028824
9998|A||Bryan,G.W., P.E. Gibbs, G.R. Burt, and L.G. Hummerstone|The Effects of Tributyltin (TBT) Accumulation on Adult Dog-Whelks, Nucella lapillus: Long-Term Field and Laboratory Experiments|J. Mar. Biol. Assoc. U.K.67(3): 525-544|1987|10.1017/S0025315400027272
9999|A||Bryan,G.W., P.E. Gibbs, and G.R. Burt|A Comparison of the Effectiveness of Tri-n-Butyltin Chloride and Five Other Organotin Compounds in Promoting the Development of Imposex in the Dog-Whelk, Nucella lapillus|J. Mar. Biol. Assoc. U.K.68(4): 733-744|1988|10.1017/S0025315400028836
10000|A||Ball,I.R.|The Relative Susceptibilities of Some Species of Fresh-Water Fish to Poisons-I.  Ammonia|Water Res.1(11/12): 767-775|1967|10.1016/0043-1354(67)90019-X
10001|A||Bass,M.L., and A.G. Heath|Physiological Effects of Intermittent Chlorination on Fish|Am. Zool.15:818-|1975|
10002|A||Burrows,R.E.|Effects of Accumulated Excretory Products on Hatchery-Reared Salmonids|U.S.Fish Wildl.Serv., Res.Rep.No.66, Washington, DC:12 p.|1964|
10003|A||Buznikov,G.A., L. Rakic, T.M. Turpaev, and L.N. Markova|Sensitivity of Sea Urchin Early Embryos to Antagonists of Acetlycholine and Monoamines|Exp. Cell Res.86:317-324|1974|10.1016/0014-4827(74)90719-8
10004|A||Eipper,A.W.|Effects of Five Herbicides on Farm Pond Plants and Fish|N. Y. Fish Game J.6(1): 46-56|1959|
10005|A||Flis,J.|Anatomicohistopathological Changes Induced in Carp (Cyprinus carpio L.) by Ammonia Water. Part 1. Effects of Toxic Concentrations|Acta Hydrobiol.10(1/2): 205-224|1963|
10006|A||Flis,J.|Anatomicohistopathological Changes Induced in Carp (Cyprinus carpio L.) by Ammonia Water. Part II. Effects of Subtoxic Concentrations (Zmiany Antaomo- i Histopatologiczne u Karpia (Cyprinus carpio L.) pod Wplywem wody A|Acta Hydrobiol.10(1/2): 225-238|1963|
10007|A||Fromm,P.O., and J.R. Gillette|Effect of Ambient Ammonia on Blood Ammonia and Nitrogen Excretion of Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol.26(3): 887-896|1968|10.1016/0010-406X(68)90008-X
10008|A||Garcia Romeu,F., and R. Motais|Na+/NH4+ Exchange in the Freshwater Eel. (Mise En Evidence D'Exchanges Na+/NH4+ Chez L'Anguille D'Eau Douce)|Comp. Biochem. Physiol.17(4): 1201-1204|1966|10.1016/0010-406X(66)90296-9
10009|A||Gromov,A.S.|Some Data on the Survival of Gambusia in Sewage Waters. (Nekotorye Dannye O Vyzhivanii Gambuzii V Stochnykh Vodakh.)|Biol. Abstr.19:7972-|1945|
10010|A||Hiatt,R.W., J.J. Naughton, and D.C. Matthews|Effects of Chemicals on a Schooling Fish, Kuhlia sandvicensis|Biol. Bull.104:28-44|1953|10.2307/1538689
10011|A||Johnson,L.D.|Control of Ulothrix zonata in Circular Ponds|Prog. Fish-Cult.17(3): 126-128|1955|10.1577/1548-8659(1955)17[126:COUZIC]2.0.CO;2
10012|A||Jones,J.R.E.|A Further Study of the Relation Between Toxicity and Solution Pressure, with Polycelis nigra as Test Animal|J. Exp. Biol.17:408-415|1940|10.1242/jeb.17.4.408
10013|A||Jones,J.R.E.|A Study of the Relative Toxicity of Anions, with Polycelis nigra as Test Animal|J. Exp. Biol.18:170-181|1941|10.1242/jeb.18.2.170
10014|A||Jones,R.O.|Tolerance of the Fry of Common Warm-Water Fishes to Some Chemicals Employed in Fish Culture|Proc. Southeast. Assoc. Game Fish Comm.16:436-445|1962|
10015|A||Klussmann,W.G., M.A. Champ, and J.T. Lock|Utilization of Anhydrous Ammonia in Fisheries Management|Proc. Southeast. Assoc. Game Fish Comm.23:512-519|1969|
10016|A||Korting,W.|Investigations on the Effect of Ammonia on the Blood of Fish. (Untersuchungen Zur Einwirkung Des Ammoniaks Auf Das Blut Der Fische)|Z. Wasser-Abwasser-Forsch. (Multiple Languages)2:154-159|1969|
10017|A||Lawrence,J.M.|Further Investigations on the Use of Delrad as an Algaecide in Fishponds|Prog. Fish-Cult.20(2): 89-91|1958|10.1577/1548-8659(1958)20[89:FIOTUO]2.0.CO;2
10018|A||Lloyd,R., and D.W.M. Herbert|The Influence of Carbon Dioxide on the Toxicity of Un-Ionized Ammonia to Rainbow Trout (Salmo gairdnerii Richardson)|Ann. Appl. Biol.48(2): 399-404|1960|10.1111/j.1744-7348.1960.tb03536.x
10019|A||Lloyd,R., and L.D. Orr|The Diuretic Response by Rainbow Trout to Sublethal Concentrations of Ammonia|Water Res.3(5): 335-344|1969|10.1016/0043-1354(69)90086-4
10020|A||Malacea,I.|Studies on the Acclimation of Fish to High Concentrations of Toxic Substances|Arch. Hydrobiol.65(1): 74-95|1966|
10021|A||Merkens,J.C., and K.M. Downing|The Effect of Tension of Dissolved Oxygen on the Toxicity of Un-ionized Ammonia to Several Species of Fish|Ann. Appl. Biol.45(3): 521-527|1957|10.1111/j.1744-7348.1957.tb05891.x
10022|A||Nehring,D.|The Toxicity of Copper Sulfate, Zinc Sulfate, Potassium Cyanide, Ammonia and Phenol Against Carp (Cyprinus carpio) from Water and by Oral|Z. Fisch. Hilfswiss.12(8-10): 717-724|1964|
10023|A||Powers,E.B.|Influence of Temperature and Concentration on the Toxicity of Salts to Fishes|Ecology1:95-112|1920|10.2307/1929078
10025|AT||Bhagyalakshmi,A., P.S. Reddy, V. Chandrasekharam, and R. Ramamurthi|Sumithion-Induced Hyperglycemia in the Freshwater Rice Field Crab Oziotelphusa senex senex Fabricius|Toxicol. Lett.12(2-3): 91-93|1982|10.1016/0378-4274(82)90169-2
10026|A||Blickens,E.A.M.|Cadmium Induced Histopathological Changes in the Gills of the Brown Bullhead Ictalurus nebulosus (Lesueur)|Ph.D.Thesis, New York University, New York, NY:145 p.|1978|
10027|A||Monosson,E., and J.J. Stegeman|Cytochrome P450E (P450IA) Induction and Inhibition in Winter Flounder by 3,3'4,4'-Tetrachlorobiphenyl:  Comparison of Response in Fish from Georges Bank and Narragansett Bay|Environ. Toxicol. Chem.10:765-774|1991|
10028|A||Johnson,E.M., R.M. Gorman, B.E.G. Gabel, and M.E. George|The Hydra attenuata System for Detection of Teratogenic Hazards|Teratog. Carcinog. Mutagen.2(3-4): 263-276|1982|10.1002/1520-6866(1990)2:3/4<263::AID-TCM1770020308>3.0.CO;2-I
10029|A||Khangarot,B.S.|The Toxic Effects of Mercury Ions on a Freshwater Teleost, Puntius sophore (Hamilton), as Assessed by Bioassay and Histopathological Indices|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(4): 391-400|1981|10.1002/aheh.19810090405
10030|A||Khobot'yev,V.G., V.I. Kapkov, Y.G. Rukhadze, N.V. Turunina, and N.A. Shidlovskaya|The Toxic Effect of Copper Complexes on Algae|Hydrobiol. J.11(5): 33-38|1975|
10031|A||Marchyulenene,D.P., R.F. Dushauskene-Duzh, E.B. Moteyunene, V.B. Nyanishkene, and G.G. Polikarpov|Accumulation of 210Pb in Freshwater Plants|Hydrobiol. J.14(6): 73-77|1978|
10032|AT|RUSSN|Merezhko,A.I., and T.I. Shokod'Ko|The Absorption of DDT by Vascular Aquatic Plants|Gidrobiol. Z. (Non-English)14(3): 84-91|1978|
10033|A||Mitchell,G., and J.A. Campbell|The Effect of Lead and Cadmium Uptake on Euglena|J. Tenn. Acad. Sci.53(2): 77-|1978|
10034|A||Neff,J.M., and C.S. Giam|Effects of Aroclor 1016 and Halowax 1099 on Juvenile Horseshoe Crabs Limulus polyphemus|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses on Mar.Biota to Pollutants, Nov.1975, Academic Press, NY:21-35|1977|
10042|A||Piavis,G.W., and J.H. Howell|Effects of 3-Trifluoromethyl-4-Nitrophenol (TFM) on Developmental Stages of the Sea Lamprey|Invest.Fish Control No.64, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:3-8|1975|
10043|A||Qayyum,M.A., and M. Gayazuddin|Early Diagnosis of Water Pollution (Heavy Metal Intoxication) by Zone Electrophoresis|Indian J. Zool.6(2): 99-107|1978|
10044|A||Rana,S.V.S., and R. Sharma|Mercurial Toxicity in the Liver of a Freshwater Teleost Channa punctatus|Toxicol. Lett.11(1/2): 7-10|1982|10.1016/0378-4274(82)90097-2
10045|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|In Vivo Sub-Acute Physiological Stress Induced by Sumithion on Carbohydrate Metabolism in Hepatopancreas of Oziotelphusa senex senex|Toxicol. Lett.13(3/4): 179-182|1982|10.1016/0378-4274(82)90208-9
10046|A||Sastry,K.V., and D.R. Rao|Effect of Mercuric Chloride on the Intestinal Absorption of an Amino Acid, Glycine, in the Freshwater Murrel, Channa punctatus|Toxicol. Lett.11(1/2): 11-15|1982|10.1016/0378-4274(82)90098-4
10047|A||Sastry,K.V., and A.A. Siddiqui|Chronic Toxic Effects of the Carbamate Pesticide Sevin on Carbohydrate Metabolism in a Freshwater Snakehead Fish, Channa punctatus|Toxicol. Lett.14(1/2): 123-130|1982|10.1016/0378-4274(82)90019-4
10048|A||Sastry,K.V., and A.A. Siddiqui|Effect of Endosulfan and Quinalphos on Intestinal Absorption of Glucose in the Freshwater Murrel, Channa punctatus|Toxicol. Lett.12(4): 289-293|1982|10.1016/0378-4274(82)90253-3
10049|A||Sastry,K.V., and K.M. Subhadra|Effect of Cadmium on Some Aspects of Carbohydrate Metabolism in a Freshwater Catfish Heteropneustes fossilis|Toxicol. Lett.14(1/2): 45-55|1982|10.1016/0378-4274(82)90008-X
10050|A||Schaefer,E., and U. Glanzer|Experiments to Test the Effect of Tensids on Higher Waterplants (Experimentelle Untersuchungen Uber die Reaktion von Hoheren Wasserpflanzen auf Tenside)|Arch. Hydrobiol.78(4): 468-481|1976|
10053|A||Sheridan,P.F.|Uptake, Metabolism, and Distribution of DDT in Organs of the Blue Crab, Callinectes sapidus|Chesapeake Sci.16(1):20-26|1975|10.2307/1351080
10054|A||Al Nasiri,S.K., and K.P. Sharma|Toxicity of Ekatin 25 on Gambusia, Gambusia affinis (Baird & Girard) at Different Ages|Bull. Biol. Res. Cent. (Baghdad)10:123-133|1978|
10055|A||Basha,S.M., K.S.P. Rao, K.R.S. Rao, and K.V.R. Rao|Differential Toxicity of Malathion, BHC, and Carbaryl to the Freshwater Fish, Tilapia mossambica (Peters)|Bull. Environ. Contam. Toxicol.31(5): 543-546|1983|10.1007/BF01605472
10056|A|OECDG|Black,J.A., W.J. Birge, A.G. Westerman, and P.C. Francis|Comparative Aquatic Toxicology of Aromatic Hydrocarbons|Fundam. Appl. Toxicol.3(9-10): 353-358|1983|10.1016/S0272-0590(83)80004-9
10057|A||Chaudhry,H.S.|Nickel Toxicity on Carbohydrate Metabolism of a Freshwater Fish, Colisa fasciatus|Toxicol. Lett.20(1): 115-121|1984|10.1016/0378-4274(84)90193-0
10058|A||Cleveland,L., and S.J. Hamilton|Toxicity of the Organophosphorus Defoliant DEF to Rainbow Trout (Salmo gairdneri) and Channel Catfish (Ictalurus punctatus)|Aquat. Toxicol.4(4): 341-355|1983|10.1016/0166-445X(83)90027-9
10059|A||Da Costa,H., and S.M. Ruby|The Effect of Sublethal Cyanide on Vitellogenic Parameters in Rainbow Trout Salmo gairdneri|Arch. Environ. Contam. Toxicol.13(1): 101-104|1984|10.1007/BF01055651
10060|A||Eastmond,D.A., G.M. Booth, and M.L. Lee|Toxicity, Accumulation, and Elimination of Polycyclic Aromatic Sulfur Heterocycles in Daphnia magna|Arch. Environ. Contam. Toxicol.13(1): 105-111|1984|10.1007/BF01055652
10061|A||Gooch,J.A., and M.K. Hamdy|Uptake and Concentration Factor of Aroclor 1254 in Aquatic Organisms|Bull. Environ. Contam. Toxicol.31(4): 445-452|1983|10.1007/BF01622276
10063|A||Greenwood,J.G., and D.R. Fielder|Acute Toxicity of Zinc and Cadmium to Zoeae of Three Species of Portunid Crabs (Crustacea: Brachyura)|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 141-144|1983|10.1016/0742-8413(83)90024-5
10064|A||Harrison,F.L., J.P. Knezovich, and D.W.,Jr. Rice|The Toxicity of Copper to the Adult and Early Life Stages of the Freshwater Clam, Corbicula manilensis|Arch. Environ. Contam. Toxicol.13(1): 85-92|1984|10.1007/BF01055649
10065|A||Klotz,R.L.|Algal Response to Copper Under Riverine Conditions|Environ. Pollut. A.24(1): 1-19|1981|10.1016/0143-1471(81)90118-5
10066|A||Victor,B., M. Narayanan, and D. Jones Nelson|Gill Pathology and Hemocyte Response in Mercury Exposed Macrobrachium rosenbergii Heller|J. Environ. Biol.11(1): 61-65|1990|
10068|A||Gill,T.S., J. Pande, and H. Tewari|Sublethal Effects of an Organophosphorus Insecticide on Certain Metabolite Levels in a Freshwater Fish, Puntius conchonius Hamilton|Pestic. Biochem. Physiol.36(3): 290-299|1990|10.1016/0048-3575(90)90038-4
10069|A||Kulshrestha,S.K., and N. Arora|Impairments Induced by Sublethal Doses of Two Pesticides in the Ovaries of a Freshwater Teleost Channa striatus Bloch|Toxicol. Lett.20(1): 93-98|1984|10.1016/0378-4274(84)90189-9
10070|A||Sawyer,P.J.|Investigation of the Possibility of Selective Chemical Control of Larval Petromyzon marinus Linnaeus|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:265 p.|1957|
10072|A||Slowik,J., and M. Pawlaczyk-Szpilowa|Interaction Between Scenedesmus obliquus and the Heavy Metals Copper and Lead|Acta Hydrochim. Hydrobiol. (Multiple Languages)7(5): 503-509|1979|10.1002/aheh.19790070506
10073|A||Smith,B.M., and F.L. Harrison|Sensitivity of Macrocystis Gametophytes to Copper|Environ.Effects Res.Branch, Office Nuclear Reg.Res., U.S.Nuclear Reg.Comm., Washington, DC:37 p.|1978|
10074|A||Stirling,E.A.|Some Effects of Pollutants on the Behaviour of the Bivalve Tellina tenuis|Mar. Pollut. Bull.6(8): 122-124|1975|10.1016/0025-326X(75)90221-0
10075|A||Stom,D.I., and A.M. Beym|The Action of Phenols on Various Algal Species|Hydrobiol. J.12(6): 43-46|1976|
10076|A||Sunda,W.G., and R.R.L. Guillard|The Relationship Between Cupric Ion Activity and the Toxicity of Copper to Phytoplankton|J. Mar. Res.34(4): 511-529|1976|
10077|A||Takeda,H., and Y. Shimma|Effects of Toxic Amounts of Dietary Zinc on the Growth and Body Components of Rainbow Trout at Two Levels of Calcium|Bull. Freshw. Fish. Res. Lab. (Tokyo)27(2): 103-110|1977|
10078|A||Takle,J.C.C., T.L. Beitinger, and K.L. Dickson|Effect of the Aquatic Herbicide Endothal on the Critical Thermal Maximum of Red Shiner, Notropis lutrensis|Bull. Environ. Contam. Toxicol.31(5): 512-517|1983|10.1007/BF01605467
10079|A||Telford,M.|Blood Glucose in Crayfish-II.  Variations Induced by Artificial Stress|Comp. Biochem. Physiol. A Comp. Physiol.48:555-560|1974|10.1016/0300-9629(74)90738-5
10081|A||Watling,H.R.|Effect of Cadmium on Larvae and Spat of the Oyster Crassostrea gigas (Thunberg)|Trans. R. Soc. S. Afr.43(2): 125-134|1978|10.1080/00359197809520232
10082|A||Wettern,M., D.W. Lorch, and A. Weber|The Effect of Lead and Manganese on the Green Alga Pediastrum tetras in Axenic Culture I. Accumulation Rates and Influence on Growth|Arch. Hydrobiol.77(3): 267-276|1976|
10083|A||Yadav,D.V., H.C. Agarwal, and M.K.K. Pillai|Uptake, Metabolism and Excretion of DDT by the Fresh Water Snail, Vivipara heliciformis|Bull. Environ. Contam. Toxicol.19(3): 300-306|1978|10.1007/BF01685802
10084|A||Lal,H., V. Misra, P.N. Viswanathan, and C.R.K. Murti|Effect of Synthetic Detergents on Some of the Behavioral Patterns of Fish Fingerlings (Cirrhina mrigala) and Its Relation to Ecotoxicology|Bull. Environ. Contam. Toxicol.32(1): 109-115|1984|10.1007/BF01607472
10085|A||Lay,J.P., W. Schauerte, W. Klein, and F. Korte|Influence of Tetrachloroethylene on the Biota of Aquatic Systems: Toxicity to Phyto- and Zooplankton Species in Compartments of a Natural Pond|Arch. Environ. Contam. Toxicol.13(2): 135-142|1984|10.1007/BF01055870
10086|A||Lee,H.H., and C.H. Xu|Effects of Metals on Sea Urchin Development:  A Rapid Bioassay|Mar. Pollut. Bull.15(1): 18-21|1984|10.1016/0025-326X(84)90418-1
10087|A||Cook,W., and J. Haney|The Acute Effects of Aluminum and Acidity upon Nine Stream Insects|In: Tech.Completion Rep., Project No.373103, Water Resource Res.Center, Univ.of New Hampshire, Durham, NH:33 p.|1984|
10088|A||Marcelle,C., and J.P. Thome|Acute Toxicity and Bioaccumulation of Lindane in Gudgeon, Gobio gobio (L.)|Bull. Environ. Contam. Toxicol.31(4): 453-458|1983|10.1007/BF01622277
10089|A||McCarter,J.A., and M. Roch|Chronic Exposure of Coho Salmon to Sublethal Concentrations of Copper-III. Kinetics of Metabolism of Metallothionein|Comp. Biochem. Physiol. C Comp. Pharmacol.77(1): 83-87|1984|10.1016/0742-8413(84)90134-8
10090|A||McLeese,D.W., and S. Ray|Uptake and Excretion of Cadmium, CdEDTA, and Zinc by Macoma balthica|Bull. Environ. Contam. Toxicol.32(1): 85-92|1984|10.1007/BF01607469
10092|A|OECDG|Naqvi,S.M., and T.S. Leung|Trifluralin and Oryzalin Herbicides Toxicities to Juvenile Crawfish (Procambarus clarkii) and Mosquitofish (Gambusia affinis)|Bull. Environ. Contam. Toxicol.31(3): 304-308|1983|10.1007/BF01608703
10093|A||Nemcsok,J., A. Nemeth, Z. Buzas, and L. Boross|Effects of Copper, Zinc and Paraquat on Acetylcholinesterase Activity in Carp (Cyprinus carpio L.)|Aquat. Toxicol.5(1): 23-31|1984|10.1016/0166-445X(84)90029-8
10094|A||Neuhoff,H.G.|Influence of an Elevated Cadmium Level in the Food on Growth and Food Conversion of Nereis succinea|Bull. Environ. Contam. Toxicol.31(5): 535-542|1983|10.1007/BF01605471
10097|A||Palachek,R.M., and J.R. Tomasso|Nitrite Toxicity to Fathead Minnows:  Effect of Fish Weight|Bull. Environ. Contam. Toxicol.32(2): 238-242|1984|10.1007/BF01607492
10098|A||Papathanassiou,E., and P.E. King|Ultrastructural Studies on the Gills of Palaemon serratus (Pennant) in Relation to Cadmium Accumulation|Aquat. Toxicol.3(4): 273-284|1983|10.1016/0166-445X(83)90010-3
10099|A||Paulson,P.C., J.R. Pratt, and J.,Jr. Cairns|Relationship of Alkaline Stress and Acute Copper Toxicity in the Snail Goniobasis livescens (Menke)|Bull. Environ. Contam. Toxicol.31(6): 719-726|1983|10.1007/BF01606051
10101|A||Power,F.M.|Long-Term Effects of Oil Dispersants on Intertidal Benthic Invertebrates II.  Growth of the Barnacle Epopella plicata (Gray) Following Dispersant Application to a Shore|Oil Petrochem.Pollut.1(2): 109-112|1983|10.1016/S0143-7127(82)90257-5
10102|A||Rachlin,J.W., T.E. Jensen, and B. Warkentine|The Growth Response of the Diatom Navicula incerta to Selected Concentrations of the Metals:  Cadmium, Copper, Lead and Zinc|Bull. Torrey Bot. Club110(2): 217-223|1983|10.2307/2996345
10103|A||Rao,K.S.P., and K.V.R. Rao|Tissue Specific Alteration of Aminotransferases and Total Atpases in the Fish (Tilapia mossambica) Under Methyl Parathion Impact|Toxicol. Lett.20(1): 53-57|1984|10.1016/0378-4274(84)90182-6
10104|A||Rasmussen,L.P.D., E. Hage, and O. Karlog|Light and Electron Microscopic Studies of the Acute and Chronic Toxic Effects of N-Nitroso Compounds on the Marine Mussel, Mytilus edulis (L.) I.|Aquat. Toxicol.3(4): 285-299|1983|10.1016/0166-445X(83)90011-5
10105|A||Rasmussen,L.P.D., E. Hage, and O. Karlog|Light and Electron Microscopic Studies of the Acute and Chronic Toxic Effects of N-Nitroso Compounds on the Marine Mussel, Mytilus edulis (L.) II.|Aquat. Toxicol.3(4): 301-311|1983|10.1016/0166-445X(83)90012-7
10106|A||Srivastava,U.S., and S.K. Konar|DDVP as a Selective Toxicant for the Control of Fishes and Insects|Prog. Fish-Cult.28(4): 235-238|1966|10.1577/1548-8640(1966)28[235:DAASTF]2.0.CO;2
10107|A||Roch,M., and J.A. McCarter|Hepatic Metallothionein Production and Resistance to Heavy Metals by Rainbow Trout (Salmo gairdneri)-II.  Held in a Series of Contaminated Lakes|Comp. Biochem. Physiol. C Comp. Pharmacol.77(1): 77-82|1984|10.1016/0742-8413(84)90133-6
10108|A||Sahib,I.K.A., K.R.S. Rao, and K.V.R. Rao|Effect of Malathion on Protein Synthetic Potentiality of the Tissues of the Teleost, Tilapia mossambica (Peters), as Measured Through Incorporation of [14C] Amino Acids|Toxicol. Lett.20(1): 63-67|1984|10.1016/0378-4274(84)90184-X
10109|A||Sahib,I.K.A., K.S.P. Rao, K.R.S. Rao, and K.V.R. Rao|Sublethal Toxicity of Malathion on the Proteases and Free Amino Acid Composition in the Liver of the Teleost, Tilapia mossambica (Peters)|Toxicol. Lett.20:59-62|1984|10.1016/0378-4274(84)90183-8
10110|A||Sauer,G.R., and N. Watabe|Zinc Uptake and its Effect on Calcification in the Scales of the Mummichog, Fundulus heteroclitus|Aquat. Toxicol.5(1): 51-66|1984|10.1016/0166-445X(84)90031-6
10111|A||Shea,T.B., and E.S. Berry|Toxicity of Carbaryl and 1-Naphthol to Goldfish (Carassius auratus) and Killifish (Fundulus heteroclitus)|Bull. Environ. Contam. Toxicol.31(5): 526-529|1983|10.1007/BF01605469
10112|A||Sheffrin,N.M.H., N.R.J. Fieller, and E.E. Williams|A Behavioural Bioassay for Impaired Sea-Water Quality Using the Plantigrades of the Common Mussel Mytilus edulis L.: The Response to Copper|Aquat. Toxicol.5(1): 77-91|1984|10.1016/0166-445X(84)90033-X
10113|A||Shukla,J.P., and K. Pandey|Impaired Ovarian Functions in Arsenic-Treated Freshwater Fish, Colisa fasciatus (Bl. and Sch.)|Toxicol. Lett.20(1): 1-3|1984|10.1016/0378-4274(84)90175-9
10114|A||Bedell,G.W.|Eradicating Ceratomyxa shasta From Infected Water by Chlorination and Ultraviolet Irradiation|Prog. Fish-Cult.33(1):51-54|1971|10.1577/1548-8640(1971)33[51:ECSFIW]2.0.CO;2
10115|A||Branson,D.R.|A New Capacitor Fluid-a Case Study in Product Stewardship|ASTM Spec. Tech. Publ.:44-61|1977|
10116|A||Bringmann,G.|Determination of the Biologically Harmful Effect of Water Pollutants by Means of the Retardation of Cell Proliferation of the Blue Algae Microcystis|TR-79-0516, Literature Research Company, Annandale, VA:14 p.|1975|
10117|A||Conway,R.A., G.T. Waggy, M.H. Spiegel, and R.L. Berglund|Environmental Fate and Effects of Ethylene Oxide|Environ. Sci. Technol.17(2): 107-112|1983|10.1021/es00108a009
10118|A||Chen,J., E. Wang, and H. Li|The Effects of Some Chemical Factors on the Larvae and Adults of Scapharca broughtonii (Schrenek)|Haiyang Yu Huzhao (Non-English)20(1): 15-22|1989|
10119|A||Kira,S., Y. Nogami, K. Taketa, and H. Hayatsu|Comparison of Techniques for Monitoring Water-Borne Polycyclic Mutagens Efficiency of Blue Rayon Sep-Pak C18 and a Biota, Corbicula, in Concentrating Benzo(a)pyrene in a Model Water System|Bull. Environ. Contam. Toxicol.57(2): 278-283|1996|10.1007/s001289900187
10120|A||Dill,D.C., M.A. Mayes, C.G. Mendoza, G.U. Boggs, and J.A. Emmitte|Comparison of the Toxicities of Biphenyl, Monochlorobiphenyl, and 2,2',4,4'-Tetrachlorobiphenyl to Fish and Daphnids|ASTM Spec. Tech. Publ.:245-256|1982|
10121|A||Hilmy,A.M., H.K. Badawi, and M.B. Shabana|Organochlorine Pesticide Residues in 12 Freshwater Egyptian Fish Species with Special Emphasis on Aguilla vulgaris and Mugil cephalus|Comp. Biochem. Physiol. C Comp. Pharmacol.76(1): 163-171|1983|10.1016/0742-8413(83)90059-2
10122|A||Rao,K.S.P., and K.V.R. Rao|Regulation of Phosphorylases and Aldolases in Tissues of the Teleost (Tilapia mossambica) Under Methyl Parathion Impact|Bull. Environ. Contam. Toxicol.31(4): 474-478|1983|10.1007/BF01622280
10123|A||Farr,J.A.|The Effect of Methyl Parathion on Predator Choice of Two Estuarine Prey Species|Trans. Am. Fish. Soc.107(1): 87-91|1978|10.1577/1548-8659(1978)107<87:TEOMPO>2.0.CO;2
10124|A||Skwarzec,B., A. Kentzer-Baczewska, E. Styczynska-Jurewicz, and E. Neugebauer|Influence of Accumulation of Cadmium on the Content of Other Microelements of Two Species of Black Sea Decapods|Bull. Environ. Contam. Toxicol.32(1):93-101|1984|10.1007/BF01607470
10125|A||Smokler,P.E., D.R. Young, and K.L. Gard|DDTs in Marine Fishes Following Termination of Dominant California Input: 1970-77|Mar. Pollut. Bull.10(11): 331-334|1979|10.1016/0025-326X(79)90403-X
10126|A||Staub,G.C., and M. Fingerman|Effect of Naphthalene on Color Changes of the Sand Fiddler Crab, Uca pugilator|Comp. Biochem. Physiol. C Comp. Pharmacol.77(1): 7-12|1984|10.1016/0742-8413(84)90123-3
10127|A||Stehlik,L.L., and J.V. Merriner|Effects of Accumulated Dietary Kepone on Spot (Leiostomus xanthurus)|Aquat. Toxicol.3(4): 345-358|1983|10.1016/0166-445X(83)90015-2
10128|A||Stephenson,R.R.|Effects of Water Hardness, Water Temperature, and Size of the Test Organism on the Susceptibility of the Freshwater Shrimp, Gammarus pulex (L.), to Toxicants|Bull. Environ. Contam. Toxicol.31(4): 459-466|1983|10.1007/BF01622278
10129|A||Tabata,K.|Studies on the Toxicity of Heavy Metals to Aquatic Animals and Factors that Decrease Such Toxicity - II.  The Antagonistic Action of Water Hardeners on the Toxicity of Heavy Metal Ions|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)58:215-232|1969|
10130|A||Thurston,R.V., R.C. Russo, and G.R. Phillips|Acute Toxicity of Ammonia to Fathead Minnows|Trans. Am. Fish. Soc.112(5): 705-711|1983|10.1577/1548-8659(1983)112<705:ATOATF>2.0.CO;2
10131|A||Tolba,M.R., and D.M. Holdich|The Effect of Water Quality on the Size and Fecundity of Asellus aquaticus (Crustacea:Isopoda)|Aquat. Toxicol.1(2): 101-112|1981|10.1016/0166-445X(81)90033-3
10132|A||Tonogai,Y., S. Ogawa, Y. Ito, and M. Iwaida|Actual Survey on TLM (Median Tolerance Limit) Values of Environmental Pollutants, Especially on Amines, Nitriles, Aromatic Nitrogen Compounds|J. Toxicol. Sci.7(3): 193-203|1982|10.2131/jts.7.193
10133|A||Tsai,C.F., and K.Y. Chang|Intraspecific Variation in Copper Susceptibility of the Bluegill Sunfish|Arch. Environ. Contam. Toxicol.13(1): 93-99|1984|10.1007/BF01055650
10134|A||Van Veld,P.A., M.E. Bender, and M.H.,Jr. Roberts|Uptake, Distribution, Metabolism and Clearance of Chlordecone by Channel Catfish (Ictalurus punctatus)|Aquat. Toxicol.5(1): 33-49|1984|10.1016/0166-445X(84)90030-4
10135|A||Verma,S.R., R. Chand, and I.P. Tonk|Mercuric Chloride Stress on Serum Transaminase Activity in Notopterus notopterus|Toxicol. Lett.20(1): 49-52|1984|10.1016/0378-4274(84)90181-4
10136|A||Weis,P., and J.S. Weis|Effects of Embryonic Pre-Exposure to Methylmercury and HG2+ on Larval Tolerance in Fundulus heteroclitus|Bull. Environ. Contam. Toxicol.31(5):530-534|1983|10.1007/BF01605470
10137|A||Wilde,E.W., R.J. Soracco, L.A. Mayack, R.L. Shealy, and T.L. Broadwell|Acute Toxicity of Chlorine and Bromine to Fathead Minnows and Bluegills|Bull. Environ. Contam. Toxicol.31(3): 309-314|1983|10.1007/BF01608704
10138|A||Winkelhake,J.L., M.J. Vodicnik, and J.L. Taylor|Induction in Rainbow Trout of an Acute Phase (C-Reactive) Protein by Chemicalsof Environmental Concern|Comp. Biochem. Physiol. C Comp. Pharmacol.74(1): 55-58|1983|10.1016/0742-8413(83)90148-2
10139|A||Yamato,Y., M. Kiyonaga, and T. Watanabe|Comparative Bioaccumulation and Elimination of HCH Isomers in Short-Necked Clam (Venerupis japonica) and Guppy (Poecilia reticulata)|Bull. Environ. Contam. Toxicol.31(3): 352-359|1983|10.1007/BF01608711
10140|A||Adams,W.J., R.A. Kimerle, B.B. Heidolph, and P.R. Michael|Field Comparison of Laboratory-Derived Acute and Chronic Toxicity Data|ASTM Spec. Tech. Publ.:367-385|1983|
10141|A||Bailey,H.C., and R.J. Spanggord|The Relationship Between the Toxicity and Structure of Nitroaromatic Chemicals|ASTM Spec. Tech. Publ.:98-107|1983|
10142|A||Batac-Catalan,Z., and D.S. White|Effect of Chromium on Larval Chironomidae As Determined by the Optical-Fiber Light-Interruption Biomonitoring System|ASTM Spec. Tech. Publ.:469-481|1983|
10143|A||Boudou,A., and F. Ribeyre|Influence of Exposure Length on the Direct Bioaccumulation of Two Mercury Compounds by Salmo gairdneri (Fry) and the Relationship Between Organism Weight and Mercury Concentrations|Water Res.18(1): 81-86|1984|10.1016/0043-1354(84)90050-2
10144|A||Langston,W.J., and M. Zhou|Cadmium Accumulation, Distribution and Metabolism in the Gastropod Littorina littorea: The Role of Metal-Binding Proteins|J. Mar. Biol. Assoc. U.K.67(3): 585-601|1987|10.1017/S0025315400027314
10145|A||Chipman,W.A.|The Role of pH in Determining the Toxicity of Ammonium Compounds|Ph.D. Thesis, University of Missouri, Columbia, MO:153 p.|1934|
10146|A||Benville,P.E.,Jr., J.A. Whipple, and M.B. Eldridge|Acute Toxicity of Seven Alicyclic Hexanes to Striped Bass, Morone saxatilis, and Bay Shrimp, Crangon franciscorum, in Seawater|Calif. Fish Game71(3): 132-140|1985|
10147|A||Collvin,L.|The Effects of Copper on Maximum Respiration Rate and Growth Rate of Perch, Perca fluviatilis L.|Water Res.18(2): 139-144|1984|10.1016/0043-1354(84)90061-7
10148|A||Corti,U.A.|"Poisons and Nitrogen Compounds. The ""Matrix"" of Fish. XI. (Poissons et Combinaisons Azotees. La ""Matrix"" Des Poissons. XI.)"|Verh. Int. Ver. Theor. Angew. Limnol.11:84-87|1951|
10149|A||Dayton,L., and R.A. Lewin|The Effects of Lead on Algae. III. Effects of Pb on Population Growth Curves in Two-Membered Cultures of Phytoplankton|Arch. Hydrobiol.49(1): 25-36|1975|
10150|A||Giddings,J.M., A.J. Stewart, R.V. O'Neill, and R.H. Gardner|An Efficient Algal Bioassay Based on Short-Term Photosynthetic Response|ASTM Spec. Tech. Publ.:445-459|1983|
10152|A||Hemens,J.|The Toxicity of Ammonia Solutions to the Mosquito Fish (Gambusia affinis Baird & Girard)|J. Proc. Inst. Sewage Purif.3:265-271|1966|
10154|A||Jones,T.W., and P.S. Estes|Uptake and Phytotoxicity of Soil-Sorbed Atrazine for the Submerged Aquatic Plant, Potamogeton perfoliatus L.|Arch. Environ. Contam. Toxicol.13(2): 237-241|1984|10.1007/BF01055882
10155|A||Baksi,S.M., and J.M. Frazier|A Fish Hepatocyte Model for the Investigation of the Effects of Environmental Contaminants|Mar. Environ. Res.24(1-4): 141-145|1988|10.1016/0141-1136(88)90281-4
10157|A||Kuiper,J.|Fate and Effects of 5-Nitrofuroic Acid-2 (NFA) on a Marine Plankton Community in Experimental Enclosures|ASTM Spec. Tech. Publ.:171-179|1983|
10158|A||Liguori,V.M., H.R. Zakour, M.L. Landolt, and S.P. Felton|Toxicity of the Herbicide Endothall to Juvenile Chinook Salmon (Oncorhynchus tshawytscha)|ASTM Spec. Tech. Publ.:530-544|1983|
10159|A||Lloyd,R.|The Toxicity of Ammonia to Rainbow Trout (Salmo gairdnerii Richardson)|Water Waste Treat. J.8:278-279|1961|
10160|A||Lockhart,W.L., B.N. Billeck, B.G.E. De March, and D.C.G. Muir|Uptake and Toxicity of Organic Compounds: Studies with an Aquatic Macrophyte (Lemna minor)|ASTM Spec. Tech. Publ.:460-468|1983|
10161|A||Lundy,P., C.F. Wurster, and R.G. Rowland|A Two-Species Marine Algal Bioassay for Detecting Aquatic Toxicity of Chemical Pollutants|Water Res.18(2): 187-194|1984|10.1016/0043-1354(84)90068-X
10162|A||Malley,D.F., W. Dentry, and S.L. Leonhard|Calcium Uptake by Postmoult Daphnia magna: A Potential Sublethal Toxicity Test|Tech. Rep. Fish. Mar. Serv.862:257-265|1979|
10163|A||Mathews,R.C., T.J. Mathews, and A.D. Bosnak|Lethal Concentrations of Residual Chlorine at Various Temperatures on Crayfish(Orconectes rusticus)|J. Tenn. Acad. Sci.50(2):62-|1975|
10164|A||McFarlane,G.A., and W.G. Franzin|An Examination of Cd, Cu, and Hg Concentrations in Livers of Northern Pike, Esox lucius, and White Sucker, Catostomus commersoni, from Five Lakes near a Base Metal Smelter at Flin Flon, Manitoba|Can. J. Fish. Aquat. Sci.37(10): 1573-1578|1980|10.1139/f80-203
10165|A||Eley,J.H., J.F. McConnell, and R.H. Catlett|Inhibition of Metribuzin on Growth and Photosynthesis of the Blue-Green Alga Anacystis nidulans|Environ. Exp. Bot.23(4): 365-368|1983|10.1016/0098-8472(83)90012-6
10166|A||Menezes,M.R., and S.Z. Qasim|Effects of Mercury Accumulation on the Electrophoretic Patterns of the Serum, Haemoglobin and Eye Lens Proteins of Tilapia mossambica (Peters)|Water Res.18(2): 153-161|1984|10.1016/0043-1354(84)90063-0
10167|A||Perez,K.T., E.W. Davey, N.F. Lackie, G.E. Morrison, P.G. Murphy, A.E. Soper, and D.L. Winslow|Environmental Assessment of a Phthalate Ester, Di(2-Ethylhexyl) Phthalate (DEHP), Derived from a Marine Mesocosm|ASTM Spec. Tech. Publ.802:180-191|1983|
10168|A||Pesch,C.E., and G.L. Hoffman|Interlaboratory Comparison of a 28-Day Toxicity Test with the Polychaete Neanthes arenaceodentata|ASTM Spec. Tech. Publ.:482-493|1983|
10169|A||Rebhun,S., and A. Ben-Amotz|The Distribution of Cadmium between the Marine Alga Chlorella stigmatophora and Sea Water Medium|Water Res.18(2): 173-178|1984|10.1016/0043-1354(84)90066-6
10170|A||Reichenbach-Klinke,H.H.|Investigations on the Influence of the Ammonia Content on the Fish Organism|Arch. Fischereiwiss.17(2): 122-132|1967|
10171|A||Robinson-Wilson,E.F., T.P. Boyle, and J.D. Petty|Effects of Increasing Levels of Primary Production on Pentachlorophenol Residues in Experimental Pond Ecosystems|ASTM Spec. Tech. Publ.:239-251|1983|
10172|A||Rodgers,J.H.J., K.L. Dickson, and M.J. Defoer|Bioconcentration of Lindane and Naphthalene in Bluegills (Lepomis macrochirus)|ASTM Spec. Tech. Publ.:300-311|1983|
10173|A||Sathyanesan,A.G., K.P. Joy, and R.S. Kulkarni|Endocrine Changes in Fishes in Response to Pollutants|Q. J. Surg. Sci.14(1/2): 67-77|1978|
10174|A||Scherer,E., F.A.J. Armstrong, and S.H. Nowak|Effects of Mercury-Contaminated Diet upon Walleyes, Stizostedion vitreum vitreum (Mitchill)|Tech. Rep. Fish. Mar. Serv.597:21 p.|1975|
10176|A||Pratt,J.R., N.J. Bowers, and J.,Jr. Cairns|Effect of Sediment on Estimates of Diquat Toxicity in Laboratory Microcosms|Water Res.24(1): 51-57|1990|10.1016/0043-1354(90)90064-D
10177|A||Srivastava,S., and Y.S.R. Sarma|Effect of Two Insecticides-Dimecron and Nuvan on the Survival, Growth and Nuclear Cytology of Oedogonium gunnii Wittr|J. Cytol. Genet.14(2): 163-172|1979|
10178|A||Steele,R.L., and G.B. Thursby|A Toxicity Test Using Life Stages of Champia parvula (Rhodophyta)|ASTM Spec. Tech. Publ.:73-89|1983|
10179|A||Ceron,J.J., M.D. Ferrando, E. Sancho, C. Gutierrez-Panizo, and E. Andreu-Moliner|Effects of Diazinon Exposure on Cholinesterase Activity in Different Tissues of European Eel (Anguilla anguilla)|Ecotoxicol. Environ. Saf.35(3): 222-225|1996|10.1006/eesa.1996.0102
10180|A||Takimoto,Y., and J. Miyamoto|Studies on Accumulation and Metabolism of Sumithion in Fish|J. Pestic. Sci. (Multiple Languages)1(4): 261-271|1976|10.1584/jpestics.1.261
10181|A||Taub,F.B., P.L. Read, A.C. Kindig, M.C. Harrass, H.J. Hartmann, L.L. Conquest, and F.J. Hardy|Demonstration of the Ecological Effects of Streptomycin and Malathion on Synthetic Aquatic Microcosms|ASTM Spec. Tech. Publ.:5-25|1983|
10182|A||Thompson,J.A.J., and D.W. Paton|Exposure of Chum Salmon, Oncorhynchus keta, to Copper in a Controlled Ecosystem Experiment (CEPEX)|Tech. Rep. Fish. Mar. Serv.660:22 p.|1976|
10183|A||Veith,G.D., D.J. Call, and L.T. Brooke|Estimating the Acute Toxicity of Narcotic Industrial Chemicals to Fathead Minnows|ASTM Spec. Tech. Publ.:90-97|1983|
10185|A||Water Pollution Research Board|Effects of Pollution on Fish: Chronic Toxicity of Ammonia to Rainbow Trout|In: Water Pollution Research 1967, Water Pollution Research Board, Dep.of Scientific and Industrial Research, H.M.Stationery Office, London:56-65|1968|
10186|A||Woltering,D.M.|Environmental Influence on the Response of Aquatic Laboratory Ecosystems to a Toxicant|ASTM Spec. Tech. Publ.:153-170|1983|
10187|A||Laughlin,R.B.J., W. French, R.B. Johannesen, H.E. Guard, and F.E. Brinckman|Predicting Toxicity Using Computed Molecular Topologies: The Example of Triorganotin Compounds|Chemosphere13(4): 575-584|1984|10.1016/0045-6535(84)90152-8
10189|A||Birge,W.J., J.A. Black, A.G. Westerman, and J.E. Hudson|The Effects of Mercury on Reproduction of Fish and Amphibians|In: J.O.Nraigu (Ed.), The Biogeochemistry of Mercury in the Environment, Elsevier/North-Holland Biomedical Press:629-655|1979|
10190|A|OECDG|Cushman,R.M., and M.I. McKamey|A Chironomus tentans Bioassay for Testing Synthetic Fuel Products and Effluents, with Data on Acridine and Quinoline|Bull. Environ. Contam. Toxicol.26(5): 601-605|1981|10.1007/BF01622143
10191|A||Gilderhus,P.A.|Some Effects of Sublethal Concentrations of Sodium Arsenite on Bluegills and the Aquatic Environment|Trans. Am. Fish. Soc.95(3): 289-296|1966|10.1577/1548-8659(1966)95[289:SEOSCO]2.0.CO;2
10192|A||Gotham,I.J., and G.Y. Rhee|Effects of a Hexachlorobiphenyl and Pentachlorophenol on Growth and Photosynthesis of Phytoplankton|J. Great Lakes Res.8(2): 328-335|1982|10.1016/S0380-1330(82)71975-6
10193|A||Herbert,D.W.M., and J.M. Vandyke|The Toxicity to Fish of Mixtures of Poisons.  II.  Copper-Ammonia and Zinc-Phenol Mixtures|Ann. Appl. Biol.53(3): 415-421|1964|10.1111/j.1744-7348.1964.tb07255.x
10194|A||Lawrence,J.M.|Recent Investigations on the Use of Sodium Arsenite as an Algacide and Its Effects on Fish Production in Ponds|Proc. Southeast. Assoc. Game Fish Comm.11:281-287|1958|
10195|AT||Meyer,F.P., and T.A. Jorgenson|Teratological and other Effects of Malachite Green on Development of Rainbow Trout and Rabbits|Trans. Am. Fish. Soc.112(6): 818-824|1983|10.1577/1548-8659(1983)112<818:TAOEOM>2.0.CO;2
10196|A||Morgan,D.D., and D. Warshawsky|The Photodynamic Immobilization of Artemia salina Nauplii by Polycyclic Aromatic Hydrocarbons and Its Relationship to Carcinogenic Activity|Photochem. Photobiol.25(1): 39-46|1977|10.1111/j.1751-1097.1977.tb07422.x
10197|A||Muller,H.G.|Sensitivity of Daphnia magna Straus Against Eight Chemotherapeutic Agents and Two Dyes|Bull. Environ. Contam. Toxicol.28(1): 1-2|1982|10.1007/BF01608403
10198|A||Nehring,R.B.|Aquatic Insects as Biological Monitors of Heavy Metal Pollution|Bull. Environ. Contam. Toxicol.15(2): 147-154|1976|10.1007/BF01685153
10199|A||Pyefinch,K.A., and J.C. Mott|The Sensitivity of Barnacles and Their Larvae to Copper and Mercury|J. Exp. Biol.25(3): 276-298|1948|10.1242/jeb.25.3.276
10200|A||Rabe,R., W. Nobel, and A. Kohler|Effects of Sodium Chloride on Photosynthesis and Some Enzyme Activities of Potamogeton alpinus|Aquat. Bot.14(2): 159-165|1982|10.1016/0304-3770(82)90095-X
10201|A||Bass,M.L.|A Study of Lethality and Toxic Mechanisms of Intermittent Chlorination to Freshwater Fish|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA36(11): 5460-|1975|
10203|A||Allen,Y., P. Calow, and D.J. Baird|A Mechanistic Model of Contaminant-Induced Feeding Inhibition in Daphnia magna|Environ. Toxicol. Chem.14(9): 1625-1630|1995|
10204|A||Buhler,D.R., and M.E. Rasmusson|The Oxidation of Drugs by Fishes|Comp. Biochem. Physiol.25:223-239|1968|10.1016/0010-406X(68)90931-6
10207|A||Bali,H.S., S. Singh, and D.P. Singh|Trial of Some Molluscicides on Snails Melanoides tuberculatus and Vivipara bengalensis in Laboratory|Indian J. Anim. Sci.54(4): 401-403|1984|
10208|A||Goettl,J.P.,Jr., and P.H. Davies|Water Pollution Studies|Job Progress Report, Federal Aid Project F-33-R-11, DNR, Boulder, CO:58 p.|1976|
10209|A||Thomsen,J.P.|A Study on the Possible Association of Copper Pollution with Vibriosis in Eel|Nord. Vetmed.30:90-95|1980|
10210|A||Sylvester,J.R., and L.E. Holland|Influence of Temperature, Water Hardness, and Stocking Density on MS-222 Response in Three Species of Fish|Prog. Fish-Cult.44(3):138-141|1982|10.1577/1548-8659(1982)44[138:IOTWHA]2.0.CO;2
10211|A||Chandler,J.H.,Jr., and L.L. Marking|Toxicity of Rotenone to Selected Aquatic Invertebrates and Frog Larvae|Prog. Fish-Cult.44(2): 78-80|1982|10.1577/1548-8659(1982)44[78:TORTSA]2.0.CO;2
10212|A||Marking,L.L., and V.K. Dawson|Method for Assessment of Toxicity or Efficacy of Mixtures of Chemicals|Invest.Fish Control No.67, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:8 p.|1975|
10213|A||Hannan,P.J., N.P. Thompson, C. Patouillet, and P.E. Wilkniss|203Hg As Tracer in Pigments of Phaeodactylum tricornutum|Int. J. Appl. Radiat. Isot.24:665-670|1973|10.1016/0020-708X(73)90101-4
10214|A||Brown,A.C.|Observations on the Effect of Ammonium Nitrate Solutions on Some Common Marine Animals from Table Bay|Trans. R. Soc. S. Afr.41(2): 217-223|1974|10.1080/00359197409520073
10215|A||Hinton,D.E., and J.C.,Jr. Koenig|Acid Phosphatase Activity in Subcellular Fractions of Fish Liver Exposed to Methyl Mercuric Chloride|Comp. Biochem. Physiol. B Comp. Biochem.50(4): 621-625|1975|10.1016/0305-0491(75)90100-5
10216|A||Sousa,R.J., T.L. Meade, and R.E. Wolke|Reduction of Ammonia Toxicity by Salinity and pH Manipulation|Proc. 5th Annu. Workshop, World Maricult. Soc.5:343-354|1974|
10217|A||Daoust,P.Y., and H.W. Ferguson|The Pathology of Chronic Ammonia Toxicity in Rainbow Trout, Salmo gairdneri Richardson|J. Fish Dis.7:199-205|1984|10.1111/j.1365-2761.1984.tb00924.x
10219|A||Thurston,R.V., R.C. Russo, R.J. Luedtke, C.E. Smith, E.L. Meyn, C. Chakoumakos, K.C. Wang, and C.J.D. Brown|Chronic Toxicity of Ammonia to Rainbow Trout|Trans. Am. Fish. Soc.113(1): 56-73|1984|10.1577/1548-8659(1984)113<56:CTOATR>2.0.CO;2
10220|A||Thurston,R.V., and R.C. Russo|Acute Toxicity of Ammonia to Rainbow Trout|Trans. Am. Fish. Soc.112:696-704|1983|10.1577/1548-8659(1983)112<696:ATOATR>2.0.CO;2
10221|A||Thurston,R.V., and R.C. Russo|Acute Toxicity of Ammonia to Golden Trout (Salmo aguabonita) and Mottled Sculpin (Cottus bairdi)|Tech.Rep.No.81-1, Fish.Bioassay Lab., Montana State Univ., Bozeman, MT:10 p.|1981|
10222|A||McCormick,J.H., S.J. Broderius, and J.T. Fiandt|Toxicity of Ammonia to Early Life Stages of the Green Sunfish Lepomis cyanellus|Environ. Pollut. A.36:147-163|1984|10.1016/0143-1471(84)90096-5
10223|A||Bowling,J.W., G.J. Leversee, P.F. Landrum, and J.P. Giesy|Acute Mortality of Anthracene-Contaminated Fish Exposed to Sunlight|Aquat. Toxicol.3:79-90|1983|10.1016/0166-445X(83)90008-5
10224|A||Iseki,K., M. Takahashi, E. Bauerfeind, and C.S. Wong|Effects of Polychlorinated Biphenyls (PCBs) on a Marine Plankton Population and Sedimentation in Controlled Ecosystem Enclosures|Mar. Ecol. Prog. Ser.5:207-214|1981|10.3354/meps005207
10225|A||Smith,W.E., T.H. Roush, and J.T. Fiandt|Toxicity of Ammonia to Early Life Stages of Bluegill (Lepomis macrochirus)|Int.Rep.600/X-84-175, U.S.EPA, Duluth, MN:11 p.|1984|
10226|A||Klaverkamp,J.F., D.A. Hodgins, and A. Lutz|Selenite Toxicity and Mercury-Selenium Interactions in Juvenile Fish|Arch. Environ. Contam. Toxicol.12:405-413|1983|10.1007/BF01057583
10227|A||Friesen,M.K., T.D. Galloway, and J.F. Flannagan|Toxicity of the Insecticide Permethrin in Water and Sediment to Nymphs of the Burrowing Mayfly Hexagenia rigida (Ephemeroptera: Ephemeridae)|Can. Entomol.115:1007-1014|1983|10.4039/Ent1151007-8
10228|A||Duncan,D.A., and J.F. Klaverkamp|Tolerance and Resistance to Cadmium in White Suckers (Catostomus commersoni) Previously Exposed to Cadmium, Mercury, Zinc, or Selenium|Can. J. Fish. Aquat. Sci.40(2): 128-138|1983|10.1139/f83-022
10229|A||Klaverkamp,J.F., W.A. MacDonald, W.R. Lillie, and A. Lutz|Joint Toxicity of Mercury and Selenium in Salmonid Eggs|Arch. Environ. Contam. Toxicol.12:415-419|1983|10.1007/BF01057584
10230|A||Anderson,R.L., and P. Shubat|Insecticide Effects on Normal Development and Hatch of Embryos of Paratanytarsus parthenogeneticus (Diptera: Chironomidae)|Gt. Lakes Entomol.16(4): 177-181|1983|
10231|A||Addison,R.F., M.E. Zinck, D.E. Willis, and J.J. Wrench|Induction of Hepatic Mixed Function Oxidase Activity in Trout (Salvelinus fontinalis) by Aroclor 1254 and Some Aromatic Hydrocarbon PCB Replacements|Toxicol. Appl. Pharmacol.63:166-172|1982|10.1016/0041-008X(82)90037-0
10232|A||Addison,R.F., M.E. Zinck, D.E. Willis, and D.C. Darrow|Induction of Hepatic Mixed Function Oxidases in Trout by Polychlorinated Biphenyls and Butylated Monochlorodiphenyl Ethers|Toxicol. Appl. Pharmacol.49:245-248|1979|10.1016/0041-008X(79)90247-3
10233|A||Omkar, V.B. Upadhyay, and G.S. Shukla|Endosulphan-Induced Changes in the Carbohydrate Metabolism of a Freshwater Prawn, Macrobrachium lamarrei (H.Milne Edwards)|Curr. Sci. (Bangalore)53(5): 280-281|1984|
10234|A||Riedel,G.F.|Interspecific and Geographical Variation of the Chromium Sensitivity of Algae|ASTM Spec. Tech. Publ.11:537-548|1989|
10235|A||Taub,F.B., A.C. Kindig, L.L. Conquest, and J.P. Meador|Results of Interlaboratory Testing of the Standardized Aquatic Microcosm Protocol|ASTM Spec. Tech. Publ.11:368-394|1988|
10236|A||Nichols,J.W., G.A. Wedemeyer, F.L. Mayer, W.W. Dickhoff, S.V. Gregory, and W.T. Yasutake|Effects of Freshwater Exposure to Arsenic Trioxide on the Parr-Smolt Transformation of Coho Salmon (Oncorhynchus kisutch)|Environ. Toxicol. Chem.3:143-149|1984|
10237|A||Birge,W.J., W.H. Benson, and J.A. Black|The Induction of Tolerance to Heavy Metals in Natural and Laboratory Populations of Fish|Res.Rep.No.141, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:26 p.|1983|
10238|A||Laufer,H.|The Effect of Hormonal Pollutants on Aquatic Crustacea and the Surrounding Environment|Tech.Completion Rep.A-083 Conn, Inst.of Water Resour., University of Connecticut, Storrs, CT:38 p.|1982|
10239|A||Goldman,J.C., and J.A. Davidson|Physical Model of Marine Phytoplankton Chlorination at Coastal Power Plants|Environ. Sci. Technol.11:908-913|1977|10.1021/es60132a005
10240|A||De Flora,S., and A. Arillo|Mutagenic and DNA Damaging Activity in Muscle of Trout Exposed In Vivo to Nitrite|Cancer Lett.20:147-155|1983|10.1016/0304-3835(83)90043-5
10241|A||Evans,E.S.,Jr.|Field Evaluation of the Extended Mosquito Larvicidal Activity of a Controlled-Release Chlorpyrifos Polymer in a Woodland Pool Habitat|Entomol.Spec.Study No.44-0364-77, U.S.Army, Environ.Hyg.Agency, Aberdeen Proving Ground, MD:19 p.|1976|
10242|A||Matias,J.R.|The Effect of Exposure to Gaseous Ammonia on the Duration of Diapause II in the Embryos of the Annual Fish, Nothobranchius guentheri|Experientia39:1148-1150|1983|10.1007/BF01943154
10243|A||Olson,K.R., and P.O. Fromm|Excretion of Urea by Two Teleosts Exposed to Different Concentrations of Ambient Ammonia|Comp. Biochem. Physiol. A Comp. Physiol.40:999-1007|1971|10.1016/0300-9629(71)90289-1
10244|A||Kupzis,J.|The Naptha Fish Poisons and Their Effect on Fish, Other Animals, and Bacteria|Z. Fisch. Hilfswiss.9:144-165|1902|
10245|A||Venkataramiah,A., G.J. Lakshmi, C. Best, G. Gunter, E. Hartwig, and P. Wilde|Studies on Toxicity of OTEC Plant Components on Marine Animals from the Gulf of Mexico|Final Rep.for Period Sept.1, 1978-Nov.30, 1980, Gulf Coast Res.Lab., Ocean Springs, MS:115 p.|1981|
10246|A||Giesy,J.P., J.W. Bowling, H.J. Kania, R.L. Knight, and S. Mashburn|Fates of Cadmium Introduced into Channels Microcosm|Environ. Int.5:159-175|1981|10.1016/0160-4120(81)90138-0
10247|A||Smith,P.D.|The Use of In Situ Algal Assays to Evaluate the Effects of Sewage Effluents on the Production of Shagawa Lake Phytoplankton|In: EPA-660/3-75-034, U.S.EPA, Corvallis, OR:143-173|1975|
10248|A||Riggs,V.L., and R.W. Gregory|Environmental Effects of Western Coal Surface Mining, Part V. Age and Growth of Walleyes and Saugers in the Tongue River Reservoir, Montana|EPA-600/3-80-038, U.S.EPA, Duluth, MN:53 p.|1980|
10249|A||Penkal,R.F., and R.W. Gregory|Environmental Effects of Western Coal Surface Mining, Part VI. Smallmouth Bass and Largemouth Bass in the Tongue River Reservoir, Montana|EPA-600/3-80-045, U.S.EPA, Duluth, MN:45-|1980|
10250|A||Goettl,J.P.J., and J.W. Edde|Environmental Effects of Western Coal Surface Mining, Part VIII. Fish Distribution in Trout Creek, Colorado, 1975-1976|EPA-600/3-80-070, U.S EPA, Duluth, MN:27 p.|1980|
10251|A||Kumar,N.J., and K.P. Krishnamoorthi|Evaluation of Toxicity of Ammoniacal Fertiliser Effluents|Environ. Pollut. A.30(1): 77-86|1983|10.1016/0143-1471(83)90032-6
10252|A||Alabaster,J.S., D.G. Shurben, and M.J. Mallett|The Acute Lethal Toxicity of Mixtures of Cyanide and Ammonia to Smolts of Salmon, Salmo salar L. at Low Concentrations of Dissolved Oxygen|J. Fish Biol.22(2): 215-222|1983|10.1111/j.1095-8649.1983.tb04741.x
10253|A||Blaylock,B.G., M.L. Frank, and D.L. DeAngelis|Bioaccumulation of 95MTC in Fish and Snails|Health Phys.42(3): 257-266|1982|10.1097/00004032-198203000-00001
10254|A||Smith,C.E.|Hyperplastic Lesions of the Primitive Meninx of Fathead Minnows, Pimephales promelas, Induced by Ammonia: Species Potential for Carcinogen Testing|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.65, NIH Publ.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:119-125|1984|
10255|A||Bullock,G.L.|Studies on Selected Myxobacteria Pathogenic for Fishes and on Bacterial Gill Disease in Hatchery-Reared Salmonids|Tech.Pap.No.60, Bureau of Sport Fish.Wild., Fish Wildl.Serv., U.S.D.I., Washington, D.C:30-|1972|
10256|A||Marinucci,A.C., and R. Bartha|Accumulation of the Polychlorinated Biphenyl Aroclor 1242 From Contaminated Detritus and Water by the Saltmarsh Detritivore, Uca Pugnax|Bull. Environ. Contam. Toxicol.29(2): 326-333|1982|10.1007/BF01706236
10257|A||Venkataramiah,A., G.J. Lakshmi, C. Best, G. Gunter, E. Hartwig, and P. Wilde|Studies on Toxicity of OTEC Plant Components on Eucalanus sp. from the Gulf of Mexico|LBL-13916, Annu.Rep.for Period Oct.1980 Through Sept.1981, U.S.Dep.Energy Contract W-7405-ENG-48, Lawrence Berkeley Laboratory, University of California, Berkeley, CA:53 p.|1981|
10258|A||Nishiyuchi,Y.|Toxicity of Pesticides to Some Water Organisms|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)12:122-128|1972|
10259|A||Craig,G.R.|Interlaboratory Fish Toxicity Test Comparison-Ammonia|Environ.Protection Service, Quality Protection Section, Water Resour.Branch, Canada:7 p.|1983|
10260|A||Tatem,H.E.|Polychlorinated Biphenyl Accumulation by Macrobrachium and Corbicula Exposed to Contaminated Sediment|Estuaries4(3): 260-|1981|
10263|A||Hattori,T., and Y. Shizuri|A Screening Method for Antifouling Substances Using Spores of the Fouling Macroalga Ulva conglobata Kjellman|Fish. Sci.62(6): 955-958|1996|10.2331/fishsci.62.955
10264|A||Dave,G., and P. Kosian|Influence of Diet and Body Lipids on the Bioconcentration of Endrin From Water in the Fathead Minnow (Pimephales promelas)|EPA-600/3-83-077, U.S.EPA, Duluth, MN:25 p.|1983|
10265|A||Pawar,K.R., and M. Katdare|Acute Toxicity of Sumithion, BHC and Furadan to Some Selected Fresh Water Organisms|Biovigyanam9:67-72|1983|
10266|A||Lumsden,B.R., and T.M. Florence|A New Algal Assay Procedure for the Determination of the Toxicity of Copper Species in Seawater|Environ. Technol. Lett.4:271-276|1983|10.1080/09593338309384205
10267|A||Knowlton,M.F., T.P. Boyle, and J.R. Jones|Uptake of Lead From Aquatic Sediment by Submersed Macrophytes and Crayfish|Arch. Environ. Contam. Toxicol.12:535-541|1983|10.1007/BF01056549
10269|A||Czuba,M., and D.C. Mortimer|Interactive Patterns of Methyl Mercury Toxicity in Nuclear and Cell Division of Apical Meristems of Elodea densa at Low Concentrations and|Can. J. Bot.60(5): 657-666|1982|10.1139/b82-087
10271|A||Venier,P., and S. Canova|Formation of DNA Adducts in the Gill Tissue of Mytilus galloprovincialis Treated with Benzo(a)pyrene|Aquat. Toxicol.34(2):119-133|1996|10.1016/0166-445X(95)00035-3
10272|A||Winger,P.V., M.J. Imlay, W.E. McMillan, T.W. Martin, J. Takekawa, and W.W. Johnson|Field and Laboratory Evaluation of the Influence of Copper-Diquat on Apple Snails in Southern Florida|Environ. Toxicol. Chem.3:409-424|1984|
10273|A||Tantawy,M.M., T. Braumann, and L.H. Grimme|Uptake and Metabolism of the Phenylpyridazinone Herbicide Metflurazon During the Bleaching and Regeneration Process of the Green Alga, Chlorella fusca|Pestic. Biochem. Physiol.22(2): 224-231|1984|10.1016/0048-3575(84)90093-2
10274|A||Burrows,R.E., and B.D. Combs|Lignasan as Bactericide and Algaecide|Prog. Fish-Cult.20(3): 143-144|1958|10.1577/1548-8659(1958)20[143:LABAA]2.0.CO;2
10275|A||Costa,H.H.|The Effect of Exercise on the Survival of Phoxinus phoxinus L. in Sodium Cyanide Solutions|Hydrobiologia (Multiple Languages)28:241-251|1966|10.1007/BF00037325
10276|A||Haider,G.|Studies on the Heavy Metal Poisoning of Fishes I: Lead Poisoning of Rainbow Trout (Salmo gairdneri Rich.)|Z. Angew. Zool. (Multiple Languages)51:347-368|1964|
10277|A||Pauli,W.|Development of a Draft Guideline for a Protozoan Test with Tetrahymena|In: W.Pauli and S.Berger (Eds.), Rep.No.UBA-FB-96-039, Proc.of the International Workshop on a Protozoan Test Protocol with Tetrahymena in Aquatic Toxicity Testing, Umweltbundesamt:113-120|1996|
10278|A||Jurewicz,S., and A.L.,Jr. Buikema|Effects of Arsenate on Algae, Daphnia, and Mosquito Fish|Va. J. Sci.31:124-|1980|
10279|A||Rucker,R.R., and W.J. Whipple|Effect of Bactericides on Steelhead Trout Fry|Prog. Fish-Cult.13:43-44|1951|10.1577/1548-8640(1951)13[135:SFKD]2.0.CO;2
10280|A||Rachlin,J.W., B. Warkentine, and T.E. Jensen|The Growth Responses of Chlorella saccharophila, Navicula incerta and Nitzschia closterium to Selected Concentrations of Cadmium|Bull. Torrey Bot. Club109(2): 129-135|1982|10.2307/2996252
10281|A||Swigert,J.P., and A. Spacie|Survival and Growth of Warmwater Fishes Exposed to Ammonia Under Low Flow Conditions|Tech.Rep.157, Purdue Univ., Water Resour.Res.Center, West Lafayette, IN:40 p.|1983|
10282|A||Cairns,J.,Jr., and J.J. Loos|Changed Feeding Rate of Brachydanio rerio (Hamilton Buchanan) Resulting From Exposure to Sublethal Concentrations of Zinc, Potassium|Proc. Pa. Acad. Sci.40:47-52|1967|
10283|A||Tikhonova,L.S.|"The Influence of the Carbamate Agent ""Saturn"" on Various Functional Systems of Sturgeon From the Don River"|In: Physiological Basis of Reproduction of Marine and Anadromous Fish.Vniro, Moscow, U.S.S.R.:90-93|1983|
10284|A||Allison,L.N.|Variation in Strength of Pyridylmercuric Acetate Technical and its Effect on Rainbow Trout|Prog. Fish-Cult.19(3): 108-111|1957|10.1577/1548-8659(1957)19[108:VISOPA]2.0.CO;2
10285|A||Boetius,J.|Lethal Action of Mercuric Chloride and Phenylmercuric Acetate on Fishes|Medd. Dan. Fisk. Havunders.3(4): 93-115|1960|
10286|A||Rodgers,E.O., B.H. Hazen, S.B. Friddle, and S.F. Snieszko|The Toxicity of Pyridylmercuric Acetate Technical (PMA) to Rainbow Trout (Salmo gairdnerii)|Prog. Fish-Cult.13(2): 71-73|1951|10.1577/1548-8640(1951)13[71:TTOPAT]2.0.CO;2
10287|A||Lewis,W.M.,Jr.|Sodium Cyanide in Fish Management and Culture|Prog. Fish-Cult.22(4): 177-180|1960|10.1577/1548-8659(1960)22[177:SCIFMA]2.0.CO;2
10288|A||Turner,H.J.,Jr., D.M. Reynolds, and A.C. Redfield|Chlorine and Sodium Pentachlorophenate as Fouling Preventives in Sea Water Conduits|J. Ind. Eng. Chem.40(3): 450-453|1948|10.1021/ie50459a020
10289|A||Karsten,A.|Investigation of the Effect of Cyanide on Black Hills Trout|Black Hills Eng.22(3): 145-175|1934|
10290|A||Boschetti,M.M., and T.F. McLoughlin|Toxicity of Sodium Arsenite to Minnows|Sanitalk5:14-18|1957|
10291|A||Wallace,J.B.|Studies on Southeastern Aquatic Insects|Pb-232 183, Epa 660/3-73-016, U.S.Epa, Athens, GA:131-|1974|
10293|A||Margrey,S.L., L.W.,Jr. Hall, and D.T. Burton|Combined Effects of Chlorine, Temperature and Exposure Duration on Larval White Perch, Morone americana (Gmelin)|ASB Bull.26:88-|1979|
10294|A||Schiffman,R.H., and P.O. Fromm|Chromium-Induced Changes in the Blood of Rainbow Trout, Salmo gairdnerii|Sewage Ind. Wastes31:205-211|1959|
10295|A||Fromm,P.O., and R.H. Schiffman|Toxic Action of Hexavalent Chromium on Largemouth Bass|J. Wildl. Manag.22(1): 40-44|1958|10.2307/3797295
10296|A||Lipschuetz,M., and A.L. Cooper|Comparative Toxicities of Potassium Cyanide and Potassium Cuprocyanide to the Western Black-Nosed Dace (Rhinichthys atratulus meleagris)|N. Y. Fish Game J.2(2): 194-204|1955|
10297|A||Surber,E.W., and O.L. Meehean|Lethal Concentrations of Arsenic for Certain Aquatic Organisms|Trans. Am. Fish. Soc.61:225-239|1931|10.1577/1548-8659(1931)61[225:LCOAFC]2.0.CO;2
10298|A||Mohsen,Z.H., and M.S. Mulla|Field Evaluation of Simulium Larvicides:  Effects on Target and Nontarget Insects|Environ. Entomol.11(2): 390-398|1982|10.1093/ee/11.2.390
10299|A||Dinnel,P.A., Q.J. Stober, S.C. Crumley, and R.E. Nakatani|Development of a Sperm Cell Toxicity Test for Marine Waters|ASTM Spec. Tech. Publ.:82-98|1982|
10301|A||Learner,M.A., and R.W. Edwards|The Toxicity of Some Substances to Nais (Oligochaeta)|Water Treat. Exam.12(3): 161-168|1968|
10302|A||Magalhaes,J.A.B.|Importance of Ammonia as an Ichthyotoxic Substance [Importancia da Amonia como Substacia Ictiotoxica]|No.159, Serv.Piscicultura, Publ.Ser.1-C, Dep.Nacl.Onbras Contra Secas, Ministerio Viacao E Onbras Publicas, Brazil:115-132|1954|
10303|A||Thurston,R.V., R.C. Russo, and G.A. Vinogradov|Ammonia Toxicity to Fishes.  Effect of pH on the Toxicity of the Un-ionized Ammonia Species|Environ. Sci. Technol.15(7): 837-840|1981|10.1021/es00089a012
10305|A||Danecker,E.|The Jauche Poisoning of Fish - an Ammonia Poisoning|Osterreichs Fischerei3/4:55-68|1964|
10306|A||Phillips,A.M.|The Effect of Metabolic Products on Brook Trout|N.Y.State Conservation Dep.Fish.Res.Bull.14, Cortland Hatchery Rep.No.19, Cortland, NY:14-16|1950|
10307|A||Penaz,M.|The Influence of Ammonia on the Eggs and Young of the Common Trout, Salmo trutta var. fario|Zool. Listy14(1): 47-54|1965|
10308|A||Herbert,D.W.M.|The Toxicity to Rainbow Trout of Spent Still Liquors from the Distillation of Coal|Ann. Appl. Biol.50(4): 755-777|1962|10.1111/j.1744-7348.1962.tb06076.x
10309|A||Guerra,M., and N. Comodo|Possibilita' di Utilizzazione del Test di Ittiotossicita' per una Valutazione dei Limiti di Accettabilita' Negli Effluenti Industriali di Alcune Sost|Boll. Soc. Ital. Biol. Sper. (Non-English)48(22): 898-901|1972|
10310|A||Herbert,D.W.M.|Toxicity of a Sewage Effluent|Bull. Cent. Belg. Etud. Doc. Eaux32:115-120|1956|
10311|A||Doe,K.G., W.R. Parker, W.R. Ernst, and W.H. Horne|Studies on the Toxicity of Matacil 180F Concentrate, its Formulations, and Their Components to Aquatic Fauna|EPS-5-AR-83-1, Environmental Protection Services, Environment Canada, Atlantic Region, Dartmouth, Nova Scotia:45 p.|1983|
10312|A||Diangelo,S., and W. Spaulding|Progress Report on the Testing of Possibly Useful Fish Toxicants - Ammonia|Job Completion Rep.No.68D-0248-21, Mich.Dep.Conservation, Lansing, MI:5 p.|1960|
10313|A||Bollinger,J.E., K. Bundy, M.B. Anderson, L. Millet, J.E. Preslan, L. Jolibois, H.L. Chen, and B. Kamath|Bioaccumulation of Chromium in Red Swamp Crayfish (Procambarus clarkii)|J. Hazard. Mater.54(1-2): 1-13|1997|10.1016/S0304-3894(96)01851-1
10314|A||Glanzer,U.|Experimental Investigation of the Behavior of Submerged Macrophytes Under Ammonia Pollution|In: P.Mueller (Ed.), Proc.of the Society for Ecology in Saarbrucken, 1973, The Hague, Netherlands:175-179|1974|
10315|A||Abbasi,S.A., and R. Soni|Teratogenic Effects of Chromium (VI) in Environment as Evidenced by the Impact on Larva of Amphibian Rana tigrina: Implications in the Environmental Management of Chromium|Int. J. Environ. Stud.23(2): 131-137|1984|10.1080/00207238408710146
10316|A||Allan,I.R.H., D.W.M. Herbert, and J.S. Alabaster|A Field and Laboratory Investigation of Fish in a Sewage Effluent|Minist.Agric.Fish.Food, Fish.Invest.Ser.162:76 p.|1958|
10317|A||Flagg,R.M., and L.W. Hinck|Influence of Ammonia on Aeromonad Susceptibility in Channel Catfish|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies32:415-419|1978|
10318|A||Herbert,D.W.M., and D.S. Shurben|The Susceptibility of Salmonid Fish to Poisons Under Estuarine Conditions.  II.  Ammonium Chloride|Air Water Pollut.9(1-2): 89-91|1965|
10319|A||Holland,G.A., J.E. Lasater, L.D. Neumann, and W.E. Eldridge|Experiments with Inorganic Pollutants - Ammonia|In: Toxic Effects of Organic and Inorganic Pollutants on Young Salmon and Trout, Res.Bull.No.5, Dep.of Fisheries, State of Washington:183-187|1960|
10320|A||Grygierek,E., M. Januszko, D. Kruger, and B.E. Wasilewska|The Influence of Ammonia Water on Bacteria, Plankton and Bottom Fauna of Ponds|Roczniki Nauk Rolniczych99(1): 121-140|1978|
10321|A||Katz,M., and R.A. Pierro|Estimates of the Acute Toxicity of Ammonia-Urea Plant Wastes to Coho Salmon, Oncorhynchus kisutch|Final Rep., Fish.Res.Inst., College of Fish., Univ.of Washington, Seattle, WA:15-|1967|
10322|A||Guerin-Ancey,O.|Experimental Study of the Nitrogen Excretion of Bass (Dicentrarchus labrax) During Growth. III. Effects of Water Volume and Initial Ammonia|Aquaculture9(3): 253-258|1976|10.1016/0044-8486(76)90067-3
10323|A||Allan,I.R.H.|Effects of Pollution on Fisheries|Verh. Int. Ver. Theor. Angew. Limnol.12:804-810|1955|
10324|A||Evola-Maltese,C.|Effects of Beryllium on the Development and Alkaline Phosphatase Activity of Paracentrotus Embryos|Acta Embryol. Morphol. Exp.1:143-149|1957|
10326|A||Lasheen,M.R., S.A. Shehata, and G.H. Ali|Effect of Cadmium, Copper and Chromium (VI) on the Growth of Nile Water Algae|Water Air Soil Pollut.50(1-2): 19-30|1990|10.1007/BF00284780
10327|A||Evans,E.S.,Jr., J.H. Nelson, N.E. Pennington, and W.W. Young|Larvicidal Effectiveness of a Controlled-Release Formulation of Chlorpyrifos in a Woodland Pool Habitat|Mosq. News35(3): 343-350|1975|
10328|A||Nelson,J.H., E.S.,Jr. Evans, N.E. Pennington, and M.V. Meisch|Larval Control of Psorophora confinnis (Lynch-arribalzaga) with a Controlled-Release Formulation of Chlorpyrifos|Mosq. News36(1): 47-51|1976|
10329|A||Tomizawa,C.|Biological Accumulation of Pesticides in an Ecosystem-Evaluation of Biodegradability and Ecological Magnification of Rice Pesticides by a Model Ecosystem|Jpn. Agric. Res. Q.14(3): 143-149|1980|
10330|AT||Giesy,J.P.,Jr., H.J. Kania, J.W. Bowling, R.L. Knight, S. Mashburn, and S. Clarkin|Fate and Biological Effects of Cadmium Introduced into Channel Microcosms|EPA-600/3-79-039, Savannah River Ecol.Lab., Inst.of Ecol., Univ.of Georgia, Aiken, SC:157 p.|1979|
10331|A||Ginsburg,J.M.|Tests with New Toxicants, in Comparison with DDT, on Mosquito Larvae and Fish|Proc. N. J. Mosq. Exterm. Assoc.34:132-135|1947|
10332|A||Boyd,C.E., and D.E. Ferguson|Susceptibility and Resistance of Mosquito Fish to Several Insecticides|J. Econ. Entomol.57(4): 430-431|1964|10.1093/jee/57.4.430
10333|A||Abegg,R.|Some Effects of Inorganic Salts on the Blood Specific Gravity and Tissue Fluids of the Bluegill Lepomis macrochirus Raf|Physiol. Zool.23(2): 124-134|1950|10.1086/physzool.23.2.30152070
10334|A||Ahsanullah,M., M.C. Mobley, and D.S. Negilski|Accumulation of Cadmium From Contaminated Water and Sediment by the Shrimp Callianassa australiensis|Mar. Biol.82:191-197|1984|10.1007/BF00394102
10336|A||Bagchi,P., S. Chatterjee, A. Ray, and C. Deb|Effect of Quinalphos, Organophosphorus Insecticide, on Testicular Steroidogenesis in Fish, Clarias batrachus|Bull. Environ. Contam. Toxicol.44(6): 871-875|1990|10.1007/BF01702177
10337|A||Cope,O.B.|Contamination of the Freshwater Ecosystem by Pesticides|J. Appl. Ecol.3:33-44|1966|10.2307/2401442
10338|A||Costa,H.H.|Effects of Some Common Insecticides and Other Environmental Factors on the Heart Beat of Caridina pristis|Hydrobiologia (Multiple Languages)35(3/4): 469-480|1970|10.1007/BF00184571
10339|A||Doudoroff,P., M. Katz, and C.M. Tarzwell|Toxicity of Some Organic Insecticides to Fish|Sewage Ind. Wastes25:840-844|1953|
10340|A||Ferguson,D.E., and C.R. Bingham|The Effects of Combinations of Insecticides on Susceptible and Resistant Mosquito Fish|Bull. Environ. Contam. Toxicol.1(3): 97-103|1966|10.1007/BF01886772
10341|A||Ferguson,D.E., D.D. Culley, W.D. Cotton, and R.P. Dodds|Resistance to Chlorinated Hydrocarbon Insecticides in Three Species of Freshwater Fish|Bioscience14(1): 43-44|1964|10.2307/1293328
10343|A||Khangarot,B.S., V.S. Durve, and V.K. Rajbanshi|Toxicity of Interactions of Zinc-Nickel, Copper-Nickel and Zinc-Nickel-Copper to a Freshwater Teleost, Lebistes reticulatus (Peters)|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(5): 495-503|1981|10.1002/aheh.19810090503
10344|A||Lennon,R.E., and C. Vezina|Antimycin A, a Piscicidal Antibiotic|Adv. Appl. Microbiol.16:55-96|1973|10.1016/S0065-2164(08)70023-6
10345|A||Ludemann,D., and F. Herzel|Toxicity and Concentration Changes with Time of the Insecticide Parathion in Water|Z. Angew. Zool. (Multiple Languages)60(2): 177-181|1973|
10346|A||Ludemann,D., and H. Neumann|Acute Toxicity of Present Contact Insecticides for Freshwater Animals (Versuche uber die Akute Toxische Wirkung Neuzeitlicher Kontaktinsektizide auf Susswassertiere)|Z. Angew. Zool. (Multiple Languages)48:87-96|1961|
10347|A||Ludemann,D., and H. Neumann|Acute Toxicity of Modern Contact Insecticides to Carp (Vesuche uber die AkuteToxische Wirkung Neuzeitlicher Kontaktinsektizide auf Einsommerige Karpfen (Cyprinus carpio L.))|Z. Angew. Zool. (Multiple Languages)47:11-33|1960|
10348|AT||Bouraly,M., and R.J. Millischer|Bioaccumulation and Elimination of Tetrachlorobenzyltoluene (TCBT) by the Rat and by Fish|Chemosphere18(9-10): 2051-2063|1989|10.1016/0045-6535(89)90486-4
10349|A||Lesniak,J.A.|A Histological Approach to the Study of Sublethal Cyanide on Rainbow Trout Ovaries|M.S.Thesis, Concordia University, Montreal, Canada:167 p.|1977|
10350|A||Bastien,C., and R. Cote|Temporal Variations of the Ultrastructure in Scenedesmus quadricauda Exposed to Copper in a Long Term Experiment|Int. Rev. Gesamten Hydrobiol.74(2): 207-219|1989|10.1002/iroh.19890740207
10351|A||Taub,F.B.|Demonstration of Pollution Effects in Aquatic Microcosms|Int. J. Environ. Stud.10:23-33|1976|10.1080/00207237608737289
10352|A||Turnipseed,G.D.|The Effects of Selected Chlorinated Hydrocarbon Insecticides on Chlamydomonas reinhardtii|Ph.D. Thesis, Mississippi State University, MS:50 p.|1973|
10353|A||Phelps,H.L., W.H. Pearson, and J.T. Hardy|Clam Burrowing Behaviour and Mortality Related to Sediment Copper|Mar. Pollut. Bull.16(8): 309-313|1985|10.1016/0025-326X(85)90445-X
10354|A||Al Atia,G.R.|The Uptake and Toxicity of Cadmium in Amoeba proteus|J.Protozool.25:5B|1978|
10355|A||Arillo,A., C. Margiocco, F. Melodia, P. Mensi, and G. Schenone|Biochemical Aspects of Water Quality Criteria: The Case of Ammonia Pollution|Environ. Technol. Lett.2:285-292|1981|10.1080/09593338109384053
10356|A||Bills,T.D.|Toxicity of Formalin, Malachite Green, and the Mixture to Four Life Stages of Rainbow Trout|M.S.Thesis, University of Wisconsin, LaCrosse, WI:41 p.|1974|
10358|A||Burress,R.M., P.A. Gilderhus, and K.B. Cumming|Field Tests of Isobornyl Thiocyanoacetate (Thanite) for Live Collection of Fishes|Invest.Fish Control No.71, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:13 p.|1976|
10359|A||Crider,J.Y., J. Wilhm, and H.J. Harmon|Effects of Naphthalene on the Hemoglobin Concentration and Oxygen Uptake of Daphnia magna|Bull. Environ. Contam. Toxicol.28:52-57|1982|10.1007/BF01608412
10360|A||Colgan,P.W., J.A. Cross, and P.H. Johansen|Guppy Behavior During Exposure to a Sub-lethal Concentration of Phenol|Bull. Environ. Contam. Toxicol.28:20-27|1982|10.1007/BF01608407
10361|A||Cumming,K.B., R.M. Burress, and P.A. Gilderhus|Controlling Grass Carp (Ctenopharyngodon idella) with Antimycin, Rotenone, and Thanite and by Electrofishing|Prog. Fish-Cult.37(2): 81-84|1975|10.1577/1548-8659(1975)37[81:CGCCIW]2.0.CO;2
10362|A||Fromm,P.O., and R.M. Stokes|Assimilation and Metabolism of Chromium by Trout|J. Water Pollut. Control Fed.34(11): 1151-1155|1962|
10363|A||Kingsbury,P.D.|Studies of the Impact of Aerial Applications of the Synthetic Pyrethroid NRDC-143 on Aquatic Ecosystems|Information Rep. No. CC-X-127, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:111 p.|1976|
10364|A||Gilderhus,P.A., B.L. Berger, J.B. Sills, and P.D. Harman|The Efficacy of Quinaldine Sulfate as an Anesthetic for Freshwater Fish|Invest.Fish Control No.49, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1973|
10365|A||Giller,S., F. Le Curieux, L. Gauthier, F. Erb, and D. Marzin|Genotoxicity Assay of Chloral Hydrate and Chloropicrine|Mutat. Res.348(4): 147-152|1995|
10366|A|OECDG|Heitmuller,P.T., T.A. Hollister, and P.R. Parrish|Acute Toxicity of 54 Industrial Chemicals to Sheepshead Minnows (Cyprinodon variegatus)|Bull. Environ. Contam. Toxicol.27(5): 596-604|1981|10.1007/BF01611069
10367|A||Hooper,F.F., and A.R. Grzenda|The Use of Toxaphene as a Fish Poisoning|Trans. Am. Fish. Soc.85:180-190|1957|10.1577/1548-8659(1955)85[180:TUOTAA]2.0.CO;2
10368|A||Hirano,S., T. Ishii, R. Nakamura, M. Matsuba, and T. Koyanagi|Chemical Forms of Radioactive Iodine in Seawater and its Effects upon Marine Organisms|Radioisotopes32(7): 319-322|1983|10.3769/radioisotopes.32.7_319
10369|A||Hogan,J.W.|Toxicity of Hyamine 3500 to Fish|Invest.Fish Control No.32, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:9 p.|1969|
10370|A||Howland,R.M.|Laboratory Studies on Possible Fish-Collecting Aids with Some Toxicities for the Isomers of Cresol|Invest.Fish Control No.34, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1969|
10371|A||Bellavere,C., and G. Gorbi|Biological Variability and Acute Toxicity of Parathion, Dichlobenil and TPBS to Biomphalaria glabrata and Brachydanio rerio|Environ. Technol. Lett.5(9): 389-396|1984|10.1080/09593338409384290
10372|A||Hunn,J.B.|The Effects of Exposure to Thanite on the Blood Chemistry of Carp|Prog. Fish-Cult.34(2):81-84|1972|10.1577/1548-8640(1972)34[81:TEOETT]2.0.CO;2
10373|A||Hunn,J.B., and J.L. Allen|Urinary Excretion of Quinaldine by Channel Catfish|Prog. Fish-Cult.36(3): 157-159|1974|10.1577/1548-8659(1974)36[157:UEOQBC]2.0.CO;2
10374|A||Hunt,T.P., J.W. Fisher, J.M. Livingston, and M.E. Putnam|Temperature Effects on Hydrazine Toxicity to Bluegills|Bull. Environ. Contam. Toxicol.27(5): 588-595|1981|10.1007/BF01611068
10375|A||Iyatomi,K., T. Tamura, Y. Itazawa, I. Hanyu, and S. Sugiura|Toxicity of Endrin to Fish|Prog. Fish-Cult.20(4): 155-162|1958|10.1577/1548-8659(1958)20[155:TOETF]2.0.CO;2
10376|A||Kim,J.H., E. Birks, and J.F. Heisinger|Protective Action of Selenium Against Mercury in Northern Cheek Chubs|Bull. Environ. Contam. Toxicol.17:132-136|1977|10.1007/BF01685539
10377|A||Klumpp,D.W., and C. Burdon-Jones|Investigations of the Potential of Bivalve Molluscs as Indicators of Heavy Metal Levels in Tropical Marine Waters|Aust. J. Mar. Freshw. Res.33(2): 285-300|1982|10.1071/MF9820285
10378|A||Kricher,J.C., and C.L. Bayer|Depression of Primary Productivity by Aroclor 1232 in an Interspecific Lentic Algal Assembledge|Bull. Environ. Contam. Toxicol.18:14-17|1977|10.1007/BF01686298
10379|A||Lennon,R.E., and B.L. Berger|A Resume on Field Applications of Antimycin A to Control Fish|Investig.Fish Control No.40, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:19 p.|1970|
10380|A||Basha,S.M., K.S.P. Rao, K.R.S.S. Rao, and K.V.R. Rao|Respiratory Potentials of the Fish (Tilapia mossambica) Under Malathion, Carbaryl and Lindane Intoxication|Bull. Environ. Contam. Toxicol.32(5): 570-574|1984|10.1007/BF01607539
10381|A||Rodgers,D.W., and F.W.H. Beamish|Uptake of Waterborne Methylmercury by Rainbow Trout (Salmo gairdneri) in Relation to Oxygen Consumption and Methylmercury Concentration|Can. J. Fish. Aquat. Sci.38(11): 1309-1315|1981|10.1139/f81-176
10382|A||Sasaki,K., M. Takeda, and M. Uchiyama|Toxicity, Absorption and Elimination of Phosphoric Acid Triesters by Killifish and Goldfish|Bull. Environ. Contam. Toxicol.27:775-782|1981|10.1007/BF01611095
10383|A||Shaw,W.H.R., and B.R. Lowrance|Bioassay for the Estimation of Metal Ions|Anal. Chem.28:1164-1166|1956|10.1021/ac60115a027
10384|A||Verma,S.R., N. Pal, A.K. Gupta, S.K. Bansal, A.K. Tyagi, M.C. Bhatnagar, and R.C. Dalela|Acute Toxicity of Five Synthetic Detergents to Channa punctatus and Saccobranchus fossilis|Proc. Indian Acad. Sci. Anim. Sci.B(1): 75-83|1980|10.1007/BF03179146
10385|A||Verma,S.R., I.P. Tonk, and R.C. Dalela|Determination of the Maximum Acceptable Toxicant Concentration (MATC) and the Safe Concentration for Certain Aquatic Pollutants|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(3): 247-254|1981|10.1002/aheh.19810090303
10387|A||Allen,J.L., and J.B. Hunn|Renal Excretion in Channel Catfish Following Injection of Quinaldine Sulphate or 3-Trifluoromethyl-4-Nitrophenol|J. Fish Biol.10:473-479|1977|10.1111/j.1095-8649.1977.tb04080.x
10388|A||Garofano,J.S., and H.I. Hirshfield|Peripheral Effects of Cadmium on the Blood and Head Kidney in the Brown Bullhead (Ictalurus nebulosus)|Bull. Environ. Contam. Toxicol.28(5): 552-556|1982|10.1007/BF01605583
10389|A||Beitinger,T.L., and D.W. Huey|Acute Toxicity of Nitrite to Crayfish Procambarus simulans in Varied Environmental Conditions|Environ. Pollut. A.26:305-311|1981|10.1016/0143-1471(81)90052-0
10390|A||Bills,T.D., L.L. Marking, and W.L. Mauck|Polychlorinated Biphenyl (Aroclor 1254) Residues in Rainbow Trout:  Effects on Sensitivity to Nine Fishery Chemicals|N. Am. J. Fish. Manag.1(2): 200-203|1981|10.1577/1548-8659(1981)1<200:PBARRI>2.0.CO;2
10391|A||Boese,B.L.|Uptake Efficiency of the Gills of English Sole (Parophrys vetulus) for Four Phthalate Esters|Can. J. Fish. Aquat. Sci.41:1713-1718|1984|10.1139/f84-210
10392|A||Bresch,H.|Investigation of the Long-Term Action of Xenobiotics on Fish with Special Regard to Reproduction|Ecotoxicol. Environ. Saf.6(1): 102-112|1982|10.1016/0147-6513(82)90085-9
10393|A||Broderius,S., R. Drummond, J. Fiandt, and C. Russom|Toxicity of Ammonia to Early Life Stages of the Smallmouth Bass at Four pH Values|Environ. Toxicol. Chem.4(1): 87-96|1985|10.1002/etc.5620040111
10394|A||Jarmon,T.L.|Mercury Accumulation in Yellow Perch (Perca flavescens) Correlated with Age and Growth|M.S.Thesis, Idaho State University, Pocatello, ID:144 p.|1974|
10395|A||Cairns,J.,Jr., T. Beamer, S. Churchill, and J. Ruthven|Response of Protozoans to Detergent-Enzymes|Hydrobiologia (Multiple Languages)38(2):193-205|1971|10.1007/BF00036833
10396|A||Pandey,A.K.|Effects of Propanil on Growth and Cell Constituents of Nostoc calcicola|Pestic. Biochem. Physiol.23:157-162|1985|10.1016/0048-3575(85)90002-1
10397|A||DeGraeve,G.M.|Avoidance Response of Rainbow Trout to Phenol|Prog. Fish-Cult.44(2): 82-87|1982|10.1577/1548-8659(1982)44[82:ARORTT]2.0.CO;2
10398|A||Dermott,R.M., and H.J. Spence|Changes in Populations and Drift of Stream Invertebrates Following Lampricide Treatment|Can. J. Fish. Aquat. Sci.41:1695-1701|1984|10.1139/f84-208
10399|A||Dominguez,S.E., and G.A. Chapman|Effect of Pentachlorophenol on the Growth and Mortality of Embryonic and Juvenile Steelhead Trout|Arch. Environ. Contam. Toxicol.13:739-743|1984|10.1007/BF01055938
10400|A||Eidt,D.C., and C.A. Weaver|Influence of Site and Fenitrothion Contamination on Vertical Distribution of Drift Arthropods in a Woodland Stream|Can. Entomol.116:1425-1430|1984|10.4039/Ent1161425-10
10401|A||Hall,L.W.,Jr., W.C. Graves, D.T. Burton, S.L. Margrey, F.M. Hetrick, and B.S. Roberson|A Comparison of Chlorine Toxicity to Three Life Stages of Striped Bass (Morone saxatilis)|Bull. Environ. Contam. Toxicol.29:631-636|1982|10.1007/BF01606100
10402|A||Ewing,M.S., S.A. Ewing, and M.A. Zimmer|Sublethal Copper Stress and Susceptibility of Channel Catfish to Experimental Infections with Ichthyophthirius multifiliis|Bull. Environ. Contam. Toxicol.28:674-681|1982|10.1007/BF01605635
10403|A||Stringer,G.E., and R.G. McMynn|Experiments with Toxaphene Fish Poison|Can. Fish Cult.23:1-8|1958|
10404|A||Giles,M.A.|Electrolyte and Water Balance in Plasma and Urine of Rainbow Trout (Salmo gairdneri) During Chronic Exposure to Cadmium|Can. J. Fish. Aquat. Sci.41:1678-1685|1984|10.1139/f84-206
10405|A||Goel,B.B., and V.P. Agrawal|Tannic Acid-Induced Biochemical Changes in the Liver of Two Teleost Fishes, Clarias batrachus and Ophiocephalus punctatus|Ecotoxicol. Environ. Saf.5(4): 418-423|1981|10.1016/0147-6513(81)90016-6
10406|A||Grove,P., and P. Moller|Electric Fish as a Tool for Water Quality Assessment|Trans. Am. Fish. Soc.108:420-421|1979|10.1577/1548-8659(1979)108<420:EFAATF>2.0.CO;2
10407|A||Goodman,L.R., D.J. Hansen, C.S. Manning, and L.F. Faas|Effects of Kepone on the Sheepshead Minnow in an Entire Life-Cycle Toxicity Test|Arch. Environ. Contam. Toxicol.11:335-342|1982|10.1007/BF01055210
10408|A||Gupta,P.K., and K.V. Sastry|Effect of Mercuric Chloride on Enzyme Activities in the Digestive System and Chemical Composition of Liver and Muscles of the Catfish, Heteropneustes fossilis|Ecotoxicol. Environ. Saf.5(4): 389-400|1981|10.1016/0147-6513(81)90013-0
10409|A||Hanson,L.H.|Sterilization of Sea Lampreys (Petromyzon marinus) by Immersion in an Aqueous Solution of Bisazir|Can. J. Fish. Aquat. Sci.38:1285-1289|1981|10.1139/f81-172
10410|A||Havlik.B., and J. Necas|Use of Physiological and Genetic Algal Tests for the Hygienic Evaluation of Pollutants in Waters Part I. Ra Studies|J. Hyg. Epidemiol. Microbiol. Immunol.25(2): 121-133|1981|
10411|A||Hose,J.E., J.B. Hannah, H.W. Puffer, and J.L. Landolt|Histologic and Skeletal Abnormalities in Benzo(a)pyrene-Treated Rainbow Trout Alevins|Arch. Environ. Contam. Toxicol.13:675-684|1984|10.1007/BF01055930
10412|A||Hannah,J.B., J.E. Hose, M.L. Landolt, B.S. Miller, S.P. Felton, and W.T. Iwaoka|Benzo(a)pyrene-Induced Morphologic and Developmental Abnormalities in Rainbow Trout|Arch. Environ. Contam. Toxicol.11(6): 727-734|1982|10.1007/BF01059161
10413|A||Henry,M.G., and G.J. Atchison|Behavioral Effects of Methyl Parathion on Social Groups of Bluegill (Lepomis macrochirus)|Environ. Toxicol. Chem.3(3): 399-408|1984|10.1002/etc.5620030305
10414|A||Huey,D.W., and T.L. Beitinger|Methemoglobin Levels in Channel Catfish, Ictalurus punctatus, Exposed to Nitrite and Tricaine Methanesulfonate|Can. J. Fish. Aquat. Sci.39:643-645|1982|10.1139/f82-092
10415|A||Hughes,G.M., and R.J. Adeney|The Effects of Zinc on the Cardiac and Ventilatory Rhythms of Rainbow Trout (Salmo gairdneri, Richardson) and Their Responses to Environmental Hypoxia|Water Res.11(12): 1069-1077|1977|10.1016/0043-1354(77)90007-0
10416|A||Jackim,E., G. Morrison, and R. Steele|Effects of Environmental Factors on Radiocadmium Uptake by Four Species of Marine Bivalves|Mar. Biol.40:303-308|1977|10.1007/BF00395722
10417|A|OECDG|Holcombe,G.W., G.L. Phipps, and J.T. Fiandt|Toxicity of Selected Priority Pollutants to Various Aquatic Organisms|Ecotoxicol. Environ. Saf.7(4): 400-409|1983|10.1016/0147-6513(83)90005-2
10418|A||Lewis,L.F., and T.W. Tucker|Toxicity of the Pyrethroid Roussel-UCLAF 22974 to Mosquito Larvae in Laboratory and Semifield Tests|Mosq. News37(4): 718-720|1977|
10419|A||Necas,J.|Unequality of Standardized Chlorella Cell Populations for Mutagenesis Indicated by Isodoses|Biochem. Physiol. Pflanzen (Multiple Languages)164:531-546|1973|10.1016/S0015-3796(17)30731-X
10420|A||Necas,J.|Stimulating and Inhibiting Effects of Mutagens on the Growth of Algae on a Solid Medium|Arch. Hydrobiol.39(2-3): 52-67|1970|
10421|A||Necas,J.|Physiological Responses and Permanent Changes in Some Characteristics of Two Chlorococcal Algae Treated by a Mutagen When Grown Under Various|Arch. Hydrobiol.41(7): 214-234|1972|
10422|A||Necas,J.|Influence of Low Doses of Mutagens on Growth of Algae on a Solid Medium|Biol. Plant. (Praha)10(5): 374-384|1968|10.1007/BF02921286
10423|A||Necas,J.|Responses of Cell Populations of Three Chlorococcal Algae to the Action of Streptomycin|Biol. Plant. (Praha)13(5-6): 338-348|1971|10.1007/BF02930922
10424|A||Hrs-Brenko,M., C. Claus, and S. Bubic|Synergistic Effects of Lead, Salinity and Temperature on Embryonic Developmentof the Mussel Mytilus galloprovincialis|Mar. Biol.44:109-115|1977|10.1007/BF00386951
10425|A||Jash,N.B., and S. Bhattacharya|Delayed Toxicity of Carbofuran in Freshwater Teleosts, Channa punctatus (Bloch) and Anabas testudineus (Bloch)|Water Air Soil Pollut.19(3): 209-213|1983|10.1007/BF00599047
10427|A||LeBlanc,G.A., and J.W. Dean|Antimony and Thallium Toxicity to Embryos and Larvae of Fathead Minnows (Pimephales promelas)|Bull. Environ. Contam. Toxicol.32(5): 565-569|1984|10.1007/BF01607538
10428|A||Lowe-Jinde,L., and A.J. Niimi|Short-Term and Long-Term Effects of Cadmium on Glycogen Reserves and Liver Size in Rainbow Trout (Salmo gairdneri Richardson)|Arch. Environ. Contam. Toxicol.13(6): 759-764|1984|10.1007/BF01055940
10429|A||Luquet,P., J.P. Cravedi, G. Choubert, J. Tulliez, and G. Bories|Long-term Ingestion by Rainbow Trout of Saturated Hydrocarbons: Effects of N-Paraffins, Pristane and Dodecylcyclohexane on Growth, Feed Intake, Lipid Digestibility and Canthaxanthin Deposition|Aquaculture34(1-2): 15-25|1983|10.1016/0044-8486(83)90288-0
10430|A||Mather,T.N., and R.W. Lake|Small Plot Evaluations of the Toxicity of an Experimental IGR to Salt Marsh Mosquitoes and Non-Target Organisms|Mosq. News42(2): 190-195|1982|
10431|A||Mathiessen,P., and J.W.M. Logan|Low Concentration Effects of Endosulfan Insecticide on Reproductive Behaviour in the Tropical Cichlid Fish Sarotherodon mossambicus|Bull. Environ. Contam. Toxicol.33(5): 575-583|1984|10.1007/BF01625587
10432|A||Mayes,M.A., H.C. Alexander, and D.C. Dill|A Study to Assess the Influence of Age on the Response of Fathead Minnows in Static Acute Toxicity Tests|Bull. Environ. Contam. Toxicol.31(2): 139-147|1983|10.1007/BF01607884
10433|A||Muir,D.C.G., A.L. Yarechewski, and N.P. Grift|Environmental Dynamics of Phosphate Esters. III. Comparison of the Bioconcentration of Four Triaryl Phosphates by Fish|Chemosphere12(2): 155-166|1983|10.1016/0045-6535(83)90159-5
10434|A||Murty,A.S., B.R. Rajabhushanam, A.V. Ramani, and K. Christopher|Toxicity of Fenitrothion to the Fish Mystus cavasius and Labeo rohita|Environ. Pollut. A.30(3): 225-232|1983|10.1016/0143-1471(83)90023-5
10435|A||Nebeker,A.V., C. Savonen, R.J. Baker, and J.K. McCrady|Effects of Copper, Nickel and Zinc on the Life Cycle of the Caddisfly Clistoronia magnifica (Limnephilidae)|Environ. Toxicol. Chem.3(4): 645-649|1984|10.1002/etc.5620030415
10436|A||Newman,M.C., and A.W. McIntosh|The Influence of Lead in Components of a Freshwater Ecosystem on Molluscan Tissue Lead Concentrations|Aquat. Toxicol.2(1): 1-19|1982|10.1016/0166-445X(82)90002-9
10437|A||Niimi,A.J., and C.A. McFadden|Uptake of Sodium Pentachlorophenate (NAPCP) from Water by Rainbow Trout (Salmo gairdneri) Exposed to Concentrations in the ng/l Range|Bull. Environ. Contam. Toxicol.28(1): 11-19|1982|10.1007/BF01608406
10438|A||Palachek,R.M., and J.R. Tomasso|Toxicity of Nitrite to Channel Catfish (Ictalurus punctatus), Tilapia (Tilapia aurea), and Largemouth Bass (Micropterus salmoides): Evidence for a|Can. J. Fish. Aquat. Sci.41(12): 1739-1744|1984|10.1139/f84-214
10439|A||Cairns,M.A., R.R. Garton, and R.A. Tubb|Use of Fish Ventilation Frequency to Estimate Chronically Safe Toxicant Concentrations|Trans. Am. Fish. Soc.111(1): 70-77|1982|10.1577/1548-8659(1982)111<70:UOFVFT>2.0.CO;2
10440|A||Han Il,R., J.C. Shim, H.K. Hong, J.S. Lee, H.W. Cho, and C.L. Kim|Studies on Control Effects of Pesticide Applications Against the Vector Mosquito Larvae in Rice Fields in Korea|Korean J. Appl. Entomol. (Multiple Languages)11(2): 39-45|1981|
10441|A||Rasmussen,L.|Light Microscopical Studies of the Acute Toxic Effects of N-Nitrosodimethylamine on the Marine Mussel, Mytilus edulis|J. Invertebr. Pathol.39(1): 66-80|1982|10.1016/0022-2011(82)90160-4
10442|A||Roberts,M.H.,Jr., and R.E. Bendl|Acute Toxicity of Kepone to Selected Freshwater Fishes|Estuaries5(3): 158-164|1982|10.2307/1351830
10443|A||Roberts,M.H.,Jr., J.E. Warinner, C.F. Tsai, D. Wright, and L.E. Cronin|Comparison of Estuarine Species Sensitivities to Three Toxicants|Arch. Environ. Contam. Toxicol.11(6): 681-692|1982|10.1007/BF01059155
10444|A||Schauerte,W., J.P. Lay, W. Klein, and F. Korte|Influence of 2,4,6-Trichlorophenol and Pentachlorophenol on the Biota of Aquatic Systems|Chemosphere11(1): 71-79|1982|10.1016/0045-6535(82)90095-9
10445|A||Schultz,M.E., and R.J. Schultz|Induction of Hepatic Tumors with 7,12-Dimethylbenz[a]anthracene in Two Species of Viviparous Fishes (Genus Poeciliopsis)|Environ. Res.27(2): 337-351|1982|10.1016/0013-9351(82)90089-5
10446|A||Shaffi,S.A.|DDT Toxicity: Gluconeogenic Enzymes and Non-Specific Phosphomonoesterases in Three Teleosts|Toxicol. Lett.13(1/2): 11-15|1982|10.1016/0378-4274(82)90132-1
10447|A||Sharma,R.K., S. Sharma, and S. Shandilya|Toxicity of Kitazin on Two Air-Breathing Fish|Toxicol. Lett.13(1-2): 7-9|1982|10.1016/0378-4274(82)90131-X
10448|A||Shubat,P.J., S.H. Poirier, M.L. Knuth, and L.T. Brooke|Acute Toxicity of Tetrachloroethylene and Tetrachloroethylene with Dimethylformamide to Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.28(1): 7-10|1982|10.1007/BF01608405
10449|A||Smith,R.L., and B.R. Hargreaves|A Simple Toxicity Apparatus for Continuous Flow with Small Volumes:  Demonstration with Mysids and Naphthalene|Bull. Environ. Contam. Toxicol.30(4): 406-412|1983|10.1007/BF01610152
10450|A||Thomas,P., M. Bally, and J.M. Neff|Ascorbic Acid Status of Mullet, Mugil cephalus Linn., Exposed to Cadmium|J. Fish Biol.20(2): 183-196|1982|10.1111/j.1095-8649.1982.tb03919.x
10451|A||Trujillo,D.A., L.E. Ray, H.E. Murray, and C.S. Giam|Bioaccumulation of Pentachlorophenol by Killifish (Fundulus similus)|Chemosphere11(1): 25-31|1982|10.1016/0045-6535(82)90085-6
10452|A|OECDG|Velte,J.S.|Acute Toxicity of Hydrazine Hydrate to the Fathead Minnow (Pimephales promelas) and Daphnid (Daphnia pulex)|Bull. Environ. Contam. Toxicol.33(5): 598-604|1984|10.1007/BF01625590
10453|A||Winner,R.W.|Selenium Effects on Antennal Integrity and Chronic Copper Toxicity in Daphnia pulex (deGeer)|Bull. Environ. Contam. Toxicol.33(5): 605-611|1984|10.1007/BF01625591
10454|A||Wong,P.T.S., R.J. Maguire, Y.K. Chau, and O. Kramar|Uptake and Accumulation of Inorganic Tin by a Freshwater Alga, Ankistrodesmus falcatus|Can. J. Fish. Aquat. Sci.41(11): 1570-1574|1984|10.1139/f84-195
10455|A||Angus,R.A.|Phenol Tolerance in Populations of Mosquitofish From Polluted and Nonpolluted Waters|Trans. Am. Fish. Soc.112(6): 794-799|1983|10.1577/1548-8659(1983)112<794:PTIPOM>2.0.CO;2
10456|A||Bakthavathsalam,R., and Y.S. Reddy|Changes in the Levels of Aspartate and Alanine Aminotransferase Activities of Anabas testudineus (Bloch) Exposed to Disyston|Chemosphere13(11): 1201-1206|1984|10.1016/0045-6535(84)90119-X
10457|A||Ellgaard,E.G., and T.W. Rudner|Lead Acetate: Toxicity Without Effects on the Locomotor Activity of the Bluegill Sunfish, Lepomis macrochirus Rafinesque|J. Fish Biol.21(4): 411-415|1982|10.1111/j.1095-8649.1982.tb02846.x
10458|A||Finlayson,B.J., and K.M. Verrue|Toxicities of Copper, Zinc, and Cadmium Mixtures to Juvenile Chinook Salmon|Trans. Am. Fish. Soc.111(5): 645-650|1982|10.1577/1548-8659(1982)111<645:TOCZAC>2.0.CO;2
10459|A||Folmar,L.C., W.W. Dickhoff, W.S. Zaugg, and H.O. Hodgins|The Effects of Aroclor 1254 and No. 2 Fuel Oil on Smoltification and Sea-Water Adaptation of Coho Salmon (Oncorhynchus kisutch)|Aquat. Toxicol.2(5-6): 291-299|1982|10.1016/0166-445X(82)90017-0
10460|A||George,J.P., H.G. Hingorani, and K.S. Rao|Herbicide Toxicity to Fish-Food Organisms|Environ. Pollut. A.28(3): 183-188|1982|10.1016/0143-1471(82)90074-5
10461|A||Gluth,G., and W. Hanke|The Effect of Temperature on Physiological Changes in Carp, Cyprinus carpio L., Induced by Phenol|Ecotoxicol. Environ. Saf.7(4): 373-389|1983|10.1016/0147-6513(83)90003-9
10462|A||Goodfellow,W.L.J., D.T. Burton, and K.E. Cooper|Effect of Picric and Picramic Acids on Growth of Rainbow Trout (Salmo gairdneri) and American Oysters (Crassostrea virginica)|Chemosphere12(9/10): 1259-1268|1983|10.1016/0045-6535(83)90131-5
10463|A||Goodman,L.R., D.P. Middaugh, D.J. Hansen, P.K. Higdon, and G.M. Cripe|Early Life-Stage Toxicity Test with Tidewater Silversides (Menidia peninsulae) and Chlorine-Produced Oxidants|Environ. Toxicol. Chem.2(3): 337-342|1983|
10464|A||Gorbi,G.|Effects of Pyridine on the Demographic Characteristics of Daphnia magna|Environ. Technol. Lett.5(11): 475-482|1984|10.1080/09593338409384302
10465|A||Gupta,A.B., and A.K. Srivastava|Effect of Ethyl Acetate on Carbohydrate Metabolism of Common Indian Catfish|Ecotoxicol. Environ. Saf.6(2): 166-170|1982|10.1016/0147-6513(82)90004-5
10466|A||Hanke,W., G. Gluth, H. Bubel, and R. Muller|Physiological Changes in Carps Induced by Pollution|Ecotoxicol. Environ. Saf.7(2): 229-241|1983|10.1016/0147-6513(83)90068-4
10467|A||Hansen,D.J., L.R. Goodman, J.C. Moore, and P.K. Higdon|Effects of the Synthetic Pyrethroids AC 222,705, Permethrin and Fenvalerate on Sheepshead Minnows in Early Life Stage Toxicity Tests|Environ. Toxicol. Chem.2(2): 251-258|1983|10.1002/etc.5620020213
10468|A||Harder,H.W., T.V. Carter, and T.F. Bidleman|Acute Effects of Toxaphene and its Sediment-Degraded Products on Estuarine Fish|Can. J. Fish. Aquat. Sci.40(12): 2119-2125|1983|10.1139/f83-246
10469|A||Hatakeyama,S., and M. Yasuno|Accumulation and Effects of Cadmium on Guppy (Poecilia reticulata) Fed Cadmium-Dosed Cladocera (Moina macrocopa)|Bull. Environ. Contam. Toxicol.29(2): 159-166|1982|10.1007/BF01606144
10470|A||Hawryshyn,C.W., W.C. Mackay, and T.H. Nilsson|Methyl Mercury Induced Visual Deficits in Rainbow Trout|Can. J. Zool.60(12): 3127-3133|1982|10.1139/z82-397
10471|A||Hildebrand,L.D., D.S. Sullivan, and T.P. Sullivan|Experimental Studies of Rainbow Trout Populations Exposed to Field Applications of Roundup Herbicide|Arch. Environ. Contam. Toxicol.11(1): 93-98|1982|10.1007/BF01055192
10472|A||Houston,A.H., and J.E. Keen|Cadmium Inhibition of Erythropoiesis in Goldfish, Carassius auratus|Can. J. Fish. Aquat. Sci.41(12): 1829-1834|1984|10.1139/f84-224
10473|A||Jarvinen,A.W., B.R. Nordling, and M.E. Henry|Chronic Toxicity of Dursban (Chlorpyrifos) to the Fathead Minnow (Pimephales promelas) and the Resultant Acetylcholinesterase Inhibition|Ecotoxicol. Environ. Saf.7(4): 423-434|1983|10.1016/0147-6513(83)90008-8
10474|A||Kosinski,R.J.|The Effect of Terrestrial Herbicides on the Community Structure of Stream Periphyton|Environ. Pollut. A.36(2): 165-189|1984|10.1016/0143-1471(84)90097-7
10475|A||Kumar,S., and S.C. Pant|Comparative Effects of the Sublethal Poisoning of Zinc, Copper and Lead on the Gonads of the Teleost Puntius conchonius Ham|Toxicol. Lett.23:189-194|1984|10.1016/0378-4274(84)90125-5
10476|A||Landrum,P.F., and D. Scavia|Influence of Sediment on Anthracene Uptake, Depuration, and Biotransformation by the Amphipod Hyalella azteca|Can. J. Fish. Aquat. Sci.40(3): 298-305|1983|10.1139/f83-044
10477|A||Mane,U.H., and D.V. Muley|Acute Toxicity of Endosulfan 35EC to Two Freshwater Bivalve Molluscs From Godavari River at Maharashtra State, India|Toxicol. Lett.23(2): 147-155|1984|10.1016/0378-4274(84)90119-X
10478|A||Miramand,P., P. Germain, and H. Camus|Uptake of Americium and Plutonium From Contaminated Sediments by Three Benthic Species: Arenicola marina, Corophium volutator and Scrobicularia plana|Mar. Ecol. Prog. Ser.7:59-65|1982|10.3354/meps007059
10479|A||Mrowka,W.|Diethylpropion Decreases Food Intake in Fish|Experientia39(3): 289-290|1983|10.1007/BF01955309
10480|A||Nebeker,A.V., P. McKinney, and M.A. Cairns|Acute and Chronic Effects of Diflubenzuron (Dimilin) on Freshwater Fish and Invertebrates|Environ. Toxicol. Chem.2(3): 329-336|1983|10.1002/etc.5620020309
10481|A||Poston,T.M.|Observations on the Bioaccumulation Potential of Thorium and Uranium in Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.28(6): 682-690|1982|10.1007/BF01605636
10482|A||Rombough,P.J., and E.T. Garside|Disturbed Ion Balance in Alevins of Atlantic Salmon Salmo salar Chronically Exposed to Sublethal Concentrations of Cadmium|Can. J. Zool.62(8): 1443-1450|1984|10.1139/z84-207
10483|A||Sastry,K.V., and S. Subhadra|Effect of Cadmium and Zinc on Intestinal Absorption of Xylose and Tryptophan in the Fresh Water Teleost Fish, Heteropneustes fossilis|Chemosphere13(8): 889-898|1984|10.1016/0045-6535(84)90162-0
10484|A||Slooff,W., and J.H. Canton|Comparison of the Susceptibility of 11 Freshwater Species to 8 Chemical Compounds. II. (Semi)Chronic Toxicity Tests|Aquat. Toxicol.4(3): 271-282|1983|10.1016/0166-445X(83)90022-X
10485|A||Spehar,R.L., and A.R. Carlson|Derivation of Site-Specific Water Quality Criteria for Cadmium and the St. Louis River Basin, Duluth, Minnesota|Environ. Toxicol. Chem.3(4): 651-665|1984|
10486|A||Stephenson,R.R., and S.A. Watts|Chronic Toxicity Tests with Daphnia magna: The Effects of Different Food and Temperature Regimes on Survival, Reproduction and Growth|Environ. Pollut. A.36(2): 95-107|1984|10.1016/0143-1471(84)90092-8
10487|A||Threader,R.W., and A.H. Houston|Use of NaCl as a Reference Toxicant for Goldfish, Carassius auratus|Can. J. Fish. Aquat. Sci.40(1): 89-92|1983|10.1139/f83-014
10488|A||Virtanen,M.T., A. Roos, A.U. Arstila, and M.L. Hattula|An Evaluation of a Model Ecosystem with DDT|Arch. Environ. Contam. Toxicol.9:491-504|1980|10.1007/BF01055301
10489|A||Bakthavathsalam,R., and Y.S. Reddy|On the Significance of Acetylcholinesterase Activity in Pesticides Studies Using Fish|Indian J. Environ. Health25(2): 92-99|1983|
10490|A||Miramand,P., S.W. Fowler, and J.C. Guary|Comparative Study of Vanadium Biokinetics in Three Species of Echinoderms|Mar. Biol.67:127-134|1982|10.1007/BF00401278
10491|A||Bennett,R.O., and J.K. Dooley|Copper Uptake by Two Sympatric Species of Killifish Fundulus heteroclitus (L.)and F. majalis (Walbaum)|J. Fish Biol.21(4): 381-398|1982|10.1111/j.1095-8649.1982.tb02843.x
10492|A||Solbakken,J.E., F.M.H. Jeffrey, A.H. Knap, and K.H. Palmork|Accumulation and Elimination of [9-14C]Phenanthrene in the Calico Clam (Macrocallista maculata)|Bull. Environ. Contam. Toxicol.28(5): 530-534|1982|10.1007/BF01605579
10493|A||Miramand,P., J.C. Guary, and S.W. Fowler|Uptake, Assimilation, and Excretion of Vanadium in the Shrimp, Lysmata seticaudata (Risso), and the Crab, Carcinus maenas (L.)|J. Exp. Mar. Biol. Ecol.49:267-287|1981|10.1016/0022-0981(81)90076-9
10494|A||Peterson,R.H., J.L. Metcalfe, and S. Ray|Effects of Cadmium on Yolk Utilization, Growth, and Survival of Atlantic Salmon Alevins and Newly Feeding Fry|Arch. Environ. Contam. Toxicol.12(1): 37-44|1983|10.1007/BF01054999
10495|A||Leung,T.S., S.M. Naqvi, and C. LeBlanc|Toxicities of Two Herbicides (Basagran, Diquat) and an Algicide (Cutrine-Plus) to Mosquitofish Gambusia affinis|Environ. Pollut. A.30(2): 153-160|1983|10.1016/0143-1471(83)90012-0
10496|A||Metayer,C., C. Amiard-Triquet, and J.P. Baud|Species-Related Variations of Silver Bioaccumulation and Toxicity to Three Marine Bivalves|Water Res.24(8): 995-1001|1990|10.1016/0043-1354(90)90121-L
10497|A||Singh,B.B., and A.S. Narain|Acute Toxicity of Thiodan to Catfish (Heteropneustes fossilis)|Bull. Environ. Contam. Toxicol.28(1): 122-127|1982|10.1007/BF01608424
10498|A||Naidu,K.A., and R. Ramamurthi|Histological Alterations in Liver and Intestine of Teleost Sarotherodon mossambicus in Response to Mercury Toxicity|Ecotoxicol. Environ. Saf.7(6): 566-575|1983|10.1016/0147-6513(83)90016-7
10499|A||Naidu,K.A., and R. Ramamurthi|Histological Observations in Gills of the Teleost Sarotherodon mossambicus with Reference to Mercury Toxicity|Ecotoxicol. Environ. Saf.7(5): 455-462|1983|10.1016/0147-6513(83)90085-4
10500|A||Voyer,R.A., J.A. Cardin, J.F. Heltshe, and G.L. Hoffman|Viability of Embryos of the Winter Flounder Pseudopleuronectes americanus Exposed to Mixtures of Cadmium and Silver in Combination with Selected Fixed Salinities|Aquat. Toxicol.2(4): 223-233|1982|10.1016/0166-445X(82)90026-1
10501|A||Murty,A.S., A.V. Ramani, K. Christopher, and B.R. Rajabhushanam|Toxicity of Methyl Parathion and Fensulfothion to the Fish Mystus cavasius|Environ. Pollut. A.34(1): 37-46|1984|10.1016/0143-1471(84)90087-4
10502|A||Rao,D.M., A.S. Murty, and P.A. Swarup|Relative Toxicity of Technical Grade and Formulated Carbaryl and 1-Naphthol to, and Carbaryl-Induced Biochemical Changes in, the Fish Cirrhinus mrigala|Environ. Pollut. A.34(1): 47-54|1984|10.1016/0143-1471(84)90088-6
10503|A||Spehar,R.L., D.K. Tanner, and B.R. Nordling|Toxicity of the Synthetic Pyrethroids, Permethrin and AC 222, 705 and Their Accumulation in Early Life Stages of Fathead Minnows and Snails|Aquat. Toxicol.3(2): 171-182|1983|10.1016/0166-445X(83)90038-3
10504|A||Wells,P.G., R.A. Matheson, D.A. Lord, and K.G. Doe|Environmental Monitoring of the 1978 Spruce Budworm Spray Program in New Brunswick, Canada - Field Sampling and Aquatic Toxicity Studies with Fish|EPS 5-AR-79-1, Environmental Protection Service, Environment Canada, Halifax, Nova Scotia:14-|1979|
10505|A||Hose,J.E., J.B. Hannah, D. Dijulio, M.L. Landolt, B.S. Miller, W.T. Iwaoka, and S.P. Felton|Effects of Benzo(a)pyrene on Early Development of Flatfish|Arch. Environ. Contam. Toxicol.11(2): 167-171|1982|10.1007/BF01054893
10506|A||McKenney,C.L.,Jr., and D.B. Hamaker|Effects of Fenvalerate on Larval Development of Palaemonetes pugio (Holthuis) and on Larval Metabolism During Osmotic Stress|Aquat. Toxicol.5(4): 343-355|1984|10.1016/0166-445X(84)90015-8
10507|A||Somasundaram,B., P.E. King, and S.E. Shackley|The Effects of Zinc on the Ultrastructure of the Brain Cells of the Larvae of Clupea harengus L.|Aquat. Toxicol.5(4): 323-330|1984|10.1016/0166-445X(84)90013-4
10508|A||Solski,A., and M. Piontek|The Use of the Planarian Dugesia tigrina Girard for the Assessment of Chronic intoxications|Pol. Arch. Hydrobiol.34(4): 543-550|1987|
10509|A||Jackim,E., and D. Nacci|A Rapid Aquatic Toxicity Assay Utilizing Labeled Thymidine Incorporation in Sea Urchin Embryos|Environ. Toxicol. Chem.3(4): 631-636|1984|10.1002/etc.5620030413
10510|A||Harader,R.R.J., and G.H. Allen|Ammonia Toxicity to Chinook Salmon Parr:  Reduction in Saline Water|Trans. Am. Fish. Soc.112(6): 834-837|1983|10.1577/1548-8659(1983)112<834:ATTCSP>2.0.CO;2
10511|A||Van der Putte,I., M.B.H. Laurier, and G.J.M. Van Eijk|Respiration and Osmoregulation in Rainbow Trout (Salmo gairdneri) Exposed to Hexavalent Chromium at Different pH Values|Aquat. Toxicol.2(2): 99-112|1982|10.1016/0166-445X(82)90009-1
10512|A||Mishra,J., and A.K. Srivastava|Malathion Induced Hematological and Biochemical Changes in the Indian Catfish Heteropneustes fossilis|Environ. Res.30(2): 393-398|1983|10.1016/0013-9351(83)90225-6
10513|A||Kpekata,A.E.|Acute Toxicity of 0,0'-(Thio-di-4, 1-Phenylene) bis(0,0-Dimethyl Phosphorothioate) (Temephos) to Lebistes reticulatus and Sarotherodon galilaea|Bull. Environ. Contam. Toxicol.31(1): 120-124|1983|10.1007/BF01608777
10514|A||Richardson,L.B., D.T. Burton, S.L. Margrey, and A. Rosenkranz|Egg and Prolarval Development of Striped Bass, Morone saxatilis (Walbaum), Exposed to Ozone Produced Oxidants in Fresh and Estuarine Water|ASB Bull.25:40-|1978|
10515|A||Migliore,L., and M. De Nicola Giudici|Toxicity of Heavy Metals to Asellus aquaticus (L.) (Crustacea, Isopoda)|Hydrobiologia (Multiple Languages)203(3): 155-164|1990|10.1007/BF00005684
10516|A||Segers,J.H.L., J.H.M. Temmink, J.H.J. Van den Berg, and R.C.C. Wegman|Morphological Changes in the Gill of Carp (Cyprinus carpio L.) Exposed to Acutely Toxic Concentrations of Methyl Bromide|Water Res.18(11): 1437-1441|1984|10.1016/0043-1354(84)90014-9
10517|A||Sharp,J.R., and J.M. Neff|The Toxicity of Mercuric Chloride and Methylmercuric Chloride to Fundulus heteroclitus Embryos in Relation to Exposure Conditions|Environ. Biol. Fishes7(3): 277-284|1982|10.1007/BF00002502
10518|A||Nair,J.R., and C. Geevarghese|Growth of Etroplus suratensis (Bloch) Larvae Hatched and Reared in Sublethal Levels of Malathion|J. Environ. Biol.5(4): 261-267|1984|
10519|A||Rao,K.S.P., S.M. Basha, and K.V.R. Rao|Differential Action of Malathion, Carbaryl and BHC on Acetyl-Cholinesterase Activity of a Teleost, Tilapia mossambica (Peters)|J. Environ. Biol.5(4): 241-247|1984|
10520|A||Mukhopadhyay,P.K., A.P. Mukherji, and P.V. Dehadrai|Phospholipids and Fatty Acids in the Liver of Catfish, Clarias batrachus Exposed to Sublethal Malathion|J. Environ. Biol.5(4): 221-229|1984|
10521|A||Dhillon,S.S., and A.K. Gupta|A Clinical Approach to Study the Pollutants intoxication in a Freshwater Teleost Clarias batrachus|Water Air Soil Pollut.20(1): 63-68|1983|10.1007/BF00279498
10522|A||Aly,O.A., S.A. Shehata, and H. Farag|Uptake and Accumulation of Selected Herbicides by the Freshwater Alga Scenedesmus|Arch. Environ. Contam. Toxicol.13(6): 701-705|1984|10.1007/BF01055933
10523|A||Verma,S.R., S. Rani, and R.C. Dalela|Effect of Phenol on In Vivo Activity of Tissue Transaminases in the Fish Notopterus notopterus|Ecotoxicol. Environ. Saf.6(2): 171-176|1982|10.1016/0147-6513(82)90005-7
10524|A||Stevens,D.G., and G.A. Chapman|Toxicity of Trivalent Chromium to Early Life Stages of Steelhead Trout|Environ. Toxicol. Chem.3(1): 125-133|1984|10.1002/etc.5620030114
10525|A||Nebeker,A.V., C.K. McAuliffe, R. Mshar, and D.G. Stevens|Toxicity of Silver to Steelhead and Rainbow Trout, Fathead Minnows and Daphnia magna|Environ. Toxicol. Chem.2:95-104|1983|10.1002/etc.5620020111
10526|A||Nebeker,A.V., J.K. McCrady, R. Mshar, and C.K. McAuliffe|Relative Sensitivity of Daphnia magna, Rainbow Trout and Fathead Minnows to Endosulfan|Environ. Toxicol. Chem.2(1): 69-72|1983|10.1002/etc.5620020108
10527|A||Leland,H.V.|Ultrastructural Changes in the Hepatocytes of Juvenile Rainbow Trout and Mature Brown Trout Exposed to Copper or Zinc|Environ. Toxicol. Chem.2(3): 353-368|1983|10.1002/etc.5620020312
10528|A||Landrum,P.F., S.M. Bartell, J.P. Giesy, G.J. Leversee, J.W. Bowling, J. Haddock, K. LaGory, S. Gerould, and M. Bruno|Fate of Anthracene in an Artificial Stream: A Case Study|Ecotoxicol. Environ. Saf.8(2): 183-201|1984|10.1016/0147-6513(84)90060-5
10529|A||Borgmann,U., and K.M. Ralph|Complexion and Toxicity of Copper and the Free Metal Bioassay Technique|Water Res.17(11): 1697-1703|1983|10.1016/0043-1354(83)90030-1
10530|A||Eales,J.G.|Extrathyroidal Effects of Low Concentrations of Thiourea on Rainbow Trout, Salmo gairdneri|Can. J. Fish. Aquat. Sci.38:1283-1285|1981|10.1139/f81-171
10531|A||Felts,P.A., and A.G. Heath|Interactions of Temperature and Sublethal Environmental Copper Exposure on the Energy Metabolism of Bluegill, Lepomis macrochirus Rafinesque|J. Fish Biol.25(4): 445-453|1984|10.1111/j.1095-8649.1984.tb04891.x
10532|A||Gupta,S., S.R. Verma, and P.K. Saxena|Toxicity of Phenolic Compounds in Relation to the Size of a Freshwater Fish, Notopterus notopterus (Pallas)|Ecotoxicol. Environ. Saf.6(5): 433-438|1982|10.1016/0147-6513(82)90023-9
10533|A||Haux,C., and A. Larsson|Long-Term Sublethal Physiological Effects on Rainbow Trout, Salmo gairdneri, During Exposure to Cadmium and After Subsequent Recovery|Aquat. Toxicol.5(2): 129-142|1984|10.1016/0166-445X(84)90004-3
10534|A||Haux,C., A. Larsson, U. Lidman, L. Forlin, T. Hansson, and M.L. Johansson-Sjobeck|Sublethal Physiological Effects of Chlorinated Paraffins on the Flounder, Platichthys flesus L|Ecotoxicol. Environ. Saf.6(1):49-59|1982|10.1016/0147-6513(82)90080-X
10535|A||Hilmy,A.M., M.B. Shabana, and M.M. Saied|Ionic Regulation of the Blood in the Syprinodont, Aphanius dispar Rupp, Under the Effect of Experimental Mercury Pollution|Water Air Soil Pollut.18(4): 467-473|1982|10.1007/BF02426054
10536|A||Holcombe,G.W., G.L. Phipps, and D.K. Tanner|The Acute Toxicity of Kelthane, Dursban, Disulfoton, Pydrin, and Permethrin to Fathead Minnows Pimephales promelas and Rainbow Trout Salmo gairdneri|Environ. Pollut. A.29(3): 167-178|1982|10.1016/0143-1471(82)90161-1
10537|A||Hoskins,G.E., and F.C. Dalziel|Survival of Chinook Fry (Oncorhynchus tschawytscha) Following Exposure to Benzalkonium Chloride in Soft Water|Prog. Fish-Cult.46(2): 98-101|1984|10.1577/1548-8640(1984)46<98:SOCFOT>2.0.CO;2
10538|A||LeBlanc,G.A., J.D. Mastone, A.P. Paradice, and B.F. Wilson|The Influence of Speciation on the Toxicity of Silver to Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.3(1): 37-46|1984|10.1002/etc.5620030106
10539|A||Pimentel,R., and R.V. Bulkley|Influence of Water Hardness on Fluoride Toxicity to Rainbow Trout|Environ. Toxicol. Chem.2(4): 381-386|1983|10.1002/etc.5620020402
10540|A||Ram,R.N., and A.G. Sathyanesan|Effect of Mercuric Chloride on the Reproductive Cycle of the Teleostean Fish Channa punctatus|Bull. Environ. Contam. Toxicol.30(1): 24-27|1983|10.1007/BF01610093
10541|A||Buckley,J.A.|Complexation of Copper in the Effluent of a Sewage Treatment Plant and an Estimate of Its Influence on Toxicity to Coho Salmon|Water Res.17(12): 1929-1934|1983|10.1016/0043-1354(83)90216-6
10542|A||Margiocco,C., A. Arillo, P. Mensi, and G. Schenone|Nitrite Bioaccumulation in Salmo gairdneri Rich. and Hematological Consequences|Aquat. Toxicol.3(3): 261-270|1983|10.1016/0166-445X(83)90046-2
10543|A||Mitchell,S.J.,Jr.|Ammonia-Caused Gill Damage in Channel Catfish (Ictalurus punctatus): Confounding Effects of Residual Chlorine|Can. J. Fish. Aquat. Sci.40(2): 242-247|1983|10.1139/f83-035
10544|A||Svobodova,Z., J. Havlikova, and J. Sauer|Acute Toxicity of Chemicals on the Basis of Copper Oxychloride to Fish and Aquatic Invertebrates|Pr. Vyzk. Ustav Ryb. Hydrobiol. Vodnany12:16-28|1983|
10545|A||Parkhurst,B.R., R.G. Elder, J.S. Meyer, D.A. Sanchez, R.W. Pennak, and W.T. Waller|An Environmental Hazard Evaluation of Uranium in a Rocky Mountain Stream|Environ. Toxicol. Chem.3(1): 113-124|1984|10.1002/etc.5620030113
10546|A||Sastry,K.V., and A.A. Siddiqui|Metabolic Changes in the Snake Head Fish Channa punctatus Chronically Exposed to Endosulfan|Water Air Soil Pollut.19(2): 133-141|1983|10.1007/BF00211799
10547|A||Sastry,K.V., and K.M. Subhadra|Cadmium Induced Alterations in the Intestinal Absorption of Glucose and Fructose in a Freshwater Catfish, Heteropneustes fossilis|Water Air Soil Pollut.20(3): 293-297|1983|10.1007/BF00284634
10548|A||Verma,S.R., S. Rani, I.P. Tonk, and R.C. Dalela|Pesticide-Induced Dysfunction in Carbohydrate Metabolism in Three Freshwater Fishes|Environ. Res.32(1): 127-133|1983|10.1016/0013-9351(83)90199-8
10549|A||Woodworth,J., and D. Pascoe|Cadmium Uptake and Distribution in Sticklebacks Related to the Concentration and Method of Exposure|Ecotoxicol. Environ. Saf.7(6): 525-530|1983|10.1016/0147-6513(83)90010-6
10550|A||Zanella,E.|Effect of pH on Acute Toxicity of Dehydroabietic Acid and Chlorinated Dehydroabietic Acid to Fish and Daphnia|Bull. Environ. Contam. Toxicol.30(2): 133-140|1983|10.1007/BF01610111
10551|A||Benson,W.H., and W.J. Birge|Heavy Metal Tolerance and Metallothionein Induction in Fathead Minnows:  Results From Field and Laboratory Investigations|Environ. Toxicol. Chem.4(2): 209-217|1983|10.1002/etc.5620040211
10552|A||Billard,R., and P. Roubaud|The Effect of Metals and Cyanide on Fertilization in Rainbow Trout (Salmo gairdneri)|Water Res.19(2): 209-214|1985|10.1016/0043-1354(85)90202-7
10553|A||Blaylock,B.G., M.L. Frank, and J.F. McCarthy|Comparative Toxicity of Copper and Acridine to Fish, Daphnia and Algae|Environ. Toxicol. Chem.4(1): 63-71|1985|10.1002/etc.5620040109
10554|A||Cravedi,J.P., and J. Tulliez|Chronic Ingestion of Saturated Hydrocarbons by Rainbow Trout:  Influence of Dodecylcyclohexane and Pristane on Lipid Metabolism|Arch. Environ. Contam. Toxicol.11(6): 719-725|1982|10.1007/BF01059160
10555|A||Gillet,C., and P. Roubaud|Prehatching Survival of Carp Eggs After Treatment During Fertilization and Early Development with the Antimitotic Fungicide Carbendazim|Water Res.17(10): 1343-1348|1983|10.1016/0043-1354(83)90262-2
10556|A||Gulka,G., C.M. Gulka, and N. Watabe|Histopathological Effects of Diflubenzuron on the Cirripede Crustacean, Balanus eburneus|Arch. Environ. Contam. Toxicol.11(1): 11-16|1982|10.1007/BF01055180
10557|A||Gupta,P.K.|Acute Toxicity of Pentachlorophenol to a Freshwater Teleost, Rasbora daniconius neilgeriensis (Hamilton)|Arch. Hydrobiol.98(1): 127-132|1983|
10558|A||Gupta,P.K., and P.S. Rao|Toxicity of Phenol, Pentachlorophenol and Sodium Pentachlorophenate to a Freshwater Pulmonate Snail Lymnaea acuminata (Lamarck)|Arch. Hydrobiol.94(2): 210-217|1982|
10559|A||Gutzmer,M.P., and J.R. Tomasso|Nitrite Toxicity to the Crayfish Procambarus clarkii|Bull. Environ. Contam. Toxicol.34(3): 369-376|1985|10.1007/BF01609747
10560|A||Hanna,P.J.|Effects on Spermatogenesis in the Guppy Poecilia reticulata by Prolonged Exposure to Trimethylphosphate|Bull. Environ. Contam. Toxicol.28(1): 28-32|1982|10.1007/BF01608408
10561|A||Hetrick,F.M., L.W.,Jr. Hall, S. Wolski, W.C. Graves, B.S. Roberson, and D.T. Burton|Influence of Chlorine on the Susceptibility of Striped Bass (Morone saxatilis) to Vibrio anguillarum|Can. J. Fish. Aquat. Sci.41:1375-1380|1984|10.1139/f84-168
10562|A||Johansen,P.H., R.A.S. Mathers, J.A. Brown, and P.W. Colgan|Mortality of Early Life Stages of Largemouth Bass, Micropterus salmoides due to Pentachlorophenol Exposure|Bull. Environ. Contam. Toxicol.34(3): 377-384|1985|10.1007/BF01609748
10563|A||Kohler,K., and H.U. Riisgard|Formation of Metallothioneins in Relation to Accumulation of Cadmium in the Common Mussel Mytilus edulis|Mar. Biol.66(1): 53-58|1982|10.1007/BF00397254
10564|A||Kozlovskaya,V.I., and F.L.,Jr. Mayer|Brain Acetylcholinesterase and Backbone Collagen in Fish intoxicated with Organophosphate Pesticides|J. Great Lakes Res.10(3): 261-266|1984|10.1016/S0380-1330(84)71838-7
10565|A||Lemly,A.D.|A Simple Activity Quotient for Detecting Pollution-Induced Stress in Fishes|Environ. Technol. Lett.4(4): 173-178|1983|10.1080/09593338309384190
10566|A||Loekle,D.M., A.J. Schecter, and J.J. Christian|Effects of Chloroform, Tetrachloroethylene, and Trichloroethylene on Survival, Growth, and Liver of Poecilia sphenops|Bull. Environ. Contam. Toxicol.30(2): 199-205|1983|10.1007/BF01610121
10567|A||Moles,A., and S.D. Rice|Effects of Crude Oil and Naphthalene on Growth, Caloric Content, and Fat Content of Pink Salmon Juveniles in Seawater|Trans. Am. Fish. Soc.112(2A): 205-211|1983|10.1577/1548-8659(1983)112<205:EOCOAN>2.0.CO;2
10568|A||Poston,T.M., R.W.,Jr. Hanf, and M.A. Simmons|Toxicity of Uranium to Daphnia magna|Water Air Soil Pollut.22(3): 289-298|1984|10.1007/BF00159350
10569|A||Ramachandran,S., N. Rajendran, R. Nandakumar, and V.K. Venugopalan|Effect of Pesticides on Photosynthesis and Respiration of Marine Macrophytes|Aquat. Bot.19:395-399|1984|10.1016/0304-3770(84)90051-2
10570|A||Saxena,A.B., D.S. Rao, and Z.U. Khan|Studies on the Acute Toxicities of Copper, Mercury, and Cadmium to Danio malabaricus and Puntius ticto|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control17(5): 657-665|1982|
10571|A||Scarano,G., M.G. Saroglia, R.H. Gray, and E. Tibaldi|Hematological Responses of Sea Bass Dicentrarchus labrax to Sublethal Nitrite Exposures|Trans. Am. Fish. Soc.113(3): 360-364|1984|10.1577/1548-8659(1984)113<360:HROSBD>2.0.CO;2
10572|A||Shires,S.W.|The Use of Small Enclosures to Assess the Toxic Effects of Cypermethrin on Fish Under Field Conditions|Pestic. Sci.14(5): 475-480|1983|10.1002/ps.2780140504
10573|A||Sippel,A.J.A., J.R. Geraci, and P.V. Hodson|Histopathological and Physiological Responses of Rainbow Trout (Salmo gairdneri Richardson) to Sublethal Levels of Lead|Water Res.17(9): 1115-1118|1983|10.1016/0043-1354(83)90051-9
10574|A||Slooff,W., J.H. Canton, and J.L.M. Hermens|Comparison of the Susceptibility of 22 Freshwater Species to 15 Chemical Compounds. I. (Sub)Acute Toxicity Tests|Aquat. Toxicol.4(2): 113-128|1983|10.1016/0166-445X(83)90049-8
10575|A||Verma,S.R., I.P. Tonk, A.K. Gupta, and M. Saxena|Evaluation of an Application Factor for Determining the Safe Concentration of Agricultural and Industrial Chemicals|Water Res.18(1): 111-115|1984|10.1016/0043-1354(84)90055-1
10576|A||Williams,E.H., E.L. Mather, and S.M. Carter|Toxicity of the Herbicides Endothall and Diquat to Benthic Crustacea|Bull. Environ. Contam. Toxicol.33(4): 418-422|1984|10.1007/BF01625564
10577|A||Williams,R.R., J.E. Hose, and D.V. Lightner|Toxicity and Residue Studies of Cultured Blue Shrimp Treated with the Algicide Cutrine-Plus|Prog. Fish-Cult.44(4): 196-199|1982|10.1577/1548-8659(1982)44[196:TARSOC]2.0.CO;2
10578|A||Woodworth,J., and D. Pascoe|Induction of Cadmium-Binding Protein in the Three-Spined Stickleback|Aquat. Toxicol.3(2): 141-148|1983|10.1016/0166-445X(83)90035-8
10579|A||Call,D.J., L.T. Brooke, N. Ahmad, and J.E. Richter|Toxicity and Metabolism Studies with EPA (Environmental Protection Agency) Priority Pollutants and Related Chemicals in Freshwater Organisms|EPA 600/3-83-095, U.S.EPA, Duluth, MN:120 p.|1983|
10580|A||Dinnel,P.A., Q.J. Stober, and D.H. Di Julio|Sea Urchin Sperm Bioassay for Sewage and Chlorinated Seawater and Its Relation to Fish Bioassays|Mar. Environ. Res.5(1): 29-39|1981|10.1016/0141-1136(81)90020-9
10581|A||Kapu,M.M., and D.J. Schaeffer|Planarians in Toxicology.  Responses of Asexual Dugesia dorotocephala to Selected Metals|Bull. Environ. Contam. Toxicol.47(2): 302-307|1991|10.1007/BF01688656
10582|A||Muir,D.C.G., G.P. Rawn, B.E. Townsend, W.L. Lockhart, and R. Greenhalgh|Bioconcentration of Cypermethrin, Deltamethrin, Fenvalerate and Permethrin by Chironomus tentans Larvae in Sediment and Water|Environ. Toxicol. Chem.4(1): 51-61|1985|10.1002/etc.5620040108
10583|A||Muramoto,S.|Effects of Complexans (DTPA, EDTA) on the Toxicity of Low Concentrations of Copper to Fish|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control17(3): 313-319|1982|
10584|A||Rao,K.S.P., K.R.S.S. Rao, I.K.A. Sahib, and K.V.R. Rao|Combined Action of Carbaryl and Phenthoate on Tissue Lipid Derivatives of Murrel, Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.9(1): 107-111|1985|10.1016/0147-6513(85)90041-7
10585|A||Eales,J.G., and S. Shostak|Influence of Potassium Thiocyanate on Thyroid Function of Rainbow Trout, Salmo gairdneri|Gen. Comp. Endocrinol.51(1): 39-43|1983|10.1016/0016-6480(83)90094-1
10586|A||Sastry,K.V., and P.V. Malik|Acute and Chronic Effects of Diazinon on the Activities of Three Dehydrogenases in the Digestive System of a Freshwater Teleost Fish Channa punctatus|Toxicol. Lett.10(1): 55-59|1982|10.1016/0378-4274(82)90267-3
10587|A||Savoure,B.|Toxic Effects of Vanadium on the Metabolism of Some Fresh-Water Algae Cultivated In Vitro (Effets Toxiques du Vanadium sur le Metabolisme de Quelques Algues d'eau Douce Cultivees In Vitro)|Hydrobiologia (Multiple Languages)118(2): 147-151|1984|10.1007/BF00021039
10588|A||Tuurala,H., and A. Soivio|Structural and Circulatory Changes in the Secondary Lamellae of Salmo gairdneri Gills After Sublethal Exposures to Dehydroabietic Acid and Zinc|Aquat. Toxicol.2(1): 21-29|1982|10.1016/0166-445X(82)90003-0
10589|A||Van Leeuwen,C.J., W.J. Luttmer, and P.S. Griffioen|The Use of Cohorts and Populations in Chronic Toxicity Studies with Daphnia magna: A Cadmium Example|Ecotoxicol. Environ. Saf.9:26-39|1985|10.1016/0147-6513(85)90031-4
10590|A||Verma,S.R., and I.P. Tonk|Effect of Sublethal Concentrations of Mercury on the Composition of Liver, Muscles and Ovary of Notopterus notopterus|Water Air Soil Pollut.20(3): 287-292|1983|10.1007/BF00284633
10591|A||Wan,M.T.K.|Impact of Insect Growth Regulators on Aquatic Organisms Co-Existing with Mosquito Larvae|Reg.Prog.Report 79-27, Aquatic Programs and Contaminants Control, Environmental Protection Service, Pacific Region, Canada:59-|1979|
10592|A||Wan,M.T.K., B.C. Pearce, and J. Truscott|Impact of Copper Sulphate Molluscicide Treatments on Cultus Lake, B.C.|Reg.Prog.Rep.No.82-08, Environ.Serv.Branch, Environ.Prot.Serv., Pacific and Yukon Region, Canada:35 p.|1982|
10594|A||Wilson,D.M., and M.T.K. Wan|Effects of Some Aquatic Weed Control Chemicals on Invertebrates and Plankton in Vernon Arm of Okanagan Lake|EPS 5-PR-75-1, Environmental Protection Service, Dep.Environment, Vancouver, B.C.:30-|1975|
10595|A||Wong,M.H., W.M. Lau, T.Y. Tong, W.K. Liu, and K.C. Luk|Toxic Effects of Chromic Sulphate on the Common Carp, Cyprinus carpio|Toxicol. Lett.10(2-3): 225-232|1982|10.1016/0378-4274(82)90079-0
10596|A||Doggett,S.M., and R.G. Rhodes|Effects of Diazinon Formulation on Unialgal Growth Rates and Phytoplankton Diversity|Bull. Environ. Contam. Toxicol.47(1): 36-42|1991|10.1007/BF01689450
10597|A||Allred,P.M., and J.P. Giesy|Solar Radiation-Induced Toxicity of Anthracene to Daphnia pulex|Environ. Toxicol. Chem.4(2): 219-226|1985|
10598|A||Al-Sabti,K.|Frequency of Chromosomal Aberrations in the Rainbow Trout, Salmo gairdneri Rich., Exposed to Five Pollutants|J. Fish Biol.26(1): 13-19|1985|10.1111/j.1095-8649.1985.tb04235.x
10599|A||Bush,B., K.W. Simpson, L. Shane, and R.R. Koblintz|PCB Congener Analysis of Water and Caddisfly Larvae (Insecta: Trichoptera) in the Upper Hudson River by Glass Capillary Chromatography|Bull. Environ. Contam. Toxicol.34(1): 96-105|1985|10.1007/BF01609708
10600|A||Canton,J.H., P.W. Wester, and E.A.M. Mathijssen-Spiekman|Study on the Toxicity of Sodium Bromide to Different Freshwater Organisms|Food Chem. Toxicol.21(4): 369-378|1983|10.1016/0278-6915(83)90090-X
10601|A||Chapman,P.M., M.A. Farrell, and R.O. Brinkhurst|Relative Tolerances of Selected Aquatic Oligochaetes to Individual Pollutants and Environmental Factors|Aquat. Toxicol.2(1): 47-67|1982|10.1016/0166-445X(82)90005-4
10602|A||Chapman,P.M., M.A. Farrell, and R.O. Brinkhurst|Relative Tolerances of Selected Aquatic Oligochaetes to Combinations of Pollutants and Environmental Factors|Aquat. Toxicol.2(1): 69-78|1982|10.1016/0166-445X(82)90006-6
10603|A||Collvin,L.|Uptake of Copper in the Gills and Liver of Perch, Perca fluviatilis|Ecol. Bull.36:57-61|1984|
10604|A||Correa,M., E.J. Calabrese, and R.A. Coler|Effects of Trichloroacetic Acid, a New Contaminant Found from Chlorinating Water with Organic Material, on Dragonfly Nymphs|Bull. Environ. Contam. Toxicol.34(2): 271-274|1985|10.1007/BF01609733
10605|A||White,R.D., D. Shea, and J.J. Stegeman|Metabolism of the Aryl Hydrocarbon Receptor Agonist 3,3'4,4'-Tetrachlorobiphenyl by the Marine Fish Scup (Stenotomus chrysops) In Vivo and In Vitro|Drug Metab. Dispos.25(5): 564-572|1997|
10606|A||Eddy,F.B., P.A. Kunzlik, and R.N. Bath|Uptake and Loss of Nitrite From the Blood of Rainbow Trout, Salmo gairdneri Richardson, and Atlantic Salmon, Salmo salar L. in Fresh Water|J. Fish Biol.23(1): 105-116|1983|10.1111/j.1095-8649.1983.tb02885.x
10607|A||Satoh,S., N. Porn-Ngam, T. Takeuchi, and T. Watanabe|Effect of Various Types of Phosphates on Zinc Availability to Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)59(8): 1395-1400|1993|10.2331/suisan.59.1395
10608|A||Fortner,A.R., and L.V. Sick|Simultaneous Accumulations of Naphthalene, a PCB Mixture, and Benzo(a)pyrene, by the Oyster, Crassostrea virginica|Bull. Environ. Contam. Toxicol.34(2): 256-264|1985|10.1007/BF01609731
10609|A||Gentile,J.H., S.M. Gentile, G. Hoffman, J.F. Heltshe, and N.,Jr. Hairston|The Effects of a Chronic Mercury Exposure on Survival, Reproduction and Population Dynamics of Mysidopsis bahia|Environ. Toxicol. Chem.2:61-68|1983|10.1002/etc.5620020107
10610|A||Holmes,S.B., P.D. Kingsbury, G. Mamarbachi, and P. Mathieu|Distribution of Fenitrothion Residues in Brook Trout (Salvelinus fontinalis) and Lake Trout (Salvelinus namaycush) Tissues Following Aerial Applications to Lac Ste-Anne, Quebec|Bull. Environ. Contam. Toxicol.33(4): 468-475|1984|10.1007/BF01625571
10611|A||Kuivasniemi,K., V. Eloranta, and J. Knuutinen|Acute Toxicity of Some Chlorinated Phenolic Compounds to Selenastrum capricornutum and Phytoplankton|Arch. Environ. Contam. Toxicol.149(1): 43-49|1985|10.1007/BF01055760
10612|A||Lee,H.H., and C.H. Xu|Differential Response of Marine Organisms to Certain Metal and Agrichemical Pollutants|Bull. Environ. Contam. Toxicol.33(4): 460-467|1984|10.1007/BF01625570
10613|A||Leversee,G.J., J.P. Giesy, P.F. Landrum, S. Gerould, J.W. Bowling, T.E. Fannin, and J.D. Haddock|Kinetics and Biotransformation of Benzo(a)pyrene in Chironomus riparius|Arch. Environ. Contam. Toxicol.11(1): 25-31|1982|10.1007/BF01055182
10614|A|OECDG|McCarthy,J.F., and D.K. Whitmore|Chronic Toxicity of Di-n-butyl and Di-n-octyl Phthalate to Daphnia magna and the Fathead Minnow|Environ. Toxicol. Chem.4(2): 167-179|1985|
10615|A||Mitchell,M.J., and R.J. Wood|Genetic Variation in Tolerance of Ammonium Chloride in Aedes aegypti|Mosq. News44(4): 498-501|1984|
10616|A||Nebeker,A.V., C. Savonen, and D.G. Stevens|Sensitivity of Rainbow Trout Early Life Stages to Nickel Chloride|Environ. Toxicol. Chem.4(2): 233-239|1985|10.1002/etc.5620040214
10617|A||Pinkney,A.E., G.V. Poje, R.M. Sansur, C.C. Lee, and J.M. O'Connor|Uptake and Retention of 14C-Aroclor 1254 in the Amphipod, Gammarus tigrinus, fed Contaminated Fungus, Fusarium oxysporum|Arch. Environ. Contam. Toxicol.14(1): 59-64|1985|10.1007/BF01055762
10618|A||Tjeerdema,R.S., K.L. Lukrich, and E.M. Stevens|Toxicokinetics and Biotransformation of Pentachlorophenol in the Sea Urchin (Strongylocentrotus purpuratus)|Xenobiotica24(8): 749-757|1994|10.3109/00498259409043275
10619|A||Roberts,M.H.J., and D.J. Fisher|Uptake and Clearance Rates for Kepone in Two Marine Fish Species|Arch. Environ. Contam. Toxicol.14(1): 1-6|1985|10.1007/BF01055754
10620|A||Roesijadi,G.|Uptake and Incorporation of Mercury into Mercury-Binding Proteins of Gills of Mytilus edulis as a Function of Time|Mar. Biol.66(2): 151-157|1982|10.1007/BF00397188
10621|A||Sanders,H.O., J.B. Hunn, E. Robinson-Wilson, and F.L.,Jr. Mayer|Toxicity of Seven Potential Polychlorinated Biphenyl Substitutes to Algae and Aquatic Invertebrates|Environ. Toxicol. Chem.4(2): 149-154|1985|10.1002/etc.5620040204
10624|A||Virtanen,M.T., and M.L. Hattula|The Fate of 2,4,6-Trichlorophenol in an Aquatic Continuous-Flow System|Chemosphere11(7): 641-649|1982|10.1016/0045-6535(82)90174-6
10625|A||Wright,D.A., M.J. Meteyer, and F.D. Martin|Effect of Calcium on Cadmium Uptake and Toxicity in Larvae and Juveniles of Striped Bass (Morone saxatilis)|Bull. Environ. Contam. Toxicol.34(2): 196-204|1985|10.1007/BF01609724
10626|A||Yee,D., P. Weinberger, D.A. Johnson, and C. Dechacin|In Vitro Effects of the S-Triazine Herbicide, Prometryne, on the Growth of Terrestrial and Aquatic Microflora|Arch. Environ. Contam. Toxicol.14(1): 25-31|1985|10.1007/BF01055758
10627|A||Weis,J.S., and P. Weis|A Rapid Change in Methylmercury Tolerance in a Population of Killifish, Fundulus heteroclitus, from a Golf Course Pond|Mar. Environ. Res.13(3): 231-245|1984|10.1016/0141-1136(84)90031-X
10628|A||Ahsanullah,M.|Acute Toxicity of Chromium, Mercury, Molybdenum and Nickel to the Amphipod Allorchestes compressa|Aust. J. Mar. Freshw. Res.33(3): 465-474|1982|10.1071/MF9820465
10629|A||Abbasi,S.A., and R. Soni|Toxicity of Lower Than Permissible Levels of Chromium (VI) to the Freshwater Teleost Nuria denricus|Environ. Pollut. A.36(1): 75-82|1984|10.1016/0143-1471(84)90199-5
10630|A||Abel,D.C.|Terrestriality in the Cyprinodontid Fish Rivulus marmoratus:  Potential Utility in H2S and Other Bioassays|Bull. Environ. Contam. Toxicol.33(1): 33-39|1984|10.1007/BF01625508
10631|A||Arillo,A., E. Gaino, C. Margiocco, P. Mensi, and G. Schenone|Biochemical and Ultrastructural Effects of Nitrite in Rainbow Trout: Liver Hypoxia as the Root of the Acute Toxicity Mechanism|Environ. Res.34(1): 135-154|1984|10.1016/0013-9351(84)90083-5
10632|A||Balavenkatasubbaiah,M., A.U. Rani, K. Geethanjali, K.R. Purushotham, and R. Ramamurthi|Effect of Cupric Chloride on Oxidative Metabolism in the Freshwater Teleost, Tilapia mossambica|Ecotoxicol. Environ. Saf.8(3): 289-293|1984|10.1016/0147-6513(84)90033-2
10633|A||Borgmann,U., and C.C. Charlton|Copper Complexation and Toxicity to Daphnia in Natural Waters|J. Great Lakes Res.10(4): 393-398|1984|10.1016/S0380-1330(84)71855-7
10634|A||Brooks,A.S., and J.M. Bartos|Effects of Free and Combined Chlorine and Exposure Duration on Rainbow Trout, Channel Catfish, and Emerald Shiners|Trans. Am. Fish. Soc.113(6): 786-793|1984|10.1577/1548-8659(1984)113<786:EOFACC>2.0.CO;2
10635|A||Call,D.J., L.T. Brooke, R.J. Kent, S.H. Poirier, M.L. Knuth, P.J. Shubat, and E.J. Slick|Toxicity, Uptake, and Elimination of the Herbicides Alachlor and Dinoseb in Freshwater Fish|J. Environ. Qual.13(3): 493-498|1984|10.2134/jeq1984.00472425001300030033x
10636|A||Cooney,J.D., and C.W. Gehrs|Effects of Temperature, Feeding and Acridine on Reproduction of the Calanoid Copepod, Diaptomus clavipes Schacht|Environ. Pollut. A.37(1): 53-70|1985|10.1016/0143-1471(85)90024-8
10637|A||Crossland,N.O., and D. Bennett|Fate and Biological Effects of Methyl Parathion in Outdoor Ponds and Laboratory Aquaria.  I.  Fate|Ecotoxicol. Environ. Saf.8(5): 471-481|1984|10.1016/0147-6513(84)90067-8
10638|A||Crossland,N.O.|Fate and Biological Effects of Methyl Parathion in Outdoor Ponds and Laboratory Aquaria.  II.  Effects|Ecotoxicol. Environ. Saf.8(5): 482-495|1984|10.1016/0147-6513(84)90068-X
10639|A||Dave,G.|Effect of pH on Pentachlorophenol Toxicity to Embryos and Larvae of Zebrafish (Brachydanio rerio)|Bull. Environ. Contam. Toxicol.33(5): 621-630|1984|10.1007/BF01625593
10640|A||De Llamas,M.C., A.C. De Castro, and A.M.P. De d'Angelo|Cholinesterase Activities in Developing Amphibian Embryos Following Exposure to the Insecticides Dieldrin and Malathion|Arch. Environ. Contam. Toxicol.14(2): 161-166|1985|10.1007/BF01055607
10641|A||Eaton,J.G., V.R. Mattson, L.H. Mueller, and D.K. Tanner|Effects of Suspended Clay on Bioconcentration of Kelthane in Fathead Minnows|Arch. Environ. Contam. Toxicol.12(4): 439-445|1983|10.1007/BF01057587
10642|A||Finlayson,B.J., and K.M. Verrue|Toxicities of Butoxyethanol Ester and Propylene Glycol Butyl Ether Ester Formulations of 2,4-Dichlorophenoxy Acetic Acid (2,4-D) to Juvenile Salmonids|Arch. Environ. Contam. Toxicol.14(2): 153-160|1985|10.1007/BF01055606
10643|A||Fisher,J.W., R.A. Dilego, and L.M. Paulos|Changes in Bluegill Activity As a Monitor of Acute Benzene Exposure|Bull. Environ. Contam. Toxicol.33(1): 26-32|1984|10.1007/BF01625507
10644|A||Francis,P.C., W.J. Birge, and J.A. Black|Effects of Cadmium-Enriched Sediment on Fish and Amphibian Embryo-Larval Stages|Ecotoxicol. Environ. Saf.8(4): 378-387|1984|10.1016/0147-6513(84)90006-X
10645|A||Gauss,J.D., P.E. Woods, R.W. Winner, and J.H. Skillings|Acute Toxicity of Copper to Three Life Stages of Chironomus tentans as Affected by Water Hardness-Alkalinity|Environ. Pollut. A.37(2): 149-157|1985|10.1016/0143-1471(85)90005-4
10646|A||Gupta,P.K., V.S. Mujumdar, and P.S. Rao|Studies on the Toxicity of Some Insecticides to a Freshwater Teleost Lebistes reticulatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(6): 629-636|1984|10.1002/aheh.19840120610
10647|A||Hughes,G.M., and L. Tort|Cardio-Respiratory Responses of Rainbow Trout During Recovery From Zinc Treatment|Environ. Pollut. A.37(3): 255-266|1985|10.1016/0143-1471(85)90045-5
10648|A||Irmer,U., K. Heuer, and A. Weber|Effects of Various Organic Chemicals on the Regreening of Red Colored Chlorella zofingiensis|Ecotoxicol. Environ. Saf.9(1): 121-133|1985|10.1016/0147-6513(85)90043-0
10649|A||LeBlanc,G.A.|Effects of Copper on the Competitive Interactions of Two Species of Cladocera|Environ. Pollut. A.37(1): 13-25|1985|10.1016/0143-1471(85)90021-2
10650|A||Omkar, R. Murti, and G.S. Shukla|Aldrin Induced Changes in the Activities of Three Phosphatases of Macrobrachium lamarrei (H. Milne Edwards)|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(6): 609-613|1984|10.1002/aheh.19840120607
10651|A||Saunders,J.P., N.M. Trieff, E.E. Kalmaz, and T. Uchida|Effect of Mercuric Ion on Attraction to Light of Artemia Sp nauplii|Ecotoxicol. Environ. Saf.9(1): 112-120|1985|10.1016/0147-6513(85)90042-9
10652|A||Van Leeuwen,C.J., and H. Maas|The Aquatic Toxicity of 2,6-Dichlorobenzamide (BAM), a Degradation Product of the Herbicide Dichlobenil|Environ. Pollut. A.37(2): 105-115|1985|10.1016/0143-1471(85)90002-9
10653|A||Johnston,J.J., and M.D. Corbett|The Effects of Temperature, Salinity and a Simulated Tidal Cycle on the Toxicity of Fenitrothion to Callinectes sapidus|Comp. Biochem. Physiol. C Comp. Pharmacol.80(1): 145-149|1985|10.1016/0742-8413(85)90146-X
10654|A||Kumar,K., and B.A. Ansari|Malathion Toxicity: Skeletal Deformities in Zebrafish (Brachydanio rerio, Cyprinidae)|Pestic. Sci.15:107-111|1984|10.1002/ps.2780150203
10655|A||Mallatt,J., R.L. Ridgway, and C. Paulsen|Ultrastructural Effects of 3-Trifluormethyl-4-Nitrophenol on Gills of the Larval Lamprey Petromyzon marinus|Can. J. Zool.63(1): 155-164|1985|10.1139/z85-024
10656|A||Marking,L.L., T.D. Bills, and J.R. Crowther|Effects of Five Diets on Sensitivity of Rainbow Trout to Eleven Chemicals|Prog. Fish-Cult.46(1): 1-5|1984|10.1577/1548-8640(1984)46<1:EOFDOS>2.0.CO;2
10657|A||Park,E.H., and D.S. Kim|Hepatocarcinogenicity of Diethylnitrosamine to the Self-Fertilizing Hermaphroditic Fish Rivulus marmoratus (Teleostomi: Cyprinodontidae)|J. Natl. Cancer Inst.73(4): 871-876|1984|
10658|A||Passino,D.R.M., and A.J. Novak|Toxicity of Arsenate and DDT to the Cladoceran Bosmina longirostris|Bull. Environ. Contam. Toxicol.33(3): 325-329|1984|10.1007/BF01625551
10659|A||Peer,M.M., J. Nirmala, and M.N. Kutty|Effects of Pentachlorophenol (Na PCP) on Survival, Activity and Metabolism in Rhinomugil corsula (Hamilton), Cyprinus carpio (Linnaeus) and Tilapia mossambica|Hydrobiologia (Multiple Languages)107(1): 19-24|1983|10.1007/BF00126699
10660|A||Rao,K.S.P., and K.V.R. Rao|Changes in the Tissue Lipid Profiles of Fish (Oreochromis mossambicus) During Methyl Parathion Toxicity - a Time Course Study|Toxicol. Lett.21(2): 147-153|1984|10.1016/0378-4274(84)90198-X
10662|A||Sastry,K.V., and D.R. Rao|Effect of Mercuric Chloride on Some Biochemical and Physiological Parameters of the Freshwater Murrel, Channa punctatus|Environ. Res.34(2): 343-350|1984|10.1016/0013-9351(84)90103-8
10663|A||Seim,W.K., L.R. Curtis, S.W. Glenn, and G.A. Chapman|Growth and Survival of Developing Steelhead Trout (Salmo gairdneri) Continuously or Intermittently Exposed to Copper|Can. J. Fish. Aquat. Sci.41(3): 433-438|1984|10.1139/f84-051
10664|A||Shires,S.W.|Toxicity of a new Pyrethroid Insecticide, WL85871, to Rainbow Trout|Bull. Environ. Contam. Toxicol.34(1): 134-137|1985|10.1007/BF01609714
10665|A||Sharma,R.K., S. Shandilya, and S. Sharma|Observations on the Effect of Malathion on the Mortality of Fish, Clarias batrachus (Linn.)|Comp. Physiol. Ecol.8(2): 155-156|1983|
10666|A||Soderberg,R.W.|Histopathology of Rainbow Trout, Salmo gairdneri Richardson, Exposed to Diurnally Fluctuating Un-ionized Ammonia Levels in Static-Water Ponds|J. Fish Dis.8(1): 57-64|1985|10.1111/j.1365-2761.1985.tb01187.x
10667|A||Sundelin,B.|Effects of Cadmium on Pontoporeia affinis (Crustacea: Amphipoda) in Laboratory Soft-Bottom Microcosms|Mar. Biol.74(2): 203-212|1983|10.1007/BF00413923
10668|A||Szeto,S.Y., and S.B. Holmes|The Lethal Toxicity of Matacil 1.8 F to Rainbow Trout and Its In Vivo Metabolism|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(1): 51-61|1982|
10669|A||Tucker,C.S., R.L. Busch, and S.W. Lloyd|Effects of Simazine Treatment on Channel Catfish Production and Water Quality in Ponds|J. Aquat. Plant Manag.21:7-11|1983|
10670|A||Ueda,T., and M. Nakahara|Accumulation of Co by Marine Fish|Nippon Suisan Gakkaishi (Multiple Languages)49(4): 651-654|1983|10.2331/suisan.49.651
10671|A||Van Hoof,F., and J.P. Nauwelaers|Distribution of Nickel in the Roach (Rutilus rutilus L.) After Exposure to Lethal and Sublethal Concentrations|Chemosphere13(9): 1053-1058|1984|10.1016/0045-6535(84)90064-X
10672|A||Watanabe,N., T. Nakamura, E. Watanabe, E. Sato, and Y. Ose|Bioconcentration Potential of Polydimethylsiloxane (PDMS) Fluids by Fish|Sci. Total Environ.38:167-172|1984|10.1016/0048-9697(84)90214-6
10673|A||Willis,J.N., and W.G. Sunda|Relative Contributions of Food and Water in the Accumulation of Zinc by Two Species of Marine Fish|Mar. Biol.80(3): 273-279|1984|10.1007/BF00392822
10674|A|OECDG|Wong,P.T.S., Y.K. Chau, J.S. Rhamey, and M. Docker|Relationship Between Water Solubility of Chlorobenzenes and Their Effects on a Freshwater Green Alga|Chemosphere13(9): 991-996|1984|10.1016/0045-6535(84)90058-4
10675|A||Gonzalez-Murua,C., A. Munoz-Rueda, F. Hernando, and M. Sanchez-Diaz|Effect of Atrazine and Methabenzthiazuron on Oxygen Evolution and Cell Growth of Chlorella pyrenoidosa|Weed Res. (Multiple Languages)25(1): 61-66|1985|10.1111/j.1365-3180.1985.tb00618.x
10676|A||Hemingway,J., M. Rowland, and K.E. Kissoon|Efficacy of Pirimiphos Methyl As a Larvicide or Adulticide Against Insecticide Resistant and Susceptible Mosquitoes (Diptera: Culicidae)|J. Econ. Entomol.77(4): 868-871|1984|10.1093/jee/77.4.868
10677|A||Hose,J.E., R.J. Stoffel, and K.E. Zerba|Behavioural Responses of Selected Marine Fishes to Chlorinated Seawater|Mar. Environ. Res.9(1): 37-59|1983|10.1016/0141-1136(83)90021-1
10678|A||Mukhopadhyay,M.K., and S.K. Konar|Lethal Effects of Iron on Fish and Aquatic Ecosystem|IAWPC (Indian Assoc. Water Pollut. Control) Tech. Annu.9:149-162|1982|
10679|A||Spehar,R.L., H.P. Nelson, M.J. Swanson, and J.W. Renoos|Pentachlorophenol Toxicity to Amphipods and Fathead Minnows at Different Test pH Values|Environ. Toxicol. Chem.4:389-397|1985|10.1002/etc.5620040314
10680|A||Bakthavathsalam,R., and Y.S. Reddy|Intoxication Effects of Lindane (gamma-BHC) on the Carbohydrate Metabolism in the Climbing Perch, Anabas testudineus (Bloch)|Pestic. Biochem. Physiol.20(3): 340-346|1983|10.1016/0048-3575(83)90108-6
10682|A||Chung,K.S.|Lethal Effects of Cadmium in Tropical Fishes|Nippon Suisan Gakkaishi (Multiple Languages)49(10): 1565-1568|1983|10.2331/suisan.49.1565
10683|A||Doughtie,D.G., and K.R. Rao|Ultrastructural and Histological Study of Degenerative Changes in the Antennal Glands, Hepatopancreas, and Midgut of Grass Shrimp Exposed to Two Dithiocarbamate Biocides|J. Invertebr. Pathol.41(3): 281-300|1983|10.1016/0022-2011(83)90245-8
10684|A||Drewett,N., and P.D. Abel|Pathology of Lindane Poisoning and of Hypoxia in the Brown Trout, Salmo trutta L.|J. Fish Biol.23(4): 373-384|1983|10.1111/j.1095-8649.1983.tb02918.x
10685|A||Geller,W.|A Toxicity Warning Monitor Using the Weakly Electric Fish, Gnathonemus petersi|Water Res.18(10): 1285-1290|1984|10.1016/0043-1354(84)90034-4
10686|A||Gupta,P.K., and V.S. Durve|Evaluation of the Toxicity of Sodium Pentachlorophenate, Pentachlorophenol and Phenol to the Snail Viviparus bengalensis (L.)|Arch. Hydrobiol.101(3): 469-475|1984|
10687|A||Hermanutz,R.O., J.G. Eaton, and L.H. Mueller|Toxicity of Endrin and Malathion Mixtures to Flagfish (Jordanella floridae)|Arch. Environ. Contam. Toxicol.14:307-314|1985|10.1007/BF01055407
10688|A||Hodson,P.V., D.G. Dixon, and K.L.E. Kaiser|Measurement of Median Lethal Dose as a Rapid Indication of Contaminant Toxicity to Fish|Environ. Toxicol. Chem.3(2): 243-254|1984|10.1002/etc.5620030207
10689|A||Holcombe,G.W., G.L. Phipps, and J.W. Marier|Methods for Conducting Snail (Aplexa hypnorum) Embryo Through Adult Exposures: Effects of Cadmium and Reduced pH Levels|Arch. Environ. Contam. Toxicol.13(5): 627-634|1984|10.1007/BF01056342
10690|A||Joyce,J.C., and W.T. Haller|Effect of 2,4-D and Gibberellic Acid on Waterhyacinths Under Operational Conditions|J. Aquat. Plant Manag.22:75-78|1984|
10691|A||Karara,A.H., and W.L. Hayton|Pharmacokinetic Model for the Uptake and Disposition of di-2-Ethylhexyl Phthalate in Sheepshead Minnow Cyprinodon variegatus|Aquat. Toxicol.5(3): 181-195|1984|10.1016/0166-445X(84)90019-5
10692|A|OECDG|Kumar,S., and S.C. Pant|Organal Damage Caused by Aldicarb to a Freshwater Teleost Barbus conchonius Hamilton|Bull. Environ. Contam. Toxicol.33(1): 50-55|1984|10.1007/BF01625510
10693|A||Landau,M., and J.W.,Jr. Tucker|Acute Toxicity of EDB and Aldicarb to Young of Two Estuarine Fish Species|Bull. Environ. Contam. Toxicol.33(2): 127-132|1984|10.1007/BF01625521
10694|A||LeBlanc,G.A., and D.C. Surprenant|The Acute and Chronic Toxicity of Acetone, Dimethyl Formamide, and Triethylene Glycol to Daphnia magna (Straus)|Arch. Environ. Contam. Toxicol.12(3): 305-310|1983|10.1007/BF01059407
10695|A||Lima,A.R., C. Curtis, D.E. Hammermeister, T.P. Markee, C.E. Northcott, and L.T. Brooke|Acute and Chronic Toxicities of Arsenic(III) to Fathead Minnows, Flagfish, Daphnids, and an Amphipod|Arch. Environ. Contam. Toxicol.13(5): 595-601|1984|10.1007/BF01056338
10696|A||Limsuwan,C., J.M. Grizzle, and J.A. Plumb|Etomidate As an Anesthetic for Fish: Its Toxicity and Efficacy|Trans. Am. Fish. Soc.112(4): 544-550|1983|10.1577/1548-8659(1983)112<544:EAAAFF>2.0.CO;2
10697|A||Marian,M.P., V. Arul, and T.J. Pandian|Acute and Chronic Effects of Carbaryl on Survival, Growth, and Metamorphosis in the Bullfrog (Rana tigrina)|Arch. Environ. Contam. Toxicol.12(3): 271-275|1983|10.1007/BF01059402
10698|A||Mayes,M.A., and D.C. Dill|The Acute Toxicity of Picloram, Picloram Potassium Salt, and Picloram Triisopropanolamine Salt to Aquatic Organisms|Environ. Toxicol. Chem.3(2): 263-269|1984|10.1002/etc.5620030209
10699|A||Mayes,M.A., D.C. Dill, K.M. Bodner, and C.G. Mendoza|Triclopyr Triethylamine Salt Toxicity to Life Stages of the Fathead Minnow (Pimephales promelas Rafinesque)|Bull. Environ. Contam. Toxicol.33(3): 339-347|1984|10.1007/BF01625553
10700|A||Cleasby,J.L., E.R. Baumann, and C.D. Black|Effectiveness of Potassium Permanganate for Disinfection|J. Am. Water Works Assoc.56(4): 466-474|1964|10.1002/j.1551-8833.1964.tb01235.x
10701|A||Nagashima,Y., T. Kikuchi, and M. Chiba|Toxicity and Accumulation of Mercury in Fish, the Himedaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)50(1): 95-99|1984|10.2331/suisan.50.95
10702|A||Naidu,K.A., and R. Ramamurthi|Acute Effect of Mercury Toxicity on Some Enzymes in Liver of Teleost Sarotherodon mossambicus|Ecotoxicol. Environ. Saf.8(3): 215-218|1984|10.1016/0147-6513(84)90024-1
10703|A||Natarajan,G.M.|Metasystox Toxicity:  Effects of Lethal (LC50/48h) Concentration on Free Amino Acids and Glutamate Dehydrogenase in Some Tissues in the Air-Breathing Fish, Channa striatus (Bleeker)|Comp. Physiol. Ecol.8(4): 254-256|1983|
10704|A||Natarajan,G.M.|Effect of Sublethal Concentration of Metasystox on Selected Oxidative Enzymes, Tissue Respiration, and Hematology of the Freshwater Air-Breathing|Pestic. Biochem. Physiol.21(2): 194-198|1984|10.1016/0048-3575(84)90054-3
10705|A||Niimi,A.J., and C.Y. Cho|Laboratory and Field Analysis of Pentachlorophenol (PCP) Accumulation by Salmonids|Water Res.17(12): 1791-1795|1983|10.1016/0043-1354(83)90201-4
10706|A||Ogata,M., K. Fujisawa, Y. Ogino, and E. Mano|Partition Coefficients as a Measure of Bioconcentration Potential of Crude Oil Compounds in Fish and Shellfish|Bull. Environ. Contam. Toxicol.33(5): 561-567|1984|10.1007/BF01625584
10707|A||Oladimeji,A.A., S.U. Qadri, and A.S.W. DeFreitas|Long-Term Effects of Arsenic Accumulation in Rainbow Trout, Salmo gairdneri|Bull. Environ. Contam. Toxicol.32(6): 732-741|1984|10.1007/BF01607564
10708|A|OECDG|Oliver,B.G., and A.J. Niimi|Rainbow Trout Bioconcentration of Some Halogenated Aromatics From Water at Environmental Concentrations|Environ. Toxicol. Chem.3(2): 271-277|1984|10.1002/etc.5620030210
10709|A||Pant,J.C., and T. Singh|Inducement of Metabolic Dysfunction by Carbamate and Organophosphorus Compounds in a Fish, Puntius conchonius|Pestic. Biochem. Physiol.20(3): 294-298|1983|10.1016/0048-3575(83)90103-7
10710|A||Alexander,H.C., J.A.,Jr. Quick, R.J. Moolenaar, E.A. Bartlett, C.G. Mendoza, and G.U. Boggs|Dynamics of Bromide Uptake and Depuration by Fathead Minnows|Trans. Am. Fish. Soc.111(6): 755-760|1982|10.1577/1548-8659(1982)111<755:DOBUAD>2.0.CO;2
10711|A||Bano,Y.|Effects of Aldrin on Serum and Liver Constituents of Freshwater Catfish Clarias batrachus L.|Proc. Indian Acad. Sci. Anim. Sci.91(1): 27-32|1982|10.1007/BF03186056
10712|A|OECDG|Calamari,D., S. Galassi, and F. Setti|Evaluating the Hazard of Organic Substances on Aquatic Life: The Paradichlorobenzene Example|Ecotoxicol. Environ. Saf.6(4): 369-378|1982|10.1016/0147-6513(82)90052-5
10713|A||Corbet,R.L., D.C.G. Muir, and G.R.B. Webster|Fate of 1,3,6,8-T4CDD in an Outdoor Aquatic System|Chemosphere12(4-5): 523-527|1983|10.1016/0045-6535(83)90204-7
10714|A||Dalwani,R., J.M. Dave, and K. Datta|Alterations in Hepatic Heme Metabolism in Fish Exposed to Sublethal Cadmium Levels|Biochem. Int.10(1): 33-42|1985|
10715|A||Eidt,D.C., and C.A.A. Weaver|Threshold Concentration of Aminocarb That Causes Drift of Stream Insects|Can. Entomol.115(6): 715-716|1983|10.4039/Ent115715-6
10716|A||Frazier,J.M., and S.G. George|Cadmium Kinetics in Oysters - A Comparative Study of Crassostrea gigas and Ostrea edulis|Mar. Biol.76(1): 55-61|1983|10.1007/BF00393055
10717|A||Schultz,T.W., and B.A. Moulton|Structure-Activity Relationships for Nitrogen-Containing Aromatic Molecules|Environ. Toxicol. Chem.4:353-359|1985|
10718|A||Gupta,A., and C.P. Singh|Histopathological Changes in Different Tissues of T. fasciatus Under the Acute Impact of BHC|Toxicol. Lett.14(3-4): 151-156|1982|10.1016/0378-4274(82)90044-3
10719|A||Gupta,S., R.C. Dalela, and P.K. Saxena|Effect of Phenolic Compounds on In Vivo Activity of Transaminases in Certain Tissues of the Fish, Notopterus notopterus|Environ. Res.32(1): 8-13|1983|10.1016/0013-9351(83)90186-X
10720|A||Hall,T.M.|Free Ionic Nickel Accumulation and Localization in the Freshwater Zooplankter, Daphnia magna|Limnol. Oceanogr.27(4): 718-727|1982|10.4319/lo.1982.27.4.0718
10721|A||Khangarot,B.S.|Effect of Zinc, Copper and Mercury on Channa marulius (Hamilton)|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(6): 639-649|1981|10.1002/aheh.19810090608
10722|A||Khangarot,B.S.|Studies on the Acute Toxicity of Zinc to a Freshwater Teleost: Channa punctatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(3): 285-292|1982|10.1002/aheh.19820100309
10723|A||Kodama,M., T. Ogata, and K. Yamamori|Acute Toxicity of Zinc to Rainbow Trout Salmo gairdneri|Nippon Suisan Gakkaishi (Multiple Languages)48(8): 1055-1058|1982|10.2331/suisan.48.1055
10724|A|OECDF|Lalande,M., and B. Pinel-Alloul|Heavy Metals Toxicity on Planktonic Crustacea of the Quebec Lakes (Toxicite des Metaux Lourds sur les Crustaces Planctoniques des Lacs du Quebec)|Sci. Tech. Eau17(3): 253-259|1984|
10725|A||Muir,D.C.G., N.P. Grift, B.E. Townsend, D.A. Metner, and W.L. Lockhart|Comparison of the Uptake and Bioconcentration of Fluridone and Terbutryn by Rainbow Trout and Chironomus tentans in Sediment and Water Systems|Arch. Environ. Contam. Toxicol.11(5): 595-602|1982|10.1007/BF01056368
10726|A||Omkar, R. Murti, and G.S. Shukla|Effect of Aldrin on the Carbohydrate Metabolism of a Freshwater Prawn Macrobrachium lamarrei (H.M. Edwards) Crustacea, Decapoda|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(5): 549-552|1984|10.1002/aheh.19840120515
10727|A||Rashatwar,S.S., and R. Ilyas|Effect of Chronic Herbicide intoxication on In Vivo Activities of Certain Enzymes in the Liver of Freshwater Fish Nemachelius denisonii (Day)|Toxicol. Lett.16(3/4): 249-252|1983|10.1016/0378-4274(83)90184-4
10728|A||Shelton,D.W., R.A. Coulombe, C.B. Pereira, J.L. Casteel, and J.D. Hendricks|Inhibitory Effect of Aroclor 1254 on Aflatoxin-Initiated Carcinogenesis in Rainbow Trout and Mutagenesis Using a Salmonella/Trout Hepatic Activation System|Aquat. Toxicol.3(3): 229-238|1983|10.1016/0166-445X(83)90043-7
10729|A||Spry,D.J., and C.M. Wood|Acid-Base, Plasma Ion and Blood Gas Changes in Rainbow Trout During Short Term Toxic Zinc Exposure|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.154(2): 149-158|1984|10.1007/BF00684139
10730|A||Sun,T.J., and D.H. Taylor|The Effects of Parathion on Acquisition and Retention of Shuttlebox Avoidance-Conditioning in the Goldfish Carassius auratus|Environ. Pollut. A.31(2): 119-131|1983|10.1016/0143-1471(83)90004-1
10731|A||Venugopal,N.B.R.K., and S.L.N. Reddy|In Vivo Effects of Trivalent and Hexavalent Chromium on Renal and Hepatic ATPases of a Freshwater Teleost Anabas scandens|Environ. Monit. Assess.28(2): 131-136|1993|10.1007/BF00547031
10732|A||Viale,G., and D. Calamari|Immune Response in Rainbow Trout Salmo gairdneri After Long-Term Treatment with Low Levels of Cr, Cd and Cu|Environ. Pollut. A.35(3): 247-257|1984|10.1016/0143-1471(84)90205-8
10733|A||Craig,A., L. Hare, P.M. Charest, and A. Tessier|Effect of Exposure Regime on the Internal Distribution of Cadmium in Chironomus staegeri Larvae (Insecta, Diptera)|Aquat. Toxicol.41(3): 265-275|1998|10.1016/S0166-445X(97)00085-4
10734|A||Van der Hoeven,J.C.M., I.M. Bruggeman, G.M. Alink, and J.H. Koeman|The Killifish Nothobranchius rachowi, a New Animal in Genetic Toxicology|Mutat. Res.97(1): 35-42|1982|10.1016/0165-1161(82)90017-6
10735|A||Foissner,I.|Effect of 3-(3,4-Dichlorophenyl)-1,1-Dimethylurea (DCMU) on Photosynthesis and Respiration of Nitella dactyl Cells|Pestic. Biochem. Physiol.22(3): 346-348|1984|10.1016/0048-3575(84)90027-0
10736|A||Ahsanullah,M., and T.M. Florence|Toxicity of Copper to the Marine Amphipod Allorchestes compressa in the Presence of Water-and Lipid-Soluble Ligands|Mar. Biol.84(1): 41-45|1984|10.1007/BF00394525
10737|A||Barton,B.A., and R.E. Peter|Plasma Cortisol Stress Response in Fingerling Rainbow Trout, Salmo gairdneri Richardson, to Various Transport Conditions, Anaesthesia, and|J. Fish Biol.20(1): 39-51|1982|10.1111/j.1095-8649.1982.tb03893.x
10738|A||Bengtsson,B.E.|Long-Term Studies on Uptake and Elimination of Some Chlorinated Paraffins in the Bleak, Alburnus alburnus|Ambio11(1): 38-40|1982|
10739|A||Bhagyalakshmi,A., P.S. Reddy, and R. Ramamurthi|The In Vivo Inhibition and Recovery of Acetylcholinesterase in the Thoracic Ganglionic Mass of the Freshwater Rice Field Crab (Oziotelphusa senex senex)|Toxicol. Lett.21(2): 135-139|1984|10.1016/0378-4274(84)90196-6
10740|A||Bhagyalakshmi,A., P.S. Reddy, and R. Ramamurthi|Subacute Stress Induced by Sumithion on Certain Biochemical Parameters in Oziotelphusa senex senex, the Fresh-Water Rice Field Crab|Toxicol. Lett.21(2): 127-134|1984|10.1016/0378-4274(84)90195-4
10741|A||Birmingham,B.C., and B. Colman|Persistence and Fate of 2,4-D Butoxyethanol Ester in Artificial Ponds|J. Environ. Qual.14(1): 100-104|1985|10.2134/jeq1985.00472425001400010020x
10742|A||Casillas,E., M. Myers, and W.E. Ames|Relationship of Serum Chemistry Values to Liver and Kidney Histopathology in English Sole (Parophrys vetulus) After Acute Exposure to Carbon Tetrachloride|Aquat. Toxicol.3(1): 61-78|1983|10.1016/0166-445X(83)90007-3
10743|A||Danil'chenko,O.P.|A Comparison of the Reaction of Fish Embryos and Prolarvae to Certain Natural Factors and Synthesized Compounds|J. Ichthyol.22(1): 123-134|1982|
10744|A||Dokholyan,V.K., A.M. Akhmedov, T.P. Akhmedova, and G.S. Shleyfer|The Influence of Mercury Accumulation on Fish|J. Ichthyol.21(3): 103-112|1981|
10745|A||Galassi,S., and M. Vighi|Testing Toxicity of Volatile Substances with Algae|Chemosphere10(10): 1123-1126|1981|10.1016/0045-6535(81)90182-X
10746|A||Gill,T.S., and J.C. Pant|Cadmium Toxicity: Inducement of Changes in Blood and Tissue Metabolites in Fish|Toxicol. Lett.18(3): 195-200|1983|10.1016/0378-4274(83)90093-0
10747|A||Hall,L.W.,Jr., D.T. Burton, W.C. Graves, and S.L. Margrey|Behavioral Modification of Estuarine Fish Exposed to Sulfur Dioxide|J. Toxicol. Environ. Health13(4-6): 969-978|1984|10.1080/15287398409530554
10748|A||Hashimoto,Y., E. Okubo, T. Ito, M. Yamaguchi, and S. Tanaka|Changes in Susceptibility of Carp to Several Pesticides with Growth|J. Pestic. Sci. (Multiple Languages)7(4): 457-461|1982|10.1584/jpestics.7.457
10749|A||Jash,N.B., and S. Bhattacharya|Phenthoate-Induced Changes in the Profiles of Acetylcholinesterase and Acetylcholine in the Brain of Anabas testudineus (Bloch): Acute and Delayed Effect|Toxicol. Lett.15(4): 349-356|1983|10.1016/0378-4274(83)90155-8
10750|A||Kanazawa,J.|A Method of Predicting the Bioconcentration Potential of Pesticides by Using Fish|Jpn. Agric. Res. Q.17(3): 173-179|1983|
10751|A||Klein-MacPhee,G., J.A. Cardin, and W.J. Berry|Effects of Silver on Eggs and Larvae of the Winter Flounder|Trans. Am. Fish. Soc.113(2): 247-251|1984|10.1577/1548-8659(1984)113<247:EOSOEA>2.0.CO;2
10752|A||Manley,A.R.|The Effects of Copper on the Behaviour, Respiration, Filtration and Ventilation Activity of Mytilus edulis|J. Mar. Biol. Assoc. U.K.63:205-222|1983|10.1017/S0025315400049900
10753|A||Marcelle,C., and J.P. Thome|Relative Importance of Dietary and Environmental Sources of Lindane in Fish|Bull. Environ. Contam. Toxicol.33(4): 423-429|1984|10.1007/BF01625565
10754|A||Oronsaye,J.A.O., and A.E. Brafield|The Effect of Dissolved Cadmium on the Chloride Cells of the Gills of the Stickleback, Gasterosteus aculeatus L|J. Fish Biol.25(2): 253-258|1984|10.1111/j.1095-8649.1984.tb04872.x
10755|A||Rashatwar,S.S., and R. Ilyas|Effect of Phosphamidon in a Freshwater Teleost Fish Nemachelius denisonii (Day)-Histopathological and Biochemical Studies|J. Environ. Biol.5(1): 1-8|1984|
10757|A||Rhead,M.M., and J.M. Perkins|An Evaluation of the Relative Importance of Food and Water As Sources of p,p'-DDT to the Goldfish, Carassius auratus (L.)|Water Res.18(6): 719-725|1984|10.1016/0043-1354(84)90167-2
10758|A||Richardson,L.B., D.T. Burton, R.M. Block, and A.M. Stavola|Lethal and Sublethal Exposure and Recovery Effects of Ozone-Produced Oxidants on Adult White Perch (Morone americana Gmelin)|Water Res.17(2): 205-213|1983|10.1016/0043-1354(83)90101-X
10759|A||Rubinstein,N.I., W.T. Gilliam, and N.R. Gregory|Dietary Accumulation of PCBs from a Contaminated Sediment Source by a Demersal Fish (Leiostomus xanthurus)|Aquat. Toxicol.5(4): 331-342|1984|10.1016/0166-445X(84)90014-6
10760|A||Sanville,W.D., C.F. Powers, G.S. Schuytema, F.S. Stay, and W.L. Lauer|Phosphorus Inactivation by Zirconium in a Eutrophic Pond|J. Water Pollut. Control Fed.54(5): 434-443|1982|
10761|A||Sastry,K.V., and Km Sunita|Chronic Toxic Effects of Chromium in Channa punctatus|J. Environ. Biol.5(1): 47-52|1984|
10762|A||Saxena,O.P., and A. Parashari|Comparative Study of the Toxicity of Six Heavy Metals to Channa punctatus|J. Environ. Biol.4(2): 91-94|1983|
10763|A||Singh,S., and S. Sahai|Toxicity of Some Pesticide to Two Fresh Water Teleosts|J. Environ. Biol.5(4): 255-259|1984|
10764|A||Singh,S., and S. Sahai|Effect of Malathion on the Mortality and Behaviour of Two Fresh Water Teleosts|J. Environ. Biol.5(1): 23-28|1984|
10765|A||Singh,N.N., and A.K. Srivastava|Toxicity of a Mixture of Aldrin and Formothion and Other Organophosphorus, Organochlorine and Carbamate Pesticides to the Indian Catfish, Heteropneustes fossilis|Comp. Physiol. Ecol.9(1): 63-66|1984|
10766|A||Balogh,K., and J. Salanki|The Dynamics of Mercury and Cadmium Uptake into Different Organs of Anodonta cygnea L|Water Res.18(11): 1381-1387|1984|10.1016/0043-1354(84)90007-1
10767|A||Stout,R.J., and W.E. Cooper|Effect of P-Cresol on Leaf Decomposition and Invertebrate Colonization in Experimental Outdoor Streams|Can. J. Fish. Aquat. Sci.40(10): 1647-1657|1983|10.1139/f83-191
10768|A||Temmink,J.H.M., P.J. Bouwmeister, P. De Jong, and J.H.J. Van den Berg|An Ultrastructural Study of Chromate-Induced Hyperplasia in the Gill of Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.4(2): 165-179|1983|10.1016/0166-445X(83)90053-X
10769|A||Tort,L., P. Torres, and J. Hidalgo|Short-Term Cadmium Effects on Gill Tissue Metabolism|Mar. Pollut. Bull.15(12): 448-450|1984|10.1016/0025-326X(84)90145-0
10770|A||Unsal,M.|Transfer Pathways and Accumulation of Vanadium in the Crab Carcinus maenas|Mar. Biol.72(3): 279-282|1983|10.1007/BF00396833
10771|A||Voss,S.D., D.W. Shelton, and J.D. Hendricks|Effects of Dietary Aroclor 1254 and Cyclopropene Fatty Acids on Hepatic Enzymes in Rainbow Trout|Arch. Environ. Contam. Toxicol.11(1): 87-91|1982|10.1007/BF01055191
10772|A||Sodergren,A.|Transfer of PCB (Pentachlorobiphenyl) in a Simulated Aquatic Food Chain|Ecol. Bull.36:31-34|1984|
10773|A||Muramoto,S.|Influence of Complexans (NTA,EDTA) on the Toxicity of Nickel Chloride and Sulfate to Fish at high Concentrations|J. Environ. Sci. Health Part A Environ. Sci. Eng.18(6): 787-795|1983|10.1080/10934528309375142
10774|A||Calabrese,A., J.R. MacInnes, D.A. Nelson, R.A. Greig, and P.P. Yevich|Effects of Long-Term Exposure to Silver or Copper on Growth, Bioaccumulation and Histopathology in the Blue Mussel Mytilus edulis|Mar. Environ. Res.11(4): 253-274|1984|10.1016/0141-1136(84)90038-2
10775|A|OECDG|Phipps,G.L., and G.W. Holcombe|A Method for Aquatic Multiple Species Toxicant Testing: Acute Toxicity of 10 Chemicals to 5 Vertebrates and 2 Invertebrates|Environ. Pollut. A.38(2): 141-157|1985|10.1016/0143-1471(85)90073-X
10776|A||Stene,A., and S. Lonning|Effects of 2-Methylnaphthalene on Eggs and Larvae of Six Marine Fish Species|Sarsia69(3/4): 199-203|1984|10.1080/00364827.1984.10420607
10777|A||Larsson,A., and C. Haux|Altered Carbohydrate Metabolism in Fish Exposed to Sublethal Levels of Cadmium|J. Environ. Biol.3(2): 71-81|1982|
10778|A||Corbus,F.G.|Aquatic Weed Control with Endothall in a Salt River Project Canal|J. Aquat. Plant Manag.20:1-3|1982|
10779|A||Crossland,N.O., and C.J.M. Wolff|Fate and Biological Effects of Pentachlorophenol in Outdoor Ponds|Environ. Toxicol. Chem.4(1): 73-86|1985|10.1002/etc.5620040110
10780|A||Gupta,A.B., and A.K. Srivastava|Phenol Induced Changes in the Carbohydrate Metabolism of the Indian Catfish Heteropneustes fossilis|Environ. Biol. Fishes10(3): 221-224|1984|10.1007/BF00001130
10781|A||Hardy,J.T., D.D. Dauble, and L.J. Felice|Aquatic Fate of Synfuel Residuals: Bioaccumulation of Aniline and Phenol by the Freshwater Phytoplankter Scenedesmus quadricauda|Environ. Toxicol. Chem.4(1): 29-35|1985|10.1002/etc.5620040105
10782|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|"""Man and Biosphere"" - Studies on the Sikkim Himalayas.  Part 2:  Acute Toxicity of Mixed Copper-Zinc Solutions on Common Carp, Cyprinus carpio (Linn.)"|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(2): 131-135|1984|10.1002/aheh.19840120205
10783|A||Kikuchi,T., Y. Nagashima, and M. Chiba|Accumulation and Excretion of Permethrin by the Himedaka Oryzias latipes and Biological Significance of Accumulated Permethrin|Nippon Suisan Gakkaishi (Multiple Languages)50(1): 101-106|1984|10.2331/suisan.50.101
10784|A||Kimura,K.|Accumulation and Retention of Cesium-137 by the Common Goby|Nippon Suisan Gakkaishi (Multiple Languages)50(3): 481-487|1984|10.2331/suisan.50.481
10785|A||Leland,H.V., and J.L. Carter|Effects of Copper on Species Composition of Periphyton in a Sierra Nevada, California, Stream|Freshw. Biol.14(3): 281-296|1984|10.1111/j.1365-2427.1984.tb00041.x
10786|A||Tonogai,Y., S. Ogawa, Y. Ito, and M. Iwaida|Studies of the Syncopic Effect of Aniline Derivatives on Fish. I. The Problem Concerning the Determination of Median Lethal Concentration|Eisei Kagaku (Multiple Languages)29(5): 280-285|1983|
10787|A||Mane,U.H., S.R. Akarte, and D.V. Muley|Effect of Cythion-Malathion on Respiration in Three Freshwater Bivalve Molluscs From Godavari River Near Paithan|J. Environ. Biol.5(2): 71-80|1984|
10788|A||Mani,K., and P.K. Saxena|Effect of Safe Concentrations of Some Pesticides on Ovarian Recrudescence in the Freshwater Murrel, Channa punctatus (Bl.):  A Quantitative Study|Ecotoxicol. Environ. Saf.9(3): 241-249|1985|10.1016/0147-6513(85)90044-2
10789|A||Niimi,A.J., and L. Lowe-Jinde|Differential Blood Cell Ratios of Rainbow Trout (Salmo gairdneri) Exposed to Methylmercury and Chlorobenzenes|Arch. Environ. Contam. Toxicol.13(3): 303-311|1984|10.1007/BF01055281
10791|A||Rao,K.S.P., I.K.A. Sahib, and K.V.R. Rao|Methyl Parathion (O-O-Dimethyl O-4-Nitrophenyl Thiophosphate) Effects on Whole-Body and Tissue Respiration in the Teleost, Tilapia mossambica|Ecotoxicol. Environ. Saf.9(3): 339-345|1985|10.1016/0147-6513(85)90051-X
10792|A||Rombough,P.J., and E.T. Garside|Cadmium Toxicity and Accumulation in Eggs and Alevins of Atlantic Salmon, Salmo salar|Can. J. Zool.60(8): 2006-2014|1982|10.1139/z82-258
10793|A||Singh,S., and S. Sahai|Histopathological Changes in the Gills of Rasbora daniconius Induced by gamma-BHC|J. Environ. Biol.5(2): 65-69|1984|
10795|AT||West,S.D., R.O. Burger, G.M. Poole, and D.H. Mowrey|Bioconcentration and Field Dissipation of the Aquatic Herbicide Fluridone and Its Degradation Products in Aquatic Environments|J. Agric. Food Chem.31(3): 579-585|1983|10.1021/jf00117a028
10797|A||Abbasi,S.A., P.C. Nipaney, and R. Soni|Environmental Consequences of the Inhibition in the Hatching of Pupae of Aedes aegypti by Mercury, Zinc and Chromium - the Abnormal Toxicity of Zinc|Int. J. Environ. Stud.24(2): 107-114|1985|10.1080/00207238508710184
10798|A||Adams,N., K.H. Goulding, and A.J. Dobbs|Toxicity of Eight Water-Soluble Organic Chemicals to Selenastrum capricornutum: A Study of Methods for Calculating Toxic Values Using Different Growth Parameters|Arch. Environ. Contam. Toxicol.14(3): 333-345|1985|10.1007/BF01055411
10799|A||Back,C., A. LeBlanc, and A. Aubin|Effects of a Temephos Treatment Against Mosquito Larvae in Subarctic Quebec on the Drift of Aquatic Insects|Can. Entomol.115(6): 703-712|1983|10.4039/Ent115703-6
10800|A||Beaumont,A.R., and M.D. Budd|High Mortality of the Larvae of the Common Mussel at Low Concentrations of Tributyltin|Mar. Pollut. Bull.15(11): 402-405|1984|10.1016/0025-326X(84)90256-X
10801|A||Berg,D.J., and T.A. Burns|The Distribution of Aluminum in the Tissues of Three Fish Species|J. Freshw. Ecol.3(1): 113-120|1985|10.1080/02705060.1985.9665097
10802|A||Berglind,R.|The Effects of Cadmium on ALA-D Activity, Growth and Haemoglobin Content in the Water Flea, Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol.80(2): 407-410|1985|10.1016/0742-8413(85)90076-3
10803|A||Bhattacharya,S.|Toxicity of Carbofuran and Phenthoate in Channa punctatus and Anabas testudineus|J. Environ. Biol.6(2): 129-137|1985|
10804|A||Blasco,D., and H.L. Conway|Effect of Ammonium on the Regulation of Nitrate Assimilation in Natural Phytoplankton Populations|J. Exp. Mar. Biol. Ecol.61(2): 157-168|1982|10.1016/0022-0981(82)90005-3
10805|A||Bobra,A., W.Y. Shiu, and D. Mackay|Quantitative Structure-Activity Relationships for the Acute Toxicity of Chlorobenzenes to Daphnia magna|Environ. Toxicol. Chem.4(3): 297-305|1985|
10806|AT||Dalich,G.M., and R.E. Larson|A Comparative Study of the Hepatotoxicity of Monochlorobenzene in the Rainbow Trout (Salmo gairdnerii) and the Sprague-Dawley Rat|Comp. Biochem. Physiol. C Comp. Pharmacol.80(1): 115-122|1985|10.1016/0742-8413(85)90141-0
10807|A||Call,D.J., L.T. Brooke, M.L. Knuth, S.H. Poirier, and M.D. Hoglund|Fish Subchronic Toxicity Prediction Model for Industrial Organic Chemicals that Produce Narcosis|Environ. Toxicol. Chem.4(3): 335-341|1985|10.1002/etc.5620040308
10808|A||Collvin,L.|The Effect of Copper on Growth, Food Consumption and Food Conversion of Perch Perca fluviatilis L. Offered Maximal Food Rations|Aquat. Toxicol.6(2): 105-113|1985|10.1016/0166-445X(85)90010-4
10809|A||Cosper,E.M., C.F. Wurster, and R.G. Rowland|PCB Resistance Within Phytoplankton Populations in Polluted and Unpolluted Marine Environments|Mar. Environ. Res.12(3): 209-223|1984|10.1016/0141-1136(84)90004-7
10810|A||Cowgill,U.M., I.T. Takahashi, and S.L. Applegath|A Comparison of the Effect of Four Benchmark Chemicals on Daphnia magna and Ceriodaphnia dubia affinis Tested at Two Different Temperatures|Environ. Toxicol. Chem.4(3): 415-422|1985|
10811|A||Denison,M.S., J.E. Chambers, and J.D. Yarbrough|Short-Term Interactions between DDT and Endrin Accumulation and Elimination in Mosquitofish (Gambusia affinis)|Arch. Environ. Contam. Toxicol.14(3): 315-320|1985|10.1007/BF01055408
10812|A||Edmiston,C.E.,Jr., M. Goheen, G.W. Malaney, and W.L. Mills|Evaluation of Carbamate Toxicity: Acute Toxicity in a Culture of Paramecium multimicronucleatum upon Exposure to Aldicarb, Carbaryl, and Mexacarbate as Measured by Warburg Respirometry and Acute Plate Assay|Environ. Res.36(2): 338-350|1985|10.1016/0013-9351(85)90029-5
10813|AT||Glickman,A.H., S.D. Weitman, and J.J. Lech|Differential Toxicity of trans-Permethrin in Rainbow Trout and Mice  I.  Role of Biotransformation|Toxicol. Appl. Pharmacol.66(2): 153-161|1982|10.1016/0041-008X(82)90280-0
10814|A||Graney,R.L.,Jr., D.S. Cherry, and J.,Jr. Cairns|The Influence of Substrate, pH, Diet and Temperature upon Cadmium Accumulationin the Asiatic Clam (Corbicula fluminea) in Laboratory Artificial Streams|Water Res.18(7): 833-842|1984|10.1016/0043-1354(84)90267-7
10815|A||Graney,R.L.,Jr., D.S. Cherry, and J.,Jr. Cairns|Heavy Metal Indicator Potential of the Asiatic Clam (Corbicula fluminea) in Artificial Stream Systems|Hydrobiologia (Multiple Languages)102(2): 81-88|1983|10.1007/BF00006071
10816|A||Helson,B.V., and G.A. Surgeoner|Effect of Temperature and Stage of Development on Susceptibility of Aedes euedes and Aedes stimulans (Diptera: Culicidae) Larvae to Temephos|Can. Entomol.115(6): 623-628|1983|10.4039/Ent115623-6
10817|A||Hilmy,A.M., M.B. Shabana, and A.Y. Daabees|Bioaccumulation of Cadmium: Toxicity in Mugil cephalus|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 139-143|1985|10.1016/0742-8413(85)90105-7
10818|A||Hilmy,A.M., M.B. Shabana, and A.Y. Daabees|Effects of Cadmium Toxicity upon the In Vivo and In Vitro Activity of Proteins and Five Enzymes in Blood Serum and Tissue Homogenates of Mugil|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 145-153|1985|10.1016/0742-8413(85)90106-9
10819|A||Sastry,K.V., and A. DasGupta|Effect of Nuvacron on the Nutritive Value of Fresh Water Teleost Fish Channa punctatus|J. Environ. Biol.12(3): 243-248|1991|
10821|A||Khangarot,B.S.|Effect of Zinc on Acid Phosphatase Activity in the Gills of Channa punctatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(1): 103-105|1984|10.1002/aheh.19840120117
10823|A||Lahti,E., M. Harri, and O.V. Lindqvist|Uptake and Distribution of Radioiodine, and the Effect of Ambient Nitrate, in Some Fish Species|Comp. Biochem. Physiol. A Comp. Physiol.80(3): 337-342|1985|10.1016/0300-9629(85)90047-7
10824|A||Lay,J.P., W. Schauerte, A. Muller, W. Klein, and F. Korte|Long-Term Effects of 1,2,4-Trichlorobenzene on Freshwater Plankton in an Outdoor-Model-Ecosystem|Bull. Environ. Contam. Toxicol.34(5): 761-769|1985|10.1007/BF01609804
10825|A||Licht,L.E.|Uptake of 14C DDT by Wood Frog Embryos After Short Term Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 117-119|1985|10.1016/0742-8413(85)90100-8
10826|A||Lynch,T.R., H.E. Johnson, and W.J. Adams|Impact of Atrazine and Hexachlorobiphenyl on the Structure and Function of Model Stream Ecosystems|Environ. Toxicol. Chem.4(3): 399-413|1985|10.1002/etc.5620040315
10827|A||Maguire,R.J., P.T.S. Wong, and J.S. Rhamey|Accumulation and Metabolism of Tri-n-Butyltin Cation by a Green Alga, Ankistrodesmus falcatus|Can. J. Fish. Aquat. Sci.41(3): 537-540|1984|10.1139/f84-066
10828|A||McCarter,J.A., and M. Roch|Hepatic Metallothionein and Resistance to Copper in Juvenile Coho Salmon|Comp. Biochem. Physiol. C Comp. Pharmacol.74(1): 133-137|1983|10.1016/0742-8413(83)90164-0
10829|A||O'Connor,J.M., J.H. Samuelian, K.J. Salamon, and J.C. Pizza|Measurement of the Effect of Aroclor 1254 on the Respiration of Gammarus Using Potentiometric Respirometry|Water Res.19(5): 639-643|1985|10.1016/0043-1354(85)90070-3
10830|A|OECDG|Pawar,K.R., H.V. Ghate, and M. Katdare|Effect of Malathion on Embryonic Development of the Frog Microhyla ornata (Dumeril and Bibron)|Bull. Environ. Contam. Toxicol.31(2): 170-176|1983|10.1007/BF01607889
10831|A||Reddy,T.R., and N. Chari|Effect of Sub-Lethal Concentrations of Mercury and Copper on AIAT, AAT and GDHOF Fresh Water Mussel, Parreysia rugosa (G)|J. Environ. Biol.6(2): 67-70|1985|
10832|A||Robinson,A.G., and R.M. Dillaman|The Effects of Naphthalene on the Ultrastructure of the Hepatopancreas of the Fiddler Crab, Uca minax|J. Invertebr. Pathol.45(3): 311-323|1985|10.1016/0022-2011(85)90109-0
10833|AT||Anderson,L.W.J.|Control of Aquatic Weeds with Hexazinone|J. Aquat. Plant Manag.19:9-14|1981|
10834|A||Berk,S.G., J.H. Gunderson, and L.A. Derk|Effects of Cadmium and Copper on Chemotaxis of Marine and Freshwater Ciliates|Bull. Environ. Contam. Toxicol.34(1): 897-903|1985|10.1007/BF01609823
10835|A||Devineau,J., and C.A. Triquet|Patterns of Bioaccumulation of an Essential Trace Element (Zinc) and a Pollutant Metal (Cadmium) in Larvae of the Prawn Palaemon serratus|Mar. Biol.86(2): 139-143|1985|10.1007/BF00399019
10836|A||Dunbar,A.M., J.M. Lazorchak, and W.T. Waller|Acute and Chronic Toxicity of Sodium Selenate to Daphnia magna Straus|Environ. Toxicol. Chem.2(2): 239-244|1983|10.1002/etc.5620020211
10837|A||Fisher,N.S., P. Bjerregaard, and S.W. Fowler|Interactions of Marine Plankton with Transuranic Elements. 3. Biokinetics of Americium in Euphausiids|Mar. Biol.75(2-3): 261-268|1983|10.1007/BF00406011
10838|A||Fisher,N.S., P. Bjerregaard, and S.W. Fowler|Interactions of Marine Plankton with Transuranic Elements. 1. Biokinetics of Neptunium, Plutonium, Americium, and Californium in Phytoplankton|Limnol. Oceanogr.28(3): 432-447|1983|10.4319/lo.1983.28.3.0432
10839|A||Gupta,P.K., and V.S. Durve|Acute Toxicity of Piscicide Antimycin-A, Molluscicide Bayer-73 and Lampricide-3 Trifluoromethyl-4-Nitrophenol (TFM) to the Snail Viviparus bengalensis L|Arch. Hydrobiol.97(4): 540-550|1983|
10840|A||Hodson,P.V., B.R. Blunt, U. Borgmann, C.K. Minns, and S. McGaw|Effect of Fluctuating Lead Exposures on Lead Accumulation by Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.2(2): 225-238|1983|10.1002/etc.5620020210
10841|A||Klaine,S.J., and C.H. Ward|Growth-Optimized Algal Bioassays for Toxicity Evaluation|Environ. Toxicol. Chem.2(2): 245-249|1983|10.1002/etc.5620020212
10842|A||Lakota,S., A. Raszka, J. Roszkowski, S. Hlond, and F. Kozlowski|Toxic Effects of DDT, Lindane, and Toxaphene on the Fry of the Carp, Cyprinus carpio, as Revealed by an Acute Test|Folia Biol. (Krakow)31(1): 94-99|1983|
10843|A||Langston,W.J.|Availability of Arsenic to Estuarine and Marine Organisms:  A Field and Laboratory Evaluation|Mar. Biol.80(2): 143-154|1984|10.1007/BF02180181
10844|A||Mahanty,H.K., B.A. Fineran, and P.M. Gresshoff|Effects of Polychlorinated Biphenyls (Aroclor 1242) on the Ultrastructure of Certain Planktonic Algae|Bot. Gaz.144(1): 56-61|1983|10.1086/337344
10845|A||Peterson,R.H., J.L. Metcalfe, and S. Ray|Uptake of Cadmium by Eggs and Alevins of Atlantic Salmon (Salmo salar) as Influenced by Acidic Conditions|Bull. Environ. Contam. Toxicol.34(3): 359-368|1985|10.1007/BF01609746
10846|A||Post,S., and M.R. Wells|Metabolism of Aldrin by the Freshwater Planarian Phagocata gracilis|Bull. Environ. Contam. Toxicol.34(6): 871-875|1985|10.1007/BF01609819
10847|A||Rodgers,D.W., and F.W.H. Beamish|Water Quality Modified Uptake of Waterborne Methylmercury by Rainbow Trout, Salmo gaidneri|Can. J. Fish. Aquat. Sci.40(6): 824-828|1983|10.1139/f83-109
10849|A||Ruber,E., and K. Lafrance|Effects of Temephos on the Respiratory Rate of the Salt Marsh Amphipod, Gammarus mucronatus|Bull. Environ. Contam. Toxicol.31(2): 148-151|1983|10.1007/BF01607885
10850|A||Sastry,K.V., and K.M. Subhadra|In Vivo Effects of Cadmium on Some Enzyme Activities in Tissues of the Freshwater Catfish, Heteropneustes fossilis|Environ. Res.36(1): 32-45|1985|10.1016/0013-9351(85)90005-2
10851|A||Saxena,P.K., and K. Mani|Quantitative Study of Testicular Recrudescence in the Freshwater Teleost, Channa punctatus (Bl.) Exposed to Pesticides|Bull. Environ. Contam. Toxicol.34(4): 597-607|1985|10.1007/BF01609781
10852|A||Selby,D.A., J.M. Ihnat, and J.J. Messer|Effects of Subacute Cadmium Exposure on a Hardwater Mountain Stream Microcosm|Water Res.19(5): 645-655|1985|10.1016/0043-1354(85)90071-5
10853|A||Steele,C.W.|Acute Toxicity of Copper to Sea Catfish|Mar. Pollut. Bull.14(5): 168-170|1983|10.1016/0025-326X(83)90227-8
10854|A||Steele,C.W.|Comparison of the Behavioural and Acute Toxicity of Copper to Sheepshead, Atlantic Croaker and Pinfish|Mar. Pollut. Bull.14(11): 425-428|1983|10.1016/0025-326X(83)90448-4
10855|A||Subhadra, and K.V. Sastry|Alterations in the Rate of Intestinal Absorption of Some Nutrients due to Zinc in the Fresh Water Catfish, Heteropneustes fossilis|J. Environ. Biol.6(2): 139-146|1985|
10856|A||Takase,I., and H. Oyama|Uptake and Bioconcentration of Disulfoton and its Oxidation Compounds in Carp, Cyprinus carpio L|J. Pestic. Sci. (Multiple Languages)10(1): 47-53|1985|10.1584/jpestics.10.47
10857|A||Tan,W.H., and L.H. Lim|The Tolerance to and Uptake of Lead in the Green Mussel, Perna viridis (L.)|Aquaculture42(3/4): 317-332|1984|10.1016/0044-8486(84)90110-8
10858|A||Thompson,K.W., A.C. Hendricks, G.L. Nunn, and J.,Jr. Cairns|Ventilatory Responses of Bluegill Sunfish to Sublethal, Fluctuating Exposures to Heavy Metals (Zn++ and Cu++)|Water Resour. Bull.19(5): 719-727|1983|10.1111/j.1752-1688.1983.tb02794.x
10859|A||Watenpaugh,D.E., and T.L. Beitinger|Swimming Performance of Channel Catfish (Ictalurus punctatus) After Nitrite Exposure|Bull. Environ. Contam. Toxicol.34(5): 754-760|1985|10.1007/BF01609803
10860|A||Watenpaugh,D.E., and T.L. Beitinger|Oxygen Consumption in Fathead Minnows (Pimephales promelas) Following Acute Exposure to Water-Borne Selenium|Comp. Biochem. Physiol. C Comp. Pharmacol.80(2): 253-256|1985|10.1016/0742-8413(85)90051-9
10861|A||Watkins II,C.E., D.D. Thayer, and W.T. Haller|Toxicity of Adjuvants to Bluegill|Bull. Environ. Contam. Toxicol.34(1): 138-142|1985|10.1007/BF01609715
10862|A||Watling,H.R., and R.J. Watling|Sandy Beach Molluscs as Possible Bioindicators of Metal Pollution 2.  Laboratory Studies|Bull. Environ. Contam. Toxicol.31(3): 339-343|1983|10.1007/BF01608709
10863|A||Yasuno,M., Y. Sugaya, and T. Iwakuma|Effects of Insecticides on the Benthic Community in a Model Stream|Environ. Pollut. A.38(1): 31-43|1985|10.1016/0143-1471(85)90092-3
10864|A|OECDG|Schultz,T.W., and F.M. Applehans|Correlations for the Acute Toxicity of Multiple Nitrogen Substituted Aromatic Molecules|Ecotoxicol. Environ. Saf.10:75-85|1985|10.1016/0147-6513(85)90009-0
10865|A||Schultz,T.W., and B.A. Moulton|Structure-Activity Relationships of Selected Pyridines. I. Substituent Constant Analysis|Ecotoxicol. Environ. Saf.10:97-111|1985|10.1016/0147-6513(85)90011-9
10866|A||Adams,J.A.|Effect of PCB (Aroclor 1254) on Early Development and Mortality in Arbacia Eggs|Water Air Soil Pollut.20(1): 1-5|1983|10.1007/BF00279491
10867|A||Adams,J.A., and H.M. Haileselassie|The Effects of Polychlorinated Biphenyls (Aroclors 1016 and 1254) on Mortality, Reproduction, and Regeneration in Hydra oligactis|Arch. Environ. Contam. Toxicol.13(4): 493-499|1984|10.1007/BF01056264
10868|A||Akberali,H.B., M.J. Earnshaw, and K.R.M. Marriott|The Action of Heavy Metals on the Gametes of the Marine Mussel, Mytilus edulis (L.)-I. Copper-Induced Uncoupling of Respiration in the Unfertilized Egg|Comp. Biochem. Physiol. C Comp. Pharmacol.77(2): 289-294|1984|10.1016/0742-8413(84)90015-X
10869|A||Baker,R.J., M.D. Knittel, and J.L. Fryer|Susceptibility of Chinook Salmon, Oncorhynchus tshawytscha (Walbaum), and Rainbow Trout, Salmo gairdneri Richardson, to Infection with Vibrio anguillarum Following Sublethal Copper Exposure|J. Fish Dis.6(3): 267-275|1983|10.1111/j.1365-2761.1983.tb00076.x
10870|A||Bengtsson,B.E., L. Renberg, and M. Tarkpea|Molecular Structure and Aquatic Toxicity - an Example with C1-C13 Aliphatic Alcohols|Chemosphere13(5-6): 613-622|1984|10.1016/0045-6535(84)90198-X
10871|A||Berglind,R., and G. Dave|Acute Toxicity of Chromate, DDT, PCP, TPBS, and Zinc to Daphnia magna Cultured in Hard and Soft Water|Bull. Environ. Contam. Toxicol.33(1): 63-68|1984|10.1007/BF01625512
10872|A||Berry,C.R.J.|Toxicity of the Herbicides Diquat and Endothall to Goldfish|Environ. Pollut. A.34(3): 251-258|1984|10.1016/0143-1471(84)90120-X
10873|A||Brown,D.A., S.M. Bay, J.F. Alfafara, G.P. Hershelman, and K.D. Rosenthal|Detoxification/Toxification of Cadmium in Scorpionfish (Scorpaena guttata): Acute Exposure|Aquat. Toxicol.5(2): 93-107|1984|10.1016/0166-445X(84)90001-8
10874|A||Dutta,H.M., S.B. Lall, and A.Z. Haghighi|Methyl Mercury Induced Changes in the Serum Proteins of Bluegills - Lepomis macrochirus (Teleostei)|Ohio J. Sci.83(3): 119-122|1983|
10875|A||Elner,J.K., D.J. Wildish, and D.W. Johnston|Carbon-14 Assimilation by Algal Communities of Oligotrophic Ponds Treated with Formulated Aminocarb|Arch. Environ. Contam. Toxicol.11(6): 675-679|1982|10.1007/BF01059154
10876|A||Franco,P.J., K.L. Daniels, R.M. Cushman, and G.A. Kazlow|Acute Toxicity of a Synthetic Oil, Aniline and Phenol to Laboratory and Natural Populations of Chironomid (Diptera) Larvae|Environ. Pollut. A.34(4): 321-331|1984|10.1016/0143-1471(84)90110-7
10877|A||George,S.G., B.J.S. Pirie, and J.M. Frazier|Effects of Cadmium Exposure on Metal-Containing Amoebocytes of the Oyster Ostrea edulis|Mar. Biol.76(1): 63-66|1983|10.1007/BF00393056
10878|A||Hartley,D.M., and J.B. Johnston|Use of the Freshwater Clam Corbicula manilensis as a Monitor for Organochlorine Pesticides|Bull. Environ. Contam. Toxicol.31(1): 33-40|1983|10.1007/BF01608763
10879|A||Hilton,J.W., and P.V. Hodson|Effect of Increased Dietary Carbohydrate on Selenium Metabolism and Toxicity in Rainbow Trout (Salmo gairdneri)|J. Nutr.113(6): 1241-1248|1983|10.1093/jn/113.6.1241
10880|A||Hiraoka,Y., and H. Okuda|Time Course Study of Occurrence of Anomalies in Medaka's Centrum by Cadmium or Fenitrothion Emulsion|Bull. Environ. Contam. Toxicol.32(6): 693-697|1984|10.1007/BF01607558
10881|A||Huey,D.W., T.L. Beitinger, and M.C. Wooten|Nitrite-Induced Methemoglobin Formation and Recovery in Channel Catfish (Ictalurus punctatus) at Three Acclimation Temperatures|Bull. Environ. Contam. Toxicol.32(6): 674-681|1984|10.1007/BF01607555
10882|A||Kay,S.H., W.T. Haller, and L.A. Garrard|Effects of Heavy Metals on Water Hyacinths (Eichhornia crassipes (Mart.) Solms)|Aquat. Toxicol.5(2): 117-128|1984|10.1016/0166-445X(84)90003-1
10883|A||Kikuchi,R., Y. Takimoto, H. Yamada, and J. Miyamoto|Effect of Fenitrothion on Growth of a Green Alga, Chlorella vulgaris|J. Pestic. Sci. (Multiple Languages)9(2): 325-329|1984|10.1584/jpestics.9.325
10884|A||Kikuchi,R., T. Yasutaniya, Y. Takimoto, H. Yamada, and J. Miyamoto|Accumulation and Metabolism of Fenitrothion in Three Species of Algae|J. Pestic. Sci. (Multiple Languages)9(2): 331-337|1984|10.1584/jpestics.9.331
10885|A||Kulshrestha,S.K., and N. Arora|Effect of Sublethal Doses of Carbaryl and Endosulfan on the Skin of Channa striatus BL.|J. Environ. Biol.5(3): 141-147|1984|
10886|A||Laughlin,R., W. French, and H.E. Guard|Acute and Sublethal Toxicity of Tributyltin Oxide (TBTO) and Its Putative Environmental Product, Tributyltin Sulfide (TBTS) to Zoeal Mud Crabs, Rhithropanopeus harrisii|Water Air Soil Pollut.20(1): 69-79|1983|10.1007/BF00279499
10887|A||Mallison III,S.M., and R.E. Cannon|Effects of Pesticides on Cyanobacterium Plectonema boryanum and Cyanophage LPP-1|Appl. Environ. Microbiol.47(5): 910-914|1984|10.1128/aem.47.5.910-914.1984
10888|A||Oladimeji,A.A., S.U. Qadri, and A.S.W. DeFreitas|Measuring the Elimination of Arsenic by the Gills of Rainbow Trout (Salmo gairdneri) by Using a Two Compartment Respirometer|Bull. Environ. Contam. Toxicol.32(6): 661-668|1984|10.1007/BF01607553
10889|A||Omkar, and G.S. Shukla|Toxicity of the Herbicide 2,4-D-Na to Two Species of Freshwater Prawn of the Genus Macrobrachium|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(3): 285-289|1984|10.1002/aheh.19840120309
10890|A||Parker,J.G.|The Effects of Selected Chemicals and Water Quality on the Marine Polychaete Ophryotrocha diadema|Water Res.18(7): 865-868|1984|10.1016/0043-1354(84)90271-9
10891|A||Powell,J.H., and D.R. Fielder|Temperature and Toxicity of DDT to Sea Mullet (Mugil cephalus L.)|Mar. Pollut. Bull.13(7): 228-230|1982|10.1016/0025-326X(82)90343-5
10892|A||Powell,J.H., and D.R. Fielder|Temperature and Accumulation of DDT by Sea Mullet (Mugil cephalus L.)|Mar. Pollut. Bull.14(1): 17-20|1983|10.1016/0025-326X(83)90089-9
10893|A||Sastry,K.V., and A.A. Siddiqui|Some Hematological, Biochemical, and Enzymological Parameters of a Fresh-Water Teleost Fish, Channa punctatus, Exposed to Sublethal Concentrations|Pestic. Biochem. Physiol.22(1): 8-13|1984|10.1016/0048-3575(84)90003-8
10894|A||Schulz-Baldes,M., E. Rehm, and H. Farke|Field Experiments on the Fate of Lead and Chromium in an Intertidal Benthic Mesocosm, the Bremerhaven Caisson|Mar. Biol.75(2-3): 307-318|1983|10.1007/BF00406017
10895|A||Phlips,E.J., P. Hansen, and T. Velardi|Effect of the Herbicide Diquat on the Growth of Microalgae and Cyanobacteria|Bull. Environ. Contam. Toxicol.49(5): 750-756|1992|10.1007/BF00200790
10896|A||Shukla,J.P., and K. Pandey|Altered Nucleic Acids Metabolism in the Ovary Exposed Under Arsenic Stress in a Fresh-Water Fish, Colisa fasciatus (Bl U. Sch.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(2): 217-219|1984|10.1002/aheh.19840120216
10897|A||Fisher,S.W., and R.W. Wadleigh|Effects of Temperature on the Acute Toxicity and Uptake of Lindane by Chironomus riparius (Meigen) (Diptera: Chironomidae)|J. Econ. Entomol.78(6): 1222-1226|1985|10.1093/jee/78.6.1222
10898|A||Singh,D.K., and R.A. Agarwal|In Vivo and In Vitro Studies on Synergism with Anticholinesterase Pesticides in the Snail Lymnaea acuminata|Arch. Environ. Contam. Toxicol.12(4): 483-487|1983|10.1007/BF01057593
10899|A||Stromgren,T.|Effect of Heavy Metals (Zn, Hg, Cu, Cd, Pb, Ni) on the Length Growth of Mytilus edulis|Mar. Biol.72(1): 69-72|1982|10.1007/BF00393949
10900|A||Sullivan,B.K., E. Buskey, D.C. Miller, and P.J. Ritacco|Effects of Copper and Cadmium on Growth, Swimming and Predator Avoidance in Eurytemora affinis (Copepoda)|Mar. Biol.77(3): 299-306|1983|10.1007/BF00395819
10901|A||Tucker,C.S., J.R. MacMillan, and T.E. Schwedler|Influence of Edwardsiella ictaluri Septicemia on Nitrite-Induced Methemoglobinemia in Channel Catfish (Ictalurus punctatus)|Bull. Environ. Contam. Toxicol.32(6): 669-673|1984|10.1007/BF01607554
10902|A||Verma,S.R., S. Rani, and R.C. Dalela|Effects of Sodium Pentachlorophenate on Enzymes of Energy Metabolism in Tissues of Notopterus notopterus|Toxicol. Lett.10:297-302|1982|10.1016/0378-4274(82)90091-1
10903|A||Schultz,T.W., and G.W. Riggin|Predictive Correlations for the Toxicity of Alkyl- and Halogen-Substituted Phenols|Toxicol. Lett.25:47-54|1985|10.1016/0378-4274(85)90099-2
10904|A||Anderson,L.M., J.H. Nelson, C. Thies, and M.V. Meisch|Evaluation of a Controlled-Release Silicate Formulation of Temephos Against Aedes aegypti Larvae in the Laboratory and Psorophora columbiae Larvae (Diptera:  Culicidae) in Rice Field Plots|J. Med. Entomol.20(3): 325-329|1983|10.1093/jmedent/20.3.325
10905|A||Bengtsson,B.E., and M. Tarkpea|The Acute Aquatic Toxicity of Some Substances Carried by Ships|Mar. Pollut. Bull.14(6): 213-214|1983|10.1016/0025-326X(83)90253-9
10906|A||Berglind,R., G. Dave, and M.L. Sjobeck|The Effects of Lead on Delta-Aminolevulinic Acid Dehydratase Activity, Growth, Hemoglobin Content, and Reproduction in Daphnia magna|Ecotoxicol. Environ. Saf.9(2): 216-229|1985|10.1016/0147-6513(85)90024-7
10907|A||Bhagyalakshmi,A., P.S. Reddy, and R. Ramamurthi|Muscle Nitrogen Metabolism of Freshwater Crab, Oziotelphusa senex senex Fabricius, During Acute and Chronic Sumithion intoxication|Toxicol. Lett.17(1-2): 89-93|1983|10.1016/0378-4274(83)90041-3
10908|A||Davis,K.B., N.C. Parker, and M.A. Suttle|Plasma Corticosteroids and Chlorides in Striped Bass Exposed to Tricaine Methanesulfonate, Quinaldine, Etomidate, and Salt|Prog. Fish-Cult.44(4): 205-207|1982|10.1577/1548-8659(1982)44[205:PCACIS]2.0.CO;2
10909|A||Desai,A.K., U.M. Joshi, and P.M. Ambadkar|Histological Observations on the Liver of Tilapia mossambica After Exposure to Monocrotophos, an Organophosphorus Insecticide|Toxicol. Lett.21(3): 325-331|1984|10.1016/0378-4274(84)90092-4
10910|A||Dubale,M.S., and M. Awasthi|Biochemical Changes in the Liver and Kidney of a Catfish Heteropneustes fossilis Exposed to Dimethoate|Comp. Physiol. Ecol.7(2): 111-114|1982|
10911|A||Engel,D.W.|The Intracellular Partitioning of Trace Metals in Marine Shellfish|Sci. Total Environ.28:129-140|1983|10.1016/S0048-9697(83)80013-8
10912|A||Gluth,G., and W. Hanke|A Comparison of Physiological Changes in Carp, Cyprinus carpio, Induced by Several Pollutants at Sublethal Concentrations. I. The Dependency on Exposure Time|Ecotoxicol. Environ. Saf.9(2): 179-188|1985|10.1016/0147-6513(85)90020-X
10913|A||Gupta,S., R.C. Dalela, and P.K. Saxena|Influence of Temperature on the Toxicity of Phenol and Its Chloro- and Nitro-Derivatives to the Fish Notopterus notopterus (Pallas)|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(2): 187-192|1983|10.1002/aheh.19830110207
10914|A||Katti,S.R., and A.G. Sathyanesan|Cadmium-Induced Inhibition of Brain Monoamine Oxidase in the Freshwater Catfish|Experientia40(6): 576-577|1984|10.1007/BF01982339
10915|A||Keen,R., and C.R. Baillod|Toxicity to Daphnia of the End Products of Wet Oxidation of Phenol and Substituted Phenols|Water Res.19(6): 767-772|1985|10.1016/0043-1354(85)90125-3
10916|A||Khummongkol,D., G.S. Canterford, and C. Fryer|Accumulation of Heavy Metals in Unicellular Algae|Biotechnol. Bioeng.24(12): 2643-2660|1982|10.1002/bit.260241204
10917|A||Lewis,M.A.|Effect of Loading Density on the Acute Toxicities of Surfactants, Copper, and Phenol to Daphnia magna Straus|Arch. Environ. Contam. Toxicol.12(1): 51-55|1983|10.1007/BF01055001
10918|A||Moorthy,K.S., B.K. Reddy, K.S. Swami, and C.S. Chetty|Changes in Respiration and Ionic Content in Tissues of Freshwater Mussel Exposed to Methyl Parathion Toxicity|Toxicol. Lett.21(3): 287-291|1984|10.1016/0378-4274(84)90085-7
10919|A||Nelson,D.A., A. Calabrese, R.A. Greig, P.P. Yevich, and S. Chang|Long-Term Silver Effects on the Marine Gastropod Crepidula fornicata|Mar. Ecol. Prog. Ser.12(2): 155-165|1983|10.3354/meps012155
10920|A||Niederlehner,B.R., A.L.,Jr. Buikema, C.A. Pittinger, and J.,Jr. Cairns|Effects of Cadmium on the Population Growth of a Benthic Invertebrate Aeolosoma headleyi (Oligochaeta)|Environ. Toxicol. Chem.3(2): 255-262|1984|10.1002/etc.5620030208
10921|A||Oikari,A., B. Holmbom, and H. Bister|Uptake of Resin Acids into Tissues of Trout (Salmo gairdneri Richardson)|Ann. Zool. Fennici19(1): 61-64|1982|
10922|A||Pawar,K.R., and M. Katdare|Toxic and Teratogenic Effects of Fenitrothion, BHC and Carbofuran on Embryonic Development of the Frog Microhyla ornata|Toxicol. Lett.22(1): 7-13|1984|10.1016/0378-4274(84)90038-9
10923|A||Pickering,A.D., and T.G. Pottinger|Acclimation of the Brown Trout, Salmo trutta L., to the Stress of Daily Exposure to Malachite Green|Aquaculture44(2): 145-152|1985|10.1016/0044-8486(85)90017-1
10924|A||Pieterse,A.H., and F.A. Roorda|Synergistic Effect of Gibberellic Acid and Chlorflurenol on 2,4-D with Regard to Water Hyacinth (Eichhornia Crassipes) Control|Aquat. Bot.13(1): 69-72|1982|10.1016/0304-3770(82)90041-9
10925|A||Reading,J.T., and A.L.,Jr. Buikema|Chronic Effects of Selenite-Selenium on Daphnia pulex|Arch. Environ. Contam. Toxicol.12(4): 399-404|1983|10.1007/BF01057582
10926|A||Awasthi,A.K., and S. Singh|Effects of DDT and BHC on Green Algae Spirogyra cylindrica|Environ. Ecol.5(4): 814-815|1987|
10927|A||Sanders,J.G., and S.J. Cibik|Adaptive Behavior of Euryhaline Phytoplankton Communities to Arsenic Stress|Mar. Ecol. Prog. Ser.22(2): 199-205|1985|10.3354/meps022199
10928|A||Saxena,P.K., and K. Mani|Protein-Bound Iodine Levels in the Blood Plasma of Freshwater Teleost, Channa punctatus (Bl.) Exposed to Subtoxic Pesticide Concentrations|Toxicol. Lett.24(1): 33-36|1985|10.1016/0378-4274(85)90136-5
10929|A||Schuytema,G.S., P.O. Nelson, K.W. Malueg, A.V. Nebeker, D.F. Krawczyk, and A.K. Ratcliff|Toxicity of Cadmium in Water and Sediment Slurries to Daphnia magna|Environ. Toxicol. Chem.3(2): 293-308|1984|10.1897/1552-8618(1984)3[293:TOCIWA]2.0.CO;2
10930|A||Shelton,D.W., J.D. Hendricks, and G.S. Bailey|The Hepatocarcinogenicity of Diethylnitrosamine to Rainbow Trout and Its Enhancement by Aroclors 1242 and 1254|Toxicol. Lett.22(1): 27-31|1984|10.1016/0378-4274(84)90041-9
10931|A||Shires,S.W., and D. Bennett|Contamination and Effects in Freshwater Ditches Resulting from an Aerial Application of Cypermethrin|Ecotoxicol. Environ. Saf.9(2): 145-158|1985|10.1016/0147-6513(85)90017-X
10932|A||Shukla,J.P., and K. Pandey|Impaired Spermatogenesis in Arsenic Treated Freshwater Fish, Colisa fasciatus (Bl. and Sch.)|Toxicol. Lett.21(2): 191-195|1984|10.1016/0378-4274(84)90205-4
10933|A||U'Ren,S.C.|Acute Toxicity of bis(Tributyltin) oxide to a Marine Copepod|Mar. Pollut. Bull.14(8): 303-306|1983|10.1016/0025-326X(83)90540-4
10934|A||Vardia,H.K., P.S. Rao, and V.S. Durve|Sensitivity of Toad Larvae to 2,4-D and Endosulfan Pesticides|Arch. Hydrobiol.100(3): 395-400|1984|
10935|A||Zaroogian,G.E., and M. Johnson|Chromium Uptake and Loss in the Bivalves Crassostrea virginica and Mytilus edulis|Mar. Ecol. Prog. Ser.12(2): 167-173|1983|10.3354/meps012167
10936|A|OECDG|Knie,J., A. Halke, I. Juhnke, and W. Schiller|Results of Studies on Chemical Substances with Four Biotests (Ergebnisse der Untersuch-Ungen von Chemischen Stoffen mit vier Biotests)|Dtsch. Gewaesserkd. Mitt.27(3): 77-79|1983|
10937|A||Mahendru,V.K., and R.A. Agarwal|Phorate and Mexacarbate Induced Changes in Enzymes of the Snail, Lymnaea acuminata|Arch. Environ. Contam. Toxicol.12(1): 77-82|1983|10.1007/BF01055005
10938|A||Marking,L.L., and T.D. Bills|Effects of Contaminants on Toxicity of the Lampricides TFM and Bayer 73 to Three Species of Fish|J. Great Lakes Res.11(2): 171-178|1985|10.1016/S0380-1330(85)71756-X
10939|A||Nagashima,Y., K. Shiomi, H. Yamanaka, and T. Kikuchi|Accumulation of Mercury by Tissues in the Short-Necked Clam Tapes japonica|Nippon Suisan Gakkaishi (Multiple Languages)49(5): 801-804|1983|10.2331/suisan.49.801
10940|A||Kobayashi,K., Y. Nakamura, and N. Imada|Metabolism of an Organophosphorus Insecticide, Fenitrothion, in Tiger Shrimp Penaeus japonicus|Nippon Suisan Gakkaishi (Multiple Languages)51(4): 599-603|1985|10.2331/suisan.51.599
10941|A||Sastry,K.V., A.A. Siddiqui, and S.K. Singh|Alteration in Some Biochemical and Enzymological Parameters in the Snake Head Fish Channa punctatus, Exposed Chronically to Quinalphos|Chemosphere11(12): 1211-1216|1982|10.1016/0045-6535(82)90035-2
10942|A||Sastry,K.V., and D.R. Rao|Chronic Effects of Mercuric Chloride on the Activities of Some Enzymes in Certain Tissues of the Fresh Water Murrel, Channa punctatus|Chemosphere11(12): 1203-1209|1982|10.1016/0045-6535(82)90034-0
10943|A||Rao,K.J., C. Madhu, V.A. Rao, and V.S.R. Murthy|Phosphamidon Toxicity to Fresh Water Fish, Sarotherodon mossambicus (Trevawas)|J. Environ. Biol.5(3): 157-163|1984|
10944|A||Pinkney,A.E., L.W.,Jr. Hall, M.J. Lenkevich, D.T. Burton, and S. Zeger|Comparison of Avoidance Responses of an Estuarine Fish, Fundulus heteroclitus,and Crustacean, Palaemonetes pugio, to Bis (Tri-N-Butyltin) Oxide|Water Air Soil Pollut.25(1): 33-40|1985|10.1007/BF00159623
10945|A||McKee,M.J., A.C. Hendricks, and R.E. Ebel|Effects of Naphthalene on Benzo(a)pyrene Hydroxylase and Cytochrome P-450 in Fundulus heteroclitus|Aquat. Toxicol.3(2): 103-114|1983|10.1016/0166-445X(83)90032-2
10946|A||Dawson,M.A.|Effects of Long-Term Mercury Exposure on Hematology of Striped Bass, Morone saxatilis|Fish. Bull.80(2): 389-392|1982|
10947|A||Everard,M., and P. Denny|Flux of Lead in Submerged Plants and Its Relevance to a Freshwater System|Aquat. Bot.21(2): 181-193|1985|10.1016/0304-3770(85)90088-9
10948|A||Giesy,J.P., A. Newell, and G.J. Leversee|Copper Speciation in Soft, Acid, Humic Waters:  Effects on Copper Bioaccumulation by and Toxicity to Simocephalus serrulatus (Daphnidae)|Sci. Total Environ.28:23-36|1983|10.1016/S0048-9697(83)80005-9
10949|A||Hardy,J.K., and D.H. O'Keeffe|Cadmium Uptake by the Water Hyacinth: Effects of Root Mass, Solution Volume, Complexers and Other Metal Ions|Chemosphere14(5): 417-426|1985|10.1016/0045-6535(85)90236-X
10950|A||Jessiman,B.J., and S.U. Qadri|Bioaccumulation Kinetics of the Organochlorine Pesticide Mirex in Amphipods|Ecotoxicol. Environ. Saf.7(3): 295-305|1983|10.1016/0147-6513(83)90074-X
10951|A||Natarajan,G.M.|Disruption of Circadian Rhythm of Tissue Respiration in Channa striatus by Metasystox|Experientia41(5): 612-614|1985|10.1007/BF02007683
10953|A||Rao,D.V.S., and P.A. Yeats|Effect of Iron on Phytoplankton Production in the Sargasso Sea|J. Exp. Mar. Biol. Ecol.81(3): 281-289|1984|10.1016/0022-0981(84)90147-3
10954|A|OECDG|Holcombe,G.W., G.L. Phipps, M.L. Knuth, and T. Felhaber|The Acute Toxicity of Selected Substituted Phenols, Benzenes and Benzoic Acid Esters to Fathead Minnows Pimephales promelas|Environ. Pollut. A.35(4): 367-381|1984|10.1016/0143-1471(84)90081-3
10955|A||Bias,R., and L. Karbe|Bioaccumulation and Partitioning of Cadmium Within the Freshwater Mussel Dreissena polymorpha Pallas|Int. Rev. Gesamten Hydrobiol.70(1): 113-125|1985|10.1002/iroh.19850700110
10956|A||Anderson,R.L., and P. Shubat|Toxicity of Flucythrinate to Gammarus lacustris (Amphipoda), Pteronarcys dorsata (Plecoptera) and Brachycentrus americanus (Trichoptera)|Environ. Pollut. A.35(4): 353-365|1984|10.1016/0143-1471(84)90080-1
10957|A||Goel,K.A., S.K. Tyagi, and A.K. Awasthi|Effect of Malathion on Some Haematological Values in Heteropneustes fossilis|Comp. Physiol. Ecol.7(4): 259-261|1982|
10958|A||Dubale,M.S., and P. Shah|Toxic Effect of Malathion on the Kidney of a Fresh Water Teleost Channa punctatus|Comp. Physiol. Ecol.9(3): 238-244|1984|
10959|A||Adamek,Z., J. Jirasek, D. Pravda, and J. Petr|Acute and Chronic Toxicity of the Avenge 200 (Difenzoquat) Herbicide for Carp Fry|Zivoc. Vyroba (Multiple Languages)29(11): 1015-1020|1984|
10960|A||Bradbury,S.P., J.R. Coats, and J.M. McKim|Differential Toxicity and Uptake of Two Fenvalerate Formulations in Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.4(4): 533-541|1985|10.1002/etc.5620040413
10961|A||Cancalon,P.|Influence of a Detergent on the Catfish Olfactory Mucosa|Tissue Cell15(2): 245-258|1983|10.1016/0040-8166(83)90020-4
10962|A||Erben,R.|The Effect of Phenol and Its Accumulation on Snails Physa fontinalis L. and Radix peregra Mull. (Pulmonata)|Period. Biol.84(4): 403-410|1982|
10963|A||Gavasheli,T.V., V.B. Akopyan, and S.N. Makarov|Ultrasound Resistance of Fish Erythrocytes in Mercury Poisoning|Sov. Agric. Sci.7:56-58|1982|
10964|A||Hekman,W.E., K. Budd, G.R. Palmer, and J.D. MacArthur|Responses of Certain Freshwater Planktonic Algae to Fluoride|J. Phycol.20(2): 243-249|1984|10.1111/j.0022-3646.1984.00243.x
10965|A||Hodgson,A.N., and M. Hoebeke|Short-Term Behavioural Responses of Perna perna (Mollusca:  Bivalvia) Subjected to Copper Concentrations|Trans. R. Soc. S. Afr.45(P2): 177-186|1984|10.1080/00359198409519481
10966|A||Kerster,H.W., and D.J. Schaeffer|Brine Shrimp (Artemia salina) Nauplii as a Teratogen Test System|Ecotoxicol. Environ. Saf.7(3): 342-349|1983|10.1016/0147-6513(83)90079-9
10967|A||Laegreid,M., J. Alstad, D. Klaveness, and H.M. Seip|Seasonal Variation of Cadmium Toxicity Toward the Alga Selenastrum capricornutum Printz in Two Lakes with Different Humus Content|Environ. Sci. Technol.17(6): 357-361|1983|10.1021/es00112a010
10968|A||Lay,J.P., A. Muller, L. Peichl, W. Klein, and F. Korte|Long-Term Effects of the Herbicides Atrazine and Dichlobenil upon the Phytoplankton Density and Physico-chemical Conditions in Compartments of a Freshwater Pond|Chemosphere13(7): 821-832|1984|10.1016/0045-6535(84)90184-X
10969|A||McGinty,A.S.|Effects of Periodic Applications of Simazine on the Production of Tilapia nilotica Fingerlings|J. Agric. Univ. P. R.68(4): 467-469|1984|10.46429/jaupr.v68i4.7316
10970|A||Milner,N.J.|The Accumulation of Zinc by O-Group Plaice, Pleuronectes platessa (L.), from high Concentrations in Sea Water and Food|J. Fish Biol.21(3): 325-336|1982|10.1111/j.1095-8649.1982.tb02838.x
10971|A||Mulla,M.S., H.A. Darwazeh, and L. Ede|Evaluation of New Pyrethroids Against Immature Mosquitoes and Their Effects on Nontarget Organisms|Mosq. News42(4): 583-590|1982|
10972|A||Nagel,R.|Species Differences, Influence of Dose and Application on Biotransformation of Phenol in Fish|Xenobiotica13(2): 101-106|1983|10.3109/00498258309052243
10973|A||Redpath,K.J.|Growth Inhibition and Recovery in Mussels (Mytilus edulis) Exposed to Low Copper Concentrations|J. Mar. Biol. Assoc. U.K.65(2): 421-431|1985|10.1017/S0025315400050529
10974|A||Scarfe,A.D., K.A. Jones, C.W. Steele, H. Kleerekoper, and M. Corbett|Locomotor Behavior of Four Marine Teleosts in Response to Sublethal Copper Exposure|Aquat. Toxicol.2(5/6): 335-353|1982|10.1016/0166-445X(82)90020-0
10975|A||Seuge,J., and R. Bluzat|Acute Toxicity of a Dithiocarbamate Fungicide, Thiram, in Larvae of the Mayfly, Cloeon dipterum - Effects of Various Parameters|Hydrobiologia (Multiple Languages)101(3): 215-221|1983|10.1007/BF00009877
10976|A||Simon,L.M., J. Nemcsok, and L. Boross|Studies on the Effect of Paraquat on Glycogen Mobilization in Liver of Common Carp (Cyprinus carpio L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 167-169|1983|10.1016/0742-8413(83)90028-2
10977|A||Spacie,A., P.F. Landrum, and G.J. Leversee|Uptake, Depuration, and Biotransformation of Anthracene and Benzo(a)pyrene in Bluegill Sunfish|Ecotoxicol. Environ. Saf.7(3): 330-341|1983|10.1016/0147-6513(83)90078-7
10978|A||Stokes,P.M., T.C. Hutchinson, and K. Krauter|Heavy-Metal Tolerance in Algae Isolated from Contaminated Lakes near the Sudbury, Ontario|Can. J. Bot.51:2155-2168|1973|10.1139/b73-278
10979|A||Tort,L., R. Flos, and J. Balasch|Dogfish Liver and Kidney Tissue Respiration After Zinc Treatment|Comp. Biochem. Physiol. C Comp. Pharmacol.77(2): 381-384|1984|10.1016/0742-8413(84)90032-X
10980|A||Otto,N.E., J.C. Pringle, and D. Sisneros|Herbicidal Residues and Environmental Effects From the Experimental Application of Two 2,4-D Formulations to Control Eurasian Watermilfoil|REC-ERC-83-1, U.S.D.I., Bureau of Reclamation, Engineering and Research Center, Denver, CO:97-|1983|
10981|A||Haider,G., and W. Wunder|Experiments with Young Spawners of Rainbow Trout (Salmo gairdneri Rich.) to Evaluate Vertebral and Muscular Damage After Long-Time Exposure to Heavy Metals (Zinc) (Langzeit versuche mit Junglaichern der Regenbogenforell|Zool. Anz. (Multiple Languages)210(5-6): 296-314|1983|
10982|A||Grande,M., and S. Andersen|Lethal Effects of Hexavalent Chromium, Lead and Nickel on Young Stages of Atlantic Salmon (Salmo salar L.) in Soft Water|Vatten39(4): 405-416|1983|
10983|A||Tulasi,S.J., R. Yasmeen, and J.V.R. Rao|Biochemical Changes in the Haemolymph of the Freshwater Field Crab, Barytelphusa guerini on Exposure to Organic and Inorganic Lead|J. Environ. Biol.13(3): 261-271|1992|
10984|A||DeNoyelles,F., W.D. Kettle, and D.E. Sinn|The Responses of Plankton Communities in Experimental Ponds to Atrazine, the Most Heavily Used Pesticide in the United States|Ecology63(5): 1285-1293|1982|10.2307/1938856
10985|A||Depledge,M.H.|Disruption of Endogenous Rhythms in Carcinus maenas (L.) Following Exposure to Mercury Pollution|Comp. Biochem. Physiol. A Comp. Physiol.78(2): 375-379|1984|10.1016/0300-9629(84)90164-6
10986|A||Watenpaugh,D.E., and T.L. Beitinger|Absence of Selenate Avoidance by Fathead Minnows (Pimephales promelas)|Water Res.19(7): 923-926|1985|10.1016/0043-1354(85)90152-6
10987|A||Winner,R.W.|Bioaccumulation and Toxicity of Copper as Affected by Interactions Between Humic Acid and Water Hardness|Water Res.19(4): 449-455|1985|10.1016/0043-1354(85)90036-3
10988|A||Hesslein,R.H., and E. Slavicek|Geochemical Pathways and Biological Uptake of Radium in Small Canadian Shield Lakes|Can. J. Fish. Aquat. Sci.41(3): 459-468|1984|10.1139/f84-055
10989|A||Fisher,N.S.|Bioaccumulation of Technetium by Marine Phytoplankton|Environ. Sci. Technol.16(9): 579-581|1982|10.1021/es00103a008
10990|A||Bariaud,A., and J.C. Mestre|Heavy Metal Tolerance in a Cadmium-Resistant Population of Euglena gracilis|Bull. Environ. Contam. Toxicol.32(5): 597-601|1984|10.1007/BF01607543
10991|A||Gupta,S.|Effects of Phenol, Dinitrophenol and Pentachlorophenol on Oxygen Uptake of Notopterus notopterus (Pallas)|J. Environ. Biol.5(3): 125-133|1984|
10992|A||Borgmann,U., and K.M. Ralph|Copper Complexation and Toxicity to Freshwater Zooplankton|Arch. Environ. Contam. Toxicol.13(4): 403-409|1984|10.1007/BF01056255
10993|A||McDonald,P.T., and S.M. Asman|A Genetic-Sexing Strain Based on Malathion Resistance for Culex tarsalis|Mosq. News42(4): 531-536|1982|
10994|A||Szczepanik-Van Leeuwen,P.A., and W.R. Penrose|Functional Properties of a Microcosm of the Freshwater Benthic Zone and the Effects of 2,4-Dichlorophenol|Arch. Environ. Contam. Toxicol.12(4): 427-437|1983|10.1007/BF01057586
10995|A||Krous,S.R., V.S. Blazer, and T.L. Meade|"Effect of Acclimation Time on Nitrite Movement Across the Gill Epithelia of Rainbow Trout: The Role of ""Chloride Cells"""|Prog. Fish-Cult.44(3): 126-130|1982|10.1577/1548-8659(1982)44[126:EOATON]2.0.CO;2
10996|A||Watkins,C.H., and R.S. Hammerschlag|The Toxicity of Chlorine to a Common Vascular Aquatic Plant|Water Res.18(8): 1037-1043|1984|10.1016/0043-1354(84)90256-2
10997|AT||Hardy,J.T., M.F. Sullivan, E.A. Crecelius, and C.W. Apts|Transfer of Cadmium in a Phytoplankton-Oyster-Mouse Food Chain|Arch. Environ. Contam. Toxicol.13(4): 419-425|1984|10.1007/BF01056257
10998|A||Zaroogian,G.E., and M. Johnson|Nickel Uptake and Loss in the Bivalves Crassostrea virginica and Mytilus edulis|Arch. Environ. Contam. Toxicol.13(4): 411-418|1984|10.1007/BF01056256
10999|A||Sheffrin,N.M.H., and E.E. Williams|A Behavioural Bioassay for Impaired Sea-Water Quality Using the Plantigrades of the Common Mussel Mytilus edulis L.: The Effect of pH on Copper Speciation and Toxicity|Aquat. Toxicol.5(2): 109-116|1984|10.1016/0166-445X(84)90002-X
11000|A||Al-Khatib,Z.I.|Isolation of an Organophosphate Susceptible Strain of Culex quinquefasciatus from a Resistant Field Population by Discrimination Against Esterase-2 Phenotypes|Am. Mosq. Control Assoc. J.1(1): 105-107|1985|
11001|A||Ward,G.S., and L. Ballantine|Acute and Chronic Toxicity of Atrazine to Estuarine Fauna|Estuaries8(1): 22-27|1985|10.2307/1352118
11002|A||Thain,J.E.|Effects of Mercury on the Prosobranch Mollusc Crepidula fornicata: Acute Lethal Toxicity and Effects on Growth and Reproduction of Chronic Exposure|Mar. Environ. Res.12(4): 285-309|1984|10.1016/0141-1136(84)90055-2
11003|A||Pandey,A.K., V. Srivastava, and D.N. Tiwari|Toxicity of the Herbicide Stam F-34 (Propanil) on Nostoc calcicola|Z. Allg. Mikrobiol.24(6): 369-376|1984|
11004|A||Shukla,L., A. Shrivastava, D. Merwani, and A.K. Pandey|Effect of Sublethal Malathion on Ovarian Histophysiology in Sarotherodon mossambicus|Comp. Physiol. Ecol.9(1): 13-17|1984|
11005|A||Mahendru,V.K., and R.A. Agarwal|Changes Induced by Phorate in the Carbohydrate Metabolism of the Snail Lymnaea acuminata|Pestic. Sci.13(6): 611-616|1982|10.1002/ps.2780130607
11006|A||Johnson,G.D., and M.S. Mulla|Suppression of Nuisance Aquatic Midges with a Urea Insect Growth Regulator|J. Econ. Entomol.75(2): 297-300|1982|10.1093/jee/75.2.297
11007|T||Das,P.K., and M. Kalyanasundaram|Evaluation of K-Othrine, a Synthetic Pyrethroid for Insecticidal Efficacy Against Mosquito Vectors|Indian J. Med. Res.80:74-77|1984|
11008|A||Buzinova,N.S., and O.V. Parina|Action of a Pollutant on Plastic Metabolism of Fish|C. A. Sel. Environ. Pollut.25:2-|1984|
11009|A||Kumar-Das,V.G., L.Y. Kuan, K.I. Sudderuddin, C.K. Chang, V. Thomas, C.K. Yap, M.K. Lo, G.C. Ong, W.K. Ng, and Y. Hoi-Se|The Toxic Effects of Triorganotin (IV) Compounds on the Culicine Mosquito, Aedes aegypti (L)|Toxicology32(1): 57-66|1984|10.1016/0300-483X(84)90034-9
11010|A||Shukla,G.S., and Omkar |Insecticide Toxicity to Macrobrachium lamarrei (H. Milne Edwards) (Decapoda, Palaemonidae)|Crustaceana  (Leiden)46(3): 283-287|1984|10.1163/156854084X00199
11011|A||Fisher,S.W., P. Stromberg, K.A. Bruner, and L.D. Boulet|Molluscicidal Activity of Potassium to the Zebra Mussel, Dreissena polymorphia: Toxicity and Mode of Action|Aquat. Toxicol.20:219-234|1991|10.1016/0166-445X(91)90061-D
11012|A||Prasad,K.S., K.S.P. Rao, I.K.A. Sahib, D. Sailatha, S. Sivaiah, S.M. Basha, and K.V.R. Rao|Effect of Methyl Parathion on the Body Fluid of the Snail, Pila globosa (Swainson)|Comp. Physiol. Ecol.7(4): 251-252|1982|
11013|A||Larsson,P.|Uptake of Sediment Released PCBs by the Eel Anguilla anguilla in Static Model Systems|Ecol. Bull.36:62-67|1984|
11014|A||Krishnakumari,L., P.K. Varshney, S.N. Gajbhiye, K. Govindan, and V.R. Nair|Toxicity of Some Metals on the Fish Therapon jarbua (Forsskal, 1775)|Indian J. Mar. Sci.12(1): 64-66|1983|
11015|A||Kulkarni,B.G., and V.B. Masurekar|Effects of Naphthalene Exposure on Blood Serum Enzyme Activities in the Crab Scylla serrata (Forskal)|Indian J. Mar. Sci.13(2): 97-98|1984|
11016|A||Wani,G.P., and A.N. Latey|Toxic Effects of Cadmium on the Liver of a Freshwater Teleost Garra mullya (Sykes)|Curr. Sci. (Bangalore)52(21): 1034-1035|1983|
11017|A||Sehgal,R., V. Tomar, and A.K. Pandey|Comparative Effects of Two Heavy Metallic Salts on the Testis of Viviparous Teleost, Lebistes reticulatus (Peters)|J. Environ. Biol.5(3): 185-192|1984|
11018|A||Coulon,D.P.|Toxicity of Ambush and Pydrin to Red Crawfish, Procambarus clarkii (Girard) and Channel Catfish, Ictalurus punctatus Rafinesque in Laboratory and Field Studies and the Accumulation and Dissipation of Associated Residues|Diss. Abstr. Int. B Sci. Eng.44(1): 36B|1983|
11019|A||Zoll,C., E. Saouter, A. Boudou, F. Ribeyre, and A. Jaylet|Genotoxicity and Bioaccumulation of Methyl Mercury and Mercuric Chloride In Vivo in the Newt Pleurodeles waltl|Mutagenesis3(4): 337-343|1988|10.1093/mutage/3.4.337
11020|A||Les,A., and R.W. Walker|Toxicity and Binding of Copper, Zinc, and Cadmium by the Blue-Green Alga, Chroococcus paris|Water Air Soil Pollut.23(2): 129-139|1984|10.1007/BF00206971
11021|A||Landrum,P.F.|Uptake, Depuration and Biotransformation of Anthracene by the Scud Pontoporeia hoyi|Chemosphere11(10): 1049-1057|1982|10.1016/0045-6535(82)90079-0
11022|A||Schenone,G., A. Arillo, C. Margiocco, F. Melodia, and P. Mensi|Biochemical Bases for Environmental Adaptation in Goldfish (Carassius auratus L.): Resistance to Ammonia|Ecotoxicol. Environ. Saf.6(5): 479-488|1982|10.1016/0147-6513(82)90029-X
11023|A||Galassi,S., D. Calamari, and F. Setti|Uptake and Release of p-Dichlorobenzene in Early Life Stages of Salmo gairdneri|Ecotoxicol. Environ. Saf.6(5): 439-447|1982|10.1016/0147-6513(82)90024-0
11024|A||Fayed,S.E., H.I. Abdel-Shafy, and N.M. Khalifa|Accumulation of Cu, Zn, Cd, and Pb by Scenedesmus obliquus Under Nongrowth Conditions|Environ. Int.9(5): 409-414|1983|10.1016/0160-4120(83)90134-4
11025|A||Sarojini,R., and B. Victor|Toxicity of Mercury on the Ovaries of the Caridean Prawn, Caridina rajadhari (Bouvier)|Curr. Sci. (Bangalore)54(8): 398-400|1985|
11026|A||Bakthavathsalam,R., and Y.S. Reddy|Toxicity and Behavioural Responses of Anabas testudineus (Bloch) Exposed to Pesticides|Indian J. Environ. Health24(1): 65-68|1982|
11027|A||Blanck,H., and S.A. Wangberg|Pattern of Cotolerance in Marine Periphyton Communities Established Under Arsenate Stress|Aquat. Toxicol.21:1-14|1991|10.1016/0166-445X(91)90002-Q
11028|A||Mandal,P.K., and A.K. Kulshrestha|Chronic Effects of Malathion on Erythropoiesis in Catfish Clarias-batrachus (Linn)|Natl. Acad. Sci. Lett.6(9): 311-313|1983|
11029|A||Ohmori,M., S. Miyachi, and K. Okabe|Effects of Ammonia on Respiration, Adenylate Levels, Amino Acid Synthesis and CO2 Fixation in Cells of Chlorella vulgaris 11h in Darkness|Plant Cell Physiol.25(5): 749-756|1984|
11030|A||Abel,T.H., and F. Barlocher|Effects of Cadmium on Aquatic Hyphomycetes|Appl. Environ. Microbiol.48(2): 245-251|1984|10.1128/aem.48.2.245-251.1984
11031|A||Bryan,G.W.|Brown Seaweed, Fucus vesiculosus, and the Gastropod, Littorina littoralis, as Indicators of Trace-Metal Availability in Estuaries|Sci. Total Environ.28:91-104|1983|10.1016/S0048-9697(83)80010-2
11032|AT||Anjum,F., and S.S.H. Qadri|In Vivo Metabolism of Fenitrothion (0,0-Dimethyl-0-(4-Nitro-M-Tolyl) Phosphorothioate) in Fresh Water Teleost (Tilapia mossambica)|Bull. Environ. Contam. Toxicol.36(1): 140-145|1986|10.1007/BF01623486
11033|A||Gupta,A.K., and V.K. Rajbanshi|Cytopathological Studies Resulting in Cadmium Bioassay with Heteropneustes fossilis (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 345-351|1982|10.1002/aheh.19820100407
11035|A||Van Weerelt,M., W.C. Pfeiffer, and M. Fiszman|Uptake and Release of 51Cr(VI) and 51Cr(III) by Barnacles (Balanus sp)|Mar. Environ. Res.11(3): 201-211|1984|10.1016/0141-1136(84)90046-1
11036|A||Smith,M.A.|The Effect of Heavy Metals on the Cytoplasmic Fine Structure of Skeletonema costatum (Bacillariophyta)|Protoplasma (Multiple Languages)116(1): 14-23|1983|10.1007/BF01294226
11037|A||Wellens,H.|Comparison of the Sensitivity of Brachydanio rerio and Leuciscus idus by Testing the Fish Toxicity of Chemicals and Wastewaters|Z. Wasser-Abwasser-Forsch. (Multiple Languages)51(2): 49-52|1982|
11038|A||Wood,A.M.|Available Copper Ligands and the Apparent Bioavailability of Copper to Natural Phytoplankton Assemblages|Sci. Total Environ.28:51-64|1983|10.1016/S0048-9697(83)80007-2
11039|A|OECDN|Canton,J.H., E.A.M. Mathijssen, and R.P. Van den Dikkenberg|Embryotoxicity-Test of Oryzias latipes with alpha-HCH|Rep.No.LMT-627901, Natl.Inst.Public Health Environ.Hyg.:32 p.|1985|
11040|A||Anderson,R.S., C.S. Giam, and L.E. Ray|Effects of Hexachlorobenzene and Pentachlorophenol on Cellular and Humoral Immune Parameters in Glycera dibranchiata|Mar. Environ. Res.14(1-4): 317-326|1984|10.1016/0141-1136(84)90085-0
11041|A||Haya,K., D.W. McLeese, B.A. Waiwood, and L.E. Burridge|Organochlorine Pesticides and the Metabolic Energy State of Nereis virens|Mar. Environ. Res.14(1-4): 481-482|1984|10.1016/0141-1136(84)90125-9
11042|A||Gupta,A.K., and S.S. Dhillon|The Effects of a Few Xenobiotics on Certain Phosphatases in the Plasma of Clarias batrachus and Cirrhina mrigala|Toxicol. Lett.15(2-3): 181-186|1983|10.1016/0378-4274(83)90213-8
11043|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Chronic Sumithion Toxicity: Effect on Carbohydrate Metabolism in Crab Muscle|Toxicol. Lett.15(2-3): 113-117|1983|10.1016/0378-4274(83)90203-5
11044|A|OECDN|Hanstveit,A.O., F.I. Kappers, and J.H. Canton|Research for a Useful Combination of Tests Methods to Determine the Aquatic Toxicity of Environmentally Dangerous Chemicals-Further Research After the|Rep.No.R85/083, Natl.Inst.Public Health Environ.Hyg.:26 p.|1985|
11045|A||Birmingham,B.C., and B. Colman|Potential Phytotoxicity of Diquat Accumulated by Aquatic Plants and Sediments|Water Air Soil Pollut.19(2): 123-131|1983|10.1007/BF00211798
11047|A||Bluzat,R., and J. Seuge|Chronic intoxication by an Herbicide, 2,4,5-Trichlorophenoxyacetic Acid, in the Pond Snail, Lymnaea stagnalis L|Environ. Res.31(2): 440-447|1983|10.1016/0013-9351(83)90022-1
11048|A||Slabbert,J.L., and W.S.G. Morgan|A Bioassay Technique Using Tetrahymena pyriformis for the Rapid Assessment of Toxicants in Water|Water Res.16(5): 517-523|1982|10.1016/0043-1354(82)90070-7
11049|A||Grant,C.D.|Effects on Aquatic Insects of Forest Spraying with Phosphamidon in New Brunswick|J. Fish. Res. Board Can.24(4): 823-832|1967|10.1139/f67-069
11050|A||Srivastava,A.K., and J. Mishra|Effects of Fenthion on the Blood and Tissue Chemistry of a Teleost Fish (Heteropneustes fossilis)|J. Comp. Pathol.93(1): 27-31|1983|10.1016/0021-9975(83)90040-3
11051|A||Shukla,J.P., and K. Pandey|Arsenic-Induced Cellular and Biochemical Changes During the Testicular Cycle of a Freshwater Perch, Colisa fasciatus (Bl. & Sch.)|Cell. Mol. Biol.30(3): 227-231|1984|
11052|A||Shparkovsky,I.A.|The DDT Effect on Vegetative Processes in the Cod|Biol. Morya (Vladivost.) (Multiple Languages)5:59-64|1982|
11053|A||Vlasova,G.A., and N.K. Khristoforova|The Effect of Cadmium on Early Ontogenesis of the Sea Urchin Strongylocentrotus intermedius|Biol. Morya (Vladivost.) (Multiple Languages)4:31-36|1982|
11054|A||Westernhagen,H., and V. Dethlefsen|Effect of the Surfactant Corexit 7664 on Uptake of Cadmium by Organisms and Biological Matter in a Closed Circulated Brackish-Water System|Helgol. Wiss. Meeresunters.35(1): 1-12|1982|10.1007/BF02289832
11055|A||Ferrando,M.D., E. Sancho, and E. Andreu-Moliner|Comparative Acute Toxicities of Selected Pesticides to Anguilla anguilla|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(5/6): 491-498|1991|
11056|A||Srivastava,D.K., and K.C. Pandey|Effect of Copper on Tissue Acid and Alkaline Phosphatases in the Green Snakehead, Ophiocephalus punctatus (Bloch)|Toxicol. Lett.11(3-4): 237-241|1982|10.1016/0378-4274(82)90156-4
11057|A||Stephenson,R.R., S.Y. Choi, and A. Olmos-Jerez|Determining the Toxicity and Hazard to Fish of a Rice Insecticide|Crop Prot.3(2): 151-165|1984|10.1016/0261-2194(84)90050-4
11058|A||Evans,D.D., and H. Rosenbaum|Brain Cholinesterase Inhibition in Zebra Finch, Poephila guttata, and Chinook Salmon, Oncorhynchus tshawytscha, Exposed to Luci-Jet (Fenthion Ethyl)|Aust. Wildl. Res.11(2): 391-393|1984|
11059|A||Falk-Petersen,I.B., E. Kjorsvik, S. Lonning, A.M. Naley, and L.K. Sydnes|Toxic Effects of Hydroxylated Aromatic Hydrocarbons on Marine Embryos|Sarsia70:11-16|1985|10.1080/00364827.1985.10420614
11061|A||Brown,D., and R.S. Thompson|Phthalates and the Aquatic Environment: Part I The Effect of Di-2-Ethylhexyl Phthalate (DEHP) and Di-Isodecyl Phthalate (DIDP) on the Reproduction of Daphnia magna and Observations on Their Bioconcentration|Chemosphere11(4): 417-426|1982|10.1016/0045-6535(82)90045-5
11062|A||Brown,D., and R.S. Thompson|Phthalates and the Aquatic Environment: Part II. The Bioconcentration and Depuration of Di-2-Ethyl-Hexyl Phthalate (DEHP) and Di-Isodecyl Phthalate (DIDP) in Mussels (Mytilus edulis)|Chemosphere11(4): 427-435|1982|10.1016/0045-6535(82)90046-7
11063|A||Carter,F.D., R.L. Puyear, and J.D. Brammer|Effects of Aroclor 1254 Treatment on the In Vitro Hepatic Metabolism of Toluene, Aniline and Aminopyrine in Hybrid Sunfish|Comp. Biochem. Physiol. C Comp. Pharmacol.78(1): 137-140|1984|10.1016/0742-8413(84)90060-4
11064|A||Kearns,P.K., and R.J. Vetter|Manganese-54 Accumulation by Chlorella spp., Daphnia magna and Yellow Perch (Perca flavescens)|Hydrobiologia (Multiple Languages)88(3): 277-280|1982|10.1007/BF00008507
11065|A||LeBlanc,G.A.|Laboratory Investigation into the Development of Resistance of Daphnia magna (Straus) to Environmental Pollutants|Environ. Pollut. A.27(4): 309-322|1982|10.1016/0143-1471(82)90159-3
11066|A||Podowski,A.A., and M.A.Q. Khan|Fate of Hexachlorocyclopentadiene in Water and Goldfish|Arch. Environ. Contam. Toxicol.13(4): 471-481|1984|10.1007/BF01056262
11067|A||Sanpera,C., M. Vallribera, and S. Crespo|Zn, Cu, and Mn Levels in the Liver of the Dogfish Exposed to Zn|Bull. Environ. Contam. Toxicol.31(4): 415-417|1983|10.1007/BF01622270
11068|A||Singh,H., and T.P. Singh|Effect of Some Pesticides on Hypothalamo-Hypophyseal-Ovarian Axis in the Freshwater Catfish Heteropneustes fossilis (Bloch)|Environ. Pollut. A.27(4): 283-288|1982|10.1016/0143-1471(82)90156-8
11069|A||Solbakken,J.E., A.H. Knap, C.E. Searle, and K.H. Palmork|Uptake and Elimination of [9-14C]Phenanthrene in the Turkey Wing Mussel (Arca zebra)|Bull. Environ. Contam. Toxicol.30(4): 420-423|1983|10.1007/BF01610154
11070|A||Walsh,G.E.|Cell Death and Inhibition of Population Growth of Marine Unicellular Algae by Pesticides|Aquat. Toxicol.3(3): 209-214|1983|10.1016/0166-445X(83)90041-3
11072|A||Baskaran,P., and S. Palanichamy|Impact of Agricultural Fertilizer (Ammonium Chloride) on Physiology and Biochemistry of the Freshwater Teleost Fish Oreochromis mossambicus|J. Ecobiol.2(2): 97-106|1990|
11073|A||Allen,A.J., B.M. Quitter, and C.M. Radick|The Biocidal Mechanism of Controlled Release bis(Tri-n-Butyltin) Oxide in Biomphalaria glabrata|In: R.W.Baker (Ed.), Controlled Release of Bioactive Materials, 6th Symposium, Academic Press, NY:399-413|1980|
11074|A||Wilder,I.B., and J.G. Stanley|RNA-DNA Ratio as an Index to Growth in Salmonid Fishes in the Laboratory and in Streams Contaminated by Carbaryl|J. Fish Biol.22(2): 165-172|1983|10.1111/j.1095-8649.1983.tb04737.x
11075|A||Nacci,D., S. Nelson, W. Nelson, and E. Jackim|Application of the DNA Alkaline Unwinding Assay to Detect DNA Strand Breaks in Marine Bivalves|Mar. Environ. Res.33:83-100|1992|10.1016/0141-1136(92)90134-8
11076|A||Matey,V.E.|The Morpho-Functional Adaptation to Ammonium of Epithelium Chloride Cells in the Fresh-Water Stickleback, Pungitius pungitius|Citologia (Non-English)25(6): 661-666|1983|
11077|A||Chouhan,M.S., D. Verma, and A.K. Pandey|Herbicide Induced Haematological Changes and Their Recovery in a Freshwater Fish, Puntius ticto (Ham.)|Comp. Physiol. Ecol.8(4): 249-251|1983|
11078|A||Abbasi,S.A., and R. Soni|An Examination of Environmentally Safe Levels of Zinc (II), Cadmium (II) and Lead (II) with Reference to Impact on Channelfish Nuria denricus|Environ. Pollut. A.40(1): 37-51|1986|10.1016/0143-1471(86)90056-5
11079|A||Goodfellow,W.L.J., D.T. Burton, W.C. Graves, L.W.,Jr. Hall, and K.R. Cooper|Acute Toxicity of Picric Acid and Picramic Acid to Rainbow Trout, Salmo gairdneri, and American Oyster, Crassostrea virginica|Water Resour. Bull.19(4): 641-648|1983|10.1111/j.1752-1688.1983.tb02782.x
11080|A||Ibrahim,E.A.|Effects of Some Common Pesticides on Growth and Metabolism of the Unicellular Algae Skeletonema costatum, Amphiprora paludosa, and Phaeodactylum tricornutum|Aquat. Toxicol.3(1): 1-14|1983|10.1016/0166-445X(83)90002-4
11081|A||Jacob,S.S., N.B. Nair, and N.K. Balasubramanian|Toxicity of Certain Pesticides Found in the Habitat to the Larvivorous Fishes Aplocheilus lineatus (Cuv. & Val.) and Macropodus cupanus (Cuv. & Val.)|Proc. Indian Acad. Sci. Anim. Sci.91(3): 323-328|1982|10.1007/BF03185024
11082|A||Khangarot,B.S.|Histopathological Changes in the Branchial Apparatus of Puntius sophore (Hamilton) Subjected to Toxic Doses of Zinc|Arch. Hydrobiol.93(3): 352-358|1982|
11083|A||Khangarot,B.S., and V.S. Durve|Note on the Acute Toxicity of Zinc, and the Interactions of Zinc and Nickel to a Freshwater Teleost Channa punctatus (Bloch)|Indian J. Anim. Sci.52(8): 722-725|1982|
11084|A||Manoharan,T., and G.N. Subbiah|Toxic and Sublethal Effects of Endosulfan on Barbus-stigma (Pisces: Cyprinidae)|Proc. Indian Acad. Sci. Anim. Sci.91(6): 523-532|1982|10.1007/BF03186152
11085|A||Mathew,R., and N.R. Menon|Oxygen Consumption in Tropical Bivalves Perna viridis (Linn.) and Meretrix casta (Chem.) Exposed to Heavy Metals|Indian J. Mar. Sci.12(1): 57-59|1983|
11086|A||Menezes,M.R., and S.Z. Qasim|Determination of Acute Toxicity Levels of Mercury to the Fish Tilapia mossambica (Peters)|Proc. Indian Acad. Sci. Anim. Sci.92(5): 375-380|1983|10.1007/BF03186207
11087|A||Mensi,P., A. Arillo, C. Margiocco, and G. Schenone|Lysosomal Damage Under Nitrite intoxication in Rainbow Trout (Salmo gairdneri Rich.)|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 161-165|1982|10.1016/0306-4492(82)90185-X
11088|A||Mishra,J., and A.K. Srivastava|Effects of Chlordane on the Blood and Tissue Chemistry of a Teleost Fish, Heteropneustes fossilis|Cell. Mol. Biol.30(6): 519-523|1984|
11089|A||Mushko,I.B.|Effect of the Insecticide K-Othrine on the Epithelium of the Hepatic Ceca in the Amphipod Gammarus roeseli|Dokl. Akad. Nauk SSSR (Non-English)276(2): 504-507|1984|
11090|A||Nagaratnamma,R., and R. Ramamurthi|Metabolic Depression in the Freshwater Teleost, Cyprinus carpio Exposed to an Organophosphate Pesticide|Curr. Sci. (Bangalore)51(13): 668-669|1982|
11091|A||Ramalingam,K.|Effects of Sublethal Levels of DDT, Malathion and Mercury on Tissue Proteins of Sarotherodon mossambicus (Peters)|Proc. Indian Acad. Sci. Anim. Sci.91(6): 501-505|1982|10.1007/BF03186149
11092|A||Sastry,K.V., and D.R. Rao|Mercuric Chloride Induced Alterations in the Intestinal Transport of Glucose in the Fresh Water Murrel, Channa punctatus|Int. J. Environ. Stud.20:265-267|1983|10.1080/00207238308710043
11093|A||Shukla,G.S., and Omkar |Toxicity of 2,4-D-Na Salt to Fresh Water Prawn, Macrobrachium lamarrei (M. Edwards)|Comp. Physiol. Ecol.8(4): 282-284|1983|
11094|A||Shukla,J.P., and K. Pandey|Arsenic Induced Structural Changes During the Ovarian Cycle of a Freshwater Perch, Colisa fasciatus (Bloch and Schneider)|Bull. Inst. Zool. Acad. Sin. (Taipei)23(1): 69-74|1984|
11095|AT||Sodergren,A.|Significance of Interfaces in the Distribution and Metabolism of Di-2-Ethylhexyl Phthalate in an Aquatic Laboratory Model Ecosystem|Environ. Pollut. A.27(4): 263-274|1982|10.1016/0143-1471(82)90154-4
11096|A||Ueda,T., Y. Suzuki, R. Nakamura, and M. Nakahara|Accumulation of Co by Bivalve Tridacna crocea|Nippon Suisan Gakkaishi (Multiple Languages)48(9): 1293-1297|1982|10.2331/suisan.48.1293
11097|A||Verriopoulos,G., and M. Moraitou-Apostolopoulou|Differentiation of the Sensitivity to Copper and Cadmium in Different Life Stages of a Copepod|Mar. Pollut. Bull.13(4): 123-125|1982|10.1016/0025-326X(82)90368-X
11098|A||Watling,H.R.|Comparative Study of the Effects of Metals on the Settlement of Crassostrea gigas|Bull. Environ. Contam. Toxicol.31(3): 344-351|1983|10.1007/BF01608710
11099|A||Khangarot,B.S., S. Mathur, and V.S. Durve|Comparative Toxicity of Heavy Metals and Interaction of Metals on a Freshwater Pulmonate Snail Lymnaea acuminata (Lamarck)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 367-375|1982|10.1002/aheh.19820100410
11100|A||Fitzwater,S.E., G.A. Knauer, and J.H. Martin|The Effects of Cu on the Adenylate Energy Charge of Open Ocean Phytoplankton|J. Plankton Res.5(6): 935-938|1983|10.1093/plankt/5.6.935
11101|A||Khangarot,B.S.|Zinc Induced Lesions in the Gills of Rasbora Daniconius neilgeriensis (Hamilton)|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(6): 675-677|1983|10.1002/aheh.19830110610
11102|A||Kocan,R.M., and M.L. Landolt|Alterations in Patterns of Excretion and Other Metabolic Functions in Developing Fish Embryos Exposed to Benzo(a)pyrene|Helgol. Wiss. Meeresunters.37(1-4): 493-504|1984|10.1007/BF01989326
11103|A||Verma,S.R., S. Rani, and R.C. Dalela|Indicators of Stress Induced by Pesticides in Mystus vittatus: Haematological Parameters|Indian J. Environ. Health24(1): 58-64|1982|
11104|A||Rathore,H.S., and H. Swarup|Cytogenetic Investigations on Chironomus Larvae Treated with Cadmium Chloride|Int. J. Environ. Stud.19(3-4): 209-214|1982|10.1080/00207238208709992
11105|A||Piispanen,R., and P. Lahdesmaki|Effect of Vanadium on Some Water Plants|Geol. Foren. Stockh. Forh.105(Pt. 1): 23-27|1983|10.1080/11035898309455289
11106|A||Ravichandran,S., and B. Anantharaj|Effect of Phenol on the Phosphomonoesterases and ATPase Activity in the Fish Sarotherodon mossambicus (Peters) in Saline Waters|Proc. Indian Acad. Sci. Anim. Sci.93(6): 557-563|1984|10.1007/BF03186305
11107|A||Gnezdilova,S.M., and Y.V. Shchepin|Histological and Biochemical Changes in a Gonad of the Sea Urchin Strongylocentrotus intermedius Exposed to Cadmium|Biol. Morya (Vladivost.) (Multiple Languages)6:44-49|1983|
11108|A||Pandey,A.K., and L. Shukla|Effect of an Organophosphorus Insecticide Malathion on the Testicular Histophysiology in Sarotherodon mossambicus|Natl. Acad. Sci. Lett.5(4): 141-142|1982|
11110|A||Sastry,K.V., and S. Tyagi|Effect of Chromium and Nickel on Intestinal Transport of Fructose and Trypthophan in the Snake Head Fish Channa punctatus|Natl. Acad. Sci. Lett.7(4): 131-134|1984|
11111|A||Unsal,M.|Accumulation and Loss of Tin by the Mussel|Oceanol. Acta7(4): 493-498|1984|
11112|A||Akberali,H.B., and M.J. Earnshaw|Copper-Stimulated Respiration in the Unfertilized Egg of the Eurasian Perch, Perca fluviatilis (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 349-352|1984|10.1016/0742-8413(84)90096-3
11113|A||Dongmann,G., and H.W. Nurnberg|Observations with Thalassiosira rotula (Meunier) on the Toxicity and Accumulation of Cadmium and Nickel|Ecotoxicol. Environ. Saf.6(6): 535-544|1982|10.1016/0147-6513(82)90035-5
11114|A||Fisher,N.S., K.A. Burns, R.D. Cherry, and M. Heyraud|Accumulation and Cellular Distribution of 241Am, 210Po, and 210Pb in Two Marine Algae|Mar. Ecol. Prog. Ser.11(3): 233-237|1983|10.3354/meps011233
11115|A||Glickman,A.H., and J.J. Lech|Differential Toxicity of trans-Permethrin in Rainbow Trout and Mice.  II.  Role of Target Organ Sensitivity|Toxicol. Appl. Pharmacol.66(2): 162-171|1982|10.1016/0041-008X(82)90281-2
11116|A||Lauren,D.J., S.J. Teh, and D.E. Hinton|Cytotoxicity Phase of Diethylnitrosamine-Induced Hepatic Neoplasia in Medaka|Cancer Res.50(17): 5504-5514|1990|
11117|A||Kocan,R.M., and M.L. Landolt|Uptake and Excretion of Benzo(a)pyrene by Trout Embryos and Sac Fry|Mar. Environ. Res.14(1-4): 433-436|1984|10.1016/0141-1136(84)90103-X
11118|A||Lederman,T.C., and G.Y. Rhee|Influence of a Hexachlorobiphenyl in Great Lakes Phytoplankton in Continuous Culture|Can. J. Fish. Aquat. Sci.39(3): 388-394|1982|10.1139/f82-056
11119|A||Lederman,T.C., and G.Y. Rhee|Bioconcentration of a Hexachlorobiphenyl in Great Lakes Planktonic Algae|Can. J. Fish. Aquat. Sci.39(3):380-387|1982|10.1139/f82-055
11120|A||Mathew,R., and N.R. Menon|Effects of Heavy Metals on Byssogenesis in Perna viridis (Linn.)|Indian J. Mar. Sci.12(2): 125-127|1983|
11121|A||Howell,R.|Heavy Metals in Marine Nematodes:  Uptake, Tissue Distribution and Loss of Copper and Zinc|Mar. Pollut. Bull.14(7): 263-268|1983|10.1016/0025-326X(83)90170-4
11122|A||Nagaratnamma,R., and R. Ramamurthi|In Vivo Recovery of Acetylcholinesterase Activity From Methyl Parathion Induced Inhibition in the Freshwater Teleost, Cyprinus carpio|Curr. Sci. (Bangalore)52(2): 74-75|1983|
11123|A||Pawar,K.R., and M. Katdare|Effect of Sumithion on the Ovaries of Freshwater Fish Garra mullya (Sykes)|Curr. Sci. (Bangalore)52(16): 784-785|1983|
11124|A||Rao,K.S.P., C. Madhu, K.R.S. Rao, and K.V.R. Rao|Effect of Methyl Parathion on Body Weight, Water Content and Ionic Changes in the Teleost, Tilapia mossambica (Peters)|J. Food Sci. Technol.20(1): 27-29|1983|
11125|A||Smock,L.A.|Relationships Between Metal Concentrations and Organism Size in Aquatic Insects|Freshw. Biol.13(4): 313-321|1983|10.1111/j.1365-2427.1983.tb00683.x
11126|A||Arunachalam,S., S. Palanichamy, and M.P. Balasubramanian|Sublethal Effects of Carbaryl on Food Utilization and Oxygen Consumption in the Air-Breathing Fish, Channa punctatus (Bloch)|J. Environ. Biol.6(4): 279-286|1985|
11127|A||Morgan,W.S.G.|The Use of Fish as a Biological Sensor for Toxic Compounds in Potable Water|Prog. Water Technol.10(1/2): 395-398|1978|
11128|A||Mamontova,L.N.|Fertilization of Ponds with Ammonium Sulfate|Dokl. Mosk. S-kh. Akad. Im. K. A. Timiryazeva78:359-362|1962|
11129|A||Dixon,D.G., and J.W. Hilton|Influence of Available Dietary Carbohydrate Content on Tolerance of Waterborne Copper by Rainbow Trout, Salmo gairdneri Richardson|J. Fish Biol.19(5): 509-517|1981|10.1111/j.1095-8649.1981.tb03819.x
11130|A||Duncan,J., and N. Brown|Chronic Exposure of the Eggs and Adults of Biomphalaria glabrata (Say) to the Molluscicide, Nicotinanilide|Tropenmed. Parasitol.34(3): 184-186|1983|
11132|A||Farmanfarmaian,A., and R. Socci|Inhibition of Essential Amino Acid Absorption in Marine Fishes by Mercury|Mar. Environ. Res.14(1-4): 185-199|1984|10.1016/0141-1136(84)90078-3
11133|A||Geen,G.H., B.A. McKeown, and P.C. Oloffs|Acephate in Rainbow Trout (Salmo gairdneri): Acute Toxicity, Uptake, Elimination|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(2): 131-155|1984|
11134|A||Geen,G.H., B.A. McKeown, T.A. Watson, and D.B. Parker|Effects of Acephate (Orthene) on Development and Survival of the Salamander, Ambystoma gracile (Baird)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(2): 157-170|1984|
11135|A||Gillan,F.T., N.S. Fisher, and R.B. Johns|The Effects of Copper and Zinc on the Fatty Acids and Carotenoids in the Marine Diatom Asterionella japonica|Bot. Mar.26(5): 255-257|1983|10.1515/botm.1983.26.5.255
11136|A||Gupta,P.K., P.S. Rao, and V.S. Mujumdar|Studies on the Toxicity of Pentachlorophenol, Sodium-Pentachlorophenate and Phenol to a Pulmonate Snail Lymnaea luteola (Lamarck)|Arch. Hydrobiol.102(1): 123-130|1984|10.1127/archiv-hydrobiol/102/1984/123
11137|A||Heath,A.G.|Changes in Tissue Adenylates and Water Content of Bluegill, Lepomis macrochirus, Exposed to Copper|J. Fish Biol.24(3): 299-309|1984|10.1111/j.1095-8649.1984.tb04801.x
11138|A||Hicks,B.D., J.W. Hilton, and H.W. Ferguson|Influence of Dietary Selenium on the Occurrence of Nephrocalcinosis in the Rainbow Trout, Salmo gairdneri Richardson|J. Fish Dis.7(5): 379-389|1984|10.1111/j.1365-2761.1984.tb01202.x
11139|A||Howell,R., and L. Smith|Binding of Heavy Metals by the Marine Nematode Enoplus brevis Bastian, 1865|Nematologica29(1): 39-48|1983|10.1163/187529283X00177
11140|A||Iosifidou,E.G., N. Haagsma, M. Olling, J.H. Boon, and M.W.T. Tanck|Residue Study of Mebendazole and Its Metabolites Hydroxymebendazole and Amino-Mebendazole in Eel (Anguilla anguilla) After Bath Treatment|Drug Metab. Dispos.25(3): 317-320|1997|
11141|A||Kaur,K., and S. Virk|Effect of BHC and Sumithion on Ovarian Recrudescence in Common Carp Cyprinus carpio|Indian J. Ecol.10(2): 182-187|1983|
11142|A||Kemp,W.M., W.R. Boynton, J.J. Cunningham, J.C. Stevenson, T.W. Jones, and J.C. Means|Effects of Atrazine and Linuron on Photosynthesis and Growth of the Macrophytes, Potamogeton perfoliatus L. and Myriophyllum spicatum L. in an Estuarine Environment|Aquat. Toxicol.9(2/3): 190-191|1985|
11143|A||Niimi,A.J., and H.B. Lee|Free and Conjugated Concentrations of Nine Resin Acids in Rainbow Trout (Oncorhynchus mykiss) Following Waterborne Exposure|Environ. Toxicol. Chem.11(10): 1403-1407|1992|10.1002/etc.5620111006
11144|A||Kreutzmann,H.L., and H. Sordyl|The Influence of Exposure Time and pH Value of the Water on the Effects of a Sublethal NH3 Stress on the Blood Parameter of the Rainbow Trout (Salmo|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere89(4): 427-439|1985|
11145|A||Liechti,P.M., and D.G. Huggins|Effects of a 24 Hour Ammonia Injection on Stream Drift and Benthic Standing Crop|Trans. Kans. Acad. Sci.83(3): 140-|1980|
11146|A||Lorz,H.W., and B.P. McPherson|Effects of Copper and Zinc on Smoltification of Coho Salmon|EPA-600/3-77-032, U.S.EPA, Corvallis, OR:69 p.|1977|
11147|A||Magadza,C.H.D.|Toxicity of Endosulfan to Some Aquatic Organisms of Southern Africa|Zimb. J. Agric. Res.21(2): 159-165|1983|
11149|A||Matthiessen,P., and A.E. Brafield|Uptake and Loss of Dissolved Zinc by the Stickleback Gasterosteus aculeatus L|J. Fish Biol.10(4): 399-410|1977|10.1111/j.1095-8649.1977.tb04071.x
11150|A||Michibata,H.|Uptake and Distribution of Cadmium in the Egg of the Teleost, Oryzias latipes|J. Fish Biol.19(6): 691-696|1981|10.1111/j.1095-8649.1981.tb03835.x
11151|A||Millington,P.J., and K.F. Walker|Australian Freshwater Mussel Velesunio ambiguus (Philippi) as a Biological Monitor for Zinc, Iron and Manganese|Aust. J. Mar. Freshw. Res.34(6): 873-892|1983|10.1071/MF9830873
11152|A||DeGraeve,G.M., J.D. Cooney, B.H. Marsh, T.L. Pollock, and N.G. Reichenbach|Variability in the Performance of the 7-D Ceriodaphnia dubia Survival and Reproduction Test: An Intra- and Interlaboratory Study|Environ. Toxicol. Chem.11(6): 851-866|1992|
11153|A||Muramoto,S.|Reductions of Cd in a Cd-Contaminated Fish by Long-Term Exposure to EDTA or Fresh-Water|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control17(1): 67-74|1982|
11154|A||Muramoto,S.|Elimination of Copper From Cu-Contaminated Fish by Long-Term Exposure to EDTA and Fresh Water|J. Environ. Sci. Health Part A Environ. Sci. Eng.18(3): 455-461|1983|10.1080/10934528309375113
11155|A||Murti,R., and G.S. Shukla|Toxicity of Copper Sulphate and Zinc Sulphate to Macrobrachium lamarrei (H. Milne Edwards) (Decapoda, Palaemonidae)|Crustaceana  (Leiden)47(2): 168-173|1984|10.1163/156854084X00397
11156|A||Murthy,B.N., M.S. Reddy, and K.V.R. Rao|Significance of Aminotransferase Activity of the Freshwater Teleost, Oreochromis mossambicus (Trewavas) Under Lindane Toxicity|Curr. Sci. (Bangalore)54(20): 1077-1079|1985|
11157|A||Natarajan,G.M.|Effect of Lethal (LC50/48H) Concentration of Metasystox on Some Selected Enzyme Systems in the Air-Breathing Fish, Channa striatus (Bleeker)|Comp. Physiol. Ecol.9(1): 29-32|1984|
11158|A||Natarajan,G.M., G.S. Rajulu, S.S. Sundari, and S. Subramanian|Effect of Sublethal Concentration of Metasystox on the Circadian Rhythm of Bimodal Oxygen Uptake in Channa striatus|Curr. Sci. (Bangalore)52(14): 675-678|1983|
11159|A||Nyman,H.G.|Sublethal Effects of Lead (Pb) on Size Selective Predation by Fish-Applications on the Ecosystem Level|Verh. Int. Ver. Theor. Angew. Limnol.21(2): 1126-1130|1981|
11160|A||Reddy,P.S., S.B. Ramesh Babu, and R. Ramamurthi|Hyperglycemia in the Fresh Water Field Crab (Oziotelphusa senex senex) Produced by a Pesticide (BHC)|Z. Naturforsch. Sect. C J. Biosci.37(5/6): 545-546|1982|10.1515/znc-1982-5-631
11161|A||Reed,R.H., and L. Moffat|Copper Toxicity and Copper Tolerance in Enteromorpha compressa (L.) Grev.|J. Exp. Mar. Biol. Ecol.69(1): 85-103|1983|10.1016/0022-0981(83)90173-9
11162|A||Barltrop,J., B.B. Martin, and D.F. Martin|Response of Hydrilla to Selected Dyes|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control17(5): 725-735|1982|
11163|A||Robinson,J.W., and P.M. Deano|The Synergistic Effects of Acidity and Aluminum on Fish (Golden Shiners) in Louisiana|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control20(2): 193-204|1985|
11164|A||Rushton,W.|Biological Notes|Salmon Trout Mag.25:101-117|1921|
11165|A||Hughes,J.M., M.W. Griffiths, and D.A. Harrison|The Effects of an Organophosphate Insecticide on Two Enzyme Loci in the Shrimp Caradina sp|Biochem. Syst. Ecol.20(2): 89-97|1992|10.1016/0305-1978(92)90095-U
11166|A||Sehgal,R., and A.K. Pandey|Effect of Cadmium Chloride on Testicular Activities in Guppy Lebistes reticulatus|Comp. Physiol. Ecol.9(3): 225-230|1984|
11167|A||Borgan,A., S. Odegaard, and T. Bergsjo|Temperature Related Absorption and Excretion of Sulphadimidine in Rainbow Trout, Salmo gairdneri|Acta Vet. Scand.22(2): 211-217|1981|10.1186/BF03547510
11168|A||Smith,R.L., and B.R. Hargreaves|Oxygen Consumption in Neomysis americana (Crustacea: Mysidacea), and the Effects of Naphthalene Exposure|Mar. Biol.79(2): 109-116|1984|10.1007/BF00951819
11169|A||Somasundaram,B., P.E. King, and S.E. Shackley|Some Morphological Effects of Zinc upon the Yolk-Sac Larvae of Clupea harengus L.|J. Fish Biol.25(3): 333-343|1984|10.1111/j.1095-8649.1984.tb04880.x
11170|A||Srivastava,P.N., and A.S. Narain|Leucocytic and Haemostatic Reactions of the Indian Catfish, Heteropneustes fossilis, Subjected to Environmental Pollution by Sewage, Fertilizers and Insecticides|Acta Pharmacol. Toxicol.50(1): 13-21|1982|10.1111/j.1600-0773.1982.tb00933.x
11171|A||Stagg,R.M., and T.J. Shuttleworth|The Accumulation of Copper in Platichthys flesus L. and its Effects on Plasma Electrolyte Concentrations|J. Fish Biol.20(4): 491-500|1982|10.1111/j.1095-8649.1982.tb03942.x
11172|A||Stromberg,P.C., J.G. Ferrante, and S. Carter|Pathology of Lethal and Sublethal Exposure of Fathead Minnows, Pimephales promelas, to Cadmium: A Model for Aquatic Toxicity Assessment|J. Toxicol. Environ. Health11(2): 247-259|1983|10.1080/15287398309530339
11173|A||Sundaram,K.M.S., and S. Szeto|Distribution and Persistence of Aminocarb in Stream Water, Sediment and Fish After Application of Three Matacil Formulations|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(2): 187-200|1985|
11174|A||Takimoto,Y., S. Hagino, H. Yamada, and J. Miyamoto|The Acute Toxicity of Fenitrothion to Killifish (Oryzias latipes) at Twelve Different Stages of Its Life History|J. Pestic. Sci. (Multiple Languages)9(3): 463-470|1984|10.1584/jpestics.9.463
11175|A||Tsai,C.F., and K.Y. Chang|Effect of Sex and Size on Copper Susceptibility of the Common Guppy, Lebistes reticulatus (Peter)|J. Fish Biol.19(6): 683-689|1981|10.1111/j.1095-8649.1981.tb03834.x
11176|A||Tsai,S.C.|Influence of Aquatic Environmental Factors on the Uptake and Toxicity of Mercurials in Fish|Ph.D Thesis, University of Wisconsin, Madison, WI:137 p.|1976|
11177|A||Vuorinen,P.|Acute Toxicity of the Slimecide Fennosan F 50 to Two Species of Trout and the Effect of Acetone on the Toxicity|Finn. Fish. Res.4:62-68|1982|
11178|A||Hermanutz,R.O.|Malformation of the Fathead Minnow (Pimephales promelas) in the Ecosystem with Elevated Selenium Concentrations|Bull. Environ. Contam. Toxicol.49(2): 290-294|1992|10.1007/BF00191769
11179|A||Woodhead,A.D., R.B. Setlow, and V. Pond|Effects of Polycyclic Aromatic Hydrocarbons on the Proliferation of Ectopic Thyroid Tissue in Poecilia formosa, the Amazon Molly|J. Fish Biol.20(4): 455-463|1982|10.1111/j.1095-8649.1982.tb03938.x
11180|A||Saethre,L.J., I.B. Falk-Petersen, L.K. Sydnes, S. Lonning, and A.M. Naley|Toxicity and Chemical Reactivity of Naphthalene and Methylnaphthalenes|Aquat. Toxicol.5:291-306|1984|10.1016/0166-445X(84)90010-9
11181|A||Mount,D.I., and T.J. Norberg|A Seven-Day Life-Cycle Cladoceran Toxicity Test|Environ. Toxicol. Chem.3(3): 425-434|1984|
11182|A||Norberg,T.J., and D.I. Mount|A New Fathead Minnow (Pimephales promelas) Subchronic Toxicity Test|Environ. Toxicol. Chem.4(5): 711-718|1985|10.1002/etc.5620040515
11183|A||Sarasquete,M.C., M. Gutierrez, and R. Establier|Effect of Inorganic Mercury (HgCl2) on the Blood and Kidney of Toadfish, Halobatrachus didactylus (Schneider, 1801).|Invest. Pesq.46(2): 323-330|1982|
11184|A||Falk-Petersen,I.B., L.J. Saethre, and S. Lonning|Toxic Effects of Naphthalene and Methylnaphthalenes on Marine Plankton Organisms|Sarsia67(3): 171-178|1982|10.1080/00364827.1982.10420544
11185|A||Dillon,T.M.|Dietary Accumulation of Dimethylnaphthalene by the Grass Shrimp Palaemonetes pugio Under Stable and Fluctuating Temperatures|Bull. Environ. Contam. Toxicol.28:149-153|1982|10.1007/BF01608567
11186|A||Dillon,T.M.|Effects of Dimethylnaphthalene-Contaminated Food Source and Daily Fluctuating Temperatures on the Survival Potential of the Estuarine Shrimp|Mar. Biol.63:227-233|1981|10.1007/BF00395991
11187|A||Dillon,T.M.|Oxygen Consumption in the Shrimp, Palaemonetes pugio, Exposed to Fluctuating Temperatures and Food Contaminated with the Diaromatic Petroleum|Estuar. Coast. Shelf Sci.16(4): 403-413|1983|10.1016/0272-7714(83)90102-6
11188|A||Dillon,T.M., and D.J. Fisher|Apparent Water Permeability and Hemolymph Acid Phosphatase Activity as Indices of Stress in the Estuarine Grass Shrimp, Palaemonetes pugio|Comp. Biochem. Physiol. C Comp. Pharmacol.74(2): 377-382|1983|10.1016/0742-8413(83)90118-4
11189|T||Ali,A., and J.K. Nayar|Activity of an Avermectin Insecticide, Abamectin (MK-936), Against Mosquitoes and Chironomid Midges in the Laboratory|Am. Mosq. Control Assoc. J.1(3): 384-386|1985|
11190|A||Arillo,A., D. Calamari, C. Margiocco, F. Melodia, and P. Mensi|Biochemical Effects of Long-Term Exposure to Cadmium and Copper on Rainbow Trout (Salmo gairdneri):  Validation of Water Quality Criteria|Ecotoxicol. Environ. Saf.8(2): 106-117|1984|10.1016/0147-6513(84)90054-X
11191|A||Asztalos,B., and J. Nemcsok|Effect of Pesticides on the LDH Activity and Isoenzyme Pattern of Carp (Cyprinus carpio L.) Sera|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 217-219|1985|10.1016/0742-8413(85)90233-6
11192|A||Barron,M.G., and I.R. Adelman|Temporal Characterization of Growth of Fathead Minnow (Pimephales promelas) Larvae During Sublethal Hydrogen Cyanide Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol.81(2): 341-344|1985|10.1016/0742-8413(85)90017-9
11193|A||Bjerregaard,P., and T. Vislie|Effects of Mercury on Ion and Osmoregulation in the Shore Crab Carcinus maenas (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 227-230|1985|10.1016/0742-8413(85)90235-X
11194|A||Bluzat,R., O. Jonot, and J. Seuge|Acute Toxicity of a Fungicide, Thirame (Dithiocarbamate) in the Freshwater Amphipodal Crustacean Gammarus pulex|Environ. Pollut. A.29(3): 225-233|1982|10.1016/0143-1471(82)90167-2
11195|A||Bradley,R.W., and J.B. Sprague|Accumulation of Zinc by Rainbow Trout as Influenced by pH, Water Hardness and Fish Size|Environ. Toxicol. Chem.4(5): 685-694|1985|10.1002/etc.5620040512
11196|A||Cairns,M.A., A.V. Nebeker, J.H. Gakstatter, and W.L. Griffis|Toxicity of Copper-Spiked Sediments to Freshwater Invertebrates|Environ. Toxicol. Chem.3(3): 435-445|1984|
11197|A||Chiba,M., T. Kikuchi, Y. Nagashima, and T. Hashimoto|Compound Toxicity and Accumulation of Permethrin and Mercury in the Himedaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)51(8): 1341-1347|1985|10.2331/suisan.51.1341
11198|A||Dange,A.D., and V.B. Masurekar|Naphthalene-Induced Changes in Carbohydrate Metabolism in Sarotherodon mossambicus Peters (Pisces:Cichlidae)|Hydrobiologia (Multiple Languages)94(2): 163-172|1982|10.1007/BF00010896
11199|A||Dave,G.|The Influence of pH on the Toxicity of Aluminum, Cadmium, and Iron to Eggs and Larvae of the Zebrafish, Brachydanio rerio|Ecotoxicol. Environ. Saf.10(2): 253-267|1985|10.1016/0147-6513(85)90072-7
11200|A||Eddy,F.B., and J.E. Fraser|Sialic Acid and Mucus Production in Rainbow Trout (Salmo gairdneri Richardson) in Response to Zinc and Seawater|Comp. Biochem. Physiol. C Comp. Pharmacol.73(2): 357-359|1982|10.1016/0306-4492(82)90135-6
11201|A||El-Khatib,Z.I., and G.P. Georghiou|Geographic Variation of Resistance to Organophosphates, Propoxur and DDT in the Southern House Mosquito, Culex quinquefasciatis, in California|Am. Mosq. Control Assoc. J.1(3): 279-283|1985|
11202|A||Fisher,S.W.|Effects of pH on the Toxicity and Uptake of [14C] Lindane in the Midge, Chironomus riparius|Ecotoxicol. Environ. Saf.10(2): 202-208|1985|10.1016/0147-6513(85)90067-3
11204|A||Gill,T.S., and J.C. Pant|Erythrocytic and Leukocytic Responses to Cadmium Poisoning in a Freshwater Fish, Puntius conchonius Ham|Environ. Res.36:327-337|1985|10.1016/0013-9351(85)90028-3
11205|A||Gill,T.S., and J.C. Pant|Effect of Organomercurial Poisoning on the Peripheral Blood and Metabolite Levels of a Freshwater Fish|Ecotoxicol. Environ. Saf.10(2): 150-158|1985|10.1016/0147-6513(85)90061-2
11206|A||Gluth,G., D. Freitag, W. Hanke, and F. Korte|Accumulation of Pollutants in Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.81(2): 273-277|1985|10.1016/0742-8413(85)90005-2
11207|A||Heisinger,J.F., and L. Scott|Selenium Prevents Mercuric Chloride Induced Acute Osmoregulatory Failure Without Glutathione Peroxidase Involvement in the Black Bullhead (Ictalurus melas)|Comp. Biochem. Physiol. C Comp. Pharmacol.80(2): 295-297|1985|10.1016/0742-8413(85)90059-3
11208|A||Hidaka,H., M. Suga, and R. Tatsukawa|Avoidance of Anionic Surfactants in Medakas (Oryzias latipes)|J. Agric. Chem. Soc. Jpn. 58(1): 1-7|1984|
11209|A||Huber,W., V. Schubert, and C. Sautter|Effects of Pentachlorophenol on the Metabolism of the Aquatic Macrophyte Lemna minor L.|Environ. Pollut. A.29(3): 215-223|1982|10.1016/0143-1471(82)90166-0
11210|A||Subramanian,G., and S. Shanmugasundaram|Influence of the Herbicide 2,4-D on Nitrogen Fixation and Ammonia Excretion by the Cyanobacterium Anabaena|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.52(2): 308-312|1986|
11211|A||Koyama,J., K. Yamawaki, M. Maita, K. Wakabayashi, Y. Ikeda, and H. Ozaki|The Effects of Cadmium on the Activities of Tissue Enzymes of Fish|Nippon Suisan Gakkaishi (Multiple Languages)51(8): 1255-1260|1985|10.2331/suisan.51.1255
11212|A||Lay,J.P., W. Schauerte, and W. Klein|Effects of Trichloroethylene on the Population Dynamics of Phyto-and Zooplankton in Compartments of a Natural Pond|Environ. Pollut. A.33(1): 75-91|1984|10.1016/0143-1471(84)90163-6
11213|A||Lay,J.P., W. Schauerte, L. Peichl, W. Klein, and F. Korte|Influence of Benzene on the Phytoplankton and on Daphnia pulex in Compartments of an Experimental Pond|Ecotoxicol. Environ. Saf.10(2): 218-227|1985|10.1016/0147-6513(85)90069-7
11214|A||Macri,A., and E. Sbardella|Toxicological Evaluation of Nitrofurazone and Furaltadone on Selenastrum capricornutum, Daphnia magna, and Musca domestica|Ecotoxicol. Environ. Saf.8(2): 101-105|1984|10.1016/0147-6513(84)90053-8
11215|A||Burress,R.M., and D.G.,Jr. Bass|Thanite (Isobornyl Thiocyanoacetate) as an Aid for Live Collection of Fishes in Florida Ponds|Proc. Southeast. Assoc. Game Fish Comm.28:115-123|1974|
11216|A||O'Grady,K.T., and M.I. Abdullah|Mobility and Residence of Zn in Brown Trout Salmo trutta: Results of Environmentally Induced Change Through Transfer|Environ. Pollut. A.38:109-127|1985|10.1016/0143-1471(85)90071-6
11218|A||Richardson,G.M., S.U. Qadri, and B. Jessiman|Acute Toxicity, Uptake, and Clearance of Aminocarb by the Aquatic Isopod, Caecidolea racovitzai racovitzai|Ecotoxicol. Environ. Saf.7(6): 552-557|1983|10.1016/0147-6513(83)90014-3
11219|A||Rombough,P.J.|The Influence of the Zona radiata on the Toxicities of Zinc, Lead, Mercury, Copper and Silver Ions to Embryos of Steelhead Trout Salmo gairdneri|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 115-117|1985|10.1016/0742-8413(85)90216-6
11220|A||Seeliger,U., and C. Cordazzo|Field and Experimental Evaluation of Enteromorpha sp. as a Quali-quantitative Monitoring Organism for Copper and Mercury in Estuaries|Environ. Pollut. A.29(3): 197-206|1982|10.1016/0143-1471(82)90164-7
11221|A||Seuge,J., and R. Bluzat|Chronic Toxicity of Three Insecticides (Carbaryl, Fenthion and Lindane) in the Freshwater Snail Lymnaea stagnalis|Hydrobiologia (Multiple Languages)106(1): 65-72|1983|10.1007/BF00016417
11222|A||Somasundaram,B., P.E. King, and S.E. Shackley|The Effect of Zinc on the Ultrastructure of the Trunk Muscle of the Larva of Clupea harengus L|Comp. Biochem. Physiol. C Comp. Pharmacol.79(2): 311-315|1984|10.1016/0742-8413(84)90206-8
11223|A||Somasundaram,B., P.E. King, and S.E. Shackley|The Effect of Zinc on the Ultrastructure of the Posterior Gut and Pronephric Ducts of the Larva of Clupea harengus L|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 29-37|1985|10.1016/0742-8413(85)90087-8
11224|A||Sunila,I., and R. Lindstrom|The Structure of the Interfilamentar Junction of the Mussel (Mytilus edulis L.) Gill and Its Uncoupling by Copper and Cadmium Exposures|Comp. Biochem. Physiol. C Comp. Pharmacol.81(2): 267-272|1985|10.1016/0742-8413(85)90004-0
11225|A||Thebault,M.T., and F.X. Decaris|Ca2+ ATPase Inhibition in Trout Gill Microsomes Following In Vitro and In Vivo Treatments with 2,4,5,T|Comp. Biochem. Physiol. C Comp. Pharmacol.75(2): 369-372|1983|10.1016/0742-8413(83)90207-4
11226|A||Thomas,D.G., M.W. Brown, D. Shurben, J.F.D.G. Solbe, A. Cryer, and J. Kay|A Comparison of the Sequestration of Cadmium and Zinc in the Tissues of Rainbow Trout (Salmo gairdneri) Following Exposure to the Metals Singly or in Combination|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 55-62|1985|10.1016/0742-8413(85)90209-9
11227|A|OECDG|Walbridge,C.T., J.T. Fiandt, G.L. Phipps, and G.W. Holcombe|Acute Toxicity of Ten Chlorinated Aliphatic Hydrocarbons to the Fathead Minnow (Pimephales promelas)|Arch. Environ. Contam. Toxicol.12(6): 661-666|1983|10.1007/BF01060748
11228|A||Woodward,D.L., A.E. Colwell, and N.L. Anderson|Use of a Pyrethrin Larvicide to Control Culicoides variipennis (Diptera:Ceratopogonidae) in an Alkaline Lake|Am. Mosq. Control Assoc. J.1(3): 363-368|1985|
11229|A||Yamamoto,Y., and M. Inoue|Effects of Dietary Ascorbic Acid and Dehydro-Ascorbic Acid on the Acute Cadmium Toxicity in Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)51(8): 1299-1303|1985|10.2331/suisan.51.1299
11230|A||Otto,N.E., P.M. Turner, and V.S. Miyahara|Progress Report on Aquatic Weed and Algae Control Studies|REC-ERC-72-35, Bureau of Reclamation, U.S.D.I., Denver, CO:67 p.|1972|
11231|A||Otto,N.E.|Investigations of Aquatic Weed Control Methods and Their Environmental Effects on Non-Target Aquatic Species: Progress Report 1972-1973|REC-ERC-74-11, Bureau of Reclamation, U.S.D.I., Denver, CO:49-|1974|
11232|A||Otto,N.E.|Algaecidal Evaluation and Environmental Study of Mat Producing Blue-Green Algae|REC-OCE-70-25, Bureau of Reclamation, U.S.D.I., Denver, CO:27 p.|1970|
11233|A||Weirich,C.R., and T.R. Tiersch|Effects of Environmental Sodium Chloride on Percent Hatch, Yolk Utilization, and Survival of Channel Catfish Fry|J. World Aquac. Soc.28(3): 289-296|1997|10.1111/j.1749-7345.1997.tb00645.x
11235|A||Linder,G.|Anthracene Bioconcentration in Rainbow Trout in Single-Compound and Complex Chemical Mixture Exposures|Ph.D.Thesis, University of Wyoming, Laramie, WY:91 p.|1982|
11237|A||Abarzua,A.S., and E. Wittenburg|The Effect of 3,4-Benzopyrene on the Photosynthetic and Respiratory Intensity of the Green Alga Scenedesmus quadricauda|Arch. Hydrobiol.67(2): 213-229|1984|
11238|A||Bebawi,F.F., and B.F. Mohamed|Effects of 2,4-D on Mature and Juvenile Plants of Water Hyacinth (Eichornia crassipes (Mart.) Solms)|Hydrobiologia (Multiple Languages)110:91-93|1984|10.1007/BF00025779
11239|A||Blanck,H., G. Wallin, and S.A. Wangberg|Species-Dependent Variation in Algal Sensitivity to Chemical Compounds|Ecotoxicol. Environ. Saf.8:339-351|1984|10.1016/0147-6513(84)90003-4
11240|A|OECDG|Bruggeman,W.A., A. Opperhuizen, A. Wijbenga, and O. Hutzinger|Bioaccumulation of Super-Lipophilic Chemicals in Fish|Toxicol. Environ. Chem.7:173-189|1984|10.1080/02772248409357024
11241|A||Chromek,J., J. Kupec, M. Mladek, and P. Marvan|A Study of Respiration of the Alga Scenedesmus quadricuada in Batch Conditions Under Influence of N,N-Dimethylformamide and Dimethylamine|Arch. Hydrobiol.63(4): 441-460|1983|
11242|A||Chromek,J., J. Kupec, M. Mladek, and P. Marvan|Respiration of the Alga Scenedesmus quadricauda in Continuous Culture Conditions Under the Influence of Dimethylamine|Arch. Hydrobiol.67(3): 341-348|1984|
11243|A||Daoust,P.Y., G. Wobeser, and J.D. Newstead|Acute Pathological Effects of Inorganic Mercury and Copper in Gills of Rainbow Trout|Vet. Pathol.21:93-101|1984|10.1177/030098588402100116
11244|A||Dave,G.|Effects of Fluoride on Growth, Reproduction and Survival in Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 425-431|1984|10.1016/0742-8413(84)90110-5
11245|A||Francis,B.M., and R.L. Metcalf|Evaluation of Mirex, Photomirex and Chlordecone in the Terrestrial Aquatic Laboratory Model Ecosystem|Environ. Health Perspect.54:341-346|1984|10.1289/ehp.8454341
11246|A||Gaino,E., A. Arillo, and P. Mensi|Involvement of the Gill Chloride Cells of Trout Under Acute Nitrite intoxication|Comp. Biochem. Physiol. A Comp. Physiol.77(4): 611-617|1984|10.1016/0300-9629(84)90171-3
11247|A||Gasith,A., and A.S. Perry|Effect of Containment, Presence of Fish and Repetitive Exposure to Parathion on the Composition and Dynamics of the Natural Fishpond Zooplankton Community|Isr. J. Zool.32:165-166|1983|
11248|A||Gasith,A., A.S. Perry, and A. Halevy|The Effect of Repeated Exposures to Sublethal Levels of Parathion on the Survival, Growth, Reproduction and Biomass Production of Three Species of Fi|In: H.I.Shuval (Ed.), Environmental Quality and Ecology, Vol.2, Balaban Int.Sci.Serv., Rehovot, Israel:399-407 / Dev.Ecol.Environ.Qual.Proc.Int.Meet.Israel Ecol.Soc., 1983:|1983|
11249|A||Gluth,G., and W. Hanke|A Comparison of Physiological Changes in Carp, Cyprinus carpio, Induced by Several Pollutants at Sublethal Concentration - II. The Dependency on|Comp. Biochem. Physiol. C Comp. Pharmacol.79(1): 39-45|1984|10.1016/0742-8413(84)90160-9
11250|A||Goulding,K.H., A.K. Connolly, S.W. Ellis, P. Freeman, and R.C. Kill|The Effect of DDT (1,1,1-Trichloro-2,2 Bis (P-Chlorophenyl) Ethane) on the Cellular Composition of Chlorella fusca|Environ. Pollut. A.34:23-35|1984|10.1016/0143-1471(84)90086-2
11251|A||Gupta,P.K., P.S. Rao, V.S. Mujumdar, and V.S. Durve|Acute Toxicity of Antimycin A, Bayer 73 and 3-Trifluoromethyl-4-Nitrophenol to a Freshwater Teleost Lebistes reticulatus (Peters)|Arch. Hydrobiol.101(4): 601-607|1984|
11252|A||Khangarot,B.S.|Acute Toxicity of Pentachlorophenol and Antimycin to Common Guppy (Lebistes reticulatus Peters)|Indian J. Phys. Nat. Sci.3A:25-29|1983|
11253|A||Fent,K., and W. Meier|Tributyltin-Induced Effects on Early Life Stages of Minnows Phoxinus phoxinus|Arch. Environ. Contam. Toxicol.22(4): 428-438|1992|10.1007/BF00212563
11255|A||Lyon,R., M. Taylor, and K. Simkiss|Metal-Binding Proteins in the Hepatopancreas of the Crayfish (Austropotamobius pallipes)|Comp. Biochem. Physiol. C Comp. Pharmacol.74(1): 51-54|1983|
11256|A||Marshall,J.S., J.I. Parker, D.L. Mellinger, and C. Lei|Bioaccumulation and Effects of Cadmium and Zinc in a Lake Michigan Plankton Community|Can. J. Fish. Aquat. Sci.40(9): 1469-1479|1983|10.1139/f83-169
11257|A||Wekell,J.C., K.D. Shearer, and C.R. Houle|High Zinc Supplementation of Rainbow Trout Diets|Prog. Fish-Cult.45(3): 144-147|1983|10.1577/1548-8659(1983)45[144:HZSORT]2.0.CO;2
11258|A|OECDG|Yoshioka,Y., Y. Ose, and T. Sato|Testing for the Toxicity of Chemicals with Tetrahymena pyriformis|Sci. Total Environ.43(1/2): 149-157|1985|10.1016/0048-9697(85)90037-3
11259|A||Kissa,E., M. Moraitou-Apostolopoulou, and V. Kiortsis|Effects of Four Heavy Metals on Survival and Hatching Rate of Artemia salina (L.)|Arch. Hydrobiol.102(2): 255-264|1984|10.1127/archiv-hydrobiol/102/1984/255
11260|A||Arora,N., and S.K. Kulshrestha|Comparison of the Toxic Effects of Two Pesticides on the Testes of a Fresh Water Teleost Channa striatus BL.|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(4): 435-441|1984|10.1002/aheh.19840120417
11261|A||Bengeri,K.V., K.M. Shivaraj, and H.S. Patil|Toxicity of Dimethyl-Parathion to Freshwater Fish Labeo rohita and Oxygen Uptake Rate of Exposed Fish|Environ. Ecol.2(1): 1-4|1984|
11262|A||Gersich,F.M., C.G. Mendoza, D.L. Hopkins, and K.M. Bodner|Acute and Chronic Toxicity of Triclopyr Triethylamine Salt to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.32(4): 497-502|1984|10.1007/BF01607528
11263|A||Gupta,P.K., and V.S. Durve|A Study on the Effect of Temperature upon the Toxicity of Sodium Pentachlorophenate to the Freshwater Snail Viviparus bengalensis L.|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(4): 369-375|1984|10.1002/aheh.19840120405
11264|A||Hart,K.M.,Jr.|The Maintenance of Structural Integrity in Freshwater Protozoan Communities Under Stress|Hydrobiologia (Multiple Languages)108(2): 171-180|1984|10.1007/BF00014877
11265|A||Hartman,W.A., and D.B. Martin|Effect of Suspended Bentonite Clay on the Acute Toxicity of Glyphosate to Daphnia pulex and Lemna minor|Bull. Environ. Contam. Toxicol.33:355-361|1984|10.1007/BF01625555
11266|A||Hedtke,S.F.|Structure and Function of Copper-Stressed Aquatic Microcosms|Aquat. Toxicol.5:227-244|1984|10.1016/0166-445X(84)90022-5
11267|A||Heldal,M., S. Norland, T. Lien, G. Knutsen, K. Tjessem, and A. Aarberg|Toxic Responses of the Green Alga Dunaliella bioculata (Chlorophycea, Volvocales) to Selected Oxidised Hydrocarbons|Environ. Pollut. A.34:119-132|1984|10.1016/0143-1471(84)90053-9
11269|A||Hirota,R., J. Asada, S. Tajima, and M. Fujiki|Accumulation of Mercury by the Marine Copepod Acartia clausi|Nippon Suisan Gakkaishi (Multiple Languages)48(9): 1249-1251|1983|10.2331/suisan.49.1249
11270|A||Katti,S.R., and A.G. Sathyanesan|Changes in Tissue Lipid and Cholesterol Content in the Catfish Clarias batrachus (L.) Exposed to Cadmium Chloride|Bull. Environ. Contam. Toxicol.32(4): 486-490|1984|10.1007/BF01607526
11271|A||Kikuchi,M., and M. Wakabayashi|Lethal Response of Some Surfactants to Medaka Oryzias latipes with Relation to Chemical Structure|Nippon Suisan Gakkaishi (Multiple Languages)50(7): 1235-1240|1984|10.2331/suisan.50.1235
11272|A||Kleiner,C.F., R.L. Anderson, and D.K. Tanner|Toxicity of Fenitrothion to Fathead Minnows (Pimephales promelas) and Alternative Exposure Duration Studies with Fenitrothion and Endosulfan|Arch. Environ. Contam. Toxicol.13:573-578|1984|10.1007/BF01056335
11273|A||Koyama,J., and H. Ozaki|Hematological Changes of Fish Exposed to Low Concentrations of Cadmium in the Water|Nippon Suisan Gakkaishi (Multiple Languages)50(2): 199-203|1984|10.2331/suisan.50.199
11274|A||Kumaraguru,A.K., and F.W.H. Beamish|Bioenergetics of Acclimation to Permethrin (NRDC-143) by Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol.75(2): 247-252|1983|10.1016/0742-8413(83)90188-3
11275|A||Lunsford,C.A., and C.R. Blem|Annual Cycle of Kepone Residue and Lipid Content of the Estuarine Clam, Rangia cuneata|Estuaries5(2): 121-130|1982|10.2307/1352109
11276|A||Nolan,C.V., and E.J. Duke|Cadmium Accumulation and Toxicity in Mytilus edulis: Involvement of Metallothioneins and Heavy-Molecular Weight Protein|Aquat. Toxicol.4(2):153-163|1983|10.1016/0166-445X(83)90052-8
11277|A||Soivio,A., S. Lindgren, and A. Oikari|Seasonal Changes in Certain Metabolic and Haematologic Responses of Salmo gairdneri Acutely Exposed to Dehydroabietic Acid (DHAA)|Comp. Biochem. Physiol. C Comp. Pharmacol.75(2): 281-284|1983|10.1016/0742-8413(83)90193-7
11278|A||Sugatt,R.H., D.P. O'Grady, and S. Banerjee|Toxicity of Organic Mixtures Saturated in Water to Daphnia magna. Effect of Compositional Changes|Chemosphere13(1): 11-18|1984|10.1016/0045-6535(84)90004-3
11279|A||Tan,B., and P. Melius|Effects of 3-Methylcholanthrene on the Hepatic Microsomal Enzymes in a Teleost, Tilapia aurea|Bull. Environ. Contam. Toxicol.31(3): 292-296|1983|10.1007/BF01608701
11280|A||Knoph,M.B.|Acute Toxicity of Ammonia to Atlantic Salmon (Salmo salar) Parr|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 275-282|1992|10.1016/0742-8413(92)90273-A
11281|A||Pimprikar,G.D., J.E.,Jr. Fondren, D.S. Greer, and J.R. Heitz|Toxicity of Xanthene Dyes to Larvae of Culex pipiens L. and Aedes triseriatus S. and Predatory Fish, Gambusia affinis|Southwest. Entomol.9(2): 218-222|1984|
11282|A||Saha,M.K., and S.K. Konar|Acute Toxicity of Some Petroleum Pollutants to Plankton and Fish|Environ. Ecol.1(1): 117-119|1983|
11283|A||Wepener,V., J.H.J. Van Vuren, and H.H. Du Preez|The Effect of Hexavalent Chromium at Different pH Values on the Haematology of Tilapia sparrmanii (Cichlidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 375-381|1992|10.1016/0742-8413(92)90290-N
11285|A||Brinkhurst,R.O., P.M. Chapman, and M.A. Farrell|A Comparative Study of Respiration Rates of Some Aquatic Oligochaetes in Relation to Sublethal Stress|Int. Rev. Gesamten Hydrobiol.68(5): 683-699|1983|10.1002/iroh.3510680509
11286|A||Ahmad,G., and G. Srivastava|The Toxicity of Methylene Blue to Catfish, Heteropneustes fossilis and Mystus (Mystus) vittatus|Sci. Total Environ.5(1/2): 25-32|1983|
11287|A||Rojik,I., J. Nemcsok, and L. Boross|Morphological and Biochemical Studies on Liver, Kidney and Gill of Fishes Affected by Pesticides|Acta Biol. Hung.34(1): 81-92|1983|
11288|A||Arora,A., and A.B. Gupta|The Effect of Copper Sulphate on Formation of Separation Discs in Oscillatoria spec.|Arch. Hydrobiol.96(2): 261-266|1983|
11289|A||Goldsborough,L.G., and G.G.C. Robinson|The Effect of Two Triazine Herbicides on the Productivity of Freshwater Marsh Periphyton|Aquat. Toxicol.4(2): 95-112|1983|10.1016/0166-445X(83)90048-6
11290|A||Brockway,D.L., P.D. Smith, and F.E. Stancil|Fate and Effects of Atrazine in Small Aquatic Microcosms|Bull. Environ. Contam. Toxicol.32(3): 345-353|1984|10.1007/BF01607508
11291|A||Alderman,D.J.|The Toxicity of Iodophors to Salmonid Eggs|Aquaculture40:7-16|1984|10.1016/0044-8486(84)90211-4
11292|A||Dial,N.A., and C.A. Bauer|Teratogenic and Lethal Effects of Paraquat on Developing Frog Embryos (Rana pipiens)|Bull. Environ. Contam. Toxicol.33:592-597|1984|10.1007/BF01625589
11293|A||Adams,N., and A.J. Dobbs|A Comparison of Results from Two Test Methods for Assessing the Toxicity of Aminotriazole to Selenastrum capricornutum|Chemosphere13(8): 965-971|1984|10.1016/0045-6535(84)90171-1
11294|A||Gibbs,K.E., T.M. Mingo, and D.L. Courtemanch|Persistence of Carbaryl (Sevin-4-Oil) in Woodland Ponds and its Effects on Pond Macroinvertebrates Following Forest Spraying|Can. Entomol.116:203-213|1984|10.4039/Ent116203-2
11295|A||Kulkarni,A.B., and V.N. Utkar|Effect of Molluscicide on the Biochemical Composition of the Tissues in the Fresh Water Prosobranch Snail, Viviparus bengalensis (Lamarck)|J. Environ. Biol.4(4): 215-220|1983|
11296|A||Ansari,I.A., and G.J. Srivastava|Histopathological Changes in the Gills of Mystus (M.) vittatus (Bloch) Induced by Sodium Nitrite|J. Environ. Biol.5(2): 89-93|1984|
11297|A||Geyer,H., G. Politzki, and D. Freitag|Prediction of Ecotoxicological Behaviour of Chemicals:  Relationship Between N-Octanol/Water Partition Coefficient and Bioaccumulation of Organic Chemicals by Alga Chlorella|Chemosphere13(2): 269-283|1984|10.1016/0045-6535(84)90134-6
11298|A||Rai,R., and M.A. Qayyum|Haematological Responses in a Freshwater Fish to Experimental Lead Poisoning|J. Environ. Biol.5(1): 53-56|1984|
11299|A||Dokholyan,B.K., and A.K. Magomedov|Effect of Sodium Naphthenate on Survival and Some Physiological-Biochemical Parameters of Some Fishes|J. Ichthyol.23:125-132|1983|
11300|A||Doughtie,D.G., and K.R. Rao|Histopathological and Ultrastructural Changes in the Antennal Gland, Midgut, Hepatopancreas, and Gill of Grass Shrimp Following Exposure to Hexavalent Chromium|J. Invertebr. Pathol.43(1): 89-108|1984|10.1016/0022-2011(84)90067-3
11301|A||Brochiero,E., J. Bonaly, and J.C. Mestre|Toxic Action of Hexavalent Chromium on Euglena gracilis Cells Strain Z Grown Under Heterotrophic Conditions|Arch. Environ. Contam. Toxicol.13:603-608|1984|10.1007/BF01056339
11302|A||Gotsis,O.|Combined Effects of Selenium/Mercury and Selenium/Copper on the Cell Population of the Alga Dunaliella minuta|Mar. Biol.71(3): 217-222|1982|10.1007/BF00397038
11303|AT||Eidt,D.C., A.J. Sosiak, and V.N. Mallet|Partitioning and Short-Term Persistence of Fenitrothion in New Brunswick (Canada) Headwater Streams|Arch. Environ. Contam. Toxicol.13:43-52|1984|10.1007/BF01055645
11304|A||Mason,A.Z., and K.D. Jenkins|Effects of Feeding on Zinc and Cadmium Accumulation by the Polychaete Neanthes arenaceodentata|Chem. Spec. Bioavail.2:33-47|1990|10.1080/09542299.1990.11083123
11305|A||Ahsanullah,M., and G.W. Brand|Effect of Selenite and Seleniferous Fly-Ash Leachate on Growth and Viability of the Marine Amphipod Allorchestes compressa|Mar. Biol.89(3): 245-248|1985|10.1007/BF00393657
11306|A||Arora,N., and S.K. Kulshrestha|Effects of Chronic Exposure to Sublethal Doses of Two Pesticides on Alkaline and Acid Phosphatase Activities in the Intestine of a Fresh Water Teleost, Channa striatus BL. (Channidae)|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(5): 619-624|1985|10.1002/aheh.19850130513
11307|A||Bhagyalakshmi,A., P.S. Reddy, and R. Ramamurthi|In Vivo Sub-Acute Physiological Stress Induced by Sumithion on Some Aspects of Oxidative Metabolism in the Fresh Water Crab|Water Air Soil Pollut.23(3): 257-262|1984|10.1007/BF00283202
11308|A||Bhagyalakshmi,A., P.S. Reddy, and R. Ramamurthi|Changes in Hemolymph Glucose, Hepatopancreas Glycogen, Total Carbohydrates, Phosphorylase and Amino Transferases of Sumithion-Stressed Freshwater Rice-Field Crab (Oziotelphusa senex senex)|Toxicol. Lett.18(3): 277-284|1983|10.1016/0378-4274(83)90107-8
11309|A||Bonates,A.B.I., and S. Ferri|Cadmium Induced Intercellular Junction Modifications in Hepatocytes of a Freshwater Teleost|Zool. Anz. (Multiple Languages)208(3-4): 269-275|1982|
11310|A||Bradley,R.W., and J.B. Sprague|The Influence of pH, Water Hardness, and Alkalinity on the Acute Lethality of Zinc to Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.42:731-736|1985|10.1139/f85-094
11311|A||Brown,D.A., and T.R. Parsons|Relationship Between Cytoplasmic Distribution of Mercury and Toxic Effects to Zooplankton and Chum Salmon (Oncorhynchus keta) Exposed to Mercury in a Controlled Ecosystem|J. Fish. Res. Board Can.35(6): 880-884|1978|10.1139/f78-141
11312|A||Brown,J.A., P.H. Johansen, P.W. Colgan, and R.A. Mathers|Changes in the Predator-Avoidance Behaviour of Juvenile Guppies (Poecilia reticulata) Exposed to Pentachlorophenol|Can. J. Zool.63(9): 2001-2005|1985|10.1139/z85-294
11313|A||Cardeilhac,P.T., C.F. Simpson, R.L. Lovelock, S.F. Yosha, H.W. Calderwood, and J.C. Gudat|Failure of Osmoregulation with Apparent Potassium Intoxication in Marine Teleosts:  A Primary Toxic Effect of Copper|Aquaculture17(3): 231-239|1979|10.1016/0044-8486(79)90126-1
11314|A||Chui,Y.C., M.M. Hansell, R.F. Addison, and F.C.P. Law|Effects of Chlorinated Diphenyl Ethers on the Mixed-Function Oxidases and Ultrastructure of Rat and Trout Liver|Toxicol. Appl. Pharmacol.81(2): 287-294|1985|10.1016/0041-008X(85)90165-6
11315|A||Cooney,J.D., and C.W. Gehrs|Effects of Temperature, Feeding and Acridine on Development and Mortality of Eggs and Nauplii of Diaptomus clavipes Schacht|Aquat. Toxicol.5(3): 197-209|1984|10.1016/0166-445X(84)90020-1
11316|A||Cripe,G.M., L.R. Goodman, and D.J. Hansen|Effect of Chronic Exposure to EPN and to Guthion on the Critical Swimming Speed and Brain Acetylcholinesterase Activity of Cyprinodon variegatus|Aquat. Toxicol.5(3): 255-266|1984|10.1016/0166-445X(84)90024-9
11318|A||Dixon,D.G., and J.W. Hilton|Effects of Available Dietary Carbohydrate and Water Temperature on the Chronic Toxicity of Waterborne Copper to Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.42:1007-1013|1985|10.1139/f85-126
11319|A||Eyster,L.S., and M.P. Morse|Development of the Surf Clam (Spisula solidissima) Following Exposure of Gametes, Embryos, and Larvae to Silver|Arch. Environ. Contam. Toxicol.13(5): 641-646|1984|10.1007/BF01056344
11320|A||Fingerman,S.W., and E.C.,Jr. Short|Changes in Neurotransmitter Levels in Channel Catfish After Exposure to Benzo(a)pyrene, Naphthalene, and Aroclor 1254|Bull. Environ. Contam. Toxicol.30(2): 147-151|1983|10.1007/BF01610113
11321|A||Fingerman,S.W., L.A. Brown, M. Lynn, and E.C.,Jr. Short|Responses of Channel Catfish to Xenobiotics: Induction and Partial Characterization of a Mixed Function Oxygenase|Arch. Environ. Contam. Toxicol.12(2): 195-201|1983|10.1007/BF01059581
11322|A||Foster,G.D., and R.E. Tullis|A Quantitative Structure-Activity Relationship Between Partition Coefficients and the Acute Toxicity of Naphthalene Derivatives in Artemia salina Nauplii|Aquat. Toxicol.5(3): 245-254|1984|10.1016/0166-445X(84)90023-7
11323|A||Foster,G.D., and R.E. Tullis|Quantitative Structure-Toxicity Relationships with Osmotically Stressed Artemia salina Nauplii|Environ. Pollut. A.38:273-281|1985|10.1016/0143-1471(85)90132-1
11324|A||Hilmy,A.M., M.B. Shabana, and M.M. Saied|The Role of Serum Transaminases (SGO-T and SGP-T) and Alkaline Phosphatases in Relation to Inorganic Phosphorus with Respect to Mercury Poisoning in Aphanius dispar Rupp (Teleostei) of the Red Sea|Comp. Biochem. Physiol. C Comp. Pharmacol.68(1): 69-74|1981|10.1016/0306-4492(81)90039-3
11325|A||Mourad,M.H.|Effects of Lindane on the Electrocardiogram of Eel, Anguilla anguilla L.|Acta Ichthyol. Piscat.20(2): 77-84|1990|10.3750/AIP1990.20.2.05
11326|A||Hilmy,A.M., M.B. Shabana, and M.M. Saied|A Comparative Study of Mercury Poisoning on Aphanius dispar (Teleostei), Sergestes lucens (Crustacea) and Modiolus modiolus (Mollusca) of the Red Sea|Comp. Biochem. Physiol. C Comp. Pharmacol.68:199-204|1981|10.1016/0306-4492(81)90016-2
11327|A||Kobayashi,K., and N. Nakamura|Major Detoxification Pathways for Pentachlorophenol in Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)45(9): 1185-1188|1979|10.2331/suisan.45.1185
11328|A||Lanno,R.P., S.J. Slinger, and J.W. Hilton|Maximum Tolerable and Toxicity Levels of Dietary Copper in Rainbow Trout (Salmo gairdneri Richardson)|Aquaculture49(3-4): 257-268|1985|10.1016/0044-8486(85)90084-5
11329|A||Lanno,R.P., S.J. Slinger, and J.W. Hilton|Effect of Ascorbic Acid on Dietary Copper Toxicity in Rainbow Trout (Salmo gairdneri Richardson)|Aquaculture49(3-4): 269-287|1985|10.1016/0044-8486(85)90085-7
11330|A||Lobel,P.B., and J.F. Payne|An Evaluation of Mercury-203 for Assessing the Induction of Metallothionein-Like Proteins in Mussels Exposed to Cadmium|Bull. Environ. Contam. Toxicol.33(2): 144-152|1984|10.1007/BF01625524
11331|A||Lussier,S.M., J.H. Gentile, and J. Walker|Acute and Chronic Effects of Heavy Metals and Cyanide on Mysidopsis bahia (Crustacea:  Mysidacea)|Aquat. Toxicol.7(1/2): 25-35|1985|10.1016/0166-445X(85)90034-7
11332|A||Mathers,R.A., J.A. Brown, and P.H. Johansen|The Growth and Feeding Behaviour Responses of Largemouth Bass (Micropterus salmoides) Exposed to PCP|Aquat. Toxicol.6:157-164|1985|10.1016/0166-445X(85)90001-3
11333|A||Murti,R., Omkar, and G.S. Shukla|Chromium Toxicity to a Freshwater Prawn Macrobrachium lamarrei (H.M.Edwards)|Toxicol. Lett.18(3): 257-261|1983|10.1016/0378-4274(83)90103-0
11334|A||Palawski,D., J.B. Hunn, and F.J. Dwyer|Sensitivity of Young Striped Bass to Organic and Inorganic Contaminants in Fresh and Saline Waters|Trans. Am. Fish. Soc.114(5): 748-753|1985|10.1577/1548-8659(1985)114<748:SOYSBT>2.0.CO;2
11335|A||Pedder,S.C.J., and E.J. Maly|The Effect of Lethal Copper Solutions on the Behavior of Rainbow Trout, Salmo gairdneri|Arch. Environ. Contam. Toxicol.14(4): 501-507|1985|10.1007/BF01055537
11336|A||Pillai,K.S., and U.H. Mane|The Effect of Fluoride on Fertilized Eggs of a Freshwater Fish, Catla catla (Hamilton)|Toxicol. Lett.22(2): 139-144|1984|10.1016/0378-4274(84)90057-2
11338|A||Prabhu,N.V., and M.K. Hamdy|Behavior of Mercury in Biosystems. I. Uptake and Concentration in Food-Chain|Bull. Environ. Contam. Toxicol.18(4): 409-417|1977|10.1007/BF01683709
11339|A||Rachlin,J.W., T.E. Jensen, and B. Warkentine|The Toxicological Response of the Alga Anabaena flos-aquae (Cyanophyceae) to Cadmium|Arch. Environ. Contam. Toxicol.13(2): 143-151|1984|10.1007/BF01055871
11340|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Effect of Sumithion on Ovarian Growth of a Fresh Water Rice Field Crab (Oziotelphusa senex senex Fabricius)|Toxicol. Lett.18(3): 273-276|1983|10.1016/0378-4274(83)90106-6
11341|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|In Vivo Subacute Physiological Stress Induced by Sumithion on the Hepatopancreatic Acid Phosphatase Activity in the Fresh Water Crab (Oziotelphusa|Water Air Soil Pollut.22(3): 299-302|1984|10.1007/BF00159351
11342|A||Rodgers,D.W., and F.W.H. Beamish|Dynamics of Dietary Methylmercury in Rainbow Trout, Salmo gairdneri|Aquat. Toxicol.2(5/6): 271-290|1982|10.1016/0166-445X(82)90016-9
11343|A||Russell,L.C., and M. Fingerman|Exposure to the Water Soluble Fraction of Crude Oil or to Naphthalenes Alters Breathing Rates in Gulf Killifish, Fundulus grandis|Bull. Environ. Contam. Toxicol.32(3): 363-367|1984|10.1007/BF01607510
11344|A||Saarikoski,J., and M. Viluksela|Influence of pH on the Toxicity of Substituted Phenols to Fish|Arch. Environ. Contam. Toxicol.10(6): 747-753|1981|10.1007/BF01054858
11345|A||Shukla,J.P., U.N. Dwivedi, P. Tewari, and M. Prasad|Deleterious Effects of Arsenic on the Nucleic Acids and Protein Metabolism in the Liver of Heteropneustes fossilis (Bl.)-a Freshwater Teleost|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(5): 611-614|1985|10.1002/aheh.19850130511
11346|A||Singh,V.P., S. Gupta, and P.K. Saxena|Evaluation of Acute Toxicity of Carbaryl and Malathion to Freshwater Teleosts, Channa punctatus (Bloch) and Heteropneustes fossilis (Bloch)|Toxicol. Lett.20(3): 271-276|1984|10.1016/0378-4274(84)90159-0
11347|A||Somero,G.N., T.J. Chow, P.H. Yancey, and C.B. Snyder|Lead Accumulation Rates in Tissues of the Estuarine Teleost Fish, Gillichthys mirabilis:  Salinity and Temperature Effects|Arch. Environ. Contam. Toxicol.6(2-3): 337-348|1977|10.1007/BF02097774
11348|A||Somero,G.N., P.H. Yancey, T.J. Chow, and C.B. Snyder|Lead Effects on Tissue and Whole Organism Respiration of the Estuarine Teleost Fish, Gillichthys mirabilis|Arch. Environ. Contam. Toxicol.6(2/3): 349-354|1977|10.1007/BF02097775
11349|A||Szeto,S.Y., K.M.S. Sundaram, and J. Feng|Inhibition of Brain ACHE in Brook Trout by Aminocarb and its Toxic Metabolites|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(5): 559-575|1985|
11350|A||Spry,D.J., and C.M. Wood|Ion Flux Rates, Acid-Base Status, and Blood Gases in Rainbow Trout, Salmo gairdneri, Exposed to Toxic Zinc in Natural Soft Water|Can. J. Fish. Aquat. Sci.42:1332-1341|1985|10.1139/f85-168
11351|A||Takimoto,Y., M. Ohshima, H. Yamada, and J. Miyamoto|Fate of Fenitrothion in Several Developmental Stages of the Killifish (Oryzias latipes)|Arch. Environ. Contam. Toxicol.13(5): 579-587|1984|10.1007/BF01056336
11352|A||Wagner,G.F., and B.A. McKeown|Changes in Plasma Insulin and Carbohydrate Metabolism of Zinc-Stressed Rainbow Trout, Salmo gairdneri|Can. J. Zool.60(9): 2079-2084|1982|10.1139/z82-266
11353|A||Walsh,G.E., L.L. McLaughlan, E.M. Lores, M.K. Louie, and C.H. Deans|Effects of Organotins on Growth and Survival of Two Marine Diatoms, Skeletonema costatum and Thalassiosira pseudonana|Chemosphere14(3/4): 383-392|1985|10.1016/0045-6535(85)90063-3
11354|A||Watras,C.J., J. MacFarlane, and F.M.M. Morel|Nickel Accumulation by Scenedesmus and Daphnia: Food-Chain Transport and Geochemical Implications|Can. J. Fish. Aquat. Sci.42:724-730|1985|10.1139/f85-093
11355|A||Winner,R.W.|The Toxicity and Bioaccumulation of Cadmium and Copper as Affected by Humic Acid|Aquat. Toxicol.5(3): 267-274|1984|10.1016/0166-445X(84)90025-0
11356|A||Yamane,A.N., M. Okada, and R. Sudo|Growth Inhibition of Planktonic Algae Due to Surfactants Used in Washing Agents|Water Res.18(9): 1101-1105|1984|10.1016/0043-1354(84)90224-0
11357|A||Weis,P.|Metallothionein and Mercury Tolerance in the Killifish, Fundulus heteroclitus|Mar. Environ. Res.14(1-4): 153-166|1984|10.1016/0141-1136(84)90076-X
11358|A||Gutierrez,M., M.C. Sarasquete, and R. Establier|Note About the Effect of Inorganic Mercury (HgCl2) on Chromosomes of Toadfish, Halobatrachus didactylus S.|Invest. Pesq.48(2): 181-185|1984|
11359|A||Ansari,B.A., and K. Kumar|Malathion Toxicity: In Vivo Inhibition of Acetylcholinesterase in the Fish Brachydanio rerio (Cyprinidae)|Toxicol. Lett.20:283-287|1984|10.1016/0378-4274(84)90161-9
11360|A||Lohmann,E., and H. Hagedorn|The Effect of Parathion on Green Algae. I. Uptake of Parathion|Appl. Microbiol. Biotechnol.22:268-272|1985|10.1007/BF00252029
11361|A||Bakthavathsalam,R., and Y.S. Reddy|Changes in Bimodal Oxygen Uptake of an Obligate Air Breather Anabas testudineus (Bloch) Exposed to Lindane|Water Res.17(10): 1221-1226|1983|10.1016/0043-1354(83)90245-2
11362|A||Bielinska,I., and J. Terlecki|Dielectric Studies on the Reaction of the Intracellular Matter of Fish Red Blood Cells to Detergent Toxicity|Phys. Med. Biol.29(5): 525-534|1984|10.1088/0031-9155/29/5/005
11363|A||Cooney,J.D., J.J. Beauchamp, and C.W. Gehrs|Effects of Temperature and Nutritional State on the Acute Toxicity of Acridineto the Calanoid Copepod, Diaptomus clavipes Schacht|Environ. Toxicol. Chem.2:431-439|1983|10.1002/etc.5620020408
11364|A||Cooney,J.D., D.L. Bunting II, and C.W. Gehrs|Effects of Acridine and Temperature on the Survival, Development, Growth, and Reproduction of Diaptomus clavipes Schacht|Arch. Environ. Contam. Toxicol.13:665-674|1984|10.1007/BF01055929
11365|A||Darville,R.G., H.J. Harmon, M.R. Sanborn, and J.L. Wilhm|Effect of Naphthalene on the Hemolymph Ion Concentrations of Chironomus attenuatus and the Possible Mode of Action|Environ. Toxicol. Chem.2:423-429|1983|10.1897/1552-8618(1983)2[423:EONOTH]2.0.CO;2
11366|A||Dumitru,I.F., D. Iordachescu, and A. Denischiotu|The Influence of Sodium Dodecyl Sulfate on Lactate Dehydrogenase in the White Muscle of Carassius auratus gibelio|Rev. Roum. Biochim.20:151-159|1983|
11367|A||Fredeen,F.J.H.|Trends in Numbers of Aquatic Invertebrates in a Large Canadian River During Four Years of Black Fly Larviciding with Methoxychlor (Diptera:  Simuliidae)|Quaest. Entomol.19:53-92|1983|
11368|A||Ghate,H.V.|Notochordal Anomaly in Frog Embryos Exposed to Tetraethylthiuram Monosulphide and Tetraethylthiuram Disulphide|Toxicol. Lett.19:253-259|1983|10.1016/0378-4274(83)90127-3
11369|A||Haritonidis,S., H.J. Jager, and H.O. Schwantes|Accumulation of Cadmium, Zinc, Copper and Lead by Marine Macrophyceae Under Culture Conditions|Angew. Bot. (Multiple Languages)57(5-6): 311-330|1983|
11370|A||Hawkins,P.R., and D.J. Griffiths|Uptake and Retention of Copper by Four Species of Marine Phytoplankton|Bot. Mar.25(11): 551-554|1982|
11371|A||Hussain,M.A., R.B. Mohamad, and P.C. Oloffs|Toxicity and Metabolism of Acephate in Adult and Larval Insects|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(3): 355-377|1984|
11372|A||Juarez,L.M., and D.B. Rouse|Acute Toxicity of Trichlorfon to Juvenile Freshwater Prawn|Prog. Fish-Cult.45(4): 214-216|1983|10.1577/1548-8659(1983)45[214:ATOTTJ]2.0.CO;2
11373|A||Katti,S.R., and A.G. Sathyanesan|Lead Nitrate Induced Changes in Lipid and Cholesterol Levels in the Freshwater Fish Clarias batrachus|Toxicol. Lett.19:93-96|1983|10.1016/0378-4274(83)90267-9
11374|A||Kime,D.E.|The Effect of Cadmium on Steroidogenesis by Testes of the Rainbow Trout, Salmo gairdneri|Toxicol. Lett.22:83-88|1984|10.1016/0378-4274(84)90049-3
11376|A||Mortimer,D.C., and A. Kudo|Interaction Between Aquatic Plants and Bed Sediments in Mercury Uptake from Flowing Water|J. Environ. Qual.4(4): 491-495|1975|10.2134/jeq1975.00472425000400040014x
11377|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|In Vivo Acute Physiological Stress Induced by BHC on Hemolymph Biochemistry of Oziotelphusa senex senex, the Indian Rice Field Crab|Toxicol. Lett.18(1/2): 35-38|1983|10.1016/0378-4274(83)90067-X
11378|A||Ammann,H.M., and B. Terry|Effect of Aniline on Chlorella vulgaris|Bull. Environ. Contam. Toxicol.35:234-239|1985|10.1007/BF01636504
11379|A||Branson,D.R., I.T. Takahashi, W.M. Parker, and G.E. Blau|Bioconcentration Kinetics of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rainbow Trout|Environ. Toxicol. Chem.4(6): 779-788|1985|
11380|A||Boike,A.H.,Jr., C.B.,Jr. Rathburn, K.L. Lang, H.M. Masters, and T.G. Floore|Current Status on the Florida Abate Monitoring Program - Susceptibility Levels of Three Species of Mosquitoes During 1984|Am. Mosq. Control Assoc. J.1(4): 498-501|1985|
11381|A||Carvalho,F.P., and S.W. Fowler|Biokinetics of Plutonium, Americium and Californium in the Marine Isopod Cirolana borealis, with Observations on its Feeding and Molting Behavior|Mar. Biol.89(2): 173-181|1985|10.1007/BF00392888
11382|A||Dave,G.|Effects of Waterborne Iron on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 433-438|1984|10.1016/0742-8413(84)90111-7
11383|A||Dave,G.|Effects of Copper on Growth, Reproduction, Survival and Haemoglobin in Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 439-443|1984|10.1016/0742-8413(84)90112-9
11384|A||Depledge,M.H.|Disruption of Circulatory and Respiratory Activity in Shore Crabs (Carcinus maenas (L.)) Exposed to Heavy Metal Pollution|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 445-459|1984|10.1016/0742-8413(84)90113-0
11385|A||Dixon,D.G., C.E.A. Hill, P.V. Hodson, E.J. Kempe, and K.L.E. Kaiser|Plasma Leucine Aminonaphthylamidase as an Indicator of Acute Sublethal Toxicant Stress in Rainbow Trout|Environ. Toxicol. Chem.4(6): 789-796|1985|10.1002/etc.5620040610
11386|A||Frost,S., and L.B. Sinniah|Effect of Particulate Abate Insecticide on Invertebrate Stream Drift Communities in Newfoundland|Int. J. Environ. Stud.19(3-4): 231-243|1982|10.1080/00207238208709996
11387|A||Fukuda,Y.|Specific Reaction of Gold Fish Gills Exposed to Linear Alkylbenzenesulfonate|Jpn. J. Ichthyol.30(3): 268-274|1983|
11388|A||Galizio,M., R.L. Woodard, and J. Keith|Effects of Ethanol and Naltrexone on Aggressive Display in the Siamese Fighting Fish, Betta splendens|Alcohol2(5): 637-640|1985|10.1016/0741-8329(85)90138-7
11389|A||Gersich,F.M.|Evaluation of a Static Renewal Chronic Toxicity Test Method for Daphnia magna Straus Using Boric Acid|Environ. Toxicol. Chem.3(1): 89-94|1984|10.1002/etc.5620030111
11390|A||Vigano,L., A. Arillo, M. Bagnasco, C. Bennicelli, and F. Melodia|Xenobiotic Metabolizing Enzymes in Uninduced and Induced Rainbow Trout (Oncorhynchus mykiss): Effects of Diets and Food Deprivation|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 51-55|1993|10.1016/0742-8413(93)90110-7
11391|A||Gupta,A.K., S.S. Dhillon, I.P. Tonk, and S.R. Verma|Short Term Effects of Aldrin and Swascofix CD-38 on the Feeding and Respiratory Behaviours of Clarias batrachus and Cirrhina mrigala|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(4): 423-438|1983|10.1002/aheh.19830110406
11392|A||Agarwal,H.C., D.M. Saxena, and R. Lal|Accumulation and Metabolism of DDT and its Metabolites by Tetrahymena|Water Air Soil Pollut.18(4): 441-447|1982|10.1007/BF02426051
11393|A||Harris,G.J., and E. Morgan|The Effects of Ethanol, Valinomycin and Cycloheximide on the Endogenous Circa-Tidal Rhythm of the Estuarine Amphipod Corophium volutator (Pallas)|Mar. Behav. Physiol.10(3): 219-233|1984|10.1080/10236248409378619
11394|A||Henry,M., W. Huang, C. Cornet, M. Belluau, and J.P. Durbec|Accidental Contamination by Cadmium of the Mollusc Ruditapes decussatus: Bioaccumulation and Toxicity (LD50, 96H)|Oceanol. Acta7(3): 329-335|1984|
11395|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|"""Man and Biosphere"" - Studies on the Sikkim Himalayas.  Part 4:  Effects of Chelating Agent EDTA on the Acute Toxicity of Copper and Zinc on Tadpoles of the Frog Rana hexadactyla"|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(1): 121-125|1985|10.1002/aheh.19850130119
11397|A||Kuiper,J., and A.O. Hanstveit|Fate and Effects of 4-Chlorophenol and 2,4-Dichlorophenol in Marine Plankton Communities in Experimental Enclosures|Ecotoxicol. Environ. Saf.8(1): 15-33|1984|10.1016/0147-6513(84)90039-3
11398|A||Kuiper,J., and A.O. Hanstveit|Fate and Effects of 3,4-Dichloroaniline (DCA) in Marine Plankton Communities in Experimental Enclosures|Ecotoxicol. Environ. Saf.8(1): 34-54|1984|10.1016/0147-6513(84)90040-X
11399|A||Luoma,S.N., D.J. Cain, K. Ho, and A. Hutchinson|Variable Tolerance to Copper in Two Species From San Francisco Bay|Mar. Environ. Res.10(4): 209-222|1983|10.1016/0141-1136(83)90002-8
11400|A||MacKenzie,D., G.J. Sirons, and R. Frank|Cyanatryn: Degradation and Effectiveness in Controlling Aquatic Plants|Bull. Environ. Contam. Toxicol.35(5): 666-672|1985|10.1007/BF01636571
11401|A||McCarthy,J.F., B.D. Jimenez, and T. Barbee|Effect of Dissolved Humic Material on Accumulation of Polycyclic Aromatic Hydrocarbons: Structure-Activity Relationships|Aquat. Toxicol.7:15-24|1985|10.1016/0166-445X(85)90033-5
11402|A||McCarthy,J.F., and B.D. Jimenez|Reduction in Bioavailability to Bluegills of Polycyclic Aromatic Hydrocarbons Bound to Dissolved Humic Material|Environ. Toxicol. Chem.4:511-521|1985|10.1002/etc.5620040411
11403|A||Mulla,M.S., H.A. Darwazeh, L. Ede, and B. Kennedy|Laboratory and Field Evaluation of the IGR Fenoxycarb Against Mosquitoes|Am. Mosq. Control Assoc. J.1(4): 442-448|1985|
11404|A||Nebeker,A.V., M.A. Cairns, and C.M. Wise|Relative Sensitivity of Chironomus tentans Life Stages to Copper|Environ. Toxicol. Chem.3(1): 151-158|1984|10.1002/etc.5620030117
11405|A||Novak,R.J., D.J. Gubler, and D. Underwood|Evaluation of Slow-Release Formulations of Temephos (Abate) and Bacillus thuringiensis var. israelensis for the Control of Aedes aegypti in Puerto Rico|Am. Mosq. Control Assoc. J.1(4): 449-453|1985|
11406|A||O'Neal,S.W., and C.A. Lembi|Effect of Simazine on Photosynthesis and Growth of Filamentous Algae|Weed Sci.31(6): 899-903|1983|10.1017/S0043174500070958
11407|A||Pandey,A.K., and V. Tomar|Melanophores in Bufo melanostictus (Schneider) Tadpoles Following Exposure to the Insecticide Dimethoate|Bull. Environ. Contam. Toxicol.35(6): 796-801|1985|10.1007/BF01636590
11408|A||Peichl,L., J.P. Lay, and F. Korte|Effects of Dichlobenil and Atrazine to the Population Density of Zooplankton in an Aquatic Outdoor System (Wirkung von Dichlobenil und Atrazin auf die Populationsdichte von Zooplankton in Einem Aquatischen Freilandsyste|Z. Wasser-Abwasser-Forsch. (Multiple Languages)17:134-145|1984|
11409|A||Rhodes,L., E. Casillas, B. McKnight, W. Gronlund, M. Myers, O.P. Olson, and B. McCain|Interactive Effects of Cadmium, Polychlorinated Biphenyls, and Fuel Oil on Experimentally Exposed English Sole (Parophrys vetulus)|Can. J. Fish. Aquat. Sci.42(12): 1870-1880|1985|10.1139/f85-235
11410|A||Robison,W.R., S.H. Newton, and M.V. Meisch|Effect of Selected Sodium Chloride Concentrations for Minimizing Mortality of Mosquitofish Gambusia affinis in Holding Tanks|Mosq. News42(3): 440-442|1982|
11411|A||Shukla,J.P., and K. Pandey|Carbamide Induced Histological Alterations During Different Phases of the Testicular Cycle of a Freshwater Perch, Colisa fasciatus (Bl. & Sch.)|Bull. Inst. Zool. Acad. Sin. (Taipei)23(2): 181-186|1984|
11412|A||Shukla,J.P., and K. Pandey|Toxicity and Long-Term Effect of Arsenic on the Gonadal Protein Metabolism in a Tropical Freshwater Fish, Colisa fasciatus (Bl. & Sch.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(1): 127-131|1985|10.1002/aheh.19850130120
11413|A||Spencer,D.F.|Oxygen Consumption by the Crayfish Orconectes propinquus (Girard) Exposed to Aquashade|Bull. Environ. Contam. Toxicol.33(3): 373-378|1984|10.1007/BF01625557
11414|A||Stuart,R.J., and J.B. Robertson|Acute Toxicity of Pentachlorophenol to the Freshwater Snail, Gillia altilis|Bull. Environ. Contam. Toxicol.35(5): 633-640|1985|10.1007/BF01636566
11415|A||Takahashi,R.M., W.H. Wilder, and T. Miura|Field Evaluations of ISA-20E for Mosquito Control and Effects on Aquatic Nontarget Arthropods in Experimental Plots|Mosq. News44(3): 363-367|1984|
11416|A||Weis,J., P. Weis, and M. Heber|Variation in Response to Methylmercury by Killifish (Fundulus heteroclitus) Embryos|ASTM Spec. Tech. Publ.:109-119|1982|
11417|A||Weis,J.S.|Cadmium Acclimation and Limb Regeneration in the Fiddler Crab, Uca pugilator: Sex Differences|Mar. Environ. Res.16:199-214|1985|10.1016/0141-1136(85)90138-2
11418|A||Weis,J.S., P. Weis, M. Renna, and S. Vaidya|Search for a Physiological Component of Methylmercury Tolerance in the Mummichog, Fundulus heteroclitus|In: F.J.Vernberg, F.Thurberg, A.Calabrese, and W.B.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances, Univ.South Carolina Press, Columbia,SC:309-326|1985|
11419|A||Weis,J.S., P. Weis, and J.L. Ricci|Effects of Cadmium, Zinc, Salinity, and Temperature on the Teratogenicity of Methylmercury to the Killifish (Fundulus heteroclitus)|Rapp. P. V. Reun. Comm. Int. Explor. Sci. Mer Mediterr.178:64-70|1981|
11420|A||Weis,P., and J.S. Weis|Cadmium Acclimation and Hormesis in Fundulus heteroclitus During Fin Regeneration|Environ. Res.39:356-363|1986|10.1016/S0013-9351(86)80061-5
11422|A||Bower,S.M., L. Margolis, and R.J. Mackay|Potential Usefulness of Chlorine for Controlling Pacific Salmon Leeches, Piscicola salmositica, in Hatcheries|Can. J. Fish. Aquat. Sci.42(12): 1986-1993|1985|10.1139/f85-246
11423|A||Bradley,R.W., C. Duquesnay, and J.B. Sprague|Acclimation of Rainbow Trout, Salmo gairdneri Richardson, to Zinc: Kinetics and Mechanism of Enhanced Tolerance Induction|J. Fish Biol.27(4): 367-369|1985|10.1111/j.1095-8649.1985.tb03186.x
11424|A||Burrell,R.E., W.E. Inniss, and C.I. Mayfield|Detection and Analysis of Interactions Between Atrazine and Sodium Pentachlorophenate with Single and Multiple Algal-Bacterial Populations|Arch. Environ. Contam. Toxicol.14:167-177|1985|10.1007/BF01055608
11425|A||Burridge,L.E., M. Woodside, V. Zitko, and K. Haya|Lethality of Mexacarbate and of its Formulation UCZF-19 to Juvenile Atlantic Salmon|Chemosphere14(11-12): 1821-1827|1985|10.1016/0045-6535(85)90124-9
11427|A||Clark,J.R., J.M.,Jr. Patrick, D.P. Middaugh, and J.C. Moore|Relative Sensitivity of Six Estuarine Fishes to Carbophenothion, Chlorpyrifos, and Fenvalerate|Ecotoxicol. Environ. Saf.10(3): 382-390|1985|10.1016/0147-6513(85)90083-1
11428|A||Crossland,N.O.|A Method to Evaluate Effects of Toxic Chemicals on Fish Growth|Chemosphere14(11-12): 1855-1870|1985|10.1016/0045-6535(85)90128-6
11429|A||Schumaker,R.J., W.H. Funk, and B.C. Moore|Zooplankton Responses to Aluminum Sulfate Treatment of Newman Lake, Washington|J. Freshw. Ecol.8(4): 375-387|1993|10.1080/02705060.1993.9664876
11430|A||Finley,K.A.|Observations of Bluegills Fed Selenium-Contaminated Hexagenia Nymphs Collected from Belews Lake, North Carolina|Bull. Environ. Contam. Toxicol.35(6): 816-825|1985|10.1007/BF01636593
11431|A||Hamala,J.A., and H.P. Kollig|The Effects of Atrazine on Periphyton Communities in Controlled Laboratory Ecosystems|Chemosphere14(9): 1391-1408|1985|10.1016/0045-6535(85)90159-6
11432|A||Wujtewicz,D., B.R. Petrosky, and D.L. Petrosky|Acute Toxicity of 5% Non-Synergized Emulsifiable Rotenone to White River Crayfish Procambarus acutus acutus and White Perch Morone americana|J. World Aquac. Soc.28(3): 249-259|1997|10.1111/j.1749-7345.1997.tb00640.x
11433|A||Hartman,W.A., and D.B. Martin|Effects of Four Agricultural Pesticides on Daphnia pulex, Lemna minor, and Potamogeton pectinatus|Bull. Environ. Contam. Toxicol.35(5): 646-651|1985|10.1007/BF01636568
11434|A||Heming,T.A., R.V. Thurston, E.L. Meyn, and R.K. Zajdel|Acute Toxicity of Thiocyanate to Trout|Trans. Am. Fish. Soc.114(6): 895-905|1985|10.1577/1548-8659(1985)114<895:ATOTTT>2.0.CO;2
11435|A||Hicks,B.D., and J.R. Geraci|A Histological Assessment of Damage in Rainbow Trout, Salmo gairdneri Richardson, Fed Rations Containing Erythromycin|J. Fish Dis.7(6): 457-465|1984|
11436|A||Doughtie,D.G., and K.R. Rao|Ultrastructural and Histological Study of Degenerative Changes Leading to Black Gills in Grass Shrimp Exposed to a Dithiocarbamate Biocide|J. Invertebr. Pathol.41(1): 33-50|1983|10.1016/0022-2011(83)90234-3
11437|A||Kagan,J., E.D. Kagan, I.A. Kagan, P.A. Kagan, and S. Quigley|The Phototoxicity of Non-Carcinogenic Polycyclic Aromatic Hydrocarbons in Aquatic Organisms|Chemosphere14(11/12): 1829-1834|1985|10.1016/0045-6535(85)90125-0
11438|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|"""Man and Biosphere"" - Studies on the Sikkim Himalayas.  Part 5:  Acute Toxicity of Selected Heavy Metals on the Tadpoles of Rana hexadactyla"|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(2): 259-263|1985|10.1002/aheh.19850130223
11439|A||Mayes,M.A., F.A. Blanchard, D.L. Hopkins, and I.T. Takahashi|Static Acute Toxicity of Dibromonitrilopropionamide and Selected Degradation Products to the Fathead Minnow (Pimephales promelas Rafinesque)|Environ. Toxicol. Chem.4(6): 823-830|1985|10.1002/etc.5620040613
11440|A||Michnowicz,C.J., and T.E. Weaks|Effects of pH on Toxicity of As, Cr, Cu, Ni and Zn to Selenastrum capricornutum Printz|Hydrobiologia (Multiple Languages)118(3): 299-305|1984|10.1007/BF00046627
11441|A||Huebert,D.B., B.S. Dyck, and J.M. Shay|The Effect of EDTA on the Assessment of Cu Toxicity in the Submerged Aquatic Macrophyte, Lemna trisulca L|Aquat. Toxicol.24:183-194|1993|10.1016/0166-445X(93)90070-H
11442|A||Misra,V., H. Lal, G. Chawla, and P.N. Viswanathan|Pathomorphological Changes in Gills of Fish Fingerlings (Cirrhina mrigala) by Linear Alkyl Benzene Sulfonate|Ecotoxicol. Environ. Saf.10(3): 302-308|1985|10.1016/0147-6513(85)90077-6
11443|A||Murti,R., and G.S. Shukla|Acute Toxicity of Mercuric Chloride and Cadmium Chloride to Freshwater Prawn, Macrobrachium lamarrei (H. Milne Edwards)|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(6): 689-692|1984|10.1002/aheh.19840120617
11444|A||O'Keeffe,D.H., J.K. Hardy, and R.A. Rao|Cadmium Uptake by the Water Hyacinth: Effects of Solution Factors|Environ. Pollut. A.34(2): 133-147|1984|10.1016/0143-1471(84)90054-0
11445|A||Pawar,K.R., and M. Katdare|Effect of Sublethal and Lethal Concentrations of Fenitrothion, BHC and Carbofuran on Behaviour and Oxygen Consumption of the Freshwater Prawn Macrobrachium kistnensis (Tiwari)|Arch. Hydrobiol.99(3): 398-403|1984|
11446|A||Rosas,I., M.E. Carbajal, S. Gomez-Arroyo, R. Belmont, and R. Villalobos-Pietrini|Cytogenetic Effects of Cadmium Accumulation on Water Hyacinth (Eichhornia crassipes)|Environ. Res.33(2): 386-395|1984|10.1016/0013-9351(84)90037-9
11447|A||Shehata,S.A., O.A. Aly, and H. Farag|Effect of Bladex, Etazine, Dicryl, and Baylucide on the Growth of Scenedesmus|Environ. Int.10(3): 225-234|1984|10.1016/0160-4120(84)90239-3
11448|A||Sullivan,B.K., and P.J. Ritacco|Ammonia Toxicity to Larval Copepods in Eutrophic Marine Ecosystems:  A Comparison of Results from Bioassays and Enclosed Experimental Ecosystems|Aquat. Toxicol.7(3): 205-217|1985|10.1016/S0166-445X(85)80006-0
11449|A||Tagatz,M.E., G.R. Plaia, and C.H. Deans|Effects of 1,2,4-Trichlorobenzene on Estuarine Macrobenthic Communities Exposed Via Water and Sediment|Ecotoxicol. Environ. Saf.10(3): 351-360|1985|10.1016/0147-6513(85)90081-8
11450|A||Tateda,Y., S. Hirano, and T. Koyanagi|Accumulation of Iron-59 by Black-Fish Girella punctata from Food Organisms|Nippon Suisan Gakkaishi (Multiple Languages)51(12): 2067-2072|1985|10.2331/suisan.51.2067
11451|A||Taylor,D., B.G. Maddock, and G. Mance|"The Acute Toxicity of Nine ""Grey List"" Metals (Arsenic, Boron, Chromium, Copper, Lead, Nickel, Tin, Vanadium and Zinc) to Two Marine Fish Species"|Aquat. Toxicol.7(3): 135-144|1985|10.1016/S0166-445X(85)80001-1
11452|A||Thursby,G.B., R.L. Steele, and M.E. Kane|Effect of Organic Chemicals on Growth and Reproduction in the Marine Red Alga Champia parvula|Environ. Toxicol. Chem.4(6): 797-805|1985|10.1002/etc.5620040611
11453|A||Tort,L., R. Flos, and J. Balasch|Metabolic Levels in Dogfish Gill Tissue After Zinc Treatments|Rev. Esp. Fisiol.40(2): 149-152|1984|
11454|A||Tuurala,H.|Relationships Between Secondary Lamellar Structure and Dorsal Aortic Oxygen Tension in Salmo gairdneri with Gills Damaged by Zinc|Ann. Zool. Fennici20(3): 235-238|1983|
11455|A||Van Leeuwen,C.J., J.L. Maas-Diepeveen, G. Niebeek, W.H.A. Vergouw, P.S. Griffioen, and M.W. Luijken|Aquatic Toxicological Aspects of Dithiocarbamates and Related Compounds. I. Short-Term Toxicity Tests|Aquat. Toxicol.7(3): 145-164|1985|10.1016/S0166-445X(85)80002-3
11456|A||Van Leeuwen,C.J., F. Moberts, and G. Niebeek|Aquatic Toxicological Aspects of Dithiocarbamates and Related Compounds. II. Effects on Survival, Reproduction and Growth of Daphnia magna|Aquat. Toxicol.7:165-175|1988|10.1016/S0166-445X(85)80003-5
11457|A||Versteeg,D.J., and J.P. Giesy|Lysosomal Enzyme Release in the Bluegill Sunfish (Lepomis macrochirus Rafinesque) Exposed to Cadmium|Arch. Environ. Contam. Toxicol.14(5): 631-640|1985|10.1007/BF01055394
11458|A||Watton,A.J., and H.A. Hawkes|The Acute Toxicity of Ammonia and Copper to the Gastropod Potamopyrgus jenkinsi (Smith)|Environ. Pollut. A.36(1): 17-29|1984|10.1016/0143-1471(84)90195-8
11459|A||Weinberger,P., R. Greenhalgh, R.P. Moody, and B. Boulton|Fate of Fenitrothion in Aquatic Microcosms and the Role of Aquatic Plants|Environ. Sci. Technol.16(8): 470-473|1982|10.1021/es00102a008
11460|A||Weise,G., G. Burger, S. Fuchs, and L. Schurmann|The Effects of Zinc and Lead in Water on Assimilation in Fontinalis antipyretica (Zum Einflub von Ruckstanden von Zink- und Bleiverbindugen im Wasser auf die Assimilation von Fontinalis antipyretica)|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(1): 25-34|1985|10.1002/aheh.19850130104
11461|A||Chapman,H.F., J.M. Hughes, and R.L. Kitching|Burying Response of an Intertidal Gastropod to Freshwater and Copper Contamination|Mar. Pollut. Bull.16(11): 442-445|1985|10.1016/0025-326X(85)90414-X
11462|A||Wong,S.L.|Algal Assay Evaluation of Trace Contaminants in Surface Water Using the Nonionic Surfactant, Triton X-100|Aquat. Toxicol.6(2): 115-131|1985|10.1016/0166-445X(85)90011-6
11463|A||Amin,A.M., and G.B. White|Resistance Potential of Culex quinquefasciatus Against the Insect Growth Regulators Methoprene and Diflubenzuron|Entomol. Exp. Appl.36(1): 69-76|1984|10.1111/j.1570-7458.1984.tb03409.x
11464|A||Gantverg,A.N., and M.A. Perevoznikov|Inhibition of Cholinesterase in the Brain of Perch, Perca fluviatilis (Percidae), and Common Carp, Cyprinus carpio (Cyprinidae), Under the Action of Carbophos|J. Ichthyol.23(4): 174-175|1983|
11465|A||Chadwick,P.R., R. Slatter, and M.J. Bowron|Cross-Resistance to Pyrethroids and Other Insecticides in Aedes aegypti|Pestic. Sci.15(2): 112-120|1984|10.1002/ps.2780150204
11466|A||Green,D.W.J., K.A. Williams, and D. Pascoe|Studies on the Acute Toxicity of Pollutants to Freshwater Macroinvertebrates 2. Phenol|Arch. Hydrobiol.103(1): 75-82|1985|
11467|A||Gupta,S.L.|Acid and Alkaline Phosphatase Activity in the Cyanobacterium Anacystis nidulans Under Copper Stress|Folia Microbiol. (Prague)28(6): 458-462|1983|10.1007/BF02879682
11468|A||Anderson,L.W.J., and N. Dechoretz|Laboratory and Field Investigations of a Potential Selective Algicide, PH4062|J. Aquat. Plant Manag.22:67-75|1984|
11469|A||Blanck,H.|Inhibition of Growth of Freshwater Microalgae by Long-Chained Aliphatic Amines Employed in Solvent Extraction Processes|Arch. Environ. Contam. Toxicol.14(5): 609-620|1985|10.1007/BF01055392
11470|A||Bluzat,R., O. Jonot, and J. Seuge|Acute Toxicity of Thiram in Gammarus pulex: Effect of a One-Hour Contamination and Degradation of an Aqueous Suspension|Bull. Environ. Contam. Toxicol.29(2): 248-252|1982|10.1007/BF01606159
11471|A||Delistraty,D.A., and C. Hershner|Effects of the Herbicide Atrazine on Adenine Nucleotide Levels in Zostera marina L. (Eelgrass)|Aquat. Bot.18(4): 353-369|1984|10.1016/0304-3770(84)90056-1
11472|A||Dick,P.T., and D.G. Dixon|Changes in Circulating Blood Cell Levels of Rainbow Trout, Salmo gairdneri Richardson, Following Acute and Chronic Exposure to Copper|J. Fish Biol.26(4): 475-481|1985|10.1111/j.1095-8649.1985.tb04287.x
11473|A|OECDG|Foran,J.A., P.J. Germuska, and J.J. Delfino|Acute Toxicity of Aldicarb, Aldicarb Sulfoxide, and Aldicarb Sulfone to Daphnia laevis|Bull. Environ. Contam. Toxicol.35(4): 546-550|1985|10.1007/BF01636552
11474|A||Hidaka,H., and R. Tatsukawa|Avoidance Test of a Fish, Medaka (Oryzias latipes), to Aquatic Contaminants, with Special Reference to Monochloramine|Arch. Environ. Contam. Toxicol.14(5): 565-571|1985|10.1007/BF01055386
11476|A|OECDG|Naqvi,S.M., V.O. Davis, and R.M. Hawkins|Percent Mortalities and LC50 Values for Selected Microcrustaceans Exposed to Treflan, Cutrine-Plus, and MSMA Herbicides|Bull. Environ. Contam. Toxicol.35(1): 127-132|1985|10.1007/BF01636490
11477|A||Nasu,Y., M. Kugimoto, O. Tanaka, D. Yanase, and A. Takimoto|Effects of Cadmium and Copper Co-existing in the Medium on the Growth and Flowering of Lemna paucicostata in Relation to Their Absorption|Environ. Pollut. A.33(3): 267-274|1984|10.1016/0143-1471(84)90016-3
11478|A||Rosemarin,A., M. Notini, and K. Holmgren|The Fate of Arsenic in the Baltic Sea Fucus vesiculosus Ecosystem|Ambio14(6): 342-345|1985|
11479|A||Doughtie,D.G., P.J. Conklin, and K.R. Rao|Cuticular Lesions Induced in Grass Shrimp Exposed to Hexavalent Chromium|J. Invertebr. Pathol.42(2): 249-258|1983|10.1016/0022-2011(83)90067-8
11480|A||Strickman,D.|Aquatic Bioassay of 11 Pesticides Using Larvae of the Mosquito, Wyeomyia smithii (Diptera:  Culicidae)|Bull. Environ. Contam. Toxicol.35(1): 133-142|1985|10.1007/BF01636491
11481|A||Sumi,Y., T. Suzuki, M. Yamamura, S. Hatakeyama, Y. Sugaya, and K.T. Suzuki|Histochemical Staining of Cadmium Taken Up by the Midge Larva, Chironomus yoshimatsui (Diptera: Chironomidae)|Comp. Biochem. Physiol. A Comp. Physiol.79(3): 353-357|1984|
11482|A||Thiyagarajah,A., and J.M. Grizzle|Pathology of Diethylnitrosamine Toxicity in the Fish Rivulus marmoratus|J. Environ. Pathol. Toxicol.6(2): 219-231|1985|
11483|A||Wagh,S.B., K. Shareef, and S. Shaikh|Acute Toxicity of Cadmium Sulphate, Zinc Sulphate and Copper Sulphate to Barbus ticto (Ham.):  Effect on Oxygen Consumption and Gill Histology|J. Environ. Biol.6(4): 287-293|1985|
11484|A||Bastian,M.V., and D.W. Toetz|Effect of Eight Polynuclear Hydrocarbons on Growth of Anabaena flos-aquae|Bull. Environ. Contam. Toxicol.29(5): 531-538|1982|10.1007/BF01669616
11485|A||Burton,D.T., K.R. Cooper, W.L.,Jr. Goodfellow, and D.H. Rosenblatt|Uptake, Elimination, and Metabolism of 14C-Picric Acid and 14C-Picramic Acid in the American Oyster (Crassostrea virginica)|Arch. Environ. Contam. Toxicol.13(6): 653-663|1984|10.1007/BF01055928
11486|A||Chatterjee,K., I. Nandi, and S.K. Konar|Lethal Effects of Phenol on a Freshwater Catfish Heteropneustes fossilis|Aquat. Sci. Fish. Abstr.14(5, Pt.1): 263-|1984|
11487|A||Chatterjee,S., and S. Bhattacharya|Response of Climbing Perch, Anabas testudineus to Industrial Pollutants: Head Kidney Peroxidase, Iodide Peroxidase, and Blood Thyroxine Profiles|Water Air Soil Pollut.25(2): 161-174|1985|10.1007/BF00568384
11488|A||Crossland,N.O., and J.M. Hillaby|Fate and Effects of 3,4-Dichloroaniline in the Laboratory and in Outdoor Ponds: II. Chronic Toxicity to Daphnia spp. and Other Invertebrates|Environ. Toxicol. Chem.4(4): 489-499|1985|
11489|A||Fantin,A.M.B., A. Franchini, E. Ottaviani, and L. Benedetti|Effect of Pollution on Some Freshwater Species. II Bioaccumulation and Toxic Effects of Experimental Lead Pollution on the Ganglia in Viviparus ater|Basic Appl. Histochem.29(4): 377-387|1985|
11490|A||Frakes,T., and F.H.,Jr. Hoff|Effect of High Nitrate-N on the Growth and Survival of Juvenile and Larval Anemonefish, Amphiprion ocellaris|Aquaculture29(1-2): 155-158|1982|10.1016/0044-8486(82)90042-4
11491|A||Ghosh,T.K., and S.K. Konar|Effects of Formalin on an Aquatic Ecosystem|Aquat. Sci. Fish. Abstr.1(4): 273-276|1983|
11492|A||Halliday,W.R., and G.P. Georghiou|Cross-Resistance and Dominance Relationships of Pyrethroids in a Permethrin-Selected Strain of Culex quinquefasciatus (Diptera: Culicidae)|J. Econ. Entomol.78:1227-1232|1985|10.1093/jee/78.6.1227
11493|A||Halliday,W.R., and G.P. Georghiou|Inheritance of Resistance to Permethrin and DDT in the Southern House Mosquito (Diptera:  Culicidae)|J. Econ. Entomol.78:762-767|1985|10.1093/jee/78.4.762
11494|A||Hemingway,J., and G.P. Georghiou|Differential Suppression of Organophosphorus Resistance in Culex quinquefasciatus by the Synergists IBP, DEF, and TPP|Pestic. Biochem. Physiol.21(1): 1-9|1984|10.1016/0048-3575(84)90068-3
11495|A||Hocking,P.J.|Effects of Sodium and Potassium Chlorides on the Growth and Accumulation of Mineral Ions by Cyperus involucratus Rottb.|Aquat. Bot.21(3): 201-217|1985|10.1016/0304-3770(85)90049-X
11496|A||Hvilsom,M.M.|Copper-Induced Differential Mortality in the Mussel Mytilus edulis|Mar. Biol.76(3): 291-295|1983|10.1007/BF00393031
11497|A||Karlsson-Norrgren,L., P. Runn, C. Haux, and L. Forlin|Cadmium-Induced Changes in Gill Morphology of Zebrafish, Brachydanio rerio (Hamilton-Buchanan), and Rainbow Trout, Salmo gairdneri Richardson|J. Fish Biol.27(1): 81-95|1985|10.1111/j.1095-8649.1985.tb04011.x
11498|A||Kasyanov,V.L., and J.D. Costlow|Effect of Insecticide Dimilin on Larval Molting in the Horse-Shoe Crab, Limulus polyphemus|Biol. Morya (Vladivost.) (Multiple Languages)1:46-51|1984|
11499|A||Katti,S.R., and A.G. Sathyanesan|Effect of Lead, Cadmium and Combination of Both on the Ascorbic Acid Content of the Brain, Liver and Ovary of the Fish Clarias batrachus|Aquat. Sci. Fish. Abstr.15(2, Pt.1): 287|1985|
11500|A||Ingebrigtsen,K., and J.E. Solbakken|Distribution and Elimination of [14C]-Hexachloro-Benzene After Single Oral Exposure in Cod (Gadus morhua) and Flounder (Platichthys flesus)|J. Toxicol. Environ. Health16(2): 197-205|1985|10.1080/15287398509530733
11501|AT||Ishibashi,N., E. Kondo, and S. Ito|Effects of Application of Certain Herbicides on Soil Nematodes and Aquatic Invertebrates in Rice Paddy Fields in Japan|Crop Prot.2(3): 289-304|1983|10.1016/0261-2194(83)90003-0
11502|A||Matkovics,B., L. Szabo, S. Varga, K. Barabas, G. Berencsi, and J. Nemcsok|Effects of a Herbicide on the Peroxide Metabolism Enzymes and Lipid Peroxidation in Carp Fish (Hypophthalmichthys molitrix)|Acta Biol. Hung.35(1): 91-96|1984|
11503|A||Sunila,I., and R. Lindstrom|Survival, Growth and Shell Deformaties of Copper-and Cadmium-Exposed Mussels (Mytilus edulis L.) in Brackish Water|Estuar. Coast. Shelf Sci.21(4): 555-565|1985|10.1016/0272-7714(85)90056-3
11504|A|OECDG|Alexander,H.C., F.M. Gersich, and M.A. Mayes|Acute Toxicity of Four Phenoxy Herbicides to Aquatic Organisms|Bull. Environ. Contam. Toxicol.35(3): 314-321|1985|10.1007/BF01636516
11505|A||Antwi,L.A.K.|Effects of Aerial Spraying of Chlorphoxim on the Brain Acetylcholinesterase Activity of Fish From Three Rivers in the Ivory Coast, West Africa|Environ. Pollut. A.39(2): 151-159|1985|10.1016/0143-1471(85)90013-3
11506|A||Babu,K.V.K.V., and T. Vasudev|Effect of Dimecron, Rogor and Cuman L on AChE and Phosphatases in Fresh Water Mussel, Lamellidens marginalis (Lamarck)|Curr. Sci. (Bangalore)53(17): 935-936|1984|
11507|A||D'Silva,C., and A. Row|Relative Toxicity of Oil Dispersants to Mytilus viridis and Macrobrachium idella|Indian J. Mar. Sci.13:42-44|1984|
11508|A|OECDG|Galassi,S., and D. Calamari|Toxicokinetics of 1,2,3 and 1,2,4 Trichlorobenzenes in Early Life Stages of Salmo gairdneri|Chemosphere12(11-12): 1599-1603|1983|10.1016/0045-6535(83)90090-5
11509|A||Giesy,J.P., and D.H. Smith|Cadmium Partitioning and Related Effects in Parasitized and Non-Parasitized Mosquitofish (Gambusia affinis: Poeciliidae)|Verh. Int. Ver. Theor. Angew. Limnol.22:2405-2412|1985|
11510|A||Jauhar,L., and S.K. Kulshrestha|Histopathological Effects Induced by Sublethal Doses of Sevin and Thiodan on the Gills of Channa striatus BL. (Pisces, Channidae)|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(3): 395-400|1985|10.1002/aheh.19850130318
11511|A||Kumar,D., M. Jha, and H.D. Kumar|Heavy-Metal Toxicity in the Cyanobacterium Nostoc linckia|Aquat. Bot.22(2): 101-105|1985|10.1016/0304-3770(85)90039-7
11512|A||McCarthy,J.F.|Role of Particulate Organic Matter in Decreasing Accumulation of Polynuclear Aromatic Hydrocarbons by Daphnia magna|Arch. Environ. Contam. Toxicol.12(5): 559-568|1983|10.1007/BF01056552
11513|A||Mushiake,K., K. Muroga, and T. Nakai|Increased Susceptibility of Japanese Eel Anguilla japonica to Edwardsiella tarda and Pseudomonas anguilliseptica Following Exposure to Copper|Nippon Suisan Gakkaishi (Multiple Languages)50(11): 1797-1801|1984|10.2331/suisan.50.1797
11514|A||Muramoto,S., and Y. Oki|Influence of Anionic Surface-Active Agents on the Uptake of Heavy Metals by Water Hyacinth (Eichhornia crassipes)|Bull. Environ. Contam. Toxicol.33(4): 444-450|1984|10.1007/BF01625568
11515|A||Niederlehner,B.R., J.R. Pratt, A.L.,Jr. Buikema, and J.,Jr. Cairns|Laboratory Tests Evaluating the Effects of Cadmium on Freshwater Protozoan Communities|Environ. Toxicol. Chem.4:155-165|1985|10.1002/etc.5620040205
11516|A||Palanichamy,S., S. Arunachalam, and M.P. Balasubramanian|Food Consumption of Sarotherodon mossambicus (Trewaves) Exposed to Sublethal Concentration of Diammonium Phosphate|Hydrobiologia (Multiple Languages)128(3): 233-237|1985|10.1007/BF00006819
11517|A||Rao,P.S., V.S. Durve, B.S. Khangarot, and S.S. Shekhawat|Acute Toxicity of Phenol, Pentachlorophenol and Sodium Pentachlorophenate to a Freshwater Ostracod Cypris subglobosa (Sowerby)|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(4): 457-465|1983|10.1002/aheh.19830110410
11518|A||Schluter,M., and J. Groeneweg|The Inhibition by Ammonia of Population Growth of the Rotifer, Brachionus rubens, in Continuous Culture|Aquaculture46(3): 215-220|1985|10.1016/0044-8486(85)90207-8
11519|A||Van Leeuwen,C.J., P.S. Griffioen, W.H.A. Vergouw, and J.L. Maas-Diepeveen|Differences in Susceptibility of Early Life Stages of Rainbow Trout (Salmo gairdneri) to Environmental Pollutants|Aquat. Toxicol.7(1/2): 59-78|1985|10.1016/0166-445X(85)90036-0
11520|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|Effect of pH on Toxicity of Sodium Pentachlorophenate to Fry of Common Carp in Softwater|Arch. Hydrobiol.103(3): 375-379|1985|
11521|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|"""Man and Biosphere"" - Studies on the Sikkim Himalayas. Part 6: Toxicity of Selected Pesticides to Frog Tadpole Rana hexadactyla (Lesson)"|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(3): 391-394|1985|10.1002/aheh.19850130317
11522|A||Kudesia,V.P., and N.P. Bali|Study of Pesticides in Kalinadi River and Evaluation of Toxicity of Some Pesticides on Fish Clarias batrachus|Acta Cienc. Indica10(4): 245-254|1984|
11523|A||Kudla,A.J.|Hydra Reaggregation: A Rapid Assay to Predict Teratogenic Hazards Induced by Environmental Toxicity|J. Wash. Acad. Sci.74(4): 102-107|1984|
11524|A||Kulkarni,K.M.|Influence of Temperature and Salinity on the Toxicity of Cadmium to the Estuarine Crab Varuna littorata|Environ. Ecol.1(3): 193-195|1983|
11525|A||Kulkarni,K.M.|Accumulation of Copper, Zinc and Cadmium in the Clam Puphia textile|Environ. Ecol.1(3): 197-199|1983|
11527|A||Lim,R.P., M.F. Abdullah, and C.H. Fernando|Ecological Studies of Cladocera in the Ricefields of Tanjung Karang, Malaysia, Subjected to Pesticide Treatment|Hydrobiologia (Multiple Languages)113:99-103|1984|10.1007/BF00026596
11528|A||Limsuwan,C., T. Limsuwan, J.M. Grizzle, and J.A. Plumb|Stress Response and Blood Characteristics of Channel Catfish (Ictalurus punctatus) After Anesthesia with Etomidate|Can. J. Fish. Aquat. Sci.40(12): 2105-2112|1983|10.1139/f83-244
11529|A||Lyon,R., M. Taylor, and K. Simkiss|Ligand Activity in the Clearance of Metals From the Blood of the Crayfish (Austropotamobius pallipes)|J. Exp. Biol.113:19-27|1984|10.1242/jeb.113.1.19
11530|A||Mani,V.G.T., and S.K. Konar|Acute Toxicity of Malathion to Fish, Plankton and Worm|Aquat. Sci. Fish. Abstr.15(2, Pt.1): 287|1985|
11531|A||Mansour,S.A., and E.R. Mohsen|Pesticides and Beneficial Organisms II.  The Response of Two Fish Species to Certain Herbicides|Pesticides 19(4): 43-44|1985|
11532|A||Matkar,V.M., E. Mathew, B.F. Chhapgar, C.D. Mulay, and K.C. Pillai|Uptake of Plutonium by Alga Dunaliella & Bivalve Meretrix|Indian J. Mar. Sci.12(4): 243-244|1983|
11533|A||McKim,J., P. Schmieder, and G. Veith|Absorption Dynamics of Organic Chemical Transport Across Trout Gills as Related to Octanol-Water Partition Coefficient|Toxicol. Appl. Pharmacol.77:1-10|1985|10.1016/0041-008X(85)90262-5
11535|A||Misra,V., H. Lal, P.N. Viswanathan, and C.R.K. Murti|45Ca Uptake From Water by Snails (Lymnaea vulgaris) in Control and Detergent-Polluted Samples|Ecotoxicol. Environ. Saf.8(1): 97-99|1984|10.1016/0147-6513(84)90044-7
11536|A||Mohamed,M.P., and R.A. Gupta|Effects of Sublethal Concentration of Ethyl Parathion on Oxygen Consumption and Random Swimming Activity of Cirrhinus mrigala (Hamilton)|Indian J. Exp. Biol.22(1): 42-44|1984|
11537|A||Moore,M.N., J. Widdows, J.J. Cleary, R.K. Pipe, P.N. Salkeld, P. Donkin, S.V. Farrar, S.V. Evans, and P.E. Thomson|Responses of the Mussel Mytilus edulis to Copper and Phenanthrene:  Interactive Effects|Mar. Environ. Res.14(1-4): 167-183|1984|10.1016/0141-1136(84)90077-1
11538|A||Mukhopadhyay,M.K.|Effects of Copper on Fish and Aquatic Ecosystem|Aquat. Sci. Fish. Abstr.1(1): 53-59|1983|
11539|A||Mukhopadhyay,M.K., and S.K. Konar|Toxicity of Copper, Zinc and Iron to Fish, Plankton and Worm|Geobios11:204-207|1984|
11540|A||Oladimeji,A.A.|An Arsenic-Binding Protein in Rainbow Trout|Ecotoxicol. Environ. Saf.9:1-5|1985|10.1016/0147-6513(85)90028-4
11541|A||Omkar, and G.S. Shukla|Toxicity of Insecticides to Macrobrachium lamarrei (H.Milne Edwards) (Decapoda: Palaemonidae)|Crustaceana  (Leiden)48(1): 1-5|1985|
11542|A||Omkar, and G.S. Shukla|Nature of Dichlorvos intoxication in a Freshwater Prawn, Macrobrachium lamarrei (H.Milne Edwards)|Environ. Res.37(2): 349-354|1985|10.1016/0013-9351(85)90115-X
11543|A||Pagano,G., A. Esposito, P. Bove, M. De Angelis, A. Rota, and G.G. Giordano|The Effects of Hexavalent and Trivalent Chromium on Fertilization and Development in Sea Urchins|Environ. Res.30(2): 442-452|1983|10.1016/0013-9351(83)90230-X
11544|A||Pandey,A.K., and L. Shukla|Antithyroidal Effects of an Organophosphorus Insecticide Malathion in Sarotherodon mossambicus|Int. J. Environ. Stud.22(1): 49-57|1983|10.1080/00207238308710101
11545|A||Patil,H.S., and M.B. Kaliwal|Influence of Cadmium, Copper and Zinc on Oxygen Consumption Rate of a Freshwater Prawn Macrobrachium hendersodyanum|Aquat. Sci. Fish. Abstr.1(3): 175-177|1983|
11546|A||Plumb,J.A., T.E. Schwedler, and C. Limsuwan|Experimental Anesthesia of Three Species of Freshwater Fish with Etomidate|Prog. Fish-Cult.45(1): 30-33|1983|10.1577/1548-8659(1983)45[30:EAOTSO]2.0.CO;2
11547|A||Rao,K.S.J.|Hyperglycemia in Freshwater Field Crab (Oziotelphusa senex senex) Produced by Pesticides|Z. Naturforsch. Sect. C J. Biosci.40(7/8): 592-593|1985|10.1515/znc-1985-7-827
11548|A||Rao,S.V.R., and K.J. Nath|Biological Effect of Some Poisons on Canthocamptus (Crustacea spp)|Int. J. Environ. Stud.21(3-4): 271-275|1983|10.1080/00207238308710085
11549|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Effect of Sublethal Concentrations of Sumithion on Limb Regeneration of Fresh Water Field Crab Oziotelphusa senex senex|Experientia39(12): 1380-1381|1983|10.1007/BF01990113
11550|A||Reiriz,M.J.F., J.M.F. Soler, and M.A.M. Garcia|Response of a Marine Diatom Thalassiosira rotula (Meunier, 1910) to PCBs - Methodological Implications|Invest. Pesq.47(3): 419-434|1983|
11551|A||Roberts,R.H., W.B. Kottkamp, and M.V. Meisch|Larvicide Evaluations Against the Rice Field Mosquito Psorophora columbiae|Mosq. News44(1): 84-86|1984|
11552|A||Rodrigues,C.S., and N.K. Kaushik|The Effect of Temperature on the Toxicity of Temephos to Black Fly (Diptera: Simuliidae) Larvae|Can. Entomol.116(3): 451-455|1984|10.4039/Ent116451-3
11553|A||Rogerson,A., W.Y. Shiu, G.L. Huang, D. Mackay, and J. Berger|Determination and Interpretation of Hydrocarbon Toxicity to Ciliate Protozoa|Aquat. Toxicol.3(3): 215-228|1983|10.1016/0166-445X(83)90042-5
11554|A||Sadhu,A.K., and P.K. Mukhopadhyay|Comparative Effect of Two Pesticides Malathion and Carbofuran on Testes of Clarias batrachus (Linn.)|J. Environ. Biol.6(3): 217-222|1985|
11555|A||Saleh,M.S., I.A. Gaaboub, S.M.I. Kassem, and M.E. Abd El-Latif|Comparison of Three Fenitrothion Controlled-Release Formulations as Larvicides for Aedes aegypti (L.) (Diptera: Culicidae)|J. Econ. Entomol.78(6): 1187-1189|1985|10.1093/jee/78.6.1187
11556|A||Sastry,K.V., and A.A. Siddiqui|Effect of the Carbamate Pesticide Sevin on the Intestinal Absorption of Some Nutrients in the Teleost Fish, Channa punctatus|Water Air Soil Pollut.24(3): 247-252|1985|10.1007/BF00161785
11557|A||Shukla,G.S., and Omkar |Acute Toxicity of Insecticides to a Freshwater Prawn Macrobrachium lamarrei (M.Edwards)|Indian J. Environ. Health25(1): 61-63|1983|
11558|A||Shukla,L., and A.K. Pandey|Ovarian Recrudescence in a Fresh Water Teleost, Sarotherodon mossambicus in DDT Treatment and Pattern of Recoupment|J. Environ. Biol.6(3): 195-204|1985|
11559|A||Somashekar,R.K., and K.P. Sreenath|Effect of Fungicides on Primary Productivity|Indian J. Environ. Health26(4): 355-357|1984|
11560|A||Sorensen,E.M.B., R. Ramirez-Mitchell, A. Pradzynski, T.L. Bayer, and L.L. Wenz|Stereological Analyses of Hepatocyte Changes Parallel Arsenic Accumulation in the Livers of Green Sunfish|J. Environ. Pathol. Toxicol.6(2): 195-210|1985|
11561|A||Connell,D.B., J.G. Sanders, G.F. Riedel, and G.R. Abbe|Pathways of Silver Uptake and Trophic Transfer in Estuarine Organisms|Environ. Sci. Technol.25(5): 921-924|1991|10.1021/es00017a014
11562|A||Stebbing,A.R.D., and V.J.R. Santiago-Fandino|The Combined and Separate Effects of Copper and Cadmium on the Growth of Campanularia flexuosa (Hydrozoa) Colonies|Aquat. Toxicol.3(3): 183-193|1983|10.1016/0166-445X(83)90039-5
11563|A||Tagatz,M.E., C.H. Deans, J.C. Moore, and G.R. Plaia|Alterations in Composition of Field-and Laboratory-Developed Estuarine Benthic Communities Exposed to Di-N-Butyl Phthalate|Aquat. Toxicol.3(3): 239-248|1983|10.1016/0166-445X(83)90044-9
11564|A||Thebault,M.T., and J.P. Raffin|Properties of the Lysosomes From Liver and Gill of Rainbow Trout, Salmo gairdnerii R.: Effect of Starvation, Salinity and 2,4,5-T|Comp. Biochem. Physiol. B Comp. Biochem.79(4): 541-547|1984|10.1016/0305-0491(84)90363-8
11565|A||Thurston,R.V., R.C. Russo, E.L. Meyn, R.K. Zajdel, and C.E. Smith|Chronic Toxicity of Ammonia to Fathead Minnows|Trans. Am. Fish. Soc.115:196-207|1986|10.1577/1548-8659(1986)115<196:CTOATF>2.0.CO;2
11566|A||Tucker,C.S., and T.E. Schwedler|Acclimation of Channel Catfish (Ictalurus punctatus) to Nitrite|Bull. Environ. Contam. Toxicol.30(5): 516-521|1983|10.1007/BF01610169
11567|A||Vardia,H.K., and V.S. Durve|Relative Toxicity of Phenoxy Herbicides on Lebistes (Poecilia) reticulatus (Peters)|Proc. Indian Acad. Sci. Anim. Sci.93(7): 691-695|1984|10.1007/BF03186319
11568|A||Veena,K.M., and N.L. Ammal|Effect of Differential Concentration of Mercury on Shrimp Penaeus monodon and the Subsequent Bioaccumulation|Aquat. Sci. Fish. Abstr.14(10, Pt.1): 239|1984|
11569|A||White,S.L., and P.S. Rainbow|Regulation of Zinc Concentration by Palaemon elegans (Crustacea: Decapoda): Zinc Flux and Effects of Temperature, Zinc Concentration and Moulting|Mar. Ecol. Prog. Ser.16(1-2): 135-147|1984|10.3354/meps016135
11570|A||Zhang,Y., B. Rott, and D. Freitag|Accumulation and Elimination of 14C-PCBs by Daphnia magna Straus 1820|Chemosphere12(11/12): 1645-1651|1983|10.1016/0045-6535(83)90096-6
11571|A||Adams,N., K.H. Goulding, and A.J. Dobbs|Effect of Acetone on the Toxicity of Four Chemicals to Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.36(2): 254-259|1986|10.1007/BF01623504
11572|A||Ahmed,G.|Pathology of Gill in a Freshwater Catfish, Mystus (Mystus) vittatus (Bl.) Exposed to Sublethal and Chronic Level of a Dye-Methylene Blue|Pollut. Res.3(1): 17-20|1984|
11573|A||Aliotta,G., and A. Pollio|Long Term Effects of Copper upon Physiological Processes and Growth of Chlorella saccharophila (Kruger) Migula and Cyanidium caldarium Geitler|G. Bot. Ital. (Multiple Languages)116(3-4): 123-129|1982|10.1080/11263508209428057
11574|A||Antia,N.J., P.J. Harrison, D.S. Sullivan, and T. Bisalputra|Influence of the Insecticide Diflubenzuron (Dimilin) on the Growth of Marine Diatoms and a Harpacticoid Copepod in Culture|Can. J. Fish. Aquat. Sci.42(7): 1272-1277|1985|10.1139/f85-158
11575|A||Bahadir,M., and G. Pfister|A Comparative Study on Pesticide Formulations for Application in Running Waters|Ecotoxicol. Environ. Saf.10:197-201|1985|10.1016/0147-6513(85)90066-1
11576|A||Balavenkatasubbaiah,M., K. Geethanjali, A.U. Rani, K.R. Purushotham, and R. Ramamurthi|Cationic Changes of the Freshwater Teleost Tilapia mossambica Under Copper Toxicosis|Natl. Acad. Sci. Lett.8(2): 59-61|1985|
11577|A||Banu,N., G. Mustafa, A.M. Khan, and M. Ahmed|Histopathological Effects of Diazinon on the Gonads of Freshwater Catfish, Heteropneustes fossilis (Bloch)|Dhaka Univ. Stud. Part B Sci. 32(1): 17-23|1984|
11578|A||Bastian,M.V., and D.W. Toetz|Effect of Polynuclear Hydrocarbons on Algal Nitrogen Fixation (Acetylene Reduction)|Bull. Environ. Contam. Toxicol.35(2): 258-265|1985|10.1007/BF01636507
11579|A||Bengeri,K.V., and H.S. Patil|Acute Toxicity of Lead Nitrate and Lead Acetate to a Fresh Water Fish Barbus aurilus and Their Effect on Oxygen Uptake|Bull. Pure Appl. Sci. Sect. A Zool.A(1): 9-13|1984|
11580|A||Blanck,H.|A Simple, Community Level, Ecotoxicological Test System Using Samples of Periphyton|Hydrobiologia (Multiple Languages)124(3): 251-261|1985|10.1007/BF00015242
11581|A||Carr,R.S., J.W. Williams, F.I. Saksa, R.L. Buhl, and J.M. Neff|Bioenergetic Alterations Correlated with Growth, Fecundity and Body Burden of Cadmium for Mysids (Mysidopsis bahia)|Environ. Toxicol. Chem.4(2): 181-188|1985|10.1002/etc.5620040207
11582|A||Chaudhry,H.S., and K. Nath|Effect of Nickel intoxication on Liver Glycogen of a Freshwater Teleost, Colisa fasciatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(2): 245-248|1985|10.1002/aheh.19850130220
11583|A||Chen,T.T., P.C. Reid, R. Van Beneden, and R.A. Sonstegard|Effect of Aroclor 1254 and Mirex on Estradiol-Induced Vitellogenin Production in Juvenile Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.43(1): 169-173|1986|10.1139/f86-019
11584|A||Cooper,K.R., D.T. Burton, W.L. Goodfellow, and D.H. Rosenblatt|Bioconcentration and Metabolism of Picric Acid (2,4,6-Trinitrophenol) and Picramic Acid (2-Amino-4,6-Dinitrophenol) in Rainbow Trout Salmo gairdneri|J. Toxicol. Environ. Health14(5-6): 731-747|1984|10.1080/15287398409530622
11585|A||Correa,M., and B.J. Venables|Bioconcentration of Naphthalene in Tissues of the White Mullet (Mugil curema)|Environ. Toxicol. Chem.4(2): 227-231|1985|10.1002/etc.5620040213
11586|A||Devlin,E.W., J.D. Brammer, and R.L. Puyear|Effect of Toluene on Fathead Minnow (Pimephales promelas Rafinesque) Development|Arch. Environ. Contam. Toxicol.14(5): 595-603|1985|10.1007/BF01055390
11587|A||Dutta,H.M., and A.Z. Haghighi|Methylmercuric Chloride and Serum Cholesterol Level in the Bluegill (Lepomis macrochirus)|Bull. Environ. Contam. Toxicol.36(2): 181-185|1986|10.1007/BF01623492
11588|A||Edmiston,C.E.,Jr., M. Goheen, and G.W. Malaney|Environmental Assessment of Carbamate Toxicity: Utilization of the Coomassie Blue G Soluble Protein Assay as an Index of Environmental Toxicity|Hazard. Waste1(2): 205-215|1984|10.1089/hzw.1984.1.205
11589|A||Gill,T.S., and J.C. Pant|Chromatin Condensation in the Erythrocytes of Fish Following Exposure to Cadmium|Bull. Environ. Contam. Toxicol.36(2): 199-203|1986|10.1007/BF01623495
11590|A||Grenier,G., and G. Beaumont|Physiological Effects of Sublethal Doses of Atrazine on Lemna minor. VII. 1,2-[14C] Acetate Incorporation into the Groups of Lipids and Their Fatty Acids (Effets Physiologiques de l'Atrazine a Doses Subletales sur Lemna|Physiol. Plant. (Multiple Languages)57:477-484|1983|10.1111/j.1399-3054.1983.tb02772.x
11591|A||Grenier,G., J.P. Marier, and G. Beaumont|Physiological Effects of Atrazine at Sublethal Doses on Lemna minor L.  VI.  Influence on the Main Classes of Phospholipids (Effets Physiologiques de l'Atrazine a Doses Subletales sur Lemna minor.  VI.  Influence sur le|Physiol. Veg. (Multiple Languages)20(2): 179-185|1982|
11592|A||Goel,K.A., Kalpana, Sandhya, and V.P. Agrawal|Alachlor Toxicity to a Freshwater Teleost Clarias batrachus|Curr. Sci. (Bangalore)53(19): 1050-1052|1984|
11593|A||Gorovaya,S.L., and M.S. Borisova|Toxicity of Copper Sulfate to Carp Larva and Fodder Zooplankton|C. A. Sel. Environ. Pollut.24:1-|1983|
11594|A||Haider,S., and N. Upadhyaya|Effect of Commercial Formulation of Four Organophosphorus Insecticides on the Ovaries of a Freshwater Teleost, Mystus vittatus (Bloch) - a Histological and Histochemical Study|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(3): 321-340|1985|
11595|A||Hansen,S.R., and R.R. Garton|Ability of Standard Toxicity Tests to Predict the Effects of the Insecticide Diflubenzuron on Laboratory Stream Communities|Can. J. Fish. Aquat. Sci.39(9): 1273-1288|1982|10.1139/f82-169
11597|A||Hodson,P.V.|A Comparison of the Acute Toxicity of Chemicals to Fish, Rats and Mice|J. Appl. Toxicol.5(4): 220-226|1985|10.1002/jat.2550050403
11600|A||Kanazawa,J.|In Vitro and In Vivo Effects of Organophosphorus and Carbamate Insecticides on Brain Acetylcholinesterase Activity of Fresh-Water Fish, Topmouth gudgeon|Bull. Natl. Inst. Agric. Sci. Sect. C37:19-30|1983|
11601|A||Kaushik,B.D., and G.S. Venkataraman|Response of Cyanobacterial Nitrogen Fixation to Insecticides|Curr. Sci. (Bangalore)52(7): 321-323|1983|
11602|A||Kumar,S., and S.C. Pant|Renal Pathology in Fish (Puntius conchonius Ham.) Following Exposure to Acutely Lethal and Sublethal Concentrations of Monocrotophos|Bull. Environ. Contam. Toxicol.35:228-233|1985|10.1007/BF01636503
11603|A||Lui,O.S., M.A. Ambak, and A.K.M. Mohsin|A Comparison of Tolerance Level of Tilapia to Malathion on Clear and Muddy Bottom|Malays. Appl. Biol.12(2): 25-29|1983|
11604|A||Khangarot,B.S.|The Effects of Time Intervals Before Feeding Since the Tolerance of Common Guppy (Lebistes reticulatus Peters) to Zinc|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 405-408|1982|10.1002/aheh.19820100415
11605|A||Misra,M., and K. Pandey|Effects of Thiourea on the Testicular Steroidogenesis and Secondary Sexual Characters of a Tropical Freshwater Fish Colisa fasciatus (Bloch & Schn.)|Bull. Inst. Zool. Acad. Sin. (Taipei)24(1): 85-94|1985|
11606|A||Miura,T., R.M. Takahashi, and W.H. Wilder|The Effect of Bay Sir 8514 Against Selected Organisms Associated with Mosquito Breeding Habitats|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.51:80-85|1983|
11607|A||Nagaraju,T., and J.V.R. Rao|Effect of Nitrate and Nitrite Stress on the Transaminases of Mosquito Fish, Gambusia affinis (Baird & Girard)|Indian J. Comp. Anim. Physiol.3(1): 29-32|1985|
11609|A||Pandey,G.N., and Nisha |Effect of Hexavalent Chromium on Fresh Water Fish|J. Inst. Eng. India Part CH Chem. Eng. Div.64(1): 9-12|1983|
11610|A||Pashchenko,N.I., and A.O. Kasumyan|Degenerative and Restorative Processes in the Olfactory Lining of White Amur, Ctenopharyngodon idella (Cyprindae), After Treatment with Detergent Trinton X-100|J. Ichthyol.24(1): 112-121|1984|
11612|A||Rao,K.J., M.A. Baig, and K. Ramamurthy|Effect of a Systemic Pesticide Phosphamidon on Some Aspects of Fresh Water Fish, Tilapia mossambica|Indian J. Environ. Health26(1): 60-64|1984|
11613|A||Ogawa,S., Y. Tonogal, Y. Ito, and M. Iwaida|Studies of the Syncopic Effect of Aniline Derivatives on Fish. II. Relation between the Syncopic Effect and the Amount of Aniline Derivatives|Eisei Kagaku (Multiple Languages)29(5): 286-291|1983|
11614|A||Ray,A.K., and S. Bhattacharya|Histopathological Changes in the Hepatopancreas of the Freshwater Airbreathing Teleost Anabas testudineus (Bloch) Exposed to Acute and Chronic Levels of Cythion|J. Curr. Biosci.1(4): 170-174|1984|
11615|A||Cusack,R., and G. Johnson|A Study of Dichlorvos (Nuvan; 2,2-Dichloroethenyl Dimethyl Phosphate), a Therapeutic Agent for the Treatment of Salmonids Infected with Sea Lice|Aquaculture90(2): 101-112|1990|10.1016/0044-8486(90)90334-J
11616|A||Samecka-Cymerman,A.|The Effect of Phenol on Aquatic Mosses Fontinalis antipyretica L. and Platyhypnidium rusciforme (Neck.) fleisch in Cultures|Pol. Arch. Hydrobiol.30(2): 141-147|1983|
11618|A||Saxena,D.M., R. Lal, and B.V.P. Reddy|DDT Uptake and Metabolism in Blepharisma intermedium|Acta Protozool.21(2): 173-175|1982|
11619|A||Sharma,K.C.|Effect of Mercury Pollution on the General Biology and Carbohydrate Metabolism of a Freshwater Murrel, Channa punctatus (Bloch.)|Geobios (Jodhpur)11(3): 122-127|1984|
11620|A||Shavrina,O.B., and L.D. Gapochka|Effect of Some Heavy Metals on the Growth of the Bluegreen Algae Synechocystis aquatilis in Culture|C. A. Sel. Environ. Pollut.3(100): 2-|1983|
11621|A||Sommer,T.R.|Laboratory and Field Studies on the Toxic Effects of Thiobencarb (Bolero) to the Crawfish Procambarus clarkii|J. World Aquac. Soc.14:434-440|1983|
11622|A||Subbaiah,M.B., G.H. Philip, K.R. Purushotham, and R. Ramamurthi|Effect of Mercury on Oxygen Consumption of the Freshwater Mussel, Lamellidens marginalis|Geobios (Jodhpur)11(2): 87-89|1984|
11623|A||Tellenbach,M., A. Gerber, and A. Boschetti|Herbicide-Binding to Thylakoid Membranes of a DCMU-Resistant Mutant of Chlamydomonas reinhardii|FEBS Lett.158(1): 147-150|1983|10.1016/0014-5793(83)80696-6
11624|A||Ten Hoopen,H.J.G., P.J. Nobel, A. Schaap, A. Fuchs, and J.A. Roels|Effects of Temperature on Cadmium Toxicity to the Green Alga Scenedesmus acutus. I. Development of Cadmium Tolerance in Batch Cultures|Antonie Leeuwenhoek J. Microbiol. Serol.51(3): 344-346|1985|
11625|A||Tishinova-Nanova,V.|Changes of Some Hematological Indexes of Carp Kept in a Solution of Copper Ions|C. A. Sel. Environ. Pollut.16(101): 2-|1984|
11626|A||Toledo,A.P.P., and M.L. Delavechia|Cupric Ion Tolerance in the Fish Geophagus brasiliensis.  I.  Chronic Toxicity|C. A. Sel. Environ. Pollut.25:4-|1983|
11627|A||Vaishampayan,A.|Biological Effects of a Herbicide on a Nitrogen-Fixing Cyanobacterium (Blue-Green Alga): An Attempt for Introducing Herbicide-Resistance|New Phytol.96:7-11|1984|10.1111/j.1469-8137.1984.tb03537.x
11628|A||Vigfusson,N.V., E.R. Vyse, C.A. Pernsteiner, and R.J. Dawson|In Vivo Induction of Sister-Chromatid Exchange in Umbra limi by the Insecticides Endrin, Chlordane, Diazinon and Guthion|Mutat. Res.118:61-68|1983|10.1016/0165-1218(83)90116-7
11629|A||Waldock,M.J., and J.E. Thain|Shell Thickening in Crassostrea gigas:  Organotin Antifouling or Sediment Induced?|Mar. Pollut. Bull.14(11): 411-415|1983|10.1016/0025-326X(83)90445-9
11630|A||Walsh,G.E., D.L. Hansen, and D.A. Lawrence|A Flow-Through System for Exposure of Seagrass to Pollutants|Mar. Environ. Res.7(1): 1-11|1982|10.1016/0141-1136(82)90047-2
11631|A||Watanabe,S., and K. Ito|Investigation on the Contamination of Freshwater Fish with Herbicides (II)|Bull. Kanagawa Public Health Lab.14:27-32|1984|
11632|A||Wofford,H.W., and P. Thomas|Interactions of Cadmium with Sulfhydryl-Containing Compounds in Striped Mullet (Mugil cephalus L.)|Mar. Environ. Res.14(1-4): 119-137|1984|10.1016/0141-1136(84)90074-6
11633|A||Wong,S.L.|Toxicity and Water Quality:  A Bioassay Interpretation|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control19(3): 377-386|1984|
11634|A||Manker,D.C., and D.F. Martin|Investigation of Two Possible Modes of Action of the Inert Dye Aquashade on Hydrilla|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control19(16): 725-733|1984|
11635|A||Fulton,M.H., and J.E. Chambers|The Toxic and Teratogenic Effects of Selected Organophosphorus Compounds on the Embryos of Three Species of Amphibians|Toxicol. Lett.26(2-3): 175-180|1985|10.1016/0378-4274(85)90163-8
11636|A||Gabryelak,T., and J. Klekot|The Effect of Paraquat on the Peroxide Metabolism Enzymes in Erythrocytes of Freshwater Fish Species|Comp. Biochem. Physiol. C Comp. Pharmacol.81(2): 415-418|1985|10.1016/0742-8413(85)90030-1
11637|A||Geertz-Hansen,P., and E. Mortensen|The Effect of Dissolved and Precipitated Iron on the Reproduction of Brown Trout (Salmo trutta). (Okkers Virkning Pa Reproduktionen Hos Orred|Vatten39(1): 55-62|1983|
11638|A|OECDG|Gersich,F.M., D.L. Hopkins, and D.P. Milazzo|Acute and Chronic Toxicity of Technical Picloram (4-Amino-3,5,6-Trichloropicolinic Acid) to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.35(1): 121-126|1985|10.1007/BF01636489
11639|A||Gill,T.S., and J.C. Pant|Mercury-Induced Blood Anomalies in the Freshwater Teleost|Water Air Soil Pollut.24(2): 165-171|1985|10.1007/BF00285441
11640|A||Gupta,S., and R.C. Dalela|Effect of Phenol on In Vivo Activity of Tissue Transaminases in a Fresh Water Fish, Notopterus notopterus|J. Environ. Biol.6(3): 151-156|1985|
11641|A||Holdway,D.A., and D.G. Dixon|Acute Toxicity of Pulse-Dosed Methoxychlor to Juvenile American Flagfish (Jordanella floridae Goode and Bean) as Modified by Age and Food Availability|Aquat. Toxicol.6(4): 243-250|1985|10.1016/0166-445X(85)90022-0
11642|A||Lal,H., V. Misra, P.N. Viswanathan, and C.R.K. Murti|The Water Flea (Daphnia magna) as a Sensitive Indicator for the Assessment of Toxicity of Synthetic Detergents|Ecotoxicol. Environ. Saf.8(5): 447-450|1984|10.1016/0147-6513(84)90065-4
11643|A||Linder,G., H.L. Bergman, and J.S. Meyer|Anthracene Bioconcentration in Rainbow Trout During Single-Compound and Complex-Mixture Exposures|Environ. Toxicol. Chem.4(4): 549-558|1985|
11644|A||Luquet,P., J.P. Cravedi, J. Tulliez, and G. Bories|Growth Reduction in Trout Induced by Naphthenic and Isoprenoid Hydrocarbons (Dodecylcyclohexane and Pristane)|Ecotoxicol. Environ. Saf.8(3): 219-226|1984|10.1016/0147-6513(84)90025-3
11645|A||Machon,A., M.J. North, N.C. Price, and D.E. Wells|The Uptake and Metabolism by Goldfish Carassius auratus of Pentachloro-2-[Chloromethyl Sulphonamido]Diphenyl Ether (6-PCSD), the Major|Environ. Pollut. A.36(3): 271-281|1984|10.1016/0143-1471(84)90008-4
11646|A||McClurg,T.P.|Effects of Fluoride, Cadmium and Mercury on the Estuarine Prawn Penaeus indicus|Water SA10(1): 40-45|1984|
11647|A||Murti,R., Omkar, and G.S. Shukla|Mercuric Chloride intoxication in Freshwater Prawn. II. Effect on Phosphatases Activity|Ecotoxicol. Environ. Saf.8(6): 581-586|1984|10.1016/0147-6513(84)90018-6
11648|A||Rachlin,J.W., T.E. Jensen, and B.E. Warkentine|Morphometric Analysis of the Response of Anabaena flos-aquae and Anabaena variabilis (Cyanophyceae) to Selected Concentrations of Zinc|Arch. Environ. Contam. Toxicol.14(4): 395-402|1985|10.1007/BF01055524
11649|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Molt-Inhibition in the Crab Oziotelphusa senex senex Following Exposure to Malathion and Methyl Parathion|Bull. Environ. Contam. Toxicol.35(1): 92-97|1985|10.1007/BF01636485
11650|A||Rodrigues,C.S., D. Molloy, and N.K. Kaushik|Laboratory Evaluation of Microencapsulated Formulations of Chlorpyrifos-Methyl Against Black Fly Larvae (Diptera: Simuliidae) and Selected|Can. Entomol.115(9): 1189-1201|1983|10.4039/Ent1151189-9
11651|A||Sadhu,A.K., D.K. Chowdhury, and P.K. Mukhopadhyay|Relationship Between Serum Enzymes, Histological Features and Enzymes in Hepatopancreas After Sublethal Exposure to Malathion and Phosphamidon in the Murrel Channa striatus (BL.)|Int. J. Environ. Stud.24(1): 35-41|1985|10.1080/00207238508710174
11652|A||Saroja-Subbaraj,G., and S. Bose|Binding Characteristics of Methyl Parathion to Photosynthetic Membranes of Chlorella|Pestic. Biochem. Physiol.20:188-193|1983|10.1016/0048-3575(83)90023-8
11653|A||Siwicki,A.|New Anaesthetic for Fish|Aquaculture38(2): 171-176|1984|10.1016/0044-8486(84)90228-X
11654|A||Sklar,F.H.|Crustacea (Procambarus clarkii) Response to an Organophosphate Diet|Environ. Pollut. A.39(2): 131-140|1985|10.1016/0143-1471(85)90011-X
11655|A||Solbe,J.F.D., V.A. Cooper, C.A. Willis, and M.J. Mallett|Effects of Pollutants in Fresh Waters on European Non-Salmonid Fish I: Non-Metals|J. Fish Biol.27:197-207|1985|10.1111/j.1095-8649.1985.tb03242.x
11656|A||Staves,R.P., and R.M. Knaus|Chromium Removal from Water by Three Species of Duckweeds|Aquat. Bot.23(3): 261-273|1985|10.1016/0304-3770(85)90070-1
11657|A||Steele,C.W.|Latent Behavioural Toxicity of Copper to Sea Catfish, Arius felis, and Sheepshead, Archosargus probatocephalus|J. Fish Biol.27(5): 643-654|1985|10.1111/j.1095-8649.1985.tb03209.x
11658|A||Stephenson,R.R., and D.F. Kane|Persistence and Effects of Chemicals in Small Enclosures in Ponds|Arch. Environ. Contam. Toxicol.13(3): 313-326|1984|10.1007/BF01055282
11659|A||Stratton,G.W.|Effects of the Herbicide Atrazine and Its Degradation Products, Alone and in Combination, on Phototrophic Microorganisms|Arch. Environ. Contam. Toxicol.13(1): 35-42|1984|10.1007/BF01055644
11660|A||Trevors,J.T., and H. Vedelago|Toxicity of Fluridone in Algal Bioassays|Bull. Environ. Contam. Toxicol.34(5): 696-701|1985|10.1007/BF01609795
11661|A||Watenpaugh,D.E., and T.L. Beitinger|Nitrite Exposure and Respiration Rates in Fathead Minnows|Bull. Environ. Contam. Toxicol.35(1): 106-111|1985|10.1007/BF01636487
11662|A||Watenpaugh,D.E., T.L. Beitinger, and D.W. Huey|Temperature Tolerance of Nitrite-Exposed Channel Catfish|Trans. Am. Fish. Soc.114(2): 274-278|1985|10.1577/1548-8659(1985)114<274:TTONCC>2.0.CO;2
11663|A||Wendler,B.W., and D.R. Norris|Effects of Monomethylhydrazine on Selected Species of Marine Diatoms|Bull. Environ. Contam. Toxicol.35(1): 98-105|1985|10.1007/BF01636486
11664|A||Wester,P.W., J.H. Canton, and A. Bisschop|Histopathological Study of Poecilia reticulata (Guppy) After Long-Term beta-Hexachlorocyclohexane Exposure|Aquat. Toxicol.6(4): 271-296|1985|10.1016/0166-445X(85)90024-4
11665|A||Wiger,R.|Variability of Lindane Toxicity in Tetrahymena pyriformis with Special Reference to Liposomal Lindane and the Surfactant Tween 80|Bull. Environ. Contam. Toxicol.35(4): 452-459|1985|10.1007/BF01636537
11666|A||De,A.K., A.K. Sen, D.P. Modak, and S. Jana|Studies of Toxic Effects of Hg(II) on Pistia stratiotes|Water Air Soil Pollut.24(4): 351-360|1985|10.1007/BF00282487
11667|A||McGibbon,S., and A.G.S. Moldan|Routine Toxicity Testing of Toxicants Using a Sea Urchin Gamete Bioassay|Mar. Pollut. Bull.17(2): 68-72|1986|10.1016/0025-326X(86)90294-8
11668|A||Ghate,H.V.|Dithiocarbamate Induced Teratogenesis in Frog Embryo|Riv. Biol.78(2): 288-291|1985|
11669|A||Elliott,N.G., R. Swain, and D.A. Ritz|The Influence of Cyclic Exposure on the Accumulation of Heavy Metals by Mytilus edulis planulatus (Lamarck)|Mar. Environ. Res.15(1): 17-30|1985|10.1016/0141-1136(85)90035-2
11670|A||Pasteur,R., A. Herzberg, M. Rave, and A. Gelman|Toxicity of Lindane to Hybrid Tilapia: Residue Accumulation and Depuration|Bamidgeh37(4): 112-122|1985|
11671|A||Salki,A., M. Turner, K. Patalas, J. Rudd, and D. Findlay|The Influence of Fish-Zooplankton-Phytoplankton Interactions on the Results of Selenium Toxicity Experiments Within Large Enclosures|Can. J. Fish. Aquat. Sci.42(6): 1132-1143|1985|10.1139/f85-140
11672|A||Casserly,D.M., E.M. Davis, T.D. Downs, and R.K. Guthrie|Sorption of Organics by Selenastrum capricornutum|Water Res.17(11): 1591-1594|1983|10.1016/0043-1354(83)90016-7
11673|A||Moraitou-Apostolopoulou,M., and G. Verriopoulos|Toxicity of Chromium to the Marine Planktonic Copepod Acartia clausi, Giesbrecht|Hydrobiologia (Multiple Languages)96(2): 121-127|1982|10.1007/BF02185427
11674|A||Levy,R., C.M. Powell, and T.W.,Jr. Miller|Investigations on the Mosquito Control Potential of Formulations of Arosurf MSF and Conventional Larvicides|Mosq. News44(4): 592-595|1984|
11675|A||Smith,L.R., T.M. Holsen, N.C. Ibay, R.M. Block, and A.B. De Leon|Studies on the Acute Toxicity of Fluoride Ion to Stickleback, Fathead Minnow, and Rainbow Trout|Chemosphere14(9): 1383-1389|1985|10.1016/0045-6535(85)90158-4
11676|A||Hanson,L.A., and J.M. Grizzle|Nitrite-Induced Predisposition of Channel Catfish to Bacterial Diseases|Prog. Fish-Cult.47(2): 98-101|1985|10.1577/1548-8640(1985)47<98:NPOCCT>2.0.CO;2
11677|A||Geyer,H., I. Scheunert, and F. Korte|The Effects of Organic Environmental Chemicals on the Growth of the Alga Scenedesmus subspicatus: A Contribution to Environmental Biology|Chemosphere14(9): 1355-1369|1985|10.1016/0045-6535(85)90156-0
11678|A||Ferard,J.F., J.M. Jouany, R. Truhaut, and P. Vasseur|Accumulation of Cadmium in a Freshwater Food Chain Experimental Model|Ecotoxicol. Environ. Saf.7(1): 43-52|1983|10.1016/0147-6513(83)90047-7
11679|A||Cunningham,J.J., W.M. Kemp, M.R. Lewis, and J.C. Stevenson|Temporal Responses of the Macrophyte, Potamogeton perfoliatus L., and Its Associated Autotrophic Community to Atrazine Exposure in Estuarine|Estuaries7(4B): 519-530|1984|10.2307/1352057
11680|A||Cuffney,T.F., J.B. Wallace, and J.R. Webster|Pesticide Manipulation of a Headwater Stream: Invertebrate Responses and Their Significance for Ecosystem Processes|Freshw. Invertebr. Biol.3(4): 153-171|1984|10.2307/1467120
11681|A||Omkar, and G.S. Shukla|Dichlorvos Intoxication in a Freshwater Prawn, Macrobrachium lamarrei (H. Milne Edwards)|Ecotoxicol. Environ. Saf.9(3): 392-396|1985|10.1016/0147-6513(85)90058-2
11682|A||Ekechukwu,G.C.A.|Pharmacokinetics of Methyl Mercury Bioaccumulation in Carp, Cyprinus carpio Linnaeus|Ph.D.Thesis, University of Nevada, Reno, NV:156 p.|1976|
11683|A||Jouany,J.M., R. Truhaut, P. Vasseur, D. Klein, J.F. Ferard, and P. Deschamps|An Example of Interaction between Environmental Pollutants: Modification of Thiram Toxicity to Freshwater Organisms by Nitrites or Nitrates in Relation to Nitrosamine Synthesis|Ecotoxicol. Environ. Saf.9(3): 327-338|1985|10.1016/0147-6513(85)90050-8
11684|A||Leland,H.V., and J.L. Carter|Effects of Copper on Production of Periphyton, Nitrogen Fixation and Processing of Leaf Litter in a Sierra Nevada, California, Stream|Freshw. Biol.15(2): 155-173|1985|10.1111/j.1365-2427.1985.tb00189.x
11685|A||Joyce,J.C., and W.T. Haller|Effect of Gibberellic Acid and 2,4-D on Water Hyacinths|Aquat. Bot.23(2): 119-125|1985|10.1016/0304-3770(85)90059-2
11686|A||Brooks,J.A.|Otolith Abnormalities in Limnodynastes tasmaniensis Tadpoles After Embryonic Exposure to the Pesticide Dieldrin|Environ. Pollut. A.25(1): 19-25|1981|10.1016/0143-1471(81)90111-2
11687|A||Vandermeulen,J.H.|Altered Grazing Patterns in an Experimental Copepod-Alga Ecosystem Exposed to Naphthalene and Kuwait Crude Oil|Bull. Environ. Contam. Toxicol.36(2): 260-266|1986|10.1007/BF01623505
11688|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Carbohydrate Metabolism in Tissue of Fresh Water Crab (Oziotelphusa senex senex) Exposed to Methyl Parathion|Bull. Environ. Contam. Toxicol.36(2): 204-210|1986|10.1007/BF01623496
11689|A||Graham,G.A., G. Byron, and R.H. Norris|Survival of Salmo gairdneri (Rainbow Trout) in the Zinc Polluted Molonglo River Near Captains Flat, New South Wales, Australia|Bull. Environ. Contam. Toxicol.36(2): 186-191|1986|10.1007/BF01623493
11690|A||Miyauchi,M., M. Kondo, M. Takagi, and T. Uematsu|Behavior of 2,4-Dichloro p-Nitrobiphenyl Ether and 2,4,6-Trichloro p-Nitrobiphenyl Ether in Fish|Nippon Suisan Gakkaishi (Multiple Languages)47(7): 871-879|1981|10.2331/suisan.47.871
11691|A||Saroja,G., and S. Bose|Correlation Between Inhibition of Photosynthesis and Growth of Chlorella Treated with Methyl Parathion|J. Biosci.5(1): 71-78|1983|10.1007/BF02702595
11693|A||Chatterjee,K., and S.K. Konar|Effects of the Pesticide Diazinon at Various pH and Turbidity on Fish and Aquatic Ecosystem|Aquat. Sci. Fish. Abstr.1,14(11): 263-|1984|
11694|A||Vankhede,G.N.|Toxicity of Ammonium Sulfate to the Snail Bellamya bengalensis at Different pH|Aquat. Sci. Fish. Abstr.15(2, Pt.1): 287|1985|
11695|A||Kaushik,N.K., G.L. Stephenson, K.R. Solomon, and K.E. Day|Impact of Permethrin on Zooplankton Communities in Limnocorrals|Can. J. Fish. Aquat. Sci.42(1): 77-85|1985|10.1139/f85-010
11697|A||Baudin,J.P.|Accumulation Simultanee par les Voies Directe et Trophique due 65Zn par Cyprinus carpio L. (Pisces, Cyprinidae)|Acta Oecol. Oecol. Appl. (Multiple Languages)6(3): 259-268|1985|
11698|A||Biesinger,K.E., G.M. Christensen, and J.T. Fiandt|Effects of Metal Salt Mixtures on Daphnia magna Reproduction|Ecotoxicol. Environ. Saf.11(1): 9-14|1986|10.1016/0147-6513(86)90024-2
11699|A||Brauwers,C.|Effects of Brief Exposure to H2SO3 on Growth of Chlorella pyrenoidosa|Bull. Soc. R. Bot. Belg. (Multiple Languages)115(1): 69-77|1982|
11700|A||Canton,J.H., and W. Slooff|Substitutes for Phosphate Containing Washing Products: Their Toxicity and Biodegradability in the Aquatic Environment|Chemosphere12(1): 891-907|1982|10.1016/0045-6535(82)90136-9
11701|A||Choudhuri,D.K., A.K. Sadhu, and P.K. Mukhopadhyay|Toxicity of Two Organophosphorus Insecticides - Malathion and Phosphamidon to the Fish Channa striatus|Aquat. Sci. Fish. Abstr.14:264-|1984|
11702|A||Cleveland,L., F.L. Mayer, D.R. Buckler, and D.U. Palawski|Toxicity of Five Alkyl-Aryl Phosphate Ester Chemicals to Four Species of Freshwater Fish|Environ. Toxicol. Chem.5:273-282|1986|
11703|A||Dabrowska,H., and T. Wlasow|Sublethal Effect of Ammonia on Certain Biochemical and Haematological Indicators in Common Carp (Cyprinus carpio L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 179-184|1986|10.1016/0742-8413(86)90033-2
11704|A||Sen,A.K., N.G. Mondal, and S. Mandal|Toxic Effects of Chromium (VI) on the Plants Salvinia natans L|Environ. Ecol.12(2): 279-283|1994|
11705|A||Ferreira,J.T., H.J. Schoonbee, and G.L. Smit|The Anaesthetic Potency of Benzocaine-Hydrochloride in Three Freshwater Fish Species|S. Afr. J. Zool.19(1): 46-50|1984|10.1080/02541858.1984.11447855
11707|A||Fisher,S.W.|Effects of pH upon the Environmental Fate of [14C]Fenitrothion in an Aquatic Microcosm|Ecotoxicol. Environ. Saf.10(1): 53-62|1985|10.1016/0147-6513(85)90006-5
11708|A||Fisher,S.W., and R.W. Wadleigh|Effects of pH on the Acute Toxicity and Uptake of [14C]Pentachlorophenol in the Midge, Chironomus riparius|Ecotoxicol. Environ. Saf.11(1): 1-8|1986|10.1016/0147-6513(86)90023-0
11709|A||Hansen,D.J., L.R. Goodman, G.M. Cripe, and S.F. Macauley|Early Life-Stage Toxicity Test Methods for Gulf Toadfish (Opsanus beta) and Results Using Chlorpyrifos|Ecotoxicol. Environ. Saf.11(1): 15-22|1986|10.1016/0147-6513(86)90025-4
11710|A||Hidaka,H., M. Hattanda, and R. Tatsukawa|Avoidance of Pesticides with Medakas (Oryzias latipes)|J. Agric. Chem. Soc. Jpn. 58(2): 145-151|1984|
11711|A||Hossain,A., and H.M. Dutta|Acid Phosphatase Activity in the Intestine and Caeca of Bluegill, Exposed to Methyl Mercuric Chloride|Bull. Environ. Contam. Toxicol.36(3): 460-467|1986|10.1007/BF01623535
11712|A||Huang,Y., G.R. Biddinger, and S.P. Gloss|Bioaccumulation of 14C-Hexachlorobenzene in Eggs and Fry of Japanese Medaka (Oryzias latipes)|Bull. Environ. Contam. Toxicol.36(3): 437-443|1986|10.1007/BF01623532
11713|A||Janalik,B., and E. Wohlgemuth|The Accumulation of Monocrotophos in Some Piscine Organs|Acta Hydrochim. Hydrobiol. (Multiple Languages)13(3): 351-358|1985|10.1002/aheh.19850130311
11714|A|RUSSN|Kanajev,A.I., and A.V. Bykova|The Diagnostics of Fish Poisoning Using the Mercury Containing Compositions with the Chronicle Intoxication|Vestn. Skh. Nauki (Non-English)9:81-88|1984|
11715|A||Bennett,R.O., and R.C. Rhodes III|Evaluation of Oral Administration of Cortisol and Metyrapone: The Effects on Serum Cortisol in Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. A Comp. Physiol.83(4): 727-730|1986|10.1016/0300-9629(86)90717-6
11716|A||Khangarot,B.S., A. Sehgal, and M.K. Bhasin|"""Man and the Biosphere"" -Studies on Sikkim Himalayas.  Part 1:  Acute Toxicity of Copper and Zinc to Common Carp Cyprinus carpio (Linn.) in Soft Water"|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(6): 667-673|1983|10.1002/aheh.19830110609
11717|A||Komala,Z.|Paramecium Bioassay Test in Studies on the Insecticide Kartox 50|Folia Biol. (Krakow)32(4): 281-293|1984|
11718|A||Lal,H., V. Misra, P.N. Viswanathan, and C.R.K. Murti|Comparative Studies on Ecotoxicology of Synthetic Detergents|Ecotoxicol. Environ. Saf.7:538-545|1983|10.1016/0147-6513(83)90012-X
11719|A||Lauren,D.J., and D.G. McDonald|Effects of Copper on Branchial Ionoregulation in the Rainbow Trout, Salmo gairdneri Richardson|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.155(5): 635-644|1985|10.1007/BF00694455
11720|A||Lee,J.Y.|Acute Effect of Agricultural Chemicals on the Larvae of Loach, Misgurnus anguillicaudatus|Bull. Gunsan Fish. J. Coll.17(3): 125-129|1983|
11721|A||Lee,J.Y., and P. Chin|Acute Toxicity of Synthetic Detergent on the Larvae of Loach, Misgurnus angillicaudatus|J. Korean Fish. Soc. (Multiple Languages)17(2): 139-142|1984|
11722|A||Lewis,D.H., R.J. Tarpley, J.E. Marks, and R.F. Sis|Drug Induced Structural Changes in Olfactory Organ of Channel Catfish Ictalurus punctatus, Rafinesque|J. Fish Biol.26(3): 355-358|1985|10.1111/j.1095-8649.1985.tb04273.x
11723|A||Meier,P.G., and R.R. Rediske|Oil and PCB Interactions on the Uptake and Excretion in Midges|Bull. Environ. Contam. Toxicol.33(2): 225-232|1984|10.1007/BF01625535
11724|A||Mhatre,G.N., and S.B. Chaphekar|The Effect of Mercury on Some Aquatic Plants|Environ. Pollut. A.39(3): 207-216|1985|10.1016/0143-1471(85)90097-2
11725|A||Millemann,R.E., W.J. Birge, J.A. Black, R.M. Cushman, K.L. Daniels, P.J. Franco, J.M. Giddings, J.F. McCarthy, and A.J.|Comparative Acute Toxicity to Aquatic Organisms of Components of Coal-Derived Synthetic Fuels|Trans. Am. Fish. Soc.113(1): 74-85|1984|10.1577/1548-8659(1984)113<74:CATTAO>2.0.CO;2
11726|A||Netrawali,M.S., S.R. Gandhi, and M.D. Pednekar|Effect of Endosulfan, Malathion, and Permethrin on Sexual Life Cycle of Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.36(3): 412-420|1986|10.1007/BF01623529
11727|A||Cameron,G.N., J.M. Symons, S.R. Spencer, and J.Y. Ma|Minimizing THM Formation During Control of the Asiatic Clam:  A Comparison of Biocides|J. Am. Water Works Assoc.81(2): 53-62|1989|10.1002/j.1551-8833.1989.tb03290.x
11728|A||Olsen,K.H., and L.B. Hoglund|Reduction by a Surfactant of Olfactory Mediated Attraction Between Juveniles of Arctic Charr, Salvelinus alpinus (L.)|Aquat. Toxicol.6(1): 57-69|1985|10.1016/0166-445X(85)90020-7
11729|A||Oris,J.T.,Jr.|The Photoenhanced Toxicity of Anthracene to Juvenile Sunfish (Lepomis spp.)|Aquat. Toxicol.6(2): 133-146|1985|10.1016/0166-445X(85)90012-8
11730|A||Petersen,D.W., K.M. Kleinow, R.C. Kraska, and J.J. Lech|Uptake, Disposition, and Elimination of Acrylamide in Rainbow Trout|Toxicol. Appl. Pharmacol.80(1): 58-65|1985|10.1016/0041-008X(85)90101-2
11731|A||Polar,E., and R. Kucukcezzar|Influence of Some Metal Chelators and Light Regimes on Bioaccumulation and Toxicity of Cd2+ in Duckweed (Lemna gibba)|Physiol. Plant. (Multiple Languages)66(1): 87-93|1986|10.1111/j.1399-3054.1986.tb01238.x
11733|A||Rao,P.S.B.|Effects of Lindane on ATPase Activity in Juveniles of Mugil cephalus|J. Environ. Biol.7(1): 23-33|1986|
11734|A||Rasmussen,L.P.D., E. Hage, and O. Karlog|Light and Electronmicroscopic Studies of the Acute and Long-Term Toxic Efects of N-Nitrosodipropylamine and N-Methylnitrosurea on the Marine Mussel|Mar. Biol.85(1): 55-65|1985|10.1007/BF00396415
11735|A||Salibian,A., J. Herkovits, and P.G. Minotti|Effects of Low Concentrations of Ethanol on the Embryonic Development of Bufo arenarum|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 171-174|1985|10.1016/0742-8413(85)90110-0
11736|A||Scarano,G., and M.G. Saroglia|Recovery of Fish from Functional and Haemolytic Anaemia After Brief Exposure to a Lethal Concentration of Nitrite|Aquaculture43(4): 421-426|1984|10.1016/0044-8486(84)90250-3
11737|A||Segner,H., and H. Back|Importance of Contaminated Food for the Uptake of Heavy Metals in the Rainbow Trout, Salmo gairdneri|Naturwissenschaften72(7): 379-380|1985|10.1007/BF00410605
11738|A||Shazili,N.A.M., and D. Pascoe|Variable Sensitivity of Rainbow Trout (Salmo gairdneri) Eggs and Alevins to Heavy Metals|Bull. Environ. Contam. Toxicol.36(3): 468-474|1986|10.1007/BF01623536
11739|A||Somasundaram,B.|Effects of Zinc on Epidermal Ultrastructure in the Larva of Clupea harengus|Mar. Biol.85(2): 199-207|1985|10.1007/BF00397438
11740|A||Suorsa,K.E., and S.W. Fisher|Effects of pH on the Environmental Fate of [14C]Aldicarb in an Aquatic Microcosm|Ecotoxicol. Environ. Saf.11(1): 81-90|1986|10.1016/0147-6513(86)90029-1
11742|A||Torres,P., L. Tort, J. Planas, and R. Flos|Effects of Confinement Stress and Additional Zinc Treatment on Some Blood Parameters in the Dogfish Scyliorhinus canicula|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 89-92|1986|10.1016/0742-8413(86)90017-4
11743|A||Vandermeulen,J.H., W. Silvert, and A. Foda|Sublethal Hydrocarbon Phytotoxicity in the Marine Unicellular Alga Pavlova lutheri Droop|Aquat. Toxicol.4(1): 31-49|1983|10.1016/0166-445X(83)90059-0
11744|A||Van Vuren,J.H.J.|The Effects of Toxicants on the Haematology of Labeo umbratus (Teleostei: Cyprinidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 155-159|1986|10.1016/0742-8413(86)90029-0
11745|A||Versteeg,D.J., and J.P. Giesy|The Histological and Biochemical Effects of Cadmium Exposure in the Bluegill Sunfish (Lepomis macrochirus)|Ecotoxicol. Environ. Saf.11(1): 31-43|1986|10.1016/0147-6513(86)90027-8
11746|A||Victor,B., and R. Sarojini|Toxicity of an Organophosphorous Insecticide to the Ovaries of the Atyid Prawn, Caridina rajadhari (Bouvier)|J. Environ. Biol.7(1): 47-50|1986|
11747|A||Vodicnik,M.J., and R.E. Peterson|The Enhancing Effect of Spawning on Elimination of a Persistent Polychlorinated Biphenyl From Female Yellow Perch|Fundam. Appl. Toxicol.5(4): 770-776|1985|10.1016/0272-0590(85)90201-5
11748|A||Wang,H., S. Sun, P. Kuang, and Z. Liu|Uptake, Distribution, Accumulation and Effect of Cadmium on Aquatic Vascular Plants|Huanjing Kexue Xuebao (Non-English)4(3): 248-257|1984|
11749|A||Watenpaugh,D.E., and T.L. Beitinger|Se Exposure and Temperature Tolerance of Fathead Minnows, Pimephales promelas|J. Therm. Biol.10(2): 83-86|1985|10.1016/0306-4565(85)90030-0
11750|A||Wells,P.G., S. Abernethy, and D. Mackay|Study of Oil-Water Partitioning of a Chemical Dispersant Using an Acute Bioassay with Marine Crustaceans|Chemosphere11(11): 1071-1086|1982|10.1016/0045-6535(82)90112-6
11751|A||Wong,P.T.S., and Y.K. Chau|Structure-Toxicity of Triaryl Phosphates in Freshwater Algae|Sci. Total Environ.32:157-165|1984|10.1016/0048-9697(84)90128-1
11752|A||Wu,Y., X. Shu, J. Ying, Y. Yang, and J. Wu|Toxic Effects of Methamidophos on Grass Carp (Ctenopharynagodon idellus), Silver Carp (Hypophthalmichthys molitrix) and Nile Tilapia (Tilapia nilotica)|Huanjing Kexue (Non-English)5(2): 1-5|1984|
11753|A||Wurtsbaugh,W.A., and A.J. Horne|Effects of Copper on Nitrogen Fixation and Growth of Blue-Green Algae in Natural Plankton Associations|Can. J. Fish. Aquat. Sci.39(12): 1636-1641|1982|10.1139/f82-220
11754|A||Zaccone,G., S. Fasulo, P. Lo Cascio, and A. Licata|Patterns of Enzyme Activities in the Gills of the Catfish Heteropneustes fossilis (Bloch) Exposed to the Anionactive Detergent Na-Alkyl-Benzenesulphonate (LAS)|Histochemistry82:341-343|1985|10.1007/BF00494062
11755|A||Shelton,D.W., J.D. Hendricks, R.A. Coulombe, and G.S. Bailey|Effect of Dose on the Inhibition of Carcinogenesis/Mutagenesis by Aroclor 1254 in Rainbow Trout fed Aflatoxin B1|J. Toxicol. Environ. Health13:649-657|1984|10.1080/15287398409530529
11756|A||Sharma,R.G., S. Sharma, R.K. Sharma, and S.D. Pandey|Studies on the Toxicity of Two Organophosphorus Compounds on a Freshwater Teleost, Labeo rohita (Ham.)|Geobios (Jodhpur)11(3): 140-141|1984|
11757|A||Zaccone,G., P. Lo Cascio, S. Fasulo, and A. Licata|The Effect of an Anionic Detergent on Complex Carbohydrates and Enzyme Activities in the Epidermis of the Catfish Heteropneustes fossilis (Bloch)|Histochem. J.17(4): 453-466|1985|10.1007/BF01003205
11758|A||Rice,D.W.,Jr., and F.L. Harrison|The Sensitivity of Adult, Embryonic, and Larval Crayfish Procambarus clarkii to Copper|NUREG/CR-3133, UCRL-53048, U.S.Nucl.Regul.Commiss., Washington, DC:17 p.|1983|
11760|A||Koksvik,J.I., and K. Aagaard|Effects of Rotenone Treatment on the Benthic Fauna of a Small Eutrophic Lake|Verh. Int. Ver. Theor. Angew. Limnol.22:658-665|1984|
11761|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|In Vivo Acute Physiological Stress Induced by HCH on the Levels of Glycogen and Total Carbohydrates in Various Tissues of Oziotelphusa senex senex|Toxicol. Lett.22:335-338|1984|10.1016/0378-4274(84)90110-3
11762|A||Gasith,A., and A.S. Perry|Use of Limnocorrals for Pesticide Toxicity Studies: Effect on Zooplankton Composition and Dynamics|Verh. Int. Ver. Theor. Angew. Limnol.22(4): 2432-2436|1985|
11763|A||Ghetti,P.F., and G. Gorbi|Effects of Acute Parathion Pollution on Macroinvertebrates in a Stream|Verh. Int. Ver. Theor. Angew. Limnol.22:2426-2431|1985|
11764|A||Shukla,L., and A.K. Pandey|Restitution of Thyroid Activity in the DDT Exposed Sarotherodon mossambicus: A Histological and Histochemical Profile|Water Air Soil Pollut.27(3-4): 225-236|1986|10.1007/BF00649403
11765|A||Rao,Y.P., V.U. Devi, and D.G.V.P. Rao|Copper Toxicity in Tropical Barnacles, Balanus amphitrite amphitrite and Balanus tintinnabulum tintinnabulum|Water Air Soil Pollut.27(1-2): 109-115|1986|10.1007/BF00464773
11766|A||Verma,D., M.S. Chouhan, and A.K. Pandey|Effect of Weedone (a Selective 2,4-D Herbicide) on Neuroendocrine Complex of Puntius ticto (Ham.)|J. Environ. Biol.5(4): 249-254|1984|
11767|A||Dewey,S.L.|Effects of the Herbicide Atrazine on Aquatic Insect Community Structure and Emergence|Ecology67(1): 148-162|1986|10.2307/1938513
11768|A||Storozhuk,N.G., and I.B. Guleva|Qualitative Composition and Morphology of Blood Cells of Coho Salmon, Oncorhynchus kisutch (Salmonidae), As Influenced by Mercury|J. Ichthyol.23(5): 128-137|1983|
11769|A||Lesyuk,I.I., A.O. Kostyuk, A.A. Lemishko, S.G. Reshetilo, and I.Y. Kotsyumbas|Effect of Anionic Surfactants on the Survival of Loach, Misgurnus fossilis (Cobitidae), and Rainbow Trout, Salmo gairdneri (Salmonidae), During|J. Ichthyol.23(6): 104-111|1983|
11771|A||Menezes,M.R., and S.Z. Qasim|The Effect of Mercury on the Growth Efficiency of Tilapia mossambica (Peters)|Mahasagar17(1): 59-62|1984|
11772|A||Lockhart,W.L., D.A. Metner, F.J. Ward, and G.M. Swanson|Population and Cholinesterase Responses in Fish Exposed to Malathion Sprays|Pestic. Biochem. Physiol.24:12-18|1985|10.1016/0048-3575(85)90108-7
11773|A||Gingerich,W.H., and J.J. Rach|Uptake, Biotransformation, and Elimination of Rotenone by Bluegills (Lepomis macrochirus)|Aquat. Toxicol.6(3): 179-196|1985|10.1016/0166-445X(85)90003-7
11774|A||Suzuki,S., N. Sato, H. Momokawa, and I. Ushizawa|Residual Insecticide (IBP) in Corbicula|C. A. Sel. Environ. Pollut.8:6-|1984|
11775|A||Foran,J.A., W.L. Miller, S. Doyan, and M. Krtausch|Temik Contamination in a Surface Water System and Its Potential Effect on a Daphnid Species in Florida|Environ. Pollut. A.40(4): 369-380|1986|10.1016/0143-1471(86)90068-1
11776|A||Kuwabara,J.S., and H.V. Leland|Adaptation of Selenastrum capricornutum (Chlorophyceae) to Copper|Environ. Toxicol. Chem.5(2): 197-203|1986|10.1002/etc.5620050211
11777|A||Larsen,D.P., F.,Jr. DeNoyelles, F. Stay, and T. Shiroyama|Comparisons of Single-Species, Microcosm and Experimental Pond Responses to Atrazine Exposure|Environ. Toxicol. Chem.5(2): 179-190|1986|
11778|A||Linder,G., and H.L. Bergman|Periodic Depuration of Anthracene Metabolites by Rainbow Trout|Trans. Am. Fish. Soc.113(4): 513-520|1984|10.1577/1548-8659(1984)113<513:PDOAMB>2.0.CO;2
11779|A||Jayasekara,S., D.B. Drown, and R.P. Sharma|Tolerance to Cadmium and Cadmium-Binding Ligands in Great Salt Lake Brine Shrimp (Artemia salina)|Ecotoxicol. Environ. Saf.11(1): 23-30|1986|10.1016/0147-6513(86)90026-6
11780|A||Turbak,S.C., S.B. Olson, and G.A. McFeters|Comparison of Algal Assay Systems for Detecting Waterborne Herbicides and Metals|Water Res.20(1): 91-96|1986|10.1016/0043-1354(86)90219-8
11781|A||Nieminen,M., M. Laitinen, and P. Pasanen|Effects of Anaesthesia with Tricaine (MS 222) on the Blood Composition of the Splake (Salvelinus fontinalis X Salvelinus namaycush)|Comp. Biochem. Physiol. C Comp. Pharmacol.73(2): 271-276|1982|10.1016/0306-4492(82)90120-4
11782|A||Lyngby,J.E., and H. Brix|The Uptake of Heavy Metals in Eelgrass Zostera marina and Their Effect on Growth|Ecol. Bull.36:81-89|1984|
11783|A||Borchardt,T.|Influence of Food Quantity on the Kinetics of Cadmium Uptake and Loss Via Food and Seawater in Mytilus edulis|Mar. Biol.76(1): 67-76|1983|10.1007/BF00393057
11784|AT||Lores,E.M., J.C. Moore, J. Knight, J. Forester, J. Clark, and P. Moody|Determination of Fenthion Residues in Samples of Marine Biota and Seawater from Laboratory Exposures and Field Applications|J. Chromatogr.23(3): 124-127|1985|
11785|A||Rieger,A.W., D.C.G. Muir, and M.R. Hendzel|Gas Chromatographic Determination of Picloram in Fish|J. AOAC Int.68(1): 59-61|1985|10.1093/jaoac/68.1.59
11786|A||Wang,H.K., and J.M. Wood|Bioaccumulation of Nickel by Algae|Environ. Sci. Technol.18(2): 106-109|1984|10.1021/es00120a011
11787|A||Banerjee,S., R.H. Sugatt, and D.P. O'Grady|A Simple Method for Determining Bioconcentration Parameters of Hydrophobic Compounds|Environ. Sci. Technol.18(2): 79-81|1984|10.1021/es00120a005
11789|A||Wang,W.|Toxicity Tests of Aquatic Pollutants by Using Common Duckweed|Environ. Pollut. Ser. B Chem. Phys.11(1): 1-14|1986|10.1016/0143-148X(86)90028-5
11790|A||Diaz-Mayans,J., A. Torreblanca, J. Del Ramo, and A. Nunez|Oxygen Uptake by Excised Gills of Procambarus clarkii (Girard) From Albufera Lake of Valencia, Spain, Under Heavy Metal Treatments|Bull. Environ. Contam. Toxicol.36(6): 912-917|1986|10.1007/BF01623604
11791|A||Sheela,M., R. Mathivanan, and S. Muniandy|Impacts of Fenvalerate on Biochemical Status of Different Tissues in the Fish Channa striatus (Bloch)|Environ. Ecol.10(3): 547-549|1992|
11792|A||Sehgal,R., and A.B. Saxena|Toxicity of Zinc to a Viviparous Fish, Lebistes reticulatus (Peters)|Bull. Environ. Contam. Toxicol.36(6): 888-894|1986|10.1007/BF01623600
11793|A||Ram,R.N., and A.G. Sathyanesan|Ammonium Sulfate Induced Nuclear Changes in the Oocyte of the Fish, Channa punctatus (Bl.)|Bull. Environ. Contam. Toxicol.36(6): 871-875|1986|10.1007/BF01623597
11794|A||Tomasso,J.R., and G.J. Carmichael|Acute Toxicity of Ammonia, Nitrite, and Nitrate to the Guadalupe Bass, Micropterus treculi|Bull. Environ. Contam. Toxicol.36(6): 866-870|1986|10.1007/BF01623596
11795|A||Wilson,J.E.H., and J.D. Costlow|Comparative Toxicity of Two Dimilin Formulations to the Grass Shrimp, Palaemonetes pugio|Bull. Environ. Contam. Toxicol.36(6): 858-865|1986|10.1007/BF01623595
11796|A||Hernandez,F., J. Diaz, J. Medina, J. Del Ramo, and A. Pastor|Determination of Chromium in Treated Crayfish, Procambarus clarkii, by Electrothermal AAS: Study of Chromium Accumulation in Different Tissues|Bull. Environ. Contam. Toxicol.36(6): 851-857|1986|10.1007/BF01623594
11797|A||Rao,S.V.R.|A Note on the Feasibility of Degradation of Phenol by Some Crustacean Larvae|Int. J. Environ. Stud.24(3-4): 273-275|1985|10.1080/00207238508710202
11798|A||Koltes,K.H.|Effects of Sublethal Copper Concentrations on the Structure and Activity of Atlantic Silverside Schools|Trans. Am. Fish. Soc.114(3): 413-422|1985|10.1577/1548-8659(1985)114<413:EOSCCO>2.0.CO;2
11799|A||Scott,J.G., and G.P. Georghiou|Malathion-Specific Resistance in Anopheles stephensi from Pakistan|Am. Mosq. Control Assoc. J.2(1): 29-32|1986|
11800|A||Bjerregaard,P., and T. Vislie|Effect of Copper on Ion-and Osmoregulation in the Shore Crab Carcinus maenas|Mar. Biol.91(1): 69-76|1986|10.1007/BF00397572
11801|A||Cassini,A., L. Tallandini, N. Favero, and V. Albergoni|Cadmium Bioaccumulation Studies in the Freshwater Molluscs Anodonta cygnea and Unio elongatulus|Comp. Biochem. Physiol. C Comp. Pharmacol.84(1): 35-41|1986|10.1016/0742-8413(86)90161-1
11802|A||Collins,W.J., and R. Shank|Surface Water Contamination by Insecticides:  Data from Aquatic Insect Tests that Pertain to Water Quality Criteria|Proj.No.A-062-Ohio, Ohio State Univ., Columbus, OH:75 p.|1983|
11803|A||Dange,A.D.|Changes in Carbohydrate Metabolism in Tilapia, Oreochromis (Sarotherodon) mossambicus, During Short-Term Exposure to Different Types of Pollutants|Environ. Pollut. A.41(2): 165-177|1986|10.1016/0143-1471(86)90091-7
11804|A||De March,B.G.E.|The Behavior of the Amphipod Gammarus lacustris Exposed to Various Hydrogen Ion and Copper Concentrations in a Preference-Avoidance Trough|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1187:12 p.|1983|
11805|A||Fisher,N.S., M. Bohe, and J.L. Teyssie|Accumulation and Toxicity of Cd, Zn, Ag, and Hg in Four Marine Phytoplankters|Mar. Ecol. Prog. Ser.18(3): 201-213|1984|10.3354/meps018201
11806|A||Forlin,L., C. Haux, L. Karlsson-Norrgren, P. Runn, and A. Larsson|Biotransformation Enzyme Activities and Histopathology in Rainbow Trout, Salmo gairdneri, Treated with Cadmium|Aquat. Toxicol.8(1): 51-64|1986|10.1016/0166-445X(86)90072-X
11807|A||Gingerich,W.H.|Tissue Distribution and Elimination of Rotenone in Rainbow Trout|Aquat. Toxicol.8(1): 27-40|1986|10.1016/0166-445X(86)90070-6
11808|A||Giraud,A.S., L.K. Webster, J.G. Fabris, L.C. Collett, and N.D. Yeomans|Absence of Histopathological Response to Cadmium in Gill and Digestive Diverticula of the Mussel, Mytilus edulis|Bull. Environ. Contam. Toxicol.36(1): 146-149|1986|10.1007/BF01623487
11809|A||Hendricks,J.D., T.R. Meyers, D.W. Shelton, J.L. Casteel, and G.S. Bailey|Hepatocarcinogenicity of Benzo(a)pyrene to Rainbow Trout by Dietary Exposure and Intraperitoneal Injection|J. Natl. Cancer Inst.74(4): 839-851|1985|
11810|A||Irmer,U.|Effects of Cadmium and Manganese on Unicellular Freshwater Green Algae in a Flow-Through-System|Mitt. Inst. Allg. Bot. Hambg.19:5-21|1984|
11811|A||Kozlovskaya,V.I., F.L. Mayer, and J.D. Petti|Acetyl Cholinesterase Activity in the Brain and Collagen Content in the Vertebra of Goldfish Exposed to Chlorofos|Hydrobiol. J.20(4): 54-59|1984|
11812|A||Kulshrestha,S.K., and N. Arora|Effect of Carbofuran, Dimethoate and DDT on Early Development of Cyprinus carpio, Linn.  Part 1:  Egg Mortality and Hatching|J. Environ. Biol.7(2): 113-119|1986|
11813|A||Landis,W.G., M.V. Haley, D.W. Johnson, and R.S. Anderson|The Aquatic Toxicity of Ea 4923|CROC-TR-84035, U.S.Army Armament, Munitions & Chemical Command, Aberdeen Proving Ground, MD:21 p.|1984|
11814|A||Lemke,A.E.|Interlaboratory Comparison of Continuous Flow, Early Life Stage Testing with Fathead Minnows|EPA-600/3-84-005, U.S.EPA, Duluth, MN:26 p.|1983|
11815|A||Lemke,A.E., and R.L. Anderson|Insect Interlaboratory Toxicity Test Comparison Study for the Chironomid (Paratanytarsus sp.) Procedure|EPA-600/3-84-054, U.S.EPA, Duluth, MN:15 p.|1984|
11816|A||Lemke,A.E., E. Durhan, and T. Felhaber|Evaluation of a Fathead Minnow Pimephales promelas Embryo-Larval Test Guideline Using Acenaphthene and Isophorone|EPA-600/3-83-062, U.S.EPA, Duluth, MN:26 p.|1983|
11817|A||Mehta,R.S., and K.W. Hawxby|Physiological Response of Anacystis nidulans (Cyanophyceae) to Various Herbicides|J. Phycol.19(2): 15-|1983|
11818|A||Michibata,H., S. Sahara, and M.K. Kojima|Effects of Calcium and Magnesium Ions on the Toxicity of Cadmium to the Egg ofthe Teleost, Oryzias latipes|Environ. Res.40(1): 110-114|1986|10.1016/S0013-9351(86)80087-1
11819|A||Oshida,P.S., and L.S. Word|Bioaccumulation of Chromium and Its Effects on Reproduction in Neanthes arenaceodentata (Polychaeta)|Mar. Environ. Res.7(3): 167-174|1982|10.1016/0141-1136(82)90029-0
11821|A||Rach,J.J., and W.H. Gingerich|Distribution and Accumulation of Rotenone in Tissues of Warmwater Fishes|Trans. Am. Fish. Soc.115(2): 214-219|1986|10.1577/1548-8659(1986)115<214:DAAORI>2.0.CO;2
11822|A||Reid,B.J., J.D. Morgan, and M.A. Whelen|A Preliminary Examination of the Effects of Ethylene Dichloride on the Hatchability of Coho Salmon Eggs (Oncorhynchus kisutch)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1163:145-153|1983|
11823|A||Reinke,D.C.,Jr.|The Species-Specific Effects of Sublethal Concentrations of Cadmium on Freshwater Phytoplankton Communities in a Canadian Shield Lake|Can. J. Bot.63(11): 1997-2003|1985|10.1139/b85-279
11824|A||Roderer,G.|On the Toxic Effects of Tetraethyl Lead and its Derivatives on the Chrysophyte Poterioochromonas malhamensis. VI. Effects on Lorica Formation, Mitosis, and Cytokinesis|Environ. Res.39(1): 205-231|1986|10.1016/S0013-9351(86)80023-8
11825|A||Shukla,L., and A.K. Pandey|Effects of Endosulphan on the Hypothalamo Hypophysial Complex and Fish Reproductive Physiology|Bull. Environ. Contam. Toxicol.36(1): 122-131|1986|10.1007/BF01623484
11826|A||Singh,S., and S. Sahai|Accumulation of Malathion in the Liver, Kidney and Gills of Puntius ticto (Ham.) as Assessed by Thin Layer Chromatography (TLC)|J. Environ. Biol.7(2): 107-112|1986|
11827|A||Srinivasamoorthy,K., B.K. Reddy, K.S. Swami, and C.S. Chetty|Dichlorvos Induced Metabolic Changes in Tissues of Fresh Water Mussel, Lamellidens marginalis|J. Environ. Biol.7(2): 101-106|1986|
11828|A||Tiedemann,G., M. Kublbeck, and J. Rosmanith|Interaction of Cadmium and Lead in Fish (Die Gegenseitige Beeinflussung von Cadmium und blei im Fischorganismus)|Wiss. Umwelt3:145-154|1984|
11829|A||Thomas,R.E., and S.D. Rice|Effect of Temperature on Uptake and Metabolism of Toluene and Naphthalene by Dolly Varden Char, Salvelinus malma|Comp. Biochem. Physiol. C Comp. Pharmacol.84(1): 83-86|1986|10.1016/0742-8413(86)90169-6
11830|A||Van der Schalie,W.H.|The Acute and Chronic Toxicity of 3,5-Dinitroaniline, 1,3-Dinitrobenzene, and 1,3,5-Trinitrobenzene to Freshwater Aquatic|Tech.Rep.8305, U.S.Army Med.Bioeng.Res.& Dev.Lab., Frederick, MD:53 p.|1983|
11831|A||Yadav,A.K., and T.P. Singh|Effect of Pesticide on Circulating Thyroid Hormone Levels in the Freshwater Catfish, Heteropneustes fossilis (Bloch)|Environ. Res.39(1): 136-142|1986|10.1016/S0013-9351(86)80015-9
11833|A||Ali,A., and B.H. Stanley|Effects of a New Carbamate Insecticide, Larvin (UC-51762), on Some Nontarget Aquatic Invertebrates|Fla. Entomol.65(4): 477-483|1982|10.2307/3494683
11834|A||Allen,J.L., and J.B. Hunn|Fate and Distribution Studies of Some Drugs Used in Aquaculture|Vet. Hum. Toxicol.28(Suppl. 1): 21-24|1986|
11835|A||Axiak,V., and J.L. Schembri|Effects of Temperature on the Toxicity of Mercury and Cadmium to the Littoral Gastropod Monodonta turbinata|Mar. Pollut. Bull.13(11): 383-386|1982|10.1016/0025-326X(82)90112-6
11836|A||Bakthavathsalam,R., and Y.S. Reddy|Intoxication Effects of Lindane (gamma-BHC) on the Activities of Aspartate and Alanine Aminotransferases of Anabas testudineus (Bloch)|Pestic. Biochem. Physiol.18(2): 226-234|1982|10.1016/0048-3575(82)90109-2
11837|A||Beard,C.B., K.O. Kloter, M.K. Carroll, L.J. Magnuson, and H. Trapido|Response of Domestic and Peridomestic Strains of Aedes aegypti (Diptera: Culicidae) in new Orleans, Louisiana, USA, to Organophosphate, Organochlorine, and Pyrethroid Insecticides|J. Med. Entomol.22(3): 276-280|1985|10.1093/jmedent/22.3.276
11838|A||Birge,W.J., J.A. Black, A.G. Westerman, and J.E. Hudson|Aquatic Toxicity Tests on Inorganic Elements Occurring in Oil Shale|In: C.Gale (Ed.), EPA-600/9-80-022, Oil Shale Symposium: Sampling, Analysis and Quality Assurance, March 1979, U.S.EPA, Cincinnati, OH:519-534|1980|
11839|A||Brittelli,M.R., H.H.C. Chen, and C.F. Muska|Induction of Branchial (Gill) Neoplasms in the Medaka Fish (Oryzias latipes) by N-Methyl-N'-Nitro-N-Nitrosoguanidine|Cancer Res.45(7): 3209-3214|1985|
11840|A||Canyurt,M.A.|Toxic Effects of Lindane and Parathion Methyl on Three Fresh Water Fish Species|Bull. Cent. Etud. Rech. Sci. Biarritz14(3/4): 257-262|1983|
11841|A||Erben,R.|Phenol Accumulation in Asellus aquaticus|Gidrobiol. Z. (Non-English)20(5): 42-45|1984|
11842|A||Fasulo,M.P., M. Bassi, and A. Donini|Cytotoxic Effects of Hexavalent Chromium in Euglena gracilis. II. Physiological and Ultrastructural Studies|Protoplasma (Multiple Languages)114(1-2): 35-43|1983|10.1007/BF01279866
11843|A||Gass,R.F., T. Deesin, V. Kerdibule, K. Surathin, S. Vitukes, and S. Sucharit|A Small Scale Field Trial with Temephos (Abate) for the Control of Four Species of Mansonia (Mansonioides) (Diptera: Culicidae) in Thailand|Ann. Trop. Med. Parasitol.79(3): 309-315|1985|10.1080/00034983.1985.11811924
11845|A||Hirano,S., M. Matsuba, and T. Koyanagi|Influences of Stable Iodine upon the Concentration of Radioactive Iodine by Marine Organisms|Radioisotopes32(8): 353-358|1983|10.3769/radioisotopes.32.8_353
11846|A||Kaitala,S., and V.N. Maximov|The Desirability Function in Evaluation of the Response of Phytoplankton Communities to Toxicants|Toxic. Assess.1(1): 85-101|1986|10.1002/tox.2540010108
11847|A||Khangarot,B.S.|Acute Toxicity of Zinc to Channa punctatus (Bloch), As a Result of Temperature, pH and Solubility Variations|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 401-404|1982|10.1002/aheh.19820100414
11848|A||Nemeth,I., and E.K. Gayer|Study of Some Pyrethroids in Relation to Their Toxicity to Fish|Novenyvedelem (Non-English)20(6): 249-255|1984|
11849|A||Rao,K.J., C.H. Madhu, and V.S.R. Murthy|Histopathology of Malathion on Gills of a Freshwater Teleost, Tilapia mossambica (Peters)|J. Environ. Biol.4(1): 9-13|1983|
11850|A||Robohm,R.A.|Paradoxical Effects of Cadmium Exposure on Antibacterial Antibody Responses in Two Fish Species: Inhibition in Cunners (Tautogolabrus adspersus), and|Vet. Immunol. Immunopathol.12(1-4): 251-262|1986|10.1016/0165-2427(86)90129-7
11851|A||Shukla,L., and A.K. Pandey|Impairment of Thyroid Activity in Sarotherodon mossambicus due to DDT Treatment|Bull. Environ. Contam. Toxicol.36(1): 132-139|1986|10.1007/BF01623485
11852|A||Simanov,L., Z. Adamek, Z. Svobodova, and J. Svec|Acute Toxicity of the Insecticides Actellic EC-50 and Ambush EC-25 for Aquatic Organisms|Vodni Hospod. B34(5): 127-130|1984|
11853|A||Sivadasan,C.R., P.N.K. Nambisan, and R. Damodaran|Toxicity of Mercury, Copper and Zinc to the Prawn Metapenaeus dobsoni (Mier)|Curr. Sci. (Bangalore)55(7): 337-340|1986|
11854|A||Middaugh,D.P., J.W. Fournie, and M.J. Hemmer|Vertebral Abnormalities in Juvenile Inland Silversides Menidia beryllina Exposed to Terbufos During Embryogenesis|Dis. Aquat. Org.9(2): 109-116|1990|10.3354/dao009109
11855|A||Thomas,D.G., J.F.D.E. Solbe, J. Kay, and A. Cryer|Environmental Cadmium is not Sequestered by Metallothionein in Rainbow Trout|Biochem. Biophys. Res. Commun.110(2): 584-592|1983|10.1016/0006-291X(83)91190-7
11856|A||Vaishampayan,A.|Mutagenic Activity of Alachlor, Butachlor and Carbaryl to a N2-Fixing Cyanobacterium Nostoc muscorum|J. Agric. Sci.104:571-576|1985|10.1017/S0021859600044336
11857|A||Chen,J.C., P.C. Liu, and F.H. Nan|Acute Toxicity of Ammonia to Larval Metapenaeus ensis|Asian Fish. Sci.4(1): 41-51|1991|10.33997/j.afs.1991.4.1.005
11858|A||Zoto,G.A., and W.E. Robinson|The Toxicity of One-Hour Silver Exposures to Early-Life Stages of the Surf Clam Spisula solidissima (Dillwyn)|Mar. Environ. Res.16(1): 61-75|1985|10.1016/0141-1136(85)90020-0
11859|A||Bakthavathsalam,R., N. Murugaboopathy, and P. Karnan|Effects of Carbofuran on Certain Tissues of the Fish Lepidocephalichthys thermalis|Aquat. Sci. Fish. Abstr.17(11, Pt.1): 16596-1Q17|1987|
11860|A||Taylor,M.J.|Effect of Diet on the Sensitivity of Daphnia magna to Linear Alkylbenzene Sulfonate|ASTM Spec. Tech. Publ.:53-72|1985|
11861|A||Lewis,P.A., and C.I. Weber|A Study of the Reliability of Daphnia Acute Toxicity Tests|ASTM Spec. Tech. Publ.:73-86|1985|
11862|A||Gloss,S.P., and G.R. Biddinger|Comparison of System Design and Reproducibility to Estimate Bioconcentration of Di-n-Hexylphthalate by Daphnia magna|ASTM Spec. Tech. Publ.:202-213|1985|
11863|A||Harrison,F.L.|Effect of Physicochemical Form on Copper Availability to Aquatic Organisms|ASTM Spec. Tech. Publ.:469-484|1985|
11864|A||Kosinski,R.J., and M.G. Merkle|The Effect of Four Terrestrial Herbicides on the Productivity of Artificial Stream Algal Communities|J. Environ. Qual.13(1): 75-82|1984|10.2134/jeq1984.00472425001300010014x
11865|A||Back,H.|Interactions, Uptake and Distribution of Barium, Cadmium, Lead and Zinc in Tubificid Worms (Annelida, Oligochaeta)|In: International Conference, Heavy Metals in the Environment, Heidelberg - September 1983. Volume 1:370-371|1983|
11866|A||Baker,M.D., C.I. Mayfield, and W.E. Inniss|Toxicity of pH, Heavy Metals and Bisulfite to a Freshwater Green Alga|Chemosphere12(1): 35-44|1983|10.1016/0045-6535(83)90177-7
11867|A||Bakthavathsalam,R., and Y.S. Reddy|Toxic Effects of Disyston and Furadan on the Bimodal Pattern of Oxygen Consumption in the Climbing Perch, Anabas testudineus (Bloch)|Water Res.19(9): 1195-1198|1985|10.1016/0043-1354(85)90357-4
11868|A||Borthwick,P.W., J.M.,Jr. Patrick, and D.P. Middaugh|Comparative Acute Sensitivities of Early Life Stages of Atherinid Fishes to Chlorpyrifos and Thiobencarb|Arch. Environ. Contam. Toxicol.14(4): 465-473|1985|10.1007/BF01055533
11869|A||Bowmer,T., R.G.V. Boelens, B.F. Keegan, and J. O'Neill|The Use of Marine Benthic 'Key' Species in Ecotoxicological Testing:  Amphiura filiformis (O.F.Muller) (Echinodermata:  Ophiuroidea)|Aquat. Toxicol.8(2): 93-109|1986|10.1016/0166-445X(86)90056-1
11870|A||Bradbury,S.P., J.R. Coats, and J.M. McKim|Toxicokinetics of Fenvalerate in Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.5(6): 567-576|1986|10.1002/etc.5620050609
11871|A||Breteler,R.J., J.W. Williams, and R.L. Buhl|Measurement of Chronic Toxicity Using the Opossum Shrimp Mysidopsis bahia|Hydrobiologia (Multiple Languages)93(1-2): 189-194|1982|10.1007/BF00008112
11872|A||Brown,M.W., D.G. Thomas, D. Shurben, J.F.D. Solbe, J. Kay, and A. Cryer|A Comparison of the Differential Accumulation of Cadmium in the Tissues of Three Species of Freshwater Fish, Salmo gairdneri, Rutilus rutilus and Noe|Comp. Biochem. Physiol. C Comp. Pharmacol.84(2): 213-217|1986|10.1016/0742-8413(86)90085-X
11873|A||Bryant,V., D.S. McLusky, K. Roddie, and D.M. Newbery|Effect of Temperature and Salinity on the Toxicity of Chromium to Three Estuarine Invertebrates (Corophium volutator, Macoma balthica, Nereis diversicolor)|Mar. Ecol. Prog. Ser.20(1-2): 137-149|1984|10.3354/meps020137
11874|A||Bryant,V., D.M. Newbery, D.S. McLusky, and R. Campbell|Effect of Temperature and Salinity on the Toxicity of Arsenic to Three Estuarine Invertebrates (Corophium volutator, Macoma balthica, Tubifex costatus)|Mar. Ecol. Prog. Ser.24(1/2): 129-137|1985|10.3354/meps024129
11875|A||Bryant,V., D.M. Newbery, D.S. McLusky, and R. Campbell|Effect of Temperature and Salinity on the Toxicity of Nickel and Zinc to Two Estuarine Invertebrates (Corophium volutator, Macoma balthica)|Mar. Ecol. Prog. Ser.24(1/2): 139-153|1985|10.3354/meps024139
11876|A||Cote,R.|Toxic Aspects of Copper on the Biomass and the Productivity of Phytoplankton in the Saguenay River, Quebec (Aspects Toxiques du Cuivre sur la Biomasse et la Productivite du Phytoplancton de la Riviere du Saguenay, Quebe|Hydrobiologia (Multiple Languages)98(1): 85-95|1983|10.1007/BF00019253
11877|A||Dave,J.M., N. Dutta, R. Dalwani, H. Shanmukhappa, and G. Chawla|Studies on Detergents in an Indian River|Final Rep., Schl.of Environ.Sci., Jawaharlal Nehru Univ., New Delhi, India:58 p.|1986|
11878|A||DeNoyelles,F.,Jr., and W.D. Kettle|Site Studies to Determine the Extent and Potential Impact of Herbicide Contamination in Kansas Waters|Tech.Completion Rep.A-104-Kan, Kansas Water Resour.Res.Inst., Univ.of Kansas, Lawrence, KS:37 p.|1983|
11879|AT||Edwards,R., P. Millburn, and D.H. Hutson|Comparative Toxicity of cis-Cypermethrin in Rainbow Trout, Frog, Mouse, and Quail|Toxicol. Appl. Pharmacol.84(3): 512-522|1986|10.1016/0041-008X(86)90256-5
11880|A||Fieser,A.H., J.L. Sykora, M.S. Kostalos, Y.C. Wu, and D.W. Weyel|Effect of Fluorides on Survival and Reproduction of Daphnia magna|J. Water Pollut. Control Fed.58(1): 82-86|1986|
11881|A||Fitzmayer,K.M., J.G. Geiger, and M.J. Van den Avyle|Effects of Chronic Exposure to Simazine on the Cladoceran, Daphnia pulex|Arch. Environ. Contam. Toxicol.11(5): 603-609|1982|10.1007/BF01056369
11882|A||Florence,T.M., and J.L. Stauber|Toxicity of Copper Complexes to the Marine Diatom Nitzschia closterium|Aquat. Toxicol.8(1): 11-26|1986|10.1016/0166-445X(86)90069-X
11883|A||Folsom,B.R., N.A. Popescu, and J.M. Wood|Comparative Study of Aluminum and Copper Transport and Toxicity in an Acid-Tolerant Freshwater Green Alga|Environ. Sci. Technol.20(6): 616-620|1986|10.1021/es00148a012
11884|A||Gentile,J.H., S.M. Gentile, N.G.,Jr. Hairston, and B.K. Sullivan|The Use of Life-Tables for Evaluating the Chronic Toxicity of Pollutants to Mysidopsis bahia|Hydrobiologia (Multiple Languages)93(1-2): 179-187|1982|10.1007/BF00008111
11885|A||Gerould,S., P. Landrum, and J.P. Giesy|Anthracene Bioconcentration and Biotransformation in Chironomids: Effects of Temperature and Concentration|Environ. Pollut. A.30(3): 175-188|1983|10.1016/0143-1471(83)90019-3
11886|A||Giesy,J.P., C.S. Duke, R.D. Bingham, and G.W. Dickson|Changes in Phosphoadenylate Concentrations and Adenylate Energy Charge As an Integrated Biochemical Measure of Stress in Invertebrates|Toxicol. Environ. Chem.6:259-295|1983|10.1080/02772248309357009
11887|A||Gunkel,G.|Investigations of the Ecotoxicological Effect of a Herbicide in an Aquatic Model Ecosystem. II. Food Chain Significance and Pesticide Balance|Arch. Hydrobiol.69(1): 130-168|1984|
11888|A||Haider,S., and R.M. Inbaraj|Relative Toxicity of Technical Material and Commercial Formulation of Malathion and Endosulfan to a Freshwater Fish, Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.11(3): 347-351|1986|10.1016/0147-6513(86)90107-7
11889|A||Hamilton,S.J., L. Cleveland, L.M. Smith, J.A. Lebo, and F.L. Mayer|Toxicity of Pure Pentachlorophenol and Chlorinated Phenoxyphenol Impurities to Fathead Minnows|Environ. Toxicol. Chem.5:543-552|1986|10.1002/etc.5620050606
11890|A||Henderson,V., J.W. Fisher, R. D'Allessandris, and J.M. Livingston|Effects of Hydrazine on Functional Morphology of Rainbow Trout Embryos and Larvae|Trans. Am. Fish. Soc.112:100-104|1983|10.1577/1548-8659(1983)112<100:EOHOFM>2.0.CO;2
11891|A||Huckins,J.N., J.D. Petty, and D.C. England|Distribution and Impact of Trifluralin, Atrazine, and Fonofos Residues in Microcosms Simulating a Northern Prairie Wetland|Chemosphere15(5): 563-588|1986|10.1016/0045-6535(86)90005-6
11892|A||Hutcheson,M., D.C. Miller, and A.Q. White|Respiratory and Behavioral Responses of the Grass Shrimp Palaemonetes pugio to Cadmium and Reduced Dissolved Oxygen|Mar. Biol.88(1): 59-66|1985|10.1007/BF00393044
11893|A||Isensee,A.R., and P.S. Dubey|Distribution of Pendimethalin in an Aquatic Microecosystem|Bull. Environ. Contam. Toxicol.30(2): 239-244|1983|10.1007/BF01610128
11894|A||Iwama,G.K., G.L. Greer, and D.J. Randall|Changes in Selected Haematological Parameters in Juvenile Chinook Salmon Subjected to a Bacterial Challenge and a Toxicant|J. Fish Biol.28(5): 563-572|1986|10.1111/j.1095-8649.1986.tb05193.x
11895|A||James,V.A., and T. Wigham|The Effects of Cadmium on Prolactin Cell Activity and Plasma Cortisol Levels in the Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.8(4): 273-280|1986|10.1016/0166-445X(86)90079-2
11896|A||Jouany,J.M., J.F. Ferard, P. Vasseur, J. Gea, R. Truhaut, and C. Rast|Interest of Dynamic Tests in Acute Ecotoxicity Assessment in Algae|Ecotoxicol. Environ. Saf.7:216-228|1983|10.1016/0147-6513(83)90067-2
11897|AT||Kay,S.H., P.C.,Jr. Quimby, and J.D. Ouzts|Hydrogen Peroxide (H2O2):  A Potential Algicide for Aquaculture|Proc. South. Weed Sci. Soc.35:275-289|1982|
11898|A||Kay,S.H., P.C.,Jr. Quimby, and J.D. Ouzts|Control of Coontail with Hydrogen Peroxide and Copper|J. Aquat. Plant Manag.21:38-40|1983|
11899|A||Kay,S.H., P.C.,Jr. Quimby, and J.D. Ouzts|Photo-Enhancement of Hydrogen Peroxide Toxicity to Submersed Vascular Plants and Algae|J. Aquat. Plant Manag.22:25-34|1984|
11900|A||Khangarot,B.S.|The Effect of Zinc Exposure on 5'-Nucleotidase Activity in the Intestine of Channa punctatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(5): 525-528|1982|10.1002/aheh.19820100512
11901|A||Kleinow,K.M., M.L. Haasch, and J.J. Lech|The Effect of Tricaine Anesthesia upon Induction of Select P-450 Dependent Monooxygenase Activities in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.8(4): 231-241|1986|10.1016/0166-445X(86)90075-5
11902|A||Knezovich,J.P., and D.G. Crosby|Fate and Metabolism of O-Toluidine in the Marine Bivalve Molluscs Mytilus edulis and Crassostrea gigas|Environ. Toxicol. Chem.4(4): 435-446|1985|
11903|A||Lal,B., A. Singh, A. Kumari, and N. Sinha|Biochemical and Haematological Changes Following Malathion Treatment in the Freshwater Catfish Heteropneustes fossilis (Bloch)|Environ. Pollut. A.42(2): 151-156|1986|10.1016/0143-1471(86)90004-8
11904|A||Lal,B., and T.P. Singh|In Vivo Modification of Fatty Acids and Glycerides Metabolism in Response to 1,2,3,4,5,6-Hexachlorocyclohexane and Cythion Exposure in the Catfish, Clarias batrachus|Ecotoxicol. Environ. Saf.11(3): 295-307|1986|10.1016/0147-6513(86)90103-X
11905|A||Laughlin,R.B.J., W. French, and H.E. Guard|Accumulation of bis(Tributyltin) Oxide by the Marine Mussel Mytilus edulis|Environ. Sci. Technol.20(9): 884-890|1986|10.1021/es00151a006
11906|A||Lauren,D.J., and S. Rice|Significance of Active and Passive Depuration in the Clearance of Naphthalene From the Tissues of Hemigrapsus nudus (Crustacea: Decapoda)|Mar. Biol.88(2): 135-142|1985|10.1007/BF00397160
11907|A||Marchyulenene,D.P., E.B. Moteyunene, R.Yu Shuliyene, R.R. Vroblyavichyute, and V.K. Legin|Effect of the EDTA Complexing Agent on Algae|Hydrobiol. J.18(5): 73-80|1982|
11908|A||Scholefield,R.J., and J.G. Seelye|Toxicity of 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) to Three Genera of Larval Lampreys|Tech. Rep. Great Lakes Fish. Comm.57:1-6|1992|
11909|A||Moorthy,K.S., M.D. Naidu, C.S. Chetty, and K.S. Swami|Changes in Carbohydrate Metabolism in Tissues of Freshwater Mussel (Lamellidens marginalis) Exposed to Phosphamidon|Bull. Environ. Contam. Toxicol.30(2): 219-222|1983|10.1007/BF01610124
11910|A||Quimby,P.C.,Jr.|Preliminary Evaluation of Hydrogen Peroxide as a Potential Herbicide for Aquatic Weeds|J. Aquat. Plant Manag.19:53-55|1981|
11911|A||Ramachandran,S., N. Rajendran, R. Nandakumar, and V.K. Venugopalan|Inhibition of Photosynthesis and Respiration by Chlorinated Hydrocarbons in Some Marine Algae|Mahasagar14(4): 317-319|1981|
11912|A||Rawn,G.P., G.R.B. Webster, and D.C.G. Muir|Fate of Permethrin in Model Outdoor Ponds|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(5): 463-486|1982|
11913|A||Vignoles,P., G. Dreyfuss, and D. Rondelaud|Lethal Activity of Benzamido-2 Nitro-5 Thiazole (BNT) and Derived Compounds Against Lymnaea peregra ovata Muller (Mollusa:Pulmonata) and Gammarus pulex|Ann. Rech. Vet. (Non-English)22(4): 359-363|1991|
11914|A||Ribeyre,F., and A. Boudou|Study of the Dynamics of the Accumulation of Two Mercury Compounds-HGCL2 and CH3HGCL-by Chlorella vulgaris: Effect of Temperature and pH Factor|Int. J. Environ. Stud.20(1): 35-40|1982|10.1080/00207238208710012
11915|A||Roderer,G.|Trimethyl Lead Toxicity in the Freshwater Algae Euglena gracilis and Poterioochromonas malhamensis|In: International Conference, Heavy Metals in the Environment, Heidelberg - September 1983. Volume 1:362-365|1983|
11916|A||Sarojini,R., R. Nagabhushanam, and A. Mary|Effect of Fenitrothion on Reproduction of the Freshwater Prawn Macrobrachium lamerrii|Ecotoxicol. Environ. Saf.11(3): 243-250|1986|10.1016/0147-6513(86)90098-9
11917|A||Scherer,E., and R.E. McNicol|Behavioural Responses of Stream-Dwelling Acroneuria lycorias (Ins., Plecopt.) Larvae to Methoxychlor and Fenitrothion|Aquat. Toxicol.8(4): 251-263|1986|10.1016/0166-445X(86)90077-9
11918|A||Sheehan,R.J.|An Investigation of the Acute Toxicity of Ionized Ammonia: Relationships Between the Toxicity of Aqueous Ammonia Solutions, pH, and Water|Ph.D.Thesis, Southern Illinois University, Carbondale, IL:139 p.|1984|
11919|A||Shukla,G.S., R. Murti, and Omkar |Cadmium and Zinc Toxicity to an Aquatic Insect, Ranatra elongata (Fabr.)|Toxicol. Lett.15(1): 39-41|1983|10.1016/0378-4274(83)90166-2
11920|A||Sodergren,A., and C. Gelin|Effect of PCBs on the Rate of Carbon-14 Uptake in Phytoplankton Isolates From Oligotrophic and Eutrophic Lakes|Bull. Environ. Contam. Toxicol.30(2): 191-198|1983|10.1007/BF01610120
11921|A||Stout,J., and S.S. Kilham|Effects of P-Cresol on Photosynthetic and Respiration Rates of a Filamentous Green Alga (Spirogyra)|Bull. Environ. Contam. Toxicol.30(1): 1-5|1983|10.1007/BF01610090
11922|A||Suzuki,Y., M. Nakahara, R. Nakamura, and T. Ueda|Uptake and Excretion of Cobalt by Sea Cucumber Stichopus japonicus and Prawn Penaeus japonicus|Nippon Suisan Gakkaishi (Multiple Languages)48(10): 1495-1500|1982|10.2331/suisan.48.1495
11923|A||Swigert,J.P.|A Study of the Influence of Ammonia, TWE Ammonium, and pH Gradients on the Accumulation of Ammonia in the Blood of Channel Catfish, Ictalurus punctatus|Ph.D.Thesis, Purdue University, West Lafayette, IN:93 p.|1984|
11924|A||Moorhead,D.L., and R.J. Kosinski|Effect of Atrazine on the Productivity of Artificial Stream Algal Communities|Bull. Environ. Contam. Toxicol.37(3): 330-336|1986|10.1007/BF01607769
11925|A||Abel,P.D., and S.E. Papoutsoglou|Lethal Toxicity of Cadmium to Cyprinus carpio and Tilapia aurea|Bull. Environ. Contam. Toxicol.37(3): 382-386|1986|10.1007/BF01607777
11926|A|OECDG|Abernethy,S., A.M. Bobra, W.Y. Shiu, P.G. Wells, and D. Mackay|Acute Lethal Toxicity of Hydrocarbons and Chlorinated Hydrocarbons to Two Planktonic Crustaceans: The Key Role of Organism-Water Partitioning|Aquat. Toxicol.8(3): 163-174|1986|10.1016/0166-445X(86)90062-7
11927|A||Ali,A., G. Majori, G. Ceretti, F. D'Andrea, M. Scattolin, and U. Ferrarese|A Chironomid (Diptera: Chironomidae) Midge Population Study and Laboratory Evaluation of Larvicides Against Midges Inhabiting the Lagoon of Venice, Italy|Am. Mosq. Control Assoc. J.1(1): 63-68|1985|
11928|A||Anestis,I., and R.J. Neufeld|Avoidance-Preference Reactions of Rainbow Trout (Salmo gairdneri) After Prolonged Exposure to Chromium(VI)|Water Res.20(10): 1233-1241|1986|10.1016/0043-1354(86)90152-1
11929|A||Banas,W.P., and J.B. Sprague|Absence of Acclimation to Parathion by Rainbow Trout During Sublethal Exposure|Water Res.20(10): 1229-1232|1986|10.1016/0043-1354(86)90151-X
11930|A||Barroin,G., and M. Feuillade|Hydrogen Peroxide as a Potential Algicide for Oscillatoria rubescens D.C|Water Res.20(5): 619-623|1986|10.1016/0043-1354(86)90026-6
11931|A||Belanger,S.E., J.L. Farris, D.S. Cherry, and J.,Jr. Cairns|Growth of Asiatic Clams (Corbicula sp.) During and After Long-Term Zinc Exposure in Field-Located and Laboratory Artificial Streams|Arch. Environ. Contam. Toxicol.15(4): 427-434|1986|10.1007/BF01066410
11932|A||Bengtsson,B.E., M. Tarkpea, T. Sletten, G.E. Carlberg, A. Kringstad, and L. Renberg|Bioaccumulation and Effects of Some Technical Triaryl Phosphate Products in Fish and Nitocra spinipes|Environ. Toxicol. Chem.5(9): 853-861|1986|10.1002/etc.5620050910
11933|A||Bennett,W.N., A.S. Brooks, and M.E. Boraas|Selenium Uptake and Transfer in an Aquatic Food Chain and its Effects on Fathead Minnow Larvae|Arch. Environ. Contam. Toxicol.15(5): 513-517|1986|10.1007/BF01056563
11934|A||Bertram,P.E., and A.S. Brooks|Kinetics of Accumulation of Selenium from Food and Water by Fathead Minnows|Water Res.20(7): 877-884|1986|10.1016/0043-1354(86)90176-4
11935|A||Blust,R., E. Verheyen, C. Doumen, and W. Decleir|Effect of Complexation by Organic Ligands on the Bioavailability of Copper to the Brine Shrimp, Artemia sp.|Aquat. Toxicol.8(3): 211-221|1986|10.1016/0166-445X(86)90066-4
11936|A||Bobra,A.M., W.Y. Shiu, and D. Mackay|A Predictive Correlation for the Acute Toxicity of Hydrocarbons and Chlorinated Hydrocarbons to the Water Flea (Daphnia magna)|Chemosphere12(9-10): 1121-1129|1983|10.1016/0045-6535(83)90118-2
11937|A||Borgaonkar,S.S., and K.S. Gokhale|Size Related Toxicity of Cadmium on Ilyoplax gangetica and Antagonistic Activity of NH4OH and Sewage|J. Environ. Biol.6(3): 179-183|1985|
11938|A||Borgmann,U., and K.M. Ralph|Effects of Cadmium, 2,4-Dichlorophenol, and Pentachlorophenol on Feeding, Growth, and Particle-Size-Conversion Efficiency of White|Arch. Environ. Contam. Toxicol.15(5): 473-480|1986|10.1007/BF01056558
11939|A||Boyum,K.W.|The Toxic Effect of Selenium on the Zooplankton, Daphnia magna and Daphnia pulicaria, in Water and the Food Source (Chlamydomonas reinhardtii)|Ph.D.Thesis, University of Wisconsin, Milwaukee, WI:127 p.|1984|
11940|A||Carr,R.S., M.D. Curran, and M. Mazurkiewicz|Evaluation of the Archiannelid Dinophilus gyrociliatus for Use in Short-Term Life-Cycle Toxicity Tests|Environ. Toxicol. Chem.5(7): 703-712|1986|
11941|A||Colwell,A.E., and C.H. Schaefer|Effects of an Insect Growth Regulator on Plankton and Gambusia affinis|Aquat. Toxicol.4(3): 247-269|1983|10.1016/0166-445X(83)90021-8
11942|A||Goldsborough,L.G.|Effects of Two Triazine Herbicides on the Structure and Metabolism of Freshwater Marsh Periphyton|Ph.D Thesis, University of Manitoba, Canada:351 p.|1986|
11943|A||Czuba,M., and D.C. Mortimer|Effects of Heavy Metals Absorbed from Water on the Laser-Induced Fluorescence in Elodea densa|Ecotoxicol. Environ. Saf.7(5): 447-450|1983|10.1016/0147-6513(83)90083-0
11944|A||Dange,A.D.|Branchial Na+-K+-ATPase Inhibition in a Freshwater Euryhaline Teleost, Tilapia (Oreochromis mossambicus), During Short-Term Exposure to Toluene or Naphthalene:  Influence of Salinity|Environ. Pollut. A.42(3): 273-286|1986|10.1016/0143-1471(86)90037-1
11945|A||Dauble,D.D., D.W. Carlile, and R.W.,Jr. Hanf|Bioaccumulation of Fossil Fuel Components During Single-Compound and Complex-Mixture Exposures of Daphnia magna|Bull. Environ. Contam. Toxicol.37(1): 125-132|1986|10.1007/BF01607739
11946|A||Devillers,J., and P. Chambon|Acute Toxicity and QSAR of Chlorophenols on Daphnia magna|Bull. Environ. Contam. Toxicol.37(4): 599-605|1986|10.1007/BF01607810
11947|A||Diaz-Mayans,J., F. Hernandez, J. Medina, J. Del Ramo, and A. Torreblanca|Cadmium Accumulation in the Crayfish, Procambarus clarkii, Using Graphite Furnace Atomic Absorption Spectroscopy|Bull. Environ. Contam. Toxicol.37(5): 722-729|1986|10.1007/BF01607831
11948|A||Dierickx,P.J., and C. Van der Wielen|Glutathione-Dependent Toxicity of the Algicide 1-Chloro-2,4-Dinitrobenzene to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.37(4): 629-632|1986|10.1007/BF01607814
11949|A||Dixon,D.R., and H. Prosser|An Investigation of the Genotoxic Effects of an Organotin Antifouling Compound(Bis(Tributyltin) oxide) on the Chromosomes of the Edible Mussel|Aquat. Toxicol.8(3): 185-195|1986|10.1016/0166-445X(86)90064-0
11950|A||Doherty,F.G., J.L. Farris, D.S. Cherry, and J.,Jr. Cairns|Control of the Freshwater Fouling Bivalve Corbicula fluminea by Halogenation|Arch. Environ. Contam. Toxicol.15(5): 535-542|1986|10.1007/BF01056567
11951|A||Ewell,W.S., J.W. Gorsuch, R.O. Kringle, K.A. Robillard, and R.C. Spiegel|Simultaneous Evaluation of the Acute Effects of Chemicals on Seven Aquatic Species|Environ. Toxicol. Chem.5(9): 831-840|1986|10.1002/etc.5620050908
11952|A||Fisher,D.J., M.E. Bender, and M.H.,Jr. Roberts|Effects of Ingestion of Kepone-Contaminated Food by Juvenile Blue Crabs (Callinectes sapidus Rathbun)|Aquat. Toxicol.4(3): 219-234|1983|10.1016/0166-445X(83)90019-X
11953|A||Green,D.W.J., K.A. Williams, and D. Pascoe|The Acute and Chronic Toxicity of Cadmium to Different Life History Stages of the Freshwater Crustacean Asellus aquaticus (L)|Arch. Environ. Contam. Toxicol.15(5): 465-471|1986|10.1007/BF01056557
11954|A||Halbach,U., M. Siebert, M. Westermayer, and C. Wissel|Population Ecology of Rotifers as a Bioassay Tool for Ecotoxicological Tests in Aquatic Environments|Ecotoxicol. Environ. Saf.7(5): 484-513|1983|10.1016/0147-6513(83)90088-X
11955|A||Hall,W.S., K.L. Dickson, F.Y. Saleh, and J.H.,Jr. Rodgers|Effects of Suspended Solids on the Bioavailability of Chlordane to Daphnia magna|Arch. Environ. Contam. Toxicol.15(5): 529-534|1986|10.1007/BF01056566
11956|A||Hall,W.S., R.L. Paulson, L.W.,Jr. Hall, and D.T. Burton|Acute Toxicity of Cadmium and Sodium Pentachlorophenate to Daphnids and Fish|Bull. Environ. Contam. Toxicol.37(2): 308-316|1986|10.1007/BF01607766
11957|A||Hasan,M.R., and D.J. MacIntosh|Acute Toxicity of Ammonia to Common Carp Fry|Aquaculture54(1-2): 97-107|1986|10.1016/0044-8486(86)90261-9
11958|A||Hedtke,S.F., C.W. West, K.N. Allen, T.J. Norberg-King, and D.I. Mount|Toxicity of Pentachlorophenol to Aquatic Organisms Under Naturally Varying and Controlled Environmental Conditions|Environ. Toxicol. Chem.5(6): 531-542|1986|10.1002/etc.5620050605
11959|A||Herman,D., N.K. Kaushik, and K.R. Solomon|Impact of Atrazine on Periphyton in Freshwater Enclosures and Some Ecological Consequences|Can. J. Fish. Aquat. Sci.43(10): 1917-1925|1986|10.1139/f86-237
11960|A||Holdway,D.A., and D.G. Dixon|Effects of Methoxychlor Exposure of Flagfish Eggs (Jordanella floridae) on Hatchability, Juvenile Methoxychlor Tolerance and Whole-Body Levels of|Water Res.20(7): 893-897|1986|10.1016/0043-1354(86)90178-8
11961|A||Gersich,F.M., and M.A. Mayes|Acute Toxicity Tests with Daphnia magna Straus and Pimephales promelas Rafinesque in Support of National Pollutant Discharge Elimination Permit|Water Res.20(7): 939-941|1986|10.1016/0043-1354(86)90185-5
11962|A||Holdway,D.A., B.D. Sloley, R.G.H. Downer, and D.G. Dixon|Effect of Pulse Exposure to Methoxychlor on Brain Serotonin Levels in American Flagfish (Jordanella floridae, Goode and Bean) as Modified by Time|Environ. Toxicol. Chem.5(3): 289-294|1986|10.1002/etc.5620050308
11963|A||Jensen,T.E., J.W. Rachlin, V. Jani, and B.E. Warkentine|Heavy Metal Uptake in Relation to Phosphorus Nutrition in Anabaena variabilis (Cyanophyceae)|Environ. Pollut. A.42(3): 261-271|1986|10.1016/0143-1471(86)90036-X
11964|A||Johnston,J.J., and M.D. Corbett|The Uptake and In Vivo Metabolism of the Organophosphate Insecticide Fenitrothion by the Blue Crab, Callinectes sapidus|Toxicol. Appl. Pharmacol.85(2): 181-188|1986|10.1016/0041-008X(86)90111-0
11965|A||Kline,D.L., J.R. Wood, R.H. Roberts, and K.F. Baldwin|Laboratory Evaluation of Four Organophosphate Compounds As Larvicides Against Field Collected Salt Marsh Culicoides spp. (Diptera: Ceratopogonidae)|Am. Mosq. Control Assoc. J.1(1): 48-50|1985|
11966|A||Kolton,R.J., P.D. MacMahon, K.A. Jeffrey, and F.W.H. Beamish|Effects of the Lampricide, 3-Trifluoromethyl-4-Nitrophenol (TFM) on the Macroinvertebrates of a Hardwater River|Hydrobiologia (Multiple Languages)139(3): 251-267|1986|10.1007/BF00028296
11967|A||Lewis,M.A.|Comparison of the Effects of Surfactants on Freshwater Phytoplankton Communities in Experimental Enclosures and on Algal Population Growth in the Lab|Environ. Toxicol. Chem.5(3): 319-332|1986|10.1002/etc.5620050312
11968|A||Lowe-Jinde,L., and A.J. Niimi|Hematological Characteristics of Rainbow Trout, Salmo gairdneri (Richardson), in Response to Cadmium Exposure|Bull. Environ. Contam. Toxicol.37(3): 375-381|1986|10.1007/BF01607776
11969|A||Lustigman,B.K.|Enhancement of Pigment Concentrations in Dunaliella tertiolecta as a Result of Copper Toxicity|Bull. Environ. Contam. Toxicol.37(5): 710-713|1986|10.1007/BF01607828
11970|A||Mallatt,J., M.G. Barron, and C. McDonough|Acute Toxicity of Methyl Mercury to the Larval Lamprey, Petromyzon marinus|Bull. Environ. Contam. Toxicol.37(2): 281-288|1986|10.1007/BF01607762
11971|A|OECDG|Mane,U.H., S.R. Akarte, and D.A. Kulkarni|Acute Toxicity of Fenthion to Freshwater Lamellibranch Mollusc, Indonaia caeruleus (Prashad 1918), from Godavari River at Paithan - A Biological Approach|Bull. Environ. Contam. Toxicol.37(4): 622-628|1986|10.1007/BF01607813
11972|A||Martin,T.R., and D.M. Holdich|The Acute Lethal Toxicity of Heavy Metals to Peracarid Crustaceans (with Particular Reference to Fresh-Water Asellids and Gammarids)|Water Res.20(9): 1137-1147|1986|10.1016/0043-1354(86)90060-6
11973|A||Mary,A., R. Nagabhushanam, and R. Sarojini|Toxicity Evaluation of Organophosphorus and Chlorinated Hydrocarbon Pesticides in Freshwater Prawn Macrobrachium lamerrii|J. Environ. Biol.7(3): 189-195|1986|
11974|A||McKee,M.J., and C.O. Knowles|Effects of Fenvalerate on Biochemical Parameters, Survival, and Reproduction of Daphnia magna|Ecotoxicol. Environ. Saf.12(1): 70-84|1986|10.1016/0147-6513(86)90007-2
11975|A||Mirenda,R.J.|Acute Toxicity and Accumulation of Zinc in the Crayfish, Orconectes virilis (Hagen)|Bull. Environ. Contam. Toxicol.37(3): 387-394|1986|10.1007/BF01607778
11976|A||Mirenda,R.J.|Toxicity and Accumulation of Cadmium in the Crayfish, Orconectes virilis (Hagen)|Arch. Environ. Contam. Toxicol.15(4): 401-407|1986|10.1007/BF01066407
11977|A||Morgan,J.D., D.G. Mitchell, and P.M. Chapman|Individual and Combined Toxicity of Manganese and Molybdenum to Mussel, Mytilus edulis, Larvae|Bull. Environ. Contam. Toxicol.37(2): 303-307|1986|10.1007/BF01607765
11978|A||Mudge,J.E., T.E. Northstrom, and T.B. Stables|Acute Toxicity of Hydrothol 191 to Phytoplankton and Rainbow Trout|Bull. Environ. Contam. Toxicol.37(3): 350-354|1986|10.1007/BF01607772
11979|A||Muir,D.C.G., A.L. Yarechewski, A. Knoll, and G.R.B. Webster|Bioconcentration and Disposition of 1,3,6,8-Tetrachlorodibenzo-p-Dioxin and Octachlorodibenzo-p-Dioxin by Rainbow Trout and Fathead Minnows|Environ. Toxicol. Chem.5(3): 261-272|1986|
11980|A||Nagler,J.J., P. Aysola, and S.M. Ruby|Effect of Sublethal Pentachlorophenol on Early Oogenesis in Maturing Female Rainbow Trout (Salmo gairdneri)|Arch. Environ. Contam. Toxicol.15(5): 549-555|1986|10.1007/BF01056569
11981|A||Nasu,Y., M. Kugimoto, O. Tanaka, and A. Takimoto|Comparative Studies on the Absorption of Cadmium and Copper in Lemna paucicostata|Environ. Pollut. A.32(3): 201-209|1983|10.1016/0143-1471(83)90036-3
11982|A||Nebeker,A.V., A. Stinchfield, C. Savonen, and G.A. Chapman|Effects of Copper, Nickel and Zinc on Three Species of Oregon Freshwater Snails|Environ. Toxicol. Chem.5(9): 807-811|1986|10.1002/etc.5620050905
11983|A||Nieminen,M., P. Pasanen, and M. Laitinen|Effects of Formalin Treatment on the Blood Composition of Salmon (Salmo salar) and Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.76(2): 265-269|1983|10.1016/0742-8413(83)90076-2
11984|A||Novak,A.J., and D.R.M. Passino|Toxicity of Toxaphene to Bosmina longirostris and Daphnia spp. (Crustacea)|Bull. Environ. Contam. Toxicol.37(5): 719-721|1986|10.1007/BF01607830
11985|A||Ohyama,T., K. Jin, Y. Katoh, Y. Chiba, and K. Inoue|1,3,5-Trichloro-2-(4-Nitrophenoxy)Benzene (CNP) in Water, Sediments, and Shellfish of the Ishikari River|Bull. Environ. Contam. Toxicol.37(3): 344-349|1986|10.1007/BF01607771
11986|A||Oris,J.T.,Jr.|Photoinduced Toxicity of Anthracene to Juvenile Bluegill Sunfish (Lepomis macrochirus Rafinesque): Photoperiod Effects and Predictive Hazard|Environ. Toxicol. Chem.5(8): 761-768|1986|10.1002/etc.5620050807
11987|A||Pascoe,D., S.A. Evans, and J. Woodworth|Heavy Metal Toxicity to Fish and the Influence of Water Hardness|Arch. Environ. Contam. Toxicol.15(5): 481-487|1986|10.1007/BF01056559
11988|A||Poirier,S.H., M.L. Knuth, C.D. Anderson-Buchou, L.T. Brooke, A.R. Lima, and P.J. Shubat|Comparative Toxicity of Methanol and N,N-Dimethylformamide to Freshwater Fish and Invertebrates|Bull. Environ. Contam. Toxicol.37(4): 615-621|1986|10.1007/BF01607812
11989|A||Powlesland,C., and J. George|Acute and Chronic Toxicity of Nickel to Larvae of Chironomus riparis (Meigen)|Environ. Pollut. A.42(1): 47-64|1986|10.1016/0143-1471(86)90044-9
11990|A||Rao,T.R., and S.S.S. Sarma|Demographic Parameters of Brachionus Patulus Muller (Rotifera) Exposed to Sublethal DDT Concentrations at Low and High Food Levels|Hydrobiologia (Multiple Languages)139(3): 193-200|1986|10.1007/BF00028292
11991|A||Raymond,P., G. Leduc, and J.A. Kornblatt|Toxicodynamic Study of Cyanide and its Biotransformation in Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.43(10): 2017-2024|1986|10.1139/f86-247
11992|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Effect of Sumithion on Molting of the Freshwater Rice-Field Crab (Oziotelphusa senex senex Fabricius)|Toxicol. Lett.14(3-4): 243-246|1982|10.1016/0378-4274(82)90058-3
11993|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Changes in Acid Phosphatase Activity in Tissues of Crab, Oziotelphusa senex senex, Following Exposure to Methyl Parathion|Bull. Environ. Contam. Toxicol.37(1): 106-112|1986|10.1007/BF01607736
11994|A||Rossaro,B., G.F. Gaggino, and R. Marchetti|Accumulation of Mercury in Larvae and Adults, Chironomus riparius (Meigen)|Bull. Environ. Contam. Toxicol.37(3): 402-406|1986|10.1007/BF01607780
11995|A||Ruby,S.M., D.R. Idler, and Y.P. So|The Effect of Sublethal Cyanide Exposure on Plasma Vitellogenin Levels in Rainbow Trout (Salmo gairdneri) During Early Vitellogenesis|Arch. Environ. Contam. Toxicol.15(5): 603-607|1986|10.1007/BF01056575
11996|A||Sabharwal,A.K., and D.K. Belsare|Persistence of Methyl Parathion in a Carp Rearing Pond|Bull. Environ. Contam. Toxicol.37(5): 705-709|1986|10.1007/BF01607827
11997|A||Saxena,P.K., K. Mani, and J.K. Kondal|Effect of Safe Application Rate (SAR) Concentrations of Some Biocides on the Gonads of the Fresh Water Murrel, Channa punctatus (Bl.) - a Biochemical Study|Ecotoxicol. Environ. Saf.12(1): 1-14|1986|10.1016/0147-6513(86)90002-3
11998|A||Shanker,R., and P.K. Seth|Toxic Effects of Acrylamide in a Freshwater Fish, Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.37(2): 274-280|1986|10.1007/BF01607761
11999|A||Slonim,A.R.|Acute Toxicity of Some Hydrazine Compounds to Salamander Larvae, Ambystoma spp.|Bull. Environ. Contam. Toxicol.37(5): 739-746|1986|10.1007/BF01607833
12000|A||Srivastava,A.K., and S.J. Agrawal|Changes Induced by Manganese in Fish Testis|Experientia39(11): 1309-1310|1983|10.1007/BF01990385
12001|A|OECDG|Tagatz,M.E., G.R. Plaia, and C.H. Deans|Toxicity of Dibutyl Phthalate-Contaminated Sediment to Laboratory-and Field-Colonized Estuarine Benthic Communities|Bull. Environ. Contam. Toxicol.37(1): 141-150|1986|10.1007/BF01607741
12002|A||Tatem,H.E.|Bioaccumulation of Polychlorinated Biphenyls and Metals From Contaminated Sediment by Freshwater Prawns, Macrobrachium rosenbergii and Clams|Arch. Environ. Contam. Toxicol.15(2): 171-183|1986|10.1007/BF01059966
12003|A||Thorp,J.H., and S.P. Gloss|Field and Laboratory Tests on Acute Toxicity of Cadmium to Freshwater Crayfish|Bull. Environ. Contam. Toxicol.37(3): 355-361|1986|10.1007/BF01607773
12004|A||Thurston,R.V., T.A. Gilfoil, E.L. Meyn, R.K. Zajdel, T.L. Aoki, and G.D. Veith|Comparative Toxicity of Ten Organic Chemicals to Ten Common Aquatic Species|Water Res.19(9): 1145-1155|1985|10.1016/0043-1354(85)90351-3
12005|A||Tomasso,J.R.|Comparative Toxicity of Nitrite to Freshwater Fishes|Aquat. Toxicol.8(2): 129-137|1986|10.1016/0166-445X(86)90059-7
12006|A||Maeda,S., A. Ohki, K. Kusadome, T. Kuroiwa, I. Yoshifuku, and K. Naka|Bioaccumulation of Arsenic and Its Fate in a Freshwater Food Chain|Appl. Organomet. Chem.6(2): 213-219|1992|10.1002/aoc.590060216
12007|A||Walsh,G.E., L.L. McLaughlin, M.K. Louie, C.H. Deans, and E.M. Lores|Inhibition of ARM Regeneration by Ophioderma brevispina (Echinodermata, Ophiuroidea) by Tributyltin oxide and Triphenyltin oxide|Ecotoxicol. Environ. Saf.12(1): 95-100|1986|10.1016/0147-6513(86)90009-6
12008|A||Winner,R.W.|Interactive Effects of Water Hardness and Humic Acid on the Chronic Toxicity of Cadmium to Daphnia pulex|Aquat. Toxicol.8(4): 281-293|1986|10.1016/0166-445X(86)90080-9
12009|A||Winner,R.W., and J.D. Gauss|Relationship Between Chronic Toxicity and Bioaccumulation of Copper, Cadmium and Zinc As Affected by Water Hardness and Humic Acid|Aquat. Toxicol.8(3): 149-161|1986|10.1016/0166-445X(86)90061-5
12010|A||Wolfenberger,V.|Survival of the Hermit Crab, Clibanarius vittatus, Exposed to Selenium and Other Environmental Factors|Bull. Environ. Contam. Toxicol.37(3): 369-374|1986|10.1007/BF01607775
12011|A||Beaumont,A.R., and P.B. Newman|Low Levels of Tributyl Tin Reduce Growth of Marine Micro-Algae|Mar. Pollut. Bull.17(10): 457-461|1986|10.1016/0025-326X(86)90835-0
12012|A||Blankespoor,H.D., S.C. Cameron, and J.,Jr. Cairns|Resistance of Pulmonate Snail Populations to Repeated Treatments of Copper Sulfate|Environ. Manag.9(5): 455-458|1985|10.1007/BF01866345
12013|A||Brackup,I., and D.G. Capone|The Effect of Several Metal and Organic Pollutants on Nitrogen Fixation (Acetylene Reduction) by the Roots and Rhizomes of Zostera marina L.|Environ. Exp. Bot.25(2): 145-151|1985|10.1016/0098-8472(85)90020-6
12014|A||Brand,L.E., W.G. Sunda, and R.R.L. Guillard|Reduction of Marine Phytoplankton Reproduction Rates by Copper and Cadmium|J. Exp. Mar. Biol. Ecol.96(3): 225-250|1986|10.1016/0022-0981(86)90205-4
12015|A||Carlberg,G.E., K. Martinsen, A. Kringstad, E. Gjessing, M. Grande, T. Kallqvist, and J.U. Skare|Influence of Aquatic Humus on the Bioavailability of Chlorinated Micropollutants in Atlantic Salmon|Arch. Environ. Contam. Toxicol.15(5): 543-548|1986|10.1007/BF01056568
12016|A||Carpenter,T.L., N.C. Respicio, and J.R. Heitz|Acute Light-Dependent Toxicity of Free-Acid Formulations of Xanthene Dyes to Larval Culex pipiens Quinquefasciatus Say (Diptera: Culicidae)|Environ. Entomol.13(5): 1366-1370|1984|10.1093/ee/13.5.1366
12017|A||Chawla,G., P.N. Viswanathan, and S. Devi|Effect of Linear Alkylbenzene Sulfonate on Scenedesmus quadricauda in Culture|Environ. Exp. Bot.26(1): 39-51|1986|10.1016/0098-8472(86)90051-1
12018|A||Cole,L.M., and J.E. Casida|Pyrethroid Toxicology in the Frog|Pestic. Biochem. Physiol.20(2): 217-224|1983|10.1016/0048-3575(83)90026-3
12019|A||Curtis,L.R., W.K. Seim, and G.A. Chapman|Toxicity of Fenvalerate to Developing Steelhead Trout Following Continuous or Intermittent Exposure|J. Toxicol. Environ. Health15(3-4): 445-457|1985|10.1080/15287398509530671
12020|A||Hall,L.W.,Jr., S.L. Margrey, D.T. Burton, and W.C. Graves|Avoidance Behavior of Juvenile Striped Bass, Morone saxatilis, Subjected to Simultaneous Chlorine and Elevated Temperature Conditions|Arch. Environ. Contam. Toxicol.12(6): 715-720|1983|10.1007/BF01060756
12021|A||Joshi,P.C., and R.B. Misra|Evaluation of Chemically-Induced Phototoxicity to Aquatic Organism Using Paramecium as a Model|Biochem. Biophys. Res. Commun.139(1): 79-84|1986|10.1016/S0006-291X(86)80082-1
12022|A||Karim,A.A.R.A., A.A.M. Haridi, and E.A. El Rayah|The Environmental Impacts of Four Insecticides on Non-Target Organisms in the Gezira Irrigation Scheme Canals of Sudan|J. Trop. Med. Hyg.88(2): 161-168|1985|
12023|A||Khanna,N., and T. Singh|'In Vivo' Effects of Estradiol-17beta in a Freshwater Fish, Barbus conchonius Hamilton|Experientia39(10): 1160-1161|1983|10.1007/BF01943161
12024|A||Kuiper,J., U.H. Brockmann, H. Het Groenewoud, G. Hoornsman, and P. Roele|Effects of Mercury on Enclosed Plankton Communities in the Rosfjord During Poser|Mar. Ecol. Prog. Ser.14(1): 93-105|1983|10.3354/meps014093
12025|A||Lakshmanan,P.T., and P.N.K. Nambisan|Tissue Lactic Acid and Glycogen Level of Molluscs Exposed to Cu and Hg|Curr. Sci. (Bangalore)54(10): 478-479|1985|
12026|A||Laughlin,R., K. Nordlund, and O. Linden|Long-Term Effects of Tributyltin Compounds on the Baltic Amphipod, Gammarus oceanicus|Mar. Environ. Res.12(4): 243-271|1984|10.1016/0141-1136(84)90053-9
12027|A||Lewis,T.E., and A.W. McIntosh|Uptake of Sediment-Bound Lead and Zinc by the Freshwater Isopod Asellus communis at Three Different pH Levels|Arch. Environ. Contam. Toxicol.15(5): 495-504|1986|10.1007/BF01056561
12028|A||Maule,A., and S.J.L. Wright|Herbicide Effects on the Population Growth of Some Green Algae and Cyanobacteria|J. Appl. Bacteriol.57(2): 369-379|1984|10.1111/j.1365-2672.1984.tb01403.x
12029|A||Meyn,E.L., R.K. Zajdel, and R.V. Thurston|Acute Toxicity of Ferrocyanide and Ferricyanide to Rainbow Trout (Salmo gairdneri)|Tech.Rep.No.84-1, Fish.Bioassay Lab., Montana State Univ., Bozeman, MT:19 p.|1984|
12031|T||Ransom,J.K., E.A. Oelke, and D.L. Wyse|Behavior of 2,4-D in Common Waterplantain (Alisma triviale)|Weed Sci.31(6): 766-770|1983|10.1017/S0043174500070697
12032|A||Rao,P.S.B., and V.K. Venugopalan|Lindane Induced Respiratory Changes in Juveniles of Estuarine Fish Mugil cephalus (Linn.)|Indian J. Mar. Sci.13(4): 196-198|1984|
12033|A||Shaikh,Y.A., and P.K. Hiradhar|Effect of Fluoride on Some Hematological Parameters of an Estuarine Mudskipper, Boleophthalmus dussumieri|Fluoride19(2): 58-60|1986|
12034|A||Solbakken,J.E., A.H. Knap, and P.L. Orr|Uptake and Elimination of Lindane and a Phthalate Ester in Tropical Corals and Mussels|Mar. Environ. Res.16(2): 103-113|1985|10.1016/0141-1136(85)90012-1
12035|A||Swain,L., and P. Melius|Characterization of Benzo(a)pyrene Metabolites Formed by 3-Methylcholanthrene-Induced Goldfish, Black Bullhead and Brown Bullhead|Comp. Biochem. Physiol. C Comp. Pharmacol.79(1): 151-158|1984|10.1016/0742-8413(84)90178-6
12036|A||Thayer,D.D., and W.T. Haller|Effect of Herbicides on Floating Aquatic Plants|J. Aquat. Plant Manag.23:94-95|1985|
12037|A||Thiyagarajah,A., and J.M. Grizzle|Diethylnitrosamine-Induced Pancreatic Neoplasms in the Fish Rivulus ocellatus marmoratus|J. Natl. Cancer Inst.77(1): 141-147|1986|
12038|T||Verma,K.V.S., and S.J. Rahman|Development of Knockdown Resistance [KDR] Against Fenvalerate in a DDT-Resistant Strain of Anopheles stephensi|Curr. Sci. (Bangalore)55(18): 914-916|1986|
12039|A||Walker,A.L., and R.J. Wood|Laboratory Selected Resistance to Diflubenzuron in Larvae of Aedes aegypti|Pestic. Sci.17(5): 495-502|1986|10.1002/ps.2780170507
12040|A||Weis,J.S., and P. Weis|Acclimation to Cadmium by Fundulus heteroclitus as Demonstrated by Fin Regeneration and Cadmium Accumulation|Mar. Environ. Res.17(2-4): 269-271|1985|10.1016/0141-1136(85)90103-5
12041|A||Williams,K.A., D.W.J. Green, and D. Pascoe|Studies on the Acute Toxicity of Pollutants to Freshwater Macroinvertebrates. 1. Cadmium|Arch. Hydrobiol.102(4): 461-471|1985|10.1127/archiv-hydrobiol/102/1985/461
12042|A||Williams,K.A., D.W.J. Green, D. Pascoe, and D.E. Gower|The Acute Toxicity of Cadmium to Different Larval Stages of Chironomus riparius (Diptera: Chironomidae) and its Ecological Significance for Pollution Regulation|Oceanologia (Wroc.)70(3): 362-366|1986|
12043|A||Yasmeen,N., and Nayeemunnisa |Effects of Methyl Parathion on the Rate of Oxygen Consumption of Tadpoles of Frog, Rana cyanophlictis|Curr. Sci. (Bangalore)54(13): 649-651|1985|
12044|A||Ahsanullah,M., and A.R. Williams|Effect of Uranium on Growth and Reproduction of the Marine Amphipod Allorchestes compressa|Mar. Biol.93(3): 459-464|1986|10.1007/BF00401114
12045|A||Alibaud,R., J. Bontoux, A. Rambaud, J. Lautier, and J.L. Chanal|Toxicokinetic and Metabolic Study of Dimethylnitrosamine and Diethylnitrosamine in Crayfish Austropotamobius pallipes|Xenobiotica15(12): 1103-1110|1985|10.3109/00498258509049104
12046|A||Ankley,G.T., V.S. Blazer, R.E. Reinert, and M. Agosin|Effects of Aroclor 1254 on Cytochrome P-450-Dependent Monooxygenase, Glutathione S-Transferase, and UDP-Glucuronosyltransferase Activities in Channel Catfish Liver|Aquat. Toxicol.9(2-3): 91-103|1986|10.1016/0166-445X(86)90016-0
12047|A||Ansari,B.A., and K. Kumar|Malathion Toxicity:  Embryotoxicity and Survival of Hatchlings of Zebrafish (Brachydanio rerio)|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(6): 567-570|1986|10.1002/aheh.19860140520
12048|A||Brand,G.W., G.J. Fabris, and G.H. Arnott|Reduction of Population Growth in Tisbe holothuriae Humes (Copepoda: Harpacticoida) Exposed to Low Cadmium Concentrations|Aust. J. Mar. Freshw. Res.37(4): 475-479|1986|10.1071/MF9860475
12049|A||Bush,P.B., D.G. Neary, J.W.,Jr. Taylor, and W.L. Nutter|Effects of Insecticide Use in a Pine Seed Orchard on Pesticide Levels in Fish|Water Resour. Bull.22(5): 817-827|1986|10.1111/j.1752-1688.1986.tb00756.x
12050|A||Butz,I.|Influence of Diluent Water on the Acute Toxicity of Nickel Sulphate at Rainbow Trout|Aquat. Sci. Fish. Abstr.15(7): 237-|1985|
12051|A||Cutkomp,L.K., and B. Subramanyam|Toxicity of Pyrethroids to Aedes aegypti Larvae in Relation to Temperature|Am. Mosq. Control Assoc. J.2(3): 347-349|1986|
12052|A||Dange,A.D.|Metabolic Effects of Naphthalene, Toluene or Phenol Intoxication in the Cichlid Fish Tilapia, Oreochromis mossambicus: Changes in Aminotransferase Activities|Environ. Pollut. A.42(4): 311-323|1986|10.1016/0143-1471(86)90015-2
12053|A||Dvorak,M., J. Kouril, and I. Prikryl|The Tolerance of Early Wels Fry to Preventive Baths in NaCl and Formalin Solutions. [Snasenlivost Preventivnich Koupeli V Roztocich NaCl a Formalinu u Raneho Pludku Sumce]|Pr. Vyzk. Ustav Ryb. Hydrobiol. Vodnany14:36-42|1985|
12054|A||Elliott,N.G., R. Swain, and D.A. Ritz|Metal Interaction During Accumulation by the Mussel Mytilus edulis planulatus|Mar. Biol.93(3): 395-399|1986|10.1007/BF00401107
12056|A||Gliwicz,M.Z., and A. Sieniawska|Filtering Activity of Daphnia in Low Concentrations of a Pesticide|Limnol. Oceanogr.31(5): 1132-1138|1986|10.4319/lo.1986.31.5.1132
12057|A||Gupta,P.K., and V.S. Durve|Histopathological Changes Induced by Pentachlorophenol and Sodium Pentachlorophenate in the Mantle of the Freshwater Snail Viviparus bengalensis (L.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(4): 433-437|1986|10.1002/aheh.19860140418
12058|A||Harrison,G.I., P.G.C. Campbell, and A. Tessier|Effects of pH Changes on Zinc Uptake by Chlamydomonas variabilis Grown in Batch Culture|Can. J. Fish. Aquat. Sci.43(3): 687-693|1986|10.1139/f86-083
12059|A||Helson,B.V., and G.A. Surgeoner|Efficacy of Cypermethrin for the Control of Mosquito Larvae and Pupae, and Impact on Non-Target Organisms, Including Fish|Am. Mosq. Control Assoc. J.2(3): 269-275|1986|
12060|A||Hemelraad,J., D.A. Holwerda, and D.I. Zandee|Cadmium Kinetics in Freshwater Clams.  I.  The Pattern of Cadmium Accumulation in Anodonta cygnea|Arch. Environ. Contam. Toxicol.15(1): 1-7|1986|10.1007/BF01055243
12061|A||Hemelraad,J., D.A. Holwerda, K.J. Teerds, H.J. Herwig, and D.I. Zandee|Cadmium Kinetics in Freshwater Clams.  II.  A Comparative Study of Cadmium Uptake and Cellular Distribution in the Unionidae Anodonta cygnea|Arch. Environ. Contam. Toxicol.15(1): 9-21|1986|10.1007/BF01055244
12062|A||Hemelraad,J., H.A. Kleinveld, A.M. De Roos, D.A. Holwerda, and D.I. Zandee|Cadmium Kinetics in Freshwater Clams.  III.  Effects of Zinc on Uptake and Distribution of Cadmium in Anodonta cygnea|Arch. Environ. Contam. Toxicol.16(1): 95-101|1987|10.1007/BF01055364
12063|A||Henry,M.G., and G.J. Atchison|Behavioral Changes in Social Groups of Bluegills Exposed to Copper|Trans. Am. Fish. Soc.115(4): 590-595|1986|10.1577/1548-8659(1986)115<590:BCISGO>2.0.CO;2
12064|A||Herwig,H.J., and D.A. Holwerda|Cytochemical Localization of Tin in Freshwater Mussels Exposed to Di-n-Butyltin Dichloride|Aquat. Toxicol.9(2-3): 117-128|1986|10.1016/0166-445X(86)90018-4
12065|A||Hidaka,H., and R. Tatsukawa|Variations by Sex and Body Size in the Avoidance Tests of Sodium Linear Laurylbenzene Sulfonate and Fenitrothion Using a Fish, Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)52(10): 1753-1757|1986|10.2331/suisan.52.1753
12066|A||Holdway,D.A., and D.G. Dixon|Impact of Pulse Exposure to Methoxychlor on Flagfish (Jordanella floridae) over One Reproductive Cycle|Can. J. Fish. Aquat. Sci.43(7): 1410-1415|1986|10.1139/f86-174
12067|A||Koizumi,N., and Y. Sekine|Excretion of Cadmium by the Himedaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)52(10): 1787-1790|1986|10.2331/suisan.52.1787
12068|A||Kulshrestha,S.K., and L. Jauhar|Impairments Induced by Sublethal Doses of Sevin and Thiodan on the Brain of a Freshwater Teleost Channa striatus BL. (Channidae)|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(4): 429-432|1986|10.1002/aheh.19860140417
12069|A||Kumaraguru,A.K., and F.W.H. Beamish|Effect of Permethrin (NRDC-143) on the Bioenergetics of Rainbow Trout, Salmo gairdneri|Aquat. Toxicol.9(1): 47-58|1986|10.1016/0166-445X(86)90005-6
12070|A||Lavie,B., and E. Nevo|Genetic Selection of Homozygote Allozyme Genotypes in Marine Gastropods Exposed to Cadmium Pollution|Sci. Total Environ.57:91-98|1986|10.1016/0048-9697(86)90013-6
12071|A||MacFarlane,R.B.,Jr.|Primary and Secondary Stress Responses of Striped Bass (Morone saxatilis) Exposed to Benzene|Mar. Biol.92(2): 245-254|1986|10.1007/BF00392842
12072|A||Majori,G., G. Sabatinelli, F. Villani, and V. Petrarca|Studies on Insecticide Susceptibility of Anopheles gambiae s.l. and Culex quinquefasciatus in the Area of Ouagadougou, Burkina Faso (West Africa)|Am. Mosq. Control Assoc. J.2(3): 305-309|1986|
12073|A||Mather-Mihaich,E., and R.T. Di Giulio|Antioxidant Enzyme Activities and Malondialdehyde, Glutathione and Methemoglobin Concentrations in Channel Catfish Exposed to DEF and N-Butyl|Comp. Biochem. Physiol. C Comp. Pharmacol.85(2): 427-432|1986|10.1016/0742-8413(86)90220-3
12074|T||Matthiessen,P.|Contamination of Wildlife with DDT Insecticide Residues in Relation to Tsetse Fly Control Operations in Zimbabwe|Environ. Pollut. Ser. B Chem. Phys.10:189-211|1985|10.1016/0143-148X(85)90043-6
12075|A||McKee,M.J., and C.O. Knowles|Protein, Nucleic Acid and Adenylate Levels in Daphnia magna During Chronic Exposure to Chlordecone|Environ. Pollut. A.42(4): 335-351|1986|10.1016/0143-1471(86)90017-6
12076|A||McKim,J.M., P.K. Schmieder, and R.J. Erickson|Toxicokinetic Modeling of (14C)Pentachlorophenol in the Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(1): 59-80|1986|10.1016/0166-445X(86)90006-8
12077|A||Nakanishi,H., J. Takebayashi, T. Tsuda, S. Aoki, S. Fukui, and T. Hirayama|Comparative Studies on Changes in Lipid Composition and Some Histological Responses of Gills From Carp by Exposure to Acute Level of Surfactants|Comp. Biochem. Physiol. C Comp. Pharmacol.85(2): 375-379|1986|10.1016/0742-8413(86)90211-2
12078|A||Nakanishi,H., J. Takebayashi, T. Tsuda, B. Nakagawa, S. Fukui, and T. Hirayama|Changes in Lipid Composition and Some Pathological Responses of Round Crucian Carp Gills by the Exposure to Acute Levels of Dodecylbenzenesulfonate|Comp. Biochem. Physiol. C Comp. Pharmacol.85(2): 381-383|1986|10.1016/0742-8413(86)90212-4
12079|A||Nebeker,A.V., S.T. Onjukka, M.A. Cairns, and D.F. Krawczyk|Survival of Daphnia magna and Hyalella azteca in Cadmium-Spiked Water and Sediment|Environ. Toxicol. Chem.5(10): 933-938|1986|
12080|A||Nor,Y.M., and H.H. Cheng|Chemical Speciation and Bioavailability of Copper:  Uptake and Accumulation by Eichornia|Environ. Toxicol. Chem.5(11): 941-947|1986|10.1002/etc.5620051102
12081|A||Oh,Y.K., T. Yoshida, H. Kojima, M. Wakabayashi, and M. Kikuchi|The Effect of Coexisting Organic Compounds on the Bioconcentration of 203HgCl2 in Medaka Oryzias latipes|Nippon Suisan Gakkaishi (Multiple Languages)52(9): 1653-1656|1986|10.2331/suisan.52.1653
12082|A|OECDG|Razani,H., K. Nanba, and S. Murachi|Acute Toxic Effect of Phenol on Zebrafish Branchydanio rerio|Nippon Suisan Gakkaishi (Multiple Languages)52(9): 1547-1552|1986|10.2331/suisan.52.1547
12083|A||Razani,H., K. Nanba, and S. Murachi|Chronic Toxic Effect of Phenol on Zebrafish Branchydanio rerio|Nippon Suisan Gakkaishi (Multiple Languages)52(9): 1553-1558|1986|10.2331/suisan.52.1553
12084|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Chronic Malathion Toxicity: Effect on Carbohydrate Metabolism of Oziotelphusa senex senex, the Indian Rice Field Crab|Bull. Environ. Contam. Toxicol.37(6): 816-822|1986|10.1007/BF01607844
12085|A||Reddy,T.R., N.V. Kumar, and N. Chari|Effect of Mercuric Chloride on Carbohydrate Metabolism of Mantle, Foot and Gill of a Fresh Water Mussel, Parreysia rugosa (Gmelin)|J. Environ. Biol.7(4): 225-229|1986|
12086|A||Rehnberg,B.C., and C.B. Schreck|Acute Metal Toxicology of Olfaction in Coho Salmon:  Behavior, Receptors, and Odor-Metal Complexation|Bull. Environ. Contam. Toxicol.36(4): 579-586|1986|10.1007/BF01623554
12087|A||Robinson,W.E., and D.K. Ryan|Metal Interactions Within the Kidney, Gill, and Digestive Gland of the Hard Clam, Mercenaria mercenaria, Following Laboratory Exposure to Cadmium|Arch. Environ. Contam. Toxicol.15(1): 23-30|1986|10.1007/BF01055245
12088|A||Rodrigues,C.S., and N.K. Kaushik|Laboratory Evaluation of the Insect Growth Regulator Diflubenzuron Against Black Fly (Diptera: Simuliidae) Larvae and Its Effects on Nontarget Stream Invertebrates|Can. Entomol.118(6): 549-558|1986|10.4039/Ent118549-6
12089|A||Rosicky,P., J. Kouril, and B. Vykusova|Sensitivity of Carp and Grass-Carp Early Fry to Short-Termed Formaldehyde Baths. (Vliv Delky Trvani Kratkodobych Formalinovych Koupeli Na Jejich|Bull. V. U. R. H. Vodnany (Non-English)3:25-30|1986|
12090|A||Singh,D.K., and R.A. Agarwal|Synergistic Effect of Sulfoxide with Carbaryl on the In Vivo Acetylcholinesterase Activity and Carbohydrate Metabolism of the Snail Lymnaea acuminata|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(4): 421-427|1986|10.1002/aheh.19860140415
12091|A||Sloley,B.D., B.E. Hickie, D.G. Dixon, R.G.H. Downer, and R.J. Martin|The Effects of Sodium Pentachlorophenate, Diet and Sampling Procedure on Amine and Tryptophan Concentrations in the Brain of Rainbow Trout, Salmo gairdneri Richardson|J. Fish Biol.28(3): 267-277|1986|10.1111/j.1095-8649.1986.tb05164.x
12092|A||Solomon,K.R., J.Y. Yoo, D. Lean, N.K. Kaushik, K.E. Day, and G.L. Stephenson|Methoxychlor Distribution, Dissipation, and Effects in Freshwater Limnocorrals|Environ. Toxicol. Chem.5(6): 577-586|1986|10.1002/etc.5620050610
12093|A||Spehar,R.L., and J.T. Fiandt|Acute and Chronic Effects of Water Quality Criteria-Based Metal Mixtures on Three Aquatic Species|Environ. Toxicol. Chem.5(10): 917-931|1986|
12094|A||Stephenson,G.L., N.K. Kaushik, K.R. Solomon, and K. Day|Impact of Methoxychlor on Freshwater Communities of Plankton in Limnocorrals|Environ. Toxicol. Chem.5(6): 587-603|1986|10.1002/etc.5620050611
12095|A||Van Daele,Y., and J.P. Thome|Purification of PCB Contaminated Water by Chitosan: A Biological Test of Efficiency Using the Common Barbel, Barbus barbus|Bull. Environ. Contam. Toxicol.37(6): 858-865|1986|10.1007/BF01607850
12096|A||Van Leeuwen,C.J., A. Espeldoorn, and F. Mol|Aquatic Toxicological Aspects of Dithiocarbamates and Related Compounds. III. Embryolarval Studies with Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(2/3): 129-145|1986|10.1016/0166-445X(86)90019-6
12097|A||Van Leeuwen,C.J., T. Helder, and W. Seinen|Aquatic Toxicological Aspects of Dithiocarbamates and Related Compounds. IV. Teratogenicity and Histopathology in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(2/3): 147-159|1986|10.1016/0166-445X(86)90020-2
12098|A||Van Leeuwen,C.J., J.L. Maas-Diepeveen, and H.C.M. Overbeek|Sublethal Effects of Tetramethylthiuram Disulfide (Thiram) in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(1): 13-19|1986|10.1016/0166-445X(86)90003-2
12099|A||Victor,B., S. Mahalingam, and R. Sarojini|Toxicity of Mercury and Cadmium on Oocyte Differentiation and Vitellogenesis of the Teleost, Lepidocephalichtyhs thermalis (Bleeker)|J. Environ. Biol.7(4): 209-214|1986|
12100|A||Watenpaugh,D.E., and T.L. Beitinger|Resistance of Nitrite-Exposed Channel Catfish, Ictalurus punctatus, to Hypoxia|Bull. Environ. Contam. Toxicol.37(6): 802-807|1986|10.1007/BF01607842
12101|A||Wester,P.W., and J.H. Canton|Histopathological Study of Oryzias latipes (Medaka) After Long-Term beta-Hexachlorocyclohexane Exposure|Aquat. Toxicol.9(1): 21-45|1986|10.1016/0166-445X(86)90004-4
12102|A||Yamamoto,Y., and M. Inoue|Lethal Tolerance of Acute Cadmium Toxicity in Rainbow Trout Previously Exposed to Cadmium|Nippon Suisan Gakkaishi (Multiple Languages)51(10): 1733-1735|1985|10.2331/suisan.51.1733
12103|A||Yano,T., and H. Matsuyama|Stimulatory Effect of PCB on the Metabolism of Sex Hormones in Carp Hepatopancreas|Nippon Suisan Gakkaishi (Multiple Languages)52(10): 1847-1852|1986|10.2331/suisan.52.1847
12104|A||Yount,J.D., and J.E. Richter|Effects of Pentachlorophenol on Periphyton Communities in Outdoor Experimental Streams|Arch. Environ. Contam. Toxicol.15(1): 51-60|1986|10.1007/BF01055248
12105|A||Yousri,R., and W. Hanke|The Effects of Pentachlorophenol, Phenol and Other Pollutants on the Liver of Carp (Cyprinus carpio L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.82(2): 283-290|1985|10.1016/0742-8413(85)90164-1
12106|A||Adams,W.J., G.M. DeGraeve, T.D. Sabourin, J.D. Cooney, and G.M. Mosher|Toxicity and Bioconcentration of 2,3,7,8-TCDD to Fathead Minnows (Pimephales promelas)|Chemosphere15(9-12): 1503-1511|1986|10.1016/0045-6535(86)90431-5
12107|A||Agarwal,H.C., P.K. Mittal, K.B. Menon, and M.K.K. Pillai|DDT Residues in the River Jamuna in Delhi, India|Water Air Soil Pollut.28:89-104|1986|10.1007/BF00184072
12108|A||Ahmad,G., and G.J. Srivastava|Histopathologic Alterations in the Liver and Skin of a Freshwater Teleost, Heteropneustes fossilis (Bloch) Exposed Chronically to a Sublethal Concentration of Methylene Blue|Pak. J. Zool.17(3): 239-246|1985|
12109|A||Al-Sabti,K.|Carcinogenic-Mutagenic Chemicals Induced Chromosomal Aberrations in the Kidney Cells of Three Cyprinids|Comp. Biochem. Physiol. C Comp. Pharmacol.82(2): 489-493|1985|10.1016/0742-8413(85)90198-7
12110|A||Al-Sabti,K.|Clastogenic Effects of Five Carcinogenic-Mutagenic Chemicals on the Cells of the Common Carp, Cyprinus carpio L.|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 5-9|1986|10.1016/0742-8413(86)90043-5
12111|A||Amiard-Triquet,C., J.C. Amiard, R. Ferrand, A.C. Andersen, and M.P. Dubois|Disturbance of a Met-Enkephalin-Like Hormone in the Hepatopancreas of Crabs Contaminated by Metals|Ecotoxicol. Environ. Saf.11(2): 198-209|1986|10.1016/0147-6513(86)90064-3
12112|A||Andaya,A.A., and R.T. Di Giulio|Acute Toxicities and Hematological Effects of Two Substituted Naphthoquinones in Channel Catfish|Arch. Environ. Contam. Toxicol.16(2): 233-238|1987|10.1007/BF01055804
12113|A||Andersson,T., and U. Koivusaari|Influence of Environmental Temperature on the Induction of Xenobiotic Metabolism by beta-Naphthoflavone in Rainbow Trout, Salmo gairdneri|Toxicol. Appl. Pharmacol.80(1): 43-50|1985|10.1016/0041-008X(85)90099-7
12114|A||Bengeri,K.V., and H.S. Patil|Influence of pH on the Toxicity and Accumulation of Zinc in the Freshwater Fish Lepidocephalichthyes guntea|C. A. Sel. Environ. Pollut.15:107-19100G|1987|
12115|A||Apperson,C.S., R. Elston, and W. Castle|Biological Effects and Persistence of Methyl Parathion in Clear Lake, California|Environ. Entomol.5(6): 1116-1120|1976|10.1093/ee/5.6.1116
12116|A||Arthur,J.W., C.W. West, K.N. Allen, and S.F. Hedtke|Seasonal Toxicity of Ammonia to Five Fish and Nine Invertebrate Species|Bull. Environ. Contam. Toxicol.38(2): 324-331|1987|10.1007/BF01606682
12117|A|OECDG|Bean,R.M., D.D. Dauble, B.L. Thomas, R.W.,Jr. Hanf, and E.K. Chess|Uptake and Biotransformation of Quinoline by Rainbow Trout|Aquat. Toxicol.7(4): 221-239|1985|10.1016/0166-445X(85)90041-4
12118|A||Bhusari,N.B., R. Ilyas, and M.R. Chousalkar|Effect of Endosulfan and Ekalux on Oxygen Consumption of Freshwater Fish, Barbus ticto (Hamilton)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:213-216|1985|
12119|A||Birch,W.X., and K.V. Prahlad|Effects of Nabam on Developing Xenopus laevis Embryos: Minimum Concentration, Biological Stability, and Degradative Products|Arch. Environ. Contam. Toxicol.15(6): 637-645|1986|10.1007/BF01054910
12120|A||Bose,S., and G. Saroja-Subbaraj|Photosynthetic Behaviour of Cells of Chlorella protothecoides Adapted to Methyl Parathion|Indian J. Exp. Biol.22(7): 374-378|1984|
12121|A||Bradbury,S.P., J.M. McKim, and J.R. Coats|Physiological Response of Rainbow Trout (Salmo gairdneri) to Acute Fenvalerate Intoxication|Pestic. Biochem. Physiol.27(3): 275-288|1987|10.1016/0048-3575(87)90057-5
12122|A|OECDG|Call,D.J., S.H. Poirier, M.L. Knuth, S.L. Harting, and C.A. Lindberg|Toxicity of 3,4-Dichloroaniline to Fathead Minnows, Pimephales promelas, in Acute and Early Life-Stage Exposures|Bull. Environ. Contam. Toxicol.38(2): 352-358|1987|10.1007/BF01606686
12123|A||Carlson,A.R.|Effects of Lowered Dissolved Oxygen Concentration on the Toxicity of 1,2,4-Trichlorobenzene to Fathead Minnows|Bull. Environ. Contam. Toxicol.38:667-673|1987|10.1007/BF01608601
12124|A|OECDG|Carlson,A.R., and P.A. Kosian|Toxicity of Chlorinated Benzenes to Fathead Minnows (Pimephales promelas)|Arch. Environ. Contam. Toxicol.16(2): 129-135|1987|10.1007/BF01055794
12125|A||Chapman,P.M., and D.G. Mitchell|Acute Tolerance Tests with the Oligochaetes Nais communis (Naididae) and Ilyodrilus frantzi (Tubificidae)|Hydrobiologia (Multiple Languages)137(1): 61-64|1986|10.1007/BF00004173
12126|A||Cohen,Y., B.B. Jorgensen, N.P. Revsbech, and R. Poplawski|Adaptation to Hydrogen Sulfide of Oxygenic and Anoxygenic Photosynthesis AmongCyanobacteria|Appl. Environ. Microbiol.51(2): 398-407|1986|10.1128/aem.51.2.398-407.1986
12127|A||Cornish,I.M.E., and T.W. Moon|The Glucose and Lactate Kinetics of American Eels, Anguilla rostrata (Lesueur), Under MS 222 Anaesthesia|J. Fish Biol.28(1): 1-8|1986|10.1111/j.1095-8649.1986.tb05135.x
12128|A||Cravedi,J.P., and J. Tulliez|Metabolism of N-Alkanes and Their Incorporation into Lipids in the Rainbow Trout|Environ. Res.39(2): 180-187|1986|10.1016/S0013-9351(86)80020-2
12129|A||Cravedi,J.P., and J. Tulliez|Metabolites of the Naphthenic Hydrocarbon Dodecylcyclohexane in Rainbow Trout Liver and Their Incorporation into Lipids|Arch. Environ. Contam. Toxicol.15(2): 207-213|1986|10.1007/BF01059969
12130|A||Davies,P.E.|The Toxicology and Metabolism of Chlorothalonil in Fish. II. Glutathione Conjugates and Protein Binding|Aquat. Toxicol.7(4): 265-275|1985|10.1016/0166-445X(85)90044-X
12131|A||Davies,P.E.|The Toxicology and Metabolism of Chlorothalonil in Fish.  III.  Metabolism, Enzymatics and Detoxication in Salmo spp. and Galaxias spp.|Aquat. Toxicol.7(4): 277-299|1985|10.1016/0166-445X(85)90045-1
12132|A||Davies,P.E.|The Toxicology and Metabolism of Chlorothalonil in Fish.  IV.  Zinc Coexposure and the Significance of Metallothionein in Detoxication in Salmo gairdneri|Aquat. Toxicol.7(4): 301-306|1985|10.1016/0166-445X(85)90046-3
12133|A||Dheer,J.M.S., T.R. Dheer, and C.L. Mahajan|Haematological and Haematopoietic Response to Sodium Chloride Stress in a Freshwater Air-Breathing Fish Channa punctatus Bloch|J. Fish Biol.28(1): 119-128|1986|10.1111/j.1095-8649.1986.tb05148.x
12134|A||Effler,S.W., S. Litten, S.D. Field, T. Tong-Ngork, F. Hale, M. Meyer, and M. Quirk|Whole Lake Responses to Low Level Copper Sulfate Treatment|Water Res.14(10): 1489-1499|1980|10.1016/0043-1354(80)90015-9
12135|A||Ekelund,R., A. Granmo, M. Berggren, L. Renberg, and C. Wahlberg|Influence of Suspended Solids on Bioavailability of Hexachlorobenzene and Lindane to the Deposit-Feeding Marine Bivalve, Abra nitida (Muller)|Bull. Environ. Contam. Toxicol.38(3): 500-508|1987|10.1007/BF01606620
12136|A||Finlayson,B.J., and G.A. Faggella|Comparison of Laboratory and Field Observations of Fish Exposed to the Herbicides Molinate and Thiobencarb|Trans. Am. Fish. Soc.115(6): 882-890|1986|10.1577/1548-8659(1986)115<882:COLAFO>2.0.CO;2
12137|A||Fisher,S.W.|Effects of Temperature on the Acute Toxicity of PCP in the Midge Chironomus riparius Meigen|Bull. Environ. Contam. Toxicol.36(5): 744-748|1986|10.1007/BF01623578
12138|A||Foster,G.D., and D.G. Crosby|Xenobiotic Metabolism of P-Nitrophenol Derivatives by the Rice Field Crayfish (Procambarus clarkii)|Environ. Toxicol. Chem.5(12): 1059-1070|1986|
12139|A||Francis,P.C., D.W. Grothe, and J.C. Scheuring|Chronic Toxicity of 4-Nitrophenol to Daphnia magna Straus Under Static-Renewaland Flow-Through Conditions|Bull. Environ. Contam. Toxicol.36(5): 730-737|1986|10.1007/BF01623576
12140|A||Gersich,F.M., and D.L. Hopkins|Site-Specific Acute and Chronic Toxicity of Ammonia to Daphnia magna Straus|Environ. Toxicol. Chem.5(5): 443-447|1986|
12141|A||Ram,R.N., and A.G. Sathyanesan|Effect of a Mercurial Fungicide on the Gonadal Development of the Teleostean Fish Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.11(3): 352-360|1986|10.1016/0147-6513(86)90108-9
12142|A||Boyum,K.W., and A.S. Brooks|Differential Toxicity of Selenium on Lab Cultures of Daphnia magna and Field Isolates of Daphnia pulicaria|Proc. Conf. Gt. Lakes Res.:8-|1983|
12144|A||Costello,M.L., S.M. Bay, and D.A. Brown|Effect of Cadmium on California Scorpionfish Ultrastructure|Fed. Proc.44(3): 535-|1985|
12145|A||Verma,S.R., R. Chand, and I.P. Tonk|Mercuric Chloride-Induced Physiological Dysfunction in Notopterus notopterus|Environ. Res.39(2): 442-447|1986|10.1016/S0013-9351(86)80068-8
12146|A||Sicko-Goad,L., B.G. Ladewski, and D. Lazinsky|Synergistic Effects of Nutrients and Lead on the Quantitative Ultrastructure of Cyclotella (Bacillariophyceae)|Arch. Environ. Contam. Toxicol.15(3): 291-300|1986|10.1007/BF01061106
12147|A||Sanders,J.G., and S.J. Cibik|Reduction of Growth Rate and Resting Spore Formation in a Marine Diatom Exposed to Low Levels of Cadmium|Mar. Environ. Res.16(3): 165-180|1985|10.1016/0141-1136(85)90136-9
12148|A||Ram,R.N., and A.G. Sathyanesan|Mercurial Induced Brain Monoamine Oxidase Inhibition in the Teleost Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.35(5): 620-626|1985|10.1007/BF01636564
12149|A||Seidman,L.A., G. Bergtrom, D.J. Gingrich, and C.C. Remsen|Accumulation of Cadmium by the Fourth Instar Larva of the Fly Chironomus thummi|Tissue Cell18(3): 395-405|1986|10.1016/0040-8166(86)90059-5
12151|A||Hiraoka,Y., S. Ishizawa, T. Kamada, and H. Okuda|Acute Toxicity of 14 Different Kinds of Metals Affecting Medaka Fry|Hiroshima J. Med. Sci.34(3): 327-330|1985|
12152|A||De Zwart,D., and W. Slooff|Toxicity of Mixtures of Heavy Metals and Petrochemicals to Xenopus laevis|Bull. Environ. Contam. Toxicol.38:345-351|1987|10.1007/BF01606685
12153|A||Coughlan,D.J., S.P. Gloss, and J. Kubota|Acute and Sub-Chronic Toxicity of Lead to the Early Life Stages of Smallmouth Bass (Micropterus dolomieui)|Water Air Soil Pollut.28(3/4): 265-275|1986|10.1007/BF00583492
12154|A||Burton,G.A.,Jr., J.M. Lazorchak, W.T. Waller, and G.R. Lanza|Arsenic Toxicity Changes in the Presence of Sediment|Bull. Environ. Contam. Toxicol.38(3): 491-499|1987|10.1007/BF01606619
12155|A||Berglind,R.|Combined and Separate Effects of Cadmium, Lead and Zinc on Ala-D Activity, Growth and Hemoglobin Content in Daphnia magna|Environ. Toxicol. Chem.5:989-995|1986|
12156|A||Birge,W.J., J.A. Black, and A.G. Westerman|Short-Term Fish and Amphibian Embryo-Larval Tests for Determining the Effects of Toxicant Stress on Early Life Stages and Estimating Chronic Values|Environ. Toxicol. Chem.4(6): 807-821|1985|
12157|A||Nicola Giudici,M., L. Migliore, and S.M. Guarino|Effects of Cadmium on the Life Cycle of Asellus aquaticus (L.) and Proasellus coxalis Dollf. (Crustacea, Isopoda)|Environ. Technol. Lett.7(1): 45-54|1986|10.1080/09593338609384390
12158|A||Baatrup,E., M.G. Nielsen, and G. Danscher|Histochemical Demonstration of Two Mercury Pools in Trout Tissues: Mercury in Kidney and Liver After Mercuric Chloride Exposure|Ecotoxicol. Environ. Saf.12(3): 267-282|1986|10.1016/0147-6513(86)90018-7
12159|T||Barbolani,E., M. Clauser, F. Pantani, and R. Gellini|Residual Heavy Metal (Cu and Cd) Removal by Iris pseudacorus|Water Air Soil Pollut.28:277-282|1986|10.1007/BF00583493
12160|A||Carney,G.C., P. Shore, and H. Chandra|The Uptake of Cadmium From a Dietary and Soluble Source by the Crustacean Daphnia magna|Environ. Res.39(2): 290-298|1986|10.1016/S0013-9351(86)80055-X
12161|A||Carlson,A.R., H. Nelson, and D. Hammermeister|Development and Validation of Site-Specific Water Quality Criteria for Copper|Environ. Toxicol. Chem.5:997-1012|1986|
12162|A||Crespo,S., G. Nonnotte, D.A. Colin, C. Leray, L. Nonnotte, and A. Aubree|Morphological and Functional Alterations Induced in Trout Intestine by Dietary Cadmium and Lead|J. Fish Biol.28(1): 69-80|1986|10.1111/j.1095-8649.1986.tb05143.x
12166|A||Vranken,G., and C. Heip|Toxicity of Copper, Mercury and Lead to a Marine Nematode|Mar. Pollut. Bull.17(10): 453-457|1986|10.1016/0025-326X(86)90834-9
12167|A||Gooch,J.W., and F. Matsumura|Toxicity of Chlorinated Bornane (Toxaphene) Residues Isolated from Great Lakes Lake Trout (Salvelinus namaycush)|Arch. Environ. Contam. Toxicol.16(3): 349-355|1987|10.1007/BF01054953
12168|A||Gopal,K., M. Anand, S. Mehrotra, and P.K. Ray|Neurobehavioural Changes in Fresh Water Fish Channa punctatus Exposed to Endosulfan|J. Adv. Zool.6(2): 74-80|1985|
12169|A||Gupta,A., and M.N. Gupta|Effect of Certain Toxicants on the Activity of 5-Nucleotidase in the Gills of Trichogaster fasciatus|C. A. Sel. Environ. Pollut.15(3): 1 p.|1986|
12170|A||Hamelink,J.L., D.R. Buckler, F.L. Mayer, D.U. Palawski, and H.O. Sanders|Toxicity of Fluridone to Aquatic Invertebrates and Fish|Environ. Toxicol. Chem.5(1): 87-94|1986|10.1002/etc.5620050112
12171|A||Harrison,F.L., and J.R. Lam|Partitioning of Copper Among Copper-Binding Proteins in the Mussel Mytilus edulis Exposed to Increased Soluble Copper|Estuaries6(3): 319-320|1983|
12172|A||Hatakeyama,S.|Accumulation and Chronic Effects of Cadmium on the Guppy (Poecilia reticulata) Fed the Cadmium-Accumulated Midge Larvae (Chironomus yoshimatsui)|C. A. Sel. Environ. Pollut.22:2-|1984|
12173|A||Holwerda,D.A., and H.J. Herwig|Accumulation and Metabolic Effects of Di-n-Butyltin Dichloride in the Freshwater Clam, Anodonta anatina|Bull. Environ. Contam. Toxicol.36(5): 756-762|1986|10.1007/BF01623580
12174|A||Jop,K.M., J.H.,Jr. Rodgers, E.E. Price, and K.L. Dickson|Renewal Device for Test Solutions in Daphnia Toxicity Tests|Bull. Environ. Contam. Toxicol.36:95-100|1986|10.1007/BF01623480
12175|A||Kagan,J., and E.D. Kagan|The Toxicity of Benzo(a)pyrene and Pyrene in the Mosquito Aedes aegypti, in the Dark and in the Presence of Ultraviolet Light|Chemosphere15(3): 243-251|1986|10.1016/0045-6535(86)90019-6
12176|A||Kleinow,W.|Effects of Acrylamide on Brachionus plicatilis (Rotifera)|Comp. Biochem. Physiol. C Comp. Pharmacol.84(2): 243-246|1986|10.1016/0742-8413(86)90089-7
12177|A||Kossakowska,A., and L. Falkowski|Study of the Effect of Mercury Ions on Phytoplankton Cells|C. A. Sel. Environ. Pollut.25:1-|1983|
12178|A||Kulkarni,G.K., A.B. Rao, and C.S.K. Anand|Effect of Some Molluscicides on the Rate of Survival and Oxygen Consumption of a Freshwater Leech, Poecilobdella viridis (Blanchard)|Proc. Indian Acad. Sci. Sect. B50(1): 32-36|1984|
12179|A||Madhu,C., K.J. Rao, and K.V.R. Rao|Haematological Changes in Sarotherodon mossambicus Exposed to Lindane|J. Food Sci. Technol.21(1): 53-55|1984|
12181|A||McKim,J.M., P.K. Schmieder, R.W. Carlson, E.P. Hunt, and G.J. Niemi|Use of Respiratory-Cardiovascular Responses of Rainbow Trout (Salmo gairdneri) in Identifying Acute Toxicity Syndromes in Fish:  Part 1.  Pentachlorophenol, 2,4-Dinitrophenol, Tricaine Methanesulfonate and 1-Octanol|Environ. Toxicol. Chem.6:295-312|1987|
12182|A||McKim,J.M., P.K. Schmieder, G.J. Niemi, R.W. Carlson, and T.R. Henry|Use of Respiratory-Cardiovascular Responses of Rainbow Trout (Salmo gairdneri) in Identifying Acute Toxicity Syndromes in Fish: Part 2.  Malathion, Carbaryl, Acrolein and Benzaldehyde|Environ. Toxicol. Chem.6:313-328|1987|
12183|A||Miller,D.C., W.H. Lang, J.O.B. Greaves, and R.S. Wilson|Investigations in Aquatic Behavioral Toxicology Using a Computerized Video Quantification System|ASTM Spec. Tech. Publ.:206-220|1982|
12184|A||Moses,G., K. Ramamurthy, M.J. Christopher, and K.J. Rao|Toxicity Evaluation of Heptachlor and Metasystox on Freshwater Edible Fish, Tilapia mossambica|Geobios (Jodhpur)12(3-4): 104-107|1985|
12185|A||Nishihara,T., T. Shimamoto, K.C. Wen, and M. Kondo|Accumulation of Lead, Cadmium and Chromium in Several Organs and Tissues of Carp|Eisei Kagaku (Multiple Languages)31(2): 119-123|1985|
12186|A|OECDG|Opperhuizen,A., E.W. Van der Velde, F.A.P. Gobas, D.A.K. Liem, J.M.D. Van der Steen, and O. Hutzinger|Relationship Between Bioconcentration in Fish and Steric Factors of Hydrophobic Chemicals|Chemosphere14(11-12): 1871-1896|1985|10.1016/0045-6535(85)90129-8
12187|A||Prevot,P., and M.O. Soyer|Action of the Organophosphorous Insecticide Parathion on the Free-Living Marine Dinoflagellate Prorocentrum micans Ehrbg|J.Protozool.32(4): 626-633|1985|10.1111/j.1550-7408.1985.tb03091.x
12188|A||Reddy,M.S., B.N. Murthy, Y. Venkateswarlu, and K.V.R. Rao|Toxicity of Insecticide Phosphamidon on Tissue Carbohydrate Catabolism of Penaeid Prawn Penaeus indicus (H. Milne Edwards)|Indian J. Mar. Sci.14(4): 224-225|1985|
12189|A||Hwang,D.F., M.Y. Chen, T. Yoshida, and S.S. Jeng|Toxic Effects of Linear Alkylbenzene Sulfonate on the Tiger Prawn, Penaeus monodon|Ecotoxicol. Environ. Saf.26(3): 285-292|1993|10.1006/eesa.1993.1057
12190|A||Sahib,I.K.A., K.R.S.S. Rao, and K.V.R. Rao|Dehydrogenase Systems of the Teleost, Tilapia mossambica Under Augmented Sublethal Malathion Stress|J. Anim. Morphol. Physiol.30(1-2): 101-106|1983|
12191|A||Saini,A., and D.M. Saxena|Effect of Organophosphorus Insecticides on the Growth of Tetrahymena pyriformis|Arch. Protistenkd.131(1/2): 143-152|1986|10.1016/S0003-9365(86)80072-0
12192|A||Saroglia,M.G., G. Scarano, and E. Tibaldi|Acute Toxicity of Nitrite to Sea Bass (Dicentrarchus labrax) and European Eel (Anguilla anguilla)|J. World Aquac. Soc.12(2): 121-126|1981|
12193|A||Saxena,M., and S.K. Kulshrestha|Studies on the Effect of DDT on the Regeneration of Cutaneous Wounds in Mystus(Mystus) vittatus Bl. (Bagridae)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(4): 353-360|1982|10.1002/aheh.19820100408
12194|A||Sheehan,R.J., and W.M. Lewis|Influence of pH and Ammonia Salts on Ammonia Toxicity and Water Balance in Young Channel Catfish|Trans. Am. Fish. Soc.115(6): 891-899|1986|10.1577/1548-8659(1986)115<891:IOPAAS>2.0.CO;2
12195|A||Spitsbergen,J.M., K.A. Schat, J.M. Kleeman, and R.E. Peterson|Interactions of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) with Immune Responses of Rainbow Trout|Vet. Immunol. Immunopathol.12(1-4): 263-280|1986|10.1016/0165-2427(86)90130-3
12196|A||Svobodova,Z., B. Vykusova, K. Drbal, J. Machova, and M. Stepanek|Assessment of the Highest Admissible Concentration of CuSO4.5H2O for Rainbow Trout and for Carp|Bull. V. U. R. H. Vodnany (Non-English)21(3): 25-33|1985|
12197|A||Tiedge,H., R. Nagel, and K. Urich|Effect of Substituted Phenols on Transaminase Activity in the Fish, Leuciscus idus Melanotus L.|Bull. Environ. Contam. Toxicol.36(2): 176-180|1986|10.1007/BF01623491
12198|A||Tonapi,G.T., and G. Varghese|Cardiophysiological Responses of the Crab, Berytelphusa cunnicularis (Westwood), to Three Common Pollutants|Indian J. Exp. Biol.22(10): 548-549|1984|
12199|A||Toth,E.O., P. Gulyas, and J. Olah|Effect of Temperature on Growth, Food Conversion, and Survival of Sheatfish (Silurus glanis L.) and Common Carp (Cyprinus carpio L.) at Sublethal|Aquat. Sci. Fish. Abstr.3:51-56|1982|
12200|A||Van,T.K., K.K. Steward, and A.O. Jones|Evaluation of Two Controlled-Release 2,4-D Formulations for Control of Myriophyllum spicatum L.|Weed Res. (Multiple Languages)26(5): 325-331|1986|10.1111/j.1365-3180.1986.tb00714.x
12201|A||Van Leeuwen,C.J., P. Van Hameren, M. Bogers, and P.S. Griffioen|Uptake, Distribution and Retention of Zineb and Ziram in Rainbow Trout (Salmo gairdneri)|Toxicology42(1): 33-46|1986|10.1016/0300-483X(86)90090-9
12202|A||Akberali,H.B., M.J. Earnshaw, and K.R.M. Marriott|The Action of Heavy Metals on the Gametes of the Marine Mussel, Mytilus edulis (L.) - II. Uptake of Copper and Zinc and Their Effect on Respiration in the Sperm and Unfertilized Egg|Mar. Environ. Res.16(1): 37-59|1985|10.1016/0141-1136(85)90019-4
12203|A||Ali,A., and M.S. Mulla|Impact of the Insect Growth Regulator Diflubenzuron on Invertebrates in a Residential-Recreational Lake|Arch. Environ. Contam. Toxicol.7:483-491|1978|10.1007/BF02332073
12204|A||Bartlett,G.R., A.R. Schwantes, and A.L. Val|Studies on the Influence of Nitrite on Methemoglobin Formation in Amazonian fishes|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 449-456|1987|10.1016/0742-8413(87)90112-5
12205|A||Benson,W.H., K.N. Baer, R.A. Stackhouse, and C.F. Watson|Influence of Cadmium Exposure on Selected Hematological Parameters in Freshwater Teleost, Notemigonus crysoleucas|Ecotoxicol. Environ. Saf.13(1): 92-96|1987|10.1016/0147-6513(87)90046-7
12206|A||Calabrese,A., F.P. Thurberg, and E. Gould|Effects of Cadmium, Mercury and Silver on Marine Animals|MFR Paper 1244, Mar Fish Rev39:5-11|1977|
12207|A||Carpene,E., P. Cortesi, S. Tacconi, O. Cattani, G. Isani, and G.P. Serrazanetti|Cd-Metallothionein and Metal-Enzymes Interactions in the Goldfish Carassius auratus|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 267-272|1987|10.1016/0742-8413(87)90078-8
12208|A||Castren,M., and A. Oikari|Changes of the Liver UDP-Glucuronosyltransferase Activity in Trout (Salmo gairdneri Rich.) Acutely Exposed to Selected Aquatic Toxicants|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 357-360|1987|10.1016/0742-8413(87)90094-6
12209|A||Chattopadhyay,D.N.|Acute Toxicity of Detergents to Fish and Worm|Aquat. Sci. Fish. Abstr.1(1): 256-|1985|
12210|A||Douglas,M.T., D.O. Chanter, I.B. Pell, and G.M. Burney|A Proposal for the Reduction of Animal Numbers Required for the Acute Toxicity to Fish Test (LC50 Determination)|Aquat. Toxicol.8(4): 243-249|1986|10.1016/0166-445X(86)90076-7
12211|A||Ghosh,T.K.|Effect of Phenol Pollution on Aquatic Life|Aquat. Sci. Fish. Abstr.1(1): 1-3|1983|
12212|A||Ghosh,T.K., and S.K. Chatterjee|Effect of Chromium on Tissue Energy Reserve in a Freshwater Fish Sarotherodon mossambicus|Aquat. Sci. Fish. Abstr.15(1): 206-|1985|
12213|A||Girija,M., M.D.A. Baig, M.J. Christopher, and K.J. Rao|Sublethal Effects of Heptachlor and Metasystox on Hydration, Dry Weight and Histosomatic Indices in Gill Tissue of Fish Tilapia mossambica|Aquat. Sci. Fish. Abstr.15(1): 242-|1985|
12215|A||Harrison,F.L., and J.R. Lam|Copper-Binding Proteins in Liver of Bluegills Exposed to Increased Soluble Copper Under Field and Laboratory Conditions|Environ. Health Perspect.65:125-132|1985|
12216|A||Helder,T., and W. Seinen|Relative Toxicities of Some CDDS and CDFS and Toxic Potentials of Incineration Products, Assessed by the E.L.S. Bioassay|Chemosphere15(9-12): 1165-1172|1986|10.1016/0045-6535(86)90387-5
12217|A||Hilmy,A.M., N.A. El Domiaty, A.Y. Daabees, and H.A.A. Latife|Toxicity in Tilapia zilli and Clarias lazera (Pisces) Induced by Zinc, Seasonally|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 263-265|1987|10.1016/0742-8413(87)90077-6
12218|A||Hilmy,A.M., N.A. El Domiaty, and K. Wershana|Acute and Chronic Toxicity of Nitrite to Clarias lazera|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 247-253|1987|10.1016/0742-8413(87)90075-2
12219|A||Hinton,D.E., R.C. Lantz, and J.A. Hampton|Effect of Age and Exposure to a Carcinogen on the Structure of the Medaka Liver: A Morphometric Study|Natl. Cancer Inst. Monogr.65:239-249|1984|
12220|A||Kenny,E.A., and E. Ruber|Effects of Arosurf MSF on Microcrustacea Associated with the Cattail Mosquito, Coquillettidia perturbans|Am. Mosq. Control Assoc. J.9(3): 361-363|1993|
12221|A||Khalil,Z., and I.Y. Mostafa|Interactions of Pesticides with Fresh-Water Algae. 1. Effect of Methomyl and Its Possible Degradation by Phormidium fragile|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(4): 289-301|1986|
12222|A||Khristoforova,N.K., S.M. Gnezdilova, and G.A. Vlasova|Effect of Cadmium on Gametogenesis and Offspring of the Sea Urchin Strongylocentrotus intermedius|Mar. Ecol. Prog. Ser.17(1): 9-14|1984|10.3354/meps017009
12223|A||Khudoley,V.V.|Use of Aquarium Fish, Danio rerio and Poecilia reticulata, As Test Species for Evaluation of Nitrosamine Carcinogenicity|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.65, NIH Publ.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:65-70|1984|
12224|A||Vykusova,B., and Z. Svobodova|Acute Toxicity of Standards to Fish (Akutni Toxicita Standardu pro Ryby)|Bull. V. U. R. H. Vodnany (Non-English)26(3): 15-20|1990|
12225|A||Klaunig,J.E., B.A. Barut, and P.J. Goldblatt|Preliminary Studies on the Usefulness of Medaka, Oryzias latipes, Embryos in Carcinogenicity Testing|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.65, NIH Publ.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:155-161|1984|
12226|A||Koenig,C.C., and M.P. Chasar|Usefulness of the Hermaphroditic Marine Fish, Rivulus marmoratus, in Carcinogenicity Testing|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.65, NIH Publ.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:15-33|1984|
12227|A||Kraus,M.L., and D.B. Kraus|Differences in the Effects of Mercury on Predator Avoidance in Two Populations of the Grass Shrimp Palaemonetes pugio|Mar. Environ. Res.18(4): 277-289|1986|10.1016/0141-1136(86)90027-9
12228|A||Kwasnik,J.F.S.|Effects of Cadmium on the Predator-Prey Behavior of Fathead Minnows (Pimephales promelas) and Largemouth Bass (Micropterus salmoides) in a Model|Ph.D.Thesis, Purdue University, West Lafayette, IN:65 p.|1977|
12229|A||Lin,T., B. Dong, Z. Liu, W. Dun, H. Sun, and A. Kong|Biological Effects of Formaldehyde-Polluted Water|Huanjing Kexue Xuebao (Non-English)6(1): 107-113|1986|
12230|A||Moody,R.P., P. Weinberger, and R. Greenhalgh|Algal Fluorometric Determination of the Potential Phytotoxicity of Environmental Pollutants|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1151:93-104|1983|
12231|A||Pal,A.K.|Acute Toxicity of DDVP to Fish, Plankton and Worm|Aquat. Sci. Fish. Abstr.1(1): 25-26|1983|
12232|A||Pandian,T.J., and R. Bhaskaran|Food Utilization in the Fish Channa striatus Exposed to Sublethal Concentrations of DDT and Methyl Parathion|Proc. Indian Acad. Sci. Anim. Sci.92(6): 475-481|1983|10.1007/BF03186219
12233|A||Pentreath,R.J.|The Accumulation of Inorganic Mercury from Sea Water by the Plaice, Pleuronectes platessa L.|J. Exp. Mar. Biol. Ecol.24(2): 103-119|1976|10.1016/0022-0981(76)90097-6
12235|A||Ram,R.N., and A.G. Sathyanesan|Mercuric Chloride, Cythion and Ammonium Sulfate Induced Changes in the Brain, Liver and Ovarian Alkaline Phosphatase Content in the Fish Channa punctatus|Aquat. Sci. Fish. Abstr.16(1, Pt.1): 212-|1985|
12236|A||Sanders,J.G., and P.S. Vermersch|Response of Marine Phytoplankton to Low Levels of Arsenate|J. Plankton Res.4(4): 881-893|1982|10.1093/plankt/4.4.881
12237|A||Sharma,M.P., and A.K. Dattagupta|Response of Some Freshwater Micrometazoans to DDT|Proc. Indian Acad. Sci. Anim. Sci.92(1): 19-29|1983|10.1007/BF03186166
12238|A||Short,J.W., and F.P. Thrower|Accumulation of Butyltins in Muscle Tissue of Chinook Salmon Reared in Sea Pens Treated with Tri-n-Butyltin|Mar. Pollut. Bull.17(12): 542-545|1986|10.1016/0025-326X(86)90566-7
12239|A||Simon,K., and K. Lapis|Carcinogenesis Studies on Guppies|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.65, NIH Publ.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:71-81|1984|
12240|A||Subbiah,G., K. Marimuthu, and S.M. Kamala|A Study on the Biological Magnification of Insecticide Endosulfan in the Tissues of a Freshwater Fish, Tilapia mossambica|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India:199-204|1985|
12241|A||Tanaka,A., H. Masago, K. Karino, and A. Ujie|Determination of Trace Agrochemicals in Water and Toxicity of Agrochemicals to Fish. 2. Toxicity of Decomposition Products from UV-Irradiated Organophosphorus Agents in Water|C. A. Sel. Environ. Pollut.18:4-|1984|
12242|A||Tort,L., M. Rosell, and R. Flos|Oxygen Consumption of Dogfish Rectal Gland After In Vitro and In Vivo Zinc Treatments|Mar. Pollut. Bull.15(7): 253-255|1984|10.1016/0025-326X(84)90364-3
12243|A||Vassiliou,G., R. Fytizas, and A. Ioannou|Toxic Effects on the Mosquito-Fish From Insecticide Air-Sprays Against Dacus Oleae|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)50(3A): 917-924|1985|
12244|A||White,S.L., and P.S. Rainbow|Accumulation of Cadmium by Palaemon elegans (Crustacea: Decapoda)|Mar. Ecol. Prog. Ser.32(1): 17-25|1986|10.3354/meps032017
12245|A||Warner,K., and O.C. Fenderson|Effects of DDT Spraying for Forest Insects on Maine Trout Streams|J. Wildl. Manag.26(1): 86-93|1962|10.2307/3798171
12246|A||Al-Sabti,K.|Comparative Micronucleated Erythrocyte Cell Induction in Three Cyprinids by Five Carcinogenic-Mutagenic Chemicals|Cytobios47(190): 147-154|1986|
12247|A||Baklien,A., R. Lange, and L.O. Reiersen|A Comparison Between the Physiological Effects in Fish Exposed to Lethal and Sublethal Concentrations of a Dispersant and Dispersed Oil|Mar. Environ. Res.19(1): 1-11|1986|10.1016/0141-1136(86)90036-X
12248|A||Boryslawskyj,M., A.C. Garrood, J.T. Pearson, and D. Woodhead|Rates of Accumulation of Dieldrin by a Freshwater Filter Feeder: Sphaerium corneum|Environ. Pollut.43(1): 3-13|1987|10.1016/0269-7491(87)90163-1
12250|A||Chattopadhyay,D.N., and S.K. Konar|Acute and Chronic Effects of Linear Alkyl Benzene Sulfonate on Fish, Plankton and Worm|Environ. Ecol.3(2): 258-262|1985|
12252|A||Coats,J.R.|A Stream Microcosm for Environmental Assessment of Pesticides|In: J.P.Giesy,Jr.(Ed.), Microcosms in Ecological Research, DOE Symp.Ser.52, Tech.Inf.Center, U.S.Dep.Energy, Washington, DC:715-723|1980|
12253|AT||Cole,L.K., and R.L. Metcalf|Environmental Destinies of Insecticides, Herbicides, and Fungicides in the Plants, Animals, Soil, Air, and Water of Homologous Microcosms|In: J.P.Giesy,Jr. (Ed.), Microcosms in Ecological Research, DOE Symposium Series 52, Technical Information Center, Washington, DC:971-1008|1980|
12254|A||Dave,G., B. Damgaard, M. Grande, J.E. Martelin, B. Rosander, and T. Viktor|Ring Test of an Embryo-Larval Toxicity Test with Zebrafish (Brachydanio rerio) Using Chromium and Zinc As Toxicants|Environ. Toxicol. Chem.6(1): 61-71|1987|
12255|A||De Nicola Giudici,M., L. Migliore, C. Gambardella, and J. Stawiecki|Toxicity of Mercury on Different Stages of the Biological Cycle of Asellus aquaticus (L.) and Proasellus coxalis Dollf (Crustacea, Isopoda)|Boll. Soc. Ital. Biol. Sper. (Non-English)62(3): 321-328|1986|
12256|A||Dubale,M.S., and P. Shah|Histopathology of the Kidney of the Fish, Channa punctatus Exposed to Cadmium|J. Anim. Morphol. Physiol.28(1/2): 166-171|1981|
12257|A||Duret,S., J. Bonaly, A. Bariaud, A. Vannereau, and J.C. Mestre|Cadmium-Induced Ultrastructural Changes in Euglena Cells|Environ. Res.39(1): 96-103|1986|10.1016/S0013-9351(86)80011-1
12258|A||Elnabarawy,M.T., A.N. Welter, and R.R. Robideau|Relative Sensitivity of Three Daphnid Species to Selected Organic and Inorganic Chemicals|Environ. Toxicol. Chem.5(4): 393-398|1986|10.1002/etc.5620050409
12259|A||Erickson,D.A., and W.H. Gingerich|Effect of Injected Rotenone on the Production and Composition of Urine From the Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(4-5): 263-274|1986|10.1016/0166-445X(86)90014-7
12260|A||Felder,J.D., W.J. Adams, and V.W. Saeger|Assessment of the Safety of Dioctyl Adipate in Freshwater Environments|Environ. Toxicol. Chem.5(8): 777-784|1986|10.1002/etc.5620050809
12261|A||Fisher,S.W., and T.W. Lohner|Studies on the Environmental Fate of Carbaryl as a Function of pH|Arch. Environ. Contam. Toxicol.15(6): 661-667|1986|10.1007/BF01054913
12262|A||George,S.G., B.J.S. Pirie, A. Calabrese, and D.A. Nelson|Biochemical and Ultrastructural Observations of Long-Term Silver Accumulation in the Mussel, Mytilus edulis|Mar. Environ. Res.18(4): 255-265|1986|10.1016/0141-1136(86)90025-5
12263|A||Glubokov,A.I., and S.A. Sokolova|Adaptation of Coho Salmon to Phenol and Copper in Early Stages of Ontogenesis|C. A. Sel. Environ. Pollut.14:3-|1986|
12264|A||Goldsborough,L.G., and G.G.C. Robinson|Changes in Periphytic Algal Community Structure as a Consequence of Short Herbicide Exposures|Hydrobiologia (Multiple Languages)139(2): 177-192|1986|10.1007/BF00028101
12265|A||Graney,R.L., and J.P.,Jr. Giesy|Effects of Long-Term Exposure to Pentachlorophenol on the Free Amino Acid Pool and Energy Reserves of the Freshwater Amphipod Gammarus pseudolimnaeus Bousfield (Crustacea, Amphipoda) Bousfield (Crustacea, Amphipoda)|Ecotoxicol. Environ. Saf.12(3): 233-251|1986|10.1016/0147-6513(86)90015-1
12266|A||Habig,C., R.T. Di Giulio, A.A. Nomeir, and M.B. Abou-Donia|Comparative Toxicity, Cholinergic Effects, and Tissue Levels of S,S,S,-Tri-n-Butyl Phosphorotrithioate (DEF) to Channel Catfish (Ictalurus punctatus|Aquat. Toxicol.9(4-5): 193-206|1986|10.1016/0166-445X(86)90008-1
12267|A||Hall,W.S., K.L. Dickson, F.Y. Saleh, J.H.,Jr. Rodgers, D. Wilcox, and A. Entazami|Effects of Suspended Solids on the Acute Toxicity of Zinc to Daphnia magna and Pimephales promelas|Water Resour. Bull.22(6): 913-920|1986|10.1111/j.1752-1688.1986.tb00763.x
12268|A||Helson,B.V., P.D. Kingsbury, and P. De Groot|The Use of Bioassays to Assess Aquatic Arthropod Mortality from Permethrin Drift Deposits|Aquat. Toxicol.9(4/5): 253-262|1986|10.1016/0166-445X(86)90013-5
12269|A||Hikasa,Y., K. Takase, T. Ogasawara, and S. Ogasawara|Anesthesia and Recovery with Tricaine Methanesulfonate, Eugenol and ThiopentalSodium in the Carp, Cyprinus carpio|Jpn. J. Vet. Sci.48(2): 341-351|1986|
12270|A||Hiraoka,Y.|A Re-Examination of the Toxicity Test for Water Pollutants|Hiroshima J. Med. Sci.34(3): 323-326|1985|
12271|A||Ikeda,Y., J. Koyama, and H. Ozaki|Heavy Metal Levels in Tissues of Fish Exposed to Cadmium|Nippon Suisan Gakkaishi (Multiple Languages)52(12): 2055-2059|1986|10.2331/suisan.52.2055
12272|A||Irmer,U., I. Wachholz, H. Schafer, and D.W. Lorch|Influence of Lead on Chlamydomonas reinhardii Danegard (Volvocales, Chlorophyta): Accumulation, Toxicity and Ultrastructural Changes|Environ. Exp. Bot.26(2): 97-105|1986|10.1016/0098-8472(86)90002-X
12273|A||Isensee,A.R., and N. Tayaputch|Distribution of Carbofuran in a Rice-Paddy-Fish Microecosystem|Bull. Environ. Contam. Toxicol.36(5): 763-769|1986|10.1007/BF01623581
12274|A||Jana,S., S.S. Sahana, M.A. Choudhuri, and D.K. Choudhuri|Heavy Metal Pollutant Induced Changes in Some Biochemical Parameters in the Freshwater Fish Clarias batrachus L.|Acta Physiol. Hung.68(1): 39-43|1986|
12275|A||Janalik,B., and E. Wohlgemuth|The Accumulation of Crimidin in Some Fish Organs|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(1): 27-36|1986|10.1002/aheh.19860140105
12276|A||Jawale,M.D.|Effect of DDT on Blood Sugar Level of the Freshwater Crab, Barytelphusa cunicularis|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India5:163-166|1985|
12277|A||Jeffree,R.A., and R.D. Simpson|An Experimental Study of the Uptake and Loss of RA-226 by the Tissue of the Tropical Freshwater Mussel Velesunio angasi (Sowerby) Under Varying|Hydrobiologia (Multiple Languages)139(1): 59-80|1986|10.1007/BF00770242
12278|A||Jeffrey,K.A., F.W.H. Beamish, S.C. Ferguson, R.J. Kolton, and P.D. MacMahon|Effects of the Lampricide, 3-Trifluoromethyl-4-Nitrophenol (TFM) on the Macroinvertebrates Within the Hyporheic Region of a Small Stream|Hydrobiologia (Multiple Languages)134(1): 43-51|1986|10.1007/BF00008698
12279|A||Joensen,J.E., and B. Korsgaard|Uptake, Time-Course Distribution and Elimination of Cadmium in Embryos and Tissues of the Pregnant Zoarces viviparus (L) After Intraovarian Loading|J. Fish Biol.28(1): 61-68|1986|10.1111/j.1095-8649.1986.tb05142.x
12280|AT||Johnson,B.T.|Potential Impact of Selected Agricultural Chemical Contaminants on a Northern Prairie Wetland:  A Microcosm Evaluation|Environ. Toxicol. Chem.5(5): 473-485|1986|10.1002/etc.5620050507
12281|A||Jones,T.W., W.M. Kemp, P.S. Estes, and J.C. Stevenson|Atrazine Uptake, Photosynthetic Inhibition, and Short-Term Recovery for the Submersed Vascular Plant, Potamogeton perfoliatus L.|Arch. Environ. Contam. Toxicol.15(3): 277-283|1986|10.1007/BF01061104
12282|A||Kaufman,L.H.|Stream Aufwuchs Accumulation: Disturbance Frequency and Stress Resistance and Resilience|Oceanologia (Wroc.)52:57-63|1982|
12283|AT||Kay,S.H., and W.T. Haller|Heavy Metal Bioaccumulation and Effects on Waterhyacinth Weevils, Neochetina eichhorniae, Feeding on Waterhyacinth, Eichhornia crassipes|Bull. Environ. Contam. Toxicol.37(2): 239-245|1986|10.1007/BF01607756
12284|A||Kimura,K.|Accumulation and Retention of Antimony-125 in the Short-Necked Clam|Nippon Suisan Gakkaishi (Multiple Languages)52(3): 531-537|1986|10.2331/suisan.52.531
12285|A||Kleeman,J.M., J.R. Olson, S.M. Chen, and R.E. Peterson|Metabolism and Disposition of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rainbow Trout|Toxicol. Appl. Pharmacol.83(3): 391-401|1986|10.1016/0041-008X(86)90221-8
12286|A||Kleeman,J.M., J.R. Olson, S.M. Chen, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Metabolism and Disposition in Yellow Perch|Toxicol. Appl. Pharmacol.83(3): 402-411|1986|10.1016/0041-008X(86)90222-X
12287|A||Knezovich,J.P., and D.G. Crosby|Comparative Metabolism of O-Toluidine by the Abalone (Haliotis rufescens) and Flatfish (Platichthys stellatus)|Environ. Toxicol. Chem.5(4): 387-392|1986|
12288|A||Kosalwat,P., and A.W. Knight|Acute Toxicity of Aqueous and Substrate-Bound Copper to the Midge, Chironomus decorus|Arch. Environ. Contam. Toxicol.16(3): 275-282|1987|10.1007/BF01054944
12289|A||Kosalwat,P., and A.W. Knight|Chronic Toxicity of Copper to a Partial Life Cycle of the Midge, Chironomus decorus|Arch. Environ. Contam. Toxicol.16(3): 283-290|1987|10.1007/BF01054945
12290|A||Krautter,G.R., R.W. Mast, H.C. Alexander, C.H. Wolf, M.A. Friedman, F.J. Koschier, and C.M. Thompson|Acute Aquatic Toxicity Tests with Acrylamide Monomer and Macroinvertebrates and Fish|Environ. Toxicol. Chem.5(4): 373-377|1986|10.1002/etc.5620050406
12291|A||Kumar,K., and B.A. Ansari|Malathion Toxicity: Effect on the Liver of the Fish Brachydanio rerio (Cyprinidae)|Ecotoxicol. Environ. Saf.12(3): 199-205|1986|10.1016/0147-6513(86)90011-4
12292|A||Lalande,M., and B. Pinel-Alloul|Acute Toxicity of Cadmium, Copper, Mercury and Zinc to Tropocyclops Prasinus mexicanus (Cyclopoida, Copepoda) from Three Quebec Lakes|Environ. Toxicol. Chem.5(1): 95-102|1986|10.1002/etc.5620050113
12293|A||Lauren,D.J., and D.G. McDonald|Influence of Water Hardness, pH, and Alkalinity on the Mechanisms of Copper Toxicity in Juvenile Rainbow Trout, Salmo gairdneri|Can. J. Fish. Aquat. Sci.43(9): 1480-1496|1986|
12294|A||Lawrence,V., R.E. Young, and A. Mansingh|The Effect of Sub-lethal Doses of Dieldrin on the Ventilatory and Cardiac Activity in Two Species of Shrimps|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 177-181|1986|10.1016/0742-8413(86)90070-8
12295|A||Lawrence,V., R.E. Young, and A. Mansingh|The Effect of Sub-lethal Doses of Dieldrin on Resting and Active Metabolism in Two Species of Shrimps|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 183-186|1986|10.1016/0742-8413(86)90071-X
12297|A||Levy,R., J.L. Putnam, and T.W.,Jr. Miller|Laboratory Evaluations of Formulations of Arosurf MSF and Bacillus sphaericus Against Larvae and Pupae of Culex quinquefasciatus|Am. Mosq. Control Assoc. J.2(2): 233-236|1986|
12298|A||Lohner,T.W., and W.J. Collins|Determination of Uptake Rate Constants for Six Organochlorines in Midge Larvae|Environ. Toxicol. Chem.6(2): 137-146|1987|10.1002/etc.5620060208
12299|A||Maki,A.W.|Evaluation of Toxicant Effects on Structure and Function of Model Stream Communities: Correlations with Natural Stream Effects|In: J.P.Giesy,Jr.(Ed.), Microcosms in Ecological Research, DOE Symp.Ser.52, Tech.Inf.Center, U.S.Dep.Energy, Washington, DC:583-609|1980|
12300|A||Martincic,D., H.W. Nurnberg, and M. Branica|Bioaccumulation of Metals by Bivalves from the Limski Kanal (North Adriatic Sea).  III.  Copper Distribution between Mytilus galloprovincialis (Lmk.) and Ambient Water|Sci. Total Environ.60:121-142|1987|10.1016/0048-9697(87)90412-8
12301|A||Lacroix,G.L., R.H. Peterson, C.S. Belfry, and D.J. Martin-Robichaud|Aluminum Dynamics on Gills of Atlantic Salmon Fry in the Presence of Citrate and Effects on Integrity of Gill Structures|Aquat. Toxicol.27(3-4): 373-402|1993|10.1016/0166-445X(93)90065-9
12302|A||Martinez,F., P. Mateo, I. Bonilla, and E. Fernandez-Valiente|Cellular Changes due to Boron Toxicity in the Blue-Green Alga Anacystis nidulans|Phyton (Horn) (Multiple Languages)46(2): 145-152|1986|
12303|A||Mayes,M.A., H.C. Alexander, D.L. Hopkins, and P.B. Latvaitis|Acute and Chronic Toxicity of Ammonia to Freshwater Fish: A Site-Specific Study|Environ. Toxicol. Chem.5(5): 437-442|1986|10.1002/etc.5620050503
12304|A||McKenney,C.L.,Jr.|Influence of the Organophosphate Insecticide Fenthion on Mysidopsis bahia Exposed During a Complete Life Cycle. I. Survival, Reproduction, and Age Specific Growth|Dis. Aquat. Org.1(2): 131-139|1986|
12305|A||McLeese,D.W., and S. Ray|Toxicity of CdCl2, CdEDTA, CuCl2, and CuEDTA to Marine Invertebrates|Bull. Environ. Contam. Toxicol.36(5): 749-755|1986|10.1007/BF01623579
12306|A||Meyer,W., G. Harisch, and A.N. Sagredos|Biochemical and Histochemical Aspects of Lead Exposure in Dragonfly Larvae (Odonata: Anisoptera)|Ecotoxicol. Environ. Saf.11(3): 308-319|1986|10.1016/0147-6513(86)90104-1
12307|A||Moye,W.C., and W.H. Luckmann|Fluctuations in Populations of Certain Aquatic Insects Following Application of Aldrin Granules to Sugar Creek, Iroquois County, Illinois|J. Econ. Entomol.57(3): 318-322|1964|10.1093/jee/57.3.318
12308|A||Naidu,K.R.P., D.C. Reddy, and B.P. Naidu|Changes in Certain Aspects of Carbohydrate Metabolism in Tissues of the Fresh Water Field Crab, Oziotelphusa senex senex (Fab.), During Endosulfan Stress|Indian J. Exp. Biol.24(12): 797-798|1986|
12309|A||Nakanishi,H., T. Tsuda, S. Fukui, and T. Hirayama|Correlative Studies on Changes in Lipid Composition of Gills and Uptake of Chemicals of Willow Shiner Fish (Gnathopogon caerulescens) by Exposure to Detergent|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 339-341|1987|10.1016/0742-8413(87)90090-9
12310|A||Nakanishi,H., T. Tsuda, S. Fukui, and T. Hirayama|Comparative Studies on Additive Effects of Sodium Dodecylbenzensulfonate and Sodium Stearate on Uptake of Chemicals by Willow Shiner (Gnathopogon caerulescens)|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 361-364|1987|10.1016/0742-8413(87)90095-8
12311|A||Nebeker,A.V., M.A. Cairns, S.T. Onjukka, and R.H. Titus|Effect of Age on Sensitivity of Daphnia magna to Cadmium, Copper and Cyanazine|Environ. Toxicol. Chem.5(6): 527-530|1986|10.1002/etc.5620050604
12312|A||Neubert,J.|On the Acute Toxicity of Trichlorfon Against Selected Aquatic Organisms. (Zur Akuten Toxizitat Von Trichlorfon Gegenuber Ausgewahlten Wasserorganismen)|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(6): 643-651|1986|10.1002/aheh.19860140608
12313|A||Sahana,S.S., S. Jana, M.A. Choudhuri, and D.K. Choudhuri|Hg [II]-Induced Changes in Some Biochemical Parameters in the Freshwater Fish Clarias batrachus|Physiol. Bohemoslov.35(1): 81-85|1986|
12314|A|OECDG|Tscheu-Schluter,M.|On the Toxicity of Simple and Complex Cyanides to Aquatic Organisms (Zur Toxizitat Einfacher und Komplexer Cyanide Gegenuber Wasserorganismen)|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(2): 169-179|1983|10.1002/aheh.19830110204
12315|A||Abraham,T.J., K.Y.M. Salih, and J. Chacko|Effects of Heavy Metals on the Filtration Rate of Bivalve Villorita cyprinoides (Hanley) var. cochinensis|Indian J. Mar. Sci.15(3): 195-196|1986|
12316|A||Akberali,H.B., E.R. Trueman, J.E. Black, and C. Hewitt|The Responses of the Estuarine Bivalve Mollusc Scrobicularia to the First Hydrolytic Product of the Insecticide Sevin|Estuar. Coast. Shelf Sci.15(4): 415-421|1982|10.1016/0272-7714(82)90051-8
12317|A||Azeez,P.A., and D.K. Banerjee|Effect of Copper and Cadmium on Carbon Assimilation and Uptake of Metals by Algae|Toxicol. Environ. Chem.12(1-2): 77-86|1986|10.1080/02772248609357151
12318|A||Baby,K.V., and N.R. Menon|Oxygen Uptake in the Brown Mussel, Perna indica (Kuriakose & Nair) Under Sublethal Stress of Hg, Cd & Zn|Indian J. Mar. Sci.15(2): 127-128|1986|
12319|A||Bowmer,K.H., K. Shaw, and J.A. Adeney|Management of Submerged Aquatic Macrophytes with Terbutryne: Availance, Phytotoxicity and Persistence|Weed Res. (Multiple Languages)25:449-459|1985|10.1111/j.1365-3180.1985.tb00668.x
12321|A||Chatterjee,S., and S. Bhattacharya|Inductive Changes in Hepatic Metallothionein Profile in the Climbing Perch, Anabas testudineus (Bloch) by Industrial Pollutants|Indian J. Exp. Biol.24(7): 455-457|1986|
12322|A||Cushing,C.E.,Jr., and J.R. Olive|Effects of Toxaphene and Rotenone upon the Macroscopic Bottom Fauna of Two Northern Colorado Reservoirs|Trans. Am. Fish. Soc.86:294-301|1957|10.1577/1548-8659(1956)86[294:EOTARU]2.0.CO;2
12323|A||Donard,O.F.X., F.T. Short, and J.H. Weber|Regulation of Tin and Methyltin Compounds by the Green Alga Enteromorpha under Simulated Estuarine Conditions|Can. J. Fish. Aquat. Sci.44(1): 140-145|1987|10.1139/f87-018
12324|A||Earnshaw,M.J., S. Wilson, H.B. Akberali, R.D. Butler, and K.R.M. Marriott|The Action of Heavy Metals on the Gametes of the Marine Mussel, Mytilus edulis(L.)-III. The Effect of Applied Copper and Zinc on Sperm Motility in|Mar. Environ. Res.20(4): 261-278|1986|10.1016/0141-1136(86)90052-8
12325|A||Fernandez-Leborans,G., M.T. Antonio-Garcia, and I. Corpas-Vazquez|The Effects of Lead on Some Protozoan Communities.  Ciliates of the Santillana Reservoir and Ciudad Universitaria (Madrid, Spain)|Acta Protozool.24(2): 85-109|1985|
12326|A||Frey,B.E., G.F. Riedel, A.E. Bass, and L.F. Small|Sensitivity of Estuarine Phytoplankton to Hexavalent Chromium|Estuar. Coast. Shelf Sci.17(2): 181-187|1983|10.1016/0272-7714(83)90062-8
12327|A||Gajbhiye,S.N., V.R. Nair, P.V. Narvekar, and B.N. Desai|Concentration and Toxicity of Some Metals in Zooplankton from Nearshore Waters of Bombay|Indian J. Mar. Sci.14(4): 181-183|1985|
12328|A||Getsinger,K.D., G.J. Davis, and M.M. Brinson|Changes in a Myriophyllum spicatum L. Community Following 2,4-D Treatment|J. Aquat. Plant Manag.20:4-8|1982|
12329|A||Graney,R.L., and J.P.,Jr. Giesy|The Effect of Short-Term Exposure to Pentachlorophenol and Osmotic Stress on the Free Amino Acid Pool of the Freshwater Amphipod Gammarus pseudolimnaeus Bousfield|Arch. Environ. Contam. Toxicol.16(2): 167-176|1987|10.1007/BF01055798
12330|A||Hilton,J.W., J.L. Atkinson, and S.J. Slinger|Effect of Propylene Glycol on Feed Digestibility and the Growth and Physiological Response of Rainbow Trout|Can. J. Anim. Sci.66(4): 1057-1063|1986|10.4141/cjas86-116
12331|A||Ho,K.T.Y., and S.P. Gloss|Distribution and Persistence of the Lampricide Bayer 73 Following a Control Application|Can. J. Fish. Aquat. Sci.43(1): 112-119|1987|10.1139/f87-014
12332|A||Holdway,D.A., E.J. Kempe, and D.G. Dixon|Acute Toxicity of Methoxychlor to Larval White Sucker (Catostomus commersoni) As Modified by Age, Food Availability, and Egg Preexposure|Can. J. Fish. Aquat. Sci.44(1): 227-232|1987|10.1139/f87-032
12333|A||Hunn,J.B., S.J. Hamilton, and D.R. Buckler|Toxicity of Sodium Selenite to Rainbow Trout Fry|Water Res.21(2): 233-238|1987|10.1016/0043-1354(87)90055-8
12334|A||John,J., E.T. Gjessing, M. Grande, and B. Salbu|Influence of Aquatic Humus and pH on the Uptake and Depuration of Cadmium by the Atlantic Salmon (Salmo salar L.)|Sci. Total Environ.62:253-265|1987|10.1016/0048-9697(87)90507-9
12335|A||Joshi,H.C., M.K. Mukhopadhyay, U. Bhaumik, and P.K. Pandit|Compatibility of Phosphamidon Application with Rearing of Carp Fry in Paddy Fields|Indian J. Anim. Sci.56(6): 708-710|1986|
12336|A||Katti,S.R., and A.G. Sathyanesan|Lead Nitrate Induced Changes in the Thyroid Physiology of the Catfish Clarias batrachus (L.)|Ecotoxicol. Environ. Saf.13(1): 1-6|1987|10.1016/0147-6513(87)90036-4
12337|A||Kessler,E.|Limits of Growth of Five Chlorella Species in the Presence of Toxic Heavy Metals|Arch. Hydrobiol.73(1): 123-128|1986|
12338|A||Kettle,W.D., F.,Jr. DeNoyelles, B.D. Heacock, and A.M. Kadoum|Diet and Reproductive Success of Bluegill Recovered From Experimental Ponds Treated with Atrazine|Bull. Environ. Contam. Toxicol.38(1): 47-52|1987|10.1007/BF01606556
12339|A||Khangarot,B.S., and P.K. Ray|Sensitivity of Toad Tadpoles, Bufo melanostictus (Schneider), to Heavy Metals|Bull. Environ. Contam. Toxicol.38(3): 523-527|1987|10.1007/BF01606623
12340|A||Knowles,C.O., M.J. McKee, and D.U. Palawski|Chronic Effects of Di-2-Ethylhexyl Phthalate on Biochemical Composition, Survival and Reproduction of Daphnia magna|Environ. Toxicol. Chem.6(3): 201-208|1987|
12341|A||Lal,B., and T.P. Singh|Impact of Pesticides on Lipid Metabolism in the Freshwater Catfish, Clarias batrachus, During the Vitellogenic Phase of Its Annual Reproductive Cycle|Ecotoxicol. Environ. Saf.13(1): 13-23|1987|10.1016/0147-6513(87)90038-8
12342|A||Lauren,D.J., and D.G. McDonald|Acclimation to Copper by Rainbow Trout, Salmo gairdneri: Physiology|Can. J. Fish. Aquat. Sci.44(1): 99-104|1987|10.1139/f87-012
12343|A||Lauren,D.J., and D.G. McDonald|Acclimation to Copper by Rainbow Trout, Salmo gairdneri: Biochemistry|Can. J. Fish. Aquat. Sci.44(1): 105-111|1987|10.1139/f87-013
12344|A||Lawrenz,R.W.|The Response of Invertebrates in Temporary Vernal Wetlands to Altosid SR-10 as Used in Mosquito Abatement Programs|J. Minn. Acad. Sci.50(3): 31-34|1984|
12345|A||Leland,H.V.|Drift Response of Aquatic Insects to Copper|Verh. Int. Ver. Theor. Angew. Limnol.22:2413-2419|1985|
12346|A||Manna,G.K., and A. Sadhukhan|Induction of Siamese Twins in the Fish, Oreochromis mossambicus After the Treatment of an Insecticide, Rogor 30E|Curr. Sci. (Bangalore)55(20): 1016-1018|1986|
12347|A||Marchal-Segault,D.|Effects of Lindane on the Thyroid of Xenopus laevis Daudin in Premetamorphic Stages (Effets du Lindane, Insecticide Organochlore, sur la Thyroide des Larves de Xenopus laevis Daudin en Premetamorphose)|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)176:839-848|1982|
12348|A||McCrohan,C.R., D. Girdlestone, and W. Winlow|Effects of Halothane on Feeding Motor Activity in the Snail Lymnaea stagnalis|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 55-62|1987|10.1016/0742-8413(87)90144-7
12349|A||Memmert,U.|Bioaccumulation of Zinc in Two Freshwater Organisms (Daphnia magna, Crustacea and Brachydanio rerio, Pisces)|Water Res.21(1): 99-106|1987|10.1016/0043-1354(87)90104-7
12350|A||Mohan,P.K., L.V. Reddy, C.R. Shankara, and K. Indira|Metabolic Consequences of Methyl Parathion Exposure in the Bivalve, Lamellidens marginalis (Lamarck)|Bull. Environ. Contam. Toxicol.38(3): 509-514|1987|10.1007/BF01606621
12351|A||Moorthy,K.S., B.K. Reddy, K.S. Swami, and C.S. Chetty|Glucose Metabolism in Hepatopancreas and Gill of Lamellidens marginalis During Methyl Parathion Toxicity|Pestic. Biochem. Physiol.24:40-44|1985|10.1016/0048-3575(85)90111-7
12352|A||Mustafa,S., and S.M. Zofair|Chemical Analysis of Internal Environmental Response of Carp Puntius stigma to DDT|Int. J. Environ. Anal. Chem.22(1-2): 155-159|1985|10.1080/03067318508076417
12353|A||Narbonne,J.F., P. Suteau, M. Daubeze, and C. Audy|Polycyclic Aromatic Hydrocarbon Metabolism in Mullets, Chelon labrosus, Treated by Polychlorinated Biphenyls|Bull. Environ. Contam. Toxicol.38(1): 53-57|1987|10.1007/BF01606557
12354|A||Obradovic,J.|Effects of Anaesthetics (Halothane and MS-222) on Crayfish, Astacus astacus|Aquaculture52:213-217|1986|10.1016/0044-8486(86)90146-8
12355|A||Omkar, V.B. Upadhyay, and G.S. Shukla|Impact of Phosphamidon on the Carbohydrate Metabolism of a Freshwater Prawn, Macrobrachium lamarrei|Environ. Res.41(2): 591-597|1986|10.1016/S0013-9351(86)80153-0
12356|A||Orban,L., and I. Tatrai|The Effect of Various Ambient Ammonia Concentrations on the Nitrogen Metabolism of Carp Fry (Cyprinus carpio L.)|Comp. Biochem. Physiol. A Comp. Physiol.86(3): 449-452|1987|10.1016/0300-9629(87)90523-8
12357|A||Owsley,J.A., and D.E. McCauley|Effect of Extended Sublethal Exposure to Sodium Selenite on Ceriodaphnia affinis|Bull. Environ. Contam. Toxicol.36(6): 876-880|1986|10.1007/BF01623598
12358|A||Pandey,A.K., and A. Shrivastava|Chronic Cadmium Chloride Toxicity for the Adrenal Homologues and Heterotopic Thyroid Follicles of the Freshwater Fish Puntius sophore|Folia Morphol. (Prague)33(3): 398-403|1985|
12359|A||Pant,J., H. Tewari, and T.S. Gill|Effects of Aldicarb on the Blood and Tissues of a Freshwater Fish|Bull. Environ. Contam. Toxicol.38(1): 36-41|1987|10.1007/BF01606554
12360|A||Parland,W.K., and P.C. Baumann|Pathology and Tumor Development Through Time in Guppies Dosed with Diethylnitrosamine (DEN)|J. Appl. Toxicol.5(4): 265-272|1985|10.1002/jat.2550050409
12361|A||Prevot,P., and M.O. Soyer-Gobillard|The Degradation of Parathion in Cultures of the Marine Dinoflagellate porocentrum micans E|Water Res.21(1): 19-23|1987|10.1016/0043-1354(87)90094-7
12362|A||Raffin,J.P.|Activation of Trout Gill AMP Deaminase by an Endogenous Proteinase - II. Modification of the Properties of the Enzyme During Starvation, Pollution and Salinity Changes|Comp. Biochem. Physiol. B Comp. Biochem.85(1): 163-171|1986|10.1016/0305-0491(86)90239-7
12363|A||Rath,P., A.K. Panigrahi, and B.N. Misra|Effect of Pesticides on the Photosynthetic Efficiency of a Blue-Green Alga, Westiellopsis prolifica, Janet|Microbios Lett.29:25-29|1985|
12364|A||Rochefort-Johnson,S.M., D.E. Willis, and R.F. Addison|Disposition of 1-[14C]Phenyl-1-(3,4-Dimethyl) Phenylethane, a Component of Some PCB Replacement Materials, Following Intravenous Administration to the Thorny Skate, Raja radiata|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 325-327|1986|10.1016/0742-8413(86)90130-1
12365|A||Vardia,H.K., P.S. Rao, and V.S. Durve|Effect of Copper, Cadmium and Zinc on Fish-Food Organisms, Daphnia lumholtzi and Cypris subglobosa|Proc. Indian Acad. Sci. Anim. Sci.97(2): 175-180|1988|10.1007/BF03179945
12366|A||Sanders,J.G.|Direct and Indirect Effects of Arsenic on the Survival and Fecundity of Estuarine Zooplankton|Can. J. Fish. Aquat. Sci.43(3): 694-699|1986|10.1139/f86-084
12367|A||Sarkar,A., and S. Jana|Heavy Metal Pollutant Tolerance of Azolla pinnata|Water Air Soil Pollut.27:15-18|1986|10.1007/BF00464765
12368|A||Saxena,S.C., and R.K. Kaushik|Laboratory Evaluation of Penfluron and Furyltriazine, the Insect Growth Regulators, Against Anopheles stephensi|Curr. Sci. (Bangalore)55(18): 902-905|1986|
12369|A||Schuurkes,J.A.A.R., C.J. Kok, and C. Den Hartog|Ammonium and Nitrate Uptake by Aquatic Plants from Poorly Buffered and Acidified Waters|Aquat. Bot.24:131-146|1986|10.1016/0304-3770(86)90093-8
12370|A||Scott,J.G., R.B. Mellon, O. Kirino, and G.P. Georghiou|Insecticidal Activity of Substituted Benzyl Dichlorovinylcyclopropanecarboxylates on Susceptible and KDR-Resistant Strains of the Southern House Mosquito, Culex quinquefasciatus|J. Pestic. Sci. (Multiple Languages)11(3): 475-477|1986|10.1584/jpestics.11.475
12371|A||Hart,L.J., S.A. Smith, B.J. Smith, J. Robertson, E.G. Besteman, and S.D. Holladay|Subacute Immunotoxic Effects of the Polycyclic Aromatic Hydrocarbon 7,12-Dimethylbenzanthracene (DMBA) on Spleen and Pronephros Leukocytic Cell Counts|Aquat. Toxicol.41(1/2): 17-29|1998|10.1016/S0166-445X(97)00075-1
12372|A||Shaner,S.W., and A.W. Knight|The Role of Alkalinity in the Mortality of Daphnia magna in Bioassays of Sediment-Bound Copper|Comp. Biochem. Physiol. C Comp. Pharmacol.82(2): 273-277|1985|10.1016/0742-8413(85)90162-8
12373|A||Shukla,J.P., and K. Pandey|Zinc Induced Changes in the Nucleic Acids and Protein Metabolism in the Fingerlings of a Freshwater Murrel, Channa punctatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(2): 195-197|1986|10.1002/aheh.19860140217
12374|A||Shukla,J.P., and K. Pandey|Effect of a Sublethal Concentration of Zinc Sulphate on the Growth Rate of Fingerlings of Channa punctatus (Bloch), a Freshwater Murrel|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(6): 677-680|1986|10.1002/aheh.19860140615
12375|A||Singh,D.K., and R.A. Agarwal|Toxicity of Pesticides to Fecundity, Hatchability and Survival of Young Snails of Lymnaea acuminata|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(2): 191-194|1986|10.1002/aheh.19860140216
12376|A||Singh,D.K., and R.A. Agarwal|Piperonyl Butoxide Synergism with Two Synthetic Pyrethroids Against Lymnaea acuminata|Chemosphere15(4): 493-498|1986|10.1016/0045-6535(86)90543-6
12377|A||Sinhaseni,P., and T. Tesprateep|Histopathological Effects of Paraquat and Gill Function of Puntius gonionotus, Bleeker|Bull. Environ. Contam. Toxicol.38(2): 308-312|1987|10.1007/BF01606679
12378|A||Skowronski,T.|Adsorption of Cadmium on Green Microalga Stichococcus bacillaris|Chemosphere15(1): 69-76|1986|10.1016/0045-6535(86)90580-1
12380|A||Starodub,M.E., P.T.S. Wong, and C.I. Mayfield|Short Term and Long Term Studies on Individual and Combined Toxicities of Copper, Zinc and Lead to Scenedesmus quadricauda|Sci. Total Environ.63:101-110|1987|10.1016/0048-9697(87)90039-8
12381|A||Sijm,D.T.H.M., G. Schaap, and A. Opperhuizen|The Effect of the Biotransformation Inhibitor Piperonylbutoxide on the Bioconcentration of 2,8-Dichlorodibenzo-p-Dioxin and Pentachlorobenzene in Goldfish|Aquat. Toxicol.27(3/4): 345-360|1993|10.1016/0166-445X(93)90063-7
12382|A||Tallandini,L., A. Cassini, N. Favero, and V. Albergoni|Regulation and Subcellular Distribution of Copper in the Freshwater Molluscs Anodonta cygnea (L.) Andunio elongatulus (Pf.)|Comp. Biochem. Physiol. C Comp. Pharmacol.84(1): 43-49|1986|10.1016/0742-8413(86)90162-3
12383|A||Thomas,D.G., A. Cryer, J.F.D.E. Solbe, and J. Kay|A Comparison of the Accumulation and Protein Binding of Environmental Cadmium in the Gills, Kidney and Liver of Rainbow Trout (Salmo|Comp. Biochem. Physiol. C Comp. Pharmacol.76(2): 241-246|1983|10.1016/0742-8413(83)90072-5
12385|A||Torreblanca,A., J. Diaz-Mayans, J. Del Ramo, and A. Nunez|Oxygen Uptake and Gill Morphological Alterations in Procambarus clarkii (Girard) after Sublethal Exposure to Lead|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 219-224|1987|10.1016/0742-8413(87)90167-8
12386|A||Torres,P., L. Tort, and R. Flos|Acute Toxicity of Copper to Mediterranean Dogfish|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 169-171|1987|10.1016/0742-8413(87)90161-7
12387|A|OECDG|Tscheu-Schluter,M., and W.D. Skibba|Comparative Water-Toxicological Results with Selected Groups of Aquatic Pollutants and Aquatic Organisms|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(6): 627-641|1986|10.1002/aheh.19860140607
12388|A||Vadhva,P., and M. Hasan|Organophosphate Dichlorvos Induced Dose-Related Differential Alterations in Lipid Levels and Lipid Peroxidation in Various Regions of the Fish|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(5): 413-424|1986|
12389|A||Varanka,I.|Effect of Mosquito Killer Insecticides on Freshwater Mussels|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 157-162|1987|10.1016/0742-8413(87)90159-9
12390|A||Viarengo,A., M.N. Moore, G. Mancinelli, A. Mazzucotelli, R.K. Pipe, and S.V. Farrar|Metallothioneins and Lysosomes in Metal Toxicity and Accumulation in Marine Mussels: The Effect of Cadmium in the Presence and Absence of Phenanthrene|Mar. Biol.94(2): 251-257|1987|10.1007/BF00392937
12391|A||Vighi,M., and D. Calamari|QSARs for Organotin Compounds on Daphnia magna|Chemosphere14(11/12): 1925-1932|1985|10.1016/0045-6535(85)90134-1
12392|A||Voogt,P.A., P.J. Den Besten, G.C.M. Kusters, and M.W.J. Messing|Effects of Cadmium and Zinc on Steroid Metabolism and Steroid Level in the Sea Star Asterias rubens L|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 83-89|1987|10.1016/0742-8413(87)90148-4
12393|A||Wagh,S.B., and K. Shareef|Toxicity of Suquin to Two Freshwater Cyprinid Fishes, Rasbora daniconius and Barbus ticto (Ham.)|In: R.C.Dalela and U.H. Mane (Eds.), Proceedings of the 5th National Symposium on Assessment of Environmental Pollution, Aurangabad, India5(5): 257-260|1985|
12394|AT||Wallace,J.B., D.S. Vogel, and T.F. Cuffney|Recovery of a Headwater Stream from an Insecticide-Induced Community Disturbance|J. North Am. Benthol. Soc.5(2): 115-126|1986|10.2307/1467866
12395|A||Williams,K.A., D.W.J. Green, D. Pascoe, and D.E. Gower|Effect of Cadmium on Oviposition and Egg Viability in Chironomus riparius (Diptera: Chironomidae)|Bull. Environ. Contam. Toxicol.38(1): 86-90|1987|10.1007/BF01606563
12396|A||Wise,M.L., C.L. Stiebel, and J.M. Grizzle|Acute Toxicity of Nitrofurazone to Channel Catfish, Ictalurus punctatus, and Goldfish, Carassius auratus|Bull. Environ. Contam. Toxicol.38(1): 42-46|1987|10.1007/BF01606555
12397|A||Yadav,A.K., and T.P. Singh|Pesticide-Induced Impairment of Thyroid Physiology in the Freshwater Catfish, Heteropneustes fossilis|Environ. Pollut.43(1): 29-38|1987|10.1016/0269-7491(87)90165-5
12398|A||Zinkl,J.G., P.J. Shea, R.J. Nakamoto, and J. Callman|Effects of Cholinesterases of Rainbow Trout Exposed to Acephate and Methamidophos|Bull. Environ. Contam. Toxicol.38(1): 22-28|1987|10.1007/BF01606552
12399|A||Zinkl,J.G., P.J. Shea, R.J. Nakamoto, and J. Callman|Brain Cholinesterase Activity of Rainbow Trout Poisoned by Carbaryl|Bull. Environ. Contam. Toxicol.38(1): 29-35|1987|10.1007/BF01606553
12400|A||Zischke,J.A., and J.W. Arthur|Effects of Elevated Ammonia Levels on the Fingernail Clam, Musculium transversum, in Outdoor Experimental Streams|Arch. Environ. Contam. Toxicol.16(2): 225-231|1987|10.1007/BF01055803
12401|A||Skidmore,J.F., and I.C. Firth|Acute Sensitivity of Selected Australian Freshwater Animals to Copper and Zinc|Tech.Pap.No.81, Aust.Water Resour.Council, Dep.Resour.Energy, Australian Gov.Publ.Serv., Canberra, Australia:129 p.|1983|
12402|AT||Agaev,R.A., V.B. Danilov, V.A. Khachaturov, B.K. Kasymov, and B.S. Tishabaev|Toxicity to Warm-Blooded Animals and Fish of New Defoliants from Sodium Chlorate and Magnesium Chlorate|C. A. Sel. Environ. Pollut.13:4-|1986|
12403|A||Anderson,L.W.J., N. Dechoretz, D. Bayer, and G.L. Darmstadt|Effect of Three Formulations on Uptake and Efficacy of Copper in Hydrilla verticillata|Weed Sci.35(2): 263-269|1987|10.1017/S0043174500079170
12404|A||Carney,C.E.|The Effects of Atrazine and Grass Carp on Freshwater Macrophyte Communities|M.A.Thesis, University of Kansas, Lawrence, KS:33 p.|1983|
12405|A||Devlin,E.W.|Developmental Studies on the Fathead Minnow (Pimephales promelas Raf.): I. The Prehatching Development of the Fathead Minnow.  II.  The Acute Effects of Toluene on Three Age Groups of Fathead Minnows.  III.  The Effect |Ph.D. Thesis, North Dakota State University, Fargo, ND:138 p.|1982|
12406|A||Ernst,W.R., and E.T. Garside|Lethal Effects of Vanadium to Two Life Stages of Brook Trout Salvelinus fontinalis (Mitchill)|Can. J. Zool.65(3): 628-634|1987|10.1139/z87-098
12407|A||Green,D.W.J., K.A. Williams, and D. Pascoe|Studies on the Acute Toxicity of Pollutants to Freshwater Macroinvertebrates. 4. Lindane (gamma-Hexachlorocyclohexane)|Arch. Hydrobiol.106(2): 263-273|1986|10.1127/archiv-hydrobiol/106/1986/263
12408|A||Harrison,P.J., W.P. Cochlan, J.C. Acreman, T.R. Parsons, P.A. Thompson, H.M. Dovey, and C. Xiaolin|The Effects of Crude Oil and Corexit 9527 on Marine Phytoplankton in an Experimental Enclosure|Mar. Environ. Res.18(2): 93-109|1986|10.1016/0141-1136(86)90002-4
12409|A||Hodson,P.V., J.W. Hilton, and S.J. Slinger|Accumulation of Waterborne Selenium by Rainbow Trout (Salmo gairdneri), Eggs, Fry and Juveniles|Fish Physiol. Biochem.1(4): 187-196|1986|10.1007/BF02311135
12410|A||Hoffmann,C.H., and A.T. Drooz|Effects of a C-47 Airplane Application of DDT on Fish-Food Organisms in Two Pennsylvania Watersheds|Am. Midl. Nat.50:172-188|1953|10.2307/2422162
12411|A||King,D.G., and I.M. Davies|Laboratory and Field Studies of the Accumulation of Inorganic Mercury by the Mussel Mytilus edulis (L.)|Mar. Pollut. Bull.18(1): 40-45|1987|10.1016/0025-326X(87)90657-6
12412|A||Klaverkamp,J.F., and D.A. Duncan|Acclimation to Cadmium Toxicity by White Suckers: Cadmium Binding Capacity and Metal Distribution in Gill and Liver Cytosol|Environ. Toxicol. Chem.6(4): 275-289|1987|10.1002/etc.5620060405
12413|A||Krishnaja,A.P., M.S. Rege, and A.G. Joshi|Toxic Effects of Certain Heavy Metals (Hg, Cd, Pb, As and Se) on the Intertidal Crab Scylla serrata|Mar. Environ. Res.21(2): 109-119|1987|10.1016/0141-1136(87)90045-6
12414|A||Michel,X.R., P. Suteau, L.W. Robertson, and J.F. Narbonne|Effects of Benzo(a)pyrene, 3,3'4,4'-Tetrachlorobiphenyl and 2,2',4,4',5,5'-Hexachlorobiphenyl on the Xenobiotic-Metabolizing Enzymes in the Mussel (Mytilus galloprovincialis)|Aquat. Toxicol.27(3-4): 335-344|1993|10.1016/0166-445X(93)90062-6
12415|A||Kusk,K.O.|Effects of Crude Oils and Aromatic Hydrocarbons on the Photosynthesis of Three Species of Acrosiphonia Grown in the Laboratory|Bot. Mar.23:587-593|1980|
12416|A||Lavie,B., and E. Nevo|The Interactive Effects of Cadmium and Mercury Pollution on Allozyme Polymorphisms in the Marine Gastropod Cerithium scabridum|Mar. Pollut. Bull.17(1): 21-23|1986|10.1016/0025-326X(86)90799-X
12417|A||Lim,R.P., and M.C. Wong|The Effect of Pesticides on the Population Dynamics and Production of Stenocypris Major Baird (Ostracoda) in Ricefields|Arch. Hydrobiol.106(3): 421-427|1986|10.1127/archiv-hydrobiol/106/1986/421
12418|A||Martincic,D., H.W. Nurnberg, and M. Branica|Bioaccumulation of Heavy Metals by Bivalves from Limski Kanal (North Adriatic Sea).  II.  Copper Distribution Between Oysters, Ostrea edulis, and Ambient Water|Mar. Chem.18(2-4): 299-319|1986|10.1016/0304-4203(86)90014-9
12419|A|OECDG|Megharaj,M., K. Venkateswarlu, and A.S. Rao|The Toxicity of Phenolic Compounds to Soil Algal Population and to Chlorella vulgaris and Nostoc linckia|Plant Soil96(2): 197-203|1986|10.1007/BF02374764
12420|A||Vincent,M., B. Penicaut, and J. Debord|Comparative Studies on the Toxicity of Metal Chlorides and of a Synthetic Organic Molluscicide, N-Trityl-Morpholine, upon Two Aquatic Amphipod Crustaceans, Gammarus pulex and Echinogammarus berilloni|Ann. Rech. Vet. (Non-English)17(4): 441-446|1986|
12421|A||Mishra,A., P.P. Dwivedi, and K.K. Dutta|Behaviour of Freshwater Air Breathing Teleost, Heteropneustes fossilis (BI.) Exposed to Different Concentrations of Malathion|J. Rec. Adv. Appl. Sci.1(1): 13-16|1986|
12422|A||Omkar, and R. Murti|Toxicity of Some Pesticides to the Freshwater Prawn, Macrobrachium dayanum (Henderson) (Decapoda, Caridea)|Crustaceana  (Leiden)49(1): 1-6|1985|
12423|A||Orvos,D.R., C.M.,Jr. Sellers, and N.E. Garrison|Effect of a Single Residual Chlorine Pulse upon Subsequent In Vitro Protein Synthesis by Rainbow Trout (Salmo gairdneri) Liver|Hydrobiologia (Multiple Languages)131(3): 249-255|1986|10.1007/BF00008860
12424|A||Palawski,D.U., and C.O. Knowles|Toxicological Studies of Benomyl and Carbendazim in Rainbow Trout, Channel Catfish and Bluegills|Environ. Toxicol. Chem.5(12): 1039-1046|1986|10.1002/etc.5620051203
12425|A||Pascoe,D., and N.A.M. Shazili|Episodic Pollution - a Comparison of Brief and Continuous Exposure of Rainbow Trout to Cadmium|Ecotoxicol. Environ. Saf.12(3): 189-198|1986|10.1016/0147-6513(86)90010-2
12426|A||Petersen,D.W., K.R. Cooper, M.A. Friedman, and J.J. Lech|Behavioral and Histological Effects of Acrylamide in Rainbow Trout|Toxicol. Appl. Pharmacol.87(1): 177-184|1987|10.1016/0041-008X(87)90095-0
12427|A||Presing,M., and J.E. Ponyi|Studies on the Acute and Chronic Effect of a 2,4-D-Containing Herbicide (Dikonirt) on Eudiaptomus gracilis (G.O. Sars) (Crustacea, Copepoda)|Arch. Hydrobiol.106(2): 275-286|1986|10.1127/archiv-hydrobiol/106/1986/275
12428|A||Ram,R.N., and A.G. Sathyanesan|Inclusion Bodies: Formation and Degeneration of the Oocytes in the Fish Channa punctatus (Bloch) in Response to Ammonium Sulfate Treatment|Ecotoxicol. Environ. Saf.11(3): 272-276|1986|10.1016/0147-6513(86)90101-6
12429|A||Reinert,K.H., and J.H.,Jr. Rogers|Validation Trial of Predictive Fate Models Using an Aquatic Herbicide (Endothall)|Environ. Toxicol. Chem.5(5): 449-461|1986|10.1002/etc.5620050505
12430|A||Renberg,L., M. Tarkpea, and G. Sundstrom|The Use of the Bivalve Mytilus edulis as a Test Organism for Bioconcentration Studies  I.  Designing a Continuous-flow System and Its Application to Some Organochlorine Compounds |Ecotoxicol. Environ. Saf.11(3): 361-372|1986|10.1016/0147-6513(86)90109-0
12431|A||Rice,C.P., and D.S. White|PCB Availability Assessment of River Dredging Using Caged Clams and Fish|Environ. Toxicol. Chem.6(4): 259-274|1987|10.1002/etc.5620060404
12432|A||Roderer,G.|On the Toxic Effects of Tetraethyl Lead and Its Derivatives on the Chrysophyte Poterioochromonas malhamensis.  VII.  Protective Action of Thiol Compounds, Vitamins, Trace Elements and Other Agents|Ecotoxicol. Environ. Saf.11(3): 277-294|1986|10.1016/0147-6513(86)90102-8
12435|A||Shubat,P.J., and L.R. Curtis|Ration and Toxicant Preexposure Influence Dieldrin Accumulation by Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.5(1): 69-77|1986|10.1002/etc.5620050110
12436|A||Smith,M.W.|Treatment of Potter's Lake, New Brunswick, with Rotenone|Trans. Am. Fish. Soc.70:347-355|1940|10.1577/1548-8659(1940)70[347:TOPLNB]2.0.CO;2
12437|A||Sridhar,M.K.C.|Trace Element Composition of Pistia stratiotes L. in a Polluted Lake in Nigeria|Hydrobiologia (Multiple Languages)131:273-276|1986|10.1007/BF00008863
12438|A|OECDG|Takimoto,Y., M. Ohshima, and J. Miyamoto|Comparative Metabolism of Fenitrothion in Aquatic Organisms. I. Metabolism in the Euryhaline Fish, Oryzias latipes and Mugil cephalus|Ecotoxicol. Environ. Saf.13(1): 104-117|1987|10.1016/0147-6513(87)90048-0
12439|A||Takimoto,Y., M. Ohshima, and J. Miyamoto|Comparative Metabolism of Fenitrothion in Aquatic Organisms. III. Metabolism in the Crustaceans, Daphnia pulex and Palaemon paucidens|Ecotoxicol. Environ. Saf.13:126-134|1987|10.1016/0147-6513(87)90050-9
12440|A||Bebianno,M.J., J.A. Nott, and W.J. Langston|Cadmium Metabolism in the Clam Ruditapes decussata: The Role of Metallothioneins|Aquat. Toxicol.27(3/4): 315-334|1993|10.1016/0166-445X(93)90061-5
12441|A||Ter Steeg,P.F., P.J. Hanson, and H.W. Paerl|Growth-Limiting Quantities and Accumulation of Molybdenum in Anabaena oscillarioides (Cyanobacteria)|Hydrobiologia (Multiple Languages)140:143-147|1986|10.1007/BF00007567
12442|A||Thomas,R.E., and S.D. Rice|The Effects of Salinity on Uptake and Metabolism of Toluene and Naphthalene by Dolly Varden, Salvelinus malma|Mar. Environ. Res.18(3): 203-214|1986|10.1016/0141-1136(86)90033-4
12443|A||Tsushimoto,G., F. Matsumura, and R. Sago|Fate of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in an Outdoor Pond and in Model Aquatic Ecosystems|Environ. Toxicol. Chem.1(1): 61-68|1982|
12444|A||Tucker,C.S.|Acute Toxicity of Potassium Permanganate to Channel Catfish Fingerlings|Aquaculture60(2): 93-98|1987|10.1016/0044-8486(87)90300-0
12445|A||Valkirs,A.O., B.M. Davidson, and P.F. Seligman|Sublethal Growth Effects and Mortality to Marine Bivalves From Long-Term Exposure to Tributyltin|Chemosphere16(1): 201-220|1987|10.1016/0045-6535(87)90124-X
12447|A|MED02|Geiger,D.L., C.E. Northcott, D.J. Call, and L.T. Brooke|Acute Toxicities of Organic Chemicals to Fathead Minnows (Pimephales promelas), Volume II|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:326 p.|1985|
12448|A|MED01|Brooke,L.T., D.J. Call, D.L. Geiger, and C.E. Northcott|Acute Toxicities of Organic Chemicals to Fathead Minnows (Pimephales promelas), Vol. 1|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:414 p.|1984|
12449|A||Wurtsbaugh,W.A.|Internal and External Controls on Plankton Abundance in a Large Eutrophic Lake: Clear Lake, California|Ph.D. Thesis, University of California, Davis:129 p. |1983|
12450|A||Colborn,T.E.|The Use of the Stonefly, Pteronarcys californica Newport, as a Measure of Biologically Available Cadmium in a High-Altitude River|Ph.D Thesis, University of Wisconsin, Madison, WI:127 p.|1985|
12451|A||Flickinger,A.L.|Chronic Toxicity of Mixtures of Copper, Cadmium and Zinc to Daphnia pulex|Ph.D.Thesis, Miami University, Oxford, OH:135 p.|1984|
12452|A||Hohreiter,D.W.|Adenylate Parameters as Indicators of Contaminant-Induced Stress in Fish|Ph.D.Thesis, University of Georgia, Athens, GA:150 p.|1985|
12454|A||Rohmann,S.O.|The Translocation and Bioaccumulation of Toxaphene in a Lotic Environment|Ph.D.Thesis, Tulane University, New Orleans, LA:167-|1983|
12455|A||Roscigno,P.F.|The Interaction of Carbon-14 Hexachlorobiphenyl (Carbon-14-PCB) with Phytoplankton Under Various Environmental Conditions|Ph.D.Thesis, Fordham University, Bronx, NY:133 p.|1984|
12456|A||Seidman,L.A.|Bioaccumulation and Toxicity of Cadmium in Aquatic Invertebrates|Ph.D.Thesis, University of Wisconsin, Milwaukee, WI:118-|1983|
12457|A||Sorsa,K.K.|Culture Studies on Arsenic (As III, As V, MMAA) Interaction with Three Freshwater Algae (Microcystis aeruginosa, Actinastrum hantzschii|Ph.D Thesis, University of Wisconsin, Madison, WI:367 p.|1983|
12458|A||Andaya,A.A., and E.U. Gotopeng|Cadmium Toxicity and Uptake in Tilapia nilotica|Kalikasan11(2/3): 309-318|1982|
12459|A||Arunachalam,S., S. Palanichamy, and M.P. Balasubramanian|Effect of Carbaryl on Esterases in the Air-Breathing Fish Channa punctatus (Bloch)|Proc. Indian Acad. Sci. Anim. Sci.94(1): 73-77|1985|10.1007/BF03186329
12460|A||Bano,Y., S.A. Ali, and T. Hameed|Effects of Sublethal Concentrations of DDT on Muscle Constituents of an Air Breathing Catfish, Clarias batrachus L|Proc. Indian Acad. Sci. Anim. Sci.90(1): 33-37|1981|10.1007/BF02867016
12461|A||Chen,J.C., and S.Y. Cheng|Hemolymph PCO2, Hemocyanin, Protein Levels and Urea Excretions of Penaeus monodon Exposed to Ambient Ammonia|Aquat. Toxicol.27(3-4): 281-292|1993|10.1016/0166-445X(93)90059-A
12462|A||Cleveland,L., E.E. Little, D.R. Buckler, and R.H. Wiedmeyer|Toxicity and Bioaccumulation of Waterborne and Dietary Selenium in Juvenile Bluegill (Lepomis macrochirus)|Aquat. Toxicol.27(3-4): 265-280|1993|10.1016/0166-445X(93)90058-9
12463|A||Bowser,P.R., W.W. Falls, H.D. Mercer, R.J. Hidalgo, and J. Cavin|A Long Term Mirex Feeding Study in Channel Catfish Ictalurus punctatus (Rafinesque)|Mo.Agric.for.Exp.Stn.Tech.Bull.128:1-7|1985|
12464|A||Chitra,S., and M.K.K. Pillai|Development of Organophosphorus and Carbamate-Resistance in Indian Strains of Anopheles stephensi Liston|Proc. Indian Acad. Sci. Anim. Sci.93(3): 159-170|1984|10.1007/BF03186277
12465|A||Cruz,E.R., and C.T. Tamse|Histopathological Response of Milkfish Chanos chanos Forsskal Fingerlings to Potassium Permanganate|Fish Pathol.21(3): 151-159|1986|10.3147/jsfp.21.151
12466|A||Dimond,J.B.|Pesticides and Stream Insects|Maine For.Serv.,Bull.No.23, Augusta, ME:21 p.|1967|
12467|A||Dubale,M.S., and M. Awasthi|Histochemical Changes in the Kidney of a Siluroid Fish Heteropneustes fossilis Exposed to Dimethoate (Rogor)|J. Anim. Morphol. Physiol.29(1-2): 228-231|1982|
12468|A||Eyanoer,H.F., E.S. Upatham, M. Duangsawasdi, and S. Tridech|Effects of Water Hardness and Temperature on the Toxicity of Detergents to theFreshwater Fish, Puntius-gonionotus, Bleeker|J. Sci. Soc. Thailand11(2): 67-77|1985|10.2306/scienceasia1513-1874.1985.11.067
12469|A||Fournie,J.W., W.E. Hawkins, R.M. Overstreet, and W.W. Walker|Exocrine Pancreatic Neoplasms Induced by Methylazoxymethanol Acetate in the Guppy Poecilia reticulata|J. Natl. Cancer Inst.78(4): 715-725|1987|
12470|A||Nikl,D.L., and A.P. Farrell|Reduced Swimming Performance and Gill Structural Changes in Juvenile Salmonids Exposed to 2-(Thiocyanomethylthio)Benzothiazole|Aquat. Toxicol.27(3-4): 245-264|1993|10.1016/0166-445X(93)90057-8
12471|A||Hawkins,W.E., J.W. Fournie, R.M. Overstreet, and W.W. Walker|Intraocular Neoplasms Induced by Methylazoxymethanol Acetate in Japanese Medaka (Oryzias latipes)|J. Natl. Cancer Inst.76(3): 453-465|1986|
12472|A||Hetrick,F.M., B.S. Roberson, and C.F. Tsai|Effect of Heavy Metals on the Susceptibility and Immune Response of Striped Bass to Bacterial Pathogens|NOAA-82112603, NOAA, Off.Mar.Pollut., Rockville, MD:26 p.|1982|
12473|A||Hickie,B.E., and D.G. Dixon|The Influence of Diet and Preexposure on the Tolerance of Sodium Pentachlorophenate by Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(6): 343-353|1987|10.1016/0166-445X(87)90033-6
12474|A||Davies,P.E., and L.S.J. Cook|Catastrophic Macroinvertebrate Drift and Sublethal Effects on Brown Trout, Salmo trutta, Caused by Cypermethrin Spraying on a Tasmanian Stream|Aquat. Toxicol.27(3-4): 201-224|1993|10.1016/0166-445X(93)90055-6
12475|A||Kobbia,I.A., and H.M. El Sharouny|Interactions Between Three Blue-Green Algae and Herbicide 2,4-D in Culture Media|J. Basic Microbiol.25(6): 381-385|1985|10.1002/jobm.3620250608
12476|A||Lakota,S., A. Raszka, J. Roszkowski, S. Hlond, F. Kozlowski, and J. Stefan|Investigation of the Toxicity of Propoxur, Chlorfenvinphos, Bromfenvinphos and Methylbromfenvinphos to the Fry of the Carp|Folia Biol. (Krakow)30(3-4): 149-156|1982|
12477|A||Lindblad,C., N. Kautsky, and U. Kautsky|An in Situ Method for Bioassay Studies of Functional Response of Littoral Communities to Pollutants|Ophelia4:159-165|1986|
12478|A||Mohan,C.V., T.R.C. Gupta, H.P.C. Shetty, and N.R. Menon|Combined Toxicity of Mercury and Cadmium to the Tropical Green Mussel Perna viridis|Dis. Aquat. Org.2(1): 65-72|1986|10.3354/dao002065
12479|A||Murty,A.S., and P.D. Hansen|Influence of the Carrier Solvent on Aquatic Toxicity Tests|In: K.Christiansen (Ed.), Chemicals in the Environment, Proc.Int.Symp., Lyngby, Denmark, 1982, Publ.West Germany:334-342|1983|
12480|A||Mustafa,S., and A. Murad|Survival, Behavioural Response and Haematological Profile of Catfish Heteropneustes fossilis Exposed to DDT|Jpn. J. Ichthyol.31(1): 55-65|1984|
12481|A||Nemcsok,J., and L. Boross|The Effect of Pesticides on the Proteolitic Enzyme Activity of Fishes|Acta Biol. Szeged.27(1-4): 3-7|1981|
12483|A||Ramalingam,K.|Effects of DDT and Malathion on Tissue Succinic Dehydrogenase Activity (SDH) and Lactic Dehydrogenase Isoenzymes (LDH) of Sarotherodon mossambicus (Peters)|Proc. Indian Acad. Sci. Anim. Sci.94(5): 527-531|1985|10.1007/BF03186363
12485|A||Richardson,G.M., and S.U. Qadri|Acute Toxicity, Kinetics and Metabolism of Aminocarb in the Brown Bullhead (Ictalurus nebulosus)|Water Pollut. Res. J. Can.17:153-158|1982|
12486|A||Segner,H., and V. Storch|Influence of Water-Borne Iron on the Liver of Poecilia reticulata (Peters 1859)|Z. Angew. Ichthyol.1(1): 39-47|1985|10.1111/j.1439-0426.1985.tb00410.x
12487|A||Miller,P.A., R.P. Lanno, M.E. McMaster, and D.G. Dixon|Relative Contributions of Dietary and Waterborne Copper to Tissue Copper Burdens and Waterborne-Copper Tolerance in Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.5(8): 1683-1689|1993|10.1139/f93-189
12488|A||Shukla,L., and A.K. Pandey|Histopathological Responses of Hypothalamic Nuclei and Their Recovery in DDT Stressed Fish, Sarotherodon mossambicus|Natl. Acad. Sci. Lett.7(10): 317-319|1984|
12489|A||Skowronski,T., M. Jakubowski, and B. Pawlik|Cadmium Toxicity in Green Alga Stichococcus bacillaris|Acta Microbiol. Pol.34(3-4): 309-312|1985|
12490|A||Srivastava,A.K., and J. Mishra|Lindane Induced Hematological Changes in the Catfish Heteropneustes fossilis|Natl. Acad. Sci. Lett.8(12): 391-393|1985|
12491|A||Stauber,J.L., and T.M. Florence|Interactions of Copper and Manganese:  A Mechanism by Which Manganese Alleviates Copper Toxicity to the Marine Diatom, Nitzschia closterium (Ehrenberg) W. Smith|Aquat. Toxicol.7(4): 241-254|1985|10.1016/0166-445X(85)90042-6
12492|A||Stephenson,M., and G.L. Mackie|Effects of 2,4-D Treatment on Natural Benthic Macroinvertebrate Communities in Replicate Artificial Ponds|Aquat. Toxicol.9(4/5): 243-251|1986|10.1016/0166-445X(86)90012-3
12493|A||Stevens,D.G.|Survival and Immune Response of Coho Salmon Exposed to Copper|EPA-600/3-77-031, U.S.EPA, Corvallis, OR:36 p.|1977|
12494|A||Takimoto,Y., M. Ohshima, and J. Miyamoto|Comparative Metabolism of Fenitrothion in Aquatic Organisms. II. Metabolism in the Freshwater Snails, Cipangopaludina japonica and Physa acuta|Ecotoxicol. Environ. Saf.13(1): 118-125|1987|10.1016/0147-6513(87)90049-2
12495|A||Tjeerdema,R.S., and D.G. Crosby|The Biotransformation of Molinate (Ordram) in the Striped Bass (Morone saxatilis)|Aquat. Toxicol.9(6): 305-317|1987|10.1016/0166-445X(87)90030-0
12496|A||Tripathi,A.K., and S.N. Pandey|Toxicity of Selenium to Chlorella vulgaris and Phormidium foveolarum|Natl. Acad. Sci. Lett.8(10): 307-309|1985|
12497|A||Tsuji,S., Y. Tonogai, Y. Ito, and S. Kanoh|The Influence of Rearing Temperatures on the Toxicity of Various Environmental Pollutants for Killifish (Oryzias latipes)|Eisei Kagaku (Multiple Languages)32(1): 46-53|1986|
12499|A||Varanka,I., and I. Benedeczky|Toxicological Effect of Fifanon, K-Otrin, and Unitox on Freshwater Organisms|C. A. Sel. Environ. Pollut.10:3-|1985|
12500|A||Verma,S.R., I.P. Tonk, and R. Chand|In Vivo Accumulation and Effects of Mercuric Chloride on Tissue Phosphatases of Notopterus notopterus|Clin. Physiol. Biochem.3(4): 199-203|1985|
12501|A||Virtanen,M.T.|Histopathological and Ultrastructural Changes in the Gills of Poecilia reticulatus Induced by an Organochlorine Pesticide|J. Environ. Pathol. Toxicol. Oncol.7(1/2): 73-85|1986|
12502|A||Walczak,B., B. Krzewinska, and Z. Zbytniewski|Influence of Alkilobenzene Sulfonate on Young Carp Cyprinus carpio L. Under Laboratory Conditions|Pol. Arch. Hydrobiol.30(4): 381-390|1983|
12503|A||Wang,W.|An Algal Assay Technique for Aquatic Toxicants|ISWS/RI-101-82, Ill.Dep.Energy Nat.Resour., Champaign, IL:30 p.|1982|
12504|A||Weis,P., J.D. Bogden, and E.C. Enslee|Hg-and Cu-Induced Hepatocellular Changes in the Mummichog, Fundulus heteroclitus|Environ. Health Perspect.65:167-173|1986|
12505|A||Wekell,J.C., K.D. Shearer, and E.J.,Jr. Gauglitz|Zinc Supplementation of Trout Diets: Tissue Indicators of Body Zinc Status|Prog. Fish-Cult.48:205-212|1986|10.1577/1548-8640(1986)48<205:ZSOTD>2.0.CO;2
12506|A||Williams,K.A., D.W.J. Green, and D. Pascoe|Studies on the Acute Toxicity of Pollutants to Freshwater Macroinvertebrates.  3.  Ammonia|Arch. Hydrobiol.106(1): 61-70|1986|10.1127/archiv-hydrobiol/106/1986/61
12507|A||Winkler,D.L., K.L. Duncan, J.E. Hose, and H.W. Puffer|Effects of Benzo(A)pyrene on the Early Development of California Grunion, Leuresthes tenuis (Pisces, Atherinidae)|Natl.Oceanic Atmos.Adm.U.S.Fish.Bull.81(3): 473-481|1983|
12508|A||Wohlgemuth,E.|Toxicity of Thiosemicarbazide to Some Aquatic Animals|C. A. Sel. Environ. Pollut.16:6-|1986|
12509|A||Yadav,A.K., and T.P. Singh|Pesticide-Induced Changes in Peripheral Thyroid Hormone Levels During Different Reproductive Phases in Heteropneustes fossilis|Ecotoxicol. Environ. Saf.13(1): 97-103|1987|10.1016/0147-6513(87)90047-9
12510|A||Yamawaki,K., W. Hashimoto, K. Fujii, J. Koyama, Y. Ikeda, and H. Ozaki|Hemochemical Changes in Carp Exposed to Low Cadmium Concentrations|Nippon Suisan Gakkaishi (Multiple Languages)52(3): 459-466|1986|10.2331/suisan.52.459
12511|A||Yasmeen,N., and Nayeemunnisa |Brain Lactate Dehydrogenase As a Function of Methyl Parathion Exposure in the Developing Tadpoles of Frog, Rana cyanophlictis|Curr. Sci. (Bangalore)55(6): 292-294|1986|
12512|A||Yoshida,T., T. Maruyama, H.I. Kojima, I. Allahpichay, and S. Mori|Evaluation of the Effect of Chemicals on Aquatic Ecosystem by Observing the Photosynthetic Activity of a Macrophyte, Porphyra yezoensis|Aquat. Toxicol.9(4/5): 207-214|1986|10.1016/0166-445X(86)90009-3
12513|A||Yoshioka,Y., Y. Ose, and T. Sato|Correlation of the Five Test Methods to Assess Chemical Toxicity and Relation to Physical Properties|Ecotoxicol. Environ. Saf.12(1): 15-21|1986|10.1016/0147-6513(86)90003-5
12514|A||Zitko,V., L.E. Burridge, M. Woodside, and V. Jerome|Mortalities of Juvenile Atlantic Salmon Caused by the Fungicide OBPA|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):28 p.|1985|
12516|A||Ali,A., and J.K. Nayar|Laboratory Toxicity of a New Benzoylphenylurea Insect Growth Regulator (UC-84572) Against Mosquitoes and Chironomid Midges|Am. Mosq. Control Assoc. J.3(2): 309-311|1987|
12517|A||Andreu-Moliner,E.S., M.M. Almar, I. Legarra, and A. Nunez|Toxicity of Some Ricefield Pesticides to the Crayfish p. clarkii, Under Laboratory and Field Conditions in Lake Albufera (Spain)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(6): 529-537|1986|
12519|A||Biro,P., and G.M. Hughes|Recovery of Cardiac and Ventilatory Frequencies After Sub-Acute Pesticide (Abol-X) Treatment in Rainbow Trout, Salmo gairdneri Richardson|Acta Biol. Hung.36(3/4): 269-279|1985|
12520|A||Borovsky,D., J.R. Linley, and J. Kagan|Polycyclic Aromatic Compounds as Phototoxic Mosquito Larvicides|Am. Mosq. Control Assoc. J.3(2): 246-250|1987|
12521|A||Yasuno,M., and K. Satake|Effects of Diflubenzuron and Methoprene on the Emergence of Insects and Their Density in an Outdoor Experimental Stream|Chemosphere21(10-11): 1321-1335|1990|10.1016/0045-6535(90)90148-M
12522|A||Singh,D.K., and R.A. Agarwal|Effect of the Synthetic Pyrethroid Permethrin on the Snail Lymnaea acuminata|Sci. Total Environ.67:263-267|1987|10.1016/0048-9697(87)90217-8
12523|A||Chandy,J.P., and B. Patel|Do Selenium and Glutathione (GSH) Detoxify Mercury in Marine Invertebrates? Effects on Lysosomal Response in the Tropical Blood Clam Anadara granosa|Dis. Aquat. Org.1(1): 39-47|1985|10.3354/dao001039
12524|A||Crance,J.H.|The Effects of Copper Sulfate on Microcystis and Zooplankton in Ponds|Prog. Fish-Cult.25:198-202|1963|10.1577/1548-8659(1963)25[198:TEOCSO]2.0.CO;2
12525|A||Crespo,S., and R. Sala|Ultrastructural Alterations of the Dogfish (Scyliorhinus canicula) Gill Filament Related to Experimental Aquatic Zinc Pollution|Dis. Aquat. Org.1(2): 99-104|1986|
12526|A||Fortin,C., A. Maire, and R. Leclair|The Residual Effect of Temephos (Abate 4-E) on Nontarget Communities|Am. Mosq. Control Assoc. J.3(2): 282-288|1987|
12527|A||Franklin,R.B., M.J. Vodicnik, C.R. Elcombe, and J.J. Lech|Alterations in Hepatic Mixed-Function Oxidase Activity of Rainbow Trout After Acute Treatment with Polybrominated Biphenyl Isomers and Firemaster BP-6|J. Toxicol. Environ. Health7:817-827|1981|10.1080/15287398109530023
12528|A||Ghosh,T.K.|Effect of Dimethoate on Tissue Glycogen Content of Some Freshwater Fishes|Aquat. Sci. Fish. Abstr.17(4, Pt.1): 179-|1987|
12529|A||Hemingway,J., C.A. Malcolm, K.E. Kissoon, R.G. Boddington, C.F. Curtis, and N. Hill|The Biochemistry of Insecticide Resistance in Anopheles sacharovi: Comparative Studies with a Range of Insecticide Susceptible and Resistant Anopheles and Culex Species|Pestic. Biochem. Physiol.24(1): 68-76|1985|10.1016/0048-3575(85)90115-4
12530|A||Herzberg,A.M.|Accumulation and Toxicity of Endosulfan in the Common Carp (Cyprinus carpio) and Saint Peter's Fish (Oreochromis aureus)|Bamidgeh38(4): 99-107|1986|
12531|A||Heumann,H.G.|Effects of Heavy Metals on Growth and Ultrastructure of Chara vulgaris|Protoplasma (Multiple Languages)136(1): 37-48|1987|10.1007/BF01276316
12533|A||Jayaweera,R., R. Petersen, and P. Smejtek|Induced Hydrogen Ion Transport in Lipid Membranes as Origin of Toxic Effect of Pentachlorophenol in an Alga|Pestic. Biochem. Physiol.18(2): 197-204|1982|10.1016/0048-3575(82)90106-7
12534|A||Kanazawa,J.|Bioconcentration Potential of Pesticides by Aquatic Organisms|Jpn. Pestic. Inf.39:12-16|1981|
12535|A||Low,K.S., C.K. Lee, and S.H. Tan|Selected Aquatic Vascular Plants as Biological Indicators for Heavy Metal Pollution|Pertanika7(1): 33-47|1984|
12536|A||Konar,S.K., and T.K. Ghosh|Effects of Furadan on Fish, Plankton, Worm and Water Quality|IAWPC (Indian Assoc. Water Pollut. Control) Tech. Annu.9:128-139|1982|
12537|A||Mane,U.H., and D.V. Muley|Seasonal Variations in the Toxicity of Cythion-Malathion to Two Freshwater Bivalve Molluscs|Comp. Physiol. Ecol.12(1): 25-31|1987|
12538|A||Mani,V.G.T., and S.K. Konar|Chronic Effects of Malathion on Feeding Behavior, Survival, Growth and Reproduction of Fish|Aquat. Sci. Fish. Abstr.16(8, Pt. 1): 179-|1986|
12540|A||Mani,V.G.T., and S.K. Konar|Chronic Effects of the Insecticide Coroban on Behavior, Survival, Growth and Reproduction of Fish|Aquat. Sci. Fish. Abstr.17(5, Pt. 1): 182-|1987|
12541|A||Merkowsky,A.T., U.T. Hammer, and P.M. Huang|Influence of Chloride on the Availability of Mercury for Bioaccumulation|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1462:35-57|1986|
12542|A||Munda,I.M., and V. Hudnik|Growth Response of Fucus vesiculosus to Heavy Metals, Singly and in Dual Combinations, as Related to Accumulation|Bot. Mar.29(5): 401-412|1986|10.1515/botm.1986.29.5.401
12543|A||Muthukrishnan,J., S. Viswaranjan, and R. Subbulakshmi|Effect of Sublethal Concentrations of Mercuric Chloride on Transformation of Food by the Fish Cyprinus carpio|Aquat. Sci. Fish. Abstr.17(5, Pt.1): 183-|1986|
12544|A||Natarajan,G.M.|Induction of Branchial Enzymes in Snake Head (Channa striatus) by Oxydemeton-Methyl|Pestic. Biochem. Physiol.23(1): 41-46|1985|10.1016/0048-3575(85)90076-8
12545|A||Pal,A.K., and S.K. Konar|Chronic Effects of the Organophosphorus Insecticide DDVP on Feeding, Survival, Growth, and Reproduction of Fish|Aquat. Sci. Fish. Abstr.16(8, Pt. 1): 180-|1986|
12546|A||Pal,A.K., and S.K. Konar|Toxicity of Insecticides Phosphamidon, Methyl Parathion and Mixture of DDVP, Phosphamidon, Methyl Parathion to Fish, Plankton and Worm|Aquat. Sci. Fish. Abstr.16(5, Pt.1): 146-|1986|
12547|A||Poirier,D.G., and G.A. Surgeoner|Evaluation of the Toxicity of Spruce Budworm Insecticides to Aquatic Invertebrates|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1462:99-120|1986|
12548|A||Prevot,P., and M.O. Soyer-Gobillard|Combined Action of Cadmium and Selenium on Two Marine Dinoflagellates in Culture, Prorocentrum micans Ehrbg. and Crypthecodinium cohnii Biecheler|J.Protozool.33(1): 42-47|1986|10.1111/j.1550-7408.1986.tb05553.x
12549|A||Radhiah,V., M. Girija, G.R. Kumari, and K.J. Rao|Effects of Heptachlor on Hydration Levels and Histosomatic Indices in Kidney of the Fish Tilapia mossambica|Aquat. Sci. Fish. Abstr.16(10, Pt.1): 157-|1986|
12550|A||Rao,K.R.S.S., K.S.P. Rao, and K.V.R. Rao|Impact of Technical and Commercial Grade Phenthoate on Some Selected Parameters of Oxidative Metabolism in the Fish Channa punctatus (Bloch)|Indian J. Ecol.11(1): 6-11|1984|
12551|A||Singh,S., and T.P. Singh|Impact of Malathion and Hexachlorocyclohexane on Plasma Profiles of Three Sex Hormones During Different Phases of the Reproductive Cycle in Clarias batrachus|Pestic. Biochem. Physiol.27(3): 301-308|1987|10.1016/0048-3575(87)90059-9
12553|A||Verma,S.R., and R. Chand|Toxicity Effects of HgCl2 on a Few Enzymes of Carbohydrate Metabolism of Notopterus notopterus|Indian J. Environ. Health28(1): 1-7|1986|
12554|A||Almendras,J.M.E.|Acute Nitrite Toxicity and Methemoglobinemia in Juvenile Milkfish (Chanos chanos Forsskal)|Aquaculture61(1): 33-40|1987|10.1016/0044-8486(87)90335-8
12555|A||Ansari,B.A., M. Aslam, and K. Kumar|Diazinon Toxicity: Activities of Acetylcholinesterase and Phosphatases in the Nervous Tissue of Zebra Fish, Brachydanio rerio (Cyprinidae)|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(3): 301-306|1987|10.1002/aheh.19870150309
12556|A||Ansari,I.A.|Acute Toxicity of Sodium Nitrite on Channa punctatus (Bloch) and Mystus (mystus) vittatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(2): 175-178|1987|10.1002/aheh.19870150212
12557|A||Ansari,I.A.|Effects of Copper Sulphate on the Free Amino Acids of Channa punctatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(4): 433-435|1987|10.1002/aheh.19870150416
12558|A||Azeez,P.A., and D.K. Banerjee|Influence of Light on Chlorophyll, a Content of Blue-Green Algae Treated with Heavy Metals|Bull. Environ. Contam. Toxicol.38(6): 1062-1069|1987|10.1007/BF01609096
12559|A||Beusen,J.M., and B. Neven|Toxicity of Vanadium to Different Freshwater Organisms|Bull. Environ. Contam. Toxicol.39(2): 194-201|1987|10.1007/BF01689406
12560|A||Bower,S.M., and A.B. Thompson|Hatching of the Pacific Salmon Leech (Piscicola salmositica) from Cocoons Exposed to Various Treatments|Aquaculture66(1): 1-8|1987|10.1016/0044-8486(87)90278-X
12561|A||Bradbury,S.P., D.M. Symonik, J.R. Coats, and G.J. Atchison|Toxicity of Fenvalerate and its Constituent Isomers to the Fathead Minnow, Pimephales promelas, and Bluegill, Lepomis macrochirus|Bull. Environ. Contam. Toxicol.38(5): 727-735|1987|10.1007/BF01616693
12562|A||Charpentier,S., J. Garnier, and R. Flaugnatti|Toxicity and Bioaccumulation of Cadmium in Experimental Cultures of Duckweed, Lemna polyrrhiza L|Bull. Environ. Contam. Toxicol.38(6): 1055-1061|1987|10.1007/BF01609095
12563|A||Day,K., and N.K. Kaushik|The Adsorption of Fenvalerate to Laboratory Glassware and the Alga Chlamydomonas reinhardii, and Its Effect on Uptake of the Pesticide by Daphnia galeata mendotae|Aquat. Toxicol.10(2/3): 131-142|1987|10.1016/0166-445X(87)90019-1
12564|A||Day,K., and N.K. Kaushik|Short-Term Exposure of Zooplankton to the Synthetic Pyrethroid, Fenvalerate, and Its Effect on Rates of Filtration and Assimilation of the Alga|Arch. Environ. Contam. Toxicol.16(4): 423-432|1987|10.1007/BF01055263
12565|A||Del Ramo,J., J. Diaz-Mayans, A. Torreblanca, and A. Nunez|Effects of Temperature on the Acute Toxicity of Heavy Metals (Cr, Cd, and Hg) to the Freshwater Crayfish, Procambarus clarkii (Girard)|Bull. Environ. Contam. Toxicol.38(5): 736-741|1987|10.1007/BF01616694
12566|A||Ruparelia,S.G., Y. Verma, N.S. Mehta, S.R. Saiyed, and S.K. Kashyap|Study on Hematological Parameters in Fresh Water Fish Sarotherodon mossambica (Peters) Exposed to Cadmium|J. Rec. Adv. Appl. Sci.1(2): 135-138|1987|
12567|A|OECDG|Dill,D.C., P.G. Murphy, and M.A. Mayes|Toxicity of Methylene Chloride to Life Stages of the Fathead Minnow, Pimephales promelas Rafinesque|Bull. Environ. Contam. Toxicol.39(5): 869-876|1987|10.1007/BF01855868
12568|A|OECDG|Ferrando,M.D., E. Andreu-Moliner, M.M. Almar, C. Cebrian, and A. Nunez|Acute Toxicity of Organochlorined Pesticides to the European Eel, Anguilla anguilla: The Dependency on Exposure Time and Temperature|Bull. Environ. Contam. Toxicol.39(3): 365-369|1987|10.1007/BF01688297
12569|A||Fisher,S.W., and T.W. Lohner|Changes in the Aqueous Behavior of Parathion Under Varying Conditions of pH|Arch. Environ. Contam. Toxicol.16(1): 79-84|1987|10.1007/BF01055362
12570|A||Patra,A.K.|Toxic Effect of Mercury Chloride on a Fresh-Water Protozoan, Euglena spirogyra Cherenberg|Natl. Acad. Sci. Lett.9(11): 365-366|1986|
12571|A||Johansen,P.H., R.A. Mathers, and J.A. Brown|Effect of Exposure to Several Pentachlorophenol Concentrations on Growth of Young-of-Year Largemouth Bass, Micropterus salmoides, with Comparisons to Other Indicators of Toxicity|Bull. Environ. Contam. Toxicol.39(3): 379-384|1987|10.1007/BF01688299
12572|A||Johnston,P.A.|Acute Toxicity of Inorganic Selenium to Daphnia magna (Straus) and the Effect of Sub-Acute Exposure upon Growth and Reproduction|Aquat. Toxicol.10(5/6): 335-352|1987|10.1016/0166-445X(87)90007-5
12573|A||Khan,A.T., and J.S. Weis|Effects of Methylmercury on Sperm and Egg Viability of Two Populations of Killifish (Fundulus heteroclitus)|Arch. Environ. Contam. Toxicol.16(4): 499-505|1987|10.1007/BF01055273
12574|A||Khangarot,B.S., and P.K. Ray|Zinc Sensitivity of a Freshwater Snail, Lymnaea luteola L., in Relation to Seasonal Variations in Temperature|Bull. Environ. Contam. Toxicol.39(1): 45-49|1987|10.1007/BF01691787
12575|A||Khangarot,B.S., P.K. Ray, and H. Chandra|Daphnia magna as a Model to Assess Heavy Metal Toxicity:  Comparative Assessment with Mouse System|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(4): 427-432|1987|10.1002/aheh.19870150415
12576|A||Kreutzweiser,D.P., and P.D. Kingsbury|Permethrin Treatments in Canadian Forests.  Part 2:  Impact on Stream Invertebrates|Pestic. Sci.19(1): 49-60|1987|10.1002/ps.2780190107
12577|A||Kumar,N., and K. Nath|Toxicity of Nickel to a Fresh Water Teleost, Colisa fasciatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(3): 313-315|1987|10.1002/aheh.19870150312
12578|A||Lande,S.S., M.T. Elnabarawy, E.A. Reiner, A.N. Welter, and R.R. Robideau|Laboratory Assessment of Environmental Impact of Phthalazine|Bull. Environ. Contam. Toxicol.38(2): 332-336|1987|10.1007/BF01606683
12579|A||Lanno,R.P., B. Hicks, and J.W. Hilton|Histological Observations on Intrahepatocytic Copper-Containing Granules in Rainbow Trout Reared on Diets Containing Elevated Levels of Copper|Aquat. Toxicol.10(5-6): 251-263|1987|10.1016/0166-445X(87)90001-4
12580|A||Mayasich,J.M., E.P. Karlander, and D.E.,Jr. Terlizzi|Growth Responses of Nannochloris oculata Droop and Phaeodactylum tricornutum Bohlin to the Herbicide Atrazine as Influenced by Light Intensity and Temperature in Unialgal and Bialgal Assemblage|Aquat. Toxicol.10(4): 187-197|1987|10.1016/0166-445X(87)90011-7
12581|A||Meisner,J.D., and W.Q. Hum|Acute Toxicity of Zinc to Juvenile and Subadult Rainbow Trout, Salmo gairdneri|Bull. Environ. Contam. Toxicol.39(5): 898-902|1987|10.1007/BF01855872
12582|A||Millie,D.F., and C.M. Hersh|Statistical Characterizations of the Atrazine-Induced Photosynthetic Inhibition of Cyclotella meneghiniana (Bacillariophyta)|Aquat. Toxicol.10(4): 239-249|1987|10.1016/0166-445X(87)90015-4
12583|A||Miyauchi,M., and T. Uematsu|Effect of Biphenyl Ether Herbicides on the Formation of Mutagenic Intermediates From Procarcinogens by Rainbow Trout|Bull. Environ. Contam. Toxicol.39(2): 175-181|1987|10.1007/BF01689403
12584|A||Nemcsok,J., L. Orban, B. Asztalos, and E. Vig|Accumulation of Pesticides in the Organs of Carp, Cyprinus carpio L., at 4 Degrees and 20 Degrees C|Bull. Environ. Contam. Toxicol.39(3): 370-378|1987|10.1007/BF01688298
12585|A||Oikari,A.O.J.|Acute Lethal Toxicity of Some Reference Chemicals to Freshwater Fishes of Scandinavia|Bull. Environ. Contam. Toxicol.39(1): 23-28|1987|10.1007/BF01691784
12586|A||Reddy,N.M., and P.V. Rao|Copper Toxicity to the Fresh Water Snail, Lymnaea luteola|Bull. Environ. Contam. Toxicol.39(1): 50-55|1987|10.1007/BF01691788
12587|A||Rice,C.D., and R.R. Mills|Effects of Kepone Tolerance on Liver Alkaline Phosphomonoesterase and Glutamic-Oxaloacetic Amino Transferase from Fundulus heteroclitus|Bull. Environ. Contam. Toxicol.39(4): 655-662|1987|10.1007/BF01698459
12588|A||Roderer,G.|Toxic Effects of Tetraethyl Lead and its Derivatives on the Chrysophyte Poterioochromonas malhamensis. VIII. Comparative Studies with Surfactants|Arch. Environ. Contam. Toxicol.16(3): 291-301|1987|10.1007/BF01054946
12589|A||Ruby,S.M., D.R. Idler, and Y.P. So|Changes in Plasma, Liver, and Ovary Vitellogenin in Landlocked Atlantic Salmon Following Exposure to Sublethal Cyanide|Arch. Environ. Contam. Toxicol.16(4): 507-510|1987|10.1007/BF01055274
12590|A||Schnitz,A.R., K.S. Squibb, and J.M. O'Connor|Fate of 7,12-Dimethylbenz(a)anthracene in Rainbow Trout, Salmo gairdneri|Bull. Environ. Contam. Toxicol.39(1): 29-36|1987|10.1007/BF01691785
12591|A||Servizi,J.A., R.W. Gordon, and D.W. Martens|Acute Toxicity of Garlon 4 and Roundup Herbicides to Salmon, Daphnia, and Trout|Bull. Environ. Contam. Toxicol.39(1): 15-22|1987|10.1007/BF01691783
12592|A||Sharma,R.M., S. Panigrahi, and P.A. Azeez|Effect of Cobalt on the Primary Productivity of Spirulina platensis|Bull. Environ. Contam. Toxicol.39(4): 716-720|1987|10.1007/BF01698467
12593|A||Shugart,L., J. McCarthy, B. Jimenez, and J. Daniels|Analysis of Adduct Formation in the Bluegill Sunfish (Lepomis macrochirus) between Benzo(a)pyrene and DNA of the Liver and Hemoglobin of the Erythrocyte|Aquat. Toxicol.9(6): 319-325|1987|10.1016/0166-445X(87)90031-2
12594|A||Shukla,J.P., K.N. Shukla, and U.N. Dwivedi|Survivality and Impaired Growth in Arsenic Treated Fingerlings of Channa punctatus, a Fresh Water Murrel|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(3): 307-311|1987|10.1002/aheh.19870150310
12595|A||Sriwastwa,V.M.S., R.S. Tripathi, D.K. Shrivastava, and R. Kumar|Accumulation and Depletion of Chromium in Mystus vittatus (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(2): 179-183|1987|10.1002/aheh.19870150213
12596|A||Stom,D.J., T.A. Geel, and A.E. Balayan|Effect of Individual Phenolic Compounds and of Their Mixtures on Luminous Bacteria. Part 3. Combined Action of Phenolic Compounds on Aquatic|Acta Hydrochim. Hydrobiol. (Multiple Languages)14(5): 539-549|1986|10.1002/aheh.19860140516
12597|A||Stratton,G.W.|Toxic Effects of Organic Solvents on the Growth of Blue-Green Algae|Bull. Environ. Contam. Toxicol.38(6): 1012-1019|1987|10.1007/BF01609089
12598|A||Takahashi,I.T., U.M. Cowgill, and P.G. Murphy|Comparison of Ethanol Toxicity to Daphnia magna and Ceriodaphnia dubia Tested at Two Different Temperatures: Static Acute Toxicity Test Results|Bull. Environ. Contam. Toxicol.39(2): 229-236|1987|10.1007/BF01689411
12599|A||Tewari,H., T.S. Gill, and J. Pant|Impact of Chronic Lead Poisoning on the Hematological and Biochemical Profiles of a Fish, Barbus conchonius (Ham)|Bull. Environ. Contam. Toxicol.38(5): 748-752|1987|10.1007/BF01616696
12600|A||Skea,J.C., H.A. Simonin, H.J. Dean, J.R. Colquhoun, J.J. Spagnoli, and G.D. Veith|Bioaccumulation of Aroclor 1016 in Hudson River Fish|Bull. Environ. Contam. Toxicol.22(3): 332-336|1979|10.1007/BF02026951
12601|A||Tucker,C.S.|Short-Term Effects of Propanil on Oxygen Production by Plankton Communities from Catfish Ponds|Bull. Environ. Contam. Toxicol.39(2): 245-250|1987|10.1007/BF01689413
12602|A||Tucker,C.S., and S.W. Lloyd|Evaluation of Potassium Ricinoleate as a Selective Blue-Green Algicide in Channel Catfish Ponds|Aquaculture65:141-148|1987|10.1016/0044-8486(87)90258-4
12603|A||Tulasi,S.J., R. Yasmeen, C.P. Reddy, and J.V.R. Rao|Lead Uptake and Lead Loss in the Fresh Water Field Crab, Barytelphusa guerini, on Exposure to Organic and Inorganic Lead|Bull. Environ. Contam. Toxicol.39(1): 63-68|1987|10.1007/BF01691790
12604|A||Vijayakumari,P., D.C. Reddy, and R. Ramamurthi|Acute Toxicity of Endosulfan to Crab: Effect on Transport Property of Haemocyanin|Bull. Environ. Contam. Toxicol.38(5): 742-747|1987|10.1007/BF01616695
12605|A|OECDG|Wan,M.T., D.J. Moul, and R.G. Watts|Acute Toxicity to Juvenile Pacific Salmonids of Garlon 3A, Garlon 4, Triclopyr, Triclopyr Ester, and Their Transformation Products: 3,5,6-Trichloro-2 Pyridinol and 2-Methoxy-3,5,6-Trichloropyridine|Bull. Environ. Contam. Toxicol.39(4): 721-728|1987|10.1007/BF01698468
12606|A||Watson,S.J., and E.J. Maly|Thiocyanate Toxicity to Daphnia magna: Modified by pH and Temperature|Aquat. Toxicol.10(1): 1-8|1987|10.1016/0166-445X(87)90023-3
12607|A||Wester,P.W., and J.H. Canton|Histopathological Study of Poecilia reticulata (Guppy) after Long-Term Exposure to Bis(Tri-n-Butyltin)oxide (TBTO) and Di-n-Butyltindichloride|Aquat. Toxicol.10(2-3): 143-165|1987|10.1016/0166-445X(87)90020-8
12608|A||Mumtaz,A.|Behavioral Toxicology. I: Channa punctatus Under Mercury Stress|C. A. Sel. Environ. Pollut.11:106170420m|1987|
12609|A||Apostol,S.|Estimations with Respect to the Influence of the Saponine upon the Range of Generations for Daphnia magna S.|J. Environ. Biol.8(4): 323-328|1987|
12610|A||Barron,M.G., B.D. Tarr, and W.L. Hayton|Temperature Dependence of Di-2-Ethylhexyl Phthalate (DEHP) Pharmacokinetics in Rainbow Trout|Toxicol. Appl. Pharmacol.88(3): 305-312|1987|10.1016/0041-008X(87)90205-5
12611|A||Baudin,J.P.|Investigation into the Retention of 65Zn Absorbed by the Trophic Pathway in Cyprinus carpio L. Influence of the Ingestion Frequency and the|Water Res.21(3): 285-294|1987|10.1016/0043-1354(87)90207-7
12612|A||Call,D.J., L.T. Brooke, R.J. Kent, M.L. Knuth, S.H. Poirier, J.M. Huot, and A.R. Lima|Bromacil and Diuron Herbicides: Toxicity, Uptake, and Elimination in Freshwater Fish|Arch. Environ. Contam. Toxicol.16(5): 607-613|1987|10.1007/BF01055817
12613|A||Cotta-Ramusino,M., and A. Doci|Acute Toxicity of Brestan and Fentin Acetate on Some Freshwater Organisms|Bull. Environ. Contam. Toxicol.38(4): 647-652|1987|10.1007/BF01608598
12614|A||Czarnezki,J.M.|Use of the Pocketbook Mussel, Lampsilis ventricosa, for Monitoring Heavy Metal Pollution in an Ozark Stream|Bull. Environ. Contam. Toxicol.38(4): 641-646|1987|10.1007/BF01608597
12615|A||Devi,C.R., and C.A. Sastry|Pathological Changes Due to O-Cresol, Resorcinol and 2,5-Xylenol to the Brain (Optic Tectum) of a Teleost Saurotherodon mossambicus (Peters)|J. Environ. Biol.8(4): 307-314|1987|
12616|A||Fronda,A., and B. Kendrick|Effects of Food Containing Diquat on a Pond Invertebrate, Lymnaea elodes|Arch. Hydrobiol.105(3): 387-395|1986|10.1127/archiv-hydrobiol/105/1986/387
12617|A||Mathavan,S., and E. Jayakumar|Long-Term Effects of Pesticides (Fenthion and Temephos) on Growth and Fecundity of an Aquatic Bug Laccotrophes griseus (Guerin)|Indian J. Exp. Biol.25(1): 48-51|1987|
12618|A||Hameed,P.S., and P. Vadamalai|Effect of Sublethal Concentrations of Dimethoate EC 30 on Feeding, Growth, Oxygen Consumption and Activity in Macrones keletius (Dumeril)|J. Environ. Biol.7(4): 277-284|1986|
12619|A||Hamilton,P.B., G.S. Jackson, N.K. Kaushik, and K.R. Solomon|The Impact of Atrazine on Lake Periphyton Communities, Including Carbon Uptake Dynamics Using Track Autoradiography|Environ. Pollut.46(2): 83-103|1987|10.1016/0269-7491(87)90195-3
12620|A||Hanazato,T., and M. Yasuno|Effects of a Carbamate Insecticide, Carbaryl, on the Summer Phyto- and Zooplankton Communities in Ponds|Environ. Pollut.48(2): 145-159|1987|10.1016/0269-7491(87)90093-5
12621|A||Othman,M.A.S., M. El-Nagar, A. Abdel-All, S. Ibrahim, and A. Khamis|Analysis of Fenvalerate and Flucythrinate in Aquatic Ecosystems in Relation to Their Toxicity|Alex. Sci. Exch.7(2): 245-261|1986|
12622|A||Hawkins,P.R., and D.J. Griffiths|Copper as an Algicide in a Tropical Reservoir|Water Res.21(4): 475-480|1987|10.1016/0043-1354(87)90196-5
12623|A||Imamura-Kojima,H., F. Takashima, and T. Yoshida|Absorption, Distribution and Excretion of 2-Phenoxyetanol in Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)53(8): 1339-1342|1987|10.2331/suisan.53.1339
12624|A||Kulkarni,A.N., S.M. Kamble, and R. Keshavan|"Impact of Hildan on ""Excretory Physiology"" of Fresh Water Crab, Barytelphusa guerini"|Trends Life Sci.1(2): 167-170|1986|
12626|A||Kobayashi,K., Y. Oshima, C. Taguchi, and Y. Wang|Induction of Drug-Metabolizing Enzymes by Long-Term Administration of PCB and Duration of Their Induced Activities in Carp|Nippon Suisan Gakkaishi (Multiple Languages)53(3): 487-491|1987|10.2331/suisan.53.487
12627|A||Kohbara,J., S. Murachi, and K. Nanba|Ocular Abnormalities in Carp Chronically Exposed to Various Surfactants|Nippon Suisan Gakkaishi (Multiple Languages)53(6): 979-983|1987|10.2331/suisan.53.979
12628|A||Kohbara,J., K. Nanba, and S. Murachi|The Heart Rate of Carp Anesthetized with Tetraethylene Glycol Dibutyl Ether|Nippon Suisan Gakkaishi (Multiple Languages)53(4): 681-|1987|10.2331/suisan.53.681
12629|A||Lal,B., and T.P. Singh|The Effect of Malathion and gamma-BHC on the Lipid Metabolism in Relation to Reproduction in the Tropical Teleost, Clarias batrachus|Environ. Pollut.48(1): 37-47|1987|10.1016/0269-7491(87)90084-4
12630|A||Lal,S., R. Lal, and D.M. Saxena|Bioconcentration and Metabolism of DDT, Fenitrothion and Chlorpyrifos by the Blue-Green Algae Anabaena sp. and Aulosira fertilissima|Environ. Pollut.46(3): 187-196|1987|10.1016/0269-7491(87)90076-5
12631|A||Lewis,M.A., and B.G. Hamm|Environmental Modification of the Photosynthetic Response of Lake Plankton to Surfactants and Significance to a Laboratory-Field Comparison|Water Res.20(12): 1575-1582|1986|10.1016/0043-1354(86)90123-5
12632|A||Mathur,R., and D.M. Saxena|Effect of Hexachlorocyclohexane (HCH) Isomers on Growth of, and Their Accumulation in, the Blue-Green Alga, Anabaena sp. (ARM 310)|J. Environ. Biol.7(1): 239-251|1986|
12633|A||Mayes,M.A., D.L. Hopkins, and D.C. Dill|Toxicity of Picloram (4-Amino-3,5,6-Trichloropicolinic Acid) to Life Stages of the Rainbow Trout|Bull. Environ. Contam. Toxicol.38(4): 653-660|1987|10.1007/BF01608599
12634|A||Muley,D.V., and U.H. Mane|Malathion Induced Changes in Oxygen Consumption in Two Species of Freshwater Lamellibranch Molluscs from Godavari River, Maharashtra State, India|J. Environ. Biol.8(3): 267-275|1987|
12635|A||Ogata,H., and T. Murai|Effects of Ammonium Chloride Administration on Ammonia and Free Amino Acid Levels in Erythrocytes and Plasma of Carp|Nippon Suisan Gakkaishi (Multiple Languages)53(7): 1257-1260|1987|10.2331/suisan.53.1257
12636|A||Ono,H., and J. Nakanisi|Herbicide, CNP Contamination in the Lake Kasumigaura Basin|Water Res.21(6): 669-675|1987|10.1016/0043-1354(87)90077-7
12637|A||Paulose,P.V.|Bioaccumulation of Inorganic and Organic Mercury in a Fresh Water Mollusc, Lymnaea acuminata|J. Environ. Biol.8(2, Suppl. 8): 185-189|1987|
12638|A||Petersen,D.W., and J.J. Lech|Hepatic Effects of Acrylamide in Rainbow Trout|Toxicol. Appl. Pharmacol.89(2): 249-255|1987|10.1016/0041-008X(87)90045-7
12639|A||Pillard,D.A., P.M. Rocchio, K.M. Cassidy, S.M. Stewart, and B.D. Vance|Hexavalent Chromium Effects on Carbon Assimilation in Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.38(4): 715-721|1987|10.1007/BF01608608
12640|A||Rai,R.|Responses of Serum Protein in a Freshwater Fish to Experimental Mercury Poisoning|J. Environ. Biol.8(Suppl. 2): 225-228|1987|
12641|A||Ram,R.N., and A.G. Sathyanesan|Histopathological and Biochemical Changes in the Liver of a Teleost Fish, Channa punctatus (Bloch) Induced by a Mercurial Fungicide|Environ. Pollut.47(2): 135-145|1987|10.1016/0269-7491(87)90043-1
12642|A||Rao,K.R.S.S.|Variations in the Nitrogen Products of Channa punctatus Augmented by Interaction of Carbaryl and Phenthoate in the Media|J. Environ. Biol.8(2): 173-177|1987|
12643|A||Vijay Joseph,K., D.M. Anilkumar, and K. Jayantha Rao|Certain Metabolic Changes in Rana hexadactyla Exposed to Aldrin|Environ. Ecol.12(1): 33-35|1994|
12644|A||Satoh,S., T. Takeuchi, and T. Watanabe|Availability to Rainbow Trout of Zinc in White Fish Meal and of Various Zinc Compounds|Nippon Suisan Gakkaishi (Multiple Languages)53(4): 595-599|1987|10.2331/suisan.53.595
12645|A||Satoh,S., T. Takeuchi, and T. Watanabe|Availability to Carp of Manganese in White Fish Meal and of Various Manganese Compounds|Nippon Suisan Gakkaishi (Multiple Languages)53(5): 825-832|1987|10.2331/suisan.53.825
12646|A||Serrano,L., M.R. Miracle, and M. Serra|Differential Response of Brachionus plicatilis (Rotifera) Ecotypes to Various Insecticides|J. Environ. Biol.7(4): 259-275|1986|
12647|A||Sherman,R.E., S.P. Gloss, and L.W. Lion|A Comparison of Toxicity Tests Conducted in the Laboratory and in Experimental Ponds Using Cadmium and the Fathead Minnow (Pimephales promelas)|Water Res.21(3): 317-323|1987|10.1016/0043-1354(87)90211-9
12648|A||Singh,S.P., and V. Yadava|Factors Affecting Cadmium Toxicity in Anacystis nidulans|J. Environ. Biol.8(3): 245-256|1987|
12649|A||Srivastava,A.K.|Changes Induced by Lead in Fish Testis|J. Environ. Biol.8(4): 329-332|1987|
12650|A||Tsuda,T., H. Nakanishi, S. Aoki, and J. Takebayashi|Bioconcentration and Metabolism of Phenyltin Chlorides in Carp|Water Res.21(8): 949-953|1987|10.1016/S0043-1354(87)80012-X
12651|A||Wakabayashi,M., M. Kikuchi, Y.K. Oh, T. Yoshida, H. Kojima, and H. Saito|Bioconcentration of 203HgCl2 in Rainbow Trout and Carp at Low Concentrations|Nippon Suisan Gakkaishi (Multiple Languages)53(5): 841-845|1987|10.2331/suisan.53.841
12652|A||Yamashita,M., N. Kinae, I. Tomita, and I. Kimura|Comparison of the Promutagenic Activity of Liver Homogenates from Fish and Rat in the Ames Test|Bull. Environ. Contam. Toxicol.38(4): 565-570|1987|10.1007/BF01608587
12653|A||Baatrup,E., and G. Danscher|Cytochemical Demonstration of Mercury Deposits in Trout Liver and Kidney Following Methyl Mercury Intoxication: Differentiation of Two Mercury|Ecotoxicol. Environ. Saf.14(2): 129-141|1987|10.1016/0147-6513(87)90055-8
12654|A||Bakthavathsalam,R., G. Ravikumar, and U. Balasubramanian|Effects of Lindane and Atropine Sulphate on the Tissues of the Fish, Anabas testudineus (Bloch) - a Chronotoxicological Approach|Chemosphere16(6): 1339-1345|1987|10.1016/0045-6535(87)90070-1
12655|A||Begum,S.J.|Biochemical Adaptive Responses in Glucose Metabolism of Fish (Tilapia mossambica) during Ammonia Toxicity|Curr. Sci. (Bangalore)56(14): 705-708|1987|
12656|A||Caux,P.Y., P. Weinberger, and D.B. Carlisle|Dowanol, an Environmentally Safe Adjuvant|Environ. Toxicol. Chem.5(12): 1047-1054|1986|10.1002/etc.5620051204
12657|A||Cossarini-Dunier,M., G. Monod, A. Demael, and D. Lepot|Effect of Gamma-Hexachlorocyclohexane (Lindane) on Carp (Cyprinus carpio). I. Effect of Chronic Intoxication on Humoral Immunity in Relation to|Ecotoxicol. Environ. Saf.13(3): 339-345|1987|10.1016/0147-6513(87)90032-7
12658|A||Crossland,N.O., D. Bennett, and C.J.M. Wolff|Fate of 2,5,4'-Trichlorobiphenyl in Outdoor Ponds and Its Uptake via the Food Chain Compared with Direct Uptake via the Gills in Grass Carp and Rainbow Trout|Ecotoxicol. Environ. Saf.13(2): 225-238|1987|10.1016/0147-6513(87)90011-X
12659|A||Demael,A., D. Lepot, M. Cossarini-Dunier, and G. Monod|Effect of Gamma-Hexachlorocyclohexane (Lindane) on Carp (Cyprinus carpio). II. Effects of Chronic Intoxication on Blood, Liver Enzymes, and|Ecotoxicol. Environ. Saf.13(3): 346-351|1987|10.1016/0147-6513(87)90033-9
12660|A||Dorn,P.B., J.H.,Jr. Rodgers, K.M. Jop, J.C. Raia, and K.L. Dickson|Hexavalent Chromium as a Reference Toxicant in Effluent Toxicity Tests|Environ. Toxicol. Chem.6(6): 435-444|1987|10.1002/etc.5620060604
12661|A||Flum,T.F., and L.J. Shannon|The Effects of Three Related Amides on Microecosystem Stability|Ecotoxicol. Environ. Saf.13(2): 239-252|1987|10.1016/0147-6513(87)90012-1
12662|A||Zhang,F., and X. Li|Toxicity of HCH Towards the Eggs and Larvas of Pond Frog and Fish|C. A. Sel. Environ. Pollut.25(2): 1 p.|1987|
12663|A||Haley,M.V., D.W. Johnson, W.T. Muse, and W.G. Landis|Aquatic Toxicity of Pinacolyl Alcohol|Technical Report, CRDEC-TR-86080, Chem. Res. Dev. Eng. Center, Aberdeen Providng Ground, MD:19 p.|1987|
12664|A||Hermanutz,R.O., S.F. Hedtke, J.W. Arthur, R.W. Andrew, and K.N. Allen|Ammonia Effects on Microinvertebrates and Fish in Outdoor Experimental Streams|Environ. Pollut.47:249-283|1987|10.1016/0269-7491(87)90147-3
12665|A|OECDG|Holcombe,G.W., G.L. Phipps, A.H. Sulaiman, and A.D. Hoffman|Simultaneous Multiple Species Testing: Acute Toxicity of 13 Chemicals to 12 Diverse Freshwater Amphibian, Fish, and Invertebrate Families|Arch. Environ. Contam. Toxicol.16:697-710|1987|10.1007/BF01055420
12666|A||Knowles,C.O., and M.J. McKee|Protein and Nucleic Acid Content in Daphnia magna During Chronic Exposure to Cadmium|Ecotoxicol. Environ. Saf.13(3): 290-300|1987|10.1016/0147-6513(87)90028-5
12667|A||Lal,B., and T.P. Singh|Gamma-BHC- and Cythion-Induced Alterations in Lipid Metabolism in a Freshwater Catfish, Clarias batrachus, During Different Phases of Its Annual Reproductive Cycle|Ecotoxicol. Environ. Saf.14(1): 38-47|1987|10.1016/0147-6513(87)90081-9
12668|A||Landrum,P.F., S.R. Nihart, B.J. Eadie, and L.R. Herche|Reduction in Bioavailability of Organic Contaminants to the Amphipod Pontoporeia hoyi by Dissolved Organic Matter of Sediment|Environ. Toxicol. Chem.6(1): 11-20|1987|10.1002/etc.5620060102
12669|A||Lay,J.P.|Influence of Chemicals upon Plankton in Freshwater Systems|Chemosphere16(2/3): 581-588|1987|10.1016/0045-6535(87)90270-0
12670|A||Lay,J.P., A. Muller, L. Peichl, R. Lang, and F. Korte|Effects of gamma-BHC (Lindane) on Zooplankton Under Outdoor Conditions|Chemosphere16(7): 1527-1538|1987|10.1016/0045-6535(87)90093-2
12671|A||Le Bon,A.M., J.P. Cravedi, and J. Tulliez|Fate of the Isoprenoid Hydrocarbon, Pristane, in Rainbow Trout|Ecotoxicol. Environ. Saf.13(3): 274-281|1987|10.1016/0147-6513(87)90026-1
12672|A||Lohmann,E., and H. Hagedorn|The Effect of Parathion on Green Algae. II. The Effect on Photosynthesis|Appl. Microbiol. Biotechnol.23:507-509|1986|10.1007/BF02346070
12673|A||Michibata,H., Y. Nojima, and M.K. Kojima|Stage Sensitivity of Eggs of the Teleost Oryzias latipes to Cadmium Exposure|Environ. Res.42(2): 321-327|1987|10.1016/S0013-9351(87)80197-4
12674|A||Misra,V., G. Chawla, V. Kumar, H. Lal, and P.N. Viswanathan|Effect of Linear Alkyl Benzene Sulfonate in Skin of Fish Fingerlings (Cirrhina mrigala): Observations with Scanning Electron Microscope|Ecotoxicol. Environ. Saf.13(2): 164-168|1987|10.1016/0147-6513(87)90003-0
12675|A||Newsted,J.L., and J.P. Giesy|Predictive Models for Photoinduced Acute Toxicity of Polycyclic Aromatic Hydrocarbons to Daphnia magna, Strauss (Cladocera, Crustacea)|Environ. Toxicol. Chem.6(6): 445-461|1987|10.1002/etc.5620060605
12676|A||Sivakami,R., G. Premkishore, and M.R. Chandran|Effect of Chromium on the Metabolism and Biochemical Composition of Selected Tissues in the Freshwater Catfish Mystus vittatus|Environ. Ecol.12(2): 259-266|1994|
12677|A||Opperhuizen,A., and S.M. Schrap|Relationships Between Aqueous Oxygen Concentration and Uptake and Elimination Rates During Bioconcentration of Hydrophobic Chemicals in Fish|Environ. Toxicol. Chem.6(5): 335-342|1987|10.1002/etc.5620060503
12678|A||Opperhuizen,A., and P.I. Voors|Uptake and Elimination of Polychlorinated Aromatic Ethers by Fish: Chloroanisoles|Chemosphere16(5): 953-962|1987|10.1016/0045-6535(87)90031-2
12679|A||Oris,J.T.,Jr.|The Photo-Induced Toxicity of Polycyclic Aromatic Hydrocarbons to Larvae of the Fathead Minnow (Pimephales promelas)|Chemosphere16(7): 1395-1404|1987|10.1016/0045-6535(87)90079-8
12680|A||Oronsaye,J.A.O.|The Uptake and Loss of Dissolved Cadmium by the Stickleback, Gasterosteus aculeatus L|Ecotoxicol. Environ. Saf.14(1): 88-96|1987|10.1016/0147-6513(87)90087-X
12681|A||Paul,D., and S.K. Raut|Comparative Studies on the Toxicity of Endosulphan in Some Freshwater Fishes Under Different pH and Hardness of Water|Curr. Sci. (Bangalore)56(7): 318-320|1987|
12682|A||Poirier,D.G., and G.A. Surgeoner|Laboratory Flow-Through Bioassays of Four Forestry Insecticides Against Stream Invertebrates|Can. Entomol.119(9): 755-763|1987|10.4039/Ent119755-9
12683|A||Rai,L.C., and M. Raizada|Toxicity of Nickel and Silver to Nostoc muscorum: Interaction with Ascorbic Acid, Glutathione, and Sulfur-Containing Amino Acids|Ecotoxicol. Environ. Saf.14(1): 12-21|1987|10.1016/0147-6513(87)90078-9
12684|A||Ram,R.N., and A.G. Sathyanesan|Histopathological Changes in Liver and Thyroid of the Teleost Fish, Channa punctatus (Bloch), in Response to Ammonium Sulfate Fertilizer Treatment|Ecotoxicol. Environ. Saf.13(2): 185-190|1987|10.1016/0147-6513(87)90006-6
12685|A||Saxena,P.K., and K. Mani|Effect of Safe Concentrations of Some Pesticides on Testicular Recrudescence in the Freshwater Murrel, Channa punctatus (Bl.):  A Morphological Study|Ecotoxicol. Environ. Saf.14(1): 56-63|1987|10.1016/0147-6513(87)90083-2
12687|A||Schultz,T.W., F.M. Applehans, and G.W. Riggin|Structure-Activity Relationships of Selected Pyridines.  III.  Log Kow Analysis|Ecotoxicol. Environ. Saf.13(1): 76-83|1987|10.1016/0147-6513(87)90044-3
12688|A||Silverman,H., J.W. McNeil, and T.H. Dietz|Interaction of Trace Metals Zn, Cd, and Mn, with Ca Concretions in the Gills of Freshwater Unionid Mussels|Can. J. Zool.65:828-832|1987|10.1139/z87-131
12689|A||Singh,S., and T.P. Singh|Evaluation of Toxicity Limit and Sex Hormone Production in Response to Cythion and BHC in the Vitellogenic Catfish Clarias batrachus|Environ. Res.42(2): 482-488|1987|10.1016/S0013-9351(87)80215-3
12690|A||Van Leeuwen,C.J., G. Niebeek, and M. Rijkeboer|Effects of Chemical Stress on the Population Dynamics of Daphnia magna:  A Comparison of Two Test Procedures|Ecotoxicol. Environ. Saf.14(1): 1-11|1987|10.1016/0147-6513(87)90077-7
12691|A||Vig,E., L. Orban, J. Nemcsok, and B. Asztalos|Some Pathophysiological Data of Carp Following Exposure to Selected Fungicides and Herbicides (Einige Pathophysiologische Daten beim Karpfen nach der Einwirkung von Ausgewahllen Fungiziden und Herbiziden)|Arch. Exp. Vetmed.41(4): 491-505|1987|
12692|A||Wakabayashi,M., M. Kikuchi, A. Sato, and T. Yoshida|Bioconcentration of Alcohol Ethoxylates in Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.13(2): 148-163|1987|10.1016/0147-6513(87)90002-9
12693|A||Wang,W.|Chromate Ion As a Reference Toxicant for Aquatic Phytotoxicity Tests|Environ. Toxicol. Chem.6(12): 953-960|1987|10.1002/etc.5620061207
12694|A||Wang,W.|Toxicity of Nickel to Common Duckweed (Lemna minor)|Environ. Toxicol. Chem.6(12): 961-967|1987|10.1002/etc.5620061208
12695|A||Yount,J.D., and L.J. Shannon|Effects of Aniline and Three Derivatives on Laboratory Microecosystems|Environ. Toxicol. Chem.6(6): 463-468|1987|10.1002/etc.5620060606
12696|A||Katti,S.R., and A.G. Sathyanesan|Lead Nitrate Induced Changes in the Brain Constituents of the Freshwater Fish Clarias batrachus (L)|Neurotoxicology7(3): 47-51|1986|
12697|A||Edwards,R., P. Millburn, and D.H. Hutson|The Toxicity and Metabolism of the Pyrethroids cis- and trans-Cypermethrin in Rainbow Trout, Salmo gairdneri|Xenobiotica17(10): 1175-1193|1987|10.3109/00498258709167410
12698|A||Frank,R., A.G. Carpentier, and D.L. MacKenzie|Monitoring for 2,4-D Residues in Fish Species Resident in Treated Lakes in East-Central Ontario 1977-80|Environ. Monit. Assess.9:71-82|1987|10.1007/BF00394217
12699|A||Rueter,J.G.,Jr., K.T. O'Reilly, and R.R. Petersen|Indirect Aluminum Toxicity to the Green Alga Scenedesmus Through Increased Cupric Ion Activity|Environ. Sci. Technol.21(5): 435-438|1987|10.1021/es00159a002
12700|A||Natochin,Y.V., E.A. Lavrova, and A.V. Khripak|Inhibition of Membrane Transport of Sodium in the Toxicity Mechanism of Fenvalerate and Cypermethrin|J. Ichthyol.27(2): 10-14|1987|
12701|A||Almar,M.M., J. Diaz-Mayans, and F.J. Romero|Glutathione Content and GSH S-Transferase Activity in Midgut Gland of Procambarus clarkii. Sex Differences, the Effect of Fasting, and Their Implications in Cadmium Toxicity|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 433-435|1987|10.1016/0742-8413(87)90033-8
12702|A||Belliyappa,G., and S.R. Reddy|Growth and Conversion Efficiency of the Catfish Heteropneustes fossilis (Bloch) Exposed to Sub-lethal Concentrations of Sodium Pentachlorophenate|Pol. Arch. Hydrobiol.33(1): 115-120|1986|
12703|A||Bender,J., and V. Ibeanusi|Effects of Supplements on the Bioaccumulation of Lead in Anabaena spp|Bull. Environ. Contam. Toxicol.39(2): 209-213|1987|10.1007/BF01689408
12704|A||Bharathi,C.|Toxicity of Insecticides and Effects on the Behavior of the Blood Clam Anadara granosa|Water Air Soil Pollut.75(1-2): 87-91|1994|10.1007/BF01100401
12705|A||Bonner,J.C., and M.R. Wells|Comparative Acute Toxicity of DDT Metabolites Among American and European Species of Planarians|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 437-438|1987|10.1016/0742-8413(87)90034-X
12706|A||Abd El-Magid,M.M.|Effect of Some Pesticides on the Growth of Blue-Green Alga Spirulina platensis|C. A. Sel. Environ. Pollut.26:1 p.|1986|
12707|A||Brown,M.W., D. Shurben, J.F.D. Solbe, A. Cryer, and J. Kay|Sequestration of Environmental Cadmium by Metallothionein in the Roach (Rutilus rutilus) and the Stone Loach (Noemacheilus barbatulus)|Comp. Biochem. Physiol. C Comp. Pharmacol.87(1): 65-69|1987|10.1016/0742-8413(87)90182-4
12708|A||Christensen,B.|Uptake and Release of Fluoride in Arctic Char|Environ. Toxicol. Chem.6(7): 529-533|1987|
12709|A||Clifton-Hadley,R.S., and D.J. Alderman|The Effects of Malachite Green upon Proliferative Kidney Disease|J. Fish Dis.10(2): 101-107|1987|10.1111/j.1365-2761.1987.tb00725.x
12710|A||Correa,M.|Physiological Effects of Metal Toxicity on the Tropical Freshwater Shrimp Macrobrachium carcinus (Linneo, 1758)|Environ. Pollut.45(2): 149-155|1987|10.1016/0269-7491(87)90054-6
12711|A||Dabrowska,H., and H. Sikora|Acute Toxicity of Ammonia to Common Carp (Cyprinus carpio L.)|Pol. Arch. Hydrobiol.33(1): 121-128|1986|
12712|A||Dauble,D.D., R.M. Bean, and D.W. Carlile|Uptake, Distribution, and Elimination of Dietary Quinoline by Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 355-362|1987|10.1016/0742-8413(87)90021-1
12713|A||Davies,P.E.|Physiological, Anatomic and Behavioural Changes in the Respiratory System of Salmo gairdneri Rich. on Acute and Chronic Exposure to Chlorothalonil|Comp. Biochem. Physiol. C Comp. Pharmacol.87(1): 113-119|1987|10.1016/0742-8413(87)90054-5
12714|A||Day,K., and N.K. Kaushik|An Assessment of the Chronic Toxicity of the Synthetic Pyrethroid, Fenvalerate, to Daphnia galeata mendotae, Using Life Tables|Environ. Pollut.44(1): 13-26|1987|10.1016/0269-7491(87)90125-4
12715|A||Dixon,D.G., P.V. Hodson, and K.L.E. Kaiser|Serum Sorbitol Dehydrogenase Activity as an Indicator of Chemically Induced Liver Damage in Rainbow Trout|Environ. Toxicol. Chem.6(9): 685-696|1987|10.1002/etc.5620060906
12716|A||Hilmy,A.M., N.A. El Domiaty, A.Y. Daabees, and H.A.A. Latife|Some Physiological and Biochemical Indices of Zinc Toxicity in Two Freshwater Fishes, Clarias lazera and Tilapia zilli|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 297-301|1987|10.1016/0742-8413(87)90011-9
12717|A||Hilmy,A.M., N.A. El Domiaty, A.Y. Daabees, and A. Alsarha|The Toxicity to Clarias lazera of Copper and Zinc Applied Jointly|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 309-314|1987|10.1016/0742-8413(87)90013-2
12718|A||Hilmy,A.M., N.A. El Domiaty, A.Y. Daabees, and F.I. Moussa|Short-Term Effects of Mercury on Survival, Behaviour, Bioaccumulation and Ionic Pattern in the Catfish (Clarias lazera)|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 303-308|1987|10.1016/0742-8413(87)90012-0
12719|A||Nath,K., and N. Kumar|Effect of Hexavalent Chromium on the Carbohydrate Metabolism of a Freshwater Tropical Teleost Colisa fasciatus|Bull. Inst. Zool. Acad. Sin. (Taipei)26(3): 245-248|1987|
12720|A||Hunn,J.B., L. Cleveland, and E.E. Little|Influence of pH and Aluminum on Developing Brook Trout in a Low Calcium Water|Environ. Pollut.43(1): 63-73|1987|10.1016/0269-7491(87)90168-0
12721|A||Jop,K.M., T.F. Parkerton, J.H.,Jr. Rodgers, K.L. Dickson, and P.B. Dorn|Comparative Toxicity and Speciation of Two Hexavalent Chromium Salts in Acute Toxicity Tests|Environ. Toxicol. Chem.6(9): 697-703|1987|10.1002/etc.5620060907
12722|A||Jorgensen,D., and J.F. Heisinger|The Effects of Selenium on the Distribution of Mercury in the Organs of the Black Bullhead (Ictalurus melas)|Comp. Biochem. Physiol. C Comp. Pharmacol.87(1): 181-186|1987|10.1016/0742-8413(87)90201-5
12723|A||Kane,D.A., and C.F. Rabeni|Effects of Aluminum and pH on the Early Life Stages of Smallmouth Bass (Micropterus dolomieui)|Water Res.21(6): 633-639|1987|10.1016/0043-1354(87)90073-X
12724|A||Maltby,L., J.O.H. Snart, and P. Calow|Acute Toxicity Tests on the Freshwater Isopod, Asellus aquaticus Using FeSO4.7H2O, with Special Reference to Techniques and the Possibility of Intraspecific Variation|Environ. Pollut.43(4): 271-279|1987|10.1016/0269-7491(87)90180-1
12725|A||Matkovics,B., H. Witas, T. Gabrielak, and L. Szabo|Paraquat As an Agent Affecting Antioxidant Enzymes of Common Carp Erythrocytes|Comp. Biochem. Physiol. C Comp. Pharmacol.87(1): 217-219|1987|10.1016/0742-8413(87)90206-4
12726|A||Michael,M.I., A.M. Hilmy, N.A. El Domiaty, and K. Wershana|Serum Transaminases Activity and Histopathological Changes in Clarias lazera Chronically Exposed to Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 255-262|1987|10.1016/0742-8413(87)90076-4
12727|A||Mitchell,D.G., P.M. Chapman, and T.J. Long|Seawater Challenge Testing of Coho Salmon Smolts Following Exposure to Roundup Herbicide|Environ. Toxicol. Chem.6(11): 875-878|1987|
12728|A||Munzinger,A.|Biomphalaria glabrata (Say), a Suitable Organism for a Biotest|Environ. Technol. Lett.8(3): 141-148|1987|10.1080/09593338709384472
12729|A||Olsson,P.E., and C. Hogstrand|Subcellular Distribution and Binding of Cadmium to Metallothionein in Tissues of Rainbow Trout After Exposure to 109CD in Water|Environ. Toxicol. Chem.6(11): 867-874|1987|10.1002/etc.5620061107
12730|A||Passino,D.R.M., and S.B. Smith|Acute Bioassays and Hazard Evaluation of Representative Contaminants Detected in Great Lakes Fish|Environ. Toxicol. Chem.6(11): 901-907|1987|10.1002/etc.5620061111
12731|A||Ram,R.N., and A.G. Sathyanesan|Effects of Long-Term Exposure to Cythion on the Reproduction of the Teleost Fish, Channa punctatus (Bloch)|Environ. Pollut.44(1): 49-60|1987|10.1016/0269-7491(87)90128-X
12732|A||Rodgers,D.W., T.A. Watson, J.S. Langan, and T.J. Wheaton|Effects of pH and Feeding Regime on Methylmercury Accumulation Within Aquatic Microcosms|Environ. Pollut.45(4): 261-274|1987|10.1016/0269-7491(87)90101-1
12733|A||Bengeri,K.V., K.M. Shivaraj, and H.S. Patil|Toxicity of Copper Sulfate to a Freshwater Fish Lepidocephalichthyes guntea|Comp. Physiol. Ecol.11(3): 99-102|1986|
12734|A||Fieser,A.H.|Toxicity of Fluorides to Aquatic Organisms: Modeling for Water Hardness and Temperature|Ph.D Thesis, University of Pittsburgh:179 p.|1986|
12735|A||Smith,P.D., D.L. Brockway, and F.E.,Jr. Stancil|Effects of Hardness, Alkalinity and pH on the Toxicity of Pentachlorophenol to Selenastrum capricornutum (Printz)|Environ. Toxicol. Chem.6(11): 891-900|1987|10.1002/etc.5620061110
12736|A||Suzuki,K.T., H. Sunaga, E. Kobayashi, and S. Hatakeyama|Environmental and Injected Cadmium Are Sequestered by Two Major Isoforms of Basal Copper, Zinc-Metallothionein in Gibel (Carassius auratus langsdorfi) Liver|Comp. Biochem. Physiol. C Comp. Pharmacol.87(1): 87-93|1987|10.1016/0742-8413(87)90187-3
12737|A||Tachikawa,M., A. Hasegawa, R. Sawamura, A. Takeda, S. Okada, and M. Nara|Difference Between Fresh- and Seawater Fishes in the Accumulation and Effect of Environmental Chemical Pollutants. I. Intakes of Chlordane and Pentachlorophenol by Seawater-Acclimated Tilapia (Tilapia nilotica)|Eisei Kagaku (Multiple Languages)33(2): 98-105|1987|
12738|A||Boyle,T.P., E.F. Robinson-Wilson, J.D. Petty, and W. Weber|Degradation of Pentachlorophenol in Simulated Lentic Environment|Bull. Environ. Contam. Toxicol.24(2): 177-184|1980|10.1007/BF01608094
12739|A||Wilbrink,M., J. De Vries, N.P.E. Vermeulen, C. Janse, and T.A. De Vlieger|Effects of Dihalogenated Biphenyls on Various Functional Parameters in the Pond Snail Lymnaea stagnalis|Comp. Biochem. Physiol. A Comp. Physiol.87(4): 1025-1031|1987|10.1016/0300-9629(87)90032-6
12740|A||Wood,E.M.|The Toxicity of 3,400 Chemicals to Fish|EPA-560/6-87-002, Office of Toxic Substances, U.S.EPA, Washington, DC:198 p.|1953|
12741|A||Hollis,E.H., and R.E. Lennon|The Toxicity of 1,085 Chemicals to Fish|In: R.L.Lipnick (Ed.), EPA-560/6-87-002, U.S.EPA, Off.of Toxic Subst, Washington, DC (1987) / Fish Tox.Rep.No.2, U.S.Fish Wildl.Serv., U.S.D.I., Kearneysville, WV:66 p.|1954|
12742|A||Rai,R.|Haematological Responses of a Freshwater Teleost, Catla catla (Ham.) to Induced Zinc Poisoning|Indian J. Appl. Pure Biol.1(2): 80-81|1986|
12743|A||Shrivastava,A., and A.K. Pandey|Effect of CdCl2 on Kidney in Puntius sophore - a Fresh Water Fish|Comp. Physiol. Ecol. 11(4): 203-207|1986|
12744|A||Agrawal,S.B.|Cytological Response of a Green Alga Rhizoclonium hieroglyphicum (Ag.) Kuetz. to Sulphur Dioxide Pollutant|Cytologia51(3): 433-438|1986|10.1508/cytologia.51.433
12745|A||Beamish,F.W.H., K.A. Jeffrey, R.J. Kolton, P.D. MacMahon, and K.A. Kowalchuk|Effects of the Lampricide 3-Trifluoromethyl-4-Nitrophenol on Diatoms in Two Southern Ontario Streams|Can. J. Bot.65:893-898|1987|10.1139/b87-123
12746|A||Lakshminarayana,J.S.S., H.J. O'Neill, S.D. Jonnavithula, D.A. Leger, and P.H. Milburn|Impact of Atrazine-Bearing Agricultural Tile Drainage Discharge on Planktonic Drift of a Natural Stream|Environ. Pollut.76:201-210|1992|10.1016/0269-7491(92)90138-Z
12747|A||Bielinska,I.|Dielectric, Haematological and Biochemical Studies of Detergent Toxicity in Fish Blood|Phys. Med. Biol.32(5): 623-635|1987|10.1088/0031-9155/32/5/008
12748|A||Blaise,C., R. Legault, N. Bermingham, R. Van Coillie, and P. Vasseur|A Simple Microplate Algal Assay Technique for Aquatic Toxicity Assessment|Toxic. Assess.1:261-281|1986|10.1002/tox.2540010302
12749|A||Cragg,B.A., and J.C. Fry|A Simple Model to Describe Deoxygenation Following Application of the Aquatic Herbicide Terbutryne|Aquat. Bot.24(4): 385-396|1986|10.1016/0304-3770(86)90104-X
12750|A||Gilderhus,P.A., and L.L. Marking|Comparative Efficacy of 16 Anesthetic Chemicals on Rainbow Trout|N. Am. J. Fish. Manag.7(2): 288-292|1987|10.1577/1548-8659(1987)7<288:CEOACO>2.0.CO;2
12751|A||Hamilton,S.J., A.N. Palmisano, G.A. Wedemeyer, and W.T. Yasutake|Impacts of Selenium on Early Life Stages and Smoltification of Fall Chinook Salmon|Trans. N. Am. Wildl. Nat. Resour. Conf.51:343-356|1986|
12752|A||Mane,U.H., K.S. Pillai, S.R. Akarte, D.A. Kulkarni, and K.R. Rao|Changes in Metabolites and Physiological Activities in a Freshwater Mussel, Indonaia caeruleus (Prashad) due to Short-Term Exposure to Fluoride|Fluoride20(2): 84-91|1987|
12753|A||Yen,J.|Sorption of Plutonium-237 by Two Species of Marine Phytoplankton|J. Phycol.17(4): 346-352|1981|10.1111/j.1529-8817.1981.tb00861.x
12754|A||Moore,S.B., R.A. Diehl, J.M. Barnhardt, and G.B. Avery|Aquatic Toxicities of Textile Surfactants|Text. Chem. Color.19(5): 29-32|1987|
12755|A||Parashar,B.D., and K.M. Rao|Effects of Long-Term Exposure to Low Concentrations of Molluscicides on a Fresh-Water Snail, Indoplanorbis exustus, a Vector of Schistosomiasis|Malacologia27(2): 265-269|1986|
12756|A||Robinson,J.W., and P.M. Deano|Acid Rain:  The Effects of pH, Aluminum, and Leaf Decomposition Products on Fish Survival|Am. Lab.18(7): 17-26|1986|
12757|A||Symonik,D.M., J.R. Coats, and S.P. Bradbury|Relative Toxicity of Fenvalerate and Its Constituent Isomers to Fathead Minnows and Bluegill|Proc. Iowa Acad. Sci.94(1): 30-|1986|
12758|A||Tarbox,N.T., and R.A. Angus|Phenol Resistance in Mosquitofish (Gambusia affinis): A Study of Physiological Mechanisms|J. Ala. Acad. Sci.58(3): 113-|1986|
12759|A||Williams,E.M., and F.B. Eddy|Chloride Uptake in Freshwater Teleosts and its Relationship to Nitrite Uptake and Toxicity|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.156:867-872|1986|10.1007/BF00694263
12761|A||Lewis,M.A., M.J. Taylor, and R.J. Larson|Structural and Functional Response of Natural Phytoplankton and Periphyton Communities to a Cationic Surfactant with Considerations on Environmental Fate|ASTM Spec. Tech. Publ.:241-268|1986|
12762|A||McCormick,P.V., J.R. Pratt, and J.,Jr. Cairns|Effect of 3-Trifluoromethyl-4-Nitrophenol on the Structure and Function of Protozoan Communities Established on Artificial Substrates|ASTM Spec. Tech. Publ.:224-240|1986|
12763|A||Shannon,L.J., M.C. Harrass, J.D. Yount, and C.T. Walbridge|A Comparison of Mixed Flask Culture and Standardized Laboratory Model Ecosystems for Toxicity Testing|ASTM Spec. Tech. Publ.:135-157|1986|
12764|A||Mayack,D.T., P.B. Bush, D.G. Neary, and J.E. Douglass|Impact of Hexazinone on Invertebrates After Application to Forested Watersheds|Arch. Environ. Contam. Toxicol.11(2): 209-217|1982|10.1007/BF01054898
12765|A||Sundaram,K.M.S., S.B. Holmes, D.P. Kreutzweiser, A. Sundaram, and P.D. Kingsbury|Environmental Persistence and Impact of Diflubenzuron in a Forest Aquatic Environment Following Aerial Application|Arch. Environ. Contam. Toxicol.20(3): 313-324|1991|10.1007/BF01064396
12766|A||Adams,W.J., P.S. Ziegenfuss, W.J. Renaudette, and R.G. Mosher|Comparison of Laboratory and Field Methods for Testing the Toxicity of Chemicals Sorbed to Sediments|ASTM Spec. Tech. Publ.9:494-513|1986|
12767|A||Bridgham,S.D.|The Chronic Effects of 2,2'-Dichlorobiphenyl on Daphnia schodleri|Proc. Conf. Gt. Lakes Res.:26-|1987|
12768|A||Gupta,A.K., and S.K. Sharma|Bioaccumulation of Zinc in Cirrhinus mrigala (Hamilton) Fingerlings During Short-Term Static Bioassay|J. Environ. Biol.15(3): 231-237|1994|
12769|A||Zhokhov,A.E.|Effect of the Pollution of Water-Bodies on Life Cycles in Trematodes|C. A. Sel. Environ. Pollut.17:1 p. |1987|
12770|A||Dillon,T.M., and B.C. Suedel|The Relationship Between Cadmium Bioaccumulation and Survival, Growth, and Reproduction in the Freshwater Crustacean, Daphnia magna|In: Environ.Contam., 2nd Int.Conf., CEP Consultant, Edinburgh, U.K.:21-23|1986|
12771|A||Buzinova,N.S., L.V. Kolosova, G.V. Kossova, and O.P. Melekhova|On the Peculiarities of Pond Snail Intoxication by Triphenyltin Chloride|C. A. Sel. Environ. Pollut.23:1 p.|1987|
12773|A||Pednekar,M.D., S.R. Gandhi, and M.S. Netrawali|Effect of a Single Exposure of Organophosphorous Insecticide, Phosalone on Sexual Life Cycle of Alga Chlamydomonas reinhardtii|Environ. Int.13:219-223|1987|10.1016/0160-4120(87)90093-6
12774|A||Lickly,T.D., and P.G. Murphy|The Amount and Identity of [14C] Residues in Bluegills (Lepomis macrochirus) Exposed to [14C] Triclopyr|Environ. Int.13:213-218|1987|10.1016/0160-4120(87)90092-4
12775|A||Brown,J.A., P.H. Johansen, P.W. Colgan, and R.A. Mathers|Impairment of Early Feeding Behavior of Largemouth Bass by Pentachlorophenol Exposure: A Preliminary Assessment|Trans. Am. Fish. Soc.116:71-78|1987|10.1577/1548-8659(1987)116<71:IOEFBO>2.0.CO;2
12776|A||Hamilton,S.J., P.M. Mehrle, and J.R. Jones|Evaluation of Metallothionein Measurement as a Biological Indicator of Stress From Cadmium in Brook Trout|Trans. Am. Fish. Soc.116(4): 551-560|1987|10.1577/1548-8659(1987)116<551:EOMMAA>2.0.CO;2
12777|A||Bakthavathsalam,R.|Effect of Lindane and Carbofuran on the Survival Times and Total Evaporative Water Loss of the Fish Anabas testudineus at Submerged Condition and on Exposure to Air|Environ. Ecol.4(4): 533-535|1986|
12778|A||Kobayashi,I.|Effects of Water Hardness on Lethal Concentrations of Surfactants and Detergents in Killifish|Gosei Senzai Kenkyukaishi9(2): 13-20|1986|
12779|A||Hamilton,S.J., P.M. Mehrle, and J.R. Jones|Cadmium-Saturation Technique for Measuring Metallothionein in Brook Trout|Trans. Am. Fish. Soc.116(4): 541-550|1987|10.1577/1548-8659(1987)116<541:CTFMMI>2.0.CO;2
12780|A||Ghosh,T.K., and S.K. Chatterjee|Effect of Aldrin on Some Hematological Variables of a Freshwater Fish Sarotherodon mossambicus|Aquat. Sci. Fish. Abstr.17(1): 1071-1Q17|1987|
12781|A||Nath,K., and N. Kumar|Toxicity of Manganese and Its Impact on Some Aspects of Carbohydrate Metabolism of a Freshwater Teleost, Colisa fasciatus|Sci. Total Environ.67:257-262|1987|10.1016/0048-9697(87)90216-6
12782|A||Joshi,S.N., and P. Chamoli|Toxicity of Zinc Sulfate to the Hill Stream Fish Noemacheilus montanus|Aquat. Sci. Fish. Abstr.17(8, Pt. 1): 11826-1Q17|1987|
12783|A||Kumari,J.P., K.R.P. Naidu, D.C. Reddy, and B.P. Naidu|Impact of Endosulfan on Blood Gases of the Freshwater Snail Pila globosa|Aquat. Sci. Fish. Abstr.17(8, Pt.1): 11877-1Q17|1987|
12784|A||Kumari,J.P., R.P. Naidu, and B.P. Naidu|Impact of Endosulfan on the Organic Composition of Blood of the Snail Pila globosa|Aquat. Sci. Fish. Abstr.17(8, Pt.1): 11879-1Q17|1987|
12785|AT||Everts,J.W., K. Van Frankenhuyzen, B. Roman, and J.H. Koeman|Side-Effects of Experimental Pyrethroid Applications for the Control of Tsetseflies in a Riverine Forest Habitat (Africa)|Arch. Environ. Contam. Toxicol.12(1): 91-97|1983|10.1007/BF01055007
12786|A||Murthy,B.N., K.S. Prasad, C. Madhu, and K.V.R. Rao|Toxicity of Lindane to Freshwater Fish Tilapia mossambica|Environ. Ecol.4(1): 20-23|1986|
12787|A||Patil,H.S., and M.B. Kaliwal|Relative Sensitivity of a Freshwater Prawn Macrobrachium hendersodyanum to Heavy Metals|Environ. Ecol.4(2): 286-288|1986|
12788|A||Radhaiah,V., M. Girija, P.P. Rao, and K.J. Rao|Histopathology of Kidney of the Freshwater Fish Tilapia mossambica Exposed to Heptachlor|Environ. Ecol.4(4): 600-601|1986|
12790|A||Rao,K.S., and R. Nagabhushanam|Toxicity of DDT and Malathion to the Freshwater Crab Barytelphusa cunicularis|Aquat. Sci. Fish. Abstr.17(8, Pt. 1): 11842-1Q17|1987|
12791|A||Rao,M.R., K.V. Kumari, R.K. Babu, and A.C. Reddy|Elsan Induced Alterations in Selected Tissue Dehydrogenase Activity Levels of the Freshwater Snail Pila globosa|Aquat. Sci. Fish. Abstr.17(8): 11875-1Q17|1987|
12792|A||Ruparelia,S.G., Y. Verma, N.S. Mehta, S.R. Saiyed, and S.K. Kashyap|A Clinical Approach for Cadmium intoxication in Freshwater Fish Sarotherodon mossambica|Environ. Ecol.5(1): 144-148|1987|
12793|A||Cripe,C.R., W.W. Walker, P.H. Pritchard, and A.W. Bourquin|A Shake-Flask Test for Estimation of Biodegradability of Toxic Organic Substances in the Aquatic Environment|Ecotoxicol. Environ. Saf.14:239-251|1987|10.1016/0147-6513(87)90067-4
12795|A||Hatakeyama,S.|Chronic Effects of Cd on Reproduction of Polypedilum nubifer (Chironomidae) Through Water and Food|Environ. Pollut.48:249-261|1987|10.1016/0269-7491(87)90106-0
12796|A||Hatakeyama,S., and M. Yasuno|Chronic Effects of Cd on the Reproduction of the Guppy (Poecilia reticulata) Through Cd-Accumulated Midge Larvae (Chironomus yoshimatsui)|Ecotoxicol. Environ. Saf.14:191-201|1987|10.1016/0147-6513(87)90062-5
12797|A||Hilmy,A.M., N.A. El Domiaty, and K. Wershana|Effect of Sodium Chloride and Calcium Chloride on Nitrite Induced Methemoglobinemia in Clarias lazera|Water Air Soil Pollut.33(1-2): 57-63|1987|10.1007/BF00191377
12798|A||Katti,S.R., and A.G. Sathyanesan|Lead Nitrate-Induced Nuclear Inclusions in the Oocytes of the Catfish Clarias batrachus (L)|Environ. Res.44:238-240|1987|10.1016/S0013-9351(87)80232-3
12799|A||Khangarot,B.S., P.K. Ray, and H. Chandra|Preventive Effects of Amino Acids on the Toxicity of Copper to Daphnia magna|Water Air Soil Pollut.32(3-4): 379-387|1987|10.1007/BF00225122
12800|A||Lawrence,S.G., and M.H. Holoka|Effects of Low Concentrations of Cadmium on the Crustacean Zooplankton Community of an Artificially Acidified Lake|Can. J. Fish. Aquat. Sci.44(suppl.1): 163-172|1987|
12801|A||Mathur,R., and D.M. Saxena|Bioconcentration of HCH Isomers by the Ciliate Protozoan, Tetrahymena pyriformis Under Laboratory Conditions|Water Air Soil Pollut.32(3-4): 323-327|1987|10.1007/BF00225118
12802|A||Naqvi,S.M., R. Hawkins, and N.H. Naqvi|Mortality Response and LC50 Values for Juvenile and Adult Crayfish, Procambarus clarkii Exposed to Thiodan (Insecticide), Treflan, Msma, Oust|Environ. Pollut.48(4): 275-283|1987|10.1016/0269-7491(87)90108-4
12803|A||Nath,K., and N. Kumar|Toxic Impact of Hexavalent Chromium on the Blood Pyruvate of Colisa fasciatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)15(5): 531-534|1987|10.1002/aheh.19870150516
12804|A||Yount,J.D., and L.J. Shannon|State Changes In Laboratory Microecosystems in Response to Chemicals From Three Structural Groups|ASTM Spec. Tech. Publ.:86-96|1988|
12805|A||Takeda,T., K. Yamasaki, and Y. Itazawa|Effect of MS222 on Respiration and Efficacy of Forced Branchial Irrigation with the Anesthetic Solution in Carp|Nippon Suisan Gakkaishi (Multiple Languages)53(10): 1701-1709|1987|10.2331/suisan.53.1701
12806|A||Watson,C.F., and W.H. Benson|Comparative Activity of Gill Atpase in Three Freshwater Teleosts Exposed to Cadmium|Ecotoxicol. Environ. Saf.14:252-259|1987|10.1016/0147-6513(87)90068-6
12807|A||Tarazona,J.V., M. Munoz, J.A. Ortiz, M. Nunez, and J.A. Camargo|Fish Mortality Due to Acute Ammonia Exposure|Aquac. Fish. Manag.18(2): 167-172|1987|
12808|A||Cleland,G.B., and R.A. Sonstegard|Natural Killer Cell Activity in Rainbow Trout (Salmo gairdneri):  Effect of Dietary Exposure to Aroclor 1254 and/or Mirex|Can. J. Fish. Aquat. Sci.44:636-638|1987|10.1139/f87-077
12809|A||Hersh,C.M., and W.G. Crumpton|Determination of Growth Rate Depression of Some Green Algae by Atrazine|Bull. Environ. Contam. Toxicol.39(6): 1041-1048|1987|10.1007/BF01689596
12810|A||Holck,A.R., and C.L. Meek|Dose-Mortality Responses of Crawfish and Mosquitoes to Selected Pesticides|Am. Mosq. Control Assoc. J.3(3): 407-411|1987|
12811|A||Larsson,P., and A. Sodergren|Transport of Polychlorinated Biphenyls (PCBs) in Freshwater Mesocosms From Sediment to Water and Air|Water Air Soil Pollut.36:33-46|1987|10.1007/BF00450618
12812|A||Sawyer,P.L., and A.G. Heath|Cardiac, Ventilatory and Metabolic Responses of Two Ecologically Dissimilar Species of Fish to Waterborne Cyanide|Fish Physiol. Biochem.4(4): 203-219|1988|10.1007/BF01871746
12813|A||Mitchell,D.G., P.M. Chapman, and T.J. Long|Acute Toxicity of Roundup and Rodeo Herbicides to Rainbow Trout, Chinook, and Coho Salmon|Bull. Environ. Contam. Toxicol.39:1028-1035|1987|10.1007/BF01689594
12815|A||Pekkala,C.M., and B. Koopman|Effect of Toxicants on Algal Sinking Rates|Water Air Soil Pollut.36:155-162|1987|10.1007/BF00450626
12816|A||Radhaiah,V., M. Girija, and K.J. Rao|Changes in Selected Biochemical Parameters in the Kidney and Blood of the Fish, Tilapia mossambica (Peters), Exposed to Heptachlor|Bull. Environ. Contam. Toxicol.39:1006-1011|1987|10.1007/BF01689591
12817|A||Starodub,M.E., P.T.S. Wong, C.I. Mayfield, and Y.K. Chau|Influence of Complexation and pH on Individual and Combined Heavy Metal Toxicity to a Freshwater Green Alga|Can. J. Fish. Aquat. Sci.44:1173-1180|1987|10.1139/f87-140
12818|A||Tarazona,J.V., and O. Nunez|Acute Toxicity of Synthetic Detergents to Snails: Effect of Sodium Lauryl Sulfate on Limnaea peregra Shells|Bull. Environ. Contam. Toxicol.39:1036-1040|1987|10.1007/BF01689595
12819|A||Wong,P.T.S., Y.K. Chau, J.L. Yaromich, and O. Kramar|Bioaccumulation and Metabolism of Tri- and Dialkyllead Compounds by a Freshwater Alga|Proc. Annu. Aquat. Toxic. Workshop13:37-38|1987|
12820|A||Woock,S.E., W.R. Garrett, W.E. Partin, and W.T. Bryson|Decreased Survival and Teratogenesis During Laboratory Selenium Exposures to Bluegill, Lepomis macrochirus|Bull. Environ. Contam. Toxicol.39:998-1005|1987|10.1007/BF01689590
12821|A||Siefert,R.E.|Effects of Dursban (Chlorpyrifos) on Aquatic Organisms in Enclosures in a Natural Pond|Final Report, U.S.EPA, Duluth, MN:214 p.|1987|
12822|A||Deoray,B.M., and S.B. Wagh|Acute Toxicity of Thiodan, Nuvan and Dithane M-45 to the Freshwater Fish, Barilius bendelisis (Ham.)|Geobios (Jodhpur)14(4): 151-153|1987|
12823|A||El Karim,A.A.A., E.A.E. Mohamed, and A.E.A.A.M. Haridi|The Effect of the Molluscicide, Niclosamide on Non-Target Organisms of the Gezira Irrigated Scheme (Sudan)|J. Biol. Sci. Res.18(2): 101-110|1987|
12824|A||Sarojini,R., K.B. Jaiswal, and R. Nagabhushanam|Sublethal Naphthalene Induced Alterations in Total Protein, Free Amino Acids AIAT, AAT and GDH in Freshwater Prawn, Macrobrachium kistnensis|Indian J. Comp. Anim. Physiol.5(1): 6-11|1987|
12825|A||De Nicola Giudici,M., L. Migliore, C. Gambardella, and A. Marotta|Effect of Chronic Exposure to Cadmium and Copper on Asellus aquaticus (L.) (Crustacea, Isopoda)|Hydrobiologia (Multiple Languages)157(3): 265-269|1988|10.1007/BF00004202
12826|A||Genter,R.B., D.S. Cherry, E.P. Smith, and J.,Jr. Cairns|Algal-Periphyton Population and Community Changes From Zinc Stress in Stream Mesocosms|Hydrobiologia (Multiple Languages)153:261-275|1987|10.1007/BF00007213
12827|A||Kukkonen,J., and A. Oikari|Effects of Aquatic Humus on Accumulation and Acute Toxicity of Some Organic Micropollutants|Sci. Total Environ.62:399-402|1987|10.1016/0048-9697(87)90527-4
12828|A||MacMahon,P.D., K.A. Jeffrey, F.W.H. Beamish, S.C. Ferguson, and R.J. Kolton|Effects of the Lampricide, 3-Trifluoromethyl-4-Nitrophenol (TFM) on the Macroinvertebrates of Wilmot Creek|Hydrobiologia (Multiple Languages)148:25-34|1987|10.1007/BF00018163
12829|A||Lin,Y.X., and B.Z. Sun|Accumulation, Degradation and Biological Effects of Lindane on Scenedesmus obliquus (Turp.) Kutz|Hydrobiologia (Multiple Languages)153:249-252|1987|10.1007/BF00007211
12830|A||Kummerlin,R.|Interactions Between the Sorption of the Herbicide Atrazine and the Physiological Condition of Planctic Algae|Arch. Hydrobiol.66(4): 495-571|1986|
12831|A||Malyarevskaya,A.Y., and F.M. Karasina|Effect of Lead Nitrate on Physiological and Biochemical Characteristics of Certain Aquatic Invertebrates|Hydrobiol. J.23(1): 84-89|1987|
12832|A||Yamamitsu,S., and Y. Itazawa|Effects of an Anesthetic 2-Phenoxyethanol on the Heart Rate, ECG and Respiration in Carp|Nippon Suisan Gakkaishi (Multiple Languages)54(10): 1737-1746|1988|10.2331/suisan.54.1737
12833|A||Ritchie,L.S., L.A. Berrios-Duran, L.P. Frick, and I. Fox|Molluscicidal Time-Concentration Relationships of Organo-tin Compounds|Bull. W. H. O.31:147-149|1964|
12834|A||Loekle,D.|The Effects of Chlorinated Hydrocarbons on Carassius auratus (Goldfish)|Ph.D.Thesis, State University of New York, Binghamton, NY:71 p.|1987|
12835|A||Day,K.E.|The Acute, Chronic and Sublethal Effects of the Synthetic Pyrethroid Fenvalerate on Zooplankton in the Laboratory and the Field|Ph.D Thesis, Univ.of Guelph, Ontario, Canada:257 p.|1986|
12836|A||Slabbert,J.L., and J.P. Maree|Evaluation of Interactive Toxic Effects of Chemicals in Water Using a Tetrahymena pyriformis Toxicity Screening Test|Water SA12(2): 57-62|1986|
12837|A||Goddard,K.A., R.J. Schultz, and J.J. Stegeman|Uptake, Toxicity, and Distribution of Benzo(a)pyrene and Monooxygenase Induction in the Topminnows Poeciliopsis monacha and Poeciliopsis lucida|Drug Metab. Dispos.15(4): 449-455|1987|
12838|A||Budd,K., J.R. Casey, and J.D. MacArthur|Arsenite Toxicity and Arsenite Tolerance in the Cyanobacterium Synechococcus leopoliensis|Can. J. Bot.64(11): 2433-2440|1986|10.1139/b86-324
12839|A||Yoshimura,K.|Biodegradation and Fish Toxicity of Nonionic Surfactants|J. Am. Oil Chem. Soc.63(12): 1590-1596|1986|10.1007/BF02553093
12840|A||Chen,X., and A. Sun|Toxicity Test of Aldicarb on Garassius anralus L.|C. A. Sel. Environ. Pollut.25:1 p.|1986|
12841|A||Gan,J., and Z. Chen|Fate of Fenvalerate in a Model Rice-Water-Fish Ecosystem|Acta Sci.Circumst.(Huanjing Kexue Xuebao)6(3): 263-272|1986|
12842|A||Calabrese,E.J., C.C. Chamberlain, R. Coler, and M. Young|The Effects of Trichloroacetic Acid, a Widespread Product of Chlorine Disinfection, on the Dragonfly Nymph Respiration|J. Environ. Sci. Health22(4): 343-355|1987|
12843|A||Crossland,N.O.|Predicting the Hazards of Chemicals to Aquatic Environments|Chem. Ind. (Lond.)21:740-744|1986|
12844|A||Yamamoto,T.|Effects of Synthetic Detergents on the Development of Killifish|Gosei Senzai Kenkyukaishi9(2): 9-12|1986|
12846|A||Newman,R.M., J.A. Perry, E. Tam, and R.L. Crawford|Effects of Chronic Chlorine Exposure on Litter Processing in Outdoor Experimental Streams|Freshw. Biol.18(3): 415-428|1987|10.1111/j.1365-2427.1987.tb01327.x
12847|A||Meador,J.P.|An Analysis of Photobehavior of Daphnia magna Exposed to Tributyltin|In: Oceans 86, IEEE Publishing Services, New York, NY:1213-1218|1986|
12848|A||Rath,P., B.N. Misra, and A.K. Panigrahi|Effect of 2-Methoxy Ethyl Mercury Chloride (Emisan-6) on the Nitrogen Metabolism of a Blue-Green Alga, Westiellopsis prolifica, Janet|Microbios Lett.31(121): 15-20|1986|
12849|A||Rath,P., S.B. Choudhury, and B.N. Misra|Effects of Emisan-6 (2-Methoxy Ethyl Mercury Chloride) on the Growth of Westiellopsis prolifica, Janet|Microbios Lett.34(135-136):129-133|1987|
12850|A||Sundaram,K.M.S., and S.Y. Szeto|Distribution and Persistence of Carbaryl in Some Terrestrial and Aquatic Components of a Forest Environment|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes22(5): 579-599|1987|
12851|A||Chitra,T., and J.V. Ramana Rao|Temperature Induced Changes in Certain Haematological Parameters in Mercury Treated Channa punctatus Bloch|Comp. Physiol. Ecol.11(2): 49-53|1986|
12852|A||Payne,N., B. Helson, K. Sundaram, P. Kingsbury, R. Fleming, and P. DeGroot|Estimating the Buffer Required Around Water During Permethrin Applications|Rep.No.FPM-X-70, Gov.of Canada, Forest Pest Manag.Inst., Can.For.Serv., Sault Ste.Marie, Ontario, Canada:26 p.|1986|
12853|A||Zora,K., and F. Paladino|Combined Toxicity of Atrazine and Acid Exposure to Bluntnose Minnows, Pimephales notatus|Fed. Proc.45(4): 916-|1986|
12854|A||Paulose,P.V., and C.L. Mahajan|Effect of Temperature on Toxicity and Accumulation of Mercury Compounds in a Fish Gambusia affinis|Comp. Physiol. Ecol.12(1): 52-54|1987|
12855|A||Acosta,A., N. Sanchez, C.M. Mella, and M. Noa|Survey of Organochlorine Pesticide Pollution in Freshwater Reservoirs|C. A. Sel. Environ. Pollut.22:3-|1986|
12856|A||Yu,J.P., and K. Hirayama|The Effect of Un-Ionized Ammonia on the Population Growth of the Rotifer in Mass Culture|Nippon Suisan Gakkaishi (Multiple Languages)52(9): 1509-1513|1986|10.2331/suisan.52.1509
12857|A||Bonaly,J., M. Miginiac-Maslow, E. Brochiero, A. Hoarau, and J.C. Mestre|Cadmium Effects on the Energetics of Euglena During the Development of Cadmium Resistance|J. Plant Physiol.123(4): 349-358|1986|10.1016/S0176-1617(86)80095-5
12858|A|MED03|Geiger,D.L., S.H. Poirier, L.T. Brooke, and D.J. Call|Acute Toxicities of Organic Chemicals to Fathead Minnows (Pimephales promelas) Volume III|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:328 p.|1986|
12859|A|MED04|Geiger,D.L., D.J. Call, and L.T. Brooke|Acute Toxicities of Organic Chemicals to Fathead Minnows (Pimephales promelas) Volume IV|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI4:355 p.|1988|
12860|A||Akarte,S.R., and U.H. Mane|Toxicity of Folithion to Three Species of Freshwater Bivalve Molluscs in Different Seasons|J. Environ. Biol.9(1): 27-38|1988|
12861|A||MacDonald,J.M., J.D. Shields, and R.K. Zimmer-Faust|Acute Toxicities of Eleven Metals to Early Life-History Stages of the Yellow Crab Cancer anthonyi|Mar. Biol.98(2): 201-207|1988|10.1007/BF00391195
12862|A||Akarte,S.R., V.V. Hiwale, and U.H. Mane|Acute Toxicity of Monocrotophos to the Estuarine Clam Meretrix meretrix (Gmelin) From Ratnagiri Coast|J. Adv. Zool.7(1): 57-59|1986|
12863|A||Almar,M.M., M.M.D. Ferrando, V. Alarcon, C. Soler, and E. Andreu|Influence of Temperature on Several Pesticides Toxicity to Melanopsis dufouri Under Laboratory Conditions|J. Environ. Biol.9(2): 183-190|1988|
12864|A||Ankley,G.T., and V.S. Blazer|Effects of Diet on PCB-Induced Changes in Xenobiotic Metabolism in the Liver of Channel Catfish (Ictalurus punctatus)|Can. J. Fish. Aquat. Sci.45(1): 132-137|1988|10.1139/f88-014
12865|A||Bengtsson,B.E., A. Larsson, A. Bengtsson, and L. Renberg|Sublethal Effects of Tetrachloro-1,2-Benzoquinone - A Component in Bleachery Effluents From Pulp Mills on Vertebral Quality and Physiological|Ecotoxicol. Environ. Saf.15(1): 62-71|1988|10.1016/0147-6513(88)90043-7
12866|A||Brown,J.H., J.S. Buchanan, and J.E. Whitley|Uptake and Excretion of Inorganic Mercury in the Lobster Homarus gammarus (L.) White 1847: Long-Term Effects of Exposure to Low Levels of the Metal|Ecotoxicol. Environ. Saf.15(2): 125-141|1988|10.1016/0147-6513(88)90064-4
12867|A||Casillas,E., and W. Ames|Hepatotoxic Effects of CCl4 on English Sole (Parophrys vetulus):  Possible Indicators of Liver Dysfunction|Comp. Biochem. Physiol. C Comp. Pharmacol.84(2): 397-400|1986|10.1016/0742-8413(86)90112-X
12868|A||Chawla,G., P.N. Viswanathan, and S. Devi|Phycotoxicity of Linear Alkylbenzene Sulfonate|Ecotoxicol. Environ. Saf.15(2): 119-124|1988|10.1016/0147-6513(88)90063-2
12869|A||Cockell,K.A., and J.W. Hilton|Preliminary Investigations on the Comparative Chronic Toxicity of Four Dietary Arsenicals to Juvenile Rainbow Trout (Salmo gairdneri R.)|Aquat. Toxicol.12(1): 73-82|1988|10.1016/0166-445X(88)90021-5
12870|A||Das,K., B. Nanda, and A.K. Hota|Intake of Lead From Contaminated Medium by Heteropneustes fossilis (Bloch)|Comp. Physiol. Ecol.10(3): 145-149|1985|
12871|A||De Nicola Guidici,M., L. Migliore, and S.M. Guarino|Sensitivity of Asellus aquaticus (L.) and Proasellus coxalis Dollf. (Crustacea, Isopoda) to Copper|Hydrobiologia (Multiple Languages)146:63-69|1987|10.1007/BF00007578
12872|A||Deneer,J.W., W. Seinen, and J.L.M. Hermens|Growth of Daphnia magna Exposed to Mixtures of Chemicals with Diverse Modes of Action|Ecotoxicol. Environ. Saf.15(1): 72-77|1988|10.1016/0147-6513(88)90044-9
12873|A||Doe,K.G., W.R. Ernst, W.R. Parker, G.R.J. Julien, and P.A. Hennigar|Influence of pH on the Acute Lethality of Fenitrothion, 2,4-D, and Aminocarb and Some pH-Altered Sublethal Effects of Aminocarb on Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.45(2): 287-293|1988|10.1139/f88-034
12874|A||Doherty,F.G., D.S. Cherry, and J.,Jr. Cairns|Valve Closure Responses of the Asiatic Clam Corbicula fluminea Exposed to Cadmium and Zinc|Hydrobiologia (Multiple Languages)153(2): 159-167|1987|10.1007/BF00006647
12875|A||Edmonds,J.S., and K.A. Francesconi|Trimethylarsine Oxide in Estuary Catfish (Cnidoglanis macrocephalus) and School Whiting (Sillago bassensis) After Oral Administration of Sodium Arsen|Sci. Total Environ.64(3): 317-323|1987|10.1016/0048-9697(87)90253-1
12876|A||Feind,D., F.J. Zieris, and W. Huber|Effects of Sodium Pentachlorophenate on the Ecology of a Freshwater Model Ecosystem|Environ. Pollut.50:211-223|1988|10.1016/0269-7491(88)90224-2
12877|A||Fisher,D.J., J.R. Clark, M.H.,Jr. Roberts, J.P. Connolly, and L.H. Mueller|Bioaccumulation of Kepone by Spot (Leiostomus xanthurus): Importance of Dietary Accumulation and Ingestion Rate|Aquat. Toxicol.9(2-3): 161-178|1986|10.1016/0166-445X(86)90021-4
12878|A||Fletcher,T.C., and A. White|Nephrotoxic and Haematological Effects of Mercuric Chloride in the Plaice (Pleuronectes platessa L.)|Aquat. Toxicol.8(2): 77-84|1986|10.1016/0166-445X(86)90054-8
12879|A||Gharrett,J.A., and S.D. Rice|Influence of Simulated Tidal Cycles on Aromatic Hydrocarbon Uptake and Elimination by the Shore Crab Hemigrapsus nudus|Mar. Biol.95(3): 365-370|1987|10.1007/BF00409566
12880|A||Gill,T.S., J.C. Pant, and H. Tewari|Branchial Pathogenesis in a Freshwater Fish, Puntius conchonius Ham., Chronically Exposed to Sublethal Concentrations of Cadmium|Ecotoxicol. Environ. Saf.15(2): 153-161|1988|10.1016/0147-6513(88)90067-X
12881|A||Goodman,L.R., D.J. Hansen, G.M. Cripe, D.P. Middaugh, and J.C. Moore|A New Early Life-Stage Toxicity Test Using the California Grunion (Leuresthes tenuis) and Results with Chlorpyrifos|Ecotoxicol. Environ. Saf.10(1): 12-21|1985|10.1016/0147-6513(85)90003-X
12882|A||Helgen,J.C., N.J. Larson, and R.L. Anderson|Responses of Zooplankton and Chaoborus to Temephos in a Natural Pond and in the Laboratory|Arch. Environ. Contam. Toxicol.17(4): 459-471|1988|10.1007/BF01055511
12883|A||Hilton,J.W., and W.J. Bettger|Dietary Vanadium Toxicity in Juvenile Rainbow Trout: A Preliminary Study|Aquat. Toxicol.12(1): 63-71|1988|10.1016/0166-445X(88)90020-3
12884|A||Hinton,D.E., J.A. Couch, S.J. Teh, and L.A. Courtney|Cytological Changes During Progression of Neoplasia in Selected Fish Species|Aquat. Toxicol.11(1-2): 77-112|1988|10.1016/0166-445X(88)90008-2
12885|A||Jarvinen,A.W., D.K. Tanner, and E.R. Kline|Toxicity of Chlorpyrifos, Endrin, or Fenvalerate to Fathead Minnows Following Episodic or Continuous Exposure|Ecotoxicol. Environ. Saf.15(1): 78-95|1988|10.1016/0147-6513(88)90045-0
12886|A||Jovanovich,M.C., and K.R. Marion|Seasonal Variation in Uptake and Depuration of Anthracene by the Brackish Water Clam Rangia cuneata|Mar. Biol.95(3): 395-403|1987|10.1007/BF00409570
12887|A||Jones,K.A., and T.J. Hara|Behavioral Alterations in Arctic Char (Salvelinus alpinus) Briefly Exposed to Sublethal Chlorine Levels|Can. J. Fish. Aquat. Sci.45(4): 749-753|1988|10.1139/f88-092
12888|A||Kaushik,N.K., K.R. Solomon, G. Stephenson, and K. Day|Assessment of Sublethal Effects of Atrazine on Zooplankton|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1368:377-379|1985|
12889|A||Khillare,Y.K., and S.B. Wagh|Effect of Malathion on Levels of Ascorbic Acid in Freshwater Fish, Barbus ticto (Ham)|J. Adv. Zool.7(2): 105-107|1986|
12890|A||Kirubagaran,R., and K.P. Joy|Toxic Effects of Three Mercurial Compounds on Survival, and Histology of the Kidney of the Catfish Clarias batrachus (L.)|Ecotoxicol. Environ. Saf.15(2): 171-179|1988|10.1016/0147-6513(88)90069-3
12891|A||Mailhot,H.|Prediction of Algal Bioaccumulation and Uptake Rate of Nine Organic Compounds by Ten Physicochemical Properties|Environ. Sci. Technol.21(10): 1009-1013|1987|10.1021/es50001a016
12893|A||Munkittrick,K.R., and D.G. Dixon|Evidence for a Maternal Yolk Factor Associated with Increased Tolerance and Resistance of Feral White Sucker (Catostomus commersoni) to Waterborne Copper|Ecotoxicol. Environ. Saf.15(1): 7-20|1988|10.1016/0147-6513(88)90038-3
12894|A||Munzinger,A., and M.L. Guarducci|The Effect of Low Zinc Concentrations on Some Demographic Parameters of Biomphalaria glabrata (Say), Mollusca: Gastropoda|Aquat. Toxicol.12(1): 51-61|1988|10.1016/0166-445X(88)90019-7
12895|A||Nagabhushanam,R., K. Sambasivarao, and R. Sarojini|Acute Toxicity of Three Heavy Metals to Marine Edible Crab, Scylla serrata|J. Adv. Zool.7(2): 97-99|1986|
12896|A||Nemcsok,J.G., and G.M. Hughes|The Effect of Copper Sulphate on Some Biochemical Parameters of Rainbow Trout|Environ. Pollut.49:77-85|1988|10.1016/0269-7491(88)90015-2
12897|A||Newman,M.C., and S.V. Mitz|Size Dependence of Zinc Elimination and Uptake From Water by Mosquitofish Gambusia affinis (Baird and Girard)|Aquat. Toxicol.12(1): 17-32|1988|10.1016/0166-445X(88)90016-1
12898|A||Pal,R., and P. Chatterjee|Cytological and Spermicidal Effects of Copper Sulphate on the Green Alga Chara|Indian J. Exp. Biol.25(1): 52-54|1987|
12899|A||Pandey,A.C.|Impact of Endosulfan (Thiodan) EC35 on Behavior and Dynamics of Oocyte Development in the Teleostean Fish, Colisa (Trichogaster) fasciatus|Ecotoxicol. Environ. Saf.15(2): 221-225|1988|10.1016/0147-6513(88)90075-9
12900|A||Patil,S.G., D.K. Harshey, and D.F. Singh|The Effects of DDT on Primary Production in a Pond Ecosystem|Comp. Physiol. Ecol.10(3): 139-140|1985|
12901|A||Paulose,P.V.|Comparative Study of Inorganic and Organic Mercury Poisoning on Selected Freshwater Organisms|J. Environ. Biol.9(2): 203-206|1988|
12902|A||Pratt,J.R., N.J. Bowers, B.R. Niederlehner, and J.,Jr. Cairns|Effects of Atrazine on Freshwater Microbial Communities|Arch. Environ. Contam. Toxicol.17(4): 449-457|1988|10.1007/BF01055510
12903|A||Radhakrishnaiah,K.|Effect of Cadmium on the Freshwater Mussel, Lamellidens marginalis (Lamarck) - A Physiological Approach|J. Environ. Biol.9(1 Suppl): 73-78|1988|
12904|A||Rai,L.C., and M. Raizada|Impact of Chromium and Lead on Nostoc muscorum: Regulation of Toxicity by Ascorbic Acid, Glutathione, and Sulfur-Containing Amino Acids|Ecotoxicol. Environ. Saf.15(2): 195-205|1988|10.1016/0147-6513(88)90072-3
12905|A||Reddy,M.S., and K.V.R. Rao|Modulation of Carbohydrate Metabolism in the Selected Tissues of Marine Prawn, Penaeus indicus (H. Milne Edwards), Under Phosphamidon-Induced|Ecotoxicol. Environ. Saf.15(2): 212-220|1988|10.1016/0147-6513(88)90074-7
12906|A||Reid,S.D., and D.G. McDonald|Effects of Cadmium, Copper, and Low pH on Ion Fluxes in the Rainbow Trout, Salmo gairdneri|Can. J. Fish. Aquat. Sci.45(2): 244-253|1988|10.1139/f88-029
12907|A||Riisgard,H.U., E. Bjornestad, and F. Mohlenberg|Accumulation of Cadmium in the Mussel Mytilus edulis: Kinetics and Importance of Uptake Via Food and Sea Water|Mar. Biol.96(3): 349-353|1987|10.1007/BF00412516
12908|A||Roy,D.|Toxicity of an Anionic Detergent, Dodecylbenzene Sodium Sulfonate, to a Freshwater Fish, Rita rita: Determination of LC50 Values by Different Methods|Ecotoxicol. Environ. Saf.15(2): 186-194|1988|10.1016/0147-6513(88)90071-1
12909|A||Roy,D.|Impact of Detergents on the Protein Histochemistry of Various Cell Types of the Gill Epithelium of Rita rita|Ecotoxicol. Environ. Saf.15(2): 206-211|1988|10.1016/0147-6513(88)90073-5
12910|A||Roy,P.K., and J.S.D. Munshi|Oxygen Consumption and Ventilation Rate of a Freshwater Major Carp, Cirrhinus mrigala (Ham.) in Fresh and Malathion Treated Waters|J. Environ. Biol.9(1): 5-13|1988|
12911|A||Smith,I.R., and G.R. Craig|Prediction of Organic Contaminant Aquatic Toxicity Utilizing Intraperitoneal Injections and Structure-Activity Relationships|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1151:122-135|1983|
12912|A||Smith,I.R., V.E. Valli, G.R. Craig, D.A. Rokosh, and H.F. Ferguson|Ethyl Methanesulphonate Genotoxicity in Brachydanio rerio Embryos|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1368:345-349|1985|
12913|A||Spry,D.J., P.V. Hodson, and C.M. Wood|Relative Contributions of Dietary and Waterborne Zinc in the Rainbow Trout, Salmo gairdneri|Can. J. Fish. Aquat. Sci.45(1): 32-41|1988|10.1139/f88-005
12914|A||Srivastava,A.K.|Effects of Aldrin and Malathion on Blood Chloride in the Indian Catfish Heteropneustes fossilis|J. Environ. Biol.9(1 suppl.): 91-95|1988|
12915|A||Tandon,R.S., R. Lal, and V.V.S. Rao|Interaction of Endosulfan and Malathion with Blue-Green Algae Anabaena and Aulosira fertilissima|Environ. Pollut.52(1): 1-9|1988|10.1016/0269-7491(88)90103-0
12916|A||Thompson,P.A., P. Couture, C. Thellen, and J.C. Auclair|Structure-Function Relationships for Monitoring Cellular Stress and Recovery Responses with Selenastrum capricornutum|Aquat. Toxicol.10(5/6): 291-305|1987|10.1016/0166-445X(87)90004-X
12917|A||Tomar,V., R. Sehgal, and A.K. Pandey|Melanophores Response to Chlorinated Insecticide Containing Water: A Study in Tadpoles of Bufo-melanostictus (Schneider)|Comp. Physiol. Ecol.10(4): 183-186|1985|
12918|A||Yasuno,M., T. Hanazato, T. Iwakuma, K. Takamura, R. Ueno, and N. Takamura|Effects of Permethrin on Phytoplankton and Zooplankton in an Enclosure Ecosystem in a Pond|Hydrobiologia (Multiple Languages)159(3): 247-258|1988|10.1007/BF00008238
12919|A||Babu,S.B.R., B. Jayasundaramma, and R. Ramamurthi|Behavioral Abnormalities of Juveniles of the Fish Cyprinus carpio Exposed to Methyl Parathion|Environ. Ecol.4(1): 95-97|1986|
12920|A||Ghosh,T.K.|Effects of Chromium on Free Amino Acids and Glutamate Dehydrogenase in the Fish Channa punctatus|Environ. Ecol.3(4): 560-562|1985|
12921|A||Jawale,M.D.|Toxicity of DDT and Malathion to the Marine Pulmonate Onchidium verruculatum|Environ. Ecol.4(1): 146-147|1986|
12922|A||Murthy,B.N., M.S. Reddy, and K.V.R. Rao|Significance of AMP-Deaminase, Adenosine, Deaminase and Xanthine Dehydrogenasein the Tissues of Freshwater Fish Tilapia mossambica Exposed|Environ. Ecol.3(3): 320-323|1985|
12923|A||Reddy,M.S., B.N. Murthy, and K.V.R. Rao|Toxicity of Phosphamidon to Palaemonid Shrimp Macrobrachium malcolmsonii|Environ. Ecol.3(2): 278-279|1985|
12924|A||Reddy,M.S., Y. Venkateswarlu, B.N. Murthy, and K.V.R. Rao|Alterations in the Glycolytic Pathway of Penaeid Prawn Penaeus indicus Exposed to the Pesticide Phosphamidon|Environ. Ecol.3(3): 342-344|1985|
12925|A||Reddy,M.S., Y. Venkateswarlu, P. Surendranath, and K.V.R. Rao|Changes in the Nitrogen Metabolism in the Selected Tissues of a Penaeid Prawn Penaeus indicus Exposed to Phosphamidon|Environ. Ecol.3(4): 500-503|1985|
12926|A||Sahana,S.S., and S. Jana|Effects of Mercury on Hydrogen Peroxide and Activities of Catalase and Peroxidase in Freshwater Fish Clarias batrachus|Environ. Ecol.3(4): 504-506|1985|
12927|A||Sarkar,S.K., and S.K. Konar|Effects of Ammonium Sulfate on the Behavior, Survival, Feeding, Growth and Reproduction of Fish|Environ. Ecol.3(3): 312-316|1985|
12928|A||George,S.G., and P. Young|The Time Course of Effects of Cadmium and 3-Methylcholanthrene on Activities of Enzymes of Xenobiotic Metabolism and Metallothionein Levels in the Plaice, Pleuronectes platessa|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 37-44|1986|10.1016/0742-8413(86)90010-1
12931|A||Borthwick,P.W., and R.S. Stanley|Effects of Ground ULV Applications of Fenthion on Estuarine Biota.  III.  Response of Caged Pink Shrimp and Grass Shrimp|J. Fla. Anti-Mosq. Assoc.56(2): 69-72|1985|
12932|A||McKenney,C.L.J., E. Matthews, D.A. Lawrence, and M.A. Shirley|Effects of Ground ULV Applications of Fenthion on Estuarine Biota. IV. Lethal and Sublethal Responses of an Estuarine Mysid|J. Fla. Anti-Mosq. Assoc.56(2): 72-75|1985|
12933|A||Tagatz,M.E., and G.R. Plaia|Effects of Ground ULV Applications of Fenthion on Estuarine Biota. V. Responses of Field and Laboratory Estuarine Benthic Communities|J. Fla. Anti-Mosq. Assoc.56(2): 76-81|1985|
12934|A||Adams,J.A., and S. Slaughter-Williams|The Effects of PCB's (Aroclors 1254 and 1016) on Fertilization and Morphology in Arbacia punctulata|Water Air Soil Pollut.38(3-4): 299-310|1988|10.1007/BF00280761
12935|A||Chaudhry,S., S. Rani, and R.C. Sobti|Effect of Disodium EDTA on the Salivary Chromosomes of Malaria Vector Anopheles stephensi Liston (Culicidae:  Diptera)|J. Environ. Biol.9(3 suppl.): 351-356|1988|
12936|A||Bressan,M., and R. Brunetti|The Effects of Nitriloacetic Acid, Cd and Hg on the Marine Algae Dunaliella tertiolecta and Isochrysis galbana|Water Res.22(5): 553-556|1988|10.1016/0043-1354(88)90054-1
12937|A||Gill,T.S., J.C. Pant, and H. Tewari|Branchial and Renal Pathology in the Fish Exposed Chronically to Methoxy Ethyl Mercuric Chloride|Bull. Environ. Contam. Toxicol.41(2): 241-246|1988|10.1007/BF01705437
12938|A||Goldsborough,L.G., and D.J. Brown|Effect of Glyphosate (Roundup Formulation) on Periphytic Algal Photosynthesis|Bull. Environ. Contam. Toxicol.41(2): 253-260|1988|10.1007/BF01705439
12939|A||Jana,S.|Accumulation of Hg and Cr by Three Aquatic Species and Subsequent Changes in Several Physiological and Biochemical Plant Parameters|Water Air Soil Pollut.38(1-2): 105-109|1988|10.1007/BF00279589
12940|A||Jenkins,K.D., and B.M. Sanders|Relationships between Free Cadmium Ion Activity in Seawater, Cadmium Accumulation and Subcellular Distribution, and Growth in Polychaetes|Environ. Health Perspect.65:205-210|1986|
12941|A||Keller,A.E., R.J. Dutton, G. Bitton, and T.L. Crisman|Chronic Toxicity of Hydrothol-191 to Ceriodaphnia dubia at 25 and 15 Degrees C|Bull. Environ. Contam. Toxicol.41(2): 233-240|1988|10.1007/BF01705436
12942|A||Key,P.B., and G.I. Scott|Lethal and Sublethal Effects of Chlorine, Phenol, and Chlorine-Phenol Mixtures on the Mud Crab, Panopeus herbstii|Environ. Health Perspect.69:307-312|1986|10.1289/ehp.8669307
12943|A||Khangarot,B.S., and P.K. Ray|Sensitivity of Freshwater Pulmonate Snails, Lymnaea luteola L., to Heavy Metals|Bull. Environ. Contam. Toxicol.41(2): 208-213|1988|10.1007/BF01705432
12944|A||Khangarot,B.S., P.K. Ray, and K.P. Singh|Influence of Copper Treatment on the Immune Response in an Air-Breathing Teleost, Saccobranchus fossilis|Bull. Environ. Contam. Toxicol.41(2): 222-226|1988|10.1007/BF01705434
12945|A||Kumar,S., and S.C. Pant|Comparative Sublethal Ovarian Pathology of Some Pesticides in the Teleost, Puntius conchonius Hamilton|Bull. Environ. Contam. Toxicol.41(2): 227-232|1988|10.1007/BF01705435
12946|A||Langston,W.J., and M. Zhou|Evaluation of the Significance of Metal-Binding Proteins in the Gastropod Littorina littorea|Mar. Biol.92(4): 505-515|1986|10.1007/BF00392510
12947|A||Lusse,B., D. Schroeder, and C.J. Soeder|The Bromothymol-Blue Test:  A Simple Algal Bioassay and Its Use for Herbicide Screening|Arch. Hydrobiol.73(1): 147-152|1986|
12948|A||Mayfield,C.I., and M. Munawar|Microcomputer-Based Measurement of Algal Fluorescence as a Potential Indicator of Environmental Contamination|Bull. Environ. Contam. Toxicol.41(2): 261-266|1988|10.1007/BF01705440
12949|A||Megharaj,M., K. Venkateswarlu, and A.S. Rao|Effect of Insecticides and Phenolics on Nitrogen Fixation by Nostoc linckia|Bull. Environ. Contam. Toxicol.41(2): 277-281|1988|10.1007/BF01705442
12950|A||Myint,U.M., and P.A. Tyler|Effects of Temperature, Nutritive and Metal Stressors on the Reproductive Biology of Mytilus edulis|Mar. Biol.67(2): 209-223|1982|10.1007/BF00401287
12951|A||Nakamura,R., M. Nakahara, Y. Suzuki, and T. Ueda|Effects of Chemical Forms and Intake Pathways on the Accumulation of Radioactive Cobalt by the Abalone Haliotis discus|Nippon Suisan Gakkaishi (Multiple Languages)48(11): 1639-1644|1982|10.2331/suisan.48.1639
12953|A||Piyan,B.T., A.T. Law, and S.H. Cheah|Toxic Levels of Mercury for Sequential Larval Stages of Macrobrachium rosenbergii (De Man)|Aquaculture46(4): 353-359|1985|10.1016/0044-8486(85)90113-9
12955|A||Otsuka,K., H. Yoshikawa, A. Sugitani, and M. Kawai|Effect of Diphenyl, o-Phenylphenol and 2-(4-Thiazoyl) Benzimidazole on Growth of Tetrahymena pyriformis|Bull. Environ. Contam. Toxicol.41(2): 282-285|1988|10.1007/BF01705443
12956|A||Overnell,J.|Copper Metabolism in Crabs and Metallothionein:  In Vivo Effects of Copper II on Soluble Hepatopancreas Metal Binding Components in the Crab Cancer pagurus Containing Varying Amounts of Cadmium|Comp. Biochem. Physiol. B Comp. Biochem.73(3): 555-564|1982|10.1016/0305-0491(82)90074-8
12957|A||Ozretic,B., and M. Krajnovic-Ozretic|Morphological and Biochemical Evidence of the Toxic Effect of Pentachlorophenol on the Developing Embryos of the Sea Urchin|Aquat. Toxicol.7(4): 255-263|1985|10.1016/0166-445X(85)90043-8
12958|A||Perez-Coll,C.S., J. Herkovits, and A. Salibian|Teratogenic Effects of Cadmium on Bufo arenarum During Gastrulation|Experientia42(10): 1174-1176|1986|10.1007/BF01941299
12959|A||Perez-Coll,C.S., J. Herkovits, and A. Salibian|Embryotoxicity of Lead on Bufo arenarum|Bull. Environ. Contam. Toxicol.41(2): 247-252|1988|10.1007/BF01705438
12960|A||Peternac,B., and T. Legovic|Uptake, Distribution and Loss of Cr in the Crab Xantho hydrophilus|Mar. Biol.91(4): 467-471|1986|10.1007/BF00392597
12961|A||Pynnonen,K., D.A. Holwerda, and D.I. Zandee|Occurrence of Calcium Concretions in Various Tissues of Freshwater Mussels, and Their Capacity for Cadmium Sequestration|Aquat. Toxicol.10(2-3): 101-114|1987|10.1016/0166-445X(87)90017-8
12962|A||Ramamoorthy,S.|Competition of Fate Processes in the Bioconcentration of Lindane|Bull. Environ. Contam. Toxicol.34(3): 349-358|1985|10.1007/BF01609745
12963|A||Rao,Y.P., V.U. Devi, and D.G.V. Rao|Influence of Temperature on Copper Accumulation and Depuration in a Tropical Cerithiid cerithidea (Cerithideopsilla) Cingulata (Gmelin 1790)|Water Air Soil Pollut.37(3-4): 365-374|1988|10.1007/BF00192947
12964|A||Reddy,T.R., and N. Chari|Influence of Copper and Mercury on ACh and AChE of a Freshwater Mussel, Parreysia rugosa (Gmelin)|Geobios12(3/4): 151-153|1985|
12965|A||Sabourin,T.D.|Respiratory and Circulatory Responses of the Blue Crab to Naphthalene and the Effect of Acclimation Salinity|Aquat. Toxicol.2(5-6): 301-318|1982|10.1016/0166-445X(82)90018-2
12966|A||Sathya,K.S., and K.P. Balakrishnan|Physiology of Phytoplankton in Relation to Metal Concentration|Water Air Soil Pollut.38(3-4): 283-297|1988|10.1007/BF00280760
12967|A||Segner,H.|Response of Fed and Starved Roach, Rutilus rutilus, to Sublethal Copper Contamination|J. Fish Biol.30(4): 423-437|1987|10.1111/j.1095-8649.1987.tb05766.x
12968|A||Bhatnagar,M.C., A.K. Bana, and S. Bhatnagar|Toxicity of a Few Pesticides to a Freshwater Teleost, Clarias batrachus (Linn)|J. Environ. Biol.9(3 suppl.): 283-288|1988|
12969|A||Smith,J.R.|Copper Exposure and Ciliary Function in Gill Tissue of Mytilus californianus|Bull. Environ. Contam. Toxicol.35(4): 556-563|1985|10.1007/BF01636554
12970|A||Spitsbergen,J.M., J.M. Kleeman, and R.E. Peterson|Morphologic Lesions and Acute Toxicity in Rainbow Trout (Salmo gairdneri) Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Toxicol. Environ. Health23(3): 333-358|1988|10.1080/15287398809531119
12971|A||Stauber,J.L., and T.M. Florence|Mechanism of Toxicity of Ionic Copper and Copper Complexes to Algae|Mar. Biol.94(4): 511-519|1987|10.1007/BF00431397
12973|A||Tang,Y., and E.T. Garside|Preexposure and Subsequent Resistance to Lead in Yearling Brook Trout, Salvelinus fontinalis|Can. J. Fish. Aquat. Sci.44(5): 1089-1091|1987|10.1139/f87-130
12974|A||Tateda,Y., M. Nakahara, and T. Koyanagi|Accumulation of Iron-59 in Marine Animals from Different Uptake Route|Nippon Suisan Gakkaishi (Multiple Languages)50(1): 89-93|1984|10.2331/suisan.50.89
12975|A||Thomas,P.G., and D.A. Ritz|Growth of Zinc Granules in the Barnacle Elminius modestus|Mar. Biol.90(2): 255-260|1986|10.1007/BF00569136
12976|A||Thursby,G.B., and R.L. Steele|Comparison of Short- and Long-Term Sexual Reproduction Tests with the Marine Red Alga Champia parvula|Environ. Toxicol. Chem.5(11): 1013-1018|1986|
12977|A||Tsuda,T., H. Nakanishi, S. Aoki, and J. Takebayashi|Bioconcentration and Metabolism of Butyltin Compounds in Carp|Water Res.22(5): 647-651|1988|10.1016/0043-1354(88)90068-1
12978|A||Tuurala,H., M. Nikinmaa, and A. Soivio|Gill Damage as a Determinant of Residual Oxygen Concentration in the Sealed Jar Test|Bull. Environ. Contam. Toxicol.34(3): 385-389|1985|10.1007/BF01609749
12979|A||Uchida,N., T. Musashi, H. Katuura, H. Anzai, and E. Nishide|Uptake and Fate of p,p'-DDT in Carp and Tilapia|Nippon Suisan Gakkaishi (Multiple Languages)54(1): 129-133|1988|10.2331/suisan.54.129
12980|A||Verma,S.R., and I.P. Tonk|Biomonitoring of the Contamination of Water by a Sublethal Concentration of Pesticides - A System Analysis Approach|Acta Hydrochim. Hydrobiol. (Multiple Languages)12(4): 399-409|1984|10.1002/aheh.19840120410
12981|A||Verriopoulos,G., M. Moraitou-Apostolopoulou, and A. Xatzispirou|Evaluation of Metabolic Responses of Artemia salina to Oil and Oil Dispersant as a Potential Indicator of Toxicant Stress|Bull. Environ. Contam. Toxicol.36(3): 444-451|1986|10.1007/BF01623533
12982|A||Vogt,G.|Monitoring of Environmental Pollutants such as Pesticides in Prawn Aquaculture by Histological Diagnosis|Aquaculture67(1-2): 157-164|1987|10.1016/0044-8486(87)90021-4
12983|A||Walczak,B.Z., B.R. Blunt, and P.V. Hodson|Phagocytic Function of Monocytes and Haematological Changes in Rainbow Trout Injected Intraperitoneally with Benzo(a)pyrene and Benzo(a)anthracene|J. Fish Biol.31(suppl. A): 251-253|1987|10.1111/j.1095-8649.1987.tb05327.x
12984|A||Wolmarans,C.T., and E. Yssel|Uptake and Distribution of Copper Sulphate and Its Effect on the Respiration Rate of the Hemocyanin-Producing Freshwater Snail Lymnaea natalensis|Bull. Environ. Contam. Toxicol.41(2): 214-221|1988|10.1007/BF01705433
12985|A||Wong,V.W.T., and P.S. Rainbow|Apparent and Real Variability in the Presence and Metal Contents of Metallothioneins in the Crab Carcinus maenas Including the Effects of Isolation Procedure and Metal Induction|Comp. Biochem. Physiol. A Comp. Physiol.83(1): 157-177|1986|10.1016/0300-9629(86)90103-9
12986|A||Van Puymbroeck,S.L.C., W.J.J. Stips, and O.L.J. Vanderborght|The Antagonism Between Selenium and Cadmium in a Freshwater Mollusc|Arch. Environ. Contam. Toxicol.11(1): 103-106|1982|10.1007/BF01055194
12987|A||Yarbrough,J.D., R.T. Roush, J.C. Bonner, and D.A. Wise|Monogenic Inheritance of Cyclodiene Insecticide Resistance in Mosquitofish, Gambusia affinis|Experientia42(7): 851-853|1986|10.1007/BF01941551
12988|A||Zaroogian,G.E., and M. Johnson|Copper Accumulation in the Bay Scallop, Argopecten irradians|Arch. Environ. Contam. Toxicol.12(2): 127-133|1983|10.1007/BF01059570
12989|A||Gotsis-Skretas,O., and U. Christaki|Physiological Responses of Two Marine Phytoplanktonic Species to Copper and Mercury|MAP Tech. Rep. Ser. (Multiple Languages)69:151-164|1992|
12990|A||Buccafusco,R., C. Stiefel, D. Sullivan, B. Robinson, and J.,Jr. Maloney|Acute Toxicity of bis(Tri-n-Butyl-Tin)Oxide to Rainbow Trout (Salmo gairdneri)|U.S.EPA-OPP Registration Standard:|1978|
12991|A||Heitmuller,T.|Toxicity of Tri-N-Butyltin oxide (TBTO) to Pink Shrimp (Penaeus duorarum)|U.S.EPA-OPP Registration Standard:|1977|
12992|A||Heitmuller,T.|Toxicity of Tri-N-Butyltin oxide (TBTO) to Fiddler Crabs (Uca pugilator)|U.S.EPA-OPP Registration Standard:|1977|
12993|A||Hollister,T.|Toxicity of Tri-n-Butyltin oxide (TBTO) to Embryos of Eastern Oysters (Crassostrea virginica)|U.S.EPA-OPP Registration Standard:|1977|
12994|A||LeBlanc,G.|Acute Toxicity of Tributyltin Oxide to Daphnia magna|U.S.EPA-OPP Registration Standard:|1976|
12995|A||Buccafusco,R.|Acute Toxicity of Tri-N-Butyltin oxide to Channel Catfish (Ictalurus punctatus), the Fresh Water Clam (Elliptio complanatus), the Common Mummichog (Fundulus heteroclitus) and the Eastern Oyster (Crassostrea virginica)|U.S.EPA-OPP Registration Standard:|1976|
12996|A||Buccafusco,R.|Acute Toxicity of Tri-n-Butyltin Oxide to Bluegill (Lepomis macrochirus)|U.S.EPA-OPP Registration Standard:|1976|
12997|A||Ward,G.|Chronic Toxicity of Tributyltin Flouride to the Pacific Oyster (Crassostrea gigas Thunberg)|U.S.EPA-OPP Registration Standard:|1984|
12998|A||Cramm,G.|Acute and Chronic Toxicity of Tributyltin oxide (TBTO) to Sheepshead Minnows (Cyprinodon variegatus)|U.S.EPA-OPP Registration Standard:|1979|
12999|A||Bathe,R., L. Ullman, K. Sachsse, and R. Hess|Relationship between Toxicity to Fish and to Mammals:  A Comparative Study Under Defined Laboratory Conditions|U.S.EPA-OPP Registration Standard:1 p.|1975|
13000|A||Beliles,R.|Diazinon Safety Evaluation on Fish and Wildlife: Bobwhite Quail, Goldfish, Sunfish, and Rainbow Trout|U.S.EPA-OPP Registration Standard:|1965|
13001|A||Ciba-Geigy Corp.|Reports of Investigations Made with Respect to Fish and Wildlife Requirements for Diazinon and its Formulated Products|U.S.EPA-OPP Registration Standard:|1976|
13002|A||Hughes,J.|The Toxicity of Diazinon Technical to Selenastrum capricornutum|U.S.EPA-OPP Registration Standard:|1988|
13003|A||Menzie,C.|Acute Toxicity of Some Organophosphorus Pesticides Against Fish and Aquatics: Sumithion|U.S.EPA-OPP Registration Standard:1 p.|1983|
13004|A||Mitchell,D.|Bioassay Testing of Herbicide H2 and Insecticidal Soap/Diazinon with Rainbow Trout and Daphnia|U.S.EPA-OPP Registration Standard:|1985|
13005|A||Posner,S., and S. Reimer|The Determination of TLM Values of Diazinon on Fingerling Fish|U.S.EPA-OPP Registration Standard:|1970|
13006|A||Swedburg,D.|Diazinon Toxicity to Specified Fish|U.S.EPA-OPP Registration Standard:|1973|
13007|A||Vilkas,A.|Acute Toxicity of Diazinon Technical to the Water Flea, Daphnia magna Straus|U.S.EPA-OPP Registration Standard:|1976|
13008|A||Beliles,R., W. Scott, and W. Knott|Diazinon Summary of Safety Evaluation on Fish and Wildlife|U.S.EPA-OPP Registration Standard:|1965|
13009|A||Jones,A.L., and J.L. Harwood|Effects of Heavy Metals on Lipid Metabolism in Marine Algae|Biochem. Soc. Trans.16(3): 275-276|1988|10.1042/bst0160275
13010|A||Taub,F.B., A.C. Kindig, L.L. Conquest, and J.P. Meador|Standardized Aquatic Microcosms:  Ecological Responses to Toxicants|Aquat. Toxicol.11(3-4): 422-423|1988|10.1016/0166-445X(88)90124-5
13011|A||Babu,P.R.A., G.R. Reddy, G.R.V. Babu, and C.S. Chetty|Glycolytic Oxidation in Freshwater Fish, Sarotherodon mossambicus During Benthiocarb Exposure|Curr. Sci. (Bangalore)57(11): 591-596|1988|
13012|A||Kluytmans,J.H., D.I. Zandee, and E.L. Enserink|Effects of Cadmium on the Reproduction of Mytilus edulis L|Aquat. Toxicol.11(3-4): 427-428|1988|10.1016/0166-445X(88)90131-2
13014|A||Leversee,G.J., P.F. Landrum, J.P. Giesy, and T. Fannin|Humic Acids Reduce Bioaccumulation of Some Polycyclic Aromatic Hydrocarbons|Can. J. Fish. Aquat. Sci.40(suppl.2): 63-69|1983|
13015|A||Faisal,M., E.L. Cooper, M. El Mofty, and M.A. Sayed|Immunosuppression of Clarias lazera (Pisces) by a Molluscicide|Dev. Comp. Immunol.12(1): 85-97|1988|10.1016/0145-305X(88)90027-4
13016|A||Joshi,U.M., and A.K. Desai|Transaminases in Liver and Kidney of Tilapia mossambica After Exposure to Monocrotophos|J. Anim. Morphol. Physiol.31(1-2):7-11|1984|
13017|A||Spitsbergen,J.M., J.M. Kleeman, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Toxicity in Yellow Perch (Perca flavescens)|J. Toxicol. Environ. Health23:359-383|1988|10.1080/15287398809531120
13018|A||Dhavale,D.M., and V.B. Masurekar|Effect of Cadmium Exposure on the Activity of Phosphatases in the Hepatopancreas of Crab Scylla serrata (Forskal)|Indian J. Mar. Sci.15(3): 193-194|1986|
13019|A||Negele,R.D., and J. Schwaiger|Investigations on Effect of Organotin in Fish, as Exemplified by Bis(tri-n-butyltin)Oxide (TBTO)|Munch.Beitr.Abwasser-, Fisch.- Flussbiol.46:477-492|1992|
13020|A||Baby,K.V., and N.R. Menon|Salt Forms of Metals and Their Toxicity in the Brown Mussel Perna indica (Kuriakose and Nair)|Indian J. Mar. Sci.16(2): 107-109|1987|
13021|A||Bertru,G., M. Le Saout, and Y. Gueune|Toxicity of Copper on Microcystis aeruginosa Kutz and Aphanizomenon flos-aquae Ralfs (Toxicite du Cuivre vis a vis de Microcystis aeruginosa Kutz. et d'Aphanizomenon flos-aquae Rolfs)|Int. Rev. Gesamten Hydrobiol.71(6): 841-849|1986|10.1002/iroh.19860710612
13022|A||Francis,J.C., and F.W. Harrison|Copper and Zinc Toxicity in Ephydatia fluviatilis (Porifera:  Spongillidae)|Trans. Am. Microsc. Soc.107(1): 67-78|1988|10.2307/3226409
13023|A||Khangarot,B.S., and P.K. Ray|Studies on the Acute Toxicity of Copper and Mercury Alone and in Combination to the Common Guppy Poecilia reticulata (Peters)|Arch. Hydrobiol.110(2): 303-314|1987|10.1127/archiv-hydrobiol/110/1987/303
13025|A||Thompson,C.M., J. Griffen, and M. McKee|Acute Toxicity of Difolatan Technical (SX-945) to Rainbow Trout|U.S.EPA-OPP Registration Standard:|1980|
13027|A||McCann,J.|Algaesil: Rainbow Trout (Salmo gairdneri): Test No. 261|U.S.EPA-OPP Registration Standard:|1970|
13028|A||Couch,R., E. Nelson, and M. Mohrman|Monitoring the Effects of 2,4-D Applied to Eurasian Watermilfoil on Selected Non-Target Organisms in Kerr Reservoir, 1978|U.S.EPA-OPP Registration Standard:|1978|
13029|A||Funderburk,H.H.|Distribution of C14 Labeled Herbicides in Bluegills and Shellcrackers|U.S.EPA-OPP Registration Standard:|1963|
13030|A||Noll,M., and U. Bauer|Phormidium autumnale as Indicator Organism for Algicidal Substances in Water|U.S.EPA-OPP Registration Standard:|1974|
13031|A||Pennwalt Corp.|Study: Efficacy of Various Herbicides on Certain Aquatic Weeds|U.S.EPA-OPP Registration Standard:1 p.|1972|
13032|A||U.S. Department of the Army|Residues of 2,4-D in Water and Fish|U.S.EPA-OPP Registration Standard:|1970|
13033|A||Alexander,H.|Letter Sent to M.Wolf Dated Oct. 20, 1971: Acute Fish Toxicity of Dowicide 2|U.S.EPA-OPP Registration Standard:|1971|
13034|A||Fink,R.|Acute LC50--Bluegill Sunfish and Rainbow Trout: Magna 4141: Project No. 766-100, 766-101|U.S.EPA-OPP Registration Standard:|1972|
13035|A||Hamlin,J.|Report to Nalco Chemical Company: Four-Day Static Fish Toxicity Studies with D-2303 in Rainbow Trout and Bluegills: IBT No. A615|U.S.EPA-OPP Registration Standard:|1971|
13037|A||Knott,W., and C. Johnston|Metasol TC-915 and 2,4,5-Trichlorophenol Safety Evaluation Test in Bluegill Sunfish|U.S.EPA-OPP Registration Standard:|1971|
13038|A||Knott,W., and C. Johnston|Metasol TC-915 and 2,4,5-Trichlorophenol Safety Tests in Rainbow Trout|U.S.EPA-OPP Registration Standard:|1971|
13041|A||McCann,J.A.|Nalco D-2303: Toxicity to Rainbow Trout (Salmo gairdneri): Test No. 423|U.S.EPA-OPP Registration Standard:|1971|
13042|A||Merck and Co.Inc.|Fish Toxicity Data|U.S.EPA-OPP Registration Standard:|19xx|
13043|A||Nalco Chemical Co.|Fish Toxicity Studies on NALCO D-2088|U.S.EPA-OPP Registration Standard:|19xx|
13044|A||Owen,G.|The Acute Toxicity of Dearcide 713 to the Rainbow Trout (Salmo gairdneri)|U.S.EPA-OPP Registration Standard:|1972|
13045|A||Owen,G., F.J. Meyer, and Blankenbeher |The Acute Toxicity of a Bacteriostat and Algaecide, Dearcide - (R) #713, to the Bluegill Sunfish, Lepomis macrochirus|U.S.EPA-OPP Registration Standard:|1971|
13046|A||Owen,G., and F. Meyer|The Acute Toxicity of a Bacteriostat and Algaecide--Dearcide 713--to the Bluegill Sunfish (Lepomis macrochirus)|U.S.EPA-OPP Registration Standard:|1972|
13047|A||Dominguez,T.M., E.J. Calabrese, P.T. Kostecki, and R.A. Coler|The Effects of Tri- and Dichloroacetic Acids on the Oxygen Consumption of the Dragonfly Nymph Aeschna umbrosa|J. Environ. Sci. Health23(3): 251-271|1988|
13048|A||Del Ramo,J., A. Pastor, J. Diaz-Mayans, J. Medina, and A. Torreblanca|Determination of Mercury by Cold-Vapour Technique in Several Tissues of Treated American Red Crayfish (Procambarus clarkii)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control23(4): 351-358|1988|
13049|A||Singh,L.J., and D.N. Tiwari|Effects of Selected Rice-Field Herbicides on Photosynthesis, Respiration, and Nitrogen Assimilating Enzyme Systems of Paddy Soil Diazotrophic Cyanoba|Pestic. Biochem. Physiol.31:120-128|1988|10.1016/0048-3575(88)90014-4
13051|A||Nelson,F.R.S., M. Edmond, and A.K. Mohamed|Effects of Selected Insect Growth Regulators and Pesticides on Dugesia dorotocephala and Dugesia tigrina (Tricladida: Turbellaria)|Am. Mosq. Control Assoc. J.4(2): 184-186|1988|
13052|T||Grandes A.E., and Sagrado E.A. |The Susceptibility of Mosquitoes to Insecticides in Salamanca Province, Spain|Am. Mosq. Control Assoc. J.4(2): 168-171|1988|
13053|A||Tripathi,G., and S.P. Shukla|Toxicity Bioassay of Technical and Commercial Formulations of Carbaryl to the Freshwater Catfish, Clarias batrachus|Ecotoxicol. Environ. Saf.15(3): 277-281|1988|10.1016/0147-6513(88)90082-6
13054|A||Nath,K., and N. Kumar|Impact of Manganese intoxication on the Blood Pyruvic Acid of a Freshwater Tropical Perch Colisa fasciatus|Pol. Arch. Hydrobiol.34(3): 347-351|1987|
13055|A||Abdel-Rahman,M.S., M.M. Fahmy, and M.M. El Bahi|Laboratory Studies on the Efficacy of Some Molluscicides on Egyptian Snails|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)95(5): 205-207|1988|
13056|A||Rhee,G.Y., L. Shane, and A. Denucci|Steady-State Effects of 2,5,2',5'-Tetrachlorobiphenyl on Growth, Photosynthesis, and P Uptake in Selenastrum capricornutum|Appl. Environ. Microbiol.54(6): 1394-1398|1988|10.1128/aem.54.6.1394-1398.1988
13057|A||Roy,D.|Statistical Analysis of Anionic Detergent-Induced Changes in the Goblet Mucous Cells of Opercular Epidermis and Gill Epithelium of Rita rita|Ecotoxicol. Environ. Saf.15(3): 260-271|1988|10.1016/0147-6513(88)90080-2
13058|A||De March,B.G.E.|Acute Toxicity of Binary Mixtures of Five Cations (Cu2+, Cd2+, Zn2+, Mg2+, and K+) to the Freshwater Amphipod Gammarus lacustris (Sars):  Alternative Descriptive Models|Can. J. Fish. Aquat. Sci.45(4): 625-633|1988|10.1139/f88-076
13059|A||Megharaj,M., K. Venkateswarlu, and A.S. Rao|Influence of Glucose Amendment on the Toxicity of Two Nitrophenols to Chlorella vulgaris|Ecotoxicol. Environ. Saf.15(3): 320-323|1988|10.1016/0147-6513(88)90086-3
13060|A||Allen,J.L.|Residues of Benzocaine in Rainbow Trout, Largemouth Bass, and Fish Meal|Prog. Fish-Cult.50(1): 59-60|1988|10.1577/1548-8640(1988)050<0059:ROBIRT>2.3.CO;2
13061|A||Daniels,H.V., C.E. Boyd, and R.V. Minton|Acute Toxicity of Ammonia and Nitrite to Spotted Seatrout|Prog. Fish-Cult.49(4): 260-263|1987|10.1577/1548-8640(1987)49<260:ATOAAN>2.0.CO;2
13062|A||Samuelsen,O.B., E. Solheim, H. Ottera, and J.P. Pedersen|The Toxicity, Absorption and Excretion of Rotenone in Oysters (Ostrea edulis), and Its Degradation in Seawater at Temperatures Near 0 Degrees C|Aquaculture70(4): 355-363|1988|10.1016/0044-8486(88)90119-6
13063|A||Tandon,R.S., R. Lal, and V.V.S.N. Rao|Effects of Malathion and Endosulfan on the Growth of Paramecium aurelia|Acta Protozool.26(4): 325-328|1987|
13064|A||Sahib,I.K.A., and K.R.S. Rao|Studies on Some Kinetic Parameters of Aminotransferases in Tissues of the Snail, Pila globosa (Swainson) During Malathion Intoxication|Acta Physiol. Hung.71(1): 31-34|1988|
13065|A||Maheswari,S.L., and V.R. Selvarajan|Phosalone Inhibition of Cationic ATPases in the Nervous System of the Edible Crab, Scylla serrata (Forskal)|J. Environ. Biol.9(3 suppl.): 343-350|1988|
13066|A||Sunila,I.|Acute Histological Responses of the Gill of the Mussel, Mytilus edulis, to Exposure by Environmental Pollutants|J. Invertebr. Pathol.52(1): 137-141|1988|10.1016/0022-2011(88)90112-7
13067|A||Willis,M.|Experimental Studies of the Effects of Zinc on Ancylus fluviatilis (Mueller) (Mollusca; Gastropoda) From the Afon Crafnant, N. Wales|Arch. Hydrobiol.112(2): 299-316|1988|10.1127/archiv-hydrobiol/112/1988/299
13068|A||Das,R.C.|Cadmium Toxicity to Gonads in a Freshwater Fish, Labeo bata (Hamilton)|Arch. Hydrobiol.112(3): 467-474|1988|10.1127/archiv-hydrobiol/112/1988/467
13070|A||Tong,Z., Z. Huailan, and J. Hongjun|Chronic Toxicity of Acrylonitrile and Acetonitrile to Daphnia magna in 14-d and 21-d Toxicity Tests|Bull. Environ. Contam. Toxicol.57(4): 655-659|1996|10.1007/s001289900240
13071|A||Hwang,P.P., and Y.N. Tsai|Effects of Arsenic on Osmoregulation in the Tilapia Oreochromis mossambicus Reared in Seawater|Mar. Biol.117(4): 551-558|1993|10.1007/BF00349765
13072|A||Pelletier,E.|Acute Toxicity of Some Methylmercury Complexes to Mytilus edulis and Lack of Selenium Protection|Mar. Pollut. Bull.19(5): 213-219|1988|10.1016/0025-326X(88)90233-0
13073|A||Friedman,R.N., G.D. Bittner, and J.A. Blundon|Electrophysiological and Behavioral Effects of Ethanol on Crayfish|J. Pharmacol. Exp. Ther.246(1): 125-131|1988|
13074|A||Puddu,A., M. Pettine, T. La Noce, R. Pagnotta, and F. Bacciu|Factors Affecting Thallium and Chromium Toxicity to Marine Algae|Sci. Total Environ.71(3): 572-|1988|10.1016/0048-9697(88)90243-4
13075|A||McCahon,C.P., and D. Pascoe|Use of Gammarus pulex (L.) in Safety Evaluation Tests: Culture and Selection of a Sensitive Life Stage|Ecotoxicol. Environ. Saf.15(3): 245-252|1988|10.1016/0147-6513(88)90078-4
13076|A||Spitsbergen,J.M., K.A. Schat, J.M. Kleeman, and R.E. Peterson|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) or Aroclor 1254 on the Resistance of Rainbow Trout, Salmo gairdneri Richardson, to Infectious Haematopoietic Necrosis Virus|J. Fish Dis.11(1): 73-83|1988|10.1111/j.1365-2761.1988.tb00524.x
13077|A||Marowitch,J., M.R.T. Dale, and J. Hoddinott|The Effect of Crude Oil and Oil Spill Chemicals on Nitrogen Fixation in the Cyanobacteria nostoc sp.|Environ. Pollut.51(1): 75-83|1988|10.1016/0269-7491(88)90240-0
13078|A||Houston,A.H., A. Murad, and J.D. Gray|Induction of Anemia in Goldfish, Carassius auratus L., by Immersion in Phenylhydrazine Hydrochloride|Can. J. Zool.66(3): 729-736|1988|10.1139/z88-108
13079|A||Schoor,W.P., D.E. Williams, and J.J. Lech|Combined Use of Biochemical Indicators to Assess Sublethal Pollution Effects on the Gulf Killifish (Fundulus grandis)|Arch. Environ. Contam. Toxicol.17(4): 437-441|1988|10.1007/BF01055508
13080|A||Kamal,M., G. Pfister, M. Bahadir, and J.P. Lay|Uptake of 14C-Simetryn by Duckweed (Lemna minor) During Release from a Polymer Matrix and the Consequent Herbicidal Effects|J. Control. Release7(1): 39-44|1988|10.1016/0168-3659(88)90078-8
13081|A||Genter,R.B., F.S. Colwell, J.R. Pratt, D.S. Cherry, and J.,Jr. Cairns|Changes in Epilithic Communities due to Individual and Combined Treatments of Zinc and Snail Grazing in Stream Mesocosms|Toxicol. Ind. Health4(2): 185-201|1988|10.1177/074823378800400204
13082|A||Harada,T., J. Hatanaka, and M. Enomoto|Liver Cell Carcinomas in the Medaka (Oryzias latipes) Induced by Methylazoxymethanol-Acetate|J. Comp. Pathol.98(4): 441-452|1988|10.1016/0021-9975(88)90092-8
13083|A||Rajbanshi,V.K., and A.K. Gupta|Alterations in the Architecture of the Gill Surface Produced by Water-Borne Copper in Heteropneustes fossilis (Bloch)|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(3): 325-331|1988|10.1002/aheh.19880160314
13084|T||Ransom,J.K., and E.A. Oelke|Common Waterplantain, Alisma plantago-aquatica, Control in Wild Rice, Zizania palustris, with MPCA and 2,4-D|Weed Technol.2(3): 310-316|1988|10.1017/S0890037X00030657
13086|A||Parks,J.W., J.A. Sutton, J.D. Hollinger, and D.D. Russell|Uptake of Mercury by Caged Crayfish|Appl. Organomet. Chem.2:181-184|1988|10.1002/aoc.590020213
13087|A||Gottofrey,J., K. Borg, S. Jasim, and H. Tjaelve|Effect of Potassium Ethylxanthate and Sodium Diethyldithiocarbamate on the Accumulation and Disposition of Nickel in the Brown Trout (Salmo|Pharmacol. Toxicol.63:46-51|1988|10.1111/j.1600-0773.1988.tb00908.x
13088|A||Kaushik,N.K., and G. Stephenson|Toxicity of Pentachlorophenol to Zooplankton|In: Technol.Transfer Conf.Part B: Water Quality Research, Minist.of Environ., Toronto, Ontario, Canada:192-203|1986|
13089|A||Allemand,D., G. De Renzis, P. Payan, J.P. Girard, and R. Vaissiere|HgCl2-Induced Cell Injury, Differential Effects on Membrane-Located Transport Systems in Unfertilized and Fertilized Sea Urchin Eggs|Toxicology50(2): 217-230|1988|10.1016/0300-483X(88)90093-5
13090|A||Belkhir,M., and M.H.A. Salem|Oil Spill Dispersant Toxicity to Fish and Molluscs|FAO Fish. Rep.334:11-14|1986|
13091|A||Bengeri,K.V., and H.S. Patil|Respiration, Liver Glycogen and Bioaccumulation in Labeo rohita Exposed to Zinc|Indian J. Comp. Anim. Physiol.4(2): 79-84|1986|
13092|A||Bennett,R.O., and R.E. Wolke|The Effect of Sublethal Endrin Exposure on the Immune Response of Rainbow Trout, Salmo gairdneri|Mar. Environ. Res.24(1-4): 351-|1988|10.1016/0141-1136(88)90334-0
13093|A||Radhakrishnaiah,K.|Accumulation of Copper in the Organs of Freshwater Fish, Labeo rohita (Hamilton), on Exposure to Lethal and Sublethal Concentrations of Copper|J. Environ. Biol.9(suppl.3): 319-326|1988|
13094|A||Boryslawskyj,M., A.C. Garrood, J.T. Pearson, and D. Woodhead|Elevation of Glutathione-S-Transferase Activity as a Stress Response to Organochlorine Compounds, in the Freshwater Mussel, Sphaerium corneum|Mar. Environ. Res.24(1-4): 101-104|1988|10.1016/0141-1136(88)90263-2
13095|A||Boryslawskyj,M., T. Garrood, M. Stanger, T. Pearson, and D. Woodhead|Role of Lipid/Water Partitioning and Membrane Composition in the Uptake of Organochlorine Pesticides into a Freshwater Mussel|Mar. Environ. Res.24(1-4): 57-61|1988|10.1016/0141-1136(88)90254-1
13096|A||Canovas,M., and J. Mas|The Effect of Cd+2 on the Activity of Delta-Amino Levulinic Acid Dehydratase (ALA-D) in Liver and Spleen of Juvenile Golden Grey Mullet (Liza|Bol. Inst. Esp. Oceanogr.4(1): 29-32|1987|
13097|A||Caux,P.Y., P. Weinberger, and D.B. Carlisle|A Physiological Study of the Effects of Triton Surfactants on Lemna minor L|Environ. Toxicol. Chem.7(8): 671-676|1988|10.1002/etc.5620070808
13098|A||Chagnon,N.L., and S.I. Guttman|Differential Survivorship of Allozyme Genotypes in Mosquitofish (Gambusia affinis) Population Exposed to Copper or Cadmium|Ohio J. Sci.88(2): 46-|1988|
13099|A||El Sebae,A.H., M.A. El Amayem, I. Sharaf, and M. Massod|Factors Affecting Acute and Chronic Toxicity of Chlorinated Pesticides and Their Biomagnification in Alexandria Region|FAO Fish. Rep.334(suppl.): 73-79|1986|
13100|A||Felix,H.R., R. Chollet, and J. Harr|Use of the Cell Wall-Less Alga Dunaliella bioculata in Herbicide Screening Tests|Ann. Appl. Biol.113(1): 55-60|1988|10.1111/j.1744-7348.1988.tb03281.x
13101|A||Fossi,C., C. Leonzio, and S. Focardi|Biochemical and Physiological Responses in Gobiidae Experimentally Exposed to PCBs|Mar. Environ. Res.24(1-4): 113-|1988|10.1016/0141-1136(88)90268-1
13103|A||Haux,C., B.T. Bjornsson, L. Forlin, A. Larsson, and L.J. Deftos|Influence of Cadmium Exposure on Plasma Calcium, Vitellogenin and Calcitonin in Vitellogenic Rainbow Trout|Mar. Environ. Res.24(1-4): 199-202|1988|10.1016/0141-1136(88)90298-X
13104|A||Hilmy,A.M., N.F.A. El Hamid, and K.S. Ghazaly|Biochemical and Physiological Changes in the Tissues and Serum of both Sexes in Portunus pelagicus (L.) Following Acute Exposures to Zinc and Copper|Folia Morphol. (Prague)36(1): 79-94|1988|
13105|A||Hinton,D.E., D.J. Lauren, S.J. Teh, and C.S. Giam|Cellular Composition and Ultrastructure of Hepatic Neoplasms Induced by Diethylnitrosamine in Oryzias latipes|Mar. Environ. Res.24(1-4): 307-310|1988|10.1016/0141-1136(88)90326-1
13106|A||Jana,S., and S.S. Sahana|Effects of Copper, Cadmium and Chromium Cations on the Freshwater Fish Clarias batrachus L.|Physiol. Bohemoslov.37(1): 79-82|1988|
13108|A||Smith,S.D., R.W. Gould, W.S. Zaugg, L.W. Harrell, and C.V.W. Mahnken|Safe Prerelease Disease Treatment with Formalin for Fall Chinook Salmon Smolts|Prog. Fish-Cult.49(2): 96-99|1987|10.1577/1548-8640(1987)49<96:SPDTWF>2.0.CO;2
13109|A||Kerrison,P.H., D. Annoni, S. Zarini, O. Ravera, and B. Moss|Effects of Low Concentrations of Heavy Metals on Plankton Community Dynamics in a Small, Shallow, Fertile Lake|J. Plankton Res.10(4): 779-812|1988|10.1093/plankt/10.4.779
13110|A||Krezoski,S., J. Laib, P. Onana, T. Hartmann, P. Chen, C.F. Shaw III, and D.H. Petering|Presence of Zn, Cu-Binding Protein in Liver of Freshwater Fishes in the Absence of Elevated Exogenous Metal: Relevance to Toxic Metal Exposure|Mar. Environ. Res.24(1-4): 147-150|1988|10.1016/0141-1136(88)90282-6
13111|A||Mason,A.Z.|The Kinetics of Zinc Accumulation by the Marine Prosobranch Gastropod Littorina littorea|Mar. Environ. Res.24(1-4): 135-139|1988|10.1016/0141-1136(88)90280-2
13112|A||Hemmer,M.J., D.P. Middaugh, and V. Comparetta|Comparative Acute Sensitivity of Larval Topsmelt, Atherinops affinis, and Inland Silverside, Menidia beryllina, to 11 Chemicals|Environ. Toxicol. Chem.11(3): 401-408|1992|10.1002/etc.5620110314
13113|A||Moffitt,B.P., and J. Stroud|Behavioral Responses of Brown Bullhead Catfish to Cadmium Ion Stress|Am. Zool.27(4): 113A|1987|
13114|A||Nath,K., and N. Kumar|Cobalt Induced Alterations in the Blood Pyruvic Acid of a Freshwater Tropical Perch Colisa fasciatus|Bol. Fisiol. Anim.11:21-25|1987|
13115|A||Nugegoda,D., and P.S. Rainbow|Zinc Uptake and Regulation by the Sublittoral Prawn Pandalus montagui (Crustacea: Decapoda)|Estuar. Coast. Shelf Sci.26(6): 619-632|1988|10.1016/0272-7714(88)90038-8
13116|A||O'Connor,C.S., L.I. Crawshaw, R.C. Bedichek, and J.C. Crabbe|The Effect of Ethanol on Temperature Selection in the Goldfish, Carassius auratus|Pharmacol. Biochem. Behav.29(2): 243-248|1988|10.1016/0091-3057(88)90152-9
13117|A||O'Connor,J.M., A.R. Schnitz, and K.S. Squibb|In Vivo Kinetics of Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene Assimilation and Metabolism in Rainbow Trout|Mar. Environ. Res.24(1-4): 63-67|1988|10.1016/0141-1136(88)90255-3
13118|A||Pickwell,G.V., and S.A. Steinert|Accumulation and Effects of Organotin Compounds in Oysters and Mussels:  Correlation with Serum Biochemical and Cytological Factors and Tissue|Mar. Environ. Res.24(1-4): 215-218|1988|10.1016/0141-1136(88)90302-9
13119|A||John,P.J., R. Saxena, and A. Prakash|Comparative Acute Toxicity of Metasystox to Heteropneustes fossilis and Ophiocephalus striatus|Natl. Acad. Sci. Lett.13(11): 427-430|1990|
13120|A||Russom,C.L., R.A. Drummond, and A.D. Hoffman|Acute Toxicity and Behavioral Effects of Acrylates and Methacrylates to Juvenile Fathead Minnows|Bull. Environ. Contam. Toxicol.41:589-596|1988|10.1007/BF02021005
13121|A||Sahu,A., B.P. Shaw, A.K. Panigrahi, and B.N. Misra|Effects of Phenyl Mercuric Acetate on Oxygen Evolution in a Nitrogen Fixing Blue-Green Alga, Westiellopsis prolifica Janet|Microbios Lett.37(147/148): 119-124|1988|
13122|A||Sarkiskova,S.A., and I.A. Skripnik|Effect of Free Chlorine on Photosynthesis and on the Pigment System of Marine Planktic Algae|Hydrobiol. J.24(1): 47-51|1988|
13123|A||Steinert,S.A., and G.V. Pickwell|Expression of Heat Shock Proteins and Metallothionein in Mussels Exposed to Heat Stress and Metal Ion Challenge|Mar. Environ. Res.24(1-4): 211-214|1988|10.1016/0141-1136(88)90301-7
13124|A||Sullivan,B.K., and P.J. Ritacco|Effects of Nutrients and Copper on Copepod Population Dynamics:  A Mesocosm Study|In: J.O.Nriagu and J.S.S.Lakshminarayana (Eds.), Aquatic Toxicology and Water Quality Management, Wiley, NY21:335-357|1988|
13125|A||Suresh,K., and A. Mohandas|Hemolymph Lactic Acid Levels in Sunetta scripta (Bivalvia) Exposed to Sublethal Concentrations of Mercury and Copper|J. Invertebr. Pathol.49(3): 265-272|1987|10.1016/0022-2011(87)90058-9
13126|A||Tana,J.J.|Sublethal Effects of Chlorinated Phenols and Resin Acids on Rainbow Trout (Salmo gairdneri)|Water Sci. Technol.20(2): 77-85|1988|10.2166/wst.1988.0048
13127|A||Thomas,P.|Reproductive Endocrine Function in Female Atlantic Croaker Exposed to Pollutants|Mar. Environ. Res.24(1-4): 179-183|1988|10.1016/0141-1136(88)90294-2
13128|A||Viarengo,A., L. Canesi, M. Pertica, G. Mancinelli, M. Orunesu, A. Mazzucotelli, and J.M. Bouquegneau|Biochemical Characterization of a Copper-Thionein Involved in Cu Accumulation in the Lysosomes of the Digestive Gland of Mussels Exposed to the Metal|Mar. Environ. Res.24(1-4): 163-166|1988|10.1016/0141-1136(88)90286-3
13129|A||Viarengo,A., G. Mancinelli, M. Orunesu, G. Martino, F. Faranda, and A. Mazzucotelli|Effects of Sublethal Copper Concentrations, Temperature, Salinity and Oxygen Levels on Calcium Content and on Cellular Distribution of Copper in the Gills of Mytilus galloprovincialis Lam.:  A Multifactorial Experiement|Mar. Environ. Res.24(1-4): 227-231|1988|10.1016/0141-1136(88)90305-4
13130|A||Tedengren,M., M. Arner, and N. Kautsky|Ecophysiology and Stress Response of Marine and Brackish Water Gammarus Species (Crustacea, Amphipoda) to Changes in Salinity and Exposure to Cadmium and|Mar. Ecol. Prog. Ser.47(2): 107-116|1988|10.3354/meps047107
13131|A||Tulasi,S.J., and J.V.R. Rao|Effects of Lead on Copper Content of Fresh Water Crab Barytelphusa guerini (H. Miline Edwards)|Indian J. Exp. Biol.26(4): 323-324|1988|
13132|A||Bjerregaard,P.|Interaction Between Selenium and Cadmium in the Hemolymph of the Shore Crab Carcinus maenas (L.)|Aquat. Toxicol.13(1): 1-12|1988|10.1016/0166-445X(88)90068-9
13133|A||Blanck,H., and S.A. Waengberg|Validity of an Ecotoxicological Test System: Short-Term and Long-Term Effects of Arsenate on Marine Periphyton Communities in Laboratory Systems|Can. J. Fish. Aquat. Sci.45(10): 1807-1815|1988|10.1139/f88-212
13135|A||Bridgham,S.D.|Chronic Effects of 2,2'-Dichlorobiphenyl on Reproduction, Mortality, Growth, and Respiration of Daphnia pulicaria|Arch. Environ. Contam. Toxicol.17(6): 731-740|1988|10.1007/BF01061979
13136|A||Chandini,T.|Changes in Food [Chlorella] Levels and the Acute Toxicity of Cadmium to Daphnia carinata (Daphnidae) and Echinisca triserialis (Macrothricidae)(Crustacea:  Cladocera)|Bull. Environ. Contam. Toxicol.41(3): 398-403|1988|10.1007/BF01688885
13137|A||Clements,W.H., D.S. Cherry, and J.,Jr. Cairns|Structural Alterations in Aquatic Insect Communities Exposed to Copper in Laboratory Streams|Environ. Toxicol. Chem.7(9): 715-722|1988|10.1002/etc.5620070905
13138|A||John,P.J., V.S. Rathore, and A. Prakash|Metasystox Generated Haematological Anomalies in Heteropneustes fossilis|In: Proc. of the Symp. on Natl. Dev. & Nat. Resour. Conserv.:160-165|1989|
13139|A||Cuvin,M.L.A., and R.W. Furness|Uptake and Elimination of Inorganic Mercury and Selenium by Minnows Phoxinus phoxinus|Aquat. Toxicol.13(3): 205-216|1988|10.1016/0166-445X(88)90053-7
13140|A||Sastry,K.V., A.A. Siddiqui, and M. Samuel|Alterations in the Intestinal Absorption of Fructose and Tryptophan Produced by Endosulfan in the Fresh Water Teleost Fish, Channa punctatus|J. Environ. Biol.9((3 suppl.)): 295-301|1988|
13141|A||Eidt,D.C., G.B. Bacon, G.M. DeGraeve, and V.N. Mallet|Fate and Short-Term Persistence of the Insecticide Aminocarb in a New Brunswick (Canada) Headwater Stream|Arch. Environ. Contam. Toxicol.17(6): 817-829|1988|10.1007/BF01061987
13142|A||Galassi,S., M. Mingazzini, L. Vigano, D. Cesareo, and M.L. Tosato|Approaches to Modeling Toxic Responses of Aquatic Organisms to Aromatic Hydrocarbons|Ecotoxicol. Environ. Saf.16(2): 158-169|1988|10.1016/0147-6513(88)90030-9
13143|A||Genter,R.B., D.S. Cherry, E.P. Smith, and J.,Jr. Cairns|Attached-Algal Abundance Altered by Individual and Combined Treatments of Zinc and pH|Environ. Toxicol. Chem.7(9): 723-733|1988|
13144|A||Gnezdilova,S.M., I.G. Lipina, V.B. Durkina, I.V. Burovina, and K.Y. Ukhanov|The Content of Cadmium in the Gonad of the Sea Urchin Strongylocentrotus intermedius and Its Effects on Gametes and Offspring|C. A. Sel. Environ. Pollut.18:2-|1988|
13145|A||Inbaraj,R.M., and S. Haider|Effect of Malathion and Endosulfan on Brain Acetylcholinesterase and Ovarian Steroidogenesis of Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.16(2): 123-128|1988|10.1016/0147-6513(88)90025-5
13146|A||Hamilton,P.B., G.S. Jackson, N.K. Kaushik, K.R. Solomon, and G.L. Stephenson|The Impact of Two Applications of Atrazine on the Plankton Communities of In Situ Enclosures|Aquat. Toxicol.13(2): 123-140|1988|10.1016/0166-445X(88)90038-0
13147|A||Hatakeyama,S.|Chronic Effects of Cu on Reproduction of Polypedilum nubifer (Chironomidae) Through Water and Food|Ecotoxicol. Environ. Saf.16(1): 1-10|1988|10.1016/0147-6513(88)90011-5
13148|A||Narayanan,K.R., V. Pragatheeswaran, S. Ajmalkhan, and R. Natarajan|Cadmium Induced Black Pigmentation in Scylla serrata (Forskal)|Seafood Export J.19(7): 23-25|1987|
13149|A||Khangarot,B.S., and P.K. Ray|The Acute Toxicity of Silver to Some Freshwater Fishes|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(5): 541-545|1988|10.1002/aheh.19880160516
13150|A||Khangarot,B.S., and P.K. Ray|Effect of Lethal Concentrations of Copper on Mystus bleekeri (Day)|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(5): 547-550|1988|10.1002/aheh.19880160518
13151|A||Kononen,D.W.|Acute Toxicity of Cyanogen Chloride to Daphnia magna|Bull. Environ. Contam. Toxicol.41(3): 371-377|1988|10.1007/BF01688881
13152|A||Nath,K., and N. Kumar|Hyperglycemic Response of Heteropneustes fossilis Exposed to Nickel|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(3): 333-336|1988|10.1002/aheh.19880160316
13153|A||Macri,A., A.V. Stazi, and G. Dojmi di Delupis|Acute Toxicity of Furazolidone on Artemia salina, Daphnia magna, and Culex pipiens molestus Larvae|Ecotoxicol. Environ. Saf.16(2): 90-94|1988|10.1016/0147-6513(88)90021-8
13154|A||Marchini,S., L. Passerini, D. Cesareo, and M.L. Tosato|Herbicidal Triazines: Acute Toxicity on Daphnia, Fish, and Plants and Analysis of its Relationships with Structural Factors|Ecotoxicol. Environ. Saf.16(2): 148-157|1988|10.1016/0147-6513(88)90029-2
13156|A||McCahon,C.P., and D. Pascoe|Increased Sensitivity to Cadmium of the Freshwater Amphipod Gammarus pulex (L.) During the Reproductive Period|Aquat. Toxicol.13(3): 183-194|1988|10.1016/0166-445X(88)90051-3
13157|A||Murad,A., and A.H. Houston|Leucocytes and Leucopoietic Capacity in Goldfish, Carassius auratus, Exposed to Sublethal Levels of Cadmium|Aquat. Toxicol.13(2): 141-154|1988|10.1016/0166-445X(88)90039-2
13158|A||Schuytema,G.S., D.F. Krawczyk, W.L. Griffis, A.V. Nebeker, M.L. Robideaux, and B.J. Brownawell|Comparative Uptake of Hexachlorobenzene by Fathead Minnows, Amphipods and Oligochaete Worms From Water and Sediment|Environ. Toxicol. Chem.7(12): 1035-1045|1988|10.1002/etc.5620071211
13159|A||Papoutsoglou,S.E., and P.D. Abel|Sublethal Toxicity and Accumulation of Cadmium in Tilapia aurea|Bull. Environ. Contam. Toxicol.41(3): 404-411|1988|10.1007/BF01688886
13160|A||Pastor,A., J. Medina, J. Del Ramo, A. Torreblanca, J. Diaz-Mayans, and F. Hernandez|Determination of Lead in Treated Crayfish Procambarus clarkii: Accumulation in Different Tissues|Bull. Environ. Contam. Toxicol.41(3): 412-418|1988|10.1007/BF01688887
13161|A||Perry,C.M., and S.B. Smith|Toxicity of Six Heterocyclic Nitrogen Compounds to Daphnia pulex|Bull. Environ. Contam. Toxicol.41(4): 604-608|1988|10.1007/BF02021007
13162|A||Pratt,J.R., N.J. Bowers, B.R. Niederlehner, and J.,Jr. Cairns|Effects of Chlorine on Microbial Communities in Naturally Derived Microcosms|Environ. Toxicol. Chem.7(9): 679-687|1988|
13163|A||Ram,R.N.|Carbofuran-Induced Histophysiological Changes in Thyroid of the Teleost Fish, Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.16(2): 106-113|1988|10.1016/0147-6513(88)90023-1
13164|A||Ram,R.N., and K.P. Joy|Mercurial Induced Changes in the Hypothalamo-Neurohypophysical Complex in Relation to Reproduction in the Teleostean Fish, Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.41(3): 329-336|1988|10.1007/BF01688875
13165|A||Ramsay,G.G., J.H. Tackett, and D.W. Morris|Effect of Low-Level Continuous Chlorination on Corbicula fluminea|Environ. Toxicol. Chem.7(10): 855-856|1988|
13166|A||Reddy,M.S., K.V.R. Rao, and B.N. Murthy|Changes in Nitrogen Metabolism of Penaeid Prawn, Penaeus indicus, During Sublethal Phosphamidon and Methylparathion-Induced Stress|Bull. Environ. Contam. Toxicol.41(3): 344-351|1988|10.1007/BF01688877
13167|A||Redpath,K.J., and J. Davenport|The Effect of Copper, Zinc and Cadmium on the Pumping Rate of Mytilus edulis L.|Aquat. Toxicol.13(3): 217-226|1988|10.1016/0166-445X(88)90054-9
13168|A||Repetto,G., P. Sanz, and M. Repetto|In Vivo and In Vitro Effect of Triclorfon on Esterases of the Red Crayfish Procambarus clarkii|Bull. Environ. Contam. Toxicol.41(4): 597-603|1988|10.1007/BF02021006
13169|A||Roy,D.|Effect of an Anionic Detergent on the Lipid Moieties of Various Cell Types in the Opercular Epidermis of Rita rita|Bull. Environ. Contam. Toxicol.41(3): 352-359|1988|10.1007/BF01688878
13170|A||Sharma,R.M.|Effect of Endosulfan on Adenosine Triphosphatase (ATPase) Activity in Liver, Kidney, and Muscles of Channa gachua|Bull. Environ. Contam. Toxicol.41(3): 317-323|1988|10.1007/BF01688873
13171|A||Shigeoka,T., Y. Sato, Y. Takeda, K. Yoshida, and F. Yamauchi|Acute Toxicity of Chlorophenols to Green Algae, Selenastrum capricornutum and Chlorella vulgaris, and Quantitative Structure-Activity Relationships|Environ. Toxicol. Chem.7(10): 847-854|1988|
13172|A||Shugart,L.R.|Quantitation of Chemically Induced Damage to DNA of Aquatic Organisms by Alkaline Unwinding Assay|Aquat. Toxicol.13(1): 43-52|1988|10.1016/0166-445X(88)90071-9
13173|A||Shukla,J.P., and K. Pandey|Toxicity and Long Term Effects of a Sublethal Concentration of Cadmium on the Growth of the Fingerlings of Ophiocephalus punctatus (Bl.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)16(5): 537-540|1988|10.1002/aheh.19880160515
13174|A||Soivio,A., E. Nikunen, and H. Tuurala|Acute Response to Sodium Hypochlorite in Rainbow Trout Acclimatized to Pulp and Paper Mill Effluents|Aquat. Toxicol.13(1): 77-88|1988|10.1016/0166-445X(88)90074-4
13175|A||Stackhouse,R.A., and W.H. Benson|The Influence of Humic Acid on the Toxicity and Bioavailability of Selected Trace Metals|Aquat. Toxicol.13(2): 99-108|1988|10.1016/0166-445X(88)90036-7
13176|A||Stay,F.S., A. Katko, C.M. Rohm, M.A. Fix, and D.P. Larsen|Effects of Fluorene on Microcosms Developed from Four Natural Communities|Environ. Toxicol. Chem.7(8): 635-644|1988|10.1002/etc.5620070805
13177|A||Tomar,V., and A.K. Pandey|Sublethal Toxicity of an Insecticide to the Epidermal Melanophores of Rana Tadpoles|Bull. Environ. Contam. Toxicol.41(4): 582-588|1988|10.1007/BF02021004
13178|A||Zhavoronkov,N.L., P.M. Makhno, S.D. Antaiferov, and I.M. Titova|The Toxic Effect of Romucide to Hydrobionts|C. A. Sel. Environ. Pollut.19:3-|1988|
13179|A||Verriopoulos,G., and S. Dimas|Combined Toxicity of Copper, Cadmium, Zinc, Lead, Nickel, and Chrome to the Copepod Tisbe holothuriae|Bull. Environ. Contam. Toxicol.41(3): 378-384|1988|10.1007/BF01688882
13180|A||Walsh,G.E., L.L. McLaughlin, M.J. Yoder, P.H. Moody, E.M. Lores, J. Forester, and P.B. Wessinger-Duvall|Minutocellus polymorphus:  A New Marine Diatom for Use in Algal Toxicity Tests|Environ. Toxicol. Chem.7(11): 925-929|1988|
13181|A||Wan,M.T., R.G. Watts, and D.J. Moul|Evaluation of the Acute Toxicity to Juvenile Pacific Salmonids of Hexazinone and its Formulated Products: Pronone 10G, Velpar L, and Their Carriers|Bull. Environ. Contam. Toxicol.41(4): 609-616|1988|10.1007/BF02021008
13182|A||Wicklund,A., and P. Runn|Calcium Effects on Cadmium Uptake, Redistribution, and Elimination in Minnows, Phoxinus phoxinus, Acclimated to Different Calcium Concentrations|Aquat. Toxicol.13(2): 109-122|1988|10.1016/0166-445X(88)90037-9
13183|A||Williams,E.M., and F.B. Eddy|Regulation of Blood Haemoglobin and Electrolytes in Rainbow Trout Salmo gairdneri (Richardson) Exposed to Nitrite|Aquat. Toxicol.13(1): 13-28|1988|10.1016/0166-445X(88)90069-0
13184|A||Williams,E.M., and F.B. Eddy|Anion Transport, Chloride Cell Number and Nitrite-Induced Methaemoglobinaemia in Rainbow Trout (Salmo gairdneri) and Carp (Cyprinus carpio)|Aquat. Toxicol.13(1): 29-42|1988|10.1016/0166-445X(88)90070-7
13185|A||Srivastava,A.K., and A.K. Srivastava|Acute Toxicity of Kepone to the Freshwater Catfish Heteropneustes fossilis|Natl. Acad. Sci. Lett.10(12): 439-441|1987|
13186|A||Julliard,A.K., D. Saucier, and L. Astic|Effects of Chronic Low-Level Copper Exposure on Ultrastructure of the Olfactory System in Rainbow Trout (Oncorhynchus mykiss)|Histol. Histopathol.8(4): 655-672|1993|
13187|A||Ahsanullah,M., M.C. Mobley, and P. Rankin|Individual and Combined Effects of Zinc, Cadmium and Copper on the Marine Amphipod Allorchestes compressa|Aust. J. Mar. Freshw. Res.39(1): 33-37|1988|10.1071/MF9880033
13188|A||Andersen,J.T., and E. Baatrup|Ultrastructural Localization of Mercury Accumulations in the Gills, Hepatopancreas, Midgut, and Antennal Glands of the Brown Shrimp, Crangon crangon|Aquat. Toxicol.13(4): 309-324|1988|10.1016/0166-445X(88)90152-X
13189|A||Asztalos,B., J. Nemcsok, I. Benedeczky, R. Gabriel, and A. Szabo|Comparison of Effects of Paraquat and Methidation on Enzyme Activity and Tissue Necrosis of Carp, Following Exposure to the Pesticides Singly or in Combination|Environ. Pollut.55(2): 123-135|1988|10.1016/0269-7491(88)90123-6
13190|A||Baksi,S.M., N. Libbus, and J.M. Frazier|Induction of Metal Binding Proteins in Striped Bass, Morone saxatilis, Following Cadmium Treatment|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 355-363|1988|10.1016/0742-8413(88)90042-4
13191|A||Bakthavathsalam,R.|Effects of Lindane and Carbofuran on the Lactic Acid Levels of the Fish Anabas testudineus at Submerged Condition and on Exposure to Air|Environ. Ecol.6(1): 32-37|1988|
13192|A||Bakthavathsalam,R.|Toxicity of Lindane to Some Air-Breathing Fishes|Environ. Ecol.6(1): 222-224|1988|
13193|A||Bashamohideen,M., K. Obilesu, and P.M. Reddy|Effects of Malathion and Methyl Parathion on the Metabolic Changes in the Fish Tilapia mossambica|Environ. Ecol.6(2): 481-483|1988|
13194|A||Bazulic,D., M. Najdek, B. Pavoni, and A.A. Orio|PCB Effects on Production of Carbohydrates, Lipids and Proteins in Marine Diatom Phaeodactylum tricornutum|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 409-412|1988|10.1016/0742-8413(88)90051-5
13196|A||Bennett,W.N.|Assessment of Selenium Toxicity in Algae Using Turbidostat Culture|Water Res.22(7): 939-942|1988|10.1016/0043-1354(88)90032-2
13197|A||Bhaskaran,R.|Effect of DDT and Methyl Parathion on the Mitochondrial Respiration, SDH and ATPase Activity of an Air-Breathing Fish Channa striatus|Environ. Ecol.6(1): 198-203|1988|
13198|A||Black,J.J., A.E. MacCubbin, and C.J. Johnston|Carcinogenicity of Benzo(a)pyrene in Rainbow Trout Resulting From Embryo Microinjection|Aquat. Toxicol.13(4): 297-308|1988|10.1016/0166-445X(88)90151-8
13199|A||Bushong,S.J., L.W.,Jr. Hall, W.S. Hall, W.E. Johnson, and R.L. Herman|Acute Toxicity of Tributyltin to Selected Chesapeake Bay Fish and Invertebrates|Water Res.22(8): 1027-1032|1988|10.1016/0043-1354(88)90150-9
13200|A||Chakrabarty,P., and V. Banerjee|Effect of Sublethal Toxicity of Three Organophosphorus Pesticides on the Peripheral Hemogram of the Fish Channa punctatus|Environ. Ecol.6(1): 151-158|1988|
13201|A||Chakraborty,P., and S. Banerjee|Methyl Parathion as a Fish Toxicant for Eradication of Trash Fishes from Freshwater Pond|Environ. Ecol.6(1): 148-150|1988|
13203|A||Chandini,T.|Effects of Different Food (Chlorella) Concentrations on the Chronic Toxicity of Cadmium to Survivorship, Growth and Reproduction of Echinisca triserialis (Crustacea:  Cladocera)|Environ. Pollut.54(2): 139-154|1988|10.1016/0269-7491(88)90143-1
13204|A||Chaudhari,T.R., M.L. Jadhav, and V.S. Lomte|Acute Toxicity of Organophosphates to Fresh Water Snails From Panzara River at Dhule, MS|Environ. Ecol.6(1): 244-246|1988|
13205|A||Doherty,F.G., M.L. Failla, and D.S. Cherry|Metallothionein-like Heavy Metal Binding Protein Levels in Asiatic Clams are Dependent on the Duration and Mode of Exposure to Cadmium|Water Res.22(7): 927-932|1988|10.1016/0043-1354(88)90030-9
13206|A||Freitas,A.C.S., J.R.D. Guimaraes, V.A. Gouvea, and E. Penna-Franca|Laboratory Experiments on 60Co Bioaccumulation by Tropical Seaweeds|In: U.Seeliger, L.D.De Lacerda, and S.R.Patchineelam (Eds.), Metals in Coastal Environments of Latin America, Springer-Verlag, New York, Inc., Secaucus, NJ:147-154|1988|
13208|A||Ghosh,T.K., and S.K. Chatterjee|Toxic Influence of Fenvalerate on the Biological Parameters of the Fish Anabas testudineus|Environ. Ecol.6(1): 107-110|1988|
13209|A||Hall,L.W.,Jr., S.J. Bushong, M.C. Ziegenfuss, W.E. Johnson, R.L. Herman, and D.A. Wright|Chronic Toxicity of Tributyltin to Chesapeake Bay Biota|Water Air Soil Pollut.39(3-4): 365-376|1988|10.1007/BF00279481
13210|A||Hughes,G.M., and J. Nemcsok|Effects of Low pH Alone and Combined with Copper Sulphate on Blood Parameters of Rainbow Trout|Environ. Pollut.55(2): 89-95|1988|10.1016/0269-7491(88)90120-0
13211|A||Jana,S.R., and N. Bandyopadhyaya|Effect of Heavy Metals on Some Biochemical Parameters in the Freshwater Fish Channa punctatus|Aquat. Sci. Fish. Abstr.18(4): 5486-1Q18|1987|
13212|A||Johnson,I.|The Effects of Combinations of Heavy Metals, Hypoxia and Salinity on Ion Regulation in Crangon crangon (L.) and Carcinus maenas (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 459-463|1988|10.1016/0742-8413(88)90059-X
13213|A||DeNoyelles,F., and D. Kettle|Herbicides in Kansas Waters - Evaluations of the Effects of Agricultural Runoff and Aquatic Weed Control on Aquatic Food Chains|Project Completion Rep., Project No.A-092-KAN, Office of Water Res.Technol., U.S.D.I., Washington, D.C.:40 p.|1980|
13214|A||Karez,C.S., M. Romeo, and M. Gnassia-Barelli|Uptake of Zn and Cd by Coastal Phytoplankton Species in Culture|In: U.Seeliger, L.D.De Lacerda, and S.R.Patchineelam (Eds.), Metals in Coastal Environments of Latin America, Springer-Verlag, New York, Inc., Secaucus, NJ:130-139|1988|
13215|A||Khillare,Y.K., and S.B. Wagh|Effects of Ekatin on Some Physical Parameters of Whole Body Tissue Cations of the Fish Barbus stigma|Environ. Ecol.6(1): 70-72|1988|
13216|A||Kukkonen,J., and A. Oikari|Sulphate Conjugation is the Main Route of Pentachlorophenol Metabolism in Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 465-468|1988|10.1016/0742-8413(88)90060-6
13217|A||Kulshrestha,S.K., and N. Arora|Effect of Sublethal DDT and Carbofuran Exposure on the Trunk Melanophores of the Fish Rasbora daniconius|Environ. Ecol.6(2): 369-372|1988|
13218|A||Kumar,S., R. Lal, and P. Bhatnagar|Uptake of Dieldrin, Dimethoate and Permethrin by Cyanobacteria, Anabaena sp. and Aulosira fertilissima|Environ. Pollut.54(1): 55-61|1988|10.1016/0269-7491(88)90175-3
13219|A||Mani,V.G.T., and S.K. Konar|Pollutional Hazards of the Pesticide Chlorpyrifos on Aquatic Ecosystem|Environ. Ecol.6(2): 460-462|1988|
13220|A||Mukhopadhyay,M.K., and S.K. Konar|Skeletal Abnormalities in the Fish Tilapia mossambica Exposed to Zinc and Iron|Environ. Ecol.6(2): 519-521|1988|
13221|A||Naidu,K.R.P., J.P. Kumari, and B.P. Naidu|Impact of Endosulfan on the Hematology of the Fish Cyprinus carpio|Environ. Ecol.5(4): 713-716|1987|
13222|A||Nell,J.A., and G. Livanos|Effects of Fluoride Concentration in Seawater on Growth and Fluoride Accumulation by Sydney Rock Oyster (Saccostrea commercialis) and Flat Oyster|Water Res.22(6): 749-753|1988|10.1016/0043-1354(88)90185-6
13223|A||Nimbargi,P.M.|Some Physiological Studies on the Freshwater Fish Puntius sarana Exposed to Total Residual Chlorine|Aquat. Sci. Fish. Abstr.18(4): 5477-1Q18|1988|
13224|A||Ostrander,G.K., M.L. Landolt, and R.M. Kocan|The Ontogeny of Coho Salmon (Oncorhynchus kisutch) Behavior Following Embryonic Exposure to Benzo(a)pyrene|Aquat. Toxicol.13(4): 325-346|1988|10.1016/0166-445X(88)90153-1
13225|A||Pal,A.K., and S.K. Konar|Long-Term Effects of Organophosphorus Insecticide Methyl Parathion on Fish|Aquat. Sci. Fish. Abstr.18(4): 5540-1Q18|1988|
13226|A||Pandey,P.K., G.K. Thakur, and B.P. Choudhary|Effect of Malathion and Metacercarial Infection on Liver Lipofuscin Accumulation of the Air-Breathing Fish Heteropneustes fossilis|Environ. Ecol.6(1): 234-236|1988|
13227|A||Pickering,Q.H.|Evaluation and Comparison of Two Short-Term Fathead Minnow Tests for Estimating Chronic Toxicity|Water Res.22(7): 883-893|1988|10.1016/0043-1354(88)90026-7
13229|A||Radhaiah,V., and K.J. Rao|Behavioral Response of Fish Tilapia mossambica Exposed to Fenvalerate|Environ. Ecol.6(2): 496-497|1988|
13230|A||Ramaswamy,M.|Effects of Sevin on Blood Free Amino Acid Levels of the Fish Sarotherodon mossambicus|Environ. Ecol.5(4): 633-637|1987|
13231|A||Rao,K.S., A.K. Khan, S. Alam, and R. Nagabhushanam|Toxicity of Three Pesticides to the Marine Prawn Penaeus monodon and Penaeus indicus|Environ. Ecol.6(2): 479-480|1988|
13232|A||Sambasiva Rao,K., A.K. Khan, S.M. Alam, and R. Nagabhushanam|Seasonal Toxicity of Benzene to the Marine Edible Crab Scylla serrata|Environ. Ecol.6(1): 220-221|1988|
13233|A||Rao,K.S., A.K. Khan, S.M. Alam, and R. Nagabhushanam|Heavy Metal Toxicity to the Marine Crab Ozius rugulosus|Environ. Ecol.6(1): 228-230|1988|
13234|A||Sambasiva Rao,K., A.K. Khan, S.M. Alam, and R. Nagabhushanam|Effect of Benzene on the Biochemical Constituents of the Marine Edible Crab Scylla serrata|Environ. Ecol.6(2): 335-339|1988|
13236|A||Ravindran,K.|Effects of Petroleum Hydrocarbon Toluene on Carbohydrate Metabolism of the Fish Tilapia mossambica|Environ. Ecol.6(1): 1-4|1988|
13237|A||Reddy,P.M., and M. Bashamohideen|Toxicity of Malathion to the Fish Cyprinus carpio|Environ. Ecol.6(2): 488-490|1988|
13238|A||Saxena,P.K., and K. Mani|Effect of Safe Concentrations of Some Pesticides on Thyroid in the Freshwater Murrel, Channa punctatus:  A Histopathological Study|Environ. Pollut.55(2): 97-105|1988|10.1016/0269-7491(88)90121-2
13239|A||Shanmugavel,S., K. Sampath, V. Sivakumar, B. Geetha, and D.J. Gladys|Sublethal Effects of Phosphamidon and Methyl Parathion on Food Intake, Growth and Conversion Efficiency of the Fish Oreochromis mossambicus|Environ. Ecol.6(2): 257-261|1988|
13240|A||Shivaraj,K.M., and H.S. Patil|Toxicity of Cadmium and Copper to a Freshwater Fish Puntius arulius|Environ. Ecol.6(1): 5-8|1988|
13242|A||Tjalve,H., J. Gottofrey, and K. Borg|Bioaccumulation, Distribution and Retention of 63Ni2+ in the Brown Trout (Salmo trutta)|Water Res.22(9): 1129-1136|1988|10.1016/0043-1354(88)90007-3
13243|A||Wong,P.K., and L. Chang|The Effects of 2,4-D Herbicide and Organophosphorus Insecticides on Growth, Photosynthesis, and Chlorophyll a Synthesis of Chlamydomonas reinhardtii (mt+)|Environ. Pollut.55(3): 179-189|1988|10.1016/0269-7491(88)90151-0
13244|A||Dallakyan,G.A., M.N. Korsak, and E.P. Nikiforova|Effect of Zinc, Chromium, and Cadmium on Phytoplankton|C. A. Sel. Environ. Pollut.13:1-|1988|
13245|A||Farris,J.L.|Cellulolytic Responses to Heavy-Metal Accumulation in Corbicula fluminea and Mudalia dilatata|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:185 p.|1986|
13246|A||Samson,G., and R. Popovic|Use of Algal Fluorescence for Determination of Phytotoxicity of Heavy Metals and Pesticides as Environmental Pollutants|Ecotoxicol. Environ. Saf.16(3): 272-278|1988|10.1016/0147-6513(88)90056-5
13247|A||Hawkins,W.E., W.W. Walker, R.M. Overstreet, T.F. Lytle, and J.S. Lytle|Dose-Related Carcinogenic Effects of Water-Borne Benzo(a)pyrene on Livers of Two Small Fish Species|Ecotoxicol. Environ. Saf.16(3): 219-231|1988|10.1016/0147-6513(88)90052-8
13248|A||Ram,R.N., and S.K. Singh|Carbofuran-Induced Histopathological and Biochemical Changes in Liver of the Teleost Fish, Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.16(3): 194-201|1988|10.1016/0147-6513(88)90050-4
13249|A||Jensen,D.A., and J.C. Brazner|Effects of Chlorpyrifos on Macroinvertebrates in Littoral Enclosures|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1607:101-107|1988|
13252|A||Machova,J., Z. Svobodova, R. Faina, J. Kemrova, and T. Kuthan|The Acute Toxicity of Carbamate-Based Herbicides to Aquatic Organisms (Akutni Toxicita Herbicidu na Bazi Karbamatu pro Vodni Organismy)|Pr. Vyzk. Ustav Ryb. Hydrobiol. Vodnany14:63-74|1985|
13253|A||Ram,K.J., G.R.M. Rao, S. Ayyappan, C.S. Purushothaman, P.K. Saha, K.C. Pani, and H.K. Muduli|A Combination of Commercial Bleaching Powder and Urea As a Potential Piscicide|Aquaculture72:287-293|1988|10.1016/0044-8486(88)90217-7
13254|A||Julshamn,K., K.J. Andersen, O. Ringdal, and J. Brenna|Effect of Dietary Copper on the Hepatic Concentration and Subcellular Distribution of Copper and Zinc in the Rainbow Trout (Salmo gairdneri)|Aquaculture73:143-155|1988|10.1016/0044-8486(88)90049-X
13255|A||Abbasi,S.A., P.C. Nipaney, and R. Soni|Studies on Environmental Management of Mercury (II), Chromium (VI) and Zinc (II) with Respect to the Impact on Some Arthropods and Protozoans - Toxicity of Zinc (II)|Int. J. Environ. Stud.32:181-187|1988|10.1080/00207238808710458
13257|A||Overnell,J., T.C. Fletcher, and R. McIntosh|The Apparent Lack of Effect of Supplementary Dietary Zinc on Zinc Metabolism and Metallothionein Concentrations in the Turbot, Scophthalmus maximus (Linnaeus)|J. Fish Biol.33:563-570|1988|10.1111/j.1095-8649.1988.tb05499.x
13258|A||Ellgaard,E.G., and J.L. Guillot|Kinetic Analysis of the Swimming Behaviour of Bluegill Sunfish, Lepomis macrochirus Rafinesque, Exposed to Copper:  Hypoactivity Induced by Sublethal Concentrations|J. Fish Biol.33:601-608|1988|10.1111/j.1095-8649.1988.tb05503.x
13260|A||Zayed,S.M.A.D., A.E. El-Arab, and I.Y. Mostafa|Fate of 14C-Carbofuran in a Rice-Fish Model Ecosystem|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(4): 401-407|1988|
13261|A||Mishra,K., A.K. Pandey, and P. Kaskhedikar|Studies on the Dimethoate Induced Changes in the Pituitary of Heteropneustes fossilis (Bloch)|J. Hydrobiol.7(1): 65-66|1991|
13262|A||Stehly,G.R., and W.L. Hayton|Detection of Pentachlorophenol and its Glucuronide and Sulfate Conjugates in Fish Bile and Exposure Water|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(4): 355-366|1988|
13263|A||Musko,I.B.|Effect of Pesticides on the Ultrastructure of the Alimentary Canal of Two Freshwater Copepods, Crustacea|Eur. J. Cell Biol.43(Suppl.18): 24-|1987|
13264|A||Perkins,J.M., W.L. Chen, and R.E. Briant|Uptake and Elimination of Fenazaquin by Rainbow Trout in Relation to Predicted Environmental Concentrations|Br. Crop Prot. Conf. Pests Dis.:877-882|1992|
13265|A||Perumal,P., and P. Subramanian|Effects of Salinity and Copper on Larval Development in Pistol Prawn, Alpheus malabaricus malabaricus Fabricius|Indian J. Mar. Sci.14(1): 35-37|1985|
13266|A||Piccinni,E., O. Coppellotti, L. Giannoni, and O. Ravera|Effects of Cu, Cd, V in Physa acuta (Draparnaud). I: Partial Characterisation of Chelating Compounds|Environ. Technol. Lett.6(11): 505-513|1985|10.1080/09593338509384368
13267|A||Hendriks,A.J., and M.D.A. Stouten|Monitoring the Response of Microcontaminants by Dynamic Daphnia magna and Leuciscus idus Assays in the Rhine Delta: Biological Early Warning as a Useful Supplement|Ecotoxicol. Environ. Saf.26:265-279|1993|10.1006/eesa.1993.1055
13268|A||Knezovich,J.P., and L.S. Inouye|The Influence of Sediment and Colloidal Material on the Bioavailability of a Quaternary Ammonium Surfactant|Ecotoxicol. Environ. Saf.26(3): 253-264|1993|10.1006/eesa.1993.1054
13269|A||Van Wijk,R.J., J.F. Postma, and H. Van Houwelingen|Joint Toxicity of Ethyleneamines to Algae, Daphnids and Fish|Environ. Toxicol. Chem.13(1): 167-171|1994|10.1002/etc.5620130122
13270|A||Beyers,D.W., T.J. Keefe, and C.A. Carlson|Toxicity of Carbaryl and Malathion to Two Federally Endangered Fishes, as Estimated by Regression and ANOVA|Environ. Toxicol. Chem.13(1): 101-107|1994|10.1002/etc.5620130114
13271|A||Linton,T.K., F.L. Mayer, T.L. Simon, J.A. Malone, and L.L. Marking|Salinity and Temperature Effects on Chronic Toxicity of 2,4-Dinitrophenol and 4-Nitrophenol to Sheepshead Minnows (Cyprinodon variegatus)|Environ. Toxicol. Chem.13(1): 85-92|1994|
13272|A||Howe,G.E., L.L. Marking, T.D. Bills, M.A. Boogaard, and F.L.,Jr. Mayer|Effects of Water Temperature on the Toxicity of 4-Nitrophenol and 2,4-Dinitrophenol to Developing Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.13(1): 79-84|1994|
13273|A||Brecken-Folse,J.A., F.L. Mayer, L.E. Pedigo, and L.L. Marking|Acute Toxicity of 4-Nitrophenol, 2,4-Dinitrophenol, Terbufos and Trichlorfon to Grass Shrimp (Palaemonetes spp.) and Sheepshead Minnows (Cyprinodon variegatus) as Affected by Salinity and Temperature|Environ. Toxicol. Chem.13(1): 67-77|1994|
13274|A||Howe,G.E., L.L. Marking, T.D. Bills, J.J. Rach, and F.L.,Jr. Mayer|Effects of Water Temperature and pH on Toxicity of Terbufos, Trichlorfon, 4-Nitrophenol and 2,4-Dinitrophenol to the Amphipod Gammarus pseudolimnaeus and Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.13(1): 51-66|1994|
13276|A||Seuge,J., R. Bluzat, and F.J. Rodriguez-Ruiz|Effects of a Herbicide Mixture (2,4-D and 2,4,5-T): Acute Toxicity in 4 Species of Limnetic Invertebrates: Chronic Toxicity in the Pulmonate Mollusk Lymnea|Environ. Pollut.16(2): 87-104|1978|
13277|A||Bell,C.E., L.A. Baldwin, P.T. Kostecki, and E.J. Calabrese|Comparative Response of Rainbow Trout and Rat to the Liver Mitogen, Lead|Ecotoxicol. Environ. Saf.26(3): 280-284|1993|10.1006/eesa.1993.1056
13279|A||Wu,Y.L., H.R. Zhao, and L.Y. Hou|Effects of Heavy Metals on Embryos and Larvae of Flat Fish Paralichthys olivaceus|Haiyang Yu Huzhao (Non-English)21(4): 386-392|1990|
13280|A||Metcalfe,C.D., V.W. Cairns, and J.D. Fitzsimons|Microinjection of Rainbow Trout at the Sac-Fry Stage: A Modified Trout Carcinogenesis Assay|Aquat. Toxicol.13:347-356|1988|10.1016/0166-445X(88)90154-3
13281|A||Metcalfe,C.D., and R.A. Sonstegard|Microinjection of Carcinogens into Rainbow Trout Embryos: An In Vivo Carcinogenesis Assay|J. Natl. Cancer Inst.73(5): 1125-1132|1984|
13284|A||Samman,J., and M.P. Thomas|Observations on the Effect of the Aerial Spraying of Abate, Used in the Control of Simulium Larvae, on the Drift Rates of Microcrustacea and Chaoboridae in the River Oti, Ghana|Int. J. Environ. Stud.14(1): 43-47|1979|10.1080/00207237908737373
13285|A||Sahai,Y.N., and R. Gupta|Residue Analysis of Some Pesticides in the Brain of a Teleost Fish Heteropneustes fossilis (Bloch)|J. Tissue Res.2(1): 35-41|1992|
13286|A||Gupta,R., and Y.N. Sahai|Qualitative Detection of Organochlorine and Carbamate Residues in the Brain of Catfish, Heteropenustes fossilis (Bloch) by Thin Layer Chromatography|Environ. Toxicol. Chem.:151-156|1989|
13287|A||Sahai,Y.N., and R. Gupta|Histopathological Changes Induced by BHC and Malathion in the Optic Tectum of Oreochromis mossambicus (Peters), Teleostei|Environ.Concern.& Tiss.Injury Environ.Ser.4:161-167|1990|
13288|A||Sinha,S., U.N. Rai, R.D. Tripathi, and P. Chandra|Chromium and Manganese Uptake by Hydrilla verticillata (l.f.) Royle:  Amelioration of Chromium Toxicity by Manganese|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control28(7): 1545-1552|1993|
13289|A||Verweij,W., R. Glazewski, and H. De Haan|Speciation of Copper in Relation to Its Bioavailability|Chem. Spec. Bioavail.4(2): 43-52|1992|10.1080/09542299.1992.11083177
13290|A||Taraschewski,H., C. Renner, and H. Mehlhorn|Treatment of Fish Parasites.  3.  Effects of Levamisole HCl, Metrifonate, Fenbendazole, Mebendazole, and Ivermectin on Anguillicola crassus (Nematodes) Pathogenic in the Air Bladder of Eels|Parasitol. Res.74(3): 281-289|1988|10.1007/BF00539579
13291|A||Rao,K.R., and D.G. Doughtie|Histopathological Changes in Grass Shrimp Exposed to Chromium, Pentachlorophenol and Dithiocarbamates|Mar. Environ. Res.14:371-395|1984|10.1016/0141-1136(84)90089-8
13292|A||Rai,L.C., and M. Raizada|Effect of Nickel and Silver Ions on Survival, Growth, Carbon Fixation and Nitrogenase Activity in Nostoc muscorum: Regulation of Toxicity by EDTA and|J. Gen. Appl. Microbiol.31(4): 329-337|1985|10.2323/jgam.31.329
13293|A||Rai,L.C., and M. Raizada|Nickel Induced Stimulation of Growth, Heterocyst Differentiation, 14CO2 Uptake and Nitrogenase Activity in Nostoc muscorum|New Phytol.104(1): 111-114|1986|10.1111/j.1469-8137.1986.tb00638.x
13294|A||Fleming,W.J., M.S. Ailstock, J.J. Momot, and C.M. Norman|Response of Sago Pondweed, a Submerged Aquatic Macrophyte, to Herbicides in Three Laboratory Culture Systems|ASTM Spec. Tech. Publ.2:267-275|1991|
13295|A||Linder,G., J. Barbitta, and T. Kwaiser|Short-Term Amphibian Toxicity Tests and Paraquat Toxicity Assessment|ASTM Spec. Tech. Publ.:189-198|1990|
13296|A||Maeda,S., K. Kumeda, M. Maeda, S. Higashi, and T. Takeshita|Bioaccumulation of Arsenic by Freshwater Algae (Nostoc sp.) and the Application to the Removal of Inorganic Arsenic from an Aqueous Phase|Appl. Organomet. Chem.1(4): 363-370|1987|10.1002/aoc.590010411
13297|A||Gupta,S.|Short-Term Toxicity Tests with Phenolic Compounds on Notopterus notopterus for Predicting the Application Factor|Ann. Biol.6(1): 75-79|1990|
13298|A||Fernandez-Casalderrey,A., E.S. Andreu-Moliner, C. Cebrian, and M.D. Ferrando|Acute Toxicity of Pentachlorophenol (PCP) on Goldfish (Carassius auratus) Under Laboratory Conditions|Toxicol. Environ. Chem.31/32:395-400|1991|10.1080/02772249109357713
13299|A||Cebrian,C., E.S. Andreu, M.D. Ferrando, and A. Fernandez-Casalderrey|Degradation and Acute Toxicity of Methidathion and Trichlorfon on Procambarus clarkii, in Experimental Conditions|Toxicol. Environ. Chem.31/32:321-327|1991|10.1080/02772249109357704
13300|A||Balasubrahmanyam,L., T.K. Ghosh, and K.P. Krishnamoorthi|Safe Level of Copper to Freshwater Alga Scenedesmus|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.53(2): 177-182|1987|
13301|A||Khillare,Y.K., and S.B. Wagh|Acute Toxicity of Pesticides in the Freshwater Fish Barbus stigma: Histopathology of the Stomach|Uttar Pradesh J. Zool.8(2): 176-179|1988|
13302|T||Giere,O.|The Impact of Crude Oil and Oil Dispersants on the Marine Oligochaete Marionina subterranea|Cah. Biol. Mar. (Non-English)21(1): 51-60|1980|
13303|A||Marigomez,J.A., M.M. Vega, M.P. Cajaraville, and E. Angulo|Quantitative Responses of the Digestive-Lysosomal System of Winkles to Sublethal Concentrations of Cadmium|Cell. Mol. Biol.35(5): 555-562|1989|
13304|A||Marigomez,J.A., M.P. Cajaraville, and E. Angulo|Cellular Cadmium Distribution in the Common Winkle, Littorina littorea (L.) Determined by X-Ray Microprobe Analysis and Histochemistry|Histochemistry94:191-199|1990|10.1007/BF02440187
13305|A||Marigomez,I.A., M.P. Cajaraville, and E. Angulo|Histopathology of the Digestive Gland-Gonad Complex of the Marine Prosobranch Littorina littorea Exposed to Cadmium|Dis. Aquat. Org.9:229-238|1990|10.3354/dao009229
13306|A||Marigomez,I., J.M. Gil, and E. Angulo|Accumulation of Pigment and Lipofuscin Granules in Littorina littorea Exposed to Sublethal Concentrations of Cadmium: A Histochemical Study|Zool. Jb. Anat.120:127-141|1990|
13307|A||Takamura,K.|Decrease of Chironomid Emergence by Exposure to the Surfactant ABS in Artificial Channels|Rikusuigaku Zasshi (Non-English)53(4): 363-372|1992|
13308|A||Maheu,S., and E. Pelletier|Fate of Mercury and Methylmercury in Starfish Leptasterias polaris Organ Distribution, Fluxes and Transport Mechanism|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1863:49-60|1992|
13309|A||Toledo,M.C.F., and C.M. Jonsson|Bioaccumulation and Elimination of Endosulfan in Zebra Fish (Brachydanio rerio)|Pestic. Sci.36(3): 207-211|1992|10.1002/ps.2780360306
13310|A||Hertl,J., and R. Nagel|Bioconcentration and Metabolism of 3,4-Dichloroaniline in Different Life Stages of Guppy and Zebrafish|Chemosphere27(11): 2225-2234|1993|10.1016/0045-6535(93)90134-Q
13311|A||Kungolos,A., and I. Aoyama|Interaction Effect, Food Effect, and Bioaccumulation of Cadmium and Chromium for the System Daphnia magna-Chlorella ellipsoidea|Environ. Toxicol. Water Qual.8(4): 351-369|1993|10.1002/tox.2530080402
13312|A||Pearlmutter,N.L., and C.A. Lembi|The Effect of Copper on the Green Alga Pithophora oedogonia|Weed Sci.34(6): 842-849|1986|10.1017/S0043174500067989
13313|A||Chousalkar,M.R., R. Ilyas, N.B. Bhushari, and H.S.I. Ahmed|Effect of Lethal and Sublethal Concentrations of Ekalux on Oxygen Consumption of Lepidocephalicthys thermalis (Bleeker)|Geobios (Jodhpur)14(6): 258-261|1987|
13314|A||Prakasam,V.R., and J. Azariah|Toxic Effect of Hg on the Tissue Respiration of Monascidian, ascidiella Aspersa|J. Ecobiol.3(2): 106-109|1991|
13315|A||Clark,K.L., and R.J. Hall|Effects of Elevated Hydrogen Ion and Aluminum Concentrations on the Survival of Amphibian Embryos and Larvae|Can. J. Zool.63:116-123|1985|10.1139/z85-020
13316|A||Escaffre,H., J. Brunhes, Y. Sechan, G. Carlsson, A. Stiles, H. Kulzer, O. Pawlick, and J. Mertens|Control of Simulium damnosum. Vector of Human Onchorcerciasis in West Africa.  VII - Helicopter Applications of New Insecticides and new Formulations in the Korhogo Region of Ivory Coast|W.H.O.Documentary Series, WHO/VBC/76.620:24 p.|1976|
13317|A||Hanafi,A., and E.K. Duursma|Use of Pesticides in Brackishwater Ponds 2. Effect of Phosvel on Fish and Shrimp|Bull. Shrimp Cult. Res. Cent.2(1-2): 143-157|1976|
13318|AT||U.S. Environmental Protection Agency|Toxic Substances Control Act (TSCA) Chemical Substance Inventory|Office of Toxic Substances, U. S. Environmental Protection Agency, Washington, DC1-5:|1986|
13319|A||Rouleau,C., E. Pelletier, and J. Pellerin-Massicotte|Uptake of Organic Mercury and Selenium from Food by Nordic Shrimp Pandalus borealis|Chem. Spec. Bioavail.4(2): 75-81|1992|10.1080/09542299.1992.11083181
13320|A||Schultz,T.W., L.M. Kyte, and J.N. Dumont|Structure-Toxicity Correlations of Organic Contaminants in Aqueous Coal-Conversion Effluents|Arch. Environ. Contam. Toxicol.7:457-463|1978|10.1007/BF02332071
13321|A||Natarajan,E., R.S. Biradar, and J.P. George|Acute Toxicity of Pesticides to Giant Freshwater Prawn Macrobrachium rosenbergii (De Man)|J. Aquacult. Trop.7(2): 183-187|1992|
13322|A||Lu,J., and W. Lai|Effects of Cadmium on Tissue and Ultrastructure of Gill of Eriocheir sinensis (M. Edw.)|Haiyang Yu Huzhao (Non-English)22(6): 566-570|1991|
13323|A||Lin,H.P., G. Charmantier, and J.P. Trilles|Ammonia Toxicity to Different Developmental Stages of Penaeus japonicus (Crustacea, Decapoda) and Its Effects on Osmoregulation|C. R. Acad. Sci. Ser. 3 Sci. Vie (Non-English)312(3): 99-105|1991|
13324|A||Iger,Y., and M. Abraham|Effects of Lead Pollution on Carp Skin|In: R.Billard, and N.De Pauw (Eds.), Int.Aquacult.Conf., Bordeaux, France, Oct.2-4, 1989, Special Publ.No.10, European Aquacult.Soc., Gent, Belgium:131-132|1989|
13325|A||Day,K.E.|Short-Term Effects of Herbicides on Primary Productivity of Periphyton in Lotic Environments|Ecotoxicology2(2): 123-138|1993|10.1007/BF00119435
13326|A||Amte,G.K., and K.B. Sawant|Acute Toxicity of Inorganic Mercury to Estuarine Crab Ilyoplax gangetica (Kemp)|Pollut. Res.12(1): 29-34|1992|
13327|A||Ensley,H.E., J.T. Barber, M.A. Polito, and A.I. Oliver|Toxicity and Metabolism of 2,4-Dichlorophenol by the Aquatic Angiosperm Lemna gibba|Environ. Toxicol. Chem.13(2): 325-331|1994|
13328|A||Centeno,M.D.F., L. Brendonck, and G. Persoone|Acute Toxicity Tests with Streptocephalus proboscideus (Crustacea:  Branchiopoda:  Anostraca):  Influence of Selected Environmental Conditions|Chemosphere27(11): 2213-2224|1993|10.1016/0045-6535(93)90133-P
13329|A||Delorme,P.D., D.C.G. Muir, W.L. Lockhart, K.H. Mills, and F.J. Ward|Depuration of Toxaphene in Lake Trout and White Suckers in a Natural Ecosystem Following a Single I.P.Dose|Chemosphere27(10): 1965-1973|1993|10.1016/0045-6535(93)90391-H
13330|A||Basaglia,F., and C. Cucchi|Effects of Phenylhydrazine on the Electrophoretic Behaviour of L-Lactate Dehydrogenase Isozymes in Ictalurus Species (Ictaluridae, Teleostei)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(3): 773-779|1993|
13331|A||Devi,M., P.S. Reddy, and M. Fingerman|Effect of Cadmium Exposure on Lactate Dehydrogenase Activity in the Hepatopancreas and Abdominal Muscle of the Fiddler Crab, Uca pugilator|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(3): 739-742|1993|
13332|A||Chen,J.C., and S.Y. Cheng|Haemolymph Osmolality, Acid-Base Balance and Shift of Ammonotelic to Ureotelic Excretory Pattern of Penaeus japonicus Exposed to Ambient Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(3): 733-737|1993|
13333|A||Handy,R.D., and W.S. Penrice|The Influence of high Oral Doses of Mercuric Chloride on Organ Toxicant Concentrations and Histopathology in Rainbow Trout, Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(3): 717-724|1993|
13334|A||Scott-Fordsmand,J.J., and M.H. Depledge|The Influence of Starvation and Copper Exposure on the Composition of the Dorsal Carapace and Distribution of Trace Metals in the Shore Crab (Carcinus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 537-543|1993|
13335|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Effects of Endosulfan on Survival, Growth and Reproduction of Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 437-441|1993|
13336|A||Ferrando,M.D., and E. Andreu|Feeding Behavior as an Index of Copper Stress in Daphnia magna and Brachionus calyciflorus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 327-331|1993|
13337|AT||Lewis,R.L., and D.V. Sweet|Registry of Toxic Effects of Chemical Substances (1983-84 Suppl., Vol. 1 & 2)|U.S.Dep.Health Human Serv., Center for Disease Control, Natl.Inst.for Occupational Safety and Health, Cincinnati, OH:|1985|
13340|A||Naqvi,S.M., T.S. Leung, and N.Z. Naqvi|Toxicities of Paraquat and Metribuzin (Sencor) Herbicides to the Freshwater Copepods, Eucyclops agilis and Diaptomus mississippiensis|Environ. Pollut. A.26(4): 275-280|1981|10.1016/0143-1471(81)90049-0
13341|A||Lee,A.H., P.Y. Lu, R.L. Metcalf, and E.L. Hsu|The Environmental Fate of Three Dichlorophenyl Nitrophenyl Ether Herbicides in a Rice Paddy Model Ecosystem|J. Environ. Qual.5(4): 482-486|1976|10.2134/jeq1976.00472425000500040035x
13342|A||Hooftman,R.N., K. Van de Guchte, and C.J. Roghair|Development of Ecotoxicological Test Systems to Assess Contaminated Sediments|Proj.B6/8995, The Netherlands Integrated Program on Soil Research (PCB):41 p.|1993|
13345|A||Chai,M., Y. Huang, and X. Jiang|Effect of Sublethal Concentrations of Copper Ions on Respiratory Physiology of Tilapia sp.|Shuichan Xuebao (Non-English)14(1): 50-54|1990|
13346|A||Schneider,J., A. Morin, and F.R. Pick|The Reponse of Biota in Experimental Stream Channels to a 24-Hour Exposure to the Herbicide Velpar L|Environ. Toxicol. Chem.14(9): 1607-1613|1995|
13347|A||Poremba,K., W. Gunkel, S. Lang, and F. Wagner|Microbiotests with Marine Organisms for Studying the Toxic Potential of Biosurfactants and Synthetic Surfactants|Kiel. Meeresforsch. Sonderh.8:327-330|1991|
13349|A||Pruell,R.J., J.G. Quinn, J.L. Lake, and W.R. Davis|Availability of PCBs and PAHs to Mytilus edulis from Artificially Resuspended Sediments|In: J.M.Capuzzo and D.R.Kester (Eds.), Oceanic Precesses in Marine Pollution, Vol.1: Biological Processes and Wastes in the Ocean:97-108|1987|
13350|A||Boudreaux,J., K. Strawn, and G. Callas|Fire Ants, Heptachlor, and Fish Kill|Southwest. Nat.3:7-12|1959|10.2307/3669033
13352|A||Ghosh,P., and S. Bhattacharya|In Vivo and In Vitro Acetylcholinesterase Inhibition by Metacid-50 and Carbaryl in Channa punctatus Under Natural Field Condition|Biomed. Environ. Sci.5(1): 18-24|1992|
13353|A||Mo,C., and B. Neilson|Weight and Salinity Effects on Zinc Uptake and Accumulation for the American Oyster (Crassostrea virginica Gmelin)|Environ. Pollut.82(3): 191-196|1993|10.1016/0269-7491(93)90116-6
13354|A||Sanders,J.G., and G.F. Riedel|Trace Element Transformation During the Development of an Estuarine Algal Bloom|Estuaries16(3A): 521-532|1993|10.2307/1352599
13355|A||Reading,J.T.|Acute and Chronic Effects of Selenium on Daphnia pulex|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:82 p.|1979|
13356|A||Brooks,A.S., and G.L. Seegert|The Effects of Single 30-Minute and Triple 120 Minute Exposures of Emerald Shiners and Rainbow Trout to Monochloramine|Final Rep., Order No.WG-8-0208-A, U.S.EPA:16 p.|1978|
13357|A||Chaudhari,T.R., M.L. Jadhav, and V.S. Lomte|Effect of Herbicide Basalin on Survival and Respiration of the Freshwater Snail, Bellamya bengalensis|Geobios15(6): 259-262|1988|
13361|A||Das,S.S.M., V.R.P. Smith, O.P.B. Padma, and S. Prasannakumar|Effect of Copper and Retting Toxicity on Tubifex tubifex|Environ. Ecol.11(1): 128-129|1993|
13362|A||Clark,L., J. Cummings, S. Bird, and E. Aronov|Acute Toxicity of the Bird Repellent, Methyl Anthranilate, to Fry of Salmo salar, Oncorhynchus mykiss, Ictalurus punctatus and Lepomis macrochirus|Pestic. Sci.39(4): 313-317|1993|10.1002/ps.2780390411
13363|A||Lin,H.P., P. Thuet, J.P. Trilles, R. Mounet-Guillaume, and G. Charmantier|Effects of Ammonia on Survival and Osmoregulation of Various Development Stages of the Shrimp Penaeus japonicus|Mar. Biol.117(4): 591-598|1993|10.1007/BF00349770
13364|A||Ghosh,A.R., and P. Chakrabarti|Histopathological and Histochemical Changes in Liver, Pancreas and Kidney of the Freshwater Fish Heteropneustes fossilis (Bloch) Exposed to Cadmium|Environ. Ecol.11(1): 185-188|1993|
13365|A||Livingston,J.M., and J.T. Goodwin|The Effect of Ultra Low Volume Aerial Dispersal of Naled on an Aquatic Habitat|Tech.Rep.EHL(K) 74-25, U.S.Air Force, Environ.Health Lab., Kelly AFB, TX:17 p.|1974|
13366|A||Mulla,M.S., R.L. Norland, T. Ikeshoji, and W.L. Kramer|Insect Growth Regulators for the Control of Aquatic Midges|J. Econ. Entomol.67(2): 165-170|1974|10.1093/jee/67.2.165
13367|A||Matey,V.Y.|Functional State of the Hypothalamo-Hypophysial Neurosecretory System of the Guppy, Lebistes reticulatus, with Acute Polychlorpinene Poisoning|J. Ichthyol.15(1): 132-138|1975|
13368|A||Goel,K.A., and K. Gupta|Haematobiochemical Characteristics of Heteropneustes fossilis Under the Stress of Zinc|Indian J. Fish.32(2): 256-260|1985|
13369|A||Nilsson,N.A.|Consequences of the Rotenone Treatment of a Subarctic Swedish Lake on the Fish and Zooplankton Communities|Rep.No.62, Inst.of Freshw.Res., Natl.Swed.Board of Fish., Drottningholm, Sweden:120-127|1985|
13371|A||Clark,K.L., and B.D. LaZerte|Intraspecific Variation in Hydrogen Ion and Aluminum Toxicity in Bufo americanus and Ambystoma maculatum|Can. J. Fish. Aquat. Sci.44:1622-1628|1987|10.1139/f87-196
13375|A||Krzeczkowska-Woloszyn,L.|Phytoplankton in Fish Ponds Treated with an Organophosphorus Insecticide (Neguvon)|Acta Hydrobiol.21(2): 139-147|1979|
13376|A||Lewkowicz,M., S. Lewkowicz, and L. Szarowski|Biotic and Abiotic Conditions of the Formation of Zooplankton Communities in Ponds Treated with the Organophosphorus Insecticide Neguvon|Acta Hydrobiol.21(2): 117-138|1979|
13377|T||Siriworakul,M., and P. Benyasut|Control and Utilization of Cattail (Typha latifolia L.)|Manuscr., Weed Control and Res.Branch, R.Irrig.Dep.Pakret Nonthaburi 11120, Thailand:13 p.|1992|
13378|A||Brock,T.C.M., J.J.R. Vet, M.J.J. Kerkhofs, J. Lijzen, W.J. Van Zuilekom, and R. Gijlstra|Fate and Effects of the Insecticide Dursban 4E in Indoor Elodea-Dominated and Macrophyte-Free Freshwater Model Ecosystems: III. Aspects of Ecosystem|Arch. Environ. Contam. Toxicol.25:160-169|1993|10.1007/BF00212127
13379|A||Anderson,L.W.J.|Effect of Light on the Phytotoxicity of Fluridone in American Pondweed (Potamogeton nodosus) and Sago Pondweed (P. pectinatus)|Weed Sci.29(6): 723-728|1981|10.1017/S0043174500040340
13380|A||Baile,V.V., and S. Oberai|Comparative Histopathology of Methyl Parathion and Endosulfan Treated Liver of the Catfish Clarias batrachus (Linn.)|Himalayan J. Environ. Zool.5(1): 23-28|1991|
13382|A||Lewis,J.W., A.N. Kay, and N.S. Hanna|Responses of Electric Fish (Family Mormyridae) to Chemical Changes in Water Quality: II. Pesticides|Environ. Technol.14(12): 1171-1178|1993|10.1080/09593339309385395
13383|A||Maeda,S., K. Mawatari, A. Ohki, and K. Naka|Arsenic Metabolism in a Freshwater Food Chain: Blue-Green Alga (Nostoc sp.), Shrimp (Neocaridina denticulata), Carp (Cyprinus carpio)|Appl. Organomet. Chem.7(7): 467-476|1993|10.1002/aoc.590070705
13384|A||Moni,D., P. Baskaran, and S. Palanichamy|Influence of Water Hardness and Heavy Metal (Zinc) on Food Utilization in Cyprinus carpio Var. Communis|J. Ecobiol.2(1): 51-55|1990|
13385|A||Lucu,C., and V. Obersnel|The Effect of Cadmium on the Spermatozoa and Fertilized Eggs of Sea Urchins|In: Selected Aspects of Exposure to Heavy Metals in the Environment: Monitors, Indicators, and High Risk Groups, National Academy of Sciences, Washington, DC:|1986|
13386|A||Ramakrishnan,R., and A.A. Sivakumar|Effect of Quinolphos on the Fish Oreochromis mossambicus|J. Ecobiol.5(1): 45-50|1993|
13387|A||Reddy,B.K., K.S. Swami, and C.S. Chetty|Modulation in Nitrogen Metabolism of Freshwater Mussel, Lamellidens marginalis (Lamarck) Under Methyl Parathion Stress|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.51(5): 555-559|1985|
13388|A||Ritz,D.A., R. Swain, and N.G. Elliott|Use of the Mussel Mytilus edulis planulatus (Lamarck) in Monitoring Heavy Metal Levels in Seawater|Aust. J. Mar. Freshw. Res.33(3): 491-506|1982|10.1071/MF9820491
13389|A||Sarkar,S.K.|Evaluation of Two Heavy Metals on the Oxygen Consumption of Tilapia mossambica (Peters)|Geobios16(2/3): 108-110|1989|
13390|A||Shakoori,A.R., M. Ilyas, and F. Aziz|Toxicity of Sublethal Doses of Trebon (Ethofenprox) on Total Blood Serum Proteins, Acetylcholinesterase Activity and SDS-PAGE Pattern of Blood Serum|Pak. J. Zool.24(3): 235-241|1992|
13391|A||Srivastava,U.S., and S.K. Konar|On the Use of Phosphamidon for Eradication of Fresh Water Fish Predators|Experientia21(390): 1-3|1965|
13392|A||Subramanian,B.R., T. Lingaraja, and V.K. Venugopalan|Effect of Low Concentrations of DDT on the Growth and Production of Marine Diatom Skeletonema costatum (Grev)|Curr. Sci. (Bangalore)48(5): 226-228|1979|
13393|A||Iqbal,J., and S.A. Mufti|Effect of Diazinon on Egg Hatchability in a Freshwater Teleost, Colisa fasciata|Proc. Pak. Congr. Zool.11:231-238|1991|
13394|A||Kreutzweiser,D.P., and P.D. Kingsbury|Drift of Aquatic Invertebrates in a Glyphosate Contaminated Watershed|FRDA Rep.63:250-256|1989|
13395|A||Leite,S.G.F., A.C.A. Costa, M.C. Moore, and G.A.S. Pinto|Cadmium Uptake and Its Effect on the Growth of Chlorella homosphaera and Scenedesmus quadricauda Cells in Laboratory Conditions|Rev. Microbiol.24(1): 54-58|1993|
13396|A||Mazik,P.M., M.L. Hinman, D.A. Winkelmann, S.J. Klaine, B.A. Simco, and N.C. Parker|Influence of Nitrite and Chloride Concentrations on Survival and Hematological Profiles of Striped Bass|Trans. Am. Fish. Soc.120(2): 247-254|1991|10.1577/1548-8659(1991)120<0247:IONACC>2.3.CO;2
13397|A||Mohsen,Z.H., and N.S. Mehdi|The Efficacy of Arosurf MSF and Petroleum Oils GB-1111 and GB-1356 Against Culex quinquefasciatus Say (Diptera:  Culicidae)|J. Biol. Sci. Res.19(2): 353-362|1988|
13398|A||Stevens,M.M.|Toxicity of Organophosphorus Insecticides to Fourth-Instar Larvae of Chironomus tepperi Skuse (Diptera: Chironomidae)|J. Aust. Entomol. Soc.31:335-337|1992|10.1111/j.1440-6055.1992.tb00519.x
13399|A||Williams,M.A.|The Modification of Schooling Behaviour in Larval Sea Bass, Dicentrarchus labrax, by Sublethal Concentrations of Methyl Parathion|Mer (Tokyo)27(4): 173-184|1989|
13400|A||Swift,M.C., and R.P. Morgan|Acute Toxicity of Nitric Acid to Fingerling Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.76(2): 227-229|1983|10.1016/0742-8413(83)90069-5
13401|A||Bowmer,K.H., and G.R. Sainty|Management of Aquatic Plants with Acrolein|J. Aquat. Plant Manag.15:40-46|1977|
13402|A||Tome,M.W., and C.E. Grue|Effects of an Aerial Application of Ethyl Parathion on Selected Aquatic Invertebrate Populations Inhabiting Prairie Pothole Wetlands|In: Environmental Contaminants and Their Effects on Biota of the Northern Great Plains. Symposium, Bismarck, ND:31-33|1990|
13403|A||Peverly,J.H.|Cadmium Movement and Accumulation in a Sediment-Water-Plant System|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO22:399-409|1988|
13405|A||Kamarianos,A., J. Altiparmakis, X. Karamanlis, D. Kufidis, T. Kousouris, G. Fotis, and S. Kilikidis|Experimental Evaluation of Fluridone Effectiveness on Fish Productive Aquatic Ecosystems|J. Aquat. Plant Manag.27:24-26|1989|
13406|T||Kamarianos,A., X. Karamanlis, G. Fotis, J. Altiparmakis, and S. Kilikidis|Effect of Fluridone on Trapa natans and Phragmites communis|J. Aquat. Plant Manag.26:69-|1988|
13407|A||Kingsbury,P.D., and D.P. Kreutzweiser|Impact of Double Applications of Permethrin on Forest Streams and Ponds|Rep.No.FPM-X-27, Environment Canada, Forest Pest Manag.Inst., Can.For.Serv., Sault Ste.Marie, Ontario, Canada:42 p.|1980|
13408|A||Christie,J.D., M.A. Prentice, E.S. Upatham, and G. Barnish|Laboratory and Field Trials of a Slow-Release Copper Molluscicide in St. Lucia|Am. J. Trop. Med. Hyg.27(3): 616-622|1978|10.4269/ajtmh.1978.27.616
13409|A||Baekken,T., and K.J. Aanes|Pesticides in Norwegian Agriculture. Their Effects on Benthic Fauna in Lotic Environments. Preliminary Results|Verh. Int. Ver. Theor. Angew. Limnol.24(4): 2277-2281|1991|
13411|AT||Dow Chemical Co.|Field Appraisal of Tests to Control Salt Marsh Mosquitoes with Dursban Applied as a Larvicide and Adulticide in Florida|Special Report, Fish and Wildlife Services, U.S. Department of the Interior:17 p.|1968|
13412|A||Bender,J.A., E.R. Archibold, V. Ibeanusi, and J.P. Gould|Lead Removal from Contaminated Water by a Mixed Microbial Ecosystem|Water Sci. Technol.21(12): 1661-1664|1989|10.2166/wst.1989.0138
13413|A||Zhao,L., X. Lu, and B. Sun|Toxic Effects of Organotin on Marine Diatoms|J. Ocean Univ. Qingdao20(4): 125-131|1990|
13414|A||Abbasi,S.A., and R. Soni|Studies on the Environmental Impact of Three Common Pesticides with Respect to Toxicity Towards a Larvivore (Channelfish N. denricus)|J. Inst. Publ. Health Eng.2:8-12|1991|
13415|A||Abbasi,S.A., P.C. Nipaney, and R. Soni|An Examination of the Water Quality Criteria of Vanadium with Reference to Impact Studies on Freshwater Teleost Nuria denricus (Hamilton)|Pollut. Res.12(2): 85-90|1993|
13416|A||Bjerregaard,P., and L. Christensen|Accumulation of Organic and Inorganic Mercury from Food in the Tissues of Carcinus maenas: Effect of Waterborne Selenium|Mar. Ecol. Prog. Ser.99(3): 271-281|1993|10.3354/meps099271
13417|A||Chen,J.C., and C.C. Tu|Influence of Ammonia on Growth of Penaeus monodon Fabricius Post-Larvae|Aquac. Fish. Manag.22(4): 457-462|1991|
13418|A||Chen,M.|Comparative Study of the Toxicity of gamma-HCH to Acartia tonsa|Haiyang Yu Huzhao (Non-English)22(3): 215-220|1991|
13419|A||Erben,R., and Z. Pisl|Acute Toxicity for Some Evaporating Aromatic Hydrocarbons for Freshwater Snails and Crustaceans|Int. Rev. Gesamten Hydrobiol.78(1): 161-167|1993|10.1002/iroh.19930780118
13420|A||Kane,D.A.|Effects of Low pH and Aluminum on Early Life Stages of Smallmouth Bass (Micropterus dolomieui)|M.S. Thesis, University of Missouri, Columbia, MO:70 p.|1984|
13421|A||Mulla,M.S., H.A. Darwazeh, and M.S. Dhillon|New Pyrethroids as Mosquito Larvicides and Their Effects on Nontarget Organisms|Mosq. News40(1): 7-13|1980|
13422|A||Mester,L., C. Tesio, S. Marcoci, and C. Popescu|Toxic Action of Pitezin on Some Freshwater Fish Species Cyprinus carpio and Carassius auratus Gibelio|Stud. Cercet. Biol. Ser. Biol. Anim.39(1): 47-52|1987|
13423|A||Paterson,D.M., and S.J.L. Wright|A Continuous-Flow Model Ecosystem for Studying Effects of Herbicides on Aquatic Plants|Weed Sci.35(5): 704-710|1987|10.1017/S0043174500060847
13424|A||Wang,X.|Tolerance of the Blood Cockle (Anadara granosa) and Philippini Clam (Ruditapes philippinarum Adams et Reeve) to Ammonia in Sediments|Mar. Sci.6:51-54|1989|
13425|A||Yameogo,L., J.M. Tapsoba, M. Bihoum, and D. Quillevere|Short-Term Toxicity of Pyraclofos Used as a Blackfly Larvicide on Non-target Aquatic Fauna in a Tropical Environment|Chemosphere27(12): 2425-2439|1993|10.1016/0045-6535(93)90264-6
13426|A||Schultz,T.W., J.N. Dumont, F.D. Sankey, and R.L.,Jr. Schmoyer|Structure Activity Relationships of Selected Naphthalene Derivatives|Ecotoxicol. Environ. Saf.7(2): 191-203|1983|10.1016/0147-6513(83)90065-9
13427|A||Timmermans,K.R., E. Spijkerman, M. Tonkes, and H. Govers|Cadmium and Zinc Uptake by Two Species of Aquatic Invertebrate Predators from Dietary and Aqueous Sources|Can. J. Fish. Aquat. Sci.49(4): 655-662|1992|10.1139/f92-074
13430|A||Kenny,S.A.|The Effects of Very Low Doses of the Organophosphorous Insecticide (Malathion) on Piscivorous Feeding Performance in Juvenile Walleye, Stizostedion vitreum vitreum (Mitchill)|M.S.Thesis, University of Manitoba, Canada:67 p.|1990|
13431|A||Lewis,W.M.|Acute and Chronic Responses of Menidia beryllina, Rivulus marmoratus, and Cyprinodon variegatus to Malathion and Zinc Chloride|M.S.Thesis, Florida Institute of Technology, Melbourne, FL:59 p.|1993|
13432|A||Hughes,J.M., D.A. Harrison, and J.M. Arthur|Genetic Variation at the Pgi Locus in the Mosquito Fish Gambusia affinis (Poecilidae) and a Possible Effect on Susceptibility to an Insecticide|Biol. J. Linn. Soc.44(2): 153-167|1991|10.1111/j.1095-8312.1991.tb00613.x
13433|A||Garnham,G.W., G.A. Codd, and G.M. Gadd|Accumulation of Zirconium by Microalgae and Cyanobacteria|Appl. Microbiol. Biotechnol.39(4-5): 666-672|1993|10.1007/BF00205072
13435|A||Steinberg,C.E.W., Y. Xu, S.K. Lee, D. Freitag, and A. Kettrup|Effect of Dissolved Humic Material (DHM) on Bioavailability of Some Organic Xenobiotics to Daphnia magna|Chem. Spec. Bioavail.5(1): 1-9|1993|10.1080/09542299.1993.11083197
13436|A||Chakrabarti,P., and A.R. Ghosh|Effects of Cadmium Poisoning on Mucopolysaccharides and Some Cellular Enzymes of the Alimentary Canal in Heteropneustes fossilis (Bloch): A|In: G.K.Manna and B.B.Jana (Eds.), Impacts of Environment on Animals and Aquaculture, Univ.of Kalyani, Kalyani, India:215-222|1990|
13437|A||Victor,B., D.A. Jeyaraj, and P. Ramakrishnan|Effect of Cythion on Food Utilization, Tissue Pathology and Behaviour of the Freshwater Crab Paratelphusa hydrodromous (Herbst)|In: G.K.Manna and B.B.Jana (Eds.), Impacts of Environment on Animals and Aquaculture, Univ.of Kalyani, Kalyani, India:265-269|1990|
13438|A||De,A., and R.K. Sur|Effect of Chronic Dose of Aldrin on a Freshwater Crab (Paratalphusa spinigera)|In: G.K.Manna and B.B.Jana (Eds.), Impacts of Environment on Animals and Aquaculture, Univ.of Kalyani, Kalyani, India:161-164|1990|
13439|A||Rudek,Z., and M. Rozek|Induction of Micronuclei in Tadpoles of Rana temporaria and Xenopus laevis by the Pyrethroid Fastac 10EC|Mutat. Res.298(1): 25-29|1992|10.1016/0165-1218(92)90025-U
13440|A||Caux,P.Y., P. Weinberger, and A. Szabo|Effects of Pesticide Adjuvants on Membrane Lipid Composition and Fluidity in Lemna minor|Can. J. Bot.71(10): 1291-1297|1993|10.1139/b93-154
13441|A||Bhargava,S.|General Behaviour and Mortality of Lymnaea stagnalis and Their Egg Masses Under the Stress of Thiourea and DDT|J. Freshw. Biol.4(2): 129-134|1992|
13442|A||Jeney,Z., and G. Jeney|Studies on the Effect of Trichlorphon on Different Biochemical and Physiological Parameters of Common Carp (Cyprinus carpio L.)|Aquac. Hung. (Szarvas)5:79-89|1986|
13443|A||Tang,S., X. Chen, and D. Zhuang|The Effects of BP-1100X Dispersant and Dispersed Shengli Crude Oil on the Ecosystem-Marine Ecosystem Enclosure Experiment|Shengtai Xuebao (Multiple Languages)12(4): 361-367|1992|
13444|A||Sakunthala,B., H. Shanmukhappa, and B. Neelakantan|Comparative Toxicity of Four Detergents on a Prawn Metapenaeus dobsoni (Miers)|Fish. Technol.27(2): 109-111|1990|
13445|AT||U.S.Fish and Wildlife Service|Effects of Granular Application of Dursban on Some Estuary and Salt Marsh Organisms|U.S.Fish.Wildl.Serv.Spec.Sci.Rep., U.S.D.I., Bur.Sport Fish.Wildl., Atlanta, GA:34 p.|1967|
13446|A||Patwardhan,S.A., and S.A. Gaikwad|Size Dependent Toxicity of Sumithion EC50 on Gambusia affinis affinis (Baird and Girard)|Pollut. Res.10(1): 43-45|1991|
13447|A||Mulla,M.S., H.A. Darwazeh, and M.S. Dhillon|Impact and Joint Action of Decamethrin and Permethrin and Freshwater Fishes on Mosquitoes|Bull. Environ. Contam. Toxicol.26(5): 689-695|1981|10.1007/BF01622158
13448|A||Sreenivas,S.S., and B.C. Rana|Studies on Detoxication of Triazine Herbicide by Blue-Green Alga Nostoc sp.|Pollut. Res.10(1): 47-48|1991|
13449|A||Konar,S.K.|Fishery Management with the Help of the Organophosphorus Insecticide, Thiometon|Ichthyologica (Kanpur)4(1-2): 28-36|1965|
13450|A||Wyers,S.C., H.R. Frith, R.E. Dodge, S.R. Smith, A.H. Knap, and T.D. Sleeter|Behavioural Effects of Chemically Dispersed Oil and Subsequent Recovery in Diploria strigosa (Dana)|Mar. Ecol.7(1): 23-42|1986|10.1111/j.1439-0485.1986.tb00146.x
13451|A||Sun,F.|Evaluating Acute Toxicity of Pesticides to Aquatic Organisms: Carp, Mosquito Fish and Daphnids|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))29(4): 385-396|1987|
13453|A||Roghair,C.J., A. Buijze, and H.N.P. Schoon|Ecotoxicological Risk Evaluation of the Cationic Fabric Softener DTDMAC. I. Ecotoxicological Effects|Chemosphere24(5): 599-609|1992|10.1016/0045-6535(92)90216-E
13454|A||Yu,G., X. Xu, Y. Zhang, and Y. Xu|Bioaccumulation and Elimination of 2-Nitrofluorene in Daphnia magna HB|Fresenius Environ. Bull.3:75-79|1994|
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13456|A||Woodward,D.F.|Some Effects of Sub-Lethal Concentrations of Malathion on Learning Ability and Memory of the Goldfish|M.A.Thesis, University of Missouri, Columbia, MO:46 p.|1970|
13457|A||Yasuno,M., F. Shioyama, and J. Hasegawa|Field Experiment on Susceptibility of Macrobenthos in Streams to Temephos|Eisei Dobutsu32(3): 229-234|1981|10.7601/mez.32.229
13458|A||Fabris,G.J., J.E. Harris, and J.D. Smith|Uptake of Cadmium by the Seagrass Heterozostera tasmanica from Corio Bay and Western Port, Victoria|Aust. J. Mar. Freshw. Res.33(5): 829-836|1982|10.1071/MF9820829
13459|A||Farke,H., and C.P. Gunther|Effects of Oil and a Dispersant on Intertidal Macrofauna in Field Experiments with Bremerhaven caissons and in the Laboratory|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:219-236|1984|
13460|A||Hole,L.M., M.N. Moore, and D. Bellamy|Age-Related Cellular Reactions to Copper in the Marine Mussel Mytilus edulis|Mar. Ecol. Prog. Ser.94(2): 175-179|1993|10.3354/meps094175
13461|A||Borthwick,S.M.|Impact of Agricultural Pesticides on Aquatic Invertebrates Inhabiting Prairie Wetlands|M.S.Thesis, Colorado State University, Fort Collins, CO:76 p.|1988|
13462|A||Brock,V.|Effects of Mercury on Physiological Condition and Content of the Biomarker ALA in the Oyster Ostrea edulis|Mar. Ecol. Prog. Ser.96(2): 169-175|1993|10.3354/meps096169
13463|A||Bailey,H.C.|Acute and Chronic Toxicity of the Rice Herbicides Thiobencarb and Molinate to Opossum Shrimp (Neomysis mercedis)|Mar. Environ. Res.36(4): 197-215|1993|10.1016/0141-1136(93)90089-I
13464|A||Thomas,R.E., and S.D. Rice|Excretion of Aromatic Hydrocarbons and Their Metabolites by Freshwater and Seawater Dolly Varden Char|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, Inc., NY:425-448|1981|
13465|A||Pereira,J.J., and K. Kanungo|Effects of Silver on Respiration and on Ion and Water Balance in Neanthes virens|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Biological Monitoring of Marine Pollutants, Academic Press, Inc., NY:107-125|1981|
13466|A||Walker,M.K., P.M. Cook, A.R. Batterman, B.C. Butterworth, C. Berini, J.J. Libal, L.C. Hufnagle, and R.E. Peterson|Translocation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin from Adult Female Lake Trout (Salvelinus namaycush) to Oocytes:  Effects on Early Life Stage Development and Sac Fry Survival|Can. J. Fish. Aquat. Sci.51:1410-1419|1994|10.1139/f94-141
13467|A||Norberg-King,T.J., E.J. Durhan, G.T. Ankley, and E. Robert|Application of Toxicity Identification Evaluation Procedures to the Ambient Waters of the Colusa Basin Drain, California|Environ. Toxicol. Chem.10:891-900|1991|10.1002/etc.5620100705
13468|A||Nichols,J.W., J.M. McKim, M.E. Andersen, M.L. Gargas, H.J. Clewell III, and R.J. Erickson|A Physiologically Based Toxicokinetic Model for the Uptake and Disposition of Waterborne Organic Chemicals in Fish|Toxicol. Appl. Pharmacol.106:433-447|1990|10.1016/0041-008X(90)90338-U
13469|A||Allen,K.N.|Seasonal Variation of Selenium in Outdoor Experimental Stream-Wetland Systems|J. Environ. Qual.20(4): 865-868|1991|10.2134/jeq1991.00472425002000040026x
13470|A||Clements,W.H., J.T. Oris, and T.E. Wissing|Accumulation and Food Chain Transfer of Fluoranthene and Benzo(a)pyrene in Chironomus riparius and Lepomis macrochirus|Arch. Environ. Contam. Toxicol.26(3): 261-266|1994|10.1007/BF00203550
13471|A||Hoke,R.A., W.R. Gala, J.B. Drake, J.P. Giesy, and S. Flegler|Bicarbonate as a Potential Confounding Factor in Cladoceran Toxicity Assessments of Pore Water from Contaminated Sediments|Can. J. Fish. Aquat. Sci.49(8): 1633-1640|1992|10.1139/f92-182
13472|A||Ankley,G.T., V.R. Mattson, E.N. Leonard, C.W. West, and J.L. Bennett|Predicting the Acute Toxicity of Copper in Freshwater Sediments:  Evaluation of the Role of Acid-Volatile Sulfide|Environ. Toxicol. Chem.12:315-320|1993|
13474|A||Featherstone,D., C.D. Drewes, J.R. Coats, and S.P. Bradbury|A Non-invasive Neurotoxicity Assay Using Larval Medaka|ASTM Spec. Tech. Publ.2:275-288|1993|
13475|A||Hoke,R.A., G.T. Ankley, A.M. Cotter, T. Goldenstein, P.A. Kosian, G.L. Phipps, and F.M. Vandermeiden|Evaluation of Equilibrium Partitioning Theory for Predicting Acute Toxicity of Field-Collected Sediments Contaminated with DDT, DDE and DDD to the|Environ. Toxicol. Chem.13:157-166|1994|
13476|A||Sahib,I.K.A., K.S.P. Rao, C. Madhu, and K.V.R. Rao|Effect of Malathion on Some Functional Aspects of Nitrogen Utility in the Teleost, Tilapia mossambica (Peters)|Natl. Acad. Sci. Lett.4(10): 417-420|1981|
13477|A||Hitchcock,S.W.|Field and Laboratory Studies of DDT and Aquatic Insects|Conn. Agric. Exp. Stn. Bull. (New Haven)668:1-32|1965|
13478|A||Hemalatha,S., and T.K. Banerjee|Acute Toxicity of the Heavy Metal-Zinc (a Trace Element) on the Mucous Cells of the Air Sac (a Modified Gill Structure) of the Air-Breathing Catfish|J. Freshw. Biol.5(3): 233-240|1993|
13479|A||Banerjee,T.K., and D. Mukherjee|Melanophore Indexing: A Quick Bioassay Technique for Detection of Heavy Metal Toxicity|Curr. Sci. (Bangalore)67(1): 48-49|1994|
13480|A||Banerjee,T.K., and V.I. Paul|Estimation of Acute Toxicity of Ammonium Sulphate to the Fresh Water Catfish, Heteropneustes fossilis II. A Histopathological Analysis of the Epidermis|Biomed. Environ. Sci.6(1): 45-58|1993|
13481|A||Banerjee,T.K.|Estimation of Acute Toxicity of Ammonium Sulphate to the Fresh Water Catfish, Heteropneustes fossilis I. Analysis of LC50 Values Determined by|Biomed. Environ. Sci.6(1): 31-36|1993|
13482|A||Rajan,M.T., and T.K. Banerjee|Histopathological Changes in the Respiratory Epithelium of the Air-Breathing Organ (Branchial Diverteculum) of the Live Fish Heteropneustes fossilis|J. Freshw. Biol.5(3): 269-275|1993|
13483|A||Hyne,R.V., G.D. Rippon, and G. Ellender|pH-Dependent Uranium Toxicity to Freshwater Hydra|Sci. Total Environ.125:159-173|1992|10.1016/0048-9697(92)90388-9
13484|A||Hermanutz,R.O., K.N. Allen, and S.F. Hedtke|Toxicity and Fate of Total Residual Chlorine in Outdoor Experimental Streams|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI6:463-477|1990|
13485|A||Loosanoff,V.L.|Effects of DDT upon Setting Growth and Survival of Oysters|Fish. Gaz.64(5): 94-96|1947|
13488|A||Lanzer-DeSouza,M.E., and N.M.M. Dasilva|Influence of Pollutants on Aquatic Crustaceans Decapoda palaemonidae|Iheringia Ser. Misc.2:13-30|1988|
13489|A||Natarajan,G.M.|Effect of Lethal (LC50/48 Hrs) Concentration of Metasystox on Selected Oxidative Enzymes, Tissue Respiration and Histology of Gills of the Fresh Water Air-Breathing Fish, Channa striatus (Bleeker)|Curr. Sci. (Bangalore)50(22): 985-989|1981|
13491|A||Elliott,R.|A Method for the Investigation of Susceptibility to Insecticides in Anopheles Larvae|Trans. R. Soc. Trop. Med. Hyg.52(6): 527-534|1958|10.1016/0035-9203(58)90102-0
13492|A||Gutenmann,W.H., and D.J. Lisk|Conversion of 4-(2,4-DB) Herbicide to 2,4-D by Bluegills|N. Y. Fish Game J.12(1): 108-111|1965|
13493|A||Puffer,H.W., and M.L. Beal|Control of Parasitic Infestations in Killifish (Fundulus parvipinnis)|Lab. Anim. Sci.31(2): 200-201|1981|
13494|A||Thomas,P.|Effects of Cadmium on Gonadotropoin Secretion from Atlantic Croaker Pituitaries Incubated In Vitro|Mar. Environ. Res.35(1/2): 141-145|1993|
13495|A||Mazmanidi,N.D., and A.M. Kotov|The Effect of Oil-Dispersing Preparations on the Survival and Some of the Physiological and Biochemical Characteristics of the Blood of the Black Sea|Hydrobiol. J.17(1): 65-68|1981|
13497|A||Laird,M.|A Secondary Effect of DDT upon the Aquatic Microflora and Microfauna|Can. J. Microbiol.4:445-452|1958|10.1139/m58-047
13498|A||Burden,E.H.W.J.|A Case of DDT Poisoning in Fish|Nature178:546-547|1956|10.1038/178546b0
13499|A||Rubio,M.R., P. Tineo, J. Diaz, and A. Torreblanca|Effects of Cadmium Exposure on the Ultrastructure of Hepatopancreatic Cells of Thais haemastoma (Gastropoda, Prosobranchia)|Mar. Environ. Res.35(1-2): 47-51|1993|10.1016/0141-1136(93)90012-O
13500|A||Brown,A.W.A., D.J. McKinley, H.W. Bedford, and M. Qutubuddin|Insecticidal Operations Against Chironomid Midges Along the Blue Nile|Bull. Entomol. Res.51:789-801|1961|10.1017/S0007485300057679
13501|A||Okamura,H., and I. Aoyama|Interactive Toxic Effect and Distribution of Heavy Metals in Phytoplankton|Environ. Toxicol. Water Qual.9:7-15|1994|10.1002/tox.2530090103
13502|A||Bantle,J.A., D.T. Burton, D.A. Dawson, J.N. Dumont, R.A. Finch, D.J. Fort, G. Linder, and J.R. Rayburn|FETAX Interlaboratory Validation Study:  Phase II Testing|Environ. Toxicol. Chem.13(10): 1629-1637|1994|10.1897/1552-8618(1994)13[1629:FIVSPI]2.0.CO;2
13504|A||Kluttgen,B., and H.T. Ratte|Effects of Different Food Doses on Cadmium Toxicity to Daphnia magna|Environ. Toxicol. Chem.13(10): 1619-1627|1994|10.1002/etc.5620131011
13505|A||Fisher,D.J., D.T. Burton, L.T. Yonkos, S.D. Turley, B.S. Turley, G.P. Ziegler, and E.J. Zillioux|Acute and Short-Term Chronic Effects of Continuous and Intermittent Chlorination on Mysidopsis bahia and Menidia beryllina|Environ. Toxicol. Chem.13(9): 1525-1534|1994|
13506|A||Moller,V., V.E. Forbes, and M.H. Depledge|Influence of Acclimation and Exposure Temperature on the Acute Toxicity of Cadmium to the Freshwater Snail Potamopyrgus antipodarum (Hydrobiidae)|Environ. Toxicol. Chem.13(9): 1519-1524|1994|10.1002/etc.5620130914
13507|A||Bechmann,R.K.|Use of Life Tables and LC50 Tests to Evaluate Chronic and Acute Toxicity Effects of Copper on the Marine Copepod Tisbe furcata (Baird)|Environ. Toxicol. Chem.13(9): 1509-1517|1994|10.1002/etc.5620130913
13508|A||Lanno,R.P., and D.G. Dixon|Chronic Toxicity of Waterborne Thiocyanate to the Fathead Minnow (Pimephales promelas): A Partial Life-Cycle Study|Environ. Toxicol. Chem.13(9): 1423-1432|1994|
13509|A||Yamada,H., M. Tateishi, and K. Takayanagi|Bioaccumulation of Organotin Compounds in the Red Sea Bream (Pagrus major) by Two Uptake Pathways: Dietary Uptake and Direct Uptake from Water|Environ. Toxicol. Chem.13(9): 1415-1422|1994|10.1002/etc.5620130905
13510|A||Harris,G.E., Y. Kiparissis, and C.D. Metcalfe|Assessment of the Toxic Potential of PCB Congener 81 (3,4,4'5-Tetrachlorobiphenyl) to Fish in Relation to Other Non-Ortho-Substituted PCB Congeners|Environ. Toxicol. Chem.13(9): 1405-1413|1994|
13511|A||Brauner,C.J., D.J. Randall, J.F. Neuman, and R.V. Thurston|The Effect of Exposure to 1,2,4,5-Tetrachlorobenzene and the Relationship Between Toxicant and Oxygen Uptake in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.13(11): 1813-1820|1994|
13512|A||Abdullah,A.R., A. Kumar, and J.C. Chapman|Inhibition of Acetylcholinesterase in the Australian Freshwater Shrimp (Paratya australiensis) by Profenofos|Environ. Toxicol. Chem.13(11): 1861-1866|1994|10.1002/etc.5620131118
13513|A||Cripe,G.M.|Comparative Acute Toxicities of Several Pesticides and Metals to Mysidopsis bahia and Postlarval Penaeus duorarum|Environ. Toxicol. Chem.13(11): 1867-1872|1994|10.1002/etc.5620131119
13514|A||Mule,M.B., and V.S. Lomte|Effect of Heavy Metals (CuSO4 and HgCl2) on the Oxygen Consumption of the Freshwater Snail, Thiara tuberculata|J. Environ. Biol.15(4): 263-268|1994|
13515|A||Dhanapakiam,P., and J. Premlatha|Histopathological Changes in the Kidney of Cyprinus carpio Exposed to Malathion and Sevin|J. Environ. Biol.15(4): 283-287|1994|
13516|A||Narayanan,K.R., S. Ajmalkhan, and S. Pechimuthu|Histopathological Changes due to Effects of Sublethal Concentrations of Copper Sulphate on the Hepatopancreas of Edible Crab, Scylla serrata (Forskal)|J. Environ. Biol.15(4): 289-293|1994|
13517|A||Chandrashekar,K.R., and K.M. Kaveriappa|Effect of Pesticides on Sporulation and Germination of Conidia of Aquatic Hyphomycetes|J. Environ. Biol.15(4): 315-324|1994|
13518|A||Saint-Louis,R., E. Pelletier, P. Marsot, and R. Fournier|Distribution and Effects of Tributyltin Chloride and Its Degradation Products on the Growth of the Marine Alga Pavlova lutheri in Continuous Culture|Water Res.28(12): 2533-2544|1994|10.1016/0043-1354(94)90071-X
13519|A||Wildi,E., R. Nagel, and C.E.W. Steinberg|Effects of pH on the Bioconcentration of Pyrene in the Larval Midge, Chironomus riparius|Water Res.28(12): 2553-2559|1994|10.1016/0043-1354(94)90073-6
13520|A||Cosson,R.P.|Heavy Metal Intracellular Balance and Relationship with Metallothionein Induction in the Gills of Carp. After Contamination by Ag, Cd, and Hg|Biol. Trace Elem. Res.46:229-245|1994|10.1007/BF02789299
13521|A||Lydy,M.J., W.L. Hayton, A.E. Staubus, and S.W. Fisher|Bioconcentration of 5,5',6-Trichlorobiphenyl and Pentachlorophenol in the Midge, Chironomus riparius, as Measured by a Pharmacokinetic Model|Arch. Environ. Contam. Toxicol.26:251-256|1994|10.1007/BF00224812
13523|A||Mayer,K.S., F.L. Mayer, and A.,Jr. Witt|Waste Transformer Oil and PCB Toxicity to Rainbow Trout|Trans. Am. Fish. Soc.114:869-886|1985|10.1577/1548-8659(1985)114<869:WTOAPT>2.0.CO;2
13524|A||Sicko-Goad,L., and D. Lazinsky|Accumulation and Cellular Effects of Heavy Metals in Benthic and Planktonic Algae|Micron22(3): 289-290|1981|
13525|A||Muirhead-Thomson,R.C.|The Potentiating Effect of Pyrethrins and Pyrethroids on the Action of Organophosphorus Larvicides in Simulium Control|Trans. R. Soc. Trop. Med. Hyg.64(6): 895-906|1970|10.1016/0035-9203(70)90108-2
13526|A||Visser,S.A.|Molluscicidal Properties and Selective Toxicity of Surface-Active Agents|Bull. W. H. O.32:713-719|1965|
13527|A||Moorthy,M.V., S. Chandrasekhar, and V.R. Chandran|A Note on Acute Toxicity of Chlorpyriphos to the Fresh Water Fish Tilapia mossambica|Pesticides 16:32-|1982|
13528|A||Tomiyama,T., K. Kobayashi, and K. Kawabe|The Toxic Effect of Pentachlorophenate, a Herbicide, on Fishery Organisms in Coastal Waters-III.  The Effect on Venerupis philippinarum|Nippon Suisan Gakkaishi (Multiple Languages)28(4): 417-421|1962|10.2331/suisan.28.417
13529|AT||Kenaga,E.E., W.K. Whitney, J.L. Hardy, and A.E. Doty|Laboratory Tests with Dursban Insecticide|J. Econ. Entomol.58(6): 1043-1050|1965|10.1093/jee/58.6.1043
13530|A||Sherman,L.R., and J.C. Jackson|Tri-n-butyltin Fluoride as a Controlled-Release Mosquito Larvicide|In: D.H.Lewis (Ed.), Proc.7th Int.Symp.Controlled Release of Bioactive Metals, July 27-30, 1980, Ft.Lauderdale, FL, Plenum Press, NY:287-294|1981|
13531|A||Young,J.S.|Toxic and Adaptive Response to Copper by the Sabellid Polychaete, Eudistylia vancouveri|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:53-73|1982|
13532|A||Stickle,W.B., T.D. Sabourin, and S.D. Rice|Sensitivity and Osmoregulation of Coho Salmon, Oncorhynchus kisutch, Exposed to Toluene and Naphthalene at Different Salinities|In: W.B.Vernberg, A.Calabrese, F.P.Thurnberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:331-348|1982|
13533|A||Cantelmo,A., L. Mantel, R. Lazell, F. Hospod, E. Flynn, S. Goldberg, and M. Katz|The Effects of Benzene and Dimethylnaphthalene on Physiological Processes in Juveniles of the Blue Crab, Callinectes sapidus|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:349-389|1982|
13534|A||Hargreaves,B.R., R.L. Smith, C.Q. Thompson, and S.S. Herman|Toxicity and Accumulation of Naphthalene in the Mysid Neomysis americana (Smith) and Effects of Environmental Temperature|In: W.B.Vernberg, A.Calabrese, F.P.Thurnberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:391-412|1982|
13535|A||Rao,K.R., D.G. Doughtie, and P.J. Conklin|Physiological and Histopathological Evaluation of Dithiocarbamate Toxicity to the Grass Shrimp, Palaemonetes pugio|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:413-445|1982|
13536|A||Yevich,C.A., and P.P. Yevich|Histopathological Effects of Cadmium and Copper on the Sea Scallop Placopecten magellanicus|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:187-197|1985|
13537|A||Scott,G.I., T.I. Sammons, D.P. Middaugh, and M.J. Hemmer|Impacts of Water Chlorination and Coliform Bacteria on the American Oyster, Crassostrea virginica (Gmelin)|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:505-529|1982|
13538|A||Selby,D.A., J.M. Ihnat, F.J. Post, J.J. Messer, D. Hancey, T.J. Hardy, C.I. Liff, B.S. Mok, and R.L. Parker|Effects of Cadmium on Stream and Irrigated Agriculture in the Presence and Absence of Oil Shale Leachate|Water Quality Series UWRL/Q-83/08, Utah State Univ., Logan, UT:148-|1983|
13539|A||Girard,J.P., C. Graillet, D. Pesando, and P. Payan|Calcium Homeostasis and Early Embryotoxicity in Marine Invertebrates|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 169-175|1996|
13542|A||Bryant,S.E., and T.W. Schultz|Toxicological Assessment of Biotransformation Products of Pentachlorophenol: Tetrahymena Population Growth Impairment|Arch. Environ. Contam. Toxicol.26(3): 299-303|1994|10.1007/BF00203555
13543|A||Srivastava,A.K., and N.N. Singh|Effect of Aldrin on Carbohydrate Metabolism in Indian Catfish|Acta Pharmacol. Toxicol.49:266-269|1981|10.1111/j.1600-0773.1981.tb00904.x
13544|A||Riad,Y., H.M. El-Nahas, E.M. El-Kady, and A.A. El-Bardan|Aromatic Sulphides, Sulphoxides, and Sulphones as Larvicides for Culex pipiens molestus and Aedes caspius (Diptera: Culicidae)|J. Econ. Entomol.85(6): 2096-2099|1992|10.1093/jee/85.6.2096
13545|A||Bold,K.A., and L.E. Shubert|Environmentally Induced Stress Proteins in Cyanobacteria|J. Phycol.28(3 suppl.): 9-|1992|
13546|A||Dejoux,C., and P. Guillet|Evaluation of New Blackfly Larvicides for Use in Onchocerciasis Control in West Africa|W.H.O.Documentary Ser., WHO/VBC/80783:19-|1980|
13547|T||Challier,A., C. Laveissiere, M. Eyraud, H. Kulzer, O. Pawlick, and M. Krupke|Helicopter Application of Insecticides to Control Riverine Tsetse Flies in the West African Savanna|W.H.O.Documentary Series, WHO/VBC/74.493493:27 p.|1974|
13548|A||Philippon,B., Y. Sechan, and H. Escaffre|Control of Simulium damnosum, Vector of Human Onchocerciasis in West Africa|W.H.O.Documentary Ser., WHO/VBC/76618:10-|1976|
13549|A||Vicente,N., S. Baghdiguian, M. Henry, and A. Riva|Synergic Phenomena Induced by the Combined Action of Prolonged Starvation at High and Low Temperatures and Contamination by Cadmium in Ruditapes|Oceanis (Non-English)14(1): 125-131|1988|
13550|A||Gould,E., R.A. Greig, D. Rusanowsky, and B.C. Marks|Metal-Exposed Sea Scallops, Placopecten magellanicus (Gmelin):  A Comparison of the Effects and Uptake of Cadmium and Copper|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:157-186|1985|
13551|A||Kuehl,D.W., L. Eisenschenk, S. Naumann, R.D. Johnson, R. Regal, P. Barnidge, and J.,Jr. McKim|Comparison of Nucleoside Concentrations in Blood of Fish With and Without Tumors|Bull. Environ. Contam. Toxicol.46:713-719|1991|10.1007/BF01689957
13553|A||Dady,J.M., S.P. Bradbury, A.D. Hoffman, M.M. Voit, and D.L. Olson|Hepatic Microsomal N-Hydroxylation of Aniline and 4-Chloroaniline by Rainbow Trout (Onchorhyncus mykiss)|Xenobiotica21(12): 1605-1620|1991|10.3109/00498259109044409
13554|A||Collyard,S.A., G.T. Ankley, R.A. Hoke, and T. Goldenstein|Influence of Age on the Relative Sensitivity of Hyalella azteca to Diazinon, Alkylphenol Ethoxylates, Copper, Cadmium, and Zinc|Arch. Environ. Contam. Toxicol.26(1): 110-113|1994|10.1007/BF00212801
13558|A||Engel,D.W., M. Brouwer, and F.P. Thurberg|Comparison of Metal Metabolism and Metal-Binding Proteins in the Blue Crab and the American Lobster|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Belle W.Baruch Lib.in Mar.Sci.No.13, Marine Pollution and Physiology: Recent Advances, Meeting, Mystic, CT, Nov.1-3, 1983, Univ.of South Carolina Press, Columbia, SC:229-245|1985|
13559|A||Haya,K., B.A. Waiwood, L.E. Burridge, and L. Van Eeckhaute|Liver Energy Metabolism and Gill ATPase Activity of Salmo salar Juveniles After Exposure to Sublethal Levels of Phenols|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:521-535|1985|
13560|A||Coglianese,M.P., and J.M. Neff|Biochemical Responses of the Blue Crab, Callinectes sapidus, to Pentachlorophenol|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, Inc., NY:127-143|1982|
13561|A||Kuzoe,F.A.S., and K.B. Hagan|The Control of Simulium damnosum Theobald (Diptera, Simuliidae) in the Region of the Volta Dam|Ann. Trop. Med. Parasitol.61:338-348|1967|10.1080/00034983.1967.11686496
13562|A||Johnson,W.D., G.F. Lee, and D. Spyridakis|Persistence of Toxaphene in Treated Lakes|Air Water Pollut.10:555-560|1966|
13563|A||Bowmer,K.H.|Aggregates of Particulate Matter and Aufwuchs on Elodea canadensis in Irrigation Waters, and Inactivation of Diquat|Aust. J. Mar. Freshw. Res.33:589-593|1982|10.1071/MF9820443
13564|A||Harrison,A.D.|The Effects of Bayluscid on Gastropod Snails and Other Aquatic Fauna in Rhodesia|Hydrobiologia (Multiple Languages)28:371-384|1966|10.1007/BF00130390
13565|AT||Hannerz,L.|Experimental Investigations on the Accumulation of Mercury in Water Organisms|Rep. Inst. Freshw. Res. Drottningholm48:120-176|1968|
13567|T||Washino,R.K., K.G. Whitesell, and D.J. Womeldorf|The Effect of Low Volume Application of Dursban on Non-Target Organisms|Down Earth24:21-22|1968|
13570|A||Bowser,P.R., G.A. Wooster, A.L. Aluisio, and J.T. Blue|Plasma Chemistries of Nitrite Stressed Atlantic Salmon Salmo salar|J. World Aquac. Soc.20(4): 173-180|1989|10.1111/j.1749-7345.1989.tb00999.x
13571|A||Adams,L., M.G. Hanavan, N.W. Hosley, and D.W. Johnston|The Effects on Fish, Birds and Mammals of DDT Used in the Control of Forest Insects in Idaho and Wyoming|J. Wildl. Manag.13:245-254|1949|10.2307/3795865
13572|A||Suzuki,T., Y. Ito, and S. Harada|A Record of Blackfly Larvae Resistant to DDT in Japan|Jpn. J. Exp. Med.33(1): 41-46|1963|
13573|A||Davalli,P., G.P. Serrazanetti, E. Carpene, A. Corti, and R. Viviani|Changes in the Activity of Hepatic Enzymes in the Goldfish (Carassius auratus) upon Administration of Heavy Metals|Ital. J. Biochem.39(2): 135A - 137A|1990|
13574|A||George,L.F., and R.A. Berry|Ultra Low Volume Applications with Ground Equipment for Adult Mosquito Control|Proc. 55th Annu. Meeting, N. J. Mosquito Esterm. Assoc:206-212|1968|
13575|A||Shinkle,M.P.|The Complexities of Chemical Evaluations for Larval Mosquito Control on Diked Salt Hay Marshes|Proc. N. J. Mosq. Exterm. Assoc.55:180-203|1968|
13580|A||Doe,K.G., W.R. Parker, S.J. Ponsford, and J.D.A. Vaughan|The Acute and Chronic Toxicity of Antimony to Daphnia magna and Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):40-43|1987|
13581|A||Ludyanskiy,M.L., M.V. Maslov, and A.P. Pasichnyy|Effect of Temperature on Algicidal Properties of Copper Sulfate|Hydrobiol. J.26(5): 80-83|1990|
13582|A||Krajnovic-Ozretic,M., and B. Ozretic|Specific Alteration of Transaminases in Marine Organisms Under Pollution Impact|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), The Belle W.Baruch Lib.in Mar.Sci.No.17, Pollution Physiology of Estuarine Organisms, Symposium, Oct.21-24, 1985, Georgetown, SC, Univ.of S.Carolina Press, Columbia, SC:207-230|1987|
13583|A||Girman,G.R.|The Effects of a Number of Herbicides upon Photosynthesis and Heterotrophy of Naturally Occurring Algal and Bacterial Communities in Delta Marsh, Manitoba|M.S.Thesis, University of Manitoba, Canada:179 p.|1975|
13584|A||Abdel-Moati,M.A.R.|Biochemical and Physiological Responses of Mytilus edulis to Hg and Pb in the Coastal Waters of Alexandria Region|MAP Tech. Rep. Ser. (Multiple Languages)69:61-72|1992|
13585|A||Hatfield,C.T.|Effects of DDT Larviciding on Aquatic Fauna of Bobby's Brook, Labrador|Can. Fish Cult.40:61-72|1969|
13586|A||Sinha,G.M., A.B. Kesh, K. Sengupta, and A.K. Das|Studies on the Cadmium intoxication and the Action of Antagonists on the Intestine of an Indian Air-Breathing Fish, Anabas testudineus (Bloch)|J. Freshw. Biol.4(4): 273-281|1992|
13587|A||Owen,B.B.,Jr.|Aquatic Insect Populations Reduced by Aerial Spraying of Insecticide Sevin|Proc. Pa. Acad. Sci.40(2): 63-69|1967|
13588|A||Van Valin,C.C.|Persistence of 2,6-Dichlorobenzonitrile in Aquatic Environments|Adv. Chem. Ser.60:271-279|1966|10.1021/ba-1966-0060.ch022
13589|A||Thomas,R.E., and S.D. Rice|Effect of Pretreatment Exposure to Toluene and Naphthalene on the Subsequent Metabolism of Dietary Toluene and Naphthalene by Dolly Varden, Salvelinus malma|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:505-519|1985|
13590|A||Korn,S., S.D. Rice, D.L. Cheatham, and D.W. Brown|Contribution of Phenol and P-Cresol to the Toxicity of Crude Oil to Pink Salmon (Oncorhynchus gorbuscha) Fry and Kelp Shrimp (Eualus suckleyi)|In: F.J.Vernberg, F.P.Thurberg, A.Calabese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:447-458|1985|
13591|A||Stolen,J.S.|The Effect of the PCB, Aroclor 1254, and Ethanol on the Humoral Immune Response of a Marine Teleost to a Sludge Bacterial Isolate of E. coli|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:419-426|1985|
13592|A||Wilson,J.E., R.B.,Jr. Forward, and J.D. Costlow|Effects of Embryonic Exposure to Sublethal Concentrations of Dimilin on the Photobehavior of Grass Shrimp Larvae|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:377-396|1985|
13593|A||Scott,G.I., D.P. Middaugh, and T.I. Sammons|Interactions of Chlorine-Produced Oxidants (CPO) and Salinity in Affecting Lethal and Sublethal Effects in the Eastern or American Oyster|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Marine Pollution and Physiology: Recent Advances:351-375|1984|
13594|A||Socci,R., and A. Farmanfarmaian|Effect of Heavy Metals on the Intestinal Absorption of L-Leucine and L-Methionine in the Toadfish Opsanus tau|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Belle W.Baruch Lib.in Mar.Sci.No.13, Marine Pollution and Physiology: Recent Advances, Meeting, Mystic, CT, Nov.1-3, 1983, Univ.of South Carolina Press, Columbia, SC:267-279|1985|
13595|A||Sabourin,T.D., D.B. Gant, and L.J. Weber|The Influence of Metal and Nonmetal Stressors on Hepatic Metal-Binding Protein Production in Buffalo Sculpin, Enophrys bison|In: F.J.Vernberg, F.P.Thurberg, A.Calabrese, and W.Vernberg (Eds.), Belle W.Baruch Lib.in Mar.Sci.No.13, Marine Pollution and Physiology: Recent Advances, Meeting, Mystic, CT, Nov.1-3, 1983, Univ.of South Carolina Press, Columbia, SC:247-266|1985|
13596|A||Nusbaum,K.E., and E.B.,Jr. Shotts|Absorption of Selected Antimicrobic Drugs from Water by Channel Catfish, Ictalurus punctatus|Can. J. Fish. Aquat. Sci.38(8): 993-996|1981|10.1139/f81-135
13597|A||Tessier,L., G. Vaillancourt, and L. Pazdernik|Temperature Effects on Cadmium and Mercury Kinetics in Freshwater Molluscs Under Laboratory Conditions|Arch. Environ. Contam. Toxicol.26:179-184|1994|10.1007/BF00224802
13599|A||Snyder,C.D.|Physiological, Population, and Genetic Responses of an Aquatic Insect (Isonychia bicolor) to Chronic Mercury Pollution|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:157 p.|1992|
13600|A||Chandler,G.T., B.C. Coull, and J.C. Davis|Sediment- and Aqueous-Phase Fenvalerate Effects on Meiobenthos: Implications for Sediment Quality Criteria Development|Mar. Environ. Res.37(3): 313-327|1994|10.1016/0141-1136(94)90057-4
13601|A||Gotsis-Skretas,O.|Effects of Mercury on Cell Population, Chlorophyll A and Rates of Photosynthesis and Excretion of Dunaliella minuta Lerche|Toxicol. Environ. Chem.33(3/4): 261-275|1991|10.1080/02772249109357767
13602|A||Harrison,F.L., J.R. Lam, and R. Berger|Sublethal Responses of Mytilus edulis to Increased Dissolved Copper|Sci. Total Environ.28:141-158|1983|10.1016/S0048-9697(83)80014-X
13603|A||Karande,A.A., S.S. Ganti, and M. Udhayakumar|Toxicity of Tributyltin to Some Bivalve Species|Indian J. Mar. Sci.22(2): 153-154|1993|
13604|A||Sun,M., Y. Zhang, and J. Cai|Preliminary Study of Breeding and Biology of Daphnia magna H3, a high Temperature Resistant Species|Shuisheng Shengwu Xuebao (Multiple Languages)15(2): 166-173|1991|
13606|A||Johal,M.S., A. Dua, and K.K. Tandon|Effect of Endosulfan on the Integrated Density of the Erythrocytes of Channa punctatus (Bloch)|Curr. Sci. (Bangalore)65(8): 639-640|1993|
13607|A||Weeks,J.M., and P.S. Rainbow|The Relative Importance of Food and Seawater as Sources of Copper and Zinc to Talitrid Amphipods (Crustacea; Amphipoda; Talitridae)|J. Appl. Ecol.30(4): 722-735|1993|10.2307/2404250
13608|A||Palmork,K.H., and J.E. Solbakken|Distribution and Elimination of [9-14C]Phenanthrene in the Horse Mussel (Modiola modiolus)|Bull. Environ. Contam. Toxicol.26(2): 196-201|1981|10.1007/BF01622075
13609|A||Gilroy,D.J., H.M. Carpenter, L.K. Siddens, and L.R. Curtis|Chronic Dieldrin Exposure Increases Hepatic Disposition and Biliary Excretion of [14C]Dieldrin in Rainbow Trout|Fundam. Appl. Toxicol.20(3): 295-301|1993|10.1006/faat.1993.1039
13610|A||Plaha,R.S., and Y.N. Sahai|Qualitative Detection of BHC in Some Organs of a Fresh Water Teleost Heteropneustes fossilis (Bloch) as Assessed by Thin Layer Chromatography|Adv. Biosci.10(1): 47-52|1991|
13611|A||Clare,A.S., J.D. Costlow, H.M. Bedair, and G. Lumb|Assessment of Crab Limb Regeneration as an Assay for Developmental Toxicity|Can. J. Fish. Aquat. Sci.49:1268-1273|1992|10.1139/f92-142
13612|A||Trivedi,S.P., N. Sethi, R.K. Singh, and P. Singh|Fertilizer Calcium Ammonium Nitrate (CAN) Induced Haematotoxic Stress to Fresh Water Teleost, Clarias batrachus|Biol. Mem.17(3): 117-121|1991|
13613|T||Przelecka,A., A.M. Kluska, and M. Zwierzyk|The Role of Vacuolar Digestive System in Preventing Cadmium Poisoning in Acanthamoeba castellanii|Folia Histochem. Cytobiol.31(2): 93-98|1993|
13614|A||Chakrawarti,J.B., and R.C. Chaurasia|Toxicity of Some Organophosphate, Chlorinated and Carbamate Pesticides to Some Fresh Water Fishes|Indian J. Zool.9(2): 91-93|1981|
13616|A||Van der Weij,H.G.|Recent Developments and Investigations in the Chemical Control of Aquatic Weeds in the Netherlands|Proc. Br. Weed Control Conf.8:835-841|1966|
13618|A||Van Aardt,W.J., and D.J. Coertze|Influence of Copper Sulphate on the Water and Electrolyte Balance of the Freshwater Snail Bulinus (Bulinus) tropicus|S. Afr. J. Zool.16(4): 193-199|1981|10.1080/02541858.1981.11447757
13620|A||Metcalf,R.L., G.P. Georghiou, H.F. Schoof, and C.N. Smith|Screening and Laboratory Tests for Stages I, II and III|Cah. ORSTOM Ser. Entomol. Med. Parasitol. (Multiple Languages)7:111-119|1969|
13621|A||Satake,K.N., and M. Yasuno|The Effects of Diflubenzuron on Invertebrates and Fishes in a River|Eisei Dobutsu38(4): 303-316|1987|10.7601/mez.38.303
13622|A||Tortorelli,M.C., D.A. Hernandez, R.J. Lombardo, L. Ferrari, and P. Del Giorgio|Effects of Formulated Parathion on Sea Urchin Fertilization (Effectos de un Formulado de Parathion Sobre la Fecundacion del Erizo de Mar)|Arch. Biol.19(2): R260|1986|
13623|A||Baumgartner,L.L.|A Case History of a Misapplication of CMU for Aquatic Weed Control|Proc. Northeast. Weed Control Conf.9:559-562|1955|
13624|A||Beaven,G.F., C.K. Rawls, and G.E. Beckett|Field Observations upon Estuarine Animals Exposed to 2,4-D|Proc. Northeast. Weed Control Conf.16:449-458|1962|
13626|A||Sudak,F.N., and C.L. Claff|Survival of Uca pugnax in Sand, Water and Vegetation Contaminated with 2,4-Dichlorophenoxyacetic Acid|Proc. Annu. Meet. Northeast. Weed Sci. Soc.14:508-510|1960|
13627|A||Arinc,E., and A. Sen|Induction of Liver 7-Ethoxyresorufin O-Deethylase in Gilthead Seabream by Benzo(a)pyrene and Its Potential Use in Biochemical Monitoring of|MAP Tech. Rep. Ser. (Multiple Languages)69:73-89|1992|
13628|A||Kurelec,B.|The Multi-Xenobiotic Resistance Mechanism in Aquatic Organisms|MAP Tech. Rep. Ser. (Multiple Languages)69:177-184|1992|
13629|A||Pavicic,J., B. Raspor, and M. Branica|Metal Binding Proteins of Mytilus galloprovincialis, Similar to Metallothioneins, as a Potential Indicator of Metal Pollution|MAP Tech. Rep. Ser. (Multiple Languages)69:217-234|1992|
13630|A||Penalva,S., and F. Fernandez|Lindane Effects on the Growth, Size and Composition of Two Marine Unicellular Algae, Monochrysis lutheri (Droop) and Phaeodactylum tricornutum (Bohlin)|MAP Tech. Rep. Ser. (Multiple Languages)69:235-243|1992|
13631|A||Singh,N.N., and A.K. Srivastava|Effect of Aldrin on Some Biochemical Parameters of Indian Catfish, Heteropneustes fossilis|J. Freshw. Biol.4(4): 289-293|1992|
13632|A||Thomas,P., and H.W. Wofford|Effects of Metals and Organic Compounds on Hepatic Glutathione, Cysteine, and Acid-Soluble Thiol Levels in Mullet (Mugil cephalus L.)|Toxicol. Appl. Pharmacol.76:172-182|1984|10.1016/0041-008X(84)90040-1
13633|A||Webber,L.A., and D.C. Cochran|Laboratory Observations on Some Freshwater Vertebrates and Several Saline Fishes Exposed to a Monomolecular Organic Surface Film (ISA-20E)|Mosq. News44(1): 68-69|1984|
13634|A||Johnson,G.D., and M.S. Mulla|Chemical Control of Aquatic Nuisance Midges in Residential-Recreational Lakes|Mosq. News41(3): 495-501|1981|
13635|A||Short,T.M.|Ionoregulatory Responses of the Crayfish Orconectes immunis to Selenium in Fresh Water|Ph.D.Thesis, Colorado State University, Fort Collins, CO:117 p.|1983|
13637|A||Sage,L., R. Steiman, F. Seigle-Murandi, J.L. Benoit-Guyod, and G. Merlin|Toxicity of Pentachlorophenol for Micromycetes Isolated from Freshwater Sediments|J. Aquat. Ecosyst. Health2(4): 335-340|1993|10.1007/BF00044035
13638|A||Applied Forestry Research Institute|Environmental Impact and Efficacy of Dylox Used for Gypsy Moth Control in New York State|AFRI Res. Rep.10:94 p.|1972|
13639|A||Parashari,A., and O.P. Saxena|Effect of Aflatoxin B1 on Glutamic Oxalacetic Transaminase and Glutamic Pyruvic Transaminase in Fresh Water Fish, Clarias batrachus (L.)|J. Environ. Biol.7(3): 165-170|1986|
13640|A||Ahmed,S.A., and R.F. Abdou|The Effect of Diuron and Mitrobuzin on the Root Tip Mitosis of Waterhyacinth (Eichhornia crassipes (Mart.) Solms.)|Assiut J. Agric. Sci.17(3): 26 p.|1986|
13641|A||Malyzheva,T.D., and V.S. Vasilevskiy|Effect of Excess Enteric Zinc on Digestive Enzyme Activity in Carp|Hydrobiol. J.28(4): 45-52|1992|
13642|A||Zolotukhina,Y.Y., and Y.Y. Gavrilenko|Distribution of Copper and Cadmium in Aquatic Macrophytes|Hydrobiol. J.28(5): 7-16|1992|
13643|A||Yawetz,A., R. Manelis, and A. Gasith|Cholinesterase Enzymatic Profiles and the Exposure of Fish to Organophosphorus and Carbamate Pesticides in Israel|Water Sci. Technol.27(7-8): 465-472|1993|10.2166/wst.1993.0583
13644|A||Manelis,R., H. Hornung, L. Fishelson, and A. Yawetz|The Effects of Exposure to Heavy Metal Ions on Cytochrome b5 and Components of the Mixed-Function Oxidases from the Digestive Gland Microsomes of the Mollusc Monodonta turbinata|Water Sci. Technol.27(7-8): 473-480|1993|10.2166/wst.1993.0584
13645|A||Maddock,M.B., H. Northrup, and T.J. Ellingham|Induction of Sister-Chromatid Exchanges and Chromosomal Aberrations in Hematopoietic Tissue of a Marine Fish Following In Vivo Exposure to Genotoxic|Mutat. Res.172(2): 165-175|1986|10.1016/0165-1218(86)90072-8
13646|A||Hastings,E., W.H. Kittams, and J.H. Pepper|Repopulation by Aquatic Insects in Streams Sprayed with DDT|Ann. Entomol. Soc. Am.54:436-437|1961|10.1093/aesa/54.3.436
13647|A||Cook,S.F.,Jr., and J.D. Conners|The Short-Term Side Effects of the Insecticidal Treatment of Clear Lake County, California, in 1962|Ann. Entomol. Soc. Am.56:819-824|1963|10.1093/aesa/56.6.819
13648|A||Zischkale,M.|Effects of Rotenone and Some Common Herbicides on Fish-Food Organisms|Field Lab.20:18-24|1952|
13649|A||Drewa,G., D. Andruszczak, M. Chesy, L. Kozica-Raszeja, K. Palgan, and Z. Zbytniewski|The Influence of Anionic Detergent and Diesel Fuel Oil on Arylsulphatase and Acid Phosphatase Activity in Gasterosteus aculeatus L. and Dreissena polymorpha Pall.|Pol. Arch. Hydrobiol.39(1): 161-170|1992|
13650|A||Graillet,C., G. Pagano, and J.P. Girard|Stage-Specific Effects of Teratogens on Sea Urchin Embryogenesis|Teratog. Carcinog. Mutagen.13(1): 1-14|1993|10.1002/tcm.1770130102
13651|A||Hofer,R., and E. Gatumu|Necrosis of Trout Retina (Oncorhynchus mykiss) After Sublethal Exposure to Nitrite|Arch. Environ. Contam. Toxicol.26(1): 119-123|1994|10.1007/BF00212803
13652|A||Kreutzweiser,D.P., S.B. Holmes, and D.C. Eichenberg|Influence of Exposure Duration on the Toxicity of Triclopyr Ester to Fish and Aquatic Insects|Arch. Environ. Contam. Toxicol.26(1): 124-129|1994|10.1007/BF00212804
13653|A||Postma,J.F., M.C. Buckert-De Jong, N. Staats, and C. Davids|Chronic Toxicity of Cadmium to Chironomus riparius (Diptera: Chironomidae) at Different Food Levels|Arch. Environ. Contam. Toxicol.26(2): 143-148|1994|10.1007/BF00224797
13654|A||Visviki,I., and J.W. Rachlin|Acute and Chronic Exposure of Dunaliella salina and Chlamydomonas bullosa to Copper and Cadmium: Effects on Growth|Arch. Environ. Contam. Toxicol.26(2): 149-153|1994|
13655|A||Visviki,I., and J.W. Rachlin|Acute and Chronic Exposure of Dunaliella salina and Chlamydomonas bullosa to Copper and Cadmium:  Effects on Ultrastructure|Arch. Environ. Contam. Toxicol.26(2): 154-162|1994|
13656|AT||Kammenga,J.E., C.A.M. Van Gestel, and J. Bakker|Patterns of Sensitivity to Cadmium and Pentachlorophenol Among Nematode Species from Different Taxonomic and Ecological Groups|Arch. Environ. Contam. Toxicol.27(1): 88-94|1994|10.1007/BF00203892
13657|A||Dillon,T.M., D.W. Moore, and A.S. Jarvis|The Effects of Storage Temperature and Time on Sediment Toxicity|Arch. Environ. Contam. Toxicol.27(1): 51-53|1994|10.1007/BF00203887
13658|A||Kilgour,B.W., and M.A. Baker|Effects of Season, Stock, and Laboratory Protocols on Survival of Zebra Mussels (Dreissena polymorpha) in Bioassays|Arch. Environ. Contam. Toxicol.27(1): 29-35|1994|10.1007/BF00203884
13659|A||Keklak,M.M., M.C. Newman, and M. Mulvey|Enhanced Uranium Tolerance of an Exposed Population of the Eastern Mosquitofish (Gambusia holbrooki Girard 1859)|Arch. Environ. Contam. Toxicol.27(1): 20-24|1994|10.1007/BF00203882
13660|A||Juchelka,C.M., and T.W. Snell|Rapid Toxicity Assessment Using Rotifer Ingestion Rate|Arch. Environ. Contam. Toxicol.26(4): 549-554|1994|10.1007/BF00214160
13661|A||Burbidge,F.J., D.J. Macey, J. Webb, and V. Talbot|A Comparison Between Particulate (Elemental) Zinc and Soluble Zinc (ZnCl2) Uptake and Effects in the Mussel, Mytilus edulis|Arch. Environ. Contam. Toxicol.26(4): 466-472|1994|10.1007/BF00214148
13662|A||Xu,Q., and D. Pascoe|The Importance of Food and Water as Sources of Zinc During Exposure of Gammarus pulex (Amphipoda)|Arch. Environ. Contam. Toxicol.26(4): 459-465|1994|10.1007/BF00214147
13663|A||Iger,Y., R.A.C. Lock, J.C.A. Van der Meij, and S.E. Wendelaar Bonga|Effects of Water-Borne Cadmium on the Skin of the Common Carp (Cyprinus carpio)|Arch. Environ. Contam. Toxicol.26(3): 342-350|1994|10.1007/BF00203561
13664|A||Coquery,M., and P.M. Welbourn|Mercury Uptake from Contaminated Water and Sediment by the Rooted and Submerged Aquatic Macrophyte Eriocaulon septangulare|Arch. Environ. Contam. Toxicol.26(3): 335-341|1994|10.1007/BF00203560
13665|A||Tachikawa,M., and R. Sawamura|The Effects of Salinity on Pentachlorophenol Accumulation and Elimination by Killifish (Oryzias latipes)|Arch. Environ. Contam. Toxicol.26(3): 304-308|1994|10.1007/BF00203556
13666|A||Hickey,C.W., and M.L. Vickers|Toxicity of Ammonia to Nine Native New Zealand Freshwater Invertebrate Species|Arch. Environ. Contam. Toxicol.26(3): 292-298|1994|10.1007/BF00203554
13667|A||Liber,K., and K.R. Solomon|Acute and Chronic Toxicity of 2,3,4,6-Tetrachlorophenol and Pentachlorophenol to Daphnia and Rotifers|Arch. Environ. Contam. Toxicol.26(2): 212-221|1994|10.1007/BF00224807
13668|A||Niimi,A.J., and G.P. Kissoon|Evaluation of the Critical Body Burden Concept Based on Inorganic and Organic Mercury Toxicity to Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.26(2): 169-178|1994|10.1007/BF00224801
13669|A||Calleja,M.C., G. Persoone, and P. Geladi|Comparative Acute Toxicity of the First 50 Multicentre Evaluation of In Vitro Cytotoxicity Chemicals to Aquatic Non-Vertebrates|Arch. Environ. Contam. Toxicol.26(1): 69-78|1994|10.1007/BF00212796
13670|A||Presutti,C., C. Vismara, M. Camatini, and G. Bernardini|Ecotoxicological Effects of a Nonionic Detergent (Triton DF-16) Assayed by ModFETAX|Bull. Environ. Contam. Toxicol.53(3): 405-411|1994|10.1007/BF00197233
13671|A||Madoni,P., D. Davoli, and G. Gorbi|Acute Toxicity of Lead, Chromium, and Other Heavy Metals to Ciliates from Activated Sludge Plants|Bull. Environ. Contam. Toxicol.53(3): 420-425|1994|10.1007/BF00197235
13672|A||Dauble,D.D., R.M. Bean, and R.W.,Jr. Hanf|Disposition of Quinoline in the Crayfish Pacifasticus Ieniusculus|Bull. Environ. Contam. Toxicol.53(3): 426-433|1994|10.1007/BF00197236
13673|A||Warnau,M., and G. Pagano|Developmental Toxicity of PbCl2 in the Echinoid Paracentrotus lividus (Echinodermata)|Bull. Environ. Contam. Toxicol.53(3): 434-441|1994|10.1007/BF00197237
13674|A||Burgess,R.M., B.A. Rogers, S.A. Rego, J.M. Corbin, and G.E. Morrison|Sand Spiked with Copper as a Reference Toxicant Material for Sediment Toxicity Testing:  A Preliminary Evaluation|Arch. Environ. Contam. Toxicol.26(2): 163-168|1994|10.1007/BF00224800
13675|A||Sinha,S., U.N. Rai, and P. Chandra|Accumulation and Toxicity of Iron and Manganese in Spirodela polyrrhiza (L.) Schleiden|Bull. Environ. Contam. Toxicol.53(4): 610-617|1994|10.1007/BF00199034
13676|A||Dirilgen,N., and Y. Inel|Effects of Zinc and Copper on Growth and Metal Accumulation in Duckweed, Lemna minor|Bull. Environ. Contam. Toxicol.53(3): 442-449|1994|10.1007/BF00197238
13677|A||Anton,F.A., and M. Ariz|Acute Toxicity of Technical Trichlorphon to Cyprinid Fish|Bull. Environ. Contam. Toxicol.53(4): 627-632|1994|10.1007/BF00199036
13678|A||Sunderam,R.I.M., G.B. Thompson, J.C. Chapman, and D.M.H. Cheng|Acute and Chronic Toxicity of Endosulfan to Two Australian Cladocerans and Their Applicability in Deriving Water Quality Criteria|Arch. Environ. Contam. Toxicol.27(4): 541-545|1994|10.1007/BF00214847
13679|A||Fairchild,J.F., T.W. La Point, and T.R. Schwartz|Effects of an Herbicide and Insecticide Mixture in Aquatic Mesocosms|Arch. Environ. Contam. Toxicol.27(4): 527-533|1994|10.1007/BF00214845
13680|A||Baudin,J.P., and J. Garnier-Laplace|Accumulation, Release, and Tissue Distribution of 110mAg from Natural Food (Gammarus pulex) by the Common Carp, Cyprinus carpio L|Arch. Environ. Contam. Toxicol.27(4): 459-465|1994|10.1007/BF00214836
13682|A||Alaimo,J., R.S. Ogle, and A.W. Knight|Selenium Uptake by Larval Chironomus decorus from a Ruppia maritima-Based Benthic/Detrital Substrate|Arch. Environ. Contam. Toxicol.27(4): 441-448|1994|10.1007/BF00214833
13683|A||Henry,C.J., K.F. Higgins, and K.J. Buhl|Acute Toxicity and Hazard Assessment of Rodeo, X-77 Spreader, and Chem-Trol to Aquatic Invertebrates|Arch. Environ. Contam. Toxicol.27(3): 392-399|1994|10.1007/BF00213176
13684|A||Baily,J., J. Colflesh, and J. Sidie|Uptake of Ethanol by Goldfish and Weakly Electric Fish|J. Penn. Acad. Sci.66(suppl.): 176-|1993|
13685|A||Nebeker,A.V., G.S. Schuytema, and S.L. Ott|Effects of Cadmium on Limb Regeneration in the Northwestern Salamander Ambystoma gracile|Arch. Environ. Contam. Toxicol.27(3): 318-322|1994|10.1007/BF00213166
13686|A||Schuytema,G.S., A.V. Nebeker, and W.L. Griffis|Toxicity of Guthion and Guthion 2S to Xenopus laevis Embryos|Arch. Environ. Contam. Toxicol.27(2): 250-255|1994|10.1007/BF00214270
13688|A||Fent,K., and W. Meier|Effects of Triphenyltin on Fish Early Life Stages|Arch. Environ. Contam. Toxicol.27(2): 224-231|1994|10.1007/BF00214266
13689|A||Ort,M.P., J.F. Fairchild, and S.E. Finger|Acute and Chronic Effects of Four Commercial Herbicide Formulations on Ceriodaphnia dubia|Arch. Environ. Contam. Toxicol.27(1): 103-106|1994|10.1007/BF00203894
13690|A||Gayatri,R., and S. Chatterjee|Morphogenesis of Dictyostelium discoideum Treated with Lindane|Bull. Environ. Contam. Toxicol.52(6): 871-877|1994|10.1007/BF00200696
13691|A||Bhunia,A.K., R. Marik, and S.K. Banerjee|Biochemical Effects of Carbaryl on Nitrogen Assimilating Enzymes of Cyanobacteria Nostoc muscorum|Bull. Environ. Contam. Toxicol.52(6): 886-892|1994|10.1007/BF00200698
13692|A||Dalal,R., and S. Bhattacharya|Effect of Cadmium, Mercury, and Zinc on the Hepatic Microsomal Enzymes of Channa punctatus|Bull. Environ. Contam. Toxicol.52(6): 893-897|1994|10.1007/BF00200699
13693|A||Foster,S.C., S.L. Burks, D.J. Fort, E.L. Stover, and M.D. Matlock|Development and Evaluation of a Nondestructive Measure of Fish Growth for Sublethal Toxicity Assessment|Bull. Environ. Contam. Toxicol.53(1): 85-90|1994|10.1007/BF00205143
13694|A||Rodriguez-Moreno,P.A., and J.V. Tarazona|Nitrite-Induced Methemoglobin Formation and Recovery in Rainbow Trout (Oncorhynchus mykiss) at High Chloride Concentrations|Bull. Environ. Contam. Toxicol.53(1): 113-119|1994|10.1007/BF00205147
13695|A||Kirby,M.F., and D.A. Sheahan|Effects of Atrazine, Isoproturon, and Mecoprop on the Macrophyte Lemna minor and the Alga Scenedesmus subspicatus|Bull. Environ. Contam. Toxicol.53(1): 120-126|1994|10.1007/BF00205148
13696|A||Chu,K.H., and P.Y. Lau|Effects of Diazinon, Malathion, and Paraquat on the Behavioral Response of the Shrimp Metapenaeus ensis to Chemoattractants|Bull. Environ. Contam. Toxicol.53(1): 127-133|1994|10.1007/BF00205149
13697|A||Padmaja Rambabu,J., and M. Balaparameswara Rao|Effect of an Organochlorine and Three Organophosphate Pesticides on Glucose, Glycogen, Lipid, and Protein Contents in Tissues of the Freshwater Snail|Bull. Environ. Contam. Toxicol.53(1): 142-148|1994|10.1007/BF00205151
13698|A||Singh,S., and D.P.S. Bhati|Evaluation of Liver Protein due to Stress Under 2,4-D intoxication in Channa punctatus (Bloch.)|Bull. Environ. Contam. Toxicol.53(1): 149-152|1994|10.1007/BF00205152
13699|A||Krassoi,F.R., and M. Julli|Chemical Batch as a Factor Affecting the Acute Toxicity of the Reference Toxicant Potassium Dichromate to the Cladoceran Moina australiensis (Sars)|Bull. Environ. Contam. Toxicol.53(1): 153-157|1994|10.1007/BF00205153
13700|A||Lee,L.H., B. Lustigman, and D. Dandorf|Effect of Manganese and Zinc on the Growth of Anacystis nidulans|Bull. Environ. Contam. Toxicol.53(1): 158-165|1994|10.1007/BF00205154
13701|A||Kirubagaran,R., and K.P. Joy|Effects of Short-Term Exposure to Methylmercury Chloride and Its Withdrawal on Serum Levels of Thyroid Hormones in the Catfish Clarias batrachus|Bull. Environ. Contam. Toxicol.53(1): 166-170|1994|10.1007/BF00205155
13702|A||Srivastava,A.K.|Effects of Chlordecone on the Gonads of Freshwater Catfish, Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.53(2): 186-191|1994|10.1007/BF00192031
13703|A||Reddy,P.S., and A. Bhagyalakshmi|Elimination of Diurnal Rhythm of Respiration by Methyl Parathion in the Crab, Oziotelphusa senex senex Fabricius|Bull. Environ. Contam. Toxicol.53(2): 192-197|1994|10.1007/BF00192032
13704|A||Francesconi,K.A., E.J. Moore, and J.S. Edmonds|Cadmium Uptake from Seawater and Food by the Western Rock Lobster Panulirus cygnus|Bull. Environ. Contam. Toxicol.53(2): 219-223|1994|10.1007/BF00192036
13705|A||Van Haaften,M., and D.C. Lasenby|Changes in the Amount of Cadmium in Food Ingested by the Creek Chub, Semotilus atromaculatus|Bull. Environ. Contam. Toxicol.53(2): 224-229|1994|10.1007/BF00192037
13706|A||Megharaj,M., D.R. Madhavi, C. Sreenivasulu, A. Umamaheswari, and K. Venkateswarlu|Biodegradation of Methyl Parathion by Soil Isolates of Microalgae and Cyanobacteria|Bull. Environ. Contam. Toxicol.53(2): 292-297|1994|10.1007/BF00192047
13707|AT||Fargasova,A.|Comparative Toxicity of Five Metals on Various Biological Subjects|Bull. Environ. Contam. Toxicol.53(2): 317-324|1994|10.1007/BF00192051
13708|A||Kuhn,K., and B. Streit|Detecting Sublethal Effects of Organophosphates by Measuring Acetylcholinesterase Activity in Gammarus|Bull. Environ. Contam. Toxicol.53(3): 398-404|1994|10.1007/BF00197232
13709|A||Martinez-Tabche,L., C.I. Galar, M.B. Ramirez, R.A. Morales, and F.C. German|Parathion Effect on Acetylcholinesterase from Fish Through an Artificial Trophic Chain: Ankistrodesmus falcatus-Moina macrocopa-Oreochromis hornorum|Bull. Environ. Contam. Toxicol.52(3): 360-366|1994|10.1007/BF00197822
13710|A||Singer,M.M., S. George, S. Jacobson, I. Lee, R.S. Tjeerdema, and M.L. Sowby|Comparative Toxicity of Corexit 7664 to the Early Life Stages of Four Marine Species|Arch. Environ. Contam. Toxicol.27(1): 130-136|1994|10.1007/BF00203899
13711|A||MacFie,S.M., Y. Tarmohamed, and P.M. Welbourn|Effects of Cadmium, Cobalt, Copper, and Nickel on Growth of the Green Alga Chlamydomonas reinhardtii:  The Influences of the Cell Wall and pH|Arch. Environ. Contam. Toxicol.27(4): 454-458|1994|10.1007/BF00214835
13712|AT||Arambasic,M.B., S. Bjelic, and G. Subakov|Acute Toxicity of Heavy Metals (Copper, Lead, Zinc), Phenol and Sodium on Allium cepa L., Lepidium sativum L. and Daphnia magna St.: Comparative Investigations and the Practical Applications|Water Res.29(2): 497-503|1995|10.1016/0043-1354(94)00178-A
13713|A||Steinberg,C.E.W., R. Lorenz, and O.H. Spieser|Effects of Atrazine on Swimming Behavior of Zebrafish, Brachydanio rerio|Water Res.29(3): 981-985|1995|10.1016/0043-1354(94)00217-U
13714|A||Maltby,L.|Sensitivity of the Crustaceans Gammarus pulex (L.) and Asellus aquaticus (L.) to Short-Term Exposure to Hypoxia and Unionized Ammonia: Observations|Water Res.29(3): 781-787|1995|10.1016/0043-1354(94)00231-U
13715|A||Mackie,G.L., and B.W. Kilgour|Efficacy and Role of Alum in Removal of Zebra Mussel Veliger Larvae from Raw Water Supplies|Water Res.29(2): 731-744|1995|10.1016/0043-1354(94)00154-Y
13716|A||Tsuda,T., S. Aoki, T. Inoue, and M. Kojima|Accumulation and Excretion of Diazinon, Fenthion and Fenitrothion by Killifish: Comparison of Individual and Mixed Pesticides|Water Res.29(2): 455-458|1995|10.1016/0043-1354(94)00191-9
13717|A||Kishino,T., and K. Kobayashi|Relation Between Toxicity and Accumulation of Chlorophenols at Various pH, and Their Absorption Mechanism in Fish|Water Res.29(2): 431-442|1995|10.1016/0043-1354(94)00189-E
13718|A||Taylor,R.M., G.D. Watson, and M.A. Alikhan|Comparative Sub-lethal and Lethal Acute Toxicity of Copper to the Freshwater Crayfish, Cambarus robustus (Cambaridae, Decapoda, Crustacea) from an Acidic Metal-Contaminated Lake and a Circumneutral Uncontaminated Stream|Water Res.29(2): 401-408|1995|10.1016/0043-1354(94)00192-A
13719|A||Pynnonen,K.|Effect of pH, Hardness and Maternal Pre-Exposure on the Toxicity of Cd, Cu and Zn to the Glochidial Larvae of a Freshwater Clam Anodonta cygnea|Water Res.29(1): 247-254|1995|10.1016/0043-1354(94)00126-R
13720|A||Wang,J., M. Zhang, J. Xu, and Y. Wang|Reciprocal Effect of Cu, Cd, Zn on a Kind of Marine Alga|Water Res.29(1): 209-214|1995|10.1016/0043-1354(94)00127-S
13721|A||Mount,D.R., A.K. Barth, T.D. Garrison, K.A. Barten, and J.R. Hockett|Dietary and Waterborne Exposure of Rainbow Trout (Oncorhynchus mykiss) to Copper, Cadmium, Lead and Zinc Using a Live Diet|Environ. Toxicol. Chem.13(12): 2031-2041|1994|10.1002/etc.5620131216
13723|A||Dodson,S.I., T. Hanazato, and P.R. Gorski|Behavioral Responses of Daphnia pulex Exposed to Carbaryl and Chaoborus Kairomone|Environ. Toxicol. Chem.14(1): 43-50|1995|10.1002/etc.5620140106
13724|A||Brown,L.S., and D.R.S. Lean|Toxicity of Selected Pesticides to Lake Phytoplankton Measured Using Photosynthetic Inhibition Compared to Maximal Uptake Rates of Phosphate and Ammonium|Environ. Toxicol. Chem.14(1): 93-98|1995|10.1002/etc.5620140111
13725|A||Postma,J.F., S. Mol, H. Larsen, and W. Admiraal|Life-Cycle Changes and Zinc Shortage in Cadmium-Tolerant Midges, Chironomus riparius (Diptera), Reared in the Absence of Cadmium|Environ. Toxicol. Chem.14(1): 117-122|1995|
13726|A||Weis,J.S., and P. Weis|Effects of Embryonic Exposure to Methylmercury on Larval Prey-Capture Ability in the Mummichog, Fundulus heteroclitus|Environ. Toxicol. Chem.14(1): 153-156|1995|
13727|A||Pillard,D.A.|Comparative Toxicity of Formulated Glycol Deicers and Pure Ethylene and Propylene Glycol to Ceroidaphnia dubia and Pimephales promelas|Environ. Toxicol. Chem.14(2): 311-315|1995|10.1002/etc.5620140217
13728|A||Radetski,C.M., J.F. Ferard, and C. Blaise|A Semistatic Microplate-Based Phytotoxicity Test|Environ. Toxicol. Chem.14(2): 299-302|1995|
13729|A||Naddy,R.B., T.W. LaPoint, and S.J. Klaine|Toxicity of Arsenic, Molybdenum and Selenium Combinations to Ceroidaphnia dubia|Environ. Toxicol. Chem.14(2): 329-336|1995|10.1002/etc.5620140219
13730|A||Bird,K.T.|Comparisons of Herbicide Toxicity Using In Vitro Cultures of Myriophyllum spicatum|J. Aquat. Plant Manag.31:43-45|1993|
13731|A||Allinson,G., and M. Morita|Bioaccumulation and Toxic Effects of Elevated Levels of 3,3',4,4'-Tetrachloroazobenzene (33'44'-TCAB) Towards Aquatic Organisms. II: Bioaccumulation|Chemosphere30(2): 223-232|1995|10.1016/0045-6535(94)00385-8
13732|A||Sprecher,S.L., A.B. Stewart, and J.M. Brazil|Peroxidase Changes as Indicators of Herbicide-Induced Stress in Aquatic Plants|J. Aquat. Plant Manag.31:45-50|1993|
13733|A||Suresh,A., B. Sivaramakrishna, and K. Radhakrishnaiah|Cadmium Induced Changes in Ion Levels and ATPase Activities in the Muscle of the Fry and Fingerlings of the Freshwater Fish, Cyprinus carpio|Chemosphere30(2): 367-375|1995|10.1016/0045-6535(94)00403-H
13734|A||Schlenk,D., and C.T. Moore|Effect of pH and Time on the Acute Toxicity of Copper Sulfate to the Ciliate Protozoan Tetrahymena thermophila|Bull. Environ. Contam. Toxicol.53(6): 800-804|1994|10.1007/BF00196207
13735|A||Wan,M.T., R.G. Watts, and D.J. Moul|Impact of Chemigation on Selected Non-Target Aquatic Organisms in Cranberry Bogs of British Columbia|Bull. Environ. Contam. Toxicol.53(6): 828-835|1994|10.1007/BF00196211
13736|A||Kondaiah,K., and A.S. Murty|Avoidance Behavior Test as an Alternative to Acute Toxicity Test|Bull. Environ. Contam. Toxicol.53(6): 836-843|1994|10.1007/BF00196212
13737|A||Wetzel,A., T. Alexander, S. Brandt, R. Haas, and D. Werner|Reduction by Fluoranthene of Copper and Lead Accumulation in Triticum aestivum L.|Bull. Environ. Contam. Toxicol.53(6): 856-862|1994|10.1007/BF00196215
13738|A||Goncz,A.M., and L. Sencic|Metolachlor and 2,4-Dichlorophenoxyacetic Acid Sensitivity of Salvinia natans|Bull. Environ. Contam. Toxicol.53(6): 852-855|1994|10.1007/BF00196214
13740|A||Davies,K.L., M.S. Davies, and D. Francis|The Effects of Zinc on Cell Viability and on Mitochondrial Structure in Contrasting Cultivars of Festuca rubra L. - A Rapid Test for Zinc Tolerance|Environ. Pollut.88(1): 109-113|1995|10.1016/0269-7491(95)91053-N
13741|A||Wolterbeek,H.T., A. Viragh, J.E. Sloof, G. Bolier, B. Van der Veer, and J. De Kok|On the Uptake and Release of Zinc (65 Zn) in the Growing Alga Selenastrum capricornutum Printz|Environ. Pollut.88:85-90|1995|10.1016/0269-7491(95)91051-L
13742|A||Allen,P.|Distribution of Mercury in the Soft Tissues of the Blue Tilapia Oreochromis aureus (Steindachner) After Acute Exposure to Mercury (II) Chloride|Bull. Environ. Contam. Toxicol.53(5): 675-683|1994|
13743|A||Allen,P.|Mercury Accumulation Profiles and Their Modification by Interaction with Cadmium and Lead in the Soft Tissues of the Cichlid Oreochromis aureus During Chronic Exposure|Bull. Environ. Contam. Toxicol.53(5): 684-692|1994|
13744|A||Chetty,A.N., and K. Indira|Alterations in the Tissue Lipid Profiles of Lamellidens marginalis Under Ambient Ammonia Stress|Bull. Environ. Contam. Toxicol.53(5): 693-698|1994|10.1007/BF00196941
13745|A||Reddy,P.S., and A. Bhagyalakshmi|Lipid Peroxidation in the Gill and Hepatopancreas of Oziotelphusa senex senex Fabricius During Cadmium and Copper Exposure|Bull. Environ. Contam. Toxicol.53(5): 704-710|1994|
13746|A||Sastry,K.V., and V. Shukla|Influence of Protective Agents in the Toxicity of Cadmium to a Freshwater Fish (Channa punctatus)|Bull. Environ. Contam. Toxicol.53(5): 711-717|1994|10.1007/BF00196944
13747|A||Bebianno,M.J., M.A.P. Serafim, and M.F. Rita|Involvement of Metallothionein in Cadmium Accumulation and Elimination in the Clam Ruditapes decussata|Bull. Environ. Contam. Toxicol.53(5): 726-732|1994|10.1007/BF00196946
13748|A||Reddy,D.S., V.V. Ghanathay, S.L.N. Reddy, and K. Shankariah|Hepatotoxic Effects of Hexachlorocyclohexane on Carbohydrate Metabolism of a Freshwater Fish Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.53(5): 733-739|1994|
13749|A||Sreenivasula Reddy,P., and A. Bhagyalakshmi|Changes in Oxidative Metabolism in Selected Tissues of the Crab (Scylla serrata) in Response to Cadmium Toxicity|Ecotoxicol. Environ. Saf.29(3): 255-264|1994|10.1016/0147-6513(94)90002-7
13750|A||Banerjee,S., and S. Bhattacharya|Histopathology of Kidney of Channa punctatus Exposed to Chronic Nonlethal Level of Elsan, Mercury, and Ammonia|Ecotoxicol. Environ. Saf.29(3): 265-275|1994|10.1016/0147-6513(94)90003-5
13751|A||El-Sheekh,M.M., H.M. Kotkat, and O.H.E. Hammouda|Effect of Atrazine Herbicide on Growth, Photosynthesis, Protein Synthesis, and Fatty Acid Composition in the Unicellular Green Alga Chlorella kessleri|Ecotoxicol. Environ. Saf.29(3): 349-358|1994|10.1016/0147-6513(94)90007-8
13752|A||Kent,D.J., P.C. McNamara, A.E. Putt, J.F. Hobson, and E.M. Silberhorn|Octamethylcyclotetrasiloxane in Aquatic Sediments: Toxicity and Risk Assessment|Ecotoxicol. Environ. Saf.29(3): 372-389|1994|10.1016/0147-6513(94)90010-8
13754|A||Ernst,W., S. Wade, P. Hennigar, and G. Julien|Toxicity to Aquatic Organisms of Pond Water Contaminated by Fenitrothion During Forest Spraying|Bull. Environ. Contam. Toxicol.52(4): 612-618|1994|10.1007/BF00194151
13755|A||Reddy,P.M., and G.H. Philip|In Vivo Inhibition of AChE and ATPase Activities in the Tissues of Freshwater Fish, Cyprinus carpio Exposed to Technical Grade Cypermethrin|Bull. Environ. Contam. Toxicol.52(4): 619-626|1994|10.1007/BF00194152
13756|A||Anguiano,O.L., C.M. Montagna, M. Chifflet de Llamas, L. Gauna, and A.M. Pechen de D'Angelo|Comparative Toxicity of Parathion in Early Embryos and Larvae of the Toad, Bufo arenarum Hensel|Bull. Environ. Contam. Toxicol.52(5): 649-655|1994|10.1007/BF00195482
13757|A||McFarland,V.A., J. Feldaus, L.N. Ace, and J.M. Brannon|Measuring the Sediment/Organism Accumulation Factor of PCB-52 Using a Kinetic Model|Bull. Environ. Contam. Toxicol.52(5): 699-705|1994|10.1007/BF00195490
13758|A||Fargasova,A.|Toxicity Determination of Plant Growth Hormones on Aquatic Alga - Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.52(5): 706-711|1994|10.1007/BF00195491
13759|A||Olesen,T.M.E., and J.M. Weeks|Accumulation of Cd by the Marine Sponge Halichondria panica Pallas:  Effects upon Filtration Rate and Its Relevance for Biomonitoring|Bull. Environ. Contam. Toxicol.52(5): 722-728|1994|10.1007/BF00195494
13760|A|OECDG|Johal,M.S., and A. Dua|SEM Study of the Scales of Freshwater Snakehead, Channa punctatus (Bloch) upon Exposure to Endosulfan|Bull. Environ. Contam. Toxicol.52(5): 718-721|1994|10.1007/BF00195493
13761|A||Martinez,M., A. Torreblanca, J. Del Ramo, and J. Diaz-Mayans|Effects of Sublethal Exposure to Lead on Levels of Energetic Compounds in Procambarus clarkii (Girard, 1852)|Bull. Environ. Contam. Toxicol.52(5): 729-733|1994|10.1007/BF00195495
13762|A||Zou,E., and S. Bu|Acute Toxicity of Copper, Cadmium, and Zinc to the Water Flea, Moina irrasa (Cladocera)|Bull. Environ. Contam. Toxicol.52(5): 742-748|1994|10.1007/BF00195497
13763|A||Barahona-Gomariz,M.V., F. Sanz-Barrera, and S. Sanchez-Fortun|Acute Toxicity of Organic Solvents on Artemia salina|Bull. Environ. Contam. Toxicol.52(5): 766-771|1994|10.1007/BF00195501
13764|A||Langeland,K.A.|Hydrilla Response to Mariner Applied to Lakes|J. Aquat. Plant Manag.31:175-178|1993|
13766|A||Dutta,H.M., S.S.T. Nassar, J.S.D. Munshi, and C. Richmonds|Behavioral Changes in an Air-Breathing Fish, Anabas testudineus, Exposed to Malathion|Bull. Environ. Contam. Toxicol.52(1): 80-86|1994|10.1007/BF00197361
13768|A||Schoettger,R.A., and W.E.,Jr. Steucke|Synergic Mixtures of MS-222 and Quinaldine as Anesthetics for Rainbow Trout and Northern Pike|Prog. Fish-Cult.32(4): 202-205|1970|10.1577/1548-8640(1970)32[202:SMOMAQ]2.0.CO;2
13769|A||Schoettger,R.A., and E.W.,Jr. Steucke|Quinaldine and MS-222 as Spawning Aids for Northern Pike, Muskellunge, and Walleyes|Prog. Fish-Cult.32(4): 199-201|1970|10.1577/1548-8640(1970)32[199:QAMASA]2.0.CO;2
13771|A||Murai,T., J.W. Andrews, and J.W. Muller|Fingerling American Shad: Effect of Valium, MS-222, and Sodium Chloride on Handling Mortality|Prog. Fish-Cult.41(1): 27-29|1979|10.1577/1548-8659(1979)41[27:FAS]2.0.CO;2
13772|A||Schachte,J.H., and J.H.,Jr. Schachte|Iodophor Disinfection of Muskellunge Eggs Under Intensive Culture in Hatcheries|Prog. Fish-Cult.41(4): 189-190|1979|10.1577/1548-8659(1979)41[189:IDOMEU]2.0.CO;2
13773|A||Helmes,C.T.|C.I. Disperse Blue 79:  Environmental Safety and Human Health Effects of this Commercially Significant Dye|Text. Chem. Color.25(4): 15-17|1993|
13774|A||Powell,M.D., and S.F. Perry|Acid-Base and Ionic Fluxes in Rainbow Trout (Oncorhynchus mykiss) During Exposure to Chloramine-T|Aquat. Toxicol.43(1): 13-24|1998|10.1016/S0166-445X(98)00040-X
13775|A||Winters,K., R. O'Donnell, J.C. Batterton, and C. Van Baalen|Water-Soluble Components of Four Fuel Oils:  Chemical Characterization and Effects on Growth of Microalgae|Mar. Biol.36:269-276|1976|10.1007/BF00389288
13776|A||Micks,D.W., and D. Rougeau|Organophosphorus Tolerance in Culex quinquefasciatus in Texas|Mosq. News37(2): 233-239|1977|
13777|A||Schultz,D.P., P.D. Harman, and C.W. Luhning|Uptake, Metabolism, and Elimination of the Lampricide 3-Trifluoromethyl-4-nitrophenol by Largemouth Bass (Micropterus salmoides)|J. Agric. Food Chem.27(2): 328-331|1979|10.1021/jf60222a008
13778|A||Olson,L.E., J.L. Allen, and J.W. Hogan|Biotransformation and Elimination of the Herbicide Dinitramine in Carp|J. Agric. Food Chem.25(3): 554-556|1977|10.1021/jf60211a015
13779|A||Bishop,W.E., and L.C. Valentine|Use of the Central Mudminnow (Umbra limi) in the Development and Evaluation of a Sister Chromatid Exchange Test for Detecting Mutagens In Vivo|ASTM Spec. Tech. Publ.:99-108|1982|
13780|A||Fisher,J.W., C.B. Harrah, R. D'Allessandris, G.T. Collins, L.A. Muhic, J.F. Umina, and R.E. Blanchard|A Monitoring Technique for Assessing Effects of Pollutants on Fish Activity|ASTM Spec. Tech. Publ.:196-205|1982|
13781|A||Bailey,H.C.|Development and Testing of a Laboratory Model Ecosystem for Use in Evaluating Biological Effects and Chemical Fate of Pollutants|ASTM Spec. Tech. Publ.:221-233|1982|
13782|A||Lynch,T.R., and H.E. Johnson|Availability of a Hexachlorobiphenyl Isomer to Benthic Amphipods from Experimentally Contaminated Natural Sediments|ASTM Spec. Tech. Publ.:273-287|1982|
13783|A||Colborn,T.|Aquatic Insects as Measures of Trace Element Presence in Water: Cadmium and Molybdenum|ASTM Spec. Tech. Publ.:316-325|1982|
13784|A||Daikoku,T., S. Arai, M. Murata, and M. Sakaguchi|Effects of Dietary Trimethylamine on the Concentration of Trimethylamine Oxide in Various Tissues of the Chum Salmon, Oncorhynchus keta, in Freshwater|Comp. Biochem. Physiol. A Comp. Physiol.87(1): 101-105|1987|10.1016/0300-9629(87)90431-2
13785|A||Hazel,R.H., C.E. Burkhead, and D.G. Huggins|Development of Water Quality Criteria for Ammonia and Total Residual Chlorine for the Protection of Aquatic Life in Two Johnson County, Kansas Streams|ASTM Spec. Tech. Publ.:381-388|1982|
13786|A||Cross,F.A., S.W. Fowler, J.M. Dean, L.F. Small, and C.L. Osterberg|Distribution of 65Zn in Tissues of Two Marine Crustaceans Determined by Autoradiography|J. Fish. Res. Board Can.25(11): 2461-2466|1968|10.1139/f68-214
13787|A||Macek,K.J.|Reproduction in Brook Trout (Salvelinus fontinalis) fed Sublethal Concentrations of DDT|J. Fish. Res. Board Can.25(9): 1787-1796|1968|10.1139/f68-164
13788|A||Macek,K.J.|Growth and Resistance to Stress in Brook Trout fed Sublethal Levels of DDT|J. Fish. Res. Board Can.25(11): 2443-2451|1968|10.1139/f68-212
13789|A||Di Marzio,W.D., and M.C. Tortorelli|Effects of Paraquat on Survival and Total Cholinesterase Activity in Fry of Cnesterodon decemmaculatus (Pisces, Poeciliidae)|Bull. Environ. Contam. Toxicol.52(2): 274-278|1994|10.1007/BF00198499
13790|A||Samman,J., J.S. Amakye, and M.W. Asobayire|Short-Term Effects of Carbosulfan on Drifting Invertebrates in the Black Volta, Ghana|Bull. Environ. Contam. Toxicol.52(2): 286-291|1994|10.1007/BF00198501
13791|A||Riva,M.C., and B. Valles|Effect of Components of the Textile Mothproofing Process on Three Freshwater Microalgae Species|Bull. Environ. Contam. Toxicol.52(2): 292-297|1994|10.1007/BF00198502
13792|A||Constable,M., and P. Orr|Lethal and Sub-lethal Toxicity of Lindane to Pimephales promelas and Ceriodaphnia dubia|Bull. Environ. Contam. Toxicol.52(2): 298-304|1994|10.1007/BF00198503
13793|A||Villar,D., M. Gonzalez, M.J. Gualda, and D.J. Schaeffer|Effects of Organophosphorus Insecticides on Dugesia tigrina: Cholinesterase Activity and Head Regeneration|Bull. Environ. Contam. Toxicol.52(2): 319-324|1994|10.1007/BF00198506
13794|A||Wong,S.L., and J.F. Wainwright|Interpretation of Ultrastructural Changes in Cladophora glomerata Resulting from Hyamine Toxicity|Bull. Environ. Contam. Toxicol.52(3): 325-332|1994|10.1007/BF00197816
13795|A||Holden,A.V.|The Possible Effects on Fish of Chemicals Used in Agriculture|J. Proc. Inst. Sewage Purif.4:361-366|1964|
13796|A||Tadros,M.G., J. Philips, H. Patel, and V. Pandiripally|Differential Response of Green Algal Species to Solvents|Bull. Environ. Contam. Toxicol.52(3): 333-337|1994|10.1007/BF00197817
13797|A||Golovanova,I.L., G.M. Chuiko, and D.F. Pavlov|Effects of Cadmium, Naphthalene, and DDVP on Gut Carbohydrases Activity in Bream (Abramis brama L.) and Mozambique Tilapia (Oreochromis mossambicus Peters)|Bull. Environ. Contam. Toxicol.52(3): 338-345|1994|10.1007/BF00197818
13798|A||Tamse,C.T., and R.Q. Gacutan|Acute Toxicity of Nifurpirinol, a Fish Chemotherapeutant, to Milkfish (Chanos chanos) Fingerlings|Bull. Environ. Contam. Toxicol.52(3): 346-350|1994|10.1007/BF00197819
13799|A||Golow,A.A., and T.A. Godzi|Acute Toxicity of Deltamethrin and Dieldrin to Oreochromis niloticus (LIN)|Bull. Environ. Contam. Toxicol.52(3): 351-354|1994|10.1007/BF00197820
13800|A|OECDG|Peterson,H.G., C. Boutin, P.A. Martin, K.E. Freemark, N.J. Ruecker, and M.J. Moody|Aquatic Phyto-Toxicity of 23 Pesticides Applied at Expected Environmental Concentrations|Aquat. Toxicol.28(3/4): 275-292|1994|10.1016/0166-445X(94)90038-8
13801|A||Rao,S., and G. Venkateswerlu|Glutamine Metabolism in Neurospora crassa Under Conditions of Copper Toxicity|J. Exp. Bot.37(180): 947-955|1986|10.1093/jxb/37.7.947
13802|A||Rebhun,S., and A. Ben-Amotz|Effect of NaCl Concentration on Cadmium Uptake by the Halophilic Alga Dunaliella salina|Mar. Ecol. Prog. Ser.30(2-3): 215-219|1986|10.3354/meps030215
13803|T||Smith,B.E., D.G. Shilling, W.T. Haller, and G.E. MacDonald|Factors Influencing the Efficacy of Glyphosate on Torpedograss (Panicum repens L.)|J. Aquat. Plant Manag.31:199-202|1993|
13804|A||Spear,P.A., and P.D. Anderson|Pharmacokinetics in Relation to Toxicity Assessment|Tech. Rep. Fish. Mar. Serv.818:168-185|1978|
13805|A||Weinstein,N.L., and P.D. Anderson|Lethal and Sublethal Toxicities of Copper-Nickel Mixtures to the Zebrafish Brachydanio rerio|Tech. Rep. Fish. Mar. Serv.818:153-167|1978|
13806|A||Dyer,W.J., D.F. Hiltz, R.G. Ackman, J. Hingley, and G.L. Fletcher|In Vivo Assimilation by Cod Muscle and Liver Tissue of Elemental Phosphorus from Polluted Sea Water|J. Fish. Res. Board Can.27:1131-1139|1970|10.1139/f70-129
13807|A||Faas,L.F., and J.C. Moore|Determination of Pentachlorophenol in Marine Biota and Sea Water by Gas-Liquid Chromatography and High-Pressure Liquid Chromatography|J. Agric. Food Chem.27(3): 554-557|1979|10.1021/jf60223a001
13808|A||Trial,J.G.|The Effects of Sevin-4-Oil on Aquatic Insect Communities of Streams (1976-1978)|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Program, Maine Forest Service, Department of Conservation, Augusta, ME:6-22|1979|
13809|A||Lores,E.M., J.M. Patrick, and J.K. Summers|Humic Acid Effects on Uptake of Hexachlorobenzene and Hexachlorobiphenyl by Sheepshead Minnows in Static Sediment/Water Systems|Environ. Toxicol. Chem.12:541-550|1993|10.1002/etc.5620120314
13810|A||Machon,A., M.J. North, and N.C. Price|Dietary Accumulation of the Mothproofing Agent Eulan WA New and Its Tissue Distribution in the Northern Pike Esox lucius|Environ. Pollut. A.33(4): 295-302|1984|10.1016/0143-1471(84)90139-9
13811|AT||Ludwig,P.D., H.J. Dishburger, J.C. McNeill IV, W.O. Miller, and J.R. Rice|Biological Effects and Persistence of Dursban Insecticide in a Salt-Marsh Habitat|J. Econ. Entomol.61(3): 626-633|1968|10.1093/jee/61.3.626
13812|A||Knowles,S.C., and R.G. Zingmark|Mercury and Temperature Interactions on the Growth Rates of Three Species of Freshwater Phytoplankton|J. Phycol.14(1): 104-109|1978|10.1111/j.1529-8817.1978.tb00640.x
13813|A||Glooschenko,W.A.|Accumulation of 203Hg by the Marine Diatom Chaetoceros costatum|J. Phycol.5:224-226|1969|10.1111/j.1529-8817.1969.tb02607.x
13814|A||Brinkhuis,B.H., and I.K. Chung|The Effects of Copper on the Fine Structure of the Kelp Laminaria saccharina (L.) Lamour|Mar. Environ. Res.19(3): 205-223|1986|10.1016/0141-1136(86)90016-4
13815|A||Nichol,B.E., K. Budd, G.R. Palmer, and J.D. MacArthur|The Mechanisms of Fluoride Toxicity and Fluoride Resistance in Synechococcus leopliensis (Cyanophyceae)|J. Phycol.23(4): 535-541|1987|10.1111/j.1529-8817.1987.tb04202.x
13816|A||Krajnovic-Ozretic,M., and B. Ozretic|The ALA-D Activity Test in Lead-Exposed Grey Mullet Mugil auratus|Mar. Ecol. Prog. Ser.3(3): 187-191|1980|10.3354/meps003187
13817|A||Hendricks,J.D., T.P. Putnam, D.D. Bills, and R.O. Sinnhuber|Inhibitory Effect of a Polychlorinated Biphenyl (Aroclor 1254) on Aflatoxin B1 Carcinogenesis in Rainbow Trout (Salmo gairdneri)|J. Natl. Cancer Inst.59:1545-1551|1977|10.1093/jnci/59.5.1545
13818|A||Taylor,R.T., and H.F. Schoof|Experimental Field Treatments with Larvicides for Control of Anopheles, Aedes, and Culex Mosquitoes|J. Econ. Entomol.64(5): 1173-1176|1971|10.1093/jee/64.5.1173
13819|A||Wilkinson,R.N., W.W. Barnes, A.R. Gillogly, and C.D. Minnemeyer|Field Evaluation of Slow-Release Mosquito Larvicides|J. Econ. Entomol.64(1): 1-3|1971|10.1093/jee/64.1.1
13820|A||Karlander,E.P., J.M. Mayasich, and D.E. Terlizzi|Effects of the Herbicide Atrazine on an Oyster-Food Organism|Maryland Water Resources Research Center, Tech.Rep.No.73, University of Maryland College Park, A-060-MD:20 p.|1983|
13821|A||Capuzzo,J.M., J.A. Davidson, S.A. Lawrence, and M. Libni|The Differential Effects of Free and Combined Chlorine on Juvenile Marine Fish|Estuar. Coast. Mar. Sci.5:733-741|1977|10.1016/0302-3524(77)90045-7
13823|A||Liden,L.H., and D.T. Burton|Survival of Juvenile Atlantic Menhaden (Brevoortia tyrannus) and Spot (Leiostomus xanthurus) Exposed to Bromine Chloride- and Chlorine-Treated Estuarine Waters|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control12(8): 375-388|1977|
13826|A||Xu,Q., and D. Pascoe|Autoradiographic Study of Zinc in Gammarus pulex (Amphipoda)|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:187-199|1993|
13827|A||De Nicola,M., N. Cardellicchio, C. Gambardella, S.M. Guarino, and C. Marra|Effects of Cadmium on Survival, Bioaccumulation, Histopathology, and PGM Polymorphism in the Marine Isopod Idotea baltica|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:103-116|1993|
13828|A||Hyne,R., G.D. Rippon, and G. Ellender|Investigation of Uranium-Induced Toxicity in Freshwater Hydra|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:149-173|1993|
13829|A||Kaland,T., T. Andersen, and K. Hylland|Accumulation and Subcellular Distribution of Metals in the Marine Gastropod Nassarius reticulatus L.|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:37-53|1993|
13830|A||Kraak,M.H.S., M. Toussaint, E.A.J. Bleeker, and D. Lavy|Metal Regulation in Two Species of Freshwater Bivalves|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:175-186|1993|
13831|A||Mortlock,A.M., J.T.R. Fitzsimons, and G.A. Kerkut|The Effects of Farnesol on the Late Stage Nauplius and Free Swimming Cypris Larvae of Elminius modestus (Darwin)|Comp. Biochem. Physiol. A Comp. Physiol.78(2): 345-357|1984|10.1016/0300-9629(84)90159-2
13832|A||Schultz,D.P., and P.D. Harman|Antimycin: Uptake, Distribution, and Elimination in Brown Bullheads (Ictalurus nebulosus)|J. Fish. Res. Board Can.33(5): 1121-1129|1976|10.1139/f76-140
13833|A||Rothschild,L., and A. Tyler|The Physiology of Sea-Urchin Spermatozoa. Action of Versene|J. Exp. Biol.31:252-259|1954|10.1242/jeb.31.2.252
13834|A||Downing,K.M.|The Influence of Dissolved Oxygen Concentration on the Toxicity of Potassium Cyanide to Rainbow Trout|J. Exp. Biol.31:161-164|1954|10.1242/jeb.31.2.161
13835|A||Luhning,C.W., and P.D. Harman|Sampling of Fish Muscle for M.S. 222 and Quinaldine Residues|J. Fish. Res. Board Can.28(1): 113-115|1971|10.1139/f71-021
13841|AT||Hoffman,C.H., H.K. Townes, R.I. Sailer, and H.H. Swift|Field Studies on the Effect of DDT on Aquatic Insects|United States Department of Agriculture, Bureau of Entomology, Plant Quarantine:26 p.|1946|
13842|A||Willford,W.A.|Effect of MS-222 on Electrolyte and Water Content in the Brain of Rainbow Trout|Invest.Fish Control No.43, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:7 p.|1970|
13843|A||Walker,C.R., and R.A. Schoettger|Residues of MS-222 in Four Salmonids Following Anesthesia|Invest.Fish Control No.15, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:11 p.|1967|
13844|A||Walker,C.R., and R.A. Schoettger|Method for Determining MS-222 Residues in Fish|Invest.Fish Control No.14, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:10 p.|1967|
13845|A||Marking,L.L.|Toxicity of MS-222 to Selected Fishes|Invest.Fish Control No.12, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:10 p.|1967|
13846|A||Schoettger,R.A., and A.M. Julin|Efficacy of MS-222 as an Anesthetic on Four Salmonids|Invest.Fish Control No.13, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:15 p.|1967|
13847|A||Seeliger,U., and P. Edwards|Fate of Biologically Accumulated Copper in Growing and Decomposing Thalli of Two Benthic Red Marine Algae|J. Mar. Biol. Assoc. U.K.59:227-238|1979|10.1017/S0025315400046300
13848|A||Davies,A.G., and J.A. Sleep|Inhibition of Carbon Fixation as a Function of Zinc Uptake in Natural Phytoplankton Assemblages|J. Mar. Biol. Assoc. U.K.59(4): 937-949|1979|10.1017/S0025315400036936
13849|A||Rudd,J.W.M., M.A. Turner, B.E. Townsend, A. Swick, and A. Furutani|Dynamics of Selenium in Mercury-Contaminated Experimental Freshwater Ecosystems|Can. J. Fish. Aquat. Sci.37(5): 848-857|1980|10.1139/f80-113
13850|A||Carlson,C.A., and M.H.,Jr. Shealy|Marking Larval Largemouth Bass with Radiostrontium|J. Fish. Res. Board Can.29(2): 455-458|1972|10.1139/f72-077
13851|A||Erickson,S.J., and A.E. Freeman|Toxicity Screening of Fifteen Chlorinated and Brominated Compounds Using Four Species of Marine Phytoplankton|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:307-310|1978|
13852|A||Gilderhus,P.A.|Exposure Times Necessary for Antimycin and Rotenone to Eliminate Certain Freshwater Fish|J. Fish. Res. Board Can.29(2): 199-202|1972|10.1139/f72-032
13853|A||Pesch,G.G., and C.E. Pesch|Neanthes arenaceodentata (Polychaeta: Annelida), a Proposed Cytogenetic Model for Marine Genetic Toxicology|Can. J. Fish. Aquat. Sci.37(8): 1225-1228|1980|10.1139/f80-157
13854|A||Paller,M.H., and R.C. Heidinger|Mechanisms of Delayed Ozone Toxicity to Bluegill Lepomis machrochirus Rafinesque|Environ. Pollut. A.22(3): 229-239|1980|10.1016/0143-1471(80)90017-3
13855|A||Hunn,J.B.|Dynamics of MS-222 in the Blood and Brain of Freshwater Fishes During Anesthesia|Invest.Fish Control No.42, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:8 p.|1970|
13856|A||Malis,G.P., and D.C.G. Muir|Fate of Fenitrothion in Shaded and Unshaded Ponds|ACS Symp. Ser.185:277-295|1984|10.1021/bk-1984-0238.ch019
13857|A||El Hissy,F.T., A.M. Khallil, and A.M. Abdel-Raheem|Effect of Some Heavy Metals on the Mycelial Growth of Achlya racemosa and Alatospora acuminata|Zentbl. Mikrobiol.148(8): 535-542|1993|10.1016/S0232-4393(11)80217-9
13858|A||Walker,C.R.|Endothal Derivatives as Aquatic Herbicides in Fishery Habitats|Weeds (Urbana)11:226-232|1963|10.2307/4040590
13859|A||Schoettger,R.A., and G.E. Svendsen|Effects of Antimycin A on Tissue Respiration of Rainbow Trout and Channel Catfish|Investig.Fish Control No.39, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1970|
13860|AT||Oyewo,E.O.|The Acute Toxicity of Three Oil Dispersants|Environ. Pollut. A.41(1): 23-31|1986|10.1016/0143-1471(86)90104-2
13861|A||Sanders,B.M., K.D. Jenkins, W.G. Sunda, and J.D. Costlow|Free Cupric Ion Activity in Seawater:  Effects on Metallothionein and Growth in Crab Larvae|Science222:53-55|1984|10.1126/science.222.4619.53
13862|A||Thorpe,G.J., and J.D. Costlow|The Relation of the Acute (96-h) Uptake and Subcellular Distribution of Cadmium and Zinc to Cadmium Toxicity in Larvae of Rhithropanopeus|ASTM Spec. Tech. Publ.12:82-94|1989|
13863|A||Renberg,L., M. Tarkpea, and E. Linden|The Use of the Bivalve Mytilus edulis as a Test Organism for Bioconcentration Studies|Ecotoxicol. Environ. Saf.9(2): 171-178|1985|10.1016/0147-6513(85)90019-3
13864|A||McCulloch,W.L., and W.J. Rue|Evaluation of Seven-Day Chronic Toxicity Estimation Test Using Cyprinodon variegatus|ASTM Spec. Tech. Publ.12:355-364|1989|
13865|A||Heitmuller,P.T., and J.R. Clark|Bioaccumulation of 1,2,4-Trichlorobenzene from Food and Water Sources by Spot (Leiostomus xanthurus)|ASTM Spec. Tech. Publ.12:261-269|1989|
13866|A||Ward,S.H.|The Requirements for a Balanced Medium in Toxicological Experiments Using Mysidopsis bahia with Special Reference to Calcium Carbonate|ASTM Spec. Tech. Publ.12:402-412|1989|
13867|A||Carr,R.S., and J.M. Neff|Biochemical Indices of Stress in the Sandworm Neanthes virens (Sars).  I.  Responses to Pentachlorophenol|Aquat. Toxicol.1:313-327|1981|10.1016/0166-445X(81)90025-4
13868|A||Abidi,R., and U.S. Srivastava|Effect of Endosulfan on Certain Aspects of Haematology of the Fish Channa punctatus (Bloch.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.58:55-65|1988|
13869|A||Abidi,R.|Endosulfan-Induced Changes in the Total Serum Proteins of Channa punctatus (Bloch.)|Bol. Fisiol. Anim.14:41-48|1990|
13870|A||Kumar,B., and V. Banerjee|Effects of Lethal Toxicity of Sevin (Carbaryl) on the Blood Parameters in Clarias batrachus (L.)|Himalayan J. Environ. Zool.5(1): 13-17|1991|
13871|A||Chai,M., X. Zhou, and Y. Huang|Effect of Zn2+ on the Respiratory Activity of Tilapia sp. with Reference to Detoxication Methods|Shuisheng Shengwu Xuebao (Multiple Languages)17(1): 53-57|1993|
13872|A||Devaraj,P., V.R. Selvarajan, and S. Durairaj|Relationship Between Acetylcholinesterase and Monoamine Oxidase in Brain Regions of Oreochromis mossambicus Exposed to Phosalone|Indian J. Exp. Biol.29(8): 790-792|1991|
13879|A||Muir,D.C.G., D.A. Metner, A.P. Blouw, N.P. Grift, and W.L. Lockhart|Effect of Water Chemistry on the Uptake of Organic Pollutants by Fish in River Water|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:12-26|1980|
13880|A||Kamchen,R., and T.J. Hara|Behavioral Reactions of Whitefish (Coregonus clupeaformis) to Food Extract: An Application to Sublethal Toxicity Bioassay|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:182-191|1980|
13881|A||Rawn,G.P., G.R.B. Webster, and D.C.G. Muir|Bioactivity and Degradation of Permethrin in Artificial Pools|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:140-149|1980|
13882|T||Burrell,R.E., G.W. Stratton, and C.T. Corke|Interactions of Pesticides and Solvents in Microbial Sensitivity Tests|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:123-130|1980|
13883|A||MacDonald,C.R., T.R. Jack, and J.E. Zajic|Metal Ion Toxicity to Daphnia magna:  A Novel Approach to Data Plotting|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:91-107|1980|
13884|A||Wilson,J.B.|The Effects of Temperature on the Acute Toxicity of Lead and Cadmium to Daphnia magna and Three Naturally-Occuring Species of Great Lakes Crustacean|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:73-80|1980|
13885|A||Giles,M.A., H.S. Majewski, W.A. MacDonald, and R.D. Danell|An Evaluation of Cadmium Toxicity to Osmoregulatory Function in Rainbow Trout (Salmo gairdneri)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:71-72|1980|
13887|A||Lockhart,W.L., A.P. Blouw, D.A. Murray, D.A. Metner, and D.C.G. Muir|Uptake of Ethalfluralin and Other Pesticides by Fish|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)975:27-37|1980|
13889|A||Helmy,M.M., A.E. Lemke, P.G. Jacob, and Y.Y. Al-Sultan|Haematological Changes in Kuwait Mullet, Liza macrolepis (Smith), Induced by Heavy Metals|Indian J. Mar. Sci.8(4): 278-281|1979|
13895|A||Schumacher,R.W.|Influence of Several Species of Aquatic Plants on Dichlobenil Residues in Water|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:60 p.|1971|
13896|A||Westerdahl,H.E.|Field Evaluation of Two Endothall Formulations for Managing Hydrilla in Gatun Lake, Panama|Tech.Rep.A-83-3, Army Engineer Waterways Exp.Station, Vicksburg, MS:83 p.|1983|
13897|A||Marking,L.L., and T.D. Bills|Chlorine: Its Toxicity to Fish and Detoxification of Antimycin|Invest.Fish Control No.74, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:5 p.|1977|
13898|A||Luhning,C.W.|Methods for Simultaneous Determination and Identification of MS-222 and Metabolites in Fish Tissues|Invest.Fish Control No.51, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p.|1973|
13899|A||Bhattacharya,S., and N.B. Jash|In Vivo Inhibition and Recovery of Acetyl Cholinesterase in the Brain of the Fresh Water Teleost Channa punctatus (Bloch) During and After Exposure to Carbofuran|Comp. Physiol. Ecol.6(4): 330-332|1981|
13900|A||Ellis,M.M., H.L. Motley, M.D. Ellis, and R.O. Jones|Selenium Poisoning in Fishes|Proc. Soc. Exp. Biol. Med.36:519-522|1937|10.3181/00379727-36-9294
13901|A||Arnason,A.P., A.W.A. Brown, F.J.H. Fredeen, W.W. Hopewell, and J.G. Rempel|Experiments in the Control of Simulium arcticum Mall by Means of DDT in the Saskatchewan River|Sci. Agric. (Piracicaba, Braz. )29:527-537|1949|
13902|A||Pandey,A.K., and D.N. Tiwari|Action of 2,4-Dichlorophenoxyacetic Acid on Nostoc linckia:  Impact of Glucose and Tryptophan|Folia Microbiol. (Prague)31(1): 50-55|1986|10.1007/BF02928679
13903|A||Rosicky,P., J. Kouril, and I. Prikryl|The Effect of the Length of Short-Term Exposure to NaCl on the Tolerance of Early Common Carp and Silver Carp Fry to NaCl Baths|Bull. V. U. R. H. Vodnany (Non-English)23(1): 8-13|1987|
13904|A||Osman,M.E.H., M.E. Younis, and A.I. Soliman|Effect of Carbetamide on Some Growth Parameters, Carbohydrate and Nitrogen Metabolism of Scenedesmus abundans|Beitr. Biol. Pflanz. (Non-English)59(2): 261-272|1983|
13905|A||Babu,K.S., K.S.P. Rao, and K.V.R. Rao|Phenthoate Toxicity in Prawns, Penaeus indicus H. Milne Edwards & Metapenaeus monoceros (Fabricius)|Indian J. Mar. Sci.12(3): 192-193|1983|
13906|A||Herzberg,A., A. Gelman, and A.S. Perry|The Location of Lindane (gamma-Hexachloro-Cyclohexane) in Fish After Deliberate Poisoning|Bamidgeh32(1): 16-19|1980|
13907|A||Timourian,H., and G. Watchmaker|Assay of Sperm Motility to Study the Effects of Metal Ions|In: H.Drucker and R.E.Wildung (Eds.), Biological Implications of Metals in the Environment, Springfield, VA:523-534|1977|
13908|A||Ramaprabhu,T., S.R. Ghose, K.M. Das, and A.N. Mohanti|Some Observations on the Use of Ammonia as a Fish Toxicant|Indian J. Comp. Anim. Physiol.4(1): 39-48|1986|
13909|A||Edwards,M.J., E.A. Drew, J.P. Ford, and R.J. Ward|Ecological Effects in Three Ponds UK. 1976. 2. Residues in Water|ICI Plant Prot.Div.Rep.No.TMJ1474B:15 p.|1977|
13912|A||Lee,K., C. Nalewajko, and T.R. Jack|Effects of Vanadium on Freshwater Algae|Tech. Rep. Fish. Mar. Serv.862:297-310|1979|
13913|A||Dixon,D.G.|Acclimation to Toxicants by Rainbow Trout and Its Potential Use in Predicting Safe Levels|Proc. Annu. Aquat. Toxic. Workshop5:162-166|1979|
13914|A||Malley,D.F., P.S.S. Chang, and C.M. Moore|Change in the Aluminum Content of Tissues of Crayfish Held in the Laboratory and in Experimental Field Enclosures|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1480:54-68|1986|
13916|A||Li,M.F.|Matacil may Enhance Susceptibility of Fish Cells to Viral Infection|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1480:93-97|1986|
13917|A||Ritchie,L.S.|Comprehensive Laboratory Evaluations of the Molluscicide 2',5-Dichloro-4'-Nitro-3-Phenylsalicylanilide (PSA): Time-Concentration Relationships and|Bull. W. H. O.39:312-315|1968|
13919|A||Lay,M.M., A.M. Niland, J.R. DeBaun, J.J. Menn, and C.K. Tseng|Metabolism of the Thiocarbamate Herbicide Molinate (Ordram) in Japanese Carp|ACS Symp. Ser.99:95-119|1979|10.1021/bk-1979-0099.ch006
13920|A||Manna,G.K., and P.K. Mukherjee|Effect of Organophosphate Insecticide 'Malathion' on Chromosome, Cell Division and Total Muscle Proteins of the Cichlid Fish, Tilapia|In: G.K.Manna and U.Sinha (Eds.), Perspectives in Cytology and Genetics, Proc.5th All-India Congress of Cytology and Genetics, AICCG Publ., Kalyani:225-235|1986|
13921|A||Crosby,D.G., P.F. Landrum, and C.C. Fischer|Investigation of Xenobiotic Metabolism in Intact Aquatic Animals|ACS Symp. Ser.99:217-231|1979|10.1021/bk-1979-0099.ch014
13922|A||Guarino,A.M., and S.T. Arnold|Xenobiotic Transport Mechanisms and Pharmacokinetics in the Dogfish Shark|ACS Symp. Ser.99:233-258|1979|10.1021/bk-1979-0099.ch015
13923|A||Krieger,R.I., S.J. Gee, L.O. Lim, J.H. Ross, and A. Wilson|Disposition of Toxic Substances in Mussels (Mytilus califorianus): Preliminary Metabolic and Histologic Studies|ACS Symp. Ser.99:259-277|1979|10.1021/bk-1979-0099.ch016
13924|A||Payne,J.F., and N. May|Further Studies on the Effect of Petroleum Hydrocarbons on Mixed-Function Oxidases in Marine Organisms|ACS Symp. Ser.99:339-347|1979|10.1021/bk-1979-0099.ch020
13926|A||Weber,L.J., W.H. Gingerich, and K.F. Pfeifer|Alterations in Rainbow Trout Liver Function and Body Fluids Following Treatment with Carbon Tetrachloride or Monochlorobenzene|ACS Symp. Ser.99:401-413|1979|10.1021/bk-1979-0099.ch024
13927|AT||Melin,C., and H. Egneus|Effects of di-n-Butyl Phthalate on Growth and Photosynthesis in Algae and on Isolated Organelles from Higher Plants|Physiol. Plant. (Multiple Languages)59:461-466|1983|10.1111/j.1399-3054.1983.tb04230.x
13929|A||Dunham II,E.E., E.W. McArdle, and M.A. Readey|The Effects of Media Concentration on Metal Tolerance in Tetrahymena furgasoni W|Trans. Ill. State Acad. Sci.79(3-4): 225-236|1986|
13930|A||Sayer,M.D.J., J.P. Reader, and R. Morris|The Effect of Calcium Concentration on the Toxicity of Copper, Lead and Zinc to Yolk-Sac Fry of Brown Trout, Salmo trutta L., in Soft, Acid Water|J. Fish Biol.35(3): 323-332|1989|10.1111/j.1095-8649.1989.tb02985.x
13931|A||Johansen,P.H.|Pentachlorophenol:  A Review of Its Effects at the Level of the Individual Juvenile Largemouth Bass|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1575:106-107|1987|
13932|A||Srivastava,O.P.|Appearance of Chloride Cells in the Gills of Two Freshwater Teleosts Under Urea Stress|Curr. Sci. (Bangalore)55(2): 112-113|1986|
13933|A||Roy,U.K., A.K. Gupta, and P. Chakrabarti|Deleterious Effect of Zinc on the Skin of Notopterus notopterus (Pallas)|J. Freshw. Biol.5(2): 191-196|1993|
13934|A||Rankin,M.G., and D.G. Dixon|Acute and Chronic Toxicity of Waterborne Inorganic Trivalent Arsenic to Rainbow Trout (Salmo gairdneri)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1575:30-33|1987|
13935|A||McGeachy,S.M., and D.G. Dixon|The Effects of Temperature on Waterborne Arsenic Toxicity to Rainbow Trout (Salmo gairdneri)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1575:27-29|1987|
13936|A||Munkittrick,K.R., and D.G. Dixon|Assessment of Reproductive Capacity and Larval Development of Feral White Suckers (Catostomus commersoni) Exposed to Chronic Elevations of Copper and Zinc|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1575:44-46|1987|
13937|A||Thurberg,F.P., W.D. Cable, M.A. Dawson, J.R. MacInnes, and D.R. Wenzloff|Respiratory Response of Larval, Juvenile, and Adult Surf Clams, Spisula solidissima, to Silver|In: J.J.Cech,Jr., D.W.Bridges, and D.B.Horton (Eds.), Respiration of Marine Organisms, Trigom Publ., South Portland, ME:41-52|1975|
13938|A||Crawford,R.B., and A.M. Guarino|Sand Dollar Embryos as Monitors of Environmental Pollutants|Bull. Mt. Desert Isl. Biol. Lab.16:17-|1976|
13939|A||Sanborn,J.R., and C.C. Yu|The Fate of Dieldrin in a Model Ecosystem|Bull. Environ. Contam. Toxicol.10(6): 340-346|1973|10.1007/BF01721000
13940|A||Leung,T.S.Y., and R.V. Bulkley|Effects of Petroleum Hydrocarbons on Length of Incubation and Hatching Success in the Japanese Medaka|Bull. Environ. Contam. Toxicol.23(1/2): 236-243|1979|10.1007/BF01769949
13941|A||Linko,R.R., P. Rantamaki, K. Rainio, and K. Urpo|Polychlorinated Biphenyls in Plankton from the Turku Archipelago|Bull. Environ. Contam. Toxicol.23(1-2): 145-152|1979|10.1007/BF01769933
13943|A||Fingerman,S.W.|Differences in the Effects of Fuel Oil, an Oil Dispersant, and Three Polychlorinated Biphenyls on Fin Regeneration in the Gulf Coast Killifish, Fundulus grandis|Bull. Environ. Contam. Toxicol.25(2): 234-240|1980|10.1007/BF01985517
13944|A||Ito,Y.|Studies on the Influence of PCB on Aquatic Organisms-II. Changes in Blood Characteristics and Plasma Enzyme Activities of Carp Administered Orally with PCB|Nippon Suisan Gakkaishi (Multiple Languages)39(11): 1135-1138|1973|10.2331/suisan.39.1135
13945|A||Lam,T.J.|Thyroxine Enhances Larval Development and Survival in Sarotherodon (Tilapia) mossambicus Ruppell|Aquaculture21(3): 287-291|1980|10.1016/0044-8486(80)90138-6
13946|A||Duddridge,J.E., and M. Wainwright|Heavy Metal Accumulation by Aquatic Fungi and Reduction in Viability of Gammarus pulex Fed Cd2+ Contaminated Mycelium|Water Res.14(11): 1605-1611|1980|10.1016/0043-1354(80)90065-2
13947|A||Grosch,D.S.|Alterations to the Reproductive Performance of Artemia Caused by Antifouling Paints, Algaecides, and an Aquatic Herbicide|In: G.Persoone, P.Sorgeloos, O.Roels, and E.Jaspers (Eds.), The Brine Shrimp Artemia, Vol.1: Morphology, Genetics, Radiobiology, and Toxicology. Universa Press, Western Belgium:201-211|1980|
13948|A||Trieff,N.M.|Toxicity of Heavy Metals, Oils and Other Organics on Artemia|In: G.Persoone, P.Sorgeloos, O.Roels, and E.Jaspers (Eds.), The Brine Shrimp Artemia, Volume 1, Universa Press, Belgium:253-262|1980|
13949|A||Kobayashi,K., S. Kimura, and E. Shimizu|Studies on the Metabolism of Chlorophenols in Fish IX. Isolation and Identification of Pentachlorophenyl-beta-Glucuronide Accumulated in Bile of Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)43(5): 601-607|1977|10.2331/suisan.43.601
13950|A||Crandall,C.A., and C.J. Goodnight|Effects of Sublethal Concentrations of Several Toxicants on Growth of the Common Guppy, Lebistes reticulatus|Limnol. Oceanogr.7(2): 233-239|1962|10.4319/lo.1962.7.2.0233
13951|A||Crandall,C.A., and C.J. Goodnight|The Effects of Sublethal Concentrations of Several Toxicants to the Common Guppy, Lebistes reticulatus|Trans. Am. Microsc. Soc.82:59-73|1963|10.2307/3223821
13952|A||Munzinger,A.|The Influence of Nickel on Population Dynamics and on Some Demographic Parameters of Daphnia magna|Hydrobiologia (Multiple Languages)277(2): 107-120|1994|10.1007/BF00016758
13954|A||Miller,T.A., L.L. Nelson, W.W. Young, L.W. Roberts, D.R. Roberts, and R.N. Wilkinson|Polymer Formulations of Mosquito Larvicides. I. Effectiveness of Polyethylene and Polyvinyl Chloride Formulations of Chlorpyrifos Applied to Artificial Field Pools|Mosq. News33(2): 148-155|1973|
13955|A||Ludwig,P.D., and J.C. McNeil IV|Results of Laboratory and Field Tests with Dursban Insecticide for Mosquito Control|Mosq. News26(3): 344-351|1966|
13956|A||Wilton,D.P., L.E.,Jr. Fetzer, and R.W. Fay|Insecticide Baits for Anopheline Larvae|Mosq. News33(2): 198-203|1973|
13957|A||McNeill,J.C.I.V., W.O. Miller, and C.M. Wleczyk|Evaluation of Dursban as a Larvicide in Septic Ditches|Mosq. News28(5): 160-161|1968|
13958|A||Tawfik,M.S., and R.H. Gooding|Dursban and Abate Clay Granules for Larval Mosquito Control in Alberta|Mosq. News30(3): 461-464|1970|
13959|A||Hoy,J.B., E.E. Kauffman, and A.G. O'Berg|A Large-Scale Field Test of Gambusia affinis and Chlorpyrifos for Mosquito Control|Mosq. News32:161-171|1972|
13960|A||Reddy,S.J., B.V. Reddy, and R. Ramamurthi|Effect of Phosalone Toxicity on Mineral Metabolism and Recovery in Crab|J. Ecotoxicol. Environ. Monit.5(2): 81-88|1995|
13961|A||Pettersson,A., L. Hallbom, and B. Bergman|Physiological and Structural Responses of the Cyanobacterium Anabaena cylindrica to Aluminum|Physiol. Plant. (Multiple Languages)63(2): 153-158|1985|10.1111/j.1399-3054.1985.tb01895.x
13962|A||Brooks,G.D., H.F. Schoof, and E.A. Smith|Evaluation of Five Formulations of Abate Against Aedes aegypti, Savannah, Georgia, 1965|Mosq. News26(4): 580-582|1966|
13966|A||Van,T.K., K.K. Steward, A.O. Jones, and R.D.,Jr. Conant|U.S. Department of Agriculture/Corps of Engineers Cooperative Aquatic Plant Control Research - Annual Report for FY 1983|Misc.Pap.A-85-3, Army Engineer Waterways Exp.Station, Vicksburg, MS:70 p.|1985|
13968|A||Ozelsel,S.|The Acute Toxicity of Three Dispersants|Rev. Int. Oceanogr. Med. (Multiple Languages)70/71:3-14|1983|
13970|A||Papathanassiou,E.|Effects of Cadmium and Mercury Ions on Respiration and Survival of the Common Prawn Palaemon serratus (Pennant)|Rev. Int. Oceanogr. Med. (Multiple Languages)72:21-35|1983|
13971|A||Radhaiah,V., and K.J. Rao|Fenvalerate Toxicity to the Liver in a Freshwater Teleost, Tilapia mossambica (Peters)|Comp. Physiol. Ecol.17(2): 48-53|1992|
13973|A||Rath,S., and B.N. Misra|Changes in Nucleic Acids and Protein Content of Tilapia mossambica Exposed to Dichlorvos (DDVP)|Indian J. Fish.27(1/2): 76-81|1980|
13974|A||Rao,K.R.S.S., K.S. Babu, and K.V.R. Rao|Toxicity of Elsan to the Indian Snakehead Channa punctatus|Indian J. Fish.32(2): 153-158|1985|
13975|A||Goel,K.A., S.K. Tyagi, and A.K. Awasthi|Enzymological Probes in Liver, Kidney and Muscles of Heteropneustes fossilis Under Phenylene Brown Chemicoazo Stress|Indian J. Fish.32(4): 488-491|1985|
13976|A||Mathur,R., and D.M. Saxena|Inhibition of Macromolecule Syntheses in a Ciliate Protozoan, Tetrahymena pyriformis by Hexachlorocyclohexane (HCH) Isomers|Acta Protozool.25(4): 397-410|1986|
13977|A||Czerpak,R.|The Effect of CCC and Diethylamine Hydrochloride on Certain Species of Algae Belonging to Cyanophyceae, Chlorophyceae, and Diatomeae|Acta Hydrobiol.12(2-3): 143-151|1970|
13978|A||Gutierrez,M., and R. Establier|Accumulation of Inorganic and Organic Mercury from Sea-Water by Dorada (Sparus-aurata), and Histo-Pathological Effect|Invest. Pesq.43(2): 533-543|1979|
13979|A||O'Connor,J.M., and J.C. Pizza|Dynamics of Polychlorinated Biphenyls in Striped Bass from the Hudson River.  III.  Tissue Disposition and Routes for Elimination|Estuaries10(1): 68-77|1987|10.2307/1352027
13982|A||Patel,K.R., and A.B. Saxena|Effect of Potassium Chromate on Fresh Water Fishes, Puntius ticto and Channa striatus|Indian J. Zool.11(2): 43-50|1983|
13983|A||Sharma,R.K., A. Qureshi, and N.A. Qureshi|Toxic Effect of Lead on Kidney of a Fresh Water Catfish, Clarias batrachus (Linn.)|Indian J. Zool.13(2): 47-50|1985|
13984|A||Jeberg,M.V., and F.B. Jensen|Extracellular and Intracellular Ionic Changes in Crayfish Astacus astacus Exposed to Nitrite at Two Acclimation Temperatures|Aquat. Toxicol.29(1-2): 65-72|1994|10.1016/0166-445X(94)90048-5
13985|A||Necas,J., K. Tetik, and J. Sulek|Mutation Process Induced by MNNG in Different Phases of the Cell Cycle in Chlamydomonas geitleri|Arch. Hydrobiol.73(1): 129-145|1986|
13986|A||Holden,A.V., and K. Marsden|Cyanide in Salmon and Brown Trout|Dep.of Agric.Fish Scotland, Freshwater Salmon Fish.Res.Ser.33:12 p.|1964|
13987|A||Roushdy,M.Z., M.S. El Gindy, N. Ayad, and A.H. Mousa|Effect of Sub-lethal Doses of Molluscicides on the Susceptibility of Bulinus-truncatus Snails to Infection with Schistosoma-haematobium|Egypt. J. Bilharz.1(1): 85-90|1974|
13994|A||Chatterjee,S., and S. Bhattacharya|Detoxication of Industrial Pollutants by the Glutathione Glutathione-S-Transferase System in the Liver of Anabas testudineus (Bloch)|Toxicol. Lett.22:187-198|1984|10.1016/0378-4274(84)90065-1
14000|A||Purchio,A., and R. Campos|Molluscicidal Activity of Aflatoxin|Rev. Inst. Med. Trop. Sao Paulo12(4): 236-238|1970|
14002|A||Ireland,M.P.|Radioactive Zinc Uptake in Littorina irrorata|J. Molluscan Stud.49(1): 79-80|1983|10.1093/oxfordjournals.mollus.a065688
14004|A||Dean,J.M.|The Accumulation of 65Zn and Other Radionuclides by Tubificid Worms|Hydrobiologia (Multiple Languages)45(1): 33-38|1974|10.1007/BF00006444
14005|A||Jimenez,B.D., L.S. Burtis, G.H. Ezell, B.Z. Egan, N.E. Lee, J.J. Beauchamp, and J.F. McCarthy|The Mixed Function Oxidase System of Bluegill Sunfish, Lepomis macrochirus: Correlation of Activities in Experimental and Wild Fish|Environ. Toxicol. Chem.7:626-634|1988|10.1002/etc.5620070804
14006|A||Boney,A.D., and E.D.S. Corner|Application of Toxic Agents in the Study of the Ecological Resistance of Intertidal Red Algae|J. Mar. Biol. Assoc. U.K.38:267-275|1959|10.1017/S002531540000607X
14007|A||Hansen,D.J., and M.E. Tagatz|A Laboratory Test for Assessing Impacts of Substances on Developing Communities of Benthic Estuarine Organisms|ASTM Spec. Tech. Publ.:40-57|1980|
14008|A||Khan,A.T., and J.S. Weis|Differential Effects of Organic and Inorganic Mercury on the Micropyle of the Eggs of Fundulus heteroclitus|Environ. Biol. Fishes37(3): 323-327|1993|10.1007/BF00004640
14012|A||Sornaraj,R., S. Thanalashmi, and P. Baskaran|Influence of Heavy Metals on Biochemical Responses of the Freshwater Air-Breathing Fish Channa punctatus (Bloch)|J. Ecotoxicol. Environ. Monit.5(1): 19-27|1995|
14013|A||Xu,J., and T. Jing|Effects of Temperature, Salinity, Copper and Ammonia on Prawn (Penaeus orientalis kishinouye) Postlarvae and Clams (Potamocorbula laevis)|In: M.Munawar (Ed.), Ecovision World Monogr.Ser., Aquatic Ecosystems of China: Environmental and Toxicological Assessment, SPB Acad.Publ., The Hague, Netherlands:89-94|1995|
14014|AT||DeBusk,T.A., R.B.J. Laughlin, and L.N. Schwartz|Retention and Compartmentalization of Lead and Cadmium in Wetland Microcosms|Water Res.30(11): 2707-2716|1996|10.1016/S0043-1354(96)00184-4
14015|A||Barrett,P.R.F.|A Comparison of Two Formulations of Diquat for Weed Control in Rivers|In: Proceedings of the Conference on Aquatic Weeds and Their Control, Oxford, England:183-188|1981|
14017|A||Centeno,M.D.F., G. Persoone, and M.P. Goyvaerts|Cyst-Based Toxicity Tests.  IX.  The Potential of Thamnocephalus platyurus as Test Species in Comparison with Streptocephalus proboscideus (Crustacea:  Branchiopoda:  Anostraca)|Environ. Toxicol. Water Qual.10(4): 275-282|1995|10.1002/tox.2530100407
14018|A||Spencer-Jones,D.H., and C.W. Raven|Preliminary Studies with PH40:62 - An Experimental Algicide|In: Proceedings of the Conference on Aquatic Weeds and Their Control, Oxford, England:177-182|1981|
14019|A||Roesijadi,G., K.M. Hansen, and M.E. Unger|Concentration-Response Relationships for Cd, Cu, and Zn and Metallothionein mRNA Induction in Larvae of Crassostrea virginica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 267-270|1997|
14020|A||Maki,A.W.|Modifications of Continuous-Flow Toxicity Test Methods for Small Aquatic Organisms|Prog. Fish-Cult.39(4): 172-174|1977|10.1577/1548-8659(1977)39[172:MOCTTM]2.0.CO;2
14021|A||Terry,P.J., T.O. Robson, and S. Hanley|Localized Control of Aquatic Weeds with Dichlobenil|In: Proceedings of the Conference on Aquatic Weeds and Their Control, Oxford, England:165-176|1981|
14022|A||Kumar,Y., and G. Byrtus|Monitoring of Methoxychlor Residues in the Athabasca River System in Northern Alberta After Treatment for Control of Black Fly Larval Populations|Environ. Monit. Assess.28(1): 15-32|1993|10.1007/BF00547209
14023|A||Kuiper,J.|Fate and Effects of Cadmium in Marine Plankton Communities in Experimental Enclosures|Mar. Ecol. Prog. Ser.6(2): 161-174|1981|10.3354/meps006161
14024|A||Pareschi,M.C., M.E. Ferretti, C. Zeni, A.S. Caliguri, B. Vignocchi, and C. Biondi|Effect of Exposure to Linear Alkylbenzene Sulphonate on cAMP Levels in Ictalurus sp. Olfactory and Gustatory Tissues|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(1): 11-16|1997|10.1016/S0300-9629(96)00102-8
14026|A||Bleeker,E.A.J., H.G. Van der Geest, M.H.S. Kraak, P. De Voogt, and W. Admiraal|Comparative Ecotoxicity of NPAHs to Larvae of the Midge Chironomus riparius|Aquat. Toxicol.41(1/2): 51-62|1998|10.1016/S0166-445X(97)00070-2
14027|A||Propst,T.L., D.J. Fort, and E.L. Stover|Evaluation of the Developmental Toxicity of Benzo(a)pyrene and 2-Acetylaminofluorene Using Xenopus: Modes of Biotransformation|Drug Chem. Toxicol.20(1-2): 45-61|1997|10.3109/01480549709011078
14028|A||Schuldt,R.J., and D.A. Johnson|Treatment Approaches for Protecting Hexagenia During Chemical Control of Sea Lampreys|Proc. Conf. Gt. Lakes Res.:|1987|
14029|A||Noguchi,G.E.|Effects of PCB Exposure on Lipid Metabolism in Larval Rainbow Trout|Proc. Conf. Gt. Lakes Res.:|1987|
14030|A||Kureishy,T.W., and C. D'Silva|Uptake and Loss of Mercury, Cadmium and Lead in Marine Organisms|Indian J. Exp. Biol.31(4): 373-379|1993|
14031|A||Landis,W.G., N.A. Chester, M.V. Haley, D.W. Johnson, and R.M. Tauber|Evaluation of Graphite for Environmental Toxicity Using the Standard Aquatic Microcosm|Rep.No.CRDEC-TR-88133, Chemical Res.Dev.& Eng.Center, U.S.Army Armament Munitions Chem.Command, Aberdeen Proving Ground, MD:22-|1988|
14032|AT||Akesson,N.B., K.G. Whitesell, D.J. Womeldorf, P.A. Gilllies, and W.E. Yates|Rice Field Mosquito Control Studies with Low Volume Dursban Sprays in Colusa County, California II.  Operational Procedures and Deposition Measurement|Mosq. News32(3): 368-375|1972|
14033|A||Van der Weij,H.G., B.J. Hoogers, and E. Blok|Mercaptotriazines Compared with Diuron for Aquatic Weed Control in Stagnant Waters|Int. Symp. Aquat. Weeds:149-160|1971|
14034|A||Carter,F.L.|'In Vivo' Studies of Brain Acetylcholinesterase Inhibition by Organophosphate and Carbamate Insecticides in Fish|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:202 p.|1971|
14035|A||Wobeser,G.A.|Aquatic Mercury Pollution: Studies of Its Occurrence and Pathologic Effects on Fish and Mink|Ph.D.Thesis, Univ.of Saskatchewan, Saskatoon, Saskatchewan, Canada:250 p.|1973|
14036|A||Sills,J.B., and P.D. Harman|Efficacy and Residues of Quinaldine Sulfate, an Anesthetic for Striped Bass (Roccus saxatilis)|Proc. Southeast. Assoc. Game Fish Comm.26:546-549|1973|
14037|A||Cox,D.T., and D.L. Bunting|Effects of Sub-Lethal Concentrations of Phenol on Events in the Pre-Reproductive Period of the Cladoceran, Daphnia magna|Proc. Southeast. Assoc. Game Fish Comm.26:464-472|1972|
14038|A||Strufe,R., B.C. Dazo, and I.K. Dawood|Field and Laboratory Trials with Bayluscide in the Bilharziasis Control Pilot Project Egypt 49|Pflanzenschutz-Nachr.18:110-122|1965|
14039|A||Rao,K.R.S.S., and J.C. Rao|Independent and Combined Action of Carbaryl and Phenthoate on Snake Head, Channa punctatus (Bloch)|Curr. Sci. (Bangalore)56(7): 331-332|1987|
14040|A||Hannan,P.J., and C. Patouillet|Toxicity of Metals to Chlorella - a Surface Phenomenon|Dev. Ind. Microbiol.8:313-320|1967|
14041|A||Rao,K.S., and R. Nagabhushanam|Changes in the Biochemical Constituents of the Marine Edible Crab, Scylla serrata After Exposure to Dimecron|Uttar Pradesh J. Zool.7(1): 20-25|1987|
14042|A||Mercier,A., E. Pelletier, and J.F. Hamel|Metabolism and Subtle Toxic Effects of Butyltin Compounds in Starfish|Aquat. Toxicol.28(3-4): 259-273|1994|10.1016/0166-445X(94)90037-X
14043|A||Kraak,M.H.S., Y.A. Wink, S.C. Stuijfzand, M.C. Buckert-De Jong, C.J. De Groot, and W. Admiraal|Chronic Ecotoxicity of Zn and Pb to the Zebra Mussel Dreissena polymorpha|Aquat. Toxicol.30(1): 77-89|1994|10.1016/0166-445X(94)90007-8
14044|A||Rao,V.V.S.N., and R. Lal|Uptake and Metabolism of Insecticides by Blue-Green Algae Anabaena and Aulosira fertilissima|Microbios Lett.36:143-144|1987|
14045|A||Muniandy,S.|Impact of Metacid and Cythion on Food Utilization, Growth and Conversion Efficiency of a Fish Macropodus cupanus|Environ. Ecol.5(4): 766-768|1987|
14046|A||Reddy,M.S., and K.V.R. Rao|Subacute Physiological Stress Induced by Phosphamidon on Carbohydrate Metabolism in Midgut Gland of Penaeid Prawn Penaeus indicus|Environ. Ecol.5(1): 25-28|1987|
14047|A||Rao,K.S., R. Nagabhushanam, and R. Sarojini|Acute Toxicity of Some Pesticides to the Marine Crab Scylla serrata|Environ. Ecol.5(1): 181-182|1987|
14048|A||Manna,A.K., and J.J. Ghosh|Anaerobic Toxicity of Sublethal Concentration of Carbaryl Pesticide Sevin to Guppy Lebistes reticulatus|Environ. Ecol.5(3): 447-450|1987|
14049|A||Rao,K.S., R. Nagabhushanam, and R. Sarojini|Effect of Dimecron on the Oxygen Consumption of the Marine Edible Crab Scylla serrata|Environ. Ecol.5(3): 416-418|1987|
14050|A||Hueck,H.J., and D.M.M. Adema|Toxicological Investigations in an Artificial Ecosystem.  A Progress Report on Copper Toxicity Towards Algae and Daphniae|Helgol. Wiss. Meeresunters.17:188-199|1968|10.1007/BF01611222
14052|A||Marking,L.L., and J.W. Hogan|Toxicity of Bayer 73 to Fish|Invest.Fish Control No.19, Res.Publ.No.36, USDI Fish Wildl.Serv., Bur.Sport Fish.Wildl., Washington, DC:3-13|1967|
14053|A||Pratt,J.R., B.R. Niederlehner, N. Bowers, and J.,Jr. Cairns|Prediction of Permissible Concentrations of Copper from Microcosm Toxicity Tests|Toxic. Assess.2(4): 417-436|1987|10.1002/tox.2540020404
14054|A||Schaefer,C.H., T. Miura, E.F.,Jr. Dupras, R.J. Stewart, W.H. Wilder, and L. Jurd|Biological Activity of J-2931 Against Mosquitoes (Diptera: Culicidae) and Selected Nontarget Organisms and Assessments of Potential Environmental|J. Econ. Entomol.77(3): 425-429|1984|10.1093/jee/77.2.425
14055|A||Butler,P.A.|Pesticides in the Marine Environment|J. Appl. Ecol.3:253-259|1966|10.2307/2401464
14056|T||Chinnaswamy,R., and R.J. Patel|Detoxication of Herbicides by Blue-Green Algae|Indian J. Ecol.13(1): 5-9|1986|
14057|A||Pitchford,R.J., A.H. Meyling, J.J. Brummer, J.F. Du Toit, and S.V. Vorster|An Assessment of Copper Sulphate as a Molluscicide in the Eastern Transvaal Lowveld|Cent. Afr. J. Med.6(3): 97-108|1960|
14058|A||Yager,C.M., and H.W. Harry|The Uptake of Radioactive Zinc, Cadmium and Copper by the Freshwater Snail, Taphius glabratus|Malacologia1(3): 339-353|1964|
14059|A||Burton,D.T., S.D. Turley, and G.T. Peters|The Toxicity of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) to the Freshwater Green Algae Selenastrum capricornutum|Water Air Soil Pollut.76(3-4): 449-457|1994|10.1007/BF00482717
14060|A||Gadhia,M.|Histopathological Lesions Induced by Rogor in the Liver of a Siluroid|J. Inl. Fish. Soc. India21(1): 55-57|1989|
14061|A||Jaiswal,K., D. Naidu, B.D. Deshmukh, and R. Sarojini|Exposure to Organophosphorus Insecticide (Ekalux EC 25) Alters Oxygen Consumption in the Freshwater Crab, Barytelphusa cunicularis|Uttar Pradesh J. Zool.10(1): 108-110|1990|
14062|A||Riva,M.C., M. Vilaseca, and M. Crespi|Biodegradability, Toxicity, and Accumulation of Omegachrome Blue B Dye in the Rainbow Trout Salmo gairdneri|Bol. Intextar Inst. Text. Coop. Ind.93:55-70|1988|
14063|A||Preston,B.L., G. Cecchine, and T.W. Snell|Effects of Pentachlorophenol on Predator Avoidance Behavior of the Rotifer Brachionus calyciflorus|Aquat. Toxicol.44(3): 201-212|1999|10.1016/S0166-445X(98)00074-5
14064|A||Fisher,S.W., H. Dabrowska, D.L. Waller, L. Babcock-Jackson, and X. Zhang|Sensitivity of Zebra Mussel (Dreissena polymorpha) Life Stages to Candidate Molluscicides|J. Shellfish Res.13(2): 373-377|1994|
14065|A||Verma,S.R., S. Rani, and R.C. Dalela|Effects of Phenolic Compounds on In Vivo Blood Parameters of a Fish Notopterus notopterus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(3): 273-282|1981|
14066|A||O'Halloran,S.L., K. Liber, K.L. Schmude, and T.D. Corry|Effects of Diflubenzuron on Benthic Macroinvertebrates in Littoral Enclosures|Arch. Environ. Contam. Toxicol.30(4): 444-451|1996|10.1007/BF00213394
14067|A||Ozelsel,S.|The Effects of PHC and Dispersant Combinations on Palaemon elegans Rathke Found in the Bay of Izmir|Rapp. P. V. Reun. Comm. Int. Explor. Sci. Mer Mediterr.28(3): 279-280|1983|
14068|T||Corradi,M.G., A. Bianchi, and A. Albasini|Chromium Toxicity in Salvia sclarea -I. Effects of Hexavalent Chromium on Seed Germination and Seedling Development|Environ. Exp. Bot.33(3): 405-413|1993|10.1016/0098-8472(93)90043-F
14069|A||Eriksson,S.P., and J.M. Weeks|Effects of Copper and Hypoxia on Two Populations of the Benthic Amphipod Corophium volutator (Pallas)|Aquat. Toxicol.29(1-2): 73-81|1994|10.1016/0166-445X(94)90049-3
14070|A||Park,E.H., H.H. Chang, W.N. Joo, H.S. Chung, and H.S. Kwak|Assessment of the Estuarine Hermaphroditic Fish Rivulus marmoratus as a Useful Euryhaline Species for Acute Toxicity Tests as Shown Using Cadmium|Can. J. Fish. Aquat. Sci.5(2): 280-285|1994|10.1139/f94-029
14071|A||Twitchen,I.D., and F.B. Eddy|Effects of Ammonia on Sodium Balance in Juvenile Rainbow Trout Oncorhynchus mykiss Walbaum|Aquat. Toxicol.30(1): 27-45|1994|10.1016/0166-445X(94)90004-3
14072|A||De Filippis,L.F.|The Effect of Sub-Lethal Concentrations of Mercury and Zinc on Chlorella. V. The Counteraction of Metal Toxicity by Selenium and Sulphhydryl Compounds|Z. Pflanzenphysiol. (Multiple Languages)93:63-68|1979|10.1016/S0044-328X(79)80142-7
14073|A||Alcutt,F., and J.T. Pinto|Glutathione Concentrations in the Hard Clam, Mercenaria mercenaria, Following Laboratory Exposure to Lead (a Potential Model System for Evaluating|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 347-352|1994|
14074|A||Jacob,P.G., M.A. Zarba, and A.A. Salem|Results of Toxicity Tests with Marine Organisms of Kuwaiti Coast|Indian J. Fish.27(1/2): 111-122|1980|
14075|A||Rathore,H.S., N. Kapil, and R.C. Sexena|Pilot Study on the Effects of Acid on the Respiratory Behaviour of Cadmium Chloride Treated Fish, Heteropneustes fossilis|Indian J. Zool.11(2): 57-59|1983|
14076|A||Mittal,P.K., and V.K. Kohli|The Effect of Diflubenzuron on the Egg Laying and Vitellogenesis in Female Culex pipiens quinquefasciatus|Res. Bull. Panjab Univ. Sci.39:93-100|1988|
14077|A||Rankin,M.G., and D.G. Dixon|Acute and Chronic Toxicity of Waterborne Arsenite to Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.51(2): 372-380|1994|10.1139/f94-038
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14079|A||Schmager,M.|The Effect of Chlorine on Heterogeneous Cultures of Algae (Wplyw Chloru na Wielogatunkowe Kultury Glonow)|Acta Hydrobiol.21(1): 61-72|1979|
14080|A||Halden,A.V.|A Study of the Absorption of 14C-Labelled DDT from Water by Fish|Ann. Appl. Biol.50:467-477|1962|10.1111/j.1744-7348.1962.tb06042.x
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14085|A||Gilderhus,P.A.|Efficacy of Antimycin for Control of Larval Sea Lampreys (Petromyzon marinus) in Lentic Habitats|Tech. Rep. Great Lakes Fish. Comm.34:6-16|1979|
14086|A||Havas,M., and T.C. Hutchinson|Aquatic Invertebrates from the Smoking Hills, N.W.T.:  Effect of pH and Metals on Mortality|Can. J. Fish. Aquat. Sci.39:890-903|1982|10.1139/f82-120
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14090|A||Staurnes,M., T. Sigholt, and O.B. Reite|Reduced Carbonic Anhydrase and Na-K-ATPase Activity in Gills of Salmonids Exposed to Aluminium-Containing Acid Water|Experientia40:226-227|1984|10.1007/BF01963613
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14119|A||Neil,J.H.|Some Effects of Potassium Cyanide on Speckled Trout (Salvelinus fontinalis)|In: Proc. 4th Ontario Ind. Waste Conf. , Ontario Water Resour. Comm. , Toronto, Canada:74-96|1957|
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14177|A||Biagianti-Risbourg,S., and J. Bastide|Hepatic Perturbations Induced by a Herbicide (Atrazine) in Juvenile Grey Mullet Liza ramada (Mugilidae, Teleostei):  An Ultrastructural Study|Aquat. Toxicol.31:217-229|1995|10.1016/0166-445X(94)00065-X
14178|A||Parka,S.J., and H.M. Worth|The Effects of Trifluralin to Fish|Proc. 18th Annu. Meeting Southern Weed Conf.18:469-473|1965|
14179|A||Holdway,D.A., M.J. Barry, D.C. Logan, D. Robertson, V. Young, and J.T. Ahokas|Toxicity of Pulse-Exposed Fenvalerate and Esfenvalerate to Larval Australian Crimson-Spotted Rainbow Fish (Melanotaenia fluviatilis)|Aquat. Toxicol.28:169-187|1994|10.1016/0166-445X(94)90032-9
14180|A||Huil Gol,N.V., and V.B. Marathe|Effect of Mercury on the Oxygen Consumption of Indoplanorbis exustus (Deshayes)|Comp. Physiol. Ecol.4(4): 177-178|1986|
14181|A||Pal,R., and P. Chatterjee|Algicidal Action of Diurone in the Control of Chara-A Rice Pest|Proc. Indian Acad. Sci. Plant Sci.97(4): 359-363|1987|10.1007/BF03053391
14182|A||Howe,G., and S. Merchant|Heavy Metal-Activated Synthesis of Peptides in Chlamydomonas reinhardtii|Plant Physiol.98(1): 127-136|1992|10.1104/pp.98.1.127
14183|A||Baudin,J.P., J. Garnier-Laplace, and A. Lambrechts|Uptake from Water, Depuration and Tissue Distribution of 110mAg in a Freshwater Fish, Cyprinus carpio L|Water Air Soil Pollut.72(1-4): 129-141|1994|10.1007/BF01257120
14184|A||Fredeen,F.J.H., A.P. Arnason, and B. Berck|Adsorption of DDT on Suspended Solids in River Water and Its Role in Black-Fly Control|Nature171:700|1953|10.1038/171700b0
14185|A||Fredeen,F.J.H.|DDT and Heptachlor as Black-Fly Larvicides in Clear and Turbid Water|Can. Entomol.94(8): 875-880|1962|10.4039/Ent94875-8
14186|A||Fredeen,F.J.H., A.P. Arnason, B. Berck, and J.G. Rempel|Further Experiments with DDT in the Control of Simulium arcticum Mall. in the North and South Saskatchewan Rivers|Can. J. Agric. Sci.33:379-393|1953|
14187|A||Soeder,C.J., H.D. Payer, K.H. Runkel, J. Beine, and E. Briele|Sorption and Concentration of Toxic Minerals by Mass Cultures of Chlorococcales|Verh. Int. Ver. Theor. Angew. Limnol.21:575-584|1978|
14188|A||Kabra,R.A., and K.M. Kulkarni|Cythion Toxicity Effects on Food Consumption and Growth in the Fish, Channa orientalis (Sch.)|Adv. Biosci.10(2): 61-68|1991|
14189|A||Rao,P.S.B.|Lindane Induced Respiratory Changes in Juveniles of an Estuarine Fish Therapon jarbua|Mahasagar18(3): 413-416|1985|
14190|A||Schweiger,G., B. Golle, S. Loos, and J. Rygol|Effects of HgCl2 and Pentachlorophenol on Passive and Active Membrane Properties in Tissue Discs and Intact Duckweeds (Lemna gibba)|In: W.J.Cram, K.Janacek, R.Rybova, and R.Sigler (Eds.), Symposium on Membrane Transport in Plants, Prague, Czechoslovakia:427-428|1984|
14192|A||Jensen,A.|Marine Ecotoxicological Tests with Seaweeds|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:181-183|1984|
14195|A||Muley,D.V., S.R. Akarte, D.A. Kulkarni, and K.R. Rao|Acute Toxicity of Metasystox to Wedge Clam, Donax cuneatus from West Coast|Fish. Technol.24(1): 27-30|1987|
14196|A||Whitney,E.W., A.B. Montgomery, E.C. Martin, and E.O. Gangstad|The Effects of a 2,4-D Application on the Biota and Water Quality in Currituck Sound, North Carolina|Hyacinth Control J.11:13-17|1973|
14197|A||Cruz,M.C.|Bioconcentration of Zinc and Its Toxic Effects on Astyanax bimaculatus (Piscis, Characidae)|Acta Cient. Venez.38(1): 94-98|1987|
14198|A||Joshi,S.N., and V.P. Semwal|Toxicity of Zinc Sulphate and Copper Sulphate to a Hill-Stream Cobitid Fish Noemacheilus rupicola|Indian J. Ecol.17(2): 148-150|1990|
14199|A||Ram,R.N., and A.G. Sathyanesan|Changes in the Brain Acetylcholine (ACh), Acetylcholinesterase (AChE) gamma-Amino Butyric Acid (GABA) Levels in the Teleostean Fish Channa punctata (Bloch) Exposed to Mercuric Chloride (HgCl2) and Cythion|Biol. Bull. India7(1): 57-62|1985|
14200|A||Bates,S.S., M. Letourneau, A. Tessier, and P.G.C. Campbell|Variation in Zinc Adsorption and Transport During Growth of Chlamydomonas variabilis (Chlorophyceae) in Batch Culture with Daily Addition of Zinc|Can. J. Fish. Aquat. Sci.40:895-904|1983|10.1139/f83-116
14206|A||Wang,W.X., and J. Widdows|Interactive Effects of Pentachlorophenol (PCP) and Hypoxia on the Energy Metabolism of the Mussel, Mytilus edulis|Mar. Environ. Res.35:109-113|1993|10.1016/0141-1136(93)90022-R
14207|A||Hoke,R.A., P.A. Kosian, G.T. Ankley, A.M. Cotter, F.M. Vandermeiden, G.L. Phipps, and E.J. Durhan|Check Studies with Hyalella azteca and Chironomus tentans in Support of the Development of Sediment Quality Criterion for Dieldrin|Environ. Toxicol. Chem.14(3): 435-443|1995|10.1002/etc.5620140313
14208|A||Rouleau,C., H. Tjalve, J. Gottofrey, and E. Pelletier|Uptake, Distribution and Elimination of 54Mn(II) in the Brown Trout (Salmo trutta)|Environ. Toxicol. Chem.14(3): 483-490|1995|10.1002/etc.5620140318
14209|A||Baturo,W., L. Lagadic, and T. Caquet|Growth, Fecundity and Glycogen Utilization in Lymnaea palustris Exposed to Atrazine and Hexachlorobenzene in Freshwater Mesocosms|Environ. Toxicol. Chem.14(3): 503-511|1995|10.1002/etc.5620140320
14210|A||Sharma,A., and M.S. Sharma|Acute Toxicity of Zinc to Certain Developmental Stages of Cirrhinus mrigala (Hamilton)|J. Environ. Biol.16(2): 157-162|1995|
14211|A||Bruner,K.A., S.W. Fisher, and P.F. Landrum|The Role of the Zebra Mussel, Dreissena polymorpha, in Contaminant Cycling: I. The Effect of Body Size and Lipid Content on the Bioconcentration of|J. Great Lakes Res.20(4): 725-734|1994|10.1016/S0380-1330(94)71190-4
14212|A||Snell,T.W., and M.J. Carmona|Comparative Toxicant Sensitivity of Sexual and Asexual Reproduction in the Rotifer Brachionus calyciflorus|Environ. Toxicol. Chem.14(3): 415-420|1995|10.1002/etc.5620140310
14213|A||Chetty,A.N., and K. Indira|Free Radical Toxicity in a Freshwater Bivalve, Lamellidens marginalis Under Ambient Ammonia Stress|J. Environ. Biol.16(2): 137-142|1995|
14214|AT||Gupta,M., and S. Devi|Uptake and Toxicity of Cadmium in Aquatic Ferns|J. Environ. Biol.16(2): 131-136|1995|
14215|A||Jain,R., and K.D. Mishra|Acute LC50 of 2,4-Dichloro-phenoxyacetic Acid to Fish, Rasbora daniconius: Comparative Evaluation by Static Bioassay and Residual Oxygen Bioassay Tests|J. Environ. Biol.16(2): 105-111|1995|
14216|A||Gallagher,K., P.A. Van Veld, R.C. Hale, and J.J. Stegeman|Induction of Cytochrome P4501A in the Mummichog (Fundulus heteroclitus) by the Polychlorinated Terphenyl Formulation Aroclor 5432|Environ. Toxicol. Chem.14(3): 405-409|1995|10.1002/etc.5620140308
14217|A||Medda,C., B. Bhattacharyya, S.K. Sarkar, S. Ganguly, and T.K. Basu|Effect of Rotenone on Activity of Some Enzymes and Their Recovery in Freshwater Carp Fingerlings of Labeo rohita|J. Environ. Biol.16(1): 55-60|1995|
14218|A||Gupta,A.K., and V.K. Rajbanshi|Mercury Poisoning: Architectural Changes in the Gill of Rasbora daniconius (Hamilton)|J. Environ. Biol.16(1): 33-36|1995|
14219|A||Penttinen,S., J. Kukkonen, and A. Oikari|The Kinetics of Cadmium in Daphnia magna as Affected by Humic Substances and Water Hardness|Ecotoxicol. Environ. Saf.30:72-76|1995|10.1006/eesa.1995.1008
14220|A||Schmitz,A., and R. Nagel|Influence of 3,4-Dichloroaniline (3,4-DCA) on Benthic Invertebrates in Indoor Experimental Streams|Ecotoxicol. Environ. Saf.30:63-71|1995|10.1006/eesa.1995.1007
14221|A||Bhatnagar,M.C., M. Tyagi, and S. Tamata|Pyrethroid Induced Toxicity to Phosphatases in Clarias batrachus (Linn.)|J. Environ. Biol.16(1): 11-14|1995|
14222|A||James,R., K. Sampath, V. Sivakumar, S. Babu, and P. Shanmuganandam|Toxic Effects of Copper and Mercury on Food Intake, Growth and Proximate Chemical Composition in Heteropneustes fossilis|J. Environ. Biol.16(1): 1-6|1995|
14223|A||Moffat,B.D., and T.W. Snell|Rapid Toxicity Assessment Using an In Vivo Enzyme Test for Brachionus plicatilis (Rotifera)|Ecotoxicol. Environ. Saf.30:47-53|1995|10.1006/eesa.1995.1005
14224|A||Ward,S., A.H. Arthington, and B.J. Pusey|The Effects of a Chronic Application of Chlorpyrifos on the Macroinvertebrate Fauna in an Outdoor Artificial Stream System: Species Responses|Ecotoxicol. Environ. Saf.30:2-23|1995|10.1006/eesa.1995.1002
14226|A||Kaila,K., and J. Saarikoski|Inhibition of Voltage-Dependent Potassium Conductance by Convulsant Phenols in the Medial Giant Axon of the Crayfish|Comp. Biochem. Physiol. C Comp. Pharmacol.65:17-24|1980|10.1016/0306-4492(80)90039-8
14227|A||Hill,C.W., and P.O. Fromm|Response of the Interrenal Gland of Rainbow Trout (Salmo gairdneri) to Stress|Gen. Comp. Endocrinol.11(1): 69-77|1968|10.1016/0016-6480(68)90108-1
14228|A||Malley,D.F., and P.S.S. Chang|Effects of Aluminum and Acid on Calcium Uptake by the Crayfish Orconectes virilis|Arch. Environ. Contam. Toxicol.14(6): 739-747|1985|10.1007/BF01055781
14231|A||Renfro,W.C., S.W. Fowler, M. Heyraud, and J. La Rosa|Relative Importance of Food and Water in Long-Term Zinc-65 Accumulation by Marine Biota|J. Fish. Res. Board Can.32:1339-1345|1975|10.1139/f75-154
14232|A||Folke,J., J. Birklund, A.K. Sorensen, and U. Lund|The Impact on the Ecology of Polychlorinated Phenols and Other Organics Dumped at the Bank of a Small Marine Inlet|Chemosphere12(9-10): 1169-1181|1983|10.1016/0045-6535(83)90123-6
14233|AT||Brooker,M.P., and R.W. Edwards|The Use of a Herbicide in a Fisheries Reservoir|Aquac. Res.4(4): 102-108|1973|10.1111/j.1365-2109.1973.tb01198.x
14234|A||Ramamoorthy,S., and K. Blumhagen|Uptake of Zn, Cd, and Hg by Fish in the Presence of Competing Compartments|Can. J. Fish. Aquat. Sci.41:750-756|1984|10.1139/f84-087
14235|A||Peterson,H.G., F.P. Healey, and R. Wagemann|Metal Toxicity to Algae: A Highly pH Dependent Phenomenon|Can. J. Fish. Aquat. Sci.41:974-979|1984|10.1139/f84-111
14236|A||Eddy,F.B., and C. Talbot|Formation of the Perivitelline Fluid in Atlantic Salmon Eggs (Salmo salar) in Fresh Water and in Solutions of Metal Ions|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 1-4|1983|10.1016/0742-8413(83)90002-6
14237|A||Ho,M.S., and P.L. Zubkoff|The Opposing Effects of Cadmium and Nickel on Calcium Uptake by Larvae of the Clam, Mulinia lateralis|Comp. Biochem. Physiol. C Comp. Pharmacol.74(2): 337-339|1983|10.1016/0742-8413(83)90111-1
14238|A||Zaroogian,G.E., J.H. Gentile, J.F. Heltshe, M. Johnson, and A.M. Ivanovici|Application of Adenine Nubleotide Measurements for the Evaluation of Stress in Mytilus edulis and Crassostrea virginica|Comp. Biochem. Physiol. B Comp. Biochem.71(4): 643-649|1982|10.1016/0305-0491(82)90475-8
14239|A||LeBlanc,G.A., and B.J. Cochrane|Modulation of Substrate-Specific Glutathione S-Transferase Activity in Daphnia magna with Concomitant Effects on Toxicity Tolerance|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 37-42|1985|10.1016/0742-8413(85)90206-3
14240|A||Draggan,S.|Interactive Effect of Chromium Compounds and a Fungal Parasite on Carp Eggs|Bull. Environ. Contam. Toxicol.17(6): 653-659|1977|10.1007/BF01685948
14241|A||Gunn,J.M., and W. Keller|Spawning Site Water Chemistry and Lake Trout (Salvelinus namaycush) Sac Fry Survival During Spring Snow Melt|Can. J. Fish. Aquat. Sci.41:319-329|1984|10.1139/f84-036
14242|A||Havas,M.|Aluminum Bioconcentration and Toxicity to Daphnia magna in Soft Water at Low pH|Can. J. Fish. Aquat. Sci.42:1741-1748|1985|10.1139/f85-218
14243|A||Kuhnert,P.M., and B.R. Kuhnert|The Effect of In Vivo Chromium Exposure on Na/K- and Mg-ATPase Activity in Several Tissues of the Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.15(4): 383-390|1976|10.1007/BF01685059
14244|A||Pierce,R.H.,Jr., C.R. Brent, H.P. Williams, and S.G. Reeves|Pentachlorophenol Distribution in a Fresh Water Ecosystem|Bull. Environ. Contam. Toxicol.18(2): 251-258|1977|10.1007/BF01686075
14245|A|OECDG|Geike,F., and C.D. Parasher|Effect of Hexachlorobenzene (HCB) on Growth of Tetrahymena pyriformis|Bull. Environ. Contam. Toxicol.16(3): 347-354|1976|10.1007/BF01685899
14246|A||Nissen,P., and A.A. Benson|Arsenic Metabolism in Freshwater and Terrestrial Plants|Physiol. Plant. (Multiple Languages)54:446-450|1982|10.1111/j.1399-3054.1982.tb00706.x
14247|A||Muramoto,S.|Decrease in Cadmium Concentration in a Cd-Contaminated Fish by Short-Term Exposure to EDTA|Bull. Environ. Contam. Toxicol.25(5): 828-831|1980|10.1007/BF01985615
14248|A||Fritz-Sheridan,R.P.|Impact of the Herbicide Magnacide-H (2-Propenal) on Algae|Bull. Environ. Contam. Toxicol.28(2): 245-249|1982|10.1007/BF01608583
14249|A||Magnani,B., C.D. Powers, C.F. Wurster, and H.B.,Jr. O'Connors|Effects of Chlordane and Heptachlor on the Marine Dinoflagellate, Exuviella baltica, Lohmann|Bull. Environ. Contam. Toxicol.20(1): 1-8|1978|10.1007/BF01683476
14250|A||Centeno,M.D., L. Brendonck, and G. Persoone|Cyst-Based Toxicity Tests.  III.  Development and Standardization of an Acute Toxicity Test with the Freshwater Anostracan Crustacean Streptocephalus proboscideus|In: A.M.V.M.Soares and P.Calow (Eds.), Progress in Standardization of Aquatic Toxicity Tests, Lewis Publishers:37-55|1993|
14251|A||Nimmo,D.R., D.J. Hansen, J.A. Couch, N.R. Cooley, P.R. Parrish, and J.I. Lowe|Toxicity of Aroclor 1254 and Its Physiological Activity in Several Estuarine Organisms|Arch. Environ. Contam. Toxicol.3(1): 22-39|1975|10.1007/BF02221129
14252|A||Seisuma,Z., I. Kulikova, E. Boikova, S. Marcinkevica, and A. Dzerve|A Combined Effect of Mercury and Cadmium on Plankton In Situ|Symp. Biol. Hung.29:207-222|1985|
14253|A||Capuzzo,J.M., S.A. Lawrence, and J.A. Davidson|Combined Toxicity of Free Chlorine, Chloramine and Temperature to Stage I Larvae of the American Lobster Homarus americanus|Water Res.10:1093-1099|1976|10.1016/0043-1354(76)90042-7
14254|A||Chan,K.Y., K.H. Wong, and S.L. Ng|Effects of Polyethylene Glycol on Growth and Cadmium Accumulation of Chlorella salina Cu-1|Chemosphere10(8): 985-991|1981|10.1016/0045-6535(81)90098-9
14255|A||Sorensen,E.M.B., N.K.R. Smith, and R. Ramirez-Mitchell|Electron Probe X-Ray Microanalysis of Arsenic Inclusions in Fish|Arch. Environ. Contam. Toxicol.11:469-473|1982|10.1007/BF01056074
14256|A||Buikema,A.L.J., B.R. Niederlehner, and J.,Jr. Cairns|The Effects of a Simulated Refinery Effluent and Its Components on the Estuarine Crustacean, Mysidopsis bahia|Arch. Environ. Contam. Toxicol.10:231-240|1981|10.1007/BF01055624
14258|A||Ludemann,D., and H. Neumann|Uber die Wirkung der Neuzeitlichen Kontaktinsektizide auf die Tiere des Subwassers|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)35:5-9|1962|10.1007/BF02057669
14260|A||Maki,A.W.|Respiratory Activity of Fish as a Predictor of Chronic Fish Toxicity Values for Surfactants|ASTM Spec. Tech. Publ.2:77-95|1979|
14261|A||Melancon,M.J.,Jr., and J.J. Lech|Uptake, Biotransformation, Disposition, and Elimination of 2-Methylnaphthalene and Naphthalene in Several Fish Species|ASTM Spec. Tech. Publ.2:5-22|1979|
14262|A||Macek,K.J., S.R. Petrocelli, and B.H. Sleight III|Considerations in Assessing the Potential for, and Significance of, Biomagnification of Chemical Residues in Aquatic Food Chains|ASTM Spec. Tech. Publ.2:251-268|1979|
14263|A||Hyde,K.M., J.B. Graves, P.E. Schilling, and F.L. Bonner|The Influence of Mirex Bait on Production and Survival of Louisiana Red Crawfish, Procambarus clarki (Girard)|Proc. Southeast. Assoc. Game Fish Comm.26:473-483|1972|
14267|A||Rao,K.R., and P.J. Conklin|Molt-Related Susceptibility and Regenerative Limb Growth as Sensitive Indicators of Aquatic Pollutant Toxicity to Crustaceans|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:523-534|1986|
14268|A||Karande,A.A., and S.N. Gaonkar|A Toxicity Testing Method for Oil Dispersants|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:511-516|1986|
14269|A||Akarte,S.R., D.V. Muley, and U.H. Mane|Effect of Cythion-Malathion 50 EC (W/W) on the Estuarine Clam, Katelysia opima (Gmelin)|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:501-510|1986|
14270|A||Rajendran,N., and V.K. Venugopalan|Toxicity and Bioconcentration of Organochlorine Pesticides by Crassostrea madrasensis|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:495-500|1986|
14271|A||Venkataramiah,A., G.J. Lakshmi, C. Best, G. Gunter, E. Hartwig, and P. Wild|Effects of Chlorine on Sargassum Shrimp (Latreutes fucorum) from the Gulf of Mexico|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:451-462|1986|
14272|A||Desaiah,D.|Inhibition of Fish Tissue ATPase: A Possible Marker for Water Pollution|In: M.F.Thompson, R.Sarojini, and R.Nagabhushanam (Eds.), Biology of Benthic Marine Organisms: Techniques and Methods as Applied to the Indian Ocean, A.A.Balkema, Rotterdam, Netherlands:535-541|1986|
14273|A||Bhosale,L.J., and S. Kulkarni|Uptake and Excretion of 36Cl from the Leaves of A. ilicifolius Under Hoagland Culture|In: V.Krishnamurthy and A.G.Untawale (Eds.), Marine Plants.Papers Presented at the All-India Symp.Mar.Plants, Their Biol., Chem.and Utilization, Oct.30-Nov.1, 1983, Dona Paula, Goa:307-310|1985|
14274|A||Rao,V.N.R., and V. Sivasubramanian|Studies on the Mercury Toxicity in Some Diatom Cultures|In: V.Krishnamurthy and A.G.Untawale (Eds.), Marine Plants.Papers Presented at the All-India Symp.Mar.Plants, Their Biol., Chem.and Utilization, Oct.30-Nov.1, 1983, Dona Paula, Goa:115-122|1985|
14275|A||Rao,V.N.R., and V. Sivasubramanian|Effect of Heavy Metals on Amphora coffeaeformis (Agardh) Kutz|In: V.Krishnamurthy and A.G.Untawale (Eds.), Marine Plants.Papers Presented at the All-India Symp.Mar.Plants, Their Biol., Chem.and Utilization, Oct.30-Nov.1, 1983, Dona Paula, Goa:123-132|1985|
14277|A||Dooley,C.A., and G. Vafa|Butyltin Compounds and Their Measurement in Oyster Tissues|In: Oceans 86, IEEE Publishing Services, New York, NY:1171-1176|1986|
14278|A||MacKenzie,C.L.J.|Control of Oyster Drills, Eupleura caudata and Urosalpinx cinerea, with the Chemical Polystream|Fish. Bull.68(2): 285-297|1970|
14280|A||Thain,J.E.|Toxicity of TBT to Bivalves:  Effects on Reproduction, Growth and Survival|In: Oceans 86, IEEE Publishing Services, New York, NY:1306-1313|1986|
14281|A||Lee,R.F.|Metabolism of bis(Tributyltin)Oxide by Estuarine Animals|In: Oceans 86, IEEE Publishing Services, New York, NY:1182-1188|1986|
14282|A||Klockner,K.|Uptake and Accumulation of Cadmium by Ophryotrocha diadema (Polychaeta)|Mar. Ecol. Prog. Ser.1:71-76|1979|10.3354/meps001071
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14284|A||Tabata,K.|Toxicity of Ammonia to Aquatic Animals with Reference to the Effect of pH and Carbonic Acid|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)34:67-74|1962|
14285|A||Solomon,H.M., and J.S. Weis|Abnormal Circulatory Development in Medaka Caused by the Insecticides Carbaryl, Malathion and Parathion|Teratology19:51-62|1979|10.1002/tera.1420190109
14286|A||Stary,J., and K. Kratzer|The Cumulation of Toxic Metals on Alga|Int. J. Environ. Anal. Chem.12:65-71|1982|10.1080/03067318208071571
14287|A||Betz,M.|Investigations on the Simultaneous Uptake and Release of Mercury by Dunaliella tertiolecta|Mar. Biol.41:89-97|1977|10.1007/BF00390585
14288|A||Brockway,D.L., P.D. Smith, and F.E. Stancil|Fate and Effects of Pentachlorophenol in Hard- and Soft-Water Microcosms|Chemosphere13(12): 1363-1377|1984|10.1016/0045-6535(84)90050-X
14289|A||Burrows,R.E., and D.D. Palmer|Pyridylmercuric Acetate: Its Toxicity to Fish, Efficacy in Disease Control, and Applicability to a Simplified Treatment Technique|Prog. Fish-Cult.11:147-152|1949|10.1577/1548-8640(1949)11[147:PA]2.0.CO;2
14290|A||Witters,H., J.H.D. Vangenechten, S. Van Puymbroeck, and O.L.J. Vanderborght|Interference of Aluminum and pH on the Na-Influx in an Aquatic Insect Corixa punctata (Illig.)|Bull. Environ. Contam. Toxicol.32:575-579|1984|10.1007/BF01607540
14291|A||Amend,D.F.|Retention of Mercury by Salmon|Prog. Fish-Cult.32:192-194|1970|10.1577/1548-8640(1970)32[192:ROMBS]2.0.CO;2
14292|A||Teh,S.J., and D.E. Hinton|Gender-Specific Growth and Hepatic Neoplasia in Medaka (Oryzias latipes)|Aquat. Toxicol.41(1/2): 141-159|1998|10.1016/S0166-445X(97)00065-9
14293|A||Matei,V.E., D.F. Pavlov, and G.M. Chuiko|The Effect of Cadmium on the Gill Structure in Tilapia|Citologia (Non-English)35(10): 13-19|1993|
14295|A||Zarini,S., D. Annoni, and O. Ravera|"Effects Produced by Aluminium in Freshwater Communities Studied by ""Enclosure"" Method"|Environ. Technol. Lett.4:247-256|1983|10.1080/09593338309384202
14296|A||Mohanrao,G.J., K.P. Krishnamoorthi, and W.M. Deshpande|Photo-Film Industry Wastes: Pollution Effects and Abatement|Proc. Int. Conf. Int. Assoc. Water Pollut. Res.1:181-205|1966|
14297|A||Elson,P.F., and C.J. Kerswill|Impact on Salmon of Spraying Insecticide over Forests|Proc. Int. Conf. Int. Assoc. Water Pollut. Res.1:55-74|1966|
14298|A||Lee,P.G., L.J.W. Lu, J.J. Salazar, and V. Holoubek|Absence of Formation of Benzo(a)pyrene/DNA Adducts in the Cuttlefish (Sepia officinalis, Mollusca:  Cephalopoda)|Environ. Mol. Mutagen.23:70-73|1994|10.1002/em.2850230111
14299|A||Bend,J.R., L.G. Hart, A.M. Guarino, D.P. Rall, and J.R. Fouts|Distribution and Excretion of (14C)-2,4,5,2',5'-Pentachlorobiphenyl in the Lobster (Homarus americanus) and the Dogfish Shark (Squalus acanthias)|In: Natl.Conf.on Polychlorinated Biphenyls, Chicago, IL:292-301|1975|
14300|A||Guhathakurta,S., and S. Bhattacharya|Target and Nontarget Actions of Phenthoate and Carbofuran:  Brain Acetylcholinesterase, Kidney Iodide Peroxidase, and Blood Thyroxine Profiles in Channa punctatus|Biomed. Environ. Sci.1:59-63|1988|
14301|A||Mukherjee,D., S. Bhattacharya, V. Kumar, and J. Moitra|Biological Significance of [14C]Phenol Accumulation in Different Organs of a Murrel, Channa punctatus, and the Common Carp, Cyprinus carpio|Biomed. Environ. Sci.3:337-342|1990|
14302|A||Mukherjee,S., and S. Bhattacharya|Localisation of Cardiac Diaphorase in Fish and Effects of Some Industrial Pollutants Thereon|Comp. Physiol. Ecol.3(3): 143-148|1978|
14303|A||Ghosh,P., and S. Bhattacharya|Impairment of the Regulation of Gonadal Function in Channa punctatus by Metacid-50 and Carbaryl Under Laboratory and Field Conditions|Biomed. Environ. Sci.3:106-112|1990|
14304|A||Ghosh,P., and S. Bhattacharya|Acetylcholine Stimulates the Inhibited Acetylcholinesterase Activity in the Brain of a Snakehead, Channa punctatus|Zool. Sci.10:605-609|1993|
14305|A||Ghosh,P., and S. Bhattacharya|Impact of Nonlethal Levels of Metacid-50 and Carbaryl on Thyroid Function and Cholinergic System of Channa punctatus|Biomed. Environ. Sci.2:92-97|1989|
14306|A||Bose,S., P. Ghosh, S. Ghosh, S. Chaudhury, and S. Bhattacharya|Time Dependent Tissue Distribution of 203Hg in the White Rat and Anabas testudineus, a Freshwater Teleost|Biomed. Environ. Sci.5:355-361|1992|
14307|AT||Bose,S., P. Ghosh, S. Ghosh, S. Chaudhury, and S. Bhattacharya|Time Dependent Distribution of [203Hg] Mercuric Nitrite in the Subcellular Fractions of Rat and Fish Liver|Biomed. Environ. Sci.6:195-206|1993|
14308|A||Oikari,A., B. Holmbom, E. Anas, M. Miilunpalo, G. Kruzynski, and M. Castren|Ecotoxicological Aspects of Pulp and Paper Mill Effluents Discharged to an Inland Water System: Distribution in Water, and Toxicant Residues and|Aquat. Toxicol.6:219-239|1985|10.1016/0166-445X(85)90006-2
14309|A||Orr,P.L., R.W. Bradley, J.B. Sprague, and N.J. Hutchinson|Acclimation-Induced Change in Toxicity of Aluminum to Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.43:243-246|1986|10.1139/f86-030
14310|A||Rachlin,J.W., T.E. Jensen, B. Warkentine, and H.H. Lehman|The Growth Response of the Green Alga (Chlorella saccharophila) to Selected Concentrations of the Heavy Metals Cd, Cu, Pb, and Zn|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:145-154|1982|
14311|A||Panwar,R.S., R.A. Gupta, H.C. Joshi, and D. Kapoor|Toxicity of Some Chlorinated Hydrocarbon and Organophosphorus Insecticides to Gastropod, Viviparus bengalensis Swainson|J. Environ. Biol.3(1): 31-36|1982|
14312|A||Richter,J.E.|Results of Algal Toxicity Tests with Priority Pollutants|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:12 p.|1982|
14313|A||Roberts,K.S., A. Cryer, J. Kay, and J.F. Solbe|A High-Molecular-Weight Cadmium-Binding Fraction Isolated from the Liver Cytosol of Trout Exposed to Environmentally Relevant Concentrations of the Metal|Trans.Biochem.Soc.London7(4): 650-651|1979|
14314|A||Sabourin,T.D.|A Summary of the Results of Toxicity Tests Performed by Battelle Between March and August in 1986|Battelle Columbus Labs, Columbus, OH:2 p.|1986|
14315|A||Daday,A., A.H. MacKerras, and G.D. Smith|The Effect of Nickel on Hydrogen Metabolism and Nitrogen Fixation in the Cyanobacterium Anabaena cylindrica|J. Gen. Microbiol.131:231-238|1985|
14316|A||Hogendoorn-Roozemond,A.S., V.J.H.M. Ten Holder, J.J.T.W.A. Strik, Z. Kolar, and J.H. Koeman|The Influence of the pH on the Toxicity of Hexavalent Chromium to Rainbow Trout (Salmo gairdnerii)|In: O.Hutzinger, I.H.VanLelyveld, and B.C.J.Zoetman (Eds.), Aquatic Pollutants: Transformation and Biological Effects, 2nd Int.Symp.on Aquatic Pollutants, Netherlands:477-478|1977|
14318|A||Pearlmutter,N.L., and M.A. Buchheim|Copper Susceptibility of Three Growth Stages of the Green Alga Haematococcus|Completion Rep., Proj.No.A-081-IA, Iowa State Water Resour.Res.Inst., Iowa State Univ., Ames, IA:76 p.|1983|
14319|A||Pierce,R.H.,Jr.|Fate and Impact of Pentachlorophenol in a Freshwater Ecosystem|EPA 600/3-78-063, U.S.EPA, Athens, GA:74 p.|1978|
14320|A||Novaczek,I., M.S. Madhyastha, R.F. Ablett, G. Johnson, M.S. Nijjar, and D.E. Sims|Uptake, Disposition and Depuration of Domoic Acid by Blue Mussels (Mytilus edulis)|Aquat. Toxicol.21(1-2): 103-118|1991|10.1016/0166-445X(91)90009-X
14321|A||Peterson,M.J., G.R. Southworth, and K.D. Ham|Effect of Sublethal Chlorinated Discharges on PCB Accumulation in Transplanted Asiatic Clams (Corbicula fluminea)|Water Air Soil Pollut.73(1-4): 169-178|1994|10.1007/BF00477984
14322|A||Muir,D.C.G., and N.P. Grift|Extraction and Cleanup Procedures for Determination of Diarylphosphates in Fish, Sediment, and Water Samples|J. AOAC Int.66(3): 684-690|1983|10.1093/jaoac/66.3.684
14323|A||Muir,D.C.G., and N.P. Grift|Environmental Dynamics of Phosphate Esters. II. Uptake and Bioaccumulation of 2-Ethylhexyl Diphenyl Phosphate and Diphenyl Phosphate by Fish|Chemosphere10(8): 847-855|1981|10.1016/0045-6535(81)90084-9
14324|A||Bishop,E.L.|Effects of DDT Mosquito Larviciding on Wildlife Part III. The Effects on the Plankton Population of Routine Larviciding with DDT|U.S.Public Health Rep.62(35): 1263-1268|1947|
14325|A||Lenzi,E., E.B. Luchese, and S.B. De Lima|Improvement of the Eichhornia crassipes - Water Hyacinth - Use in the Decontamination of Chromium Contaminated Solution|Arq. Biol. Tecnol. (Curitiba)37(3): 603-609|1994|
14326|A||Hall,L.W.,Jr., A.E. Pinkney, L.O. Horseman, and S.E. Finger|Mortality of Striped Bass Larvae in Relation to Contaminants and Water Quality in a Chesapeake Bay Tributary|Trans. Am. Fish. Soc.114(6): 861-868|1985|10.1577/1548-8659(1985)114<861:MOSBLI>2.0.CO;2
14327|A||Boyden,C.R.|Effect of Size upon Metal Content of Shellfish|J. Mar. Biol. Assoc. U.K.57:675-714|1977|10.1017/S002531540002511X
14328|A||Fair,P.A., and L.V. Sick|Accumulations of Naphthalene and Cadmium After Simultaneous Ingestion by the Black Sea Bass, Centropristis striata|Arch. Environ. Contam. Toxicol.12:551-557|1983|10.1007/BF01056551
14329|A||Bouck,G.R., and D.A. Johnson|Medication Inhibits Tolerance to Seawater in Coho Salmon Smolts|Trans. Am. Fish. Soc.108:63-66|1979|10.1577/1548-8659(1979)108<63:MITTSI>2.0.CO;2
14330|A||Moore,M.N., and A.R.D. Stebbing|The Quantitative Cytochemical Effects of Three Metal Ions on a Lysosomal Hydrolase of a Hydroid|J. Mar. Biol. Assoc. U.K.56:995-1005|1976|10.1017/S0025315400021032
14331|A||Phelps,H.L.|Cadmium Sorption in Estuarine Mud-Type Sediment and the Accumulation of Cadmium in the Soft-Shell Clam, Mya arenaria|Estuaries2(1): 40-44|1979|10.2307/1352038
14332|A||Donahue,W.H., R.T. Wang, M. Welch, and J.A.C. Nicol|Effects of Water-Soluble Components of Petroleum Oils and Aromatic Hydrocarbons on Barnacle Larvae|Environ. Pollut.13:187-202|1977|
14333|A||Davies,I.M., G. Topping, W.C. Graham, C.R. Falconer, A.D. McIntosh, and D. Saward|Field and Experimental Studies on Cadmium in the Edible Crab Cancer pagurus|Mar. Biol.64:291-297|1981|10.1007/BF00393629
14334|A||Colwell,R.R., and G.S. Sayler|Effects and Interactions of Polychlorinated Biphenyls (PCB) with Estuarine Microorganisms and Shellfish|EPA 600/3-77-070, U.S.EPA, Gulf Breeze, FL:45 p.|1977|
14335|A||Denton,G.R.W., and C. Burdon-Jones|Influence of Temperature and Salinity on the Uptake, Distribution and Depuration of Mercury, Cadmium and Lead by the Black-Lip Oyster Saccostrea echinata|Mar. Biol.64:317-326|1981|10.1007/BF00393633
14336|A||Neuhoff,H.G.|Synergistic Physiological Effects of Low Copper and Various Oxygen Concentrations on Macoma balthica|Mar. Biol.77:39-48|1983|10.1007/BF00393208
14337|A||Eisler,R.|Radiocadmium Exchange with Seawater by Fundulus heteroclitus (L.) (Pisces: Cyprinodontidae)|J. Fish Biol.6:601-612|1974|10.1111/j.1095-8649.1974.tb05103.x
14338|A||Hung,Y.W.|Effects of Temperature and Chelating Agents on Cadmium Uptake in the American Oyster|Bull. Environ. Contam. Toxicol.28:546-551|1982|10.1007/BF01605582
14339|A||Brooke,L.|Report of the Flow-Through and Static Acute Test Comparisons with Fathead Minnows and Acute Tests with an Amphipod and a Cladoceran|Memo to L.Larson, Center for Lake Superior Environmental Studies dated August 31:24 p.|1987|
14340|A||Zaroogian,G.E., and G. Morrison|Effect of Cadmium Body Burdens in Adult Crassostrea virginica on Fecundity and Viability of Larvae|Bull. Environ. Contam. Toxicol.27(3): 344-348|1981|10.1007/BF01611030
14341|A||Kuhn,A., S. Lussier, and G. Thursby|Results of Chronic Life Cycle, Mysid Test Conducted with Phenol at ERL, Narragansett|Aug.3 Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:3-|1987|
14342|A||Barnett,C.J., and J.E. Kontogiannis|The Effect of Crude Oil Fractions on the Survival of a Tidepool Copepod, Tigriopus californicus|Environ. Pollut.8:45-54|1975|
14343|A||Atkinson,L.P., W.M. Dunstan, and J.G. Natoli|The Analysis and Control of Volatile Hydrocarbon Concentrations (e.g. Benzene) During Oil Bioassays|Water Air Soil Pollut.8:235-242|1977|10.1007/BF00294046
14344|A||Hatakeyama,S.|Effect of Copper and Zinc on the Growth and Emergence of Epeorus latifolium (Ephemeroptera) in an Indoor Model Stream|Hydrobiologia (Multiple Languages)174(1): 17-27|1989|10.1007/BF00006054
14345|A||Abedi,Z.H., and W.P. McKinley|Bioassay of Captan by Zebrafish Larvae|Nature216:1321-1322|1967|10.1038/2161321a0
14346|A||Key,P.B., M.H. Fulton, G.I. Scott, S.L. Layman, and E.F. Wirth|Lethal and Sublethal Effects of Malathion on Three Life Stages of the Grass Shrimp, Palaemonetes pugio|Aquat. Toxicol.40(4): 311-322|1998|10.1016/S0166-445X(97)00068-4
14347|A||Spencer,D.F., and G.G. Ksander|Influence of Acetic Acid on Regrowth of Dioecious Hydrilla from Root Crowns|J. Aquat. Plant Manag.33:61-63|1995|
14348|A||Crawford,R.B., and A.M. Guarino|Effects of Environmental Toxicants on Development of a Teleost Embryo|J. Environ. Pathol. Toxicol.6:185-194|1985|
14349|A||Ogilvie,D.M., and D.L. Miller|Duration of a DDT-Induced Shift in the Selected Temperature of Atlantic Salmon (Salmo salar)|Bull. Environ. Contam. Toxicol.16:86-89|1976|10.1007/BF01753110
14350|A||Stammer,H.A.|The Effect of Hydrogen Sulfide and Ammonia on Characteristic Animal Forms in Saprobiotic System (Der Einfly von Schwefelwasserstoff und Ammoniak auf tierische Leitformen des Sparobiensystems)|Vom Wasser (Non-English)20:34-71|1953|
14351|A||Chatterjee,S., and S. Bhattacharya|Ammonia-Induced Change in the Hepatic Glutathione Level of an Air-Breathing Freshwater Teleost Channa punctatus (Bloch)|Toxicol. Lett.17:329-333|1983|10.1016/0378-4274(83)90246-1
14352|A||Tubea,B., K. Hawxby, and R. Mehta|The Effects of Nutrient, pH and Herbicide Levels on Algal Growth|Hydrobiologia (Multiple Languages)79:221-227|1981|10.1007/BF00006316
14353|A|OECDG|Oliver,B.G., and A.J. Niimi|Bioconcentration Factors of Some Halogenated Organics for Rainbow Trout: Limitations in Their Use for Prediction of Environmental Residues|Environ. Sci. Technol.19(9): 842-849|1985|10.1021/es00139a013
14354|A||Sinhaseni,P., L.G. D'Alecy, R. Hartung, and M. Shlafer|Respiratory Effects of Hexachlorocyclopentadiene on Intact Rainbow Trout (Salmo gairdneri) and on Oxidative Phosphorylation of Isolated Trout Heart|Toxicol. Appl. Pharmacol.67:215-223|1983|10.1016/0041-008X(83)90227-2
14355|A||Ortner,P.B., C. Kreader, and G.R. Harvey|Interactive Effects of Metals and Humus on Marine Phytoplankton Carbon Uptake|Nature301(5895): 57-59|1983|10.1038/301057a0
14356|A||Weber,F.H., and F.A. Rosenberg|Biological Stability of Toxaphene in Estuarine Sediment|Bull. Environ. Contam. Toxicol.25:85-89|1980|10.1007/BF01985492
14357|A||Havens,K.E.|Littoral Zooplankton Responses to Acid and Aluminum Stress During Short-Term Laboratory Bioassays|Environ. Pollut.73(1): 71-84|1991|10.1016/0269-7491(91)90097-G
14358|A||Addison,R.F., M.E. Zinck, and J.R. Leahy|Metabolism of Single and Combined Doses of 14C-Aldrin and 3H-p,p'-DDT by Atlantic Salmon (Salmo salar) Fry|J. Fish. Res. Board Can.33(7): 2073-2076|1976|10.1139/f76-256
14359|A||Wilde,C.E.,Jr., and R.B. Crawford|Cellular Differentiation in the Anamniota. III. Effects of Actinomycin D and Cyanide on the Morphogenesis of Fundulus|Exp. Cell Res.44:471-488|1966|10.1016/0014-4827(66)90453-8
14360|A||Cleveland,L., E.E. Little, S.J. Hamilton, D.R. Buckler, and J.B. Hunn|Interactive Toxicity of Aluminum and Acidity to Early Life Stages of Brook Trout|Trans. Am. Fish. Soc.115:610-620|1986|10.1577/1548-8659(1986)115<610:ITOAAA>2.0.CO;2
14361|T||Bornkamm,R.|Plant Population Biology. On the Demography of Typha and Phragmites haulms under Boron Exposure (Zur Demographie von Typha-und Phragmites-Halmen Unter Borbelastung)|Verh. Ges. Oekol. (Multiple Languages)20:927-934|1991|
14362|A||Gunn,J.M., and D.L.G. Noakes|Avoidance of Low pH and Elevated Al Concentrations by Brook Charr (Salvelinus fontinalis) Elevins in Laboratory Tests|Water Air Soil Pollut.30:497-503|1986|10.1007/BF00305218
14364|A||Watling,H.R., and R.J. Watling|Comparative Effects of Metals on the Filtering Rate of the Brown Mussel (Perna perna)|Bull. Environ. Contam. Toxicol.29:651-657|1982|10.1007/BF01606103
14367|A||Goettl,J.P.,Jr., P.H. Davies, and J.R. Sinley|Water Pollution Studies|In: D.B.Cope (Ed.), Colorado Fish.Res.Rev.1972-1975, DOW-R-R-F72-75, Colorado Div.of Wildl., Boulder, CO:68-75|1976|
14369|A||Lemaire,P., A. Mathieu, S. Carriere, J.F. Narbonne, M. LaFaurie, and J. Giudicelli|Hepatic Biotransformation Enzymes in Aquaculture European Sea Bass (Dicentrarchus labrax): Kinetic Parameters and Induction with Benzo(a)pyrene|Comp. Biochem. Physiol. B Comp. Biochem.103(4): 847-853|1992|10.1016/0305-0491(92)90203-4
14370|A||Kaviraj,A., and S. Das|Influence of Chelating Agent EDTA, Adsorbent Activated Charcoal and Inorganic Fertilizer (Single Super Phosphate) on the Histopathological Changes in Gill Epithelium of Common Carp Exposed to Cadmium|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.65(3): 305-308|1995|
14371|A||Pecon,J., and E.N. Powell|Effect of the Amino Acid Histidine on the Uptake of Cadmium from the Digestive System of the Blue Crab, Callinectes sapidus|Bull. Environ. Contam. Toxicol.27:34-41|1981|10.1007/BF01610983
14372|A||Abdel-Hamid,M.I., and O.M. Skulberg|Effect of Selenium on the Growth of Some Selected Green and Blue-Green Algae|Lakes Reserv. Res. Manag.1(3): 205-211|1995|10.1111/j.1440-1770.1995.tb00025.x
14373|A||Peachey,R.L., and D.G. Crosby|Phototoxicity in Tropical Reef Animals|Mar. Environ. Res.42(1-4): 359-362|1996|10.1016/0141-1136(95)00044-5
14374|A||Blanc,J.M.|Genetic Aspects of Resistance to Mercury Poisoning in Steelhead Trout (Salmo Gairdneri)|M.S.Thesis, Oregon State University, Corvallis, OR:33 p.|1973|
14375|A||Boney,A.D., E.D.S. Corner, and B.W.P. Sparrow|The Effects of Various Poisons on the Growth and Viability of Sporelings of the Red Alga Plumaria elegans (Bonnem.) Schm.|Biochem. Pharmacol.2:37-49|1959|10.1016/0006-2952(59)90055-3
14376|A||Buikema,A.L.,Jr., J.,Jr. Cairns, and W.H.,Jr. Yongue|Correlation Between the Autotrophic Index and Protozoan Colonization Rates as Indicators of Pollution Stress|ASTM Spec. Tech. Publ.:204-215|1983|
14377|A||El Nady,F.E.|Toxicity of Mercury to Mugil capito Frys in Presence of EDTA and Copper Sulphate|Bull. Natl. Inst. Oceanogr. Fish.15(2): 163-169|1989|
14379|A||E.G. and G. Bionomics|The Acute Toxicity of Various Silver Compounds to the Fathead Minnow (Pimephales promelas)|EG&G Bionomics, Rep.#BW-79-12-576, Natl.Assoc.Photo.Manufacturers, Inc., Harrison, NY:|1979|
14380|A||Dupree,H.K.|The Arsenic Content of Water, Plankton, Soil and Fish from Ponds Treated with Sodium Arsenite for Weed Control|In: Proc. 14th Annu. Conf. Eastern Assoc. Game Fish Comm. , Oct. 23-26, 1960, Columbia, SC:132-137|1960|
14381|A||Drummond,R.A., and D.A. Benoit|Toxicity of Cadmium to Fish - Some Observations on the Influence of Experimental Procedures|Manuscr., U.S.EPA, Duluth, MN:8 p.|1980|
14382|A||Gipps,J.F., and P. Biro|The Use of Chlorella vulgaris in a Simple Demonstration of Heavy Metal Toxicity|J. Biol. Educ.12(3): 207-214|1978|10.1080/00219266.1978.9654198
14384|A||Halbach,U.|Population Dynamics of Rotifers and Its Consequences for Ecotoxicology|Hydrobiologia (Multiple Languages)109:79-96|1984|10.1007/BF00006300
14385|A||Gupta,S., R.C. Dalela, and P.K. Saxena|Effects of Phenolic Compounds on 5-Nucleotidase Activity in Some Tissues of Notopterus notopterus (Pallas):  A Biochemical Study|Toxicol. Lett.17(1-2): 167-173|1983|10.1016/0378-4274(83)90053-X
14386|A||Mattice,J.S., R.B. McLean, and M.B. Burch|Evaluation of Short-Term Exposure to Heated Water and Chlorine for Control of the Asiatic Clam (Corbicula fluminea)|Environ.Sci.Div., Publ.No.1748, Oak Ridge Natl.Lab., Oak Ridge, TN:34 p.|1982|
14387|AT||Marshall,J.S., D.L. Mellinger, and J.I. Parker|Combined Effects of Cadmium and Zinc on a Lake Michigan Zooplankton Community|J. Great Lakes Res.7(3): 215-223|1981|10.1016/S0380-1330(81)72048-3
14388|A||Nehring,R.B.|Heavy Metal Toxicity in Two Species of Aquatic Insects|M.S.Thesis, Colorado State University, Fort Collins, CO:82 p.|1973|
14389|A||Muller,K.W., and H.D. Payer|The Influence of pH on the Cadmium-Repressed Growth of the Alga Coelastrum proboscideum|Physiol. Plant. (Multiple Languages)45(4): 415-418|1979|10.1111/j.1399-3054.1979.tb02605.x
14390|A||Muller,K.W., and H.D. Payer|The Influence of Zinc and Light Conditions on the Cadmium-Repressed Growth of the Green Alga Coelastrum proboscideum|Physiol. Plant. (Multiple Languages)50:265-268|1980|10.1111/j.1399-3054.1980.tb04461.x
14391|A||Mulla,M.S., H.A. Darwazeh, and P.A. Gillies|Evaluation of Aliphatic Amines Against Larvae and Pupae of Mosquitoes|J. Econ. Entomol.63:1472-1475|1970|10.1093/jee/63.5.1472
14392|A||Mills,W.L.|Water Quality Bioassay Using Selected Protozoa, I|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control11(7): 491-500|1976|
14393|A||Planas,D., and A. Lamarche|Lack of Effect of Arsenic on Phytoplankton Communities in Different Nutrient Conditions|Can. J. Fish. Aquat. Sci.40:156-161|1983|10.1139/f83-025
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14395|A||Jordan,L.S., B.E. Day, and R.T. Hendrixson|Chemical Control of Filamentous Green Algae|Hilgardia32(9): 433-441|1962|10.3733/hilg.v32n09p433
14396|A||Horne,J.D., and B.R. Oblad|Aquatic Toxicity Studies of Six Priority Pollutants|EPA Contract No. 68-01-6201. NUS Corporation. Houston Environmental Center, Houston, TX:104 p.|1983|
14397|A||Holland,G.A., J.E. Lasater, E.D. Neumann, and W.E. Eldridge|Toxic Effects of Organic and Inorganic Pollutants on Young Salmon and Trout|Res. Bull. No. 5, State of Washington Dept. Fish., Seattle, WA:263 p.|1960|
14398|A||Herbert,D.W.M., and A.C. Wakeford|The Susceptibility of Salmonid Fish to Poisons Under Estuarine Conditions - I.  Zinc Sulphate|Air Water Pollut.8(3-4): 251-256|1964|
14399|A||Hopf,H.S., and R.L. Muller|Laboratory Breeding and Testing of Australorbis glabratus for Molluscicidal Screening|Bull. W. H. O.27:783-789|1962|
14400|A||Alekseyev,V.A.|A Study a Acute Phenol Poisoning in Some Species of Insects and Arachnids (Part II)|Hydrobiol. J.7(3): 35-39|1971|
14401|A||Hamdy,M.K.|Biochemical Transformation and Detoxification of Mercury in Aquatic Environment|Tech.Rep.Project No.B-069-GA, Environ.Resource Center, Georgia Inst.of Technology, Atlanta, GA:86 p.|1977|
14402|A||Lin,S.J., and Y.Y. Tin|The Toxicity of Heavy Metals to Juvenile Penaeus penicillatus in Each Stage|J. Taiwan Fish. Res.1(2): 55-65|1993|
14403|A||Havas,M., and G.E. Likens|Changes in 22Na Influx and Outflux in Daphnia magna (Straus) as a Function of Elevated A1 Concentrations in Soft Water at Low pH|Proc. Natl. Acad. Sci. U.S.A.82:7345-7349|1985|10.1073/pnas.82.21.7345
14405|A||Holtze,K.E.|Effects of pH and Ionic Strength on Aluminum Toxicity to Early Developmental Stages of Rainbow Trout (Salmo gairdneri Richardson)|Res.Rep., Ontario Ministry of the Environment, Rexdale, Ont., Canada:39 p.|1983|
14407|A||McLarty,D.A.|Observations on the Nature and Control of Excessive Growth of Cladophora sp. in Lake Ontario and Lake Erie|Rep.on Cladophora Investigations, Res.Project Ontario Water Resource Comm., Ont., Canada:36 p.|1960|
14408|A||Klaverkamp,J.F., A. Kenney, S.E. Harrison, and R. Danell|An Evaluation of Phenol and Sodium Azide as Reference Toxicants in Rainbow Trout|Proc. Annu. Aquat. Toxic. Workshop2:73-92|1975|
14409|A||Minzoni,F.|Effects of Aluminum on Different Forms of Phosphorus and Freshwater Plankton|Environ. Technol. Lett.5:425-432|1984|10.1080/09593338409384295
14410|A||Kondo,T., and T. Tsudzuki|Energy Supply for Potassium Uptake Rhythm in a Duckweed, Lemna gibba G3|Plant Cell Physiol.21(3): 433-443|1980|
14411|A||Lindstrom,M., and A. Lindstrom|Changes in the Swimming Activity of Pontoporeia affinis (Crustacea, Amphipoda) After Exposure to Sublethal Concentrations of Phenol, 4-Cholorophenol and Sytrene|Ann. Zool. Fennici17:221-231|1980|
14412|A||Lloyd,R.|The Toxicity of Zinc Sulphate to Rainbow Trout|Ann. Appl. Biol.48(1): 84-94|1960|10.1111/j.1744-7348.1960.tb03507.x
14413|A||Foster,R.B.|Use of Asiatic Clam Larvae in Aquatic Hazard Evaluations|ASTM Spec. Tech. Publ.:281-288|1981|
14414|A||Chang,L.W., L.L.M. Mak, and A.H. Martin|Dose-Dependent Effects of Methylmercury on Limb Regeneration of Newts (Triturus viridescens)|Environ. Res.11:305-309|1976|10.1016/0013-9351(76)90091-8
14415|A||Woolson,E.A., A.R. Isensee, and P.C. Kearney|Distribution and Isolation of Radioactivity from 74As-Arsenate and 14C-Methanearsonic Acid in an Aquatic Model Ecosystem|Pestic. Biochem. Physiol.6(3): 261-269|1976|10.1016/0048-3575(76)90069-9
14416|A||Sherekar,P.Y., and K.M. Kulkarni|Size and Season Dependent Methyl Parathion Toxicity to Channa orientalis (Sch)|Indian J. Ecol.17(1): 69-70|1990|
14417|A||Sharma,A., and M.S. Sharma|Vertebral Defects in Lebistes reticulatus (Peters) and Cyprinus carpio (Linnaeus) Exposed to Heavy Metals|Pollut. Res.12(3): 139-143|1993|
14418|A||Reimold,R.J.|Toxaphene Interactions in Estuarine Ecosystems|Tech.Rep.Ser.No.74-6, Ga.Mar.Sci.Center, Univ.System of Georgia, Skidaway Island, GA:80 p.|1974|
14419|A||Marionnet,D., L. Taysse, C. Chambras, and P. Deschaux|3-Methylcholanthrene-Induced EROD Activity and Cytochrome P450 in Immune Organs of Carp (Cyprinus carpio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(2): 165-170|1997|
14421|A||Trevors,J.T.|A Comparison of Methods for Assessing Toxicant Effects on Algal Growth|Biotechnol. Lett.4(4): 243-246|1982|10.1007/BF00132394
14422|A||Glynn,A.W., L. Norrgren, and A. Mussener|Differences in Uptake of Inorganic Mercury and Cadmium in the Gills of the Zebrafish, Brachydanio rerio|Aquat. Toxicol.30:13-26|1994|10.1016/0166-445X(94)90003-5
14423|A||Salama,A.M., I.A. Kobbia, N.Z. Heikal, and E.F. Shabana|The Influence of the Herbicide Amitrole on Growth and Dynamics of Carbohydrate and Nitrogenous Compounds in Two Blue-Green Algae from the Nile Drains|Arch. Hydrobiol.105(1): 117-127|1985|10.1127/archiv-hydrobiol/105/1989/117
14424|A||Lee,H.H., M. Mesfin, and J. Mezui|Mitigation of Zebra Mussels with a Botanical Molluscicide Endod: Laboratory Bioassay, Non-target Organisms and Preliminary Field Studies|In: Atomic Energy Commission Report 3-307. 3rd International Zebra Mussel Conference:3.308 - 3.321|1993|
14425|A||Rao,V.N.R., and S.K. Subramanian|Metal Toxicity Tests on Growth of Some Diatoms|Acta Bot. Indica10:274-281|1982|
14426|A||Ruiz,J.M., G.W. Bryan, and P.E. Gibbs|Bioassaying the Toxicity of Tributyltin-(TBT)-Polluted Sediment to Spat of the Bivalve Scrobicularia plana|Mar. Ecol. Prog. Ser.113:119-130|1994|10.3354/meps113119
14428|A||Liu,D.H.W.|A Radiorespirometric Study of the Effects of a Chemical Substance on Carbohydrate Metabolism in the Intact Fish|ASTM Spec. Tech. Publ.:449-458|1981|
14430|A||Roback,S.S.|Environmental Requirements of Trichoptera|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, Trans.3rd Seminar, Aug.13-17, 1962, Tech.Rep.999-WP25, U.S.Public Health Service, R.A.Taft Sanitary Engineering Center, Cincinnati, OH:118-126|1965|
14432|A||Greene,J.C., W.E. Miller, T. Shiroyama, and E. Merwin|Toxicity of Zinc to the Green Alga Selenastrum capricornutum as a Function of Phosphorus or Ionic Strength|In: Proc. Biostimulation - Nutrient Assessment Workshop, EPA 660/3-75-034, U. S. EPA, Corvallis, OR:28-43|1973|
14433|A||Jones,J.R.E.|The Toxicity of the Double Chlorides of Mercury and Sodium. I. Experiments with the Minnow Phoxinus phoxinus (L.)|J. Exp. Biol.17:325-330|1940|10.1242/jeb.17.3.325
14434|A||Haley,M.V., and C.W. Kurnas|Toxicity and Fate of Nickel-Coated Graphite in a Marine Environment|Rep.No.ERDEC-TR-340, Edgewood Res.Dev.& Eng.Center, Aberdeen Proving Ground, MD:17 p.|1996|
14435|A||Ekanath,A.E., and N.R. Menon|Mercury Toxicity in Two Intertidal Tropical Marine Molluscs|Fish. Technol.20(2): 84-89|1983|
14438|A||Sreenivas,S.S., and B.C. Rana|Growth and Metabolic Response of Nostoc to Atrazine|Environ. Ecol.12(1): 214-215|1994|
14440|A||Marking,L.L., and C.R. Walker|The Use of Fish Bioassays to Determine the Rate of Deactivation of Pesticides|In: G.E.Glass (Ed.), Bioassay Techniques and Environ.Chem., Ann Arbor Sci.Publ., Ann Arbor, MI19:357-366|1973|
14441|A||Gerloff,G.C., and K.A. Fishbeck|Plant Content of Elements as a Bioassay of Nutrient Availability in Lakes and Streams|In: G.E.Glass (Ed.), Bioassay of Techniques and Environ.Chem., Ann Arbor Sci.Publ., Ann Arbor, MI8:159-176|1973|
14442|A||Atema,J., S. Jacobson, J. Todd, and D. Boylan|The Importance of Chemical Signals in Stimulating Behavior of Marine Organisms: Effects of Altered Environmental Chemistry on Animal Communication|In: G.E.Glass (Ed.), Bioassay of Techniques and Environ.Chem., Ann Arbor Sci.Publ., Ann Arbor, MI9:177-197|1973|
14443|A||Cairns,J.,Jr., R.E. Sparks, and W.T. Waller|The Relationship Between Continuous Biological Monitoring and Water Quality Standards for Chronic Exposure|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor Sci.Publ., Ann Arbor, MI:383-402|1973|
14444|A||Schultz,I.R., E.L. Peters, and M.C. Newman|Toxicokinetics and Disposition of Inorganic Mercury and Cadmium in Channel Catfish After Intravascular Administration|Toxicol. Appl. Pharmacol.140(1): 39-50|1996|10.1006/taap.1996.0195
14445|A||Suedel,B.C.,Jr.|Toxicity of Fluoranthene to Daphnia magna, Hyalella azteca, Chironomus tentans, and Stylaria lacustris in Water-Only and Whole Sediment Exposures|Bull. Environ. Contam. Toxicol.57(1): 132-138|1996|10.1007/s001289900166
14446|A||Kruzynski,G.M., and I.K. Birtwell|A Predation Bioassay to Quantify the Ecological Significance of Sublethal Responses of Juvenile Chinook Salmon (Oncorhynchus tshawytscha) to the Antisapstain Fungicide TCMTB|Can. J. Fish. Aquat. Sci.51(8): 1780-1790|1994|10.1139/f94-180
14447|A||Prabhudeva,K.N., and N.R. Menon|Rate of Filtration by Perna viridis Pre-Exposed to Heavy Metals|Fish. Technol.22(2): 102-104|1985|
14448|A||Al-Sabti,K., M. Franko, B. Andrijanic, S. Knez, and P. Stegnar|Chromium-Induced Micronuclei in Fish|J. Appl. Toxicol.14(5): 333-336|1994|10.1002/jat.2550140503
14449|A||Sola,F., A. Masoni, and J. Isaia|Effects of Lead Loads on Branchial Osmoregulatory Mechanisms in the Rainbow Trout Oncorhynchus mykiss|J. Appl. Toxicol.14(5): 343-349|1994|10.1002/jat.2550140505
14450|A||Lee,C., J.I. Hedges, S.G. Wakeham, and N. Zhu|Effectiveness of Various Treatments in Retarding Microbial Activity in Sediment Trap Material and Their Effects on the Collection of Swimmers|Limnol. Oceanogr.37(1): 117-130|1992|10.4319/lo.1992.37.1.0117
14451|A||Dive,D., and H. Leclerc|Utilization of the Ciliate Protozoan Colpidium campylum for the Measurement of the Toxicity and Accumulation of Micropollutants: Criteria Analysis of Applications (Utilisation du Protozoaire Cilie Colpidium campylum Pou|Environ. Pollut.14:169-186|1977|
14452|A||Murugappan,R.M., and M.G. Sundari|Evaluation of Genotoxic Effects of Endosulfan in the Fish Channa striatus|J. Ecotoxicol. Environ. Monit.6(2): 131-134|1996|
14453|A||Ruiz,J.M., G.W. Bryan, and P.E. Gibbs|Chronic Toxicity of Water Tributyltin (TBT) and Copper to Spat of the Bivalve Scrobicularia plana: Ecological Implications|Mar. Ecol. Prog. Ser.113:105-117|1994|10.3354/meps113105
14454|A||Anuradha,C.H., and T.N. Raju|Effect of Selenium Toxicity on Dehydrogenases in the Fish Anabas scandens|J. Ecotoxicol. Environ. Monit.6(2): 149-151|1996|
14455|A||Edokpayi,C.A.|The Effect of Sublethal Doses of a Farm Fertilizer on the Blood Plasma Glucose in Tilapia zilli (Pisces, Cichlidae)|Trop. Freshw. Biol.3(2): 444-450|1993|
14456|A||Foster,P.L.|Metal Resistances of Chlorophtya from Rivers Polluted by Heavy Metals|Freshw. Biol.12:41-61|1982|10.1111/j.1365-2427.1982.tb00602.x
14459|A||Cinelli,F., P. Belcari, S. DeRanieri, G. Arapis, S. Bonotto, G.B. Gerber, and R. Kirchmann|Behaviour of Tritium in the Marine Environment: Studies with the Macroalgae Laurencia obtusa and Cystoseira compressa|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:271-282|1984|
14460|A||Verthe,C., M.N. Maquet, Z. Moureau, B. Mania, J. Van Baelen, D. Van der Ben, M. Cogneau, and C.M. Vandecasteele|Transfer of Technetium in an Experimental Marine Food Chain|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:397-415|1984|
14461|A||Arapis,G., G. Nuyts, A. Bossus, J. Gilles, L. Baugnet-Mahieu, S. Bonotto, G.B. Gerber, and R. Kirchmann|Incorporation of Tritium into the Total Organic Matter and the Proteins of the Green Unicellular Algae Acetabularia acetabulum and Chlamydomonas|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:283-296|1984|
14462|A||Carvalho,F.P., and S.W. Fowler|Experimental Studies on Biokinetics of Americium in Benthic Marine Organisms|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:297-315|1984|
14463|A||Vanderborght,O.L.J., S. Van Puymbroeck, J. Gerits, J. Vangenechten, and J. Bierkens|Microbial Sterility and Salinity Effects on 241Americium Distribution and Biological Transfer Coefficients, in Sandy Marine and Freshwater Sediments|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:317-325|1984|
14464|A||Germain,P., P. Miramand, and M. Masson|Experimental Study of Long-Lived Radionuclides Transfers (Americium, Plutonium, Technetium) Between Labelled Sediments and Annelidae (Nereis diversicolor, Arenicola marina)|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:327-341|1984|
14466|A||Bonotto,S., G.B. Gerber, C.T.,Jr. Garten, C.M. Vandecasteele, C. Myttenaere, J. Van Baelen, M. Cogneau, and D. Van der |Uptake and Distribution of Technetium in Several Marine Algae|In: A.Cigna and C.Myttenaere (Eds.), International Symposium on the Behavior of Long-Lived Radionuclides in the Marine Environment, Luxembourg, Germany:381-396|1984|
14467|A||El-Rayis,O.A.M., and A.A. Ezzat|Bioaccumulation of Some Heavy Metals in Coastal Marine Animals in the Vicinity of Alexandria I. Bioassay|FAO Fish. Rep.334(suppl.): 57-66|1986|
14468|A||El Rayis,O.A.M.|Bioaccumulation of Cadmium in Plankton, Bivalves, Crustacea and in Different Organs of Six Fish Species from Mex Bay, West of Alexandria|FAO Fish. Rep.334(suppl.): 50-56|1986|
14469|A||Unsal,M.|Uptake, Accumulation and Toxicity of Vanadium and Tin in Marine Organisms|FAO Fish. Rep.334(suppl.): 155-161|1986|
14470|A||Tusek-Znidaric,M., M. Skreblin, J. Pavicic, I. Kregar, and P. Stegnar|Mercury-Binding Proteins of the Gills and Digestive Gland of Mytilus galloprovincialis|FAO Fish. Rep.334:149-154|1986|
14471|A||Tudor,M., and I. Katavic|Acute Toxicity of an Oil Dispersant on the Developmental Stages of the Sea Bass (Dicentrarchus labrax)|FAO Fish. Rep.334(suppl.): 142-148|1986|
14472|A||Pavicic,J., M. Skreblin, I. Kregar, M. Tusek-Znidaric, and P. Stegnar|Determination of Cd-Binding Proteins Similar to Metallothionein in the Digestive Gland of Mytilus galloprovincialis with Regard to a Preliminary Treatment of the Sample|FAO Fish. Rep.334(suppl.): 130-131|1986|
14473|A||Papathanassiou,E.|Effects of Cadmium Ions in the Process of Oogenesis of the Common Prawn Palaemon serratus (Pennant)|FAO Fish. Rep.334(suppl.): 122-129|1986|
14474|A||Moraitou-Apostolopoulou,M., and G. Verriopoulos|Lethal and Sublethal Effects of Some Contaminants (Heavy Metals, Oil, Dispersants) to Marine Planktonic Animals|FAO Fish. Rep.334(suppl.): 95-109|1986|
14475|A||Abel,P.D., and E. Papathanassiou|Effects of Toxic Pollutants on the Filtration Rate of Mediterranean Bivalve Molluscs|FAO Fish. Rep.334(suppl.): 1-7|1986|
14476|A||Mathur,D.S.|Observations on the Toxicity of Dieldrin and Lindane to Certain Fishes|Zool. Pol.13(1-2): 99-108|1963|
14478|A||Ringwood,A.H.|The Accumulation of Cadmium and Its Effects on Growth of Larvae of an Hawaiian Bivalve, Isognomon californicum|Pac. Sci.42(1/2): 130-|1988|
14479|A||Ringwood,A.H.|The Effects of Cadmium on Growth and Development of Larval Bivalves|Pac. Sci.39(4): 393-394|1985|
14480|A||Van der Werff,M., and M.J. Pruyt|Long-Term Effects of Heavy Metals on Aquatic Plants|Chemosphere11(8): 727-739|1982|10.1016/0045-6535(82)90102-3
14481|A||Pynnonen,K.|Heavy Metal-Induced Changes in the Feeding and Burrowing Behaviour of a Baltic Isopod, Saduria (Mesidotea) entomon L.|Mar. Environ. Res.41(2): 145-156|1996|10.1016/0141-1136(95)00013-5
14482|A||George,S.G., E. Carpene, and T.L. Coombs|The Effect of Salinity on the Uptake of Cadmium by the Common Mussel, Mytilus edulis (L.)|In: D.S.McLusky and A.J.Berry (Ed.), Physiology and Behaviour of Marine Organisms, Pergamon Press, Oxford, England:189-193|1978|
14483|A||Stom,D.I., and R. Roth|Some Effects of Polyphenols on Aquatic Plants: I. Toxicity of Phenols in Aquatic Plants|Bull. Environ. Contam. Toxicol.27(3): 332-337|1981|10.1007/BF01611028
14484|A||Ramos,E.U., W.H.J. Vaes, P. Mayer, and J.L.M. Hermens|Algal Growth Inhibition of Chlorella pyrenoidosa by Polar Narcotic Pollutants: Toxic Cell Concentrations and QSAR Modeling|Aquat. Toxicol.46(1): 1-10|1999|10.1016/S0166-445X(98)00111-8
14486|A||Sorokin,Y., and V.I. Luk'yanenko|The Use of C14-Labeled Food in the Study of the Effects of Phenol and Hydroquinone on the Respiration of Fish Larvae|Farmakol.Toksikol. (Moskva) (Non-English)64:109-110|1966|
14500|A||Gaaboub,I.A., I.A. Rawash, A. Tag-el-Din, and M.A.T. Hassanein|Joint Action of Six Herbicides with Malathion Against Mosquito Larvae of Culex pipiens L.|Toxicology20:61-70|1981|10.1016/0300-483X(81)90106-2
14501|A||Foret,J.A., N.R. Spencer, and E.O. Gangstad|Towards Integrated Control of Alligator Weed|In: E.O.Gangstad, P.W.Zimmerman, and et al., Aquatic-Use Patterns for 2,4-D Dimethylamine and Integrated Control, Appendix H, U.S. Army Corps of Eng., Waterways Exp. Stn., Aquat. Plant Control Res. Prog., Final Tech. Rep. 7, Vicksburg, MS:H3 - H16|1974|
14503|A||Schultz,D.P.|Residue Studies of the Application of 2,4-Dichlorophenoxyacetic Acid Dimethylamine Salt in Field Ponds in Florida, Georgia, and Missouri|In: E.O.Gangstad, P.W. Zimmerman and et al., Aquatic-Use Patterns for 2,4-D Dimethylamine and Integrated Control, Appendix F, U.S. Army Corps of Eng., Waterways Exp. Stn., Aquat. Plant Control Res. Prog., Nov. Tech. Rep. 7, Vicksburg, MS:F3 - F25|1974|
14504|A||Rao,C.A.N., K. Shyamasundari, and K.H. Rao|Effect of Copper Enriched Sea Water on the Haemolymph and Hepatopancreas Copper Concentration in the Crab Ocypoda macrocera|Riv. Idrobiol.22(2-3): 179-186|1983|
14505|A||Butler,R.G., W. Trivelpiece, and D.S. Miller|The Effects of Oil, Dispersant, and Emulsions on the Survival and Behavior of an Estuarine Teleost and an Intertidal Amphipod|Environ. Res.27(2): 266-276|1982|10.1016/0013-9351(82)90082-2
14506|A||Graham,R.J.|Effects of Forest Insect Spraying on Trout and Aquatic Insects in Some Montana Streams|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, Trans.2nd Sem.Biol.Prob.Water Pollut., Cincinnati, OH:62-65|1960|
14508|A||Johnson,C.R.|The Effect of Exposure to the Organophosphorus Insecticide Chlorpyrifos on the Feeding Rate in the Mosquitofish, Gambusia affinis|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.45:69-70|1977|
14509|A||Xu,Q.|The Effects of Exposure to Zinc and Cadmium Separately and Jointly on the Free Amino Acid Pool of Gammarus pulex (L.)|Toxicol. Environ. Chem.50(1-4): 183-196|1995|10.1080/02772249509358214
14510|A||Hurlbert,S.H.|The Impact of Dursban on Pond Ecosystems|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.8:37-|1969|
14511|A||Irgolic,K.J., E.A. Woolson, R.A. Stockton, R.D. Newman, N.R. Bottino, R.A. Zingaro, P.C. Kearney, R.A. Pyles, and S. Ma|Characterization of Arsenic Compounds Formed by Daphnia magna and Tetraselmis chuii from Inorganic Arsenate|Environ. Health Perspect.19:61-66|1977|10.1289/ehp.771961
14512|A||Jennett,J.C., J.E. Smith, and J.M. Hassett|Factors Influencing Metal Accumulation by Algae|EPA 600/2-82-100, U.S.EPA, Cincinnati, OH:133 p.|1982|
14513|A||Balczon,J.M., and J.R. Pratt|A Comparison of the Responses of Two Microcosm Designs to a Toxic Input of Copper|Hydrobiologia (Multiple Languages)281(2): 101-114|1994|10.1007/BF00006439
14514|A||Rajavel,A.R., V. Vasuki, K.P. Paily, K.D. Ramiah, T. Mariappan, M. Kalyanasundaram, B.K. Tyagi, and P.K. Das|Evaluation of a Synthetic Pyrethroid (Cyfluthrin) for Insecticidal Activity Against Different Mosquito Species|Indian J. Med. Res.85:168-175|1987|
14515|A||Bednarz,T.|The Effect of 2,4-D Acid on Green and Blue-Green Algae in Unialgal and Mixed Cultures|Acta Hydrobiol.23(2): 173-182|1981|
14516|A||Wang,Y.S., C.G. Jaw, and Y.L. Chen|Accumulation of 2,4-D and Glyphosate in Fish and Water Hyacinth|Water Air Soil Pollut.74(3/4): 397-403|1994|10.1007/BF00479802
14517|A||Hill,I.R., S.T. Hadfield, J.H. Kennedy, and P. Ekoniak|Assessment of the Impact of PP321 on Aquatic Ecosystems Using Tenth-Acre Experimental Ponds|Br. Crop Prot. Conf. Pests Dis.:309-318|1988|
14518|A||Chai,M., Y. Huang, and B. Gao|Effects of gamma-BHC on Respiratory and Behavioral Physiology in Gouper (Epinephelus akaara)|Taiwan Haixia (Multiple languages)8(4): 314-321|1989|
14519|A||Connell,A.D., and D.D. Airey|Life-Cycle Bioassays Using Two Estuarine Amphipods, Grandidierella lutosa and G. lignorum, to Determine Detrimental Sublethal Levels of Marine Pollutants|S. Afr. J. Sci.75(7): 313-314|1979|
14520|A||Butler,P.A.|The Significance of DDT Residues in Estuarine Fauna|In: M.W.Miller and G.G.Berg (Eds.), Chemical Fallout, Chapter 9, C.C.Thomas, Springfield, IL:205-220|1969|
14521|A||Moore,R.L.|Suitability Studies of Selected Antimicrobial Agents for Use in Treatment of Crayfish Diseases|Freshw. Crayfish4:373-380|1978|
14522|A||Budd,K., and S.R. Craig|Resistance to Arsenate Toxicity in the Blue-Green Alga Synechococcus leopoliensis|Can. J. Bot.59:1518-1521|1981|10.1139/b81-207
14525|A||Braginskiy,L.P., and E.P. Shcherban|Water Toxicology and Radioecology.  Acute Toxicity of Heavy Metals to Aquatic Invertebrates at Different Temperatures|Hydrobiol. J.14(6): 78-82|1978|
14526|A||Blinn,D.W., T. Tompkins, and L. Zaleski|Mercury Inhibition on Primary Productivity Using Large Volume Plastic Chambers In Situ|J. Phycol.13:58-61|1977|10.1111/j.1529-8817.1977.tb02887.x
14527|A||Birge,W.J., J.A. Black, and B.A. Ramey|The Reproductive Toxicology of Aquatic Contaminants|In: J.Saxena and F.Fisher (Eds.), Hazard Assessment of Chemicals: Current Developments, Academic Press, New York, NY1:59-115|1981|
14528|A||Mule,M.B., and V.S. Lomte|Copper Sulphate Induced Alterations of Protein in Freshwater Gastropod Thiara tuberculata|J. Ecobiol.7(3): 177-180|1995|
14529|A||Becker,A.J.,Jr., and E.C.,Jr. Keller|Metabolic Responses of the Crayfish Procambarus clarkii to Reduced pH and Elevated Aluminum Concentration|Am. Zool.23(4): 888-|1983|
14530|A||Batte,E.G., and L.E. Swanson|Laboratory Evaluation of Organic Compounds as Molluscacides and Ovocides, II|J. Parasitol.38:65-68|1952|10.2307/3274175
14531|A||Akitake,H., and K. Kobayashi|Studies on the Metabolism of Chlorophenols in Fish-III.  Isolation and Identification of a Conjugated PCP Excreted by Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(3): 321-327|1975|10.2331/suisan.41.321
14532|A||Barthalmus,G.T.|Behavioural Effects of Mercury on Grass Shrimp|Mar. Pollut. Bull.8(4): 87-90|1977|10.1016/0025-326X(77)90195-3
14533|A||Barera,Y., and W.J. Adams|Resolving Some Practical Questions About Daphnia Acute Toxicity Tests|ASTM Spec. Tech. Publ.:509-518|1983|
14534|A||Baker,J.P., and C.L. Schofield|Aluminum Toxicity to Fish in Acidic Waters|Water Air Soil Pollut.18:289-309|1982|10.1007/BF02419419
14535|A||Anderson,K.B., R.E. Sparks, and A.A. Paparo|Rapid Assessment of Water Quality, Using the Fingernail Clam, Musculium transversum|WRC Res.Rep.No.133, Project No.B-097-ILL, Univ.of Illinois, Urbana, IL:115 p.|1978|
14536|A||Tease,B., and R.A. Coler|The Effect of Mineral Acids and Aluminum from Coal Leachate on Substrate Periphyton Composition and Productivity|J. Freshw. Ecol.2(5): 459-467|1984|10.1080/02705060.1984.9664626
14537|A||Bruner,K.A., S.W. Fisher, and P.F. Landrum|The Role of the Zebra Mussel, Dreisena polymorpha, in Contaminant Cycling: II. Zebra Mussel Contaminant Accumulation from Algae and Suspended|J. Great Lakes Res.20(4): 735-750|1994|10.1016/S0380-1330(94)71191-6
14538|A||Torreblanca,A., J. Del Ramo, M. Martinez, J. Diaz-Mayans, and A. Pastor|Effect of 20-Hydroxyecdysone Administration on Zinc, Copper and Metallothionein Levels in Procambarus clarkii|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 201-204|1996|
14539|A||Stary,J., K. Kratzer, J. Prasilova, and T. Vrbska|The Cumulation of Chromium and Arsenic Species in Fish (Poecilia reticulata)|Int. J. Environ. Anal. Chem.12:253-257|1982|10.1080/03067318208078332
14540|A||Oakley,S.M., K.J. Williamson, and P.O. Nelson|Accumulation of Cadmium by Abarenicola pacifica|Sci. Total Environ.28:105-118|1983|10.1016/S0048-9697(83)80011-4
14541|A||Saltabas,O., and G. Akcin|Removal of Chromium, Copper and Nickel by Water Hyacinth (Eichhornia crassipes)|Toxicol. Environ. Chem.41:131-134|1994|10.1080/02772249409357968
14542|A||Baudouin,M.F., and P. Scoppa|Accumulation and Retention of Chromium-51 by Freshwater Zooplankton|Comm.of the European Communities, Joint Nuclear Res.Center, Ispra, Italy:23-|1974|
14543|A||Hamasaki,K., and K. Hatai|Prevention of Fungal Infection in the Eggs and Larvae of the Swimming Crab Portunus trituberculatus and the Mud Crab Scylla serrata by Bath Treatment|Nippon Suisan Gakkaishi (Multiple Languages)59(6): 1067-1072|1993|10.2331/suisan.59.1067
14544|A||Nagabhushanam,R., P.S. Reddy, and R. Sarojini|Tissue Specific Alterations in Glycogen Profiles by Tributyltin Oxide Induced Stress in the Prawn, Caridina rajadhari|J. Anim. Morphol. Physiol.38(1-2): 153-156|1991|
14545|A||Bengeri,K.V., and H.S. Patil|Lead Induced Histological Changes in the Liver of Puntius arulius|J. Anim. Morphol. Physiol.33(1/2): 147-150|1986|
14546|A||John,K.R., and N. Jayabalan|Sublethal Effects of Endosulfan on the Histology and Protein Pattern of Cyprinus carpio Gill|J. Appl. Ichthyol.9:49-56|1993|10.1111/j.1439-0426.1993.tb00387.x
14547|A||Warnau,M., G. Ledent, A. Temara, M. Jangoux, and P. Dubois|Experimental Cadmium Contamination of the Echinoid Paracentrotus lividus: Influence of Exposure Mode and Distribution of the Metal in the Organism|Mar. Ecol. Prog. Ser.116:117-124|1995|10.3354/meps116117
14548|A||Akcin,G., O. Saltabas, and H. Afsar|Removal of Lead by Water Hyacinth (Eichhornia crassipes)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(10): 2177-2183|1994|
14549|A||Couch,J.A.|Light and Electron Microscopic Comparisons of Normal Hepatocytes and Neoplastic Hepatocytes of Well-Differentiated Hepatocellular Carcinomas in a|Dis. Aquat. Org.16:1-14|1993|10.3354/dao016001
14550|A||Douillet,P.A., and G.J. Holt|Surface Disinfection of Red Drum (Sciaenops ocellatus Linnaeus) Eggs Leading to Bacteria-Free Larvae|J. Exp. Mar. Biol. Ecol.179(2): 253-266|1994|10.1016/0022-0981(94)90118-X
14551|A||Sakthivel,V., and S.A. Gaikwad|Size Dependent Toxicity of Phosphamidon on the Fish Gambusia affinis|Environ. Ecol.12(2): 256-258|1994|
14553|A||Sparks,R.E.|The Acute, Lethal Effects of Ammonia on Channel Catfish (Ictalurus punctatus), Bluegills (Lepomis macrochirus), and Fathead Minnows (Pimephales promelas)|Rep.to Illinois, Proj.No.20.060, Inst.for Environ.Qual., Chicago, IL:15 p.|1975|
14554|A||Reinbold,K.A., and S.M. Pescitelli|Effects of Exposure to Ammonia on Sensitive Life Stages of Aquatic Organisms|Proj.Rep., Contract No.68-01-5832, Illinois Natural History Survey, Champaign, IL:21 p.|1982|
14555|A||Reinbold,K.A., and S.M. Pescitelli|Acute Toxicity of Ammonia to the White Sucker|Final Rep., EPA Contract No.2W-3946 NAEX, Illinois Natural History Survey, Champaign, IL:11 p.|1982|
14556|A||Reinbold,K.A., and S.M. Pescitelli|Effects of Cold Temperature on Toxicity of Ammonia to Rainbow Trout, Bluegills and Fathead Minnows|Proj.Rep., Contract No.68-01-5832, Illinois Natural History Survey, Champaign, IL:19 p.|1982|
14557|A||Weber,A., M. Melkonian, D.W. Lorch, and M. Wettern|Accumulation of Lead by Several Green Algae|Int. Ver. Theor. Angew. Limnol.21:254-260|1978|
14559|A||Capuzzo,J.M., J.C. Goldman, J.A. Davidson, and S.A. Lawrence|Chlorinated Cooling Waters in the Marine Environment:  Development of Effluent Guidelines|Mar. Pollut. Bull.7:161-163|1977|10.1016/0025-326X(77)90268-5
14560|A||Kleinow,K.M., W.L. Beilfuss, H.H. Jarboe, B.F. Droy, and J.J. Lech|Pharmacokinetics, Bioavailability, Distribution, and Metabolism of Sulfadimethoxine in the Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.49:1070-1077|1992|10.1139/f92-118
14561|A||Schnick,R.A., F.P. Meyer, L.L. Marking, T.D. Bills, and J.H.,Jr. Chandler|Candidate Chemicals for Crustacean Culture|In: D.H.Lewis and J.K.Leong (Eds.), Proc.Second Biennail Crustacean Health Workshop, TAMU-SG-79-114, Sea Grant Prog., Texas A&M Univ., College Stn., TX:245-294|1979|
14562|A||Droy,B.F., M.S. Goodrich, J.J. Lech, and K.M. Kleinow|Bioavailability, Disposition and Pharmacokinetics of 14C-Ormetoprim in Rainbow Trout (Salmo gairdneri)|Xenobiotica20(2): 147-157|1990|10.3109/00498259009047150
14563|A||Horne,J.D., M.A. Swirsky, T.A. Hollister, B.R. Oblad, and J.H. Kennedy|Aquatic Toxicity Studies of Five Priority Pollutants|EPA Contract No. 68-01-6201. NUS Corporation. Houston Environmental Center, Houston, TX:196 p.|1983|
14564|A||Rouleau,C., E. Pelletier, and H. Tjalve|Distribution Kinetics of Trophic Single Doses of Methylmercury, Tributyltin, and Corresponding Inorganic Ions in the Starfish Leptasterias polaris|Mar. Ecol. Prog. Ser.124(1-3): 143-158|1995|10.3354/meps124143
14565|A||Lemma,A., L. Wolde-Yohannes, P.C. Fraleigh, P.L. Klerks, and H.H. Lee|Endod is Lethal to Zebra Mussels and Inhibits Their Attachment|J. Shellfish Res.10(2): 361-365|1991|
14566|A||Terhaar,C.J., W.S. Ewell, S.P. Dziuba, and D.W. Fassett|Toxicity of Photographic Processing Chemicals to Fish|Photogr. Sci. Eng.16(5): 370-377|1972|
14569|A||McKnight,D.M., and F.M.M. Morel|Release of Weak and Strong Copper-Complexing Agents by Alga|Limnol. Oceanogr.24(5): 823-837|1979|10.4319/lo.1979.24.5.0823
14570|A||Westerdahl,H.E., K. Getsinger, and J. Hall|Chemical Control Technology Development. Preliminary Field Evaluation of Controlled-Release Fluridone Fibers|In: Proc. 18th Annu. Meeting, Aquat. Plant Contr. Res. Program, Nov. 14-17, 1983, Raleigh, NC:133-139|1984|
14571|A||Cardwell,R.D., C.E. Woelke, M.I. Carr, and E.W. Sanborn|Toxic Substance and Water Quality Effects on Larval Marine Organisms|Technical Report No.45, State of Washington, Department of Fisheries, Olympia, WA:71 p.|1979|
14572|A||Gibbons,M.V., F.D. Woodwick, W.H. Funk, and H.L. Gibbons|Effects of Multiphase Restoration, Particularly Aluminum Sulfate Application, on the Zooplankton Community of a Eutrophic Lake in Eastern Washington|J. Freshw. Ecol.2:393-404|1984|10.1080/02705060.1984.9664617
14573|A||Ginn,T.M.,Jr.|Studies on the Distribution and Flux of Pesticides in Waterways Associated with a Ricefield-Marshland Ecosystem|Pestic. Monit. J.8:23-32|1974|
14574|A||Hansen,D.J.|Unpublished Data on the Consent Decree Chemicals|February 22 Memo to W.A.Brungs, U.S.EPA, Gulf Breeze, FL:81 p.|1980|
14575|A||Mayhew,J.|The Use of Toxaphene as a Fish Poison in Strip Mine Ponds with Varying Physical and Chemical Characteristics|Proc. Iowa Acad. Sci.66:513-517|1959|
14577|A||Govindarajan,S., C.P. Valsaraj, R. Mohan, V. Hariprasad, and R. Ramasubramanian|Toxicity of Heavy Metals in Aquaculture Organisms:  Penaeus indicus, Perna viridis, Artemia salina and Skeletonema costatum|Pollut. Res.12(3): 187-189|1993|
14578|A||Rodrigues Capitulo,A.|Effects of Anionic Detergents on Survival and Energetic Metabolism Rate of Palaemonetes argentinus Nobili (Decapoda natantia)|Limnobios2(8): 549-555|1984|
14579|A||Hylland,K., C. Haux, C. Hogstrand, K. Sletten, and R.A. Andersen|Properties of Cod Metallothionein, Its Presence in Different Tissues and Effects of Cd and Zn Treatment|Fish Physiol. Biochem.13(1): 81-91|1994|10.1007/BF00004122
14580|A||Ghosh,K., and V. Banerjee|Effect of Deltamethrin on Haemopoietic Tissue and Some Blood Parameters of Heteropneustes fossilis|J. Freshw. Biol.4(4): 283-288|1992|
14581|A||Ahmed,M., and A. Moitra|Microanatomical and Histopathological Changes in the Intestine of Catla catla Exposed to Copper Sulphate|J. Freshw. Biol.2(3): 241-249|1990|
14582|A||Maneswari Devi,K., V. Gopal, and R. Gopal|Liver-Somatic Index of Channa striatus as a Biomonitoring Tool of Heavy Metal and Pesticide Toxicity|J. Ecotoxicol. Environ. Monit.1(2): 135-141|1991|
14583|A||Jeyachandran,R., and V.K. George|Zinc Toxicity and Its Alleviation by Calcium Salts in Alga Scenedesmus acutus 273|J. Ecotoxicol. Environ. Monit.1(3): 180-184|1991|
14584|A||Chung,K.S.|Cadmium Tolerance of the White Mullet (Mugil curema) and Its Use to Predict Survival Probability in Polluted Sea Waters|Bol. Inst. Oceanogr. Venez.17(1/2): 105-107|1978|
14585|A||Palackova,J., J. Jirasek, and A. Paul|The Effect of Sublethal Ammonia Concentration on Selected Physiological Characteristics in Carp (Cyprinus carpio L.)|Zivoc. Vyroba (Multiple Languages)31(10): 893-900|1986|
14586|A||Cai,A., W. Chen, W. Li, and W. Zheng|Accumulation, Transport and Toxicity of Cu in Marine Food|J. Xiamen Univ. (Non-English)31(3): 269-274|1992|
14587|A||Chandra,S.|Effect of Malathion on the Cholesterol Levels of Different Tissues of Fresh Water Catfish (Clarias batrachus)|J. Rec. Adv. Appl. Sci.3(2): 500-503|1988|
14588|A||Lockhart,W.L., D.A. Metner, B.N. Billeck, G.P. Rawn, and D.C.G. Muir|Bioaccumulation of Some Forestry Pesticides in Fish and Aquatic Plants|In: W.Y.Garner, B.G.Billeck, and D.C.G.Muir (Eds.), Proc.Symp.Implications of Chemical and Biol.Agents in Forestry Applic., Chem.Soc.No.238:297-318|1983|
14589|A||Killgore,K.J.|Corps Field Operations Studies.  Treatment of Eurasian Watermilfoil in Flowing Waters Using 2,4-D/Adjuvant Formulations|In: Proc. 17th Annu. Meet. , Aquat. Plant Contr. Res. Program, Nov. 16-18, 1982, Sacramento, CA:52-61|1983|
14590|A||Hansen,D.J.|Results of Early Life-Stage Toxicity Tests with Menidia peninsulae and Chlorine|May 24th Memo from D.J.Hansen, U.S.EPA, Gulf Breeze, FL, to W.A.Brungs, U.S.EPA, Narrangansett, RI:2 p.|1982|
14591|A||Kurant,V.Z., and O.M. Arsan|The Effect of Zinc on Proteins and Nucleic Acids in the Tissues of Carp|Hydrobiol. J.28(2): 100-104|1992|
14592|A||Redmond,M.S., and K.J. Scott|Acute Toxicity Tests with Phenol|U.S.EPA, Narragansett, RI:3 p.|1987|
14593|A||Richardson,L.B., D.T. Burton, and J.C. Rhoderick|Toxicity of Bromate to Striped Bass Ichthyoplankton (Morone saxatilis) and Juvenile Spot (Leiostomus xanthurus)|J. Toxicol. Environ. Health8(4): 687-695|1981|10.1080/15287398109530102
14594|A||Schimmel,S.C.|Final Report on Toxicity of Cyanide to Sheepshead Minnow Early Life Stages|U.S.EPA, Narragansett, RI, (Memo to John H.Gentile, U.S.EPA, Narragansett, RI):2 p.|1981|
14595|A||Berry,W., and G. Gardner|Results of Acute Toxicity Tests Conducted with Cyanide at ERL, Narragansett|Memo,U.S.EPA, Narragansett, RI:1 p.|1985|
14596|A||Berry,W.J.|Results of Acute Toxicity Tests Conducted with Lead at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1981|
14597|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Lead at ERL, Narragansett|U.S.EPA, Narragansett, RI:2 p.|1985|
14598|A||Gardner,G., and W. Nelson|Results of Acute Toxicity Tests Conducted with Cyanide at ERL, Narragansett|Memo,U.S.EPA, Narragansett, RI:1 p.|1981|
14599|A||Lussier,S.M.|Results of Acute Toxicity Tests Conducted with Cyanide at ERL, Narragansett|Two Memorandums to D.Hansen, U.S.EPA, Narragansett, RI:2 p.|1985|
14600|A||Johns,M.J., and J.H. Gentile|Results of Acute Toxicity Tests Conducted with Cyanide at ERL, Narragansett|Memo,U.S.EPA, Narragansett, RI:2 p.|1981|
14601|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Cadmium at ERL, Narragansett|U.S.EPA, Narragansett, RI:5 p.|1985|
14602|A||Jakalski,J.L., and M.A.Q. Khan|Photolysis of Aldrin and Dieldrin in a Phytoplankton|Arch. Environ. Contam. Toxicol.24:75-77|1993|10.1007/BF01061091
14603|A||Rachlin,J.W., and A. Grosso|The Growth Response of the Green Alga Chlorella vulgaris to Combined Divalent Cation Exposure|Arch. Environ. Contam. Toxicol.24:16-20|1993|10.1007/BF01061084
14604|A||Noever,D.A., H.C. Matsos, R.J. Cronise, L.L. Looger, R.A. Relwani, and J.U. Johnson|Computerized In Vitro Test for Chemical Toxicity Based on Tetrahymena Swimming Patterns|Chemosphere29(6): 1373-1384|1994|10.1016/0045-6535(94)90269-0
14605|A||Rach,J.J., J.A. Luoma, and L.L. Marking|Development of an Antimycin-Impregnated Bait for Controlling Common Carp|N. Am. J. Fish. Manag.14:442-446|1994|10.1577/1548-8675(1994)014<0442:DOAAIB>2.3.CO;2
14606|A||Rijstenbil,J.W., A. Sandee, J. Van Drie, and J.A. Wijnholds|Interaction of Toxic Trace Metals and Mechanisms of Detoxification in the Planktonic Diatoms Ditylum brightwellii and Thalassiosira pseudonana|Fems Microbiol. Rev.14:387-396|1994|10.1111/j.1574-6976.1994.tb00113.x
14607|A||Arkoosh,M.R., E. Clemons, M. Myers, and E. Casillas|Suppression of B-Cell Mediated Immunity in Juvenile Chinook Salmon (Oncorhynchus tshawytscha) After Exposure to Either a Polycyclic Aromatic|Immunopharmacol. Immunotoxicol.16(2): 293-314|1994|10.3109/08923979409007096
14608|A||Guillen,J.L., M. Endo, J.F. Turnbull, H. Kawatsu, R.H. Richards, and T. Aoki|Skin Responses and Mortalities in the Larvae of Japanese Croaker Exposed to Ammonia|Fish. Sci.60(5): 547-550|1994|10.2331/fishsci.60.547
14609|A||Gould,E., and R.A. Greig|Short-Term Low-Salinity Response in Lead-Exposed Lobsters, Homarus americanus (Milne Edwards)|J. Exp. Mar. Biol. Ecol.69:283-295|1983|10.1016/0022-0981(83)90075-8
14610|A||Bills,T.D., and D.A. Johnson|Effect of pH on the Toxicity of TFM to Sea Lamprey Larvae and Nontarget Species During a Stream Treatment|In: U.S.Fish Wildl.Serv.Resour.Publ.No.57, Natl.Fish.Res.Ctr., LaCrosse, WI:7-19|1992|
14611|A||Subasinghe,R.P., and F.M. Yusoff|Retention of Formaldehyde in the Tissues of Two Tropical Fish Species Following Exposure to Therapeutic Levels|Aquac. Fish. Manag.24(6): 693-697|1993|
14612|A||Chao,N.H., C.P. Chiang, H.W. Hsu, C.T. Tsai, and T.T. Lin|Toxicity Tolerance of Oyster Embryos to Selected Cryoprotectants|Aquat. Living Resour.7(2): 99-104|1994|10.1051/alr:1994013
14613|A||Martinsen,B., T.E. Horsberg, K.J. Varma, and R. Sams|Single Dose Pharmacokinetic Study of Florfenicol in Atlantic Salmon (Salmo salar) in Seawater at 11 degrees Celsius|Aquaculture112(1): 1-11|1993|10.1016/0044-8486(93)90153-P
14614|A||Reddy,P.S., M. Devi, R. Sarojini, R. Nagabhushanam, and M. Fingerman|Cadmium Chloride Induced Hyperglycemia in the Red Swamp Crayfish, Procambarus clarkii: Possible Role of Crustacean Hyperglycemic Hormone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(1): 57-61|1994|10.1016/0300-9629(94)90273-9
14615|A||Ludwig,G.M.|Effects of Trichlorfon, Fenthion, and Diflubenzuron on the Zoolplankton Community and on Production of Reciprocal-Cross Hybrid Striped Bass Fry in|Aquaculture110(3-4): 301-319|1993|10.1016/0044-8486(93)90378-C
14616|A||Rogstad,A., O.F. Ellingsen, and C. Syvertsen|Pharmacokinetics and Bioavailability of Flumequine and Oxolinic Acid After Various Routes of Administration to Atlantic Salmon in Seawater|Aquaculture110(3-4): 207-220|1993|10.1016/0044-8486(93)90369-A
14617|A||Shiau,S.Y., and S.F. Lin|Effect of Supplemental Dietary Chromium and Vanadium on the Utilization of Different Carbohydrates in Tilapia, Oreochromis niloticus-(cross)-O. aureus|Aquaculture110(3-4): 321-330|1993|10.1016/0044-8486(93)90379-D
14618|A||Tytler,P., and J. Ireland|The Influence of Temperature, Salinity and External Calcium on Diffusional Permeability of the Eggs of Turbot (Scophthalmus maximus)|Aquaculture115(3-4): 335-345|1993|10.1016/0044-8486(93)90147-Q
14619|A||Conrad,R., C. Buchel, C. Wilhelm, W. Arsalane, C. Berkaloff, and J.C. Duval|Changes in Yield of In-Vivo Fluorescence of Chlorophyll a as a Tool for Selective Herbicide Monitoring|J. Appl. Phycol.5(5): 505-516|1993|10.1007/BF02182509
14620|A||Sanders,R.W., and C.C. Gilmour|Accumulation of Selenium in a Model Freshwater Microbial Food Web|Appl. Environ. Microbiol.60(8): 2677-2683|1994|10.1128/aem.60.8.2677-2683.1994
14622|A||Bobkova,A.N., and L.L. Smirnova|Alteration of Pigment and Carbohydrate Distributions of Microscopic Periphyton Communities by Copper Ion|Hydrobiol. J.30(1): 66-72|1994|
14626|A||Khallil,A.M.A., and S.A. Omar|Influence of the Insecticide Dimethoate on Some Metabolic Activities of Five Zoosporic Fungi|J. Basic Microbiol.33(6): 405-411|1993|10.1002/jobm.3620330607
14627|A||Saxena,K.K., and R.R.S. Chauhan|Acute Toxicity of Agriculture Fertilizer `Complex' on Food Consumption and Growth in Heteropneustes fossilis (BL.)|Pollut. Res.12(3): 135-138|1993|
14628|A||Sarkar,U.K., and S.K. Konar|Effects of Heavy Metal Chromium, Pesticide Thiodan and Petroleum Product n-Hexane in Combination on Fish and Aquatic Ecosystem|Asian Environ.14(4): 12-29|1992|
14629|A||Iger,Y., R.A.C. Lock, H.A. Jenner, and S.E. Wendelaar Bonga|Cellular Responses in the Skin of Carp (Cyprinus Carpio) Exposed to Copper|Aquat. Toxicol.29(1-2): 49-64|1994|10.1016/0166-445X(94)90047-7
14630|A||Ellenberger,S.A., P.C. Baumann, and T.W. May|Evaluation of Effects Caused by High Copper Concentrations in Torch Lake, Michigan, on Reproduction of Yellow Perch|J. Great Lakes Res.20(3): 531-536|1994|10.1016/S0380-1330(94)71169-2
14631|A||Mansour,G.M.M.|Effects on Fish of Cadmium Concentrations in Water|Oceanologia (Wroc.)34:91-|1993|
14632|A||Chevalier,R., J.P. Gerard, and C. Michel|Flumequine Distribution and Tissue Kinetics in Rainbow Trout (Salmo gairdneri Richardson). Detection of Residues|Can.Transl.Fish.Aquat.Sci.No.5116:10 p.(ENG TRANSL) (1981) / Transl.from Rev.Med.Vet.132(12): 831-837|1985|
14633|A||Ringo,E.|Does Chromic Oxide (Cr2O3) Affect Faecal Lipid and Intestinal Bacterial Flora in Arctic Charr, Salvelinus alpinus (L.)?|Aquac. Fish. Manag.24(5): 767-776|1993|
14634|A||Tripathi,G.|Relative Toxicity of Aldrin, Fenvalerate, Captan and Diazinon to the Freshwater Food-Fish, Clarias batrachus|Biomed. Environ. Sci.5:33-38|1992|
14635|A||Sosnowska,J.|The Effect of Liming of Fish Ponds on the Development of Phytoplankton|Pol. Arch. Hydrobiol.37(4): 479-494|1990|
14636|A||Travis,B.V.|Some Problems with Simulated Stream Tests of Black-Fly Larvicides|Proc. N. J. Mosq. Exterm. Assoc.55:129-134|1968|
14637|A||Reddy,M.S., and K.V.R. Rao|Phosphamidon and Lindane Induced Molt Inhibition in the Marine Prawn, Penaeus monodon (Fabricius)|Natl. Acad. Sci. Lett.10(7): 255-257|1987|
14639|A||Omoregie,E., and M.A. Okpanachi|Growth of Tilapia zilli Exposed to Sublethal Concentrations of Crude Extracts of Azadirachta indica|Acta Hydrobiol.34(3): 281-286|1992|
14640|A||Hester,P.G., M.A. Olson, and T.G. Floore|Effect of Diflubenzuron on Three Estuarine Decapods, Callinectes sp., Palaemonetes pugio and Uca pugilator|J. Fla. Anti-Mosq. Assoc.57(1): 8-14|1986|
14641|A||James,W.G.|Methods, Apparatus:  New Product Research, Process Development and Design. Mussel Fouling and Use of Exomotive Chlorination|Chem. Ind. (Lond.)24:994-996|1967|
14642|A||Brouwer,M., and T. Brouwer-Hoexum|Cadmium Accumulation by the Blue Crab, Callinectes sapidus: Involvement of Hemocyanin and Characterization of Cadmium-Binding Proteins|Mar. Environ. Res.14(1-4): 71-88|1984|10.1016/0141-1136(84)90071-0
14643|A||Louis-Ferdinand,R.T., and G.C. Fuller|The Mechanism of the Biologic Activity of a Series of Nitroolefins|Toxicol. Appl. Pharmacol.16(3): 668-674|1970|10.1016/0041-008X(70)90071-2
14644|A||Spangenberg,D.B.|Use of the Aurelia Metamorphosis Test System to Detect Subtle Effects of Selected Hydrocarbons and Petroleum Oil|Mar. Environ. Res.14(1-4): 281-303|1984|10.1016/0141-1136(84)90083-7
14645|A||Coulon,D.P., J.B. Graves, J.W.,Jr. Avault, S. Smith, G.H. Willis, W. Reichel, C.W. Harmon, and H.F.,Jr. Morris|How Persistent are Pyrethroid Insecticide Residues in Crawfish, Catfish?|La. Agric.29(2): 14-16|1985|
14646|A||Rice,C.D., and D. Schlenk|Immune Function and Cytochrome P4501A Activity After Acute Exposure to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) in Channel Catfish|J. Aquat. Anim. Health7(3): 195-204|1995|10.1577/1548-8667(1995)007<0195:IFACPA>2.3.CO;2
14647|A||Boyd,J.E.|The Use of Daphnia magna in the Microbioassay of Insecticides|Ph.D.Thesis, Penn.State University, University Park, PA:194 p.|1957|
14648|A||Fanara,D.M.|Population Dynamics of Pond Organisms in the Lower Sonoran Desert of California Under Biological and Chemical Mosquito Suppression Regimens|Ph.D Thesis, University of California, Riverside, CA:105 p.|1971|
14649|A||Priester,L.E.,Jr.|The Accumulation and Metabolism of DDT, Parathion, and Endrin by Aquatic Food-Chain Organisms|Ph.D. Thesis, Clemson University, Clemson, SC:74 p.|1965|
14651|A||Brooks,G.D., and H.F. Schoof|Simulated Field Tests of new Insecticide Formulations Against Aedes aegypti Larvae in 55-Gallon Water Storage Containers|Proc. N. J. Mosq. Exterm. Assoc.52:160-166|1965|
14652|A||Paul,V.I., and T.K. Banerjee|Analysis of Ammonium Sulphate Toxicity in the Freshwater Catfish Heteropneustes fossilis Using Mucocyte Indexing|Pol. Arch. Hydrobiol.43(1): 111-125|1996|
14654|A||Fitzsimons,J.D.|The Effects of Short- and Long-Term Exposures to Low Dissolved Oxygen-Elevated Ammonia on Lake Trout Eggs|Proc. 32nd Conf. Great Lakes Res.:48|1989|
14655|A||Medda,C., S.K. Sarkar, S. Ganguly, and B. Bhattacharyya|Effect of Phosphamidon on Three Important Bioindicators and Their Recovery in Two Freshwater Carps, Labeo rohita and Cirhhinus mrigala|Pollut. Res.12(3): 151-157|1993|
14656|A||Cairns,J.,Jr., and A. Scheier|The Effect upon the Pumpkinseed Sunfish Lepomis gibbosus (Linn.) of Chronic Exposure to Lethal and Sublethal Concentrations of Dieldrin|Not. Nat. Acad. Nat. Sci. Philadelphia 370:1-10|1964|
14657|A||Singh,N.N., and A.K. Srivastava|Blood Dyscrasia in the Freshwater Indian Catfish Heteropneustes fossilis After Acute Exposure to a Sublethal Concentration of Propoxur|Acta Hydrobiol.34(1-2): 189-195|1992|
14658|A||Ahmed,Z.A., and R. Abdel-Basset|Growth, Photosynthesis, and Proline Content of Scenedesmus obliquus (Turp.) Kutz. as Affected by Cu+2|Acta Hydrobiol.34(4): 401-409|1992|
14659|A||Nimmo,D.R.|Results of Toxicity Tests with Mysids and the Pesticide, Toxaphene|U.S.EPA, Gulf Breeze, FL:1 p.|1978|
14660|A||Minier,C., and M.N. Moore|Induction of Multixenobiotic Resistance in Mussel Blood Cells|Mar. Environ. Res.42(1-4): 389-392|1996|10.1016/0141-1136(96)87093-0
14661|A||Crossland,N.O.|Field Trials to Evaluate the Effectiveness of the Molluscicide N-Tritylmorpholine in Irrigation Systems|Bull. W. H. O.37:23-42|1967|
14662|A||Kingsbury,P.D.|Permethrin in New Brunswick Salmon Nursery Streams|Report No.FPM-X-52, Environment Canada, Forestry Service, Forest Pest Manage.Inst., Sault Ste.Marie, Ontario:192 p.|1983|
14663|A||Nair,K.V.K., and C.D. Mulay|Uptake and Loss of Radioactive Zinc-65 by Two Species of Marine Chlorophycean Flagellates|J. Mar. Biol. Assoc. India21(1-2): 91-96|1979|
14664|A||Zamfir,G., V. Nastase, M. Srainer, S. Freund, L. Alexa, S. Apostol, and N. Topala|Influence of 25 per Cent Detox on the Hygenic-Sanitary Indexes of Water in the Aquatic Fauna|Igiena (Non-English)17(7): 405-413|1968|
14665|A||Andersen,O.K., B. Bohle, and E. Dahl|Effects of Hydrocarbons on Growth and 14C-Uptake by Thalassiosira pseudonana (Bacillariophyceae)|Flodevigen Rapportser.2:1-10|1990|
14666|A||Gadkari,A.S., and V.B. Marathe|Toxicity of Cadmium and Lead to a Fish and a Snail from Two Different Habitats|IAWPC (Indian Assoc. Water Pollut. Control) Tech. Annu.5:141-148|1983|
14667|A||Van Veld,P.A., J.S. Patton, and R.F. Lee|Effect of Preexposure to Dietary Benzo(a)pyrene on the First-Pass Metabolism of BP by the Intestine of Toadfish (Opsanus tau): In Vivo Studies Using|Toxicol. Appl. Pharmacol.92:255-265|1988|10.1016/0041-008X(88)90385-7
14669|A||U.S. Department of the Interior|Chlorinated Hydrocarbons as a Factor in the Reproduction and Survival of Lake Trout (Salvelinus namaycush) in Lake Michigan|U. S. Fish Wildl. Serv. Tech. Pap.:42 p.|1981|
14670|A||Gonnert,R.|Bayluscide, a New Compound for Controlling Medically Important Freshwater Snails|Pflanzenschutz-Nachr.15(1): 4-25|1962|
14672|A||Rajan,M.T., and T.K. Banerjee|Histopathological Changes in the Epidermis of the Air Breathing Catfish Heteropneustes fossilis Exposed to Sublethal Concentration of Mercuric Chloride|Biomed. Environ. Sci.6(4): 405-412|1993|
14673|A||Pandey,P.K., N.K. Singh, B.P. Choudhary, and G.K. Thakur|Effect of Organophosphorus Insecticide, Malathion, on the Haematology of Channa punctatus (Bloch)|J. Inl. Fish. Soc. India13(2): 120-121|1981|
14674|A||Ghosh,A.R., and P. Chakrabarti|Effects of Cadmium Poisoning on Some Cellular Enzymes in the Stomach, Intestine and Intestinal Caeca of Notopterus notopterus (Pallas)|In: K.Kumar (Ed.), Proceedings of the National Symposium on Freshwater Aquaculture, CIFA Bhubaneswar, India:176-178|1991|
14675|A||Walker,C.R.|Toxicological Effects of Herbicides on the Fish Environment. Part 2|Water Sewage Works111(4): 173-175|1964|
14676|A||Draper III,A.C., and W.S. Brewer|Distribution of Dialkylnitrosamines in the Fathead Minnow (Pimephales promelas)|Manuscipt, W.S.Brewer, Department of Biological Sciences, Wright State University, Dayton, OH:8 p.||
14677|A||Mouvet,C., P. Cordebar, B. Gallissot, and P. Roger|The Use of Aquatic Mosses to Monitor Micropollutants such as Cadmium and PCBs. Laboratory and Field Results|In: Environ.Contam., 2nd Int.Conf., CEP Consultant, Edinburgh, U.K.:115-119|1986|
14678|A||Tripathi,A.K., and D.K. Banerjee|Effect of DDT and Aldrin on Biomass and Chlorophyll Content of Spirulina platensis|In: Environ.Contam., 2nd Int.Conf., CEP Consultant, Edinburgh, U.K.:272-275|1986|
14679|A||Forlin,L., and U. Lidman|Effects of Clophen A50 and 3-Methylcholanthrene on the Hepatic Mixed Function Oxidase System in Female Rainbow Trout, Salmo gairdneri|Comp. Biochem. Physiol. C Comp. Pharmacol.70(2): 297-300|1981|10.1016/0306-4492(81)90069-1
14680|A||Frank,R., K. Johnson, H.E. Braun, C.G. Halliday, and J. Harvey|Monitoring Air, Soil, Stream and Fish for Aerial Drift of Permethrin|Environ. Monit. Assess.16(2): 137-150|1991|10.1007/BF00418101
14681|A||Fisher,N.S., and G.J. Jones|Heavy Metals and Marine Phytoplankton:  Correlation of Toxicity and Sulfhydryl-Binding|J. Phycol.17(1): 108-111|1981|10.1111/j.1529-8817.1981.tb00827.x
14682|A||Dimond,J.B., S.E. Malcolm, and G.K. VanDerwerker|Zectran and Aquatic Insects:  Comparison with Other Insecticides|Environ. Entomol.1(4): 459-464|1972|10.1093/ee/1.4.459
14683|A||Edwards,R.W., H. Egan, M.A. Learner, and P.J. Maris|The Control of Chironomid Larvae in Ponds, Using TDE (DDD)|J. Appl. Ecol.1:97-117|1964|10.2307/2401591
14685|A||Danil'chenko,O.P., N.S. Buzinova, and L.V. Kolosova|The Effect of Stanno-Organic Compounds on the Functional Condition of Mollusks|Hydrobiol. J.22:98-101|1986|
14686|A||Brooker,M.P.|The Ecological Effects of the Use of Dalapon and 2,4-D for Drainage Channel Management I.  Flora and Chemistry|Arch. Hydrobiol.78(3): 396-412|1976|
14687|A||Banerji,S.R.|Infestation of Euryale ferox Salisb. by Larae of Nymphula crisonalis Walker and Trials on Its Control|J. Bombay Nat. Hist. Soc.69(1): 79-90|1972|
14688|A||Rodriguez Lopez,M.|The Action of 2,4-Dichlorophenoxyacetic Acid and Its Sodium Salt in the Frog Spermatozoan|Bol. R. Soc. Esp. Hist. Nat.,Bol. R. Soc. Esp. Hist. Nat.  B59:219-226|1961|
14689|A||Muller-Parker,G., L.R. McCloskey, O. Hoegh-Guldberg, and P.J. McAuley|Effect of Ammonium Enrichment on Animal and Algal Biomass of the Coral Pocillopora damicornis|Pac. Sci.48(3): 273-283|1994|
14690|A||Muller-Parker,G., C.B. Cook, and C.F. D'Elia|Elemental Composition of the Coral Pocillopora damicornis Exposed to Elevated Seawater Ammonium|Pac. Sci.48(3): 234-246|1994|
14691|A||James,W.F.|Effects of Endothall Treatment on Phosphorus Concentration and Community Metabolism of Aquatic Communities|Misc.Paper A-84-1, Aquat.Plant Control Res.Prog., U.S.Army Engineering Waterways Exp.Sta., Vicksburg, MS:82 p.|1984|
14692|A||Patrick,R., T. Bott, and R. Larson|The Role of Trace Elements in Management of Nuisance Growths|EPA 600/2-75-008, U.S.EPA, Corvallis, OR:250 p.|1975|
14693|A||Mathur,D.S.|Toxicity of Organic Insecticides to Certain Fishes|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.B29:380-382|1959|
14694|A||Welker,W.V.,Jr., and D.N. Riemer|Control of Fragrant Waterlily and Spatterdock in Irrigation Ditches with Glyphosate|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:105-107|1973|
14695|A||Wurts,W.A., and P.W. Perschbacher|Effects of Bicarbonate Alkalinity and Calcium on the Acute Toxicity of Copper to Juvenile Channel Catfish (Ictalurus punctatus)|Aquaculture125(1-2): 73-79|1994|10.1016/0044-8486(94)90284-4
14696|A||Ghosh,T.K.|Toxicogenic Evaluation of Ekalux, Nuvan and Suquin on Oxygen Consumption, Succinate and Lactate Degydrogenase Activities in Some Tissues of Oreochromis|Adv. Biosci.6(1): 45-56|1987|
14697|A||Garg,V.K., and S. Rani|Distribution of Alkaline Phosphatase in the Gastrointestinal Tract, Liver and Kidney of Ophiocephalus punctatus Exposed to Hildet and Hilbech|Adv. Biosci.6(1): 89-96|1987|
14698|T||Gras,G., and J.A. Rioux|Laboratory Evaluation of Some Organophosphorus Compounds Against the Larvae of Aedes (O.) detritus (Haliday), Aedes (O.) caspius (Pallas) and Culex pipiens pipiens L.|Am. Mosq. Control Assoc. J.29(2): 202-209|1969|
14699|A||Fujii,S., R. Yamamoto, and H. Takada|N,N'-Dicyclohexylcarbodiimide Inhibition of Dunaliella Growth, and Restoration by Some Adenine Nucleotides and Plant Growth Regulators|Agric. Biol. Chem.49(6): 1749-1753|1985|
14701|A||Gjessing,E.T.|The Effect of Aquatic Humus on the Biological Availability of Cadmium|Arch. Hydrobiol.91(2): 144-149|1981|
14703|A||George,J.L., R.F.,Jr. Darsie, and P.F. Springer|Effects on Wildlife of Aerial Applications of Strobane, DDT, and BHC to Tidal Marshes in Delaware|J. Wildl. Manag.21:42-53|1957|10.2307/3797677
14704|A||Arsenault,G., A.D. Cvetkovic, and R. Popovic|Toxic Effects of Copper on Selenastrum capricornutum Measured by Flow Cytometry-Based Method|Water Pollut. Res. J. Can.28(4): 757-765|1993|
14705|A||Gorman,W.C.J., and R.K. Skogerboe|Speciation of Cadmium in Natural Waters and Their Effect on Rainbow Trout|In: Preprints of Papers Presented at the Div.of Environ.Chem., Am.Chem.Soc., Aug.30-Sept.4, 1987, New Orleans, LA:644-645 / Abstr.Pap.Am.Chem.Soc.194:227-|1987|
14707|A||Garms,R., and F. Kuhlow|Empfindlichkeit von Simulien-Larven aus Norddeutschland Gegenuber DDT und Baytex|Z. Tropenmed. Parasitol.18:119-124|1967|
14708|A||Gaaboub,I.A., and T.A. Abu-Hashish|Susceptibility of Egyptian Culex pipiens L. to Six Synthetic Pyrethroids|Insect Sci. Appl.1(3): 297-301|1981|
14709|AT||Haag,K.H.|Effects of Herbicide Application on Mortality and Dispersive Behavior of the Water Hyacinth Weevils, Neochetina eichhorniae and Neochetina bruchi (Coleoptera:  Curculionidae)|Environ. Entomol.15(6): 1192-1198|1986|10.1093/ee/15.6.1192
14710|A||Drewa,G.|The Effect of Detergent ABS on Shrimp Crangon crangon L.|Pol. Arch. Hydrobiol.35(1): 97-108|1988|
14711|A||Ghosh,T.K.|Impact of Commercial Grade Hexagor and Sumidon on Behaviour and Some Aspects of Carbohydrate Metabolism in the Fish Cyprinus carpio|Uttar Pradesh J. Zool.7(1): 48-62|1987|
14712|A||Hall,L.W.,Jr., D.T. Burton, S.L. Margrey, and W.C. Graves|A Comparison of the Avoidance Responses of Individual and Schooling Juvenile Atlantic Menhaden, Brevoortia tyrannus Subjected to Simultaneous Chlorine|J. Toxicol. Environ. Health10(6): 1017-1026|1982|10.1080/15287398209530313
14713|A||Harris,G.|The Comparative Toxicity of Crude and Refined Oils to Daphnia magna|Rep. Ser. No. EE-152, Environment Canada, Ottawa, Ontario:23 p.|1994|
14715|A||Hall,L.W.,Jr., M.C. Ziegenfuss, R.D. Anderson, T.D. Spittler, and H.C. Leichtweis|Influence of Salinity on Atrazine Toxicity to a Chesapeake Bay Copepod (Eurytemora affinis) and Fish (Cyprinodon variegatus)|Estuaries17(1B): 181-186|1994|10.2307/1352567
14716|A||Crossland,N.O.|A Mud-Sampling Technique for the Study of the Ecology of Aquatic Snails, and Its Use in the Evaluation of the Efficacy of Molluscicides in Field Trials|Bull. W. H. O.27:125-133|1962|
14717|AT||Brooker,M.P., and R.W. Edwards|Effects of the Herbicide Paraquat on the Ecology of a Reservoir. I. Botanical and Chemical Aspects|Freshw. Biol.3:157-175|1973|10.1111/j.1365-2427.1973.tb00070.x
14723|A||Cairns,J.,Jr.|The Effects of Dieldrin on Diatoms|Mosq. News28:177-179|1968|
14724|A||Goel,K.A., S.D. Sharma, and D.A.V. Maya|Biochemical and Enzymological Changes in Liver and Kidney of Clarias batrachus Following Lithium intoxication|Arh. Hig. Rada Toksikol.36(3): 249-253|1985|
14729|A||Hennig,H.F.K.O., and M.J. Orren|Flux of Cadmium Through a Laboratory Food Chain (Media-Algae-Mussel) and Its Effects|Water Sci. Technol.14(9-11): 1560-1561|1982|10.2166/wst.1982.0203
14730|A||Joshi,S.C., H.K. Pandit, S.K. Singh, and J.K. Vijaywat|Malathion Induced Changes in the Oxygen Consumption Rhythm of the Fish Mystus tengara (Ham.)|J. Hydrobiol.7(1): 67-69|1991|
14731|A||Doong,R.L., G.E. MacDonald, and D.G. Shilling|Effect of Fluridone on Chlorophyll, Carotenoid and Anthocyanin Content of Hydrilla|J. Aquat. Plant Manag.31:55-59|1993|
14732|A||Guerin,J.L., and W.B. Stickle|The Effects of Cadmium on the Survival and Bioenergetics of Juvenile Blue Crabs (Callinectes sapidus) at Different Salinities|Am. Zool.31(5): 113A|1991|
14733|A||Fort,D.J., E.L. Stover, J.R. Rayburn, M. Hull, and J.A. Bantle|Evaluation of the Developmental Toxicity of Trichloroethylene and Detoxification Metabolites Using Xenopus|Teratog. Carcinog. Mutagen.13(1): 35-45|1993|10.1002/tcm.1770130105
14734|A||Gauthier,L., Y. Levi, and A. Jaylet|Evaluation of the Clastogenicity of Water Treated with Sodium Hypochlorite or Monochloramine Using a Micronucleus Test in Newt Larvae (Pleurodeles waltl)|Mutagenesis4(3): 170-173|1989|10.1093/mutage/4.3.170
14735|A||Garg,V.K., S. Rani, and S.K. Tyagi|Changes in Alkaline Phosphatase Distribution in Indian Catfish Heteropneustes fossilis Exposed to Sublethal Concentration of Hilbeech|Uttar Pradesh J. Zool.7(2): 160-165|1987|
14736|A||Elder,J.H., C.A. Lembi, and D.J. Morre|Toxicity of 2,4-D and Picloram to Fresh and Salt Water Algae|Proc. North Cent. Weed Control Conf.25:96-98|1970|
14737|A||Tompkins,W.A.|Sevin Residues in Marine and Freshwater Aquatic Organisms|In: Publication No.547, Report of the Surveillance Prog.Conducted in Connection with an Application of Carbaryl (Sevin) for the Control of Gypsy Moth on Cape Cod, MA Pestic.Board Publ.,Boston MA:37-47|1966|
14738|A||Binns,N.A.|Effects of Rotenone Treatment on the Fauna of the Green River, Wyoming|Fish.Tech.Bull.No.1, Wyoming Game and Fish Comm., Cheyenne, WY:114-|1967|
14739|A||E.G. and G. Bionomics|Exposure of Fish to 14C-Benzidine: Accumulation, Distribution, and Elimination of 14C-Residues|Res.Rep., Allied Chemical Corp., Aquatic Toxicol.Lab., Wareham, MA:16 p. |1975|
14740|A||Blaylock,B.G., J.F. McCarthy, M.L. Frank, and P.T. Singley|Evaluation of OECD Guidelines for Testing of Chemicals with Aquatic Organisms|ORNL-5942, Dep.of Energy, Oak Ridge Natl.Lab., Oak Ridge, TN:175 p.|1983|
14743|A||Sauer,D.S.|The Mixed Function Oxidase Enzyme System in the Mummichog, Fundulus heteroclitus: Temporal Variation in a Wild Population|Ph.D.Thesis, University of South Carolina, Columbia, SC:117 p.|1986|
14744|A||Hoffmann,C.H., and E.W. Surber|Effects of Feeding DDT-Sprayed Insects to Fresh-Water Fish|Spec.Sci.Rep.Fish.No.3, Fish Wildl.Serv., Bur.Entomol.Plant Quarantine, U.S.D.I., Kearneysville, MD:9 p.|1946|
14745|A||Tjeerdema,R.S., W.S. Smith, L.B. Martello, R.J. Kauten, and D.G. Crosby|Interactions of Chemical and Natural Stresses in the Abalone (Haliotis rufescens) as Measured by Surface-Probe Localized 31P NMR|Mar. Environ. Res.42(1-4): 369-374|1996|10.1016/0141-1136(96)00075-X
14746|A||Davidson,B.M., A.O. Valkirs, and P.F. Seligman|Acute and Chronic Effects of Tributyltin on the Mysid Acanthomysis sculpta (Crustacea, Mysidacea)|In: Oceans 86, IEEE Publishing Services, New York, NY:1219-1225|1986|
14747|A||Cardwell,R.D., and A.W. Sheldon|A Risk Assessment Concerning the Fate and Effects of Tributyltins in the Aquatic Environment|In: Oceans 86, IEEE Publishing Services, New York, NY4:1117-1129|1986|
14748|A||Holbrook,F.R., and S.K. Agun|Field Trials of Pesticides to Control Larval Culicoides variipennis (Ceratopogonidae)|Mosq. News44(2): 233-235|1984|
14749|A||Phinney,K.D., and A.J. Sosiak|Fenitrothion Accumulation by Plants and Invertebrates in Two Experimentally-Sprayed Streams in New Brunswick|Environ.New Brunswick, Montreal Engineering Co., Ltd., Fredricton, New Brunswick, Can.:19 p.|1981|
14751|A||Nash,W.W., B.W. Poor, and K.D. Jenkins|The Uptake and Subcellular Distribution of Lead in Developing Sea Urchin Embryos|Comp. Biochem. Physiol. C Comp. Pharmacol.69(2): 205-211|1981|10.1016/0306-4492(81)90130-1
14752|A||Schatten,G., C. Simerly, and H. Schatten|Effects of Barium Sulfate on Sea Urchin Fertilization and Early Development|In: I.W.Duedall, D.R.Kester, P.K.Park, and B.H.Ketchum (Eds.), Wastes in the Ocean, Vol.4, Energy Wastes in the Ocean, Wiley-Interscience, New York, NY:323-339|1985|
14753|A||Hiripi,L., J. Nemcsok, and J. Salanki|The Effect of 5,6-Dihydroxytryptamine on the Serotonergic System of the Mussel Anodonta cygnea L|Comp. Biochem. Physiol. C Comp. Pharmacol.69(2): 407-410|1981|10.1016/0306-4492(81)90161-1
14754|A||Spehar,R.L.|Aquatic Toxicity Test Information on Acrolein with Fathead Minnows (Pimephales promelas) and Flagfish (Jordanella floridae)|U.S.EPA, Duluth, MN:5 p.|1989|
14755|A||Spehar,R.|Aquatic Toxicity Test Information on Phenol with Rainbow Trout (Salmo gairdneri)|U.S.EPA, Duluth, MN:3 p. |1989|
14756|A||Borthwick,P.W.|Unpublished Data on 65 Substances|Memo from P.W.Borthwick to T.W.Duke, U.S.EPA, Gulf Breeze, FL:2 p.|1977|
14758|A||Yang,W.X.|Morphological Study on the Inhibitory Effect of Germanium Dioxide on Growth and Development of Brown Algae|Sci. Pap. Inst. Algol. Res. Fac. Sci. Hokkaido Univ.9(1): 33-91|1993|
14759|A||Prabhudeva,K.N., and N.R. Menon|Metal Interaction During Accumulation in Perna indica.  I.  Effects of Silver on Copper Accumulation|In: R.Hirano and I.Hanyu (Eds.), Proc.of the 2nd Asian Fish.Forum, April 17-22, 1989, Tokyo, Japan, Asian Society, Manila, Philippines:951-954|1990|
14760|A||Wuenschel,M.J., and J. Sidie|The Effect of Ammonium Ion and Fish Density on Mortality in Bluegills|J. Penn. Acad. Sci.66 (Suppl.):209-|1993|
14761|A||Mount,D.R., and D.D. Gulley|Development of a Salinity/Toxicity Relationship to Predict Acute Toxicity of Saline Waters to Freshwater Organisms|Final Rep.GRI-92/0301, ENSR Contract No.5091-253-2160, ENSR Consult.and Eng., Ft.Collins, CO:146 p.|1992|
14762|A||Gibbs,K.E., T.M. Mingo, D.L. Courtemanch, and D.J. Stairs|The Effects on Pond Macroinvertebrates from Forest Spraying of Carbaryl (Sevin-4-Oil) and Its Persistence in Water and Sediment|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1980 Maine Cooperative Spruce Budworm Suppression Project, Maine Forest Service, Department of Conservation, Augusta, ME:121-147|1981|
14763|A||Saleh,H.H.|Study on Entrance and Accumulation of Pollutants Through the Different Organs and Tissues of Tilapia zillii Gerv. Living in Fresh and Saline Water|Bull. Inst. Oceanogr. Fish. (Cairo)8(1):81-86|1982|
14764|A||Reddy,C.R., C.V.N. Prasad, and B. Neelakantan|Toxic Effects of Linear Alkylebenzene Sulfonate (LAS) on Metapenaeus monoceros|Mahasagar23(1): 71-74|1990|
14766|A||Mudkhede,L.M., P.B. Dawale, and K. Lohgaonkar|Studies of the Toxicity of Some Acetophenones to Fish|Pollut. Res.4(2): 51-52|1985|
14767|A||Matida,Y., and N. Kawasaki|Study on the Toxicity of Agricultural Control Chemicals in Relation to Freshwater Fisheries Management No. 2.  Toxicity of Agricultural Insecticides to Daphnia carinata King|Bull. Freshw. Fish. Res. Lab. (Tokyo)8(1): 1-6|1958|
14769|A||Newman,J.F., and J.M. Way|Some Ecological Observations on the Use of Paraquat and Diquat as Aquatic Herbicides|Proc. Br. Weed Control Conf.:582-585|1966|
14770|A||Lucu,C., V. Obersnel, and O. Jelisavcic|Transport and Toxicity of Metal Pollutants to Marine Organisms|MAP Tech. Rep. Ser. (Multiple Languages)52:55-62|1991|
14771|A||Robson,T.O., M.C. Fowler, and S. Hanley|Observations on a Lake Treated with Terbutryne in Three Alternate Years|Int. Symp. Aquat. Weeds:303-313|1978|
14773|A||Bogaert,T., M.R. Samoiloff, and G. Persoone|Determination of the Toxicity of Four Heavy Metal Compounds and Three Carcinogens Using Two Marine Nematode Species, Monhystera microphthalma and Diplolaimelloides bruciei|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:21-30|1984|
14774|A||Houvenaghel,G.T.|The Hydroid Hydractinia echinata as a Suitable Bioassay Species for Low-Reacting Compounds|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:67-83|1984|
14775|A||Karbe,L., T. Borchardt, R. Dannenberg, and E. Meyer|Ten Years of Experience Using Marine and Freshwater Hydroid Bioassays|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:99-129|1984|
14776|A||Lassus,P., C. LeBaut, L. LeDean, M. Bardouil, P. Truquet, and G. Bocquene|The Use of Harpacticoid Copepods for Testing the Effects of Chemicals on Larval Production|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:131-142|1984|
14777|A||Falk-Petersen,I.B., and S. Lonning|Effects of Hydrocarbons on Eggs and Larvae of Marine Organisms|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:197-217|1984|
14778|A||Sundelin,B.|Single and Combined Effects of Lead and Cadmium on Pontoporeia affinis (Crustacea, Amphipoda) in Laboratory Soft-Bottom Microcosms|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:237-258|1984|
14779|A||Thompson,R.S., and E.M. Burrows|The Toxicity of Copper, Zinc, and Mercury to the Brown Macroalga Laminaria saccharina|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:259-269|1984|
14780|A||Blust,R., and W. Decleir|Development of a Flow-Through System for the Study of Toxicity and Bioaccumulation Processes in Aquatic Invertebrates|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:299-313|1984|
14781|A||Bengtson,D.A.S., A.D. Beck, S.M. Lussier, D. Migneault, and C.E. Olney|International Study on Artemia XXXI. Nutritional Effects in Toxicity Tests: Use of Different Artemia Geographical Strains|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:399-416|1984|
14782|A||Nolan,C., E. Sabbioni, E. Duke, and E. Marafante|Estimation of Cadmium Toxicity Using Cadmium-Binding Ligands in the Edible Mussel Mytilus edulis|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:417-430|1984|
14783|A||Sturesson,U.|In Situ Studies of Copper and Zinc Enrichment in Shell and Soft Tissue of Mytilus edulis|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:511-533|1984|
14784|A||Thompson,R.S.|Measurement of the Inhibition of Amino Acid Uptake. A Toxicity Test Procedure Using Mussels (Mytilus edulis)|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:535-545|1984|
14785|A||Benco,C., S. Cannarsa, I. Ceppodomo, and A. Zattera|Accumulation and Loss of Technetium by Macrophytic Algae|Comm.Eur.Communities EUR Rep.No.10102(18): 217-227|1986|
14786|A||Kubota,Z., K. Hayama, and Z. Kuriyama|Influence of pH and Agricultural Chemicals on the Loach, Misgurnus anguillicaudatus (Cantor)|J. Shimonoseki Univ. Fish.6(3): 327-336|1957|
14787|A||Koch,W., G. Harris, K.B. El Tigani, F.R. Hamza, M. Obeid, M. Akasha, V. Leffler, and T. Hafliger|Investigations on the Chemical Control of Eichhornia crassipes (Mart.) Solms in the Sudan|Int. Symp. Aquat. Weeds:415-427|1978|
14791|A||Evans,D.M.|Aquatic Weed Control with the Isopropylamine Salt of N-Phosphonomethyl Glycine|Int. Symp. Aquat. Weeds:171-178|1978|
14792|A||Best,E.P.H., and J.P. Wittenboer|Effects of Paraquat on Growth and Photosynthesis of Ceratophyllum demersum and Elodea canadensis|Int. Symp. Aquat. Weeds:157-162|1978|
14793|A||Bulcke,R.A.J.|Biology of Vaucheria dichotoma Agardh|Int. Symp. Aquat. Weeds:107-116|1978|
14794|A||Hwang,H.M., R.E. Hodson, and R.F. Lee|Photochemical and Microbial Degradation of 2,4,5-Trichloroaniline in a Freshwater Lake|Appl. Environ. Microbiol.50(5): 1177-1180|1985|10.1128/aem.50.5.1177-1180.1985
14795|A||Verthe,C., Z. Moureau, B. Mania, J. Van Baelen, D. Van der Ben, M. Cogneau, and C.M. Vandecasteele|Technetium in Marine Animals|In: G.Desmet and C.Myttenaere (Eds.), Technetium in the Environ., Elsevier.Sci.Publ.Co.Inc., New York, NY20:245-250|1986|
14797|A||Barrett,P.R.F.|The Effect of Spraying Large Plots of Nuphar lutea (L.) (Yellow Water-Lily) with Glyphosate|Proc. Br. Weed Control Conf.1:229-232|1974|
14798|A||Webbe,G.|The Application of a Molluscicide to the Mironga River in Mwanza, Tanganyika|Pflanzenschutz-Nachr.16:244-252|1963|
14799|A||Grupta,S., and T. Dubey|Effect of Water Pollutants on the Rate of Oxygen Uptake of Three Aquatic Fungi from India|Proc. W. Va. Acad. Sci.63(2-4): 82-88|1991|
14800|A||Strufe,R., and R. Gonnert|Comparative Studies on the Influence of Environmental Factors upon the Efficiency of Bayluscide|Pflanzenschutz-Nachr.15:50-70|1962|
14801|A||Dange,A.D., and V.B. Masurekar|Toluene Toxicity: Effects of Sublethal Levels on Enzyme Activities in Seawater Adapted Tilapia (Sarotherodon mossambicus Peters)|J. Biosci.3(2): 129-134|1981|10.1007/BF02702655
14802|A||Mathew,A., and T.V. Fernandez|Environmental Impact on the Byssogenic Responses of the Mollusc Perna indica|J. Ecobiol.4(3): 161-168|1992|
14805|A||Davies,P.H., and W.C. Gorman|Effects of Chemical Equilibria and Kinetics on the Bioavailability and Toxicity of Cadmium to Rainbow Trout|In: Am.Chem.Soc.Natl.Meeting194:646-650|1987|
14806|A||Brooker,M.P., and R.W. Edwards|Effects of the Herbicide Paraquat on the Ecology of a Reservoir, III. Fauna and General Discussion|Freshw. Biol.4(4): 311-335|1974|10.1111/j.1365-2427.1974.tb00101.x
14807|A||Panigrahi,A., A.K. Dasmahapatra, and A.K. Medda|Effect of Lead, Zinc, Mercury, and Copper with and without Estrogen on Serum Vitellogenin Level in Magur Fish (Clarias batrachus L.)|Gegenbaurs Morphol. Jahrb.136(6): 775-780|1990|
14808|A||Yap,H.H., and S.C. Ho|Evaluation of Dursban and Dowco 214 as Mosquito Larvicides in Rice-Fields|Southeast Asian J. Trop. Med. Public Health8(1): 63-70|1977|
14809|A||Kjorsvik,E.|Morphological and Ultrastructural Effects of Xylenes upon the Embryonic Development of the Cod (Gadus morhua L.)|N. Z. J. Mar. Freshw. Res.20(2): 65-71|1986|
14810|T||Hallbom,L., and B. Bergman|Influence of Certain Herbicides and a Forest Fertilizer on the Nitrogen Fixation by the Lichen Peltigera praetextata|Oecologia40(1): 19-27|1979|10.1007/BF00388807
14811|A||Clarke,G.L.|Poisoning and Recovery in Barnacles and Mussels|Biol. Bull.92:73-91|1947|10.2307/1537968
14812|A||James,R., K. Sampath, G. Devakiamma, and V. Jancy Pattu|Interaction of Different Physico-Chemical and Biological Parameters on Zinc Uptake in Water Hyacinth, Eichhornia crassipes|Indian J. Exp. Biol.30(7): 640-643|1992|
14813|A||Chen,T., A. Furst, and P.K. Chien|The Effects of Cadmium and Iron on Catalase Activities in Tubifex|J. Am. Coll. Toxicol.13(2): 112-120|1994|10.3109/10915819409140992
14817|A||Speyer,M.R.|Some Effects of Chronic Combined Arsenic and Cyanide Poisoning on the Physiology of Rainbow Trout|M.S.Thesis, Concordia University, Montreal, Canada:|1975|
14818|A||Manna,G.K., and A. Sadhukhan|Cytogenetical Assays of Fish, Oreochromis mossambicus Treated with an Organochlorine Insecticide, Aldrex 30|Kromosomo65:2173-2182|1992|
14820|A||Jayaseeli,A.C., and J. Azariah|Accumulation and Distribution of Zinc in Green Mussel Perna viridis (Linnaeus)|Pollut. Res.12(3): 127-133|1993|
14822|A||Lazinsky,D., and L. Sicko-Goad|Ultrastructural Modification of Three Blue-Green Algae Following Heavy Metal Exposure|Micron Microsc. Acta14(3): 257-258|1983|10.1016/0047-7206(83)90058-4
14824|A||Getsinger,K.D., and H.E. Westerdahl|Evaluation of Endothall/Adjuvant Mixtures in Flowing Water|Final Rep.No.A-88-1, Army Engineer Waterways Exp.Station, Vicksburg, MS:20 p.|1988|
14825|A||Green,W.R., and H.E. Westerdahl|Persistence of Dichlobenil in Lake Seminole, Georgia|Final Rep.No.A-88-6, Army Engineer Waterways Exp.Station, Vicksburg, MS:21-|1988|
14827|A||Arsenovic,M., A. Stankovic, M. Dimitrijevic, and B. Konstantinovic|Investigations into the Control of Submersed Vegetation in an Irrigation System by Specific Herbicides|Int. Symp. Aquat. Weeds:177-184|1982|
14828|A||Reynolds,J.H., E.J. Middlebrooks, D.B. Porcella, and W.J. Grenney|Comparison of Semi-Continuous and Continuous Flow Bioassays|In: Middlebrooks,E.J., D.H.Falkenborg, and T.E.Maloney (Eds.), Biostimulation and Nutrient Assessment, Civil and Environ.Engin., Utah State Univ., Logan, UT:241-265|1976|
14830|A||Cheng,T.C.|Effects of In Vivo Exposure of Crassostrea virginica to Heavy Metals on Hemocyte Viability and Activity Levels of Lysosomal Enzymes|In: Pathology in Mar.Sci., Proc.of the Third Int.Collequium on Pathology in Mar.Aquacult., Oct.2-6, Gloucester Point, VA:513-524|1990|
14831|A||Memmert,U.|Seasonal Variation of Heavy Metal Concentration (Cd, Pb, Zn) in Four Ponds and Occurrence of Daphnia|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:679-681|1985|
14833|A||Maki,A.W.|An Environmental Safety Evaluation of Detergent Chemicals in Estuarine Ecosystems|In: Proc. of the Workshop on Agrichemicals and Estuarine Productivity, Duke Univ. Mar. Lab. , Sept. 18-19, Beaufort, NC:221-242|1980|
14835|A||Pandey,A.K., K.C. George, and M. Peer Mohamed|Effect of Mercuric Chloride on Thyroid Gland of Liza parsia (Hamilton - Buchanan)|J. Adv. Zool.14(1): 15-19|1993|
14836|A||Rao,V.N.R., and V. Sivasubramanian|Physiological Responses of Some Marine Diatom Cultures to the Presence of Heavy Metals|In: R.C.Sharma (Ed.), The Oceans: Realities and Prospects, Rajesh Publ., New Delhi, India18:243-268|1985|
14838|A||Ram,R.N., and A.G. Sathyanesan|Effect of Mercuric Chloride on Thyroid Function in the Teleostean Fish Channa punctatus (Bloch)|Matsya9-10:194-196|1984|
14840|A||Drew,E.A., F.D. Smith, and W. Wilkinson|Ecological Effects in Three Ponds, UK, 1976-77. 1. Description of Ponds and Treatment|ICI Plant Prot.Div.Rep.No.TMJ1473B:34-|1977|
14842|A||Hemelraad,J., H.J. Herwig, D.A. Holwerda, and D.I. Zandee|Accumulation, Distribution and Localization of Cadmium in the Freshwater Clam, Anodonta sp.|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:165-167|1985|
14843|A||Qureshi,J.A., and P.M. Stokes|Mechanism of Heavy Metal Tolerance in a Green Alga (Scenedesmus sp.) an Ultrastructural View|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:156-158|1985|
14844|A||Herwig,H.J., J. Hemelraad, D.A. Holwerda, and D.I. Zandee|Subcellular Localization of Cadmium and Tin|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:40-43|1985|
14846|A||Scanes,P.R., R.A. Mann, T.M. Manning, and J.C. Chapman|Observations on the Biota of an Estuarine Beach at Hardys Bay (NSW, Australia) Following a Spillage of Aldrin|Mar. Pollut. Bull.26(12): 687-691|1993|10.1016/0025-326X(93)90552-U
14847|A||Di Marzio,W.D., and M.C. Tortorelli|Acute Toxicity of Paraquat and No-Inhibitory Chronic Effect on Brain Acetylcholinesterase Activity of Freshwater Fish Bryconamericus iheringii (Pisces, Characidae)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(6): 701-709|1993|
14848|A||Key,P.B., and M.H. Fulton|Lethal and Sublethal Effects of Chlorpyrifos Exposure on Adult and Larval Stages of the Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(5): 621-640|1993|
14849|A||Pandya,S.S., and K.S. Rao|Studies on the Toxicological Effects of Asulox-40 and Emisan-6 to Eggs and Early Life History Stages of Sarotherodon mossambicus|Fish. Technol.23(2): 167-170|1986|
14850|A||Mohan,C.V., N.R. Menon, and T.R.C. Gupta|Filtration in Some Tropical Intertidal Bivalves Exposed to Mercury and Cadmium Mixtures|Fish. Technol.23(2): 204-210|1986|
14851|A||Prabhudeva,K.N., and N.R. Menon|Oxygen Consumption Under Copper and Zinc Stress in Perna viridis|Fish. Technol.23(1): 24-26|1986|
14852|A||Mohan,C.V., N.R. Menon, and T.R.C. Gupta|Acute Toxicity of Cadmium to Six Intertidal Invertebrates|Fish. Technol.21(1): 1-5|1984|
14854|A||Ankley,G.T., R.J. Erickson, G.L. Phipps, V.R. Mattson, P.A. Kosian, B.R. Sheedy, and J.S. Cox|Effects of Light Intensity on the Phototoxicity of Fluoranthene to a Benthic Macroinvertebrate|Environ. Sci. Technol.29(11): 2828-2833|1995|10.1021/es00011a019
14855|A||Puddu,A., M. Pettine, F. Bacciu, T. La Noce, and R. Pagnotta|Thallium and Chromium Toxicity in Phytoplankton Cultures|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:304-306|1985|
14858|A||Gimeno,L., M.D. Ferrando, S. Sanchez, and E. Andreu|Endosulfan Effects on Liver and Blood of the Eel, Anguilla anguilla|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.108(3): 343-348|1994|
14860|A||Gyore,K., J. Olah, and G. Kovacs|Effect of Various (Unionized) Ammonia (NH3) Concentrations on the Respiration of Daphnia magna Strauss (Cladocera) Species|Aquac. Hung. (Szarvas)3:69-75|1982|
14861|A||Guylas,P., and B. Csanyi|Acute Toxic Effect of Different Insecticides on Three Fish Species|Aquac. Hung. (Szarvas)4:79-85|1984|
14862|A||Abbe,G.R., J.G. Sanders, and G.F. Riedel|Silver Uptake by the Oyster (Crassostrea virginica): Effect of Organism Size and Storage Sites|Estuar. Coast. Shelf Sci.39(3): 249-260|1994|10.1006/ecss.1994.1062
14863|A||Slooff,W.|A Comparative Study on the Short-Term Effects of 15 Chemicals on Fresh Water Organisms of Different Tropic Levels|Natl.Tech.Inf.Serv., Springfield, VA:25 p.|1982|
14865|A||Roux,D.J., P.L. Kempster, E. Truter, and L. Van der Merwe|Effect of Cadmium and Copper on Survival and Reproduction of Daphnia pulex|Water SA19(4): 269-274|1993|
14866|A||Neufeld,G.J., and J.B. Pritchard|An Assessment of DDT Toxicity on Osmoregulation and Gill Na,K-ATPase Activity in the Blue Crab|ASTM Spec. Tech. Publ.33:326-|1979|
14867|A||Cassie,V.|Effects of Spraying on Phytoplankton in Lake Rotorua, 1966|In: V.J.Chapman and C.A.Bell (Eds.), Rotorua and Waikato Water Weeds: Problems and the Search for a Solution, Univ.of Aukland, New Zealand:31-40|1967|
14868|A||Thurston,R.V., and E.L. Meyn|Acute Toxicity of Ammonia to Five Fish Species from the Northwest United States|Tech.Rep.No.84-4, Fish.Bioassay Lab., Montana State Univ., Bozeman, MT:13 p.|1984|
14870|A||Machale,P.R., A.K. Khan, R. Sarojini, and R. Nagabhushanam|Copper and Cadmium Induced Changes in Blood Sugar Level of the Crab, Barytelphusa cunicularis|Uttar Pradesh J. Zool.9(1): 113-115|1989|
14871|A||Dojlido,J.R.|Investigations of Biodegradability and Toxicity of Organic Compounds|EPA 600/2-79-163, U.S.EPA, Cincinnati, OH:99 p.|1979|
14872|A||Belanger,S.E., E.M. Meiers, and R.G. Bausch|Direct and Indirect Ecotoxicological Effects of Alkyl Sulfate and Alkyl Ethoxysulfate on Macroinvertebrates in Stream Mesocosms|Aquat. Toxicol.33(1): 65-87|1995|10.1016/0166-445X(95)00008-R
14873|A||Arnold,H., H.J. Pluta, and T. Braunbeck|Simultaneous Exposure of Fish to Endosulfan and Disulfoton In Vivo:  Ultrastructural, Stereological and Biochemical Reactions in Hepatocytes of Male Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.33(1): 17-43|1995|10.1016/0166-445X(95)00006-P
14874|A||Persoone,G., C. Blaise, T. Snell, C. Janssen, and M. Van Steertegem|Cyst-Based Toxicity Tests:  II.  Report on an International Intercalibration Exercise with Three Cost-Effective Toxkits|Z. Angew. Zool. (Multiple Languages)79(1): 17-36|1993|
14875|A||Helmstetter,M.F., and R.W. Alden III|Passive trans-Chorionic Transport of Toxicants in Topically Treated Japanese Medaka (Oryzias latipes) Eggs|Aquat. Toxicol.32(1): 1-13|1995|10.1016/0166-445X(94)00058-X
14876|A||Helmstetter,M.F., and R.W. Alden III|Toxic Responses of Japanese Medaka (Oryzias latipes) Eggs Following Topical and Immersion Exposures to Pentachlorophenol|Aquat. Toxicol.32(1): 15-29|1995|10.1016/0166-445X(94)00059-Y
14877|A||Stouthart,A.J.H.X., F.A.T. Spanings, R.A.C. Lock, and S.E. Wendelaar Bonga|Effects of Water pH on Chromium Toxicity to Early Life Stages of the Common Carp (Cyprinus carpio)|Aquat. Toxicol.32(1): 31-42|1995|10.1016/0166-445X(94)00079-6
14878|A||LeMaire-Gony,S., P. Lemaire, and A.L. Pulsford|Effects of Cadmium and Benzo(a)pyrene on the Immune System, Gill ATPase and EROD Activity of European Sea Bass Dicentrarchus labrax|Aquat. Toxicol.31(4): 297-313|1995|10.1016/0166-445X(94)00073-Y
14879|A||Barry,M.J., D.C. Logan, R.A. Van Dam, J.T. Ahokas, and D.A. Holdway|Effect of Age and Weight-Specific Respiration Rate on Toxicity of Esfenvalerate Pulse-Exposure to the Australian Crimson-Spotted Rainbow Fish (Melanotaenia fluviatilis)|Aquat. Toxicol.32(2/3): 115-126|1995|10.1016/0166-445X(94)00084-4
14880|A||Zabel,E.W., P.M. Cook, and R.E. Peterson|Toxic Equivalency Factors of Polychlorinated Dibenzo-p-Dioxin, Dibenzofuran and Biphenyl Congeners Based on Early Life Stage Mortality in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.31(4): 315-328|1995|10.1016/0166-445X(94)00075-2
14881|A||De Boeck,G., H. De Smet, and R. Blust|The Effect of Sublethal Levels of Copper on Oxygen Consumption and Ammonia Excretion in the Common Carp, Cyprinus carpio|Aquat. Toxicol.32(2-3): 127-141|1995|10.1016/0166-445X(94)00086-6
14882|A||Croce,B., R.M. Stagg, and M. Smith|Effects of Exposure to a Combination of beta-Naphthoflavone and Resin Acids on Biotransformation Enzymes in Atlantic Salmon Parr (Salmo salar)|Aquat. Toxicol.32(2/3): 161-176|1995|10.1016/0166-445X(94)00088-8
14883|A||Watt,P.J., and R.S. Oldham|The Effect of Ammonium Nitrate on the Feeding and Development of Larvae of the Smooth Newt, Triturus vulgaris (L.), and on the Behaviour of Its Food Source, Daphnia|Freshw. Biol.33(2): 319-324|1995|10.1111/j.1365-2427.1995.tb01170.x
14884|A||Crane,M.|Effect of Zinc on Four Populations and Two Generations of Gammarus pulex (L.)|Freshw. Biol.33(1): 119-126|1995|10.1111/j.1365-2427.1995.tb00392.x
14885|A||Musselman,N.J., M.S. Peterson, and W.J. Diehl|The Influence of Salinity and Prey Salt Content on Growth and Intestinal Na+/K+-ATPase Activity of Juvenile Bluegill, Lepomis macrochirus|Environ. Biol. Fishes42(3): 303-311|1995|10.1007/BF00004924
14886|A||Doke,J.L., W.H. Funk, S.T.J. Juul, and B.C. Moore|Habitat Availability and Benthic Invertebrate Population Changes Following Alum Treatment and Hypolimnetic Oxygenation in Newman Lake, Washington|J. Freshw. Ecol.10(2): 87-102|1995|10.1080/02705060.1995.9663423
14887|A||Gray,B.R., and W.R. Hill|Nickel Sorption by Periphyton Exposed to Different Light Intensities|J. North Am. Benthol. Soc.14(2): 299-305|1995|10.2307/1467781
14888|A||Steadman,B.L.|Xenobiotic Metabolism in Rainbow Trout:  Toxicology, Biochemistry and Biomonitoring|Ph.D.Thesis, University of Wyoming, Laramie, WY:182 p.|1986|
14889|A||Hanazato,T., and S.I. Dodson|Synergistic Effects of Low Oxygen Concentration, Predator Kairomone, and a Pesticide on the Cladoceran Daphnia pulex|Limnol. Oceanogr.40(4): 700-709|1995|10.4319/lo.1995.40.4.0700
14890|A||Beaumont,A.R., P.B. Newman, D.K. Mills, M.J. Waldock, D. Miller, and M.E. Waite|Sandy-Substrate Microcosm Studies on Tributyltin (TBT) Toxicity to Marine Organisms|In: J.Ros (Ed.), Topics in Marine Biology, Proc.22nd European Mar.Biol.Symp., Barcelona, Spain53(2-3): 737-743|1989|
14891|A||Langevoord,M., M.H.S. Kraak, M.H. Kraal, and C. Davids|Importance of Prey Choice for Cd Uptake by Carp (Cyprinus carpio) Fingerlings|J. North Am. Benthol. Soc.14(3): 423-429|1995|10.2307/1467208
14896|A||Green,W.R., and H.E. Westerdahl|2,4-D Concentration and Exposure Time Relationships for the Control of Eurasian Watermilfoil|Misc.Pap.No.A-88-8, Army Engineer Waterways Exp.Station, Vicksburg, MS:22 p.|1988|
14897|A||Hoffman,E.R., and S.W. Fisher|Comparison of a Field and Laboratory-Derived Population of Chironomus riparius (Diptera: Chironomidae): Biochemical and Fitness Evidence for Population Divergence|J. Econ. Entomol.87(2): 318-325|1994|10.1093/jee/87.2.318
14898|A||Pavlov,D.F.|A Simple Pharmacological Analysis of the Cholinergic Control of Respiration in Perch (Perca fluviatilis L.) Exposed to DDVP, an Organophosphorus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.108(1): 107-111|1994|10.1016/0300-9629(94)90061-2
14899|A||Getsinger,K.D., G.O. Dick, R.M. Crouch, and L.S. Nelson|Mesocosm Evaluation of Bensulfuron Methyl Activity on Eurasian Watermilfoil, Vallisneria, and American Pondweed|J. Aquat. Plant Manag.32:1-6|1994|
14900|A||Barque,J.P., A. Abahamid, Y. Bourezgui, H. Chacun, and J. Bonaly|Growth Responses of Achlorophyllous Euglena gracilis to Selected Concentrations of Cadmium and Pentachlorophenol|Arch. Environ. Contam. Toxicol.28(1): 8-12|1995|10.1007/BF00213962
14901|A||Kreutzweiser,D.P., D.G. Thompson, S.S. Capell, D.R. Thomas, and B. Staznik|Field Evaluation of Triclopyr Ester Toxicity to Fish|Arch. Environ. Contam. Toxicol.28(1): 18-26|1995|10.1007/BF00213964
14902|A||Beyers,D.W., M.S. Farmer, and P.J. Sikoski|Effects of Rangeland Aerial Application of Sevin-4-Oil on Fish and Aquatic Invertebrate Drift in the Little Missouri River, North Dakota|Arch. Environ. Contam. Toxicol.28(1): 27-34|1995|10.1007/BF00213965
14903|A||Paul,E.A., H.A. Simonin, J. Symula, and R.W. Bauer|The Toxicity of Diquat, Endothall, and Fluridone to the Early Life Stages of Fish|J. Freshw. Ecol.9(3): 229-239|1994|10.1080/02705060.1994.9664890
14904|A||Beaugelin-Seiller,K., J.P. Baudin, and C. Casellas|Experimental Study of the Effects of Various Factors on the Uptake of 60Co by Freshwater Mosses|Arch. Environ. Contam. Toxicol.28(1): 125-133|1995|10.1007/BF00213977
14905|A||Kasai,F., and T. Hanazato|Genetic Changes in Phytoplankton Communities Exposed to the Herbicide Simetryn in Outdoor Experimental Ponds|Arch. Environ. Contam. Toxicol.28(2): 154-160|1995|10.1007/BF00217610
14906|A||Frankovic,L., M.A.Q. Khan, and S.M.A. Ghais|Metabolism of Hexachlorobenzene in the Fry of Steelhead Trout, Salmo gairdneri (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.28(2): 209-214|1995|10.1007/BF00217618
14907|A||Phipps,G.L., V.R. Mattson, and G.T. Ankley|Relative Sensitivity of Three Freshwater Benthic Macroinvertebrates to Ten Contaminants|Arch. Environ. Contam. Toxicol.28(3): 281-286|1995|10.1007/BF00213103
14908|A||Holcombe,G.W., D.A. Benoit, D.E. Hammermeister, E.N. Leonard, and R.D. Johnson|Acute and Long-Term Effects of Nine Chemicals on the Japanese Medaka (Oryzias latipes)|Arch. Environ. Contam. Toxicol.28(3): 287-297|1995|10.1007/BF00213104
14909|A||Claveri,B., and C. Mouvet|Temperature Effects on Copper Uptake and CO2 Assimilation by the Aquatic Moss Rhynchostegium riparioides|Arch. Environ. Contam. Toxicol.28(3): 314-320|1995|10.1007/BF00213108
14910|A||Hall,L.W.,Jr., M.C. Ziegenfuss, R.D. Anderson, and D.P. Tierney|The Influence of Salinity on the Chronic Toxicity of Atrazine to an Estuarine Copepod:  Implications for Development of an Estuarine Chronic Criterion|Arch. Environ. Contam. Toxicol.28(3): 344-348|1995|10.1007/BF00213112
14911|A||Alvarez,R., M.P. Honrubia, and M.P. Herraez|Skeletal Malformations Induced by the Insecticides ZZ-Aphox and Folidol During Larval Development of Rana perezi|Arch. Environ. Contam. Toxicol.28(3): 349-356|1995|10.1007/BF00213113
14912|A||Lee,T.H., P.P. Hwang, and H.C. Lin|Morphological Changes of Integumental Chloride Cells to Ambient Cadmium During the Early Development of the Teleost, Oreochromis mossambicus|Environ. Biol. Fishes45(1): 95-102|1996|10.1007/BF00000631
14913|A||Monda,D.P., D.L. Galat, S.E. Finger, and M.S. Kaiser|Acute Toxicity of Ammonia (NH3-N) in Sewage Effluent to Chironomus riparius: II. Using a Generalized Linear Model|Arch. Environ. Contam. Toxicol.28(3): 385-390|1995|
14914|A||Stay,F.S., and A.W. Jarvinen|Use of Microcosm and Fish Toxicity Data to Select Mesocosm Treatment Concentrations|Arch. Environ. Contam. Toxicol.28(4): 451-458|1995|10.1007/BF00211627
14915|A||Barry,M.J., K. O'Halloran, D.C. Logan, J.T. Ahokas, and D.A. Holdway|Sublethal Effects of Esfenvalerate Pulse-Exposure on Spawning and Non-spawning Australian Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis)|Arch. Environ. Contam. Toxicol.28(4): 459-463|1995|10.1007/BF00211628
14916|A||Rice,C.D., M.M. Banes, and T.C. Ardelt|Immunotoxicity in Channel Catfish, Ictalurus punctatus, Following Acute Exposure to Tributyltin|Arch. Environ. Contam. Toxicol.28(4): 464-470|1995|10.1007/BF00211629
14917|A||Boisson,F., M. Gnassia-Barelli, and M. Romeo|Toxicity and Accumulation of Selenite and Selenate in the Unicellular Marine Alga Cricosphaera elongata|Arch. Environ. Contam. Toxicol.28(4): 487-493|1995|10.1007/BF00211631
14918|A||Juchelka,C.M., and T.W. Snell|Rapid Toxicity Assessment Using Ingestion Rate of Cladocerans and Ciliates|Arch. Environ. Contam. Toxicol.28(4): 508-512|1995|10.1007/BF00211634
14919|A||Hwang,P.P., S.W. Lin, and H.C. Lin|Different Sensitivities to Cadmium in Tilapia Larvae (Oreochromis mossambicus; Teleostei)|Arch. Environ. Contam. Toxicol.29(1): 1-7|1995|10.1007/BF00213078
14920|A||Allen,P.|Chronic Accumulation of Cadmium in the Edible Tissues of Oreochromis aureus (Steindachner): Modification by Mercury and Lead|Arch. Environ. Contam. Toxicol.29(1): 8-14|1995|10.1007/BF00213079
14921|A||Beyers,D.W.|Acute Toxicity of Rodeo Herbicide to Rio Grande Silvery Minnow as Estimated by Surrogate Species: Plains Minnow and Fathead Minnow|Arch. Environ. Contam. Toxicol.29(1): 24-26|1995|10.1007/BF00213082
14922|A||Morgado,J.M., and A.M.V.M. Soares|Activity of Pyruvate Kinase and Malate Dehydrogenase in Daphnia magna Under 3,4-Dichloroaniline Stress|Arch. Environ. Contam. Toxicol.29(1): 94-96|1995|10.1007/BF00213092
14923|A||Kubitz,J.A., E.C. Lewek, J.M. Besser, J.B. Drake III, and J.P. Giesy|Effects of Copper-Contaminated Sediments on Hyalella azteca, Daphnia magna, and Ceriodaphnia dubia:  Survival, Growth, and Enzyme Inhibition|Arch. Environ. Contam. Toxicol.29(1): 97-103|1995|10.1007/BF00213093
14924|A||Malchow,D.E., A.W. Knight, and K.J. Maier|Bioaccumulation and Toxicity of Selenium in Chironomus decorus Larvae fed a Diet of Seleniferous Selenastrum capricornutum|Arch. Environ. Contam. Toxicol.29(1): 104-109|1995|10.1007/BF00213094
14925|A||Camargo,J.A., and T.W. La Point|Fluoride Toxicity to Aquatic Life: A Proposal of Safe Concentrations for Five Species of Palearctic Freshwater Invertebrates|Arch. Environ. Contam. Toxicol.29(2): 159-163|1995|10.1007/BF00212965
14926|A||Bester,K., H. Huhnerfuss, U. Brockmann, and H.J. Rick|Biological Effects of Triazine Herbicide Contamination on Marine Phytoplankton|Arch. Environ. Contam. Toxicol.29(3): 277-283|1995|10.1007/BF00212490
14927|A||Serrano,R., F. Hernandez, J.B. Pena, V. Dosda, and J. Canales|Toxicity of Bioconcentration of Selected Organophosphorus Pesticides in Mytilus galloprovincialis and Venus gallina|Arch. Environ. Contam. Toxicol.29(3): 284-290|1995|10.1007/BF00212491
14928|A||Taylor,E.J., J.E. Morrison, S.J. Blockwell, A. Tarr, and D. Pascoe|Effects of Lindane on the Predator-Prey Interaction Between Hydra oligactis Pallas and Daphnia magna Strauss|Arch. Environ. Contam. Toxicol.29(3): 291-296|1995|10.1007/BF00212492
14929|A||Murphy,D.L., and J.W. Gooch|Accumulation of cis and trans Chlordane by Channel Catfish During Dietary Exposure|Arch. Environ. Contam. Toxicol.29(3): 297-301|1995|10.1007/BF00212493
14930|A||Laverock,M.J., M. Stephenson, and C.R. MacDonald|Toxicity of Iodine, Iodide, and Iodate to Daphnia magna and Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.29(3): 344-350|1995|10.1007/BF00212499
14931|A||Rosetta,T.N., and A.W. Knight|Bioaccumulation of Selenate, Selenite, and Seleno-DL-Methionine by the Brine Fly Larvae Ephydra cinerea Jones|Arch. Environ. Contam. Toxicol.29(3): 351-357|1995|10.1007/BF00212500
14932|A||Ham,L., R. Quinn, and D. Pascoe|Effects of Cadmium on the Predator-Prey Interaction Between the Turbellarian Dendrocoelum lacteum (Muller, 1774) and the Isopod Crustacean Asellus|Arch. Environ. Contam. Toxicol.29(3): 358-365|1995|10.1007/BF00212501
14933|A||Kolb,L.P., D.B. Porcella, and E.J. Middlebrooks|Ecological Implications of Dimethyl Mercury in an Aquatic Food Chain|PRWG105-2 Utah Water Research Laboratory, Utah State University, Logan, UT:50 p.|1973|
14934|A||Zeni,C., A. Stagni Caligiuri, and M.R. Bovolenta|Damage and Recovery of Ictalurus sp. Barbel Taste Buds Exposed to Sublethal Concentrations of an Anionic Detergent|Aquat. Toxicol.31(2): 113-123|1995|10.1016/0166-445X(94)00069-3
14935|A||Regoli,F., and G. Principato|Glutathione, Glutathione-Dependent and Antioxidant Enzymes in Mussel, Mytilus galloprovincialis, Exposed to Metals Under Field and Laboratory Conditions: Implications for the Use of Biochemical Biomarkers|Aquat. Toxicol.31(2): 143-164|1995|10.1016/0166-445X(94)00064-W
14936|A||Cid,A., C. Herrero, E. Torres, and J. Abalde|Copper Toxicity on the Marine Microalga Phaeodactylum tricornutum: Effects on Photosynthesis and Related Parameters|Aquat. Toxicol.31(2): 165-174|1995|10.1016/0166-445X(94)00071-W
14937|A||Fahl,G.M., L. Kreft, R. Altenburger, M. Faust, W. Boedeker, and L.H. Grimme|pH-Dependent Sorption, Bioconcentration and Algal Toxicity of Sulfonylurea Herbicides|Aquat. Toxicol.31(2): 175-187|1995|10.1016/0166-445X(94)00067-Z
14938|A||Catallo,W.J., D.G. Hoover, and D. Vargas|Effects of an Environmental Toxicant on Ultrastructure in Paramecium caudatum and the Protective Effect of Dissolved Calcium|Aquat. Toxicol.29(3/4): 291-303|1994|10.1016/0166-445X(94)90073-6
14939|A||Srivastava,S.J., N.D. Singh, A.K. Srivastava, and R. Sinha|Acute Toxicity of Malachite Green and Its Effect on Certain Blood Parameters of a Catfish, Heteropneustes fossilis|Aquat. Toxicol.31(3): 241-247|1995|10.1016/0166-445X(94)00061-T
14940|A||Hall,J.F., H.E. Westerdahl, and T.J. Stewart|Growth Reponse of Myriophyllum spicatum and Hydrilla verticillata when Exposed to Continuous, Low Concentrations of Fluridone|Tech.Rep.A-84-1, U.S.Army Engineer Waterways Exp.Station, Vicksburg, MS:22 p.|1984|
14941|A||Larkin,P.A., P.J. Ellickson, and D. Lauriente|The Effects of Toxaphene on the Fauna of Paul Lake British Columbia|British Columbia Fish Wildl.Branch, Fish.Manage.Publ.No.14:28-|1970|
14942|A||Julli,M., and F.R. Krassoi|Acute and Chronic Toxicity of the Thiocarbamate Herbicide, Molinate, to the Cladoceran Moina australiensis Sars|Bull. Environ. Contam. Toxicol.54(5): 690-694|1995|10.1007/BF00206100
14943|A||Dash,R.C., P.K. Mohapatra, and R.C. Mohanty|Salt Induced Changes in the Growth of Chlorococcum humicolo and Scenedesmus bijugatus Under Nutrient Limited Cultures|Bull. Environ. Contam. Toxicol.54(5): 695-702|1995|10.1007/BF00206101
14944|A||Tisler,T., and J. Zagorc-Koncan|Relative Sensitivity of Some Selected Aquatic Organisms to Phenol|Bull. Environ. Contam. Toxicol.54(5):717-723|1995|10.1007/BF00206104
14945|A||Pelletier,E., and C. Audet|Tissue Distribution and Histopathological Effects of Dietary Methylmercury in Benthic Grubby Myoxocephalus aenaeus|Bull. Environ. Contam. Toxicol.54(5): 724-730|1995|10.1007/BF00206105
14946|A||Khan,A.A., and S.S. Semalulu|Ultrastructural and Biochemical Effects of 3-Methylcholanthrene in Rainbow Trout|Bull. Environ. Contam. Toxicol.54(5): 731-736|1995|10.1007/BF00206106
14947|A||Tadros,M.G., J. Phillips, H. Patel, and V. Pandiripally|Differential Response of Marine Diatoms to Solvents|Bull. Environ. Contam. Toxicol.54(6): 924-929|1995|10.1007/BF00197980
14948|A||Jarboe,H.H., and R.P. Romaire|Response of Procambarid Crayfish Populations to Permethrin Applications in Earthen Ponds|Bull. Environ. Contam. Toxicol.55(1): 58-64|1995|10.1007/BF00212389
14949|A||Lustigman,B., L.H. Lee, and C. Weiss-Magasic|Effects of Cobalt and pH on the Growth of Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.55(1): 65-72|1995|10.1007/BF00212390
14950|A||Lustigman,B., L.H. Lee, and A. Khalil|Effects of Nickel and pH on the Growth of Chlorella vulgaris|Bull. Environ. Contam. Toxicol.55(1):73-80|1995|10.1007/BF00212391
14951|A||Ahsanullah,M., and W. Ying|Toxic Effects of Dissolved Copper on Penaeus merguiensis and Penaeus monodon|Bull. Environ. Contam. Toxicol.55(1): 81-88|1995|10.1007/BF00212392
14952|A||Burton,D.T., and S.D. Turley|Reduction of Hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) Toxicity to the Cladoceran Ceriodaphnia dubia Following Photolysis in Sunlight|Bull. Environ. Contam. Toxicol.55(1): 89-95|1995|10.1007/BF00212393
14953|A||Rana,B.C., and J.I.N. Kumar|Observations on the Effect of the Herbicide Isoproturon on Aquatic Targets and Associated Organisms|Bull. Environ. Contam. Toxicol.55(1): 104-110|1995|10.1007/BF00212395
14955|A||Reddy,A.N., N.B.R. Venugopal, and S.L.N. Reddy|Effect of Endosulfan 35 EC on Some Biochemical Changes in the Tissues and Haemolymph of a Freshwater Field Crab, Barytelphusa guerini|Bull. Environ. Contam. Toxicol.55(1): 116-121|1995|10.1007/BF00212397
14956|A||Tang,J.X., and B.D. Siegfried|Comparative Uptake of a Pyrethroid and Organophosphate Insecticide by Selected Aquatic Insects|Bull. Environ. Contam. Toxicol.55(1): 130-135|1995|10.1007/BF00212399
14957|A||Schuytema,G.S., A.V. Nebeker, and W.L. Griffis|Comparative Toxicity of Guthion and Guthion 2S to Xenopus laevis and Pseudacris regilla Tadpoles|Bull. Environ. Contam. Toxicol.54(3): 382-388|1995|10.1007/BF00195109
14958|A||Stuijfzand,S.C., M.H.S. Kraak, Y.A. Wink, and C. Davids|Short-Term Effects of Nickel on the Filtration Rate of the Zebra Mussel Dreissena polymorpha|Bull. Environ. Contam. Toxicol.54(3): 376-381|1995|10.1007/BF00195108
14959|A||Begum,G., and S. Vijayaraghavan|In Vivo Toxicity of Dimethoate on Proteins and Transaminases in the Liver Tissue of Fresh Water Fish Clarias batrachus (Linn)|Bull. Environ. Contam. Toxicol.54(3): 370-375|1995|10.1007/BF00195107
14960|A||Verma,S.K., and S.P. Singh|Multiple Metal Resistance in the Cyanobacterium Nostoc muscorum|Bull. Environ. Contam. Toxicol.54(4): 614-619|1995|10.1007/BF00192607
14961|A||Kaji,T., A. Mishima, M. Machida, K. Yabusaki, M. Suzuki, C. Yamamoto, Y. Fujiwara, M. Sakamoto, and H. Kozuka|Comparative Cytotoxicity of Exogenous Cadmium-Metallothionein and Cadmium Ion in Cultured Vascular Endothelial Cells|Bull. Environ. Contam. Toxicol.54(4): 501-506|1995|10.1007/BF00192591
14962|A||Magliette,R.J., F.G. Doherty, D. McKinney, and E.S. Venkataramani|"Need for Environmental Quality Guidelines Based on Ambient Freshwater Quality Criteria in Natural Waters--Case Study ""Zinc"""|Bull. Environ. Contam. Toxicol.54(4): 626-632|1995|10.1007/BF00192609
14963|A||Guerold,F., L. Giamberini, J.L. Tourmann, J.C. Pihan, and R. Kaufmann|Occurrence of Aluminium in Chloride Cells of Perla marginata (Plecoptera) After Exposure to Low pH and Elevated Aluminum Concentration|Bull. Environ. Contam. Toxicol.54(4): 620-625|1995|10.1007/BF00192608
14964|A||Marsot,P., E. Pelletier, and R.St Louis|Effects of Triphenyltin Chloride on Growth of the Marine Microalga Pavlova lutheri in Continuous Culture|Bull. Environ. Contam. Toxicol.54(3): 389-395|1995|10.1007/BF00195110
14965|A||Shabana,E.F., and H. Abou-Waly|Growth and Some Physiological Aspects of Nostoc muscorum in Response to Mixtures of Two Triazine Herbicides|Bull. Environ. Contam. Toxicol.54(2): 273-280|1995|10.1007/BF00197441
14966|A||Katticaran,C.M., and K.Y.M. Salih|Copper Induced Metabolic Changes in Sunetta scripta (Bivalvia):  Oxygen Uptake and Lactic Acid Production|Bull. Environ. Contam. Toxicol.48(4): 592-598|1992|10.1007/BF00199079
14967|A||Reader,S., and E. Pelletier|Biosorption and Degradation of Butyltin Compounds by the Marine Diatom Skeletonema costatum and the Associated Bacterial Community at Low Temperature|Bull. Environ. Contam. Toxicol.48(4): 599-607|1992|10.1007/BF00199080
14968|A||Salibian,A.|Effects of Deltamethrin on the South American Toad, Bufo arenarum, Tadpoles|Bull. Environ. Contam. Toxicol.48(4): 616-621|1992|10.1007/BF00199082
14969|A||Reddy,M.S., and K.V.R. Rao|Toxicity of Selected Insecticides to the Penaeid Prawn, Metapenaeus monoceros (Fabricius)|Bull. Environ. Contam. Toxicol.48(4): 622-629|1992|10.1007/BF00199083
14970|A||Camargo,J.A., and J.V. Tarazona|Acute Toxicity to Freshwater Benthic Macroinvertebrates of Fluoride Ion (F-) in Soft Water|Bull. Environ. Contam. Toxicol.45(6): 883-887|1990|10.1007/BF01701088
14971|A||Burridge,L.E., and K. Haya|Seasonal Lethality of Pentachlorophenol to Juvenile Atlantic Salmon|Bull. Environ. Contam. Toxicol.45(6): 888-892|1990|10.1007/BF01701089
14972|A||Ananthalakshmikumari,K.V.V., K. Shyamasundari, and K.H. Rao|Toxicity of Mercury to the Freshwater Male and Female Field Crabs, Paratelphusa hydrodromous (Herbst) (Decapoda: Brachyura)|Bull. Environ. Contam. Toxicol.45(6): 900-906|1990|10.1007/BF01701091
14973|A||Muino,C.V., L. Ferrari, and A. Salibian|Protective Action of Ions Against Cadmium Toxicity to Young Bufo arenarum Tadpoles|Bull. Environ. Contam. Toxicol.45(3): 313-319|1990|10.1007/BF01701152
14974|A||Christian,F.A., and T.M. Tesfamichael|Oxygen Uptake of Pseudosuccinea columella and Fossaria cubensis Treated with Sublethal Concentrations of CUTRINE-PLUS, an Algicide|Bull. Environ. Contam. Toxicol.45(3): 336-342|1990|10.1007/BF01701155
14975|A||Reddy,M.S., and K.V.R. Rao|Methylparathion-Induced Alterations in the Acetylcholinesterase and Phosphatases in a Penaeid Prawn, Metapenaeus monoceros|Bull. Environ. Contam. Toxicol.45(3): 350-357|1990|10.1007/BF01701157
14976|A||Richards,V.L., and T.L. Beitinger|Reciprocal Influences of Temperature and Copper on Survival of Fathead Minnows, Pimephales promelas|Bull. Environ. Contam. Toxicol.55(2): 230-236|1995|10.1007/BF00203014
14977|A||Vismara,C., G. Bernardini, L. Bordone, O. Spinelli, A. Teruzzi, and C. Rossetti|Effects of Chlorocresol (4-Chloro-2-Methyl Phenol) Administered During the Fertilization and Cleavage Phases of Xenopus laevis|Bull. Environ. Contam. Toxicol.55(2): 195-200|1995|10.1007/BF00203009
14978|A||James,R., and K. Sampath|Sublethal Effects of Mixtures of Copper and Ammonia on Selected Biochemical and Physiological Parameters in the Catfish Heteropneustes fossilis (Bloch)|Bull. Environ. Contam. Toxicol.55(2): 187-194|1995|10.1007/BF00203008
14979|A||Pantani,C., N. Spreti, M.C. Maggitti, and R. Germani|Acute Toxicity of Some Synthetic Cationic and Zwitterionic Surfactants to Freshwater Amphipod Echinogammarus tibaldii|Bull. Environ. Contam. Toxicol.55(2): 179-186|1995|10.1007/BF00203007
14980|A||Sauvant,M.P., D. Pepin, C.A. Groliere, and J. Bohatier|Effects of Organic and Inorganic Substances on the Cell Proliferation of L-929 Fibroblasts and Tetrahymena pyriformis GL Protozoa Used for Toxicological Bioassays|Bull. Environ. Contam. Toxicol.55(2): 171-178|1995|10.1007/BF00203006
14982|A||Paul,E.A., and H.A. Simonin|Comparison of the Toxicity of a Synergized and Non-Synergized Insecticide to Young Trout|Bull. Environ. Contam. Toxicol.55(3): 453-460|1995|10.1007/BF00206686
14983|A||Spieler,R.E., A.C. Russo, and D.N. Weber|Waterborne Lead Affects Circadian Variations of Brain Neurotransmitters in Fathead Minnows|Bull. Environ. Contam. Toxicol.55(3): 412-418|1995|10.1007/BF00206680
14984|AT||Calumpang,S.M.F., M.J.B. Medina, A.W. Tejada, and J.R. Medina|Environmental Impact of Two Molluscicides: Niclosamide and Metaldehyde in a Rice Paddy Ecosystem|Bull. Environ. Contam. Toxicol.55(4): 494-501|1995|10.1007/BF00196027
14985|A||Burridge,T.R., T. Lavery, and P.K.S. Lam|Acute Toxicity Tests Using Phyllospora comosa (Labillardiere) C. agardh (Phaeophyta: Fucales) and Allorchestes compressa Dana (Crustacea: Amphipoda)|Bull. Environ. Contam. Toxicol.55(4): 621-628|1995|
14986|A||Gupta,G., and Y.J. Lin|Toxicity of Methyl Tertiary Butyl Ether to Daphnia magna and Photobacterium phosphoreum|Bull. Environ. Contam. Toxicol.55(4): 618-620|1995|10.1007/BF00196044
14987|A||Burridge,T.R., T. Lavery, and P.K.S. Lam|Effects of Tributyltin and Formaldehyde on the Germination and Growth of Phyllospora comosa (Labillardiere) C. Agardh (Phaeophyta: Fucales)|Bull. Environ. Contam. Toxicol.55(4): 525-532|1995|
14988|A||Bennett,W.A., A. Sosa, and T.L. Beitinger|Oxygen Tolerance of Fathead Minnows Previously Exposed to Copper|Bull. Environ. Contam. Toxicol.55(4): 517-524|1995|10.1007/BF00196030
14989|A||Kundu,R., R. Lakshmi, and A.P. Mansuri|Effects of Cr(VI) on ATPases in the Brain and Muscle of Mudskipper, Boleophthalmus dentatus|Bull. Environ. Contam. Toxicol.55(5): 723-729|1995|10.1007/BF00203759
14990|A||Chuiko,G.M., and Y.V. Slynko|Relation of Allozyme Genotype to Survivorship of Juvenile Bream, Abramis brama L., Acutely Exposed to DDVP, an Organophosphorus Pesticide|Bull. Environ. Contam. Toxicol.55(5): 738-745|1995|10.1007/BF00203761
14991|A||Devi,M., and M. Fingerman|Inhibition of Acetylcholinesterase Activity in the Central Nervous System of the Red Swamp Crayfish, Procambarus clarkii, by Mercury, Cadmium, and Lead|Bull. Environ. Contam. Toxicol.55(5): 746-750|1995|10.1007/BF00203762
14992|A||Belanger,S.E., K.L. Rupe, and R.G. Bausch|Responses of Invertebrates and Fish to Alkyl Sulfate and Alkyl Ethoxylate Sulfate Anionic Surfactants During Chronic Exposure|Bull. Environ. Contam. Toxicol.55(5): 751-758|1995|10.1007/BF00203763
14993|A||Kong,F.X., and Y. Chen|Effect of Aluminum and Zinc on Enzyme Activities in the Green Alga Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.55(5): 759-765|1995|10.1007/BF00203764
14994|A||Shazili,N.A.M.|Effects of Salinity and Pre-Exposure on Acute Cadmium Toxicity to Seabass, Lates calcarifer|Bull. Environ. Contam. Toxicol.54(1): 22-28|1995|10.1007/BF00196265
14995|A||Furay,V.J., and S. Smith|Toxicity and QSAR of Chlorobenzenes in Two Species of Benthic Flatfish, Flounder (Platichthys flesus L.) and Sole (Solea solea L.)|Bull. Environ. Contam. Toxicol.54(1): 36-42|1995|10.1007/BF00196267
14996|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Chronic Toxicity of Methylparathion to Daphnia magna: Effects on Survival, Reproduction, and Growth|Bull. Environ. Contam. Toxicol.54(1): 43-49|1995|10.1007/BF00196268
14997|A||Sanchez-Fortun,S., F. Sanz-Barrera, and M.V. Barahona-Gomariz|Acute Toxicities of Selected Insecticides to the Aquatic Arthropod Artemia salina|Bull. Environ. Contam. Toxicol.54(1): 76-82|1995|10.1007/BF00196272
14998|A||Chetty,A.N., and K. Indira|Adaptive Changes in the Glucose Metabolism of a Bivalve to Ambient Ammmonia Stress|Bull. Environ. Contam. Toxicol.54(1): 83-89|1995|10.1007/BF00196273
14999|A||Dillon,T.M.|Effects of Dimethylnaphthalene and Fluctuating Temperatures on Estuarine Shrimp|In: Proc.1981 Oil Spill Conf., March 2-5, Atlanta, GA:79-85|1981|
15000|A||Laughlin,R.B.J., R.B. Johannesen, W. French, H. Guard, and F.E. Brinckman|Structure-Activity Relationships for Organotin Compounds|Environ. Toxicol. Chem.4(3): 343-351|1985|
15001|A||Schlenk,D., M.J.J. Ronis, C. Miranda, and D.R. Buhler|Effects of 2-Methylisoborneol (MIB), and Ethanol on the Expression and Activity of Cytochrome P450s from the Channel Catfish|J. Fish Biol.46(2): 282-291|1995|10.1111/j.1095-8649.1995.tb05969.x
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15003|A||Kasuga,S.|Sexual Differences of Medaka, Oryzias latipes in the Acute Toxicity Test of Cadmium|Nippon Suisan Gakkaishi (Multiple Languages)46(9): 1073-1076|1980|10.2331/suisan.46.1073
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15008|A||Sigmon,C.F.|Influence of 2,4-D and 2,4,5-T on Life History Characteristics of Chironomus (Diptera: Chironomidae)|Bull. Environ. Contam. Toxicol.21:596-599|1979|10.1007/BF01685475
15009|A||Odin,M., A. Feurtet-Mazel, F. Ribeyre, and A. Boudou|Temperature, pH and Photoperiod Effects on Mercury Bioaccumulation by Nymphs of the Burrowing Mayfly Hexagenia rigida|Water Air Soil Pollut.80(1-4): 1003-1006|1995|10.1007/BF01189754
15010|A||Visman,V., G. Mierle, and D.J. McQueen|Uptake of Aqueous Methylmercury by Larval Chaoborus americanus|Water Air Soil Pollut.80(1-4): 1007-1010|1995|10.1007/BF01189755
15011|A||Nalewajko,C., K. Lee, and T.R. Jack|Effects of Vanadium on Freshwater Phytoplankton Photosynthesis|Water Air Soil Pollut.81(1-2):93-105|1995|10.1007/BF00477258
15013|A||Wehr,J.D., M.G. Kelly, and B.A. Whitton|Factors Affecting Accumulation and Loss of Zinc by the Aquatic Moss Rhynchostegium riparioides (Hedw.) C. Jens|Aquat. Bot.29:261-274|1987|10.1016/0304-3770(87)90020-9
15014|A||Marin,M.G., M. Bressan, and R. Brunetti|Influence of Nitrilotriacetic Acid (NTA) on the Early Development of Paracentrotus lividus LMK at Different Thermo-Saline Combinations|Water Res.29(5): 1409-1414|1995|10.1016/0043-1354(94)00262-6
15015|A||Santojanni,A., G. Gorbi, and F. Sartore|Prediction of Mortality in Chronic Toxicity Tests on Daphnia magna|Water Res.29(6): 1453-1459|1995|10.1016/0043-1354(94)00316-Y
15016|A||Hagstrom,B.E., and S. Lonning|The Sea Urchin Egg as a Testing Object in Toxicology|Acta Pharmacol. Toxicol.32(Suppl. 1): 7-49|1973|
15017|A||Levy,R., J.J. Chizzonite, W.D. Garrett, and T.W.,Jr. Miller|Efficacy of the Organic Surface Film Isostearyl Alcohol Containing Two Oxyethylene Groups for Control of Culex and Psorophora Mosquitoes|Mosq. News42(1): 1-11|1982|
15018|A||Peterson,H.G., S.E. Hrudey, I.A. Cantin, T.R. Perley, and S.L. Kenefick|Physiological Toxicity, Cell Membrane Damage and the Release of Dissolved Organic Carbon and Geosmin by Aphanizomenon flos-aquae After Exposure to Water Treatment Chemicals|Water Res.29(6): 1515-1523|1995|10.1016/0043-1354(94)00300-V
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15021|A||Lam,A.K.Y., E.E. Prepas, D. Spink, and S.E. Hrudey|Chemical Control of Hepatotoxic Phytoplankton Blooms: Implications for Human Health|Water Res.29(8): 1845-1854|1995|10.1016/0043-1354(94)00348-B
15022|A||McEnerney,J.T., and D.E. Davis|Metabolic Fate of Atrazine in the Spartina alterniflora-Detritus-Uca pugnax Food Chain|J. Environ. Qual.8(3): 335-338|1979|10.2134/jeq1979.00472425000800030014x
15023|A||Pillai,P., J.D. Weete, A.M. Diner, and D.E. Davis|Atrazine Metabolism in Box Crabs|J. Environ. Qual.8(3): 277-280|1979|10.2134/jeq1979.00472425000800030002x
15024|A||Plumley,F.G., and D.E. Davis|The Effects of a Photosynthesis Inhibitor Atrazine, on Salt Marsh Edaphic Algae, in Culture Microecosystems, and in the Field|Estuaries3(4): 271-277|1980|10.2307/1352082
15025|A||Anderson,R.S.|Benzo(a)pyrene Metabolism in the American Oyster Crassostrea virginica|EPA 600/3-78-009, U.S.EPA, Gulf Breeze, FL:18 p.|1978|
15026|A||Cairns,J.,Jr., K.M. Hart, and M.S. Henebry|The Effects of a Sublethal Dose of Copper Sulfate on the Colonization Rate of Freshwater Protozoan Communities|Am. Midl. Nat.104(1): 93-101|1980|10.2307/2424962
15027|A||Guolan,H., and W. Yong|Effects of Tributyltin Chloride on Marine Bivalve Mussels|Water Res.29(8): 1877-1884|1995|10.1016/0043-1354(94)00335-5
15028|A||Ivorra,N., M.H.S. Kraak, and W.I.M. Admiraal|Use of Lake Water in Testing Copper Toxicity to Desmid Species|Water Res.29(9): 2113-2117|1995|10.1016/0043-1354(95)00019-H
15029|A||Yongue,W.H.,Jr., B.L. Berrent, and J.,Jr. Cairns|Survival of Euglena gracilis Exposed to Sublethal Temperature and Hexavalent Chromium|J.Protozool.26(1): 122-125|1979|10.1111/j.1550-7408.1979.tb02746.x
15030|A||Reid,H.P., J.T. Ahokas, and D.A. Holdway|Use of Cyanazine and Malathion Pulse-Exposure Toxicity to Estimate the Age of Onset of Functional Liver Metabolism in Larval Australian Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis)|Water Res.29(8): 2010-2013|1995|10.1016/0043-1354(95)00007-8
15031|A||Broderius,S.J., M.D. Kahl, and M.D. Hoglund|Use of Joint Toxic Response to Define the Primary Mode of Toxic Action for Diverse Industrial Organic Chemicals|Environ. Toxicol. Chem.14(9): 1591-1605|1995|10.1002/etc.5620140920
15032|A||Hocking,B., C.R. Twinn, and W.C. McDuffie|A Preliminary Evaluation of Some Insecticides Against Immature Stages of Blackflies (Diptera: Simuliidae)|Sci. Agric. (Piracicaba, Braz. )29:69-80|1949|
15034|A||Lorz,H.W., R.H. Williams, and C.A. Fustish|Effects of Several Metals on Smolting of Coho Salmon|EPA-600/3-78-090, U.S.EPA, Corvallis, OR:84 p.|1978|
15035|A||Allison,D., B.J. Kallman, O.B. Cope, and C.C. Van Valin|Insecticides: Effects on Cutthroat Trout of Repeated Exposure to DDT|Science142(3594): 958-961|1963|10.1126/science.142.3594.958
15036|A||Anderson,J.M., and M.R. Peterson|DDT: Sublethal Effects on Brook Trout Nervous System|Science164(3878): 440-441|1969|10.1126/science.164.3878.440
15037|A||Lynch,T.R., H.E. Johnson, and W.J. Adams|The Fate of Atrazine and a Hexachlorobiphenyl Isomer in Naturally-Derived Model Stream Ecosystems|Environ. Toxicol. Chem.1(2): 179-192|1982|
15038|A||Siriwardena,P.P.G.S., K.J. Rana, and D.J. Baird|A Method for Partitioning Cadmium Bioaccumulated in Small Aquatic Organisms|Environ. Toxicol. Chem.14(9): 1575-1577|1995|10.1002/etc.5620140917
15039|A||Cooke,A.S.|The Effect of p,p'-DDT on Tadpoles of the Common Frog (Rana temporaria)|Environ. Pollut.1:57-71|1970|
15040|A||Adams,W.J., G.R. Biddinger, K.A. Robillard, and J.W. Gorsuch|A Summary of the Acute Toxicity of 14 Phthalate Esters to Representative Aquatic Organisms|Environ. Toxicol. Chem.14(9): 1569-1574|1995|10.1002/etc.5620140916
15041|A||Kreutzweiser,D.P., S.S. Capell, and B.C. Sousa|Hexazinone Effects on Stream Periphyton and Invertebrate Communities|Environ. Toxicol. Chem.14(9): 1521-1527|1995|10.1002/etc.5620140911
15042|A||Buchanan,D.V., M.J. Myers, and R.S. Caldwell|Improved Flowing Water Apparatus for the Culture of Brachyuran Crab Larvae|J. Fish. Res. Board Can.32(10): 1880-1883|1975|10.1139/f75-228
15043|A||Semlitsch,R.D., M. Foglia, A. Mueller, I. Steiner, E. Fioramonti, and K. Fent|Short-Term Exposure to Triphenyltin Affects the Swimming and Feeding Behavior of Tadpoles|Environ. Toxicol. Chem.14(8): 1419-1423|1995|
15044|A||Weis,J.S., R. Cohen, and J.K. Kwiatkowski|Effects of Diflubenzuron on Limb Regeneration and Molting in the Fiddler Crab, Uca pugilator|Aquat. Toxicol.10:279-290|1987|10.1016/0166-445X(87)90003-8
15045|A||Nath,K., and N. Kumar|Impact of Manganese intoxication on Certain Parameters of Carbohydrate Metabolism of a Freshwater Tropical Perch, Colisa fasciatus|Chemosphere17(3): 617-624|1988|10.1016/0045-6535(88)90036-7
15046|A||Mulvey,M., M.C. Newman, A. Chazal, M.M. Keklak, M.G. Heagler, and L.S.,Jr. Hales|Genetic and Demographic Response of Mosquitofish (Gambusia holbrooki Girard 1859) Populations Stressed by Mercury|Environ. Toxicol. Chem.14(8): 1411-1418|1995|10.1002/etc.5620140818
15047|A||Cross,J., and D. McMahon|Chloral Hydrate Causes Breakdown of Polysomes in Chlamydomonas reinhardi In Vivo|J. Biol. Chem.251(9): 2637-2643|1976|10.1016/S0021-9258(17)33535-4
15048|A||Hickey,C.W., and M.L. Martin|Relative Sensitivity of Five Benthic Invertebrate Species to Reference Toxicants and Resin-Acid Contaminated Sediments|Environ. Toxicol. Chem.14(8): 1401-1409|1995|
15049|A||Fox,P.J., and P. Matthiessen|Acute Toxicity to Fish of Low-Dose Aerosol Applications of Endosulfan to Control Tsetse Fly in the Okavango Delta, Botswana|Environ. Pollut. A.27(2): 129-142|1982|10.1016/0143-1471(82)90105-2
15050|A||Diamond,S.A., J.T. Oris, and S.I. Guttman|Adaptation to Fluoranthene Exposure in a Laboratory Population of Fathead Minnows|Environ. Toxicol. Chem.14(8): 1393-1400|1995|10.1002/etc.5620140816
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15052|A||Gregory,W.W.J., J.K. Reed, and L.E.,Jr. Priester|Accumulation of Parathion and DDT by Some Algae and Protozoa|J.Protozool.16(1): 69-71|1969|10.1111/j.1550-7408.1969.tb02234.x
15053|A||Ross,J.H., L.O. Lim, and R.I. Krieger|Herbicidal Potency of 1,1'-Alkyl-4,4'-Bipyridylium Salts as a Function of Their Physicochemical Constants in Duckweed|Drug Chem. Toxicol.2(3): 193-205|1979|10.3109/01480547908998242
15054|A||Lotts,J.W.J., and A.J. Stewart|Minnows Can Acclimate to Total Residual Chlorine|Environ. Toxicol. Chem.14(8): 1365-1374|1995|10.1002/etc.5620140812
15055|A||Ploetner,J., and R. Guenther|Toxicity of an Anionic Detergent to the Spawn and Larvae of Anurans (Amphibia)|Int. Rev. Gesamten Hydrobiol.72(6): 759-771|1987|10.1002/iroh.19870720610
15056|A||Nelson,D.A., J.E. Miller, and A. Calabrese|Effect of Heavy Metals on Bay Scallops, Surf Clams, and Blue Mussels in Acute and Long-Term Exposures|Arch. Environ. Contam. Toxicol.17(5): 595-600|1988|10.1007/BF01055828
15057|A||Thompson,K.W., M.L. Deaton, R.V. Foutz, J.,Jr. Cairns, and A.C. Hendricks|Application of Time-Series Intervention Analysis to Fish Ventilatory Response Data|Can. J. Fish. Aquat. Sci.39(3): 518-521|1982|10.1139/f82-072
15058|A||Cherry,D.S., S.R. Larrick, J.D. Giattina, J.,Jr. Cairns, and J. Van Hassel|Influence of Temperature Selection upon the Chlorine Avoidance of Cold-Water and Warm-Water Fishes|Can. J. Fish. Aquat. Sci.39(1): 162-173|1982|10.1139/f82-019
15059|A||Tanner,D.K., and M.F. Moffett|Effects of Diflubenzuron on the Reproductive Success of the Bluegill Sunfish, Lepomis macrochirus|Environ. Toxicol. Chem.14(8): 1345-1355|1995|10.1002/etc.5620140810
15060|A||Thompson,D.G., D.P. Kreutzweiser, S.S. Capell, D.R. Thomas, B. Staznik, and T. Viinikka|Fate and Effects of Triclopyr Ester in a First-Order Forest Stream|Environ. Toxicol. Chem.14(8): 1307-1317|1995|
15061|A||Anderson,R.S., C.S. Giam, L.E. Ray, and M.R. Tripp|Effects of Environmental Pollutants on Immunological Competency of the Clam Mercenaria mercenaria:  Impaired Bacterial Clearance|Aquat. Toxicol.1:187-195|1981|10.1016/0166-445X(81)90014-X
15062|A||Thurston,R.V., G.R. Phillips, R.C. Russo, and S.M. Hinkins|Increased Toxicity of Ammonia to Rainbow Trout (Salmo gairdneri) Resulting From Reduced Concentrations of Dissolved Oxygen|Can. J. Fish. Aquat. Sci.38(8): 983-988|1981|10.1139/f81-133
15063|A||Mulla,M.S., H.A. Darwazeh, and G. Majori|Field Efficacy of Some Promising Mosquito Larvicides and Their Effects on Nontarget Organisms|Mosq. News35(2): 179-185|1975|
15064|A||Ribeiro,R., L.M. Lima, F. Goncalves, and A.M.V.M. Soares|Metier (Modular Ecotoxicity Tests in Incorporating Ecological Relevance) for Difficult Substances: Aedes aegypti (Diptera: Culicidae) Initial Module|Environ. Toxicol. Chem.14(7): 1241-1246|1995|
15066|A||Lowell,R.B., J.M. Culp, and F.J. Wrona|Toxicity Testing with Artificial Streams: Effects of Differences in Current Velocity|Environ. Toxicol. Chem.14(7): 1209-1217|1995|10.1002/etc.5620140713
15067|A||Butcher,J., M. Boyer, and C.D. Fowle|Impact of Dursban and Abate on Microbial Numbers and Some Chemical Properties of Standing Ponds|Water Pollut. Res. Can.10:33-41|1975|
15068|A||Nolan,C.V., and E.J. Duke|Cadmium-Binding Proteins in Mytilus edulis: Relation to Mode of Administration and Significance in Tissue Retention of Cadmium|Chemosphere12(1): 65-74|1983|10.1016/0045-6535(83)90181-9
15069|A||O'Connor,D.V., and P.O. Fromm|The Effect of Methyl Mercury on Gill Metabolism and Blood Parameters of Rainbow Trout|Bull. Environ. Contam. Toxicol.13(4): 406-411|1975|10.1007/BF01721843
15070|A||Mulla,M.S., and H.A. Darwazeh|Field Evaluation of Aliphatic Amines-Petroleum Oil Formulations Against Preimaginal Mosquitoes|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.39:120-125|1971|
15071|A||Portmann,J.E.|Progress Report on a Programme of Insecticide Analysis and Toxicity-Testing in Relation to the Marine Environment|Helgol. Wiss. Meeresunters.17:247-256|1968|10.1007/BF01611227
15072|A||Portmann,J.E., and P.M. Connor|The Toxicity of Several Oil-Spill Removers to Some Species of Fish and Shellfish|Mar. Biol.1(4): 322-329|1968|10.1007/BF00360784
15073|A||Allan,J.D., and R.E. Daniels|Life Table Evaluation of Chronic Exposure of Eurytemora affinis (Copepoda) to Kepone|Mar. Biol.66(2): 179-184|1982|10.1007/BF00397191
15074|A||Crane,M., P. Delaney, S. Watson, P. Parker, and C. Walker|The Effect of Malathion 60 on Gammarus pulex (L.) Below Watercress Beds|Environ. Toxicol. Chem.14(7): 1181-1188|1995|10.1002/etc.5620140709
15075|A||Nugegoda,D., and P.S. Rainbow|Effect of a Chelating Agent (EDTA) on Zinc Uptake and Regulation by Palaemon elegans (Crustacea: Decapoda)|J. Mar. Biol. Assoc. U.K.68(1): 25-40|1988|10.1017/S0025315400050074
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15077|A||Gaggi,C., G. Sbrilli, A.M.H. El Naby, M. Bucci, M. Duccini, and E. Bacci|Toxicity and Hazard Ranking of s-Triazine Herbicides Using Microtox, Two Green Algal Species and a Marine Crustacean|Environ. Toxicol. Chem.14(6): 1065-1069|1995|
15078|A||Muramoto,S., and Y. Oki|Effects of Surface-Active Agents on the Salinity Tolerance of Water Hyacinth (Eichhornia crassipes)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control23(6): 603-611|1988|
15079|A||Cope,O.B., C.M. Gjullin, and A. Storm|Effects of Some Insecticides on Trout and Salmon in Alaska, with Reference to Blackfly Control|Trans. Am. Fish. Soc.77:160-177|1949|10.1577/1548-8659(1947)77[160:EOSIOT]2.0.CO;2
15080|A||Gjullin,C.M., O.B. Cope, B.F. Quisenberry, and F.R. Du Chanois|The Effect of Some Insecticides on Black Fly Larvae in Alaskan Streams|J. Econ. Entomol.42(1): 100-105|1949|10.1093/jee/42.1.100
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15082|A||Reish,D.J., J.M. Martin, F.M. Piltz, and J.Q. Word|The Effect of Heavy Metals on Laboratory Populations of Two Polychaetes with Comparisons to the Water Quality Conditions and Standards in Southern California Marine Waters|Water Res.10:299-302|1976|10.1016/0043-1354(76)90170-6
15083|A||Berrill,M., S. Bertram, B. Pauli, D. Coulson, M. Kolohon, and D. Ostrander|Comparative Sensitivity of Amphibian Tadpoles to Single and Pulsed Exposures of the Forest-Use Insecticide Fenitrothion|Environ. Toxicol. Chem.14(6): 1011-1018|1995|
15084|A||Ho,K.T., A. Kuhn, M.C. Pelletier, R.M. Burgess, and A. Helmstetter|Use of Ulva lactuca to Distinguish pH-Dependent Toxicants in Marine Waters and Sediments|Environ. Toxicol. Chem.18(2): 207-212|1999|
15085|A||Kent,R.A., and D. Currie|Predicting Algal Sensitivity to a Pesticide Stress|Environ. Toxicol. Chem.14(6): 983-991|1995|10.1002/etc.5620140609
15086|A||Giblin,F.J., and E.J. Massaro|The Erythrocyte Transport and Transfer of Methylmercury to the Tissues of the Rainbow Trout (Salmo gairdneri)|Toxicology5:243-254|1975|10.1016/0300-483X(75)90121-3
15087|A||Giblin,F.J., and E.J. Massaro|The Uptake of Methylmercury and Methylmercury Cysteine by the Rainbow Trout (Salmo gairdneri) Kidney|Gen. Pharmacol.8:103-107|1977|10.1016/0306-3623(77)90036-2
15090|A||Kennedy,C.J., R.M. Sweeting, J.A. Johansen, A.P. Farrell, and B.A. McKeown|Acute Effects of Chlorinated Resin Acid Exposure on Juvenile Rainbow Trout, Oncorhynchus mykiss|Environ. Toxicol. Chem.14(6): 977-982|1995|10.1002/etc.5620140608
15091|A||Weis,J.S., J. Gottlieb, and J. Kwiatkowski|Tributyltin Retards Regeneration and Produces Deformities of Limbs in the Fiddler Crab, Uca pugilator|Arch. Environ. Contam. Toxicol.16:321-326|1987|10.1007/BF01054949
15093|A||Weis,J.S., and A. Ma|Effects of the Pesticide Diflubenzuron on Larval Horseshoe Crabs, Limulus polyphemus|Bull. Environ. Contam. Toxicol.39(2): 224-228|1987|10.1007/BF01689410
15095|A||Lal,S., D.M. Saxena, and R. Lal|Effects of DDT, Fenitrothion and Chlorpyrifos on Growth, Photosynthesis and Nitrogen Fixation in Anabaena (Arm 310) and Aulosira fertilissima|Agric. Ecosyst. Environ.19(3): 197-209|1987|10.1016/0167-8809(87)90001-6
15096|A||Hart,B.A., P.E. Bertram, and B.D. Scaife|Cadmium Transport by Chlorella pyrenoidosa|Environ. Res.18(2): 327-335|1979|10.1016/0013-9351(79)90109-9
15097|A||Pandey,A.C.|Response of Corticosteroidogenic, Catecholamine-Secreting Cells, Corpuscles of Stannius, and Dahlgren Cells of Snake Headed Murrel Ophiocephalus|Ecotoxicol. Environ. Saf.12(2): 101-104|1986|10.1016/0147-6513(86)90044-8
15098|A||Pfeifer,K.F., and L.J. Weber|The Effect of Carbon Tetrachloride Treatment on Urine Flow Rate of the Rainbow Trout, Salmo gairdneri|Toxicol. Appl. Pharmacol.52:347-350|1980|10.1016/0041-008X(80)90121-0
15099|A||Gingerich,W.H., L.J. Weber, and R.E. Larson|Hepatic Accumulation, Metabolism and Biliary Excretion of Sulfobromophthalein by Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.58:113-120|1977|10.1016/0306-4492(77)90090-9
15100|A||Pfeifer,K.F., and L.J. Weber|The Effect of Carbon Tetrachloride on the Total Plasma Protein Concentration of Rainbow Trout, Salmo gairdneri|Comp. Biochem. Physiol. C Comp. Pharmacol.64:37-42|1979|10.1016/0306-4492(79)90026-1
15101|A||Mehrle,P.M., D.L. Stalling, and R.A. Bloomfield|Serum Amino Acids in Rainbow Trout (Salmo gairdneri) as Affected by DDT and Dieldrin|Comp. Biochem. Physiol. B Comp. Biochem.38:373-377|1971|10.1016/0305-0491(71)90016-2
15102|A||Chambers,H., and D.L. Fabacher|Midge Larvae Control in Commercial Catfish Ponds: Toxicity of Abate(R) to Channel Catfish (Ictalurus punctatus)|Proc. Southeast. Assoc. Game Fish Comm.26:399-401|1972|
15103|A||Fabacher,D.L., and H. Chambers|Uptake and Storage of 14C-Labeled Endrin by the Livers and Brains of Pesticide-Susceptible and Resistant Mosquitofish|Bull. Environ. Contam. Toxicol.16(2): 203-207|1976|10.1007/BF01685228
15104|A||Fabacher,D.L., and H. Chambers|A Possible Mechanism of Insecticide Resistance in Mosquitofish|Bull. Environ. Contam. Toxicol.6(4): 372-376|1971|10.1007/BF01540006
15106|A||Prince,R., and K.R. Cooper|Comparisons of the Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Chemically Impacted and Nonimpacted Subpopulations of Fundulus heteroclitus:  1.  TCDD Toxicity|Environ. Toxicol. Chem.14(4): 579-587|1995|
15107|A||Kasai,F., and T. Hanazato|Effects of the Triazine Herbicide, Simetryn, on Freshwater Plankton Communities in Experimental Ponds|Environ. Pollut.89(2): 197-202|1995|10.1016/0269-7491(94)00053-G
15108|A||Rabe,F.W., and C.W. Sappington|Biological Productivity of the Coeur D'Alene River as Related to Water Quality (The Acute Toxicity of Zinc to Cutthroat Trout (Salmo clarki))|Res.Project Tech.Completion Rep., Project A-024-IDA, Water Resour.Res.Instit., University of Idaho:16 p.|1970|
15109|A||Abdelghani,A.A., A.C. Anderson, J. Hughes, and A.J. Englande|Uptake, Distribution and Excretion of Monosodium Methanearsonate by Crawfish (Procambarus sp.)|In: M.Anke, H.J.Schneider, and C.Bruckner (Eds.), Spuren Element Symposium - Arsen, Universitat Leipzig:147-153|1980|
15111|A||Malea,P., S. Haritonidis, and T. Kevrekidis|The Short-Term Uptake of Copper by the Two Parts of the Seagrass Halophila stipulacea (Forsk.) Aschers. and Leaf-Cells Viability|Fresenius Environ. Bull.4(2): 117-122|1995|
15112|A||Pisanti,F.A., E. Aloj-Totaro, and V. Cuomo|Effect of Heavy Metals on the Marine Mycete Corollospora maritima|Excerpta Med. Int. Congr. Ser.782:305-315|1988|
15114|A||Hanazato,T., and F. Kasai|Effects of the Organophosphorus Insecticide Fenthion on Phyto- and Zooplankton Communities in Experimental Ponds|Environ. Pollut.88(2): 293-298|1995|10.1016/0269-7491(95)93442-3
15115|A||Law,A.T.|Toxicity Study of the Oil Dispersant Corexit 9527 on Macrobrachium rosenbergii (De Man) Egg Hatchability by Using a Flow-Through Bioassay Technique|Environ. Pollut.88(3): 341-343|1995|10.1016/0269-7491(95)93448-9
15116|A||Prince,R., and K.R. Cooper|Comparisons of the Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Chemically Impacted and Nonimpacted Subpopulations of Fundulus heteroclitus:  II.  Metabolic Considerations|Environ. Toxicol. Chem.14(4): 589-595|1995|
15117|A||Materna,E.J., C.F. Rabeni, and T.W. LaPoint|Effects of the Synthetic Pyrethroid Insecticide, Esfenvalerate, on Larval Leopard Frogs (Rana spp.)|Environ. Toxicol. Chem.14(4): 613-622|1995|
15118|A||Sleiderink,H.M., J.M. Everaarts, A. Goksoyr, and J.P. Boon|Hepatic Cytochrome P4501A Induction in Dab (Limanda limanda) After Oral Dosing with the Polychlorinated Biphenyl Mixture Clophen A40|Environ. Toxicol. Chem.14(4): 679-687|1995|10.1002/etc.5620140416
15119|A||Schubauer-Berigan,M.K., P.D. Monson, C.W. West, and G.T. Ankley|Influence of pH on the Toxicity of Ammonia to Chironomus tentans and Lumbriculus variegatus|Environ. Toxicol. Chem.14(4): 713-717|1995|10.1897/1552-8618(1995)14[713:IOPOTT]2.0.CO;2
15120|A||Canli,M., and R.W. Furness|Mercury and Cadmium Uptake from Seawater and from Food by the Norway Lobster Nephrops norvegicus|Environ. Toxicol. Chem.14(5): 819-828|1995|10.1002/etc.5620140512
15121|A||Varanasi,U., and D. Markey|Uptake and Release of Lead and Cadmium in Skin and Mucus of Coho Salmon (Oncorhynchus kisutch)|Comp. Biochem. Physiol. C Comp. Pharmacol.60:187-191|1978|10.1016/0306-4492(78)90092-8
15122|A||Kapoor,N.N., and W. Griffiths|The Effect of Copper on the Oxygen Consumption Rates of the Stonefly Nymph, Phasganophora capitata (Pictet) (Plecoptera)|Zool. J. Linn. Soc.59(2): 209-215|1976|10.1111/j.1096-3642.1976.tb01015.x
15123|A||Newsted,J.L., J.P. Giesy, G.T. Ankley, D.E. Tillitt, R.A. Crawford, J.W. Gooch, P.D. Jones, and M.S. Denison|Development of Toxic Equivalency Factors for PCB Congeners and the Assessment of TCDD and PCB Mixtures in Rainbow Trout|Environ. Toxicol. Chem.14(5): 861-871|1995|10.1002/etc.5620140518
15124|A||Steemann Nielsen,E., and S. Wium-Andersen|The Influence of Cu on Photosynthesis and Growth in Diatoms|Physiol. Plant. (Multiple Languages)24:480-484|1971|10.1111/j.1399-3054.1971.tb03522.x
15125|A||Burress,R.M.|Effects of Synergized Rotenone on Nontarget Organisms in Ponds|Invest.Fish Control No.91, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:7 p.|1982|
15126|A||Cairns,J.,Jr., W.H. Van der Schalie, and G.F. Westlake|The Effects of Lapsed Time Since Feeding upon the Toxicity of Zinc to Fish|Bull. Environ. Contam. Toxicol.13(3): 269-274|1975|10.1007/BF01685334
15127|A||Cooley,N.R.,Jr.|Effects of Pesticides on Estuarine Ciliates|Circular 335, U.S.Fish and Wildlife Service, Washington, D.C.:16-18|1970|
15129|AT||Toussaint,M.W., T.R. Shedd, W.H. Van der Schalie, and G.R. Leather|A Comparison of Standard Acute Toxicity Tests with Rapid-Screening Toxicity Tests|Environ. Toxicol. Chem.14(5): 907-915|1995|
15130|A||Loez,C.R., M.L. Topalian, and A. Salibian|Effects of Zinc on the Structure and Growth Dynamics of a Natural Freshwater Phytoplankton Assemblage Reared in the Laboratory|Environ. Pollut.88(3): 275-281|1995|10.1016/0269-7491(95)93440-B
15132|A||Ernst,W.|Uptake, Excretion, and Conversion of Lindane-14C by Mytilus edulis (Aufnahme, Ausscheidung Und Umwandlung Von Lindan-14C Durch Mytilus edulis)|Chemosphere4(6): 375-380|1975|10.1016/0045-6535(75)90034-X
15133|A||Montanes,J.F.C., B. Van Hattum, and J. Deneer|Bioconcentration of Chlorpyrifos by the Freshwater Isopod Asellus aquaticus (L.) in Outdoor Experimental Ditches|Environ. Pollut.88(2): 137-146|1995|10.1016/0269-7491(95)91437-P
15134|A||Bringmann,G., and R. Kuhn|Testing of Substances for Their Toxicity Threshold: Model Organisms Microcystis (Diplocystis) aeruginosa and Scenedesmus quadricauda|Int. Ver. Theor. Angew. Limnol.21:275-284|1978|
15135|A||Suresh,K., M.S. Ahamed, G. Durairaj, and K.V.K. Nair|Environmental Physiology of the Mole Crab Emerita asiatica, at a Power Plant Discharge Area on the East Coast of India|Environ. Pollut.88(2): 133-136|1995|10.1016/0269-7491(95)91436-O
15137|A||Hansen,D.J.|Behavior of Estuarine Organisms|In: Progress Report of the Bureau of Commercial Fisheries Center for Estuarine and Menhaden Research, U.S.Fish Wildl.Serv., Circ.335, Washington, D.C.:23-28|1970|
15138|A||Khangarot,B.S.|Lethal Effects of Zinc and Nickel on Freshwater Teleosts|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(3): 297-302|1981|10.1002/aheh.19810090308
15140|A||Katz,B.M., and G.M. Cohen|"Toxicities of ""Excessively"" Chlorinated Organic Compounds"|Bull. Environ. Contam. Toxicol.15(6): 644-650|1975|10.1007/BF01685612
15141|A||Dawson,V.K., J.B. Sills, and C.W. Luhning|Accumulation and Loss of 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) by Fish: Laboratory Studies|Invest.Fish Control No.90, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C:5 p.|1982|
15142|A||Steemann Nielsen,E., L. Kamp-Nielsen, and S. Wium-Andersen|The Effect of Deleterious Concentrations of Copper on the Photosynthesis of Chlorella pyrenoidosa|Physiol. Plant. (Multiple Languages)22:1121-1133|1969|10.1111/j.1399-3054.1969.tb09100.x
15144|A||Wium-Andersen,S.|The Effect of Chromium on the Photosynthesis and Growth of Diatoms and Green Algae|Physiol. Plant. (Multiple Languages)32:308-310|1974|10.1111/j.1399-3054.1974.tb03141.x
15145|A||Woodward,D.F.|Acute Toxicity of Mixtures of Range Management Herbicides to Cutthroat Trout|J. Range Manag.35(4): 539-540|1982|10.2307/3898627
15146|A||Hutchinson,T.H., A.N. Jha, and D.R. Dixon|The Polychaete Platynereis dumerilii (Audouin and Milne-Edwards):  A new Species for Assessing the Hazardous Potential of Chemicals in the Marine Environment|Ecotoxicol. Environ. Saf.31(3): 271-281|1995|10.1006/eesa.1995.1074
15147|A||Szegletes,T., T. Balint, Z. Szegletes, and J. Nemcsok|In Vivo Effects of Deltamethrin Exposure on Activity and Distribution of Molecular Forms of Carp AChE|Ecotoxicol. Environ. Saf.31(3): 258-263|1995|10.1006/eesa.1995.1072
15148|A||MacPhee,C., and R. Ruelle|Lethal Effects of 1888 Chemicals upon Four Species of Fish from Western North America|Bull.- For. Wildl. Range Exp. Sta.3:112 p.|1969|
15149|A|OECDG|Adema,D.M.M., and G.J. Vink|A Comparative Study of the Toxicity of 1,1,2-Trichloroethane, Dieldrin, Pentacholorophenol, and 3,4-Dichloroaniline for Marine and Fresh Water Organisms|Chemosphere10(6): 533-554|1981|10.1016/0045-6535(81)90255-1
15150|A||Allen,H.E., R.H. Hall, and T.D. Brisbin|Metal Speciation. Effects on Aquatic Toxicity|Environ. Sci. Technol.14(4): 441-443|1980|10.1021/es60164a002
15151|A||Biesinger,K.E., L.E. Anderson, and J.G. Eaton|Chronic Effects of Inorganic and Organic Mercury on Daphnia magna: Toxicity, Accumulation, and Loss|Arch. Environ. Contam. Toxicol.11:769-774|1982|10.1007/BF01059166
15152|A||Cairns,M.A., and A.V. Nebeker|Toxicity of Acenaphthene and Isophorone to Early Stages of Fathead Minnows|Arch. Environ. Contam. Toxicol.11(6): 703-707|1982|10.1007/BF01059158
15153|A||Cheng,S.K., and S.M. Ruby|Effects of Pulse Exposure to Sublethal Levels of Hydrogen Cyanide on Reproduction of American Flagfish|Arch. Environ. Contam. Toxicol.10(5): 105-116|1981|10.1007/BF01057579
15154|A||Chitra,T., and J.V.R. Rao|Effect of Sodium Fluoride on Blood and Liver Enzymes in Channa punctatus (Bloch.)|Fluoride14:115-118|1981|
15155|A||Cleveland,L., D.R. Buckler, F.L. Mayer, and D.R. Branson|Toxicity of Three Preparations of Pentachlorophenol to Fathead Minnows - a Comparative Study|Environ. Toxicol. Chem.1(3): 205-212|1982|
15156|A||Colwell,A.E., and C.H. Schaefer|Effects of the Insect Growth Regulator Bay Sir 8514 on Pest Diptera and Nontarget Aquatic Organisms|Can. Entomol.113(3): 185-191|1981|10.4039/Ent113185-3
15157|A||Devi,A.P., D.M.R. Rao, K.S. Tilak, and A.S. Murty|Relative Toxicity of the Technical Grade Material Isomers and Formulations of Endosulfan to the Fish Channa punctata|Bull. Environ. Contam. Toxicol.27(2): 239-243|1981|10.1007/BF01611015
15158|A||Dixon,D.G., and J.B. Sprague|Acclimation to Copper by Rainbow Trout (Salmo gairdneri) - A Modifying Factor in Toxicity|Can. J. Fish. Aquat. Sci.38(8): 880-888|1981|10.1139/f81-119
15160|A||Gray,C., and C.O. Knowles|Metabolic Fate and Tissue Residues of Propamocarb in Bluegills and Channel Catfish|Chemosphere10(5): 469-478|1981|10.1016/0045-6535(81)90147-8
15161|A||Hall,L.W.,Jr., D.T. Burton, and L.B. Richardson|Comparison of Ozone and Chlorine Toxicity to the Developmental Stages of Striped Bass, Morone saxatilis|Can. J. Fish. Aquat. Sci.38(7): 752-757|1981|10.1139/f81-102
15162|A||Marathe,V.B., and S.S. Deshmukh|Effect of Copper Contaminated Food on the Growth (Biomass) of Channa gachua (Ham.)|Proc. Indian Acad. Sci. Sect. B89(4): 403-406|1980|
15163|A||Marking,L.L., and T.D. Bills|Sensitivity of Four Species of Carp to Selected Fish Toxicants|N. Am. J. Fish. Manag.1(1): 51-54|1981|10.1577/1548-8659(1981)1<51:SOFSOC>2.0.CO;2
15164|A||McLeese,D.W., V. Zitko, D.B. Sergeant, L. Burridge, and C.D. Metcalfe|Lethality and Accumulation of Alkyphenols in Aquatic Fauna|Chemosphere10(47): 723-730|1981|10.1016/0045-6535(81)90003-5
15165|A||Murai,T., J.W. Andrews, and R.G.,Jr. Smith|Effects of Dietary Copper on Channel Catfish|Aquaculture22(4): 353-357|1981|10.1016/0044-8486(81)90161-7
15166|A||Muramoto,S.|Influence of Complexans (NTA, EDTA) on the Toxicity of Aluminum Chloride and Sulfate to Fish at High Concentrations|Bull. Environ. Contam. Toxicol.27(2): 221-225|1981|10.1007/BF01611011
15167|A||Muramoto,S.|Influence of Complexans (EDTA, DTPA) on the Toxcity of Cadmium to Fish at Chronic Levels|Bull. Environ. Contam. Toxicol.26(5): 641-646|1981|10.1007/BF01622149
15168|A||Payne,A.G.|Environmental Testing of Citrate:  Bioassays for Algal Stimulation|Proc. Conf. Gt. Lakes Res.:100-115|1973|
15169|A||Pickering,Q.H., and W.T. Gilliam|Toxicity of Aldicarb and Fonofos to the Early-Life Stage of the Fathead Minnow|Arch. Environ. Contam. Toxicol.11(6): 699-702|1982|10.1007/BF01059157
15170|A||Kraal,M.H., M.H.S. Kraak, C.J. De Groot, and C. Davids|Uptake and Tissue Distribution of Dietary and Aqueous Cadmium by Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.31(2): 179-183|1995|10.1006/eesa.1995.1060
15171|A||Sahib,I.K.A., K.S.J. Rao, and K.V.R. Rao|Effect of Malathion Exposure on Some Physical Parameters of Whole Body and on Tissue Cations of Teleost, Tilapia mossambica (Peters)|J. Biosci.3(1): 17-21|1981|10.1007/BF02703342
15172|A||Sanders,H.O., and J.B. Hunn|Toxicity, Bioconcentration, and Depuration of the Herbicide Bolero 8EC in Freshwater Invertebrates and Fish|Nippon Suisan Gakkaishi (Multiple Languages)48(8): 1139-1143|1982|10.2331/suisan.48.1139
15173|A||Sastry,K.V., and K. Sharma|Diazinon-Induced Histopathological and Hematological Alterations in a Freshwater Teleost, Ophiocephalus punctatus|Ecotoxicol. Environ. Saf.5(3): 329-340|1981|10.1016/0147-6513(81)90007-5
15174|A||Seguchi,K., and S. Asaka|Intake and Excretion of Diazinon in Freshwater Fishes|Bull. Environ. Contam. Toxicol.27(2): 244-249|1981|10.1007/BF01611016
15175|A||Skea,J.C., H.J. Simonin, S. Jackling, and J. Symula|Accumulation and Retention of Mirex by Brook Trout fed a Contaminated Diet|Bull. Environ. Contam. Toxicol.27(1): 79-83|1981|10.1007/BF01610990
15176|A||Swift,D.J.|Changes in Selected Blood Component Concentrations of Rainbow Trout, Salmo gairdneri Richardson, Exposed to Hypoxia or Sublethal Concentrations|J. Fish Biol.19(1): 45-61|1981|10.1111/j.1095-8649.1981.tb05810.x
15177|A||Thurston,R.V., C. Chakoumakos, and R.C. Russo|Effect of Fluctuating Exposures on the Acute Toxicity of Ammonia to Rainbow Trout (Salmo gairdneri) and Cutthroat Trout (S. Clarki)|Water Res.15(7): 911-917|1981|10.1016/0043-1354(81)90147-0
15178|A||Vanhaecke,P., G. Persoone, C. Claus, and P. Sorgeloos|Research on the Development of a Short Term Standard Toxicity Test with Artemia Nauplii|In: G.Persoone, P.Sorgeloos, O.Roels, and E.Jaspers (Eds.), The Brine Shrimp Artemia, Vol.1: Morphology, Genetics, Radiobiology, and Toxicology. Universa Press, Western Belgium:263-285|1980|
15179|A||Verma,S.R., S.K. Bansal, A.K. Gupta, N. Pal, A.K. Tyagi, M.C. Bhatnagar, V. Kumar, and R.C. Dalela|Bioassay Trials with Twenty-Three Pesticides to a Fresh Water Teleost, Saccobranchus fossilis|Water Res.16(5): 525-529|1982|10.1016/0043-1354(82)90071-9
15180|A||Anderson,R.L.|Toxicity of Fenvalerate and Permethrin to Several Nontarget Aquatic Invertebrates|Environ. Entomol.11(6): 1251-1257|1982|10.1093/ee/11.6.1251
15181|A||Arillo,A., C. Margiocco, F. Melodia, P. Mensi, and G. Schenone|Ammonia Toxicity Mechanism in Fish:  Studies on Rainbow Trout (Salmo gairdneri Rich.)|Ecotoxicol. Environ. Saf.5(3): 315-328|1981|10.1016/0147-6513(81)90006-3
15182|A||Bell,M.V., K.F. Kelly, and J.R. Sargent|The Uptake From Fresh Water and Subsequent Clearance of a Vanadium Burden by the Common Eel (Anguilla anguilla)|Sci. Total Environ.19:215-222|1981|10.1016/0048-9697(81)90018-8
15183|A||Dalela,R.C., S. Rani, V. Kumar, and S.R. Verma|In Vivo Haematological Alterations in a Fresh Water Teleost Mystus vittatus Following Subacute Exposure to Pesticides and Their Combinations|J. Environ. Biol.2(2): 79-86|1981|
15184|A||Fabacher,D.L.|Hepatic Microsomes From Freshwater Fish-II. Reduction of Benzo(a)pyrene Metabolism by the Fish Anesthetics Quinaldine Sulfate and Tricaine|Comp. Biochem. Physiol. C Comp. Pharmacol.73:285-288|1982|10.1016/0306-4492(82)90122-8
15185|A||Giles,M.A., and J.F. Klaverkamp|The Acute Toxicity of Vanadium and Copper to Eyed Eggs of Rainbow Trout (Salmo gairdneri)|Water Res.16(6): 885-889|1982|10.1016/0043-1354(82)90018-5
15186|A||Helder,T.|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Early Life Stages of Rainbow Trout (Salmo gairdneri Richardson)|Toxicology19:101-112|1981|10.1016/0300-483X(81)90092-5
15187|A||Hesselberg,R.J., and L.W. Nicholson|Influence of PCBs in Water on Uptake and Elimination of DDT and DDE by Lake Trout|J. Environ. Qual.10(3): 315-318|1981|10.2134/jeq1981.00472425001000030013x
15188|A||Hooftman,R.N., and G.J. Vink|Cytogenetic Effects on the Eastern Mudminnow, Umbra pygmaea, Exposed to Ethyl Methanesulfonate Benzo(a)pyrene, and River Water|Ecotoxicol. Environ. Saf.5(3): 261-269|1981|10.1016/0147-6513(81)90001-4
15189|A||Huang,J.C., and E.F. Gloyna|Effect of Organic Compounds on Photosynthetic Oxygenation-I.  Chlorophyll Destruction and Suppression of Photosynthetic Oxygen Production|Water Res.2:347-366|1968|10.1016/0043-1354(68)90047-X
15190|A||Khangarot,B.S., V.S. Durve, and V.K. Rajbanshi|Effect of Zinc on Adenosine Triphosphatase Activity in the Gills of Channa punctatus (Bloch)|Curr. Sci. (Bangalore)50(3): 151-152|1981|
15191|A||Moles,A., S. Bates, S.D. Rice, and S. Korn|Reduced Growth of Coho Salmon Fry Exposed to Two Petroleum Components, Toluene and Naphthalene, in Fresh Water|Trans. Am. Fish. Soc.110(3): 430-436|1981|10.1577/1548-8659(1981)110<430:RGOCSF>2.0.CO;2
15192|A||Nishiuchi,Y., and Y. Hashimoto|Toxicity of Pesticide Ingredients to Some Fresh Water Organisms|Sci. Pest Control (Botyu-Kagaku)32(1): 5-11|1967|
15193|A||O'Neill,J.G.|The Humoral Immune Response of Salmo trutta L. and Cyprinus carpio L. Exposed to Heavy Metals|J. Fish Biol.19(3): 297-306|1981|10.1111/j.1095-8649.1981.tb05833.x
15194|A||Rao,D.M.R., A.P. Devi, and A.S. Murty|Toxicity and Metabolism of Endosulfan and its Effect on Oxygen Consumption and Total Nitrogen Excretion of the Fish Macrognathus aculeatum|Pestic. Biochem. Physiol.15:282-287|1981|10.1016/0048-3575(81)90012-2
15195|A||Sparks,E.|The Effects of Cadmium Chloride on the Green Alga Oedogonium cardiacum|Inst. Environ. Sci. Proc.24:229-231|1978|
15196|A||Travis,T.W., and A.G. Heath|Some Physiological Responses of Rainbow Trout (Salmo gairdneri) to Intermittent Monochloramine Exposure|Water Res.15(8): 977-982|1981|10.1016/0043-1354(81)90205-0
15197|A||Verma,S.R., S. Rani, and R.C. Dalela|Isolated and Combined Effects of Pesticides on Serum Transaminases in Mystus vittatus (African Catfish)|Toxicol. Lett.8:67-71|1981|10.1016/0378-4274(81)90140-5
15198|A||Ward,G.S., G.C. Cramm, P.R. Parrish, and S.R. Petrocelli|Effect of Ammonium Jarosite on Early Life Stages of a Saltwater Fish, Cyprinodon variegatus|Mar. Pollut. Bull.13(6): 191-195|1982|10.1016/0025-326X(82)90168-0
15199|A||Philip,G.H., P.M. Reddy, and G. Sridevi|Cypermethrin-Induced In Vivo Alterations in the Carbohydrate Metabolism of Freshwater Fish, Labeo rohita|Ecotoxicol. Environ. Saf.31(2): 173-178|1995|10.1006/eesa.1995.1059
15200|A||Wilson,K.W.|Effects of Oil Dispersants on the Developing Embryos of Marine Fish|Mar. Biol.36:259-268|1976|10.1007/BF00389287
15201|A||Gimeno,L., M.D. Ferrando, S. Sanchez, L.O. Gimeno, and E. Andreu|Pesticide Effects on Eel Metabolism|Ecotoxicol. Environ. Saf.31(2): 153-157|1995|10.1006/eesa.1995.1056
15203|A||Panigrahi,K.S., A.K. Panigrahi, and B.N. Misra|Effect of Emisan-6 on the Morphology of Erythrocytes in Anabas scandens cuv. and val|Environ. Pollut. A.35(4): 291-297|1984|10.1016/0143-1471(84)90075-8
15205|A||Walsh,G.E.|Utilization of Energy by Primary Producers in Four Ponds in Northwestern Florida|Proc.Biostimulation/and/Nutrient Assessment Workshop, EPA-660/3-75-034, U.S.E.P.A., Corvallis, OR:249-274|1975|
15206|A||Booth,P.M.J., C.M.,Jr. Sellers, and N.E. Garrison|Effects of Intermittent Chlorination on Plasma Proteins of Rainbow Trout (Salmo gairdneri)|Bull. Environ. Contam. Toxicol.26(2): 163-170|1981|10.1007/BF01622071
15207|A||Chapman,P.M., M.A. Farrell, and R.O. Brinkhurst|Effects of Species Interactions on the Survival and Respiration of Limnodrilus hoffmeisteri and Tubifex tubifex (Oligochaeta, Tubificidae) Exposed to Various Pollutants and Enironmental Factors|Water Res.16(9): 1405-1408|1982|10.1016/0043-1354(82)90225-1
15208|A||Hall,L.W.,Jr., D.T. Burton, S.L. Margrey, and K.R. Dixon|Time-Related Mortality Responses of Striped Bass (Morone saxatilis) Ichthyoplankton After Exposure to Simulated Power Plant Chlorination Conditions|Water Res.15(7): 903-910|1981|10.1016/0043-1354(81)90146-9
15209|A||Ito,Y., and T. Murata|Changes in Glucose, Protein Contents and Enzyme Activities of Serum in Carp Administered Orally with PCB|Nippon Suisan Gakkaishi (Multiple Languages)46(4): 465-468|1980|10.2331/suisan.46.465
15210|A||Mattice,J.S., S.C. Tsai, and M.B. Burch|Comparative Toxicity of Hypochlorous Acid and Hypochlorite Ions to Mosquitofish|Trans. Am. Fish. Soc.110(4): 519-525|1981|10.1577/1548-8659(1981)110<519:CTOHAA>2.0.CO;2
15211|A||Maynard,D.J., and D.D. Weber|Avoidance Reactions of Juvenile Coho Salmon (Oncorhynchus kisutch) to Monocyclic Aromatics|Can. J. Fish. Aquat. Sci.38(7): 772-778|1981|10.1139/f81-105
15212|A||Melancon,M.J., C.R. Elcombe, M.J. Vodicnik, and J.J. Lech|Induction of Cytochromes P450 and Mixed-Function Oxidase Activity by Polychlorinated Biphenyls and beta-Naphthoflavone in Carp (Cyprinus carpio)|Comp. Biochem. Physiol. C Comp. Pharmacol.69(2): 219-226|1981|10.1016/0306-4492(81)90132-5
15213|A||Morrill,J.B.|Morphological Effects of Cobaltous Chloride on the Development of Limnaea stagnalis and Limnaea palustris|Biol. Bull.125(3): 508-522|1963|10.2307/1539363
15214|A||Oikari,A., B.E. Lonn, M. Castren, T. Nakari, B. Snickars-Nikinmaa, H. Bister, and E. Virtanen|Toxicological Effects of Dehydroabietic Acid (DHAA) on the Trout, Salmo gairdneri Richardson, in Fresh Water|Water Res.17(1): 81-89|1983|10.1016/0043-1354(83)90288-9
15215|A||Owen,J.W., and S.W. Rosso|Effects of Sublethal Concentrations of Pentachlorophenol on the Liver of Bluegill Sunfish, Lepomis macrochirus|Bull. Environ. Contam. Toxicol.26(5): 594-600|1981|10.1007/BF01622142
15216|A||Steemann Nielsen,E., and S. Wium-Andersen|Influence of Copper on Photosynthesis of Diatoms, with Special Reference to an Afternoon Depression|Verh. Int. Ver. Theor. Angew. Limnol.18:78-83|1972|
15217|A||Stendahl,D.H., and J.B. Sprague|Effects of Water Hardness and pH on Vanadium Lethality to Rainbow Trout|Water Res.16:1479-1488|1982|10.1016/0043-1354(82)90246-9
15219|A||Chapman,G.A., and D.L. Shumway|Effects of Sodium Pentachlorophenate on Survival and Energy Metabolism of Embryonic and Larval Steelhead Trout|In: K.R.Rao (Ed.), Pentachlorophenol: Chemistry, Pharmacology and Environmental Toxicology, Plenum Press, NY:285-299|1978|
15220|A||Crossland,N.O.|Aquatic Toxicology of Cypermethrin. II. Fate and Biological Effects in Pond Experiments|Aquat. Toxicol.2:205-222|1982|10.1016/0166-445X(82)90025-X
15221|A||Crossland,N.O., S.W. Shires, and D. Bennett|Aquatic Toxicology of Cypermethrin. III. Fate and Biological Effects of Spray Drift Deposits in Fresh Water Adjacent to Agricultural Land|Aquat. Toxicol.2:253-270|1982|10.1016/0166-445X(82)90015-7
15222|A||Danil'chenko,O.P., and N.S. Stroganov|Effects of Antiseptics on the Embryonic and Early Post-Embryonic Development of Bony Fishes|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)16(1): 14-20|1973|
15223|A||Dial,N.A.|Methylmercury:  Some Effects on Embryogenesis in the Japanese Medaka, Oryzias latipes|Teratology17:83-87|1978|10.1002/tera.1420170116
15225|A||Van Dam,R.A., M.J. Barry, J.T. Ahokas, and D.A. Holdway|Toxicity of DTPA to Daphnia carinata as Modified by Oxygen Stress and Food Limitation|Ecotoxicol. Environ. Saf.31(2): 117-126|1995|10.1006/eesa.1995.1051
15226|A||Heisinger,J.F., and W. Green|Mercuric Chloride Uptake by Eggs of the Ricefish and Resulting Teratogenic Effects|Bull. Environ. Contam. Toxicol.14(6): 665-673|1975|10.1007/BF01685240
15227|A||Hisaoka,K.K.|The Effects of 2-Acetylaminofluorene on the Embryonic Development of the Zebrafish I. Morphological Studies|Cancer Res.18:527-535|1958|
15228|A||Kihlstrom,J.E., and L. Hulth|The Effect of Phenylmercuric Acetate upon the Frequency of Hatching of Eggs from the Zebrafish|Bull. Environ. Contam. Toxicol.7(2/3): 111-114|1972|10.1007/BF01684800
15229|A||Lowe,J.I.|Chronic Exposure of Spot, Leiostomus xanthurus, to Sublethal Concentrations of Toxaphene in Seawater|Trans. Am. Fish. Soc.93(4): 396-399|1964|10.1577/1548-8659(1964)93[396:CEOSLX]2.0.CO;2
15230|A||Morgan,R.P.J., and R.D. Prince|Chlorine Effects on Larval Development of Striped Bass (Morone saxatilis), White Perch (M. americana) and Blueback Herring (Alosa aestivalis)|Trans. Am. Fish. Soc.107(4): 636-641|1978|10.1577/1548-8659(1978)107<636:CEOLDO>2.0.CO;2
15231|A||Stephenson,R.R.|Aquatic Toxicology of Cypermethrin. I. Acute Toxicity to Some Freshwater Fish and Invertebrates in Laboratory Tests|Aquat. Toxicol.2(3): 175-185|1982|10.1016/0166-445X(82)90014-5
15232|A||Stock,J.N., and O.B. Cope|Some Effects of TEPA, an Insect Chemosterilant, on the Guppy, Poecilia reticulata|Trans. Am. Fish. Soc.98(2): 280-287|1969|10.1577/1548-8659(1969)98[280:SEOTAI]2.0.CO;2
15233|A||Oliveira Ribeiro,C.A., L.M. Fernandes, C.S. Carvalho, R.I. Cardoso, and N.M. Turcatti|Acute Effects of Mercuric Chloride on the Olfactory Epithelium of Trichomycterus brasiliensis|Ecotoxicol. Environ. Saf.31(2): 104-109|1995|10.1006/eesa.1995.1049
15234|A||Pawar,K.R., and M. Katdare|Metabolic Depression in Freshwater Teleost Garra mullya Exposed to Sublethal and Lethal Concentrations of Fenitrothion, BHC and Carbofuran|Biovigyanam11(1): 72-76|1985|
15236|A||Sarojini,R., R. Nagabhushanam, and M. Fingerman|Naphthalene-Induced Atresia in the Ovary of the Crayfish, Procambarus clarkii|Ecotoxicol. Environ. Saf.31(1): 76-83|1995|10.1006/eesa.1995.1046
15237|A|RUSSN|Sabodash,V.M.|Size of Eggs and Ovule of Female Carp of Various Age, Both Under Normal Conditions and Exposed to Increase Doses of Zinc Sulfate|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)20(3): 62-67|1977|
15238|A||Echeverria,T.|Accumulation of 14C Labeled Benzene and Related Compounds in the Rotifer Brachionus plicatilis from Seawater|Can. J. Fish. Aquat. Sci.37(4): 738-741|1980|10.1139/f80-097
15239|A||Gledhill,W.E., R.G. Kaley, W.J. Adams, O. Hicks, P.R. Michael, V.W. Saeger, and G.A. LeBlanc|An Environmental Safety Assessment of Butyl Benzyl Phthalate|Environ. Sci. Technol.14(3): 301-305|1980|10.1021/es60163a001
15240|A||Maly,M., and E. Ruber|Effects of Pesticides on Pure and Mixed Species Cultures of Salt Marsh Pool Algae|Bull. Environ. Contam. Toxicol.30(4): 464-472|1983|10.1007/BF01610161
15241|A||Chambers,J.S.|Investigation of Chemical Control of Ghost Shrimp on Oyster Grounds 1960-1963|In: Technical Report No.1, Washington State Dep.Fish., WA:25-62|1970|
15242|A||Sayce,C.S.|The Uptake of Sevin by Pacific Oysters and Bottom Muds|In: Washington (State) Dep.Fish., Tech.Rep.No.1:9-17|1970|
15243|A||Sayce,C.S., and J.S. Chambers|Observations on Potential Uptake of Sevin by Pacific Oysters|In: Washington (State) Dep.Fish., Tech.Rep.No.1:18-24|1970|
15244|A||Tegelberg,H., and D. Magoon|Sevin Treatment of a Subtidal Oyster Bed in Grays Harbor|In: Washington (State) Dep.Fish., Tech.Rep.No.1:1-8|1970|
15245|A||Sollmann,T.|Correlation of the Aquarium Goldfish Toxicities of Some Phenols, Quinones, and Other Benzene Derivatives with Their Inhibition of Autooxidative|J. Gen. Physiol.32:671-679|1949|10.1085/jgp.32.6.671
15246|A||Addison,R.F., M.E. Zinck, and D.E. Willis|Time- and Dose-Dependence of Hepatic Mixed Function Oxidase Activity in Brook Trout Salvelinus fontinalis on Polychlorinated Biphenyl Residues|Environ. Pollut. A.25(3): 211-218|1981|10.1016/0143-1471(81)90105-7
15247|A||Perry,D.M., J.S. Weis, and P. Weis|Cytogenetic Effects of Methylmercury in Embryos of the Killifish, Fundulus heteroclitus|Arch. Environ. Contam. Toxicol.17(5): 569-574|1988|10.1007/BF01055824
15248|A||Reddy,P.S., and M. Fingerman|Effect of Cadmium Chloride on Physiological Color Changes of the Fiddler Crab, Uca pugilator|Ecotoxicol. Environ. Saf.31(1): 69-75|1995|10.1006/eesa.1995.1045
15249|A||Batel,R., N. Bihari, B. Kurelec, and R.K. Zahn|DNA Damage by Benzo(a)pyrene in the Liver of Mosquito Fish Gambusia affinis|Sci. Total Environ.41(3): 275-283|1985|10.1016/0048-9697(85)90146-9
15250|A||Bryan,G.W., and L.G. Hummerstone|Adaptation of the Polychaete Nereis diversicolor to Manganese in Estuarine Sediments|J. Mar. Biol. Assoc. U.K.53(4): 859-872|1973|10.1017/S0025315400022529
15253|A||Phelps,H.L., and J.A. Mihursky|Oyster (Crassostrea virginica, Gmelin) Spat Settlement and Copper in Aufwuchs|Estuaries9(2): 127-132|1986|10.2307/1351945
15254|A||Giattina,J.D., D.S. Cherry, J.,Jr. Cairns, and S.R. Larrick|Comparison of Laboratory and Field Avoidance Behavior of Fish in Heated Chlorinated Water|Trans. Am. Fish. Soc.110(4): 526-535|1981|10.1577/1548-8659(1981)110<526:COLAFA>2.0.CO;2
15255|A||Gibson,C.I., R.E. Hillman, P. Wilkinson, and D.L. Woodruff|Growth and Histological Effects to Protothaca staminea (Littleneck Clam) of Long-Term Exposure to Chlorinated Sea Water|U.S.Nuclear Regulatory Comm.Rep.No.PNL-3158:57-1298|1980|
15256|A||Banerjee,S., and S. Bhattacharya|Histopathological Changes Induced by Chronic Nonlethal Levels of Elsan, Mercury, and Ammonia in the Small Intestine of Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.31(1): 62-68|1995|10.1006/eesa.1995.1044
15257|A||Hatakeyama,S., M. Yasuno, and M. Miyashita|Effect of Heavy Metals on the Food-Chain System of Cladocera (Moina macrocopa) and Hydra (Pelmatohydra robusta)|Water Pollut.Res.2(3): 163-172|1979|
15258|A||Ito,Y., K. Nishimura, and T. Murata|Effects of PCB on Lysosomes in the Hepatopancreas of Carp|Nippon Suisan Gakkaishi (Multiple Languages)46(4): 469-472|1980|10.2331/suisan.46.469
15259|A||Lowe,J.I., P.D. Wilson, and R.B. Davison|Laboratory Bioassays|In: U.S. Fish Wildl. Serv., Circ. 335, Washington, D.C.:20-23|1970|
15260|A||Wilson,J.E.H., and J.D. Costlow|Acute Toxicity of Diflubenzuron (DFB) to Various Life Stages of the Grass Shrimp, Palaemonetes pugio|Water Air Soil Pollut.33:411-417|1987|10.1007/BF00294208
15261|A||Purushotham,K.R., and M.B. Subbatiah|Organic Constituents in the Fresh Water Mussel, Lamellidens marginais Exposed to Methyl Parathion|Natl. Acad. Sci. Lett.6(5): 169-171|1983|
15263|A||Nimmo,D.R., and R.R. Blackman|Physiology of Estuarine Organisms. Shrimp Physiology|Circular 335, U.S.Fish and Wildlife Service, Washington, D.C.:29-31|1970|
15265|A||Boudou,A., and F. Ribeyre|Experimental Study of Trophic Contamination of Salmo gairdneri by Two Mercury Compounds - HgCl2 and CH3HgCl - Analysis at the Organism and Organ Levels|Water Air Soil Pollut.26(2): 137-148|1985|10.1007/BF00292064
15266|A||Stokes,P., and T.C. Hutchinson|Copper Toxicity to Phytoplankton, as Affected by Organic Ligands, Other Cations and Inherent Tolerance of Algae to Copper|In: R.W.Andrew, P.V.Hodson, and D.E.Konasewich (Eds.), Toxicity to Biota of Metal Forms in Nat.Water, Proc.Int.Joint Comm., Duluth, MN:159-185|1976|
15268|A||Van den Berg,C.M.G., P.T.S. Wong, and Y.K. Chau|Measurement of Complexing Materials Excreted from Algae and Their Ability to Ameliorate Copper Toxicity|J. Fish. Res. Board Can.36(8): 901-905|1979|10.1139/f79-128
15269|A||Walsh,G.E., and P.T. Heitmuller|Effects of Herbicide on the Biota and Energy Budget of a Coastal Pond Ecosystem|In: U.S. Fish Wildl. Serv., Circ. 335, Washington, D.C.:7-10|1970|
15270|A||Walton,J.R., and E.M. Davis|Toxicology and Fate of Selected Industrial Chemicals in Aquatic Ecosystems|University of Texas, School of Public Health, Inst.of Environ.Health, Houston, TX:91 p.|1980|
15271|A||Yasuno,M., S. Hirakoso, M. Sasa, and M. Uchida|Inactivation of Some Organophosphorous Insecticides by Bacteria in Polluted Water|Jpn. J. Exp. Med.35(6): 545-563|1965|
15272|A||Reichert,W.L., and U. Varanasi|Metabolism of Orally Administered Naphthalene in Spawning English Sole (Parophrys vetulus)|Environ. Res.27(2): 316-324|1982|10.1016/0013-9351(82)90087-1
15273|A||Bishop,W.E., and R.L. Perry|Development and Evaluation of a Flow-Through Growth Inhibition Test with Duckweed (Lemna minor)|ASTM Spec. Tech. Publ.:421-435|1981|
15274|A||Califano,R.J., J.M. O'Connor, and J.A. Hernandez|Polychlorinated Biphenyl Dynamics in Hudson River Striped Bass.  I.  Accumulation in Early Life History Stages|Aquat. Toxicol.2(4): 187-204|1982|10.1016/0166-445X(82)90024-8
15275|A||Call,D.J., L.T. Brooke, R.J. Kent, M.L. Knuth, C. Anderson, and C. Moriarity|Toxicity, Bioconcentration, and Metabolism of the Herbicide Propanil (3',4'-Dichloropropionanilide) in Freshwater Fish|Arch. Environ. Contam. Toxicol.12:175-182|1983|10.1007/BF01059578
15276|A||Pyne,C.K., F. Iftode, and J.J. Curgy|The Effects of Cadmium on the Growth Pattern and Ultrastructure of the Ciliate Tetrahymena pyriformis, and the Antagonistic Effect of Calcium|Biol. Cell.48(2/3): 121-132|1983|
15277|A||Gilderhus,P.A.|Effects of an Aquatic Plant and Suspended Clay on the Activity of Fish Toxicants|N. Am. J. Fish. Manag.2:301-306|1982|10.1577/1548-8659(1982)2<301:EOAAPA>2.0.CO;2
15278|A||Hendricks,J.D., T.P. Putman, and R.O. Sinnhuber|Null Effect of Dietary Aroclor 1254 on Hepatocellular Carcinoma Incidence in Rainbow Trout (Salmo gairdneri) Exposed to Aflatoxin B1 as Embryos|J. Environ. Pathol. Toxicol.4(5-6): 9-16|1980|
15279|A||Lockhart,W.L., D.A. Metner, A.P. Blouw, and D.C.G. Muir|Prediction of Biological Availability of Organic Chemical Pollutants to Aquatic Animals and Plants|ASTM Spec. Tech. Publ.:259-272|1982|
15280|A||Newsome,C.S.|A Multigeneration Fish Toxicity Test as an Aid in the Hazard Evaluation of Aquatic Pollutants|Ecotoxicol. Environ. Saf.4:362-369|1980|10.1016/0147-6513(80)90038-X
15281|A||Nishiuchi,Y.|Control Effect of Pesticide to Duckweed|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)14:69-72|1974|
15282|A||Rosenberger,D.R.|The Calculation of Acute Toxicity of Free Chlorine and Chloramines to Coho Salmon by Multiple Regression Analysis|M.S. Thesis, Michigan State University, East Lansing, MI:62 p.|1971|
15283|A||Wilson,K.W.|The Ability of Herring and Plaice Larvae to Avoid Concentrations of Oil Dispersants|In: J.H.Blaxter (Ed.), Proc.Int.Symp.Early Life Hist.Fish, Springer-Verlag, Berlin:589-602|1974|
15285|A||Robinson,D.J.S., and E.J. Perkins|The Toxicity of Some Wood Pulp Effluent Constituents|Scientific Report No.74/1, Cumbria Sea Fisheries Committee, Carlisle, England:22 p.|1977|
15286|A||Varanasi,U., and D.J. Gmur|In Vivo Metabolism of Naphthalene and Benzo(a)pyrene by Flatfish|In: M.Cooke and A.J.Dennis (Eds,), Chemical Analysis and Biological Fate: Polynuclear Aromatic Hydrocarbons, Battelle Press, Columbus, OH:367-376|1981|
15288|A||Varanasi,U., D.J. Gmur, and M.M. Krahn|Metabolism and Subsequent Binding of Benzo(a)pyrene to DNA in Pleuronectid and Salmonid Fish|In:  Proc. 4th Int. Symp. Polynuclear Aromatic Hydrocarbons; Analysis, Chem., Biol., Battelle Press, Columbus, OH:455-470|1980|
15289|A||Varanasi,U., J.E. Stein, and T. Hom|Covalent Binding of Benzo(a)pyrene to DNA in Fish Liver|Biochem. Biophys. Res. Commun.103(2): 780-787|1981|10.1016/0006-291X(81)90517-9
15290|A||Boudou,A., and F. Ribeyre|An Experimental Trophic Chain in Freshwater Environment: Mercury Chloride. Tissue Metal Distribution Responses to Temperature and Exposure Time|Water Air Soil Pollut.14:339-347|1980|10.1007/BF00291847
15291|A||Gaaboub,I.A., F.M. El-Gayar, and E.M. Helal|Comparative Bioassay Studies on Larvae of Culex pipiens and the Microcrustacean Daphnia magna|Bull. Entomol. Soc. Egypt9:77-84|1975|
15292|A||Gaaboub,I.A., I.A. Rawash, H.K. Badawy, and N.A. Bayomi|Comparison Between the Use of Gambusia affinis Baird and Girard, Mosquito Larvae of Culex pipiens L. and the Microcrustacean Daphnia magna Straus|Proc. 4th Arab Pestic. Conf. Tanta Univ.1:213-227|1981|
15293|A||Geiger,J.G.,Jr., and A.L.,Jr. Buikema|Hydrocarbons Depress Growth and Reproduction of Daphnia pulex (Cladocera)|Can. J. Fish. Aquat. Sci.39(6): 830-836|1982|10.1139/f82-113
15294|A||Geiger,J.G.,Jr., and A.L.,Jr. Buikema|Oxygen Consumption and Filtering Rate of Daphnia pulex After Exposure to Water-Soluble Fractions of Naphthalene, Phenanthrene, No. 2 Fuel Oil, and Coal-Tar Creosote|Bull. Environ. Contam. Toxicol.27:783-789|1981|10.1007/BF01611096
15295|A||Holt,G.J., and C.R. Arnold|Effects of Ammonia and Nitrite on Growth and Survival of Red Drum Eggs and Larvae|Trans. Am. Fish. Soc.112(2B): 314-318|1983|10.1577/1548-8659(1983)112<314:EOAANO>2.0.CO;2
15297|A||Chetty,C.S., R.C. Naidu, Y.S. Reddy, P. Aruna, and K.S. Swami|Tolerance Limits and Detoxification Mechanisms in the Fish Tilapia mossambica Subjected to Ammonia Toxicity|Indian J. Fish.27(1-2): 177-182|1980|
15298|A||Westin,D.T., C.E. Olney, and B.A. Rogers|Effects of Parental and Dietary PCBs on Survival, Growth, and Body Burdens of Larval Striped Bass|Bull. Environ. Contam. Toxicol.30:50-57|1983|10.1007/BF01610098
15299|A||Samecka-Cymerman,A., and A.J. Kempers|Preliminary Investigations into the Bioaccumulation of Mercury by the Liverwort Scapania undulata L. (Dum)|Ecotoxicol. Environ. Saf.31(1): 57-61|1995|10.1006/eesa.1995.1043
15300|A|OECDF|Bellan-Santini,D., G. Bellan, and D.J. Reish|Variations of the Effects of Toxicity According to the Day-Night Cycle of Certain Marine Invertebrates|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)288(1): 139-141|1979|
15301|A|OECDG|Benoit,D.A., F.A. Puglisi, and D.L. Olson|A Fathead Minnow Pimephales promelas Early Life Stage Toxicity Test Method Evaluation and Exposure to Four Organic Chemicals|Environ. Pollut. A.28(3): 189-197|1982|10.1016/0143-1471(82)90075-7
15302|A||Schoeny,R., T. Cody, D. Warshawsky, and M. Radike|Metabolism of Mutagenic Polycyclic Aromatic Hydrocarbons by Photosynthetic Algal Species|Mutat. Res.197(2): 289-302|1988|10.1016/0027-5107(88)90099-1
15303|A||Huckins,J.N., D.L. Stalling, J.D. Petty, D.R. Buckler, and B.T. Johnson|Fate of Kepone and Mirex in the Aquatic Environment|J. Agric. Food Chem.30(6): 1020-1027|1982|10.1021/jf00114a004
15304|A||Kaim-Malka,R.A.|Action In Vitro Des Detergents Non Ioniques Sur L'Isopode Sphaeroma serratum (Fabricius)|Tethys (Cornella de Llobregat) (Multiple Languages)4(3): 587-596|1972|
15308|A||Fernandez-Leborans,G., and A. Novillo|The Effects of Cadmium on the Successional Stages of a Freshwater Protozoa Community|Ecotoxicol. Environ. Saf.31(1): 29-36|1995|10.1006/eesa.1995.1040
15311|A||Knowlton,M.F., and J.N. Huckins|Fate of Radiolabeled Sodium Pentachlorophenate in Littoral Microcosms|Bull. Environ. Contam. Toxicol.30:206-213|1983|10.1007/BF01610122
15312|A||Brown,D.G., R.P. Lanno, M.R. Van den Heuvel, and D.G. Dixon|HPLC Determination of Plasma Thiocyanate Concentrations in Fish Blood: Application to Laboratory Pharmacokinetic and Field-Monitoring Studies|Ecotoxicol. Environ. Saf.30(3): 302-308|1995|10.1006/eesa.1995.1034
15313|A||Dunier,M., C. Vergnet, A.K. Siwicki, and V. Verlhac|Effect of Lindane Exposure on Rainbow Trout (Oncorhynchus mykiss) Immunity. IV. Prevention of Nonspecific and Specific Immunosuppression by Dietary|Ecotoxicol. Environ. Saf.30(3): 259-268|1995|10.1006/eesa.1995.1029
15314|A||Olson,G.F., D.I. Mount, V.M. Snarski, and T.W. Thorslund|Mercury Residues in Fathead Minnows, Pimephales promelas Rafinesque, Chronically Exposed to Methylmercury in Water|Bull. Environ. Contam. Toxicol.14(2): 129-134|1975|10.1007/BF01701302
15315|A||Ozmen,M., S. Sener, A. Mete, and H. Kucukbay|In Vitro and In Vivo Acetylcholinesterase-Inhibiting Effect of New Classes of Organophosphorus Compounds|Environ. Toxicol. Chem.18(2): 241-246|1999|
15316|A||Pizza,J.C., and J.M. O'Connor|PCB Dynamics in Hudson River Striped Bass.  II.  Accumulation From Dietary Sources|Aquat. Toxicol.3:313-327|1983|10.1016/0166-445X(83)90013-9
15317|A||Ribeyre,F., A. Delarche, and A. Boudou|Transfer of Methylmercury in an Experimental Freshwater Trophic Chain - Temperature Effects|Environ. Pollut. Ser. B Chem. Phys.1:259-268|1980|10.1016/0143-148X(80)90002-6
15318|A||Snarski,V.M., and G.F. Olson|Chronic Toxicity and Bioaccumulation of Mercuric Chloride in the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.2:143-156|1982|10.1016/0166-445X(82)90012-1
15319|A||Stora,G.|Effect of Combined Temperature-Salinity Variations on the Sensitivity of an Amphipod Crustacean Subjected to a Lethal Agent|J. Fr. Hydrol.11, Pt.3(33): 225-240|1980|
15321|A||Postma,J.F., and C. Davids|Tolerance Induction and Life Cycle Changes in Cadmium-Exposed Chironomus riparius (Diptera) During Consecutive Generations|Ecotoxicol. Environ. Saf.30(2): 195-202|1995|10.1006/eesa.1995.1024
15322|A||Canton,J.H., and R.C.C. Wegman|Studies on the Toxicity of Tribromoethene, Cyclohexene and Bromocyclohexane to Different Freshwater Organisms|Water Res.17(7): 743-747|1983|10.1016/0043-1354(83)90068-4
15323|A||Corpron,K.E., and D.A. Armstrong|Removal of Nitrogen by an Aquatic Plant, Elodea densa, in Recirculating Macrobrachium Culture Systems|Aquaculture32(3/4): 347-360|1983|10.1016/0044-8486(83)90232-6
15324|A||Dabrowski,K.R.|The Effect of Arsenic on Embrional Development of Rainbow Trout (Salmo gairdneri, Rich.)|Water Res.10(8): 793-796|1976|10.1016/0043-1354(76)90098-1
15325|A||Matthiessen,P., R. Waldock, J.E. Thain, M.E. Waite, and S. Scrope-Howe|Changes in Periwinkle (Littorina littorea) Populations Following the Ban on TBT-Based Antifoulings on Small Boats in the United Kingdom|Ecotoxicol. Environ. Saf.30(2): 180-194|1995|10.1006/eesa.1995.1023
15326|A||Kleerekoper,H., J.B. Waxman, and J. Matis|Interaction of Temperature and Copper Ions as Orienting Stimuli in the Locomotor Behavior of the Goldfish (Carassius auratus)|J. Fish. Res. Board Can.30(6): 725-728|1973|10.1139/f73-129
15327|A|OECDG|Lima,A.R., C. Curtis, D.E. Hammermeister, D.J. Call, and T.A. Felhaber|Acute Toxicity of Silver to Selected Fish and Invertebrates|Bull. Environ. Contam. Toxicol.29(2): 184-189|1982|10.1007/BF01606148
15328|A||Nishiuchi,Y., T. Nishimura, K. Asano, and H. Nakamura|Hematological Effects of Long-Term, Low-Level Exposures to Molinate Herbicide in Carp, Cyprinus carpio Linne|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)22:41-47|1982|
15329|A||Oladimeji,A.A., S.U. Qadri, and A.S.W. DeFreitas|Effect of Acclimation of Rainbow Trout (Salmo gairdneri) to Arsenic on Retention of a Subsequent Dose of Arsenic|Ecotoxicol. Environ. Saf.6(2): 196-203|1982|10.1016/0147-6513(82)90010-0
15330|A||Paladino,F.V., and J.R. Spotila|The Effect of Arsenic on the Thermal Tolerance of Newly Hatched Muskellunge Fry (Esox masquinongy)|J. Therm. Biol.3(4): 223-227|1978|10.1016/0306-4565(78)90024-4
15331|A||Penrose,W.R.|Biosynthesis of Organic Arsenic Compounds in Brown Trout (Salmo trutta)|J. Fish. Res. Board Can.32(12): 2385-2390|1975|10.1139/f75-275
15332|A||Ramalingam,R., and Y.S. Reddy|Kinetics of Dose-Response Relationship in the Bimodal Respiration of Colisa lalia (Hamilton-Buchanan) Exposed to Lindane (gamma-BHC)|Water Res.16(1): 1-5|1982|10.1016/0043-1354(82)90046-X
15333|A||Sandhu,S.S.|Study on the Post-Mortem Identification of Pollutants in the Fish Killed by Water Pollution:  Detection of Arsenic|Bull. Environ. Contam. Toxicol.17(3): 373-378|1977|10.1007/BF01686093
15334|A||Seuge,J., D. Marchal-Segault, and R. Bluzat|Acute Toxicity of a Dithiocarbamate Fungicide, Thiram, on Several Animals Species of Freshwater (Toxicite Aigue d'un Fongicide Dithiocarbamate, le Thirame, vis-a-vis de Plusieurs Especes Animales d'eau Douce)|Environ. Pollut. A.31(3): 177-189|1983|10.1016/0143-1471(83)90075-2
15335|A||Sorensen,E.M.B.|Thermal Effects on the Accumulation of Arsenic in Green Sunfish, Lepomis cyanellus|Arch. Environ. Contam. Toxicol.4(1): 8-17|1976|10.1007/BF02221011
15336|A||Sorensen,E.M.B., and N.K.R. Smith|Hemosiderin Granules: Cytotoxic Response to Arsenic Exposure in Channel Catfish|Bull. Environ. Contam. Toxicol.27(5): 645-653|1981|10.1007/BF01611077
15337|A||Trucco,R.G., F.R. Engelhardt, and B. Stacey|Toxicity, Accumulation and Clearance of Aromatic Hydrocarbons in Daphnia pulex|Environ. Pollut. A.31(3): 191-202|1983|10.1016/0143-1471(83)90076-4
15338|A||Ahsanullah,M., D.S. Negilski, and M.C. Mobley|Toxicity of Zinc, Cadmium and Copper to the Shrimp Callianassa australiensis. I. Effects of Individual Metals|Mar. Biol.64(3): 299-304|1981|10.1007/BF00393630
15339|A||Ahsanullah,M., D.S. Negilski, and M.C. Mobley|Toxicity of Zinc, Cadmium and Copper to the Shrimp Callianassa australiensis.  III.  Accumulation of Metals|Mar. Biol.64(3): 311-316|1981|10.1007/BF00393632
15340|A||Allen,H.E., C. Blatchley, and T.D. Brisbin|An Algal Assay Method for Determination of Copper Complexation Capacities of Natural Waters|Bull. Environ. Contam. Toxicol.30(4): 448-455|1983|10.1007/BF01610159
15341|A||Xylander,M., and W. Braune|Influence of Nickel on the Green Alga Haematococcus lacustris Rostafinski in Phases of Its Life Cycle|J. Plant Physiol.144(1): 86-93|1994|10.1016/S0176-1617(11)80998-3
15342|A||Bass,M.L., C.R.,Jr. Berry, and A.G. Heath|Histopathological Effects of Intermittent Chlorine Exposure on Bluegill (Lepomis macrochirus) and Rainbow Trout (Salmo gairdneri)|Water Res.11(8): 731-735|1977|10.1016/0043-1354(77)90115-4
15343|A||Bass,M.L., and A.G. Heath|Cardiovascular and Respiratory Changes in Rainbow Trout, Salmo gairdneri, Exposed Intermittently to Chlorine|Water Res.11(6): 497-502|1977|10.1016/0043-1354(77)90036-7
15344|A||Block,R.M., D.T. Burton, S.R. Gullans, and L.B. Richardson|Respiratory and Osmoregulatory Responses of White Perch (Morone americana) Exposed to Chlorine and Ozone in Estuarine Waters|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:351-360|1978|
15345|A||Ensenbach,U., and R. Nagel|Toxicity of Complex Chemical Mixtures: Acute and Long-Term Effects on Different Life Stages of Zebrafish (Brachydanio rerio)|Ecotoxicol. Environ. Saf.30(2): 151-157|1995|10.1006/eesa.1995.1019
15346|A||Hamilton,S.J.|Hazard Assessment of Inorganics to Three Endangered Fish in the Green River, Utah|Ecotoxicol. Environ. Saf.30(2): 134-142|1995|10.1006/eesa.1995.1017
15347|A||Carmichael,N.G., and B.A. Fowler|Cadmium Accumulation and Toxicity in the Kidney of the Bay Scallop Argopecten irradians|Mar. Biol.65(1): 35-43|1981|10.1007/BF00397065
15348|A||Seelye,J.G., L.L. Marking, E.L.,Jr. King, L.H. Hanson, and T.D. Bills|Toxicity of TFM Lampricide to Early Life Stages of Walleye|N. Am. J. Fish. Manag.7(4): 598-601|1987|10.1577/1548-8659(1987)7<598:TOTLTE>2.0.CO;2
15349|A||Cherry,D.S., S.R. Larrick, K.L. Dickson, R.C. Hoehn, and J.,Jr. Cairns|Significance of Hypochlorous Acid in Free Residual Chlorine to the Avoidance Response of Spotted Bass (Micropterus punctulatus) and Rosyface Shiner|J. Fish. Res. Board Can.34(9): 1365-1372|1977|10.1139/f77-196
15350|A||Crespo,S., E. Soriano, C. Sampera, and J. Balasch|Zinc and Copper Distribution in Excretory Organs of the Dogfish Scyliorhinus canicula and Chloride Cell Response Following Treatment with Zinc Sulphate|Mar. Biol.65(2): 117-123|1981|10.1007/BF00397075
15351|A||Darwazeh,H.A., and M.S. Mulla|Pyrethrin Tossits Against Mosquito Larvae and Their Effects on Mosquito Fish and Selected Nontarget Organisms|Mosq. News41(4): 650-655|1981|
15352|A||Doudoroff,P., G. Leduc, and C.R. Schneider|Acute Toxicity to Fish of Solutions Containing Complex Metal Cyanides, in Relation to Concentrations of Molecular Hydrocyanic Acid|Trans. Am. Fish. Soc.95(1): 6-22|1966|10.1577/1548-8659(1966)95[6:ATTFOS]2.0.CO;2
15353|A||Flos,R., M.C. Riva, and J. Balasch|Chromium and Potassium Accumulation Influenced by Body Weight in Goldfish (Carassius auratus)|Bull. Environ. Contam. Toxicol.30(3): 331-336|1983|10.1007/BF01610141
15354|A||Garavini,C., and P. Martelli|Effect of Lead Acetate on Erythropoiesis and Ultra-Structural Changes of Erythroblasts in the Catfish Ictalurus melas (Rafinesque) (Siluriformes)|Monit. Zool. Ital.13(2-3): 83-93|1979|
15355|A||Faulk,C.K., L.A. Fuiman, and P. Thomas|Parental Exposure to ortho,para-Dichlorodiphenyltrichloroethane Impairs Survival Skills of Atlantic Croaker (Micropogonias undulatus) Larvae|Environ. Toxicol. Chem.18(2): 254-262|1999|
15356|A||Prasad,T.A.V., T. Srinivas, S. Janardan Reddy, and D.C. Reddy|Atrazine Toxicity on Transport Properties of Hemocyanin in the Crab Oziotelphusa senex senex|Ecotoxicol. Environ. Saf.30(2): 124-126|1995|10.1006/eesa.1995.1015
15357|A||Matthiessen,P., D. Sheahan, R. Harrison, M. Kirby, R. Rycroft, A. Turnbull, C. Volkner, and R. Williams|Use of a Gammarus pulex Bioassay to Measure the Effects of Transient Carbofuran Runoff from Farmland|Ecotoxicol. Environ. Saf.30(2): 111-119|1995|10.1006/eesa.1995.1013
15358|A||Kumaraguru,A.K., F.W.H. Beamish, and H.W. Ferguson|Direct and Circulatory Paths of Permethrin (NRDC-143) Causing Histopathological Changes in the Gills of Rainbow Trout, Salmo gairdneri Richardson|J. Fish Biol.20(1): 87-91|1982|10.1111/j.1095-8649.1982.tb03897.x
15359|A||Corradi,M.G., G. Gorbi, and M. Bassi|Hexavalent Chromium Induces Gametogenesis in the Freshwater Alga Scenedesmus acutus|Ecotoxicol. Environ. Saf.30(2): 106-110|1995|10.1006/eesa.1995.1012
15361|A||McBride,J.R., H.M. Dye, and E.M. Donaldson|Stress Response of Juvenile Sockeye Salmon (Oncorhynchus nerka) to the Butoxyethanol Ester of 2,4-Dichlorophenoxyacetic Acid|Bull. Environ. Contam. Toxicol.27(6): 877-884|1981|10.1007/BF01611111
15362|A||Morgan,W.S.G., and P.C. Kuhn|A Method to Monitor the Effects of Toxicants upon Breathing Rate of Largemouth Bass (Micropterus salmoides Lacepede)|Water Res.8(1): 67-77|1974|10.1016/0043-1354(74)90010-4
15363|A||Crum,S.J.H., and T.C.M. Brock|Fate of Chlorpyrifos in Indoor Microcosms and Outdoor Experimental Ditches|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:315-322|1994|
15364|A||Dive,D., C. Blaise, S. Robert, A. Le Du, N. Bermingham, R. Cardin, A. Kwan, R. Legault, L. MacCarthy, D. Moul, and L. V|Canadian Workshop on the Colpidium campylum Ciliate Protozoan Growth Inhibition Test|Z. Angew. Zool. (Multiple Languages)76(1): 49-64|1990|
15365|A||Salibian,A., and L.E. Fichera|Ecotoxicology of Pyrethroid Insecticides:  Short Term Effects of Decis 2-5 on Juvenile Astyanax (Astyanax) fasciatus fasciatus (Tetragonopteridae, Pisces) in Captivity|Comp. Biochem. Physiol. C Comp. Pharmacol.70(2): 265-268|1981|10.1016/0306-4492(81)90061-7
15366|A||Sastry,K.V., and K. Sunita|Enzymological and Biochemical Changes Produced by Chronic Chromium Exposure in a Teleost Fish, Channa punctatus|Toxicol. Lett.16(1-2): 9-15|1983|10.1016/0378-4274(83)90003-6
15367|A||Singh,N.N., and A.K. Srivastava|Effects of Endosulfan on Fish Carbohydrate Metabolism|Ecotoxicol. Environ. Saf.5(4): 412-417|1981|10.1016/0147-6513(81)90015-4
15368|A|OECDG|Swarup,P.A., D.M. Rao, and A.S. Murty|Toxicity of Endosulfan to the Freshwater Fish Cirrhinus mrigala|Bull. Environ. Contam. Toxicol.27(6): 850-855|1981|10.1007/BF01611106
15369|A||Usuki,I.|A Comparison of the Effects of Cyanide and Azide on the Ciliary Activity of the Oyster Gill|Sci. Rep.Tohoku Univ. Fourth Ser.(Biol.)22(3): 137-142|1956|
15370|A||Weber,F.H., T.B. Shea, and E.S. Berry|Toxicity of Certain Insecticides to Protozoa|Bull. Environ. Contam. Toxicol.28(5): 628-631|1982|10.1007/BF01605596
15371|A||Westerman,A.G., and W.J. Birge|Accelerated Rate of Albinism in Channel Catfish Exposed to Metals|Prog. Fish-Cult.40(4): 143-146|1978|10.1577/1548-8659(1978)40[143:AROAIC]2.0.CO;2
15372|A||Woodworth,J., A.S.A. Evans, and D. Pascoe|The Production of Cadmium-Binding Protein in Three Species of Freshwater Fish|Toxicol. Lett.15(4): 289-295|1983|10.1016/0378-4274(83)90146-7
15374|A||Yamamura,M., S. Hatakeyama, and K.T. Suzuki|Cadmium Uptake and Induction of Cadmium-Binding Protein in the Waterflea (Moina macrocopa)|Bull. Environ. Contam. Toxicol.30(3): 298-302|1983|10.1007/BF01610136
15375|A||Best,J.B., M. Morita, J. Ragin, and J.,Jr. Best|Acute Toxic Responses of the Freshwater Planarian, Dugesia dorotocephala, to Methylmercury|Bull. Environ. Contam. Toxicol.27(1): 49-54|1981|10.1007/BF01610985
15376|A||Canton,J.H., and W. Slooff|Toxicity and Accumulation Studies of Cadmium (Cd2+) with Freshwater Organisms of Different Trophic Levels|Ecotoxicol. Environ. Saf.6(1): 113-128|1982|10.1016/0147-6513(82)90086-0
15377|A||Coglianese,M.P.|The Effects of Salinity on Copper and Silver Toxicity to Embryos of the Pacific Oyster|Arch. Environ. Contam. Toxicol.11(3): 297-303|1982|10.1007/BF01055206
15378|A||Cohen,G.M.|The Influence of Cations on Chlorine Toxicity|Bull. Environ. Contam. Toxicol.18(2): 131-137|1977|10.1007/BF01686319
15379|A||Cripe,C.R.|An Automated Device (AGARS) for Studying Avoidance of Pollutant Gradients by Aquatic Organisms|J. Fish. Res. Board Can.36(1): 11-16|1979|10.1139/f79-002
15380|A||Davis,M.H., and J. Coughlan|Response of Entrained Plankton to Low-Level Chlorination at a Coastal Power Station|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:369-376|1978|
15381|A||Fava,J.A., and C.F. Tsai|Immediate Behavioral Reactions of Blacknose Dace, Rhinichthys atratulus, to Domestic Sewage and its Toxic Constituents|Trans. Am. Fish. Soc.105(3): 430-441|1976|10.1577/1548-8659(1976)105<430:IBROBD>2.0.CO;2
15382|A||Fleming,T.P., and K.S. Richards|Uptake and Surface Adsorption of Zinc by the Fresh-Water Tubificid Oligochaete Tubifex tubifex|Comp. Biochem. Physiol. C Comp. Pharmacol.71(1): 69-75|1982|10.1016/0306-4492(82)90012-0
15384|A||Hardy,J.T., and G. Roesijadi|Bioaccumulation Kinetics and Organ Distribution of Nickel in the Marine Clam (Protothaca staminea)|Bull. Environ. Contam. Toxicol.28(5): 566-572|1982|10.1007/BF01605586
15385|A||Hatakeyama,S., and M. Yasuno|A Method for Assessing Chronic Effects of Toxic Substances on the Midge, Paratanytarsus parthenogeneticus - Effects of Copper|Arch. Environ. Contam. Toxicol.10(6): 705-713|1981|10.1007/BF01054854
15386|A||Haux,C., and A. Larsson|Influence of Inorganic Lead on the Biochemical Blood Composition in the Rainbow Trout, Salmo gairdneri|Ecotoxicol. Environ. Saf.6(1): 28-34|1982|10.1016/0147-6513(82)90077-X
15387|A||Hilton,J.W., P.V. Hodson, and S.J. Slinger|Absorption, Distribution, Half-Life and Possible Routes of Elimination of Dietary Selenium in Juvenile Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. C Comp. Pharmacol.71(1): 49-55|1982|10.1016/0306-4492(82)90009-0
15388|A||Hoss,D.E., L.C. Clements, and D.R. Colby|Synergistic Effects of Exposure to Temperature and Chlorine on Survival of Young-of-the-Year Estuarine Fishes|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses on Mar.Biota to Pollutants, Nov.1975, Academic Press, NY:345-355|1977|
15390|A||Jensen,T.E., M. Baxter, J.W. Rachlin, and V. Jani|Uptake of Heavy Metals by Plectonema boryanum (Cyanophyceae) into Cellular Components, Especially Polyphosphate Bodies:  An X-Ray Energy Dispersive Study|Environ. Pollut. A.27(2): 119-127|1982|10.1016/0143-1471(82)90104-0
15391|A||Jones,J.R.E.|The Toxic Action of Heavy Metal Salts on the Three-Spined Stickleback (Gastrosteus aculeatus)|J. Exp. Biol.12:165-173|1935|10.1242/jeb.12.2.165
15392|A||Kodama,M., T. Ogata, and K. Yamamori|Hemolysis of Erythrocytes of Rainbow Trout Salmo gairdneri Exposed to Zinc Polluted Water|Nippon Suisan Gakkaishi (Multiple Languages)48(4): 593-|1982|10.2331/suisan.48.593
15393|A||Kott,Y., and J. Edlis|Effect of Halogens on Algae- I. Chlorella sorokiniana|Water Res.3(4): 251-256|1969|10.1016/0043-1354(69)90021-9
15394|A||Larrick,S.R., D.S. Cherry, K.L. Dickson, and J.,Jr. Cairns|The Use of Various Avoidance Indices to Evaluate the Behavioral Response of the Golden Shiner to Components of Total Residual Chlorine|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI2:135-147|1978|
15396|A||Larson,G.L., C.E. Warren, F.E. Hutchins, L.P. Lamperti, D.A. Schlesinger, and W.K. Seim|Toxicity of Residual Chlorine Compounds to Aquatic Organisms|EPA-600/3-78-023, U.S.EPA, Duluth, MN:104 p.|1978|
15397|A||Leatherland,J.F., and R.A. Sonstegard|Effect of Dietary Mirex and PCBs on Calcium and Magnesium Metabolism in Rainbow Trout, Salmo gairdneri and Coho Salmon, Oncorhynchus kisutch; a Comparison with Great Lakes, Coho Salmon|Comp. Biochem. Physiol. C Comp. Pharmacol.69(2): 345-351|1981|10.1016/0306-4492(81)90148-9
15398|A||Lesniak,J.A., and S.M. Ruby|Histological and Quantitative Effects of Sublethal Cyanide Exposure on Oocyte Development in Rainbow Trout|Arch. Environ. Contam. Toxicol.11(3): 343-352|1982|10.1007/BF01055211
15399|A||Michibata,H.|Effect of Water Hardness on the Toxicity of Cadmium to the Egg of the Teleost Oryzias latipes|Bull. Environ. Contam. Toxicol.27(2): 187-192|1981|10.1007/BF01611006
15400|A||Middaugh,D.P., J.M. Dean, R.G. Domey, and G. Floyd|Effect of Thermal Stress and Total Residual Chlorination on Early Life Stages of the Mummichog Fundulus heteroclitus|Mar. Biol.46(1): 1-8|1978|10.1007/BF00393813
15401|A||Miller,T.G., and W.C. Mackay|Relationship of Secreted Mucus to Copper and Acid Toxicity in Rainbow Trout|Bull. Environ. Contam. Toxicol.28(1): 68-74|1982|10.1007/BF01608415
15402|A||Muramoto,S.|Variations of Some Elements in Cadmium-Induced, Malformed Fish|Bull. Environ. Contam. Toxicol.27(2): 193-200|1981|10.1007/BF01611007
15403|A||Pagano,G., A. Esposito, and G.G. Giordano|Fertilization and Larval Development in Sea Urchins Following Exposure of Gametes and Embryos to Cadmium|Arch. Environ. Contam. Toxicol.11(1): 47-55|1982|10.1007/BF01055185
15405|A||Prasad,P.V.D., and P.S.D. Prasad|Effect of Cadmium, Lead and Nickel on Three Fresh-Water Green Algae|Water Air Soil Pollut.17(3): 263-268|1982|
15406|A||Rachlin,J.W., T.E. Jensen, M. Baxter, and V. Jani|Utilization of Morphometric Analysis in Evaluating Response of Plectonema boryanum (Cyanophyceae) to Exposure to Eight Heavy Metals|Arch. Environ. Contam. Toxicol.11(3): 323-333|1982|10.1007/BF01055209
15407|A||Roderer,G.|On the Toxic Effects of Tetraethyl Lead and Its Derivatives on the Chrysophyte Poterioochromonas malhamensis II. Triethyl Lead, Diethyl Lead, and Inorganic Lead|Environ. Res.25(2): 361-371|1981|10.1016/0013-9351(81)90038-4
15408|A||Sanders,J.G., and J.H. Ryther|Impact of Chlorine on the Species Composition of Marine Phytoplankton|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Vol.3, Water Chlorination Environ.Impact Health Eff., Ann Arbor Sci.Publ., Ann Arbor, MI:631-639|1980|
15409|A||Schulze,H., and J.J. Brand|Lead Toxicity and Phosphate Deficiency in Chlamydomonas|Plant Physiol.62(5): 727-730|1978|10.1104/pp.62.5.727
15410|A||Scott,G.I., D.P. Middaugh, A.M. Crane, N.H. McGlothlin, and N. Watabe|Physiological Effects of Chlorine-Produced Oxidants and Uptake of Chlorination by-Products in the American Oyster, Crassostrea virginica (Gmelin)|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Water Chlorination Environ.Impact Health Eff., Ann Arbor Sci.Publ., Ann Arbor, MI3:501-516|1980|
15412|A||Van der Putte,I., M.A. Brinkhorst, and J.H. Koeman|Effect of pH on the Acute Toxicity of Hexavalent Chromium to Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.1(2): 129-142|1981|10.1016/0166-445X(81)90035-7
15413|A||Van Hoof,F., and M. Van San|Analysis of Copper, Zinc, Cadmium and Chromium in Fish Tissues.  A Tool for Detecting Metal Caused Fish Kills|Chemosphere10(10): 1127-1135|1981|10.1016/0045-6535(81)90183-1
15414|A||Varanasi,U., and D.J. Gmur|Influence of Water-Borne and Dietary Calcium on Uptake and Retention of Lead by Coho Salmon (Oncorhynchus kisutch)|Toxicol. Appl. Pharmacol.46(1): 65-75|1978|10.1016/0041-008X(78)90137-0
15415|A||Viarengo,A., G. Zanicchi, M.N. Moore, and M. Orunesu|Accumulation and Detoxication of Copper by the Mussel Mytilus galloprovinicialis Lam.:  A Study of the Subcellular Distribution in the Digestive Gland Cells|Aquat. Toxicol.1(3-4): 147-157|1981|10.1016/0166-445X(81)90011-4
15416|A||Wiebe,A.H., E.G. Gross, and D.H. Slaughter|The Arsenic Content of Large-Mouth Black Bass (Micropterus salmoides Lacepede) Fingerlings|Trans. Am. Fish. Soc.61:150-163|1932|10.1577/1548-8659(1931)61[150:TACOLB]2.0.CO;2
15417|A||Wong,S.L., and J.L. Beaver|Metal Interactions in Algal Toxicology:  Conventional Versus In Vivo Tests|Hydrobiologia (Multiple Languages)85(1): 67-71|1981|10.1007/BF00011346
15418|A|OECDG|Black,J.A., W.J. Birge, W.E. McDonnell, A.G. Westerman, B.A. Ramey, and D.M. Bruser|The Aquatic Toxicity of Organic Compounds to Embryo-Larval Stages of Fish and Amphibians|Research Report No.133, Water Resources Research Institute, University of Kentucky, Lexington, KY:61 p.|1982|
15419|A||Carter,J.W., and I.L. Cameron|Toxicity Bioassay of Heavy Metals in Water Using Tetrahymena pyriformis|Water Res.7(7): 951-961|1973|10.1016/0043-1354(73)90177-2
15420|A||Dixon,D.G., and J.B. Sprague|Copper Bioaccumulation and Hepatoprotein Synthesis During Acclimation to Copper by Juvenile Rainbow Trout|Aquat. Toxicol.1(1): 69-81|1981|10.1016/0166-445X(81)90007-2
15421|A||Cook,W.L., D. Fielder, and A.W. Bourquin|Succession of Microfungi in Estuarine Microcosms Perturbed by Carbaryl, Methyl Parathion and Pentachlorophenol|Bot. Mar.23:129-131|1980|10.1515/botm.1980.23.2.129
15422|A||Fasulo,M.P., M. Bassi, and A. Donini|Cytotoxic Effects of Hexavalent Chromium in Euglena gracilis. I. First Observations|Protoplasma (Multiple Languages)110(1): 39-47|1982|10.1007/BF01314680
15423|A||Gill,T.S., and J.C. Pant|Toxicity of Nickel to the Fish Puntius conchonius (Ham.) and its Effects on Blood Glucose and Liver Glycogen|Comp. Physiol. Ecol.6(2): 99-102|1981|
15424|A||Gupta,A.K., and V.K. Rajbanshi|Measurement of Acute Toxicity of Copper to the Freshwater Teleost, Mystus bleekeri (Day) Using Bioassay, Statistical and Histopathological Methods|Arch. Hydrobiol.91(4): 427-434|1981|
15425|A||Hodson,P.V., D.G. Dixon, D.J. Spry, D.M. Whittle, and J.B. Sprague|Effect of Growth Rate and Size of Fish on Rate of Intoxication by Waterborne Lead|Can. J. Fish. Aquat. Sci.39(9): 1243-1251|1982|10.1139/f82-165
15426|A||Khangarot,B.S.|Effect of Complexing Agents on the Acute Toxicity of Copper to Common Guppy Lebistes reticulatus (Peters)|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(5): 505-509|1981|10.1002/aheh.19810090504
15427|A||Kovacs,T.G.|The Effect of Temperature on Cyanide Toxicity to Rainbow Trout (Salmo gairdneri) Part I: Acute Toxicity Part II: Sub-Lethal Toxicity|M.S.Thesis, Concordia University, Montreal, Canada:69 p.|1979|
15428|A||Gorden,R.W., S.W. Waite, P. Tazik, and M.J. Wiley|The Effects of Simazine and Endothall in Aquatic Macrophyte Control|In: Proceedings of the EWRS Symposium on Aquatic Weeds:287-295|1982|
15429|A||Merlini,M., and G. Pozzi|Lead and Freshwater Fishes: Part I-Lead Accumulation and Water pH|Environ. Pollut.12(3): 167-172|1977|
15430|A||Merlini,M., and G. Pozzi|Lead and Freshwater Fishes: Part 2-Ionic Lead Accumulation|Environ. Pollut.13(1): 119-126|1977|
15431|A||Muramoto,S.|Influence of Complexans (NTA, EDTA) on the Toxicity of Trivalent Chromium (Chromium Chloride, Sulfate) at Levels Lethal to Fish|J. Environ. Sci. Health Part A Environ. Sci. Eng.16(6): 605-610|1981|10.1080/10934528109375008
15432|A||Negilski,D.S.|Individual and Combined Effects of Cyanide, Pentachlorophenol and Zinc on Juvenile Chinook Salmon and Invertebrates in Model Stream Communities|M.S.Thesis, Oregon State University, Corvallis, OR:80 p.|1973|
15433|A||Nehring,R.B., R. Nisson, and G. Minasian|Reliability of Aquatic Insects Versus Water Samples as Measures of Aquatic Lead Pollution|Bull. Environ. Contam. Toxicol.22(1/2): 103-108|1979|10.1007/BF02026915
15434|A||Menon,N.R., N.A. Reddy, and A.E. Eknath|Toxicological Studies on the Green Mussel Perna viridis|Proc. Symp. Coastal Aquacult.2(6): 643-653|1983|
15435|A||Rai,L.C., J.P. Gaur, and H.D. Kumar|Protective Effects of Certain Environmental Factors on the Toxicity of Zinc, Mercury and Methylmercury to Chlorella vulgaris|Environ. Res.25(2): 250-259|1981|10.1016/0013-9351(81)90026-8
15436|A||Ruby,S.M., D.G. Dixon, and G. Leduc|Inhibition of Spermatogenesis in Rainbow Trout During Chronic Cyanide Poisoning|Arch. Environ. Contam. Toxicol.8(5): 533-544|1979|10.1007/BF01055034
15437|A||Saleh,H.H.|Regulation and Uptake of Labelled Iron (55Fe) and Labelled Mercury (203Hg) in the Organs and Flesh of Tilapia zillii Gerv., Living in Fresh and Saline Water Conditions|FAO Fish. Rep.325:128-133|1986|
15439|A||Spencer,D.F., and R.W. Greene|Effects of Nickel on Seven Species of Freshwater Algae|Environ. Pollut. A.25(4): 241-247|1981|10.1016/0143-1471(81)90086-6
15440|A||Stary,J., B. Havlik, K. Kratzer, J. Prasilova, and J. Hanusova|Mercury Circulation in Aquatic Environment.  Part 4:  The Cumulation of Inorganic Mercury and Phenylmercury by Fish (Poecilia reticulata (Peters))|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(5): 545-553|1981|10.1002/aheh.19810090508
15441|A||Stewart,J., and M. Schulz-Baldes|Long-Term Lead Accumulation in Abalone (Haliotis spp.) Fed on Lead-Treated Brown Algae (Egregia laevigata)|Mar. Biol.36(1): 19-24|1976|10.1007/BF00388424
15442|A||Thompson,K.A., D.A. Brown, P.M. Chapman, and R.O. Brinkhurst|Histopathological Effects and Cadmium-Binding Protein Synthesis in the Marine Oligochaete Monopylephorus cuticulatus Following Cadmium Exposure|Trans. Am. Microsc. Soc.101(1): 10-26|1982|10.2307/3225567
15443|A||Van der Putte,I., J. Lubbers, and Z. Kolar|Effect of pH on Uptake, Tissue Distribution and Retention of Hexavalent Chromium in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.1(1): 3-18|1981|10.1016/0166-445X(81)90003-5
15444|A||Verriopoulos,G., and M. Moraitou-Apostolopoulou|Effects of Some Environmental Factors on the Toxicity of Cadmium to the Copepod Tisbe holothuriae|Arch. Hydrobiol.91(3): 287-293|1981|
15445|A||Vijayamadhavan,K.T., and T. Iwai|Histochemical Observations on the Permeation of Heavy Metals into Taste Buds of Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(6): 631-639|1975|10.2331/suisan.41.631
15448|A||Abban,E.K., and J. Samman|Further Observations on the Effect of Abate on Fish Catches|Environ. Pollut. A.27(4): 245-254|1982|10.1016/0143-1471(82)90152-0
15449|A||Anderson,R.V.|The Effects of Lead on Oxygen Uptake in the Crayfish, Orconectes virilis (Hagen)|Bull. Environ. Contam. Toxicol.20(3): 394-400|1978|10.1007/BF01683537
15450|A||Arillo,A., C. Margiocco, F. Melodia, and P. Mensi|Biochemical Effects of Long Term Exposure to Cr, Cd, Ni on Rainbow Trout (Salmo gairdneri Rich.): Influence of Sex and Season|Chemosphere11(1): 47-57|1982|10.1016/0045-6535(82)90093-5
15451|A||Benijts-Claus,C., and F. Benijts|The Effect of Low Lead and Zinc Concentrations on the Larval Development of the Mud-Crab Rhithropanopeus harrisii Gould|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquat.Animals, Elsevier Sci.Publ., Amsterdam, NY:43-52|1975|
15453|A||Buhler,D.R., R.M. Stokes, and R.S. Caldwell|Tissue Accumulation and Enzymatic Effects of Hexavalent Chromium in Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.34(1): 9-18|1977|10.1139/f77-002
15454|A||Calamari,D., G.F. Gaggino, and G. Pacchetti|Toxicokinetics of Low Levels of Cd, Cr, Ni and Their Mixture in Long-Term Treatment on Salmo gairdneri Rich|Chemosphere11(1): 59-70|1982|10.1016/0045-6535(82)90094-7
15455|A||Canterford,G.S., A.S. Buchanan, and S.C. Ducker|Accumulation of Heavy Metals by the Marine Diatom Ditylum brightwellii (West) Grunow|Aust. J. Mar. Freshw. Res.29(5): 613-622|1978|10.1071/MF9780613
15456|AT||Cowell,B.C.|The Effects of Sodium Arsenite and Silvex on the Plankton Populations in Farm Ponds|Trans. Am. Fish. Soc.94(4): 371-377|1965|10.1577/1548-8659(1965)94[371:TEOSAA]2.0.CO;2
15457|A||Dalich,G.M., R.E. Larson, and W.H. Gingerich|Acute and Chronic Toxicity Studies with Monochlorobenzene in Rainbow Trout|Aquat. Toxicol.2:127-142|1982|10.1016/0166-445X(82)90011-X
15458|A||Dorfman,D., and W.R. Whitworth|Effects of Fluctuations of Lead, Temperature, and Dissolved Oxygen on the Growth of Brook Trout|J. Fish. Res. Board Can.26(9): 2493-2501|1969|10.1139/f69-239
15459|A||Payne,A.G., and R.H. Hall|Application of Algal Assays in the Environmental Evaluation of New Detergent Materials|Verh. Int. Ver. Theor. Angew. Limnol.21:507-520|1978|
15460|A||Hodson,P.V., B.R. Blunt, D.J. Spry, and K. Austen|Evaluation of Erythrocyte delta-Amino Levulinic Acid Dehydratase Activity as a Short-Term Indicator in Fish of a Harmful Exposure to Lead|J. Fish. Res. Board Can.34(4): 501-508|1977|10.1139/f77-081
15461|A||Jacob,S.S., N.B. Nair, and N.K. Balasubramanian|Toxicity of Certain Mosquito Larvicides to the Larvivorous Fishes Aplocheilus lineatus (Cuv. & Val.) and Macropodus cupanus (Cuv. & Val.)|Environ. Pollut. A.28(1): 7-13|1982|10.1016/0143-1471(82)90041-1
15462|A||Jarvinen,A.W., and D.K. Tanner|Toxicity of Selected Controlled Release and Corresponding Unformulated Technical Grade Pesticides to the Fathead Minnow Pimephales promelas|Environ. Pollut. A.27(3): 179-195|1982|10.1016/0143-1471(82)90024-1
15463|A||Mathew,R., and N.R. Menon|Filtration in Perna viridis and Meretrix casta Under Heavy Metal Stress|Mahasagar17(3): 183-186|1984|
15464|A||Laughlin,R., and O. Linden|Sublethal Responses of the Tadpoles of the European Frog Rana temporaria to Two Tributyltin Compounds|Bull. Environ. Contam. Toxicol.28(4): 494-499|1982|10.1007/BF01607718
15465|A||Martin,M., M.D. Stephenson, and J.H. Martin|Copper Toxicity Experiments in Relation to Abalone Deaths Observed in a Power Plant's Cooling Waters|Calif. Fish Game63(2): 95-100|1977|
15466|A||Matthiessen,P., and R.J. Roberts|Histopathological Changes in the Liver and Brain of Fish Exposed to Endosulfan Insecticide During Tsetse Fly Control Operations in Botswana|J. Fish Dis.5(2): 153-159|1982|10.1111/j.1365-2761.1982.tb00468.x
15467|A||Mattice,J.S., M.B. Burch, S.C. Tsai, and W.K. Roy|A Toxicity Testing System for Exposing Small Invertebrates and Fish to Short Square-Wave Concentrations of Chlorine|Water Res.15(7): 923-927|1981|10.1016/0043-1354(81)90149-4
15468|A||McLeese,D.W., L.E. Burridge, and J. Van Dinter|Toxicities of Five Organochlorine Compounds in Water and Sediment to Nereis virens|Bull. Environ. Contam. Toxicol.28(2): 216-220|1982|10.1007/BF01608578
15469|A||Minicucci,D.D.|Flow Effects in Aquatic Bioassays (The Toxicity of Copper at Various Flow Rates to the Guppy, Lebistes reticulatus)|M.S.Thesis, University of Michigan, Ann Arbor, MI:86 p.|1971|
15470|A||Murray,S.A.|Periphyton Responses to Chlorination and Temperature|In: R.L.Jolley, W.A.Brungs, R.B.Cumming, and V.A.Jacobs (Eds.), Water Chlorination Environ.Impact Health Eff., Ann Arbor Sci.Publ., Ann Arbor, MI3:641-647|1979|
15471|A||Pandian,T.J., and R. Bhaskaran|Uptake, Accumulation and Elimination of 14C DDT in the Fish Channa striatus|Indian J. Exp. Biol.21(2): 88-91|1983|
15472|A||Fujimura,R., B. Finlayson, and G. Chapman|Evaluation of Acute and Chronic Toxicity Tests with Larval Striped Bass|ASTM Spec. Tech. Publ.14:193-211|1991|
15473|A||Rao,D.M.R., and A.S. Murty|Toxicity and Metabolism of Endosulfan in Three Freshwater Catfishes|Environ. Pollut. A.27(3): 223-231|1982|10.1016/0143-1471(82)90027-7
15474|A||Ravera,O.|Effects of Heavy Metals (Cadmium, Copper, Chromium and Lead) on a Freshwater Snail:  Biomphalaria glabrata Say (Gastropoda, Prosobranchia)|Malacologia16(1): 231-236|1977|
15475|A||Saroja,G., and S. Bose|Effects of Methyl Parathion on the Growth, Cell Size, Pigment and Protein Content of Chlorella protothecoides|Environ. Pollut. A.27(4): 297-308|1982|10.1016/0143-1471(82)90158-1
15476|A||Scott,D.M., and C.W. Major|The Effect of Copper (II) on Survival, Respiration, and Heart Rate in the Common Blue Mussel, Mytilus edulis|Biol. Bull.143:679-688|1972|10.2307/1540190
15477|A||Tacon,A.G.J., and M.M. Beveridge|Effects of Dietary Trivalent Chromium on Rainbow Trout|Nutr. Rep. Int.25(1): 49-56|1982|
15478|A||Toetz,D., L. Varga, and M. Pierce|Effects of Chlorine and Chloramine on Uptake of Inorganic Nitrogen by Phytoplankton|Water Res.11(3): 253-258|1977|10.1016/0043-1354(77)90056-2
15479|A||Trotter,D.M., A.C. Hendricks, and J.,Jr. Cairns|The Use of Stigeoclonium subsecundum (Cholorophyceae) as a Bioassay Organism-III. Response to Intermittent Chlorination|Water Res.12(3): 185-191|1978|10.1016/0043-1354(78)90007-6
15480|A||Weis,P., and J.S. Weis|Toxicity of the PCBs Aroclor 1254 and 1242 to Embryos and Larvae of the Mummichog, Fundulus heteroclitus|Bull. Environ. Contam. Toxicol.28(3): 298-304|1982|10.1007/BF01608511
15481|A||Yasuno,M., S. Fukushima, J. Hasegawa, F. Shioyama, and S. Hatakeyama|Changes in the Benthic Fauna and Flora After Application of Temephos to a Stream on Mt. Tsukuba|Hydrobiologia (Multiple Languages)89(3): 205-214|1982|10.1007/BF00005706
15482|A||Yosha,S.F., and G.M. Cohen|Effect of Intermittent Chlorination on Developing Zebrafish Embryos (Brachydanio rerio)|Bull. Environ. Contam. Toxicol.21(4/5): 703-710|1979|10.1007/BF01685492
15484|A||Attar,E.N., and E.J. Maly|Acute Toxicity of Cadmium, Zinc, and Cadmium-Zinc Mixtures to Daphnia magna|Arch. Environ. Contam. Toxicol.11(3): 291-296|1982|10.1007/BF01055205
15485|A||Berglind,R., and G. Dave|Influence of a Co-Solvent (Acetone) and Ultrasonication on the Acute Toxicity of a Quaternary Amine (Aliquat 336) and an Organophosphorus Compound|Bull. Environ. Contam. Toxicol.27(3): 316-325|1981|10.1007/BF01611026
15486|A||Correa,M., and R. Coler|Enhanced Oxygen Uptake Rates in Dragonfly Nymphs (Somatochlora cingulata) as an Indication of Stress from Naphthalene|Bull. Environ. Contam. Toxicol.30(3): 269-276|1983|10.1007/BF01610132
15487|A||Dodge,E.E., and T.L. Theis|Effect of Chemical Speciation on the Uptake of Copper by Chironomus tentans|Environ. Sci. Technol.13(10): 1287-1288|1979|10.1021/es60158a006
15488|A||Freeman,H.C., G. Sangalang, and B. Flemming|The Sublethal Effects of a Polychlorinated Biphenyl (Aroclor 1254) Diet on the Atlantic Cod (Gadus morhua)|Sci. Total Environ.24(1): 1-11|1982|10.1016/0048-9697(82)90053-5
15490|A||Gould,E., R.S. Collier, J.J. Karolus, and S. Givens|Heart Transaminase in the Rock Crab, Cancer irroratus, Exposed to Cadmium Salts|Bull. Environ. Contam. Toxicol.15(6): 635-643|1976|10.1007/BF01685611
15491|A||Gupta,S., R.C. Dalela, and P.K. Saxena|Influence of Dissolved Oxygen Levels on Acute Toxicity of Phenolic Compounds to Fresh Water Teleost, Notopterus notopterus (Pallas)|Water Air Soil Pollut.19(3): 223-228|1983|10.1007/BF00599049
15492|A||Hamilton,S.J., P.M. Mehrle, F.L. Mayer, and J.R. Jones|Mechanical Properties of Bone in Channel Catfish as Affected by Vitamin C and Toxaphene|Trans. Am. Fish. Soc.110(6): 718-724|1981|10.1577/1548-8659(1981)110<718:MPOBIC>2.0.CO;2
15493|A||Hansen,S.R., and R.R. Garton|The Effects of Diflubenzuron on a Complex Laboratory Stream Community|Arch. Environ. Contam. Toxicol.11(1): 1-10|1982|10.1007/BF01055179
15494|A||Washburn,G.N.|The Toxicity of DDT to the Eastern Brook Trout, Salvelinus f. fontinalis (Mitchill)|Pap. Mich. Acad. Sci. Arts Lett.33:181-192|1949|
15495|A||Jana,S., and M.A. Choudhuri|Glycolate Metabolism of Three Submersed Aquatic Angiosperms:  Effect of Heavy Metals|Aquat. Bot.11(1): 67-77|1981|10.1016/0304-3770(81)90047-4
15496|A||MacInnes,J.R., F.P. Thurberg, R.A. Greig, and E. Gould|Long-Term Cadmium Stress in the Cunner, Tautogolabrus adspersus|Fish. Bull.75(1): 199-203|1977|
15497|A||Martin,M., K.E. Osborn, P. Billig, and N. Glickstein|Toxicities of Ten Metals to Crassostrea gigas and Mytilus edulis Embryos and Cancer magister Larvae|Mar. Pollut. Bull.12(9): 305-308|1981|10.1016/0025-326X(81)90081-3
15498|A||McCarter,J.A., A.T. Matheson, M. Roch, R.W. Olafson, and J.T. Buckley|Chronic Exposure of Coho Salmon to Sublethal Concentrations of Copper-II. Distribution of Copper Between High- and Low-Molecular-Weight Proteins in Liver Cytosol and the Possible Role of Metallothionein in Detoxificatio|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 21-26|1982|10.1016/0306-4492(82)90199-X
15499|A||Michaels,R.A., R.G. Rowland, and C.F. Wurster|Polychlorinated Biphenyls (PCB) Inhibit Photosynthesis Per Cell in the Marine Diatom Thalassiosira pseudonana|Environ. Pollut. A.27(1): 9-14|1982|10.1016/0143-1471(82)90058-7
15500|A||Moraitou-Apostolopoulou,M., M. Kiortsis, V. Verriopoulos, and S. Platanistioti|Effects of Copper Sulphate on Tisbe holothuriae Humes (Copepoda) and Development of Tolerance to Copper|Hydrobiologia (Multiple Languages)99(2): 145-150|1983|10.1007/BF00015041
15501|A||Enserink,E.L., M.J.J. Kerkhofs, C.A.M. Baltus, and J.H. Koeman|Influence of Food Quantity and Lead Exposure on Maturation in Daphnia magna; Evidence for a Trade-Off Mechanism|Funct. Ecol.9(2): 175-185|1995|10.2307/2390562
15502|A||Osborne,L.L.|Acute Metabolic Responses of Lotic Epilithic Communities to Total Residual Chlorine|Bull. Environ. Contam. Toxicol.28(5): 524-529|1982|10.1007/BF01605578
15503|A||Roy,D.|Impact of Detergent on Fish Skin|In: Proceedings of the National Symposium on Freshwater Aquaculture, CIFA, Bhubaneswar, India:103-105|1991|
15504|A||Slooff,W., D. De Zwart, and J.M. Marquenie|Detection Limits of a Biological Monitoring System for Chemical Water Pollution Based on Mussel Activity|Bull. Environ. Contam. Toxicol.30(4): 400-405|1983|10.1007/BF01610151
15505|A||Verma,S.R., S. Rani, and R.C. Dalela|Effect of Phenolic Compounds on In Vivo Activity of Glucose-6-Phosphatase in Certain Tissues of Notopterus notopterus|Toxicol. Lett.9(1): 27-33|1981|10.1016/0378-4274(81)90170-3
15506|A||Weber,C.I., and B.H. McFarland|Effects of Copper on the Periphyton of a Small Calcareous Stream|ASTM Spec. Tech. Publ.:101-131|1981|
15507|A||Whitley,L.S.|The Resistance of Tubificid Worms to Three Common Pollutants|Hydrobiologia (Multiple Languages)32(1-2): 193-205|1968|10.1007/BF00179550
15508|A||Wikfors,G.H., and R. Ukeles|Growth and Adaptation of Estuarine Unicellular Algae in Media with Excess Copper, Cadmium or Zinc, and Effects of Metal-Contaminated Algal Food on Crassostrea virginica Larvae|Mar. Ecol. Prog. Ser.7:191-206|1982|10.3354/meps007191
15509|A||Carpenter,E.J., B.B. Peck, and S.J. Anderson|Cooling Water Chlorination and Productivity of Entrained Phytoplankton|Mar. Biol.16(1): 37-40|1972|10.1007/BF00347845
15510|A||Conklin,P.J., and K.R. Rao|Effects of Two Dithiocarbamates on the Grass Shrimp, Palaemonetes pugio: Molt-Related Toxicity and Inhibition of Limb Regeneration|Arch. Environ. Contam. Toxicol.11(4): 431-435|1982|10.1007/BF01056069
15511|A||Flickinger,A.L., R.J.F. Bruins, R.W. Winner, and J.H. Skillings|Filtration and Phototactic Behavior as Indices of Chronic Copper Stress in Daphnia magna Straus|Arch. Environ. Contam. Toxicol.11(4): 457-463|1982|10.1007/BF01056072
15512|A||Frommer,R.L., J.H. Nelson, P.H. Gibbs, and J. Vorgetts|Dose-Time Response between Simulium vittatum (Diptera:  Simuliidae) Larvae and Abate 200E (Temephos)|Mosq. News43(1): 70-71|1983|
15513|A||Ho,M.S., and P.L. Zubkoff|The Effects of Mercury, Copper, and Zinc on Calcium Uptake by Larvae of the Clam, Mulinia lateralis|Water Air Soil Pollut.17(4): 409-414|1982|10.1007/BF00460107
15514|A||Lemly,A.D.|Response of Juvenile Centrarchids to Sublethal Concentrations of Waterborne Selenium. I. Uptake, Tissue Distribution, and Retention|Aquat. Toxicol.2(4): 235-252|1982|10.1016/0166-445X(82)90027-3
15515|A||Muirhead-Thomson,R.C.|Time/Concentration Impact of the Simulium Larvicide, Abate, and Its Relevance to Practical Control Programs|Mosq. News43(1): 73-76|1983|
15516|A||Natarajan,G.M.|Effect of Zinc Sulphate on the Tissue Glycogen Content of Air-Breathing Climbing-Perch, Anabas scandens (Cuvier)|Comp. Physiol. Ecol.7(1): 37-39|1982|
15517|A||Narladkar,B.W., U.V. Shastri, V.P. Vadlamudi, and P.R. Shivpuje|Relative Toxicity of Some Modern Insecticides Against Larvae of Culicoides schultzei|Indian Vet. J.70(8): 766-768|1993|
15518|A||Rao,K.S., K.S. Moorthy, M.D. Naidu, C.S. Chetty, and K.S. Swami|Changes in Nitrogen Metabolism in Tissues of Fish (Sarotherodon mossambicus) Exposed to Benthiocarb|Bull. Environ. Contam. Toxicol.30(4): 473-478|1983|10.1007/BF01610162
15519|A||Roberts,R.H., W.B. Kottkamp, and M.V. Meisch|Experimental Larvicides Tested in Rice Field Plots Against Psorophora columbiae|Mosq. News43(1): 82-84|1983|
15520|A||Sastry,K.V., and P.V. Malik|Histopathological and Enzymological Alterations in the Digestive System of a Freshwater Teleost Fish, Heteropneustes fossilis, Exposed Acutely and Chronically to Diazinon|Ecotoxicol. Environ. Saf.6(3): 223-235|1982|10.1016/0147-6513(82)90013-6
15521|A||Sick,L.V., and G.J. Baptist|Cadmium Incorporation by the Marine Copepod Pseudodiaptomus coronatus|Limnol. Oceanogr.24(3): 453-462|1979|10.4319/lo.1979.24.3.0453
15522|A||Thorp,J.H., J.P. Giesy, and S.A. Wineriter|Effects of Chronic Cadmium Exposure on Crayfish Survival, Growth and Tolerance to Elevated Temperatures|Arch. Environ. Contam. Toxicol.8(4): 449-456|1979|10.1007/BF01056351
15523|A||Amelung,M.|Effects of Dissolved Iron Compounds on Developing Eggs and Larvae of Salmo gairdneri (Richardson)|Arch. Fischereiwiss.32(1-3): 77-87|1982|
15524|A||Boudou,A., A. Delarche, F. Ribeyre, and R. Marty|Bioaccumulation and Bioamplification of Mercury Compounds in a Second Level Consumer, Gambusia affinis-Temperature Effects|Bull. Environ. Contam. Toxicol.22(6): 813-818|1979|10.1007/BF02027030
15525|A||Calabrese,A., F.P. Thurberg, M.A. Dawson, and D.R. Wenzloff|Sublethal Physiological Stress Induced by Cadmium and Mercury in the Winter Flounder, Pseudopleuronectes americanus|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquat.Animals, Elsevier Sci.Publ., Amsterdam, NY:15-21|1975|
15526|A||Calamari,D., S. Galassi, F. Setti, and M. Vighi|Toxicity of Selected Chlorobenzenes to Aquatic Organisms|Chemosphere12(2): 253-262|1983|10.1016/0045-6535(83)90168-6
15527|A||Capuzzo,J.M., and J.J.,Jr. Sasner|The Effect of Chromium on Filtration Rates and Metabolic Activity of Mytilus edulis L. and Mya arenaria L.|In: F.J.Vernberg, A.Calabrese, F.P.Thurberg, and W.B.Vernberg (Eds.), Symp.on the Physiological Responses of Mar.Biota to Pollutants, Nov.1975, Acad.Press, NY:225-237|1977|
15528|A||Cotter,A.J.R., D.J.H. Phillips, and M. Ahsanullah|The Significance of Temperature, Salinity and Zinc as Lethal Factors for the Mussel Mytilus edulis in a Polluted Estuary|Mar. Biol.68(2): 135-141|1982|10.1007/BF00397600
15529|A||Davies,A.G.|An Assessment of the Basis of Mercury Tolerance in Dunaliella tertiolecta|J. Mar. Biol. Assoc. U.K.56(1): 39-57|1976|10.1017/S0025315400020427
15530|A||Dorn,P.|The Feeding Behavior of Mytilus edulis in the Presence of Methylmercury Acetate|Bull. Environ. Contam. Toxicol.15(6): 714-719|1976|10.1007/BF01685622
15531|A||Ronisz,D., and L. Forlin|Interaction of Isosafrole, beta-Naphthoflavone and Other CYP1A Inducers in Liver of Rainbow Trout (Oncorhynchus mykiss) and Eelpout (Zoarces viviparus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121:289-296|1998|
15532|A||Heit,M., and M. Fingerman|The Influences of Size, Sex and Temperature on the Toxicity of Mercury to Two Species of Crayfishes|Bull. Environ. Contam. Toxicol.18(5): 572-580|1977|10.1007/BF01684003
15533|A||Shofer,S.L., J.A. Willis, and R.S. Tjeerdema|Sublethal Effects of Pentachlorophenol and Hypoxia on Rates of Arginine Kinase Flux in Red Abalone (Haliotis rufescens) as Measured by 31P Magnetization Saturation Transfer NMR|Mar. Environ. Res.42(1-4): 363-367|1996|10.1016/0141-1136(96)00076-1
15534|A||Jennings,J.R., and P.S. Rainbow|Studies on the Uptake of Cadmium by the Crab Carcinus maenas in the Laboratory. I. Accumulation from Seawater and a Food Source|Mar. Biol.50(2): 131-139|1979|10.1007/BF00397818
15535|A||McCarty,L.S., and A.H. Houston|Effects of Exposure to Sublethal Levels of Cadmium upon Water-Electrolyte Status in the Goldfish (Carassius auratus)|J. Fish Biol.9(1): 11-19|1976|10.1111/j.1095-8649.1976.tb04657.x
15536|A||Moraitou-Apostolopoulou,M., G. Verriopoulos, and P. Lentzou|Effects of Sublethal Concentrations of Cadmium As Possible Indicators of Cadmium Pollution for Two Populations of Acartia clausi (Copepoda) Living|Bull. Environ. Contam. Toxicol.23(4-5): 642-649|1979|10.1007/BF01770019
15537|A||Nakajima,A., T. Horikoshi, and T. Sakaguchi|Uptake of Copper Ion by Green Microalgae|Agric. Biol. Chem.43(7): 1455-1460|1979|
15538|A||Nau-Ritter,G.M., C.F. Wurster, and R.G. Rowland|Polychlorinated Biphenyls (PCB) Desorbed from Clay Particles Inhibit Photosynthesis by Natural Phytoplankton Communities|Environ. Pollut. A.28(3): 177-182|1982|10.1016/0143-1471(82)90073-3
15539|A||Nemcsok,J., and L. Boross|Comparative Studies on the Sensitivity of Different Fish Species to Metal Pollution|Acta Biol. Acad. Sci. Hung.33(1): 23-27|1982|
15540|A||Shealy,M.H.J., and P.A. Sandifer|Effects of Mercury on Survival and Development of the Larval Grass Shrimp Palaemonete vulgaris|Mar. Biol.33(1): 7-16|1975|10.1007/BF00394995
15541|A||Gagen,C.J., W.E. Sharpe, and R.F. Carline|Mortality of Brook Trout, Mottled Sculpins, and Slimy Sculpins During Acidic Episodes|Trans. Am. Fish. Soc.122(4): 616-628|1993|10.1577/1548-8659(1993)122<0616:MOBTMS>2.3.CO;2
15543|A||Smissaert,H.R., D.A. Van Bruggen, and A.M. Thiadens|Pitfalls in Experiment on a Possible Toxic Effect of Chromium III, with Special Reference to the Acetylcholinesterase of the Gill of the Rainbow|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquat.Animals, Elsevier Sci.Publ., Amsterdam, NY:93-102|1975|
15544|A||Snarski,V.M.|The Response of Rainbow Trout Salmo gairdneri to Aeromonas hydrophila After Sublethal Exposures to PCB and Copper|Environ. Pollut. A.28(3): 219-232|1982|10.1016/0143-1471(82)90078-2
15546|A||Strik,J.J.T.W.A., H.H. De Iongh, J.W.A. Van Rijn Van Alkemade, and T.P. Wuite|Toxicity of Chromium (VI) in Fish, with Special Reference to Organoweights, Liver and Plasma Enzyme Activities, Blood Parameters and Histological Alterations|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquatic Animals, Elsevier Sci.Publ., Amsterdam, NY:31-41|1975|
15547|A||Tandon,R.S., and A. Dubey|Toxic Effects of Two Organophosphorus Pesticides on Fructose-1,6-Diphosphate Aldolase Activity of Liver, Brain and Gills of the Freshwater Fish Clarias batrachus|Environ. Pollut. A.31(1): 1-7|1983|10.1016/0143-1471(83)90049-1
15548|A||Tsai,S.C., G.M. Boush, and F. Matsumura|Importance of Water pH in Accumulation of Inorganic Mercury in Fish|Bull. Environ. Contam. Toxicol.13(2): 188-193|1975|10.1007/BF01721736
15549|A||Tucker,R.K.|Effects of In Vivo Cadmium Exposure on ATPases in Gill of the Lobster, Homarus americanus|Bull. Environ. Contam. Toxicol.23(1-2): 33-35|1979|10.1007/BF01769912
15550|A||Monson,P.D., D.J. Call, D.A. Cox, K. Liber, and G.T. Ankley|Photoinduced Toxicity of Fluoranthene to Northern Leopard Frogs (Rana pipiens)|Environ. Toxicol. Chem.18(2): 308-312|1999|10.1002/etc.5620180230
15551|A||Van der Putte,I., W. Van der Galien, and J.J.T. Strik|Effects of Hexavalent Chromium in Rainbow Trout (Salmo gairdneri) After Prolonged Exposure at Two Different pH Levels|Ecotoxicol. Environ. Saf.6(3): 246-257|1982|10.1016/0147-6513(82)90015-X
15552|A||Zaroogian,G.E.|Studies on the Depuration of Cadmium and Copper by the American Oyster Crassostrea virginica|Bull. Environ. Contam. Toxicol.23(1/2): 117-122|1979|10.1007/BF01769928
15553|A||Baker,J.T.P.|Histological and Electron Microscopical Observations on Copper Poisoning in the Winter Flounder (Pseudopleuronectes americanus)|J. Fish. Res. Board Can.26(11): 2785-2793|1969|10.1139/f69-275
15554|A||Beattie,J.H., and D. Pascoe|Cadmium Uptake by Rainbow Trout, Salmo gairdneri Eggs and Alevins|J. Fish Biol.13(5): 631-637|1978|10.1111/j.1095-8649.1978.tb03477.x
15555|A||Buckley,J.T., M. Roch, J.A. McCarter, C.A. Rendell, and A.T. Matheson|Chronic Exposure of Coho Salmon to Sublethal Concentrations of Copper. I. Effect on Growth, on Accumulation and Distribution of Copper, and on Copper Tolerance|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 15-19|1982|10.1016/0306-4492(82)90198-8
15556|A||Carpenter,L.A., and D.L. Eaton|The Disposition of 2,4,-Dichlorophenoxyacetic Acid in Rainbow Trout|Arch. Environ. Contam. Toxicol.12(2): 169-173|1983|10.1007/BF01059577
15557|A||Cohen,G.M., and J.M. Valenzuela|Gill Damage in the Mosquitofish Gambusia affinis Caused by Chlorine. I. Fresh Water|Sci. Biol. J.3(4): 361-371|1977|
15558|A||D'Agostino,A., and C. Finney|The Effect of Copper and Cadmium on the Development of Tigriopus japonicus|Pollut. Physiol. Mar. Organisms:445-463|1974|
15559|A||De Freitas,A.S.W., and J.S. Hart|Effect of Body Weight on Uptake of Methyl Mercury by Fish|ASTM Spec. Tech. Publ.:356-363|1975|
15560|A||Devlin,E.W., J.D. Brammer, and R.L. Puyear|Acute Toxicity of Toluene to Three Age Groups of Fathead Minnows (Pimephales promelas)|Bull. Environ. Contam. Toxicol.29(1): 12-17|1982|10.1007/BF01606082
15561|A||Ellgaard,E.G., J.E. Tusa, and A.A.,Jr. Malizia|Locomotor Activity of the Bluegill Lepomis macrochirus: Hyperactivity Induced by Sublethal Concentrations of Cadmium, Chromium and Zinc|J. Fish Biol.1(1): 19-23|1978|10.1111/j.1095-8649.1978.tb04146.x
15562|A||Gardner,G.R.|Chemically Induced Lesions in Estuarine or Marine Teleosts|In: W.E.Ribelin and G.Migaki (Eds.), Pathology of Fishes, Univ.of WI Press, Madison, WI:657-693|1975|
15563|A||Gillespie,R., T. Reisine, and E.J. Massaro|Cadmium Uptake by the Crayfish, Orconectes propinquus propinquus (Girard)|Environ. Res.13(3): 364-368|1977|10.1016/0013-9351(77)90016-0
15564|A||Grant,C., and A.F. Bravery|Laboratory Evaluation of Algicidal Biocides for Use on Constructional Materials. 1. An Assessment of Some Current Test Methods|Int.Biodeterior.Bull.17(4): 113-123|1981|
15565|A||Killgore,K.J.|Use of Herbicide/Adjuvant Formulations for the Control of Myriophyllum spicatum L.|Miscellaneous Paper, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS:64 p.|1984|
15566|A||Hodson,P.V., B.R. Blunt, D. Jensen, and S. Morgan|Effect of Fish Age on Predicted and Observed Chronic Toxicity of Lead to Rainbow Trout in Lake Ontario Water|J. Great Lakes Res.5(1): 84-89|1979|10.1016/S0380-1330(79)72132-0
15567|A||Mac,M.J., and J.G. Seelye|Patterns of PCB Accumulation by Fry of Lake Trout|Bull. Environ. Contam. Toxicol.27(3): 368-375|1981|10.1007/BF01611034
15568|A||Mac,M.J., and J.G. Seelye|Potential Influence of Acetone in Aquatic Bioassays Testing the Dynamics and Effects of PCBs|Bull. Environ. Contam. Toxicol.27(3): 359-367|1981|10.1007/BF01611033
15570|A||Nishiuchi,Y., and K. Asano|Comparison of Pesticide Susceptibility of Colored Carp with Japanese Common Carp|Annu. Rep. Agric. Chem. Insp. Stn. (Non-English)21:61-63|1981|
15571|A||Ozoh,P.T.E., and C.O. Jacobson|Embryotoxicity and Hatchability in Cichlasoma nigrofasciatum (Guenther) Eggs and Larvae Briefly Exposed to Low Concentrations of Zinc and Copper|Bull. Environ. Contam. Toxicol.21(6): 782-786|1979|10.1007/BF01685505
15572|A||Palawski,D., D.R. Buckler, and F.L. Mayer|Survival and Condition of Rainbow Trout (Salmo gairdneri) After Acute Exposures to Methyl Parathion, Triphenyl Phosphate, and DEF|Bull. Environ. Contam. Toxicol.30(5): 614-620|1983|10.1007/BF01610183
15573|A||Poulsen,E., H.U. Riisgard, and F. Mohlenberg|Accumulation of Cadmium and Bioenergetics in the Mussel Mytilus edulis|Mar. Biol.68(1): 25-29|1982|10.1007/BF00393137
15574|A||Sanders,H.O., M.T. Finley, and J.B. Hunn|Acute Toxicity of Six Forest Insecticides to Three Aquatic Invertebrates and Four Fishes|Tech.Pap.No.110, U.S.Fish Wildl.Serv., Washington, DC:1-5|1983|
15575|A||Sasaki,K., M. Takeda, and M. Uchiyama|The Accumulation and Elimination of Environmental Pollutants (Organophosphoric Triesters and Pesticides) by Killifish, Oryzias latipes, and Goldfish, Carassius auratus|Eisei Kagaku (Multiple Languages)28:32 p.|1982|
15576|A||Sicko-Goad,L.|A Morphometric Analysis of Algal Response to Low Dose, Short-Term Heavy Metal Exposure|Protoplasma (Multiple Languages)110(2): 75-86|1982|10.1007/BF01281533
15577|A||Sinniah,B.|Insecticidal Effect of Aliphatic Alcohols Against Aquatic Stages of Aedes Mosquitoes|Trans. R. Soc. Trop. Med. Hyg.77(1): 35-38|1983|10.1016/0035-9203(83)90007-X
15578|A||Taylor,J.L.|Toxicity of Copper and Zinc in Two Arkansas Streams to Mosquitofish (Gambusia affinis)|Bios49(3): 99-106|1978|
15579|A||Tomasso,J.R., K.B. Davis, and B.A. Simco|Plasma Corticosteroid Dynamics in Channel Catfish (Ictalurus punctatus) Exposed to Ammonia and Nitrite|Can. J. Fish. Aquat. Sci.38(9): 1106-1112|1981|10.1139/f81-150
15580|A||Tort,L., S. Crespo, and J. Balasch|Oxygen Consumption of the Dogfish Gill Tissue Following Zinc Treatment|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 145-148|1982|10.1016/0306-4492(82)90222-2
15581|A||Young,J.S., R.L. Buschbom, J.M. Gurtisen, and S.P. Joyce|Effects of Copper on the Sabellid Polychaete, Eudistylia vancouveri:  I.  Concentration Limits for Copper Accumulation|Arch. Environ. Contam. Toxicol.8(1): 97-106|1979|10.1007/BF01055144
15582|A||Zubarik,L.S., and J.M. O'Connor|A Radioisotopic Study of Mercury Uptake by Hudson River Biota|In: J.H.Thorp and J.W.Gibbons (Eds.), Energy Environ.Stress Aquat.Systems, Augusta, GA:273-289|1978|
15583|A||Arillo,A., C. Margiocco, and F. Melodia|Influence of Various Ambient Unionized Ammonia Levels on the Liver Cyclic-3',5'-Adenosine-Monophosphate Concentrations in Salmo gairdneri|Boll. Mus. Ist. Biol. Univ. Genova47:83-91|1979|
15584|A||Brkovic-Popovic,I., and M. Popovic|Effects of Heavy Metals on Survival and Respiration Rate of Tubificid Worms: Part II-Effects on Respiration Rate|Environ. Pollut.13(2): 93-98|1977|
15585|A||Marshall,J.S.|Field Verification of Cadmium Toxicity to Laboratory Daphnia Populations|Bull. Environ. Contam. Toxicol.20(3): 387-393|1978|10.1007/BF01683536
15586|A||Hendrix,P.F., J.A. Hamala, C.L. Langner, and H.P. Kollig|Effects of Chlorendic Acid, a Priority Toxic Substance, on Laboratory Aquatic Ecosystems|Chemosphere12(7-8): 1083-1099|1983|10.1016/0045-6535(83)90262-X
15587|A||Rueter,J.G.,Jr., S.W. Chisholm, and F.M.M. Morel|Effects of Copper Toxicity on Silicic Acid Uptake and Growth in Thalassiosira pseudonana|J. Phycol.17(3): 270-278|1981|10.1111/j.1529-8817.1981.tb00850.x
15588|A||Abram,F.S.H., and I.R. Sims|The Toxicity of Aniline to Rainbow Trout|Water Res.16(8): 1309-1312|1982|10.1016/0043-1354(82)90208-1
15589|A||Arunachalam,S., and S. Palanichamy|Sublethal Effects of Carbaryl on Surfacing Behaviour and Food Utilization in the Air-Breathing Fish, Macropodus cupanus|Physiol. Behav.29(1): 23-27|1982|10.1016/0031-9384(82)90360-2
15590|A||Connell,A.D., and D.D. Airey|The Chronic Effects of Fluoride on the Estuarine Amphipods Grandidierella lutosa and G. lignorum|Water Res.16(8): 1313-1317|1982|10.1016/0043-1354(82)90209-3
15591|A||Eidt,D.C.|Recovery of Aquatic Arthropod Populations in a Woodland Stream After Depletion by Fenitrothion Treatment|Can. Entomol.113(4): 303-313|1981|10.4039/Ent113303-4
15592|A||Elliott-Feeley,E., and J.B. Armstrong|Effects of Fenitrothion and Carbaryl on Xenopus laevis Development|Toxicology22(2): 319-335|1982|
15593|A||Folmar,L.C., and H.O. Hodgins|Effects of Aroclor 1254 and No. 2 Fuel Oil, Singly and in Combination, on Predator-Prey Interactions in Coho Salmon (Oncorhynchus kisutch)|Bull. Environ. Contam. Toxicol.29(1): 24-28|1982|10.1007/BF01606084
15594|A||Goulding,K.H., and S.W. Ellis|The Interaction of DDT with Two Species of Fresh-Water Algae|Environ. Pollut. A.25(4): 271-290|1981|10.1016/0143-1471(81)90089-1
15595|A||Sehgal,R., and A.B. Saxena|Determination of Acute Toxicity Levels of Cadmium and Lead to the Fish Lebistes reticulatus (Peters)|Int. J. Environ. Stud.29:157-161|1987|10.1080/00207238708710355
15596|A||Hall,L.W.,Jr., D.T. Burton, and S.L. Margrey|Acclimation Temperature: An Important Factor in Power Plant Chlorination Studies with Larval White Perch, Morone americana|J. Toxicol. Environ. Health7:941-950|1981|10.1080/15287398109530037
15597|A||Hoeppel,R.E., and H.E. Westerdahl|Dissipation of 2,4-D DMA and Bee from Water, Mud, and Fish at Lake Seminole, Georgia|Water Resour. Bull.19(2): 197-204|1983|10.1111/j.1752-1688.1983.tb05314.x
15598|A||Jowett,P.E., M.M. Rhead, and B.L. Bayne|In Vivo Changes in the Activity of Gill ATPases and Haemolymph Ions of Carcinus maenas Exposed to P,P'-DDT and Reduced Salinities|Comp. Biochem. Physiol. C Comp. Pharmacol.69(2): 399-402|1981|10.1016/0306-4492(81)90159-3
15599|A||Kanazawa,J.|Measurement of the Bioconcentration Factors of Pesticides by Freshwater Fish and Their Correlation with Physicochemical Properties or Acute Toxicities|Pestic. Sci.12(4): 417-424|1981|10.1002/ps.2780120408
15600|A||Kottkamp,W.B., R.H. Roberts, and M.V. Meisch|Efficacy of Three Pyrethroids as Larvicides Against Riceland Mosquito Larvae in Field Plots|Mosq. News41(2): 382-383|1981|
15601|A||Kovacs,T.G., and G. Leduc|Acute Toxicity of Cyanide to Rainbow Trout (Salmo gairdneri) Acclimated at Different Temperatures|Can. J. Fish. Aquat. Sci.39(10): 1426-1429|1982|10.1139/f82-192
15602|A||Kovacs,T.G., and G. Leduc|Sublethal Toxicity of Cyanide to Rainbow Trout (Salmo gairdneri) at Different Temperatures|Can. J. Fish. Aquat. Sci.39(10): 1389-1395|1982|10.1139/f82-187
15603|A||U.S. Environmental Protection Agency|Stream Faunal Recovery After Manganese Strip Mine Reclamation|Proj.No.18050 DOH 06/71, U.S.EPA, Washington, DC:36 p.|1971|
15604|A||Getsinger,K.D., and H.E. Westerdahl|Field Evaluation of Garlon 3A (Triclopyr) and 14-ACE-B (2,4-D BEE) for the Control of Eurasian Watermilfoil|Misc.Pap.A-84-5, Army Engineer Waterways Exp.Station, Vicksburg, MS:25 p.|1984|
15605|A||Margrey,S.L., D.T. Burton, and L.W.,Jr. Hall|Seasonal Temperature and Power Plant Chlorination Effects on Estuarine Invertebrates|Arch. Environ. Contam. Toxicol.10(6): 691-703|1981|10.1007/BF01054853
15606|A||McKim,J.M., and H.M. Goeden|A Direct Measure of the Uptake Efficiency of a Xenobiotic Chemical Across the Gills of Brook Trout (Salvelinus fontinalis) Under Normoxic and|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 65-74|1982|10.1016/0306-4492(82)90206-4
15607|A||Petersen,R.|Influence of Copper and Zinc on the Growth of a Freshwater Alga, Scenedesmus quadricauda:  The Significance of Chemical Speciation|Environ. Sci. Technol.16(8): 443-447|1982|10.1021/es00102a003
15608|A||Sastry,K.V., and K. Sharma|Diazinon-Induced Hematological Changes in Ophiocephalus (Channa) punctatus|Ecotoxicol. Environ. Saf.5(2): 171-176|1981|10.1016/0147-6513(81)90032-4
15609|A||Sebastien,R.J., and W.L. Lockhart|The Influence of Formulation on Toxicity and Availability of a Pesticide (Methoxychlor) to Black Fly Larvae (Diptera: Simuliidae), Some Non-Target Aquatic Insects and Fish|Can. Entomol.113(4): 281-293|1981|10.4039/Ent113281-4
15610|A||Singh,N.N., and A.K. Srivastava|Effect of Formothion on Carbohydrate Metabolism in Indian Catfish, Heteropneustes fossilis|Environ. Res.28(2): 335-339|1982|10.1016/0013-9351(82)90132-3
15612|A||Tiews,K., M. Manthey, and H. Koops|The Carry-Over of Fluoride From Krill Meal Pellets into Rainbow Trout (Salmo gairdneri)|Arch. Fischereiwiss.32(1-3): 39-42|1982|
15613|A||Verma,S.R., I.P. Tonk, A.K. Gupta, and R.C. Dalela|Role of Ascorbic Acid in the Toxicity of Pesticides in a Fresh Water Teleost|Water Air Soil Pollut.16(1): 107-114|1981|10.1007/BF01047045
15614|A||Weis,P., and J.S. Weis|Toxicity of Methylmercury, Mercuric Chloride, and Lead in Killifish (Fundulus heteroclitus) from Southampton, New York|Environ. Res.28(2): 364-374|1982|10.1016/0013-9351(82)90135-9
15615|A||Abeliovich,A., and Y. Azov|Toxicity of Ammonia to Algae in Sewage Oxidation Ponds|Appl. Environ. Microbiol.31(6): 801-806|1976|10.1128/aem.31.6.801-806.1976
15616|A||Betzer,N., and Y. Kott|Effect of Halogens on Algae-II. Cladophora sp.|Water Res.3(4): 257-264|1969|10.1016/0043-1354(69)90022-0
15617|A||Borgmann,U.|Determination of Free Metal Ion Concentrations Using Bioassays|Can. J. Fish. Aquat. Sci.38(8): 999-1002|1981|10.1139/f81-137
15618|A||De Filippis,L.F., R. Hampp, and H. Ziegler|The Effects of Sublethal Concentrations of Zinc, Cadmium and Mercury on Euglena. II. Respiration, Photosynthesis and Photochemical Activities|Arch. Microbiol.128(4): 407-411|1981|10.1007/BF00405922
15619|A||Donaldson,E.M., and H.M. Dye|Corticosteroid Concentrations in Sockeye Salmon (Oncorhynchus nerka) Exposed to Low Concentrations of Copper|J. Fish. Res. Board Can.32(4): 533-539|1975|10.1139/f75-065
15620|A||Ducat,D.A., and M.A.Q. Khan|Absorption and Elimination of 14C-cis-Chlordane and 14C-Photo-cis-Chlordane by Goldfish Carassius auratus|Arch. Environ. Contam. Toxicol.8(4): 409-417|1979|10.1007/BF01056347
15621|A||Filbin,G.J., and R.A. Hough|The Effects of Excess Copper Sulfate on the Metabolism of the Duckweed Lemna minor|Aquat. Bot.7(1): 79-86|1979|10.1016/0304-3770(79)90010-X
15622|A||George,S.G., and T.L. Coombs|The Effects of Chelating Agents on the Uptake and Accumulation of Cadmium by Mytilus edulis|Mar. Biol.39(3): 261-268|1977|10.1007/BF00391000
15623|A||Hall,L.W.,Jr., D.T. Burton, S.L. Margrey, and W.C. Graves|The Effect of Acclimation Temperature on the Interactions of Chlorine, [Change in Temperature] and Exposure Duration to Eggs, Prolarvae and Larvae|Water Res.17(3): 309-317|1983|10.1016/0043-1354(83)90185-9
15624|A||Heslinga,G.A.|Effects of Copper on the Coral-Reef Echinoid Echinometra mathaei|Mar. Biol.35(2): 155-160|1976|10.1007/BF00390937
15625|A||Hetrick,F.M., M.D. Knittel, and J.L. Fryer|Increased Susceptibility of Rainbow Trout to Infectious Hematopoietic Necrosis Virus After Exposure to Copper|Appl. Environ. Microbiol.37(2): 198-201|1979|10.1128/aem.37.2.198-201.1979
15626|A||Billard,R., B. Breton, and M. Richard|On the Inhibitory Effect of Some Steroids on Spermatogenesis in Adult Rainbow Trout (Salmo gairdneri)|Can. J. Zool.59(8): 1479-1487|1981|10.1139/z81-201
15627|A||MacInnes,J.R., and A. Calabrese|Combined Effects of Salinity, Temperature, and Copper on Embryos and Early Larvae of the American Oyster, Crassostrea virginica|Arch. Environ. Contam. Toxicol.8(5): 553-562|1979|10.1007/BF01055036
15628|A||Mahajan,C.L., S.D. Sharma, and S.P. Sharma|Tolerance of Aquatic Organisms to Chloride Salts|Indian J. Exp. Biol.17(11): 1244-1245|1979|
15629|A||Mathur,S., B.S. Khangarot, and V.S. Durve|Acute Toxicity of Mercury, Copper and Zinc to a Freshwater Pulmonate Snail, Lymnaea luteola (Lamarck)|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(4): 381-389|1981|10.1002/aheh.19810090404
15630|A||McLean,R.I.|Chlorine Tolerance of the Colonial Hydroid Bimeria franciscana|Chesapeake Sci.13(3): 229-230|1972|10.2307/1351072
15631|A||McLeese,D.W., V. Zitko, and D.B. Sergeant|Uptake and Excretion of Fenitrothion by Clams and Mussels|Bull. Environ. Contam. Toxicol.22(6): 800-806|1979|10.1007/BF02027028
15632|A||Middaugh,D.P., W.R. Davis, and R.L. Yoakum|The Response of Larval Fish, Leiostomus xanthurus, to Environmental Stress Following Sublethal Cadmium Exposure|Mar. Sci.19:13-19|1975|
15633|A||Phillips,D.J.H.|The Common Mussel Mytilus edulis as an Indicator of Pollution by Zinc, Cadmium, Lead and Copper.  I.  Effects of Environmental Variables on Uptake of Metals|Mar. Biol.38(1): 59-69|1976|10.1007/BF00391486
15634|A||Prasad,P.V.D., and Y.B.K. Chowdary|Effects of Metabolic Inhibitors on the Calcification of a Freshwater Green Alga, Gloeotaenium ioitlesbergarianum Hansgirg.  1.  Effects of Some Photosynthetic and Respiratory Inhibitors|Ann. Bot.47(4): 451-459|1981|10.1093/oxfordjournals.aob.a086040
15635|A||Ueda,T., S. Sadakane, K. Yamaoka, M. Nakagawa, and M. Ishida|Bioaccumulation and Metabolic Fate of Pyrazolate and its Hydrolysates in Guppies and Short-Necked Clams|J. Pestic. Sci. (Multiple Languages)13(1): 85-92|1988|10.1584/jpestics.13.85
15637|A||Rosenberg,R., and J.D.,Jr. Costlow|Synergistic Effects of Cadmium and Salinity Combined with Constant and Cycling Temperatures on the Larval Development of Two Estuarine Crab|Mar. Biol.38(4): 291-303|1976|10.1007/BF00391369
15638|A||Sastry,K.V., and S. Tyagi|Toxic Effects of Chromium in a Freshwater Teleost Fish, Channa punctatus|Toxicol. Lett.11(1): 17-21|1982|10.1016/0378-4274(82)90099-6
15639|A||Schimmel,S.C., R.L. Garnas, J.M.,Jr. Patrick, and J.C. Moore|Acute Toxicity, Bioconcentration, and Persistence of AC 222,705, Benthiocarb, Chlorpyrifos, and Fenvalerate, Methyl Parathion, and Permethrin in the Estuarine Environment|J. Agric. Food Chem.31(1): 104-113|1983|10.1021/jf00115a027
15640|A||Srivastava,A.K., and N.N. Singh|Acute Toxicity of Propoxur on Carbohydrate Metabolism of Indian Catfish (Heteropneustes fossilis)|Toxicol. Lett.11(1): 31-34|1982|10.1016/0378-4274(82)90101-1
15641|A||Stebbing,A.R.D.|The Effects of Low Metal Levels on a Clonal Hydroid|J. Mar. Biol. Assoc. U.K.56(4): 977-994|1976|10.1017/S0025315400021020
15642|A||Steemann Nielsen,E., and H. Bruun Laursen|Effect of CuSO4 on the Photosynthetic Rate of Phytoplankton in Four Danish Lakes|Oikos27(2): 239-242|1976|
15643|A||Stratton,G.W., A.L. Huber, and C.T. Corke|Effect of Mercuric Ion on the Growth, Photosynthesis, and Nitrogenase Activity of Anabaena inaequalis|Appl. Environ. Microbiol.38(3): 537-543|1979|10.1128/aem.38.3.537-543.1979
15644|A||Sudo,R., and S. Aiba|Effect of Copper and Hexavalent Chromium on the Specific Growth Rate of Ciliata Isolated from Activated-Sludge|Water Res.7(9): 1301-1307|1973|10.1016/0043-1354(73)90007-9
15645|A||Cardinal,H., and G. Vernet|Physiological Disturbances in the Crab, Carcinus mediterraneus in the Presence of Diflubenzuron|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)176(2): 210-216|1982|
15646|A||Cember,H., E.H. Curtis, and B.G. Blaylock|Mercury Bioconcentration in Fish: Temperature and Concentration Effects|Environ. Pollut.17(4): 311-319|1978|
15647|A||Cunningham,P.A., and M.R. Tripp|Accumulation, Tissue Distribution and Elimination of (203)HgCl2 and CH3(203)HgCl in the Tissues of the American Oyster Crassostrea virginicia|Mar. Biol.31(4): 321-334|1975|10.1007/BF00392089
15648|A||Dickson,K.L., A.C. Henricks, J.S. Crossman, and J.,Jr. Cairns|Effects of Intermittently Chlorinated Cooling Tower Blowdown on Fish and Invertebrates|Environ. Sci. Technol.8(9): 845-849|1974|10.1021/es60094a002
15649|A||Epel,D., R. Steinhardt, T. Humphreys, and D. Mazia|An Analysis of the Partial Metabolic Derepression of Sea Urchin Eggs by Ammonia; the Existence of Independent Pathways|Dev. Biol.40(2): 245-255|1974|10.1016/0012-1606(74)90127-4
15650|A||Faraday,W.E., and A.C. Churchill|Uptake of Cadmium by the Eelgrass Zostera marina|Mar. Biol.53(3): 293-298|1979|10.1007/BF00952438
15651|A||Sosak-Swiderska,B., D. Tyrawska, and B. Maslikowska|Microalgal Ecotoxicity Test with 3,4-Dichloroaniline|Chemosphere37(14/15): 2975-2982|1998|10.1016/S0045-6535(98)00338-5
15652|A||Gouda,R.K., N.K. Tripathy, and C.C. Das|Toxicity of Dimecron, Sevin and Lindex to Anabas scandens and Heteropneustes fossilis|Comp. Physiol. Ecol.6(3): 170-172|1981|
15653|A||Jones,M.B.|Synergistic Effects of Salinity, Temperature and Heavy Metals on Mortality and Osmoregulation in Marine and Estuarine Isopods (Crustacea)|Mar. Biol.30(1): 13-20|1975|10.1007/BF00393748
15654|A||Karbe,L.|Marine Hydroids as Test Organisms for Assessing the Toxicity of Water Pollutants. The Effect of Heavy Metals on Colonies of Eirene viridula (Marine Hydroiden als Testorganismen zur Prufung der Toxizitat Von Abwasserstof|Mar. Biol.12(4): 316-328|1972|10.1007/BF00366332
15655|A||Kayser,H.|Waste-Water Assay with Continuous Algal Cultures: The Effect of Mercuric Acetate on the Growth of Some Marine Dinoflagellates|Mar. Biol.36(1): 61-72|1976|10.1007/BF00388429
15656|A||Lovegrove,S.M., and B. Eddy|Uptake and Accumulation of Zinc in Juvenile Rainbow Trout, Salmo gairdneri|Environ. Biol. Fishes7(3): 285-289|1982|10.1007/BF00002503
15657|A||Mirkes,D.Z., W.B. Vernberg, and P.J. DeCoursey|Effects of Cadmium and Mercury on the Behavioral Responses and Development of Eurypanopeus depressus Larvae|Mar. Biol.47(2): 143-147|1978|10.1007/BF00395635
15658|A||Moody,R.P., P. Weinberger, R. Greenhalgh, and A. Massalski|Algicidal Properties of the Pesticide Cosolvent Aerotex 3470: Growth, ATP Synthesis, and Ultrastructure|Can. J. Bot.59(6): 1003-1013|1981|10.1139/b81-137
15659|A||Muchmore,D., and D. Epel|The Effects of Chlorination of Wastewater on Fertilization in Some Marine Invertebrates|Mar. Biol.19(2): 93-95|1973|10.1007/BF00353579
15660|A||Mukhopadhyay,P.K., A.P. Mukherji, and P.V. Dehadrai|Certain Biochemical Responses in the Air-Breathing Catfish Clarias batrachus Exposed to Sublethal Carbofuran|Toxicology23(4): 337-345|1982|10.1016/0300-483X(82)90071-3
15661|A||Murty,A.S., and A.P. Devi|The Effect of Endosulfan and its Isomers on Tissue Protein, Glycogen, and Lipids in the Fish Channa punctata|Pestic. Biochem. Physiol.17(3): 280-286|1982|10.1016/0048-3575(82)90138-9
15663|A||Overnell,J.|The Effect of Some Heavy Metal Ions on Photosynthesis in a Freshwater Alga|Pestic. Biochem. Physiol.5(1): 19-26|1975|10.1016/0048-3575(75)90039-5
15664|A||Pant,S.C., and S. Kumar|Toxicity of Temik (Aldicarb) for a Fresh Water Teleost, Barbus conchonius Hamilton|Experientia37(12): 1327-1328|1981|10.1007/BF01948389
15665|A||Sosak-Swiderska,B., D. Tyrawska, and D. Dzido|Daphnia magna Ecotoxicity Test with Parathion|Chemosphere37(14/15): 2989-3000|1998|10.1016/S0045-6535(98)00339-7
15666|A||Reichert,W.L., D.A. Federighi, and D.C. Malins|Uptake and Metabolism of Lead and Cadmium in Coho Salmon (Oncorhynchus kistuch)|Comp. Biochem. Physiol. C Comp. Pharmacol.63(2): 229-234|1979|10.1016/0306-4492(79)90066-2
15667|A||Sastry,K.V., and K. Sunita|Effect of Cadmium and Chromium on the Intestinal Absorption of Glucose in the Snakehead Fish, Channa punctatus|Toxicol. Lett.10(2/3): 293-296|1982|10.1016/0378-4274(82)90090-X
15669|A||Srivastava,D.K.|Comparative Effects of Copper, Cadmium and Mercury on Tissue Glycogen of the Catfish, Heteropneustes fossilis (Bloch)|Toxicol. Lett.11(1/2): 135-139|1982|10.1016/0378-4274(82)90118-7
15670|A||Verma,S.R., S. Rani, and R.C. Dalela|Synergism, Antagonism, and Additivity of Phenol, Pentachlorophenol, and Dinitrophenol to a Fish (Notopterus notopterus)|Arch. Environ. Contam. Toxicol.10(3): 365-370|1981|10.1007/BF01055638
15671|A||Waiwood,K.G., and F.W.H. Beamish|The Effect of Copper, Hardness and pH on the Growth of Rainbow Trout, Salmo gairdneri|J. Fish Biol.13(5): 591-598|1978|10.1111/j.1095-8649.1978.tb03472.x
15672|A||Wang,K., B. Rott, and F. Korte|Uptake and Bioaccumulation of Three PCBs by Chlorella fusca|Chemosphere11(5): 525-530|1982|10.1016/0045-6535(82)90185-0
15673|A||Williams,D.R., and J.P.,Jr. Giesy|Relative Importance of Food and Water Sources to Cadmium Uptake by Gambusia affinis (Poeciliidae)|Environ. Res.16(1-3): 326-332|1978|10.1016/0013-9351(78)90165-2
15674|A||Zeitoun,I.H.|Assessment of Intermittently Chlorinated Heated Effluents on Survival of Adult Rainbow Trout (Salmo gairdneri) at Power Generating Facilities|Environ. Sci. Technol.12(10): 1173-1179|1978|10.1021/es60146a001
15675|A||Adams,E.S.|Effects of Lead and Hydrocarbons From Snowmobile Exhaust on Brook Trout (Salvelinus fontinalis)|Trans. Am. Fish. Soc.104(2): 363-373|1975|10.1577/1548-8659(1975)104<363:EOLAHF>2.0.CO;2
15676|A||Amend,D.F., W.T. Yasutake, and R. Morgan|Some Factors Influencing Susceptibility of Rainbow Trout to the Acute Toxicity of an Ethyl Mercury Phosphate Formulation (Timsan)|Trans. Am. Fish. Soc.98(3): 419-425|1969|10.1577/1548-8659(1969)98[419:SFISOR]2.0.CO;2
15677|A||Geen,G.H., M.A. Hussain, P.C. Oloffs, and B.A. McKeown|Fate and Toxicity of Acephate (Orthene) Added to a Coastal B. C. Stream|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(3): 253-271|1981|
15679|A||Nacci,D., L. Coiro, A. Kuhn, D. Champlin, W.,Jr. Munns, J. Specker, and K. Cooper|Nondestructive Indicator of Ethoxyresorufin-O-Deethylase Activity in Embryonic Fish|Environ. Toxicol. Chem.17(12): 2481-2486|1998|
15680|A||Hartman,A.M.|Mercury Feeding Schedules: Effects on Accumulation, Retention, and Behavior in Trout|Trans. Am. Fish. Soc.107(2): 369-375|1978|10.1577/1548-8659(1978)107<369:MFS>2.0.CO;2
15681|A||Klut,M.E., T. Bisalputra, and N.J. Antia|Abnormal Ultrastructural Features of a Marine Dinoflagellate Adapted to Grow Successfully in the Presence of Inhibitory Fluoride Concentration|J.Protozool.28:406-414|1981|10.1111/j.1550-7408.1981.tb05311.x
15682|A||Tusek-Znidaric,M., M. Skreblin, J. Pavicic, A. Suhar, and P. Stegnar|Cellular Distribution of Hg in Selected Organs of the Marine Mussel, Mytilus galloprovincialis|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:730-732|1985|
15683|A||Zaga,A., E.E. Little, C.F. Rabeni, and M.R. Ellersieck|Photoenhanced Toxicity of a Carbamate Insecticide to Early Life Stage Anuran Amphibians|Environ. Toxicol. Chem.17(12): 2543-2553|1998|10.1002/etc.5620171223
15684|A||Maule,A., and S.J.L. Wright|Physiological Effects of Chlorpropham and 3-Chloroaniline on Some Cyanobacteria and a Green Alga|Pestic. Biochem. Physiol.19(2): 196-202|1983|10.1016/0048-3575(83)90140-2
15685|A||Mendiola,P., F.J. Mataix, M. Illera, and G. Varela|Effect of Lindane on Protein Nutritive Utilization in Trout (Salmo gairdneri). (Influencia Del Lindanosobre La Utilizacion Nutritiva De La Proteina|Rev. Esp. Fisiol.37(2): 141-146|1981|
15686|A||Millemann,R.E., and D.S. Ehrenberg|Chronic Toxicity of the Azaarene Quinoline, a Synthetic Fuel Component, to the Pond Snail Physa gyrina|Environ. Technol. Lett.3:193-198|1982|10.1080/09593338209384116
15687|A||Sancho,E., M.D. Ferrando, M. Gamon, and E. Andreu-Moliner|Uptake and Clearance of Diazinon in Different Tissues of the European Eel (Anguilla anguilla L.)|Biomed. Environ. Sci.7(1): 41-49|1994|
15688|A||Nobel,W.|To the Effect of Boron Pollution on Submerged Softwater-Macrophytes. (Zum Einfluss Von Bor Auf Submerse Weichwasser-Makrophyten)|Angew. Bot. (Multiple Languages)55:501-514|1981|
15689|A||Pandey,K., and J.P. Shukla|Acute Toxicity of Carbamide and its Long Term Effects on the Growth of Fingerlings of a Tropical Fresh Water Teleost, Colisa fasciatus (Bloch & Sch.)|Acta Hydrochim. Hydrobiol. (Multiple Languages)11(1): 145-149|1983|10.1002/aheh.19830110116
15690|A||Ruber,E., and J. Baskar|Sensitivities of Selected Microcrustacea to Eight Mosquito Toxicants|Proc. Annu. Meet. N. J. Mosq. Exterm. Assoc.55:99-103|1968|
15691|A||Pawar,K.R., and M. Katdare|Effect of the Insecticide Sumithion (Fenitrothion) on Embryonic Development in a Frog|Experientia39(3): 297-298|1983|10.1007/BF01955313
15692|A||Phillips,G.R., and D.R. Buhler|The Relative Contributions of Methylmercury from Food or Water to Rainbow Trout (Salmo gairdneri) in a Controlled Laboratory Environment|Trans. Am. Fish. Soc.107(6): 853-861|1978|10.1577/1548-8659(1978)107<853:TRCOMF>2.0.CO;2
15693|A||Rao,K.S.P., K.S. Prasad, C. Madhu, and K.V.R. Rao|Effect of Methyl Parathion on Tissue Proteins and Excretory Products of the Snail, Pila globosa (Swainson)|Natl. Acad. Sci. Lett.4(8): 337-340|1981|
15694|A||Saward,D., A. Stirling, and G. Topping|Experimental Studies on the Effects of Copper on a Marine Food Chain|Mar. Biol.29(4): 351-361|1975|10.1007/BF00388855
15695|A||Sheplay,A.W., and T.J. Bradley|A Comparative Study of Magnesium Sulphate Tolerance in Saline-Water Mosquito Larvae|J. Insect Physiol.28(7): 641-646|1982|10.1016/0022-1910(82)90062-2
15696|A||Soyer,M.O., and P. Prevot|Ultrastructural Damage by Cadmium in a Marine Dinoflagellate, Prorocentrum micans|J.Protozool.28(3): 308-313|1981|10.1111/j.1550-7408.1981.tb02856.x
15697|A||Varanasi,U., P.A. Robisch, and D.C. Malins|Structural Alterations in Fish Epidermal Mucus Produced by Water-Borne Lead and Mercury|Nature258(5534): 431-432|1975|10.1038/258431a0
15698|A||Westernhagen,H., and V. Dethlefsen|Combined Effects of Cadmium and Salinity on Development and Survival of Flounder Eggs|J. Mar. Biol. Assoc. U.K.55(4): 945-957|1975|10.1017/S0025315400017835
15699|A||Westernhagen,H., V. Dethlefsen, and H. Rosenthal|Combined Effects of Cadmium and Salinity on Development and Survival of Garpike Eggs|Helgol. Wiss. Meeresunters.27(3): 268-282|1975|10.1007/BF01611696
15701|A||Wong,M.H., K.C. Luk, and K.Y. Choi|The Effects of Zinc and Copper Salts on Cyprinus carpio and Ctenopharyngodon idellus|Acta Anat.99(4): 450-454|1977|10.1159/000144869
15702|A||Woodworth,J., and D. Pascoe|Cadmium Toxicity to Rainbow Trout, Salmo gairdneri Richardson: A Study of Eggs and Alevins|J. Fish Biol.21(1): 47-57|1982|10.1111/j.1095-8649.1982.tb02822.x
15703|A||Zaroogian,G.E., and S. Cheer|Accumulation of Cadmium by the American Oyster, Crassostrea virginica|Nature261(5559): 408-410|1976|10.1038/261408a0
15704|A||Zaroogian,G.E., G. Morrison, and J.F. Heltshe|Crassostrea virginica as an Indicator of Lead Pollution|Mar. Biol.52(2): 189-196|1979|10.1007/BF00390427
15705|A||Agrawal,S.J., A.K. Srivastava, and H.S. Chaudhry|Haematological Effects of Nickel Toxicity on a Fresh Water Teleost, Colisa fasciatus|Acta Pharmacol. Toxicol.45(3): 215-217|1979|10.1111/j.1600-0773.1979.tb02384.x
15706|A||Briggs,L.B.R.|Effects of Cadmium on the Intracellular Pool of Free Amino Acids in Mytilus edulis|Bull. Environ. Contam. Toxicol.22(6): 838-845|1979|10.1007/BF02027034
15707|A||Browne,C.L., and J.N. Dumont|Toxicity of Selenium to Developing Xenopus laevis Embryos|J. Toxicol. Environ. Health5(4): 699-709|1979|10.1080/15287397909529781
15708|A||Brunskill,G.J., B.W. Graham, and J.W.M. Rudd|Experimental Studies on the Effect of Arsenic on Microbial Degradation of Organic Matter and Algal Growth|Can. J. Fish. Aquat. Sci.37(3): 415-423|1980|10.1139/f80-055
15709|A||Burton,D.T., E.L. Morgan, and J.,Jr. Cairns|Mortality Curves of Bluegills (Lepomis macrochirus Rafinesque) Simultaneously Exposed to Temperature and Zinc Stress|Trans. Am. Fish. Soc.101(3): 435-441|1972|10.1577/1548-8659(1972)101<435:MCOBLM>2.0.CO;2
15710|A||Chauhan,T.P.S., M.M. Prakash, K.C. Gupta, and B.R. Varma|Observations on the Toxicity of Cadmium Chloride to Heteropneustes fossilis (Bloch)|Comp. Physiol. Ecol.4(2): 59-60|1979|
15711|A||Mathur,D.S.|Toxicity of DDT to Fish|Proc. Zool. Soc. (Calcutta)19(1): 57-65|1966|
15712|A||Conway,H.L.|Sorption of Arsenic and Cadmium and Their Effects on Growth, Micronutrient Utilization, and Photosynthetic Pigment Composition of Asterionella formosa|J. Fish. Res. Board Can.35(3): 286-294|1978|10.1139/f78-052
15713|A||Cooke,A.S.|The Influence of Rearing Density on the Subsequent Response to DDT Dosing for Tadpoles of the Frog Rana temporaria|Bull. Environ. Contam. Toxicol.21(6): 837-841|1979|10.1007/BF01685514
15714|A||Daniels,R.E., and J.D. Allan|Life Table Evaluation of Chronic Exposure to a Pesticide|Can. J. Fish. Aquat. Sci.38(5): 485-494|1981|10.1139/f81-070
15715|A||Giattina,J.D., R.R. Garton, and D.G. Stevens|Avoidance of Copper and Nickel by Rainbow Trout as Monitored by a Computer-Based Data Acquisition System|Trans. Am. Fish. Soc.111(4): 491-504|1982|10.1577/1548-8659(1982)111<491:AOCANB>2.0.CO;2
15716|A||Gupta,P.K., B.S. Khangarot, and V.S. Durve|The Temperature Dependence of the Acute Toxicity of Copper to a Freshwater Pond Snail, Viviparus bengalensis L.|Hydrobiologia (Multiple Languages)83(3): 461-464|1981|10.1007/BF02187041
15717|A||Hara,T.J., Y.M.C. Law, and S. MacDonald|Effects of Mercury and Copper on the Olfactory Response in Rainbow Trout, Salmo gairdneri|J. Fish. Res. Board Can.33(7): 1568-1573|1976|10.1139/f76-197
15718|A||Hirata,H., S. Yamasaki, and E. Kohirata|Effects of Benthiocarb Herbicide on Growth of Planktonic Organisms, Chlorella saccharophila and Brachionus plicatilis|Mem. Fac. Fish Kagoshima Univ.33(1): 51-56|1984|
15719|A||Hodson,P.V., B.R. Blunt, and D.J. Spry|pH-Induced Changes in Blood Lead of Lead-Exposed Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.35(4): 437-445|1978|10.1139/f78-076
15720|A||Katz,B.M.|Chlorine Dissipation and Toxicity Presence of Nitrogenous Compounds|J. Water Pollut. Control Fed.49(7): 1627-1635|1977|
15722|A||Madhupratap,M., C.T. Achuthankutty, and S.R.S. Nair|Toxicity of Some Heavy Metals to Copepods Acartia spinicauda and Tortanus forcipatus|Indian J. Mar. Sci.10:382-383|1981|
15723|A||Marshall,J.S., J.I. Parker, D.L. Mellinger, and S.G. Lawrence|An In Situ Study of Cadmium and Mercury Stress in the Plankton Community of Lake 382, Experimental Lakes Area, Northwestern Ontario|Can. J. Fish. Aquat. Sci.38(10): 1209-1214|1981|10.1139/f81-162
15724|A||Mathews,R.C.J., A.D. Bosnak, D.S. Tennant, and E.L. Morgan|Mortality Curves of Blind Cave Crayfish (Orconectes australis australis) Exposed to Chlorinated Stream Water|Hydrobiologia (Multiple Languages)53(2): 107-111|1977|10.1007/BF00029288
15725|AT||Matthiessen,P., P.J. Fox, R.J. Douthwaite, and A.B. Wood|Accumulation of Endosulfan Residues in Fish and Their Predators After Aerial Spraying for the Control of Tsetse Fly in Botswana|Pestic. Sci.13(1): 39-48|1982|10.1002/ps.2780130107
15726|A||Moraitou-Apostolopoulou,M., and G. Verriopoulos|Individual and Combined Toxicity of Three Heavy Metals, Cu, Cd and Cr for the Marine Copepod Tisbe holothuriae|Hydrobiologia (Multiple Languages)87(1): 83-87|1982|10.1007/BF00016665
15727|A||Sigmon,C.F., H.J. Kania, and R.J. Beyers|Reductions in Biomass and Diversity Resulting From Exposure to Mercury in Artificial Streams|J. Fish. Res. Board Can.34(4): 493-500|1977|10.1139/f77-080
15728|A||Soderberg,R.W., J.B. Flynn, and H.R. Schmittou|Effects of Ammonia on Growth and Survival of Rainbow Trout in Intensive Static-Water Culture|Trans. Am. Fish. Soc.112(3): 448-451|1983|10.1577/1548-8659(1983)112<448:EOAOGA>2.0.CO;2
15729|A||Sorensen,E.M.B., R.E. Henry, and R. Ramirez-Mitchell|Arsenic Accumulation, Tissue Distribution and Cytotoxicity in Teleosts Following Indirect Aqueous Exposures|Bull. Environ. Contam. Toxicol.21(1/2): 162-169|1979|10.1007/BF01685405
15730|A||Torrans,E.L., and H.P. Clemens|Physiological and Biochemical Effects of Acute Exposure of Fish to Hydrogen Sulfide|Comp. Biochem. Physiol. C Comp. Pharmacol.71(2): 183-190|1982|10.1016/0306-4492(82)90034-X
15731|A||Uviovo,E.J., and D.D. Beatty|Effects of Chronic Exposure to Zinc on Reproduction in the Guppy (Poecilia reticulata)|Bull. Environ. Contam. Toxicol.23(4-5): 650-657|1979|10.1007/BF01770020
15732|A||Vareille-Morel,C., and C. Chaisemartin|Natural Tolerance and Acclimation of Different Populations of Austropotamobius pallipes (Le.) to Heavy Metals (Chromium and Lead)|Acta Oecol. Oecol. Appl. (Multiple Languages)3(1): 105-122|1982|
15733|A||Wong,K.H., K.Y. Chan, and S.L. Ng|Cadmium Uptake by the Unicellular Green Alga Chlorella salina Cu-1 From Culture Media with high Salinity|Chemosphere8(11-12): 887-891|1979|10.1016/0045-6535(79)90029-8
15734|A||Wong,P.T.S., G. Burnison, and Y.K. Chau|Cadmium Toxicity to Freshwater Algae|Bull. Environ. Contam. Toxicol.23(4/5): 487-490|1979|10.1007/BF01769992
15735|A||Alderson,R.|Sea-Water Chlorination and the Survival and Growth of the Early Developmental Stages of Plaice, Pleuronectes platessa L., and Dover Sole, Solea|Aquaculture4(1): 41-53|1974|10.1016/0044-8486(74)90017-9
15736|A||Anderson,A.C., A.A. Abdelghani, and McDonell |Fate of the Herbicide MSMA in Microcosms|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:274-284|1979|
15737|A||Benson,B., and G.M. Boush|Effect of Pesticides and PCBs on Budding Rates of Green Hydra|Bull. Environ. Contam. Toxicol.30(3): 344-350|1983|10.1007/BF01610143
15738|A||Bhattacharya,S., D. Kumar, and R.H. Das|Inhibition of Thyroid Hormone Formation by Endrin in the Head Kidney Preparation of a Teleost Anabas testudineus Bloch|Indian J. Exp. Biol.16(12): 1310-1312|1978|
15739|A||Block,R.M.|Physiological Responses of Estuarine Organisms to Chlorine|Chesapeake Sci.18(1): 158-160|1977|10.2307/1350388
15740|A||Coglianese,M.P., and M. Martin|Individual and Interactive Effects of Environmental Stress on the Embryonic Development of the Pacific Oyster, Crassostrea gigas.  I.  The Toxicity of Copper and Silver|Mar. Environ. Res.5(1): 13-27|1981|10.1016/0141-1136(81)90019-2
15741|A||Das,A.B.|Physiological and Biochemical Effects of Sublethal Ambient Ammonia on Channa punctatus (Bloch)|Indian J. Biochem. Biophys.18(4): 5-|1980|
15743|A||Eloranta,V.|Effect of the Slimecide Fennosan F50 on Algal Growth in Different Test Media|Paperi ja Puu3:129-135|1982|
15744|A||Gentile,S.M., J.H. Gentile, J. Walker, and J.F. Heltshe|Chronic Effects of Cadmium on Two Species of Mysid Shrimp: Mysidopsis bahia and Mysidopsis bigelowi|Hydrobiologia (Multiple Languages)93(1-2): 195-204|1982|10.1007/BF00008113
15745|A||Gupta,P.K., B.S. Khangarot, and V.S. Durve|Studies on the Acute Toxicity of Some Heavy Metals to an Indian Freshwater Pond Snail Viviparus bengalensis L.|Arch. Hydrobiol.91(2): 259-264|1981|
15746|A||Gupta,P.K., V.S. Mujumdar, P.S. Rao, and V.S. Durve|Toxicity of Phenol, Pentachlorophenol and Sodium Pentachlorophenolate to a Freshwater Teleost Lebistes reticulatus (Peters)|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(2): 177-181|1982|10.1002/aheh.19820100207
15747|A||Hall,R.J., and D.M. Swineford|Acute Toxicities of Toxaphene and Endrin to Larvae of Seven Species of Amphibians|Toxicol. Lett.8(6): 331-336|1981|10.1016/0378-4274(81)90122-3
15749|A||Chaudhry,H.S., and K. Nath|Nickel Induced Hyperglycemia in the Freshwater Fish, Colisa fasciatus|Water Air Soil Pollut.24(2): 173-176|1985|10.1007/BF00285442
15751|A||Lomte,V.S., and M.L. Jadhav|Effects of Toxic Compounds on Oxygen Consumption in the Fresh Water Bivalve, Corbicula regularis (Prime, 1860)|Comp. Physiol. Ecol.7(1): 31-33|1982|
15752|A||Ankley,G.T., J.E. Tietge, D.L. DeFoe, K.M. Jensen, G.W. Holcombe, E.J. Durhan, and S.A. Diamond|Effects of Ultraviolet Light and Methoprene on Survival and Development of Rana pipiens|Environ. Toxicol. Chem.17(12): 2530-2542|1998|10.1002/etc.5620171222
15753|A||Meldrim,J.W., and J.A.,Jr. Fava|Behavioral Avoidance Responses of Estuarine Fishes to Chlorine|Chesapeake Sci.18(1): 154-157|1977|10.2307/1350387
15754|A||Middaugh,D.P., and G. Floyd|The Effect of Prehatch and Posthatch Exposure to Cadmium on Salinity Tolerance of Larval Grass Shrimp, Palaemonetes pugio|Estuaries1(2): 123-125|1978|10.2307/1351602
15755|A||Pagano,G., A. Esposito, P. Bove, M. De Angelis, A. Rota, E. Vamvakinos, and G.G. Giordano|Arsenic-Induced Developmental Defects and Mitotic Abnormalities in Sea-Urchin Development|Mutat. Res.104(6): 351-354|1982|
15756|A||Raizada,S., P.K. Sen, and M.N. Raizada|Observation on the Effect of Endosulfan on Mortality of Fish, Gambusia affinis Patruelis (Baird & Girard)|Comp. Physiol. Ecol.6(3): 168-169|1981|
15757|T||Rath,S., and B.N. Misra|"Effect of ""Dimecron-100"" an Organophosphorus Insecticide on the Growth of Oscillatoria obscura, Bruhl et Biswas"|Comp. Physiol. Ecol.6(3): 137-140|1981|
15758|A||Saleh,M.S., I.A. Gaaboub, and S.M.I. Kassem|Larvicidal Effectiveness of Three Controlled-Release Formulations of Dursban and Dimilin on Culex pipiens L. and Aedes aegypti (L.)|J. Agric. Sci.97((Pt. 1)): 87-96|1981|10.1017/S0021859600035899
15759|A||Sastry,K.V., D.R. Rao, and S.K. Singh|Mercury Induced Alterations in the Intestinal Absorption of Nutrients in the Fresh Water Murrel, Channa punctatus|Chemosphere11(6): 613-619|1982|10.1016/0045-6535(82)90206-5
15760|A||Steemann Nielsen,E., and L. Kamp-Nielsen|Influence of Deleterious Concentrations of Copper on the Growth of Chlorella pyrenoidosa|Physiol. Plant. (Multiple Languages)23(4): 828-840|1970|10.1111/j.1399-3054.1970.tb06480.x
15761|A||Golovenko,V.K., A.A. Shchepinskii, and V.A. Shevchenko|Accumulation of DDT and Its Metabolism in the Black Sea Mussel|Izv. Akad. Nauk SSSR Ser. Biol. (Non-English)4:543-550|1981|
15762|A||Verma,S.R., S. Rani, and R.C. Dalela|Pesticide-Induced Physiological Alterations in Certain Tissues of a Fish, Mystus vittatus|Toxicol. Lett.9(4): 327-332|1981|10.1016/0378-4274(81)90005-9
15763|A||Wilde,E.W., R.J. Soracco, L.A. Mayack, R.L. Shealy, T.L. Broadwell, and R.F. Steffen|Comparison of Chlorine and Chlorine Dioxide Toxicity to Fathead Minnows and Bluegill|Water Res.17(10): 1327-1331|1983|10.1016/0043-1354(83)90259-2
15764|A||Wong,P.T.S., Y.K. Chau, O. Kramar, and G.A. Bengert|Structure-Toxicity Relationship of Tin Compounds on Algae|Can. J. Fish. Aquat. Sci.39(3): 483-488|1982|10.1139/f82-066
15765|A||Bharti,A., R.P. Saxena, and G.N. Pandey|Physiological Imbalances Due to Hexavalent Chromium in Fresh Water Algae|Indian J. Environ. Health21(3): 234-243|1979|
15766|A||Burton,M.A.S., and P.J. Peterson|Studies on Zinc Localization in Aquatic Bryophytes|Bryologist82(4): 594-598|1979|10.2307/3241999
15767|A||Coppellotti,O., E. Piccinni, G. Colombetti, and F. Lenci|Responses of Euglena gracilis to Cytochalasins B and D|Boll. Zool.46(1/2): 71-75|1979|10.1080/11250007909440280
15768|A||Robinson,P.W., and R.R. Scott|The Toxicity of Cyromazine to Chironomus zealandicus (Chironomidae) and Deleatidium sp. (Leptophlebiidae)|Pestic. Sci.44(3): 283-292|1995|10.1002/ps.2780440312
15769|A||D'Silva,C., and S.Z. Qasim|Bioaccumulation and Elimination of Copper in the Rock Oyster Crassostrea cucullata|Mar. Biol.52(4): 343-346|1979|10.1007/BF00389075
15770|A||Dawson,M.A., E. Gould, F.P. Thurberg, and A. Calabrese|Physiological Response of Juvenile Striped Bass, Morone saxatilis, to Low Levels of Cadmium and Mercury|Chesapeake Sci.18(4): 353-359|1977|10.2307/1350590
15771|A||Fantin,A.M.B., L. Benedetti, L. Bologonani, and E. Ottaviani|The Effect of Lead Pollution on the Freshwater Gastropod Viviparus viviparus L.: Biochemical and Histochemical Features|Malacologia22(1/2): 19-21|1982|
15772|A||Feroz,M., and M.A.Q. Khan|Fate of 14C-Cis-Chlordane in Goldfish, Carassius auratus (L.)|Bull. Environ. Contam. Toxicol.23(1-2): 64-69|1979|10.1007/BF01769917
15773|A||Haux,C., and A. Larsson|Effects of DDT on Blood Plasma Electrolytes in the Flounder, Platichthys flesus L, in Hypotonic Brackish Water|Ambio8(4): 171-173|1979|
15774|A||Hendricks,J.D., T.P. Putnam, and R.O. Sinnhuber|Effect of Dietary Dieldrin on Aflatoxin B1 Carcinogenesis in Rainbow Trout (Salmo gairdneri)|J. Environ. Pathol. Toxicol.2(3): 719-728|1979|
15775|A||Holdway,D.A., J.B. Sprague, and J.G. Dick|Bioconcentration of Vanadium in American Flagfish Over One Reproductive Cycle|Water Res.17(8): 937-941|1983|10.1016/0043-1354(83)90169-0
15776|A||Hose,J.E., W. Hunt, and R.J. Stoffel|Physiological Responses of a Marine Fish Exposed to Chlorinated Seawater at Concentrations near Its Avoidance Threshold|Mar. Environ. Res.8(4): 241-254|1983|10.1016/0141-1136(83)90034-X
15777|A||Hudson,R.A., C.F. Austerberry, and J.C. Bagshaw|Phthalate Ester Hydrolases and Phthalate Ester Toxicity in Synchronously Developing Larvae of the Brine Shrimp (Artemia)|Life Sci.29(18): 1865-1872|1981|10.1016/0024-3205(81)90517-8
15778|A||Klaunig,J.E., M.M. Lipsky, B.F. Trump, and D.E. Hinton|Biochemical and Ultrastructural Changes in Teleost Liver Following Subacute Exposure to PCB|J. Environ. Pathol. Toxicol.2(4): 953-963|1979|
15779|A||Kligerman,A.D.|Induction of Sister Chromatid Exchanges in the Central Mudminnow Following In Vivo Exposure to Mutagenic Agents|Mutat. Res.64(3): 205-217|1979|10.1016/0165-1161(79)90105-5
15780|A||Kopczynska,E.E.|Chloride Effect on the Growth of Cyclotella meneghiniana Kutz. and Melosira granulata (Ehr.) Ralfs|Pol. Arch. Hydrobiol.26(4): 587-594|1979|
15781|A||Lee,D.R., and A.L.,Jr. Buikema|Molt-Related Sensitivity of Daphnia pulex in Toxicity Testing|J. Fish. Res. Board Can.36(9): 1129-1133|1979|10.1139/f79-157
15782|A||Melancon,M.J., and J.J. Lech|Dose-Effect Relationship for Induction of Hepatic Monooxygenase Activity in Rainbow Trout and Carp by Aroclor 1254|Aquat. Toxicol.4:51-61|1983|10.1016/0166-445X(83)90060-7
15785|A||Rueter,J.G.,Jr.|Effect of Copper on Growth, Silicic Acid Uptake and Soluble Pools of Silicic Acid in the Marine Diatom, Thalassiosira weisflogii (Bacillariophyceae)|J. Phycol.19:101-104|1983|10.1111/j.0022-3646.1983.00101.x
15786|A||Santiago-Fandino,V.J.R.|The Effects of Nickel and Cadmium on the Growth Rate of Hydra littoralis and an Assessment of the Rate of Uptake of 63Ni and 14C by the Same Organism|Water Res.17(8): 917-923|1983|10.1016/0043-1354(83)90166-5
15787|A||Seuge,J., and R. Bluzat|Effect of Lindane Intoxication as a Function of the Hardness of the Water Habitat of Lymnaea stagnalis (Mollusca Pulmonata)|Malacologia22(1/2): 15-18|1982|
15788|A||Slooff,W.|Benthic Macroinvertebrates and Water Quality Assessment: Some Toxicological Considerations|Aquat. Toxicol.4:73-82|1983|10.1016/0166-445X(83)90062-0
15789|A||Steele,C.W.|Effects of Exposure to Sublethal Copper on the Locomotor Behavior of the Sea Catfish, Arius felis|Aquat. Toxicol.4:83-93|1983|10.1016/0166-445X(83)90063-2
15790|A||Sunda,W.G., and J.A.M. Lewis|Effect of Complexation by Natural Organic Ligands on the Toxicity of Copper to a Unicellular Alga, Monochrysis lutheri|Limnol. Oceanogr.23(5): 870-876|1978|10.4319/lo.1978.23.5.0870
15791|A||Sunila,I.|Toxicity of Copper and Cadmium to Mytilus edulis L. (Bivalvia) in Brackish Water|Ann. Zool. Fennici18:213-223|1981|
15792|A||Allan,G.L., and G.B. Maguire|Effect of Sediment on Growth and Acute Ammonia Toxicity for the School Prawn, Metapenaeus macleayi (Haswell)|Aquaculture131(1-2): 59-71|1995|10.1016/0044-8486(94)00315-F
15793|A||Verma,S.R., M. Jain, and R.C. Dalela|A Laboratory Study to Assess Separate and In-Combination Effects of Zinc, Chromium and Nickel to the Fish Mystus vittatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)10(1): 23-29|1982|10.1002/aheh.19820100105
15794|A||Zepp,R.G., and P.F. Schlotzhauer|Influence of Algae on Photolysis Rates of Chemicals in Water|Environ. Sci. Technol.17(8): 462-468|1983|10.1021/es00114a005
15795|A||Argyle,R.L., G.C. Williams, and C.B. Daniel|Dieldrin in the Diet of Channel Catfish (Ictalurus punctatus): Uptake and Effect on Growth|J. Fish. Res. Board Can.32(11): 2197-2204|1975|10.1139/f75-258
15797|A||Brown,D.A., and D.J. McLeay|Effect of Nitrite on Methemoglobin and Total Hemoglobin of Juvenile Rainbow Trout|Prog. Fish-Cult.37(1): 36-38|1975|10.1577/1548-8659(1975)37[36:EONOMA]2.0.CO;2
15800|A||Dubale,M.S., and P. Shah|Histopathological Lesions Induced by Malathion in the Liver of Channa punctatus|Indian J. Exp. Biol.17(7): 693-697|1979|
15803|A||Ishak,M.M., and A.M. Mohamed|Effect of Sublethal Doses of Copper Sulphate and Bayluscide on Survival and Oxygen Consumption of the Snail Biomphalaria alexandrina|Hydrobiologia (Multiple Languages)47(3/4): 499-512|1975|10.1007/BF00039594
15804|A||Jennings,J.R.|The Effect of Cadmium and Lead on the Growth of Two Species of Marine Phytoplankton with Particular Reference to the Development of Tolerance|J. Plankton Res.1(2): 121-136|1979|10.1093/plankt/1.2.121
15805|A||Jennings,J.R., and P.S. Rainbow|Accumulation of Cadmium by Artemia salina|Mar. Biol.51(1): 47-53|1979|10.1007/BF00389030
15806|A||Jennings,J.R., P.S. Rainbow, and A.G. Scott|Studies on the Uptake of Cadmium by the Crab Carcinus maenas in the Laboratory. II. Preliminary Investigation of Cadmium-Binding Proteins|Mar. Biol.50(2): 141-149|1979|10.1007/BF00397819
15807|A||Kanazawa,J., A.R. Isensee, and P.C. Kearney|Distribution of Carbaryl and 3,5-Xylyl Methylcarbamate in an Aquatic Model Ecosystem|J. Agric. Food Chem.23(4): 760-763|1975|10.1021/jf60200a034
15808|A||Kobayashi,K., and H. Akitake|Studies on the Metabolism of Chlorophenols in Fish-II. Turnover of Absorbed PCP in Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(1): 93-99|1975|10.2331/suisan.41.93
15809|A||Kobayashi,K., and H. Akitake|Studies on the Metabolism of Chlorophenols in Fish-IV. Absorption and Excretion of Phenol by Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(12): 1271-1276|1975|10.2331/suisan.41.1271
15810|A||Kobayashi,K., H. Akitake, C. Matsuda, and S. Kimura|Studies on the Metabolism of Chlorophenols in Fish-V. Isolation and Identification of a Conjugated Phenol Excreted by Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(12): 1277-1282|1975|10.2331/suisan.41.1277
15811|AT||Carrow,J.R.|Aerial Spraying Operations Against Blackheaded Budworm on Vancouver Island - 1973|Information Report BC-X-101, Environment Canada, Pacific Forest Research Centre, Victoria, BC:68 p.|1974|
15812|A||McKenney,C.L.J., and J.M. Neff|Individual Effects and Interactions of Salinity, Temperature, and Zinc on Larval Development of the Grass Shrimp Palaemonetes pugio. I.  Survival and Developmental Duration Through Metamorphosis|Mar. Biol.52(2): 177-188|1979|10.1007/BF00390426
15813|A||Meisch,H.U., and I. Schmitt-Beckmann|Influence of Tri-and Hexavalent Chromium on Two Chlorella Strains|Z. Pflanzenphysiol. (Multiple Languages)94(3): 231-239|1979|10.1016/S0044-328X(79)80162-2
15814|A||Moraitou-Apostolopoulou,M., and G. Verriopoulos|Some Effects of Sub-lethal Concentrations of Copper on a Marine Copepod|Mar. Pollut. Bull.10(3): 88-92|1979|10.1016/0025-326X(79)90220-0
15815|A||Ornes,W.H., and R.B. Wildman|Effects of Cadmium (II) on Aquatic Vascular Plants|Trace Subst. Environ. Health13:304-312|1979|
15816|A||Pascoe,D., and J.H. Beattie|Resistance to Cadmium by Pretreated Rainbow Trout Alevins|J. Fish Biol.14(3): 303-308|1979|10.1111/j.1095-8649.1979.tb03523.x
15817|A||Phillips,G.R., and D.R. Buhler|Influence of Dieldrin on the Growth and Body Composition of Fingerling Rainbow Trout (Salmo gairdneri) Fed Oregon Moist Pellets or Tubificid|J. Fish. Res. Board Can.36(1): 77-80|1979|10.1139/f79-010
15819|A||Schulz-Baldes,M., and L. Cheng|Uptake and Loss of Radioactive Cadmium by the Sea-Skater Halobates robustus (Heteroptera: Gerridae)|Mar. Biol.52(3): 253-258|1979|10.1007/BF00398139
15820|A||Shaffi,S.M., M.A. Qayyum, and R. Goyal|Lead intoxication on Tissue Glycogen Content in a Freshwater Catfish Heteropneustes fossilis Bloch|Zool. Jahrb. , Abt. Anat. Ontog. Tiere101(3): 404-406|1979|
15821|A||Penttinen,S., A. Kostamo, and J.V.K. Kukkonen|Combined Effects of Dissolved Organic Material and Water Hardness on Toxicity of Cadmium to Daphnia magna|Environ. Toxicol. Chem.17(12): 2498-2503|1998|10.1002/etc.5620171217
15822|A||Stratton,G.W., and C.T. Corke|The Effect of Mercuric, Cadmium, and Nickel Ion Combinations on a Blue-Green Alga|Chemosphere8(10): 731-740|1979|10.1016/0045-6535(79)90034-1
15824|A||Wagemann,R., B. Graham, and W.L. Lockhart|Studies on Chemical Degredation and Fish Toxicity of a Synthetic Tri-aryl-Phosphate Lubrication Oil, IMOL S-140|Tech. Rep. Fish. Mar. Serv.486:39 p.|1974|
15825|A||Bhagyalakshmi,A., and R. Ramamurthi|Toxicity of Sumithion to the Fresh Water Field Crab Oziotelphusa senex senex (Fabricius)|Comp. Physiol. Ecol.6(3): 191-192|1981|
15826|A||Burkett,R.D.|Uptake and Release of Methylmercury-203 by Cladophora glomerata|J. Phycol.11(1): 55-59|1975|
15828|A||Clubb,R.W., A.R. Gaufin, and J.L. Lords|Synergism Between Dissolved Oxygen and Cadmium Toxicity in Five Species of Aquatic Insects|Environ. Res.9(3): 285-289|1975|10.1016/0013-9351(75)90008-0
15829|A||Courtois,L.A., and R.D. Meyerhoff|Effects of Copper Exposure on Water Balance|Bull. Environ. Contam. Toxicol.14(2): 221-224|1975|10.1007/BF01701318
15830|A||Cunningham,P.A., and M.R. Tripp|Factors Affecting the Accumulation and Removal of Mercury from Tissues of the American Oyster Crassostrea virginica|Mar. Biol.31(4): 311-319|1975|10.1007/BF00392088
15831|A||Delhaye,W., and D. Cornet|Contribution to the Study of the Effect of Copper on Mytilus edulis During Reproductive Period|Comp. Biochem. Physiol. A Comp. Physiol.50(3): 511-518|1975|10.1016/0300-9629(75)90308-4
15832|A||Desaiah,D., L.K. Cutkomp, R.B. Koch, and A. Jarvinen|DDT: Effect of Continuous Exposure on ATPase Activity in Fish, Pimephales promelas|Arch. Environ. Contam. Toxicol.3(2): 132-141|1975|10.1007/BF02220783
15834|A||Fracek,S., and L. Margulis|Colchicine, Nocodazole and Trifluralin: Different Effects of Microtubule Polymerization Inhibitors on the Uptake and Migration of Endosymbiotic Algae in Hydra viridis|Cytobios25(97): 7-16|1979|
15835|A||Fujita,M., and K. Hashizume|Status of Uptake of Mercury by the Fresh Water Diatom, Synedra ulna|Water Res.9:889-894|1975|10.1016/0043-1354(75)90038-X
15836|A||Glooschenko,V., and W. Glooschenko|Effect of Polychlorinated Biphenyl Compounds on Growth of Great Lakes Phytoplankton|Can. J. Bot.53(7): 653-659|1975|10.1139/b75-080
15837|A|OECDG|Haider,G.|The Effect of Sublethal Lead Concentrations on the Chemoreceptors of 2 Fresh Water Fish Species|Hydrobiologia (Multiple Languages)47(2): 291-300|1975|10.1007/BF00039061
15838|A||Hall,H.A., D.C. Eidt, P.E.K. Symons, and D. Banks|Biological Consequences in Streams of Aerial Spraying with Fenitrothion Against Spruce Budworm in New Brunswick|Water Pollut. Res. Can.10:84-88|1975|
15839|A||Hemens,J., R.J. Warwick, and W.D. Oliff|Effect of Extended Exposure to Low Fluoride Concentration on Estuarine Fish and Crustacea|Prog. Water Technol.7(3-4): 579-585|1975|
15840|A||Hessler,A.|The Effects of Lead on Algae. II. Mutagenesis Experiments on Platymonas sabcordiformis (Chlorophyta: Volvocales)|Mutat. Res.31(1): 43-47|1975|10.1016/0165-1161(75)90062-X
15841|A||Khan,H.M., S. Neudorf, and M.A.Q. Khan|Absorption and Elimination of Photodieldrin by Daphnia and Goldfish|Bull. Environ. Contam. Toxicol.13(5): 582-587|1975|10.1007/BF01685183
15842|A||Kramer,H.J., and B. Neidhart|The Behaviour of Mercury in the System Water - Fish|Bull. Environ. Contam. Toxicol.14(6): 699-704|1975|10.1007/BF01685245
15843|A||Leduc,G., and K.K.S. Chan|The Effects of Chronic Cyanide Poisoning on the Tolerance of Rainbow Trout to Varying Salinity|Water Pollut. Res. Can.10:118-125|1975|
15844|A||Mahanty,H.K.|A Study on the Effects of Polychlorinated Biphenyl (Aroclor 1242) on an Aquatic Plant - Spirodela oligorrhiza (Kurz) Helm|Bull. Environ. Contam. Toxicol.14(5): 558-561|1973|10.1007/BF01683371
15845|A||Marking,L.L.|Effect of pH on Toxicity of Antimycin to Fish|J. Fish. Res. Board Can.32(6): 769-773|1975|10.1139/f75-100
15846|A||McIntosh,A.W.|Fate of Copper in Ponds|Pestic. Monit. J.8(4): 225-231|1975|
15847|A||McNicholl,P.G., and W.C. Mackay|Effect of DDT and M.S.222 on Learning a Simple Conditioned Response in Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.32(5): 661-665|1975|10.1139/f75-085
15848|A||McNicholl,P.G., and W.C. Mackay|Effect of DDT on Discriminating Ability of Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.32(6): 785-788|1975|10.1139/f75-102
15849|A||Merlini,M.|Hepatic Storage Alteration of Vitamin B12 by Cadmium in a Freshwater Fish|Bull. Environ. Contam. Toxicol.19(6): 767-771|1978|10.1007/BF01685871
15851|A||Mitchell,A.J., J.M. Grizzle, and J.A. Plumb|Nifurpirinol (Furanace; P-7138) Related Lesions on Channel Catfish Ictalurus punctatus (Rafinesque)|J. Fish Dis.1(1): 115-121|1978|10.1111/j.1365-2761.1978.tb00010.x
15852|A||Moore,M.N., D.M. Lowe, and P.E.M. Fieth|Lysosomal Responses to Experimentally Injected Anthracene in the Digestive Cells of Mytilus edulis|Mar. Biol.48(4): 297-302|1978|10.1007/BF00391632
15853|A||Morel,N.M.L., J.G. Rueter, and F.M.M. Morel|Copper Toxicity to Skeletonema costatum (Bacillariophyceae)|J. Phycol.14(1): 43-48|1978|10.1111/j.1529-8817.1978.tb00629.x
15854|A||Morton,W.D.|The Effects of Sub-Lethal Doses of Valinomycin, Gramicidin D and M-Chlorocarbonylcyanidephenylhydrazone (CCP) on the Heat Resistance of the Goldfish, Carassium auratus L.|Comp. Biochem. Physiol. C Comp. Pharmacol.59(1): 1-4|1978|10.1016/0306-4492(78)90002-3
15855|A||Biggs,D.C., R.G. Rowland, H.B.,Jr. O'Connnors, C.D. Powers, and C.F. Wurster|A Comparison of the Effects of Chlordane and PCB on the Growth, Photosynthethesis and Cell Size of Estuarine Phytoplankton|Environ. Pollut.15(4): 253-263|1978|
15856|A||Eisele,T.A., J.E. Nixon, N.E. Pawlowski, and R.O. Sinnhuber|Effects of Dietary Cyclopropene Fatty Acids on the Mixed Function Oxidase System of the Rainbow Trout (Salmo gairdneri)|J. Environ. Pathol. Toxicol.1(6): 773-778|1978|
15857|A||Emanuelsen,M., J.L. Lincer, and E. Rifkin|The Residue Uptake and Histology of American Oysters (Crassostrea virginica Gmelin) Exposed to Dieldrin|Bull. Environ. Contam. Toxicol.19(1): 121-129|1978|10.1007/BF01685775
15858|A||Harding,L.W.,Jr., and J.H.,Jr. Phillips|Polychlorinated Biphenyl (PCB) Uptake by Marine Phytoplankton|Mar. Biol.49(2): 103-111|1978|10.1007/BF00387109
15860|A||Mosier,A.R.|Inhibition of Photosynthesis and Nitrogen Fixation in Algae by Volatile Nitrogen Bases|J. Environ. Qual.7(2): 237-240|1978|10.2134/jeq1978.00472425000700020017x
15861|A||Mukhopadhyay,P.K., and P.V. Dehadrai|Malathion Toxicity & Impairment of Drug Metabolism in Liver & Gills of the Catfish Clarias batrachus (Linn.)|Indian J. Exp. Biol.16(6): 688-689|1978|
15862|A||Nair,A., Z.A. Ansari, S.N. Harkantra, and A.H. Parulekar|Uptake of Copper by the Mussel Mytilus viridis L.|Indian J. Mar. Sci.6(1): 90-91|1977|
15863|A||Nasreen, and M.A. Khan|Responses of the Ciliate Oxytricha fallax Stein to Lead Acetate|Indian J. Exp. Biol.17(9): 982-984|1979|
15864|A||Nelson,J., and F. Matsumura|Separation and Comparative Toxicity of Toxaphene Components|J. Agric. Food Chem.23(5): 984-990|1975|10.1021/jf60201a011
15865|A||Nestel,H., and J. Budd|Chronic Oral Exposure of Rainbow Trout (Salmo gairdneri) to a Polychlorinated Biphenyl (Aroclor 1254):  Pathological Effects|Can. J. Comp. Med.39(2): 208-215|1975|
15866|A||Neudorf,S., and M.A.Q. Khan|Pick-Up and Metabolism of DDT, Dieldrin and Photodieldrin by a Fresh Water Alga (Ankistrodesmus amalloides) and a Microcrustacean (Daphnia pulex)|Bull. Environ. Contam. Toxicol.13(4): 443-450|1975|10.1007/BF01721850
15867|A||Neves,R.J.|Zooplankton Recolonization of a Lake Cove Treated with Rotenone|Trans. Am. Fish. Soc.104(2): 390-393|1975|10.1577/1548-8659(1975)104<390:ZROALC>2.0.CO;2
15868|A||Overnell,J.|Inhibition of Marine Algal Photosynthesis by Heavy Metals|Mar. Biol.38(4): 335-342|1976|10.1007/BF00391373
15869|A||Pentreath,R.J.|The Accumulation of Cadmium by the Plaice, Pleuronectes platessa L. and the Thornback Ray, Raja clavata L|J. Exp. Mar. Biol. Ecol.30(3): 223-232|1977|10.1016/0022-0981(77)90032-6
15870|A||Pentreath,R.J.|The Accumulation of Mercury by the Thornback Ray, Raja clavata L|J. Exp. Mar. Biol. Ecol.25(2): 131-140|1976|10.1016/0022-0981(76)90014-9
15871|A||Pentreath,R.J.|The Accumulation of Mercury from Food by the Plaice, Pleuronectes platessa L.|J. Exp. Mar. Biol. Ecol.25(1): 51-65|1976|10.1016/0022-0981(76)90075-7
15872|A||Pentreath,R.J.|The Accumulation of Organic Mercury from Sea Water by the Plaice, Pleuronectes platessa L.|J. Exp. Mar. Biol. Ecol.24(2): 121-132|1976|10.1016/0022-0981(76)90098-8
15874|A||Powers,C.D., R.G. Rowland, R.R. Michaels, N.S. Fisher, and C.F. Wurster|The Toxicity of DDE to a Marine Dinoflagellate|Environ. Pollut.9(4): 253-262|1975|
15875|A||Prevot,P., and M.O. Soyer|Cadmium Action on a Free-Living Dinoflagellate:  Prorocentrum micans E.:  Growth, Cadmium Absorption, Cell Modification|C. R. Hebd. Seances Acad. Sci. Ser. D Sci. Nat. (Non-English)287(8): 833-836|1978|
15876|A||Raizada,R.B., and T.P. Singh|Comparison of the Effects of Thiourea with Methallibure, Reserpine & Starvation on Liver, Testis & Seminal Vesicle in a Catfish|Indian J. Exp. Biol.16(12):1297-1299|1978|
15877|A||Rehwoldt,R., and D. Karimian-Teherani|Uptake and Effect of Cadmium on Zebrafish|Bull. Environ. Contam. Toxicol.15(4): 442-446|1976|10.1007/BF01685069
15878|A||Roberts,D.|Differential Uptake of Endosulfan by the Tissues of Mytilus edulis|Bull. Environ. Contam. Toxicol.13(2): 170-176|1975|10.1007/BF01721732
15880|A||Saliba,L.J., and R.M. Krzyz|Acclimation and Tolerance of Artemia salina to Copper Salts|Mar. Biol.38(3): 231-238|1976|10.1007/BF00388936
15881|A||Benjamin,R.B., and S.J. Klaine|Fitness Trade-Offs of Selenastrum carpricornutum Strains Selected for Rapid Growth on Copper-Spiked Solidified Nutrient Medium|Environ. Toxicol. Chem.14(10): 1789-1798|1995|
15882|A||Sastry,K.V., and P.K. Gupta|The Effect of Cadmium on the Digestive System of the Teleost Fish, Heteropneustes fossilis|Environ. Res.19(2): 221-230|1979|10.1016/0013-9351(79)90050-1
15883|A||Sastry,K.V., and S.K. Sharma|Endrin Toxicosis on Few Enzymes in Liver and Kidney of Channa puncatatus (Bloch)|Bull. Environ. Contam. Toxicol.22(1/2): 4-8|1979|10.1007/BF02026898
15884|A||Sastry,K.V., and S.K. Sharma|In Vivo Effect of Endrin on Three Phosphatases in Kidney and Liver of the Fish Ophiocephalus punctatus|Bull. Environ. Contam. Toxicol.21(1-2): 185-189|1979|10.1007/BF01685408
15885|A||Boyden,C.R., H. Watling, and I. Thornton|Effect of Zinc on the Settlement of the Oyster Crassostrea gigas|Mar. Biol.31(3): 227-234|1975|10.1007/BF00387151
15886|A||Davies,R.M., and L.D. Jensen|Zooplankton Entrainment at Three Mid-atlantic Power Plants|J. Water Pollut. Control Fed.47(8): 2130-2142|1975|
15887|A||Desaiah,D., and R.B. Koch|Toxaphene Inhibition of ATPase Activity in Catfish, Ictalurus punctatus, Tissues|Bull. Environ. Contam. Toxicol.13(2): 238-244|1975|10.1007/BF01721745
15888|A||Dethlefsen,V., H. Von Westernhagen, and H. Rosenthal|Cadmium Uptake by Marine Fish Larvae|Helgol. Wiss. Meeresunters.27(4): 396-407|1975|10.1007/BF01611146
15889|A||Dillon,T., and J.W. Anderson|Ionic and Osmotic Adjustments of the Clam Rangia cuneata Gray in Response to Reduced Salinity and Mercury Exposure|Comp. Biochem. Physiol. A Comp. Physiol.62(3): 519-526|1979|10.1016/0300-9629(79)90096-3
15890|A||Fowler,B.A., D.A. Wolfe, and W.F. Hettler|Mercury and Iron Uptake by Cytosomes in Mantle Epithelial Cells of Quahog Clams (Mercenaria mercenaria) Exposed to Mercury|J. Fish. Res. Board Can.32(10): 1767-1775|1975|10.1139/f75-210
15891|A||Glooschenko,V., M. Holdrinet, J.N.A. Lott, and R. Frank|Bioconcentration of Chlordane by the Green Alga Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.21(4-5): 515-520|1979|10.1007/BF01685463
15892|A||Gnassia-Barelli,M., M. Romeo, F. Laumond, and D. Pesando|Experimental Studies on the Relationship Between Natural Copper Complexes and Their Toxicity to Phytoplankton|Mar. Biol.47(1): 15-19|1978|10.1007/BF00397014
15893|A||Hartwick,E.B., R.S.S. Wu, and D.B. Parker|Effects of a Crude Oil and an Oil Dispersant (Corexit 9527) on Populations of the Littleneck Clam (Protothaca staminea)|Mar. Environ. Res.6(4): 291-306|1982|10.1016/0141-1136(82)90043-5
15894|A||Hunsinger,R.N., J.E. Chambers, and J.D. Yarbrough|Uptake and Disposition of Endrin in Insecticide-Susceptible and -Resistant Mosquitofish (Gambusia affinis)|J. Agric. Food Chem.27(4): 737-740|1979|10.1021/jf60224a008
15895|A||Johansson-Sjobeck,M.L., and A. Larsson|Effects of Inorganic Lead on delta-Aminolevulinic Acid Dehydratase Activity and Hematological Variables in the Rainbow Trout, Salmo gairdnerii|Arch. Environ. Contam. Toxicol.8(4): 419-431|1979|10.1007/BF01056348
15896|A||Katz,B.|Relationship of the Physiology of Aquatic Organisms to the Lethality of Toxicants:  A Broad Overview with Emphasis on Membrane Permeability|ASTM Spec. Tech. Publ.:62-76|1979|
15897|A||Kobayashi,K., and H. Akitake|Studies on the Metabolism of Chlorophenols in Fish-I.  Absorption and Excretion of PCP by Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)41(1): 87-92|1975|10.2331/suisan.41.87
15898|A||Loeb,H.A., and W.H. Kelly|Acute Oral Toxicity of 1,496 Chemicals Force-Fed to Carp|U.S.Fish.Wildl.Serv., Sp.Sci.Rep.-Fish.No.471, Washington, D.C.:124 p.|1963|
15899|A||Manley,A.R., and J. Davenport|Behavioural Responses of Some Marine Bivalves to Heightened Seawater Copper Concentrations|Bull. Environ. Contam. Toxicol.22(6): 739-744|1979|10.1007/BF02027017
15900|A||Masingale,R.E., and C.G. Skinner|Inhibitory Properties of N-Nicotinyl-N' (Substituted) Urea Analogs of NAD|Arch. Biochem. Biophys.169(2): 443-448|1975|10.1016/0003-9861(75)90186-1
15901|A||McLeay,D.J.|Sensitivity of Blood Cell Counts in Juvenile Coho Salmon (Oncorhynchus kisutch) to Stressors Including Sublethal Concentrations of Pulpmill Effluent and Zinc|J. Fish. Res. Board Can.32(12): 2357-2364|1975|10.1139/f75-271
15902|A||Schmieder,P., D. Lothenbach, J. Tietge, R. Erickson, and R. Johnson|(3H)-2,3,7,8-TCDD Uptake and Elimination Kinetics of Medaka (Oryzias latipes)|Environ. Toxicol. Chem.14(10): 1735-1743|1995|
15903|A||Muzykiewicz,J.|"Effect of Organophosphate Insecticide ""Owadofos Plynny-50"" (Fenitrothion) on Bioelectric Changes in Cardiac Muscle of Eel, Anguilla anguilla L."|Acta Ichthyol. Piscat.8(2): 77-89|1978|10.3750/AIP1978.08.2.05
15904|A||Schlueter,M.A., S.I. Guttman, J.T. Oris, and A.J. Bailer|Survival of Copper-Exposed Juvenile Fathead Minnows (Pimephales promelas) Differs Among Allozyme Genotypes|Environ. Toxicol. Chem.14(10): 1727-1734|1995|
15905|A||Ozoh,P.T.E.|Malformations and Inhibitory Tendencies Induced to Brachydanio rerio (Hamilton-Buchanan) Eggs and Larvae due to Exposures in Low Concentrations of Copper and Lead Ions|Bull. Environ. Contam. Toxicol.21(4/5): 668-675|1979|10.1007/BF01685487
15906|A||Paffenhofer,G.A., and S.C. Knowles|Laboratory Experiments on Feeding, Growth, and Fecundity of and Effects of Cadmium on Pseudodiaptomus|Bull. Mar. Sci.28(3): 574-580|1978|
15907|A||Pentreath,R.J.|Some Further Studies on the Accumulation and Retention of 65Zn and 54Mn by the Plaice, Pleuronectes platessa L|J. Exp. Mar. Biol. Ecol.21(2): 179-189|1976|10.1016/0022-0981(76)90038-1
15908|A||Howe,G.E., L.L. Marking, T.D. Bills, and T.M. Schreier|Efficacy and Toxicity of Formalin Solutions Containing Paraformaldehyde for Fish and Egg Treatments|Prog. Fish-Cult.57(2): 147-152|1995|10.1577/1548-8640(1995)057<0147:EATOFS>2.3.CO;2
15909|A||Picer,M., N. Picer, F. Krsinic, and V. Sipos|Investigation on the Distribution of DDT and Aroclor 1254 in Laboratory-Grown Marine Phytoplankton|Bull. Environ. Contam. Toxicol.21(6): 743-748|1979|10.1007/BF01685498
15910|AT||Podowski,A.A., B.C. Banerjee, M. Feroz, M.A. Dudek, R.L. Willey, and M.A.Q. Khan|Photolysis of Heptachlor and cis-Chlordane and Toxicity of Their Photoisomers to Animals|Arch. Environ. Contam. Toxicol.8(5): 509-518|1979|10.1007/BF01055032
15911|A||Qayyum,M.A., R. Rushdi, and R. Rai|Effect of Iron intoxication on Glycogen Content in a Fresh Water Teleost, Clarias batrachus (Linn)|Indian J. Zool.7(2): 7-8|1979|
15912|A||Rajendran,A., S. Vijayaraghavan, and M.V.M. Wafar|Effect of Some Metal Ions on the Photosynthesis of Microplankton & Nannoplankton|Indian J. Mar. Sci.7(2): 99-102|1978|
15913|A||Rao,D.S., and A.B. Saxena|Acute Toxicity of Mercury, Zinc, Lead, Cadmium, Manganese to the Chironomus sp.|Int. J. Environ. Stud.16(3/4): 225-226|1981|10.1080/00207238108709874
15914|A||Roberts,D.|Sub-lethal Effects of Chlorinated Hydrocarbons on Bivalves|Mar. Pollut. Bull.6(2): 20-24|1975|10.1016/0025-326X(75)90230-1
15915|AT||Birge,W.J., J.J. Just, A.G. Westerman, J.A. Black, and O.W. Roberts|Sensitivity of Vertebrate Embryos to Heavy Metals as a Criterion of Water Quality. Phase II. Bioassay Procedures Using Developmental Stages as Test Organisms|Res. Rep. Univ. Ky. Water Resour. Res. Inst.84:36 p.|1975|
15917|A||Burke,W.D., and D.E. Ferguson|Toxicities of Four Insecticides to Resistant and Susceptible Mosquitofish in Static and Flowing Solutions|Mosq. News29(1): 96-101|1969|
15918|A||Dave,G.|Influence of Diet and Starvation on Toxicity of Endrin to Fathead Minnows (Pimephales promelas)|EPA-600/3-81-048, U.S.EPA, Duluth, MN:85 p.|1981|
15919|A||Engel,D.W., and B.A. Fowler|Factors Influencing Cadmium Accumulation and Its Toxicity to Marine Organisms|Environ. Health Perspect.28:81-88|1979|10.1289/ehp.792881
15920|A||Hart,B.A., and P.W. Cook|The Effect of Cadmium on Freshwater Phytoplankton|Water Resour.Res.Center, Vermont Univ., Burlington, VT:114 p.|1975|
15921|A||Kamatani,A., M. Takahashi, and Y. Morita|Zinc Uptake in Marine Diatoms|Nippon Suisan Gakkaishi (Multiple Languages)45(6): 715-719|1979|10.2331/suisan.45.715
15922|A||Pandey,K., and J.P. Shukla|Deleterious Effects of Arsenic on the Growth of Fingerlings of a Freshwater Fish, Colisa fasciatus (Bl. & Sch.)|Acta Pharmacol. Toxicol.50(5): 398-400|1982|10.1111/j.1600-0773.1982.tb00994.x
15923|A||Qureshi,A.A., K.W. Flood, S.R. Thompson, S.M. Janhurst, C.S. Inniss, and D.A. Rokosh|Comparison of a Luminescent Bacterial Test with Other Bioassays for Determining Toxicity of Pure Compounds and Complex Effluents|ASTM Spec. Tech. Publ.:179-195|1982|
15926|A||Saliba,L.J., and R.M. Krzyz|Effect of Heavy Metals on Hatching of Brine-Shrimp Eggs|Mar. Pollut. Bull.7(10): 181-182|1976|10.1016/0025-326X(76)90036-9
15928|A||Sarot,D.A., and A. Perlmutter|The Toxicity of Zinc to the Immune Response of the Zebrafish, Brachydanio rerio, Injected with Viral and Bacterial Antigens|Trans. Am. Fish. Soc.105(3): 456-459|1976|10.1577/1548-8659(1976)105<456:TTOZTT>2.0.CO;2
15929|A||Sastry,K.V., and S.K. Sharma|The Effect of Endrin on the Histopathological Changes in the Liver of Channa punctatus|Bull. Environ. Contam. Toxicol.20(5): 674-677|1978|10.1007/BF01683584
15930|A||Sastry,K.V., and S.K. Sharma|The Effect of In Vivo Exposure of Endrin on the Activities of Acid, Alkaline and Glucose-6-Phosphatases in Liver and Kidney of|Bull. Environ. Contam. Toxicol.20(4): 456-460|1978|10.1007/BF01683549
15931|A||Scales,E.H., and J.D. Yarbrough|Endrin Uptake in Insecticide-Resistant and Susceptible Mosquitofish (Gambusia affinis)|J. Agric. Food Chem.23(6): 1076-1079|1975|10.1021/jf60202a002
15932|A||Da Costa,E.G., and L.R. Curtis|Bioaccumulation of Dietary 2,2',4,4',5,5'-Hexachlorobiphenyl and Induction of Hepatic Arylhydrocarbon Hydroxylase in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.14(10): 1711-1717|1995|
15933|A||Bresler,V., and V. Yanko|Acute Toxicity of Heavy Metals for Benthic Epiphytic Foraminifera Pararotalia spinigera (Le Calvez) and Influence of Seaweed-Derived DOC|Environ. Toxicol. Chem.14(10): 1687-1695|1995|
15934|A||Schober,U., and W. Lampert|Effects of Sublethal Concentrations of a Herbicide on Daphnia|Naturwissenschaften63(5): 241-242|1976|10.1007/BF00610913
15935|A||Schreck,C.B., and H.W. Lorz|Stress Response of Coho Salmon (Oncorhynchus kisutch) Elicited by Cadmium and Copper and Potential Use of Cortisol as an Indicator of Stress|J. Fish. Res. Board Can.35(8): 1124-1129|1978|10.1139/f78-177
15936|A||Schroll,H.|Determination of the Absorption of Cr+6 and Cr+3 in an Algal Culture of Chlorella pyrenoidosa Using 51Cr|Bull. Environ. Contam. Toxicol.20(6): 721-724|1978|10.1007/BF01683591
15937|A||Schultz,T.W., and J.R. Kennedy|Cytotoxic Effects of the Herbicide 3-Amino-1,2,4-Triazole on Daphnia pulex (Crustacea:Cladocera)|Biol. Bull.151(2): 370-385|1976|10.2307/1540669
15938|A||Schwab,M., J. Haas, S. Abdo, M.R. Ahuja, G. Kollinger, A. Anders, and F. Anders|Genetic Basis of Susceptibility for Development of Neoplasms Following Treatment with N-Methyl-N-Nitrosourea (MNU) or X-Rays in the Platyfish|Experientia34(6): 780-782|1978|10.1007/BF01947324
15940|A||Shaffi,S.A.|Effect of Zinc Intoxication on Fresh Water Fishes II.  Accumulation of Metabolic Products|Toxicol. Lett.3(6): 319-323|1979|10.1016/0378-4274(79)90141-3
15941|A||Shaffi,S.A.|Lead Toxicity: Biochemical and Physiological Imbalance in Nine Freshwater Teleosts|Toxicol. Lett.4(3): 155-161|1979|10.1016/0378-4274(79)90126-7
15942|A||Shick,J.M.|Physiological and Behavioral Responses to Hypoxia and Hydrogen Sulfide in the Infaunal Asteroid Ctenodiscus crispatus|Mar. Biol.37(3): 279-289|1976|10.1007/BF00387613
15943|A||Strange,R.J., and C.B. Schreck|Anesthetic and Handling Stress on Survival and Cortisol Concentration in Yearling Chinook Salmon (Oncorhynchus tshawytscha)|J. Fish. Res. Board Can.35(3): 345-349|1978|10.1139/f78-061
15944|A||Stratton,G.W., and C.T. Corke|The Effect of Cadmium Ion on the Growth, Photosynthesis, and Nitrogenase Activity of Anabaena inaequalis|Chemosphere8(5): 277-282|1979|10.1016/0045-6535(79)90109-7
15945|A||Bulkley,R.V., R.L. Kellogg, and L.R. Shannon|Size-Related Factors Associated with Dieldrin Concentrations in Muscle Tissue of Channel Catfish Ictalurus punctatus|Trans. Am. Fish. Soc.105(2): 301-307|1976|10.1577/1548-8659(1976)105<301:SFAWDC>2.0.CO;2
15946|A||Mangi,J., K. Schmidt, J. Pankow, L. Gaines, and P. Turner|Effects of Chromium on Some Aquatic Plants|Environ. Pollut.16(4): 285-291|1978|
15947|A||Collvin,L.|Effects of Copper on Growth and Starvation in Perch, Perca fluviatilis L.|J. Fish Biol.27(6): 757-764|1985|10.1111/j.1095-8649.1985.tb03218.x
15948|A||Murachi,S., K. Nanba, and Y. Takeuchi|Relationship Between the Concentration of Cyanide Ion Detected in Carp and that in Environmental Water|J. Fac. Fish. Anim. Husb. Hiroshima Univ.17(2): 199-206|1978|
15949|A||Sharon,M., and E.G. Bellinger|Effect of Relatively High Concentrations of Copper, Iron, Potassium and Magnesium on the Growth of Scenedesmus dimorphus in Pure Cultures|Phykos15(1/2): 11-18|1976|
15950|A||Shibata,T.|Experimental Studies on the Dynamic Aspects of BHC and PCB In Vivo|Jpn. J. Hyg. (Non-English)32(6): 736-746|1978|
15951|A||Shioi,Y., H. Tamai, and T. Sasa|Inhibition of Photosystem II in the Green Alga Ankistrodesmus falcatus by Copper|Physiol. Plant. (Multiple Languages)44(4): 434-438|1978|10.1111/j.1399-3054.1978.tb01651.x
15952|A||Singh,S.R., and B.R. Singh|Changes in O2 Consumption of a Siluroid Fish (Mystus vittatus) Put to Different Concentrations of Some Heavy Metal Salts|Indian J. Exp. Biol.17(3): 274-276|1979|
15954|A||Spehar,R.L., E.N. Leonard, and D.L. De Foe|Chronic Effects of Cadmium and Zinc Mixtures on Flagfish (Jordanella floridae)|Trans. Am. Fish. Soc.107(2): 354-360|1978|10.1577/1548-8659(1978)107<354:CEOCAZ>2.0.CO;2
15955|A||Stebbing,A.R.D., and A.J. Pomroy|A Sublethal Technique for Assessing the Effects of Contaminants Using Hydra littoralis|Water Res.12(8): 631-635|1978|10.1016/0043-1354(78)90144-6
15956|A||Strange,J.R., D.J. Fletcher, and P.M. Allred|Cardiac and Opercular Responses in Channel Catfish (Ictalurus punctatus) Exposed to high Levels of Phosphate|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control13(7): 501-515|1978|
15957|A||Sugiura,K., N. Ito, N. Matsumoto, Y. Mihara, K. Murata, Y. Tsukakoshi, and M. Goto|"Accumulation of Polychlorinated Biphenyls and Polybrominated Biphenyls in Fish: Limitation of ""Correlation Between Partition Coefficients and Accumulation Factors"|Chemosphere7(9): 731-736|1978|10.1016/0045-6535(78)90111-X
15958|A||Sugiura,K., S. Sato, M. Goto, and Y. Kurihara|Effects of beta-BHC on Aquatic Microcosm|Chemosphere5(1): 39-44|1976|10.1016/0045-6535(76)90054-0
15959|A||Sullivan,J.F., B.R. Murphy, G.J. Atchison, and A.W. McIntosh|Time Dependent Cadmium Uptake by Fathead Minnows (Pimephales promelas) During Field and Laboratory Exposure|Hydrobiologia (Multiple Languages)57(1): 65-68|1978|10.1007/BF00018629
15960|A||Sullivan,J.T., and T.C. Cheng|Comparative Mortality Studies on Biomphalaria glabrata (Mollusca:  Pulmonata) Exposed to Copper Internally and Externally|J. Invertebr. Pathol.28(2): 255-257|1976|10.1016/0022-2011(76)90131-2
15961|A||Tabaru,Y., H. Matsunaga, and A. Sato|Chemical Control of the Chironomid Larvae (Diptera: Chironomidae) in the Polluted River in Reference to the Controlled Area and the Mortality of the|Eisei Dobutsu29(2): 87-91|1978|10.7601/mez.29.87
15962|A||Thomas,J.D., M. Powles, and R. Lodge|The Chemical Ecology of Biomphalaria glabrata: The Effects of Ammonia on the Growth Rate of Juvenile Snails|Biol. Bull.151(2): 386-397|1976|10.2307/1540670
15963|A||Tompkins,T., and D.W. Blinn|The Effect of Mercury on the Growth Rate of Fragilaria crotonensis Kitton and Asterionella formosa Hass|Hydrobiologia (Multiple Languages)49(2): 111-116|1976|10.1007/BF00772680
15964|A||Tucker,C.S., and C.E. Boyd|Consequences of Periodic Applications of Copper Sulfate and Simazine for Phytoplankton Control in Catfish Ponds|Trans. Am. Fish. Soc.107(2): 316-320|1978|10.1577/1548-8659(1978)107<316:COPAOC>2.0.CO;2
15965|A||Updegraff,K.F., and J.L. Sykora|Avoidance of Lime-Neutralized Iron Hydroxide Solutions by Coho Salmon in the Laboratory|Environ. Sci. Technol.10(1): 51-54|1976|10.1021/es60112a001
15966|A||Verma,S.R., A.K. Gupta, S.K. Bansal, and R.C. Dalela|In Vitro Disruption of ATP Dependent Active Transport Following Treatment with Aldrin and its Epoxy Analog Dieldrin in a Fresh Water Teleost|Toxicology11(2): 193-201|1978|10.1016/S0300-483X(78)91189-7
15967|A||Vernberg,F.J., M.S. Guram, and A.M. Savory|Metabolic Response to Thermal Changes of the Adult Fiddler Crab Uca pugilator and the Effect of PCBs|Mar. Biol.48(2): 135-141|1978|10.1007/BF00395013
15968|A||Vibhute,Y.B.|Toxicity to Fish of Some Halogeno-Flavones & Flavanones|Indian J. Exp. Biol.14(4): 489-490|1976|
15969|A||Waiwood,K.G., and F.W.H. Beamish|Effects of Copper, pH and Hardness on the Critical Swimming Performance of Rainbow Trout (Salmo gairdneri Richardson)|Water Res.12(8): 611-619|1978|10.1016/0043-1354(78)90141-0
15970|A||Wegner,G.S., and R.W. Hamilton|Effect of Calcium Sulfide on Chironomus riparius (Diptera:  Chironomidae) Egg Hatchability|Environ. Entomol.5(2): 256-258|1976|10.1093/ee/5.2.256
15971|A||Weis,J.S.|Interactions of Methylmercury, Cadmium, and Salinity of Regeneration in the Fiddler Crabs Uca pugilator, U. pugnax and U. minax|Mar. Biol.49(2): 119-124|1978|10.1007/BF00387111
15972|A||Woolery,M.L., and R.A. Lewin|The Effects of Lead on Algae IV . Effects of Pb on Respiration and Photosynthesis of Phaeodactylum tricornutum (Bacillariophyceae)|Water Air Soil Pollut.6(1): 25-31|1976|10.1007/BF00158712
15975|A||Arthur,J.W., J.A. Zischke, K.N. Allen, and R.O. Hermanutz|Effects of Diazinon on Macroinvertebrates and Insect Emergence in Outdoor Experimental Channels|Aquat. Toxicol.4(4): 283-302|1983|10.1016/0166-445X(83)90023-1
15977|A||Gilderhus,P.A., J.B. Sills, and J.L. Allen|Residues of 3-Trifluoromethyl-4-Nitrophenol (TFM) in a Stream Ecosystem After Treatment for Control of Sea Lampreys|Invest.Fish Control No.66, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:7 p.|1975|
15978|A||Hilmy,A.M., H.K. Badawi, and M.B. Shabana|Physiological Mechanism of Toxic Action of DDT and Endrin in 2 Euryhaline Freshwater Fish Anguilla vulgaris and Mugil cephalus|Comp. Biochem. Physiol. C Comp. Pharmacol.76(1): 173-179|1983|10.1016/0742-8413(83)90060-9
15979|A||Huckins,J.N., and J.D. Petty|Dynamics of Purified and Industrial Pentachlorophenol in Fathead Minnows|Arch. Environ. Contam. Toxicol.12(6): 667-671|1983|10.1007/BF01060749
15980|A||Ozretich,R.J., R.C. Randall, B.L. Boese, W.P. Schroeder, and J.R. Smith|Acute Toxicity of Butylbenzyl Phthalate to Shiner Perch (Cymatogaster aggregata)|Arch. Environ. Contam. Toxicol.12(6): 655-660|1983|10.1007/BF01060747
15981|A|OECDG|Richter,J.E., S.F. Peterson, and C.F. Kleiner|Acute and Chronic Toxicity of Some Chlorinated Benzenes, Chlorinated Ethanes, and Tetrachloroethylene to Daphnia magna|Arch. Environ. Contam. Toxicol.12(6): 679-684|1983|10.1007/BF01060751
15982|A||Guerin,C., N. Giani, and M. Sire|A Study of the Sensitivity of Enchytraeus variatus (Oligochaeta, Enchytraeidae) to Certain Salts of Heavy Metals in Relation to Its Use as a Test Organism|Ann. Limnol. (Multiple Languages)30(3): 167-178|1994|10.1051/limn/1994013
15983|A||Rombough,P.J., and E.T. Garside|The Influence of the Zona Radiata on the Toxicity and Uptake of Cadmium in Embryos of Atlantic Salmon (Salmo salar)|Can. J. Zool.61(10): 2338-2343|1983|10.1139/z83-309
15984|A||Shaffi,S.A.|Cadmium intoxication on Tissue Glycogen Content in Three Fresh Water Teleosts|Curr. Sci. (Bangalore)47(22): 868-870|1978|
15985|A||Sharma,S.K., and K.V. Sastry|Alteration in Enzyme Activities in Liver and Kidney of Channa punctatus Exposed to Endrin|Bull. Environ. Contam. Toxicol.22(1-2): 17-20|1979|10.1007/BF02026900
15986|A||Sheridan,R.P.|Toxicity of Bisulfite to Photosynthesis and Respiration|J. Phycol.14(3): 279-281|1978|10.1111/j.1529-8817.1978.tb00299.x
15987|A||Sivarajah,K., C.S. Franklin, and W.P. Williams|Some Histopathological Effects of Aroclor 1254 on the Liver and Gonads of Rainbow Trout, Salmo gairdneri and Carp, Cyprinus carpio|J. Fish Biol.13(4): 411-414|1978|10.1111/j.1095-8649.1978.tb03448.x
15988|A||Sivarajah,K., C.S. Franklin, and W.P. Williams|The Effects of Polychlorinated Biphenyls on Plasma Steroid Levels and Hepatic Microsomal Enzymes in Fish|J. Fish Biol.13(4): 401-409|1978|10.1111/j.1095-8649.1978.tb03447.x
15989|A||Solbe,J.F.D., and V.A. Flook|Studies on the Toxicity of Zinc Sulphate and of Cadmium Sulphate to Stone Loach Noemacheilus barbatulus (L.) in Hard Water|J. Fish Biol.7(5): 631-637|1975|10.1111/j.1095-8649.1975.tb04636.x
15990|A||Stern,M.S., D.H. Stern, and L.L. Ray|Citric Acid Enhancement of Copper Sulfate Toxicity to Blue-Green Algae and Other Nuisance Organisms|Missouri Water Resources Research Center, University of Missouri, Columbia:84 p.|1978|
15991|A||Stratton,G.W., and C.T. Corke|Toxicity of the Insecticide Permethrin and Some Degradation Products Towards Algae and Cyanobacteria|Environ. Pollut. A.29(1): 71-80|1982|10.1016/0143-1471(82)90055-1
15992|A||Urey,J.C., J.C. Kricher, and J.M. Boylan|Bioconcentration of Four Pure PCB Isomers by Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.16(1): 81-85|1976|10.1007/BF01753109
15993|A||Verma,S.R., S.K. Bansal, A.K. Gupta, and R.C. Dalela|In Vivo Effect on ATPase in Certain Tissues of Labeo rohita and Saccobranchus fossilis, Following Chronic Chlordane intoxication|Bull. Environ. Contam. Toxicol.20(6): 769-777|1978|10.1007/BF01683598
15994|A||Waggoner III,J.P., and M.G. Zeeman|DDT: Short Term Effects on Osmoregulation in Black Surfperch (Embiotoca jacksoni)|Bull. Environ. Contam. Toxicol.13(3): 297-300|1975|10.1007/BF01685339
15995|A||Watkins,J., and J.D. Yarbrough|Aldrin and Dieldrin Uptake in Insecticide-Resistant and Susceptible Mosquitofish (Gambusia affinis)|Bull. Environ. Contam. Toxicol.14(6): 731-737|1975|10.1007/BF01685250
15996|A||Watson,T.A., and B.A. McKeown|The Activity of delta 5-3 beta Hydroxysteriod Dehydrogenase Enzyme in the Interrenal Tissue of Rainbow Trout (Salmo gairdneri Richardson)|Bull. Environ. Contam. Toxicol.16(2): 173-181|1976|10.1007/BF01685224
15997|A||Weis,J.S., and P. Weis|Optical Malformations Induced by Insecticides in Embryos of the Atlantic Silverside, Menidia menidia|Fish. Bull.74(1): 208-211|1976|
15998|A||Weis,P., and J.S. Weis|Abnormal Locomotion Associated with Skeletal Malformations in the Sheepshead Minnow, Cyprinodon variegatus, Exposed to Malathion|Environ. Res.12(2): 196-200|1976|10.1016/0013-9351(76)90024-4
15999|A||Weis,P., and J.S. Weis|Effects of Heavy Metals on Fin Regeneration in the Killifish, Fundulus heteroclitus|Bull. Environ. Contam. Toxicol.16(2): 197-202|1976|10.1007/BF01685227
16000|A||Verriopoulos,G., and M. Moraitou-Apostolopoulou|Comparative Toxicity of Oil (Tunisian Crude Oil, Zarzaitine Type) and Oil Dispersant (Finasol OSR-2) and Oil/Dispersant Mixture on Artemia salina|In: Workshop on Pollution of the Mediterranean, Dec.2-4, 1982, Cannes, France:743-747|1982|
16001|A||Pavicic,J., and B. Pihlar|Toxic Effects of Cyanides (Including Complex Metal Cyanides) on Marine Organisms|In: Workshop on Pollution of the Mediterranean, Dec.2-4, 1982, Cannes, France:817-819|1982|
16002|A||Zutic,V., B. Cosovic, D. Vilicic, T. Novakovic, and N. Batina|On Heavy Metal Tolerance of Marine Phytoplankton.  Effect of Cadmium on Dunaliella tertiolecta|In: Workshop on Pollution of the Mediterranean, Dec.2-4, 1982, Cannes, France:699-705|1982|
16004|A||Goldman,J.C., C.D. Taylor, and P.M. Gilbert|Nonlinear Time-Course Uptake of Carbon and Ammonium by Marine Phytoplankton|Mar. Ecol. Prog. Ser.6(2): 137-148|1981|10.3354/meps006137
16005|A||Hessen,D.O., T. Kallqvist, M.I. Abdel-Hamid, and D. Berge|Effects of Pesticides on Different Zooplankton Taxa in Mesocosm Experiments|Norw. J. Agric. Sci. Suppl.13:153-161|1994|
16006|A||Kallqvist,T., M.I. Abdel-Hamid, and D. Berge|Effects of Agricultural Pesticides on Freshwater Plankton Communities in Enclosures|Norw. J. Agric. Sci. Suppl.13:133-152|1994|
16007|A||Yadava,N.K., S.S. Pahuja, and A. Bhatnagar|Toxicity of Herbicides on Fingerlings (Labeo rohita Hamilton) and Weeds in Pond|In: Proceedings of an Indian Society of Weed Science International Symposium, Hisar, India3:250-253|1993|
16008|A||Raju,R.A., and M.N. Reddy|Chemical Control of Swamp Morning Glory (Ipomoea aquatica Forsk) in Drainage Water-Bodies|Indian J. Weed Sci.3:247-249|1993|
16009|AT||Egaas,E., J.U. Skaare, N.O. Svendsen, and M. Sandvik|Pesticide Induced Biochemical Changes in Terrestrial Insects, Benthos and Fish as Markers of Contamination of Soils and Waters|Norw. J. Agric. Sci. Suppl.13:89-116|1994|
16010|A||Kallqvist,T., and R. Romstad|Effects of Agricultural Pesticides on Planktonic Algae and Cyanobacteria -- Examples of Interspecies Sensitivity Variations|Norw. J. Agric. Sci. Suppl.13:117-131|1994|
16011|A||Whitsel,R.H., C.A.,Jr. Vickery, C.J. Rogers, and C.D. Grant|Studies on the Biology and Control of Chironomid Midges in the San Francisco Bay Region|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.:83-94|1963|
16013|A||Cognetti-Varriale,A.M., S. Cecchini, and M. Saroglia|Therapeutic Trials Against the Diplectanum aequans (Monogenea), Parasite of Seabass (Dicentrarchus labrax, L.) in Intensive Farming|Bull. Eur. Assoc. Fish Pathol.12(6): 204-206|1992|
16014|A||Takamura,K.|Chironomids Fail to Emerge from LAS-Contaminated Water|Ecotoxicology4:245-257|1995|10.1007/BF00116343
16015|A||Knittel,M.D.|Heavy Metal Stress and Increased Susceptibility of Steelhead Trout (Salmo gairdneri) to Yersinia ruckeri Infection|ASTM Spec. Tech. Publ.:321-327|1980|
16016|A||Marshall,J.S., and D.L. Mellinger|An In Situ Experimental Method for Toxicological Studies on Natural Plankton Communities|ASTM Spec. Tech. Publ.:27-39|1980|
16018|A||Konno,Y., S. Hatakeyama, Y. Sugaya, and S. Fukushima|A Fenitrothion-Insensitive Mechanism of the Caddisfly, Cheumatopsyche brevilineata (Trichoptera: Hydropsychidae), a Dominant Species in Pesticide|Appl. Entomol. Zool.29(1): 113-116|1994|10.1303/aez.29.113
16019|A||Hatakeyama,S., S. Fukushima, F. Kasai, and H. Shiraishi|Assessment of Herbicide Effects on Algal Production in the Kokai River (Japan) Using a Model Stream and Selenastrum Bioassay|Ecotoxicology3(2): 143-156|1994|10.1007/BF00143411
16020|A||Vasuki,V.|Impact of an Insect Growth Regulator, Hexaflumuron, on Romanomermis iyengari, a Parasitic Nematode of Mosquito|Int. Pest Control36(2): 40-41|1994|
16022|A||Dutta,H.M., A. Nath, S. Adhikari, P.K. Roy, N.K. Singh, and J.S.D. Munshi|Sublethal Malathion Induced Changes in the Ovary of an Air-Breathing Fish, Heteropneustes fossilis: A Histological Study|Hydrobiologia (Multiple Languages)294(3): 215-218|1994|10.1007/BF00021294
16023|A||Schulz,R., and M. Liess|Chronic Effects of Low Insecticide Concentrations on Freshwater Caddisfly Larvae|Hydrobiologia (Multiple Languages)299(2): 103-113|1995|10.1007/BF00017562
16024|A||Nalewajko,C.|Effects of Cadmium and Metal-Contaminated Sediments on Photosynthesis, Heterotrophy, and Phosphate Uptake in Mackenzie River Delta Phytoplankton|Chemosphere30(7): 1401-1414|1995|10.1016/0045-6535(95)00017-3
16025|A||Anderson,B.S., J.W. Hunt, W.J. Piekarski, B.M. Phillips, M.A. Englund, R.S. Tjeerdema, and J.D. Goetzl|Influence of Salinity on Copper and Azide Toxicity to Larval Topsmelt Atherinops affinis (Ayres)|Arch. Environ. Contam. Toxicol.29(3): 366-372|1995|10.1007/BF00212502
16026|A||Gerhardt,A.|Joint and Single Toxicity of Cd and Fe Related to Metal Uptake in the Mayfly Leptophlebia marginata (L.) (Insecta)|Hydrobiologia (Multiple Languages)306(3): 229-240|1995|10.1007/BF00017693
16027|A||Genter,R.B.|Benthic Algal Populations Respond to Aluminum, Acid, and Aluminum-Acid Mixtures in Artificial Streams|Hydrobiologia (Multiple Languages)306(1): 7-19|1995|10.1007/BF00007854
16028|A||Serra,R., E. Carpene, A.C. Marcantonio, and G. Isani|Cadmium Accumulation and Cd-Binding Proteins in the Bivalve Scapharca inaequivalvis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(2): 165-174|1995|
16029|A||Pelgrom,S.M.G.J., R.A.C. Lock, P.H.M. Balm, and S.E. Wendelaar Bonga|Effects of Combined Waterborne Cd and Cu Exposures on Ionic Composition and Plasma Cortisol in Tilapia, Oreochromis mossambicus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(2): 227-235|1995|
16030|A||Youson,J.H., J.A. Holmes, and J.F. Leatherland|Serum Concentrations of Thyroid Hormones in KClO4-Treated Larval Sea Lampreys (Petromyzon marinus L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(2): 265-270|1995|
16031|A||Espiritu,E.Q., C.R. Janssen, and G. Persoone|Cyst-Based Toxicity Tests.  VII.  Evaluation of the 1-h Enzymatic Inhibition Test (Fluotox) with Artemia nauplii|Environ. Toxicol. Water Qual.10:25-34|1995|10.1002/tox.2530100105
16032|A||Arensberg,P., V.H. Hemmingsen, and N. Nyholm|A Miniscale Algal Toxicity Test|Chemosphere30(11): 2103-2115|1995|10.1016/0045-6535(95)00090-U
16033|A||Lange,M., W. Gebauer, J. Markl, and R. Nagel|Comparison of Testing Acute Toxicity on Embryo of Zebrafish, Brachydanio rerio and RTG-2 Cytotoxicity as Possible Alternatives to the Acute Fish Test|Chemosphere30(11): 2087-2102|1995|10.1016/0045-6535(95)00088-P
16034|A||Gupta,M., U.N. Rai, R.D. Tripathi, and P. Chandra|Lead Induced Changes in Glutathione and Phytochelatin in Hydrilla verticillata (l.f.) Royle|Chemosphere30(10): 2011-2020|1995|10.1016/0045-6535(95)00075-J
16035|A||Bruggemann,R., J. Schwaiger, and R.D. Negele|Applying Hasse Diagram Technique for the Evaluation of Toxicological Fish Tests|Chemosphere30(9): 1767-1780|1995|10.1016/0045-6535(95)00061-C
16036|A||Malbouisson,J.F.C., T.W.K. Young, and A.W. Bark|Use of Feeding Rate and Re-Pairing of Precopulatory Gammarus pulex to Assess Toxicity of gamma-Hexachlorocyclohexane (Lindane)|Chemosphere30(8): 1573-1583|1995|10.1016/0045-6535(95)00041-6
16037|A||Calleja,M.C., and G. Persoone|Cyst-Based Toxicity Tests.  IV.  The Potential of Ecotoxicological Tests for the Prediction of Acute Toxicity in Man as Evaluated on the First Ten Chemicals of the MEIC Programme|Alt. Lab. Anim. (ATLA)20:396-405|1992|10.1177/026119299202000306
16038|A||Joseph,E.M., F.M.M. Morel, and N.M. Price|Effects of Aluminum and Fluoride on Phosphorus Acquisition by Chlamydomonas reinhartdtii|Can. J. Fish. Aquat. Sci.52(2): 353-357|1995|10.1139/f95-036
16039|A||Cocchio,L.A., D.W. Rodgers, and F.W.H. Beamish|Effects of Water Chemistry and Temperature on Radiocesium Dynamics in Rainbow Trout, Oncorhynchus mykiss|Can. J. Fish. Aquat. Sci.52(3): 607-613|1995|10.1139/f95-060
16040|A||Gopakumar,G., and V.J. Kuttyamma|Effect of Hydrogen Sulphide on Two Species of Penaeid Prawns Penaeus indicus (H. Milne Edwards) and Metapenaeus dobsoni (Miers)|Bull. Environ. Contam. Toxicol.57(5): 824-828|1996|10.1007/s001289900263
16041|A||Ndayibagira,A., M.J. Cloutier, P.D. Anderson, and P.A. Spear|Effects of 3,3',4,4'-Tetrachlorobiphenyl on the Dynamics of Vitamin A in Brook Trout (Salvelinus fontinalis) and Intestinal Retinoid Concentrations in Lake Sturgeon (Acipenser fulvescens)|Can. J. Fish. Aquat. Sci.52(3): 512-520|1995|10.1139/f95-052
16043|A||Norberg-King,T.J.|Toxicity Data on Diazinon, Aniline, 2,4-Dimethylphenol|Environmental Research Lab., U.S.EPA, Duluth, MN, (August 31 Memo to C. Stephan, U.S. EPA and D.Call and L.Brooke, Ctr. for Lake Superior Environ. Stud., Superior, WI):11 p.|1987|
16044|A||Call,D.J., L.T. Brooke, and N. Ahmad|Toxicity, Bioconcentration and Metabolism of Selected Chemicals in Aquatic Organisms|Third Quarterly Progress Report to EPA, U.S. EPA Cooperative Agreement No.CR 806864020:38 p.|1979|
16047|A||Calvo,G.W., and E.M. Burreson|In Vitro and In Vivo Effects of Eight Chemotherapeutants on the Oyster Parasite Perkinsus marinus (Mackin, Owen, and Collier)|J. Shellfish Res.13(1): 101-107|1994|
16048|A||Brown,M.D., D.O. Walker, J.K. Hendrikz, C.P. Cabral, D.B. Araujo, Z.M. Ribeiro, and B.H. Kay|Chlorine Tolerance of Mesocyclops (Cyclopoida:  Cyclopidae) Copepods and Three Container-Breeding Species of Mosquitoes|Environ. Entomol.23(5): 1245-1249|1994|10.1093/ee/23.5.1245
16049|A||Tojo,J.L., M.T. Santamarina, J. Leiro, F.M. Ubeira, and M.L. Sanmartin|Pharmacological Treatments Against Ichthyobodo necator (Henneguy, 1883) in Rainbow Trout, Oncorhynchus mykiss (Walbaum)|J. Fish Dis.17(2): 135-143|1994|10.1111/j.1365-2761.1994.tb00206.x
16050|A||Tojo,J., M.T. Santamarina, F.M. Ubeira, J. Leiro, and M.L. Sanmartin|Efficacy of Antiprotozoal Drugs Against Gyrodactilosis in Rainbow Trout (Oncorhynchus mykiss)|Bull. Eur. Assoc. Fish Pathol.13(3): 79-82|1993|
16051|A||Tojo,J.L., M.T. Santamarina, F.M. Ubeira, J. Leiro, and M.L. Sanmartin|Attempts to Control Ichithyobodo necator in Rainbow Trout (Oncorhynchus mykiss) by Bath Treatment|Bull. Eur. Assoc. Fish Pathol.14(1): 12-15|1994|
16052|A||Reddy,P.S., A. Bhagyalakshmi, and R. Ramamurthi|Effect of Sublethal Concentration of Methyl Parathion on Aspects of Nitrogen Metabolism in Oziotelphusa senex senex|Fresenius Environ. Bull.3:55-62|1994|
16056|A||Pan,D.Y., and X.M. Liang|Safety Study of Pesticides on Bog Frog, a Predatory Natural Enemy of Pest in Paddy Field|J. Hunan Agric. Coll.19(1): 47-54|1993|
16057|A||Allen,P.|Accumulation Profiles of Lead and the Influence of Cadmium and Mercury in Oreochromis aureus (Steindachner) During Chronic Exposure|Toxicol. Environ. Chem.44(1/2): 101-112|1994|10.1080/02772249409358048
16058|A||Hawkins,W.E., R.M. Overstreet, J.W. Fournie, and W.W. Walker|Development of Aquarium Fish Models for Environmental Carcinogenesis: Tumor Induction in Seven Species|J. Appl. Toxicol.5(4): 261-264|1985|10.1002/jat.2550050408
16059|A|OECDG|Burbank,S.E., and T.W. Snell|Rapid Toxicity Assessment Using Esterase Biomarkers in Brachionus calyciflorus (Rotifera)|Environ. Toxicol. Water Qual.9(3): 171-178|1994|10.1002/tox.2530090303
16060|A||Sitja-Bobadilla,A., and P. Alvarez-Pellitero|Effect of Fumagillin Treatment on Sea Bass Dicentrarchus labrax Parasitized by Sphaerospora testicularis (Myxosporea: Bivalvulida)|Dis. Aquat. Org.14(3): 171-178|1992|10.3354/dao014171
16061|A||Geets,A., E.W. Liewes, and F. Ollevier|Efficacy of Some Anthelmintics Against the Swimbladder Nematode Anguillicola crassus of Eel Anguilla anguilla Under Saltwater Conditions|Dis. Aquat. Org.13(2): 123-128|1992|10.3354/dao013123
16062|A||Goel,K.A., and S.D. Sharma|Some Haematochemical Characteristics of Clarias batrachus Under Metallic Stress of Arsenic|Comp. Physiol. Ecol.12(2): 63-66|1987|
16063|A||Benarji,G., and T. Rajebdranath|Dichlorvos-Induced Histoarchitectural Changes in the Oocytes of a Freshwater Fish|Funct. Dev. Morphol.1(1): 9-12|1991|
16064|A||Cunningham,P.A.|Inhibition of Shell Growth in the Presence of Mercury and Subsequent Recovery of Juvenile Oysters|Proc. Natl. Shellfish. Assoc.66:1-5|1976|
16066|A||Romero,F.J., E. Monsalve, C. Hermenegildo, F.J. Puertas, M.M. Almar, and S. Olmos|Mercury Effects on Glutathione in the Freshwater Crayfish (Procambarus clarkii). In Vivo and In Vitro Study|Toxicol. Environ. Chem.29(1): 1-7|1990|10.1080/02772249009357611
16069|A||Wells,R.D.S.|The Efficacy of Copper-Triethanolamin Complex on Water Net (Hydrodictyon reticulatum)|Proc. N. Z. Plant Prot. Conf.:373-378|1994|10.30843/nzpp.1994.47.11088
16070|A||Roy,D.K., A. Gupta, and L.D. Chaturvedi|Effect of Endosulfan on Tissue Respiration and Histology of Liver of a Fresh Water Teleost, Anabas testudinus|Adv. Biosci.6(1): 83-88|1987|
16071|A||Hess,F.D., and D.E. Bayer|Binding of the Herbicide Trifluralin to Chlamydomonas Flagellar Tubulin|J. Cell Sci.24:351-360|1977|10.1242/jcs.24.1.351
16073|A||Swastika,I.B.M., I.B.M. Jaya, C. Kokarkin, and A. Taslihan|The Use of Enrofloxacin to Prevent Mortality of Tiger Shrimp (Penaeus monodon Fab.) Larvae due to Vibrio sp.|Bull. Brackishwater Aquacult. Dev. Cent.9(1): 56-67|1992|
16074|A||Schlenk,D.|The Effect of 2-Methylisoborneol on Cytochrome P450 Expression in the Channel Catfish (Ictalurus punctatus)|Aquaculture120(1-2): 33-44|1994|10.1016/0044-8486(94)90219-4
16075|A||Tamse,C.T., P.J.S. Smith, A. Aloulou, H.T. Epstein, and A.M. Kuzirian|Lead Toxicity in Hermissenda crassicornis Embryos and Cultured Neurons|Biol. Bull.187(2): 251-252|1994|10.1086/BBLv187n2p251
16077|A||Ali,A., J.K. Nayar, and R.D. Xue|Comparative Toxicity of Selected Larvicides and Insect Growth Regulators to a Florida Laboratory Population of Aedes albopictus|Am. Mosq. Control Assoc. J.11(1): 72-76|1995|
16078|A||Netherland,M.D., and K.D. Getsinger|Control of Eurasian Watermilfoil Using Triclopyr|Down Earth48(1): 1-5|1993|
16079|A||Basaglia,F., and C. Cucchi|Phenylhydrazine-Induced Alterations in Phosphoglucomutase Isozymes in Ictalurus Species (Ictaluridae, Teleostei)|Cytobios81(327): 239-250|1995|
16080|A||Pragatheeswaran,V., B. Loganathan, R. Natarajan, and V.K. Venugopalan|Cadmium Induced Vertebral Deformities in an Estuarine Fish, Ambassis commersoni Cuvier|Proc. Indian Acad. Sci. Anim. Sci.96(4): 389-393|1987|10.1007/BF03179592
16081|A||Baekken,T., and K.J. Aanes|Sublethal Effects of the Insecticide Dimethoate on Invertebrates in Experimental Streams|Norw. J. Agric. Sci. Suppl.13:167-177|1994|
16082|A||Aanes,K.J., and T. Baekken|Acute and Long-Term Effects of Propiconazole on Freshwater Invertebrate Communities and Periphyton in Experimental Streams|Norw. J. Agric. Sci.Suppl.13:179-193|1994|
16083|A||El-Deen,M.A.S., and W.A. Rogers|Changes in Total Protein and Transaminase Activities of Grass Carp Exposed to Diquat|J. Aquat. Anim. Health5(4): 280-286|1993|10.1577/1548-8667(1993)005<0280:CITPAT>2.3.CO;2
16084|A||Chen,Y.Y., J.H. Dong, Z.H. Shen, Y.X. Sun, and Y.H. Li|The Control Efficacy Study with Furanace (Nifurpirinol) on Acute Epidemic Septicaemia of Fish|Chin. J. Zool.28(5): 28-31|1993|
16085|A||Mittal,P.K., T. Adak, and V.P. Sharma|Comparative Toxicity of Certain Mosquitocidal Compounds to Larvivorous Fish, Poecilia reticulata|Indian J. Malariol.31(2): 43-47|1994|
16086|A||Newbold,C., M.C. French, and C. Brown|Ecological Effects of the Herbicides Diquat and Dichlobenil Within Pond Ecosystems|In: Annual Report. Monks Wood Experiment Station, Monks Wood, UK:29-33|1974|
16088|A||Hamelink,J.L., R.C. Waybrant, and R.C. Ball|A Proposal:  Exchange Equilibria Control the Degree Chlorinated Hydrocarbons are Biologically Magnified in Lentic Environments|Trans. Am. Fish. Soc.100(2): 207-214|1971|10.1577/1548-8659(1971)100<207:AP>2.0.CO;2
16089|A||Garofano,J.S.|The Effects of Cadmium on the Peripheral Blood and Head Kidney of the Brown Bullhead Ictalurus nebulosus (Lesueur)|Ph.D.Thesis, New York Univ, New York, NY:134 p.|1979|
16090|A||Oshida,P.S., A.J. Mearns, D.J. Reish, and C.S. Word|The Effects of Hexavalent and Trivalent Chromium on Neanthes arenaceodentata (Polychaeta: Annelida)|Proj.No.TM 225, Southern Calif.Coastal Water Res., El Segundo, CA:57 p.|1976|
16091|A||Stary,J., K. Kratzer, B. Havlik, J. Prasilova, and J. Hanusova|The Cumulation of Zinc and Cadmium in Fish (Poecilia reticulata)|Int. J. Environ. Anal. Chem.11:117-120|1982|10.1080/03067318208078303
16092|A||Tietze,N.S., P.G. Hester, K.R. Shaffer, S.J. Prescott, and E.T. Schreiber|Integrated Management of Waste Tire Mosquitoes Utilizing Mesocyclops longisetus (Copepoda: Cylopidae), Bacillus thuringiensis var. Israelensis, Bacillus sphaericus and Methoprene|Am. Mosq. Control Assoc. J.10(3): 363-373|1994|
16094|A||Ciarelli,S., N.M. Van Straalen, V.A. Klap, and A.P. Van Wezel|Effects of Sediment Bioturbation by the Estuarine Amphipod Corophium volutator in Fluoranthene Resuspension and Transfer into the Mussel (Mytilus edulis)|Environ. Toxicol. Chem.18(2): 318-328|1999|10.1002/etc.5620180232
16095|A||Ravoahangimalala,O., I. Thiery, and G. Sinegre|Rice Field Efficacy of Deltamethrin and Bacillus thuringiensis israelensis Formulations on Anopheles gambiae s.s. in the Anjiro Region of Madagascar|Bull. Soc. Vector Ecol.19(2): 169-174|1994|
16096|A||Beehler,J.W., M.S. Dhillon, and P.L. Binding|Impact of Aerial Malathion for the Eradication of Mediterranean Fruit Fly on Mosquito Larvae|J. Vector Ecol.20(1): 40-43|1995|
16097|A||Dutta,H.M., J.S.D. Munshi, G.R. Dutta, N.K. Singh, S. Adhikari, and C.R. Richmonds|Age Related Differences in the Inhibition of Brain Acetylcholinesterase Activity of Heteropneustes fossilis (Bloch) by Malathion|Comp. Biochem. Physiol. A Comp. Physiol.111(2): 331-334|1995|10.1016/0300-9629(94)00166-Q
16098|A||Wilson,R.W., H.L. Bergman, and C.M. Wood|Metabolic Costs and Physiological Consequences of Acclimation to Aluminum in Juvenile Rainbow Trout (Oncorhynchus mykiss).  2:  Gill Morphology|Can. J. Fish. Aquat. Sci.51(3): 536-544|1994|10.1139/f94-056
16099|AT||Grimble,D.G.|An Evaluation of the Environmental Impact and Efficacy of an Aerial Application of Trichlorfon (DYLOX) Against the Gypsy Moth & Associated Organisms in New York State|Applied Forestry Research Institute, State University College of Forestry, Syracuse, NY:105 p.|1972|
16100|A||Green,W.R., H.E. Westerdahl, J.C. Joyce, and W.T. Haller|Triclopyr (Garlon 3A) Dissipation in Lake Seminole, Georgia|Misc.Pap.No.A-89-2, Aquatic Plant Control Program, U.S.Army Engineer Waterways Exp.Station, Vicksburg, MS:37 p.|1989|
16101|A||Tarrant,R.M.J.|Seasonal Variation in the Accumulation and Loss of 131I by Tissues of Adult Female Channel Catfish, Ictalurus punctatus (Rafinesque)|Trans. Am. Fish. Soc.100(2): 237-246|1971|10.1577/1548-8659(1971)100<237:SVITAA>2.0.CO;2
16102|A||McNaught,D.C., and D.I. Mount|Appropriate Durations and Measures for Ceriodaphnia Toxicity Tests|ASTM Spec. Tech. Publ.:375-381|1985|
16103|A||Srinivas,T., T.A.V. Prasad, G.M. Raffi, and D.C. Reddy|Effect of Atrazine on Some Aspects of Lipid Metabolism in Fresh Water Fish|Biochem. Int.23(3): 603-609|1991|
16104|A||Hayton,W.L., and B.G. Archer|Kinetics of Accumulation of Trifluralin by Fish|Proc. West. Pharmacol. Soc.24:147-149|1981|
16105|AT||Ou,Z., T. Sun, and H. Zhang|A Bioassay for Determining Simazine in Water Using Aquatic Flowering Plants (Ceratophyllum oryzetorum, Ranunculus trichophyllus and Alisma plantago)|Pestic. Sci.42(3): 173-178|1994|10.1002/ps.2780420306
16106|A||Abner,S.R., C.L. Frazier, J.S. Scheibe, R.A. Krol, R.M. Overstreet, W.W. Walker, and W.E. Hawkins|Chronic Inflammatory Lesions in Two Small Fish Species, Medaka (Oryzias latipes) and Guppy (Poecilia reticulata), Used in Carcinogenesis Bioassays|In: J.S.Stolen and T.C.Hetcher (Eds.), Modulators of Fish Immune Responses, Chapter 19, SOS Publications, Fair Haven, NJ:219-233|1994|
16107|A||Tojo,J., M.T. Santamarina, F.M. Ubeira, J. Estevez, J. Leiro, and M.L. Sanmartin|Efficacy of Anthelmintic Drugs Against Gyrodactilosis in Rainbow Trout (Oncorhynchus mykiss)|Bull. Eur. Assoc. Fish Pathol.13(2): 45-48|1993|
16108|A||Battalora,M.S.J., W.E. Hawkins, W.W. Walker, and R.M. Overstreet|Occurrence of Thymic Lymphoma in Carcinogenesis Bioassay Specimens of the Japanese Medaka (Oryzias latipes)|Cancer Res.50(suppl.): 5675S - 5678S|1990|
16109|A||Roy,R., and P.G.C. Campbell|Survival Time Modeling of Exposure of Juvenile Atlantic Salmon (Salmo salar) to Mixture of Aluminum and Zinc in Soft Water at Low pH|Aquat. Toxicol.33(2): 155-176|1995|10.1016/0166-445X(95)00019-Z
16110|A||Celander,M., and L. Forlin|Decreased Responsiveness of the Hepatic Cytochrome P450 1A1 System in Rainbow Trout (Oncorhynchus mykiss) After Prolonged Exposure to PCB|Aquat. Toxicol.33(2): 141-153|1995|10.1016/0166-445X(95)00003-M
16111|A||Bambang,Y., P. Thuet, M. Charmantier-Daures, J.P. Trilles, and G. Charmantier|Effect of Copper on Survival and Osmoregulation of Various Developmental Stages of the Shrimp Penaeus japonicus Bate (Crustacea, Decapoda)|Aquat. Toxicol.33(2): 125-139|1995|10.1016/0166-445X(95)00011-R
16112|A||Lowe,D.M., C. Soverchia, and M.N. Moore|Lysosomal Membrane Responses in the Blood and Digestive Cells of Mussels Experimentally Exposed to Fluoranthene|Aquat. Toxicol.33(2): 105-112|1995|10.1016/0166-445X(95)00015-V
16113|A||Williamson,K.C., S.L. Shofer, and R.S. Tjeerdema|Toxicokinetics and Biotransformation of p-Nitrophenol in the Black Turban Snail (Tegula funebralis)|Aquat. Toxicol.33(2): 113-123|1995|10.1016/0166-445X(95)00017-X
16114|A||Bidwell,J.R., J.L. Farris, and D.S. Cherry|Comparative Response of the Zebra Mussel, Dreissena polymorpha, and the Asian Clam, Corbicula fluminea, to DGH/QUAT, a Nonoxidizing Molluscicide|Aquat. Toxicol.33(3-4): 183-200|1995|10.1016/0166-445X(95)00023-W
16115|A||Cheah,D.M.Y., P.F.A. Wright, D.A. Holdway, and J.T. Ahokas|Octopus pallidus Cytochrome P-450: Characterisation and Induction Studies with beta-Naphthoflavone and Aroclor 1254|Aquat. Toxicol.33(3-4): 201-214|1995|10.1016/0166-445X(95)00014-U
16116|A||Chen,J.C., and S.Y. Cheng|Changes of Oxyhemocyanin and Protein Levels in the Hemolymph of Penaeus japonicus Exposed to Ambient Nitrite|Aquat. Toxicol.33(3-4): 215-226|1995|10.1016/0166-445X(95)00012-S
16117|A||Bervoets,L., R. Blust, and R. Verheyen|The Uptake of Cadmium by the Midge Larvae Chironomus riparius as a Function of Salinity|Aquat. Toxicol.33(3-4): 227-243|1995|10.1016/0166-445X(95)00026-Z
16118|A||De Boeck,G., G.E. Nilsson, U. Elofsson, A. Vlaeminck, and R. Blust|Brain Monoamine Levels and Energy Status in Common Carp (Cyprinus carpio) after Exposure to Sublethal Levels of Copper|Aquat. Toxicol.33(3-4): 265-277|1995|10.1016/0166-445X(95)00022-V
16119|A||Balint,T., T. Szegletes, Z. Szegletes, K. Halasy, and J. Nemcsok|Biochemical and Subcellular Changes in Carp Exposed to the Organophosphorus Methidathion and the Pyrethroid Deltamethrin|Aquat. Toxicol.33(3/4): 279-295|1995|10.1016/0166-445X(95)00029-4
16120|A||Schultz,I.R., W.L. Hayton, and B.H. Kemmenoe|Disposition and Toxicokinetics of Diquat in Channel Catfish|Aquat. Toxicol.33(3-4): 297-310|1995|10.1016/0166-445X(95)00018-Y
16121|A||Van Wezel,A.P., D.A.M. De Vries, S. Kostense, D.T.H.M. Sijm, and A. Opperhuizen|Intraspecies Variation in Lethal Body Burdens of Narcotic Compounds|Aquat. Toxicol.33(3/4): 325-342|1995|10.1016/0166-445X(95)00028-3
16122|A||Straus,D.L., and J.E. Chambers|Inhibition of Acetylcholinesterase and Aliesterases of Fingerling Channel Catfish by Chlorpyrifos, Parathion, and S,S,S-Tributyl Phosphorotrithioate|Aquat. Toxicol.33(3-4): 311-324|1995|10.1016/0166-445X(95)00024-X
16123|A||Bauer Dial,C.A., and N.A. Dial|Lethal Effects of the Consumption of Field Levels of Paraquat-Contaminated Plants on Frog Tadpoles|Bull. Environ. Contam. Toxicol.55(6): 870-877|1995|10.1007/BF00209467
16124|A||Johal,M.S., and A. Dua|Elemental Lepidological and Toxicological Studies in Channa punctatus (Bloch) upon Exposure to an Organochlorine Pesticide, Endosulfan|Bull. Environ. Contam. Toxicol.55(6): 916-921|1995|10.1007/BF00209473
16125|A||Comber,M.H.I., D.V. Smyth, and R.S. Thompson|Assessment of the Toxicity to Algae of Colored Substances|Bull. Environ. Contam. Toxicol.55(6): 922-928|1995|10.1007/BF00209474
16126|A||Ellgaard,E.G., S.E. Ashley, A.E. Langford, and D.C. Harlin|Kinetic Analysis of the Swimming Behavior of the Goldfish, Carassius auratus, Exposed to Nickel: Hypoactivity Induced by Sublethal Concentrations|Bull. Environ. Contam. Toxicol.55(6): 929-936|1995|10.1007/BF00209475
16127|A||Juttner,I., A. Peither, J.P. Lay, A. Kettrup, and S.J. Ormerod|An Outdoor Mesocosm Study to Assess Ecotoxicological Effects of Atrazine on a Natural Plankton Community|Arch. Environ. Contam. Toxicol.29(4): 435-441|1995|10.1007/BF00208371
16128|A||Sparling,D.W., T.P. Lowe, D. Day, and K. Dolan|Responses of Amphibian Populations to Water and Soil Factors in Experimentally-Treated Aquatic Macrocosms|Arch. Environ. Contam. Toxicol.29(4): 455-461|1995|10.1007/BF00208374
16129|A||Postma,J.F., A. Van Kleunen, and W. Admiraal|Alterations in Life-History Traits of Chironomus riparius (Diptera) Obtained from Metal Contaminated Rivers|Arch. Environ. Contam. Toxicol.29(4): 469-475|1995|10.1007/BF00208376
16130|A||Nebeker,A.V., G.S. Schuytema, and S.L. Ott|Effects of Cadmium on Growth and Bioaccumulation in the Northwestern Salamander Ambystoma gracile|Arch. Environ. Contam. Toxicol.29(4): 492-499|1995|10.1007/BF00208379
16131|A||Horne,M.T., and W.A. Dunson|Effects of Low pH, Metals, and Water Hardness on Larval Amphibians|Arch. Environ. Contam. Toxicol.29(4): 500-505|1995|10.1007/BF00208380
16132|A||Hansten,C., M. Heino, and K. Pynnonen|Viability of Glochidia of Anodonta anatina (Unionidae) Exposed to Selected Metals and Chelating Agents|Aquat. Toxicol.34(1): 1-12|1996|10.1016/0166-445X(95)00013-T
16133|A||Absil,M.C.P., M. Berntssen, and L.J.A. Gerringa|The Influence of Sediment, Food and Organic Ligands on the Uptake of Copper by Sediment-Dwelling Bivalves|Aquat. Toxicol.34(1): 13-29|1996|10.1016/0166-445X(95)00027-2
16134|A||Thain,J.E.|The Acute Toxicity of bis (Tributyl Tin) Oxide to the Adults and Larvae of Some Marine Organisms|ICES J. Mar. Sci.:5 p.|1983|
16135|A||Waldock,M.J., J. Thain, and D. Miller|The Accumulation and Depuration of bis(Tributyltin)Oxide in Oysters:  A Comparison Between the Pacific Oyster (Crassostrea gigas) and the European Flat Oyster (Ostrea edulis)|ICES CM:8 p.|1983|
16136|A||Birge,W.J., and J.A. Black|A Continuous Flow System Using Fish and Amphibian Eggs for Bioassay Determinations on Embryonic Mortality and Teratogenesis|EPA 560/5-77-002, U.S.EPA, Washington, D.C.:71 p.|1977|
16138|A||Hughes,G.M., and P. Biro|Swimming Performance of Rainbow Trout Following Exposure and Recovery from the Pyrethroid S-Deltamethrin|Acta Biol. Hung.44(2/3): 231-241|1993|
16139|A||Wehrheim,B., and M. Wettern|Comparative Studies of the Heavy Metal Uptake of Whole Cells and Different Types of Cell Walls from Chlorella fusca|Biotechnol. Tech.8(4): 227-232|1994|10.1007/BF00155412
16141|A||Ribelles,A., M.C. Carrasco, M. Rosety, and M. Aldana|A Histochemical Study of the Biological Effects of Sodium Dodecyl Sulfate on the Intestine of the Gilthead Seabream, Sparus aurata L.|Ecotoxicol. Environ. Saf.32(2): 131-138|1995|
16142|A||Sauvant,M.P., D. Pepin, J. Bohatier, and C.A. Groliere|Microplate Technique for Screening and Assessing Cytotoxicity of Xenobiotics with Tetrahymena pyriformis|Ecotoxicol. Environ. Saf.32(2): 159-165|1995|10.1006/eesa.1995.1097
16143|A||Witeska,M., B. Jezierska, and J. Chaber|The Influence of Cadmium on Common Carp Embryos and Larvae|Aquaculture129(1-4): 129-132|1995|10.1016/0044-8486(94)00235-G
16144|A||Corradi,M.G., G. Gorbi, A. Ricci, A. Torelli, and M. Bassi|Chromium-Induced Sexual Reproduction Gives Rise to a Cr-Tolerant Progeny in Scenedesmus acutus|Ecotoxicol. Environ. Saf.32(1): 12-18|1995|10.1006/eesa.1995.1079
16145|A||Ghillebaert,F., C. Chaillou, F. Deschamps, and P. Roubaud|Toxic Effects, at Three pH Levels, of Two Reference Molecules on Common Carp Embryo|Ecotoxicol. Environ. Saf.32(1): 19-28|1995|10.1006/eesa.1995.1080
16146|A||Oulmi,Y., R.D. Negele, and T. Braunbeck|Segment Specificity of the Cytological Response in Rainbow Trout (Oncorhynchus mykiss) Renal Tubules Following Prolonged Exposure to Sublethal Concentrations of Atrazine|Ecotoxicol. Environ. Saf.32(1): 39-50|1995|10.1006/eesa.1995.1083
16147|A||Singer,M.M., S. George, S. Jacobson, I. Lee, L.L. Weetman, R.S. Tjeerdema, and M.L. Sowby|Acute Toxicity of the Oil Dispersant Corexit 9554 to Marine Organisms|Ecotoxicol. Environ. Saf.32(1): 81-86|1995|10.1006/eesa.1995.1088
16148|A||Mishra,R., and S.P. Shukla|Effects of Endosulfan on Bioenergetic Properties of Skeletal Muscle Mitochondria from the Freshwater Catfish (Clarias batrachus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.112(2): 153-161|1995|
16149|A||Tsuda,T., S. Aoki, T. Inoue, and M. Kojima|Accumulation of IBP, Parathion and EPN by Killifish: Comparison of Individual and Mixed Pesticides|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(1): 19-22|1995|
16150|A||Chelomin,V.P., E.A. Bobkova, O.N. Lukyanova, and N.M. Chekmasova|Cadmium-Induced Alterations in Essential Trace Element Homoeostasis in the Tissues of Scallop Mizuhopecten yessoensis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.110(3): 329-335|1995|
16151|A||Chen,J.C., and S.Y. Cheng|Accumulation of Urea in the Haemolymph and Ammonia Excretion of Penaeus japonicus Exposed to Ambient Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.110(1): 1-6|1995|10.1016/0300-9629(94)P4470-O
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16153|A||Van Wezel,A.P., D.T.H.M. Sijm, W. Seinen, and A. Opperhuizen|Use of Lethal Body Burdens to Indicate Species Differences in Susceptibility to Narcotic Toxicants|Chemosphere31(5): 3201-3209|1995|10.1016/0045-6535(95)00181-7
16154|A||Barber,J.T., H.A. Sharma, H.E. Ensley, M.A. Polito, and D.A. Thomas|Detoxification of Phenol by the Aquatic Angiosperm, Lemna gibba|Chemosphere31(6): 3567-3574|1995|10.1016/0045-6535(95)00205-M
16155|A||Makela,T.P., and A.O.J. Oikari|Pentachlorophenol Accumulation in the Freshwater Mussels Anodonta anatina and Pseudanodonta complanata, and Some Physiological Consequences of Laboratory Maintenance|Chemosphere31(7): 3651-3662|1995|10.1016/0045-6535(95)00214-S
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16161|A||Wilczok,A.T., M.M. Watanabe, S. Kawahara, K.T. Suzuki, and K. Sugahara|Intracellular Cadmium Sequestration by the Heavy Metal-Tolerant Green Algae Chlorella vulgaris and Uronema confervicolum|Jpn. J. Phycol.40(3): 229-238|1992|
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16164|A||Naqvi,T.S., M.S. Naqvi, and R.K. Singh|Effect of Fertilizer Diammonium Phosphate on Liver, Kidney and Muscle 5'-Nucleotidase Activity of Fresh Water Teleost Fish Clarias batrachus|Biomed. Environ. Sci.6(4): 385-388|1993|
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16166|A||Shyam,R., N.K. Tripathy, and H.A. Khan|Effect of the Piscicides Mahua Oilcake and Bleaching Powder on Benthic Productivity in Carp Nursery Ponds|J. Aquacult. Trop.8(1): 25-32|1993|
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16261|A||Arinc,E., and A. Sen|In Vivo Effects of the Anesthetic, Benzocaine, on Liver Microsomal Cytochrome P450 and Mixed-Function Oxidase Activities of Gilthead Seabream (Sparus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 399-404|1994|
16262|A||Chen,I.M.|Comparison of the Effects of Copper on Respiration and Its Accumulation in Tissue in the Hard Clam Meretrix lusoria|Zool. Stud.34(4): 235-240|1995|
16263|A||Pinder,A.M., S.A. Harrington, and J.A. Davis|The Use of Enclosure for Short-Term Pesticide Trials on Invertebrates in Shallow Wetlands|J. Aust. Entomol. Soc.32(1): 69-72|1993|10.1111/j.1440-6055.1993.tb00546.x
16264|A||Rao,K.S.P., K.R.S. Rao, K.S. Babu, and K.V.R. Rao|Toxic Impact of Phenthoate on Some Functional Aspects of Nitrogen Metabolism in Tissues of the Fish Channa punctatus|Indian J. Fish.29(1-2): 229-233|1982|
16265|A||Ruber,E.|The Effects of Certain Mosquito Larvicides on Microcustacean Populations|Proc. N. J. Mosq. Exterm. Assoc.50:256-265|1963|
16266|A||Saenz,M.E., J. Accorinti, and M.C. Tortorelli|Toxicity of Paraquat to a Green Algae Scenedesmus acutus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(2): 193-204|1993|
16267|A||Ruber,E.|Further Studies Concerning the Effects of DDT on Salt Marsh Copepods|Proc. N. J. Mosq. Exterm. Assoc.49:181-187|1962|
16269|A||Shah,M.S., and J.A. Beardmore|Induction of Dominant Lethal Mutations by Methyl Methane Sulphonate in the Fish Tilapia Oreochromis niloticus (Linnaeus)|Indian J. Exp. Biol.25:375-378|1987|
16271|A||Lembi,C.A., and M.D. Netherland|Plant Growth Regulation:  A Viable Concept in Aquatic Plant Management?|Tech.Rep.No.194, Water Resour.Res.Center, Purdue Univ., West Lafayette, IN:41 p.|1992|
16272|A||Comhaire,S., R. Blust, L. Van Ginneken, and O.L.J. Vanderborght|Cobalt Uptake Across the Gills of the Common Carp, Cyprinus carpio, as a Function of Calcium Concentration in the Water of Acclimation and Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.109(1): 63-76|1994|10.1016/0300-9629(94)90312-3
16273|A||Ruber,E.|The Effects of Certain Mosquito Larvicides on Cultures of Microcrustaceans - 1963|Proc. N. J. Mosq. Exterm. Assoc.52:207-210|1965|
16274|A||Shirgur,G.A.|Observations on Metamorphosing Behaviour of Cybister Larvae for Development of Control Measures During Pupal Stage|J. Bombay Nat. Hist. Soc.72(1): 61-70|1975|
16275|T||Shukla,K., and J. Bahadur|Dichlorvos and Phosphamidon Induced Changes in Total Haemolymph Lipid Concentration in Poecilocerus pictus F. (Orthoptera)|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere91(3): 329-332|1987|
16276|A||Singh,A.K., and M. Prasad|Variations in RNA-DNA Ratio, Protein, Glycogen and Lipid Content in Fresh Water Catfish, Heteropneustes fossilis After Bromocryptine and Prolactin|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere89(4): 481-489|1985|
16277|A||Singh,D.P., and S.P. Singh|Action of Heavy Metals on Hill Activity and O2 Evolution in Anacystis nidulans|Plant Physiol.83(1): 12-14|1987|10.1104/pp.83.1.12
16278|A||Singh,S.R., and B.R. Singh|Effect of Copper and Zinc Sulphate on the Blood Parameters of Mystus vittatus (Bloch)|Matsya8:1-6|1982|
16279|A||Wilkinson,W., and F.D. Smith|Ecological Effects in Three Ponds, Uk 1976. 3. Fish and Invertebrates|ICI Plant Prot.Div.Rep.No.TMJ1475B:31-|1977|
16280|A||Rao,K.S.P., I.K. Ahamad, and K.V.R. Rao|Impact of Methyl Parathion on Lactate Dehydrogenase Isozymes of a Teleost Tilapia mossambica (Peters)|Indian J. Fish.29(1/2): 185-190|1982|
16281|A||Reardon,I.S., and R.M. Harrell|Effects of Varying Salinities on the Toxicity of Potassium Permanganate to Larval and Juvenile Striped Bass, Morone saxatilis (Walbaum)|Aquac. Fish. Manag.25(6): 571-578|1994|
16282|A||Miron,G., V. Brock, and E. Kristensen|Effects of Mercury on the Ventilation Behaviour of the Polychaete Nereis virens (Sars)|J. Exp. Mar. Biol. Ecol.184(1): 67-81|1994|10.1016/0022-0981(94)90166-X
16283|A||Shimizu,A., and A. Kakuno|Long-Term Effects of Bis(Tri-n-Butyltin) Oxide on the Histology of Various Organs in the Red Sea Bream, Pagrus major|Bull. Natl. Res. Inst. Fish. Sci.6:47-55|1994|
16286|A||Kinae,N., E.R. Brown, V. Nair, P. Beamer, and J.J. Hazdra|Carcinogens and Oncogenesis in Poikilotherms|Unpublished Manuscript:7 p.|1981|
16287|A||Malley,D.F., J.D. Huebner, and K. Donkersloot|Effects on Ionic Composition of Blood and Tissues of Anodonta grandis grandis (Bivalvia) of an Addition of Aluminum and Acid to a Lake|Arch. Environ. Contam. Toxicol.17(4): 479-491|1988|10.1007/BF01055513
16288|A||Hawkins,W.E., J.W. Fournie, R.M. Overstreet, and W.W. Walker|Rhabdomyosarcoma in the Japanese medaka, Oryzias latipes (Temminck & Schlegel) and Guppy, Poecilia reticulata Peters|J. Fish Dis.11:259-266|1988|10.1111/j.1365-2761.1988.tb00547.x
16290|A||Hofslagare,O., S. Sjoberg, and G. Samuelsson|The Effect of Arsenate and Arsenite on Photosynthesis in Scenedesmus obliquus. A Potentiometric Study in a Closed CO2-System|Chem. Spec. Bioavail.6(4): 95-102|1994|10.1080/09542299.1994.11083228
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16297|A||Van der Schalie,W.H., T.R. Shedd, and M.G. Zeeman|Ventilatory and Movement Responses of Bluegills Exposed to 1,3,5-Trinitrobenzene|ASTM Spec. Tech. Publ.:307-315|1988|
16298|A||Van der Schalie,W.H., T.R. Shedd, and M.G. Zeeman|Ventilatory and Movement Reponses of Rainbow Trout Exposed to 1,3,5-Trinitrobenzene in an Automated Biomonitoring System|In: D.S.Gruber and J.M.Diamond (Eds.), Automated Biomonitoring: Living Sensors as Environmental Monitors, Ellis Horwood Ltd., Chichester, U.K.:67-74|1988|
16302|A||Grantham,B.L.|A Report on the Refugia Concept|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1980 Maine Cooperative Spruce Budworm Suppression Project, Maine Forest Service, Department of Conservation, Augusta, ME:67-117|1981|
16303|A||Trial,J.G.|The Effect of Carbaryl on Leaf Litter Processing in Maine Streams|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1980 Maine Cooperative Spruce Budworm Suppression Project, Maine Forest Service, Department of Conservation, Augusta, ME:150-168|1981|
16305|A||Dube,N.R.|The Lack of Effects of Spraying Forests with the Insecticide Dylox on Reproduction, Brain Cholinesterase and Early Food of Smallmouth Bass in Rocky Lake, Maine|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Project, Maine 1976 and 1977, Maine Forest Service, Department of Conservation, Augusta, ME:51-81|1978|
16306|A||Rabeni,C.F.|The Impact of Orthene, a Spruce Budworm Insecticide, on Stream Fishes.  A Report to the United States Fish and Wildlife Service|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Project, Maine 1976 and 1977, Maine Forest Service, Department of Conservation, Augusta, ME:83-123|1978|
16307|A||Trial,J.G.|The Effects of Sevin-4-Oil on Aquatic Insect Communities of Streams:  A Continuation of 1976 Studies|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Project, Maine 1976 and 1977, Maine Forest Service, Department of Conservation, Augusta, ME:124-140|1978|
16308|A||Courtemanch,D.L., and K.E. Gibbs|The Effects of Sevin-4-Oil on Lentic Communities. A Final Report to the Maine Forest Service Augusta, Maine|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Project, Maine 1976 and 1977, Maine Forest Service, Department of Conservation, Augusta, ME:141-150|1978|
16309|A||Trial,J.G., and K.E. Gibbs|Effects of Orthene, Sevin 4 Oil and Dylox on Aquatic Insects Incidental to Attempts to Control Spruce Budworm in Maine, 1976|In: K.G.Stratton (Ed.), Environmental Monitoring of Cooperative Spruce Budworm Control Project, Maine 1976 and 1977, Maine Forest Service, Department of Conservation, Augusta, ME:207-216|1978|
16310|A||McCullough,R.D., and J.G. Stanley|Effects of Carbaryl (Sevin) on Brook Trout in Streams Receiving Drift from Spraying of Nearby Forests|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:1-39|1980|
16311|A||Trial,J.G.|The Effectiveness of Unsprayed Buffers in Lessening the Impact of Aerial Applications of Carbaryl on Aquatic Insects|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:98-132|1980|
16312|A||Courtemanch,D.L., and K.E. Gibbs|The Effects of Sevin-4-Oil on Lentic Communities|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:215-223|1980|
16313|A||ECO-Analysts Inc.|An Analysis of Drift Samples Collected in the 1979 Budworm Suppression Program|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:225-228|1980|
16314|A||Trial,J.G.|The Effects of Sevin-4-Oil on Aquatic Insect Communities of Streams|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:253-270|1980|
16315|A||Brown,H.L.|Effects of Split Applications of Sevin-4-Oil on Aquatic Invertebrate Drift|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1979 Maine Cooperative Spruce Budworm Suppression Project, Bureau of Forestry, Augusta, ME:272-300|1980|
16317|A||Douthwaite,R.J.|Environmental Aspects of Tsetse Fly Eradication in Somalia|TDRI, Final Rep.of the Environmental Biologist, Tropical Dev.and Res.Inst., London:86 p.|1985|
16318|A||Pavicic,J., B. Smodis, M. Skreblin, I. Kregart, and P. Stegnar|Embryo-Larval Tolerance of Mytilus galloprovincialis, Exposed to Elevated Seawater Metal Concentrations-II. Stage-Specific Fluctuations in Sensitivity Toward Zn and Cd and Their Bioaccumulation into Veliger Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.109(1): 37-46|1994|
16319|A||Ruber,E., and F. Ferrigno|Some Effects of DDT, Baytex, and Endrin on Salt Marsh Productivities, Copepods, and Aedes Mosquito Larvae|Proc. N. J. Mosq. Exterm. Assoc.51:84-93|1964|
16320|A||Oulmi,Y., R.D. Negele, and T. Braunbeck|Cytopathology of Liver and Kidney in Rainbow Trout Oncorhynchus mykiss After Long-Term Exposure to Sublethal Concentrations of Linuron|Dis. Aquat. Org.21(1): 35-52|1995|10.3354/dao021035
16321|A||Omoregie,E., T.G. Eseyin, and P.C. Ofojekwu|Chronic Effects of Formalin on Erythrocyte Counts and Plasma Glucose of Nile Tilapia, Oreochromis niloticus|Asian Fish. Sci.7(1): 1-6|1994|10.33997/j.afs.1994.7.1.001
16322|A||Allen,P.|Accumulation Profiles of Lead and Cadmium in the Edible Tissues of Oreochromis aureus During Acute Exposure|J. Fish Biol.47(4): 559-568|1995|
16323|A||Kawamata,M., K. Kon-Ya, and W. Miki|Trigonelline, an Antifouling Substance Isolated from an Octocoral dendronephthya sp|Fish. Sci.60(4): 485-486|1994|10.2331/fishsci.60.485
16324|A||Munkittrick,K.R., and D.G. Dixon|In Situ Assessment of Mixed Copper and Zinc Impacts on White Sucker (Catostomus commersoni) Populations in Several Northern Ontario Lakes|In: Technology Transfer Conference, Part B: Water Quality Research, Dec.8-9, 1986, Toronto, Ont., Can.:165-191|1986|
16325|A||Mallatt,J., R.D. McCall, J.F. Bailey, and J. Seelye|Effects of Lampricides on the Gill Ultrastructure of Larval Sea Lampreys and Rainbow Trout Fry|Can. J. Zool.72(9): 1653-1664|1994|10.1139/z94-221
16326|A||Carbonell,G., and J.V. Tarazona|Toxicokinetics of Copper in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.29(3-4): 213-221|1994|10.1016/0166-445X(94)90069-8
16327|A||Waldmann,P., B. Pivcevic, W.E.G. Mueller, R.K. Zahn, and B. Kurelec|Increased Genotoxicity of Acetylaminofluorene by Modulators of Multixenobiotic Resistance Mechanism: Studies with the Fresh Water Clam Corbicula|Mutat. Res.342(3-4): 113-123|1995|10.1016/0165-1218(95)90021-7
16328|A||Bahari,I.B., F.M. Noor, and N.M. Daud|Micronucleated Erythrocytes as an Assay to Assess Actions by Physical and Chemical Genotoxic Agents in Clarias gariepinus|Mutat. Res.313(1): 1-5|1994|10.1016/0165-1161(94)90027-2
16329|A||Liber,K., S.L. O'Halloran, K.L. Schmude, and T.D. Corry|Effects of Diflubenzuron on Non-Target Invertebrates in Littoral Enclosures|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1989:140-145|1994|
16330|A||Sinha,S., M. Gupta, and P. Chandra|Bioaccumulation and Toxicity of Cu and Cd in Vallisneria spiralis (L.)|Environ. Monit. Assess.33(1): 75-84|1994|10.1007/BF00546664
16331|A||Mortimer,M.R., and G.J. Miller|Susceptibility of Larval and Juvenile Instars of the Sand Crab, Portunus pelagicus (L.), to Sea Water Contaminated by Chromium, Nickel or Copper|Aust. J. Mar. Freshw. Res.45(7): 1107-1121|1994|10.1071/MF9941107
16332|A||Svobodova,Z., and R. Faina|Aquatic Testing of Trichlorphon in the Laboratory and Field|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:361-367|1994|
16333|A||Thielcke,A., and H.T. Ratte|The Role of Periphyton in Primary Production in Outdoor Microcosms Treated with 3,4-Dichloroaniline (DCA)|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:369-376|1994|
16334|A||Reddy,P.S., and M. Fingerman|Effect of Cadmium Chloride on Amylase Activity in the Red Swamp Crayfish, Procambarus clarkii|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.109(3): 309-314|1994|
16335|A||Cerda,B., and J.H. Olive|Effects of Diet on Seven-Day Ceriodaphnia dubia Toxicity Tests|Ohio J. Sci.93(3): 44-47|1993|
16336|A||Absil,M.C.P., J.J. Kroon, and H.T. Wolterbeek|Availability of Copper from Phytoplankton and Water for the Bivalve Macoma balthica.  I.  Separation of Uptake Pathways Using the Radiotracer 64Cu|Mar. Biol.118(1): 123-127|1994|10.1007/BF00699226
16337|A||Dolmen,D., J.V. Arnekleiv, and T. Haukebo|Rotenone Tolerance in the Freshwater Pearl Mussel Margaritifera margaritifera|Nord. J. Freshw. Res.70:21-30|1995|
16338|A||Bustos,P., and C. Covarrubias|The Effect of Oral Administration of Flavophospholipol in Rainbow Trout (Oncorhynchus mykiss) Fingerlings|Aquaculture124(1-4): 359-360|1994|10.1016/0044-8486(94)90410-3
16339|A|OECDG|Fernandez-Leborans,G., and A. Novillo|Experimental Approach to Cadmium Effects on a Marine Protozoan Community|Acta Hydrochim. Hydrobiol. (Multiple Languages)22(1): 19-27|1994|10.1002/aheh.19940220106
16341|A||Ankley,G.T., M.K. Schubauer-Berigan, and P.D. Monson|Influence of pH and Hardness on Toxicity of Ammonia to the Amphipod Hyalella azteca|Can. J. Fish. Aquat. Sci.52(10): 2078-2083|1995|10.1139/f95-801
16342|A||Erickson,R.J., D.A. Benoit, V.R. Mattson, H.P.,Jr. Nelson, and E.N. Leonard|The Effects of Water Chemistry on the Toxicity of Copper to Fathead Minnows|Environ. Toxicol. Chem.15(2): 181-193|1996|10.1002/etc.5620150217
16343|A||Lu,X., B. Sun, and Z. Shi|Interaction Between Mercury and Phytoplankton (I) A Study of the Effects of Mercury on the Growth of Phaeodactylum tricornutum|J. Ocean Univ. Qingdao20(4): 68-74|1990|
16344|A||Sarojini,R., P.R. Machale, and R. Nagabhushanam|Adverse Effect of Zinc Sulphate Exposure to Ovarian Development of Freshwater Crab, Barytelphusa guerini|J. Nat. Conserv.2(2): 97-104|1990|
16345|A||Lin,R.P.|The Histological Study of Toxicity of Mercury Against Freshwater Fish|Aquatic Sciences and Fisheries Abstracts (ASFA):1 p.|1987|
16346|A||Biagianti-Risbourg,S.|An Histo-Cytological Approach to Study the Hepatic Responses of Mullets (Teleosts) to Subacute Concentrations of Atrazine|Aquatic Sciences and Fisheries Abstracts (ASFA):1 p.|1995|
16347|A||Rathore,V.S., R. Saxena, P.J. John, and Rekha |Acute Toxicity of Textile Dyes to Channa punctatus|J. Nat. Conserv.1(2): 155-157|1989|
16348|A||Rao,P.P., K.V. Joseph, and K.J. Rao|Histopathological and Biochemical Changes in the Liver of a Fresh Water Fish Exposed to Heptachlor|J. Nat. Conserv.2(2): 133-137|1990|
16349|A||Mohan,D., and A. Choudhary|Zinc Accumulation in a Few Tissues of Fish, Puntius sophore (Ham.) After Sublethal Exposure|J. Nat. Conserv.3(2): 205-209|1991|
16350|A||Gupta,P.K.|Acute Toxicity of Three Insecticides to the Freshwater Snail Viviparus bengalensis|Environ. Ecol.2(3): 168-170|1984|
16351|A||Kaviraj,A.|Effects of Mercury on the Behavior, Survival, Growth and Reproduction of Fish and on Aquatic Ecosystem|Environ. Ecol.1(1): 4-9|1983|
16352|A||Karara,A.H., and V.A. McFarland|A Pharmacokinetic Analysis of the Uptake of Polychlorinated Biphenyls (PCBs) by Golden Shiners|Environ. Toxicol. Chem.11(3): 315-320|1992|10.1002/etc.5620110305
16353|A||Kersting,K., and R. Van Wijngaarden|Effects of Chlorpyrifos on a Microecosystem|Environ. Toxicol. Chem.11(3): 365-372|1992|10.1002/etc.5620110310
16354|A||Playle,R.C., R.W. Gensemer, and D.G. Dixon|Copper Accumulation on Gills of Fathead Minnows:  Influence of Water Hardness, Complexation and pH of the Gill Micro-Environment|Environ. Toxicol. Chem.11(3): 381-391|1992|
16355|A||Diamond,J.M., E.L. Winchester, D.G. Mackler, and D. Gruber|Use of the Mayfly Stenonema modestum (Heptageniidae) in Subacute Toxicity Assessments|Environ. Toxicol. Chem.11(3): 415-425|1992|10.1002/etc.5620110316
16356|A||Kulkarni,B.G.|ATPase Activity in the Gills and Hepatopancreas of the Intertidal Clam Meretrix casta var Ovum (Hanley) Exposed to Naphthalenes|J. Environ. Biol.11(3): 275-278|1990|
16357|A||Hodson,P.V., U. Borgmann, and C.K. Minns|The Effects of Fluctuating Concentrations of Waterborne Contaminants on Their Uptake by Fish-Implications for Water Quality Monitoring|In: K.Christiansen (Ed.), Chemicals in the Environment, Proc.Int.Symp.Lyngby, Denmark:259-263|1982|
16358|A||Ohgai,M., T. Matsui, K. Ono, K. Tsujinaka, and H. Odanaka|The Effects of Carboxylic Acids and Their Carboxylates on the Growth of Four Species of Marine Microalgae|Nippon Suisan Gakkaishi (Multiple Languages)59(4): 647-652|1993|10.2331/suisan.59.647
16359|A||Baba,T., Y. Watase, and Y. Yoshinaga|Activation of Mononuclear Phagocyte Function by Levamisole Immersion in Carp|Nippon Suisan Gakkaishi (Multiple Languages)59(2): 301-307|1993|10.2331/suisan.59.301
16361|A||Schwarz,E., and W. Hanke|The Influence of Atrazine and Pentachlorophenol on the Regulation of T4 and T3 in the Blood of the Carp (Cyprinus carpio)|Acta Endocrinol.114(S283): 16-17|1987|
16362|A||Passino-Reader,D.R., W.H. Berlin, and J.P. Hickey|Chronic Bioassays of Rainbow Trout Fry with Compounds Representative of Contaminants in Great Lakes Fish|J. Great Lakes Res.21(3): 373-383|1995|10.1016/S0380-1330(95)71048-6
16363|A||Madoni,P., D. Davoli, G. Gorbi, and L. Vescovi|Toxic Effect of Heavy Metals on the Activated Sludge Protozoan Community|Water Res.30(1): 135-141|1996|10.1016/0043-1354(95)00124-4
16365|A||Kishino,T., and K. Kobayshi|Studies on the Mechanism of Toxicity of Chlorophenols Found in Fish Through Quantitative Structure-Activity Relationships|Water Res.30(2): 393-399|1996|10.1016/0043-1354(95)00152-2
16366|A||Kishino,T., and K. Kobayashi|Acute Toxicity and Structure-Activity Relationships of Chlorophenols in Fish|Water Res.30(2): 387-392|1996|10.1016/0043-1354(95)00151-4
16367|A||Hofer,R., Z. Jeney, and F. Bucher|Chronic Effect of Linear Alkylbenzene Sulfonate (LAS) and Ammonia on Rainbow Trout (Oncorhynchus mykiss) Fry at Water Criteria Limits|Water Res.29(12): 2725-2729|1995|10.1016/0043-1354(95)00143-9
16368|A||Sloof,J.E., A. Viragh, and B. Van der Veer|Kinetics of Cadmium Uptake by Green Algae|Water Air Soil Pollut.83(1-2): 105-122|1995|10.1007/BF00482598
16369|A||Tomasik,P., C.M. Magadza, S. Mhizha, A. Chirume, M.F. Zaranyika, and S. Muchiriri|Metal-Metal Interactions in Biological Systems. Part IV. Freshwater Snail Bulinus globosus|Water Air Soil Pollut.83(1/2): 123-145|1995|10.1007/BF00482599
16370|A||Havens,K.E.|Insecticide (Carbaryl, 1-Napthyl-N-Methylcarbamate) Effects on a Freshwater Plankton Community: Zooplankton Size, Biomass, and Algal Abundance|Water Air Soil Pollut.84(1-2): 1-10|1995|10.1007/BF00479585
16371|A||Wong,C.K., K.H. Chu, and F.F. Shum|Acute and Chronic Toxicity of Malathion to the Freshwater Cladoceran Moina macrocopa|Water Air Soil Pollut.84(3-4): 399-405|1995|10.1007/BF00475351
16373|A||Hershey,A.E., L. Shannon, R. Axler, C. Ernst, and P. Mickelson|Effects of Methoprene and BTI (Bacillus thuringiensis var. israelensis) on Non-Target Insects|Hydrobiologia (Multiple Languages)308(3): 219-227|1995|10.1007/BF00006873
16374|A||Hanazato,T.|Combined Effect of the Insecticide Carbaryl and the Chaoborus Kairomone on Helmet Development in Daphnia ambigua|Hydrobiologia (Multiple Languages)310(2): 95-100|1995|10.1007/BF00015527
16375|A||Bailey,H.C., J.L. Miller, M.J. Miller, and B.S. Dhaliwal|Application of Toxicity Identification Procedures to the Echinoderm Fertilization Assay to Identify Toxicity in a Municipal Effluent|Environ. Toxicol. Chem.14(12): 2181-2186|1995|10.1002/etc.5620141223
16376|A||Zabel,E.W., P.M. Cook, and R.E. Peterson|Potency of 3,3',4,4',5-Pentachlorobiphenyl (PCB 126), Alone and in Combination with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD), to Produce Lake Trout Early Life-Stage Mortality|Environ. Toxicol. Chem.14(12): 2175-2179|1995|
16377|T||Donkin,S.G., and P.L. Williams|Influence of Developmental Stage, Salts and Food Presence on Various End Points Using Caenorhabditis elegans for Aquatic Toxicity Testing|Environ. Toxicol. Chem.14(12): 2139-2147|1995|10.1002/etc.5620141218
16378|A||Hecnar,S.J.|Acute and Chronic Toxicity of Ammonium Nitrate Fertilizer to Amphibians from Southern Ontario|Environ. Toxicol. Chem.14(12): 2131-2137|1995|10.1002/etc.5620141217
16379|A||Kaiser,K.L.E., M.B. McKinnon, D.H. Stendahl, and W.B. Pett|Response Threshold Levels of Selected Organic Compounds for Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.14(12): 2107-2113|1995|10.1002/etc.5620141214
16380|A||Rhodes,J.E., W.J. Adams, G.R. Biddinger, K.A. Robillard, and J.W. Gorsuch|Chronic Toxicity of 14 Phthalate Esters to Daphnia magna and Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.14(11): 1967-1976|1995|10.1002/etc.5620141119
16381|A||Janes,N., and R.C. Playle|Modeling Silver Binding to Gills of Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.14(11): 1847-1858|1995|10.1002/etc.5620141106
16382|A||Sparling,D.W., and T.P. Lowe|Metal Concentrations of Tadpoles in Experimental Ponds|Environ. Pollut.91(2): 149-159|1996|10.1016/0269-7491(95)00057-7
16383|A||Pelgrom,S.M.G.J., L.P.M. Lamers, R.A.C. Lock, P.H.M. Balm, and S.E. Wendelaar Bonga|Interactions Between Copper and Cadmium Modify Metal Organ Distribution in Mature Tilapia, Oreochromis mossambicus|Environ. Pollut.90(3): 415-423|1995|10.1016/0269-7491(95)00022-J
16384|A||Mohapatra,B.C., and A. Noble|Liver and Kidney Damage in Grey Mullet Liza parsia (Hamilton and Buchanan) on Exposure to an Organophosphate `Nuvan'|J. Mar. Biol. Assoc. India34(1-2): 218-221|1992|
16385|A||Lilius,H., T. Hastbacka, and B. Isomaa|A Comparison of the Toxicity of 30 Reference Chemicals to Daphnia magna and Daphnia pulex|Environ. Toxicol. Chem.14(12): 2085-2088|1995|
16387|A||Shetty,V.K., G.P.S. Rao, and S.R. Chowdhuri|Effect of Cyproterone Acetate on Testicular Activity in the Catfish, Clarias batrachus (Linn.)|Indian J. Anim. Sci.57(4): 343-347|1987|
16388|A||Sampath,K., S. Velammal, I.J.J. Kennedy, and R. James|Haematological Changes and Their Recovery in Oreochromis mossambicus as a Function of Exposure Period and Sublethal Levels of Ekalux|Acta Hydrobiol.35(1): 73-83|1993|
16389|A||Lin,G.|The Toxicity of Ammonia on the Larvae of the Bay Scallop, Argopecten irradians|J. Shellfish Res.11(1): 200-201|1992|
16393|A||Park,E.D., D.V. Lightner, J.M. Stamm, and T.A. Bell|Preliminary Studies on the Palatability, Animal Safety, and Tissue Residues of Sarafloxacin-HCl in the Penaeid Shrimp, Penaeus vannamei|Aquaculture126:231-241|1994|10.1016/0044-8486(94)90039-6
16394|A||Lake Ontario Environmental Laboratory|The Environmental Impact of Dimilin (TH 6040) on a Forest and Aquatic Ecosystem|LOTEL Report No.210, Lake Ontario Environmental Laboratory, State University of New York, Oswego, NY:149 p.|1975|
16395|A||Persoone,G., P. Vanhaecke, P. Sorgeloos, and C. Claus|Intercalibration Exercise on a Short-Term Standard Toxicity Test with Artemia nauplii|Final Rep., Lab.for Biol.Res.in Aquat.Pollut., State Univ.of Ghent, Belgium:42-|1981|
16396|A||Neuhoff,H.G., and H. Theede|Long-Term Effects of Low Copper Concentrations at Normal and Reduced Oxygen Tensions|Limnologica15(2): 513-521|1984|
16397|A||Singh,D.N., R.K. Tyagi, and R.S. Panwar|Toxicity of Some Organic Biocides to a Fresh Water Fish, Cyprinus carpio communis (Linn.)|J. Environ. Biol.2(3): 41-46|1981|
16398|A||Sastry,K.V., and P.V. Malik|Acute and Chronic Effects of Diazinon on Some Enzymes in Certain Tissues of a Fresh Water Teleost Fish, Channa punctatus (Bloch)|J. Environ. Biol.2(3): 19-28|1981|
16399|A||Jayamanne,S.C.|Toxicity of Hydrogen Sulphide to Juveniles of Macrobrachium rosenbergii|J. Natl. Sci. Counc. Sri Lanka20(2): 191-199|1992|
16400|A||Umezawa,S.I., and K. Komatsu|Effect of Turbidity on the Toxicity of Surfactants to the Medaka, Oryzias latipes|Rep.USA Mar.Biol.Inst.Kochi Univ.2:1-9|1980|
16401|A||Jaylet,A., L. Gauthier, and Y. Levi|Detection of Genotoxicity in Chlorinated or Ozonated Drinking Water Using an Amphibian Micronucleus Test|In: Ph.D.Thesis, L.Gauthier, Etude du Pouvoir Genotoxique des Eaux de Surface, Potable, ou en Cours de Traitement, par la Formation de Micronoyaux chez le Triton Pleurodeles waltl, Universite Paul Sabatier, Toulouse, France, Article V:32 p.|1989|
16402|A||Holm,G., J. Lundstrom, T. Andersson, and L. Norrgren|Influences of Halogenated Organic Substances on Ovarian Development and Hepatic EROD Activity in the Three-Spined Stickeback, Gasterosteus aculeatus|Aquat. Toxicol.29(3/4): 241-256|1994|10.1016/0166-445X(94)90071-X
16403|A||Khoury,G.A., A.A. Abdelghani, and A.C. Anderson|Bioaccumulation and Depuration of Ethylene Glycol by Crayfish (Procambarus spp.)|Environ. Toxicol. Water Qual.8(1): 25-31|1993|10.1002/tox.2530080104
16404|A||Bruno,D.W., and R.S. Raynard|Studies on the Use of Hydrogen Peroxide as a Method for the Control of Sea Lice on Atlantic Salmon|Aquac. Int.2(1): 10-18|1994|10.1007/BF00118529
16405|A||Das,B.P., G.K. Das, T. Roy-Choudhury, B. Choudhury, and D.N. Chowdhury|Toxicity of Some Nitro Compounds on the Larvae of Culex quinquefasciatus|Environ. Ecol.12(3): 497-500|1994|
16406|A||Stearns,D.E., and A.A. Sharp|Sublethal Effects of Cupric Ion Activity on the Phototaxis of Three Calanoid Copepods|Hydrobiologia (Multiple Languages)292/293:505-511|1994|10.1007/BF00229978
16407|A||Bjerregaard,P., and M.H. Depledge|Cadmium Accumulation in Littorina littorea, Mytilus edulis and Carcinus maenas: The Influence of Salinity and Calcium Ion Concentrations|Mar. Biol.119(3): 385-395|1994|10.1007/BF00347535
16408|A||Koryakova,M.D., and O.M. Korn|Using Barnacle Larvae for Evaluation of the Toxicity of Antifouling Paint Compounds|Russ. J. Mar. Biol.19(3): 212-216|1993|
16409|A||Huang,X.D., D.G. Dixon, and B.M. Greenberg|Photoinduced Toxicity of Polycyclic Aromatic Hydrocarbons to the Higher Plant Lemna gibba L. G-3|ASTM Spec. Tech. Publ.2:209-216|1991|
16410|A||Guckert,J.B., S.E. Belanger, and J.B. Barnum|Testing Single-Species Predictions for a Cationic Surfactant in a Stream Mesocosm|Sci. Total Environ.Suppl. 1/2:1011-1023|1993|10.1016/S0048-9697(05)80107-X
16411|A||Zhang,Y., Y. Xu, L. Xu, and Z. Chen|Degradation of Chlorobenzuron in Water and Metabolism in Fish|J. Environ. Sci. (China)4(4): 46-51|1992|
16412|A||Zhou,B., Y. Zhang, and Y. Xu|Toxic Effects of Meothrin on the Gill Ultrastructure in Grass Carp, Ctenopharyngodon idellus|J. Environ. Sci.6(1): 52-61|1994|
16413|A||Breteler,R.J., R.L. Buhl, and A.W. Maki|The Effect of Dissolved H2S and CO2 on Short-Term Photosynthesis of Skeletonema costatum, a Marine Diatom|ASTM Spec. Tech. Publ.2:118-125|1991|
16414|A||Johansen,J.A., C.J. Kennedy, R.M. Sweeting, A.P. Farrell, and B.A. McKeown|Sublethal Effects of Tetrachloroguaiacol on Juvenile Rainbow Trout, Oncorhynchus mykiss, Following Acute and Chronic Exposure|Can. J. Fish. Aquat. Sci.51(9): 1967-1974|1994|10.1139/f94-199
16415|A||Kent,R.A., and P.Y. Caux|Sublethal Effects of the Insecticide Fenitrothion on Freshwater Phytoplankton|Can. J. Bot.73(1): 45-53|1995|10.1139/b95-006
16416|A||Gorham,J.R.|Aquatic Insects and DDT Forest Spraying in Maine|Bull.No.19, Maine For.Serv., Augusta, ME:48-|1961|
16417|A||Birge,W.J., R.D. Hoyt, J.A. Black, M.D. Kercher, and W.A. Robison|Effects of Chemical Stresses on Behavior of Larval and Juvenile Fishes and Amphibians|In: L.A.Fuiman (Ed.), Water Quality and the Early Life Stages of Fishes, Am.Fish.Soc.Symp.14, Bethesda, MD:55-65|1993|
16418|A||Abdullah,A.R., R.P. Lim, and J.C. Chapman|Inhibition and Recovery of Acetylcholinesterase in Paratya australiensis Exposed to the Organophosphate Insecticide Chlorpyrifos|Fresenius Environ. Bull.2(12): 752-757|1993|
16419|A||Sanders,B.M., and L.S. Martin|Copper Inhibits the Induction of Stress Protein Synthesis by Elevated Temperatures in Embryos of the Sea Urchin Strongylocentrus purpuratus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.109(3): 295-307|1994|
16420|A||Beiras,R., and E. His|Effects of Dissolved Mercury on Embryogenesis, Survival, Growth and Metamorphosis of Crassostrea gigas Oyster Larvae|Mar. Ecol. Prog. Ser.113:95-103|1995|10.3354/meps113095
16421|A||Lindstrom-Seppa,P., P.J. Korytko, M.E. Hahn, and J.J. Stegeman|Uptake of Waterborne 3,3',4,4'-Tetrachlorobiphenyl and Organ and Cell-Specific Induction of Cytochrome P4501A in Adult and Larval Fathead Minnow Pimephales promelas|Aquat. Toxicol.25(3-4): 147-167|1994|10.1016/0166-445X(94)90031-0
16423|A||Buhl,K.J., and S.J. Hamilton|Toxicity of Inorganic Contaminants, Individually and in Environmental Mixtures, to Three Endangered Fishes (Colorado Squawfish, Bonytail, and Razorback Sucker)|Arch. Environ. Contam. Toxicol.30(1): 84-92|1996|10.1007/BF00211332
16424|A||Chen,J.C., and S.Y. Cheng|Hemolymph Osmolality, Acid-Base Balance, and Ammonia Excretion of Penaeus japonicus Bate Exposed to Ambient Nitrite|Arch. Environ. Contam. Toxicol.30(2): 151-155|1996|10.1007/BF00215792
16425|A||Nowak,B.|Relationship Between Endosulfan Residue Level and Ultrastructural Changes in the Liver of Catfish, Tandanus tandanus|Arch. Environ. Contam. Toxicol.30(2): 195-202|1996|10.1007/BF00215798
16426|A||Gargiulo,G., P. De Girolamo, L. Ferrara, O. Soppelsa, G. Andreozzi, R. Antonucci, and P. Battaglini|Action of Cadmium on the Gills of Carassius auratus L. in the Presence of Catabolic NH3|Arch. Environ. Contam. Toxicol.30(2): 235-240|1996|10.1007/BF00215803
16427|A||Yang,M.S., and J.A.J. Thompson|Binding of Endogenous Copper and Zinc to Cadmium-Induced Metal-Binding Proteins in Various Tissues of Perna viridis|Arch. Environ. Contam. Toxicol.30(2): 267-273|1996|10.1007/BF00215807
16428|A||Ogle,R.S., and A.W. Knight|Selenium Bioaccumulation in Aquatic Ecosystems: 1. Effects of Sulfate on the Uptake and Toxicity of Selenate in Daphnia magna|Arch. Environ. Contam. Toxicol.30(2): 274-279|1996|10.1007/BF00215808
16429|A||Christiansen,R., and K.H. Palmork|Distribution and Elimination of [14C] in Saithe (Pollachius virens L.) After Application of a Single Dose of [14C]Polyhexamethylene|Bull. Environ. Contam. Toxicol.56(1): 121-128|1996|10.1007/s001289900018
16430|A||Schultz,T.W., S.E. Bryant, and T.S. Kissel|Toxicological Assessment in Tetrahymena of Intermediates in Aerobic Microbial Transformation of Toluene and p-Xylene|Bull. Environ. Contam. Toxicol.56(1): 129-134|1996|10.1007/s001289900019
16431|A||Liu,Z.T., Z.M. Kong, F. Zhou, and L.S. Wang|Bioconcentration and Toxicity Effect on Lipid Content of Aquatic Organisms|Bull. Environ. Contam. Toxicol.56(1): 135-142|1996|10.1007/s001289900020
16432|A||DeYoung,D.J., J.A. Bantle, M.A. Hull, and S.L. Burks|Differences in Sensitivity to Developmental Toxicants as seen in Xenopus and Pimephales Embryos|Bull. Environ. Contam. Toxicol.56(1): 143-150|1996|10.1007/s001289900021
16433|A||Bjork,M., and M. Gilek|Uptake and Elimination of 14C-Phenanthrene by the Blue Mussel Mytilus edulis L. at Different Algal Concentrations|Bull. Environ. Contam. Toxicol.56(1): 151-158|1996|10.1007/s001289900022
16434|A||Machera,K., E. Cotou, and P. Anastassiadou|Fenbutatin Acute Toxicity on Artemia nauplii: Effects of Sublethal Concentrations on ATPase Activity|Bull. Environ. Contam. Toxicol.56(1): 159-164|1996|10.1007/s001289900023
16435|A||Emery,V.L.,Jr., and T.M. Dillon|Chronic Toxicity of Phenanthrene to the Marine Polychaete Worm, Nereis (Neanthes) arenaceodentata|Bull. Environ. Contam. Toxicol.56(2): 265-270|1996|10.1007/s001289900040
16436|A||Barahona,M.V., and S. Sanchez-Fortun|Comparative Sensitivity of Three Age Classes of Artemia salina Larvae to Several Phenolic Compounds|Bull. Environ. Contam. Toxicol.56(2): 271-278|1996|10.1007/s001289900041
16437|A||Mackey,A.P., and M. Hodgkinson|Assessment of the Impact of Naphthalene Contamination on Mangrove Fauna Using Behavioral Bioassays|Bull. Environ. Contam. Toxicol.56(2): 279-286|1996|10.1007/s001289900042
16438|A||Neskovic,N.K., V. Poleksic, I. Elezovic, V. Karan, and M. Budimir|Biochemical and Histopathological Effects of Glyphosate on Carp, Cyprinus carpio L|Bull. Environ. Contam. Toxicol.56(2): 295-302|1996|10.1007/s001289900044
16439|A||Sujatha,C.H., S.M. Nair, and J. Chacko|Tributyltin Oxide Induced Physiological and Biochemical Changes in a Tropical Estuarine Clam|Bull. Environ. Contam. Toxicol.56(2): 303-310|1996|10.1007/s001289900045
16440|A||Kidder III,G.W., and A.A. McCoy|Electromyogram as a Measure of Heavy Metal Toxicity in Fresh Water and Salt Water Mussels|Bull. Environ. Contam. Toxicol.56(2): 311-318|1996|10.1007/s001289900046
16441|A||Gupta,M., and P. Chandra|Bioaccumulation and Physiological Changes in Hydrilla verticillata (l.f.) Royle in Response to Mercury|Bull. Environ. Contam. Toxicol.56(2): 319-326|1996|10.1007/s001289900047
16442|A||Vijayram,K., and P. Geraldine|Regulation of Essential Heavy Metals (Cu, Cr, and Zn) by the Freshwater Prawn Macrobrachium malcolmsonii (Milne Edwards)|Bull. Environ. Contam. Toxicol.56(2): 335-342|1996|10.1007/s001289900049
16443|A||Reddy,P.S., R.V. Katyayani, and M. Fingerman|Cadmium and Naphthalene-Induced Hyperglycemia in the Fiddler Crab, Uca pugilator: Differential Modes of Action on the Neuroendocrine System|Bull. Environ. Contam. Toxicol.56(3): 425-431|1996|10.1007/s001289900061
16444|A||Wan,M.T., R.G. Watts, M.B. Isman, and R. Strub|Evaluation of the Acute Toxicity to Juvenile Pacific Northwest Salmon of Azadirachtin, Neem Extract, and Neem-Based Products|Bull. Environ. Contam. Toxicol.56(3): 432-439|1996|10.1007/s001289900062
16445|A||Bianchini,A., W.,Jr. Wasielesky, and K.C. Miranda Filho|Toxicity of Nitrogenous Compounds to Juveniles of Flatfish Paralichthys orbignyanus|Bull. Environ. Contam. Toxicol.56(3): 453-459|1996|10.1007/s001289900065
16446|A||Zeba,M., M.A. Khan, and B.N. Rao|Uptake of Fenvalerate by the Ostracod Chrissia halyi (Ferguson)|Bull. Environ. Contam. Toxicol.56(3): 483-485|1996|10.1007/s001289900069
16447|A||Bowen III,W.J., and D.W. Engel|Effects of Protracted Cadmium Exposure on Gametes of the Purple Sea Urchin, Arbacia punctulata|Bull. Environ. Contam. Toxicol.56(3): 493-499|1996|10.1007/s001289900071
16448|A||Tripathi,R.D., U.N. Rai, M. Gupta, and P. Chandra|Induction of Phytochelatins in Hydrilla verticillata (l.f.) Royle Under Cadmium Stress|Bull. Environ. Contam. Toxicol.56(3): 505-512|1996|10.1007/s001289900073
16449|A||Rice,C.P., and H.C. Sikka|Fate of Dieldrin in Selected Species of Marine Algae|Bull. Environ. Contam. Toxicol.9(2): 116-123|1973|10.1007/BF01684766
16450|A||Shannon,L.R.|Accumulation and Elimination of Dieldrin in Muscle Tissue of Channel Catfish|Bull. Environ. Contam. Toxicol.17(6): 637-644|1977|10.1007/BF01685946
16451|A||Shannon,L.R.|Equilibrium Between Uptake and Elimination of Dieldrin by Channel Catfish, Ictalurus punctatus|Bull. Environ. Contam. Toxicol.17(3): 278-284|1977|10.1007/BF01686080
16453|A||Petrocelli,S.R., and J.W. Anderson|Biomagnification of Dieldrin Residues by Food-Chain Transfer from Clams to Blue Crabs Under Controlled Conditions|Bull. Environ. Contam. Toxicol.13(1): 108-116|1975|10.1007/BF01684873
16454|A||Hussein,M.F., N. Badir, and R. Boulos|Studies on the Effect of Insecticides on Some Egyptian Freshwater Fishes II. On the Effect of DDT on Tilapia zilli|Bull. Zool. Soc. Egypt18:15-20|1963|
16455|A||Roberts,K.S., A. Cryer, J. Kay, J.F.L.G. Solbe, J.R. Wharfe, and W.R. Simpson|The Effects of Exposure to Sub-lethal Concentrations of Cadmium on Enzyme Activities and Accumulation of the Metal in Tissues and Organs of Rainbow and Brown Trout (Salmo gairdneri, Richardson and Salmo trutta fario L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.62:135-140|1979|10.1016/0306-4492(79)90001-7
16456|A||Matsushima,O., Y. Hayashi, H. Katayama, K. Yamada, and Y. Kado|Effect of Metabolic Inhibitors on Hyperosmotically Induced Free Amino Acid Accumulation in the Isolated Foot Muscle of the Brackish-Water Bivalve|Comp. Biochem. Physiol. A Comp. Physiol.79(4): 685-690|1984|10.1016/0300-9629(84)90469-9
16457|A||Nelson,F.R.S., J. Gray, and F. Aikhionbare|Tolerance of the Planarian Dugesia tigrina (Tricladida: Turbellaria) to Pesticides and Insect Growth Regulators in a Small-Scale Field Study|Am. Mosq. Control Assoc. J.10(1): 104-105|1994|
16458|A||Napolitano,G.E., W.R. Hill, J.B. Guckert, A.J. Stewart, S.C. Nold, and D.C. White|Changes in Periphyton Fatty Acid Composition in Chlorine-Polluted Streams|J. North Am. Benthol. Soc.13(2): 237-249|1994|10.2307/1467242
16459|A||Xu,D., and W.A. Rogers|Formaldehyde Residue in Striped Bass Muscle|J. Aquat. Anim. Health5(4): 306-312|1993|10.1577/1548-8667(1993)005<0306:FRISBM>2.3.CO;2
16460|A||Isono,R.S., Y. Itoh, H. Kinoshita, and K. Kido|Acute Toxicity of Ozone-Produced Oxidants to Eggs and Larvae of Japanese Whiting Sillago japonica|Nippon Suisan Gakkaishi (Multiple Languages)59(9): 1527-1533|1993|10.2331/suisan.59.1527
16461|A||DuBois,R.B., and W.H. Blust|Effects of Lampricide Treatments, Relative to Environmental Conditions, on Abundance and Sizes of Salmonids in a Small Stream|N. Am. J. Fish. Manag.14(1): 162-169|1994|10.1577/1548-8675(1994)014<0162:EOLTRT>2.3.CO;2
16463|A||Miramand,P., S.W. Fowler, and J.C. Guary|Experimental Study on Vanadium Transfer in the Benthic Fish Gobius minutus|Mar. Biol.114(3): 349-353|1992|10.1007/BF00350025
16464|AT||Lilly,J.H., and J.E. Downey|Annual Progress Report on Cooperative Project on Effects of Sevin and DDT on Harmful and Beneficial Arthropods of Forests and on Wildlife|Manuscript, Univ.of Massachusetts, Amherst, MA:22 p.|1961|
16465|A||Das,B.K., and A. Kaviraj|Influence of Potassium Permanganate, Cobalt Chloride, and Dietary Supplement of Vitamin B Complex on the Histopathological Changes in Gill Epithelium|Prog. Fish-Cult.56(4): 265-268|1994|10.1577/1548-8640(1994)056<0265:IOPPCC>2.3.CO;2
16466|A||Thomas,R.G., and W.R. Wolters|Factors Affecting the Survival of Fingerling Red Drum in Freshwater Ponds|Prog. Fish-Cult.54(4): 215-219|1992|10.1577/1548-8640(1992)054<0215:FATSOF>2.3.CO;2
16467|A||Black,M.C., W. Burton, J.F. McCarthy, M.J. Peterson, and G.R. Southworth|Accumulation of Contaminants by Biota in East Fork Poplar Creek|In: Oak Ridge Y12 Plant, Environ.Sci.Div.Publ.No.3859, Oak Ridge Natl.Lab., Oak Ridge, TN4:109-172|1993|
16469|A||Targett,N.M., and W.R. Stochaj|Natural Antifoulants and Their Analogs:  Applying Nature's Defense Strategies to Problems of Biofouling Control|In: M.F.Thompson, R.Nagabhushanam, R.Sarojini, and M.Fingerman (Eds.), Recent Developments in Biofouling Control, Oxford & IBH Publ.Co., New Delhi, India:221-228|1994|
16470|A||Rittschof,D., N. Sasikumar, D. Murlless, A.S. Clare, D. Gerhart, and J. Bonaventura|Mixture Interactions of Lactones and Furans and a Commercial Biocide: Toxicity and Antibarnacle Settlement Activity|In: M.F.Thompson, R.Nagabhushanam, R.Sarojini, and M.Fingerman (Eds.), Recent Developments in Biofouling Control, Oxford & IBH Publ.Co., New Delhi, India:269-274|1994|
16471|A||Shofer,S.L., and R.S. Tjeerdema|Comparative Disposition and Biotransformation of Pentachlorophenol in the Oyster (Crassostrea gigas) and Abalone (Haliotis fulgens)|Pestic. Biochem. Physiol.46(2): 85-95|1993|10.1006/pest.1993.1040
16472|A||Moffett,J.W., and L.E. Brand|Production of Strong, Extracellular Cu Chelators by Marine Cyanobacteria in Response to Cu Stress|Limnol. Oceanogr.41(3): 388-395|1996|10.4319/lo.1996.41.3.0388
16473|A||Nasci,R.S., G.B. Wright, and F.S. Willis|Control of Aedes albopictus Larvae Using Time-Release Larvicide Formulations in Louisiana|Am. Mosq. Control Assoc. J.10(1): 1-6|1994|
16474|A||Xylander,M., H. Augsten, and K.J. Appenroth|Influence of Nickel on the Life Cycle of the Duckweed Spirodela polyrhiza (L.) Schleiden|J. Plant Physiol.142:208-213|1993|10.1016/S0176-1617(11)80965-X
16475|A||Pawlisz,A.V., and R.H. Peters|A Radioactive Tracer Technique for the Study of Lethal Body Burdens of Narcotic Organic Chemicals in Daphnia magna|Environ. Sci. Technol.27(13): 2795-2800|1993|10.1021/es00049a019
16476|A||Dalla Venezia,L.|Study of Osmoregulation Mechanisms in Marine Invertebrates Under Polluted Conditions|MAP Tech. Rep. Ser. (Multiple Languages)79:65-77|1994|
16477|A||Kouril,J., and J. Hamackova|The Sensitivity of Common Carp (Cyprinus carpio) Tench (Tinca tinca), European Catfish (Silurus glanis) and African Catfish (Clarias gariepinus) Eggs|In: Z.Adamek and M.Flajshans (Eds.), Proc.of the Sci.Conf.Fish Reproduction, Mar.2-4, 1992, Vodnany, Czechoslovakia:126-127|1992|
16478|A||Schwarzschild,A.C., W.G. MacIntyre, K.A. Moore, and E.L. Libelo|Zostera marina L. Growth Response to Atrazine in Root-Rhizome and Whole Plant Exposure Experiments|J. Exp. Mar. Biol. Ecol.183(1): 77-89|1994|10.1016/0022-0981(94)90158-9
16479|A||Syasina,I.G., and O.N. Lukyanova|Ultrastructural and Biochemical Changes in Gonads of the Scallop Mizuhopecten yessoensis:  Results of Cadmium Accumulation|Russ. J. Mar. Biol.19(4): 68-77|1993|
16480|A||Hassan,R.|Acute Ammonia Toxicity of Red Tilapia and Seabass|Jabatan Perikanan Dep.of Fish., Ministry of Agriculture, Malaysia, Fisheries Bulletin No.73:8-|1992|
16481|A||Taysse,L., D. Troutaud, N.A. Khan, and P. Deschaux|Structure-Activity Relationship of Phenolic Compounds (Phenol, Pyrocatechol and Hydroquinone) on Natural Lymphocytotoxicity of Carp (Cyprinus carpio)|Toxicology98(1-3): 207-214|1995|10.1016/0300-483X(94)03011-P
16483|A||Guo,J.J., and I.C. Liao|Toxicity of Copper Sulfate to Juvenile Grass Prawn, Penaeus monodon|COA (Counc. Agric.) Fish. Ser.33:1-7|1992|
16484|A||Gayatri,R., and S. Chatterjee|Phagocytic Activity of Dictyostelium Amoebae Treated with an Organochlorine Pesticide|Cell Biol. Int.17(3): 349-352|1993|10.1006/cbir.1993.1071
16485|A||Cajaraville,M.P., A. Recio, V. Saez, and J.A. Marigomez|Acute Toxicity of Two Hydroxylated Hydrocarbons to the Prosobranch Gastropod Littorina littorea|Mar. Biol.53(2-3): 745-748|1989|
16486|A||Smatresk,N.J.|Ventilatory and Cardiac Reflex Responses to Hypoxia and NaCN in Lepisosteus osseus, an Air-Breathing Fish|Physiol. Zool.59(4): 385-397|1986|10.1086/physzool.59.4.30158592
16487|A||Bose,S., P. Ghosh, S. Ghosh, and S. Bhattacharya|Distribution Kinetics of Inorganic Mercury in the Subcellular Fractions of Fish Liver|Sci. Total Environ.Suppl. 1/2:533-538|1993|10.1016/S0048-9697(05)80055-5
16488|A||Calderon Llanten,C.E., and H. Greppin|Toxicity Tests of Zn, Cu, and Pb with Chlorella rubescens, Chod:  Using Super(31)P NMR (Test d'ecotoxicite du Zn,Cu et Pb chez Chlorella Rubescens, Chod:  Utilisation de la RMN31P)|Arch. Sci. (Geneva)46(2): 249-258|1993|
16489|A|OECDG|Wofford,H.W., C.D. Wilsey, G.S. Neff, C.S. Giam, and J.M. Neff|Bioaccumulation and Metabolism of Phthalate Esters by Oysters, Brown Shrimp, and Sheepshead Minnows|Ecotoxicol. Environ. Saf.5(2): 202-210|1981|10.1016/0147-6513(81)90035-X
16491|A||Soin,S.G., O.P. Danil'chenko, and A.S. Khandal|Combined Effect of Salinity and Triethyl Stannic Chloride on the Development of the Marine Forms of Three-Spine Stickleback, Gasterosteus aculeatus|J. Ichthyol.24(4): 26-34|1984|
16493|A||Tsonis,P.A.|Neural Fold Abnormalities Induced in Newt Embryos by a Carcinogen|Can. J. Zool.63(8): 1989-1990|1985|10.1139/z85-291
16494|A||Verma,S.R., I.P. Tonk, A.K. Gupta, and R.C. Dalela|In Vivo Enzymatic Alterations in Certain Tissues of Saccobranchus fossilis Following Exposure to Four Toxic Substances|Environ. Pollut. A.26(2): 121-127|1981|10.1016/0143-1471(81)90042-8
16495|A||Verma,S.R., S. Rani, and R.C. Dalela|Responses of Serum Transaminases in Notopterus notopterus Chronically Exposed to Phenolic Compounds and Their Combinations|Environ. Res.24(1): 218-223|1981|10.1016/0013-9351(81)90147-X
16496|A||Hamilton,S.J., and T.A. Haines|Influence of Fluoride on Aluminum Toxicity to Atlantic Salmon (Salmo salar)|Can. J. Fish. Aquat. Sci.52(11): 2432-2444|1995|10.1139/f95-834
16497|A||Monosson,E., R.G. Hogson, W.J. Fleming, and C.V. Sullivan|Blood Plasma Levels of Sex Steroid Hormones and Vitellogenin in Striped Bass (Morone saxatilis) Exposed to 3,3',4,4'-Tetrachlorobiphenyl (TCB)|Bull. Environ. Contam. Toxicol.56(5): 782-787|1996|10.1007/s001289900114
16500|A||Englund,V.P.M., and M.P. Heino|The Freshwater Mussel (Anodonta anatina) in Monitoring of 2,3,6-Trichlorophenol: Behaviour and Environmental Variation Considered|Chemosphere32(2): 391-403|1996|10.1016/0045-6535(95)00333-9
16501|A||Guilhermino,L., M.C. Lopes, A.P. Carvalho, and A.M.V.M. Soares|Inhibition of Acetylcholinesterase Activity as Effect Criterion in Acute Tests with Juvenile Daphnia magna|Chemosphere32(4): 727-738|1996|10.1016/0045-6535(95)00360-6
16503|A||Wellnitz,T.A., and S.P. Sheldon|The Effects of Iron and Manganese on Diatom Colonization in a Vermont Stream|Freshw. Biol.34(3): 465-470|1995|10.1111/j.1365-2427.1995.tb00903.x
16504|A||Hornstrom,E., A. Harbom, F. Edberg, and C. Andren|The Influence of pH on Aluminium Toxicity in the Phytoplankton Species Monoraphidium dybowskii and M. griffithii|Water Air Soil Pollut.85(2): 817-822|1995|10.1007/BF00476930
16505|A||Sanders,B.M., J. Nguyen, L.S. Martin, S.R. Howe, and S. Coventry|Induction and Subcellular Localization of Two Major Stress Proteins in Response to Copper in the Fathead Minnow Pimephales promelas|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.112(3): 335-343|1995|
16506|A||Dorgelo,J., H. Meester, and C. Van Velzen|Effects of Diet and Heavy Metals on Growth Rate and Fertility in the Deposit-Feeding Snail Potamopyrgus jenkinsi (Smith) (Gastropoda:  Hydrobiidae)|Hydrobiologia (Multiple Languages)316(3): 199-210|1995|10.1007/BF00017437
16507|A||Buchwalter,D.B., G. Linder, and L.R. Curtis|Modulation of Cupric Ion Activity by pH and Fulvic Acid as Determinants of Toxicity in Xenopus laevis Embryos and Larvae|Environ. Toxicol. Chem.15(4): 568-573|1996|10.1002/etc.5620150423
16508|A||Gardner,S.C., and C.E. Grue|Effects of Rodeo and Garlon 3A on Nontarget Wetland Species in Central Washington|Environ. Toxicol. Chem.15(4): 441-451|1996|10.1002/etc.5620150406
16509|A||Stouthart,X.J.H.X., J.L.M. Haans, R.A.C. Lock, and S.E. Wendelaar Bonga|Effects of Water pH on Copper Toxicity to Early Life Stages of the Common Carp (Cyprinus carpio)|Environ. Toxicol. Chem.15(3): 376-383|1996|10.1002/etc.5620150323
16510|A||Pickering,Q.H., J.M. Lazorchak, and K.L. Winks|Subchronic Sensitivity of One-, Four-, and Seven-Day-Old Fathead Minnow (Pimephales promelas) Larvae to Five Toxicants|Environ. Toxicol. Chem.15(3): 353-359|1996|
16511|A||Dobbs,M.G., D.S. Cherry, and J.,Jr. Cairns|Toxicity and Bioaccumulation of Selenium to a Three-Trophic Level Food Chain|Environ. Toxicol. Chem.15(3): 340-347|1996|
16512|A||Postma,J.F., P. Van Nugteren, and M.B. Buckert-De Jong|Increased Cadmium Excretion in Metal-Adapted Populations of the Midge Chironomus riparius (Diptera)|Environ. Toxicol. Chem.15(3): 332-339|1996|
16513|A||Barry,M.J., D.C. Logan, J.T. Ahokas, and D.A. Holdway|Effect of Algal Food Concentration on Toxicity of Two Agricultural Pesticides to Daphnia carinata|Ecotoxicol. Environ. Saf.32(3): 273-279|1995|10.1006/eesa.1995.1114
16514|A||Oliveira Ribeiro,C.A., and R.F. Torres|Acute Effects Evaluation of HgCl2 on Epidermis of Trichomycterus brasiliensis (Siluroidei; Trichomycteridae)|Ecotoxicol. Environ. Saf.32(3): 260-266|1995|10.1006/eesa.1995.1112
16515|A||Grouselle,M., T. Grollier, A. Feurtet-Mazel, F. Ribeyre, and A. Boudou|Herbicide Isoproturon-Specific Binding in the Freshwater Macrophyte Elodea densa - A Single-Cell Fluorescence Study|Ecotoxicol. Environ. Saf.32(3): 254-259|1995|10.1006/eesa.1995.1111
16516|A||Brumley,C.M., V.S. Haritos, J.T. Ahokas, and D.A. Holdway|Metabolites of Chlorinated Syringaldehydes in Fish Bile as Biomarkers of Exposure to Bleached Eucalypt Pulp Effluents|Ecotoxicol. Environ. Saf.33(3): 253-260|1996|10.1006/eesa.1996.0032
16517|A||Looise,B.A.S., D.A. Holwerda, and E.M. Foekema|Induction of Glutathione S-Transferse in the Freshwater Bivalve Sphaerium corneum as a Biomarker for Short-Term Toxicity Tests?|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(1): 103-107|1996|
16518|A||Tsuda,T., M. Kojima, H. Harada, A. Nakajima, and S. Aoki|Accumulation and Excretion of Fenthion, Fenthion Sulfoxide and Fenthion Sulfone by Killifish (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(1): 45-49|1996|
16519|A||Hansen,H.J.M., A.G. Olsen, and P. Rosenkilde|The Effect of Cu on Gill and Esophagus Lipid Metabolism in the Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(1): 23-29|1996|
16520|A||Okay,O.S., and A. Gaines|Toxicity of 2,4-D Acid to Phytoplankton|Water Res.30(3): 688-696|1996|10.1016/0043-1354(95)00195-6
16522|A||Roman,G., A. Rudolph, J. Morillas, and R. Ahumada|Observations on Sublethal and Acute Toxicity on Choromytilus chorus (Molina, 1782), Produced by Tributyltin (TBT)|Bol. Soc. Biol. Concep.63:175-184|1992|
16524|A||Gerhardt,A., and F. Westermann|Effects of Precipitations of Iron Hydroxides on Leptophlebia marginata (L.) (Insecta: Ephemeroptera) in the Field|Arch. Hydrobiol.133(1): 81-93|1995|10.1127/archiv-hydrobiol/133/1995/81
16527|A||Upatham,E.S.|Field Studies on Slow-Release TBTO-Pellets (Biomet SRM) Against St. Lucian Biomphalaria glabrata|In: Proc. of the Int. Controlled Release Pesticide Symp. , Sept. 8-10, 1975, Dayton, OH:189-195|1975|
16528|A||Samuel,K., and S. Bose|Immediate Effects of Pyridazinone Herbicides on Photosynthetic Electron Transport in Algal Systems|J. Biosci.12(3): 211-218|1987|10.1007/BF02703065
16532|A||Van der Merwe,M., J.H.J. Van Vuren, and H.H. Du Preez|Lethal Copper Concentration Levels for Clarias gariepinus (Burchell, 1822) - a Preliminary Study|Koedoe36(2): 77-86|1993|10.4102/koedoe.v36i2.376
16533|A||Marking,L.L., J.J. Rach, and T.M. Schreier|Evaluation of Antifungal Agents for Fish Culture|Prog. Fish-Cult.56(4): 225-231|1994|10.1577/1548-8640(1994)056<0225:AFSEOA>2.3.CO;2
16534|A||Ichikawa,S., Y. Wakao, and Y. Fukuyo|Hydrogen Peroxide as an Extermination Agent Against Cysts of Red Tide and Toxic Dinoflagellates|In: T.J.Smayda and Y.Shimizu (Eds.), Phytoplankton Blooms in the Sea, Elsevier Sci.Publ., Amsterdam, Netherlands3:133-138|1993|
16535|A||Eklund,B.|A 7-Day Reproduction Test with the Marine Red Alga Ceramium strictum|Sci. Total Environ.Suppl.1/2:749-759|1993|10.1016/S0048-9697(05)80079-8
16536|A||Henderson,R.S.|Marine Microcosm Experiments on Effects of Copper and Tributyltin-Based Antifouling Paint Leachates|Tech.Rep.No.1060, U.S.Naval Ocean Systems Center, San Diego, CA:51 p.|1988|
16537|A||Wirgin,I.I., G.L. Kreamer, C. Grunwald, K. Squibb, S.J. Garte, and S. Courtenay|Effects of Prior Exposure History on Cytochrome P4501A mRNA Induction by PCB Congener 77 in Atlantic Tomcod|Mar. Environ. Res.34(1-4): 103-108|1992|10.1016/0141-1136(92)90091-Y
16538|A||Chopite,J., and O.A. Nusetti|The Effects of Zinc and Salinity Change on the Proteins Contents RRN, ADN and Maximum Activity of Glucolitic and Oxidative Enzymes in the Juveniles|Bol. Inst. Esp. Oceanogr.28(1-2): 151-158|1989|
16539|A||Snell,T.W., B.D. Moffat, C. Janssen, and G. Persoone|Acute Toxicity Tests Using Rotifers. III. Effects of Temperature, Strain, and Exposure Time on the Sensitivity of Brachionus plicatilis|Environ. Toxicol. Water Qual.6(1): 63-75|1991|10.1002/tox.2530060106
16540|A||Khan,A.A., M.M. Schuler, L.M. George, C.J.L. Seniuk, and J.W. Moore|Mitochondrial Enzymes and Mixed Function Oxidases as Bioindicators of Xenobiotic Exposure in Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1942:60-67|1993|
16541|A||Heath,A.G., J.J. Cech, J.G. Zinkl, B. Finlayson, and R. Fujimura|Sublethal Effects of Methyl Parathion, Carbofuran, and Molinate on Larval Striped Bass|Am. Fish. Soc. Symp.14:17-28|1993|
16542|A||Diggles,B.K., F.R. Roubal, and R.J.G. Lester|The Influence of Formalin, Benzocaine and Hyposalinity on the Fecundity and Viability of Polylabroides multispinosus (Monogenea: Microcotylidae) Parasitic on the Gills of Acanthopagrus australis (Pisces:Sparidae)|Int. J. Parasitol.23(7): 877-884|1993|10.1016/0020-7519(93)90053-2
16543|A||Andersen,J.L., and M.H. Depledge|Arsenic Accumulation in the Shore Crab Carcinus maenas: The Influence of Nutritional State, Sex and Exposure Concentration|Mar. Biol.118(2): 285-292|1994|10.1007/BF00349796
16544|A||Parks,L.G., and G.A. LeBlanc|Reductions in Steroid Hormone Biotransformation/Elimination as a Biomarker of Pentachlorophenol Chronic Toxicity|Aquat. Toxicol.34(4): 291-303|1996|10.1016/0166-445X(95)00045-6
16545|A||Zelikoff,J.T., D. Bowser, K.S. Squibb, and K. Frenkel|Immunotoxicity of Low Level Cadmium Exposure in Fish: An Alternative Animal Model for Immunotoxicological Studies|J. Toxicol. Environ. Health45(3): 235-248|1995|10.1080/15287399509531993
16547|A||Oh,H.S., S.K. Lee, Y.H. Kim, and J.K. Roh|Mechanism of Selective Toxicity of Diazinon to Killifish (Oryzias latipes) and Loach (Misgurnus anguillicaudatus)|ASTM Spec. Tech. Publ.14:343-353|1991|
16548|A||Bringmann,G., and R. Kuhn|Quantitative Determination of the Injurious Effect of Phenylurea Herbicides on Algae (Model Organism: Scenedesmus quadricauda)|TR-79-0413, Literature Research Company, Annandale, VA:7 p.|1974|
16550|A||Gonzalez,H., M. Lodenius, and L. Martinez|Removal of Mercury from Polluted Waters by the Water Hyacinth (Eichhornia crassipes)|Chem. Ecol.9(1): 7-12|1994|10.1080/02757549408038558
16551|A||Bollman,M.A., W.K. Baune, S. Smith, K. DeWhitt, and L. Kapustka|Report on Algal Toxicity Tests on Selected Office of Toxic Substances (OTS) Chemicals|EPA 600/3-90-041, U.S.EPA, Corvallis, OR:186 p.|1989|
16552|A||Subburaju,S., and V.R. Selvarajan|Sublethal Effect of Phosphamidon on the Protein Content in Different Regions of Brain of Tilapia mossambica|Indian J. Comp. Anim. Physiol.5(2): 61-65|1987|
16553|A||Surendranath,P., T.R. Babu, and K.V.R. Rao|Toxicity of Kelthane and Its Impact on Behavioral Responses of Penaeid Prawn Metapenaeus monoceros|Environ. Ecol.5(4): 782-785|1987|
16554|A||Surendranath,P., T.R. Babu, K.S. Babu, and K.V.R. Rao|Impact of Kelthane on Respiratory Potentials in Penaeid Prawn Penaeus indicus|Environ. Ecol.5(3): 595-597|1987|
16555|A||Levine,S.L., J.T. Oris, and T.E. Wissing|Comparison of P-4501A1 Monooxygenase Induction in Gizzard Shad (Dorosoma cepedianum) Following Intraperitoneal Injection or Continuous Waterborne|Aquat. Toxicol.30(1): 61-75|1994|10.1016/0166-445X(94)90006-X
16556|A||Surendranath,P., V. Sekhar, and K.V.R. Rao|Effect of Commercial and Technical Grade Kelthane on Nitrogen Metabolism of Penaeid Prawn, Penaeus indicus (H. Milne Edwards)|Natl. Acad. Sci. Lett.10(10): 365-369|1987|
16557|A||Swain,N., B. Rath, and S.P. Adhikary|Growth Response of the Cyanobacterium Microcystis aeruginosa to Herbicides and Pesticides|J. Basic Microbiol.34(3): 197-204|1994|10.1002/jobm.3620340311
16558|A||Swaroop,A., and R.R. Upadhyay|HCH Produces Marked Basophilia in the Liver of Heteropneustes fossilis (Bloch)|J. Adv. Zool.6(2): 114-115|1985|
16559|A||Noamesi,G.K.|The Tube Bioassay Technique in Tests to Evaluate Entomologically the Effects of Simulium Control Operations in Northwest Ghana|Ghana Med. J.3:163-165|1964|
16560|A||Taylor,E.J., E.M. Rees, and D. Pascoe|Mortality and a Drift-Related Response of the Freshwater Amphipod Gammarus pulex (L.) Exposed to Natural Sediments, Acidification and Copper|Aquat. Toxicol.29(1-2): 83-101|1994|10.1016/0166-445X(94)90050-7
16561|A||Vogt,G., and E.T. Quinitio|Accumulation and Excretion of Metal Granules in the Prawn, Penaeus monodon, Exposed to Water-Borne Copper, Lead, Iron and Calcium|Aquat. Toxicol.28(3-4): 223-241|1994|10.1016/0166-445X(94)90035-3
16562|A||Cha,S.S., and W.S. Kim|Effects of Herbicide Machete on Carp, Cyprinus carpio Linne|J. Korean Soc. Oceanogr.15(1): 49-57|1980|
16563|A||Hoegh-Guldberg,O.|Population Dynamics of Symbiotic Zooxanthallae in the Coral Pocillopora damicornis Exposed to Elevated Ammonium [(NH4)2SO4] Concentrations|Pac. Sci.48(3): 263-272|1994|
16564|A||Ruiz,J.M., G.W. Bryan, and P.E. Gibbs|Effects of Tributyltin (TBT) Exposure on the Veliger Larvae Development of the Bivalve Scrobicularia plana (da Costa)|J. Exp. Mar. Biol. Ecol.186(1): 53-63|1995|10.1016/0022-0981(94)00151-3
16565|A||Rao,K.J., K. Ramamurthi, and V.S.R. Murthy|Sublethal Chronic Effects of Phosphamidon on Functionally Active Tissue, the Gill of a Fresh Water Edible Fish, Tilapia mossambica|Int. J. Acad. Ichthyol.5(1-2): 23-26|1984|
16566|A||Moore,V.|Some Sublethal Effects of Fluoride Exposure on the Juvenile Steelhead Trout, Salmo gairdneri|M.S.Thesis, Idaho State University, Pocatello, ID:43 p.|1977|
16567|A||Rougier,F., A. Menudier, C. Bosgiraud, and J.A. Nicolas|Copper and Zinc Exposure of Zebrafish, Brachydanio rerio (Hamilton-Buchaman):  Effects in Experimental Listeria Infection|Ecotoxicol. Environ. Saf.34(2): 134-140|1996|10.1006/eesa.1996.0054
16568|A||Hanson,L.H., and P.J. Manion|Chemosterilization of the Sea Lamprey (Petromyzon marinus)|Tech.Rep.No.29, Great Lakes Fish.Comm., Ann Arbor, MI:15 p.|1978|
16569|A||Cook,R.H., R.A. Hoos, and R.P. Cote|The Toxicity of Copper and Zinc to Atlantic Salmon; Laboratory and Field Evaluations with Special Emphasis on High Water Hardness Concentrations|Manuscr.Rep.No.71-16, Resour.Dev.Branch, Environ.Can., Fish.Serv.Halifax, Nova Scotia:88 p.|1971|
16570|A||Hatfield,C.T.|Effects of Aerial Spraying with Sumithion and Phosphamidon on Salmon Brooks in Western and Central Newfoundland|Prog.Rep.No.59, Dep.of Fish.and For., Resour.Dev.Branch, St.Johns, Newfoundland:33 p.|1969|
16571|AT||Lake Ontario Environmental Laboratory|Environmental Impact Study of Aerially Applied Orthene (O,S-Dimethylacetylphosphoramidothioate) on a Forest and Aquatic Ecosystem|LOTEL Report No. 174 (Final Report), State University College, Oswego, NY:231 p.|1975|
16572|A||Janssen,C.R., G. Persoone, and T.W. Snell|Cyst-Based Toxicity Tests.  VIII.  Short-Chronic Toxicity Tests with the Freshwater Rotifer Brachionus calyciflorus|Aquat. Toxicol.28(3/4): 243-258|1994|10.1016/0166-445X(94)90036-1
16573|T||Rozhaja,D.A., F. Halili, V. Pantic, and I. Elezaj|Organisms for Monitoring Contamination with Heavy Metals|In: Selected Aspects of Exposure to Heavy Metals in the Environment: Monitors, Indicators, and High Risk Groups, National Academy of Sciences, Washington, DC:85-93|1987|
16575|A||Patrick,R.|The Effects of Trace Metals on the Shifts of Algal Communities|In: Selected Aspects of Exposure to Heavy Metals in the Environment: Monitors, Indicators, and High Risk Groups, National Academy of Sciences, Washington, DC:76-84|1987|
16576|A||Lu,X., B. Sun, and Z. Shi|Study of Absorption of Mercury by Phaceodactylum tricornutum Interaction Between Mercury and Phytoplankton (II)|J. Ocean Univ. Qingdao20(4): 75-83|1990|
16579|A||Weirich,C.R., and J.R. Tomasso|Plasma and Brain Glutamine Concentrations Unsuitable as Clinical Indicators of Ammonia Toxicosis in Channel Catfish|J. Aquat. Anim. Health7:265-267|1995|10.1577/1548-8667(1995)007<0265:PABGCU>2.3.CO;2
16583|A||Schultz,T.W., T.S. Kissel, and M. Tichy|Structure-Toxicity Relationships for Unsaturated Alcohols to Tetrahymena pyriformis: 3-Alkyn-1-ols and 2-Alken-1-ols|Bull. Environ. Contam. Toxicol.53:179-185|1994|10.1007/BF00192030
16584|A||Schultz,T.W., G.D. Sinks, and R.S. Hunter|Structure-Toxicity Relationships for Alkanones and Alkenones|SAR QSAR Environ.Res.3:27-36|1995|10.1080/10629369508233991
16588|A||Tripathi,G., and S.P. Shukla|Toxicity of Endosulfan and Methyl Parathion to a Freshwater Catfish|Naturalia (Rio Claro)17:9-15|1992|
16589|A||Schuel,H., E. Goldstein, R. Mechoulam, A.M. Zimmerman, and S. Zimmerman|Anandamide (Arachidonylethanolamide), a Brain Cannabinoid Receptor Agonist, Reduces Sperm Fertilizing Capacity in Sea Urchins by Inhibiting the|Proc. Natl. Acad. Sci. U.S.A.91(16): 7678-7682|1994|10.1073/pnas.91.16.7678
16590|A||Verma,S.R., V. Kumar, and R.C. Dalela|Acute Toxicity of Three Newly Formulated Pesticides to Fish Mystus vittatus|Indian J. Environ. Health23(3): 215-221|1981|
16591|A||Ho,C.M., T.R. Hsu, J.Y. Wu, and C.H. Wang|Effect of Dimilin, a Chitin Synthesis Inhibitor, on the Growth and Development of Larvae of Aedes albopictus Skuse|Chin. J. Entomol.7:131-141|1987|
16592|A||Carvalho,F.P., and S.W. Fowler|A Double-Tracer Technique to Determine the Relative Importance of Water and Food as Sources of Polonium-210 to Marine Prawns and Fish|Mar. Ecol. Prog. Ser.103(3): 251-264|1994|10.3354/meps103251
16593|A||Waring,C.P., and J.A. Brown|Ionoregulatory and Respiratory Responses of Brown Trout, Salmo trutta, Exposed to Lethal and Sublethal Aluminium in Acidic Soft Waters|Fish Physiol. Biochem.14(1): 81-91|1995|10.1007/BF00004293
16594|A||Obiekezie,A.I., and P.O. Ajah|Chemotherapy of Macrogyrodactylosis in the Culture of African Clariid Catfishes Clarias gariepinus and Heterobranchus longifiliis|J. Aquacult. Trop.9(3): 187-192|1994|
16596|A||Shen,H., R. Xu, L. Peng, and C. Wang|Effects of Copper on Biochemical Components in Serum of Crucian Carp (Carassius auratus)|Haiyang Huzhao Tongbao1:55-61|1994|
16597|A||Tomasso,J.R., and G.J. Carmichael|Differential Resistance Among Channel Catfish Strains and Intraspecific Hybrids to Environmental Nitrite|J. Aquat. Anim. Health3(1): 51-54|1991|10.1577/1548-8667(1991)003<0051:DRACCS>2.3.CO;2
16598|A||Walker,C.R.|The Toxicological Effects of Herbicides and Weed Control on Fish and Other Organisms in the Aquatic Ecosystem|Int. Symp. Aquat. Weeds:119-127|1971|
16601|A||Janssen,C.R., E.Q. Espiritu, and G. Persoone|"Evaluation of the New ""Enzymatic Inhibition"" Criterion for Rapid Toxicity Testing with Daphnia magna"|In: A.Soares and P.Calow (Eds.), Progress in Standardization of Aquatic Toxicity Tests, Lewis Publ.:71-81|1993|
16602|A||Schultz,T.W., W.S. Wilke, S.E. Bryant, and L.M. Hosein|QSARs for Selected Aliphatic and Aromatic Amines|Sci. Total Environ.109/110:581-587|1991|10.1016/0048-9697(91)90211-V
16603|A||Takimura,O., H. Fuse, and Y. Yamaoka|Effect of Cadmium on the Accumulation of Arsenic in a Marine Green Alga, Dunaliella sp.|Appl. Organomet. Chem.6:363-367|1992|10.1002/aoc.590060409
16605|A||El Dib,M.A., I.A. El Elaimy, A. Kotb, and S.H. Elowa|Activation of In Vivo Metabolism of Malathion in Male Tilapia nilotica|Bull. Environ. Contam. Toxicol.57(4): 667-674|1996|10.1007/s001289900242
16606|A||Bray,D.F., J.R. Bagu, and K. Nakamura|Ultrastructure of Chlamydomonas reinhardtii Following Exposure to Paraquat: Comparison of Wild Type and a Paraquat-Resistant Mutant|Can. J. Bot.7(1): 174-182|1993|10.1139/b93-020
16607|A||Peterson,H.G.|Toxicity Testing Using a Chemostat-Grown Green Alga, Selenastrum capricornatum|ASTM Spec. Tech. Publ.:107-117|1991|
16608|A||Stuck,K.C., R.M. Overstreet, and J.M. Lotz|Effects of Antibiotics on the Growth and Survival of Larval Penaeus vannamei in a Small-Scale Experimental System|In: Aquaculture '92: Growing Toward the 21st Century, May 21-25, Orlando, FL:212|1992|
16609|A||Collodi,P., C.L. Miranda, X. Zhao, D.R. Buhler, and D.W. Barnes|Induction of Zebrafish (Brachydanio rerio) P450 In Vivo and in Cell Culture|Xenobiotica24(6): 487-493|1994|10.3109/00498259409043251
16610|A||Williams,R.R., T.A. Bell, and D.V. Lightner|Shrimp Antimicrobial Testing.  II.  Toxicity Testing and Safety Determination for Twelve Antimicrobials with Penaeid Shrimp Larvae|J. Aquat. Anim. Health4(4): 262-270|1992|10.1577/1548-8667(1992)004<0262:SATITT>2.3.CO;2
16611|A||Smith,V.R.P., S. George, and S.S. Manohardas|Monovalent Cation Flux in the Tissues of the Fish Cirrhina mrigala Exposed to Copper|J. Ecobiol.5(2): 121-125|1993|
16612|A||Rosicky,P., J. Kouril, and I. Prikryl|The Toxicity of Malachite Green (Helion) to the Early Fry of Bighead Carp (Aristichthys nobilis Rich.) Subjected to Short Preventive Baths|Bull. V. U. R. H. Vodnany (Non-English)24(3): 34-39|1988|
16613|A||Gao,S., and D. Zou|Acute Toxicity of Copper, Mercury and Chromium to Larvae of Penaeus penicillatus Alcock|Haiyang-Tongbao Shuangyuekan (Non-English)13(2): 28-32|1994|
16614|A||Rondelaud,D.|The Characteristics of Redial Generations in Lymnaea truncatula Exposed to Fasciola hepatica Miracidia after Poisoning by Sublethal Doses of Cupric|Vet. Res.26(1): 21-26|1995|
16615|A||Rosemarin,A., K.J. Lehtinen, M. Notiti, and J. Mattsson|Effects of Pulp Mill Chlorate on Baltic Sea Algae|Environ. Pollut.85(1): 3-13|1994|10.1016/0269-7491(94)90233-X
16616|A||Schoettger,R.A.|Fish-Pesticide Research Laboratory|Prog. Sport Fish. Res.121:2-17|1973|
16617|A||Greenwood,P.J.|The Influence of an Oil Dispersant Chemserve OSE-DH on the Viability of Sea Urchin Gametes. Combined Effects of Temperature, Concentration and|Aquat. Toxicol.4(1): 15-29|1983|10.1016/0166-445X(83)90058-9
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16620|A||Zang,W., X. Xu, X. Dai, and Z. Zhu|Acute Toxicity and Accumulation of Zn2+ on Young Freshwater Grouper (Cichlasoma managuense) and Bullfrog (Rana catesbeiana) Tadpole|Freshw. Fish.6:12-14|1992|
16621|A||Tanner,H.A., and M.L. Hayes|Evaluation of Toxaphene as a Fish Poison|Quarterly Rep.No.1, Colorado Coop.Fish.Res.Unit:31-39|1955|
16622|A||Jacob,J.P., and N.R. Menon|Effects of Organophosphates on the Life and Activity of the Black Clam, Villorita cyprinoides var. cochinensis (Hanley)|In: N.B.Nair (Ed.), Proc.of the Natl.Semin.on Estuarine Manage., June 4-5, 1987, Trivandrum, India:472-476|1987|
16623|A||Baby,K.V., and N.R. Menon|Combined Toxicity of Heavy Metals and Petroleum Hydrocarbons on Uca annulipes (Latreille)|In: N.B.Nair (Ed.), Proc.of the Natl.Semin.on Estuarine Manage., June 4-5, 1987, Trivandrum, India:486-491|1987|
16624|A||Selvakumar,S., S. Ajmalkhan, and R. Natarajan|Copper Toxicity on the Ontogeny of the Grapsid Crab Neoepisesarma (Neoepisesarma) mederi (H. Milne Edwards)|In: N.B.Nair (Ed.), Proc.Natl.Semin.on Estuarine Management, Jun.4-5, 1987, Trivandrum, India:468-471|1987|
16625|A||Rougier,F., D. Troutaud, A. Ndoye, and P. Deschaux|Non-specific Immune Response of Zebrafish, Brachydanio rerio (Hamilton-Buchanan) Following Copper and Zinc Exposure|Fish Shellfish Immunol.4:115-127|1994|10.1006/fsim.1994.1010
16626|A||Sultana,R., and V.U. Devi|Oxygen Consumption in a Catfish, Mystus gulio (Ham.) Exposed to Heavy Metals|J. Environ. Biol.16(3): 207-210|1995|
16627|A||Gundersen,D.T., S. Bustaman, W.K. Seim, and L.R. Curtis|pH, Hardness, and Humic Acid Influence Aluminum Toxicity to Rainbow Trout (Oncorhynchus mykiss) in Weakly Alkaline Waters|Can. J. Fish. Aquat. Sci.51:1345-1355|1994|10.1139/f94-134
16628|A||Landrum,P.F., M.D. Reinhold, S.R. Nihart, and B.J. Eadie|Predicting the Bioavailability of Organic Xenobiotics to Pontoporeia hoyi in the Presence of Humic and Fulvic Materials and Natural Dissolved Organic|Environ. Toxicol. Chem.4(4): 459-467|1985|10.1002/etc.5620040406
16629|A||Koivisto,S., M. Ketola, and M. Walls|Comparison of Five Cladoceran Species in Short- and Long-Term Copper Exposure|Hydrobiologia (Multiple Languages)248(2): 125-136|1992|10.1007/BF00006080
16631|A||Foy,M.G.|Acute Lethal Toxicity of Prudhoe Bay Crude Oil and Corexit 9527 to Arctic Marine Invertebrates and Fish from Frobisher Bay, N.W.T|Technol.Dev.Rep.No.EPS 4-EC-82-3, Environ.Can., Ottawa, Ontario:62 p.|1982|
16633|A||Adema,D.M.M., J. Kuiper, A.O. Hanstveit, and H.H. Canton|Consecutive System of Tests for Assessment of the Effects of Chemical Agents in the Aquatic Environment|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:537-544|1983|
16634|A||Chen,J.|Effects of Cu2+ of Larval Development of Sinonov acula constricta and Detoxification of EDTA|Taiwan Haixia (Multiple languages)8(3): 242-246|1989|
16635|A||Hunt,E.G., and A.I. Bischoff|Inimical Effects on Wildlife of Periodic DDD Applications to Clear Lake|Calif. Fish Game46(1): 91-106|1960|
16636|A||Stanek,Z., M. Penaz, and E. Wohlgemuth|Accumulation and Kinetics of 90Sr in Fishes and Other Components of an Artificial Aquatic System|Folia Zool.39(4): 375-383|1990|
16637|A||Mayasich,J.M., J.H. Kennedy, and J.S. O'Grodnick|Evaluation of the Ecological and Biological Effects of Tralomethrin Utilizing an Experimental Pond System|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:497-515|1994|
16638|A||Magagnini,G.|Effects of Mercury on the Marine Interstitial Species Nerilla antennata (Archiannelida, Nerillidae)|Boll. Zool.60(1): 69-72|1993|10.1080/11250009309355793
16639|A||Barber,I., D.J. Baird, and P. Calow|Effect of Cadmium and Ration Level on Oxygen Consumption, RNA Concentration and RNA-DNA Ratio in Two Clones of Daphnia magna Straus|Aquat. Toxicol.30(3): 249-258|1994|10.1016/0166-445X(94)90062-0
16640|A||Stambler,N., N. Popper, Z. Dubinsky, and J. Stimson|Effects of Nutrient Enrichment and Water Motion on the Coral Pocillopora damicornis|Pac. Sci.45(3): 299-307|1991|
16641|A||Salvesen,I., and O. Vadstein|Surface Disinfection of Eggs from Marine Fish: Evaluation of Four Chemicals|Aquac. Int.3:155-171|1995|10.1007/BF00118098
16642|A||Wang,J., C. Chen, and S. Tao|Effects of Copper and Fulvic Acid on the Growth of Green Algae|Shengtai Xuebao (Multiple Languages)12(3): 201-205|1992|
16643|A||Vuori,K.M.|Acid-Induced Acute Toxicity of Aluminium to Three Species of Filter Feeding Caddis Larvae (Trichoptera, Arctopsychidae and Hydropsychidae)|Freshw. Biol.35(1): 179-188|1996|10.1046/j.1365-2427.1996.00483.x
16644|A||Odzak,N., D. Martincic, T. Zvonaric, and M. Branica|Bioaccumulation Rate of Cd and Pb in Mytilus galloprovincialis Foot and Gills|Mar. Chem.46(1-2): 119-131|1994|10.1016/0304-4203(94)90050-7
16645|A||Muro,A.I.S., and R.M. Ali|Control of Onchocerciasis: Baseline Susceptibility Levels of Simulium damnosum Kisiwani Cytotype to Temephos, DDT and Chlorphoxim in Tanga, North|Ann. Med. Entomol.1(1): 7-10|1992|
16646|A||Salanki,J., and K.V. Balogh|Uptake and Release of Mercury and Cadmium in Various Organis of Mussels (Anodonta cygnea L.)|Symp. Biol. Hung.29:325-343|1985|
16647|A||Shealy,M.H.,Jr.|Limnological Effects of the Aquatic Herbicide Diquat Dibromide on Small Pools Stocked with Anacharis and Largemouth Bass|M.S.Thesis, Cornell University, Ithaca, NY:141 p.|1972|
16648|A||Gupta,A.K., A.M. Ranjana, and R.C. Dalela|Toxic Effects of Chlordane and Malathion on Certain Haematological Parameters of a Freshwater Teleost, Notopterus notopterus|J. Environ. Biol.16(3): 219-223|1995|
16650|A||Weis,J.S., and P. Weis|Trophic Transfer of Contaminants from Organisms Living by Chromated-Copper-Arsenate (CCA)-Treated Wood to Their Predators|J. Exp. Mar. Biol. Ecol.168(1): 25-34|1993|10.1016/0022-0981(93)90114-4
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16655|A||Tomlinson,T.G., J. Grindley, R. Collett, and M.J. Muirden|Control of Flies Breeding in Percolating Sewage Filters (Part 2)|J. Proc. Inst. Sewage Purif.2:127-139|1949|
16656|A||Payne,A.G.|Application of the Algal Assay Procedure in Biostimulation and Toxicity Testing|In: E.J.Middlebrooks, D.H.Falkenborg, and T.E.Maloney (Eds.), Biostimulation and Nutrient Assessment, Ann Arbor Sci., Ann Arbor, MI:3-27|1976|
16657|A||Aditya,A.K., and M.P. Bandyopadhyay|Mercuric Chloride Induced Changes in Dugesia bengalensis Kawakatsu, an Aquatic Planarian from Santiniketan, West Bengal|J. Environ. Biol.16(3):233-236|1995|
16658|A||Bakshi,N.|Toxicity Effect of Copper on the Survival, Behaviour and Histopathological Changes in the Liver, Intestine and Kidney in a Freshwater Teleost, Heteropneustes fossilis (Bloch)|Uttar Pradesh J. Zool.11(2): 117-120|1991|
16659|A||Vasuki,V.|Sublethal Effects of Hexaflumuron, an IGR on Developmental Duration and Sex-Ratio of Three Vector Mosquitoes|Trop. Biomed.10(1): 9-14|1993|
16660|A||Veltz,I., F. Arsac, S. Biagianti-Risbourg, F. Habets, H. Lechenault, and G. Vernet|Effects of Platinum (Pt1+) on Lumbriculus variegatus Muller (Annelida, Oligochaetae):  Acute Toxicity and Bioaccumulation|Arch. Environ. Contam. Toxicol.31(1): 63-67|1996|10.1007/BF00203908
16663|A||Ennevor,B.C.|Mass Marking Coho Salmon, Oncorhynchus kisutch, Fry with Lanthanum and Cerium|Fish. Bull.92(2): 471-473|1994|
16667|A||Bernhoft,A., H. Hektoen, J.U. Skaare, and K. Ingebrigtsen|Tissue Distribution and Effects on Hepatic Xenobiotic Metabolising Enzymes of 2,3,3',4,4'-Pentachlorobiphenyl (PCB-105) in Cod (Gadus morhua) and Rainbow Trout (Oncorhynchus mykiss)|Environ. Pollut.85:351-359|1994|10.1016/0269-7491(94)90058-2
16668|A||Moza,U., S.S. DeSilva, and B.M. Mitchell|Effect of Sub-lethal Concentrations of Cadmium on Food Intake, Growth and Digestibility in the Gold Fish, Carassius auratus L|J. Environ. Biol.16(3): 253-264|1995|
16671|A||Besselink,H.T., S. Van Beusekom, E. Roex, A.D. Vethaak, J.H. Koeman, and A. Brouwer|Low Hepatic 7-Ethoxyresorufin-O-Deethylase (EROD) Activity and Minor Alterations in Retinoid and Thyroid Hormone Levels in Flounder (Platichthys|Environ. Pollut.92(3): 267-274|1996|10.1016/0269-7491(95)00116-6
16672|A||Van Hummelen,P., C. Zoll, J. Paulussen, M. Kirsch-Volders, and A. Jaylet|The Micronucleus Test in Xenopus: A new and Simple In Vivo Technique for Detection of Mutagens in Fresh Water|Mutagenesis4(1): 12-16|1989|10.1093/mutage/4.1.12
16673|A||U.S.Department of the Interior|Effects of Pesticides|Quarterly Report, Fish and Wildlife Service, U.S. Department of the Interior:17 p.|1966|
16674|A||Virtanen,V., J. Kukkonen, and A. Oikari|Acute Toxicity of Organic Chemicals to Daphnia magna in Humic Waters|In: A.Oikari (Ed.), Nordic Symposium on Organic Environmental Chemicals, University of Joensuu, Finland29:84-86|1989|
16675|A||Bebianno,M.J., and W.J. Langston|Induction of Metallothionein Synthesis in the Gill and Kidney of Littorina littorea Exposed to Cadmium|J. Mar. Biol. Assoc. U.K.75(1): 173-186|1995|10.1017/S0025315400015289
16676|A||Tennekoon,K., K.A. Srikrishnaraj, and M.S. Ramasamy|Reserpine Induced Effects on Growth and Reproduction of Culex quinquefasciatus Mosquitoes (Diptera: Culicidae)|J. Natl. Sci. Counc. Sri Lanka22(2): 213-218|1994|
16677|A||Ostrowski-Meissner,H.T., B.R. LeaMaster, E.O. Duerr, and W.A. Walsh|Sensitivity of the Pacific White Shrimp, Penaeus vannamei, to Aflatoxin B1|Aquaculture131(3/4): 155-164|1995|10.1016/0044-8486(95)98125-U
16678|A||Giddings,J.M., R.C. Biever, R.L. Helm, G.L. Howick, and F.J.,Jr. De Noyelles|The Fate and Effects of Guthion (Azinphos Methyl) in Mesocosms|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:469-495|1994|
16679|A||Lage,O.M., A.M. Parente, H.M.V.M. Soares, M.T.S.D. Vasconcelos, and R. Salema|Some Effects of Copper on the Dinoflagellates Amphidinium carterae and Prorocentrum micans in Batch Culture|Eur. J. Phycol.29(4): 253-260|1994|10.1080/09670269400650711
16680|A||Runnstrom,J., and B. Hagstrom|The Effect of Some Oxidizing Agents upon Fertilization and Ensuing Development of the Sea Urchin Egg|Exp. Cell Res.7:327-344|1954|10.1016/S0014-4827(54)80080-2
16681|A||Zhang,M., F. Zhou, and S. Ding|Avoidance Response of Silver Carp (Hypophthalmichtyhs molitrix) to the Major Effluents and Their Organic Toxicants in Changzhou City|Nanjing Daxue Xuebao, Ziran Kexue (J. Nanjing Univ. , Nat. Sci. )25(4): 689-695|1989|
16682|A||Berner,T., and I. Izhaki|Effect of Exogenous Nitrogen Levels on Ultrastructure of Zooxanthellae from the Hermatypic Coral Pocillopora damicornis|Pac. Sci.48(3): 254-262|1994|
16683|A||Bussieres,D., R. Cote, C. Richard, and E. St.Pierre|Long-Term Copper Toxicity on Scenedesmus quadricauda and Complexing Polypeptides|Water Qual. Res. J. Can.30(2): 265-276|1995|10.2166/wqrj.1995.026
16684|A||Courtenay,S.C., P.J. Williams, C. Vardy, and I. Wirgin|Atlantic Tomcod (Microgadus tomcod) and Smooth Flounder (Pleuronectes putnami) as Indicators of Organic Pollution in the Miramichi Estuary|In: E.M.P.Chadwich (Ed.), Miramachi River Environmental Workshop, Can.Spec.Publ.Fish.Aquat.Sci.No.123, Natl.Res.Counc.Canada, Ottawa, Ont., Canada:211-227|1995|
16685|A||Li,A., X. Zhu, and Q. Lu|Acute and Subacute Toxicity of Three Antimicrobial Drugs on Grass Carp (Ctenopharyngodon idellus)|Trans. Res. Fish Dis. (Yubingxue Yanjiu Wenji)1:12-19|1993|
16686|A||Kobayashi,N., T.K. Naidenko, and M.A. Vashchenko|Standardization of a Bioassay Using Sea-Urchin Embryos|Russ. J. Mar. Biol.20(6): 351-357|1994|
16687|A||Kufcsak,O., T. Szegletes, G. Lang, K. Halasy, I. Benedeczky, and J. Nemcsok|Investigation of Effects of Pesticides on Molecular Forms of AChE in Alimentary Canals of Carp|Pestic. Biochem. Physiol.49(3): 155-163|1994|10.1006/pest.1994.1043
16688|A||Scott,K., M.J. Leaver, and S.G. George|Regulation of Hepatic Glutathione S-Transferase Expression in Flounder|Mar. Environ. Res.34(1-4): 233-236|1992|10.1016/0141-1136(92)90113-Z
16689|A||Stouthart,J.H.X., F.A.T. Spanings, R.A.C. Lock, and S.E. Wendelaar Bonga|Effects of Low Water pH on Lead Toxicity to Early Life Stages of the Common Carp (Cyprinus carpio)|Aquat. Toxicol.30(2): 137-151|1994|10.1016/0166-445X(94)90010-8
16690|A||Van Vuren,J.H.J., M. Van der Merwe, and H.H. Du Preez|The Effect of Copper on the Blood Chemistry of Clarias gariepinus (Clariidae)|Ecotoxicol. Environ. Saf.29(2): 187-199|1994|10.1016/0147-6513(94)90019-1
16692|A||Kraak,M.H.S., M. Toussaint, D. Lavy, and C. Davids|Short-Term Effects of Metals on the Filtration Rate of the Zebra Mussel Dreissena polymorpha|Environ. Pollut.84:139-143|1994|10.1016/0269-7491(94)90096-5
16693|A||Geyer,H.J., C.E. Steinberg, I. Scheunert, R. Bruggemann, W. Schutz, A. Kettrup, and K. Rozman|A Review of the Relationship Between Acute Toxicity (LC50) of gamma-Hexachlorocyclohexane (gamma-HCH, Lindane) and Total Lipid Content of Different|Toxicology83(1-3): 169-179|1993|10.1016/0300-483X(93)90100-7
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16695|A||Allen,P.|Accumulation Profiles of Cadmium and Their Modification by Interaction with Lead and Mercury in the Edible Tissues of Oreochromis aureus|Fresenius Environ. Bull.2(12): 745-751|1993|
16698|A||Jenner,H.A., and J.P.M. Janssen-Mommen|Duckweed Lemna minor as a Tool for Testing Toxicity of Coal Residues and Polluted Sediments|Arch. Environ. Contam. Toxicol.25(1): 3-11|1993|10.1007/BF00230704
16699|A||Klauda,R.J., and R.E. Palmer|Laboratory and Field Bioassay Experiments on Blueback Herring (Alosa aestivalis) from Maryland Coastal Plain Streams|Maryland Power Plant Siting Program, Dep.of Natural Resources, Annapolis, MD:210-|1986|
16704|A||Chandravathy,V.M., and S.L.N. Reddy|In Vivo Alterations in the Activities of Ion-Specific ATPases in the Tissues of Anabas scandens Associated with Sublethal Lead Nitrate Toxicity and Recovery Responses During Post-Exposure Period|J. Environ. Biol.16(4): 301-304|1995|
16706|A||Salvesen,I., L. Jorgensen, and O. Vadstein|Evaluation of Four Chemicals for Surface-Disinfection of Marine Fish Eggs|In: P.Lavens, P.Sorgeloos, E.Jaspers, and F.Ollevier (Eds.), Larvi 91 - Fish & Crustacean Larviculture Symp., Special Publ.No.15, European Aquacult.Soc., Gent, Belgium:406-408|1991|
16707|A||Sorvari,J., and M. Sillanpaa|Influence of Metal Complex Formation on Heavy Metal and Free EDTA and DTPA Acute Toxicity Determined by Daphnia magna|Chemosphere33(6): 1119-1127|1996|10.1016/0045-6535(96)00251-2
16710|A||Miettinen,J.K., M. Heyraud, and S. Keckes|Mercury as a Hydrospheric Pollutant. II. Biological Half-Time of Methyl Mercury in Four Mediterranean Species: A Fish, a Crab, and Two Molluscs|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:295-298|1972|
16711|A||Miettinen,V., E. Blankenstein, K. Rissanen, M. Tillander, J.K. Miettinen, and M. Valtonen|Preliminary Study on the Distribution and Effects of Two Chemical Forms of Methyl Mercury in Pike and Rainbow Trout|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:298-303|1972|
16712|A||Alderson,R.|Effects of Low Concentrations of Free Chlorine on Eggs and Larvae of Plaice, Pleuronectes platessa L|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:312-315|1972|
16713|A||Hannan,P.J., and C. Patouillet|Nutrient and Pollutant Concentrations as Determinants in Algal Growth Rates|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:340-342|1972|
16714|A||Templeton,W.L., R.E. Nakatani, and E.E. Held|Effects of Radiation in the Marine Ecosystem|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:353-363|1972|
16715|A||Winter,J.E.|Long-Term Laboratory Experiments on the Influence of Ferric Hydroxide Flakes on the Filter-Feeding Behaviour, Growth, Iron Content and Mortality in Mytilus edulis L. (Experiences de Longue Duree en Laboratoire Concernan|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, FAO, Fishing News (Books) Ltd., Surrey, England:392-396|1972|
16716|A||Singh,M.|Haematological Responses in a Freshwater Teleost Channa punctatus to Experimental Copper and Chromium Poisoning|J. Environ. Biol.16(4): 339-341|1995|
16717|A||Bernardini,G., O. Spinelli, C. Presutti, C. Vismara, E. Bolzacchini, M. Orlandi, and R. Settimi|Evaluation of the Developmental Toxicity of the Pesticide MCPA and Its Contaminants Phenol and Chlorocresol|Environ. Toxicol. Chem.15(5): 754-760|1996|10.1002/etc.5620150522
16718|A||Dabrowska,H., S.W. Fisher, K. Dabrowski, and A.E. Staubus|Dietary Uptake Efficiency of HCBP in Channel Catfish: The Effect of Fish Contaminant Body Burden|Environ. Toxicol. Chem.15(5): 746-749|1996|
16719|A||Jung,K., G. Bitton, and B. Koopman|Selective Assay for Heavy Metal Toxicity Using a Fluorogenic Substrate|Environ. Toxicol. Chem.15(5): 711-714|1996|
16720|A||Rouleau,C., H. Tjalve, and J. Gottofrey|Effects of Low pH on the Uptake and Distribution of 54Mn(II) in Brown Trout (Salmo trutta)|Environ. Toxicol. Chem.15(5): 708-710|1996|
16721|A||Mann,H.G.W.|Toxicity and Degradation of Tensides in Sea Water|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:248-250|1972|
16722|A||Nacci,D., P. Comeleo, E. Petrocelli, A. Kuhn-Hines, G. Modica, and G. Morrison|Performance Evaluation of Sperm Cell Toxicity Test Using the Sea Urchin, Arbacia punctulata|ASTM Spec. Tech. Publ.14:324-336|1991|
16723|A||Hawkins,W.E., W.W. Walker, T.F. Lytle, J.S. Lytle, and R.M. Overstreet|Studies on the Carcinogenic Effects of Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene on the Sheepshead Minnow (Cyprinodon variegatus)|ASTM Spec. Tech. Publ.14:97-104|1991|
16725|A||Lauth,J.R., G.I. Scott, D.S. Cherry, and A.L.,Jr. Buikema|A Modular Estuarine Mesocosm|Environ. Toxicol. Chem.15(5): 630-637|1996|10.1002/etc.5620150504
16726|A||Metcalfe,C.D., and A.J. Niimi|AHH Induction in Rainbow Trout by Chlorinated Diphenyl Ethers|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1942:359-|1993|
16728|A||Chen,F., W. Chen, and S. Dai|Toxicities of Four Arsenic Species to Scenedesmus obliguus and Influence of Phosphate on Inorganic Arsenic Toxicities|Toxicol. Environ. Chem.41(1/2): 1-7|1994|
16729|A||Ferrando,M.D., E. Andreu, and A. Fernandez-Casalderrey|Metabolic Levels in Eel Blood After Lindane Treatment|Toxicol. Environ. Chem.31/32:329-333|1991|10.1080/02772249109357705
16730|A||Huckabee,J.W., R.A. Goldstein, S.A. Janzen, and S.E. Woock|Methylmercury in a Freshwater Foodchain|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(1): 199-215|1976|
16731|A||Whiteman,F.W., G.T. Ankley, M.D. Kahl, D.M. Rau, and M.D. Balcer|Evaluation of Interstitial Water as a Route of Exposure for Ammonia in Sediment Tests with Benthic Macroinvertebrates|Environ. Toxicol. Chem.15(5): 794-801|1996|10.1002/etc.5620150527
16732|A||Ibrahim,E.A.|"The Influence of the Herbicide Paraquat ""Gramaxon"" on Growth and Metabolic Activity of the Chlorophytes Scenedesmus dimorphus, Scenedesmus quadricauda"|Bull. Natl. Inst. Oceanogr. Fish.15(1): 207-216|1989|
16733|A||Hylland,K., T. Kaland, and T. Andersen|Subcellular Cd Accumulation and Cd-Binding Proteins in the Netted Dog Whelk, Nassarius reticulatus L|Mar. Environ. Res.38(3): 169-193|1994|10.1016/0141-1136(94)90006-X
16734|A||Hallebach,R.|Trouts (Salmo gairdneri Rich.) as Biointegrators for Pollutants: A new Method of Recording Pollutants|Symp. Biol. Hung.29:273-284|1985|
16735|A||Newman,S.M.J., and J.N. Dumont|Thiosemicarbazide-Induced Osteolathyrism in Metamorphosing Xenopus laevis|J. Exp. Zool.225:411-421|1983|10.1002/jez.1402250309
16736|A||Sousa,J.V., P.C. McNamara, A.E. Putt, M.W. Machado, D.C. Surprenant, J.L. Hamelink, D.J. Kent, E.M. Silberhorn, and J.F|Effects of Octamethylcyclotetrasiloxane (OMCTS) on Freshwater and Marine Organisms|Environ. Toxicol. Chem.14(10): 1639-1647|1995|10.1002/etc.5620141003
16737|A||Fargasova,A.|A Comparative Study of the Toxicity and Inhibitory Effects of Inorganic Tin Compounds on Various Biological Subjects|Biologia (Bratisl.)49(3): 307-311|1994|
16738|A||Macauley,J.M., J.R. Clark, and A.R. Pitts|Use of Thalassia and Its Epiphytes for Toxicity Assessment: Effects of a Drilling Fluid and Tributyltin|ASTM Spec. Tech. Publ.:255-266|1990|
16739|A||Ostrander,G.K.|The Effect of Benzo(a)pyrene on Behavioral, Physiological, and Biochemical Processes of the Coho Salmon (Oncorhynchus kistuch) and the Rainbow Trout|Ph.D. Thesis, University of Washington, Seattle, WA:159 p.|1987|
16740|A||Mooney,H.M., and J.W. Patching|Triphenyltin Inhibits Photosynthesis and Respiration in Marine Microalgae|J. Ind. Microbiol.14(3/4): 265-270|1995|10.1007/BF01569938
16741|A||Park,E.D., D.V. Lightner, R.R. Williams, and L.L. Mohney|Evaluatin of Difloxacin for Shrimp Aquaculture: In Vitro Minimum Inhibitory Concentrations, Medicated Feed Palatability, and Toxicity to the Shrimp|J. Aquat. Anim. Health7(2): 161-167|1995|10.1577/1548-8667(1995)007<0161:EODFSA>2.3.CO;2
16742|A||Tiersch,T.R., and J.S. Griffith|Apomorphine-Induced Vomiting in Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. A Comp. Physiol.91(4): 721-725|1988|10.1016/0300-9629(88)90956-5
16744|A||Xu,L., Y. Zhang, and D. Wang|Using the Effects of Environmental Toxicants on the ATPase Activity of Grass Carp Tissues as an Ecotoxicological Index - A Preliminary Study|Shuisheng Shengwu Xuebao (Multiple Languages)11(3): 193-202|1987|
16745|A||Padhye,A.D., and H.V. Ghate|Sodium Chloride and Potassium Chloride Tolerance of Different Stages of the Frog, Microhyla ornata|Herpetol. J.2(1): 18-23|1992|
16746|A||Matthews,R.S.|Artemia salina as a Test Organism for Measuring Superoxide-Mediated Toxicity|Free Radic. Biol. Med.18(5): 919-922|1995|10.1016/0891-5849(94)00205-X
16747|A||Galli,R., H.W. Rich, and R. Scholtz|Toxicity of Organophosphate Insecticides and Their Metabolites to the Water Flea Daphnia magna, the Microtox Test and an Acetylcholinesterase Inhibition Test|Aquat. Toxicol.30:259-269|1994|10.1016/0166-445X(94)90063-9
16748|A||Ebringer,L., J. Krajcovic, J. Polonyi, N. Lahitova, M. Doupovcova, and J. Dobias|Tetracycline Reduces Fluoroquinolones-Induced Bleaching of Euglena gracilis|Mutat. Res.340(2/3): 141-149|1996|10.1016/S0165-1110(96)90045-7
16749|A||Nakagawa,H., T. Sato, and H. Kubo|Method Not Requiring Mercuric Chloride for the Determination of Activity of 5-Aminolevulinic Acid Dehydratase in Blood of Carp Cyprinus carpio|Fish. Sci.61(1): 97-99|1995|10.2331/fishsci.61.97
16750|A||Nakagawa,H., T. Sato, and H. Kubo|Evaluation of Chronic Toxicity of Water Lead for Carp Cyprinus carpio Using Its Blood 5-Aminolevulinic Acid Dehydratase|Fish. Sci.61(6): 956-959|1995|10.2331/fishsci.61.956
16751|A||Salame,M.J.|Demonstrating the Toxicological Impact of Malathion on Shrimp|Aquac. Mag.19(3): 60-65|1993|
16752|A||Salame,M.J., D.B. Rouse, and H.S. Yeh|Environmental Toxicity of Malathion to the Marine Shrimp Penaeus vannamei|Manuscr., Inacua S.A., Investigacion y Acuacultura, Ecuador; Dep.Fisheries and Allied Aquacultures, Auburn Univ., Auburn, AL:5 p.|1996|
16753|A||Giddings,J.M., R.C. Biever, M.F. Annunziato, and A.J. Hosmer|Effects of Diazinon on Large Outdoor Pond Microcosms|Environ. Toxicol. Chem.15(5): 618-629|1996|10.1002/etc.5620150503
16754|A||Johnston,W.L., and N.T. Glanville|Acute Dietary PCPA Treatment Decreases the KD of Brain [3H]5-HT Binding in Rainbow Trout, Oncorhynchus mykiss, fed a high Carbohydrate Diet|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 455-461|1994|
16755|A||Demuynck,S., and N. Dhainaut-Courtois|Metal-Protein Binding Patterns in the Polychaete Worm Nereis diversicolor During Short-Term Acute Cadmium Stress|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.108(1): 59-64|1994|10.1016/0300-9629(94)90054-X
16756|A||Lilius,H., B. Isomaa, and T. Holmstrom|A Comparison of the Toxicity of 50 Reference Chemicals to Freshly Isolated Rainbow Trout Hepatocytes and Daphnia magna|Aquat. Toxicol.30:47-60|1994|10.1016/0166-445X(94)90005-1
16757|A||From,J., N. Karas, and T. Vordermeier|Trials with Toltrazuril Against Ichthyophthirius multifilis Fouquet, 1876|Bull. Eur. Assoc. Fish Pathol.12(4): 137-138|1992|
16758|A||Hodneland,K., A. Nylund, F. Nilsen, and B. Midttun|The Effect of Nuvan, Azamethiphos and Hydrogen Peroxide on Salmon Lice (Lepeophtheirus salmonis)|Bull. Eur. Assoc. Fish Pathol.13(6): 203-206|1993|
16760|A||Houser,A.|Loss in Weight of Sunfish Following Aquatic Vegetation Control Using the Herbicide Silvex|Proc. Okla. Acad. Sci.43:232-237|1963|
16761|A||Avery,S.V., G.A. Codd, and G.M. Gadd|Biosorption of Tributyltin and Other Organotin Compounds by Cyanobacteria and Microalgae|Appl. Microbiol. Biotechnol.39(6): 812-817|1993|10.1007/BF00164471
16762|A||Srivastav,R.K., S.K. Gupta, K.D.P. Nigam, and P. Vasudevan|Use of Aquatic Plants for the Removal of Heavy Metals from Wastewater|Int. J. Environ. Stud.45(1): 43-50|1994|10.1080/00207239308710877
16763|A||Arinc,E., and A. Sen|Effects of In Vivo Benzo(a)pyrene Treatment on Liver Microsomal Mixed-Function Oxidase Activities of Gilthead Seabream (Sparus aurata)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 405-414|1994|
16764|A||Bergquist,J., C. Strandberg, M. Andersson, O. Sterner, D. Pesando, and J.P. Girard|Structure-Activity Relationships for Unsaturated Dialdehydes 8. Comparative Effects of 10 Sesquiterpenoids on the Sea Urchin Gamete Fertilization|Toxicol. In Vitro7(3): 205-212|1993|10.1016/0887-2333(93)90002-M
16765|A||Malea,P., T. Kevrekidis, and S. Haritonidis|The Short-Term Uptake of Zinc and Cell Mortality of the Seagrass Halophila stipulacea (Forsk.) Aschers|Isr. J. Plant Sci.43(1): 21-30|1995|10.1080/07929978.1995.10676587
16766|A||Shaw,J.L., and J.P. Manning|Evaluating Macroinvertebrate Population and Community Level Effects in Outdoor Microcosms:  Use of In Situ Bioassays and Multivariate Analysis|Environ. Toxicol. Chem.15(5): 608-617|1996|10.1002/etc.5620150502
16767|A||Brumley,C.M., V.S. Haritos, J.T. Ahokas, and D.A. Holdway|Evaluation of Biomarkers of Exposure to 2-Chlorosyringaldehyde and Simulated ECF Bleached Eucalypt Pulp Effluent|In: M.R.Servos, K.R.Munkittrick, J.H.Carey, and G.J.Van der Kraak (Eds.), Environmental Fate and Effects of Pulp and Paper Mill Effluents, St.Lucie Press, FL:369-378|1996|
16768|A||Nalewajko,C., K. Lee, and M. Olaveson|Responses of Freshwater Algae to Inhibitory Vanadium Concentrations: The Role of Phosphorus|J. Phycol.31(3): 332-343|1995|10.1111/j.0022-3646.1995.00332.x
16769|A||Karlson,K.|An Investigation on the Sensitivity to Heavy Metals of the Tiger Shrimp Penaeus monodon, a Commercially Important Tropical Shrimp|Fish.Dev.Ser., Natl.Swed.Board Fish.No.82:29 p.|1994|
16770|A||Haritos,V.S., C.M. Brumley, D.A. Holdway, and J.T. Ahokas|Metabolites of 2-Chlorosyringaldehyde in Fish Bile: Indicator of Exposure to Bleached Hardwood Effluent|Xenobiotica25(9): 963-971|1995|10.3109/00498259509046667
16771|A||Nakagawa,H., K. Nakagawa, and T. Sato|Evaluation of the Erythrocyte 5-Aminolevulinic Acid Dehydratase Activity in the Blood of Carp Cyprinus carpio as an Indicator in Fish with Water Lead|Fish. Sci.61(1): 91-95|1995|10.2331/fishsci.61.91
16774|A||Kobayashi,K., R.M. Rompas, T. Maekawa, N. Imada, and Y. Oshima|Changes in Metabolic Activity of Tiger Shrimp Larvae at Different Stages to Fenitrothion, an Organophosphorus Insecticide|Nippon Suisan Gakkaishi (Multiple Languages)56(3): 489-496|1990|10.2331/suisan.56.489
16775|A||Behechti,A., L. Ballhorn, and A. Kettrup|Toxicity of Chlorinated Alkanes on the Alga Scenedesmus subspicatus in a Closed Test Vessel|Fresenius Environ. Bull.4(3): 148-153|1995|
16776|A||Hugla,J.L., J.P. Thome, and J.C. Philippart|PCBs Contamination of Aquatic Ecosystems Related to Reproductive Success in a Sensitive Fish Species, Barbus barbus|Cah. Ethol.13(2): 155-158|1993|
16777|A||Pawlisz,A.V., and R.H. Peters|Effects of Sublethal Exposure on Lethal Body Burdens of Narcotic Organic Chemicals in Daphnia magna|Environ. Sci. Technol.29(3): 613-621|1995|10.1021/es00003a008
16779|A||Gowrinathan,K.P., and V.N.R. Rao|Physiological Responses of Some Plankton Diatoms to Heavy Metals|Indian J. Microbiol.29(4): 293-302|1989|
16780|A||Kline,E.R., R.A. Figueroa, J.H.,Jr. Rodgers, and P.B. Dorn|Effects of a Nonionic Surfactant (C14-15 AE-7) on Fish Survival, Growth and Reproduction in the Laboratory and in Outdoor Stream Mesocosms|Environ. Toxicol. Chem.15(6): 997-1002|1996|
16781|A||Greger,M., L. Kautsky, and T. Sandberg|A Tentative Model of Cd Uptake in Potamogeton pectinatus in Relation to Salinity|Environ. Exp. Bot.35(2): 215-225|1995|10.1016/0098-8472(94)00047-9
16782|A||De Coen,W.M., C.R. Janssen, and G. Persoone|"Biochemical Assessment of Cellular Energy Allocation in Daphnia magna Exposed to Toxic Stress as an Alternative to the Conventional ""Scope for Growth"""|In: Proc. of the International Symposium on Biological Markers of Pollution, Sept. 21-22, 1995, Chinon, France:163-170|1995|
16783|A||Saha,N., and B.K. Ratha|Induction of Ornithine-Urea Cycle in a Freshwater Teleost, Heteropneustes fossilis, Exposed to High Concentrations of Ammonium Chloride|Comp. Biochem. Physiol. B Comp. Biochem.108(3): 315-325|1994|10.1016/0305-0491(94)90083-3
16784|A||Carballo,M., M.J. Munoz, M. Cuellar, and J.V. Tarazona|Effects of Waterborne Copper, Cyanide, Ammonia, and Nitrite on Stress Parameters and Changes in Susceptibility to Saprolegniosis in Rainbow Trout|Appl. Environ. Microbiol.61(6): 2108-2112|1995|10.1128/aem.61.6.2108-2112.1995
16785|A||Ali,S.S., M.A. Qureshi, M.J. Iqbal, and A.R. Shakoori|Zinc-Induced Biochemical Alterations in the Liver of Common Carp, Cyprinus carpio|Bull. Dep. Zool. Univ. Panjab7:1-11|1992|
16786|A||Vuori,K.M.|Rapid Behavioural and Morphological Reponses of Hydropsychid Larvae (Trichoptera, Hydropsychidae) to Sublethal Cadmium Exposure|Environ. Pollut.84(3): 291-299|1994|10.1016/0269-7491(94)90141-4
16787|A||Pilgaard,L., H. Malte, and F.B. Jensen|Physiological Effects and Tissue Accumulation of Copper in Freshwater Rainbow Trout (Oncorhynchus mykiss) Under Normoxic and Hypoxic Conditions|Aquat. Toxicol.29(3-4): 197-212|1994|10.1016/0166-445X(94)90068-X
16788|A||Oshida,P.S., L.S. Word, and A.J. Mearns|Effects of Hexavalent and Trivalent Chromium on the Reproduction of Neanthes arenaceodentata (Polychaeta)|Mar. Environ. Res.5:41-49|1981|10.1016/0141-1136(81)90021-0
16789|A||Mittal,A.K., and T.K. Garg|Effect of an Anionic Detergent-Sodium Dodecyl Sulphate Exposure on Club Cells in the Epidermis of Clarias batrachus|J. Fish Biol.44(5): 857-875|1994|10.1111/j.1095-8649.1994.tb01260.x
16790|A||Monosson,E., W.J. Fleming, and C.V. Sullivan|Effects of the Planar PCB 3,3',4,4'-Tetrachlorobiphenyl (TCB) on Ovarian Development, Plasma Levels of Sex Steroid Hormones and Vitellogenin, and Progeny Survival in the White Perch (Morone americana)|Aquat. Toxicol.29(1-2): 1-19|1994|10.1016/0166-445X(94)90044-2
16791|A||Nelson,L.S., M.D. Netherland, and K.D. Getsinger|Bensulfuron Methyl Activity on Eurasian Watermilfoil|J. Aquat. Plant Manag.31:179-185|1993|
16792|A||Chang,M.C., D. Berkery, R. Schuel, S.G. Laychock, A.M. Zimmerman, S. Zimmerman, and H. Schuel|Evidence for a Cannabinoid Receptor in Sea Urchin Sperm and Its Role in Blockade of the Acrosome Reaction|Mol. Reprod. Dev.36(4): 507-516|1993|10.1002/mrd.1080360416
16793|A||Gaur,J.P., N. Noraho, and Y.S. Chauhan|Relationship Between Heavy Metal Accumulation and Toxicity in Spirodela polyrhiza (L.) Schleid. and Azolla pinnata R. Br.|Aquat. Bot.49(2-3): 183-192|1994|10.1016/0304-3770(94)90037-X
16794|A||Ahner,B.A., N.M. Price, and F.M.M. Morel|Phytochelatin Production by Marine Phytoplankton at Low Free Metal Ion Concentrations: Laboratory Studies and Field Data from Massachusetts Bay|Proc. Natl. Acad. Sci. U.S.A.91(18): 8433-8436|1994|10.1073/pnas.91.18.8433
16795|A||Lomagin,A.G., and L.V. Ul'Yanova|A New Bioassay on Water Pollution Using Duckweed Lemna minor L.|Sov. Plant Physiol.40(2): 283-284|1993|
16796|A||Alam,M.N., and M. Shafi|Toxicity to the Fingerling of a Carp, Catla catla, by the Pesticide, Ekalux EC 25|Indian J. Anim. Res.24(1): 44-46|1990|
16797|T||Gupta,M., S. Sinha, and P. Chandra|Uptake and Toxicity of Metals in Scirpus lacustris L. and Bacopa monnieri L.|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(10): 2185-2202|1994|
16798|A||Mukherjee,S., and G.C. Mondal|Removal of Lead by Water Hyacinth|Indian J. Chem. Technol.2(2): 59-62|1995|
16799|A||Das,U.K., and D. Kumar|Toxicity of Carbaryl on alpha-Amylase of the Fish Colisa fasciatus|J. Ecotoxicol. Environ. Monit.3(2): 143-146|1993|
16800|A||Maksimov,V.N., and A. Gupta|Combined Effect of Some Heavy Metals on Marine Phytoplankton|Vestn. Mosk. Univ. Ser. XVI Biol. (Non-English)16(2): 51-57|1992|
16801|A||Belabed,W., N. Kestali, S. Semsari, and A. Gaid|Toxicity Study of Some Heavy Metals with Daphnia Test (Evaluation de la Toxicite de Quelques Metaux Lourds a l'aide du test Daphnie)|Tech.Sci.Methodes6:331-336|1994|
16802|A||Boisson,F., M. Romeo, and M. Gnassia-Barelli|Effect of Selenium on Marine Algae (Effet du Selenium sur les Algues Marines)|MAP Tech. Rep. Ser. (Multiple Languages)79:13-31|1994|
16803|A||Bussarawit,N.|Toxicity Testing of Oil Dispersant on Penaeus monodon|Phuket Mar. Biol. Ctr. Res. Bull.59:83-89|1994|
16806|A||Brazner,J.C., S.J. Lozano, M.L. Knuth, S.L. Bertelsen, L.J. Heinis, D.A. Jensen, E.R. Kline, S.L. O'Halloran, K.W. Sarg|The Effects of Chlorpyrifos on a Natural Aquatic System:  A Research Design for Littoral Enclosure Studies and Final Research Report|Final Research Report, Environmental Research Laboratory-Duluth, U.S.EPA, Duluth, MN:194 p.|1988|
16809|A||Stambler,N., E.F. Cox, and R. Vago|Effect of Ammonium Enrichment on Respiration, Zooxanthellar Densities, and Pigment Concentrations in Two Species of Hawaiian Corals|Pac. Sci.48(3): 284-290|1994|
16811|A||Ross,D.H., P. Cohle, P.R. Blase, J.B. Bussard, and K. Neufeld|Effects of the Insect Growth Regulator (S)-Methoprene on the Early Life Stages of the Fathead Minnow Pimephales promelas in a Flow-Through Laboratory System|Am. Mosq. Control Assoc. J.10(2): 211-221|1994|
16812|A||Samis,A.J.W., P.W. Colgan, and P.H. Johansen|Recovery from the Effects of Subchronic Pentachlorophenol Exposure on the Growth of Juvenile Bluegill Sunfish (Lepomis macrochirus)|Can. J. Zool.72(11): 1973-1977|1994|10.1139/z94-269
16813|A||Westin,D.T., C.E. Olney, and B.A. Rogers|Effects of Parental and Dietary Organochlorines on Survival and Body Burdens of Striped Bass Larvae|Trans. Am. Fish. Soc.14:125-136|1985|10.1577/1548-8659(1985)114<125:EOPADO>2.0.CO;2
16814|A||Jones,M.W., C. Sommerville, and R. Wootten|Reduced Sensitivity of the Salmon Louse, Lepeophtheirus salmonis, to the Organophosphate Dichlorvos|J. Fish Dis.15(2): 197-202|1992|10.1111/j.1365-2761.1992.tb00654.x
16815|A||Westernhagen,H.V., H. Rosenthal, V. Dethlefsen, W. Ernst, U. Harms, and P.D. Hansen|Bioaccumulating Substances and Reproductive Success in Baltic Flounder Platichthys flesus|Aquat. Toxicol.1:85-99|1981|10.1016/0166-445X(81)90032-1
16816|A||Saito,H., M. Hirano, and T. Shigeoka|Uptake, Distribution, Metabolism and Excretion of Tebufenpyrad by Carp, Cyprinus carpio|J. Pestic. Sci. (Multiple Languages)19(2): 95-101|1994|10.1584/jpestics.19.2_93
16817|A||Hoare,K., A.R. Beaumont, and J. Davenport|Variation Among Populations in the Resistance of Mytilus edulis Embryos to Copper:  Adaptation to Pollution?|Mar. Ecol. Prog. Ser.120(1-3): 155-161|1995|10.3354/meps120155
16818|A||Thompson,A.H., C.L. Barnes, and D.A. Mathews|Injection of Dursban Spray Emulsion at Half Mile Intervals Controls Mosquitoes & Chironomid Larvae in Large Drainage Channels|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.38:76-78|1970|
16820|A||Rajagopal,S., V.P. Venugopalan, K.V.K. Nair, and J. Azariah|Response of Green Mussel, Perna viridis (L.) to Chlorine in the Context of Powder Plant Biofouling Control|Mar. Freshw. Behav. Physiol.25(4): 261-274|1995|10.1080/10236249509378922
16821|A||Klyszejko,B., M. Mourad, G. Glebocka, W. Ciereszko, and T. Sciazko|Bioaccumulation of PCB's (Aroclor 1242) and Its Effects on the Electrocardiogram of the Eel Anguilla anguilla L.|Acta Ichthyol. Piscat.23(1): 111-117|1993|10.3750/AIP1993.23.1.09
16822|A||Coles,J.A., S.R. Farley, and R.K. Pipe|Effects of Fluoranthene on the Immunocompetence of the Common Marine Mussel, Mytilus edulis|Aquat. Toxicol.30(4): 367-379|1994|10.1016/0166-445X(94)00051-4
16823|A||Coles,J.A., S.R. Farley, and R.K. Pipe|Alteration of the Immune Response of the Common Marine Mussel Mytilus edulis Resulting from Exposure to Cadmium|Dis. Aquat. Org.22(1): 59-65|1995|10.3354/dao022059
16824|A||Laurent,P.J.|Eradication of Unwanted Crayfish Species for Astacological Management Purposes|In: R.P.Romaire (Ed.), Freshwater Crayfish VIII, Papers from the 8th Int.Symp.on Astacology, Apr.22-26, 1990, Louisiana State Univ.Agric.Center, Baton Rouge, LA:121-133|1995|
16825|A||James,R., K. Sampath, and G. Devakiamma|Accumulation and Depuration of Mercury in a Catfish Heteropneustes fossilis (Pisces: Heteropneustidae) Exposed to Sublethal Doses of the Element|Asian Fish. Sci.6(2): 183-191|1993|10.33997/j.afs.1993.6.2.006
16826|A||Rajagopal,S., K.V.K. Nair, J. Azariah, G. Van der Velde, and H.A. Jenner|Chlorination and Mussel Control in the Cooling Conduits of a Tropical Coastal Power Station|Mar. Environ. Res.41(2): 201-221|1996|10.1016/0141-1136(95)00012-7
16827|A||Wolf,S.D., R.R. Lassiter, and S.E. Wooten|Predicting Chemical Accumulation in Shoots of Aquatic Plants|Environ. Toxicol. Chem.10:665-680|1991|10.1002/etc.5620100513
16828|A||James,R., K. Sampath, and S. Alagurathinam|Accumulation and Prediction of Lead Elimination in Oreochromis mossambicus as a Function of Body Size|Acta Hydrobiol.36(1): 115-124|1994|
16829|A||Pipe,R.K., and J.A. Coles|Environmental Contaminants Influencing Immune Function in Marine Bivalve Molluscs|Fish Shellfish Immunol.5(8): 581-595|1995|10.1016/S1050-4648(95)80043-3
16830|A||Rajyashree,M., and D.A. Perviz|Influence of Carbamide Branched Chain Aminotransferases of the Fish Cyprinus carpio|Environ. Ecol.12(1): 227-228|1994|
16831|A||Arasu,S.M., and P.S. Reddy|Alterations in Oxidative Metabolism in the Gill and Muscle of Marine Bivalve Perna viridis During Cadmium and Copper Exposure|Fresenius Environ. Bull.3(12): 721-727|1994|
16832|A||Ramana,V.V., and K.S. Sastry|Chromium Toxicity in Neurospora crassa|Fresenius Environ. Bull.2(10): 582-587|1993|
16833|A||Allen,P.|Changes in Tissue GSH Concentrations as Indicators of Acute Cadmium or Lead Toxicity|Fresenius Environ. Bull.2(10): 582-587|1993|
16834|A||Reddy,M.S., and K.V.R. Rao|Phosphamidon Induced Alterations in the Nitrogen Metabolic Profiles of Penaeid Prawn, Penaeus indicus During Acute and Chronic Exposure|Proc. Indian Acad. Sci. Anim. Sci.95(5): 533-537|1986|10.1007/BF03179415
16835|A||Witters,H.E., S. Van Puymbroeck, A.J.H. Stouthart, and S.E. Wendelaar Bonga|Physicochemical Changes of Aluminium in Mixing Zones: Mortality and Physiological Disturbances in Brown Trout (Salmo trutta L.)|Environ. Toxicol. Chem.15(6): 986-996|1996|10.1002/etc.5620150622
16836|A||Simenstad,C.A., J.R. Cordell, L. Tear, L.A. Weitkamp, F.L. Paveglio, K.M. Kilbride, K.L. Fresh, and C.E. Grue|Use of Rodeo and X-77 Spreader to Control Smooth Cordgrass (Spartina alterniflora) in a Southwestern Washington Estuary: 2. Effects on Benthic Microflora and Invertebrates|Environ. Toxicol. Chem.15(6): 969-978|1996|
16837|A||Palace,V.P., J.F. Klaverkamp, W.L. Lockhart, D.A. Metner, D.C.G. Muir, and S.B. Brown|Mixed-Function Oxidase Enzyme Activity and Oxidative Stress in Lake Trout (Salvelinus namaycush) Exposed to 3,3',4,4',5-Pentachlorobiphenyl (PCB-126)|Environ. Toxicol. Chem.15(6): 955-960|1996|
16838|A||Van Bavel,B., P. Andersson, H. Wingfors, J. Ahgren, P.A. Bergqvist, L. Norrgren, C. Rappe, and M. Tysklind|Multivariate Modeling of PCB Bioaccumulation in Three-Spined Stickeback (Gasterosteus aculeatus)|Environ. Toxicol. Chem.15(6): 947-954|1996|10.1897/1551-5028(1996)015<0947:MMOPBI>2.3.CO;2
16839|AT||Detenbeck,N.E., R. Hermanutz, K. Allen, and M.C. Swift|Fate and Effects of the Herbicide Atrazine in Flow-Through Wetland Mesocosms|Environ. Toxicol. Chem.15(6): 937-946|1996|
16840|A||Malley,D.F., A.R. Stewart, and B.D. Hall|Uptake of Methyl Mercury by the Floater Mussel, Pyganodon grandis (Bivalvia, Unionidae), Caged in a Flooded Wetland|Environ. Toxicol. Chem.15(6): 928-936|1996|10.1002/etc.5620150615
16841|A||Escartin,E., and C. Porte|Bioaccumulation, Metabolism, and Biochemical Effects of the Organophosphorus Pesticide Fenitrothion in Procambarus clarkii|Environ. Toxicol. Chem.15(6): 915-920|1996|10.1002/etc.5620150613
16842|A||Hewitt,L.M., K.R. Munkittrick, I.M. Scott, J.H. Carey, K.R. Solomon, and M.R. Servos|Use of an MFO-Directed Toxicity Identification Evaluation to Isolate and Characterize Bioactive Impurities from a Lampricide Formulation|Environ. Toxicol. Chem.15(6): 894-905|1996|
16843|A||Mersch,J., P. Wagner, and J.C. Pihan|Copper in Indigenous and Transplanted Zebra Mussels in Relation to Changing Water Concentrations and Body Weight|Environ. Toxicol. Chem.15(6): 886-893|1996|10.1002/etc.5620150610
16844|A||Bailey,H.C., C. DiGiorgio, K. Kroll, J.L. Miller, D.E. Hinton, and G. Starrett|Development of Procedures for Identifying Pesticide Toxicity in Ambient Waters:  Carbofuran, Diazinon, Chlorpyrifos|Environ. Toxicol. Chem.15(6): 837-845|1996|10.1002/etc.5620150604
16845|A||McDonald,S.F., S.J. Hamilton, K.J. Buhl, and J.F. Heisinger|Acute Toxicity of Fire Control Chemicals to Daphnia magna (Straus) and Selenastrum capricornutum (Printz)|Ecotoxicol. Environ. Saf.33:62-72|1996|10.1006/eesa.1996.0007
16846|A||Devi,M., D.A. Thomas, J.T. Barber, and M. Fingerman|Accumulation and Physiological and Biochemical Effects of Cadmium in a Simple Aquatic Food Chain|Ecotoxicol. Environ. Saf.33:38-43|1996|10.1006/eesa.1996.0004
16847|A||George,S.G., K. Todd, and J. Wright|Regulation of Metallothionein in Teleosts: Induction of MTmRNA and Protein by Cadmium in Hepatic and Extrahepatic Tissues of a Marine Flatfish, the Turbot (Scaphthalmus maximus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 109-115|1996|
16848|A||Piccinni,E., and V. Albergoni|Cadmium Detoxification in Protists|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 141-147|1996|
16849|A||Gargiulo,G., N. Arcamone, P. DeGirolamo, G. Andreozzi, R. Antonucci, V. Esposito, and L. Ferrara|Histochemical Study of the Effects of Cadmium Uptake on Oxidative Enzymes of Intermediary Metabolism in Kidney of Goldfish (Carassius auratus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 177-183|1996|
16850|A||Pagliarani,A., V. Ventrella, F. Trombetti, M. Pirini, G. Trigari, and A.R. Borgatti|Mussel Microsomal Na+ -Mg2+ -ATPase Sensitivity to Waterborne Mercury, Zinc and Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 185-191|1996|10.1016/0300-9629(95)02051-9
16851|A||Cattani,O., R. Serra, G. Isani, G. Raggi, P. Cortesi, and E. Carpene|Correlation Between Metallothionein and Energy Metabolism in Sea Bass, Dicentrarchus labrax, Exposed to Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 193-199|1996|
16852|A||Huuskonen,S., P. Lindstrom-Seppa, K. Koponen, and S. Roy|Effects of Non-ortho-Substituted Polychlorinated Biphenyls (Congeners 77 and 126) on Cytochrome P4501A and Conjugation Activities in Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 205-213|1996|10.1016/0300-9629(95)02053-5
16853|A||Martinez-Lara,E., F. Toribio, J. Lopez-Barea, and J.A. Barcena|Glutathione-S-Transferase Isoenzyme Patterns in the Gilthead Seabream (Sparus aurata) Exposed to Environmental Contaminants|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 215-220|1996|
16854|A||Eertman,R.H.M., W. Zurburg, C.A. Schipper, B. Sandee, and A.C. Smaal|Effects of PCB 126 and Cadmium on the Anaerobic Metabolism of the Mussel Mytilus edulis L.|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 267-272|1996|
16855|A||Bolognesi,C., R. Rabboni, and P. Roggieri|Genotoxicity Biomarkers in M. Galloprovincialis as Indicators of Marine Pollutants|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 319-323|1996|
16856|A||Noble,E., D. Garin, and H. Barre|Effects of an Hypoproteic Soybean Diet on Energetic Parameters and Conjugation Reactions in Carp (Cyprinus carpio): Time Course Response to|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(3): 335-343|1996|
16857|A||Thebault,M.T., A. Biegniewska, J.P. Raffin, and E.F. Skorkowski|Short Term Cadmium intoxication of the Shrimp Palaemon serratus: Effect on Adenylate Metabolism|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(3): 345-348|1996|
16858|A||Viarengo,A., M. Pertica, G. Mancinelli, B. Burlando, L. Canesi, and M. Orunesu|In Vivo Effects of Copper on the Calcium Homeostasis Mechanisms of Mussel Gill Cell Plasma Membranes|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(3): 421-425|1996|
16859|A||Black,M.C., J.R. Ferrell, R.C. Horning, and L.K.,Jr. Martin|DNA Strand Breakage in Freshwater Mussels (Anodonta grandis) Exposed to Lead in the Laboratory and Field|Environ. Toxicol. Chem.15(5): 802-808|1996|10.1002/etc.5620150528
16860|A||Baturo,W., and L. Lagadic|Benzo(a)pyrene Hydroxylase and Glutathione S-Transferase Activities as Biomarkers in Lymnaea palustris (Mollusca, Gastropoda) Exposed to Atrazine and Hexachlorobenzene in Freshwater Mesocosms|Environ. Toxicol. Chem.15(5): 771-781|1996|
16861|A||Alkahem,H.F.|The Toxicity of Nickel and the Effects of Sublethal Levels on Haematological Parameters and Behaviour of the Fish, Oreochromis niloticus|J. Univ. Kuwait Sci.21(2): 243-251|1994|
16862|A||Sajwan,K.S., and W.H. Ornes|Phytoavailability and Bioaccumulation of Cadmium in Duckweed Plants (Spirodela polyrhiza L. Schleid)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(5): 1035-1044|1994|
16863|A||Ooi,G.G.|Evaluation of Toxicity of Some Herbicides to Rice Field Fish|In: Proc. of the National Seminar & Workshop on Rice Field Weed Management, June 7-8, 1988, Pulau Penang:343-347|1988|
16864|A||Cook,P.M., A.R. Batterman, B.C. Butterworth, K.B. Lodge, and S.W. Kohlbry|Laboratory Study of TCDD Bioaccumulation by Lake Trout from Lake Ontario Sediments, Food Chain, and Water|In: Final Report, Lake Ontario TCDD Bioaccumulation Study, Chapter 6, U.S.EPA, Region 2, New York, NY:1-84|1990|
16865|A||Ding,X., J. Jiang, Y. Wang, W. Wang, and B. Ru|Bioconcentration of Cadmium in Water Hyacinth (Eichhornia crassipes) in Relation to Thiol Group Content|Environ. Pollut.84(1): 93-96|1994|10.1016/0269-7491(94)90075-2
16866|A||Lakshmi,R., R. Kundu, and A.P. Mansuri|Toxicity of Mercury to Mudskipper, Boleophthalmus dentatus (Cuv. and Val.). Part 2: Changes in the Activity of Acid and Alkaline Phosphatases in Gills|Acta Hydrochim. Hydrobiol. (Multiple Languages)19(1): 121-125|1991|10.1002/aheh.19910190114
16868|A||Knoph,M.B., and Y.A. Olsen|Subacute Toxicity of Ammonia to Atlantic Salmon (Salmo salar L.) in Seawater: Effects on Water and Salt Balance, Plasma Cortisol and Plasma Ammonia|Aquat. Toxicol.30(4): 295-310|1994|10.1016/0166-445X(94)00046-8
16869|A||Triebskorn,R., H.R. Kohler, T. Zahn, G. Vogt, M. Ludwig, S. Rumpf, M. Kratzmann, G. Alberti, and V. Storch|Invertebrate Cells as Targets for Hazardous Substances|Z. Angew. Zool. (Multiple Languages)73(3): 277-287|1991|
16870|A||Tosato,M.L., A. Pino, L. Passerini, S. Marchini, L. Vigano, and D. Hoglund|Updating and Validation of a Daphnia Toxicity Model for Benzene Derivatives|Sci. Total Environ.Suppl.(Pts.1/2): 1479-1490|1993|10.1016/S0048-9697(05)80153-6
16871|A||Halsband,E., I. Halsband, B. Romestand, A. Dzuvic, and H. Pump|Further Investigations on the Impact of Cadmium, Calcium and Parathormone on Blood, Skeleton System and Internal Organs of Rainbow Trout Salmo gairdneri (Weitere Untersuchungen ober die Wirkung von Cadmium, Calcium und |Veroeff. Inst. Kuesten Binnenfisch.91:29 p.|1986|
16872|A||Tubbing,M.J., E.D. De Ruyter van Steveninck, and W. Admiraal|Sensitivity of Planktonic Photosynthesis to Various Toxicants in the River Rhine|Environ. Toxicol. Water Qual.8(1): 51-62|1993|10.1002/tox.2530080106
16873|A||Knoph,M.B., and K. Thorud|Toxicity of Ammonia to Atlantic Salmon (Salmo salar L.) in Seawater-Effects on Plasma Osmolality, Ion, Ammonia, Urea and Glucose Levels and|Comp. Biochem. Physiol. A Comp. Physiol.113(4): 375-381|1996|10.1016/0300-9629(95)02078-0
16874|A||Bhattacharya,L.|Histological and Histochemical Alterations in the Thyroid Activity of Endosulphan Treated Oreochromis mossambicus|J. Environ. Biol.16(4): 347-351|1995|
16875|A||Hoare,K., J. Davenport, and A.R. Beaumont|Effects of Exposure and Previous Exposure to Copper on Growth of Veliger Larvae and Survivorship of Mytilus edulis Juveniles|Mar. Ecol. Prog. Ser.120(1-3): 163-168|1995|10.3354/meps120163
16876|A||Eggens,M.L., A.D. Vethaak, M.J. Leaver, G.J.M. Horbach, J.P. Boon, and W. Seinen|Differences in CYP1A Response Between Flounder (Platichthys flesus) and Plaice (Pleuronectes platessa) After Long-Term Exposure to Harbour Dredged|Chemosphere32(7): 1357-1380|1996|10.1016/0045-6535(96)00046-X
16877|A||Ensenbach,U., E. Hryk, and R. Nagel|Kinetics of 3,4-Dichloroaniline in Several Fish Species Exposed to Different Types of Water|Chemosphere32(8): 1643-1654|1996|10.1016/0045-6535(96)00074-4
16879|A||Halling-Sorensen,B., N. Nyholm, and A. Baun|Algal Toxicity Tests with Volatile and Hazardous Compounds in Air-Tight Test Flasks with CO2 Enriched Headspace|Chemosphere32(8): 1513-1526|1996|10.1016/0045-6535(96)00059-8
16880|A||Feurtet-Mazel,A., T. Grollier, M. Grouselle, F. Ribeye, and A. Boudou|Experimental Study of Bioaccumulation and Effects of the Herbicide Isoproturon on Freshwater Rooted Macrophytes (Elodea densa and Ludwigia natans)|Chemosphere32(8): 1499-1512|1996|10.1016/0045-6535(96)00058-6
16881|A||Blockwell,S.J., D. Pascoe, and E.J. Taylor|Effects of Lindane on the Growth of the Freshwater Amphipod Gammarus pulex (L.)|Chemosphere32(9): 1795-1803|1996|10.1016/0045-6535(96)00111-7
16884|A||Zhang,T., H. Jin, and H. Zhu|Quality Criteria of Acrylonitrile for the Protection of Aquatic Life in China|Chemosphere32(10): 2083-2093|1996|10.1016/0045-6535(96)00110-5
16885|A||Kluttgen,B., N. Kuntz, and H.T. Ratte|Combined Effects of 3,4-Dichloroaniline and Food Concentration on Life-Table Data of Two Related Cladocerans, Daphnia magna and Ceriodaphnia quadrangula|Chemosphere32(10): 2015-2028|1996|10.1016/0045-6535(96)00081-1
16886|A||Winter,S.|Cadmium Uptake Kinetics by Freshwater Mollusc Soft Body Under Hard and Soft Water Conditions|Chemosphere32(10): 1937-1948|1996|10.1016/0045-6535(96)00101-4
16887|AT||Morton,D.M., and D.G. Hoffman|Metabolism of a New Herbicide, Tebuthiuron {1-[5-(1,1-Dimethylethyl)-1,3,4-Thiadiazol-2-yl]-1,3-Dimethylurea}, in Mouse, Rat, Rabbit, Dog, Duck, and Fish|J. Toxicol. Environ. Health1:757-768|1976|10.1080/15287397609529374
16888|A||Castano,A., M.J. Cantarino, P. Castillo, and J.V. Tarazona|Correlations Between the RTG-2 Cytotoxicity Test EC50 and In Vivo LC50 Rainbow Trout Bioassay|Chemosphere32(11): 2141-2157|1996|10.1016/0045-6535(96)00126-9
16889|A||Lam,P.K.S.|Effects of Cadmium on the Consumption and Absorption Rates of a Tropical Freshwater Snail, Radix plicatulus|Chemosphere32(11): 2127-2132|1996|10.1016/0045-6535(96)00132-4
16890|A||Sleiderink,H.M., and J.P. Boon|Temporal Induction Pattern of Hepatic Cyctochrome P450 1A in Thermally Acclimated Dab (Limanda limanda) Treated with 3,3',4,4'-Tetrachlorobiphenyl (CB77)|Chemosphere32(12): 2335-2344|1996|10.1016/0045-6535(96)00137-3
16891|A||Roy,S., C.K. Sen, and O. Hanninen|Monitoring of Polycyclic Aromatic Hydrocarbons Using 'Moss Bags': Bioaccumulation and Responses of Antioxidant Enzymes in Fontinalis antipyretica Hedw|Chemosphere32(12): 2305-2315|1996|10.1016/0045-6535(96)00139-7
16892|A||Galindo,J.G.R., A.M. Jasso, and C.V. Lizarraga|Toxic Effects of Organochlorine Pesticides on Penaeus vannamei Shrimps in Sinaloa, Mexico|Chemosphere33(3): 567-575|1996|10.1016/0045-6535(96)00183-X
16893|A||Hao,S., W. Xiaorong, H. Zhaozhe, W. Chonghua, W. Liansheng, D. Lemei, L. Zhong, and C. Yijun|Bioconcentration and Elimination of Five Light Rare Earth Elements in Carp (Cyprinus carpio L.)|Chemosphere33(8): 1475-1483|1996|10.1016/0045-6535(96)00286-X
16894|A||Gnassia-Barelli,M., M. Romeo, and S. Puiseux-Dao|Effects of Cadmium and Copper Contamination on Calcium Content of the Bivalve Ruditapes decussatus|Mar. Environ. Res.39(1-4): 325-328|1995|10.1016/0141-1136(94)00033-L
16895|A||Khan,A.T., and J.S. Weis|Effects of Embryonic Pre-Exposure to Mercury on Larval Tolerance in Two Populations of Killifish (Fundulus heteroclitus)|Environ. Sci.2(4): 201-207|1994|
16896|A||Da Ros,L., C. Nasci, G. Campesan, P. Sartorello, G. Stocco, and A. Menetto|Effects of Linear Alkylbenzene Sulphonate (LAS) and Cadmium in the Digestive Gland of Mussel, Mytilus sp.|Mar. Environ. Res.39(1-4): 321-324|1995|10.1016/0141-1136(94)00020-P
16897|A||Birmelin,C., J. Cuzin-Roudy, M. Romeo, M. Gnassia-Barelli, and S. Puiseux-Dao|The Mysid Siriella armata as a Test Organisms in Toxicology: Effects of Cadmium|Mar. Environ. Res.39(1-4): 317-320|1995|10.1016/0141-1136(94)00012-E
16898|A||Weis,P., J.S. Weis, J. Couch, C. Daniels, and T. Chen|Pathological and Genotoxicological Observations in Oysters (Crassostrea virginica) Living on Chromated Copper Arsenate (CCA)-Treated Wood|Mar. Environ. Res.39(1-4): 275-278|1995|10.1016/0141-1136(94)00074-Y
16899|A||Viarengo,A., L. Canesi, M. Pertica, G. Mancinelli, R. Accomando, A.C. Smaal, and M. Orunesu|Stress on Stress Response:  A Simple Monitoring Tool in the Assessment of a General Stress Syndrome in Mussels|Mar. Environ. Res.39(1-4): 245-248|1995|10.1016/0141-1136(94)00075-Z
16900|A||Lindstrom-Seppa,P., and J.J. Stegeman|Sex Differences in Cytochrome P4501A Induction by Environmental Exposure and beta-Naphthoflavone in Liver and Extrahepatic Organs of Recrudescent Winter Flounder|Mar. Environ. Res.39(1-4): 219-223|1995|10.1016/0141-1136(94)00054-S
16901|A||Bond,J.A., and B.P. Bradley|Heat-Shock Reduces the Toxicity of Malathion in Daphnia magna|Mar. Environ. Res.39(1-4): 209-212|1995|10.1016/0141-1136(94)00013-F
16902|A||Di Giulio,R.T., J.V. Behar, D.B. Carlson, B.M. Hasspieler, and D.E. Watson|Determinants of Species Susceptibility to Oxidative Stress: A Comparison of Channel Catfish and Brown Bullhead|Mar. Environ. Res.39(1-4): 175-179|1995|10.1016/0141-1136(94)00021-G
16903|A||Eertman,R.H.M., C.L.F. Groenink, B. Sandee, and H. Hummel|Response of the Blue Mussel Mytilus edulis L. Following Exposure to PAHs or Contaminated Sediment|Mar. Environ. Res.39(1-4): 169-173|1995|10.1016/0141-1136(94)00022-H
16904|A||Ghosh,P., and P. Thomas|Binding of Metals to Red Drum Vitellogenin and Incorporation into Oocytes|Mar. Environ. Res.39(1-4): 165-168|1995|10.1016/0141-1136(94)00035-N
16905|A||Lee,R.F., and T. Noone|Effect of Reproductive Toxicants on Lipovitellin in Female Blue Crabs, Callinectes sapidus|Mar. Environ. Res.39(1-4): 151-154|1995|10.1016/0141-1136(94)00052-Q
16906|A||Thomas,P., and L. Budiantara|Reproductive Life History Stages Sensitive to Oil and Naphthalene in Atlantic Croaker|Mar. Environ. Res.39(1-4): 147-150|1995|10.1016/0141-1136(94)00072-W
16907|A||Moksnes,P.O., U. Lindahl, and C. Haux|Metallothionein as a Bioindicator of Heavy Metal Exposure in the Tropical Shrimp, Penaeus vannamei: A Study of Dose-Dependent Induction|Mar. Environ. Res.39(1-4): 143-146|1995|10.1016/0141-1136(94)00057-V
16908|A||Kaplan,L.A.E., K. Van Cleef, I. Wirgin, and J.F. Crivello|A Comparison of RT-PCR and Northern Blot Analysis in Quantifying Metallothionein mRNA Levels in Killifish Exposed to Waterborne Cadmium|Mar. Environ. Res.39(1-4): 137-141|1995|10.1016/0141-1136(94)00045-Q
16910|A||Olsson,P.E., and P. Kling|Regulation of Hepatic Metallothionein in Estradiol-Treated Rainbow Trout|Mar. Environ. Res.39(1-4): 127-129|1995|10.1016/0141-1136(94)00060-3
16911|A||Del Ramo,J., A. Torreblanca, M. Martinez, A. Pastor, and J. Diaz-Mayans|Quantification of Cadmium-Induced Metallothionein in Crustaceans by the Silver-Saturation Method|Mar. Environ. Res.39(1-4): 121-125|1995|10.1016/0141-1136(94)00067-Y
16912|A||Ringwood,A.H., and M. Brouwer|Patterns of Metallothionein Expression in Oyster Embryos|Mar. Environ. Res.39(1-4): 101-105|1995|10.1016/0141-1136(94)00042-N
16913|A||Focardi,S., M.C. Fossi, L. Lari, S. Casini, C. Leonzio, S.K. Meidel, and M. Nigro|Induction of MFO Activity in the Antarctic Fish Pagothenia bernacchii: Preliminary Results|Mar. Environ. Res.39(1-4): 97-100|1995|10.1016/0141-1136(94)00028-N
16914|A||Forlin,L., and M. Celander|Studies of the Inducibility of P450 1A in Perch from the PCB-Contaminated Lake Jarnsjon in Sweden|Mar. Environ. Res.39(1-4): 85-88|1995|10.1016/0141-1136(94)00029-O
16915|A||Celander,M., D. Broman, L. Forlin, and C. Naf|Effects of Petroleum Hydrocarbons on the Hepatic Cytochrome P450 1A1 System in Rainbow Trout|Mar. Environ. Res.39(1-4): 61-65|1995|10.1016/0141-1136(94)00018-K
16916|A||Peters,L.D., and D.R. Livingstone|Studies on Cytochrome P4501A in Early and Adult Life Stages of Turbot (Scophthalmus maximus L.)|Mar. Environ. Res.39(1-4): 5-9|1995|10.1016/0141-1136(94)00064-V
16917|A||Sikka,H.C., A.R. Steward, S.A. Elmarakby, S. Kumar, U. Devanaboyina, and R.C. Gupta|Metabolism of 2-Acetylaminofluorene by Rainbow Trout|Mar. Environ. Res.39(1-4): 45-49|1995|10.1016/0141-1136(94)00068-Z
16918|A||Schultz,M.E., and R.J. Schultz|Differences in Response to a Chemical Carcinogen Within Species and Clones of the Livebearing Fish, Poeciliopsis|Carcinogenesis9(6): 1029-1032|1988|10.1093/carcin/9.6.1029
16920|A||Bernhoft,A., H. Hektoen, J.U. Skaare, and K. Ingerbrigtsen|Distribution and Effects on Hepatic Xenobiotic Metabolizing Enzymes of 2,3,3',4,4'-Pentachlorobiphenyl (PCB-105) in Cod (Gadus morhua) and Rainbow Trout (Oncorhynchus mykiss)|Mar. Environ. Res.39(1-4): 343-|1995|10.1016/0141-1136(95)98386-Q
16921|A||Grosvik,B.E., H.E. Larsen, and A. Goksoyr|Effect of Piperonyl Butoxide and beta-Naphthoflavone on Cytochrome P4501A Expression and Activity in Atlantic Salmon (Salmo salar)|Mar. Environ. Res.39(1-4): 353-|1995|10.1016/0141-1136(95)98401-W
16924|A||Oppen-Berntsen,D.O., S.O. Olsen, A.M. Husoy, and A. Goksoyr|Reproductive Toxicology of Hexachlorocyclohexane Isomers: Induction of Eggshell Protein Synthesis in Atlantic Salmon|Mar. Environ. Res.39(1-4): 368-|1995|10.1016/0141-1136(95)98424-B
16925|A||Teh,S.J., M.S. Okihiro, and D.E. Hinton|Normal, Regenerational and Diethylnitrosamine-Promoted Hepatic Growth in the Medaka (Oryzias latipes)|Mar. Environ. Res.39(1-4): 373-|1995|10.1016/0141-1136(95)98432-C
16926|A||Tineo,P., M.R. Rubio, J.M. Sanfeliu, and A. Torreblanca|Ultrastructural Observations of the Effects of Cadmium Exposure on the Midgut Gland of Murex brandaris (Mollusca, Gastropoda)|Mar. Environ. Res.39(1-4): 374-|1995|10.1016/0141-1136(95)98433-D
16929|A||Wolfe,M.F., S.A. Villalobos, J.N. Seiber, and D.E. Hinton|A Comparison of Carbamate Toxicity to Medaka (Oryzias latipes) Embryos and Larvae|Mar. Environ. Res.39(1-4): 380-|1995|10.1016/0141-1136(95)98442-F
16930|A||Hawkins,W.E., J.W. Fournie, T. Ishikawa, and W.W. Walker|Germ Cell Neoplasms in Japanese Medaka|J. Aquat. Anim. Health8:120-129|1996|10.1577/1548-8667(1996)008<0120:GCNIJM>2.3.CO;2
16931|A||Huang,Y., D. Wu, and M. Chai|Effects of Cu2+ and Zn2+ on Opercular Movement in Tilapia sp.|Taiwan Haixia (Multiple languages)13(1): 22-25|1994|
16933|A||Malacea,I.|Contribution to Study of Detox and Heclotox Insecticides Toxic Action on Certain Fish Species and on Daphnia|Stud. Prot. Calitatii Apelor8:95-133|1967|
16934|A||Choudhary,M.V., V.T. Tantarpale, P.J. Lokhande, P.Y. Sherekar, and K.M. Kulkarni|HCH Impact on Feeding and Growth of the Freshwater Fish Rasbora daniconius (Ham.)|Uttar Pradesh J. Zool.13(2): 139-142|1993|
16935|A||Reddy,D.S., V. Ghanathy, S.L.N. Reddy, and K. Shankaraiah|Neurotoxic Effects of Hexachlorocyclohexane on Glycogen Metabolism of a Teleost Fish Channa punctatus|J. Ecotoxicol. Environ. Monit.3(1): 7-11|1993|
16936|A||Sastry,K.V., and S. Sachdeva|Effect of Water-Borne Cadmium and Copper on the Blood of the Fish Channa punctatus|Environ. Ecol.12(2): 291-297|1994|
16937|A||Sadhu,D.N.|Toxicity of an Organophosphorus Insecticide Monocil to the Air Breathing Fish, Channa punctatus|J. Ecotoxicol. Environ. Monit.3(2): 133-136|1993|
16938|A||Janauer,G.A.|Heavy Metal Accumulation and Physiological Effects on Austrian Macrophytes|Symp. Biol. Hung.29:21-30|1985|
16939|A||Saxena,K.K., A.K. Dubey, and R.R.S. Chauhan|Experimental Studies on Toxicity of Zinc and Cadmium to Heteropneustes fossilis (Bl.)|J. Freshw. Biol.5(4): 343-346|1993|
16940|A||Sloterdijk,H.H., A.M. Prud'homme, and J. Bureau|Hepatic Metallothionein Concentrations in White Sucker (Catostomus commersoni) from the St. Lawrence River:  1.  Effects of Storage Conditions; 2.  Correlation with Hepatic Heavy Metals|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:117-126|1995|
16943|A||Pearce,C.M., and R.E. Scheibling|Induction of Metamorphosis of Larval Echinoids (Strongylocentrotus droebachiensis and Echinarachnius parma) by Potassium Chloride (KCl)|Invertebr. Reprod. Dev.26(3): 213-220|1994|10.1080/07924259.1994.9672420
16945|A||Rao,V.N.R.|Adaptation of Algae to Heavy Metal Toxicity|In: A.K.Kashyap and H.D.Kumar (Eds.), Recent Advances in Phycology, Rastogi Publications, Meerut, India:261-264|1994|
16946|A||Wildish,D.J., W.G. Carson, T. Cunningham, and N.J. Lister|Toxicological Effects of Some Organophosphate Insecticides to Atlantic Salmon|Manuscr.Rep.Ser.No.1157, Fish.Res.Board Can., Biol.Stn., St.Andrews, New Brunswick:22 p.|1971|
16947|A||MacDonald,J.R., and G.H. Penney|Report on the Effects of the 1968 New Brunswick Aerial Forest Spraying on Juvenile Salmon on Their Food Organisms|Resour.Dev.Branch, Dep.of Fish.of Can., Halifax, Nova Scotia:27 p.|1968|
16948|A||MacDonald,J.R., and G.H. Penney|Preliminary Report on the Effects of the 1969 New Brunswick Forest Spraying on Juvenile Salmon and Their Food Organisms|Unpubl.Rep., Resour.Dev.Branch, Dep.of Fish.and For.of Can., Halifax, Nova Scotia:17 p.|1969|
16949|A||MacDonald,J.R., and G.H. Penney|Preliminary Report on the Effects of the 1967 New Brunswick Forest Spraying on Juvenile Salmon and Their Food Organisms|Resour.Dev.Branch, Dep.of Fish.of Can., Halifax, Nova Scotia:47 p.|1967|
16950|A||MacDonald,J.R.|Some Effects of Forest Spraying on Atlantic Salmon (Salmo salar) in New Brunswick|Prog.Rep.No.1, Resour.Dev.Branch, Dep.of Fish.of Can., Halifax, Nova Scotia:37 p.|1968|
16951|A||MacDonald,J.R.|Effects on Forest Spraying on New Brunswick Salmon|Can.Dep.of Fish., Fish Cult.Dev.Branch, Halifax, Nova Scotia:23 p.|1965|
16952|A||Hwang,G.C., K.C. Song, C.H. Wi, J.H. Park, and S.J. Kim|Heavy Metal Concentration of Sea Water and Shellfish in Charanman-Saryangdo and Mirukdo Area|Bull. Natl. Fish. Res. Dev. Agency48:217-225|1993|
16953|A||Hwang,G.C., K.C. Song, C.H. Wi, J.H. Park, and S.J. Kim|Heavy Metal Concentration of Sea Water and Shellfish in Kamak Bay|Bull. Natl. Fish. Res. Dev. Agency48:205-215|1993|
16956|A||Singer,M.M., D.L. Smalheer, R.S. Tjeerdema, and M. Martin|Toxicity of an Oil Dispersant to the Early Life Stages of Four California Marine Species|Environ. Toxicol. Chem.9(11): 1387-1395|1990|10.1002/etc.5620091108
16957|A||Bengtsson,B.E., and B. Bergstrom|Toxicity Tests with Nitocra spinipes (Crustacea) and Some Metals Released from a Smelter Industry|In: K.Muller (Ed.), Coastal Research in the Gulf of Bothnia, Chapter 33, Dr.W.Junk Publ., The Hague, Netherlands:439-444 / Chem.Abstr.97:439-444|1982|
16959|A||Powell,M.D., and S.F. Perry|Respiratory and Acid-Base Disturbances in Rainbow Trout (Oncorhynchus mykiss) Blood During Exposure to Chloramine T, Paratoluenesulphonamide, and Hypochlorite|Can. J. Fish. Aquat. Sci.53(4): 701-708|1996|10.1139/f95-250
16960|A||Zauke,G.P., R. Von Lemm, H.G. Meurs, and W. Butte|Validation of Estuarine Gammarid Collectives (Amphipoda: Crustacea) as Biomonitors for Cadmium in Semi-Controlled Toxicokinetic Flow-Through Experiments|Environ. Pollut.90(2): 209-219|1995|10.1016/0269-7491(94)00108-P
16963|A||Palmer,R.W.|Short-Term Impacts of Formulations of Bacillus thuringiensis var. Israelensis de Barjac and the Organophosphate Temephos used in Blackfly (Diptera|South. Afr. J. Aquat. Sci.19(1-2): 14-33|1993|10.1080/10183469.1993.9631337
16964|A||Munkittrick,K.R., M.R. Servos, J.L. Parrott, V. Martin, J.H. Carey, P.A. Flett, and G.J. Van der Kraak|Identification of Lampricide Formulations as a Potent Inducer of MFO Activity in Fish|J. Great Lakes Res.20(2): 355-365|1994|10.1016/S0380-1330(94)71153-9
16965|A||Palmer,R.W., and A.R. Palmer|Impacts of Repeated Applications of Bacillus thuringiensis var. Israelensis de Barjac and Temephos, used in Blackfly (Diptera: Simuliidae) Control|South. Afr. J. Aquat. Sci.21(1-2): 35-55|1995|10.1080/10183469.1995.9631361
16966|A||Bailey,G.S., P.M. Loveland, C. Pereira, D. Pierce, J.D. Hendricks, and J.D. Groopman|Quantitative Carcinogenesis and Dosimetry in Rainbow Trout for Aflatoxin B1 and Aflatoxicol, Two Aflatoxins that Form the same DNA Adduct|Mutat. Res.313(1): 25-38|1994|10.1016/0165-1161(94)90030-2
16967|A||Nishimoto,M., G.K. Yanagida, J.E. Stein, W.M. Baird, and U. Varanasi|The Metabolism of Benzo(a)pyrene by English Sole (Parophrys vetulus):  Comparison Between Isolated Hepatocytes In Vitro and Liver In Vivo|Xenobiotica22(8): 949-961|1992|10.3109/00498259209049901
16968|A||Tosato,M.L., L. Vigano, B. Skagerberg, and S. Clement|A New Strategy for Ranking Chemical Hazards.  Framework and Application|Environ. Sci. Technol.25:695-702|1991|10.1021/es00016a014
16969|A||Paul,G., D.R. Rao, and S. Krishnaswamy|Effect of IV Generation Candidate Pesticide on the Biology of Mesocylops thermocyclopoides|In: R.Reuben (Ed.), Proc.Symp.Alternatives to Synthetic Insecticides in Integrated Pest Management Systems, March 30-31, 1987, Centre for Research in Medical Entomology, Madurai, India:177-179|1987|
16970|A||Premkumar,D.R.D., and S. Mathavan|Efficacy of a Synthetic Pyrethroid, Decamethrin to Selected Target and Non-Target Organisms|In: R.Reuben (Ed.), Proc.Symp.Alternatives to Synthetic Insecticides in Integrated Pest Management Systems, March 30-31, 1987, Centre for Research in Medical Entomology, Madurai, India:171-175|1987|
16971|A||Springborn Bionomics|Chronic Toxicity of Fourteen Phthalate Esters to Daphnia magna with Cover Letter Dated 032585|Toxicity Test Report Submitted to Chemical Manufacturers Association, Washington, D.C., Revised Final Report BW-84-5-1567, Aquatic Toxicology Laboratory, Wareham, MA:95 p.|1984|
16972|A||Pathiratne,A., and J.M. Ranasinghe|Effect of the Mosquito Larvicide, Abate (Temephos) on Fingerlings of Oreochromis mossambicus (Peters)|J. Natl. Sci. Counc. Sri Lanka20(1): 43-50|1992|
16973|A||Lu,X., B. Sun, and Z. Shi|Toxicity of Mercury to Phaeodactylum tricornutum|J. Ocean Univ. Qingdao20(4): 84-92|1990|
16975|A||Cote,Y., and B. Tetreault|Short Term Effects of Aerial Fenitrothion Spraying on Juvenile Atlantic Salmon (Salmo salar, L.) in Anticosti Island, Quebec|Atlantic Salmon J.3(3): 18-21|1973|
16976|A||Carino,V.S., and A.G.,Jr. Puzon|Zinc-Induced Gill Damage on Tilapia nilotica Fry|Fish. Res. J. Philipp.11(1-2): 43-48|1986|
16977|A||Kerswill,C.J., and P.F. Elson|Preliminary Observations on Effects of 1954 DDT Spraying on Miramichi Salmon Stocks|In: Fish Res.Board of Can., Progress Reports of the Atlantic Coast Stations No.62:17-24|1955|
16978|A||Allen,P.|Changes in the Haematological Profile of the Cichlid Oreochromis aureus (Steindachner) During Acute Inorganic Mercury Intoxication|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.108(1): 117-121|1994|10.1016/0300-9629(94)90062-0
16980|A||Engwall,M., B. Brunstrom, A. Brewer, and L. Norrgren|Cytochrome P450IA Induction by a Coplanar PCB, a PAH Mixture, and PCB-Contaminated Sediment Extracts Following Microinjection of Rainbow Trout Sac-Fry|Aquat. Toxicol.30(4): 311-324|1994|10.1016/0166-445X(94)00047-6
16981|A||Unger,M.E., and G. Roesijadi|Increase in Metallothionein mRNA Accumulation During Cd Challenge in Oysters Pre-Exposed to Cd|Aquat. Toxicol.34(3): 185-193|1996|10.1016/0166-445X(95)00038-6
16982|A||Sajwan,K.S., and W.H. Ornes|Cadmium Accumulation in Eurasian Watermilfoil Plants|Water Air Soil Pollut.87(1-4): 47-56|1996|10.1007/BF00696828
16983|A||Miller,M.P., and A.C. Hendricks|Zinc Resistance in Chironomus riparius:  Evidence for Physiological and Genetic Components|J. North Am. Benthol. Soc.15(1): 106-116|1996|10.2307/1467436
16984|A||Manisseri,M.K., and N.R. Menon|Copper-Induced Damage to the Hepatopancreas of the Penaeid Shrimp Metapenaeus dobsoni - An Ultrastructural Study|Dis. Aquat. Org.22(1): 51-57|1995|10.3354/dao022051
16987|A||Husoy,A.M., M.S. Myers, M.L. Willis, T.K. Collier, M. Celander, and A. Goksoyr|Immunohistochemical Localization of CYP1A and CYP3A-Like Isozymes in Hepatic and Extrahepatic Tissues of Atlantic Cod (Gadus morhua L.), a Marine Fish|Toxicol. Appl. Pharmacol.129:294-308|1994|10.1006/taap.1994.1254
16988|A||Stambler,N., P.L. Jokiel, and Z. Dubinsky|Nutrient Limitation in the Symbiotic Association Between Zooxanthellae and Reef-Building Corals: The Experimental Design|Pac. Sci.48(3): 219-223|1994|
16989|A||Schoenthal,N.D.|Some Effects of DDT on Cold Water Fish and Fish-Food Organisms|Ph.D.Thesis, Montana State College, Bozeman, MT:47 p.|1963|
16990|A||Zabel,E.W., M.K. Walker, M.W. Hornung, M.K. Clayton, and R.E. Peterson|Interactions of Polychlorinated Dibenzo-p-Dioxin, Dibenzofuran, and Biphenyl Congeners for Producing Rainbow Trout Early Life Stage Mortality|Toxicol. Appl. Pharmacol.134(2): 204-213|1995|10.1006/taap.1995.1185
16991|A||Nor,Y.M.|Effects of Organic Ligands on Toxicity of Copper and Zinc to Carassius auratus|Chem. Spec. Bioavail.3(3): 111-115|1990|10.1080/09542299.1990.11771992
16992|A||Van Heerden,E., J.H.J. Van Vuren, and G.J. Steyn|LC50 Determination for Malachite Green and Formalin on Rainbow Trout (Oncorhynchus mykiss) Juveniles|Water SA21(1): 87-94|1995|
16993|A||Muir,D.C.G., B.R. Hobden, and M.R. Servos|Bioconcentration of Pyrethroid Insecticides and DDT by Rainbow Trout: Uptake, Depuration, and Effect of Dissolved Organic Carbon|Aquat. Toxicol.29(3/4): 223-240|1994|10.1016/0166-445X(94)90070-1
16995|A||Heimbach,F., K. Jaeger, and W. Sporenberg|Fate and Biological Effects of Polymeric MDI (4,4'-Diphenylmethane Diisocyanate and Homologs) in Small Artificial Ponds|Ecotoxicol. Environ. Saf.33(2): 143-153|1996|10.1006/eesa.1996.0018
16997|A||Yamada,H., M. Tateishi, and K. Ikeda|The Effect of the Size of Test Fish Species on Bioconcentration Characteristics of alpha-Hexachlorocyclohexane|Nippon Suisan Gakkaishi (Multiple Languages)61(6): 905-911|1995|10.2331/suisan.61.905
16998|A||Yamada,H., and K. Takayanagi|Applicability of Marine Fish Species as an Experimental Animal for a Testing Method on Bioconcentration of Hazardous Chemicals|Nippon Suisan Gakkaishi (Multiple Languages)6:895-904|1995|10.2331/suisan.61.895
16999|A||Hori,H., M. Tateishi, K. Takayanagi, and H. Yamada|Applicability of Artificial Seawater as a Rearing Seawater for Toxicity Tests of Hazardous Chemicals by Marine Fish Species|Nippon Suisan Gakkaishi (Multiple Languages)(4): 614-622|1996|10.2331/suisan.62.614
17000|A||Trayler,K.M., A.M. Pinder, and J.A. Davis|Evaluation of the Juvenile Hormone Mimic Pyripoxyfen (S-31183) Against Nuisance Chironomids (Diptera: Chironomidae), with Particular Emphasis on|J. Aust. Entomol. Soc.33:127-130|1994|10.1111/j.1440-6055.1994.tb00937.x
17001|A||Schlatterer,B., and S. Beiz|Ecological Implications of the Applications of Drugs in Fish Farming as Evaluated for Niclosamide|In: Proc. 3rd World Congress on Foodborne Infections and Intoxications, Vol. 2, June 16-19, 1992, Institute of Veterinary Medicine - Robert von Ostertag-Institute of the Federal Health Office, Berlin, Germany:719-722|1992|
17002|A||Jaworska,M., J. Sepiol, and P. Tomasik|Effect of Metal Ions Under Laboratory Conditions on the Entomopathogenic Steinernema carpocapsae (Rhabditida:  Steinernematidae)|Water Air Soil Pollut.88(3-4): 331-341|1996|10.1007/BF00294109
17003|A||Potter,D., T.M. Clarius, A.S. Wright, and W.P. Watson|Molecular Dosimetry of DNA Adducts in Rainbow Trout (Oncorhynchus mykiss) Exposed to Benzo(a)pyrene by Different Routes|Arch. Toxicol.69(1): 1-7|1994|10.1007/s002040050128
17004|A||Trayler,K.M., and J.A. Davis|Sensivitiy of Daphnia carinata Sensu Lato to the Insect Growth Regulator, Pyripoxyfen|Ecotoxicol. Environ. Saf.33(2): 154-156|1996|10.1006/eesa.1996.0019
17005|A||Wilhelm,S.W., D.P. Maxwell, and C.G. Trick|Growth, Iron Requirements, and Siderophore Production in Iron-Limited Synechococcus PCC 7002|Limnol. Oceanogr.41(1): 89-97|1996|10.4319/lo.1996.41.1.0089
17006|A||Ogilvie,S.C., F. Hetzel, and C.T. Eason|Effect of Temperature on the Biodegradation of Sodium Monofluoroacetate (1080) in Water and in Elodea canadensis|Bull. Environ. Contam. Toxicol.56(6):942-947|1996|10.1007/s001289900136
17007|A||McHenery,J.G., C. Francis, and I.M. Davies|Threshold Toxicity and Repeated Exposure Studies of Dichlorvos to the Larvae of the Common Lobster (Homarus gammarus L.)|Aquat. Toxicol.34(3): 237-251|1996|10.1016/0166-445X(95)00041-2
17008|A||Yamada,H., M. Tateishi, and K. Ikeda|The Effect of the Temperature on Bioconcentration Characeristics of alpha-Hexachlorocyclohexane|Nippon Suisan Gakkaishi (Multiple Languages)62(2): 280-285|1996|10.2331/suisan.62.280
17009|A||Axler,R., C. Owen, J. Ameel, E. Ruzycki, and J. Henneck|Effects of Hydrothol 191 (Amine Salt of Endothall) on Algae in Eutrophic Ponds: Phytotoxicity and Persistance|Lakes Reserv. Res. Manag.9(2): 53-|1994|
17010|A||Ooi,G.G., and N.P. Lo|Toxicity of Herbicides to Malaysian Rice Field Fish|In: P.A.C.Ooi, G.S.Lim, and P.S.Teng (Eds.), Proc.3rd Int.Conf.on Plant Protection in the Tropics, March 20-23, 1990, Genting Highlands, Vol.3, Malasian Plant Protection Society, Kuala Lumpur, Malaysia:71-74|1992|
17011|A||Sancho,E., M.D. Ferrando, E. Andreu-Moliner, and M. Gamon|Fenitrothion Uptake and Bioconcentration in the European Eel (Anguilla anguilla)|Toxicol. Environ. Chem.44(1-2): 81-87|1994|10.1080/02772249409358046
17013|A||Michel,X., J.P. Salaun, F. Galgani, and J.F. Narbonne|Benzo(a)pyrene Hydroxylase Activity in the Marine Mussel Mytilus galloprovincialis: A Potential Marker of Contamination by Polycyclic Aromatic|Mar. Environ. Res.38(4): 257-273|1994|10.1016/0141-1136(94)90027-2
17014|A||Begum,G., and S. Vijayaraghavan|Carbohydrate Metabolism in Hepatic Tissue of Freshwater Catfish Clarias batrachus L. During Dimethoate Exposure|Food Chem. Toxicol.33(5): 423-426|1995|10.1016/0278-6915(95)00003-K
17015|A||Prasad,M.S.|Effect of Short-Term Exposure to Mercuric Chloride on the Air-Breathing Catfish, Heteropneustes fossilis. I. Light Microscopic Study of the Gill|Biomed. Environ. Sci.7(4): 327-336|1994|
17016|A||Nott,J.A., and M.N. Moore|Effects of Polycyclic Aromatic Hydrocarbons on Molluscan Lysosomes and Endoplasmic Reticulum|Histochem. J.19(6-7): 357-368|1987|10.1007/BF01680453
17017|A||Prasad,M.S.|Effect of Short-Term Exposure to Mercuric Chloride on the Air-Breathing Catfish, Heteropneustes fossilis. II. Scanning Electron Microscope Study of|Biomed. Environ. Sci.7(4): 337-345|1994|
17018|A||Graillet,C., and J.P. Girard|Embryotoxic Potency of 2,4,5-Trichlorophenoxyacetic Acid on Sea Urchin Eggs: Association with Calcium Homoeostasis|Toxicol. In Vitro8(4): 1097-1105|1994|10.1016/0887-2333(94)90250-X
17019|A||Bleau,H., C. Daniel, G. Chevalier, H. Van Tra, and A. Hontela|Effects of Acute Exposure to Mercury Chloride and Methylmercury on Plasma Cortisol, T3, T4, Glucose and Liver Glycogen in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.34(3): 221-235|1996|10.1016/0166-445X(95)00040-B
17020|A||Dauberschmidt,C., D.R. Dietrich, and C. Schlatter|Toxicity of Organophosphorus Insecticides in the Zebra Mussel, Dreissena polymorpha p.|Arch. Environ. Contam. Toxicol.30(3): 373-378|1996|10.1007/BF00212296
17021|AT||Douthwaite,R.J., P.J. Fox, P. Matthiessen, and A. Russell-Smith|The Environmental Impact of Aerosols of Endosulfan Applied for Tsetse Fly Control in the Okavango Delta, Botswana|The Final Report of the Endosulfan Monitoring Project, Overseas Development Administration, London:141 p.|1981|
17023|A||Otvos,I.S., R.C. Clark, and L.J. Clarke|The Hemlock Looper in Newfoundland: The Outbreak, 1966 to 1971; and Aerial Spraying, 1968 and 1969|Info.Rep.N-X-68, Newfoundland Forest Research Centre, Environment Canada, St.Johns, Newfoundland:62-|1971|
17024|A||Johnston,R.K.|Use of Marine Fouling Communities to Evaluate the Ecological Effects of Pollution|Tech.Rep.1349, Naval Ocean Systems Center, San Diego, CA:120 p.|1990|
17025|A||Maheu,S., and E. Pelletier|Effects of Complexing Agents on the Distribution of Hg(II) Species Provided by Food to Starfish Leptasterias polaris|Chem. Spec. Bioavail.6(4): 103-112|1994|10.1080/09542299.1994.11083229
17026|A||Chan,H.M., and P.S. Rainbow|The Accumulation of Dissolved Zinc by the Shore Crab Carcinus maenas (L.)|Ophelia38(1): 13-30|1993|10.1080/00785326.1993.10429921
17027|A||Chan,H.M., and P.S. Rainbow|On the Excretion of Zinc by the Shore Crab Carcinus maenas (L.)|Ophelia38(1): 31-45|1993|10.1080/00785326.1993.10429922
17028|A||Karaseva,E.M., and L.A. Medvedeva|Morphological and Functional Changes in the Offspring of Mytilus trossulus and Mizuhopecten yessoensis After Parental Exposure to Copper and Zinc|Russ. J. Mar. Biol.4:83-89|1993|
17029|A||Gao,S., Y. Wu, and X. Zhao|The Physiological Effects of Organotin on Marine Microalgae.  I.  Effects of Organotin on Photosynthetic Pigments of Two Marine Phytoplankton|Haiyang Yu Huzhao (Non-English)25(3): 259-265|1994|
17030|A||De Jong,L., C. Diana, J.R. Campos, A. Arnoux, and L. Pellegrini|Toxicity of Methyl Mercury and Mercury (II) Chloride to a Brown Alga Cystoseira barbata (Fucales) Under Laboratory Culture Conditions Detoxifying Role of Calcium|Bot. Mar.37(4): 367-379|1994|10.1515/botm.1994.37.4.367
17031|AT||Dilling,W.J., and C.W. Healey|Influence of Lead and the Metallic Ions of Copper, Zinc, Thorium, Beryllium and Thallium on the Germination of Frogs' Spawn and on the Growth of Tadpoles|Ann. Appl. Biol.13:177-188|1926|10.1111/j.1744-7348.1926.tb04262.x
17032|A||Diaz,J., and S. Rivero|Toxicity of Malachite Green and Laundry Detergent for Penaeus Schmitti|Rev. Invest. Mar.15(1): 88-91|1994|
17033|A||Farago,M.E., and P.J. Parsons|The Effects of Various Platinum Metal Species on the Water Plant Eichhornia crassipes (MART.) Solms|Chem. Spec. Bioavail.6(1): 1-12|1994|10.1080/09542299.1994.11083218
17034|A||Kang,J.C., and O. Matsuda|Combined Effects of Hypoxia and Hydrogen Sulfide on Early Developmental Stages of White Shrimp Metapenaeus monoceros|J. Fac. Appl. Biol. Sci. Hiroshima Univ.33(1): 21-27|1994|
17035|A||Chakrabarti,P., D.K. Mandal, and M. Ghosal|Cadmium Induced Microanatomical and Histological Alterations on the Olfactory Epithelium of Anabas testudineus (Bloch)|J. Freshw. Biol.5(3): 253-262|1993|
17036|A||Medda,C., S.K. Sarkar, S. Ganguly, and T.K. Basu|Effects of Dichlorvos Nuvan on Some Important Bioindicators of Two Fresh Water Major Carps Labeo rohita and Cirrhinus mrigala|J. Inl. Fish. Soc. India24(2): 36-39|1992|
17037|A||Reddy,M.M., V.A. Kumar, P.S. Reddy, and S.L.N. Reddy|Phenol Induced Metabolic Alterations in the Brain and Muscle of a Fresh Water Fish Channa punctatus During Sublethal Toxicosis|J. Ecotoxicol. Environ. Monit.3(1): 13-17|1993|
17039|A||Lewis,J.W., A.N. Kay, and N.S. Hanna|Responses of Electric Fish (Family Mormyridae) to Chemical Changes in Water Quality:  III.  Heavy Metals|Environ. Technol.15(10): 969-978|1994|10.1080/09593339409385504
17040|A||Radhakrishnaiah,K., A. Suresh, and B. Sivaramakrishna|Effect of Sublethal Concentration of Mercury and Zinc on the Energistics of a Freshwater Fish Cyprinus carpio (Linnaeus)|Acta Biol. Hung.44(4): 375-385|1993|
17042|A||Cairns,J.,Jr., and A. Scheier|The Effects of Temperature and Water Hardness upon the Toxicity of Naphthenic Acids to the Common Bluegill Sunfish, Lepomis macrochirus Raf., and the Pond Snail, Physa heterostropha Say|Not. Nat. Acad. Nat. Sci. Philadelphia 353:1-12|1962|
17043|A||Cairns,J.,Jr., and A. Scheier|The Acute and Chronic Effects of Standard Sodium Alkyl Benzene Sulfonate upon the Pumpkinseed Sunfish, Lepomis gibbosus (Linn.) and the Bluegill|Proc. Ind. Waste Conf.112:14-28|1963|
17044|A||Wong,S.L., and J.F. Wainwright|The Ultrastructural Response of Two Morphologically Distinct Forms of Cladophora glomerata to the Algicide Hyamine|Ontario Ministry of Environment and Energy, Toronto, Canada:30 p.|1994|
17045|A||Shukla,S.P., and G.S. Gupta|Toxicity Potential of a Textile Dye Toward the Diazotrophic Cyanobacterium Nostoc muscorum ISU|Environ. Toxicol. Water Qual.9(3): 179-181|1994|10.1002/tox.2530090304
17046|A||Sherry,J.|Effects of 2,4-Dichlorophenoxyacetic Acid on Fungal Propagules in Freshwater Ponds|Environ. Toxicol. Water Qual.9(3): 209-221|1994|10.1002/tox.2530090308
17047|A||Glubokov,A.I.|Growth of Three Species of Fish During Early Ontogeny Under Normal and Toxic Conditions|J. Ichthyol.30(2): 51-59|1990|
17048|A||Stom,D.I., and L.D. Zubareva|Comparative Resistance of Daphnia and Epischura to Toxic Substances in Acute Exposure|Hydrobiol. J.30(3): 35-38|1994|
17049|A||Wilson,R.W., H.L. Bergman, and C.M. Wood|Metabolic Costs and Physiological Consequences of Acclimation to Aluminum in Juvenile Rainbow Trout (Oncorhynchus mykiss).  1:  Acclimation Specificity, Resting Physiology, Feeding, and Growth|Can. J. Fish. Aquat. Sci.51:527-535|1994|10.1139/f94-055
17050|A||Tozum-Calgan,S.R.D., and N.Z. Atay-Guneyman|The Effects of an Anionic and a Non-Ionic Surfactant on Growth and Nitrogen Fixing Ability of a Cyanobacterium, Gloeocapsa|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(2): 355-369|1994|
17051|A||Overnell,J., I.A. Davidson, and T.L. Coombs|A Cadmium-Binding Glycoprotein from the Liver of the Plaice (Pleuronectes platessa)|Biochem. Soc. Trans.5:267-269|1977|10.1042/bst0050267
17052|A||Kiemer,M.C.B., K.D. Black, D. Lussot, A.M. Bullock, and I. Ezzi|The Effects of Chronic and Acute Exposure to Hydrogen Sulphide on Atlantic Salmon (Salmo salar L.)|Aquaculture135(1-3): 311-327|1995|10.1016/0044-8486(95)01025-4
17053|A||Burton,D.T., S.D. Turley, and G.T. Peters|The Acute and Chronic Toxicity of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) to the Fathead Minnow (Pimephales promelas)|Chemosphere29(3): 567-579|1994|10.1016/0045-6535(94)90444-8
17054|A||Rodriguez,E.M., and D. Medesani|Pathological Lesions in Larvae Hatched from Ovigerous Females of Chasmagnathus granulata (Decapoda, Brachyura) Exposed to Cadmium|Experientia50(10): 975-977|1994|10.1007/BF01923491
17055|A||Scott,B.F., D.S. Painter, E. Nagy, B.J. Dutka, and W.D. Taylor|Fate and Effects of 2,4-D Formulations as Herbicides in Aquatic Ecosystems. Part 1|Natl. Water Res. Inst., Canada Ctr. for Inland Waters, Burlington, Ontario, Canada:73 p.|1981|
17056|A||Person-Le Ruyet,J., H. Chartois, and L. Quemener|Comparative Acute Ammonia Toxicity in Marine Fish and Plasma Ammonia Response|Aquaculture136((1-2)): 181-194|1995|10.1016/0044-8486(95)01026-2
17058|A||Winner,R.|Food Type Related to Copper Sensitivity of Daphnids|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:C295 - C297|1975|
17059|A||Cossa,D.|Experimental Cadmium Uptake by a Unicellular Alga|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:C286 - C290|1975|
17060|A||Ostrensky,A., and W.,Jr. Wagielesky|Acute Toxicity of Ammonia to Various Life Stages of the Sao Paulo Shrimp, Penaeus paulensis Perez-Farfante, 1967|Aquaculture132(3-4): 339-347|1995|10.1016/0044-8486(94)00343-M
17061|A||George,S.G., B.D.S. Pirie, and T.L. Coombs|Transport of Iron Complexes in Shellfish|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:C37 - C39|1975|
17062|T||Stokes,P.M.|Adaptation of Green Algae to High Levels of Copper and Nickel in Aquatic Environments|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(1): 137-154|1975|
17063|A||McMahon,R.F., B.N. Shipman, and D.E. Erck|Effects of Two Molluscicides on the Freshwater Macrofouling Bivalve, Dreissena polymorpha, the Zebra Mussel|Proc. Am. Power Conf.51:1006-1011|1990|
17064|A||Sievers,G., P. Palacios, R. Inostroza, and H. Dolz|Evaluation of the Toxicity of 8 Insecticides in Salmo salar and the In Vitro Effects Against the Isopode Parasite, Ceratothoa gaudichaudii|Aquaculture134(1-2): 9-16|1995|10.1016/0044-8486(95)00026-X
17065|A||Yellowlees,D., T.A.V. Rees, and W.K. Fitt|Effect of Ammonium-Supplemented Seawater on Glutamine Synthetase and Glutamate Dehydrogenase Activities in Host Tissue and Zooxanthellae of Pocillopora damicornis and on Ammonium Uptake Rates of the Zooxanthellae|Pac. Sci.48(3): 291-295|1994|
17066|A||Ferstenberg,L.B., P.M. Stokes, and B. Silverberg|An Electron Microscope Study of Copper in Scenedesmus|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:C298 - C300|1975|
17068|A||Havens,K.E.|Effects of a Chemical Stress or on Pelagic Food Web Function|Ohio J. Sci.93(2): 47-|1993|
17072|A||Hart,S., S. Archie, D.L. Thomas, and J.B. McClintock|The Effects of Copper Nitrate on Growth, Food Consumption, Egg Mass Deposition, and Embryogenesis in the Pulmonate Snail Physella cubensis|J. Ala. Acad. Sci.64(2): 86-|1993|
17073|T||Hiltibran,R.C., and A.J. Turgeon|Creeping Bentgrass Response to Aquatic Herbicides in Irrigation Water|J. Environ. Qual.6(3): 263-267|1977|10.2134/jeq1977.00472425000600030006x
17074|A||Lightner,D.V., K.W. Hasson, B.L. White, and R.M. Redman|Chronic Toxicity and Histopathological Studies with Benlate, a Commercial Grade of Benomyl, in Penaeus vannamei (Crustacea: Decapoda)|Aquat. Toxicol.34:105-118|1996|10.1016/0166-445X(95)00034-2
17077|A||Thoma,R.|Light- and Electronmicroscopical Studies on the Subacute Toxicity of 1,2,3-Trichlorobenzene on Rainbow Trout (Oncorhynchus mykiss)|D.V.M.Thesis, Ludwig-Maximilians University, Muenchen, Germany:133 p.|1991|
17078|A||Zhang,Y., and E.E. Prepas|Short-Term Effects of Ca(OH)2 Additions on Phytoplankton Biomass: A Comparison of Laboratory and In Situ Experiments|Water Res.30(5): 1285-1294|1996|10.1016/0043-1354(95)00273-1
17079|A||Tas,J.W., A. Keizer, and A. Opperhuizen|Bioaccumulation and Lethal Body Burden of Four Triorganotin Compounds|Bull. Environ. Contam. Toxicol.57(1): 146-154|1996|10.1007/s001289900168
17080|A||Paul,E.A., and H.A. Simonin|Effects of Naled, Synergized, and Non-synergized Resmethrin on the Swimming Performance of Young Trout|Bull. Environ. Contam. Toxicol.57(3): 495-502|1996|10.1007/s001289900217
17081|A||Ritterhoff,J., G.P. Zauke, and R. Dallinger|Calibration of the Estuarine Amphipods, Gammarus zaddachi Sexton (1912), as Biomonitors: Toxicokinetics of Cadmium and Possible Role of Inducible Metal-binding Proteins in Cd Detoxification|Aquat. Toxicol.34(4): 351-369|1996|10.1016/0166-445X(95)00048-9
17082|A||Salazar,S.M., B.M. Davidson, M.H. Salazar, P.M. Stang, and K.J. Meyers-Schulte|Effects of TBT on Marine Organisms: Field Assessment of a New Site-Specific Bioassay System|In: Oceans 87, IEEE Publishing Services, New York, NY:1461-1470|1987|
17083|A||Fliedner,A., and W. Klein|Effects of Lindane on the Planktonic Community in Freshwater Microcosms|Ecotoxicol. Environ. Saf.33(3): 228-235|1996|10.1006/eesa.1996.0029
17084|A||Gossiaux,D.C., P.F. Landrum, and S.W. Fisher|Effect of Temperature on the Accumulation Kinetics of PAHs and PCBs in the Zebra Mussel, Dreissena polymorpha|J. Great Lakes Res.22(2): 379-388|1996|10.1016/S0380-1330(96)70963-2
17085|A||Koyama,J.|Vertebral Deformity Susceptibilities of Marine Fishes Exposed to Herbicide|Bull. Environ. Contam. Toxicol.56(4): 655-662|1996|10.1007/s001289900096
17086|A||El Jay,A.|Effects of Organic Solvents and Solvent-Atrazine Interactions on Two Algae, Chlorella vulgaris and Selenastrum capricornutum|Arch. Environ. Contam. Toxicol.31(1): 84-90|1996|10.1007/BF00203911
17087|A||Mulliss,R.M., D.M. Revitt, and R.B.E. Shutes|A Statistical Approach for the Assessment of the Toxic Influences on Gammarus pulex (Amphipoda) and Asellus aquaticus (Isopoda) Exposed to Urban Aquatic Discharges|Water Res.30(5): 1237-1243|1996|10.1016/0043-1354(95)00281-2
17088|A||Jensen,F.B.|Uptake, Elimination and Effects of Nitrite and Nitrate in Freshwater Crayfish (Astacus astacus)|Aquat. Toxicol.34(2): 95-104|1996|10.1016/0166-445X(95)00030-8
17089|A||Nawaz,S., and K.L. Kirk|Temperature Effects on Bioconcentration of DDE by Daphnia|Freshw. Biol.34(1): 173-178|1995|10.1046/j.1365-2427.1996.00472.x
17090|A||Gadagbui,B.K.M., M. Addy, and A. Goksoyr|Species Characteristics of Hepatic Biotransformation Enzymes in Two Tropical Freshwater Teleosts, Tilapia (Oreochromis niloticus) and Mudfish (Clarias|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(3): 201-211|1996|
17091|A||Manning,T.M., S.P. Wilson, and J.C. Chapman|Toxicity of Chlorine and Other Chlorinated Compounds to Some Australian Aquatic Organisms|Bull. Environ. Contam. Toxicol.56(6): 971-976|1996|10.1007/s001289900140
17092|A||Rainbow,P.S., and M.K.H. Kwan|Physiological Respones and the Uptake of Cadmium and Zinc by the Amphipod Crustacean Orchestia gammarellus|Mar. Ecol. Prog. Ser.127(1-3): 87-102|1995|10.3354/meps127087
17093|A||Hayes,K.R., W.S. Douglas, and J. Fischer|Inter- and Intra-Laboratory Testing of the Daphnia magna IQ Toxicity Test|Bull. Environ. Contam. Toxicol.57(4): 660-666|1996|10.1007/s001289900241
17094|A||Tessier,L., G. Vaillancourt, and L. Pazdernik|Laboratory Study of Cd and Hg Uptake by Two Freshwater Molluscs in Relation to Concentration, Age and Exposure Time|Water Air Soil Pollut.86(1-4): 347-357|1996|10.1007/BF00279166
17095|A||Miranda,M.G., and K. Ilangovan|Uptake of Lead by Lemna gibba L.: Influence on Specific Growth Rate and Basic Biochemical Changes|Bull. Environ. Contam. Toxicol.56(6): 1000-1007|1996|10.1007/s001289900144
17096|A||Wang,J.S., and K.L. Simpson|Accumulation and Depuration of DDTs in the Food Chain from Artemia to Brook Trout (Salvelinus fontinalis)|Bull. Environ. Contam. Toxicol.56(6): 888-895|1996|10.1007/s001289900129
17097|A||Bitton,G., K. Rhodes, and B. Koopman|CerioFAST:  An Acute Toxicity Test Based on Ceriodaphnia dubia Feeding Behavior|Environ. Toxicol. Chem.15(2): 123-125|1996|
17098|A||Caux,P.Y., L. Menard, and R.A. Kent|Comparative Study of the Effects of MCPA, Butylate, Atrazine, and Cyanazine on Selenastrum capricornutum|Environ. Pollut.92(2): 219-225|1996|10.1016/0269-7491(95)00060-7
17099|A||Jyothish,B., T. Sukumaran, and A. Ravindran|Effect of Pesticides on Opercular Movement and Lethality of Three Teleost Fishes|In: Proceedings of the Kerala Science Congress, Thiruvananthapuram, State Committee on Science, Technology and Environment, Kerala, India:52-54|1994|
17100|A||Sharma,B., K. Gopal, and Y.P. Khanna|Interaction of Carbaryl with Acetylcholinesterase of the Teleost, Clarias batrachus|Toxicol. Environ. Chem.39(3-4): 147-152|1993|10.1080/02772249309357911
17101|A||Kale,S.P., G. Sarma, U.C. Goswami, and K. Raghu|Uptake and Distribution of 14C-Carbofuran and 14C-HCH in Cat Fish|Chemosphere33(3): 449-451|1996|10.1016/0045-6535(96)00179-8
17103|A||Wilkowska,I., J. Kozuch, and J. Pempkowiak|The Influence of Selected Abiotic Factors (Salinity, Temperature) on the Accumulation of Cadmium from Sea Water by Blue Mussel Mytilus edulis|Bull. Sea Fish. Inst. (Biul. Morsk. Inst. Ryback. )1(131): 61-65|1994|
17104|A||Plakas,S.M., K.R. El Said, G.R. Stehly, W.H. Gingerich, and J.L. Allen|Uptake, Tissue Distribution, and Metabolism of Malachite Green in the Channel Catfish (Ictalurus punctatus)|Can. J. Fish. Aquat. Sci.53:1427-1433|1996|10.1139/f96-061
17105|A||Welsh,P.G., J.L. Parrott, D.G. Dixon, P.V. Hodson, D.J. Spry, and G. Mierle|Estimating Acute Copper Toxicity to Larval Fathead Minnow (Pimephales promelas) in Soft Water from Measurements of Dissolved Organic Carbon, Calcium, and pH|Can. J. Fish. Aquat. Sci.53:1263-1271|1996|10.1139/f96-063
17106|A||Norton,W.N., and H.S. Gardner|Ultrastructural Characterization of Selected Chemically Induced Lesions in the Medaka|In: Technical Report 9306, Compendium of the FY1988 & FY1989 Research Reviews for the Research Methods Branch, U.S. Army Biomedical Research & Development Lab., Ft. Detrick, Frederick, MD:17-27|1993|
17107|A||Pollingher,U., B. Kaplan, and T. Berman|The Impact of Iron and Chelators on Lake Kinneret Phytoplankton|J. Plankton Res.17(10): 1977-1992|1995|10.1093/plankt/17.10.1977
17108|A||Kouril,J., and J. Hamackova|The Effect of Duration of Chloramin B Preventive Baths on Their Toxicity for Tench (Tinca tinca) and Sheatfish (Silurus glanis) Fry|Bull. V. U. R. H. Vodnany (Non-English)30(1): 6-12|1994|
17109|A||Bianchini,A., and R. Gilles|Toxicity and Accumulation of Mercury in Three Species of Crabs with Different Osmoregulatory Capacities|Bull. Environ. Contam. Toxicol.57(1): 91-98|1996|10.1007/s001289900160
17110|A||Perez-Coll,C.S., and J. Herkovits|Stage-Dependent Uptake of Cadmium by Bufo arenarum Embryos|Bull. Environ. Contam. Toxicol.56(4): 663-669|1996|10.1007/s001289900097
17111|A||Dutta,H.M., J.S.D. Munshi, P.K. Roy, N.K. Singh, S. Adhikari, and J. Killius|Ultrastructural Changes in the Respiratory Lamellae of the Catfish, Heteropneustes fossilis After Sublethal Exposure to Malathion|Environ. Pollut.92(3): 329-341|1996|10.1016/0269-7491(95)00101-8
17112|A||Schwaiger,J., K. Fent, H. Stecher, H. Ferling, and R.D. Negele|Effects of Sublethal Concentrations of Triphenyltinacetate on Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.30(3): 327-334|1996|10.1007/BF00212290
17113|A||Escartin,E., and C. Porte|Acetylcholinesterase Inhibition in the Crayfish Procambarus clarkii Exposed to Fenitrothion|Ecotoxicol. Environ. Saf.34(2): 160-164|1996|10.1006/eesa.1996.0058
17114|A||Sabater,C., and J.M. Carrasco|Effects of Thiobencarb on the Growth of Three Species of Phytoplankton|Bull. Environ. Contam. Toxicol.56(6): 977-984|1996|10.1007/s001289900141
17115|A||Wu,J.T., S.C. Chang, and K.S. Chen|Enhancement of Intracellular Proline Level in Cells of Anacystis nidulans (Cyanobacteria) Exposed to Deleterious Concentrations of Copper|J. Phycol.31:376-379|1995|10.1111/j.0022-3646.1995.00376.x
17116|A||Warshawsky,D., T. Cody, M. Radike, R. Reilman, B. Schumann, K. LaDow, and J. Schneider|Biotransformation of Benzo(a)pyrene and Other Polycyclic Aromatic Hydrocarbons and Hetercyclic Analogs by Several Green Algae and Other Algal Species|Chem.-Biol. Interact.97(2): 131-148|1995|10.1016/0009-2797(95)03610-X
17117|A||Rao,K.S., and M. Balaji|Toxicity of Copper to Mytilopsis sallei (Recluz) and Some Aspects of Its Control in Indian Waters|In: M.F.Thompson, R.Nagabhushanam, R.Sarojini, and M.Fingerman (Eds.), Recent Developments in Biofouling Control, Oxford & IBH Publ.Co., New Delhi, India:409-415|1994|
17118|A||Tanner,D.K., and M.L. Knuth|Effects of Esfenvalerate on the Reproductive Success of the Bluegill Sunfish, Lepomis macrochirus in Littoral Enclosures|Arch. Environ. Contam. Toxicol.31:244-251|1996|10.1007/BF00212373
17119|A||Burton,G.A.J., T.J. Norberg-King, C.G. Ingersoll, D.A. Benoit, G.T. Ankley, P.V. Winger, J. Kubitz, J.M. Lazorchak, M.E|Interlaboratory Study of Precision: Hyalella azteca and Chironomus tentans Freshwater Sediment Toxicity Assays|Environ. Toxicol. Chem.15(8): 1335-1343|1996|10.1002/etc.5620150812
17120|A||Johnson,R., J. Tietge, and G. Stokes|Validation of the Medaka Assay for Chemical Carcinogens|In: Technical Report 9306, Compendium of the FY1988 & FY1989 Research Reviews for the Research Methods Branch, U.S. Army Biomedical Research & Development Lab., Ft. Detrick, Frederick, MD:45-60|1993|
17121|A||Hendricks,J.D.|Neoplasia in Fish: Tumor and Mechanism Studies in Trout|In: Technical Report 9306, Compendium of the FY1988 & FY1989 Research Reviews for the Research Methods Branch, U.S. Army Biomedical Research & Development Lab., Ft. Detrick, Frederick, MD:61-74,103 - 113|1993|
17122|A||Bunton,T.E.|Pathology of Diethylnitrosamine in the Medaka (Oryzias latipes)|In: Tech.Rep.9306, Compendium of the FY1988 & FY1989 Res.Rev.for the Res.Methods Branch, U.S.Army Biomed.Res.& Dev.Lab., Ft.Detrick, Frederick, MD:76-80|1993|
17123|A||McCarthy,J.F., L.R. Shugart, and B.D. Jimenez|Biological (Molecular and Cellular) Markers of Toxicity in Japanese Medaka|In: Technical Report 9306, Compendium of the FY1988 & FY1989 Research Reviews for the Research Methods Branch, U.S. Army Biomedical Research & Development Lab., Ft. Detrick, Frederick, MD:81-93|1993|
17124|A||Elema,M.O., K.A. Hoff, and H.G. Kristensen|Bioavailability of Flumequine after Oral Administration to Atlantic Salmon (Salmo salar L.)|Aquaculture136(3-4): 209-219|1995|10.1016/0044-8486(95)01049-1
17125|A||Calabrese,E.J., P. Kostecki, J.H. Yang, and L. Baldwin|Evaluation of Epigenetic Carcinogens in Rainbow Trout by Assessing Peroxisome Proliferation Potential|In: Technical Report 9306, Compendium of the FY1988 & FY1989 Research Reviews for the Research Methods Branch, U.S. Army Biomedical Research & Development Lab., Ft. Detrick, Frederick, MD:120-138|1993|
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17127|A||Yasuno,M., and V. Kerdpibule|Susceptibility of Larvae of Culex pipiens fatigans to Organophosphorous Insecticides in Thailand|Jpn. J. Exp. Med.37(6): 559-562|1967|
17128|A||Shukla,G.S., and P.K. Mishra|Bioassay Studies on Effects of Carbamate Insecticides on Dragonfly Nymphs|Indian J. Environ. Health22(4): 328-335|1980|
17129|A||Poirier,S.|Memorandum|Aug.29 Memo to R.Spehar, U.S.EPA, Duluth, MN:12 p.|1990|
17130|A||Buchmann,K., and S. Mellergaard|Histochemical Demonstration of the Inhibitory Effect of Nuvan and Neguvon on Cholinesterase Activity in Pseudodactylogyrus Anguillae (Monogenea)|Acta Vet. Scand.29:51-55|1988|10.1186/BF03548391
17131|A||Olaleye,V.F., E.A. Akintunde, and O.A. Akinyemiju|Effect of a Herbicidal Control of Water Hyacinth (Eichhornia crassipes Mart.) on Fish Composition and Abundance in the Kofawei Creek, Ondo State, Nigeria|J. Environ. Manag.38(2): 85-97|1993|10.1006/jema.1993.1031
17132|A||Sabourin,T.D.|Methods for Aquatic Toxicity Tests Conducted with Acrolein and DEHP as well as the Methods and Results for Acrylonitrile Tests|September 18 Memo to D.Call, University of Wisconsin, Superior, WI:16 p.|1987|
17133|A||Rath,S., and B.N. Misra|Relative Toxicity of Dichlorvos (DDVP) to Tilapia mossambica, Peters of 3 Different Age Groups|Exp. Gerontol.14:307-309|1979|10.1016/0531-5565(79)90042-1
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17218|A||Van den Brink,P.J., R.P.A. Van Wijngaarden, W.G.H. Lucassen, T.C.M. Brock, and P. Leeuwangh|Effects of the Insecticide Dursban 4E (Active Ingredient Chlorpyrifos) in Outdoor Experimental Ditches: II. Invertebrate Community Responses and|Environ. Toxicol. Chem.15(7): 1143-1153|1996|10.1002/etc.5620150719
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17243|A||Kammenga,J.E., and J.A.G. Riksen|Comparing Differences in Species Sensitivity to Toxicants:  Phenotypic Plasticity Versus Concentration-Response Relationships|Environ. Toxicol. Chem.15(9): 1649-1653|1996|
17244|A||Spanggord,R.J., G.R. Gordon, M.J. Schocken, and R.I. Starr|Bioconcentration and Metabolism of [14C]3-Chloro-p-Toluidine Hydrochloride by Bluegill Sunfish|Environ. Toxicol. Chem.15(10): 1655-1663|1996|
17245|A||Kolok,A.S., J.N. Huckins, J.D. Petty, and J.T. Oris|The Role of Water Ventilation and Sediment Ingestion in the Uptake of Benzo(a)pyrene in Gizzard Shad (Dorosoma cepedianum)|Environ. Toxicol. Chem.15(10): 1752-1759|1996|10.1002/etc.5620151015
17246|A||Kolok,A.S., K.J. Groetsch, and J.T. Oris|The Role of Water Ventilation and Sediment Ingestion on the Uptake of Hexachlorobenzene by Gizzard Shad (Dorosoma cepedianum)|Environ. Toxicol. Chem.15(10): 1760-1762|1996|
17247|A||Spangenberg,J.V., and G.N. Cherr|Developmental Effects of Barium Exposure in a Marine Bivalve (Mytilus californianus)|Environ. Toxicol. Chem.15(10): 1769-1774|1996|10.1002/etc.5620151018
17248|A||Fisk,A.T., C.D. Cymbalisty, A. Bergman, and D.C.G. Muir|Dietary Accumulation of C12- and C16-Chlorinated Alkanes by Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.15(10): 1775-1782|1996|
17249|A||Boyle,T.P., J.F. Fairchild, E.F. Robinson-Wilson, P.S. Haverland, and J.A. Lebo|Ecological Restructuring in Experimental Aquatic Mesocosms due to the Application of Diflubenzuron|Environ. Toxicol. Chem.15(10): 1806-1814|1996|10.1002/etc.5620151023
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17251|A||Harmon,V.L., and C.J. Langdon|A 7-D Toxicity Test for Marine Pollutants Using the Pacific Mysid Mysidopsis intii. 2. Protocol Evaluation|Environ. Toxicol. Chem.15(10): 1824-1830|1996|
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17253|A||Hogstrand,C., F. Galvez, and C.M. Wood|Toxicity, Silver Accumulation and Metallothionein Induction in Freshwater Rainbow Trout During Exposure to Different Silver Salts|Environ. Toxicol. Chem.15(7): 1102-1108|1996|10.1002/etc.5620150713
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17255|A||Lambert,R., K.J. Kunert, and P. Boger|On the Phytotoxic Mode of Action of Nitrofen|Pestic. Biochem. Physiol.11:267-274|1979|10.1016/0048-3575(79)90066-X
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17257|A||Kapoor,K., and V.K. Sharma|Effect of Certain Herbicides on Survival, Growth, and Nitrogen Fixation of Blue-Green Alga Anabaena doliolum Bharadwaja|Z. Allg. Mikrobiol.20(7): 465-469|1980|
17258|A||Gotsis-Skretas,O.|A Comparative Study of Heavy Metals Toxicity on Cultures of Marine Phytoplankton|Thalassographica13:17-33|1990|
17259|A||Bednarz,T.|The Effect of Pesticides on the Growth of Green and Blue-Green Algae Cultures|Acta Hydrobiol.23(2): 155-172|1981|
17260|A||Bharati,S.G., and S.B. Angadi|Short and Long-Term Effects of Fungicides on Nitrogen Fixing Blue-Green Algae|Phykos20(1-2): 58-64|1981|
17261|A||Clegg,T.J., and J.L. Koevenig|The Effect of Four Chlorinated Hydrocarbon Pesticides and One Organophosphate Pesticide on ATP Levels in Three Species of Photosynthesizing Freshwater Algae|Bot. Gaz.135(4): 368-372|1974|10.1086/336774
17262|A||Byrne,T.D.|The Effects of Four Trihalogenated Methanes on the Embryonic Development of Rana pipiens and Xenopus laevis|M.S.Thesis, St.Cloud State University, St.Cloud, MN:33 p.|1978|
17263|A||Call,D.J.|Memorandum|August 25 Memo to L.J.Larson, Center for Lake Superior Environ.Stud., Univ.of Wisconsin-Superior, WI:4 p.|1987|
17264|A||Laseter,J.L., C.K. Bartell, A.L. Laska, D.G. Holmquist, D.B. Condie, J.W. Brown, and R.L. Evans|An Ecological Study of Hexachlorobutadiene (HCBD)|EPA-560/6-76-010, U.S.EPA, Washington, D.C.:61 p.|1976|
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17266|A||Matheson III,J.C.|Availability of Aluminum Phosphate Complexes to a Green Alga in Various Culture Media|M.S.Thesis, University of North Carolina, Chapel Hill, NC:132 p.|1975|
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17273|A||Gerhardt,A.|Short Term Toxicity of Iron (Fe) and Lead (Pb) to the Mayfly Leptophlebia marginata (L.) (Insecta) in Relation to Freshwater Acidification|Hydrobiologia (Multiple Languages)284(2): 157-168|1994|10.1007/BF00006887
17274|A||El Nawawy,A.S., Y. Hamdi, M. El Sayed, and S.N. Shalan|Growth of the Blue-Green Alga Tolypothrix tenuis as Affected by Cobalt and Molybdenum|Zent.bl. Bakteriol. Parasitenkd. Infekt.krankh., 2. Abt. (Multiple Languages)128:452-456|1973|
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17294|A||Somsiri,C.|Acute Toxicity of Mercury, Copper and Zinc to the Nile tilapia|Thai Fish. Gaz.35(3): 313-318|1982|
17295|A||Havens,K.E.|An Experimental Comparison of the Effects of Two Chemical Stressors on a Freshwater Zooplankton Assemblage|Environ. Pollut.84(3): 245-251|1994|10.1016/0269-7491(94)90135-X
17296|A||Khayrandish,A., and R.J. Wood|A Multiple Basis for Insecticide Resistance in a Strain of Culex quinquefasciatus (Diptera: Culicidae) from Muheza, Tanzania, Studied as Resistance Declined|Bull. Entomol. Res.83(1): 75-86|1993|10.1017/S0007485300041808
17297|A||Khayrandish,A., and R.J. Wood|Organophosphorus Insecticide Resistance in a New Strain of Culex quinquefasciatus (Diptera: Culicidae) from Tanga, Tanzania|Bull. Entomol. Res.83(1): 67-74|1993|10.1017/S0007485300041791
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17299|A||Annune,P.A., S.O. Ebele, and A.A. Oladimeji|Acute Toxicity of Cadmium to Juveniles of Clarias gariepinus (Teugels) and Oreochromis niloticus (Trewavas)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(7): 1357-1365|1994|
17300|A||Hossain,M.A., and K. Jauncey|Toxic Effects of Glucosinolate (Allyl Isothiocyanate) (Synthetic and from Mustard Oilcake) on Growth and Food Utilization in Common Carp|Indian J. Fish.35(3): 186-196|1988|
17301|A||Luderitz,V., A. Nicklisch, and B. Roloff|Copper Toxicity for Blue-Green Algae with Reference to Their Physiological Status|Arch. Hydrobiol.82(4): 449-459|1989|
17302|A||Rosakutty,P.J., and A.K. Kumaraguru|Effect of Metacid-50 on the Biofertilizer, Azolla pinnata R. Br|Pollut. Res.13(1): 45-52|1994|
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17306|A||Eldridge,M.B., P. Benville, and J.A. Whipple|Physiologic Responses of Striped Bass (Morone saxatilis) Embryos and Larvae to Low Sublethal Concentrations of the Aromatic Hydrocarbon Benzene|In: J.B.Higman (Ed.), Proc.33rd Annu.Meet.of the Gulf and Carribean Fisheries Inst., Univ.of Miami, FL:52-68|1981|
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17308|A||Carr,R.S.|Total Organic Carbon (TOC) Data for Battelle Duxbury Seawater|July 21 Memo to Michael DeGraeve, Battelle Columbus Laboratories, Columbus,OH:71 p.|1987|
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17310|A||Cameron,H.J., and G.R. Julian|The Effects of Four Commonly Used Fungicides on the Growth of Cyanobacteria|Plant Soil78:409-415|1984|10.1007/BF02450374
17312|A||Abedi,Z.H., and D.E. Turton|Note on the Response of Zebra Fish Larvae to Folpet and Difolatan|J. AOAC Int.51(5): 1108-1109|1968|10.1093/jaoac/51.5.1108
17313|A||Schultz,T.W., and B.A. Moulton|Structure-Activity Correlations of Selected Azaarenes, Aromatic Amines, and Nitroaromatics|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:337-357|1984|
17314|A||Schultz,T.W., and J.N. Dumont|Cytotoxicity of Synthetic Fuel Products on Tetrahymena pyriformis I. Phenol|J.Protozool.24(1): 164-172|1977|10.1111/j.1550-7408.1977.tb05296.x
17315|A||Currie,R.S., D.C.G. Muir, W.L. Fairchild, M.H. Holoka, and R.E. Hecky|Influence of Nutrient Additions on Cadmium Bioaccumulation by Aquatic Invertebrates in Littoral Enclosures|Environ. Toxicol. Chem.17(12): 2435-2443|1998|10.1002/etc.5620171209
17316|A||Van Overbeek,J., W.J. Hughes, and R. Blondeau|Acrolein for the Control of Water Weeds and Disease-Carrying Water Snails|Science129:335-336|1959|10.1126/science.129.3345.335
17317|A||Flerov,B.A.|Study of the Adaptation of Guppies to Phenol|Hydrobiol. J.6(5): 87-89|1970|
17318|A||Freitag,D., J.P. Lay, and F. Korte|Environmental Hazard Profile - Test Results as Related to Structures and Translation into the Environment|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:111-131|1984|
17319|A||Hilsenhoff,W.L.|Granulated Malathion as a Possible Control for Tendipes plumosus (Diptera:  Tendipedidae)|J. Econ. Entomol.55:71-78|1962|10.1093/jee/55.1.71
17320|A||Lazaroff,N.|Algal Response to Pesticide Pollutants|Bacteriol. Proc.:48-|1967|
17321|A||Dedonder,A., and C.F. Van Sumere|The Effect of Phenolics and Related Compounds on the Growth and Respiration of Chlorella vulgaris|Z. Pflanzenphysiol. (Multiple Languages)65:70-80|1971|
17322|A||Rowe,E.L., R.J. Ziobro, C.J.K. Wang, and C.W. Dence|The Use of an Alga Chlorella pyrenoidosa and a Duckweed Lemna perpusilla as Test Organisms for Toxicity Bioassays of Spent Bleaching Liquors and Their Components|Environ. Pollut. A.27:289-296|1982|10.1016/0143-1471(82)90157-X
17323|A||Reynolds,J.H., E.J. Middlebrooks, D.B. Porcella, and W.J. Grenney|Effects of Temperature on Oil Refinery Waste Toxicity|J. Water Pollut. Control Fed.47(11): 2674-2693|1975|
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17325|A||Dauble,D.D., R.G. Riley, R.M. Bean, E.W. Lusty, and R.W.,Jr. Hanf|Uptake and Fate of Phenol and Aniline in Rainbow Trout and Daphnids During Single-Compound and Complex-Mixture Exposures|U.S.Dep.of Energy, Battelle Memorial Inst., Pacific Northwest Lab., Richland, WA:37 p.|1984|
17326|A||George,S.G., B.J.S. Pirie, and T.L. Coombs|The Kinetics of Accumulation and Excretion of Ferric Hydroxide in Mytilus edulis (L.) and Its Distribution in the Tissues|J. Exp. Mar. Biol. Ecol.23:71-84|1976|10.1016/0022-0981(76)90086-1
17327|A||Roelofs,T.D.|Effects of Dieldrin on the Intrinsic Rate of Increase of the Guppy, Poecilia reticulata, Peters|Ph.D.Thesis, Oregon State University, Corvallis, OR:88 p.|1971|
17328|A||Khan,A.T.|Effects of Mercury on Fertilization Success of Sperm and Eggs of Two Populations of Killifish, Fundulus heteroclitus|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:131 p.|1987|
17329|A||France,R.L., and P.M. Stokes|Influence of Manganese, Calcium, and Aluminum on Hydrogen Ion Toxicity to the Amphipod Hyalella azteca|Can. J. Zool.65(12): 3071-3078|1987|10.1139/z87-466
17330|A||Reddy,P.M., and M. Bashamohideen|Alterations in Protein Metabolism in Selected Tissues of Fish, Cyprinus carpio, During Sublethal Concentration of Cypermethrin|Environ. Monit. Assess.36(2): 183-190|1995|10.1007/BF00546789
17331|A||Tyrawska,D., K. Grochala, Z. Kowszylo, and L. Manusadzianas|The Effect of Cadmium on the Vital Activity of Nitellopsis obtusa Cells|Pol. Arch. Hydrobiol.41(4): 451-463|1994|
17332|A||Coniglio,L., and R. Baudo|Life-Tables of Daphnia obtusa (Kurz) Surviving Exposure to Toxic Concentrations of Chromium|Hydrobiologia (Multiple Languages)188/189:407-410|1989|10.1007/BF00027807
17333|A||Domal-Kwiatkowska,D., B. Sosak-Swiderska, U. Mazurek, and D. Tyrawska|The Effect of Cadmium on the Survival and Filtering Rate of Daphnia magna, Straus 1820|Pol. Arch. Hydrobiol.41(4): 465-473|1994|
17334|A||Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk|Effect of Zinc on Guppy (Poecilia reticulata) Reproduction|Pol. Arch. Hydrobiol.41(4): 489-493|1994|
17335|A||Van Donk,E., H. Prins, H.M. Voogd, S.J.H. Crum, and T.C.M. Brock|Effects of Nutrient Loading and Insecticide Application on the Ecology of Elodea-Dominated Freshwater Microcosms. I. Responses of Plankton and|Arch. Hydrobiol.133(4): 417-439|1995|10.1127/archiv-hydrobiol/133/1995/417
17336|A||Manna,G.K., and A. Sadhukhan|Mutagenic Potential of Anisole (Methyl Phenyl Ether) on Oreochromis mossambicus|J. Inl. Fish. Soc. India24(1): 40-49|1992|
17337|A||Ostrensky,A., W.,Jr. Wasielesky, and D. Pestana|Acute Toxicity of Ammonia to Artemia sp. (Toxicidade Aguda da Amonia para Artemia sp.)|An. Acad. Bras. Cienc.64(4): 391-395|1992|
17338|A||Arts,M.T., J.V. Headley, and K.M. Peru|Persistence of Herbicide Residues in Gammarus lacustris (Crustacea: Amphipoda) in Prairie Wetlands|Environ. Toxicol. Chem.15(2): 481-488|1996|10.1002/etc.5620150411
17339|A||Jha,M.M., and B.S. Jha|Variations in Blood Glucose, Serum Protein and Serum Cholesterol Levels due to Nickel intoxication in Fish Anabas testudineus|Environ. Ecol.12(4): 909-912|1994|
17340|A||Mohapatra,P.K., L. Mohanty, and R.C. Mohanty|Reduction in Mercury Toxicity to Scenedesmus bijuga with Addition of Glucose, Glutamate and 2-Oxoglutarate|J. Ecotoxicol. Environ. Monit.3(1): 19-26|1993|
17341|A||Kumar,B., and V. Banerjee|Alterations in Haematological Parameters of Clarias batrachus (L) on Exposure to Lethal and Sublethal Concentrations of BHC|J. Freshw. Biol.3(1): 71-79|1991|
17342|A||Lemus,M., J. Chopite, and B. Gamboa|Effect of Salinity in the Zinc Bioaccumulation and in Na Super(+), K Super(+), and Ca Super(++) Concentrations in Tissues of Orthopristis ruber|Bol. Inst. Esp. Oceanogr.28(1-2): 159-164|1989|
17344|A||Ostrensky,A., M.A. Marchiori, and L.H. Poersch|Aquatic Toxicity of Ammonia in the Metamorphosis of Post-Larvae Penaeus paulensis Perez-Farfante, 1967|An. Acad. Bras. Cienc.64(4): 383-389|1992|
17345|A||Ozoh,P.T.E.|The Effect of Salinity, Temperature and Time on the Accumulation and Depuration of Copper in Ragworm, Hediste (Nereis) Diversicolor (O.F. Muller)|Environ. Monit. Assess.29(2): 155-165|1994|10.1007/BF00546872
17346|A||Mule,M.B., and V.S. Lomte|Effect of Mercuric Chloride on the Body Lipids of the Gastropod, Thiara tuberculata|Comp. Physiol. Ecol.18(2): 65-68|1993|
17347|A||Mule,M.B., and V.S. Lomte|Effects of Copper Sulphate on Geycogen Metabolism in Freshwater Snail Thiara tuberculata|Comp. Physiol. Ecol.18(3): 110-113|1993|
17348|A||Devaraj,P., V.R. Selvarajan, and S. Durairaj|Respiratory Metabolism in Brain Regions of Oreochromis mossambicus During Phosalone Toxicity|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere97(2): 135-140|1993|
17349|A||Almeida,M.J., G. Moura, T. Pinheiro, J. Machado, and J. Coimbra|Modifications in Crassostrea gigas Shell Composition Exposed to high Concentrations of Lead|Aquat. Toxicol.40(4): 323-334|1998|10.1016/S0166-445X(97)00062-3
17350|A||Pickett,J.B., W.L. Specht, and J.L. Keyes|Acute and Chronic Toxicity of Uranium Compounds to Ceriodaphnia dubia|U.S.Dep.Energy, WSRC-RP-92-995, Westinghouse Savannah River Company, Aiken, SC:403 p.|1993|
17351|A||Laughlin,R.B., O. Linden, and H.E. Guard|Acute Toxicity of Tributyltins and Tributyltin Leachates from Marine Antibiofouling Paints|Acute Toxicity of Tributyltins and Tributyltin Leachates from Marine Antibiofouling Paints, Office of Naval Research, Arlington, VA:26 p.|1982|
17352|A||Durakovic,S., Z. Durakovic, A. Durakovic, T. Beritic, O. Pospisil, and B. Radic|Artemia Salina Larvae as a Test Organism in Research on Mycotoxin Synergism|Arh. Hig. Rada Toksikol.38(4): 307-313|1987|
17353|A||Mohanty,A.N., D.K. Chatterjee, and B.S. Giri|Effective Combination of UREA and Bleaching Powder as a Piscicide in Aquaculture Operations|J. Aquacult. Trop.8(2): 249-254|1993|
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17355|A||Gersdorff,W.A.|Effect of Change of Temperature on Relative Toxicity of Rotenone and Phenol|J. Agric. Res.67:65-80|1943|
17356|A||Mowbray,D.L.|Assessment of the Biological Impact of OK Tedi Mine Tailings, Cyanide and Heavy Metals|In: J.C.Pernetta (Ed.), Reg.Seas Rep.Stud.No.99, Potential Impacts of Mining on the Fly River, UNEP, Athens, Greece:45-74|1988|
17357|A||Orthuber,G.|Clinical and Haematological Studies of the Subacute Toxicity of bis (Tri-n-Butyltin) Oxide in Rainbow Trout (Oncorhynchus mykiss)|Ph.D.Thesis, Ludwig-Maximilians Univ., Muenchen, Germany:194 p.|1991|
17358|A||Jaiswal,S.K., and S. Waghray|Impaired Behaviour of Cyprinus carpio on Short Term Sublethal Exposure to Selenium|In: M.Mohan Joseph (Ed.), Proceedings of the First Indian Fisheries Forum, Asian Fisheries Society, Indian Branch, Mangalore:289-293|1988|
17359|A||Ravikumar,S.S., and T.R.C. Gupta|Toxicity of Chlordane and Malathion to Silver Carp and Common Carp|In: M.Mohan Joseph (Ed.), Proceedings of the First Indian Fisheries Forum, Asian Fisheries Society, Indian Branch, Mangalore:281-283|1988|
17360|A||Prabhudeva,K.N., and N.R. Menon|Toxicity of Copper Salts on the Brown Mussel Perna indica:  Individually and in Combination|In: M.Mohan Joseph (Ed.), Proc.of the 1st Indian Fish.Forum, Asian Fish.Soc., Indian Branch, Mangalore:277-279|1988|
17361|A||Balagangadharan,B.R., K.M. Shankar, and T.J. Varghese|Use of Potassium Permanganate for Controlling Microcystis Bloom in Fish Ponds|In: M.Mohan Joseph (Ed.), Proceedings of the First Indian Fisheries Forum, Asian Fisheries Society, Indian Branch, Mangalore:35-37|1980|
17362|A||DeWitt,T.H., M.S. Redmond, J.E. Sewall, and R.C. Swartz|Development of a Chronic Sediment Toxicity Test for Marine Benthic Amphipods|Cbp/Trs 89/93, U.S.Epa-Erlin, Pacific Ecosystems Branch, Newport, OR:247 p.|1992|
17363|A||Barko,J.W., W.F. James, W.D. Taylor, and D.G. McFarland|Effects of Alum Treatment on Phosphorus Dynamics and Phytoplankton Response in Eau Galle Reservoir, Wisconsin|Tech.Rep.No.E-90-1, Water Operations Technical Support Program, U.S.Army Corps of Engineers, Waterways Experiment Station, Vicksburg, MS:48 p.|1990|
17364|A||Liber,K., D.J. Call, T.P. Markee, K.L. Schmude, M.D. Balcer, F.W. Whiteman, and G.T. Ankley|Effects of Acid-Volatile Sulfide on Zinc Bioavailability and Toxicity to Benthic Macroinvertebrates:  A Spiked-Sediment Field Experiment|Environ. Toxicol. Chem.15(12): 2113-2125|1996|
17365|A||Sibley,P.K., G.T. Ankley, A.M. Cotter, and E.N. Leonard|Predicting Chronic Toxicity of Sediments Spiked with Zinc: An Evaluation of the Acid-Volatile Sulfide Model Using a Life-Cycle Test with the Midge|Environ. Toxicol. Chem.15(12): 2102-2112|1996|
17366|A||Mabury,S.A., and D.G. Crosby|Fate and Disposition of Diflubenzuron in Rice Fields|Environ. Toxicol. Chem.15(11): 1908-1913|1996|10.1002/etc.5620151108
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17368|A||Warnau,M., M. Iaccarino, A. De Biase, A. Temara, M. Jangoux, P. Dubois, and G. Pagano|Spermiotoxicity and Embryotoxicity of Heavy Metals in the Echinoid Paracentrotus lividus|Environ. Toxicol. Chem.15(11): 1931-1936|1996|10.1002/etc.5620151111
17369|A||Van Vlaardingen,P.L.A., W.J. Steinhoff, P. De Voogt, and W.A. Admiraal|Property-Toxicity Relationships of Azaarenes to the Green Alga Scenedesmus acuminatus|Environ. Toxicol. Chem.15(11): 2035-2042|1996|
17370|A||Hansen,D.J., J.D. Mahony, W.J. Berry, S.J. Benyi, J.M. Corbin, S.D. Pratt, D.M. Di Toro, and M.B. Abel|Chronic Effect of Cadmium in Sediments on Colonization by Benthic Marine Organisms: An Evaluation of the Role of Interstitial Cadmium and|Environ. Toxicol. Chem.15(12): 2126-2137|1996|
17371|A||DeWitt,T.H., R.C. Swartz, D.J. Hansen, D. McGovern, and W.J. Berry|Bioavailability and Chronic Toxicity of Cadmium in Sediment to the Estuarine Amphipod Leptocheirus plumulosus|Environ. Toxicol. Chem.15(12): 2095-2101|1996|10.1002/etc.5620151205
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17376|A||Farr,A.J., C.C. Chabot, and D.H. Taylor|Behavioral Avoidance of Fluoranthene by Fathead Minnows (Pimephales promelas)|Neurotoxicol. Teratol.17(3): 265-271|1995|10.1016/0892-0362(94)00062-I
17377|A||Edding,M., and F. Tala|Copper Transfer and Influence on a Marine Food Chain|Bull. Environ. Contam. Toxicol.57(4): 617-624|1996|10.1007/s001289900235
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17380|A||Sornaraj,R., P. Baskaran, and S. Thanalakshmi|Effects of Heavy Metals on Some Physiological Responses of Air-Breathing Fish Channa punctatus (Bloch)|Environ. Ecol.13(1): 202-207|1995|
17381|A||Fisher,N.S., V.T. Breslin, and M. Levandowsky|Accumulation of Silver and Lead in Estuarine Microzooplankton|Mar. Ecol. Prog. Ser.116(1-3): 207-215|1995|10.3354/meps116207
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17383|A||Singh,N.N., and A.K. Srivastava|Formothion Induced Haematological Changes in the Freshwater Indian Catfish Heteropneustes fossilis|J. Ecotoxicol. Environ. Monit.4(2): 137-140|1994|
17384|A||Liao,I.C., and J.J. Guo|Studies on the Tolerance of Postlarvae of Penaeus monodon, P. japonicus, P. Semisulcatus, P. penicillatus, Metapenaeus ensis and Macrobrachium rosenbergii to Benzalkonium Chloride, Benzethonium Chloride and Cetylpyridin|COA (Counc. Agric.) Fish. Ser.24:95-99|1990|
17385|A||Sallal,A.K.J.|Effects of Crude Oil and Benzene on Growth, Photosynthesis and Glycollate Dehydrogenase of Anacystis nidulans|Arab Gulf J. Sci. Res.13(2): 357-367|1995|
17386|A||Suseela,K.P., R. Ramadevi, and J. Chandrakantha|Toxic Effects of Pesticides on Survival and Proximate Composition of Tubifex tubifex|J. Ecotoxicol. Environ. Monit.4(1): 21-26|1994|
17387|A||Muniandy,S., and S. Sheela|Studies on the Effects of Pesticides on Food Intake, Growth and Food Conversion Efficiencies of a Fish Lepidocephalichthyes thermalis|Comp. Physiol. Ecol.18(3): 92-95|1993|
17388|A||Riedel,G.F., G.R. Abbe, and J.G. Sanders|Silver and Copper Accumulation in Two Estuarine Bivalves, the Eastern Oyster (Crassostrea virginica) and the Hooked Mussel (Ischadium recurvum) in the Patuxent River Estuary, Maryland|Estuaries18(3): 445-455|1995|10.2307/1352363
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17390|A||Salazar,S.M.|The Effects of bis(Tri-n-Butyltin) Oxide on Three Species of Marine Phytoplankton|Tech.Rep.No.1039, Naval Ocean Systems Center, San Diego, CA:19 p.|1985|
17391|A||Barry,M.J., D.C. Logan, J.T. Ahokas, and D.A. Holdway|Sublethal Effects of Endosulfan and Oxygen Concentration on Embryos of the Australian Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis)|Australas. J. Ecotoxicol.1:71-76|1995|
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17395|A||Burton,D.T., S.D. Turley, and G.T. Peters|Toxicity of Nitroguanidine, Nitroglycerin, Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX), and 2,4,6-Trinitrotoluene (TNT) to Selected Freshwater Aquatic Organisms|Final Rep. April, 1993, WREC-93-B3, U.S. Army Med. Res. and Dev. Command, Ft. Detrick, Frederick, MD:262 p.|1993|
17396|A||Magni,P.|Effect of Oxygen Concentration on the Bioavailability of Copper for the Bivalve 'Macoma balthica'|Stage Report June 1992-Feb.1993, Inst.voor Oecologisch Onderzoek, Heteren, Netherlands:27 p.|1993|
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17404|A||Thangnipon,W., P. Luangpaiboon, and S. Chinabut|Effects of the Organophosphate Insecticide, Monocrotophos, on Acetylcholinesterase Activity in the Nile Tilapia Fish (Oreochromis niloticus) Brain|Neurochem. Res.20(5): 587-591|1995|10.1007/BF01694540
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17410|A||Khajuria,J.K., and H.S. Bali|Evaluation of Three Molluscicides Against Limnaea auricularia var rufescens in Laboratory|Cheiron17(2): 61-63|1988|
17412|A||Kargin,F.|Elimination of Cadmium from Cd-Contaminated Tilapia zilli in Media Containing EDTA and Freshwater: Changes in Protein Levels|Bull. Environ. Contam. Toxicol.57(2): 211-216|1996|10.1007/s001289900177
17413|A||Maltby,L., and M. Crane|Responses of Gammarus pulex (Amphipoda, Crustacea) to Metalliferous Effluents: Identification of Toxic Components and the Importance of Interpopulation Variation|Environ. Pollut.84(1): 45-52|1994|10.1016/0269-7491(94)90069-8
17414|A||Mizrahi,L., and Y. Achituv|Effects of Cd, Hg and Zn on the Metabolism of the Gastropod Nassarius gibbolosa|MAP Tech. Rep. Ser. (Multiple Languages)79:79-89|1994|
17415|A||Hilmy,A.M., N.F. Abdel-Hamid, and K.S. Ghazaly|Toxic Effects of Both Zinc and Copper on Size and Sex of Portunus pelagicus (L) (Crustacea:  Decapoda)|Bull. Inst. Oceanogr. Fish. (Cairo)11:207-215|1985|
17416|A||Hilmy,A.M., N.A. El-Domiaty, F.I. Mousa, and W.E. Abu-Samra|Variation in the Blood Chemistry of Juvenile Clarias lazera Subsequent to Acute and Subacute Copper Exposure|Bull. Inst. Oceanogr. Fish. (Cairo)13(2): 65-77|1987|
17417|A||Ibrahim,E.A.|Effects of Salinity and Pesticides on the Morphology of Some Microscopic Algae|Bull. Inst. Oceanogr. Fish. (Cairo)13(2): 103-110|1987|
17418|A||Ibrahim,E.A.|Effect of Bayluscide on Growth and Metabolic Activities of Some Freshwater Phytoplankters|Bull. Inst. Oceanogr. Fish. (Cairo)13(2): 89-101|1987|
17419|A||Mukherjee,J.K., and G.M. Sinha|Cadmium Toxicity on Haematological and Biochemical Aspects in an Indian Freshwater Major Carp, Labeo rohita (Hamilton)|J. Freshw. Biol.5(3): 245-251|1993|
17420|A||Boleas,S., C. Fernandez, and J.V. Tarazona|Toxicological and Kinetic Study of Musk Xylene in Rainbow Trout, Oncorhynchus mykiss|Bull. Environ. Contam. Toxicol.57(2): 217-222|1996|10.1007/s001289900178
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17422|A||Stene,A., and S. Lonning|Effects of Short-Time Exposure to Naphthalene, Methyl-, and Hydroxynaphthalenes on Two Different Embryonic Stages of Cod (Gadus morhua L.)|Sarsia70(4): 279-285|1985|10.1080/00364827.1985.10419682
17423|A||Kammann,U., M. Friedrich, and H. Steinhart|Isolation of a Metal-Binding Protein from Ovaries of Dab (Limanda limanda L.) Distinct from Metallothionein: Effect of Cadmium Exposure|Ecotoxicol. Environ. Saf.33(3): 1-6|1996|10.1006/eesa.1996.0036
17424|A||Liess,M., and R. Schulz|Chronic Effects of Short-Term Contamination with the Pyrethroid Insecticide Fenvalerate on the Caddisfly Limnephilus lunatus|Hydrobiologia (Multiple Languages)324(2): 99-106|1996|10.1007/BF00018170
17425|A||Arnold,H., H.J. Pluta, and T. Braunbeck|Sublethal Effects of Prolonged Exposure to Disulfoton in Rainbow Trout (Oncorhynchus mykiss): Cytological Alterations in the Liver by a Potent|Ecotoxicol. Environ. Saf.34(1): 43-55|1996|10.1006/eesa.1996.0043
17428|A||Sugiura,K.|The Use of an Aquatic Microcosm for Pollution Effects Assessment|Water Res.30(8): 1801-1812|1996|10.1016/0043-1354(96)00062-0
17429|A||Fargasova,A., and M. Drtil|Respirometric Toxicity Test: Freshwater Alga Scenedesmus quadricauda Sensitivity to Organotin Compounds|Bull. Environ. Contam. Toxicol.56(6): 993-999|1996|10.1007/s001289900143
17430|A||Fargasova,A.|Inhibitive Effect of Organotin Compounds on the Chlorophyll Content of the Green Freshwater Alga Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.57(1): 99-106|1996|10.1007/s001289900161
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17432|A||Soengas,J.L., M.J. Agra-Lago, B. Carballo, M.D. Andres, and J.A.R. Veira|Effect of an Acute Exposure to Sublethal Concentrations of Cadmium on Liver Carbohydrate Metabolism of Atlantic Salmon (Salmo salar)|Bull. Environ. Contam. Toxicol.57(4): 625-631|1996|10.1007/s001289900236
17433|A||Angadi,S.B., and P. Mathad|Effect of Chromium and Nickel on Scenedesmus quadricauda (Turp.) de Breb|Phykos33(1-2): 99-103|1994|
17434|A||Fraleigh,P.C., W.R. Van Cott, M.E. Wenning, and J.A. Dekam|Effects of Hypochlorite, Permanganate, Chlorine Dioxide and Chloramines on Zebra Mussel Settling|In: Proceedings of the 3rd International Zebra Mussel Conference, Toronto, Ontario:3.23 - 3.36|1993|
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17437|A||Chattopadhyay,D.N., and S.K. Konar|Chronic Effect of a Nonionic Detergent on Aquatic Ecosystem|Environ. Ecol.4(1): 105-108|1986|
17438|A||Pandey,U., and J. Pandey|Effect of Nitrogen Sources on Cadmium Toxicity in Cyanophage N-1 Resistant Mutant of Nostoc muscorum|Phykos33(1/2): 147-152|1994|
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17458|A||Nimmo,D.R., and L.H. Bahner|Metals, Pesticides and PCBs: Toxicities to Shrimp Singly and in Combination|In: M.W.Wiley (Ed.), Estuarine Processes, Vol.1, Uses, Stresses, and Adaption to the Estuary.Academic Press, New York, NY:523-532|1977|
17459|A||Mouhri,K., P. Marsot, E. Pelletier, M. Loudiki, and R. Saint-Louis|Effects of Tributyltin Chloride on the Growth and Metabolism of the Marine Diatom Phaeodactylum tricornutum (Bohlin)|Oceanol. Acta18(3): 363-370|1995|
17460|AT||Grant,I.F., A.C. Tirol, T. Aziz, and I. Watanabe|Regulation of Invertebrate Grazers as a Means to Enhance Biomass and Nitrogen Fixation of Cyanophyceae in Wetland Rice Fields|Soil Sci. Soc. Am. J.47(4): 669-675|1983|10.2136/sssaj1983.03615995004700040013x
17461|A||Wayland,M., and D.A. Boag|Fate of Carbofuran and Its Effects on Aquatic Macroinvertebrates in Canadian Prairie Parkland Ponds|Ecotoxicology4(3): 169-189|1995|10.1007/BF00116480
17462|A||Espagnet,S., C. Delescluse, D. Pesando, C. Graillet, S. Michel, and J.P. Girard|Alteration of Ca2+ Homeostasis of Sea Urchin Embryos by Retinoid CD 367, Dual Effect on Egg Cleavage and Embryonic Development|J. Biochem. Toxicol.10(3): 161-169|1995|10.1002/jbt.2570100307
17463|A||Liu,C.K., and C.H. Wang|Toxicological Studies of Some Drugs, in Cultured Eels (Anguilla japonica)|COA (Counc. Agric.) Fish. Ser.12:83-93|1987|
17464|A||Zia,S., and D.G. McDonald|Role of the Gills and Gill Chloride Cells in Metal Uptake in the Freshwater-Adapted Rainbow Trout, Oncorhynchus mykiss|Can. J. Fish. Aquat. Sci.51(11): 2482-2492|1994|10.1139/f94-247
17465|A||Rice,C.D., and M.M. Banes|The Immunotoxicity of 3,3'4,4',5-Pentachlorobiphenyl (PeCB) and Tributyltin (TBT) in Channel Catfish, Ictalurus punctatus|In: International Symposium on Aquatic Animal Health, Program Abstracts, Seattle, WA:|1994|
17466|A||Wierzbicka,M.|Haemolymph Concentration in Cyclopoida Copepodids During Active and Resting Stage and the Effect of 2,4-D Sodium Salt|Pol. Arch. Hydrobiol.21(2): 269-273|1974|
17467|A||Van der Weiden,M.E.J., R. Bleumink, W. Seinen, and M. Van den Berg|Concurrence of P450 1A Induction and Toxic Effects in the Mirror Carp (Cyprinus carpio), After Administration of a Low Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Aquat. Toxicol.29(3-4): 147-162|1994|10.1016/0166-445X(94)90065-5
17468|A||Van der Weiden,M.E.J., L.P. De Vries, K. Fase, M. Celander, W. Seinen, and M. Van den Berg|Relative Potencies of Polychlorinated Dibenzo-p-Dioxins (PCDDS), Dibenzofurans (PCDFS) and Biphenyls (PCBS), for Cytochrome P450 1A Induction in the Mirror Carp (Cyprinus carpio)|Aquat. Toxicol.29(3-4): 163-182|1994|10.1016/0166-445X(94)90066-3
17469|A||Knauer,J., J.R. Duncan, and G.S. Merron|Sublethal Effects of an Organochloride/Synthetic Pyrethroid Insecticide Cocktail on Tilapia rendalli rendalli (Pisces: Cichlidae)|S. Afr. J. Sci.89(5): 249-251|1993|
17470|A||Hanazato,T.|Pesticides as Chemical Agents Inducing Helmet Formation in Daphnia ambigua|Freshw. Biol.26:419-424|1991|10.1111/j.1365-2427.1991.tb01408.x
17471|A||Jacobs,R., and O. Lind|The Combined Relationship of Temperature and Molybdenum Concentration to Nitrogen Fixation by Anabaena cylindrica|Microb. Ecol.3:205-217|1977|10.1007/BF02010618
17472|A||Lech,J.J., W.J. Waddell, M.A. Friedman, and L.R. Johnson|Uptake, Disposition, and Persistence of Acrylonitrile in Rainbow Trout|Fundam. Appl. Toxicol.27(2): 291-294|1995|10.1006/faat.1995.1136
17473|A||Pedrajas,J.R., J. Peinado, and J. Lopez-Barea|Oxidative Stress in Fish Exposed to Model Xenobiotics. Oxidatively Modified Forms of Cu,Zn-Superoxide Dismutase as Potential Biomarkers|Chem.-Biol. Interact.98(3): 267-282|1995|10.1016/0009-2797(95)03651-2
17474|A||Berard,A.|Effect of Four Organic Solvents on Natural Phytoplankton Assemblages:  Consequences for Ecotoxicological Experiments on Herbicides|Bull. Environ. Contam. Toxicol.57(2): 183-190|1996|10.1007/s001289900173
17475|A||Wejnar,R., and S. Tais|Studies on the Influence of Nitrofen on Growth and Pigment Content of Lemna gibba L. (Untersuchungen zum Einflub des Nitrofens auf Wachstum und Pigmentgehalt von Lemna gibba L.)|Beitr. Biol. Pflanz. (Non-English)58:427-434|1983|
17476|A||Hayer,F., P. Wagner, and J.C. Pihan|Monitoring of Extractable Organic Halogens (EOX) in Chlorine Bleached Pulp and Paper Mill Effluents Using Four Species of Transplanted Aquatic Mollusks|Chemosphere33(11): 2321-2334|1996|10.1016/0045-6535(96)00323-2
17477|A||Lorenz,R., R. Bruggemann, C.E.W. Steinberg, and O.H. Spieser|Humic Material Changes Effects of Terbutylazine on Behavior of Zebrafish (Brachydanio rerio)|Chemosphere33(11): 2145-2158|1996|10.1016/0045-6535(96)00305-0
17478|A||Sylvie,B.S., C. Pairault, G. Vernet, and H. Boulekbache|Effect of Lindane on the Ultrastructure of the Liver of the Rainbow Trout, Oncorhynchus mykiss, Sac-Fry|Chemosphere33(10): 2065-2079|1996|10.1016/0045-6535(96)00295-0
17479|A||Otto,D.M.E., J.K. Buttner, D.M. Arquette, and T.W. Moon|Impaired Inducibility of Xenobiotic and Antioxidant Responses in Rainbow Trout Exposed to Polychlorinated Biphenyl Contaminated Sediments in the St. Lawrence River|Chemosphere33(10): 2021-2032|1996|10.1016/0045-6535(96)00310-4
17480|A||Hsu,T., and F.Y. Deng|Studies on the Susceptibility of Various Organs of Zebrafish (Brachydanio rerio) to Benzo(a)pyrene-Induced DNA Adduct Formation|Chemosphere33(10): 1975-1980|1996|10.1016/0045-6535(96)00299-8
17481|A||Vanegas,C., S. Espina, A.V. Botello, and S. Villanueva|Acute Toxicity and Synergism of Cadmium and Zinc in White Shrimp, Penaeus setiferus, Juveniles|Bull. Environ. Contam. Toxicol.58:87-92|1997|10.1007/s001289900304
17482|A||Pablo,F., R.T. Buckney, and R.P. Lim|Toxicity of Cyanide, Iron-Cyanide Complexes, and a Blast Furnace Effluent to Larvae of the Doughboy Scallop, Chlamys asperrimus|Bull. Environ. Contam. Toxicol.58:93-100|1997|10.1007/s001289900305
17483|A||Klobucar,G.I.V., J. Lajtner, and R. Erben|Lipid Peroxidation and Histopathological Changes in the Digestive Gland of a Freshwater Snail Planobarius corneus L. (Gastropoda, Pulmonata) Exposed to Chronic and Sub-chronic Concentrations of PCP|Bull. Environ. Contam. Toxicol.58:128-134|1997|10.1007/s001289900310
17484|A||Dutta,H.M., N. Qadri, J. Ojha, N.K. Singh, S. Adhikari, J.S.D. Munshi, and P.K. Roy|Effect of Diazinon on Macrophages of Bluegill Sunfish, Lepomis macrochirus: A Cytochemical Evaluation|Bull. Environ. Contam. Toxicol.58:135-141|1997|10.1007/s001289900311
17485|A||Brown,S.B., R.E. Evans, W.L. Lockhart, D.A. Metner, D.C.G. Muir, and A. Yarachewski|Biochemical and Histological Responses to Coplanar 3,3',4,4',5-Pentachlorobiphenyl in Lake Trout (Salvelinus namaycush)|Proc. Conf. Gt. Lakes Res.:111-|1993|
17486|A||Van Haelst,A.G., Q. Zhao, F.W.M. Van der Wielen, H.A.J. Govers, and P. De Voogt|Determination of Bioconcentration Factors of Eight Tetrachlorobenzyltoluenes in the Zebra Mussel Dreissena polymorpha|Ecotoxicol. Environ. Saf.34(1): 35-42|1996|10.1006/eesa.1996.0042
17487|A||Arts,M.T., M.E. Ferguson, N.E. Glozier, R.D. Robarts, and D.B. Donald|Spatial and Temporal Variability in Lipid Dynamics of Common Amphipods:  Assessing the Potential for Uptake of Lipophilic Contaminants|Ecotoxicology4(2): 91-113|1995|10.1007/BF00122171
17488|A||Ludemann,D., and H. Neumann|Studies on the Acute Toxicity of Modern Contact Insecticides in Fresh Water. II|Z. Angew. Zool. (Multiple Languages)47:303-321|1960|
17489|A||Ludemann,D., and H. Neumann|Studies on the Acute Toxicity of Modern Contact Insecticides in Fresh Water. III. Chironomid Larvae|Z. Angew. Zool. (Multiple Languages)47:493-505|1960|
17490|A||Simeray,J., and A. Delcourt|Preliminary Results on the Effect of Cobalt, Zinc and Copper on the Growth of Euglena gracilis (Premiers Resultats Relatifs a l'Action du Cobalt, du Zinc et du Cuivre sur la Croissance d'Euglena gracilis Z.)|Comptes Rendus Seances Soc. Biol. Fil. (Non-English)173(1): 33-35|1979|
17491|A||Cano,M.L., S.C. Dyer, and A.J. DeCarvalho|Effect of Sediment Organic Carbon on the Toxicity of a Surfactant to Hyalella azteca|Environ. Toxicol. Chem.15(8): 1411-1417|1996|10.1002/etc.5620150821
17492|A||Thakur,N., and S. Sahai|Differential Leucocyte Counts of Some Fishes During Malathion Intoxication|Environ. Ecol.11(4): 875-878|1993|
17493|A||Elson,P.F.|Effects on Wild Young Salmon of Spraying DDT over New Brunswick Forests|J. Fish. Res. Board Can.24(4): 731-766|1967|10.1139/f67-066
17494|T||Neukomm,S.|The Newt Test for Studying Certain Categories of Carcinogenic Substances|In: W.A.M.Duncan (Ed.), Experimental Model Systems in Toxicology and Their Significance in Man, Proceedings of the Meeting held in Zurich, June, 1973, International Congress Series 311, Excerpta Medica, Amsterdam, The Netherlands:228-235|1974|
17495|AT||Hussain,S., and K. Jamil|Bioaccumulation of Mercury and Its Effect on Protein Metabolism of the Water Hyacinth Weevil Neochetina eichhornae (Warner)|Bull. Environ. Contam. Toxicol.45:294-298|1990|10.1007/BF01700198
17496|A||Vink,G.J.|Uptake of Dieldrin and Dieldrin-Induced Changes in the Activities of Microsomal Liver Enzymes of the Marine Flatfish Pleuronectes platessa L|In: J.H.Koeman and J.J.T.W.A.Strik (Eds.), Sublethal Effects of Toxic Chemicals on Aquatic Animals, Proc.of the Swedish-Netherlands Symp., Sept.2-5, 1975, Wageningen, Elsevier Scientific Publ.Co., Amsterdam, Netherlands:145-157|1975|
17497|A||Freda,J., and D.G. McDonald|Effects of Aluminum on the Leopard Frog, Rana pipiens: Life Stage Comparisons and Aluminum Uptake|Can. J. Fish. Aquat. Sci.47:210-216|1990|10.1139/f90-023
17498|A||Freda,J., V. Cavdek, and D.G. McDonald|Role of Organic Complexation in the Toxicity of Aluminum to Rana pipiens Embryos and Bufo americanus Tadpoles|Can. J. Fish. Aquat. Sci.47:217-224|1990|10.1139/f90-024
17499|A||Greenhouse,G.|Evaluation of the Teratogenic Effects of Hydrazine, Methylhydrazine, and Dimethylhydrazine on Embryos of Xenopus laevis, the South African Clawed Toad|Teratology13:167-178|1976|10.1002/tera.1420130207
17500|A||Falk,M.R., M.D. Miller, and S.J.M. Kostiuk|Biological Effects of Mining Wastes in the Northwest Territories|Tech.Rep.Ser.No.CEN/T-73-10, Environment Canada, Fish.and Mar.Serv., Resour.Manage.Branch, Winnipeg, Manitoba, Canada:89 p.|1973|
17501|A||Sastry,K.V., M. Samuel, and V. Shukla|Metabolic Alterations Produced by the Organochlorine Pesticide Aldrin in the Freshwater Fish Channa punctatus|In: Proceedings of the National Symposium on Freshwater Aquaculture, CIFA, Bhubaneswar, India:179-181|1991|
17502|A||Everaarts,J.M., and K. SaralaDevi|Cadmium Distribution in Sediment and the Lugworm Arenicola marina in a Low Concentration Exposure Experiment|Bull. Environ. Contam. Toxicol.57(5): 771-778|1996|10.1007/s001289900256
17503|A||Chen,J.C., and C.T. Chen|Changes of Osmotic and Electolyte Concentrations in the Haemolymph of Penaeus japonicus Exposed to Ambient Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(1): 35-38|1996|10.1016/0300-9629(95)02085-3
17504|A||El Jay,A.|Toxic Effects of Organic Solvents on the Growth of Chlorella vulgaris and Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.57(2): 191-198|1996|10.1007/s001289900174
17505|A||Lindauer,U.|Light- and Electron Microscopical Studies on the Subacute Toxicity of Linuron on Rainbow Trout (Oncorhynchus mykiss)|Ph.D.Thesis, Ludwig-Maximillians University, Muenchen, Germany:153 p.|1991|
17506|A||Fivelstad,S., J. Schwarz, H. Stromsnes, and A.B. Olsen|Sublethal Effects and Safe Levels of Ammonia in Seawater for Atlantic Salmon Postsmolts (Salmo salar L.)|Aquac. Eng.14(3): 271-280|1995|10.1016/0144-8609(95)93439-T
17507|AT||Borthwick,P.W., T.W. Duke, A.J.,Jr. Wilson, J.I. Lowe, J.M.,Jr. Patrick, and J.C. Oberheu|Accumulation and Movement of Mirex in Selected Estuaries of South Carolina, 1969-71|Pestic. Monit. J.7(1): 6-26|1973|
17508|T||Langan,M.M., and K.D. Hoagland|Growth Responses of Typha latifolia and Scirpus acutus to Atrazine Contamination|Bull. Environ. Contam. Toxicol.57(2): 307-314|1996|10.1007/s001289900191
17509|A||Gilek,M., M. Bjork, and C. Naf|Influence of Body Size on the Uptake, Depuration, and Bioaccumulation of Polychlorinated Biphenyl Congeners by Baltic Sea Blue Mussels, Mytilus edulis|Mar. Biol.125:499-510|1996|10.1007/BF00353263
17510|A||Bunton,T.E., and M.J. Wolfe|Reactivity of Tissue-Specific Antigens in N-MethylN'-Nitro-N-Nitrosoguanidine-Induced Neoplasms and Normal Tissues from Medaka (Oryzias latipes)|Toxicol. Pathol.24(3): 331-338|1996|10.1177/019262339602400309
17511|A||Bunton,T.E., and M.J. Wolfe|N-Methyl-N'-Nitro-N-Nitrosoguanidine-Induced Neoplasms in Medaka (Oryzias latipes)|Toxicol. Pathol.24(3): 323-330|1996|10.1177/019262339602400308
17512|A||Amado Filho,G.M., C.S. Karez, W.C. Pfeiffer, Y. Yoneshigue-Valentin, and M. Farina|Accumulation, Effects on Growth, and Localization of Zinc in Padina gymnospora (Dictyotales, Phaeophyceae)|Hydrobiologia (Multiple Languages)326/327:451-456|1996|10.1007/BF00047845
17513|A||Fisher,J.P., J.M. Spitsbergen, B. Bush, and B. Jahan-Parwar|Effect of Embryonic PCB Exposure on Hatching Success, Survival, Growth and Developmental Behavior in Landlocked Atlantic Salmon, Salmo salar|ASTM Spec. Tech. Publ.2:298-314|1994|
17514|A||McMahon,R.F., B.N. Shipman, and D.P. Long|Laboratory Efficacies of Nonoxidizing Molluscicides on the Zebra Mussel (Dreissena polymorpha) and the Asian Clam (Corbicula fluminea)|In: T.F.Nalepa and D.W.Schloesser (Eds.), Zebra Mussels - Biology, Impacts, and Control, Lewis Publishers, Boca Raton, FL:575-598|1993|
17515|A||Pathak,C.K., and A.K. Raizada|Toxic Effects of Copper Sulphate on Early Oogenetic Stages of Rasbora daniconius (Ham.)|Indian J. Phys. Nat. Sci.8:10-13|1988|
17517|A||Tu,Q., X.R. Wang, L.Q. Tian, and L.M. Dai|Bioaccumulation of the Rare Earth Elements Lanthanum, Gadolinium and Yttrium in Carp|Environ. Pollut.85(3): 345-350|1994|10.1016/0269-7491(94)90057-4
17518|A||Kirby,G.M., M.J. Stalker, S. Gordon, B.A. Quinn, F.J. Van Schooten, and M.A. Hayes|Influences of Chronic Cholangiohepatitis and Cholestasis on Hepatic Metabolism of Benzo(a)pyrene in White Suckers (Catostomus commersoni) from|Carcinogenesis16(12): 2923-2929|1995|10.1093/carcin/16.12.2923
17522|A||Vijay Joseph,K., and K. Jayantha Rao|Aldrin Toxicity in the Hepatic and Muscular Tissues of Rana hexadactyla|J. Ecotoxicol. Environ. Monit.1(4): 307-310|1991|
17524|A||Deutsch,U., J. Oehlmann, and E. Stroben|Morphological Effects of Tributyltin (TBT) In Vitro on the Genital System of the Mesogastropod Littorina littorea (L.) (Prosobranchia)|In: J.C.Aldrich (Ed.), Proceedings of the European Marine Biology Symposium, Dublin, Ireland:297-300|1993|
17526|A||Joshi,S.N., and H.S. Patil|Differential Toxicity of Four Chromium Salts to Male Skipper Frog Rana cyanophlyctis|Environ. Ecol.12(1): 36-38|1994|
17528|A||El-Shinawy,R.M.K., W.E.Y. Abd El-Malik, A.K. El-Sharnouby, and A.S. Ibrahim|Bioaccumulation of Certain Radionuclides by the Fresh-Water Clam Unio praesidens|Isot. Radiat. Res.19(2): 107-114|1987|
17530|A||Kanchanopas,P.|Effects of Paraquat on Snakehead Fish (Ophicephalus striatus Bloch)|Abstracts of Master of Science Theses, Faculty of Fisheries, Kasetsart University, Bangkok, Thailand13:1-2|1988|
17531|A||Solomonson,L.P., and B. Vennesland|Nitrate Reductase and Chlorate Toxicity in Chlorella vulgaris Beijerinck|Plant Physiol.50:421-424|1972|10.1104/pp.50.4.421
17532|A||Sodsook,P.|Effects of Dieldrin on Snakehead Fish (Ophicephalus striatus Bloch.)|Abstracts of Master of Science Theses, Faculty of Fisheries, Kasetsart University, Bangkok, Thailand13:4-5|1988|
17533|A||Krainara,T.|Effects of Ammonia on Walking Catfish, Clarias batrachus (Linnaeus)|Abstracts of Master of Science Theses, Faculty of Fisheries, Kasetsart University, Bangkok, Thailand13:6|1988|
17534|A||Elwood,J.W., R.R. Turner, R.B. Cook, and M.A. Bogle|Behavior and Fish Uptake of Mercury in a Contaminated Stream|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:58-62|1987|
17535|A||Stebbing,A.R.D.|Growth Hormesis: A By-Product of Control|Health Phys.52(5): 543-547|1987|10.1097/00004032-198705000-00003
17536|A||Sahgal,A., and M.K.K. Pillai|Ovicidal Activity of Permethrin and Deltamethrin on Mosquitoes|Entomon17(3-4): 149-154|1993|
17537|A||Amsath,A., S. Senthilmurugan, G. Dharani, M. Sivakumar, and M. Subramaniam|Use of the Freshwater Insect Sphaerodema molestum in the Evaluation of Aquatic Pesticide Pollution|J. Ecotoxicol. Environ. Monit.3(1): 41-45|1993|
17538|A||Reddy,M.S., P.R.S. Kodavanti, and K.V.R. Rao|Toxic Impact of Phosphamidon on Protein Degradation in Phasic and Tonic Muscles of Marine Prawn, Penaeus indicus (H. Milne Edwards)|Arch. Int. Physiol. Biochim.98(6): 347-352|1990|10.3109/13813459009113996
17539|A||Singh,N.N., and A.K. Srivastava|Biochemical Changes Following Malathion Treatment in the Freshwater Indian Catfish, Heteropneustes fossilis|J. Adv. Zool.14(2): 103-108|1993|
17540|A||Li,X., and F. Zhang|Toxic Effects of Low pH and Elevated Al Concentration on Early Life Stages of Several Species of Freshwater Fishes|Huanjing Kexue Xuebao (Non-English)12(1): 97-104|1992|
17541|A||Suresh,P.G., M.K. Reju, and A. Mohandas|Haemolymph Phosphatase Activity Levels in Two Fresh-Water Gastropods Exposed to Copper|Sci. Total Environ.Suppl(Pts.1-2): 1265-1277|1993|10.1016/S0048-9697(05)80132-9
17543|A||Morris,R.G., J.H. Kennedy, P.C. Johnson, and F.E. Hambleton|Pyrethroid Insecticide Effects on Bluegill Sunfish in Microcosms and Mesocosms and Bluegill Impact on Microcosm Fauna|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:373-394|1994|
17544|A||Gao,S., Y. Wu, and X. Zhao|The Physiological Effects of Organotin on Marine Microalgae II. Effects of Triphenyltin and Tributyltin on Photosynthesis of Dicrateria zhanjian|Haiyang Yu Huzhao (Non-English)25(4): 362-367|1994|
17545|A||Swift,D.J.|Laboratory Experiments on the Retention of 235Np by Plaice (Pleuronectes platessa L.)|J. Environ. Radioact.21(3): 189-201|1993|10.1016/0265-931X(93)90041-5
17546|A||Pasley,J.N., G.C. Chadwick, and H. Krueger|Somatotropic Effects of Thyroxine in Pentachlorophenol Poisoning of Cichlid Fish|In: Proc. Int. Union of Physiol. Sci.7:340-|1968|
17547|A||Manna,G.K., and P.K. Mukherjee|Genotoxicity Assays of the Insecticide, Endrin in Experimentally Treated Cichlid Fish, Oreochromis mossambicus|J. Inl. Fish. Soc. India24(2): 1-9|1992|
17548|A||Thakur,N., and S. Sahai|Toxicity Assessment of Some Commonly used Pesticides to Three Species of Fishes|Environ. Ecol.12(2): 462-464|1994|
17549|A||Roy,D.|Detergent-Induced Changes in the Protein Constituents of Various Cell Types of Opercular Epidermis of Rita rita|Biomed. Environ. Sci.3:290-298|1990|
17550|A||Sogorb Carratala,A., E.S. Andreu-Moliner, and M.M. Almar-Galiana|Influence of Temperature on the LD50 Values of Fluvalinate Synthetic Pyrethroids in Procambarus clarkii (Girard, 1852) in a Natural Environment (Influencia de la Temperatura en los Valores cl50 del Piretroide Sintetico |In: 8th Proc.of the Spanish Assoc.of Entomol.:188-195|1986|
17551|A||Zhang,F., Z. Li, X. Li, and R. Zhou|Toxicity of Nine Mineral Floatation Agents to Fishes|China Environ. Sci.9(4): 271-275|1989|
17554|A||Pauli,W., S. Berger, S. Schmitz, and L. Jaskulka|Chemosensory Responses of Ciliates:  A Sensitive End Point in Xenobiotic Hazard Assessment|Environ. Toxicol. Water Qual.9(4): 341-346|1994|10.1002/tox.2530090414
17556|A||Kraak,M.H.S., D. Lavy, M. Toussaint, H. Schoon, W.H.M. Peeters, and C. Davids|Toxicity of Heavy Metals to the Zebra Mussel (Dreissena polymorpha)|In: T.F.Nalepa and D.W.Schloesser (Eds.), Zebra Mussels - Biology, Impacts, and Control, Chapter 29, Lewis Publishers, Boca Raton, FL:491-502|1993|
17557|A||Brown,S.B., V.P. Palace, D.A. Metner, J.F. Klaverkamp, and W.L. Lockhart|Effect of Coplanar 3,3',4,4',5-Pentachlorobiphenyl on Retinoids, Tocopherol and Hepatic Enzyme Levels in Lake Trout (Salvelinus namaycush)|Proc. Conf. Gt. Lakes Res.:111-|1993|
17558|A||Barton,L.K.|Control Program for Zebra Mussels (Dreissena polymorpha) at the Perry Nuclear Power Plant, Lake Erie|In: T.F.Nalepa and D.W.Schloesser (Eds.), Zebra Mussels - Biology, Impacts, and Control, Chapter 32, Lewis Publishers, Boca Raton, FL:555-562|1993|
17560|A||Klerks,P.L., P.C. Fraleigh, and R.C. Stevenson|Controlling Zebra Mussel (Dreissena polymorpha) Veligers with Three Oxidizing Chemicals: Chlorine, Permanganate, and Peroxide + Iron|In: T.F.Nalepa and D.W.Schloesser (Eds.), Zebra Mussels - Biology, Impacts, and Control, Chapter 36, Lewis Publishers, Boca Raton, FL:621-641|1993|
17561|A||Chakrabarti,P., M. Ghosal, and D.K. Mandal|Microanatomical and Histopathological Sequels of Cadmium Intoxication on the Olfactory Epithelium of the Fish Mystus vittatus (Bloch)|Environ. Ecol.12(3): 540-544|1994|
17562|A||Jha,B.K., and B.S. Jha|Urea and Ammonium Sulfate Induced Changes in the Stomach of the Fish Heteropneustes fossilis|Environ. Ecol.13(1): 179-181|1995|
17563|A||Klima,K.E., and F.M. Applehans|Copper Exposure and the Degeneration of Olfactory Receptors in Rainbow Trout (Oncorhynchus mykiss)|Chem. Spec. Bioavail.2(4): 149-154|1990|10.1080/09542299.1990.11083132
17564|A||Savant,K.B., and G.K. Amte|Respiratory Response of Estuarine Crab Ilyoplax gangetica Exposed to Three Metallic Chemicals|J. Ecotoxicol. Environ. Monit.2(4): 259-262|1992|
17565|A||Szekely,C., and K. Molnar|Mebendazole is an Efficacious Drug Against Pseudodactylogyrosis in the European Eel (Anguilla anguilla)|J. Appl. Ichthyol.3:183-186|1987|10.1111/j.1439-0426.1987.tb00539.x
17566|A||Kramer,V.J., S. Miles-Richardson, S.L. Pierens, and J.P. Giesy|Reproductive Impairment and Induction of Alkaline-Labile Phosphate, a Biomarker of Estrogen Exposure, in Fathead Minnows (Pimephales promelas) Exposed to Waterborne 17beta-estradiol|Aquat. Toxicol.40(4): 335-360|1998|10.1016/S0166-445X(97)00060-X
17567|A||Peter,M.C.S., and O.V. Oommen|Stimulation of Oxidative Metabolism by Thyroid Hormones in Propranolol/Alloxan-Treated Bony Fish, Anabas testudineus (Bloch)|J. Exp. Zool.266(2): 85-91|1993|10.1002/jez.1402660202
17568|A||Singh,P.B., and D.E. Kime|In Vivo Incorporation of [1-14C]Acetic Acid into Liver Lipids of Goldfish, Carassius auratus, During gamma-Hexachlorocyclohexane Exposure|Aquat. Toxicol.30(3): 237-248|1994|10.1016/0166-445X(94)90061-2
17569|A||Okwuosa,V.N., and E. Omoregie|Acute Toxicity of Alkylbenzene Sulphonate (ABS) Detergent to the Toothed Carp, Aphyosemion gairdneri (L.)|Aquac. Res.26(10): 755-758|1995|10.1111/j.1365-2109.1995.tb00868.x
17570|A||Van,T.K., K.K. Steward, and R.D.,Jr. Conant|Responses of Monoecious and Dioecious Hydrilla (Hydrilla verticillata) to Various Concentrations and Exposures of Diquat|Weed Sci.35(2): 247-252|1987|10.1017/S0043174500079145
17571|A||McMahon,R.F., and R.W. Lutey|Field and Laboratory Studies of the Efficacy of Poly[Oxyethylene-Dimethyliminio)Ethylene(Dimethyliminio)Ethylene Dichloride] as a Biocide Against the Asian Clam, Corbicula fluminea|In: Proc. Service Water Reliability Improvement Seminar #2, Oct. 17-19, 1988, Charlotte, NC, ERPI, Palo Alto, CA:61-72|1988|
17572|A||Guanzon,N.G.,Jr., H. Nakahara, and Y. Yoshida|Inhibitory Effects of Heavy Metals on Growth and Photosynthesis of Three Freshwater Microalgae|Fish. Sci.60(4): 379-384|1994|10.2331/fishsci.60.379
17573|A||Kazlauskiene,N., A. Burba, and G. Svecevicius|Acute Toxicity of Five Galvanic Heavy Metals to Hydrobionts|Ekologiia1:33-36|1994|
17574|A||Jha,M.M., A.K. Jha, and B.S. Jha|Testicular Injury Under Chronic Stress of Nickel Chloride in the Freshwater Climbing Perch, Anabas testudineus|J. Ecotoxicol. Environ. Monit.4(2): 127-131|1994|
17575|A||Govindan,V.S., L. Jacob, and R. Devika|Toxicity and Metabolic Changes in Gambusia affinis Exposed to Phosphamidon|J. Ecotoxicol. Environ. Monit.4(1): 1-6|1994|
17576|A||Te,F.T.|Effects of Two Petroleum Products on Pocillopora damicornis Planulae|Pac. Sci.45(3): 290-298|1991|
17577|A||Reddy,P.M., S.S. Naik, and M. Bashamohideen|Toxicity of Cypermethrin and Permethrin to Fish Cyprinus carpio|Environ. Ecol.13(1): 30-33|1995|
17578|A||Pawar,K.R.|Toxic and Teratogenic Effects of Fenitrothion, BHC and Carbofuran on the Embryonic Development of Cyprinus carpio communis|Environ. Ecol.12(2): 284-287|1994|
17579|A||Soliman,A.R.I., S.A. Shaaban-Dessouki, F.A. Mansour, and M.H. Hussein|Effect of Butachlor on Growth, Pigmentation and Nitrogen Fixation by Nostoc kihlmani and Anabaena oscillarioides|Phykos32(1-2): 85-93|1993|
17580|A||Durkina,V.B.|Development of Offspring of the Sea Urchin Strongylocentrotus intermedius Exposed to Copper and Zinc|Russ. J. Mar. Biol.20(4): 232-235|1994|
17581|A||Romanovskaya,I.I., E.F. Kostylev, and T.I. Davidenko|Effect of Sulphur on Oxygen Uptake and Biochemical Characteristics of the Black Sea Mussel Mytilus galloprovincialis|Ekologiia1:86-88|1994|
17582|A||Ho,K.T., R.A. McKinney, A. Kuhn, M.C. Pelletier, and R.M. Burgess|Identification of Acute Toxicants in New Bedford Harbor Sediments|Environ. Toxicol. Chem.16(3): 551-558|1997|10.1002/etc.5620160322
17583|A||Gaaboub,I.A.|Susceptibility of Adult Anopheles (Myzomyia) pharoensis Theobald, the Principal Malaria Vector in Egypt, in the Surroundings of Alexandria City|Z. Angew. Entomol. (Multiple Languages)66(2): 178-183|1970|
17584|A||Stebbing,A.R.D.|Increase in Gonozooid Frequency as an Adaptive Response to Stress in Campanularia flexuosa|In: P.Tardent and R.Tardent (Eds.), Developmental and Cellular Biology of Coelenterates, Elsevier, Amsterdam:27-32|1980|
17585|A||Reddy,M.S., S. Ghouselazam, T.R. Babu, and K.V.R. Rao|Changes in Respiratory Potentials of the Peneid Prawn Metapenaeus monoceros Exposed to Phosphamidon, DDT and Fenvelerate|Environ. Ecol.5(4): 643-646|1987|
17586|A||Ravindran,K., and K.S. Swami|Effect of DDT Exposure on Some Physical Parameters of the Body and on Tissue Cations of the Fish Tilapia mossambica|Environ. Ecol.5(4): 651-654|1987|
17587|A||Mallett,M.J., N.J. Grandy, and R.F. Lacey|Interlaboratory Comparison of a Method to Evaluate the Effects of Chemicals on Fish Growth|Environ. Toxicol. Chem.16(3): 528-533|1997|10.1002/etc.5620160319
17589|A||Panigrahi,A.K., and S.K. Konar|Sublethal Effects of Mixture of Petroleum Refinery Effluent and Anionic Surfactant Parnol J on Fish|Environ. Ecol.5(4): 736-740|1987|
17590|A||Muley,D.V., and U.H. Mane|Histopathological Changes Induced by Cythion-Malathion in the Gonads of Lamellibranch Molluscs|Environ. Ecol.5(4): 756-759|1987|
17591|A||Diamond,J.M., D.E. Koplish, J. McMahon III, and R. Rost|Evaluation of the Water-Effect Ratio Procedure for Metals in a Riverine System|Environ. Toxicol. Chem.16(3): 509-520|1997|
17592|A||Das,P.K.M.K., and S.K. Konar|Chronic Effects of Mixture of Petroleum Refinery Effluent and Cryptoanionic Detergent Sandopan DTC on Aquatic Ecosystem|Environ. Ecol.5(4): 769-772|1987|
17593|A||Roy,R.N., S.S. Maiti, and C.R. Mondal|Control of Aquatic Insects of Fish Nursery Ponds by the Insecticides Metacid and Hexidole|Environ. Ecol.5(4): 807-808|1987|
17594|A||Schmahl,G., and H. Taraschewski|Treatment of Fish Parasites 2.  Effects of Praziquantel, Niclosamide, Levamisole-HCl, and Metrifonate on Monogenea (Gyrodactylus aculeati, Diplozoon paradoxum)|Parasitol. Res.73:341-351|1987|10.1007/BF00531089
17595|A||Martinez-Tabche,L., N.E. Morales, M.B. Ramirez, C.I. Galar, and G.H. Cardona|Effect of Lead on the Reaction of O-Demethylase in p-Nitro Anisole in the Cladoceran Moina macrocopa|J. Aquat. Ecosyst. Health3(4): 255-258|1994|10.1007/BF00115284
17596|A||Schmahl,G., and H. Mehlhorn|Treatment of Fish Parasites 4. Effects of Sym. Triazinone (Toltrazuril) on Monogenea|Parasitol. Res.75:132-143|1988|10.1007/BF00932713
17598|A||Ahmad,W., and M.N. Ali|Cytotoxic Assay of 2,4-Dichlorophenoxyacetic Acid (2,4-D) by Mitotic Index Profiles in Culex pipiens fatigans|Mitt. Schweiz. Entomol. Ges.67(1/2): 169-175|1994|
17599|A||Purak,I., and M.N. Noor|Effect of Chloramphenicol on Growth Pattern and Cytological Behaviour in Chara corallina|Phykos30(1-2): 123-128|1991|
17600|A||Srivastava,A.K.|Time-Related and Dose-Dependent Biochemical Effects of the Insecticide Chlordecone (Kepone) in the Freshwater Indian Catfish Heteropneustes fossilis|Zool. Stud.34(2): 106-110|1995|
17601|A||Martinez-Jeronimo,F., and R. Garcia-Gonzalez|Effect of Food Concentration on the Chronic Toxicity of Sodium Dodecyl Sulphate to Daphnia magna|J. Aquat. Ecosyst. Health3(4): 247-253|1994|10.1007/BF00115283
17602|A||Blust,R., L. Van Ginneken, and W. Decleir|Effect of Temperature on the Uptake of Copper by the Brine Shrimp, Artemia fraciscana|Aquat. Toxicol.30(4): 343-356|1994|10.1016/0166-445X(94)00049-2
17603|A||Pelgrom,S.M.G.J., L.P.M. Lamers, J.A.M. Garritsen, B.M. Pels, R.A.C. Lock, and P.H.M. Balm|Interactions Between Copper and Cadmium During Single and Combined Exposure in Juvenile Tilapia Oreochromis mossambicus: Influence of Feeding|Aquat. Toxicol.30(2): 117-135|1994|10.1016/0166-445X(94)90009-4
17604|A||Sarojini,R., A.K. Khan, and R. Nagabhushanam|Oxygen Consumption in the Marine Portunid Crab, Ozius rugulosus Exposed to Organophosphate (Nuvan) and Organochloride (DDT) Pesticides|Indian J. Fish.36(1): 82-84|1989|
17605|A||Abbasi,A.R., S.E. Shackley, and P.E. King|Effects of Copper on the Ultrastructure of Muscle Cells of Herring, Clupea harengus L.|Pak. J. Zool.27(1): 83-87|1995|
17606|A||Ganathy,V., D.S. Reddy, S.L.N. Reddy, and K. Shankaraiah|Effect of Hexachlorocyclohexane on Biochemical Composition of the Fish Channa punctatus|J. Ecotoxicol. Environ. Monit.4(1): 15-20|1994|
17607|A||Samuel,K., and S. Bose|Sites of Action of Pyridazinone Herbicides (SANDOZ 9785 and 9789) on Chlorella protothecoides|Proc. Indian Acad. Sci. Plant Sci.97(5): 415-423|1987|10.1007/BF03053569
17608|A||Zou,D., and S. Gao|Toxicity of Ammonia to Larvae of Penaeus penicillatus|Taiwan Haixia (Multiple languages)13(2): 133-137|1994|
17609|A||Rai,U.P., and P.K. Mandal|Seasonal Temperature Related Aldrin Toxicity to an Air-Breathing Catfish, heteropneustes fossilis (Bloch)|J. Freshw. Biol.2(4): 305-312|1990|
17610|A||Engel,D.W., and M. Brouwer|Cadmium-Binding Proteins in the Blue Crab, Callinectes sapidus: Laboratory-Field Comparison|Mar. Environ. Res.14(1-4): 139-151|1984|10.1016/0141-1136(84)90075-8
17611|A||Tallandini,L., M. Turchetto, and V. Albergoni|Bioaccumulation Studies and Physiological and Biochemical Responses in Marine Organisms Exposed to Heavy Metals and Polychlorinated Biphenyls|MAP Tech. Rep. Ser. (Multiple Languages)79:113-122|1994|
17612|A||Surendranath,P., S.G. Lazam, and K.V.R. Rao|Effect of Kelthane on Biochemical Composition and Calorific Value on Penaeid Prawn, Metapenaeus monoceros (Fabricius)|Natl. Acad. Sci. Lett.14(7): 303-305|1991|
17613|A||Benhra,A., C.M. Radetski, and J.F. Ferard|Cryoalgotox:  Use of Cryopreserved Alga in a Semistatic Microplate Test|Environ. Toxicol. Chem.16(3): 505-508|1997|10.1002/etc.5620160316
17614|A||Wayusuwanwit,T., and H. Kawatsu|Histopathological Changes of the Gills Induced by a Group of Amphoteric Surfactants in the Common Carp|Fish. Sci.61(2): 305-308|1995|10.2331/fishsci.61.305
17615|A||Amodei,M., and R. Azzoni|Use of Daphnia magna in Detecting Drinking Water Emergencies (Uso di Daphnia magna nel Controllo Idropota-Bile d'Emergenza)|Quad. Ist. Ric. Acque93:1-10|1991|
17616|A||Grosvik,B.E., H.E. Larsen, and A. Goksoyr|Effects of Piperonyl Butoxide and beta-Naphthoflavone on Cytochrome P4501A Expression and Activity in Atlantic Salmon (Salmo salar L.)|Environ. Toxicol. Chem.16(3): 415-423|1997|
17617|A||Shaaban-Dessouki,S.A., A.M. Badawy, and N.M. Hassan|Biochemical Response of Scenedesmus (Green Alga) and Anabaena (Blue Green Alga) to Heavy Metals Pollution|J. Environ. Sci.3:19-41|1991|
17618|A||Ibrahim,M.S., and T.E. Abdel-Baky|Effect of Some Fresh Water Pollutants on the Nile Catfish Clarias lazera|J. Environ. Sci.3:1-18|1991|
17620|A||Ghosh,T.K.|Effects of Organophosphorus Compounds on Some Metabolite Levels of the Fish Barbus stigma|Environ. Ecol.5(4): 638-642|1987|
17622|A||Jana,S., and K. Ghosh|Effect of Heavy Metals on Population Growth of a Fish Nematode Spinicauda spinicauda in Aquatic Environment|Environ. Ecol.5(4): 811-813|1987|
17623|A||Lee,B.C., J.D. Hendricks, and G.S. Bailey|Metaplastic Pancreatic Cells in Liver Tumors Induced by Diethylnitrosamine|Exp. Mol. Pathol.50:104-113|1989|10.1016/0014-4800(89)90060-9
17624|AT||Schuytema,G.S., A.V. Nebeker, W.L. Griffis, and K.N. Wilson|Teratogenesis, Toxicity, and Bioconcentration in Frogs Exposed to Dieldrin|Arch. Environ. Contam. Toxicol.21(3): 332-350|1991|10.1007/BF01060354
17625|A||Caux,P.Y., and R. Kent|Towards the Development of a Site-Specific Water Quality Objective for Atrazine in the Yamaska River, Quebec for the Protection of Aquatic Life|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2093:18-|1996|
17627|A||Parrott,J.L., P.V. Hodson, M.E. Comba, B.F. Scott, J.P. Sherry, and B.K. Burnison|Induction of Fish Hepatic Mixed Function Oxygenase (MFO) by Substituted Polyaromatic Hydrocarbons (PAHs)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2093:53-|1996|
17628|A||Snoek,E.F.|A Multi-Variable Study of the Interaction of Light, Temperature, and Acridine Orange on the Embryos and Larvae of the Zebra Fish, Brachydanio rerio|Ph.D.Thesis, New York University, Albany, NY:202 p.|1970|
17630|A||Playle,R., A. Kuehn, and J. Richards|Lead Interactions on the Gills of Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2093:144-|1996|
17631|A||Burridge,L.E., and K. Haya|The Lethality of Pyrethrins to the Larvae of the American Lobster (Homarus americanus)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2093:131-|1996|
17632|A||Correa,M., R.A. Coler, and C.M. Yin|Changes in Oxygen Consumption and Nitrogen Metabolism in the Dragonfly Somatochlora cingulata Exposed to Aluminum in Acid Waters|Hydrobiologia (Multiple Languages)121:151-156|1985|10.1007/BF00008718
17633|A||Liber,K., S.L. O'Halloran, K.L. Schmude, and T.D. Corry|Nontarget Toxicity of Antimycin A Applied to Mesocosms for Removal of Endemic Fish|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:151-|1995|
17634|A||McNicol,R.E., and T.J. Hara|Behavioural and Electrophysiological Evidence that Olfaction Mediates Avoidance of Cadmium my Lake Whitefish (Coregonus clupeaformis)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:52-|1995|
17635|A||Parrott,J.L., B.K. Burnison, P.V. Hodson, M.E. Comba, and M.E. Fox|Substituted Phenanthrenes as Inducers of Hepatic Mixed Function Oxygenase (MFO) in Rainbow Trout (Oncorhynchus mykiss)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:54-|1995|
17637|A||Barry,M.J., A. Schifko, and D.A. Holdway|Effects of Endosulfan Toxicity and Food Level on Growth and Crest Morphology of Daphnia cephalata|Australas. J. Ecotoxicol.2:43-48|1996|
17638|A||Bunton,T.E.|Development of an Aquatic Bioassay Using the Medaka (Oryzias latipes) to Assess Human Health Risks:  Tumor Immunodiagnosis|U. S. Army Medical Research and Development Command, Frederick, MD:21 p.|1992|
17639|A||Versteeg,D.J.|Comparison of Short- and Long-Term Toxicity Test Results for the Green Alga, Selenastrum capricornutum|ASTM Spec. Tech. Publ.:40-48|1990|
17640|A||Ribeyre,F., and A. Boudou|Bioaccumulation of Mercury Compounds in Two Aquatic Plants (Elodea densa and Ludwigia natans): Actions and Interactions of Four Abiotic Factors|ASTM Spec. Tech. Publ.:97-113|1990|
17641|A||Bassi,M., M.G. Corradi, and M.A. Favali|Effects of Chromium in Freshwater Algae and Macrophytes|ASTM Spec. Tech. Publ.:204-224|1990|
17642|AT||Sirois,D.L.|Evaluation of Protocols for the Assessment of Phytotoxicty|ASTM Spec. Tech. Publ.:225-234|1990|
17643|A||Christiansen,M.E., E. Gosling, and M.A. Williams|Effect of the Insect Growth Regulator Diflubenzuron (Dimilin) on the Uptake of Glucose and N-Acetylglucosamine into the Cuticle of Crab Larvae|Mar. Biol.83:225-230|1984|10.1007/BF00397453
17645|A||Larson,L.J.|The Influence of Test Length and Bacteria on the Results of Algal Bioassays with Monophenolic Acids|ASTM Spec. Tech. Publ.2:230-239|1991|
17646|A||Hota,A.K., D.K. Mishra, and P.C. Tripathy|Metabolic Effects of Kilex Carbaryl on a Fresh Water Teleost, Channa punctatus (Bloch)|In: V.P.Agrawal, S.A.H.Abidi, and G.P.Verma (Eds.), Environmental Impact on Aquatic and Terrestrial Habitats, Dec.1991, Berhampur, Soc.of Biosciences, Muzaffarnagar, India:335-342|1993|
17647|A||Tripathy,S., and G.P. Verma|Effect of Sumicidin on Vitellogenesis in a Freshwater Teleost, Tilapia mossambica (Peters)|In: V.P.Agrawal, S.A.H.Abidi, and G.P.Verma (Eds.), Environmental Impact on Aquatic and Terrestrial Habitats, Seminar Dec.1991, Berhampur, Soc.of Biosciences, Muzaffarnagar, India:79-94|1993|
17650|A||Bremle,G., and G. Ewald|Bioconcentration of Polychlorinated Biphenyls (PCBs) in Chironomid Larvae, Oligochaete Worms and Fish from Contaminated Lake Sediment|Mar. Freshw. Res.46:267-273|1995|10.1071/MF9950267
17653|A||Chen,J., and Y. Xia|Establishment of a Testing System, the Micronucleus Test on Frog Tadpole, to Detect Mutagens in Water Body|Shuisheng Shengwu Xuebao (Multiple Languages)17(4): 298-308|1993|
17656|A||Matisoff,G., G. Brooks, and B.I. Bourland|Toxicity of Chlorine Dioxide to Adult Zebra Mussels|J. Am. Water Works Assoc.88:93-106|1996|10.1002/j.1551-8833.1996.tb06603.x
17658|A||Arukwe,A., L. Forlin, and A. Goksoyr|Xenobiotic and Steroid Biotransformation Enzymes in Atlantic Salmon (Salmo salar) Liver Treated with an Estrogenic Compound, 4-Nonylphenol|Environ. Toxicol. Chem.16(12): 2576-2583|1997|
17659|A||Jung,R.E., and M.K. Walker|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Development of Anuran Amphibians|Environ. Toxicol. Chem.16(2): 230-240|1997|
17660|A||Williams,J., S.C. Courtenay, and I.I. Wirgin|Effects of the Antibiotic Baytril (Enrofloxacin) on PCB-Initiated Induction of Cytochrome P4501A mRNA in Sexually Mature Atlantic Tomcod (Microgadus tomcod)|Environ. Toxicol. Chem.16(2): 241-244|1997|
17661|A||Kersting,K., and P.J. Van den Brink|Effects of the Insecticide Dursban 4E (Active Ingredient Chlorpyrifos) in Outdoor Experimental Ditches: Responses of Ecosystem Metabolism|Environ. Toxicol. Chem.16(2): 251-259|1997|10.1002/etc.5620160222
17662|A||Johnson,P.C., J.H. Kennedy, R.G. Morris, F.E. Hambleton, and R.L. Graney|Fate and Effects of Cyfluthrin (Pyrethroid Insecticide) in Pond Mesocosms and Concrete Microcosms|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:337-371|1994|
17663|A||Levine,S.L., H. Czosnyka, and J.T. Oris|Effect of the Fungicide Clotrimazole on the Bioconcentration of Benzo(a)pyrene in Gizzard Shad (Dorosoma cepedianum): In Vivo and In Vitro Inhibition|Environ. Toxicol. Chem.16(2): 306-311|1997|10.1002/etc.5620160228
17664|A||Herkovits,J., P. Cardellini, C. Pavanati, and C.S. Perez-Coll|Susceptibility of Early Life Stages of Xenopus laevis to Cadmium|Environ. Toxicol. Chem.16(2): 312-316|1997|10.1002/etc.5620160229
17665|A||Sharma,H.A., J.T. Barber, H.E. Ensley, and M.A. Polito|A Comparison of the Toxicity and Metabolism of Phenol and Chlorinated Phenols by Lemna gibba, with Special Reference to 2,4,5-Trichlorophenol|Environ. Toxicol. Chem.16(2): 346-350|1997|
17666|A||Senthilmurugan,S., M. Rajasekarapandian, A. Amsath, and R. Sayeenathan|Effect of Phosphamidon on Body Weight, Oxygen Consumption and Heart Beat in the Freshwater Mussel, Lamellidens marginalis|J. Ecobiol.6(1): 5-8|1994|
17667|A||Garg,P., and P. Chandra|The Duckweed Wolffia globosa as an Indicator of Heavy Metal Pollution: Sensitivity to Cr and Cd|Environ. Monit. Assess.29(1): 89-95|1994|10.1007/BF00546781
17668|A||Liu,Z., F. Zhou, and H. Jin|Relationship Between Bioaccumulation, Distribution of MET and Lipid Content of Aquatic Organisms|J. Environ. Sci.7(2): 212-217|1995|
17669|A||Powell,M.D.|Chloramine-T and Formalin Chemoprophylaxis on Rainbow Trout Fingerlings and Atlantic Salmon Smolt: Some Preliminary Findings|In: K.T.Pirquet (Ed.), Proc.of the 10th Annual Meeting of the Aquaculture Association of Canada, Aug.24-27, 1993, Charlottetown, P.E.I., Bull.Aquacult.Assoc.Can.(93-4):143-146|1993|
17670|A||Alam,G.M.|Toxicity of Nogos-100EC to the Indian Major Carp Cirrhina mrigala Fry|Mer (Tokyo)33(3): 157-160|1995|
17671|A||Yang,Y., Y. Wang, L. Lin, Q. Sha, and G. Song|Determination of Discharge Standards for the Influent to the Stabilization Pond:  A Comparison Between Single and Multiple-Toxicant Experiments|Shuisheng Shengwu Xuebao (Multiple Languages)18(1): 65-70|1994|
17672|A||Chen,G., Y. Li, M. Jiang, and X. Liu|Effects of Triphenyltin Chloride (TPTC) on Ultrastructures of Cell of Platymonas sp|Haiyang Yu Huzhao (Non-English)25(1): 67-70|1994|
17673|A||Muhvich,A.G., R.T. Jones, A.S. Kane, R.S. Anderson, and R. Reimscheussel|Effects of Chronic Copper Exposure on the Macrophage Chemiluminescent Response and Gill Histology in Goldfish (Carassius auratus L.)|Fish Shellfish Immunol.5(4): 251-264|1995|10.1006/fsim.1995.0025
17674|A||Tabassum,R., S.N.H. Naqvi, M. Jahan, and M.Z. Khan|Toxicity and Abnormalities Produced by Plant Products (Hydrocarbon and Saponin) and Dimethoate (Perfekthion) Against Fourth Instar Larvae of Culex|Proc. Pak. Congr. Zool.13:387-393|1993|
17675|A||Karande,A.A., and S.S. Ganti|Laboratory Assays of Tributyltin Toxicity to Some Common Marine Organisms|In: M.F.Thompson, R.Nagabhushanam, R.Sarojini, and M.Fingerman (Eds.), Recent Developments in Biofouling Control, Oxford and IBH, New Delhi, India:115-123|1994|
17676|A||Tabaru,Y.|Studies on Chemical Control of a Nuisance Chironomid Midge (Diptera: Chironomidae) 4. Efficacy of Two Insect Growth Regulators to Chironomus yoshimatsui in Laboratory and Field|Eisei Dobutsu36(4): 309-313|1985|10.7601/mez.36.309
17677|A||Smith,A.L., and R.H. Green|Uptake of Mercury by Freshwater Clams (Family Unionidae)|J. Fish. Res. Board Can.32:1297-1303|1975|10.1139/f75-151
17679|A||Komala,Z.|Toxicity of Fastac 10EC, a Pyrethroid Insecticide, to Paramecium primaurelia and Tubifex sp.|Folia Biol. (Krakow)40(3/4): 109-112|1992|
17680|A||Konar,S.K.|Some Effects of Sublethal Levels of Heptachlor on Rohu, Labeo rohita (Hamilton)|J. Inl. Fish. Soc. India11:51-54|1970|
17681|A||Liao,I.C., and J.J. Guo|Studies on the Tolerance of Postlarvae of Penaeus monodon, P. japonicus, P. semisulcatus, P. penicillatus, Metapenaeus ensis and Macrobrachium rosenbergii to Copper Sulfate, Potassium Permanganate and Malachite Green|COA (Counc. Agric.) Fish. Ser.24:90-94|1990|
17682|A||Santos,M.A., and A. Hall|Influence of Inorganic Mercury, Under Different Temperatures on the Biochemical Blood Composition in the Eel Anguilla anguilla L.|Rev. Biol. Univ. Aveiro3:61-70|1990|
17684|A||Romanenko,V.D., and N.Y. Yevtushenko|The Tissue Accumulation of Heavy Metals and Their Influence on the Biosynthesis in the Fish Organism|Symp. Biol. Hung.29:299-312|1985|
17685|A||Hou,L., H. Zhao, and Y. Wu|Acute Intoxication of Some Heavy Metals to Mugil So-Iuy and the Avoidance Reaction of Mugil So-Iuy|Haiyang Yu Huzhao (Non-English)24(5): 507-510|1993|
17686|A||Ravichandran,S., K. Midhuna-Shanthi, and N. Indra|Effect of Phenol on Blood Glucose Level of Freshwater Fish Oreochromis mossambicus|Environ. Ecol.13(1): 129-131|1995|
17687|A||Cairns,J.,Jr., P.V. McCormick, M.E. Arnegard, and E.P. Smith|Measuring Variation in Ecosystem Sensitivity to Stress|Contract No.AFOSR-91-0379, Annual Tech.Rep.to the Air Force of Office of Scientific Research, Virginia Polytechnic Institute and State University, Blacksburg, VA:61 p.(U.S.NTIS AD-A274232):|1993|
17688|A||Regoli,F., M. Nigro, and E. Orlando|Lysosomal and Antioxidant Responses to Metals in the Antarctic Scallop Adamussium colbecki|Aquat. Toxicol.40(4): 375-392|1998|10.1016/S0166-445X(97)00059-3
17689|A||Snell,T.W.|New Rotifer Bioassays for Aquatic Toxicology|Final Report, U.S.Army Medical Research and Development Command, Fort Detrick, Frederick, MD:29 p.|1991|
17690|A||Brown,B.E.|Observations on the Tolerance of the Isopod Asellus meridianus Rac. to Copper and Lead|Water Res.10:555-559|1976|10.1016/0043-1354(76)90194-9
17691|A||Konar,S.K., and T.K. Ghosh|Effects of Organophosphorus Insecticides on Fish and Fish Food Organisms|IAWPC Tech.Annu.8:147-160|1981|
17692|A||Nugegoda,D., and P.S. Rainbow|The Uptake and Dissolved Zinc and Cadmium by the Decapod Crustacean Palaemon elegans|Mar. Pollut. Bull.31(4-12): 460-463|1995|10.1016/0025-326X(95)00131-6
17693|A||Grosell,M., I. Boetius, H.J.M. Hansen, and P. Rosenkilde|Influence of Preexposure to Sublethal Levels of Copper on 64Cu Uptake and Distribution Among Tissues of the European Eel (Anguilla anguilla)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(3): 229-235|1996|
17694|A||Tort,L., B. Kargacin, P. Torres, M. Giralt, and J. Hidalgo|The Effect of Cadmium Exposure and Stress on Plasma Cortisol, Metallothionein Levels and Oxidative Status in Rainbow Trout (Oncorhynchus mykiss) Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(1): 29-34|1996|
17695|A||Wolkers,J., E.H. Jorgensen, S.M. Nijmeijer, and R.F. Witkamp|Time-Dependent Induction of Two Distinct Hepatic Cytochrome P4501A Catalytic Activities at Low Temperatures in Arctic Charr (Salvelinus alpinus) After|Aquat. Toxicol.32(2): 127-138|1996|10.1016/0166-445X(96)00005-7
17696|A||Swinehart,J.H.|The Effects of Humic Substances on the Interactions of Metal Ions with Organisms and Liposomes|Final Tech.Rep.,USGS Grant Award 14-08-0001-G1625, Univ.of California, Davis, CA:103 p.|1990|
17697|A||Kusk,K.O.|Bioavailability and Effect of Pirimicarb on Daphnia magna in a Laboratory Freshwater/Sediment System|Arch. Environ. Contam. Toxicol.31(2): 252-255|1996|10.1007/BF00212374
17699|A||Rosemarin,A., J. Mattsson, K.J. Lehtinen, M. Notini, and E. Nylen|Effects of Pulp Mill Chlorate (ClO3-) on Fucus vesiculosus - A Summary of Projects|Ophelia(suppl. 4): 219-224|1986|
17700|A||Lyons,L.A., J.C. Petrille, S.P. Donner, R.L. Fobes, F. Lehmann, P.W. Althouse, L.T. Wall, and R.M. Post|New Treatment Employing a Molluscicide for Macrofouling Control of Zebra Mussels in Cooling Systems|Proc. Am. Power Conf.52:1012-1021|1990|
17701|A||Lyons,L.A., O. Codina, R.M. Post, and D.E. Rutledge|Evaluation of a New Molluscicide for Alleviating Macrofouling by Asiatic Clams|Proc. Am. Power Conf.50:1-8|1988|
17702|A||Tooby,T.E., A.N. Thompson, R.J. Rycroft, I.A. Black, and R.T. Hewson|A Pond Study to Investigate the Effects on Fish and Aquatic Invertebrates of Deltamethrin Applied Directly onto Water|Aquat.Environ.Prot.2, M.A.F.F.Fish.Lab., Burnham-on-Crouch, Essex, England:26 p.|1981|
17703|A||Perez-Coll,C.S., J. Herkovits, and A. Salibian|Effects of Cadmium on the Development of an Amphibian (Efectos del Cadmio Sobre el Desarrollo de un Anfibio)|Arch. Biol. Med. Exp.18:33-40|1985|
17704|A||Cruz-Reyes,A., C. Chavarin, M.P. Campos-Arias, J. Taboada, and E. Jimenez|The Molluscicide Activity of Piquerol A Isolated from Piqueria trinervia (Compositae) Against Eight Species of Pulmonate Snails|Mem. Inst. Oswaldo Cruz84(1): 35-40|1989|10.1590/S0074-02761989000100007
17707|A||Cholnoky-Pfannkuche,K.|Toxicity of Natural Waters II. Experiments with Ulothrix tenerrima Kutzing (Untersuchungen uber Toxizitat II Experimente mit Ulothrix tenerrima Kutzing)|Hydrobiologia (Multiple Languages)33:223-236|1969|10.1007/BF00034923
17710|A||Sheela,M., G. Mallika, and S. Muniandy|Impact of Cadmium on Food Utilization, Growth and Body Composition in the Fish Oreochromis mossambicus|Environ. Ecol.13(2): 410-414|1995|
17711|A||Wilson,J.B.|Phototaxis Impairment as a Sensitive Indicator of Lead or Cadmium Stress in Freshwater Crustacean Zooplankton|Ph.D. Thesis, University of Guelph, Ontario, Canada:266 p.|1982|
17712|A||Shugart,L.R.|Biological (Molecular and Cellular) Markers of Toxicity|ORNL/M-1426, Semi-Annual Technical Report No.5, U.S.Army Biomedical & Development Laboratories, Oct.1-March 30, 1991; Oak Ridge Natl.Lab., Oak Ridge, TN:65 p.|1991|
17713|A||Foster,N.R., A. Scheier, and J.,Jr. Cairns|Effects of ABS on Feeding Behavior of Flagfish, Jordanella floridae|Trans. Am. Fish. Soc.95:109-110|1966|10.1577/1548-8659(1966)95[109:EOAOFB]2.0.CO;2
17714|A||Wernersson,A.S., and G. Dave|Phototoxicity Identification by Solid Phase Extraction and Photoinduced Toxicity to Daphnia magna|Arch. Environ. Contam. Toxicol.32(3): 268-273|1997|10.1007/s002449900184
17715|A||Watson,D.E., and R.T. Di Giulio|Hepatic CYP1A in Brown Bullhead Catalyzes the Binding of 2-Aminoanthracene to DNA In Vivo and In Vitro|Aquat. Toxicol.37(1): 21-36|1997|10.1016/S0166-445X(96)00800-4
17716|A||Jackim,E., and D. Nacci|Improved Sea Urchin DNA-Based Embryo Growth Toxicity Test|Environ. Toxicol. Chem.5:561-565|1986|
17717|A||Lemaire,P., J. Berhaut, S. LeMaire-Gony, and M. LaFaurie|Ultrastructural Changes Induced by Benzo(a)pyrene in Sea Bass (Dicentrarchus labrax) Liver and Intestine: Importance of the Intoxication Route|Environ. Res.57(1): 59-72|1992|10.1016/S0013-9351(05)80019-2
17718|A||Powell,M.D., G.M. Wright, and D.J. Speare|Morphological Changes in Rainbow Trout (Oncorhynchus mykiss) Gill Epithelia Following Repeated Intermittent Exposure to Chloramine-T|Can. J. Zool.73(1): 154-165|1995|10.1139/z95-018
17719|A||Kraak,M.H.S., C. Ainscough, A. Fernandez, P.L.A. Van Vlaardingen, P. DeVoogt, and W.A. Admiraal|Short-Term and Chronic Exposure of the Zebra Mussel (Dreissena polymorpha) to Acridine: Effects and Metabolism|Aquat. Toxicol.37(1): 9-20|1997|10.1016/S0166-445X(96)00809-0
17720|A||Brunetti,R., M. Bressan, M.G. Marin, and M. Fuolega|Sodium Nitrilotriacetate (NTA) Influences the Larval Development and Metamorphosis of Marine Invertebrates|Bull. Environ. Contam. Toxicol.42:234-240|1989|10.1007/BF01699405
17721|A||Scherer,E., R.E. McNicol, and R.E. Evans|Impairment of Lake Trout Foraging by Chronic Exposure to Cadmium: A Black-Box Experiment|Aquat. Toxicol.37(1): 1-7|1997|10.1016/S0166-445X(96)00810-7
17723|A||Ravichandran,S., K. Midhunashanthi, and N. Indira|Impact of Phenol on Protein Metabolism in the Freshwater Fish Oreochromis mossambicus|J. Ecotoxicol. Environ. Monit.4(1): 33-37|1994|
17724|AT||Huckabee,J.W., and B.G. Blaylock|Transfer of Mercury and Cadmium from Terrestrial to Aquatic Ecosystems|In: S.K.Dhar (Ed.), Metal Ions in Biological Systems: Studies of Some Biochemical and Environmental Problems, Advances in Experimental Medicine and Biology, Volume 40, Plenum Press, London:125-160|1973|
17725|A||Chayarat,C.|Acute Toxicity of Mercury, Lead and Their Mixtures to Pla Ka-Pong Khao, Lates calcarifer (Bloch)|Abstracts of Master of Science Theses, Faculty of Fisheries, Kasetsart University, Bangkok, Thailand13:4-5|1988|
17726|A||Kanchanaburangkul,M.|Effects of Potassium Permanganate on Some Aquatic Organisms and Water Quality|Abstracts of Master of Science Theses, Faculty of Fisheries, Kasetsart University, Bangkok, Thailand13:4-5|1988|
17727|A||Buikema,A.L.,Jr.|Toxicity of Beryllium to the Cladoceran, Daphnia magna as a Function of Water Hardness|Dep.of Biology, Virginia Polytechnic Institute and State University, Blacksburg, VA:26 p.|1986|
17728|A||Lemke,A.E.|Static Bioassays with Benzidine|Nov.20, Memo to D.I.Mount, U.S.EPA, Duluth, MN:1 p.|1973|
17729|A||Van Wijk,D.J., and T.H. Hutchinson|The Ecotoxicity of Chlorate to Aquatic Organisms: A Critical Review|Ecotoxicol. Environ. Saf.32:244-253|1995|10.1006/eesa.1995.1110
17730|A||Sinhaseni,P.|Biological Effects of Hexachlorocyclopentadiene in the Rainbow Trout, Salmo gairdneri|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:108 p.|1982|
17731|A||Playle,R., and J. Richards|Cobalt Binding to Gills of Rainbow Trout: An Equilibrium Model|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2093:144-|1996|
17734|A||Komala,Z.|Notes on the Use of Invertebrates, Especially Ciliates, in Studies on Pollution and Toxicity|Folia Biol. (Krakow)43(1/2): 25-27|1995|
17737|A||Lajtner,J., R. Erben, and G.I.V. Klobucar|Histopathological Effects of Phenol on the Digestive Gland of Amphimelania holandri Fer. (Gastropoda, Prosobranchia)|Bull. Environ. Contam. Toxicol.57:458-464|1996|10.1007/s001289900212
17739|A||Nelson,L.|Pesticide Perturbation of Sperm Cell Function|Bull. Environ. Contam. Toxicol.45:876-882|1990|10.1007/BF01701087
17740|A||Maciorowski,A.F., J.M. Dolan III, and B.C. Gregg|Histological Damage and Recovery of Pisidium casertanum Exposed to Linear Tridecyl Benzene Sulfonate, and Anionic Surfactant|Comp. Biochem. Physiol. C Comp. Pharmacol.56:117-122|1977|10.1016/0306-4492(77)90025-9
17742|A||Nacci,D., E. Jackim, and R. Walsh|Comparative Evaluation of Three Rapid Marine Toxicity Tests: Sea Urchin Early Embryo Growth Test, Sea Urchin Sperm Cell Toxicity Test and Microtox|Environ. Toxicol. Chem.5:521-525|1986|10.1002/etc.5620050603
17743|A||Masters,J.A., M.A. Lewis, D.H. Davidson, and R.D. Bruce|Validation of a Four-Day Ceriodaphnia Toxicity Test and Statistical Considerations in Data Analysis|Environ. Toxicol. Chem.10:47-55|1991|
17744|A||Burke,A.B., P. Millburn, K.R. Huckle, and D.H. Hutson|Uptake and Elimination of Radioactivity from Rainbow Trout (Oncorhynchus mykiss) Following Exposure to [14C-Ring]-2-Phenyldodecane|Environ. Toxicol. Chem.10:1467-1477|1991|
17745|A||Castagna,A., F. Sinatra, M. Scalia, and V. Capodicasa|Observations of the Effect of Zinc on the Gametes and Various Development Phases of Arbacia lixula|Mar. Biol.64:285-289|1981|10.1007/BF00393628
17746|A||Hidu,H.|Effects of Synthetic Surfactants on the Larvae of Clam (M. mercenaria) and Oysters (C. virginica)|J. Water Pollut. Control Fed.37:262-270|1965|
17747|A||Gillespie,W.B.J., J.H.,Jr. Rodgers, and P.B. Dorn|Responses of Aquatic Invertebrates to a C9-11 Non-Ionic Surfactant in Outdoor Stream Mesocosms|Aquat. Toxicol.37(2-3): 221-236|1997|10.1016/S0166-445X(96)00820-X
17748|A||Martinez,J., J. Vives-Rego, and J. Sanchez-Leal|The Effect of Chemical Structure and Molecular Weight of Commercial Alkylbenzenes on the Toxic Response of Daphnia and Naturally Occurring Bacteria in|Water Res.23(5): 569-572|1989|10.1016/0043-1354(89)90023-7
17749|A||Davenport,J.|A Study of the Effects of Copper Applied Continuously and Discontinuously to Specimens of Mytilus edulis (L.) Exposed to Steady and Fluctuating Salinity Levels|J. Mar. Biol. Assoc. U.K.57(1): 63-74|1977|10.1017/S0025315400021238
17750|A||Lewis,M.A., and V.T. Wee|Aquatic Safety Assessment for Cationic Surfactants|Environ. Toxicol. Chem.2:105-118|1983|10.1002/etc.5620020112
17751|A||Cherr,G.N., J.M. Shenker, C. Lundmark, and K.O. Turner|Toxic Effects of Selected Bleached Kraft Mill Effluent Constituents on the Sea Urchin Sperm Cell|Environ. Toxicol. Chem.6:561-569|1987|10.1002/etc.5620060708
17752|A||Schrap,S.M., and A. Opperhuizen|Preliminary Investigations on the Influence of Suspended Sediments on the Bioaccumulation of Two Chlorobenzenes by the Guppy (Poecilia reticulata)|Hydrobiologia (Multiple Languages)188/189:573-576|1989|10.1007/BF00027825
17753|A||Lanno,R.P., B.E. Hickie, and D.G. Dixon|Feeding and Nutritional Considerations in Aquatic Toxicology|Hydrobiologia (Multiple Languages)188/189:525-531|1989|10.1007/BF00027820
17754|A||Salanki,J., and K.V. Balogh|Physiological Background for Using Freshwater Mussels in Monitoring Copper and Lead Pollution|Hydrobiologia (Multiple Languages)188/189:445-454|1989|10.1007/BF00027812
17755|A||Kramer,K.J.M., H.A. Jenner, and D. De Zwart|The Valve Movement Response of Mussels:  A Tool in Biological Monitoring|Hydrobiologia (Multiple Languages)188/189:433-443|1989|10.1007/BF00027811
17757|A||Lockhart,W.L., B.N. Billeck, and C.L. Baron|Bioassays with a Floating Aquatic Plant (Lemna minor) for Effects of Sprayed and Dissolved Glyphosate|Hydrobiologia (Multiple Languages)188/189:353-359|1989|10.1007/BF00027800
17758|A||Lonning,S., and B.E. Hagstrom|The Effects of Crude Oils and the Dispersant Corexit 8666 on Sea Urchin Gametes and Embryos|Norw. J. Zool.23:121-129|1975|
17759|A||Chia,F.S.|Response of the Globiferous Pedicellariae to Inorganic Salts in Three Regular Echinoids|Ophelia6:203-210|1969|10.1080/00785326.1969.10409649
17761|A||Tanaka,Y.|Effects of the Surfactants on the Cleavage and Further Development of the Sea Urchin Embryos 1. The Inhibition of Micromere Formation at the Fourth|Dev. Growth Differ.18:112-122|1976|
17762|A||Lonning,S., and I.B. Falk-Petersen|Electron Microscopical Studies of the Effects of Aromatic Hydrocarbons on Sea Urchin Embryos|Sarsia67(3): 149-155|1982|10.1080/00364827.1982.10420541
17763|A||Waterman,A.J.|Effect of Salts of Heavy Metals on Development of the Sea Urchin, Arbacia punctulata|Biol. Bull.73(3): 401-420|1937|10.2307/1537604
17764|A||Srivastava,A., and V.S. Jaiswal|Effect of Cadmium on Turion Formation and Germination of Spirodela polyrrhiza L|J. Plant Physiol.134(3): 385-387|1989|10.1016/S0176-1617(89)80261-5
17765|A||Calabrese,A., and H.C. Davis|"Effects of ""Soft"" Detergents on Embryos and Larvae of the American Oyster (Crassostrea virginica)"|Proc. Natl. Shellfish. Assoc.57:11-16|1967|
17766|A||Devi,V.U.|Bioaccumulation and Metabolic Effects of Cadmium on Marine Fouling Dressinid Bivalve, Mytilopsis sallei (Recluz)|Arch. Environ. Contam. Toxicol.31:47-53|1996|10.1007/BF00203906
17767|A||Coello,W.F., and M.A.Q. Khan|Protection Against Heavy Metal Toxicity by Mucus and Scales in Fish|Arch. Environ. Contam. Toxicol.30:319-326|1996|10.1007/BF00212289
17768|A||Agrawal,M.C., K.S. Bhandari, and R.K. Chaudhry|Preliminary Studies on Molluscicidal Properties of Seed-Cake of Mahua (Madhuca indica)|Indian J. Anim. Sci.57(6): 546-547|1987|
17769|A||El Enany,A.E., and A.M.A. Mazen|Isolation of Cd-Binding Protein of Water Hyacinth (Eichhornia crassipes) Grown in Nile River Water|Water Air Soil Pollut.87(1-4): 357-362|1996|10.1007/BF00696847
17770|A||Foltinova,P., N. Lahitova, and L. Ebringer|Antimutagenicity in Euglena gracilis|Mutat. Res.32(4): 167-171|1994|
17771|A||Angadi,S.B., S. Hiremath, and S. Pujari|Toxicity of Copper, Nickel, Manganese and Cadmium on Cyanobacterium Hapalosiphon stuhlmannii|J. Environ. Biol.17(2): 107-113|1996|
17772|A||Fisk,A.T., A.L. Yarechewski, D.A. Metner, R.E. Evans, W.L. Lockhart, and D.C.G. Muir|Accumulation, Depuration and Hepatic Mixed-Function Oxidase Enzyme Induction in Juvenile Rainbow Trout and Lake Whitefish Exposed to Dietary|Aquat. Toxicol.37(2-3): 201-220|1997|10.1016/S0166-445X(96)00817-X
17773|A||Arasta,T., V.S. Bais, and P. Thakur|Effect of Nuvan on Some Biochemical Parameters of Indian Cat Fish, Mystus vittatus|J. Environ. Biol.17(2): 167-169|1996|
17774|A||Knoph,M.B.|Gill Ventilation Frequency and Mortality of Atlantic Salmon (Salmo salar L.) Exposed to high Ammonia Levels in Seawater|Water Res.30(4): 837-842|1996|10.1016/0043-1354(95)00233-2
17775|A||Philip,G.H., and B.H. Rajasree|Action of Cypermethrin on Tissue Transamination During Nitrogen Metabolism in Cyprinus carpio|Ecotoxicol. Environ. Saf.34(2): 174-179|1996|10.1006/eesa.1996.0060
17777|A||Guilhermino,L., R. Ribeiro, F. Goncalves, and A.M.V.M. Soares|Metier (Modular Ecotoxicity Tests Incorporating Ecological Relevance) for Difficult Substances - III. Effects of Medium Renewal and Use of a Carrier|Environ. Pollut.92(1): 97-99|1996|10.1016/0269-7491(95)00094-1
17778|A||DiPinto,L.M.|Trophic Transfer of a Sediment-Associated Organophosphate Pesticide from Meiobenthos to Bottom Feeding Fish|Arch. Environ. Contam. Toxicol.30:459-466|1996|10.1007/BF00213396
17779|A||Ostroumov,S.A., and A.E. Golovko|Use of Rice Sprouts for Bioassay of the Toxicity of the Surfactant Sulfonol|Hydrobiol. J.28(6): 84-88|1992|
17780|A||Devi,V.U.|Changes in Oxygen Consumption and Biochemical Composition of the Marine Fouling Dreissinid Bivalve Mytilopsis sallei (Recluz) Exposed to Mercury|Ecotoxicol. Environ. Saf.33(1): 168-174|1996|10.1006/eesa.1996.0022
17781|A||Tessier,C., and J.S. Blais|Determination of Cadmium-Metallothioneins in Zebra Mussels Exposed to Subchronic Concentration of Cd2+|Ecotoxicol. Environ. Saf.33(3): 246-252|1996|10.1006/eesa.1996.0031
17782|A||Vijayram,K., and P. Geraldine|Are the Heavy Metals Cadmium and Zinc Regulated in Freshwater Prawns?|Ecotoxicol. Environ. Saf.34(2): 180-183|1996|10.1006/eesa.1996.0061
17783|A||Blanck,H., and B. Dahl|Pollution-Induced Community Tolerance (PICT) in Marine Periphyton in a Gradient of Tri-n-butyltin (TBT) Contamination|Aquat. Toxicol.35(1): 59-77|1996|10.1016/0166-445X(96)00007-0
17784|A||Grundy,M.M., M.N. Moore, S.M. Howell, and N.A. Ratcliffe|Phagocytic Reduction and Effects on Lysosomal Membranes by Polycyclic Aromatic Hydrocarbons, in Haemocytes of Mytilus edulis|Aquat. Toxicol.34(4): 273-290|1996|10.1016/0166-445X(95)00044-5
17785|A||Dahl,B., and H. Blanck|Pollution-Induced Community Tolerance (PICT) in Periphyton Communities Established Under Tri-n-butyltin (TBT) Stress in Marine Microcosms|Aquat. Toxicol.34(4): 305-325|1996|10.1016/0166-445X(95)00046-7
17786|A||Hooftman,R.N., and W.K. De Raat|Induction of Nuclear Anomalies (Micronuclei) in the Peripheral Blood Erythrocytes of the Eastern Mudminnow Umbra pygmaea by Ethyl Methanesulphonate|Mutat. Res.104:147-152|1982|
17787|A||Marking,L.L.|Toxicity of TFM to Fish|In: Great Lakes Fisheries Comm., Report of Interim Meeting, Appendix XIId, Dec.5-6, 1972, Ann Arbor, MI:2 p.|1972|
17788|A||Amali,A.A., L.C.A. Kumar, F.X.E. Jayanthi, and M. Selvanayagam|Quinalphos Induced Biochemical Anomalies in Cirrhinus mrigala (Ham.)|J. Environ. Biol.17(2): 121-124|1996|
17789|A||Wallen,D.G.|Adaptation of the Growth of the Diatom Fragilaria crotonensis (Kitton) and the Phytoplankton Assemblage of Lake Erie to Chromium Toxicity|J. Great Lakes Res.22(1): 55-62|1996|10.1016/S0380-1330(96)70934-6
17790|A||Gaaboub,I.A.|Susceptibility Status of Larvae of the Principal Malaria Vector Anopheles pharcensis Theob. in the Surroundings of Alexandria to DDT, Dieldrin and BHC|Bull. Entomol. Soc. Egypt9:97-103|1975|
17791|A||Grinfeld,S., A. Jaylet, R. Siboulet, P. Deparis, and I. Chouroulinkov|Micronuclei in Red Blood Cells of the Newt Pleurodeles waltl After Treatment with Benzo(a)pyrene: Dependence on Dose, Length of Exposure|Environ. Mutagen.8(1): 41-51|1986|10.1002/em.2860080105
17792|A||Gajbhiye,S.N., and R. Hirota|Toxicity of Heavy Metals to Brine Shrimp Artemia|J. Indian Fish. Assoc.20:43-50|1990|
17793|A||Maheshwari,U.K., B.C. Das, S. Paul, and S.K. Chouhan|Toxicity of Some Organic Biocides to Exotic Carp Fingerlings Hypophthalmichthys molitrix (C&V)|J. Indian Fish. Assoc.19:65-68|1989|
17794|A||Reddy,P.S., and A. Bhagyalakshmi|Alterations in Carbohydrate Metabolism in Selected Tissues of Crab, Oziotelphusa senex senex (Fabricius) Under Fenvalerate-Induced Stress|Chem. Ecol.9(2): 67-74|1994|10.1080/02757549408038565
17795|A||Hose,J.E., and H.W. Puffer|Cytologic and Cytogenetic Anomalies Induced in Purple Sea Urchin Embryos (Strongylocentrotus purpuratus S.) by Parental Exposure to Benzo(a)pyrene|Mar. Biol. Lett4:87-95|1983|
17796|A||Shaikila,I.B., P. Thangavel, and M. Ramaswamy|Adaptive Trends in Tissue Acid and Alkaline Phosphatases of Sarotherodon mossambicus (Peters) Under Sevin Toxicity|Indian J. Environ. Health35(1): 36-39|1993|
17797|A||Herkovits,J., and C.S. Perez-Coll|Amphibian Embryos as Bioassays to Evaluate Environmental Pollutants and to Reduce Their Toxic Effects|In: Proc. 4th International Conference on Environmental Pollutants, Barcelona, CEP Consultants, Edinburg:623-626|1990|
17798|A||Lonning,S., and B.E. Hagstrom|The Effects of Oil Dispersants on the Cell in Fertilization and Development|Norw. J. Zool.23:131-134|1975|
17799|A||Kobayashi,N.|Studies on the Effects of Some Agents on Fertilized Sea Urchin Eggs, as a Part of the Bases for Marine Pollution Bioassay I|Publ. Seto Mar. Biol. Lab.21(2): 109-114|1973|10.5134/175805
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17801|A||Kobayashi,N.|Preliminary Experiments with Sea Urchin Pluteus and Metamorphosis in Marine Pollution Bioassay|Publ. Seto Mar. Biol. Lab.24(1-3): 9-21|1977|10.5134/175965
17802|A||Wu,R.S.S.|Differences in the Toxicities of an Oil Dispersant and a Surface Active Agent to Some Marine Animals, and Their Implications in the Choice of Species|Mar. Environ. Res.5:157-163|1981|10.1016/0141-1136(81)90030-1
17803|A||Vincent,S., T. Ambrose, L.C.A. Kumar, and M. Selvanayagam|Heavy Metal Cadmium Influenced Anaemia in the Riverine Major Carp, Catla catla (Ham.)|J. Environ. Biol.17(1): 81-84|1996|
17804|A||Svendsen,C., and J.M. Weeks|The Use of a Lysosome Assay for the Rapid Assessment of Cellular Stress from Copper to the Freshwater Snail Viviparus contectus (Millet)|Mar. Pollut. Bull.31(1-3): 139-142|1995|10.1016/0025-326X(94)00227-Z
17805|A||Fernandez,T.V., G. Thomas, Y.S. Vardhanan, and R.M. Kumar|An Assessment of the Toxicity Levels of BHC on Four Aquatic Organisms|J. Environ. Biol.17(1): 21-24|1996|
17806|A||Chandravathy,V.M., and S.L.N. Reddy|Lead Nitrate Exposure Changes in Carbohydrate Metabolism of Freshwater Fish|J. Environ. Biol.17(1): 75-79|1996|
17807|A||Cleland,K.W.|Heavy Metals, Fertilization and Cleavage in the Eggs of Psammechinus miliaris|Exp. Cell Res.4:246-248|1952|10.1016/0014-4827(53)90209-2
17808|A||Howick,G.L., F.,Jr. De Noyelles, J.M. Giddings, and R.L. Graney|Earthen Pond vs. Fiberglass Tanks as Venues for Assessing the Impact of Pesticides on Aquatic Environments: A Parallel Study with Sulprofos|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:321-336|1994|
17810|AT||Heimbach,F., J. Berndt, and W. Pflueger|Fate and Biological Effects of an Herbicide on Two Artificial Pond Ecosystems of Different Size|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:303-320|1994|
17812|A||Reddy,P.S., and A. Bhagyalakshmi|On the Possible Significance of Enhanced NADP-Dependent Dehydrogenases in Selected Tissues of the Crab, Oziotelphusa senex senex Fabricius, During|Fresenius Environ. Bull.4(2): 103-110|1995|
17813|A||Takimoto,Y., M. Ohshima, T. Matsuda, and J. Miyamoto|Metabolism of Several Pyrethroidal Insecticides by Carp (Cyprinus carpio)|In: 6th Intl.Congr.of Pesticide Chemistry, Aug.10-15, 1986, Int.Union of Pure and Applied Chemistry, Ottawa, Canada:1 p.|1986|
17814|A||Powell,M.D., and S.F. Perry|Respiratory and Acid-Base Pathophysiology of Hydrogen Peroxide in Rainbow Trout (Oncorhynchus mykiss Walbaum)|Aquat. Toxicol.37(2/3): 99-112|1997|10.1016/S0166-445X(96)00826-0
17815|A||Hamed,M.S., A. Ramzi, and S. El Said|Susceptibility Status of Mosquitoes in Egypt to Commonly Used Insectides|J. Egypt. Publ. Health Assoc.58(1-2): 160-167|1983|
17817|A||Vijayan,M.M., G. Feist, D.M.E. Otto, C.B. Schreck, and T.W. Moon|3,3',4,4'-Tetrachlorobiphenyl Affects Cortisol Dynamics and Hepatic Function in Rainbow Trout|Aquat. Toxicol.37(2-3): 87-98|1997|10.1016/S0166-445X(96)00828-4
17818|A||Bressan,M., R. Brunetti, S. Casellato, G.C. Fava, P. Giro, M. Marin, P. Negrisolo, and L. Tallandini|Effects of Linear Alkylbenzene Sulfonate (LAS) on Benthic Organisms|Tenside Surfactants Deterg.26:148-158|1989|10.1515/tsd-1989-260218
17819|A||Lee,C.M.|Toxicity of Dihardened-Tallow Dimethyl Ammonium Chloride|Tenside Surfactants Deterg.23:196-199|1986|10.1515/tsd-1986-230415
17820|A||Ceas,M.P.|Effects of 3-4 Benzopyrene on Sea Urchin Egg Development|Acta Embryol. Exp.3:267-272|1974|
17821|A||Bardach,J.E., M. Fujiya, and A. Holl|Detergents: Effects on the Chemical Senses of the Fish Ictalurus natalis (le Sueur)|Science148:1605-1607|1965|10.1126/science.148.3677.1605
17822|A||Pagano,G., A. Esposito, G.G. Giordano, E. Vamvakinos, I. Quinto, G. Bronzetti, C. Bauer, and C. Corsi|Genotoxicity and Teratogenicity of Diphenyl and Diphenyl Ether: A Study of Sea Urchins, Yeast, and Salmonella typhimurium|Teratog. Carcinog. Mutagen.3:377-393|1983|10.1002/1520-6866(1990)3:4<377::AID-TCM1770030407>3.0.CO;2-6
17824|A||Mahadevan,M.M.|Sperm Bioassay for Detecting Acute Toxicity of Chemical Pollutants|Experientia42:85-86|1986|10.1007/BF01975908
17825|A||Shcherban,E.P.|Some Features of the Toxic Action of the Non-Ionic Surfactant Laurox-9 on Daphnia magna|Hydrobiol. J.5:83-86|1980|
17827|A||Honma,Y., and T. Kitami|The Julianna Oil Pollution on Shore Life and Effects of Several Oil-Spill Removers on Some Fishes and Sea Urchin Eggs in the Laboratory|Annu.Rep.Sado Mar.Biol.Stn.Niigata Univ.4:5-13|1974|
17828|A||Falk-Petersen,I.B., S. Lonning, and R. Jakobsen|Effects of Oil and Oil Dispersants on Plankton Organisms|Astarte12(2): 45-47|1979|
17829|A||Kobayashi,N.|Comparative Toxicity of Various Chemicals, Oil Extracts and Oil Dispersant Extracts to Canadian and Japanese Sea Urchin Eggs|Publ. Seto Mar. Biol. Lab.26(1-3): 123-133|1981|10.5134/176019
17830|A||Rumbold,D.G., and S.C. Snedaker|Evaluation of Bioassays to Monitor Surface Microlayer Toxicity in Tropical Marine Waters|Arch. Environ. Contam. Toxicol.32(2): 135-140|1997|10.1007/s002449900165
17831|A||Saksena,D.N., and R. Pandey|Copper Sulphate Induced Histopathological Alterations in the Gills of the Fingerlings of an Indian Major Carp, Labeo rohita (Hamilton)|J. Nat. Conserv.5(1): 65-69|1993|
17832|A||Saksena,D.N., and A. Agarwal|Effect of Mercuric Chloride on Certain Biochemical Constituents of the Ovary of Indian Freshwater Catfish, Clarias batrachus (Linn.)|J. Adv. Zool.12(1): 13-18|1991|
17833|A||Horsberg,T.E., K.A. Hoff, and R. Nordmo|Pharmacokinetics of Florfenicol and Its Metabolite Florfenicol Amine in Atlantic Salmon|J. Aquat. Anim. Health8:292-301|1996|10.1577/1548-8667(1996)008<0292:POFAIM>2.3.CO;2
17834|A||Pande,R., and D.N. Saksena|The Toxicity of Copper Sulphate to the Fingerlings of Labeo rohita (Hamilton)|Bull. Environ. Sci. Sustain. Manage.10:23-27|1992|
17836|A||Saksena,D.N., and A. Agarwal|Effect of Mercuric Chloride intoxication on Ovarian Activity of a Teleostean Fish, Channa punctatus (Bloch)|Int. J. Acad. Ichthyol.7(1): 1-6|1986|
17837|A||Mitra,S.|C-Reactive Protein in the Freshwater Teleost, Channa punctatus: Interaction with Xenobiotics|Ph.D. Thesis, Visva-Bharati University, Santiniketan, India:4 p.|1991|
17838|A||Ghosh,P.K.|Interrelationship of Acetylcholinesterase-Acetylcholine, Triiodothyronine-Thryoxine and Gonadotropin-Gonadotropin Releasing Hormone in Pesticide Treated Murrel, Channa punctatus (Bloch)|Ph.D.Thesis (Synopsis), Visva-Bharati University, Santiniketan, India:6 p.|1990|
17840|A||Xu,Q., and R.S. Oldham|Lethal and Sublethal Effects of Nitrogen Fertilizer Ammonium Nitrate on Common Toad (Bufo bufo) Tadpoles|Arch. Environ. Contam. Toxicol.32(3): 298-303|1997|10.1007/s002449900188
17841|A||Ruparelia,S.C., Y. Verma, S.R. Saiyed, and U.M. Rawal|Changes in Differential White Blood Cell (WBC) Count in Fish, Sarotherodon mossambica (Peters) Under Prolonged Exposure to Cadmium|Indian J. Environ. Toxicol.1(1): 59-64|1991|
17842|A||Cravedi,J.P., C. Gillet, and G. Monod|In Vivo Metabolism of Pentachlorophenol and Aniline in Arctic Charr (Salvelinus alpinus L.) Larvae|Bull. Environ. Contam. Toxicol.54(5): 711-716|1995|10.1007/BF00206103
17843|A||Saxena,V., and D.N. Saksena|Effect of Nuvan and Dimecron on the Ovarian Biochemical Constituents in a Freshwater Murrel, Channa orientalis (Schneider)|J. Environ. Pollut.3(3/4): 157-164|1996|
17845|A||Goetsch,P.A., and C.G. Palmer|Salinity Tolerances of Selected Macroinvertebrates of the Sabie River, Kruger National Park, South Africa|Arch. Environ. Contam. Toxicol.32(1): 32-41|1997|10.1007/s002449900152
17846|A||Cheung,S.G., and R.Y.H. Cheung|Effects of Heavy Metals on Oxygen Consumption and Ammonia Excretion in Green-lipped Mussels (Perna viridis)|Mar. Pollut. Bull.31(4-12): 381-386|1995|10.1016/0025-326X(95)00137-C
17847|A||Howard,S.|The Effect of Nigerian Crude Oil and Dispolene 34 Dispersant on the Intertidal Seagrass Zostera|Proj.No.IP/OPRU/86/2, Oil Pollution Research Unit, Field Studies Council, Orielton Field Centre, Pembroke, Wales, U.K.:28 p.|1986|
17849|A||Neville,C.M.|Short-Term Early Life Stage Growth Test Using Sacfry and Early Swim-Up Stages of Rainbow Trout (Oncorhynchus mykiss)|Ontario Ministry of the Environment & Energy, Toronto, Ontario:27 p.|1995|
17850|A||Klerks,P.L., and P.C. Fraleigh|Uptake of Nickel and Zinc by the Zebra Mussel Dreissena polymorpha|Arch. Environ. Contam. Toxicol.32(2): 191-197|1997|10.1007/s002449900174
17851|A||Hamer,M.J., I.R. Hill, L. Rondon, and A. Caguan|The Effects of Lambda-Cyhalothrin in Aquatic Field Studies|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:331-337|1994|
17852|A||Hill,I.R., J.K. Runnalls, J.H. Kennedy, and P. Ekoniak|Effects of Lambda-Cyhalothrin on Aquatic Organisms in Large-Scale Mesocosms|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:345-360|1994|
17853|A||Heimbach,F.|"Comparison of the Effects of a Herbicide (Metamitron) in Outdoor Pond ""Microcosms"" and in Standardized Laboratory Tests"|In: I.R.Hill, F.Heimbach, P.Leeuwangh, and P.Matthiessen (Eds.), Freshwater Field Tests for Hazard Assessment of Chemicals, Lewis Publishers, Boca Raton, FL:339-344|1994|
17854|A||McConkey,B.J., C.L. Duxbury, D.G. Dixon, and B.M. Greenberg|Toxicity of a PAH Photooxidation Product to the Bacteria Photobacterium phosphoreum and the Duckweed Lemna gibba: Effects of Phenanthrene and Its Primary Photoproduct, Phenanthrenequinone|Environ. Toxicol. Chem.16(5): 892-899|1997|10.1002/etc.5620160508
17855|A||Schlueter,M.A., S.I. Guttman, J.T. Oris, and A.J. Bailer|Differential Survival of Fathead Minnows, Pimephales promelas, as Affected by Copper Exposure, Prior Population Stress, and Allozyme Genotypes|Environ. Toxicol. Chem.16(5): 939-947|1997|10.1002/etc.5620160513
17856|A||Kononen,D.W., and R.A. Gorski|A Method for Evaluating the Toxicity of Industrial Solvent Mixtures|Environ. Toxicol. Chem.16(5): 968-976|1997|10.1002/etc.5620160515
17857|A||Schultz,I.R., and W.L. Hayton|Influence of Body Fat on Trifluralin Toxicokinetics in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.16(5): 997-1001|1997|10.1002/etc.5620160519
17858|A||Schultz,I.R., and M.C. Newman|Methyl Mercury Toxicokinetics in Channel Catfish (Ictalurus punctatus) and Largemouth Bass (Micropterus salmoides) After Intravascular Administration|Environ. Toxicol. Chem.16(5):990-996|1997|10.1002/etc.5620160518
17859|A||Moore,D.W., T.S. Bridges, B.R. Gray, and B.M. Duke|Risk of Ammonia Toxicity During Sediment Bioassays with the Estuarine Amphipod Leptocheirus plumulosus|Environ. Toxicol. Chem.16(5): 1020-1027|1997|10.1002/etc.5620160523
17860|A||Keller,A.E., and D.S. Ruessler|The Toxicity of Malathion to Unionid Mussels: Relationship to Expected Environmental Concentrations|Environ. Toxicol. Chem.16(5): 1028-1033|1997|10.1002/etc.5620160524
17861|A||Versteeg,D.J., D.T. Stanton, M.A. Pence, and C. Cowan|Effects of Surfactants on the Rotifer, Brachionus calyciflorus, in a Chronic Toxicity Test and in the Development of QSARs|Environ. Toxicol. Chem.16(5): 1051-1058|1997|10.1002/etc.5620160527
17863|A||Gray,M.A., and C.D. Metcalfe|Induction of Testis-Ova in Japanese Medaka (Oryzias latipes) Exposed to p-Nonylphenol|Environ. Toxicol. Chem.16(5): 1082-1086|1997|
17864|A||Seymour,D.T., A.G. Verbeek, S.E. Hrudey, and P.M. Fedorak|Acute Toxicity and Aqueous Solubility of Some Condensed Thiophenes and Their Microbial Metabolites|Environ. Toxicol. Chem.16(4): 658-665|1997|10.1002/etc.5620160409
17865|A||De Boeck,G., R. Borger, A. Van der Linden, and R. Blust|Effects of Sublethal Copper Exposure on Muscle Energy Metabolism of Common Carp, Measured by 31P-Nuclear Magnetic Resonance Spectroscopy|Environ. Toxicol. Chem.16(4): 676-684|1997|
17866|A||Rice,P.J., C.D. Drewes, T.M. Klubertanz, S.P. Bradbury, and J.R. Coats|Acute Toxicity and Behavioral Effects of Chlorpyrifos, Permethrin, Phenol, Strychnine, and 2,4-Dinitrophenol to 30-Day-Old Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.16(4): 696-704|1997|
17867|A||Bond,J.A., and B.P. Bradley|Resistance to Malathion in Heat-Shocked Daphnia magna|Environ. Toxicol. Chem.16(4): 705-712|1997|
17868|A||Driscoll,S.K., G.A. Harkey, and P.F. Landrum|Accumulation and Toxicokinetics of Fluoranthene in Sediment Bioassays with Freshwater Amphipods|Environ. Toxicol. Chem.16(4): 742-753|1997|
17869|A||Pelgrom,S.M.G.J., R.A.C. Lock, P.H.M. Balm, and S.E. Wendelaar Bonga|Calcium Fluxes in Juvenile Tilapia, Oreochromis mossambicus, Exposed to Sublethal Waterborne Cd, Cu or Mixtures of These Metals|Environ. Toxicol. Chem.16(4): 770-774|1997|10.1002/etc.5620160422
17870|A||Spawn,R.L., K.D. Hoagland, and B.D. Siegfried|Effects of Alachlor on an Algal Community from a Midwestern Agricultural Stream|Environ. Toxicol. Chem.16(4): 785-793|1997|10.1002/etc.5620160424
17871|A||Erickson,R.J., C.F. Kleiner, J.T. Fiandt, and T.L. Highland|Effect of Acclimation Period on the Relationship of Acute Copper Toxicity to Water Hardness for Fathead Minnows|Environ. Toxicol. Chem.16(4): 813-815|1997|10.1002/etc.5620160428
17872|A||Besselink,H.T., E. Van Santen, W. Vorstman, A.D. Vethaak, J.H. Koeman, and A. Brouwer|High Induction of Cytochrome P4501A Activity Without Changes in Retinoid and Thyroid Hormone Levels in Flounder (Platichthys flesus) Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Environ. Toxicol. Chem.16(4): 816-823|1997|
17873|A||Hunt,J.W., B.S. Anderson, S.L. Turpen, M.A. Englund, and W. Piekarski|Precision and Sensitivity of a Seven-Day Growth and Survival Toxicity Test Using the West Coast Marine Mysid Crustacean Holmesimysis costata|Environ. Toxicol. Chem.16(4): 824-834|1997|
17874|A||Markin,G.P., H.L. Collins, and J. Davis|Residues of the Insecticide Mirex in Terrestrial and Aquatic Invertebrates Following a Single Aerial Application of Mirex Bait, Louisiana - 1971-72|Pestic. Monit. J.8(2): 131-134|1974|
17875|A||Tietge,J.E., R.D. Johnson, K.M. Jensen, P.M. Cook, G.E. Elonen, J.D. Fernandez, G.W. Holcombe, D.B. Lothenbach, and J.W|Reproductive Toxicity and Disposition of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Adult Brook Trout (Salvelinus fontinalis) Following a Dietary Exposure|Environ. Toxicol. Chem.17(12): 2395-2407|1998|
17876|A||Wicklum,D., D.E.C. Smith, and R.W. Davies|Mortality, Preference, Avoidance, and Activity of a Predatory Leech Exposed to Cadmium|Arch. Environ. Contam. Toxicol.32(2): 178-183|1997|10.1007/s002449900172
17877|A||Lebedeva,G.D.|The Effect of Beryllium on Aquatic Organisms|Zool. Zh. (Non-English)39:1779-1782|1960|
17878|A||Norberg-King,T.J.|An Evaluation of the Fathead Minnow Seven-Day Subchronic Test for Estimating Chronic Toxicity|M.S.Thesis, University of Wyoming, Laramie, WY:80 p.|1987|
17880|A||Bargar,T.A., and S.W. Fisher|Molluscicide Acute and Sub-chronic Toxicity to the Three Non-Target Organisms Hexagenia limbata, Ceriodaphnia dubia, and Pimephelas promelas, and Neutralization of that Toxicity by Bentonite Clay|Bull. Environ. Contam. Toxicol.58(2): 275-282|1997|10.1007/s001289900331
17881|A||Sweet,L.I., and P.G. Meier|Lethal and Sublethal Effects of Azulene and Longifolene to Microtox, Ceriodaphnia dubia, Daphnia magna, and Pimephales promelas|Bull. Environ. Contam. Toxicol.58(2): 268-274|1997|10.1007/s001289900330
17882|A||Erstfeld,K.M., and S.S. Park|Dynamics of Chlordane under Nonconstant Exposure Conditions: A Numerical Bioaccumulation Model|Bull. Environ. Contam. Toxicol.58(3): 364-371|1997|10.1007/s001289900343
17883|A||Sohacki,L.P.|Dynamics of Arsenic in the Aquatic Environment|Ph.D. Thesis, Michigan State University, East Lansing, MI:101 p.|1968|
17884|A||Cairns,J.,Jr., and R.E. Sparks|The Use of Bluegills to Detect Zinc|U.S.EPA, Washington, DC:45 p.|1971|
17885|A||Galvez,F., and C.M. Wood|Physiological Effects of Dietary Silver Sulfide Exposure in Rainbow Trout|Environ. Toxicol. Chem.18(1): 84-88|1999|10.1002/etc.5620180111
17887|A||Avery,S.V., G.A. Codd, and G.M. Gadd|Caesium Accumulation and Toxicity in Synechocystis PCC 6803|Br. Phycol. J.25(1): 83-84|1990|10.1080/00071619000650081
17888|A||Forbes,V.E., V. Moller, and M.H. Depledge|Intrapopulation Variability in Sublethal Response to Heavy Metal Stress in Sexual and Asexual Gastropod Populations|Funct. Ecol.9:477-484|1995|10.2307/2390012
17889|A||DeGraeve,G.M., R.G. Elder, D.C. Woods, and H.L. Bergman|Effects of Naphthalene and Benzene on Fathead Minnows and Rainbow Trout|Arch. Environ. Contam. Toxicol.11(4): 487-490|1982|10.1007/BF01056076
17890|A||McCahon,C.P., and D. Pascoe|Short-Term Experimental Acidification of a Welsh Stream:  Toxicity of Different Forms of Aluminium at Low pH to Fish and Invertebrates|Arch. Environ. Contam. Toxicol.18:233-242|1989|10.1007/BF01056208
17891|A||Yu,C.C., and J.R. Sanborn|The Fate of Parathion in a Model Ecosystem|Bull. Environ. Contam. Toxicol.13(5): 543-550|1975|10.1007/BF01685177
17892|A||Singhal,R.N., and M. Jain|Cadmium-Induced Changes in the Histology of Kidneys in Common Carp, Cyprinus carpio (Cyprinidae)|Bull. Environ. Contam. Toxicol.58(3): 456-462|1997|10.1007/s001289900356
17893|A||Moody,R.P., R. Greenhalgh, L. Lockhart, and P. Weinberger|The Fate of Fenitrothion in an Aquatic Ecosystem|Bull. Environ. Contam. Toxicol.19:8-14|1978|10.1007/BF01685760
17894|A||Brumley,C.M., V.S. Haritos, J.T. Ahokas, and D.A. Holdway|Validation of Biomarkers of Marine Pollution Exposure in Sand Flathead Using Aroclor 1254|Aquat. Toxicol.31(3): 249-262|1995|10.1016/0166-445X(94)00074-Z
17895|A||Liber,K., K.R. Solomon, N.K. Kaushik, and J.H. Carey|Impact of 2,3,4,6-Tetrachlorophenol (DIATOX) on Plankton Communities in Limnocorrals|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL:257-294|1994|
17896|A||James,M.O., A.H. Altman, C.L.J. Li, and J.D.,Jr. Schell|Biotransformation, Hepatopancreas DNA Binding and Pharmacokinetics of Benzo(a)pyrene After Oral and Parenteral Administration to the American Lobster|Chem.-Biol. Interact.95(1-2): 141-160|1995|10.1016/0009-2797(94)03355-2
17897|A||Barry,M.J., D.C. Logan, J.T. Ahokas, and D.A. Holdway|Effects of Esfenvalerate Pulse-Exposure on the Survival and Growth of Larval Australian Crimson-Spotted Rainbow Fish (Melanotaenia fluviatilis)|Environ. Toxicol. Water Qual.10(4): 267-274|1995|10.1002/tox.2530100406
17898|A||Ellis,G.S., J.N. Huckins, C.E. Rostad, C.J. Schmitt, J.D. Petty, and P. MacCarthy|Evaluation of Lipid-Containing Semipermeable Membrane Devices for Monitoring Organichlorine Contaminants in the Upper Mississippi River|Environ. Toxicol. Chem.14(11): 1875-1884|1995|
17901|A||Dalal,R.|Involvement of Hepatic Metallothionein and Aniline Hydroxylase in the Detoxication of Industrial Pollutants in an Air Breathing Freshwater Teleost|Ph.D.Thesis (Synopsis), Visva-Bharati University, Santiniketan, India:4 p.|1989|
17902|A||Prakash,N.T., and K.S.J. Rao|Modulations in Antioxidant Enzymes in Different Tissues of Marine Bivalve Perna viridis During Heavy Metal Exposure|Mol. Cell. Biochem.146(2): 107-113|1995|10.1007/BF00944602
17903|A||Waiser,M.J., and R.D. Robarts|Impacts of a Herbicide and Fertilizers on the Microbial Community of a Saline Prairie Lake|Can. J. Fish. Aquat. Sci.54:320-329|1997|10.1139/f96-280
17904|A||Doblander,C., and R. Lackner|Oxidation of Nitrite to Nitrate in Isolated Erythrocytes: A Possible Mechanism for Adaptation to Environment Nitrite|Can. J. Fish. Aquat. Sci.54:157-161|1997|
17905|A||Zaroogian,G.|Use of Monochlorbimane to Determine the In Vivo Effect of Cadmium, Copper and Lead on Glutathione Status in Mercenaria mercenaria Brown Cells|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(2): 117-123|1997|
17906|A||Santerre,C.R., V.S. Blazer, N. Khanna, R.E. Reinert, and F.T. Barrows|Absorption of Dietary Dieldrin by Striped Bass|Bull. Environ. Contam. Toxicol.58(2): 334-340|1997|10.1007/s001289900339
17907|A||Andren,C., L. Henrikson, M. Olsson, and G. Nilson|Effects of pH and Aluminium on Embryonic and Early Larval Stages of Swedish Brown Frogs Rana arvalis, R. temporaria and R. dalmatina|Holarct. Ecol.11(2): 127-135|1988|
17909|A||Chaurasia,S.S., P. Gupta, A. Kar, and P.K. Maiti|Lead Induced Thyroid Dysfuntion and Lipid Peroxidation in the Fish Clarias batrachus with Special Reference to Hepatic Type I-5'-Monodeiodinase Activity|Bull. Environ. Contam. Toxicol.56(4): 649-654|1996|10.1007/s001289900095
17910|A||Helmstetter,A., A.P. Gamerdinger, and R.J. Pruell|Acute Toxicity of Methanol to Mytilus edulis|Bull. Environ. Contam. Toxicol.57(4): 675-681|1996|10.1007/s001289900243
17911|A||Jonnalagadda,P.R., and B.P. Rao|Histopathological Changes Induced by Specific Pesticides on Some Tissues of the Fresh Water Snail, Bellamya dissimilis Muller|Bull. Environ. Contam. Toxicol.57(4): 648-654|1996|10.1007/s001289900239
17912|A||Kaur,K., and A. Dhawan|Effect of Carbaryl on Tissue Composition, Maturation, and Breeding Potential of Cirrhina mrigala (Ham.)|Bull. Environ. Contam. Toxicol.57(3): 480-486|1996|10.1007/s001289900215
17913|A||Kedwards,T.J., S.J. Blockwell, E.J. Taylor, and D. Pascoe|Design of an Electronically Operated Flow-Through Respirometer and Its Use to Investigate the Effects of Copper on the Respiration Rate of the Amphipod Gammarus pulex (L.)|Bull. Environ. Contam. Toxicol.57(4): 610-616|1996|10.1007/s001289900234
17914|A||Hussein,S.Y., M.A. El-Nasser, and S.M. Ahmed|Comparative Studies on the Effects of Herbicide Atrazine on Freshwater Fish Oreochromis niloticus and Chrysichthyes auratus at Assiut, Egypt|Bull. Environ. Contam. Toxicol.57(3): 503-510|1996|10.1007/s001289900218
17915|A||Kawano,A., T. Baba, Y. Mizukami, K. Arizono, and T. Ariyoshi|Acute Effect of Organotin Compounds to Red Sea Bream and Red Carp Using Biological Parameters|Bull. Environ. Contam. Toxicol.56(5): 774-781|1996|10.1007/s001289900113
17916|A||Ferrando,M.D., E. Sancho, and E. Andreu-Moliner|Accumulation of Tetradifon in an Algae (Nannochloris oculata) and the Cladoceran, Daphnia magna|Bull. Environ. Contam. Toxicol.57(1): 139-145|1996|10.1007/s001289900167
17918|A||Sidoumou,Z., M. Gnassia-Barelli, and M. Romeo|Cadmium and Calcium Uptake in the Mollusc Donax rugosus and Effect of a Calcium Channel Blocker|Bull. Environ. Contam. Toxicol.58(2): 318-325|1997|10.1007/s001289900337
17919|T||Mulder,R., and M.J. Gijswijt|The Laboratory Evaluation of Two Promising new Insecticides Which Interfere with Cuticle Deposition|Pestic. Sci.4:737-745|1973|10.1002/ps.2780040516
17920|A||Krishnaja,A.P., and M.S. Rege|Induction of Chromosomal Aberrations in Fish Boleophthalmus dussumieri After Exposure In Vivo to Mitomycin C and Heavy Metals Mercury, Selenium and Chromium|Mutat. Res.102:71-82|1982|10.1016/0165-1218(82)90147-1
17921|A||Mezui,J., and H.H. Lee|Effect of Endod, a Natural Molluscicide, on the Attachment of Zebra Mussels|Ohio J. Sci.93(2): 47-|1993|
17922|A||Kock,G., and F. Bucher|Accumulation of Zinc in Rainbow Trout (Oncorhynchus mykiss) after Waterborne and Dietary Exposure|Bull. Environ. Contam. Toxicol.58(2): 305-310|1997|10.1007/s001289900335
17923|AT||Moriarty,F.|The Toxicity and Sublethal Effects of p,p'-DDT and Dieldrin to Aglais urticae (L.) (Lepidoptera:  Nymphalidae) and Chorthippus brunneus (Thunberg) (Saltatoria:  Acrididae)|Ann. Appl. Biol.62:371-393|1968|10.1111/j.1744-7348.1968.tb05450.x
17924|A||Lande,S.P., and S.I. Guttman|The Effects of Copper Sulfate on the Growth and Mortality Rate of Rana pipiens Tadpoles|Herpetologica29(1): 22-27|1973|
17925|A||Yang,R., and D.J. Randall|Effects of Tetrachloroguaiacol (TeCG) on the Osmoregulation of Adult Coho Salmon (Oncorhynchus kisutch)|Bull. Environ. Contam. Toxicol.56(5): 788-795|1996|10.1007/s001289900115
17926|A||Yang,H.N., and H.C. Chen|Uptake and Elimination of Cadmium by Japanese Eel, Anguilla japonica, at Various Temperatures|Bull. Environ. Contam. Toxicol.56(4): 670-676|1996|10.1007/s001289900098
17927|A||Nayak,S., R.C. Mohanty, and L. Mohanty|Growth Rate of Ankistrodesmus falcatus and Scenedesmus bijuga in Mixed Culture Exposed to Monocrotophos|Bull. Environ. Contam. Toxicol.57(3): 473-479|1996|10.1007/s001289900214
17928|A||Lourey,M., and B.D. Mitchell|The Sublethal Effects of Unionised Ammonia on Growth of the Yabby, Cherax albidus Clark|Freshw. Crayfish10:256-266|1995|
17929|A||Ramaswamy,M., P. Thangavel, S. Dhanalakshmi, P. Govindaraj, and D. Karuppiah|Comparative Study on the Synergistic and Individual Effects of Dimecron and Cuman L on Oxygen Uptake and Haematological Parameters of a Freshwater|Bull. Environ. Contam. Toxicol.56(5): 796-802|1996|10.1007/s001289900116
17930|A||Khan,M.A.Q., and A.W.A. Brown|Lipids and Dieldrin Resistance in Aedes aegypti|J. Econ. Entomol.59:1512-1514|1966|10.1093/jee/59.6.1512
17931|A||Newsome,C.S.|Susceptibility of Various Fish Species at Different Stages of Development to Aquatic Pollutants|In: Environment and Quality of Life, Principles for the Interpretation of the Results of Testing Procedures in Ecotoxicology, EUR 7549, 342, Comm.Eur.Commun., Luxembourge, Belgium:284-295|1982|
17932|A||Sundaram,K.M.S.|Deposition, Persistence and Dissipation of Diflubenzuron in Pond and Stream Environments Following Aerial Application of Dimilin WP-25|Can. J. Plant Sci.69:259-260|1989|10.4141/cjps89-035
17933|A||Lee,L.H., and B. Lustigman|Effect of Barium and Nickel on the Growth of Anacystis nidulans|Bull. Environ. Contam. Toxicol.56(6): 985-992|1996|10.1007/s001289900142
17934|A||Leo,A., and D. Weininger|Daylight Software CLogP Version 3.15+ for Unix|Pomona Medical Chemistry Project, Pomona College, Claremont, CA.Distributed by Daylight Chemical Information Systems, Inc., 3952 Claremont St., Irving, CA 92714:|1997|
17936|A||Mitchell,D.|Algal Bioassays for Estimating the Effect of Added Materials upon the Planktonic Algae in Surface Waters|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor Publ.Co., Ann Arbor, MI:153-158|1973|
17937|A||Glooschenko,W.A., and J.E. Moore|The Effect of Citrate on Phytoplankton in Lake Ontario|In: G.E.Glass (Ed.), Bioassay Techniques and Environmental Chemistry, Ann Arbor Publ.Co., Ann Arbor, MI:321-334|1973|
17938|A||Willett,K., M. Steinberg, J. Thomsen, T.R. Narasimhan, S. Safe, S. McDonald, K. Beatty, and M.C. Kennicutt|Exposure of Killifish to Benzo(a)pyrene: Comparative Metabolism, DNA Adduct Formation and Aryl Hydrocarbon (Ah) Receptor Agonist Activities|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.112(1): 93-103|1995|10.1016/0305-0491(95)00034-6
17940|A||High,K.A., V.J. Barthet, J.W. McLaren, and J.S. Blais|Characterization of Metallothionein-Like Proteins from Zebra Mussels (Dreissena polymorpha)|Environ. Toxicol. Chem.16(6): 1111-1118|1997|
17941|A||Utsunomiya,A., T. Watanuki, K. Matsushita, and I. Tomita|Toxic Effects of Linear Alkylbenzene Sulfonate, Quaternary Alkylammonium Chloride and Their Complexes on Dunaliella sp. and Chlorella pyrenoidosa|Environ. Toxicol. Chem.16(6): 1247-1254|1997|
17942|A||Diamantino,T.C., R. Ribeiro, F. Goncalves, and A.M.V.M. Soares|METIER (Modular Ecotoxicity Tests Incorporating Ecological Relevance) for Difficult Substances. 4. Test Chamber for Cladocerans in Flow-Through|Environ. Toxicol. Chem.16(6): 1234-1238|1997|
17943|A||Smith,M.E., J.M. Lazorchak, L.E. Herrin, S. Brewer-Swartz, and W.T. Thoeny|A Reformulated, Reconstituted Water for Testing the Freshwater Amphipod, Hyalella azteca|Environ. Toxicol. Chem.16(6): 1229-1233|1997|10.1002/etc.5620160618
17944|A||Koivisto,S., M. Arner, and N. Kautsky|Does Cadmium Pollution Change Trophic Interactions in Rockpool Food Webs?|Environ. Toxicol. Chem.16(6): 1330-1336|1997|10.1002/etc.5620160632
17945|A||Aagaard,A., and M.H. Depledge|Inter-Individual Variability in the Responses of Carcinus maenas to Copper Exposure|In: J.C.Aldrich (Ed.), Proc.27th Eur.Ma.Biol.Symp., Quantified Phenotypic Responses in Morphology and Physiology, Sept.7-11, 1992, Dublin, Ireland:275-280|1993|
17946|A||Bettin,C., J. Oehlmann, and E. Stroben|TBT-Induced Imposex in Marine Neogastropods is Mediated by an Increasing Androgen Level|Helgol. Wiss. Meeresunters.50:299-317|1996|10.1007/BF02367105
17947|A||West,C.W., G.T. Ankley, J.W. Nichols, G.E. Elonen, and D.E. Nessa|Toxicity and Bioaccumulation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Long-Term Tests with the Freshwater Benthic Invertebrates Chironomus tentans and Lumbriculus variegatus|Environ. Toxicol. Chem.16(6): 1287-1294|1997|
17948|A||Fahraeus-Van Ree,G.E., and J.F. Payne|Effect of Toxaphene on Reproduction of Fish|Chemosphere34(4): 855-867|1997|10.1016/S0045-6535(97)00016-7
17949|A||Means,J.C., and A.E. McElroy|Bioaccumulation of Tetrachlorobiphenyl and Hexachlorobiphenyl Congeners by Yoldia limatula and Nephtys incisa from Bedded Sediments: Effects of|Environ. Toxicol. Chem.16(6):1277-1286|1997|
17950|A||Shurin,J.B., and S.I. Dodson|Sublethal Toxic Effects of Cyanobacteria and Nonylphenol on Environmental Sex Determination and Development in Daphnia|Environ. Toxicol. Chem.16(6): 1269-1276|1997|10.1002/etc.5620160624
17951|A||Nitschke,L., A. Wilk, C. Cammerer, G. Lind, and G. Metzner|Biodegradation and Aquatic Toxicity of beta-Alaninediacetic Acid (beta-ADA)|Chemosphere34(4):807-815|1997|10.1016/S0045-6535(97)00009-X
17952|A||Munoz de Vera,M.G., and J. Ellies|The Effect of Ferrous Sulfate and Sodium Hypochlorite on Fertilization and Development of Echinometra lucunter|In: J.M.Lawrence (Ed.), Int.Echinoderms Conf., Echinoderms: Proceedings of the International Conference, Sept.14-17, 1981, Tampa Bay, FL:525-527|1982|
17953|A||Oehlmann,J., and C. Bettin|TBT-Induced Imposex and the Role of Steroids in Marine Snails|Malacol. Rev.:157-161|1996|
17954|A||Saliba,L.J., and M.G. Vella|Effects of Mercury on the Behaviour and Oxygen Consumption of Monodonta articulata|Mar. Biol.43:277-282|1977|10.1007/BF00402320
17955|A||Cox,M.F., and H.W. Holm|Methylmercury and Total Mercury Concentrations in Selected Stream Biota|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO9:151-155|1975|
17956|A||Schramm,K.W., A. Kaune, B. Beck, W. Thumm, A. Behechti, A. Kettrup, and P. Nickolova|Acute Toxicities of Five Nitromusk Compounds in Daphnia, Algae and Photoluminescent Bacteria|Water Res.30(10): 2247-2250|1996|10.1016/0043-1354(96)00101-7
17957|A||Wong,C.K.|Effects of Diazinon on Some Population Parameters of Moina macrocopa (Cladocera)|Water Air Soil Pollut.393:393-399|1997|
17958|A||Chaisuksant,Y., Q. Yu, and D.W. Connell|Bioconcentration of Bromo- and Chlorobenzenes by Fish (Gambusia affinis)|Water Res.31(1): 61-68|1997|10.1016/S0043-1354(96)00229-1
17959|A||Tsuda,T., M. Kojima, H. Harada, A. Nakajima, and S. Aoki|Acute Toxicity, Accumulation and Excretion of Isoprothiolane and Its Degradation Products in Killifish|Water Res.31(2): 323-327|1997|10.1016/S0043-1354(96)00277-1
17960|A||Hollis,L., L. Muench, and R.C. Playle|Influence of Dissolved Organic Matter on Copper Binding, and Calcium on Cadmium Binding, by Gills of Rainbow Trout|J. Fish Biol.50:703-720|1997|10.1111/j.1095-8649.1997.tb01966.x
17961|A||Forsyth,D.J., P.A. Martin, and G.G. Shaw|Effects of Herbicides on Two Submersed Aquatic Macrophytes, Potamogeton pectinatus L. and Myriophyllum sibiricum Komarov, in a Prairie Wetland|Environ. Pollut.95(2): 259-268|1997|10.1016/S0269-7491(96)00137-6
17962|A||Murphy,D.L., and J.W. Gooch|EROD and CYP1A Protein in Channel Catfish (Ictalurus punctatus) from an Urban Estuary Relative to that in Benzo(a)pyrene-Exposed Hatchery Specimens|Environ. Pollut.95(2): 235-239|1997|10.1016/S0269-7491(96)00076-0
17963|A||Kawabata,Z., T. Yoshida, and H. Nakagawa|Effect of Ammonia on the Survival of Zacco platypus (Temminck and Schlegel) at Each Developmental Stage|Environ. Pollut.95(2): 213-218|1997|10.1016/S0269-7491(96)00098-X
17964|A||Vijayan,M.M., C. Pereira, G. Kruzynski, and G.K. Iwama|Sublethal Concentrations of Contaminant Induce the Expression of Hepatic Heat Shock Protein 70 in Two Salmonids|Aquat. Toxicol.40(2/3): 101-108|1998|10.1016/S0166-445X(97)00057-X
17965|A||Dijkman,N.A., P.L.A. Van Vlaardingen, and W.A. Admiraal|Biological Variation in Sensitivity to N-Heterocyclic PAHs; Effects of Acridine on Seven Species of Micro-Algae|Environ. Pollut.95(1): 121-126|1997|10.1016/S0269-7491(96)00070-X
17966|A||Horiguchi,T., H. Shiraishi, M. Shimizu, and M. Morita|Effects of Triphenyltin Chloride and Five Other Organotin Compounds on the Development of Imposex in the Rock Shell, Thais clavigera|Environ. Pollut.95(1): 85-91|1997|10.1016/S0269-7491(96)00093-0
17967|A||Sun,H., X. Wang, L. Wang, L. Dai, Z. Li, and Y. Cheng|Bioconcentration of Rare Earth Elements Lanthanum, Gadolinium and Yttrium in Algae (Chlorella vulgarize beijerinck): Influence of Chemical Species|Chemosphere34(8): 1753-1760|1997|10.1016/S0045-6535(97)00031-3
17968|A||Mohapatra,P.K., H. Schubert, and U. Schiewer|Effect of Dimethoate on Photosynthesis and Pigment Fluorescence of Synechocystis sp. PCC 6803|Ecotoxicol. Environ. Saf.36:231-237|1997|10.1006/eesa.1996.1503
17969|A||Grollier,T., A. Feurtet-Mazel, A. Boudou, and F. Ribeyre|Role of Temperature on Isoproturon Bioaccumulation and Effects on Two Freshwater Rooted Macrophytes: Elodea densa and Ludwigia natans|Ecotoxicol. Environ. Saf.36:205-212|1997|10.1006/eesa.1996.1496
17970|A||Kreutzweiser,D.P.|Nontarget Effects of Neem-Based Insecticides on Aquatic Invertebrates|Ecotoxicol. Environ. Saf.36:109-117|1997|10.1006/eesa.1996.1485
17971|A||Lee,D.M., J.B. Guckert, R.M. Ventullo, D.H. Davidson, and S.E. Belanger|Stream Periphytic Biodegradation of the Anionic Surfactant C12-Alkyl Sulfate at Environmentally Relevant Concentrations|Ecotoxicol. Environ. Saf.36:288-296|1997|10.1006/eesa.1996.1518
17972|A||Sancho,E., M.D. Ferrando, and E. Andreu|Sublethal Effects of an Organophosphate Insecticide on the European Eel, Anguilla anguilla|Ecotoxicol. Environ. Saf.36:57-65|1997|10.1006/eesa.1996.1488
17973|A||Heinonen,J., J. Kukkonen, O.P. Penttinen, and I.J. Holopainen|Effects of Hypoxia on Valve-Closure Time and Bioaccumulation of 2,4,5-Trichlorophenol by the Freshwater Clam Sphaerium corneum (L.)|Ecotoxicol. Environ. Saf.36:49-56|1997|10.1006/eesa.1996.1486
17974|A||Myllynen,K., E. Ojutkangas, and M. Nikinmaa|River Water with High Iron Concentration and Low pH Causes Mortality of Lamprey Roe and Newly Hatched Larvae|Ecotoxicol. Environ. Saf.36:43-48|1997|10.1006/eesa.1996.1484
17975|AT||Fargasova,A.|Comparative Study of Ecotoxicological Effect of Triorganotin Compounds on Various Biological Subjects|Ecotoxicol. Environ. Saf.36:38-42|1997|10.1006/eesa.1996.1483
17977|A||Ramachandran,S., T.R. Patel, and M.H. Colbo|Effect of Copper and Cadmium on Three Malaysian Tropical Estuarine Invertebrate Larvae|Ecotoxicol. Environ. Saf.36:183-188|1997|10.1006/eesa.1996.1508
17979|A||Baldigo,B.P., and P.S. Murdoch|Effect of Stream Acidification and Inorganic Aluminum on Mortality of Brook Trout (Salvelinus fontinalis) in the Catskill Mountains, New York|Can. J. Fish. Aquat. Sci.54:603-615|1997|10.1139/f96-314
17980|A||Yan,T., L.H. Teo, and Y.M. Sin|Effects of Mercury and Lead on Tissue Glutathione of the Green Mussel, Perna viridis L.|Bull. Environ. Contam. Toxicol.58:845-850|1997|10.1007/s001289900411
17981|A||Rodgers,J.H.J., E. Deaver, B.C. Suedel, and P.L. Rogers|Comparative Aqueous Toxicity of Silver Compounds: Laboratory Studies with Freshwater Species|Bull. Environ. Contam. Toxicol.58:851-858|1997|10.1007/s001289900412
17982|A||Najimi,S., A. Bouhaimi, M. Daubeze, A. Zekhnini, J. Pellerin, J.F. Narbonne, and A. Moukrim|Use of Acetycholinesterase in Perna perna and Mytilus galloprovincialis as a Biomarker of Pollution in Agadir Marine Bay (South of Morocco)|Bull. Environ. Contam. Toxicol.58:901-908|1997|10.1007/s001289900419
17983|A||Calumpang,S.M.F., M.J.B. Medina, A.W. Tejada, and J.R. Medina|Toxicity of Chlorpyrifos, Fenubucarb, Monocrotophos, and Methyl Parathion to Fish and Frogs After a Simulated Overflow of Paddy Water|Bull. Environ. Contam. Toxicol.58(6): 909-914|1997|10.1007/s001289900420
17984|A||Srivastav,A.K., S.K. Srivastava, and A.K. Srivastava|Response of Serum Calcium and Inorganic Phosphate of Freshwater Catfish, Heteropneustes fossilis, to Chlorpyrifos|Bull. Environ. Contam. Toxicol.58:915-921|1997|10.1007/s001289900421
17985|A||Saenz,M.E., J.L. Alberdi, W.D. Di Marzio, J. Accorinti, and M.C. Tortorelli|Paraquat Toxicity to Different Green Algae|Bull. Environ. Contam. Toxicol.58:922-928|1997|10.1007/s001289900422
17986|A||Salvado,H., M.P. Gracia, J.M. Amigo, and M. Rius|Effects of Cadmium on Growth and Motility in Euplotes aediculatus Isolated from Activated Sludge|Bull. Environ. Contam. Toxicol.58:838-844|1997|10.1007/s001289900410
17987|A||Pablo,F., R.T. Buckney, and R.P. Lim|Toxicity of Cyanide, Iron-Cyanide Complexes, and a Blast-Furnace Effluent to the Banana Prawn, Penaeus monodon|Bull. Environ. Contam. Toxicol.58:822-829|1997|10.1007/s001289900408
17988|A||Sabater,C., and J.M. Carrasco|Effects of Chlorsulfuron on Growth of Three Freshwater Species of Phytoplankton|Bull. Environ. Contam. Toxicol.58:807-813|1997|10.1007/s001289900406
17989|A||Tsuda,T., M. Kojima, H. Harada, A. Nakajima, and S. Aoki|Acute Toxicity, Accumulation, and Excretion of Benthiocarb and Its Degradation Products in Killifish|Bull. Environ. Contam. Toxicol.58:603-610|1997|10.1007/s001289900377
17990|A||Zou,E., and M. Fingerman|Synthetic Estrogenic Agents do not Interfere with Sex Differentiation but do Inhibit Molting of the Cladoceran Daphnia magna|Bull. Environ. Contam. Toxicol.58:596-602|1997|10.1007/s001289900376
17991|A||Mwatibo,J.M., and J.D. Green|Effects of Methoxychlor Pre-Exposure on Sea Urchin Gametes|Bull. Environ. Contam. Toxicol.58:589-595|1997|10.1007/s001289900375
17993|A||Fernandez-Pinas,F., P. Mateo, and I. Bonilla|Effect of Cadmium on the Bioelement Composition of Nostoc UAM208: Interaction with Calcium|Bull. Environ. Contam. Toxicol.58:543-549|1997|10.1007/s001289900369
18000|A||Chen,X., Y. Zhang, A. Zhou, and W. Zhang|Subacute Toxicity of Dimehypo to Carp|Aquat. Sci. Fish. Abstr.:1 p. |1995|
18002|A||Water Pollution Research Laboratory|Control of Aquatic Weeds|In: Water Pollution Research 1966, Ministry of Technology, London, England:40-44|1967|
18003|A||Reddy,P.S., L.K. Nguyen, P. Obih, and M. Fingerman|Effect of Cadmium Chloride on the Distal Retinal Pigment Cells of the Fiddler Crab, Uca pugilator|Bull. Environ. Contam. Toxicol.58(3): 504-510|1997|10.1007/s001289900363
18004|A||Basack,S.B., M.L. Oneto, N.R. Verrengia Guerrero, and E.M. Kesten|Accumulation and Elimination of Pentachlorophenol in the Freshwater Bivalve Corbicula fluminea|Bull. Environ. Contam. Toxicol.58(3): 497-503|1997|10.1007/s001289900362
18005|A||Li,Q., M. Osada, K. Takahashi, T. Matsutani, and K. Mori|Accumulation and Depuration of Tributyltin Oxide and Its Effect on the Fertilization and Embryonic Development in the Pacific Oyster, Crassostrea gigas|Bull. Environ. Contam. Toxicol.58(3): 489-496|1997|10.1007/s001289900361
18006|A||Sparling,D.W., T.P. Lowe, and A.E. Pinkney|Toxicity of Abate to Green Frog Tadpoles|Bull. Environ. Contam. Toxicol.58(3): 475-481|1997|10.1007/s001289900359
18007|A||Law,A.T., and M.E. Yeo|Toxicity of Phenol on Macrobrachium rosenbergii (de Man) Eggs, Larvae, and Post-Larvae|Bull. Environ. Contam. Toxicol.58(3): 469-474|1997|10.1007/s001289900358
18008|A||Zou,E.|Effects of Sublethal Exposure to Zinc Chloride on the Reproduction of the Water Flea, Moina irrasa (Cladocera)|Bull. Environ. Contam. Toxicol.58(3): 437-441|1997|10.1007/s001289900353
18009|A||Meador,J.P., E. Casillas, C.A. Sloan, and U. Varanasi|Comparative Bioaccumulation of Polycyclic Aromatic Hydrocarbons from Sediment by Two Infaunal Invertebrates|Mar. Ecol. Prog. Ser.123:107-124|1995|10.3354/meps123107
18010|A||Besser,J.M., J.A. Kubitz, C.G. Ingersoll, W.E. Braselton, and J.P. Giesy|Influences on Copper Bioaccumulation, Growth, and Survival of the Midge, Chironomus tentans, in Metal-Contaminated Sediments|J. Aquat. Ecosyst. Health4(3): 157-168|1995|10.1007/BF00116651
18011|A||Joaquim-Justo,C., V. Gosselain, J.P. Descy, and J.P. Thome|Relative Importance of the Trophic and Direct Pathways on PCB Contamination in the Rotifer Species Brachionus calyciflorus (Pallas)|Hydrobiologia (Multiple Languages)313/314:249-257|1995|10.1007/BF00025957
18012|A||Horst,M.N., and A.N. Walker|Biochemical Effects of Diflubenzuron on Chitin Synthesis in the Postmolt Blue Crab Callinectes sapidus|J. Crustac. Biol.15(3): 401-408|1995|10.2307/1548761
18014|A||Oshida,P.S.|Toxicity of a Chlorinated Benzene to Sea Urchin Embryos|In: Annual Report.Southern California Coastal Water Research Project:187-192|1978|
18019|A||Sawada,N., and H. Ohtsu|Poisonous Effects of Some Detergents on the Fertilization and on the Spicule Formation of Sea Urchin Larvae|Mem. Ehime Univ. Sci. Ser. B Biol.7(4): 15-21|1975|
18020|A||Sawada,N., and H. Ohtsu|Inhibitory Effects of Oil Dispersants on the Fertilization of Sea Urchin Eggs|Mem. Ehime Univ. Sci. Ser. B Biol.7(4): 11-14|1975|
18021|A||Huang,B.Q., and D.Y. Wang|Corneal Damage in Young Tigerperch (Terapon jarbua) Exposed to the Surfactant Linear Alkylbenzene Sulfonate (LAS)|Zool. Stud.34(1): 41-46|1995|
18022|A||Alkahem,H.F.|Acute and Sublethal Exposure of Catfish (Clarias gariepinus) to Cadmium Choride: Survival, Behavioural and Physiological Responses|Pak. J. Zool.27(1): 33-37|1995|
18023|A||Kreutzweiser,D.P., and D.R. Thomas|Effects of a New Molt-Inducing Insecticide, Tebufenozide, on Zooplankton Communities in Lake Enclosures|Ecotoxicology4(5): 307-328|1995|10.1007/BF00118597
18024|A||Ankley,G.T., K. Liber, D.J. Call, T.P. Markee, T.J. Canfield, and C.G. Ingersoll|A Field Investigation of the Relationship Between Zinc and Acid Volatile Sulfide Concentrations in Freshwater Sediments|J. Aquat. Ecosyst. Health5:255-264|1996|10.1007/BF00662186
18025|AT||Radhakrishnaiah,K., B. Sivaramakrishna, A. Suresh, and P. Chamundeswari|Pesticidal Impact on the Protein Metabolism of Freshwater Field Crab, Oziotelphusa senex senex (Fabricius)|Biomed. Environ. Sci.8(2): 137-148|1995|
18026|A||Luoma,S.N., Y.B. Ho, and G.W. Bryan|Fate, Bioavailability and Toxicity of Silver in Estuarine Environments|Mar. Pollut. Bull.31(1-3): 44-54|1995|10.1016/0025-326X(95)00081-W
18027|A||Zhang,Y.S., and D. Schlenk|Induction and Characterization of Hepatic Metallothionein Expression from Cadmium-Induced Channel Catfish (Ictalurus punctatus)|Environ. Toxicol. Chem.14(8): 1425-1431|1995|
18028|A||Pesch,C.E., D.J. Hansen, W.S. Boothman, W.J. Berry, and J.D. Mahony|The Role of Acid-Volatile Sulfide and Interstitial Water Metal Concentrations in Determining Bioavailability of Cadmium and Nickel from Contaminated Sediments to the Marine Polychaete Neanthes arenaceodentata|Environ. Toxicol. Chem.14(1): 129-141|1995|
18029|A||Duquesne,S., and A. Richard|The Presence of Metallothionein-Like Proteins in the Liver of Two Species of Flatfish: Limanda limanda and Microstomus kitt|Oceanol. Acta18(1): 129-133|1995|
18030|A||Guiney,P.D., P.M. Cook, J.M. Casselman, J.D. Fitzsimmons, H.A. Simonin, E.W. Zabel, and R.E. Peterson|Assessment of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induced Sac Fry Mortality in Lake Trout (Salvelinus namaycush) from Different Regions of the Great Lakes|Can. J. Fish. Aquat. Sci.53(9): 2080-2092|1996|
18031|A||Servos,M.R., and D.C.G. Muir|Effect of Dissolved Organic Matter from Canadian Shield Lakes on the Bioavailability of 1,3,6,8-Tetrachlorodibenzo-p-Dioxin to the Amphipod Crangonyx laurentianus|Environ. Toxicol. Chem.8:141-150|1989|
18034|A||Langeland,K.A.|Hydrilla tuber Formation in Response to Single and Sequential Bensulfuron Methyl Exposure at Different Times|Hydrobiologia (Multiple Languages)340(1-3): 247-251|1996|10.1007/BF00012763
18035|A||Hourdakis,A., K. Machera, and E. Anagnostopoulos|Dodine in Contaminated Waste Water Biological Treatment Plant Determination and Toxicity in Aquatic Organisms|Fresenius Environ. Bull.4(11): 679-684|1995|
18036|A||Brown,C.L., and S.N. Luoma|Use of the Euryhaline Bivalve Potamocorbula amurensis as a Biosentinel Species to Assess Trace Metal Contamination in San Francisco Bay|Mar. Ecol. Prog. Ser.124(1-3): 129-142|1995|10.3354/meps124129
18037|A||Kleinow,K.M., A.A. Smith, A.E. McElroy, and J.E. Wiles|Role of the Mucous Surface Coat, Dietary Bulk and Mucosal Cell Turnover in the Intestinal Disposition of Benzo(a)pyrene (BaP)|Mar. Environ. Res.42(1-4): 65-73|1996|10.1016/0141-1136(95)00039-9
18038|A||Hansen,I.V., J.M. Weeks, and M.H. Depledge|Accumulation of Copper, Zinc, Cadmium and Chromium by the Marine Sponge Halichondria panicea Pallas and the Implications for Biomonitoring|Mar. Pollut. Bull.31(1-3): 133-138|1995|10.1016/0025-326X(94)00228-2
18039|A||Peither,A., I. Juttner, A. Kettrup, and J.P. Lay|A Pond Mesocosm Study to Determine Direct and Indirect Effects of Lindane on a Natural Zooplankton Community|Environ. Pollut.93(1): 49-56|1996|10.1016/0269-7491(96)00015-2
18040|A||Julliard,A.K., D. Saucier, and L. Astic|Metal X-Ray Microanalysis in the Olfactory System of Rainbow Trout Exposed to Low Level of Copper|Biol. Cell.83(1): 77-86|1995|10.1016/0248-4900(96)89934-5
18041|A||Knezovich,J.P., and F.L. Harrison|The Bioavailability of Sediment-Sorbed Chlorobenzenes to Larvae of the Midge, Chironomus decorus|Ecotoxicol. Environ. Saf.15:226-241|1988|10.1016/0147-6513(88)90076-0
18042|A||Burton,T.M., and J.W. Allan|Influence of pH, Aluminum, and Organic Matter on Stream Invertebrates|Can. J. Fish. Aquat. Sci.43:1285-1289|1986|10.1139/f86-159
18043|A||Murthy,S.D.S., S.C. Sabat, and P. Mohanty|Mercury-Induced Inhibition of Photosystem II Activity and Changes in the Emission of Fluorescence from Phycobilisomes in Intact Cells of the Cyanobacterium, Spirulina platensis|Plant Cell Physiol.30(8): 1153-1157|1989|10.1093/oxfordjournals.pcp.a077858
18044|A||Wang,D.Y., and B.Q. Huang|Hematological Effects of Detergent LAS Toxicity in Young Thornfish, Terapon jarbua|J. Fish. Soc. Taiwan22(2): 163-168|1995|
18045|A||Huang,B.Q., and D.Y. Wang|Effects of Linear Alkylbenzene Sulfonate (LAS) on the Respiratory Functions of Tigerperch (Terapon Jarbua)|Zool. Stud.33(3): 205-210|1994|
18046|A||Wang,D.Y., and B.Q. Huang|Effects of LAS on the Membrane Potential of Gill Epithelium in Young Tigerperch (Terapon jarbua)|Zool. Stud.33(2): 170-173|1994|
18047|A||Julliard,A.K., D. Saucier, and L. Astic|Time-Course of Apoptosis in the Olfactory Epithelium of Rainbow Trout Exposed to a Low Copper Level|Tissue Cell28(3): 367-377|1996|10.1016/S0040-8166(96)80023-1
18048|A||Ankley,G.T., R.J. Erickson, B.R. Sheedy, P.A. Kosian, V.R. Mattson, and J.S. Cox|Evaluation of Models for Predicting the Phototoxic Potency of Polycyclic Aromatic Hydrocarbons|Aquat. Toxicol.37:37-50|1997|10.1016/S0166-445X(96)00803-X
18049|A||Creton,R., G. Zwaan, and R. Dohmen|High pH Prevents Retinoic Acid-Induced Teratogenesis|Int. J. Dev. Biol.39(2): 409-414|1995|
18050|A||Kersting,K.|Problems Induced by the use of Acetone as a Solvent to Dose Chlorpyrifos in a Microecosystem|Environ. Toxicol. Chem.14(6): 1061-1063|1995|10.1002/etc.5620140617
18051|A||Hansen,S.N., and P. Bjerregaard|Manganese Kinetics in the Sea Star Asterias rubens (L.) Exposed via Food or Water|Mar. Pollut. Bull.31(1-3): 127-132|1995|10.1016/0025-326X(94)00259-C
18052|A||Millward,R.N., and A. Grant|Assessing the Impact of Copper on Nematode Communities from a Chronically Metal-Enriched Estuary Using Pollution-Induced Community Tolerance|Mar. Pollut. Bull.30(11): 701-706|1995|10.1016/0025-326X(95)00053-P
18053|A||Lawson,S.L., M.B. Jones, and R.M. Moate|Effect of Copper on the Ultrastructure of the Gill Epithelium of Carcinus maenas (Decapoda: Brachyura)|Mar. Pollut. Bull.31(1-3): 63-72|1995|10.1016/0025-326X(95)00075-X
18054|A||Murthy,S.D.S., and P. Mohanty|Time-Dependent Alterations in the Antenna Pigment-Protein Complex by Mercury Ions in the Cyanobacterium Spirulina platensis|BioMetals6:45-48|1993|
18056|A||Roth,M., R.H. Richards, and C. Sommerville|Preliminary Studies on the Efficacy of Two Pyrethoid Compounds, Resmethrin and Lambdacyhalothrin, for the Treatment of Sea Lice (Lepeophtheirus salmonis) Infestations of Atlantic Salmon (Salmo salar)|Aquat. Sci. Fish. Abstr.24(6, Pt.1): 209-210|1994|
18057|A||Gascon,C., D. Planas, and G. Moreau|The Interaction of pH, Calcium and Aluminium Concentrations on the Survival and Development of Wood Frog (Rana sylvatica) Eggs and Tadpoles|Ann. Soc. R. Zool. Belg.117:189-199|1987|
18058|A||Department of Interior,U.S.|Annual Progress Report: 1974-1975|Annu.Prog.Rep.:1974-|1975|
18059|A||Lech,J.J., S.K. Lewis, M.A. Friedman, L.A. Johnson, and L.M. Mende-Mueller|Binding of Acrylonitrile to Parvalbumin|Fundam. Appl. Toxicol.29(2): 260-266|1996|10.1006/faat.1996.0030
18061|A||Nowak,B., A. Goodsell, and M. Julli|Residues of Endosulfan in Carp as an Indicator of Exposure Conditions|Ecotoxicology4(6): 363-371|1995|10.1007/BF00118871
18062|A||Santos,M.A., and M. Pacheco|Mutagenicity of Cyclophosphamide and Kraft Mill Effluent and Sediment on the Eel Anguilla anguilla L.|Sci. Total Environ.171(1-3): 127-130|1995|10.1016/0048-9697(95)04696-1
18063|A||Laitinen,M., and T. Valtonen|Cardiovascular, Ventilatory and Haematological Responses of Brown Trout (Salmo trutta L.), to the Combined Effects of Acidity and Aluminium in Humic|Aquat. Toxicol.31(2): 99-112|1995|10.1016/0166-445X(94)00060-4
18064|A||Donohoe,R.M., and L.R. Curtis|Estrogenic Activity of Chlordecone, o,p'-DDT and o,p'-DDE in Juvenile Rainbow Trout: Induction of Vitellogenesis and Interaction with Hepatic|Aquat. Toxicol.36(1/2): 31-52|1996|10.1016/S0166-445X(96)00799-0
18065|A||Poleo,A.B.S., S.A. Oxneyad, K. Ostbye, R.A. Andersen, D.H. Oughton, and L.A. Vollestad|Survival of Crucian Carp, Carassius carassius, Exposed to a high Low-Molecular Weight Inorganic Aluminium Challenge|Aquat. Sci.57(4): 350-359|1995|10.1007/BF00878398
18066|A||Campbell,P.M., and R.H. Devlin|Expression of CYP1A1 in Livers and Gonads of Pacific Salmon: Quantitation of mRNA Levels by RT-cPCR|Aquat. Toxicol.34(1): 47-69|1996|10.1016/0166-445X(95)00032-Y
18067|A||Pacheco,M., and M.A. Santos|Induction of Micronuclei and Nuclear Abnormalities in the Erythrocytes of Anguilla anguilla L. Exposed Either to Cyclophosphamide or to Bleached Kraft|Fresenius Environ. Bull.5:746-751|1996|
18068|A||Buckley,J.A., K.P. Rustagi, and J.D. Laughlin|Response of Lemna minor to Sodium Chloride and a Statistical Analysis of Continuous Measurements for EC50 and 95 % Confidence Limits Calculation|Bull. Environ. Contam. Toxicol.57(6): 1003-1008|1996|10.1007/s001289900290
18069|T||Jacobsen,T.|Acute Toxicity of 16 Water-Soluble Chemicals to the Fungus Geotrichum candidum Measured by Reduction in Glucose Uptake|Toxicol. In Vitro9(2): 169-173|1995|10.1016/0887-2333(94)00208-C
18070|A||Ghillebaert,F., D. Prodorutti, C. Chaillou, and P. Roubaud|Deltamethrin Lethal Multifactorial Activity Toward Carp Larva Related to pH, Calcium, and Humic Acid Concentrations|Ecotoxicol. Environ. Saf.35:24-37|1996|10.1006/eesa.1996.0078
18071|A||Duxbury,C.L., D.G. Dixon, and B.M. Greenberg|Effects of Simulated Solar Radiation on the Bioaccumulation of Polycyclic Aromatic Hydrocarbons by the Duckweed Lemna gibba|Environ. Toxicol. Chem.16:1739-1748|1997|10.1002/etc.5620160824
18072|A||Metcalfe,C.D., T.L. Metcalfe, J.A. Cormier, S.Y. Huestis, and A.J. Niimi|Early Life-Stage Mortalities of Japanese Medaka (Oryzias latipes) Exposed to Polychlorinated Diphenyl Ethers|Environ. Toxicol. Chem.16(8): 1749-1754|1997|
18073|A||Siesko,M.M., W.J. Fleming, and R.M. Grossfeld|Stress Protein Synthesis and Peroxidase Activity in a Submersed Aquatic Macrophyte Exposed to Cadmium|Environ. Toxicol. Chem.16(8): 1755-1760|1997|10.1002/etc.5620160826
18074|A||Ghillebaert,F., D. Prodorutti, C. Chaillou, and P. Roubaud|Deltamethrin Multifactorial Activity Toward Carp Larva Mobility Related to Calcium, Humic Acids, and pH|Ecotoxicol. Environ. Saf.35:268-276|1996|10.1006/eesa.1996.0110
18075|A||Huang,X.D., B.J. McConkey, T.S. Babu, and B.M. Greenberg|Mechanisms of Photoinduced Toxicity of Photomodified Anthracene to Plants: Inhibition of Photosynthesis in the Aquatic Higher Plant Lemna gibba|Environ. Toxicol. Chem.16(8): 1707-1715|1997|
18076|A||Reed-Judkins,D.K., J.L. Farris, D.S. Cherry, A.G. Heath, and J.,Jr. Cairns|Functional Responses in Leptoxis praerosa to Increasing Metal Concentration and Exposure Duration|Environ. Toxicol. Chem.16(8): 1666-1676|1997|10.1002/etc.5620160815
18077|A||Dorn,P.B., J.H.,Jr. Rodgers, W.B.,Jr. Gillespie, R.E.,Jr. Lizotte, and A.W. Dunn|The Effects of a C12-13 Linear Alcohol Ethoxylate Surfactant on Periphyton, Macrophytes, Invertebrates and Fish in Stream Mesocosms|Environ. Toxicol. Chem.16(8): 1634-1645|1997|10.1002/etc.5620160811
18078|A||Kusk,K.O., and S. Petersen|Acute and Chronic Toxicity of Tributyltin and Linear Alkylbenzene Sulfonate to the Marine Copepod Acartia tonsa|Environ. Toxicol. Chem.16(8): 1629-1633|1997|10.1002/etc.5620160810
18079|A||Ramesha,A.M., T.R.C. Gupta, C. Lingdhal, K.V.B. Kumar, G. Gowda, and K.S. Udupa|Combined Toxicity of Mercury and Cadmium to the Common Carp Cyprinus carpio (Linn.)|Environ. Ecol.15(1): 194-198|1997|
18080|A||Erben,R.|Effects of Some Petrochemical Products on the Survival of Dicranophorus forcipatus O.F. Muller (Rotatoria) Under Laboratory Conditions|Verh. Int. Ver. Theor. Angew. Limnol.20:1988-1991|1978|
18081|A||Rasmussen,A.D., A. Krag, P. Bjerregaard, J.M. Weeks, and M.H. Depledge|The Effects of Trace Metals on the Apparent Water Permeability of the Shore Crab Carcinus maenas (L.) and the Brown Shrimp Crangon crangon (L.)|Mar. Pollut. Bull.31(1-3): 60-62|1995|10.1016/0025-326X(95)00030-Q
18082|A||Neeraja,P., and K. Santhi|Effect of Ammonium Sulphate on the Levels of Phosphatases in the Liver and Kidney of the Fresh Water Fish, Oreochromis mossambicus|Proc. Acad. Environ. Biol.1(1): 57-60|1992|
18083|A||Curtis,L.R., Q. Zhang, C. El Zahr, H.M. Carpenter, C.L. Miranda, D.R. Buhler, and D.P. Selivonchick|Temperature-Modulated Incidence of Aflatoxin B1-Initiated Liver Cancer in Rainbow Trout|Fundam. Appl. Toxicol.25:146-153|1995|10.1006/faat.1995.1048
18084|A||Pennacchioni,A., R. Marchetti, and G.F. Gaggino|Inability of Fish to Methylate Mercuric Chloride In Vivo|J. Environ. Qual.5(4): 451-454|1976|10.2134/jeq1976.00472425000500040027x
18085|A||Schlenk,D.|Use of Aquatic Organisms as Models to Determine the In Vivo Contribution of Flavin-Containing Monooxygenases in Xenobiotic Biotransformation|Mol. Mar. Biol. Biotechnol.4(4): 323-330|1995|
18086|A||Kumar,N., J. Kumari, and M. Fasihuddin|Arylesterase Inhibition by Malathion in Muscles and Plasma of an Air-Breathing Fish Heteropneustes fossilis (Bloch)|Himalayan J. Environ. Zool.9:31-33|1995|
18088|A||Chevalier,G., A. Hontela, and K. Lederis|Acidity and Aluminium Effects on Osmo-Iono-Regulation in the Brook Trout|In: R.Perry, R.M.Harrison, J.N.B.Bell, and J.N.Lester (Eds.), Acid Rain: Scientific and Technical Advances, Selper Ltd., London:497-499|1987|
18089|A||Ruparelia,S.G., Y. Verma, M.C. Hargan, K. Venkaiah, and P.K. Kulkarni|Toxicity of Synthetic Pyrethroid (Cypermethrin) to Chichlid (Sarotherodon mossambicus) and Daphnid (Daphnia magna)|Indian J. Environ. Prot.15(6): 415-419|1995|
18093|A||Fairchild,J.F., D.S. Ruessler, P.S. Haverland, and A.R. Carlson|Comparative Sensitivity of Selenastrum capricornutum and Lemna minor to Sixteen Herbicides|Arch. Environ. Contam. Toxicol.32(4): 353-357|1997|10.1007/s002449900196
18095|A||Suedel,B.C., T.M. Dillon, and W.H. Benson|Subchronic Effects of Five di-Ortho PCB Congeners on Survival, Growth and Reproduction in the Fathead Minnow Pimephales promelas|Environ. Toxicol. Chem.16(7): 1526-1532|1997|
18096|A||Loonen,H., D.C.G. Muir, J.R. Parsons, and H.A.J. Govers|Bioaccumulation of Polychlorinated Dibenzo-p-Dioxins in Sediment by Oligochaetes: Influence of Exposure Pathway and Contact Time|Environ. Toxicol. Chem.16(7): 1518-1525|1997|
18097|A||Schweitzer,L.E., J.E. Hose, I.H. Suffet, and S.M. Bay|Differential Toxicity of Three Polychlorinated Biphenyl Congeners in Developing Sea Urchin Embryos|Environ. Toxicol. Chem.16(7): 1510-1514|1997|10.1002/etc.5620160726
18098|A||Van Dolah,R.F., P.P. Maier, M.H. Fulton, and G.I. Scott|Comparison of Azinphosmethyl Toxicity to Juvenile Red Drum (Sciaenops ocellatus) and the Mummmichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.16(7): 1488-1493|1997|10.1002/etc.5620160723
18099|A||Diamond,J.M., C. Gerardi, E. Leppo, and T. Miorelli|Using a Water-Effect Ratio Approach to Establish Effects of an Effluent-Influenced Stream on Copper Toxicity to the Fathead Minnow|Environ. Toxicol. Chem.16(7): 1480-1487|1997|
18100|A||Petrivalsky,M., M. Machala, K. Nezveda, V. Piacka, Z. Svobodova, and P. Drabek|Glutathione-Dependent Detoxifying Enzymes in Rainbow Trout Liver: Search for Specific Biochemical Markers of Chemical Stress|Environ. Toxicol. Chem.16(7): 1417-1421|1997|
18101|A||Lemke,M.A., and C.J. Kennedy|The Uptake, Distribution and Metabolism of Benzo(a)pyrene in Coho Salmon (Oncorhynchus kisutch) During the Parr-Smolt Transformation|Environ. Toxicol. Chem.16(7): 1384-1388|1997|
18102|A||McDonald,S.F., S.J. Hamilton, K.J. Buhl, and J.F. Heisinger|Acute Toxicity of Fire-Retardant and Foam-Suppressant Chemicals to Hyalella azteca (Saussure)|Environ. Toxicol. Chem.16(7): 1370-1376|1997|
18103|A||Chen,C.Y., and K.C. Lin|Optimization and Performance Evaluation of the Continuous Algal Toxicity Test|Environ. Toxicol. Chem.16(7): 1337-1344|1997|10.1002/etc.5620160701
18104|A||Schulte-Oehlmann,U., C. Bettin, P. Fioroni, J. Oehlmann, and E. Stroben|Marisa cornuarietis (Gastropoda, Prosobranchia): A Potential TBT Bioindicator for Freshwater Environments|Ecotoxicology4(6): 372-384|1995|10.1007/BF00118872
18105|T||Hunt,E.G., and J.O. Keith|Pesticide-Wildlife Investigations in California - 1962|Proc. 2nd Annu. Conf. on the Use of Agricultural Chemicals in California - a Summary of the Problems and Progress in Solving Them, Univ. of California, Davis, CA:29 p.|1962|
18106|AT||Pearce,P.A., and A.M. Rick|Effects of Zectran Spraying on Forest Birds and Frogs in New Brunswick.  A.  Effect on Birds  B.  Effects on Frogs|Can.Dep.Indian Affairs and Nor.Dev., Can.Wildl.Serv., Pestic.Section., Report No.18:16 p.|1969|
18107|A||Maloney,R.F.|Effect of the Herbicide Triclopyr on the Abundance and Species Composition of Benthic Aquatic Macroinvertebrates in the Ahuriri River, New Zealand|N. Z. J. Mar. Freshw. Res.29(4): 505-515|1995|10.1080/00288330.1995.9516683
18108|A||Kumar,N., J. Kumari, P.K. Verma, and M. Fasihuddin|Malathion Induced Qualitative and Quantitative Changes in Plasma Protein of an Air-Breathing Fish Heteropneustes fossilis (Bloch)|Environ. Ecol.13(3): 611-613|1995|
18109|A||Klauda,R.J.|Acute and Chronic Effects of Waterborne Arsenic and Selenium on the Early Life Stages of Striped Bass (Morone saxatilis)|Rep.No.JHU/APL PPRP-98, Rep.to Maryland Power Plant Siting Program, John Hopkins University, Laurel, MD:209 p.|1986|
18110|A||Chu,S., Z. Xi, X. Xu, Y. Zhang, and Y. Xu|Induction of Micronuclei in Peripheral Erythrocytes of Misgurnus anguillicaudatus by Polychlorinated Biphenyls|Bull. Environ. Contam. Toxicol.57(2): 179-182|1996|10.1007/s001289900172
18111|A||Goodwin,A.E., and J.M. Grizzle|Oncogene Expression in Hepatocytes of the Fish Rivulus ocellatus marmoratus During the Necrotic and Regenerative Phases of Diethylnitrosamine Toxicity|Carcinogenesis15(9): 1985-1992|1994|10.1093/carcin/15.9.1985
18112|A||MacLatchy,D.L., and G.J. Van der Kraak|The Phytoestrogen beta-Sitosterol Alters the Reproductive Endocrine Status of Goldfish|Toxicol. Appl. Pharmacol.134(2): 305-312|1995|10.1006/taap.1995.1196
18113|A||Atland,A., and B.T. Barlaup|Avoidance Behaviour of Atlantic Salmon (Salmo salar L.) Fry in Waters of Low pH and Elevated Aluminum Concentration: Laboratory Experiments|Can. J. Fish. Aquat. Sci.53(8): 1827-1834|1996|10.1139/f96-112
18114|A||Kukkonen,J., and P.F. Landrum|Measuring Assimilation Efficiencies for Sediment-Bound PAH and PCB Congeners by Benthic Organisms|Aquat. Toxicol.32(1): 75-92|1995|10.1016/0166-445X(94)00077-4
18115|A||Fox,A.M., W.T. Haller, and D.G. Shilling|Hydrilla Control with Split Treatments of Fluridone in Lake Harris, Florida|Hydrobiologia (Multiple Languages)340(1-3): 235-239|1996|10.1007/BF00012761
18116|A||Okamoto,O.K., C.S. Asano, E. Aidar, and P. Colepicolo|Effects of Cadmium on Growth and Superoxide Dismutase Activity of the Marine Microalga Tetraselmis gracilis (Prasinophyceae)|J. Phycol.32(1): 74-79|1996|10.1111/j.0022-3646.1996.00074.x
18117|A||Findlay,D.L., S.E.M. Kasian, and E.U. Schindler|Long-Term Effects of Low Cadmium Concentrations on a Natural Phytoplankton Community|Can. J. Fish. Aquat. Sci.53(8): 1903-1912|1996|10.1139/f96-120
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18340|A||Chu,K.H., C.K. Wong, and K.C. Chiu|Effects of the Insect Growth Regulator (S)-Methoprene on Survival and Reproduction of the Freshwater Cladoceran Moina macrocopa|Environ. Pollut.96(2): 173-178|1997|10.1016/S0269-7491(97)00030-4
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18420|A||Suedel,B.C., J.H.,Jr. Rodgers, and E. Deaver|Experimental Factors that may Affect Toxicity of Cadmium to Freshwater Organisms|Arch. Environ. Contam. Toxicol.33(2): 188-193|1997|10.1007/s002449900241
18421|A||Nassiri,Y., J. Wery, J.L. Mansot, and T. Ginsburger-Vogel|Cadmium Bioaccumulation in Tetraselmis suecica: An Electron Energy Loss Spectroscopy (EELS) Study|Arch. Environ. Contam. Toxicol.33:156-161|1997|10.1007/s002449900237
18422|A||Nassiri,Y., J.L. Mansot, J. Wery, T. Ginsburger-Vogel, and J.C. Amiard|Ultrastructural and Electron Energy Loss Spectroscopy Studies of Sequestration Mechanisms of Cd and Cu in the Marine Diatom Skeletonema costatum|Arch. Environ. Contam. Toxicol.33(2): 147-155|1997|10.1007/s002449900236
18423|A||Xiaorong,W., J. Mei, S. Hao, and X. Ouyong|Effects of Chelation on the Bioconcentration of Cadmium and Copper by Carp (Cyprinus carpio L.)|Bull. Environ. Contam. Toxicol.59(1): 120-124|1997|10.1007/s001289900453
18424|A||Martens,D.W., R.W. Gordon, and J.A. Servizi|Toxicity of Butoxyethyl Ester of 2,4-D to Selected Salmon and Trout|Prog.Rep.No.40, International Pacific Salmon Fish.Comm., New Westminster, B.C.:18 p.|1980|
18425|A||Matta,M.B., C. Cairncross, and R.M. Kocan|Effect of a Polychlorinated Biphenyl Metabolite on Early Life Stage Survival of Two Species of Trout|Bull. Environ. Contam. Toxicol.59(1): 146-151|1997|10.1007/s001289900457
18426|A||Venugopal,N.B.R.K., T.V.D. Ramesh, D.S. Reddy, and S.L.N. Reddy|Effect of Cadmium on Antioxidant Enzyme Activities and Lipid Peroxidation in a Freshwater Field Crab, Barytelphusa guerini|Bull. Environ. Contam. Toxicol.59(1): 132-138|1997|10.1007/s001289900455
18427|A||Badr,S.A., and H.F. Abou-Waly|Growth Response of Freshwater Algae to Continuous Flow of Terbutryn|Bull. Environ. Contam. Toxicol.59(2): 298-305|1997|10.1007/s001289900479
18428|A||Huber,M., M.C. Pelletier, J.B. Charles, and R.M. Burgess|Ammonia Tolerance of the Bivalve Mulinia lateralis Sublethal Sediment Toxicity Test|Bull. Environ. Contam. Toxicol.59(2): 292-297|1997|10.1007/s001289900478
18429|A||Lee,R.F., A.O. Valkirs, and P.F. Seligman|Importance of Microalgae in the Biodegradation of Tributyltin in Estuarine Waters|Environ. Sci. Technol.23:1515-1518|1989|10.1021/es00070a010
18430|A||Stroben,E., J. Oehlmann, and P. Fioroni|Hinia reticulata and Nucella lapillus. Comparison of Two Gastropod Tributyltin Bioindicators|Mar. Biol.114(2): 289-296|1992|10.1007/BF00349532
18431|A||Baldwin,W.S., D.L. Milam, and G.A. LeBlanc|Physiological and Biochemical Perturbations in Daphnia magna Following Exposure to the Model Environmental Estrogen Diethylstilbestrol|Environ. Toxicol. Chem.14(6): 945-952|1995|10.1002/etc.5620140604
18432|A||Dahl,B., and H. Blanck|Toxic Effects of the Antifouling Agent Irgarol 1051 on Periphyton Communities in Coastal Water Microcosms|Mar. Pollut. Bull.32(4): 342-350|1996|10.1016/0025-326X(96)84828-4
18433|A||Stevens,M.M., and G.N. Warren|Control of Chironomid Larvae (Diptera: Chironomidae) in Establishing Rice Crops Using Starch-Based Chlorpyrifos Pellets|Am. Mosq. Control Assoc. J.11(2): 206-210|1995|
18434|A||Ewald,G., P. Sundin, J. Skramstad, and P. Froyen|Distribution of 14C from Ingested, Radiolabelled Dichlorostearic, Stearic and Oleic Acids in Body and in Lipids of Perch, Perca fluviatilis|Aquat. Toxicol.36(1/2): 129-139|1996|10.1016/S0166-445X(96)00009-4
18435|A||Cima,F., L. Ballarin, G. Bressa, G. Martinucci, and P. Burighel|Toxicity of Organotin Compounds on Embryos of a Marine Invertebrate (Styela plicata; Tunicata)|Ecotoxicol. Environ. Saf.35(2): 174-182|1996|10.1006/eesa.1996.0097
18436|A||Wong,C.K., J.K.Y. Cheung, and K.H. Chu|Effects of Copper on Survival, Development and Growth of Metapenaeus ensis Larvae and Postlarvae (Decapoda:  Penaeidae)|Mar. Pollut. Bull.31(4-12): 416-419|1995|10.1016/0025-326X(95)00142-A
18437|A||Bhattacharya,S.|A Comparative Study of Fish Brain Acetylcholinesterase: In Vivo and In Vitro Effects of Carbofuran|Adv. Environ. Res.:61-66|1982|
18438|A||Otto,D.M.E., and T.W. Moon|3,3',4,4'-Tetrachlorobiphenyl Effects on Antioxidant Enzymes and Glutathione Status in Different Tissues of Rainbow Trout|Pharmacol. Toxicol.77(4): 281-287|1995|10.1111/j.1600-0773.1995.tb01028.x
18439|A||Pagano,G., E. His, R. Beiras, A. De Biase, L.G. Korkina, M. Iaccarino, R. Oral, F. Quiniou, and M. Warnau|Cytogenetic, Developmental, and Biochemical Effects of Aluminum, Iron, and Their Mixture in Sea Urchins and Mussels|Arch. Environ. Contam. Toxicol.31(4): 466-474|1996|10.1007/BF00212429
18440|A||Van der Heever,J.A., and J.U. Grobbelaar|The Use of Selenastrum capricornutum Growth Potential as a Measure of Toxicity of a Few Selected Compounds|Water SA22(2): 183-191|1996|
18441|A||Postma,J.F., M. Kyed, and W. Admiraal|Site Specific Differentiation in Metal Tolerance in the Midge Chironomus riparius (Diptera, Chironomidae)|Hydrobiologia (Multiple Languages)315(2): 159-165|1995|10.1007/BF00033628
18442|A||Topcouglu,S., and E. Birol|Bioaccumulation of Sodium Alkyl Sulfate, Zinc Chloride and Their Mixture in Young Goby, Proterorhinus marmoratus Pall|Turk. J. Nucl. Sci.9:100-107|1982|
18443|A||Van Benschoten,J.E., J.N. Jensen, and D. DeGirolamo|Control of Adult Zebra Mussels by Chlorine: Comparison of Laboratory and Field Studies|J. Shellfish Res.11(1): 240-241|1992|
18444|A||McHenry,E.T.|Fintrol (Active Ingredient - Antimycin A): A Bioassay Experiment|Division of Sport Fisheries, Alaska Department of Fish and Game, Juneau, AK:7 p.|1969|
18445|A||Ruzycki,E.M., R.P. Axler, C.J. Owen, and T.B. Martin|Response of Phytoplankton Photosynthesis and Growth to the Aquatic Herbicide Hydrothol 191|Environ. Toxicol. Chem.17(8): 1530-1537|1998|10.1002/etc.5620170813
18446|A||Hobson,J.F., D.E. Carter, and D.V. Lightner|Toxicity of a Phthalate Ester in the Diet of a Penaied Shrimp|J. Toxicol. Environ. Health33:959-968|1984|10.1080/15287398409530553
18447|A||Chen,C.Y., K.C. Lin, and D.T. Yang|Comparison of the Relative Toxicity Relationships Based on Batch and Continuous Algal Toxicity Tests|Chemosphere35(9): 1959-1965|1997|10.1016/S0045-6535(97)00270-1
18448|A||Borah,S., and R.N.S. Yadav|Effect of Rogor (30 % w/w Dimethoate) on the Activity of Lactate Dehydrogenase, Acid and Alkaline Phosphatase in Muscle and Gill of a Fresh Water Fish|J. Environ. Biol.17(4): 279-283|1996|
18449|A||Bauer,I., S. Weigelt, and W. Ernst|Biotransformation of Hexachlorobenzene in the Blue Mussel (Mytilus edulis)|Chemosphere19(10/11): 1701-1707|1989|10.1016/0045-6535(89)90513-4
18450|A||Marchal-Segault,D.|Toxicity of Some Insecticides on Bufo bufo Tadpoles|Bull. Soc. Ecol. (Non-English)7(4): 411-416|1976|
18452|A||Hendricks,J.D., D.W. Shelton, P.M. Loveland, C.B. Pereira, and G.S. Bailey|Carcinogenicity of Dietary Dimethylnitrosomorpholine, N-Methyl-N'-Nitro-N-Nitrosoguanidine, and Dibromoethane in Rainbow Trout|Toxicol. Pathol.23(4): 447-457|1995|10.1177/019262339502300402
18453|A||Haglund,K., M. Bjorklund, S. Gunnare, A. Sandberg, U. Olander, and M. Pedersen|New Method for Toxicity Assessment in Marine and Brackish Environments Using the Macroalga Gracilaria tenuistipitata (Gracilariales, Rhodophyta)|Hydrobiologia (Multiple Languages)326/327:317-325|1996|10.1007/BF00047825
18454|A||Morelli,E., and E. Pratesi|Production of Phytochelatins inthe Marine Diatom Phaeodactylum tricornutum in Response to Copper and Cadmium Exposure|Bull. Environ. Contam. Toxicol.59(4): 657-664|1997|10.1007/s001289900530
18455|A||Bao,M.L., S.G. Dai, and F. Pantani|Effect of Dissolved Humic Material on the Toxicity of Tributyltin Chloride and Triphenyltin Chloride to Daphnia magna|Bull. Environ. Contam. Toxicol.59(4): 671-676|1997|10.1007/s001289900532
18456|A||Saenz,M.E., W.D. Di Marzio, J.L. Alberdi, and M. Carmen Tortorelli|Effects of Technical Grade and a Commercial Formulation of Glyphosate on Algal Population Growth|Bull. Environ. Contam. Toxicol.59(4): 638-644|1997|10.1007/s001289900527
18457|A||Tang,J.X., K.D. Hoagland, and B.D. Siegfried|Differential Toxicity of Atrazine to Selected Freshwater Algae|Bull. Environ. Contam. Toxicol.59(4): 631-637|1997|10.1007/s001289900526
18458|A||Shrivastava,S., and K.S. Rao|Observation on the Utility of Integrated Aquatic Macrophyte Base System for Mercury Toxicity Removal|Bull. Environ. Contam. Toxicol.59(5): 777-782|1997|10.1007/s001289900548
18459|A||Tisler,T., and J. Zagorc-Koncan|Comparative Assessment of Toxicity of Phenol, Formaldehyde, and Industrial Wastewater to Aquatic Organisms|Water Air Soil Pollut.97(3/4): 315-322|1997|10.1023/A:1026472313561
18460|A||Srivastav,A.K., S.K. Srivastava, and S.K. Srivastav|Impact of Deltamethrin on Serum Calcium and Inorganic Phosphate of Freshwater Catfish, Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.59(5): 841-846|1997|10.1007/s001289900558
18461|A||Passino-Reader,D.R., J.P. Hickey, and L.M. Ogilvie|Toxicity to Daphnia pulex and QSAR Predictions for Polycyclic Hydrocarbons Representative for Great Lakes Contaminants|Bull. Environ. Contam. Toxicol.59(5): 834-840|1997|10.1007/s001289900557
18462|A||Weiss-Magasic,C., B. Lustigman, and L.H. Lee|Effect of Mercury on the Growth of Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.59(5): 828-833|1997|10.1007/s001289900556
18463|A||Verrengia Guerrero,N.R., M.N. Mozzarelli, H. Giancarlo, D. Nahabedian, and E. Wider|Biomphalaria glabrata: Relevance of Albino Organisms as a Useful Tool for Environmental Lead Monitoring|Bull. Environ. Contam. Toxicol.59(5): 822-827|1997|10.1007/s001289900555
18464|A||Ingermann,R.L., D.C. Bencic, and V.P. Eroschenko|Methoxychlor Alters Hatching and Larval Startle Response in the Salamander Ambystoma macrodactylum|Bull. Environ. Contam. Toxicol.59(5): 815-821|1997|10.1007/s001289900554
18465|A||Khalil,Z.|Toxicological Response of a Cyanobacterium, Phormidium fragile, to Mercury|Water Air Soil Pollut.98(1/2): 179-185|1997|10.1023/A:1026470529839
18466|T||Hoss,S., M. Haitzer, W. Traunspurger, H. Gratzer, W. Ahlf, and C. Steinberg|Influence of Particle Size Distribution and Content of Organic Matter on the Toxicity of Copper in Sediment Bioassays Using Caenorhabditis elegans (Nematoda)|Water Air Soil Pollut.99(1-4): 689-695|1997|
18467|A||Van Eck,J.M.C., A.A. Koelmans, and J.W. Deneer|Uptake and Elimination of 1,2,4-Trichlorobenzene in the Guppy (Poecilia reticulata) at Sublethal and Lethal Aqueous Concentrations|Chemosphere34(11): 2259-2270|1997|10.1016/S0045-6535(97)00038-6
18468|A||Olima,C., F. Pablo, and R.P. Lim|Comparative Tolerance of Three Populations of the Freshwater Shrimp (Paratya australiensis) to the Organophosphate Pesticide, Chlorpyrifos|Bull. Environ. Contam. Toxicol.59:321-328|1997|10.1007/s001289900482
18469|A||Kumta,A., and S.A. Gaikwad|Fecundity and Gonadosomatic Index of Gambusia affinis Affected by Nitrite Toxicity|Environ. Ecol.15(4): 834-837|1997|
18470|A||Das,B.P., T.R. Choudhury, and J. Das|Larvicidal Activity of Some Heterocyclic Compounds and Aromatic Nitro Compounds|Environ. Ecol.15(4): 838-842|1997|
18471|A||Sarma,D.K., and P. Keshavnath|Effect of Mibolerone on the Pituitary-Gonadal Axis of Female Clarias batrachus During Post Breeding Season|Environ. Ecol.15(4): 913-916|1997|
18472|A||Sultana,M., and V.S. Lomte|Effect of Heavy Metals (Copper, Mercury and Zinc) on the Digestive Enzymes of Freshwater Bivalve Lamellidens marginalis|Environ. Ecol.15(4): 803-809|1997|
18473|AT||Aagaard,K., A.K.L. Schartau, O. Hanssen, S. Lierhagen, and B. Wilmann|Effects of Cadmium on Population and Community Structures in Littoral Zone of a Boreal Lake: An Experimental Study Using Limnocoralls|Verh. Int. Ver. Theor. Angew. Limnol.25:2021-2025|1994|
18474|A||Carter,L.F., and S.D. Porter|Trace-Element Accumulation by Hygrohypnum ochraceum in the Upper Rio Grande Basin, Colorado and New Mexico, USA|Environ. Toxicol. Chem.16(12): 2521-2528|1997|
18475|A||Fornstrom,C.B., P.F. Landrum, C.P. Weisskopf, and T.W. LaPoint|Effects of Terbufos on Juvenile Red Swamp Crayfish (Procambarus clarkii): Differential Routes of Exposure|Environ. Toxicol. Chem.16(12): 2514-2520|1997|10.1002/etc.5620161212
18476|A||Song,M.Y., J.D. Stark, and J.J. Brown|Comparative Toxicity of Four Insecticides, Including Imidacloprid and Tebufenozide, to Four Aquatic Arthropods|Environ. Toxicol. Chem.16(12): 2494-2500|1997|10.1002/etc.5620161209
18477|A||Van der Hoeven,N., and A.A.M. Gerritsen|Effects of Chlorpyrifos on Individuals and Populations of Daphnia pulex in the Laboratory and Field|Environ. Toxicol. Chem.16(12): 2438-2447|1997|10.1002/etc.5620161202
18479|A||Monserrat,J.M., A. Bianchini, and M. Rebelo|Toxicity and Anticholinesterase Effect of Formulated Methyl Parathion to the Estuarine Crab Chasmagnathus granulata (Decapoda, Grapsidae) Pre-Exposed|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 329-334|1997|
18480|A||Weis,J.S.|The Effect of DDT on Tail Regeneration in Rana pipiens and R. catesbeiana Tapoles|Copeia1975:765-767|1975|10.2307/1443331
18481|A||Osborn,D., A.S. Cooke, and S. Freestone|Histology of a Teratogenic Effect of DDT on Rana temporaria Tadpoles|Environ. Pollut. A.25:305-319|1981|10.1016/0143-1471(81)90091-X
18482|A||Marchal-Segault,D., and F. Ramade|The Effects of Lindane, an Insecticide, on Hatching and Postembryonic Development of Xenopus laevis (Daudin) Anuran Amphibian|Environ. Res.24:250-258|1981|10.1016/0013-9351(81)90154-7
18483|A||Porter,K.R., and D.E. Hakanson|Toxicity of Mine Drainage to Embryonic and Larval Boreal Toads (Bufonidae:  Bufo boreas)|Copeia2:327-331|1976|10.2307/1443954
18484|A||Edmisten,G.E., and J.A. Bantle|Use of Xenopus laevis Larvae in 96-Hour, Flow-Through Toxicity Tests with Naphthalene|Bull. Environ. Contam. Toxicol.29:392-399|1982|10.1007/BF01605601
18485|A||Khan,E.A., M.P. Sinha, N. Saxena, P.N. Panday, and P.N. Mehrotra|Biochemical Variation During Ovarian Vitellogenic Growth in a Hill Stream Teleost Garra mullya (Skyes) due to Cadmium Toxicity|J. Indian Fish. Assoc.21:11-14|1991|
18486|A||Licht,L.E.|Postmetamorphic Retention of C14DDT by Wood Frog Tadpoles|Comp. Biochem. Physiol. C Comp. Pharmacol.55:119-121|1976|10.1016/0306-4492(76)90033-2
18487|A||Licht,L.E.|Time Course of Uptake, Elimination, and Tissue Levels of [14C]DDT in Wood-Frog Tadpoles|Can. J. Zool.54:355-360|1976|10.1139/z76-039
18488|A||Wile,I.|Aquatic Plant Control with Diquat, Fenac, and Simazine in Ontario Farm Ponds|Publication No.31, The Ontario Water Resources Commission, Canada:19 p.|1967|
18489|A||Hinton,D.E., J.E. Klaunig, and M.M. Lipsky|PCB-Induced Alterations in Teleost Liver:  A Model for Environmental Disease in Fish|Mar. Fish. Rev.40(10): 47-50|1978|
18491|AT||Ellis,M.M., B.A. Westfall, and M.D. Ellis|Toxicity of Dichloro-Diphenyl-Trichlorethane (DDT) to Goldfish and Frogs|Science100:477-|1944|10.1126/science.100.2604.477.a
18492|AT||Rosato,P., and D.E. Ferguson|The Toxicity of Endrin-Resistant Mosquito Fish to Eleven Species of Vertebrates|Bioscience18(8): 783-784|1968|10.2307/1294328
18493|A||Black,J.J., J.C. Harshbarger, K.L. Price, H.K. Myers, and R.F. Zeigel|Osteogenic Neoplasms in Coho Salmon Embryos Exposed to 1-Methyl-3-Nitro-1-Nitrosoguanidine|Proc. Am. Assoc. Cancer Res.33:116-|1992|
18494|A||Young,R.G., L.St John, and D.J. Lisk|Degradation of DDT by Goldfish|Bull. Environ. Contam. Toxicol.6(4): 351-354|1971|10.1007/BF01540003
18495|A||Gibson,J.R., and J.L. Ludke|Effect of Sesamex on Brain Acetylcholinesterase Inhibition by Parathion in Fishes|Bull. Environ. Contam. Toxicol.6(2): 97-99|1971|10.1007/BF01540088
18496|A||Suzuki,Y., M. Nakahara, and T. Ueda|Accumulation of Excretion of 95Zr and 95Nb by Common Goby (Acanthogobius flavimanus)|Nippon Suisan Gakkaishi (Multiple Languages)45(10): 1293-1298|1979|10.2331/suisan.45.1293
18497|A||Meadows,P.S., E.A. Deans, and J.G. Anderson|Responses of Corophium volutator to Sediment Sulphide|J. Mar. Biol. Assoc. U.K.61(3): 739-748|1981|10.1017/S0025315400048177
18498|AT||Wellinga,K., A.C. Grosscurt, and R. Van Hes|1-Phenylcarbomoyl-2-Pyrazolines:  A New Class of Insecticides. 1. Synthesis and Insecticidal Properties of 3-Phenyl-1-Phenylcarbamoyl-2-Pyrazolines|J. Agric. Food Chem.25(5): 987-992|1977|10.1021/jf60213a018
18499|A||Gruessner,B., and M.C. Watzin|Response of Aquatic Communities from a Vermont Stream to Environmentally Realistic Atrazine Exposure in Laboratory Microcosms|Environ. Toxicol. Chem.15(4): 410-419|1996|10.1002/etc.5620150402
18500|A||Lemaire,P., L. Forlin, and D.R. Livingstone|Response of Hepatic Biotransformation and Antioxidant Enzymes to CYP1A-Inducers (3-Methylcholanthrene, beta-Naphthoflavone) in Sea Bass (Dicentrarchus|Aquat. Toxicol.36(3/4): 141-160|1996|10.1016/S0166-445X(96)00819-3
18501|A||Johri,A.K., D.M. Saxena, and R. Lal|Impact of the Synthetic Pyrethroid Insecticide Fenvalerate on Tetrahymena thermophila|Pestic. Res. J.6(1): 60-66|1994|
18502|A||Reynoldson,T.B., P. Rodriguez, and M.M. Madrid|A Comparison of Reproduction, Growth and Acute Toxicity in Two Populations of Tubifex tubifex (Muller, 1774) from the North American Great Lakes and Northern Spain|Hydrobiologia (Multiple Languages)334(1-3): 199-206|1996|10.1007/BF00017370
18503|A||Szegletes,T., T. Balint, Z. Szegletes, and J. Nemcsok|Changes Caused by Methidathion in Activity and Distribution of Molecular Forms of Carp (Cyprinus carpio L.) AChE|Pestic. Biochem. Physiol.52(1): 71-79|1995|10.1006/pest.1995.1031
18504|A||Chattopadhyay,S., K. Anam, and A.K. Aditya|Bioassay Evalution of Acute Toxicity Levels of Mercuric Chloride and Cadmium Chloride on the Early Growing Stages of Labeo rohita|J. Ecobiol.7(1): 41-47|1995|
18505|A||Barron,M.G., P.W. Albro, and W.L. Hayton|Biotransformation of Di(2-Ethylhexyl)Phthalate by Rainbow Trout|Environ. Toxicol. Chem.14(5): 873-876|1995|
18507|A||Klumpp,D.W.|Characteristics of Arsenic Accumulation by the Seaweeds Fucus spiralis and Ascophyllum nodosum|Mar. Biol.58:257-264|1980|10.1007/BF00390774
18508|A||Riedel,G.F., J.G. Sanders, and R.W. Osman|The Role of Three Species of Benthic Invertebrates in the Transport of Arsenic from Contaminated Estuarine Sediment|J. Exp. Mar. Biol. Ecol.134:143-155|1989|10.1016/0022-0981(89)90066-X
18509|A||Kleinow,K.M.|The Effect of 30 Minute Chlorine Exposures on the Blood Chemistry of Rainbow Trout and Bluegills with a Study of Chlorine Uptake Sites in Yellow Perch|M.S.Thesis, University of Wisconsin, Milwaukee, WI:42 p.|1977|
18510|A||Meinelt,T., and G. Staaks|The Embryo-Larval Test with Zebrafish (Brachydanio rerio):  Validity, Limits and Perspectives|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London15:167-174|1994|
18511|A||Siwicki,A.K., and M. Studnicka|Stimulation of Nonspecific Immunity After Immunosuppression Induced by Chemical Stress in Carp (Cyprinus carpio)|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London13:148-152|1994|
18512|A||Twitchen,I.D., and F.B. Eddy|Sublethal Effects of Ammonia on Freshwater Fish|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London12:135-147|1994|
18513|A||Schwaiger,J., H.F. Falk, F. Bucher, G. Orthuber, R. Hoffman, and R.D. Negele|Prolonged Exposure of Rainbow Trout (Oncorhynchus mykiss) to Sublethal Concentrations of Bis(Tri-n-Butyltin)Oxide: Effects on Leucocytes, Lymphatic|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London:113-123|1994|
18514|A||Sheahan,D.A., D. Bucke, P. Matthiessen, J.P. Sumpter, M.F. Kirby, P. Neall, and M. Waldock|The Effects of Low Levels of 17alpha-Ethylnylestradiol upon Plasma Vitellogenin Levels in Male and Female Rainbow Trout, Oncorhynchus mykiss Held at two Acclimation Temperatures|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London9:99-112|1994|
18515|A||Svobodova,Z., B. Vykusova, J. Machova, M. Hrbkova, and L. Groch|The Long-Term Effect of PCBs on Fish|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London8:88-98|1994|
18516|A||Arnold,H., and T. Braunbeck|Disulfoton as a Major Toxicant in the Rhine Chemical Spill at Basle in 1986: Acute and Chronic Studies with Eel and Rainbow Trout|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London7:75-87|1994|
18517|A||Pelgrom,S.M.G.J., L.P.M. Lamers, A. Haaijman, P.H.M. Balm, R.A.C. Lock, and S.E. Wendelaar Bonga|Interactions Between Copper and Cadmium During Single or Combined Metal Exposures in the Teleost Fish Oreochromis mossambicus: Heavy Metal Accumulation and Endocrine Events|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London6:62-74|1994|
18518|A||Elezovic,I., M. Budimir, V. Karan, and N.K. Neskovic|Herbicides in Water: Subacute Toxic Effects on Fish|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London3:30-38|1994|
18520|A||Kuroshima,R.|Hepatic Metallothionein and Glutathione Levels in Red Sea Bream|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.110(1): 95-100|1995|
18521|A||Cairns,J.,Jr., and A. Scheier|The Effects of Sublethal Levels of Zinc and of high Temperature upon the Toxicity of a Detergent to the Sunfish Lepomis gibbosus (Linn.)|Not. Nat. Acad. Nat. Sci. Philadelphia 367:1-3|1964|
18522|A||Handy,R.D.|Comparison of Intermittent and Continuous Exposure to Mercuric Chloride in Rainbow Trout (Oncorhynchus mykiss), Goldfish (Carassius auratus), and the|Can. J. Fish. Aquat. Sci.52(1): 13-22|1995|10.1139/f95-002
18523|A||Francesconi,K.A., and J.S. Edmonds|Short-Term Effects on Sea Trumpeter (Therapon humeralis) of Oxidizing Iron (II) in Seawater|Bull. Environ. Contam. Toxicol.54(1): 15-21|1995|10.1007/BF00196264
18524|A||Anderson,R.S., M.A. Unger, and E.M. Burreson|Enhancement of Perkinsus marinus Disease Progression in TBT-Exposed Oysters (Crassostrea virginica)|Mar. Environ. Res.41(1-4): 177-180|1996|10.1016/0141-1136(95)00066-6
18525|A||Swartz,R.C., D.W. Schults, R.J. Ozretich, J.O. Lamberson, F.A. Cole, T.H. DeWitt, M.S. Redmond, and S.P. Ferraro|SigmaPAH: A Model to Predict the Toxicity of Polynuclear Aromatic Hydrocarbon Mixtures in Field-Collected Sediments|Environ. Toxicol. Chem.14(11): 1977-1987|1995|
18526|A||Krishnakumar,P.K., E. Casillas, and U. Varanasi|Cytochemical Responses in the Digestive Tissue of Mytilus edulis Complex Exposed to Microencapsulated PAHs or PCBs|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(1): 11-18|1997|
18527|A||Suedel,B.C., E. Deaver, and J.H.,Jr. Rodgers|Experimental Factors that may Affect Toxicity of Aqueous and Sediment-Bound Copper to Freshwater Organisms|Arch. Environ. Contam. Toxicol.30(1): 40-46|1996|10.1007/BF00211327
18528|A||Say,P.J., B.M. Diaz, and B.A. Whitton|Influence of Zinc on Lotic Plants. I. Tolerance of Hormidium Species to Zinc|Freshw. Biol.7:357-376|1977|10.1111/j.1365-2427.1977.tb01684.x
18529|A||Saucier,D., and L. Astic|Morpho-functional Alterations in the Olfactory System of Rainbow Trout (Oncorhynchus mykiss) and Possible Acclimation in Response to Long-Lasting Exposure to Low Copper Levels|Comp. Biochem. Physiol. A Comp. Physiol.112(2): 273-284|1995|10.1016/0300-9629(95)00098-4
18530|A||Roux,D., S. Jooste, E. Truter, and P. Kempster|An Aquatic Toxicological Evaluation of Fenthion in the Context of Finch Control in South Africa|Ecotoxicol. Environ. Saf.31(2):164-172|1995|10.1006/eesa.1995.1058
18531|A||Roy,S., P. Lindstrom-Seppa, S. Huuskonen, and O. Hanninen|Responses of Biotransformation and Antioxidant Enzymes in Lemna minor and Oncorhyunchus mykiss Exposed Simultaneously to Hexachlorobenzene|Chemosphere30(8): 1489-1498|1995|10.1016/0045-6535(95)00043-8
18532|A||Gorbi,G., M.G. Corradi, A. Torelli, and M. Bassi|Comparison Between a Normal and a Cr-Tolerant Strain of Scenedesmus acutus as a Food Source to Daphnia magna|Ecotoxicol. Environ. Saf.35(2): 109-111|1996|10.1006/eesa.1996.0089
18533|A||Wright,D.A., J.D. Savitz, R. Dawson, J. Magee, and R.A. Smucker|Effect of Diflubenzuron on the Maturation and Reproductive Success of the Copepod Eurytemora affinis|Ecotoxicology5(1): 47-58|1996|10.1007/BF00116323
18534|A||Lam,P.K.S.|Interpopulation Differences in Acute Response of Brotia hainanensis (Gastropoda, Prosobranchia) to Cadmium:  Genetic or Environmental Variance?|Environ. Pollut.94(1): 1-7|1996|10.1016/S0269-7491(96)00112-1
18535|A||Larsen,L.F., and P. Bjerregaard|The Effect of Selenium on the Handling of Mercury in the Shore Crab Carcinus maenas|Mar. Pollut. Bull.31(1-3): 78-83|1995|10.1016/0025-326X(95)00028-L
18536|A||Briggs,J.C., and J.G. Wilson|Comparison of the Teratogenic Effects of Trypan Blue and Low Temperature in the Medaka Fish (Oryzias latipes)|Q. J. Fla. Acad. Sci.22:54-68|1959|
18537|A||Nagase,H., T. Hamasaki, T. Sato, H. Kito, Y. Yoshioka, and Y. Ose|Structure-Activity Relationships for Organotin Compounds on the Red Killifish Oryzias latipes|Appl. Organomet. Chem.5:91-97|1991|10.1002/aoc.590050205
18538|A||Paulov,S.|Action of the Anti-detonation Preparation Tert-Butyl Methyl Ether on the Model Species Rana temporaria L.|Biologia (Bratisl.)42(2): 185-189|1987|
18539|A||Paulov,S.|The Effect of N-Phenyl-N'-Methyl Urea (Defenuron) ont the Development of Amphibia (Rana temporaria L.)|Biologia (Bratisl.)32(8): 607-611|1977|
18540|A||Thirumurthi,S., P. Palaniswamy, T.R. Subramaniam, and S. Kannammal|Effect of Aerial Spraying on Non-Target Organisms Inhabiting Rice Swamps|Madras Agric. J.60(7): 573-574|1973|
18542|A||Odin,M., A. Feurtet-Mazel, F. Ribeyre, and A. Boudou|Inorganic Mercury and Methylmercury Bioaccumulation by Nymphs of the Burrowing Mayfly Hexagenia rigida from the Water Column as the Initial|Toxicol. Environ. Chem.48:213-244|1995|10.1080/02772249509358167
18543|A||Hall,T.S.|The Mode of Action of Lithium Salts in Amphibian Development|J. Exp. Biol.89(1): 1-30|1942|
18544|A||Paulov,S.|Effect of Ethanol on the Functions of the Frog Rana temporaria L.|Acta Fac. Rerum Nat. Univ. Comen. Zool.30:27-34|1987|
18545|A||Ghate,H.V.|Teratogenic Effects of Ethylenethiourea in Frog Embryo|Geobios13:82-85|1986|
18546|A||Bambang,Y., G. Charmantier, P. Thuet, and J.P. Trilles|Effect of Cadmium on Survival and Osmoregulation of Various Developmental Stages of the Shrimp Penaeus japonicus (Crustacea: Decapoda)|Mar. Biol.123:443-450|1995|10.1007/BF00349223
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18548|A||Vuorinen,M., P.J. Vuorinen, M. Rask, and J. Suomela|The Sensitivity to Acidity and Aluminium of Newly-Hatched Perch (Perca fluviatilis) Originating from Strains from Four Lakes with Different Degrees|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London24:273-282|1994|
18549|A||Laitinen,M., and M. Karttunen|Effects of Calcium and Magnesium in Acid Water on the Ion Balance of Eggs and Alevins of Rainbow Trout (Oncorhynchus mykiss)|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London23:262-272|1994|
18550|A||Mallet,M.J., and I. Sims|Effects of Ammonia on the Early Life Stages of Carp (Cyprinus carpio) and Roach (Rutilus rutilus)|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London19:211-228|1994|
18551|A||Whale,G.F., D.A. Sheahan, and M.F. Kirby|Assessment of the Value of Including Recovery Periods in Chronic Toxicity Test Guidelines for Rainbow Trout (Oncorhynchus mykiss)|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London16:175-187|1994|
18552|A||Palackova,J., D. Pravda, K. Fasaic, and O. Celechovska|Sublethal Effects of Cadmium on Carp (Cyprinus carpio) Fingerlings|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London5:53-61|1994|
18553|A||Svobodova,Z., B. Vykusova, and J. Machova|The Effects of Pollutants on Selected Haematological and Biochemical Parameters in Fish|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London4:39-52|1994|
18554|A||Braunbeck,T.|Detection of Environmentally Relevant Concentrations of Toxic Organic Compounds Using Histological and Cytological Parameters: Substance-Specificity in the Reaction of Rainbow Trout Liver?|In: R.Muller and R.Lloyd (Eds.), Sublethal and Chronic Effects of Pollutants on Freshwater Fish, Fishing News Books, London2:15-29|1994|
18556|A||Cristini,A., and K. Cooper|The Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Juvenile Blue Crabs, Callinectes sapidus, and the Physiological Effects of Consumption of Food from a Polluted Environment on this Species|In: C.H.Walker and D.R.Livingstone (Eds.), Persistent Pollutants in Marine Ecosystems, Chapter 3, SETAC Spec.Publ.Ser., Pergamon Press, NY:49-62|1992|
18557|A||Reddy,P.M., and M. Bashamohideen|Modulations in the Levels of Respiration and Ions in Carp Cyprinus carpio (L.) Exposed to Cypermethrin|Environ. Monit. Assess.35(3): 221-226|1995|10.1007/BF00547633
18558|A||Pearson,N., and N.O. Crossland|Measurement of Community Photosynthesis and Respiration in Outdoor Artificial Streams|Chemosphere32(5): 913-919|1996|10.1016/0045-6535(95)00356-8
18559|A||Williams,D.E., and D.R. Buhler|Benzo(a)pyrene-Hydroxylase Catalyzed by Purified Isozymes of Cytochrome P-450 from beta-Naphthoflavone-Fed Rainbow Trout|Biochem. Pharmacol.33(23): 3743-3753|1984|10.1016/0006-2952(84)90035-2
18560|A||Cai,X.H., S.J. Traina, T.J. Logan, T. Gustafson, and R.T. Sayre|Applications of Eukaryotic Algae for the Removal of Heavy Metals from Water|Mol. Mar. Biol. Biotechnol.4(4): 338-344|1995|
18561|A||Ikuta,S., K. Nishimura, T. Yasunaga, S. Ichikawa, and Y. Wakao|Biofouling Control Using a Synergistic Hydrogen Peroxide and Ferrous Ion Technique|Proc. 49th Annu. Meet. of the Int. Water Conf. , Pittsburgh, PA:449-458|1988|
18562|A||Migliore,L., G. Brambilla, A. Grassitellis, and G. Dojmi di Delupis|Toxicity and Bioaccumulation of Sulphadimethoxine in Artemia (Crustacea, Anostraca)|Int. J. Salt Lake Res.2(2): 141-152|1993|10.1007/BF02905906
18563|A||Dojmi di Delupis,G., A. Macri, C. Civitareale, and L. Migliore|Antibiotics of Zootechnical Use: Effects of Acute high and Low Dose Contamination on Daphnia magna Straus|Aquat. Toxicol.22:53-60|1992|10.1016/0166-445X(92)90035-L
18564|A||Migliore,L., C. Civitareale, G. Brambilla, and G. Dojmi di Delupis|Toxicity of Several Important Agricultural Antibiotics to Artemia|Water Res.31(7): 1801-1806|1997|10.1016/S0043-1354(96)00412-5
18565|A||Lai,P.C.C., and P.K.S. Lam|Scope for Growth in a Tropical Freshwater Snail, Brotia hainanensis: Implications for Monitoring Sublethal Toxic Stressors|Verh. Int. Ver. Theor. Angew. Limnol.24:315-320|1994|
18566|A||Lam,P.K.S.|Sublethal Effects of Cadmium on the Energetics of a Tropical Freshwater Snail, Brotia hainanensis (Brot, 1872)|Environ. Toxicol. Water Qual.11:345-349|1996|10.1002/(SICI)1098-2256(1996)11:4<345::AID-TOX9>3.0.CO;2-9
18567|A||Jha,A.N., T.H. Hutchinson, J.M. Mackay, B.M. Elliott, and D.R. Dixon|Development of an In Vivo Genotoxicity Assay Using the Marine Worm Platynereis dumerilii (Polychaeta: Nereidae)|Mutat. Res.359(2): 141-150|1996|10.1016/S0165-1161(96)90260-5
18568|A||Jurkowski,M.K., M. Stachowiak, and J.W. Bialowas|Effects of Certain Stress Situations and of DBS on Acetylcholinetransferase, Acetylcholinesterase, and Monoamineoxidase Activities in Various Regions|Acta Ichthyol. Piscat.9(2): 21-27|1979|10.3750/AIP1979.09.2.03
18569|A||Mandelli,E.F.|The Inhibitory Effects of Copper on Marine Phytoplankton|Mar. Sci.14:47-57|1969|
18570|A||Beaumont,M.W., P.J. Butler, and E.W. Taylor|Exposure of Brown Trout, Salmo trutta, to Sub-lethal Copper Concentrations in Soft Acidic Water and Its Effect upon Sustained Swimming Performance|Aquat. Toxicol.33(1): 45-63|1995|10.1016/0166-445X(95)00007-Q
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18573|A||Prahlad,K.V., R. Bancroft, and L. Hanzely|Ultrastructural Changes Induced by the Fungicide Ethylenebis[Dithiocarbamic Acid] Disodium Salt (Nabam) in Xenopus laevis Tissues During Development|Cytobios9:121-130|1974|
18574|A||Scholz,N.|Determination of the Acute Effects of Vestinol C on Fish (as Specified by 92/69 C 1 EEC)|Final Report FK 1308, Huels AG, Marl, Germany:15 p.|1994|
18575|A||Marcano,L., O. Nusetti, J. Rodriguez-Grau, and J. Vilas|Uptake and Depuration of Copper and Zinc in Relation to Metal-Binding Protein in the Polychaete Eurythoe camplanata|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(3): 179-184|1996|
18576|A||Martinez-Tabche,L., C. German-Faz, B. Ramirez-Mora, and I. Galar-Castelan|Effect of Carbaryl and Lead on Phenols Chlorophyll and Proteins of the Microalga Ankistrodesmus falcatus|Rev. Latinoam. Microbiol.37(2): 93-99|1995|
18577|A||Rishi,K.K., and S. Grewal|Chromosome Aberration Test for the Insecticide, Dichlorvos, on Fish Chromosomes|Mutat. Res.344(2): 1-4|1995|10.1016/0165-1218(95)90032-2
18578|A||Sconzo,G., D. Romancino, G. Fasulo, D. Cascino, and G. Giudice|Effect of Doxorubicin and Phenytoin on Sea Urchin Development|Pharmazie50(9): 616-619|1995|
18579|A||Medina,H.S.G., M.E. Lopata, and M. Bacila|The Response of Sea Urchin Egg Embryogenesis Towards the Effect of Some Pesticides|Arq. Biol. Tecnol. (Curitiba)37(4): 895-906|1994|
18580|A||Selvakumar,S., S.A. Khan, and A.K. Kumaraguru|Acute Toxicity of Some Heavy Metals, Pesticides and Water Soluble Fractions of Diesel Oil to the Larvae of Some Brachyuran Crabs|J. Environ. Biol.17(3): 221-226|1996|
18581|A||Scholz,N.|Determination of the Effects of Vestinol AH on the Swimming Behaviour of Daphnia magna (as Specified by 92/69 EEC, Dec. 1992)|Final Report DK-631, Huels AG, Marl, Germany:14 p.|1995|
18582|A||Wood,C.M., C. Hogstrand, F. Galvez, and R.S. Munger|The Physiology of Waterborne Silver Toxicity in Freshwater Rainbow Trout (Oncorhynchus mykiss) 1. The Effects of Ionic Ag+|Aquat. Toxicol.35(2): 93-109|1996|10.1016/0166-445X(96)00003-3
18583|A||Taban,C.H., M. Cathieni, and P. Burkard|Changes in Newt Brain Caused by Zinc Water-Pollution|Experientia38:683-685|1982|10.1007/BF01964094
18585|A||Mukhopadhyay,M.K.|Effect of Zinc Pollution on Fish and Aquatic Ecosystem|Environ. Ecol.1(2): 89-96|1983|
18586|A||Kaviraj,A.|Chronic Effects of Cadmium on the Behavior, Survival, Growth and Reproduction of Fish and on Aquatic Ecosystem|Environ. Ecol.1(2): 65-70|1983|
18587|A||Kaviraj,A.|Chronic Effects of Chromium on the Behavior, Growth and Reproduction of Fish and on Aquatic Ecosystem|Environ. Ecol.1(1): 17-22|1983|
18588|A||Ram,R.N., and A.G. Sathyanesan|Mercuric Chloride Induced Changes in the Protein, Lipid and Cholesterol Levels of the Liver and Ovary of the Fish Channa punctatus|Environ. Ecol.2(2): 113-117|1984|
18589|A||Bearden,A.P., B.W. Gregory, and T.W. Schultz|Population Growth Kinetics of Tetrahymena pyriformis Exposed to Selected Nonpolar Narcotics|Arch. Environ. Contam. Toxicol.33(4): 401-406|1997|10.1007/s002449900269
18590|A||Larrain,A., A. Riveros, E. Bay-Schmith, and R. Roa|Evaluation of Three Larval Instars of the Midge Chironomus petiolatus as Bioassay Tools Using a Computationally Intensive Statistical Algorithm|Arch. Environ. Contam. Toxicol.33(4): 407-414|1997|10.1007/s002449900270
18591|A||De Boeck,G., A. Vlaeminck, and R. Blust|Effects of Sublethal Copper Exposure on Copper Accumulation, Food Consumption, Growth, Energy Stores, and Nucleic Acid Content in Common Carp|Arch. Environ. Contam. Toxicol.33(4): 415-422|1997|10.1007/s002449900271
18592|A||Hall,L.W.,Jr., R.D. Anderson, and M.S. Ailstock|Chronic Toxicity of Atrazine to Sago Pondweed at a Range of Salinities:  Implications for Criteria Development and Ecological Risk|Arch. Environ. Contam. Toxicol.33(3): 261-267|1997|10.1007/s002449900252
18593|A||Tate,T.M., J.O. Spurlock, and F.A. Christian|Effect of Glyphosate on the Development of Pseudosuccinea columella Snails|Arch. Environ. Contam. Toxicol.33(3): 286-289|1997|10.1007/s002449900255
18594|A||Chen,J.C., and Y. Lee|Effects of Nitrite Exposure on Acid-Base Balance, Respiratory Protein, and Ion Concentrations of Giant Freshwater Prawn Macrobrachium rosenbergii at Low pH|Arch. Environ. Contam. Toxicol.33(3): 290-297|1997|10.1007/s002449900256
18595|A||Lundebye,A.K., T.M. Curtis, J. Braven, and M.H. Depledge|Effects of the Organophosphorous Pesticide, Dimethoate, on Cardiac and Acetylcholinesterase (AChE) Activity in the Shore Crab Carcinus maenas|Aquat. Toxicol.40(1): 23-36|1997|10.1016/S0166-445X(97)00045-3
18596|A||Temara,A., Q.A. Nguyen, A.N. Hogarth, M. Warnau, M. Jangoux, and P. Dubois|High Sensitivity of Skeletogenesis to Pb in the Asteroid Asterias rubens (Echinodermata)|Aquat. Toxicol.40(1):1-10|1997|10.1016/S0166-445X(97)00042-8
18597|A||Baker,R.T.M., P. Martin, and S.J. Davies|Ingestion of Sub-lethal Levels of Iron Sulphate by African Catfish Affects Growth and Tissue Lipid Peroxidation|Aquat. Toxicol.40(1): 51-61|1997|10.1016/S0166-445X(97)00047-7
18598|A||Ritterhoff,J., and G.P. Zauke|Bioaccumulation of Trace Metals in Greenland Sea Copepod and Amphipod Collectives on Board Ship:  Verification of Toxicokinetic Model Parameters|Aquat. Toxicol.40(1): 63-78|1997|10.1016/S0166-445X(97)00044-1
18599|A||Bamber,S.D., and M.H. Depledge|Responses of Shore Crabs to Physiological Challenges Following Exposure to Selected Environmental Contaminants|Aquat. Toxicol.40(1): 79-92|1997|10.1016/S0166-445X(97)00040-4
18600|A||Roesijadi,G., K.M. Hansen, and M.E. Unger|Metallothionein mRNA Accumulation in Early Developmental Stages of Crassostrea virginica Following Pre-Exposure and Challenge with Cadmium|Aquat. Toxicol.39(3-4): 185-194|1997|10.1016/S0166-445X(97)00037-4
18601|A||Blom,S., and L. Forlin|Effects of PCB on Xenobiotic Biotransformation Enzyme Activities in the Liver and 21-Hydroxylation in the Head Kidney of Juvenile Rainbow Trout|Aquat. Toxicol.39(3-4): 215-230|1997|10.1016/S0166-445X(97)00035-0
18602|A||Torres,E., A. Cid, P. Fidalgo, C. Herrero, and J. Abalde|Long-Chain Class III Metallothioneins as a Mechanism of Cadmium Tolerance in the Marine Diatom Phaeodactylum tricornutum Bohlin|Aquat. Toxicol.39(3/4): 231-246|1997|10.1016/S0166-445X(97)00034-9
18603|A||Garman,G.D., S.L. Anderson, and G.N. Cherr|Developmental Abnormalities and DNA-Protein Crosslinks in Sea Urchin Embryos Exposed to Three Metals|Aquat. Toxicol.39(3/4): 247-265|1997|10.1016/S0166-445X(97)00033-7
18605|T||Tatara,C.P., M.C. Newman, J.T. McCloskey, and P.L. Williams|Predicting Relative Metal Toxicity with Ion Characteristics:  Caenorhabditis elegans LC50|Aquat. Toxicol.39(3-4): 279-290|1997|10.1016/S0166-445X(97)00030-1
18606|A||Moore,M.N., D.M. Lowe, C. Soverchia, S.D. Haigh, and S.G. Hales|Uptake of a Non-Calorific, Edible Sucrose Polyester Oil and Olive Oil by Marine Mussels and Their Influence on Uptake and Effects of Anthracene|Aquat. Toxicol.39(3-4): 307-320|1997|10.1016/S0166-445X(97)00028-3
18607|A||Palace,V.P., J.F. Klaverkamp, C.L. Baron, and S.B. Brown|Metabolism of 3H-Retinol by Lake Trout (Salvelinus namaycush) Pre-Exposed to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126)|Aquat. Toxicol.39(3-4): 321-332|1997|10.1016/S0166-445X(97)00025-8
18609|A||Alcaraz,G., X. Chiappa-Carrara, and C. Vanegas|Temperature Tolerance of Penaeus setiferus Postlarvae Exposed to Ammonia and Nitrite|Aquat. Toxicol.39(3-4): 345-353|1997|10.1016/S0166-445X(96)00852-1
18610|A||Kahl,M.D., E.A. Makynen, P.A. Kosian, and G.T. Ankley|Toxicity of 4-Nonylphenol in a Life-Cycle Test with the Midge Chironomus tentans|Ecotoxicol. Environ. Saf.38(2): 155-160|1997|10.1006/eesa.1997.1572
18611|A||Jagoe,C.H., and T.A. Haines|Changes in Gill Morphology of Atlantic Salmon (Salmo salar) Smolts due to Addition of Acid and Aluminum to Stream Water|Environ. Pollut.97(1-2): 137-146|1997|10.1016/S0269-7491(97)00069-9
18612|A||Shehata,S.A., M.A. El Dib, and H.F. Abou Waly|Effect of Certain Herbicides on the Growth of Freshwater Algae|Water Air Soil Pollut.100(1-2): 1-12|1997|10.1023/A:1019228719202
18613|A||Hall,B.D., R.A. Bodaly, R.J.P. Fudge, J.W.M. Rudd, and D.M. Rosenberg|Food as the Dominant Pathway of Methylmercury Uptake by Fish|Water Air Soil Pollut.100(1-2): 13-24|1997|10.1023/A:1018071406537
18614|A||Harrington,D.K., J.E. Van Benschoten, J.N. Jensen, D.P. Lewis, and E.F. Neuhauser|Combined use of Heat and Oxidants for Controlling Adult Zebra Mussels|Water Res.31(11): 2783-2791|1997|10.1016/S0043-1354(96)00321-1
18615|A||Rajagopal,S., G. Van der Velde, and H.A. Jenner|Shell Valve Movement Reponse of Dark False Mussel, Mytilopsis leucophaeta, to Chlorination|Water Res.31(12): 3187-3190|1997|10.1016/S0043-1354(97)00163-2
18616|A||Beach,M.J., and D. Pascoe|The Role of Hydra vulgaris (Pallas) in Assessing the Toxicity of Freshwater Pollutants|Water Res.32(1): 101-106|1998|10.1016/S0043-1354(97)00180-2
18617|A||Adam,C., J. Garnier-Laplace, and J.P. Baudin|Uptake from Water, Release and Tissue Distribution of 54Mn in the Rainbow Trout (Oncorhynchus mykiss Walbaum)|Environ. Pollut.97(1-2): 29-38|1997|10.1016/S0269-7491(97)00083-3
18618|A||Pawlik-Skowronska,B., R. Kaczorowska, and T. Skowronski|The Impact of Inorganic Tin on the Planktonic Cyanobacterium Synechocystis aquatilis: The Effect of pH and Humic Acid|Environ. Pollut.97(1/2): 65-69|1997|10.1016/S0269-7491(97)00074-2
18619|A||Everts,J.W.|Environmental Effects of Chemical Locust and Grasshopper Control. A Pilot Study|FAO Proj.Rep.No.ECLO/SEN/003/NET, Dep.of Toxicology, Agricultural University, Netherlands:277 p.|1990|
18620|A||Fargasova,A.|Sensitivity of Chironomus plumosus Larvae to V5+, Mo6+, Mn2+, Ni2+, Cu2+, and Cu+ Metal Ions and Their Combinations|Bull. Environ. Contam. Toxicol.59(1): 956-962|1997|
18621|A||Pantani,C., G. Pannunzio, M. De Cristofaro, A.A. Novelli, and M. Salvatori|Comparative Acute Toxicity of Some Pesticides, Metals, and Surfactants to Gammarus italicus Goedm. and Echinogammarus tibaldii Pink. and Stock (Crustacea:  Amphipoda)|Bull. Environ. Contam. Toxicol.59(6): 963-967|1997|10.1007/s001289900576
18622|A||Oliveira-Filho,E.C., and F.J.R. Paumgartten|Comparative Study on the Acute Toxicities of alpha, beta, gamma, and delta Isomers of Hexachlorocyclohexane to Freshwater Fishes|Bull. Environ. Contam. Toxicol.59(6): 984-988|1997|10.1007/s001289900579
18623|A||Elumalai,M., and M.P. Balasubramanian|Effect of Naphthalene on Carbohydrate Metabolism During Vitellogenesis in Marine Edible Crab, Scylla serrata|Bull. Environ. Contam. Toxicol.59(6): 989-993|1997|10.1007/s001289900580
18624|A||Hyne,R.V., and S.P. Wilson|Toxicity of Acid-Sulphate Soil Leachate and Aluminium to the Embryos and Larvae of Australian Bass (Macquaria novemaculeata) in Estuarine Water|Environ. Pollut.97(3): 221-227|1997|10.1016/S0269-7491(97)00095-X
18625|A||Sancho,E., M.D. Ferrando, and E. Andreu|Inhibition of Gill Na+, K+ -ATPase Activity in the Eel, Anguilla anguilla, by Fenitrothion|Ecotoxicol. Environ. Saf.38(2): 132-136|1997|10.1006/eesa.1997.1573
18626|A||De conto Cinier,C., M. Petit-Remel, R. Faure, and D. Garin|Cadmium Bioaccumulation in Carp (Cyprinus carpio) Tissues During Long-Term high Exposure: Analysis by Inductively Coupled Plasma-Mass Spectrometry|Ecotoxicol. Environ. Saf.38(2): 137-143|1997|10.1006/eesa.1997.1569
18627|A||Yan,G.A., X. Yan, and W. Wu|Effects of the Herbicide Molinate on Mixotrophic Growth, Photosynthetic Pigments, and Protein Content of Anabaena sphaerica Under Different Light Conditions|Ecotoxicol. Environ. Saf.38(2): 144-149|1997|10.1006/eesa.1997.1570
18628|A||Burridge,L.E., and K. Haya|Lethality of Pyrethrins to Larvae and Postlarvae of the American Lobster (Homarus americanus)|Ecotoxicol. Environ. Saf.38(2): 150-154|1997|10.1006/eesa.1997.1571
18629|A||Van den Brink,P.J., E.M. Hartgers, U. Fettweis, S.J.H. Crum, E. Van Donk, and T.C.M. Brock|Sensitivity of Macrophyte-Dominated Freshwater Microcosms to Chronic Levels of the Herbicide Linuron. I. Primary Producers|Ecotoxicol. Environ. Saf.38(1): 13-24|1997|10.1006/eesa.1997.1555
18630|A||Cuppen,J.G.M., P.J. Van den Brink, H. Van der Woude, N. Zwaardemaker, and T.C.M. Brock|Sensitivity of Macrophyte-Dominated Freshwater Microcosms to Chronic Levels of the Herbicide Linuron II. Community Metabolism and Invertebrates|Ecotoxicol. Environ. Saf.38(1): 25-35|1997|10.1006/eesa.1997.1556
18631|A||Soengas,J.L., E.F. Strong, M. Aldegunde, and M.D. Andres|Effects of an Acute Exposure to Lindane (gamma-Hexachlorocyclohexane) on Brain and Liver Carbohydrate Metabolism of Rainbow Trout|Ecotoxicol. Environ. Saf.38(2): 99-107|1997|10.1006/eesa.1997.1559
18633|A||Seegert,G.L., A.S. Brooks, and D.L. Latimer|The Effects of a 30-Minute Exposure of Selected Lake Michigan Fishes and Invertebrates to Residual Chlorine|In: L.D.Jensen (Ed.), Biofouling Control Procedures, Marcel Dekker Publ., New York, NY:91-99|1977|
18634|A||Whitaker,J., J. Barica, H. Kling, and M. Buckley|Efficacy of Copper Sulphate in the Suppression of Aphanizomenon flos-aquae Blooms in Prairie Lakes|Environ. Pollut.15:185-194|1978|
18635|A||Belanger,S.E.|Use of Experimental Stream Mesocosms to Assess Ecosystem Risk: A Case Study with a Cationic Surfactant|In: J.Cairns,Jr., B.R.Neiderlehner, and D.R.Orvos (Eds.), Predicting Ecosystem Risk, Chapter 13, Princeton Scientific Publ.Co., NJ:263-287|1992|
18636|A||De Maagd,P.G.J., I.C.M. Van de Klundert, A.P. Van Wezel, A. Opperhuizen, and D.T.H.M. Sijm|Lipid Content and Time-to-Death-Dependent Lethal Body Burdens of Naphthalene and 1,2,4-Trichlorobenzene in Fathead Minnow (Pimephales promelas)|Ecotoxicol. Environ. Saf.38(3): 232-237|1997|10.1006/eesa.1997.1583
18637|A||Akesson,B., and F. Ehrenstrom|Avoidance Reactions of Dorvilleid Polychaetes When Exposed to Chemical-Contaminated Sediments|In: G.Persoone, E.Jaspers, and C.Claus (Eds.), Ecotoxicolgical Testing for the Marine Environment, State University of Ghent, Bredene, Belgium:3-12|1984|
18638|A||Lam,P.K.S., K.N. Yu, K.P. Ng, and M.W.K. Chong|Cadmium Uptake and Depuration in the Soft Tissues of Brotia hainanensis (Gastropoda:  Prosobranchia:  Thiaridae):  A Dynamic Model|Chemosphere35(11): 2449-2461|1997|10.1016/S0045-6535(97)00313-5
18639|A||Utsunomiya,A., T. Watanuki, K. Matsushita, M. Nishina, and I. Tomita|Assessment of the Toxicity of Linear Alkylbenzene Sulfonate and Quaternary Alkylammonium Chloride by Measuring 13C-Glycerol in Dunaliella sp.|Chemosphere35(11): 2479-2490|1997|10.1016/S0045-6535(97)00316-0
18640|A||Lanzky,P.F., and B. Halling-Sorensen|The Toxic Effect of the Antibiotic Metronidazole on Aquatic Organisms|Chemosphere35(11): 2553-2561|1997|10.1016/S0045-6535(97)00324-X
18641|A||Shizhong,T., L. Zan, W. Jianhua, and Z. Yongyuan|Growth of Chlorella vulgaris in Cultures with Low Concentration Dimethoate as Source of Phosphorus|Chemosphere35(11): 2713-2718|1997|10.1016/S0045-6535(97)00329-9
18642|A||Inza,B., F. Ribeyre, R. Maury-Brachet, and A. Boudou|Tissue Distribution of Inorganic Mercury, Methylmercury and Cadmium in the Asiatic Clam (Corbicula fluminea) in Relation to the Contamination Levels|Chemosphere35(12): 2817-2836|1997|10.1016/S0045-6535(97)00342-1
18643|A||Playle,R.C.|Physiological Effects of Aluminum on Rainbow Trout in Acidic Soft Water, with Emphasis on the Gill Micro-Environment|Ph.D.Thesis, McMaster University, Hamilton, Ont., Canada:249 p.|1989|
18644|A||Kim,Y., and K.R. Cooper|Interactions of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) for Producing Lethal and Sublethal Effects in the Japanese Medaka Embryos and Larvae|Chemosphere36(2): 409-418|1998|10.1016/S0045-6535(97)10066-2
18645|A||Kontreczky,C., A. Farkas, J. Nemcsok, and J. Salanki|Short- and Long-Term Effects of Deltamethrin on Filtering Activity of Freshwater Mussel (Anodonta cygnea L.)|Ecotoxicol. Environ. Saf.38(3): 195-199|1997|10.1006/eesa.1997.1575
18646|A||Errecalde,O., M. Seidl, and P.G.C. Campbell|Influence of a Low Molecular Weight Metabolite (Citrate) on the Toxicity of Cadmium and Zinc to the Unicellular Green Alga Selenastrum capricornutum|Water Res.32(2): 419-429|1998|10.1016/S0043-1354(97)00282-0
18647|A||Ho,T.F.L., and J.R. Bolton|Toxicity Changes During the UV Treatment of Pentachlorophenol in Dilute Aqueous Solution|Water Res.32(2): 489-497|1998|10.1016/S0043-1354(97)00219-4
18648|A||Sundaram,K.M.S., R. Nott, S.B. Holmes, and N. Boyonoski|The Distribution and Fate of Mexacarbate in a Forest Aquatic Ecosystem|Information Rep.No.FPM-X-73, Forest Pest Management Institute, Canadian Forestry Service, Sault Ste.Marie, Ontario:23-|1986|
18649|A||Bryan,G.W.|The Effects of Oil-Spill Removers (`Detergents') on the Gastropod Nucella lapillus on a Rocky Shore and in the Laboratory|J. Mar. Biol. Assoc. U.K.49:1067-1092|1969|10.1017/S0025315400038108
18650|A||Giesy,J.P., S.R. Denzer, C.S. Duke, and G.W. Dickson|Phosphoadenylate Concentrations and Energy Charge in Two Freshwater Crustaceans: Responses to Physical and Chemical Stressors|Verh. Int. Ver. Theor. Angew. Limnol.21:205-220|1981|
18651|A||Mercier,A., E. Pelletier, and J.F. Hamel|Response of Temperate Sea Anemones to Butyltin Contamination|Can. J. Fish. Aquat. Sci.55(1): 239-245|1998|10.1139/f97-249
18653|A||De Coen,W.M., and C.R. Janssen|The Use of Biomarkers in Daphnia magna Toxicity Testing. IV. Cellular Energy Allocation: A new Methodology to Assess the Energy Budget of Toxicant|J. Aquat. Ecosyst. Stress Recovery6:43-55|1997|10.1023/A:1008228517955
18654|A||Janssen,C.|The Use of Sublethal Criteria for Toxicity Tests with the Freshwater Rotifer Brachionus calyciflorus (Pallas)|Ph.D.Thesis, University of Gent, Belgium:157 p.|1992|
18655|A||Matta,M.B., C. Cairncross, and R.M. Kocan|Possible Effects of Polychlorinated Biphenyls on Sex Determination in Rainbow Trout|Environ. Toxicol. Chem.17(1): 26-29|1997|10.1002/etc.5620170104
18658|A||Styrishave,B., A.D. Rasmussen, and M.H. Depledge|The Influence of Bulk and Trace Metals on the Circadian Rhythm of Heart Rates in Freshwater Crayfish, Astacus astacus|Mar. Pollut. Bull.31(1-3): 87-92|1995|10.1016/0025-326X(95)00029-M
18659|A||Sosak-Swiderska,B., D. Tyrawska, U. Mazurek, and A. Wilczok|Morphometric Evaluation of Cadmium-Contaminated Chlorella vulgaris Beij. 1890, Strain A-8 Cells|Pol. Arch. Hydrobiol.41(1):133-147|1994|
18660|A||Skoglund,R.S., K. Stange, and D.L. Swackhamer|A Kinetics Model for Predicting the Accumulation of PCBs in Phytoplankton|Environ. Sci. Technol.30(7): 2113-2120|1996|10.1021/es950206d
18661|A||Davies,N.A., M.G. Taylor, and K. Simkiss|The Influence of Particle Surface Characteristics on Pollutant Metal Uptake by Cells|Environ. Pollut.96(2): 179-184|1997|10.1016/S0269-7491(97)00026-2
18662|A||Reddy,S.J., and R. Ramamurthi|Identification of Perturbations in Respiratory Metabolism of Prawn, Penaeus monodon During Phosalone Toxicity|J. Ecotoxicol. Environ. Monit.7(2): 145-149|1997|
18664|A||Gopal,K., and M. Ram|Alteration in the Neurotransmitter Levels in the Brain of the Freshwater Snakehead Fish (Channa punctatus) Exposed to Carbofuran|Ecotoxicology4(1): 1-4|1995|10.1007/BF00350646
18665|A||Farmer,D., I.R. Hill, and S.J. Maund|A Comparison of the Fate and Effects of Two Pyrethroid Insecticides (lambda-Cyhalothrin and Cypermethrin) in Pond Mesocosms|Ecotoxicology4(4): 219-244|1995|10.1007/BF00116342
18666|A||Lim,P.E., C.K. Lee, and Z. Din|Accumulation of Heavy Metals by Cultured Oysters from Merbok Estuary, Malaysia|Mar. Pollut. Bull.31(4-12): 420-423|1995|10.1016/0025-326X(95)00144-C
18668|A||Davies,N.A., and K. Simkiss|The Uptake of Zinc from Artificial Sediments by Mytilus edulis|J. Mar. Biol. Assoc. U.K.76:1073-1079|1996|10.1017/S0025315400040960
18669|A||Orner,G.A., R.M. Donohoe, J.D. Hendricks, L.R. Curtis, and D.E. Williams|Comparison of the Enhancing Effects of Dehydroepiandrosterone with the Structural Analog 16alpha-Fluoro-5-Androsten-17-One on Aflatoxin B1|Fundam. Appl. Toxicol.34:132-140|1996|10.1006/faat.1996.0183
18671|A||Hall,L.W.,Jr., M.C. Ziegenfuss, R.D. Anderson, and B.L. Lewis|The Effect of Salinity on the Acute Toxicity of Total and Free Cadmium to a Chesapeake Bay Copepod and Fish|Mar. Pollut. Bull.30(6): 376-384|1995|10.1016/0025-326X(94)00186-D
18672|A||Baden,S.P., S.P. Eriksson, and J.M. Weeks|Uptake, Accumulation and Regulation of Manganese During Experimental Hypoxia and Normoxia by the Decapod Nephrops norvegicus (L.)|Mar. Pollut. Bull.31(1-3): 93-102|1995|10.1016/0025-326X(94)00257-A
18673|A||Kurelec,B., P. Waldmann, and R.K. Zahn|The Modulation of Protective Effects of the Multixenobiotic Resistance Mechanism in a Clam Corbicula fluvinea|Mar. Environ. Res.42(1-4): 383-387|1996|10.1016/0141-1136(96)87092-9
18674|A||Brown,P.L., R.A. Jeffree, and S.J. Markich|Kinetics of 45Ca, 60Co, 210Pb, 54Mn and 109Cd in the Tissue of the Freshwater Bivalve Velesunio angasi: Further Development of a Predictive and|Sci. Total Environ.188:139-166|1996|10.1016/0048-9697(96)05166-2
18675|A||Palace,V.P., and S.B. Brown|HPLC Determination of Tocopherol, Retinol, Dehydroretinol and Retinyl Palmitate in Tissues of Lake Char (Salvelinus namaycush) Exposed to Coplanar|Environ. Toxicol. Chem.13(3): 473-476|1994|
18676|A||Foran,J.A., L.L. Holst, and J.P. Giesy|Effects of Photoenhanced Toxicity of Anthracene on Ecological and Genetic Fitness of Daphnia magna: A Reappraisal|Environ. Toxicol. Chem.10(3): 425-427|1991|10.1002/etc.5620100314
18677|A||Wright,P.A., and C.M. Wood|An Analysis of Branchial Ammonia Excretion in the Freshwater Rainbow Trout: Effects of Environmental pH Change and Sodium Uptake Blockade|J. Exp. Biol.114:329-353|1985|10.1242/jeb.114.1.329
18678|A||Macek,K.J., and S. Korn|Significance of the Food Chain in DDT Accumulation by Fish|J. Fish. Res. Board Can.27(8): 1496-1498|1970|10.1139/f70-172
18680|A||Patel,S.K., and P.G. Parmar|Studies on Acute Toxicity of Endosulfan on Protein Contents of Boleophthalmus dussumieri (Cuv. and Val.) from Bhavnagar Sea Coast|Proc. Acad. Environ. Biol.2(2): 205-209|1993|
18681|A||Speare,D.J., and G.J. Arsenault|Effects of Intermittent Hydrogen Peroxide Exposure on Growth and Columnaris Disease Prevention of Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.54(11): 2653-2658|1997|10.1139/f97-169
18682|A||Krisfalusi,M., V.P. Eroschenko, and J.G. Cloud|Exposure of Juvenile Rainbow Trout (Oncorhynchus mykiss) to Methoxychlor Results in a Dose-Dependent Decrease in Growth and Survival but Does not Alter Male Sexual Differentiation|Bull. Environ. Contam. Toxicol.60:659-666|1998|10.1007/s001289900677
18683|A||Xue,R.D., A. Ali, R. Lobinske, and N. Carandang|Effects of a Temephos Application on Nuisance Chironomidae (Diptera) and Non-target Invertebrates in a Residential-Recreational Lake in Florida|J. Fla. Mosq. Control Assoc.64(1): 1-5|1993|
18684|AT||Sulaiman,S., M. Abdul Karim, B. Omar, and S. Omar|Field Evaluation of lambda-Cyhalothrin and Cyfluthrin Against the Dengue Vectors in an Endemic Area in Malaysia|J. Fla. Mosq. Control Assoc.64(1): 26-29|1993|
18687|A||Klerks,P.L., and P.C. Fraleigh|Controlling Adult Zebra Mussels with Oxidants|J. Am. Water Works Assoc.83:92-100|1991|10.1002/j.1551-8833.1991.tb07270.x
18688|A||Toth,L.G., M. Szabo, and P. Biro|Toxic Effect of the Mosquito Killer, S-Deltamethrine, on the Development and Respiratory Electron Transport System Activity of the Embryos of Bream|Lakes Reserv. Res. Manag.1(2): 127-139|1995|10.1111/j.1440-1770.1995.tb00013.x
18689|A||Begum,G., and S. Vijayaraghavan|Chronic Effects of Dimethoate on the Reproductive Potential of the Fresh-Water Teleost, Clarias batrachus|Pestic. Sci.44(3): 233-236|1995|10.1002/ps.2780440305
18690|A||Liu,J.S., J.S. Chen, and Z.T. Yu|The Effect of Common Fungicides on Chinese Sucker Myxocyprinus asiaticus Eggs|J. World Aquac. Soc.26(1): 84-87|1995|10.1111/j.1749-7345.1995.tb00213.x
18691|A||Wise,D.J., J.R. Tomasso, and T.M. Brandt|Ascorbic Acid Inhibition of Nitrite-Induced Methemoglobinemia in Channel Catfish|Prog. Fish-Cult.50(2): 77-80|1988|10.1577/1548-8640(1988)050<0077:AAIONI>2.3.CO;2
18698|A||Albergoni,V., and A. Viola|Effects of Cadmium on Catfish, Ictalurus melas, Humoral Immune Response|Fish Shellfish Immunol.5(2): 89-95|1995|10.1016/S1050-4648(05)80019-1
18699|A||Sujatha,C.H., S.M. Nair, and J. Chacko|Tissue Lipid Levels of the Clam, Villorita cyprenoides var. Cochinensis, Following Exposure to Endosulfan, Malathion, and Methyl Parathion|Environ. Toxicol. Water Qual.10(4): 231-235|1995|10.1002/tox.2530100402
18700|A||Morse,H.R., N.J. Jones, K. Peltonen, R.G. Harvey, and R. Waters|The Identification and Repair of DNA Adducts Induced by Waterborne Benzo(a)pyrene in Developing Xenopus laevis Larvae|Mutagenesis11(1): 101-109|1996|10.1093/mutage/11.1.101
18701|A||Munkittrick,K.R., B.R. Blunt, M. Leggett, S. Huestis, and L.H. McCarthy|Development of a Sediment Bioassay to Determine Bioavailability of PAHs to Fish|J. Aquat. Ecosyst. Health4(3): 169-181|1995|10.1007/BF00116652
18702|A||Hofelt,C.S., and D. Shea|Accumulation of Organochlorine Pesticides and PCBs by Semipermeable Membrane Devices and Mytilus edulis in New Bedford Harbor|Environ. Sci. Technol.31:154-159|1997|10.1021/es9602509
18703|A||Mensink,B.P., J.M. Everaarts, H. Kralt, C.C. Hallers-Tjabbes, and J.P. Boon|Tributyltin Exposure in Early Life Stages Induces the Development of Male Sexual Characteristics in the Common Whelk, Buccinum undatum|Mar. Environ. Res.42(1-4): 151-154|1996|10.1016/0141-1136(95)00041-0
18704|A||Haasch,M.L.|Induction of Anti-Trout Lauric Acid Hydroxylase Immunoreactive Proteins by Peroxisome Proliferators in Bluegill and Catfish|Mar. Environ. Res.42(1-4): 287-291|1996|10.1016/0141-1136(95)00032-1
18705|A||Lee,R.F., O. Malley, and Y. Oshima|Effects of Toxicants on Developing Oocytes and Embryos of the Blue Crab, Callinectes sapidus|Mar. Environ. Res.42(1-4): 125-128|1996|10.1016/0141-1136(95)00079-8
18706|A||Zhou,T., R. Scali, P. Weis, and J.S. Weis|Behavioral Effects in Mummichog Larvae (Fundulus heteroclitus) Following Embryonic Exposure to Methylmercury|Mar. Environ. Res.42(1-4): 45-49|1996|10.1016/0141-1136(95)00048-8
18707|A||Schrader,K.K., M.Q. De Regt, P.R. Tidwell, C.S. Tucker, and S.O. Duke|Selective Growth Inhibition of the Musty-Odor Producing Cyanobacterium Oscillatoria cf. chalybea by Natural Compounds|Bull. Environ. Contam. Toxicol.60:651-658|1998|10.1007/s001289900676
18708|A||Pempkowiak,J., J. Kozuch, and T. Southon|The Influence of Structural Features of Marine Humic Substances on the Accumulation Rates of Cadmium by a Blue Mussel Mytilus edulis|Environ. Int.20(3): 391-395|1994|10.1016/0160-4120(94)90125-2
18710|A||Rebach,S., and D.P. French|Effects of Dimilin on the Blue Crab, Callinectes sapidus, in Shallow-Water Habitats|Estuaries19(2A): 279-287|1996|10.2307/1352233
18711|A||Peachey,R.L., and D.G. Crosby|Phototoxicity in a Coral Reef Flat Community|In: D.Gulko and P.L.Jokiel (Eds.), Ultraviolet Radiation and Coral Reefs, HIMB Tech.Rep.#41, University of Hawaii, Honolulu, HI:193-200|1995|
18712|A||Beaumont,A.R., and J.E. Toro|Allozyme Genetics of Mytilus edulis Subjected to Copper and Nutritive Stress|J. Mar. Biol. Assoc. U.K.76:1061-1071|1996|10.1017/S0025315400040959
18719|A||Cochran,R.E., and L.E. Burnett|Respiratory Responses of the Salt Marsh Animals, Fundulus heteroclitus, Leiostomus xanthurus, and Palaemonetes pugio to Environmental Hypoxia and Hypercapnia and to the Organophosphate Pesticide, Azinphosmethyl|J. Exp. Mar. Biol. Ecol.195:125-144|1996|10.1016/0022-0981(95)00102-6
18720|A||Wilczok,A., U. Mazurek, D. Tyrawska, and B. Sosak-Swiderska|Effect of Cadmium on the Cell Division of Chlorella vulgaris Beij. 1890, Strain A-8|Pol. Arch. Hydrobiol.41(1): 123-131|1994|
18721|A||Sosak-Swiderska,B., and D. Tyrawska|Cadmium Accumulation Ability of Chlorella vulgaris Beij. 1890, Strain A-8|Pol. Arch. Hydrobiol.41(1): 149-159|1994|
18722|A||Vedel,G.R., and M.H. Depledge|Stress-70 Levels in the Gills of Carcinus maenas Exposed to Copper|Mar. Pollut. Bull.31(1-3): 84-86|1995|10.1016/0025-326X(95)00037-N
18723|A||Qixing,Z., and D. Limei|Joint Effects of Chromium and Phenol on Marine Prawns (Penaeus japonicus)|Mar. Pollut. Bull.31(4-12): 387-389|1995|10.1016/0025-326X(95)00175-M
18724|A||Le Bris,H., H. Pouliquen, J.M. Debernardi, V. Buchet, and L. Pinault|Preliminary Study on the Kinetics of Oxytetracycline in Shellfish Exposed to an Effluent of a Land-Based Fish Farm:  Experimental Approach|Mar. Environ. Res.40(2): 171-180|1995|10.1016/0141-1136(94)00009-E
18725|A||Axiak,V., M. Sammut, P. Chircop, A. Vella, and B. Mintoff|Laboratory and Field Investigations on the Effects of Organotin (Tributyltin) on the Oyster, Ostrea edulis|Sci. Total Environ.171(1-3): 117-120|1995|10.1016/0048-9697(95)04670-5
18726|A||Gallo,D., A. Merendino, J. Keizer, and L. Vittozzi|Acute Toxicity of Two Carbamates to the Guppy (Poecilia reticulata) and the Zebrafish (Brachydanio rerio)|Sci. Total Environ.171(1-3): 131-136|1995|10.1016/0048-9697(95)04681-X
18727|A||Yu,K.N., T. Cheung, E.C.M. Young, and D.L. Luo|The Bioconcentration of 131I in Fresh Water Fish|Health Phys.71(5): 719-722|1996|10.1097/00004032-199611000-00012
18728|A||Reddy,S.J., N. Aruna, and R. Ramamurthi|Glutathione S-Transferase Activity and Protein Synthetic Capacity of the Crab in Relation to Xenobiotic Stress|J. Ecotoxicol. Environ. Monit.6(2): 135-141|1996|
18729|A||Pouliquen,H., H. Le Bris, V. Buchet, and L. Pinault|Comparative Study on the Contamination and Decontamination of Japanese Oyster Crassostrea gigas and Blue Mussel Mytilus edulis by Oxytetracycline and Oxolinic Acid|Mar. Ecol. Prog. Ser.133:143-148|1996|10.3354/meps133143
18730|A||Liu,M., G. Li, S. Zhang, W. Bao, and H. Gu|Influence of Toxicity of Metal Ions on Survival of Larval of Penaeus orientalis|Stud. Mar. Sin. (Haiyang Kexue Jikan)36(10): 165-174|1995|
18731|A||Wei,L., Z. Wenfang, and L. Xinfu|Test for Residue of Permethrin in Fish|Sinozoologia12(7): 133-137|1995|
18732|A||Clayton,R.D., and R.C. Summerfelt|Toxicity of Hydrogen Peroxide to Fingerling Walleyes|J. Appl. Aquacult.6(3): 39-49|1996|10.1300/J028v06n03_04
18733|A||Hu,S., C.H. Tang, and M. Wu|Cadmium Accumulation by Several Seaweeds|Sci. Total Environ.187:65-71|1996|10.1016/0048-9697(96)05143-1
18734|A||Nelson,L.S.|Growth Regulation of Eurasian Watermilfoil with Flurprimidol|J. Plant Growth Regul.15(1): 33-38|1996|10.1007/BF00213132
18735|A||Ronis,M.J.J., and A.Z. Mason|The Metabolism of Testosterone by the Periwinkle (Littorina littorea) In Vitro and In Vivo: Effects of Tributyl Tin|Mar. Environ. Res.42(1-4): 161-166|1996|10.1016/0141-1136(95)00069-0
18736|A||Celander,M., J.J. Stegeman, and L. Forlin|CYP1A1-, CYP2B- and CYP3A-Like Proteins in Rainbow Trout (Oncorhynchus mykiss) Liver: CYP1A1-Specific Down-Regulation After Prolonged Exposure to PCB|Mar. Environ. Res.42(1-4): 283-286|1996|10.1016/0141-1136(95)00045-3
18737|A||Becnel,J.J., J. Garcia, and M. Johnson|Effects of Three Larvicides on the Production of Aedes albopictus Based on Removal of Pupal Exuviae|Am. Mosq. Control Assoc. J.12(3): 499-502|1996|
18738|A||Hobden,D.J.|Iron Metabolism in Mutilus edulis II. Uptake and Distribution of Radioactive Iron|J. Mar. Biol. Assoc. U.K.49:661-668|1969|10.1017/S0025315400037206
18739|A||Key,P.B., M.H. Fulton, S.L. Layman, and G.I. Scott|Azinphosmethyl Exposure to Grass Shrimp (Palaemonetes pugio) Life Stages with Emphasis on Larval Acetylcholinesterase Activity|Bull. Environ. Contam. Toxicol.60:645-650|1998|10.1007/s001289900675
18741|A||Hah,J.C.|Effects of the Heavy Metal Pollution on the Primordial Germ Cells of Developing Amphibia|Korean J. Zool.21(2): 43-58|1978|
18742|A||Yaron,Z.|Research Centre Report|MAP Tech. Rep. Ser. (Multiple Languages)4:37-43|1986|
18746|A||Czerpak,R., A. Bajguz, K. Chodkowski, and H. Popow|Influence of Nickel and Cobalt on the Growth and Biochemical Changes of Chlorella pyrenoidosa (Chlorophyceae)|Pol. Arch. Hydrobiol.41(2): 161-169|1994|
18747|A||Hagen,H.L., S. Stephens, G.V. Chambers, and D.J. Womeldorf|Effects of Three Petroleum Hydrocarbon Mosquito Larvicides on the Surface Tension of Water and on Certain Nontarget Organisms|Calif. Vector Views20(6): 47-52|1973|
18749|A||Hicks,C.E., and J.M. Neuhold|Alkyl Benzene Sulfonate Effects on Stream Algae Communities|Bull. Environ. Contam. Toxicol.1(6): 225-236|1966|10.1007/BF01684064
18750|A||Virk,S., and R.C. Sharma|Effect of Nickel and Chromium on Various Life Stages of Cyprinus carpio Linn|Indian J. Ecol.22(2): 77-81|1995|
18751|A||Singh,L.J., and D.N. Tiwari|Some Important Parameters in the Evaluation of Herbicide Toxicity in Diazotrophic Cyanobacteria|J. Appl. Bacteriol.64:365-376|1988|10.1111/j.1365-2672.1988.tb05092.x
18752|A||Gadkari,D.|Assessment of the Effects of the Photosynthesis-Inhibiting Herbicides Diuron, DCMU, Metamitron and Metribuzin on Growth and Nitrogenase Activity of Nostoc muscorum and a New Cyanobacterial Isolate, Strain G4|Biol. Fertil. Soils6:50-54|1988|10.1007/BF00257920
18753|A||Chen,J.C., and S.F. Chen|Accumulation of Nitrite in Hemolymph of Penaeus japonicus|Mar. Ecol. Prog. Ser.83:305-308|1992|10.3354/meps083305
18754|A||Yoshitomi,T., J. Koyama, A. Lida, N. Okamoto, and Y. Ikeda|Cadmium-Induced Scale Deformation in Carp (Cyprinus carpio)|Bull. Environ. Contam. Toxicol.60:639-644|1998|10.1007/s001289900674
18755|A||Harland,A.D., and B.E. Brown|Metal Tolerance in the Scleractinian Coral Porites lutea|Mar. Pollut. Bull.20(7): 353-357|1989|10.1016/0025-326X(89)90159-8
18756|A||Gramlich,J.V., and R.E. Frans|Kinetics of Chlorella Inhibition by Herbicides|Weeds (Urbana)12:184-189|1964|10.2307/4040725
18757|A||St.John,J.B.|Comparative Effects of Diuron and Chlorpropham on ATP Levels in Chlorella|Weed Sci.19(3): 274-276|1971|10.1017/S0043174500048876
18758|A||Chang,C.F., M.S. Su, and I.C. Liao|Effects of Temperature on the Toxicity of Masoten to Larval Black Sea Bream, Acanthopagrus schlegeli|J. Taiwan Fish. Res.1(2): 31-37|1993|
18759|A||Chen,J.C., K.W. Chen, and J.M. Chen|Effects of Saponin on Survival, Growth, Molting and Feeding of Penaeus japonicus Juveniles|Aquaculture144(1-3): 165-175|1996|10.1016/S0044-8486(96)01301-4
18760|A||Waring,C.P., and J.A. Brown|Plasma and Tissue Thyroxine and Triiodothyronine Contents in Sublethally Stressed, Aluminum-Exposed Brown Trout (Salmo trutta)|Gen. Comp. Endocrinol.106:120-126|1997|10.1006/gcen.1996.6859
18761|A||Sherief,P.M., J.R.R. Nair, and P.S. Mrithyunjayan|Uptake and Depuration of Phenol by Rohu (Labeo rohita) During a Chronic Sublethal Bioassay|Fish. Technol.33(1): 6-9|1996|
18762|A||Cruz-Lacierda,E.R.|Toxicity of Rotenone to Milkfish, Chanos chanos, and Tilapia, Oreochromis mossambicus|In: I.M.Shariff, R.P.Subasinghe, and J.R.Arthur (Eds.), Diseases in Asian Aquaculture I, Fish Health Section, Asian Fisheries Society, Manila, Philippines:419-423|1992|
18763|A||Van der Heever,J.A., and J.U. Grobbelaar|Evaluation of Short-Incubation-Time Small-Volume Radiocarbon-Uptake Algal Toxicity Test|J. Appl. Phycol.8(1): 65-71|1996|10.1007/BF02186224
18764|A||McCarry,M.J.|Efficacy and Persistence of Altosid Pellets Against Culex Species in Catch Basins in Michigan|Am. Mosq. Control Assoc. J.12(1): 144-146|1996|
18765|A||Liber,K., K.L. Schmude, and T.D. Corry|Effects of the Insect Growth Regulator Diflubenzuron on Insect Emergence within Littoral Enclosures|Environ. Entomol.25(1): 17-24|1996|10.1093/ee/25.1.17
18766|A||Reimschuessel,R., and D. Williams|Development of New Nephrons in Adult Kidneys Following Gentamicin-Induced Nephrotoxicity|Renal Fail.17(2): 101-106|1995|10.3109/08860229509026246
18767|A||Serdar,D.M., and A.F. Johnson|Seawater Challenge of Coho Salmon Smolts Following Exposure to the Herbicide Endothall|Prog. Fish-Cult.58:131-134|1996|10.1577/1548-8640(1996)058<0131:SCOCSS>2.3.CO;2
18768|A||Felton,S.P., M.L. Landolt, R. Grace, and A. Palmisano|Effects of Selenium Dietary Enhancement on Hatchery-Reared Coho Salmon, Oncorhynchus kisutch (Walbaum), when Compared with Wild Coho: Hepatic Enzymes|Aquac. Res.27:135-142|1996|10.1111/j.1365-2109.1996.tb00977.x
18769|A||Netherland,M.D., and K.D. Getsinger|Potential Control of Hydrilla and Eurasian Watermilfoil Under Various Fluridone Half-Life Scenarios|J. Aquat. Plant Manag.33:36-42|1995|
18770|A||Tietze,N.S., P.G. Hester, and K.R. Shaffer|Acute Effects of Permanone 31-66 (Permethrin-Piperonyl Butoxide) on Nontarget Minnows and Grass Shrimp|Am. Mosq. Control Assoc. J.11(4): 476-479|1995|
18771|A||Jung,R.E., and C.H. Jagoe|Effects of Low pH and Aluminum on Body Size, Swimming Performance, and Susceptibility to Predation of Green Tree Frog (Hyla cinerea) Tadpoles|Can. J. Zool.73(12): 2171-2183|1995|10.1139/z95-257
18772|A||Holladay,S.D., S.A. Smith, H. El Habback, and T. Caceci|Influence of Chlorpyrifos, an Organophosphate Insecticide, on the Immune System of Nile Tilapia|J. Aquat. Anim. Health8(2): 104-110|1996|10.1577/1548-8667(1996)008<0104:IOCAOI>2.3.CO;2
18773|A||Stange,K., and D.L. Swackhamer|Factors Affecting Phytoplankton Species-Specific Differences in Accumulation of 40 Polychlorinated Biphenyls (PCBs)|Environ. Toxicol. Chem.13(11): 1849-1860|1994|
18774|A||Jones,J., M. Kinnel, R. Christenson, and R. Reimschuessel|Gentamicin Concentrations in Toadfish and Goldfish Serum|J. Aquat. Anim. Health9:211-215|1997|10.1577/1548-8667(1997)009<0211:CGCITA>2.3.CO;2
18775|A||Cavalli,R.O., W.,Jr. Wasielesky, C.S. Franco, and K.M. Filho|Evaluation of the Short-Term Toxicity of Ammonia, Nitrite and Nitrate to Penaeus paulensis (Crustacea, Decapoda) Broodstock|Arq. Biol. Tecnol. (Curitiba)39(3): 567-575|1996|
18776|A||Auffret,M., and R. Oubella|Cytometric Parameters of Bivalve Molluscs: Effect of Environmental Factors|In: Modulators of Fish Immune Responses, Vol.1, Chapter 3, SOS Publications, Fair Haven, NJ:23-32|1994|
18777|A||Subramanian,V.V., V. Sivasubramanian, and K.P. Gowrinathan|Uptake and Recovery of Heavy Metals by Immobilized Cells of Aphanocapsa pulchra (Kutz.) Rabenh|J. Environ. Sci. Health Part A Environ. Sci. Eng.29(9): 1723-1733|1994|
18778|A||Rainbow,P.S., and S.L. White|Comparative Strategies of Heavy Metal Accumulation by Crustaceans: Zinc, Copper and Cadmium in a Decapod, an Amphipod and a Barnacle|Hydrobiologia (Multiple Languages)174(3): 245-262|1989|10.1007/BF00008164
18779|A||Taylor,G., D.J. Baird, and A.M.V.M. Soares|Surface Binding of Contaminants by Algae: Consequences for Lethal Toxicity and Feeding to Daphnia magna Straus|Environ. Toxicol. Chem.17(3): 412-419|1998|10.1002/etc.5620170310
18780|A||Hewitt,L.M., L. Tremblay, G.J. Van der Kraak, K.R. Solomon, and M.R. Servos|Identification of the Lampricide 3-Trifluoromethyl-4-Nitrophenol as an Agonist for the Rainbow Trout Estrogen Receptor|Environ. Toxicol. Chem.17(3): 425-432|1998|10.1002/etc.5620170312
18781|A||Schiewe,M.H., D.D. Weber, M.S. Myers, F.J. Jacques, W.L. Reichert, C.A. Krone, D.C. Malins, B.B. McCain, S.L. Chan, and|Induction of Foci of Cellular Alteration and Other Hepatic Lesions in English Sole (Parophrys vetulus) Exposed to an Extract of an Urban Marine Sediment|Can. J. Fish. Aquat. Sci.48(9): 1750-1760|1991|10.1139/f91-207
18782|A||Phillips,B.M., B.S. Anderson, and J.W. Hunt|Spatial and Temporal Variation in Results of Purple Urchin (Strongylocentrotus purpuratus) Toxicity Tests with Zinc|Environ. Toxicol. Chem.17(3): 453-459|1998|10.1002/etc.5620170316
18783|A||Benjamin,R.B., R. Brown III, M. Fraizer, B.M. Joab, R.E. Casey, and S.J. Klaine|Algal Growth Rate Fluctuations Observed Under Uniform Ambient Test Conditions Using Static and Semicontinuous Assay Techniques|Environ. Toxicol. Chem.17(3): 460-467|1998|10.1002/etc.5620170317
18784|A||Elonen,G.E., R.L. Spehar, G.W. Holcombe, R.D. Johnson, J.D. Fernandez, R.J. Erickson, J.E. Tietge, and P.M. Cook|Comparative Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Seven Freshwater Fish Species During Early Life-Stage Development|Environ. Toxicol. Chem.17(3): 472-483|1998|
18785|A||Swartz,R.C., D.W. Schults, T.H. DeWitt, G.R. Ditsworth, and J.O. Lamberson|Toxicity of Fluoranthene in Sediment to Marine Amphipods:  A Test of the Equilibrium Partitioning Approach to Sediment Quality Criteria|Environ. Toxicol. Chem.9(8): 1071-1080|1990|10.1002/etc.5620090814
18786|A||Go,E.C., A.S. Pandey, and T.H. MacRae|Effect of Inorganic Mercury on the Emergence and Hatching of the Brine Shrimp Artemia franciscana|Mar. Biol.107(1): 93-102|1990|10.1007/BF01313246
18787|A||Darmono,D.|Uptake of Cadmium and Nickel in Banana Prawn (Penaeus merguiensis de Man)|Bull. Environ. Contam. Toxicol.45(3): 320-328|1990|10.1007/BF01701153
18788|A||Wang,W.|The Effect of River Water on Phytotoxicity of Ba, Cd and Cr|Environ. Pollut. Ser. B Chem. Phys.11:193-204|1986|10.1016/0143-148X(86)90023-6
18789|A||Jeney,Z., J. Nemcsok, G. Jeney, and J. Olah|Acute Effect of Sublethal Ammonia Concentrations on Common Carp (Cyprinus carpio L.). I. Effect of Ammonia on Adrenaline and Noradrenaline Levels in|Aquaculture104(1-2): 139-148|1992|10.1016/0044-8486(92)90144-A
18791|A||Reddy,M.S., and K.V.R. Rao|Influence of Salinity on the Toxicity of Phosphamidon to the Estuarine Crab, Scylla serrata (Forskal)|Bull. Environ. Contam. Toxicol.44(6): 859-864|1990|10.1007/BF01702175
18792|A||Giesy,J.P.,Jr.|Cadmium Inhibition of Leaf Decomposition in an Aquatic Microcosm|Chemosphere7(6): 467-475|1978|10.1016/0045-6535(78)90015-2
18793|A||Levi,G., G. Morisi, A. Coletti, and R. Catanzaro|Free Amino Acids in Fish Brain: Normal Levels and Changes upon Exposure to High Ammonia Concentrations In Vivo, and upon Incubation of Brain Slices|Comp. Biochem. Physiol. A Comp. Physiol.49:623-636|1974|10.1016/0300-9629(74)90890-1
18794|A||Asma,V.M., and K.J. Mathew|Impact Assessment of Biocides on Microalgae: A Study In Vitro|CMFRI (Cent.Mar.Fish.Res.Inst.) Bull.61 Special Publ.:112-116|1995|
18795|A||Bledsoe,D.R.|Development of a Manometric Fish Bioassay Technique for Water Pollution|M.S.Thesis, Tennessee Technological University, Cookeville, TN:116 p.|1977|
18796|AT||Kreutzweiser,D.P.|The Effects of Permethrin on the Invertebrate Fauna of a Quebec Forest|Inf. Rep. Can. For. Serv. Great Lakes For. Cent.:44 p.|1982|
18797|A||Watson,R.A., K.L. Cooper, M.G. Rankin, and E. Garay|Research and Applied Investigation to Establish a Pentachlorophenol (PCP) Concentration to Protect a Salmon Creek Impacted by Wood Treatment Operations|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:46-|1995|
18798|A||Neville,C.|Interpretation of Data from Short-Term Growth Tests Using the Sacfry to Early Swim-Up Life Stage of Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:52-54|1995|
18799|A||James,R., K. Sampath, and P. Selvamani|Effect of EDTA on Reduction of Copper Toxicity in Oreochromis mossambicus (Peters)|Bull. Environ. Contam. Toxicol.60:487-493|1998|10.1007/s001289900651
18800|A||Westlake,G.F., L.J. Novak, and K.M. Murphy|The Importance of a Gradient as a Cue for Fish that Avoid Toxicants and Whole Effluents|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:55-|1995|
18801|A||Cantrell,S.M., M. Hannink, and D. Tillitt|N-Acetyl Cysteine Provides Partial Protection Against TCDD-Induced Lethality in Fish Embryos|Mar. Environ. Res.42(1-4): 113-118|1996|10.1016/0141-1136(95)00062-3
18802|A||Kiparissis,Y., and C.D. Metcalfe|Induction of EROD and Embryotoxicity in Fish Exposed to Phytochemicals|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2050:130-|1995|
18804|A||Kaushik,N., and S. Kumar|Midgut Pathology of Aldrin, Monocrotophos, and Carbaryl in the Freshwater Crab, Paratelphusa masoniana (Henderson)|Bull. Environ. Contam. Toxicol.60:480-486|1998|10.1007/s001289900650
18805|A||Howe,G.E., R. Gillis, and R.C. Mowbray|Effect of Chemical Synergy and Larval Stage on the Toxicity of Atrazine and Alachlor to Amphibian Larvae|Environ. Toxicol. Chem.17(3): 519-525|1998|10.1002/etc.5620170324
18810|A||Bland,C.E., D.G. Ruch, B.R. Salser, and D.V. Lightner|Chemical Control of Lagenidium, a Fungal Pathogen of Marine Crustacea|NOAA Office of Sea Grant, Dep.of Commerce, State of North Carolina:445-472|1976|
18811|A||Makela,P., T. Petanen, and A. Oikari|Uptake, Body Distribution and Elimination of Chlorinated Phenolics in the Freshwater Mussel|In: 10th Annu.Meet., Soc.of Environ.Toxicol.and Chem., Oct.28-Nov.2, 1989, Toronto, Ontario, Canada:248-|1989|
18812|A||Rifici,L.M., D.S. Cherry, and J.,Jr. Cairns|Methylene Blue as a Fitness Indicator in Larval Fish Testing|In: 10th Annual Meeting, Society of Environmental Toxicology and Chemistry, Oct.28-Nov.2, 1989, Toronto, Ontario, Canada:256-|1989|
18813|A||Pelletier,J., K. Williamson, and H. Lee II|Cadmium Uptake by Abarenicola pacifica in Sediments Equilibrated to Various Aqueous Concentrations|In: 12th Annual Meeting, Society of Environmental Toxicology and Chemistry, Nov.3-7, 1991, Seattle, WA:248-|1991|
18815|A||Chen,J.C., and Y. Lee|Effects of Nitrite on Mortality, Ion Regulation and Acid-Base Balance of Macrobrachium rosenbergii at Different External Chloride Concentrations|Aquat. Toxicol.39(3/4): 291-305|1997|10.1016/S0166-445X(97)00029-5
18816|A||Oberemm,A., J. Fastner, and C.E.W. Steinberg|Effects of Microcystin-LR and Cyanobacterial Crude Extracts on Embryo-Larval Development of Zebrafish (Danio rerio)|Water Res.31(11): 2918-2921|1997|10.1016/S0043-1354(97)00120-6
18817|A||Nordone,A.J., T.A. Dotson, M.F. Kovacs, R. Doane, and R.C. Biever|Metabolism of [14C] Acrolein (Magnacide H Herbicide):  Nature and Magnitude of Residues in Freshwater Fish and Shellfish|Environ. Toxicol. Chem.17(2): 276-281|1998|10.1002/etc.5620170220
18818|A||Kamimura,M., and T. Tanimura|The Xenopus laevis Embryo System for Evaluation of the Developmental Toxicity Using Non-Mammalian Species|Teratology32:5B|1985|
18819|A||Ibrahim,H., R. Kheir, S. Helmi, J. Lewis, and M. Crane|Effects of Organophosphorus, Carbamate, Pyrethroid and Organochlorine Pesticides, and a Heavy Metal on Survival and Cholinesterase Activity of|Bull. Environ. Contam. Toxicol.60:448-455|1998|10.1007/s001289900646
18820|A||Kito,H., T. Tazawa, Y. Ose, T. Sato, and T. Ishikawa|Protection by Metallothionein Against Cadmium Toxicity|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 135-139|1982|10.1016/0306-4492(82)90180-0
18821|A||Opdyke,D.F., D.W. Wilde, and R.F. Holcombe|Effect of Angiotensin II on Vascular Resisitance in Whole-Body Perfused Dogfish|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 45-49|1982|10.1016/0306-4492(82)90166-6
18822|A||Ueng,T.H., Y.F. Ueng, and M.W. Chou|Regioselective Metabolism of Benzo(a)pyrene and 7-Chlorobenz[a]anthracene by Fish Liver Microsomes|Toxicol. Lett.70(1): 89-99|1994|10.1016/0378-4274(94)90148-1
18823|A||Malins,D.C., B.B. McCain, M.S. Myers, D.W. Brown, M.M. Krahn, W.T. Roubal, M.H. Schiewe, J.T. Landahl, and S.L. Chan|Field and Laboratory Studies of the Etiology of Liver Neoplasms in Marine Fish from Puget Sound|Environ. Health Perspect.71:5-16|1987|10.1289/ehp.87715
18825|A||Hitchcock,W.S., and D.F. Martin|Effects and Fate of a Surfactant in Cultures of the Red Time Organisms, Gymnodinium breve|Bull. Environ. Contam. Toxicol.18(3): 291-296|1977|10.1007/BF01683421
18826|A||El Samra,M.I., M.A. Ibrahim, I.F. Ahmed, and S.M. Awartani|Acute Toxicity of Some Oil Dispersants to Mullet Fry (Liza macrolepis) of the Arabian Gulf|Qatar Univ. Sci. Bull.6:363-369|1986|
18828|A||Hinton,D.E., M.W. Kendall, and J.C. Koenig|Enzyme and Tissue Alterations in Fishes: A Measure of Water Quality|Research Rep.No.68, Water Resources Laboratory, University of Louisville, for Kentucky Water Resources Institute, Lexington, KY:101-|1973|
18829|A||Le Bris,H., P. Maffart, G. Bocquene, V. Buchet, F. Galgani, and G. Blanc|Laboratory Study on the Effect of Dichlorvos on Two Commercial Bivalves|Aquaculture138(1-4): 139-144|1995|10.1016/0044-8486(95)01087-4
18830|A||Oliver,L.M., E.B. Sutton, and W.S. Fisher|Effects of Tributyltin Exposure on Oyster (Crassostrea virginica) Defense Functions|J. Shellfish Res.14(1): 274-|1995|
18831|A||Moller,V., V.E. Forbes, and M.H. Depledge|Population Responses to Acute and Chronic Cadmium Exposure in Sexual and Asexual Estuarine Gastropods|Ecotoxicology5:313-326|1996|10.1007/BF00119053
18832|A||Brunetti,R., M.G. Marin, M. Bressan, and M. Fuolega|Development of Some Marine Invertebrates in the Presence of NTA (Sodium Nitrilotriacetate) and the Heavy Metals Cd and Hg|Nova Thalassia8:37-46|1986|
18833|A||Menasria,R., and J.F. Pavillon|Toxic Effects of Two Trace Metals, Copper and Silver, on a Crustacean Harpacticoid Copepod Tigriopus brevicornis (Muller). Lethal and Sublethal Effects at Different Development Stages (Effets Biologiques de Deux Metaux |J. Rech. Oceanogr. (Non-English)19(3-4): 157-165|1994|
18834|A||Sprecher,S.L., and A.B. Stewart|Triclopyr Effects on Peroxidase Activity in Target and Non-target Aquatic Plants|J. Aquat. Plant Manag.33:43-48|1995|
18835|A||Netherland,M.D., and K.D. Getsinger|Laboratory Evalution of Threshold Fluridone Concentrations Under Static Conditions for Controlling Hydrilla and Eurasian Watermilfoil|J. Aquat. Plant Manag.33:33-36|1995|
18836|A||Vaid,S., and I.M. Mishra|Quantitative Determination of Malathion in the Brain Tissue of Fish by high Performance Liquid Chromatography|Environ. Ecol.16(3): 732-734|1998|
18838|A||Carr,H.P., F.A. Carino, M.S. Yang, and M.H. Wong|Characterization of the Cadmium-Binding Capacity of Chlorella vulgaris|Bull. Environ. Contam. Toxicol.60:433-440|1998|10.1007/s001289900644
18839|A||Nugegoda,D., and P.S. Rainbow|Salinity, Osmolality, and Zinc Uptake in Palaemon elegans (Crustacea: Decapoda)|Mar. Ecol. Prog. Ser.55:149-157|1989|10.3354/meps055149
18840|A||Fossi,M.C., L. Lari, S. Casini, N. Mattei, C. Savelli, J.C. Sanchez-Hernandez, S. Castellani, and M. Depledge|Biochemical and Genotoxic Biomarkers in the Mediterranean Crab Carcinus aestuarii Experimentally Exposed to Polychlorobiphenyls, Benzopyrene and Methyl-Mercury|Mar. Environ. Res.42(1-4): 29-32|1996|10.1016/0141-1136(95)00059-3
18842|A||Petersen,S., and K. Gustavson|Replacement of the Medium for a Natural Phytoplankton Community by Tangential-Flow Filtration, with Special Emphasis on Toxicity Tests|Bull. Environ. Contam. Toxicol.57(4): 603-609|1996|10.1007/s001289900233
18843|A||Ishizuka,M., H. Hoshi, N. Minamoto, M. Masuda, A. Kazusaka, and S. Fujita|Alterations of Cytochrome P450-Dependent Monooxygenase Activities in Eriocheir japonicus in Response to Water Pollution|Environ. Health Perspect.104(7): 773-778|1996|10.1289/ehp.96104774
18844|A||Cilek,J.E., G.B.,Jr. Craig, and F.W. Knapp|Comparative Susceptibility of Larvae of Three Aedes Species to Malathion and Permethrin|Am. Mosq. Control Assoc. J.11(4): 416-418|1995|
18845|A||Huang,Y., Y. Gao, H. Cao, S. Ren, and J. Zhu|Effects of N'-(2,4-Dimethylphenyl)-N Methylformamidine Hydrochloride on Model Pond Ecosystems|Sinozoologia12:84-94|1995|
18846|A||Hogstrand,C., S.D. Reid, and C.M. Wood|Ca2+ Versus Zn2+ Transport in the Gills of Freshwater Rainbow Trout and the Cost of Adaptation to Waterborne Zn2+|J. Exp. Biol.198:337-348|1995|10.1242/jeb.198.2.337
18847|A||Deutsch,U., and P. Fioroni|Effects of Tributyltin (TBT) and Testosterone on the Female Genital System in the Mesogastropod Littorina littorea (Prosobranchia)|Helgol. Wiss. Meeresunters.50:105-115|1996|10.1007/BF02367139
18848|A||Duquesne,S., A.E. Flowers, and J.C. Coll|Preliminary Evidence for a Metallothionein-Like Heavy Metal-Binding Protein in the Tropical Marine Bivalve Tridacna crocea|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.112(1): 69-78|1995|
18849|A||Peterson,D.L., and R.F. Carline|Effects of Tetracycline Marking, Transport Density, and Transport Time on Short-Term Survival of Walleye Fry|Prog. Fish-Cult.58:29-31|1996|10.1577/1548-8640(1996)058<0029:CEOTMT>2.3.CO;2
18850|A||Nyberg,H.|The Influence of Ionic Detergents on the Phospholipid Fatty Acid Compositions of Porphyridium purpureum|Phytochemistry24(3): 435-440|1985|10.1016/S0031-9422(00)80742-6
18851|A||Bartlett,F., and D. Neumann|Sensitivity of Brown Trout Alevins (Salmo trutta L.) to Nitrite at Different Chloride Concentrations|Bull. Environ. Contam. Toxicol.60:340-346|1998|10.1007/s001289900632
18852|A||Ashton,F.M., T. Bisalputra, and E.B. Risley|Effect of Atrazine on Chlorella vulgaris|Am. J. Bot.53(3): 217-219|1966|10.1002/j.1537-2197.1966.tb07325.x
18853|A||Verriopoulos,G., A.V. Catsiki, A. Pantelidou, and M. Moraitou-Apostolopoulo|Studies on the Impact of Chromium to the Marine Gastropod Monodonta turbinata (Toxicity, Bioaccumulation, Acclimation)|Rev. Int. Oceanogr. Med. (Multiple Languages)93:103-118|1990|
18855|A||Pandey,K.D., and A.K. Kashyap|Differential Sensitivity of Three Cyanobacteria to the Rice Field Herbicide Machete|J. Basic Microbiol.26(7): 421-428|1986|10.1002/jobm.3620260711
18856|A||Dalvi,R.R., and S.W. Davis|Role of beta-Naphthoflavone in the Acute Toxicity of Chlorpyrifos in Channel Catfish|Bull. Environ. Contam. Toxicol.60:335-339|1998|10.1007/s001289900631
18857|A||Rohwer,F., and W. Fluckiger|Effect of Atrazine on Growth, Nitrogen Fixation and Photosynthetic Rate of Anabaena cylindrica|Angew. Bot. (Multiple Languages)53(1-2): 59-74|1979|
18858|A||Birge,W.J., J.A. Black, J.F. Hobson, A.G. Westerman, and T.M. Short|Toxicological Studies on Aquatic Contaminants Originating from Coal Production and Utilization: The Induction of Tolerance to Silver in Laboratory Populations of Fish and the Chronic Toxicity of Nickel to Fish Early Lif|Proj.No.G-844-02, Water Resources Research Institute Research Rep.No.151, University of Kentucky, Lexington, KY:36 p.|1984|
18859|A||Munda,I.M., and V. Hudnik|The Effects of Zn, Mn, and Co Accumulation on Growth and Chemical Composition of Fucus vesiculosus L. Under Different Temperature and Salinity Conditions|Mar. Ecol.9(3): 213-225|1988|10.1111/j.1439-0485.1988.tb00329.x
18860|A||Nyberg,H., and P. Saranpaa|Effects of Some Detergents on the Sterols of the Red Alga Porphyridium|In: P.A.Biacs, K.Gruz, and T.Kremmer (Eds.), Biological Role of Plant Lipids, Akademial Klado, Budapest and Plenum Publ.Corp., NY:607-610|1989|
18861|A||Nyberg,H.|The Effect of Detergents and Phosphate Starvation on Phosphorus Fractions in Nitzschia actinastroides (Bacillariophyceae)|Ann. Bot. Fenn.18:37-45|1981|
18862|A||Vaishampayan,A., H.R. Singh, and H.N. Singh|Biological Effects of Rice-Field Herbicide Stam F-34 on Various Strains of the Nitrogen-Fixing Blue-Green Alga Nostoc muscorum|Biochem. Physiol. Pflanzen (Multiple Languages)173:410-419|1978|10.1016/S0015-3796(17)30513-9
18863|A||Tkacik,M.F., J.P. Giesy, E.L. Wilhite, and J.C. Corey|Plutonium Uptake by Scenedesmus obliquus as a Function of Isotope and Oxidation State|Environ. Exp. Bot.19:223-229|1979|10.1016/0098-8472(79)90051-0
18864|A||Black,K.D., I.A. Ezzi, M.C.B. Kiemer, and A.J. Wallace|Preliminary Evaluation of the Effects of Long-Term Periodic Sublethal Exposure to Hydrogen Sulphide onthe Health of Atlantic Salmon (Salmo salar L.)|J. Appl. Ichthyol.10:362-367|1994|10.1111/j.1439-0426.1994.tb00178.x
18865|A||Palanichamy,S., and P. Baskaran|Selected Biochemical and Physiological Responses of the Fish Channa striatus as Biomonitor to Assess Heavy Metal Pollution in Fresh Water Environment|J. Ecotoxicol. Environ. Monit.5(2): 131-138|1995|
18866|A||Johnson,I.T., and M.B. Jones|Effects of Zinc on Osmoregulation of Gammarus duebeni (Crustacea: Amphipoda) from the Estuary and the Sewage Treatment Works at Looe, Cornwall|Ophelia31(3): 187-196|1990|10.1080/00785326.1990.10430861
18867|A||Zweig,G., J.E. Hitt, and R. McMahon|Effect of Certain Quinones, Diquat, and Diuron on Chlorella pyrenoidosa Chick (Emerson Strain)|Weed Sci.16(1): 69-73|1968|10.1017/S0043174500030575
18868|A||Giesy,J.P.,Jr., and D. Paine|Uptake of Americium-241 by Algae and Bacteria|Prog. Water Technol.9:845-857|1977|
18869|A||Takemoto,B.K., and R.D. Noble|Differential Sensitivity of Duckweeds (Lemnaceae) to Sulphite I. Carbon Assimilation and Frond Replication Rate as Factors Influencing Sulphite Phytotoxicity Under Low and high Irradiance|New Phytol.103:525-539|1986|10.1111/j.1469-8137.1986.tb02890.x
18870|A||Takemoto,B.K., R.D. Noble, and H.M. Harrington|Differential Sensitivity of Duckweeds (Lemnaceae) to Sulphite II. Thiol Production and Hydrogen Sulphide Emission as Factors Influencing Sulphite Phytotoxicity Under Low and high Irradiance|New Phytol.103:541-548|1986|10.1111/j.1469-8137.1986.tb02891.x
18871|A||Hogstrand,C., and C. Haux|Metallothionein as an Indicator of Heavy-Metal Exposure in Two Subtropical Fish Species|J. Exp. Mar. Biol. Ecol.138:69-84|1990|10.1016/0022-0981(90)90177-E
18872|A||Fernandez-Casalderrey,A., M.D. Ferrando, and E. Andreu-Moliner|Chronic Toxicity of Diazinon to Daphnia magna: Effects on Survival, Reproduction and Growth|Toxicol. Environ. Chem.49(1-2): 25-32|1995|10.1080/02772249509358173
18873|A||Pybus,C.|Effects of Anionic Detergent on the Growth of Laminaria|Mar. Pollut. Bull.4(5): 73-76|1973|10.1016/0025-326X(73)90242-7
18874|A||Weirich,C.R.|Evaluation of Glutamine and Other Ninhydrin Positive Compounds as Clinical Indicators of Ammonia Toxicosis in the Channel Catfish (Ictalurus punctatus)|M.S.Thesis, Southwest Texas State University, San Marcos, TX:35 p.|1988|
18875|A||Wang,W.|Site-Specific Phytotoxicity of Heavy Metals|Grant No.R810834-01-0, Illinois State Water Survey, U.S.Environmental Protection Agency, Washington, D.C.:85 p.|1986|
18876|A||Nyholm,N., and B.M. Damgaard|A Comparison of the Algal Growth Inhibition Toxicity Test Method with the Short Term 14C-Assimilation Test|Chemosphere21(4-5): 671-679|1990|10.1016/0045-6535(90)90034-Q
18877|A||Ernst,R., C.J. Gonzales, and J. Arditti|Biological Effects of Surfactants: Part 6-Effects of Anionic, Non-ionic and Amphoteric Surfactants on a Green Alga (Chlamydomonas)|Environ. Pollut. A.31(3): 159-175|1983|10.1016/0143-1471(83)90074-0
18878|A||Tadros,M.G., P. Mbuthia, and W. Smith|Differential Response of Marine Diatoms to Trace Metals|Bull. Environ. Contam. Toxicol.44(6): 826-831|1990|10.1007/BF01702170
18879|A||Giesy,J.P.,Jr., and D. Paine|Effects of Naturally Occurring Aquatic Organic Fractions on 241Am Uptake by Scenedesmus obliquus (Chlorophyceae) and Aeromonas hydrophila|Appl. Environ. Microbiol.33(1): 89-96|1977|10.1128/aem.33.1.89-96.1977
18880|A||Fekete,A., D.N. Riemer, and H.L. Motto|A Bioassay Using Common Duckweed to Evaluate the Release of Available Phosphorus from Pond Sediments|J. Aquat. Plant Manag.14:19-25|1976|
18881|A||Allen,P.|Changes in Tissue Glutathione Levels in the Cichlid Oreochromis aureus (Steindachner) Following Long Term Exposure to Mercury, Cadmium and Lead|Toxicol. Environ. Chem.49:1-12|1995|10.1080/02772249509358171
18882|A||Tucker,C.S., and J.R. MacMillan|Effects of Short-Term Starvation on Methemoglobin Levels in Nitrite-Exposed Channel Catfish|J. Appl. Aquacult.1(4): 21-27|1992|10.1300/J028v01n04_03
18884|A||Chandravathy,V.M., and S.L.N. Reddy|In Vivo Effects of Lead Acetate on Dehydrogenase Activities and Metabolites in the Freshwater Fish|J. Ecotoxicol. Environ. Monit.5(2): 107-111|1995|
18886|A||Kumar,K.P., and V.U. Devi|Effect of Heavy Metals on Toxicity and Oxygen Consumption of Intertidal Gastrodpods nerita albicilla and Nerita chamaeleon|J. Ecotoxicol. Environ. Monit.5(1): 1-5|1995|
18887|A||Ramey,B.A.|Teratogenic Effects of Zinc on Embryo-Larval Stages of the Fathead Minnow (Pimephales promelas)|Res.Rep.No.172, Water Resour.Res.Inst., Univ.of Kentucky, Lexington, KY:30 p.|1988|
18890|A||Sarkisova,S.A., and I.A. Skripnik|In Situ Modeling of the Effect of Pollutants on Production of Organic Matter by Phytoplankton|Oceanography (Wash. D.C.)27(2): 171-173|1987|
18891|A||Mulla,M.S., H.A. Darwazeh, and H. Axelrod|Activity of New Mosquito Larvicides Against Culex and Some Nontarget Organisms|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.37:81-88|1969|
18892|A||Forsberg,C., D. Jinnerot, and L. Davidsson|The Influence of Synthetic Detergents on the Growth of Algae|Vatten23:2-26|1967|
18893|T||Mulla,M.S., R.D. Sjorgen, and J.R. Arias|Mosquito Adulticides and Larvicides, Efficacy Under Field Conditions and Effects of Larvicides on Nontarget Insects|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.48:139-145|1972|
18895|A||Swisher,R.D., J.T. O'Rourke, and H.D. Tomlinson|Fish Bioassays of Linear Alkylate Sulfonates (LAS) and Intermediate Biodegradation Products|J. Am. Oil Chem. Soc.42:746-752|1964|10.1007/BF02676262
18896|A||Zahn,R.K., G. Zahn, W.E.G. Mueller, I. Mueller, R. Beyer, U. Mueller-Berger, B. Kurelec, and M. Rajavec|Probing the Biological Effects of Low Level Detergent Pollution|Thalassia Jugosl.14(1/2): 237-254|1978|
18897|A||Davis,E.M., and E.F. Gloyna|Anionic and Nonionic Surfactant Sorption and Degradation by Algae Cultures|J. Am. Oil Chem. Soc.46:604-608|1969|10.1007/BF02544977
18898|A||Alzieu,C., and J.E. Portmann|The Effect of Tributyl Tin on the Culture of C. gigas and Other Species|In: Proc. 15th Shellfish Conf. , May 15-16, 1984, Shellfish Assoc. of Great Britain, London:87-105|1984|
18899|A||Chawla,G., P.N. Viswanathan, and S. Devi|Biochemical Studies on the Toxicity of Linear Alkylbenzene Sulphonate to Scenedesmus quadricauda in Culture|Environ. Exp. Bot.27(3): 311-323|1987|10.1016/0098-8472(87)90041-4
18900|A||Nugegoda,D., and P.S. Rainbow|Zinc Uptake Rate and Regulation Breakdown in the Decapod Crustacean Palaemon elegans Rathke|Ophelia30(3): 199-212|1989|10.1080/00785326.1989.10430844
18901|A||Yan,G.A., J.W. Jiang, G. Wu, and X. Yan|Disappearance of Linear Alkylbenzene Sulfonate from Different Cultures with Anabaena sp. HB 1017|Bull. Environ. Contam. Toxicol.60:329-334|1998|10.1007/s001289900630
18902|A||Mottley,J., and D.E. Griffiths|Minimum Inhibitory Concentrations of a Broad Range of Inhibitors for the Unicellular Alga Chlamydomonas reinhardi Dangeard|J. Gen. Microbiol.102:431-434|1977|10.1099/00221287-102-2-431
18903|A||Christen,O., and C. Theuer|Sensitivity of Lemna Bioassay Interacts with Stock-Culture Period|J. Chem. Ecol.22(6): 1177-1186|1996|10.1007/BF02027953
18904|A||Vismann,B.|Sulfide Detoxification and Tolerance in Nereis (Hediste) diversicolor and Nereis (Neanthes) virens (Annelida: Polychaeta)|Mar. Ecol. Prog. Ser.59:229-238|1990|10.3354/meps059229
18905|A||Camp,F.A.|The Application of Algal Growth Potential Techniques to Surfactant and Zinc Toxicity Studies|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:171 p.|1974|
18906|A||Rishi,K.K., and M. Jain|Effect of Toxicity of Cadmium on Scale Morphology in Cyprinus carpio (Cyprinidae)|Bull. Environ. Contam. Toxicol.60:323-328|1998|10.1007/s001289900629
18908|A||Nyberg,H.|Physiological Effects of Four Detergents on the Algae Nitzschia actinastroides and Porphyridium purpureum|Ph.D.Thesis, Publications from the Department of Botany No.12, University of Helsinki, Finland:77 p.|1985|
18909|A||Bennani,N., A. Schmid Alliana, and M. LaFaurie|Immunotoxic Effects of Copper and Cadmium in the Sea Bass Dicentrarchus labrax|Immunopharmacol. Immunotoxicol.18(1): 129-144|1996|10.3109/08923979609007115
18910|A||Cuppen,J.G.M., R. Glystra, S. Van Beusekom, B.J. Budde, and T.C.M. Brock|Effects of Nutrient Loading and Insecticide Application on the Ecology of Elodea-Dominated Freshwater Microcosms III. Responses of Macroinvertebrate|Arch. Hydrobiol.134(2): 157-177|1995|10.1127/archiv-hydrobiol/134/1995/157
18911|A||Grizzle,J.M., and A.C. Mauldin II|Effect of Calcium on Acute Toxicity of Sodium Chloride to Larval and Newly Transformed Juvenile Striped Bass|J. Aquat. Anim. Health7(4): 298-303|1995|10.1577/1548-8667(1995)007<0298:EOCOAT>2.3.CO;2
18912|A||Thongra-ar,W., and O. Matsuda|Effects of Cadmium and Zinc on Growth of Thalassiosira weissflogii and Heterosigma akashiwo|In: A.Snidvongs, W.Utoomprukporn, and M.Hungspreugs (Eds.), Proceedings of the NRCT-JSPS Joint Seminar on Marine Science, Dec.2-3, 1993, Chulalongkorn University, Thailand, Bangkok:90-96|1995|
18913|A||Chen,H.C., and Y.K. Yuan|Acute Toxicity of Copper, Cadmium and Zinc to Freshwater Fish Acrosscheilus paradoxus|Dongwu Xuekan5(2): 45-60|1994|
18914|A||Yang,H.N., and H.C. Chen|The Influence of Temperature on the Acute Toxicity and Sublethal Effects of Copper, Cadmium and Zinc to Japanese Eel, Anguilla japonica|Dongwu Xuekan7(1): 29-38|1996|
18915|A||Bieniarz,K., P. Epler, D. Kime, M. Sokolowska-Mikolajczyk, W. Popek, and T. Mikolajczyk|Effects of N,N-Dimethylnitrosamine (DMNA) on In Vitro Oocyte Maturation and Embryonic Development of Fertilized Eggs of Carp (Cyprinus carpio L.) Kept in Eutrophied Ponds|J. Appl. Toxicol.16(2): 153-156|1996|10.1002/(SICI)1099-1263(199603)16:2<153::AID-JAT323>3.0.CO;2-Z
18916|A||Kikuchi,M., T. Miyagaki, and M. Wakabayashi|Evaluation of Pesticides Used in Golf Links by Acute Toxicity Test on Rainbow Trout|Nippon Suisan Gakkaishi (Multiple Languages)62(3): 414-419|1996|10.2331/suisan.62.414
18918|A||Warnau,M., J.L. Teyssie, and S.W. Fowler|Effect of Feeding on Cadmium Bioaccumulation in the Echinoid Paracentrotus lividus (Echinodermata)|Mar. Ecol. Prog. Ser.126(1-3): 305-309|1995|10.3354/meps126305
18919|A||Willis,K.J., N. Ling, and M.A. Chapman|Effects of Temperature and Chemical Formulation on the Acute Toxicity of Pentachlorophenol to Simocephalus vetulus (Schoedler, 1858) (Crustacea:  Cladocera)|N. Z. J. Mar. Freshw. Res.29(2): 289-294|1995|10.1080/00288330.1995.9516662
18920|A||Schoore,J.E., B.A. Simco, and K.B. Davis|Responses of Blue Catfish and Channel Catfish to Environmental Nitrite|J. Aquat. Anim. Health7(4): 304-311|1995|10.1577/1548-8667(1995)007<0304:ROBCAC>2.3.CO;2
18921|A||Sanders,B.M., and K.D. Jenkins|Relationships Between Free Cupric Ion Concentrations in Sea Water and Copper Metabolism and Growth in Crab Larvae|Biol. Bull.167:704-712|1984|10.2307/1541421
18922|A||Keller,E.C.J., D.E. Hinton, D.K. Werner, R.B. Gerber, A.J.,Jr. Becker, R. Wargacki, and G.R.,Jr. Hobbs|Effects of Iron in Streams on Gill Morphology, Oxygen Consumption, and Phytoplankton/Benthic Invertebrate Distribution|Completion Rep.Proj.No.USGS-G-877, Water Research Institute, West Virginia University, Morgantown, WV:163-|1984|
18924|A||Zhihui,S., and C. Tianyi|Toxicity of Tributyltin to Lemna minor L. and Azolla filiculoides Lamk|Bull. Environ. Contam. Toxicol.60:318-322|1998|10.1007/s001289900628
18925|A||Pottinger,T.G., and G.M. Calder|Physiological Stress in Fish During Toxicological Procedures: A Potentially Confounding Factor|Environ. Toxicol. Water Qual.10(2): 135-146|1995|10.1002/tox.2530100208
18926|A||Timmermans,K.R., W. Stolte, and H.J.W. De Baar|Iron-Mediated Effects on Nitrate Reductase in Marine Phytoplankton|Mar. Biol.121(2): 389-396|1994|10.1007/BF00346749
18927|A||Nelson,W.G.|Use of the Blue Mussel, Mytilus edulis, in Water Quality Toxicity Testing and In Situ Marine Biological Monitoring|ASTM Spec. Tech. Publ.:167-175|1990|
18928|A||Davis,J.A.|Comparison of Static-Replacement and Flow-Through Bioassays Using Duckweed, Lemna gibba G-3|EPA 560/6-81-003, U.S.EPA, Washington, DC:106 p.|1981|
18929|A||Anderson,D.P., O.W. Dixon, and W.B. Van Muiswinkel|Reduction in the Numbers of Antibody-Producing Cells in Rainbow Trout, Oncorhynchus mykiss, Exposed to Sublethal Doses of Phenol Before Bath|ASTM Spec. Tech. Publ.:331-337|1990|
18930|A||Rengel-Zambrano,I., R. Salas Auvert, M. Chavez, J. Guerra, R. Marquez, and N. Urdaneta|Cadmium Induced Malformations and Variation of Some Bioesencials Elements in Red Tilapia (Pisces: Cichlidae: Oreochromis sp)|Ciencia3(3): 175-192|1995|
18931|A||Landrum,P.F., and W.S. Dupuis|Toxicity and Toxicokinetics of Pentachlorophenol and Carbaryl to Pontoporeia hoyi and Mysis relicta|ASTM Spec. Tech. Publ.:278-289|1990|
18932|A||Moore,D.W., M.D. Schluchter, and G.I. Scott|Use of Hazard Models in Evaluating the Effect of Exposure Duration on the Acute Toxicity of Three Pesticides|ASTM Spec. Tech. Publ.13:247-263|1990|
18933|A||Gala,W.R., and J.P. Giesy|Flow Cytometric Techniques to Assess Toxicity to Algae|ASTM Spec. Tech. Publ.13:237-246|1990|
18934|A||Johnson,D.W., M.V. Haley, and W.G. Landis|The Aquatic Toxicity of the Sensory Irritant and Riot Control Agent Dibenz(b,f)-1,4-Oxazepine (CR)|ASTM Spec. Tech. Publ.13:176-188|1990|
18935|A||Lydy,M.J., K.A. Bruner, D.M. Fry, and S.W. Fisher|Effects of Sediment and the Route of Exposure on the Toxicity and Accumulation of Neutral Lipophilic and Moderately Water-Soluble Metabolizable Compounds in the Midge, Chironomus riparius|ASTM Spec. Tech. Publ.13:140-164|1990|
18936|A||Haley,M.V., E.L. Vickers, T.C. Cheng, J. DeFrank, T.A. Justus, and W.G. Landis|Biodegradation and Reduction in Aquatic Toxicity of the Persistent Riot Control Material 1,4-Dibenz-Oxazepine|ASTM Spec. Tech. Publ.13:60-76|1990|
18937|A||Pagano,G., M. Cipollaro, G. Corsale, A. Esposito, E. Ragucci, G.G. Giordano, and N.M. Trieff|The Sea Urchin:  Bioassay for the Assessment of Damage from Environmental Contaminants|ASTM Spec. Tech. Publ.:66-92|1986|
18938|A||Erickson,R.J., L.T. Brooke, M.D. Kahl, F.V. Venter, S.L. Harting, T.P. Markee, and R.L. Spehar|Effects of Laboratory Test Conditions on the Toxicity of Silver to Aquatic Organisms|Environ. Toxicol. Chem.17(4): 572-578|1998|10.1002/etc.5620170407
18939|A||Webb,N.A., and C.M. Wood|Physiological Analysis of the Stress Response Associated with Acute Silver Nitrate Exposure in Freshwater Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.17(4): 579-588|1998|10.1002/etc.5620170408
18940|A||Ferguson,E.A., and C. Hogstrand|Acute Silver Toxicity to Seawater-Acclimated Rainbow Trout: Influence of Salinity on Toxicity and Silver Speciation|Environ. Toxicol. Chem.17(4): 589-593|1998|
18941|A||Shaw,J.R., C.M. Wood, W.J. Birge, and C. Hogstrand|Toxicity of Silver to the Marine Teleost (Oligocottus maculosus):  Effects of Salinity and Ammonia|Environ. Toxicol. Chem.17(4): 594-600|1998|10.1002/etc.5620170410
18942|A||Hirsch,M.P.|Toxicity of Silver Sulfide-Spiked Sediments to the Freshwater Amphipod (Hyalella azteca)|Environ. Toxicol. Chem.17(4): 601-604|1998|
18943|A||Maki,H., H. Okamura, I. Aoyama, and M. Fujita|Halogenation and Toxicity of the Biodegradation Products of a Nonionic Surfactant, Nonylphenol Ethoxylate|Environ. Toxicol. Chem.17(4): 650-654|1998|10.1002/etc.5620170418
18944|A||Ashfield,L.A., T.G. Pottinger, and J.P. Sumpter|Exposure of Female Juvenile Rainbow Trout to Alkylphenolic Compounds Results in Modifications to Growth and Ovosomatic Index|Environ. Toxicol. Chem.17(3): 679-686|1998|10.1002/etc.5620170423
18945|A||Shigehisa,H., and H. Shiraishi|Biomonitoring with Shrimp to Detect Seasonal Change in River Water Toxicity|Environ. Toxicol. Chem.17(4): 687-694|1998|10.1002/etc.5620170424
18946|A||Choi,M.H., J.J.,Jr. Cech, and M.C. Lagunas-Solar|Bioavailability of Methylmercury to Sacramento Blackfish (Orthodon microlepidotus): Dissolved Organic Carbon Effects|Environ. Toxicol. Chem.17(4): 695-701|1998|10.1002/etc.5620170425
18947|A||Walker,S.E., D.H. Taylor, and J.T. Oris|Behavioral and Histopathiological Effects of Fluoranthene on Bullfrog Larvae (Rana catesbeiana)|Environ. Toxicol. Chem.17(4): 734-739|1998|10.1002/etc.5620170430
18948|A||Tollefsen,K.E., K. Ingebrigtsen, A.J. Olsen, K.E. Zachariassen, and S. Johnsen|Acute Toxicity and Toxicokinetics of 4-Heptylphenol in Juvenile Atlantic Cod (Gadus morhua L.)|Environ. Toxicol. Chem.17(4): 740-746|1998|
18950|A||Riji John,K., N. Jayabalan, and M.R. George|Impact of Sublethal Concentrations of Endosulfan on the Histology of Cyprinus carpio Liver and Kidney|In: P.Natarajan and V.Jayaprakas (Eds.), Proc.Natl.Seminar on Aquaculture Development in India Problems and Prospects, Nov.27-29, 1990, Kerala Univ., Thiruvananthapuram, India:179-182|1993|
18951|A||Soto,M., I. Quincoces, X. Lekube, and I. Marigomez|Autometallographed Metal Content in Digestive Cells of Winkles:  A Cost-Effecive Screening Tool for Monitoring Cu and Zn Pollution|Aquat. Toxicol.40(2-3): 123-140|1998|10.1016/S0166-445X(97)00055-6
18952|A||De Maagd,P.G.J., J. De Poorte, A. Opperhuizen, and D.T.H. Sijm|No Influence After Various Exposure Times on the Biotransformation Rate Constants of Benzo(a)anthracene in Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.40(2/3): 157-169|1998|10.1016/S0166-445X(97)00053-2
18953|A||Linton,T.K., I.J. Morgan, S.D. Reid, and C.M. Wood|Long-Term Exposure to Small Temperature Increase and Sublethal Ammonia in Hardwater Acclimated Rainbow Trout:  Does Acclimation Occur?|Aquat. Toxicol.40(2-3): 171-191|1998|10.1016/S0166-445X(97)00046-5
18954|A||Martin,D.J., and P.S. Rainbow|The Kinetics of Zinc and Cadmium in the Haemolymph of the Shore Crab Carcinus maenas (L.)|Aquat. Toxicol.40(2-3): 203-231|1998|10.1016/S0166-445X(97)00048-9
18955|A||Petersen,S., and K. Gustavson|Toxic Effects of Tri-Butyl-Tin (TBT) on Autotrophic Pico-Nano-, and Microplankton Assessed by a Size Fractionated Pollution-Induced Community|Aquat. Toxicol.40(2/3): 253-264|1998|10.1016/S0166-445X(97)00049-0
18956|A||Jaksic,Z., N. Bihari, W.E.G. Mueller, R.K. Zahn, and R. Batel|Modulation of Cytochrome P450 1A in Sea Bass Liver by Model Substances and Seawater Extracts|Aquat. Toxicol.40(2-3): 265-273|1998|10.1016/S0166-445X(97)00052-0
18957|A||Grosell,M.H., C. Hogstrand, and C.M. Wood|Renal Cu and Na Excretion and Hepatic Cu Metabolism in both Cu Acclimated and non Acclimated Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.40(2/3): 275-291|1998|10.1016/S0166-445X(97)00026-X
18958|A||Shofer,S.L., and R.S. Tjeerdema|Effects of Hypoxia and Toxicant Exposure on Adenylate Energy Charge and Cytosolic ADP Concentrations in Abalone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.119(1): 51-57|1998|
18959|A||Okamoto,O.K., and P. Colepicolo|Response of Superoxide Dismutase to Pollutant Metal Stress in the Marine Dinoflagellate Gonyaulax polyedra|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.119(1): 67-73|1998|
18960|A||Taysse,L., C. Chambras, D. Marionnet, C. Bosgiraud, and P. Deschaux|Basal Level and Induction of Cytochrome P450, EROD, UDPGT, and GST Activities in Carp (Cyprinus carpio) Immune Organs (Spleen and Head Kidney)|Bull. Environ. Contam. Toxicol.60:300-305|1998|10.1007/s001289900625
18961|A||Nelson,S.M., and R.A. Roline|Evaluation of the Sensitivity of Rapid Toxicity Tests Relative to Daphnid Acute Lethality Tests|Bull. Environ. Contam. Toxicol.60:292-299|1998|10.1007/s001289900624
18962|A||Wang,J.S.|Accumulation and Depuration of Aqueous and Dietary PCB (Aroclor 1254) by Striped Bass (Morone saxatilis)|Bull. Environ. Contam. Toxicol.60:104-111|1998|10.1007/s001289900597
18963|A||Bonifacio,R.S., and M.N.E. Montano|Inhibitory Effects of Mercury and Cadmium on Seed Germination of Enhalus acoroides (L.f.) Royle|Bull. Environ. Contam. Toxicol.60:45-51|1998|10.1007/s001289900589
18964|A||Scholz,N.|Determination of the Effects of Vestinol C on the Swimming Behaviour of Daphnia magna (as Specified by 92/69 EEC, Dec. 1992)|Final Report DK-633, Huels AG, Marl, Germany:15 p.|1994|
18965|A||Elumalai,M., S.E. Balasubramanian, and M.P. Balasubramanian|Influence of Naphthalene on Protein, Carbohydrate, and Phosphatases System During the Vitellogenesis in Marine Edible Crab, Scylla serrata|Bull. Environ. Contam. Toxicol.60:22-29|1998|10.1007/s001289900586
18966|A||Hazarika,R., and M. Das|Toxicological Impact on BHC on the Ovary of the Air-Breathing Catfish Heteropneustes fossilis (Bloch)|Bull. Environ. Contam. Toxicol.60:16-21|1998|10.1007/s001289900585
18967|A||Fargasova,A.|Comparison of Effects of Tributyl-, Triphenyl-, and Tribenzyltin Compounds on Freshwater Benthos and Alga Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.60:9-15|1998|10.1007/s001289900584
18968|A||Deshmukh,M., and V.S. Lomte|Effect of Heavy Metal (CuSO4) on Protein Activity of Freshwater Bivalve Parreysia corrugata|Environ. Ecol.16(3): 704-708|1998|
18969|A||Scherer,E., and R.E. McNicol|Preference-Avoidance Responses of Lake Whitefish (Coregonus clupeaformis) to Competing Gradients of Light and Copper, Lead, and Zinc|Water Res.32(3): 924-929|1998|10.1016/S0043-1354(97)00299-6
18970|A||Chow,C.W.K., J. House, R.M.A. Velzeboer, M. Drikas, M.D. Burch, and D.A. Steffensen|The Effect of Ferric Chloride Flocculation on Cyanobacterial Cells|Water Res.32(3): 808-814|1998|10.1016/S0043-1354(97)00276-5
18971|A||Lawrence,A.J., and C. Poulter|Development of a Sub-lethal Pollution Bioassay Using the Estuarine Amphipod Gammarus duebeni|Water Res.32(3): 569-578|1998|10.1016/S0043-1354(97)00306-0
18972|AT||Brown,B.E.|Uptake of Copper and Lead by a Metal Tolerant Isopod Asellus meridianus Rac.|Freshw. Biol.7(3): 235-244|1977|10.1111/j.1365-2427.1977.tb01671.x
18973|A||Biagianti-Risbourg,S., G. Vernet, and H. Boulekbache|Ultrastructural Response of the Liver of Rainbow Trout, Oncorhynchus mykiss, Sac-Fry Exposed to Acetone|Chemosphere36(9): 1911-1922|1998|10.1016/S0045-6535(97)10076-5
18974|A||Yoshitomi,T., C. Nakayasu, S. Hasegawa, A. Iida, and N. Okamoto|Site-Specific Lead Distribution in Scales of Lead-Administered Carp (Cyprinus carpio) by Non-destructive SR-XRF Analysis|Chemosphere36(10): 2305-2310|1998|10.1016/S0045-6535(97)10199-0
18975|A||Pacheco,M., and M.A. Santos|Induction of EROD Activity and Genotoxic Effects by Polycyclic Aromatic Hydrocarbons and Resin Acids on the Juvenile Eel (Anguilla anguilla L.)|Ecotoxicol. Environ. Saf.38(3): 252-259|1997|10.1006/eesa.1997.1585
18976|A||Zou,E., and M. Fingerman|Effects of Estrogenic Xenobiotics on Molting of the Water Flea, Daphnia magna|Ecotoxicol. Environ. Saf.38(3): 281-285|1997|10.1006/eesa.1997.1589
18977|A||Sinha,S., M. Gupta, and P. Chandra|Oxidative Stress Induced by Iron in Hydrilla verticillata (l.f.) Royle: Response of Antioxidants|Ecotoxicol. Environ. Saf.38(3): 286-291|1997|10.1006/eesa.1997.1598
18978|A||Guilhermino,L., T.C. Diamantino, R. Ribeiro, F. Goncalves, and A.M.V.M. Soares|Suitability of Test Media Containing EDTA for the Evaluation of Acute Metal Toxicity to Daphnia magna Straus|Ecotoxicol. Environ. Saf.38(3): 292-295|1997|10.1006/eesa.1997.1599
18979|A||Hamilton,S.J., and K.J. Buhl|Hazard Evaluation of Inorganics, Singly and in Mixtures, to Flannelmouth Sucker Catostomus latipinnis in the San Juan River, New Mexico|Ecotoxicol. Environ. Saf.38(3): 296-308|1997|10.1006/eesa.1997.1600
18980|A||Herkovits,J., P. Cardellini, C. Pavanati, and C.S. Perez-Coll|Cadmium Uptake and Bioaccumulation in Xenopus laevis Embryos at Different Developmental Stages|Ecotoxicol. Environ. Saf.39(1): 21-26|1998|10.1006/eesa.1997.1586
18981|A||Rayms-Keller,A., K.E. Olson, M. McGaw, C. Oray, J.O. Carlson, and B.J. Beaty|Effect of Heavy Metals on Aedes aegypti (Diptera:  Culicidae) Larvae|Ecotoxicol. Environ. Saf.39(1): 41-47|1998|10.1006/eesa.1997.1605
18982|A||Baldwin,W.S., S.E. Graham, D. Shea, and G.A. LeBlanc|Altered Metabolic Elimination of Testosterone and Associated Toxicity Following Exposure of Daphnia magna to Nonylphenol Polyethoxylate|Ecotoxicol. Environ. Saf.39(2): 104-111|1998|10.1006/eesa.1997.1614
18983|A||Chaisuksant,Y., Q. Yu, and D.W. Connell|Effects of Halobenzenes on Growth Rate of Fish (Gambusia affinis)|Ecotoxicol. Environ. Saf.39(2): 120-130|1998|10.1006/eesa.1997.1616
18984|A||Hoque,M.T., F.M. Yusoff, A.T. Law, and M.A. Syed|Effect of Hydrogen Sulphide on Liver Somatic Index and Fulton's Condition Factor in Mystus nemurus|J. Fish Biol.52(1): 23-30|1998|
18985|A||Saygideger,S.|Bioaccumulation and Toxicity of Zinc in Spirogyra fluviatilis Hilse (Chlorophyta)|Water Air Soil Pollut.101(1-4): 323-331|1998|10.1023/A:1004994206276
18986|A||Temara,A., P. Aboutboul, M. Warnau, M. Jangoux, and P. Dubois|Uptake and Fate of Lead in the Common Asteroid Asterias rubens (Echinodermata)|Water Air Soil Pollut.102(1-2): 201-208|1998|10.1023/A:1004910210804
18987|A||Ricard,A.C., C. Daniel, P. Anderson, and A. Hontela|Effects of Subchronic Exposure to Cadmium Chloride on Endocrine and Metabolic Functions in Rainbow Trout Oncorhynchus mykiss|Arch. Environ. Contam. Toxicol.34(4): 377-381|1998|10.1007/s002449900333
18988|A||Schuytema,G.S., and A.V. Nebeker|Comparative Toxicity of Diuron on Survival and Growth of Pacific Treefrog, Bullfrog, Red-Legged Frog, and African Clawed Frog Embryos and Tadpoles|Arch. Environ. Contam. Toxicol.34(4): 370-376|1998|10.1007/s002449900332
18989|A||Lajmanovich,R.C., M.F. Izaguirre, and V.H. Casco|Paraquat Tolerance and Alteration of Internal Gill Structure of Scinax nasica Tadpoles (Anura:  Hylidae)|Arch. Environ. Contam. Toxicol.34(4): 364-369|1998|10.1007/s002449900331
18990|A||Gokcen,J.E.|Investigating the Potential Impacts of Chlorophenols on the Lake Baikal (Siberia, Russia) Food Web by Employing Daphnia Grazing Bioassays and a Chlorella Growth Bioassay|Arch. Environ. Contam. Toxicol.34(3): 241-247|1998|10.1007/s002449900312
18991|A||Rose,R.M., M.St.J. Warne, and R.P. Lim|Quantitative StructureActivity Relationships and Volume Fraction Analysis for Nonpolar Narcotic Chemicals to the Australian Cladoceran Ceriodaphnia cf. dubia|Arch. Environ. Contam. Toxicol.34(3): 248-252|1998|10.1007/s002449900313
18992|A||Wildridge,P.J., R.G. Werner, F.G. Doherty, and E.F. Neuhauser|Acute Toxicity of Potassium to the Adult Zebra Mussel Dreissena polymorpha|Arch. Environ. Contam. Toxicol.34(3): 265-270|1998|10.1007/s002449900316
18993|A||Tripathi,A.M., and R.A. Agarwal|Molluscicidal and Anti-AChE Activity of Tertiary Mixtures of Pesticides|Arch. Environ. Contam. Toxicol.34(3): 271-274|1998|10.1007/s002449900317
18994|A||Johnston,B.D., J.M. Seubert, and C.J. Kennedy|Biochemical Effects of Didecyldimethylammonium Chloride (DDAC) Exposure and Osmoregulatory Stress on Juvenile Coho Salmon, Oncorhynchus kisutch|Arch. Environ. Contam. Toxicol.34(3): 275-279|1998|10.1007/s002449900318
18995|A||Devars,S., R. Hernandez, and R. Moreno-Sanchez|Enhanced Heavy Metal Tolerance in Two Strains of Photosynthetic Euglena gracilis by Preexposure to Mercury or Cadmium|Arch. Environ. Contam. Toxicol.34(2): 128-135|1998|10.1007/s002449900296
18996|A||Moore,M.T., D.B. Huggett, W.B.,Jr. Gillespie, J.H.,Jr. Rodgers, and C.M. Cooper|Comparative Toxicity of Chlordane, Chlorpyrifos, and Aldicarb to Four Aquatic Testing Organisms|Arch. Environ. Contam. Toxicol.34(2): 152-157|1998|10.1007/s002449900299
18997|A||Nalecz-Jawecki,G., and J. Sawicki|Toxicity of Inorganic Compounds in the Spirotox Test:  A Miniaturized Version of the Spirostomum ambiguum Test|Arch. Environ. Contam. Toxicol.34(1): 1-5|1998|10.1007/s002449900278
18998|A||Rousch,J.M., and M.R. Sommerfeld|Liquid-Gas Partitioning of the Gasoline Oxygenate Methyl tert-Butyl Ether (MTBE) Under Laboratory Conditions and Its Effect on Growth of Selected Algae|Arch. Environ. Contam. Toxicol.34(1): 6-11|1998|10.1007/s002449900279
18999|A||Gagnon,C., G. Vaillancourt, and L. Pazdernik|Influence of Water Hardness on Accumulation and Elimination of Cadmium in Two Aquatic Mosses Under Laboratory Conditions|Arch. Environ. Contam. Toxicol.34(1): 12-20|1998|10.1007/s002449900280
19000|A||Oberdorster,E., D. Rittschof, and G.A. LeBlanc|Alteration of (14C)-Testosterone Metabolism After Chronic Exposure of Daphnia magna to Tributyltin|Arch. Environ. Contam. Toxicol.34(1): 21-25|1998|10.1007/s002449900281
19001|A||Hyne,R.V., and D.A. Everett|Application of a Benthic Euryhaline Amphipod, Corophium sp., as a Sediment Toxicity Testing Organism for Both Freshwater and Estuarine Systems|Arch. Environ. Contam. Toxicol.34(1): 26-33|1998|10.1007/s002449900282
19002|A||McGee,B.L., D.A. Wright, and D.J. Fisher|Biotic Factors Modifying Acute Toxicity of Aqueous Cadmium to Estuarine Amphipod Leptocheirus plumulosus|Arch. Environ. Contam. Toxicol.34(1): 34-40|1998|10.1007/s002449900283
19003|A||Blockwell,S.J., E.J. Taylor, I. Jones, and D. Pascoe|The Influence of Fresh Water Pollutants and Interaction with Asellus aquaticus (L.) on the Feeding Activity of Gammarus pulex (L.)|Arch. Environ. Contam. Toxicol.34(1): 41-47|1998|10.1007/s002449900284
19004|A||Scholz,N.|Determination of the Acute Effects of Vestinol AH on Fish (as Specified by 92/69 C 1 EEC)|Final Report FK 1319, Huels AG, Marl, Germany:13 p.|1995|
19005|A||Long,K.E., R.P.,Jr. Brown, and K.B. Woodburn|Lithium Chloride: A Flow-Through Embryo-Larval Toxicity Test with the Fathead Minnow, Pimephales promelas Rafinesque|Bull. Environ. Contam. Toxicol.60:312-317|1998|10.1007/s001289900627
19006|A||Prasad,M.N.V., K. Drei, A. Skawinska, and K. Stralka|Toxicity of Cadmium and Copper in Chlamydomonas reinhardtii Wild-Type (WT 2137) and Cell Wall Deficient Mutant Strain (CW 15)|Bull. Environ. Contam. Toxicol.60:306-311|1998|10.1007/s001289900626
19007|A||Scholz,N.|Determination of the Effect of Vestinol C on the Growth of Scenedesmus subspicatus 86.81. SAG. (Algal Growth Inhibition Test Complying with Directive 92/69/EEC)|Final Rep.AW-392, Huels AG, Marl, Germany:20 p.|1995|
19008|A||Degens,I.P.N.J., H. Van der Zee, J.D. Kommer, and A.H. Kamphuis|Synthetic Detergents and Sewage Processing. Part V.: The Effect of Synthetic Detergents on Certain Waterfauna|J. Proc. Inst. Sewage Purif.:63-68|1950|
19009|A||Nastasescu,M., V. Monalache, O. Zarnescu, and C. Tesio|The Action of Mercury on the Digestive Tract at Anodonta Cygnea piscinalis (Lamellibranchiata=Bivalvia)|Rev. Roum. Biol.40(1): 33-37|1995|
19011|A||Huggins,D.G.|Ecotoxic Effects of Atrazine on Aquatic Macroinvertebrates and Its Impact on Ecosystem Structure|Ph.D. Thesis, Kansas State University, Manhattan, KS:380 p.|1990|
19012|A||Tsuda,T., M. Kojima, H. Harada, A. Nakajima, and S. Aoki|Relationships of Bioconcentration Factors of Organophosphate Pesticides Among Species of Fish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(3): 213-218|1997|
19013|A||Salomon,K.S.|Dietary Uptake of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Its Effects on Reproduction in the Common Mummichog (Fundulus heteroclitus)|M.S.Thesis, University of Rhode Island, Kingston, RI:167 p.|1994|
19014|A||Rajyasree,M., and P. Neeraja|Aspartate and Alanine Aminotransferase Activities in Fish Tissue Subcellular Fractionation on Exposure to Ambient Urea|Indian J. Fish.36(1): 88-91|1989|
19015|A||Frost,T.K., L. Gronlie, G. Koksvik, P.M. Tessem, and T. Aunaas|Factors Affecting Toxicity of Formaldehyde in Mytilus edulis|In: Environmental and Biological Factors Affecting Toxicity of Formaldehyde, Chapter V.B., Rep.Bectos Prog.:95-123|1993|
19016|A||Wang,J.S., H.N. Chou, J.J. Fan, and C.M. Chen|Uptake and Transfer of High PCB Concentrations from Phytoplankton to Aquatic Biota|Chemosphere36(6): 1201-1210|1998|10.1016/S0045-6535(97)83101-3
19017|A||Brown,D., C.P. Croudace, N.J. Williams, J.M. Shearing, and P.A. Johnson|The Effect of Phthalate Ester Plasticisers Tested as Surfactant Stabilised Dispersions on the Reproduction of the Daphnia magna|Chemosphere36(6): 1367-1379|1998|10.1016/S0045-6535(97)10018-2
19018|A||Kahkonen,M.A., and P.K.G. Manninen|The Uptake of Nickel and Chromium from Water by Elodea canadensis at Different Nickel and Chromium Exposure Levels|Chemosphere36(6): 1381-1390|1998|10.1016/S0045-6535(97)10022-4
19019|A||Tong,Z., and J. Hongjun|Use of Duckweed (Lemna minor L.) Growth Inhibition Test to Evaluate the Toxicity of Acrolonitrile, Sulphocyanic Sodium and Acetonitrile in China|Environ. Pollut.98(2): 143-147|1997|10.1016/S0269-7491(97)00156-5
19020|A||Mohan,B.S., and B.B. Hosetti|Potential Phytotoxicity of Lead and Cadmium to Lemna minor Grown in Sewage Stabilization Ponds|Environ. Pollut.98(2): 233-238|1997|10.1016/S0269-7491(97)00125-5
19021|A||Sarker,S.K.|Influence of Temperature on the Feeding Rate of Fish Exposed to Some Agricultural Chemicals|J. Environ. Biol.18(3): 283-286|1997|
19022|A||Devi,V.U.|Heavy Metal Toxicity to an Intertidal Gastropod Morula granulata (Duclos):  Tolerance to Copper, Mercury, Cadmium and Zinc|J. Environ. Biol.18(3): 287-290|1997|
19023|A||Sastry,K.V., S. Sachdeva, and P. Rathee|Chronic Toxic Effects of Cadmium and Copper, and Their Combination on Some Enzymological and Biochemical Parameters in Channa punctatus|J. Environ. Biol.18(3): 291-303|1997|
19024|A||Schreiber,S., K. Becker, V. Bresler, and L. Fishelson|Dietary L-Carnitine Protects the Gills and Skin of Guppies (Poecilia reticulata) Against Anionic Xenobiotics|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(1): 99-102|1997|10.1016/S0300-9629(96)00232-0
19025|A||Ponmani,R., B. Dhanakkodi, and S. Logaswamy|Sublethal Effect of Monocrotophos on Food Utilisation of Cyprinus carpio|J. Environ. Biol.18(4): 321-324|1997|
19026|A||Singh,N.N., V.K. Das, and A.K. Srivastava|Formothion and Propoxur Induced Ionic Imbalance and Skeletal Deformity a Catfish, Heteropneustes fossilis|J. Environ. Biol.18(4): 357-363|1997|
19027|A||Krishnamoorthy,P., and P. Subramanian|Copper Induced Protein Profile Variation in a Freshwater Prawn, Macrobranchium lamarrei lamarrei (H. Milne Edwards)|J. Environ. Biol.18(4): 371-377|1997|
19028|A||Kallanagoudar,Y.P., and H.S. Patil|Influence of Water Hardness on Copper, Zinc and Nickel Toxicity to Gambusia affinis (B&G)|J. Environ. Biol.18(4): 409-413|1997|
19029|A||Gopal,K., and R.C. Dalela|Pathological Impact of Endosulfan and Lindane on Chironomus Larvae (Chironomidae)|J. Environ. Biol.18(4): 429-434|1997|
19030|A||Kamble,S.B., and S.R. Nikam|Influence of pH on the Acute Toxicity of Benzene Hexachloride (BHC) to Lepidocephalus thermalis (C&V)|Environ. Ecol.16(3): 652-654|1998|
19031|A||Marco,E., F. Martinez, and M.I. Orus|Physiological Alterations Induced by the Organophosphorus Insecticide Trichlorfon in Anabaena PCC 7119 Grown with Nitrates|Environ. Exp. Bot.30(2): 119-126|1990|10.1016/0098-8472(90)90056-A
19032|A||Hornung,M.W., E.W. Zabel, and R.E. Peterson|Toxic Equivalency Factors of Polybrominated Dibenzo-p-Dioxin, Dibenzofuran, Biphenyl, and Polyhalogenated Diphenyl Ether Congeners Based on Rainbow Trout Early Life Stage Mortality|Toxicol. Appl. Pharmacol.140(2): 227-234|1996|10.1006/taap.1996.0217
19033|A||Yu,C.C., G.M. Booth, D.J. Hansen, and J.R. Larsen|Fate of Alachlor and Propachlor in a Model Ecosystem|J. Agric. Food Chem.23(5): 877-879|1975|10.1021/jf60201a044
19034|A||Webb,F.E., and D.R. MacDonald|Studies of Aerial Spraying Against the Spruce Budworm in New Brunswick X. Surveys of Stream-Bottom Fauna in Some Sprayed and Unsprayed Streams, 1955-57|Interim Rep.No.1957-3, Canada Department of Agriculture, Forest Biology Laboratory, Fredericton, N.B.:13 p.|1958|
19035|A||Webb,F.E., D.R. MacDonald, and T.R. Renault|Studies of Aerial Spraying Against the Spruce Budworm in New Brunswick XII. Surveys of Stream-Bottom Fauna in Some Sprayed and Unsprayed Streams, 1958|Interim Rep.1958-4, Can.Dep.of Agric., Forest Biology Lab., Fredericton, N.B.:14-|1959|
19036|A||Santhi,K., K. Gunasekhar, C.S. Babu, K.P.O. Reddy, and P. Neeraja|Changes in the Dehydrogenase Levels of Fish Oreochromis mossambicus Under Chronic Ammonia Stress|J. Inl. Fish. Soc. India24(2): 71-73|1992|
19037|A||Fournadzhieva,S., P. Kassabov, R. Andreeva, G. Petkov, and F. Dittrt|Influence of the Herbicide Simazine on Chlorella, Scenedesmus and Arthrospira|Algol. Stud.76:97-109|1995|
19038|A||Rao,C.S., and P. Neeraja|Effect of Chronic Ammonia Stress on Some Aspects of Protein Metabolism of Fish Tilapia mossambica|Indian J. Comp. Anim. Physiol.8(1): 69-73|1990|
19040|A||Nalewajko,C., B. Colman, and M. Olaveson|Effects of pH on Growth, Photosynthesis, Respiration, and Copper Tolerance of Three Scenedesmus Strains|Environ. Exp. Bot.37:153-160|1997|10.1016/S0098-8472(96)01029-5
19041|AT||Huckabee,J.W., and B.G. Blaylock|Microcosm Studies on the Transfer of Hg, Cd and Se from Terrestrial to Aquatic Ecosystems|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health - VIII, University of Missouri, Columbia, MO:219-222|1974|
19042|A||Maier,K.J., C.R. Nelson, F.C. Bailey, S.J. Klaine, and A.W. Knight|Accumulation of Selenium by the Aquatic Biota of a Watershed Treated with Seleniferous Fertilizer|Bull. Environ. Contam. Toxicol.60:409-416|1998|10.1007/s001289900641
19043|A||Diamond,S.A.|Characterization of Acute and Chronic Toxicity of Fluoranthene and the Potential for Acquisition Enhanced Tolerance in Fathead Minnows (Pimephales promelas)|Ph.D.Thesis, Miami University, Oxford, OH:151 p.|1995|
19044|A||Fingal,W., and H.M. Kaplan|Susceptibility of Xenopus laevis to Copper Sulfate|Copeia1963:155-156|1963|10.2307/1441287
19045|A||Shehata,F.H.A., and B.A. Whitton|Field and Laboratory Studies on Blue-Green Algae from Aquatic Sites with high Levels of Zinc|Verh. Int. Ver. Theor. Angew. Limnol.21:1466-1471|1981|
19046|A||Ray,D., and S.K. Banerjee|Hematological and Histopathological Changes in Clarias batrachus (Linn) Exposed to Nickel and Vanadium|Environ. Ecol.16(1): 151-156|1998|
19047|A||Ray,D., and S.K. Banerjee|Hepatic Toxicity of Nickel to Clarias batrachus Exposed to Nickel Sulfate Solution|Environ. Ecol.16(1): 142-146|1998|
19048|A||Banerjee,V.|Influence of Zinc and Mercury on Blood Parameters of the Fish Heteropneustes fossilis|Environ. Ecol.16(1): 79-84|1998|
19049|A||Muniyan,M., and K. Veeraraghavan|Effect of Ethofenprox on Oxygen Consumption and RBC Counts in the Fish Oreochromis mossambicus (Peters)|Environ. Ecol.16(1): 214-217|1998|
19050|A||Gabbadon,P.W., and F.A. Chapman|Use of the Lampricide 3-Trifluromethyl-4-Nitrophenol (TFM) to Control Tadpoles in Warmwater Ornamental Fish Ponds|Prog. Fish-Cult.58(1): 23-28|1996|10.1577/1548-8640(1996)058<0023:UOTLTN>2.3.CO;2
19051|A||Ruiz,J.M., G.W. Bryan, and P.E. Gibbs|Acute and Chronic Toxicity of Tributyltin (TBT) to Pediveliger Larvae of the Bivalve Scrobicularia plana|Mar. Biol.124(1): 119-126|1995|10.1007/BF00349153
19052|A||Ortego,L.S., W.E. Hawkins, Y. Zhu, and W.W. Walker|Chemically-Induced Hepatocycte Proliferation in the Medaka (Oryzias latipes)|Mar. Environ. Res.42(1-4): 75-79|1996|10.1016/0141-1136(95)00035-6
19053|A||Somerville,L., D.J. Arnold, K.L. Barrett, I.A. Garner, and P.J. Snowdon|Prochloraz - Environmental Impact of Production Effluent on Macoma baltica in the River Mersey|BCPC Monogr. - Br. Crop Prot. Counc.40:223-230|1988|
19054|A||Jayasankar,P., and M.S. Muthu|Studies on the Effect of Ammonia, Nitrate and Nitrite on the Larvae of Penaeus indicus|In: CMFRI (Cent.Mar.Fish.Res.Inst.) Bull.19 Special Publ.:5-9|1984|
19055|A||Shcheglov,V.V., G.V. Moiseichenko, and L.T. Kovekovdova|Effect of Copper and Zinc on Embryos, Larvae and Adult Individuals of the Sea Urchin Strongylocentrotus intermedius and the Sea Cucumber Stichopus japonicus|Biol. Morya (Vladivost.) (Multiple Languages)3:55-58|1990|
19056|A||Stauber,J.L.|Toxicity Testing Using Marine and Freshwater Unicellular Algae|Australas. J. Ecotoxicol.1(1): 15-24|1995|
19058|A||Beaumont,M.W., P.J. Butler, and E.W. Taylor|Plasma Ammonia Concentration in Brown Trout in Soft Acidic Water and Its Relationship to Decreased Swimming Performance|J. Exp. Biol.198(10): 2213-2220|1995|10.1242/jeb.198.10.2213
19059|A||Arnold,H., H.J. Pluta, and T. Braunbeck|Cytological Alterations in the Liver of Rainbow Trout Oncorhynchus mykiss After Prolonged Exposure to Low Concentrations of Waterborne Endosulfan|Dis. Aquat. Org.25(1-2): 39-52|1996|10.3354/dao025039
19060|A||Marchi,B., F. Trielli, C. Falugi, M.C. Corre, and L. Fenaux|Cholinomimetic Drugs may Affect Growth and Metamorphosis of the Sea Urchin Larva|Oceanol. Acta19(3-4): 287-291|1996|
19061|A||Gomez,L.C., N.H. Campos, and G. Ramirez|Bioaccumulation and Depuration of Aldrin on the Oyster Crassostrea rhizophore of the Cienaga Grande de Santa Marta (Columbian Caribbean)|Rev. Biol. Trop.43(1): 161-172|1995|
19062|A||Nalewajko,C., and M.M. Olaveson|Differential Responses of Growth, Photosynthesis, Respiration and Phosphate Uptake to Copper in Copper-Tolerant and Copper-intolerant Strains of Scenedesmus acutus (Chlorophyceae)|Can. J. Bot.73(8): 1295-1303|1995|10.1139/b95-141
19063|A||Lone,K.P., B.W. Ince, and A.J. Matty|Changes in the Blood Chemistry of Rainbow Trout, Salmo gairdneri Rich. in Relation to Dietary Protein Level, and an Anabolic Steroid Hormone Ethylestrenol|J. Fish Biol.20(5): 597-606|1982|10.1111/j.1095-8649.1982.tb03958.x
19064|A||Villani,L., S. Carraro, and T. Guarnieri|6,7-Dinitroquinoxaline-2,3-Dione but not MK-801 Exerts a Protective Effect Against Kainic Acid Neurotoxicity in the Goldfish Retina|Neurosci. Lett.192(2): 127-131|1995|10.1016/0304-3940(95)11616-5
19065|A||Syasina,I.G., M.A. Vaschenko, and V.B. Durkina|Histopathological Changes in the Gonads of Sea Urchins Exposed to Heavy Metals|Russ. J. Mar. Biol.17:244-251|1992|
19066|A||Zhao,Z., T. Li, W. Guo, and Y. Wang|On Using Bleaching Powder to Improve Water Environment in Ponds for Prawns|Shandong Fish.12(3): 27-31|1995|
19067|A||Clarkson,N., and L.V. Evans|Further Studies Investigating a Potential Non-Leaching Biocide Using the Marine Fouling Diatom Amphora coffeaeformis|Biofouling9(1): 17-30|1995|10.1080/08927019509378288
19068|A||Syasina,I.G., and M.A. Vaschenko|Responses of Coelomocytes and Gonad Support Mesentery of the Sea Urchin Strongylocentrotus intermedius to Gonad Damage Under Toxic Effects of Cadmium|Asian Mar. Biol.13:25-35|1996|
19069|A||Bend,J.R., L.M. Ball, T.H. Elmamlouk, M.O. James, and R.M. Philpot|Microsomal Mixed-Function Oxidation in Untreated and Polycyclic Aromatic Hydrocarbon-Treated Marine Fish|ACS Symp. Ser.99:297-318|1979|10.1021/bk-1979-0099.ch018
19070|A||Elcombe,C.R., R.B. Franklin, and J.J. Lech|Induction of Hepatic Microsomal Enzymes in Rainbow Trout|ACS Symp. Ser.99:319-337|1979|10.1021/bk-1979-0099.ch019
19071|A||Diamond,S.A., M.C. Newman, M. Mulvey, P.M. Dixon, and D. Martinson|Allozyme Genotype and Time to Death of Mosquitofish, Gambusia affinis (Baird and Girard), During Acute Exposure to Inorganic Mercury|Environ. Toxicol. Chem.8(7): 613-622|1989|10.1002/etc.5620080708
19072|A||Rice,D.W.,Jr., F.L. Harrison, and A.,Jr. Jerald|Effects of Copper on Early Life History Stages of Northern Anchovy, Engraulis mordax|Fish. Bull.78(3): 675-683|1980|
19074|A||Handy,R.D., and F.B. Eddy|Surface Absorption of Aluminium by Gill Tissue and Body Mucus of Rainbow Trout, Slamo gairdneri, at the Onset of Episodic Exposure|J. Fish Biol.34(6): 865-874|1989|10.1111/j.1095-8649.1989.tb03370.x
19075|A||Sadler,K., and S. Lynam|The Influence of Calcium on Aluminium-Induced Changes in the Growth Rate and Mortality of Brown Trout, Salmo trutta L.|J. Fish Biol.33(2): 171-179|1988|10.1111/j.1095-8649.1988.tb05460.x
19076|A||Riley,R.T., and M.C. Mix|The Effects of Naphthalene on Glucose Metabolism in the European Flat Oyster Ostrea edulis|Comp. Biochem. Physiol. C Comp. Pharmacol.70(1): 13-20|1981|10.1016/0306-4492(81)90072-1
19077|A||Roberts,J.R., A.S.W. DeFrietas, and M.A.J. Gidney|Influence of Lipid Pool Size on Bioaccumulation of the Insecticide Chlordane by Northern Redhorse Suckers (Moxostoma macrolepidotum)|J. Fish. Res. Board Can.34(1): 89-97|1977|10.1139/f77-010
19078|A||Blaxter,J.H.S.|The Effect of Copper on the Eggs and Larvae of Plaice and Herring|J. Mar. Biol. Assoc. U.K.57:849-858|1977|10.1017/S0025315400025200
19079|A||Morgan,F.|The Uptake of Radioactivity by Fish and Shellfish I. 134Caesium by Whole Animals|J. Mar. Biol. Assoc. U.K.44(1): 259-271|1964|10.1017/S0025315400024772
19080|A||Laale,H.W.|Ethanol Induced Notochord and Spinal Cord Duplications in the Embryo of the Zebrafish, Brachydanio rerio|J. Exp. Zool.177:51-64|1971|10.1002/jez.1401770107
19081|A||Laughlin,R.B.J., and W. French|Population-Related Toxicity Responses to Two Butyltin Compounds by Zoeae of the Mud Crab Rhithropanopeus harrisii|Mar. Biol.102(3): 397-401|1989|10.1007/BF00428492
19082|A||Murungi,J.I., and J.W. Robinson|Synergistic Effects of pH and Aluminum Concentrations on the Life Expectancy of Tilapia (Mozambica) Fingerlings|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control2(5): 391-395|1987|
19083|A||Dalziel,T.R.K., R. Morris, and D.J.A. Brown|The Effects of Low pH, Low Calcium Concentrations and Elevated Aluminium Concentrations on Sodium Fluxes in Brown Trout, Salmo trutta L.|Water Air Soil Pollut.30(3/4): 569-577|1986|10.1007/BF00303319
19085|A||Sangli,A.B., and V.V. Kanabur|Toxicity of Resorcinol and Nitrophenol to a Freshwater Fish Lepidocephalus guntea|Environ. Ecol.16(3): 642-644|1998|
19087|A||Uthe,J.F., F.M. Atton, and L.M. Royer|Uptake of Mercury by Caged Rainbow Trout (Salmo gairdneri) in the South Saskatchewan River|J. Fish. Res. Board Can.30(5): 643-650|1973|10.1139/f73-112
19088|A||Weis,J.S., P. Weis, M. Heber, and S. Vaidya|Investigations into Mechanisms of Heavy Metal Tolerance in Killifish (Fundulus heteroclitus) Embryos|In: W.B.Vernberg, A.Calabrese, F.P.Thurberg, and F.J.Vernberg (Eds.), Physiological Mechanisms of Marine Pollutant Toxicity, Academic Press, San Diego, CA:311-330|1982|
19089|A||Heber,M.A.|Comparative Embryonic Methylmercury Susceptibility and Reproductive Biology of Two Populations of the Mummichog (Fundulus heteroclitus)|M.S.Thesis, Rutgers University, Newark, NJ:98 p.|1981|
19090|A||Murungi,J.I., and J.W. Robinson|Uptake and Accumulation of Aluminum by Fish-The Modifying Effect of Added Ions|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(3): 713-719|1992|
19091|A||Mangat,B.S., F. Pasquini, and N.N. Kapoor|Influence of 2,4-Dichlorophenoxyacetic Acid on the Starch Content of the Biflagellate Heterotroph Polytoma uvella: Biochemical and Scanning Electron Microscopic Observations|Can. J. Bot.63(3): 527-532|1985|10.1139/b85-067
19092|A||Ayling,G.M.|Uptake of Cadmium, Zinc, Copper, Lead and Chromium in the Pacific Oyster, Crassostrea gigas, Grown in the Tamar River, Tasmania|Water Res.8(10): 729-738|1974|10.1016/0043-1354(74)90017-7
19093|A||Das,S.K., H.P.C. Shetty, and M.C. Nandeesha|Effect of Oral Administration of Mibolerone - A New Androgenic Steroid on the Muscle Biochemical Composition of Carp Cyprinus carpio (L.)|Environ. Ecol.16(3): 611-615|1998|
19094|A||Le Curieux,F., D. Marzin, and F. Erb|Genotoxic Activity of Three Carcinogens in Peripheral Blood Erythrocytes of the Newt Pleurodeles waltl|Mutat. Res.283(5):157-160|1992|
19095|A||Chiles,T.C., P.D. Pendoley, and R.B.,Jr. Laughlin|Mechanisms of Tri-N-Butyltin Bioaccumulation by Marine Phytoplankton|Can. J. Fish. Aquat. Sci.46(5): 859-862|1989|10.1139/f89-108
19096|A||Holtze,K.E., and N.J. Hutchinson|Lethality of Low pH and Al to Early Life Stages of Six Fish Species Inhabiting PreCambrian Shield Waters in Ontario|Can. J. Fish. Aquat. Sci.46(1): 1188-1202|1989|10.1139/f89-155
19097|A||Wood,C.M., B.P. Simons, D.R. Mount, and H.L. Bergman|Physiological Evidence of Acclimation to Acid/Aluminum Stress in Adult Brook Trout (Salvelinus fontinalis). 2. Blood Parameters by Cannulation|Can. J. Fish. Aquat. Sci.45(9): 1597-1605|1988|10.1139/f88-189
19098|A||Wood,C.M., D.G. McDonald, C.E. Booth, B.P. Simons, C.G. Ingersoll, and H.L. Bergman|Physiological Evidence of Acclimation to Acid/Aluminum Stress in Adult Brook Trout (Salvelinus fontinalis). 1. Blood Composition and Net Sodium Fluxes|Can. J. Fish. Aquat. Sci.45(9): 1587-1596|1988|10.1139/f88-188
19099|A||Mount,D.R., C.G. Ingersoll, D.D. Gulley, J.D. Fernandez, T.W. LaPoint, and H.L. Bergman|Effect of Long-Term Exposure to Acid, Aluminum, and Low Calcium on Adult Brook Trout (Salvelinus fontinalis). 1. Survival, Growth, Fecundity, and Progeny Survival|Can. J. Fish. Aquat. Sci.45(9): 1623-1632|1988|10.1139/f88-192
19100|A||Mount,D.R., J.R. Hockett, and W.A. Gern|Effect of Long-Term Exposure to Acid, Aluminum, and Low Calcium on Adult Brook Trout (Salvelinus fontinalis).  2. Vitellogenesis and Osmoregulation|Can. J. Fish. Aquat. Sci.45(9): 1633-1642|1988|10.1139/f88-193
19101|A||McDonald,D.G., and C.L. Milligan|Sodium Transport in the Brook Trout, Salvelinus fontinalis: Effects of Prolonged Low pH Exposure in the Presence and Absence of Aluminum|Can. J. Fish. Aquat. Sci.45(9): 1606-1613|1988|10.1139/f88-190
19102|A||Booth,C.E., D.G. McDonald, B.P. Simons, and C.M. Wood|Effects of Aluminum and Low pH on Net Ion Fluxes and Ion Balance in the Brook Trout (Salvelinus fontinalis)|Can. J. Fish. Aquat. Sci.45(9): 1563-1574|1988|10.1139/f88-186
19103|A||Zhou,Y., H. Lui, and B. Dong|Growth Response of Isochrysis galbana 3011 to Seven Kinds of Heavy Metals|Aquat. Sci. Fish. Abstr. (CD-ROM Ed.) :1 p.|1990|
19104|A||Welch,T.J., J.R.,Jr. Stauffer, and R.P. Morgan II|Temperature Preference as an Indicator of the Chronic Toxicity of Cupric Ions to Mozambique tilapia|Bull. Environ. Contam. Toxicol.43(5): 761-768|1989|10.1007/BF01702000
19105|A||Sarkar,S.K.|Role of Cadmium Chloride on Fish and Aquatic Ecosystem|Fishing Chimes12(12): 20-21|1993|
19106|A||McKee,M.J., C.O. Knowles, and D.R. Buckler|Effects of Aluminum on the Biochemical Composition of Atlantic Salmon|Arch. Environ. Contam. Toxicol.18(1-2): 243-248|1989|10.1007/BF01056209
19107|A||Lavie,B., and E. Nevo|Multilocus Genetic Resistance and Susceptibility to Mercury and Cadmium Pollution in the Marine Gastropod, Cerithium scabridum|Aquat. Toxicol.13(4): 291-296|1988|10.1016/0166-445X(88)90150-6
19108|A||Hutchinson,N.J., K.E. Holtze, J.R. Munro, and T.W. Pawson|Modifying Effects of Life Stage, Ionic Strength and Post-Exposure Mortality on Lethality of H+ and Al to Lake Trout and Brook Trout|Aquat. Toxicol.15(1): 1-26|1989|10.1016/0166-445X(89)90002-7
19109|A||Karara,A.H., and W.L. Hayton|A Pharmacokinetic Analysis of the Effect of Temperature on the Accumulation of di-2-Ethylhexyl Phthalate (DEHP) in Sheepshead Minnow|Aquat. Toxicol.15(1): 27-36|1989|10.1016/0166-445X(89)90003-9
19110|A||Bengtsson,B.E., C.H. Carlin, A. Larsson, and O. Svanberg|Vertebral Damage in Minnows, Phoxinus phoxinus L., Exposed to Cadmium|Ambio4(4): 166-168|1975|
19111|A||Neuman,J.F., C.J. Brauner, D.J. Randall, and R.V. Thurston|Differences Among Fish Species in the Uptake of Waterborne 1,2,4,5-Tetrachlorobenzene|14th Annu.Conf., Eur.Soc.for Comparative Physiology and Biochemistry, Mar.29-April 2, 1993, Canterbury, England:C1 - C18|1993|
19112|A||Yang,R.|A Physiological Model to Predict Xenobiotic Concentration in Fish|A Research Proposal Submitted in Partial Fulfilment of the Requirement for Acceptance into the Ph.D.Program, Faculty of Graduate Studies, Dep.of Zool., University of British Columbia:43 p.|1994|
19114|A||Roberts,M.H.J., M.E. Bender, P.F. De Lisle, H.C. Sutton, and R.L. Williams|Sex Ratio and Gamete Production in American Oysters Exposed to Tributyltin in the Laboratory|In: Oceans 87, IEEE Publishing Services, New York, NY4:1471-1476|1987|
19115|A||Thain,J.E., M.J. Waldock, and M.E. Waite|Toxicity and Degradation Studies of Tributyltin (TBT) and Dibutyltin (DBT) in the Aquatic Environment|In: Oceans 87, IEEE Publishing Services, New York, NY4:1398-1404|1987|
19116|A||Brent,R.N., and E.E. Herricks|Postexposure Effects of Brief Cadmium, Zinc, and Phenol Exposures on Freshwater Organisms|Environ. Toxicol. Chem.17(10): 2091-2099|1998|10.1002/etc.5620171027
19118|A||Rajan,M.T., and T.K. Banerjee|Toxicity of a Fish Disinfectant, Malachite Green to Heteropneustes fossilis and Induced Changes in the Mucocyte Density of Its Skin|J. Freshw. Biol.6(2): 177-182|1994|
19119|A||Komarudin,O., M. Shariff, and F. Shaharom|Toxicity of Sodium Chloride to Clarias batrachus (Linnaeus) and Its Effectiveness as a Chemotherapeutant for Quadricanthus kobiensis Ha Ky, 1968 Infections|In: M.Shariff, R.P.Subasinghe, and J.R.Arthur (Eds.), Proceedings of the First Symposium on Diseases in Aquaculture 1, Nov.26-29, 1990, Bali, Indonesia:425-430|1992|
19120|A||Sakamoto,M.K., S. Mima, T. Kihara, T. Matsuo, Y. Yasuda, and T. Tanimura|Developmental Toxicity of Caffeine in the Larvae of Xenopus laevis|Teratology47:189-201|1993|10.1002/tera.1420470303
19121|A|OECDG|Bringmann,G., and R. Kuhn|Limiting Values for the Noxious Effects of Water Pollutant Material to Blue Algae (Microcystis aeruginosa) and Green Algae (Scenedesmus quadricauda) in Cell Propagation Inhibition Tests (Grenzwerte der Schadwirkung Wass|TR-80-0201, Literature Research Company, Annandale, VA:39 p.|1978|
19122|A||Smith,B.S.|Male Characteristics on Female Mud Snails Caused by Antifouling Bottom Paints|J. Appl. Toxicol.1(1): 22-25|1981|10.1002/jat.2550010106
19123|A||Lee,R.F.|Metabolism and Accumulation of Xenobiotics Within Hepato-pancreas Cells of the Blue Crab, Callinectes sapidus|Mar. Environ. Res.28(1-4): 93-97|1989|10.1016/0141-1136(89)90190-6
19124|A||Birge,W.J., J.A. Black, A.G. Westerman, and B.A. Ramey|Fish and Amphibian Embryos - a Model System for Evaluating Teratogenicity|Fundam. Appl. Toxicol.3:237-242|1983|10.1016/S0272-0590(83)80134-1
19125|A||Hedtke,J.L., E. Robinson-Wilson, and L.J. Weber|Influence of Body Size and Developmental Stage of Coho Salmon (Oncorhynchus kisutch) on Lethality of Several Toxicants|Fundam. Appl. Toxicol.2:67-72|1982|10.1016/S0272-0590(82)80116-4
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19127|A||Moore,M.N., J.A. Mayernik, and C.S. Giam|Lysosomal Responses to a Polynuclear Aromatic Hydrocarbon in a Marine Snail:  Effects of Exposure to Phenanthrene and Recovery|Mar. Environ. Res.17(2-4): 230-233|1985|10.1016/0141-1136(85)90093-5
19128|A||Anderson,B.S., J.W. Hunt, H.R. McNulty, M.D. Stephenson, F.H. Palmer, D.L. Denton, and M. Reeve|Marine Bioassay Project. 7th Report. Refinement of Effluent Toxicity Testing Protocols for Four Marine Species|No.94-2WQ, State Water Resources Control Board, California Environmental Protection Agency, Sacramento, CA:124 p.|1994|
19129|A||Anderson,B.S., J.W. Hunt, S.L. Turpen, A.R. Coulon, M. Martin, and F.H. Palmer|Marine Bioassay Project.  5th Report.  Protocol Development and Inter Laboratory Testing with Complex Effluents|No.90-13WQ, Water Resour.Control Board, State of Calif., Sacramento, CA:183 p.|1990|
19130|A||Hunt,J.W., B.S. Anderson, S.L. Turpen, A.R. Coulon, M. Martin, F.H. Palmer, and J.J. Janik|Marine Bioassay Project.  4th Report.  Experimental Evaluation of Effluent Toxicity Testing Protocols with Giant Kelp, Mysids, Red Abalone, and Topsmelt|No.89-5WQ, State Water Resources Control Board, State of California, Sacramento, CA:144-|1989|
19131|A||Anderson,B.S., J.W. Hunt, M. Martin, S.L. Turpen, and F.H. Palmer|Marine Bioassay Project.  3rd Report.  Protocol Development:  Reference Toxicant and Initial Complex Effluent Testing|Div.of Water Qual.Rep.No.88-7WQ, State Water Resour.Control Board, State of California, Sacramento, CA:154 p.|1988|
19132|A||Angadi,S.B., and P. Mathad|Effect of Copper, Cadmium and Mercury on the Morphological, Physiological and Biochemical Characteristics of Scenedesmus quadricauda (Turp.) de Breb|J. Environ. Biol.19(2): 119-124|1998|
19133|A||Sivaramakrishna,B., and K. Radhakrishnaiah|Impact of Sublethal Concentration of Mercury on Nitrogen Metabolism of the Freshwater Fish, Cyprinus carpio (Linnaeus)|J. Environ. Biol.19(2): 111-117|1998|
19134|A||Kanagaraj,M.K., R. Mathew, and R. Manavalaramanujam|Effect of Cadmium Nitrate on Plasm Electrolytes of the Fish, Catla catla|J. Environ. Biol.19(2): 107-110|1998|
19135|A||Pandey,A.C.|Reproduction in the Female Stripped Gouramy Colisa fasciatus (Bl. & Schn.) in Response to Sublethal Concentration of Emisan|J. Environ. Biol.19(1): 9-13|1998|
19136|A||Gomez,S., C. Villar, and C. Bonetto|Zinc Toxicity in the Fish Cnesterodon decemmaculatus in the Parana River and Rio de la Plata Estuary|Environ. Pollut.99(2): 159-165|1998|10.1016/S0269-7491(97)00194-2
19137|A||Borgmann,U., V. Cheam, W.P. Norwood, and J. Lechner|Toxicity and Bioaccumulation of Thallium in Hyalella azteca, with Comparison to Other Metals and Prediction of Environmental Impact|Environ. Pollut.99(1): 105-114|1998|10.1016/S0269-7491(97)00181-4
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19260|A||Springborn Life Sciences Inc.|Acute Toxicity of Technical Azinphos-Methyl (Trade Name Guthion) to Eastern Oysters (Crassostrea virginica) Under Flow-Through Conditions|Guideline Ref.No.72-3, SLS Rep.No.87-11-2564, Springborn Life Sciences Inc., Wareham, MA:32 p.|1987|
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19264|A||Calevro,F., C. Filippi, P. Deri, C. Albertosi, and R. Batistoni|Toxic Effects of Aluminium, Chromium and Cadmium in Intact and Regenerating Freshwater Planarians|Chemosphere37(4): 651-659|1998|10.1016/S0045-6535(98)00081-2
19265|A||Van Wijngaarden,R.P.A., S.J.H. Crum, K. Decraene, J. Hattink, and A. Van Kammen|Toxicity of Derosal (Active Ingredient Carbendazim) to Aquatic Invertebrates|Chemosphere37(4): 673-683|1998|10.1016/S0045-6535(98)00083-6
19266|A||Wei,L., H. Yu, Y. Sun, J. Fen, and L. Wang|The Effects of Three Sulfonylurea Herbicides and Their Degradation Products on the Green Algae Chlorella pyrenoidosa|Chemosphere37(4): 747-751|1998|10.1016/S0045-6535(98)00076-9
19267|A||Dirilgen,N.|Effects of pH and Chelator EDTA on Cr Toxicity and Accumulation in Lemna minor|Chemosphere37(4): 771-783|1998|10.1016/S0045-6535(98)00080-0
19268|A||Gupta,M., R.D. Tripathi, U.N. Rai, and P. Chandra|Role of Glutathione and Phytochelatin in Hydrilla verticillata (l.f.) Royle and Vallisneria spiralis L. Under Mercury Stress|Chemosphere37(4): 785-800|1998|10.1016/S0045-6535(98)00073-3
19269|A||Fernandez Leborans,G., Y.O. Herrero, and A. Novillo|Toxicity and Bioaccumulation of Lead in Marine Protozoa Communities|Ecotoxicol. Environ. Saf.39(3): 172-178|1998|10.1006/eesa.1997.1623
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19274|A||Pacheco,M., and M.A. Santos|Induction of Liver EROD and Erythrocytic Nuclear Abnormalities by Cyclophosphamide and PAHs in Anguilla anguilla L.|Ecotoxicol. Environ. Saf.40(1/2): 71-76|1998|10.1006/eesa.1998.1644
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19279|A||Van Wijk,D.J., S.G.M. Kroon, and I.C.M. Garttener-Arends|Toxicity of Chlorate and Chlorite to Selected Species of Algae, Bacteria, and Fungi|Ecotoxicol. Environ. Saf.40(3): 206-211|1998|10.1006/eesa.1998.1685
19280|A||Stenalt,E., B. Johansen, S.V. Lillienskjold, and B.W. Hansen|Mesocosm Study of Mytilus edulis Larvae and Postlarvae, Including the Settlement Phase, Exposed to a Gradient of Tributyltin|Ecotoxicol. Environ. Saf.40(3): 212-225|1998|10.1006/eesa.1998.1687
19281|A||Forget,J., J.F. Pavillon, M.R. Menasria, and G. Bocquene|Mortality and LC50 Values for Several Stages of the Marine Copepod Tigriopus brevicornis (Muller) Exposed to the Metals Arsenic and Cadmium and the Pesticides Atrazine, Carbofuran, Dichlorvos, and Malathion|Ecotoxicol. Environ. Saf.40(3): 239-244|1998|10.1006/eesa.1998.1686
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19348|A||Jenkins,C.R.|A Study of Some Toxic Components in Oil Refinery Effluents|M.S.Thesis, Oklahoma State University, Stillwater, OK:73 p.|1964|
19349|A||Thain,J.E., and M.J. Waldock|The Growth of Bivalve Spat Exposed to Organotin Leachates from Antifouling Paints|Int.Counc.for the Exploration of the Sea, ICES-CM-1985/E 28, Copenhagen, Denmark:10 p.|1985|
19351|A||Winner,R.|Results of Phenol Ceriodaphnia dubia Acute Test Conducted by R. Winner (Cooperative Agreement)|Sept.1987, Oct.1987, and Feb.1988 Memos to R.Spehar, U.S.EPA, Duluth, MN:|1988|
19352|A||Erickson,R.J., G.T. Ankley, D.L. De Foe, P.A. Kosian, and E.A. Makynen|Additive Toxicity of Binary Mixtures of Phototoxic Polycyclic Aromatic Hydrocarbons to the Oligochaete Lumbriculus variegatus|Toxicol. Appl. Pharmacol.154:97-105|1999|10.1006/taap.1998.8563
19354|A||De Foe,D.L.|Tetrachloroethylene Bioassay Results|Memorandum to W.A.Brungs, February 7, U.S.EPA, Duluth, MN:4 p.|1980|
19356|A||Kito,H., T. Tazawa, Y. Ose, T. Sato, and T. Ishikawa|Formation of Metallothionein in Fish|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 129-134|1982|10.1016/0306-4492(82)90179-4
19357|A||His,E., and R. Robert|Effect of Tributyltin Acetate on Eggs and Larvae of Crassostrea gigas (Action d'un sel Organo-Metallique, l'Acetate de Tributyle-Etain sur les Oeufs et les Larves D de Crassostrea gigas (Thunberg))|Int.Counc.for the Exploration of the Sea, ICES-CM-1980/F:27, Copenhagen, Denmark:10 p.|1980|
19358|A||Yih,W., J.S. Yang, S.G. Jo, and E.Y. Chung|Effects of Suspended Solid and Cadmium on the Shallow-Sea Foodweb Ecosystem. 1. Reduction of Growth Rate and Biomass Yield of Coastal Diatom Clones|J. Korean Fish. Soc. (Multiple Languages)27(4): 373-379|1994|
19359|A||Springborn Life Sciences Inc.|Acute Toxicity of Guthion 50 WP to Daphnids, Daphnia magna, Under Flow-Through Conditions|Guideline Reference Number 72-2, Report #87-8-2466, Springborn Life Sciences, Inc., Wareham, MA:33 p.|1987|
19360|A||Springborn Life Sciences Inc.|Acute Toxicity of Technical Grade Azinphos-Methyl (Trade Name Guthion) to Sheepshead Minnow (Cyprinodon variegatus) Under Flow-Through Conditions|Guideline Reference No.72-3, SLS Rep.No.#87-5-2504, Springborn Life Sciences, Inc., Wareham, MA:22 p.|1988|
19361|A||Springborn Life Sciences Inc.|Acute Toxicity of Technical Grade Azinphos-Methyl (Trade Name Guthion) to Mysid Shrimp (Mysidopsis bahia) Under Flow-Through Conditions|Guideline Reference No.72-3, SLS Rep.No.#87-9-2513, Springborn Life Sciences, Inc., Wareham, MA:1-55|1988|
19362|A||Bury,N.R., J.C. McGeer, and C.M. Wood|Effects of Altering Freshwater Chemistry on Physiological Responses of Rainbow Trout to Silver Exposure|Environ. Toxicol. Chem.18(1): 49-55|1999|10.1002/etc.5620180107
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19364|A||Sobral,P., L. Castro, H. Costa, and I. Peres|The Influence of Diet on the Accumulation of Copper and Zinc in the Clam Ruditapes decussatus.  Physiological Assessment|In: D.Bellan, G.Bonin, and C.Emig (Eds.), Functioning and Dynamics of Natural and Perturbed Ecosystems, Lavoisier Intercept Ltd., Paris, France:583-591|1995|
19365|A||Castro,L., P. Sobral, M.H. Costa, I. Peres, and S. Caeiro|Zinc and Copper Accumulation in the Clam Ruditapes decussatus l. (Bivalvia) Field Mesocosms and Laboratory Experiments|In: D.Bellan, G.Bonin, and C.Emig (Eds.), Functioning and Dynamics of Natural and Perturbed Ecosystems, Laveisier Intercept Ltd., Paris, France:602-608|1995|
19366|A||McCormick,P.V., S.E. Belanger, and J.,Jr. Cairns|Evaluating the Hazard of Dodecyl Alkyl Sulphate to Natural Ecosystems Using Indigenous Protistan Communities|Ecotoxicology6:67-85|1997|10.1023/A:1018606206549
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19368|A||Farris,J.L., J.L. Grudzien, S.E. Belanger, D.S. Cherry, and J.,Jr. Cairns|Molluscan Cellulolytic Activity Responses to Zinc Exposure in Laboratory and Field Stream Comparisons|Hydrobiologia (Multiple Languages)287:161-178|1994|10.1007/BF00010732
19369|A||Brixham Environmental Laboratory|Sodium Chlorate: Toxicity to the Marine Alga Phaeodactylum tricornutum|Study No.T129/A, Brixham Environmental Laboratory, Devon, London:3 p.|1995|
19370|A||Brixham Environmental Laboratory|Sodium Chlorate: Toxicity to the Green Alga Scenedesmus subspicatum|Study No.T129/B, Brixham Environmental Laboratory, Devon, London:3 p.|1995|
19371|A||Brixham Environmental Laboratory|Bromate: Acute Toxicity to the Embryo-Larval Stages of the Pacific Oyster, Crassostrea gigas|Study No.AB724/B, Brixham Environmental Laboratory, Devon, London:3 p.|1995|
19372|A||His,E., and M.N.L. Seaman|Effects of Twelve Pesticides on Larvae of Oysters (Crassostrea gigas) and on Two Species of Unicellular Marine Algae (Isochrysis galbana and Chaetoceros Calcitrans)|Int.Counc.for the Exploration of the Sea, ICES-CM-1993/E, Copenhagen, Denmark:22 p.|1993|
19373|A||Gopakumar,G., and M.S. Muthu|Effect of Hydrogen Sulphide on Juveniles of Penaeus indicus H. Milne Edwards|In: Mariculture Research Under the Postgraduate Programme in Mariculture, Part 2, Special Publication 53, Central Marine Fisheries Research Institute, Ernakulam, India53:7-12|1993|
19375|A||Van Beneden,R.J.|Molecular Analysis of Medaka Tumors:  New Models for Carcinogenicity Testing|Contract No.DAMD17-91-C-1079, U.S.Army Med.Res.and Development Command, Ft.Detrick, Frederick, MD:40 p./ Gov.Rep.Announc.Index94(9): 39 p.|1993|
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19378|A||Niimi,A.J.|Biological Half-Lives of Chlorinated Diphenyl Ethers in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.9(2-3): 105-116|1986|10.1016/0166-445X(86)90017-2
19379|A||Scales,E.H.|Comparative Studies of Endrin Uptake of Insecticide-Resistant and -Susceptible Mosquitofish (Gambusia affinis)|M.S.Thesis, Mississippi State University, Starkville, MS:32 p.|1973|
19380|A||Hunsinger,R.N.|Uptake and Disposition of Endrin in Insecticide-Susceptible and -Resistant Mosquitofish (Gambusia affinis)|M.S.Thesis, Mississippi State University, Starkville, MS:26 p.|1978|
19381|A||Vismara,C.|Effects of Methanol, Ethanol and N-Propanol on Development of Artemia salina Cysts|Chemosphere37(14-15): 3027-3034|1998|10.1016/S0045-6535(98)00344-0
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19383|A||Balk,L., J. Meijer, J.W. DePierre, and L.E. Appelgren|The Uptake and Distribution of [3H]Benzo(a)pyrene in the Northern Pike (Esox lucius). Examination by Whole-Body Autoradiography and Scintillation|Toxicol. Appl. Pharmacol.74(3): 430-449|1984|10.1016/0041-008X(84)90296-5
19384|A||Ghosal,T.K., and A. Kaviraj|Influence of Poultry Litter on the Toxicity of Cadmium to Aquatic Organisms|Bull. Environ. Contam. Toxicol.57(6): 1009-1015|1996|10.1007/s001289900291
19385|A||Anderson,M.A., and F.M.M. Morel|The Influence of Aqueous Iron Chemistry on the Uptake of Iron by the Coastal Diatom Thalassiosira weissflogii|Limnol. Oceanogr.27(5): 789-813|1982|10.4319/lo.1982.27.5.0789
19386|A||Toetz,D.W.|Effects of pH, Phosphate and Ammonia on the Rate of Uptake of Nitrate and Ammonia by Freshwater Phytoplankton|Hydrobiologia (Multiple Languages)76(1-2): 23-26|1981|10.1007/BF00014029
19387|A||Bates,S.S., A. Tessier, P.G.C. Campbell, and M. Letourneau|Zinc-Phosphorus Interactions and Variation in Zinc Accumulation During Growth of Chlamydomonas variabilis (Chlorophyceae) in Batch Culture|Can. J. Fish. Aquat. Sci.42(1): 86-94|1985|10.1139/f85-011
19388|A||Murakami,H., M. Sano, T. Tsukimura, and A. Yamazaki|The Relaxing Effect of SCH 23390 in the Molluscan Smooth Muscle|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 341-344|1989|10.1016/0742-8413(89)90189-8
19389|A||Van Frankenhuyzen,K., and G.H. Geen|Effects of Low pH and Nickel on Growth and Survival of the Shredding Caddisfly Clistoronia magnifica (Limnephilidae)|Can. J. Zool.65(7): 1729-1732|1987|10.1139/z87-267
19390|A||McCormick,J.H., and K.M. Jensen|Osmoregulatory Failure and Death of First-Year Largemouth Bass (Micropterus salmoides) Exposed to Low pH and Elevated Aluminum, at Low Temperature in|Can. J. Fish. Aquat. Sci.49(6): 1189-1197|1992|10.1139/f92-134
19391|A||Clark,K.L., and B.D. LaZerte|A Laboratory Study of the Effects of Aluminum and pH on Amphibian Eggs and Tadpoles|Can. J. Fish. Aquat. Sci.42(9): 1544-1551|1985|10.1139/f85-193
19392|A||Woodward,D.F., A.M. Farag, M.E. Mueller, E.E. Little, and F.A. Vertucci|Sensitivity of Endemic Snake River Cutthroat Trout to Acidity and Elevated Aluminum|Trans. Am. Fish. Soc.118(3): 630-643|1989|10.1577/1548-8659(1989)118<0630:SOESRC>2.3.CO;2
19393|A||Huey,D.W., M.C. Wooten, L.A. Freeman, and T.L. Beitinger|Effect of pH and Chloride on Nitrite-Induced Lethality in Bluegill (Lepomis macrochirus)|Bull. Environ. Contam. Toxicol.28(1): 3-6|1982|10.1007/BF01608404
19394|A||Jeelani,S., and S.A. Shaffi|Mercuric Nitrate Intoxication on Tissue Glucose-6-Phosphatase in Fishes|Environ. Ecol.6(3): 701-704|1988|
19395|A||Singhal,R.N., and R.W. Davies|Effects of an Organophosphorus Insecticide (Temephos) on Gametogenesis in the Leech Hirudinaria manillensis (Hirudinidae)|J. Invertebr. Pathol.67(1): 100-101|1996|10.1006/jipa.1996.0014
19396|A||Larsson,A., B.E. Bengtsson, and O. Svanberg|Some Haematological and Biochemical Effects of Cadmium on Fish|In: A.P.M.Lockwood (Ed.), Effects of Pollutants on Aquatic Organisms, Cambridge University Press, Cambridge, U.K.:35-45|1976|
19397|A||Headon,C.M., R.J. Hall, and G. Mierle|Dynamics of Radiolabelled Methylmercury in Crayfish (Orconectes virilis)|Can. J. Fish. Aquat. Sci.53(12): 2862-2869|1996|10.1139/f96-222
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19399|A||Ithack,E., and C.P. Gopinathan|The Effect of Heavy Metals on the Physiological Changes of Microalgae|In: Mariculture Research Under the Postgraduate Programme in Mariculture, Part 6, Special Publication 61, Central Marine Fisheries Research Institute, Ernakulam, India:45-52|1995|
19400|A||Patil,K.C., F. Matsumura, and G.M. Boush|Metabolic Transformation of DDT, Dieldrin, Aldrin, and Endrin by Marine Microorganisms|Environ. Sci. Technol.6(7): 629-632|1972|10.1021/es60066a012
19401|A||Howell,R.|Effect of Zinc on Cadmium Toxicity to the Amphipod Gammarus pulex|Hydrobiologia (Multiple Languages)123(3): 245-249|1985|10.1007/BF00034386
19402|A||Nigg,H.N., J.H. Stamper, R.M. Queen, and J.L. Knapp|Fish Mortality Following Application of Phenthoate to Florida Citrus|Bull. Environ. Contam. Toxicol.32(5): 587-596|1984|10.1007/BF01607542
19403|A||Brown,D.J.A.|Effect of Calcium and Aluminum Concentrations on the Survival of Brown Trout (Salmo trutta) at Low pH|Bull. Environ. Contam. Toxicol.30(5): 582-587|1983|10.1007/BF01610178
19404|A||Gladden,B.|The Effect of Aluminum on Cortisol Levels in Goldfish (Carassius auratus)|M.S.Thesis, Northwestern State University, Evanston, IL:35-|1987|
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19406|A||Martin,D.F., and G.A.,Jr. Reid|Uptake of Manganese in Hydrilla verticillata Royle|J. Agric. Food Chem.24(6): 1161-1165|1976|10.1021/jf60208a042
19407|A||Scheier,A., and J.,Jr. Cairns|An Apparatus for Estimating the Effects of Toxicants on the Critical Flicker Frequency Response of the Bluegill Sunfish|Proc. 23rd Industrial Waste Conference, Purdue University, Eng. Bull. Ext. Ser.132(2): 849-855|1968|
19408|A||Wells,M.R., J.L. Ludke, and J.D. Yarbrough|Epoxidation and Fate of [14C]Aldrin in Insecticide-Resistant and Susceptible Populations of Mosquitofish (Gambusia affinis)|J. Agric. Food Chem.21(3): 428-429|1973|10.1021/jf60187a010
19409|A||Goldman,J.C., and P.M. Glibert|Comparative Rapid Ammonium Uptake by Four Species of Marine Phytoplankton|Limnol. Oceanogr.27(5): 814-827|1982|10.4319/lo.1982.27.5.0814
19410|A||Wheeler,P.A., P.M. Glibert, and J.J. McCarthy|Ammonium Uptake and Incorporation by Chesapeake Bay Phytoplankton: Short Term Uptake Kinetics|Limnol. Oceanogr.27(6): 1113-1128|1982|10.4319/lo.1982.27.6.1113
19411|A||Wheeler,P.A., and J.J. McCarthy|Methylammonium Uptake by Chesapeake Bay Phytoplankton: Evaluation of the Use of the Ammonium Analogue for Field Uptake Measurements|Limnol. Oceanogr.27(6): 1129-1140|1982|
19413|A||Gee,W.|Effects of Acute Alcoholization on the Germ Cells of Fundulus heteroclitus|Biol. Bull.31(6): 379-406|1916|10.2307/1536318
19414|A||Fuse,H.|Effects of Trace Metals on Growth of Red Tide Phytoplankton and Their Accumulation of Metal|Agric. Biol. Chem.51(4): 987-992|1987|
19415|A||Vinod,P.N., and A. Laxminarayana|Effect of Some Pesticides on Penaeus indicus H. Milne Edwards|In: Mariculture Research Under the Postgraduate Programme in Mariculture, Part 2, Special Publication 53, Central Marine Fisheries Research Institute, Ernakulam, India:96-99|1993|
19417|A||Dinesan,K.C., and K.C. George|Histopathological Studies on Zinc Toxicity in Milkfish Chanos chanos Forsskal|In: Mariculture Research Under the Postgraduate Programme in Mariculture, Part 3, Special Publication 54, Central Marine Fisheries Research Institute, Ernakulam, India:25-27|1993|
19418|A||Paul,P.I., S. Vincent, T. Ambrose, and M. Selvanayagam|Activity of Acid Phosphatase in the Selected Tissues of Sarotherodon mossambicus (Trewavas) Exposed to Synthetic Detergent|J. Ecobiol.7(1): 67-70|1995|
19419|AT||Lee,C.L., T.C. Wang, C.H. Hsu, and A.A. Chiou|Heavy Metals Sorption by Aquatic Plants in Taiwan|Bull. Environ. Contam. Toxicol.61:497-504|1998|10.1007/s001289900790
19421|A||Vuorinen,M., P.J. Vuorinen, J. Hoikka, and S. Peuranen|Lethal and Sublethal Threshold Values of Aluminium and Acidity to Pike (Esox lucius), Whitefish (Coregonus lavaretus pallasi), Pike Perch|Sci. Total Environ.Suppl:953-967|1993|10.1016/S0048-9697(05)80102-0
19422|A||Robinson,J.M., B.E. Allen, and T.E. Denton|Cresol Induced Growth Inhibition in Cultures of Chick Fibroblasts and Ankistrodesmus|J. Ala. Acad. Sci.:243-246|1970|
19423|AT||Unsal,M.|The Accumulation and Transfer of Vanadium Within the Food Chain|Mar. Pollut. Bull.13(4): 139-141|1982|10.1016/0025-326X(82)90373-3
19424|A||Bradford,D.F., and M.S. Gordon|Aquatic Amphibians in the Sierra Nevada: Current Status and Potential Effects of Acidic Deposition on Populations|Final Rep.Contract No.A932-139, Prepared for the Calif.Air Resour.Board, Univ.of California, Los Angeles, CA:87 p.|1992|
19425|A||Shephard,K., and K. Simkiss|The Effects of Heavy Metal Ions on Ca2+ ATPase Extracted from Fish Gills|Comp. Biochem. Physiol. B Comp. Biochem.61:69-72|1978|10.1016/0305-0491(78)90216-X
19426|A||Young,L.Y., and R. Mitchell|Negative Chemotaxis of Marine Bacteria to Toxic Chemicals|Appl. Microbiol.25(6): 972-975|1973|10.1128/am.25.6.972-975.1973
19427|A||Wilson,R.W., C.M. Wood, and D.F. Houlihan|Growth and Protein Turnover During Acclimation to Acid and Aluminum in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.53(4): 802-811|1996|10.1139/f95-235
19428|A||Wisely,B., and R.A.P. Blick|Mortality of Marine Invertebrate Larvae in Mercury, Copper, and Zinc Solutions|Aust. J. Mar. Freshw. Res.18:63-72|1967|10.1071/MF9670063
19429|A||Staples,L.S., P.F. Shacklock, and J.S. Craigie|Rapid Growth of Clones of the Red Alga Chondrus crispus: Applications in Assays of Toxic Substances and in Physiological Studies|Mar. Biol.122(3): 471-477|1995|10.1007/BF00350881
19430|A||Beiras,R., and J. Widdows|Effect of the Neurotransmitters Dopamine, Serotonin and Norepinephrine on the Ciliary Activity of Mussel (Mytilus edulis) Larvae|Mar. Biol.122(4): 597-603|1995|10.1007/BF00350681
19431|T||Allard,M., and G. Moreau|Effects Of Experimental Acidification On A Lotic Macroinvertebrate Community|Hydrobiologia (Multiple Languages)144(1): 37-50|1987|10.1007/BF00008050
19432|A||Hossain,M.A., and M. Shariff|Effect of Copper on Humoral Immune Response in Goldfish, Carassius auratus Linnaeus|In: M.Shariff, R.P.Subasinghe, and J.R.Arthur (Eds.), Proc.1st Symposium on Diseases in Asian Aquaculture 1, Nov.26-29, 1990, Bali, Indonesia:371-377|1992|
19433|A||Bumguardner,B.W., and T.L. King|Toxicity of Oxytetracycline and Calcein to Juvenile Striped Bass|Trans. Am. Fish. Soc.125(1): 143-145|1996|10.1577/1548-8659(1996)125<0143:TOOACT>2.3.CO;2
19434|A||Baruffaldi,A., F. Cervellati, V. Lanzara, and C. Cucchi|Liver Damage due to the Administration of Phenylhydrazine in Ictalurus Species|Cytobios83(334): 187-194|1995|
19435|A||Prabhudeva,K.N., and N.R. Menon|Depuration of Copper Nitrate and Chloride in the Indian Brown Mussel Perna indica|In: R.Poggi and J.Y.Le Gall (Eds.), Shellfish Depuration Purification des Coquillages, Rennes, France:101-111|1995|
19436|A||Merl,M.P., V.I. Kozlovskaya, and F.P. Mayer|Effect of the Organophosphorus Herbicide DEP on the Growth, Survival and Brain Acetylcholinesterase Activity in the Rainbow Trout Oncorhynchus mykiss|Biol. Vnutr. Vod (Non-English)97:53-57|1994|
19437|A||Kusher,D.I., and J.W. Crim|Immunosuppression in Bluegill (Lepomis macrochirus) Induced by Environmental Exposure to Cadmium|Fish Shellfish Immunol.1(3): 157-161|1991|10.1016/S1050-4648(10)80001-4
19438|A||Genter,R.B., J.R. Pratt, N. Bowers, and J.,Jr. Cairns|Algal and Protozoan Community Response to Individual and Combined Treatment of Zinc and Phosphate|Curr. Pract. Environ. Sci. Eng.4:133-149|1989|
19439|A||Stewart,P.M., K.G. Sappington, and J.,Jr. Cairns|Community and Population Response of Natural Diatom Communities to Zinc Stress in Laboratory Mesocosms|Curr. Pract. Environ. Sci. Eng.2:177-184|1986|
19440|A||Sekar,P., and I. Christy|Haematological Changes in the Fresh Water Catfish Mystus vittatus, Exposed to Sublethal Concentration of Phosphamidon|J. Ecobiol.8(1): 25-28|1996|
19441|A||Naqvi,S.N.H., M.A. Azmi, M. Jahan, U. Naz, and K. Akhtar|Determination of Toxicity and IGR Effect of Diflubenzuron and RB-b Formulation on the Larvae of Aedes aegypti|Natl. Acad. Sci. Lett.17(9/10): 193-194|1994|
19442|A||James,R., K. Sampath, and S. Alagurathinam|Effects of Lead on Respiratory Enzyme Activity, Glycogen and Blood Sugar Levels of the Teleost Oreochromis mossambicus (Peters) During Accumulation|Asian Fish. Sci.9(2): 87-100|1996|10.33997/j.afs.1996.9.2.001
19443|A||Grubinko,V.V., and O.F. Yavonenko|Relations of Glutamine Synthetase and Glutamate Dehydrogenase Ways of Detoxification of Exogenic Ammonium in Fish|Ukr. Biokhim. Zh. (Non-English)65(6): 67-71|1993|
19444|A||Rana,S.V.S., and R. Singh|Species Differences in Glutathione-Dependent Enzymes in the Liver and Kidney of Two Fresh Water Fishes and Their Implications for Cadmium Toxicity|Ichthyol. Res43(3): 223-229|1996|10.1007/BF02347594
19445|A||Malea,P., and S. Haritonidis|Toxicity and Uptake of Aluminium by the Seagrass Halophila stipulacea (Forsk.) Aschers., in Response to Aluminium Exposure|Fresenius Environ. Bull.5(5/6): 345-350|1996|
19446|A||Roszell,L.E., and R.S. Anderson|Effect of Chronic In Vivo Exposure to Pentachlorophenol on Non-specific Immune Functions in Fundulus heteroclitus|Mar. Environ. Res.42(1-4): 191-194|1996|10.1016/0141-1136(95)00068-2
19447|A||Fisher,S.W., S.W. Chordas III, and P.F. Landrum|Lethal and Sublethal Residues for PCB Intoxication in the Oligochaete, Lumbriculus variegatus|Aquat. Toxicol.45(2/3): 115-126|1999|10.1016/S0166-445X(98)00103-9
19448|A||Rayburn,J.R., M. Friedman, and J.A. Bantle|Synergistic Interaction of Glycoalkaloids alpha-Chaconine and alpha-Solanine on Developmental Toxicity in Xenopus Embryos|Food Chem. Toxicol.33(12): 1013-1019|1995|10.1016/0278-6915(95)00081-X
19449|A||Burridge,T.R., and M.A. Shir|The Comparative Effects of Oil Dispersants and Oil/Dispersant Conjugates on Germination of the Marine Macroalga Phyllospora comosa (Fucales: Phaeophyta)|Mar. Pollut. Bull.31(4-12): 446-452|1995|10.1016/0025-326X(95)00177-O
19450|A||Vincent,S., and T. Ambrose|Uptake of Heavy Metals Cadmium and Chromium in Tissues of the Indian Major Carp, Catla catla (Ham.)|Indian J. Environ. Health36(3): 200-204|1994|
19451|A||Suzuki,Y., K. Kuma, and K. Matsunaga|Bioavailable Iron Species in Seawater Measured by Macroalga (Laminaria japonica) Uptake|Mar. Biol.123(1): 173-178|1995|10.1007/BF00350337
19452|A||Djomo,J.E., V. Ferrier, L. Gauthier, C. Zoll-Moreux, and J. Marty|Amphibian Micronucleus Test In Vivo:  Evalution of the Genotoxicity of Some Major Polycyclic Aromatic Hydrocarbons Found in a Crude Oil|Mutagenesis10(3): 223-226|1995|10.1093/mutage/10.3.223
19453|A||Borg-Neczak,K., and H. Tjalve|Uptake of 203Hg2+ in the Olfactory System in Pike|Toxicol. Lett.84(2): 107-112|1996|10.1016/0378-4274(95)03622-9
19454|A||Hamilton,M.L.|Uptake and Metabolism of DDT by Insecticide-Susceptible and -Resistant Mosquitofish, Gambusia affinis|M.S.Thesis, Mississippi State University, Starkville, MS:48 p.|1976|
19455|A||Bradbury,S.P., J.M. Dady, P.N. Fitzsimmons, M.M. Voit, D.E. Hammermeister, and R.J. Erickson|Toxicokinetics and Metabolism of Aniline and 4-Chloroaniline in Medaka (Oryzias latipes)|Toxicol. Appl. Pharmacol.118(2): 205-214|1993|10.1006/taap.1993.1026
19458|A||Hosmer,A.J., L.W. Warren, and T.J. Ward|Chronic Toxicity of Pulse-Dosed Fenoxycarb to Daphnia magna Exposed to Environmentally Realistic Concentrations|Environ. Toxicol. Chem.17(9): 1860-1866|1998|
19459|A||Mayer,P., B. Halling-Sorensen, D.T.H.M. Sijm, and N. Nyholm|Toxic Cell Concentrations of Three Polychlorinated Biphenyl Congeners in the Green Alga Selenastrum capricornutum|Environ. Toxicol. Chem.17(9): 1848-1851|1998|10.1002/etc.5620170927
19460|A||Jak,R.G., M. Ceulemans, M.C.T. Scholten, and N.M. Van Straalen|Effects of Tributyltin on a Coastal North Sea Plankton Community in Enclosures|Environ. Toxicol. Chem.17(9): 1840-1847|1998|10.1002/etc.5620170926
19461|A||Fairchild,J.F., D.S. Ruessler, and A.R. Carlson|Comparative Sensitivity of Five Species of Macrophytes and Six Species of Algae to Atrazine, Metribuzin, Alachlor, and Metolachlor|Environ. Toxicol. Chem.17(9): 1830-1834|1998|10.1002/etc.5620170924
19462|A||Sauser,K.R., K.T. Chung, and T.Y. Wong|Promutagen Activation by the Green Alga Selenastrum capricornutum|Environ. Toxicol. Chem.17(9): 1825-1829|1998|
19463|A||Dethloff,G.M., and H.C. Bailey|Effects of Copper on Immune System Parameters of Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.17(9): 1807-1814|1998|10.1002/etc.5620170921
19464|A||Kumar,A., and J.C. Chapman|Profenofos Toxicity to the Eastern Rainbow Fish (Melanotaenia duboulayi)|Environ. Toxicol. Chem.17(9): 1799-1806|1998|
19465|A||Hatch,A.C.,Jr.|Effects of Photoinduced Toxicity of Fluoranthene on Amphibian Embryos and Larvae|Environ. Toxicol. Chem.17(9): 1777-1785|1998|10.1002/etc.5620170918
19466|A||Arehmouch,L., V. Tfibel, C. Chaillou, F. Ghillebaert, and P. Roubaud|Lethal Effects of Mexel 432 to Common Carp Embryolarval Stages in River Water: Influence of Physicochemical Parameters in Synthetic ISO Water|Environ. Toxicol. Chem.17(9): 1767-1776|1998|10.1002/etc.5620170917
19467|A||Berrill,M., D. Coulson, L. McGillivray, and B. Pauli|Toxicity of Endosulfan to Aquatic Stages of Anuran Amphibians|Environ. Toxicol. Chem.17(9): 1738-1744|1998|10.1002/etc.5620170914
19468|A||Call,D.J., C.N. Polkinghorne, T.P. Markee, L.T. Brooke, D.L. Geiger, J.W. Gorsuch, and K.A. Robillard|Silver Toxicity to Chironomus tentans in Two Freshwater Sediments|Environ. Toxicol. Chem.18(1): 30-39|1999|10.1002/etc.5620180105
19470|A||Itow,T., R.E. Loveland, and M.L. Botton|Developmental Abnormalities in Horseshoe Crab Embryos Caused by Exposure to Heavy Metals|Arch. Environ. Contam. Toxicol.35(1): 33-40|1998|10.1007/s002449900345
19471|A||Christiansen,P.D., M. Brozek, and B.W. Hansen|Energetic and Behavioral Responses by the Common Goby, Pomatoschistus microps (Kroyer), Exposed to Linear Alkylbenzene Sulfonate|Environ. Toxicol. Chem.17(10): 2051-2057|1998|10.1002/etc.5620171022
19472|A||Fisk,A.T., S.C. Wiens, G.R.B. Webster, A. Bergman, and D.C.G. Muir|Accumulation and Depuration of Sediment-Sorbed C12- and C16-Polychlorinated Alkanes by Oligochaetes (Lumbriculus variegatus)|Environ. Toxicol. Chem.17(10): 2019-2026|1998|
19473|T||Lytle,J.S., and T.F. Lytle|Atrazine Effects on Estuarine Macrophytes Spartina alterniflora and Juncus roemerianus|Environ. Toxicol. Chem.17(10): 1972-1978|1998|10.1002/etc.5620171012
19476|T||Miles,J.W., D.L. Mount, M.A. Staiger, and W.R. Teeters|S-Methyl Isomer Content of Stored Malathion and Fenitrothion Water-Dispersible Powders and Its Relationship to Toxicity|J. Agric. Food Chem.27(2): 421-425|1979|10.1021/jf60222a010
19477|AT||Grosscurt,A.C., R. Van Hes, and K. Wellinga|1-Phenylcarbamoyl-2-Pyrazolines, A New Class of Insecticides. 3. Synthesis and Insecticidal Properties of 3,4-Diphenyl-1-Phenylcarbamoyl-2-Pyrazolines|J. Agric. Food Chem.27(2): 406-409|1979|10.1021/jf60222a061
19478|A||Abu-el-Haj,S., M.A.H. Fahmy, and T.R. Fukuto|Insecticidal Activity of 1,1,1-Trichloro-2,2-bis(p-Chlorophenyl)Ethane (DDT) Analogues|J. Agric. Food Chem.27(2): 258-261|1979|10.1021/jf60222a020
19479|A||Henrick,C.A., G.B. Staal, and J.B. Siddall|Alkyl 3,7,11-Trimethyl-2,4-Dodecadienoates, a New Class of Potent Insect Growth Regulators with Juvenile Hormone Activity|J. Agric. Food Chem.21(3): 354-359|1973|10.1021/jf60187a043
19481|A||Lyon,R.|Metal-Protein Binding Patterns in the Hepatopancreas of the Crayfish (Austropotamobius pallipes) During Short Term Cadmium Stress|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 415-418|1984|10.1016/0742-8413(84)90108-7
19482|A||Powers,C.D., R.G. Rowland, H.B.,Jr. O'Connors, and C.F. Wurster|Response to Polychlorinated Biphenyls of Marine Phytoplankton Isolates Cultured Under Natural Conditions|Appl. Environ. Microbiol.34(6): 760-764|1977|10.1128/aem.34.6.760-764.1977
19483|A||Ishida,Y., and H. Kobayashi|Avoidance Behavior of Carp to Pesticides and Decrease of the Avoidance Threshold by Addition of Sodium Lauryl Sulfate|Fish. Sci.61(3): 441-446|1995|10.2331/fishsci.61.441
19484|A||Torrissen,O.J., R. Christiansen, G. Struksnaes, and R. Estermann|Astaxanthin Deposition in the Flesh of Atlantic Salmon, Salmo salar L., in Relation to Dietary Astaxanthin Concentration and Feeding Period|Aquac. Nutr.1:77-84|1995|10.1111/j.1365-2095.1995.tb00022.x
19485|A||Al-Akel,A.S., and M.J.K. Shamsi|Hexavalent Chromium:  Toxicity and Impact on Carbohydrate Metabolism and Haematological Parameters of Carp (Cyprinus carpio L.) from Saudi Arabia|Aquat. Sci.58(1): 24-30|1996|10.1007/BF00877638
19486|A||Bais,V.S., and T. Arasta|Effect of Sublethal Concentration of Aldrex on Protein, Lipid and Glycogen Level in the Liver and Muscles of Cat Fish Mystus vittatus|J. Freshw. Biol.7(2): 151-154|1995|
19487|A||Dutta,G.R., S. Adhikari, J.S. Datta Munshi, and H.M. Dutta|Accumulation of Malathion in Different Organs of Heteropneustes fossilis (Bloch)|J. Freshw. Biol.6(2): 183-186|1994|
19488|A||Sivakami,R., G. Premkishore, and M.R. Chandran|Sublethal Effects of Chromium on Feeding Energetics and Growth in the Freshwater Cat Fish Mystus vittatus|J. Freshw. Biol.6(2): 165-175|1994|
19489|A||Ungerer,J., and P. Thomas|Transport and Accumulation of Organochlorines in the Ovaries of Atlantic Croaker (Micropogonias undulatus)|Mar. Environ. Res.42(1-4): 167-171|1996|10.1016/0141-1136(95)00050-X
19490|A||Mishra,C.K., A. Hakim, K.N. Tiwari, and J. Kumar|Effects of Urea on Certain Parameters on Respiration in Channa punctatus (Bloch)|J. Freshw. Biol.6(1): 81-92|1994|
19491|A||Mishra,C.K., A. Hakim, and J. Kumar|Effects of Monocil Pesticide on the Oxygen Consumption and Related Blood Parameters in Channa punctatus (Bloch)|J. Freshw. Biol.6(1): 93-99|1994|
19492|A||Jensen,J.O.T., W.E. McLean, and D.F. Alderdice|Effects of Accessory Factors on Survival of Newly Fertilized Salmonid Eggs Treated with an Antibiotic|Aquaculture23(1-4): 295-307|1981|10.1016/0044-8486(81)90023-5
19493|A||Roth,M., R.H. Richards, D.P. Dobson, and G.H. Rae|Field Trials on the Efficacy of the Organophosphorus Compound Azamethiphos for the Control of Sea Lice (Copepoda: Caligidae) Infestations of Farmed Atlantic Salmon (Salmo salar)|Aquaculture140(3): 217-239|1996|10.1016/0044-8486(95)01181-1
19494|A||Preslan,J.E., C.Y. Chang, N.K. Schiller, and W.J. George|Bioavailability of Lead from Vitrified Slagged Aggregate|J. Hazard. Mater.48(1-3): 207-218|1996|10.1016/0304-3894(95)00151-4
19495|A||Chui,V.W.D., K.W. Wong, and K.W. Tsoi|Control of Mosquito Larvae (Diptera: Culicidae) Using BTI and Teflubenzuron: Laboratory Evaluation and Semi-Field Test|Environ. Int.21(4): 433-440|1995|10.1016/0160-4120(95)00037-L
19496|A||Saha,N.C., and A. Kaviraj|Acute and Chronic Toxicity of Tannic Acid and Spent Bark of Cinchona to Tilapia Oreochromis mossambicus|Aquaculture145(1-4): 119-127|1996|10.1016/S0044-8486(96)01351-8
19497|A||Thaker,J., J. Chhaya, S. Nuzhat, R. Mittal, A.P. Mansuri, and R. Kundu|Effects of Chromium(VI) on Some Ion-Dependent ATPases in Gills, Kidney and Intestine of a Coastal Teleost Periophthalmus dipes|Toxicology112(3): 237-244|1996|10.1016/0300-483X(96)86481-X
19498|AT||Rodriguez-Ariza,A., F.M. Diaz-Mendez, J.I. Navas, C. Pueyo, and J. Lopez-Barea|Metabolic Activation of Carcinogenic Aromatic Amines by Fish Exposed to Environmental Pollutants|Environ. Mol. Mutagen.25(1): 50-57|1995|10.1002/em.2850250108
19499|A||Kozuch,J., and J. Pempkowiak|Molecular Weight of Humic Acids as a Major Property of the Substances Influencing the Accumulation Rate of Cadmium by a Blue Mussel (Mytilus edulis)|Environ. Int.22(5): 585-589|1996|10.1016/0160-4120(96)00047-5
19500|A||Pandey,A.K.|Effect of Mercuric Chloride on the Hypothalamo-Neurosecretory Centres of the Goldspot Mullet, Liza parsia (Hamilton-Buchanan)|Natl. Acad. Sci. Lett.17(5-6): 117-121|1994|
19501|A||Sadok,S., R. Uglow, and S.J. Haswell|Fluxes of Haemolymph Ammonia and Free Amino Acids in Mytilus edulis Exposed to Ammonia|Mar. Ecol. Prog. Ser.129(1-3): 177-187|1995|10.3354/meps129177
19502|A||Sancho,E., M.D. Ferrando, and E. Andreu|Physiological Stress Responses of Anguilla anguilla to Fenitrothion|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(1): 87-98|1996|
19503|AT||Wellinga,K., R. Mulder, and J.J. Van Daalen|Synthesis and Laboratory Evaluation of 1-(2,6-Disubstituted Benzoyl)-3-Phenylureas, a New Class of Insecticides. I. 1-(2,6-Dichlorobenzoyl)-3-Phenylureas|J. Agric. Food Chem.21(3): 348-354|1973|10.1021/jf60187a052
19504|A||Calgan,D.T., and O. Yenigun|Toxicity of Arsenic, Cadmium and Nickel on the Cyanobacterium Anabaena cylindrica|Environ. Technol.17(5): 533-540|1996|10.1080/09593331708616415
19505|T||Sparacino,A.C., S. Bocchi, R. Ferro, N. Riva, and F. Tano|The Use of Herbicides for Weed Control in Flooded Rice in North Italy|Hydrobiologia (Multiple Languages)340(1-3): 265-269|1996|10.1007/BF00012766
19506|A||Pany,B.K., and G.N. Mitra|Effect of Iron Enrichment on the Growth and Nitrogen Fixation by Three Cyanobacteria|Environ. Ecol.16(4): 783-787|1998|
19508|A||Simon,K.A.|Acute Toxicity of Carbaryl, Alpha Naphthol and Sevin-4-Oil Tank Mix to Cambarus bartoni and Orconectes virilis|In: Environ.Monit.Rep.from the 1982 Maine Cooperative Spruce Budworm Suppression Project, Maine Forest Service, Dep.of Conservation, Augusta, ME:61-91|1982|
19509|A||Singh,J., P.N. Viswanathan, P. Gupta, and S. Devi|Changes in Uptake of Calcium Caused by Phytotoxicity of Cadmium in Salvinia molesta|Ecotoxicology5(1): 9-21|1996|10.1007/BF00116320
19512|A||Nassiri,Y., T. Ginsburger-Vogel, J.L. Mansot, and J. Wery|Effects of Heavy Metals on Tetraselmis suecica:  Ultrastructural and Energy-Dispersive X-Ray Spectroscopic Studies|Biol. Cell.86(2/3): 151-160|1996|10.1016/0248-4900(96)84779-4
19513|A||Cairns,J.,Jr., N.H. Cromer, T.K. Bahns, and W.T. Waller|A Confirmation of Mount's Autopsy Technique for Zinc-Caused Fish Mortality|Water Resour. Bull.7(5): 956-968|1971|10.1111/j.1752-1688.1971.tb05016.x
19514|A||McConnell,M.A., and R.C. Harrel|The Estuarine Clam Rangia cuneata (Gray) as a Biomonitor of Heavy Metals Under Laboratory and Field Conditions|Am. Malacol. Bull.11(2): 191-201|1995|
19515|A||Kevan,S.D., and D.G. Dixon|Effects of Age and Coion (K+ and Na+) on the Toxicity of Thiocyanate to Rainbow Trout (Oncorhynchus mykiss) During Pulse or Continuous Exposure|Ecotoxicol. Environ. Saf.35(3): 288-293|1996|10.1006/eesa.1996.0113
19516|A||Ashley,C.M., M.G. Simpson, D.M. Holdich, and D.R. Bell|2,3,7,8-Tetrachloro-Dibenzo-p-Dioxin is a Potent Toxin and Induces Cytochrome P450 in the Crayfish, Pacifastacus leniusculus|Aquat. Toxicol.35(3-4): 157-169|1996|10.1016/0166-445X(96)00014-8
19517|A||Roszell,L.E., and R.S. Anderson|Effect of In Vivo Pentachlorophenol Exposure on Fundulus heteroclitus Phagocytes:  Modulation of Bactericidal Activity|Dis. Aquat. Org.26(3): 205-211|1996|10.3354/dao026205
19518|A||Johnson,J.R., and K.T. Bird|The Effects of the Herbicide Atrazine on Ruppia maritima L. Growing in Autotrophic Versus Heterotrophic Cultures|Bot. Mar.38(4): 307-312|1995|
19519|A||Peuranen,S., P.J. Vuorinen, M. Vuorinen, and H. Tuurala|Effects of Acidity and Aluminium on Fish Gills in Laboratory Experiments and in the Field|Sci. Total Environ.Pt. 2:979-988|1993|10.1016/S0048-9697(05)80104-4
19520|A||Ungerer,J.R., and P. Thomas|Role of Very Low Density Lipoproteins in the Accumulation of o,p'-DDT in Fish Ovaries During Gonadal Recrudescence|Aquat. Toxicol.35(3/4): 183-195|1996|10.1016/0166-445X(96)00011-2
19521|A||Wicklum,D., and R.W. Davies|The Effects of Chronic Cadmium Stress on Energy Acquisition and Allocation in a Freshwater Benthic Invertebrate Predator|Aquat. Toxicol.35(3/4): 237-252|1996|10.1016/0166-445X(96)00795-3
19522|A||Benarji,G., and T. Rajendranath|Haematological Changes Induced by an Organophosphorus Insecticide in a Freshwater Fish Clarias batrachus (Linnaeus)|Trop. Freshw. Biol.2(2): 197-202|1990|
19523|A||Rtal,A., L. Nonnotte, and J.P. Truchot|Detoxification of Exogenous Copper by Binding to Hemolymph Proteins in the Shore Crab, Carcinus maenas|Aquat. Toxicol.36(3-4): 239-252|1996|10.1016/S0166-445X(96)00805-3
19524|A||Kime,D.E., M. Ebrahimi, K. Nysten, I. Roelants, E. Rurangwa, H.D.M. Moore, and F. Ollevier|Use of Computer Assisted Sperm Analysis (CASA) for Monitoring the Effects of Pollution on Sperm Quality of Fish; Application to the Effects of Heavy Metals|Aquat. Toxicol.36(3-4): 223-237|1996|10.1016/S0166-445X(96)00806-5
19525|A||McKinney,A.D., R.G. Hudson, and M.L. Barfield|Species Specificity and Effect of pH on the Response of Freshwater Mussel Juveniles to Acute Copper Toxicity|J. Shellfish Res.15(2): 528-|1996|
19526|A||Jagadeesan,G., and S. Vijayalakshmi|Evaluation of Mercury Toxicity on the Fish Labeo rohita (Ham.) Fingerlings in a Calendar Year|Environ. Ecol.16(4): 885-890|1998|
19527|A||Ferrando,M.D., E. Sancho, and E. Andreu-Moliner|Chronic Toxicity of Fenitrothion to an Algae (Nannochloris oculata), a Rotifer (Brachionus calyciflorus), and the Cladoceran (Daphnia magna)|Ecotoxicol. Environ. Saf.35(2): 112-120|1996|10.1006/eesa.1996.0090
19528|A||Miranda,L.A., D.A. Paz, R.E. Dezi, and A. Pisano|Immunocytochemical and Morphometric Study of TSH, PRL, GH and ACTH Cells in Bufo arenarum Larvae with Inhibited Thyroid Function|Gen. Comp. Endocrinol.98(2): 166-176|1995|10.1006/gcen.1995.1057
19529|A||Meade,M.E., and S.A. Watts|Toxicity of Ammonia, Nitrite, and Nitrate to Juvenile Australian Crayfish, Cherax quadricarinatus|J. Shellfish Res.14(2): 341-346|1995|
19530|A||Durfey,J.E., and J.B. Simpson|"Control of Two Burrowing Shrimp Species, Ghost Shrimp, Callianassa californiensis and Mud Shrimp, Upogebia pugettensis, Using Subsurface Injection of Carbaryl (""Sevin"") as an Alternative to Aerial Application in Prepara"|J. Shellfish Res.14(1): 264-|1995|
19531|A||Ashe,D., J.R. Tomasso, A.G. Eversole, and T.I.J. Smith|Toxicity of Ammonia to Fingerling White Bass: Effect of Selected Environments on Uptake Dynamics|Prog. Fish-Cult.58(4): 277-280|1996|10.1577/1548-8640(1996)058<0277:TNTOAT>2.3.CO;2
19532|A||Paul,V.I., and T.K. Banerjee|Acute Toxicity of Ammonium Sulphate to the Air-Breathing Organ of the Live Fish Heteropneustes (Saccobranchus) fossilis (Bloch)|Curr. Sci. (Bangalore)68(8): 845-849|1995|
19533|A||Paul,V.I., and T.K. Banerjee|Ammonium Sulphate Induced Stress Related Alterations in the Opercular Epidermis of the Live Fish Heteropneustes (Saccobranchus) Fossilis (Bloch)|Curr. Sci. (Bangalore)70(11): 1025-1029|1996|
19534|A||Richelle,E., Y. Degoudenne, L. Dejonghe, and G. Van de Vyver|Experimental and Field Studies on the Effect of Selected Heavy Metals on Three Freshwater Sponge Species:  Ephydatia fluviatilis, Ephydatia muelleri and Spongilla lacustris|Arch. Hydrobiol.135(2): 209-231|1995|10.1127/archiv-hydrobiol/135/1995/209
19535|A||Pearson,C.R., and G. McConnell|Chlorinated C1 and C2 Hydrocarbons in the Marine Environment|Proc. R. Soc. Lond. Ser. B Biol. Sci.189:305-332|1975|
19536|A||Spicer,J.I.|Effect of Water-Borne Copper on Respiratory and Cardiac Function During the Early Ontogeny of the Brine Shrimp, Artemia franciscana Kellogg 1908 (Branchiopoda:  Anostraca)|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.165(6): 490-495|1995|
19538|A||Forget,J., R. Menasria, and J.F. Pavillon|Influence de la Teneur en Matiere Organique de l'Eau de mer sur la Toxicite de l'Argent vis-a-vis du Copepode Harpacticoide: Tigriopus brevicornis|J. Rech. Oceanogr. (Non-English)20(1-2): 63-69|1995|
19542|A||Raju,C.S., D.M.H. Anilkumar, P.P. Babu, and K.J. Rao|Effect of Detergent (Ariel) on Oxidative Enzymes and Histology of the Teleost, Oreochromis mossambicus|J. Ecotoxicol. Environ. Monit.4(4): 227-230|1994|
19543|A||Fong,P.P., J.D. Hardege, and J.L. Ram|Long-Lasting, Sex-Specific Inhibition of Serotonin-Induced Spawning by Methiothepin in the Zebra Mussel, Dreissena polymorpha (Pallas)|J. Exp. Zool.270(3): 314-320|1994|10.1002/jez.1402700310
19544|A||Chandravathy,V.M., and S.L.N. Reddy|Enzymological and Biochemical Alterations in the Fresh Water Fish Anabas scandens During Lead Nitrate Exposure|J. Ecotoxicol. Environ. Monit.4(3): 163-167|1994|
19545|A||Okafor,N., and M. Taege|Toxicity of Four Commonly used Chemotherapeutic Compounds on Hybrid Fry of African Catfish Heteroclarias (Heterobranchus longifilis x Clarias|J. Aquacult. Trop.11(2): 113-118|1996|
19546|A||Venugopal,G., A. Srinivas, C. Irwin, and S. Waghray|Influence of Pesticide (DDVP) on Chemoresponses of Freshwater Carp, Catla catla - A Behavioural Study|J. Aquacult. Trop.11(1): 83-89|1996|
19547|A||Brenner,M.V.|Effects of the Road Deicing Compound Calcium Magnesium Acetate on Aquatic Ecosystems|Ph.D. Thesis, University of Washington, Seattle, WA:254 p.|1990|
19548|A||Sijm,D.|Influence of Biotransformation on Bioaccumulation and Toxicity of Chlorinated Aromatic Compounds in Fish|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:235 p.|1992|
19549|A||Price,E.E.|Response of Freshwater and Saltwater Toxicity Test Species to Calcium and Salinity Concentrations Encountered in Toxicity Tests|Ph.D.Thesis, University of North Texas, Denton, TX:126 p.|1989|
19550|A||Maier,K.J.|The Toxicity and Bioaccumulation of Selenium and Boron to Daphnia magna and Chironomus decorus|Ph.D. Thesis, University of California, Davis:191 p.|1990|
19551|A||Choudhary,N., C. Kumari, S. Khan, and S. Ehteshamuddin|Effect of Copper Sulfate on Protein and Free Amino Acid Concentrations of Aquatic Beetle Hydrophilous olivaceous (Hydrophilidae: Coleoptera)|Environ. Ecol.16(3): 573-578|1998|
19552|A||Wright,D.A., R. Dawson, J.A. Magee, and H.L. Ragsdale|A Risk Assessment for Diflubenzuron in the Chesapeake Bay (R/CBT-24)|In: E.J.Olmi III, B.Hens, P.Hill, and J.G.Sanders (Eds.), Chesapeake Bay Environmental Effects Studies Toxics Research Program, 1994 Workshop Report, Solomons, MD:81-86|1995|
19553|A||Riedel,G.F., J.G. Sanders, and C.C. Gilmour|Contaminant Flux from Sediments: Impact on Chesapeake Bay Food Webs [R/CBT-20]|In: E.J.Olmi III, B.Hens, P.Hill, and J.G.Sanders (Eds.), Chesapeake Bay Environmental Effects Studies Toxics Research Program, 1994 Workshop Report, Solomons, MD:112-119|1995|
19554|A||Weiner,R.M., and M. Walch|Interaction of Copper and Cadmium with Microbial Benthos Biofilm and Effects on Oyster Larval Set [R/CBT-19]|In: E.J.Olmi III, B.Hens, P.Hill, and J.G.Sanders (Eds.), Chesapeake Bay Environmental Effects Studies Toxics Research Program, 1994 Workshop Report, Solomons, MD:139-149|1995|
19555|A||Anderson,R.S., E.M. Burreson, and M.A. Unger|The Effects of Environmental Contaminants on the Progression of Perkinsus marinus Infection in the Eastern Oyster (R/CBT-22)|In: E.J.Olmi III, B.Hens, P.Hill, and J.G.Sanders (Eds.), Chesapeake Bay Environmental Effects Studies Toxics Research Program, 1994 Workshop Report, Solomons, MD:150-155|1995|
19556|A||Scott,J.H.|Manipulation of Phytoplankton Communities in Fish Ponds|Ph.D.Thesis, Auburn University, Auburn, AL:58 p.|1990|
19557|A||Van der Ploeg,M.P.M.|Studies of Cause and Control of Off-Flavor in Water and Pond-Raised Fish|Ph.D.Thesis, Auburn University, Auburn, AL:100 p.|1989|
19559|A||Mobay Chemical Corp.|Acute Toxicity of Guthion 2S to Bluegill and Rainbow Trout|Mobay Chemical Corporation, Rep.No.66046, Chemagro Agricultural Division, Kansas City, MO:1-5|1978|
19561|A||Matulova,D.|Influence of Detergents on Water Algae|In:  Sci. Pap. from Inst. of Chem. Technol., Technol. of Water, Prague, Czechoslovakia8(1): 251-301|1964|
19562|A||Zimmerman,W.J., C.M. Soliman, and B.H. Rosen|Growth and 2-Methylisoborneol Production by the Cyanobacterium Phormidium LM689|Water Sci. Technol.31(11): 181-186|1995|10.2166/wst.1995.0433
19563|A||Alazemi,B.M., J.W. Lewis, and E.B. Andrews|Gill Damage in the Freshwater Fish Gnathonemus petersii (Family:  Mormyridae) Exposed to Selected Pollutants:  An Ultrastructural Study|Environ. Technol.17(3): 225-238|1996|10.1080/09593331708616381
19564|A||Peres,F., D. Florin, T. Grollier, A. Feurtet-Mazel, M. Coste, F. Ribeyre, M. Ricard, and A. Boudou|Effects of the Phenylurea Herbicide Isoproturon on Periphytic Diatom Communities in Freshwater Indoor Microcosms|Environ. Pollut.94(2): 141-152|1996|10.1016/S0269-7491(96)00080-2
19565|A||Victor,B.|Gill Tissue Pathogenicity and Hemocyte Behavior in the Crab Paratelphusa hydrodromous Exposed to Lead Chloride|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(5): 1011-1034|1994|
19566|A||Heidolph,B.B., and W.E. Gledhill|Bioconcentration, Distribution, and Elimination of 14C-Labeled Santicizer 160 by Bluegill (Lepomis macrochirus)|Monsanto Industrial Chemical Report, St.Louis, MO:31 p.|1979|
19567|A||Springborn Life Sciences Inc.|Acute Toxicity of Butylbenzyl Phthalate to Mysid Shrimp (Mysidopsis bahia) Under Flow-Through Conditions|Monsanto Chemical Company No. 252.0687.6118.510/SLS# 87-10-2525:31 p.|1988|
19568|A||Singh,S., D.N. Sadhu, R. Das, and N. Alam|Toxicity of Rogor to the Fish Channa punctatus (Bloch.)|Environ. Ecol.16(4): 916-918|1998|
19569|A||Laale,H.W.|The Teratogenic Effects of Trypan Blue upon the Development of the Zebrafish, Brachydanio rerio (Hamilton-Buchanan)|Hong Kong Baptist College J.1:97-113|1962|
19570|AT||Virtanen,M., M.L. Hattula, and A.U. Arstila|Behavior and Fate of 4-Chloro-2-Methylphenoxyacetic Acid (MCPA) and 4,6-Dichloro-O-Cresol as Studied in an Aquatic-Terrestrial Model Ecosystem|Chemosphere8(7): 431-442|1979|10.1016/0045-6535(79)90003-1
19571|A||Cairns,J.,Jr., and J.L. Plafkin|Response of Protozoan Communities Exposed to Chlorine Stress|Arch. Protistenkd.117:47-53|1975|
19572|A||Olofsson,S., and P.E. Lindahl|Decreased Fitness of Cod (Gadus morrhua L.) from Polluted Waters|Mar. Environ. Res.2:33-45|1979|10.1016/0141-1136(79)90026-6
19573|A||Murphy,J.A., A.D. Smith, G.W. Ozburn, and D.E. Orr|The Acute and Chronic Effects of Trichlorobenzene on Discrete Life Stages of the American Flagfish, Jordanella floridae (Goode and Bean)|Proc. Annu. Aquat. Toxic. Workshop5:183-192|1979|
19574|A||Moravcova,V.|Axenic Cultures of Tetrahymena pyriformis as Toxicological Tools|Acta Hydrochim. Hydrobiol. (Multiple Languages)4(1): 83-94|1976|10.1002/aheh.19760040111
19576|A||Evans,S.|Uptake and Loss of 134Cs and 60Co by the Baltic Bivalve Macoma baltica in a Laboratory Microcosmos|J. Environ. Radioact.1(2): 133-150|1984|10.1016/0265-931X(84)90004-3
19578|A||Llewellyn,G.C., G.A. Stephenson, and J.W. Hofman|Aflatoxin B1 Induced Toxicity and Teratogenicity in Japanese Medaka Eggs (Oryzias latipes)|Toxicon15(6): 582-587|1977|10.1016/0041-0101(77)90111-8
19579|A||Fisher,N.S., J.L. Teyssie, S.W. Fowler, and W.X. Wang|Accumulation and Retention of Metals in Mussels from Food and Water:  A Comparison Under Field and Laboratory Conditions|Environ. Sci. Technol.30(11): 3232-3242|1996|10.1021/es960009u
19580|A||Binder,R.L., and J.J. Lech|Xenobiotics in Gametes of Lake Michigan Lake Trout (Salvelinus namaycush) Induce Hepatic Monooxygenase Activity in Their Offspring|Fundam. Appl. Toxicol.4:1042-1054|1984|10.1016/0272-0590(84)90244-6
19581|A||Wall,S.B., J.J. Isely, and T.W. LaPoint|Fish Bioturbation of Cadmium-Contaminated Sediments: Factors Affecting Cd Availability to Daphnia magna|Environ. Toxicol. Chem.15(3): 294-298|1996|
19582|AT||Aikins,J.A., and D.J. Wright|Toxicity of DDT and Malathion to Various Larval Stages of Mamestra brassicae L.|Pestic. Sci.16(1): 73-80|1985|10.1002/ps.2780160110
19584|A||Gresshoff,P.M., H.K. Mahanty, and E. Gartner|Fate of Polychlorinated Biphenyl (Aroclor 1242) in an Experimental Study and Its Significance to the Natural Environment|Bull. Environ. Contam. Toxicol.17(6): 686-691|1977|10.1007/BF01685953
19585|A||Davies,I.M., and R. Russell|The Influence of Dissolved Selenium Compounds on the Accumulation of Inorganic and Methylated Mercury Compounds from Solution by the Mussel Mytilus edulis and the Plaice Pleuronectes platessa|Sci. Total Environ.68:197-205|1988|10.1016/0048-9697(88)90372-5
19586|A||Milanovich,F.P., R. Spies, M.S. Guram, and E.E. Sykes|Uptake of Copper by the Polychaete Cirriformia spirabrancha in the Presence of Dissolved Yellow Organic Matter of Natural Origin|Estuar. Coast. Mar. Sci.4:585-588|1976|10.1016/0302-3524(76)90034-7
19587|A||O'Grady,P., M. Moloney, and P.R. Smith|Bath Administration of the Quinoline Antibiotic Flumequine to Brown Trout Salmo trutta and Atlantic Salmon S. salar|Dis. Aquat. Org.4(1): 27-33|1988|10.3354/dao004027
19588|A||Henderson,C.|Application Factors to be Applied to Bioassays for the Safe Disposal of Toxic Wastes|In: C.M.Tarzwell (Ed.), Biological Problems in Water Pollution, Trans.of 1956 Seminar, R.A.Taft Sanitary Engineer Center, U.S.Dept.of Health, Education, and Welfare, Cincinnati, OH:31-37|1957|
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19590|A||Nyberg,H., and K. Koskimies-Soininen|The Phospholipid Fatty Acids of Porphyridium purpureum Cultured in the Presence of Triton X-100 and Sodium Desoxycholate|Phytochemistry23(11): 2489-2495|1984|10.1016/S0031-9422(00)84081-9
19591|A||Ireland,D.S., G.A.,Jr. Burton, and G.G. Hess|In Situ Toxicity Evaluations of Turbidity and Photoinduction of Polycyclic Aromatic Hydrocarbons|Environ. Toxicol. Chem.15(4): 574-581|1996|10.1002/etc.5620150424
19592|A||Green,J.D., J.M. Mwatibo, and W.J. Swartz|The Effects of Methoxychlor on Early Sea Urchin Development|Environ. Res.72(1): 56-64|1997|10.1006/enrs.1996.3692
19593|A||Sanders,B.M., L.S. Martin, W.G. Nelson, D.K. Phelps, and W. Welch|Relationships Between Accumulation of a 60kDa Stress Protein and Scope-for-Growth in Mytilus edulis Exposed to a Range of Copper Concentrations|Mar. Environ. Res.31:81-97|1991|10.1016/0141-1136(91)90021-Y
19594|A||Viarengo,A., M. Pertica, G. Mancinelli, M. Orunesu, G. Zanicchi, M.N. Moore, and R.K. Pipe|Possible Role of Lysosomes in the Detoxication of Copper in the Digestive Gland Cells of Metal-Exposed Mussels|Mar. Environ. Res.14:469-470|1984|10.1016/0141-1136(84)90118-1
19595|A||Cheng,T.C., and J.T. Sullivan|Effects of Heavy Metals on Phagocytosis by Molluscan Hemocytes|Mar. Environ. Res.14:305-315|1984|10.1016/0141-1136(84)90084-9
19598|A||Oruc,E.O., and N. Uner|Effects of 2,4-Diamin on Some Parameters of Protein and Carbohydrate Metabolism in the Serum, Muscle and Liver of Cyprinus carpio|Environ. Pollut.105(2): 267-272|1999|10.1016/S0269-7491(98)00206-1
19599|A||Verma,N., S. Batta, and R. Rehal|Studies on Some Cyanobacteria for the Selection of Bioindicators and Bioscavengers of Chromium Metal Ions for Industrial Waste Waters|Int. J. Environ. Stud.47(3-4): 211-215|1995|10.1080/00207239508710961
19600|A||Kumar,H.D.|Adaptation of a Blue-Green Alga to Sodium Selenate and Chloramphenicol|Plant Cell Physiol.5:465-472|1964|
19602|A||Bitton,G., K. Rhodes, B. Koopman, and M. Cornejo|Short-Term Toxicity Assay Based on Daphnid Feeding Behavior|Water Environ. Res.67(3): 290-293|1995|10.2175/106143095X131493
19603|A||Hagstrom,B.E., and S. Lonning|The Teratogenic Action of Thalidomide on Marine Fish Larvae|Experientia33(9): 1227-1228|1977|10.1007/BF01922344
19604|A||Di Toro,D.M., J.D. Mahony, D.J. Hansen, K. Scott, M.B. Hinks, S.M. Mayr, and M.S. Redmond|Toxicity of Cadmium in Sediments; The Role of Acid Volatile Sulfide|Environ. Toxicol. Chem.9(12): 1487-1502|1990|10.1002/etc.5620091208
19605|A||Moza,P., I. Weisgerber, W. Klein, and F. Korte|Metabolism of 2,2'-Dichlorobiphenyl-14C in Two Plant-Water-Soil-Systems|Bull. Environ. Contam. Toxicol.12(5): 541-546|1974|10.1007/BF01684916
19606|A||Seelye,J.G., D.A. Johnson, J.G. Weise, and E.L.,Jr. King|Guide for Determining Application Rates of Lampricides for Control of Sea Lamprey Ammocetes|Technical Report No. 52, Great Lakes Fishery Commission, Ann Arbor, MI:25 p.|1988|
19608|A||Fragoso,N.M., J.L. Parrott, M.E. Hahn, and P.V. Hodson|Chronic Retene Exposure Causes Sustained Induction of CYP1A Activity and Protein in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.17(11): 2347-2353|1998|10.1002/etc.5620171127
19609|A||Pavlostathis,S.G., K.K. Comstock, M.E. Jacobson, and F.M. Saunders|Transformation of 2,4,6-Trinitrotoluene by the Aquatic Plant Myriophyllum spicatum|Environ. Toxicol. Chem.17(11): 2266-2273|1998|
19610|A||Besser,J.M., C.G. Ingersoll, E.N. Leonard, and D.R. Mount|Effect of Zeolite on Toxicity of Ammonia in Freshwater Sediments:  Implications for Toxicity Identification Evaluation Procedures|Environ. Toxicol. Chem.17(11): 2310-2317|1998|10.1002/etc.5620171123
19611|A||Bowling,C.C.|Rice Water Weevil Control with Granular Insecticides|J. Econ. Entomol.69(5): 680-682|1976|10.1093/jee/69.5.680
19612|A||Zou,E., and M. Fingerman|Effects of Exposure to Diethyl Phthalate, 4-(tert)-Octylphenol, and 2,4,5-Trichlorobiphenyl on Activity of Chitobiase in the Epidermis and Hepatopancreas of the Fiddler Crab, Uca pugilator|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 115-120|1999|
19613|A||Durand-Hoffman,M.E.|Analysis of Physiological and Toxicological Effects of Potassium on Dreissena polymorpha and Toxicological Effects on Fish|M.S.Thesis, Ohio State University, Columbus, OH:90 p.|1995|
19614|A||Babcock-Jackson,L.|Determining Biological Activity of Capsaicin to the Zebra Mussel Dreissena polymorpha|M.S.Thesis, Ohio State University, Columbus, OH:118 p.|1995|
19615|A||De Bruijn,J., E. Yedema, W. Seinen, and J. Hermens|Lethal Body Burdens of Four Organophosphorous Pesticides in the Guppy (Poecilia reticulata)|Aquat. Toxicol.20:111-122|1991|10.1016/0166-445X(91)90045-B
19616|A||Tulp,M.T.M., G.M. Tillmanns, and O. Hutzinger|Environmental Chemistry of PCB-Replacement Compounds. V. The Metabolism of Chloro-Isopropylbiphenyls in Fish, Frogs, Fungi and Bacteria|Chemosphere5:223-230|1977|10.1016/0045-6535(77)90005-4
19617|A||Neihof,R.A., C.A. Bailey, C. Patouillet, and P.J. Hannan|Photodegradation of Mercaptopyridine-N-Oxide Biocides|Arch. Environ. Contam. Toxicol.8(3): 355-368|1979|10.1007/BF01056251
19618|A||Hill,J., J.D.W. Clarke, N. Vargesson, T. Jowett, and N. Holder|Exogenous Retinoic Acid Causes Specific Alterations in the Development of the Midbrain and Hindbrain of the Zebrafish Embryo Including Positional|Mech. Dev.50:3-16|1995|10.1016/0925-4773(94)00321-D
19619|A||Addison,R.F., G.L. Fletcher, S. Ray, and J. Doane|Analysis of a Chlorinated Terphenyl (Aroclor 5460) and Its Deposition in Tissues of Cod (Gadus morhua)|Bull. Environ. Contam. Toxicol.8(1): 52-60|1972|10.1007/BF01684504
19621|AT||Dutta,T.R., J. Prasad, and R.P. Singh|Evaluation of Herbicides for Submerged Weeds in Chambal and Bhakra-Nangal Canal Systems|Indian J. Agric. Sci.42(1): 70-75|1972|
19622|A||Hamelink,J.L., and R.C. Waybrant|DDE and Lindane in a Large-Scale Model Lentic Ecosystem|Trans. Am. Fish. Soc.1:125-134|1976|
19623|A||Hacking,M.A., J. Budd, and K. Hodson|The Ultrastructure of the Liver of the Rainbow Trout: Normal Structure and Modifications After Chronic Administration of a Polychlorinated Biphenyl Aroclor 1254|Can. J. Zool.56:477-491|1977|10.1139/z78-068
19624|A||Freeman,H.C., G. Sangalang, and B. Flemming|The Effects of a Polychlorinated Biphenyl (PCB) Diet on Atlantic Cod (Gadus morhua)|Int.Counc.for the Exploration of the Sea, ICES-CM-1978/E:18, Copenhagen, Denmark:12 p.|1978|
19625|A||Eisele,P.J.|The Effects of Methoxychlor on Aquatic Invertebrate Populations and Communities|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:152 p.|1974|
19626|A||Figueroa,I.D.C.|Structure-Activity Relationships of Chlorobenzenes Using DNA Measurement as a Toxicity Parameter in Algae|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:232 p.|1990|
19627|A||Haight,M., T. Mudry, and J. Pasternak|Toxicity of Seven Heavy Metals on Panagrellus silusiae:  The Efficacy of the Free-Living Nematode as an In Vivo Toxicological Bioassay|Nematologica28:1-11|1982|10.1163/187529282X00466
19629|A||Brook,A.J., and A.L. Baker|Chlorination of Power Plants: Impact on Phytoplankton Productivity|Science176:1414-1415|1972|10.1126/science.176.4042.1414
19630|A||Basch,R.|Toxicity of Chlorinated Municipal Wastes to Fish: An Evaluation Based on Michigan Field Data|Proc. Ind. Waste Conf.:639-648|1972|
19631|A||Bostrom,S.L., and R.G. Johansson|Effects of Pentachlorophenol on Enzymes Involved in Energy Metabolism in the Liver of the Eel|Comp. Biochem. Physiol. B Comp. Biochem.41:359-369|1972|10.1016/0305-0491(72)90040-5
19632|A||Barnes,H., and F.A. Stanbury|The Toxic Action of Copper and Mercury Salts Both Separately and when Mixed on the Harpacticid Copepod, Nitocra spinipes (Boeck)|J. Exp. Biol.25(3): 270-274|1947|10.1242/jeb.25.3.270
19633|AT||Davis,D.E., C.G.P. Pillai, and B. Truelove|Effects of Prometryn, Diuron, Fluometuron, and MSMA on Chlorella and Two Fungi|Weed Sci.24(6): 587-593|1976|10.1017/S0043174500063001
19634|A||Hunter,W.R.|The Poisoning of Marinogammarus marinus by Cupric Sulphate and Mercuric Chloride|J. Exp. Biol.26(2): 113-124|1949|10.1242/jeb.26.2.113
19636|A||Kamp-Nielsen,L.|The Effect of Deleterious Concentrations of Mercury on the Photosynthesis on Growth of Chlorella pyrenoidosa|Physiol. Plant. (Multiple Languages)24:556-561|1971|10.1111/j.1399-3054.1971.tb03535.x
19637|A||Knauf,W., and E.F. Schulze|New Findings on the Toxicity of Endosulfan and Its Metabolites to Aquatic Organisms|Meded. Fac. Landbouwwet. Rijksuniv. Gent38(3): 717-732|1973|
19639|A||Song,M.Y., and J.J. Brown|Osmotic Effects as a Factor Modifying Insecticide Toxicity on Aedes and Artemia|Ecotoxicol. Environ. Saf.41:195-202|1998|10.1006/eesa.1998.1693
19640|A||Leynen,M., L. Duvivier, P. Girbuox, and F. Ollevier|Toxicity of Ozone to Fish Larvae and Daphnia magna|Ecotoxicol. Environ. Saf.41:176-179|1998|10.1006/eesa.1998.1696
19641|A||Sancho,E., M.D. Ferrando, C. Fernandez, and E. Andreu|Liver Energy Metabolism of Anguilla anguilla After Exposure to Fenitrothion|Ecotoxicol. Environ. Saf.41:168-175|1998|10.1006/eesa.1998.1689
19642|A||Woin,P.|Short- and Long-Term Effects of the Pyrethroid Insecticide Fenvalerate on an Invertebrate Pond Community|Ecotoxicol. Environ. Saf.41:137-156|1998|10.1006/eesa.1998.1694
19643|A||Machala,M., P. Drabek, J. Neca, J. Kolarova, and Z. Svobodova|Biochemical Markers for Differentiation of Exposures to Nonplanar Polychlorinated Biphenyls, Organochlorine Pesticides, or 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Trout Liver|Ecotoxicol. Environ. Saf.41:107-111|1998|10.1006/eesa.1998.1675
19644|A||Kirso,U., and N. Irha|Role of Algae in Fate of Carcinogenic Polycyclic Aromatic Hydrocarbons in the Aquatic Environment|Ecotoxicol. Environ. Saf.41:83-89|1998|10.1006/eesa.1998.1671
19645|A||Schramm,K.W., A. Behechti, B. Beck, and A. Kettrup|Influence of an Aquatic Humic Acid on the Bioconcentration of Selected Compounds in Daphnia magna|Ecotoxicol. Environ. Saf.41(1): 73-76|1998|10.1006/eesa.1998.1669
19646|A||Castano,A., G. Carbonell, M. Carballo, C. Fernandez, S. Boleas, and J.V. Tarazona|Sublethal Effects of Repeated Intraperitoneal Cadmium Injections on Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.41:29-35|1998|10.1006/eesa.1998.1663
19649|A||Bierkens,J., J. Maes, and F.V. Plaetse|Dose-Dependent Induction of Heat Shock Protein 70 Synthesis in Raphidocelis subcapitata Following Exposure to Different Classes of Environmental Pollutants|Environ. Pollut.101:91-97|1998|10.1016/S0269-7491(98)00010-4
19651|A||Khatami,S.H., D. Pascoe, and M.A. Learner|The Acute Toxicity of Phenol and Unionized Ammonia, Separately and Together, to the Ephemeropteran Baetis rhodani (Pictet)|Environ. Pollut.99:379-387|1998|10.1016/S0269-7491(98)00003-7
19652|A||Howell,S.H., and L.L. Walker|Synthesis of DNA in Toluene-Treated Chlamydomonas reinhardi|Proc. Natl. Acad. Sci. U.S.A.69(2): 490-494|1972|10.1073/pnas.69.2.490
19653|A||Atland,A.|Behavioural Responses of Brown Trout, Salmo trutta, Juveniles in Concentration Gradients of pH and Al - A Laboratory Study|Environ. Biol. Fishes53:331-345|1998|10.1023/A:1007449717038
19654|A||Kreutzweiser,D.P., D.G. Thompson, B. Staznik, and J.A. Shepherd|Accumulation Dynamics of Triclopyr Ester in Aquatic Leaf Packs and Effects on Detritivorous Insects|J. Environ. Qual.27:1138-1147|1998|10.2134/jeq1998.00472425002700050020x
19655|A||Rurangwa,E., I. Roelants, G. Huyskens, M. Ebrahimi, D.E. Kime, and F. Ollevier|The Minimum Effective Spermatozoa: Egg Ratio for Artificial Insemination and the Effects of Mercury on Sperm Motility and Fertilization Ability in|J. Fish Biol.53:402-413|1998|
19656|A||Wildridge,P.J., R.G. Werner, F.G. Doherty, and E.F. Neuhauser|Acute Effects of Potassium on Filtration Rates of Adult Zebra Mussels, Dreissena polymorpha|J. Great Lakes Res.24(3): 629-636|1998|10.1016/S0380-1330(98)70850-0
19657|A||Rai,U.N., M. Gupta, R.D. Tripathi, and P. Chandra|Cadmium Regulated Nitrate Reductase Activity in Hydrilla verticillata (1.F.) Royle|Water Air Soil Pollut.106:171-177|1998|10.1023/A:1004923908436
19658|A||Santojanni,A., G. Gorbi, and F. Sartore|Prediction of Fecundity in Chronic Toxicity Tests on Daphnia magna|Water Res.32(10): 3146-3156|1998|10.1016/S0043-1354(98)00052-9
19659|A||Walthall,W.K., and J.D. Stark|The Acute and Chronic Toxicity of Two Xanthene Dyes, Fluorescein Sodium Salt and Phloxine B, to Daphnia pulex|Environ. Pollut.104(2): 207-215|1999|10.1016/S0269-7491(98)00189-4
19660|T||Sing,C., and J. Yu|Copper Adsorption and Removal from Water by Living Mycelium of White-Rot Fungus Phanerochaete chrysosporium|Water Res.32(9): 2746-2752|1998|10.1016/S0043-1354(98)00024-4
19661|A||Tarkpea,M., E. Linden, B.E. Bengtsson, A. Larsson, and O. Svanberg|Produktundersokningar vid NBL 1979-80|Statens Naturvardsverk, NBL Rapp.111, Brackvattentoxikologiska Laboratoriet, Nykoping:17-|1981|
19662|A||Vitale,A.M., J.M. Monserrat, P. Castilho, and E.M. Rodriguez|Inhibitory Effects of Cadmium on Carbonic Anhydrase Activity and Ionic Regulation of the Estuarine Crab Chasmagnathus granulata (Decapoda, Grapsidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 121-129|1999|
19663|A||Johnson,C.H., and D. Epel|Heavy Metal Chelators Prolong Motility and Viability of Sea Urchin Sperm by Inhibiting Spontaneous Acrosome Reactions|J. Exp. Zool.226(3): 431-440|1983|10.1002/jez.1402260314
19665|A||Peter,R.E., O. Kah, C.R. Paulencu, H. Cook, and A.L. Kyle|Brain Lesions and Short-Term Endocrine Effects of Monosodium L-Glutamate in Goldfish, Carassius auratus|Cell Tissue Res.212(3): 429-442|1980|10.1007/BF00236508
19666|A||Mahanty,H.K., and P.M. Gresshoff|Influence of Polychlorianted Biphenyls (PCB's) on Growth of Freshwater Algae|Bot. Gaz.139(2): 202-|1978|10.1086/336988
19667|A||Melancon,M.J.,Jr., and J.J. Lech|Distribution and Biliary Excretion Products of Di-2-Ethylhexyl Phthalate in Rainbow Trout|Drug Metab. Dispos.4(2): 112-118|1976|
19668|A||Moza,P., L. Kilzer, I. Weisgerber, and W. Klein|Contributions to Ecological Chemistry CXV Metabolism of 2,5,4'-Trichlorobiphenyl-14C and 2,4,6,2',4'-Pentachlorobiphenyl-14C in the Marsh Plant Veronica becca bunga|Bull. Environ. Contam. Toxicol.16(4): 454-463|1976|10.1007/BF01686161
19669|A||Sahay,N., D.K. Singh, and R.A. Agarwal|Synergistic Effect of Piperonyl Butoxide on the Toxicity of Synthetic Pyrethroids in the Snail Lymnaea acuminata|J. Med. Appl. Malacol.3:107-111|1991|
19670|A||Helder,T.|Effects of TCDD on Early Life Stages of Fresh Water Fish|In: EUR 7549, Principles for the Interpretation of the Results of Testing, Proc.in Ecotoxicology, Comm.European Communities on Environment and Quality of Life, Luxembourg, Belgium:465-471|1982|
19671|A||Munda,I.M., and M. Veber|Simultaneous Effects of Trace Metals and Excess Nutrients on the Adriatic Seaweed Fucus virsoides (Don.)|Bot. Mar.39(4): 297-309|1996|
19673|A||Weber,D.N.|Lead-Induced Metabolic Imbalances and Feeding Alterations In Juvenile Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Water Qual.11(1): 45-51|1996|10.1002/(SICI)1098-2256(1996)11:1<45::AID-TOX7>3.0.CO;2-9
19674|A||Bjorklund,H., and G. Bylund|Absorption, Distribution and Excretion of the Anthelmintic Praziquantel (Droncit) in Rainbow Trout (Salmo gairdneri R.)|Parasitol. Res.73(3): 240-244|1987|10.1007/BF00578511
19675|A||Yokoyama,M., and M. Sakaguchi|Acute Toxic Effect Of L-Cysteine Injected into The Peritoneal Cavity of the Rainbow Trout|Fish. Sci.62(4): 660-661|1996|10.2331/fishsci.62.660
19676|A||Nightingale,C.H., and M. Gibaldi|Kinetics of Drug Absorption in Goldfish|J. Pharm. Sci.60(9): 1360-1363|1971|10.1002/jps.2600600915
19678|A||Walter-Echols,G., and E.P. Lichtenstein|Effects of Lake Bottom Mud on the Movement and Metabolism of 14C-Phorate in a Flooded Soil-Plant System|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes13(3): 149-168|1978|
19680|A||Korstrom,J.S., R. Fink, S. Spohn, and I.K. Birtwell|Sublethal Toxicological Stress in Adult Sockeye Salmon (Oncorhynchus nerka) Exposed to a Combination of Sodium Pentachlorophenate and Fresh Water Hypoxia|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1006:77 p.|1997|
19681|A||Sprague,J.B., P.F. Elson, and J.R. Duffy|Decrease in DDT Residues in Young Salmon After Forest Spraying in New Brunswick|Environ. Pollut.1:191-203|1971|
19682|A||Knudsen,P.K., and F.B. Jensen|Recovery From Nitrite-Induced Methaemoglobinaemia And Potassium Balance Disturbances in Carp|Fish Physiol. Biochem.16(1): 1-10|1997|10.1007/BF00004535
19683|AT||Sanborn,J.R., R.L. Metcalf, W.N. Bruce, and P.Y. Lu|The Fate of Chlordane and Toxaphene in a Terrestrial-Aquatic Model Ecosystem|Environ. Entomol.5:533-538|1975|10.1093/ee/5.3.533
19684|A||Andersson,S., and L. Kautsky|Copper Effects on Reproductive Stages of Baltic Sea Fucus vesiculosus|Mar. Biol.125(1): 171-176|1996|10.1007/BF00350771
19685|A||Rao,K.V., A.K. Khandekar, and D. Vaidyanadham|Uptake of Fluoride by Water Hyacinth, Eichhornia crissipes|Indian J. Exp. Biol.11:68-69|1973|
19686|A||Price,C.A., and M.T.G. Estrada|Chlorophyll Formation in Euglena as a Test for Herbicides|Weeds (Urbana)12:234-235|1964|10.2307/4040737
19687|A||Meinelt,T., and A. Stueber|Subchronic Fish Toxicity of Copper and Zinc Dependent upon Water Hardness|Fortschr. Fisch. Wiss.12:129-136|1995|
19688|A||Cronin,L.E., D.W. Pritchard, J.R. Schubel, and J.A. Sherk|Metals in Baltimore Harbor and Upper Chesapeake Bay and Their Accumulation by Oysters. Phase I|Maryland Board of Public Works, Maryland Dep.of Health and Mental Hyg., Maryland Dep.of Nat.Resour.:72 p.|1974|
19689|A||Olafson,R.W., and J.A.J. Thompson|Isolation of Heavy Metal Binding Proteins from Marine Vertebrates|Mar. Biol.28:83-86|1974|10.1007/BF00396298
19691|A||Marshall,J.S., D.L. Mellinger, and D.L. Saber|Effects of Cadmium Enrichment on a Lake Michigan Plankton Community|In: ANL-77-65, Radiological and Environmental Research Division Annual Rep., Part III, Argonne National Laboratory, Argonne, IL:59-64|1978|
19692|A||Lockhart,W.L., R. Wagemann, J.W. Clayton, B. Graham, and D. Murray|Chronic Toxicity of a Synthetic Tri-Aryl Phosphate Oil to Fish|Environ. Physiol. Biochem.5:361-369|1975|
19694|A||Harris,V.T., and P.H. Eschmeyer|Sport Fishery and Wildlife Research 1972|Bur.of Sport Fish.and Wildl., Washington, DC:52-68|1974|
19695|A||Hardin,L.W.J.|Polychlorinated Biphenyl Inhibition of Marine Phytoplankton Photosynthesis in the Northern Adriatic Sea|Bull. Environ. Contam. Toxicol.16(5): 559-566|1976|10.1007/BF01685364
19696|A||Hansen,D.J., S.C. Schimmel, and J. Forester|Endrin: Effects on the Entire Life Cycle of a Saltwater Fish, Cyprinodon variegatus|J. Toxicol. Environ. Health3:721-733|1977|10.1080/15287397709529607
19697|A||Anderson,M.B., J.E. Preslan, L. Jolibois, and J.E. Bollinger|Bioaccumulation of Lead Nitrate in Red Swamp Crayfish (Procambarus clarkii)|J. Hazard. Mater.54(1-2): 15-29|1997|10.1016/S0304-3894(96)01852-3
19700|A||Giesy,J.P.,Jr., D. Paine, and L.W. Hersloff|Effect of Naturally Occurring Organics on Plutonium-237 Uptake by Algae and Bacteria|In: M.G.White and P.B.Dunaway (Eds.), Transuranics in Natural Environment, NVO-178, Las Vegas, NV:531-543|1977|
19701|A||Dietz,A.S., T. Tuominen, and L.J. Albright|Sublethal Pollutant Effects upon the Native Microflora of Georgia Strait|In: J.M.Sharpley and A.M.Kaplan (Eds.), Proceedings of the 3rd International Biodegradation Symposium, Kingston, Rhode Island:|1975|
19702|A||Courtney,W.A.M., and G.R.W. Denton|Persistence of Polychlorinated Biphenyls in the Hard-Clam (Mercenaria mercenaria) and the Effect upon the Distribution of these Pollutants in the|Environ. Pollut.10:55-64|1976|
19703|A||Blakemore,R.P., and A.E. Carey|Effects of Polychlorinated Biphenyls on Growth and Respiration of Heterotrophic Marine Bacteria|Appl. Environ. Microbiol.35(2): 323-328|1978|10.1128/aem.35.2.323-328.1978
19704|A||Eisele,T.A., G.S. Bailey, and J.E. Nixon|The Effect of Indole-3-Carbinol, an Aflatoxin B1 Hepatocarcinoma Inhibitor, and Other Indole Analogs on the Rainbow Trout Hepatic Mixed Function|Toxicol. Lett.19(1-2): 133-138|1983|10.1016/0378-4274(83)90273-4
19706|A||Kawatsu,H., K. Kubono, and T. Wakabayashi|Effect of Oral Administration of Warfarin on Blood Coagulation in the Common Carp|Nippon Suisan Gakkaishi (Multiple Languages)57(4): 619-622|1991|10.2331/suisan.57.619
19707|A||LeValley,M.J.|Acute Toxicity of Iodine to Channel Catfish (Ictalurus punctatus)|Bull. Environ. Contam. Toxicol.29(1): 7-11|1982|10.1007/BF01606081
19708|A||Parrott,J.L., P.V. Hodson, D.G. Dixon, and M.R. Servos|Toxic Equivalent Factors (TEFs) and Tissue Distribution for Several 2,3,7,8-Substituted Dioxins in Rainbow Trout|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):314-316|1992|
19711|A||Reynolds,W.W., M.E. Casterlin, and R.E. Spieler|Thyroxine: Effect on Behavioral Thermoregulation in Fishes|Can. J. Zool.60(5): 926-928|1982|10.1139/z82-125
19712|A||Koenings,J.P., J. Lipton, and P. McKay|Quantitative Determination of Oxytetracycline Uptake and Release by Juvenile Sockeye Salmon|Trans. Am. Fish. Soc.115(4): 621-629|1986|10.1577/1548-8659(1986)115<621:QDOOUA>2.0.CO;2
19713|A||Kagan,J., E.D. Kagan, and E. Seigneurie|Alpha-Terthienyl, a Powerful Fish Poison with Light-Dependent Activity|Chemosphere15(1): 49-57|1986|10.1016/0045-6535(86)90578-3
19714|A||Svec,A.L., G.H.,Jr. Constantine, R.E. Larson, and T.R. Meyers|Single-Dose Aminoglycoside Nephrotoxicity and Lethality in Rainbow Trout|Toxicol. Appl. Pharmacol.65(1): 153-161|1982|10.1016/0041-008X(82)90373-8
19715|A||Nogrady,T., and T.L.A. Rowe|Comparative Laboratory Studies of Narcosis in Brachionus plicatilis|Hydrobiologia (Multiple Languages)255/256:51-56|1993|10.1007/BF00025819
19716|A||Kurtak,D., H. Jamnback, R. Meyer, M. Ocran, and P. Renaud|Evaluation of Larvicides for the Control of Simulium damnosum S.L. (Diptera: Simuliidae) in West Africa|Am. Mosq. Control Assoc. J.3(2): 201-210|1987|
19717|A||Larsson,P.|Uptake of Polychlorinated Biphenyls (PCBs) by the Macroalga, Cladophora glomerata|Bull. Environ. Contam. Toxicol.38(1): 58-62|1987|10.1007/BF01606558
19718|A||Droy,B.F., T. Tate, J.J. Lech, and K.M. Kleinow|Influence of Ormetoprim on the Bioavailability, Distribution, and Pharmacokinetics of Sulfadimethoxine in Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol.94(1): 303-307|1989|10.1016/0742-8413(89)90183-7
19719|A||Larsson,P.|Zooplankton and Fish Accumulate Chlorinated Hydrocarbons from Contaminated Sediments|Can. J. Fish. Aquat. Sci.43(7): 1463-1466|1986|10.1139/f86-181
19720|A||Landrum,P.F., W.A. Frez, and M.S. Simmons|The Effect of Food Consumption on the Toxicokinetics of Benzo(a)pyrene and 2,2'4,4'5,5'-Hexachlorobiphenyl in Mysis relicta|Chemosphere25(3): 397-415|1992|10.1016/0045-6535(92)90556-7
19721|A||Kleinow,K.M., and A.S. Brooks|Selenium Compounds in the Fathead Minnow (Pimephales promelas) - II. Quantitative Approach to Gastrointestinal Absorption, Routes of Elimination and Influence of Dietary Pretreatment|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 71-76|1986|10.1016/0742-8413(86)90014-9
19722|A||Kleinow,K.M., and A.S. Brooks|Selenium Compounds in the Fathead Minnow (Pimephales promelas) - I. Uptake, Distribution, and Elimination of Orally Administered Selenate, Selenite and l-Selenomethionine|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 61-69|1986|10.1016/0742-8413(86)90013-7
19723|A||Darnerud,P.O., B.E. Bengtsson, A. Bergman, and I. Brandt|Chlorinated Paraffins: Disposition of a Polychloro-[1-14C]-Hexadecane in Carp (Cyprinus carpio) and Bleak (Alburnus alburnus)|Toxicol. Lett.19(3): 345-351|1983|10.1016/0378-4274(83)90141-8
19726|A||Hoover,K.L.|Hyperplastic Thyroid Lesions in Fish|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:275-289|1984|
19727|A||Ishikawa,T., P. Masahito, and S. Takayama|Usefulness of the Medaka, Oryzias latipes, as a Test Animal: DNA Repair Processes in Medaka Exposed to Carcinogens|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:35-43|1984|
19728|A||Woodhead,A.D., R.B. Setlow, and V. Pond|The Amazon Molly, Poecilia formosa, as a Test Animal in Carcinogenicity Studies: Chronic Exposures to Physical Agents|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:45-52|1984|
19729|A||Streisinger,G.|Attainment of Minimal Biological Variability and Measurements of Genotoxicity: Production of Homozygous Diploid Zebra Fish|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenicity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:53-58|1984|
19730|A||Hendricks,J.D., T.R. Meyers, J.L. Casteel, J.E. Nixon, P.M. Loveland, and G.S. Bailey|Rainbow Trout Embryos: Advantages and Limitations for Carcinogenesis Research|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:129-137|1984|
19731|A||Kimura,I., N. Taniguchi, H. Kumai, I. Tomita, N. Kinae, K. Yoshizaki, M. Ito, and T. Ishikawa|Correlation of Epizootiological Observations with Experimental Data: Chemical Induction of Chromatophoromas in the Croaker, Nibea mitsukurii|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:139-154|1984|
19732|A||Martin,B.J., R.D. Ellender, S.A. Hillebert, and M.M. Guess|Primary Cell Cultures from the Teleost, Cyprinodon variegatus: Culture Establishment and Application in Carcinogen Exposure Studies|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:175-178|1984|
19733|A||Marking,L.L.|Procedures for Use of Freshwater Fishes in the Development of Reproducible Toxicological Information|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:195-199|1984|
19734|A||Aoki,K., and H. Matsudaira|Factors Influencing Methylazoxymethanol Acetate Initiation of Liver Tumors in Oryzias latipes: Carcinogen Dosage and Time of Exposure|In: K.L.Hoover (Ed.), Use of Small Fish Species in Carcinogenecity Testing, Monogr.Ser.Natl.Cancer Inst.No.84-2653, U.S.Dep.Health Human Serv., Natl.Cancer Inst., Bethesda, MD:345-351|1984|
19735|A||Schneider,S.R., J.D. Hendricks, G.H.,Jr. Constantine, and R.E. Larson|Tobramycin Nephrotoxicity and Lethality in Coho Salmon|Toxicol. Appl. Pharmacol.54(3): 399-404|1980|10.1016/0041-008X(80)90166-0
19736|A||Mackintosh,F.R., and E. Bell|Reversible Response to Puromycin and Some Characteristics of the Uptake and Use of Amino Acids by Unfertilized Sea Urchin Eggs|Biol. Bull.139(2): 296-303|1970|10.2307/1540084
19737|A||Birks,E.K., R.D. Ewing, and A.R. Hemmingsen|Migration Tendency in Juvenile Steelhead Trout, Salmo gairdneri Richardson, Injected with Thyroxine and Thiourea|J. Fish Biol.26(3): 291-300|1985|10.1111/j.1095-8649.1985.tb04268.x
19738|A||Zhang,Y.S., T. Andersson, and L. Forlin|Induction of Hepatic Xenobiotic Biotransformation Enzymes in Rainbow Trout by beta-Naphthoflavone. Time-Course Studies|Comp. Biochem. Physiol. B Comp. Biochem.95(2): 247-253|1990|10.1016/0305-0491(90)90072-2
19740|A||Dierickx,P.J.|Glutathione S-Transferase in Aquatic Macro-Invertebrates and Its Interaction with Different Organic Micropollutants|Sci. Total Environ.40:93-102|1984|10.1016/0048-9697(84)90344-9
19741|A||Herrmann,J., and K.G. Andersson|Aluminium Impact on Respiration of Lotic Mayflies at Low pH|Water Air Soil Pollut.30:703-709|1986|10.1007/BF00303335
19742|A||Pataryas,H.A., N. Mylonas, and T. Papachatzakis|Differential Effect of Chloramphenicol and Actinomycin D on Protein Synthesis in the Decapod Crustacean Upogebia littoralis|Hydrobiologia (Multiple Languages)40(1): 19-23|1972|10.1007/BF00123588
19743|A||Hart,L.J., S.A. Smith, B.J. Smith, J. Robertson, and S.D. Holladay|Exposure of Tilapian Fish to the Pesticide Lindane Results in Hypocellularity of the Primary Hematopoietic Organ (Pronephros) and the Spleen Without Altering Activity of Phagocytic Cells in These Organs|Toxicology118(2-3): 211-221|1997|10.1016/S0300-483X(97)03619-6
19744|A||Emmersen,J., B. Korsgaard, and I. Petersen|Dose Response Kinetics of Serum Vitellogenin, Liver DNA, RNA, Protein and Lipid After Induction by Estradiol-17beta in Male Flounders (Platichthys flesus L.)|Comp. Biochem. Physiol. B Comp. Biochem.63(1): 1-6|1979|10.1016/0305-0491(79)90225-6
19745|A||Roesijadi,G., K.M. Hansen, and M.E. Unger|Cadmium-Induced Metallothionein Expression During Embryonic and Early Larval Development of the Mollusc Crassostrea virginica|Toxicol. Appl. Pharmacol.140(2): 356-363|1996|10.1006/taap.1996.0231
19746|A||Jackim,E.|Enzyme Responses to Metals in Fish|In: F.J.Vernberg and W.B.Vernberg (Eds.), Pollution and Physiology of Marine Organisms, Academic Press, London:59-65|1974|
19747|A||Augusto,J., B. Smith, S. Smith, J. Robertson, and R. Reimschuessel|Gentamicin-Induced Nephrotoxicity and Nephroneogenesis in Oreochromis nilotica, a Tilapian Fish|Dis. Aquat. Org.26(1): 49-58|1996|10.3354/dao026049
19748|A||Lukyanova,O.N., N.N. Belcheva, and V.P. Chelomin|Cadmium Bioaccumulation in the Scallop Mizuhopecten yessoensis from an Unpolluted Environment|In: P.S.Rainbow and R.Dallinger (Eds.), Ecotoxicology of Metals in Invertebrates, Lewis Publishers:25-35|1993|
19749|A||Sanchez,J.G., D.J. Speare, N. MacNair, and G. Johnson|Effects of a Prophylactic Chloramine-T Treatment on Growth Performance and Condition Indices of Rainbow Trout|J. Aquat. Anim. Health8(4): 278-284|1996|10.1577/1548-8667(1996)008<0278:EOAPCT>2.3.CO;2
19750|A||Helder,T.|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Early Life Stages of Two Fresh-Water Fish Species|In: O.Hutzinger, R.W.Frei, E.Merian, and F.Pocchiari (Eds.), Proc.of a Workshop held at the Ist.Superiore di Sanita, Chlorinated Dioxins and Related Compounds, Oct.22-24, 1980, Rome, Italy, Pergamon Press, New York, NY:455-462|1982|
19753|A||Adams,W.J.|The Toxicity and Residue Dynamics of Selenium in Fish and Aquatic Invertebrates|Ph.D. Thesis, Michigan State University, East Lansing, MI:109 p.|1976|
19754|A||Jardim,W.F., and H.W. Pearson|Copper Toxicity to Cyanobacteria and Its Dependence on Extracellular Ligand Concentration and Degradation|Microb. Ecol.11(2): 139-148|1985|10.1007/BF02010486
19755|A||Lomas,M.W., P.M. Glibert, G.M. Berg, and M. Burford|Characterization of Nitrogen Uptake by Natural Populations of Aureococcus anophagefferens (Chrysophyceae) as a Function of Incubation Duration, Substrate Concentration, Light and Temperature|J. Phycol.32(6): 907-916|1996|10.1111/j.0022-3646.1996.00907.x
19756|A||Lenicque,P.M.|Morphogenetic Actions of 5-Hydroxytryptamine and Some Analogous Substances on the Regeneration of the Planarian Worm Dugesia tigrina|Acta Zool. (Stockh.)54(2): 131-137|1973|10.1111/j.1463-6395.1973.tb00448.x
19757|A||Rolf,L.L.J., M.D. Setser, and J.L. Walker|Pharmacokinetics and Tissue Residues in Channel Catfish, Ictalurus punctatus, Given Intracardiac and Intramuscular Injections of Gentamicin Sulfate|Vet. Hum. Toxicol.28(1): 25-31|1986|
19758|A||Bend,J.R., R.J. Pohl, N.P. Davidson, and J.R. Fouts|Response of Hepatic and Renal Microsomal Mixed-Fuction Oxidases in the Little Skate, Raja erinacea, to Pretreatment with 3-Methylcholanthrene or TCDD (2,3,7,8-Tetrachlorodibenzo-p-Dioxin)|Bull. Mt. Desert Isl. Biol. Lab.14:7-12|1974|
19759|A||Nixon,J.E., J.D. Hendricks, N.E. Pawlowski, C.B. Pereira, R.O. Sinnhuber, and G.S. Bailey|Inhibition of Aflatoxin B1 Carcinogenesis in Rainbow Trout by Flavone and Indole Compounds|Carcinogenesis5(5): 615-619|1984|10.1093/carcin/5.5.615
19760|A||Goeger,D.E., D.W. Shelton, J.D. Hendricks, and G.S. Bailey|Mechanisms of Anti-carcinogenesis by Indole-3-Carbinol: Effect on the Distribution and Metabolism of Aflatoxin B1 in Rainbow Trout|Carcinogenesis7(12): 2025-2031|1986|10.1093/carcin/7.12.2025
19761|A||Shelton,D.W., D.E. Goeger, J.D. Hendricks, and G.S. Bailey|Mechanisms of Anti-carcinogenesis: The Distribution and Metabolism of Aflatoxin B1 in Rainbow Trout fed Aroclor 1254|Carcinogenesis7(7): 1065-1071|1986|10.1093/carcin/7.7.1065
19762|A||Chetty,A.N., and K. Indira|Protection Against Free Radical Toxicity in Mantle and Foot of a Freshwater Bivalve Exposed to Ambient Ammonia|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.64(1): 35-40|1994|
19763|A||Wilson,J.E.H.|The Grass Shrimp Embryo-Larval Toxicity Test: A Short-Term Predictive Bioassay|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):53-65|1997|
19764|A||Reddy,P.S.|Moult Inhibition in the Crab Ozlotelphusa senex senex in Response to Heavy Metal Toxicity|Pollut. Res.11(4): 191-195|1992|
19765|A||Lin,K.C., C.I. Lin, and C.Y. Chen|The Effect of Limiting Nutrient on Metal Toxicity to Selenastrum capricornutum|Toxicol. Environ. Chem.56(1-4): 47-61|1996|10.1080/02772249609358349
19766|A||Kuyucak,N., and B. Volesky|Accumulation of Cobalt by Marine Alga|Biotechnol. Bioeng.33(7): 809-814|1989|10.1002/bit.260330703
19767|A||Shrift,A.|Sulfur-Selenium Antagonism.  I.  Antimetabolite Action of Selenate on the Growth of Chlorella vulgaris|Am. J. Bot.41:223-230|1954|
19768|A||Ghosh,A.K., and R.N. Pal|Toxicity of Four Therapeutic Compounds to Fry of Indian Major Carps|Fish. Technol.6:120-123|1969|
19769|A||Piyatiratitivorakul,P., S. Piyatiratitivorakul, and T. Panich-Pat|Effects of Salinity on Acute Toxicity of Lead Nitrate to Larval Stages of Giant Freshwater Prawn, Macrobrachium-Rosenbergii (DeMan)|J. Sci. Soc. Thailand20:85-99|1994|10.2306/scienceasia1513-1874.1994.20.085
19770|A||Wium-Andersen,S.|The Influence of the Zooplankton Anaesthetising Substance Physostigmine Salicylicum on Photosynthesis|Arch. Hydrobiol.76(3): 379-383|1975|
19771|A||Pohl,R.J., J.R. Fouts, and J.R. Bend|Response of Hepatic Microsomal Mixed-Function Oxidases in the Little Skate, Raja erinacea, and the Winter Flounder, Pseudopleuronectes americanus to Pretreatment with TCDD (2,3,7,8-Tetrachlorodibenzo-p-Dioxin) or DBA (1|Bull. Mt. Desert Isl. Biol. Lab.15:64-66|1975|
19772|A||Gardner,J.L., and S.H. Al Hamdani|Interactive Effects of Aluminum and Humic Substances on Salvinia|J. Aquat. Plant Manag.35:30-34|1997|
19773|A||Pickwell,G.V., and S.A. Steinert|Serum Biochemical and Cellular Responses to Experimental Cupric Ion Challenge in Mussels|Mar. Environ. Res.14:245-265|1984|10.1016/0141-1136(84)90081-3
19775|A||Bakthavathsalam,R.|Effects of Carbofuran on the Dissolved Oxygen Consumption, Opercular Movements and Survival of the Fish Lepidocephalichthys thermalis Under Complete|Environ. Ecol.4(3): 400-404|1986|
19776|A||Coppage,D.L., and T.W. Duke|Effects of Pesticides in Estuaries Along the Gulf and Southeast Atlantic Coasts|In: C.H.Shmidt (Ed.), Proc.2nd Gulf Coast Conf.on Mosquito, Suppression and Wildl.Manage., Washington, D.C.:24-31|1971|
19779|A||Kim,J.S., and P. Chin|Acute and Chronic Toxicity of Phenol to Mysid, Archaeomysis kokuboi|J. Korean Fish. Soc. (Multiple Languages)28(1): 87-97|1995|
19780|A||Fischer,H.|Hydroids in Biotest:  Clava multicornis Exposed to Cadmium|Kiel. Meeresforsch. Sonderh.4:327-334|1978|
19781|A||Rengel-Zambrano,I., A. Fuenmayor, and M. Sulbaran|Cadmium-Induced Histopathological Damage in Hyphessobrycon sovichthys Shultz, 1944 (Pisces: Characiformes, Characidae) of Lake Maracaibo, Venezuela|Ciencia4(1): 7-18|1996|
19785|A||Kruger,A., G. Okoniewska, Z. Pochitonow, Z. Krol, and R.P. Garnett|Glyphosate as a Management Tool in Carp Fisheries|Hydrobiologia (Multiple Languages)340(1-3): 253-257|1996|10.1007/BF00012764
19787|A||U.S. Environmental Protection Agency|Summary Report: An Integrated Approach to a Study of Contaminants and Toxicity in Monroe Harbor (River Raisin), Michigan, A Great Lakes Area of Concern|EPA 600/3-87-044, U.S.EPA, Duluth, MN:182 p.|1987|
19788|A||Rathbun,J.E., M.L. Gessner, V.E. Smith, D.M. Lemon, D.J. Brokaw, M.A. Hoeft, W.L. Richardson, and K.R. Rygwelski|Bioaccumulation of Total PCBs and PCB Homologs in Caged Clams, Channel Catfish and Fathead Minnows in the Monroe Harbor - River Raisin, Michigan (1984)|Draft #CR810232, U.S.EPA, Grosse Ile, MI:|1985|
19789|A||Yokoyama,M., M. Kaneniwa, and M. Sakaguchi|Metabolites of L-[35S]Cysteine Injected into the Peritoneal Cavity of Rainbow Trout|Fish. Sci.63(5): 799-801|1997|10.2331/fishsci.63.799
19795|A||Harvey,R.W., and S.N. Luoma|Separation of Solute and Particulate Vectors of Heavy Metal Uptake in Controlled Suspension-Feeding Experiments with Macoma balthica|Hydrobiologia (Multiple Languages)121(2): 97-102|1985|10.1007/BF00008711
19796|A||Panter,G.H., R.S. Thompson, and J.P. Sumpter|Adverse Reproductive Effects in Male Fathead Minnows (Pimephales promelas) Exposed to Environmentally Relevant Concentrations of the Natural Oestrogens|Aquat. Toxicol.42(4): 243-253|1998|10.1016/S0166-445X(98)00038-1
19797|A||Van Wezel,A.P., and M.T.O. Jonker|Use of the Lethal Body Burden in the Risk Quantification of Field Sediments; Influence of Temperature and Salinity|Aquat. Toxicol.42:287-300|1998|10.1016/S0166-445X(97)00090-8
19798|A||Eller-Jessen,K., and J.F. Crivello|Subcutaneous NaAs3+ Exposure Increases Metallothionein mRNA and Protein Expression in Juvenile Winter Flounder|Aquat. Toxicol.42:301-320|1998|10.1016/S0166-445X(97)00086-6
19799|A||Janssens de Bisthoven,L., A. Vermeulen, and F. Ollevier|Experimental Induction of Morphological Deformities in Chironomus riparius Larvae by Chronic Exposure to Copper and Lead|Arch. Environ. Contam. Toxicol.35:249-256|1998|10.1007/s002449900373
19800|A||Van der Heever,J.A., and J.U. Grobbelaar|In Vivo Chlorophyll A Fluorescence of Selenastrum capricornutum as a Screening Bioassay in Toxicity Studies|Arch. Environ. Contam. Toxicol.35:281-286|1998|10.1007/PL00006606
19801|A||Genthner,F.J., C.A. Chancy, J.A. Couch, S.S. Foss, D.P. Middaugh, S.E. George, M.A. Warren, and J.A. Bantle|Toxicity and Pathogenicity Testing of the Insect Pest Control Fungus Metarhizium anisopliae|Arch. Environ. Contam. Toxicol.35:317-324|1998|10.1007/s002449900382
19802|AT||Bang,S.S., and D. Johnston|Environmental Effects of Sodium Acetate/Formate Deicer, Ice Shear|Arch. Environ. Contam. Toxicol.35:580-587|1998|10.1007/s002449900419
19803|A||Laposata,M.M., and W.A. Dunson|Effects of Boron and Nitrate on Hatching Success of Amphibian Eggs|Arch. Environ. Contam. Toxicol.35(4): 615-619|1998|10.1007/s002449900423
19804|A||Camargo,J.A., G. Nombela, M. Muniz, and A. Navas|Age Specific Sensitivity of the Nematode Aphelenchus avenae to Mercury Toxicity|Bull. Environ. Contam. Toxicol.61(2): 149-153|1998|10.1007/PL00002972
19805|A||Caspers,N.|No Estrogenic Effects of Biphenol A in Daphnia magna Straus|Bull. Environ. Contam. Toxicol.61:143-148|1998|10.1007/s001289900741
19806|A||Britson,C.A., and S.T. Threlkeld|Abundance, Metamorphosis, Developmental, and Behavioral Abnormalities in Hyla chrysoscelis Tadpoles Following Exposure to Three Agrichemicals and Methyl Mercury in Outdoor Mesocosms|Bull. Environ. Contam. Toxicol.61:154-161|1998|10.1007/s001289900742
19807|A||Persichino,J., E. Christian, and R. Carter|Short-Term Effects of Bolero on the Gill Apparatus of a Small Number of Mosquitofish (Gambusia affinis)|Bull. Environ. Contam. Toxicol.61(2): 162-168|1998|10.1007/s001289900743
19808|A||Moore,M.T., J.R. Pierce, C.D. Milam, J.L. Farris, and E.L. Winchester|Responses of Non-target Aquatic Organisms to Aqueous Propanil Exposure|Bull. Environ. Contam. Toxicol.61:169-174|1998|10.1007/s001289900744
19809|A||Johnson,I., and P. Delaney|Development of a 7-Day Daphnia magna Growth Test Using Image Analysis|Bull. Environ. Contam. Toxicol.61:355-362|1998|10.1007/s001289900770
19810|A||Sridevi,B., K.V. Reddy, and S.L.N. Reddy|Effect of Trivalent and Hexavalent Chromium on Antioxidant Enzyme Activities and Lipid Peroxidation in a Freshwater Field Crab, Barytelphusa guerini|Bull. Environ. Contam. Toxicol.61(3): 384-390|1998|10.1007/s001289900774
19811|A||Larrain,A., E. Soto, J. Silva, and E. Bay-Schmith|Sensitivity of the Meiofaunal Copepod Tisbe longicornis to K2Cr2O7 Under Varying Temperature Regimes|Bull. Environ. Contam. Toxicol.61:391-396|1998|10.1007/s001289900775
19812|A||Hamza-Chaffai,A., M. Romeo, M. Gnassia-Barelli, and A. El Abed|Effect of Copper and Lindane on Some Biomarkers Measured in the Clam Ruditapes decussatus|Bull. Environ. Contam. Toxicol.61:397-404|1998|10.1007/s001289900776
19813|A||Diamantino,T.C., R. Ribeiro, F. Goncalves, and A.M.V.M. Soares|METIER (Modular Ecotoxicity Tests Incorporating Ecological Relevance) for Difficult Substances.  5.  Chlorpyrifos Toxicity to Daphnia magna in Static, Semi-Static, and Flow-Through Conditions|Bull. Environ. Contam. Toxicol.61(4): 433-439|1998|10.1007/s001289900781
19814|A||Krisfalusi,M., V.P. Eroschenko, and J.G. Cloud|Methoxychlor and Estradiol-17beta Affect Alevin Rainbow Trout (Oncorhynchus mykiss) Mortality, Growth, and Pigmentation|Bull. Environ. Contam. Toxicol.61:519-526|1998|10.1007/s001289900793
19815|A||Sabater,C., and J.M. Carrasco|Effects of Molinate on Growth of Five Freshwater Species of Phytoplankton|Bull. Environ. Contam. Toxicol.61(4): 534-540|1998|10.1007/s001289900795
19816|A||Sripongpun,G., D.W. Hawker, and D.W. Connell|Internal Lethal Concentration and Internal Lethal Volume Fraction of Chlorobenzenes in Mosquito Fish (Gambusia affinis)|Chemosphere37(5): 911-924|1998|10.1016/S0045-6535(98)00094-0
19817|A||Ozretic,B., S. Petrovic, and M. Krajnovic-Ozretic|Toxicity of TBT-Based Paint Leachates on the Embryonic Development of the Sea Urchin Paracentrotus lividus Lam|Chemosphere37(6): 1109-1118|1998|10.1016/S0045-6535(98)00109-X
19818|A||Randall,D.J., D.W. Connell, R. Yang, and S.S. Wu|Concentrations of Persistent Lipophilic Compounds in Fish are Determined by Exchange Across the Gills, not Through the Food Chain|Chemosphere37(7): 1263-1270|1998|10.1016/S0045-6535(98)00124-6
19819|A||Yokoyama,M., and J.I. Nakazoe|Intraperitoneal Injection of Sulfur Amino Acids Enhance the Hepatic Cysteine Dioxygenase Activity in Rainbow Trout (Oncorhynchus mykiss)|Fish Physiol. Biochem.15(2): 143-148|1996|10.1007/BF01875593
19820|A||Hahn,M.E., B.R. Woodin, J.J. Stegeman, and D.E. Tillitt|Aryl Hydrocarbon Receptor Function in Early Vertebrates: Inducibility of Cytochrome P450 1A in Agnathan and Elasmobranch Fish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(1): 67-75|1998|
19821|A||Fichet,D., and P. Miramand|Vanadium Toxicity to Three Marine Invertebrates Larvae: Crassostrea gigas, Paracentrotus lividus and Artemia salina|Chemosphere37(7): 1363-1368|1998|10.1016/S0045-6535(98)00118-0
19822|A||Kahkonen,M.A., and T. Kairesalo|The Effects of Nickel on the Nutrient Fluxes and on the Growth of Elodea canadensis|Chemosphere37(8): 1521-1530|1998|10.1016/S0045-6535(98)00147-7
19823|A||Wilson,G., and S. Al Hamdani|Effects of Chromium (VI) and Humic Substances on Selected Physiological Responses of Azolla caroliniana|Am. Fern J.87(1): 17-27|1997|10.2307/1547244
19824|A||Berg,G.M., P.M. Glibert, M.W. Lomas, and M.A. Burford|Organic Nitrogen Uptake and Growth by the Chrysophyte Aureococcus anophagefferens During a Brown Tide Event|Mar. Biol.129:377-387|1997|10.1007/s002270050178
19826|A||Hoke,R.A., G.T. Ankley, P.A. Kosian, A.M. Cotter, F.M. Vandermeiden, M. Balcer, G.L. Phipps, and C. West|Equilibrium Partitioning as the Basis for an Integrated Laboratory and Field Assessment of the Impacts of DDT, DDE and DDD in Sediments|Ecotoxicology6(2): 101-125|1997|10.1023/A:1018610307458
19827|A||Mason,R.P., J.R. Reinfelder, and F.M.M. Morel|Uptake, Toxicity, and Trophic Transfer of Mercury in a Coastal Diatom|Environ. Sci. Technol.30(6): 1835-1845|1996|10.1021/es950373d
19828|A||Clark,K.E.|The Bioaccumulation of Hydrophobic Organic Chemicals in Fish|Ph.D. Thesis, University of Toronto, Canada:206 p.|1990|
19830|A||Fingas,M.F., D.A. Kyle, N. Laroche, B. Fieldhouse, G. Sergy, and G. Stoodley|The Effectiveness Testing of Oil Spill-Treating Agents|ASTM Spec. Tech. Publ.:286-298|1995|
19831|A||Wickham,P., E. Van de Walle, and D. Planas|Comparative Effects of Mine Wastes on the Benthos of an Acid and an Alkaline Pond|Environ. Pollut.44(2): 83-100|1987|10.1016/0269-7491(87)90019-4
19832|A||Wendt,P.H., R.F. Van Dolah, M.Y. Bobo, T.D. Mathews, and M.V. Levisen|Wood Preservative Leachates from Docks in an Estuarine Environment|Arch. Environ. Contam. Toxicol.31(1): 24-37|1996|10.1007/BF00203904
19833|A||Scarlett,A., P. Donkin, T.W. Fileman, S.V. Evans, and M.E. Donkin|Risk Posed by the Antifouling Agent Irgarol 1051 to the Seagrass, Zostera marina|Aquat. Toxicol.45(2-3): 159-170|1999|10.1016/S0166-445X(98)00098-8
19834|A||Dalla Via,J., E. Carpene, and R. Dallinger|Responses of Murex trunculus to a Combination of Chronic and Acute Cadmium Exposure|Nova Thalassia8(suppl. 3): 569-570|1986|
19835|A||Carpene,E., R. Dallinger, J. Dalla Via, and P. Cortesi|Long Term Effects of Low Cadmium Exposure on Murex trunculus|Nova Thalassia8(suppl. 3): 563-564|1986|
19836|A||Allah,A.T.A., M.Q.S. Wanas, and S.N. Thompson|Effects of Heavy Metals on Survival and Growth of Biomphalaria glabrata Say (Gastropoda:  Pulmonata) and Interaction with Schistosome Infection|J. Molluscan Stud.63(1): 79-86|1997|10.1093/mollus/63.1.79
19837|A||Ruth,B.|Effect of PS II-Herbicides on Algae Grown in Ponds and Measured by the 10 mus Resolved Chlorophyll Fluorescence Induction Kinetics|Arch. Hydrobiol.136(1): 1-17|1996|10.1127/archiv-hydrobiol/136/1996/1
19838|A||Costa,F.O., A.D. Correia, and M.H. Costa|Sensitivity of a Marine Amphipod to Non-Contaminant Variables and to Copper in the Sediment|Ecologie. Brunoy (Multiple Languages)27(4): 269-276|1996|
19839|A||Kamstra,A., J.A. Span, and J.H. Van Weerd|The Acute Toxicity and Sublethal Effects of Nitrite on Growth and Feed Utilization of European Eel, Anguilla anguilla (L.)|Aquac. Res.27(12): 903-911|1996|10.1111/j.1365-2109.1996.tb01250.x
19840|A||Sauser,K.R., J.K. Liu, and T.Y. Wong|Identification of a Copper-Sensitive Ascorbate Peroxidase in the Unicellular Green Alga Selenastrum capricornutum|BioMetals10(3): 163-168|1997|10.1023/A:1018343526264
19841|A||Rtal,A., and J.P. Truchot|Haemolymph Transport and Tissue Accumulation of Exogenous Copper in the Shore Crab, Carcinus maenas|Mar. Pollut. Bull.32(11): 802-811|1996|10.1016/S0025-326X(96)00043-4
19842|A||Podstavkova,S., D. Vlcek, and E. Miadokova|Bioactivation of Promutagens by the Unicellular Green Alga Chlamydomonias reinhardtii|J. Environ. Pathol. Toxicol. Oncol.16(1): 21-26|1997|
19843|A||Andreini,I., C. DellaCorte, L.C. Johnson, S. Hughes, and D.L. Kalinoski|G-Protein(s), G alpha q /G alpha 11, in the Olfactory Neuroepithelium of the Channel Catfish (Ictalurus punctatus) is Altered by the Herbicide Dichlobenil|Toxicology117(2/3): 111-122|1997|10.1016/S0300-483X(96)03558-5
19845|A||Finlay,J.A., and M.E. Callow|The Toxicity of Alkyl Amines: The Effects of pH|Biofouling11(1): 19-30|1997|10.1080/08927019709378318
19847|A||Saiki,M.K., D.P. Monda, and B.L. Bellerud|Lethal Levels of Selected Water Quality Variables to Larval and Juvenile Lost River and Shortnose Suckers|Environ. Pollut.105(1): 37-44|1999|10.1016/S0269-7491(98)00212-7
19850|A||Verbost,P.M., M.H.G. Berntssen, F. Kroglund, E. Lydersen, H.E. Witters, B.O. Rosseland, and B. Salbu|The Toxic Mixing Zone of Neutral and Acidic River Water: Acute Aluminium Toxicity in Brown Trout (Salmo trutta L.)|Water Air Soil Pollut.85(2): 341-346|1995|10.1007/BF00476852
19851|A||Lithner,G., K. Holm, and H. Borg|Bioconcentration Factors for Metals in Humic Waters at Different pH in the Ronnskar Area (N. Sweden)|Water Air Soil Pollut.85(2): 785-790|1995|10.1007/BF00476925
19852|A||Rojickova-Padrtova,R., and B. Marsalek|Selection and Sensitivity Comparisons of Algal Species for Toxicity Testing|Chemosphere38(14): 3329-3338|1999|10.1016/S0045-6535(98)00566-9
19853|A||St.Amand,L., R. Gagnon, T.T. Packard, and C. Savenkoff|Effects of Inorganic Mercury on the Respiration and the Swimming Activity of Shrimp Larvae, Pandalus borealis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 33-43|1999|
19854|A||Van der Heever,J.A., and J.U. Grobbelaar|The Use of Oxygen Evolution to Assess the Short-Term Effects of Toxicants on Algal Photosynthetic Rates|Water SA23(3): 233-237|1997|
19855|A||Li,C.L.J., and M.O. James|Pharmacokinetics of 2-Naphthol Following Intrapericardial Administration, and Formation of 2-Naphthyl-beta-D-Glucoside and 2-Naphthyl Sulphate in the|Xenobiotica27(6): 609-626|1997|10.1080/004982597240389
19856|A||Dallinger,R., J. Dalla Via, and E. Carpene|Adaptation to Acute Cadmium Stress by Murex trunculus|Nova Thalassia8(suppl. 3): 571-572|1986|
19857|A||Ma,G., H. Lin, and W. Zhang|Effects of Cadmium on Serum Gonadotropin and Growth Hormone in Common Carp (Cyprinus carpio L.)|Shuichan Xuebao (Non-English)19(2): 120-126|1995|
19858|A||Bat,L.|Studies on the Uptake of Copper, Zinc and Cadmium by the Amphipod Corophium volutator (Pallas) in the Laboratory|Turk. J. Mar. Sci.3(2): 93-109|1997|
19859|A||Prejs,A., J. Pijanowska, P. Koperski, A. Martyniak, S. Boron, and P. Hliwa|Food-Web Manipulation in a Small, Eutrophic Lake Wirbel, Poland:  Long-Term Changes in Fish Biomass and Basic Measures of Water Quality.  A Case Study|Hydrobiologia (Multiple Languages)342/343:383-386|1997|10.1023/A:1017047625303
19861|A||Silverberg,B.A., P.M. Stokes, and L.B. Ferstenberg|Intranuclear Complexes in a Copper-Tolerant Green Alga|J. Cell Biol.69(1): 210-214|1976|10.1083/jcb.69.1.210
19862|A||Graham,J.M., P. Arancibia-Avila, and L.E. Graham|Effects of pH and Selected Metals on Growth of the Filamentous Green Alga Mougeotia Under Acidic Conditions|Limnol. Oceanogr.41(2): 263-270|1996|10.4319/lo.1996.41.2.0263
19863|A||Arkoosh,M.R., E. Clemons, P. Huffman, H.R. Sanborn, E. Casillas, and J.E. Stein|Leukoproliferative Response of Splenocytes from English Sole (Pleuronectes vetulus) Exposed to Chemical Contaminants|Environ. Toxicol. Chem.15(7): 1154-1162|1996|10.1002/etc.5620150720
19864|A||Gutknecht,J.|Uptake and Retention of Cesium 137 and Zinc 65 by Seaweeds|Limnol. Oceanogr.10(1): 58-66|1965|10.4319/lo.1965.10.1.0058
19865|A||Hall,R.J., C.T. Driscoll, G.E. Likens, and J.M. Pratt|Physical, Chemical, and Biological Consequences of Episodic Aluminum Additions to a Stream|Limnol. Oceanogr.30(1): 212-220|1985|10.4319/lo.1985.30.1.0212
19866|A||Ralph,P.J., and M.D. Burchett|Photosynthetic Response of Halophila ovalis to Heavy Metal Stress|Environ. Pollut.103(1): 91-101|1998|10.1016/S0269-7491(98)00121-3
19867|A||Lindstrom,K.|Selenium as a Growth Factor for Plankton Algae in Laboratory Experiments and in Some Swedish Lakes|Hydrobiologia (Multiple Languages)101(1/2): 35-48|1983|10.1007/BF00008655
19868|A||Eales,J.G., S. Shostak, and C.G. Flood|Influence of Thiol Substances on In Vitro and In Vivo L-Thyroxine Deiodination in Rainbow Trout, Salmo gairdneri|Can. J. Zool.62(8): 1495-1501|1984|10.1139/z84-217
19869|A||Youson,J.H., and C.M. Neville|Deposition of Aluminum in the Gill Epithelium of Rainbow Trout (Salmo gairdneri Richardson) Subjected to Sublethal Concentrations of the Metal|Can. J. Zool.65(3): 647-656|1987|10.1139/z87-101
19870|A||Knezovich,J.P., D.J. Steichen, J.A. Jelinski, and S.L. Anderson|Sulfide Tolerance of Four Marine Species Used to Evaluate Sediment and Pore-Water Toxicity|Bull. Environ. Contam. Toxicol.57(3): 450-457|1996|10.1007/s001289900211
19871|A||Fujita,M., E. Takabatake, and K. Iwasaki|Effects of Light, Magnesium, and Cyanide on Accumulation of Mercury by a Fresh Water Diatom, Synedra|Bull. Environ. Contam. Toxicol.16(2): 164-172|1976|10.1007/BF01685223
19872|A||Ramamoorthy,S.|Effect of pH on Speciation and Toxicity of Aluminum to Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.45(4): 634-642|1988|10.1139/f88-077
19873|A||Henriksson,J., A. Johannisson, P.A. Bergqvist, and L. Norrgren|The Toxicity of Organoarsenic-Based Warfare Agents: In Vitro and In Vivo Studies|Arch. Environ. Contam. Toxicol.30(2): 213-219|1996|10.1007/BF00215800
19874|A||Mizell,M., E. Romig, W. Hartley, and A. Thiyagarajah|Sex on the Brain but the Heart is not Really in It: Developmental Heart Defects Associated with Aquatic Pollution and Microinjection of|Biol. Bull.189(2): 196-197|1995|10.1086/BBLv189n2p196
19875|A||Chang,E.Y., S.L. Coon, M. Walch, and R. Weiner|Effects of Hyphomonas PM-1 Biofilms on the Toxicity of Copper and Zinc to Crassostrea gigas and Crassostrea virginica Larval Set|J. Shellfish Res.15(3): 589-595|1996|
19877|A||Madhyastha,M.S., I. Novaczek, R.F. Ablett, G. Johnson, M.S. Nijjar, and D.E. Sims|A Comparative Study of Uptake and Release of Glutamic Acid and Kainic Acid by Blue Mussel (Mytilus edulis L.)|Aquat. Toxicol.21(1-2): 15-28|1991|10.1016/0166-445X(91)90003-R
19878|A||Megharaj,M., A.S. Rao, and K. Venkateswarlu|Influence of Rice Straw Amendment on Persistence and Algal Toxicity of p-Nitrophenol in Soil|Soil Biol. Biochem.25(9): 1185-1188|1993|10.1016/0038-0717(93)90213-U
19879|A||Pastershank,G.M., Y. Kiparissis, and C.D. Metcalfe|Induction of Hepatic Ethoxyresorufin-O-Deethylase (EROD) in Rainbow Trout (Oncorhynchus mykiss) Exposed to 3,3',4,4'-Tetrachlorodiphenyl Ether by|Chemosphere38(13): 3051-3060|1999|10.1016/S0045-6535(98)00511-6
19880|A||Nalecz-Jawecki,G., and J. Sawicki|Spirotox - a New Tool for Testing the Toxicity of Volatile Compounds|Chemosphere38(14): 3211-3218|1999|10.1016/S0045-6535(98)00482-2
19881|A||Dowden,B.F.|Toxicity of Commercial Waste-Oil Emulsifiers to Daphnia magna|J. Water Pollut. Control Fed.34(10): 1010-1014|1962|
19882|A||Ellgaard,E.G., and J.Y. Gilmore III|Effects of Different Acids on the Bluegill Sunfish, Lepomis macrochirus Rafinesque|J. Fish Biol.25(2): 133-137|1984|10.1111/j.1095-8649.1984.tb04859.x
19883|A||Muto,N., H.W. Ren, G.S. Hwang, S. Tominaga, N. Itoh, and K. Tanaka|Induction of Two Major Isoforms of Metallothionein in Crucian Carp (Carassius cuvieri) by Air-Pumping Stress, Dexamethasone, and Metals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 75-82|1999|
19884|A||Bachmann,R.W., and E.P. Odum|Uptake of Zn65 and Primary Productivity in Marine Benthic Algae|Limnol. Oceanogr.5(4): 349-355|1960|10.4319/lo.1960.5.4.0349
19885|A||Gutknecht,J.|Mechanism of Radioactive Zinc Uptake by Ulva lactuca|Limnol. Oceanogr.6(4): 426-431|1961|10.4319/lo.1961.6.4.0426
19886|A||Gutknecht,J.|Zn65 Uptake by Benthic Marine Algae|Limnol. Oceanogr.8(1): 31-38|1963|10.4319/lo.1963.8.1.0031
19887|A||Seals,C., C.J. Kempton, J.R.,Jr. Tomasso, and T.I.J. Smith|Environmental Calcium Does not Affect Production or Selected Blood Characteristics of Sunshine Bass Reared Under Normal Culture Conditions|Prog. Fish-Cult.56(4): 269-272|1994|10.1577/1548-8640(1994)056<0269:ECDNAP>2.3.CO;2
19888|A||McKim,J.M., R.C. Kolanczyk, G.J. Lien, and A.D. Hoffman|Dynamics of Renal Excretion of Phenol and Major Metabolites in the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.45(4): 265-277|1999|10.1016/S0166-445X(98)00105-2
19889|A||Guiney,P.D., R.E. Peterson, M.J.,Jr. Melancon, and J.J. Lech|The Distribution and Elimination of 2,5,2',5'-[14C]Tetrachlorobiphenyl in Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.39(2): 329-338|1977|10.1016/0041-008X(77)90166-1
19890|A||Loumbourdis,N.S., P. Kyriakopoulou-Sklavounou, and G. Zachariadis|Effects of Cadmium Exposure on Bioaccumulation and Larval Growth in the Frog Rana ridibunda|Environ. Pollut.104(3): 429-433|1999|10.1016/S0269-7491(98)00172-9
19891|A||Mellanen,P., T. Petanen, J. Lehtimaki, S. Makela, G. Bylund, B. Holmbom, E. Mannila, A. Oikari, and R. Santti|Wood-Derived Estrogens: Studies In Vitro with Breast Cancer Cell Lines and In Vivo in Trout|Toxicol. Appl. Pharmacol.136(2): 381-388|1996|10.1006/taap.1996.0046
19892|A||Guiney,P.D., R.M. Smolowitz, R.E. Peterson, and J.J. Stegeman|Correlation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induction of Cytochrome P4501A in Vascular Endothelium with Toxicity in Early Life Stages of Lake Trout|Toxicol. Appl. Pharmacol.143(2): 256-273|1997|10.1006/taap.1996.8051
19893|A||Abbas,R., and W.L. Hayton|A Physiologically Based Pharmacokinetic and Pharmacodynamic Model for Paraoxon in Rainbow Trout|Toxicol. Appl. Pharmacol.145(1): 192-201|1997|10.1006/taap.1997.8168
19894|A||Schlenk,D., D.M. Stresser, J.C. McCants, A.C. Nimrod, and W.H. Benson|Influence of beta-Naphthoflavone and Methoxychlor Pretreatment on the Biotransformation and Estrogenic Activity of Methoxychlor in Channel Catfish (Ictalurus punctatus)|Toxicol. Appl. Pharmacol.145(2): 349-356|1997|10.1006/taap.1997.8194
19895|A||Van Veld,P.A., W.K. Vogelbein, M.K. Cochran, A. Goksoyr, and J.J. Stegeman|Route-Specific Cellular Expression of Cytochrome P4501A (CYP1A) in Fish (Fundulus heteroclitus) Following Exposure to Aqueous and Dietary Benzo(a)pyrene|Toxicol. Appl. Pharmacol.142(2): 348-359|1997|10.1006/taap.1996.8037
19896|A||Stien,X., C. Risso, M. Gnassia-Barelli, M. Romeo, and M. LaFaurie|Effect of Copper Chloride In Vitro and In Vivo on the Hepatic EROD Activity in the Fish Dicentrarchus labrax|Environ. Toxicol. Chem.16(2): 214-219|1997|10.1002/etc.5620160217
19897|A||Weideborg,M., E.A. Vik, G.D. Ofjord, and O. Kjonno|Comparison of Three Marine Screening Tests and Four Oslo and Paris Commission Procedures to Evaluate Toxicity of Offshore Chemicals|Environ. Toxicol. Chem.16(2): 384-389|1997|10.1002/etc.5620160238
19898|A||Traunspurger,W., M. Haitzer, S. Hoss, S. Beier, W. Ahlf, and C. Steinberg|Ecotoxicological Assessment of Aquatic Sediments with Caenorhabditis elegans (Nematoda) - a Method for Testing Liquid Medium and Whole-Sediment Samples|Environ. Toxicol. Chem.16(2): 245-250|1997|
19899|A||Dieter,C.D., W.G. Duffy, and L.D. Flake|The Effect of Phorate on Wetland Macroinvertebrates|Environ. Toxicol. Chem.15(3): 308-312|1996|10.1002/etc.5620150313
19902|AT||Francis-Floyd,R., J. Gildea, P. Reed, and R. Klinger|Use of Bayluscide (Bayer 73) for Snail Control in Fish Ponds|J. Aquat. Anim. Health9(1): 41-48|1997|10.1577/1548-8667(1997)009<0041:UOBBFS>2.3.CO;2
19903|A||Heo,G.J., and J.H. Kim|Efficacy of Norfloxacin for the Control of Edwardsiella tarda Infection in the Flounder Paralichthys olivaceus|J. Aquat. Anim. Health8(3): 255-259|1996|10.1577/1548-8667(1996)008<0255:CEONFT>2.3.CO;2
19905|A||Francis,J.C., M.A. Poirrier, and R.A. LaBiche|Effects of Calcium and Salinity on the Growth Rate of Ephydatia fluviatilis (Porifera: Spongillidae)|Hydrobiologia (Multiple Languages)89(3): 225-229|1982|10.1007/BF00005708
19906|A||Leynen,M., T. Van den Berckt, J.M. Aerts, B. Castelein, D. Berckmans, and F. Ollevier|The Use of Tubificidae in a Biological Early Warning System|Environ. Pollut.105(1): 151-154|1999|10.1016/S0269-7491(98)00144-4
19907|A||Agrawal,S.C.|The Effects of Zinc Sulphate on the Ultraviolet Light Sensitivity of Chlorella vulgaris Beijernick|Curr. Sci. (Bangalore)53(18): 989-990|1984|
19908|A||Watling,H.R.|Effects of Metals on the Development of Oyster Embryos|S. Afr. J. Sci.77(3): 134-135|1981|
19909|A||Setter,T.L., H. Greenway, and J. Kuo|Inhibition of Cell Division by High External NaCl Concentrations in Synchronized Cultures of Chlorella emersonii|Aust. J. Plant Physiol.9:179-196|1982|
19910|A||Hosiaisluoma,V.|Effect of HCl and NaCl on the Growth of Netrium digitus (Desmidiales)|Ann. Bot. Fenn.13:107-113|1976|
19912|A||Lukavsky,J., and B. Marsalek|The Evaluation of Toxicity by a Biosensor with Immobilized Algae|Algol. Stud.85:147-155|1997|
19913|A||Fernandez-Leborans,G., and A. Novillo|Toxicity and Bioaccumulation of Cadmium in Olisthodiscus luteus (Raphidophyceae)|Water Res.30(1): 57-62|1996|10.1016/0043-1354(95)00084-X
19914|A||Woo,N.Y.S., and S.F. Chiu|Effect of Nitrite Exposure on Hematological Parameters and Blood Respiratory Properties in the Sea Bass Lates calcarifer|Environ. Toxicol. Water Qual.10(4): 259-266|1995|10.1002/tox.2530100405
19915|A||Al Kahem,H.F., Z. Ahmed, and I. Alomer|A Study on the Behavioural Response and Haematological Profile of Carp, Cyprinus carpio, Exposed to Exogenous Urea|Z. Angew. Zool. (Multiple Languages)80(1): 97-106|1994|
19916|A||Levine,S.L., and J.T. Oris|Noncompetitive Mixed-Type Inhibition of Rainbow Trout CYP1A Catalytic Activity by Clotrimazole|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(2): 205-210|1999|
19917|A||Knudsen,F.R., A. Arukwe, and T.G. Pottinger|The In Vivo Effect of Combinations of Octylphenol, Butylbenzylphthalate and Estradiol on Liver Estradiol Receptor Modulation and Induction of Zona Radiata Proteins in Rainbow Trout: No Evidence of Synergy|Environ. Pollut.103(1): 75-80|1998|10.1016/S0269-7491(98)00127-4
19918|A||Krone,C.A., and J.E. Stein|Species Dependent Biotransformation and Tissue Distribution of Tributyltin in Two Marine Teleosts|Aquat. Toxicol.45(2-3): 209-222|1999|10.1016/S0166-445X(98)00093-9
19919|A||Kao,Y.H., R.G. Manzon, M.A. Sheridan, and J.H. Youson|Study of the Relationship Between Thyroid Hormones and Lipid Metabolism During KClO4-Induced Metamorphosis of Landlocked Lamprey, Petromyzon marinus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(2): 363-373|1999|
19920|A||Hernandez,C., M. Martin, G. Bodega, I. Suarez, J. Perez, and B. Fernandez|Response of Carp Central Nervous System to Hyperammonemic Conditions: An Immunocytochemical Study of Glutamine Synthetase (GS), Glial Fibrillary Acidic Protein (GFAP) and 70 kDa Heat-Shock Protein (HSP70)|Aquat. Toxicol.45(2/3): 195-207|1999|10.1016/S0166-445X(98)00094-0
19921|T||Haitzer,M., S. Hoss, W. Traunspurger, and C. Steinberg|Relationship Between Concentration of Dissolved Organic Matter (DOM) and the Effect of DOM on the Bioconcentration of Benzo(a)pyrene|Aquat. Toxicol.45(2-3): 147-158|1999|10.1016/S0166-445X(98)00097-6
19922|A||Flammarion,P., B. Migeon, and J. Garric|Joint Effects of Copper Sulphate and Methidathion on Rainbow Trout (Oncorhynchus mykiss) EROD and AChE Activities|Bull. Environ. Contam. Toxicol.56(3): 440-445|1996|10.1007/s001289900063
19924|A||Davies,R.W., R.N. Singhal, and D.D. Wicklum|Changes in Reproductive Potential of the Leech Nephelopsis obscura (Erpobdellidae) as Biomarkers for Cadmium Stress|Can. J. Zool.73(12): 2192-2196|1995|10.1139/z95-259
19925|A||Collen,J., and I.R. Davison|In Vivo Measurement of Active Oxygen Production in the Brown Alga Fucus evanescens Using 2',7'-Dichlorohydrofluorescein Diacetate|J. Phycol.33(4): 643-648|1997|10.1111/j.0022-3646.1997.00643.x
19926|A||Peterson,S.M., and J.L. Stauber|New Algal Enzyme Bioassay for the Rapid Assessment of Aquatic Toxicity|Bull. Environ. Contam. Toxicol.56(5): 750-757|1996|10.1007/s001289900110
19927|A||Kessler,E.|Physiological and Biochemical Contributions to the Taxonomy of the Genus Chlorella IX.  Salt Tolerance as a Taxonomic Character|Arch. Microbiol.100:51-56|1974|10.1007/BF00446305
19928|A||Cronkite,D.L., A.N. Gustafson, and B.F. Bauer|Role of Protein Synthesis and Ninhydrin-Positive Substances in Acclimation of Paramecium tetraurelia to high NaCl|J. Exp. Zool.233:21-28|1985|10.1002/jez.1402330105
19929|A||Shuster,C.N.,Jr., and B.H. Pringle|Trace Metal Accumulation by the American Eastern Oyster, Crassostrea virginica|In: 1968 Proc.Natl.Shellfish Assoc.59:91-103|1969|
19930|A||Teeter,J.W.|Effects of Sodium Chloride on the Sago Pondweed|J. Wildl. Manag.29:838-845|1965|10.2307/3798562
19931|A||Stromgren,T.|The Effect of Lead, Cadmium, and Mercury on the Increase in Length of Five Intertidal Fucales|J. Exp. Mar. Biol. Ecol.43:107-119|1980|10.1016/0022-0981(80)90019-2
19932|A||Shitole,M.G., and G.V. Joshi|Effect of Sodium Chloride on the Balance Between C3 and C4 Carbon Fixation Pathways and Growth|Photosynthetica (Praha)18(3): 377-384|1984|
19933|A||Webster,D.A., and D.P. Hackett|Respiratory Chain of Colorless Algae I. Chlorophyta and Euglenophyta|Plant Physiol.40:1091-1100|1965|10.1104/pp.40.6.1091
19934|A||Guilbault,G.G., R.L. Lozes, W. Moore, and S.S. Kuan|Effect of Pesticides on Cholinesterase from Aquatic Species: Crayfish, Trout and Fiddler Crab|Environ. Lett.3(4): 235-245|1972|10.1080/00139307209435469
19935|A||MacKenzie,C.L.,Jr., and L.W. Shearer|Chemical Control of Polydora websteri and Other Annelids Inhabiting Oyster Shells|Proc. Natl. Shellfish. Assoc.50:105-111|1959|
19936|A||Gupta,M., and P. Chandra|Bioaccumulation and Toxicity of Mercury in Rooted-Submerged Macrophyte Vallisneria spiralis|Environ. Pollut.103(2/3): 327-332|1998|10.1016/S0269-7491(98)00102-X
19937|A||Reynoso,G.T., B.A. De Gamboa, and S.R. Mendoxa|Induction of Resistance to Salinity in the Freshwater Alga Chlamydomonas reinhardtii|Environ. Sci. Res.23:531-534|1982|
19939|A||Vreenegoor,S.M., R.M. Block, J.C. Rhoderick, and S.R. Gullans|The Effects of Chlorination on the Osmoregulatory Ability of the Blue Crab, Callinectes sapidus|ASB Bull.24:93-|1977|
19940|A||Alderdice,D.F., H. Rosenthal, and F.P.J. Velsen|Influence of Salinity and Cadmium on the Volume of Pacific Herring Eggs|Helgol. Wiss. Meeresunters.32:163-178|1979|10.1007/BF02189895
19941|A||Rai,U.N., R.D. Tripathi, S. Sinha, and P. Chandra|Chromium and Cadmium Bioaccumulation and Toxicity in Hydrilla verticillata (l.f.) Royle and Chara corallina Wildenow|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control30(3): 537-551|1995|
19942|A||Pantani,C., N. Spreti, A.A. Novelli, A.V. Ghirardini, and P.F. Ghetti|Effect of Particulate Matter on Copper and Surfactants Acute Toxicity to Echinogammarus tibaldii (Crustacea, Amphipoda)|Environ. Technol.16(3): 263-270|1995|10.1080/09593331608616268
19943|A||Lewis,S.K., and J.J. Lech|Uptake, Disposition, and Persistence of Nonylphenol from Water in Rainbow Trout (Oncorhynchus mykiss)|Xenobiotica26(8): 813-819|1996|10.3109/00498259609046751
19944|A||Pfeiffer,C.J., B. Qiu, and C.H. Cho|Electron Microscopic Perspectives of Gill Pathology Induced by 1-Naphthyl-N-Methylcarbamate in the Goldfish (Carassius auratus Linnaeus)|Histol. Histopathol.12(3): 645-653|1997|
19945|A||Webster,E.A., and G.M. Gadd|Stimulation of Respiration in Ulva lactuca by High Concentrations of Cadmium and Zinc: Evidence for an Alternative Respiratory Pathway|Environ. Toxicol. Water Qual.11(1): 7-12|1996|10.1002/(SICI)1098-2256(1996)11:1<7::AID-TOX2>3.0.CO;2-D
19946|A||Dreyfuss,G., P. Vignoles, and D. Rondelaud|The Molluscicidal Activity of Two 2-Benzamido-5-Nitrothiazole Bihalogenated Derivatives and Niclosamide. Influence of Some Environmental Factors on Their Toxicity|Vet. Res.27(6): 599-605|1996|
19947|A||Belanger,S.E., K.L. Rupe, R.L. Lowe, D. Johnson, and Y. Pan|A Flow-Through Laboratory Microcosm Suitable for Assessing Effects of Surfactants on Natural Periphyton|Environ. Toxicol. Water Qual.11(1): 65-76|1996|10.1002/(SICI)1098-2256(1996)11:1<65::AID-TOX9>3.0.CO;2-7
19948|A||Fenet,H., C. Casellas, and J. Bontoux|Hepatic Enzymatic Activities of the European Eel Anguilla anguilla as a Tool for Biomonitoring Freshwater Streams: Laboratory and Field Caging Studies|Water Sci. Technol.33(6): 321-329|1996|10.2166/wst.1996.0112
19949|A||Krishnaswamy-Chang,S.|Biflagellated Unicellular Algae as Detectors of Pesticide Contamination in Water|Environ. Monit. Assess.44(1-3): 487-502|1997|10.1023/A:1005730117508
19950|A||Dorn,P.B., J.H.,Jr. Rodgers, S.T. Dubey, W.B.,Jr. Gillespie, and A.R. Figueroa|Assessing the Effects of a C14-15 Linear Alcohol Ethoxylate Surfactant in Stream Mesocosms|Ecotoxicol. Environ. Saf.34(2): 196-204|1996|10.1006/eesa.1996.0064
19952|A||Streufert,J.M.|Some Effects of Two Phthalic Acid Esters on the Life Cycle of the Midge (Chironomus plumosus)|M.S. Thesis, University of Missouri, Columbia, MO:60 p.|1977|
19953|A||Tatem,H.E.|The Toxicity and Physiological Effects of Oil and Petroleum Hydrocarbons on Estuarine Grass Shrimp Palaemonetes pugio (Holthuis)|Ph.D. Thesis, Texas A&M University, College Station TX:133 p.|1975|
19954|A||Lignot,J.H., G. Charmantier, and J.C. Cochard|Effect of an Organophosphorus Insecticide, Fenitrothion, on Survival, Osmoregulation, and Acetylcholinesterase Activity in Different Life Stages of Two Penaeid Shrimps:  Penaeus stylirostris and Penaeus vannamei (Crusta|J. Shellfish Res.17(4): 1251-1258|1998|
19955|A||Hwang,P.P., and C.H. Yang|Modulation of Calcium Uptake in Cadmium-Pretreated Tilapia (Oreochromis mossambicus) Larvae|Fish Physiol. Biochem.16(5): 403-410|1997|10.1023/A:1007707009855
19956|A||Gaete,H., J. Silva, A. Riveros, E. Soto, L. Troncoso, E. Bay-Schmith, and A. Larrain|Combined Effect and Ecological Risk of Zn, Cu and Cr Present in the San Vicente Harbor, Chile (Efecto Combinado y Riesgo Ecologico de las Concentraciones de Zn, Cu Y Cr Presentes en el Puerto de San Vicente, Chile)|Gayana Oceanol.4(2): 99-107|1996|
19957|A||Rodriguez,L., and D. Rivera|Effects of Copper and Cadmium on the Growth of Tetraselmis suecica (Kylin) Butcher and Dunaliella salina Teodoresco (Effecto del Cobre y Cadmio e el Crecimento de Tetraselmis suecica (Kylin) Butcher y Dunaliella salina |Estud. Oceanol.14:61-74|1995|
19958|A||Monod,G., M.A. Boudry, and C. Gillet|Biotransformation Enzymes and Their Induction by beta-Naphthoflavone During Embryolarval Development in Salmonid Species|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(1): 45-50|1996|
19959|A||Jose,R., G. Galindo, J.A. Medina, and L.C. Villagrana|Physiological and Biochemical Changes in Shrimp Larvae (Penaeus vannamei) intoxicated with Organochlorine Pesticides|Mar. Pollut. Bull.32(12): 872-875|1996|10.1016/S0025-326X(96)00048-3
19960|A||Francesconi,K.A., J. Gailer, J.S. Edmonds, W. Goessler, and K.J. Irgolic|Uptake of Arsenic-Betaines by the Mussel Mytilus edulis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 131-137|1999|
19962|A||Wilson,J.E.H.|Age-Specific Sensitivity of Grass Shrimp (Palaemonetes pugio) Embryos to Sublethal Concentrations of Diflubenzuron|ASTM Spec. Tech. Publ.6:533-550|1997|
19963|A||Huang,X.D., T.S. Babu, C.A. Marwood, R.W. Gensemer, K.R. Solomon, and B.M. Greenberg|Inhibition of Photosynthesis as an Endpoint for the Photoinduced Toxicity of Intact and Photomodified PAHs|ASTM Spec. Tech. Publ.6:443-454|1997|
19964|A||Fort,D.J., and E.L. Stover|Significance of Experimental Design in Evaluating Ecological Hazards of Sediments/Soils to Amphibian Species|ASTM Spec. Tech. Publ.6:427-442|1997|
19965|A||Fort,D.J., and E.L. Stover|Development of Short-Term, Whole-Embryo Assays to Evaluate Detrimental Effects on Amphibian Limb Development and Metamorphosis Using Xenopus laevis|ASTM Spec. Tech. Publ.6:376-390|1997|
19966|A||Blazer,V.S., J.W. Fournie, and B.A. Weeks-Perkins|Macrophage Aggregates: Biomarker for Immune Function in Fishes?|ASTM Spec. Tech. Publ.6:360-375|1997|
19968|A||Pedersen,M.F., E.I. Paling, and D.I. Walker|Nitrogen Uptake and Allocation in the Seagrass Amphibolis antarctica|Aquat. Bot.56(2): 105-117|1997|10.1016/S0304-3770(96)01100-X
19969|A||Stribling,J.M.|The Relative Importance of Sulfate Availability in the Growth of Spartina alterniflora and Spartina cynosuroides|Aquat. Bot.56(2): 131-143|1997|10.1016/S0304-3770(96)01102-3
19971|A||Lewander,M., M. Greger, L. Kautsky, and E. Szarek|Macrophytes as Indicators of Bioavailable Cd, Pb and Zn Flow in the River Przemsza, Katowice Region|Appl. Geochem.11(1-2): 169-173|1996|10.1016/0883-2927(95)00074-7
19972|A||Scharek,R., M.A. Van Leeuwe, and H.J.W. De Baar|Responses of Southern Ocean Phytoplankton to the Addition of Trace Metals|Deep-Sea Res. Part I Oceanogr. Res. Pap.44(1-2): 209-227|1997|
19973|A||Depledge,M.H., A. Aagaard, and P. Gyorkos|Assessment of Trace Metal Toxicity Using Molecular, Physiological and Behavioural Biomarkers|Mar. Pollut. Bull.31(1-3): 19-27|1995|10.1016/0025-326X(95)00006-9
19974|A||Mackie,G.L.|Tolerances of Five Benthic Invertebrates to Hydrogen Ions and Metals (Cd, Pb, Al)|Arch. Environ. Contam. Toxicol.18(1-2): 215-223|1989|10.1007/BF01056206
19975|A||Vray,F., J.P. Baudin, and M. Svadlenkova|Effects of Some Factors on Uptake and Release of 106Ru by a Freshwater Moss, Plathypnidium riparioides|Arch. Environ. Contam. Toxicol.23(2): 190-197|1992|10.1007/BF00212274
19976|A||Swartz,R.C., G.R. Ditsworth, D.W. Schults, and J.O. Lamberson|Sediment Toxicity to a Marine Infaunal Amphipod: Cadmium and Its Interaction with Sewage Sludge|Mar. Environ. Res.18(2): 133-153|1986|10.1016/0141-1136(86)90004-8
19977|A||Elskus,A.A., E. Monosson, A.E. McElroy, J.J. Stegeman, and D.S. Woltering|Altered CYP1A Expression in Fundulus heteroclitus Adults and Larvae: A Sign of Pollutant Resistance?|Aquat. Toxicol.45(2/3): 99-113|1999|10.1016/S0166-445X(98)00102-7
19978|A||Haynes,D., P. Mosse, and L. Oswald|The Use of Transplanted Cultured Mussels (Mytilus edulis) to Monitor Pollutants Along the Ninety Mile Beach, Victoria, Australia - II. Polychlorinated|Mar. Pollut. Bull.30(12): 834-839|1995|10.1016/0025-326X(95)00090-A
19980|A||Gamenick,I., B. Vismann, M.K. Grieshaber, and O. Giere|Ecophysiological Differentiation of Capitella capitata (Polychaeta). Sibling Species from Different Sulfidic Habitats|Mar. Ecol. Prog. Ser.175:155-166|1998|10.3354/meps175155
19981|A||Li,S.N., and D.F. Fan|Correlation Between Biochemical Parameters and Susceptibility of Freshwater Fish to Malathion|J. Toxicol. Environ. Health48(4): 413-418|1996|10.1080/009841096161285
19982|A||Venier,P., S. Maron, and S. Canova|Detection of Micronuclei in Gill Cells and Haemocytes of Mussels Exposed to Benzo(a)pyrene|Mutat. Res.390(1-2): 33-44|1997|10.1016/S0165-1218(96)00162-0
19983|A||Borcherding,J., and B. Jantz|Valve Movement Response of the Mussel Dreissena polymorpha - the Influence of pH and Turbidity on the Acute Toxicity of Pentachlorophenol Under Laboratory and Field Conditions|Ecotoxicology6(3): 153-165|1997|10.1023/A:1018666525205
19984|A||Boisson,F., C.S. Karez, M. Henry, M. Romeo, and M. Gnassia-Barelli|Ultrastructural Observations on the Marine Coccolithophorid Cricosphaera elongata Cultured in the Presence of Selenium or Cadmium|Bull. Inst. Oceanogr.14(4): 239-247|1996|
19986|A||Giorgi,A.D.N.|Response of Periphyton Biomass to high Phosphorus Concentrations in Laboratory Experiments|Bull. Environ. Contam. Toxicol.55(6): 825-832|1995|10.1007/BF00209460
19987|A||Deer,K.A., L. Banka, J. Nemcsok, and M. Abraham|Effects of Deltamethrin on Hepatic Microsomal Cytochrome P450-Dependent Monooxygenases in Carp|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(3): 637-644|1996|
19988|A||Dahl,B., and H. Blanck|Use of Sand-Living Microalgal Communities (Epipsammon) in Ecotoxicological Testing|Mar. Ecol. Prog. Ser.144(1-3): 163-173|1996|10.3354/meps144163
19989|A||Fu,H., J. Ye, T. Lu, and L. Zhang|Effect of Gossypol on Reproductive Functions of Nile Tilapia (Oreochromis niloticus)|Zhongguo Shuichan Kexue (Non-English)2:36-41|1995|
19990|A||Lapota,D., D.E. Rosenberger, and D. Duckworth|A Bioluminescent Dinoflagellate Assay for Detecting Toxicity in Coastal Waters|In: A.K.Campbell, L.J.Kricka, and P.E.Stanley (Eds.), Bioluminescence and Chemiluminescence, Fundamentals and Applied Aspects, John Wiley & Sons, NY:156-159|1996|
19992|A||Garcia,E.M., and R.E. Reyes|Bioconcentration of Hg in Acetabularia calyculus: Evidence of a Polypeptide in Whole Cells and Anucleated Cells|Toxicol. Environ. Chem.55(1-4): 11-18|1996|10.1080/02772249609358319
19993|A||Gonzalez,A., B. Borges, I. Rengel-Zambrano, and J. Molina|Sublethal Effects of Cadmium on Stay Testicular Meiosis of Gonada of Tilapia (Efectos Subletales del Cadmio Sobre los Estadios Meioticos de las Gonadas Testiculares de la Tilapia)|Ciencia Cult. (Maracaibo) (Non-English)5(1): 17-24|1997|
19994|A||Chen,J.C., and K.W. Chen|Oxygen Uptake and Ammonia-N Excretion of Juvenile Penaeus japonicus During Depuration Following One-Day Exposure to Different Concentrations of Saponin at Different Salinity Levels|Aquaculture156(1-2): 77-83|1997|10.1016/S0044-8486(97)00085-9
19995|A||Decho,A.W., and S.N. Luoma|Flexible Digestion Strategies and Trace Metal Assimilation in Marine Bivalves|Limnol. Oceanogr.41(3): 568-572|1996|10.4319/lo.1996.41.3.0568
19996|A||Kszos,L.A., and K.R. Crow|Identification and Treatment of Lithium as the Primary Toxicant in a Groundwater Treatment Facility Effluent|Rep.No.9626003, 69th Annual Conference and Exposition, Water Environment Federation, Dallas, TX:12-|1997|
19997|T||Epps,E.A., and M.B. Sturgis|Arsenic Compounds Toxic to Rice|Proc. Soil Sci. Soc. Am.4:215-218|1939|10.2136/sssaj1940.036159950004000C0041x
19998|AT||Delaney,J.M., and R.M. Wilkins|Toxicity of Microcystin-LR, Isolated from Microcystis aeruginosa, Against Various Insect Species|Toxicon33(6): 771-778|1995|10.1016/0041-0101(95)00018-H
19999|T||Cressman III,C.P., and P.L. Williams|Reference Toxicants for Toxicity Testing Using Caenorhabditis elegans in Aquatic Media|ASTM Spec. Tech. Publ.6:518-532|1997|
20000|A||Sinha,G.M.|Cadmium Intoxication and the Effects of Chelating Agents on the Gonadal Maturation of the Fish Heteropneustes fossilis (Bloch)|Environ. Ecol.17(1): 191-198|1999|
20001|A||Maranhao,P., J.C. Marques, and V.M.C. Madeira|Zinc and Cadmium Concentrations in Soft Tissues of the Red Swamp Crayfish Procambarus clarkii (Girard, 1852) After Exposure to Zinc and Cadmium|Environ. Toxicol. Chem.18(8): 1769-1771|1999|10.1002/etc.5620180823
20003|A||Allen,Y., A.P. Scott, P. Matthiessen, S. Haworth, J.E. Thain, and S. Feist|Survey of Estrogenic Activity in United Kingdom Estuarine and Coastal Waters and Its Effects on Gonadal Development of the Flounder Platichthys flesus|Environ. Toxicol. Chem.18(8): 1791-1800|1999|10.1002/etc.5620180827
20004|A||Das,B.P., K. Das, B. Choudhury, D.N. Chowdhury, and G.K. Das|Comparative Larvicidal Studies of p-Chloroaniline and p-Bromoaniline with Their Schiff Bases|Environ. Ecol.17(1): 180-183|1999|
20005|A||Chaudhari,T.R., P.N. Patil, K.R. Rao, S.B. Deshmukh, and S.G. Diwate|Effect of the Pesticide Rogor on Some Biochemical Constituents in Freshwater Snail Thiara lineata|Environ. Ecol.17(1): 146-148|1999|
20006|A||Anjaneyulu,G.V.S.R., V. Nayak, U.D.V.P.P. Rao, T.V.R. Sateesh, and K.D. Mishra|Acute Toxicity of Neem Oil to Aquatic Hemipteran Predatory Insect Notonecta sp.|Environ. Ecol.17(1): 57-61|1999|
20007|A||Vaglio,A., and C. Landriscina|Changes in Liver Enzyme Activity in the Teleost Sparus aurata in Response to Cadmium intoxication|Ecotoxicol. Environ. Saf.43(1): 111-116|1999|10.1006/eesa.1999.1778
20008|A||Van Dam,R.A., J.T. Ahokas, and D.A. Holdway|Chronic Toxicity of Diethylenetriamine Pentaacetic Acid to Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis): Effects on Reproduction, Condition|Ecotoxicol. Environ. Saf.43(1): 74-82|1999|10.1006/eesa.1999.1768
20009|A||Khangarot,B.S., R.S. Rathore, and D.M. Tripathi|Effects of Chromium on Humoral and Cell-Mediated Immune Responses and Host Resistance to Disease in a Freshwater Catfish, Saccobranchus fossilis (Bloch)|Ecotoxicol. Environ. Saf.43(1): 11-20|1999|10.1006/eesa.1998.1722
20010|A||Zou,E., and M. Fingerman|Effects of Estrogenic Agents on Chitobiase Activity in the Epidermis and Hepatopancreas of the Fiddler Crab, Uca pugilator|Ecotoxicol. Environ. Saf.42(2): 185-190|1999|10.1006/eesa.1998.1740
20011|A||George-Ares,A., J.R. Clark, G.R. Biddinger, and M.L. Hinman|Comparison of Test Methods and Early Toxicity Characterization for Five Dispersants|Ecotoxicol. Environ. Saf.42(2): 138-142|1999|10.1006/eesa.1998.1734
20012|A||Leonard,A.W., R.V. Hyne, R.P. Lim, and J.C. Chapman|Effect of Endosulfan Runoff from Cotton Fields on Macroinvertebrates in the Namoi River|Ecotoxicol. Environ. Saf.42(2): 125-134|1999|10.1006/eesa.1998.1728
20013|A||Arehmouch,L., F. Ghillebaert, C. Chaillou, and P. Roubaud|Lethal Effects of Mexel 432, an Antifouling Agent, on Embryolarval Development of Common Carp (Cyprinus carpio L.)|Ecotoxicol. Environ. Saf.42(2): 110-118|1999|10.1006/eesa.1998.1702
20014|A||Hugla,J.L., and J.P. Thome|Effects of Polychlorinated Biphenyls on Liver Ultrastructure, Hepatic Monooxygenases, and Reproductive Success in the Barbel|Ecotoxicol. Environ. Saf.42(3): 265-273|1999|10.1006/eesa.1998.1761
20015|A||Dethloff,G.M., D. Schlenk, J.T. Hamm, and H.C. Bailey|Alterations in Physiological Parameters of Rainbow Trout (Oncorhynchus mykiss) with Exposure to Copper and Copper/Zinc Mixtures|Ecotoxicol. Environ. Saf.42(3): 253-264|1999|10.1006/eesa.1998.1757
20016|A||Wu,W.Z., Y. Xu, K.W. Schramm, and A. Kettrup|Effect of Natural Dissolved Humic Material on Bioavailability and Acute Toxicity of Fenpropathrin to the Grass Carp, Ctenopharyngodon idellus|Ecotoxicol. Environ. Saf.42(3): 203-206|1999|10.1006/eesa.1998.1743
20017|A||Bjerregaard,P.|Relationship Between Physiological Condition and Cadmium Accumulation in Carcinus maenas (L.)|Comp. Biochem. Physiol. A Comp. Physiol.99(1-2): 75-83|1991|10.1016/0300-9629(91)90238-8
20018|A||Cattani,O., D. Fabbri, M. Salvati, C. Trombini, and I. Vassura|Biomonitoring of Mercury Pollution in a Wetland near Ravenna, Italy by Translocated Bivalves (Mytilus galloprovincialis)|Environ. Toxicol. Chem.18(8): 1801-1805|1999|10.1002/etc.5620180828
20019|A||Jofre,M.B., and W.H. Karasov|Direct Effect of Ammonia on Three Species of North American Anuran Amphibians|Environ. Toxicol. Chem.18(8): 1806-1812|1999|10.1002/etc.5620180829
20020|A||Frias-Espericueta,M.G., M. Harfush-Melendez, J.I. Osuna-Lopez, and F. Paez-Osuna|Acute Toxicity of Ammonia to Juvenile Shrimp Penaeus vannamei Boone|Bull. Environ. Contam. Toxicol.62(5): 646-652|1999|10.1007/s001289900923
20022|A||Lee,L.H., B. Lustigman, S. Murray, and S. Koepp|Effect of Selenium on the Growth of the Cyanobacterium Anacystis nidulans|Bull. Environ. Contam. Toxicol.62(5): 591-599|1999|10.1007/s001289900916
20023|A||Ingermann,R.L., D.C. Bencic, and V.P. Eroschenko|Methoxychlor Effects on Hatching and Larval Startle Response in the Salamander Ambystoma macrodactylum are Independent of Its Estrogenic Actions|Bull. Environ. Contam. Toxicol.62(5): 578-583|1999|10.1007/s001289900914
20024|A||Khangarot,B.S., and R.S. Rathore|Copper Exposure Reduced the Resistance of the Catfish Saccobranchus fossilis to Aeromonas hydrophila Infection|Bull. Environ. Contam. Toxicol.62(4): 490-495|1999|10.1007/s001289900902
20025|A||Qixing,Z.|Combined Chromium and Phenol Pollution in a Marine Prawn Fishery|Bull. Environ. Contam. Toxicol.62(4): 476-482|1999|10.1007/s001289900900
20026|A||Akcha,F., T. Burgeot, P. Venier, and J.F. Narbonne|Relationship Between Kinetics of Benzo(a)pyrene Bioaccumulation and DNA Binding in the Mussel Mytilus galloprovincialis|Bull. Environ. Contam. Toxicol.62(4): 455-462|1999|10.1007/s001289900897
20028|A||Hatice,P., S. Katalay, and B. Buyukisik|Accumulation and Loss of Chromium by Mussels (M.galloprovincialis)|Bull. Environ. Contam. Toxicol.62(3): 286-292|1999|10.1007/s001289900872
20029|A||Kumar,S., S. Lata, and K. Gopal|Deltamethrin Induced Physiological Changes in Freshwater Cat Fish Heteropneustes fossilis|Bull. Environ. Contam. Toxicol.62(3): 254-258|1999|10.1007/s001289900867
20030|A||Nguyen,L.T.H., C.R. Janssen, and F.A.M. Volckaert|Susceptibility of Embryonic and Larval African Catfish (Clarias gariepinus) to Toxicants|Bull. Environ. Contam. Toxicol.62(2): 230-237|1999|10.1007/s001289900864
20031|A||James,R., and K. Sampath|Effect of Zeolite on the Reduction of Cadmium Toxicity in Water and a Freshwater Fish, Oreochromis mossambicus|Bull. Environ. Contam. Toxicol.62(2): 222-229|1999|10.1007/s001289900863
20032|A||Baer,K.N., and K.D. Owens|Evaluation of Selected Endocrine Disrupting Compounds on Sex Determination in Daphnia Magna Using Reduced Photoperiod and Different Feeding Rates|Bull. Environ. Contam. Toxicol.62(2): 214-221|1999|10.1007/s001289900862
20033|A||Kuz'Mina,V.V., G.M. Chuiko, and D.F. Pavlov|Effects of DDVP, Naphthalene and Cadmium on Intestinal Proteolytic Activity in Mozambique Tilapia (Oreochromis mossambicus Peters)|Bull. Environ. Contam. Toxicol.62(2): 193-198|1999|10.1007/s001289900859
20034|A||Kotsanis,N., and J. Iliopoulou-Georgudaki|Arsenic Induced Liver Hyperplasia and Kidney Fibrosis in Rainbow Trout (Oncorhynchus mykiss) by Microinjection Technique: A Sensitive Animal Bioassay|Bull. Environ. Contam. Toxicol.62(2): 169-178|1999|10.1007/s001289900856
20035|A||Ay,O., M. Kalay, L. Tamer, and M. Canli|Copper and Lead Accumulation in Tissues of a Freshwater Fish Tilapia zillii and Its Effects on the Branchial Na,K-ATPase Activity|Bull. Environ. Contam. Toxicol.62(2): 160-168|1999|10.1007/s001289900855
20036|A||Joseph,V., and A. Joseph|Acclimation of Algal Species Following Exposure to Phenol|Bull. Environ. Contam. Toxicol.62(1): 87-92|1999|10.1007/s001289900845
20037|A||Gilron,G., S.G. Gransden, D.H. Lynn, J. Broadfoot, and R. Scroggins|A Behavioral Toxicity Test Using the Ciliated Protozoan Tetrahymena thermophila. I. Method Description|Environ. Toxicol. Chem.18(8): 1813-1816|1999|10.1002/etc.5620180830
20038|A||Adshead-Simonsen,P.C., G.E. Murray, and D.J. Kushner|Morphological Changes in the Diatom, Tabellaria flocculosa, Induced by Very low Concentrations of Cadmium|Bull. Environ. Contam. Toxicol.26(6): 745-748|1981|10.1007/BF01622165
20039|A||Bleeker,E.A.J., H.A. Leslie, D. Groenendijk, M. Plans, and W. Admiraal|Effects of Exposure to Azaarenes on Emergence and Mouthpart Development in the Midge Chironomus riparius (Diptera: Chironomidae)|Environ. Toxicol. Chem.18(8): 1829-1834|1999|10.1002/etc.5620180833
20040|A||Gray,M.A., A.J. Niimi, and C.D. Metcalfe|Factors Affecting the Development of Testis-Ova in Medaka, Oryzias latipes, Exposed to Octylphenol|Environ. Toxicol. Chem.18(8): 1835-1842|1999|
20041|A||White,P.A., S. Robitaille, and J.B. Rasmussen|Heritable Reproductive Effects of Benzo(a)pyrene on the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.18(8): 1843-1847|1999|10.1002/etc.5620180835
20042|A||Dethloff,G.M., D. Schlenk, S. Khan, and H.C. Bailey|The Effects of Copper on Blood and Biochemical Parameters of Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.36(4): 415-423|1999|10.1007/PL00006614
20043|A||Hartgers,E.M., E.H.W. Heugens, and J.W. Deneer|Effect of Lindane on the Clearance Rate of Daphnia magna|Arch. Environ. Contam. Toxicol.36(4): 399-404|1999|10.1007/PL00006612
20044|A||Kreutzweiser,D.P., and M.J. Faber|Ordination of Zooplankton Community Data to Detect Pesticide Effects in Pond Enclosures|Arch. Environ. Contam. Toxicol.36(4): 392-398|1999|10.1007/PL00006611
20045|A||Thomas,B.V., A.W. Knight, and K.J. Maier|Selenium Bioaccumulation by the Water Boatman Trichocorixa reticulata (Guerin-Meneville)|Arch. Environ. Contam. Toxicol.36(3): 295-300|1999|10.1007/s002449900474
20046|A||Wheelock,C.E., M.F. Wolfe, H. Olsen, R.S. Tjeerdema, and M.L. Sowby|HSP60-Induced Tolerance in the Rotifer Brachionus plicatilis Exposed to Multiple Environmental Contaminants|Arch. Environ. Contam. Toxicol.36(3): 281-287|1999|10.1007/s002449900472
20047|A||Franqueira,D., A. Cid, E. Torres, M. Orosa, and C. Herrero|A Comparison of the Relative Sensitivity of Structural and Functional Cellular Responses in the Alga Chlamydomonas eugametos Exposed to the Herbicide Paraquat|Arch. Environ. Contam. Toxicol.36(3): 264-269|1999|10.1007/s002449900470
20048|A||Schroder,H.C., H.M.A. Hassanein, S. Lauenroth, C. Koziol, T.A.A. Mohamed, M. Lacorn, and H. Steinhart|Induction of DNA Strand Breaks and Expression of HSP70 and GRP78 Homolog by Cadmium in the Marine Sponge Suberites domuncula|Arch. Environ. Contam. Toxicol.36(1): 47-55|1999|10.1007/s002449900441
20049|A||Hickey,C.W., and M.L. Martin|Chronic Toxicity of Ammonia to the Freshwater Bivalve Sphaerium novaezelandiae|Arch. Environ. Contam. Toxicol.36(1): 38-46|1999|10.1007/s002449900440
20050|A||Holten Lutzhoft,H.C.H., B. Halling-Sorensen, and S.E. Jorgensen|Algal Toxicity of Antibacterial Agents Applied in Danish Fish Farming|Arch. Environ. Contam. Toxicol.36(1): 1-6|1999|10.1007/s002449900435
20051|A||Kobraei,M.E., and D.S. White|Effects of 2,4-Dichlorophenoxyacetic Acid on Kentucky Algae:  Simultaneous Laboratory and Field Toxicity Testings|Arch. Environ. Contam. Toxicol.31(4): 571-580|1996|10.1007/BF00212442
20053|A||Gomot,A.|Toxic Effects of Cadmium on Reproduction, Development, and Hatching in the Freshwater Snail Lymnaea stagnalis for Water Quality Monitoring|Ecotoxicol. Environ. Saf.41(3): 288-297|1998|10.1006/eesa.1998.1711
20054|A||Mazon,L.I., G. Gonzalez, A. Vicario, A. Estomba, and A. Aguirre|Inhibition of Esterases in the Marine Gastropod Littorina littorea Exposed to Cadmium|Ecotoxicol. Environ. Saf.41(3): 284-287|1998|10.1006/eesa.1998.1710
20055|A||Mohapatra,P.K., and U. Schiewer|Effect of Dimethoate and Chlorfenvinphos on Plasma Membrane Integrity of Synechocystis sp. PCC 6803|Ecotoxicol. Environ. Saf.41(3): 269-274|1998|10.1006/eesa.1998.1708
20056|A||Sancho,E., M.D. Ferrando, C. Lleo, and E. Andreu-Moliner|Pesticide Toxicokinetics in Fish: Accumulation and Elimination|Ecotoxicol. Environ. Saf.41(3): 245-250|1998|10.1006/eesa.1998.1704
20057|A||Twagilimana,L., J. Bohatier, CA Groliere, F. Bonnemoy, and D. Sargos|A New Low-Cost Microbiotest with the Protozoan Spirostomum teres:  Culture Conditions and Assessment of Sensitivity of the Ciliate to 14 Pure Chemicals|Ecotoxicol. Environ. Saf.41(3): 231-244|1998|10.1006/eesa.1998.1698
20058|A||Fargasova,A.|Comparison of Tributyltin Compound Effects on the Alga Scenedesmus quadricauda and the Benthic Organisms Tubifex tubifex and Chironomus plumosus|Ecotoxicol. Environ. Saf.41(3): 222-230|1998|10.1006/eesa.1998.1695
20059|A||Gillespie,W.B.,Jr., J.H.,Jr. Rodgers, and P.B. Dorn|Responses of Aquatic Invertebrates to a Linear Alcohol Ethoxylate Surfactant in Stream Mesocosms|Ecotoxicol. Environ. Saf.41(3): 215-221|1998|10.1006/eesa.1998.1713
20060|A||Piechotta,G., M. Lacorn, T. Lang, U. Kammann, T. Simat, H.S. Jenke, and H. Steinhart|Apoptosis in Dab (Limanda limanda) as Possible New Biomarker for Anthropogenic Stress|Ecotoxicol. Environ. Saf.42(1): 50-56|1999|10.1006/eesa.1998.1725
20061|A||Guilhermino,L., O. Sobral, C. Chastinet, R. Ribeiro, F. Goncalves, M.C. Silva, and A.M.V.M. Soares|A Daphnia magna First-Brood Chronic Test:  An Alternative to the Conventional 21-Day Chronic Bioassay?|Ecotoxicol. Environ. Saf.42(1): 67-74|1999|10.1006/eesa.1998.1730
20062|A||Kotkat,H.M., A.A. Rady, and N. Janos|Sublethal Effects of Phenol on the Phospholipid Fatty Acid Composition of Carp Erythrocyte Plasma Membrane|Ecotoxicol. Environ. Saf.42(1): 35-39|1999|10.1006/eesa.1998.1716
20063|A||Lamai,S.L., G.F. Warner, and C.H. Walker|Effects of Dieldrin on Life Stages of the African Catfish, Clarias gariepinus (Burchell)|Ecotoxicol. Environ. Saf.42(1): 22-29|1999|10.1006/eesa.1998.1723
20064|A||Sturm,A., and P.D. Hansen|Altered Cholinesterase and Monooxygenase Levels in Daphnia magna and Chironomus riparius Exposed to Environmental Pollutants|Ecotoxicol. Environ. Saf.42(1): 9-15|1999|10.1006/eesa.1998.1721
20065|A||Boese,B.L., H. Lee II, D.T. Specht, R.C. Randall, and M.H. Winsor|Comparison of Aqueous and Solid-Phase Uptake for Hexachlorobenzene in the Tellinid Clam Macoma nasuta (Conrad): A Mass Balance Approach|Environ. Toxicol. Chem.9(2): 221-231|1990|
20066|A||Carr,R.S., J.W. Williams, and C.T.B. Fragata|Development and Evaluation of a Novel Marine Sediment Pore Water Toxicity Test with the Polychaete Dinophilus gyrociliatus|Environ. Toxicol. Chem.8(6): 533-543|1989|10.1002/etc.5620080610
20067|A||Egaas,E., M. Sandvik, E. Fjeld, T. Kallqvist, A. Goksoyr, and A. Svensen|Some Effects of the Fungicide Propiconazole on Cytochrome P450 and Glutathione S-Transferase in Brown Trout (Salmo trutta)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(2): 337-344|1999|
20068|A||Dodard,S.G., A.Y. Renoux, J. Hawari, G. Ampleman, S. Thiboutot, and G.I. Sunahara|Ecotoxicity Characterization of Dinitrotoluenes and Some of Their Reduced Metabolites|Chemosphere38(9): 2071-2079|1999|10.1016/S0045-6535(98)00423-8
20069|A||De conto Cinier,C., M. Petit-Ramel, R. Faure, D. Garin, and Y. Bouvet|Kinetics of Cadmium Accumulation and Elimination in Carp Cyprinus carpio Tissues|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122:345-352|1999|
20070|A||Charoy,C., and C.R. Janssen|The Swimming Behaviour of Brachionus calyciflorus (Rotifer) Under Toxic Stress.  II.  Comparative Sensitivity of Various Behavioural Criteria|Chemosphere38(14): 3247-3260|1999|10.1016/S0045-6535(98)00557-8
20071|A||Cooke,J.B., and D.E. Hinton|Promotion by 17beta-Estradiol and beta-Hexachlorocyclohexane of Hepatocellular Tumors in Medaka, Oryzias latipes|Aquat. Toxicol.45(2/3): 127-145|1999|10.1016/S0166-445X(98)00101-5
20072|A||Blasco,J., and J. Puppo|Effect of Heavy Metals (Cu, Cd and Pb) on Aspartate and Alanine Aminotransferase in Ruditapes phillippinarum (Mollusca:  Bivalvia)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(2): 253-263|1999|
20073|A||Beveridge,C.M., A.C.S. Parr, M.J. Smith, A. Kerr, M.J. Cowling, and T. Hodgkiess|The Effect of Benzalkonium Chloride Concentration on Nine Species of Marine Diatom|Environ. Pollut.103(1): 31-36|1998|10.1016/S0269-7491(98)00134-1
20074|A||Barry,M.J.|The Effects of a Pesticide on Inducible Phenotypic Plasticity in Daphnia|Environ. Pollut.104(2): 217-224|1999|10.1016/S0269-7491(98)00188-2
20075|A||Barber,J.T., D.A. Thomas, L.Y. Yatsu, and H.E. Ensley|The Physiological Consequences of Ethylene Glycol-Induced Changes in the Frond Structure of Lemna gibba|Aquat. Toxicol.45(4): 253-264|1999|10.1016/S0166-445X(98)00104-0
20076|A||Barahona,M.V., and S. Sanchez-Fortun|Toxicity of Carbamates to the Brine Shrimp Artemia salina and the Effect of Atropine, BW284c51, Iso-OMPA and 2-PAM on Carbaryl Toxicity|Environ. Pollut.104(3): 469-476|1999|10.1016/S0269-7491(98)00152-3
20077|A||Au,D.W.T., R.S.S. Wu, B.S. Zhou, and P.K.S. Lam|Relationship Between Ultrastructural Changes and EROD Activities in Liver of Fish Exposed to Benzo(a)pyrene|Environ. Pollut.104(2): 235-247|1999|10.1016/S0269-7491(98)00176-6
20078|A||Li,J., E.S. Quabius, S.E. Wendelaar Bonga, G. Flik, and R.A.C. Lock|Effects of Water-Borne Copper on Branchial Chloride Cells and Na+/K+-ATPase Activities in Mozambique Tilapia (Oreochromis mossambicus)|Aquat. Toxicol.43(1): 1-11|1998|10.1016/S0166-445X(98)00047-2
20079|A||Lores,E.M., R.A. Snyder, and J.R. Pennock|The Effect of Humic Acid on Uptake/Adsorption of Copper by a Marine Bacterium and Two Marine Ciliates|Chemosphere38(2): 293-310|1999|10.1016/S0045-6535(98)00190-8
20080|A||Lucan-Bouche,M.L., S. Biagianti-Risbourg, F. Arsac, and G. Vernet|An Original Decontamination Process Developed by the Aquatic Oligochaete Tubifex tubifex Exposed to Copper and Lead|Aquat. Toxicol.45(1): 9-17|1999|10.1016/S0166-445X(98)00091-5
20081|A||Marr,J.C.A., J.A. Hansen, J.S. Meyer, D. Cacela, T. Podrabsky, J. Lipton, and H.L. Bergman|Toxicity of Cobalt and Copper to Rainbow Trout:  Application of a Mechanistic Model for Predicting Survival|Aquat. Toxicol.43(4): 225-238|1998|10.1016/S0166-445X(98)00061-7
20082|A||Meador,J.P., T.H. Sibley, G.L. Swartzman, and F.B. Taub|Copper Tolerance by the Freshwater Algal Species Oocystis pusilla and Its Ability to Alter Free-Ion Copper|Aquat. Toxicol.44(1-2): 69-82|1998|10.1016/S0166-445X(98)00067-8
20083|A||Morale,A., L. Coniglio, C. Angelini, G. Cimoli, A. Bolla, D. Alleteo, P. Russo, and C. Falugi|Biological Effects of a Neurotoxic Pesticide at Low Concentrations on Sea Urchin Early Development, a Terathogenic Assay|Chemosphere37(14/15): 3001-3010|1998|10.1016/S0045-6535(98)00341-5
20084|A||Munger,C., L. Hare, A. Craig, and P.M. Charest|Influence of Exposure Time on the Distribution of Cadmium Within the Cladoceran Ceriodaphnia dubia|Aquat. Toxicol.44(3): 195-200|1999|10.1016/S0166-445X(98)00076-9
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20412|A||Twiss,M.R., L. Granier, P. Lafrance, and P.G.C. Campbell|Bioaccumulation of 2,2',5,5'-Tetrachlorobiphenyl and Pyrene by Picoplankton (Synechococcus leopoliensis, Cyanophyceae): Influence of Variable Humic Acid Concentrations and pH|Environ. Toxicol. Chem.18(9): 2063-2069|1999|
20413|A||Billiard,S.M., K. Querbach, and P.V. Hodson|Toxicity of Retene to Early Life Stages of Two Freshwater Fish Species|Environ. Toxicol. Chem.18(9): 2070-2077|1999|10.1002/etc.5620180927
20414|A||Weinstein,J.E., and J.T. Oris|Humic Acids Reduce the Bioaccumulation and Photoinduced Toxicity of Fluoranthene to Fish|Environ. Toxicol. Chem.18(9): 2087-2094|1999|10.1002/etc.5620180929
20415|A||Dorn,P.B., J.P. Salanitro, S.H. Evans, and L. Kravetz|Assessing the Aquatic Hazard of Some Branched and Linear Nonionic Surfactants by Biodegradation and Toxicity|Environ. Toxicol. Chem.12(10): 1751-1762|1993|10.1002/etc.5620121002
20416|A||Hirsch,M.P.|Bioaccumulation of Silver from Laboratory-Spiked Sediments in the Oligochaete (Lumbriculus variegatus)|Environ. Toxicol. Chem.17(4): 605-609|1998|
20417|A||Fort,D.J., T.L. Propst, E.L. Stover, J.C. Helgen, R.B. Levey, K. Gallagher, and J.G. Burkhart|Effects of Pond Water, Sediment, and Sediment Extracts from Minnesota and Vermont, USA, on Early Development and Metamorphosis of Xenopus|Environ. Toxicol. Chem.18(10): 2305-2315|1999|10.1002/etc.5620181027
20418|A||Mahanty,H.K.|Kanamycin-Resistant Scenedesmus obliquus Showing Simultaneous Resistance to Other Antibiotics and Polychlorinated Biphenyls|Nature277:562-563|1979|10.1038/277562a0
20419|A||Geraldine,P., P.S. Bhavan, J. Kaliamurthy, and Z. Zayapragassarazan|Effects of Dichlorvos intoxication in the Freshwater Prawn, Macrobrachium malcolmsonii|J. Environ. Biol.20(2): 141-148|1999|
20420|A||Muniyam,M., and K. Veeraraghavan|Acute Toxicity of Ethofenprox to the Freshwater Fish, Oreochromis mossambicus (Peters)|J. Environ. Biol.20(2): 153-155|1999|
20421|AT||Tejada,A.W., C.M. Bajet, M.G. Magbauna, N.B. Gambalan, L.C. Araez, and E.D. Magallona|Toxicity of Pesticides to Target and Non-Target Fauna of the Lowland Rice Ecosystem|In: B.Widianarko, K.Vink, and N.M.Van Straalen (Eds.), Environmental Toxicology in South East Asia, VU University Press, Amsterdam:89-103|1994|
20423|A||Frazier,J.M.|The Dynamics of Metals in the American Oyster, Crassostrea virginica.  II.  Environmental Effects|Chesapeake Sci.17(3): 188-197|1976|10.2307/1351197
20424|A||Marshall,A.T., and V. Talbot|Accumulation of Cadmium and Lead in the Gills of Mytilus edulis: X-Ray Microanalysis and Chemical Analysis|Chem.-Biol. Interact.27(1): 111-123|1979|10.1016/0009-2797(79)90154-6
20426|A||Roy,I., and L. Hare|Relative Importance of Water and Food as Cadmium Sources to the Predatory Insect Sialis velata (Megaloptera)|Can. J. Fish. Aquat. Sci.56(4): 1143-1149|1999|10.1139/f99-036
20427|A||Allin,C.J., and R.W. Wilson|Behavioural and Metabolic Effects of Chronic Exposure to Sublethal Aluminum in Acidic Soft Water in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.56(4): 670-678|1999|10.1139/f99-002
20428|A||Fernandez-Leborans,G., and Y.O. Herrero|Toxicity and Bioaccumulation of Cadmium in Marine Protozoa Communities|Ecotoxicol. Environ. Saf.43(3): 292-300|1999|10.1006/eesa.1999.1793
20429|A||Mallakin,A., B.J. McConkey, G. Miao, B. McKibben, V. Snieckus, D.G. Dixon, and B.M. Greenberg|Impact of Structural Photomodification on the Toxicity of Environmental Contaminants: Anthracene Photooxidation Products|Ecotoxicol. Environ. Saf.43(2): 204-212|1999|10.1006/eesa.1999.1764
20430|A||Poleksic,V., and V. Karan|Effects of Trifluralin on Carp: Biochemical and Histological Evaluation|Ecotoxicol. Environ. Saf.43(2): 213-221|1999|10.1006/eesa.1999.1790
20433|A||Rach,J.J., T.M. Schreier, G.E. Howe, and S.D. Redman|Effect of Species, Life Stage, and Water Temperature on the Toxicity of Hydrogen Peroxide to Fish|Prog. Fish-Cult.59(1): 41-46|1997|10.1577/1548-8640(1997)059<0041:EOSLSA>2.3.CO;2
20434|A||Burridge,L.E., K. Haya, V. Zitko, and S. Waddy|The Lethality of Salmosan (Azamethiphos) to American Lobster (Homarus americanus) Larvae, Postlarvae, and Adults|Ecotoxicol. Environ. Saf.43(2): 165-169|1999|10.1006/eesa.1999.1771
20435|A||Gillespie,W.B.J., W.B. Hawkins, J.H.,Jr. Rodgers, M.L. Cano, and P.B. Dorn|Transfers and Transformations of Zinc in Flow-Through Wetland Microcosms|Ecotoxicol. Environ. Saf.43(2): 126-132|1999|10.1006/eesa.1999.1762
20436|A||Thawornwong,N., and A. Van Diest|Influences of High Acidity and Aluminum on the Growth of Lowland Rice|Plant Soil41(1): 141-159|1974|10.1007/BF00017951
20438|A||Turner,M.A., and J.W.M. Rudd|The English-Wabigoon River System III. Selenium in Lake Enclosures:  Its Geochemistry, Bioaccumulation, and Ability to Reduce Mercury Bioaccumulation|Can. J. Fish. Aquat. Sci.40(12): 2228-2240|1983|10.1139/f83-259
20439|A||Moraitou-Apostolopoulou,M., G. Verriopoulos, and I. Rogdakis|Evaluation of the Stress Exerted by a Polluted Environment to a Marine Organism by Comparative Toxicity Tests|Bull. Environ. Contam. Toxicol.28(5): 416-423|1982|10.1007/BF01607704
20440|A||Ivorra,N., J. Hettelaar, G.M.J. Tubbing, M.H.S. Kraak, S. Sabater, and W. Admiraal|Translocation of Microbenthic Algal Assemblages Used for In Situ Analysis of Metal Pollution in Rivers|Arch. Environ. Contam. Toxicol.37(1): 19-28|1999|10.1007/s002449900485
20442|A||Anadu,D.I., G.I. Scott, and M.H. Fulton|Toxicity of DDT to the Different Life Stages of the Mummichog Fundulus heteroclitus (Wabum)|Bull. Environ. Contam. Toxicol.63(2): 181-187|1999|10.1007/s001289900964
20443|A||Saha,N.C., F. Bhunia, and A. Kaviraj|Toxicity of Phenol to Fish and Aquatic Ecosystems|Bull. Environ. Contam. Toxicol.63(2): 195-202|1999|10.1007/s001289900966
20444|A||Behra,R., G.P. Genoni, and A.L. Joseph|Effect of Atrazine on Growth, Photosynthesis, and Between-Strain Variability in Scenedesmus subspicatus (Chlorophyceae)|Arch. Environ. Contam. Toxicol.37(1): 36-41|1999|10.1007/s002449900487
20445|A||Ristola,T., J.V.K. Kukkonen, and J. Pellinen|Body Residues and Responses of the Midge Chironomus riparius to Sediment-Associated 2,4,5-Trichlorophenol in Subchronic and Chronic Exposures|Arch. Environ. Contam. Toxicol.37(1): 42-49|1999|10.1007/s002449900488
20446|A||Cheek,A.O., C.F. Ide, J.E. Bollinger, C.V. Rider, and J.A. McLachlan|Alteration of Leopard Frog (Rana pipiens) Metamorphosis by the Herbicide Acetochlor|Arch. Environ. Contam. Toxicol.37(1): 70-77|1999|10.1007/s002449900491
20447|A||Burkhardt-Holm,P., Y. Oulmi, A. Schroeder, V. Storch, and T. Braunbeck|Toxicity of 4-Chloroaniline in Early Life Stages of Zebrafish (Danio rerio): II. Cytopathology and Regeneration of Liver and Gills After Prolonged Exposure to Waterborne 4-Chloroaniline|Arch. Environ. Contam. Toxicol.37(1): 85-102|1999|10.1007/s002449900493
20448|A||Groenendijk,D., B. Van Opzeeland, L.M. Dionisio Pires, and J.F. Postma|Fluctuating Life-History Parameters Indicating Temporal Variability in Metal Adaptation in Riverine Chironomids|Arch. Environ. Contam. Toxicol.37(2): 175-181|1999|10.1007/s002449900503
20449|A||Zimmermann,S., B. Sures, and H. Taraschewski|Experimental Studies on Lead Accumulation in the Eel-Specific Endoparasites Anguillicola crassus (Nematoda) and Paratenuisentis ambiguus (Acanthocephala) as Compared with Their Host,  Anguilla anguilla|Arch. Environ. Contam. Toxicol.37(2): 190-195|1999|10.1007/s002449900505
20450|A||Lappivaara,J., A. Kiviniemi, and A. Oikari|Bioaccumulation and Subchronic Physiological Effects of Waterborne Iron Overload on Whitefish Exposed in Humic and Nonhumic Water|Arch. Environ. Contam. Toxicol.37(2): 196-204|1999|10.1007/s002449900506
20451|A||Moreau,C.J., P.L. Klerks, and C.N. Haas|Interaction Between Phenanthrene and Zinc in Their Toxicity to the Sheepshead Minnow (Cyprinodon variegatus)|Arch. Environ. Contam. Toxicol.37(2): 251-257|1999|10.1007/s002449900512
20452|A||Manning,C.S., T.F. Lytle, W.W. Walker, and J.S. Lytle|Life-Cycle Toxicity of Bis(Tributyltin) Oxide to the Sheepshead Minnow (Cyprinodon variegatus)|Arch. Environ. Contam. Toxicol.37(2): 258-266|1999|10.1007/s002449900513
20453|A||Fisher,S.W., H. Hwang, M. Atanasoff, and P.F. Landrum|Lethal Body Residues for Pentachlorophenol in Zebra Mussels (Dreissena polymorpha) Under Varying Conditions of Temperature and pH|Ecotoxicol. Environ. Saf.43(3): 274-283|1999|10.1006/eesa.1999.1789
20454|A||Leung,K.M.Y., and R.W. Furness|Induction of Metallothionein in Dogwhelk Nucella lapillus During and After Exposure to Cadmium|Ecotoxicol. Environ. Saf.43(2): 156-164|1999|10.1006/eesa.1999.1769
20456|A||LeBlanc,G.A.|Comparative Structure-Toxicity Relationships Between Acute and Chronic Effects to Aquatic Organisms|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:235-260|1984|
20457|A||Bobra,A.M., W.Y. Shiu, and D. Mackay|Structure-Activity Relationships for Toxicity of Hydrocarbons, Chlorinated Hydrocarbons and Oils to Daphnia magna|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:3-16|1984|
20458|T||Wahlberg,J.E.|Percutaneous Toxicity of Metal Compounds.  A Comparative Investigation in Guinea Pigs|Arch. Environ. Health11:201-204|1965|10.1080/00039896.1965.10664198
20459|T||Hesse,P.R.|Phosphorus Relationships in a Mangrove-Swamp Mud with Particular Reference to Aluminium Toxicity|Plant Soil19(2): 205-218|1963|10.1007/BF01350246
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20464|A||Harris,R.P., V. Berdugo, E.D.S. Corner, C.C. Kilvington, and S.C.M. O'Hara|Factors Affecting the Retention of a Petroleum Hydrocarbon by Marine Planktonic Copepods|In: D.A.Wolfe (Ed.), Proceedings of a Symposium on Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms, Seattle, WA:286-304|1977|
20466|A||Dembele,K., E. Haubruge, and C. Gaspar|Recovery of Acetylcholinesterase Activity in the Common Carp (Cyprinus carpio L.) After Inhibition by Organophosphate and Carbamate Compounds|Bull. Environ. Contam. Toxicol.62(6): 731-742|1999|10.1007/s001289900934
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20468|A||Elumalai,M., and M.P. Balasubramanian|Influence of Naphthalene on Esterase Activity During Vitellogenesis of Marine Edible Crab, Scylla serrata|Bull. Environ. Contam. Toxicol.62(6): 743-748|1999|10.1007/s001289900935
20469|A||Larrain,A., A. Riveros, J. Silva, and E. Bay-Schmith|Toxicity of Metals and Pesticides Using the Sperm Cell Bioassay with the Sea Urchin Arbacia spatuligera|Bull. Environ. Contam. Toxicol.62(6): 749-757|1999|10.1007/s001289900936
20470|A||Wu,S.M., C.F. Weng, M.J. Yu, C.C. Lin, S.T. Chen, J.C. Hwang, and P.P. Hwang|Cadmium-Inducible Metallothionein in Tilapia (Oreochromis mossambicus)|Bull. Environ. Contam. Toxicol.62(6): 758-768|1999|10.1007/s001289900937
20471|A||Gama Flores,J.L., S.S.S. Sarma, and M.A. Fernandez Araiza|Combined Effects of Chlorella Density and Methyl Parathion Concentration on the Population Growth of Brachionus calyciflorus (Rotifera)|Bull. Environ. Contam. Toxicol.62(6): 769-775|1999|10.1007/s001289900938
20472|A||Moreno Garrido,I., L.M. Lubian, and A.M.V.M. Soares|Oxygen Production Rate as a Test for Determining Toxicity of Copper to Rhodomonas salina Hill and Wehterbee (Cryptophyceae)|Bull. Environ. Contam. Toxicol.62(6): 776-782|1999|10.1007/s001289900939
20473|A||Balasubramanian,P., T.S. Saravanan, and M.K. Palaniappan|Biochemical and Histopathological Changes in Certain Tissues of Oreochromis mossambicus (Trewaves) Under Ambient Urea Stress|Bull. Environ. Contam. Toxicol.63(1): 117-124|1999|10.1007/s001289900956
20474|A||Eisenhauer,J.B., K.B. Sullivan, and M.J. Lydy|Response of Genotypes of Hyalella azteca to Zinc Toxicity|Bull. Environ. Contam. Toxicol.63(1): 125-132|1999|10.1007/s001289900957
20475|A||Cano,E., A. Jimenez, J.A. Cabral, and M.E. Ocete|"Acute Toxicity of Malathion and the New Surfactant ""Genapol OXD 080"" on Species of Rice Basins"|Bull. Environ. Contam. Toxicol.63(1): 133-138|1999|10.1007/s001289900958
20476|A||Villarroel,M.J., E. Sancho, M.D. Ferrando, and E. Andreu-Moliner|Effect of an Acaricide on the Reproduction and Survival of Daphnia magna|Bull. Environ. Contam. Toxicol.63(2): 167-173|1999|10.1007/s001289900962
20477|A||Davies,N.A., P.A. Edwards, M.A.M. Lawrence, K. Simkiss, and M.G. Taylor|Biocide Testing Using Particles with Controlled Surface Properties (Artificial Sediments)|Environ. Toxicol. Chem.18(10): 2337-2342|1999|10.1002/etc.5620181030
20478|A||Stronkhorst,J., B. Van Hattum, and T. Bowmer|Bioaccumulation and Toxicity of Tributyltin to a Burrowing Heart Urchin and an Amphipod in Spiked, Silty Marine Sediments|Environ. Toxicol. Chem.18(10): 2343-2351|1999|10.1002/etc.5620181031
20479|A||Pastershank,G.M., D.C.G. Muir, and W.L. Fairchild|Accumulation and Depuration of 2,3,7,8-Tetrachlorodibenzofuran and Octachlorodibenzo-p-Dioxin by Caddisfly Larvae (Hydropsyche bidens (Ross)) in Miniature Laboratory Streams|Environ. Toxicol. Chem.18(10): 2352-2360|1999|
20480|A||Carlson,D.B., and D.E. Williams|Sex-Specific Vitellogenin Production in Immature Rainbow Trout|Environ. Toxicol. Chem.18(10): 2361-2363|1999|10.1002/etc.5620181033
20481|A||Millard,E.S., E. Halfon, C.K. Minns, and C.C. Charlton|Effect of Primary Productivity and Vertical Mixing on PCB Dynamics in Planktonic Model Ecosystems|Environ. Toxicol. Chem.12(5): 931-946|1993|10.1002/etc.5620120518
20482|A||Sallenave,R.M., K.E. Day, and D.P. Kreutzweiser|The Role of Grazers and Shredders in the Retention and Downstream Transport of a PCB in Lotic Environments|Environ. Toxicol. Chem.13(11): 1843-1847|1994|10.1002/etc.5620131116
20483|A||Van Ginneken,L., M.J. Chowdhury, and R. Blust|Bioavailability of Cadmium and Zinc to the Common Carp, Cyprinus carpio, in Complexing Environments: A Test for the Validity of the Free Ion Activity|Environ. Toxicol. Chem.18(10): 2295-2304|1999|10.1897/1551-5028(1999)018<2295:BOCAZT>2.3.CO;2
20484|A||Rice,T.M., B.J. Blackstone, W.L. Nixdorf, and D.H. Taylor|Exposure to Lead Induces Hypoxia-Like Responses in Bullfrog Larvae (Rana catesbeiana)|Environ. Toxicol. Chem.18(10): 2283-2288|1999|
20485|A||Atienzar,F.A., M. Conradi, A.J. Evenden, A.N. Jha, and M.H. Depledge|Qualitative Assessment of Genotoxicity Using Random Amplified Polymorphic DNA:  Comparison of Genomic Template Stability with Key Fitness Parameters in Daphnia magna Exposed to Benzo(a)pyrene|Environ. Toxicol. Chem.18(10): 2275-2282|1999|10.1002/etc.5620181023
20486|A||Fragoso,N.M., P.V. Hodson, I.S. Kozin, R.S. Brown, and J.L. Parrott|Kinetics of Mixed Function Oxygenase Induction and Retene Excretion in Retene-Exposed Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.18(10): 2268-2274|1999|
20487|A||Shedd,T.R., M.W. Widder, M.W. Toussaint, M.C. Sunkel, and E. Hull|Evaluation of the Annual Killifish Nothobranchius guentheri as a Tool for Rapid Acute Toxicity Screening|Environ. Toxicol. Chem.18(10): 2258-2261|1999|10.1002/etc.5620181020
20488|A||Schuytema,G.S., and A.V. Nebeker|Comparative Toxicity of Ammonium and Nitrate Compounds to Pacific Treefrog and African Clawed Frog Tadpoles|Environ. Toxicol. Chem.18(10): 2251-2257|1999|10.1002/etc.5620181019
20489|A||Radix,P., M. Leonard, C. Papantoniou, G. Roman, E. Saouter, S. Gallotti-Schmitt, H. Thiebaud, and P. Vasseur|Comparison of Brachionus calyciflorus 2-D and Microtox Chronic 22-H Tests with Daphnia magna 21-D Test for the Chronic Toxicity Assessment of Chemicals|Environ. Toxicol. Chem.18(10): 2178-2185|1999|
20490|A||Whitton,B.A., and F.H.A. Shehata|Influence of Cobalt, Nickel, Copper and Cadmium on the Blue-Green Alga Anacystis nidulans|Environ. Pollut. A.27(4): 275-281|1982|10.1016/0143-1471(82)90155-6
20491|A||Chrost,L., and L. Pinko|The Effect of Calcium on the Toxicity of Zinc and Lead Compounds in the Water Medium|In: D.Drablos and A.Tollan (Eds.), Ecological Impact of Acid Precipitation, SNSF Project, Oslo, Norway:294-295|1980|
20492|A||Muniz,I.P., and H. Leivestad|Toxic Effects of Aluminium on the Brown Trout, Salmo trutta L.|In: D.Drablos and A.Tollan (Eds.), Ecological Impact of Acid Precipitation, SNSF Project, Oslo, Norway:320-321|1980|
20493|A||Kindig,A.C., L.L. Conquest, and F.B. Taub|Differential Sensitivity of New Versus Mature Synthetic Microcosms to Streptomycin Sulfate Treatment|ASTM Spec. Tech. Publ.:192-203|1983|
20495|A||Raddum,G.G., P. Brettum, D. Matzow, J.P. Nilssen, A. Skov, T. Svealv, and R.F. Wright|Liming the Acid Lake Hovvatn, Norway: A Whole-Ecosystem Study|Water Air Soil Pollut.31(3-4): 721-763|1986|10.1007/BF00284222
20496|A||Liu,D.H.W., H.C. Bailey, and J.G. Pearson|Toxicity of a Complex Munitions Wastewater to Aquatic Organisms|ASTM Spec. Tech. Publ.:135-150|1983|
20498|A||Cameron,J.N., and N. Heisler|Studies of Ammonia in the Rainbow Trout: Physico-Chemical Parameters, Acid-Base Behaviour and Respiratory Clearance|J. Exp. Biol.105:107-125|1983|10.1242/jeb.105.1.107
20499|A||Karez,C.S., V.F. Magalhaes, W.C. Pfeiffer, and G.M. Amado Filho|Trace Metal Accumulation by Algae in Sepetiba Bay, Brazil|Environ. Pollut.83(3): 351-356|1994|10.1016/0269-7491(94)90157-0
20501|A||Pridmore,R.D., S.F. Thrush, V.J. Cummings, and J.E. Hewitt|Effect of the Organochlorine Pesticide Technical Chlordane on Intertidal Macrofauna|Mar. Pollut. Bull.24(2): 98-102|1992|10.1016/0025-326X(92)90737-Q
20502|A||Glynn,P.W., L.S. Howard, E. Corcoran, and A.D. Freay|The Occurence and Toxicity of Herbicides in Reef Building Corals|Mar. Pollut. Bull.15(10): 370-374|1984|10.1016/0025-326X(84)90170-X
20503|A||George,J.D.|Sub-lethal Effects on Living Organisms|Mar. Pollut. Bull.1:107-109|1970|10.1016/0025-326X(70)90218-3
20504|AT||Pillard,D.A., and D.L. DuFresne|Toxicity of Formulated Glycol Deicers and Ethylene and Propylene Glycol to Lactuca sativa, Lolium perenne, Selenastrum capricornutum, and Lemna minor|Arch. Environ. Contam. Toxicol.37(1): 29-35|1999|10.1007/s002449900486
20505|A||Brooke,L.T.|Nonylphenol Toxicity:  Accumulation and Lethality for Two Freshwater Fishes (Fathead Minnow and Bluegill) to Nonylphenol|Rep.to the U.S.EPA for Work Assignment No.1-12 of U.S.EPA Contract No.68-C1-0034, Lake Superior Res.Inst., September 30, Univ.of Wisconsin-Superior, Superior, WI:50 p.|1993|
20506|A||Brooke,L.T.|Acute and Chronic Toxicity of Nonylphenol to Ten Species of Aquatic Organisms|Contract No.68-C1-0034, U.S.EPA, Duluth, MN:36 p.|1993|
20507|A||Foster,E.P., and L.R. Curtis|2,2',4,4',5,5'- and 3,3',4,4',5,5'- Hexachlorobiphenyl Pretreatments Alter the Biliary Excretion of a Challenge Dose of 7,12-[3H]Dimethylbenz(a)anthracene in Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.56(4): 642-649|1999|10.1139/f99-065
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20509|A||Lee,J.G.|Cadmium:  A Toxin and a Nutrient for Marine Phytoplankton|Ph.D.Thesis, Massachusetts Institute of Technology, Cambridge, MA:142 p.|1995|
20510|A||Bantle,J.A.|Further Development and Validation of the Frog Embryo Teratogenesis Assay-Xenopus (Fetax)|Phase I Prog.Rep., U.S.Army Med.Res.and Dev.Command, Nov.23, 1992, Ft.Detrick, Frederick, MD:113 p.|1992|
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20612|A||Singh,A., and V.K. Srivastava|Toxic Effect of Synthetic Pyrethroid Permethrin on the Enzyme System of the Freshwater Fish Channa striatus|Chemosphere39(11): 1951-1956|1999|10.1016/S0045-6535(99)00078-8
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20614|A||Franchet,C.|Mercury Chloride Induces Changes in the Mg2+ -Stimulated Membrane Currents in Oocytes of the Prawn Palaemon serratus|Aquat. Toxicol.47:1-8|1999|10.1016/S0166-445X(99)00017-X
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20616|A||Nystrom,B., B. Bjornsater, and H. Blanck|Effects of Sulfonylurea Herbicides on Non-Target Aquatic Micro-Organisms:  Growth Inhibition of Micro-Algae and Short-Term Inhibition of Adenine and Thymidine Incorporation in Periphyton Communities|Aquat. Toxicol.47:9-22|1999|10.1016/S0166-445X(99)00007-7
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20622|A||Gregory,M.A., R.C. George, D.J. Marshall, A. Anandraj, and T.P. McClurg|The Effects of Mercury Exposure on the Surface Morphology of Gill Filaments in Perna perna (Mollusca: Bivalvia)|Mar. Pollut. Bull.39(1-12): 116-121|1999|10.1016/S0025-326X(99)00119-8
20623|A||Warnau,M., S.W. Fowler, and J.L. Teyssie|Biokinetics of Radiocobalt in the Asteroid Asterias rubens (Echinodermata): Sea Water and Food Exposures|Mar. Pollut. Bull.39(1-12): 159-164|1999|10.1016/S0025-326X(98)00179-9
20624|A||Wo,K.T., P.K.S. Lam, and R.S.S. Wu|A Comparison of Growth Biomarkers for Assessing Sublethal Effects of Cadmium on a Marine Gastropod, Nassarius festivus|Mar. Pollut. Bull.39(1-12): 165-173|1999|10.1016/S0025-326X(98)00209-4
20625|A||Fisher,W.S., L.M. Oliver, W.W. Walker, C.S. Manning, and T.F. Lytle|Decreased Resistance of Eastern Oysters (Crassostrea virginica) to a Protozoan Pathogen (Perkinsus marinus) After Sublethal Exposure to Tributyltin|Mar. Environ. Res.47(2): 185-201|1999|10.1016/S0141-1136(98)00114-7
20626|A||Engel,D.W.|Accumulation and Cytosolic Partitioning of Metals in the American Oyster Crassostrea virginica|Mar. Environ. Res.47:89-102|1999|10.1016/S0141-1136(97)00100-1
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20630|A||Wong,P.P.K., L.M. Chu, and C.K. Wong|Study of Toxicity and Bioaccumulation of Copper in the Silver Sea Bream Sparus sarba|Environ. Int.25(4): 417-422|1999|10.1016/S0160-4120(99)00008-2
20631|A||Hutchinson,T.H., N.A. Pounds, M. Hampel, and T.D. Williams|Impact of Natural and Synthetic Steroids on the Survival, Development and Reproduction of Marine Copepods (Tisbe battagliai)|Sci. Total Environ.233:167-179|1999|10.1016/S0048-9697(99)00223-5
20632|A||Brown,R.J., M. Conradi, and M.H. Depledge|Long-Term Exposure to 4-Nonylphenol Affects Sexual Differentiation and Growth of the Amphipod Corophium volutator (Pallas, 1766)|Sci. Total Environ.233(1-3): 77-88|1999|10.1016/S0048-9697(99)00181-3
20634|A||Pedersen,S.N., L.B. Christiansen, K.L. Pedersen, B. Korsgaard, and P. Bjerregaard|In Vivo Estrogenic Activity of Branched and Linear Alkylphenols in Rainbow Trout (Oncorhynchus mykiss)|Sci. Total Environ.233:89-96|1999|10.1016/S0048-9697(99)00182-5
20635|A||Bieberstein,U., T. Berbner, M. Islinger, and T. Braunbeck|Immunohistochemical Localization of Vitellogenin in Rainbow Trout (Oncorhynchus mykiss) Hepatocytes Using Immunofluorescence|Sci. Total Environ.233(1-3): 67-75|1999|10.1016/S0048-9697(99)00180-1
20636|A||Bechmann,R.K.|Effect of the Endocrine Disrupter Nonylphenol on the Marine Copepod Tisbe battagliai|Sci. Total Environ.233(1-3): 33-46|1999|10.1016/S0048-9697(99)00177-1
20637|A||Nicolau,A., M. Mota, and N. Lima|Physiological Responses of Tetrahymena pyriformis to Copper, Zinc, Cycloheximide and Triton X-100|FEMS (Fed. Eur. Microbiol. Soc. ) Microbiol. Ecol.30:209-216|1999|10.1111/j.1574-6941.1999.tb00649.x
20638|A||Patyna,P.J., R.A. Davi, T.F. Parkerton, R.P. Brown, and K.R. Cooper|A Proposed Multigeneration Protocol for Japanese Medaka (Oryzias latipes) to Evaluate Effects of Endocrine Disruptors|Sci. Total Environ.233(1-3): 211-220|1999|10.1016/S0048-9697(99)00227-2
20639|A||Pauli,B.D., D.R. Coulson, and M. Berrill|Sensitivity of Amphibian Embryos and Tadpoles to Mimic 240 LV Insecticide Following Single or Double Exposures|Environ. Toxicol. Chem.18(11): 2538-2544|1999|10.1002/etc.5620181122
20640|A||Levine,S.L., J.T. Oris, and M.S. Denison|Modulation of CYP1A Expression in Rainbow Trout by a Technical Grade Formulations of Propiconazole|Environ. Toxicol. Chem.18(11): 2565-2573|1999|10.1002/etc.5620181125
20641|A||Willis,K.J.|Acute and Chronic Bioassays with New Zealand Freshwater Copepods Using Pentachlorophenol|Environ. Toxicol. Chem.18(11): 2580-2586|1999|10.1002/etc.5620181127
20642|A||Gray,M.A., K.L. Teather, and C.D. Metcalfe|Reproductive Success and Behavior of Japanese Medaka (Oryzias latipes) Exposed to 4-Tert-Octylphenol|Environ. Toxicol. Chem.18(11): 2587-2594|1999|
20644|A||Rosenshield,M.L., M.B. Jofre, and W.H. Karasov|Effects of Polychlorinated Biphenyl 126 on Green Frog (Rana clamitans) and Leopard Frog (Rana pipiens) Hatching Success, Development, and Metamorphosis|Environ. Toxicol. Chem.18(11): 2478-2486|1999|
20645|A||Sherratt,T.N., G. Roberts, P. Williams, M. Whitfield, J. Biggs, N. Shillabeer, and S.J. Maund|A Life-History Approach to Predicting the Recovery of Aquatic Invertebrate Populations After Exposure to Xenobiotic Chemicals|Environ. Toxicol. Chem.18(11): 2512-2518|1999|
20646|A||Chen,C.M., and K.R. Coopoer|Developmental Toxicity and EROD Induction in the Japanese Medaka (Oryzias latipes) Treated with Dioxin Congeners|Bull. Environ. Contam. Toxicol.63(4): 423-429|1999|10.1007/s001289900997
20647|A||Fahraeus-Van Ree,G.E., and J.F. Payne|Enzyme Cytochemical Resonses of Mussels (Mytilus edulis) to Resin Acid Constituents of Pulp Mill Effluents|Bull. Environ. Contam. Toxicol.63(4): 430-437|1999|10.1007/s001289900998
20648|A||Kargin,F., and H.Y. Cogun|Metal Interactions During Accumulation and Elimination of Zinc and Cadmium in Tissues of the Freshwater Fish Tilapia nilotica|Bull. Environ. Contam. Toxicol.63(4): 511-519|1999|10.1007/s001289901010
20649|A||Inda,J., and G.M. Cuturrufo|Valve Closure by Juvenile Scallops as a Protective Mechanism in Response to Elevated Levels of Environmental Copper|Bull. Environ. Contam. Toxicol.63(4): 520-523|1999|10.1007/s001289901011
20650|A||Borgmann,U., and W.P. Norwood|Assessing the Toxicity of Lead in Sediments to Hyalella azteca: The Significance of Bioaccumulation and Dissolved Metal|Can. J. Fish. Aquat. Sci.56(8): 1494-1503|1999|
20651|A||Kim,S.D., H. Ma, H.E. Allen, and D.K. Cha|Influence of Dissolved Organic Matter on the Toxicity of Copper to Ceriodaphnia dubia:  Effect of Complexation Kinetics|Environ. Toxicol. Chem.18(11): 2433-2437|1999|10.1002/etc.5620181108
20652|A||Axelman,J., K. Naes, C. Naf, and D. Broman|Accumulation of Polycyclic Aromatic Hydrocarbons in Semipermeable Membrane Devices and Caged Mussels (Mytilus edulis L.) in Relation to Water Column Phase Distribution|Environ. Toxicol. Chem.18(11): 2454-2461|1999|10.1002/etc.5620181111
20653|A||Andres,S., M. Baudrimont, Y. Lapaquellerie, F. Ribeyre, N. Maillet, C. Latouche, and A. Boudou|Field Transplantation of the Freshwater Bivalve Corbicula fluminea Along a Polymetallic Contamination Gradient (River Lot, France):  I.  Geochemical Characteristics of the Sampling Sites and Cadmium and Zinc Bioaccumula|Environ. Toxicol. Chem.18(11): 2462-2471|1999|
20654|A||Santhakumar,M., M. Balaji, and K. Ramudu|Effect of Sublethal Concentrations of Monocrotophos on Erythropoietic Activity and Certain Hematological Parameters of Fish Anabas testudineus (Bloch)|Bull. Environ. Contam. Toxicol.63(3): 379-384|1999|10.1007/s001289900991
20655|A||Fisher,S.J., G.F. Galinat, and M.L. Brown|Acute Toxicity of Carbofuran to Adult and Juvenile Flathead Chubs|Bull. Environ. Contam. Toxicol.63(3): 385-391|1999|10.1007/s001289900992
20656|A||Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares|Growth Differences in Cultured Populations of Brachionus plicatilis Muller Caused by Heavy Metal Stress as Function of Microalgal Diet|Bull. Environ. Contam. Toxicol.63(3): 392-398|1999|10.1007/s001289900993
20657|A||Lizotte,R.E.,Jr., D.C.L. Wong, P.B. Dorn, and J.H.,Jr. Rodgers|Effects of a Homologous Series of Linear Alcohol Ethoxylate Surfactants on Fathead Minnow Early Life Stages|Arch. Environ. Contam. Toxicol.37(4): 536-541|1999|10.1007/s002449900549
20658|A||Lydy,M.J., J.B. Belden, and M.A. Ternes|Effects of Temperature on the Toxicity of M-Parathion, Chlorpyrifos, and Pentachlorobenzene to Chironomus tentans|Arch. Environ. Contam. Toxicol.37(4): 542-547|1999|10.1007/s002449900550
20659|A||Baker,J.P.|Aluminum Toxicity to Fish as Related to Acid Precipitation and Adirondack Surface Water Quality|Ph.D.Thesis, Cornell University, Ithaca, NY:441 p.|1981|
20660|A||Alexander,D.G.|Mercury Effects on Swimming and Metabolism of Trout|In: Proceedings of the International Conference on Transport of Persistent Chemicals in Aquatic Ecosystems, Ottawa, Canada:111.65 - 111.69|1974|
20663|A||Devare,M., and M. Bhadir|Ecotoxicological Assessment of Inorganic Waste Disposal in Salt Mines. Part II: Phytotoxicity Tests|Fresenius Environ. Bull.3:119-126|1994|
20664|T||Singh,G., T.S. Kathpal, K.S. Kushwaha, and G.S. Yadav|Persistence of Aldrin in Flooded Soil Under the Cover of Rice|Ecotoxicol. Environ. Saf.9(3): 294-299|1985|10.1016/0147-6513(85)90047-8
20665|AT||Elcombe,C.R., R.B. Franklin, and J.J. Lech|Induction of Microsomal Hemoprotein(s) P-450 in the Rat and Rainbow Trout by Polyhalogenated Biphenyls|Ann. N. Y. Acad. Sci.320:193-203|1979|
20667|A||Baer,K.N., M.C. Ziegenfuss, S.D. Banks, and Z. Ling|Suitability of High-Hardness COMBO Medium Ecotoxicity Testing Using Algae, Daphnids and Fish|Bull. Environ. Contam. Toxicol.63(3): 289-296|1999|10.1007/s001289900979
20668|A||Oluah,N.S.|Plasma Aspartate Aminotransferase Activity in the Catfish Clarias albopunctatus Exposed to Sublethal Zinc and Mercury|Bull. Environ. Contam. Toxicol.63(3): 343-349|1999|10.1007/s001289900986
20670|A||Kreutzweiser,D.P., S.S. Capell, and T.A. Scarr|Acute Lethal and Sublethal Effects of a Neem-Based Insecticide on Nontarget Aquatic Insects in Stream Channels|Bull. Environ. Contam. Toxicol.63(3): 365-371|1999|10.1007/s001289900989
20671|A||Tao,S., T. Liang, J. Cao, R.W. Dawson, and C. Liu|Synergistic Effect of Copper and Lead Uptake by Fish|Ecotoxicol. Environ. Saf.44:190-195|1999|10.1006/eesa.1999.1822
20672|A||Warne,M.S.J., and A.D. Schifko|Toxicity of Laundry Detergent Components to a Freshwater Cladoceran and Their Contribution to Detergent Toxicity|Ecotoxicol. Environ. Saf.44(2): 196-206|1999|10.1006/eesa.1999.1824
20673|A||Hammouda,O.|Response of the Paddy Field Cyanobacterium Anabaena doliolum to Carbofuran|Ecotoxicol. Environ. Saf.44(2): 215-219|1999|10.1006/eesa.1999.1823
20675|A||Binder,R.L., and J.J. Stegeman|Induction of Aryl Hydrocarbon Hydroxylase Activity in Embryos of an Estuarine Fish|Biochem. Pharmacol.29:949-951|1980|10.1016/0006-2952(80)90226-9
20676|A||Epler,P., T. Mejza, K. Bieniarz, and M. Sokolowska-Mikolajczyk|The Effect of 17alpha Hydroxy 20beta Dihydroprogesterone (17alpha 20beta P) on Carp and Tench Oocyte Maturation In Vitro and In Vivo|Pol. Arch. Hydrobiol.40(2): 197-207|1993|
20677|A||Drewa,G., T. Dabrowska, Z. Zbytniewski, and F. Patuch|"Effect of Crude Oil and Detergent ""Solo"" on the Activity of Some Hydrolases in Hemolymph of Crab Rhithropanopeus Harrisi"|Pol. Arch. Hydrobiol.26(1/2): 205-211|1979|
20678|A||Tonegawa,Y., E. Hojiro, and K. Takahashi|Effect of pH on the Participation of Calcium Ion in the Cell Aggregation of Sea Urchin Embryos|Zool. Sci.7:229-234|1990|
20680|A||Hassall,K.A.|Uptake of Copper and Its Physiological Effects on Chlorella vulgaris|Physiol. Plant. (Multiple Languages)16:323-332|1963|10.1111/j.1399-3054.1963.tb08313.x
20682|A||Hendrick,R.D., F.L. Bonner, T.R. Everett, and J.E. Fahey|Residues Studies on Aldrin and Dieldrin in Soil, Water, and Crawfish from Fice Fields Having Insecticide Contamination|J. Econ. Entomol.59(6): 1388-1391|1966|10.1093/jee/59.6.1388
20683|T||Falih,A.M.|Infuence of Heavy-Metals Toxicity on the Growth of Phanerochaete chrysosporium|Bioresour. Technol.60:87-90|1997|10.1016/S0960-8524(96)00177-0
20687|A||De Filippis,L.F., and C.K. Pallaghy|The Effect of Sub-Lethal Concentrations of Mercury and Zinc on Chlorella. I. Growth Characteristics and Uptake of Metals|Z. Pflanzenphysiol. (Multiple Languages)78:197-207|1976|10.1016/S0044-328X(73)80002-9
20688|A||Thurston,R.V., R.J. Luedtke, and R.C. Russo|Toxicity of Ammonia to Freshwater Insects of Three Families|Tech.Rep.No.84-2, Fish.Bioassay Lab., Montana State Univ., Bozeman, MT84(2): 26 p.|1984|
20689|A||Ben-Bassat,D., and A.M. Mayer|Volatilization of Mercury by Algae|Physiol. Plant. (Multiple Languages)33:128-132|1975|10.1111/j.1399-3054.1975.tb03779.x
20690|A||Skipnes,O., T. Roald, and A. Haug|Uptake of Zinc and Strontium by Brown Algae|Physiol. Plant. (Multiple Languages)34:314-320|1975|10.1111/j.1399-3054.1975.tb03845.x
20691|A||Ben-Bassat,D., and A.M. Mayer|Reduction of Mercury Cloride by Chlorella: Evidence for Reducing Factor|Physiol. Plant. (Multiple Languages)40:157-162|1977|10.1111/j.1399-3054.1977.tb04049.x
20693|A||Larsson,C.M., and J.E. Tillberg|Effects of the Commercial Polychlorinated Biphenyl Mixture Aroclor 1242 on Growth, Viability, Phosphate Uptake, Respiration and Oxygen Evolution in Scenedesmus|Physiol. Plant. (Multiple Languages)33:256-260|1975|10.1111/j.1399-3054.1975.tb03165.x
20694|A||Korstrom,J.S., R. Fink, S. Spohn, and I.K. Birtwell|Sublethal Toxicological Stress in Adult Sockeye Salmon (Oncorhynchus nerka) Exposed to a Combination of Resin Acid and Salt Water Hypoxia|Can. Data Rep. Fish. Aquat. Sci.985:83 p.|1996|
20695|A||Clements,W.H.|Bioaccumulation and Food Chain Transfer of Polycyclic Aromatic Hydrocarbons and Heavy Metals:  A Laboratory and Field Investigation|U.S.Dep.of Commerce, Colorado State University, Ft.Collins, CO:38 p.|1992|
20696|A||Hassanein,H.M.A., M.A. Banhawy, F.M. Soliman, S.A. Abdel-Rehim, W.E.G. Mueller, and H.C. Schroder|Induction of Hsp70 by the Herbicide Oxyfluorfen (Goal) in the Egyptian Nile Fish, Oreochromis niloticus|Arch. Environ. Contam. Toxicol.37(1): 78-84|1999|10.1007/s002449900492
20697|A||Chipman,W.A., T.R. Rice, and T.J. Price|Uptake and Accumulation of Radioactive Zinc by Marine Plankton, Fish, and Shellfish|Fish.Bull.135, U.S.Government Printing Office, Washington, D.C.:279-292|1958|
20698|A||Christoffersen,K.|Effect of Microcystin on Growth of Single Species and on Mixed Natural Populations of Heterotrophic Nanoflagellates|Nat.Toxins4:215-220|1996|10.1002/(SICI)(1996)4:5<215::AID-NT3>3.0.CO;2-S
20699|A||Khoury,G.A., A.A. Abdelghani, A.C. Anderson, and A. Monkiedje|Acute Toxicity of Ethylene Glycol to Crayfish, Bluegill Sunfish and Soil Micro-Organisms|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:371-378|1990|
20700|A||Sarkar,D., D. Das, and S. Bhattacharya|Role of Exogenous Reduced Glutathione on Time Dependent 203Hg Distribution in Liver and Kidney of a Freshwater Teleost, Anabas testudineus|Biomed. Environ. Sci.10(1): 60-64|1997|
20701|A||Philip,G.H., and J. Anuradha|Role of Phosphatases During Transport and Energy Metabolism in Labeo Rohita After Exposure to Cypermethrin|Biomed. Environ. Sci.9(1): 52-59|1996|
20702|A||Mallick,N., Shardendu, and L.C. Rai|Removal of Heavy Metals by Two Free Floating Aquatic Macrophytes|Biomed. Environ. Sci.9(4): 399-407|1996|
20703|A||Hopfer,S.M., M.C. Plowman, K.R. Sweeney, J.A. Bantle, and F.W.Jr. Sunderman|Teratogenicity of Ni2+ in Xenopus laevis, Assayed by the FETAX Procedure|Biol. Trace Elem. Res.29:203-216|1991|10.1007/BF03032678
20704|A||Absil,M.C.P., L.J.A. Gerringa, and B.T. Wolterbeek|The Relation Between Salinity and Copper Complexing Capacity of Natural Estuarine Waters and the Uptake of Dissolved 64Cu by Macoma balthica|Chem. Spec. Bioavail.5(4): 119-128|1993|10.1080/09542299.1993.11083212
20706|A||Soria-Dengg,S., and D. Ochavillo|Comparative Toxicities of Trace Metals on Embryos of the Giant Clam, Tridacna derasa|Asian Mar. Biol.7:161-166|1990|
20708|A||Baldridge,D.H.J.|Kinetics of Onset of Responses by Sharks to Waterborne Drugs|Bull. Mar. Sci.19:880-896|1969|
20709|A||Takeuchi,T.|Effects of Boric Acid on the Development of the Eggs of the Toad, Bufo vulgaris formosus|Sci. Rep.Tohoku Univ. Fourth Ser.(Biol.)24:33-43|1958|
20710|A||Emery,R.M., and E.B. Welch|The Toxicity of Alkaline Solutions of Ammonia to Juvenile Bluegill Sunfish (Lepomis macrochirus Raf.)|Tennessee Valley Authority, Div.of Health and Safety, Chattanooga, TN:31 p.|1969|
20711|A||Bonham,K., and L. Gedamu|Induction of Metallothionein and Methallothionein mRNA in Rainbow-Trout Liver Following Cadmium Treatment|Biosci. Rep.4:633-642|1984|10.1007/BF01121016
20713|A||Hauptman,O., D.M. Albert, M.C. Plowman, S.M. Hopfer, and F.W. Sunderman|Ocular Malformations of Xenopus laevis Exposed to Nickel During Embryogenesis|Ann. Clin. Lab. Sci.23(6): 397-406|1993|
20714|A||Rao,V.N.R., and S. Govindarajan|Transfer of Copper and Zinc Through a Marine Food Chain|Acta Bot. Indica20:71-75|1992|
20715|A||Mukhopadhyay,M.K., B.B. Ghosh, and M.M. Bacchi|Toxicity of Heavy Metals to Fish, Prawn and Fish Food Organisms of Hooghly Estuarine System|Geobios21(1): 13-17|1994|
20716|A||Vijayaraman,K., and P. Geraldine|Toxicity Cadmium, Copper, Chromium and Zinc to Macrobrachium rude|Geobios19(2-3): 77-80|1992|
20718|A||Mahanty,H.K., and J.A. McWha|Sensitivity of Spirodela oligorrhiza (Kurz) Hegelm. to a Polychlorinated Biphenyl (Aroclor 1242)|N. Z. J. Bot.14(1): 9-12|1976|10.1080/0028825X.1976.10428646
20719|A||Sedlacek,J., T. Kallqvist, and E. Gjessing|The Effect of Aquatic Humus on Uptake and Toxicity of Cadmium to Selenastrum capricornutum Printz|In: R.F.Christman and E.T.Gjessing (Eds.), Aquatic and Terrestrial Humic Materials, Chapter 26, Ann Arbor Sci.Publ., Ann Arbor, MI:495-516|1983|
20720|A||Goettl,J.P.,Jr., and P.H. Davies|Water Pollution Studies|Job Prog.Rep., Fed.Aid Proj.F-33-R-10, Jan 1-Dec 31, 1974, Colorado:29 p.|1975|
20721|A||Taub,F.B., A.C. Kindig, J.P. Meador, and G.L. Swartzman|"Effects of ""Seasonal Succession"" and Grazing on Copper Toxicity in Aquatic Microcosms"|Verh. Int. Ver. Theor. Angew. Limnol.24:2205-2214|1991|
20722|A||Hervey,R.J.|Effect of Chromium on the Growth of Unicellular Chlorophyceae and Diatoms|Bot. Gaz.3(1): 1-11|1949|10.1086/335567
20723|A||Tryland,O., and M. Grande|Removal of Cyanide from Scrubber Effluents and Its Effect on Toxicity to Fish|Vatten39:168-174|1983|
20724|A||Pandey,A.K.|Branchial and Renal Lesions in the Estuarine Mullet, Liza parsia, Exposed to Sublethal Concentration of Mercury|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.64(3): 283-287|1994|
20726|A||Wood,C.M., S. Munger, F. Galvez, and C. Hogstrand|The Physiology of Silver Toxicity in Freshwater Fish|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:109-114|1994|
20727|A||Stubblefield,W.A., B.L. Steadman, T.W. La Point, and H.L. Bergman|Acclimation-Induced Changes in the Toxicity of Zinc and Cadmium to Rainbow Trout|Environ. Toxicol. Chem.18(12): 2875-2881|1999|
20728|A||Fowler,S.W., and G. Benayoun|Selenium Kinetics in Marine Zooplankton|Mar. Sci. Commun.2(1): 43-67|1976|
20731|A||Das,B.K., and A. Kaviraj|Individual and Interactive Lethal Toxicity of Cadmium, Potassium Permanganate and Cobalt Chloride to Fish, Worm and Plankton|Geobios21(4): 223-227|1994|
20732|A||Linder,G., J. Wyant, R. Meganck, and B. Williams|Evaluating Amphibian Responses in Wetlands Impacted by Mining Activities in the Western United States|In: 5th Biennial Symp.on Issues and Technology in the Management of Impacted Wildlife, Thorne Ecological Inst., Boulder, CO:17-25|1991|
20733|A||Moy,F.E., and M. Walday|Accumulation and Depuration of Organic Micro-Pollutatants in Marine Hard Bottom Organisms|Mar. Pollut. Bull.33(1-6): 56-63|1996|10.1016/S0025-326X(96)00157-9
25000|T||Stirrett,G.M., and R.W. Thompson|Spraying for the Control of the European Corn Borer in Sweet Corn|Annual Report of the Entomological Society of Ontario71:9-15|1940|
25001|T||Harcourt,D.G., and L.M. Cass|Toxicities of Various Insecticides to Cucumber|Can. J. Agric. Sci.35:19-26|1955|
25003|T||Aryeetey,A.N.|Chemical Weed Control in Rice in Ghana|Ghana J. Agric. Sci.6:199-204|1973|
25004|T||Austin,R.B., and P.C. Longden|The Yield and Quality of Red Beet Seed as Affected by Desiccant Sprays and Harvest Date|Weed Res. (Multiple Languages)8:336-345|1968|10.1111/j.1365-3180.1968.tb01438.x
25005|T||Holroyd,J., and A.G. Strickland|Roguing Wild Oats|Weed Res. (Multiple Languages)18(3): 175-180|1978|10.1111/j.1365-3180.1978.tb01155.x
25006|T||Burgis,D.S.|Phytotoxicity to Purple Nutsedge (Cyperus rotundus L.) and Soil Persistence of Six Forms of 2,4-Dichlorophenoxyacetic Acid Herbicide|Proc. South. Weed Sci. Soc.220:328-331|1969|
25007|T||Watschke,T.L.|Growth Regulation of Kentucky Bluegrasses with Commercial and Experimental Growth Regulators|In: Proceedings of the International Turfgrass Research Conference, held in Virginia, Sports Turf Research Institute, West Yorkshire, UK60:474-479|1974|
25008|T||Long,J.A., W.W. Allen, and E.C. Holt|Control of Nutsedge in Bermudagrass Turf|Weeds (Urbana)10:285-287|1962|10.2307/4040829
25009|T||Bingham,S.W., and C.G. McWhorter|Preliminary Evaluation of Several Materials as Pre-Planting Herbicides for Cotton, Corn, and Soybeans|Proc. South. Weed Conf.12:45-49|1959|
25010|T||Malone,C.R.|Effects of Diazinon Contamination on an Old-Field Ecosystem|Am. Midl. Nat.82(1): 1-27|1969|10.2307/2423815
25011|T||Allott,D.J.|Sugar Beet Herbicide Trials in Northern Ireland 1964/66|Minist. Agric. N. Ire. Rec.16(2): 103-107|1968|
25012|T||Sullivan,E.F., R.R. Wood, R.L. Abrams, and S.G. Walter|Preplant Weed Control on Sugar Beets|J. Am. Soc. Sugar Beet Technol.13(5): 389-396|1965|10.5274/jsbr.13.5.389
25013|T||Singh,D.J.C., V.L. Hall, and K.N. Rao|Weed Control in Maize by Herbicides|Andhra Agric. J.18(3): 91-94|1971|
25014|T||Dest,W.M., R.A. Peters, and A.C. Triolo|Annual Weed Control in Field Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:31-40|1973|
25015|T||McIntyre,G.|Weed Control 1 .  Evaluation of New Herbicides|Maurit. Sugar Ind. Res. Inst. Annu. Rep.18:117-119|1970|
25016|T||Studt,D.M., and V.M. Jennings|Corn Herbicide Evaluations Across Iowa in 1975|Proc. Northeast. Weed Control Conf.30:146-150|1975|
25017|T||Douglas,G.|The Influence of Size of Spray Droplets on the Herbicidal Activity of Diquat and Paraquat|Weed Res. (Multiple Languages)8:205-212|1968|10.1111/j.1365-3180.1968.tb01423.x
25018|T||Roberts,L., and D.C. Harris|Use of Terbacil, Atrazine and Other Herbicides in Bush Rose Production|Proc. Br. Weed Control Conf.11:632-634|1972|
25019|T||Seim,A.L., and V.M. Jennings|Soybean Herbicide Evaluations Across Iowa in 1975|Proc. Northeast. Weed Control Conf.30:54-58|1975|
25020|T||Jooste,J.W., and J.J. Van Biljon|Metolachlor + Atrazine a Combination Pre-Emergence Herbicide for Broad Spectrum Weed Control in Maize|Crop Prod.5:85-90|1976|
25021|T||Andrews,O.N.,Jr., F.D. Timmons, W.L. Currey, and G.A. Buchanan|An Evaluation of Alachlor Plus Dinoseb Applied Postemergence in Peanuts|Proc. South. Weed Sci. Soc.26:106-118|1973|
25022|T||Fink,R.J.|Phytotoxicity of Herbicide Residues in Soils|Agron. J.64:804-805|1972|10.2134/agronj1972.00021962006400060030x
25023|T||Shumaker,J.R.|Chemical Weed Control in North Florida Cabbage|Proc. Annu. Meet. Fla. State Hortic. Soc.87:170-174|1974|
25024|T||Hield,H.|Foam Sprays of Alar Increase Growth Retarding Effects on Oleander|Calif. Agric.26(11): 6-7|1972|
25025|T||Yeager,J.T., L.B. Fitch, G.S. Sibbett, R.H. Tyler, E.J. Roncoroni, and D.E. Ramos|Prune Maturity Advancement with Growth Regulators|Calif. Agric.27(12): 13-|1972|
25026|T||Allen,J.M.|Weeds in Grain-Lupins. 2. The Response of Narrow-Leafed Lupins to Pre-Emergence Herbicides|Aust. J. Exp. Agric.17:118-125|1977|10.1071/EA9770118
25027|T||Parochetti,J.V.|Control of Jimsonweed and Three Broadleaved Weeds in Soybeans with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:19-25|1975|
25028|T||Neel,P.L.|Weed Control in Containers with Herbicide-Impregnated Mulch Materials|Proc. Annu. Meet. Fla. State Hortic. Soc.85:409-413|1973|
25029|T||Gerdts,M., and G. Obenauf|Effects of Preharvest Applications of Ethephon on Maturation and Quality of Calmyrna Figs|Calif. Agric.26(5): 8-9|1972|
25030|T||Kempen,H.M., J.H. Miller, and L.M. Carter|Preemergence Herbicides Incorporated in Moist Soils for Control of Annual Grass in Irrigated Cotton|Weeds (Urbana)11:300-307|1963|10.2307/4040538
25031|T||Lyons,J.M., and F.L. Whiting|Incorporated Preemergence Granular Herbicides on Vegetable Crops|Weeds (Urbana)13:242-245|1965|10.2307/4041037
25032|T||Machold,O.|Lamellar Proteins of Green and Chlorotic Chloroplasts as Affected by Iron Deficiency and Antibiotics|Biochim. Biophys. Acta238:324-331|1971|10.1016/0005-2787(71)90099-2
25033|T||Chang,F.Y., G.R. Stephenson, and J.D. Bandeen|Effects of N,N-Diallyl-2,2-Dichloroacetamide on Ethyl N,N-Di-n-Propylthiocarbamate Uptake and Metabolism by Corn Seedlings|J. Agric. Food Chem.22(2): 245-248|1974|10.1021/jf60192a022
25034|T||Jones,J.P., and F.C. Collins|Control of Loose Smut of Wheat with Carboxin and Benomyl|Plant Dis. Rep.55(12): 1053-1055|1971|
25035|T||Cheng,H.M., M. Eto, S. Kuwatsuka, and Y. Oshima|Studies on the Phenylphenol Derivatives with Biological Activity, Part II. The Herbicidal Activity of Chloro-Substituted Phenylphenols|Agric. Biol. Chem.32:353-358|1968|10.1271/bbb1961.32.353
25036|T||Fischer,B., B. Hoyle, and D. May|Broccoli Weed Control Studies|Calif. Agric.25(8): 14-15|1971|
25037|T||Pashkar,S.I.|The Role of Growth-Stimulators and -Inhibitors in the Heterosis of Maize-M|Wiss. Z. Univ. Rostock, Math. -Naturwiss. Reihe16(4-5): 683-|1967|
25038|T||Burns,R.M., S.B. Boswell, and H.Z. Hield|Chemical Inhibition of Top Regrowth on Lemon Trees with KMH, Alar, and NIA 1063 Sprays|Calif. Agric.24(5): 8-10|1970|
25040|T||Crane,J.C., N. Marei, and M.M. Nelson|Ethrel Speeds Growth and Maturity of Figs|Calif. Agric.24(3): 8-10|1970|
25041|T||Reeves,T.G., and J.M. Lumb|Selective Chemical Control of Capeweed in Wheat and Oats|Aust. J. Exp. Agric. Anim. Husb.12:60-64|1972|10.1071/EA9720060
25042|T||De France,J.A., R.S. Bell, and T.E. Odland|Killing Weed Seeds in the Grass Seedbed by the Use of Fertilizers and Chemicals|Agron. J.39:530-535|1947|10.2134/agronj1947.00021962003900060007x
25043|T||Maddan,W.L., and E.M. Christie|Weed Control at Monymusk|JAST J.33:76-82|1972|
25044|T||Madison,H., J.M. Johnson, W.B. Davis, and R.M. Sachs|Some Compounds for Chemical Mowing of Turfgrass|Calif. Agric.23(7): 9-10|1969|
25046|T||Iwahori,S., and J.M. Lyons|Accelerating Tomato Fruit Maturity with Ethrel|Calif. Agric.23(6): 17-18|1969|
25047|T||Hield,H.Z., L.N. Lewis, and R.L. Palmer|Orange Fruit-Stem Separation: Chemical Influences|Calif. Agric.23(5): 12-13|1969|
25048|T||Sims,W.L., and M. Aledbill|Ethrel Effects on Sex Expression, and Growth Development in Pickling Cucumbers|Calif. Agric.23(1): 4-6|1969|
25049|T||McCully,W.G., W.J. Bowmer, and A.F. Wiese|Control of Grasses and Weeds Growing in Asphalt Pavements|PANS (Pest Artic. News Summ.)16(3, Sect.C): 497-504|1970|
25050|T||Barbora,B.C.|Chemical Control of Weeds in Drains, Drain Sides and Other Non-Tea Pockets|Two Bud19(1): 25-28|1972|
25051|T||Easwaran,K.S.S.|Eradication of Weeds by Bladex G.|Agric. Res.3:96-97|1971|
25052|T||Morrow,L.A., and M.K. McCarty|Control of Green Sagewort in the Nebraska Sandhills|Weed Sci.23(6): 465-469|1975|10.1017/S0043174500065036
25053|T||Misra,L.P., L.D. Kapoor, and R.S. Choudhri|Effect of Herbicides on the Chlorophyll Content of Nutgrass (Cyperus rotundus L.)|Riv. Agron. (Non-English)8(3): 302-303|1974|
25054|T||McCurdy,E.V., and E.S. Molberg|Effects of the Continuous Use of 2,4-D and MCPA on Spring Wheat Production and Weed Populations|Can. J. Plant Sci.54:241-245|1974|10.4141/cjps74-038
25055|T||McKinlay,K.S., S.A. Brandt, P. Morse, and R. Ashford|Droplet Size and Phytotoxicity of Herbicides|Weed Sci.20:450-452|1972|10.1017/S0043174500036110
25056|T||Pieniazhek,J., and L.S. Jankiewicz|Initiation of Canbial Activity During Dormancy Due to Naphthaleneacetic Acid, 6-Benzylaminopurine and Gibberellin in the Apple Shoot|Wiss. Z. Univ. Rostock, Math. -Naturwiss. Reihe4/5:651-652|1967|
25059|T||Chambers,E.E., G. Kornis, E. Nidy, and H.J. Vostral|Alkylated Pyrazoles, a New Class of Herbicides|In: A.S.Tahori (Ed.), Pesticide Chemistry, 2nd International Congress on Pesticide Chemistry, Gordon and Breach Publishing, London, UK:209-230|1971|
25060|T||Ahrens,J.F., O.A. Leonard, and N.R. Townley|Chemical Control of Tree Roots in Sewer Lines|J. Water Pollut. Control Fed.42(9): 1643-1655|1970|
25063|AT||Patro,G.K., and G.C. Tosh|Studies on Control of Water Hyacinth (Eichhornia crassipes) by Herbicides|Andhra Agric. J.18:139-143|1971|
25065|T||Synerholm,M.E., and P.W. Zimmerman|A Note on the Preparation of 2-Chloro-3,5-Diiodobenzoic Acid and 2-Chloro-3,5-Dibromobenzoic Acid and Their Effects on Tomato Plants|Contrib. Boyce Thompson Inst.14:39-42|1945|
25066|T||Kasasian,L.|The Chemical Control of Borreria verticillata|Weeds (Urbana)12:146-|1964|10.2307/4040618
25067|T||Narayanan,T.R., and D. Meenakshisundaram|Studies on the Relative Efficacies of a Few Chemical Herbicides in the Control of Spergula arvensis L. and Oxalis latifolia H.B. & K., Two Important Weeds of the Nilgiris|Madras Agric. J.45:1-6|1958|10.29321/MAJ.10.A04096
25068|T||Gianfagna,A.J.|Gladiolus Weed Control|N. Y. State Flower Growers Bull.43:2-3|1949|
25069|T||Forbes,J.C.|Spraying and Cutting Experiments on Ragwort (Senecio jacobaea L. and S. aquaticus Hill)|Proc. Br. Weed Control Conf.12:743-750|1974|
25070|T||Hurle,K.|Effect of Long-Term Weed Control Measures on Viable Weed Seeds in the Soil|Proc. Br. Weed Control Conf.12:1145-1152|1974|
25071|T||Weaver,R.J., and R.M. Pool|Morphactins Induced Berry Abscission in Grapes|Calif. Agric.22(9): 10-11|1968|
25072|T||Hartmann,H.T., A.J. Heslop, and J. Whisler|Chemical Induction of Fruit Abscission in Olives|Calif. Agric.22(7): 14-16|1968|
25073|T||Black,C.C., and E.G. Rodgers|Response of Pensacola Bahiagrass to Herbicides|Weeds (Urbana)8:72-77|1960|
25074|T||Jones,R.J., and A.S. Aliyu|The Effect of Eleusine indica, Herbicides and Activated Charcoal on the Seedling Growth of Leucaena leucocephala cv. Peru|Trop. Grassl.10(3): 195-203|1976|
25075|T||Kausar,A.G., and A. Ghaffer|Trials of Selective Herbicides for Weed Control in Wheat|Pak. J. Bot.7(2): 149-159|1975|
25076|T||Hull,H.M., and H.L. Morton|Morphological Response of Two Mesquite Varieties to 2,4,5-T and Picloram|Weed Sci.19(6): 712-716|1971|10.1017/S0043174500051122
25077|T||McNeely,G.H., E.C. Hoffman, D.E. Bayer, and C.L. Foy|Control of Dodder in Alfalfa with DCPA|Calif. Agric.20(3): 14-15|1966|
25078|T||Fischer,B.B.|Effects of Post-Emergence Applications. Trifluralin for Selective Weed Control in Cotton|Calif. Agric.20(3): 10-11|1966|
25079|T||Lyndsay,R.V., and G.S. Hartley|Studies of the Response of Plants to Root-Applied Herbicides I. The Effect of Localized Application (Variation Horizontal)|Weed Res. (Multiple Languages)3:195-204|1963|10.1111/j.1365-3180.1963.tb00236.x
25080|T||Blackman,G.E.|A Comparison of Certain Plant-Growth Substances with Other Selective Herbicides|Nature155:500-501|1945|10.1038/155500a0
25081|T||Halsey,D.D., and T.M. Little|Gibberellin Timing Important for Table Grapes|Calif. Agric.20(3): 6-7|1966|
25082|T||Thimann,K.V., and W.D. Bonner|Experiments on the Growth and Inhibition of Isolated Plant Parts.  II.  The Action of Several Enzyme Inhibitors on the Growth of the Avena Coleoptile and on Pisum Internodes|Am. J. Bot.36:214-221|1949|10.1002/j.1537-2197.1949.tb05250.x
25083|T||Defrance,J.A.|Water-Soluble Mercurials for Crabgrass Control in Turf|Greenkeeper15:30-31|1947|
25084|T||Ryker,T.C.|Preliminary Tests with Ammonium Trichloroacetate as a Herbicide|Sugar J.10(11): 16-18|1948|
25085|T||Gad,A.M., M.A.M. El Mahdi, and M.S. El Hakeem|Bermudagrass Control in Clover Plantings with the Local Herbicide M-15|J. Dent. Res. Inst.21:427-497|1971|
25086|T||Gad,A.M., and M.A.M. El Mahdi|Effect of the Local Herbicide M-15 in Controlling Bermuda Grass and Certain Annual Weeds in Cotton Plantings|J. Dent. Res. Inst.21:499-510|1971|
25087|T||Gad,A.M., and M.A.M. El-Mahdi|Effectiveness of the Local Herbicide M-15 and Its Residues on Darnel and Some Vegetable and Field Crops|J. Dent. Res. Inst.22(2): 407-417|1972|
25088|T||Pruett,L.J., and W.G. McCully|Presurface Applications of Herbicides for Highways|Down Earth17:11-12|1961|
25089|T||Youngner,V.B.|Kikuyugrass, Pennisetum clandestinum, and Its Control|Calif. Turfgrass Cult.8(1): 1-4|1958|
25092|T||Jones,O.P.|Effect of Benzyl Adenine on Isolated Apple Shoots|Nature215:1514-1515|1967|10.1038/2151514a0
25093|A||Mohan Ram,H.Y., H. Harada, and J.P. Nitsch|Studies on Growth and Flowering in Axenic Cultures of Insectivorous Plants:  III. Effects of Photoperiod, Ethrel, Morphactin and a Few Other Growth Substances and Metabolic Inhibitors on Utricularia inflexa|Z. Pflanzenphysiol. (Multiple Languages)68(3): 235-253|1972|10.1016/S0044-328X(72)80056-4
25094|T||Choudhri,R.S., and B.K. Gaur|Effect of Certain Amino Acids and Growth Regulating Substances on the Survival and Rooting Behaviour of Duranta Plumieri Cuttings|J. Indian Bot. Soc.32:46-53|1953|
25095|AT||Page,O.T.|Effect of Phytotoxins on the Permeability of Cell Membranes|In: R.K.S.Wood and A.Ballio (Eds.), Phytotoxins in Plants Diseases, Proceedings of the NATO Advances Study Institute, Pugnochiuso, Italy:211-225|1972|
25096|T||Delseny,M., M.T. Peralta, and Y. Guitton|Effects of Cordycepin on Rna Metabolism in Germinating Seedlings (Radishes)|Biochem. Biophys. Res. Commun.64(4): 1278-1285|1975|10.1016/0006-291X(75)90831-1
25097|T||Ueckert,D.N., C.J. Scifres, J.L. Mutz, and S.G. Whisenant|Bitterweed Control Research in the Edwards Plateau|Tex. Agric. Exp. Stn. Prog. Rep.3456:36-45|1976|
25098|T||Baines,R.C., L.J. Klotz, and T.A. DeWolfe|Some Biocidal Properties of 1,3-D and Its Degradation Product|Phytopathology67:936-940|1977|10.1094/Phyto-67-936
25099|T||Ueckert,D.N., B.J. Camp, and L.B. Merrill|Hymenoxon Concentration in Bitterweed After Herbicide Application|Texas Agric. Exp. Stn. Prog. Rep.3445-3470:46-48|1977|
25100|T||Duble,R.L., and E.C. Holt|Effect of AMA on Synthesis and Utilization of Food Reserves in Purple Nutsedge|Weed Res. (Multiple Languages)18:174-178|1970|
25103|T||Kopcewicz,J.|Influence of Steroids on the Growth of the Dwarf Pea|Naturwissenschaften56:287-|1969|10.1007/BF00633945
25104|T||Penner,D., and R.W. Early|Action of Trifluralin on Chromatin Activity in Corn and Soybean|Weed Sci.10:364-366|1972|10.1017/S0043174500035876
25105|T||Kennedy,C.D.|The Effect of Applied Suctions and 2,4-Dichlorophenoxyacetic Acid on Water and Salt Efflux from the Cut Ends of Excised Maize Roots|J. Exp. Bot.30(115): 275-289|1979|10.1093/jxb/30.2.275
25106|T||Bhojwani,S.S., and B.M. Johri|Cytokinin-Induced Shoot Bud Differentiation in Mature Endosperm of Scurrula pulverulenta|Z. Pflanzenphysiol. (Multiple Languages)63:269-275|1970|
25107|T||Hearn,C.J., and G.W. Burton|Effects of Two Arsenical Herbicides on Several Southern Grasses|Proc. South. Weed Conf.13:224-227|1960|
25108|T||Gaskin,T.A.|Effect of Pre-Emergence Crabgrass Herbicides on Rhizome Development in Kentucky Bluegrass|Agron. J.56:340-342|1964|10.2134/agronj1964.00021962005600030026x
25109|T||Hogue,C.W.|Response of Cotton and Weeds to Herbicides with Phytobland Oil or Surfactant|Weed Sci.22(2): 97-101|1974|10.1017/S0043174500036651
25110|T||Klosterboer,A.D.|Glyphosate and MSMA for Control of Perennial Weeds in Texas Citrus Orchards|J. Rio Grande Val. Hortic. Soc.27:63-66|1973|
25112|T||Schreiber,K.|Plant Growth Inhibitors of Plant Origin|Pesticides 3:483-485|1974|
25114|T||Sherman,M., and F.F. Sanchez|Further Studies on the Toxicity of Insecticides and Acaricides to the Papaya|Hawaii Agric. Exp. Stn. Tech. Bull.74:5-63|1968|
25115|T||Proctor,J.M., and D.B. Livingston|Chemical Control of Avena fatua in Winter Wheat|Proc. Br. Weed Control Conf.11:288-293|1972|
25116|T||Evans,A.W., and D.S. Muncey|Observations on the Effect of Three Herbicides with Promise in the Control of Graminaceous Weeds on the Seed Production of Ryegrass|Proc. Br. Weed Control Conf.12:723-726|1974|
25117|T||Shildrick,J.P., and T.J. Arthur|Control of Alopecurus myosuroides (Blackgrass) and Poa trivialis (Routh-Stalked Meadow Grass) in Grass Seed Crops by Herbicides|J. Natl. Inst. Agric. Bot.11(2): 361-369|1968|
25118|T||Ricketson,C.L.|Effect on Herbicides on Rooting of Strawberry Runner Plants|Rep. Hortic. Res. Inst. Ontario:10-18|1966|
25119|T||Rea,B.L., R.A. Palmer, and A. De Blanquat|Weed Control in Rapeseed with Benazolin Ester/3,6 Dichloropicolinic Acid Mixtures|Br. Crop Prot. Conf.2:517-624|1976|
25120|T||Johnson,B.J.|Crabgrass Control in Common Bermudagrass Turf from Herbicides Applied the Previous Year|Ga. Agric. Res.17:17-18|1975|
25121|T||Overton,J.R., J.A. Mullins, and L.S. Jeffery|Control of Johnsongrass in Soybeans with Preplant Incorporated Herbicides|Tenn. Farm Home Sci.90:5-7|1974|
25122|T||Engel,R.E., and K.J. McVeigh|Crabgrass and Goosegrass Control with Several Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:103-108|1971|
25124|T||Henne,R.C.|Weed Control in Direct-Seeded and Transplanted Tomatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:203-210|1975|
25125|T||Trujillo,P.M., and J.W. Whitworth|Weed Control in Chile Peppers at the Espanola Valley Branch Station|N.M.Agric.Exp.Stn.Res.Rep.213:1-4|1971|
25126|T||Horowitz,M., and T. Blumenfeld|Behavior and Persistence in Soil of Benefin|Phytoparasitica2(1): 19-24|1974|10.1007/BF02981067
25127|T||Johnson,B.J.|Effect of Herbicide Combinations on Weeds and Soybeans|Weed Sci.19(6): 740-742|1971|10.1017/S0043174500051183
25128|T||Vahidy,A.A.|Differential Tolerance Within Certain Cruciferous Crops to Vegadex, CIPC, Dymid and Treflan|Pak. J. Bot.5(1): 79-85|1973|
25129|T||Lapade,B.E., and B.L. Mercado|Morphological and Physiological Responses of Crops and Weeds to Trifluralin. VI. Free Amino Acid Content of the Rice Seedling|Philipp. Agric.55(5/6): 239-246|1971|
25130|T||Koffmann,W., and J. Kaldor|Chemical Weed Control in Young Peach Trees|Aust. J. Exp. Agric. Anim. Husb.15(75): 566-569|1975|10.1071/EA9750566
25131|T||Johnson,B.J.|Weed Control Systems for Sunflowers|Weed Sci.20(3): 261-264|1972|10.1017/S0043174500035554
25132|T||McWhorter,C.G.|Factors Affecting Johnsongrass Rhizome Production and Germination|Weed Sci.20(1): 41-45|1972|10.1017/S0043174500034901
25133|T||McWhorter,C.G.|Johnsongrass Control in Soybeans with Trifluralin and Nitralin|Weed Sci.22:111-115|1974|10.1017/S0043174500036687
25134|T||Hollist,R.L., and C.L. Foy|Trifluralin Interactions with Soil Constituents|Weed Sci.19:11-16|1971|10.1017/S0043174500048165
25135|T||Henne,R.C.|Chemical Weed Control in Carrots|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:238-243|1977|
25136|T||Burgis,D.S.|Herbicides for the Full Bed Mulch Tomato Culture System - II: In-the-Row|Proc. South. Weed Sci. Soc.26:201-204|1973|
25137|T||Johnson,B.J.|Effects on Nitralin and Chloroxuron Combination on Weeds and Soybeans|Weed Sci.18(5): 616-618|1970|10.1017/S0043174500034342
25138|T||Chappell,W.E.|The Use of Granular Herbicides in Azaleas|Proc. South. Weed Conf.10:105-107|1957|
25139|T||Henderson,I.F., and R.O. Clements|The Effect of Pesticides on the Yield and Botanical Composition of a Newly-Sown Ryegrass Ley and of an Old Mixed Pasture (Insect Control)|J. Br. Grassl. Soc.29:185-190|1974|10.1111/j.1365-2494.1974.tb01249.x
25140|T||Gaur,A.C., and R.P. Pareek|Effect of Dichlorodiphenyltrichloro-Ethane (DDT) on Leghemoglobin Content of Root Nodules of Phaseolus Aureus (Green Gram)|Experientia25(7): 777-|1969|10.1007/BF01897626
25141|T||Lawler,P.D., and L.J. Rogers|Effect of DDT on Photosynthesis in Certain Varieties of Barley|Nature215:1515-1516|1967|10.1038/2151515a0
25142|T||Day,A.D., and R.K. Thompson|Some Effects of Paradichlorobenzene, Naphthalene, DDT and Ceresan on the Germination of Field Crop Seeds|Agron. J.57:321-322|1965|10.2134/agronj1965.00021962005700040002x
25143|T||Lado,P., F.R. Caldogno, A. Pennacchioni, and E. Marre|Mechanism of the Growth-Promoting Action of Fusicoccin. Interaction with Auxin, and Effects of Inhibitors of Respiration and Protein Synthesis|Planta (Multiple Languages)110(4): 311-320|1973|10.1007/BF00387059
25144|A||Cross,C.E.|Control of Cranberry Bog Weeds|Cranberries5:7-8|1941|
25146|T||Balneaves,J.M.|Initial Weed Control in Douglas Fir Nursery Beds at Rangiora|N. Z. J. For.20:153-156|1975|
25148|T||Marre,E., P. Lado, F.R. Caldogno, and R. Colombo|Correlation Between Cell Enlargement in Pea Internode Segments and Decrease in the pH of the Medium of Incubation I. Effects of Fusicoccin, Natural and Synthetic Auxins and Mannitol|Plant Sci. Lett.1:179-184|1973|10.1016/0304-4211(73)90042-4
25149|T||Hoyle,J.C.|The Effect of Herbicides on the Growth of Young Coconut Plants|Trop. Agric.46(2): 137-143|1969|
25150|T||Hamlen,R.A., and R.W. Henley|Phytotoxicity to Tropical Foliage Plants of Repeated Insecticide and Miticide Applications Under Fiberglass-Covered Greenhouse Conditions|Annu. Meet. Fla. State Hortic. Soc.89:336-338|1976|
25151|T||Mead,H., B.L. Ross, and R.J. Finch|Preliminary Investigations on the Control of Wild-Oat (Avena fatua L.), Cultivated Oat (Avena sativa L.) and Blackgrass (Alopecurus myosuroides huds.) in Seed Crops of Various Varieties of Perennial and Italian Ryegrass|Proc. Br. Weed Control Conf.12:707-714|1974|
25152|T||Pine,T.S.|Reactions of Peach Trees and Peach Tree Viruses to Treatment with Dimethyl Sulfoxide and Other Chemicals|Phytopathology57:671-673|1967|
25153|T||Glaze,N.C.|Weed Control in Cucumber and Watermelon|J. Am. Soc. Hortic. Sci.100(3): 207-209|1975|10.21273/JASHS.100.3.207
25154|T||Finlayson,D.G., C.J. Campbell, and H.A. Roberts|Herbicides and Insecticides: Their Compatibility and Effects on Weeds, Insects and Earthworms in the Minicauliflower Crop|Ann. Appl. Biol.79:95-108|1975|10.1111/j.1744-7348.1975.tb01525.x
25155|T||Read,D.C.|Toxicity of Carbamate and Organophosphorus Insecticide Residues Absorbed by Rutabagas Grown in Treated Soil|Can. Entomol.106:1319-1325|1974|10.4039/Ent1061319-12
25156|T||Donaldson,T.W., and C.L. Foy|The Phytotoxicity and Persistence in Soils of Benzoic Acid Herbicides|Weeds (Urbana)13:195-202|1965|10.2307/4041025
25157|T||Nitsch,J.P., and C. Nitsch|Studies on the Growth of Coleoptile and First Internode Sections. A New, Sensitive, Straight-Growth Test for Auxins|Plant Physiol.31:94-111|1956|10.1104/pp.31.2.94
25158|T||Smith,F.G.|Effect of 2,4-Dichlorophenoxyacetic Acid on the Respiratory Metabolism of Bean Stem Tissue|Plant Physiol.23:70-83|1948|10.1104/pp.23.1.70
25159|T||Orsenigo,J.R.|Pre-Emergence Performance of Several Herbicides and Vegetable and Field Crop Response on Organic Soil|Proc. South. Weed Conf.12:59-66|1958|
25161|T||Szabo,J.G.|Results of M&B 14255 Application on Soybeans in Indiana, 1971|Proc. West. Can. Weed Control Conf.26:48-49|1971|
25164|T||Tome,F., and E. Bellini|Phenylalanine Ammonia-Lyase Activity in Excised Radish Cotyledons: Effects of Water Availability, Fusicoccin and Kinetin|Plant Sci. Lett.3:413-418|1974|10.1016/0304-4211(74)90024-8
25165|T||St.John,J.B., and M.N. Christiansen|Inhibition of Linolenic Acid Synthesis and Modification of Chilling Resistance in Cotton Seedlings|Plant Physiol.57:257-259|1976|10.1104/pp.57.2.257
25166|T||Johnson,B.J.|Spotted-Spurge Control in Bermudagrass Golf Greens with Herbicides: A Preliminary Report|Ga. Agric. Res.18:24-25|1976|
25168|T||Huppi,G.A., P.F. Bocion, and W.H. De Silva|A New Quartenary Ammonium Compound with Plant Growth Activity|Experientia32(1): 37-38|1976|10.1007/BF01932610
25171|T||Skroch,W.A., T.J. Sheets, and J.W. Smith|Herbicide Effectiveness, Soil Residues, and Phytotoxicity to Peach Trees|Weed Sci.19:257-260|1971|10.1017/S0043174500048839
25174|T||James,C.S., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXVIII. Halogen-Substituted Benzoic Acids|Ann. Appl. Biol.63:205-210|1969|10.1111/j.1744-7348.1969.tb05482.x
25175|T||Goldwin,G.K., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXXV. Ethylene Production by Coleoptiles Treated with Auxin-Type Chemicals|Ann. Appl. Biol.75:71-81|1973|10.1111/j.1744-7348.1973.tb01339.x
25176|T||Chamberlain,V.K., K. Chamberlain, and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXXIX. The Plant Growth-Retarding Properties of Certain Quaternary Ammonium Halides|Ann. Appl. Biol.82:589-596|1976|10.1111/j.1744-7348.1976.tb00594.x
25177|T||Alonso,C.R., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XLV. Phenoxyacetaldehyde Derivatives|Ann. Appl. Biol.84:409-413|1976|10.1111/j.1744-7348.1976.tb01783.x
25178|T||Beruter,J., and A.T. Temperli|Influence of Prometryne and Ioxynil on Photosynthesis and Nucleic Acid Metabolism in Plants|Experientia26:600-601|1970|10.1007/BF01898709
25179|T||Roberts,H.A., and W. Bond|Experiments with Methazole on Onions and Leeks|Proc. Br. Weed Control Conf.11:185-189|1972|
25180|T||Salam,M.A., and R.K. Downey|Selectivity of Benazolin in Cruciferae|Can. J. Plant Sci.53:891-896|1973|10.4141/cjps73-171
25181|T||Gechev,K.I.|The Combined Action of Certain Mutagenic Substances on the Hereditary Structures of Barley. I. Action of 8-Ethoxycaffeine and 1,4-bis-Diazoacetylbutane|Sov. Genet. Cover-to-Cover Transl. Genetika8(12): 1534-1544|1972|
25182|T||Khan,S.A., R.M. Shafique, and B.A. Khan|Phytotoxicity Caused by Pesticides in Brassica|J. Res. Punjab Agric. Univ.11(1): 55-68|1973|
25183|T||Kadyan,A.S., S.N. Kaushik, and D.S. Gupta|Phytotoxicity of Some Insecticides to Muskmelons|Indian J. Entomol.33(4): 463-465|1972|
25184|T||Maw,G.A.|Crop Protection|Annu. Rep. Glasshouse Crops Res. Inst.4:84-98|1970|
25185|T||Burstrom,H.|Studies on Growth and Metabolism of Roots. IV. Positive and Negative Auxin Effects on Cell Elongation|Physiol. Plant. (Multiple Languages)3:277-292|1950|10.1111/j.1399-3054.1950.tb07508.x
25187|T||Burstrom,H.|Studies on Growth and Metabolism of Roots. V. Cell Elongation and Dry Matter Content|Physiol. Plant. (Multiple Languages)4(1): 199-208|1951|10.1111/j.1399-3054.1951.tb07518.x
25190|T||McWhorter,C.G., and J.M. Anderson|Effectiveness of Metribuzin Applied Preemergence for Economical Control of Common Cocklebur in Soybeans|Weed Sci.24:385-390|1976|10.1017/S0043174500066236
25193|AT||Osborne,D.J., and R.L. Wain|The Effect of Substitution in the Side Chain of Certain Aryloxyacetic Acids on Growth-Regulating Activity|In: Proc. 2nd Int. Congr. of Crop Prot., Jul. 20-Jul. 31, 1949, London:333-338|1951|
25194|T||Zimmerman,P.W., and A.E. Hitchcock|Substituted Phenoxy and Benzoic Acid Growth Substances and the Relation of Structure to Physiological Activity|Contrib. Boyce Thompson Inst.12:321-344|1942|
25195|T||Gunasena,H.P.M., and H.W. Kannangara|Evaluation of Herbicides for Rain-Fed Upland Rice|J. Natl. Sci. Counc. Sri Lanka24(2): 161-164|1974|
25196|T||Kato,J.|Studies on the Relation Between Auxin Activity and Chemical Structure. I. On Phenyl- and Naphthyl-Thioglycolic Acid Derivatives and Related Compounds|Mem. Coll. Sci. Kyoto Imp. Univ. Ser. D21:77-85|1954|
25197|T||Shipman,R.D.|Soil-Applied Herbicides in the Control of Native Broadleaf Weeds and Grasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:331-334|1974|
25198|T||Kruyt,W., and H. Veldstra|Plant-Growth Regulators. XII. Comparative Investigation of a Number of Homologous and Isomeric Synthetic Growth Substances in the Rooting of Cuttings|Proc. K. Ned. Akad. Wet. Ser. C Biol. Med. Sci.50:980-988|1947|
25199|T||Veldstra,H.|Researches on Plant Growth Substances IV. Relation Between Chemical Structure and Physiological Activity I|Enzymologia11:97-136|1944|
25203|T||Muller,P.J., and J. Van der Boon|'Hollow Noses' in Hyacinth, a Disorder Caused by the Herbicide Chlorpropham|Neth. J. Plant Pathol.78:198-203|1972|10.1007/BF01977319
25204|T||Letham,D.S.|Regulators of Cell Division in Plant Tissues: V. A Comparison of the Activities of Zeatin and Other Cytokinins in Five Bioassays|Planta (Multiple Languages)74:228-242|1967|10.1007/BF00384844
25205|T||Letham,D.S.|Regulators of Cell Division in Plant Tissues: XII. A Cytokinin Bioassay Using Excised Radish Cotyledons|Physiol. Plant. (Multiple Languages)25:391-396|1971|10.1111/j.1399-3054.1971.tb01462.x
25206|T||Catizone,P.|Trials on Wild Oat (Avena ludoviciana, Durieu) Control in Winter Wheat Comparing New Herbicides|Proc. Br. Weed Control Conf.12:45-52|1974|
25207|T||Hendrick,L.W., W.F. Meggitt, and D. Penner|Selective Use of Phenmedipham and EP-475 in Michigan for Weed Control in Sugarbeets|J. Am. Soc. Sugar Beet Technol.18(2): 97-107|1974|10.5274/jsbr.18.2.97
25208|T||Retzinger,E.J.,Jr., R.L. Rogers, and R.P. Mowers|Performance of BAS 9052 Applied to Johnsongrass (Sorghum balepense) and Soybeans (Glycine max)|Weed Sci.31:796-800|1983|10.1017/S0043174500070752
25209|T||Overton,J.R., J.A. Mullins, and L.S. Jeffery|Johnsongrass Control in Corn Harvested for Silage|Tenn. Farm Home Sci.94:18-20|1975|
25210|T||Khalifa,M.A., H.D. Whitmuss, and O.D. Burnside|Subsurface Placement Methods for Metribuzin and Trifluralin|Weed Sci.31(6): 840-844|1983|10.1017/S0043174500070843
25211|T||Scragg,E.B., A.D. McKelvie, and D.W. Kilgour|Further Work on the Control of Bracken in the North of Scotland|Proc. Br. Weed Control Conf.12:761-769|1974|
25212|T||Minko,G., and D.W. Flinn|Screening of Weedicides for Use in the Benalla Radiata Pine Nursery|For. Comm. Victoria Bull.29:3-9|1982|
25213|T||Somashekar,R.K., G.H.P. Shetty, and M.T. Govindegowda|Mitodepressive and Clastogenic Effects of Piperidine in Allium cepa|Mutat. Res.118(4): 289-296|1983|10.1016/0165-1218(83)90212-4
25214|T||Zutshi,U., and B.L. Kaul|Studies on the Cytogenetic Activity of Some Common Fungicides in Higher Plants (Barley, Broadbeans, Cytogenetics)|Cytobios12(45): 61-67|1975|
25216|T||Davis,R.G., and J.A. Pinckard|Comparative Systemic Fungicidal Activity and Phytotoxicity of Certain Seed and Soil Fungicides Potentially Useful for Control of Cotton Seedling Diseases|Plant Dis. Rep.55(12): 1111-1115|1971|
25217|T||Butt,D.J., A.H.M. Kirby, and C.J. Williamson|Fungitoxic and Phytotoxic Effects of Fungicides Controlling Powdery Mildew on Apple|Ann. Appl. Biol.75(2): 217-228|1973|10.1111/j.1744-7348.1973.tb07301.x
25218|T||Engelhard,A.W.|Efficacy of Benzimidazole Dips, Drenches and Sprays for the Control of Cylindrocladium on Azalea (Rhododendron, Cylindrocladium scoparium)|Plant Dis. Rep.55(8): 679-682|1971|
25220|T||Hanks,G.R., and R. Menhenett|Responses of Potted Tulips to Novel Growth-Retarding Chemicals and Interactions with Time of Forcing|Sci. Hortic.21(1): 73-84|1983|10.1016/0304-4238(83)90188-7
25221|T||Fell,R.D., E.G. Rajotte, and K.S. Yoder|Effects of Fungicide Sprays During Apple Bloom on Pollen Viability and Honey Bee Foraging|Environ. Entomol.12:1572-1575|1983|10.1093/ee/12.5.1572
25222|T||Schroeder,G.L., D.F. Cole, and A.G. Dexter|Sugar Beet (Beta vulgaris L.) Response to Simulated Herbicide Spray Drift|Weed Sci.31:831-836|1983|10.1017/S004317450007082X
25224|T||Nafziger,E.D., and F.W. Slife|Physiological Response of Common Cocklebur (Xanthium pensylvanicum) to Glyphosate|Weed Sci.31(6): 874-878|1983|10.1017/S0043174500070909
25228|T||Stadtherr,R.J., and R.E. Widmer|Chemical Weed Control in Garden Chrysanthemums|Weeds (Urbana)7:82-87|1959|10.2307/4040259
25229|T||Jaiwal,P.K., and S. Bhambie|Effect of Growth Substances on the Morphology of Cicer arietinum Leaf|Acta Bot. Indica11:1-6|1982|
25231|T||Cole,D.J., and B.C. Loughman|The Metabolic Fate of (4-Chloro-2-Methylphenoxy)Acetic Acid in Higher Plants: II. Metabolism in Liquid Cultured Callus Cells of Wheat (Triticum aestivum L.)|J. Exp. Bot.34(147): 1311-1319|1983|10.1093/jxb/34.10.1311
25232|T||Reeves,T.G., and C.L. Tuohey|The Selective Chemical Control of Wimmera Rye Grass in Wheat with di-Allate and tri-Allate (Lolium rigidum)|Aust. J. Exp. Agric. Anim. Husb.12(54): 55-59|1972|10.1071/EA9720055
25233|T||Molberg,E.S., H.A. Friesen, E.V. McCurdy, and R.D. Dryden|Placement of Di-Allate and Tri-Allate for Control of Wild Oats in Wheat|Can. J. Plant Sci.44:351-358|1964|10.4141/cjps64-068
25235|T||Wilson,M.R., and T.A. Nell|Foliar Applications of BA Increase Branching of 'Welkeri' Dieffenbachia|Hortscience18(4): 447-448|1983|10.21273/HORTSCI.18.4.447
25236|T||Williams,E.J., and A.J. Lewis|Influence of Ancymidol and Light Intensity on Growth and Flowering of Easter Lily|Can. J. Plant Sci.63:955-958|1983|10.4141/cjps83-120
25237|T||Casida,J.E., E.C. Kimmel, M. Lay, H. Ohkawa, J.E. Rodebush, R.A. Gray, C.K. Tseng, and H. Tilles|Thiocarbamate Sulfoxide Herbicides|Pesticides 3:675-679|1974|
25238|T||Hawton,D.C., and I.D.G. Johnson|Chemical Control of Weeds in Temperate Winter Dairy Pastures on the Atherton Tableland (Northern Queensland, Australia)|Trop. Grassl.17(3): 128-131|1983|
25240|T||Duncan,K.W., and C.J. Scifres|Influence of Clay and Organic Matter of Rangeland Soils on Tebuthiuron Effectiveness|J. Range Manag.36(3): 295-297|1983|10.2307/3898472
25243|T||Chakraverty,R.K.|Mode of Action of Hadacidin in Plants|Acta Bot. Indica11:53-56|1982|
25244|T||Schweizer,E.E.|Control of Kochia in Sugarbeets with 3'-Hydroxypropionanilide Isopropylcarbamate|Weed Sci.21(2): 110-114|1973|10.1017/S0043174500031854
25245|T||Pchajek,D.A., I.N. Morrison, and G.R.B. Webster|Comparison of the Efficacy and Soil Concentrations of Fall-Applied and Spring-Applied Trifluralin in Flax|Can. J. Plant Sci.63:1031-1038|1983|10.4141/cjps83-128
25246|T||Blair,A.M., W.G. Richardson, and T.M. West|The Influence of Climatic Factors on Metoxuron Activity on Bromus sterilis L.|Weed Res. (Multiple Languages)23:259-265|1983|10.1111/j.1365-3180.1983.tb00548.x
25247|T||Killilea,D.M.|Chemical Control of Coppicing Shoots of Brachystegia Boehmii, Brachystegia Spiciformis and Julbernardia Globiflora: Soil Application of Bromacil and Tebuthiuro|Zimb. J. Agric. Res.20(2): 165-168|1983|
25248|T||Killilea,D.M., and L. McNeill|Chemical Control of Coppicing Shoots of Brachystegia boehmii Taub., Brachystegia spiciformis Benth., and Julbernardia globiflora (Benth.) Troupin: 5 Foliar Application of Tordon 101 and Tordon 225 to Regrowth of Mattock|Zimb. J. Agric. Res.20(2): 153-164|1983|
25249|T||Escalza,P., F. Cortes, and J.L. Lopez-Campos|Action of Vinclozolin on Cell Division and Its Effectiveness in the Production of Chromosomal Aberrations But Not Sister Chromatid Exchanges|Cytobios38:149-158|1983|
25254|T||Fuehring,H.D., and M.D. Finkner|Effect of Folicote Antitranspirant Application on Field Grain Yield of Moisture-Stressed Corn|Agron. J.75(4): 579-582|1983|10.2134/agronj1983.00021962007500040003x
25255|T||Maluszynski,M.|The High Mutagenic Effectiveness of MNUA in Inducing a Diversity of Dwarf and Semidwarf Forms of Spring Barley|Acta Soc. Bot. Pol.51(3/4): 429-440|1982|
25257|T||Sherman,M.E., L.,Jr. Thompson, and R.E. Wilkinson|Sicklepod (Cassia obtusifolia) Management in Soybeans (Glycine max)|Weed Sci.31:622-627|1983|10.1017/S0043174500070089
25258|T||Oliver,L.R., S.A. Harrison, and M. McClelland|Germination of Texas Gourd (Cucurbita texana) and Its Control in Soybeans (Glycine max)|Weed Sci.31(5): 700-706|1983|10.1017/S0043174500070211
25259|T||Clapp,M.K.K., and H. Seltmann|Anatomy of Axillary Meristems from Tobacco Plants Treated with Maleic Hydrazide|Bot. Gaz.144(1): 86-91|1983|10.1086/337348
25260|T||Hartzler,R.G., and C.L. Foy|Compatibility of BAS 9052 OH with Acifluorfen and Bentazon|Weed Sci.31(5): 597-599|1983|10.1017/S004317450007003X
25261|T||Price,S.C., J.E. Hill, and R.W. Allard|Genetic Variablilty for Herbicide Reaction in Plant Populations|Weed Sci.31:652-657|1983|10.1017/S0043174500070132
25266|T||McMillan,C., and J.M. Cope|Response to Carbon Monoxide by Geographic Variants in Acacia farnesiana|Am. J. Bot.56(6): 600-602|1969|10.1002/j.1537-2197.1969.tb07575.x
25268|T||Mika,A., M.J. Grochowska, A. Karaszewska, and M.W. Williams|Effects of Dormant and Summer Pruning, Disbudding, and Growth Retardants on Growth, Flower Bud Formation, and Fruiting of Young Apple Trees|J. Am. Soc. Hortic. Sci.108(4): 655-660|1983|10.21273/JASHS.108.4.655
25269|T||Knight,J.N.|Translocaton Properties of Carbaryl in Relation to Its Use as an Apple Fruitlet Thinner|J. Hortic. Sci.58(3): 371-379|1983|10.1080/00221589.1983.11515132
25270|T||Jones,K.M., T.B. Koen, and R.J. Meredith|Thinning Golden Delicious Apples Using Ethephon Sprays|J. Hortic. Sci.58:381-388|1983|10.1080/00221589.1983.11515133
25271|T||Nourai,A.H.A., and G.P. Harris|Effects of Growth Retardants on Inflorescence Development in Tomato|Sci. Hortic.20:341-348|1983|10.1016/0304-4238(83)90148-6
25272|T||Kolar,J.S., K.S. Sandhu, and G. Singh|Efficacy of Some Substituted Urea Herbicides for Control of Weeds in Irrigated Chick Pea (Cicer arietinum)|J. Res. Punjab Agric. Univ.20:11-14|1983|
25276|T||Stanis,V.A.|Effect of Growth Regulators on Organogenesis in Perennial Ryegrass Tissue Culture|Sov. Plant Physiol.30:325-329|1983|
25277|T||Dusky,J.A., D.G. Davies, and R.H. Shimabukuro|Metabolism of Diclofop-Methyl in Cell Cultures of Avena sativa Cultivar Garry and Avena fatua|Physiol. Plant. (Multiple Languages)54:490-494|1982|10.1111/j.1399-3054.1982.tb00714.x
25278|T||Mitchell,B.L.|Preliminary Observations on the Effect on Tobacco of Soil Applications of Gammexane|Rhod. Agric. J.43:393-|1946|
25279|T||Wright,D., and P.D. Hebblethwaite|Volunteer Winter Wheat: Its Effects and Control in Ryegrass Seed Production|Weed Res. (Multiple Languages)23:273-281|1983|10.1111/j.1365-3180.1983.tb00550.x
25281|T||Street,J.E., and E.P.,Jr. Richard|Effect of Growth Stage on Rice (Oryza sativa) Tolerance to Acifluorfen|Weed Sci.31:672-673|1983|10.1017/S0043174500070168
25282|T||Reiss,J.|Mycotoxin Poisoning of Allium cepa Root Tips.  II.  Reduction of Mitotic Index and Formation of Chromosomal Aberrations and Cytological Abnormalities by Patulin|Cytologia40:703-708|1975|
25284|T||Hasselo,H.N., and S. Sandanam|Chemical Weed Control in Tea|Tea Q.36(1): 22-32|1965|
25286|T||Glasgow,J.L., J.W. Dicks, and D.R. Hodgson|Competition by, and Chemical Control of, Natural Weed Populations in Spring-Sown Field Beans (Vicia faba)|Ann. Appl. Biol.84(2): 259-269|1976|10.1111/j.1744-7348.1976.tb01755.x
25287|T||Gillespie,G.R., and S.D. Miller|Sunflower (Helianthus annuus) Response to Diclofop|Weed Sci.31:500-503|1983|10.1017/S0043174500069460
25288|T||Telewski,F.W., A.H. Wakefield, and M.J. Jaffe|Computer-Assisted Image Analysis of Tissues of Ethrel-Treated Pinus taeda Seedlings|Plant Physiol.72:177-181|1983|10.1104/pp.72.1.177
25290|T||Van Volkenburgh,E., and W.J. Davies|Inhibition of Light-Stimulated Leaf Expansion by Abscisic Acid|J. Exp. Bot.34(144): 835-845|1983|10.1093/jxb/34.7.835
25291|T||Mathre,D.E.|Effects of Oxathiin Systemic Fungicides on Various Biological Systems|Bull. Environ. Contam. Toxicol.8:311-316|1972|10.1007/BF01684562
25292|T||Logan,I.C.|Difenzoquat for Wild Oat Control in Cereals|Proc. N. Z. Weed Pest Control Conf.28:181-184|1975|10.30843/nzpp.1975.28.9150
25293|T||Iggo,G.A.|Results of Screening Pre-Emergence Herbicides for Sugarcane|Proc. S. Afr. Sugar Technol. Assoc.49:122-125|1975|
25294|T||Niehuss,M.H., and K.J. Roediger|Ammonium Ethyl Carbamoylphosphonate:  A New Plant Growth Regulator for the Control of Undesirable Brush-Wood Species|Proc. Br. Weed Control Conf.12:1015-1022|1974|
25297|T||Irvine,J.E., M. Fitch, and P.H.R. Moore|The Induction of Callus in Sugarcane Tissue Cultures by Selected Chemicals|Plant Cell Tissue Organ Cult.2(2): 141-150|1983|10.1007/BF00043359
25299|T||Blaim,K., and J. Szynal|Influence of (2-Chloroethyl)-Trimethyl-Ammonium Chloride (CCC) on the Content and Distribution of Calcium in Wheat Stalks During Growth|Bull. Acad. Pol. Sci. Ser. Sci. Biol.16(2): 63-65|1968|
25300|T||Miller,J.H., and B. Edwards|Kudzu (Pueraria lobata): Where Did It Come from?  And How Can We Stop It?|South. J. Appl. For.7(3): 165-169|1983|10.1093/sjaf/7.3.165
25301|T||Knypl,J.S., and A. Rennert|Growth Inhibitors and the Indole-3-Acetic Acid Oxidase Contents of Cucumber Hypocotyl Sections|Naturwissenschaften54(20): 544-|1967|10.1007/BF00627230
25303|T||Lee,L.W., K.C. Sanderson, and J.C. Williams|Rooting of Poinsettia Cuttings Treated with Various Fungicides in IBA-Talc Powder|Hortscience18(3): 361-362|1983|10.21273/HORTSCI.18.3.361
25304|T||Church,R.M., and R.R. Williams|The Effects of Pre-Blossom Fungicide Sprays on the Ability of Cox's Orange Pippin Apple Flowers to Produce Fruit|J. Hortic. Sci.58(2): 169-172|1983|10.1080/00221589.1983.11515106
25305|T||El-Agamy,S.Z., and W.B. Sherman|Increases Embryo Viability of Early Ripening Peaches in Response to Daminozide, Maleic Hydrazide, and Thiourea|Hortscience18(3): 307-308|1983|10.21273/HORTSCI.18.3.307
25306|T||Neel,P.L., and J.A. Reinert|Phytotoxicity Evaluations of Ten Insecticides on Twenty-Three Species of Ornamental Plants Under Slat Shed Conditions|Proc. Annu. Meet. Fla. State Hortic. Soc.88:586-590|1976|
25307|T||Singh,U.S., and R.K. Lal|Effect of Growth Regulators on Seed Size, Pulp Weight and Pulp-Seed Ratio in Litchi (Litchi chinensis)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.52:1-7|1982|
25308|T||Snyder,J.C., C. Carter, and D.E. Knavel|Chlorflurenol Interrupts Ovule Development of Muskmelon|Hortscience18(3): 345-347|1983|10.21273/HORTSCI.18.3.345
25309|T||Dean,B.B., and L.R. Baker|Parthenocarpy in Gynoecious Cucumber as Affected by Chlorflurenol, Genetical Parthenocarpy, and Night Temperatures|Hortscience18(3): 349-351|1983|10.21273/HORTSCI.18.3.349
25310|T||Khan,M.A.A., M.A. Rahman, M. Nasiruddin, and M. Tarreq|Sex Expression and Yield Responses to GA3 and TIBA Application in Four Varieties of Water-Melon (Citrullus vulgaris Schred. ex Eckl. & Zeyh.)|Chittagong Univ. Stud. Part II Sci.6(0): 35-40|1982|
25311|T||Beyer,E.M.,Jr.|A Potent Inhibitor of Ethylene Action in Plants|Plant Physiol.58:268-271|1976|10.1104/pp.58.3.268
25312|T||Abeles,F.B., L.E. Forrence, and G.R. Leather|Ethylene Air Pollution. Effects of Ambient Levels of Ethylene on the Glucanase Content of Bean Leaves|Plant Physiol.48(4): 504-505|1971|10.1104/pp.48.4.504
25315|T||Kirino,O., S. Hashimoto, K. Furuzawa, C. Takayama, and H. Ohshio|Quantitative Structure-Acitivity Relationships of the Herbicidal N-Benzylbutanamides Against Cyperus rotundus|J. Pestic. Sci. (Multiple Languages)8:315-319|1983|10.1584/jpestics.8.315
25316|T||Church,R.M., N.G. Morgan, B.K. Cooke, and R.R. Williams|The Effects of Spray Volume on the Toxicity of Captan and Dinocap to Apple Pollen in the Orchard|J. Hortic. Sci.58(2): 165-168|1983|10.1080/00221589.1983.11515105
25317|T||Mukherji,S., and P.F. Wareing|The Effect of Penicillin on the Levels of Endogenous Gibberellins and Cytokinins in Mungbean (Vigna radiata L.) Seedlings|Biol. Plant. (Praha)25(3): 161-165|1983|10.1007/BF02902095
25319|T||Fawcett,C.H., R.L. Wain, and F. Wightman|Studies on Plant Growth-Regulating Substances. VIII. The Growth Promoting Activity of Certain Aryloxy- and Arylthioalkanecarboxylic Acids|Ann. Appl. Biol.43:342-354|1955|10.1111/j.1744-7348.1955.tb02485.x
25320|T||Terry,M.E., D. McGraw, and R.L. Jones|Effect of IAA on Growth and Soluble Cell Wall Polysaccharides Centrifuged from Pine Hypocotyl Sections|Plant Physiol.69:323-326|1982|10.1104/pp.69.2.323
25321|T||Borkowska,B., and H. Habdas|Effect of Chilling, Benzyloaminopurine and Abscisic Acid on Development and Cell Constituents of In Vitro Cultured Apple Buds from Dormant Trees|Z. Pflanzenphysiol. (Multiple Languages)106:453-457|1982|10.1016/S0044-328X(82)80157-8
25322|T||Ravanel,P., M. Tissut, and R. Douce|Effects of Kaempferol on the Oxidative Properties of Intact Plant Mitochondria|Plant Physiol.69:375-378|1982|10.1104/pp.69.2.375
25324|T||Miller,J.H., L.M. Carter, and C. Carter|Weed Management in Cotton Grown in 2 Row Spacings|Weed Sci.31:236-241|1983|10.1017/S0043174500068909
25325|T||Turner,N.C.|Fusicoccin - A Phytotoxin That Opens Stomata|In: R.K.S.Wood, A.Ballio and A.Graniti (Eds.), Phytotoxins in Plant Diseases: Proceedings of the NATO Advanced Study Institute, Pugnochiuso, Italy, June 1970, Academic Press, London, UK:399-402|1972|
25326|T||Fay,P.K., J.F. Hunt, W.B. Duke, and R.F. Lucey|Quackgrass Control the Season After Glyphosate Application in Three Agronomic Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:87-92|1974|
25327|T||Morre,D.J., and C.E. Bracker|Ultrastructural Alteration of Plant Plasma Membranes Induced by Auxin and Calcium Ions|Plant Physiol.58:544-547|1976|10.1104/pp.58.4.544
25328|T||Overton,J.R., J.A. Mullins, and L.S. Jeffery|Response of Cotton, Soybeans and Johnsongrass to Glyphosate|Proc. South. Weed Sci. Soc.26:28-35|1973|
25329|T||Banks,P.A., and R.R. Duncan|Weed-Control Evaluations in Ratoon-Cropped Grain Sorghum (Sorghum bicolor)|Weed Sci.31:254-258|1983|10.1017/S0043174500068934
25330|T||Dutt,T.E., R.G. Harvey, and R.S. Fawcett|Influence of Herbicides on Yield and Botanical Composition of Alfalfa Hay|Agron. J.75:229-233|1983|10.2134/agronj1983.00021962007500020017x
25332|T||Phillips,R.L.|Control of Perennial Grasses in Citrus Groves|Citrus Ind.54(7): 22-23|1973|
25333|T||Akey,W.C., and I.N. Morrison|Effect of Moisture Stress on Wild Oat (Avena fatua) Response to Diclofop|Weed Sci.31:247-253|1983|10.1017/S0043174500068922
25335|T||Reddy,K.R., J.V.S. Rao, and V.S.R. Das|Epicuticular Wax Composition and Herbicide Induced Changes in the Rate of Transpiration in Some Shrub Species|Indian J. Plant Physiol.25:55-64|1982|
25336|T||Srivastava,A.K., and R. Singh|Ecological Syndrome of Weedicides in the Wheat-Crop Ecosystem|Indian J. Ecol.1(1): 24-37|1974|
25337|T||Ibrar-Ul,H.A.Q., and H.A.Q. Manzoor-Ul|Effect of Application of Fertilizers and An Insecticide, Padan 4G, on the Rice Yield and Incidence of Attack of Rice Borers|Sind Univ. Res. J. (Sci. Ser. )13:39-46|1981|
25338|T||Parrott,W.L., J.C.,Jr. McCarty, H.C. Lane, J.N. Jenkins, and P.A. Hedin|Effect of Methomyl on Concentration of Anthocyanin, Tannin, and Chlorophyll in Cotton Leaves|Southwest. Entomol.8(2): 94-97|1983|
25339|T||Kak,S.N., and B.L. Kaul|Mutagenic Activity of Hydrazine and Its Combinations with Maleic Hydrazide and X-Rays in Barley|Cytobios12(46): 123-128|1975|
25340|T||McDaniel,G.L.|Growth Retardation Activity of Paclobutrazol on Chrysanthemum|Hortscience18:199-200|1983|10.21273/HORTSCI.18.2.199
25341|T||Agnew,N.H., and R.W. Campbell|Growth of Begonia X hiemalis, as Influenced by Hand-Pinching, Dikegulac and Chlormequat|Hortscience18:201-202|1983|10.21273/HORTSCI.18.2.201
25343|T||Austin,M.E.|Naphthaleneacetic Acid and Fruiting of Rabbiteye Blueberry Tifblue|J. Am. Soc. Hortic. Sci.108:314-317|1983|10.21273/JASHS.108.2.314
25344|T||Takeda,F., V. Drane, and M.S. Saunders|Sprout Control in Muscadine Grapes|Hortscience18(2): 237-238|1983|10.21273/HORTSCI.18.2.237
25345|T||Natarajan,A.T., and R. Nilsson|Studies on the Cytological Effects of Thalidomide and Its Hydrolytic Products|Naturwissenschaften53(11): 275-276|1966|10.1007/BF00621648
25346|T||Curry,E.A., and M.W. Williams|Promalin or Gibberellin A3 Increase Pedicel and Fruit Length and Leaf Size of Delicious Apples Treated with Paclobutrazol|Hortscience18(2): 214-215|1983|10.21273/HORTSCI.18.2.214
25347|T||Morgan,O.D.|The Use of Chemical Soil Drenches to Control Phytophthora Parasitica Var Nicotianae and Their Phytotoxic Effects on Tobacco and Toxicity to Other Soil Flora|Plant Dis. Rep.47:755-761|1959|
25348|T||Kadman,A., and Y. Ben Tal|Inducing Macadamia Nut Drop with Ethephon|Hortscience18:240-242|1983|10.21273/HORTSCI.18.2.240
25349|T||Ashrafi,S.H., I.A. Khan, and M. Tasnif|Toxicity of Petkolin-M to Plants|Sci. Res.5(4): 163-170|1968|
25352|T||Popovic,J., N. Veselinovic, and M. Peno|Investigation of the Causes of Phytotoxic Phenomena on Some Softwood Species After Soil Treatment with Terabol and the Possibilities for Their Elimination|Environ. Qual. Saf. Suppl.3:323-329|1975|
25353|T||Haas,H.V.|Methyl Bromide and PCNB for Sclerotium Crown Rot Control in Iris|Phytoparasitica4(3): 201-205|1976|10.1007/BF02981088
25354|T||Robbins,J.A., S.J. Kays, and M.A. Dirr|Enchanced Rooting of Wounded Mung Bean Cuttings by Wounding and Ethephon|J. Am. Soc. Hortic. Sci.108:325-329|1983|10.21273/JASHS.108.2.325
25356|T||Prew,R.D., B.M. Church, A.M. Dewar, J. Lacey, A. Penny, R.T. Plumb, G.N. Thorne, A.D. Todd, and T.D. Williams|Effects of Eight Factors on the Growth and Nutrient Uptake of Winter Wheat and on the Incidence of Pests and Diseases|J. Agric. Sci.100:363-382|1983|10.1017/S0021859600033529
25358|T||Hisano,T., M. Ichikawa, K. Tsumoto, and M. Tasaki|Synthesis of Benzoxazoles, Benzothiazoles and Benzimidazoles and Evaluation of Their Antifungal, Insecticidal and Herbicidal Activities|Chem. Pharm. Bull.30(8): 2996-3004|1982|10.1248/cpb.30.2996
25359|T||Chakraborti,S., N. Sarkar, P.K. Sengupta, and S.K. Banerjee|Biochemical Studies of Some Membrane Bound Hydrolases in Malathion Treated Germinating Seeds of Vigna sinensis (L): Effect of Plant Growth Hormone Supplementation|Indian J. Exp. Biol.20:850-855|1982|
25360|T||St.John,J.B., and J.L. Hilton|Lipid Metabolism as a Site of Herbicide Action|Weed Sci.21(5): 477-480|1973|10.1017/S0043174500027545
25361|T||Smeulders,F., and S.C. Van de Geijn|In Situ Immobilization of Heavy Metals with Tetraethylenepentamine (Tetren) in Natural Soils and Its Effect on Toxicity and Plant Growth: 3. Uptake and Mobility of Copper and Its Tetren-Complex in Corn Plants|Plant Soil70:59-68|1983|10.1007/BF02374750
25362|T||Wilfret,G.J., and D.S. Burgis|Weed Control in Petunia, Ageratum, and Gladiolus Grown in Open Fields|Proc. South. Weed Sci. Soc.30:197-204|1977|
25363|T||Chakraborti,S., S.K. Roy, S.K. Banerjee, and G.C. Chatterjee|Studies on DNA, RNA and Protein Synthesis in Malathion Treated Germinating Seeds of Vigna sinensis (L.):  Effect of Plant Growth Hormone Supplementation|Int. J. Environ. Stud.20(1): 53-62|1982|10.1080/00207238208710015
25364|T||Bovey,R.W., and P.W. Voigt|Tolerance of Weeping Lovegrass Cultivars to Herbicides|Crop Sci.23:364-368|1983|10.2135/cropsci1983.0011183X002300020042x
25365|T||Smith,G.A., and E.E. Schweizer|Cultivar X Herbicide Interaction in Sugar Beet (Beta vulgaris)|Crop Sci.23:325-328|1983|10.2135/cropsci1983.0011183X002300020034x
25366|T||Kaushik,M.P., Y.K. Sharma, I. Chandra, and D.P. Singh|Growth Patterns and IAA-Oxidase Activity in Cucumber Seedlings as Affected by Phenolic Acids|Seed Res.10(1): 53-57|1982|
25368|T||Kumar,A.V., S.V. Prasad, and G.R. Rao|Influence of Growth Regulators on Germination of Pollen of Three Tree Species|Indian J. Plant Physiol.25:158-166|1982|
25370|T||Baylis,A.D., and J.W. Dicks|Investigations into the Use of Plant Growth Regulators in Oil-Seed Sunflower (Helianthus annuus L.) Husbandry|J. Agric. Sci.100:723-730|1983|10.1017/S0021859600035516
25373|T||Choudhary,R.S.|Control of Brinjal (Solanum melongena) Shoot and Fruit Borer Leucinodes Orbonalis (Pyralidae: Lepidoptera)|Entomophaga27(3): 257-260|1982|
25374|T||Mote,U.N.|Efficacy of Different Formulations of Some Insectides Against Sorghum Shootfly (Atherigona Soccata)|Entomophaga27(3): 265-270|1982|
25375|T||Shoemaker,R.C., and C.A. Ihrke|Effects of the Pesticides Captan, Folpet, Guthion, and Dichlorvos on Recombination in Maize (Zea mays L.)|Environ. Exp. Bot.23(1): 45-51|1983|10.1016/0098-8472(83)90019-9
25376|T||Hasegawa,H., and M. Inove|Enhancement of Sodium Azide Mutagenicity by Ethidium Bromide in Rice|Environ. Exp. Bot.23:53-58|1983|10.1016/0098-8472(83)90020-5
25377|T||Dirr,M.A., and J.J. Frett|Rooting of Leyland Cypress as Affected by Iba and Boron Treatment|Hortscience18:204-205|1983|10.21273/HORTSCI.18.2.204
25378|T||El Tahawi,B.S., Z.A. El Hadidy, M.A. Diab, M.A. Habib, and S.N. Draz|A Study of the Efficiency of Some Arboricides Used in the Control of Thickets|Bull. Ain Shams Univ. Fac. Agric. 36:53-72|1967|
25379|T||Geneve,R.L., and C.W. Heuser|The Relationship Between Ethephon and Auxin on Adventitious Root Initiation in Cuttings of Vigna radiata|J. Am. Soc. Hortic. Sci.108:330-333|1983|10.21273/JASHS.108.2.330
25380|T||Ivany,J.A., J.M. Sadler, and E.R. Kimball|Rate of Metribuzin Breakdown and Residue Effects on Rotation Crops|Can. J. Plant Sci.63:481-487|1983|10.4141/cjps83-056
25383|T||Hiller,R.G., T.B.G. Pilger, and S. Genge|Effect of Lincomycin on the Chlorophyll Protein Complex I and Photosystem I Activity of Greening Leaves|Biochim. Biophys. Acta460:431-444|1977|10.1016/0005-2728(77)90082-2
25386|T||Legocka,J., and A. Szweykowska|The Role of Cytokinins in the Development and Metabolism of Barley Leaves: 6. The Effect on the Protein Metabolism in Various Cell Compartments During Leaf Senescence|Acta Physiol. Plant.5(1/2): 11-20|1983|
25387|T||Sen,S., M.A. Rahmani, and I. Aikens|Effects of Abscisic Acid on Ribonucleic Acid Synthesis in Phaseolus vulgaris L. Embryo Axes Cultured In Vitro|Z. Pflanzenphysiol. (Multiple Languages)110:1-6|1983|10.1016/S0044-328X(83)80209-8
25388|T||Dowling,P.M., and D.L. Linscott|Effects of Vegetation Decomposition and Carbofuran on Establishment and Yield of Sod-Seeded Alfalfa|Can. J. Plant Sci.63:421-427|1983|10.4141/cjps83-048
25389|T||Cole,R.J., J.W. Kirksey, H.G. Cutler, D.M. Wilson, and G. Morgan-Jones|Two Toxic Indole Alkaloids from Penicillium islandicum|Can. J. Microbiol.22(5): 741-744|1976|10.1139/m76-107
25390|T||Aslam,R.M., and K.A. Siddiqui|Effect of Colchine on Bajra (Pennisetum americanum) and Napier Grass (Pennisetum purpurem)|Sind Univ. Res. J. (Sci. Ser. )13:59-66|1981|
25391|T||Dogra,J.V.V., and S.K.P. Sinha|Cycocel Induced Changes in Vitamin C Contents in Phyllanthus urinaria Shoot|Biol. Bull. India5:26-28|1983|
25394|T||Paul,S., and H.S. Gill|Tolerance of Wheat (Triticum aestivum) Cultivars to Herbicides|J. Res. Punjab Agric. Univ.19(4): 275-282|1982|
25395|T||Singh,A., K.K. Singh, and K. Lal|Effect of Exogenous Application of Growth Regulators on Crude Protein Percentage in Oil Yielding Plants|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.51:74-76|1981|
25396|T||Taylor,H.F., M.P.C. Loader, and S.J. Norris|Compatible and Antagonistic Mixtures of Diclofop-Methyl and Flamprop-Methyl with Herbicides Used to Control Broad-Leaved Weeds|Weed Sci.23:185-190|1983|
25399|T||Risueno,M.C., C. De la Torre, and G. Gimenez-Martin|Cytochemical and Quantitative Study of the Structural Changes Induced by Ethidium Bromide in Plant Mitochondria|J. Ultrastruct. Res.51(2): 204-217|1975|10.1016/S0022-5320(75)80148-1
25400|T||Jensen,K.G., and E.B. Pederson|Phosphorus Pentoxide in Organic Synthesis: 4 Synthesis of 4H-1,2,4-Benzothiadiazin-3-Amine 1,1-Dioxides|Chem. Soc. Rev.20(5): 248-250|1982|
25401|T||Prasad,D., R.P. Singh, K.P. Srivastava, N.P. Agrihorti, and C.L. Sethi|Evaluation of Mephosfolam for Nematode and Insect Control in Okra, Cowpea and Tomato (New Delhi Area, India)|Indian J. Nematol.12(2): 277-284|1982|
25402|T||De Greef,J.A., and J.P. Verbelen|DNP-Inhibition of Phytochrome-Induced Greening Processes|Arch. Int. Physiol. Biochim.81(4): 797-|1973|
25403|T||O'Donovan,J.T., P.A. O'Sullivan, and C.D. Caldwell|Basis for Antagonism of Paraquat Phytotoxicity to Barley by 2-Methyl-4-Chlorophenoxyacetic Acid Dimethylamine|Weed Res. (Multiple Languages)23:165-172|1983|10.1111/j.1365-3180.1983.tb00534.x
25404|T||Talatala,R.L.|Thiobencarb Phytotoxicity to Rice as Affected by Method of Naphthalic Anhydride Application|Ann. Trop. Res.4:71-76|1982|
25405|T||Herdi,F.|MCPA Induced Tissue Changes in Sunflower (Helianthus annuus L.) Leaves|Acta Agron. Acad. Sci. Hung.32(1/2): 5-15|1983|
25406|T||Minato,T., Y. Kikuta, and Y. Okazawa|Effect of (2-Chloroethyl)-Phosphonic Acid on Cytokinin Level of Potato Tubers (Solanum tuberosum, Growth Inhibition, Storage Chemicals)|J. Fac. Agric. Hokkaido Univ.61(Pt. 1): 180-186|1982|
25407|T||Narayana,T.S., and M.S. Thakur|Auxin-like Activity of Some Antibiotics on Germination of Seeds|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.51:38-40|1981|
25410|T||Darwent,A.L., and J.H. Smith|Effects of 2,4-D and Dicamba Time of Application on Timothy Seed Production|Can. J. Plant Sci.62:1011-1018|1982|10.4141/cjps82-149
25411|T||Reddy,C.S., and J.D. Smith|Viable Mutations in Grain Sorghum Induced by gamma Rays, Chemical Mutagens and Their Combinations with Cysteine|Genet. Agrar.37(1/2): 7-22|1983|
25412|T||Sheriff,D.W.|Control by IAA of Wood Production in Pinus radiata Segments in Culture|Aust. J. Plant Physiol.10:131-136|1983|
25413|T||Raese,J.T.|Conductivity Tests to Screen Fall-Applied Growth Regulators to Induce Cold Hardiness in Young 'Delicious' Apple Trees|J. Am. Soc. Hortic. Sci.108(2): 172-176|1983|10.21273/JASHS.108.2.172
25414|T||Ells,J.E.|Chlorflurenol as a Fruit-Setting Hormone for Gynoecious Pickling Cucumber Production Under Open-Field Conditions|J. Am. Soc. Hortic. Sci.108(2): 164-168|1983|10.21273/JASHS.108.2.164
25415|T||Yokoyama,M., K. Naito, and H. Suzuki|Benzyladenine-Enhanced Growth of Attached Young Bean Leaves: Studies with Inhibitors of Nucleic Acid and Protein Synthesis|Plant Cell Physiol.24(4): 749-757|1983|10.1093/oxfordjournals.pcp.a076572
25416|T||Naito,K.|Effect of Benzyladenine on RNA Metabolism During the Life Cycle of Intact Bean Leaves|Mem. Fac. Sci. Kyoto Univ. Series Biol.8:157-172|1983|
25417|T||Johnson,B.J.|Multiple Applications of Herbicides on Soybeans|Ga. Agric. Res.14:5-8|1972|
25419|T||Khodayari,K., R.E. Frans, and F.C. Collins|Diclofop - A Selective Herbicide for Italian Ryegrass (Lolium multitflorum) Control in Winter Wheat (Triticum aestivum)|Weed Sci.31(4): 436-438|1983|10.1017/S0043174500069344
25420|T||Okafor,L.I., G.R. Sagar, and V.M. Shorrocks|Biological Activity of Dinitramine in Soils: II. Soil Organic Matter and Soil Moisture Content|Weed Res. (Multiple Languages)23:199-206|1983|10.1111/j.1365-3180.1983.tb00538.x
25422|T||Stewart,P.A., R.E. Talbert, and C.J. Wallinder|Yellow Nutsedge Control in Gladiolus|Hortscience18(3): 367-368|1983|10.21273/HORTSCI.18.3.367
25423|T||Holcomb,E.J., S. Ream, and J. Reed|The Effect of Bas 106, Ancimidol, and Chlormequat on Chrysanthemum and Poinsettia|Hortscience18:364-365|1983|10.21273/HORTSCI.18.3.364
25424|T||Szyjewicz,E., and W.M. Kliewer|Influence of Timing of Ethephon Application on Yield and Fruit Composition of Chenin Blanc Grapevines|Am. J. Enol. Vitic.34:53-56|1983|10.5344/ajev.1983.34.2.53
25425|T||Americanos,P.G.|Chemical Control of Weeds in Deciduous Fruit Trees|Cyprus Agric. Res. Inst. Tech. Bull.44:1-9|1982|
25426|T||Santakumari,M., and V.S.R. Das|Herbicide-Induced Changes in the Chloroplast Constituents of Some Crop and Weed Species|Pestic. Biochem. Physiol.20:1-9|1983|10.1016/0048-3575(83)90115-3
25427|T||Okafor,L.I., G.R. Sagar, and V.M. Shorrocks|Biological Activity of Dinitramine in Soils: I. Dose, Depth of Incorporation, Placement and Depth of Sowing|Weed Res. (Multiple Languages)23:191-197|1983|10.1111/j.1365-3180.1983.tb00537.x
25429|T||Lee,T.T., and T. Dumas|Effect of Glyphosate on Ethylene Production in Tobacco Callus|Plant Physiol.72:855-857|1983|10.1104/pp.72.3.855
25431|T||Pain,S.K., and B. Nayek|The Growth and Development of Sesamum indicum: the Effects of Naphthaleneacetic Acid|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.52:101-106|1982|
25433|T||Brown,A.W.A.|Control of Camnula pellucida with DNOC Emulsion from Aircraft|J. Econ. Entomol.40(4): 606-|1947|10.1093/jee/40.4.606
25434|T||Naito,R., J. Fujimoto, and H. Yamamura|Effects of Shoot Vigor and SADH Application to Clusters Before Anthesis on Berry Set in Kyoho Grapes|Am. J. Enol. Vitic.34(3): 142-147|1983|10.5344/ajev.1983.34.3.142
25435|T||Jensen,K.I.N., J.A. Ivany, and E.R. Kimball|Efficacy of Three Dinitroaniline Herbicides in Processing Peas and Their Residues in Soils|Can. J. Plant Sci.63:687-693|1983|10.4141/cjps83-086
25439|T||Singh,K.P., S.Y. Pandey, M.M. Khan, and S. Singh|Residues of Aldicarb in Coconut|Pestic. Sci.14:441-443|1983|10.1002/ps.2780140414
25440|T||Sahu,R.K., B.N. Behera, and C.R.S.R. Sharma|Cytogenetic Effects from Agricultural Chemicals: V. Clastogenic Effects of Some Benzimidazole Fungicides on Root Meristems|Environ. Exp. Bot.23:79-83|1983|10.1016/0098-8472(83)90023-0
25441|T||Aberg,B.|The Interaction of Some Auxin Antagonists and 2,4-D in Root Growth|Physiol. Plant. (Multiple Languages)4:627-640|1951|10.1111/j.1399-3054.1951.tb07698.x
25443|T||Aberg,B.|On the Effects of Weak Auxins and Antiauxins upon Root Growth|Physiol. Plant. (Multiple Languages)5:305-319|1952|10.1111/j.1399-3054.1952.tb07719.x
25445|AT||Melnikov,N.N., L.D. Stonov, A.F. Grapov, and T.A. Sergeyeva|New Herbicides of the Isophos Group: Chemistry, Biological Activity, Mode of Action|Pesticides :708-712|1974|
25446|T||Aberg,B., and E. Jonsson|Studies on Plant Growth Regulators.  XI.  Experiments with Pea Roots, Including Some Observations on the Destruction of Indoleacetic Acid by Different Types of Roots|Lantbrukshogsk. Ann.21:401-416|1955|
25447|T||Aberg,B.|Studies on Plant Growth Regulators. XII. Monosubstituted Phenoxyacetic Acids|Lantbrukshogsk. Ann.23:375-392|1957|
25448|T||Aberg,B.|Studies on Plant Growth Regulators. XIII. Some Experiments with Cress Roots|Lantbrukshogsk. Ann.23:479-487|1957|
25450|T||Aberg,B.|Studies on Plant Growth Regulators. XV. The Naphthylacetic and the alpha-Naphthyl-Propionic Acids|Lantbrukshogsk. Ann.25:221-239|1959|
25451|T||Aberg,B.|Studies on Plant Growth Regulators  XVII. Some Thiocarbamic Acid Derivatives|Lantbrukshogsk. Ann.26:239-250|1960|
25452|T||Aberg,B.|Studies on Plant Growth Regulators  XIX.  Phenylacetic Acid and Related Substances|Lantbrukshogsk. Ann.29(1): 3-43|1963|
25453|T||Aberg,B., and I. Johansson|Studies on Plant Growth Regulators. XX. Ascorbic Acid, Hydrogen Peroxide and EDTA|Lantbrukshogsk. Ann.29(2): 171-186|1963|
25454|T||Aberg,B.|Studies on Plant Growth Regulators. XXI. Some Naphthoxy Compounds|Lantbrukshogsk. Ann.31(3): 333-353|1965|
25455|T||Aberg,B.|Studies on Plant Growth Regulators. XXII. Optically Active A-Alkylphenoxy Acetic Acid|Lantbrukshogsk. Ann.33(2): 613-623|1967|
25456|T||Aberg,B.|Studies on Plant Growth Regulators. XXIII. Further Monosubstituted Phenoxyacetic Acid|Lantbrukshogsk. Ann.33(2): 625-641|1967|
25457|T||Aberg,B., and I. Johansson|Studies on Plant Growth Regulators.  XXIV.  Some Phenolic Compounds|Lantbrukshogsk. Ann.35(1): 3-27|1969|
25458|AT||Aberg,B.|Plant Growth Regulators.  XXV.  Some Ring-Substituted Phenylacetic Acids|Lantbrukshogsk. Ann.35(5): 935-951|1969|
25459|AT||Aberg,B.|Plant Growth Regulators.  XXVI.  The Optically Active Monochloro- and Mono-methylphenoxy-Propionic Acids|Lantbrukshogsk. Ann.36(3): 235-253|1970|
25462|T||Asada,K., and Z. Kasai|Inhibition of Carbon Dioxide Fixation of Green Plants by Glyoxal-Bisulfite|Mem. Res. Inst. Food Sci.23:66-70|1960|
25463|T||Forsythe,H.Y., and F.R. Hall|Control of the Plum Curculio in Ohio|J. Econ. Entomol.65(6): 1703-1706|1972|10.1093/jee/65.6.1703
25464|T||Ballio,A., A. Bottalico, M. Framondino, A. Graniti, and G. Randazzo|Fusicoccin: Structure-Phytotoxicity Relationships|Phytopathol. Mediterr.10:26-32|1971|
25465|T||Ballio,A., F. Pocchiari, S. Russi, and V. Silano|Effects of Fusicoccin and Some Related Compounds on Etiolated Pea Tissues|Physiol. Plant Pathol.1(2): 95-103|1971|10.1016/0048-4059(71)90018-X
25467|T||Bartels,P.G., K. Matsuda, A. Siegel, and T.E. Weier|Chloroplastic Ribosome Formation: Inhibition by 3-Amino-1,2,4-Triazole|Plant Physiol.42:736-741|1967|10.1104/pp.42.5.736
25469|T||Basu,R.N.|Effect of Auxin Synergists in Rooting of French Bean (Phaseolus vulgaris L.) Cuttings|Curr. Sci. (Bangalore)38:533-535|1969|
25470|T||Baur,J.R., R.W. Bovey, P.S. Baur, and Z. El-Seify|Effect of Paraquat on the Ultrastructure of Mesquite Mesophyll Cells|Weed Res. (Multiple Languages)9:81-85|1969|10.1111/j.1365-3180.1969.tb01456.x
25471|T||Bempong,M.A.|Mitomycin C-Induced Subchromatid and Chromatid Aberrations in Vicia faba Pollen Mother Cells|Bull. Torrey Bot. Club99(3): 113-118|1972|10.2307/2484689
25472|A||Bezemer-Sybrandy,S.M., and H. Veldstra|Investigations on Cytokinins. III. Cytokinin Activity in Lemna minor tRNA Hydrolysates|Physiol. Plant. (Multiple Languages)24:369-373|1971|10.1111/j.1399-3054.1971.tb03505.x
25473|T||Borthwick,H.A., K.C. Hamner, and M.W. Parker|Histological and Microchemical Studies of the Reactions of Tomato Plants to Indoleacetic Acid|Bot. Gaz.98:491-519|1937|10.1086/334656
25474|T||Bowling,C.C., and H.R. Hudgins|The Effect of Insecticides on the Selectivity of Propanil on Rice|Weeds (Urbana)14:94-95|1966|10.2307/4041135
25475|T||Broersma,D.B., and W.H. Luckmann|Seed Treatment Techniques and Phytotoxicity Studies on Some Grain and Vegetable Crops|J. Econ. Entomol.60(3): 821-823|1967|10.1093/jee/60.3.821
25476|T||Henderson,I.F., and R.O. Clements|The Effect of a Short-Persistence Systemic Insecticide on the Yield of Perennial Ryegrass|J. Br. Grassl. Soc.31:15-17|1976|10.1111/j.1365-2494.1976.tb01109.x
25478|T||Cooke,A.R.|Influence of 2,4-D on the Uptake of Minerals from the Soil|Weeds (Urbana)5:25-28|1957|10.2307/4040323
25479|T||El-Refai,A., and M.M. Mowafy|Propanil Hydrolysis: Inhibition in Rice Plants by Diazinon and Carbaryl Translocated from the Soil|J. AOAC Int.56(5): 1178-1182|1973|10.1093/jaoac/56.5.1178
25483|T||Currier,H.B., B.E. Day, and A.S. Crafts|Some Effects of Maleic Hydrazide on Plants|Bot. Gaz.112:272-280|1951|10.1086/335660
25485|T||Norman,A.G.|The Effect of Polymyxin on Plant Roots|Arch. Biochem. Biophys.58:461-477|1955|10.1016/0003-9861(55)90145-4
25486|T||Devlin,R.M., and S.J. Karczmarczyk|Influence of Norflurazon on Chlorophyll Production|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:161-167|1975|
25487|T||De Waard,J., and P.A. Florschutz|On the Interaction of 2,3,5-Triiodobenzoic Acid and Indole-3-Acetic Acid in Growth Processes|Proc. Nederl. Akad. Sci. Amat.51:1317-1321|1948|
25489|T||Frear,D.S., and H.R. Swanson|Metabolism of Cisanilide (cis-2,5-Dimethyl-1-Pyrrolidinecarboxanilide) by Excised Leaves and Cell Suspension Cultures of Carrot and Cotton|Pestic. Biochem. Physiol.5:73-80|1975|10.1016/0048-3575(75)90046-2
25490|T||Gentner,W.A., and J.L. Hilton|Effect of Sucrose on the Toxicity of Several Phenylurea Herbicides to Barley|Weeds (Urbana)8:413-417|1960|10.2307/4040441
25491|T||Gorter,C.J.|Auxin-Synergists in the Rooting of Cuttings|Physiol. Plant. (Multiple Languages)22:497-502|1969|10.1111/j.1399-3054.1969.tb07403.x
25492|T||Graniti,A., and N.C. Turner|Effect of Fusicoccin on Stomatal Transpiration in Plants|Phytopathol. Mediterr.9:160-167|1970|
25495|T||Hilton,J.L., and M.N. Christiansen|Lipid Contribution to Selective Action of Trifluralin|Weed Sci.20:290-294|1972|10.1017/S0043174500035670
25496|T||Hitchcock,A.E., and P.W. Zimmerman|A Quantitative Method of Measuring Response of Plants to Growth Regulators|Contrib. Boyce Thompson Inst.16:225-248|1951|
25497|T||Hitchcock,A.E., and P.W. Zimmerman|Methods of Rating the Root-Inducing Activity of Phenoxy Acids and Other Growth Substances|Contrib. Boyce Thompson Inst.14:21-38|1945|
25498|T||Hseuh,Y.L., and C.H. Lou|Effects of 2,4-D on Seed Germination and Respiration|Science105:283-285|1947|10.1126/science.105.2724.283
25499|T||Kappelman,A.J., and G.A. Buchanan|Influence of Fungicides, Herbicides and Combinations on Emergence and Seedling Growth of Cotton|Agron. J.60:660-663|1968|10.2134/agronj1968.00021962006000060023x
25500|T||Vijaya,N., and B.R. Reddy|Effect of Nemagon on Seeds and Seedlings of Certain Vegetable Crops|Andhra Agric. J.18(3): 116-121|1973|
25501|T||Singhal,J.P., and C.P. Singh|The Chemistry and Phytotoxicity of Nemagon in Fertilized Soil|Soil Sci. Plant Nutr.20(4): 413-415|1974|10.1080/00380768.1974.10432613
25502|T||Good,J.M.|Evaluation of DBCP Formulations and Application Depths for Root-Knot Nematode Control and Phytotoxicity to Tomatoes|Plant Dis. Rep.45(12): 976-978|1961|
25505|T||Kessler,B., S. Speigel, and Z. Zolotov|Control of Leaf Senescense by Growth Retardants|Nature213:311-312|1967|10.1038/213311a0
25507|T||Khan,A.A.|Cytokinin-Inhibitor Antagonism in the Hormonal Control of alpha-Amylase Synthesis and Growth in Barley Seed|Physiol. Plant. (Multiple Languages)22:94-103|1969|10.1111/j.1399-3054.1969.tb07845.x
25510|T||Kraus,E.J., N.A. Brown, and K.C. Hamner|Histological Reactions of Bean Plants to Indoleacetic Acid|Bot. Gaz.98:370-420|1937|10.1086/334646
25514|T||Lindner,R.C.|Effects of Indoleacetic and Naphthylacetic Acids on Development of Buds and Roots in Horseradish|Bot. Gaz.100:500-527|1939|10.1086/334806
25515|T||Macht,D.I., and M.B. Livingston|Effect of Cocaine on the Growth of Lupinus albus. A Contribution to the Comparative Pharmacology of Animal and Plant Protoplasm|J. Gen. Physiol.5:573-584|1922|10.1085/jgp.4.5.573
25517|T||Mishra,D., and B. Misra|Retardation of Induced Senescense of Leaves from Crop Plants by Benzimidazole and Cytokinins|Exp. Gerontol.8:235-239|1973|10.1016/0531-5565(73)90032-6
25518|T||Mitchell,J.W., and C.L. Hamner|Polyethylene Glycols as Carriers for Growth-Regulating Substances|Bot. Gaz.105:474-483|1944|10.1086/335258
25519|T||Mitchell,J.W., and W.S. Stewart|Comparison of Growth Responses Induced in Plants by Naphthalene Acetamide and Naphthalene Acetic Acid|Bot. Gaz.101:410-427|1939|10.1086/334879
25521|T||Moreland,D.E., W.A. Gentner, J.L. Hilton, and K.L. Hill|Studies on the Mechanism of Herbicidal Action of 2-Chloro-4,6-bis-(Ethylamino)-S-Triazine|Plant Physiol.34:432-435|1959|10.1104/pp.34.4.432
25523|T||Nash,R.G.|Phytotoxic Pesticide Interactions in Soil|Agron. J.59:227-230|1967|10.2134/agronj1967.00021962005900030006x
25525|T||Negbi,M., and E. Rushkin|Inhibition of Chlorophyll Synthesis by Growth Retardants and Counteraction of the Effect by Gibberellin|Isr. J. Bot.15(1): 17-21|1966|
25526|T||McWhorter,C.G., and T.N. Jordan|Effects of Adjuvants and Environment on the Toxicity of Dalapon to Johnsongrass|Weed Sci.24(3): 257-260|1976|10.1017/S0043174500065917
25527|T||Holroyd,J., and M.E. Thornton|Herbicides and Herbicide Mixtures for the Control of Avena fatua, A. ludoviciana, and Alopecurus myosuroides in Winter Cereals|Proc. Br. Weed Control Conf.1:103-110|1976|
25528|T||Ray,T.B., and C.C. Still|Propanil Metabolism in Rice: A Comparison of Propanil Amidase Activities in Rice Plants and Callus Cultures|Pestic. Biochem. Physiol.5(2): 171-177|1975|10.1016/0048-3575(75)90072-3
25529|T||Samborski,D.J., F.R. Forsyth, and C. Person|Metabolic Changes in Detached Wheat Leaves Floated on Benzimidazole and the Effect of These Changes on Rust Reaction|Can. J. Bot.36:591-601|1958|10.1139/b58-054
25530|T||Sankhla,N., and D. Sankhla|Reversal of (+/-)-Abscisin II Induced Inhibition of Lettuce Seed Germination and Seedling Growth by Kinetin|Physiol. Plant. (Multiple Languages)21:190-195|1968|10.1111/j.1399-3054.1968.tb07243.x
25531|T||Schmitz,R.Y., F. Skoog, S.M. Hecht, and N.J. Leonard|Comparison of Zeatin Indoleacetate with Zeatin and Indoleacetic Acid in the Tobacco Bioassay|Plant Physiol.50:114-116|1972|10.1104/pp.50.1.114
25532|T||Shaw,W.S., and C.R. Swanson|The Relation of Structural Configuration to the Herbicidal Properties and Phytotoxicity of Several Carbamates and Other Chemicals|Weeds (Urbana)2:43-65|1953|10.2307/4039998
25535|T||Sondheimer,E., and E.C. Galson|Effects of Abscisin II and Other Plant Growth Substances on Germination of Seeds with Stratification Requirements|Plant Physiol.41:1397-1398|1966|10.1104/pp.41.8.1397
25536|T||Splittstoesser,W.E., and H.J. Hopen|Root Growth Inhibition by Siduron and Its Relief by Kinetin|Physiol. Plant. (Multiple Languages)23:964-970|1970|10.1111/j.1399-3054.1970.tb06494.x
25537|T||Squire,G.R., and T.A. Mansfield|The Action of Fusicoccin on Stomatal Guard Cells and Subsidiary Cells|New Phytol.73:433-440|1974|10.1111/j.1469-8137.1974.tb02120.x
25538|T||Stuart,W.|The Role of Anesthetics and Other Agents in Plant Forcing|Vt. Agric. Exp. Stn.150:451-480|1910|
25540|T||Swanson,C.R., R.E. Kadunce, R.H. Hodgson, and D.S. Frear|Amiben Metabolism in Plants. I. Isolation and Identification of an N-Glucosyl Complex|Weeds (Urbana)14:319-323|1966|10.2307/4040975
25543|T||Teltscherova,L., and H. Havlickova|Reversal of the Inhibitory Effect of (2-Chloroethyl)Trimethyl-Ammonium Chloride on the Flowering of Chenopodium rubrum L. by Kinetin|Experientia23:861-|1967|10.1007/BF02146892
25545|T||Smith,M.S., and R.L. Wain|The Plant Growth-Regulating Activity of Dextro and Laevo a-(2-Naphthoxy)Propionic Acid|Proc. R. Soc. Lond. Ser. B Biol. Sci.139:118-127|1951|
25546|T||Luttge,U., A. Lauchli, E. Ball, and M.G. Pitman|Cycloheximide: A Specific Inhibitor of Protein Synthesis and Intercellular Ion Transport in Plant Roots|Experientia30:470-471|1974|10.1007/BF01926298
25547|T||Baxter,R., V.C. Knell, H.J. Somerville, H.M. Swain, and D.P. Weeks|Effect of MDMP on Protein Synthesis in Wheat and Bacteria|Nature243:139-142|1973|10.1038/243139a0
25548|T||Snow,R.|Activation of Cambial Growth by Pure Hormones|New Phytol.34:347-360|1935|10.1111/j.1469-8137.1935.tb06853.x
25550|T||Turner,N.C., and A. Graniti|Fusicoccin: a Fungal Toxin that Opens Stomata|Nature223:1070-1071|1969|10.1038/2231070a0
25551|T||Went,F.W.|On a Substance Causing Root Formation|Proc. Sect. Sci. (K. Ned. Akad. Wet. Amst.)32:35-39|1929|
25553|T||Wilson,M.M., M.E. Gordon, D.S. Letham, and C.W. Parker|Regulators of Cell Division in Plant Tissues. XIX. The Metabolism of 6-Benzylaminopurine in Radish Cotyledons and Seedlings|J. Exp. Bot.25(87): 725-732|1974|10.1093/jxb/25.4.725
25554|T||Wolf,F.T.|Influence of Amino Triazole on the Chloroplast Pigments of Wheat Seedlings|Nature188:164-165|1960|10.1038/188164b0
25555|T||Kemp,H.T., R.G. Fuller, and R.S. Davidson|Inhibition of Plant Growth by Root-Drench Applications of Kinetin|Science126:1182-|1957|10.1126/science.126.3284.1182
25562|T||Ellis,M., and Q.O.N. Kay|Genetic Variation in Herbicide Resistance in Scentless Mayweed (Tripleurospermum inodorum (L.) Schultz Bip.): I. Differences Between Populations in Response to MCPA|Weed Res. (Multiple Languages)15:307-315|1975|10.1111/j.1365-3180.1975.tb01323.x
25563|T||Dickeson,J.E., and L.A. Summers|"One Electron Transfer Properties and Phytotoxicity of a Diquaternary Salt from 2,2': 6',2""-Terpyridine"|Experientia25:1247-1248|1969|10.1007/BF01897475
25564|T||Paleg,L.G., and B.G. Coombe|Physiological Effects of Gibberellic Acid IX. Recovery of Gibberellic Acid Following Incubation with Endosperm|Plant Physiol.42:445-449|1967|10.1104/pp.42.3.445
25567|T||Paleg,L.G., D.H.B. Sparrow, and A. Jennings|Physiological Effects of Gibberellic Acid. IV. On Barley Grain with Normal, X-Irradiated, and Excised Embryos|Plant Physiol.37:579-583|1962|10.1104/pp.37.5.579
25568|T||Paleg,L.G., B.G. Coombe, and M.S. Buttrose|Physiological Effects of Gibberellic Acid V. Endosperm Responses of Barley, Wheat, & Oats|Plant Physiol.37:798-803|1962|10.1104/pp.37.6.798
25570|T||Harvey,R.B.|The Action of Toxic Agents Used in the Eradication of Noxious Plants|J. Am. Soc. Agron.:481-489|1931|10.2134/agronj1931.00021962002300060007x
25572|T||Tamura,S., and T. Jojima|Herbicidal Activity of Some Pyridazine Derivatives Part I.  Pyridazyl Pheny Ethers|Agric. Biol. Chem.27(10): 728-733|1963|
25573|A||Devlin,R.M., and S.J. Karczmarczyk|Response of Potamogeton pectinatus L. to Norflurazon|Aquat. Bot.1(3): 263-268|1975|10.1016/0304-3770(75)90027-3
25574|T||Sacher,J.A.|An IAA Oxidase-Inhibitor System in Bean Pods.  I.  Physiological Significance and Source of the Inhibitor|Am. J. Bot.48:820-828|1961|10.1002/j.1537-2197.1961.tb11717.x
25580|T||Grace,N.H., J.L. Farrar, and J.W. Hopkins|Vegetative Propagation of Conifers. VII. Outdoor Propagation of a November Collection of Norway Spruce Cuttings Treated with Phytohormones, Cane Sugar, and an Organic Mercurial Disinfectant|Can. J. Res. Sect. C Bot. Sci.18:566-577|1940|10.1139/cjr40c-052
25581|T||Lynd,J.Q., C. Rieck, D. Barnes, D. Murray, and P.W. Santelmann|Indicator Plant Aberrations at Threshold Soil Herbicide Levels|Agron. J.59:194-196|1967|10.2134/agronj1967.00021962005900020022x
25582|T||Grace,N.H., and J.L. Farrar|Vegetative Propagation of Conifers. VIII. Effects of Media and Phytohormone Dust Treatments on the Rooting of Norway Spruce Cuttings|Can. J. Res. Sect. C Bot. Sci.18(12): 591-598|1940|10.1139/cjr40c-055
25583|T||Grace,N.H.|Vegetative Propagation of Conifers. II. Effects of Nutrient Solution and Phytohormone Dusts on the Rooting of Norway Spruce Cuttings|Can. J. Res. Sect. C Bot. Sci.17:312-316|1939|10.1139/cjr39c-030
25584|T||Grace,N.H., and J.L. Farrar|Vegetative Propagation of Conifers. VI. Hormone Solution and Dust Treatments of Spruce Cuttings Propagated in Greenhouse and Outside Frames|Can. J. Res. Sect. C Bot. Sci.18:401-414|1940|10.1139/cjr40c-038
25587|T||Bonner,W.D.,Jr., and K.V. Thimann|Studies on the Growth and Inhibition of Isolated Plant Parts.  III.  The Action of Some Inhibitors Concerned with Pyruvate Metabolism|Am. J. Bot.37:66-75|1950|10.1002/j.1537-2197.1950.tb08163.x
25588|T||Bempong,M.A.|Cytogenetic Effect of Daunomycin in Vicia Faba|J. Electron Microsc.4:16-17|1971|
25589|T||Knypl,J.S.|Inhibition of Chlorophyll Disappearance in Senescing Leaf Tissues by Coumarin and Growth Retardants|Acta Soc. Bot. Pol.36:589-603|1967|10.5586/asbp.1967.056
25596|T||Pradhan,J.P., and P.K. Basu|Antagonistic Effect of Abscisic Acid & Rutin upon Seed Germination & Seedling Growth of Tephrosia vogelii Hook|Indian J. Exp. Biol.20:459-461|1982|
25598|T||Loros,J., and L. Taiz|Auxin Increases the Water Permeability of Rhoeo and Allium Epidermal Cells|Plant Sci. Lett.26:93-102|1982|10.1016/0304-4211(82)90046-3
25600|T||Dong,C.N., and R.N. Arteca|Changes in Photosynthetic Rates and Growth Following Root Treatments of Tomato Plants with Phytohormones|Photosynth. Res.3(1): 45-52|1982|10.1007/BF00030048
25601|T||Hall,H.K., and J.A. McWha|Abscisic Acid and Wheat Leaf Senescence: The Effects of Pre-Treating the Intact Plant|Z. Pflanzenphysiol. (Multiple Languages)106:371-373|1982|10.1016/S0044-328X(82)80116-5
25602|T||King,R.W., and J.W. Patrick|Control of Assimilate Movement in Wheat:  Is Abscisic Acid Involved?|Z. Pflanzenphysiol. (Multiple Languages)106:375-380|1982|10.1016/S0044-328X(82)80117-7
25603|T||Veierskov,B., and A.S. Anderson|Dynamics of Extractable Carbohydrates in Pisum Sativum: 3. the Effect of IAA and Temperature on Content and Translocation of Carbohydrates in Pea Cuttings During Rooting|Physiol. Plant. (Multiple Languages)55:179-182|1982|10.1111/j.1399-3054.1982.tb02283.x
25606|T||Curtis,O.F.,Jr.|Weed Control in Peach Nurseries with Terbacil|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:213-218|1974|
25607|T||Oettler,G.|Effect of Parental Genotype on Crossability and Response to Colchicine Treatment in Wheat-Rye Hybrids|Z. Pflanzenzuecht.88(4): 322-330|1982|
25609|T||Maene,L.J., and P.C. Debergh|Stimulation of Axillary Shoot Development of Cordyline terminalis Cultivar 'Celestine Queen' by Foliar Sprays of 6-Benzylamino Purine|Hortscience17(3): 344-345|1982|10.21273/HORTSCI.17.3.344
25610|T||Marini,R.P., and J.A. Barden|Effects of Summer vs. Dormant Pruning and Naphthaleneacetic Acid Treatment on Growth of 1 and 2 Year-Old Apple Trees|J. Am. Soc. Hortic. Sci.107:604-607|1982|10.21273/JASHS.107.4.604
25612|T||Heslop-Harrison,J.|Suppressive Effects of 2-Thiouracil on Differentiation and Flowering in Cannabis sativa|Science132:1943-1944|1960|10.1126/science.132.3444.1943
25613|T||Aldrich,J.H., and C.E. Arnold|Sprout Control of Nonbearing Peach with Naphthaleneacetic Acid|Hortscience17:378-379|1982|10.21273/HORTSCI.17.3.378
25614|T||Sarooshi,R.A.|Response of Preharvest Drop of Grapefruit on Two Rootstocks to 2,4-D, MCPA and Gibberellic Acid|Aust. J. Exp. Agric. Anim. Husb.22:337-342|1982|10.1071/EA9820337
25615|T||Crane,J.C., B.T. Iwakiri, and T.S. Lin|Effects of Ethephon on Shell Dehiscence and Flower Bud Abscission in Pistachio|Hortscience17:383-384|1982|10.21273/HORTSCI.17.3.383
25617|T||Daulay,H.S., and K.C. Singh|Chemical Weed Control in Greengram and Clusterbean|Indian J. Agric. Sci.52(11): 758-763|1982|
25618|T||Liptay,A., S.C. Phatak, and C.A. Jaworski|Ethephon Treatment of Tomato Transplants Improves Frost Tolerance|Hortscience17:400-401|1982|10.21273/HORTSCI.17.3.400
25620|T||Akinyemiju,O.A., and D.I. Dickmann|Contrasting Effects of Simazine on the Photosynthetic Physiology and Leaf Morphology of Two Populus Clones|Physiol. Plant. (Multiple Languages)55:402-406|1982|10.1111/j.1399-3054.1982.tb00312.x
25623|T||Nagy,M., and C. Hodur|Effect of Abscisic Acid (ABA) on Endogenous Gibberellin Levels in Phaseolus vulgaris L. Seeds During Their Swelling|Acta Biol. Acad. Sci. Hung.33(1): 77-86|1982|
25624|T||Sinha,B.K., S. Ghosh, and P.S. Basu|3-Hydroxymethyl Oxindole: Its Auxin Action and Metabolism in Wheat|Biochem. Physiol. Pflanzen (Multiple Languages)177:447-459|1982|10.1016/S0015-3796(82)80039-5
25630|T||Willemot,C., C.R. Slack, J. Browse, and P.G. Roughan|Effect of BASF 13-338, a Substituted Pyridazinone, on Lipid Metabolism in Leaf Tissue of Spinach, Pea, Linseed and Wheat|Plant Physiol.70:78-81|1982|10.1104/pp.70.1.78
25632|T||Olien,W.C., and M.J. Bukovac|Ethephon-Induced Gummosis in Sour Cherry: 1. Effect on Xylem Function and Shoot Water Status|Plant Physiol.70:547-555|1982|10.1104/pp.70.2.547
25633|T||Cortes,F., P. Escalza, J. Moreno, and J.L. Lopez-Campos|Effects of Fungicide Tridemorph on Mitosis in Allium cepa|Cytobios34:181-190|1982|
25635|T||Pallas,J.E.,Jr., and S.J. Kays|Inhibition of Photosynthesis by Ethylene - A Stomatal Effect|Plant Physiol.70:598-601|1982|10.1104/pp.70.2.598
25636|T||Powell,J., J.F. Stritzke, R.W. Hammond, and R.D. Morrison|Weather, Soil and 2,4-D Effects on Tallgrass Prairie in Oklahoma|J. Range Manag.35(4): 483-488|1982|10.2307/3898611
25637|T||Gordon,R.A., C.J. Scifres, and J.L. Mutz|Integration of Burning and Picloram Pellets for Macartney Rose Control|J. Range Manag.35(4): 427-430|1982|10.2307/3898597
25639|T||Flores,H.E., A. Thier, and A.W. Galston|In Vitro Culture of Grain and Vegetable Amaranths (Amaranthus spp.)|Am. J. Bot.69(7): 1049-1054|1982|10.1002/j.1537-2197.1982.tb13350.x
25641|T||Johnson,M.G., P.C. Longden, R. Finch, and J.H. Baldwin|Autumn Herbicides for the Sugar-Beet Seed Crop|Exp. Husb.38:25-31|1982|
25643|T||Randall,E.M., and R.H. Jarvis|Effect of Tri-Allate and Cultivation Practice on Wild Oats in Winter Wheat|Exp. Husb.38:32-38|1982|
25645|T||Sims,C.A., and J.R. Morris|Effects of Cultivar, Irrigation and Ethephon on the Yield, Harvest Distribution and Quality of Machine-Harvested Blackberries|J. Am. Soc. Hortic. Sci.107:542-547|1982|10.21273/JASHS.107.4.542
25646|T||Tromp,J.|Flower-Bud Formation in Apple as Affected by Various Gibberellins|J. Hortic. Sci.57(3): 277-282|1982|10.1080/00221589.1982.11515053
25647|T||Forshey,C.G.|Branching Responses of Young Apple Trees to Applications of 6-Benzylamino Purine and Gibberellin A4+7|J. Am. Soc. Hortic. Sci.107(4): 538-541|1982|10.21273/JASHS.107.4.538
25649|T||Hirano,S., T. Sagawa, H. Takahashi, N. Tanaka, H. Oishi, K. Ando, and K. Togashi|Tetranactin, a New Miticidal Antibiotic. IV. Some Properties of Tetranactin|J. Econ. Entomol.66:349-351|1973|10.1093/jee/66.2.349
25651|AT||El Sayed,M.M., M.I. Abdel-Megeed, A.A. Selim, E.M.K. Hussein, and A. El-Sisi|Field Evaluation of Compatible Pesticides and Plant Growth Regulators and Local Formulated EC's|Bull. Ain Shams Univ. Fac. Agric. 1709:10 p.|1982|
25653|T||Fromm,F.|The Eradication of Nut Grass|Science96:337-338|1942|10.1126/science.96.2493.337.b
25654|T||Weston,G.|The Effects of Crowding, Daminozide and Red to Far Red Ratios of Light on the Growth of Radish|J. Hortic. Sci.57:373-376|1982|10.1080/00221589.1982.11515066
25655|T||Chong,C., A.G. Kanakis, and B.B. Bible|Influence of Growth Regulators on Ionic Thiocyanate Content of Cruciferous Vegetable Crops|J. Am. Soc. Hortic. Sci.107(4): 586-589|1982|10.21273/JASHS.107.4.586
25656|T||Mostafa,H.A.M., S.A. Mohamedien, and S.M. Nassar|A Study on Improving Germination of Old Seeds of Sweet Pepper (Capsicum annuum L.)|Bull. Ain Shams Univ. Fac. Agric. 1808:1-17|1982|
25659|T||Schuldt,P.H., and H. Bluestone|Nematocidal Properties of 3,4-Dichlorotetrahydrothiophene-1,1-Dioxide (PRD)|Contrib. Boyce Thompson Inst.19:63-75|1957|
25661|T||May,M.J., and J. Smith|Pre-Plant Incorporation of Metribuzin for Weed Control in Maincrop Potatoes on Organic Soils|Exp. Husb.38:69-79|1982|
25663|T||Wertheim,S.J.|Fruit Russeting in Apple as Affected by Various Gibberellins|J. Hortic. Sci.57(3): 283-288|1982|10.1080/00221589.1982.11515054
25665|T||Kidd,B.R., N.H. Stephen, and H.J. Duncan|The Effect of Asulam on Purine Biosynthesis|Plant Sci. Lett.26:211-217|1982|10.1016/0304-4211(82)90093-1
25666|T||Suttle,J.C., and D.R. Schreiner|Effects of DPX-4189 (2-Chloro-N-((4-Methoxy-6-Methyl-1,3,5-Triazin-2-yl)Amino-Carbonyl)Benzenesulfonamide) on Anthocyanin Synthesis, Phenylalanine Ammonia Lyase Activity, and Ethylene Production in Soybean Hypocotyls|Can. J. Bot.60:741-745|1982|10.1139/b82-097
25667|T||Takahashi,H., and H. Suge|Sex Expression and Ethylene Production in Cucumber Plants as Affected by 1-Aminocyclopropane-1-Carboxylic Acid|J. Jpn. Soc. Hortic. Sci.51(1): 51-55|1982|10.2503/jjshs.51.51
25668|T||Bielinska-Czarnecka,M., A. Banas, and T. Borek|The Effect of Abscisic Acid, Coumarin, Scopoletin and Cinnamic Acid on the Formation of Roots in Isolated Potato Sprouts|Acta Agrobot. (Multiple Languages)34(2): 235-238|1982|10.5586/aa.1981.018
25670|T||Cerkauskas,R.F., O.D. Dhingra, J.B. Sinclair, and S.R. Foor|Effect of Three Desiccant Herbicides on Soybean (Glycine max) Seed Quality|Weed Sci.30:484-490|1982|10.1017/S0043174500041023
25674|T||Swan,D.G.|Long-Term Field Bindweed (Convolvulus arvensis) Control in Two Cropping Systems|Weed Sci.30:476-480|1982|10.1017/S004317450004100X
25675|T||Chappell,W.E., and M.L. Link|Soil Sterilants for Maintaining Electric Sub-Stations|Proc. South. Weed Sci. Soc.30:330-331|1977|
25677|T||Koba,T., and K. Tsunewaki|Induction of Mutations by Ethyl Methanesulphonate Treatment of Monosomics of Common Wheat, Triticum aestivum L.|Idengaku Zasshi32(3): 259-265|1982|
25681|T||Maluszynski,M., and T. Sodkiewicz|Different Frequencies of Point Mutations in Barley Ears After Treatment with N-Nitroso-N-Methylurea|Bull. Acad. Pol. Sci. Ser. Sci. Biol.24(11): 647-653|1976|
25683|T||Bhowmik,P.C.|Herbicidal Control of Common Milkweed (Asclepias syriaca)|Weed Sci.30(4): 349-351|1982|10.1017/S004317450004073X
25684|T||Bosch,E., J. Meyer, and W. Scharen|The Evaluation of a Combination, Chlorthalmethyl + Methazole, (S 1445) for Weed Control in Arable and Leguminous Crops|Proc. Br. Weed Control Conf.12:439-446|1974|
25685|T||Baldwin,J.H., and D.B. Livingston|Chemical Control of Alopecurus myosuroides in Winter Wheat|Proc. Br. Weed Control Conf.11:281-287|1972|
25686|T||Weaver,S.E., S.I. Warwick, and B.K. Thomson|Comparative Growth and Atrazine Response of Resistant and Susceptible Populations of Amaranthus from Southern Ontario|J. Appl. Ecol.19:611-620|1982|10.2307/2403493
25687|T||Hewson,W.B., and J.T. Hays|Ureaform Fertilizer-Herbicide Combinations|J. Agric. Food Chem.20(4): 892-894|1972|10.1021/jf60182a038
25688|T||Killilea,D.M., and L. McNeill|The Control of Brachystegia boehmii Taub. Trees with Stem Injections of Various Tordon Formulations|Zimb. J. Agric. Res.20(1): 71-75|1982|
25689|T||Johnson,B.J.|Influence of Herbicide Rotation Treatments on Species Composition of Weeds in Turfgrass|Weed Sci.30(5): 548-552|1982|10.1017/S004317450004114X
25690|T||Eshel,Y., and B. Rubin|Metabolism of Fluometuron in Cotton and Weeds as a Basis for Selective Action|In: A.S.Tahory (Ed.), Pesticide Chemistry: Herbicides, Fungicides, Formulation Chemistry, Vol.5, Gordon and Breach Science Publication:113-124|1972|
25692|T||Akobundu,I.O.|Weed Control in Cowpea (Vigna unguiculata) in the Humid Tropics|Weed Sci.30:331-334|1982|10.1017/S0043174500040698
25693|T||Rubin,J.L., C.G. Gaines, and R.A. Jensen|Enzymological Basis for Herbicidal Action of Glyphosate|Plant Physiol.70(3): 833-839|1982|10.1104/pp.70.3.833
25694|T||Jackson,P.C., and J.B.S. John|Effects of 2,4-Dinitrophenol on Membrane Lipids of Roots|Plant Physiol.70:858-862|1982|10.1104/pp.70.3.858
25698|T||Pereira,M.F.A., and J.E. Dale|Effects of 2,4-Dichlorophenoxyacetic Acid on Shoot Apex Development of Phaseolus vulgaris|Z. Pflanzenphysiol. (Multiple Languages)107:169-177|1982|10.1016/S0044-328X(82)80103-7
25699|T||Killilea,D.M., and L. McNeill|Chemical Control of Coppicing Shoots of Brachystegia boehmii Taub., Brachystegia spiciformis Benth. and Julbernardia globiflora (Benth.) Troupin: 4. Basal Stem Painting with Tordon 155|Zimb. J. Agric. Res.20(1): 59-70|1982|
25700|T||Fletcher,R.A., K. Kallidumbil, and S.N. Bhardwaj|Effects of Fusicoccin on Fresh Weight and Chlorophyll Levels in Cucumber Cotyledons|Plant Cell Physiol.23(4): 717-719|1982|
25703|T||Krishnamoorthy,H.N., C.L. Goswami, and J. Dayal|Effect of Waterlogging and Growth Retardants on Peanut (Arachis hypogaea L. var. M 194)|Indian J. Plant Physiol.24:381-386|1981|
25706|T||Pal,S.S., and N. Sethunathan|Concentration of Iron and Manganese in Rice Plants as Influenced by Hexachlorocyclohexane Applied to Soil|Plant Soil65(3): 437-442|1982|10.1007/BF02375067
25707|T||Cooney,P.A., D.G. Gibbs, and K.D. Golinski|"Evaluation of the Herbicide ""Roundup"" for Control of Bitou Bush (Chrysanthemoides monilifera)"|J. Soil Conserv. NSW38(1): 6-12|1982|
25709|T||Hankin,L., and D.E. Hill|Yield Losses and Increases in Certain Vitamins in Cucumbers Treated with the Herbicide 3-Amino-2,5-Dichlorobenzoate and Urea Fertilizer|Soil Sci.134(3): 193-197|1982|10.1097/00010694-198209000-00008
25710|T||Maftoun,M., A.M. Sameni, M. Darbeheshti, J. Yasrebi, and S.M. Hojjati|Toxicity of Nitrapyrin to Sunflower Under Different N Nutrition Regimes|Plant Soil65(3): 411-414|1982|10.1007/BF02375061
25711|T||Kumar,K.B., and P.A. Khan|Peroxidase EC-1.11.1.7 and Polyphenol Oxidase EC-1.10.3.2 in Excised Ragi Eleusine-caracana Cultivar PR-202 Leaves During Senescence|Indian J. Exp. Biol.20(5): 412-416|1982|
25713|T||Shakirova,F.M., K. Konrad, N.L. Klyachko, and O.N. Kulaeva|Relationship Between Cytokinin Action on Growth of Isolated Pumpkin Cotylendons and Synthesis of RNA and Protein in Them|Sov. Plant Physiol.29(1): 42-50|1982|
25714|T||Melekhov,E.I., L.K. Ramazanova, N.A. Avsievich, and G.F. Gladkova|Two Mechanisms Governing Inhibition by Elongation with Superoptimal 2,4-D Concentrations of 2,4-D|Sov. Plant Physiol.29(1): 51-57|1982|
25716|T||Tripathi,R.K., and G. Kahl|Stimulation of Synthesis and Translational Activity of Polyadenylated Messenger RNA in Wounded Potato Tubers by 2,4-Dichlorophenoxyacetic Acid|Biochem. Biophys. Res. Commun.106(4): 1218-1225|1982|10.1016/0006-291X(82)91242-6
25719|T||Sheaffer,C.C., D.L. Rabas, F.I. Frosheiser, and D.L. Nelson|Nematicides and Fungicides Improve Legume Establishment|Agron. J.74:536-538|1982|10.2134/agronj1982.00021962007400030031x
25720|T||Burton,G.W., and W.W. Hanna|Stable Cytoplasmic Male-Sterile Mutants Induced in Tift 23DB1, Pearl Millet with Mitomycin and Streptomycin|Crop Sci.22:651-652|1982|10.2135/cropsci1982.0011183X002200030053x
25721|T||Dahnous,K., G.T. Vigue, A.G. Law, C.F. Konzak, and D.G. Miller|Height and Yield Response of Selected Wheat, Barley and Hexaploid Triticale Cultivars to Ethephon|Agron. J.74:580-582|1982|10.2134/agronj1982.00021962007400030041x
25723|T||Kossuth,S.V., D.R. Roberts, J.B. Huffman, and S.C. Wang|Resin Acid, Turpentine, and Caloric Content of Paraquat-Treated Slash Pine|Can. J. For. Res.12:489-492|1982|10.1139/x82-076
25727|T||Christopher,D.A., and J.B. Loy|Influence of Foliarly Applied Growth Regulators on Sex Expression in Watermelon|J. Am. Soc. Hortic. Sci.107(3): 401-404|1982|10.21273/JASHS.107.3.401
25728|T||Hammett,L.K., and T.J. Monaco|Effect of Oryzalin and Other Herbicide Treatments on Selected Quality Factors of Sweet Potatoes|J. Am. Soc. Hortic. Sci.107(3): 432-436|1982|10.21273/JASHS.107.3.432
25729|T||Pill,W.G., and D.L. Sparks|Effects of Nitrapyrin and Nitrogen Form on Tomato Growth, Water Relations, and Ion Composition|J. Am. Soc. Hortic. Sci.107(3): 487-492|1982|10.21273/JASHS.107.3.487
25730|T||Alamu,S., C.R. McDavid, and E.J. Duncan|Production of Viable Seed in Gibberellic Acid-Treated Tannia (Xanthosoma sagittifolium (L.) Schott) Plants|Trop. Agric.59(4): 333-334|1982|
25735|T||Novak,F.J., and M. Dolezelova|Hormonal Control of Growth and Differentiation in the In Vitro Cultured Tissue of Cucumber (Cucumis sativus)|Biologia (Bratisl.)37:283-290|1982|
25738|T||Guardiola,J.L., C. Monerri, and M. Agusti|The Inhibitory Effect of Gibberellic Acid on Flowering in Citrus|Physiol. Plant. (Multiple Languages)55:136-142|1982|10.1111/j.1399-3054.1982.tb02276.x
25740|T||Carpita,N., and K.M. Tarmann|Promotion of Hypocotyl Elongation in Loblolly Pine (Pinus taeda) by IAA|Physiol. Plant. (Multiple Languages)55:149-154|1982|10.1111/j.1399-3054.1982.tb02278.x
25742|T||Dhawan,R.S., and K.K. Nanda|Stimulation of Root Formation on Impatiens balsamina L. Cuttings by Coumarin and the Associated Biochemical Changes|Biol. Plant. (Praha)24(3): 177-182|1982|10.1007/BF02883658
25744|T||Barrentine,W.L., E.E. Hartwig, C.J.,Jr. Edwards, and T.C. Kilen|Tolerance of Three Soybean (Glycine max) Cultivars to Metribuzin|Weed Sci.30:344-348|1982|10.1017/S0043174500040728
25746|T||Mellis,J.M., P. Pillai, D.E. Davis, and B. Truelove|Metolachlor and Alachlor Effects on Membrane Permeability and Lipid Synthesis|Weed Sci.30:399-404|1982|10.1017/S0043174500040832
25747|T||Rodecap,K.D., and D.T. Tingey|Stress Ethylene:  A Bioassay for Rhizosphere-Applied Phytotoxicants|Environ. Monit. Assess.1(2): 119-127|1981|10.1007/BF00395117
25748|T||LaPre,L.F., F.V. Sances, N.C. Toscano, E.R. Oatman, V. Voth, and M.W. Johnson|The Effects of Acaricides on the Physiology, Growth, and Yield of Strawberries|J. Econ. Entomol.75:616-619|1982|10.1093/jee/75.4.616
25750|T||Hoagland,R.E., and S.O. Duke|Effects of Glyphosate on Metabolism of Phenolic Compounds VIII. Comparison of the Effects of Aminooxyacetate and Glyphosate|Plant Cell Physiol.23(6): 1081-1088|1982|
25751|T||Frommhold,I.|Effect of Ethephon on Stomatal Opening in Detached Epidermal Strips of Tobacco Leaves (Nicotiana tabacum L. cv. Samsun)|Biol. Plant. (Praha)24:303-306|1982|10.1007/BF02879467
25752|T||Badr,A., and T.T. Elkington|Antimitotic and Chromotoxic Activities of Isoproturon in Allium cepa and Hordeum vulgare|Environ. Exp. Bot.22(3): 265-270|1982|10.1016/0098-8472(82)90017-X
25753|T||Zamecnik,M.V., and P.C. Zamecnik|Mutation of Chloroplasts in Ageratum, Following Treatment with 5-Bromodeoxyuridine|Exp. Cell Res.45(1): 218-229|1966|10.1016/0014-4827(67)90125-5
25754|T||Westerman,L., and J.G. Roddick|Sterol Composition of Dwarf and Tall Pisum sativum Seedlings in Relation to Gibberellic-Acid-Enhanced Shoot Growth|Phytochemistry21(7): 1567-1572|1982|10.1016/S0031-9422(82)85019-X
25755|T||Shimomura,H., Y. Sashida, H. Nakata, and M. Imamura|Plant Growth Inhibitors from Methanol Extract of Gallae rhois|Shoyakugaku Zasshi36(2): 132-133|1982|
25758|T||Reddy,C.S., and J.D. Smith|Induced Systematic Mutations and Their Significance in Evolution of Sorghum|Indian J. Genet. Plant Breed.41:334-339|1981|
25759|T||Kumar,V., and W.C. Mayaki|Effect of Different Maturity Dates of Preceding Cotton on Growth, Yield and Yield Components of Wheat|Trop. Agric.59(3): 202-206|1982|
25760|T||Doll,J.D., and W. Piedrahita|Effect of Glyphosate on the Sprouting of Cyperus rotundus L. Tubers|Weed Res. (Multiple Languages)22:123-128|1982|10.1111/j.1365-3180.1982.tb00154.x
25761|T||Bakale,V.L., and R.L. Kolhe|Effect of Herbicides on Meiosis in Solanum surattense Burm. F.|Biovigyanam8(1): 7-9|1982|
25763|T||Berard,L.S., and E.C. Lougheed|Electrolyte Leakage from Daminozide-Treated Apples Held in Air, Low-Pressure and Controlled-Atmosphere Storage|J. Am. Soc. Hortic. Sci.107:421-425|1982|10.21273/JASHS.107.3.421
25766|T||Longman,K.A.|Effects of Gibberellin, Clone and Environment on Cone Initiation, Shoot Growth and Branching in Pinus contorta|Ann. Bot.50:247-257|1982|10.1093/oxfordjournals.aob.a086362
25770|T||Sharma,S.K., and B. Sharma|Induced Chlorophyll Mutations in Lentil|Indian J. Genet. Plant Breed.41(3): 328-333|1981|
25771|T||Hassan,E.A., and A. El Moursi|Response of Broad Bean Plants to Low Cycocel Concentration Treatments in Comparison to a Commercial Source of Cytokinin and Together|Z. Acker- Pflanzenbau. (Multiple Languages)151:81-88|1982|
25773|T||Vicherkova,M., and J. Patkova|Adsorption of Vaporized Terpenes by Soil Affecting Rye Grain Germination Rate and Seedling Growth|Scr. Fac. Sci. Nat. Univ. Purkynianae Brun.12(8): 383-392|1982|
25774|T||Dobrovich,L.|Influence of Temperature, Including Freezing, on the Effects of Pyramin and Betanal on Sugarbeet|Swed. J. Agric. Res.12:111-116|1982|
25775|T||Machado,V.S., S.C. Phatak, and I.L. Nonnecke|Inheritance of Tolerance of the Tomato (Lycopersicon esculentum Mill.) to Metribuzin Herbicide|Euphytica 31:129-138|1982|10.1007/BF00028315
25777|T||Sharkey,T.D., G.F. Stevenson, and D.M. Paton|Effects of G, a Growth Regulator from Eucalyptus grandis, on Photosynthesis|Plant Physiol.69:935-938|1982|10.1104/pp.69.4.935
25779|T||Holm,R.E., and D.E. Stallard|Metabolism of a Pyrrolidine Urea Herbicide in Corn and Weeds|Weed Sci.22(1): 10-14|1974|10.1017/S0043174500036419
25781|T||Martin,C., and D.H. Northcote|The Action of Exogenous Gibberellic Acid on Protein and mRNA in Germinating Castor Bean Seeds|Planta (Multiple Languages)154:168-173|1982|10.1007/BF00387912
25782|T||Martin,C., and D.H. Northcote|The Action of Exogenous Gibberellic Acid on Isocitrate Lyase - mRNA in Germinating Castor Bean Seeds|Planta (Multiple Languages)154:174-183|1982|10.1007/BF00387913
25783|T||Kononowicz,H., A.K. Kononowicz, L.D. Wasilewska-Dabrowska, and K. Kleczkowski|Cytomorphological and Biochemical Changes in Dwarf Pea Shoots Induced by Gibberellic Acid|Int. J. Biochem.14(5): 421-428|1982|10.1016/0020-711X(82)90028-3
25784|T||Kane,M.E., and L.S. Albert|Environmental and Growth Regulator Effects on Heterophylly and Growth of Proserpinaca Intermedia (Haloragaceae)|Aquat. Bot.13:73-85|1982|10.1016/0304-3770(82)90042-0
25785|T||Horton,R.F., and A.B. Samarakoon|Petiole Growth in the Celery-Leaved Crowfoot (Ranunculus sceleratus L.): Effects of Auxin-Transport Inhibitors|Aquat. Bot.13:97-104|1982|10.1016/0304-3770(82)90044-4
25786|T||Galli,M.G., and M. Levi|Increased Drought Resistance Induced by Pretreatment with Abscisic Acid in Germinating Embryos of Haplopappus gracilis|Physiol. Plant. (Multiple Languages)54:425-430|1982|10.1111/j.1399-3054.1982.tb00703.x
25788|T||Nes,W.D., T.J. Douglas, J.T. Lin, E. Heftmann, and L.G. Paleg|Regulation of Isopentenoid Biosynthesis by Plant Growth Retardants in Nicotiana tabacum|Phytochemistry21(3): 575-579|1982|10.1016/0031-9422(82)83143-9
25790|T||Manoharan,T.H., N. Jayachandran, D. Karunagaran, and K.R. Natarajan|Influence of Fluchloralin on the Growth and Metabolism of Maize Seedlings|Plant Biochem. J.8(2): 103-116|1981|
25794|T||El-Kholy,E., H. Hafez, and F. Naeem|Effect of Some Growth Regulators on Yield and Quality of Sweetmelon and Muskmelon|J. Agric. Sci.98:645-649|1982|10.1017/S0021859600054459
25802|T||Lazarte,J.E., M.S. Gaiser, and O.R. Brown|In Vitro Propagation of Epiphyllum chrysocardium|Hortscience17(1): 84-|1982|10.21273/HORTSCI.17.1.84
25803|T||Tanabe,M.J.|Single Node Stem Propagation of Alyxia olivaeformis|Hortscience17(1): 50-|1982|10.21273/HORTSCI.17.1.50
25804|T||Morris,D.B., P.A. Birch, and P.W. Rose|The Development of Metamitron, A Highly Selective and Versatile Herbicide, for Use on Sugar Beet in the Uk|Br. Crop Prot. Conf.1:189-196|1976|
25806|T||Donald,W.W., R.V. Parke, and R.H. Shimabukuro|The Effects of Diclofop-Methyl on Root Growth of Wild Oat|Physiol. Plant. (Multiple Languages)54:467-474|1982|10.1111/j.1399-3054.1982.tb00710.x
25809|T||De,R., G. Giri, G. Saran, R.K. Singh, and G.S. Chaturved|Modification of Water Balance of Dryland Wheat Through the Use of Chlormequat Chloride|J. Agric. Sci.98:593-598|1982|10.1017/S002185960005437X
25810|T||Clark,S.M., and D.J. Scott|Effects of Carboxin, Benomyl and Captan on the Germination of Wheat During the Post-Harvest Dormancy Period|Seed Sci. Technol.10:87-94|1982|
25811|T||Babiker,A.G.T.|Chemical Weed Control in Irrigated Direct-Seeded Rice in the Sudan Gezira|Weed Res. (Multiple Languages)22:117-121|1982|10.1111/j.1365-3180.1982.tb00153.x
25813|T||Fujimoto,M., and H. Yamagata|Use of Artificial Mutations in Plant Breeding:  13.  Mutagenicity of Several Alkylating Agents in Rice (Oryza sativa)|Jpn. J. Breed.32(1): 17-25|1982|
25814|T||Walter,H., H.W. Gausman, D.E. Escobar, R.R. Rodriguez, and F.R. Rittig|Response of Cantaloupe and Cotton Plants to the Antitranspirant Farnesol|J. Rio Grande Val. Hortic. Soc.35:27-34|1982|
25815|T||Cathey,G.W., K.E. Luckett, and S.T. Rayburn|Accelerated Cotton Boll Dehiscence with Growth Regulator and Desiccant Chemicals|Field Crops Res.5(2): 113-120|1982|10.1016/0378-4290(82)90011-9
25816|T||Johnson,C.R., D.B. McConnell, and J.N. Joiner|Influence of Ethephon and Light Intensity on Growth and Acclimatization of Ficus benjamina|Hortscience17:614-615|1982|10.21273/HORTSCI.17.4.614
25817|T||Mannini,F., and K. Ryugo|Effect of 2-Chloroethylphosphonic Acid (Ethephon) on the Endogenous Levels of Gibberellin-Like Substances and Abscisic Acid in Buds and Developing Shoots of Three Grape Varieties|Am. J. Enol. Vitic.33(3): 164-167|1982|10.5344/ajev.1982.33.3.164
25818|T||Goode,D.K.,Jr., G.W. Krewer, R.P. Lane, J.W. Daniell, and G.A. Couvillon|Rooting Studies of Dormant Muscadine Grape Cuttings|Hortscience17(4): 644-645|1982|10.21273/HORTSCI.17.4.644
25819|T||Putnam,A.R., and J.F. Hancock|Influence of Napropamide on Strawberry Growth and Fruit Yield|Hortscience17(4): 650-651|1982|10.21273/HORTSCI.17.4.650
25821|T||Sibbett,G.S., and G.C. Martin|Cumulative Effects of Ethephon as a Fruit Thinner on French Prune|Hortscience17:665-666|1982|10.21273/HORTSCI.17.4.665
25822|T||Greene,D.W., W.J. Lord, and W.J. Bramlage|Effects of Gibberellins A4+7 and 6-Benzylamino Purine on Fruit Set, Fruit Characteristics, Seed Content, and Storage Quality of 'McIntosh' Apples|Hortscience17(4): 653-654|1982|10.21273/HORTSCI.17.4.653
25823|T||Greene,D.W., W.J. Manning, and D.R. Cooley|Effect of the Ectomycorrhizal Fungus Pisolithus tinctorius and Auxin Rooting Formulations on Growth of 'Cortland' Apple Trees|Hortscience17(4): 655-656|1982|10.21273/HORTSCI.17.4.655
25824|T||Rodriguez,R.|Stimulation of Multiple Shoot-Bud Formation in Walnut Seeds|Hortscience17(4): 592-|1982|10.21273/HORTSCI.17.4.592
25825|T||Muller,I.A., and M.J. Young|Influence of Gibberellic Acid and Effectiveness of Several Carriers on Growth of Sour Orange (Citrus aurantium L.) Seedlings|Hortscience17(4): 673-674|1982|10.21273/HORTSCI.17.4.673
25827|T||Chin,C.K.|Promotion of Shoot and Root Formation in Asparagus In Vitro by Ancymidol|Hortscience17:590-591|1982|10.21273/HORTSCI.17.4.590
25828|T||Arteca,R.N.|Effect of Root Applications of Kinetin and Gibberellic Acid on Transplanting Shock in Tomato Plants|Hortscience17(4): 633-634|1982|10.21273/HORTSCI.17.4.633
25829|T||Lee,E.H., and J.H. Bennett|Superoxide Dismutase: A Possible Protective Enzyme Against Ozone Injury in Snap Beans (Phaseolus vulgaris L.)|Plant Physiol.69(6): 1444-1449|1982|10.1104/pp.69.6.1444
25831|T||Stoffella,P.J., and R.M. Sonoda|Reduction of Onion Yields by Chlorothalonil|Hortscience17(4): 628-629|1982|10.21273/HORTSCI.17.4.628
25832|T||Liu,M.T., and C.Y. Huang|Effects of Herbicides on the Nitrogen Fixing Activity of Soybean Plant|Proc. Natl. Sci. Counc. Part A6(3): 197-202|1982|
25833|T||Karavaiko,N.N., A.D. Volodarskii, and O.N. Kulaeva|Effect of Cytokinin on Composition of the Proteins of Isolated Pumpkin Cotyledons During the Process of Their Growth and Greening|Sov. Plant Physiol.28(5, Pt. 1): 661-665|1981|
25836|T||Devedzhyan,A.G., L.I. Yanina, K.K. Khazhakyan, and M.K. Chailakhyan|Regulation of Tuberization by Means of Physiologically Active Compounds in Two Forms of Potato (Solanum chacoense and S. chacoense x S. acaule)|Sov. Plant Physiol.28(5, Pt. 1): 677-682|1981|
25838|T||Rost,T.L., and M. Sammut|Regulation of Cell Division in Pea Root Tips After Wounding: A Possible Role for Ethylene|Protoplasma (Multiple Languages)111:1-9|1982|10.1007/BF01287641
25839|T||Murty,Y.S., C.M. Govil, and R. Govila|Effect of Some Growth Regulators on Pollen Germination and Pollen Tube Growth in Vigna radiata (L.) Wilczek var. Pusa baisakhi|Geobios9:112-114|1982|
25840|T||Datta,J.K., and S.K. Pain|Effect of GA3 on the Growth and Metabolism of Zea mays Seedlings|Geobios9:104-107|1982|
25842|T||Longo,G.P., G. Rossi, R. Fantelli, M.G. Bussolati, and C.P. Longo|Expansion Growth is not the Main Driving Force for Cytokinin-Promoted Development of Cotyledons|Plant Sci. Lett.25:271-279|1982|10.1016/0304-4211(82)90157-2
25844|T||Miller,C.O.|Cytokinin Modification of Mitochondrial Function|Plant Physiol.69(6): 1274-1277|1982|10.1104/pp.69.6.1274
25848|T||Hare,R.C., and S.B.,Jr. Land|Effect of Cold Storage and Chemical Treatment on Rooting of Hardwood Sycamore Cuttings|Can. J. For. Res.12:417-419|1982|10.1139/x82-060
25851|T||Agusti,M., F. Garcia-Mari, and J.L. Guardiola|Gibberellic Acid and Fruit Set in Sweet Orange|Sci. Hortic.17:257-264|1982|10.1016/0304-4238(82)90048-6
25852|T||Copping,L.G., and R.F. Brookes|BTS 30 843--A New Pre-Emergence Grass Herbicide|Proc. Br. Weed Control Conf.12:808-915|1974|
25853|T||Singh,G., and M. Kaur|Effect of Growth Regulators on Podding and Yield of Mung Bean|Indian J. Plant Physiol.24:366-380|1981|
25854|T||Minton,N.A., D.K. Bell, and A.S. Csinos|Effects of Application Time of Ethylene Dibromide and Phenamiphos on Nematodes, Southern Stem Rot, Thrips, and Yield of Peanuts|Nematropica12(1): 21-32|1982|
25856|T||Kulshrestha,G., N.T. Yaduraju, and V.S. Mani|The Relative Toxicity of the S-Triazine Herbicides Atrazine and Simazine to Crops|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(4): 341-354|1982|
25857|T||Varkey,M., and R.K. Nigam|A Gradual Reduction of Female Structures in the Pistillate Flowers of Ricinus communis L. (Castor-Bean) with Chlorflurenol (Morphactin)|Biol. Plant. (Praha)24:152-154|1982|10.1007/BF02902863
25858|T||Bansal,M.P., and K.K. Nanda|IAA Oxidase Activity in Relation to IAA Effects on Rooting Stem Cuttings|Biochem. Physiol. Pflanzen (Multiple Languages)177:216-221|1982|10.1016/S0015-3796(82)80003-6
25863|T||Raja Rao,P.F., and K.V. Madhava Rao|Effect of Gibberellic Acid and (2-Chloroethyl)-Trimethylammonium Chloride on Leaf Development of Pigeonpea (Cajanus Cajan (L.) Millsp.)|Indian J. Plant Physiol.24:394-400|1981|
25866|T||Huang,S.Y., and H.W. Gausman|Ultrastructural Observations on Increase of Cold Tolerance in Cotton Plants (Gossypium hirsutum L.) by Mepiquat Chloride|J. Rio Grande Val. Hortic. Soc.35:35-42|1982|
25867|T||Ploszynski,M., and H. Zurawski|The Phytotoxic Action of Triazine Herbicides on Flax, Beets and Buckwheat Seedlings, and Some Physiological Changes Connected with It|Acta Agrobot. (Multiple Languages)24(2): 206-215|1971|
25869|T||Gupta,O.P., and B.K. Dhupia|Efficacy of Atrazine in Maize Planted on Different Dates as Affected by Its Residual Phytotoxicity Under Varying Levels and Methods of Its Application|Indian J. Agric. Sci.41(3): 221-227|1971|
25870|T||Johnson,B.J.|Herbicides, Sprigging Rates, ad Nitrogen Treatements for Establishment of Tifway Bermudagrass|Agron. J.65:969-972|1973|10.2134/agronj1973.00021962006500060037x
25873|T||Fujinami,A., and A. Mine|Effect of Substituted beta-Phenoxyacrylates on Shoot Elongation of Barnyard-Grass|Agric. Biol. Chem.34(8): 1157-1161|1970|10.1080/00021369.1970.10859758
25874|T||Baur,J.R., R.W. Bovey, and J.D. Smith|Effect of DMSO and Surfactant Combinations on Tissue Concentrations of Picloram|Weed Sci.20(4): 298-302|1972|10.1017/S0043174500035694
25875|T||Khan,A.A., and C.C. Anojulu|Abscisic Acid Induced Changes in Nucleotide Composition of Rapidly Labelled RNA Species of Pear Embryos|Biochem. Biophys. Res. Commun.38(6): 1069-1075|1970|10.1016/0006-291X(70)90348-7
25878|T||Cassidy,J.C.|Weed Control in Vegetables on Peat Soils|Sci. Hortic.24:68-72|1972|
25879|T||Griffiths,W., J.M. Belien, J.F. Salembier, and H. Verfaillie|Weed Control in Sugar Beet with Ethofumesate|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)39:493-506|1974|
25880|T||Spotts,R.A.|Chemical Eradication of Grape Black Rot Caused by Guignardia bidwellii|Plant Dis. Rep.61(2): 125-128|1977|
25882|T||James,T.K., and G.C. Atkinson|Herbicide Tolerance of Sainfoin|Proc. N. Z. Weed Pest Control Conf.31:121-123|1978|10.30843/nzpp.1978.31.9342
25885|T||Creager,R.A.|Evaluation of Herbicides on Six Species of Container-Grown Woody Ornamentals|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:238-239|1979|
25886|T||Ahrens,J.F.|Herbicides for Ground Cover Plantings|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:256-261|1979|
25887|T||Torello,W.A., and J.A. Jagschitz|Crabgrass Control in Turfgrass Using Preemergent Herbicides and Surfactants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:297-302|1979|
25888|T||Sanok,W.J., G.W. Selleck, and J.F. Creighton|Weed Control and Phytotoxicity with Herbicides in Five Tomato Varieties|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:332-335|1979|
25906|T||Szilvassy,L.|Efficiency of Molinate and Butralin Herbicides Applied to Field-Sown Rice|Il Riso.28(2): 163-178|1979|
25919|T||Toth,I., and F. Zsoldos|Effects of Saturn-50 and Synpran-111 Herbicides on the Membrane-Bound ATP-ase Activity of Roots and Young Shoots of Rice|Acta Biol. Szeged.22(1-4): 73-78|1976|
25936|T||Varma,A.S., C.K. Peethanbaran, S. Balakrishnan, and M.R. Menon|In Vitro Effects of Certain Herbicide Formulations on Corticium sasakii (Shirai) Matsumoto|Agric. Res. J. Kerala16(1): 114-116|1978|
25940|T||Schilcher,H.|Influence of Herbicides and Some Heavy Metals on Growth of Matricaria chamomilla L. and the Biosynthesis of the Essential Oils|Acta Hortic.73:339-341|1978|10.17660/ActaHortic.1978.73.43
25963|T||Mitchell,W.H., A.E. McHugh, and G.J. Hendricks|Effect of Surfactants on Germination of Hairy Crabgrass and Annual Bluegrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:301-302|1978|
25976|T||Eshel,J., R.L. Zimdahl, and E.E. Schweizer|Uptake and Translocation of Ethofumesate in Sugar-Beet Plants|Pestic. Sci.9(4): 301-304|1978|10.1002/ps.2780090405
25978|T||Rahman,A., B.E. Manson, and B. Burney|Effect of Phosphorus on Phytotoxicity and Residual Activity of Atrazine|Proc. N. Z. Weed Pest Control Conf.29:124-128|1976|10.30843/nzpp.1976.29.9117
25979|T||Wright,B.J., J.R. Dowsett, P.H. Rubery, A.C. Baillie, and J.R. Corbett|Rational Herbicide Design by Synthesis of Inhibitors for the Peroxidase Catalysed Oxidation of Idolyl-3-Acetic Acid|Pestic. Sci.4:785-794|1973|10.1002/ps.2780040604
25982|T||Kamoen,O., G. Jamart, R. Moermans, L. Vandeputte, and D. Dubourdieu|Comparative Study of Phytotoxic Secretions of Botrytis cinerea Pers. ex. Fr|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)43:847-857|1978|
25983|T||Muniyappa,T.V., Dasappa, and T.V.R. Prasad|Effect of Herbicides on Germination and Growth of Crops at Different Sowing Intervals|Mysore J. Agric. Sci.10(4): 545-552|1976|
25985|T||Manglicmot,J.M., A.M. Salisi, and P.R. Casayuran|A Study on the Reaction of Taichung 31 Variety of Wheat to Herbicides, Lorox and Karmex, in a Pre-Emergence Application to the Plant|Philipp. J. Plant Ind.38(1/2): 30-44|1973|
25987|T||Tomkins,D.J., and W.F. Grant|Differential Response of 14 Weed Species to Seven Herbicides in Two Plant Communities|Can. J. Bot.52(3): 525-533|1974|10.1139/b74-068
25989|T||Smith,J.R., and B.W. Ferry|The Effects of Simazine, Applied for Weed Control, on the Mycorrhizal Development of Pinus Seedlings|Ann. Bot.43:93-99|1979|10.1093/oxfordjournals.aob.a085615
25990|T||Muslih,R.K., and D.L. Linscott|Regulation of Lipid Synthesis in Soybeans by Two Benzoic Acid Herbicides|Plant Physiol.60:730-735|1977|10.1104/pp.60.5.730
25995|T||Wills,G.D.|Translocation of Bentazon in Soybeans and Common Cocklebur|Weed Sci.24(6): 536-540|1976|10.1017/S0043174500062895
25996|T||Klepper,L.A.|Nitrite Accumulation Within Herbicide-Treated Leaves|Weed Sci.24(6): 533-535|1976|10.1017/S0043174500062883
25997|T||Robocker,W.C., and B.A. Zamora|Translocation and Metabolism of Dicamba in Western Bracken|Weed Sci.24:435-438|1976|10.1017/S0043174500066352
25998|T||Sharma,M.P., W.H. Vanden Born, H.A. Friesen, and D.K. McBeath|Penetration, Translocation, and Metabolism of 14C-Difenzoquat in Wild Oat and Barley|Weed Sci.24:379-384|1976|10.1017/S0043174500066224
25999|T||Wills,G.D.|Translocation of 14C-Methazole in Cotton|Weed Sci.24(4): 370-374|1976|10.1017/S0043174500066200
26000|T||Nalewaja,J., and K.A. Adamczewski|Vaporization and Uptake of Atrazine with Additives|Weed Sci.24:217-223|1976|10.1017/S0043174500065796
26001|T||Jeffery,L.S., J. Connell, T. McCutchen, and J.R. Overton|Response of Prickly Sida and Soybeans to Various Herbicides|Weed Sci.24(2): 202-204|1976|10.1017/S0043174500065759
26002|T||Kapusta,G.|Seedbed Tillage and Herbicide Influence on Soybean (Glycine max) Weed Control and Yield|Weed Sci.27(5): 520-526|1979|10.1017/S0043174500044520
26003|T||Behrens,R., and W.E. Lueschen|Dicamba Volatility|Weed Sci.27:486-493|1979|10.1017/S0043174500044453
26004|T||Rafii,Z.E., F.M. Ashton, and R.K. Glenn|Metabolic Sites of Action of Fluridone in Isolated Mesophyll Cells|Weed Sci.27:422-426|1979|10.1017/S0043174500044313
26005|T||Jacques,G.L., and R.G. Harvey|Vapor Absorption and Translocation of Dinitroaniline Herbicides in Oats and Peas|Weed Sci.27(9): 371-374|1979|10.1017/S0043174500044222
26006|T||Hall,O.|Limitations of Surfactant and Ph Effects on Herbicide Behavior in Woody Plants|Weed Sci.21(3): 221-223|1973|10.1017/S0043174500032161
26007|T||Scott,H.D., and R.E. Phillips|Absorption of Herbicides by Soybean Seed|Weed Sci.21(1): 71-76|1973|10.1017/S0043174500031738
26008|T||Davis,D.G., and K.E. Dusbabek|Effect of Diallate on Foliar Uptake and Translocation of Herbicides in Pea|Weed Sci.21(1): 16-18|1973|10.1017/S0043174500031581
26009|T||Giannopolitis,C.N., and G.S. Ayers|Enhancement of Chloroplast Photooxidations with Photosynthesis-Inhibiting Herbicides and Protection with Nadh Or Nadph|Weed Sci.26(5): 440-443|1978|10.1017/S0043174500050281
26010|T||Johnson,B.J.|Response of Zoysia (Zoysia spp.) and Bermudagrass (Cynodon dactylon) Cultivars to Herbicide Treatments|Weed Sci.26(5): 493-497|1978|10.1017/S0043174500050396
26011|T||Lord,W.J., and E. Vlach|Responses of Peach Trees to Herbicides, Mulch, Mowing, and Cultivation|Weed Sci.21(3): 227-229|1973|10.1017/S0043174500032185
26012|T||Milbocker,D.C.|Chemical Weed Control in Tall Bearded Iris|Weed Sci.21(3): 258-260|1973|10.1017/S0043174500032264
26013|T||Wilkinson,R.E., and W.S. Hardcastle|Commercial Herbicide Influence on Corn Oil Composition|Weed Sci.21(5): 433-436|1973|10.1017/S0043174500027429
26014|T||Rice,E.L., and L.M. Rohrbaugh|Relation of Potassium Nutrition to the Translocation of 2,4-Dichlorophenoxyacetic Acid in Tomato Plants|Plant Physiol.33:300-303|1958|10.1104/pp.33.4.300
26015|T||Li,H.C., E.L. Rice, L.M. Rohrbaugh, and S.H. Wender|Effects of Abscisic Acid on Phenolic Content and Lignin Biosynthesis in Tobacco Tissue Culture|Physiol. Plant. (Multiple Languages)23:928-936|1979|10.1111/j.1399-3054.1970.tb06490.x
26017|T||Rouchaud,J.P., J.R. DeCallonne, and J.A. Meyer|Metabolic Fate of Methyl-2-Benzimidazole Carbamate in Melon Plants|Phytopathology64:1513-1517|1974|10.1094/Phyto-64-1513
26018|T||Rolston,M.P., W.O. Lee, and A.P. Appleby|Volunteer Legume Control in Legume Seed Crops with Carbon Bands and Herbicides. II. Red Clover and Alfalfa|Agron. J.71(4): 671-675|1979|10.2134/agronj1979.00021962007100040036x
26019|T||Rolston,M.P., W.O. Lee, and A.P. Appleby|Volunteer Legume Control in Legume Seed Crops with Carbon Bands and Herbicides. I. White Clover|Agron. J.71(4): 665-670|1979|10.2134/agronj1979.00021962007100040035x
26020|T||Gentile,J.M., E.D. Wagner, and M.J. Plewa|The Detection of Weak Recombinogenic Activities in the Herbicides Alachlor and Propachlor Using a Plant-Activation Bioassay|Mutat. Res.48:113-116|1977|10.1016/0027-5107(77)90196-8
26021|T||Jangaard,N.O.|The Effect of Herbicides, Plant Growth Regulators and Other Compounds on Phenylalanine Ammonia-Lyase Activity|Phytochemistry13(9): 1769-1775|1974|10.1016/0031-9422(74)85087-9
26024|T||Ivany,J.A.|Kennebec Potato Yield Response to Delayed Paraquat Application|Can. J. Plant Sci.56:539-542|1976|10.4141/cjps76-088
26025|T||Carson,A.G., and J.D. Bandeen|Influence of Ethephon on Absorption and Translocation of Herbicides in Canada Thistle|Can. J. Plant Sci.55(3): 795-800|1975|10.4141/cjps75-123
26026|T||Barrentine,W.L., C.J.,Jr. Edwards, and E.E. Hartwig|Screening Soybeans for Tolerance to Metribuzin|Agron. J.68:351-353|1976|10.2134/agronj1976.00021962006800020037x
26027|T||Schuman,G.E., and T.M. McCalla|Effect of Short-Chain Fatty Acids Extracted from Beef Cattle Manure on Germination and Seedling Development|Appl. Environ. Microbiol.31(5): 655-660|1976|10.1128/aem.31.5.655-660.1976
26029|T||Penner,D., and W.F. Meggitt|Herbicide Effects on Corn Lipids|Crop Sci.14(2): 262-264|1974|10.2135/cropsci1974.0011183X001400020028x
26030|T||Zweig,A., and G.W. Nachtigall|Photosensitized Herbicidal Action|Photochem. Photobiol.22(6): 257-259|1975|10.1111/j.1751-1097.1975.tb06745.x
26031|AT||Jabben,M., and G.F. Deitzer|Effects of the Herbicide San 9789 on Photomorphogenic Responses|Plant Physiol.63:481-485|1979|10.1104/pp.63.3.481
26032|T||Buczacki,S.T.|The Effects of Trifluralin and Related Dinitroaniline Herbicides on Clubroot of Brassicae|Ann. Appl. Biol.75:25-30|1973|10.1111/j.1744-7348.1973.tb01333.x
26033|T||Burchill,R.T., E.L. Frick, M.E. Cook, and A.A. Swait|Fungitoxic and Phytotoxic Effect of Some Surface-Active Agents Applied for the Control of Apple Powdery Mildew|Ann. Appl. Biol.91:41-49|1979|10.1111/j.1744-7348.1979.tb07411.x
26034|T||Wilson,B.J., and G.W. Cussans|The Effects of Herbicides, Applied Alone and in Sequence, on the Control of Wild-Oats (Avena fatua) and Broad-Leaved Weeds, and on Yield of Winter Wheat|Ann. Appl. Biol.89(3): 459-466|1978|10.1111/j.1744-7348.1978.tb05974.x
26036|T||Metcalf,E.C., and H.A. Collin|The Effect of Simazine on the Growth and Respiration of a Cell Suspension Culture of Celery|New Phytol.81:243-248|1978|10.1111/j.1469-8137.1978.tb02630.x
26037|T||Rusness,D.G., and D.S. Frear|The Effect of Injury on Microsomal Ascorbate Levels, beta-Glucan Synthesis and Urea Herbicide N-Demethylation in Etiolated Cotton Hypocotyl Tissue|J. Exp. Bot.24(79): 272-284|1973|10.1093/jxb/24.2.272
26038|T||Owen,W.J., M.E. Delaney, and L.J. Rogers|Studies on the Sites of Inhibition of Photosynthetic Electron Transport in Barley by DDT (1,1,1-Trichloro-2,2-bis (p-Chlorophenyl) Ethane)|J. Exp. Bot.28(105): 986-998|1977|10.1093/jxb/28.4.986
26041|T||Arnold,C.E.|Grass Control in Rabbiteye Blueberries|Proc. South. Weed Sci. Soc.28:161-165|1975|
26042|T||Dickerson,G.W., and C. Harvey|Control of Buffalobur in Onions in West Texas|Proc. South. Weed Sci. Soc.28:180-186|1975|
26043|T||Brady,H.A.|Aspects of Dicamba Behavior in Woody Plants|Proc. South. Weed Sci. Soc.28:236-243|1975|
26045|T||Elmstrom,G.W.|Inactivation of Residual Herbicide in an Abandoned Fernery|Proc. Annu. Meet. Fla. State Hortic. Soc.85:414-415|1972|
26047|T||Gojmerac,W.L.|Effects of Insecticides on Germination and Emergence of Sugar Beets Under Greenhouse Conditions|J. Econ. Entomol.49(5): 710-711|1956|10.1093/jee/49.5.710
26048|T||Harvey,R.G., and T.J. Muzik|Effects of 2,4-D and Amino Acids on Field Bindweed In Vitro|Weed Sci.21:135-138|1973|10.1017/S0043174500031921
26049|T||Sprankle,P., W.F. Meggitt, and D. Penner|Absorption, Action, and Translocation of Glyphosate|Weed Sci.23(3): 235-240|1975|10.1017/S0043174500052930
26050|T||Davis,D.E., H.H.,Jr. Funderburk, and N.G. Sansing|The Absorption and Translocation of C14-Labeled Simazin by Corn, Cotton, and Cucumber|Weeds (Urbana)7:300-309|1959|10.2307/4040338
26051|T||Meggitt,W.F., and R.J. Aldrich|Amitrol for Control of Redroot in Cranberries|Weeds (Urbana)7(3): 271-276|1959|10.2307/4040334
26054|T||Hauser,E.W., and J.T. Thompson|A Study of the Absorption and Translocation of Several Chemicals in Johnson Grass, and an Evaluation of Effectiveness for Its Control Under Field Conditions|Weeds (Urbana)7:20-33|1959|10.2307/4040252
26055|T||Williams,M.C., F.W. Slife, and J.B. Hanson|Absorption and Translocation of 2,4-D in Several Annual Broadleaved Weeds|Weeds (Urbana)8:244-255|1960|10.2307/4040489
26056|T||Gowing,D.P., and R.W. Leeper|Uncommon Plant Growth Regulators for the Control of Nutgrass and Oxalis|Weeds (Urbana)8(2): 279-283|1960|10.2307/4040492
26057|T||Hauser,E.W.|Response of Purple Nutsedge to Amitrole, 2,4,-D and EPTC|Weeds (Urbana)11:251-252|1963|10.2307/4040522
26058|T||Derscheid,L.A., G.A. Wicks, and W.H. Wallace|Cropping, Cultivation, and Herbicides to Eliminate Leafy Spurge and Prevent Reinfestation|Weeds (Urbana)11(2): 105-111|1963|10.2307/4040701
26059|T||Derscheid,L.A., W.H. Wallace, and L.J. Wrage|Cropping, Cultivation and Herbicides to Eliminate Russian Knapweed and Prevent Reinfestation|Weeds (Urbana)11(3): 237-243|1963|10.2307/4040592
26060|T||Scott,H.D., and R.E. Phillips|Diffusion of Herbicides to Seed|Weed Sci.19(2): 128-132|1971|10.1017/S0043174500048487
26061|T||Guttridge,C.G.|Evidence for a Flower Inhibitor and Vegetative Growth Promoter in the Strawberry|Ann. Bot.23:351-360|1959|10.1093/oxfordjournals.aob.a083661
26063|T||Satyanarayana,G., and G. Rangaswami|Effect of Indole Acetic Acid and A-Naphthalene Acetic Acid on the Growth, Flowering, and Fruit Set in Sweet Potato|Nature184:73-74|1959|10.1038/184073a0b
26064|T||Prosser,M.V., and G.A.D. Jackson|Induction of Parthenocarpy in Rosa arvensis Huds. with Gibberellic Acid|Nature184:108-|1959|10.1038/184108a0
26065|T||Dikshit,N.N.|Hormone-Induced Parthenocarpy in Annona squamosa L. (Custard Apple)|Indian J. Plant Physiol.1:54-57|1958|
26066|T||Das,N.|Studies on the Effect of Time Factor on the Stimulation of Root Growth by Certain Antiauxins|Indian J. Plant Physiol.1:44-53|1958|
26068|T||Hancock,C.R.|Studies on Extension Growth in Coleoptile Sections  II. The Effects of High Concentrations of beta-Indolylacetic Acid on Section Growth|Ann. Bot.23(89): 107-119|1959|10.1093/oxfordjournals.aob.a083634
26069|T||Szalai,I.|Quantative Changes of Growth-Promoting and Inhibiting Substances in the Potato Tubers Treated with Rindite|Physiol. Plant. (Multiple Languages)12:237-244|1959|10.1111/j.1399-3054.1959.tb07926.x
26070|T||Bergquist,G.A.M., and N. Nielsen|The Influence of Gibberellic Acid on the Transaminase Content of Germinating Barley Seeds|Physiol. Plant. (Multiple Languages)12:386-389|1959|10.1111/j.1399-3054.1959.tb07941.x
26071|T||Scurfield,G.|The Effects of Gibberellic Acid on the Early Growth of Species of Phalaris|Aust. J. Sci.21:48-49|1958|
26075|T||Dickson,M.H., and C.E. Peterson|The Influence of Gibberellin on the Flowering of Carrots|Can. J. Plant Sci.40:468-473|1960|10.4141/cjps60-061
26076|T||Brink,V.C., W.D. Kitts, and R.W. Hogg|Note on the Effect of Gibberellin in Red Clover|Can. J. Plant Sci.40:586-|1960|10.4141/cjps60-083
26078|T||Powell,L.E., and C. Pratt|A Comparison of Adhering and Abscising Fruits of Peach Treated with N-1-Naphthyl Phthalamic Acid|Nature186:814-815|1960|10.1038/186814a0
26080|T||Key,J.L., J.B. Hanson, and R.F. Bils|Effect of 2,4-Dichlorophenoxyacetic Acid Application on Activity and Composition of Mitochondria from Soybeans|Plant Physiol.35:177-183|1960|10.1104/pp.35.2.177
26081|T||Naidu,B.A., and D.J. Chandra Singh|Studies on the Effects of 2,4-D and MCPA on Ragi Crop (Eleusine coracana Gaertn.) and Weeds|J. Indian Bot. Soc.37:343-352|1958|
26082|T||Morre,D.J., and B.J. Rogers|Differential Uptake of 2,4-D Acid and Its Octyl Ester by Seedling Corn Roots and Coleoptile Sections|Plant Physiol.35:324-325|1960|10.1104/pp.35.3.324
26085|T||Ilan,I., and L. Reinhold|Analysis of the Effects of Indole-3-Acetic Acid on the Uptake of Monovalent Cations|Physiol. Plant. (Multiple Languages)16:596-603|1963|10.1111/j.1399-3054.1963.tb08337.x
26086|T||Zeevaart,J.A.D., and A. Lang|Suppression of Floral Induction in Bryophyllum daigremontianum by a Growth Retardant|Planta (Multiple Languages)59(5): 509-517|1963|10.1007/BF01914994
26087|T||Downing,R.S., and K. Williams|Note on Phytotoxicity and Persistence of Polybutenes|Can. J. Plant Sci.43:416-417|1963|10.4141/cjps63-079
26088|T||O'Sullivan,P.A., and W.H. Vandenborn|The Influence of Immersion in Water on the Efficacy of Postemergence Wild Oat Herbicides|Can. J. Plant Sci.60(1): 307-309|1980|10.4141/cjps80-050
26089|T||Stephenson,G.R., S.C. Phatak, R.I. Makowski, and W.J. Bouw|Phytotoxic Interactions Involving Metribuzin and Other Pesticides in Tomatoes|Can. J. Plant Sci.60:167-175|1980|10.4141/cjps80-023
26091|T||De Rosa,F., D. Haber, C. Williams, and L. Margulis|Inhibitory Effects of the Herbicide Trifluralin on the Establishment of the Clover Root Nodule Symbosis|Cytobios21:37-43|1978|
26093|T||Allam,N., and S.A. Amer|Studies on the Nutritional Effects of Some Phosphorus Compounds. I. Preliminary Study on Phytotoxicity and Absorption of Cyanamide Phosphates by Rye Seedlings|Egypt. J. Soil Sci.16(1): 37-45|1976|
26094|T||Fisher,R.F.|Division S-7 - Forest and Range Soils:  Juglone Inhibits Pine Growth Under Certain Moisture Regimes|Soil Sci. Soc. Am. J.42(5): 801-803|1978|10.2136/sssaj1978.03615995004200050030x
26100|T||Jackson,G.C.|Performance of Gulf S-6797 and Hercules 22234 as Preemergence Herbicides on Okra|J. Agric. Univ. P. R.40(3): 434-435|1976|10.46429/jaupr.v60i3.10534
26101|T||Veerasekaran,P., R.C. Kirkwood, and W.W. Fletcher|The Mode of Action of Asulam (Methyl (4-Aminobenzenesulphonyl) Carbamate) in Bracken|Bot. J. Linn. Soc.73:247-268|1976|10.1111/j.1095-8339.1976.tb02025.x
26103|T||Rojik,I., M. Horvath, and I. Lontai|A Herbicide Effect in the Meiosis of Vicia faba|Acta Bot. Indica18(1-2): 163-169|1973|
26105|T||Dubey,P.S.|Effect of Herbicides on the RNA Content in Sesbania bispinosa Jacq.|Curr. Sci. (Bangalore)48(8): 355-356|1979|
26106|T||Oetting,R.D., F.S. Morishita, A.L. Helmkamp, and W.R. Bowen|Phytotoxicity of Eight Insecticides to Some Nursery-Grown Ornamentals|J. Econ. Entomol.73(1): 29-31|1980|10.1093/jee/73.1.29
26107|T||Weinberg,M.B., and P.A. Castelfranco|Effect of EPTC (S-Ethyl Dipropylthio-Carbamate) on Plastid Membrane Constituents in Germinating Cucumber Cotyledons|Weed Sci.23:185-187|1975|10.1017/S0043174500052814
26108|T||Kida,T., H. Mizuno, K. Takinami, and S. Matsunaka|Mechanism of Inhibitory Action of Lauryl DL-Valinate-HCl Herbicide on Plant Growth|Agric. Biol. Chem.41(6): 931-938|1977|
26111|T||Yamada,O., A. Kurozumi, F. Futatsuya, K. Ito, S. Ishida, and K. Munakata|Studies on Chlorosis-Inducing Activities and Plant Growth Inhibition of Benzophenone Derivatives|Agric. Biol. Chem.43(7): 1467-1471|1979|
26117|T||Jordan,L.S., A.A. Zurgiyah, A.R. Demar, and W.A. Clerx|Metabolism of Siduron in Kentucky Bluegrass (Poa pratensis L.)|J. Agric. Food Chem.23:286-290|1975|10.1021/jf60198a058
26118|T||Rhodes,R.C.|Metabolism of [2-14C]Terbacil in Alfalfa|J. Agric. Food Chem.25(5): 1066-1068|1977|10.1021/jf60213a059
26123|T||Jalis,A., and M.S. Choudhry|Research Note: Use of Herbicides for Increasing Boll Opening in Cotton|Pak Cottons22:105-107|1978|
26124|T||Shaukat,S.S.|Effects of Simazine, Atrazine and 2,4-D on 14CO2-Fixation and Composition of 14C - Assimilates in Pinus nigra var. calabrica Schneid.|Pak. J. Bot.7(1): 57-65|1975|
26132|T||Neel,P.L.|Effects of Oxadiazon Preemergence Herbicide on Weed Control and Growth of Sixteen Species of Containerized Ornamental Plants|Proc. Annu. Meet. Fla. State Hortic. Soc.90:353-355|1977|
26133|T||Cossio,R.P.|Influence of Organic Arsenical Herbicides on Yield and Quality of Sugarcane|Proc. 15th Int. Sugarcane2:809-819|1974|
26134|T||Karanth,N.G.K., and V.N. Vasantharajan|Phytotoxicity of Dexon (p-Dimethylaminobenzenediazo Sodium Sulfonate) Towards the Legume Crotalaria juncea|Proc. Nas. In B40(5): 576-585|1974|
26135|T||Ilnicki,R.D., D.J. Herman, and J. Somody|Effects of Some Preplant Incorporated Herbicides on Weed Control in Snapbeans and Lima Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:197-198|1975|
26136|T||Daniell,J.W.|The Effects of Chemical Weed Control on Yield and Quality of Pecans|Proc. Southeast. Pecan Grow. Assoc. 67:35-38|1974|
26142|T||Velev,B., and V. Rankov|Effect of the Herbicide Sencor on Tomato Productivity and Biological Activity of Soil|Rocz. Glebozn. (Multiple Languages)26(2): 223-232|1975|
26145|T||Rawlinson,C.J., G. Muthyalu, and R.H. Turner|Effect of Herbicides on Epicuticular Wax of Winter Oilseed Rape (Brassica napus) and Infection by Pyrenopeziza brassicae|Trans. Br. Mycol. Soc.71(3): 441-451|1978|10.1016/S0007-1536(78)80071-0
26150|T||Rehm,S., and R. El-Masry|The Effects of Growth Regulators and Herbicides on Purple Nutsedge (Cyperus rotundus L.). I. The Effect of Sprout and Root Formation of Dormant Tubers|Z. Acker- Pflanzenbau. (Multiple Languages)143(2): 98-108|1976|
26151|T||El-Masry,R., and S. Rehm|The Effects of Growth Regulators and Herbicides on Purple Nutsedge (Cyperus rotundus L.). II. Effect of Dicamba on Basal Bulb Formation|Z. Acker- Pflanzenbau. (Multiple Languages)143(4): 312-321|1976|
26160|T||Patro,G.K., and G.C. Tosh|Relative Efficiency of Herbicides in Sugarcane|Indian Sugar22(5): 435-439|1972|
26162|T||Hawton,D.C.|Atrazine for Weed Control in the Establishment of Brachiaria decumbens and Panicum maximum|J. Aust. Inst. Agric. Sci.42:189-191|1976|
26163|T||Weeraratna,C.S.|Residual Toxicity of Some Herbicides (i) 2,4-D, MCPA and TCA|J. Natl. Sci. Counc. Sri Lanka5(2): 147-155|1977|
26164|T||Homma,S., and K. Mochizuki|Effects of the Simazine Treatment in the Preceding Year on the Growth of Mulberry Trees|Nippon Sanshigaku Zasshi (Multiple Languages)46(5): 379-383|1977|
26166|T||Vengris,J., M. Stacewicz-Sapuncakis, and S. Dunn|Life History Studies as Related to Weed Control in the Northeast.  Part 7 - Common Purslane|Bull. Mass. Agric. Exp. Stn.598:45 p. |1972|
26167|T||Campbell,J.E., and A.D. Mears|Effects of Long Term Use of Several Herbicides on Apple Trees|Aust. J. Exp. Agric. Anim. Husb.14:262-265|1974|10.1071/EA9740262
26172|T||Shiryaeva,E.I., G.I. Yarmolyuk, N.E. Zaikovskaya, A.V. Kornienko, and A.M. Makogon|Influence of Herbicides on Microsporogenesis and Gametogenesis in the Sugarbeet|Cytol. Genet.9(3): 49-54|1975|
26174|T||Johnson,B.J.|Phytotoxicity of Glyphosate Treatments to Bermudagrass Turf|Ga. Agric. Res.21(1): 8-9|1979|
26175|T||Rama Das,V.S., and M. Santakumari|Stomatal Behaviour Towards Four Classes of Herbicides as a Basis of Selectivity to Certain Weeds and Crop Plants|Proc. Indian Acad. Sci. Sect. B82(3): 108-116|1975|10.1007/BF03050523
26178|T||Aamisepp,A.|Effect of Triazine Herbicides on the Production of Plant Proteins in (Cereals, Grasses)|Vaxtodling30:41-|1976|
26190|T||Sharaky,M.M., and M.A. El Gandour|The Effect of Atrazine Herbicide on Wheat Photosynthetic Pigments and Photosynthetic Reproductivity|Ann. Agric. Sci.3:85-99|1975|
26191|T||Mathur,M.K., and L.P.C. Raheja|A Note on the Effects of Phenoxy Herbicides on the Germination and Early Growth of Bajra Seedlings|Ann. Arid Zone13:172-173|1974|
26195|T||Kamel,A.H., E.Z. Fam, M.T. Mahdi, and E.M. Sheltawi|The Phytotoxic Effect of Carbon Bisulphide, Methyl Bromide and Hydrogen Phosphide on the Germination of Seeds of Certain Field Crops|Bull. Entomol. Soc. Egypt Econ. Ser.8:75-80|1974|
26197|T||Sistachs,M., and J.J. Leon|Chemical Control of Weeds in Soybean (Glycine max (L.) Merrill)|Cuban J. Agric. Sci.8:89-94|1974|
26199|T||Vassilev,G.N., and N.K. Spasovska|Synthesis, Herbicidal and Growth-Regulating Activities of 2-Thio-4-Alkyl- or Arylthiosemicarbazido-6-Methylpyrimidines|C. R. Acad. Bulg. Sci.32(10): 1417-1420|1979|
26211|T||Kern,A.D., W.F. Meggitt, and D. Penner|Cyanazine Herbicide Metabolism in Corn, Fall Panicum and Green Foxtail|Weed Res. (Multiple Languages)16(2): 119-124|1976|10.1111/j.1365-3180.1976.tb00389.x
26220|T||Crabtree,G.D., and M.N. Westwood|Effects of Weed Control Method and Rootstock on Flowering, Growth and Yield of Apple|J. Am. Soc. Hortic. Sci.101(4): 454-456|1976|10.21273/JASHS.101.4.454
26221|T||Hatzios,K.K., and D. Penner|The Effect of Fentin Hydroxide (Triphenyltin Hydroxide) on Soybean (Glycine max (L.) Merr.) and Rice (Oryza sativa L.) Photosynthesis, Respiration, and Leaf Ultrastructure|Pestic. Biochem. Physiol.9(1): 70-74|1978|10.1016/0048-3575(78)90067-6
26224|T||Alsop,W.R., and D.E. Moreland|Effects of Herbicides on the Light-Activated, Magnesium-Dependent ATPase Adenosine Triphosphatase of Isolated Spinach (Spinacia oleracea L.) Chloroplasts|Pestic. Biochem. Physiol.5(2): 163-170|1975|10.1016/0048-3575(75)90071-1
26225|T||Zurqiyah,A.A., L.S. Jordan, and V.A. Jolliffe|Metabolism of Isopropyl Carbanilate (Propham) in Alfalfa Grown in Nutrient Solution|Pestic. Biochem. Physiol.6(1): 35-45|1976|10.1016/0048-3575(76)90006-7
26227|T||Kulshrestha,G., V.S. Mani, and R.S. Dewan|Effect of Simazine and Atrazine on Maize and Their Residual Effects on Succeeding Rabi Crops|Indian J. Agron.20:201-202|1975|
26231|T||Shone,M.G.T., B.O. Bartlett, and A.V. Wood|A Comparison of the Uptake and Translocation of Some Organic Herbicides and a Systemic Fungicide by Barley.  II.  Relationship Between Uptake by Roots and Translocation to Shoots|J. Exp. Bot.25(85): 401-409|1974|10.1093/jxb/25.2.401
26232|T||Shone,M.G.T., and A.V. Wood|A Comparison of the Uptake and Translocation of Some Organic Herbicides and a Systemic Fungicide by Barley.  I.  Absorption in Relation to Physico-Chemical Properties|J. Exp. Bot.25(85): 390-400|1974|10.1093/jxb/25.2.390
26234|T||Paul,Y., B.N. Sharma, M.S. Saimbhi, and G.S. Mann|Influence of Herbicides on the Chemical Composition of Pea Seeds (Pisum sativum L.)|J. Res. Punjab Agric. Univ.13(3): 290-293|1976|
26235|T||Saimbhi,M.S., and K.S. Randhawa|Effect of the Pre-Emergence Application of Some Weedicides on the Control of Weeds in Turnip and Radish|J. Res. Punjab Agric. Univ.13(3): 283-285|1976|
26236|T||Bhagat,P., M.S. Saimbhi, B.N. Sharma, and Yashpaul |Effect on Some Herbicides on the Chemical Composition of Carrot Root (Daucus carota L.)|J. Res. Punjab Agric. Univ.13(3): 202-205|1976|
26238|T||Mohamed Ali,A., V.K. Balakrishnan, K. Venugopal, K.K. Chandragiri, S. Sankaran, and Y.B. Morachan|Differential Effect of Herbicides in Summer and Monsoon Cowpea (Vigna sinensis L. Savi)|Madras Agric. J.63(3): 165-168|1976|
26239|T||Baumann,G., and G. Gunther|Effects of Herbicides on 14CO2 Fixation in Isolated Mesophyll Cells from Beta vulgaris (Sugar Beet) and Chenopodium album|Biochem. Physiol. Pflanzen (Multiple Languages)174:723-725|1979|10.1016/S0015-3796(17)30632-7
26240|T||Yadav,P.R., B.P. Srivastava, V.S. Kavadia, and T.S. Kathpal|Translocation of Bhc Benzene Hexachloride in Maize and Pearl Millet Raised on Treated Soils|Indian J. Agric. Sci.47:317-321|1977|
26241|T||Umapathi,P., P.M. Swamy, and V.S.R. Das|Herbicidal Influence on the Leakage of Electrolytes from the Leaves of Scrub Weeds|Indian J. Exp. Biol.17(8): 816-817|1979|
26242|T||Upadhyay,U.C., and S.B. Varade|Yield and Quality of Sorghum as Affected by Urea and Simazine Sprays|Indian J. Agric. Sci.48(6): 347-350|1978|
26244|T||Nakamura,Y., K. Ishikawa, and S. Kuwatsuka|Metabolic Fate of Benthiocarb Herbicide in Plants|Agric. Biol. Chem.41(9): 1613-1620|1977|10.1271/bbb1961.41.1613
26245|T||Dobrzanski,A., and J. Nalewaja|Wheat and Wild Mustard Response to Dicamba|Proc. North Cent. Weed Control Conf.33:61-63|1978|
26246|T||Ogg,P.J., J.A. Behm, J.C. Klauzer, and D.A. Schmer|Pendimethalin for Late Season Weed Control in Corn|Proc. Northeast. Weed Control Conf.33:84-87|1978|
26247|T||Everett,N.P., and H.E. Street|Studies on the Growth in Culture of Plant Cells XXIV.  Effects of 2,4-Dichlorophenoxyacetic Acid Herbicide and Light on the Growth and Metabolism of Acer pseudoplantanus L. Suspension Cultures|J. Exp. Bot.30(116): 409-417|1979|10.1093/jxb/30.3.409
26248|T||Sharma,B.D., and S.K. Agarwal|Effect of Different Herbicidal Treatments on the Uptake of Nutrients by Dwarf Wheat and Associated Weeds|Indian J. Agron.22(4): 58-60|1978|
26249|T||Singh,V., S.P. Singh, and J.P. Agarwal|Chemical Weed Control in Dwarf Wheat|Indian J. Agron.23(1): 23-26|1978|
26250|T||Singn,A.|Effect of Herbicide on Mentha|Indian J. Agron.22(1): 63-65|1977|
26252|T||Gill,H.S., L.S. Brar, and U.S. Walia|Effect of Some Herbicidal and Cultural Treatments on Weed Intensity and Grain Yield of Maize|Indian J. Agric. Sci.47(2): 89-95|1977|
26253|T||Lichy,C.T.|Brush Control with Garlon Herbicides Alone and in Combination with Tordon 101 Mixture or 2,4-D Herbicides Using Three Methods of Application|Down Earth35(1): 20-24|1978|
26255|T||Devi,M.S., J.V.S. Rao, and V.S. Rama Das|Herbicide Induced Changes in the Levels of Epicuticular Waxes and Cuticle|Indian J. Plant Physiol.19(2): 249-253|1976|
26256|T||Lund-Hoie,K.|The Physiological Fate of Glyphosate-14C in Betula verrucosa and Fraxinus excelsior.  The Effect of Ammonium Sulphate and the Environment on the Herbicide|Meld. Nor. Landbrukshogsk.58(30): 1-24|1979|
26257|T||Pomber,L., P. Weinberger, and R. Prasad|Some Phytotoxic Effects of Fenitrothion on the Germination and Early Seedling Growth of Picea glauca (Moench) Voss and Betula alleghaniensis Britton|Bull. Environ. Contam. Toxicol.22:494-499|1979|10.1007/BF02026976
26258|T||Abdelghani,A.A., A.C. Anderson, and J.W. Mason|Screening Study for the Uptake of Monosodium Methanearsonate in the Blackberry Following Dosing at Four Application Rates|Bull. Environ. Contam. Toxicol.23(6): 797-799|1979|10.1007/BF01770044
26260|T||Skorupska,H.|The Effect of Some Herbicides, Chemomutagens and Gamma Radiation on Meiosis in Pea (Pisum sativum)|Genet. Pol.17(2): 149-157|1976|
26261|T||Kleudgen,H.K.|The Influence of the Herbicide Methabenzthiazuron on the Synthesis of Plastidic Lipids in Hordeum vulgare (Barley) Seedlings|Pestic. Biochem. Physiol.9(1): 57-60|1978|10.1016/0048-3575(78)90064-0
26262|T||Schuphan,I., and W. Ebing|Metabolism and Balance Studies of (14C)Monolinuron After Use in Spinach Followed by Cress and Potato Cultures|Pestic. Biochem. Physiol.9:107-118|1978|10.1016/0048-3575(78)90071-8
26263|T||Roberts,T.R.|The Metabolism of the Herbicide Flamprop-Isopropyl in Barley|Pestic. Biochem. Physiol.7(4): 378-390|1977|10.1016/0048-3575(77)90042-6
26264|T||Rusness,D.G., and G.G. Still|Effect of Isopropyl-3-Chlorocarbanilate and Isopropyl-3-Chlorohydroxycarbanilate Analogs upon Oxidative Phosphorylation in Plant Mitochondria|Pestic. Biochem. Physiol.4(1): 24-30|1974|10.1016/0048-3575(74)90081-9
26265|T||Butts,E.R., and C.L. Foy|Comparative Uptake and Metabolism of Methazole in Prickly Sida and Cotton|Pestic. Biochem. Physiol.4(1): 44-55|1974|10.1016/0048-3575(74)90083-2
26266|T||Rangiah,P.K., P. Packiaraj, and K. Rajagopalan|Effect of Herbicides and Interculture on Weed Control and Yield of Irrigated Cotton|Madras Agric. J.63(8-10): 501-504|1976|
26267|T||Kailasam,C., A.V. Rajan, S. Balu, S. Sankaran, and Y.B. Morachan|Effect of Certain Herbicides on White Horsenettle (Solanum elaegnifolium Cav.) Under Potted Conditions|Madras Agric. J.63(8-10): 491-493|1976|
26268|T||Kailasam,C., A.V. Rajan, S. Balu, S. Sankaran, and Y.B. Morachan|Effect of Picloram Herbicide in the Control of Solanum elaeagnifolium Cav. Under Irrigated and Dryland Conditions|Madras Agric. J.63(8-10): 488-490|1976|
26269|T||Balu,S., A.V. Rajan, C. Kailasam, S. Sankaran, and Y.B. Morachan|Effect of Herbicides in the Control of White Horsenettle (Solanum elaeagnifolium Cav.)|Madras Agric. J.63(8-10): 481-484|1976|
26270|T||Ramamoorthi,K., and K. Bhattacharya|Varietal Tolerance in Wheat to a Selective Herbicide, Dosanex|Madras Agric. J.63(8-10): 442-444|1976|
26271|A||Mohamed Ali,A., and S. Sankaran|Varietal Tolerance of Rice to Herbicides|Madras Agric. J.63(8-10): 437-441|1976|
26272|T||Sridhar,T.S., Y. Yogeswara Rao, and G.H. Sankara Reddi|Effect of Granular Herbicides in the Control of Weeds in Rice Directly Seeded on Puddled Soil|Madras Agric. J.63(8-10): 431-433|1976|
26281|T||Pick,F.E., and L.P. Van Dyk|Phytotoxicity and Persistence of Ultra-Low-Volume Applications of Fenitrothion and Diazinon on Wheat|Phytophylactica10:43-47|1978|
26282|T||Oswald,A.K.|The Effects of Six Herbicides with a Potential for Wild-Oat Control on Ten Direct and Undersown Grasses|Proc. Br. Weed Control Conf.13:989-999|1977|
26283|T||Venkataramaiah,G.H.|Effect of Pesticides on Coffee Seedlings|J. Coffee Res.6(1): 31-33|1976|
26288|T||Milward,A.F., and E.J. Skerrett|Studies in Phytotoxicity:  The Detection of Incipient Phytotoxic Effects of Sulphur Preparations|Pestic. Sci.2:38-40|1971|10.1002/ps.2780020111
26295|T||Watschke,T.L.|Growth Retardation of Merion and Pennstar Kentucky Bluegrasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:303-307|1979|
26297|T||Tluczkiewicz,J.|Effect of Some Herbicides on Metabolism of Free Nucleotides in Germinating Seeds of Brewing Barley|Bull. Acad. Pol. Sci. Ser. Sci. Biol.22(6): 421-424|1974|
26298|T||Grzesiuk,S., Z. Paliwoda, and E. Sojka|Effect of Regular Application of Herbicides on the Seed Crop of Brewing Barley, Its Protein Content and the Activity of Proteases|Bull. Acad. Pol. Sci. Ser. Sci. Biol.21(5): 369-373|1973|
26299|T||Grzesiuk,S., E. Januszewicz, and E. Sojka|Effect of Some Herbicides on the Development of Brewing Barley, Its Starch Content, Activity of Amylases and the Level of Gibberellins in Ripening Seeds|Bull. Acad. Pol. Sci. Ser. Sci. Biol.21(6): 439-444|1973|
26302|T||Senft,D.H.|2,4-D Drift Harms Sugar Beets|Agric. Res.26(10): 13-|1978|
26306|T||Farag,F.H., and M. Asaad|Effect of Terbucarb Herbicides on Broad Bean Plant|Ann. Agric. Sci.10:11-16|1978|
26307|T||Cappy,J.J., and D.A. Brown|Determining Effects of Herbicides and Growth Regulating Chemicals on Plant Roots|Ark. Farm Res.27:18-|1978|
26309|T||Eweida,M.H.T., A.I. El-Agamy, A.M. Hassanein, and F. Ghaly|The Effect of Some Herbicides on Cotton Plant|Beitr. Trop. Landwirtsch. Vetmed.16(3): 299-304|1978|
26310|T||Dowidar,A.E., and A. El-Nahas|Effect of Trifluralin on the Histology and Respiration of Allium cepa Root Tips|Biol. Plant. (Praha)20(1): 1-4|1978|10.1007/BF02922922
26313|T||Dobrzanski,A., and J. Bakowski|Phytotoxicity of Linuron and Monolinuron to Pea (Pisum sativum) and the Underlying Cause of Their Selective Herbicidal Performance|Biul. Warzywniczy (Multiple Languages)19:237-252|1976|
26318|T||Khosla,S.N., and P. Singh|Chemical Weed Control in Ammi visnaga L. and the Relative Effectiveness of Some Growth Substances|Herba Hung.16:67-74|1977|
26319|T||Soni,P.|Weed Control in Pinus Plantations. I. Effect of Herbicides on Metabolism of Weeds|Indian For.103(1): 41-46|1977|
26320|T||Singh,M., and D. Prakash|Effect of Levels and Time of Application of Herbicides on Growth and Yield of Upland Rice|Indian J. Agric. Res.13:101-105|1979|
26324|T||Ashley,R.A.|Effect of Alachlor on Water Loss by Sweetcorn (Zea mays var. Rugosa L.)|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:107-110|1974|
26328|T||Long,J.W., D.L. Davis, and L.,Jr. Thompson|Influence of Herbicides on Burley Tobacco Leaf Chemistry|Tobacco (N. Y.)175(14): 29-30,32|1973|
26332|T||Dobrovich,L., and B. Wallgren|Effects of MCPA and CCC on Barley in Greenhouse Experiments|In: 19th Swed. Weed Conf., Feb. 1-3, 1978, Uppsala, Sweden:9-11|1978|
26344|T||Itoh,M.|Studies on the Penetration and Translocation of Ammonium Sulfamate (Ams) in the Needles of Akamatsu and Sugi|J.Jpn.Gas Assoc.58:41-46|1976|
26346|T||Saimbhi,M.S., and K.S. Randhawa|Studies on Weed Control in the Spring Crop of Tomato (Lycopersicon esculentum Mill.)|J. Res. Punjab Agric. Univ.13(1): 70-73|1976|
26347|T||Khera,A.P., and S.D. Chitkara|Studies on the Effect of Biuret Containing Urea Sprays on Phytotoxicity in Grape and Peach|Haryana Agric. Univ. J. Res.5(4): 298-302|1975|
26350|T||Pomber,L., P. Weinberger, and R. Prasad|Studies on Phytotoxicity of Fenitrothion to Some Forest Seeds and Seedlings Under Laboratory Conditions|Information Rep. No. CC-X-106, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:29 p.|1975|
26351|T||Chacko,M.J., P.K. Bhat, and K.V. Rajagopal|Studies on Phytotoxicity Caused by Systematic Granular Insecticides|Indian Coffee40:219-220,227|1976|
26368|T||Mukherjee,G.G.|Phytotoxicity of N-3412, a Systemic Fungicide, on Wheat Plant|Pesticides 9(2): 32-|1975|
26373|T||Tluczkiewicz,J.|Effect of S-Triazine and Phenylurea Herbicides on the Activity of Some Enzymes in Mitochondria of the Brewing Barley Embryos|Bull. Acad. Pol. Sci. Ser. Sci. Biol.22(9): 639-642|1974|
26381|AT||Chang,W.L., and C.P. Mao|Response of Weeds and Rice to Certain Granular Herbicides|Taiwan Agric.Res.21(1): 28-33|1972|
26383|T||Kirkwood,R.C., J. Dalziel, A. Matlib, and L. Somerville|The Role of Translocation in Selectivity of Herbicides with Reference to MCPA and MCPB|Pestic. Sci.3:307-321|1972|10.1002/ps.2780030308
26386|T||Borger,G.A., and T.T. Kozlowski|Effect of Growth Regulators and Herbicides on Normal and Wound Periderm Ontogeny in Fraxinus pennsylvanica Seedlings|Weed Res. (Multiple Languages)12(2): 190-194|1972|10.1111/j.1365-3180.1972.tb01205.x
26388|T||Oikonomos,D.|Results of Chemical Control of Vine Weeds|Delt. Agrot. Trapezes185:59-63|1972|
26391|T||Patro,G.K., and G.C. Tosh|Effect of Different Herbicides on Weeds and Yield of Sugarcane|Andhra Agric. J.18(5): 184-189|1971|
26392|T||Martin,J.A., and J.T. Fletcher|The Effects of Sublethal Doses of Various Herbicides on Lettuce|Weed Res. (Multiple Languages)12:268-271|1972|10.1111/j.1365-3180.1972.tb01216.x
26393|T||Patil,A.V.|Control of Kans (Sachharum spontaneum linn) with Bromacil Herbicide in Young Mandarin Orange - Some - Preliminary Observations|Pesticides 5:20-21|1971|
26394|T||Sandhu,K.S.|Comparative Efficiency of Certain Herbicides in Weed Control in Maize in Kulu Valley|Indian J. Agron.17(1): 23-26|1972|
26412|T||Knowles,C.O., and B.R. Sonawane|Ethyl M-Hydroxycarbanilate Carbanilate (EP-475) Metabolism in Sugar Beets|Bull. Environ. Contam. Toxicol.8:73-76|1972|10.1007/BF01684508
26414|T||Madhulety,T.Y., and D.J. Chandra Singh|Biochemical and Physiological Studies of Alachlor and Atrazine in Maize|Andhra Agric. J.23(3/4): 85-92|1977|
26421|T||Haggar,R.J., N.R.W. Squires, J.G. Elliott, and A.K. Oswald|Improving Sward Composition by Selective Herbicides and One-Pass Seeding|ARC Res.Rev.Agric.Res.Counc.(Gb)4(2): 46-50|1978|
26426|T||Kalam,M.A., and K.I. Punnoose|Effect of Some Contact Weedicides on the Control of Grasses|Rubber Board Bull.12(4): 143-146|1975|
26429|T||Smith,E.M., and S.A. Treaster|Phytotoxicity of Glyphosate on Landscape Plants|Ohio Agric. Res. Dev. Cent.236:53-55|1978|
26430|T||Jordan,T.N., and R.S. Baker|Comparative Toxicity of Preplant Incorporated Herbicides to Cotton|Miss. Agric. For. Exp. Stn. (MAFES)3(19): 3 p.|1978|
26432|T||Fretz,T.A.|Effects of Herbicides on the Rooting Response of Container-Grown Azaleas|Research Summary71:23-25|1973|
26433|T||Homma,S., and M. Itoh|The Effect of Simazine, a Herbicide, on the Nutrient Uptake by Mulberry Roots|Nippon Sanshigaku Zasshi (Multiple Languages)46(3): 247-248|1977|
26438|A||Hiltibran,R.C.|Effects of the Chlorogroups of Phenoxy Compounds on the Oxidative Phosphorylation|Trans. Ill. State Acad. Sci.65:81-85|1972|
26439|T||Sarasto,J., and K. Seppala|The Effect of Dwarf-Shrub Vegetation Suppression on Pine Swamp Tree Stands|Silva Fenn.11(1): 30-41|1977|10.14214/sf.a14811
26440|T||Krumzdorov,A.M.|Use of Banwell-D to Eliminate Russian Sweet-Thistle and Aftereffects of This Herbicide on Corn Yield and Quality|Sov. Agric. Sci.9:17-19|1976|
26441|T||Whitcomb,C.E.|Effects of Herbicides on Growth of Container Nursery Stock|SNA Nursery Res.J.3(2): 1-12|1976|
26443|T||Mississippi Agricultural and Forestry Experiment Station|Dinitroanaline Herbicides: Effects of Higher Rates Studied|Miss. Agric. For. Exp. Stn. Tech. Bull.41(4): 7-8|1978|
26445|T||Poole,R.T., and W.E. Waters|The Influence of Herbicides on Stock Plant Production of Several Foliage Species|Proc. Trop. Reg. Am. Soc. Hortic. Sci.16:271-276|1972|
26446|T||Iyer,J.G., and K.E. Wojahn|Effect of the Fumigant Dazomet on the Development of Mycorrhizae and Growth of Nursery Stock|Plant Soil45:263-266|1976|10.1007/BF00011148
26447|T||Kaplanova,M., and J. Socha|The Effect of Herbicides on the Photooxidation of Chlorophyll A in Solution|Photosynthetica (Praha)11(3): 276-281|1977|
26448|T||Sultankulov,R., G.P. Pushkina, N.V. Bukina, and K.I. Pak|Trial of Herbicides on Solanum laciniatum|Pharm. Chem. J.10(3): 345-348|1976|10.1007/BF00757987
26449|T||Ketchersid,M.L., T.E. Boswell, and M.G. Merkle|Effects of the Herbicide 2,4-Db Dichlorophenoxy Butyric Acid on Yield and Pod Development in Peanuts|Peanut Sci.5:35-39|1978|10.3146/i0095-3679-5-1-9
26453|T||Prakash,J., and I. Singh|The Effect of Pre-Emergence Herbicides on the Early Growth of Groundnut|J. Res. Punjab Agric. Univ.7(1): 45-47|1970|
26456|T||Matlib,M.A., and R.C. Kirkwood|Effect of MCPA and MCPB on 32P Accumulation and Its Incorporation into ATP in Vicia faba L.|Pestic. Sci.1:193-196|1970|10.1002/ps.2780010507
26463|T||Weaver,R.J.|Some Effects on Grapevine of Exogenous Plant Regulators and Herbicides|In: Virus Diseases of Small Fruits and Grapevine:247-254|1970|
26473|T||Rossiter,R.C., and D.W. Barrett|The Effect of Paraquat on Oestrogenic Isoflavones in Dwalganup Subterranean Clover|Aust. J. Exp. Agric. Anim. Husb.10(7): 729-731|1970|10.1071/EA9700729
26481|T||Briggs,B.A.|Manipulation of Herbicides and Effect of Herbicides on Rooting|Proc. Int. Plant Prop. Soc.27:463-467|1977|
26487|T||Humphrey,W.A., and C.L. Elmore|Tolerance of Rooted and Uprooted Ground Cover Plantings to Preemergence Herbicides - Progress Report|Calif. Turfgrass Cult.28(2): 14-15|1978|
26488|T||Cairns,A.L.P.|Effect of Application Stage of 2,4-D and MCPA on the Yield of Two Wheat Cultivars|Gewasprod. Crop Prod.7:193-196|1978|
26493|T||Jawanda,J.S., V.K. Vij, and J.N. Sharma|Chemical Weed Control in Citrus. II. Relative Efficacy of Five Post-Emergence Herbicides on Bearing Sweet Orange Orchard|Punjab Hortic. J.15(3/4): 78-82|1975|
26494|T||Ward,J.D., T.W. Goodale, and C.E. Whitcomb|Control of Prostrate Spurge and Other Weeds in Containers with a Post-Emergence Application of Ronstar|Okla. Agric. Exp. Stn. Res. Rep.741:61-62|1976|
26498|T||Goodale,T., R.D. Hathaway, J.D. Ward, and C.E. Whitcomb|Controlling Common Bermudagrass with Hand-Applied Applications of Roundup|Okla. Agric. Exp. Stn. Res. Rep.741:19-|1976|
26505|T||Goodale,T., and C.E. Whitcomb|Weed Control in Containers: Tolban and Ronstar|Okla. Agric. Exp. Stn. Res. Rep.741:57-60|1976|
26507|T||Marshall,R.J., and P.C. Nel|Effect of Atrazine on Some Grain Sorghum Cultivars|Gewasprod. Crop Prod.7:189-192|1978|
26508|T||Rao,A.P., and A.A. Fleming|A Cytoplasmic Influence on Reaction of Maize to Butylate Herbicides|Indian J. Genet. Plant Breed.38:264-267|1978|
26510|T||De Villiers,O.T., M.P. Fourie, and I.J.F. Wiid|The Effect of Methabenzthiazuron on Biochemical Changes in Lucerne and Clover|Agroplantae10:87-90|1978|
26513|T||Gruzdev,L.G., L.V. Posmitnaya, and V.F. Ladonin|Component Composition of Barley Grain Proteins After Application of Herbicides Against a Background of Different Nutritional Levels|Sov. Agric. Sci.7:12-14|1977|
26515|T||Jawanda,J.S., S.K. Munshi, V.K. Vij, and J.N. Sharma|Chemical Weed Control in Citrus. V. Effect of Post-Emergence Herbicides on Pre-Harvest Fruit Drop, Fruit Quality and Mineral Composition of Leaves in Sweet Orange|Punjab Hortic. J.17(3/4): 91-96|1977|
26530|T||Pemadasa,M.A., and S. Koralege|Some Effects of Three Herbicides on Bidens chinensis Willd. and Tridax procumbens L.|Ceylon J. Sci. Biol. Sci.12(2): 139-146|1977|
26532|A||Tchan,Y.T., and C.M. Chiou|Bioassay of Herbicides by Bioluminescence|Acta. Phytopathol. Acad. Sci. Hung.12(1/2): 3-11|1977|
26535|T||Davis,J.L., and J.R. Abernathy|Cotton Response to Dinitroanilines|Tex. Agric. Exp. Stn. Prog. Rep.:87-88|1977|
26545|T||Hamlen,R.A., and M.V. Wettstein|An Evaluation of the Phytotoxicity of Enstar, Orthene and Pirimor on Twenty Species of Tropical Foliage Plants Grown Under Greenhouse Conditions|Foliage Dig.1(4): 13-15|1978|
26546|T||Court de Billot,M.R., and P.C. Nel|Metolachlor Herbicide Injury to Waxy Maize as Affected by Temperature, Seed Size and Planting Depth|Crop Prod.6:73-76|1977|
26548|T||Court de Billot,M.R., and P.C. Nel|Effect of Atrazine and Cyanazine on the Composite Lines and Crosses of Three Maize Hybrids|Gewasprod. Crop Prod.7:181-183|1978|
26549|T||Rajan,M.S.S., B.T.S. Moorthy, and G.H.S. Reddi|A Note on the Effect of Tillage and Weed Control Methods on Pod Yield of Rainfed Groundnut|Indian J. Weed Sci.7(2): 127-128|1975|
26550|T||Kataria,O.P., M.K. Moolani, and V. Kumar|Effect of Herbicides on Nodulation and Plant Productivity in Soybean|Indian J. Weed Sci.7(2): 89-92|1975|
26551|T||Bains,D.S., A.S. Sidhu, and R. Singh|A Note for the Comparative Efficiency of Some Herbicides for Weed Control in Celery (Apium graveolens)|Indian J. Weed Sci.7(2): 123-124|1975|
26552|T||Sharma,B.D., and S.K. Agarwal|Effect of Different Herbicidal Treatments on the Control of Weeds in Dwarf Wheat|Indian J. Weed Sci.7(2): 119-122|1975|
26553|T||Shetty,S.V.R., and W.R. Furtick|The Regulatory Effects of Two S-Triazine Herbicides on Nutritive Composition of Seeds and Leaves of Sweet Corn (Zea mays L.)|Indian J. Weed Sci.5(1): 33-37|1973|
26554|T||Sankaran,S., and V.S. Mani|Relative Efficacy of Herbicides for Weed Control in CSH.1 Sorghum|Indian J. Weed Sci.6(1): 33-39|1974|
26564|T||Soundara Rajan,M.S., R. Sudhakara Rao, B.T.S. Murthy, and H. Sankara Reddi|Selectivity of Granular Herbicides in Direct Sown Rice|Oryza15(2): 211-213|1979|
26565|T||Lund-Hoie,K.|The Correlation Between the Tolerance of Norway Spruce (Picea abies) to Glyphosate (N-Phosphonomethylglycine) and the Uptake, Distribution and Metabolism of the Herbicide in the Spruce Plants|Meld. Nor. Landbrukshogsk.55(21): 25 p.|1976|
26567|T||Mittelstaedt,W., and F. Fuhr|Mineralization and Uptake of the Herbicidal Compound Isocarbamid|Pflanzenschutz-Nachr.28:353-358|1975|
26569|T||Nel,P.C.|Chemical Weed Control in Maize and Wheat - Some Recent Research Results|In: Proceedings of the Second National Weeds Conference of South Africa, Stellenbosch, 2-4 February 19772:125-137|1977|
26570|T||Aligianis,D.|The Chemical Control of Problem Grasses in Mixed Clover Pastures in the Western Province|In: Proceedings of the Second National Weeds Conference of South Africa, Stellenbosch, 2-4 February 19772:139-145|1977|
26572|T||Jawanda,J.S., V.K. Vij, S.K. Munshi, and J.N. Sharma|Chemical Weed Control in Citrus.  IV.  Effect of Different Pre-Emergence Herbicides on Pre-Harvest Fruit Drop, Fruit Quality and Mineral Composition of the Leaves of Sweet Orange|Punjab Hortic. J.17(1/2): 24-29|1977|
26576|T||Scattini,W.J.|Atrazine Tolerance in Five Tropical Pasture Grasses|Trop. Grassl.12(1): 35-39|1978|
26577|T||Zemanek,J.|The Results of Field Trials with Herbicides for the Control of Silky Bent Grass (Apera spica-venti L./P. Beauv.) in Winter Wheat|Ustred. Vyzk. Ustav Rostl. Vyroby Ved. Pr.19:37-44|1974|
26588|T||Rennert,D.|The Effect of Herbicides on GA3-Induced Amylase in Aleurone Cells of Triticum in Contrast to Plants Treated with the Same Herbicides|Plant Growth Regul.:422-425|1975|
26592|T||Mislevy,P.|Forage Production and Quality of Argentine Bahiagrass as Affected by Herbicides|Proc. Soil Crop Sci. Soc. Fla.37:50-54|1978|
26595|T||Weaver,J.B.,Jr., J. Miller, and D. Weaver|Tolerance and Weed Control Response of Three Cotton Genotypes to Three Levels of Two Dinitroaniline Herbicides|Ga. Agric. Exp. Stn. Bull.213:3-13|1978|
26598|T||Chodova,D., and J. Zemanek|The Effect of the Herbicide Simazine on the Respiration Rate of Scentless Mayweed, Silky Apera, White Mustard, Wheat, and Maize|Ochr. Rostl. (Multiple Languages)12(69): 293-298|1976|
26607|T||Edmunds,J.E.|Phytotoxicity Symptoms of DBCP on Banana|Trop. Agric.48(2): 167-169|1971|
26612|T||Kirszenzaft,S.L., and G.M. Felippe|Effects of Photoperiod and Growth Regulators on Flowering of Bidens pilosa L.|Cienc. Cult. (Sao Paulo)30(3): 357-361|1978|
26617|T||Murthy,S.S., and J.V.S. Rao|Ecological Studies and Chemical Control of Some Terrestrial Weeds|Comp. Physiol. Ecol.3(2): 61-64|1978|
26624|T||Veenstra,T., and R. Zandvoort|The Control of Blackgrass (Alopecurus myorusoides), Siky Bentgrass (Apera spica-venti) and Volunteer Cereals in Perennial and Italian Ryegrass (Lolium perenne and Lolium multiflorum) for Seed Production with Ethofumesat|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)41:1137-1153|1976|
26626|T||Whitcomb,C.E., and T. Goodale|Effects of Tolban, Ronstar and Devrinol on Plant Growth and Weed Control in Containers|SNA Nursery Res.J.4:20-27|1977|
26628|T||Sharma,V.S.|Chemical Weed Control in Tea Fields|Plant. Chron.72(2): 79-80|1977|
26634|T||Teoh,T.S., S.E. Chua, and S.H. Wong|Weed Control Using Pre-Emergence Herbicides in the Cultivation of Direct-Sown Brassica alboglabra L. and Transplanted Brassica pekinensis Rupr.|Singap. J. Prim. Ind.6(1): 34-51|1978|
26635|T||Sagi,F., H. Sagi, and E. Peter|Effect of Herbicides on the Activity of Nitrate Reductase in Wheat and Maize|Proc. Hung. Annu. Meet. Biochem.18:131-132|1978|
26639|T||Al Mamun,A., and M. Shimizu|Studies on A Herbicide, Benthiocarb.  III.  Morphological and Histological Effects of Benthiocarb on Upland Rice|Jpn. J. Crop Sci. (Multiple Languages)48:139-147|1979|10.1626/jcs.48.139
26641|T||Lee,S.A.|Effects of Six Post-Emergence Herbicides on Young Pineapple|Malaysian Pineapple Industry Board (MPIB)2:47-52|1972|
26642|T||Ashford,R., and J. Holroyd|Phytotoxicity of Two Different Patterns of Tri-Allate Granules to Emerged Wild Oats (Avena fatua) and Wheat Plants|BCPC Monogr. - Br. Crop Prot. Counc.18:67-71|1976|
26658|T||Suss,A., B. Grampp, H. Siegmund, and C. Eben|Uptake of Absorbed Monolinuron by Plants|In: Isotope Tracer Studies of Chemical Residues, Joint FAO-AEA Div. of Atom. Energy in Food and Agric., Vienna:121-124|1972|
26659|T||Ries,S.K., V. Wert, and E.L. Pulver|The Fate and Significance of Triazine Herbicides in Plant Systems as Determined by Isotope Tracer-Aided Studies|I.A.E.A. Panel Proc.Ser.:111-112|1974|
26661|T||Mazza,M., L. Montanari, and F. Pavanetto|Phytotoxic Activity of Triazine Compounds. Vi. the Compound 1-Aryl-3-Alkyl-3-Aralkyltriazine|Farmaco Sci.31:345-348|1976|
26667|T||Gupta,O.P., and M.C. Bhandari|The Effects of Fluometuron, Diuron Linuron and Row Cultivation in Cotton|Indian J. Weed Sci.6(2): 77-82|1974|
26668|T||Turgeon,A.J.|Effects of Herbicides on the Turfgrass Ecosystem|Ill.Res.15(2): 17-|1973|
26695|T||Fretz,T.A.|Chemical Control of Weeds in Container Grown Nursery Stock|Ga. Agric. Exp. Stn. Res. Bull.141:38 p.|1973|
26696|T||Wilkinson,R.E., and T.S. Davis|Southern Pine Seedling Response to Herbicides|Ga. Agric. Exp. Stn. Res. Bull.30:5-34|1973|
26698|T||Mamun,A.A., and M. Shimizu|Studies on a Herbicide, Benthiocarb. IV. Histological Effects of Benthiocarb on Barnyardgrass|Jpn. J. Crop Sci. (Multiple Languages)48:393-402|1979|10.1626/jcs.48.393
26700|T||Williams,H.H.|Effects of Certain Preemergence Herbicides on Diochondra spp.|In:  Proc.Second Int.Turfgrass Research Conf.:410-417|1973|
26702|T||Kolbe,W.|Studies on the Varietal Tolerance, Effect on Yields and Herbicidal Activity of Tribunil in Winter Barley, with Consideration to Production Trends|Pflanzenschutz-Nachr.27:90-111|1974|
26709|T||Rappe,C.|Chemical Background of the Phenoxy Acids and Dioxins|Ecol. Bull.27:28-30|1978|
26718|T||Ingelog,T.|Effects of the Silvicultural Use of Phenoxy Acid Herbicides on Forest Vegetation in Sweden|Ecol. Bull.27:240-254|1978|
26720|T||Fornstrom,K.J.|Incorporation of Preplant Herbicides|Wyo. Agric. Exp. Stn. Res. J.127:39-43|1978|
26721|T||Anonymous|Preplant Screening Trials|Wyo. Agric. Exp. Stn. Res. J.120:77-82|1978|
26722|T||Anonymous|Layby Application Trials|Wyo. Agric. Exp. Stn. Res. J.120:95-98|1978|
26729|T||Witt,W., J. Abernathy, and P.W. Santelmann|Influence of Successive Use of Row Crop Herbicides on Wheat Growth|Proc. South. Weed Sci. Soc.24:164-169|1971|
26730|T||Nakagawa,M., K. Kawakubo, and M. Ishida|Metabolism of the Herbicide 3-(2'-Methylphenoxy)-Pyridazine in Plants|Agric. Biol. Chem.35(5): 764-777|1971|10.1271/bbb1961.35.764
26734|T||Chang,W.L.|Effects of Varietal Type and Crop Season on the Performance of Some Granular Herbicides in Transplanted Rice|Taiwan Agric.Res.20:44-56|1971|
26735|T||Oliver,L.R., and M.M. Schreiber|Differential Selectivity of Herbicides on Six Setaria Taxa|Weed Sci.19(4): 428-431|1971|10.1017/S0043174500049304
26736|T||Parker,R.L., and K. McReynolds|Observations of Preemergence, Cracking Stage and Postemergence Applications|Proc. Northeast. Weed Control Conf.25:87-|1970|
26737|T||Field,R.J., and A.J. Peel|The Longitudinal Mobility of Growth Regulators and Herbicides in Sieve Tubes of Willow|New Phytol.71:249-254|1972|10.1111/j.1469-8137.1972.tb04070.x
26760|T||Saroha,M.S., and H.G. Singh|Use of Simazine, EPTC and PEBC for Weed Control in Hybrid Sorghum|Madras Agric. J.58:310-315|1971|
26765|T||Field,R.J., and A.J. Peel|The Metabolism and Radial Movement of Growth Regulators and Herbicides in Willow Stems|New Phytol.70:743-749|1971|10.1111/j.1469-8137.1971.tb02574.x
26773|T||Patro,G.K., and G.C. Tosh|Comparative Efficiency of Herbicides on Control of Weeds in Sugarcane|JNKVV (Jawaharlal Nehru Krishi Vishwa Vidyalaya) Res. J.6(1): 43-46|1972|
26777|T||Andersen,R.N.|Effects of Bentazon on Soybeans Following Various Preemergence or Preplanting Treatments|Proc. Northeast. Weed Control Conf.30:64-67|1975|
26778|T||Weatherspoon,D.M., and W.L. Currey|Evaluation of Treflan, Lasso, and Ronstar Herbicides for Use in Woody Ornamental Nurseries|Annu. Meet. Fla. State Hortic. Soc.88:535-540|1975|
26779|T||Chow,P.N.P.|Effects of Post-Emergence Herbicides on Growth, Photosynthesis and Photosynthate Translocation in Wild Oats|Proc. Annu. Meet. Agric. Pestic. Soc.220:60-61|1975|
26780|T||Deshmukh,V.A., and J.G. Shrikhande|Note on the Efficacy of Three Herbicides on Emergence of Pea and Sorghum Seeds|Indian J. Agric. Res.9(3): 157-158|1975|
26781|T||Mohan,J.L., and A. Subramanian|Tolerance to Machete Herbicide of Different Rice Varieties Grown Under Broadcast Puddled Condition|Pesticides 10:27-28|1976|
26782|T||Tonecki,J.|Changes of Respiration Intensity and Chlorophyll Content in Needles of Norway Spruce (Picea abies L. Karst) Seedlings Treated with the Herbicides 2,4,5-T and Dalapon|Acta Agrobot. (Multiple Languages)28(2): 177-195|1975|10.5586/aa.1975.012
26785|T||Chkanikov,D.I., A.M. Makeev, N.N. Pavlova, and V.P. Dubovoi|Behavior of 2,4-D in Plants of Different 2,4-D Sensitivity|Sov. Plant Physiol.18(6): 1067-1072|1971|
26787|T||Field,R.J., and A.J. Peel|The Movement of Growth Regulators and Herbicides into the Sieve Elements of Willow|New Phytol.70:997-1003|1971|10.1111/j.1469-8137.1971.tb04581.x
26798|T||Jones,D.W., and C.L. Foy|Tracer Studies with 14C-Labeled Herbicides, DMSO, and Surfactant|Weed Sci.20(1): 81-86|1972|10.1017/S0043174500035001
26801|T||Hoagland,R.E., and G. Graf|Enzymatic Hydrolysis of Herbicides in Plants|Weed Sci.20(4): 303-305|1972|10.1017/S0043174500035700
26802|T||Burnside,O.C., and G.A. Wicks|Competitiveness and Herbicide Tolerance of Sorghum Hybrids|Weed Sci.20(4): 314-316|1972|10.1017/S0043174500035736
26803|T||Callahan,L.M.|Phytotoxicity of Herbicides to a Penncross Bentgrass Green|Weed Sci.20(4): 387-391|1972|10.1017/S004317450003592X
26811|T||Talbert,R.E.|Selectivity of Herbicides for Broadleaved Weed Control in Soybeans|Proc. South. Weed Sci. Soc.23:54-62|1970|
26812|T||Peevy,F.A.|Site Effect on Herbicidal Efficiency|Proc. South. Weed Sci. Soc.23:237-240|1970|
26817|T||Moody,K., C.A. Kust, and K.P. Buchholtz|Uptake of Herbicides by Soybean Roots in Culture Solutions|Weed Sci.18(5): 642-647|1970|10.1017/S004317450003441X
26819|T||Penner,D., and W.F. Meggitt|Herbicide Effects on Soybean (Glycine max (L.) Merrill) Seed Lipids|Crop Sci.10(5): 553-555|1970|10.2135/cropsci1970.0011183X001000050031x
26821|T||Stroev,V.S.|The Cytogenetic Activity of the Herbicides Atrazine, Chloro-IPC, and Paraquat|Genetica ('S-Gravenhage)6:31-37|1970|
26829|T||Sexsmith,J.J.|"Control of Weeds in ""Special"" Crops"|In: Research Report, Canada Weed Committee, Western Section:89-134|1971|
26830|T||Molberg,E.S., C.H. Keys, and W.O. Chubb|Control of Weeds in Oilseed Crops|In: Research Report, Canada Weed Committee, Western Section:35-89|1971|
26831|T||Hunter,J.H., H.A. Friesen, and C.H. Anderson|Control of Annual Weeds in Cereal Crops: Wheat, Barley, Oats, Rye|In: Research Report, Canada Weed Committee, Western Section:34 p. |1971|
26833|T||Patro,G.K., G.C. Tosh, and A. Mishra|Studies with Dowpon, 2,4-D and Tafazine 50-W on Control of Weeds in Sugarcane|Madras Agric. J.58:528-530|1971|
26838|T||Trevett,M.F., and R.E. Durgin|Weed Control in Lowbush Blueberries with 2,4-D|Res. Life Sci.19:34-35|1971|
26841|T||Templeton,A.R., and W. Hurtt|Effect of Pre-Treatment Environment on Herbicidal Response and Morphological Variation of Three Species|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:277-283|1971|
26842|T||Johnson,B.J.|Effects of Sequential Herbicide Treatments on Weeds and Soybeans|Weed Sci.19(6): 695-700|1971|10.1017/S0043174500051080
26850|T||Kranz,J.C.|The Effect of Certain Hypoglycemic Drugs upon the Growth of the Seedlings of Lupinas albus|J. Am. Pharm. Assoc.19:458-461|1930|
26852|T||Thomas,M.|Biochemical Investigation on the Storage Diseases of Apples, with Special Reference to Aldehyde Poisoning|Proc. 1st Imperial Hortic. Conf.1:98-101|1930|
26858|T||Shill,A.C.|The Respiration of Citrus as Affected by Hydrocyanic Acid Gas Fumigation|Univ. Calif. Publ. Agric. Sci.5:167-180|1931|
26865|T||Staniland,L.N., and L.L. Walton|The Long Aston, Tar-Distillate Wash: Field Experiments, 1929|J. Minist. Agric.36(9): 517-523, 828-835|1929|
26868|T||Ross,W.A.|Lubricating Oil Sprays and the Pear Psylla Problem|Trans.4th Intl.Cong.Ent.Ithaca2:397-400|1929|
26873|T||Denny,F.E.|Experiment on the Use of Chemicals in Hastening the Sprouting of Potato Tubers|In: Rep. Dep. Agric. Bermuda:57-61|1926|
26874|T||Theobaud,F.W.|Tar Distillate Trials in Kent and Wost Sussex in 1928|J. Pomol. Hortic. Sci.7:199-211|1928|10.1080/03683621.1928.11513339
26875|T||Anonymous|Carbolineum Spray Trials in Wales|Welsh J. Agric.4:322-334|1928|
26877|T||Mackie,D.B., and A.H. Lall|Care of Walnut Nursery Stock Before and After Vacuum Fumigation|Mo. Bull. Dep. Agric. Calif.18:218-220|1929|
26878|T||Ong,E.R.|The Characteristics and Uses of Petroleum Oil Sprays|Trans.4th Intl.Cong.Ent.Ithaca2:145-154|1929|
26881|T||Edwards,E.E.|The Control of a Serious Potato Trouble|J. Minist. Agric.36:234-242|1929|
26882|T||Roark,R.C., and R.T. Cotton|Tests of Various Aliphatic Compounds as Fumigants|Tech. Bull. 162, Dept. Agric., Washington, DC:52 p.|1929|
26883|T||Denny,F.E.|Prevention of Sprout-Tuber Formation by Chemical Treatment|Proc.Potato Assoc.Am.16:83-86|1930|
26885|T||Kelley,V.W.|Effect of Certain Hydrocarbon Oils on Respiration of Foliage and Dormant Twigs of the Apple|Univ.Ill.Agric.Exp.Stn., Bull.No.348:369-406|1930|
26886|T||Denny,F.E.|Chemical Stimulation of Dormant Plants|New Flora Silva2:154-160|1930|
26891|T||Delong,D.M.|Entomology in Relation to Industry|Sci. Monthly25(5): 429-434|1927|
26897|T||Haskell,S.B.|Effect of Potash Salts on Crop Yields|Bull. Mass. Agric. Exp. Stn.232:43-51|1927|
26898|T||Thomas,R.C., and P.E. Tilford|Dust Treatments for the Control of Oat Smut|Ohio Agric. Res. Dev. Cent.11:18-23|1926|
26900|T||White-Stevens,R.H.|Analytical Observations on the Changes of Pectic Substances and Sugars in Celery During Cold Storage|Sci. Agric. (Piracicaba, Braz. )17:128-136|1936|
26902|T||Meesters,A.|The Influence of Hetero-auxin on the Growth of Root Hairs and Roots of Agrostemma Githagol|Proc. Sect. Sci. (K. Ned. Akad. Wet. Amst.)39:91-97|1936|
26907|T||Shigenaga,M.|On the Action of Sodium Glycocholate on Nuclei and Chromosomes|Mem. Coll. Sci. Kyoto Imp. Univ. Ser. D8:217-231|1933|
26909|T||Levine,M., and H. Bergmann|The Effects of Coal Tar and Other Chemicals on the Roots of Allium cepa|Am. J. Cancer26:291-315|1936|10.1158/ajc.1936.291
26911|T||Naylor,N.M., and V.L. Dawson|Effect of Treatment of Oats on the Development of Saccharogenic and Dextrinugenic Amylases During Germination|Iowa State J. Sci.10:267-274|1936|
26912|T||Havas,L., and J. Caldwell|Some Experiments on the Effects of Animal Hormones on Plants|Ann. Bot.49:729-747|1935|10.1093/oxfordjournals.aob.a090533
26917|T||Nowosad,F.S.|Preliminary Tests with Some Plant Hormones in the Rooting of Cuttings of Certain Forage Plants|Sci. Agric. (Piracicaba, Braz. )19:494-503|1939|
26918|T||Mitchell,J.W., and N.W. Stuart|Growth and Metabolism of Bean Cuttings Subsequent to Rooting with Indoleacetic Acid|Bot. Gaz.100:627-650|1939|10.1086/334815
26919|T||Ruttle,M.L., and B.R. Nebel|Cytogenetic Results with Colchicine|Biol. Zentbl. (Multiple languages)59:79-87|1939|
26921|T||Yuasa,A.|Notes on the Effects of Alcohol and Acetic Acid on Spermatogenesis in Isoetes japonica al. Br.|Jpn. J. Bot.9:297-301|1938|
26922|T||Skinner,H.T.|Rooting Response of Azaleas and Other Ericaceous Plants to Auxin Treatments|Proc. Am. Soc. Hortic. Sci.35:830-838|1937|
26926|T||Aslander,A.|Experiments on the Eradication of Canada Thistle, Cirsium arvense, with Chlorates and Other Herbicides|J. Agric. Res.36:915-934|1928|
26927|T||Doran,W.L.|Acetic Acid as a Soil Disinfectant|J. Agric. Res.36(3): 269-280|1928|
26928|T||Young,P.A., and H.E. Morris|Injury to Apples by Petroleum Oil Sprays|J. Agric. Res.47(7): 505-522|1933|
26932|T||Young,P.A.|Distribution and Effect of Petroleum Oils and Kerosenes in Potato, Cucumber, Turnip, Barley, and Onion|J. Agric. Res.51(10): 925-934|1935|
26933|T||Zimmerman,P.W., and A.E. Hitchcock|Response of Gladiolus Corms to Growth Substances|Contrib. Boyce Thompson Inst.10:5-14|1938|
26934|T||Miller,L.P.|Formation of beta-(2 Chloroethyl)-D-Glucoside by Gladiolus Corms from Absorbed Ethylene Chlorohydrin|Contrib. Boyce Thompson Inst.9:425-429|1938|
26935|T||Denny,F.E.|Combining Treatments for Disinfecting Potato Tubers with Treatments for Breaking Dormancy|Contrib. Boyce Thompson Inst.9:397-402|1938|
26936|T||Guthrie,J.P.|Phosphatase Activity of the Juice of Plant Tissue Following Treatment with Ethylene Chlorohydrin|Contrib. Boyce Thompson Inst.9:293-297|1938|
26937|T||Denny,F.E., and L.P. Miller|Suggestions for Standardizing the Ethylene Chlorhydrin Treatment for Inducing Sprouting of Recently-Harvested Intact Potato Tubers|Contrib. Boyce Thompson Inst.9:283-292|1938|
26938|T||Zimmerman,P.W., and A.E. Hitchcock|Tropic Responses of Leafy Plants Induced by Application of Growth Substances|Contrib. Boyce Thompson Inst.9:299-328|1938|
26939|T||Zimmerman,P.W., and A.E. Hitchcock|Initiation and Stimulation of Adventitious Roots Caused by Unsaturated Hydrocarbon Gases|Contrib. Boyce Thompson Inst.5:351-369|1933|
26940|T||Miller,L.P.|Effect of Various Chemicals on the Sugar Content, Respiratory Rate, and Dormancy of Potato Tubers|Contrib. Boyce Thompson Inst.5:213-234|1933|
26941|T||Zimmerman,P.W., A.E. Hitchcock, and W. Crocker|The Effect of Ethylene and Illuminating Gas on Roses|Contrib. Boyce Thompson Inst.3:459-482|1931|
26942|T||Miller,L.P.|The Effect of Treatments with Eythlene Chlorhydrin on the pH of the Expressed Juice of Potato Tubers|Contrib. Boyce Thompson Inst.3:321-336|1931|
26943|T||Crocker,W., A.E. Hitchcock, and P.W. Zimmerman|Similarities in the Effects of Ethylene and the Plant Auxins|Contrib. Boyce Thompson Inst.7:231-248|1935|
26945|T||Zimmerman,P.W., and A.E. Hitchcock|Comparative Effectiveness of Acids, Esters, and Salts as Growth Substances and Methods of Evaluating Them|Contrib. Boyce Thompson Inst.8:337-350|1937|
26946|T||Pfeiffer,N.E.|Anatomical Study of Root Production on Application of Indolebutyric Acid to Cissus Aerial Roots|Contrib. Boyce Thompson Inst.8:493-506|1937|
26947|T||Miller,L.P., and F.E. Denny|Relation Between Quantity of Ethylene Chlorhydrin Absorbed and Growth Response in Treatments for Shortening the Rest Period of Potato Tubers|Contrib. Boyce Thompson Inst.8:121-136|1936|
26948|T||Zimmerman,P.W., A.E. Hitchcock, and F. Wilcoxin|Several Esters as Plant Hormones|Contrib. Boyce Thompson Inst.8:105-112|1936|
26949|T||Zimmerman,P.W., and F. Wilcoxon|Several Chemical Growth Substances Which Cause Initiation of Roots and Other Responses in Plants|Contrib. Boyce Thompson Inst.7:209-229|1935|
26950|T||Hitchcock,A.E.|Tobacco as a Test Plant for Comparing the Effectiveness of Preparations Containing Growth Substances|Contrib. Boyce Thompson Inst.7:349-364|1935|
26951|T||Denny,F.E., and L.P. Miller|Storage Temperatures and Chemical Treatments for Shortening the Rest Period of Small Corms and Cormels of Gladiolus|Contrib. Boyce Thompson Inst.7:257-265|1935|
26952|T||Hitchcock,A.E.|Indole-3-N-Propionic Acid as a Growth Hormone and the Quantitative Measurement of Plant Response|Contrib. Boyce Thompson Inst.7:87-95|1935|
26953|T||Dills,L.E., and H.,Jr. Menusan|A Study of Some Fatty Acids and Their Soaps as Contact Insecticides|Contrib. Boyce Thompson Inst.7:63-82|1935|
26954|T||Miller,L.P.|Time Relations in Effect of Ethylene Chlorhydrin in Increasing and of Ethyl Alcohol in Decreasing the Respiration of Potato Tubers|Contrib. Boyce Thompson Inst.6:123-128|1934|
26956|T||Blakeslee,A.F., and A.G. Avery|Methods of Inducing Doubling of Chromosomes in Plants by Treatment with Colchicine|J. Hered.28:393-411|1937|10.1093/oxfordjournals.jhered.a104294
26958|T||Phillips,W.R., H.A.U. Monro, and C.E. Allen|Some Observations on the Fumigation of Apples with Methyl Bromide|Sci. Agric.19:7-20|1938|
26959|T||Oinone,Y.|Artificial Parthenocarpy by Use of Auxin|Nogyo Oyobi Engel13:2213-2218|1938|
26960|T||Kearns,H.G.H., R.W. Marsh, and H. Martin|Combined Washes. Progress Report - IV. The Phytocidal Properties of Petroleum Oil Sprays Alone and in Combination with Lime-Sulphur|Long Ashton Res. Stn. Rep.:63-77|1937|
26961|T||Walker,R.I.|The Effect of Colchicine on Embryo Sac Development in Tradescantia|J. Arnold Arboretum19:442-445|1938|10.5962/p.324596
26963|T||Micklem,T.|Studies on Fruit Bud Formation in Deciduous Fruit Trees in South Africa III.  Some Effects of Winter Oil Sprays on Fruit Bud Formation and Leaf Bud Development in the Bon Chretien Pear|J. Hortic. Sci. Biotechnol.16(3): 216-223|1938|
26964|T||Martin,V.D.|Effect of Fumigation of Wheat on Amylase Content|Iowa State J. Sci.12:467-470|1938|
26966|T||Ezekiel,W.N.|Tests with Pentachlorethane, Tetrachlorethane, and Xylol to Determine Their Efficiency in Eradication of Phymatotrichum Root Rot|J. Agric. Res.56(8): 579-593|1938|
26968|T||Guthrie,J.D.|Factors Influencing the Development of Ascorbic Acid and Glutathione in Potato Tubers Following Treatment with Ethylene Chlorhydrin|Contrib. Boyce Thompson Inst.9:17-39|1937|
26969|T||Lutman,B.F.|Disinfectants and Cut-Seed Potatoes|Bull. Vt. Agric. Exp. Stn.418:1-36|1937|
26970|T||Sweeney,B.M., and K.V. Thimann|The Effect of Auxins on Protoplasmic Streaming II|J. Gen. Physiol.21:439-463|1938|10.1085/jgp.21.4.439
26971|T||Granick,S., and H.W. Dunham|Growth Responses of Various Plants to Indole 3-N-Propionic Acid|Pap. Mich. Acad. Sci. Arts Lett.22:69-78|1936|
26972|T||Rodriguez,A.G.|Influence of Smoke and Ethylene on the Fruiting of the Pineapple (Ananas sativus Shult.)|J. Agric. Univ. P. R.16(1): 5-18|1932|10.46429/jaupr.v16i1.15019
26975|T||Haber,E.S.|Shortening the Rest Period of the Tubers of the Jerusalem Artichoke Helianthus tuberosus|Iowa State J. Sci.9:61-72|1934|
26976|T||Deuber,C.G.|Accelerating Seed Germination with Gas|Am. Gas Assoc. Mon.15:313-315|1933|
26978|T||Hubert,B., and J. Matan|The Influence of Synthetic Growth-Controlling Substances and Other Chemicals on Post-Floral Phenomena in Tropical Orchids|Biol. Jaarb.6:244-285|1939|
26979|T||Myers,W.M.|Colchicine Induced Tetraploidy in Perennial Ryegrass, Lolium perenne L.|J. Hered.30:499-504|1939|10.1093/oxfordjournals.jhered.a104643
26980|T||Levan,A.|Cytological Phenomena Connected with the Root Swelling Caused by Growth Substances|Hereditas25:87-96|1939|10.1111/j.1601-5223.1939.tb02686.x
26982|T||Guthrie,J.D.|Control of Bud Growth and Initiation of Roots at the Cut Surface of Potato Tubers with Growth Regulating Substances|Contrib. Boyce Thompson Inst.11:29-53|1939|
26986|T||Skoog,F.|Experiments on Bud Inhibition with Indole-3-Acetic Acid|Am. J. Bot.26:702-707|1939|
26987|T||Romberg,L.D., and C.L. Smith|A Preliminary Report on the Effects of Indolebutyric Acid in the Rooting of Transplanted Pecan Trees|Proc. Texas Pecan Growers Assoc.18:45-48|1938|
26988|T||Hansen,E.|The Effect of Ethylene on Pectic Changes in Ripening Fruits|Proc. Am. Soc. Hortic. Sci.36:427-428|1938|
26991|T||Shibuya,T.|Forcing the Germination of Dormant Seeds by Means of Growth Hormone|J. Soc. Trop. Agric.10:1-8|1938|
26992|T||Pearse,H.L.|Experiments with Growth-Controlling Substances. II. Response of Fruit Tree Cuttings to Treatment with Synthetic Root-Forming Substances|East Malling Res. Stn. Annu. Rep.26:157-166|1938|
26993|T||Mirov,N.T., and P. Stockwell|Colchicine Treatment of Pine Seeds|J. Hered.30:389-390|1939|10.1093/oxfordjournals.jhered.a104769
26994|T||Zimmerman,P.W., and A.E. Hitchcock|Experiments with Vapors and Solutions of Growth Substances|Contrib. Boyce Thompson Inst.10:481-508|1939|
26995|T||Johnston,S.|The Influence of Certain Hormone-like Substances on the Rooting of Hardwood Blueberry Cuttings|Mich. Agric. Exp. Stn. Q. Bull.21(4): 255-258|1939|
26996|T||Hitchcock,A.E., and P.W. Zimmerman|Comparative Activity of Root-Inducing Substances and Methods for Treating Cuttings|Contrib. Boyce Thompson Inst.10:461-480|1939|
26997|T||O'Mara,J.G.|Observations on the Immediate Effects of Colchicine|J. Hered.30:35-37|1939|10.1093/oxfordjournals.jhered.a104665
26998|T||Miller,L.P.|Synthesis of beta-(2-Chloroethyl)-d-Glucoside by Potato Tubers Treated with Ethylene Chlorohydrin|Contrib. Boyce Thompson Inst.10:139-141|1939|
26999|T||Went,F.W.|The Dual Effect of Auxin on Root Formation|Am. J. Bot.26:24-29|1939|10.1002/j.1537-2197.1939.tb12861.x
27001|T||Templeman,W.G.|The Effect of Some Plant Growth-Substances on Dry-Matter Production in Plants|Exp. Agric.7:76-88|1939|
27004|T||Sudds,R.H., and R.S. Marsh|Some Results and Suggestions Regarding the Use of Calcium Cyanamid on Apples|Proc. Am. Soc. Hortic. Sci.36:36-40|1938|
27005|T||Dozier,H.L.|New Method of Using Paradichlorobenzene for Seed Treatment to Control Sweetpotato Weevil|J. Econ. Entomol.32:372-373|1939|10.1093/jee/32.3.372
27007|T||Romberg,L.D., and C.L. Smith|Effects of Indole-3-Butyric Acid in the Rooting of Transplanted Pecan Trees|Proc. Am. Soc. Hortic. Sci.36:161-170|1938|
27009|T||McRostie,G.P., J.W. Hopkins, and N.H. Grace|Effect of Phytohormone Dusts on Growth and Yield of Winter Wheat Varieties|Can. J. Res. Sect. C Bot. Sci.16:510-515|1938|10.1139/cjr38c-046
27011|T||Guthrie,J.D.|Inhibition of the Growth of Buds of Potato Tubers with the Vapor of the Methyl Ester of Naphthaleneacetic Acid|Contrib. Boyce Thompson Inst.10:325-328|1939|
27012|T||Borgstrom,G.|Influence of Growth-Promoting Chemicals on Roots of Allium  I. Effective Concentration Ranges of Synthetic Growth Substances and Vitamins|Bot. Not.1939:207-220|1939|
27014|T||Van Schaik,P.H., and A.H. Probst|Effect of Six Growth Regulators on Pod Set and Seed Development in Midwest Soybeans|Agron. J.51:510-511|1959|10.2134/agronj1959.00021962005100080025x
27015|T||Michener,H.D.|The Action of Ethylene on Plant Growth|Am. J. Bot.25:711-720|1938|10.1002/j.1537-2197.1938.tb12840.x
27016|T||Avery,G.S.,Jr., P.R. Burkholder, and H.B. Creighton|Nutrient Deficiencies and Growth Hormone Concentration in Helianthus and Nicotiana|Am. J. Bot.24:553-557|1937|10.1002/j.1537-2197.1937.tb09146.x
27018|T||Stewart,W.S.|Extensibility of Cell Wall Material in Indole-3-Acetic Acid|Am. J. Bot.25:325-328|1938|
27019|T||Scheer,B.A.|Straight Growth of the Avena Coleoptile in Relation to Different Concentrations of Certain Organic Acids and Their Potassium Salts|Am. J. Bot.24(9): 559-565|1937|10.1002/j.1537-2197.1937.tb09147.x
27020|T||Macht,D.I., and M.L. Grumbein|Influence of Indole Acetic, Indole Butyric, and Naphthalene Acetic Acids on Roots of Lupinus albus Seedlings|Am. J. Bot.24:457-460|1937|10.1002/j.1537-2197.1937.tb09130.x
27021|T||Denny,F.E., L.P. Miller, and J.D. Guthrie|Enzym Activities of Juices from Potatoes Treated with Chemicals that Break the Rest Period|Am. J. Bot.17:483-509|1930|10.1002/j.1537-2197.1930.tb09558.x
27022|AT||Leonian,L.H., and V.G. Lilly|Is Heteroauxin a Growth-Promoting Substance?|Am. J. Bot.24:135-139|1937|
27023|T||Avery,G.S.,Jr., P.R. Burkholder, and H.B. Creighton|Avena Coleoptile Curvature in Relation to Different Concentrations of Certain Synthetic Substances|Am. J. Bot.24:226-232|1937|10.1002/j.1537-2197.1937.tb09094.x
27024|T||Goodwin,R.H.|The Role of Auxin in Leaf Development in Solidago Species|Am. J. Bot.24:43-51|1937|10.1002/j.1537-2197.1937.tb09064.x
27025|T||Thimann,K.V.|Auxins and the Growth of Roots|Am. J. Bot.23:561-569|1936|10.1002/j.1537-2197.1936.tb09026.x
27026|T||Landon,R.H.|The Effect of Certain Chemicals on the Catalase Activity in Plants|Am. J. Bot.21:583-591|1934|10.1002/j.1537-2197.1934.tb04985.x
27027|T||Klingensmith,M.J.|The Effect of Benzimidazole on Cation Uptake by Plant Roots|Am. J. Bot.48:711-716|1961|10.1002/j.1537-2197.1961.tb11701.x
27028|T||Hodson,W.E.H., and G.W. Gibson|Some Experiments with Calcium Cyanide as a Control for Plant Parasitic Nematodes|Ann. Appl. Biol.15:639-648|1928|10.1111/j.1744-7348.1928.tb07781.x
27029|T||Sampson,K., and D.W. Davies|The Germination and Early Growth of Wheat Treated with Copper Carbonate and Tillantin R.|Ann. Appl. Biol.15:408-422|1928|10.1111/j.1744-7348.1928.tb07063.x
27031|T||Vitou,H., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XV. The Use of Root-Growth Inhibition Tests in Investigations on the Relationships Between Chemical Structure and Growth-Regulating Activity|Ann. Appl. Biol.47(4): 752-765|1959|10.1111/j.1744-7348.1959.tb03490.x
27032|T||Stuart,N.W.|Nitrogen and Carbohydrate Metabolism of Kidney Bean Cuttings as Affected by Treatment with Indoleacetic Acid|Bot. Gaz.100:298-311|1938|10.1086/334786
27033|T||Goldberg,E.|Histological Responses of Cabbage Plants Grown at Different Levels of Nitrogen Nutrition to Indole-3-Acetic Acid|Bot. Gaz.100:347-369|1938|10.1086/334790
27034|T||Denny,F.E.|Effect of Thiourea upon Bud Inhibition and Apical Dominance of Potato|Bot. Gaz.81:197-211|1926|10.1086/333607
27035|T||Hamner,K.G.|Histological Responses of Mirabilis Jalapa to Indoleacetic Acid|Bot. Gaz.99:912-954|1938|10.1086/334757
27036|T||Beal,J.M.|Histological Responses to Three Species of Lilium to Indoleacetic Acid|Bot. Gaz.99:881-911|1938|10.1086/334756
27037|T||Mitchell,J.W., and W.E. Martin|Effect of Indoleacetic Acid on Growth and Chemical Composition of Etiolated Bean Plants|Bot. Gaz.99:171-183|1937|10.1086/334696
27038|T||Harrison,B.F.|Histological Responses of Iresine Lindenii to Indoleacetic Acid|Bot. Gaz.99:301-338|1937|10.1086/334703
27039|T||Bonner,D.M.|Activity of the Potassium Salt of Indole-3-Acetic Acid in the Avena Test|Bot. Gaz.99:408-411|1937|10.1086/334709
27040|T||Jasmin,J.J., and J.S.F. Coiteux|Some Effects of 4-(MCPB) when Used as a Selective Herbicide on Celery Grown on Organic Soil|Can. J. Plant Sci.42:40-45|1962|10.4141/cjps62-005
27041|T||Morrison,J.W.|"Cytological Effects of the Herbicide ""Avadex"""|Can. J. Plant Sci.42:78-81|1962|10.4141/cjps62-010
27042|T||Corns,W.G.|Effects of Gibberellin Treatments on Germination of Various Species of Weed Seeds|Can. J. Plant Sci.40:47-51|1960|10.4141/cjps60-005
27043|T||Denny,F.E.|Chemical Treatments for Controlling the Growth of Buds of Plants|J. Ind. Eng. Chem.20(6): 578-580|1928|10.1021/ie50222a005
27044|T||Cotton,R.T., and R.C. Roark|Ethylene Oxide as a Fumigant|J. Ind. Eng. Chem.20:805-|1928|10.1021/ie50224a007
27045|T||Ong,E.R.|Selection of Petroleum Oil for Spraying Purposes|J. Ind. Eng. Chem.22:836-838|1930|
27046|T||Ong,E.R.|Petroleum Oil as a Carrier for Insecticides and as a Plant Stimulant|J. Ind. Eng. Chem.20(8): 826-827|1928|10.1021/ie50224a016
27047|T||Gersdorff,W.A., and W.M. Davidson|New Solvents for the Active Principles of Pyrethrum|Ind. Eng. Chem. Fundam.21:1251-1253|1929|10.1021/ie50240a028
27049|T||Ginsburg,J.M.|Experiments with Waxes as Possible Carriers of Insecticides|J. Econ. Entomol.25:599-607|1932|10.1093/jee/25.3.599
27051|T||Hartzell,F.Z., P.J. Parott, and S.W. Harmon|Experiments with Tar Distillate Sprays Against Fruit Aphids and Associated Insects|J. Econ. Entomol.26:474-480|1933|10.1093/jee/26.2.474
27052|T||Hartzell,F.Z., P.J. Parott, and L.R. Streeter|Experiments with Tar Distillate Sprays|J. Econ. Entomol.25:607-613|1932|10.1093/jee/25.3.607
27053|T||Davidson,W.M.|Insecticidal Tests with Oils and Alkaloids of Larkspur (Delphinium consolida) and Stavesacre (Delphinium staphisagria)|J. Econ. Entomol.22:226-234|1929|10.1093/jee/22.1.226
27057|T||Snapp,O.I., and J.R. Thomson|Further Experiments in the Control of the Peach Borer on Nursery Stock and Orchard Trees|J. Econ. Entomol.27:771-779|1934|10.1093/jee/27.4.771
27058|T||Pearse,H.L.|Effect of Phenylacetic Acid on the Growth of Tomato Plants|Nature138:363-364|1936|10.1038/138363b0
27059|T||Mer,C.L.|Carbon Dioxide and Ethanol As Factors Controlling the Growth of Etiolated Oat Seedlings|Nature191:260-261|1961|10.1038/191260a0
27060|T||Tinley,G.H.|Effect of Ferric Dimethyldithiocarbamate on the Rooting of Cuttings of Hevea brasiliensis|Nature191:1217-1218|1961|10.1038/1911217a0
27062|T||Snow,R.|On the Upward Inhibiting Effect of Auxin in Shoots|New Phytol.37:173-185|1938|10.1111/j.1469-8137.1938.tb06934.x
27065|T||Brown,A.B., and R.G.H. Cormack|Stimulation of Cambial Activity, Locally in the Region of Application and at a Distance in Relation to a Wound, by Means of Heteroauxin|Can. J. Res. Sect. C Bot. Sci.15:433-441|1937|10.1139/cjr37c-033
27066|T||Singh,B.N., and P.B. Mathur|"Negative Correlation Between the Occurrence of Polyphenol Oxidase and Diastase and the Degree of Incidence of ""Blackheart"" of Potato"|Phytopathology27:992-1000|1937|
27068|T||Alexander,T.R.|Carbohydrates of Bean Plants After Treatment with Indole-3-Acetic Acid|Plant Physiol.13:845-858|1938|10.1104/pp.13.4.845
27069|T||Bonner,J., and J.,Jr. English|A Chemical and Physiological Study of Traumatin, a Plant Wound Hormone|Plant Physiol.13:331-348|1938|10.1104/pp.13.2.331
27072|T||White,P.R.|Amino Acids in the Nutrition of Excised Tomato Roots|Plant Physiol.12:793-802|1937|10.1104/pp.12.3.793
27073|T||Green,J.R.|Effect of Petroleum Oils on the Respiration of Bean Plants, Apple Twigs and Leaves, and Barley Seedlings|Plant Physiol.11:101-113|1936|10.1104/pp.11.1.101
27075|T||Schrank,A.R.|Growth and Geotropic Curvature of Avena Coleoptiles in Presence of n-1-Naphthylphthalamic Acid|Plant Physiol.36(6): 727-732|1961|10.1104/pp.36.6.727
27076|T||Bourke,J.B., J.S. Butts, and S.C. Fang|Effect of Various Herbicides on Glucose Metabolism in Root Tissue of Garden Peas, Pisum sativum. I. 2,4-Dichlorophenoxyacetic Acid & Its Analogs|Plant Physiol.37:233-237|1962|10.1104/pp.37.2.233
27077|T||Hilton,J.L.|Riboflavin Nullification of Inhibitory Actions of 3-Amino-1,2,4-Triazole on Seedling Growth|Plant Physiol.37:238-244|1962|10.1104/pp.37.2.238
27080|T||Hamilton,R.H., and D.E. Moreland|Simazine: Degradation by Corn Seedlings|Science135:373-374|1962|10.1126/science.135.3501.373
27082|T||Watson,A.J., and J.K. Leasure|Zytron: A Promising Material for Crabgrass Control|Down Earth15(3): 1-5|1959|
27083|T||Gibbs,C.B.|Amines of 2,4-D Hold Promise for Hardwood Control|Down Earth15:6-|1959|
27084|T||Laning,E.R.,Jr.|Tordon...for the Control of Deep-Rooted Perennial Herbaceous Weeds in the Western States|Down Earth19(1): 3-5|1963|
27086|T||Wallis,J.A.N.|Grass Control in Kenya Coffee|Down Earth16:7-9|1960|
27087|T||Thompson,P.A.|Chemical Growth Regulators to Promote Fruit Set in Pears|Hortic. Res.2:74-81|1963|
27088|T||McCaleb,J.E., and E.M. Hodges|Smutgrass Control - a Progress Report|Down Earth19:9-10|1963|
27089|T||Zetterberg,G.|A Specific and Strong Mutagenic Effect of N-Nitroso-N-Methylurethane in Ophiostoma|Hereditas47:295-303|1961|10.1111/j.1601-5223.1961.tb01775.x
27091|T||Satarova,N.A.|Effect of Nucleic Acids, Adenine and 2,4-D on the Growth of Gladiolus Tissue Cultures|Sov. Plant Physiol.8(3): 240-247|1961|
27093|T||Wolf,F.A., and W.W. Bates|The Pathological Effects of Gibberellic Acid on Tobacco|Tob. Sci.154(6): 20-23|1962|
27094|T||Mattila,R.E.|On the Production of the Tetraploid Hybird Aspen by Colchicine Treatment|Hereditas47:631-640|1961|10.1111/j.1601-5223.1961.tb01792.x
27105|T||Teaotia,S.S., I.C. Pandey, and R.S. Mathur|Gibberellin Induced Parthenocarpy in Guava (Psidium guajava L.)|Curr. Sci. (Bangalore)30(8): 312-|1961|
27111|AT||Herber,E.C., and M. Williams|Effects of Gibberellin on Plants and Amphibian Eggs|Proc. Pa. Acad. Sci.33:26-37|1959|
27113|T||Smith,L.W.|Weeds in Lucerne and Peas|Tasman. J. Agric.30:26-30|1959|
27117|T||George,K.|Chemical Control of Weeds in the Paddy Fields of Western Bengal|Trans. Bose Res. Inst. Calcutta21:9-12|1956|
27125|T||Moore,R.P.|Tetrazolium Testing-Its Past Accomplishments and Its Possibilities|Seed World85(4): 14-15|1959|
27126|T||Baptiste,E.D.C.|Poisoning Experiments with Hevea Brasiliensis.  I.  Preliminary Trials - Destruction of Trees with 2,4-D and 2,4,5-T|J. Rubber Res. Inst. Malays.15:189-192|1958|
27128|T||Phillips,I.D.J., A.J. Vlitos, and H. Cutler|The Influence of Gibberellic Acid upon the Endogenous Growth Substances of the Alaska Pea|Contrib. Boyce Thompson Inst.20:111-120|1959|
27130|T||Rakitin,I.V., K.L. Povolotskaia, T.M. Geiden, and K.G. Garaeva|Application of Completed Investigations in the National Economy. Maleic Hydrazide as an Inhibitor of Root Growth in Sugar Beet During Prolonged Storage|Sov. Plant Physiol.5:289-292|1958|
27131|T||Rakitin,I.V., and V.A. Zemskaia|The Effect of 2,4-D on Nitrogen Metabolism in Oat and Bean Plants|Sov. Plant Physiol.5:95-104|1958|
27132|T||Chakravarti,S.C., and N.J. Abraham|Effects of Gibberellic Acid on the Flowering of Sesamum indicum L.|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.24:89-93|1958|
27135|T||Stout,M., and F.V. Owen|Effect of Gibberellic Acid on Rate of Bolting of Annual Beets|J. Am. Soc. Sugar Beet Technol.10(4): 302-304|1959|10.5274/jsbr.10.4.302
27136|T||Wheatley,G.W., and R.T. Johnson|Studies on the Use of Gibberellic Acid to Induce Flowering in Sugar Beets|J. Am. Soc. Sugar Beet Technol.10(4): 335-343|1959|10.5274/jsbr.10.4.335
27139|T||Blagoveshchenskii,A.V., and U.A. Petrochenko|Effect of Succinic and Fumaric Acid Treatment of Seeds on Certain Physiological Processes in Plants|Sov. Plant Physiol.6:49-56|1959|
27142|T||Ward,K.M.|Keeping Weeds Out of Carrots|Qld. Agric. J.89:110-114|1963|
27147|T||Horavka,B., J. Krekule, and F. Seidlova|An Anatomical Study of the Effect of Gibberellic Acid on Differentiation of the Shoot Apex in the Species Perilla ocimoides L. in Short and Long Days|Biol. Plant. (Praha)4(3): 239-245|1962|10.1007/BF02933103
27148|T||Appalanaidu,B., and K. Satyanarayana Murty|Studies on the Influence of Gibberellic Acid on Growth Habit of Basella alba and Jasminum sambac|Andhra Agric. J.10(1): 19-25|1963|
27151|T||Brezhnev,D.D.|The Effect of Gibberillic Acid on the Growth and Development of Plants|Vestn. Skh. Nauki (Non-English)10:15-22|1959|
27152|T||Koontz,H.V., and D.A. Barber|Effect of 14-C-2,4-Dinitrophenol on Calcium Accumulation and Transpiration|Us Atomic Energy Comm Res and Develop Rept Hw-7250:|1962|
27154|T||Uhler,R.L.|Inhibitory Effects Chloramphenicol on Cation Uptake Plants|Us Atomic Energy Comm Res and Develop Rept Hw-7250:|1963|
27155|T||Sen,P.K., and T. Bose|Effect of Growth Substances on Rooting of Jack Fruit (Artocarpus Integrifolia Linn.) Layerings|Indian Agric.3:43-47|1959|
27157|T||Darhoose,S.|Weed Control in Carrots|Agric. Res. Rev.36:515-527|1958|
27158|T||Polevoi,V.V.|Dynamics of B-Indole Acetic Acid in Maize Seeds During Ripening and Germination|Dokl. Akad. Nauk SSSR (Non-English)124:25-28|1959|
27159|T||Hart,R.J.|Susceptibility of Lucilia cuprina Wied. to Some Organic Phosphorus Compounds|J. Aust. Inst. Agric. Sci.26:70-71|1960|
27168|T||Wassink,E.C., and B.C.M. Van Elk|"An Apparent Inhibition by ""CIPC"" (Isopropyl N-(3-Chlorophenyl) Carbamate) of Respiration in Germinating Pea Seeds, Simulated by a Morphogenetic Reaction"|Meded.Landbouwhogesch.Wagening.61:1-14|1963|
27172|T||Chvojka,L., M. Travnicek, and M. Zakourilova|The Influence of Stimulating Doses of 6-Benzylaminopurine on Awakening Apple Buds and on Their Consumption of Oxygen|Biol. Plant. (Praha)4(3): 203-206|1962|10.1007/BF02933097
27175|T||Modlibowska,I.|Effect of Gibberellic Acid on Fruit Development of Frost Damaged Conference Pears|Rep.E.Mailing.Res.Stn.63:64-67|1963|
27176|T||Bruinsma,J., and S.S. Patil|The Effects of 3-Indoleacetic Acid, Gibberellic Acid and Vitamin E on Flower Initiation in Unvernalised Petkus Winter Rye Plants|Naturwissenschaften50:505-|1963|10.1007/BF00624382
27182|T||Ahrens,J.F.|Chemical Control of Weeds in Nursery Plantings|Connecticut Agricultural Experiment Station, Bulletin No.638:41 p. |1961|
27183|T||Leonard,O.A., and J.S. Yeates|The Absorption and Translocation of Radioactive Herbicides in Gorse, Broom, and Rushes|Proc. N. Z. Weed Pest Control Conf.12:93-98|1959|10.30843/nzpp.1959.12.7514
27187|T||Mergen,F., and D.T. Lestser|Colchicine-Induced Polyploidy in Abies|For. Sci.7:314-319|1961|
27192|T||Mani,A.P.|Chemical Control of Weeds in Some Important Dicotyledonous Crops of West Bengal|Trans. Bose Res. Inst. Calcutta24:83-93|1961|
27196|T||Dewey,O.R., G.S. Hartley, and J.W.G. MacLauchlan|External Leaf Waxes and Their Modification by Root-Treatment of Plants with Trichloroacetate|Proc. R. Soc. Lond. Ser. B Biol. Sci.155:532-550|1962|
27197|T||Ganguly,P.K., and R.M. Datta|Preliminary Studies on the Effect of Gibberellic Acid on the Pollen Tube Growth in Sesbania sesban Linn. =(S. aegyptiaca pers.)|Indian Agric.5:100-106|1961|
27200|T||Foy,C.L.|Penetration and Initial Translocation of 2,2-Dichlorpropionic Acid (Dalapon) in Individual Leaves of Zea mays L.|Weeds (Urbana)10:35-39|1962|10.2307/4040557
27201|T||Singh,K.K., S. Singh, and K.L. Chadha|Effect of Some Plant Regulators on Fruit Drop in Mango|Indian J. Hortic.16:86-91|1959|
27202|T||Krishnamurthi,G.S., G.S. Randhawa, and J.P. Singh|Effect of Gibberellic Acid on Fruit Set, Size and Quality in the Pusa Seedless Variety of Grapes (Vitis vinifera L.)|Indian J. Hortic.16(1): 1-4|1959|
27203|T||Singh,J.P., and G.S. Randhawa|Effect of Gibberellic Acid and Parachlorophenenoxyacetic Acid on Growth and Fruitfulness in the Strawberry|Indian J. Hortic.16:14-17|1959|
27205|T||Poljakoff-Mayber,A., and A.M. Mayer|Growth and Development of Lettuce Germinated in Gibberellic Acid|Bull. Res. Counc. Isr. Sect. D Bot.7:54-|1959|
27206|T||Mashkin,S.I.|Use of Heteroauxin to Stimulate Pollen Germination and Growth of the Pollen Tubes in Some Fruit-Bearing Crops|Sov. Plant Physiol.6:384-386|1959|
27210|T||Andreeva,R.A., and I.B. Morozova|The Influence of Indoleacetic Acid Treatment of the Root System upon the Growth and Metabolism of Tomato Seedlings|Dokl. Akad. Nauk SSSR (Non-English)125:90-92|1959|
27211|T||Litvinenko,S.N.|Ukrain Gibberellin-An Effective Stimulant|Dokl. Akad. Nauk SSSR (Non-English)126:174-176|1959|
27212|T||Rakitin,I.U.V., and A.D. Potapova|The Effect of 2,4-D and Chlorine Ifk on Transpiration and Several Colloid Characteristics of Protoplasm|Dokl. Akad. Nauk SSSR (Non-English)126:150-154|1959|
27213|T||Rakitin,I.U.V., and A.D. Potapova|The Effect of Herbicides on the Respiration and Photosynthesis of Oats and Sunflower|Dokl. Akad. Nauk SSSR (Non-English)126:177-180|1959|
27215|T||Korobatov,V.|Application of 2,4-D Herbicide Against Weeds in Corn Sowings|Sots. Sel'sk Khoz. Azerb.8:43-45|1957|
27217|T||Nickerson,N.H.|Sustained Treatment with Gibberellic Acid of Five Different Kinds of Maize|Ann. Mo. Bot. Gard.46:19-37|1959|10.2307/2394566
27220|T||Powell,L.E., J.C. Cain, and R.C. Lamb|Some Responses of Apple and Pear Seedlings to Gibberellin|Proc. Am. Soc. Hortic. Sci.74:82-86|1959|
27223|T||Snyder,F.W., and S.H. Wittwer|Some Effects of Gibberellin on Stem Elongation and Flowering in Sugar Beets|J. Am. Soc. Sugar Beet Technol.10:553-561|1959|10.5274/jsbr.10.6.553
27226|T||Joiner,J.N., and R.E. Wentzel|Rooting and Bud Growth Responses of Philodendron oxycardium to Various Levels of 3-Indolebutyric Acid, Naphthaleneacetic Acid and Sucrose|Proc. Annu. Meet. Fla. State Hortic. Soc.72:375-377|1959|
27227|T||Leak,W.B.|Gibberellin Reduces Root Growth of Yellow Birch Seedlings|J. For.58:321-|1960|
27229|T||Randhawa,G.S., and J.P. Singh|Growth Response of Citrus Seedling Rootstock to Gibberellic Acid|Indian J. Hortic.16:76-78|1959|
27230|T||Snyder,F.W.|Effect of Gibberellin on Germination and Early Growth of the Sugar Beet|J. Am. Soc. Sugar Beet Technol.10(5): 394-395|1959|10.5274/jsbr.10.5.394
27235|T||Caluya,M.F., and J.S. Imlan|Effects of Gibberellic Acid on the Fiber of Kenaf (Hibiscus cannabinus L.)|Philipp. Agric.43:369-372|1959|
27236|T||Mustakimov,G.D.|The Effect of Hexachlorane (BHC) on the Growth of the Root System in the Anatomical Structure of the Axial Organs of the Cotton Plant|Izv. Akad. Nauk Uzb. SSR1957:49-55|1957|
27237|T||Boo,L.|The Effect of Gibberellic Acid on the Inhibitor B Complex in Resting Potato|Physiol. Plant. (Multiple Languages)14:676-681|1961|10.1111/j.1399-3054.1961.tb07925.x
27238|T||Manninger,I.B., and Z. Klement|Phytotoxic Effect of Contact Insecticides on Flax and Hemp|Novenytermeles (Non-English)8:259-272|1959|
27239|T||Sircar,S.M., and M. Kundu|Studies on the Physiology of Rice. XVI. Root and Shoot Growth in Relation to the Application of Growth Regulators and Changes in the Endogenous Free Auxin Contents|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.26:165-189|1960|
27240|T||Truelsen,T.A.|Growth-Promoting and Growth-Inhibiting Effects of High Indole-3-Acetic Acid Concentrations|Physiol. Plant. (Multiple Languages)14:520-532|1961|10.1111/j.1399-3054.1961.tb07910.x
27242|T||Gill,D.L., and C.M. Lyon|Evaluation of Herbicides on Lilies in the Field|Florists Exchange Hortic. Trade World136(32): 20-21, 32|1961|
27244|T||Taylor,O.C., W.M.,Jr. Dugger, E.A. Cardiff, and E.F. Darley|Interaction of Light and Atmospheric Photochemical Products ('Smog') Within Plants|Nature192:814-816|1961|10.1038/192814a0
27247|T||Leonard,O.A., and R.J. Weaver|Absorption and Translocation of 2,4-D and Amitrole in Shoots of the Tokay Grape|Hilgardia31:327-368|1961|10.3733/hilg.v31n09p327
27253|T||Jauhari,O.S., S. Dubey, and A. Prasad|Effect of 2,4,5-Trichlorophenoxyacetic Acid on the Fruit-Set, Development, Ripening and Quality of Loquat (Eriobotrya japonica Lindl.) Variety Golden Yellow|Agra Univ. J. Res. Sci.11:201-205|1962|
27254|T||Saidak,W.J., and W.M. Rutherford|The Tolerance of Young Apple Trees to Amitrole, Diuron and Simazine|Can. J. Plant Sci.43(2): 113-118|1963|10.4141/cjps63-021
27258|T||Mamushina,N.S., B.S. Moshkov, and M.V. Chulanovskaya|Role of Gibberellin in the Processes of Growth and Development in Plants|Sb Tr Agfiz9:56-63|1962|
27263|T||Ikuma,H., and K.V. Thimann|Activity of Gibberellin 'D' on the Germination of Photosensitive Lettuce Seeds|Nature197(4874): 1313-1314|1963|10.1038/1971313a0
27266|T||Verhoeven,G., and W.A.R. Cowdry|New Attack on Nut Grass in the Burdekin|Qld. Agric. J.87:239-242|1961|
27269|T||Black,C.C.,Jr., and T.E. Humphreys|Effect of 2,4-Dichlorophenoxyacetic Acid on Enzymes of Glycolysis and Pentose Phosphate Cycle|Plant Physiol.37:66-73|1962|10.1104/pp.37.1.66
27271|T||Thompson,P.A.|Some Factors Regulating the Use of Maleic Hydrazide for Runner Control in Strawberry Plantations|Hortic. Res.1:29-36|1961|
27275|T||Sagar,G.R., and J.L. Harper|Controlled Interference with Natural Populations of Plantago lanceolata, P. major and P. media|Weed Res. (Multiple Languages)1:163-176|1961|10.1111/j.1365-3180.1961.tb00017.x
27282|T||Nekrasova,T.V.|Effect of Gibberellic Acid on the Growth of Peach, Apricot and Lemon Seedlings|Izv. Akad. Nauk. Beloruss. SSR (Non-English)1:51-60|1961|
27284|T||Pyl'Nov,I.V.|Effect of Gibberellin on the Growth of Mulberry Tree (Morus Alba L.)|Izv. Akad. Nauk. Beloruss. SSR (Non-English)1:46-50|1961|
27285|T||Hyder,D.N., and F.A. Sneva|Chemical Control of Foothill Deathcamas|J. Range Manag.15:25-27|1962|10.2307/3894805
27286|T||Tullin,V.|Effects of Injections of Growth Compounds on Seedlings|Physiol. Plant. (Multiple Languages)15:315-340|1962|10.1111/j.1399-3054.1962.tb08031.x
27287|T||Sorokin,H.P., S.N. Mathur, and K.V. Thimann|The Effects of Auxins and Kinetin on Xylem Differentiation in the Pea Epicotyl|Am. J. Bot.49(5): 444-454|1962|10.1002/j.1537-2197.1962.tb14963.x
27289|T||Phillips,I.D.J.|Some Interactions of Gibberellic Acid with Naringenin (5,7, 4'-Trihydroxy Flavonone) in the Control of Dormancy and Growth in Plants|J. Exp. Bot.13(38): 213-226|1962|10.1093/jxb/13.2.213
27291|T||Ball,N.G.|The Effects of Externally Applied 3-Indolylacetic Acid on Phototropic Induction and Response in the Coleoptile of Avena|J. Exp. Bot.13(37): 45-60|1962|10.1093/jxb/13.1.45
27292|T||Miller,M.D., D.S. Mikkelsen, and R.C. Huffaker|Effects of Stimulatory and Inhibitory Levels of 2,4-D, Iron, and Chelate Supplements on Juvenile Growth of Field Beans|Crop Sci.2:111-114|1962|10.2135/cropsci1962.0011183X000200020008x
27295|T||Shadbolt,C.A.|Weed Control in Celery|Proc. Calif. Weed Sci. Soc.11:33-34|1959|
27297|T||Portz,H.L., and C.W. Lobenstein|Control of Wild Garlic in Winter Grains|Proc. South. Weed Conf.12:37-40|1959|
27299|T||Koopman,H., J.H. Uhlenbroek, H.H. Haeck, J. Daams, and M.J. Koopmans|Investigations on Herbicides II. 2-Alkyloxy- and 2-Aryloxy - 4,6-Dichloro-1,3,5-Triazines - 2-Alkylthio - and 2 - Arylthio - 4,6-Dichloro - 1,3,5-Triazines|Rec. Trav. Chim. Pays-Bas78:967-980|1959|10.1002/recl.19590781205
27300|T||Harris,V.C.|Weed Control in Grain Sorghum|Proc. South. Weed Conf.12:23-32|1959|
27301|T||Hahlin,M.|Experiments with Propham and Calcium Cyanamide on Wild Oats|Vaxtodling10:22-30|1959|
27302|T||Foret,J.A.|Control of Bermudagrass in Woody Ornamentals|Proc. South. Weed Conf.12:100-101|1959|
27304|T||Dana,M.N.|Amino Triazole for Cranberry Weed Control in Wisconsin|Cranberries24:7-8|1959|
27305|T||Burt,E.O., and J.T. McCown|Controlling Perennial Grasses in Citrus Groves|Proc. South. Weed Conf.12:93-99|1959|
27306|T||Britt,K.|Pre-Emergence Weed Control in Container Grown Nursery Stock|Proc. Calif. Weed Sci. Soc.11:84-87|1959|
27307|T||Basler,E.|The Effects of Gibberellic Acid on the Translocation, Metabolism and Toxicity of 2,4-D in Bean Plants|Proc. South. Weed Conf.12:171-|1959|
27311|T||Wedding,R.T., and M.K. Black|Response of Oxidation & Coupled Phosphorylation in Plant Mitochondria to 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.37:364-370|1962|10.1104/pp.37.3.364
27313|T||Gratkowski,H.|Effects of Herbicides on Some Important Brush Species in Southwestern Oregon|Pacific Northwest Forest and Range Experiment Station, Research Paper 31:32 p.|1959|
27315|T||Peevy,F.A.|Evaluation of Placements of 2,4,5-T Basal Spray for Control of Blackjack Oak|Weeds (Urbana)10:74-75|1962|10.2307/4040566
27317|T||Warden,R.L.|Post-Emergence Grass Control in Corn with Directed Sprays of Dowpon|Down Earth17:3-5|1962|
27318|T||Vengris,J.|The Effect of Rhizome Length and Depth of Planting on the Mechanical and Chemical Control of Quackgrass|Weeds (Urbana)10:71-74|1962|10.2307/4040565
27319|T||Linscott,D.L., and M.K. McCarthy|Absorption, Translocation and Degradation of 2,4-D in Ironweed (Vernonia baldwinii)|Weeds (Urbana)10:65-68|1962|10.2307/4040563
27320|T||Geissbuhler,H., C. Haselbach, H. Aebi, and L. Ebner|The Fate of N'-(4-Chlorophenoxy)Phenyl-NN-Dimethylurea (C-1983) in Soils and Plants.  III.  Breakdown in Soils and Plants|Weed Res. (Multiple Languages)3:277-297|1963|10.1111/j.1365-3180.1963.tb00248.x
27324|T||Ashton,F.M., E.M.,Jr. Gifford, and T. Bisalputra|Structural Changes in Phaseolus vulgaris Induced by Atrazine II. Effects on Fine Structure of Chloroplasts|Bot. Gaz.124:336-343|1963|10.1086/336215
27327|T||Sharma,A.K., M. Chaudhuri, and D.P. Chakraborti|Chemical Basis of the Action of Natural Coumarin and Its Derivatives on Chromosome Breakage|Acta Biol. Med. Ger. (Multiple Languages)11(3): 433-441|1963|
27329|T||Khabibrakhmanov,K.H.K.H.|The Use of Herbicides on Pea Sowings on Occupied Fallows in the Tatar Assr| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:105-109|1962|
27330|T||Yurin,I.A., V.A. Alabushev, and V.A. Sal'Nikov|The Chemical Control of Weeds|Sadovodstvo2:32-34|1963|
27335|T||Ladonin,V.F.|The Effect of 2,4-D on the Water Balance of Plants| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:205-211|1962|
27337|T||Asana,R.D., and P.N. Wattal|Influence of Gibberellic Acid on the Yield of Peas|Agric. Res.2:223-224|1962|
27338|T||Blaha,J.|Influence of Gibberellic Acid on the Grapevine and Its Fruit in Czechoslovakia|Am. J. Enol. Vitic.14(3): 161-163|1963|10.5344/ajev.1963.14.3.161
27339|T||Rochecouste,E.|New Aspects in the Control of Rhizomatous Grasses with Special Reference to Cynodon dactylon (L.) Pers.|Proc. Int. Soc. Sugarcane Technol.11:291-298|1962|
27341|T||Ostrowski,J.|The Importance of Herbicides and Synthetic Growth Substances, and Results of Their Application|Postepy Nauk Roln. (Multiple Languages)9:117-127|1962|
27342|T||Efimov,Y., and N. Milashchenko|The Action of Herbicides in Weed Control|Sel'skoe Khoz. Prov. Sibiri DalNego Vost2:|1963|
27345|T||Abbott,D.L.|Reflections on the Use of Growth Regulators for Apple Thinning|Sci. Hortic.15:37-45|1961|
27347|T||Kiryukhin,G.A., and M.V. Ul'Yanitskaya|The Chemical Control of Weeds and Phylloxera Coccinea in Grape Stock Nurseries|Sadovod. Vinograd. Vinodel. Mold.11:43-44|1962|
27349|T||Akhromeiko,A.I.|Chemical Control of Undesirable Trees, Shrub and Grassy Plants in Silviculture|In: N.S.Sokolov (Ed), Herbicides in Agriculture, Israel Program for Scientific Translations, Jerusalem:118-123|1962|
27351|T||Roberts,B.R., P.J. Kramer, and C.M.,Jr. Carl|Long-Term Effects of Gibberellin on the Growth of Loblolly Pine Seedlings|For. Sci.9(2): 202-205|1963|
27352|T||Laloraya,M.M., and V.K. Rai|Growth of the Seedling of Phaseolus mungo L. as Affected by Auxin and Gibberellic Acid|Indian J. Plant Physiol.5:218-229|1962|
27353|T||Wachtmeister,C.A., M. Moutschen-Dahmen, J. Moutschen, and L. Ehrenberg|Biological Effects of Myleran Analogues. I. Chromosomal Aberrations Induced by 1,1,1-Methanesulfonyloxymethyl Propane|Radiat. Bot.3:187-192|1963|10.1016/S0033-7560(63)80015-0
27355|T||Newman,J.S.|Chemical Control of Annual Weeds on Irrigation Borders|Tex. Agric. Exp. Stn. Prog. Rep.2268:1-4|1963|
27356|T||Proskura,S.S.|Effectiveness of Herbicides on the Drained Peat Soils of the Forest Steppe of the Ukrainian SSR|In: N.S.Sokolov, (Ed.), Herbicides in Agriculture (Conference Proceeding): Primenenie Gerbitsidov v Sel'skom Krozyaistve, Israel Program for Scientific Translations, Jerusalem, Israel:222-225|1962|
27358|T||Smith,D.H.|Effect of Fumigants on the Soil Status and Plant Uptake of Certain Elements|Proc. Soil Sci. Soc. Am.27(5): 538-541|1963|10.2136/sssaj1963.03615995002700050021x
27359|T||Scurfield,G.|The Effects of Maleic Hydrazide and Related Compounds on Species of Phalaris|Aust. J. Sci.24:417-419|1962|
27360|T||Stein,O.L., and H. Quastler|Effect of Tritiated Thymidine on the Morphogenesis of Lateral Roots in Zea mays|Radiat. Res.21:212-222|1964|10.2307/3571560
27361|T||Dukhanin,A.A.|The Use of Herbicides for the Control of Graminaceous Weeds in Green Manure Crop Rotation on Sandy Soils| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:132-139|1962|
27362|T||Rozenberga,V.K.|The Use of Herbicides in the Overgrowth of Drainage Canals|Tr Latviisk Nauchn-Issled Inst Gidrotekh I Meliora:|1962|
27370|T||Corns,W.G., W.H. Vanderborn, and R.J. Schraa|Selective Chemical Control of Couchgrass and Bromegrass in Kentucky Bluegrass Sod|Can. J. Plant Sci.44(3): 296-297|1964|10.4141/cjps64-058
27374|T||Misra,G., and G. Sahu|Effect of Gibberellic Acid on Rice|Phyton (Horn) (Multiple Languages)20(1): 29-33|1963|
27375|T||Misra,G., and G. Sahu|Effect of Maleic Hydrazide on Rice|Phyton (Horn) (Multiple Languages)20:35-39|1963|
27376|T||Moro,M.S., Y. Pomeranz, and J.A. Shellenberger|The Effects of Gibberellic Acid on Alpha-Amylase in Wheat Endosperms|Phyton (Horn) (Multiple Languages)20(1): 59-64|1963|
27378|T||Sund,K.A.|An Evaluation of Atrazine, Simazine, Monuron and Diuron on Ten Hawaiian Sugar Cane Plantations|Weeds (Urbana)12:215-219|1964|10.2307/4040733
27379|T||Agakishiev,D.|The Effect of Gibberellin on Cotton Under Conditions of Salinity|Sov. Plant Physiol.11(2): 174-177|1964|
27380|T||Imamaliev,A.|The Interaction of Defoliants with Heteroauxin in Plants|Dokl. Akad. Nauk Uzb. SSR4:53-56|1963|
27381|T||Kalishevich,S.V., and N.V. Porokhnevich|The Effect of Gibberellic Acid on the Anatomic Structure of Hemp Stems|Sov. Plant Physiol.11(2): 178-180|1964|
27385|T||Palladina,T.A.|The Effect of Gibberellin on the Sprouting of Potato Tubers Treated with Maleic Hydrazide and Their Auxin Content|Sov. Plant Physiol.11(2): 270-273|1964|
27386|T||Supniewska,J.H.|Observations on the Action of Trimethyl-beta-Chlorethylammonium Chloride on Plants. III. Effect on the Growth of Hypocotyls of the Radish|Bull. Polon. Sci.11(8): 411-416|1963|
27388|T||Tizio,R.|Effect of Indolebutyric Acid and Biotin on the Rooting of Vine Cuttings|Phyton (Horn) (Multiple Languages)19(2): 155-156|1962|
27389|T||Zatyko,J.M.|Synergistic Action of Indoleacetic and Gibberellic Acids on the Parthenocarpic Fruit Set of Gooseberry|Phyton (Horn) (Multiple Languages)19(2): 161-162|1962|
27392|T||Okuntsov,M.M., and G.D. Zyranova|The Effect of Herbicides on Plant Metabolism|Izv. Tomsk. Otd. Vses. Bot. Obshch.4:87-90|1959|
27393|T||Hughes,E.E., and R.A. Darrow|Herbage Production Responses to Pelleted Fenuron and Granular 2,3,6-TBA|J. Range Manag.17(4): 197-199|1964|10.2307/3895765
27398|T||Wain,R.L., P.P. Rutherford, E.W. Weston, and C.M. Griffiths|Effects of Growth-Regulating Substances on Inulin-Storing Plant Tissues|Nature203:504-506|1964|10.1038/203504a0
27399|T||Aleev,B.G., and A. Yuldashev|Developing Chemical Methods for the Control of Weeds in Cotton and Corn|Tr.Nauchno-Issled.Inst.Zashch.Rast.Gruz.SSR6:110-117|1963|
27400|T||Alkhas'Yants,E.L.|The Results of Trials of Herbicides at and After Sowing for the Control of Weeds in Cotton|Tr.Nauchno-Issled.Inst.Zashch.Rast.Gruz.SSR6:118-123|1963|
27401|T||Al'Tergot,V.F.|The Combined Use of Leaf Feeding and Chemical Weeding with Herbicides|Nauchnye Osnovy Zashchity Urozhaya:75-82|1963|
27403|T||Kamilova,R., and A. Rakhimov|The Use of Herbicides on Roadsides|Dokl. Akad. Nauk SSSR (Non-English)3:61-63|1963|
27407|T||Basler,E.|The Decarboxylation of Phenoxyacetic Acid Herbicides by Excised Leaves of Woody Plants|Weeds (Urbana)12:14-16|1964|10.2307/4040628
27408|T||Davis,D.E., and H.H.,Jr. Funderburk|Eradication of Kudzu|Weeds (Urbana)12:62-63|1964|10.2307/4040646
27409|T||Whitworth,J.W.|The Reaction of Strains of Field Bindweed to 2,4-D|Weeds (Urbana)12:57-58|1964|10.2307/4040642
27411|A||Bitancourt,A.A.|Deuterauxin, An Active Oxidation Product of Indolyl-3-Acetic Acid, and Its Possible Role in the Mechanism of Plant Cell Wall Elongation|Nature200:548-552|1963|10.1038/200548a0
27412|T||Dudnyk,V.M.|The Action of Hexachloran on the Production of Carbohydrates in Plants|Pratsi Bot. Sadu:121-125|1963|
27414|T||Eglite,A.|The Use of Sodium Trichloroacetate for the Control of Perennial Grassy Weeds|Sbornik Dokladov Nauchnoi Konferentsii Po Zashchit:|1960|
27417|T||Kasasian,L.|Weedkillers for the Control of Pentaclethra macroloba and Alchornea subglandulosa|Caribb. For.24:36-37|1963|
27418|T||Revin,A.A.|The Persian Walnut on the Southern Coast of Crimea|Sb Rabot Aspirantov I Molodykh Nauchn Sotrudnikov:|1958|
27421|T||Gorbunova,S.P.|Weed Control in Areas of Reclamation of Virgin and Disused Lands| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:36-56|1962|
27422|T||Khabibrakhmanov,K.H.K.H.|The Control of Weeds by Farming Practices and Chemicals in the System of Occupied Fallow in the Tatar Assr| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:139-145|1962|
27423|T||Neeme,T.|The Chemical Destruction of Dandelions on Lawns|Sbornik Dokladov Nauchnoi Konferent Sii Po Zashchi:|1960|
27427|T||Gershun,M.S., and T.N. Guzeeva|The Use on Tree Crops of Herbicides Applied Before the Development of Shoots|Sel'skoe Khoz. Uzebkistana11:90-92|1962|
27429|T||Fedorinchik,N.S.|Dressing Seeds with Trichodermine-3|Kukuruza7:50-51|1960|
27432|T||Osborne,D.J., and S.E. Moss|Effect of Kinetin on Senescence and Abscission in Explants of Phaseolus vulgaris|Nature200:1299-1301|1963|10.1038/2001299a0
27433|T||Yakar-Algus,N.|Action of Gibberellic Acid on Flowering and Production of Fruit and Seed in Broad Beans|Istanb. Univ. Fen Fak. Mecm. Ser. B26:75-85|1961|
27434|T||Bovey,R.W., and C.R. Fenster|Aerial Application of Herbicides on Fallow Land|Weeds (Urbana)12(2): 117-119|1964|10.2307/4040610
27436|T||Carlier,A., and C. Van Hove|Influence of A-Naphthalene Acetic Acid on Growth, Respiration and 14C02 Production from Glucose-1-14C and Glucose-6-14C|Nature201:677-679|1964|10.1038/201677a0
27437|T||Davison,R.M.|Use of Carbaryl as Chemical Thinning Agent|Orchardist36:245, 247|1963|
27438|T||Waters,W.E.|The Influence of Diuron and Simazine Herbicides on Bulb Production of Lilium longiflorum|Annu. Meet. Fla. State Hortic. Soc.76:424-428|1963|
27439|AT||Hoffmann,C.E., J.W. McGahen, and P.B. Sweetser|Effect of Substituted Uracil Herbicides on Photosynthesis|Nature202:577-578|1964|10.1038/202577a0
27442|T||Holroyd,J.|Field Investigations Concerning the Selective Phytotoxicity of Di-Allate to Avena spp. in Wheat and Barley|Weed Res. (Multiple Languages)4(2): 142-166|1964|10.1111/j.1365-3180.1964.tb00283.x
27443|T||Kolesnikov,V.A.|The Problem of the Biology of Reeds and Control Measures for Them in Dagestan| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.39:157-169|1962|
27444|T||Lee,W.O.|Chemical Control of Weeds in Crimson Clover Grown for Seed Production|Technical Bulletin No. 1302, U.S. Department of Agriculture, Washington, D.C.:1-21|1964|
27447|T||Koblova,M.N.|Herbicides for Weed Control of Irrigated Vegetable Crops in the Volga-Akhtubinsk Lowland|Uch. Zap. Kabardino-Balkarskogo Univ. Ser. Biol.16:65-|1962|
27448|T||Gartel,W.|Damage to Grapes by 2,2-Dichloropropionic Acid|Wein. Kell.10:93-102|1963|
27449|T||Griffiths,C.M., I.C. MacWilliam, and T. Reynolds|Relative Activity of Gibberellins and Their Derivatives on Barley|Nature202:1026-1027|1964|10.1038/2021026a0
27451|T||Finkelman,I., and L. Reinhold|Studies on the Uptake and Release of Sugars by Segments of Sunflower Hypocotyl. I. the Effect of 2,4-Dinitrophenol on the Uptake of Fructose|Isr. J. Bot.12:97-105|1964|
27452|T||Finkelman,I., and L. Reinhold|Studies on the Uptake and Release of Sugars by Segments of Sunflower Hypocotyl. II. the Effect of 2,4-Dinitrophenyl on the Release of Sugars and on the Apparent|Isr. J. Bot.12:106-113|1964|
27455|T||Lobov,V.P., F.L. Kalinin, and L.A. Leppik|The Results of A Study of the Action of 77 Different Substances on Acroptilon picris|Nauchn Tr Ukrainsk Nauchn-Issled Inst Fiziol Rast:|1962|
27457|T||Onley,J.H., R.W. Storherr, and A.J.,Jr. Culver|An Oregon Cranberry Bog Study for 3-Amino-1,2,4-Triazole Residues, 1961-1962|J. Assoc. Off. Agric. Chem.46(6): 996-1001|1963|
27458|T||Lalova,M.P.|Chemical Control of Weeds in Certain Vegetable Crops|Rastit. Zas. (Non-English)91-96:107-112|1962|
27459|T||Koverga,E.L.|The Effect of Gibberellic Acid on the Growth of Seedlings of Some Decorative Fruit Trees and Bushes|Tr. Gos. Nikitsk. Bot. Sad36:97-113|1962|
27460|T||Hurd,R.G., and O.N. Purvis|The Effect of Gibberellic Acid on the Flowering of Spring and Winter Rye|Ann. Bot.28(109): 137-151|1964|10.1093/oxfordjournals.aob.a083888
27462|T||Maitesyan,G.S.|The Effectiveness of Herbicides in Controlling Euphorbia and Peganum in the Semidesert Belt of the Armenian Ssr|Tr Arm Zvet6:66-71|1962|
27464|T||Farkhadi,I.|Herbicides on Irrigated Vineyards|Vinodel.Vinograd.SSSR23:42-44|1963|
27465|T||Kolesnikov,V.A.|The Use of Herbicides in Vineyards| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.40:247-259|1962|
27467|T||Davis,E.L., and P.J. Holmes|Morphogenetic Effect of Gibberellic Acid on the Xylem of Lycopersicon esculentum L.|Phyton (Horn) (Multiple Languages)19(1): 31-34|1962|
27469|T||White,P.R.|Vitamin B6, Nicotinic Acid Pyridine, Glycine and Thiamin in the Nutrition of Excised Tomato Roots|Am. J. Bot.27:811-821|1940|10.1002/j.1537-2197.1940.tb10955.x
27470|T||Hamner,C.L.|Effects of Vitamin B1 upon the Development of Some Flowering Plants|Bot. Gaz.102:156-168|1940|10.1086/334942
27472|A||Clark,N.A., and E.E. Frahm|Influence of Auxins on Reproduction of Lemna Major|Plant Physiol.15:735-741|1940|10.1104/pp.15.4.735
27473|T||Hartman,J.D., and E.C. Stair|The Use of Glycerin in Shipping Tomato Plants|Proc. Am. Soc. Hortic. Sci.37:916-918|1939|
27474|T||Noguti,Y., K. Okuma, and H. Oka|Studies on the Polyploidy in Nicotiana Induced by the Treatment with Colchicine. I. General Observations on the Autotetraploid of Nicotiana rustica and N. tabacum|Jpn. J. Bot.10:309-319|1939|
27479|T||Barton,L.V.|Toxicity of Ammonia, Chlorine, Hydrogen Cyanide, Hydrogen Sulphide, and Sulphur Dioxide Gases.  IV.  Seeds|Contrib. Boyce Thompson Inst.11:357-363|1940|
27482|T||Maxon,M.A., B.S. Pickett, and H.W. Ricney|Effect of Hormodin A, a Growth Substance on the Rooting of Cuttings|Res. Bull. Agric. Exp. Stn. Iowa State Coll.280:928-973|1940|
27483|T||Bergner,A.D., A.G. Avery, and A.F. Blakeslee|Chromosomal Deficiencies in Datura stramonium Induced by Colchicine Treatment|Am. J. Bot.27(8): 676-683|1940|10.1002/j.1537-2197.1940.tb10932.x
27484|T||Allen,T.C., and T.L. Carpenter|Phytotoxic Properties of Undiluted Low-Boiling Petroleum Oil Distillates|J. Econ. Entomol.33(4): 591-596|1940|10.1093/jee/33.4.591
27486|T||Grace,N.H.|Responses of Plant Cuttings to Treatment with Naphthyl Acids and Their Potassium Salts in a Talc Carrier|Can. J. Res. Sect. C Bot. Sci.18:457-468|1940|10.1139/cjr40c-042
27487|T||Grace,N.H.|Effects of Plant and Animal Hormones on Seeds Damaged by Formaldehyde|Can. J. Res. Sect. C Bot. Sci.17:445-451|1939|10.1139/cjr39c-041
27489|T||Nishiyama,I.|Studies on Artificial Polyploid Plants.  I.  Production of Tetraploids by Treatment with Colchicine|Nogyo Oyobi Engel14:1411-1422|1939|
27490|T||Knight,K.L.|Fumigation of Sacked Grain with Chloropicrin|J. Econ. Entomol.33:536-539|1940|10.1093/jee/33.3.536
27494|T||Winklepleck,R.L.|Blossom Delay with Hormones|Am. Fruit Grow.60:4-|1940|
27495|T||Grace,N.H.|Effects of Dusts Containing Indolylbutyric Acid and Oestrone on the Rooting of Dormant Lonicera tartarica Cuttings|Can. J. Res. Sect. C Bot. Sci.18:283-288|1940|10.1139/cjr40c-029
27496|T||Diehl,J.M., C.J. Gorter, G.,Jr. Van Iterson, and A. Klienhoote|The Influence of Growth Hormone on Hypocotyls of Helianthus and the Structure of Their Cell Walls|Recl. Trav. Bot. Neerl.36:709-798|1939|
27498|T||Van der Plank,J.E., J.M. Rattray, and G.F. Van Wyk|The Use of Wraps Containing O-Phenylphenol for Citrus Fruits|J. Pomol. Hortic. Sci.18(2): 135-144|1940|10.1080/03683621.1941.11513558
27499|T||Grace,N.H., and M.W. Thistle|Responses of Dormant Cuttings of Lonicera Tartarica to Solutions of Indolylacetic Acid and Nutrient Salts|Can. J. Res. Sect. C Bot. Sci.17(10): 317-320|1939|10.1139/cjr39c-031
27500|T||Stephens,S.G.|Colchicine Treatment as a Means of Inducing Polyploidy in Cotton|Trop. Agric.17(2): 23-25|1940|
27502|T||Snow,R.|A Second Factor Involved in Inhibition by Auxin in Shoots|New Phytol.38:210-223|1939|10.1111/j.1469-8137.1939.tb07100.x
27503|T||Mitchell,J.W.|Effect of Naphthalene Acetic Acid and Naphthalene Acetamide on Nitrogenous and Carbohydrate Constituents of Bean Plants|Bot. Gaz.101:688-699|1940|10.1086/334904
27504|T||Hubert,B., and J. Maton|Parthenocarpy and Growth Substances|Natuurwet. Tijdschr.21:339-348|1940|
27505|T||Eigsti,O.J.|The Effects of Colchicine upon the Division of the Generative Cell in Polygonatum, Tradescantia, and Lilium|Am. J. Bot.27:512-524|1940|10.1002/j.1537-2197.1940.tb14712.x
27506|T||Constantin,T.|Mitogenese et Colchicine Dans la Racine D'Oignon|Bull. Histol. Appl. Physiol. Pathol. Tech. Microsc.17:97-108|1940|
27507|T||Lindner,R.C.|Factors Affecting Regeneration of the Horseradish Root|Plant Physiol.15:161-181|1940|10.1104/pp.15.2.161
27508|T||Grace,N.H.|Effects of Two Preparations of Naphthylacetic Acid on the Germination and Early Growth of Wheat Seed Damaged by Formaldehyde|Can. J. Res. Sect. C Bot. Sci.18:215-218|1940|10.1139/cjr40c-023
27509|T||Mol,W.E.|Experiments with Colchicine Iii-Viii|Herba Topia3:1 - 16,18|1939|
27510|T||Grace,N.H., and M.W. Thistle|Vegetative Propagation of Conifers. V. The Effect of Indolyacetic Acid and Nutrient Solutions on the Rooting of Norway Spruce Cuttings|Can. J. Res. Sect. C Bot. Sci.18:122-128|1940|10.1139/cjr40c-014
27511|T||Johnstone,F.E.,Jr.|Chromosome Doubling in Potatoes Induced by Colchicine Treatment|Am. Potato J.16:288-304|1939|10.1007/BF02861918
27512|T||Dermen,H., and N.A. Brown|Cytological Basis of Killing Plant Tumors by Colchicine|J. Hered.31:197-199|1940|10.1093/oxfordjournals.jhered.a104881
27514|T||Harley,C.P., and J.B. Moore|Preliminary Studies on the Effect of Tar Oil Spray for the Prevention of Fruit Set in Apples|Proc. West. Soc. Hortic. Sci.35:47-48|1939|
27516|T||Bonner,J., and J. Greene|Further Experiments on the Relation of Vitamin B1 to the Growth of Green Plants|Bot. Gaz.101(2): 491-500|1939|10.1086/334884
27517|T||Verner,L.|The Effect of a Plant Growth Substance on Crotch Angles in Young Apple Trees|Proc. Am. Soc. Hortic. Sci.36:415-422|1938|
27518|T||Nagel,L.|Morphogenetic Differences Between Nicotiana alata and N. langsdorffii as Indicated by Their Response to Indoleacetic Acid|Ann. Mo. Bot. Gard.26(4): 349-373|1939|10.2307/2394298
27519|T||Komissorov,P.A.|Applying of Growth Substances to Increase the Rooting Capacity in Cuttings of Woody Species and Shrubs|Dokl. Akad. Nauk SSSR (Non-English)18:63-68|1938|
27521|T||Rappaport,J.|Wuchsstoff und Polaritat bei Eurya-Stecklingen|Biol. Jaarb.6:304-333|1939|
27522|T||Sweeney,B.M., and K.V. Thimann|The Effect of Auxins on Protoplasmic Streaming. III.|J. Gen. Physiol.25:841-854|1942|10.1085/jgp.25.6.841
27523|T||Skoog,F., C.L. Schneider, and P. Malan|Interactions of Auxins in Growth and Inhibition|Am. J. Bot.29:568-576|1942|10.1002/j.1537-2197.1942.tb10249.x
27524|T||Dutt,B.K., and A.G. Thakurta|Effects of Concentration of Auxin on Growth and Root Formation in Impatiens|Trans. Bose Res. Inst. Calcutta14:73-89|1939|
27525|T||Howard,H.W.|The Effect of Polyploidy and Hybridity on Seed Size in Crosses Between Brassica chinensis, B. carinata, Amphidiploid B. chinensis-carinata, and Autotetraploid B|J. Genet.43:105-119|1942|10.1007/BF02982749
27526|T||Hecht,A.|Colchicine-Induced Tetraploidy in Oenethera|Proc. Indiana Acad. Sci51:87-93|1942|
27527|T||Eyster,W.|The Production of Polyploid Tagetes|Proc. Pa. Acad. Sci.15:209-213|1941|
27528|T||Bartholomew,E.T., W.B. Sinclair, and D.L. Lindgren|Measurements on Hydrocyanic Acid Absorbed by Citrus Tissues During Fumigation|Hilgardia14(7): 373-409|1942|10.3733/hilg.v14n07p373
27530|T||Townsend,G.R.|Relation of Maturity in Bliss Triumph Potato Seed Stocks to Effectiveness of Ethylene Chlorhydrin and Other Treatments|Fla. Agric. Exp. Stn. Bull.362:1-40|1941|
27531|T||Sell,H.M., W. Reuther, E.G. Fisher, and F.S. Lagasse|Effect of Chemical Treatments in Prolonging Dormancy of Tung Buds|Bot. Gaz.103:788-793|1942|10.1086/335096
27533|T||McEvoy,E.T.|Responses of Tobacco Seedlings to Chemical Growth Substances|Sci. Agric. (Piracicaba, Braz. )22:528-532|1942|
27534|T||Fagundes,A.B.|The Influence of Synthetic Phytohormones on Rooting of Cuttings (A Influencia Dosfitohormonios Sinteticos Sobre O Enraizamento de Estacas)|In: Anais da 1st Reuniao Sul-Americana de Botanica, Jardim Botanico, Rio de Janeiro, Brazil3:271-292|1938|
27535|T||Wark,D.C.|Addition of Hormones to Mercurial Fungicidal Dusts that Reduce Germination of Wheat|J. Aust. Inst. Agric. Sci.7:156-158|1941|
27536|T||Hamner,M.E.|Effect of Phenylacetic Acid and Naphthalene Acetamide on Tomato Plants Grown in Soil|Bot. Gaz.103:576-580|1942|10.1086/335071
27538|T||Crosier,W., S. Patrick, and D. Weimer|Influence of Phytohormones on Germination and Growth of Cereals|Proc. Assoc. Off. Seed Anal.32:83-86|1940|
27539|T||Denny,F.E., J.D. Guthrie, and M.C. Thornton|Effect of the Vapor of the Methyl Ester of A-Naphthaleneacetic Acid on the Sprouting and the Sugar Content of Potato Tubers|Contrib. Boyce Thompson Inst.12:253-268|1942|
27540|T||Crosier,W., and C.E. Heit|Response of Germinats from Beans, Corn and Peas to Seed Treatments with Hormones and Mercurials|Proc. Assoc. Off. Seed Anal.32:88-92|1940|
27544|T||Weller,D.M.|Colchicine in Relation to Sugar Cane Breeding|Hawaiian Plant. Rec.44:251-261|1940|
27547|T||Swartz,D.B.|Effect of Various Growth-Regulating Substances upon Several Species of Plants|Bot. Gaz.103:366-373|1941|10.1086/335048
27549|T||Hamner,C.L.|Physiological and Chemical Responses of Bean and Tomato Plants to alpha Naphthalene Acetamide and Phenylacetic Acid|Bot. Gaz.103:374-385|1941|10.1086/335049
27550|T||Stoutemyer,V.T.|A Comparison on Rooting Induced by Acid and by Amide Growth Substances|Proc. Am. Soc. Hortic. Sci.17:253-258|1941|
27553|T||Gyorffy,B.|Colchicine Induced Polyploidy|Acta Biol. 5:1-29|1939|
27555|T||Thakurta,A.G., and B.K. Dutt|Vegetative Propagation of Mango, from Gootes (Marcotte) and Cuttings by Treatment with high Concentration Auxin|Curr. Sci. (Bangalore)10:297-|1941|
27557|T||Overholser,E.L., F.L. Overley, W.J. Clore, and D.F. Allmendinger|Hormones, Horticultural Chemicals and Vitamins as Related to Growth, Fruit Drop, and Color|Proc. Annu. Meet. Wash. State Hortic. Assoc.36:128-142|1940|
27559|T||Laude,H.M.|Combined Effects of Potassium Supply and Growth Substances on Plant Development|Bot. Gaz.103:155-167|1941|10.1086/335031
27560|T||Doak,B.W.|Changes in the Carbohydrate and Nitrogeneous Constituents of Cuttings as Affected by Hormone Treatment. Part II|N. Z. J. Sci. Technol.22:198B - 201B|1941|
27562|T||Piatnitski,M.P.|Effect of Some Organic Acid Salts on Storage of Citric Acid by Leaves of Tobacco Plants|C. R. Hebd. Seances Acad. Sci. (Non-English)29:55-58|1940|
27565|T||Haber,E.S., and S.W. Edgecombe|The Influence of Vitamin B1 and Other Growth-Promoting Substances on the Growth of Plants|Trans. Iowa State Hortic. Soc.75:142-153|1940|
27566|T||Haber,E.S., and E. Swift|Vitamin B1 Treatment of Cuttings and Seeds|Trans. Iowa State Hortic. Soc.75:153-156|1940|
27567|T||Greve,E.W., K.J. Kadow, and H.G. Guy|The Prevention of the Preharvest Drop of Apples by Spraying|Tr Pen Hors30:53-61|1940|
27569|T||Nilsson,F.|Tetraploidy in Pears Induced by Colchicine Treatment|Sv Pomo Ars41:103-107|1940|
27573|T||Zimmerman,P.W.|Growth Regulators of Plants and Formative Effects Induced with beta-Naphthoxy Compounds|Proc. Northeast. Weed Control Conf.27:381-388|1941|
27574|T||Grace,N.H., and J.L. Farrar|Vegetative Propagation of Conifers. IX. Effect of Chemical Treatments and A Wax Spray on the Outdoor Propagation of Spruce Cuttings|Can. J. Res. Sect. C Bot. Sci.19:257-266|1941|10.1139/cjr41c-030
27575|T||Chadwick,L.C., and J.C. Swartley|Further Studies on the Effects of Synthetic Growth Substances on Cuttings and Seeds|Proc. Am. Soc. Hortic. Sci.38:690-694|1941|
27576|T||Bailey,L.R.|Some Preliminary Experiments on the Use of Root Initiating Substances in Hop Propagation|J. Southeast. Agric. Coll.44:47-55|1939|
27577|T||Blanton,F.S.|Effect on Amaryllis Bulbs of Hot Water and Cyanide Used in Control of Bulb Fly Larvae|J. Econ. Entomol.34:475-476|1941|10.1093/jee/34.3.475
27579|T||Burkholder,C.L., and M. McCown|Effect of Scoring and of A-Naphthyl Acetic Acid and Amide Spray upon Fruit Set and of the Spray upon Pre-Harvest Fruit Drop|Proc. Am. Soc. Hortic. Sci.38:117-120|1941|
27580|T||Minnum,E.C.|Effect of Vitamin B1 on the Yield of Several Vegetable Crop Plants|Proc. Am. Soc. Hortic. Sci.38:475-476|1941|
27581|T||Pentzer,W.T.|Studies on the Shatter of Grapes with Special Reference to the Use of Solutions of Naphthalene Acetic Acid to Prevent It|Proc. Am. Soc. Hortic. Sci.38:397-399|1941|
27583|T||Newcomer,E.H.|A Colchicine-Induced Homozygous Tomato Obtained Through Doubling Clonal Haploids|Proc. Am. Soc. Hortic. Sci.38:610-612|1941|
27584|T||Mendes,A.J.T.|Chromosome Doubling Induced by Colchicine in Coffee, Cotton and Tobacco|In: Anais da 1st Reuniao Sul-Americana de Botanica, Jardim Botanico, Rio de Janeiro, Brazil3:331-349|1938|
27587|T||Plant,W.|The Role of Growth Substances in the Regeneration of Root Cuttings|Ann. Bot.4:607-615|1940|10.1093/aob/4.3.607
27589|T||Grace,N.H.|Effects of Phytohormone, Potassium Nitrate, and Ethyl Mercuric Bromide on the Germination and Early Growth of Wheat|Can. J. Res. Sect. C Bot. Sci.19:211-215|1941|10.1139/cjr41c-025
27591|T||Ritcher,P.O.|Methyl Bromide Fumigation for Destruction of the Strawberry Crown Borer|J. Econ. Entomol.34:67-72|1941|10.1093/jee/34.1.67
27592|T||Miller,L.P.|Synthesis of B-2-Chlorethyl-D-Glucoside by Wheat Plants Grown with Ethylene Chlorohydrin Added to the Nutrient Medium|Contrib. Boyce Thompson Inst.12:25-28|1941|
27593|T||Miller,L.P.|Formation of B-2,2,2-Trichloroethyl-Gentiobioside in Tomato Plants Grown in Media Containing Chloral Hydrate, Trichloroethyl Alcohol, Or Chloral Cyanohydrin|Contrib. Boyce Thompson Inst.12:15-23|1941|
27594|T||Zimmerman,P.W., and A.E. Hitchcock|Formative Effects Induced with beta-Naphthoxyacetic Acid|Contrib. Boyce Thompson Inst.12:1-14|1941|
27595|T||Weimer,D.E.|Treatment of Seeds with Indolebutyric Acid and Its Effects|Proc. Assoc. Off. Seed Anal.30:263-268|1938|
27596|T||Grace,N.H.|Effects of Talc Dusts Containing Phytohormone, Nutrient Salts, and an Organic Mercurial Disinfectant on the Rooting of Herbaceous Cuttings|Can. J. Res. Sect. C Bot. Sci.19:177-182|1941|10.1139/cjr41c-022
27599|T||Richharia,R.A., and D.P. Persal|Tetraploid Til from Colchicine Treatment|Curr. Sci. (Bangalore)9:542-|1940|
27606|A||Gorham,P.R.|Measurement of the Response of Lemna to Growth Promoting Substances|Am. J. Bot.28:98-101|1941|10.1002/j.1537-2197.1941.tb07948.x
27610|T||Myers,R.M.|The Effect of Heteroauxin on the Development of Debladed Petioles of Coleus|Trans. Ill. State Acad. Sci.33:89-90|1940|
27611|T||Mullison,W.R.|Histological Responses of Bean Plants to Tetrahydrofurfuryl Butyrate|Bot. Gaz.102:373-381|1940|10.1086/334966
27612|T||Hopkins,J.W.|Effect of Phytohormone Dust Seed Treatment on Growth and Yield of Barley Under Greenhouse Conditions|Can. J. Res. Sect. C Bot. Sci.18:507-512|1940|10.1139/cjr40c-045
27613|T||Covas,G.|Use of Phytohormones in the Vegetative Propagation of Plants|An. Inst. Fitotec. Santa Catalina1:181-186|1939|
27614|T||Beal,J.M.|Effect of Indoleacetic Acid on Thin Sections and Detached Segments of the Second Internode of the Bean|Bot. Gaz.102:366-372|1940|10.1086/334965
27615|T||Scnack,B.|Colchicine Effects on S. Splendens|An. Inst. Fitotec. Santa Catalina1:175-180|1939|
27616|T||Perak,J.T.|Variaciones en Petunia Producidas Por Colchicina|An. Inst. Fitotec. Santa Catalina1:167-173|1939|
27618|T||Muntzing,A., and E. Runquist|Note on Some Colchicine-Induced Polyploids|Hereditas25:491-495|1939|10.1111/j.1601-5223.1939.tb02709.x
27620|T||Bobylev,N.P.|The Use of Herbicides on Corn Sowings in the North Ossetian Assr|Nekotory Voprosy Povysheniya Urozhaya SelSkokhozy:|1963|
27624|T||Fedorova,A.I.|The Effectiveness of Herbicides on Sowings of Fiber Flax|Kratkie Itogi Nauchnykh Issledovanii Po Zashchite:|1961|
27625|T||Krykhanov,L.I.|Some Results of Laboratory Work with Herbicides to Perfect the Chemical Method for Controlling Weeds in Nurseries|Khimizatsiya SelSkogo Khozyaistvo Bashikirii4/5:|1962|
27626|T||Krykhanov,L.I.|Problems of the Use of Herbicides for the Control Weeds|N Tr Ak Kom24:141-151|1963|
27628|T||Monstvilaite,Y.A.I.|The Intensive Use of Herbicides in Sowings of Spring Grains|Kratkie Itogi Nauchnykh Issledovanii Po Zashchite:|1961|
27630|T||Yurkevich,I.D., and E.A. Kruganova|The Chemical Destruction of Bushes, Poisonous Herbs, and Weeds on Meadows|Sb Bot Rabot Beloruss Otd Vses Bot Obshchest4:108-|1962|
27632|T||Friesen,H.A., H. Baenziger, and C.H. Keys|Morphological and Cytological Effects of Dicamba on Wheat and Barley|Can. J. Plant Sci.44:288-294|1964|10.4141/cjps64-056
27633|T||Naguib,M.I.|Effect of Maleic Hydrazide on Respiration, Sucrose Inversion and Uptake by Starved and Sucrose-Fed Etiolated Barley Leaves|Indian J. Agric. Sci.33(4): 226-231|1963|
27634|T||Parups,E.V.|The Effect of Maleic Hydrazide on Synthesis of Lignin|Can. J. Plant Sci.44:253-258|1964|10.4141/cjps64-048
27637|T||Dall'Olio,G.|The Effects of Gibberellic Acid on the Composition of Vicia Faba|G. Bot. Ital. (Multiple Languages)70:275-278|1963|10.1080/11263506309430209
27638|T||Fucik,V., A. Michaelis, and R. Rieger|Different Effects of BudR on the Induction of Chromatid Aberrations by Means of TEM (Triethylenemelamine) and Maleic Hydrazide|Biochem. Biophys. Res. Commun.13(5): 366-371|1963|10.1016/0006-291X(63)90349-8
27639|T||Khabibrakhmanov,K.H.K.H.|The Use of Various Herbicides and Their Mixtures for the Control of Weeds in Pea Sowings in the Tatar Republic| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.40:238-247|1962|
27643|T||Thrower,S.L., N.D. Hallam, and L.B. Thrower|Movement of Diquat (1,1'-Ethylene-2,2'-Bipyridylium) Dibromide in Leguminous Plants|Ann. Appl. Biol.55:253-260|1965|10.1111/j.1744-7348.1965.tb07939.x
27645|T||Pisareva,M.G.|Weedkillers in Horticulture|Sad i Ogorod3:50-52|1959|
27646|T||Ali,S.I.|The Effect of Gibberellic Acid on Flowering in the Montane Race of Senecio lautus|Biologia (Bratisl.)10(2): 39-45|1964|
27648|T||Kolla,V.E.|Stimulation of the Growth of Grasses and Other Plants by Halogen Derivatives of 9-Phenylacridine|Izv. Ekaterinosl. Vyssh. Gorn. Uchil.14:195-201|1963|
27652|T||Ali-Zade,M.A., S. Mamedov, and S.V. Karakhanova|Effect of Efiran-99 on Carbohydrate and Protein Metabolism in Weeds|Izv. Akad. Nauk Arm. SSR Biol. Nauk (Multiple Languages)6:19-22|1964|
27653|T||Kaspirova,T.A.|The Nature of the Action of Herbicides Effective Against Grasses|Tr Leningr Abshchest Estestvoispyt1:65-68|1963|
27654|T||Parker,J.W.P.L., and A.M. Parker|Herbicide Control of Euclea divinorum - Preliminary Experiments|East Afr. Agric. For. J.30(2): 89-93|1964|10.1080/00128325.1964.11661969
27657|T||Bereznegovskaya,L.N.|Effect of Gibberellic Acid on Respiration and Oxidative Phosphorylation in Belladonna Seeds|Sov. Plant Physiol.12(2): 255-258|1965|
27662|T||Way,D.W.|Carbaryl as a Fruit Thinning Agent. I. Results with Worcester Pearmain in the Years 1961-1963|East Malling Res. Stn. Annu. Rep.64:56-59|1964|
27663|T||Bobyreva,T.V.|The Carbohydrate Metabolism of Cotton Plants Whose Leaves Are Poisoned by Meta-Systox and Systox|Voproxy Biologii I Kraevoi Meditsiny4:247-251|1963|
27664|T||Eiges,N.S.|Mutagenic Effect of Ethyleneimine and Gamma Rays in the Case of Influence on Air-Dried Seeds of Winter Wheat|Radiobiologiya4:235-247|1964|
27665|T||Jacobs,R.H., and B. Durkheim|Results of Several Years of Control Studies Against the Thistle with Triazines and Aminotriazole|Wein-Wiss.18:517-522|1963|
27667|A||Furuya,M., and K.V. Thimann|The Biogenesis of Anthocyanins.  XI.  Effects of Gibberellic Acid in Two Species of Spirodela|Arch. Biochem. Biophys.108:109-116|1964|10.1016/0003-9861(64)90361-3
27669|T||Saitburkhanov,S.R.|Chemical Weed Control of Agricultural Crops Under Conditions of the Far North|Probl. Severa7:115-123|1963|
27671|T||Konopleva,V.|Herbicides in a Fruit and Berry Orchard|Selsk. Khoz. Pov. Sibiri DalNego Vost8:69-70|1963|
27674|T||Vlasyuk,P.A., and G.V. Porutskii|Simultaneous Effect of Herbicides and Radioactive Substances|Nauchn Tr Ukrainsk Inst Fiziol Rast15:61-70|1958|
27678|T||Sukortseva,K.D., E.T. Nekhlyudova, and G.A. Khalin|The Application of Herbicides to Onion Seedlings|Konservn. Ovosesus. Prom.6:35-36|1959|
27679|T||Naguib,M.I.|Effect of Sevin (N-Methyl-I-Naphthyl Carbamate) on the Carbohydrate & Nitrogen Metabolism During the Germination of Cotton Seeds|Indian J. Exp. Biol.2:149-152|1964|
27684|T||Broks,Y.|The Effect of Gibberellic Acid on the Frost Resistance of Black Locust and Black Alder Seedlings|Izv. Akad. Nauk Latv. SSR8:117-126|1963|
27685|T||Martin,G.C., M.W. Williams, and L.P. Batjer|Movement and Fate of Labeled N-Dimethyl Amino Succinamic Acid (B-Nine), a Size Controlling Compound, in Apple Seedlings|Proc. Am. Soc. Hortic. Sci.84:7-13|1964|
27687|T||Weaver,R.J.|The Effect of Benzothiazole-2-Oxyacetic Acid on Maturation of Seeded Varieties of Grapes|Am. J. Enol. Vitic.13:141-149|1962|10.5344/ajev.1962.13.3.141
27688|T||Auns,A.F.|Trials of the new Herbicide Alanap-2 in Cucumber Sowings|Kratkie Itogi Nauchnykh Issledovanii Po Zashchite:|1961|
27689|T||Gandhi,S.M., and M.P. Bhatnagar|Effect of Certain Hormones on Germination, Flowering, Fruiting, Branching and Yield of Cumin (Cuminum cyminum)|J. Indian Bot. Soc.40:628-634|1961|
27690|T||Chemyakina,S.N.|The Effect of Herbicides on English Oak Seedlings in Pot Experiments|Lesoekspluatatsiya les Khoz32:8-9|1963|
27692|T||Esposito,R.E., and R. Holliday|The Effect of 5-Fluorodeoxyuridine on Genetic Replication and Mitotic Crossing Over in Synchronized Cultures of Ustilago maydis|Genetics50:1009-1017|1964|10.1093/genetics/50.5.1009
27693|T||Margulies,M.M.|Effect of Chloramphenicol on Light-Dependent Synthesis of Proteins and Enzymes of Leaves and Chloroplasts of Phaseolus vulgaris|Plant Physiol.39:579-585|1964|10.1104/pp.39.4.579
27694|T||Bostrack,J.M., and B.E. Struckmeyer|Effects of Gibberellic Acid on the Anatomy of Soybeans (Glycine max)|Am. J. Bot.51(6): 611-617|1964|10.2307/2439987
27697|T||Balandina,I.D.|The Action of Some Herbicides on the Carbohydrate-Nitrogen Metabolism of Cotton|Tr.Nauchno-Issled.Inst.Zashch.Rast.Gruz.SSR6:124-133|1963|
27698|T||Sinel'Nikova,V.N.|Effect of Gibberellin on the Growth, Flowering, and Tuber Formation in the Potato|Tr. Prikl. Bot. Genet. Sel.35:66-72|1963|
27699|T||Valmayor,H.L., F.I.,Jr. Hilario, and O.K. Bautista|"The Effects of Maleic Hydrazide on the Growth and Flowering of Bougainvillea ""Snow White"""|Philipp. Agric.47:23-31|1963|
27701|T||Velichko,Y.A.M.|Application of Herbicides During Planting Shelterbelts|Sb. Inst. Len.2:148-158|1958|
27703|A||Blackburn,R.D., and L.W. Weldon|Control of Southern Naiad in Florida Drainage and Irrigation Channels|Weeds (Urbana)12:295-298|1964|10.2307/4040758
27704|AT||Funderburk,H.H.,Jr., and J.M. Lawrence|Mode of Action and Metabolism of Diquat and Paraquat|Weeds (Urbana)12:259-264|1964|10.2307/4040748
27706|T||Nalewaja,J., R. Behrens, and A.R. Schmid|Uptake, Translocation, and Fate of EPTC-C14 in Alfalfa|Weeds (Urbana)12:269-272|1964|10.2307/4040751
27707|T||Leyden,F.F.|Herbicides Around Newly-Planted Citrus Trees|J. Rio Grande Val. Hortic. Soc.18:21-24|1964|
27711|T||Srivastava,B.I.|Effect of Gibberellic Acid on Water-Soluble Macromolecular Components of Leaves from Dwarf-1 Mutant of Corn (Zea mays L.)|Can. J. Bot.42:965-968|1964|10.1139/b64-087
27713|T||Swarbrick,T.|The Effect of Various Concentrations of Naphthoxyacetic Acid and NAA in Inhibiting Shoot Development in Apple, Swede, Carrot, and Potato|Long Ashton Res. Stn. Rep.:25-30|1943|
27714|T||Landau,M.|The Effect of Hetero-Auxin on the Germination of Some Seeds|Palest. J. Bot. Jerus. Ser.1:409-412|1940|
27715|T||Johnson,E.L.|Plant Responses Induced by Certain Chemical Growth-Regulators|Univ. Colo. Stud. Ser. D Phys. Biol. Sci.2(1): 13-24|1943|
27716|T||Newcomer,E.H.|An F2 Colchicine-Induced Tetraploid Cabbage and Some Comparisons with Its Diploid Progenitor|J. Elisha Mitchell Sci. Soc.59:69-72|1943|
27718|T||Berry,W.E., and T. Swarbrick|The Influence of Alpha-Naphthalene Acetic Acid Sprays on the Pre-Harvest Drop of Apples Under Different Systems of Pruning|Long Ashton Res. Stn. Rep.1941:19-22|1942|
27719|T||Glotov,V.|Effect of Colchicine from Colchicum Umbrosum Stev. on the Camphor Basil|Dokl. Akad. Nauk SSSR (Non-English)24:502-504|1939|
27721|T||Dellazoppa,J.G., and M.O. Bentancur|Use of Plant Hormones in Vegetative Propagation by Cuttings and Its Application in Plant Genetics (Empleo de Fitohromonas en la Multiplicacion Vegetativa por Estacas-su Aplicacion en Genetica Vegetal)|Arch. Fitot.3:262-275|1940|
27723|T||Fischer,H.E., G.M. Darrow, and F. Perlmutter|Raspberry and Blackberry Breeding:  Production of Tetraploid Raspberries|Proc. Am. Soc. Hortic. Sci.42:447-456|1943|
27725|T||Haller,M.H.|Effect of Preharvest Drop Sprays on the Storage Quality of Apples|Proc. Am. Soc. Hortic. Sci.42:207-210|1943|
27726|T||Emsweller,S.L., and D.V. Lumsden|Polyploidy in the Easter Lily|Proc. Am. Soc. Hortic. Sci.42:593-596|1943|
27727|T||Coutinho,L.A.|Formation of Polynucleate Cells by the Action of Traumatin|Agron. Lusit.3:209-214|1941|
27728|T||Schnack,B.|Polyploids of G.P. Obtaied by the Action of Colchine|An. Inst. Fitotec. Santa Catalina2:9-12|1940|
27729|T||Salomon,E.S.|A Tetraploid of S.S. Induced by Colchicine|An. Inst. Fitotec. Santa Catalina2:13-16|1940|
27730|T||Perak,J.T.|A Tetraploid of T Durum Obtained by Colchicine|An. Inst. Fitotec. Santa Catalina2:7-8|1940|
27731|T||Hale,W.S., S. Schwimmer, and E.G. Bayfield|Studies on Treating Wheat with Ethylene. I. Effect upon High Moisture Wheat|Cereal Chem.20:224-233|1943|
27732|T||Kumar,L.S.S., and A. Abraham|A Study of Colchicine Induced Polyploidy in Phaseolus radiatus l|J. Univ. Bombay11:30-37|1942|
27733|T||Baker,R.E.|Induced Polyploid, Periclinal Chimeras in Solanum tuberosum|Am. J. Bot.30:187-195|1943|10.1002/j.1537-2197.1943.tb14746.x
27734|T||Zimmerman,P.W.|Formative Influences of Growth Substances on Plants|Cold Spring Harbor Symp. Quant. Biol.10:152-159|1942|10.1101/SQB.1942.010.01.018
27735|T||Kiesselbach,T.A.|Crop Response to Hormone Seed Treatments|Agron. J.35:321-331|1943|10.2134/agronj1943.00021962003500040007x
27737|T||Vyvyan,M.C.|Further Note on the Reduction of Preharvest Drop in Apples by Uses of Dilute Sprays of alpha-Naphthalene Acetic Acid|East Malling Res. Stn. Annu. Rep.29:38-40|1941|
27738|T||Noggle,G.R., and F.L. Wynd|Effects of Vitamins on Germination and Growth of Orchids|Bot. Gaz.104:455-459|1943|10.1086/335156
27739|T||Graner,E.A.|Colchicine Treated Cassavas|Agron. J.32:83-98|1940|10.2134/agronj1940.00021962003200010012x
27740|T||Smith,H.S., and H.W. Staten|The Effects of Carbon Disulphide upon Germination and Baking Quality of Wheat|Okla. Agric. Exp. Stn. Tech. Bull.14:3-13|1942|
27741|T||Davies,R., and W.W. Boves|Pre-Storage Treatment of Kelsey Plums with Acetylene and Ethylene|In: 1938/1939, Annual Report, Low Temperature Research Laboratory, Capetown:31-40|1940|
27742|T||Davies,R., and W.W. Boves|Pre-Storage Treatment of Santa Rosa Plums with Acetylene|In:  Report of the  Low Temperature Research Laboratory, Capetown, 1938-39, Capetown, South Africa :25-30|1940|
27743|T||Aitken,H.C.|The Effect of Plant Hormone Sprays on the Dropping of Apples|Annual Report, Nova Scotia Fruit Growers Association (NSFGA), Kentville, Nova Scotia77:120-124|1940|
27745|T||Marshall,L., and F. Watson|Histological Response of Sweet Potato Roots to B1|Proc. Pa. Acad. Sci.15:217-218|1941|
27748|T||Youngken,H.W.,Jr., and E.B. Fischer|Growth Effects of Pyridine, Piperidine, Atropine Sulfate and Thiamin Chloride on Stramonium Seedlings|J. Am. Pharm. Assoc.31(9): 257-263|1942|10.1002/jps.3030310901
27751|T||Denny,F.E.|Treatment of Gladiolus Bulbets to Stimulate Germination|Florists Exchange Hortic. Trade World98(15): 10-11|1942|
27752|T||Denny,F.E.|The Use of Methyl Ester of alpha-Napththaleneacetic Acid for Inhibiting Sprouting of Potato Tubers, and An Estimate of the Amount of Chemical Retained by Tubers|Contrib. Boyce Thompson Inst.12:387-403|1942|
27756|T||Volotov,E.N.|Polyploids in Papaver Somniferum L. Induced by Treatment with Colchicine|Dokl. Akad. Nauk SSSR (Non-English)31:261-263|1941|
27757|T||Taylor,H.|A Physiological Study of Diploid and Related Tetraploid Plants|Proc. Okla. Acad. Sci.22:137-138|1942|
27758|T||Sidorov,B.N., and N.N. Sokolov|Production of Tetraploid in Ricinus Communis Treated with Colchicine|Dokl. Akad. Nauk SSSR (Non-English)31:264-265|1941|
27759|T||Navalikhina,N.K.|Restitution of Fertility in A Wheat-Rye Hybrid Through Colchicine Treatment|Dokl. Akad. Nauk SSSR (Non-English)27:587-589|1940|
27760|T||Kasparyn,A.S.|A Colchicine-Induced Amphidiploid Upland X Egyptian Cotton (Gossypium Hirsutum L. X G. Barbadense L.)|Dokl. Akad. Nauk SSSR (Non-English)26:163-165|1940|
27761|T||Kahn,R.|Artificial Induction of Polyploidy with Special Reference to Colchicine|Sci. Cult.7:528-532|1942|
27763|T||Hannibal,L.S.|A Method of Treating Bulbs of the Subterminal-Bud Type with Colchicine|J. Calif. Hortic. Soc.2:117-120|1941|
27766|T||Eigsti,O.J.|A Cytological Investigation of Polygonatum Using the Colchicine-Pollen Tube Technique|Am. J. Bot.29:626-636|1942|
27767|T||Castro,D.|Algunas Effectos da Colchicina|Agron. Lusit.2:91-103|1940|
27769|T||Aseeva,I.V., and M.D. Evdokimova|Effect of Gibberellin on the Level of Nitrogenous Substances and Carbohydrates in Plants (Vliyanle Gibberellina na Soderzhanie Azotistykh Veshchestv i Uglevodov v Rasteniyakh)|Vestn. Mosk. Univ. Biol. Pochvoved.19(6): 39-45|1964|
27770|T||Hirata,M.|Effects of Colchicine on the Development of Seeds, and Subsequent Germination and Growth in Rice|Sci. Rep. Fac. Lit. Sci. Hirosaki Uni.8(1): 37-45|1961|
27772|T||McDonough,W.T.|Some Effects of Phosphon on Germination Induced by Red Radiation and Gibberellic Acid in Seeds of Verbascum thapsus|Plant Physiol.40:575-577|1965|10.1104/pp.40.3.575
27774|T||Black,H.S., and A.M. Altschul|Gibberellic Acid-Induced Lipase and A-Amylase Formation and Their Inhibition by Aflatoxin|Biochem. Biophys. Res. Commun.19:661-664|1965|10.1016/0006-291X(65)90391-8
27776|T||Bhan,V.M.|Effect of Chemical and Mechanical Practices on Percent Mortality of Cynodon Dactylon and Panicum sp.|Sci. Cult.30:96-97|1964|
27777|T||Amer,S.|"Cytological Effects of N-Methyl-1-Naphthyl Carbamate ""Sevin"""|Naturwissenschaften51:494-495|1964|10.1007/BF00633126
27778|T||Barbat,I., and C. Ochesanu|The Action of Gibberellin-A3 on Chrysanthemum morifolium in Non-inductive Photoperiodic Conditions|Naturwissenschaften51:316-317|1964|10.1007/BF00624187
27780|T||Riepma,P.|A Comparison of the Pre-Emergence Herbicides Atratone, Prometone, Prometryne and Simazine Applied in Planting Strips of Hevea brasiliensis|J. Rubber Res. Inst. Malays.19(1): 74-80|1965|
27781|T||Zemlyanukhin,A.A.|Effect of Ascorbic Acid on the Water Exchange in Plants|Fiziol. Rast. (Mosc.) (Non-English)11:1047-1055|1964|
27783|T||Crane,J.C., and J. Van Overbeek|Kinin-Induced Parthenocarpy in the Fig, Ficus carica|Life Sci.4:1468-1469|1965|
27786|T||Likholat,T.V.|Influence of 2,4-D on the Accumulation of High-Energy Phosphates in Plants of Various Classifications|Sov. Plant Physiol.11(6): 915-921|1964|
27788|T||Osborne,D.J., and M. Hallaway|The Auxin 2,4-Dichlorophenoxyacetic Acid, as a Regulator of Protein Synthesis and Senescence in Detached Leaves of Prunus|New Phytol.63:334-347|1964|10.1111/j.1469-8137.1964.tb07386.x
27790|T||Banks,C.H.|Efficacy of 2,4,5-Trichlorophenoxyacetic Acid in Controlling Populus canescens Regeneration|For. S. Afr.5:99-105|1964|
27791|T||Van Steveninck,R.F.M.|Effect of Indolyl-3-Acetic-Acid on the Permeability of Membranes in Storage Tissue|Nature205:83-84|1965|10.1038/205083a0
27792|T||Bayer,D.E., and H.R. Dreuer|The Effects of Surfactants on Efficiency of Foliar-Applied Diuron|Weeds (Urbana)13:222-226|1965|10.2307/4041032
27793|T||Bayer,D.E., and S. Yamaguchi|Absorption and Distribution of Diuron-C14|Weeds (Urbana)13:232-235|1965|10.2307/4041034
27794|T||Davis,D.E., J.V. Gramlich, and H.H.,Jr. Funderburk|Atrazine Absorption and Degradation by Corn, Cotton, and Soybeans|Weeds (Urbana)13:252-255|1965|10.2307/4041040
27795|T||Zielinski,Q.B., F.C. Reimer, and V.L. Quackenbush|Breeding Behavior of Fruit Characteristics in Pears, Pyrus communis L.|Proc. Am. Soc. Hortic. Sci.86:81-87|1965|
27799|T||Batjer,L.P., M.W. Williams, and G.C. Martin|Effects of N-Dimethyl Amino Succinamic Acid on Vegetative and Fruit Characteristics of Apples, Pears, and Sweet Cherries|Proc. Am. Soc. Hortic. Sci.85:11-16|1964|
27800|T||Williams,M.W., L.P. Batjer, and G.C. Martin|Effects of N-Dimethyl Amino Succinamic Acid on Apple Quality|Proc. Am. Soc. Hortic. Sci.85:17-19|1964|
27803|T||Andersen,A.S.|Growth Responses of Etiolated Crucifer Hypocotyl Sections to Indole-3-Acetic Acid, Indole-3-Acetonitrile and Indole-3-Acetaldehyde|Physiol. Plant. (Multiple Languages)17:891-898|1964|10.1111/j.1399-3054.1964.tb08216.x
27804|T||Norcia,L.N., J.D. Evans, D.N. Faulkner, and M. Rohrbaugh|Growth Changes in Pea Plants Induced by Gibberellic Acid and Their Effects on the Concentrations of Tissue Lipids|Biochem. J. (Lond.)90:633-637|1964|10.1042/bj0900633
27805|T||Leonard,O.A., L.A. Lider, and A.H. Lange|Toxicity of Several Herbicides to Grape Rootings Applied to the Roots and to the Shoots|Am. J. Enol. Vitic.15:206-213|1964|10.5344/ajev.1964.15.4.206
27807|T||De Greef,J.A.|Changes Induced by Coumarin and Transcinnamic Acid in Deoxyribonucleic Acid Content and Growth of Pea Roots|Enzymologia27:311-326|1964|
27809|T||Srivastava,B.I.S., and G. Ware|The Effect of Kinetin on Nucleic Acids and Nucleases of Excised Barley Leaves|Plant Physiol.40:62-64|1965|10.1104/pp.40.1.62
27810|T||Hield,H.Z., C.W.,Jr. Coggins, and M.J. Garber|Effect of Gibberellin Sprays on Fruit Set of Washington Naval Orange Trees|Hilgardia36:297-311|1965|10.3733/hilg.v36n06p297
27812|T||Sawamura,S.|Cytological Studies on the Effect of Herbicides on Plant Cells In Vivo I. Hormonic Herbicides|Cytologia29:86-102|1964|10.1508/cytologia.29.86
27813|T||Bayer,D.E., E.C. Hoffman, and C.L. Foy|DCPA in Host-Parasite Relations of Alfalfa and Dodder|Weeds (Urbana)13:92-95|1965|10.2307/4041143
27814|A||Blackburn,R.D., and L.W. Weldon|The Sensitivity of Duckweeds (Lemnaceae) and Azolla to Diquat and Paraquat|Weeds (Urbana)13:147-149|1965|10.2307/4041157
27815|T||Wax,L.M., and R. Behrens|Absorption and Translocation of Atrazine in Quackgrass|Weeds (Urbana)13(2): 107-109|1965|10.2307/4041148
27817|T||Luxova,M., and A. Lux|Character of Morphosis Caused in the Barley Spike by 2-Methyl-4-Chlorophenoxyacetic Acid|Biol. Plant. (Praha)6:258-264|1964|10.1007/BF02931007
27821|T||Baker,D.B., and P.M. Ray|Direct and Indirect Effects of Auxin on Cell Wall Synthesis in Oat Coleptile Tissue|Plant Physiol.40:345-352|1965|10.1104/pp.40.2.345
27823|T||Prasad,A., and I.D. Tyagi|Effect of Maleic Hydrazide on the Sex Expression and Sex Ratio in Bitter Gourd (Momordica charantia L.)|Sci. Cult.29(12): 605-606|1963|
27824|T||Krishna Sastry,K.S., and R.M. Muir|Effects of Gibberellic Acid on Utilization of Auxin Precursors by Apical Segments of the Avena Coleoptile|Plant Physiol.40:294-298|1965|10.1104/pp.40.2.294
27826|T||Khotyanovich,A.V., and N.A. Vedeneeva|Influence of the Herbicide 2,4-D on the Proteins of Pea Shoots|Fiziol. Rast. (Mosc.) (Non-English)12(1): 130-134|1965|
27828|T||Sundaram,A.|A Preliminary Investigation of the Penetration and Translocation of 2,4,5-T in Some Tropical Trees|Weed Res. (Multiple Languages)5:213-225|1965|10.1111/j.1365-3180.1965.tb00346.x
27831|T||Livne,A., and Y. Vaadia|Stimulation of Transpiration Rate in Barley Leaves by Kinetin and Gibberellic Acid|Physiol. Plant. (Multiple Languages)18:658-664|1965|10.1111/j.1399-3054.1965.tb06926.x
27832|T||Kaufman,P.B.|The Effects of Growth Substances on Intercalary Growth and Cellular Differentiation in Developing Internodes of Avena Sativa. II. The Effects of Gibberellic Acid|Physiol. Plant. (Multiple Languages)18:703-724|1965|10.1111/j.1399-3054.1965.tb06930.x
27834|T||Lee,T.T., and F. Skoog|Effects of Hydroxybenzoic Acids on Indoleacetic Acid Inactivation by Tobacco Callus Extracts|Physiol. Plant. (Multiple Languages)18:577-585|1965|10.1111/j.1399-3054.1965.tb06919.x
27835|T||Gromet-Elhanan,Z., and M. Avron|Effect of Inhibitors and Uncouplers on the Separate Light and Dark Reactions in Photophosphorylation|Plant Physiol.40:1053-1059|1965|10.1104/pp.40.6.1053
27836|T||Bear,I.J., and R.G. Thomas|Petrichor and Plant Growth (Retardation)|Nature207:1415-1416|1965|10.1038/2071415a0
27837|T||Mohan-Ram,H.Y., and P.N. Rustagi|Histomorphological Effects Induced by 2,4-D in the Aerial Roots of Ficus benghalensis L.|Phyton (Horn) (Multiple Languages)21(1): 109-112|1964|
27840|T||Breil,D.A., and E.L. Davis|Morphogenetic Effect of Aminotriazole on the Developing Leaves of Lycopersicum esculentum Mill. var. Bonny Best|Phyton (Horn) (Multiple Languages)21:197-201|1964|
27841|T||Cathey,H.M.|Relation of Phosfon Structure to Its Growth Retarding Activity|Phyton (Horn) (Multiple Languages)21:203-208|1964|
27843|T||Nanda,K.K., and A.N. Purohit|Effect of Gibberellin on Forest Plants.  II.  Internodal Growth in Seedlings of Salmalia malabarica Schott. & Endl|Indian J. Plant Physiol.7:57-70|1964|
27845|T||Smirnov,K.V., and E.P. Perepelitsyna|On the Effect of Gibberellin on Seedless Varieties of Vine and Their Processing Products|Sov. Plant Physiol.12(2): 259-264|1965|
27846|T||Ladygina,E.A.|Effect of Growth Stimulators on Changes in Physiological Processes in Potato Plants (Vliyanie Stimulyatorov Rosta na Izmenenie Fiziologicheskikh Protsessov v Rastenii Kartofelya)|Tr.Nauchno-Issled.Inst.Kartofeln.Khoz.3:16-24|1964|
27849|T||King,C.C.|Effects of Herbicides on Nectar Secretion|J. Apic. Res.3:5-9|1964|10.1080/00218839.1964.11100075
27850|T||Shimabukuro,R.H., and A.J. Linck|The Metabolism of 3-Amino-1,2,4-Triazole in the Fruit of Bean, Phaseolus vulgaris|Physiol. Plant. (Multiple Languages)18:532-539|1965|10.1111/j.1399-3054.1965.tb06914.x
27853|T||Pridham,A.M.S., and R.A. Schwartzbeck|Tordon Herbicide for Control of Japanese Bamboo in the Northeastern United States|Down Earth21:21-22|1965|
27854|T||Clore,W.J.|Responses of Delaware Grapes to Gibberellin|Proc. Am. Soc. Hortic. Sci.87:259-263|1965|
27855|T||Gentner,W.A., and L.L. Danielson|Evaluation of Selected Herbicides on Several Pulses|Proc. Am. Soc. Hortic. Sci.87:359-362|1965|
27859|T||Michniewicz,M.|Inhibitory Effect of 2-Chloroethyl Trimethylammonium Chloride on Vernalization in Winter Wheat|Naturwissenschaften52:88-|1965|10.1007/BF00622772
27860|T||Chow,P.N., O.C. Burnside, J.C. Lavy, and H.W. Knoche|Absorption, Translocation and Metabolism of Silvex in Prickly Pear|Weeds (Urbana)14:38-41|1966|10.2307/4041120
27861|T||Harris,C.I.|Absorption, Movement and Phytotoxicity to Monuron and s-Triazine Herbicides in Soil|Weeds (Urbana)14:6-10|1966|10.2307/4041113
27863|T||Scifres,C.J., and P.W. Santelmann|Response of Cotton and Sorghum to Post-Emergence Applications of Paraquat|Weeds (Urbana)14:86-88|1966|10.2307/4041131
27864|T||Luckwill,L.C., and P.S. Weaver|Field Trials with the Growth Inhibitor N-Dimethylamino Succinamic Acid on Apples|Long Ashton Res. Stn. Rep.1964:73-77|1964|
27867|T||Morgan,P.W., and H.W. Gausman|Effects of Ehylene on Auxin Transport|Plant Physiol.41:45-52|1966|10.1104/pp.41.1.45
27868|AT||Prasad,R., and G.E. Blackman|Studies in the Physiological Action of 2,2-Dichloropropionic Acid. III. Factors Affecting the Level of Accumulation and Mode of Action|J. Exp. Bot.16(48): 545-568|1965|10.1093/jxb/16.3.545
27869|T||Hamilton,T.H., R.J. Moore, A.F. Rumsey, A.P. Means, and A.R. Schrank|Stimulation of Synthesis of Ribonucleic Acid in Sub-apical Sections of Avena Coleoptile by Indolyl-3-Acetic Acid|Nature208:1180-1183|1965|10.1038/2081180a0
27871|T||Nanda,K.K., and A.N. Purohit|Effect of Gibberellin on Mobilization of Reserve Food and Its Co-Relation with Extension Growth|Planta (Multiple Languages)66:121-125|1965|10.1007/BF00521346
27872|A||Oota,Y.|Effects of Growth Substances on Frond and Flower Production in Lemna gibba G3|Plant Cell Physiol.6(3): 547-559|1965|
27873|T||Pilet,P.E.|Action of Gibberellic Acid on Auxin Transport|Nature208:1344-1345|1965|10.1038/2081344b0
27874|A||Prasad,R., and G.E. Blackman|Studies in the Physiological Action of 2,2-Dichloropropionic Acid. II. The Effects of Light and Temperature on the Factors Responsible for the Inhibition of Growth|J. Exp. Bot.16(46): 86-106|1965|10.1093/jxb/16.1.86
27876|T||Greenhalgh,W.J.|Alternate Cropping of the Delicious Apple: The Effects of 2,3,5-Triiodobenzoic Acid Spray on Blossom Bud Initiation in the On Year|Aust. J. Exp. Agric. Anim. Husb.5(19): 482-486|1965|10.1071/EA9650482
27878|T||Goebel,C.J.|Effect of Herbicides on Seedling Development in an Iowa Conifer Plantation|Iowa State J. Sci.40(3): 303-313|1966|
27879|T||Kolesnichenko,M.V.|Effect of Acetaldehyde and Turpentine on Photosynthesis of English Oak (Quercus Robur L.) and White Birch (Betula Verrucosa Ehrh.)|Dokl. Akad. Nauk SSSR (Non-English)145:877-879|1963|
27880|T||Kefford,N.P., and A.H.G.C. Rijven|Gibberellin and Growth in Isolated Wheat Embryos|Science151:104-105|1966|10.1126/science.151.3706.104
27884|T||Winter,H., and T.H. Venema|Sucrose Uptake by Pea Stem Segments and Its Effect on Growth|Acta Bot. Neerl.14:366-371|1965|10.1111/j.1438-8677.1965.tb00199.x
27885|T||Kaupke,C.R.|Injection of Preemergence Herbicides|J. Am. Soc. Sugar Beet Technol.13(5): 462-466|1965|10.5274/jsbr.13.5.462
27891|T||Allen,H.P.|The Relative Toxicity of 2:4-Dichlorophenoxyacetic Acid and 2-Methyl-4-Chlorophenoxyacetic Acid to Wheat, Oats and Barley|J. Sci. Food Agric.3:378-384|1952|10.1002/jsfa.2740030808
27892|T||Franzke,C.J., and J.G. Ross|Colchicine-Induced Variants in Sorghum|J. Hered.43:106-115|1952|10.1093/oxfordjournals.jhered.a106280
27893|T||Bradbury,D., and W.B.,Jr. Ennis|Stomatal Closure in Kidney Bean Plants Treated with Ammonium 2,4-Dichlorophenoxyacetate|Am. J. Bot.39:324-328|1952|
27894|T||Freiberg,S.R.|Effects of 2,4-Dichlorophenoxyacetic Acid upon the Nitrogen Metabolism and Water Relations of Soybean Plants Grown at Different Nitrogen Levels|Bot. Gaz.113:322-333|1952|10.1086/335724
27895|T||Zeist,W., and T.C.M. Koevoets|Kalanchoe Blossfeldiana Treated with 2,3,5-Triiodobenzoic Acid (Tiba)|K. Ned. Akad. Wet. Verh. Afd. Natuurkd. Tweede Reeks54:126-131|1951|
27896|T||Gorter,C.J.|The Influence of 2,3,5-Triiodobenzoic Acid on the Growing Points of Tomatoes. II. The Initiation of Ring-Fasciations|Proc. Konigl. Nederl. Acad. Wetensch. C Biol. Med. Sci.54:181-190|1951|
27897|T||Jones,L.T.|Spraying to Control Pre-Harvest Drop in Washington Navel Oranges|J. Agric. West. Aust.28:72-76|1951|
27898|T||Erickson,L.C.|Effects of 2,4-D on Drop of Sound and Unsound Washington Navel Oranges|Proc. Am. Soc. Hortic. Sci.58:46-52|1951|
27899|T||Leopold,A.C., F.I. Scott, W.H. Klein, and E. Ramstad|Chelidonic Acid and Its Effect on Plant Growth|Physiol. Plant. (Multiple Languages)5:85-90|1952|10.1111/j.1399-3054.1952.tb08232.x
27900|T||Zielinski,Q.B., and R.G.,Jr. Garren|Effect of 2,4-Dichlorophenoxyacetic Acid and Naphthalene Acetic Acid on Increasing Fruit-Setting and Delaying Maturity of Montmorency Cherries|Bot. Gaz.113:147-150|1951|10.1086/335702
27901|T||Gardner,V.R., and G. Naundorf|The Use of Phytohormones to Increase Fruit Setting in Cacao|Notas Agron3:175-184|1950|
27902|T||Everson,L.E., and R.S. Dunham|The Effect of 2,4-Dichlorophenoxyacetic Acid on Certain Weed and Crop Seeds|Univ.of Minn., Agric.Exp.Stn.Tech.Bull.No.197:24 p.|1951|
27904|T||Derscheid,L.A.|Physiological and Morphological Responses of Barley to 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.27:121-133|1952|10.1104/pp.27.1.121
27905|T||Ready,D., C.E. Mikarik, D. Bradbury, H.E. Thompson, and J.F.,Jr. Owings|Albinism Induced by Substituted Benzoic Acids|Plant Physiol.27:210-211|1952|10.1104/pp.27.1.210
27908|T||Wurgler,W.|Treatments Against Premature Fruit Dropping|Rev. Romande Agric. Vit. Arbor.4:55-56|1948|
27910|T||McIlrath,W.J., D.R. Elgre, and A.A. Dunlap|Persistence of 2,4-D Stimulus in Cotton Plants with Reference to Its Transmission to the Seed|Bot. Gaz.112:511-518|1951|10.1086/335683
27912|T||Anker,L.|On the Mechanism of Auxin Action. II. The Influence of Indole-3-Acetic Acid on the Respiration of Starved Avena Coleoptile Sections|Proc. K. Ned. Akad. Wet. Ser. C Biol. Med. Sci.54(5): 525-532|1951|
27915|T||Day,M.W., C.L. Hamner, and A.J. Panshin|Preliminary Observations on the Effect of 2,4-D and 2,4,5-T on Aspen|Mich. Q. Bull.34(3): 266-274|1952|
27917|AT||Singh,S.N., and S.N. Teotia|Effect of Some Hormones on the Rootage of Mango|Sci. Cult.17:207-210|1951|
27918|T||Gabriel,B.|Action of Indoleacetic Acid and of Monophosphate-1 of Glucose on Growth in Vitro of Corn Roots|Rev. Soc. Mex. Hist. Nat.11:59-75|1950|
27920|T||Wurgler,W.|May Plant Hormones be Used for Retarding the Sprouting of Vines?|Rev. Romande Agric. Vit. Arbor.4:11-13|1948|
27922|T||Mostafa,I.Y., A. Hassan, and S.M.A.D. Zayed|Metabolism of Organophosphorus Insecticides:  IV.  Translocation and Metabolism of 32P-Labelled Dipterex in Cotton Plant|Z. Naturforsch. B, J. Chem. Sci. (Multiple Languages)20:67-70|1965|10.1515/znb-1965-0111
27923|T||Alley,H.P.|A Promising Future for the Control of Perennial Weeds|Down Earth21:8-10|1966|
27924|T||Forde,B.J.|Translocation Patterns of Amitrole and Ammonium Thiocyanate in Quackgrass|Weeds (Urbana)14:178-179|1966|10.2307/4040960
27926|T||Modlibowska,I.|Effects of GA and CCC on Growth, Fruit Bud Formation and Frost Resistance of Blossoms of Young Williams' Bon Chretien Pears|Rep.E.Mailing.Res.Stn.66:88-93|1966|
27927|T||Jimenez-Saenz,E.|Some Effects of 2,3,5-Triiodobenzoic Acid and Indole-3-Acetic Acid on the Absorption and Distribution of Iron59 by Plants|Turrialba15(4): 281-285|1965|
27929|T||Adlakha,P.A., and S.K. Varma|After Effects of Phytohormone Treatment of Tomato Seeds|Sci. Cult.31(5): 246-248|1965|
27931|T||Devlin,R.M., and M.A. Hayat|Effects of Indole-3-Acetic Acid and Parachlorophenoxyisobutyric Acid on Abscission in Petioles of Debladed Leaves of Phaseolus vulgaris|Am. J. Bot.53(2): 115-119|1966|
27932|T||Roychoudhury,R., and S.P. Sen|The Effect of Gibberellic Acid on Nucleic Acid Metabolism in Coconut Milk Nuclei|Plant Cell Physiol.6:761-765|1965|
27934|A||Bradley,D.F., and M. Calvin|The Effect of Thioctic Acid on the Quantum Efficiency of the Hill Reaction|Contract No.W-7405--Eng-48, UCRL-2186, Lawrence Berkeley National Laboratory, University of California, Berkely, CA:34 p.|1954|
27936|T||Moycho,W., W. Maciejewska-Potapczykowa, and T. Kaminska|The Influence of Derivatives of alpha-Naphthylacetic Acid on Quantity and Quality of Etheric Oil in Mentha piperita var. Officinalis f. rubescens|Acta Soc. Bot. Pol.23:837-850|1954|10.5586/asbp.1954.044
27938|T||Haas,A.R.C., and J.N. Brusca|2,4-D Treated Avodaco Plants|Calif. Agric.8:12-14|1954|
27939|AT||Krishnamurthi,S., and D. Subramanian|Some Investigations on the Types of Flowers in Brinjal (Solanum melongena), Based on Style, Length, and Their Fruit-Set Under Natural Conditions and in Response|Indian J. Hortic.11:63-67|1954|
27940|T||Moore,R.M.|Studies on Perennial Weeds: the Control of Hoary Cress (Cardaria draba) by Chlorinated Phenoxyacetic Compounds|Exp. Agric.22(86): 112-120|1954|
27943|T||Fikry,M.A., and T. Lotfy|Studies on the Effect of Colchicine and Naphthalene Acetic Acid on Seedlings of Vicia faba L.|Proc.Egypt Acad.Sci.8:88-113|1952|
27944|T||McKenzie,D.W.|Influence of A-Naphthaleneacetic Acid on the Preharvest Drop of Jonathon Apples. III. Note on the Effect of a Single Application on Respiration Rate of Fruit on the Tree|N. Z. J. Sci. Technol.35:58-62|1953|
27945|T||McKenzie,D.W.|Influence of A-Naphthaleneacetic Acid on the Preharvest Drop of Jonathon Apples. II. the Effect of a Single Application on Respiration Rate of Fruit During Storage|N. Z. J. Sci. Technol.35:53-57|1953|
27946|T||Winchester,J.A., and E.G. Rodgers|Comparative Efficiency of Several Herbicidal Treatments in Control of Nutgrass|Proc. South. Weed Conf.:179-182|1953|
27947|T||Tocquigny,J.R., and G.A. Livingston|The Effect of Cmu and Alanap as Pre-Emergence Herbicides in Castor Beans|Proc. South. Weed Conf.:170-173|1953|
27948|T||Tocquigny,J.R., and G.A. Livingston|Weed Control Tests in Sesame|Proc. South. Weed Conf.:160-164|1953|
27949|T||Stamper,E.R., and S.J.P. Chilton|Chemical Control of Johnson Grass Seedlings in Sugar Cane|Proc. South. Weed Conf.:105-107|1952|
27950|T||Garren,R., L.F. Remmert, and N.L. Lawrence|Effect of 2,4-D on Translocation and Accumulation of Food Materials in the Bean Plant|Bot. Gaz.115:105-121|1953|10.1086/335804
27951|T||Hoffmann,O.L.|Inhibition of Auxin Effects by 2,4,6-Trichlorophenoxyacetic Acid|Plant Physiol.28:622-628|1953|10.1104/pp.28.4.622
27953|T||Fisher,D.V., and S.W. Porritt|The Use of the Triethanolamine Salt of Drop Spray for Apples|Can. J. Agric. Sci.34:65-69|1954|
27954|T||Leonard,O.A., V.C. Harris, and W.B. Ennis|Isopropyl N-3-Chlorophenyl Carbamate as a Pre-Emergence Herbicide for Weed Control in Cotton|Proc. South. Weed Conf.:55-59|1952|
27955|T||Day,B.E., and L.C. Erickson|Relative Effectiveness of the Mono-, Di-, and Trichlorophenoxyacetic Acids in Preventing Abscission of Lemon Leaves|Bot. Gaz.115:285-288|1954|10.1086/335826
27956|T||Della Porta,G.|Influence of A Colchicine Derivative (Colchicoside) on the Development of the Roots of Allium Cepa|Tumori40:82-94|1954|
27957|T||Derman,H.|Colchiploidy in Grapes|J. Hered.45:159-172|1954|10.1093/oxfordjournals.jhered.a106467
27959|T||Marth,P.C., and R.E. Wester|Effect of 2,4,5-Trichlorophenoxyacetic Acid on Flowering and Vegetative Growth of Fordhook 242 Bush Lima Beans|Proc. Am. Soc. Hortic. Sci.63:325-328|1954|
27961|T||Ketellapper,H.J.|The Mechanism of the Action of Indole-3-Acetic Acid on the Water Absorption by Avena Coleoptile Sections|Acta Bot. Neerl.2(4): 387-444|1953|10.1111/j.1438-8677.1953.tb00282.x
27962|T||Shan'gina,Z.I.|Influence of 2,4-D on the Outflux of Carbohydrates from Tomato Leaves|Fiziol. Rast. (Mosc.) (Non-English)12:1039-1044|1965|
27963|T||Dikshit,A.P., and N. Mehrotra|Effect of Colchicine on Morphology and Chromosome Behaviour of Eight Varieties of Vicia faba Linn.|Sci. Cult.32(2): 88-|1966|
27965|T||Coombe,B.G.|The Effect of Growth Substances and Leaf Number on Fruit Set and Size of Corinth and Sultanina Grapes|J. Hortic. Sci.40:307-316|1965|10.1080/00221589.1965.11514141
27966|T||Sandhu,S.S., and J.K. Greig|Effects of Herbicides on Asparagus and Weeds, and Residues Retained in the Soil|Proc. Am. Soc. Hortic. Sci.88:372-377|1966|
27968|T||Ballantyne,D.J.|The Influence of Low Temperature and Gibberellin on Development and Respiration of Flower Buds of the Red Wing Azalea (Rhododendron cv.)|Proc. Am. Soc. Hortic. Sci.88:595-599|1966|
27971|T||Buiatti,M., and R. Ragazzini|The Mutagenic Effect of Acridine Orange in Tomato (Lycopersicum esculentum)|Mutat. Res.3(4): 360-361|1966|10.1016/0027-5107(66)90044-3
27975|T||Hauser,E.W., J.L. Butler, J.L. Shepherd, and S.A. Parham|Response of Yellow Nutsedge, Florida Pusley, and Peanuts to Thiocarbamate Herbicides as Affected by Method of Placement in Soil|Weed Res. (Multiple Languages)6(4): 338-345|1966|10.1111/j.1365-3180.1966.tb00900.x
27976|T||Ladonin,V.F.|Bindweed and Its Control in the Kurganck Oblast| Tr. Vses. Nauchno-Issled. Inst. Udobr. Agropochvoved.32:281-295|1958|
27978|T||Baszynski,T., and T. Maternowski|Influence of IAA on alpha-Tocopherol Synthesis in Pisum sativum L. During Germination and Early Stages of Growth|Zesz. Nauk. Uniw. Mikolaja Kopernika Tor. Nauki Mat.-Przyr. Biol. (Non-English)8:155-161|1966|
27979|T||Bazanova,T.B.|Effect of Gibberellic Acid on Some Aspects of Metabolism in Cotton Under Different Conditions of Nitrogen-Phosphorus Nutrition (Vliyanie Gibberellovoi Kisloty na Nekotorye Storony Obmena Veshchestv Khlopchatnika pri Raz|Izv.Akad.Nauk Turkm.SSR, Ser.Biol.Nauk1:17-21|1965|
27980|T||Devlin,R.M., and O.M. McIntyre|Stimulation of Abscission of Petioles of Phaseolus vulgaris by Sucrose and Gibberellic Acid|Physiol. Plant. (Multiple Languages)19(3): 741-747|1966|10.1111/j.1399-3054.1966.tb07059.x
27982|T||Libby,W.J., and M.T. Conkle|Effects of Auxin Treatment, Tree Age, Tree Vigor, and Cold Storage on Rooting Young Monterey Pine|For. Sci.12:484-502|1966|
27983|T||Erdelska,O.|The Effect of 2-Methyl-4-Chlorophenoxyacetic Acid on the Development of Hordeum distichum L. Ovule|Biol. Plant. (Praha)8(2): 117-121|1966|10.1007/BF02930619
27984|T||Bornman,C.H., A.R. Spurr, and F.T. Addicott|Abscisin, Auxin, and Gibberellin Effects on the Developmental Aspects of Abscission in Cotton (Gossypium hirsutum)|Am. J. Bot.54(1): 125-135|1967|10.1002/j.1537-2197.1967.tb06899.x
27985|T||Dolcher,T.|Hormonal Relations in the Development of the Orchard Ovary: Ii. the Effects of Auxins on Isolated Parts of the Flower Axis|Nuovo G. Bot. Ital. (Non-English)68:216-219|1961|10.1080/11263506109430349
27988|T||Guttridge,C.G.|The Interaction of (2-Chloroethyl) Trimethylammonium Chloride and Gibberellic Acid in Strawberry|Physiol. Plant. (Multiple Languages)19(2): 397-402|1966|10.1111/j.1399-3054.1966.tb07030.x
27990|T||Thompson,N.P., and W.P. Jacobs|Polarity of IAA Effect on Sieve-Tube and Xylem Regeneration in Coleus and Tomato Stems|Plant Physiol.41:673-682|1966|10.1104/pp.41.4.673
27991|T||Orsenigo,J.R., and H.Y. Ozaki|Pepper Herbicide Experiments on Lower East Coast Sandy Soils|Proc. Annu. Meet. Fla. State Hortic. Soc.78:124-130|1965|
27992|T||Poole,R.T., and H.K. Ying|Effects of Growth Regulators on Growth, Flowering and Chemical Composition of Chrysanthemum morifolium 'Bluechip'|Annu. Meet. Fla. State Hortic. Soc.78:428-433|1965|
27993|T||Siegenthaler,P.A.|Phenylmercuric Acetate and Phosphate Control of Light-Dependent Shrinkage and Reactions in Chloroplasts|Physiol. Plant. (Multiple Languages)19:437-447|1966|10.1111/j.1399-3054.1966.tb07036.x
27995|T||Mertz,D.|Hormonal Control of Root Growth|Plant Cell Physiol.7(1): 125-135|1966|10.1093/oxfordjournals.pcp.a079158
27996|T||Rejowski,A.|Effect of Gibberellic Acid on the Vernalization Process of Winter Wheat Seeds|Bull. Acad. Pol. Sci. Ser. Sci. Biol.13(6): 369-372|1965|
27998|T||Vostral,H.J., and K.P. Buchholtz|Translocaton and Residue Studies with MCPB in Peas|Weeds (Urbana)14:244-247|1966|10.2307/4040923
28002|T||Dawson,J.H.|Factors Affecting Dodder Control with Granular CIPC|Weeds (Urbana)14:255-259|1966|10.2307/4040926
28003|T||Menges,R.M., and J.L. Hubbard|Herbicidal Performances of CDEC and EPTC Incorporated to Various Depths in Furrow-Irrigated Soils|Weeds (Urbana)14:215-219|1966|10.2307/4040916
28006|T||Dedolph,R.R., S.M. Naqvi, and S.A. Gordon|Role of Indole-3-Acetic Acid in Modification of Geotropic Responses in Clinostat Rotated Avena Seedlings|Plant Physiol.41:897-902|1966|10.1104/pp.41.5.897
28007|T||Goeschl,J.D., L. Rappaport, and H.K. Pratt|Ethylene as a Factor Regulating the Growth of Pea Epicotyls Subjected to Physical Stress|Plant Physiol.41:877-884|1966|10.1104/pp.41.5.877
28012|T||Dezsi,L., and G.L. Farkas|The Effect of Metabolic Inhibitors on the Kinetin-Induced Changes in Glycolic Acid Oxidase Activity in Barley Leaves|Flora Allg.Bot.Ztg.Abt A Physiol.Biochem.(Jena)156:236-239|1965|
28013|T||Davis,J.R.|Diluted 2,4,5-T More Lethal than Undiluted in East Texas|J. For.56:516-|1958|
28014|T||Plummer,T.H., and M.L. Tomes|Effects of Indoleacetic Acid and Gibberellic Acid on Normal and Dwarf Tomatoes|Bot. Gaz.119:197-200|1958|10.1086/335978
28015|T||Davis,J.R.|Basal Spray with 2,4,5-T for Winter Hardwoods Control in East Texas|J. For.56:349-|1958|
28017|T||Bowman,T.F.|Chemical Thinning Improves Off-Year Apple Cropping|Agric. Gaz. N. S. W.68:644-645|1957|
28018|A||Bishop,N.I.|The Influence of the Herbicide, DCMU, on the Oxygen-Evolving System of Photosynthesis|Biochim. Biophys. Acta27:205-206|1958|10.1016/0006-3002(58)90313-5
28020|T||Barton,L.V., and C. Chandler|Physiological and Morphological Effects of Gibberellic Acid on Epicotyl Dormancy of Tree Peony|Contrib. Boyce Thompson Inst.19:201-214|1957|
28021|T||Moore,J.F.|N-1 Naphthyl Phthalamic Acid, N-M-Tolyl Phthalamic Acid and Other Growth Regulators Applied as Whole Plant Sprays to Field Grown Tomatoes|Proc. Am. Soc. Hortic. Sci.70:350-356|1957|
28022|T||Singh,J.P.|The Effect of Some New Growth Regulating Substances on Rooting of Coleus Cuttings|Indian J. Hortic.14:53-57|1957|
28023|T||Biderman,B.|The Influence of Growth Stimulants on the Root Development of Carnations|Acta Agrobot. (Multiple Languages)3:219-222|1955|10.5586/aa.1955.009
28024|T||Lockhart,J.A., and J. Bonner|Effects of Gibberellic Acid on the Photoperiod Controlled Growth of Woody Plants|Plant Physiol.32:492-494|1957|10.1104/pp.32.5.492
28026|T||Mukherjee,K.L., and K. Kumar|Growth and Yield Responses of Tomato and Onion to the Application of Indole-3-Acetic Acid (I.A.A.)|Sci. Cult.22(2): 112-114|1956|
28027|T||McDonald,M.R., and B.P. Kaufmann|Production of Mitotic Abnormalities by Ethylene-Diaminetetraacetic Acid|Exp. Cell Res.12:415-417|1957|10.1016/0014-4827(57)90159-3
28029|T||Marre,E., and O. Arrigoni|Metabolic Reactions to Auxins. I. the Effects of Auxin on Glutathione and the Effects of Glutathione on Growth of Isolated Plant Parts|Physiol. Plant. (Multiple Languages)10:289-301|1957|10.1111/j.1399-3054.1957.tb06951.x
28033|T||Ekdahl,I.|The Effects of Indole-3-Acetic Acid and 2,4-Dichlorophenoxyacetic Acid on the Elongation Rate of Root Hairs and Roots of Intact Wheat Seedlings|Physiol. Plant. (Multiple Languages)10:112-126|1957|10.1111/j.1399-3054.1957.tb07616.x
28034|T||Burstrom,H.|On the Adaptation of Roots of beta-Indolyacetic Acid|Physiol. Plant. (Multiple Languages)10:187-197|1957|10.1111/j.1399-3054.1957.tb07620.x
28035|T||Hamm,P.C., and A.J. Speziale|Effect of Variations in the Acyl Moiety on Herbicidal Activity of N-Substituted alpha-Chloroacetamides|J. Agric. Food Chem.5(1): 30-32|1957|10.1021/jf60071a001
28036|T||Guha-Thakurta,A., and B.K. Dutt|The Role of Auxin on the Growth of Root|Trans. Bose Res. Inst. Calcutta19:37-48|1953|
28037|T||Ball,N.G., and I.J. Dyke|The Effects of Indole-3-Acetic Acid and 2:4-Dichlorophenoxyacetic Acid on the Growth Rate and Endogenous Rhythm of Intact Avena Coleoptiles|J. Exp. Bot.7:25-41|1956|10.1093/jxb/7.1.25
28038|T||Hoos,J.W., S.J. Leonard, and B.S. Luh|Effect of 2,4,5-Trichlorophenoxyacetic Acid Spray on Organic Acids, Pectin and Quality of Canned Apricots|Food Res.21:571-582|1956|10.1111/j.1365-2621.1956.tb16959.x
28039|T||Krishnamurthi,S., and D. Subramanian|Effect of 2,4-D on the Fruit-Set of the 3rd to 5th Clusters of Tomato|Sci. Cult.20(8): 399-|1955|
28040|T||Holt,I.V.|Cytohistological Responses of Varieties of Avena to 2,4-D|Iowa State J. Sci.29(4): 581-629|1955|
28041|T||Sircar,S.M., and M. Kundu|Effect of Auxins on the Flowering Behaviour of Rice|Nature176(4487): 840-841|1955|10.1038/176840a0
28042|T||Bragdo,M.|Production of Polyploids by Colchicine|Euphytica 4:76-82|1955|10.1007/BF00042419
28043|T||Sebanek,J.|Further Contribution Concerning the Effect of Triiodobenzoic Acid (Tiba) on Spring Wheat (Triticum Vulgare), Solanum Melongena and Dahlia Variabilis|Sb V Brne A1954:15-24|1954|
28044|T||Sebanek,J.|2,3,5-Triiodobenzoic Acid (Tiba) As A Suitable Stimulator of Plants, Especially of the Tomato, Paprika and Potatoes|Sb V Brne A1953:53-91|1953|
28045|T||Kihlman,B.|Studies on the Effect of Oxygen on Chromosome Breakage Induced by 8-Ethoxycaffeine|Exp. Cell Res.8:404-407|1955|10.1016/0014-4827(55)90152-X
28048|T||Saad,S.I.|The Effect of Ethylene on Stomata of Pelargonium zonale|Bull. Inst. Egypte36:269-286|1953|
28049|T||Sites,J.W.|Controlling Preharvest Drop of Pineapple Oranges with 2,4,5-Trichlorophenoxypropionic Acid|Annu. Meet. Fla. State Hortic. Soc.67:56-59|1954|
28050|T||Kelso,J.M., and J.S. Turner|Protoplasmic Streaming in Tradescantia. I. The Effects of Indoleacetic Acid and Other Growth-Promoting Substances on Streaming|Aust. J. Biol. Sci.8:19-35|1955|10.1071/BI9550019
28052|T||Teubner,F.G., and S.H. Wittwer|Effect of N-m-Tolylphthalamic Acid on Tomato Flower Formation|Science122:74-75|1955|10.1126/science.122.3158.74
28053|T||Yamaki,T.|Effect of Indoleacetic Acid upon Oxygen Uptake, Carbon Dioxide Fixation and Elongation of Avena Coleoptile Cylinders in the Darkness|Sci. Pap. Coll. Gen. Educ. Univ. Tokyo (Biol. Part)4:127-154|1954|
28054|T||Wiegand,O.F., and A.R. Schrank|3-Indole Acid Function in Avena Coleoptiles Stimulated by Unilaterally Applied Direct Current|Arch. Biochem. Biophys.56(2): 459-468|1955|10.1016/0003-9861(55)90266-6
28055|T||Isenberg,F.M.R., C.O. Jensen, and M.L. Odland|Effect of Maleic Hydrazide on the Respiration of Mature Onion Bulbs|Science120:464-465|1954|10.1126/science.120.3116.464
28057|T||Evenari,M., and A.M. Mayer|The Effect of Auxin on the Germination of Lettuce Seeds|Bull. Res. Counc. Isr. Sect. D Bot.4:81-82|1954|
28059|T||Burstrom,H.|Evaluation of the Growth Activity of Naphthalene Derivatives|Physiol. Plant. (Multiple Languages)8:174-188|1955|10.1111/j.1399-3054.1955.tb08970.x
28061|T||Sivaramakrishnan,V.M., and P.S. Sarma|The Influence of Vitamins on Nitrogen Metabolism: II. The Influence of Neopyrithiamine, 5-(3,4-Ureylenecyclohexyl) Butyric Acid and Aminopterin on Amino Acid Changes During Germination|J. Sci. Ind. Res.13:413-418|1954|
28066|T||Milborrow,B.V.|The Effects of Synthetic dl-Dormin (Abscisin II) on the Growth of the Oat Mesocotyl|Planta (Multiple Languages)70:155-171|1966|10.1007/BF00963725
28069|T||Desai,S.H., and C.H. Pathak|Effects of Gibberellic Acid on the Growth of Trigonella foenum-graecum L.|Indian J. Plant Physiol.8(1): 57-60|1965|
28073|T||Rakitin,I.U.V., and A.D. Potapova|The Pre-Sprouting Application of Herbicides|Dokl. Vses. Akad. S-Kh. Nauk Im. V. I. Lenina (Non-English)7:29-33|1959|
28076|T||Khan,A.A., and N.E. Tolbert|Acceleration of Cotton Petiole Abscission by Cycocel|Bot. Gaz.127:217-221|1966|10.1086/336365
28077|T||Langer,C.A.|The Relationship Between Apple Tree Vigor and Naphthaleneacetic Acid Thinning Sprays|Q. Bull. Mich. Agric. Exp. Stn.35:467-473|1953|
28078|T||Castle,H.|Growth In Vitro of Excised Roots of Equisetum Arvense as Modified by Indole-3-Acetic, Indole-3-Butyric and A-Naphthaleneacetic Acids|Bot. Gaz.114:328-343|1953|10.1086/335775
28082|T||Friesen,G., and P.J. Olson|The Effect of 2,4-D on the Developmental Processes in Barley and Oats|Can. J. Agric. Sci.33(4): 315-329|1953|
28084|T||Berg,R.T., and L.W. McElroy|Effect of 2,4-D on the Nitrate Content of Forage Crops and Weeds|Can. J. Agric. Sci.33:354-358|1953|
28086|T||Chatterji,U.N.|Studies on the Effect of Pyruvic Acid on Respiration and Sugar Contents of Green Leaves|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.31:57-66|1961|
28089|T||Sell,H.M., M.J. Bukovac, S.H. Wittwer, and K.P. Hellman|Effects of Gibberellin A3 on the Chemical Composition of Celery Plants|J. Food Sci.26:209-211|1961|
28096|T||Takehisa,S.|The Effect of EDTA on the Mitotic Chromosomes of Vicia faba|Idengaku Zasshi36:200-205|1961|
28097|T||Pratt,C., and N.J. Shaulis|Gibberellin-Induced Parthenocarpy in Grapes|Proc. Am. Soc. Hortic. Sci.77:322-330|1961|
28100|T||Osborne,D.J., and M. Hallaway|The Role of Auxins in the Control of Leaf Senescence. Some Effects of Local Applications of 2,4-Dichlorophenoxyacetic Acid on Carbon and Nitrogen Metabolism|In:  Plant Growth Regulation, Fourth International Conference on Plant Growth Regulation, The Iowa State University Press, Ames, IA:329-340|1961|
28101|T||Tonzig,S., and E. Marre|Ascorbic Acid as a Growth Hormone|In: Plant Growth Regulation, Iowa State University Press, Ames, IA:725-734|1961|
28102|T||Scott,F.M., B.G. Bystrom, and V. Sjaholm|Anatomy of Traumatic Acid-Treated Internodes of Ricinus Communis|Bot. Gaz.122(4): 311-314|1961|10.1086/336120
28103|T||Chailakhian,M.K.|Effect of Gibberellins and Derivatives of Nucleic Acid Metabolism on Plant Growth and Flowering|In: Plant Growth Regulation, Iowa State University Press, Ames, IA1961:531-542|1961|
28104|T||Carns,H.R., F.T. Addicott, K.C. Baker, and R.K. Wilson|Acceleration and Retardation of Abscission by Gibberellic Acid|In: Plant Growth Regulation, Iowa State University Press, Ames, IA:559-565|1961|
28107|T||Elliott,J.G.|The Effect of MCPB and 2,4-DB on Cereal Crops.  Part I:  Winter and Spring Wheat|Proc. Br. Weed Control Conf.1:399-408|1956|
28108|T||Davies,J., and T. Hunt|The Control of Juncus effusus Using the Butyric Homologues of MCPA and 2,4-D|Proc. Br. Weed Control Conf.1:379-381|1956|
28109|T||Carpenter,K., and C. Wilson|The Relative Toxicity of MCPB, 2,4-DB and MCPA to Cereals|Proc. Br. Weed Control Conf.1:417-422|1956|
28110|T||Baker,C., and R.K. Pfeiffer|A Contribution to the Question of the Effect of 2,4-DB and MCPB on the Yield of Cereals in Different Development Stages|Proc. Br. Weed Control Conf.1:423-427|1956|
28113|T||Zetterberg,G.|The Mutagenic Effect of 8-Ethoxycaffein, Caffein and Dimethylsulfate in the Ophiostoma Back-Mutation Test|Hereditas46:297-311|1960|
28115|T||Blackman,G.E.|The Stimulation of Latex Flow by Plant Growth Regulators|In: Proceedings of the Natural Rubber Research Conference, Kuala Lumpur, Malaysia:19-51|1960|
28116|T||Barbosa-Cupeles,J.E., and M.A. Lugo-Lopez|Use of Allyl Alcohol as a Pre-Emergent Weedkiller in Coffee Seedbeds|J. Agric. Univ. P. R.45:112-115|1961|10.46429/jaupr.v45i2.12261
28120|T||Chakravarti,S.C.|Flowering of Sesamum indicum L. as Influenced by Treatments with a-Naphthalene Acetic Acid and 2,3,5-Triiodobenzoic Acid|Vikram4:44-46|1960|
28123|T||Brown,J.H., and K.L. Carvell|Radapon for Effective Control of Grass Around Planted Seedlings|Down Earth16:13-15|1961|
28128|T||Key,J.L., and J.B. Hanson|Some Effects of 2,4-Dichlorophenoxyacetic Acid on Soluble Nucleotides and Nucleic Acid of Soybean Seedlings|Plant Physiol.36:145-152|1961|10.1104/pp.36.2.145
28129|T||Devlin,R.M., and W.T. Jackson|Effect of p-Chlorophenoxyisobutyric Acid on Rate of Elongation of Root Hairs of Agrostis alba L.|Physiol. Plant. (Multiple Languages)14:40-48|1961|10.1111/j.1399-3054.1961.tb08135.x
28130|T||Einspahr,D.W., and J.P. Van Buijtenen|The Influence of Gibberellic Acid on Growth and Fiber Length of Quaking Aspen|For. Sci.7:43-51|1961|
28133|T||Kosikova,P.G.|The Germination of Seeds of Several Species of Weeds and Ruderal Plants After Treatment with Solutions of Gibberellic Acid of Various Concentrations|Dokl. Akad. Nauk SSSR (Non-English)130:45-47|1960|
28135|T||Larsen,R.P., and S.K. Ries|Simazine for Controlling Weeds in Fruit Tree and Grape Plantings|Weeds (Urbana)8:671-677|1960|10.2307/4040371
28136|T||Key,J.L., and F. Wold|Some Effects of 2,4-Dichlorophenoxyacetic Acid on the Oxidation-Reduction State of Soybean Seedlings|J. Biol. Chem.236(2): 549-553|1961|10.1016/S0021-9258(18)64401-1
28142|T||Vanicek,V.|The Effect of 2,3,5-Triiodobenzoic Acid on the Fruiting and Earliness of Tomatoes|Sb. Ces. Akad. Z.24:259-268|1951|
28143|AT||Singh,S.M., and P.N. Kacker|Effects of Some Hormones and Their Methods of Application on Parthenocarpy in Tomato Fruits|Indian J. Hortic.9(4): 25-29|1952|
28144|T||Rao,U.N., V.S. Rangacharlu, and B.S. Kuppuswamy|Effect of Linseed Oil Spray on the Growth and Yield of Apple Trees on the Nilgiris|Indian J. Hortic.9:59-63|1952|
28145|T||Crowdy,S.H.|Observations on the Effect of Growth-Stimulating Compounds on the Healing of Wounds on Apple Trees|Ann. Appl. Biol.40(1): 197-207|1953|10.1111/j.1744-7348.1953.tb02378.x
28146|T||Hindmarsh,M.M.|The Effect of Colchicine on the Spindle of Root Tip Cells|Proc. Linn. Soc. New South Wales77(5/6): 300-306|1953|
28147|T||Beevers,H.|2,4-Dinitrophenol and Plant Respiration|Am. J. Bot.40:91-96|1953|
28151|T||Dykyj-Sajfertova,D.|Effects of Some Herbicidal and Growth-Regulating Esters Prolonging Dormancy in Potato Tubers|Sb. Ces. Akad. Z.24:128-139|1951|
28157|T||Rea,H.E.|Post-Emergence Effects of N-1-Naphthyl Phthalamic Acid and Its Derivatives on Cotton and Certain Weeds|Tex. Agric. Exp. Stn. Prog. Rep.1517:2 p.|1952|
28158|T||Alcaraz Mira,E., and A.I. Tamayo|Tetraploidy Induced by Colchicine in the Genus Nicotiana|Genet. Iber.2:295-322|1950|
28159|T||Pridham,A.M.S., and B.B. Strangler|Response of Woody Ornamentals to 2,4-D|J. Am. Soc. Hortic. Sci.58:313-316|1951|
28163|T||Bonde,E.K.|Growth Inhibitors and Auxin in Leaves of Cocklebur|Physiol. Plant. (Multiple Languages)6(2): 234-239|1953|10.1111/j.1399-3054.1953.tb08944.x
28164|T||Anker,L.|The Effect of Indole Acetic Acid and Other Growth Promoting Substances on the Endogenous Respiration of the Avena Coleoptile|Acta Bot. Neerl.2(1): 22-65|1953|10.1111/j.1438-8677.1953.tb00266.x
28165|T||Kessler,G.M.|The Influence of Preharvest Sprays of Growth Regulators on the Chemical Composition and Ripening of Mcintosh and Northern Spy Apples|Mich. Agric. Exp. Stn. Q. Bull.36:67-75|1953|
28166|T||Dewey,D.H., A.E. Mitchell, and R.R. Lipsit|Storage Quality of Jonathan and Delicious Apples as Affected by Growth Regulator Pre-Harvest Sprays|Mich. Agric. Exp. Stn. Q. Bull.36(1): 3-10|1953|
28167|T||Alm,F.|The Effect of Acetic Acid on the Oxidation of Ascorbic Acid in Plant Tissues. Ii. Various Vegetables and Fruits|Int.Z.Vitaminforsch.Beih.24:81-87|1952|
28168|T||Hill,R.G.,Jr., and E.K. Alban|A Comparison of the Effects of the Salt and Ester Formulations of 2,4-D upon the Growth and Yield of the Premier Strawberry|Proc. Am. Soc. Hortic. Sci.61:195-200|1953|
28169|T||White,D.G.|Promotion of Red Color of Apples. II. Effects of Preharvest Sprays of Certain Chemicals in Multiple Combinations|Proc. Am. Soc. Hortic. Sci.61:180-184|1953|
28171|T||Van oud Loosdrecht,W.E.|A Comparative Investigation of the Influence of Colchicine and Some Other Chemical Compounds on the Growth of Gladiolus|Natuurwet. Tijdschr.34(3): 60-72|1952|
28172|T||Luckwill,L.C.|Trials with Growth Substances as Fruit-Thinning Agents|Long Ashton Res. Stn. Rep.1951:33-40|1952|
28173|T||Blommaert,K.L.J.|Rest-Breaking Effect of Thiourea in Relation to Respiratory Rate and Naringenin Content of Peach Buds|S. Afr. J. Agric. Sci.8(4): 1139-1144|1965|
28176|T||Bristow,J.M.|The Effects of Gibberellic Acid and Cycocel on the Growth of Cultured Leaf Tissue|Can. J. Bot.44:513-518|1966|10.1139/b66-061
28179|T||Jacobs,W.P., and S.C. Kirk|Effect of Gibberellic Acid on Elongation and Longevity of Coleus Petioles|Plant Physiol.41:487-490|1966|10.1104/pp.41.3.487
28186|T||Markiewicz,L.|Influence of Daylength and Gibberellic Acid on Alkaloid Yield of Vinca rosea L.|Bull. Acad. Pol. Sci. Ser. Sci. Biol.13(8): 475-478|1965|
28188|T||Michniewicz,M., T. Kentzer, K. Kriesel, and B. Purzycka|The Effect of 2-Chloroethyl Trimethylammonium Chloride (CCC) on the Frost Resistance of Tomato and Bean Plants|Acta Soc. Bot. Pol.34(2): 181-190|1965|10.5586/asbp.1965.012
28189|T||Natarajan,A.T., I. Fedorcsak, and L. Ehrenberg|Effects of Diethyl Pyrocarbonate on Barley Seeds|Exp. Cell Res.42(3): 617-624|1966|10.1016/0014-4827(66)90273-4
28190|T||Klyuchnikov,L.Y.|The Sensitivity of Young Timber to the Weed Killer 2M-4X (2-Methyl-4-Chlorophenoxy-Acetic Acid)|Dokl. Vses. Akad. S-Kh. Nauk Im. V. I. Lenina (Non-English)5:41-44|1959|
28191|T||Kucera,C.L.|Some Effects of Gibberellic Acid on Grass Seed Germination|Iowa State J. Sci.41(2): 137-143|1966|
28192|T||Laties,G.G., and M. Kent|Auxin-Induced Expansion Growth in Disks of Chicory Root (Cichorium intybus)|Plant Physiol.41:1547-1548|1966|10.1104/pp.41.9.1547
28193|T||Taylorson,R.B.|Some Effects of Herbicides on Biochemical Constituents of Tomato Plants|Proc. Am. Soc. Hortic. Sci.89:539-543|1966|
28195|T||Kadir,Z.B.A., and M. Zahoor|Colchiploidy in Momordica charantia L.|Sind Univ. Res. J. (Sci. Ser. )1:53-58|1965|
28197|T||Nishiyama,I., and T. Taira|The Effects of Kinetin and Indoleacetic Acid on Callus Growth and Organ Formation in Two Species of Nicotiana|Idengaku Zasshi41(5): 357-365|1966|
28198|T||Freeman,J.A.|The Effects of Applying Paraquat, Atrazine and Simazine for Weed Control in Raspberries in Coastal British Columbia|Can. J. Plant Sci.47:25-31|1967|10.4141/cjps67-004
28199|T||Bilge,E., and B. Tozun|Morphogenetic Effects of Streptomycin on the First Generation of Vicia faba Plants Treated with Streptomycin|Istanb. Univ. Fen Fak. Mecm. Ser. B28:139-149|1963|
28200|T||Jones,R.I.|Effect of CCC on the Gibberellin Content of Excised Sunflower Organs|Planta (Multiple Languages)72:53-59|1967|10.1007/BF00388144
28206|T||Artamonov,V.I.|On the Synthesis and Decomposition of Chlorophyll in Plants Under the Influence of Gibberellin and Vitamin B2|Fiziol. Rast. (Mosc.) (Non-English)13:424-428|1966|
28208|T||Genest,K.|The Effect of Gibberellic Acid Treatment on the Alkaloid Content of Mature Ipomoea violacea L. Seeds|Experientia22:681-682|1966|10.1007/BF01902442
28209|T||Kozinka,V.|The Effect of High Concentrations of Growth Substances on Water Uptake|Biol. Plant. (Praha)8(3): 235-245|1966|10.1007/BF02930784
28212|T||Ruddat,M., and R.P. Pharis|Participation of Gibberellin in the Control of Apical Dominance in Soybean and Redwood|Planta (Multiple Languages)71:222-228|1966|10.1007/BF00384884
28214|T||Kuskova,Z.R.|The Effect of Gibberellin on Belladonna|Sov. Plant Physiol.12(4): 548-553|1965|
28217|T||Stott,K.G.|A Trial of Maleic Hydrazide and 2,4-D for Sward Control in Orchards. Progress Report I|Long Ashton Res. Stn. Rep.:139-144|1965|
28219|T||Sitnikova,O.A.|Influence of Growth Regulators on the Water Metabolism of Field Beans|Sov. Plant Physiol.13(2): 263-271|1966|
28221|T||Fedorov,A.K., and V.G. Shinkareva|Some Data on the Effect of Gibberellin on the Development of Winter Cereals|Sov. Plant Physiol.13(2): 242-245|1966|
28223|T||Herich,R.|Influence of Colchicine on Nucleolar Structures|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant10(2): 25-28|1965|
28224|T||Yuodval'kis,A.|Some Changes in the Physiological Processes, Anatomical Structure, and Chemical Composition of Linden and Oak Seedlings Induced by Gibberellin|Sov. Plant Physiol.13(2): 305-309|1966|
28226|T||Pillai,P.K., and S.S. Kumari|Studies on the Effect of Growth Regulators on Fruit Setting in Cardamom|Agric. Res. J. Kerala3(1): 5-13|1965|
28234|T||Stroganova,M.A., and V.V. Polevoi|Effect of Gibberellic Acid and Methyl Ether of Indole-3 Acetic Acid on the Growth of Coleoptile Sections and Mesocotyls of Young Corn Sprouts|Izv. Sib. Otd. Akad. Nauk SSSR, Ser. Biol. Nauk3:119-122|1965|
28237|T||Singh,K.K., G.S. Nijjar, and T.N. Sinha|Effect of Gibberellic Acid and Thiourea on the Germination of Peach Seeds|J. Res. Punjab Agric. Univ.3(2): 146-151|1966|
28238|T||Singh,K.K., G.S. Nijjar, and G.S. Bhathal|Effect of Gibberellic Acid and 2,4,5-Trichlorophenoxyacetic Acid on the Fruit Set, Size and Yield of Phalsa (Grewia asiatica L.)|J. Res. Punjab Agric. Univ.3(3): 286-290|1966|
28239|T||Dhesi,N.S., and M.L. Gupta|Effect of Growth Regulators on the Germination of Seeds of Eggplant (Solanum melongena L.)|J. Res. Punjab Agric. Univ.3(2): 152-154|1966|
28242|T||Biswas,P.K., K.B. Paul, and J.H.M. Henderson|Effects of Steroids on Chrysanthemum in Relation to Growth and Flowering|Nature213:917-918|1967|10.1038/213917a0
28244|T||Dotscheva-Popova,R.|Study on the Effect of Pure and Native Gibberellin on Plant Growth and Respiration (in Flax and Maize Seedlings)|God. Sofii. Univ. , Biol. Fak.56:143-153|1963|
28245|T||Kaminek,M.|Root Formation in Pea Stem Sections and Its Inhibition by Kinetin, Ethionine and Chloramphenicol|Biol. Plant. (Praha)9(2): 86-91|1967|10.1007/BF02929724
28246|T||Kaminek,M., and A. Stemberova|Catabolism of Glucose in Pea Stem Section During Root Formation and Its Inhibition by Kinetin and Ethionine|Biol. Plant. (Praha)9(2): 142-148|1967|10.1007/BF02929731
28248|T||Haas,A.R.C., and J.N. Brusca|Effect of 2,4-D and 2,4,5-T in Avocado Seedling Soil Cultures|Citrus Leav.33:24,26|1953|
28250|T||Samantarai,B., and G. Misra|Hormone Induced Rooting in Isolated Leaves|Sci. Cult.18:388-389|1953|
28252|T||Atal,C.K.|Sex Reversal in Hemp by Application of Gibberellin|Curr. Sci. (Bangalore)28(10): 408-409|1959|
28253|T||Tkachenko,G.V.|The Effect of Gibberellin on the Fruit Bearing of Grape, var. Chaush|Fiziol. Rast. (Mosc.) (Non-English)7:288-289|1960|
28254|T||Katar'yan,T.G., M.A. Drboglav, and M.V. Davydova|The Effect of Gibberellic Acid on Different Varieties of Grape|Sov. Plant Physiol.7(3): 284-287|1960|
28255|T||Ali-Zade,M.A., and R.I. Kotomina|The Effect of Gibberellin on the Growth of Young Tea Shoots|Sov. Plant Physiol.7(3): 282-283|1960|
28256|T||Recalde,L., and A.C. Blesa|The Effect of Glutathione on the Growth of Oat Coleoptile Sections|Indian J. Plant Physiol.3:24-31|1960|
28257|T||Keitt,G.W.,Jr.|Effects of Certain Growth Substances on Elongation and Geotropic Curvature of Wheat Roots|Bot. Gaz.122:51-62|1960|10.1086/336085
28258|T||Rakitin,Y.V., and T.M. Geiden|Isopropyl-N-(3-Chlorophenyl) Carbamate as an Effective Means of Combatting Chickweed|Sov. Plant Physiol.7(2): 192-193|1960|
28259|T||Sestak,Z., and J. Ullmann|The Effect of Gibberellic Acid on the Dynamics of Chlorophyll Synthesis in Etiolated Seedlings|Biol. Plant. (Praha)2(1): 43-47|1960|10.1007/BF02920696
28261|T||Randhawa,G.S., J.P. Singh, and H.S. Dhuria|Effect of Gibberellic Acid, 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid on Fruit Set, Drop, Size and Total Yield in Sweet Lime (Citrus limettioides Tanaka)|Indian J. Hortic.16:206-209|1959|
28262|T||Nickerson,N.H., and T.N. Embler|Studies Involving Sustained Treatment of Maize with Gibberellic Acid. I: Further Notes on Responses of Races|Ann. Mo. Bot. Gard.47:227-242|1960|10.2307/2394735
28263|T||White,J.C., and J.R. Hillman|On the Use of Morphactin and Triiodobenzoic Acid in Apical Dominance Studies|Planta (Multiple Languages)107:257-260|1972|10.1007/BF00397941
28264|T||Booth,A., and P.H. Lovell|The Effect of Pre-Treatment with Gibberellic Acid on the Distribution of Photosynthate in Intact and Disbudded Plants of Solanum tuberosum L.|New Phytol.71(5): 795-804|1972|10.1111/j.1469-8137.1972.tb01958.x
28265|T||Anand,V.K., R.N. Chibbar, and K.K. Nanda|Effects of GA3 and IBA on Rooting and on the Sprouting of Buds on Stem Cuttings of Ipomoea fistulosa|Plant Cell Physiol.13:917-921|1972|10.1093/oxfordjournals.pcp.a074804
28266|T||Reda,F., and S.A. Baker|Influence of Gibberellic Acid on Growth, Flowering, and Alkaloidal Content of Atropa belladonna L. Grown in Egypt|J. Pharm. Sci.61(12): 1970-1973|1972|10.1002/jps.2600611218
28268|T||Robbins,M.L., and L.E. Peterson|Influence of Ethephon on Ripening of Tomato, Lycopersicon esculentum L.|Engeigaku Kenkyuu12:141-144|1972|
28274|T||Tawagen,A.M., B.E. Struckmeyer, and R.R. Daniels|Effect of Cycocel on the Anatomy of Sunflower Plants Grown with and Without Nitrogen|Phyton (Horn) (Multiple Languages)29:1-8|1972|
28278|T||Isenberg,F.M., and M. Abdel-Rahman|Effectiveness of a New Onion Top Killer|Hortscience7(5): 471-473|1972|10.21273/HORTSCI.7.5.471
28279|T||Levy,D., J. Ventura, and N. Kedar|Effect of Ethephon on Seedstalk Growth and Seed Yield of Onion|Hortscience7:470-471|1972|10.21273/HORTSCI.7.5.470
28280|T||Teskey,B.J.E., K.L. Priest, and E.C. Lougheed|Effects of Succinic Acid 2,2-Dimethyl Hydrazide (Alar) and 2-Chlorethylphosphonic Acid (Ethephon) on Abscission and Storage Quality of Mcintosh Apples|Can. J. Plant Sci.52:483-491|1972|10.4141/cjps72-078
28281|T||Mydlilova,E., and J. Zemanek|The Effect of Herbicides on the Bindweed in Field Conditions|Sb. UVTI Ochr. Rostl. 7:47-52|1971|
28284|T||Roy,S.C.|Effect of Mitomycin-C & Colchicine on Callus Tissues & Embryo Cultured In Vitro|Indian J. Exp. Biol.10(3): 244-246|1972|
28286|T||Rylski,I.|Regulation of Flowering in Sweet Pepper (Capsicum annuum L.) by External Application of Several Plant Growth Regulators|Isr. J. Agric. Res.22(1): 31-40|1972|
28292|T||Mehan,M., and C.P. Malik|Studies on the Effect of Different Growth Regulators on the Elongation of Pollen Tube in Calotropis procera|J. Palynol.11(1/2): 71-77|1975|
28294|T||Ganju,L., and S.M. Karmarkar|Senescence in Corn Zea mays Cultivar CM-105 Part I. Effect of Amino Acids, Gibberellic-Acid, Kinetin and Cyclohexamide on the Senescence of Leaf Discs|J. Biol. Sci. (Faisalabad)19(1): 33-42|1976|
28296|T||Edwards,M.E.|Carbon Dioxide and Ethylene Control of Spore Germination in Onoclea sensibilis L|Plant Physiol.59:756-758|1977|10.1104/pp.59.4.756
28297|T||Volkova,R.I., R.P. Ivanova, and S.N. Drozdov|Nature of Admission and Distribution of Chlorocholine Chloride Throughout the Organs of Potato Plants|Sov. Plant Physiol.23(5): 890-893|1976|
28298|T||Selivankina,S.Y., E.G. Romanko, V.A. Kuroedov, and E. Omann|Effect of Cytokinins on RNA Synthesis in Etiolated Rye Seedlings|Sov. Plant Physiol.23(5): 847-852|1976|
28299|T||Krekule,J., and F. Seidlova|Effects of Exogenous Cytokinins on Flowering of the Short-Day Plant Chenopodium rubrum L.|Biol. Plant. (Praha)18(3): 142-149|1977|10.1007/BF02926754
28300|T||Hartung,W., and F. Steigerwald|Abscisic Acid and Apical Dominance in Phaseolus coccineus L.|Planta (Multiple Languages)134:295-299|1977|10.1007/BF00384196
28301|T||Alekhina,N.D., and P.Z. Bochvarov|Conversions of 2-C14-Pyruvate in Roots of Varieties of Wheat with Different Productivity|Sov. Plant Physiol.23(5): 805-809|1976|
28302|T||Ohkawa,H., H. Kaneko, and J. Miyamoto|Metabolism of Permethrin in Bean Plants|J. Pestic. Sci. (Multiple Languages)2:67-76|1977|10.1584/jpestics.2.67
28303|T||Kobayashi,K., and K. Ishizuka|A Mechanism on Selectivity of Barban:  Absorption, Translocation and Chemical Transformation|J. Pestic. Sci. (Multiple Languages)2(1): 59-65|1977|10.1584/jpestics.2.59
28304|T||Zandstra,B.H., and R.K. Nishimoto|Movement and Activity of Glyphosate in Purple Nutsedge|Weed Sci.25(3): 268-274|1977|10.1017/S0043174500033452
28305|T||Wyrill III,J.B., and O.C. Burnside|Glyphosate Toxicity to Common Milkweed and Hemp Dogbane as Influenced by Surfactants|Weed Sci.25(3): 275-287|1977|10.1017/S0043174500033464
28306|T||Horowitz,M.|Herbicidal Treatments for Control of Cannabis sativa L.|Bull. Narc.29:75-83|1977|
28307|T||Gilbey,D.J.|Selective Chemical Control of Doublegee (Emex australis) in Legume Pasture|Aust. J. Exp. Agric. Anim. Husb.17(84): 80-85|1977|10.1071/EA9770080
28309|T||Olympios,C.M.|Effect of Growth Regulators on Fruit-Set and Fruit Development of the Eggplant (Solanum melongena L.)|Hortic. Res.16(2): 65-70|1976|
28310|T||Chhonkar,V.S., and S.N. Singh|Effect of Alpha-Naphthaleneacetic Acid on Growth, Quality and Yield in Tomato (Lycopersicon Esculentum Mill)|Indian J. Hortic.16:236-242|1959|
28312|T||Peevy,F.A.|Controlling Southern Weed Trees with Herbicides|J. For.58:708-710|1960|
28315|T||Massey,L.M.,Jr., B.R. Chase, and T.E. Acree|Ripening of Processing Apples with Postharvest Ethephon|J. Food Sci.42:629-631|1977|10.1111/j.1365-2621.1977.tb12564.x
28316|T||Wu,M.T., and D.K. Salunkhe|Inhibition of Wound Induced Glycoalkaloid Formation in Potato Tubers (Solanum tuberosum L.) by Isopropyl-N-(3-Chlorophenyl)-Carbamate|J. Food Sci.42(3): 622-624|1977|10.1111/j.1365-2621.1977.tb12562.x
28317|T||Mueller,T.O., and N.I. Mondy|Effect of Sprout Inhibition on the Lipid Composition of Potatoes|J. Food Sci.42(3): 618-621|1977|10.1111/j.1365-2621.1977.tb12561.x
28318|T||Ferrari,T.E., and D.H. Wallace|Incompatibility on Brassica Stigmas is Overcome by Treating Pollen with Cycloheximide|Science196:436-438|1977|10.1126/science.196.4288.436
28319|T||Rakitin,I.U.V., and R.A. Alimova|Chemical Regulation of Fruit Set in A Greenhouse Culture of Tomatoes|Izv. Akad. Nauk SSSR2:193-207|1965|
28323|T||Kochba,J., and P. Spiegel-Roy|"The Effects of Auxins, Cytokinins and Inhibitors on Embryogensis in Habituated Ovular Callus of the ""Shamouti"" Orange (Citrus sinensis)"|Z. Pflanzenphysiol. (Multiple Languages)81:283-288|1977|10.1016/S0044-328X(77)80094-9
28327|T||Grzyb,Z.S.|The Influence of Growth Regulators on Vernalized Antonovka Seed with Regards to Root Development and General Seedling Growth|Pr. Inst. Sad. Skierniewicach11:3-14|1967|
28328|T||Murphy,H.J., M.J. Goven, J.C. Campbell, A. Hawkins, J.D. Harrington, and S.L. Dallyn|Effect of Tetrachloronitrobenzene (Fusarex) on Emergence and Yield of Potatoes. Part III. - Northeast|Am. Potato J.46:407-413|1969|10.1007/BF02868749
28329|T||Kovachev,V., M. Makarov, and P. Radkov|Trials with Chemical Control of Weeds in Chick-Pea-D|Rasteniev'dni Nauki (Non-English)5(8): 115-121|1968|
28331|T||Wakamori,S., Y. Yoshida, and Y. Ishii|Synthesis and Herbicidal Activities of Dithiocarbamates:  Part I.  Benzyl Esters of N-Substituted Dithiocarbamic Acids and Related Compounds|Agric. Biol. Chem.33(10): 1367-1376|1969|
28332|T||Kharanyan,N.N.|Effect of the Retardant Chlorocholine Chloride (CCC) on Nitrogen Metabolism of Plants|Sov. Plant Physiol.16(5): 718-721|1969|
28333|T||Blahonravova,L.N.|Effect of Chlororganic Pesticides on the Activity of Chlorophyllase in Some Plants|Ukr. Bot. Zh. (Non-English)26(4): 103-106|1969|
28335|T||Firsanova,G.N., and G.M. Zhivukhina|Physiological and Morpho-Anatomical Changes in Plants Depending on the Site of Application of Gibberellin|Sov. Plant Physiol.16(5): 715-717|1969|
28337|T||Byers,R.E., and F.E. Emerson|Effects of Succinamic Acid 2,2-Dimethyl Hydrazide (Alar) on Peach Fruit Maturation and Tree Growth|J. Am. Soc. Hortic. Sci.94(6): 641-645|1969|10.21273/JASHS.94.6.641
28338|T||Stembridge,G.E., and M.E. Ferree|Immediate and Residual Effects of Succinic Acid, 2,2-Dimethyl Hydrazide (Alar) on Young Delicious Apple Trees|J. Am. Soc. Hortic. Sci.94:602-604|1969|10.21273/JASHS.94.6.602
28342|T||Norris,R.F., and M.J. Bukovac|Some Physical-Kinetic Considerations in Penetration of Naphthaleneacetic Acid Through Isolated Pear Leaf Cuticle|Physiol. Plant. (Multiple Languages)22:701-712|1969|10.1111/j.1399-3054.1969.tb07426.x
28344|T||Neidermyer,R.W., and J. Nalewaja|Uptake, Translocation, and Fate of 2,4-D in Nightflowering Catchfly and Common Lambsquarters|Weed Sci.17(4): 528-532|1969|10.1017/S0043174500054734
28345|T||Maun,M.A., and P.B. Cavers|Effects of 2,4-D on Seed Production and Embryo Development of Curly Dock|Weed Sci.17(4): 533-536|1969|10.1017/S0043174500054746
28346|T||Upchurch,R.P., J.A. Keaton, and H.D. Coble|Response of Turkey Oak to 2,4,5-T as a Function of Final Formulation Oil Content|Weed Sci.17(4): 505-509|1969|10.1017/S0043174500054680
28347|T||Gentner,W.A.|Phytotoxicity of Demethylated Analogs of Diphenamid|Weed Sci.17(3): 284-285|1969|10.1017/S0043174500054011
28349|T||Burns,E.R., G.A. Buchanan, and A.E. Hiltbold|Absorption and Translocation of 2,4-D by Wolftail (Carex cherokeensis Schwein)|Weed Sci.17:401-404|1969|10.1017/S0043174500054382
28351|T||Bondale,K.V., and H.S. Daulay|Studies on Echinops echinatus (Roxb) a Weed and Its Control|Indian J. Sci. Ind. Sect. A Agric. Anim. Sci.2(3): 121-126|1968|
28353|T||Ravel,P., and U.N. Chatterji|Sodium Cyanide as a Germination Promoter in the Seeds of Heliotropium eichwaldi Steud. ex D.C. and Trianthema portulachastrum Linn|Indian J. Hortic.28(1): 60-62|1971|
28354|T||Khatoon,K., and A. Mahmood|The Effect of Applied Growth Hormones on Cell Proliferation in the Cambial Zone of Thuja orientalis L.|Pak. J. Bot.4(2): 117-127|1972|
28356|T||Sahu,R.|Selective Control of Echinochloa colonum L. Growing in Jute Field by Dalapon (2,2-Dichloro Propionic Acid)|Bull. Bot. Soc. Bengal25(1/2): 121-124|1971|
28357|T||Makawi,A.A.M., M.M. Mounir, and M.S. Hassan|Effect of Gramevin Herbicide on Some Libyan Weeds and Soil Microorganisms|Libyan J. Sci.2:27-32|1971|
28360|T||Cram,W.J., and M.G. Pitman|The Action of Abscisic Acid on Ion Uptake and Water Flow in Plant Roots|Aust. J. Biol. Sci.25:1125-1132|1972|10.1071/BI9721125
28361|T||Saeed,M., S.M. Shere, and K.S. Memon|Effect of (2-Chloroethyl) Trimethylammonium Chloride on the Growth and Mineral Uptake in Safflower|Pak. J. Bot.4(1): 45-50|1972|
28362|T||Begum,F., and M.I. Khan|Interactive Effects of (2-Chloroethyl)-Trimethylammonium Chloride and Phytohormones on Growth of Wheat Seedlings|Pak. J. Bot.4(1): 35-43|1972|
28363|T||Manohar,M.S.|Response of Lactuca sativa L. to Gibberellic Acid|Indian J. Hortic.28(2): 154-158|1971|
28367|T||Goodwin,R.H.|Studies on Roots:  V.  Effects of Indoleacetic Acid on the Standard Root Growth Pattern of Phleum pratense|Bot. Gaz.133(3): 224-229|1972|10.1086/336637
28368|T||Costin,J.J., and T.A. Kenny|Effects of 2-Chloroethylphosphonic Acid (Ethrel) on Gooseberries|Pestic. Sci.3:545-550|1972|10.1002/ps.2780030506
28369|T||Weaver,R.J.|Effect of Chlormequat (2-Chloroethyl)-Trimethylammonium Chloride on Small-Berried Wine Grapes|Am. J. Enol. Vitic.24:69-71|1973|10.5344/ajev.1973.24.2.69
28370|T||Kuiper,P.J.C., and M.T. El Saidi|Effect of Gibberellic Acid and Polyethylene Glycol on Uptake and Transport of 36Cl in Bean Plants|Meded.Landbouwhogesch.Wagening.73:1-6|1973|
28372|T||Field,R.J.|The Effect of Gibberellic Acid, Kinetin and Indolylacetic Acid on the Lateral Movement of Labelled Plant Growth Regulators in Willow Stems|New Phytol.72:471-478|1973|10.1111/j.1469-8137.1973.tb04396.x
28373|T||Kronenberg,H.G.|Growth of Side Shoots in Brussels Sprout Plants as Influenced by GA3 and Defoliation|Neth. J. Agric. Sci.21:124-128|1973|10.18174/njas.v21i2.17256
28375|T||Newton,M., and W.S. Overton|Direct and Indirect Effects of Atrazine, 2,4-D and Dalapon Mixtures on Conifers|Weed Sci.21(4): 269-275|1973|10.1017/S0043174500026953
28376|T||Wrischer,M.|The Effect of Ethionine on the Fine Structure of Bean Chloroplasts|Cytobiologie7(2): 211-214|1973|
28378|T||Langer,R.H.M., P.C. Prasad, and H.M. Laude|Effects of Kinetin on Tiller Bud Elongation in Wheat (Triticum aestivum L.)|Ann. Bot.37:565-571|1973|10.1093/oxfordjournals.aob.a084721
28380|T||Reynolds,T., and P.A. Thompson|Effects of Kinetin, Gibberellins and (+ -) Abscisic Acid on the Germination of Lettuce (Lactuca sativa)|Physiol. Plant. (Multiple Languages)28:516-522|1973|10.1111/j.1399-3054.1973.tb08599.x
28381|T||Barmore,C.R., and D.W. Buchanan|Effects of Ethephon on Fruit Maturity and Storage of Florida Peaches cv. 'Early Amber'|Proc. Annu. Meet. Fla. State Hortic. Soc.85:319-322|1972|
28383|T||Bussell,W.T.|Effects of Ethephon ('Ethrel48') on Outdoor Late Staked Tomatoes|N. Z. J. Exp. Agric.1:123-125|1973|10.1080/03015521.1973.10427631
28384|T||Young,R., and O. Jahn|Preharvest Sprays of 2-Chloroethylphosphonic Acid for Coloring 'Robinson' Tangerines|Proc. Annu. Meet. Fla. State Hortic. Soc.85:33-37|1972|
28388|T||Dmitrieva,N.N., and A.Kh Lipskii|The  Role Played by Auxin and Kinetin in Induction of Division in Pith Parenchyma of Tobacco Stems|Sov. Plant Physiol.20(2): 277-283|1973|
28389|T||Garcia-Torres,L., and C. Gomez-Campo|In Vitro Tuberization of Potato Sprouts as Affected by Ethrel and Gibberellic Acid|Potato Res.16:73-79|1973|10.1007/BF02360597
28390|T||Railton,I.D., and D.M. Reid|Effects of Benzyladenine on the Growth of Waterlogged Tomato Plants|Planta (Multiple Languages)111(3): 261-266|1973|10.1007/BF00385109
28391|T||Ashby,J.P.R.|Ethephon Stimulation of Tomato Ripening|Engeigaku Kenkyuu12:145-147|1972|
28393|T||Rudnicki,R., and J. Pieniazek|The Effect of Abscisic Acid on Stratification of Apple Seeds|Bull. Polon. Sci.21(2): 149-154|1973|
28395|T||Zaprometov,M.N., A.V. Meshki, and A.A. Gotsiridze|Effect of Simple Phenolic Compounds and Their Oxidation Products on the Growth of Daucus carota-D and Parthenocissus tricuspidata-D|Soobshch. Akad. Nauk Gruz. SSR (Multiple Languages)56:217-220|1969|
28396|T||Upchurch,R.P., J.A. Keaton, and H.D. Coble|Effects of 2,4,5-T During the Approach of Woody Plant Dormancy|Weed Sci.17:229-233|1969|10.1017/S0043174500031386
28397|T||Barlow,P.W.|Differences in Response to Colchicine by Differentiating Xylem Cells in Roots of Pisum|Protoplasma (Multiple Languages)68:79-83|1969|10.1007/BF01247898
28398|AT||Still,G.G.|3,4,3',4'-Tetrachloroazobenzene: Its Translocation and Metabolism in Rice Plants|Weed Res. (Multiple Languages)9(3): 211-217|1969|10.1111/j.1365-3180.1969.tb01476.x
28399|T||Ashton,F.M., E.G. Cutter, and D. Huffstutter|Growth and Structural Modifications of Oats Induced by Bromacil|Weed Res. (Multiple Languages)9(3): 198-204|1969|10.1111/j.1365-3180.1969.tb01474.x
28400|T||Sladky,Z.|Role of Growth Regulators in Differentiation Processes of Maize (Zea mays L.) Organs|Biol. Plant. (Praha)11(3): 208-215|1969|10.1007/BF02920799
28402|T||Kodrev,T., and I. Stoyanov|Apparent Free Space in Sunflower Roots I. on the Size of the Apparent Free Space as Affected by the Retardant 2-Chloroethyl Trimethylammonium Chloride (CCC)|Rasteniev'dni Nauki (Non-English)5:3-11|1968|
28403|T||Jain,M.L., P.G. Kadkade, and P. Van Huysse|The Effect of Growth Regulatory Chemicals on Abscission and IAA-Oxidizing Enzyme System of Dwarf Bean Seedlings|Physiol. Plant. (Multiple Languages)22:1038-1042|1969|10.1111/j.1399-3054.1969.tb07462.x
28404|T||Evans,L.T.|Inflorescence Initiation in Lolium temulentum L. XIII. The Role of Gibberellins|Aust. J. Biol. Sci.22(4): 773-786|1969|10.1071/BI9690773
28405|T||Rutherford,P.P., E.W. Weston, and A.E. Flood|Effects of 2,4-and 3,5-Dichlorophenoxyacetic Acid on Jerusalem Artichoke Tuber Tissue Disks|Phytochemistry8:1859-1866|1969|10.1016/S0031-9422(00)88068-1
28411|T||Smolinski,M., M. Saniewski, and J. Pieniazek|The Changes in Anatomical Structures in Pisum sativum L. Seedlings After Treatment with Morphactin IT 3456 and Benzyladenine|Acta Soc. Bot. Pol.38(2): 303-308|1969|10.5586/asbp.1969.028
28412|T||Nyman,B.|The Effect of Ethanol on the Growth of Dipodascus aggregatus|Physiol. Plant. (Multiple Languages)22:881-887|1969|10.1111/j.1399-3054.1969.tb07446.x
28413|T||Stembridge,G.E., and J.H. LaRue|The Effect of Potassium Gibberellate on Flower Bud Development in the Redskin Peach|J. Am. Soc. Hortic. Sci.94:492-495|1969|10.21273/JASHS.94.5.492
28419|T||Dozier,W.A.,Jr., and J.A. Barden|Shoot Growth of Young Apple Trees As Influenced by (2-Chloroethyl)Phosphonic Acid|J. Am. Soc. Hortic. Sci.98:244-247|1973|10.21273/JASHS.98.3.244
28420|T||Bondad,N.D.|Postharvest Ripening and Degreening of Banana and Citrus Fruits with 2-Chloroethylphosphonic Acid (Ethrel)|Philipp. Agric.55:310-321|1971|
28421|T||Farooqui,W.A., and E.G. Hall|Effect of Wax Coatings Containing Diphenylamine on Apples and Pears During Storage and Ripening|Aust. J. Exp. Agric.13(61): 200-207|1973|10.1071/EA9730200
28426|T||Kiyokawa,I., and S. Nakagawa|Parthenocarpic Fruit Growth and Development of the Peach as Influenced by Gibberellin Application|J. Jpn. Soc. Hortic. Sci.41(2): 133-143|1972|10.2503/jjshs.41.133
28427|T||Karov,S.P., and M. Giacomelli|Effect of Dithiocarbamate Fungicides on the Photosynthetic Phosphorylation of Chloroplasts from Broad Beans (Vicia faba L. Var. minor Beck.)|Dokl. S-kh. Akad. Georgiya Dimitrova5(2): 147-150|1972|
28428|T||Tychsen,K., and A.S. Andersen|Abscisic Acid and Dormancy of Chives (Allium schoenoprasum L.)|Kgl. Veterinaer. og Landbohojsk. Arsskr.1973:39-48|1973|
28430|T||Leshina,A.V.|Study of the Effect of Diglycolic Acid on the Growth of Tomatoes and Lettuce|Vestn. Beloruss. Univ.22:46-49|1972|
28432|T||Sen,D.N., and K.D. Sharma|Role of Cytokinins and Certain Growth Regulators on Excised Cotyledons of Merremia aegyptia (Linn.) Urban|Biochem. Physiol. Pflanzen (Multiple Languages)163:556-561|1972|10.1016/S0015-3796(17)31290-8
28433|T||Kochhar,V.K., V.K. Anand, and K.K. Nanda|Effect of Morphactin on Rooting and Sprouting of Buds on Stem Cuttings of Salix tetrasperma|Bot. Gaz.133(4): 361-368|1972|10.1086/336656
28434|T||Krishnamoorthy,H.N.|Effect of Ethrel on the Rooting of Mung Bean Hypocotyl Cuttings|Biochem. Physiol. Pflanzen (Multiple Languages)163:505-508|1972|10.1016/S0015-3796(17)31277-5
28437|T||Travis,D.M., and K.G. Wilson|Effects of Hydroxylamine and N-Methyl-N'-Nitro-N-Nitrosoguanidine in Mimulus cardinalis (Scrophulariaceae):  Survival Curves and Dominant Mutants|Theor. Appl. Genet.42(7): 288-292|1972|10.1007/BF00277720
28441|T||Couey,H.M., and M.W. Williams|Preharvest Application of Ethephon on Scald and Quality of Stored 'Delicious' Apples|Hortscience8:56-57|1973|10.21273/HORTSCI.8.1.56
28444|T||Badr,S.A., and H.T. Hartmann|Flowering Response of the Olive (Olea Europaea L.) to Certain Growth Regulators Applied Under Inductive and Noninductive Environments|Bot. Gaz.133(4): 387-392|1972|10.1086/336659
28445|T||Sefcovic,P., and D. Hricova|Effect of Nicotine on Tissue Cultures of Nicotiana tabacum L.|Biologia (Bratisl.)27(10): 771-774|1972|
28447|T||Gasparikova,O.|Effect of 3-Indoleacetic Acid on Root Growth|Biologia (Bratisl.)27(10): 763-769|1972|
28450|T||Suge,H.|Physiology of Flowering in Rice Plants. V. Persistence of Applied Gibberellin A3 and A7 and Their Effect on the Photoperiodic Floral Induction|Jpn. J. Crop Sci. (Multiple Languages)41:51-56|1972|10.1626/jcs.41.51
28452|T||Suge,H.|Inhibition of Photoperiodic Floral Induction in Pharbitis nil by Ethylene|Plant Cell Physiol.13:1031-1038|1972|
28454|T||Makawi,A.A.M., M.M. Mounir, and M.S. Hassan|The Effect of Simazine Herbicide on Weeds, Germination and Nodulation of Phaseolus vulgaris and on Soil Microorganisms|Libyan J. Sci.1:31-41|1971|
28455|T||Suranyi,D.|Effect of CCC Treatment on Various Stone-Fruit Seedlings|Acta Agron. Acad. Sci. Hung.21:327-334|1972|
28458|T||Vyas,L.N., and R.L. Shrimal|Studies in the Effect of Thiourea, I.A.A. (Indoleacetic Acid) and Ascorbic Acid on the Germination and Growth of Seedling of Amaranthus spinosus Linn.|Jpn. J. Ecol.22(3): 105-110|1972|
28460|T||Crane,J.C., P.E. Primer, and R.C. Campbell|Gibberellin Induced Parthenocarpy in Prunus|Proc. Am. Soc. Hortic. Sci.75:129-137|1960|
28462|T||Nekrasova,T.V.|The Effect of Gibberellic Acid on the Germination of Seeds and the Growth of Seedlings of Fruit Plants|Sov. Plant Physiol.7(1): 85-87|1960|
28463|T||McWhorter,C.G., and W.K. Porter|Studies on the Metabolism of Plants Treated with 3-Amino-1,2,4-Triazole|Physiol. Plant. (Multiple Languages)13:444-449|1960|10.1111/j.1399-3054.1960.tb08066.x
28464|T||Schrank,A.R.|Differential Effects of 2,3,6-Trichlorobenzoic Acid on Growth and Geotropic Curvature of Avena Coleoptiles|Plant Physiol.35:735-741|1960|10.1104/pp.35.5.735
28465|T||Larson,P.R.|Gibberellic Acid-Induced Growth of Dormant Hardwood Cuttings|For. Sci.6:232-239|1960|
28466|T||Ikuma,H., and K.V. Thimann|Action of Gibberellic Acid on Lettuce Seed Germination|Plant Physiol.35:557-566|1960|10.1104/pp.35.5.557
28469|T||Boo,L.|Effect of Gibberellin on the Growth in Length of Polyploids|Sven. Bot. Tidskr.53(3): 283-286|1959|
28473|T||Nearpass,D.C.|A Simple, Effective and Economical Colchicine Treatment|Afr. Violet Mag.11:26-27|1957|
28477|T||Humphreys,T.E., and W.M.,Jr. Dugger|Effect of 2,4-Dichlorophenoxyacetic Acid and 2,4-Dinitrophenol on the Uptake and Metabolism of Exogenous Substrates by Corn Roots|Plant Physiol.34:112-116|1959|10.1104/pp.34.2.112
28478|T||Filippenko,I.A.|The Effect of 2,4-D on the Quality of Wheat Seed|Sov. Plant Physiol.4:444-449|1957|
28479|T||Das,B.C.|Comparative Effects of 3-Indolylbutyric Acid, 2,3,5-Tri-Iodobenzoic Acid, and beta-Naphthoxyacetic Acid on Flower Growth and Flower Weight of the Cauliflower (Brassica oleracea)|Can. J. Bot.37:471-478|1959|10.1139/b59-038
28482|T||Das,N.|Studies on the Effect of Auxins on Flowering and Fruiting of Pineapple|In: P. Maheshwari, B.M.Johri and I.K.Vasil (Eds.), Proceedings of the Summer School of Botany, India Ministry of Scientific Research and Cultural Affairs, New Delhi, India:60-68|1962|
28490|T||Tingey,D.C.|Squarrose Knapweed and Its Control|Utah Agric. Exp. Stn. Bull.432:1-11|1960|
28491|T||Avetisyan,A.A.|The Effect of 2-4 Dichlorophenoxybutyric Acid on the Anatomical Structure of the Stems of Sainfoin|Tr Erev Zvi23:301-307|1959|
28498|T||Mishra,D., and P.K. Mohanty|Response of Riboflavin (Vitamin-B2) on Germination of Vigna catjang L.|Sci. Cult.28:136-137|1962|
28500|T||Satyanarayana,G.|Some Effects of Plant Growth Regulators on Germination and Seedling Development of Stored Seeds|Andhra Agric. J.9:9-15|1962|
28516|T||Naidu,A.B., and D.J. Chandra Singh|Studies on the Control and Eradication of Nutgrass by Chemicals|Andhra Agric. J.9(2): 108-126|1962|
28520|T||Luckwill,L.C., and C.P. Lloyd-Jones|The Absorption, Translocation and Metabolism of A-Naphthaleneacetic Acid Applied to Apple Leaves|J. Hortic. Sci.37:190-206|1962|10.1080/00221589.1962.11514039
28523|T||Kefford,N.P.|The Inactivity of 1-Docosanol in Some Plant Growth Tests in Relation to the Auxin of Maryland Mammoth Tobacco|Aust. J. Biol. Sci.15:304-311|1962|10.1071/BI9620304
28524|T||Kelley,A.G., and S.N. Postlethwait|Effect of 2-Chloroethyltrimethylammonium Chloride on Fern Gametophytes|Am. J. Bot.49:778-786|1962|
28528|T||Bisaria,A.K., R. Narang, G.R. Rastogi, and V.K. Bhatnagar|Effects of Morphactin (Chlorflurenol) on Sex Expression, Yield, and Carbohydrates in Corn (Zea mays)|Exp. Agric.15:97-101|1979|10.1017/S0014479700009261
28529|T||White,J.M.|Response of Corn to Foliar Application of Dinoseb as a Growth Stimulant|Annu. Meet. Fla. State Hortic. Soc.37:63-66|1978|
28530|T||Russo,S.L., and R.J. Varnell|In Vitro Responses of Peanut Shoot Tips to 2,4-D and Kinetin|Proc. Soil Crop Sci. Soc. Fla.37:34-36|1978|
28531|T||Kuras,M., and H. Telezynski|Influence of Hydroxyurea on the Course of Germination and Growth of Rape (Brassica napus L.) Seedlings|Acta Soc. Bot. Pol.47(1/2): 131-142|1978|
28532|T||Lane,W.D.|Influence of Growth Regulators on Root and Shoot Initiation from Flax Meristem-Tips and Hypocotyls In Vitro|Physiol. Plant. (Multiple Languages)45:260-264|1979|10.1111/j.1399-3054.1979.tb01698.x
28533|T||Bengtson,C., S.O. Falk, and S. Larsson|Effects of Kinetin on Transpiration Rate and Abscisic Acid Content of Water Stressed Young Wheat Plants|Physiol. Plant. (Multiple Languages)45:183-188|1979|10.1111/j.1399-3054.1979.tb01684.x
28536|T||Hardman,R., and R.G. Stevens|The Influence of NAA and 2,4-D on the Steroidal Fractions of Trigonella foenum graecum Static Cultures|Planta Med.34:414-419|1978|10.1055/s-0028-1097472
28538|T||Morikawa,H., S. Kitamura, and M. Senda|Effect of Auxin on Changes in the Oriented Structure of Wall Polysaccharides in Response to Mechanical Extension in Oat Coleoptile Cell Walls|Plant Cell Physiol.19(8): 1553-1556|1978|
28540|T||Olejniczak,J., and C. Singh|The Influence of Treatment Conditions on the 1,3 Propane Sultone (PS) Induced Damage in Barley (Hordeum vulgare L.)|Genet. Pol.19:285-289|1978|
28541|T||Dei,M., and H. Tsuji|The Influence of Various Plant Hormones on the Stimulatory Action of Red Light on Greening in Excised Etiolated Cotyledons of Cucumber|Plant Cell Physiol.19(8): 1407-1414|1978|
28543|T||Tafuri,F., M. Businelli, L. Scarponi, and C. Marucchini|Stimulation of the Activity of the IAA-Oxidizing Enzyme System in Lens Culinaris Roots by Dalapon and Perfluidone|J. Sci. Food Agric.28:180-184|1977|10.1002/jsfa.2740280212
28546|A||Newton,R.J.|Abscisic Acid Effects on Fronds and Roots of Lemna minor L.|Am. J. Bot.64:45-49|1977|10.1002/j.1537-2197.1977.tb07603.x
28548|T||Kaushik,M.P., and I. Singh|Effect of Ethrel on Sex Expression, Fruit Set and Yield in Lagenaria Siceraria Standle|Geobios4:27-28|1977|
28549|T||Shanan,S.A.|The Effect of Gibberellic Acid on Lignification and Perioxidase Activity in Dwarf Bean|Sci. Hortic.5:297-302|1976|10.1016/0304-4238(76)90123-0
28550|T||Currey,W.L., D.P.H. Tucker, and T.W. Oswalt|Evaluation of Herbicides for Container-Grown Citrus|Hortscience12(1): 66-67|1977|10.21273/HORTSCI.12.1.66
28551|T||El-Zeftawi,B.M.|Effects of Ethephon and 2,4,5-T on Fruit Size, Rind Pigments and Alternate Bearing of 'Imerpal' Mandarin|Sci. Hortic.5:315-320|1976|10.1016/0304-4238(76)90126-6
28552|T||Carlos,J.T., V.G. Fesalbon, and A.C. Mendoza|Fruit Set in Coconut Following Gibberellic Acid Treatment|Philipp. J. Crop Sci.1(2): 68-73|1976|
28553|T||Rabinowitch,H.D., J. Rudich, and N. Kedar|The Effect of Ethrel on Ripening of Tomato and Melon Fruits|Isr. J. Agric. Res.20:47-54|1970|
28558|T||Tupy,J.|Stimulatory Effects of 2,4-Dichlorophenoxyacetic Acid and of 1-Naphthylacetic Acid on Sucrose Level, Invertase Activity and Sucrose Utilization in the Latex of Hevea brasiliensis|Planta (Multiple Languages)88:144-153|1969|10.1007/BF01391120
28559|T||Twardowicz-Jakuszowa,A.|Virus-Like Malformations of Tomato-D Leaves Due to Applied Growth Substances Sprays|Pr. Nauk. Inst. Ochr. Rosl. (Multiple Languages)9(1): 63-78|1967|
28560|T||Mishra,R.S., and B. Pradhan|Effect of Certain Chemicals on Flower Sex Expression and Yield of Cucumber|Indian J. Sci. Ind. Sect. A Agric. Anim. Sci.3(3): 159-166|1969|
28564|T||Gausman,H.W., W.A. Allen, V.I. Myers, R. Cardenas, and R.W. Leamer|Reflectance of Single Leaves and Field Plots of Cycocel-Treated Cotton (Gossypium hirsutum L.) in Relation to Leaf Structure|Remote Sens. Environ.1:103-107|1970|10.1016/S0034-4257(70)80011-6
28565|T||Jacoby,B., and J. Dagan|Effects of Nitrogen-6 Benzyladenine on Primary Leaves of Intact Bean Plants and on Their Sodium Absorption Capacity|Physiol. Plant. (Multiple Languages)23(2): 397-403|1970|10.1111/j.1399-3054.1970.tb06429.x
28566|T||Islam,A.S., and N. Bhutto|Anatomical Effects of Indolebutyric Acid on Pedicel Abscission of Corchorus|Pak. J. Bot.1:99-106|1969|
28567|T||Chernova,L.K., M.N. Prokhorov, and B.V. Filin-Koldakov|Comparison of the Dedifferentiating Effect of 2,4-D and 4-Amino-3,5,6-Trichloropicolinic Acid on Tissues of Legumes and Cereals|Fiziol. Rast. (Mosc.) (Non-English)22:170-175|1975|
28568|A||Padhy,S.N., and H. Pattnaik|Effect of IAA on Growth and Nitrogen Fixation of Westiellopsis prolifica Janet|Z. Pflanzenphysiol. (Multiple Languages)75:460-463|1975|10.1016/S0044-328X(75)80141-3
28569|T||Fellenberg,G., and U. Schoemer|Direct Effect of IAA upon Isolated Chromatin of Etiolated Pea Seedlings|Z. Pflanzenphysiol. (Multiple Languages)75:449-456|1975|10.1016/S0044-328X(75)80139-5
28571|T||El Keredy,M.S., S.A. Abd-Alla, and S. El Aishy|Effects of Gibberellic Acid on Mitotic Activity, Root and Shoot Growth of Wheat Grown from Seeds Irradiated with Gamma Rays|Egypt. J. Genet. Cytol.4:317-323|1975|
28572|T||Buta,J.G.|Plant Growth Regulating Activity of Substituted Phthalate Esters|J. Agric. Food Chem.23(4): 801-802|1975|10.1021/jf60200a051
28575|T||Saunders,J.W., and E.T. Bingham|Growth Regulator Effects on Bud Initiation in Callus Cultures of Medicago sativa|Am. J. Bot.62(8): 850-855|1975|10.1002/j.1537-2197.1975.tb14125.x
28576|T||Kaul,J.N., H.S. Sekhon, and K.B. Singh|Preliminary Studies on the Effect of Hormonal Application on the Yield of Mung (Phaseolus aureus)|J. Res. Punjab Agric. Univ.11(4): 359-361|1974|
28577|T||Behrens,R., and H.L. Morton|Some Factors Influencing Activity of 12 Phenoxy Acids on Mesquite Root Inhibition|Plant Physiol.38:165-170|1963|10.1104/pp.38.2.165
28583|T||Wheeler,A.W.|Betaine: A Plant Growth Substance from Sugar-Beet (Beta vulgaris)|J. Exp. Bot.14(41): 265-271|1963|10.1093/jxb/14.2.265
28584|T||McWhorter,C.G.|Effects of 3-Amino-1,2,4-Triazole on Some Chemical Constituents of Zea mays|Physiol. Plant. (Multiple Languages)16(1): 31-39|1963|10.1111/j.1399-3054.1963.tb08285.x
28585|T||Meyer,R.E., and K.P. Buchholtz|Effect of Chemicals on Buds of Quackgrass Rhizomes|Weeds (Urbana)11:4-7|1963|10.2307/4040672
28586|T||Dalrymple,A.V., and E. Basler|Seasonal Variation in Absorption and Translocation of 2,4,5-Trichlorophenoxyacetic Acid and Respiration Rates in Blackjack Oak|Weeds (Urbana)11:41-45|1963|10.2307/4040682
28589|T||Eliasson,L.|Responses of Aspen Roots to Auxin-Type Growth Substances Applied to the Leaves|Physiol. Plant. (Multiple Languages)16:201-214|1963|10.1111/j.1399-3054.1963.tb08303.x
28594|T||Katsumi,M.|Physiological Effects of Kinetin. Effect of Kinetin on the Elongation, Water Uptake and Oxygen Uptake of Etiolated Pea Stem Sections|Physiol. Plant. (Multiple Languages)16:66-72|1963|10.1111/j.1399-3054.1963.tb08290.x
28595|T||Michel-Wolwertz,M.R., and C. Sironval|Inhibition of Growth and Accumulation of beta-Carotene in Carrot Roots by Gibberellic Acid|Phytochemistry2:183-187|1963|10.1016/S0031-9422(00)82979-9
28598|T||Huang,C.Y.|Effect of Plant Growth Regulators on the Nitrogen Fixing (Acetylene Reduction) Activity of Soybean Plants|Taiwania22:80-90|1977|
28599|T||Sadowski,R., and A. Sykut|Effect of Gibberellic Acid GA3 on the Content of Carotenoids in Seedlings of Phaseolus vulgaris L.|Bull. Acad. Pol. Sci. Ser. Sci. Biol.25(5): 281-286|1977|
28602|T||Nalewaja,J., and K.A. Adamczewski|Redroot Pigweed (Amaranthus retroflexus) Control with Bentazon plus Additives|Weed Sci.25(6): 506-510|1977|10.1017/S0043174500034007
28603|T||Rao,I.M., P.M. Swamy, and V.S.R. Das|The Reversal of Scotoactive Stomatal Behavior in Some Woody Weeds by Paraquat and 2,4,5-T|Weed Sci.25(6): 469-472|1977|10.1017/S0043174500033920
28606|T||Fletcher,R.A.|Retardation of Leaf Senescence by Benzyladenine in Intact Bean Plants|Planta (Multiple Languages)89(1): 1-8|1969|10.1007/BF00386492
28611|T||Suranyi,D.|Growth Inhibition of Internodes in Pear Seedlings by CCC (2-Chloroethyl Trimethylammonium Chloride)|Acta Agron. Acad. Sci. Hung.19(1-2): 123-126|1970|
28612|T||Pal,G., and E. Olah|Effect of Maleic Hydrazide on Flower Formation in Egg-Plants (Solanum melongena L.)|Acta Agron. Hung.19(1/2): 33-36|1970|
28618|T||Musgrave,A., and H. Kende|Radioactive Gibberellin A5 and Its Metabolism in Dwarf Peas|Plant Physiol.45:56-61|1970|10.1104/pp.45.1.56
28620|T||Jonas,H.|Application of Some Growth Regulators to Medicinal Plants|Econ. Bot.23(4): 380-384|1969|10.1007/BF02860684
28621|T||Shih,C.Y., and L. Rappaport|Regulation of Bud Rest in Tubers of Potato, Solanum tuberosum L. VII. Effect of Abscisic Acid and Gibberellic Acids on Nucleic Acid Synthesis in Excised Buds|Plant Physiol.45:33-36|1970|10.1104/pp.45.1.33
28623|T||Nitsch,C., and J.P. Nitsch|Floral Induction in a Short Day Plant, Plumbago indica L., by 2-Chloroethanephosphonic Acid|Plant Physiol.44:1747-1748|1969|10.1104/pp.44.12.1747
28624|T||Saniewski,M., M. Smolinski, and J. Pieniazek|The Effect of Morphactin on the Anatomical Structures of Pisum sativum L. and Dolichos lablab L. Roots|Bull. Acad. Pol. Sci. Ser. Sci. Biol.16(8): 513-515|1968|
28627|T||Hodgson,J.M.|The Response of Canada Thistle Ecotypes to 2,4-D, Amitrole, and Intensive Cultivation|Weed Sci.18:253-255|1970|10.1017/S0043174500079686
28629|T||Chirek,Z., B. Grabias, and W. Maciejewska-Potapczyk|Phosphorus Compounds in Callus Tissue of Nicotiana tabacum L. Treated with Morphactins IT 3233 and IT 3456|Acta Soc. Bot. Pol.46(2): 285-294|1977|10.5586/asbp.1977.021
28630|T||Mudge,K.W., and B.T. Swanson|Effect of Ethephon, Indole Butyric Acid, and Treatment Solution pH on Rooting and on Ethylene Levels Within Mung Bean Cuttings|Plant Physiol.61:271-273|1978|10.1104/pp.61.2.271
28631|T||Motooka,P.S., F.T. Corbin, and A.D. Worsham|Metabolism of Sandoz 6706 in Soybean and Sicklepod|Weed Sci.25(1): 9-12|1977|10.1017/S0043174500032811
28632|T||Looney,N.E.|A Four-Year Study of Single Calcium Chloride and Growth Regulator Tree Sprays to Control Storage Breakdown of 'Spartan' Apples|J. Am. Soc. Hortic. Sci.102:85-88|1977|10.21273/JASHS.102.1.85
28635|T||Basler,E.|Effects of Growth Regulators and Gibberellic Acid on 2,4,5-T Translocation|Weed Sci.25(1): 36-40|1977|10.1017/S0043174500032872
28636|T||Ahmed,H.S., and M.S. Shaladan|The Use of Ethrel in the Colouring of 'Ajami' Apple Fruits|Libyan J. Agric.7:79-84|1978|
28639|T||Umapathi,P., and P.M. Swamy|Influence of Morphactin on Stomatal Characters, Total Chlorophylls & Net & Gross Productivity of Peanut (Arachis hypogaea L.) Leaves|Indian J. Exp. Biol.17(2): 225-226|1979|
28640|T||MacDonald,I.R., and D.C. Gordon|The Effect of Chloroflurenol on Geosensitivity and Light Inhibition of Cress Roots|J. Exp. Bot.30(114): 65-70|1979|10.1093/jxb/30.1.65
28645|T||Rubery,P.H.|The Effects of 2,4-Dinitrophenol and Chemical Modifying Reagents on Auxin Transport by Suspension-Cultured Crown Gall Cells|Planta (Multiple Languages)144:173-178|1979|10.1007/BF00387267
28648|T||Beasley,C.A., and I.L. Eaks|Ethylene from Alcohol Lamps and Natural Gas Burners:  Effects on Cotton Ovules Cultured In Vitro|In Vitro15(4): 263-269|1979|
28649|T||Cassells,A.C.|The Effect of 2,3,5-Triidobenzoic Acid on Caulogenesis in Callus Cultures of Tomato and Pelargonium|Physiol. Plant. (Multiple Languages)46:159-164|1979|10.1111/j.1399-3054.1979.tb06550.x
28651|T||Malakondaiah,N., and S.C. Fang|Differential Effects of Phenoxy Herbicides on Light-Dependent 14CO2 Fixation in Isolated Cells of C3 and C4 Plants|Pestic. Biochem. Physiol.10:268-274|1979|10.1016/0048-3575(79)90032-4
28652|T||Pemadasa,M.A.|Stomatal Responses to Two Herbicidal Auxins|J. Exp. Bot.30(115): 267-274|1979|10.1093/jxb/30.2.267
28653|T||Hasegawa,P.M., T. Yasuda, and T.Y. Cheng|Effect of Auxin and Cytokinin on Newly Synthesized Proteins of Cultured Douglas Fir Cotyledons|Physiol. Plant. (Multiple Languages)46:211-217|1979|10.1111/j.1399-3054.1979.tb06560.x
28656|T||Shimabukuro,R.H., W.C. Walsh, and R.A. Hoerauf|Metabolism and Selectivity of Diclofop-Methyl in Wild Oat and Wheat|J. Agric. Food Chem.27(3): 615-623|1979|10.1021/jf60223a008
28657|T||Roshchina,V.V.|Effect of Dibromothymoquinone on Photosynthetic Electron Transport|Biokhimiya (Non-English)44:477-481|1979|
28658|T||Choudhuri,H.C., and S. Banerjee|Colchicine Treatment of Different Varieties of Potatoes in West Bengal|Potato Res.4(2): 144-151|1961|10.1007/BF02365026
28662|T||Kuraishi,S., and R.M. Muir|Increase in Diffusible Auxin After Treatment with Gibberellin|Science137:760-761|1962|10.1126/science.137.3532.760
28665|T||Okazawa,Y., and H.W. Chapman|Regulation of Tuber Formation in the Potato Plant|Physiol. Plant. (Multiple Languages)15(3): 413-419|1962|10.1111/j.1399-3054.1962.tb08044.x
28673|T||Vardaniya,K.K.|The Influence of Photoperiodism in Association with Gibberellic Acid on the Growth and Development of Orthosiphon stamineus Benth|Sov. Plant Physiol.10(2): 159-165|1963|
28676|T||Birecka,H.|Influence of Gibberellin and beta-Indole-Acetic Acid on Plants of Yellow and White Lupine. Part I. - The Growth and the Development of Plants|Acta Soc. Bot. Pol.31(3): 559-585|1962|10.5586/asbp.1962.040
28677|T||Birecka,H., and J. Zebrowska|Influence of Gibberellin and beta-Indoleacetic Acid on Plants of Yellow and White Lupine. II. The Nitrogen and the Alkaloid Content|Act. S. Bot. P.31(3): 587-599|1962|
28678|T||Jensen,T.E., and F. Welbourne|The Cytological Effects of Growth Inhibitors on Excised Roots of Vicia faba and Pisum sativum|Proc. S. D. Acad. Sci.41:131-136|1962|
28680|T||Khan,M., and I. Hussain|Some Studies on the Effect of Hormones on Growth and Rooting of Cutting of Horticultural Plants|Pak. J. For.12:291-305|1962|
28687|T||Bhandal,I.S., and C.P. Malik|Effect of Gibberellic Acid, (2-Chloroethyl) Phosphonic Acid, Actinomycin-D and Cycloheximide on the Activity and Leaching of Some Hydrolases in Pollen Suspension Cultures of Crotalaria juncea|Physiol. Plant. (Multiple Languages)45:297-300|1979|10.1111/j.1399-3054.1979.tb02586.x
28688|T||Fujii,Y., T. Kurokawa, I. Yamaguchi, and T. Misato|Selective Herbicidal Activity of 3,3'-Dimethyl-4-Methoxybenzophenone (Methoxyphenone, NK-049): Absorption, Translocation and Metabolism|J. Pestic. Sci. (Multiple Languages)3(3): 291-298|1978|10.1584/jpestics.3.291
28690|T||Schmitt,P., and P. Benveniste|Effect of AY-9944 on Sterol Biosynthesis in Suspension Cultures of Bramble Cells|Phytochemistry18:445-450|1979|10.1016/S0031-9422(00)81885-3
28691|T||Mote,U.N.|Effect of Systemic Insecticides on the Germination and Subsequent Growth of Pea (Pisum sativum L.) Seed|Seed Res.6(1): 62-66|1978|
28692|T||Khryanin,V.N., V.G. Kochankov, and M.K. Chailakhyan|Effects of Growth Regulators on Sexualization of Hemp and Spinach Under Conditions of Presowing Treatment of the Seeds|Sov. Plant Physiol.25(4): 545-550|1978|
28697|T||Karavaiko,N.N., K. Kraviarz, V.A. Khokhlova, and O.N. Kulaeva|Comparison of the Action of Abscisic Acid and Protein Synthesis Inhibitors on Metabolism of Isolated Pumpkin Cotyledons|Sov. Plant Physiol.25(4): 628-634|1978|
28698|T||Kamada,H., and H. Harada|Studies on the Organogenesis in Carrot Tissue Cultures: I. Effects of Growth Regulators on Somatic Embryogenesis and Root Formation|Z. Pflanzenphysiol. (Multiple Languages)91:255-266|1979|10.1016/S0044-328X(79)80099-9
28699|T||Moyer,J.R., R.D. Dryden, and P.N.P. Chow|Effect of Barban and Flamprop Methyl with Solution Nitrogen on Wheat, Wild Oats and Green Foxtail|Can. J. Plant Sci.59(2): 351-356|1979|10.4141/cjps79-057
28701|T||Abdul-Wahab,A.S., A.A. Al-Salih, and I.S. Al-Saadawi|The Influence of Some Chemicals on the Germination of Date Palm Seeds|Bull. Coll. Sci. Univ. Baghdad17(1): 47-60|1976|
28702|T||Sarma,C.M., and P. Chakraborty|Effect of Gibberellic Acid and Thiourea, Singly and in Combination, on the Germination of Lettuce Seeds|Indian J. Agric. Sci.47(1): 18-21|1977|
28703|T||Stewart,J.M., and C.L. Hsu|Influence of Phytohormones on the Response of Cultured Cotton Ovules to (2-Chloroethyl) Phosphonic Acid|Physiol. Plant. (Multiple Languages)39:79-85|1977|10.1111/j.1399-3054.1977.tb09288.x
28704|T||Maksymowych,R., and R.O. Erickson|Phyllotactic Change Induced by Gibberellic Acid in Xanthium Shoot Apices|Am. J. Bot.64(1): 33-44|1977|10.1002/j.1537-2197.1977.tb07602.x
28705|T||Malik,C.P., and M.B. Singh|Cycocel as a Stimulator for Pollen Tube Elongation in Tradescantia|New Bot.2:116-118|1975|
28709|T||Ram,C., D. Balasimha, and M.N. Tewari|Effect of Gibberellic Acid and Auxins on Growth, Sulfhydryl Content and Peroxidase Activity in Phaseolus radiatus L. Seedlings|Plant Biochem. J.3(2): 128-133|1976|
28713|T||Stewart,E.R., and H.T. Freebairn|Ethylene, Seed Germination, and Epinasty|Plant Physiol.44:955-958|1969|10.1104/pp.44.7.955
28715|T||Vyas,D.N., K.C. Patel, and R.D. Patel|Study of the Fatty Acid Composition During Germination of Peanuts Treated with Growth Regulators|J. Am. Oil Chem. Soc.46:41-46|1969|10.1007/BF02632709
28724|T||Dass,H.C., and G.S. Randhawa|Effect of Gibberellin on 'Golden Queen' Grape, a Vinifera-Labrusca Hybrid|Am. J. Enol. Vitic.19:52-55|1968|10.5344/ajev.1968.19.1.52
28725|T||Dass,H.C., and G.S. Randhawa|Response of Certain Seeded Vitis vinifera Varieties to Gibberellin Application at Postbloom Stage|Am. J. Enol. Vitic.19:56-62|1968|10.5344/ajev.1968.19.1.56
28726|T||Ali-Zade,M.A., and F.Sh Makhmudov|Effect of Kinetin on Nitrogen-Nucleic Acid Metabolism in Eggplant Leaves|Izv. Akad. Nauk Arm. SSR Biol. Nauk (Multiple Languages)5:33-36|1967|
28733|T||Conner,B.J., and D.P. White|Triazine Herbicides and the Nitrogen Nutrition of Conifers|Mich. Agric. Exp. Stn. Q. Bull.50:497-503|1968|
28739|T||Lee,T.T., and N. Rosa|Regulation of Starch and Sugar Levels in Tobacco Leaves by Gibberellic Acid|Can. J. Bot.47:1595-1598|1969|10.1139/b69-228
28740|T||Ryugo,K., and R.M. Sachs|In Vitro and In Vivo Studies of Alar (1,1-Dimethylaminosuccinamic Acid, B-995) and Related Substances|J. Am. Soc. Hortic. Sci.94:529-533|1969|10.21273/JASHS.94.5.529
28743|T||Unrath,C.R., A.L. Kenworthy, and C.L. Bedford|The Effect of Alar, Succinic Acid 2,2-Dimethyl Hydrazide, on Fruit Maturation, Quality and Vegetative Growth of Sour Cherries|J. Am. Soc. Hortic. Sci.94:387-391|1969|10.21273/JASHS.94.4.387
28744|T||Uriu,K., and J.C. Crane|Trunk Growth Versus Fruit Growth of Apricot as Affected by 2,4-D|J. Am. Soc. Hortic. Sci.94(4): 370-372|1969|10.21273/JASHS.94.4.370
28745|T||Shutak,V.G., J.T. Kitchin, and J.C.,Jr. Hapitan|Influence of Application Date and Concentration of Succinic Acid 2,2-Dimethyl Hydrazide on 'Cortland' Apples|Philipp. Agric.52:82-90|1968|
28746|T||Ashiru,G.A.|Effect of Kinetin, Thiourea and Thiourea Dioxide, Light and Heat on Seed Germination and Seedling Growth of Kola (Cola nitida (Ventenant) Schott and Endlicher)|J. Am. Soc. Hortic. Sci.94:429-432|1969|10.21273/JASHS.94.4.429
28748|T||Irving,R.M.|Influence of Growth Retardants on Development and Loss of Hardiness of Acer negundo|J. Am. Soc. Hortic. Sci.94:419-422|1969|10.21273/JASHS.94.4.419
28749|T||Bondale,K.V., and H.S. Daulay|Efficacy of Arsenical Herbicides and Their Doses on the Control of Aristida Species|Indian For.95:403-406|1969|
28750|T||Apparao,K., and D.M. Gopinath|Colchicine-Induced Mutations in a Trispecific Nicotiana Hybrid|Can. J. Genet. Cytol.10(4): 782-787|1968|10.1139/g68-097
28752|T||Thompson,P.A.|The Effect of Applied Growth Substances on Development of the Strawberry Fruit. II. Interactions of Auxins and Gibberellins|J. Exp. Bot.20(64): 629-647|1969|10.1093/jxb/20.3.629
28754|T||Felippe,G.M.|Effects of the Growth Retardant CCC on Growth of Stem and Roots of Phaseolus vulgaris|Phyton (Horn) (Multiple Languages)26(1): 3-15|1969|
28755|T||Cathey,H.M.|Plant Selectivity in Response to Variation in the Structure of Succinic Acid 2,2-Dimethylhydrazide (B995)|Phyton (Horn) (Multiple Languages)26(1): 77-85|1969|
28757|A||Steward,K.K.|Effects of Growth Regulators and Herbicides on Germination of Hydrilla Turions|Weed Sci.17(3): 299-301|1969|10.1017/S0043174500054060
28758|T||Kaminski,W., and J. Pieniazek|The Effect of Different Growth Regulators on the Germination of the Apple Cultivar Antonovka Dehusked Seeds|Bull. Acad. Pol. Sci. Ser. Sci. Biol.16(11): 719-723|1968|
28760|T||Grochowska,M.J.|Translocation of Indole-3-Acetic Acid-2 14C Injected into Seeds of Five-Week-Old Apple Fruits|Bull. Acad. Pol. Sci. Ser. Sci. Biol.16(9): 577-580|1968|
28761|T||Looney,N.E.|Importance of Time and Concentration of Annual Applications of Succinic Acid 2,2-Dimethyl Hydrazide (Alar) to Pome Fruits: I. Mcintosh and Spartan Apples|Can. J. Plant Sci.49:489-494|1969|10.4141/cjps69-080
28762|T||Bovey,R.W., C.C. Dowler, and J.D. Diaz-Colon|Response of Tropical Vegetation to Herbicides|Weed Sci.17:285-290|1969|10.1017/S0043174500054023
28763|T||Hendrickson,R., and W.R. Meagher|Spray Residues of 2,4-D and 2,4,5-TP in 'Pineapple' Orange Peel|J. Agric. Food Chem.17(3): 601-603|1969|10.1021/jf60163a026
28765|T||Bachelard,E.P., and V.H. Boughton|The Effect of Weedicides on the Growth of Radiata Pine Seedlings|Aust.For.31:211-220|1967|10.1080/00049158.1967.10675443
28766|T||Felippe,G.M., and J.E. Dale|Effects of a Growth Retardant, CCC, on Leaf Growth in Phaseolus vulgaris|Planta (Multiple Languages)80:328-343|1968|10.1007/BF00385386
28767|T||Krelle,E., and E. Libbert|Inhibition of the Polar Auxin Transport by a Morphactin|Planta (Multiple Languages)80:317-320|1968|10.1007/BF00392401
28768|T||Raghavan,V.|Actinomycin D-Induced Changes in Growth and Ribonucleic Acid Metabolism in the Gametophytes of Bracken Fern|Am. J. Bot.55(7): 767-772|1968|
28771|T||Morgan,J.V., and M.J. Hennerty|Some Effects of the Growth Regulator CCC and Alar (B-995) on the Tomato. I. Effects on Leaf Area, Plant Spread, Dry Weight, Height and Leaf Numbers|Sci. Proc. R. Dublin Soc. Ser. B2(14): 121-140|1968|
28774|T||Krishnaswami,R.|Mutation Induction by EMS in Autotetraploid Barley|Proc. Indian Acad. Sci. Sect. B67(3): 125-128|1968|10.1007/BF03051692
28776|T||Pavlinova,O.A., M.F. Prasolova, and E.A. Ivanova|Mechanism of Action of Maleic Acid Hydrazide on Growth and Sugar Accumulation in Sugar Beets|Sov. Plant Physiol.14(6): 833-836|1967|
28777|T||Yakushkina,N.I., and G.M. Zhivukhina|The Mechanism of the Action of Gibberellin on Photosynthesis (O Mekhanizme Deistviya Gibberellina na Protsess Fotosinteza)|Uch.Zap.Mosk.Obl.Pedagog.Inst.169:70-74|1967|
28778|T||Ashby,D.L., and N.E. Looney|Mineral Content of Fruit and Leaves of Spartan Apple Trees Treated with Succinic Acid 2,2-Dimethyl Hydrazide|Can. J. Plant Sci.48:422-423|1968|10.4141/cjps68-081
28786|T||Suge,H., and L. Rappaport|Role of Gibberellins in Stem Elongation and Flowering in Radish|Plant Physiol.43:1208-1214|1968|10.1104/pp.43.8.1208
28787|T||Tanimoto,E., and Y. Masuda|Effect of Auxin on Cell Wall Degrading Enzymes|Physiol. Plant. (Multiple Languages)21:820-826|1968|10.1111/j.1399-3054.1968.tb07306.x
28788|T||Yih,R.Y., D.H. McRae, and H.F. Wilson|Mechanism of Selective Action of 3',4'-Dichloropropionanilide|Plant Physiol.43:1291-1296|1968|10.1104/pp.43.8.1291
28789|T||Chhonkar,V.S., and R. Tiwari|Studies on the Effects of Foliar Application of Urea on Kagzi Lime (C. aurantifolia Swingle)|Indian J. Hortic.23(3/4): 114-119|1966|
28790|T||Rakitin,I.U.V.|Use of Ethylene as a Highly Effective Defoliant|Fiziol. Rast. (Mosc.) (Non-English)14:936-951|1967|
28793|T||Martin,D., T.L. Lewis, and J. Cerny|The Effect of Alar on Fruit Cell Division and Other Characteristics in Apples|Proc. Am. Soc. Hortic. Sci.92:67-70|1968|
28795|T||Chalutz,E., J.E. DeVay, and E.C. Maxie|Ethylene-Induced Isocoumarin Formation in Carrot Root Tissue|Plant Physiol.44:235-241|1969|10.1104/pp.44.2.235
28797|T||Lewis,J., D.J. Weber, and S. Venketeswaran|Mode of Action of 2,6-Dichloro-4-Nitroaniline in Plant Tissue Culture|Phytopathology59:93-97|1969|
28800|T||Jacqmard,A.|Early Effects of Gibberellic Acid on Mitotic Activity and DNA Synthesis in the Apical Bud of Rudbeckia bicolor|Physiol. Veg. (Multiple Languages)6(4): 409-416|1968|
28803|T||Wada,K., and K. Takahashi|Studies on the Growth Response of the Rice Plant to Exogenous Gibberellic Acid. I. Response of the Japonica Rice Seedlings to Applied Gibberellic Acid Under Light and Dark Conditions|Tohoku J. Agric. Res.19(3): 153-156|1968|
28804|T||Wada,K., and K. Takahashi|Studies on the Growth Response of the Rice Plant to Exogenous Gibberellic Acid. II. Relationship Between the Applied Gibberellic Acid and Light in the Different Organs of Rice Seedlings|Tohoku J. Agric. Res.19(3): 157-165|1968|
28805|T||Letham,D.S.|Regulators of Cell Division in Plant Tissues:  VI.  The Effects of Zeatin and Other Stimulants of Cell Division on Apple Fruit Development|N. Z. J. Agric. Res.12:1-20|1969|10.1080/00288233.1969.10427073
28806|T||Sullivan,D.T.|The Effect of N-Dimethyl Amino Succinamic Acid (Alar) on Size, Shape, and Maturity of Delicious Apples|Hortscience3:18-|1968|10.21273/HORTSCI.3.1.18
28808|T||Tiwari,R., and V.S. Chhonkar|Studies on the Effects of Foliar Application of Urea on Growth and Yield of Tomato (Lycopersicon esculentum Mill.)|Indian J. Hortic.24(3/4): 173-180|1967|
28809|T||Kasimatis,A.N., R.J. Weaver, and R.M. Pool|Effects of 2,4-D and 2,4-DB on the Vegetative Development of 'Tokay' Grapevines|Am. J. Enol. Vitic.19:194-204|1968|10.5344/ajev.1968.19.3.194
28810|T||Andersen,A.S., and R.M. Muir|Gibberellin Induced Changes in Diffusible Auxins from Savoy Cabbage|Physiol. Plant. (Multiple Languages)22(2): 354-363|1969|10.1111/j.1399-3054.1969.tb07386.x
28812|A||Cleland,C.F., and W.S. Briggs|Gibberellin and CCC Effects on Flowering and Growth in the Long-Day Plant Lemna gibba G3|Plant Physiol.44:503-507|1969|10.1104/pp.44.4.503
28817|T||Trunova,T.I.|Effect of 2,4-Dinitrophenol on the Frost-Resistance in the Ul'yanovka Variety of Winter Wheat|Sov. Plant Physiol.16(2): 195-197|1969|
28818|T||Wilde,M.H., and L.J. Edgerton|Effects of a Growth Retardant on Shoot Meristems of Apple|J. Am. Soc. Hortic. Sci.94(2): 118-122|1969|10.21273/JASHS.94.2.118
28819|T||Knypl,J.S.|Coumarin- and Indole-3-Acetic Acid-Induced Growth and Respiration in Sunflower As Affected by 2-Chloroethyl Trimethylammonium Chloride, Actinomycin C1, Puromycin and Diazouracil|Acta Soc. Bot. Pol.37(1): 51-60|1968|10.5586/asbp.1968.006
28821|T||Coombe,B.G.|Effects of Growth Retardants on Vitis vinifera D-Chloroethyltrimethyl, Ammonium Chloride, Phosphon-D, Alar Co-II|Vitis (Multiple Languages)6(3): 278-287|1967|
28824|T||Bankowska,H.|The Effect of Different Concentrations on Gibberellin of Growth Response on Zea mays L. and an Attempt for the Detection of Naturally Occurring Gibberellins in Control Plants|Acta Agrobot. (Multiple Languages)20:175-183|1967|10.5586/aa.1967.009
28825|T||Lakshminarayana,S., and H. Subramanyam|Effect of Pre-Harvest Spray of Maleic Hydrazide and Isopropyl N-Phenyl Carbamate on Sapota (Achras sapota L.) - II|J. Food Sci. Technol.4:70-73|1969|
28826|T||Bamzai,R.D., and G.S. Randhawa|Effects of Certain Growth Substances and Boric Acid on Germination, Tube Growth and Storage of Grape Pollen (Vitis ssp.)|Vitis (Multiple Languages)6:269-277|1967|
28827|T||Bruinsma,J.|Uptake and Translocation of 4,6-Dinitro-O-Cresol (DNOC) in Young Plants of Winter Rye (Secale cereale L.)|Acta Bot. Neerl.16(3): 73-85|1967|10.1111/j.1438-8677.1967.tb00038.x
28828|T||Cooper,W.C., and W.H. Henry|Effect of Growth Regulators on the Coloring and Abscission of Citrus Fruit|Isr. J. Agric. Res.18(4): 161-174|1968|
28830|T||Huisinga,B.|Root-Induction in Avena Mesocotyls by Indole Acetic Acid|Acta Bot. Neerl.16(3): 123-124|1967|
28831|T||Leonard,O.A., T.W. Donaldson, and D.E. Bayer|Translocation of Labeled Assimilates into and out of Bean Leaves as Affected by 2,4-D and Benzyl Adenine|Bot. Gaz.129(4): 266-279|1968|10.1086/336444
28836|T||Hejnowicz,Z.|Studies on the Inhibitory Action of Auxin on Root Growth|Acta Soc. Bot. Pol.37(3): 451-460|1968|10.5586/asbp.1968.038
28841|T||Wheeler,A.W.|Effect of CCC and Glycine Betaine on Growth and Growth-Substance Content of Primary Leaves of Dwarf French Bean (Phaseolus vulgaris L.)|Ann. Appl. Biol.63:127-133|1969|10.1111/j.1744-7348.1969.tb05473.x
28842|T||Aramaki,K., and Y. Kuroiwa|Effect of Gibberellic Acid on Nucleic Acid Metabolism of Germinating Barley and Barley Endosperms|Report of the Research Laboratory of Kirin Brewery Co. Ltd.10:29-37|1967|
28843|T||Nekrasova,T.V.|Effect of Retardant CCC on Growth and Morphogenesis of Fruit Tree Saplings|Sov. Plant Physiol.16(2): 238-244|1969|
28844|T||Singh,K.K., G.S. Nijjar, and T.N. Sinha|Effect of Seed Treatment with Growth Regulators on the Growth of Peach Seedlings|J. Res. Punjab Agric. Univ.5(2): 203-211|1968|
28848|T||Solecka,M., H. Profic, and D.F. Millikan|Some Biochemical Effects in Apple Leaf Tissue Associated with the Use of Simazine and Amitrole|J. Am. Soc. Hortic. Sci.94:55-57|1969|10.21273/JASHS.94.1.55
28849|T||Anonymous|Casoron:  A New Weed Killer to Protect Woody Plants|Arnoldia29(4): 21-23|1969|
28853|T||Forsyth,F.R., A.D. Crowe, H.J. Lightfoot, and G.L. Brown|Effects of Harvest Date on the Condition After Storage of Mcintosh Apples Treated with Ethephon and Fenoprop|Can. J. Plant Sci.57:791-796|1977|10.4141/cjps77-115
28854|T||Looney,N.E., and D.F. Wood|Some Cluster Thinning and Gibberellic Acid Effects on Fruit Set, Berry Size, Vine Growth and Yield of de Chaunac Grapes|Can. J. Plant Sci.57:653-659|1977|10.4141/cjps77-096
28856|T||Singh,R.K., and K.P. Singh|Effect of Seed Treatment with Plant Growth Substances on Germination, Vegetative Growth and Yield of Okra (Abelmoschus esculentus L. Moench)|Proc.Bihar Acad.Agric.Sci.25(2): 24-27|1977|
28857|T||Khuspe,S.S., and S.D. Ugale|Effect of 60Co and Ethyl Methanesulphonate on Growth and Fruit Development of Capsicum annuum|J. Maharashtra Agric. Univ.2(1): 3-5|1977|
28858|T||Gill,H.S., M.S. Sidhu, and L.S. Brar|Chemical Weed Control in Potato (Solanum tuberosum L.)|J. Res. Punjab Agric. Univ.13(4): 341-346|1976|
28859|T||Hamill,A.S., P.B. Marriage, and G. Friesen|A Method for Assessing Herbicide Performance in Small Plot Experiments|Weed Sci.25(5): 386-389|1977|10.1017/S0043174500033713
28860|T||Das,R.N.|The Effect of Gibberellic Acid on Two Species of Microspora Thuret|J. Indian Bot. Soc.54(1/2): 58-62|1975|
28862|T||Mok,M.C., and D.W.S. Mok|Genotypic Responses to Auxins in Tissue Cultures of Phaseolus|Physiol. Plant. (Multiple Languages)40:261-264|1977|10.1111/j.1399-3054.1977.tb04069.x
28863|T||Leguay,J.J., and J. Guern|Quantitative Effects of 2,4-Dichlorophenoxyacetic Acid on Growth of Suspension-Cultured Acer pseudoplatanus Cells: II. Influence of 2,4-D Metabolism and Intracellular pH on the Control of Cell Division by Intracellular |Plant Physiol.60:265-270|1977|10.1104/pp.60.2.265
28864|T||Norman,J.C.|"Chemical Regulation of Growth, Flowering and Fruiting in ""Sugarloaf"" Pineapple"|Sci. Hortic.7:143-151|1977|10.1016/0304-4238(77)90054-1
28865|T||Kossuth,S.V., and R.M. Biggs|Fruit Removal Force, Cellulase and Ethylene Production in Release and Ethephon-Treated Oranges|J. Am. Soc. Hortic. Sci.102:609-612|1977|10.21273/JASHS.102.5.609
28866|T||Greenhalgh,W.J., G.L. Godley, and R. Menzies|Studies of Fruit Shape in Apples: Response to Gibberellin and Cytokinin Sprays|Aust. J. Exp. Agric. Anim. Husb.17(86): 505-509|1977|10.1071/EA9770505
28869|T||Gautam,D.R., R.P. Dhar, V.P. Bhutani, and H.S. Dhuria|Ethephon for Post-Harvest Degreening of Kagazi-Lime|Indian J. Agric. Sci.47:282-284|1977|
28870|T||Lulham,G., S.S. Ashtakala, and J.A. Lenoir|Metabolism and Translocation of 3-Amino-1,2,4-Triazole in Pinus pinea|Can. J. Bot.55(17): 2296-2305|1977|10.1139/b77-261
28871|T||Feung,C.S., R.H. Hamilton, and R.O. Mumma|Metabolism of 2,4-Dichlorophenoxyacetic Acid.  II.  Herbicidal Properties of Amino Acid Conjugates|J. Agric. Food Chem.25(4): 898-900|1977|10.1021/jf60212a013
28873|T||Gordon,L.K., A.I. Golubev, V.Y. Alekseeva, A.A. Bichurina, O.O. Chernysh, and L.A. Kashapova|Effect of Ascorbate on Respiration, Ultrastructure, and Permeability of Plant Tissues for Water Under Conditions of Inhibition of Oxidative Activity of the Endoplasmic Reticulum In Vivo|Sov. Plant Physiol.23(1): 85-88|1976|
28875|T||Pakianathan,S.W.|Some Factors Affecting Yield Response to Stimulation with 2-Chloroethylphosphonic Acid|J. Rubber Res. Inst. Malays.25:50-60|1977|
28878|T||Knypl,J.S., and K.M. Janas|Effect of 4,4-Dimethylmorpholinium Chloride and Allied Compounds on Growth of the Lettuce Hypocotyl|Acta Soc. Bot. Pol.46(1): 129-134|1977|10.5586/asbp.1977.010
28879|T||Church,R.M., and R.R. Williams|The Toxicity to Apple Pollen of Several Fungicides, as Demonstrated by In Vivo and In Vitro Techniques|J. Hortic. Sci.52(3): 429-436|1977|10.1080/00221589.1977.11514772
28880|T||Singh,R.D., R.P. Kuksal, and J.N. Seth|Effect of Ethrel and Ccc on Growth and Seed Production of Cauliflower|Indian J. Agric. Res.10:122-124|1976|
28881|T||Singh,R., and M.R. Sharma|Sex Modification in Papaya Treated with Ethephon 2-Chloroethylphosphonic Acid|Philipp. Agric.60:1-5|1976|
28885|T||Padfield,C.A.S.|Pre-harvest Ethephon Treatment, A Possible Control of Apple Scald|N. Z. J. Exp. Agric.5:183-184|1977|10.1080/03015521.1977.10425961
28886|T||Richards,D., and R.N. Rowe|Effects of Root Restriction, Root Pruning and 6-Benzylaminopurine on the Growth of Peach Seedlings|Ann. Bot.41(174): 729-740|1977|10.1093/oxfordjournals.aob.a085347
28887|T||Ellabban,H.M., and F.A. Menesy|Effect of Growth Regulators on Rooting of Duranta plumieri var. variegata, Hibiscus rosa-sinensis and Myoporum pictum|Sci. Biol. J.3(3): 307-314|1977|
28888|T||Graves,C.J., P. Adams, and G.W. Winsor|Some Effects of Indol-3-Ylacetic Acid on the Rates of Initiation and Development of Flower Buds of Chrysanthemum morifolium|Ann. Bot.41:747-753|1977|10.1093/oxfordjournals.aob.a085349
28890|T||Sakurai,N., D.J. Nevins, and Y. Masuda|Auxin- and Hydrogen Ion-Induced Cell Wall Loosening and Cell Extension in Avena Coleoptile Segments|Plant Cell Physiol.18:371-380|1977|10.1093/oxfordjournals.pcp.a075443
28891|T||Dagar,J.C., A.N. Rao, and V.P. Singh|Effects of Some Growth Regulators and Chemicals on Seed Germination of Parthenium hysterophorus Linn.|Geobios4(3): 87-88|1977|
28892|T||Haque,A., I. Weisgerber, and W. Klein|Absorption, Efflux, and Metabolism of the Herbicide (14C)Buturon as Affected by Plant Nutrition|J. Exp. Bot.28(103): 468-479|1977|10.1093/jxb/28.2.468
28893|T||Ellabban,H.M.|Growth and Chemical Changes in Pimpinella anisum After Treatment with CCC|Sci. Biol. J.3(3): 335-340|1977|
28894|T||Van Rensen,J.J.S., W. Van der Vet, and W.P.A. Van Vliet|Inhibition and Uncoupling of Electron Transport in Isolated Chloroplasts by the Herbicide 4,6-Dinitro-O-Cresol|Photochem. Photobiol.25:579-584|1977|10.1111/j.1751-1097.1977.tb09131.x
28896|T||Travis,R.L., and W.G. Woods|Studies on the Mechanism of Action of Dinitramine: Effect on Soybean Root Plasma Membrane|Plant Physiol.60:54-57|1977|10.1104/pp.60.1.54
28897|T||Seidlova,F., and J. Krekule|Effects of Kinetin on Growth of the Apical Meristem and Floral Differentiation in Chenopodium rubrum L.|Ann. Bot.41(174): 755-762|1977|10.1093/oxfordjournals.aob.a085350
28898|T||Wheeler,A.W.|Auxin-Like Growth Activity of Phenylacetonitrile|Ann. Bot.41(174): 867-872|1977|10.1093/oxfordjournals.aob.a085363
28899|T||Lewis,J.A., G.C. Papavizas, and N.R. O'Neill|Effect of Seed Immersion in Organic Solvents on Germinability|J. Agric. Sci.92(3): 563-570|1979|10.1017/S0021859600053806
28901|T||Americanos,P.G.|Chemical Weed Control in Vineyards|Cyprus Agric. Res. Inst. Tech. Bull.25:1-20|1978|
28903|T||Karmoker,J.L., and R.F.M. Van Steveninck|The Effect of Abscisic Acid on the Uptake and Distribution of Ions in Intact Seedlings of Phaseolus vulgaris cv. Redland Pioneer|Physiol. Plant. (Multiple Languages)45:453-459|1979|10.1111/j.1399-3054.1979.tb02613.x
28905|T||Kamada,H., and H. Harada|Influence of Several Growth Regulators and Amino Acids on In Vitro Organogenesis of Torenia fournieri Lind.|J. Exp. Bot.30(114): 27-36|1979|10.1093/jxb/30.1.27
28906|T||Umbeck,P.F., and K. Norstog|Effects of Abscisic Acid and Ammonium Ion on Morphogenesis of Cultured Barley Embryos|Bull. Torrey Bot. Club106(2): 110-116|1979|10.2307/2484285
28907|T||Wrischer,M., and K. Botka|The Effect of Isopropyl-N-Phenylcarbamate on the Structure and Photosynthetic Activity of Etiochloroplasts|Acta Bot. Croat. (Multiple Languages)37:53-60|1978|
28912|T||Bhatnagar,V.K., and A.K. Bisaria|Influence of Gibberellic Acid and Ethephon on Soluble Sugar and Protein in Seedlng of Okra|Bangladesh J. Bot.7:37-39|1978|
28914|T||Ratajczak,L., W. Ratajczak, and A.S. Hoffmannowa|The Effect of Hormone Treatment of the Seeds on Growth and Development of Some Leguminosae: I. Hastening of Germination and Lupine, Broadbean and Pea Seedling Development by Gibberellic Acid|Bull. Soc. Amis Sci. Lett. Poznan Ser. D Sci. Biol.18:27-34|1978|
28915|T||Ratajczak,L., W. Ratajczak, B. Maszner, and B. Pawlowska|The Effect of Hormone Treatment of the Seeds on Growth and Development of Some Leguminosae: II. Genus Differences in Chlorophyll Content Changes Under the Effect of Gibberellic Acid|Bull. Soc. Amis Sci. Lett. Poznan Ser. D Sci. Biol.18:35-38|1978|
28916|T||Jakubek,M., and F. Mlodzianowski|Influence of Kinetin on Storage Protein Mobilization and Ultrastructure of Plastids in Excised Lupine Cotyledons Grown in Darkness|Acta Soc. Bot. Pol.47(4): 319-324|1978|10.5586/asbp.1978.028
28917|T||Romanko,E.G., S.Y. Selivankina, and V.A. Kuroedov|Effect of Cytokinin on RNA Synthesis and Activity of Chromatin-Bound RNA-Polymerase in Cut Barley Leaves|Sov. Plant Physiol.25(6): 948-953|1978|
28921|T||Brezeanu,A., D.G. Davis, and R.H. Shimabukuro|Ultrastructural Modifications of Methyl 2-(4-(2,4-Dichlorophenoxy)Phenoxyl)Propanoate on Triticum aestivum L. and Avena fatua L. Leaf Cells|Trav.Mus.Natl.Hist.Nat. (Grigore Antipa)19:25-26|1978|
28922|T||Keul,G., and V. Soran|The Effect of Prometryne and Atrazine on Nuclear DNA Synthesis|Trav.Mus.Natl.Hist.Nat. (Grigore Antipa)19:39-41|1978|
28923|T||Bokarev,K.S., L.D. Prusakova, S.A. Murav'Ev, and S.I. Chizhova|Use of Growth Regulators to Increase Resistance of Spring Barley to Lodging|Sov. Plant Physiol.24(5): 872-877|1977|
28928|T||Garcia-Luis,A., and J.L. Guardiola|Gibberellic Acid and Starch Breakdown in Pea Cotyledons|Ann. Bot.42(178): 337-344|1978|10.1093/oxfordjournals.aob.a085465
28929|T||Purohit,A.N., H.W.J. Ragetli, and E.B. Tregunna|Effect of Kinetin on Cellular Ultrastructure in Nicotiana glutinosa Leaf Disks During Senescence|Indian J. Plant Physiol.20:105-114|1977|
28930|T||Ogawa,M., T. Matsui, and J. Tobitsuka|Synergistic Interaction of Gibberellic Acid and Triazinone Derivatives in the Promotion of Rice Shoot Growth|Phytochemistry17:343-350|1978|10.1016/S0031-9422(00)89313-9
28932|T||Olien,W.C., and M.J. Bukovac|The Effect of Temperature on Rate of Ethylene Evolution from Ethephon and from Ethephon-Treated Leaves of Sour Cherry|J. Am. Soc. Hortic. Sci.103:199-202|1978|10.21273/JASHS.103.2.199
28933|T||Byers,R.E.|Chemical Thinning of Spur 'Golden Delicious' and 'Starkrimson Delicious' with Sevin and Vydate|Hortscience13(1): 59-61|1978|10.21273/HORTSCI.13.1.59
28934|T||Singh,V.P., and L.P. Mall|Mode of Action of GA3 on Rooting and Sprouting of Buds on Stem Cutting of Lagerstroemia indica Linnaeus|Biologia (Bratisl.)22(2): 283-286|1976|
28939|T||Nandi,S., G. Fridborg, and T. Eriksson|Effects of 6-(3-Methyl-2-Buten-1-Ylamino)-Purine and Alpha-Naphthaleneacetic Acid on Root Formation and Cytology of Root Tips and Callus in Tissue Cultures of A|Hereditas85:57-61|1977|10.1111/j.1601-5223.1977.tb00949.x
28940|T||Setia,R.C., and J.J. Shah|Effect of Growth Hormones on the Gum-Resin Canals in Commiphora mukul Engl.|Flora (Multiple Languages)166(2): 93-96|1977|10.1016/S0367-2530(17)32120-5
28942|T||Lado,P., F. Rasi-Caldogno, and R. Colombo|Effect of Cycloheximide on IAA- or FC-Induced Cell Enlargement in Pea Internode Segments|Plant Sci. Lett.9:93-101|1977|10.1016/0304-4211(77)90085-2
28944|T||Tottman,D.R.|A Comparison of the Tolerance by Winter Wheat of Herbicide Mixtures Containing Dicamba and 2,3,6-TBA, or Ioxynil|Weed Res. (Multiple Languages)17:273-282|1977|10.1111/j.1365-3180.1977.tb00478.x
28945|T||Saimbhi,M.S., J.S. Kanwar, and K.S. Nandpuri|Hastening of Tomato Ripening with Foliar Sprays of 2-Chloroethylphosphonic Acid|J. Res. Punjab Agric. Univ.13:286-289|1976|
28947|T||Parups,E.V., and W.E. Cordukes|Growth of Turfgrasses As Affected by Atrinal and Embark|Hortscience12(3): 258-259|1977|10.21273/HORTSCI.12.3.258
28948|T||Tjia,B., S. Johanson, and J. Buxton|Chemical Pruning of Chrysanthemums with a Surface Active Agent|Hortscience12(3): 259-261|1977|10.21273/HORTSCI.12.3.259
28950|A||Gressel,J., and N. Cohen|Effects of Dikegulac, A New Growth Regulator, on RNA Synthesis in Spirodela|Plant Cell Physiol.18:255-259|1977|
28951|T||Nakamura,T., M. Kikuta, M. Watanabe, and N. Takahashi|Effect of Dihydroconiferyl Alcohol on Gibberellic Acid-Induced Hook Elongation in Decotylized Pea Seedlings|Plant Cell Physiol.18:277-282|1977|
28953|T||Edwards,K.L., and T.K. Scott|Rapid-Growth Responses of Corn Root Segments: Effect of Auxin on Elongation|Planta (Multiple Languages)135:1-5|1977|10.1007/BF00387967
28956|T||Sharma,Y.P., and V.K. Vatsa|Effects of Indole-3-Acetic Acid and Morphactin on the Seed Germination and Seedling Growth of Phaseolus aureus Roxb|Comp. Physiol. Ecol.1(4): 159-161|1976|
28957|T|OECDG|Reynolds,T.|Comparative Effects of Aliphatic Compounds on Inhibition of Lettuce Fruit Germination|Ann. Bot.41:637-648|1977|10.1093/oxfordjournals.aob.a085333
28958|T||Prakash,J., and S. Babber|Effect of Pre-Emergence Application of Chlorbromuron on the Anatomy of Pea Roots|Indian J. Agric. Sci.44(6): 374-375|1974|
28960|T||Clowes,M.S.J.|The Effects of Ethrel on Ripening Coffea arabica L. Fruits at Different Stages of Maturity|Rhod. J. Agric. Res.15:79-88|1977|
28961|T||Rehm,S., and R. El Masry|The Effects of Growth Regulators and Herbicides on Purple Nutsedge (Cyperus rotundus L.). III. The Combined Effect of Morphactin CME 73170P and Dicamba|Z. Acker- Pflanzenbau. (Multiple Languages)144:215-221|1977|
28962|T||Adisesh,C.R., and S.M. Still|Defoliating Nursery Stock with Combinations of Ethephon, Endothall and Cycloheximide|Hortscience12(6): 566-568|1977|10.21273/HORTSCI.12.6.566
28963|T||Bakale,V.L., and V.R. Dnyansagar|Effect of Weedicides on the Anatomy of Xanthium strumarium Linn|J. Indian Bot. Soc.56:116-120|1977|
28964|T||Gaudiel,R., and W.H. Vanden Born|Picloram Translocation and Redistribution in Soybean Plants Following Root Uptake|Pestic. Biochem. Physiol.11:129-134|1979|10.1016/0048-3575(79)90053-1
28965|T||Ziogas,B.N., and S.G. Georgeopoulos|The Effect of Carboxin and of Thenoyltrifluoroacetone on Cyanide-Sensitive and Cyanide-Resistant Respiration of Ustilago maydis Mitochondria|Pestic. Biochem. Physiol.11:208-217|1979|10.1016/0048-3575(79)90060-9
28967|T||Gamburg,K.Z., L.A. Leonova, and P.M. Dya|Effect of the Antiauxin 2-Chlorophenoxyisobutyric Acid on Content of Chlorogenic Acid and Activity of Phenylalanine Ammonia-Lyase in a Tobacco Tissue Suspension Culture|Sov. Plant Physiol.25(6): 1009-1012|1978|
28969|T||Minato,T., Y. Kikuta, and Y. Okazawa|Effect of Ethylene on Sprout Growth and Endogenous Growth Substances of Potato Plants|J. Fac. Agric. Hokkaido Univ.59:239-248|1979|
28970|T||Kohli,R.K., and S. Sawhney|Promotory Effect of GA13 on Flowering of Amaranthus - a Short Day Plant|Biol. Plant. (Praha)21(3): 206-213|1979|10.1007/BF02884570
28972|T||Kapur,A., and C.P. Malik|Effect of Metabolic Inhibitors on Pollen Germination and Pollen Tube Growth of Petunia alba|Plant Sci. Lett.8:26-27|1976|
28973|T||Skoog,H.A.|Chemical Control of Weeds in Burley Tobacco Plant Beds|Tenn. Agric. Exp. Stn. Bull.346:2-23|1962|
28974|T||Gohlke,A.F., and N.E. Tolbert|Effect of 2-Chloroethyl Trimethylammonium Chloride on Phosphate Absorption and Translocation|Plant Physiol.37(17): 12-|1962|
28980|T||Beevers,L., and R.H. Hageman|Effects of 2,4-D Application on Nitrate Metabolism in Higher Plants|Plant Physiol.37:23-24|1962|
28981|T||Kabarity,A., and A. Nahas|"Induction of Polyploidy and C-Tumors After Treating Allium cepa Root Tips with the Herbicide ""Treflan"""|Biol. Plant. (Praha)21:253-258|1979|10.1007/BF02902206
28983|T||Afifi,A.F., and A.E. Dowidar|Trifluralin Effect on Pisum sativum and Rhizobium Leguminosarum Relationship|Zabl. Bakt. II Abt.133:394-399|1978|
28984|T||Pfister,K., S.R. Radosevich, and C.J. Arntzen|Modification of Herbicide Binding to Photosystem II in Two Biotypes of Senecio vulgaris L.|Plant Physiol.64:995-999|1979|10.1104/pp.64.6.995
28986|T||Bianchi,A., and G. Laudi|Studies on the Physiology of Abscission: Effect of Treatments with Chlorfluorenol-Methyl, a Morphactin|Phyton (Horn) (Multiple Languages)18(3/4): 165-172|1978|
28987|T||Cornejo-Martin,M.J., A.M. Mingo-Castel, and E. Primo-Millo|Organ Redifferentiation in Rice Callus: Effects of C2H4, CO2 and Cytokinins|Z. Pflanzenphysiol. (Multiple Languages)94:117-123|1979|10.1016/S0044-328X(79)80125-7
28988|T||Tan,H.M., J. Sebanek, and S. Klicova|The Role of Gibberellins and Cytokinins in the Growth Correlative Effect of Cotyledons in Flax and Pea|Biol. Plant. (Praha)21(5): 376-382|1979|10.1007/BF02878237
28993|T||Bongale,U.D.|Effect of IAA, Gibberellic Acid and Thiamine on the Growth of Hapalosiphon welwitschii|Beitr. Biol. Pflanz. (Non-English)54:311-314|1978|
28995|T||Brown,B.T., C. Foster, J.N. Phillips, and B.M. Rattigan|The Indirect Role of 2,4-D in the Maintenance of Apical Dominance in Decapitated Sunflower Seedlings (Helianthus annuus L.)|Planta (Multiple Languages)146:475-480|1979|10.1007/BF00380863
28996|T||Kochhar,S., V.K. Kochhar, and S.D. Khanduja|Changes in the Pattern of Isoperoxidases During Maturation of Grape Berries cv. Gulabi as Affected by Ethephon (2-Chloroethyl) Phosphonic Acid|Am. J. Enol. Vitic.30:275-277|1979|10.5344/ajev.1979.30.4.275
28997|T||Dhawan,A.K., D.M. Paton, and R.R. Willing|Occurrence and Bioassay Responses of G. A Plant Growth Regulator in Eucalyptus and Other Myrtaceae|Planta (Multiple Languages)146:419-422|1979|10.1007/BF00380855
28998|T||Ogihara,Y.|Tissue Culture in Haworthia: II. Effects of Three Auxins and Kinetin on Greening and Redifferentiation of Calluses|Bot. Mag. Tokyo92:163-171|1979|10.1007/BF02497928
28999|T||Gangadhara,M., T.B. Rao, J.A. Inamdar, and R.M. Patel|Effect of Growth Regulators on the Structure of Cotyledonary and Hypocotyledonary Stomata of Gossypium herbaceum var. Digvijay|Phyton (Horn) (Multiple Languages)18(1/2): 9-28|1977|
29000|T||Schopfer,P., D. Bajracharya, and C. Plachy|Control of Seed Germination by Abscisic Acid. I. Time Course of Action in Sinapis alba L.|Plant Physiol.64:822-827|1979|10.1104/pp.64.5.822
29001|T||Oppenoorth,J.M.|Influence of Cycloheximide and Actinomycin D on Initiation and Early Development of Adventitious Roots|Physiol. Plant. (Multiple Languages)47:134-138|1979|10.1111/j.1399-3054.1979.tb03204.x
29006|T||Murthy,G.S.R., and J.A. Inamdar|Effect of Colchicine and Morphactin on the Cotyledonary Venation of Lycopersicon esculentum var. angurlata|Phyton (Horn) (Multiple Languages)19(3/4): 169-173|1979|
29008|T||Dale,J.E., and J.M. Chandler|Herbicide-Crop Rotation for Johnsongrass (Sorghum halepense) Control|Weed Sci.27(5): 479-485|1979|10.1017/S0043174500044441
29009|T||Bisaria,A.K., G.R. Rastogi, V.K. Bhatnagar, and R. Narang|Effect of F, W-450 on Growth, Pollen Germination, Yield and Fruit-Quality in Lycopersicon esculentum Mill.|Pak. J. Bot.11(1): 73-77|1979|
29010|T||Stahlman,P.W., and W.M. Phillips|Inhibition of Glyphosate Phytotoxicity|Weed Sci.27(5): 575-577|1979|10.1017/S0043174500044647
29011|T||Atwood,S.S.|Colchicine-Induced Polyloids in White Clover|Agron. J.36:173-174|1944|10.2134/agronj1944.00021962003600020011x
29012|T||Anonymous|Breaking the Dormancy of Potatoes|J. Counc. Sci. Ind. Res.15:253|1942|
29015|T||Bernstrom,P.|Polyploidy Induced by Colchicine in Lamium|Bot. Not.1941:407-408|1941|
29017|T||Batjer,L.P.|Temperature in Relation to Effectiveness of Preharvest Drop Sprays on Apples|Proc. Am. Soc. Hortic. Sci.40:45-48|1942|
29018|T||Hamner,C.L., and P.C. Marth|Effects of Growth-Regulating Substances on Propagation of Goldenrod|Bot. Gaz.105:182-192|1943|10.1086/335206
29020|T||Sweeney,B.M.|The Effect of Auxin on Protoplasmic Streaming in Root Hairs of Avena|Am. J. Bot.31:78-80|1944|10.1002/j.1537-2197.1944.tb08004.x
29021|T||Zimmerman,P.W.|The Formative Influences and Comparative Effectiveness of Various Plant Hormone-Like Compounds|Torreya43:98-115|1943|
29024|T||Stephenson,R.B.|A Preliminary Investigation of the Effects of Naphthalene Acetic Acid upon the Growth and Composition of Oats|Trans. Ill. State Acad. Sci.35(2): 83-84|1942|
29025|T||Stoutemyer,V.T.|The Influence of Changes in Molecular Configurations of Several Naphthyl Growth Substances on the Rooting Responses of Cuttings|Proc. Am. Soc. Hortic. Sci.44:529-532|1944|
29026|T||Cox,L.G., H.M. Munger, and E.A. Smith|A Germination Inhibitor in the Seed Coats of Certain Varieties of Cabbage|Plant Physiol.20(2): 289-294|1945|10.1104/pp.20.2.289
29027|T||Rao,K.R., A.T. Sanyal, and J. Datta|Colchicine Treatment of Jute|Sci. Cult.10:86-89|1944|
29028|T||Henderson,J.H.M., and J.F. Stauffer|The Influence of Some Respiratory Inhibitors and Intermediates on Growth and Respiration of Excised Tomato Roots|Am. J. Bot.31:528-535|1944|10.1002/j.1537-2197.1944.tb08066.x
29029|T||Lewis,F.H.|Effect of Spray Injury on Pre-Harvest Drop of McIntosh Apples|Phytopathology34:1015-1019|1944|
29030|T||McClellan,W.D., and N.W. Stuart|The Use of Fungicides and Growth Substances in the Control of Fusarium Scale Rot of Lilies|Phytopathology34:966-975|1944|
29031|T||Breslaretz,L.|Induced Double Flowers in Stocks|Dokl. Akad. Nauk SSSR (Non-English)40:206-207|1943|
29034|T||Barber,G.W.|Effect of Mineral Oil Containing an Insecticide on the Tips of Sweet Corn Ears|J. Econ. Entomol.37(6): 730-733|1944|10.1093/jee/37.6.730
29037|T||Murneek,A.E., S.H. Wittwer, and D.D. Hemphill|Hormone Sprays on Snap Beans|Mark. Grow. J.73:197,215,218,221|1944|
29039|T||Trelease,S.F., and S.S. Greenfield|Influence of Plant Extracts, Proteins, and Amino Acids on the Accumulation of Selenium in Plants|Am. J. Bot.31:630-638|1944|10.1002/j.1537-2197.1944.tb12174.x
29041|T||Yeager,A.F., and W.P. Haubrich|A Comparison of the Effect of Colchicine Applications on Plants and Seeds|Proc. Am. Soc. Hortic. Sci.45:251-254|1944|
29042|T||Lachman,W.H.|The Use of Oil Sprays as Selective Herbicides for Carrots and Parsnips|Proc. Am. Soc. Hortic. Sci.45:445-448|1944|
29043|T||Gardner,F.E., and W.C. Cooper|Effectiveness of Growth Substances in Delaying Abscission of Coleus Petioles|Bot. Gaz.105:80-89|1943|10.1086/335193
29044|T||Hitchcock,A.E., and P.W. Zimmerman|Comparative Root-Inducing Activity of Phenoxy Acids|Proc. Am. Soc. Hortic. Sci.45:187-189|1944|
29046|T||Chen,S.L., S.M. Shen, and P.S. Tang|Studies on Colchicine-Induced Autotetraploid Barley.  I.  and II.  Cytological and Morphological Observations|Am. J. Bot.32(3): 103-106|1945|
29048|T||Beachell,H.M., and J.W. Jones|Tetraploids Induced in Rice by Temperature and Colchicine Treatments|Agron. J.37(3): 165-175|1945|10.2134/agronj1945.00021962003700030001x
29049|T||Bose,D.M., B.K. Dutt, and A.G. Thakurta|Auxins as Respiratory Catalysts or Co-Enzymes|Sci. Cult.10:309-311|1945|
29051|T||Chen,S.L., and P.S. Tang|Studies on Colchicine-Induced Autotetraploid Barley.  III.  Physiological Studies|Am. J. Bot.32(4): 177-179|1945|10.1002/j.1537-2197.1945.tb05104.x
29053|T||Newcomer,E.H.|Colchicine as a Growth Stimulator|Science101(2635): 677-678|1945|10.1126/science.101.2635.677
29054|T||Warmke,H.E.|Experimental Polyploidy and Rubber Content in Taraxacum Kok-Saghyz|Bot. Gaz.106:316-324|1945|10.1086/335301
29055|T||Zhebrak,A.R.|Production of Amphidiploids of Triticum orientale x Triticum timopheevi by Colchicine Treatment|Dokl. Akad. Nauk SSSR (Non-English)42:352-354|1944|
29056|T||Allen,F.W., and A.E. Davey|Hormone Sprays and Their Effect upon the Keeping Quality of Bartlett Pears|Calif. Agric. Exp. Stn. Bull.692:1-45|1945|
29059|T||Fardon,J.C.,Sr., M.T. Maynard, and M.M.A. McDowell|A Modified Helianthus Test:  III. the Effect of Different Concentrations of Indole-3-Acetic Acid on Cell Elongation in the Hypocotyl of Helianthus annuus Seedlings|Growth9:217-227|1945|
29060|T||Loo,T.L.|A Comparison of the Effect on Plant Growth of Micro-elements and of Indole Acetic Acid and Colchicine|Ann. Bot.8:357-362|1944|10.1093/oxfordjournals.aob.a088571
29061|T||Prokofiev,A.A.|On the Mechanism of the Action of Heteroauxin|C. R. (Dokl.) Acad. Sci. URSS42(5): 233-237|1944|
29067|T||Jones,R.F., and H.G. Baker|Effect of Adrenaline Solutions on Oat Roots|Nature155(3940): 544-|1945|10.1038/155544a0
29068|T||Evenari,M., and E. Konis|The Effect of Hetero-Auxin on Root Formation by Cuttings and on Grafting. Part I|Palest. J. Bot. Jerus. Ser.1:13-26|1938|
29069|T||Evanari,M., E. Konis, and D. Zirkin|The Effect of Hetero-Auxin on Root Formation by Cuttings and on Grafting. Part II|Palestini J. Botan.1:125-130|1938|
29073|T||Tukey,H.B.|New Approach to Weed Control|Am. Nurserym.81:9-10|1945|
29076|T||Miller,E.J., A.L. Neal, and V.R. Gardner|Emulsions for Horticultural Sprays|Q. Bull. Mich. Agric. Exp. Stn.27(3): 338-351|1945|
29077|T||Arrillaga,N.G., and M.A. Jones|The Use of Some Unsaturated Compounds to Induce Abscission|Am. Perfum. Essent. Oil Rev.46(9): 49-|1944|
29079|T||Larsen,P.|3-Indole Acetaldehyde as a Growth Hormone in Higher Plants|Dansk Botanisk Arkiv11(9): 1-132|1944|
29080|T||Swarbrick,T.|The Use of Growth-Promoting Substances as a Means of Inducing Fruit Set and Development in the Tomato|Annual Report Long Ashton Agricultural Horticultural Experimental Research Station, University of Bristol, Bristol, UK:36-48|1944|
29081|T||Alban,E.K.|Effect of Growth Promoting Chemicals when Used in Potato Seed Treatments|Proc. Annu. Meet. Ohio Veg. Potato Grow. Assoc.30:162-174|1945|
29082|T||Maki,T.E., H. Marshall, and C.E. Ostrom|Effects of Naphthaleneacetic Acid Sprays on the Development of Drought Resistance of Pine Seedlings|Bot. Gaz.107:297-312|1946|10.1086/335354
29084|T||Baines,R.C., W.G. Marshall, and B.F. Branstetter|Hastening the Sprouting of Netted Gem and White Rose Potatoes by Treatment with Ethylene Chlorhydrin Vapor|Calif. Dep. Agric. Bull34:124-133|1945|
29088|T||Daines,R.H., and J.C. Campbell|Potato Sprouting Inhibited by the Use of alpha-Naphthaleneacetic Methyl Ester|Am. Potato J.23(3): 88-91|1946|10.1007/BF02883587
29089|T||Swarbrick,T.|The Use of Indole-Butyric Acid and alpha-Naphthalene-Acetic Acid to Facilitate the Rooting of Yellow Pershore Plum Stocks|In: Annu.Rep.Agric.Hortic.Exp.Stn.Univ.Bristol:48-49|1945|
29091|T||Martin,J.P.|The Hormone Weed Killer 2,4-D|Calif. Citrogr.31:248,264 -|1946|
29092|T||Cooper,W.C.|The Concentrated-Solution-Dip Method of Treating Cuttings with Growth Substances|Proc. Am. Soc. Hortic. Sci.44:533-541|1944|
29096|T||Gupta,V.K., and K. Singh|Factors Affecting the Development of Collar Rot of Apple|Gartenbauwissenschaft (Multiple Languages)44:29-32|1979|
29097|T||Young,L.W., and N.D. Camper|Trifluralin Effects on Tobacco Callus Tissue:  Mitosis and Selected Metabolic Effects|Pestic. Biochem. Physiol.12:117-123|1979|10.1016/0048-3575(79)90075-0
29099|T||King,R.W., S.O. Salminen, R.D. Hill, and T.J.V. Higgins|Abscisic-Acid and Gibberellin Action in Developing Kernels of Triticale (cv. 6A190)|Planta (Multiple Languages)146:249-255|1979|10.1007/BF00387794
29104|T||Thomas,D.D.S., and T. Murashige|Volatile Emissions of Plant Tissue Cultures:  2.  Effects of the Auxin 2,4-D on Production of Volatiles in Callus Cultures|In Vitro (Rockville)15:659-663|1979|
29105|T||Khan,M.I., and M.M. Godeh|Isolation and Characterization of Growth Inhibitors in the Leaves of Mesembryanthemum Species|Pak. J. Bot.11(1): 79-84|1979|
29106|T||Klepper,L.A.|Effects of Certain Herbicides and Their Combinations on Nitrate and Nitrite Reduction|Plant Physiol.64(2): 273-275|1979|10.1104/pp.64.2.273
29107|T||Purohit,S.S.|Studies with a New Growth Regulator: Dikegulac: I. Effects on Seed Germination, Seedling Growth and Chlorophyll Biosynthesis|Comp. Physiol. Ecol.4(4): 264-266|1979|
29108|T||Kerbs,S., R. Hutton, and M. Lancaster|Effects of Deferoxamine Methanesulfonate on Trichophyton mentagrophytes|Sabouraudia17:241-250|1979|10.1080/00362177985380361
29109|T||Evans,L.S.|Developmental Aspects of Roots of Pisum sativum Influenced by the G2 Factor from Cotyledons|Am. J. Bot.66(8): 880-886|1979|10.1002/j.1537-2197.1979.tb06296.x
29114|T||Smith,J.W.M.|Triforine Sensitivity in Lettuce:  A Potentially Useful Genetic Marker|Euphytica 28(2): 351-359|1979|10.1007/BF00056593
29116|T||Fazal Farook,S.A., and J. Nizam|Mutagenic Sensitivity of Base Specific Chemicals in Chick-Pea|Indian J. Bot.2(1): 12-16|1979|
29117|T||Mamun,A.A., and M. Shimizu|Studies on a Herbicide, Benthiocarb: 2. Effects of Different Amounts of Benthiocarb Treated at Different Growth Stages on the Morphogenesis of Barnyardgrass|Jpn. J. Crop Sci. (Multiple Languages)47:573-580|1978|10.1626/jcs.47.573
29121|T||Joshi,R.K., S.D. Mishra, and B.K. Gaur|Release of Dormancy in Trombay Groundnut Seeds by Plant-Growth Regulators|Acta Bot. Indica6:7-15|1978|
29128|T||Emsweller,S.L.|The Utilization of Induced Polyploidy in Easter Lily Breeding|Proc. Am. Soc. Hortic. Sci.49:378-384|1947|
29129|T||Hildebrand,E.M.|Chemical Control of Weeds|Proc. Am. Soc. Hortic. Sci.50:383-391|1947|
29131|T||Marth,P.C., V.K. Toole, and E.H. Toole|Influence of 2,4-D Spray Applications on Vegetative Growth and Seed Development in Timothy|J. Am. Soc. Agron.39:780-783|1947|10.2134/agronj1947.00021962003900090005x
29132|T||Warren,G.F., K.P. Buchholtz, and T.P. Hernandez|Preliminary Studies on the Effects of Soil Applications of 2,4-D on Crop and Weed Growth|Proc. Am. Soc. Hortic. Sci.50:373-382|1947|
29133|T||Kenworthy,A.L.|A Spray Mixture Useful to Thin Apples After Bloom|Proc. Am. Soc. Hortic. Sci.49:35-36|1947|
29135|T||Heinze,P.H.|The Use of Growth-Regulating Substances in the Propagation of Cabbage from Cuttings|Proc. Am. Soc. Hortic. Sci.49:309-314|1947|
29136|T||Dorman,K.W.|Breeding Better Southern Pines for the Future|South. Lumberman175:147-150|1947|
29137|T||Jorgensen,C.J.C., and C.L. Hamner|Weed Control in Soils with 2,4-Dichlorophenoxyacetic Acid and Related Compounds and Their Residual Effects Under Varying Environmental Conditions|Bot. Gaz.109:324-333|1948|10.1086/335483
29138|T||Minshall,W.H.|Eradication of Poison Ivy (Rhus radicans L.) III. Further Preliminary Results with 2,4-Dichlorophenoxyacetic Acid Formulations, Ammonium Sulfamate, and Sodium Chlorate|Sci. Agric. (Piracicaba, Braz. )28:140-141|1948|
29140|T||Hamner,C.L., H.B. Tukey, and R.F. Carlson|Application of 2,4-Dichlorophenoxyacetic Acid to Soil as a Pre-Emergence Spray to Prevent Lodging and to Control Weeds in Sweet Corn|Mich. Q. Bull.30(2): 194-200|1947|
29141|T||Wester,R.E., and P.C. Marth|Effect of Some Growth Regulators on Yield of Bush Lima Beans|Proc. Am. Soc. Hortic. Sci.49:315-319|1947|
29142|T||Aberg,B., and T. Denward|Abnormal Spikes in Barley Caused by Hormone Derivatives|Lantbrukshogsk. Ann.14:366-372|1947|
29146|T||Van Dillewijn,C.|Some Technical Remarks About the Colchicine Treatment of Gramineae|Proc. Ned. Akad. Wet.44:1118-1120|1941|
29148|T||Lattin,G.D.|Spontane und Induzierte Polyploidie Bie Reben|Zuchter, Z. Theor. Angew. Genet.12:225-231|1940|
29149|T||Stelzener,G.|Colchizininduzierte Polyploidie Bei Solanum Tuberosum l|Zuchter, Z. Theor. Angew. Genet.13:121-128|1941|
29151|T||Anderson,J.C., and D.E. Wolf|Pre-Emergence Control of Weeds in Corn with 2,4-D|Agron. J.40:453-458|1948|10.2134/agronj1948.00021962004000050009x
29153|T||Mitchell,A.E., C.L. Hamner, and W. Toenjes|Use of 2-Methyl-4-Chlorophenoxyacetic Acid as a Preharvest Spray to Prevent Drop of McIntosh Apples|Mich. Agric. Exp. Stn. Q. Bull.30:113-117|1947|
29154|T||Murneek,A.E., and A.D. Hibbard|"Investigations on Thinning of Peaches by Means of Caustic and ""Hormone"" Sprays"|Proc. Am. Soc. Hortic. Sci.50:206-208|1947|
29155|T||Stewart,W.S., and E.R. Parker|Sprays to Reduce Fruit Drop from Grapefruit Trees|Citrograph33:332,351 - 332,353|1948|
29156|T||Havis,J.R., and R.D. Sweet|The Value of Certain Aromatic Naphthas and Growth Regulators as Soil Treatments for Weed Control in Vegetables|Proc. Am. Soc. Hortic. Sci.49:325-331|1947|
29160|T||Bradley,R.H., and N.K. Ellis|The Effects of Different Rates of Application of 2,4-D on the Yield of Potatoes|Am. Potato J.25:87-89|1948|10.1007/BF02885300
29161|T||Felber,I.M., and E.H. Lucas|Evaluation of Growth Responses Resulting from Internal and Surface Applications of 2,4-D to Bean Plants|Mich. Q. Bull.30(2): 170-179|1947|
29162|T||Gray,R., and J. Bonner|Structure Determination and Synthesis of a Plant Growth Inhibitor, 3-Acetyl-6-Methoxybenzaldehyde, Found in the Leaves of Encelia farinosa|J. Am. Chem. Soc.70:1249-1253|1948|10.1021/ja01183a114
29163|T||Berger,C.A., and E.R. Witkus|Cytological Effects of alpha-Naphthalene Acetic Acid|J. Hered.39:117-120|1948|10.1093/oxfordjournals.jhered.a105815
29165|T||Holmes,A.D., C.T. Smith, J.W. Kuzmeski, and W.H. Lachman|Some Results of Hormone Treatment of Field-Grown Tomatoes|Food Technol.2:252-255|1948|
29170|T||Klein,R.M., and G.K.K. Link|Influence of 2,4-Dichlorophenoxyacetic Acid on Initiation and Development of Hypocotyledonary Buds of Decapitated Flax|Bot. Gaz.109:494-501|1948|10.1086/335498
29172|T||Meyer,J.R.|Modification of Mitosis by Chemicals|Science108:188-|1938|10.1126/science.108.2799.188.a
29173|T||Luckwill,L.C.|Stored Potatoes Need not Sprout|Grower29:25-26|1948|
29175|T||Hance,F.E.|Weed Control: A Liquid Concentrate of the Isopropyl Ester of 2,4-D Miscible with Oil or Water in Any Proportion|Science108:303-|1948|10.1126/science.108.2803.303
29176|T||Akamine,E.K.|Effect of 2,4-Dichlorophenoxyacetic Acid on Root Development in Bean Cotyledons|Science108:209-|1948|10.1126/science.108.2800.209
29177|T||Audus,L.J., and J.H. Quastel|The Growth-Inhibitory Activity of the Sulphonamides and Plant Growth-Substances, and the Effects Thereon of para-Aminobenzoic Acid|Ann. Bot.12:27-34|1948|10.1093/oxfordjournals.aob.a083171
29185|T||Cortwijnb,J.|Aethyleen als Stimulans bij het Ausineverbruik bij Erwten en Tomaten|K. Ned. Akad. Wet. Verh. Afd. Natuurkd. Tweede Reeks45:999-1002|1942|
29186|T||Mardanov,A.A., M.G. Abutalybov, and Y.K. Akhmedov|Effects of Substances of a Cytokinin Nature on Growth of Plants and Accumulation of Nutritive Elements in Them|Sov. Plant Physiol.22(5): 909-912|1975|
29187|T||Rybin,L.A.|Effect of Nicotinic Acid on the Light-Dependent Electroresponse of Corn Leaves|Sov. Plant Physiol.22(5): 815-820|1975|
29188|T||Rolston,M.P., A.C.P. Chu, and I.R.P. Fillery|Effect of Paraquat on the Nitrogen-Fixing Activity of White Clover|N. Z. J. Agric. Res.19:47-49|1976|10.1080/00288233.1976.10421045
29189|T||Krasavina,M.S., and I.N. Ktitorova|Effects of Adenine Derivatives, Imidazole Derivatives, and Indolylacetic Acid on the Membrane Potential of Root Hair Cells in Trianea bogotensis|Sov. Plant Physiol.22(6): 1016-1020|1975|
29190|T||Dhillon,B.S., J.S. Randhawa, and S.S. Mann|Effect of Growth-Regulators on the Storage of Himrod Grapes|J. Res. Punjab Agric. Univ.12(3): 241-245|1975|
29191|T||Saimbhi,M.S., J.S. Kanwar, and K.S. Nandpuri|Artificial Ripening of Mature Green Tomatoes with 2-Chloroethylphosphonic Acid|J. Res. Punjab Agric. Univ.12:128-130|1975|
29192|T||Farmahan,H.L., and J.S. Jawanda|Response of Seeded Grape (Vitis vinifera L.) cv. Khalili to Growth Regulators|J. Res. Punjab Agric. Univ.12(3): 236-240|1975|
29193|T||Shimabukuro,R.H., W.C. Walsh, and R.A. Hoerauf|The Role of Coleoptile on Barban Sensitivity Between Wild Oat and Wheat|Pestic. Biochem. Physiol.6(2): 115-125|1976|10.1016/0048-3575(76)90030-4
29197|T||Hradilik,J.|Effects of Auxin, Cytokinin, Ethrel and Cotyledon Excision on the Peroxidase Activity in Cotylar Buds of Decapitated Pea Plants|Biol. Plant. (Praha)18:93-98|1976|10.1007/BF02923144
29198|T||Skorupska,H.|Radiomimetic Effect of Herbicides on the Progress of Mitoses in Pea (Pisum sativum) in Comparison with Those of Chemomutagens and Gamma Rays|Genet. Pol.16(3/4): 301-311|1975|
29199|T||Dhuria,H.S., V.P. Bhutani, and C. Parmar|Thinning Plums with 2-Chloroethylphosphonic Acid|Sci. Hortic.4:279-283|1976|10.1016/0304-4238(76)90051-0
29200|T||Biddington,N.L., and T.H. Thomas|Influence of Different Cytokinins on the Germination of Lettuce (Lactuca sativa) and Celery (Apium graveolens) Seeds|Physiol. Plant. (Multiple Languages)37(1): 12-16|1976|10.1111/j.1399-3054.1976.tb01865.x
29202|T||Cachita-Cosma,D., A. Ionica, T. Radulescu, and G. Popovici|The Influence of Procaine upon the 32P and 45Ca Absorption into the Red Pepper Seeds|Rev. Roum. Biol.20(3): 193-198|1975|
29203|T||Popovici,G., D. Cachita-Cosma, and G. Zidveanu|The Effect of p-Aminobenzoic Acid and Diethylaminoethanol on the Respiration of Germinating Barley Seeds|Rev. Roum. Biol.20(1): 61-63|1975|
29205|T||Lachman,W.H.|The Use of Oil Sprays As Selective Herbicides for Carrots and Parsnips. II|Proc. Am. Soc. Hortic. Sci.47:423-433|1946|
29209|T||Nanda,A.K., and R.N. Misra|Studies on Induced Chloroplast Mutation in Rice|J. Nucl. Agric. Biol.4(4): 83-86|1975|
29210|T||Albregts,E.E., and C.M. Howard|Weed Control in the Strawberry Fruiting Field with Paraquat|Proc. Annu. Meet. Fla. State Hortic. Soc.88:208-211|1975|
29211|T||Hopping,M.E.|Effect of Bloom Applications of Gibberellic Acid on Yield and Bunch Rot of the Wine Grape 'Seibel 5455'|N. Z. J. Exp. Agric.4:103-107|1976|10.1080/03015521.1976.10425853
29212|T||Thompson,B.D., and J.R. Shumaker|Ethephon as a Defoliant for Potatoes|Proc. Annu. Meet. Fla. State Hortic. Soc.88:142-147|1975|
29213|T||Radwan,A., A.T. Hegazy, M.M. El Fouly, and N.A. Garas|Effect of Gibberellic Acid and Alpha-Naphthalene Acetic Acid on Growth, Productivity and Chemical Composition of Irish Potato Plants Grown in Different Seasons|Z. Acker- Pflanzenbau. (Multiple Languages)142:169-180|1976|
29214|T||Johnson,B.J.|Bermudagrass Tolerance to Consecutive Butralin and Oxadiazon Treatments|Weed Sci.24:302-305|1976|10.1017/S0043174500066005
29215|T||Nanda,K.K., S. Kumar, and V. Sood|Effect of Adenosine Monophosphates on the Flowering of Impatiens balsamina L., a Qualitative Short-Day Plant|Planta (Multiple Languages)130:93-94|1976|10.1007/BF00390851
29216|T||Singh,O.S., and N. Chhabra|Effect of Plant Growth Regulators on Betacyanin Synthesis in Celosia argentea var. cristata in the Dark|Z. Pflanzenphysiol. (Multiple Languages)73(3): 189-196|1976|10.1016/S0044-328X(73)80001-7
29217|T||Ghosh,M.L., and S.K. Chatterjee|Effect of Some Hormones and Chemicals on Seed Germination of Cymbopogon martini Stapf. var. Motia|Geobios3(3): 82-83|1976|
29219|T||Wilfret,G.J., and J.L. Green|Optimum Gibberellic Acid (GA3) Concentration to Accelerate Flowering and Increase Yield of Statice|Proc. Annu. Meet. Fla. State Hortic. Soc.88:527-530|1975|
29220|T||Boeger,P., and U. Schlue|Long-Term Effects of Herbicides on the Photosynthetic Apparatus: I. Influence of Diuron, Triazines, and Pyridazinones|Weed Res. (Multiple Languages)16:149-154|1976|10.1111/j.1365-3180.1976.tb00395.x
29221|T||Iyer,P.R.V.S., M.C. Saxena, and D. Sharma|Effect of Metabolic Inhibitors on N-Induced Uptake and Transport of 32P by Maize|J. Nucl. Agric. Biol.4(4): 92-95|1975|
29226|T||Benedict,H.M., and A.W. Krofchek|The Effect of Petroleum Oil Herbicides on the Growth of Guayule and Weed Seedlings|Agron. J.38:882-895|1946|10.2134/agronj1946.00021962003800100004x
29227|T||Link,G.K.K., and V. Eggers|The Effect of Indoleacetic Acid upon Initiation and Development of Hypocotyledonary Bud Primordia in Flax|Bot. Gaz.108:114-129|1946|10.1086/335399
29230|T||Batjer,L.P., and A.H. Thompson|Effects of 2,4-Dichlorophenoxyacetic Acid Sprays in Controlling the Harvest Drop of Several Apple Varieties|Proc. Am. Soc. Hortic. Sci.47:35-38|1946|
29231|T||Harley,C.P., H.H. Moon, L.O. Regeimbal, and E.L. Green|2,4-Dichlorophenoxyacetic Acid as a Spray to Reduce Harvest Fruit Drop of Apples|Proc. Am. Soc. Hortic. Sci.47:39-43|1946|
29232|T||Moon,H.H., and C.P. Harley|Effect of DDT Spray on Apple Leaf Efficiency|Proc. Am. Soc. Hortic. Sci.47:11-14|1946|
29234|T||Waldo,G.F., and E. Hansen|Effect of Growth-Regulating Sprays on Certain Blackberries in Oregon|Proc. Am. Soc. Hortic. Sci.47:201-205|1946|
29235|T||Udvardy,J., B. Sivok, and G. Nemet|Effect of Naphythylacetic Acid, 2,4,5-Trichlorophenoxyacetic Acid and 3,6-Dichloro-O-Anisic Acid on Nucleolytic Enzymes in Callus Cultures from Wheat Root|Z. Pflanzenphysiol. (Multiple Languages)78:33-40|1976|10.1016/S0044-328X(76)80137-7
29236|T||Shafer,J.,Jr., C.L. Hamner, and R.F. Carlson|2,4-D as a Spray to Weed Corn|Proc. Am. Soc. Hortic. Sci.47:421-422|1946|
29237|T||Blackmon,G.H.|Experiments with Growth Substances on Pecans|Proc. Am. Soc. Hortic. Sci.47:147-148|1946|
29238|T||Lindeberg,G.|The Effect of Biotin and Thiamin on the Growth of Collybia Dryophila Fr|Sven. Bot. Tidskr.40:63-69|1946|
29239|T||Smith,W.J.|Effect of Penicillin on Seed Germination|Science104:411-413|1946|10.1126/science.104.2705.411
29240|T||Pridham,A.M.S.|2,4-Dichlorophenoxyacetic Acid Reduced Germination of Grass Seed|Proc. Am. Soc. Hortic. Sci.47:439-445|1946|
29241|T||Young,T.W.|Progress Report on Chemical Weed Killer|Citrus Ind.27:3, 14-16, 18, 20-21|1946|
29242|T||Fisher,E.H.|Applying Hormone to Increase Bean Yield|Food Packer27:61-64|1946|
29243|T||Warren,G.F.|The Value of Several Chemicals as Selective Herbicides for Vegetable Crops (Preliminary Report)|Proc. Am. Soc. Hortic. Sci.:415-420|1946|
29246|T||Minshall,W.H.|Eradication of Poison Ivy (Rhus radicans L.) II.  Preliminary Results with 2,4-Dichlorophenoxyacetic Acid|Sci. Agric. (Piracicaba, Braz. )26:662|1946|
29247|T||Toole,M.G., and A.E. Clarke|Chromosome Behavior and Fertility of Colchicine-Induced Tetraploids in Allium cepa and A. fistulosum|Herbertia11:295-303|1944|
29248|T||Ennis,W.B.,Jr.|Some Effects of O-Isopropyl N-Phenyl Carbamate upon Cereals|Science105:95-96|1947|10.1126/science.105.2717.95
29249|T||Stewart,W.S., and W. Ebeling|Preliminary Results with the Use of 2,4-Dichlorophenoxyacetic Acid As A Spray-Oil Amendment|Bot. Gaz.108:286-294|1946|10.1086/335415
29250|T||Beal,J.M.|Reactions of Decapitated Bean Plants to Certain of the Substituted Phenoxy Compounds|Bot. Gaz.108:166-186|1946|10.1086/335405
29254|T||Grigsby,B.H.|Oil Sprays for the Control of Weeds in Carrots and Related Crops|Mich. Q. Bull.28:201-207|1946|
29255|T||Strong,M.C.|Use of 2,4-Dichlorophenoxyacetic Acid for the Improvement of Greenhouse Tomato Production|Mich. Q. Bull.28(3): 216-225|1946|
29256|T||De Ropp,R.S.|The Response of Normal Plant Tissues and of Crown-Gall Tumor Tissues to Synthetic Growth Hormones|Am. J. Bot.34(2): 53-62|1947|
29263|T||Podesva,J.|The Effect of Plant Hormones in Increasing Fruit Yield|Sb. Ces. Akad. Z.17:7-11|1942|
29266|T||Smith,C.L.|Effect of Indole-3-Butyric Acid on Transplanted Pecan Trees|J. Agric. Res.74:187-192|1947|
29267|T||Brain,E.D.|Growth Inhibiting Action of Urine Extract on Seedlings|Ann. Bot.10(38): 195-202|1946|10.1093/oxfordjournals.aob.a083130
29268|T||Grigsby,B.H.|Some Effects of 2,4-D on Ragweed and Certain Woody Plants|Mich. Q. Bull.28(4): 304-310|1946|
29269|T||Brown,C.A., and W.H. Carter|Weed Investigations|La. Agric. Exp. Stn. Bull.402:1-24|1946|
29270|T||Marth,P.C., V.K. Toole, and E.H. Toole|Yield and Viability of Kentucky Bluegrass Seed Produced on Sod Areas Treated with 2,4-D|J. Am. Soc. Agron.39:426-429|1947|10.2134/agronj1947.00021962003900050010x
29271|AT||Ryker,T.C.|Studies on the Chemical Control of Rice Weeds|J. Am. Soc. Agron.39:395-402|1947|10.2134/agronj1947.00021962003900050006x
29272|T||Stewart,W.S., L.J. Klotz, and H.Z. Hield|Effects of Plant Growth Regulators on Orange Fruit Drop|Citrograph32:314-317|1947|
29273|T||Ahlgren,G.H., and H.R. Cox|Destroying Lawn Weeds with 2,4-D|N.J. Agric. Exp. Stn. Rep.725:3-11|1946|
29274|T||Showacre,J.L., and H.G. Du Buy|The Relation of Water Availability and Auxin in the Growth of Avena Coleoptiles and Its Meaning for a Theory of Tropisms|Am. J. Bot.34(4): 175-182|1947|10.1002/j.1537-2197.1947.tb12974.x
29276|T||Levan,A., and E. Steinegger|The Resistance of Colchicum and Bulbocodium to the C-Mitotic Action of Colchicine|Hereditas33:552-566|1947|10.1111/j.1601-5223.1947.tb02821.x
29277|T||Crafts,A.S.|General Contact Weed Killers|Univ.Calif.Coll.Agric., Agric.Exp.Stn.137:1-16|1947|
29278|T||Marth,P.C.|Weed Eradication with Chemicals in Sod Areas|Agric. Chemic.2:37,70 - 37,71|1947|
29279|T||Steinberg,R.A.|Growth Responses to Organic Compounds by Tobacco Seedlings in Aseptic Culture|J. Agric. Res.75(3): 81-92|1947|
29283|T||Hofmeyr,J.D.J., and H. Van Elden|Tetraploidy in Carica papaya L. Induced by Colchicine|S. Afr. J. Sci.38:181-185|1941|
29284|T||Bohn,G.W.|Colchicine Treatments for Use with Tomatoes|J. Hered.38:157-160|1947|10.1093/oxfordjournals.jhered.a105717
29285|T||Bauernfeind,J.C., and G.F. Siemers|Methods of Freezing Sliced Apples with 1-Ascorbic Acid|For. Prod. J.26:4-7,27|1946|
29286|T||Davies,J.G., and C.G. Greenham|Eradication of Hydrocotyle tripartita R. Br. from Golf and Bowling Greens|J. Counc. Sci. Ind. Res.19:335-340|1946|
29287|T||Greenham,C.G.|Studies on Chemical Weed Killers with Special Reference to Skeleton Weed (Chondrilla juncea L.).  V.  Preliminary Trials with Hormone-like Weed Killers|J. Counc. Sci. Ind. Res.19:341-346|1946|
29289|T||Lucas,E.H., and C.L. Hamner|Modification of the Physiological Action of the Sodium Salt of 2,4-Dichlorophenoxyacetic Acid by Simultaneous Application of Plant Extracts and by pH Changes|Mich. Q. Bull.29(3): 256-262|1947|
29290|T||Dermen,H.|Polyploid Pears|J. Hered.38:189-192|1947|10.1093/oxfordjournals.jhered.a105726
29294|T||Lewis,D.|Chemical Control of Fruit Formation|J. Pomol. Hortic. Sci.22:175-183|1946|10.1080/03683621.1946.11513642
29295|T||Hitchcock,A.E., and P.W. Zimmerman|Response and Recovery of Dandelion and Plantain After Treatment with 2,4-D|Contrib. Boyce Thompson Inst.14:471-492|1947|
29297|T||Stewart,W.S., L.J. Klotz, and H.Z. Heild|2,4-D Sprays for Control of Navel Orange Drop|Calif. Citrogr.33:49,77,79|1947|
29298|T||McClellan,W.D., and N.W. Stuart|Lily Production from Scales Increased by Growth Substances|Florists Exchange Hortic. Trade World108:14-48|1947|
29299|T||Bawdin,R.F.|Plant Hormone-like Substances as Related to Barley Germination|Proc.Am.Brew.Chem.11:10-13|1946|
29301|T||Murray,M.A., and A.G. Whiting|A Comparison of the Effectiveness of 2,4-Dichlorophenoxyacetic Acid and Four of Its Salts in Inducing Histological Responses in Bean Plants|Bot. Gaz.109:13-39|1947|10.1086/335453
29302|T||Wittwer,S.H., L.L. Coulter, and R.L. Carolus|A Chemical Control of Seedstalk Development in Celery|Science106:590-|1947|10.1126/science.106.2763.590
29303|T||Rossman,E.C., and G.F. Sprague|Effect of 2,4-D on Yields of Maize in the Succeeding Generation After Treatment|Plant Physiol.24:770-773|1949|10.1104/pp.24.4.770
29304|T||Elwell,H.M., and M.B. Cox|Brush-Control Research at the Red Plains Conservation Experiment Station|Okla. Agric. Exp. Stn. Bull.M-181:1-8|1949|
29308|T||Downie,W.A.|The Prevention of Sprouting in Stored Potatoes|J. Dep. Agric. Victoria47:301-305|1949|
29309|T||Osborne,D.J.|Attempts to Produce Parthenocarpic Pears with Growth Substances|Ann. Appl. Biol.36:551-553|1949|10.1111/j.1744-7348.1949.tb06950.x
29317|T||Espino,R.B.|Effects of 2,4-D on Some Common Plants|Philipp. Agric.32:21-30|1948|
29318|T||Eaton,F.M.|"Influence of Growth ""Hormones"" on Boll Retention by Cotton Plants"|Bot. Gaz.111:313-319|1950|10.1086/335599
29319|A||Freeland,R.O.|Effects of 2,4-D and Other Growth Substances on Photosynthesis and Respiration in Anacharis|Bot. Gaz.111:319-324|1950|10.1086/335600
29320|T||Whaley,W.G., G.S. Rabideau, and E.J. Moore|The Growth and Metabolism of Excised Roots in Culture. I. The Measurement of Growth and the Role of Certain Vitamins|Plant Physiol.25:322-333|1950|10.1104/pp.25.2.322
29322|T||Shellenberger,J.A., W.M. Phillips, J.A. Johnson, and B.S. Miller|The Quality of Hard Red Winter Wheat as Affected By 2,4-D Spray Applications|Cereal Chem.27:162-166|1950|
29324|T||Stewart,W.S., and H.S. Hield|Citrus Fruit Size Studies. Experimental Test of 2,4-D Spray to Increase Orange and Grapefruit Fruit Size|Calif. Agric.3(8): 10,14|1949|
29325|T||Ergle,D.R., and A.A. Dunlap|Responses of Cotton to 2,4-D|Texas Agric. Exp. Stn. Bull.713:1-18|1949|
29328|T||Hernandez,T.P., and G.F. Warren|Effects of Pre-Emergence and Post-Emergence Treatments of 2,4-D on Certain Vegetable Crops in 1948|Proc. South. Weed Conf.2:37-|1949|
29329|T||Hernandez,T.P., and G.F. Warren|Comparison of the Effects of 2,4-D Pre-Emergence Treatments on Onions from Seed and Sets on Peat and Silt Loam Soils|Proc. South. Weed Conf.2:38-|1949|
29330|T||Klingman,G.C.|Pre-Emergence Spraying of Corn with 2,4-D|Proc. South. Weed Conf.1:27-28|1948|
29331|T||Shear,G.M.|Weed Control in Corn with 2,4-D|Proc. South. Weed Sci. Soc.2:22-25|1949|
29332|T||Tullis,E.C.|Effect of 2,4-D on Cotton Plants|Proc. South. Weed Conf.1:1-3|1948|
29333|T||Wilson,W.F., T.C. Ryker, and E.R. Stamper|2,4-D and Weeds in Strawberries|Proc. South. Weed Conf.2:108-|1949|
29334|T||Stewart,W.S., and H.Z. Hield|The Use of 2,4-D to Increase the Sizes of Oranges and Grapefruit|Calif. Citrogr.35:320,327|1950|
29335|T||Britten,E.J.|Natural and Induced Parthenocarpy in Maize and Its Relation to Hormone Production by the Developing Seed|Am. J. Bot.37:345-352|1950|10.1002/j.1537-2197.1950.tb08179.x
29336|T||Hansch,C., and R.M. Muir|The Ortho Effect in Plant Growth-Regulators|Plant Physiol.25:389-393|1950|10.1104/pp.25.3.389
29339|T||Watson,D.P.|An Anatomical Study of the Modification of Bean Leaves as a Result of Treatment with 2,4-D|Am. J. Bot.35:543-555|1948|
29343|T||Skoog,F., and B.J. Robinson|A Direct Relationship Between Indoleacetic Acid Effects on Growth and Reducing Sugar in Tobacco Tissue|Proc. Soc. Exp. Biol. Med.74:565-568|1950|10.3181/00379727-74-17973
29344|T||Slankis,V.|Effect of Alpha-Naphthaleneacetic Acid on Dichotomous Branching of Isolated Roots of Pinus Sylvestris|Physiol. Plant. (Multiple Languages)3:40-44|1950|10.1111/j.1399-3054.1950.tb07490.x
29345|T||Witkus,E.R., and C.A. Berger|Induced Vascular Differentiation|Bull. Torrey Bot. Club77(4): 301-305|1950|10.2307/2481903
29346|T||Corns,W.G.|Effects of 2,4-D and Soil Moisture on the Catalase Activity, Respiration, and Protein Content of Bean Plants|Can. J. Res. Sect. C Bot. Sci.28:393-405|1950|10.1139/cjr50c-023
29347|T||Aslander,A.|Some Factors Influencing the Effect of 2,4-D on Perennial Weeds and Crop Plants|Sven. Bot. Tidskr.44(1): 35-54|1950|
29348|T||Stewart,W.S., and H.Z. Hield|Fruit Drop of Lemons|Calif. Agric.4:6,14|1950|
29349|T||Stewart,W.S., and H.Z. Hield|2,4-D and Citrus Fruit Sizes|Calif. Agric.4(4): 5-6|1950|
29351|T||Mitchell,J.W., and P.C. Marth|Effect of Growth Regulating Substances on the Water-Retaining Capacity of Bean Plants|Bot. Gaz.112(1): 70-76|1950|10.1086/335627
29352|T||Allen,N.S., G.B. Wilson, and S. Powell|Comparative Effects of Colchicine and Sodium Maleate on Somatic Chromosomes of Allium and Tradescantia|J. Hered.41:159-163|1950|10.1093/oxfordjournals.jhered.a106118
29353|T||Altona,R.E.|A Preliminary Report on the Control of Weeds in Maize with Methoxone and 2,4-D|S. Afr. J. Sci.46:295-296|1950|
29356|T||Havas,L.J.|Parthenocarpy and Other Hormone-Mimetic Actions Induced by Polyploidizing Agents|Bull. Fac. Hortic. Vitic. Univ. Agric. Sci. Budapest12:81-91|1948|
29357|T||Gates,C.M.|The Possibilities of 2,4-D for the Control of Postharvest Decay in Florida Limes|Proc. Annu. Meet. Fla. State Hortic. Soc.62:220-223|1949|
29358|T||Frith,H.J.|The Reduction of Drop of Washington Navel Oranges by 2,4-Dichlorphenoxyacetic Acid|J. Aust. Inst. Agric. Sci.16:101-104|1950|
29362|T||Lundegardh,H.|The Influence of Auxin Anions on the Growth of Wheat Roots|Ark. Bot.1(3): 289-293|1950|
29363|T||Lundegardh,H.|The Effect of Indol Acetic Acid on the Bleeding of Wheat Roots|Ark. Bot.1(4): 295-299|1950|
29364|T||Van oud Loosdrecht,W.E.|A Search for the Correct Colchicine Treatment of the Embryos of Scilla Spp. to Produce Polyploids|Pap. Mich. Acad. Sci. Arts Lett.35:3-7|1949|
29367|T||Roberts,D.W.A.|Some Effects of Ethylene on Germinating Wheat|Can. J. Bot.29:10-25|1951|10.1139/b51-002
29368|T||King,L.J., J.A. Lambrech, and T.P. Finn|Herbicidal Properties of Sodium 2,4-Dichlorophenoxyethyl Sulfate|Contrib. Boyce Thompson Inst.16:191-208|1950|
29371|T||Danielson,L.L.|Pre-Planting Soil Treatments with 2,4-D for Weed Control in Spinach|Proc. Am. Soc. Hortic. Sci.51:533-535|1948|
29372|T||Dearborn,C.H., R.D. Sweet, and J.R. Havis|Weeding Sweet Corn with 2,4-D:  Effects of Timing, Rates and Varieties|Proc. Am. Soc. Hortic. Sci.51:536-540|1948|
29373|T||Lachman,W.H.|Some Studies Using Isopropyl N-Phenyl Carbamate as a Selective Herbicide|Proc. Am. Soc. Hortic. Sci.51:541-544|1948|
29375|T||De France,J.A.|Effect of Certain Chemicals on the Killing of Putting Green Turf and Their Influence on Various Methods of Reseeding|Greenkeeper16:36-38|1948|
29376|T||Hitchcock,A.E., and P.W. Zimmerman|Effect of Concentration of 2,4-D, Rate of Application, and Respraying, on Killing Japanese Honeysuckle|Proc. Am. Soc. Hortic. Sci.51:668-669|1948|
29377|T||Myhre,A.S., and C.D. Schwartze|Rooting Evergreen Cuttings with Hormones|Proc. Am. Soc. Hortic. Sci.51:639-650|1948|
29384|T||Fahmy,R.|Effect of 2,4-Dichlorophenoxyacetic Acid on the Organic Compounds Assimilated in the Kenaf Leaves|Egypt. J. Phytopathol.1:55-61|1974|
29391|T||Dass,H.C., G.S. Randhawa, and S.P. Negi|Effect of Growth Regulators on Post-Harvest Berry Drop in Cheema Sahebi Grape (Vitis vinifera L.)|Indian J. Hortic.31(2): 131-134|1974|
29392|T||Chacko,E.K., R.R. Kohli, R.D. Swamy, and G.S. Randhawa|Effect of (2-Chloroethyl)phosphonic Acid on Flower Induction in Juvenile Mango (Mangifera indica) Seedlings|Physiol. Plant. (Multiple Languages)32(2): 188-190|1974|10.1111/j.1399-3054.1974.tb03752.x
29393|T||Chauhan,K.S., and R.S. Rana|Effect of Ethrel on Degreening of Washington Navel Orange|Indian J. Hortic.31:154-156|1974|
29394|T||Bush,L.P., and J.L. Sims|Morphological and Physiological Effects of Maleic Hydrazide on Tobacco|Physiol. Plant. (Multiple Languages)32:157-160|1974|10.1111/j.1399-3054.1974.tb03744.x
29395|T||Reid,J.B., and I.C. Murfet|Flowering in Pisum: Effect of 2-Chloroethylphosphonic Acid and Indole-3-Acetic Acid|Aust. J. Plant Physiol.1:591-594|1974|
29396|T||Briant,R.E.|An Analysis of the Effects of Gibberellic Acid on Tomato Leaf Growth|J. Exp. Bot.25(87): 764-771|1974|10.1093/jxb/25.4.764
29401|AT||Schwelitz,F.D., H.C. Sikka, J. Saxena, and G. Zweig|Ultrastructural Changes in Isolated Spinach Chloroplasts and in Chlorella pyrenoidosa Chick (Emerson Strain) Treated with Dichlone|Pestic. Biochem. Physiol.4:379-385|1974|10.1016/0048-3575(74)90062-5
29404|T||Jamal,A., and A.K.M. Ghouse|Effect of Certain Nematocides on Seed Germination|Geobios (Jodhpur)1(4): 112-|1974|
29405|T||Kwon,Y.M.|Inhibitory Effect of Atlantolactone on the Growth of Plants and Interaction with L-Cysteine|Korean J. Bot.17:9-14|1974|
29406|T||Rakitin,Y.V., S.V. Vladimirtseva, and L.N. Nikolaeva|Effect of Maleic Hydrazide on Germination of Potato Tubers and Content of Protein and Nucleic Acids in Their Buds|Sov. Plant Physiol.21(3): 493-497|1974|
29408|T||Craker,L.E.|Effect of Ethylene and Metabolic Inhibitors on Anthocyanin Biosynthesis|Phytochemistry14:151-153|1975|10.1016/0031-9422(75)85028-X
29409|T||Tluczkiewicz,J.|Influence of Simazin 50 and Dicuran on Oxidative Phosphorylation in the Mitochondria of Spring Barley (Damazy) Embryos|Acta Agrobot. (Multiple Languages)27(1): 61-70|1974|10.5586/aa.1974.005
29410|T||Maslowski,P., M. Komoszynski, and A. Sliwak|Changes in Chloroplastic and Cytoplasmic Ribosomal Protein after GA3-Treatment of Zea mays Leaves|Acta Agrobot. (Multiple Languages)27(1): 81-84|1974|10.5586/aa.1974.007
29413|T||Stefan,A., T. Baicu, and S. Ceausescu|Effects of Some New Fungicides on the Amino Acid, Protein and Sugar Levels in Wheat Seedlings|An. Univ. Bucur. Biol. Veg.22:189-196|1973|
29414|T||Biossya,C.L.|Presence of Kinetin-like Factors in the Immature Seeds of Cucumis sativus L. var anglicus|J. Univ. Gauhati20-22:170-175|1969|
29415|T||Biossya,C.L., and H.C. Sarma|Externally Supplied Gibberellic Acid, IAA or Kinetin as Factor for Vegetative Growth of Phaseolus vulgaris L. Plants|J. Univ. Gauhati20/22:179-187|1969|
29416|T||Talha,M., and P. Larsen|Effect of Abscisic Acid on the Transpiration of Zea mays|Physiol. Plant. (Multiple Languages)33:66-70|1975|10.1111/j.1399-3054.1975.tb03767.x
29417|T||Lukasik,S., and W. Huszcza|Effect of Morphactin IT 3456 (Methyl-2-Chloro-9-Hydroxyfluorene-(9)-Carboxylate) on Parthenocarpic Fruit Development of Tomatoes|Acta Agrobot. (Multiple Languages)27(1): 71-80|1974|10.5586/aa.1974.006
29420|T||Mehta,P.M., and M. Subhadradevi|Effect of Ascorbic Acid, Gibberellic Acid, Maleic Hydrazide and the Combination of Gibberellic Acid and Maleic Hydrazide on Germination and Catalase Activity in Soyabean|Botanique (Nagpur)5(2): 99-108|1974|
29426|T||Corns,W.G.|Translocation of 2,4-D in Injected Flowering Perennial Sow Thistle Plants|Can. J. Res. Sect. C Bot. Sci.26:239-248|1948|10.1139/cjr48c-022
29430|T||Blackman,G.E., and K. Holly|Weed Control in Linseed and Flax|Agriculture (Lond.)54:538-542|1948|
29432|T||Tilt,J.|Weed Control of Cereal Crops by Means of Selective Sprays|Tasman. J. Agric.18:169-171|1947|
29438|T||Gall,H.J.F.|Some Effects of 2,4-Dichlorophenoxacetic Acid on Starch Digestion and Reducing Activity in Bean Tissue Cultures|Bot. Gaz.110:319-323|1948|10.1086/335535
29439|T||Emsweller,S.L.|Colchicine-Induced Polyploidy in Lilium longiflorum|Am. J. Bot.36:135-144|1949|
29440|T||Mitchell,J.W., B.D. Ezell, and M.S. Wilcox|Effect of p-Chlorophenoxyacetic Acid on the Vitamin C Content of Snap Beans Following Harvest|Science109:202-203|1949|10.1126/science.109.2826.202
29441|T||Mitchell,A.E., W. Toenjes, and C.L. Hamner|The Use of Dusts and Concentrate Sprays to Prevent Pre-Harvest Drop of McIntosh Apples|Mich. Agric. Exp. Stn. Q. Bull.31:160-164|1948|
29442|T||Thompson,M.R., and R.W. Shuel|Weed Control in Potatoes with 2,4-D|Am. Potato J.25:163-171|1948|10.1007/BF02890395
29444|T||Loo,T.L., and Y.W. Tang|The Effect of Indole-3-Acetic Acid on Root Formation and Bud Development|Bot. Bull. Acad. Sin. (Taipei)2:231-235|1948|
29445|T||Wang,F.H.|The Effects of Clavacin upon Root Growth|Bot. Bull. Acad. Sin. (Taipei)2:265-269|1948|
29446|T||Stenlid,G.|Some Notes on the Effect of Sodium Azide, 2,4-Dinitrophenol, and Ortho-Phenanthroline upon Oxygen Consumption in Green Leaves|Physiol. Plant. (Multiple Languages)2:61-69|1949|10.1111/j.1399-3054.1949.tb07649.x
29447|T||Audus,L.J.|Studies on the pH Relationships of Root Growth and Its Inhibition by 2,4-Dichlorophenoxyacetic Acid and Coumarin|New Phytol.48:97-115|1949|10.1111/j.1469-8137.1949.tb05112.x
29448|T||Hemberg,T.|Significance of Growth-Inhibiting Substances and Auxins for the Rest-Period of the Potato Tuber|Physiol. Plant. (Multiple Languages)2:24-36|1949|10.1111/j.1399-3054.1949.tb07645.x
29449|T||Marth,P.C., and J.W. Mitchell|Apparent Antagonistic Effects of Growth-Regulators|Bot. Gaz.110:514-518|1949|10.1086/335552
29450|T||White,D.G., and J.C. Mangual|The Use of Herbicides in Sugar Cane.  A Comparison of Results Obtained with Various Herbicidal Sprays in Puerto Rican Experiments on the Control of Weeds|Sugar (N. Y. )43:31-35|1948|
29451|T||Steinberg,R.A.|Symptoms of Amino Acid Action on Tobacco Seedlings in Aseptic Culture|J. Agric. Res.78(12): 733-741|1949|
29453|T||Danielson,L.L.|Weeding Irish Cobbler Potatoes with 2,4-D|Am. Potato J.26:1-7|1949|10.1007/BF02881604
29454|T||Wester,R.E., and C.A. Weigel|Effect of DDT Insecticides on Plant Growth and Yield of Some Bush Lima Bean Varieties|Proc. Am. Soc. Hortic. Sci.52:453-460|1948|
29459|T||De France,J.A.|Crabgrass Control in Turf with Chemicals|Proc. Am. Soc. Hortic. Sci.53:546-554|1949|
29460|T||Clark,B.E., and S.H. Wittwer|Effect of Certain Growth Regulators on Seed Stalk Development of Lettuce and Celery|Plant Physiol.24(4): 555-576|1949|10.1104/pp.24.4.555
29461|T||Currier,H.B.|Response of Plant Cells to Herbicides|Plant Physiol.24:601-609|1949|10.1104/pp.24.4.601
29462|T||Ferri,M.G., and M. Rachid|Further Information on the Stomatal Behavior as Influenced by Treatment with Hormone-Like Substances|An. Acad. Bras. Cienc.21(2): 155-166|1949|
29464|T||Rizk,T.Y., M.T. Fayed, and E.E. Hassannien|A Comparative Study on the Use of Some New Herbicides in Seeded Rice|Mesopotamia J. Agric.14(1): 109-124|1979|
29466|T||Joseph,C.B., and K.V. Peter|Effect of 2,4-D on Fruit Yield, Leaf Area and Flower Characters in Tomato|J. Hortic. Sci.55(1): 41-43|1980|10.1080/00221589.1980.11514899
29470|T||Knypl,J.S.|Control of Shoot Growth in Agrostemma githago L. by 4,4-Dimethylmorpholinium Chloride and Related Compounds|Acta Soc. Bot. Pol.48(3): 483-488|1979|10.5586/asbp.1979.039
29471|T||Agarwal,S.K., and R. De|Effects of Antitranspirants on Barley (Hordeum vulgare L.) Plants Under Varying Moisture Conditions|Indian J. Ecol.6(2): 38-45|1979|
29472|T||Brinkman,M.A., D.K. Langer, R.G. Harvey, and A.R. Hardie|Response of Oats to Atrazine|Crop Sci.20:185-189|1980|10.2135/cropsci1980.0011183X002000020009x
29474|T||Daiya,K.S., H.K. Sharina, D.D. Chawan, and D.N. Sen|Effect of Some Growth Retardants and Their Interactions with Humic Acid on the Growth of Cassia Species|Broteria Ser. Trimest. Cienc. Nat.48-75(1-4): 19-23|1979|
29478|T||Matlob,A.N.|The Effect of Preharvest Foliar Sprays of Maleic Hydrazide on the Sprouting of Onion Bulbs During Storage|Mesopotamia J. Agric.14(1): 145-151|1979|
29479|T||Matlob,A.N.|The Effect of a Preharvest Foliar Spray of Maleic Hydrazide on the Sprouting of Potatoes During Storage|Mesopotamia J. Agric.14(1): 153-162|1979|
29481|T||Miah,M.A.H., and M. Islam|Effect of Absorption of Insecticides by Roots on a Few Morphological Characters of the Rice Plant |Indian J. Agric. Sci.50(1): 61-64|1980|
29483|T||Hartmans,K.J., and A. Vanes|The Influence of Growth Regulators GA3, ABA, Kinetin and IAA on Sprout and Root Growth and Plant Development Using Excised Potato Buds|Potato Res.22:319-332|1979|10.1007/BF02356223
29485|T||Chibbar,R.N., K. Gurumurti, and K.K. Nanda|Effect of Maleic Hydrazide on Peroxidase Isoenzymes in Relation to Rooting Hypocotyl Cuttings of Phaseolus mungo|Biol. Plant. (Praha)22(1): 1-6|1980|10.1007/BF02878121
29486|T||Machackova,I., V. Nasinec, and Z. Zmrhal|Effect of IAA on Ethylene Formation in Wheat Seedlings (Triticum aestivum Cultivar Jubilar)|Biol. Plant. (Praha)22:65-72|1980|10.1007/BF02878130
29487|T||Inamdar,J.A., K.M. Aleykutty, and G.S.R. Murthy|Effect of Growth Regulators on the Structure and Ontogeny of Cotyledonary Stomata of Helianthus annuus|Phyton (Horn) (Multiple Languages)20(1/2): 3-14|1980|
29489|T||Naito,K., T. Ebato, Y. Endo, and S. Shimizu|Effect of Benzyladenine on Gamma-Aminolevulinic Acid Synthetic Ability and gamma-Aminolevulinic Acid Dehydratase:  Differential Responses to Benzyladenine According to Leaf Age|Z. Pflanzenphysiol. (Multiple Languages)96(2): 95-102|1980|10.1016/S0044-328X(80)80047-X
29492|T||Bhargava,A.K., and A.S. Sinha|Effect of Plant Hormones on the Essential Oil Content of Hyptis suavelons Poit|Indian J. Pharm.28(4): 134-136|1967|
29493|T||Chinoy,J.J., C.K. Shah, H.T. Patel, and H.K. Suthar|Role of Auxin and Gibberellin in the Synthesis of Ascorbic Acid and Growth of Tissue Explants|Biol. Plant. (Praha)9(3): 182-194|1967|10.1007/BF02929736
29495|T||Genest,K.|Response of Two Species of Ipomoea to Gibberellic Acid Treatment|Lloydia30:164-176|1967|
29500|T||Lynn,C.D., and F.L. Jensen|Thinning Effects of Bloomtime Gibberellin Sprays on Thompson Seedless Table Grapes|Am. J. Enol. Vitic.17(4): 283-289|1966|10.5344/ajev.1966.17.4.283
29504|T||Morre,D.J.|Auxin Effects on the Aggregation and Heat Coagulability of Cytoplasmic Proteins and Lipoproteins|Physiol. Plant. (Multiple Languages)23:38-50|1970|10.1111/j.1399-3054.1970.tb06389.x
29506|T||Bukovac,M.J., F. Zucconi, R.P. Larsen, and C.D. Kesner|Chemical Promotion of Fruit Abscission in Cherries and Plums with Special Reference to 2-Chloroethylphosphonic Acid|J. Am. Soc. Hortic. Sci.94:226-230|1969|10.21273/JASHS.94.3.226
29507|T||Webster,D.H., and A.D. Crowe|Effects of Gibberellic Acid, N-Dimethylaminosuccinamic Acid (Alar), Ringing and Thinning on Mcintosh Apple Shape|J. Am. Soc. Hortic. Sci.94:308-310|1969|10.21273/JASHS.94.3.308
29508|T||Buchanan,D.W., and R.H. Biggs|Peach Fruit Abscission and Pollen Germination as Influenced by Ethylene and 2-Chloroethane Phosphonic Acid|J. Am. Soc. Hortic. Sci.94:327-329|1969|10.21273/JASHS.94.3.327
29514|T||Sal'Kova,E.G., Y.V. Zvyagintseva, A.A. Kuliev, and R.M. Akhundov|Effect of Ethrel on Biochemical Processes During Fruit Ripening|Pr. Biochim. Mikrobiol.13:97-103|1977|
29515|T||Hanks,G.R., and A.R. Rees|Growth Regulator Treatments to Improve the Yield of Twin-Scaled Narcissus|Sci. Hortic.6(3): 237-240|1977|10.1016/0304-4238(77)90067-X
29516|T||El Fouly,M.M., R.M. Berlant, and A.F.A. Fawzi|Chlormequat (CCC) Induced Enhancement of Flowering in Carnation in Relation to Changes in Carbohydrate Metabolism|Sci. Hortic.6:241-249|1977|10.1016/0304-4238(77)90068-1
29517|T||Adedipe,N.O., and D.P. Ormrod|Effects of 2-Chloroethyltrimethylammonium Chloride (CCC) and 2-Chloroethylphosphonic Acid (CEPA) on Dry Matter Distribution in the Cowpea (Vigna unguiculata L.)|Ann. Bot.41:69-74|1977|10.1093/oxfordjournals.aob.a085285
29521|T||Ogawa,K., M. Tsuda, F. Yamauchi, I. Yamaguchi, and T. Misato|Metabolism of 2-Iso-Propylphenyl N-Methylcarbamate (Mipcin, MIPC) in Rice Plants and Its Degradation in Soils|J. Pestic. Sci. (Multiple Languages)2(1): 51-57|1977|10.1584/jpestics.2.51
29525|T||Sfakiotakis,E.M., D.H. Simons, and D.R. Dilley|Pollen Germination and Tube Growth: Dependent on Carbon Dioxide and Independent of Ethylene|Plant Physiol.49:963-967|1972|10.1104/pp.49.6.963
29527|T||Garcia-Torres,L., and C. Gomez-Campo|Increased Tuberization in Potatoes by Ethrel|Potato Res.15:76-80|1972|10.1007/BF02356187
29534|T||Luckwill,L.C., and R.D. Child|Growth Regulator Effects on Quality and Pre-Harvest Drop of Worcester Pearmain Apples|J. Hortic. Sci.47(2): 249-254|1972|10.1080/00221589.1972.11514463
29535|T||Ryugo,K., and S. Sansavini|Effect of Succinic Acid 2,2-Dimethyl Hydrazide on Flowering and Gibberellic Acid Contents of Sweet Cherry (Prunus avium L.)|J. Hortic. Sci.47(2): 173-178|1972|10.1080/00221589.1972.11514453
29536|T||Ochiai,H., H. Shibata, T. Suekane, and Y. Kono|Effect of 4-Thiouridine on Chloroplast Development in a Higher Plant|Hakko To Taisha (Multiple Languages)24:1-13|1971|
29537|T||Maslowski,P., J. Gniot-Szulzycka, and G. Rzesnoiwiecka|The Influence of Gibberellin on the Level of Nucleic Acids and Other Phosphate Fractions in Maize Seedlings|Acta Soc. Bot. Pol.40:467-473|1971|10.5586/asbp.1971.034
29538|T||Rejowski,A.|Effect of GA3 on Ribonuclease Activity in the Embryos and Endosperm of Spring Barley Grain in the Post-Harvest Dormancy Period|Acta Soc. Bot. Pol.40(3): 423-430|1971|10.5586/asbp.1971.030
29540|T||Singh,P.|Effect of Butyl Alcohol in Morphology of Datura inoxia Mill.|Herba Hung.10(1): 15-20|1971|
29545|T||Wilson,W.C.|Field Testing of Cycloheximide for Abscission of Oranges Grown in the Indian River Area|Proc. Annu. Meet. Fla. State Hortic. Soc.84:67-70|1971|
29550|T||Soni,S.L., and P.B. Kaufman|Regulation of Invertase Activity and Growth in Rice (Oryza) Coleoptile Sections by Gibberellic Acid and Sucrose|Can. J. Bot.50:1185-1190|1972|10.1139/b72-144
29552|T||Kang,B.G., and S.P. Burg|Ethylene as a Natural Agent Inducing Plumular Hook Formation in Pea Seedlings|Planta (Multiple Languages)104(4): 275-281|1972|10.1007/BF00386311
29554|T||Boe,A.A., R.B. Stewart, and T.J. Banko|Effects of Growth Regulators on Root and Shoot Development on Sedum Leaf Cuttings|Hortscience7(4): 404-405|1972|10.21273/HORTSCI.7.4.404
29555|T||Harris,N., and A.D. Dodge|The Effect of Paraquat on Flax Cotyledon Leaves: Physiological and Biochemical Changes|Planta (Multiple Languages)104:210-219|1972|10.1007/BF00387076
29556|T||Jackson,M.B., I.B. Morrow, and D.J. Osborne|Abscission and Dehiscence in the Squirting Cucumber, Ecballium elaterium. Regulation by Ethylene|Can. J. Bot.50:1465-1471|1972|10.1139/b72-179
29557|T||Holden,M.|Effects of EDTA and Other Compounds on Chlorophyll Breakdown in Detached Leaves|Phytochemistry11:2393-2402|1972|10.1016/S0031-9422(00)88505-2
29558|T||Johnnykutty,A.T., and A.K. Khudairi|Role of Ascorbic Acid in Bud Development|Physiol. Plant. (Multiple Languages)26(3): 285-288|1972|10.1111/j.1399-3054.1972.tb01109.x
29559|T||Marei,N., and A.I. Gadallah|Ethephon Effect of Protein Synthesis in Fig Fruits|Phytochemistry11:2735-2738|1972|10.1016/S0031-9422(00)86504-8
29561|T||Rajput,C.B.S., and J. Singh|Effects of Urea Sprays on the Chemical Composition of Ber Fruits (Ziziphus mauritiana Lam.)|J. Hortic. Sci.52:371-372|1977|10.1080/00221589.1977.11514765
29562|T||Rouhani,I., and A. Bassiri|Effect of Ethephon on Ripening and Physiology of Date Fruits at Different Stages of Maturity|J. Hortic. Sci.52:289-297|1977|10.1080/00221589.1977.11514757
29563|T||Dryagina,I.V., G.E. Limberger, and N.N. Fomenko|Effect of Chemical Mutagens on Vegetating Apple Trees|Moscow Univ.Biol.Sci.Bull.31(5-6): 69-73|1976|
29566|T||Porter,N.G.|The Role of Abscisic Acid in Flower Abscission of Lupinus luteus|Physiol. Plant. (Multiple Languages)40:50-54|1977|10.1111/j.1399-3054.1977.tb01493.x
29567|T||Lechowicz,W.|Effects of 5-Flourouracil on the Mitotic Activity of Onion Root Tips Apical Meristem|Acta Soc. Bot. Pol.45(3): 225-237|1976|10.5586/4973
29568|T||Veerasekaran,P., R.C. Kirkwood, and W.W. Fletcher|Studies on the Mode of Action of Asulam in Bracken (Pteridium aquilinum L. Kuhn): I. Absorption and Translocation of (14C)Asulam|Weed Res. (Multiple Languages)17:33-39|1977|10.1111/j.1365-3180.1977.tb00442.x
29570|T||Johnson,B.J.|Winter Annual Weed Control in Dormant Bermudagrass Turf|Weed Sci.25(2): 145-150|1977|10.1017/S0043174500033142
29571|T||Saimbhi,M.S.|The Response of Two Ridge-Gourd (Luffa Acutangula Roxb) Varieties Differing in Sex Form to Foliar Sprays of 2-Chloroethylphosphonic Acid|J. Res. Punjab Agric. Univ.13:177-181|1976|
29572|T||Campiranon,S., and W.L. Koukkari|Circadian Periodic Response of Phaseolus vulgaris L. to 2,4-Dichlorophenoxyacetic Acid|Chronobiologia3:137-138|1976|
29573|T||Ladlie,J.S., W.F. Meggitt, and D. Penner|Effect of Atrazine on Soybean Tolerance to Metribuzin|Weed Sci.25(2): 115-121|1977|10.1017/S0043174500033075
29574|T||Khan,A.R., A.S. Andersen, and J. Hansen|Morphactin and Adventitious Root Formation in Pea Cuttings|Physiol. Plant. (Multiple Languages)39:97-100|1977|10.1111/j.1399-3054.1977.tb04016.x
29575|T||Jindal,K.K., and S. Dalbro|Effect of Succinic Acid-2,2-Dimethylhydrazide on Endogenous Auxin Level in Apple Shoots|Physiol. Plant. (Multiple Languages)39(2): 119-122|1977|10.1111/j.1399-3054.1977.tb04021.x
29576|T||Aloni,R.|The Acropetal Effect of Indole Acetic Acid on Vascular Differentiation and Shoot Development in Coleus blumei Benth|Isr. J. Bot.25:195-202|1976|
29577|T||Chatterjee,A., R.K. Mandal, and S.M. Sircar|Effects of Growth Substances on Productivity, Photosynthesis and Translocation of Rice Varieties|Indian J. Plant Physiol.19(2): 131-138|1976|
29578|T||Maekawa,K., and R. Takeya|Control of Seedling Growth by Pseudopurine and Pyrimidine Derivatives|J. Fac. Agric. Kyushu Univ.21(2/3): 99-105|1977|10.5109/23490
29580|T||Manuel,F.C.|Modification of Sex Expression in Luffa acutangula with Foliar Sprays of 2-Chloroethylphosphonic Acid|Kalikasan1:1-6|1972|
29582|T||Sawhney,V.K., and R.I. Greyson|Fruit Size Increase in Tomato Following Application of Gibberellic Acid|J. Am. Soc. Hortic. Sci.97(5): 589-590|1972|10.21273/JASHS.97.5.589
29584|T||Taylor,R.M.|Influence of Gibberellic Acid on Early Patch Budding of Pecan Seedlings (Carya illinoensio)|J. Am. Soc. Hortic. Sci.97:677-679|1972|10.21273/JASHS.97.5.677
29585|T||Modlibowska,I.|The Effect of Gibberellins and Cytokinins on Fruit Development of Bramley's Seedling Apple|J. Hortic. Sci.47:337-340|1972|10.1080/00221589.1972.11514475
29588|T||Kopcewicz,J.|Influence of Indole-3-Acetic Acid, Kinetin and Abscisic Acid on the Estrogens Content of Beans|Biol. Plant. (Praha)14(3): 223-226|1972|10.1007/BF02921254
29591|T||Ram,S., and M.P. Gupta|Effect of Systematic Granular Insecticides on the Germination of Seeds of Forage Crops|J. Entomol.37(4): 413-415|1975|
29592|T||Andersen,R.N., and W.L. Koukkari|Response of Velvet Leaf (Abutilon theophrasti) to Bentazon as Affected by Leaf Orientation|Weed Sci.26:393-395|1978|10.1017/S0043174500050177
29593|T||Vanstone,D.E., and E.H. Stobbe|Root Uptake, Translocation, and Metabolism of Nitrofluorfen and Oxyfluorfen by Fababeans (Vicia faba) and Green Foxtail (Setaria viridis)|Weed Sci.26:389-392|1978|10.1017/S0043174500050165
29595|T||Saniewski,M.|The Effect of Gibberellic Acid on the Flowering and Growth of Muscari comosum Mill.|Bull. Acad. Pol. Sci. Ser. Sci. Biol.25(12): 795-798|1977|
29598|T||Karmoker,J.L., and R.F.M. Van Steveninck|Stimulation of Volume Flow and Ion Flux by Abscisic Acid in Excised Root Systems of Phaseolus vulgaris L. cv. Redland Pioneer|Planta (Multiple Languages)141:37-43|1978|10.1007/BF00387742
29601|T||Rubin,B., and Y. Eshel|Absorption and Distribution of Terbutryn and Fluometuron by Germinating Seeds of Cotton (Gossypium hirsutum) and Snapbean (Phaseolus vulgaris)|Weed Sci.26(4): 378-381|1978|10.1017/S0043174500050141
29602|T||McWhorter,C.G., and G.D. Wills|Factors Affecting the Translocation of 14C-Mefluidide in Soybeans (Glycine max), Common Cocklebur (Xanthium pensylvanicum) and Johnson Grass (Sorghum halapense)|Weed Sci.26:382-388|1978|10.1017/S0043174500050153
29603|T||Sachs,I.B.|Paraquat-Induced Lightwood in Red Pine Observed by Scanning Electron Microscopy|Scanning Electron Microsc.2:217-222|1978|
29604|T||Ballester,A., M.A. Rios, and E. Vieitez|Effects of 2,4-D on Guttation Fluid in Zea mays L.|Phyton (Horn) (Multiple Languages)35(1): 75-78|1977|
29605|T||Kononowicz,H.|Cytological Study of Inhibitory Effects of IAA on the Root Growth in Pinus silvestris|Folia Histochem. Cytochem.16:109-122|1978|
29606|T||Wellensiek,S.J.|The Double Function of External Gibberellic Acid in the Floral Induction of Silene ameria L.|Z. Pflanzenphysiol. (Multiple Languages)87(3): 199-209|1978|10.1016/S0044-328X(78)80122-6
29607|T||De Langhe,E., S. Kosmidou-Dimitropoulou, and L. Waterkeyn|Effect of Hormones on Nucleolar Growth and Vacuolation in Elongating Cotton Fibers|Planta (Multiple Languages)130:269-273|1978|10.1007/BF00390259
29608|T||Whitwell,T., P. Banks, E. Basler, and P.W. Santelmann|Glyphosate Absorption and Translocation in Bermudagrass (Cynodon dactylon) and Activity in Horsenettle (Solanum carolinense)|Weed Sci.28(1): 93-96|1980|10.1017/S0043174500027843
29610|A||Yoshida,R., and T. Oritani|Studies on Nitrogen Metabolism in Crop Plants: XVII. Effects of Cytokinin and Removal of Root Tip on the Assimilation of 15N-Labelled Ammonium Nitrogen by Excised Rice Roots|Jpn. J. Crop Sci. (Multiple Languages)48(4): 457-462|1979|10.1626/jcs.48.457
29612|T||Kumar,P., and A.K. Agarwal|Influence of Auxin and Morphactin on Rooting, Sprouting of Buds, Their Subsequent Growth and Flowering of Tomato Shoot Cuttings|Acta Bot. Indica7:133-138|1979|
29613|T||Tanaka,Y., and I. Uritani|Effect of Auxin and Other Hormones on the Metabolic Response to Wounding in Sweet Potato Roots|Plant Cell Physiol.20(8): 1557-1564|1979|10.1093/oxfordjournals.pcp.a075958
29614|T||Maheshwari,R., C. Shailini, K. Veluthambi, and S. Mahadevan|Interaction of Gibberellic Acid and IAA in the Growth of Excised Cuscuta Chinensis Shoot Tips In Vitro|Plant Physiol.65:186-192|1980|10.1104/pp.65.2.186
29615|T||Bajwa,M.S.|Effect of Growth Regulators on Fruit Diameter and Fruit Drop in Santa Rosa Plum|Himachal J. Agric. Res.1:71-78|1971|
29617|T||Fowler,D.B., and B.R. Stefansson|Effects of the Mutagenic Agent Ethyl Methanesulfonate on the M1 Generation of Rape (Brassica napus)|Can. J. Plant Sci.52:53-62|1972|10.4141/cjps72-007
29620|T||Gamburg,K.Z., and E.F. Vysotskaya|Effects of 8-Azaguanine and Hydroxyproline on Division and Enlargement of Cells in Tobacco-D Tissue Culture|Citologia (Non-English)13(9): 1140-1147|1971|
29622|T||Hariharan,N.P., and A.T. Abraham|Studies on the Effect of Growth Regulators on Sesame|Agric. Res. J. Kerala8:73-77|1970|
29623|T||Kefeli,V., M. Kutacek, and K. Vackova|Influence of Natural Substances of Phenolic Character and Diethyldithiocarbamate on the Metabolism of L-Tryptophan in Cabbage, Maize and Pea|Biol. Plant. (Praha)12(2): 81-90|1970|10.1007/BF02920854
29625|T||Chakraverty,R.K., and S.M. Sircar|Physiological Effects of Hadacidin on the Germination, Growth and Metabolism of Rice|Bull. Bot. Soc. Bengal24(1/2): 105-110|1970|
29626|T||Singh,V.|Effect of Soaking Period and Gibberellic Acid on Sprouting and Yield of Potato (Solanum tuberosum L.)|Hortic. Sci.2:21-26|1970|
29627|T||Soni,S.L., and R. Singh|Influence of Plant Growth Regulators on Sex Expression and Sex Ratio in Longmelon (Cucumis Melo Var. Utilissimus Roxb.)|Hortic. Sci. (Calcutta)2:15-20|1970|
29628|T||Oyebade,I.T.|Effect of Preharvest Sprays of Ethrel (2-Chloroethane Phosphonic Acid) on Robusta Coffee (Coffea canephora Pierre) Berries|Turrialba21:442-444|1971|
29629|T||Farooqui,A.A., U.G. Nalawadi, and U.V. Sulladmath|Effect of Growth Regulators on the Germination of Sapota (Achras sapota L.) Seeds|Mysore J. Agric. Sci.5:341-343|1971|
29631|T||McEvoy,R.C., and W.L. Koukkari|Effects of Ethylenediaminetetraacetic Acid, Auxin and Gibberellic Acid on Phytochrome Controlled Nyctinasty in Albizzia julibrissin|Physiol. Plant. (Multiple Languages)26:143-147|1972|10.1111/j.1399-3054.1972.tb03557.x
29632|T||Singh,K.|Effect of 2-Chloroethyl Trimethyl Ammonium Chloride on Growth Behavior and Transpiration Related to Tomato Fruit Cracking|JNKVV (Jawaharlal Nehru Krishi Vishwa Vidyalaya) Res. J.5:28-31|1971|
29634|T||Kopcewicz,J.|Influence of Gibberellic Acid and 2-Chloroethyltrimethylammoniumchloride (Ccc) on Estrogen Content of Beans|Biol. Plant. (Praha)13:333-337|1971|10.1007/BF02930921
29637|T||Herichova,A.|Study of the Effect of Isopropyl-N-Phenylcarbamate and Isopropyl-N-(3-Chlorophenyl)Carbamate on Chromosome Structure and Cytokinesis|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant1:147-154|1970|
29640|T||Tal,M., and D. Imber|The Effect of Abscisic Acid on Stomatal Behaviour in Flacca, A Wilty Mutant of Tomato, in Darkness|New Phytol.71:81-84|1972|10.1111/j.1469-8137.1972.tb04812.x
29641|T||Svensson,S.B.|A Comparative Study of the Changes in Root Growth, Induced by Coumarin, Auxin, Ethylene, Kinetin and Gibberellic Acid|Physiol. Plant. (Multiple Languages)26:115-135|1972|10.1111/j.1399-3054.1972.tb03555.x
29642|T||Globerson,D.|The Effects of Gibberellic Acid on Flowering and Seed Production in Carrots|J. Hortic. Sci.47(1): 69-72|1972|10.1080/00221589.1972.11514440
29643|T||Weaver,R.J., and R.M. Pool|Effect of Ethephon and a Morphactin on Growth and Fruiting of 'Thompson Seedless' and 'Carignane' Grapes|Am. J. Enol. Vitic.22:234-239|1971|10.5344/ajev.1971.22.4.234
29645|T||Hruska,L., and F. Novak|The Influence of the Application of Herbicides on Some Potato-D Varieties and on Their Seed Value|Ved. Pr. Vyzk. Slechtitelskeho Ustavu Bramborarskeho Havlickove Brode3:117-135|1966|
29647|T||El-Mahdi,A.M., J. Shaeffer, and T. Merz|The Effect of BudR on the Cycle of Irradiated and Unirradiated Meristimatic Cells of Vicia faba|Radiat. Bot.12(1): 1-6|1972|10.1016/S0033-7560(72)90011-7
29648|T||Salminen,S.O., A.A. Gagianas, and A.R. Berg|The Effect of NAA (1-Naphthaleneacetic Acid) and Morphactin (Methyl 2-Chloro-9-Hydroxyfluorene-9-Carboxylate) on RNA and Protein Synthesis in Senescing Bean End|Physiol. Plant. (Multiple Languages)26:186-190|1972|
29649|T||Jona,R., R. Goren, and S.P. Monselise|Further Studies on the Effect of Nucleic Acids on Shoot and Flower Formation in Citrus Trees|Bot. Gaz.132(4): 332-336|1971|10.1086/336599
29650|T||Majumdar,P.K., G.C. Singh, and R.N. Singh|Effect of Exogenous Application of alpha-Naphthyl-Acetic Acid on Mango (Mangifera indica L.) Malformation|Indian J. Hortic.27(3/4): 130-131|1970|
29653|T||Sen,P.K., and S.K. Sen|Effects of Growth Retarding and Growth Promoting Chemicals on Growth and Flowering of Some Annuals|Indian J. Hortic.25(3/4): 219-224|1968|
29656|T||Berman,T.|The Effects of Amino Acids and Growth Regulators on Abscission in Cotton Explants|Isr. J. Agric. Res.19:129-130|1969|
29658|T||Byers,R.E., L.R. Baker, H.M. Sell, R.C. Herner, and D.R. Dilley|Ethylene: A Natural Regulator of Sex Expression of Cucumis melo L.|Proc. Northeast. Weed Control Conf.69(3): 717-720|1972|
29659|T||Dalessandro,G., F. Vita, and R. Lavecchia|Inhibition of Oxidative Phosphorylation on Mitochondria Isolated from Pea Seedlings Treated with CCC|Z. Pflanzenphysiol. (Multiple Languages)66:254-257|1972|10.1016/S0044-328X(72)80080-1
29664|T||Eady,F.C., and G.W. Eaton|The Role of Gibberellic Acid and Gibberellin-Like Substances in the Dormancy of the Cranberry|Can. J. Plant Sci.52(3): 263-271|1972|10.4141/cjps72-043
29665|T||Byers,R.E., F.H. Emerson, and H.C. Dostal|The Effect of Succinic Acid 2,2-Dimethylhydrazide (SADH) and Other Growth Regulating Chemicals on Peach Fruit Maturation|J. Am. Soc. Hortic. Sci.97(3): 420-423|1972|10.21273/JASHS.97.3.420
29666|T||Drennan,D.S.H., and C. Norton|The Effect of Ethrel on Nodulation in Pisum sativum L.|Plant Soil36:53-57|1972|10.1007/BF01373456
29667|T||Gubbels,G.H.|Effects of Growth Regulators on Sprout Formation and Plant Height of Brussels Sprouts|Can. J. Plant Sci.52:311-314|1972|10.4141/cjps72-049
29671|T||Humphries,E.C., and P.W. Dyson|Effect of a Growth Inhibitor, N-Dimethylaminosuccinamic Acid (B9), on Potato Plants in the Field|Potato Res.10:116-126|1967|10.1007/BF02364528
29672|T||Grover,R.|Effects of Chemical Weed Control on the Growth Patterns of Conifer Transplants|Weed Res. (Multiple Languages)7:155-163|1967|10.1111/j.1365-3180.1967.tb01363.x
29676|T||Sumner,D.C., and J.L. Lyon|Effects of (+-)-Abscisin II on Seed Germination in Four Species of Grasses|Planta (Multiple Languages)75:28-32|1967|10.1007/BF00380836
29677|T||Eshel,Y., and G.F. Warren|Postemergence Action of CIPC|Weeds (Urbana)15:237-241|1967|10.2307/4041212
29678|T||Seidlova,F., and S. Khatoon|Effects of Indol-3Yl Acetic Acid on Floral Induction and Apical Differentiation in Chenopodium rubrum L.|Ann. Bot.40:37-42|1976|10.1093/oxfordjournals.aob.a085112
29679|T||Goren,R., and M. Huberman|Effects of Ethylene and 2,4-D on the Activity of Cellulase Isoenzymes in Abscission Zones of the Developing Orange Fruit|Physiol. Plant. (Multiple Languages)37:123-130|1976|10.1111/j.1399-3054.1976.tb03944.x
29680|T||Ruposhev,A.R.|Modification of the Mutagenic Effect of Ethyleneimine in Crepis capillaris L.|Cytol. Genet.10(2): 12-14|1976|
29682|T||Lawson,H.M., and J.S. Wiseman|Weed Control in Red Beet Grown in Beds|Exp. Hortic.27:75-87|1975|
29683|T||Van Marrewijk,N.P.A.|Artificial Cold Treatment, Gibberellin Application and Flowering Response of Kohlrabi|Sci. Hortic.4(4): 367-375|1976|10.1016/0304-4238(76)90105-9
29684|T||White,J.C.|Correlative Inhibition of Lateral Bud Growth in Phaseolus vulgaris L. Effect of Application of Indol-3Yl-Acetic Acid to Decapitated Plants|Ann. Bot.40(167): 521-529|1976|10.1093/oxfordjournals.aob.a085162
29687|T||Hopping,M.E.|Effect of Exogenous Auxins, Gibberellins, and Cytokinins on Fruit Development in Chinese Gooseberry (Actinidia chinensis Planch.)|N. Z. J. Bot.14:69-75|1976|10.1080/0028825X.1976.10428652
29688|T||Adato,I., and S. Gazit|Postharvest Response of Avocado Fruits of Different Maturity to Delayed Ethylene Treatments|Plant Physiol.53:899-902|1974|10.1104/pp.53.6.899
29689|T||Shoub,J., and A.A. De Hertogh|Effects of Ancymidol and Gibberellins A3, A4 and A7 on Tulipa gesneriana L. cv. Paul Richter During Development in the Greenhouse|Sci. Hortic.2:55-67|1974|10.1016/0304-4238(74)90020-X
29690|T||Turgeon,A.J., J.B. Beard, D.P. Martin, and W.F. Meggitt|Effects of Successive Applications of Preemergence Herbicides on Turf|Weed Sci.22(4): 349-352|1974|10.1017/S0043174500037425
29691|T||Loreti,F., and S. Natal|"Effect of (2-Chloroethyl) Trimethyl-Ammonium Chloride on Growth and Fruiting of ""Ciliegiolo"" Grape Variety"|Am. J. Enol. Vitic.25(1): 21-23|1974|10.5344/ajev.1974.25.1.21
29692|T||Weaver,R.J., and R. Montgomery|Effect of Ethephon on Coloration and Maturation of Wine Grapes|Am. J. Enol. Vitic.25:39-41|1974|10.5344/ajev.1974.25.1.39
29693|T||Dhuria,H.S., and D. Leela|Chemical Control of Weeds in Banana|Indian J. Hortic.28(1): 22-24|1971|
29694|T||Kawase,M.|Role of Ethylene in Induction of Flooding Damage in Sunflower|Physiol. Plant. (Multiple Languages)31(1): 29-38|1974|10.1111/j.1399-3054.1974.tb03673.x
29695|T||Wielgat,B., L.D. Wasilewska, and K. Kleczkowski|Effect of Growth Substances on RNA Synthesis During Maize Seed Germination|Acta Biochim. Pol.21(1): 9-16|1974|
29696|T||Bruchmann,E.E., and E. Kolb|Effect of Inhibitors on the Flavor-Forming Enzyme System from the Raspberry Calyx Cone|LWT Food Sci. Technol.6(3): 107-110|1973|
29698|T||Jaworski,J.G., and J. Kuc|Effect of Ethrel and Ceratocystis Fimbriata on the Synthesis of Fatty Acids and O-Methoxy Mellein in Carrot Root|Plant Physiol.53:331-336|1974|10.1104/pp.53.3.331
29699|T||Loy,J.B., and P.B.W. Liu|Response of Seedlings of a Dwarf and a Normal Strain of Watermelon to Gibberellins|Plant Physiol.53:325-330|1974|10.1104/pp.53.3.325
29702|T||Bhandari,M.C., and D.N. Sen|Effect of Certain Growth Regulators in the Sex Expression of Citrullus lanatus (Thunb.) Mansf.|Biochem. Physiol. Pflanzen (Multiple Languages)164(8): 450-453|1973|10.1016/S0015-3796(17)30716-3
29704|T||Robnett,W.E., and P.R. Morey|Effect of Ethephon on Mesquite and Huisache Stem Anatomy|Weed Sci.22:280-284|1974|10.1017/S0043174500037073
29705|T||Basler,E., and F.W. Slife|Salt and Abscisic Acid Effects on 2,4,5-T Translocation|Weed Sci.22(3): 197-200|1974|10.1017/S0043174500036894
29707|T||Rylski,I., L. Rappaport, and H.K. Pratt|Dual Effects of Ethylene on Potato Dormancy and Sprout Growth|Plant Physiol.53:658-662|1974|10.1104/pp.53.4.658
29708|T||Ross,C.|Effects of Cycloheximide upon Formation of Ribonucleic Acid Cytidylic and Uridylic Acids|Plant Physiol.53:635-637|1974|10.1104/pp.53.4.635
29710|T||Knypl,J.S.|Effects of Growth Retarding Compounds on Chlorophyll Accumulation and Nitrate Reductase Activity in Nitrate Induced Cucumber Cotyledons|Acta Soc. Bot. Pol.42(3): 431-439|1973|10.5586/asbp.1973.033
29711|T||Mierzwinska,T.|Influence of Gibberellic Acid on Hydrolytic Enzymes Activity in Germinating Different-Aged Lupin Seeds|Acta Soc. Bot. Pol.42(4): 504-520|1973|
29712|T||Verma,R.M., and D.C. Warke|Responses to Gibberellin of Anab-E-Shahi Grapes (Vitis vinifera L.)|PKV Res. J.1:172-175|1973|
29713|T||Senter,S.D.|Effects of SADH on Flavor and Select Physicochemical Properties of Freestone Peaches|Hortscience9(1): 30-32|1974|10.21273/HORTSCI.9.1.30
29714|T||Greene,D.W., W.J. Lord, W.J. Bramlage, and F.W. Southwick|Effects of Low Ethephon Concentrations on Quality of Mcintosh Apples|J. Am. Soc. Hortic. Sci.99:239-242|1974|10.21273/JASHS.99.3.239
29716|T||Patrick,J.W., and P.F. Warewg|Auxin-Promoted Transport of Metabolites in Stems of Phaseolus vulgaris L.:  Some Characteristics of the Experimental Transport Systems|J. Exp. Bot.24(83): 1158-1171|1973|10.1093/jxb/24.6.1158
29720|T||Knypl,J.S.|Induction of Nitrate Reductase by Succinic Acid-2,2-Dimethylhydrazide in Cucumber Cotyledons|Z. Pflanzenphysiol. (Multiple Languages)71:37-48|1974|10.1016/S0044-328X(74)80183-2
29721|T||Shimabukuro,R.H.|Atrazine Metabolism and Herbicidal Selectivity|Plant Physiol.42:1269-1276|1967|10.1104/pp.42.9.1269
29724|T||Syrbu,G.A.|Use of New Herbicides for Control of Grassy Weeds in Rice Fields|Izv. Akad. Nauk Kaz. SSR1:38-42|1967|
29727|T||Burns,R.M., S.M. Mircetich, C.W.,Jr. Coggins, and G.A. Zentmyer|Gibberellin Increases Growth of Duke Avocado Seedlings|Calif. Agric.20:6-7|1966|
29728|T||Phillips,R.L., and W.R. Meagher|Physiological Effects and Chemical Residues Resulting from 2,4-D and 2,4,5-TP Sprays Used for Control of Preharvest Fruit Drop in 'Pineapple' Oranges|Annu. Meet. Fla. State Hortic. Soc.79:75-79|1966|
29732|T||Molberg,E.S.|Tolerance of Flax to Dicamba Applied to the Foliage and to the Soil|Can. J. Plant Sci.47:593-596|1967|10.4141/cjps67-102
29733|T||Desouher,M.|On the Use of Chemical Weed-Killers for the Destruction of Parasitic Weeds in Harvests|Bull. Seances Soc. R. Cent. Agric. (Non-English)52:1234-1247|1966|
29735|T||Bedesem,P.P.,Jr.|Histogenetic Effects of 2,3,5 Triiodobenzoic Acid on the Shoot Apices and Leaf Primordia of Tomato|Bull. Torrey Bot. Club85(6): 434-472|1958|10.2307/2483165
29736|T||Campbell,M.H., J.J. Dellow, and A.R. Gilmour|Effect of Time of Application of Herbicides on the Long-Term Control of St. Johns Wort (Hypercium perforatum var. angustifolium)|Aust. J. Exp. Agric. Anim. Husb.19(101): 746-748|1979|10.1071/EA9790746
29737|T||Kulka,K., S. Weidner, and A. Rejowski|The Effect of GA3 on the Biosynthesis of Ribonucleic Acids in Embryos of Winter Barley|Bull. Acad. Pol. Sci. Ser. Sci. Biol.27(6): 445-450|1979|
29740|T||Blake,T.J., R.P. Pharis, and D.M. Reid|Ethylene, Gibberellins, Auxin and the Apical Control of Branch Angle in a Conifer, Cupressus arizonica|Planta (Multiple Languages)148(1): 64-68|1980|10.1007/BF00385443
29741|T||Pavlenko,A.D.|Auxin-Induced Elongation Growth of Isolated Protoplasts|Dokl. Akad. Nauk Uzb. SSR0:154-156|1979|
29744|T||Nowacki,J., and R.S. Bandurski|Myo-Inositol Esters of Indole-3-Acetic Acid as Seed Auxin Precursors of Zea mays L.|Plant Physiol.65:422-427|1980|10.1104/pp.65.3.422
29745|T||Glinka,Z.|Abscisic Acid Promotes Both Volume Flow and Ion Release to the Xylem in Sunflower Roots|Plant Physiol.65:537-540|1980|10.1104/pp.65.3.537
29746|T||Hoagland,R.E.|Effects of Triacontanol on Seed Germination and Early Growth|Bot. Gaz.141(1): 53-55|1980|10.1086/337121
29747|T||Srinivasan,C., and M.G. Mullins|Effects of Temperature and Growth Regulators on Formation of Anlagen, Tendrils and Inflorescences in Vitis vinifera L.|Ann. Bot.45:439-446|1980|10.1093/oxfordjournals.aob.a085842
29750|T||Wiebosch,W.A., and J. Berghoef|Parthenocarpic Fruiting in Pickling Cucumber Induced by Chlorflurenol|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)39:625-635|1974|
29753|T||Ali-Zade,M.A., and S.H.I. Gadzhieva|The Effect of Growth Promoters on the Content of Nucleic Acids in the Root Zones of Peas|Izv. Akad. Nauk Arm. SSR Biol. Nauk (Multiple Languages)1:42-44|1975|
29758|T||Young,R.H., and O.L. Jahn|The Fate of 1,2-14C-(2-Chloroethyl)Phosphonic Acid in Citrus|J. Am. Soc. Hortic. Sci.100:496-499|1975|10.21273/JASHS.100.5.496
29759|T||Shukla,S.N., and M.N. Tewari|Note on the Increase in Fruit Growth of Okra (Abelmoschus esculentus (L.) Moench) by Treatment with Growth-Retardants|Indian J. Agric. Sci.43(10): 969-971|1973|
29760|T||Vitagliano,C.|Effects of Ethephon on Stomata, Ethylene Evolution and Abscission in Olive (Olea Europae L.), Cv. Coratina|J. Am. Soc. Hortic. Sci.100:482-484|1975|10.21273/JASHS.100.5.482
29761|T||Andrew,L.A., D.P. Ormrod, and W.D. Evans|Chlorflurenol-Induced Crown Division of Everbearing Strawberries|Hortscience10(5): 528-529|1975|10.21273/HORTSCI.10.5.528
29764|T||Artamonova,G.M.|Nature of the Response Reaction of Germinating Pea Seedlings as a Function of 2,4-D Concentration and Carbohydrate Supply|Sov. Plant Physiol.22(2): 332-337|1975|
29765|T||Sun,C.N.|Histological Responses of Soybean Seedlings and Morphological Changes of Mitochondria Following Treatment with Triethylamine 2,4,5-Trichlorophenoxyacetate|Bull. Torrey Bot. Club85(6): 476-482|1958|10.2307/2483167
29766|T||Drozdov,S.N., and R.I. Volkova|Effect of Kinetin on Potato Growth and Productivity|Sov. Plant Physiol.22(3): 527-528|1975|
29767|T||Martinez-Honduvilla,C.J., M. Fernandez, G. De Castro, and A. Santos-Ruiz|Effects of Abscisic Acid and Other Plant Growth Substances on Seed Germination|Rev. Esp. Fisiol.31:187-190|1975|
29775|T||Haddon,L., and D.H. Northcote|The Influence of Gibberellic Acid and Abscisic Acid on Cell and Tissue Differentiation of Bean Callus|J. Cell Sci.20:47-55|1976|10.1242/jcs.20.1.47
29776|T||Elmore,H.W., and D.P. Whittier|Ethylene Production and Ethylene-Induced Apogamous Bud Formation in Nine Gametophytic Strains of Pteridium aquilinum (L.) Kuhn|Ann. Bot.39:965-971|1975|10.1093/oxfordjournals.aob.a085015
29781|T||Holm,R.E., W.T. Chin, D.H. Wagner, and D.E. Stallard|Metabolism of Thiofanox in Cotton Plants|J. Agric. Food Chem.23(6): 1056-1060|1975|10.1021/jf60202a003
29784|T||Modiwala,Q.A.N., and P.S. Dubey|Effect of Herbicides on the Mortality and Growth of Seedlings of Three Weeds|Geobios2(5): 135-137|1975|
29785|T||Little,C.H.A., and K. Loach|Effect of Gibberellic Acid on Growth and Photosynthesis in Abies balsamea|Can. J. Bot.53:1805-1810|1975|10.1139/b75-210
29786|T||Ogg,A.G.,Jr.|Control of Canada Thistle and Field Bindweed in Asparagus|Weed Sci.23(6): 458-461|1975|10.1017/S0043174500065012
29789|T||Verma,D.C., J. Tavares, and F.A. Loewus|Effect of Benzyladenine, 2,4-Dichlorophenoxyacetic Acid, and D-Glucose on myo-Inositol Metabolism in Acer pseudoplatanus L. Cells Grown in Suspension Culture|Plant Physiol.57:241-244|1976|10.1104/pp.57.2.241
29790|T||Kollmorgen,J.F., and D.J. Ballinger|Suppression of the Emergence of Wheat and Barley by Mancozeb|Aust. J. Exp. Agric. Anim. Husb.15:700-704|1975|10.1071/EA9750700
29791|T||Ching,K.K., and T.M. Ching|Extracting Douglas-Fir Pollen and Effects of Gibberellic Acid on Its Germination|For. Sci.5:74-80|1959|
29792|T||Clor,M.A., H.B. Currier, and C.R. Stocking|Growth Responses Resulting from Gibberellic Acid and 2,4-D Interaction|Bot. Gaz.120:80-87|1958|10.1086/336006
29794|T||Lapins,K.O.|Polyploidy and Mutations Induced in Apricot by Colchicine Treatment|Can. J. Genet. Cytol.17:591-599|1975|10.1139/g75-073
29796|T||West,L.D., T.J. Muzik, and R.E. Witters|Differential Gas Exchange Responses of Two Biotypes of Redroot Pigweed to Atrazine|Weed Sci.24(1): 68-72|1976|10.1017/S0043174500065449
29798|T||Agamalian,H., A. Lange, J. Lyons, E. Stilwell, H. Ford, H. Kempen, O. McCoy, and F. Robinson|Pre-Emergence Herbicides for Weed Control in Lettuce|Calif. Agric.21:8-9|1967|
29799|T||Wilson,H.P., F.B. Stewart, and T.E. Hines|Effect of Temperature on Response of Tomatoes to Several Dinitroaniline Herbicides and Phosphorus|Weed Sci.24(1): 115-119|1976|10.1017/S0043174500065516
29800|T||Aikawa,T., Y. Oshima, and M. Eto|Herbicidal Activity of Caprolactam Derivatives|J. Fac. Agric. Kyushu Univ.20(2): 75-78|1976|10.5109/22889
29802|T||Mukherjee,D.P., and T.K. Bose|Effect of Growth Substances on Seed Formation in Calendula|Proc. India Symp. Hortic.Feb:127-130|1966|
29805|T||Sharma,M.P., and W.H. Vandenborn|Effect of Picloram on 14CO2-Fixation and Translocation of 14C-Assimilates in Canada Thistle, Soybean and Corn|Can. J. Bot.49(1): 69-74|1971|10.1139/b71-015
29807|T||Minocha,J.L., A.K. Gupta, and D.S. Brar|Mutations Induced in Two Varieties of Wheat with Ethyl Methanesulphonate|J. Res. Punjab Agric. Univ.7(2): 135-138|1970|
29808|T||Chang,F.Y., and W.H. Vanden Born|Translocation and Metabolism of Dicamba in Tartary Buckwheat|Weed Sci.19:107-112|1971|10.1017/S0043174500048402
29810|T||Fretz,T.A., and T.S. Davis|Effect of Indolebutyric Acid and Succinic Acid-2,2-Dimethylhydrazide on Adventitious Root Formation of Woody Cuttings|Hortscience6(1): 18-19|1971|10.21273/HORTSCI.6.1.18
29811|T||Selimi,A.|Effect of 2,4,5-Trichlorophenoxypropionic Acid on Setting and Cropping of Packham's Triumph Pear Under Goulburn Valley Conditions|Aust. J. Exp. Agric. Anim. Husb.10(47): 798-801|1970|10.1071/EA9700798
29812|T||Ben Yehoshua,S., S. Iwahori, and J.M. Lyons|Role of Ethylene and Ethrel in the Development of Fig Fruit|Isr. J. Agric. Res.20:173-177|1970|
29813|T||Prasad,A., and I.D. Tyagi|Effect of Plant Growth Regulators on Sex-Expression, Fruit Development and Quality in the Watermelon (Citrullus vulgaris Schard)|Agra Univ. J. Res. Sci.17(2): 1-5|1968|
29814|T||Ghosh,M.S., and T.K. Bose|Sex Modification in Cucurbitaceous Plants by Using CCC|Phyton (Horn) (Multiple Languages)27(2): 131-135|1970|
29817|T||Rejowski,A., and K. Kulka|Influence of Gibberellic Acid on Nucleic Acids Synthesis in Resting Spring Barley Seeds|Acta Soc. Bot. Pol.39(2): 243-250|1970|10.5586/asbp.1970.019
29818|T||Kopcewicz,J.|Effect of Estradiol-17beta, Estrone and Estriol on the Endogenous Auxins Content in Plants|Acta Soc. Bot. Pol.39(2): 339-346|1970|10.5586/asbp.1970.026
29819|T||Bal,A.K.|Effect of Actinomycin D on Root Meristem Cells of Allium cepa L.|Z. Pflanzenphysiol. (Multiple Languages)63(3): 261-268|1970|
29820|T||Dezsi,L., and G. Palfi|The Effect of Kinetin on the Accumulation of Pipecolic Acid in Isolated Leaves|Acta Agron. Acad. Sci. Hung.19(3-4): 255-262|1970|
29821|T||Haissig,B.E.|Influence of Indole-3-Acetic Acid on Adventitious Root Primordia of Brittle Willow|Planta (Multiple Languages)95:27-35|1970|10.1007/BF00431118
29824|T||Dekazos,E.D., and J.F. Worley|Effect of Succinic Acid 2,2-Dimethyl Hydrazide on Anthocyanin Metabolism and Cell Wall Carbohydrates in Red Tart Cherries, Prunus cerasus L., Cv. Montmorency|J. Am. Soc. Hortic. Sci.95(6): 703-706|1970|10.21273/JASHS.95.6.703
29825|T||Sims,W.L.|Effects of Ethrel on Fruit Ripening of Tomatoes Greenhouse, Field and Postharvest Trials|Calif. Agric.23:12-14|1969|
29827|T||Palmer,G.H.|Response of Cereal Grains to Gibberellic Acid|J. Inst. Brew.76(4): 378-380|1970|10.1002/j.2050-0416.1970.tb03315.x
29828|T||Krishnamoorthy,H.N.|Promotion of Rooting in Mung Bean Hypocotyl Cuttings with Ethrel, an Ethylene Releasing Compound|Plant Cell Physiol.11:979-982|1970|10.1093/oxfordjournals.pcp.a074590
29830|T||Jerie,P.H.|The Role of Ethylene in Abscission of Cling Peach Fruit|Aust. J. Plant Physiol.3(6): 747-754|1976|
29831|A||Chen,S.S.C., and W.M. Park|Dual Effects of Abscisic Acid on the Growth of a Duckweed|Taiwania21:50-51|1976|
29833|T||Jindal,K.K., and T. Hembert|Influence of Gibberellic Acid on Growth and Endogenous Auxin Level in Epicotyl and Hypocotyl Tissues of Normal and Dwarf Bean Plants|Physiol. Plant. (Multiple Languages)38(2): 78-82|1976|10.1111/j.1399-3054.1976.tb04862.x
29834|T||Farmahan,H.L., and J.S. Jawanda|Effect of 4-CPA, GA and CCC on the Fruit-Set, Development and Fruit Quality in Thompson Seedless Grape (Vitis vinifera L.)|J. Res. Punjab Agric. Univ.13(1): 57-63|1976|
29836|T||El Beltagy,A.S., E.W. Hewett, and M.A. Hall|Effect of Ethephon (2-Chloroethyl Phosphonic Acid) on Endogenous Levels of Auxins, Inhibitors and Cytokinins in Relation to Senescence and Abscission in Vicia F|J. Hortic. Sci.51:451-465|1976|10.1080/00221589.1976.11514713
29837|T||Pennazio,S., and M. Vecchiati|Effects of Naphthaleneacetic Acid on Potato Meristem Tip Development|Potato Res.19:257-261|1976|10.1007/BF02365717
29840|T||Chang,W.C., and Y.J. Wang|The Effect of Abscisic Acid on the Auxin Transport in Mungbean Hypocotyl Segments|Bot. Bull. Acad. Sin. (Taipei)17:203-213|1976|
29842|T||Palmer,J.H.|Failure of Ethylene to Change the Distribution of Indoleacetic Acid in the Petiole of Coleus blumei X frederici During Epinasty|Plant Physiol.58:513-515|1976|10.1104/pp.58.4.513
29843|T||Vereecke,M.|The Influence of Early Pinching with Fatty Alcohols and Methyl Esters of Fatty Acids on Brussels Sprouts|Hortscience11(5): 478-479|1976|10.21273/HORTSCI.11.5.478
29844|T||Gilbert,M.|Fate of Chlorothalonil in Apple Foliage and Fruit|J. Agric. Food Chem.24(5): 1004-1007|1976|10.1021/jf60207a010
29845|T||Maun,M.A., and W.J. McLeod|Absorption and Metabolism of Metribuzin in Barnyard Grass and American Nightshade|Can. J. Plant Sci.58:485-491|1978|10.4141/cjps78-073
29846|T||Ahmad,S.M., and P. Mathew|Study on the Effect of IAA and GA3 on Rooting of Mulberry Stem|Geobios5:107-110|1978|
29847|T||McIntyre,G.I., W.W. Fleming, and J.H. Hunter|Effect of Shoot Decapitation on the Translocation of 2,4-D in Cirsium Arvense|Can. J. Bot.56:715-720|1978|10.1139/b78-078
29848|T||Freeman,J.A., and D.G. Finlayson|Response of Cole Crops to Combinations of Herbicides and Insecticides|J. Am. Soc. Hortic. Sci.103(3): 423-428|1978|10.21273/JASHS.103.3.423
29849|T||Geuns,J.M.C.|Metyrapone and the Inhibition of Growth, Anthocyanin, Carotenoid and Chlorophyll Biosynthesis in Mung Bean Seedlings|Biochem. Physiol. Pflanzen (Multiple Languages)171(8): 435-447|1977|10.1016/S0015-3796(17)30333-5
29851|T||Church,R.M., and R.R. Williams|Fungicide Toxicity to Apple Pollen in the Anther|J. Hortic. Sci.53:91-94|1978|10.1080/00221589.1978.11514800
29852|T||Cockshull,K.E., and J.S. Horridge|2-Chloroethylphosphonic Acid and Flower Initiation by Chrysanthemum morifolium Ramat. in Short Days and in Long Days|J. Hortic. Sci.53:85-90|1978|10.1080/00221589.1978.11514799
29853|T||Armitage,A.M., M.J. Tsujita, and P.M. Harney|Effects of Cycocel and High Intensity Lighting on Flowering of Seed-Propagated Geraniums|J. Hortic. Sci.53:147-150|1978|10.1080/00221589.1978.11514810
29854|T||Karhiniemi,A.|Trials with Some Residual Herbicides in Nursery Plants|Ann. Agric. Fenn.16:37-48|1977|
29855|T||Cathey,G.W.|Evaluation of Potassium 3,4-Dichloroisothiazole-5-Carboxylate as a Harvest-Aid Chemical on Cotton|Crop Sci.18(2): 301-304|1978|10.2135/cropsci1978.0011183X00180002027x
29856|T||Abou-Zied,E.N., A.I. Gabr, M.R. Shedeed, and S.E. El-Sherbeny|The Effect of B-Nine on Growth of Datura metel L.|Acta Agron. Acad. Sci. Hung.27:144-151|1978|
29862|T||Zobel,R.W., and L.W. Roberts|Effects of Low Concentrations of Ethylene on Cell Division and Cytodifferentiation in Lettuce Pith Explants|Can. J. Bot.56(8): 987-990|1978|10.1139/b78-110
29863|T||Fisher,R.W., and J.H. Miller|Growth Regulation by Ethylene in Fern Gametophytes: V. Ethylene and the Early Events of Spore Germination|Am. J. Bot.65:334-339|1978|10.1002/j.1537-2197.1978.tb06075.x
29864|T||Sander,D.J., and A.V. Barker|Comparative Toxicity of Nitrapyrin and 6-Chloropicolinic Acid to Radish and Cucumber Under Different N Nutrition Regimes|Agron. J.70:295-298|1978|10.2134/agronj1978.00021962007000020019x
29865|T||Jalali,B.L., and K.H. Domsch|Effect of Some Fungitoxicants on the Amino Acid Spectrum of Wheat Root Exudates|Phytopathol. Z. (Multiple Languages)90(1): 22-26|1977|10.1111/j.1439-0434.1977.tb02881.x
29868|T||Ginzo,H.D., M.S. Carceller, and E. Fonseca|CCC /(2-Chloroethyl)Trimethyl-Ammonium Chloride/ and the Regulation of Plant Water Status in Wheat (Triticum aestivum L.)|Phyton (Horn) (Multiple Languages)35(1): 85-92|1977|
29872|T||Brian,P.W., J.H.P. Petty, and P.T. Richmond|Effects of Gibberellic Acid on Development of Autumn Colour and Leaf-Fall of Deciduous Woody Plants|Nature183(4653): 58-59|1959|10.1038/183058a0
29873|T||Guttridge,C.G., and P.A. Thompson|Effect of Gibberellic Acid on Length and Number of Epidermal Cells in Petioles of Strawberry|Nature183(4655): 197-198|1959|10.1038/183197b0
29876|T||Thimann,K.V.|Auxin Activity of Some Indole Derivatives|Plant Physiol.33:311-321|1958|10.1104/pp.33.5.311
29878|T||Ivanov,V.B., N.V. Obrucheva, and T.K. Litinskaya|Analysis of the Effects of Chloramphenicol on Corn-Root Growth|Sov. Plant Physiol.14:785-795|1967|
29887|T||Das,T.N., A.S. Raj, and B.V.R. Rao|Cytological Studies in Vicia faba L. Treated with Asafoetida|Cytologia33(1): 100-111|1968|10.1508/cytologia.33.100
29890|T||Bhambota,J.R., and G.L. Kaul|Studies on the Effects of Gibberellic Acid on Growth of Seedlings of Citrus Rootstocks|Indian J. Hortic.23(1/2): 21-29|1966|
29891|T||Bel'Denkova,A.F., I.N. Konovalov, M.I. Chudakov, and L.V. Tarvis|New Plant Growth Stimulators:  Quinone Polycarboxylic Acids|Tr.Bot.Inst.Akad.Nauk SSSR Ser.418:173-183|1966|
29892|T||Sterrett,J.P.|Response of Oak and Red Maple to Herbicides Applied with an Injector|Weed Sci.16(2): 159-160|1968|10.1017/S0043174500046798
29893|T||Magalhaes,A.C., F.M. Ashton, and C.L. Foy|Translocation and Fate of Dicamba in Purple Nutsedge|Weed Sci.16:240-245|1968|10.1017/S0043174500047007
29896|T||Lord,W.J., F.U. Southwick, and R.A.,Jr. Damon|The Influence of N-Dimethyl Amino Succinamic Acid on Flesh Firmness and on Some Pre- and Post Harvest Physiological Disorders of 'Delicious' Apples|Proc. Am. Soc. Hortic. Sci.91:829-832|1967|
29899|T||Brown,L.C., J.C. Crane, and J.A. Beutel|Gibberellic Acid Reduces Cling Peach Flower Buds|Calif. Agric.22:7-8|1968|
29900|T||Kimber,P.C.|Thinning Jarrah with Hormone Herbicides|Aust.For.31:128-136|1967|10.1080/00049158.1967.10675434
29904|T||Shah,G.L., V. Danaiah, and P. Arunakumari|Observations on the Effects of Morphactin EMD 7301 and EMD 7311 on the Number, Size, Morphology and Ontogeny of Cotyledonary Stomata of Abelmoschus esculentus Moench|Biol. Plant. (Praha)19(6): 401-404|1977|10.1007/BF02922973
29905|T||Borowczak,E., T. Kentzer, and B. Potulska-Klein|Effect of Gibberellin and Kinetin on the Regeneration Ability of Fucus vesiculosus L.|Biol. Plant. (Praha)19(6): 405-412|1977|10.1007/BF02922974
29906|T||Felippe,G.M.|Effect of Insect Juvenile Hormone upon Flowering|Z. Pflanzenphysiol. (Multiple Languages)85(3): 269-271|1977|10.1016/S0044-328X(77)80253-5
29910|T||Schwammenhoferova,K., and M. Ondrej|Induction of Chromosomal Disturbances Other than Tetraploidy in Barley Root Tips by Colchicine Treatment|Biol. Plant. (Praha)20(6): 464-467|1978|10.1007/BF02923352
29911|T||Mathur,T.|Role of Phenylmercuric Acetate on Stomatal Regulation and Water Loss in Prosopis cineraria Linn.|Geobios1(2/3): 48-52|1974|
29912|T||Mehta,P.M., M.T. Jacob, and B.V.N. Rao|The Effects of Ascorbic Acid, Kinetin, Coumarin and Their Combinations on the Germination, Growth and the Enzyme Catalase of Cajanus cajan var. Selection 4-1A|Geobios1(2/3): 53-59|1974|
29913|T||Mehta,P.M., R.J. Patel, and B.V.N. Rao|Effects of Gibberellic Acid, Ascorbic Acid, Morphactin and Their Combinations on Seedling Growth and Enzymes of Cicer arietinum L.|Geobios1(5): 130-133|1974|
29914|T||Kaushik,M.P., and B.M. Lal|Effect of Morphactin and Gibberellic Acid on Cotton Seed Germination and Seedling Growth|Geobios1(5): 119-122|1974|
29915|T||Mer,C.L.|On the Inhibition of Mesocotyl Growth by Ethylene|New Phytol.73(4): 643-651|1974|10.1111/j.1469-8137.1974.tb01290.x
29916|T||Kalyanasundaram,P.|Studies on Fruit Drop in Mulgoa Mango (Mangifera indica L.)|Indian J. Hortic.31(1): 47-51|1974|
29917|T||Kale,P.N., and B.G. Bhujbal|Use of Growth Regulators in Rooting of Cuttings of Bougainvillea var. Mary Palmer|Indian J. Hortic.29(3/4): 307-309|1972|
29919|T||Tompkins,D.R., and R.D. Horton|Sprouting of Sweet Potatoes from Root Pieces as Influenced by Gibberellic Acid or Ethephon|Hortscience9:392-393|1974|10.21273/HORTSCI.9.4.392
29921|T||Emmerikh,F.D.|Effect of Adenine on Heat Resistance of Tomatoes|Sov. Plant Physiol.20(6): 1096-1098|1973|
29923|T||Fahmy,R.|Soaking Jute Seeds in Different Concentrations of Gibberellic Acid, 2,4-D and Colchicine and Its Effect on Germination and Organic Compounds Formed in the Seedlings|Biochem. Physiol. Pflanzen (Multiple Languages)165:141-148|1974|10.1016/S0015-3796(17)30923-X
29925|T||Lall,S.B., and N.R. Shastri|Response of Tomato (Lycopersicon esculentum L.) to Certain Growth Regulating Substances|Botanique (Nagpur)5(1): 57-65|1974|
29928|T||Tewari,M.N., C. Ram, and S. Kathju|Effect of Chlorophenoxyacetic Acids on Growth and Activity of Certain Enzymes in Cyamopsis tetragonoloba (L) Taub Seedlings|Folia Biol. (Krakow)21(4): 429-438|1973|
29929|T||Wheaton,T.A.|Fruit Thinning of Tangerines with Naphthaleneacetic Acid|Proc. Annu. Meet. Fla. State Hortic. Soc.86:48-52|1973|
29930|T||Jakob,M., R. Hippler, and H.R. Luethi|The Influence of Pectolytic Enzyme Preparations on the Aroma of Apple Juice|LWT Food Sci. Technol.6(4): 138-141|1973|
29933|T||Myrianthousis,T.S., and K.P. Hadjigiorgis|Flower Thinning and Berry Enlargement of Sultanina by Gibberellin Sprays|Cyprus Agric. Res. Inst. Tech. Bull.13:1-10|1973|
29934|T||Briggs,C.J.|Effects of Polybutene Emulsion Sprays on the Composition of Peppermint Oils|Planta Med.24:120-126|1973|10.1055/s-0028-1099478
29935|T||Mishra,D., and P. Pradhan|Regulation of Senescence in Detached Rice Leaves by Light, Benzimidazole and Kinetin|Exp. Gerontol.8:153-155|1973|10.1016/0531-5565(73)90005-3
29937|T||Norris,R.F.|Penetration of 2,4-D in Relation to Cuticle Thickness|Am. J. Bot.61:74-79|1974|
29938|T||Thomas,T.H., I.E. Currah, and P.J. Salter|Effect on Carrot Root Yield and Size Distribution of the Growth-Retardants Chlormequat Chloride and Aminozide|Ann. Appl. Biol.75:63-70|1973|10.1111/j.1744-7348.1973.tb01338.x
29939|T||Jawanda,J.S., R. Singh, and G.S. Chohan|The Effect of Gibberellic Acid on the Grape Cultivar -  Thompson Seedless (Vitis vinifera L.)|J. Res. Punjab Agric. Univ.9(4): 557-563|1972|
29940|T||Tsay,R., and F.M. Ashton|Influence of 2,4-D, Dicamba, and Naptalam on Hormonal Control of Dipeptidase|Weed Sci.22(1): 72-74|1974|10.1017/S0043174500036559
29943|T||Wodzicki,T.J., and A.B. Wodzicki|Auxin Stimulation of Cambial Activity in Pinus silvestris: II. Dependence upon Basipetal Transport|Physiol. Plant. (Multiple Languages)29(3): 288-292|1973|10.1111/j.1399-3054.1973.tb04827.x
29945|T||Kukulczanka,K., and B. Twarda-Predota|Effect of Morphactin on Differentiation and Development of Cymbidium Sw. Protocorms Cultured In Vitro|Acta Soc. Bot. Pol.42(2): 281-294|1973|10.5586/asbp.1973.021
29946|T||Murayama,K., and K. Ueda|Short-Term Response of Pisum Stem Segments to Indole-3-Acetic Acid|Plant Cell Physiol.14:973-979|1973|
29950|T||Wanjari,K.B., and B.A. Phadnis|Colchicine Induced Cytochimera in Brinjal (Solanum melongena L.)|PKV Res. J.1(1): 136-137|1972|
29952|T||Protsko,R.F.|The Role of Indolyl Acetic Acid in Apical Dominance|Sov. Plant Physiol.20(5): 783-787|1973|
29953|T||Shivanna,K.R.|Effect of Morphactin on Pollen Germination & Pollen Tube Growth in Tobacco (Nicotiana rustica L.)|Indian J. Exp. Biol.11:257-258|1973|
29955|T||Morey,P.R.|Influence of 3,3a-Dihydro-2-(p-Methoxyphenyl)-8H-Pyrazolo-(5,1-a)Isoindol-8-One on Xylem Formation in Honey Mesquite|Weed Sci.22(1): 6-10|1974|10.1017/S0043174500036407
29956|T||Petru,E., and M. Ulrychova|The Effect of Kinetin on the Organogenesis in Tobacco (Nicotiana glauca Grah.) Callus Cultures Derived from Healthy and Mycoplasma-Infected Plants|Biol. Plant. (Praha)15(2): 126-128|1973|10.1007/BF02922354
29957|T||Ilyas,M., and B. Barma|The Effect of Morphactin on Cauliflower Curd-Formation|Biol. Plant. (Praha)15(2): 155-156|1973|10.1007/BF02922363
29958|T||Venverloo,C.J.|The Formation of Adventitious Organs. I. Cytokinin-Induced Formation of Leaves and Shoots in Callus Cultures of Populus nigra L. 'Italica'|Acta Bot. Neerl.22(4): 390-398|1973|10.1111/j.1438-8677.1973.tb00854.x
29959|T||Siebers,A.M., and C.A. Ladage|Factors Controlling Cambial Development in the Hypocotyl of Ricinus communis L.|Acta Bot. Neerl.22(4): 416-432|1973|10.1111/j.1438-8677.1973.tb00857.x
29961|T||Wort,D.J., J.G.,Jr. Severson, and D.R. Peirson|Mechanism of Plant Growth Stimulation by Naphthenic Acid:  Effects on Nitrogen Metabolism of Phaseolus vulgaris L.|Plant Physiol.52:162-165|1973|10.1104/pp.52.2.162
29964|T||Nawa,Y., and T. Asahi|Effect of Cycloheximide on Development of Mitochondria in Germinating Pea Cotyledons|Agric. Biol. Chem.37(4): 937-939|1973|10.1080/00021369.1973.10860770
29967|T||Lavender,D.P., G.B. Sweet, J.B. Zaerr, and R.K. Hermann|Spring Shoot Growth in Douglas-Fir may be Initiated by Gibberellins Exported from the Roots|Science182:838-839|1973|10.1126/science.182.4114.838
29972|T||Halperin,W., and S. Minocha|Benzyladenine Effects on Cell Separation and Wall Metabolism|Can. J. Bot.51:1347-1354|1973|10.1139/b73-169
29973|T||Dierickx,P.J., and J.C. Vendrig|The Influence of the Synthetic Growth Regulator alpha-Chloro-beta-(3-Chloro-o-Tolyl)-Propionitrile on Some Phytochrome-Mediated Processes|Physiol. Plant. (Multiple Languages)28(2): 374-377|1973|10.1111/j.1399-3054.1973.tb01204.x
29976|T||Reinhold,L., and R.G. Powell|The Stimulatory Effect of Indole-3-Acetic Acid on the Uptake of Amino-Acids by Tissue of Helianthus annus|J. Exp. Bot.9(25): 82-96|1958|10.1093/jxb/9.1.82
29978|T||Rojas-Garciduenas,M., and T. Kommedahl|The Effects of 2,4-Dichlorophenoxyacetic Acid on Radicle Development and Stem Anatomy of Soybean|Weeds (Urbana)6:49-51|1958|10.2307/4040307
29979|T||Shafer,N.E., and W.G. Monson|The Role of Gibberellic Acid in Overcoming Bud Dormancy in Perennial Weeds. I. Leafy Spurge (Euphorbia esula L.) and Ironweed (Vernonia baldwini Torr.)|Weeds (Urbana)6:172-178|1958|10.2307/4040290
29980|T||Bruns,V.F., and W.J. Clore|The Response of Certain Crops to 2,4-Dichlorophenoxyacetic Acid in Irrigation Water. Part III. Concord Grapes|Weeds (Urbana)6:187-193|1958|10.2307/4040292
29982|T||Greulach,V.A., and J.G. Haesloop|The Influence of Gibberellic Acid on Cell Division and Cell Elongation in Phaseolus vulgaris|Am. J. Bot.45:566-570|1958|10.1002/j.1537-2197.1958.tb13168.x
29983|T||Andersen,R.N., and E.A. Helgeson|Control of Wild Oats by Prevention of Normal Seed Development with Sodium 2,2-Dichloropropionate|Weeds (Urbana)6:263-270|1958|10.2307/4040156
29984|T||Phillips,W.M.|The Effect of 2,4-D on the Yield of Midland Grain Sorghum|Weeds (Urbana)6:271-280|1958|10.2307/4040157
29985|AT||Bajpai,P.N., and D.R. Thakur|Effect of Some Plant Growth Regulators on Self-Incompatibility in Liquat (Eriobotrya Japonica) Lindley|Sci. Cult.23:321-322|1957|
29988|T||Enright,L.J.|Response of Metasequoia Cuttings to Growth-Regulator Treatments|Bot. Gaz.120(1): 53-54|1958|10.1086/335999
29989|T||Furuya,M., and K. Soma|The Effects of Auxins on the Development of Bean Embryos Cultivated In Vitro|J. Fac. Sci. Univ. Tokyo Sect. III Bot.7(1-3): 163-198|1957|
29991|T||Doorenbos,J.|Effect of Gibberellic Acid on Sprouting of Potatoes|Neth. J. Agric. Sci.6:267-270|1958|10.18174/njas.v6i4.17700
29992|T||Konar,R.N.|Effect of IAA and Kinetin on Pollen Tubes of Pinus roxburghii Sar.|Curr. Sci. (Bangalore)27:216-217|1958|
29994|T||Robertson,J., J.R. Hillman, and A.M.M. Berrie|The Involvement of Indole Acetic Acid in the Thermodormancy of Lettuce Fruits, Lactuca sativa cv. Grand Rapids|Planta (Multiple Languages)131:309-313|1976|10.1007/BF00385432
29995|T||Barlow,P.W.|The Effect of Ethylene on Root Meristems of Pisum sativum and Zea mays|Planta (Multiple Languages)131(3): 235-243|1976|10.1007/BF00385421
29996|T||Tarkowska,J.A., M. Wierzbicka, and M. Grzegolka|Development of Stomata in Hordeum bulgare L. Under the Influence of Oleander Glycosides and Colchicine|Acta Soc. Bot. Pol.44(4): 637-647|1975|10.5586/asbp.1975.058
29997|T||Choudhri,R.S., P.K. Roy Choudhri, and P.A. Veeraghavan|Response of Potato Crop to Treatment with Ascorbic Acid and Cycocel|Indian J. Plant Physiol.19:15-19|1976|
29998|T||Oppenoorth,J.M.|Experiments on Root Formation: II. the Effects of IAA and Kinetin on the Anatomy of the Petiole of Phaseolus  vulgaris|Verh. K. Ned. Akad. Wet. Afd. Natuurkd. Tweede Reeks79:299-306|1976|
29999|T||Shaukat,S.S.|Effects of Simazine, Atrazine and 2,4-D on Respiration Rate, Sugar Level and Amylase Activity During Germination of Pinus nigra var. calabrica Schneid.|Pak. J. Bot.8(1): 37-45|1976|
30000|T||Pingel,U.|The Influence of Phenolic Promotors and Inhibitors of IAA-Oxidase Activity on the Induction of Adventitious Roots in Tradescantia albiflora|Z. Pflanzenphysiol. (Multiple Languages)79:109-120|1976|10.1016/S0044-328X(76)80121-3
30002|T||Ben Tal,Y., and S. Lavee|Ethylene Influence on Leaf and Fruit Detachment in 'Manzanillo' Olive Trees|Sci. Hortic.4:337-344|1976|10.1016/0304-4238(76)90101-1
30005|T||Chalmers,D.J., B. Van den Ende, and P.H. Jerie|The Effect of (2-Chloroethyl)Phosphonic Acid on the Sink Strength of Developing Peach (Prunus Persica L.) Fruit|Planta (Multiple Languages)131:203-205|1976|10.1007/BF00389995
30006|T||Varma,S.K.|Role of Gibberellic Acid in the Phenomena of Abscission in Flower Buds and Bolls of Cotton (Gossypium Hirsutum L.)|Indian J. Plant Physiol.19:40-46|1976|
30008|T||Alexander,A.G., and O. Biddulph|Effects of Paraquat on Carbon Assimilation and Transport by Sugarcane Leaves in White Light and Darkness|Plant Cell Physiol.17:601-609|1976|
30010|T||Shanmugavelu,K.G., R. Chittiraichelvan, and V.N. Madhava Rao|Effect of Ethephon Latex Stimulant on Papaya (Carica Papaya L.)|J. Hortic. Sci.51:425-427|1976|10.1080/00221589.1976.11514708
30011|T||Galal,H.E., and S.A. Abd-Alla|Chromosomal Aberration and Mitotic Inhibition Induced by Sodium Fluoride and Diethylamine in Root-Tip Cells of Allium cepa, Allium sativum and Vicia faba|Egypt. J. Genet. Cytol.5:262-280|1976|
30012|T||Vaisala,L.|Effects of Terpene Compounds on the Growth and Peroxidase Activity of Phellinus pini|Ann. Bot. Fenn.15:131-137|1978|
30014|T||Morris,J.R., D.L. Cawthon, and S.E. Spayd|Evaluation of Daminozide on 'Concord' Grapevines of Different Fruit Set Potential|Hortscience13:696-697|1978|10.21273/HORTSCI.13.6.696
30016|T||Friesen,G.H., and A.S. Hamil|Influence of Sunlight on Metribuzin Injury to Transplanted Tomatoes|Can. J. Plant Sci.58(4): 1115-1118|1978|10.4141/cjps78-170
30017|T||Schweizer,E.E.|Response of Sugar Beets (Beta Vulgaris) to Sublethal Rates of 2,4-D|Weed Sci.26:629-631|1978|10.1017/S0043174500064699
30018|T||Singh,K., R.J. Weaver, and J.O. Johnson|Effect of Applications of Gibberellic Acid on Berry Size, Shatter and Texture of Thompson Seedless Grapes|Am. J. Enol. Vitic.29:258-262|1978|10.5344/ajev.1978.29.4.258
30019|T||Kasimatis,A.N., F.H. Swanson, and E.P.,Jr. Vilas|"Effects of Bloom-Applied Gibberellic Acid on Soluble Solids and Berry Weight of ""Thompson Seedless"" Grapes and on Raisin Grapes"|Am. J. Enol. Vitic.29:263-266|1978|10.5344/ajev.1978.29.4.263
30020|T||Ma,T.H., A.H. Sparrow, L.A. Schairer, and A.F. Nauman|Effect of 1,2-Dibromoethane (DBE) on Meiotic Chromosomes of Tradescantia|Mutat. Res.58:251-258|1978|10.1016/0165-1218(78)90016-2
30021|T||Ficek,S., and S. Wieckowski|The Effect of Chloramphenicol, Actinomycin D and 5-Bromouracil on the Synthesis of Photosynthetic Pigments|Acta Soc. Bot. Pol.43:251-259|1974|10.5586/asbp.1974.024
30023|T||Davtyan,L.V.|Ethanolamine-Induced Shifts in the Fractional Composition of Phospholipids of Germinating Seeds|Biol. Zh. Arm. (Non-English)26:50-54|1973|
30024|T||Michniewicz,M., and E. Galoch|The Role of Vanillin and P-Coumaric Acid in the Growth of Scotch Pine Seedling|Acta Soc. Bot. Pol.43:273-281|1974|10.5586/asbp.1974.026
30028|T||Truelsen,T.A., E. De Langhe, and R. Verbeek-Wyndaele|Cyclic AMP Induced Growth Promotion in Sunflower Callus Tissue|Arch. Int. Physiol. Biochim.82:109-114|1974|10.3109/13813457409070458
30029|T||Frydman,B.M., and P.F. Wareing|Phase Change in Hedera helix L. III.  The Effects of Gibberellic Acid and Growth Retardants on Juvenile and Adult Ivy|J. Exp. Bot.25:420-429|1974|10.1093/jxb/25.2.420
30030|T||Lewak,S., and B. Bryzek|The Influence of Cytokinins on Apple Embryo Photosensitivity and Acid Phosphatase Activity During Stratification|Biol. Plant. (Praha)16:334-340|1974|10.1007/BF02920993
30031|T||Kozhin,A.V., P.V. Kravtsov, and E.P. Skorobogatova|Effects of Thiamine and Riboflavin on Growth and Development of Isolated Pear and Apple Embryos Under Conditions of Sterile Cultures|Sov. Plant Physiol.20(6): 1093-1095|1973|
30032|T||Vetter,J.|Auxin-Induced Changes in the Growth, Peroxidase and Ribonuclease Activity of Maize Seedlings|Ann. Univ. Sci. Bd. Rolando Eotvos Nomin. Sect. Biol.14:73-82|1972|
30033|T||Bondad,N.D., and E.B. Pantastico|Ethrel-Induced Ripening of Immature and Mature-Green Tomato Fruits|Econ. Bot.26:238-244|1972|10.1007/BF02861036
30034|T||Bagar,M.R., R.A. Edwards, and T.H. Lee|Chemical Regulation of Ripening of Processing Tomatoes in the Field|Aust. J. Exp. Agric. Anim. Husb.15:839-846|1975|10.1071/EA9750839
30035|T||Lukasik,S.|Some Observations upon the Influence of Morphactin IT 3456 Applied into the Soil on the Yield of Tomatoes|Acta Agrobot. (Multiple Languages)28:43-55|1975|10.5586/aa.1975.003
30036|T||Lukasik,S.|Influence of Gibberellic Acid on the Growth and Flowering Initiation of Two Types of Peas (Pisum Satimum L.) Differing in Photoperiod Response|Acta Agrobot. (Multiple Languages)28:29-41|1975|10.5586/aa.1975.002
30037|T||Bojarczuk,T., and L.S. Jankiewicz|Influence of Phenolic Substances on Rooting of Softwood Cuttings of Populus Alba L. and P. Canescens Sm|Acta Agrobot. (Multiple Languages)28:121-129|1975|10.5586/aa.1975.009
30038|T||Buczek,J.G.K., and E. Tatkowska|The Influence of Gibberellic Acid and Kinetin on the Growth of Scenedesmus quadricauda (Turp) Bred|Acta Soc. Bot. Pol.44:415-421|1975|10.5586/asbp.1975.037
30039|T||Bobak,M.|Electron Microscopic Study of the Influence of Trifluralin (1,1,1-Trifluoro-2,4-Dinitro-N,N-Dipropyl-P-Toluidine) on the Ultrastructure of the Membrane System I|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant10:11-20|1975|
30040|T||Gabaraeva,N.I., and E.I. Slepyan|Reaction of Plant Seedlings to the Effect of Imino-di-(para-Dimethylaminophenyl)-Methane-Auramine-OO|Vopr. Onkol. (Multiple Languages)21(8): 73-80|1975|
30042|T||Abutalybov,M.G., A.A. Mardanov, and Y.K. Akhmedov|Effects of Substances of a Cytokinin Nature on Admission of Nutrient Elements into the Roots of Intact Plants|Sov. Plant Physiol.22(4): 642-646|1975|
30043|T||Hoad,G.V., and S.P. Monselise|Effects of Succinic Acid 2,2-Dimethylhydrazide (SADH) on the Gibberellin and Abscisic Levels in Stem Tips of M26 Apple Rootstocks|Sci. Hortic.4:41-47|1976|10.1016/0304-4238(76)90063-7
30044|T||Radosevich,S.R., and O.T. Devilliers|Studies on the Mechanism of S-Triazine Resistance in Common Groundsel|Weed Sci.24:229-232|1976|10.1017/S0043174500065814
30046|T||Murphy,R.F.|Chemical Stopping of Brussels Sprouts|Isr. J. Agric. Res.14:199-206|1975|
30047|T||Roy,K., and M.K. Jana|Biological Effects of Ethyl Methanesulphonate and Ethylene Oxide on Rice|Genet. Agrar.29(3/4): 283-294|1975|
30048|T||Kirillova,G.A.|The Effect of Gibberellin on the Change in Some Characters in Forms of Barley with Different Types of Growth|Vestn. Leningr. Univ. Biol.4:138-146|1975|
30049|T||Yakushkina,N.I., and G.P. Pushkina|Changes in the Rate of Photophosphorylation in Corn Seedlings Under the Influence of Gibberellin and Kinetin|Sov. Plant Physiol.22(6): 994-999|1975|
30050|T||Akulova,E.A., S.V. Murzaeva, S.N. Taukeleva, and R.K. Ruzieva|Effect of IAA on the Photophosphorylation of Isolated Pea Chloroplasts|Biokhimiya (Non-English)40:1205-1209|1975|
30051|T||Ravel,P., and D. Leela|Effects of Various Herbicides on the Mineral Constituents of Pineapple Leaves|Geobios3:40-42|1976|
30052|T||Carrasco,L., A. Jimenez, and D. Vazquez|Specific Inhibition of Translocation by Tubulosine in Eukaryotic Polysomes|Eur. J. Biochem.64:1-5|1976|10.1111/j.1432-1033.1976.tb10268.x
30053|T||Blintsor,I.K., and A.A. Valakhanovich|The Effect of Fertilizers and Lupine on Biological Activity of Soil in Oak Plantations|Lesovedenie (Non-English)1:46-51|1976|
30054|T||Scott,K.J., and R.B.H. Wills|Core Flush of Apples: Ii. Effect of Phorone and Gibberellic Acid|J. Hortic. Sci.51:59-64|1976|10.1080/00221589.1976.11514665
30055|T||Apelbaum,A., E.E. Goldschmidt, and S. Ben Yehoshua|Involvement of Endogenous Ethylene in the Induction of Color Change in Shamouti Oranges|Plant Physiol.57:836-838|1976|10.1104/pp.57.5.836
30056|T||Kamerbeek,G.A., and W.J. De Munk|A Review of Ethylene Effects in Bulbous Plants|Sci. Hortic.4:101-115|1976|10.1016/S0304-4238(76)80001-5
30057|T||Wurr,D.C.E.|The Effects of the Growth-Regulating Compounds Methyl Decanoate and 2,3,5-Triiodobenzoic Acid on Potato Tuber Size|J. Agric. Sci.86:251-255|1976|10.1017/S0021859600054708
30059|T||Ahuja,M.R., and G.R. Doering|Effect of Gibberellic Acid on Genetically Controlled Tumour Formation and Vascularization in Tomato|Nature216:800-801|1967|10.1038/216800a0
30060|T||Lange,A.H., B.E. Day, L.S. Jordan, and R.C. Russell|Pre-Emergence Herbicides for Weed Control in Walnuts|Calif. Agric.21:2-4|1967|
30064|T||Mishra,D., and E.R. Gaywood|Effect of Benzimidazole and Kinetin on the Nicotinamide Nucleotide Content of Senescing Wheat Leaves|Can. J. Biochem.46:167-178|1968|10.1139/o68-024
30065|T||Kohler,D.|Effect of 2-Chloro-9-Fluorenol-9-Carbonic Acid on Stem Elongation of Peas in Light and Darkness|Planta (Multiple Languages)79:50-57|1968|10.1007/BF00388821
30066|T||Kimerov,G.|Effect of Succinic Acid on the Water Metabolism of Maize|God. Sofii. Univ. , Biol. Fak.59:71-84|1964|
30067|T||Singh,N., and O.S. Jauhari|Effect of Maleic Hydrazide on Growth, Development and Yield of Pisum sativum L.|Indian J. Hortic.22:351-354|1965|
30068|T||Zanardi,D.|Chemical Herbicides of Grape Vineyards|Not. Mal. Piante (Non-English)62-63:125-131|1962|
30069|T||Wang,F.H., and T.K. Chen|Experimental Studies of Young Ginkgo Embryo: the Effect of Coconut Milk on the Embryos Cultured In Vitro|Acta Bot. Sin.13:220-230|1965|
30070|T||Teltscherova,L., H. Havlickova, and J. Krekule|Effect of (2-Chloroethyl)Trimethylammonium Chloride (Ccc) and Gibberellic Acid (Ga3) on the Flowering of Chenopodium Rubrum L. (A Short-Day Plant)|Biol. Plant. (Praha)9:317-320|1967|10.1007/BF02929773
30071|T||Nasr Taha,A.A.|Effect of Gibberellic Acid on the Rest Period of Plums|Alex. J. Agric. Res.14:59-70|1966|
30072|T||Lalowa,M.|The Effect of Triazone Herbicides on the Sh Groups in (Garden Bean) Plants Glutathione|C. R. Acad. Bulg. Sci.20:229-231|1967|
30077|T||Nagao,M., and N. Okagami|Effect of (2, Chloroethyl) Trimethylammonium Chloride on the Formation and Dormancy of Aerial Tubers of Begonia evansiana|Bot. Mag. Tokyo79:687-692|1966|10.15281/jplantres1887.79.687
30078|T||Knypl,J.S.|Growth Retardants in Relation to the Germination of Seeds|Acta Soc. Bot. Pol.36:235-250|1967|10.5586/asbp.1967.021
30079|T||Dostal,H.C., and A.C. Leopold|Gibberellin Delays Ripening of Tomatoes|Science158:1579-1580|1967|10.1126/science.158.3808.1579
30081|T||Veinbrants,N.|Effect of N-Dimethyl Amino Succinamic Acid (Alar) on Six-Year-Old Gravenstein Apples|Aust. J. Exp. Agric. Anim. Husb.7:476-479|1967|10.1071/EA9670476
30082|T||Howard,B.H.|The Influence of 4(Indolyl-3) Butyric Acid and Basal Temperature on the Rooting of Apple Rootstock Hardwood Cuttings|J. Hortic. Sci.43:23-31|1968|10.1080/00221589.1968.11514229
30083|T||Valdovinos,J.G., and L.C. Ernest|Effect of Protein Synthesis Inhibitors, Auxin, and Gibberellic Acid on Abscission|Physiol. Plant. (Multiple Languages)20:1027-1038|1967|10.1111/j.1399-3054.1967.tb08389.x
30084|T||Skene,K.G.M., and M.G. Mullins|Effect of Ccc on the Growth of Roots of Vitis Vinifera l|Planta (Multiple Languages)77:157-163|1967|10.1007/BF00387452
30086|T||Keitt,G.W.,Jr.|On the Mode of Action of Carbamate Herbicides|Physiol. Plant. (Multiple Languages)20:1076-1082|1967|10.1111/j.1399-3054.1967.tb08395.x
30087|T||Kaufman,P.B., N. Ghosheh, and J. Ikuma|Promotion of Growth and Invertase Activity by Gibberellic Acid in Developing Avena Internodes|Plant Physiol.43:29-34|1968|10.1104/pp.43.1.29
30089|T||Lishenko,I.D.|Chromosomal Abberations in Mitosis of Wheat Resulting from the Treatment of Seedlings with Nitrosoethylurea and Dimethylsulfate|Citologia (Non-English)9:475-478|1967|
30090|T||Nel,P.C.|Pre-Emergence Application of 2,4-D (2,4-Dichloro Phenoxyacetic Acid)-Ester to Wheat (Triticum vulgare)|S. Afr. J. Agric. Sci.10:283-284|1967|
30091|T||Jotwani,M.G., and T.D. Yadav|Effect of Some Common Fumigants on the Germinability of Vegetable Seeds-Ii|Indian J. Entomol.28:111-113|1966|
30092|T||Humphries,E.C., and P.W. Dyson|Effects of Growth Regulators, Ccc (Chlorocholine Chloride) and B9 (Zinc Trichlorophenate) on Some Potato Varieties|Ann. Appl. Biol.60:333-341|1967|10.1111/j.1744-7348.1967.tb04485.x
30093|T||Voinilo,V.A., V.P. Deeva, and S.M. Mashtakov|Comparative Effect of Physiologically Active Compounds on Initial Plant Growth|Dokl. Akad. Nauk BSSR (Multiple Languages)11:444-447|1967|
30094|T||Sprent,J.I.|The Effects of Benzyladenine on the Growth and Development of Peas|Planta (Multiple Languages)78:17-24|1968|10.1007/BF00384853
30096|T||Eastin,E.F., and D.E. Davis|Effects of Atrazine and Hydroxyatrazine on Nitrogen Metabolism of Selected Species|Weeds (Urbana)15:306-309|1971|10.2307/4040995
30097|T||Horvath,M., and D. Lasztity|Effect of Kinetin on the Pigment Content of Barley Leaves|Acta Agron. Acad. Sci. Hung.16(3/4): 393-396|1967|
30098|T||Heyes,J.K., and D. Vaughan|Effects of 2-Thiouracil on Growth and Metabolism in the Root: II. Metabolism of Isolated Root Segments|Proc. R. Soc. Lond. Ser. B Biol. Sci.619:89-105|1967|
30099|T||Markarian,D.S.|Effect of Dieldrin on the Mitosis in Crepis capillaris Sprouts|Genetika (Non-English)3:55-58|1967|
30100|T||Dransfield,M.|Effect of Dalapon on Cotton Seedlings|Samaru Res. Bull.11:192-199|1961|
30101|T||Lange,A.H., C. Elmore, D. Bayer, E. Stilwell, L. Buschmann, N. Ross, and B. Fischer|Studies of Phytoxicity in the Use of Herbicides for Controlling Annual Weeds in Almond Orchards|Calif. Agric.21(6):8-10|1967|
30102|T||Warner,H.L., and A.C. Leopold|Plant Growth Regulation by Stimulation of Ethylene Production|Bioscience17:722-723|1967|10.2307/1294090
30103|T||Soran,V., and G.H.G.H. Popovici|The Effect of 2,4-Dichlorophnoxyacetic Acid (2,4-D) on the Rotational Streaming Within the Barley (Hordeum Vulgare) Root Hairs|Rev. Roum. Biol. Ser. Bot.12:233-238|1967|
30104|T||Maroti,M.|The Effect of 35S-Cysteine on Isolated Callus Tissue of Tobacco|Rev. Roum. Biol. Ser. Bot.12(2/3): 171-174|1967|
30105|T||Lovell,P.H., and A. Booth|Effects of Gibberellic Acid on Growth, Tuber Formation and Carbohydrate Distribution in Solanum Tuberosum|New Phytol.66:525-537|1967|10.1111/j.1469-8137.1967.tb05424.x
30106|T||Leike,H.|Effect of Gibberellic Acid and Kinetin on Dormant Buds of Various Woods|Flora Allg.Bot.Ztg.Abt A Physiol.Biochem.(Jena)158:351-362|1967|10.1016/S0367-1836(17)30324-5
30107|T||Bostrack,J.M., and B.E. Struckmeyer|Effect of Gibberellic Acid on the Growth and Anatomy of Coleus Blumei, Antirrhinum Majus and Salvia Splendens|New Phytol.66:539-544|1967|10.1111/j.1469-8137.1967.tb05425.x
30108|T||Nation,H.A.|Report on Tree Control Via Injection with Tordon 101 Mixture|Down Earth23:24-27|1967|
30109|T||Lee,G.A., A.K. Dobrenz, and H.P. Alley|Preliminary Investigations of the Effect of Tordon and 2,4-D on Leaf and Root Tissue of Canada Thistle|Down Earth23:21-23|1967|
30110|T||Manolache,C., I. Morlova, F. Manolache, and V. Ivascu|The Effect of Bhc Treatments on the Morphology and Anatomy of Wheat Plants|Rev. Roum. Biol. Ser. Bot.12:273-279|1967|
30111|T||Domanska,H.|Chlorocholine Chloride Action on Winter Wheat|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)31:1106-1116|1966|
30113|T||Arend,J.L.|Killing Effects and Translocation of Stem-Injected Herbicides|Proc. Soc. Am. For.1967:81-85|1967|
30118|T||Matolcsy,G., and N. Poonawalla|Uptake of 2-Thio-6-Azauracil, 2-Methythio-6-Azauracil and Glyoxylic Acid Thiosemicarbazone by the Roots and Their Metabolism in the Plant|Acta Phytopathol. Entomol. Hung.2:109-118|1967|
30120|T||Devay,M.|The Effect of Various Anti-metabolites in the Course of Vernalization|Acta Agron. Acad. Sci. Hung.16:251-252|1967|
30122|T||Staphorst,J.L., and B.W. Strijdom|Effect of Treatment with a Dimethoate Insecticide on Nodulation and Growth of Medicago sativa L.|Phytophylactica6:205-208|1974|
30123|T||Abotabeekh,A.T.|Effect of Kinetin on Growth and Development of Pisum sativum|Bull. Coll. Sci. Univ. Baghdad15:3-12|1974|
30124|T||Tucker,C.L., M.D. Miller, and B.D. Webster|Effects of Ethephon on Seed Yield of Phaseolus Vulgaris l|Hortscience10:156-157|1975|10.21273/HORTSCI.10.2.156
30125|T||Neumann,K.M., and B. Schwab|Investigations on the Influence of Gibberellic Acid Treatments on Yield, Root Anatomy and Carotene Distribution of Carrot Plants|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)1:19-24|1919|
30126|T||Poovaiah,B.W.|Promotion of Radial Growth by 2-Chloroethyl-Phosphonic Acid in Bean|Bot. Gaz.135(4): 289-292|1974|10.1086/336763
30129|T||Bystrova,E.I.|Mechanism of the Action of Isopropyl-N-3-Chlorophenylcarbamate on Root Growth|Sov. Plant Physiol.21(1): 118-124|1974|
30133|T||Sinha,M.M.|Effect of Ethrel (2-Chloroethylphosphonic Acid) on Cauliflower Var. 'Snowball' Seed Production|Prog. Hortic.6:37-40|1975|
30136|T||Richardson,R.G.|Foliar Penetration and Translocation of 2,4,5-T in Blackberry (Rubus Procerus P.J. Muell.)|Weed Res. (Multiple Languages)15:33-38|1975|10.1111/j.1365-3180.1975.tb01093.x
30137|T||Tchan,Y.T., J.E. Roseby, and G.R. Funnell|A New Rapid Specific Bioassay Method for Photosynthesis Inhibiting Herbicides|Soil Biol. Biochem.7:39-44|1975|10.1016/0038-0717(75)90029-2
30138|T||Mondal,M.M., and J.F. Nance|Effects of Ethylene, Kinetin, and Calcium on Growth and Wall Composition of Pea Epicotyls|Plant Physiol.55:450-454|1975|10.1104/pp.55.3.450
30139|T||Severson,J.G.,Jr.|Effect of Naphthenic Acid on 32P Incorporation in the Organs of the Bush Bean, Phaseolus Vulgaris l|Phyton (Horn) (Multiple Languages)32:81-87|1974|
30141|T||Farnworth,J., and G.M. Davies|The Application of Picloram-14C to Bracken|Weed Res. (Multiple Languages)14:397-399|1974|10.1111/j.1365-3180.1974.tb01081.x
30142|T||Svensson,J.A.|Growth and Yield of Cultivated Plants Treated with Herbicides: I. Treatment with Aminotriazole|Swed. J. Agric. Res.4:177-189|1974|
30143|T||Murin,A.|Acceleration of Mitotic Cycles in Root Tips of Vicia Faba Treated with Gibberellic Acid|Dokl. Akad. Nauk SSSR (Non-English)215:484-487|1974|
30144|T||Polyanskaya,L.A., and M.V. Batyrova|Changes in the Protein Complex of Germinating Cotton Seeds After Treatment with Nicotinic Acid|Sov. Plant Physiol.21(5): 800-804|1974|
30147|T||Davies,W.J., and T.T. Kozlowski|Effect of Applied Abscisic Acid and Silicone on Water Relations and Photosynthesis of Woody Plants|Can. J. For. Res.5(1): 90-96|1975|10.1139/x75-013
30148|T||Parups,E.V.|Effect of Morphactin on the Gravimorphism and the Uptake, Translocation and Spatial Distribution of Indol-3Yl-Acetic Acid in Plant Tissues in Relation to Light|Physiol. Plant. (Multiple Languages)23:1176-1186|1970|10.1111/j.1399-3054.1970.tb08895.x
30150|T||Fullerton,T.M., C.L. Murdoch, A.E. Spooner, and R.E. Frans|Effects of DCPA on Winter Injury of Recently-Established Bermudagrass|Weed Sci.18:711-714|1970|10.1017/S0043174500034603
30151|T||Chauhan,K.S., and B. Singh|Response of Cabbage to Foliar Applications of Gibberellic Acid and Urea|Indian J. Hortic.27:68-71|1970|
30152|T||El-Zeftawi,B.M., and H.L. Weste|Effects of Topping, Pinching, Cincturing and PCPA on the Yield of Zante Currant (Vitis vinifera var.)|Vitis (Multiple Languages)9:184-188|1970|
30153|T||Taylor,T.D., and G.F. Warren|The Effect of Metabolic Inhibitors on Herbicide Movement in Plants|Weed Sci.18:68-74|1970|10.1017/S0043174500077365
30154|T||Imaseki,H.|Induction of Peroxidase Activity by Ethylene in Sweet Potato|Plant Physiol.46:172-174|1970|10.1104/pp.46.1.172
30156|T||Pillay,D.T.N.|Effect of Growth Retardants on Catalase Activity in Soybean Seedlings|Phyton (Horn) (Multiple Languages)27:75-78|1970|
30157|T||Thorpe,T.A., and H.Z. Hield|Gibberellin and Rejuvenation in Citrus|Phyton (Horn) (Multiple Languages)27:63-68|1970|
30158|T||McDonnell,P.F., and L.J. Edgerton|Comparative Trials on the Effects of (2-Chloroethyl) Trimethylammonium Chloride (Chlorocholine Chloride; CCC) and N-Dimethylamino Succinamic Acid (B-Nine; Alar) on Vegetative Characteristics of Apple|Sci. Proc. R. Dublin Soc. Ser. B2(23): 221-231|1970|
30159|T||Sproule,R.S., and M.C. Stannard|Effects of Growth Regulators and Bunch Trimming on Size, Maturity and Yield of 'Sultana' Grapes|Aust. J. Exp. Agric. Anim. Husb.10:474-479|1970|10.1071/EA9700474
30160|T||Weiss,P.W.|"Some Effects of Continuous Use of Herbicides in ""Sultanas"" (Grapes) in the Sunraysia Area"|Aust. J. Exp. Agric. Anim. Husb.10:480-483|1970|10.1071/EA9700480
30161|T||Swaraj,K., and O.P. Garg|The Effect of Gibberellic Acid, when Applied to the Rooting Medium, on Nodulation and Nitrogen Fixation in Gram (Cicer arietinum)|Physiol. Plant. (Multiple Languages)23:747-754|1970|10.1111/j.1399-3054.1970.tb06469.x
30162|T||Nicholls,D.M., and J.H. Cohen|Effects of Puromycin Aminonucleoside on Protein Synthesis in Absidia Coerulea|Can. J. Biochem.48:858-862|1970|10.1139/o70-135
30163|T||Pont Lezica,R.F.|Effect of Seven Different Gibberellins on Stem Elongation and Flower Formation in Rudbeckia Bicolor Nutt. Grown Under Noninductive Conditions|Phyton (Horn) (Multiple Languages)26:185-190|1969|
30165|T||Ryan,G.F.|Effects of Succinic Acid 2,2-Dimethyl Hydrazide and Phosphorus Treatments on Rhododendron Flowering and Growth|J. Am. Soc. Hortic. Sci.95:624-626|1970|10.21273/JASHS.95.5.624
30167|T||Kathju,S., and M.N. Tewari|Effect of Ccc on Growth and Phosphatase Activity|Indian J. Exp. Biol.8:232-233|1970|
30168|T||Srivastava,K.C.|Studies on the Effect of Indole-3yl-Acetic Acid and Indole Butyric Acid on the Growth of Some Leguminous and Oil Plant Seedlings|Labdev J.Sci.Technol.Part B Life Sci.7(2): 130-135|1969|
30169|T||Pee,T.Y.|Analysis of Effects of Gibberellins on Spinach Plants|Malay. Agric. J.47:357-367|1970|
30171|T||McGuire,J.J., L.S. Albert, and V.G. Shutak|Effect of Foliar Applications of 3-Indolebutyric Acid on Rooting of Cuttings of Ornamental Plants|Proc. Am. Soc. Hortic. Sci.93:699-704|1968|
30173|T||Baur,J.R., and P.W. Morgan|Effects of Picloram and Ethylene on Leaf Movement in Huisache and Mesquite Seedlings|Plant Physiol.44:831-838|1969|10.1104/pp.44.6.831
30174|T||Ryan,G.F., and D.W. Kretchman|Effects of Four Herbicides on Growth and Yield of Orange Trees|Proc. Am. Soc. Hortic. Sci.93:159-165|1968|
30175|AT||Vrhovec,B., and M. Wrischer|The Effect of Amitrole on the Fine Structure of Developing Chloroplasts|Acta Bot. Croat. (Multiple Languages)29:43-49|1970|
30177|T||Beyer,E.M.,Jr., and P.W. Morgan|Effect of Ethylene on the Uptake, Distribution, and Metabolism of Indoleacetic Acid-1-14C and -2-14C and Napthaleneacetic Acid-1-14C|Plant Physiol.46:157-162|1970|10.1104/pp.46.1.157
30178|T||Rose,R.J.|The Effect of Cycloheximide on Cell Division in Partially Synchronized Plant Cells|Aust. J. Biol. Sci.23:573-583|1970|10.1071/BI9700573
30179|T||Oakes,A.J.|Herbicidal Control of Croton (Croton Discolor, Croton rigidus, Weeds)|Turrialba20:299-301|1970|
30180|T||Smith,M.S., and M. Mohsin|3,5-Dichlorophenoxyacetic Acid as a Growth Retardant|Ann. Appl. Biol.66:233-238|1970|10.1111/j.1744-7348.1970.tb06429.x
30181|T||Sparks,D., and J.W. Chapman|The Effect of Indole-3-Butyric Acid on Rooting and Survival of Air-Layered Branches of the Pecan, Carya iIllinoensis Koch, cv. 'Stuart'|Hortscience5:445-446|1970|10.21273/HORTSCI.5.5.445
30182|T||Valenzuela,J.B., and W.J. Kender|Lowbush Blueberry Growth As Influenced by 2-Chloroethylphosphonic Acid|Hortscience5:436-|1970|10.21273/HORTSCI.5.5.436
30183|T||McConnell,D.B., and B.E. Struckmeyer|Effect of Succinic Acid 2,2-Dimethylhydrazide on the Growth of Marigold in Long and Short Photoperiods|Hortscience5:391-393|1970|10.21273/HORTSCI.5.5.391
30184|T||Van Vliet,W.F., and H. Sparenberg|The Treatment of Potato Tubers with Sprout Inhibitors|Potato Res.13:223-227|1970|10.1007/BF02355979
30186|T||Reid,D.M., and A. Grozier|Ccc-Induced Increase of Gibberellin Levels in Pea Seedlings|Planta (Multiple Languages)94:95-106|1970|10.1007/BF00387754
30187|T||Radice,M., A. Scacchi, and P. Pesci|Uptake and Transport of Fusicoccin in Higher Plant Tissues|J. Exp. Bot.31:163-176|1980|10.1093/jxb/31.1.163
30188|T||Ogawa,K., H. Aizawa, and F. Yamauchi|Absorption, Translocation and Metabolism of Fluorimide in Inu-Apple Trees, Malus prunifolia Borkhousen|J. Pestic. Sci. (Multiple Languages)5(1): 29-36|1980|10.1584/jpestics.5.29
30189|T||Khan,M.I.|Effect of IAA on the Metabolic Activity of Taraxacum Root Segments|Biol. Plant. (Praha)22:86-90|1980|10.1007/BF02878243
30190|T||Hui,L.H., and S.Y. Zee|The Effect of Ginseng on the Plantlet Regeneration % of Cotyledon and Hypocotyl Explants of Broccoli|Z. Pflanzenphysiol. (Multiple Languages)96:297-302|1980|10.1016/S0044-328X(80)80168-1
30191|T||Nishitani,K., and Y. Masuda|Modifications of Cell Wall Polysaccharides During Auxin-Induced Growth in Azuki Bean Epicotyl Segments|Plant Cell Physiol.21:169-181|1980|
30192|T||Katayama,N., and H. Suzuki|Possible Effect of Gibberellin on Phytate Degradation in Germinating Barley Seeds|Plant Cell Physiol.21(1): 115-123|1980|
30193|T||Shamsi,S.R.A.|Effects of Gibberellic Acid on the Growth and Development of Epilobium hirsutum L. and Lythrum salicaria L. Grown in Short Photoperiod|Biologia (Bratisl.)24(2): 205-214|1978|
30194|T||De Bottini,G.A.|Response of the Microdrop Eragrostis Curvula Bioassay to Different Gibberellins|Phyton (Horn) (Multiple Languages)38:9-11|1980|
30196|T||Duseja,D.R., H.V. Akunurim, and E.E. Holmes|Trifluralin Soil Behavior: Persistance, Movement, and Weed Control|J. Environ. Sci.15:65-100|1980|
30197|T||Biain de Elizalde,M.M.|Histology of the Zones of Abscission in Tomato Flowers and Fruit and Some Effects of the Application of 2-Chloroethyl Phosphonate (Ethrel)|Phyton (Horn) (Multiple Languages)38:71-79|1980|
30200|T||Lepp,N.W., and A.J. Peel|Influence of IAA upon the Longitudinal and Tangential Movement of Labelled Sugars in the Phloem of Willow|Planta (Multiple Languages)97:50-61|1971|10.1007/BF00388405
30201|T||Furvya,T., H. Kojima, and K. Syono|Regulation of Nicotine Biosynthesis by Auxins in Tobacco Callus Tissues|Phytochemistry10:1529-1532|1971|10.1016/0031-9422(71)85018-5
30203|T||Poole,R.T.|Influence of Growth Regulators on Stem Elongation and Rooting Response of Foliage Plants|Proc. Annu. Meet. Fla. State Hortic. Soc.83:497-502|1970|
30204|T||Murphy,E.F., W.C. Stiles, and R.H. True|The Effect of Succinic Acid-2,2-Dimethylhydrazide (SADH) on the Sensory Quality of 'McIntosh' Apples|J. Am. Soc. Hortic. Sci.96(4): 472-473|1971|10.21273/JASHS.96.4.472
30207|T||Skene,K.G.M.|Hormonal Effects on Sugar Release from Vine Canes|Ann. Bot.35:277-286|1971|10.1093/oxfordjournals.aob.a084477
30209|T||Vaughn,D., and I.R. MacDonald|Effects of Humic Acid on Protein Synthesis and Ion Uptake in Beet Discs|J. Exp. Bot.22:400-410|1971|10.1093/jxb/22.2.400
30210|T||Bradshaw,M.J., and J. Edelman|The Effects of Growth Substances and Retardants on Renewed Processes of Jerusalem Artichoke Tuber Tissues|J. Exp. Bot.22:391-399|1971|10.1093/jxb/22.2.391
30211|T||Jones,R.A., and P.B. Haufman|Regulation of Growth in Avena Stem Segments by Gibberellic Acid and Kinetin|Physiol. Plant. (Multiple Languages)24:491-497|1971|10.1111/j.1399-3054.1971.tb03524.x
30212|T||Svensson,S.B.|The Effect of Coumarin on Root Growth and Root Histology|Physiol. Plant. (Multiple Languages)24:446-470|1971|10.1111/j.1399-3054.1971.tb03519.x
30216|T||Litinskaya,T.K.|Chloramphenicol Effect on Cell Division in Corn Root Tips|Citologia (Non-English)12:854-860|1970|
30217|T||Dallyn,S.L.|Weed Control Methods in Potatoes|Am. Potato J.48:116-128|1971|10.1007/BF02869711
30219|T||Holm,R.E., and J.L. Key|Inhibition of Auxin-Induced Deoxyribonucleic Acid Synthesis and Chromatin Activity by 5-Fluorodeoxyuridine in Soybean Hypocotyl|Plant Physiol.47:606-608|1971|10.1104/pp.47.5.606
30221|T||Narsinghani,V.G., and S. Kumar|The Effect of Gibberellic Acid on Chromosomal Aberritions in Ems and Mms Treated Pisum Sativum Linn|Theor. Appl. Genet.41:18-20|1971|10.1007/BF00279293
30222|T||Devlin,R.M., and R.W. Yaklich|Influence of Ga on Uptake and Accumulation of Naptalam by Bean Plants|Weed Sci.19:135-137|1971|10.1017/S0043174500048505
30223|T||Kalmar,S.|Stimulative Effect of alpha-Naphthyl-Acetic Acid and beta-Indolyl-Butyric-Acid on Root Development of Currant Cuttings|Acta Agron. Hung.20(1-2): 43-46|1971|
30224|T||Srivastava,R.P., and D.S. Bisht|Effect of Gibberellic Acid on Fruit Crops: Ii. Grape|Hortscience1:39-42|1969|
30225|T||Ahmad,M., and M. Cailloux|The Effects of Malonate on Absorption of Water by Root Hairs of Avena sativa|Can. J. Bot.49:521-528|1971|10.1139/b71-082
30227|T||Tal,M., and D. Imber|The Effect of a Prolonged 2,4-Dichlorophenoxyacetic Acid Treatment on Transpiration and Stomatal Distribution in Tomato Leaves|Planta (Multiple Languages)97:179-182|1971|10.1007/BF00386765
30228|T||Carlin,A.F., T.T. Huang, and J.L. Weigle|Influence of Sublethal Concentrations of 2,4-D on Tomatoes and Tomato Juice|J. Am. Soc. Hortic. Sci.96:138-141|1971|10.21273/JASHS.96.2.138
30229|T||Srivastava,L.M., M. Vesk, and A.P. Singh|Effect of Chloramphenicol on Membrane Transformations in Plastids|Can. J. Bot.49:587-593|1971|10.1139/b71-093
30230|T||Ahmed,A.H.M., M. Mohsin, A. Aich, and R. Mandal|Effect of Gibberellic Acid, Potassium Naphthenate, Chlormequat Chloride and Nutrients on Chlorophyll Content of Jute (Corchorus Capsularis) Leaves|Dhaka Univ. Stud. Part B Sci. 28:53-60|1980|
30233|T||Parups,E.V.|Effect of Morphactin on Certain Plant Growth Substances in Bean Roots|Physiol. Plant. (Multiple Languages)49:281-285|1980|10.1111/j.1399-3054.1980.tb02664.x
30236|T||Raza,S.H., and Z. Bano|Effect of 2,4-D on Early Seedling Growth and Amylase Activity in Phaseolus Radiatus|Indian J. Bot.2:190-193|1979|
30237|T||Bhatnagar,V.K., and A.K. Bisaria|Influence of Ethrel, Cycocel and Their Combinations on Carbohydrates in Leaf and Fruit of Abelmoschus Esculentus Cultivar Pusa Sawani|Indian J. Bot.2:182-184|1979|
30238|T||Yokoyama,M., K. Naito, and H. Suzuki|Effects of Benzyladenine on Chlorophyll, DNA, RNA and Protein Content of Attached Young Bean (Phaseolus vulgaris L.) Leaves|Ann. Bot.45:649-653|1980|10.1093/oxfordjournals.aob.a085873
30240|T||Rao,I.M., P.M. Swamy, and V.S.R. Das|Influence of Paraquat and 2,4,5-T on the Leaf Chlorophyll Content of Shrub Species|Z. Pflanzenphysiol. (Multiple Languages)97:189-196|1980|10.1016/S0044-328X(80)80070-5
30241|T||Sinha,A.P., V.P. Agnihotri, and K. Singh|Effects of Bavistin on Soil Microflora, Their Related Physiological Activity and Growth of Sugarbeet Seedlings|Indian J. Exp. Biol.18:489-491|1980|
30242|T||Johnson,B.J.|Postemergence Winter Weed Control in Bermudagrass (Cynodon Dactylon) Turf|Weed Sci.28:385-392|1980|10.1017/S0043174500055533
30243|T||Nair,M.N.B., M.R. Ptel, J.J. Shah, and C. Pandalai|Effect of Ethephon (2-Chloroethylphosphonic Acid) on Gummosis in the Bark of Azadirachta Indica|Indian J. Exp. Biol.18:500-503|1980|
30252|T||Creamer,F.L., and R.H. Fox|Toxicity of Banded Urea or Diammonium Phosphate to Corn (Zea mays) as Influenced by Soil Temperature, Temperature, Moisture and pH|Soil Sci. Soc. Am. J.44:296-300|1980|10.2136/sssaj1980.03615995004400020019x
30254|T||Tezuka,T., H. Sekiya, and H. Ohno|Control of Elongation and Thickening Growth of Primary Shoots and Primary Lateral Shoots in Grapes (Vitis vinifera X Vitis labrusca, Cultivar kyoho) by 2-Chloroethyltrimethyl Ammonium Chloride|J. Jpn. Soc. Hortic. Sci.49(1): 8-14|1980|10.2503/jjshs.49.8
30255|T||Kasiviswanathan,K., P.C. Chowdhury, C.V. Venkat-Aramu, and R.S. Verma|Screening Herbicides for Weed Control in Mulberry Field|Indian J. Seric.17:15-22|1978|
30256|T||Blessington,T.M., and C.B. Link|Influence of Ancymidol on 4 Species of Tropical Foliage Plants Under Different Artificial Light Intensities|J. Am. Soc. Hortic. Sci.105:502-504|1980|10.21273/JASHS.105.4.502
30257|T||Sharma,H.K., D.D. Sharma, and G.S. Paliwal|Effect of Chlorflurenol and FMC 10637 on Cambial Activity and Xylem Differentiation in Morus alba|Phytomorphology29:53-56|1980|
30258|T||Jaiswal,V.S., and A. Kumar|Sex Reversal and Fruit Formation on the Male Plants of Morus nigra by 2-Chloroethylphosphonic Acid|J. Exp. Bot.31:497-500|1980|10.1093/jxb/31.2.497
30259|T||Jain,V.K., and D. Mukherjee|Effect of Chlorflurenol Methyl Ester 74050 on Sex Expression and Parthenocarpic Fruit Development in Tomato|Phyton (Horn) (Multiple Languages)38(2): 89-93|1980|
30261|T||Bairathi,M.K., and G.S. Nahawat|Effects of IAA and 2,4-D on Root Apical Organization and Tissue Differentiation in Sunn-Hemp|Flora (Multiple Languages)169:336-350|1980|10.1016/S0367-2530(17)31963-1
30262|T||Melekhov,E.I.|Effect of 2,4-D on Conductivity of Roots, Absorption of Water, and Transpiration|Sov. Plant Physiol.26(5): 809-814|1979|
30263|T||Gavinlertvatana,P., and P.H. Li|The Influence of 2,4-D and Kinetin on Leaf Callus Formation in Different Potato Species|Potato Res.23:115-120|1980|10.1007/BF02364032
30264|T||Borkowski,J., and L.S. Jankiewicz|Inhibition of Spinach Bolting by Growth Regulators|Acta Agrobot. (Multiple Languages)32:233-238|1979|10.5586/aa.1979.021
30265|T||Sharma,R.C., J.S. Grewal, A.K. Sharma, and H.C. Sharma|Relative Efficiency of Calcium Ammonium Nitrate, Dimethyl Urea, Urea and Urea Mixed with Neemcake for Potato|Indian J. Agric. Sci.50(2): 152-157|1980|
30266|T||Yukinaga,H., M.H. Nobuomiki, and C. Sakaguchi|Effect of Naphthoquinone Derivative, 2-Benzimidoyl-3-Hydroxy-1,4-Naphthoquinone on the Growth of Tomato:  2.  Effect of Partial and Whole Plant Spray|J. Jpn. Soc. Hortic. Sci.48(4): 459-467|1980|10.2503/jjshs.48.459
30267|T||Sidahmed,O.A., and W.M. Kliewer|Effects of Defoliation, Gibberellic Acid and 4-Chlorophenoxyacetic Acid on Growth and Composition of Thompson Seedless Grape Berries|Am. J. Enol. Vitic.31:149-153|1980|10.5344/ajev.1980.31.2.149
30269|T||Ljubesic,N., and M. Radic|Chromoplasts of Forsythia suspensa (Thunb.) Vahl.  II.  The Effect of Isopropyl-N-Phenylcarbamate|Acta Bot. Croat. (Multiple Languages)38:29-34|1979|
30271|T||Holdeman,Q.C., and C.A. Brown|Effect of 2,4-D Fumes on Seed Germination|Proc. La. Acad. Sci.11:18-|1949|
30272|T||Hibbard,A.D., and A.E. Murneek|Thinning Peaches with Hormone Sprays|Proc. Am. Soc. Hortic. Sci.56:65-69|1950|
30274|T||Wilson,W.F., and E.R. Stamper|Chemicals for the Control of Weeds in Strawberries|Proc. South. Weed Conf.3:59-60|1950|
30275|T||Schexnayder,C.A.|Comparative Studies of Certain Amine Salts of 2,4-D|Proc. South. Weed Conf.3:4-6|1950|
30276|T||Gertsch,M.E., E.R. Stamper, and T.C. Pyker|Effect of Chemicals on Chicksaw Rose (Rosa Bracteata)|Proc. South. Weed Conf.3:169-171|1950|
30277|T||Leone,I.A., and E. Brennan|Response of Several Economically Important Plants to Sodium Salt of 2,4-D|Agric. Chemic.4:40-43, 82|1949|
30278|T||Naunorf,G., and F. Villamil|Contribucion Al Estudio de la Fisiolofia del Cacao (Theobroma Cacao L.) Tratamientos Con Fitohormonas y su Influencia Sobre la Cada Prematura y Marchitamiento D|Notas Agron3:87-90|1950|
30279|T||Korades,H.|Bedeutung der Wuchsstoffe fur Die Vegetative Vermehrung der Reben. I. Teil. Einfluss der Wuchsstoffbehandlung Auf Efuopaer Rebem|Wein Rebe24:225-250|1942|
30280|T||Kruyt,W., and H. Veldstra|Researches on Plant Growth Regulators.  XIII.  Leaf Growth Factors|Proc. K. Ned. Akad. Wet. Ser. C Biol. Med. Sci.50:1317-1323|1947|
30281|T||Ellenwood,C.W.|Preharvest Spray Observations in 1947|Proc. Ohio State Hortic. Soc.81:105-107|1948|
30282|T||Emsweller,S.L., and N.W. Stuart|Overcoming Sterilities in Lilium by the Use of Growth-Regulating Substances|Lily Yearbook N. Am. Lily Soc.1:27-30|1948|
30283|T||Waard,J., and J.W.M. Roodenburg|Premature Flower-Bud Initiation in Tomato-Seedlings Caused by 2,3,5-Triidobenzoic Acid|In: Verhandelingen der Koninklijke Akademie van Wetenschappen te Amsterdam, Afdeeling Letterkunde, Amsterdam, Netherlands51:248-251|1948|
30285|T||Leopold,A.C., and K.V. Thimann|The Effect of Auxin on Flower Initiation|Am. J. Bot.36(4): 342-347|1949|10.1002/j.1537-2197.1949.tb05270.x
30286|T||Padmasini,K.|Antiseptic Culture of Ragi (Eleucine corocana) Seedlings and Their Response to Vitamins|Curr. Sci. (Bangalore)16(7): 227-228|1947|
30288|T||Kostoff,D.|Atypical Growth, Abnormal Mitosis and Polyploidy Induced by Ethyl-Mercury-Chloride|Phytopathol. Z. (Multiple Languages)13:91-96|1941|
30290|T||Murray,M.A., and A.G. Whiting|Effect of 2,4-Dichlorophenoxyacetic Acid on Root Development in Young Corn Plants|Bot. Gaz.110:404-426|1949|10.1086/335541
30291|T||Weaver,R.J.|Contratoxification of Plant Growth-Regulators in Soils and on Plants|Bot. Gaz.109(3): 276-300|1948|10.1086/335480
30293|T||Thimann,K.V., and W.D.,Jr. Bonner|The Action of Tri-iodobenzoic Acid on Growth|Plant Physiol.23:158-161|1948|10.1104/pp.23.1.158
30295|T||Went,F.W., and M. Carter|Growth Response of Tomato Plants to Applied Sucrose|Am. J. Bot.35(2): 95-106|1948|10.1002/j.1537-2197.1948.tb05192.x
30296|T||Marth,P.C., L.P. Batjer, and H.H. Moon|Relative Effectiveness of Sprays, Dusts and Aerosols of Naphthalene-Acetic Acid on Harvest Drop of Apples|Proc. Am. Soc. Hortic. Sci.46:109-112|1945|
30297|T||Orchard,O.B.|The Use of Plant Hormones in the Propagation of Carnations|Cheshunt Exp.Res.Stn.Annu.Rep.24:97-99|1938|
30298|T||Tukey,H.B., C.L. Hamner, and B. Imhofe|Histological Changes in Bindweed and Sow Thistle Following Applications of 2,4-Dichlorophenoxyacetic Acid in Herbicidal Concentrations|Bot. Gaz.107:62-73|1945|10.1086/335328
30299|T||Mitchell,J.W., and J.W. Brown|Effect of 2,4-Dichlorophenoxyacetic Acid on the Readily Available Carbohydrate Constituents in Annual Morning-Glory|Bot. Gaz.107:120-129|1945|10.1086/335334
30300|T||Marth,P.C., F.F. Davis, and J.W. Mitchell|Herbicidal Properties of 2,4-Dichlorophenoxyacetic Acid Applied in Dusts Containing Hygroscopic Agents|Bot. Gaz.107:129-136|1945|10.1086/335335
30301|T||Carrigues,R.|Action de la Colchicine et du Chloral Sur la Racine de Vicia Faba|Rev. Cytol. Biol. Veg.4:261-301|1940|
30303|T||Van Fossen,J.E.|Effect of 2,4-D on Corn|Agric. Chemic.3:57-|1948|
30304|T||Marshall,R.W., C.L. Hamner, and J.C. Kremer|Retardation of Ripening of Fruits with the Methyl Ester of Naphthalene Acetic Acid|Proc. Am. Soc. Hortic. Sci.51:95-96|1948|
30305|T||Marth,P.C., E.H. Toole, and V.K. Toole|Effect of 2,4-Dichlorophenoxyacetic Acid on Seed Development and Germination of Certain Cereal and Grass Crops|J. Am. Soc. Agron.40:916-918|1948|10.2134/agronj1948.00021962004000100008x
30306|T||Hitchcock,A.E., and P.W. Zimmerman|Activation of 2,4-D by Various Adjuvants|Contrib. Boyce Thompson Inst.15:173-193|1948|
30308|T||Bachofer,C.S.|Histological Responses of Bean Plants to alpha-Naphthyl Methyl Acetate|Bot. Gaz.110(1): 119-138|1948|10.1086/335521
30309|T||Ryland,A.G.|A Cytological Study of the Effects of Colchicine, Indole-3-Acetic Acid, Potassium Cyanide, and 2,4-D on Plant Cells|J. Elisha Mitchell Sci. Soc.64:117-125|1948|
30310|T||Saubert-Van Hausen,S.|On the Role of Growth Substances in Higher Plants|Physiol. Plant. (Multiple Languages)1:85-94|1948|10.1111/j.1399-3054.1948.tb07112.x
30311|T||Marth,P.C., and J.W. Mitchell|Selective Herbicidal Effects of 2,4-Dichlorophenoxyacetic Acid Applied to Turf in dry Mixtures with Fertilizer|Bot. Gaz.108:414-420|1947|10.1086/335425
30313|T||Grozdov,B.|The Influence of Growth-Substances on the Root-Formation of Cuttings from Woody Plants|Sov. Bot.1941:149-152|1941|
30314|T||Wittmer,S.H., and A.E. Murneek|Hormone Sprays and Dusts for Snap Beans|Mark. Grow. J.76:8-36|1947|
30316|T||Pridham,A.M.S.|Effect of 2,4-D on Bean Progeny Seedlings|Science105:412-|1947|10.1126/science.105.2729.412
30318|T||Klingman,D.|Dandelion Control with 2,4-Dichlorophenoxyacetic Acid (2,4-D)|Wyo. Agric. Exp. Stn. Res. J.274:1-12|1946|
30320|T||Vyvyan,M.C.|Experiments with Growth Substance Sprays for Reduction of Pre-Harvest Drop of Fruit|J. Pomol. Hortic. Sci.22:11-37|1946|10.1080/03683621.1946.11513626
30321|T||Gerhardt,F., and D.F. Allmendiger|The Influence of Alpha-Naphthaleneacetic Acid Spray on the Maturity and Storage Physiology of Apples, Pears, and Sweet Cherries|J. Agric. Res.73:189-206|1946|
30322|T||Weaver,R.J.|Effect of Spray Applications of 2,4-Dichlorophenoxyacetic Acid on Subsequent Growth of Various Parts of Red Kidney Bean and Soybean Plants|Bot. Gaz.107:532-539|1946|10.1086/335378
30324|T||Taylor,D.L.|Observations on the Growth of Certain Plants in Nutrient Solutions Containing Synthetic Growth-Regulating Substances III. The Relative Toxicity of Isopropylphenylcarbamate and Some Phenoxyacetic Acid Derivatives to Some|Bot. Gaz.107:620-629|1946|10.1086/335390
30325|T||Taylor,D.L.|Observations on the Growth of Certain Plants in Nutrient Solutions Containing Synthetic Growth-Regulating Substances. II. the Influence of Presentation Time|Bot. Gaz.107:611-619|1946|10.1086/335389
30326|T||Taylor,D.L.|Observations on the Growth of Certain Plants in Nutrient Solutions Containing Synthetic Growth-Regulating Substances.  I.  Some Effects of 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.107:597-609|1946|10.1086/335388
30327|T||Swanson,C.P.|Histological Responses of the Kidney Bean to Aqueous Sprays of 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.107:522-531|1946|10.1086/335377
30328|T||Smith,H.H.|Quantitative Aspects of Aqueous Spray Applications of 2,4-Dichlorophenoxyacetic Acid for Herbicidal Purposes|Bot. Gaz.107:544-551|1946|10.1086/335380
30329|T||Ennis,W.B.,Jr., and F.T. Boyd|The Response of Kidney-Bean and Soybean Plants to Aqueous Spray Applications of 2,4-Dichlorophenoxyacetic Acid with and Without Carbowax|Bot. Gaz.107:552-559|1946|10.1086/335381
30331|T||Moureau,J.|Contribution A L'Etude des Facteurs Organogenetiques de la Neoformation des Racines Chez les Plantes Superieures|Bull. Soc. R. Bot. Belg. (Multiple Languages)1939:51-571|1939|
30334|T||Chin,T.C.|The Cytology of Polyploid Sorghum|Am. J. Bot.33:611-614|1946|10.1002/j.1537-2197.1946.tb12918.x
30335|T||Herley,C.P.|New Developments in Fruit Sticking Sprays|Va. Fruit34:95-97|1946|
30336|T||Thomas,J.E., and A.J. Riker|Sprouting of Potatoes Inhibited by Plant Hormones|Am. Potato J.22:104-113|1945|10.1007/BF02863511
30337|T||Rappaport,J.|Comparative Efficacy of Growth Substances in Powder and Solution Form As Regards the Rooting of Cuttings of Different Plants|Mon. Bull. Agric. Sci. Pract. 32:385T - 396T|1941|
30338|T||Grace,N.H.|Responses of Plant Stem Cuttings Treated with Chemicals in a Carrier Dust|Can. J. Res. Sect. C Bot. Sci.23:115-126|1945|10.1139/cjr45c-009
30339|T||Funke,G.L.|The Growth of the Petioles of Waterplants in Solutions of Phytohormones|Proc.Kon.Ned.Akad.Wet.44:1121-1218|1941|
30340|T||Bannan,M.W.|Tetraploid Taraxacum Kok-Saghyz. I. Characters of the Leaves and Inflorescences in the Parental Colchicine-Induced Generations|Can. J. Res. Sect. C Bot. Sci.23:131-143|1945|10.1139/cjr45c-011
30342|T||Fardon,J.C., M.T. Maynard, and M.M.A. McDowell|A Modified Helianthus Test. I. Comparative Elongation Rates Employing Two Methods of Applying the Growth Factors|Growth9:195-205|1945|
30343|T||Thompson,R.C., and N.L. Horn|Germination of Lettuce Seed at High Tempeature (25 to 35 Degrees C) Stimulated by Thiourea|Proc. Am. Soc. Hortic. Sci.45:431-439|1944|
30344|T||Bain,H.F., and H. Dermen|Sectorial Polyploidy and Phyllotaxy in the Cranberry (Vaccinium macrocarpon Ait.)|Am. J. Bot.31:581-587|1944|10.1002/j.1537-2197.1944.tb08073.x
30345|T||Kelly,S.|Effect of Different Concentrations of Synthetic Auxins on Decapitated Sunflower Stems|Bull. Torrey Bot. Club71(5): 549-554|1944|10.2307/2481247
30347|T||Skuderna,A.W.|Use of Colchicine in Nutrient Solution with Sugar Beets|Proc. Gen. Meet. Am. Soc. Sugar Beet Technol.1942:321-|1942|
30348|T||Peto,F.H., and K.W. Hill|Colchicine Treatments of Sugar Beets and the Yielding Capacity of the Resulting Polyploids|Proc. Gen. Meet. Am. Soc. Sugar Beet Technol.1942:287-295|1942|
30349|T||Ball,E.|The Effects of Synthetic Growth Substances on the Shoot Apex of Tropaeolum majus L.|Am. J. Bot.31:316-327|1944|10.1002/j.1537-2197.1944.tb08037.x
30350|T||Bretz,T.W.|Injury to Tomatoes Grown in Greenhouses from Volatilized Growth-Promoting Substances|Plant Dis. Rep.28(6): 206-|1944|
30351|T||Murneek,A.E., S.H. Wittwer, and D.D. Hemphill|"""Hormone"" Sprays for Snap Beans"|Proc. Am. Soc. Hortic. Sci.44:428-432|1944|
30354|T||Singletary,C.C., and G.F. Warren|Influence of Time and Method of Application of Hormones on Tomato Fruit Set|Proc. Am. Soc. Hortic. Sci.57:225-230|1951|
30355|T||Stewart,R.N.|Colchicine Induced Tetraploids in Carnations and Poinsettias|Proc. Am. Soc. Hortic. Sci.57:408-410|1951|
30356|T||Therman,E.|The Effect of Indole-3-Acetic Acid on Resting Plant Nuclei. I|Ann. Acad. Sci. Fenn. Ser. A 4 Biol.16:1-40|1951|
30358|T||Recalde,L.|La Influencia de Varios Alcaloides en El Crecimiento de Plantulas de Trigo|Farmacognosia Anales9:231-246|1949|
30360|T||Ber,A., and Z. Moskwa|The Influence of Organic Solvents on the Growth of Plants|Experientia7:136-137|1951|10.1007/BF02156146
30361|T||Davison,R.M., and J.A. Cederman|Hormone Sprays to Reduce Pre-Harvest Drop of Sweet Oranges|Orchardist24:3-4|1951|
30363|T||Wurgler,W.|Inhibition des Germs de Pommes de Terre Par des Substances de Croissance|Rev. Hortic. Suisse23:2-8|1950|
30364|T||Capozzi,A.|Azione Dell O-Isopropil-N-Fenil-Carbamato e del Gamma-Esclorocicloesano Sui Tessuti di Radice di Carota Coltivati in Vitro|Atti Ist. Bot. Lab. Crittogam. Pavia8:177-180|1950|
30369|T||Gardner,F.E., P.C. Reece, and G.E. Horanic|The Effect of 2,4-D on Pre-Harvest Drop of Citrus Fruit Under Florida Conditions|Citrus Mag.13:22-24|1950|
30370|T||Singh,A.R.|Effect of Foliar Sprays of Nitrogen and Growth Regulators on Nutritional Status of Mango Trees|Punjab Hortic. J.20(1/2): 28-32|1980|
30371|T||Saxena,H.K., and J.P. Saini|Influence of Indole-3-Acetic Acid and Gibberellin A3 on Elongation of Regal Lily (Lilium regale) Pollen Tube|Indian J. Plant Physiol.22:102-108|1979|
30372|T||Gonzalez,M.P., S. Canadas, and A. Santos-Ruiz|Enzymatic Disappearance of Hydroxylamine in the Presence of Amino Butyric Acid|Rev. Esp. Fisiol.35:37-40|1979|
30373|T||Bates,G.W., and R.E. Cleland|Protein Synthesis and Auxin-Induced Growth: Inhibitor Studies|Planta (Multiple Languages)145:437-442|1979|10.1007/BF00380097
30374|T||Gabr,A.I., A. Raafat, and G. Farrag|The Effect of GA3 and CCC on the Levels of Endogenous Plant Hormones: II. the Effect of GA3 and CCC on Endogenous Gibberellin Levels in Different Wheat Varieties|Acta Agron. Acad. Sci. Hung.28:71-75|1979|
30375|T||Cachita-Cosma,D.|Cytological Modification Induced by Procaine in Cultures of Vegetable Tissues|Trav.Mus.Natl.Hist.Nat. (Grigore Antipa)19:2-24|1978|
30377|T||Yazaki,Y., and D. Nichols|Phytotoxic Components of Pinus Radiata Bark|Aust.For.Res.8:185-198|1978|
30378|T||Pozsar,B.I.|Biological Activity of 6-Methyluracil (6-MU) in Comparison with Pesticide-Type Derivatives|Acta Agron. Acad. Sci. Hung.28:170-184|1979|
30379|T||Nauman,C.H., P.J. Klotz, and L.A. Schairer|Uptake of Tritiated 1,2-Dibromoethane by Tradescantia Floral Tissues: Relation to Induced Mutation Frequency in Stamen Hair Cells|Environ. Exp. Bot.19:201-215|1979|10.1016/0098-8472(79)90049-2
30383|T||Bharti,S., Y.D. Singh, and M.M. Laloraya|Changes in Paramagnetic Manganese (Mn2+) and Related Enzyme Activities in Isolated Cucumber Cotyledons During Growth: II. Effect of 6-Furfurylaminopurine|J. Exp. Bot.30(116): 575-581|1979|10.1093/jxb/30.3.575
30384|T||Matsuoka,H., and K. Hinata|Naphthaleneacetic-Acid-Induced Organogenesis and Embryogenesis in Hypocotyl Callus of Solanum melongena|J. Exp. Bot.30:363-370|1979|10.1093/jxb/30.3.363
30385|T||Yopp,J.H., G.C. Colclasure, and N. Mandava|Effects of Brassin-Complex on Auxin and Gibberellin Mediated Events in the Morphogenesis of the Etiolated Bean Hypocotyl|Physiol. Plant. (Multiple Languages)46(3): 247-254|1979|10.1111/j.1399-3054.1979.tb06530.x
30386|T||Minocha,S.C.|The Role of Auxin and Abscisic Acid in the Induction of Cell Division in Jerusalem Artichoke (Helianthus tuberosus) Tuber Tissue Cultured In Vitro|Z. Pflanzenphysiol. (Multiple Languages)92:431-441|1979|10.1016/S0044-328X(79)80188-9
30388|T||Puri,R.K., and D.C. Shukla|Effects of Auxins on Growth and Solasodine Content of Solanum platanifolium During Ontogenesis|Planta Med.36:142-149|1979|10.1055/s-0028-1097254
30389|T||Balasimha,D., C. Ram, and M.N. Tewari|Effect of Morphactin on Some Enzymes and Peroxidase Isoenzymes in Fenugreek (Trigonella foenum-graecum) Seedlings|Plant Biochem. J.5:77-82|1978|
30390|T||Hourmant,A., and M. Penot|Influence of Abscisic Acid on Phosphorus Metabolism and Respiration in Potato Tuber Discs. Comparison with the Cycloheximide Effect|Physiol. Plant. (Multiple Languages)46:367-373|1979|10.1111/j.1399-3054.1979.tb02634.x
30391|T||Burt,G.W., and C.A. Buzio|S-Ethyldipropylthiocarbamate Plus R-25788 (N,N-Diallyl-2,3-Dichloroacetamide) Injury to Corn (Zea mays) as Affected by Plant Age at Treatment|Weed Sci.27:460-462|1979|10.1017/S0043174500044386
30392|T||Jain,A., and H.K. Goswami|A Comparative Response to Chemicals by Allium cepa and Allium sativum|Genet. Iber.29:151-162|1977|
30393|T||Loh,A., S.J. Parka, R. Albritton, and C.C. Lin|Use of Absorption Coefficients and Soil Properties to Predict Fluridone Herbicidal Activity|Weed Sci.27(4): 456-459|1979|10.1017/S0043174500044374
30394|T||Khan,K.A., and A.U. Haq|Effect of 2-Chloroethyl Trimethyl Ammonium Chloride on the Yield of Okra (Abelmoschus Esculentus)|Pak. J. Bot.10:157-160|1978|
30396|T||Khare,L.J., and P.S. Dubey|Effect of Herbicides on Seed Germination and Seedling Growth of the Weed Urginea Indica Kunth|Comp. Physiol. Ecol.4:225-228|1979|
30397|T||Sivori,E., and C. Rumi|Variation in the Growth of Petiole Segments of Tropaeolum Majus Induced by the Interaction of Gibberellic and Indoleacetic Acids|Phyton (Horn) (Multiple Languages)15:119-127|1960|
30398|T||Naf,U.|Loss of Sensitivity to the Antheridial Factor in Maturing Gametophytes of the Fern Onoclea Sensibilis|Phyton (Horn) (Multiple Languages)18:173-182|1962|
30399|T||Krass,J., and Y. Vardar|A Comparison of the Effect of Gibberellic Acid on Photo-and Geotropic Reactions of the Hypocotyl of Helianthus annuus|Phyton (Horn) (Multiple Languages)18(1): 33-38|1962|
30400|T||Hellman,K.P., H.M. Sell, and S.H. Wittwer|3-Indazoleacetic Acid and Other Indazole Derivatives As Plant Growth Substances|Phyton (Horn) (Multiple Languages)17:11-13|1961|
30401|T||Galun,E.|Effects of Gibberellic Acid and Naphthaleneacetic Acid on Sex Expression and Some Morphological Characters in the Cucumber Plant|Phyton (Horn) (Multiple Languages)13:1-8|1959|
30403|T||Brueske,C.H., and H.G. Applegate|The Effects of Halogenated Benzoic Acids on Protoplasmic Streaming of Elodea Densa|Phyton (Horn) (Multiple Languages)18:27-32|1962|
30404|T||Sytnik,K.M.|The Effect of Gibberellin on the Intake of P32 into Plant Organs|Dokl. Akad. Nauk Uzb. SSR3:249-252|1961|
30406|T||Loos,W.|Effect of Gibberellic Acid on Vegetative Reproduction and on the Root Growth of Lemna Minor l|Phyton (Horn) (Multiple Languages)18:133-136|1962|
30408|T||Diakonu,P.I.|The Accumulation of Growth-Promoting Substances in the Apical Cone of Corn at Different Stages of Organogenesis|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)1:154-158|1962|
30412|T||Steward,F.C., P.L. Mott, and G. Shaw|Effects of Adenyl Cytokinins on the Solutes of Culture Cells|Phytochemistry12:2335-2339|1973|10.1016/0031-9422(73)80434-0
30413|T||Kull,U., and R. Buexenstein|Effects of Cytokinins on the Lipid Fatty Acids of Leaves|Phytochemistry13:39-44|1974|10.1016/S0031-9422(00)91264-0
30414|T||Chinoy,J.J., Y.D. Singh, and M.M. Laloraya|EPR Studies on Coconut Milk: Effect of Ethylendiamine Tetra-Acetic Acid and Some Growth Regulators on Manganese Content|Biochem. Physiol. Pflanzen (Multiple Languages)165:536-540|1974|10.1016/S0015-3796(17)31001-6
30415|T||Iriuchijima,S., and R.W. Curtis|Reaction of Malformin with Sulfhydryl Compounds|Phytochemistry9:1199-1202|1970|10.1016/S0031-9422(00)85308-X
30418|T||Smith,A.M., B.A. Stynes, and K.J. Moore|Benomyl Stimulates Growth of a Basidiomycete on Turf|Plant Dis. Rep.54(9): 774-775|1970|
30420|T||Berry,C.R.|A Plant Fumigation Chamber Suitable for Forestry Studies|Phytopathology60:1613-1615|1970|10.1094/Phyto-60-1613
30421|T||Benda,G.T.A.|Sugarcane Mosaic Virus from Arundinaria Gigantea, A Bamboo|Plant Dis. Rep.54:815-816|1970|
30422|T||Adedipe,N.O., L.A. Hunt, and R.A. Fletcher|Effects of Benzyladenine on Photosynthesis, Growth and Senescence of the Bean Plant|Physiol. Plant. (Multiple Languages)25(1): 151-153|1971|10.1111/j.1399-3054.1971.tb01105.x
30424|T||Sietsma,J.H.|Some Effects of Cholesterol on the Metabolism of Pythium sp. PRL 2142|Biochim. Biophys. Acta244:178-185|1971|10.1016/0304-4165(71)90134-6
30425|T||Seetharam,A., and S.R. Viswanatha|Effects of Metasystox on Meiosis and Pollen Fertility in Durum Wheat|Mysore J. Agric. Sci.5:109-111|1971|
30428|T||Kamienska,A., and A. Chrominski|Effect of (2-Chloroethyl) Phosphonic Acid on Ccc-Induced Delay of Fruit Ripening|J. Exp. Bot.22:572-574|1971|10.1093/jxb/22.3.572
30431|T||Konstantinov,K.|Possibilities for Chemical Control of Weeds in Parsley Plantings (Vazmozhnosti Za Khimicheska Borba S Plevelite Pri Magdanoza)|Gradinar. Lozar. Nauka (Multiple Languages)7(4): 63-70|1970|
30432|T||Vig,B.K.|Increase Induced by Colchicine in the Incidence of Somatic Crossing over in Glycine max|Theor. Appl. Genet.41:145-149|1971|10.1007/BF00277616
30433|T||Gol'D,V.M., and V.G. Kol'Tsova|Vliyanie2,4-Dinetrofenola, Uglekislogo gaza Ikofaktorov Tsiklicheskikh Protsessov Fotosinteza na Biosintez Zelenykh Pigemntov|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)13:64-68|1970|
30436|T||Venis,M.A.|Auxin-Induced Conjugation Systems in Peas|Plant Physiol.49:24-27|1972|10.1104/pp.49.1.24
30437|T||Mercado,B.L., A.M. Baltazar, and J.N. Sierra|Morphological and Physiological Responses of Crops and Weeds to Trifluralin: II. Physiological Reponses of Mung Bean|Philipp. Agric.53:580-587|1970|
30438|T||Lin,C.F., and A.A. Boe|Effects of Some Endogenous and Exopenous Growth Regulators on Plum Seed Dormancy|J. Am. Soc. Hortic. Sci.97:41-44|1972|10.21273/JASHS.97.1.41
30439|T||Looney,N.E.|Influence of Succinic Acid-2.2-Dimethylhydrazide and Ethylene on Respiration and Ethylene Production by Developing 'Bartlett' Pear Fruits|J. Am. Soc. Hortic. Sci.97:78-81|1972|
30440|T||Robitaille,H., and R.F. Carlson|Response of Dwarfed Apple Trees to Stem Injections of Gibberellic and Abscisic Acids|Hortscience6(6): 538-540|1971|10.21273/HORTSCI.6.6.539
30441|T||Marcelle,R.|Effects of the Growth Retardants B-Nine and CCC on GA3-Induced Thorn Formation by Young Pear Trees|J. Hortic. Sci.46:453-459|1971|10.1080/00221589.1971.11514424
30442|T||Chundawat,B.S., E. Takahashi, and K. Nagasawa|Effect of Gibberellic Acid, B-Nine and Kinetin on Fruit Set, Parthenocarpy and Quality of Kyoho Grapes|J. Jpn. Soc. Hortic. Sci.40(2): 105-109|1971|10.2503/jjshs.40.105
30443|T||Manankov,M.K.|Effect of Gibberellin on Different Varieties of Grape|Sov. Plant Physiol.17(4): 607-610|1970|
30444|T||Yakushkina,N.I., and G.P. Pushkina|Effects of Gibberellin and Kinetin on Chlorophyll Content and Photophosphorylation in Maize Seedlings|Sov. Plant Physiol.18(5): 760-764|1971|
30446|T||Ullmann,J., F. Seidlova, and J. Krekule|5-Fluorodeoxyuridine Inhibition of Photoperiodically Induced Flowering in Chenopodium rubrum l|Biol. Plant. (Praha)13:305-312|1971|10.1007/BF02930917
30447|T||Johnson,K.D., and H. Kende|Hormonal Control of Lecithin Synthesis in Barley Aleurone Cells: Regulation of the Cdp-Choline Pathway by Gibberellin|Proc. Northeast. Weed Control Conf.68:2674-2677|1971|
30448|T||Rose,R.J., and G. Setterfield|Cytological Studies on the Inhibition by 5-Fluorouracil of Ribosome Synthesis and Growth in Jerusalem Artichoke Tuber Slices|Planta (Multiple Languages)101:210-230|1971|10.1007/BF00386829
30449|T||Neumann,P.M., and J.M. Palmer|Early Effects of Auxin on Growth and Nucleic-Acid Metabolism in Sterile Pea Stems|J. Exp. Bot.22:915-921|1971|10.1093/jxb/22.4.915
30454|T||Buggeln,R.G., and B.J.D. Meeuse|Hormonal Control of the Respiratory Climacteric in Sauromatum Guttatum (Araceae)|Can. J. Bot.49:1373-1377|1971|10.1139/b71-193
30455|T||Muehlbauer,F.J., and D.G. Miller|Influence of 2,3,5-Triiodobenzoic Acid on Seed Yield of Lentils|Crop Sci.11:702-703|1971|10.2135/cropsci1971.0011183X001100050029x
30456|T||Reich,J.E., and H.B. Lagerstedt|The Effect of Paraquat, Dinoseb and 2,4-D on Filbert (Corylus avellana L.) Suckers|J. Am. Soc. Hortic. Sci.96(5): 554-556|1971|10.21273/JASHS.96.5.554
30457|T||Lord,W.J.|Effects of Annual Sprays of Succinic Acid-2,2-Dimethylhydrazide on Vegetative Growth, Fruiting, Fruit Quality and Pre-Harvest Drop of Delicious Apple Trees|J. Am. Soc. Hortic. Sci.96:687-690|1971|10.21273/JASHS.96.5.687
30458|T||Batikyan,G.G., and E.G. Simonyan|Vliyanie Kinetina na Kletochnoe Delenie Luka (Allium cepa)|Biol. Zh. Arm. (Non-English)23:96-103|1970|
30463|T||Pillay,D.T.N., and C.F. Lynn|Delay in Abscission in Bean Explants by Plant Growth Retardants|Phyton (Horn) (Multiple Languages)28:75-79|1971|
30464|T||Pillay,D.T.N., and Y. Tu|Influence of Amo-1618 and Gibberellic Acid on Growth, Cell Wall, Protein and Nucleic Acid Synthesis in Pea Internodes|Phyton (Horn) (Multiple Languages)28:67-74|1971|
30467|T||Rakitin,Y.V., and B.D. Strel'Nikova|Influence of Sodium Maleic Hydrazide on the Total Nitrogen, Protein, and Nucleic Acid Content in Potato Tubers|Sov. Plant Physiol.17(1): 74-77|1970|
30470|T||Watanabe,K., K. Tanaka, K. Asada, and Z. Kasai|The Growth Promoting Effect of Phytic Acid on Callus Tissues of Rice Seed|Plant Cell Physiol.12:161-164|1971|10.1093/oxfordjournals.pcp.a074600
30473|T||Izquierdo-Tamayo,A.|Tetraploides de Nicotiana Debneyi Obtenidos Por la Accion de la Colchicina|Genet. Iber.21:117-155|1969|
30474|T||Isshak,Y.M., B.A. Fahmi, and R.I. Khalil|Effect of Gibberellin on the Quality of Banaty Grapes as Affected by Concentration and Growth Stages|Agric. Res. Rev.52:77-83|1974|
30475|T||Rouhani,I., A. Bassiri, and B. Shaybany|Effects of Post-Harvest Ethephon Applications on Ripening and Physiology of Persimmon Fruits at Various Stages of Maturity|J. Hortic. Sci.50:73-80|1975|10.1080/00221589.1975.11514605
30476|T||Rizk,S.S., K. Mansour, Y. Isshak, E. Salem, B. Fahmi, R. Ibrahim, and S.B. Salama|Trials to Degreen Citrus Fruits by Ethrel|Agric. Res. Rev.52:47-59|1974|
30477|T||Nothmann,J., and D. Koller|Effects of Growth Regulators on Fruit and Seed Development in Eggplant (Solanum Melongena L.)|J. Hortic. Sci.50:23-28|1975|10.1080/00221589.1975.11514599
30478|T||Calvert,A., and G. Slack|Effects of Carbon Dioxide Enrichment on Growth, Development and Yield of Glasshouse Tomatoes.  I.  Responses to Controlled Concentrations|J. Hortic. Sci.50:61-71|1975|10.1080/00221589.1975.11514604
30479|T||Sawhney,V.K., and L.M. Srivastava|Wall Fibrils and Microtubules in Normal and Gibberellic-Acid-Induced Growth of Lettuce Hypocotyl Cells|Can. J. Bot.53:824-835|1975|10.1139/b75-100
30482|T||Young,R.H., O.L. Jahn, and J.J. Smoot|Coloring and Loosening of Citrus Fruits with Ethephon|Proc. Annu. Meet. Fla. State Hortic. Soc.87:24-28|1974|
30484|AT||Aleshin,E.P., N.E. Aleshin, E.R. Avakyan, and G.I. Satalkina|Mechanism of Gibberellin Action on Rice|Sov. Plant Physiol.25(2): 206-211|1978|
30488|T||Davidonis,G.H., R.H. Hamilton, and R.O. Mumma|Metabolism of 2,4 Dichlorophenoxyacetic Acid in Soybean Root Callus and Differentiated Soybean Root Cultures as a Function of Concentration and Tissue Age|Plant Physiol.62:80-83|1978|10.1104/pp.62.1.80
30490|T||Charles,A.H., L.L. Jones, and P.J. Ryan|Dalapon Resistance in Lolium Perenne Populations|J. Br. Grassl. Soc.33:93-98|1978|10.1111/j.1365-2494.1978.tb00804.x
30491|T||Hipkins,M.F.|Kinetic Analysis of the Chlorophyll Fluorescence Inductions from Chloroplasts Blocked with 3-(3,4-Dichlorophenyl)-1,1-Dimethylurea|Biochim. Biophys. Acta502:514-523|1978|10.1016/0005-2728(78)90084-1
30492|T||Krieger,K.G.|Early Time Course and Specificity of Auxin Effects on Turgor Movement of the Bean Pulvinus|Planta (Multiple Languages)140:107-109|1978|10.1007/BF00384908
30493|T||Machado,V.S., C.J. Arntzen, J.D. Bandeen, and G.R. Stephenson|Comparative Triazine Effects upon System Ii Photochemistry in Chloroplasts of Two Common Lambsquarters Biotypes|Weed Sci.26:318-322|1978|10.1017/S0043174500050025
30494|T||Bisaria,A.K., R.A. Sharma, and A.K.,Jr. Bisaria|Individual and Combined Effects of Chlorflurenol and Indole-3-Butyric Acid on Rooting of Stem Cuttings in Manihot esculenta Crantz|Bangladesh J. Bot.6(1-2): 51-55|1977|
30495|T||Parups,E.V., and R.W. Miller|Investigation of Effects of Plant Growth Regulators on Liposome Fluidity and Permeability|Physiol. Plant. (Multiple Languages)42:415-419|1978|10.1111/j.1399-3054.1978.tb04106.x
30496|T||Shaalan,M.I., A.A. El Khishen, and O.B. Nassef|The Influence of Herbicides on Major Fieldcrops in the Newly Reclaimed Areasof Egypt: Ii. Effect of Postemergence Application of Herbicides on Wheat, Cotton|Libyan J. Agric.6:203-212|1977|
30497|T||Shaalan,M.I., and A.A. El Khishen|The Influence of Herbicides on Major Field Crops in the Newly Reclaimed Areas of Egypt: I. Effect of Preemergence Application of Herbicides on Rice, Cotton, Ma|Libyan J. Agric.6:193-202|1977|
30498|T||Berard,D.F., D.P. Tainey, and C.C. Lin|Absorption Translocation and Metabolism of Fluridone in Selected Crop Species|Weed Sci.26:252-254|1978|10.1017/S0043174500049821
30499|T||Marczynski,S.|The Chemical Defoliation of Ornamental Nursery Shrubs|Acta Agrobot. (Multiple Languages)30:121-134|1977|10.5586/aa.1977.009
30500|T||Marczynski,S.|The Chemical Defoliation of Ligustrum Vulgare L. and Spiraea X Arguta Zab Shrubs in the Nursery|Acta Agrobot. (Multiple Languages)30:103-120|1977|10.5586/aa.1977.008
30501|T||Kern,A.D., W.F. Meggitt, and D. Penner|Yellow Nutsedge (Cyperus esculentus) Control in Kentucky Bluegrass (Poa pratensis) with Bentazon, Cyperquat, and Perfluidone|Weed Sci.26:280-283|1978|10.1017/S0043174500049900
30503|T||Shaalan,M.I., E.M. Al Naggar, and A.A. Abdel Bary|Investigations on Rice Herbicides in Egypt: I. the Effect of Herbicidal Mixtures on Rice Grain Yield and Weeds|Libyan J. Agric.6:221-228|1977|
30504|T||Carlsson,J.|Uptake of 2,4-D in Leaves of Plants Previously Treated with Sodium Trichloroacetate (TCA)|Swed. J. Agric. Res.7:187-191|1977|
30505|T||Shaalan,M.I., A.A. El Khishen, and O.B. Nassef|The Influence of Herbicides on Major Field Crops in the Newly Reclaimed Areas of Egypt: Iii. Effect of Recommended Application Methods of Herbicides on Weed Se|Libyan J. Agric.6:213-220|1977|
30506|T||Stair,E.C., and R.K. Showalter|Tetraploidy in Tomatoes Induced by the Use of Colchicine|Proc. Am. Soc. Hortic. Sci.40:383-386|1942|
30507|T||Hawkes,J.G.|Some Effects of the Drug Colchicine on Cell Division|Genetics44:11-22|1942|
30508|T||Gardner,F.E.|Practical Applications of Plant Growth-Substances in Horticulture|Proc. Annu. Meet. Fla. State Hortic. Soc.50:20-26|1941|
30510|T||Mitchell,J.W., and M.R. Whitehead|Effects of Vaporous Naphthoxyacetic Acid on Development of Tomato Fruits, with Special Reference to Their Vitamin C Content|Bot. Gaz.104:362-365|1942|10.1086/335141
30511|T||Luganskaya,A.N., and A.A. Krasnovskii|Investigation of the Mechanism of Redox Reactions in the Presence of Oxygen Photosensitized by Chlorophyll|Molekulybio4:848-859|1970|
30512|T||Bassham,J.A., A.M. El Badry, M.R. Kirk, H.C.J. Ottenheym, and H. Springer-Lederer|Photosynthesis of Isolated Chloroplasts. V. Effect on Fixation Rate and Metabolite Transport from the Chloroplasts Caused by Added Frucctose-1,6-Diphosphatase|Biochim. Biophys. Acta223:261-274|1970|10.1016/0005-2728(70)90183-0
30513|T||Jones,R.J., and T.A. Mansfield|Increase in the Diffusion Resistances of Leaves in A Carbon Dioxide-Enriched Atmosphere|J. Exp. Bot.21:951-958|1970|10.1093/jxb/21.4.951
30517|T||Dhillon,B.S., and D. Singh|Induction of Male Sterility in Grapes|Indian J. Hortic.27:80-85|1970|
30518|T||Diaz,M.A.A.|Effect of Some Herbicides on Carbon Dioxide Fixation, Intermediates Pattern and Ribulose-1,5-Diphosphate Carboxylase and Fructose-1,6-Bisphosphatase Activities|Pestic. Biochem. Physiol.13:105-111|1980|10.1016/0048-3575(80)90061-9
30519|T||Oliver,D.J.|The Effect of Glyoxylate on Photosynthesis and Photorespiration by Isolated Soybean Mesophyll Cells|Plant Physiol.65:888-892|1980|10.1104/pp.65.5.888
30520|T||Crowley,J., and G.N. Prendeville|Effects of Herbcides of Different Modes of Action on Leaf-Cell Membrane Permeability in Phaseolus vulgaris|Can. J. Plant Sci.60(2): 613-620|1980|10.4141/cjps80-088
30522|T||Zimmer,K., and K. Bahnemann|Effects of Gibberellic Acid on Chrysanthemum Cultivar Asta Lee|Gartenbauwissenschaft (Multiple Languages)45:49-55|1980|
30523|T||Schneider,J.J.|Metabolism of Deydroisoandrosterone and Other Steroids by Surviving Slices of the Potato Tuber and Additional Plant Tissues|J. Biol. Chem.245:5505-5510|1970|10.1016/S0021-9258(18)62782-6
30525|T||Vendrell,M.|Acceleration and Delay of Ripening in Banana Fruit Tissue by Gibberellic Acid|Aust. J. Biol. Sci.23:553-559|1970|10.1071/BI9700554
30526|T||Haggar,R.J., and J.G. Elliott|The Effects of Dalapon and Stocking Rate on the Species Composition and Animal Productivity of a Sown Sward|J. Br. Grassl. Soc.33:23-34|1978|10.1111/j.1365-2494.1978.tb00793.x
30527|T||Hamdoun,A.M., and A.G.T. Babiker|Effects of Some Herbicides on Cotton Weeds in the Sudan Gezira|Exp. Agric.14:137-144|1978|10.1017/S001447970000853X
30530|T||McComb,A.J.|An Effect of Gibberellic Acid on Circumnutation|New Phytol.61:128-131|1962|10.1111/j.1469-8137.1962.tb06281.x
30531|T||Bradley,M.V., and J.C. Crane|Cell Division and Enlargement in Mesocarp Parenchyma of Gibberellin-Induced Parthenocarpic Peaches|Bot. Gaz.123(4): 243-246|1962|10.1086/336156
30532|T||Grover,R.|Effect of Gibberellic Acid on Seed Germination of Elm, Scotch Pine, Colorado and White Spruce|For. Sci.8:187-190|1962|
30533|T||Bilan,M.V., and A.R. Kemp|Effect of Gibberellin on Growth and Development of Loblolly Pine Seedlings|J. For.60:391-394|1962|
30534|T||Stephens,R.J., and J.P. Sutherland|Effects of Some Herbicides on the Weeds and Crop in A Raspberry Cane Nursery|Engeigaku Kenkyuu1:112-119|1962|
30535|T||Martin,J.P., and W.P. Bitters|Greenhouse Citrus Replat Studies with Various Rootstock Seedlings and Rootstock-Scion Combinations|Proc. Am. Soc. Hortic. Sci.80:274-284|1962|
30537|T||Zagaja,S.W.|The Effect of Gibberellic Acid on Cherry Seedling Growth|Engeigaku Kenkyuu1:81-84|1962|
30540|T||Cartwright,P.M., and D. Snow|The Influence of Foliar Applications of Urea on the Nodulation Pattern of Certain Leguminous Species|Ann. Bot.26:251-259|1962|10.1093/oxfordjournals.aob.a083791
30544|T||Chernukhina,L.|Effect of the Growth Stimulator 2,4,5-Trichlorophenoxyacetic Acic on the Yield and Maturation of Tomatoes During Their Cultivation Under Unfavorable Conditions|Vestn. Skh. Nauki (Non-English)5:102-104|1962|
30545|T||Maestri,M., and C. Vieira|A Note on the Decrease of the Percentage of Germination of Coffee Seeds (Coffea Arabica L. Var. Bourbon), by Action of Gibberellic Acid|Rev. Ceres (Multiple Languages)11:247-249|1963|
30546|T||Thompson,R.|Some Factors Affecting Carrot Root Shape and Size|Euphytica 18:277-285|1969|10.1007/BF00035699
30547|T||Varga,A.|Effects of Growth Regulators on Fruit Set and June Drop of Pears and Apples|Neth. J. Agric. Sci.17:229-233|1969|10.18174/njas.v17i3.17376
30549|T||Stroganova,M.A.|Role of the Node in the Effect of Gibberellin on the Growth of the Base of the First Leaf in Maize|Sov. Plant Physiol.16(1): 127-128|1969|
30550|T||Van Bragt,J.|The Effect of Ccc on Growth and Gibberellin Content of Tomato Plants|Neth. J. Agric. Sci.17:183-188|1969|10.18174/njas.v17i3.17370
30553|T||McDaniel,J.L., and R.E. Frans|Soybean Mitochondrial Response to Prometryne and Fluometuron|Weed Sci.17:192-196|1969|10.1017/S0043174500031295
30554|T||Izhar,S., J.M. Bevington, and R.W. Curtis|Effect of Malformin on Root Growth|Plant Cell Physiol.10:687-698|1969|
30555|T||Stowe,B.B., and V.W. Hudson|Growth Promotion in Pea Stem Sections. Iii. by Alkyl Nitriles, Alkylacetylenes and Insect Juvenile Hormones|Plant Physiol.44:1051-1057|1969|10.1104/pp.44.7.1051
30556|T||Evans,R.A., R.E.,Jr. Eckert, B.L. Kay, and J.A. Young|Downy Brome Control by Soil-Active Herbicides for Revegetation of Rangelands|Weed Sci.17:166-169|1969|10.1017/S0043174500031234
30557|T||Chidzhavadze,R.S.|Some Results of a Study of the Effect of Gibberellin on Different Plants|Izv. Batum. Bot. Sada Akad. Nauk Gruz. SSR14:102-113|1967|
30558|T||Dass,H.C., and G.S. Randhawa|Effect of Gibberellin on Seeded Vitis Vinifera with Special Reference to Induction of Seedlessness|Vitis (Multiple Languages)7:10-21|1968|
30559|T||Shkol'Nik,R.Y., M.A. Karimova, and N.G. Doman|Effect of Certain Conditions on C14O2 Fixation Outside the Cell in the Presence of Ribulose-1,5-Diphosphate and Ribose-5-Phosphate|Dokl. Akad. Nauk Tadzh. SSR10:60-62|1967|
30560|T||Polesika,N.B.|Effect of Phenol Substances on Protein Metabolism in Germinating Cotton Seeds|Turkm. SSR-nin Ylymlar Akad. Habar. (Multiple Languages)4:84-88|1968|
30561|T||Black,M., and M.R. Richardson|Promotion of Germination by Inhibitors of Protein Synthesis: A Clue to the Germination Mechanism?|Bull. Soc. Fr. Physiol. Veg.14:73-81|1968|
30562|T||Agakishiev,D., and D. Barbaev|Effect of 2,4,5-Trichlorophenoxyacetic Acid on the Activity of Gibberellin-like Matter in Cotton|Turkm. SSR-nin Ylymlar Akad. Habar. (Multiple Languages)1:9-14|1969|
30565|T||Karabanov,I.A.|Effect of Gibberellin on the Water Regime and Assimilation Activity of the Leaves of Black Currant in Relation to Mineral Nutrition|Naucn. Dokl. Vyss. Sk. Biol. Nauki (Non-English)12:74-80|1969|
30566|T||Gifford,R.M., and J. Moorby|The Effect of Ccc on the Initiation of Potato Tubers|Potato Res.10:235-238|1967|10.1007/BF02364431
30567|T||Molnar,J.M., and W.A. Cumming|Effect of Carbon Dioxide on Propagation of Softwood, Conifer and Herbaceous Cuttings|Can. J. Plant Sci.48:595-599|1968|10.4141/cjps68-113
30568|T||Cronshaw,J., and P.R. Morey|The Effect of Plant Growth Substances on the Development of Tension Wood in Horizontally Inclined Stems of Acer Rubrum Seedlings|Protoplasma (Multiple Languages)65:379-391|1968|10.1007/BF01666298
30569|T||Galle,E.E.C., and D.K. Strydom|Effect of Auxin on the Histology and Metabolism of Leaf Cuttings of Brassica Oleracea Var. Botytis|S. Afr. J. Agric. Sci.10:937-957|1967|
30570|T||Greene,G.L.|Gibberellin-Induced Paling in Leaves of a Dwarf Bean Mutant|Turrialba18(1): 70-72|1968|
30571|T||Humphries,E.C.|The Effect of Growth Regulators, Ccc and B9 on Protein and Total Nitrogen of Bean Leaves (Phaseolus Vulgaris) During Development|Ann. Bot.32:497-507|1968|10.1093/oxfordjournals.aob.a084224
30572|T||Luke,H.H., and T.E. Freeman|Stimulation of Transpiration by Cytokinins|Nature217:873-874|1968|10.1038/217873a0
30576|T||Sakurai,N., and Y. Masuda|Effect of Cycloheximide and Cordycepin on Auxin-Induced Elongation and beta-Glucan Degradation of Noncellulosic Polysaccharides of Avena Coleoptile Cell Wall|Plant Cell Physiol.20(3): 593-603|1979|
30577|T||Karivaratharaju,T.V., and M. Thangaraj|Effect of Ethrel on Phosphorus Fractions in Phaseolus Vulgaris l|Indian J. Exp. Biol.16:1217-1218|1978|
30578|T||Kulkarni,A.P., D.V. Dev, S.K. Deshmukh, and D.S. Deshpande|Effect of Electron Donating Group on S-Triazolo (3,4-B) Benzotheazole Towards Plant Growth Activity|Indian J. Exp. Biol.17:100-102|1979|
30580|T||Choshi,A.|Effects of IAA on Flowering of Excised Plumules in Pharbitis Nil|Rep. Fac. Sci. Shizuoka Univ.13:97-103|1979|
30581|T||Sung,Z.R.|Relationship of Indole-3-Acetic Acid and Tryptophan Concentrations in Normal and 5-Methyltryptophan-Resistant Cell Lines of Wild Carrots|Planta (Multiple Languages)145:339-345|1979|10.1007/BF00388358
30587|T||Audley,B.G., and H.M. Wilson|Metabolism of 2-Chloro-Ethylphosphonic Acid (Ethephon) in Suspension Cultures of Hevea brasiliensis|J. Exp. Bot.29(6): 1329-1336|1978|10.1093/jxb/29.6.1329
30588|T||Wu,Y.L., and M.L. Peterson|Effects of Growth Substances on Cool-Temperature Seedling Vigor in Rice|Bot. Bull. Acad. Sin. (Taipei)20:27-38|1979|
30589|T||Hayashi,H., and K. Koshimizu|Methoxy-1,4-Benzoquinone, and Methyl Gallate, Inhibitory Factors of Betacyanin Synthesis in Amaranthus, from Persimmon Fruits|Agric. Biol. Chem.43:113-116|1979|
30590|T||Das,K., B.D. Singh, R.B. Singh, J. Singh, and R.M. Singh|Cytological Aberrations Induced by Lasso Machete and Stam F-34 in Barley Hordeum vulgare|Indian J. Exp. Biol.16:446-449|1978|
30591|T||Tottman,D.R.|The Effects of A Dicamba Herbicide Mixture of the Grain Yield Components of Winter Wheat|Weed Res. (Multiple Languages)18:335-339|1978|10.1111/j.1365-3180.1978.tb01170.x
30593|T||Worku,Z., R.C. Herner, and R.L. Corolus|Effect of Stage of Ripening and Ethephon Treatment on Color Content of Paprika Pepper|Sci. Hortic.3:239-245|1975|10.1016/0304-4238(75)90006-0
30594|T||Leguay,J.J., and J. Guern|Quantitative Effects of 2,4-Dichlorophenoxyacetic Acid on Growth of Suspension-Cultured Acer pseudoplatanus Cells|Plant Physiol.56:356-359|1975|10.1104/pp.56.3.356
30596|T||Knypl,J.S.|Action of (2-Chloroethyl) Trimethyl-Ammonium Chloride, 2-4-Dichlorobenzyl-Tributylphosphonium Chloride, and N-Dimethylamino-Succinamic Acid on IAA and Coumarin|Acta Soc. Bot. Pol.35:611-625|1966|10.5586/asbp.1966.049
30598|T||Baruffini,A., P. Borgna, G. Pagani, and R. Ponci|Phytotoxic Activity of Anilide Inhibitors of the Hill Reaction|Farmaco - Edizione Scientifica22:612-626|1967|
30599|T||Iwahori,S., S. Benyehoshua, and J.M. Lyons|Effect of 2-Chloroethanephosphonic Acid on Tomato Fruit Development and Maturation|Bioscience19:49-50|1969|10.2307/1294631
30600|T||Krishna Sastry,K.S., and S.R. Rao|Effect of Benzyladenine on Abscission of Debladed Petioles of Coleus blumei Benth|Mysore J. Agric. Sci.1:259-263|1967|
30603|T||Davis,F.S., R.W. Bovey, and M.G. Merkle|Effect of Paraquat and 2,4,5-T on the Uptake and Transport of Picloram in Woody Plants|Weed Sci.16:336-339|1968|10.1017/S0043174500047305
30606|T||Munns,D.N.|Nodulation of Medicago sativa in Solution Culture. Iv. Effects of Indole-3-Acetate in Relation to Acidity and Nitrate|Plant Soil29:257-262|1968|10.1007/BF01348943
30607|T||Davidson,D., and R.D. MacLeod|Response of Meristems to Indoleacetic Acid and Colchicine:  Differences Between Primordia and Root Meristems|Bot. Gaz.129(2): 166-171|1968|10.1086/336431
30608|T||Bingham,S.W.|Influence of Herbicides on Japanese Holly and Hand Labor for Weed Control|Weed Sci.16:478-481|1968|10.1017/S0043174500047792
30609|T||Binchy,A.|"Preliminary Studies with the Growth Regulator N-Metatolyl Phthalamic Acid As ""Duraset"" on European Cultivars of Tomato"|Sci. Proc. R. Dublin Soc. Ser. B2:141-152|1968|
30615|T||Baxter,R., and J.B. Hanson|The Effect of 2,4Dichlorophenoxy-Acetic Acid upon the Metabolism and Composition of Soybean Hypocotyl Mitochondria|Planta (Multiple Languages)82:246-260|1968|10.1007/BF00398203
30616|T||Mehrotra,O.N., H.K. Saxena, A.N. Roy, and S. Nath|Effects of Growth Regulators on Fruiting and Yield of Black Gram in India|Exp. Agric.4:339-344|1968|10.1017/S0014479700009698
30618|T||Singh,K.P.|Induction of Flowering in Anagallis Arvensis var. Coerulea by Gibberellic Acid|Curr. Sci. (Bangalore)37:259-260|1968|
30619|T||Ladonin,V.F.|The Effect of Esters of 2,4-D on the Nitrogen Metabolism in Plants|Dokl. Akad. Nauk BSSR (Multiple Languages)5:42-48|1961|
30623|T||Smock,R.M., D. Martin, and C.A.S. Padfield|Effect of N6-Benzyladenine on the Respiration and Keeping Quality of Apples|Proc. Am. Soc. Hortic. Sci.81:51-56|1962|
30624|T||Donald,A.|Effects of Epinephrine Solution on Plant Cyclosis|Trans. Kans. Acad. Sci.65:468-469|1962|10.2307/3626780
30628|T||Coggins,C.W.,Jr., H.Z. Hield, and R.M. Burns|The Influence of Potassium Gibberellate on Grapefruit Trees and Fruit|Proc. Am. Soc. Hortic. Sci.81:223-226|1962|
30629|T||Artyushin,A.M., and P.K. Peken'O|Experiments with Various Herbicides for the Control of Weeds in Plantings of Potatoes|Dokl. Akad. Nauk BSSR (Multiple Languages)5:161-165|1961|
30630|T||Zhukova,P.S.|The Use of Herbicides in Vegetable Farming in the Byelorussian Ssr|Dokl. Akad. Nauk BSSR (Multiple Languages)5:166-170|1961|
30631|T||Toussoun,T.A., and Z.A. Patrick|Effect of Phytotoxic Substances from Decomposing Plant Residues on Root Rot of Bean|Phytopathology53:265-270|1963|
30632|T||Abramov,N.G.|A Chemical Method for Weed Control in Fields of Fiber-Flax|Dokl. Akad. Nauk BSSR (Multiple Languages)5:85-91|1961|
30633|T||Green,K.R., and F. Walls|Amitrole|Agric. Gaz. N. S. W.73:399-401|1962|
30638|T||Sekerka,V.|Cytological and Morphological Effects of 2-Hydroxybenzothiazole|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant14:1-8|1979|
30639|T||Turvey,P.M., and J.W. Patrick|Kinetin-Promoted Transport of Assimilates in Stems of Phaseolus Vulgaris L.: Localized Vs. Remote Sites of Action|Planta (Multiple Languages)147:151-155|1979|10.1007/BF00389516
30640|T||Jaffe,M.J., and R. Goren|Auxin and Early Stages of the Abscission Process of Citrus Leaf Explants|Bot. Gaz.140(4): 378-383|1979|10.1086/337100
30641|T||Dashek,W.V., and R.R. Mills|Azetidine-2-Carboxylic Acid and Lily Pollen Tube Elongation|Ann. Bot.45:1-12|1980|10.1093/oxfordjournals.aob.a085792
30642|T||Salem,S., D. Linstedt, and J. Reinert|The Cytokinins of Cultured Carrot Cells|Protoplasma (Multiple Languages)101:103-109|1979|10.1007/BF01293439
30645|T||Kordan,H.A., and P.M. Mumford|Effects of Oxybarbiturates on the Germination Behaviour of Impatiens holsii Pollen|Eur. J. Cell Biol.19:299-302|1979|
30646|T||Dubuc-Lebreux,M.A.|Modification of the Unifoliate Habit of Streptocarpus Wendlandii and Streptocarpus Michelmorei by Some Growth Regulators|Phytomorphology28:224-238|1978|
30647|T||Bar'Etas,P.K., S. Faiziev, and A.I. Imamaliev|Effects of Defoliants on Transport of Assimilates from Cotton Leaves|Sov. Plant Physiol.26(1): 124-129|1979|
30648|T||Coffman,C.B., and W.A. Gentner|Persistance of Several Controlled Release Formulations of Trifluralin in Greenhouse and Field|Weed Sci.28:21-23|1980|10.1017/S0043174500027697
30651|T||Mall,L.P., and J.C. Dagar|Effect of Parthenium Hysterophorus Extract on the Germination and Early Seedling Growth of 3 Crops|J. Indian Bot. Soc.58:40-43|1979|
30652|T||Radice,M., P. Martinotti, P. Lado, and E. Marre|Lack of Effect of Fusicoccin on Passive Transport in Living Plant Tissues and in Artificial Phospholipid Membranes|Plant Sci. Lett.10:75-84|1977|10.1016/0304-4211(77)90052-9
30653|T||Misra,G., and J. Hota|Factors Concerned in Leaf Senescence: III. Effect of Some Senescence Ragulators on Excised Leaves of Rice|J. Indian Bot. Soc.56(1): 57-62|1977|
30655|T||Henderson,J.R., R.W. Bueschler, and T.E. Morelock|Influence of Genotype and Co2 on Discoloration, Phenolic Content, Peroxidase and Phenolase Activities in Snap Beans|Hortscience12:453-454|1977|10.21273/HORTSCI.12.5.453
30656|T||Tjia,B., and J. Buxton|Ethrel Studies on Petunia Hybrida Vilm|Sci. Hortic.7:269-276|1977|10.1016/0304-4238(77)90023-1
30657|T||Ellabban,H.M., D.B. Williams, and G.L. McDaniel|Chemical Stimulation of Dormant Bud Growth of Ficus Elastica 'Decora'|Sci. Biol. J.3:392-400|1977|
30658|T||Stoltz,L.P.|Growth Regulator Effects on Growth and Development of Excised Mature Iris Embryos In Vitro|Hortscience12(5): 495-496|1977|10.21273/HORTSCI.12.5.495
30659|T||Prakash,G.|The Effect of Growth Regulators and Length of Petioles on Their Abscission in Catharanthus Roseus|Plant Sci.7:33-36|1975|
30660|T||Kundu,D.|Effects of Diazo Compounds on Chromosomes and Spindle|Biologia (Bratisl.)32(6): 423-430|1977|
30662|T||Del Rosario,R.P., M. Abilay, and E.R.B. Pantastico|Fruit Set and Development of Lanzones Sprayed with Some Growth Regulators|Philipp. Agric.60:330-338|1976|
30663|T||Kaushik,M.P., J.K. Sharma, and I. Singh|Effect of Alpha Naphthaleneacetic Acid, Gibberellic Acid, Kinetin and Morphactin on Yield of Tomato|Plant Sci.6:51-53|1974|
30664|T||Fick,G.W.|Methods for Evaluation Insecticide Effects on Alfalfa Growth|J. Environ. Qual.6:443-445|1977|10.2134/jeq1977.00472425000600040024x
30666|T||Mukherji,S., and A. Bag|Metabolic Alterations in Rice Seeds Germinating in Streptomycin Sulphate|Bull. Bot. Soc. Bengal29:113-120|1975|
30667|T||Mehta,P.M., B.V.N. Rao, and G. Koshy|Effects of Gibberellic Acid, Ascorbic Acid, Cycocel and Their Combinations on Seedling Growth and Catalase Activity in Triticum Aestivum Var Ji-17|Bull. Bot. Soc. Bengal29:151-154|1975|
30668|T||Smolinski,M.|Influence of Morphactin It 3456 on the Growth and Anatomic Structure of Vicia faba L. (Faba vulgaris Mnch.), Variety 'Hangdown'|Acta Agrobot. (Multiple Languages)29:5-14|1976|10.5586/aa.1976.001
30669|T||Tisserat,B., and T. Murashige|Repression of Asexual Embryogenesis In Vitro by Some Plant Growth Regulators|In Vitro (Rockv.)13(11): 799-805|1977|
30670|T||Dzhokhadze,D.I., and R.I. Goglidze|Comparative Effect of Gibberellic Acid on RNA-Polymerase Activity of Cell Nuclei in Leaves and Roots of Pea|Sov. Plant Physiol.24(4): 609-612|1977|
30671|T||Kumar,U., and N.S. Rangaswamy|Regulation of Seed Germination and Polarity in Seedling Development in Orobanche Aegyptiaca by Growth Substances|Biol. Plant. (Praha)19:353-359|1977|10.1007/BF02922731
30672|T||Teltscherova,L., and F. Seidlova|The Differential Effects of Abscisic Acid on Chenopodium rubrum L. in Dependence on Growth and Developmental State|Biol. Plant. (Praha)19(5): 377-380|1977|10.1007/BF02922736
30674|A||Vannini,G.L., M.P. Fasulo, and A. Bruni|First Observations on the Cytological Changes Induced in Euglena gracilis by Coumarin Treatment|Z. Pflanzenphysiol. (Multiple Languages)84(2): 183-187|1977|10.1016/S0044-328X(77)80193-1
30675|T||Yazgan,M., and Y. Vardar|Studies on the Effects of Auxin-Kinetic Applications on the Epiphyllous Budding of Bryophyllum daigremontianum Berg.|Z. Pflanzenphysiol. (Multiple Languages)84:203-211|1977|10.1016/S0044-328X(77)80022-6
30677|T||Henry,E.W., and W. Jordan III|The Enzymic Response of Pea (Pisum sativum) Stem Sections to Applied Indoleacetic Acid, Gibberellic Acid and Ethrel:  Catalase, Peroxidase and Polyphenol Oxidation|Z. Pflanzenphysiol. (Multiple Languages)84:321-328|1977|10.1016/S0044-328X(77)80145-1
30678|T||Hawton,D.|Weed Control in Potatoes on the Atherton Tableland, Queensland|Aust. J. Exp. Agric. Anim. Husb.17:832-836|1977|10.1071/EA9770832
30679|T||Ho,L.C.|Effects of Co2 Enrichment on the Rates of Photosynthesis and Translocation of Tomato Leaves|Ann. Appl. Biol.87:191-200|1977|10.1111/j.1744-7348.1977.tb01875.x
30680|T||White,J.C., and T.A. Mansfield|Correlative Inhibition of Lateral Bud Growth in Pisum sativum L. and Phaseolus vulgaris L.: Studies of the Role of Abscisic Acid|Ann. Bot.41:1163-1170|1977|10.1093/oxfordjournals.aob.a085406
30681|T||Kapur,A., and C.P. Malik|Effect of Non-Ionic Surfactants on Pollen Germination, Pollen Tube Elongation and Total Proteins|Plant Sci.6:95-96|1974|
30689|T||Binchy,A., and J.V. Morgan|A Comparison of Application Methods and Stages of Plant Development for Applying Duraset (N-Meta-Tolylphthalamic Acid) on the Tomato|Sci. Proc. R. Dublin Soc. Ser. B2:205-215|1970|
30690|T||Bose,S., and R. Mukherjee|Effect of Colchicine on Cosmos Bipinnatus Cav.: Ii. Studies in the C2 Generations|Indian J. Hortic.26:80-82|1969|
30692|T||Engelhard,A.W.|Effects of Fungicides and Insecticides on Flower Quality of Commercial Chrysanthemums in Florida|Proc. Annu. Meet. Fla. State Hortic. Soc.82:381-385|1969|
30693|T||Beyer,E.M.,Jr.|14C2M4: Its Incorporation and Meabolism by Pea Seedlings Under Aseptic Conditons|Plant Physiol.56:273-278|1975|10.1104/pp.56.2.273
30695|T||Youssef,E., A.T. Hegazy, and S. Khalil|Comparative Studies on the Effects of B-Indole Acetic Acid and alpha-Naphthalene Acetic Acid on Growth and Maturity of Vicia faba|Bull. Fac. Sci. Cairo Univ.45:109-118|1972|
30696|T||Hegazy,A.T., E. Youssef, and R. El-Masry|Germination of Wheat Grains as Affected by Different Types of Growth Regulators|Bull. Fac. Sci. Cairo Univ.45:141-148|1972|
30697|T||Mercado,B., and A.M. Baltazar|Effect of Trifluralin on Sugars in Rice Seedlings|Philipp. J. Sci.103:91-95|1974|
30698|T||Agabelli,R.A.|Effect of Chemical Mutagens on Mutation Variability|Izv. Akad. Nauk Arm. SSR Biol. Nauk (Multiple Languages)5/6:26-31|1974|
30699|T||Blanpied,G.D., C.G. Forshey, W.C. Styles, D.W. Green, W.J. Lord, and W.J. Bramlage|Use of Ethephon to Stimulate Red Color Without Hastening Ripening of 'Mcintosh' Apples|J. Am. Soc. Hortic. Sci.100:379-381|1975|10.21273/JASHS.100.4.379
30700|T||Volkova,R.I., L.D. Prusakova, S.N. Drodov, and R.P. Ivanova|Effect of Chlorocholine Chloride on Growth, Tuber Formation, and Frost Resistance of Potato Plants|Sov. Plant Physiol.21(6): 1067-1071|1974|
30701|T||Sharples,R.O.|A Note on the Effect of N-Dimethylaminosuccinamic Acid on the Maturity and Storage Quality of Apples|East Malling Res. Stn. Annu. Rep.67:198-201|1967|
30704|T||Bokarev,K.S., L.M. Kapelyushnikova, G.I. Basova, and E.P. Zhogova|Regulators of Plant Growth - Alkyl Ethers of 2,4-Dichlorophenol and 2,4,5-Trichlorophenol|Sov. Plant Physiol.13(4): 630-635|1966|
30705|T||Arney,S.E., and P.A. Mancinelli|Surgical Investigation of the Role of IAA and GA in the Elongation of 'Meteor Pea' Internodes|New Phytol.66:271-283|1967|10.1111/j.1469-8137.1967.tb06005.x
30707|T||Teskey,B.J.E., and S.D. Kung|Some Effects of Carbaryl on Two Apple Cultivars|Can. J. Plant Sci.47:311-318|1967|10.4141/cjps67-055
30708|T||Trewavas,A.J., I.R. Johnson, and E.M. Crook|The Effects of Some Auxins on the Levels of Phosphate Esters in Avena Sativa Coleoptile Sections|Biochim. Biophys. Acta136:301-311|1967|10.1016/0304-4165(67)90076-1
30713|T||Goodin,J.R., L.S. Jordan, and W.H. Isom|Low Rates of Tordon for Bindweed Control|Down Earth22:6-7|1967|
30714|T||Singh,V.S.|Hormones and Sugarcane: IV. Effect on Indole-3-Acid on Catalase Activity of Sugarcane|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.36:9-16|1966|
30715|T||Ogawa,Y.|Effects of Various Factors on the Increase of Alpha-Amylase Activity in Rice Endosperm Induced by Gibberellin A3|Plant Cell Physiol.7:509-517|1966|10.1093/oxfordjournals.pcp.a079203
30717|T||Kuraishi,S., T. Tezuka, T. Ushijima, and T. Tazaki|Effects of Cytokinins on Frost Hardiness|Plant Cell Physiol.7:705-706|1966|10.1093/oxfordjournals.pcp.a079227
30720|T||Babaev,D.|Effect of Growth Stimulators on Some Physiological Biochemical Processes in the Root System of Cotton|Turkm. SSR-nin Ylymlar Akad. Habar. (Multiple Languages)3:24-30|1966|
30721|T||Abeles,F.B.|Inhibition of Flowering in Xanthium pennsylanicum by Ethylene|Plant Physiol.42:608-609|1967|10.1104/pp.42.4.608
30723|T||Elwell,H.M.|Herbicides for Release of Short-Leaf Pine and Native Grasses|Weeds (Urbana)15:104-107|1967|10.2307/4041174
30724|T||Zemskaya,V.A., Y.V. Rakitin, L.M. Chernikova, and Z.V. Kalibernaya|Distribution and Transformation of 2,4-D in Tissues of Gramineous Plants|Sov. Plant Physiol.24(6): 994-999|1977|
30725|T||Likholat,T.V., and T.N. Druzhinina|Effects of Auxin and Gibberellin on Activity of UDPG-4-Epimerase in Wheat Coleoptiles|Sov. Plant Physiol.24(6): 1194-1199|1977|
30728|T||Sadhu,M.K., and P.C. Das|Effect of Ethrel (Ethephon) on the Growth, Flowering and Fruiting of Three Cucurbits|J. Hortic. Sci.53:1-4|1978|10.1080/00221589.1978.11515240
30729|T||Feucht,W., and M. Nachit|Flavonol Glycosides of Different Species and Hybrids from the Prunus Section Eucerasus and the Growth-Promoting Activity of Quercetin Derivatives|Sci. Hortic.8:51-56|1978|10.1016/0304-4238(78)90069-9
30730|T||Soeda,Y., K. Ishihara, I. Iwataki, and H. Kamimura|Fate of a Herbicide 14C-Alloxydim-Sodium in Sugar Beet|J. Pestic. Sci. (Multiple Languages)4(2): 121-128|1979|10.1584/jpestics.4.121
30732|AT||Hajra,N.G.|Effect of Chemical Mutagens and X-Rays in Rice (variety Latisail) Seedlings|Bull. Bot. Soc. Bengal30:65-67|1976|
30733|T||Singh,R.B., B.D. Singh, R.M. Singh, and V. Laxmi|Seedling Injury, Pollen Sterility and Morphological Mutations Induced by Gamma-Rays and EMS in Pearl Millet|Indian J. Genet. Plant Breed.38(3): 380-389|1978|
30734|T||Bhattacharjee,S.K.|Interaction of Some Growth Promoting and Inhibiting Chemicals with Growth Retardants on Shoot Length of Baleria cristata|Bull. Soc. R. Bot. Belg. (Multiple Languages)30:143-146|1976|
30735|T||Khlebnyi,V.S.|Use of the Herbicide Dnok (Dinitroorthocresol) on Seed-Cultivating Plots of Vegetable Peas|Tr Mold Ozo3:361-367|1961|
30736|T||Miller,H.A., and Y.H. Lee|"The Effects of Four ""Growth Regulating Substances"" on the Development of Brachiolejeunea Sandvicensis (Gott) Evans"|Phyton (Horn) (Multiple Languages)14:141-146|1960|
30737|T||Leizorowitz,R., and A. Poljakoff-Mayber|The Effect of Gibberellin and Kinetin on the Germination of Some Photosensitive Desert Seeds As Compared with That of Light|Phyton (Horn) (Multiple Languages)15:103-107|1960|
30738|T||Koves,E., and M. Varga|Comparative Examination of Water-and Ether-Soluble Inhibiting Substances in dry Fruits|Phyton (Horn) (Multiple Languages)12:93-99|1959|
30739|T||De,H.N., and R. Vijayavorgiya|Studies on the Mechanism of the Induction of Polyploidy by Colchicine. Part I:  Biochemical Investigations on the Effect of Colchicine Treatment on the Activities of Acid and Alkaline Phosphatases and Phosphorylase Duri|Biologia (Bratisl.)8(1): 17-24|1962|
30741|T||Clark,J., and J.M. Bonga|Evidence for Indole-3-Acetic Acid in Balsam Fir, Abies balsamea (L.) Mill|Can. J. Bot.41:165-173|1963|10.1139/b63-013
30742|T||Ojima,K., and A. Fujiwara|Studies on the Growth Promoting Substance of the Excised Wheat Roots. III. Effects of Tryptophan and Some Related Substances|Tohoku J. Agric. Res.13(1): 69-98|1962|
30743|T||Gentner,W.A.|The Influence of Ethyl N,N,Di-n-Propylthiolcarbamate (EPTC) on Wax Formation in Cabbage|Ph.D.Thesis, George Washington University, Washington, DC:52 p.|1962|
30744|T||Applegate,H.G.|Effect of Halogenated Benzoic Acid on Elodea Densa|Nature196:1117-|1962|10.1038/1961117a0
30747|T||Woltz,S.S.|Growth-Modifying and Antimetabolite Effects of Amino Acids on Chrysanthemum|Plant Physiol.38:93-99|1963|10.1104/pp.38.1.93
30748|T||Kuraishi,S., and R.M. Muir|Mode of Action of Growth Retarding Chemicals|Plant Physiol.38:19-24|1963|10.1104/pp.38.1.19
30749|T||Cleland,R.|Independence of the Effects of Auxin on Cell Wall Mthylation and Elongation|Plant Physiol.38:12-18|1963|10.1104/pp.38.1.12
30751|T||Manzelli,M.A., A.N. Adler, and J.M. Merritt|Gibberellin-Like Activity of Kudzu Vine (Pueraria Thunbergiana) Extract|Nature196:492-493|1962|10.1038/196492a0
30756|T||Chailakhyan,M.Kh, and L.P. Khlipenkova|Effect of Growth Substances and Nucleic Acid Derivatives on Growth and Flowering of Photoperiodically Induced Plants|Dokl. Akad. Nauk SSSR (Non-English)141:213-217|1962|
30757|T||Ashton,F.M., and E.G. Uribe|Effect of Atrazine on Sucrose-C14 and Serine-C14 Metabolism|Weeds (Urbana)10:295-297|1962|10.2307/4040831
30759|T||Hyder,D.N., F.A. Sneva, and V.H. Freed|Susceptibility of Big Sagebrush and Green Rabbitbrush to 2,4-D as Related to Certain Environmental, Phenological, and Physiological Conditions|Weeds (Urbana)10:288-295|1962|10.2307/4040830
30761|T||Anderson,J.L., and J.P. Schaelling|Effects of Pyrazon on Bean Chloroplast Ultrastructure|Weed Sci.18:455-459|1970|10.1017/S0043174500078425
30762|T||Rodebush,J.E., and J.L. Anderson|Morphological and Anatomical Effects of Pyrazon on Bean|Weed Sci.18:443-446|1970|10.1017/S0043174500078395
30763|T||Burgis,D.S.|Phytotoxicity to Purple Nutsedge (Cyperus rotundus L.) and Soil Persistence of Some Hormone Type Herbicides|Proc. Annu. Meet. Fla. State Hortic. Soc.82:143-146|1969|
30764|T||Seth,A.K.|Chemical Control of Imperata Cylindrica (L.) Beauv. in Malaysia|Weed Res. (Multiple Languages)10:87-93|1970|10.1111/j.1365-3180.1970.tb00930.x
30767|T||Jensen,F.L., J.J. Kissler, W.L. Peacock, and G.M. Leavitt|Effect of Ethephon on Color and Fruit Characteristics of 'Tokay' and 'Emperor' Table Grapes|Am. J. Enol. Vitic.26:79-81|1975|10.5344/ajev.1975.26.2.79
30768|T||Hicks,J.R., H.H. Bryan, and C.B. Hall|Rate of Color Break of Tomatoes As Influenced by Preharvest Low-Level Applications of Ethephon|Proc. Annu. Meet. Fla. State Hortic. Soc.87:319-321|1974|
30770|T||Chang,T.C., H.V.,Jr. Marsh, and P.H. Jennings|Effect of Alachor on Avena Seedlings: Inhibition of Growth and Interaction with Gibberellic Acid and Indoleacetic Acid|Pestic. Biochem. Physiol.5(4): 323-329|1975|10.1016/0048-3575(75)90051-6
30771|A||Naguib,M.I., and A.A. Mohsen|Effect of Maleic Hydrazide, Ethylenediamine Tetra-Acetate and Colchicine on Fresh and Dry Weight, Carotene and Soluble Peptide Content During the Growth Season of Carrot Plants|Bull. Fac. Sci. Cairo Univ.45:3-22|1972|
30773|T||Ruesink,A.W., and T. Feeman|Elongation, Solute Loss, Osmotic Potential, and Respirationrate Changes During the Treatment of Avena Coleoptile Segments with Superoptimal Auxin Concentrations|Physiol. Plant. (Multiple Languages)38:109-114|1976|10.1111/j.1399-3054.1976.tb04868.x
30775|T||Haschke,H., and U. Luettge|Action of Auxin on Co2 Dark Fixation in Avena Coleoptile Segments as Related to Elongation Growth|Plant Sci. Lett.8:53-58|1977|10.1016/0304-4211(77)90171-7
30776|T||Sundberg,I., J. Tillberg, and G. Bjoklund|Effect of 2,5-Dibromo-3-Methyl-6-Isopropyl-P-Benzoquinone (Dbmi) on Light Induced and Glycolytic Phosphate Uptake in Scenedesmus|Physiol. Plant. (Multiple Languages)38:141-146|1976|10.1111/j.1399-3054.1976.tb04874.x
30777|T||Aliev,K.A., and V.N. Vasil'eva|Effects of Chloramphenicol and Cycloheximide on Synthesis and Carboxylase Activity of Ribulose-1,5-Diphosphate Carboxylase|Sov. Plant Physiol.23(4): 661-665|1976|
30778|T||Wyrill III,J.B., and O.C. Burnside|Absorption, Translocation, and Metabolism of 2,4-D and Glyphosate in Common Milkweed and Hemp Dogbane|Weed Sci.24(6): 557-566|1976|10.1017/S0043174500062949
30780|T||Gilliam,C.H., and R.D. Wright|Effects of Nitrogen and Growth Regulators on Growth of Japanese Holly|J. Am. Soc. Hortic. Sci.102:46-48|1977|10.21273/JASHS.102.1.46
30781|T||Suranyi,D.|Effects of CCC and Choline upon Shoot Growth and Total Carbo-Hydrate and Crude Protein Content in 2-Year-Old Wild Pear Seedlings|Acta Agron. Hung.25(1/2): 45-50|1976|
30782|T||Freeman,J.A., and D.G. Finlayson|Response of Rutabaga to Combinations of Herbicides and Insecticides|J. Am. Soc. Hortic. Sci.102(1): 29-31|1977|10.21273/JASHS.102.1.29
30784|T||Morey,P.R., and B.E. Dahl|Histological and Morphological Effects of Auxin Transport Inhibitors on Honey Mesquite|Bot. Gaz.136(3): 274-280|1975|10.1086/336814
30785|T||Borno,C., and I.E.P. Taylor|The Effect of High Concentrations of Ethylene on Seed Germination of Douglas Fir (Pseudotsuga menziesii (Mirb) Franco)|Can. J. For. Res.5:419-423|1975|10.1139/x75-058
30787|T||Hand,D.W., and K.E. Cockshull|Roses: I. the Effects of Co2 Enrichment on Winter Bloom Production|J. Hortic. Sci.50:183-192|1975|10.1080/00221589.1975.11514623
30788|T||Sharma,J.P., L. Singh, and S.V.S. Rathore|Fruit-Thinning and Stimulatory Effects of Gibberellic Acid on Grapes (Vitus Vinifera L.) Variety Perlette|Prog. Hortic.6:51-56|1975|
30789|T||Singh,B.B., J.N. Seth, and S.N. Tiwari|Effect of Plant Regulator Sprays on Sex Modification and Fruit Yield in Summer Squash (Cucurbita Pepo L.)|Prog. Hortic.6:33-36|1975|
30792|T||Legge,A.P., and R.R. Williams|Adverse Effects of Fungicidal Sprays on the Pollination of Apple Flowers|J. Hortic. Sci.50:275-277|1975|10.1080/00221589.1975.11514634
30794|T||Mine,A., and S. Matsunaka|Mode of Action of Bentazon:  Effect on Photosynthesis|Pestic. Biochem. Physiol.5:444-450|1975|10.1016/0048-3575(75)90017-6
30795|T||Kulaeva,O.N., and L.V. Tsibulya|Effect of Cytokinin on Growth of Disks from Etiolated Bean Leaves|Sov. Plant Physiol.21(4): 580-584|1974|
30799|T||Waber,J.|The Effect of Growth in D2O on the Metabolism of Winter Rye|J. Exp. Bot.26:609-617|1975|10.1093/jxb/26.4.609
30804|T||Kaul,C.L.|Investigations into Causes of Sterility: Part I--Dalapon-Induced Male-Sterile Papilionaceous Plants|Indian J. Exp. Biol.8:126-128|1970|
30807|A||Tillberg,J.E.|Effects of Abscisic Acid, Salicyclic Acid and Trans-Cinnamic Acid on Phosphate Uptake, ATP-Level and Oxygen Evolution in Scenedesmus|Physiol. Plant. (Multiple Languages)23:647-653|1970|10.1111/j.1399-3054.1970.tb06457.x
30812|T||Prasad,I.|Mutagenic Effects of the Herbicide 3'-4'-Dichloropropionanilide and Its Degradation Products|Can. J. Microbiol.16:369-372|1970|10.1139/m70-064
30814|T||Maggioni,A., C. Passera, and F. Renosto|The Effect of Chloramphenicol on the Photosynthesis in Chlorella vulgaris|Ricerca Sci.39:696-700|1969|
30817|T||Schiltz,P.|Effects of Picloram on the Organogenesis of Some Nicotianae-D|SEITA (Serv.Exploit.Ind.Tab.Allumettes) Sect.26:189-198|1969|
30823|T||Blaim,K., and J. Szynal|Influence of (2-Chloroethyl)-Trimethyl-amnonium Chloride (CCC) and Calcium Ions on Wheat Seedling Growth|Bull. Acad. Pol. Sci. Ser. Sci. Biol.16(2): 735-738|1968|
30824|T||Martin,G.F., D.W. Buchanan, and R.M. Biggs|Peach Fruit Maturity As Influenced by Growth Regulators|Proc. Annu. Meet. Fla. State Hortic. Soc.82:260-265|1969|
30825|T||Blake,J.A., R.M. Biggs, and D.W. Buchanan|Post-Bloom Thinning of Florida Peaches with 2-Chloroethyphosphonic Acid|Proc. Annu. Meet. Fla. State Hortic. Soc.82:257-260|1969|
30826|T||Bausher,M.G.,Jr., E.G. Christ, and N.F. Childers|Peach Cultivar Responses to Fruit Thinning with CPA|J. Am. Soc. Hortic. Sci.95:500-503|1970|10.21273/JASHS.95.4.500
30827|T||Norton,J.A., and J.B. Storey|Effect of Herbicides on Weed Control and Growth of Pecan Trees|Weed Sci.18:522-524|1970|10.1017/S0043174500078619
30828|T||Norton,J.A., J.P.,Jr. Walter, and J.B. Storey|The Effect of Herbicides on Lateral Roots and Nut Quality of Pecans|Weed Sci.18:520-522|1970|10.1017/S0043174500078607
30829|T||Guzman,V.L.|Response of Four Celery Cultivars to Levels of Gibberellic Acid Applied Two and Four Weeks Before Harvest|Proc. Annu. Meet. Fla. State Hortic. Soc.82:129-134|1969|
30831|T||Dhuria,M.S., V. Shukla, and D. Leela|A Note on the Efficacy of Different Herbicides in the Control of Weeds in the Okra Variety Pusa Sawani|Indian J. Hortic.31:259-261|1974|
30832|T||Patil,P.L., A.R. Kalekar, and M.V. Ekbote|Effect of Agricultural Chemicals and Non-Edible Cake on Symbiotic Nitrogen Fixation in Gram and Pea|Maharashtra Vidnyan Mandir Patrika9(1/2): 35-40|1974|
30833|T||Islam,M.N., and M.M. Rashid|Effect of Succinic Acid 2,2-Dimethylhydrazide on the Growth and Development of Bottle Gourd|Bangladesh J. Agric. Sci.2(1): 37-40|1975|
30834|T||Sycheva,Z.F., N.I. Balagurova, and V.A. Vasyukova|Effect of Chlorocholine Chloride on Respiration and Frost Resistance of Potato Plants|Sov. Plant Physiol.22(1): 143-146|1975|
30836|T||Turgeon,A.J., R.P. Freeborg, and W.N. Bruce|Thatch Development and Other Effects of Preemergence Herbicides in Kentucky Bluegrass Turf|Agron. J.67(4): 563-565|1975|10.2134/agronj1975.00021962006700040028x
30837|T||Shanmugam,A., and S. Muthuswamy|Effect of Ccc and Tiba on Chrysanthemum (Chrysanthemum Indicum Linn.)|Indian J. Hortic.31:370-374|1974|
30839|T||Stewart,W.S.|Effect of Naphthalene Acetic Acid on Mobile Auxin in Bean Seedlings|Bot. Gaz.101:881-889|1940|10.1086/334922
30840|T||Muller-Stoll,W.R.|Weitere Ver Suche Uber Die Ver Wend Barkeit Von Wuchsstoffen in der Rebenveredlung|Gartenbauwissenschaft (Multiple Languages)14:151-168|1940|
30841|T||Honore,M.|Les Phytohormones|Revue d'Oka15:16-18|1941|
30842|T||Singh,A., and H.N. Singh|Component of Variance and Degree of Dominance for Yield-Contributing Traits in Chilli|Indian J. Agric. Sci.46:376-381|1976|
30843|T||Tromp,J.|Effects of Growth-Regulating Substances and Orientation on Growth and Flower Bud Formation in Apple|J. Hortic. Sci.47:525-533|1972|10.1080/00221589.1972.11514496
30849|T||Wozny,A., and E.A. Gwozdz|The Effect of Cytokinin on the Polyribosome Formation in Cucumber Cotyledons|Biochem. Physiol. Pflanzen (Multiple Languages)175:476-480|1980|10.1016/S0015-3796(80)80032-1
30851|T||Sanghavi,K.U., A.V. Patil, and P.M. Bhinge|Effect of Some Plant Growth Regulators on Growth, Flowering and Yield of Pea (Pisum sativum)|Mavidmanpat15:17-26|1980|
30852|T||Pretova,A.|Effect of Streptomycin on Growth of Immature Flax Embryos|Biologia (Bratisl.)35(6): 413-416|1980|
30853|T||Taha,A.A., D.W. Kretchman, and C.A. Jaworski|Effect of Daminozide and Ethephon on Transplant Quality, Plant Growth and Development, and Yield of Processing Tomatoes (Lycopersicon esculentum)|J. Am. Soc. Hortic. Sci.105:705-709|1980|10.21273/JASHS.105.5.705
30854|T||Shulman,Y., G.H. Hirschfeld, and S. Lavee|Vegetative Growth Control of Six Grapevine Cultivars by Spray Application of (2-Chloroethyl)Phosphonic Acid (Ethephon)|Am. J. Enol. Vitic.31:288-293|1980|10.5344/ajev.1980.31.3.288
30855|T||Nylund,B.E.|The Use of Chemicals for the Control of Weeds in Carrots|Proc. Am. Soc. Hortic. Sci.49:332-338|1947|
30856|T||Murneek,A.E.|"Results of Further Investigations on the Use of ""Hormone"" Sprays in Tomato Culture"|Proc. Am. Soc. Hortic. Sci.50:254-262|1947|
30857|T||Kumar,L.S.S., and A. Abraham|Induction of Polyploidy in Crop Plants|Curr. Sci. (Bangalore)11:112-113|1942|
30859|T||Rappaport,J.|Possibilities of Growth Promoting Substances in Fruit Arboriculture|Mon. Bull. Agric. Sci. Pract. 32:44T - 50T|1941|
30864|T||Devlin,R.M., and I.E. Demoranville|Influence of Dichlobenil on Yield, Size, and Pigmentation of Cranberries|Weed Sci.16:38-39|1968|10.1017/S0043174500030472
30867|T||Edgerton,L.J., and W.J. Greenhalgh|Absorption, Translocation and Accumilation of Labeled N-Dimethylamino Succinamic Acid in Apple Tissues|Proc. Am. Soc. Hortic. Sci.91:20-30|1967|
30868|T||Orsenigo,J.R.|Postemergence Herbicides for Celery Seedbeds|Proc. Annu. Meet. Fla. State Hortic. Soc.79:159-165|1966|
30873|T||Melikyan,N.M., and K.G. Azaryan|Effect of Different Gibberellin Treatment Methods on the Cambial Activity of Potato Stems|Biol. Zh. Arm. (Non-English)26:24-29|1973|
30874|T||Jankiewicz,L.S.|Changes in Direction of Growth As Induced by Unilateral Auxin Application to Apple Shoots|Acta Agrobot. (Multiple Languages)26:273-276|1973|10.5586/aa.1973.024
30875|T||McConnell,D.B., and B.E. Struckmeyer|Effect of Succinic Acid 2,2-Dimethylhydrazide (SADH) on Boron-Deficient Marigolds Grown in Long and Short Photoperiods|Phyton (Horn) (Multiple Languages)31(2): 85-92|1973|
30876|T||Mingo-Castel,A.M., F.B. Negm, and O.E. Smith|Effect of Carbon Dioxide and Ethylene on Tuberization of Isolated Potato Stolons Cultured In Vitro|Plant Physiol.53:798-801|1974|10.1104/pp.53.6.798
30878|T||Sherwin,J.E., and S.A. Gordon|The Effect of Auxin on the Incorporation of (3H) Thymidine into the Dna of Pea Epicotyls|Planta (Multiple Languages)116:65-72|1974|10.1007/BF00390204
30879|T||Das,R.C., and S.S. Prusty|Growth Regulator Effects on Seed Treated Brinjal Plants (Solanum Melonaena L.) with Relation to the Vegetative Development|Indian J. Hortic.29:334-338|1972|
30880|T||Misra,L.P., and V.K. Sharma|Effect of Growth Regulating Substances on the Control of Flowering and Fruit Setting in Sweet Cherry Cultivar Black Heart|Indian J. Hortic.29:292-297|1972|
30881|T||Sideris,E.G., R.A. Nilan, and T.P. Bagyo|Differential Effect of Sodium Azide on the Frequency of Radiation-Induced Chlorophyll Mutations in Hordeum vulgare|Radiat. Bot.13:315-322|1973|10.1016/S0033-7560(73)90057-4
30882|T||Murr,D.P., and L.L. Morris|Influence of O2 and Co2 on O-D Phenol Oxidase Activity in Mushrooms|J. Am. Soc. Hortic. Sci.99:155-158|1974|10.21273/JASHS.99.2.155
30883|T||Mishra,D., and B. Mohanty|External Effect of Indolyl-3-Acetic Acid, Benzimidazole and B-Nine on Nodulation of Cowpea|Nature214:320-321|1967|10.1038/214320a0
30884|T||Bireca,H.|Influence of (2-Chloroethyl)Trimethyl-Ammonium (Ccc) on Photosynthetic Activity and Assimilate Distribution in Wheat|Proceedings of the Symposium on Isotopes in Plant:|1967|
30885|T||Andreae,W.A.|Uptake and Metabolism of Indoleacetic Acid, Napthaleneacetic Acid, and 2,4-Dichlorophenoxyacetic Acid by Pea Root Segments in Relation to Growth Inhibition During and After Auxin Application|Can. J. Bot.45:737-753|1967|10.1139/b67-080
30886|T||Lynn,W.S.|Inhibition of Photophosphorylation by Phenazine Methosulfate|J. Biol. Chem.242:2186-2191|1967|10.1016/S0021-9258(18)96034-5
30887|T||Smith,P.F.|Effect of Zineb Sprays on Zinc Concentration of Orange Leaves|Hortscience1:101-102|1966|10.21273/HORTSCI.1.3-4.101
30888|T||Randhawa,S.S., and M. Iwata|The Effect of Ga on the Growth and Mineral Compostion in Citrus|Indian J. Hortic.22:151-161|1965|
30889|T||Hegazy,A.T., M.S. Khalil, and S. Khalil|Effect of Seed Treatment with Various Concentrations of NAA for Different Soaking Periods on Growth, Chemical Composition of Bean Plants|Flora Allg. Bot. Ztg. (Jena)157:264-280|1966|10.1016/S0367-1836(17)30031-9
30891|T||Said,H., A.T. Hegazy, M.S. Khalis, and S. Khalis|Effect of Some Growth Regulators on Yield and the Chemical Composition of Vicia Faba|Flora Allg. Bot. Ztg. (Jena)157:246-263|1966|10.1016/S0367-1836(17)30030-7
30892|T||Said,H., A.T. Hegazy, M.S. Khalil, and S. Khalil|Effect on Some Growth Regulators on the Rate and Percentage of Germination of Broad Bean Seeds|Flora Allg. Bot. Ztg. (Jena)157:233-245|1966|10.1016/S0367-1836(17)30029-0
30893|T||Este,S.V., and M. Caprotti|Effects of Auxin on Root Growth and Nodule Formation of Irradiated Plants of Medicago sativa|Genet. Agrar.19:305-313|1965|
30894|T||Birecka,H.|Effect of (2-Chloroethyl) Trimethylammonium Chloride (CCC) on Photosynthesis and Photosynthate Distribution in Oats and Wheat After Heading|Bull. Acad. Pol. Sci. Ser. Sci. Biol.14(4): 261-267|1966|
30895|T||Abdel-Kader,A.S., and L.L. Morris|Effect of Growth-Regulating Substances on the Ripening and Shelf-Life of Tomatoes|Hortscience1:90-91|1966|10.21273/HORTSCI.1.3-4.90
30896|T||Singh,B.B.|Effect of Maleic-Hydrazide (Mh) on Storage Quality of Potato (Solanum Tuberosum)|Sci. Cult.32:547-548|1966|
30897|T||Srivastava,R.P., and N.C. Agarwal|Effect of Gibberellic Acid Sprays on the Fruit Drop, Size, Weight and Chemical Compostion of Red Delicious Apples|Sci. Cult.32:546-547|1966|
30898|T||Ihrke,C.A., and W.E. Kronstad|Genetic Recombination in Maize As Affected by Ethylenediaminetetraacetic Acid and Dimethyl Sulfoxide|Crop Sci.15:429-436|1975|10.2135/cropsci1975.0011183X001500030044x
30900|T||Tonecki,J.|Changes in Protein Content and Activity of Proteases and Acid Phosphatases in Needles of Norway Spruce (Picea abies L. Karst) Seedlings Treated with 2,4,5-T|Acta Soc. Bot. Pol.44:41-50|1975|10.5586/asbp.1975.005
30902|T||Yadava,R.B.R., and V.B. Bhatnagar|Effect of Ccc on dry Matter and Mineral Accumulation of Oryza Sativa L. Plants|Geobios2:44-47|1975|
30903|T||Ogura,H.|The Effects of a Morphactin, Chlorflurenol, on Organ Redifferentiation from Tobacco Calluses Cultured In Vitro|Bot. Mag. Tokyo88:1-8|1975|10.1007/BF02498876
30910|T||Muennich,M., and E. Schmidt|The Influence of CCC on the Growth of Plants:  III.  Morphological Analysis of the Stalk-Stabilizing Effect of CCC on Secale cereale l|Wiss.Z.Humboldt-Univ.Berl.Math.-Naturwiss.Reihe23(6): 663-666|1974|
30911|T||Goering,H., H. Muennich, D. Falk, and A. Marko|The Influence of Ccc on the Growth of Plants:  I.  Cell Elongation and Cell Division Growth in the Roots of Triticum aestivum Under the Influence of CCC|Wiss.Z.Humboldt-Univ.Berl.Math.-Naturwiss.Reihe23:655-658|1974|
30915|T||Zilkah,S., and J. Gressel|Multistage Disruption of Protoplasts by Dikegulac|Planta (Multiple Languages)147:274-276|1980|10.1007/BF00379832
30916|T||Reiss,H.D., and W. Herth|Broad-Range Effects of Ionophore X-537A on Pollen Tubes of Lilium longiflorum|Planta (Multiple Languages)147:293-301|1980|10.1007/BF00379836
30918|T||Gupta,B.P.|Effect of Gibberellic Acid on Plantago Himalaica|Geobios6:310-313|1979|
30919|T||Scott,I.M., G. Browning, and J. Eagles|Ribosylzeatin and Zeatin in Tobacco Crown Gall Tissue|Planta (Multiple Languages)147:269-273|1980|10.1007/BF00379831
30920|T||Tranvan,H.|In Vitro Adventitious Bud Formation on Isolated Seedlings of Pinus silvestris L.|Biol. Plant. (Praha)21(3): 230-233|1979|10.1007/BF02884576
30923|T||Izquierdo,J., and J.N. Corgan|Onion Plant Size and Timing for Ethephon-Induced Ihibition of Bolting|J. Am. Soc. Hortic. Sci.105:66-67|1980|10.21273/JASHS.105.1.66
30925|T||Bugg,M.W., J. Whitmarsh, C.E. Rieck, and W.S. Cohen|Inhibition of Photosynthetic Electron Transport by Diphenyl Ether Herbicides|Plant Physiol.65:47-50|1980|10.1104/pp.65.1.47
30926|T||Kalpana,K., and M.S. Chatrath|Uptake and Translocation of Methyl (-L-Butylcarbanyl)-2 Benzimidazole Carbamate in Wheat|J. Nucl. Agric. Biol.8:106-110|1979|
30927|T||Kopcewicz,J., M. Cymerski, and Z. Porazinski|The Effect of Acetylcholine on Gibberellin Content in Scots Pine Seedlings|Bull. Acad. Pol. Sci. Ser. Sci. Biol.27(4): 295-302|1979|
30928|T||Barker,J.E.|Growth and Wood Properties of Pinus radiata in Relation to Applied Ethylene|N. Z. J. For.9:15-19|1979|
30932|T||Sehgal,C.B.|Differentiation of Shoot-Buds and Embryoids from Inflorescence of Anethum graveolens in Cultures|Phytomorphology28:291-297|1978|
30933|T||Sung,Z.R., R. Smith, and J. Horowitz|Quantitative Studies of Embryogenesis in Normal and 5-Methyltryptophan-Resistant Cell Lines of Wild Carrot: the Effect of Growth Regulators|Planta (Multiple Languages)147:236-240|1979|10.1007/BF00388744
30934|T||Yamane,H., N. Takahashi, K. Takeno, and M. Furuya|Identification of Gibberellin A9 Methyl Ester As A Natural Substance Regulating Formation of Reproductive Organs in Lygodium Japonicum|Planta (Multiple Languages)147:251-256|1979|10.1007/BF00388747
30937|T||Drew,M.C., M.B. Jackson, and S. Giffard|Ethylene-Promoted Adventitious Rooting and Development of Cortical Airspaces (Aerenchyma) in Roots May be Adaptive Responses to Flooding in Zea mays Cultivar Lg|Planta (Multiple Languages)14:83-88|1979|10.1007/BF00384595
30938|T||Tandon,P., and H.C. Arya|Effect of Growth Regulators on Carbohydrate Metabolism of Zizyphus jujuba Gall and Normal Stem Tissues in Culture|Biochem. Physiol. Pflanzen (Multiple Languages)174:772-779|1979|10.1016/S0015-3796(17)30643-1
30939|T||Alpi,A., R. Lorenzi, P.G. Cionini, A. Bennici, and F. D'Amato|Identification of Gibberellin A1 in the Embryo Suspensor of Phaseolus Coccineus|Planta (Multiple Languages)147:225-228|1979|10.1007/BF00388742
30941|T||Kamprath,E.J., D.K. Cassel, H.D. Gross, and D.W. Dibb|Tillage Effects on Biomass Production and Moisture Utilization by Soybeans (Glycine max) on Coastal Plain Soils|Agron. J.71:1001-1005|1979|10.2134/agronj1979.00021962007100060026x
30944|T||Akhundov,R.M., A.A. Kuliev, G.Y. Martynova, and E.G. Sal'Kova|Changes Occuring in the Polyphenoloxidase-Polyphenol System During Ripening of Fruits Treated with Ethrel|Sov. Plant Physiol.26(1): 55-59|1979|
30945|T||Bourbouloux,A., and J.L. Bonnemain|The Different Components of the Movements and the Areas of Retention of Labeled Molecules after Application of Tritium Labeled IAA to the Apical Bud of Vicia faba|Physiol. Plant. (Multiple Languages)47:260-268|1979|10.1111/j.1399-3054.1979.tb06524.x
30946|T||Fujimura,T., and A. Komamine|Involvement of Endogenous Auxin Somatic Embryogenesis in a Carrot Cell Suspension Culture|Z. Pflanzenphysiol. (Multiple Languages)95:13-19|1979|10.1016/S0044-328X(79)80023-9
30947|T||Nair,N.G., K.K. Kartha, and O.L. Gamborg|Effect of Growth Regulators on Plant Regeneration from Shoot Apical Meristems of Cassava (Manihot esculenta Crantz) and on the Culture of Internodes In Vitro|Z. Pflanzenphysiol. (Multiple Languages)95:51-56|1979|10.1016/S0044-328X(79)80027-6
30948|T||Codron,H., A. Latche, J.C. Pech, B. Nebie, and J. Fallot|Control of Quiescence and Viability in Auxin-Deprived Pear Cultivar Passe-Crassane Cells in Batch and Continuous Culture|Plant Sci. Lett.17:29-36|1979|10.1016/0304-4211(79)90105-6
30949|T||Kamisaka,S.|Catecholamine Stimulation of the Gibberellin Action that Induces Lettuce Hypocotyl Elongation|Plant Cell Physiol.20(7): 1199-1207|1979|10.1093/oxfordjournals.pcp.a075919
30950|T||Sakurai,N., K. Nishitani, and Y. Masuda|Auxin-Induced Changes in the Molecular Weight of Hemicellulosic Polysaccharides of the Avena Coleoptile Cell Wall|Plant Cell Physiol.20:1349-1357|1979|10.1093/oxfordjournals.pcp.a075934
30952|T||Yasuda,T., P.M. Hasegawa, and T.Y. Cheng|Analysis of Newly Synthesized Proteins During Differentiation of Cultured Douglas Fir Cotyledons|Physiol. Plant. (Multiple Languages)48:83-87|1980|10.1111/j.1399-3054.1980.tb03223.x
30954|T||Rasmussen,S., and A.S. Andersen|Water Stress and Root Formation in Pea Cuttings II. Effect of Abscisic Acid Treatment of Cuttings from Stock Plants Grown Under Two Levels of Irradiance|Physiol. Plant. (Multiple Languages)48:150-154|1980|10.1111/j.1399-3054.1980.tb03235.x
30955|T||Roeth,F.W.|Comparisons of Dicamba, Picloram, and 2,4-D for Musk Thistle (Carduus nutans) Control|Weed Sci.27:651-655|1979|10.1017/S0043174500046075
30956|T||Fitzgerald,C.H., and J.C. Fortson|Herbaceous Weed Control with Hexazinone in Loblolly Pine (Pinus taeda) Plantations|Weed Sci.27(6): 583-588|1979|10.1017/S0043174500045926
30959|T||McWhorter,C.G.|Effect of Surfactant and Environment on the Toxicity of Metriflufen to Soybeans (Glycine max Cultivar Lee-68) and Johnsongrass (Sorghum halepense)|Weed Sci.27:675-679|1979|10.1017/S0043174500046129
30960|T||Volynets,A.P., and R.A. Prokhorchik|Changes of Flavonoid Content in the Chloroplasts After Treating Yellow Lupine Plants with 2,4-D and TCA|Sov. Plant Physiol.26(2): 206-211|1979|
30961|T||Milborrow,B.V., and G. Vaughan|The Long-Term Metabolism of (+ -) [2-14C] Abscisic Acid by Apple Seeds|J. Exp. Bot.30(118): 983-995|1979|10.1093/jxb/30.5.983
30963|T||Nikolaeva,M.G., and N.S. Vorob'Eva|The Role of Abscisic Acid and Indolic Compounds in Dormancy of the Seeds of Ash Species|Fiziol. Rast. (Mosc.) (Non-English)26:137-146|1979|
30965|T||Yoshikawa,H., E. Taniguchi, and K. Maekawa|Synthesis and Biological Activities of Isocoumarins|J. Pestic. Sci. (Multiple Languages)4(4): 457-462|1979|10.1584/jpestics.4.457
30966|T||Nishikawa,Y., K. Yoshimoto, and M. Ohkawa|Chemical and Biochemical Studies on Carbohydrate Esters: VII. Plant Growth Inhibition by an Anomeric Mixture of Synthetic 1-O-Lauroyl-D-Glucose|Chem. Pharm. Bull.27(9): 2011-2015|1979|10.1248/cpb.27.2011
30967|T||Friedman,R., A. Altman, and E. Zamski|Adventitious Root Formation in Bean Hypocotyl Cuttings (Phaseolus Cultivar Brittle Wax) in Relation to IAA Translocation and Hypocotyl Amatomy|J. Exp. Bot.30:769-778|1979|10.1093/jxb/30.4.769
30968|T||Khryanin,V.N., and M.K. Chailakhyan|Separate and Joint Action of Growth Regulators on Manifestation of Sex in Hemp|Sov. Plant Physiol.26(2): 366-367|1979|
30969|T||Zhdanova,L.P., and M.I. Rusova|Effect of Maleic Hydrazide on Accumulation of Storage Substances in Seeds|Sov. Plant Physiol.26(2): 341-347|1979|
30971|T||Yamazaki,Y., H. Suzuki, A. Kamibayashi, N. Watanabe, and N. Takahashi|N6-Alkylthiomethyl and N6 Arylthiomethyl Derivatives of Adenosine and Their Cytokinin Activity|Agric. Biol. Chem.43:1945-1950|1979|
30972|T||Muthukrishnan,S., G.R. Chandra, and E.S. Maxwell|Hormone-Induced Increase in Levels of Functional Messenger Rna and Alpha-Amylase Messenger Rna in Barley (Hordeum Vulgare) Aleurones|Proc. Northeast. Weed Control Conf.76:6181-6185|1979|
30974|T||Anker,L.|Kinetin Antagonizes the Inhibition of Auxin Synthesis in the Avena Coleoptile Caused by Galactose, Abscisic Acid or Indoleacetic Acid|Acta Bot. Neerl.28(6): 497-503|1979|10.1111/j.1438-8677.1979.tb01174.x
30975|T||Swarthley,J.C., and L.C. Chadwick|Effects of Synthetic Growth Substances on Cuttings, Seeds, and Transplants|Bull. Ohio Agric. Exp. Stn.27:125-144|1942|
30978|T||Fermanian,T.W., W. Huffine, and R.D. Morrison|Preemergence Weed Control in Seeded Bermudagrass (Cynodon Dactylon) Stands|Agron. J.72:803-805|1980|10.2134/agronj1980.00021962007200050027x
30979|T||Shaukat,S.S., N.A. Khah, and F. Ahmed|Herbicide Influence on Germination and Seedling Growth of Vigna Mungo and Vigna Radiata|Pak. J. Bot.12:97-106|1980|
30980|T||Johnson,B.J.|Root Growth of Southern Turf Cultivars As Affected by Herbicides|Weed Sci.28(5): 526-528|1980|10.1017/S0043174500061154
30981|T||Cooper,R.J., and J.A. Jagschitz|Crabgrass Control and Turfgrass Injury Resulting from Pre- and Post-Emergent Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:347-352|1980|
30983|T||Bollen,W.B., and L.A. Norris|Influence of 2,3,7,8-Tetrachlorodibenzo-P-Dioxin on Respiration in A Forest Floor and Soil|Bull. Environ. Contam. Toxicol.22:648-652|1979|10.1007/BF02027002
30984|T||Sinclair,J., S. Garland, T. Arnason, P. Hope, and M. Granville|Polychlorinated Biphenyls and Their Effects on Photosynthesis and Respiration|Can. J. Bot.55:2679-2684|1977|10.1139/b77-306
30985|T||Dorney,J.R., J.B. Weber, M.R. Overcash, and H.J. Strek|Plant Uptake and Soil Retention of Phthalic Acid Applied to Norfolk Sandy Loam|J. Agric. Food Chem.33(3): 398-403|1985|10.1021/jf00063a019
30986|T||Channon,A.G.|Control of Tomato Stem Rot (Didymella lycopersici Kleb.) with Benomyl|Engeigaku Kenkyuu12:89-96|1972|
30987|T||Fuchs,A., S. Doma, and J. Voros|Laboratory and Greenhouse Evaluation of A New Systemic Fungicide, N,N'-bis-(1-Formamido-2,2,2-Trichloroethyl)-Piperazine (Cela W 524)|Neth. J. Plant Pathol.77:42-54|1971|10.1007/BF01981522
30990|T||Anderson,D.A., and R.H. Walker|Residual Effects of Some Germicides Used in Sterilizing Legume Seeds|Proc. Iowa Acad. Sci.38:321-325|1931|
30991|T||Norman,A.G.|The Action of Duramycin on Plant Roots|Soil Sci. Soc. Am. J.24(2): 109-111|1960|10.2136/sssaj1960.03615995002400020013x
30992|T||Langer,C.A., and V.J. Fisher|Relation of Wax Emulsion and Fungicidal Sprays to Size, Color, and Composition of Fresh and Processed Montmorency Cherries|J. Am. Soc. Hortic. Sci.54:163-170|1949|
30993|T||Lund-Hoie,K., and D.E. Bayer|Absorption, Translocation and Metabolism of 3-Amino-1,2,4-Triazole in Pinus ponderosa and Abies concolor|Physiol. Plant. (Multiple Languages)21(1): 196-212|1968|10.1111/j.1399-3054.1968.tb07244.x
30994|T||Barrett,J.E., M.E. Peacock, and T.A. Nell|Height Control of Exacum and Chrysanthemum with Paclobutrazol, XE-1019, Flurprimidol and RSW-0411|Proc. Annu. Meet. Fla. State Hortic. Soc.99:254-255|1987|
30997|T||Bilbro,J.D., and J. Abernathy|Effectiveness of Four Herbicides in Reducing Competition of A Sorghum Wind Barrier Interplanted with Cotton|Proc. Plant Growth Regul. Soc. Am.12:231-236|1985|
30998|T||Shanks,J.B., and H.G. Mityga|Effects of Promalin on Greenhouse Roses|Proc. Plant Growth Regul. Soc. Am.12:224-230|1985|
30999|T||Riedell,W.E., U. Khoo, and G.E. Inglett|Effects of Bioregulators on Soybean Leaf Structure and Chlorophyll Retention|Proc. Plant Growth Regul. Soc. Am.12:204-212|1985|
31000|T||Riedell,W.E., and G.E. Inglett|Influence of 1,1-Dimethyl Piperidinium Chloride on Morphological and Physiological Characteristics of Zea mays|Proc. Plant Growth Regul. Soc. Am.12:137-145|1985|
31001|T||Borden,P., and R.W. Campbell|Use of Chemical Regulators to Increase Growth of 'Meyer' Zoysiagrass|Proc. Plant Growth Regul. Soc. Am.12:38-44|1985|
31002|T||Nickell,L.G.|New Plant Growth Regulator Increases' Grape Size|Proc. Plant Growth Regul. Soc. Am.12:1-7|1985|
31003|T||Millhollon,R.W.|Late-Season Weed Control in Sugarcane with Herbicides Applied at Lay-by|J. Am. Soc. Sugar Beet Technol.2:17-21|1983|
31004|T||Waddington,J., and S. Bittman|Control of Brush Regrowth in Northeastern Saskatchewan by Several Concentrations of Herbicides Applied with a Roller|Can. J. Plant Sci.67(2): 467-475|1987|10.4141/cjps87-066
31005|T||Mayeux,H.S.Jr.|Application of Herbicides on Rangelands with a Carpeted Roller:  Shrub Density Influences Volume, Dosage, and Rate|Weed Sci.35(3): 444-448|1987|10.1017/S0043174500053972
31006|T||Carter,C.H., and P.E. Keeley|Selective Control of Johnsongrass (Sorghum halepense) in Cotton (Gossypium hirsutum) with Foliar Herbicides|Weed Sci.35(3): 418-421|1987|10.1017/S0043174500053923
31007|T||Buhler,D.D.|Influence of Application Method on the Activity of Butylate and Eptc in Reduced-Tillage Corn (Zea mays)|Weed Sci.35(3): 412-417|1987|10.1017/S0043174500053911
31008|T||Schreiber,M.M., M.D. White, and B.S. Shasha|Efficacy of Controlled-Release Formulation of Trifluralin in No-Till Soybeans (Glycine max)|Weed Sci.35(3): 407-411|1987|10.1017/S004317450005390X
31009|T||Byrd,J.D.,Jr., and A.C. York|Annual Grass Control in Cotton (Gossypium hirsutum) with Fluazifop, Sethoxydim, and Selected Dinitroaniline Herbicides|Weed Sci.35(3): 388-394|1987|10.1017/S004317450005387X
31010|T||Hatterman,H.M., P.J. Shea, and E.T. Paparozzi|Weed Control in Annual Statice|Weed Sci.35(3): 373-376|1987|10.1017/S0043174500053844
31011|T||Hayden,T.A., and O.C. Burnside|Effect of Herbicide Incorporation Methods on Shattercane (Sorghum bicolor) Control in Corn (Zea mays)|Weed Sci.35(3): 364-372|1987|10.1017/S0043174500053832
31012|T||Egler,F.E.|Use of Picloram to Obtain Root Kill of Woody Plants in Practicable Rightofway Vegetation Management, 1985|Phytologia62(6): 495-499|1987|
31013|T||Guillard,K., and D.W. Allinson|Establishment of Legumes Using No-Till Seedings with and Without Herbicides|Appl. Agric. Res.1(5): 281-288|1987|
31014|T||Kuhns,L.J., and M.A. Kaps|Sulfometuron Methyl and Imazapyr Applied as a Directed Spray on White Pine|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:263-264|1986|
31015|T||Jackson,L.W.|Picloram Injected and Picloram Pellets Broadcast - A Seven-Year Study in Eastern New York|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:243-247|1986|
31016|T||Jackson,L.W.|Effectiveness and Vegetation Response to Triclopyr Tree Injection on Selected Plots in Eastern New York|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:236-240|1986|
31017|T||Maass,D., and R. Prouty|Efficacy and Timing of Metsulfuron Methyl in Forestry in Maine|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:230-232|1986|
31018|T||Reynolds,P.E., T.S. Mackay, and M.L.,Jr. McCormack|One Year Results for a Hexazinone Conifer Release Trial|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:218-222|1986|
31019|T||Maass,D., and D. Arsenault|Testing Basal Applications of Triclopyr in Conjunction with Conifer Spacings|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:213-216|1986|
31020|T||Grenoble,D.W., and P.A. Ferretti|Herbicides for Chinese Cabbage|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:145-147|1986|
31021|T||Sieczka,J.B., A.F. Senesac, and J.F. Creighton|Weed Control Programs in Transplanted Crucifers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:139-143|1986|
31022|T||Herrick,R.M., and R.D. Ilnicki|Postemergence Weed Control with Pendimethalin as Influenced by Ethomeen T/25 Surfactant|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:44-48|1986|
31023|T||Herrick,R.M., and R.D. Ilnicki|Spurred Anoda (Anoda cristata L. Schlecht) Control in Soybeans (Glycine max L. Merr.) with AC 263,499|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:27-29|1986|
31024|T||Fritz,T.J., and N.L. Hartwig|Spiny Amaranth Control in Pastures|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:20-23|1986|
31025|T||Neary,P.E., R.D. Ilnicki, and D.B. Vitolo|Postemergence Herbicides in Soybeans at Three Growth Stages of Annual Grasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:5-8|1986|
31026|T||Gillespie,G.R., and J. Nalewaja|Postemergence Grass Control Herbicides Applied to the Soil|Weed Sci.34(6): 942-947|1986|10.1017/S0043174500068144
31027|T||Godley,J.L., and L.M. Kitchen|Interaction of Acifluorfen with Fluazifop for Annual Grass Control|Weed Sci.34(6): 936-941|1986|10.1017/S0043174500068132
31028|T||Baker,J.B., E.A. Sonnier, and J.W. Shrefler|Intergration of Molinate Use with Water Management for Red Rice (Oryza Sativa) Control in Water-Seeded Rice (Oryza Sativa)|Weed Sci.34(6): 916-922|1986|10.1017/S0043174500068107
31029|T||Zama,P., and K.K. Hatzios|Effects of CGA-92194 on the Chemical Reactivity of Metolachlor with Glutathione and Metabolism of Metolachlor in Grain Sorghum (Sorghum bicolor)|Weed Sci.34(6): 834-841|1986|10.1017/S0043174500067977
31030|T||Wilfret,G.J.|Effect of Planting Date and Growth Regulators on Poinsetta Height|Proc. Annu. Meet. Fla. State Hortic. Soc.97:289-291|1984|
31032|T||Lancaster,D.L., J.A. Young, and R.A. Evans|Weed and Brush Control Tactics in the Sagebrush Ecosystem|U.S. Dep. of Agric., Agric. Res. Serv.50:11-14|1987|
31033|T||Johnson,K.L.|Sagebrush Types As Ecological Indicators to Integrated Pest Management (Ipm) in the Sagebrush Ecosystem of Western North America|Usda Ag T B50:1-10|1987|
31034|T||McReynolds,R.B.|Poast and Fusilade Research in Vegetable Crops|Annu. Rep. Annu. Meet. Ore. Hortic. Soc. Meet.77:128-129|1986|
31035|T||Walton,G.H.|Comparison of Crop Density and Herbicide Use on the Seed Yield of Lupins Subjected to Weed Competition|J. Aust. Inst. Agric. Sci.52(3): 167-169|1986|
31036|T||Frans,R., B. Corbin, D. Johnson, and M. McClelland|Herbicide Field Evaluation Trials on Field Crops, 1986|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.354:92 p.|1987|
31037|AT||Lui,L.C., L. Almodovar-Vega, and J.M. Lozano|Herbicide Evaluation for Rice|J. Agric. Univ. P. R.70(4): 293-297|1986|10.46429/jaupr.v70i4.7106
31038|T||Cabanne,F., A. Lefebvre, and R. Scalla|Behavior of the Herbicide El-107 in Wheat and Rape Grown Under Controlled Conditions|Weed Res. (Multiple Languages)27(2): 135-142|1987|10.1111/j.1365-3180.1987.tb00746.x
31039|T||Lefebvre,A., D. Maizonnier, J.C. Gaudry, D. Clair, and R. Scalla|Some Effects of the Herbicide El-107 on Cellular Growth and Metabolism|Weed Res. (Multiple Languages)27(2): 125-134|1987|10.1111/j.1365-3180.1987.tb00745.x
31040|T||Chandrasena,J.P.N.R., and G.R. Sugar|Effect of Fluazifop-Butyl on the Chlorophyll Content, Fluorescence and Chloroplast Ultrastructure of Elymus repens (L.) Gould Leaves|Weed Res. (Multiple Languages)27(2): 103-112|1987|10.1111/j.1365-3180.1987.tb00742.x
31041|T||Bourdot,G.W., and L.A. Heath|French Tarragon (Artemisia dracunculus): Tolerance to Some Soil-Residual Herbicides|N. Z. J. Exp. Agric.14(4): 431-434|1986|10.1080/03015521.1986.10423061
31042|T||Gandhi,M., A. Sankaranarayanan, R. Lal, S.R. Bhushnurmath, D. Mohanty, and V.S. Mathur|Pre-Clinical Toxicity Study on Banjaruri (Vicoa indica)|Fitoterapia56(6): 259-265|1985|
31043|T||Gealy,D.R., R.A. Boydston, R.R. Klein, and D.E. Koeppe|Effect of Difenopenten-Ethyl on Isolated Corn (Zea mays L.) and Soybean (Glycine max L.) Mitochondrial Membrane Integrity and Physiological Activities|Pestic. Biochem. Physiol.27(1): 106-113|1987|10.1016/0048-3575(87)90102-7
31044|T||Gaur,B.L., P.C. Gupta, and D.D. Sharma|Weed Management in Opium Poppy Papaver Somniferum l|Trop. Pest Manag.32(4):267 - 268, 359, 363|1986|
31045|T||Maasdorp,B.V., and R.C. Gutteridge|Effect of Fertilizer and Weed Control on the Emergence and Early Growth of Five Leguminous Fodder Shrubs|Trop. Grassl.20(3): 127-134|1986|
31046|T||Bowe,S.J.|Prodiamine: A Broad Spectrum Preemergence Herbicides for Tree and Vine Crops|Proc. West. Soc. Weed Sci.39:216-218|1986|
31047|T||Bell,C.E.|Prairie Cupgrass (Eriochloa Contracta Hitchc.) Control in Established Alfalfa with EPTC|Proc. West. Soc. Weed Sci.39:201-208|1986|
31048|T||Colbert,D., L. Whatley, H. Agamalian, M. Canevari, and J. Orr|Pursuit (Ac 263, 499), Weed Control in Alfalfa in California|Proc. West. Soc. Weed Sci.39:198-201|1986|
31049|T||Schmierer,J., and L.W. Mitich|Efficacy and Economic Evaluations of Herbicide Tankmix Applications to Control Winter Annual Weeds of Dormant Alfalfa|Proc. West. Soc. Weed Sci.39:192-197|1986|
31050|T||Schober,A.E., S.A. Mcmaster, and R.L. Gantz|Fluroxypyr: A New Environmentally Compatible Herbicide|Proc. West. Soc. Weed Sci.39:167-168|1986|
31051|T||Curtis,R.E., and T. Haagsma|Selective Control of Canada Thistle in Cereals with 3,6-Dichloropicolinic Acid (Clopyralid)|Proc. West. Soc. Weed Sci.39:159-166|1986|
31052|T||Pacheco,J.L., and C.L. Pope|DPX-F5384: A New, Highly Flexible, Broad Spectrum Herbicide for California Rice|Proc. West. Soc. Weed Sci.39:147-157|1986|
31053|T||Warner,R.W., C.W. Kral, M.A. Henson, and J.L. Saladini|Metsulfuron Methyl--A New Alternative for Broadleaf Weed Control in Cereals and Reduced Tillage Fallow|Proc. West. Soc. Weed Sci.39:129-133|1986|
31054|T||Whitson,T.D., D. Humphrey, P.S. Friedricksen, and K. French|Evaluation of Herbicides for Control of Associated Populations of Blessed Milkthistle and Slenderflower Thistle in Pastureland|Proc. West. Soc. Weed Sci.39:119-122|1986|
31055|T||Reynolds,P.E., K. King, R. Whitehead, and T.S. Mackay|One-Year Results for a Coastal British Columbia Glyphosate Conifer Release Trial|Proc. West. Soc. Weed Sci.39:107-117|1986|
31056|T||White,D.E., M. Newton, and E.C. Cole|Enhanced Herbaceous Weed Control in Conifers with Combinations of Nitrogen Fertilizer Formulations and Hexazinone|Proc. West. Soc. Weed Sci.39:102-106|1986|
31057|T||Cole,E.C., M. Newton, and D.E. White|Response of Northwestern Hardwoods, Shrubs, and Douglas-Fir to Arsenal and Escort|Proc. West. Soc. Weed Sci.39:93-101|1986|
31058|T||Newton,M., E.C. Cole, and D.E. White|What Influences Control of Coastal Deciduous Brush with Glyphosate?|Proc. West. Soc. Weed Sci.39:86-92|1986|
31059|T||Ibarra,F.A., M.H. Martin, L.R. Torres, M.F. Silva, H.L. Morton, and J.R. Cox|The Brittlebrush Problem and Potential Control Measures in Buffelgrass Pastures in Sonora, Mexico|Proc. West. Soc. Weed Sci.39:57-66|1986|
31060|T||Mashhadi,H.R., and J.O. Evans|Effect of Bloom Application of Metsulfuron on Seed Size, Viability and Seedling Vigor of Field Bindweed (Convolvulus Arvensis L.)|Proc. West. Soc. Weed Sci.39:36-39|1986|
31061|T||Kukula,S.T.|Weed Management in Dryland Cereal Production with Special Reference to the near East|FAO Plant Prot.Bull.34(3): 133-138|1986|
31062|T||Parr,T.W., R.H. Marrs, L.A. Boorman, and R.A. Plant|Comparison of Root- and Shoot-Acting Growth Retardants on a Grass/Clover Sward|Weed Res. (Multiple Languages)27(1): 69-78|1987|10.1111/j.1365-3180.1987.tb00738.x
31063|T||Leys,A.R., and F.W. Slife|Comparison of Chlorsulfuron and Metsulfuron for Control of Allium vineale L.|Weed Res. (Multiple Languages)27(1): 35-41|1987|10.1111/j.1365-3180.1987.tb00734.x
31064|T||Shanaha,J.F., and D.C. Nielsen|Influence of Growth Retardants (Anti-Gibberellins) on Corn Vegetative Growth, Water Use, and Grain Yield Under Different Levels of Water Stress|Agron. J.79(1): 103-109|1987|10.2134/agronj1987.00021962007900010022x
31065|T||Reddy,V.R., D.N. Baker, F.D. Whisler, and R.E. Fye|Application of Gossym to Yield Decline in Cotton I. Systems Analysis of Effects of Herbicides on Growth, Development, and Yield|Agron. J.79(1): 42-47|1987|10.2134/agronj1987.00021962007900010010x
31066|T||Bovey,R.W., and R.E. Meyer|Influence of Adjuvants and Plant Growth Regulators on Herbicide Performance in Honey Mesquite|J. Plant Growth Regul.5(4): 225-234|1987|10.1007/BF02030137
31067|T||Bauscher,M.G., and G. Yelenosky|Morphological Changes in Citrus Associated with Relatively High Concentrations of Paclobutrazol|J. Plant Growth Regul.5(3): 139-147|1987|10.1007/BF02087182
31068|T||Suttle,J.C., and J. Hultstrand|Growth Retarding Effects of the Herbicide Difenzoquat|J. Plant Growth Regul.5(3): 123-131|1987|10.1007/BF02087180
31069|T||Shawa,A.Y.|Control of Certain Resistant Weeds in Cranberries with Fydulan|Ext. Bull. Wash. State Univ.992:1-4|1987|
31070|T||Wiese,A.F., E.W. Chenault, and M.L. Wood|Control of Barnyardgrass, Volunteer Corn, and Sorghum with New Herbicides|Tex. Agric. Exp. Stn. Prog. Rep.4506:1-12|1987|
31072|T||Eguchi,S., M. Takabayashi, H. Shibayama, and M. Miyahara|Ecology and Control of Sagittaria pygmaea in Paddy Fields|Jpn.Agric.Res.Q.(JARQ)20(3): 161-165|1987|
31073|T||Sanderson,K.C., W.C.,Jr. Martin, and R.D. Patterson|Prepropagation Dips of Acanthaceae Cuttings in Growth Regulators to Retard Subsequent Growth|Hortscience22(2): 243-244|1987|10.21273/HORTSCI.22.2.243
31074|T||Jackson,N.E.|Control of Brush and Chaparral Species with Glyphosate|Proc. Annu. Calif. Weed Conf.38:221-223|1986|
31075|T||Colbert,D., and A. VanCantfort|Arsenal Herbicide:  The First Member of the Imidazolinone Herbicides to be Introduced|Proc. Calif. Weed Conf.38:217-219|1986|
31076|T||Vargas,R.|Perennial Vegetation Management on the Orchard and Vineyard Floor|Proc. Annu. Calif. Weed Conf.38:188A - 194A|1986|
31077|T||Costello,L.R.|Control of Ornamentals Gone Wild: Pampas Grass, Bamboo, English and Algerian Ivy|Proc. Annu. Calif. Weed Conf.38:162-170|1986|
31078|T||Bell,C.E.|Summer Grass Control in Alfalfa|Proc. Annu. Calif. Weed Conf.38:145-148|1986|
31079|T||Kempen,H.M.|Nightshade, Cotton's No. 1 Enemy|Proc. Annu. Calif. Weed Conf.38:136-144|1986|
31080|T||Elmore,C.L.|Weed Control in Christmas Trees, Eucalyptus Sp. and Populus Sp|Proc. Annu. Calif. Weed Conf.38:119-122|1986|
31081|T||Pacheco,J.L., and C.L. Pope|Effective Broadleaf Weed and Sedge Control in California Rice Production|Proc. Annu. Calif. Weed Conf.38:23-29|1986|
31082|T||Bradley,L.M.|New Herbicides from Dupont|Proc. Annu. Calif. Weed Conf.38:17-18|1986|
31083|T||Bowe,S.J.|Endurance: A Broad Spectrum Preemergence Herbicide for Tree and Vine Crops|Proc. Annu. Calif. Weed Conf.38:12-|1986|
31084|T||Reano,P.C.|Histological Study and Observations on the Effects of Some Synthetic Growth Substances on Stem Tip Cuttings of Coffee|Philipp. Agric.2:87-98|1940|
31085|T||Lyon,C.J.|Auxin Transport in Leaf Epinasty|Plant Physiol.38(5):567-574|1963|10.1104/pp.38.5.567
31086|T||Craker,L.E., A.V. Chadwick, and G.R. Leather|Abcission Movement and Conjugation of Auxin|Plant Physiol.45:790-793|1970|10.1104/pp.46.6.790
31087|T||Tyson,R.V., W.M. Stall, and S.K. O'Hair|Herbicides for Irish Potatoes on Alkaline Marl Soil|Proc. Annu. Meet. Fla. State Hortic. Soc.98:263-266|1985|
31088|T||Semidey,N., and L. Almodovar|Chemical Control of Echinochloa colonum in Sweet Corn|J. Agric. Univ. P. R.70(4): 311-313|1986|10.46429/jaupr.v70i4.7110
31089|T||Semidey,N., and L. Almodovar|Asulam and Other Postemergence Herbicides for Sugarcane|J. Agric. Univ. P. R.70(4): 235-243|1986|10.46429/jaupr.v70i4.7100
31090|T||Snipes,C.E., H.R. Smith, D.R. Shaw, and L.L. Whatley|Influence of Cultivation and Herbicides on Control of Smallflower Morningglory in Soybeans|Miss. Agric. For. Exp. Stn. (MAFES)11(19): 1-3|1986|
31091|T||Snipes,C.E., D.R. Shaw, L.L. Whatley, and H.D. Palmertree|Broadleaf Signalgrass Control in Soybeans|Miss. Agric. For. Exp. Stn. (MAFES)11(18): 1-3|1986|
31092|T||Miller,J.H., and R.E. True|Herbicide Tests for Kudzu Eradication|Ga. For. Res. Pap.65:1-11|1986|
31094|T||Heisey,R.M., and A.R. Putnum|Herbicide Effects of Geldanamycin and Nigericin, Antibiotics from Streptomyces Hygroscopicus|J. Nat. Prod.49(5): 859-865|1986|10.1021/np50047a016
31095|T||Miller,S.D., and J. Fornstrom|Herbicide Benefit Assesment in Sugarbeets|Wyo U Aes Rj139:1-11|1986|
31096|T||Richardson,J.M., D.R. Gealy, and L.A. Morrow|Preventing Downy Brome (Bromus Tectorum) Seed Production with Dpx-Y6202 and Fluazifop|Weed Sci.35(2): 277-281|1987|10.1017/S0043174500079194
31097|T||Wicks,G.A., P.T. Nordquist, and J.W. Schmidt|Response of Winter Wheat (Triticum aestivum) to Herbicides|Weed Sci.35(2): 259-262|1987|10.1017/S0043174500079169
31099|T||McWhorter,C.G., G.D. Wills, and R.D. Wauchope|Efficacy of Bentazon and MSMA as Affected by a Humic Acid-Type Polymeric Polyhydroxy Acid Adjuvant|Weed Sci.35(2): 237-242|1987|10.1017/S0043174500079121
31100|T||Edmund,R.M.J., and A.C. York|Effects of Rainfall and Temperature on Postemergence Control of Sicklepod (Cassia Obtusifolia) with Imazaquin and Dpx-F6025|Weed Sci.35(2): 231-236|1987|10.1017/S004317450007911X
31101|T||Friesen,G.H.|Wild Mustard (Sinapis Arvensis) Control in Sunflowers (Helianthus Annuus) with Fluorochloridone|Weed Sci.35(2): 228-230|1987|10.1017/S0043174500079108
31102|T||Snipes,C.E., and J.E. Street|Fenoxaprop for Postemergence Barnyardgrass (Echinochloa crus-galli) Control in Rice (Oryza sativa)|Weed Sci.35(2): 224-227|1987|10.1017/S0043174500079091
31103|T||Edmund,R.M.,Jr., and A.C. York|Factors Affecting Postemergence Control of Sicklepod (Cassia obtusifolia) with Imazaguin and DPX-F6025:  Spray Volume, Growth Stage, and Soil-Applied Alachlor and Vernolate|Weed Sci.35(2): 216-223|1987|10.1017/S004317450007908X
31104|T||Mcarthur,D.A.J., and G.W. Eaton|Effect of Fertilizer, Paclobutrazol, and Chlormequat on Strawberry|J. Am. Soc. Hortic. Sci.112(3): 241-246|1987|10.21273/JASHS.112.2.241
31105|T||Xudan,X.|The Effect of Foliar Application of Fulvic Acid on Water Use, Nutrient Uptake, and Yield in Wheat|Aust. J. Agric. Res.37(4): 343-350|1986|10.1071/AR9860343
31106|T||Chandrasena,J.P.N.R., and G.R. Sagar|Some Factors Affecting the Performance of Fluazifop-Butyl Against Elymus repens (L.) Gould (Agropyron repens (L.) Beauv.)|Weed Res. (Multiple Languages)26(2): 139-148|1986|10.1111/j.1365-3180.1986.tb00688.x
31107|T||Babiker,A.G.T., and M.K. Ahmed|Chemical Weed Control in Transplanted Onion (Allium cepa L.) in the Sudan Gezira|Weed Res. (Multiple Languages)26(2): 133-137|1986|10.1111/j.1365-3180.1986.tb00687.x
31108|T||Unamma,R.P.A., and A.A. Melifonwu|Herbicides for 'Seed' Yam Production from 'Minisetts' in the Rainforest Zone of Nigeria|Weed Res. (Multiple Languages)26(2): 115-120|1986|10.1111/j.1365-3180.1986.tb00684.x
31109|T||Kurtz,M.E.|Control of Sorghum halpense (L.) Pers. in Cotton with Post-Emergence Herbicides and Trifluralin|Weed Res. (Multiple Languages)26(2): 83-87|1986|10.1111/j.1365-3180.1986.tb00680.x
31110|T||Heursel,J.|The Influence of Ancymidol, Chlormequat and Daminozide on Some Azalea (Rhododendron simsii Planch.) Cultivars|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(2): 363-367|1985|
31115|T||Efthimiadis,P., and E.A. Skorda|The Efficacy of AC 222.293 Applied Post-Emergence at Various Growth Stages and Rates Against Wild Oat and Other Weeds in Cereals Under Greek Conditions|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(2): 257-263|1985|
31117|T||Bhowmik,P.C.|Effects of Amidochlor on Shoot Growth and Seedhead Suppression in Cool-Season Turfgrass|Hortscience22(1): 63-65|1987|10.21273/HORTSCI.22.1.63
31118|T||Jensen,K.I.N., and L.H. North|Control of Speckled Alder in Lowbush Blueberry with Selective Fall Herbicide Treatments|Can. J. Plant Sci.67(1): 369-372|1987|10.4141/cjps87-054
31119|T||Friesen,G.H.|Control of Wild Oats in Field Corn with Flamprop Methyl|Can. J. Plant Sci.67(1): 271-274|1987|10.4141/cjps87-039
31121|T||Naylor,R.E.L., M.E. Saleh, and J.M. Farquharson|The Response to Chlormequat of Winter Barley Growing at Different Temperatures|Crop Res. 26(1): 17-31|1986|
31122|T||Murphy,T.R.|Pre-Emergence for Herbicides for Warm-Season Turf|Weeds Trees Turf26(2): 71, 74, 76, 78 -|1987|
31123|T||Shearman,R.|Pre-Emergence Weed Control of Cool-Season Turf|Weeds Trees Turf26(2): 70-71|1987|
31124|T||Messinger,N.L., and E.J. Holcomb|The Effect of Chlormequat, Chloride Ancymidol, Bas 106, and Sd 8339 on Selected Dianthus Cultivars|Hortscience21(6): 1397-1400|1986|10.21273/HORTSCI.21.6.1397
31125|T||Gilliam,C.H., G. Wehtje, and D.C. Fare|Postemergence Control of Goosegrass and Large Crabgrass in Container-Grown Ornamentals|Hortscience21(6): 1394-1396|1986|10.21273/HORTSCI.21.6.1394
31126|T||Williams,E.D., and M.J. Hayes|Growth of White Clover in Eight Grass Species and the Effects of Propyzamide, a Grass-Suppressing Herbicide|Grass Forage Sci.41(4): 367-374|1986|10.1111/j.1365-2494.1986.tb01827.x
31127|T||Rao,D.V.M., and K.S.C. Base|Effects of Certain Growth Regulators on Growth, Development and Yield in Varalaxmi Hybrid Cotton|Andhra Agric. J.32(2): 131-132|1985|
31128|T||Suryanarayana,V., and B.N. Raju|Growth, Flowering, Sex Expression and Yield of Pumpkin and Ridgegourd As Influenced by Plant Growth Regulators|Andhra Agric. J.32(2): 107-111|1985|
31129|T||Ananda Roa,M., K.J.M. Reddy, P.R. Reddy, P. Gopala Rao, and K. Subrahmanyam|Effect of Herbicides on Weed Control and Yield of Groundnut (Arachis Hypogaea L.)|Andhra Agric. J.32(3): 215-216|1985|
31130|T||Suryanarayana,V.|Influence of Growth Retardants on Flowering and Inflorescence Characters in Mango|Andhra Agric. J.32(3): 208-209|1985|
31132|T||Setia,R.C., and S.P. Kaur|Variations in Pea Pod-Wall Structure in Response to Applied Growth Regulators|Phytomorphology35(1/2): 127-132|1985|
31133|T||Albrecht,M.L.|Growth Retardant Use with Potted Anemone and Ranunculus|J. Am. Soc. Hortic. Sci.112(1): 82-85|1987|10.21273/JASHS.112.1.82
31134|T||Looney,N.E., and J.E. McKellar|Effect of Foliar and Soil Surface-Applied Paclobutrazol on Vegetative Growth and Fruit Quality of Sweet Cherries|J. Am. Soc. Hortic. Sci.112(1): 71-76|1987|10.21273/JASHS.112.1.71
31135|T||Adler,P.R., and G.E. Wilcox|Salt Stress, Mechanical Stress, Or Chlormequat Chloride Effects on Morphology and Growth Recovery of Hydroponic Tomato Transplants|J. Am. Soc. Hortic. Sci.112(1): 22-25|1987|10.21273/JASHS.112.1.22
31136|T||Marini,R.P.|Growth and Cropping of 'Redhaven' Peach Trees Following Soil Application of Paclobutrazol|J. Am. Soc. Hortic. Sci.112(1): 18-21|1987|10.21273/JASHS.112.1.18
31137|T||Gonzalez-Ibanez,J.|Control by Several Herbicides on Alexander Grass, Brachiaria Plantaginea (Link) Hitchc., in the Greenhouse|J. Agric. Univ. P. R.70(3): 207-211|1986|10.46429/jaupr.v70i3.7093
31138|T||Friesen,G.H., and W.O. Chubb|Effect of Incorporation Method and Soil Type on Selectivity of Metribuzin in Sunflower (Helianthus annuus L.)|Weed Res. (Multiple Languages)26(5): 341-345|1986|10.1111/j.1365-3180.1986.tb00716.x
31139|T||Rubin,B., and Y. Demeter|Dipropetryn Absorption During Germination by Cucurbit Seeds and Its Influence on Seedling Growth|Weed Res. (Multiple Languages)26(5): 333-340|1986|10.1111/j.1365-3180.1986.tb00715.x
31141|T||Upadhyaya,M.K., A.I. Hsiao, and M.E. Bonsor|Differential Response of Pure Lines of Avena fatua L. to Substituted Phthalimides: Germination and Endosperm-Mobilization Studies|Ann. Bot.58(4): 455-463|1986|10.1093/annbot/58.4.455
31142|T||Ferree,D.C.|Influence of Treatments at Planting on Trellised Apple Tree Performance|Ohio Agric. Res. Dev. Cent.290:1-5|1986|
31143|T||Samples,T.J., L.M. Cargill, and A.D. Brede|Silver Beardgrass (Andropogon saccharoides) Control on Highway Rights-of-Way|Weed Sci.35(1): 123-126|1987|10.1017/S0043174500026904
31144|T||Prasad,K., R.C. Gautam, and N.K. Mohta|Studies on Weed Control in Arhar and Soybean As Influenced by Planting Patterns, Intercropping and Weed Control Methods|Indian J. Agron.30(4): 434-439|1985|
31145|T||Prasad,K., R.C. Gautam, and N.K. Mohta|Effect of Planting Patterns and Weed Control Methods on Growth Characters, Yield and Yield Attributes of Arhar Intercropped with Soybean|Indian J. Agron.30(4): 429-433|1985|
31146|T||Khodayari,K., R.J.,Jr. Smith, and H.L. Black|Red Rice (Oryza sativa) Control with Herbicide Treatments in Soybeans (Glycine max)|Weed Sci.35(1): 127-129|1987|10.1017/S0043174500026916
31147|T||Whisenant,S.G.|Selective Control of Mountain Big Sagebrush (Artemisia tridentata ssp. vaseyana) with Clopyralid|Weed Sci.35(1): 120-123|1987|10.1017/S0043174500026898
31148|T||Boydston,R.A., and F.W. Slife|Postemergence Control of Giant Foxtail (Setaria faberi) in Corn (Zea mays) with Tridiphane and Triazine Combinations|Weed Sci.35(1): 103-108|1987|10.1017/S0043174500026862
31149|T||Vaughn,K.C., and W.C. Koskinen|Effects of Trifluralin Metabolites on Goosegrass (Eleusine indica) Root Meristems|Weed Sci.35(1): 36-44|1987|10.1017/S0043174500026758
31150|T||Maxwell,B.D., M.E. Foley, and P.K. Fay|The Influence of Glyphosate on Bud Dormancy in Leafy Spurge (Euphorbia esula)|Weed Sci.35(1): 6-10|1987|10.1017/S0043174500026709
31151|T||Svejcar,T., S. Christiansen, and W.A. Phillips|Effect of a Growth Regulation on Forage Production, Quality and Growing Point Elongation in Wheat|Okla. Agric. Exp. Stn. MP118:50-53|1986|
31152|T||Green,C.F., and T.C.K. Dawkins|Influence of Nitrogen Fertilizer and Chlormequat on Two Spring Wheat Cultivars|Crop Res. 25(2): 89-101|1986|
31153|T||Gaur,R.D., and C.M. Sharma|Morphology, Viability and Effect of Growth Regulators on the Germination and Tube Growth of Prunus cerasoides D. Don. Pollen|J. Tree Sci.4(1): 30-33|1985|
31154|T||Marini,R.P.|Growth and Cropping of 'Redhaven' Peach Trees Following Foliar Applications of Flurprimidol and Paclobutrazol|J. Am. Soc. Hortic. Sci.111(6): 849-853|1986|10.21273/JASHS.111.6.849
31155|T||Omokawa,H., Y. Takeuchi, M. Konnai, and T. Takematsu|Selective Phytotoxicity of N-Allyl-N-alpha-Substituted Benzylbenzenesulfonamides|Agric. Biol. Chem.50(9): 2341-2345|1986|
31156|T||Harika,A.S., P.S. Tomer, and T.K. Ganguly|Effect of Dose and Time of Atrazine Application on Weed Infestation and Yield of Fodder Sorghum|J. Agric. Sci.107(2): 449-451|1986|10.1017/S0021859600087256
31158|T||Talbert,R.E., D.H. Johnson, J.A. Kendig, and G.L. Klingaman|Field Evaluations of Herbicides on Small Fruit, Vegetable and Ornamental Crops, 1986|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.351:30 p.|1986|
31159|T||Breay,H.T.|The Use of new Post-Emergence Graminicides in Sugar Beet|Asp. Appl. Biol.2:167-175|1983|
31160|T||Wilson,C.W., and D.G. Munday|Control of Perennial and Annual Grass Weeds, and Sown Cereal Windbreaks in Sugar Beet with Alloxydim Sodium and Sethoxydim|Asp. Appl. Biol.2:157-165|1983|
31161|T||Siddall,C.J., and F.B. Cousins|Annual and Perennial Grass Weed Control with Fluazifop-Butyl in Sugar Beet in Programmes with Broad Leaf Herbicides|Asp. Appl. Biol.2:149-156|1983|
31163|T||Scifres,C.J., J.H. Brock, and R.R. Hahn|Influence of Herbicide Rate, Date of Application and Phenology on Common Broomweed Control|Tex. Agric. Exp. Stn. Prog. Rep.2801-2828:52-54|1970|
31164|T||Brock,J.H., C.J. Scifres, and R.R. Hahn|Influence of Herbicides on Weed Control and the Establishment of Grasses in Rangeland Reseeding|Tex. Agric. Exp. Stn. Prog. Rep.2801-2828:46-52|1970|
31165|T||Bovey,R.W., M.L. Ketchersid, and M.G. Merkle|Comparison of Salt and Ester Formulations of Picloram for Brush Control in Texas|Tex. Agric. Exp. Stn. Prog. Rep.2801-2828:26-31|1970|
31166|T||Robison,E.D., and B.T. Cross|Redberry Juniper Control and Grass Response Following Aerial Application of Picloram|Tex. Agric. Exp. Stn. Prog. Rep.2801-2828:20-22|1970|
31167|T||Dodd,J.D., and G.O. Hoffman|Chemical Control of Dog Cactus|Texas Agric. Exp. Stn. Bull.2801-2828:18-20|1970|
31168|T||Lym,R.G., and C.G. Messersmith|Control of Leafy Spurge with Herbicides|N. D. Farm Res.40(5): 16-19|1983|
31169|T||Donald,W.W.|Chlorsulfuron (Glean) for Control of Shoot Growth and Root Buds of Canada Thistle|N. D. Farm Res.42(4): 20-22|1985|
31170|T||Fisher,J.T., D.J. Dudoich, and G.A. Fancher|Efficacy of Pre- and Postemergence Herbicides in Field-Planted Pinus eldarica|For. Ecol. Manag.16(1-4): 253-258|1986|10.1016/0378-1127(86)90025-3
31171|T||Sanders,G.E., and K.E. Pallett|Studies into the Differential Activity of the Hydroxybenzonitrile Herbicides:  I. Photosynthetic Inhibition, Sympton Development, and Ultrastructural Changes in Two Contrasting Species|Pestic. Biochem. Physiol.26(2): 116-127|1986|10.1016/0048-3575(86)90083-0
31172|T||Henzell,R.F., M.R. Briscoe, and D.R. Lauren|Evaluation of Two Plant Growth Regulators As Chemical Pruning Agents for Kiwifruit Vines in Summer|N. Z. J. Exp. Agric.14(2): 199-203|1986|10.1080/03015521.1986.10426143
31173|T||Sithamparanathan,J., M.J. MacFarlane, and S. Richardson|Effect of Treading, Herbicides, Season, and Seed Coating on Oversown Grass and Legume Establishment in Easy North Island Hill Country|N. Z. J. Exp. Agric.14(2): 173-182|1986|10.1080/03015521.1986.10426139
31174|T||Hickman,G.W.|A New Growth Regulator for Greenhouse Plants|Bull. Calif. Agric. Exp. Stn.40(11/12): 16-17|1986|
31175|T||Esau,R.|Herbicide Investigations in Coniferous Tree Nurseries in Saskatchewan and Alberta|North. For. Res. Cent.241:68-74|1982|
31176|T||Munoz,R.F., G.E. Coats, and J.V. Krans|Herbicide Evaluation for Purple Nutsedge Control Under Greenhouse Conditions|Miss. Agric. For. Exp. Stn. Tech. Bull.136:1-5|1986|
31177|T||Street,J.E., and T.C. Miller|Bromoxynil for Controlling Broadleaf Weeds in Rice|Miss. Agric. For. Exp. Stn. (MAFES)11(9): 1-3|1986|
31178|T||Shaw,D.R., C.E. Snipes, and L.L. Whatley|Chemical Control of Sicklepod in Soybeans|Miss. Agric. For. Exp. Stn. (MAFES)11(12): 1-4|1986|
31179|T||Talbert,R.E., L.R. Oliver, R.E. Frans, D.H. Johnson, and J.A. Kendig|Field-Screening of New Chemicals for Herbicidal Activity 1986|U Ar Ag R R346:1-12|1986|
31180|T||Rom,R.C., G. Arrington, and M. Stasiak|Field Evaluation of Herbicides in Tree Fruits, 1984|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.335:12 p. |1986|
31181|T||Gamble,P.E., and J.E. Mullet|Inhibition of Carotenoid Accumulation and Abscisic Acid Biosynthesis in Fluridone-Treated Dark-Grown Barley|Eur. J. Biochem.160(1): 117-121|1986|10.1111/j.1432-1033.1986.tb09947.x
31182|T||Braun,J.W., and W.J. Kender|Correlative Bud Inhibition and Growth Habit of the Strawberry as Influenced by Application of Gibberellic Acid, Cytokinin, and Chilling During Short Daylength|J. Am. Soc. Hortic. Sci.110(1): 28-34|1985|10.21273/JASHS.110.1.28
31183|T||Rubin,B., U. Alder, R. Varsano, and H.D. Rabinowitch|Effect of Ethofumesate on the Epicuticular Waxes of Onion Leaves, and on the Response of Plants to Foliage-Applied Herbicides|Ann. Appl. Biol.108(2): 365-371|1986|10.1111/j.1744-7348.1986.tb07658.x
31191|T||Peters,E.J., and J.F. Stritzke|Response of Ironweed and Buckbrush to Herbicides in Combination with Mowing, Nitrogen Fertilizer, and Surfactants|Usda Ag T B1400:1-15|1969|
31192|T||Lee,W.O.|Effect of Annual Applications of Diuron on Seed Yields of Perennial Grasses in Oregon|Technical Bulletin No. 1358, Oregon Agricultural Experimental Station, U.S. Department of Agriculture, Washington, DC:23 p. |1966|
31193|T||Bruns,V.F., W.W. Heinemann, and D.L. Oldemeyer|Control of Downy Brome in Alfalfa and Related Studies|Usda Ag T B1197:1-29|1959|
31194|T||Aldrich,R.J.|Chickweed Control in Alfalfa|Usda Ag T B1174:1-14|1957|
31195|T||Kerby,T.A., K. Hake, and M. Keeley|Cotton Fruiting Modification with Mepiquat Chloride|Agron. J.78(5): 907-912|1986|10.2134/agronj1986.00021962007800050032x
31196|T||Green,C.F.|Modifications to the Growth and Development of Cereals Using Chlorocholine Chloride in the Absence of Lodging: A Synopsis|Field Crops Res.14(2): 117-133|1986|10.1016/0378-4290(86)90051-1
31204|T||Dodel,J.B., L. Everaere, B. Gauthier, and G. Issaly|Use of DPX 5648 Or Methyl 2-(((((4,6-Dimethyl-2-Pyrimidinyl)Amino)-Carbonyl)Amino)Sulfonyl)Benzoate or DPX 5648, A new Herbicide for Weeding Uncultivated Plac|Conf. Columa (Multiple Languages)3:257-265|1983|
31215|T||McDaniel,G.L.|Comparison of Paclobutrazol, Flurprimidol, and Tetcyclacis for Controlling Poinsettia Height|Hortscience21(5): 1161-1163|1986|10.21273/HORTSCI.21.5.1161
31216|T||LeCain,D.R., K.A. Schekel, and R.L. Wample|Growth-Retarding Effects of Paclobutrazol in Weeping Fig|Hortscience21(5): 1150-1152|1986|10.21273/HORTSCI.21.5.1150
31217|T||Masiunas,J.B., and S.C. Weller|Strawberry Cultivar Response to Postplant Applications to Terbacil|Hortscience21(5): 1147-1149|1986|10.21273/HORTSCI.21.5.1147
31218|T||Jensen,K.I.N.|Response of Lowbush Blueberry to Weed Control with Atrazine and Hexazinone|Hortscience21(5): 1143-1144|1986|10.21273/HORTSCI.21.5.1143
31219|T||Hall,M.R., and J.C. Turner|Retardation of Vine Development of Pot-Grown Sweet Potato Plants with Mepiquat Chloride|Hortscience21(5): 1130-1132|1986|10.21273/HORTSCI.21.5.1130
31220|T||Richardson,W.G., and T.M. West|Tolerance of Evening Primrose (Oenothera Biennis) and Borage (Borago Officinalis) to Pre-Emergence Herbicides|Tests Agrochem. Cultiv.7:138-139|1986|
31221|T||Clay,D.V.|The Tolerance of Strawberries to Shoot and Root Applications of Five New Herbicides|Tests Agrochem. Cultiv.7:130-131|1986|
31222|T||Knott,C.M.|Tolerance of Lupinus Albus to Various Herbicide Treatments|Tests Agrochem. Cultiv.7:126-127|1986|
31223|T||Roberts,H.A., and W. Bond|Tolerance of Transplanted Courgettes to Thirteen Herbicides|Tests Agrochem. Cultiv.7:112-113|1986|
31224|T||Marshall,A., and I. James|Evaluation of Chemicals for Spring Gapping Clover Seed Crops|Tests Agrochem. Cultiv.7:110-111|1986|
31225|T||Blair,A.M., V.M. Bhan, and J.C. Caseley|The Influence of Watering Method on the Activity of Isoproturon on Winter Barley|Tests Agrochem. Cultiv.7:106-107|1986|
31226|T||Oswald,A.K.|Effects of Sulphonyl-Urea Herbicides on Anthriscus Sylvestris at Two Stages of Growth|Tests Agrochem. Cultiv.7:102-103|1986|
31227|T||Blair,A.M.|The Effect of Shading on Isoproturon Acitvity on Alopecurus Myosuroides|Tests Agrochem. Cultiv.7:100-101|1986|
31228|T||Richardson,W.G., and T.M. West|Potential Pre-Emergence Control of Geranium dissectum in Wheat and Oil-Seed Rape|Tests Agrochem. Cultiv.7:98-99|1986|
31229|T||Roberts,H.A., and W. Bond|Evaluation of Diflufenican for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.7:96-97|1986|
31230|T||Roberts,H.A., and W. Bond|Evaluation of AC 263,499 for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.7:94-95|1986|
31231|T||Roberts,H.A., and W. Bond|Evaluation of Fmc 57020 for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.7:92-93|1986|
31232|T||Richardson,W.G., and T.M. West|Pot Experiments to Investigate Potential Post-Emergence Herbicides for Weed Control in Swede (Brassica napus)|Tests Agrochem. Cultiv.7:90-91|1986|
31233|T||Davies,D.H.K., and M.C. Richards|Evaluation of Sulfonyl-Urea Herbicides for Weed Control in Flax (Linum Usitatissimum)|Tests Agrochem. Cultiv.7:86-87|1986|
31234|T||Jowers,H.E., J.W. Breman, and J.W. Fletcher|Effects of Several Herbicide Treatments on Wild Poinsettia (Euphorbia Heterophylla L.) Control in Soybean|Annu. Meet. Fla. State Hortic. Soc.45:115-117|1986|
31238|T||Richardson,W.G., and T.M. West|The Response of Viola Arvensis and Winter Wheat to Various Herbicides, Post-Emergence|Tests Agrochem. Cultiv.6:152-153|1985|
31239|T||Richardson,W.G., and T.M. West|The Response of Viola arvensis and Winter Wheat to Various Herbicides, Pre-Emergence|Tests Agrochem. Cultiv.6:150-151|1985|
31240|T||Richardson,W.G., T.M. West, and C.E. Flint|Response of Two Geranium Species, Wheat and Oilseed Rape to Various Herbicides Applied Post-Emergence|Tests Agrochem. Cultiv.6:148-149|1985|
31241|T||Richards,M.C., D.H.K. Davies, and R.W. Lang|Evaluation of the Crop Safety of Bentazone on Six Potato Varieties|Tests Agrochem. Cultiv.6:142-143|1985|
31242|T||Younie,D., J.M. MacDougall, T.G. Mitchell, and R.E.L. Naylor|Effect of Growth Regulator on Establishment and Growth of Italian Ryegrass in the Field|Tests Agrochem. Cultiv.6:138-139|1985|
31243|T||Habeshaw,D., and M.C. Richards|A Differential Response of Fine Leaved Fescues to Glyphosate, Lime and Manurial Treatments|Tests Agrochem. Cultiv.6:134-135|1985|
31244|T||Haggar,R.J., and R. Reeves|Evaluation of Agrispon and Tillermor on the Establishment and Yield of A Grass/Clover Sward|Tests Agrochem. Cultiv.6:132-133|1985|
31245|T||Ellis,S.A., R.O. Clements, and J.S. Bale|The Interaction of Seed Rate and Pesticide Use on the Herbage Yield of Newly-Sown Grass|Tests Agrochem. Cultiv.6:130-131|1985|
31246|T||Clements,R.O., C.A. Jackson, and B.R. Bentley|The Impact of 18 Pesticide Treatments and a Fertiliser Treatment on the Herbage Yield of Newly-Sown Italian Ryegrass|Tests Agrochem. Cultiv.6:128-129|1985|
31247|T||Stringer,D., C. Parker, and W.G. Richardson|Tolerance of Oenothera Biennis to Various Herbicide Treatments|Tests Agrochem. Cultiv.6:124-125|1985|
31248|T||Standell,C.J.|The Tolerance to Propyzamide of Six White Clover Varieties at Three Growth Stages|Tests Agrochem. Cultiv.6:120-121|1985|
31249|T||Reeves,R.A., and R.J. Haggar|The Relative Tolerance of Seedling Red Clover to Two 'Clover Safe' Herbicides Applied at Four Growth Stages|Tests Agrochem. Cultiv.6:118-119|1985|
31250|T||West,T.M., and W.G. Richardson|Response of Bracken (Pteridium aquilinum) in Pots to Various Herbicide Treatments|Tests Agrochem. Cultiv.6:108-109|1985|
31251|T||Smith,P.G., and P. Ayres|The Influence of Surfactants on the Activity of Various Herbicides|Tests Agrochem. Cultiv.6:106-107|1985|
31252|T||Turner,D.J.|The Effect of Kaolin and Other Adjuvants on the Activity of the Herbicide Glyphosate in Glasshouse Trials|Tests Agrochem. Cultiv.6:104-105|1985|
31254|T||Davies,D.H.K., and M.C. Richards|Evaluation of Herbicides for Control of Giant Hogweed (Heracleum mantegazzianum Somm & Lev.), and Vegetation Re-Growth in Treated Areas|Tests Agrochem. Cultiv.6:100-101|1985|
31255|T||Roberts,H.A., and W. Bond|Evaluation of Fluroxypyr for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.6:96-97|1985|
31256|T||Robert,H.A., and W. Bond|Evaluation of Sd 95481 for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.6:94-95|1985|
31257|T||Roberts,H.A., and W. Bond|Evaluation of El-107 for Weed Control in Drilled Vegetable Crops|Tests Agrochem. Cultiv.6:92-93|1985|
31258|T||Standell,C.J., and R.J. Haggar|The Tolerance of Bromus Willdenowii to Various Herbicides|Tests Agrochem. Cultiv.6:88-89|1985|
31259|T||Oswald,A.K.|Effects of Dalapon and Ethofumesate Applied to Deschampsia Caespitosa at Four Stages of Growth|Tests Agrochem. Cultiv.6:86-87|1985|
31260|T||Watt,T.A.|The Effect of Propyzamide upon the Components of A Mixed Grass/Clover Sward|Tests Agrochem. Cultiv.6:84-85|1985|
31262|T||Okunuki,S.|Nabu (Sethoxydim): A New Herbicide for New Conservation Tillage Agriculture|Jpn. Pestic. Inf.48:9-12|1986|
31263|T||Sutton,R.F.|Hexazinone Gridballs Applied with Concurrent Underplanting of White Spruce in Boreal Mixedwoods:  7-Year Results|For. Chron.62(4): 226-232|1986|10.5558/tfc62226-4
31264|T||Erasmus,D.J., and J. Van Staden|Screening of Candidate Herbicides in Field Trials for Chemical Control of Chromolaena Odorata|S. Afr. J. Plant Soil3(2): 66-70|1986|10.1080/02571862.1986.10634191
31265|T||Lamont,G.P.|Evaluation of Growth Retardants for Controlling Height of Geraldton Wax Flowers (Chamelaucium Uncinatum Schauer.)|Sci. Hortic.29(4): 363-371|1986|10.1016/0304-4238(86)90020-8
31282|T||Ogg,A.G.J.|Variation in Response of Four Nightshades (Solanum Spp.) to Herbicides|Weed Sci.34(5): 765-772|1986|10.1017/S0043174500067837
31283|T||Wall,D.A., F.A. Kiehn, and G.H. Friesen|Control of Jerusalem Artichoke (Helianthus tuberosus) in Barley (Hordeum vulgare)|Weed Sci.34(5): 761-764|1986|10.1017/S0043174500067825
31284|T||Shilling,D.G., A.D. Worsham, and D.A. Danehower|Influence of Mulch, Tillage, and Diphenamid on Weed Control, Yield, and Quality in No-Till Flue-Cured Tobacco (Nicotiana Tabacum)|Weed Sci.34(5): 738-744|1986|10.1017/S0043174500067783
31285|T||Anderson,R.L.|Metribuzin and Chlorsulfuron Effect on Grain of Treated Winter Wheat (Triticum aestivum)|Weed Sci.34(5): 734-737|1986|10.1017/S0043174500067771
31286|T||Yarborough,D.E., J.J. Hanchar, S.P. Skinner, and A.A. Ismail|Weed Response, Yield, and Economics of Hexazinone and Nitrogen Use in Lowbush Blueberry Production|Weed Sci.34(5): 723-729|1986|10.1017/S0043174500067758
31287|T||Leys,A., and F.W. Slife|The Response of Wild Garlic (Allium vineale) to the Timing of Spray Applications of Chlorsulfuron|Weed Sci.34(5): 718-723|1986|10.1017/S0043174500067746
31288|T||Stoltenberg,D.E., and D.L. Wyse|Regrowth of Quackgrass (Agropyron repens) Following Postemergence Applications of Haloxyfop and Sethoxydim|Weed Sci.34(5): 664-668|1986|10.1017/S0043174500067655
31289|T||Glenn,S., R.S. Peregoy, B.J. Hook, J.B. Heimer, and T. Wiepke|Sorghum halepense (L.) Pers. Control with Foliar-Applied Herbicides in Conventional and No-Tillage Soyabeans|Weed Res. (Multiple Languages)26(4): 245-250|1986|10.1111/j.1365-3180.1986.tb00703.x
31290|T||Bernasor,P.C., and S.K. De Datta|Chemical and Cultural Control of Bulrush (Scirpus maritimus L.) and Annual Weeds in Lowland Rice (Oryza sativa L.)|Weed Res. (Multiple Languages)26(4): 233-244|1986|10.1111/j.1365-3180.1986.tb00702.x
31302|T||Elkner,T.E., and D.C. Coston|Effect of Ba + Ga4+7, Ba and Daminozide on Growth and Lateral Shoot Development in Peach|J. Am. Soc. Hortic. Sci.111(4): 520-524|1986|10.21273/JASHS.111.4.520
31303|T||Nelson,J.M., and G.C. Sharples|Emergence at high Temperature and Seedling Growth Following Pretreatment of Lettuce Seeds with Fusicoccin and other Growth Regulators|J. Am. Soc. Hortic. Sci.111(4): 484-486|1986|10.21273/JASHS.111.4.484
31305|T||Maloy,B.M., and N.E. Christians|Chlorsulfuron Activity on Seven Cool-Season Grasses|Hortscience21(4): 1012-1014|1986|10.21273/HORTSCI.21.4.1012
31307|T||Watanabe,K., and E. Taniguchi|Syntheses and Plant Growth-Regulating Activity of 2-Substituted Phenylacetic Acid Derivatives|Agric. Biol. Chem.50(8): 2047-2052|1986|
31308|T||Bockelee-Morvan,A., and P. Gillier|Effect of Growth Regulator on Groundnuts in Senegal (Action d'un Regulateur de Croissance sur l'Arachide au Senegal)|Oleagineux (Multiple Languages)28(10): 457-460|1973|
31309|T||Ndahi,W.B.|Evaluation of Moderate Rates of Herbicides with or Without Supplementary Weeding for Weed Control in Sorghum in Three Ecological Zones of Nigeria|Trop. Agric.63(3): 240 - 244, 248|1986|
31310|AT||Southwick,K.L., N. Lamb, R. Storey, and D.H. Mansfield|Effects of Ethephon and Its Decomposition Products on Germination of Rice and Watergrass|Crop Sci.26(4): 761-767|1986|10.2135/cropsci1986.0011183X002600040028x
31311|T||Symington,A.G., L.E. Craker, and K.A. Hurto|Response of Kentucky Bluegrass (Poa pratensis L.) to Chemical Growth Retardants|Appl. Agric. Res.1(1): 37-40|1986|
31312|T||Yang,P.C.|Effect of Plant Growth Regulators on Sugarcane Production in Taiwan|Res. Rep. Taiwan Sugar Exp. Stn.33(2): 17-25|1986|
31316|T||Archbold,D.D.|Control of Strawberry Plant Growth and Runner Production by Flurprimidol|Adv. Strawberry Prod.5:28-30|1986|
31317|T||Nassib,A.M., A.H.A. Hussein, E.E. Hassanein, and H.A. Saber|Effect of Pronamide Application and Resistant Varieties on Orobanche Infection and Faba Bean Yield|FABIS Newsl.13:22-25|1985|
31319|T||Wilson,H.P., M.P. Mascianica, T.E. Hines, and R.F. Walden|Influence of Tillage and Herbicides on Weed Control in A Wheat (Triticum aestivum)-- Soybean (Glycine max) Rotation|Weed Sci.34(4): 590-594|1986|10.1017/S0043174500067497
31320|T||Grichar,W.J., and T.E. Boswell|Postemergence Grass Control in Peanut (Arachis hypogaea)|Weed Sci.34(4): 587-590|1986|10.1017/S0043174500067485
31321|T||Griffin,J.L., and T.R. Harger|Red Rice (Oryza sativa) and Jungle Rice (Echinochloa colonum) Control in Solid-Seeded Soybeans (Glycine max)|Weed Sci.34(4): 582-586|1986|10.1017/S0043174500067473
31322|T||Wicks,G.A., and P.H. Grabouski|Weed Control in No-Till Sorghum (Sorghum bicolor)|Weed Sci.34(4): 577-581|1986|10.1017/S0043174500067461
31323|T||Teasdale,J.R., and R.B. Taylorson|Weed Seed Response to Methyl Isothiocyanate and Metham|Weed Sci.34(4): 520-524|1986|10.1017/S0043174500067357
31324|T||Saini,H.S., P.K. Bassi, and M.S. Spencer|Use of Ethylene and Nitrate to Break Seed Dormancy of Common Lambsquarters (Chenopodium album)|Weed Sci.34(4): 502-506|1986|10.1017/S004317450006731X
31327|T||Mehrotra,O.N., R.N. Tewari, and A. Kumar|Weed Control in Sunflower Through Herbicides|Indian J. Agric. Res.18(1): 30-34|1984|
31328|T||Yadava,B.D., S.S. Pahuja, A.S. Nandwal, and I.S. Hooda|Cultural and Chemical Control of Weeds in Cotton (Gossypium Hirsutum L.)|Indian J. Agric. Res.18(4): 215-220|1984|
31329|T||Williams,E.D.|Further Studies on the Effect of Phosphate Fertilizer and Propyzamide on the Growth of White Clover Slot-Seeded into Permanent Pasture|Grass Forage Sci.41(2): 179-182|1986|10.1111/j.1365-2494.1986.tb01802.x
31330|T||Graaff,J.L.|Chemical Control of Sesbania Punicea: Some Preliminary Results|S. Afr. For. J.136:31-33|1986|10.1080/00382167.1986.9629626
31331|T||Morris,J.B.|Effects of Cultivar, Cultural Practices and Growth Regulators on Yield and Quality of Machine-Harvested Blackberries|Proc. Ark. State Hortic. Soc.106:183-187|1985|
31332|T||Gilliam,H., G.R. Wehtje, and D.C. Fare|Postemergence Weed Control in Nursery Stock|Proc. Ark. State Hortic. Soc.106:78-83|1985|
31333|T||Gilliam,C., G. Wehtje, and D. Fare|Preemergence Weed Control in Field-Grown Nursery Stock|Proc. Ark. State Hortic. Soc.106:73-78|1985|
31334|T||Johnson,H., and E. Talbert|New Grass Herbicides for Vegetable Crops|Proc. Ark. State Hortic. Soc.106:33-34|1985|
31335|T||Porter,W.C., and C.E. Johnson|Evaluating Postemerge Herbicides for Grass Control in Watermelons|La. Agric. Exp. Stn. Bull.29(4): 10-11|1986|
31336|T||Merritt,C.R.|The Relationship Between the Rate of Entry of Ioxynil and Effects on Photosynthesis in Normal and Drought-Stressed Stellaria Media|Ann. Appl. Biol.108(1): 105-114|1986|10.1111/j.1744-7348.1986.tb01971.x
31337|T||Street,J.E., and T.C. Miller|Evaluation of Preplant Soil Incorporated Molinate (Ordram) for Weed Control in Rice|Miss. Agric. For. Exp. Stn. (MAFES)10(2): 1-4|1985|
31338|T||Hurst,H.R., and N.C. Edwards|Broadleaf Signalgrass Control in Soybeans Planted No-Till After Wheat|Miss. Agric. For. Exp. Stn. (MAFES)11(1): 1-4|1986|
31339|T||Talbert,R.E., L.R. Oliver, R.E. Frans, D.H. Johnson, and M. McClelland|Field-Screening of New Chemicals for Herbicidal Activity, 1985|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.330:15 p.|1986|
31340|T||Wills,G.D., and C.T. Bryson|Effectiveness of Grass Herbicides on Different Types of Bermudagrass|Miss. Agric. For. Exp. Stn. Tech. Bull.942:1-6|1985|
31341|T||Coats,G.E., J.W. Scruggs, D.H. Anderson, D.C. Heering, and R.F. Munoz|Herbicide Screening Studies in Warm Season Turfgrasses--1985|Miss. Agric. For. Exp. Stn. Tech. Bull.945:1-13|1986|
31342|T||Tachibana,K., T. Watanabe, Y. Sekizawa, and T. Takematsu|Inhibition of Glutamine Synthetase and Quantitative Changes of Free Amino Acids in Shoots of Bialaphos-Treated Japanese Barnyard Millet|J. Pestic. Sci. (Multiple Languages)11(1): 27-31|1986|10.1584/jpestics.11.27
31343|T||Lentochkin,A.M.|Effect of Retardants on Development of Spring Wheat and Oats in Relation to the Weather Conditions in the Vegetation Period|Sov. Agric. Sci.10:65-68|1985|
31345|T||Chopra,P., and S.P. Magu|Interaction of Selected Herbicides and City Compost on Soil Respiration and Crop Yield of Maize|Indian J. Agron.30(1): 50-54|1985|
31350|T||Sarmah,S.C., and S.C. Dey|Response of Soybean (Glycine max (L.) Merrill) to Foliar Application of Some Growth Regulators and in Combination with Urea and Potash|Soybean Genet. Newsl.13:71-74|1986|
31352|T||Hurst,H.R., and J.W. McMillan|Bermudagrass Control in Soybeans|Miss. Agric. For. Exp. Stn. (MAFES)11(7): 1-4|1986|
31353|T||Stevens,W.E., J.R. Johnson, and H.R. Hurst|Preemergence and Preplant Incorporated Herbicides for Control of Johnsongrass in Corn|Miss. Agric. For. Exp. Stn. (MAFES)11(6): 1-2|1986|
31354|T||Stevens,W.E., J.R. Johnson, and H.R. Hurst|Johnsongrass Control in Minimum-Till Cotton|Miss. Agric. For. Exp. Stn. (MAFES)11(5): 1-4|1986|
31355|T||Kurtz,M.E.|Bermudagrass Control in Cotton|Miss. Agric. For. Exp. Stn. (MAFES)11(4): 1-4|1986|
31356|T||Anderson,D.H., G.E. Coats, and J.V. Krans|Evaluation of Oust for Bahiagrass Control in High Maintenance Turfgrasses|Miss. Agric. For. Exp. Stn. (MAFES)11(3): 1-4|1986|
31357|T||Reeves,D.L., and J. Lammers|Effects of Herbicides on Oats|World Crops12:188-190|1986|
31358|T||Semidey,N., L. Almodiovar, and I. Reyes|Herbicide Evaluation in Three Cucurbits|J. Agric. Univ. P. R.70(2): 85-90|1986|10.46429/jaupr.v70i2.7079
31359|T||Williams,M.|Chemical Thinning, Handthinning and Growth Regulator Impact on Size of Apple Fruit|Proc. Annu. Meet. Wash. State Hortic. Assoc.81:96-106|1985|
31360|T||Picken,A.J.F., and M. Grimmett|The Effects of Two Fruit Setting Agents on the Yield and Quality of Tomato Fruit in Glasshouses in Winter|J. Hortic. Sci.61(2):243-250|1986|10.1080/14620316.1986.11515697
31361|T||Johnson,B.J.|Response to Vertical Mowing and Ethofumesate Treatments for Annual Bluegrass Control in Bermudagrass Turf|Agron. J.78(3): 495-498|1986|10.2134/agronj1986.00021962007800030021x
31362|T||Bailey,B.A., and F.M. Bourland|The Influence of Seed Quality on Response of Cotton Seedlings to the Preplant Herbicide Trifluralin|Field Crops Res.13(4): 375-382|1986|10.1016/0378-4290(86)90038-9
31363|T||Sato,K., T. Honma, and S. Sugai|Synthesis and Herbicidal Activities of 1,2-Benzisoxazole-3-Acetamide Derivatives|Agric. Biol. Chem.49(12): 3563-3567|1985|
31364|T||Weaver,J.B.J.|Response of Three Genotypes of Cotton to Yield Enhancement Chemical Applied at 2 Vs 4-5 Leaf Stage of Plant Growth|Proc. Beltwide Cotton Conf.1986:509-511|1986|
31365|T||Briggs,R.E., and C.A. Ledbetter|Effects of Xe-1019 on Irrigated Cotton in Arizona|Proc. Beltwide Cotton Conf.1986:508-509|1986|
31366|T||Mayeux,J.V., V.L. Illum, and R.A. Beach|Influence of the Bioregulator Burst Yield Booster on Boll Load and Yields of Cotton|Proc. Beltwide Cotton Conf.1986:506-508|1986|
31367|T||Daniel,J.T., L.S. Bokin, W.A. Doretnzio, S.A. Harrison, and W.K. Majure|Perennial Grass Control in Cotton with Fusilade 2000 and Fusilade 4e|Proc. Beltwide Cotton Conf.1986:250-251|1986|
31368|T||Vargas,R.N.|Hairy Nightshade (Solanum Sarrachoides) Control with Preplant Incorporated Herbicides|Proc. Beltwide Cotton Conf.1986:248-249|1986|
31369|T||Cruz,U., and S.G. Cayon|Fluridone: Selectivity to Cotton Crops and Purple Nutsedge (Cyperus rotundus L.) Control|Rev. Inst. Colomb. Agropecu.19(3): 307-312|1984|
31371|T||Saini,J.S., R.S. Jolly, and A.S. Dhillon|Effect of Some Growth Regulators on the Pod Yield and Quality in Peanut|Crop Improv.11(1): 61-63|1984|
31373|T||King,J.W., and J.N. Rogers III|Bermudagrass Growth Suppression with Sulfometuron Methyl and Metsulfuron Methyl|Ark. Farm Res.35(2): 1-4|1986|
31374|T||Street,J.E., J.H. Jordan, M.W. Ebelhar, and D.L. Boykin|Plant Height and Yield Responses of Rice to Paclobutrazol|Agron. J.78(2): 288-291|1986|10.2134/agronj1986.00021962007800020015x
31375|T||Satyanarayana,M., and Y. Tatachari|Chemical Weed Control in Banana|Andhra Agric. J.31(4): 336-337|1984|
31376|T||Misra,N.M., and M.G.R. Reddy|Effect of Cycocel, Ascorbic Acid and Zinc Sulphate on Nutrient Uptake of Wheat Under Rainfed Condition|Andhra Agric. J.31(4): 312-314|1984|
31377|T||Morrison,I.N., and D.C. Maurice|The Relative Response of Two Foxtail (Setaria) Species to Diclofop|Weed Sci.32(5): 686-690|1984|10.1017/S0043174500059798
31378|T||Nelson,L.R.|Control of Annual Ryegrass in Winter Wheat with Herbicides|Tex. Agric. Exp. Stn. Prog. Rep.4354:1-9|1986|
31379|T||Peterson,M.A., and W.E. Arnold|Response of Rotational Crops to Soil Residues of Chlorsulfuron|Weed Sci.34(1):131-136|1986|10.1017/S004317450002659X
31380|T||Nalewaja,J., and G. Skrzypczak|Environment and Bromoxynil Phytotoxicty|Weed Sci.34(1): 101-105|1986|10.1017/S0043174500026540
31381|A||Van,T.K., and K.K. Steward|The Use of Controlled-Release Fluridone Fibers for Control of Hydrilla (Hydrilla verticillata)|Weed Sci.34(1): 70-76|1985|10.1017/S0043174500026485
31382|T||Salhoff,C.R., and A.R. Martin|Kochia scoparia Growth Response to Triazine Herbicides|Weed Sci.34(1): 40-42|1986|10.1017/S0043174500026412
31383|T||Keeley,P.E., C.H. Carter, and R.J. Thullen|Influence of Glyphosate on Resprouting of Parent Tubers of Cyperus esculentus|Weed Sci.34(1): 25-29|1985|10.1017/S0043174500026382
31384|T||Foley,M.E.|Response Differences of Wheat (Triticum Asetivum) and Barley (Hordeum Vulgare) to Chlorsulfuron|Weed Sci.34(1): 17-21|1986|10.1017/S0043174500026369
31385|T||Dale,J.E.|Decline in Phytotoxicity of Benzyl Isothiocyanate Formulated As Granules|Weed Sci.34(2): 325-327|1986|10.1017/S004317450006690X
31386|T||Young,F.L., and D.R. Gealy|Control of Russian Thistle (Salsola Iberica) with Chlorsulfuron in A Wheat (Triticum Aestivum) Summer-Fallow Rotation|Weed Sci.34(2): 318-324|1986|10.1017/S0043174500066893
31387|T||Wehtje,G., J.A. McGuire, R.H. Walker, and M.G. Patterson|Texas Panicum (Panicum Texanum) Control in Peanuts (Arachis Hypogae) with Paraquat|Weed Sci.34(2): 308-311|1986|10.1017/S004317450006687X
31388|T||Meyer,R.E., and R.W. Bovey|Influence of Environment and Stage of Growth on Honey Mesquite (Prosopis glandulosa) Response to Herbicides|Weed Sci.34(2): 287-299|1986|10.1017/S0043174500066844
31389|T||McDaniel,K.C., and J.F. Balliette|Control of Big Sagebrush (Artemisia tridentata) with Pelleted Tebuthiuron|Weed Sci.34(2): 276-280|1986|10.1017/S0043174500066820
31390|T||Biniak,B.M., and R.J. Aldrich|Reducing Velvetleaf (Abutilon theophtasti) and Giant Foxtail (Setaria faberi) Seed Production with Simulated-Roller Herbicide Applications|Weed Sci.34(2): 256-259|1986|10.1017/S0043174500066789
31391|T||Solymosi,P., E. Lehoczki, and G. Laskay|Differences in Herbicide Resistance to Various Taxonomic Populations of Common Lambsquarters (Chenopodium Album) and Late-Flowering Goosefoot (Chenopodium strictum) in Hungary|Weed Sci.34(2): 175-180|1986|10.1017/S0043174500066649
31393|T||Crammer,B., Z. Goldschmidt, R. Ikan, and H. Spiegelstein|Thermal Acid-Catalyzed Rearrangement of trans-Methyl Chrysanthemate to Lavandulyl Derivatives and Their Effect on Lettuce Seedling Growth|J. Agric. Food Chem.33(6): 1148-1152|1985|10.1021/jf00066a031
31394|T||Marion,J.H., E.I. Hackett, and J.W. Burkhardt|Rangebrush Control with Graslan Pellets|USDA For. Serv. Gen. Tech. Rep. INT200:112-125|1986|
31395|T||Whisenant,S.G.|Herbicide Use in Artemisia and Chrysothamnus Communitites: Reducing Damage to Nontarget Species|Gen. Tech. Rep. INT200:115-121|1986|
31396|T||Al Khatib,K., and G.M. Paulsen|Use of Growth Regulators to Control Senescence of Wheat at Different Temperatures During Grain Development|J. Agric. Food Chem.33(5): 866-870|1985|10.1021/jf00065a025
31398|T||Heiligmann,R.B., M.A. Spetich, and J.H. Brown|Strip Vs. Complete Weed Control in Christmas Tree Plantings|Ohio Agric. Res. Dev. Cent.70(5): 77-78|1985|
31401|T||Mohan Rao,R., and M. Satyanarayana|Effect of Growth Regulators on Fruit Characters of Banana|Andhra Agric. J.31(3): 249-250|1984|
31403|T||Sekhon,H.S., and M. Singh|Effect of Growth Regulators and Nitrogen on the Growth, Number and Size of Tubers and Yield of Potatoes|J. Agric. Sci.104(1): 99-106|1985|10.1017/S0021859600043033
31405|T||Bourdot,G.W., and J.H. Butler|Evaluation of Pre-Emergence and Post-Emergence Herbicides in Fodder Beet and Sugar Beet in Canterbury|N. Z. J. Exp. Agric.13(3): 277-283|1985|10.1080/03015521.1985.10426094
31407|T||Samuel,A.M.|Chemical and Cultural Control of Arrhenatherum Elatius Var. Bulbosum|Asp. Appl. Biol.9:273-279|1985|
31408|T||Drinkall,M.J., and M.J. Faulkner|The Activity of El107 Against Problem Weeds in Cereals|Asp. Appl. Biol.9:255-261|1985|
31409|T||Lovegrove,A.W., P.J.W. Lutman, and M.E. Thornton|Investigations into the Control of Cleavers (Galium Aparine) with Severalpre and Post-Emergence Herbicides in Winter Cereals|Asp. Appl. Biol.9:205-211|1985|
31410|T||Eleftherohorinos,I.G., and D.S.H. Drennan|Weed Competition from Galium Aparine L. and Veronica Persica Poir. in Winter Wheat and Their Control by Chlorsulfuron|Asp. Appl. Biol.9:197-203|1985|
31411|T||Sanders,G.E., and K.E. Pallett|The Mode of Action and Selectivity of the Hydroxybenzonitriles in Selected Weed Species|Asp. Appl. Biol.9:167-178|1985|
31412|T||Ismael,F.K., G.W. Cussans, and D.S.H. Drennan|Time of Rainfall and Surfactant Effects on Glyphosate Activity Against Elymus repens Gould|Asp. Appl. Biol.9:159-166|1985|
31413|T||Moss,S.R., and G.W. Cussans|Variability in the Susceptibility of Alopecurus Myosuroides (Black-Grass) to Chlortoluron and Isoproturon|Asp. Appl. Biol.9:91-98|1985|
31414|T||Henly,S.J., A.D. Dodge, and R.J. Stephens|Aspects of the Selectivity of Barley, Bromus Sterilis and Bromus Willdenowii to Isoproturon|Asp. Appl. Biol.9:81-89|1985|
31415|T||Moss,S.R.|The Effect of Drilling Date, Pre-Drilling Cultivations and Herbicides on Alopecurus Myosuroides (Black-Grass) Populations in Winter Cereals|Asp. Appl. Biol.9:31-39|1985|
31416|T||Kinfe,B., and J. Unger|The Effect of Soil-Acting Herbicides Versus Hand-Weeding in Tef (Eragrostis Tef (Zucc.) Trotter) Under Ethiopian Conditions|Beitr. Trop. Landwirtsch. Vetmed.23(3): 295-299|1985|
31417|T||Donald,W.W., and R.A. Hoerauf|Enhanced Germination and Emergence of Dormant Wild Mustard (Sinapsis arvensis) Seed by Two Substituted Phthalimides|Weed Sci.33(6): 894-901|1985|10.1017/S0043174500083569
31418|T||Bryson,C.T., and G.D. Wills|Susceptibility of Bermudagrass (Cynodon dactylon) Biotypes to Several Herbicides|Weed Sci.33(6): 848-852|1985|10.1017/S004317450008348X
31419|T||Thai,K.M., S. Jana, and J.M. Naylor|Variability for Response to Herbicides in Wild Oat (Avena Fatua) Populations|Weed Sci.33(6): 829-835|1985|10.1017/S0043174500083442
31420|T||Duke,S.O., W.H. Kenyon, and R.N. Paul|FMC 57020 Effects on Chloroplast Development in Pitted Morningglory (Ipomoea lacunosa) Cotyledons|Weed Sci.33(6): 786-794|1985|10.1017/S0043174500083351
31422|T||Bovey,R.W., R.E. Meyer, L.F. Bouse, and J.B. Carlton|Seasonal Response of Woody Plants to Tebuthiuron Pellets|Weed Sci.33(4): 551-554|1985|10.1017/S0043174500082825
31423|T||Meyer,R.E., and R.W. Bovey|Response of Honey Mesquite (Prosopis Glandulosa) and Understory Vegetation to Herbicides|Weed Sci.33(4): 537-543|1985|10.1017/S0043174500082801
31424|T||Wilson,H.P., T.E. Hines, R.R. Bellinder, and J.A. Grande|Comparisons of HOE-39866, SC-0224, Paraquat, and Glyphosate in No-Till Corn (Zea mays)|Weed Sci.33(4): 531-536|1985|10.1017/S0043174500082795
31425|T||Farina,M.P.W., P.E.L. Thomas, and P. Channon|Nitrogen, Phosphorus and Potassium Effects on the Incidence of Striga asiatica (L.) Kuntze in Maize|Weed Res. (Multiple Languages)25(6): 443-447|1985|10.1111/j.1365-3180.1985.tb00667.x
31426|T||Miller,P.R., L. Amirouche, T. Stuchbury, and S. Matthews|The Use of Plant Growth Regulators in Micropropagation of Slow-Growing Potato Cultivars|Potato Res.28(4): 479-486|1985|10.1007/BF02357526
31427|T||Campbell,M.H., J.J. Dellow, M.J. Keys, and A.R. Gilmour|Use of Herbicides for Selective Removal of Eragrostis curvula (Schrad.) Nees from a Phalaris aquatica Pasture|Aust. J. Exp. Agric. Anim. Husb.25(3): 665-671|1985|10.1071/EA9850665
31428|T||Pyzik,T.P., and M.D. Orzolek|The Effect of Plant Growth Regulators and Other Compounds in Gel on the Emergence and Growth of Tomato Seedlings in A Cool Potting Medium|J. Hortic. Sci.61(1): 89-94|1986|10.1080/14620316.1986.11515676
31429|T||Mohamed,A.I., and M.O.M. Nour|Weed Competition, Yield and Tuber Size of Potato as Affected by Herbicides Under Sudanese Conditions|Exp. Agric.22(1): 59-65|1986|10.1017/S0014479700014046
31430|T||Rai,J.P.N., and R.S. Tripathi|Population Regulation of Galinsoga Ciliata (Raf.) Blake and G. parviflora Cav.:  Effect of 2,4-D Application at Different Growth Stages and Light Regimes|Weed Res. (Multiple Languages)26(1): 59-67|1986|10.1111/j.1365-3180.1986.tb00677.x
31431|T||Babiker,A.G.T., N.E. Ibrahim, K.H. Abadi, and M.G. Mansi|Effect of Application Time of Herbicidal Efficacy of Oxadiazon on Cotton in the Sudan Gezira|Weed Res. (Multiple Languages)26(1): 51-57|1986|10.1111/j.1365-3180.1986.tb00676.x
31432|T||Ali,A., R.D. McLaren, and V.S. Machado|Chloroplastic Resistance to Triazine Herbicides in Sinapis arvensis L. (Wild Mustard)|Weed Res. (Multiple Languages)26(1): 39-44|1986|10.1111/j.1365-3180.1986.tb00674.x
31433|T||Bell,C.E., and C. Kemp|Grass Control with Postemergence Grass Herbicides and Contact Herbicides|Proc. West. Soc. Weed Sci.38:179-184|1985|
31434|T||Whisenant,S.G.|Effects of Fire and/or Atrazine on Japanese Brome and Western Wheatgrass|Proc. West. Soc. Weed Sci.38:169-176|1985|
31435|T||Watkins,S.D., and L.C. Hearn|Control of Perennial Grasses in Cotton with Fluazifop-P-Butyl|Proc. West. Soc. Weed Sci.38:152-157|1985|
31436|T||Orr,J., D. Colbert, and M. Canevari|Timing of new Pre-Emergence Herbicides for Yellow and Green Foxtail Control in Alfalfa|Proc. West. Soc. Weed Sci.38:141-143|1985|
31437|T||Rademacher,W.H., and K.C. Hamilton|Effects of Prometryn Applied in the Irrigation Water on Furrow Irrigated Cotton and Residue Persistence|Proc. West. Soc. Weed Sci.38:130-133|1985|
31438|T||Pillmoor,J.B.|Influence of Temperature on the Activity of Ac 222,293 Against Avena Fatua L. and Alopecurus Myosuroides Huds|Weed Res. (Multiple Languages)25(6): 433-442|1985|10.1111/j.1365-3180.1985.tb00666.x
31439|T||Wieland,W.F., and R.L. Wample|Root Growth, Water Relations and Mineral Uptake of Young 'Delicious' Apple Trees Treated with Soil-and Stem-Applied Paclobutrazol|Sci. Hortic.26(2):129-137|1985|10.1016/0304-4238(85)90005-6
31441|T||Archbold,D.D., and F.G.,Jr. Dennis|Strawberry Receptacle Growth and Endogenous IAA Content Affected by Growth Regulator Application and Achene Removal|J. Am. Soc. Hortic. Sci.110(6): 816-820|1985|10.21273/JASHS.110.6.816
31442|T||Christians,N.E.|Response of Kentucky Bluegrass to Four Growth Retardants|J. Am. Soc. Hortic. Sci.110(6): 765-769|1985|10.21273/JASHS.110.6.765
31443|T||Driver,T., and L.R. Oliver|Control of Woolly Croton (Croton capitatus) in Soybean (Glycine max)|Weed Sci.33(5): 727-729|1985|10.1017/S0043174500083181
31444|T||Cornelius,A.J., W.F. Meggitt, and D. Penner|Activity of Acetanilide Herbicides on Yellow Nutsedge (Cyperus Esculentus)|Weed Sci.33(5):721-723|1985|10.1017/S0043174500083168
31445|T||Winton,K.T., and J.F. Stritzke|Evaluation of Early-Season and Postharvest Herbicide Treatments on Alfalfa (Medicago Sativa)|Weed Sci.33(5): 708-713|1985|10.1017/S0043174500083132
31446|AT||Diarra,A., R.J.,Jr. Smith, and R.E. Talbert|Red Rice Control in Drill-Seeded Rice (Oryza sativa)|Weed Sci.33(5): 703-707|1985|10.1017/S0043174500083120
31448|T||Hemmat,M., G.W. Zeng, and A.A. Khan|Responses of Intact and Scarified Curly Dock (Rumex Crispus) Seeds to Physical and Chemical Stimuli|Weed Sci.33(5):658-664|1985|10.1017/S0043174500083041
31450|T||Banko,T.J.|Evaluation of Growth Regulator Effects of Embark, Atrinal, Blazer, and Bayleton on Container-Grown Azaleas|J. Environ. Hortic.3(4): 149-152|1985|10.24266/0738-2898-3.4.149
31451|T||Ryan,G.F.|Effect of Growth Regulator and Nitrogen on Height and Branching of Skimmiia Reevesiana|J. Environ. Hortic.3(2): 71-74|1985|10.24266/0738-2898-3.2.71
31452|T||Ramina,A., and P. Tonutti|The Effect of Paclobutrazol on Strawberry Growth and Fruiting|J. Hortic. Sci.60(4):501-506|1985|10.1080/14620316.1985.11515657
31453|T||Copas,L., R.R. Williams, and G.M. Arnold|The Effect of Paclobutrazol on the Growth of Cider Apple Trees, Cv Michelin, When Applied to Orchard Alleyway Swards to Suppress Grass Growth|J. Hortic. Sci.60(4): 455-458|1985|10.1080/14620316.1985.11515651
31454|T||Elfving,D.C.|Comparison of Cytokinin and Apical-Dominance-Inhibiting Growth Regulatorsfor Lateral-Branch Induction in Nursery and Orchard Apple Trees|J. Hortic. Sci.60(4):447-454|1985|10.1080/14620316.1985.11515650
31455|T||Holcomb,E.J.|Effect of Growth Retardants on Ivy Geranium|Hortscience20(4): 771-772|1985|10.21273/HORTSCI.20.4.771
31456|T||Rupp,L.A., and J.L. Anderson|Growth and Fruiting Responses of Young Apple and Tart Cherry Trees to W Eed Control|Hortscience20(4): 727-729|1985|10.21273/HORTSCI.20.4.727
31457|T||Nightingale,A.E., S.E. Cross, and M.T. Longnecker|Dikegulac Alters Growth and Flowering of Kalanchoe|Hortscience20(4): 722-724|1985|10.21273/HORTSCI.20.4.722
31458|T||Heitschmidt,R.K., R.D. Schultz, and C.J. Scifres|Herbaceous Biomass Dynamics and Net Primary Production Following Chemical Control of Honey Mesquite|J. Range Manag.39(1): 67-71|1986|10.2307/3899690
31459|T||Atkinson,D., and S. Harrison|Some Effects of Paclobutrazol and Simazine on the Early Growth of Strawberry Plants:  Preliminary Results|Asp. Appl. Biol.8:195-197|1984|
31460|T||Clay,D.V., and L. Andrews|The Tolerance of Strawberries to Clopyralid: Effect of Crop Age, Herbicide Dose and Application Date|Asp. Appl. Biol.8:151-158|1984|
31461|T||Jones,B.J.F., and A.E. Slater|Trials with Sethoxydim in Strawberries and Raspberries|Asp. Appl. Biol.8:141-150|1984|
31462|T||Mathews,P.R., and H.C. Wright|Weed Control in Strawberries with Winter Application of Napropamide|Asp. Appl. Biol.8:123-131|1984|
31463|T||Cleave,K.|The Evaluation of Oxyfluorfen on Fruit Crops in S.E. England|Asp. Appl. Biol.8:113-122|1984|
31464|T||Clay,D.V.|Trials with Herbicides in Young Plum Trees in Kent and the West Midlands|Asp. Appl. Biol.8:101-112|1984|
31465|T||Crisp,C.M., and D. Atkinson|The Effect of a Number of Graminicides on Young Apple and Plum Trees|Asp. Appl. Biol.8:69-74|1984|
31466|T||Clay,D.V.|The Safety and Efficacy of New Herbicide Treatments for Fruit Crops|Asp. Appl. Biol.8:59-68|1984|
31467|T||Bailey,J.A., and D. Hoogland|The Response of Epilobium Species to A Range of Soil and Foliar-Acting Herbicides|Asp. Appl. Biol.8:43-52|1984|
31468|T||Porter,W.C.|Evaluating Herbicides in Transplanted Cabbage|La. Agric. Exp. Stn. Bull.29(2): 22-24|1986|
31469|T||Pombo,G., M.D. Orzolek, L.D. Tukey, and T.P. Pyzik|The Effect of Paclobutrazol, Daminozide, Glyphosate and 2,4-D in Gel on the Emergence and Growth of Germinated Tomato Seeds|J. Hortic. Sci.60(3): 353-357|1985|10.1080/14620316.1985.11515639
31470|T||Hansen,E.A., and D.A. Netzer|Weed Control Using Herbicides in Short-Rotation Intensively Cultured Poplar Plantations|United States Deparment of Agriculture, Research Paper NC-260:1-6|1985|
31471|T||Askew,M.F.|The Effects of Several Post-Emergence Herbicides on the Seed and Oil Yield of Winter Oilseed Rape|Asp. Appl. Biol.6:251-256|1984|
31472|T||Ward,J.T., and M.F. Askew|The Control of Annual Grass and Broad-Leaved Weeds in Winter Oilseed Rap e|Asp. Appl. Biol.6:239-250|1984|
31473|T||Wilson,D.|Development of Herbicide Programmes Using Tebutam for Weed Control in Winter Oilseed Rape|Asp. Appl. Biol.6:231-237|1984|
31474|T||Hewson,R.T., and I.A. Black|Weed Control Programmes for Winter Oilseed Rape Based on Tca and Fenthiaprop-Ethyl|Asp. Appl. Biol.6:199-208|1984|
31475|T||Rea,B.L., A.J. Mayes, and J. Marshall|FBC 32197 for Annual and Perennial Grass Weed Control in Oilseed Rape|Asp. Appl. Biol.6:191-198|1984|
31476|T||Regnault,Y.|The Control of Grass-Weeds in Oilseed Rape in France|Asp. Appl. Biol.6:185-190|1984|
31477|T||Dawkins,T.C.K., and J.A. Almond|The Effect of a Novel Plant Growth Regulator (EL 500) on the Growth, Development and Yield of Winter Oilseed Rape (Brassica napus L.) in the Absence of Lodging|Asp. Appl. Biol.6:137-149|1984|
31478|T||Child,R.D.|Effects of Growth Retardants and Ethephod on Growth and Yield Formation in Oilseed Rape|Asp. Appl. Biol.6:127-136|1984|
31479|T||Meakin,A.R., and C. Orpin|Oxyfluorfen, Further Studies in Nursery Weed Control and Species Safety|Asp. Appl. Biol.5:397-407|1984|
31480|T||Delaney,H., and D.M. Moon|Evaluation of Herbicides for the Control of Simazine - Resistant Senecio vulgaris L.|Asp. Appl. Biol.5:385-390|1984|
31481|T||Lowday,J.E.|The Effects of Cutting and Asulam on the Frond and Rhizome Characteristics of Bracken (Pteridium aquilinum (L.) Kuhn)|Asp. Appl. Biol.6:275-281|1984|
31482|T||Tabbush,P.M.|Experiments on the Chemical Control of Rhododendron Ponticum l|Asp. Appl. Biol.6:243-253|1984|
31483|T||Tabbush,P.M.|Experiments on Heather Control|Asp. Appl. Biol.6:223-230|1984|
31484|T||Wild,C.J.C.|Control of Couch Grass in Ornamental Plantings with Alloxydim-Sodium|Asp. Appl. Biol.6:89-96|1984|
31485|T||Atkin,J.C.|The Use of Mefluidide to Control Grass Growth in Amenity Areas|Asp. Appl. Biol.6:45-53|1984|
31486|T||Boorman,L.A., T.W. Parr, and R.H. Marrs|The Effect of Growth Retardants on Grass Swards|Asp. Appl. Biol.6:19-28|1984|
31487|T||Maughan,G.L., D.A. Cooke, and A. Gnanasakthy|The Effects of Soil-Applied Granular Pesticides on the Establishment and Yield of Sugarbeet in Commercial Fields|Crop Prot.3(4): 439-450|1984|10.1016/0261-2194(84)90026-7
31488|T||Weidman,R.W., and E.J. Stang|Effects of Gibberellins (GA4+7), 6-Benzyladenine (6-BA) and Promalin (GA4+7 + 6-BA) Plant Growth Regulators on Plant Growth, Branch Crown and Flower Development in 'Scott' and 'Raritan' Strawberries|Adv. Strawberry Prod.2:15-17|1983|
31489|T||Bal,J.S., S.N. Singh, J.S. Randhawa, and J.S. Jawanda|Effect of Growth Regulators on Fruit Drop, Size and Quality of Ber (Zizyphus mauritiana Lamk.)|Indian J. Hortic.41(3/4): 182-185|1984|
31490|T||Witzenberger,A., J.H. Williams, and F. Lenz|Yield, Components of Yield and Quality Responses of Groundnut Cultivars (Arachis Hypogaea L.) As Influenced by Photoperiod and A Growth Regulator|Field Crops Res.12(4): 347-361|1985|10.1016/0378-4290(85)90080-2
31491|T||McKercher,R.B., R. Ashford, W.B. Reed, and G.W. Pastushok|Incorporation of Triallate Granules for Wild Oat Control Under dry Conditions|Soil Tillage Res.6(2): 139-147|1985|10.1016/0167-1987(85)90012-1
31493|T||Leela,D.|Weed Control by Herbicides in Cole Crops and Cucurbitaceous Crops|Trop. Pest Manag.31(3):219-225|1985|10.1080/09670878509370987
31494|T||Rahman,M.S., and G.N. Bhattacharya|Response of a Vegetatively Propagated Plant, Colocasia Antiquorum to Pesticide Treatment|Geobios11(6): 284-286|1984|
31495|T||Campbell,T.E.|Herbicide Sprays Tested for Loblolly Pine Tolerance|Proc. South. Weed Sci. Soc.38:176-180|1985|
31496|T||Wood,M.L., and A.F. Wiese|Johnsongrass Control with Postemergence Herbicides|Proc. South. Weed Sci. Soc.38:42-43|1985|
31497|T||Hawf,L.R., and K.R.,Jr. Frost|Weed Control in Peanuts with Acetochlor|Proc. South. Weed Sci. Soc.38:20-27|1985|
31498|T||Mislevy,P., and F.G. Martin|Smutgrass Control and Subsequent Forage Production with Fall Application of Dalapon|Annu. Meet. Fla. State Hortic. Soc.44:203-205|1985|
31499|T||Taylor,S.G., D.D. Baltensperger, K.M. Perry, and D.H. Teem|Evaluation of Bentazon and Eight Other Postemergence Herbicides on Alyceclover (Alysicarpus vaginalis (L.) DC.)|Annu. Meet. Fla. State Hortic. Soc.44:39-43|1985|
31500|T||Sharma,R.K., Vidhu, and Y.S. Murty|Effect of Growth Substances on Yield and Seed Quality of Brassica Campestris Var. Varuna|Comp. Physiol. Ecol.10(3): 154-160|1985|
31502|T||Nunami,K.I., M. Suzuki, K. Hayashi, K. Matsumoto, N. Yoneda, and K. Takiguchi|Synthesis and Herbicidal Activities of alpha-Isocyanocycloal Kylideneacetamides|Agric. Biol. Chem.49(10): 3023-3028|1985|
31503|T||Miller,J.H.|Testing Herbicides for Kudzu Eradication on a Piedmont Site|South. J. Appl. For.9(2): 128-132|1985|10.1093/sjaf/9.2.128
31504|T||Campbell,T.E.|Hardwood Topkill by Four Herbicides Injected at Wide Spacings|South. J. Appl. For.9(2): 99-102|1985|10.1093/sjaf/9.2.99
31505|T||Pillmoor,J.B., and J.C. Caseley|The Influence of Growth Stage and Foliage Or Soil Application on the Activity of Ac 222, 293 Against Alopecurus Myosuroides and Avena Fatua|Ann. Appl. Biol.105(3): 517-527|1984|10.1111/j.1744-7348.1984.tb03078.x
31506|T||Carpenter,J.L., and H.J. Hopen|Wild and Cultivated Proso Millet Responses to Plant Growth Regulators|Hortscience20(5): 942-944|1985|10.21273/HORTSCI.20.5.942
31507|T||Marquard,R.D.|Chemical Growth Regulation of Pecan Seedlings|Hortscience20(5): 919-921|1985|10.21273/HORTSCI.20.5.919
31508|T||Davis,T.D., N. Sankhla, R.H. Walser, and A. Upadhyaya|Promotion of Adventitious Root Formation on Cuttings by Paclobutrazol|Hortscience20(5): 883-884|1985|10.21273/HORTSCI.20.5.883
31509|T||Venn,N.R.|Control of Annual Grasses in Pasture and Legume Crops with Fluazifop-Butyl|Aust. J. Exp. Agric. Anim. Husb.24(127): 612-616|1984|10.1071/EA9840612
31510|T||Singh,A.R., S.L. Pankaj, and G.N. Singh|Effect of Growth Regulators on the Growth, Yield and Quality of Onion|Punjab Hortic. J.23(1/2): 100-104|1983|
31512|T||Upadhyaya,A., T.D. Davis, D. Sankhla, N. Sankhla, and B.N. Smith|Effect of Paclobutrazol on the Activities of Proteolytic Enzymes and Rnase in Soybean Leaves During Senescence|Comp. Physiol. Ecol.10(2): 49-54|1985|
31513|T||Oswald,A.K.|Effects of Three Herbicides Used to Control Volunteer Ryegrass on Tillering and Seed Yield of Two Second Year Perennial Ryegrass Crops|Weed Res. (Multiple Languages)25(5): 373-379|1985|10.1111/j.1365-3180.1985.tb00658.x
31514|T||Khajuria,H.N., and J.C. Bakhshi|Responsiveness of Perlette Grapes (Vitis Vinifera L.) to the Application of Ccc, Nmc, Tiba, Coconut Milk and Girdling Treatments|Indian Agric.28(4): 255-260|1984|
31515|T||Mukhopadhyay,S.K., and G.C. De|Granular Herbicides for Weed Control in Transplanted Rice|Indian Agric.28(3): 153-159|1984|
31516|T||Coats,G.E., J.H.,Jr. Jordan, and J.T.,Jr. McGregor|Field Evaluation of Post-Emergence Herbicides for Virginia Buttonweed Control in Turf|Miss. Agric. For. Exp. Stn. Tech. Bull.937:1-6|1985|
31517|T||Kurtz,M.E., and M.A. Brown|Postemergence Herbicides and Trifluralin for Control of Rhizome Johnsongrass in Cotton|Miss. Agric. For. Exp. Stn. Tech. Bull.934:1-6|1985|
31518|T||Barrentine,W.L., M.E. Kurtz, and J.E. Street|Red Rice Control with Postemergence Herbicides|Miss. Agric. For. Exp. Stn. Tech. Bull.938:1-5|1985|
31519|T||Venkateswarlu,M.S., R.C. Rama Rao, and G.H.S. Reddi|Effect of Growth Regulators on Yield and Yield Attributes of Tmv 2 Groundnut Under Irrigated Conditions|Madras Agric. J.71(4): 226-231|1984|
31520|T||Orr,J.P., W.M. Canevari, D.R. Colbert, R.N. Vargas, R.W. Wallace, and R.C. Henning|Yellow and Green Foxtail Control in Alfalfa|Calif. Agric.39(11/12): 26-28|1985|
31521|T||McKercher,R.B., R. Ashford, and G.W. Pastushok|Triallate Granules for Wild Oat Control in dry Soil|J. Environ. Sci.20(4): 419-426|1985|
31522|T||Dainello,F.J., and R.R. Heineman|Evaluation of Herbicides for Weed Control in Spinach|Tex. Agric. Exp. Stn. Prog. Rep.4311:1-5|1985|
31528|T||Coffman,C.B., J.R. Frank, and W.A. Gentner|Sethoxydim (Poast) and Oxyfluorfen (Goal) Efficacy and Tolerance by Landscape Plants|J. Environ. Hortic.2(4): 120-122|1984|10.24266/0738-2898-2.4.120
31529|T||Rice,R.P.J., G. Lewis, and K. Harrell|Potential of Fusilade, Poast and CGA 82725 for Control of Weedy Grasses in Woody Nursery Crops and Ground Covers|J. Environ. Hortic.3(1): 28-32|1985|10.24266/0738-2898-3.1.28
31530|T||Ryan,G.F.|Branching of Photinia x Fraseri in Response to Growth Regulators and Fertilizer|J. Environ. Hortic.3(1): 15-18|1985|10.24266/0738-2898-3.1.15
31531|T||Erez,A.|Defoliation of Deciduous Fruit Trees with Magnesium Chlorate and Cyanamide|Hortscience20(3): 452-453|1985|10.21273/HORTSCI.20.3.452
31532|T||Schwartz,M.A., R.N. Payne, and G. Sites|Residual Effects of Chlormequat on Garden Performance in Sun and Shade of Seed and Cutting-Prograted Cultivars of Geranium|Hortscience20(3, Sect.1): 368-370|1985|10.21273/HORTSCI.20.3.368
31533|T||Subbian,P., and A. Chamy|Effect of Growth Regulators on Pod Setting of Greengram (Co.3) and Blackgram (Co.4)|Madras Agric. J.71(2): 129-131|1984|
31534|T||Subbian,P.|Effect of 2,4-D Compounds on Sorghum|Madras Agric. J.71(2): 93-96|1984|
31535|T||Thomas,K.U., and P.M. Mehta|Effect of Growth Regulators on Seedling Growth and Amylase Activity in Phaseolus Aureus L. Cv. G-2|Comp. Physiol. Ecol.10(1): 33-38|1985|
31537|T||Hertz,L.B., and D.K. Wildung|Weed Control in Northcountry Blueberry, with Preemergence Herbicides|Fruit Var. J.39(4): 34-37|1985|
31538|T||Arron,G.P.|Effect of Trunk Injection of Three Growth Regulators on Sprout Growth in Silver Maple|J. Arboric.11(10): 301-306|1985|
31539|T||Maksoud,M.A., and M.T. Fayed|Solarization, Mechanical and Chemical Weed Control in Garlic|Egypt. J. Hortic.11(1): 85-92|1984|
31540|T||Kirkham,M.B.|Effect of Ethephon on Growth and Water Status of Striga-Susceptible Genotypes of Pearl Millet|Field Crops Res.11(2-3): 219-231|1985|10.1016/0378-4290(85)90104-2
31546|T||Christie,M.S., and M.J. Cornwell|DPX-T6376 - a New Herbicide for Broadleaf Weed Control in Cereals|Proc. N. Z. Weed Pest Control Conf.37:272-273|1984|10.30843/nzpp.1984.37.9512
31547|T||Mitchel,W.J.P.|The Tolerance of Some Barley Cultivars to Herbicides Used for Wild Oat Control|Proc. N. Z. Weed Pest Control Conf.37:268-271|1984|10.30843/nzpp.1984.37.9511
31548|T||Cox,T.I., and R.M. Kerr|Herbicides for Tamarillos|Proc. N. Z. Weed Pest Control Conf.37:216-219|1984|10.30843/nzpp.1984.37.9565
31549|T||Gilchrist,A.N.|Willow Tolerance to Oxadiazon|Proc. N. Z. Weed Pest Control Conf.37:213-215|1984|10.30843/nzpp.1984.37.9564
31550|T||Hurrell,G.A., and G.W. Bourdot|The Tolerance of Tree Lucerne to Some Soil-Applied Herbicide|Proc. N. Z. Weed Pest Control Conf.37:210-212|1984|10.30843/nzpp.1984.37.9563
31551|T||James,T.K., and J. Mortimer|Control of Privet|Proc. N. Z. Weed Pest Control Conf.37:206-209|1984|10.30843/nzpp.1984.37.9528
31552|T||Park,O.L., and P.M.S. Lane|Blackberry Control with Glyphosate|Proc. N. Z. Plant Prot. Conf.37:200-202|1984|
31553|T||Cornwell,M.J., and M.S. Christie|Preliminary Results with DPX-T6376 for Control of Gorse and Blackberry|Proc. N. Z. Weed Pest Control Conf.37:197-199|1984|10.30843/nzpp.1984.37.9525
31554|T||Lane,P.M.S., and O.L. Park|Gorse Control with Glyphosate|Proc. N. Z. Weed Pest Control Conf.37:194-196|1984|10.30843/nzpp.1984.37.9524
31555|T||Scheffer,J.J.C.|Evaluation of Five Pre-Emergence Herbicides for Salsify|Proc. N. Z. Weed Pest Control Conf.37:179-182|1984|10.30843/nzpp.1984.37.9557
31556|T||Rahman,A., and T.K. James|Selective Control of Weeds in Broad Beans|Proc. N. Z. Weed Pest Control Conf.37:172-174|1984|10.30843/nzpp.1984.37.9555
31557|T||Bourdot,G.W., and G.A. Hurrell|A Screening of Herbicides for Yarrow Seedling Control|Proc. N. Z. Weed Pest Control Conf.37:167-171|1984|10.30843/nzpp.1984.37.9554
31558|T||Rahman,A., and P. Sanders|Selective Control of Californian Thistle in Asparagus|Proc. N. Z. Weed Pest Control Conf.37:146-150|1984|10.30843/nzpp.1984.37.9549
31559|T||Thompson,A., and A. Saunders|A Comparison of 2,4-D and MCPA, Alone and in Combination, for the Control of Ragwort|Proc. N. Z. Weed Pest Control Conf.37:33-36|1984|10.30843/nzpp.1984.37.9509
31560|T||Meeklah,F.A., and R.B. Mitchell|Evaluation of Herbicides for Control of California Thistle|Proc. N. Z. Weed Pest Control Conf.37:20-23|1984|10.30843/nzpp.1984.37.9506
31561|T||Popay,A.I., D.K. Edmonds, L.A. Lyttle, and H.T. Phung|Timing of MCPA Applications for Control of Giant Buttercup|Proc. N. Z. Weed Pest Control Conf.37:17-19|1984|10.30843/nzpp.1984.37.9505
31562|T||Weaver,J.B.J., and H.L. Bhardwaj|Growth Regulating Effect of Chlordimeform in Cotton|Proc. Beltwide Cotton Conf.1985:288-293|1985|
31563|T||Baker,R.S.|Nutsedge Control in Cotton with Scepter|Proc. Beltwide Cotton Conf.1985:204-205|1985|
31564|T||Gausman,H.W., F.R. Rittig, and P.E. Schott|Effect of Onium-Type Bioregulators on Cotton and Other Plant Species|Proc. Beltwide Cotton Conf.1985:50-53|1985|
31565|T||Garcia,O., and N.R. Malm|Effect of Ethephon and Pix Growth Regulators on Yield and Maturity of Upland Cotton|Proc. Beltwide Cotton Conf.1985:38-40|1985|
31566|T||Stanger,C.E.|Sugar Beet Preplant Soil Incorporated and Non-Incorporated Pre-Emergence Herbicide Trials|Oreg. Agric. Exp. Stn. Spec. Rep.748:152-154|1985|
31567|T||Stanger,C.E.|Sonalan Applied to Seedling Sugar Beets for Layby Weed Control|Oreg. Agric. Exp. Stn. Spec. Rep.748:144-146|1985|
31568|T||Stanger,C.E.|An Evaluation of Foliar Active Grass Herbicides for Control of Several Species of Grasses in Seedling Sugar Beets|Oreg. Agric. Exp. Stn. Spec. Rep.748:134-137|1985|
31569|T||Stanger,C.E.|An Evaluation of Dupont'S Herbicides for Control of Annual Broadleaf Weeds in Winter Wheat|Oreg. Agric. Exp. Stn. Spec. Rep.748:130-133|1985|
31570|T||Stanger,C.E.|Pittsburgh Paint and Glass Herbicide and Growth Regulator Trial in Furrow Irrigated Potatoes|Oreg. Agric. Exp. Stn. Spec. Rep.748:84-89|1985|
31571|T||Stanger,C.E.|Incorporating Herbicides on Prebedded Potato Land for Weed Control in Furrow Irrigated Potatoes|Oreg. Agric. Exp. Stn. Spec. Rep.748:77-80|1985|
31572|T||Stanger,C.E.|An Evaluation of Post-Emergence Applied Herbicides for Control of Annual Weeds in Furrow Irrigated Russet Burbank Potatoes|Oreg. Agric. Exp. Stn. Spec. Rep.748:73-76|1985|
31573|T||Stanger,C.E.|Onion Preplant Soil Incorporated and Non-Incorporated Pre-Emergence Herbicide Trials|Oreg. Agric. Exp. Stn. Spec. Rep.748:64-66|1985|
31574|T||Stanger,C.E.|An Evaluation of Seedling Onion Tolerance to Different Formulations of Bromoxynil|Oreg. Agric. Exp. Stn. Spec. Rep.748:59-60|1985|
31575|T||Stanger,C.E.|An Evaluation of Grass Herbicides for Selective Weed Control in Sweet Spanish Onions|Oreg. Agric. Exp. Stn. Spec. Rep.748:54-58|1985|
31576|T||Stanger,C.E.|An Evaluation of Herbicide Treatments for Weed Control and Crop Tolerancein Peppermint and Spearmint Grown Under Furrow Irrigation|Oreg. Agric. Exp. Stn. Spec. Rep.748:36-50|1985|
31577|T||Stanger,C.E.|Soil Acitive Herbicides Evaluated for Weed Control in Sweet Corn|Oreg. Agric. Exp. Stn. Spec. Rep.748:32-35|1985|
31578|T||Stanger,C.E.|Postemergence Herbicides for Weed Control in Field Corn|Oreg. Agric. Exp. Stn. Spec. Rep.748:29-31|1985|
31579|T||Stanger,C.E.|Postemergence Application Herbicides for Broadleaf Weed Control in Seedling Alfalfa|Oreg. Agric. Exp. Stn. Spec. Rep.748:17-21|1985|
31581|T||South,D.B., and J.G. Mexal|Effect of Bifenox and Oxyfluorfen on Emergence and Mortality of Loblolly Seedlings Under Growth Chamber Conditions|USDA Forest Service Technical Report, Southeastern Forest Experiment Station24:418-426|1983|
31582|T||Boyer,W.D.|Growth of Young Longleaf Pine As Affected by Biennial Burns Plus Chemicalor Mechanical Treatments for Competition Control|Usfs Gr Se24:62-65|1983|
31599|T||Petkov,M.|Some Herbicides for Weed Control in Onion Crops Grown from Sets|Gradinar. Lozar. Nauka (Multiple Languages)20(7):68-75|1983|
31601|T||Chivinge,O.A.|A Herbicide Screening Trial Against Purple Nutsedge (Cyperus rotundus L.) Under Zimbabwean Conditions|Zimb. J. Agric. Res.82(1): 17-20|1985|
31602|T||Herbel,C.H., H.L. Morton, and R.P. Gibbens|Controlling Shrubs in the Arid Southwest with Tebuthiuron|J. Range Manag.38(5): 391-394|1985|10.2307/3899705
31603|T||Bourdot,G.W., and J.H.B. Butler|Control of Achillea millefolium L. (Yarrow) by Rotary Cultivation and Glyphosate|Weed Res. (Multiple Languages)25(4): 251-258|1985|10.1111/j.1365-3180.1985.tb00642.x
31604|T||Dernoeden,P.H., and J.D. Fry|Crabgrass Control in Turf with Fenoxaprop-Ethyl, MSMA, Tridiphane and UC 77892|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:282-287|1985|
31605|T||Jagschitz,J.A.|Crabgrass Control in Turfgrass with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:274-278|1985|
31606|T||Pennucci,A., and J.A. Jagschitz|The Effect of Growth Retardants on Four Lawn Grasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:260-265|1985|
31607|T||Bennett,W., and H.P. Wood|Weed Control in Nursery and Christmas Tree Transplant Beds|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:254-255|1985|
31608|T||Ahrens,J.F.|Evaluation of Sulfometuron Methyl for Weed Control in Christmas Tree Plantings|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:249-253|1985|
31609|T||Ahrens,J.F., and M. Cubanski|Evaluation of Postemergence Grass Herbicides in Conifer Seedbeds and Christmas Trees|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:243-246|1985|
31610|T||Haramaki,C., and L.J. Kuhns|Selected Grass Herbicides for Woody Ornamental Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:239-242|1985|
31611|T||Haramaki,C., and L.J. Kuhns|Tolerance of Bedding Plants to Selected Grass Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:231-234|1985|
31612|T||Dunst,R.M., and R.M. Pool|Preemergence Annual Weed Control in A New York Vineyard|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:211-213|1985|
31613|T||Majek,B.A.|Peach Response to Several Postemergence Translocated Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:191-194|1985|
31614|T||Beste,C.E.|Herbicides for Transplanted Bell Peppers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:188-190|1985|
31615|T||Morrow,L.S., and H.J. Murphy|Effect of R40244 and Sc5676 on Pre-Emergence Weed Control in Katahdin Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:173-175|1985|
31616|T||Kupatt,C.C., R.D. Ilnicki, and D.B. Vitolo|New Bleaching Herbicides for Weed Control in White Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:166-169|1985|
31617|T||Morrow,L.S., and H.J. Murphy|Effect of Rate and Time of Clopropoxydim Applications on Grass Control Inwhite Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:163-165|1985|
31618|T||Hoelper,A.L., and D.E. Yarborough|Hexazinone and Terbacil to Suppress Weeds in a Commercial Lowbush Blueberry Field|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:151-156|1985|
31619|T||Marion,G.R., R.D. Ilnicki, C. Kupatt, and D.B. Vitolo|Weed Control in Transplanted Cole Crops with Some new Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:147-150|1985|
31620|T||Kee,W.E.|Herbicide Evaluation for Spring and Fall Cole Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:142-146|1985|
31621|T||Teasdale,J.R.|Delayed Application of Metolachlor for Pepper, Tomato, and Cucumber|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:131-133|1985|
31622|T||Beste,C.E.|Glyphosate and SC 0224 Enhancement with Additives on Bermudagrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:118-121|1985|
31623|T||Morrow,L.S.|Effect of Rate of Glyphosate with and Without Frigate Surfactant on Weed Control in Orbit Spring Oats|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:112-113|1985|
31624|T||Devlin,R.M., I.I. Zbiec, and S.J. Karozmarozyk|Influence of Dowco-453 and Sc-1084 on Germination and Growth|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:85-90|1985|
31625|T||Kluchinski,D., and R.D. Ilnicki|Control of Annual Grasses in Soybeans with Postemergence Herbicides and Djuvants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:20-24|1985|
31626|T||Herrick,R.M., and R.D. Ilnicki|Timing of Application of Ac 263,499 for Spurred Anoda (Anoda Cristata L. Schlecht.) Control in Soybeans (Glycine max L. Merr.)|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:15-18|1985|
31627|T||Singh,B.P., and H.C. Sharma|Effect of 2,4-D and Hand Weeding on Weed Population and Growth and Yield of Wheat (HD 2009)|Haryana Agric. Univ. J. Res.14(3): 346-349|1984|
31629|T||Harada,T., and T. Yakuwa|Studies on the Morphogenesis of Asparagus X.  Influence of Light and Growth Regulators on Callus and Organ Formation in the In Vitro Culture of Segments from Seedling Shoots|J. Fac. Agric. Hokkaido Univ.61(4): 457-467|1984|
31630|T||Webster,A.D., and L. Andrews|Fruit Thinning Victoria Plums (Prunus domestica L.): Preliminary Studies with Paclobutrazol|J. Hortic. Sci.60(2):193-199|1985|10.1080/14620316.1985.11515618
31632|T||McCarty,L.B., J.M. DiPaola, W.M. Lewis, and W.B. Gilbert|Tall Fescue Response to Plant Growth Retardants and Fertilizer Sources|Agron. J.77(3): 476-480|1985|10.2134/agronj1985.00021962007700030026x
31633|T||Unrath,C.R., and A.D. Shaltout|Branch Induction on Young 'Delicious' Apple Trees by Application of Growth Regulators|Hortscience20(2): 230-231|1985|10.21273/HORTSCI.20.2.230
31635|T||Hurst,H.R.|Postemergence Herbicide Treatments for Control of Johnsongrass in Soybeans, with and Without Preplant Soil-Incorporated and Preemergence Herbicides|Miss. Agric. For. Exp. Stn. (MAFES)929:1-14|1984|
31640|T||Mikulka,J.|Side Effects of Paclobutrazol on Weeds|Agrochemia (Bratisl.) (Multiple Languages)25(6): 178-180|1985|
31642|T||Patel,M.M., and H.M. Mehta|Effect of Growth Regulators on Mustard (Brassica Juncea (L.) Czern and Coss.) Variety Varuna Under Stress and Non-Stress Conditions of Soil Moisture|Ann. Arid Zone23(3): 249-254|1984|
31644|T||Shukla,P., S.S. Chauhan, and R.K.S. Rathore|Comparative Efficacy of Four Weedicides on Some Rabi-Crop Weeds of Agra|Balwant Vidyapeeth J. Agric. Sci. Res.23(1/2): 99-101|1981|
31645|T||Ritter,R.L., T.C. Harris, and W.J. Varano|Influence of Herbicides and Tillage on the Control of Triazine-Resistant Smooth Pigweed (Amaranthus hybridus) in Corn (Zea mays) and Soybean (Glycine max)|Weed Sci.33(3): 400-404|1985|10.1017/S0043174500082503
31646|T||Johnson,B.J., and R.E. Burns|Effect of Soil pH, Fertility, and Herbicides on Weed Control and Quality of Bermudagrass (Cynodon dactylon) Turf|Weed Sci.33(3): 366-370|1985|10.1017/S0043174500082436
31650|T||Johansson,T.|Herbicide Injections into Stumps of Aspen and Birch to Prevent Regrowth|Weed Res. (Multiple Languages)25(1): 39-45|1985|10.1111/j.1365-3180.1985.tb00615.x
31651|T||Blair,A.M.|Influence of Soil Moisture on Sioproturon Activity Against Alopecurus myosuroides|Weed Res. (Multiple Languages)25(2): 141-149|1985|10.1111/j.1365-3180.1985.tb00629.x
31652|T||Mesa-Garcia,J., and L. Garcia-Torres|Orobance crenata (Forsk) Control in Vicia faba (L.) with Glyphosate as Affected by Herbicide Rates and Parasite Growth Stages|Weed Res. (Multiple Languages)25(2): 129-134|1985|10.1111/j.1365-3180.1985.tb00627.x
31653|T||Au,P.N.|Pre-Emergent Herbicide Trial in White Spruce at Pine Ridge Forest Nursery|Usfs Gr Int185:77-79|1985|
31654|T||Minogue,P.J., B.R. Zutter, and D.H. Gjerstad|Comparison of Liquid and Solid Hexazinone Formulations for Pine Release|Proceedings Third Biennial Southern Silvicultural Research Conference. Atlanta, GA54:292-299|1985|
31655|T||Reinertsen,M.R., V.L. Cockran, and L.A. Morrow|Response of Spring Wheat to N Fertilizer Placement, Row Spacing, and Wildoat Herbicides in No-Till System|Agron. J.76(5): 753-756|1984|10.2134/agronj1984.00021962007600050011x
31656|T||Anderson,R.L., and N.E. Humburg|Lexone/Sencor and Glean Phytotoxicity to Winter Wheat|Colo. State Univ. Exp. Stn. Tech. Bull.151:1-5|1984|
31657|T||Larocque,D.J., and N.E. Christians|Selective Control of Tall Fescue in Kentucky Bluegrass with Chlorsulfuron|Agron. J.77(1): 86-89|1985|10.2134/agronj1985.00021962007700010020x
31658|T||Bingham,S.W., and J.R. Hall III|Effects of Herbicides on Bermuda Grass (Cynodon spp.) Sprig Establishment|Weed Sci.33(2): 253-257|1985|10.1017/S0043174500082205
31659|T||Leroux,G.D., and R.G. Harvey|Herbicides for Sod-Seeding Establishment of Alfalfa (Medicago Sativa) in Quackgrass (Agropyron Repens) - Infested Alfalfa Swards|Weed Sci.33(2): 222-228|1985|10.1017/S004317450008214X
31660|T||Widell,K.O., C. Sundqvist, and H.I. Virgin|Characterization of SAN 9789-Stimulated Lettuce (Lactuca sativa) Seed Germination|Weed Sci.33(2): 160-164|1985|10.1017/S0043174500082023
31662|T||Nielson,G.H., J. Yorston, W. Vanlierop, and P.B. Hoyt|Relationships Between Leaf and Soil Boron and Boron Toxicity of Peaches in British Columbia|Can. J. Plant Sci.65(1): 213-217|1985|
31671|T||Clary,W.P., S. Goodrich, and B.M. Smith|Response of Gambel Oak to Tebuthiuron in Central Utah|Research Note INT-351, Intermountain Research Station, Ogden, UT:4 p.|1985|
31672|T||Yadav,S.K., V.M. Bhan, and S.P. Singh|Relative Efficacy of Herbicides for Weed Control in Mung Bean|Beitr. Trop. Landwirtsch. Vetmed.22(2): 145-148|1984|
31673|T||Street,J.E., and T.C. Miller|MCPA -  An Alternative to 2,4,5-T for Midseason Weed Control in Rice|MAFES Res. Highl.9(4): 3 p.|1984|
31674|T||Street,J.E., and E.P.,Jr. Richard|Hemp Sesbania Control and Rice Tolerance to Acifluorefen|Miss. Agric. For. Exp. Stn. (MAFES)47(6): 4-6|1984|
31676|T||Reddy,C.S., and C.B. Shah|Effect of Growth Regulators on Spanish Bunch and Virginia Runner Groundnut (Arachis hypogaea L.) Cultivars|Indian J. Agron.29(4): 516-521|1984|
31677|T||Ashok,E.G., M. Chandrappa, V.T. Reddy, and B.K. Linge Gowda|Effect of Cycocel on Growth and Yield of Finger Millet|Indian J. Agron.29(4): 421-423|1984|
31678|T||Kaushik,S.K., and R.C. Gautam|Weed Control Studies in Pearlmillet Under Rainfed Condition|Indian J. Agron.29(1): 31-36|1984|
31679|T||Shafshak,S.E., E.S.H. Shokr, K.I. Ef-Sayed, S.A. Seif, and S. Allam|Effects of Some Growth Regulators and Microelements on Growth, Yield, and Its Components of Maize (Zea mays L.)|Ann. Agric. Sci.21(1): 335-350|1984|
31680|T||Ebaid,M.A., L.K. Mohamed, and M.M. El Sayed|Effect of Spraying Cycocel and Gibberellic Acid of Flowering, Fruiting and Yield of Cotton Variety Giza 75|Ann. Agric. Sci.21(1): 263-271|1984|
31681|T||Bowes,G.G.|Use of Propyzamide to Control Foxtail Barley in Russian Wild Ryegrass|Can. J. Plant Sci.64(3): 725-730|1984|10.4141/cjps84-099
31682|T||Baz,A.G.I.O., M.S.A. Safwat, and A.R. Abdallah|Some Physiological Studies on Soybean Plants 1. Effect of Some Growth Regulators on Growth Yield, Nodulation, and Chemical Composition|Ann. Agric. Sci.21(2): 479-494|1984|
31683|T||Taylor,R.W., and G.A. Meche|Yield and Persistence of Alfalfa and Herbicide Evaluations on Establishing Alfalfa in Southwest Louisiana|La. Agric. Exp. Stn. Bull.76:376-381|1984|
31684|T||Baker,J.B., R.T. Dunand, and J.W. Shrefler|Chemical Control of Red Rice in Rice|La. Agric. Exp. Stn. Bull.76:172-185|1984|
31685|T||Lee,H.J., and K.C. Ko|Effects of Culture Media and Plant Hormones on Shoot Tip Culture of Fuji Apple Cultivar (Malus Domestica)|Coll. Agric. Bull. Seoul Natl. Univ.9(1): 67-77|1984|
31686|T||Lentz,G.L.|A Preliminary Report on the Response of Cotton to Treatment with Chlordimeform Insecticide for Yield Enchancement|Tenn. Farm Home Sci.1983:14-15|1983|
31687|T||Mullins,C.A., and D.L. Coffey|Evaluation of Herbicide Treatments for Weed Control in Tomatoes|Tenn. Farm Home Sci.1983:6-8|1983|
31688|T||Shatvorian,P.V.|Effect of Fertilizers and Crotilin on the Number of Leucontemum vulgare in the Plant Stand|Biol. Zh. Arm. (Non-English)36(12): 112-1132|1983|
31689|T||Creager,R.A.|Effect of Preemergence and Rope Wick Applications of Glyphosate on Rhubarb|Hortscience20(1): 125-126|1985|10.21273/HORTSCI.20.1.125
31690|T||Henny,R.J.|Ba Induces Lateral Branching of Peperomia Obtusifolia|Hortscience20(1): 115-116|1985|10.21273/HORTSCI.20.1.115
31691|T||Aron,Y., S.P. Monselise, R. Goren, and J. Costo|Chemical Control of Vegetative Growth in Citrus Trees by Paclobutrazole|Hortscience20(1): 96-98|1985|10.21273/HORTSCI.20.1.96
31692|T||Hashim,O.B., and C.A. Lundergan|Effect of Triacontanol on Yield and Fruit Composition of Spring-Harvested 'Tangi' and 'Dover' Strawberries|Hortscience20(1): 73-74|1985|10.21273/HORTSCI.20.1.73
31693|T||Elstrodt,C.J.|Rout - A New Ornamental Herbicide from Sierra|Proc. S. Nursery Assoc. Res. Conf.29:233-239|1984|
31694|T||Banko,T.J.|Postemergent Control of Grasses in Annual Flower Beds|Proc. S. Nursery Assoc. Res. Conf.29:225-226|1984|
31695|T||Knowles,J.W., W.A.,Jr. Dozier, and C.H. Gilliam|Rooting of Softwood Bradford Pear Cuttings Using Different Rates and Formulations of Iba|Proc. S. Nursery Assoc. Res. Conf.29:222-223|1984|
31696|T||Mills,D.R., G.S. Cobb, and R.B. Reed|Branching and Growth of Golden Euonymus and Photinia After Foliar Applications of Atrinal at the Linear Stage|Proc. S. Nursery Assoc. Res. Conf.29:195-198|1984|
31697|T||Reighard,G.L., G. Howe, and J.W. Hanover|Effects of Chemical Weed Control and Seedling Planting Depth on Survival and Growth on Aspen|Tree Plant. Notes36(1): 3-7|1985|
31699|T||Ennis,B.G., and R.A. Ashley|Crop Oil As Additive for Crabgrass Control by Several Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:327-331|1984|
31700|T||Dernoeden,P.B., and J.D. Fry|Developing Crabgrass and Goosegrass Control Strategies in Turf with Hoe-A2501|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:289-294|1984|
31701|T||Bing,A., and M. Macksel|Postemergence Applications of Fluazifop-Butyl and Sethoxydim on Azaleas|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:251-252|1984|
31702|T||Bing,A., and M. Macksel|Postplant Preemergence Herbicides on Cut Flowers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:228-232|1984|
31703|T||Frank,J.R., G.F. Ryan, and R.A. Creager|Glyphosate Evaluation Under Benches in Ornamental Greenhouses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:223-227|1984|
31704|T||Bing,A., and M. Macksel|The Effect of Landscape Herbicides on Northeastw Planted Bulbs|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:217-220|1984|
31705|T||Haramaki,C., and L.J. Kuhns|Preemergent Herbicide Applications on Bedding Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:214-216|1984|
31706|T||Bing,A., and M. Macksel|Postemergence Treatments of Gladiolus with Fluazifop-Butyl and Sethoxydim|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:212-213|1984|
31707|T||Shipman,R.D.|Japanortheastse Larch Released with Pelleted Fenuron--16 Year Results|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:204-207|1984|
31708|T||Murphy,H.J., and L.S. Morrow|Efficacy of Sd95481 and Ac252,214 for Weed Control in White Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:163-167|1984|
31709|T||Morrow,L.S., and H.J. Murphy|A Comparison of Several Grass Herbicides for Control of Grass in Maine Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:151-154|1984|
31710|T||Warholic,D.T.|Quackgrass Control in Potatoes with Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:149-150|1984|
31711|T||Morrow,L.S., and H.J. Murphy|The Effect of Time and Rate of Application of Fluazifop-Butyl for Grass Control in Mainortheast Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:145-148|1984|
31713|T||Majek,B.A.|Diethatyl Ethyl for Weed Control in Peppers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:125-128|1984|
31714|T||Warholic,D.T., and A.J. Ramirez|Pre and Post Transplant Herbicides for Cole Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:115-117|1984|
31715|T||Teasdale,J.R.|Pretransplant Oxyfluorfen for Cabbage|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:101-105|1984|
31716|T||Beale,M.W., R.D. Ilnicki, and D.B. Vitolo|Weed Control in Soybeans with Sd 95481|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:43-48|1984|
31717|T||Teitz,A.Y., R.D. Ilnicki, and C. Kupatt|Weed Control of Soybeans with Various Preemergence and Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:23-33|1984|
31718|T||Herrick,R.M., and R.D. Ilnicki|The Effect of Adjuvants in Combination with Pendimethalin for the Postemergence Control of Velvetleaf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:17-19|1984|
31720|T||Regimbal,G.A., and A.R. Martin|The Influence of Growth Regulators and Nitrogen on Leafy Spurge (Euphorbia Esula) Control with Picloram|Weed Sci.33(1): 109-113|1985|10.1017/S0043174500084010
31721|T||Meyer,R.E., and R.W. Bovey|Response of Herbaceous Vegetation in East-Central Texas to Herbicides|Weed Sci.33(1): 81-90|1985|10.1017/S0043174500083971
31722|T||Mohammed,S., L.A. Wilson, and N. Prendergast|Guava Meadow Orchard: Effect of Ultra-high Density Plantings and Growth Regulators on Growth, Flowering and Fruiting|Trop. Agric.61(4): 297-301|1984|
31723|T||Petersen,P.J., and B.A. Swisher|Absorption, Translocation, and Metabolism of 14C-Chlorsulfuron in Canada Thistle (Cirsium arvense)|Weed Sci.33(1): 7-11|1985|10.1017/S0043174500083855
31724|T||Metwally,M.A., A.Y. Badawi, and M.N. Seif El-Yasal|Effect of Soil Moisture and Growth Regulators on Wheat|Agric. Res. Rev.59(4): 65-78|1981|
31727|T||Felker,P., D. Smith, and C. Wiesmann|Influence of Mechanical and Chemical Weed Control on Growth and Survival of Tree Plantings in Semiarid Regions|For. Ecol. Manag.16(1-4): 259-267|1986|10.1016/0378-1127(86)90026-5
31731|T||Courtney,A.D.|A Comparison of Herbicide Regimes for Weed Control in Fibre Flax|Tests Agrochem. Cultiv.7:88-89|1986|
31732|T||Bhattacharya,S.P., A. Ghorai, and S. Das|Effect of Different Herbicidal and Cultural Treatments on the Population dry Weight and Nitrogen Uptake by Different Categories of Weed in Rice Fields|Pestology10(2): 30-36|1986|
31733|T||Trimmer,M.C., and D.L. Linscott|Herbicide Effects on Water Use by Grass Sod and Red Clover (Trifolium Pratense) Establishment|Weed Sci.34(1): 48-51|1986|10.1017/S0043174500026436
31734|T||El Otmani,M., and C.W.,Jr. Coggins|"Fruit Development and Growth Regulator Effects on Normal Alkanes of ""Washington"" Navel Orange Fruit Epicuticular Wax"|J. Agric. Food Chem.33(4): 656-663|1985|10.1021/jf00064a023
31736|T||Sanders,G.E., and K.E. Pallett|Initial Studies into the Mode of Action of Fluroxypyr in Viola arvensis|Asp. Appl. Biol.9:179-187|1985|
31737|T||Flint,C.E.|Control of Alopecurus Mysouroides with Herbicides, Agricultural Development and Advisory Service Results, Harvest Years 1981-1984|Asp. Appl. Biol.9:99-110|1985|
31739|T||Hutley-Bull,P.D.|New Uses for Growth Regulators in Cereal Production|Agricultural Science Seminar: Plant Growth Substances1982:29-34|1982|
31743|T||Ridley,S.M., and S.F. McNally|Effects of Phosphinothricin on the Isoenzymes of Glutamine Synthetase Isloated from Plant Species Which Exhibit Varying Degrees of Susceptibility to the Herbicide|Plant Sci.39(1): 31-36|1985|10.1016/0168-9452(85)90188-8
31744|T||Singh,M., and N.R. Achhireddy|Tolerance of Citrus Rootstocks to Preemergence Herbicides|J. Environ. Hortic.2(3): 73-76|1984|10.24266/0738-2898-2.3.73
31745|T||Pookpakdi,A., V. Sereeprasert, and W. Pinya|The Effect of Pre-Emergence Herbicide and Method of Planting on Weed Population and Yield of Mungbean in Farmer Fields|Kasetsart J. Nat. Sci.17(1): 90-95|1983|
31746|T||Johnson,J.R., B.L. Arnold, and H.R. Hurst|Herbicides for Grass Control in No-Till Planted Soybeans|Miss. Agric. For. Exp. Stn. Bull.936:1-5|1985|
31752|T||Retzinger,E.J.J., and R.L. Rogers|Scepter: A New Broad Spectrum Soybean Herbicide|La. Agric. Exp. Stn.28(3): 6-7|1985|
31761|T||Pal,R.N., K.L. Chadha, and M.R.K. Rao|Effect of Different Plant Growth Regulators and Other Chemicals on Flowering Behavior of Mango|Indian J. Hortic.41(1/2): 8-15|1984|
31762|T||McEachern,G.R., and J.B. Storey|Low Volume, High Concentrate Roundup Herbicide Control of Pecan Weeds|Pecan Q.18(1): 27-30|1984|
31763|T||Mahoney,J.E.|Broadleaf Weed Control in Chickpeas|Int. Chickpea Newsl.10:8-10|1984|
31764|T||Knowe,S.A.|Herbaceous Weed Control in Slash Pine and Cottonwoiid Plantations|Proc. South. Weed Sci. Soc.37:214-217|1984|
31765|T||Michael,J.L.|Impacts of Rate of Hexazinone Application on Survival and Growth of the Loblolly Pine|Proc. South. Weed Sci. Soc.37:210-213|1984|
31766|T||Neary,D.G., L.F. Conde, and J.E. Smith|Effects of Sulfometuron Methyl on Six Important Competing Species in Coastal Plain Flatwoods|Proc. South. Weed Sci. Soc.37:193-199|1984|
31767|T||Miller,J.H., and G.W. Andrews|Soil-Active Herbicides for Single-Stem and Stand Hardwood Control|Proc. South. Weed Sci. Soc.37:173-181|1984|
31768|T||Gonzalez,F.E., R.L. Atkins, and G.C. Brown|Sulfometuron Methyl, Rate and Timing Studies on Bermudagrass and Bahiagrass Roadside Turf|Proc. South. Weed Sci. Soc.37:272-274|1984|
31769|T||Robinson,E.L., P.A. Banks, and G.W. Langdale|Effect of Tillage and Herbicide Formulations on Soybean Yields|Proc. South. Weed Sci. Soc.37:95-102|1984|
31770|T||Morton,C.S., G.H. Childs, S.H. Crowder, M.T. Edwards, G.S. Hammes, J.J. LeClair, F.B. Maxcy, K.A. Patterson, and A.J. P|Assure Weed Killer - Control of Selected Annual and Perennial Grass Weeds in Soybeans and Cotton|Proc. South. Weed Sci. Soc.37:79-81|1984|
31771|T||Cooper,R.B., D.A. Addison, R. Albritton, D.L. Grant, R.D. Hicks, G.D. Thompson, and H.L. Webster|Ethalfluralin for Weed Control in Soybean|Proc. South. Weed Sci. Soc.37:57-65|1984|
31772|T||Whatley,T.L., C.L. Sandberg, and C.H. Wu|Annual Weed Control on Stale Seedbeds with Glyphosate|Proc. South. Weed Sci. Soc.37:53-56|1984|
31773|T||Hicks,R.D., D.A. Addison, J.L. Barrentine, R.B. Cooper, J.A. Keaton, R.K. Mann, K.E. McNeill, and J.F. Nicholson|The Use of Ethalfluralin for Weed Control in Peanuts|Proc. South. Weed Sci. Soc.37:32-35|1984|
31774|T||Voth,R.D., and J.P. Downs|Weed Control in Dormant Turf Grass with Glyphosate|Proc. South. Weed Sci. Soc.37:15-19|1984|
31775|T||Harniss,R.O., and D.L. Bartos|Survey of Aspen Stands Treated with Herbicides in the Western United States|Usfs Rp Int340:1-6|1985|
31776|T||Clary,W.P., S. Goodrich, and B.M. Smith|Response of Broom Snakeweed to Application of Tebuthiuron|Forest Service Research Note INT-350, Intermittent Forest and Range Experiment Station, Ogden, UT:4 p.|1985|
31777|T||Canudas-Lara,E.G., K.H. Quesenberry, D.H. Teem, and D.M. Prine|Sethoxydim and Dalapon Application to Rhizomes for Common Bermudagrass Control in Rhizoma Peanut|Proc. Soil Crop Sci. Soc. Fla.43:174-177|1984|
31778|T||Dove,F., and D.D. Baltensperger|The Influence of Benefin and Vernolate Rate and Depth of Incorporation on Greenhouse Grown Alyceclover and Crimson Clover|Annu. Meet. Fla. State Hortic. Soc.43:117-120|1984|
31779|T||Kalmbacher,R.S., and F.G. Martin|Chopping and Tebuthiuron Effects on Saw Palmetto|Annu. Meet. Fla. State Hortic. Soc.43:86-89|1984|
31796|T||Majid,A., M.R. Hussain, and M.A. Akhtar|Studies on Chemical Weed Control in Wheat|J. Agric. Res.21(4): 167-171|1983|
31798|T||House,M., and C.E. Whitcomb|Weed Control in Container Nursery Stock|Okla. Agric. Exp. Stn. Res. Rep.855:50-51|1984|
31799|T||Whitcomb,C.E.|Weed Control in Field Nursery Stock|Okla. Agric. Exp. Stn. Res. Rep.855:18-22|1984|
31800|T||Wills,G.D., and C.G. McWhorter|Influence of Temperature and Relative Humidity on the Control of Showy Crotalaria (Crotalaria spectabilis Roth.) with Acifluorfen (Blazer and Tackle)|Miss. Agric. For. Exp. Stn. Tech. Bull.125:1-5|1984|
31801|T||Lee,W.O., and J.L. Nelson|Control of Volunteer Park Kentucky Bluegrass in a New Planting of Baron Kentucky Bluegrass|Oreg. Agric. Exp. Stn. Spec. Rep.717:24-27|1984|
31806|T||Young,M.J., and J.S. Cameron|Influence of Growth Regulators and Nitrogen Form on Micropropagation of Rabbiteye Blueberries|Fruit Var. J.39(1): 16-18|1985|
31807|T||Yadav,S.K., V.M. Bhan, and S.P. Singh|Post-Emergence Herbicides for Control of Phalaris Minor in Wheat|Trop. Pest Manag.30(4): 467-469|1984|10.1080/09670878409370923
31808|T||Challa,P.|Chemical Weed Control in Mango Root Stock Nursery|Trop. Pest Manag.30(4): 466-467|1984|10.1080/09670878409370922
31809|T||Ndahi,W.B.|Evaluation of Herbicides for Maize Production in Three Ecological Zones of Nigeria|Trop. Pest Manag.30(4): 356-359|1984|10.1080/09670878409370910
31810|T||Ndahi,W.B.|Herbicide Evaluation in Millet in the Northern Guinea and Sudan Savannah of Nigeria|Trop. Pest Manag.30(4): 351-355|1984|10.1080/09670878409370909
31811|T||Filmer,A.A.E., and M.J.C. Rhodes|An Assessment of 1,4,6-Trimethylnaphthalene as a Sprout Suppressant for Stored Potato Tubers|Potato Res.27(4): 383-392|1984|10.1007/BF02357426
31812|T||Casamayor,R., R. Garcia, and N. Arias|Chemical Weed Control and Its Influence on the Production of 'Valencia Late' Oranges (Citrus sinensis L.)|In: K.Matsumoto (Ed.), Proceedings of the International Society of Citriculture, Internaional Citrus Congress, Tokyo, Japan1981:496-498|1981|
31813|T||De Barreda,D.G., and A. Del Busto|Evaluation of Glyphosate for Weed Control in Citrus Orchards of Spain|In: K.Matsumoto (Ed.), Proceedings of the International Society of Citriculture, Internaional Citrus Congress, Tokyo, Japan:487-489|1982|
31814|T||Quinland,J.D.|Growth Regulators and Fruit Production|Agricultural Science Seminar: Plant Growth Substances1982:24-28|1982|
31815|T||Hampton,J.G., and P.D. Hebblethwaite|The Effect of the Growth Regulator Paclobutrazol (Pp333) on the Growth, Development and Yield of Lolium Perenne Grown for Seed|Grass Forage Sci.40(1): 93-101|1985|10.1111/j.1365-2494.1985.tb01724.x
31816|T||Raczek,E.|Growth of Maize Coleoptiles in the Presence of Natural and Synthetic Growth Regulators. Growth Correlations|Acta Soc. Bot. Pol.53:1-3|1984|
31817|T||Lo Nyok,P.I.A.N., and J.A.M. Wong Lock|Control of Euphorbia in Groundnut|In: Proc.of the Conf.on Legumes in the Tropics, Univ.Pertanian Malaysia, Selangor, Malaysia1980:285-291|1980|
31818|T||Liu,S., and Y.K. Chee|Effects of Planting Systems and Pre-Emergence Herbicides on Legume Covers|In: Proc.of the Conf.on Legumes in the Tropics, Univ.Pertanian Malaysia, Selangor, Malaysia1980:277-284|1980|
31819|T||Amartalingam,R., S.I.O.N. Lim Eng, and S. Singh|Weed Control Studies in Groundnuts at Universiti Pertanian Malaysia|In: Proc.of the Conf.on Legumes in the Tropics, Univ.Pertanian Malaysia, Selangor, Malaysia1980:267-276|1980|
31820|T||Talbert,R.E., L.R. Oliver, R.E. Frans, C.D. Monks, J.L. Baldwin, and P. Nastasi|Field-Screening of New Chemicals for Herbicidal Activity, 1984|Mser Aes Ua319:1-15|1984|
31821|T||Akopian,E.A., R.G. Sarksian, A.A. Kalantorov, and M.A. Sevumian|Effect of Herbicides on Weeds and Soil Microflora of Vineyards|Biol. Zh. Arm. (Non-English)37(9): 732-735|1984|
31823|T||Agusti,M., V. Almela, and J.L. Guardiola|The Regulation of Fruit Cropping in Mandarins Through the Use of Growth Regulators|In: K.Matsumoto (Ed.), Proceedings of the International Society of Citriculture, Internaional Citrus Congress, Tokyo, Japan1981:216-220|1981|
31824|T||Kamuro,Y., and K. Hirai|Physiological Activity of Ethychlozate--Fruit Thinning and Maturity Accelerating Effects for Citrus|In: K.Matsumoto (Ed.), Proceedings of the International Society of Citriculture, Internaional Citrus Congress, Tokyo, Japan1981:260-263|1981|
31825|T||Cussins,S.W.|Control of Big Sagebrush by Aerial Application of 2,4-D|Rangelands7(1): 10-11|1985|
31826|T||Dhaliwal,J.S., and D.S. Bains|Investigations into Seed-Setting in Lucerne (Medicago Sativa L.) Ii. Effect of Cutting Schedule and Growth-Retardants|J. Res. Punjab Agric. Univ.20(4): 423-429|1983|
31827|T||Sharara,A.M., H.M. Ramadan, M.Z. Abd El-Hak, and S.A. El Baz|Effect of Some Herbicides on Potato Crop|Agric. Res. Rev.59(3): 277-293|1981|
31828|T||Riad,W.Y., and A.E. Elbogdady|Effect of Some Insecticide on Yield and Quality of Tomato|Agric. Res. Rev.59(3): 205-219|1981|
31829|T||Abdallah,M.M., and E.M. Shalaby|Physiological Studies on the Effect of Some Plant Growth Hormones on Growth and Yield of Cotton Plant|Agric. Res. Rev.58(9): 267-277|1980|
31831|T||Hurst,H.R., J.R. Johnson, and B.L. Arnold|Postemergence Herbicide Treatments for Control of Johnsongrass in Soybeans|Miss. Agric. For. Exp. Stn. Bull.929:1-11|1984|
31832|T||Allan,G.G., M.J. Cousin, J.F. Friedhoff, R.C. Maggio, W.F. Miller, and J.C. Powell|Growth Enhancement of A Juvenile Loblolly Pine Forest by Treatment with a Controlled Release Herbicide|Int. Pest Control25(6): 172-173|1983|
31833|T||Swamy,T.N., N. Singh, V.K. Verma, and B. Choudhury|Growth and Yield of Pea as Influenced by Growth Regulators|Madras Agric. J.70(8): 525-528|1983|
31834|T||Pablico,P.P., and K. Moody|Effect of Different Cropping Patterns and Weeding Treatments on Weed Populations and Crop Yields|Philipp. Agric.66(4): 448-457|1983|
31835|T||Naito,R., H. Yamamura, K. Takashima, and F. Koba|Effects of Denapon and Ethrel on Thinning Grapes|Sci. Hortic.25:61-69|1985|10.1016/0304-4238(85)90076-7
31837|T||Hosoki,T., M. Hamada, and K. Inaba|Forcing of Tree Peony by Chemicals and Low Temperature Treatment, and Retarding by Long-Term Cold Storage|Bull. Fac. Agric. Shimane Univ.17:8-12|1983|
31838|T||O'Sullivan,J.|Galinsoga Weed Control in Crucifers|Proc. Ont. Hortic. Crops Conf.1983:131-132|1983|
31839|T||Mozingo,R.W., and J.L. Steele|Growth Regulator Effects on the Market Quality of Five Virginia-Type Peanut Cultivars|Peanut Sci.11(2): 64-66|1984|10.3146/i0095-3679-11-2-4
31840|T||Mittal,M., and O.P. Singh|Effect of Different Herbicides on the Yield and Yield Contributing Characters of Chickpea|Legume Res.6(1): 53-54|1983|
31842|T||Johnsen,T.N.J., and R.S. Dalen|Controlling Individual Junipers and Oaks with Pelleted Picloram|J. Range Manag.37(4): 380-384|1984|10.2307/3898717
31848|T||Rama Rao,R.C., M.S. Venkateswarlu, and G.H.S. Reddy|Effect of Growth Regulators on Yield Attributes and Yield of Tmv 2 Groundnut at Various Plant Densities|Indian J. Agron.28(3): 243-247|1983|
31849|T||Sekhon,H.S., and M. Singh|Effect of Mechanical and Chemical Seed Treatments on the Number and Size of Seed Tubers and Yield of Potatoes|J. Agric. Sci.103(3): 487-495|1984|10.1017/S0021859600043574
31850|T||Nanjappa,H.V., and M.M. Hosmani|Residual Effect of Herbicides Applied in Transplanted Fingermillet (Eleusine Coracana Gaertn.) on the Succeeding Crops|Indian J. Agron.28(1): 42-45|1983|
31851|T||Singh,K.P., R.R. Singh, and K.N. Ahuja|Effect of Agro-chemicals on Growth, Yield and Quality of Wheat var. Kalyansona Under Rainfed Conditions|Indian J. Agron.28(2): 171-172|1983|
31852|T||Kaushik,S.K.|Chemical Weed Control in Hybrid Pearl Millet Under Dryland Conditions|Indian J. Agron.28(2): 169-170|1983|
31853|T||Singh,S.P., S.K. Yadav, and V.M. Bhan|Cultural and Chemical Weed Control in Irrigated Pearlmillet|Indian J. Agron.28(2): 148-150|1983|
31855|T||Gjerstad,D.H., L.R. Nelson, J.H.,Jr. Dukes, and W.A. Retzlaff|Growth Response and Physiology of Tree Seedlings as Affected by Weed Control|Proc. Soc. Am. For.1983:410-414|1984|
31859|T||Jain,N., and R.B.R. Yadava|Effect of 2,4-Dichlorobenzyl Tributyl Phosphonium Chloride (Phosfon-D) on Growth, Flowering and Yield of Oat in a Pot Culture|Acta Agron. Hung.32(3-4): 401-405|1983|
31860|T||Herdi,F.|Histological Changes in the Leaf of Sunflower (Helianthus Annuus L.) in Response to 2,4-D Treatments|Acta Agron. Hung.32(3-4): 288-297|1983|
31865|T||Netzer,D.A.|Herbicide Trials on European Larch in Northern Wisconsin|Usfs Rn Nc318:1-2|1984|
31872|T||Wright ,S.D., and V.H. Schweers|Control of Cocklebur at Lake Success, California|Proc. West. Soc. Weed Sci.37:215-217|1984|
31873|T||Maxwell,B.D., and P.K. Fay|Changes in a Leafy Spurge (Euphorbia esula L.) Infested Plant Community After an Application of Picloram|Proc. West. Soc. Weed Sci.37:202-204|1984|
31874|T||Cramer,G.C., and D. Wiley|Sethoxydim for Perennial Grass Control in Cotton|Proc. West. Soc. Weed Sci.37:185-187|1984|
31876|T||Elmore,C.L.|Control of Oxalis corniculata Creeping Woodsorrel in Cool Season Grass Turf|Proc. West. Soc. Weed Sci.37:158-159|1984|
31877|T||Neidlinger,T.J.|Perennial Grass Control in Pacific Northwest Orchards with Pronamide|Proc. West. Soc. Weed Sci.37:153-154|1984|
31878|T||Ibarra,F.A., and H.L. Morton|Chemical and Mechanical Control of Woody Plants in the Creosotebush Type of the Chihuahuan and Sonoran Deserts|Proc. West. Soc. Weed Sci.37:139-151|1984|
31879|T||Morton,H.L.|Influence of Tebuthiuron Formulation on Control of Woody Plants and Forage Production|Proc. West. Soc. Weed Sci.37:129-138|1984|
31880|T||Courtney,R.W., and R.E. Sosebee|Broom Snakeweed Control in the Southwest|Proc. West. Soc. Weed Sci.37:127-129|1984|
31881|T||Melgoza,A., H.L. Morton, J.S. Sierra, and G. Melgoza|Botanical Changes Associated with Applications of Tebuthiuron in Creosotebush (Larrea tridentata) Communities|Proc. West. Soc. Weed Sci.37:98-113|1984|
31882|T||Schultz,T.W., R.E. Whitesides, D.G. Swan, and T.L. Nagle|Weed Control and Crop Tolerance in Pulse Crops Using R-40244|Proc. West. Soc. Weed Sci.37:94-95|1984|
31883|T||Watkins,S.D., and M.R. Hargrave|Control of Annual Grasses in Onions with Fluazifop-Butyl|Proc. West. Soc. Weed Sci.37:70-75|1984|
31884|T||Ogg,A.G.,Jr.|Differential Response of Nightshades to Herbicides (Solanum Ptycanthum)|Proc. West. Soc. Weed Sci.37:68-69|1984|
31885|T||Wiley,D.C.|1983 Commercial Results Using Sethoxydim in Sugarbeets, Onions for Seed and Ladino Clover for Seed Under a Crisis Label in California|Proc. West. Soc. Weed Sci.37:60-61|1984|
31886|T||Minore,D.|Vaccinium membranaceum Berry Production Seven Years After Treatment to Reduce Overstory Tree Canopies|Northwest Sci.58(3): 208-212|1984|
31888|T||Kerby,T.A., S. Johnson, and H. Yamada|Efficacy of Cotton Defoliants|Calif. Agric.38(9): 24-25|1984|
31889|T||Derksen,D.A.|The Evaluation of Varietal Tolerance to Herbicides|Manit. Agron.1983:55-62|1983|
31894|T||Kolbe,W.|Long-Term Herbicide-Strip Treatment Trials with Ustinex Kr and Ustinex Gl in Pome and Stone Fruit Plantations (1967-1982)|Pflanzenschutz-Nachr. Bayer (English Ed.)36(1): 73-93|1983|
31899|T||Bashir,M.O.|Mechanical and Chemical Methods for the Control of Annual Wild Rice (Oryza barthii)|Trop. Pest Manag.30(3): 318-323|1984|10.1080/09670878409370901
31900|T||McEachern,G.R.|Orchard Floor Alternatives|Proc. Texas Pecan Growers Assoc.61:59-60|1982|
31901|T||Damanakis,M.E.|A Method for the Evaluation of Herbicide Systemic Action in the Perennial Grasses Cynodon dactylon and Paspalum paspalodes|Ann. Inst. Phytopathol. Benaki (Multiple Languages)13(2): 163-167|1982|
31903|T||Mehrotra,O.N., R.K. Mathur, and R.S. Tripathi|Effect of Growth Regulators on Wheat|Indian J. Agric. Res.17(1/2): 57-61|1983|
31906|T||Nishiuchi,Y.|Studies on Vegetative Propagation of Tulips.  V.  Effect of Growth Regulators on the Bulb Formation of Adventitous Bed Cultured In Vitro|J. Hokkaido Univ. Educ. Sect. 2, B34(1): 9-15|1983|
31908|T||Trehan,S.P., and J.S. Grewal|Deficiency and Toxicity Limits of Zinc and Copper for Potato in Acidic Hill Soils of Simla|Fert. News29(2): 33-36|1984|
31911|T||Haagenson,K.A., and E.F. Sullivan|New Grass Herbicides and Weed Management Techniques in Sugarbeets|J. Am. Soc. Sugar Beet Technol.22(1): 10-16|1983|10.5274/jsbr.22.1.10
31913|T||Blanke,M., and F. Lenz|Influence of 1-Triacontanol on the Formation of dry Substance and Fruit Quality of Strawberries|Erwerbsobstbau25(3): 60-61|1983|
31914|T||Mullverstedt,R.|Herbicides in Winter Wheat|Gesunde Pflanzen (Non-English)36:77 - 78,80,82|1984|
31917|T||Kurlekar,V.G., and V.S. Khuspe|Effectiveness of Herbicides and Economics of Weed Control in Cotton|Pesticides 18(2):11-13|1984|
31918|T||Gill,H.S., L.S. Brar, and S. Paul|Investigations on the Chemical Weed Control in Sunflower (Helianthus annuus L.)|Pesticides 18(2): 8 - 10,13|1984|
31922|T||Pathak,A.K., A.A. Ahmed, and P.K. Borkakoty|Chemical Weed Control in Olitorius Jute|Pesticides 18(7): 69-70|1984|
31923|T||Lall,M., C.V. Raghvaiah, M. Reddy, and L.N.S. Yadav|Weed Control with Herbicides in Fodder Oat (Avena sativa)|Pesticides 18(7): 59-60|1984|
31924|T||Prakash,J., and S.K. Pahwa|Effect of Some New Herbicides on Growth of Pea Plants|Pesticides 18(7): 56-58|1984|
31925|T||Singh,D., and S.K. Sharma|Effect of Time and Methods of Application of Different Herbicides in Controlling Wheat Weeds|Pesticides 1983:97-99|1983|
31926|T||Kirino,O., K. Furuzawa, C. Takayama, and T. Mizutani|Steric Effect of Acyl and Amine Moiety Substituents on the Herbicidal Activity of N-Benzylbutanamides|J. Pestic. Sci. (Multiple Languages)2:345-349|1984|10.1584/jpestics.9.345
31928|T||Lo,N.P.|Suitability of Five Preemergence Herbicides for Cassava (Manihot Esculenta Cranz)|MARDI Res. Bull.10(1): 26-32|1982|
31931|T||Murray,D.S.|Annual Weed Control and New Postemergence Grass Herbicides|Sp Wcot Pr C1984:5-6|1984|
31932|T||Agamalian,H.|Selective Weed Control in Cole Crops|Proc. Annu. Calif. Weed Conf.36:118-120|1984|
31933|T||Kurtz,E.A.|Weed Control in Onions and Garlic|Proc. Annu. Calif. Weed Conf.36:113-114|1984|
31934|T||Fischer,B.B.|Weed Control in Cucurbits|Proc. Calif. Weed Conf.36:98-107|1984|
31935|T||Berger,R.L.|Vegetation Manipulation on Washington Highways|Proc. Annu. Calif. Weed Conf.36:93-94|1984|
31936|T||Agamalian,H.|Dry Bean Weed Control|Proc. Annu. Calif. Weed Conf.36:81-83|1984|
31937|T||Appleby,A.P.|New Grass Herbicides -- How Effective and Different Are They?|Proc. Annu. Calif. Weed Conf.36:68-69|1984|
31938|T||Rom,R.C., G.R. Motichek, and E.H. Arrington|Herbicides for Peach Orchards|Proc. Ark. State Hortic. Soc.104:97-100|1983|
31939|T||Binning,L.K.|Green Bean Weed Control in Wisconsin|Proc. Ark. State Hortic. Soc.104:28-29|1983|
31941|T||Nohl,C.|Weeds in Orchards in Relation to Use of Herbicides|Erwerbsobstbau26(1): 4-7|1984|
31942|T||Sutton,R.F.|Plantation Establishment in the Boreal Forest:  Glyphosate, Hexazinone, and Manual Weed Control|For. Chron.60(5): 283-287|1984|10.5558/tfc60283-5
31943|T||Hossain,A.K.M., and M. Alexander|Enhancing Growth and Nitrogen Uptake by Soybeans Using Pesticides|Plant Soil81(1): 133-141|1984|10.1007/BF02206902
31944|T||Ponder,F.,Jr., and R.C. Schlesinger|Site Influences Herbicide Efficiency and Growth of Planted Hardwoods|For. Ecol. Manag.9(2): 147-153|1984|10.1016/0378-1127(84)90079-3
31945|T||Hanks,G.R.|Factors Affecting the Response of Tulips to Gibberellin|Sci. Hortic.23:379-390|1984|10.1016/0304-4238(84)90035-9
31946|T||Welander,N.T.|Effect of Ga3 (Gibberellic Acid) Ccc (2-Chloroethyltrimethylammonium Chloride) Defoliastion and Quantum Flux Density on Growth and Flowering in Pelargonium X H|Sci. Hortic.23:371-377|1984|10.1016/0304-4238(84)90034-7
31947|T||Johnson,B.J.|Management of Herbicides for Weed Control in Bermudagrass Turf|Ga.Agric.Exp.Stn.Bull.313:1-47|1984|
31948|T||Felker,P., D. Smith, M. Smith, R.L. Bingham, and I. Reyes|Evaluation of Herbicides for Use in Transplanting Leucaena Leucocephala and Prosopis Alba on Semi-arid Lands Without Irrigation|For. Sci.30:747-755|1984|
31949|T||Connick,W.J., J.M. Bradow, W. Wells, K.K. Steward, and T.K. Van|Preparation and Evaluation of Controlled-Release Formulations of 2,6-Dichlorobenzonitrile|J. Agric. Food Chem.32(5): 1199-1205|1984|10.1021/jf00125a067
31950|T||Elfving,D.C.|Factors Affecting Apple-Tree Response to Chemical Branch-Induction Treatments|J. Am. Soc. Hortic. Sci.109(4): 476-481|1984|
31951|T||White,J.W., and I.J. Warrington|Effects of Spilt-Night Temperatures, Light and Chlormequat on Growth and Carbohydrate Status of Pelargonium X Hortorum|J. Am. Soc. Hortic. Sci.109(4): 458-463|1984|10.21273/JASHS.109.4.458
31952|T||Webster,A.D.|Plant Growth Regulator Sprays to Delay the Blossoming of Victoria Plum|J. Hortic. Sci.59(3): 377-386|1984|10.1080/00221589.1984.11515209
31953|T||Webster,A.D., and J.D. Quinlan|Chemical Control of Tree Growth of Plum (Prunus Domestica L.) I. Preliminary Studies with the Growth Retardant Paclobutrazol (Pp333)|J. Hortic. Sci.59(3): 367-375|1984|10.1080/00221589.1984.11515208
31954|T||Stinchcombe,G.R., E. Copas, R.R. Williams, and G. Arnold|The Effects of Paclobutrazol and Daminozide on the Growth and Yield of Cider Apple Trees|J. Hortic. Sci.59(3): 323-327|1984|10.1080/00221589.1984.11515203
31955|T||Aldrich,J.H., and C.E. Arnold|Effects of Glyphosate on Peach Tree Growth and Fruiting|Hortscience19(4): 540-542|1984|10.21273/HORTSCI.19.4.540
31956|T||Deaton,M.H., J.W. Buxton, and T.R. Hamilton-Kemp|The Effects of Growth Regulators on Development of Nicotiana Affinis Flowers Invitro|Hortscience19(4): 509-511|1984|10.21273/HORTSCI.19.4.509
31957|T||Akers,M.S., P.L. Carpenter, and S.C. Weller|Herbicide Systems for Nursery Plantings|Hortscience19(4): 502-504|1984|10.21273/HORTSCI.19.4.502
31958|T||Reiss-Bubenheim,D., and A.J. Lewis|Pre-Plant Treatment of Chyrsanthemum X Morifolium with Growth Retardants|Sci. Hortic.23(3): 279-285|1984|10.1016/0304-4238(84)90072-4
31959|T||Frank,J.R., and C.E. Beste|Weed Control in Azaleas Grown in Raised Field Beds|J. Am. Soc. Hortic. Sci.109(5): 654-659|1984|10.21273/JASHS.109.5.654
31960|T||Armitage,A.M., B.M. Hamilton, and D. Cosgrove|The Influence of Growth Regulators on Gerbera Daisy|J. Am. Soc. Hortic. Sci.109(5): 629-632|1984|10.21273/JASHS.109.5.629
31961|T||Stang,E.J., and G.G. Weis|Influence of Paclobutrazol Plant Growth Regulator on Strawberry Plant Growth, Fruiting, and Runner Suppression|Hortscience19(5): 643-645|1984|10.21273/HORTSCI.19.5.643
31962|T||Scanland,J.C., and G.W. Fossett|Herbicidal Control of Woody Weeds in Central Queensland: 3. False Sandalwood (Eremophila Mitchellii)|Trop. Grassl.18(2): 78-83|1984|
31964|T||Roberts,H.A., and W. Bond|Evaluation of Dpx-T6376 for Weed Control in Drilled Vegatables|Ann. Appl. Biol.104 Suppl:82-83|1984|
31965|T||Mistiukova,N.P.|Effectiveness of New Herbicides in Fruit Orchards (Varieties, Apple)|Sb.Nauchn.Rab.Vses.Nauchno-Issled.Inst.Sadovod.36:86-89|1982|
31967|T||Will,H.|New Herbicide for Cabbage Cultivation|Gemuse20(6): 223-224|1984|
31968|T||Abdalla,J.R.|Influence of Mechanical Cultivation, Herbicides and Their Interaction on Maize (Zea mays L.) Production|Ecossistema8:82-86|1983|
31969|T||Paulo,E.M., R. Forster, and N.M.P. De Toledo|Response of Soybean Cultivars to Herbicides|Ecossistema8:45-54|1983|
31977|T||Zulu,G.M., and M.K. Pritchard|The Effect of Mefluidine on Solanum Tuberosum Var. Norchip|Rep. Proc. West. Can. Soc. Hortic.39:41-42|1983|
31981|T||Dhaliwai,J.S., and D.S. Bains|Investigations into the Seed-Setting in Lucerne (Medicago Sativa L.) I. Effect of Time of the Last Cutting, Growth Regulators and Foliar Spraying of Phosphorus|J. Res. Punjab Agric. Univ.20(3): 241-250|1983|
31983|T||Frost,C.|The Effect of Herbicides Applied Before Crop Emergence on the Yield of Winter and Spring Barley and Wheat|Ir. J. Agric. Res.22(2/3): 217-223|1983|
31984|T||Balasubramaniyan,P.|Effect of Planting System, Herbicide Application and Nitrogen on Weed Growth and Yield of Rice|Madras Agric. J.70(2): 125-127|1983|
31985|T||White,T.A., and G.L. Rolfe|A Test of Tolerance: 1982 Greenhouse Herbicide Trials with Direct-Seeded Black Locust|Forestry Res. Rep., Dep. of For., Agric. Exp. Stn., Univ. of Illinois82:1-5|1983|
31986|T||Forbes,J.J., and J.E. Pratley|The Use of Desiccant, Defoliant and Growth Regulating Sprays to Advance the Harvest of Edible dry Beans (Phaseolus Vulgaris) in Tasmania|Aust. J. Exp. Agric. Anim. Husb.23(123): 426-428|1983|10.1071/EA9830426
31987|T||Rao,A.N.|Composition of Associated Weeds and Grain Yield of Maize As Affected by Herbicide Treatments|Indian J. Bot.6(1): 74-78|1983|
31990|T||Kolbe,W.|Influence of Chemical Weed Control on the Yield and Fruit Quality in Strawberry Growing|Erwerbsobstbau24(7): 171-175|1982|
31991|T||Johann,G., and F. Lenz|Use of Growth Regulators for Promotion of Ramification of One-Year Apple Refinement|Erwerbsobstbau24(7): 169-171|1982|
31999|T||Hoveland,C.S., R.F.,Jr. McCormick, J.A. Little, G.V. Granade, and J.G. Starling|Growth Suppressant Chemicals for Establishment of Winter Annual Forages on Bahia and Bermudagrass Sods|Bull. Agric. Exp. Stn. Auburn Univ.533:1-14|1981|
32001|T||Hassaballa,I.A., E.Y. Youssef, M.A. Khamis, M.M. Ibrahim, and S.E. Khalifa|Effect of Some Growth Regulators on Fruit Chemical Constituents of Zaghloul Date|Ann. Agric. Sci.20(2): 335-346|1984|
32002|T||Hassaballa,I.A., E.Y. Youssef, M.A. Khamis, M.M. Ibrahim, and S.E. Khalifa|Effect of Some Growth Regulators on Yield and Physical Characteristics of Zaghloul Date Fruits|Ann. Agric. Sci.20(2): 319-332|1984|
32003|T||Youssef,E.Y., A.E. Abd El-Kawy, M.A. Khamis, M. Sharaf, and M. El Beheiry|Effect of Some Growth Regulators on Yield, Physical Characteristics and Chemical Constituents of Fayoumi Grapes|Ann. Agric. Sci.20(2): 305-317|1984|
32004|T||Gabr,S., A. Sharaf, and S. El Saadany|Effect of Cycocyl and Alar on Some Biochemical Constituents in Tomato Plant and Fruits|Ann. Agric. Sci.20(3): 73-85|1984|
32006|T||Street,J.E., and R.C. Miller|MCPA, An Alternative to 2,4,5-T (Trichlorophenoxyacetic Acid) for Midseason Weed Control in Rice|Miss. Agric. For. Exp. Stn. (MAFES)9(4): 1-3|1984|
32007|T||Barrentine,W.L., J.E. Street, and E.P.,Jr. Richard|Duration of Red Rice Control with Selected Soybean Herbicides|MAFES Res. Highl.9(3): 2-4|1984|
32008|T||Saini,S.K., P.P. Singh, P.S. Negi, and K. Kumar|Studies on Weed Control in Autumn Planted Sugarcane|Sugar Technol. Assoc. India47:121-127|1983|
32009|T||Shah,T.M., H.S. Patel, and T.B. Patel|Comparative Efficiency of Some Herbicides in Controlling Weeds in Sugarcane for Higher Productivity|Proc.Sugar Technol.Assoc.India47:57-63|1983|
32012|T||Kirland,K.J., and P.A. O'Sullivan|Control of Wild Oats in Wheat with Barban, Diclofop Methyl, Flamprop Methyl and Difenaoquat|Can. J. Plant Sci.64(4): 1019-1021|1984|10.4141/cjps84-139
32013|T||Katagi,I., and Y. Hanai|Weed Control by Herbicides in the Sugarbeet Seedling Bed|Proc. Jpn. Soc. Sugar Beet Technol.24:64-68|1982|
32014|T||Dass,S.M., P.S. Srinivasan, and V. Sampath|Influence of Growth Regulators on Flowering and Foliage Yield in Foxglovelis lanta (Ehrh.)|Madras Agric. J.70(3): 187-190|1983|
32015|T||O'Sullivan,P.A., and V.C. Kossatz|Canada Thistle Suppression and Rapeseed Tolerance with Dicamba and Picloram|Can. J. Plant Sci.64(4): 971-977|1984|10.4141/cjps84-131
32019|T||Elfving,D.C.|Control of Apple Tree Growth and Vigor with Growth Regulators|Compact Fruit Tree17:142-146|1984|
32020|T||Webster,T., and J. Quinlan|Research Update with the Growth Regulator Pp333|Compact Fruit Tree17:133-141|1984|
32022|T||Pandey,U.C., and S.I.N.G. Gajraj|Weed Control Studies in Okra (Abelmoschus Esculentus (L.) Moench)|Haryana Agric. Univ. J. Res.1(3): 439-446|1983|
32024|T||Webster,A.D.|The Effect of Plant Growth Regulator Sprays and Summer Shoot Tipping on the Fruit Set and Yield of Young Plum Trees|Acta Hortic.149:203-210|1984|10.17660/ActaHortic.1984.149.24
32025|T||Fankhauser,F., and R. Schumacher|Influence of Growth Regulators on Fruit Development|Acta Hortic.149:179-188|1984|10.17660/ActaHortic.1984.149.21
32026|T||Hooda,R.S., M.L. Pandita, and A.S. Sidhu|Chemical Weed Control in Potato (Solanum tuberosum L.)|Agric. Sci. Dig.31:16-18|1983|
32027|T||Rugina,R., C. Toma, M. Nita, and M. Popescu|Effect of Sodium Pentachlorphenolate on Various Culture Plants|Bul. Gradinii Bot. Lasi 29:54-56|1983|
32043|T||Chamuah,G.S., and S.K. Dey|The Effect of Growth Regulators on Root Cation Exchange Capacity of Young Clonal Tea Plants|Plant Soil79(3): 441-444|1984|10.1007/BF02184335
32044|T||Johnson,B.J.|Response of Bermudagrass (Cynodon Dactylon) Turf to Winter-Applied Herbicides|Weed Sci.32(4): 477-482|1984|10.1017/S0043174500059373
32045|T||Williams,P.M., and M. Sicardi Mallorca|Effect of Gibberelins and the Growth Retardant Ccc (Beta-Chloroethyltrimethylammonium Chloride) on the Nodulation of Soya|Plant Soil77(1): 53-60|1984|10.1007/BF02182811
32046|T||Davies,F.S.|Plant Growth Regulators in Florida Citrus Production|Citrus Ind.65(7): 26-31|1984|
32047|T||Roberts,H.A., and W. Bond|Evaluation of CME 127 for Weed Control in Drilled Vegetables|Ann. Appl. Biol.104(Suppl.): 78-79|1984|
32048|T||Meredith,F.I., G.W. Langdale, and G.G. Dull|"Effect of Ammonium Nitrate and Low-Level Foliar Treatments of Simazine on Some Chemical Components and Protein Quality of ""Pinkeye Purple Hull"" Pea Seeds"|J. Food Sci.49(1): 221-224|1984|10.1111/j.1365-2621.1984.tb13712.x
32049|T||Menzel,C.M.|Potato as a Potential Crop for the Lowland Tropics|Trop. Agric.61(3): 162-166|1984|
32050|T||Ravindran,C.S., K.P.M. Nair, and V.K. Sasidhar|Chemical Control of Weeds in Transplanted Rice|Pesticides 18(4): 39-40|1984|
32051|T||Evers,G.W.|Effect of Nitrogen Fertilizer, Clovers, and Weed Control on Coastal Bermudagrass and Pensacola Bahiagrass in Southeast Texas|Texas Agric. Exp. Stn. Misc. Publ.1546:1-5|1984|
32052|T||Kalia,P., R.S. Rattan, and S.S. Saini|Efficacy of Herbicides on Weed Control in Tomato|Veg. Sci.9(1): 5-7|1982|
32053|T||Donaldson,T.W.|Chemical Control of Prairie Ground Cherry (Physalis viscosa L.)|Aust. Weeds3(1): 13-15|1984|
32054|T||Black,I.D.|Evaluation of Herbicides in Sugarbeet Grown in Tasmania|Aust. Weeds3(1): 7-12|1984|
32055|T||Carter,R.J., and D.W. Stephenson|Potential Herbicides for Sunflower Crops in Southern Australia|Aust. Weeds2(3): 113-118|1983|
32056|T||Cooksley,D.G.|Tolerance of Leucaena leucocephala to Some Herbicides Applied Post-Emergence|Aust. Weeds2(3): 87-89|1983|
32057|T||Cooksley,D.G.|Weed Control in Leucaena leucocephala (Lam.) de Wit and Associated Toxicity Effects of Some Pre-Emergence Herbicides|Aust. Weeds2(4): 137-140|1983|
32058|T||Sanders,G.E., A.H. Cobb, and K.E. Pallett|Physiological Changes in Matricaria inodora Following Ioxynil and Bromoxynil Treatment|Z. Naturforsch. Sect. C J. Biosci.39(5): 505-509|1984|10.1515/znc-1984-0540
32060|T||Sathasivam,K., K.S. Palaniappan, and P. Balasubramaniyan|Effect of Combined Application of Pesticides and Urea on Nitrogen Uptake and Grain Yield of Lowland Rice|Madras Agric. J.69(12): 787-790|1982|
32062|T||Bhattacharjee,S.K., and M.B. Balakrishna|Propagation of Bougainvillea from Stem Cuttings II. Effect of Growth Regulators|Haryana J. Hortic. Sci.12(1/2): 13-18|1983|
32063|T||Reinhardt,C.F., and P.C. Nel|Effect of Stages of Application of Hormone-Type Herbicides on Seed Production of Sunflower (Helianthus annuus L.)|Crop Prod.12:104-107|1983|
32067|T||Rajagopal,A., and S. Sankaran|Studies on Methods of Weed Control in Tomato|Madras Agric. J.70(1): 11-14|1983|
32068|T||Hashimoto,S., O. Kirino, K. Furuzawa, and H. Ohshio|Specific Herbicidal Activity of N-(alpha,alpha-Dimethylbenzyl)-Butanamides Against Purple Nutsedge|J. Pestic. Sci. (Multiple Languages)8(4): 493-498|1983|10.1584/jpestics.8.493
32075|T||Catedral,I.G., and R.P. Cabangbang|Evaluation of Different Weed Control Methods for Cotton|Philipp. J. Crop Sci.7(3): 162-165|1982|
32076|T||Halvankar,G.B., and V.P. Patil|Effects of Agro-Chemicals on Recovery Period and Flowering in Tetraploid and Hexaploid Wheats|Biovigyanam9(2): 89-96|1983|
32077|T||Kabil,M.T., H.A. Moursy, M.A. Fayek, and F.H. Khalil|Effect of Some Growth Regulations on Chemical Composition and Keeping Quality of Birkher Apple Fruits|Egypt. J. Physiol. Sci.9(1/2): 79-90|1983|
32078|T||Umamahesh,V., K.C. Reddy, and S.M. Pandya|Effects of Two Herbicides on the Foliar Epidermis and Morphology of Celosia Argentea Linn|Geobios11(3): 128-130|1984|
32079|T||Gupta,M., and Y.S. Murty|Effect of Some Growth Regulators on Pollen Germination and Pollen Tube Growth of Vicia faba Var. T-44|Geobios10(4): 182-184|1983|
32080|T||Sauers,R.F., and G. Levitt|Sulfonylureas: new high Potency Herbicides|ACS Symp. Ser.255:21-28|1984|10.1021/bk-1984-0255.ch002
32081|T||Devi,L.S., and N.G. Perur|Alachlor Influences the Activities of Some Enzyme Systems in Groundnut Seedlings|Indian J. Weed Sci.14(1): 28-30|1982|
32082|T||Malik,Y.S., K.P. Singh, and M.L. Pandita|Chemical Weed Control in Onion (Allium Cepa L.)|Indian J. Weed Sci.14(1): 24-27|1982|
32083|T||Sinha,T.D., and S.T.O. Lagoke|Pre-Transplant Herbicides for Weed Control in Irrigated Onion (Allium cepa L.) in Northern Nigeria|Crop Prot.2(4): 455-462|1983|10.1016/0261-2194(83)90066-2
32085|T||Jeffers,D.L.|A Growth Retardant Improves Performance of Soybeans Relay Intercropped with Winter Wheat|Crop Sci.24(4): 695-698|1984|10.2135/cropsci1984.0011183X002400040017x
32086|T||Wolf,D.D., and C.L. Foy|Alfalfa Yield Response to a Between-Cutting Contact Herbicide|Crop Sci.24(4): 645-648|1984|10.2135/cropsci1984.0011183X002400040005x
32088|T||Williams,E.D.|The Influence of Seed Rate and Pesticides on the Establishment and Growth of White Clover Slot-Seeded into a Permanent Pasture|Grass Forage Sci.39(2): 201-204|1984|10.1111/j.1365-2494.1984.tb01682.x
32089|T||Scanlan,J.C., and G.W. Fossett|Herbicidal Control of Woody Weeds in Central Queensland 2. Dawson Gum (Eucalyptus cambageana), Bitterbark (Alstonia constricta) and Yellowwood (Terminalia oblongata)|Trop. Grassl.18(1): 33-38|1984|
32090|T||Scanlan,J.C.|Herbicidal Control of Woody Weeds in Central Queensland 1. Brigalow (Acacia harpophylla)|Trop. Grassl.18(1): 26-32|1984|
32091|T||Evers,G.W.|Subterranean Clover Herbicide Tolerance|Tex. Agric. Exp. Stn. Prog. Rep.4141:148-150|1983|
32094|T||Kvitzau,B., and K. Darrow|Chemical Control of Bugweed and Setaria Grass in the Eastern Transvaal|S. Afr. For. J.126:55-59|1983|10.1080/00382167.1983.9628898
32098|T||Makki,Y.M.|Effects of Some Growth Regulators on Safflower Yield and Yield Components (Carthams Tinctorius)|Proceedings -Conference on the Biological Aspects:|1981|
32101|T||Wickham,L.D., H.C. Passam, and L.A. Wilson|Tuber Development, Storage and Germination in Yams (Dioscorea Spp.) in Response to Preharvest Application of Plant Growth-Regulators|J. Agric. Sci.102(Pt.2): 437-442|1984|10.1017/S0021859600042787
32103|T||Attiya,H.J., R.J. Field, and G.D. Hill|Effect of Pp333 and Tiba Growth Regulators on Development and Yield Components of Spring Sown Field Beans|Proc. Agron. Soc. N.Z.13:81-86|1983|
32107|T||Comai,M., and L. Widmann|"A Comparison of Growth Regulators for the Chemical Thinning of ""Golden Delicious"""|Esp. Ric. Nuova Ser.12:43-52|1982|
32116|T||Clements,R.O., C.A. Jackson, and B.R. Bentley|The Effect of Nine Pesticide Treatments on the Establishment of An Italian Ryegrass (Lolium Multiflorum) Sward|Ann. Appl. Biol.Suppl.104:96-97|1984|
32117|T||Kettlewell,P.S., A.P. Richards, and L.D. Taylor|Effects of Growth Regulators on dry Matter Production and Yield of Oilseed Rape|Ann. Appl. Biol.Suppl.104:94-95|1984|
32118|T||Richardson,W.G., and A.G. Jones|Pre-Emergence Herbicides for Potential Control of Wild Mignonete (Reseda luteola)|Ann. Appl. Biol.104:90-91|1984|
32119|T||Richardson,W.G., and A.G. Jones|The Response of Impatiens roylei to Various Pre-Emergence Herbicides|Ann. Appl. Biol.104(Suppl.): 88-89|1984|
32120|T||Lawson,H.M., and J.S. Wiseman|The Post-Emergence Activity of Ten Herbicides on Volunteer Potato Seedlings|Ann. Appl. Biol.104((suppl.)): 86-87|1984|
32121|T||Richardson,W.G., A.G. Jones, and T.M. West|The Response of Oenothera Biennis to Post-Emergence Herbicides|Ann. Appl. Biol.Suppl.104:84-85|1984|
32122|T||Watt,T.A.|The Post-Emergence Selectivity of Eight Herbicides Between Perennial Ryegrass and Holcus Lanatus|Ann. Appl. Biol.Suppl.104:74-75|1984|
32123|T||Kralik,J., and J. Sebanek|Effect of Auxin Growth Regulators on Adventitious Root Formation from Basal and Apical Parts of Stem Cuttings in Common Alder (Alnus glutinosa L.)|Acta Univ. Agric. Fac. Agron.31(1/2): 5-11|1983|
32125|T||Singh,G., S. Singh, and S.B. Gurung|Effect of Growth Regulators on Rice Productivity|Trop. Agric.61(2): 106 - 108,157|1984|
32126|T||Szejtli,J.|Physiological Effects of Cyclodextrins on Plants|Starch35(12): 433-439|1983|
32127|T||Bhattacharjee,S.K.|Growth and Flowering of Jasminum Grandiflorum L. As Influenced by Growth Regulating Chemicals|Singap. J. Prim. Ind.11(1): 34-39|1983|
32130|T||Cruz,L.S.P., and S.Y. Saito|Use of Napropamide for Weed Control in Industrial Tomato Fields|Proc. Trop. Reg. Am. Soc. Hortic. Sci.25:439-444|1982|
32131|T||Miranda,R.M., and W.H. Carlson|Chemical Control of Petal Abscission in Hybrids of Pelargonium X Hortorum Bailey 'Sprinter Scarlet'|Proc. Trop. Reg. Am. Soc. Hortic. Sci.25:241-252|1982|
32132|T||Rozanski,A., H.G. Blanco, and L. Leiderman|Weed Control with Herbicides in Lettuce Crop (Lactuca Sativa)|Proc. Trop. Reg. Am. Soc. Hortic. Sci.25:55-59|1982|
32133|T||Langston,V.B., T.R. Harger, and P.S. Johnsey|Potential for Adventitious Regeneration of Selected Weed Species|Weed Sci.32(3): 360-363|1984|10.1017/S0043174500059130
32134|T||Somody,C.N., J. Nalewaja, and S.D. Miller|Wild Oat (Avena fatua) and Avena Sterilis Morphological Characteristics and Response to Herbicides|Weed Sci.32(3): 353-359|1984|10.1017/S0043174500059129
32135|T||Anderson,M.D., and W.E. Arnold|Weed Control in Sunflowers (Helianthus annuus) with Desmedipham and Phenmedipham|Weed Sci.32(3): 310-314|1984|10.1017/S0043174500059051
32136|T||Keeley,P.E., R.J. Thullen, C.H. Carter, and J.H. Miller|Control of Johnsongrass (Sorghum halepense) in Cotton (Gossypium hirsutum) with Glyphosate|Weed Sci.32(3): 306-309|1984|10.1017/S004317450005904X
32137|T||Stougaard,R.N., G. Kapusta, and G. Roskamp|Early Preplant Herbicide Applications for No-Till Soybean (Glycine max) Weed Control|Weed Sci.32(3): 293-298|1984|10.1017/S0043174500059014
32138|T||Dawson,J.H.|Effect of Carbaryl and PCMC on Dodder (Cuscuta spp.) Control with Chlorpropham|Weed Sci.32(3): 290-292|1984|10.1017/S0043174500059002
32139|T||Ferguson,L., F.S. Davies, M.A. Ismail, and T.A. Wheaton|Growth Regulator and Low-Volume Irrigation Effects on Grapefruit Quality and Fruit-Drop|Sci. Hortic.23(1): 35-40|1984|10.1016/0304-4238(84)90042-6
32141|T||Saran,B., and A.S. Mehta|Effect of Growth Regulators on the Sprouting and Germination of Mustard Seeds|Geobios10(6): 243-245|1983|
32144|T||Paliwal,N.K., and S. Agarwal|Effect of Ethephon on Seed Germination and Seedling Growth in Triticale|Comp. Physiol. Ecol.8(4): 257-258|1983|
32145|T||Sharma,K.D., and N.R. Singhvi|Effect of the Interaction of Some Chemicals on the Opening and Closing of the Stomata of Clematis Gouriana Roxb|Comp. Physiol. Ecol.8(4): 252-254|1983|
32146|T||Pandita,M.L., S.C. Pandey, and S.K. Arora|Effect of Protection Materials and Growth Regulators on the Production of An Early Crop of Tomato (Lycopersicon Esculentum Mill.)|Haryana Agric. Univ. J. Res.1(1): 61-69|1983|
32148|T||Mandal,B.B., P. Bandhyopadhyay, P.K. Jana, and S.P. Bhattacharya|Effect of Some Granular Herbicides on Weed Control and Yield of Tranplanted Rice|Oryza19(3/4): 219-221|1982|
32149|T||Kumar,P., and H.S. Gill|Weed Control in Direct-Seeded Rice Under Puddled Conditions|Oryza19(3/4): 162-166|1982|
32150|T||Morrison,I.N.|Environmental Factors Influencing the Response of Wild Oats to Herbicides|Can. Plains Proc.12:67-79|1983|
32151|T||Rahman,A., T.K. James, and J. Mortimer|A Comparison of Some Post-Emergence Herbicides for Control of Grass Weeds|Proc. N. Z. Weed Pest Control Conf.36:269-272|1983|10.30843/nzpp.1983.36.9612
32152|T||Kerse,G.W., F.A. Meeklah, and R.I. Sunde|HOE 35609 and HOE 33171:  Two New Selective Grass Herbicides|Proc. N. Z. Weed Pest Control Conf.36:265-268|1983|10.30843/nzpp.1983.36.9611
32153|T||Hurrell,G.A., G.W. Bourdot, and J.H.B. Butler|Timing of Herbicide Applications for Nodding Thistle Control in Canterbury|Proc. N. Z. Weed Pest Control Conf.36:93-95|1983|10.30843/nzpp.1983.36.9579
32154|T||Rhodes,P.J., and F.J. Tabley|Weed Control in Black Currant Cuttings (Ribes Nigrum)|Proc. N. Z. Weed Pest Control Conf.36:59-61|1983|10.30843/nzpp.1983.36.9620
32155|T||Balneaves,J.M., and B.J. Cosslett|A Preliminary Look at Dpx-6376 for Control of Mature Broom|Proc. N. Z. Weed Pest Control Conf.36:41-42|1983|10.30843/nzpp.1983.36.9587
32156|T||Henderson,J.D., and R.B. Claydon|Screening Red Clover Cultivars for Tolerance to 2,4-D|Proc. N. Z. Weed Pest Control Conf.36:21-24|1983|10.30843/nzpp.1983.36.9627
32159|T||Sandanam,S., N. Punyasiri, D. Perera, and A.K. Gamage|Chemical Control of Illuk (Imperata Cylindrica) (L.) Beauv|Tea Q.51(4): 180-184|1982|
32160|T||Okoli,P.S.O., P.N. Drolsom, and J.M. Scholl|Forage Production and Weed Control in A Double-Croppin Program|Agron. J.76(3): 363-366|1984|10.2134/agronj1984.00021962007600030003x
32161|T||Breay,T., and M. Atkinson|Codacide Oil, Pre-Emergence Herbicides and CDA|Br. Sugar Beet Rev.51(4): 29-30|1983|
32163|T||Breay,T.|New Herbicides for Grass Weed Control: Trial Results|Br. Sugar Beet Rev.51(1): 33-35|1983|
32164|T||Bray,B.|Sugar Beet Weed Control|Br. Sugar Beet Rev.51(1): 3-5|1983|
32165|T||Larson,R.A.|Enhancement of Azalea Production with Plant Growth Regulators|Sci. Hortic.34:102-109|1983|
32166|T||Davison,J.G.|Effective Weed Control in Amenity Plantings|Sci. Hortic.34:28-34|1983|
32167|T||Robinson,D.W.|The Use of Herbicides in Amenity Horticulture|Sci. Hortic.34:23-27|1983|
32168|T||Nakamura,A., O. Ikeda, H. Segawa, Y. Takeuchi, and T. Takematsu|Structure-Activity Relationship in Herbicidal Activity of 5-Chloro-2,3-Dicyanopyrazines Against Barnyardgrass (Echinochl Oa Crus galli)|Agric. Biol. Chem.47(12): 2923-2924|1983|
32169|T||Braun,J.W., and J.K.L. Garth|Growth and Fruiting of 'Heritage' Primocane Fruiting Red Raspberry in Response to Daminozide and Ethephon|J. Am. Soc. Hortic. Sci.109(2): 207-209|1984|10.21273/JASHS.109.2.207
32170|T||Blom,T.J., and B.D. Piott|Comparison Between Three Different Growth Regulators and Their Time of Application on the Development of Poinsettias|Can Flgh&Nu77(8): 8-9|1982|
32171|T||Paul,R., G.S. Mangat, and C.P. Malik|Effect of Some Plant Growth Regulators on Lipid Composition of Groundnut|J. Res. Punjab Agric. Univ.20(2): 164-168|1983|
32172|T||Quinlan,J.D., and E.M. Pakenham|Effects of Manual and Chemical Control of Lateral Shoots on the Growth of Young Ornamental Trees|J. Hortic. Sci.59(1): 45-50|1984|10.1080/00221589.1984.11515167
32173|T||Aujla,T.S., and S.S. Cheema|Profile Moisture Use and Yield of Chickpea (Cicer Arietinum L.) as Affected by Pre-Seeding Tillage and Application of Herbicide, Chemical Evaporation Retardant|Indian J. Ecol.10(2): 347-350|1983|
32175|T||Donald,D.G.M., and J.H. Kirby-Smith|Chemical Weed Control in the Production of Pines|S. Afr. For. J.123:14-18|1982|10.1080/00382167.1982.9628847
32176|T||Donald,D.G.M.|The Control of Pinus Pinaster in the Fynbos Biome|S. Afr. For. J.123:3-7|1982|10.1080/00382167.1982.9628845
32177|T||Gunther,C.|Seed Development and Germination Capacity of Stellaria Media and Urtica Urens as Influenced by Herbicidal Treatment During Flowering (Die Wirkung Verschiedener Herbizide auf die Samenentwicklung und Keimfahigkeit bei St|Nachrbl. Pflanzenschutz DDR (Multiple Languages)36(12): 245-247|1982|
32179|T||Zschau,K., G. Gunther, and G. Apelt|Well-Timed Weed Control in Chicory Root Production - Improved Herbicide Programs (Gezielte Unkrautbekampfung bei der Wurzelproduktion von Chicoree - Verbesserte Herbizidfolgen)|J. Kult.Pflanzen (Non-English)36(12): 238-240|1982|
32188|T||Turner,P.E.T.|Eptam Super and Sutan Plus for Control of Cyperus rotundus L. in Plant Crops of Sugarcane|Proc. S. Afr. Sugar Technol. Assoc.57:131-133|1983|
32192|T||Langeluddeke,P., H.U. Reuss, C. Ceconi, T.H. Manning, and M. Rottele|Glufosinate (HOE 39866), a New Non-Selective Contact Herbicide: Results of Several Years' Experimentation in Orchards and Vineyards from Different European Countries|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)47(1): 95-104|1982|
32197|T||Sharaky,M.M., and N.H. Kamel|Effect of CCC on Nucleic Acid Contents of Maize, Summer Squash Plants and Senescent Bean Leaf Segments Kept in Darkness|Ann. Agric. Sci.19(1): 171-184|1983|
32198|T||Kamel,M.S., M.S. Abdel-Raouf, E.A. Mahmoud, and R.B. Bayoumi|Response of Corn and Soybean to Some Intercropping Systems and Chemical Herbicides Under Egyptian Conditions|Ann. Agric. Sci.19(1): 27-44|1983|
32200|T||Singh,M., S.C. Phatak, and N.C. Glaze|Response of Two Container-Grown Ilex Species to Preemergence Herbicides|Hortscience19(1): 117-119|1984|10.21273/HORTSCI.19.1.117
32201|T||Gilliam,C.H., J.S. Crockett, and C. Pounders|Bermudagrass Control in Woody Ornamentals with Postemergence-Applied Herbicides|Hortscience19(1): 107-109|1984|10.21273/HORTSCI.19.1.107
32205|T||Sarhan,A.Z., and A.A. El Sayed|Effect of Some Growth Regulators on Growth and Flowering of Snapdragon Plants (Antirrhinum Majus L.)|Ann. Agric. Sci.19:419-426|1983|
32206|T||Sarhan,A.Z., and A.A. El Sayed|Effect of Some Growth Regulators on Growth and Oil Quantity of Carum Carvi L. Plants|Ann. Agric. Sci.19(2): 411-417|1983|
32207|T||Chodova,D.|The Effect of Fluazifop-Butyl on Some Physiological Processes in Sugarbeet and Avena Fatua|Fragm. Herbol. Jugosl.11(2): 53-58|1982|
32208|T||Jankovic,R., and V. Bugarcic|Efficiency of Some Herbicides in Nurseries of Stone Fruit Species|Fragm. Herbol. Jugosl.11(2): 41-52|1982|
32209|T||Jankovic,R., V. Bugarcic, and R. Subotic|Efficiency of Some Herbicides in Raspberry Plantation|Fragm. Herbol. Jugosl.11(2): 25-32|1982|
32210|T||Sinzar,B., V. Janjic, M. Misovic, M. Trifunovic, and V. Bogdanovic|Studies of Effectiveness and Influence of Herbicides on Sunflower Crops|Fragm. Herbol. Jugosl.11(2): 11-24|1982|
32213|T||Killilea,D.M.|Chemical Control of Lantana camara L. 3. The Use of Bromacil and Tebuthiuron|Zimb. J. Agric. Res.21(1): 69-72|1983|
32214|T||Killilea,D.M.|Chemical Control of Lantana Camara L. 2. Foliar Spray Applications of Vaious Arboricides|Zimb. J. Agric. Res.21(1): 59-67|1983|
32215|T||Killilea,D.M.|Chemical Control of Lantana Camara L. 1. Application of Chemicals to Cut Stems|Zimb. J. Agric. Res.21(1): 51-57|1983|
32221|T||De Robbillard,P.J.M.|Preliminary Observations on Pre-Harvest Sprays of Glyphosate to Improve the Profitability of Minimum Tillage in Sugarcane|Proc. S. Afr. Sugar Technol. Assoc.56:125-126|1982|
32222|T||Donaldson,R.A., and N.G. Inman-Bamber|Residual Effect of Glyphosate as a Ripener on Sugarcane|Proc. S. Afr. Sugar Technol. Assoc.56:122-124|1982|
32223|T||Foldesi,D.|System of Chemical Weed Control of Poppy Crops (Papaver Somniferum L.) (A mak (Papaver somniferum L.) Vegyszeres Gyomirtasi Rendszere)|Herba Hung.21(1): 83-89|1982|
32226|T||Eccher,T.|Control of Russeting of Golden Delicious Apples by Growth Regulator Treatments|Acta Hortic.137:375-382|1983|10.17660/ActaHortic.1983.137.44
32227|T||Costa,G., C. Giulivo, and A. Ramina|"Influence of Growth Regulators on Apple Fruit Cracking (Cv ""Stayman Red"")"|Acta Hortic.137:367-374|1983|10.17660/ActaHortic.1983.137.43
32228|T||Nothmann,J.|Varietal Response of Different Eggplant Cultivars to Plant Growth Regulator Treatments|Acta Hortic.137:315-320|1983|10.17660/ActaHortic.1983.137.36
32229|T||Sampaio,V.R., P.R.C. Castro, A.F.L. Olitta, and C.G.B. Demetrio|Effect of Growth Regulators on 'Anna' Apple Flowering|Acta Hortic.137:255-260|1983|10.17660/ActaHortic.1983.137.28
32230|T||Gur,A., and P. Sarig|Application of Growth Regulators to Peach and Apple Trees Growing Under Stress Conditions in Shallow and Stony Soils|Acta Hortic.137:153-168|1983|10.17660/ActaHortic.1983.137.16
32231|T||Prakash,J., and S.K. Pahwa|Effect of Some New Herbicides on Growth and Chlorophyll Content of Mung Bean|Pestology6(12): 30-31|1982|
32232|T||Bhattacharya,S.P., and D. Pal|Screening of Different Types of Herbicides in Controlling Various Types of Weeds in Wheat|Pestology6(8): 17-19|1982|
32233|T||Sankaran,S., and P. Thiagarajan|Study on New Herbicide Formulations in Planted Rice (var. Bhavani)|Pestology6(8): 9-12|1982|
32234|T||Sarma,P.S., and P.V. Reddy|Chemical Weed Control in Acid Lime Orchards (Citrus aurantifolia (Christm.)Swing)|Pestology6(4): 23-25|1982|
32237|T||Smid,A.E., and J.M. Bodnar|Ethephon on Barley. Standing Strong in the Field|Highlights Agric. Res. Ont.6(3): 10-13|1983|
32240|T||Azarian,K.G., N.M. Melikian, and S.S. Papian|Effect of Growth Regulators on the Anatomical Sturcture of Potato Leaves|Biol. Zh. Arm. (Non-English)35(1): 69-72|1982|
32241|T||Pieterse,B.J., P.S. Hammes, and P.C. Nel|Manipulation of Potato Tuber Size with Growth Retardants|Crop Prod.11:95-96|1982|
32243|T||Johri,B.M., M. Jayakaran, and A.P. Raste|Effect of Chlorflurenol-N-Hexylester on Capsicum annuum|Phytomorphology31(1-2): 93-100|1981|
32244|T||Takemastu,T., M. Konnai, and Y. Takeuchi|Studies on the Control of Annual Bluegress (Poa annua) in Turf|J.Jpn.Turfgrass Res.Assoc.(Shibakusa Kenkyu)11(2): 183-188|1982|
32245|T||Misra,R.S., S.B. Singh, and D.N. Awathi|Effect of Plant Growth Regulators and Ascorbic Acid on Germination and Growth of Malta Common Seedlings (Citrus Sinensis Osbeck) in Garhwal Hills|Prog. Hortic.14(2/3): 165-168|1982|
32246|T||Hammon,D.R., and W.A. Meadows|Performance of Six Preemergence Herbicides on Container Grown Woody Ornamentals|SNA Nursery Res.J.9(1): 8-16|1983|
32247|T||Abdalla,M.M.F., T.Y. Rizk, A.S. El Beltagy, and M.A. Maksoud|Evaluation of Some Herbicides in Potato Field (A) Effect on Weeds|Ann. Agric. Sci.27(1/2): 255-274|1982|
32248|T||Sheppard,B.W., M.C. Richards, and J.A. Pascal|Agronomic Effect from the Control of Agropyron repens in Barley by Pre-Harvest Application of Glyphosate|Weed Res. (Multiple Languages)24(1): 9-16|1984|10.1111/j.1365-3180.1984.tb00565.x
32267|T||Evensen,C.I.|Chemical and Non-chemical Control of Leucaena:  Preliminary Studies|Leucaena Res.Rep.3:79-80|1982|
32268|T||Bangal,D.B., S.N. Deshmukh, and V.A. Patil|Note on the Effect of Growth Regulators and Urea on Yield and Yield Attributes of Gram (Cicer Arietinum L)|Legume Res.5(1): 54-56|1982|
32269|T||Clements,R.O., and B.R. Bentley|The Effect of Three Pesticide Treatments on the Establishment of White Clover (Trifolium repens) Sown with a Slot-Seeder|Crop Prot.2(3): 375-378|1983|10.1016/0261-2194(83)90012-1
32270|T||Lagoke,S.T.O., D.J. Chandra-Singh, and O.O. Ologunde|Pre-Emergence Chemical Weed Control in 'Egusi' Melon (Citrullus lanatus Thunb. Mansf) in the Southern Guinea Savanna of Nigeria|Crop Prot.2(2): 235-242|1983|10.1016/0261-2194(83)90050-9
32271|T||Putnam,A.R., and J. DeFrank|Use of Phytotoxic Plant Residues for Selective Weed Control|Crop Prod.2(2): 173-181|1983|
32272|T||Griffin,J.L., G.A. Jung, and N.L. Hartwig|Forage Yield and Quality of Brassica sp. Established Using Preemergence Herbicides|Agron. J.76(1): 114-116|1984|10.2134/agronj1984.00021962007600010028x
32273|T||White,L.M.|Foxtail Barley Heading, Yield, and Quality as Influenced by Growth Regulators and a Desiccant|Agron. J.76(1): 27-30|1984|10.2134/agronj1984.00021962007600010008x
32276|T||Wyse,D.L., L.J. Elling, D.B. White, and R.L. McGraw|Quackgrass (Agropyron repens) Control in Red Fescue Seed Production|Weed Sci.43(1): 94-97|1986|10.1017/S0043174500026527
32277|T||Baltensperger,D.D., and D.H. Teem|Herbicide Interaction with Alyceclover|In: Prog.Rep., Clovers and Special Purpose Legumes Research, Dep.of Agron., Univ.of Wisc.16:5-6|1983|
32280|T||Cole,D.|Oxidation of Xenobiotics in Plants|Prog. Pestic. Biochem. Toxicol.3:199-254|1983|
32281|T||Dodge,A.D.|The Mode of Action of Herbicides|Prog. Pestic. Biochem. Toxicol.3:163-197|1983|
32282|T||Dirr,M.A., and J.J. Frett|Rooting of Hypericum 'Hidcote' as Affected by Selected Growth Regulator Formulations|Plant Propag.29(3): 6-7|1983|
32284|T||Sturges,D.L.|Long-Term Effects of Big Sagebrush Control on Vegetation and Soil Water|J. Range Manag.36(6): 760-765|1983|10.2307/3898204
32285|T||Singh,M., and D.P.H. Tucker|Preemergence Herbicides for Container-Grown Citrus|Hortscience18(6, Sect.1): 950-952|1983|10.21273/HORTSCI.18.6.950
32286|T||Frost,D.J., S.F. Gorske, and E.C. Wittmeyer|Summer Squash Tolerances to Selected Herbicides|Hortscience18(6, Sect.1): 911-912|1983|10.21273/HORTSCI.18.6.911
32287|T||Reed,D.W., and A.E. Nightingale|Height Control in Chrysanthemum As Affected by Foliar Spray Solution Ph of Several Growth Retardants|Hortscience18(6, Sect. 1): 881-882|1983|10.21273/HORTSCI.18.6.881
32288|T||Struve,D.K., and B.C. Moser|Auxin Effects on Root Regeneration of Scarlet Oak Seedlings|J. Am. Soc. Hortic. Sci.109(1): 91-95|1984|10.21273/JASHS.109.1.91
32289|T||Lima,J.E.O., and F.S. Davies|Growth Regulators, Fruit Drop, Yield, and Quality of Navel Orange in Florida|J. Am. Soc. Hortic. Sci.109(1): 81-84|1984|10.21273/JASHS.109.1.81
32290|T||Christians,N.E., and J. Nau|Growth Retardant Effects on Three Turfgrass Species|J. Am. Soc. Hortic. Sci.109(1): 45-47|1984|10.21273/JASHS.109.1.45
32291|T||Lee,T.T., T. Dumas, and J.J. Jevnikar|Comparison of the Effects of Glyphosate and Related Compounds on Indole-3-Acetic Acid Metabolism and Ethylene Production in Tobacco Callus|Pestic. Biochem. Physiol.20(3): 354-359|1983|10.1016/0048-3575(83)90110-4
32293|T||Maclean,D.A., and M.G. Morgan|Long-Term Growth and Yield Response of Young Fir to Manual and Chemical Release from Shrub Competition|For. Chron.59(4): 177-183|1983|10.5558/tfc59177-4
32295|T||Townsend,C.E., and E.E. Schweizer|Tolerance of Cicer Milkvetch (Astragalus cicer) Seedlings to Herbicides|Weed Sci.32(1): 37-42|1984|10.1017/S0043174500058483
32296|T||Hosaka,H., H. Inaba, and H. Ishikawa|Response of Monocotyledons to BAS 9052|Weed Sci.32(1): 28-32|1984|10.1017/S004317450005846X
32297|T||Eberlein,C.V., and R. Behrens|Propanil Selectivity for Green Foxtail (Setaria viridis) in Wheat (Triticum aestivum)|Weed Sci.32(1): 13-16|1984|10.1017/S0043174500058422
32298|T||Bovey,R.W., H.,Jr. Hein, and R.E. Meyer|Effect of Herbicides on the Production of Common Buffelgrass (Cenchrus ciliaris)|Weed Sci.32(1): 8-12|1984|10.1017/S0043174500058410
32299|T||Dernoeden,P.H., T.L. Watschke, and J.K. Mathias|Goosegrass (Eleusie indica) Control in Turf in the Transition Zone|Weed Sci.32(1): 4-7|1984|10.1017/S0043174500058409
32300|T||Puri,S., S.D. Bhardwaj, and L.J. Srivastava|Studies on the Effect of Growth Regulators on Yield of Digitalis lanata Ehrh. (EC 115996)|In: P.K.Khosla (Ed.), Improvement of Forest Biomass: Symposium Proceedings, Indian Soc.Tree Scientists, Solan, India1982:255-260|1982|
32301|T||Thompson,J.A., G.D. Weston, and T.H. Thomas|The Effect of Plant Age at the Time of Treatment on the Response of Radish to Daminozide|Sci. Hortic.22(1-2): 33-37|1984|10.1016/0304-4238(84)90080-3
32306|T||Arora,S.K., M.L. Pandita, and A.S. Sidhu|Effect of Various Plant Growth Regulators on Vegetative Growth, Sex-Expression and Fruit Yield in Summer Squash (Cucurbita Pepo L.)|Haryana Agric. Univ. J. Res.1(4): 598-604|1982|
32307|T||Tosh,G.C., D.C. Mohanty, and K.C. Nanda|Herbicides for the Control of Weeds in Interplanted Pineapples and Bananas in India|Trop. Pest Manag.28(4): 431-432|1982|10.1080/09670878209370752
32308|T||Yadav,S.K., V.M. Bhan, and S.P. Singh|Evaluation of Herbicides for Weed Control in Mung Bean|Trop. Pest Manag.28(4): 359-361|1982|10.1080/09670878209370741
32309|T||Bacon,P.S.|The Chemical Control of Merremia Spp. in Forestry Plantations on the Solomon Islands|Trop. Pest Manag.28(4):355-358|1982|10.1080/09670878209370740
32310|T||Kanwar,R.S., and B.S. Bains|Comparative Tests of Pre-Emergence Herbicides for Weed Control in Spring-Planted Sugarcane|Trop. Pest Manag.28(3): 317-319|1982|10.1080/09670878209370731
32311|T||Magambo,M.J.S., and C.I. Kilavuka|Effect of Glyphosphate on Shoot Growth of Tea|Trop. Pest Manag.28(3): 315-316|1982|10.1080/09670878209370730
32312|T||Ibrahim,A.A.S.|Efficiency of Some Herbicides for Weed Control in Sugarcane|Trop. Pest Manag.28(3): 255-258|1982|10.1080/09670878209370718
32313|T||Halvankar,G.B., and V.P. Patil|Effects of Agro-Chemicals on Germination in Tetraploid and Hexaploid Wheats|Biovigyanam9(1): 27-32|1983|
32314|T||Bingham,S.W., and R.E. Schmidt|Influence of Pre-Emergence Herbicides on Root Development of Agrostis stolonifera Sod|Weed Res. (Multiple Languages)23(6): 339-346|1983|10.1111/j.1365-3180.1983.tb00557.x
32315|T||Iqbal,J., M.M. Karim, N. Islam, and N. Begum|An Evaluation of Basalin Against Mechanical Methods of Weed Control in Jute (Corchorus capsularis var. D-154)|Bangladesh J. Agric.6/7:5-11|1981|
32316|T||Ugolik,M., M. Lesniczak, D. Ugolik, and M. Gawecka|Influence of Growth Regulator Treatments on the Fruit Setting and Weight of Sour Cherry Koch'S Ostheimer Cv. Fruits|Pr Poznan Tow Przy Nauk Wydz Nauk Roln Lesn53:249-|1982|
32317|T||Pacholak,E.|Use of Herbicides in Weed Control in Intensive Apple Orchards|Pr Poznan Tow Przy Nauk Wydz Nauk Roln Lesn53:212-|1982|
32318|T||Holubowicz,T., and S. Musiala|Effect of Some Growth Regulators on Growth Lignification and Frost Resistance of One-Year Old Peach Shoots|Pr Poznan Tow Przy Nauk Wydz Nauk Roln Lesn53:109-|1982|
32319|T||Choudhary,A.H.|Weed Control in Groundnut in Irrigation Projects in Nigerian Savanna|Trop. Pest Manag.29(3): 277-283|1983|10.1080/09670878309370816
32320|T||Grzyb,Z.S.|Growth and Rooting of Brompton Plum, F12/1 Cherry and M26 Apple Clonal Rootstocks Iv. Biological Activity of Endogenous Growth Regulators in the Shoots of Clon|Fruit Sci. Rep. (Skierniewice)9(2): 45-54|1982|
32322|T||Bailey,A.W., and W.D. Willms|Effect of Herbicide with and Without Burning on Aspen Poplar Forest|Aspen Bibliogr. Pap. No. 4211, http://digitalcommons.usu.edu/aspen_bib/4211:70-72|1983|
32323|T||Shaltout,A.D., and C.R. Unrath|Effect of Some Growth Regulators and Nutritional Compounds As Substitutes for Chilling of 'Delicious' Apple Leaf and Flower Buds|J. Am. Soc. Hortic. Sci.108(6): 898-901|1983|10.21273/JASHS.108.6.898
32324|T||Leary,W.P., and E.S. Oplinger|Effect of Plant Growth Regulators and Nitrogen on the Agronomic Performance of Small Grain Crops|Proc. Plant Growth Regul. Soc. Am.10:277-286|1983|
32325|T||Lay,C., and C.D. Dybing|Effects of Plant Growth Regulators Which Delay Senescence on Seed and Oil Yields in Oilseeds|Proc. Plant Growth Regul. Soc. Am.10:270-276|1983|
32326|T||Takahashi,K., and P.B. Kaufman|Growth Regulation of Rice Seedlings|Proc. Plant Growth Regul. Soc. Am.10:228-234|1983|
32327|T||Greene,D.W., and J. Murray|Effect of Paclobutrazol (Pp333) and Analogs on Growth, Fruit Quality and Storage Potential of 'Delicious Apples|Proc. Plant Growth Regul. Soc. Am.10:207-212|1983|
32328|T||Hield,H.|Early Responses with El500 and Paclobutrazol Trunk Banding of Ornamental Trees|Proc. Plant Growth Regul. Soc. Am.10:182-190|1983|
32329|T||Kaufmann,J.E., J.J. Sandbrink, S.J. Stehling, and P.S. Thibodeau|Cool-Season Grass Reponse to Mon-4620 Applications Site and Timing|Proc. Plant Growth Regul. Soc. Am.10:61-67|1983|
32330|T||Kumar,S., R. Kumar, R.S. Sharma, M.N. Hoda, and U.P. Singh|Effect of Growth Regulators on Litchi (Litchi chinensis)|Indian J. Hortic.38(3/4): 191-194|1981|
32331|T||Singh,H., and R. Singh|Effect of Plant Growth Regulators and Manuring on the Fruit Quality of Phalsa (Grewia subinaequalis)|Indian J. Hortic.38(3/4): 157-161|1981|
32332|T||Saini,H.S., B.S. Dhillon, S. Singh, and J.S. Randhawa|Effect of Ga3 (Gibberellic Acid) on Fruit Set, Growth, Retention and Parthenocarpy in Peaches|Indian J. Hortic.38(3/4): 148-152|1981|
32334|T||Robinson,R.C.|Experiences with Four Types of Cereal Herbicides Applied as CDA (Controlled Droplet Application) Sprays in Volumes of 10-50 1/Ha|Asp. Appl. Biol.1:269-280|1982|
32335|T||Kyndt,C.F.A., and P. Fallon|Further Trials with An Hbn: Phenoxyalkanoic Herbicide Applied at Various Growth Stages in Winter Cereals|Asp. Appl. Biol.1:219-226|1982|
32336|T||Tottman,D.R.|The Effects of Broad-Leaved Weed Herbicides Applied to Cereal Crops at Different Growth Stages|Asp. Appl. Biol.1:201-210|1982|
32337|T||Reid,D.F., and R.G. Jones|An Evaluation of a Novel Herbicide Formulation for Cereal Broad-Leaved Weed Control in Scotland|Asp. Appl. Biol.1:137-144|1982|
32338|T||Mcateer,S.|Evaluation of Chlorsulfuron for Use on Spring Barley in N. Ireland|Asp. Appl. Biol.1:131-136|1982|
32339|T||Orson,J.H.|Annual Broad-Leaved Weed Control in Winter Wheat and Winter Barley, Autumn and Spring Treatments Compared|Asp. Appl. Biol.1:43-51|1982|
32340|T||Maksoud,M.A., T.Y. Rizk, T. Fayed, I.I. El Oksh, and H.M. Ibrahim|Morhological and Histological Changes in Tomato Seedlings in Response to Herbicides|Ann. Agric. Sci.26(1/2): 261-277|1981|
32343|T||Martin,N.R., C.C. Sheaffer, D.L. Wyse, and D.A. Schriever|Herbicide and Planting Data Influence Establishment of Sod-Seeded Alfalfa|Agron. J.75(6): 951-955|1983|10.2134/agronj1983.00021962007500060022x
32344|T||Bingham,S.W., and R.E. Schmidt|Turfgrass Establishment After Application of Preemergence Herbicides|Agron. J.75(6): 923-926|1983|10.2134/agronj1983.00021962007500060016x
32345|T||Gerrish,J.R., and C.T. Dougherty|Tall Fescue Sward Response to Mefluidide and Nitrogen|Agron. J.75(6): 895-898|1983|10.2134/agronj1983.00021962007500060010x
32346|T||Hampton,J.G., T.G.A. Clemence, and P.D. Hebblethwaite|Nitrogen Studies in Lolium Perenne Grown for Seed IV. Response of Amenity Types and Influence of a Growth Regulator|Grass Forage Sci.38(2): 97-105|1983|10.1111/j.1365-2494.1983.tb01627.x
32349|T||Johnson,B.J.|Treatment Effects for Crabgrass Control from Winter-Applied Atrazine in Turf|Res. Rep. Univ. Ga. Coll. Agric. Exp. Stn.436:1-7|1983|
32350|T||Turner,P.E.T.|Some Results of Pre-Emergence Herbicide Screening Trials in the South African Sugar Industry|In: Proceedings of the Fourth National Weeds Conference of South Africa, Pretoria:119-128|1982|
32351|T||Cairns,A.L.P.|Induction of Dormancy and Gibberellic Acid Insensitivity in Avena fatua Seeds by Saccarides|In: Proceedings of the Fourth National Weeds Conference of South Africa, Pretoria:75-81|1982|
32352|T||Cairns,A.L.P.|The Use of DPX 4189 in the Western Cape|In: Proceedings of the Fourth National Weeds Conference of South Africa, Pretoria:69-74|1982|
32353|T||Richards,P.V.M.|Weed Control in Cotton in Zimbabwe|In: Proceedings of the Fourth National Weeds Conference of South Africa, Pretoria:61-68|1982|
32354|T||Zimmermann,H.G., D.E. Malan, and B.D. Viljoen|Screening of Some Water Based Hericides for Jointed Cactus|In: Proceedings of the Fourth National Weeds Conference of South Africa, Pretoria:21-49|1982|
32355|T||Isaeva,L.I.|Chemical Control of Weeds in Seed Producing Vegetable and Potato Crops|Dostizh. S-kh. Nauki Prakt. Ser. 1 Zemled. Rastenievod.7:3-12|1981|
32357|T||Subbian,P.|Effect of Herbicides on Transplanted Rice (Ir. 20)|Madras Agric. J.70(6): 372-374|1983|
32361|T||Orson,J.H.|The Control of Volunteer Cereals in Winter Oilseed Rape. Agricultural Development and Advisory Service Results, Harvest Years 1982 and 1983|Asp. Appl. Biol.6:179-184|1984|
32362|T||Mason,W.L., and J.S.P. Sale|Herbicides for Use on Stand-Over Seedbeds|Asp. Appl. Biol.6:409-420|1984|
32363|T||Robinson,R.C.|Systems of Bracken Control Using Asulam|Asp. Appl. Biol.6:321-332|1984|
32364|T||Scott,R., and R.H. Marrs|Impact of Japanese Knotweed and Methods of Control|Asp. Appl. Biol.6:291-296|1984|
32365|T||Marrs,R.H.|Control of Some Woody Weeds in Nature Reserves|Asp. Appl. Biol.6:151-160|1984|
32366|T||Chistensen,P.|Review of Danish Results from Chemical/Mechanical Control of Deciduous Vegetation|Asp. Appl. Biol.6:135-142|1984|
32367|T||McCavish,W.J., and D.J. Turner|The Herbicide Terbuthylazine--A Review of Its Potential for Forestry Use|Asp. Appl. Biol.6:81-88|1984|
32369|T||Davies,R.J.|Weed Control for Amenity Trees on Man-Made Sites|Asp. Appl. Biol.6:55-64|1984|
32370|T||Lo,Y.N.|Root Initiation of Shorea Macrophylla Cuttings: Effects of Node Position , Growth Regulators and Misting Regime|For. Ecol. Manag.12(1): 43-52|1985|10.1016/0378-1127(85)90135-5
32371|T||Amme,D.|Controlling Purple Star Thistle: A Case Study|Fremontia13(2): 22-23|1985|
32372|T||Inder Singh,M., and G.S. Chohan|Effect of Various Plant Growth Regulators on Granulation in Citrus Cv. Dancy Tangerine|Indian J. Hortic.41(3/4): 221-224|1984|
32373|T||Walia,U.S., and H.S. Gill|Interactions Between Herbicides and Nitrogen in the Control of Phalaris minor in Wheat|Trop. Pest Manag.31(3): 226-231|1985|10.1080/09670878509370988
32374|T||Moss,S.R.|The Effect of Cultivation System and Soil Factors on the Performance of Herbicides Against Alopecurus myosuroides|Ann. Appl. Biol.107(2): 253-262|1985|10.1111/j.1744-7348.1985.tb01568.x
32376|T||Guldin,R.W.|Loblolly and Shortleaf Pine Differ in Their Response When Released Using Herbicide Sprays|Usfs Gr So54:287-291|1985|
32377|T||Wright,G.M., P.E. Pope, B.C. Fischer, H.A. Holt, and W.R. Byrnes|Chemical Weed Control to Establish Natural and Artificial Oak Regeneration in A Mechanically Thinned Upland Hardwood Stand|Usfs Gr So54:266-272|1985|
32378|T||Burnside,O.C., and R.S. Moomaw|Influence of Weed Control Treatments on Soybean Cultivars in An Oat-Soybean Rotation|Agron. J.76(6): 887-890|1984|10.2134/agronj1984.00021962007600060007x
32380|T||Johnson,B.J., and R.E. Burns|Effect of Timing of Spring Applicatons of Herbicides on Quality of Bermudagrass (Cynodon dactylon) Turf|Weed Sci.33(2): 238-243|1985|10.1017/S0043174500082175
32381|T||Colvin,D.L., G.R. Wehtje, M. Patterson, and R.H. Walker|Weed Management in Minimum-Tillage Peanutes (Arachis Hypogaea) As Influenced by Cultivar, Row Spacing, and Herbicides|Weed Sci.33(2): 233-237|1985|10.1017/S0043174500082163
32385|T||Nawar,M.T.A., A.F. El Shourbagy, E.A. El Gharib, and A.M. Okaz|Effect of Ccc and Tiba at Different Application Rate and Timing on Some Properties of Cotton Lint|Ann. Agric. Sci.21(1): 17-24|1984|
32386|T||Griffin,J.L., R.J. Habetz, and R.P. Regan|Soybean Weed Control Studies|La. Agric. Exp. Stn.76:324-342|1984|
32387|T||Griffin,J.L., and R.W. Taylor|Herbicidal Control of Cover Crops|La. Agric. Exp. Stn.76:321-323|1984|
32388|T||Baker,J.B., and J.W. Shrefler|Rice Weed Control Studies|La. Agric. Exp. Stn.76:165-171|1984|
32389|T||Khazhakian,K.H.K., A.G. Devedzhian, and K.V. Egibian|Fruiting Regulation in Cucumbers in Hydroponics with the Aid of Physiologically Active Compounds|Biol. Zh. Arm. (Non-English)36(8): 695-699|1983|
32391|T||Ahrens,W.H., and W.G. Pill|Gel-Incorporated Glyphosate for Perennial Weed Control|Hortscience20(1): 64-66|1985|10.21273/HORTSCI.20.1.64
32392|T||Jagschitz,J.J.|Effect of Herbicides on Turfgrass Renovation|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:258-263|1984|
32393|T||Bing,A., and M. Macksel|1983 Postplant Preemergence Weed Control on Annual Flowering Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:233-237|1984|
32394|T||Bellinder,R.R., T.E. Hines, and H.P. Wilson|Herbicide Programs and Tillage Systems for Cabbage|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:191-194|1984|
32395|T||Degregorio,R.E., and R.A. Ashley|Growth of Bean/Crabgrass Planted Clover at 3 Phosphorus Levels|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:120-124|1984|
32399|T||Stinchcombe,G.R., and K.G. Stott|A Comarison of Herbicide-Controlled Orchard Ground Cover Management Systems on the Vigor and Yields of Apples|J. Hortic. Sci.58(4): 477-489|1983|10.1080/00221589.1983.11515146
32400|T||Knight,J.N.|Chemical Defoliation of Nursery Stock II. the Use of 2,3-Dihydro-5,6-Dimethyl-1,4 Dithiin-1,1,4,4-Teroxide (N252) and Other Growth Regulators on St. Julien A Plum Stockroot and Quercus rubra|J. Hortic. Sci.58(4): 465-469|1983|10.1080/00221589.1983.11515144
32401|T||Thibodeau,P.S., J.E. Kaufmann, S.H. Stehling, and J.J. Sandbrink|The First Turfgrass Pgr (Plant Growth Regulator) with Efficacy, Safety, and Uniform Acitvity for the Fine Quality Lawn Turfs|Proc. Plant Growth Regul. Soc. Am.10:57-60|1983|
32402|T||Singh,B.N.|Herbicidal Control of Weeds in Potato in Simla Hills|Indian J. Agron.28(1): 76-78|1983|
32403|T||Yogaratnam,V., E.M. Balasubramaniam, and W.G. Perera|Chemical Weed Control in Carrots in the Upcountry Wet Zone|Trop. Agric.138:81-91|1982|
32408|T||Suryanarayana,V., and K. Venkatewara Rao|Effect of Growth Regulators on Air-Layering of Figs and Pomegranate|Andhra Agric. J.31(1): 54-58|1984|
32409|T||Lewis,J.B., S.M. Zedaker, and D.W. Smith|Control of Stump Sprouting in Piedmont Hardwoods|Proc. South. Weed Sci. Soc.37:182-191|1984|
32410|T||O'Sullivan,P.A., and V.C. Kossatz|Tolerance of Glenlea and Neepawa Wheat to Clopyralid|Can. J. Plant Sci.64(4): 1023-1025|1984|10.4141/cjps84-140
32411|T||Shillo,R., A. Weiner, and A.H. Halevy|Environmental and Chemical Control of Growth and Flowering of Chamelaucium Uncinatum Schauer|Sci. Hortic.25:287-297|1985|10.1016/0304-4238(85)90127-X
32412|T||Barnett,G.M., R. Rioux, and J.E. Comeau|Soil Preparation, Herbicides, and Seeding Dates for Barley Production|Can. J. Plant Sci.64(1): 1-8|1984|10.4141/cjps84-001
32413|T||Sinha,T.D., and S.T.O. Lagoke|Chemical Weed Control in Irrigated Tomatoes in Northern Nigeria|Trop. Pest Manag.30(1): 18-21|1984|10.1080/09670878409370845
32414|T||Roberts,H.A., and W. Bond|Evaluation of AC 252,214 for Weed Control in Drilled Vegetable Crops|Ann. Appl. Biol.104(Suppl.): 80-81|1984|
32415|T||Evers,G.W.|Evaluation of Herbicides on Subterranean Clover|Prog. Rep. Clovers Spec. Purp. Legumes Res.16:67-69|1983|
32417|T||Smith,S.M., D.S. Johnson, and J. Mori|The Effect of the Growth Regulator Ethephon on the Qualtity of Discovery Apples During Simulated Marketing|J. Hortic. Sci.60(3): 305-310|1985|10.1080/14620316.1985.11515633
32418|T||Watson,M.J., and A.N. Cilchrist|Weed Control in Seedling Sulla|Proc. N. Z. Weed Pest Control Conf.36:33-37|1983|10.30843/nzpp.1983.36.9630
32419|T||Suryanarayana,V., and K.V. Rao|Effect of Growth Regulators on Air-Layering of Mango, Lemon and Ber|Andhra Agric. J.31(2): 126-131|1984|
32420|T||Mattoo,A.K., and M. Edelman|Intramembrane Translocation and Posttranslational Palmitoylation of the Chloroplast 32-Kda Herbicide-Binding Protein|Proc. Natl. Acad. Sci. U.S.A.84(6): 1497-1501|1987|10.1073/pnas.84.6.1497
32421|T||Bonanno,A.R., T.J. Monaco, and L.K. Hammett|Sweet Potato Transplant Production as Influenced by Herbicide Applications the Previous Season|Hortscience21(6): 1351-1353|1986|10.21273/HORTSCI.21.6.1351
32423|T||Breay,H.T.|The Effect of Timing of Post-Emergence Herbicides and Implications on the Management of Weed Control in the Sugar Beet Crop|Asp. Appl. Biol.2:139-147|1983|
32424|T||St.John,J.B.|Action of R-40244 on Chloroplast Pigments and Polar Lipids|Pestic. Biochem. Physiol.23(1): 13-18|1985|10.1016/0048-3575(85)90072-0
32425|T||Whitehead,C.S., and H. Coetzee|The Effect of Aldicarb on Certain Aspects of the Ultrastructural Organization in Leaves and Roots of Nicotiana tabacum|S. Afr. J. Bot.3(3): 163-168|1984|10.1016/S0022-4618(16)30051-1
32426|T||Nash,R.G.|Synergistic Phytotoxicities of Herbicide-Insecticide Combinations in Soil|Weed Sci.16(1): 74-77|1968|10.1017/S0043174500030587
32427|T||Wilcut,J.W., C.H. Gilliam, G.R. Wehje, T.V. Hicks, and D.L. Berchielli|Yellow Nutsedge Control in Landscape Plants|Hortscience26(2): 159-162|1991|10.21273/HORTSCI.26.2.159
32428|T||Lee,K.Y., P. Lund, K. Lowe, and P. Dunsmuir|Homologous Recombination in Plant Cells After Agrobacterium - Mediated Transformation|Plant Cell2(5): 415-425|1990|
32429|T||Wall,D.A., J.C. Hall, and I.N. Morrison|Uptake,Translocation and Fate of 2,4-D and Chlorsulfuron in Silene vulgaris (Moench) Garcke|Weed Res. (Multiple Languages)31(2): 81-88|1991|10.1111/j.1365-3180.1991.tb01746.x
32431|T||Fry,J.D.|Centipedegrass Response to Plant Growth Regulators|Hortscience26(1): 40-42|1991|10.21273/HORTSCI.26.1.40
32432|T||Steckel,L.E., M.S. DeFelice, and B.D. Sims|Integrating Reduced Rates of Postemergence Herbicides and Cultivation for Broadleaf Weed Control in Soybeans (Glycine max)|Weed Sci.38(6): 541-545|1990|10.1017/S0043174500051456
32433|T||Flint,J.L., W.W. Witt, J.R. Martin, and M. Barrett|Dissipation of Imazaquin, Imazethapyr, and Chlorimuron in Three Soybean Tillage Systems|D.L.Weigmann (Ed.), Proc. of a Natl. Res. Conf., Pesticides in Terrestrial and Aquatic Environments, May 11-12, 1989, Va. Water Resour. Res. Ctr., VPI and State Univ.:154-158|1989|
32435|T||Wiersma,P.A., J.E. Hachey, W.L. Crosby, and M.M. Moloney|Specific Truncations of An Acetolactate Synthase Gene from Brassica Napus Efficiently Complement Ilvb/Ilvg Mutants of Salmonella Typhimurium|Mol. Gen. Genet.224(1): 155-159|1990|10.1007/BF00259463
32436|T||Gustafson,D.I.|Field Calibration of Surface:A Model of Agricultural Chemicals in Surface Waters|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(5): 665-687|1990|
32437|T||Donald,W.W.|Primary Tillage for Foxtail Barley (Hordeum jubatum) Control|Weed Technol.4(2): 318-321|1990|10.1017/S0890037X0002546X
32438|T||Durner,J., and P. Boger|Oligomeric Forms of Plant Acetolactate Synthase Depend on Flavin Adenine Dinucleotide|Plant Physiol.93(3): 1027-1031|1990|10.1104/pp.93.3.1027
32439|T||Anderson,L.W.J.|Inhibition of Winter Bud Formation in Potamogeton Nodosus by Bensulfuron Herbicide:Optimal Timing of Exposure|Res. Prog. Rep. West. Soc. Weed Sci.:419-420|1989|
32440|T||Devine,M.D., H.D. Bestman, and W.H. Vanden Born|Physiological Basis for the Different Phloem Mobilities of Chlorsulfuron and Clopyralid|Weed Sci.38(1): 1-9|1990|10.1017/S0043174500056034
32441|T||Long,A.R., B. Charkhian, L.C. Hsieh, C.R. Short, and S.A. Barker|Characterization of the Thermal Decomposition Products of the Sulfonylurea Herbicide Chlorsulfuron|J. Chromatogr. A505(2): 395-401|1990|10.1016/S0021-9673(01)93054-7
32442|T||Robson,A.D., and K. Snowball|The Effect of Chlorsulfuron on the Uptake and Utilization of Copper and Zinc in Wheat|Aust. J. Agric. Res.41(1): 19-27|1990|10.1071/AR9900019
32443|T||Donald,W.W.|Effect of Soil-Applied Chlorsulfuron on Canada Thistle (Cirsium Arvense) Root and Root Bud Growth|Repr U.S.Dep Agric Agric Res Serv:154-161|1987|
32444|T||Barrentine,W.L.|Chlorimuron and Imazaquin Rates for Postemergence Control of Common Cocklebur in Soybeans|Miss. Agric. For. Exp. Stn. Bull.14(9): 3-|1989|
32445|T||Isaacs,M.A., E.C. Murdock, J.E. Toler, and S.U. Wallace|Effects of Late-Season Herbicide Applications on Sicklepod (Cassia obtusifolia) Seed Production and Viability|Weed Sci.37(6): 761-765|1989|10.1017/S0043174500072805
32446|T||Boucounis,T.G., T. Whitwell, and J.E. Toler|Correlation of Bioassay Crop Growth with Cinmethylin and Chlorimuron Application Rates for Two Soils|Hortscience25(5): 536-538|1990|10.21273/HORTSCI.25.5.536
32447|T||Goatley,J.M.J.R., A.J.,Jr. Powell, W.W. Witt, and M. Barrett|Control of Tall Fescue in Kentucky Bluegrass Turf with Selective Herbicides|Hortscience25(4): 449-451|1990|10.21273/HORTSCI.25.4.449
32448|T||Conn,J.S.|Herbicide Effects on Maturity of Spring Barley in Alaska|Crop Sci.30(2): 251-254|1990|10.2135/cropsci1990.0011183X003000020002x
32449|T||Heim,D.R., J.R. Skomp, E.E. Tschabold, and I.M. Larrinua|Isoxaben Inhibits the Synthesis of Acid Insoluble Cell Wall Materials in Arabidopsis thaliana|Plant Physiol.93(2): 695-700|1990|10.1104/pp.93.2.695
32450|T||Sebastian,S.A., G.M. Fader, J.F. Ulrich, D.R. Forney, and R.S. Chaleff|Semidominant Soybean Mutation for Resistance to Sulfonylurea Herbicides|Crop Sci.29(6): 1403-1408|1989|10.2135/cropsci1989.0011183X002900060014x
32451|T||Reddy,K.N., and L.E. Bendixen|Chlorimuron for Yellow Nutsedge (Cyperus esculentus) Control in Soybeans (Glycine max)|Spec. Circ. Ohio Agric. Res. Dev. Ctr.126:15-17|1989|
32452|T||Martin,T.D., S.L. Morcom, and A.M. Blair|The Influence of the Site of Uptake of Metsulfuron-Methyl on Its Activity on Geranium dissectum and Lamium purpureum|Tests Agrochem. Cultiv.10:108-109|1989|
32453|T||Bond,W., and P.J. Burch|Response of Drilled Vegetable Crops to Soil Applied Chlorimuron-Ethyl|Tests Agrochem. Cultiv.10:102-103|1989|
32454|T||Landi,P., A. Vicari, and P. Catizone|Response of Maize (Zea mays L.) Inbred Lines and Hybrids to Chlorsulfuron|Weed Res. (Multiple Languages)29(4): 265-271|1989|10.1111/j.1365-3180.1989.tb00911.x
32455|T||Walker,A., and S.J. Welch|The Relative Movement and Persistence in Soil of Chlorsulfuron Metsulfuron-Methyl and Triasulfuron|Weed Res. (Multiple Languages)29(5): 375-383|1989|10.1111/j.1365-3180.1989.tb01308.x
32456|T||Kudsk,P.|Herbicide Rainfastness on Indoor and Outdoor Pot-Grown Plants|Asp. Appl. Biol.21:133-134|1989|
32457|T||Peters,T.J., R.S. Moomaw, and A.R. Martin|Herbicides for Postemergence Control of Annual Grass Weeds in Seedling Forage Grasses|Weed Sci.37(3): 375-379|1989|10.1017/S0043174500072088
32459|T||Ritter,R.L., T.C. Harris, and L.M. Kaufman|Chlorsulfuron and Metsulfuron Residues on Double-Cropped Soybeans (Glycine max)|Weed Technol.2(1): 49-52|1988|10.1017/S0890037X00030074
32460|T||Chow,P.N.P.|Effect of Chlorsulfuron on Four Graminicides for Weed Control and Wheat Yield|Weed Res. (Multiple Languages)28(3): 145-150|1988|10.1111/j.1365-3180.1988.tb01599.x
32461|T||Prince,J.L., and R.A. Guinivan|Analysis of Chlorimuron Ethyl in Crops by High-Performance Liquid Chromatography|J. Agric. Food Chem.36(1): 63-69|1988|10.1021/jf00079a017
32462|T||Gaul,M.C., and N.E. Christians|Selective Control of Annual Bluegrass in Cool-Season Turfs with Fenarimol and Chlorsulfuron|Agron. J.80(1): 120-125|1988|10.2134/agronj1988.00021962008000010026x
32463|T||Dernoeden,P.H.|Fall and Spring Applications of Herbicides for Tall Fescue Control and Overseeding Effects|Proc. Annu. Meet. Northeast. Weed Sci. Soc.43:102-103|1989|
32465|T||Williams,K.W., and J.F. Stritzke|Activity of Sulfonylurea Herbicides on Old World Bluestems|Proc. South. Weed Sci. Soc.41:116-|1988|
32466|T||Colvin,D.L., and B.J. Brecke|Peanut Yield and Weed Control as Affected by Timing and Application Rate of Chlorimuron|Proc. South. Weed Sci. Soc.41:60-|1988|
32467|T||Jones,J.D., B.J. Gossett, J.R. Harris, and J.E. Toler|Cowpea Control in Soybeans with Chlorimuron Ethyl and Dpx-M6316|Proc. South. Weed Sci. Soc.41:49-|1988|
32468|T||Moore,B.A., R.A. Larson, and W.A. Skroch|Herbicide Treatment of Container-Grown 'Gloria' Azaleas and 'Merritt Supreme' Hydrangeas|J. Am. Soc. Hortic. Sci.114(1): 73-77|1989|10.21273/JASHS.114.1.73
32469|T||Slates,R.V.|Determination of Bensulfuron Methyl Residues in Rice Grain and Straw by High-Performance Liquid Chromatography|J. Agric. Food Chem.36(6): 1207-1211|1988|10.1021/jf00084a020
32470|T||Young,F.L., and R.E. Whitesides|Efficacy of Postharvest Herbicides on Russian Thistle (Salsola Iberica) Control and Seed Germination|Weed Sci.35(4): 544-559|1987|10.1017/S0043174500060549
32471|T||Foy,C.L., and W. Mersie|Effect of Application Time on Soil Residue and Efficacy of Sulfonylureas|Proc. South. Weed Sci. Soc.39:446-456|1986|
32472|T||Bean,B.W., F.W. Roeth, A.R. Martin, and R.G. Wilson|Duration of Enhanced Soil Degradation of EPTC as Influenced by Herbicide Rotation, Time, and Location|Weed Sci.36(4): 524-530|1988|10.1017/S0043174500075317
32473|T||Magnusson,G.|Experiences with Glean 20 Df (Chlorsulfuron) 1983-1985|Weeds Weed Control:42-47|1986|
32474|T||Mersie,W., and C.L. Foy|Phytotoxicity, Absorption and Metabolism of Chlorsulfuron in Monoploid Callus of Potato (Solanum phureia)|Weed Res. (Multiple Languages)27(6): 453-458|1987|10.1111/j.1365-3180.1987.tb01596.x
32475|T||Eleftherohorinos,I.G.|Phytotoxicity and Persistence of Chlorsulfuron as Affected by Activated Charcoal|Weed Res. (Multiple Languages)27(6): 443-452|1987|10.1111/j.1365-3180.1987.tb01595.x
32476|T||Martin,T.D., and A.M. Blair|Bioassay for the Detection of Chlorsulfuron and Triasulfuron Residues in Soils|Tests Agrochem. Cultiv.9:64-65|1988|
32477|T||Blair,A.M., and T.D. Martin|A Review of the Activity, Fate and Mode of Action of Sulfonylurea Herbicides|Pestic. Sci.22(3): 195-219|1988|10.1002/ps.2780220303
32478|T||Nicholls,P.H., A.A. Evans, and A. Walker|The Behavior of Chlorsulfuron and Metsulfuron in Soils in Relation to Incidents of Injury to Sugar Beet|Br. Crop Prot. Conf. Weeds2:549-556|1987|
32479|T||Brown,H.M., and S.M. Neighbors|Soybean Metabolism of Chlorimuron Ethyl:Physiological Basis for Soybean Selectivity|Pestic. Biochem. Physiol.29(2): 112-120|1987|10.1016/0048-3575(87)90068-X
32480|T||Sims,G.R., G. Wehtje, J.A. McGuire, and T. Vint-Hicks|Weed Control and Response of Peanuts (Arachis hypogaea) to Chlorimuron|Peanut Sci.14(1): 42-45|1987|10.3146/i0095-3679-14-1-11
32481|T||Anderson,L.W.J., and N. Dechoretz|Growth of American and Sago Pondweed from Vegetative Propagules Exposed to DPX-F5384 (Londax)|Res. Prog. Rep. West. Soc. Weed Sci.:317-318|1986|
32482|T||Mengel,M.L., K.G. Beck, D.C. Thill, and R.H. Callihan|The Use of Chlorsulfuron and Metsulfuron in Small-Grain Pulse Crop Production Systems in Idaho|Res. Prog. Rep. West. Soc. Weed Sci.1:282-285|1986|
32483|T||Lish,J.M., and D.C. Thill|Tolerance of Spring Wheat and Spring Barley Varieties to Sulfonyul Urea Herbicides|Res. Prog. Rep. West. Soc. Weed Sci.:202-203|1986|
32484|T||Anderson,R.L.|Safflower Response to Postemergence Application of Three Sulfonylurea Herbicides|Res. Prog. Rep. West. Soc. Weed Sci.:182-|1986|
32485|T||Anderson,R.L., and N.E. Humburg|Field Duration of Chlorsulfuron Bioactivity in the Central Great Plains|J. Environ. Qual.16(3): 263-266|1987|10.2134/jeq1987.00472425001600030014x
32486|T||Giardina,M.C., M. De Agazio, and S. Grego|Lack of Prevention of Chlorsulfuron-Induced Inhibition by Amino Acids|Weed Res. (Multiple Languages)27(3): 215-219|1987|10.1111/j.1365-3180.1987.tb00756.x
32487|T||Ahmad,I.|Capillary Column Gas Chromatographic Determination of Trace Residues of the Herbicide Chlorsulfuron in Agricultural Runoff Water|J. Assoc. Off. Anal. Chem.70(4): 745-748|1987|
32488|T||Warmund,M.R., and W.K. Patterson|Vegetative and Fruiting Responses of Grapes to Chlorsulfuron and Oryzalin|Hortscience21(2): 250-252|1986|10.21273/HORTSCI.21.2.250
32489|T||Anderson,L.W.J., and N. Dechoretz|Control of Aquatic Weeds in An Irrigation Canal with Bensulfuron Methyl|Res. Prog. Rep. West. Soc. Weed Sci.:377-378|1987|
32490|T||Rydrych,D.J.|Bulbous Bluegrass Control in Winter Wheat|Res. Prog. Rep. West. Soc. Weed Sci.:334-|1987|
32491|T||Hill,J.E., J.L. Pacheco, B.W. Brandon, M.J. Holzer, and D.E. Bayer|The Response of Weeds in Water-Seeded Rice to the Rate and Timing of Bensulfuron-Methyl|Res. Prog. Rep. West. Soc. Weed Sci.:230-231|1987|
32492|T||Hayes,R.M.|Chemical and Physical Properties of New Herbicides|Proc. South. Weed Sci. Soc.:141-|1987|
32493|T||Shea,P.J.|Chlorsulfuron Dissociation and Adsorption on Selected Adsorbents and Soils|Weed Sci.34(3): 474-478|1986|10.1017/S0043174500067230
32494|T||Haughn,G., and C.R. Somerville|Selection for Herbicide Resistance at the Whole-Plant Level|ACS Symp. Ser.334:98-107|1987|10.1021/bk-1987-0334.ch007
32496|T||Bestman,H.D., M.D. Devine, and W.H. Vanden Born|Extraction and Seperation of Chlorsulfuron and Its Metabolites from Treated Plants|Weed Sci.35(1): 22-26|1987|10.1017/S0043174500026734
32497|T||Haughn,G.W., and C. Somerville|Sulfonylurea-Resistant Mutants of Arabidopsis Thaliana|Mol. Gen. Genet.204(3): 430-434|1986|10.1007/BF00331020
32498|T||Dernoeden,P.H.|Selective Tall Fescue Control in Kentucky Bluegrass Turf with Diclofop|Agron. J.78(4): 660-663|1986|10.2134/agronj1986.00021962007800040021x
32502|T||Turner,D.J.|Effects of Surfactants on the Activity of Chlorsulfuron Alone and Inmixtures with Other Herbicides|Asp. Appl. Biol.9:149-158|1985|
32503|T||Devine,M.D., and W.H. Vanden Born|Absorption, Translocation, and Foliar Activity of Clopyralid and Chlorsulfuron in Canada Thistle (Cirsium Arvense) and Perennial Sowthistle (Sonchus Arvensis)|Weed Sci.33(4): 524-530|1985|10.1017/S0043174500082783
32504|T||Liu,S.L., and J.B. Weber|Retention and Mobility of Ac 252,214,Chlorsulfuron, Prometryn, and SD 95481 in Soils|Proc. South. Weed Sci. Soc.38:465-474|1985|
32505|T||Crowley,J., and G.N. Prendeville|Effect of Chlorsulfuron and 1,8-Naphthalic Anhydride on Uptake of 45Ca in Maize|Weed Res. (Multiple Languages)25(5): 341-345|1985|10.1111/j.1365-3180.1985.tb00654.x
32506|T||O'Leary,N.F., and G.N. Prendeville|Uptake and Phytotoxicity of Chlorsulfuron in Zea mays L.in the Presence of 1,8-Naphthalic Anhydride|Weed Res. (Multiple Languages)25(5): 331-339|1985|10.1111/j.1365-3180.1985.tb00653.x
32507|T||Anderson,R.L.|Environmental Effects on Metsulfuron and Chlorsulfuron Bioactivity in Soil|J. Environ. Qual.14(4): 517-521|1985|10.2134/jeq1985.00472425001400040011x
32508|T||Morishita,D.W., D.C. Thill, D.G. Flom, T.C. Campbell, and G.A. Lee|Method for Bioassaying Chlorsulfuron in Soil and Water|Weed Sci.33(3): 420-425|1985|10.1017/S0043174500082540
32509|T||Hutchison,J.M., R. Shapiro, and P.B. Sweetser|Metabolism of Chlorsulfuron by Tolerant Broadleaves|Pestic. Biochem. Physiol.22(2): 243-247|1984|10.1016/0048-3575(84)90095-6
32510|T||Burkhart,D.C., W.E. Dyer, and P.K. Fay|The Effect of Chlorsulfuron Residues on Seven Crops in Montana|Proc. West. Soc. Weed Sci.37:188-190|1984|
32512|T||Hatzios,K.K.|Potential Safeners for Protecting Sorghum (Sorghum bicolor (L.) Moench) Against Chlorsulfuron, Fluazifop-Butyl and Sethoxydim|Weed Res. (Multiple Languages)24(4): 249-254|1984|10.1111/j.1365-3180.1984.tb01561.x
32513|T||Hsiao,A.I., and A.E. Smith|A Root Bioassay Procedure for the Determination of Chlorsulfuron, Diclofop Acid and Sethoxydim Residues in Soils|Weed Res. (Multiple Languages)23(4): 231-236|1983|10.1111/j.1365-3180.1983.tb00543.x
32514|T||Zamora,D.L., D.C. Thill, and R.H. Callihan|Broadleaf Weed Control in Spring Wheat at Bonner's Ferry, Idaho|Res. Prog. Rep. West. Soc. Weed Sci.:210-|1986|
35000|T||Abiola,F., G. Lorgue, E. Benoit, D. Soyez, and J.L. Riviere|Effects of PCBs on Plasma Enzymes, Testosterone Level, and Hepatic Xenobiotic Metabolism in the Grey Partridge, Perdix perdix|Bull. Environ. Contam. Toxicol.43(3): 473-480|1989|10.1007/BF01701885
35001|T||Abston,P.A., and J.D. Yarbrough|The in Vivo Effect of Mirex on Soluble Hepatic Enzymes in the Rat|Pestic. Biochem. Physiol.6:192-199|1976|10.1016/0048-3575(76)90039-0
35002|T||Adams,A.W.|Effects of Nitrate in Drinking Water of Japanese Quail|Poult. Sci.53:832-834|1974|10.3382/ps.0530832
35003|T||Adams,W.J., and H.H. Prince|Mercury Levels in the Tissues of Ring-Necked Pheasants fed Two Mercurial Fungicides|Bull. Environ. Contam. Toxicol.15(3): 316-323|1976|10.1007/BF01812642
35004|T||Agarwal,H.C., D.V. Yadav, and M.K.K. Pillai|Metabolism of 14C-DDT in Pheretima posthuma and Effect of Pretreatment with DDT, Lindane, and Dieldrin|Bull. Environ. Contam. Toxicol.19(3): 295-299|1978|10.1007/BF01685801
35005|T||Ahdaya,S.M., P.V. Shah, and F.E. Guthrie|Thermoregulation in Mice Treated with Parathion, Carbaryl, or DDT|Toxicol. Appl. Pharmacol.35:575-580|1976|10.1016/0041-008X(76)90079-X
35006|T||Albers,P.H.|Effects of Corexit 9527 on the Hatchability of Mallard Eggs|Bull. Environ. Contam. Toxicol.23:661-668|1979|10.1007/BF01770022
35007|T||Allsopp,R.|The Effect of Dieldrin Sprayed by Aerial Application for Tsetse Control on Game Animals|J. Appl. Ecol.15(1): 117-127|1978|10.2307/2402924
35008|T||Ambrose,A.M., P.S. Larson, J.F. Borzelleca, and G.R.,Jr. Hennigar|Toxicologic Studies on 3',4'-Dichloropropionanilide|Toxicol. Appl. Pharmacol.23:650-659|1972|10.1016/0041-008X(72)90106-8
35009|T||Ambrose,A.M., P.S. Larson, J.F. Borzelleca, R.B.,Jr. Smith, and G.R.,Jr. Hennigar|Toxicologic Studies on 2,4-Dichlorophenyl-p-Nitrophenyl Ether|Toxicol. Appl. Pharmacol.19:263-275|1971|10.1016/0041-008X(71)90111-6
35010|T||Andujar,M.M., G. Varela, and M.P. Navarro|Dieldrin, Ca and P Balance, and Characteristics of the Egg in the Quail (Coturnix coturnix japonica)|Poult. Sci.57:596-602|1978|10.3382/ps.0570596
35011|T||Atkins,E.L., D. Kellum, and K.J. Neuman|Repellent Additives to Reduce Pesticide Hazards to Honey Bees|Am. Bee J.117(7): 438 - 439,457|1977|
35012|T||Atkins,E.L., D. Kellum, and K.W. Atkins|Encapsulated Methyl Parathion Formulation is Highly Hazardous to Honey Bees|Am. Bee J.:483-485|1978|
35013|T||Atkins,E.L., R.L. MacDonald, and E.A. Greywood-Hale|Repellent Additives to Reduce Pesticide Hazards to Honey Bees: Field Tests|Environ. Entomol.4(2): 207-209|1975|10.1093/ee/4.2.207
35014|T||Aulerich,R.J., R.K. Ringer, and G.R. Hartsough|Effect of Iodine on Reproductive Performance of Female Mink|Theriogenology9(3): 295-302|1978|10.1016/0093-691X(78)90037-7
35015|T||Aulerich,R.J., R.K. Ringer, and J. Safronoff|Assessment of Primary vs. Secondary Toxicity of Aroclor 1254 to Mink|Arch. Environ. Contam. Toxicol.15:393-399|1986|10.1007/BF01066406
35016|T||Aulerich,R.J., R.K. Ringer, M.R. Bleavins, and A. Napolitano|Effects of Supplemental Dietary Copper on Growth, Reproductive Performance and Kit Survival of Standard Dark Mink and the Acute Toxicity of Copper to Mink|J. Anim. Sci.55(2): 337-343|1982|10.2527/jas1982.552337x
35017|T||Aulerich,R.J., S.J. Bursian, W.J. Breslin, B.A. Olson, and R.K. Ringer|Toxicological Manifestations of 2,4,5,-2',4',5'-, 2,3,6,2',3',6'-, and 3,4,5,3',4',5'-Hexachlorobiphenyl and Aroclor 1254 in Mink|J. Toxicol. Environ. Health15(1): 63-79|1985|10.1080/15287398509530636
35018|T||Aulerich,R.J., S.J. Bursian, M.G. Evans, J.R. Hochstein, K.A. Koudele, B.A. Olson, and A.C. Napolitano|Toxicity of 3,4,5,3',4',5'-Hexachlorobiphenyl to Mink|Arch. Environ. Contam. Toxicol.16(1): 53-60|1987|10.1007/BF01055359
35019|T||Aulerich,R.J., R.K. Ringer, and S. Iwamoto|Effects of Dietary Mercury on Mink|Arch. Environ. Contam. Toxicol.2(1): 43-51|1974|10.1007/BF01985799
35020|T||Ax,R.L., and L.G. Hansen|Effects of Purified Polychlorinated Biphenyl Analogs on Chicken Reproduction|Poult. Sci.54:895-900|1975|10.3382/ps.0540895
35021|T||Babish,J.G., W.H. Gutenmann, and G.S. Stoewsand|Polybrominated Biphenyls: Tissue Distribution and Effect on Hepatic Microsomal Enzymes in Japanese Quail|J. Agric. Food Chem.23(5): 879-882|1975|10.1021/jf60201a040
35022|T||Bacilek,J.|Model for Rapid Field Evaluation of the Toxicity of Pesticides to Honeybee Colonies|J. Apic. Res.21(1): 57-61|1982|10.1080/00218839.1982.11100517
35023|T||Bailey,S., and P.J. Bunyan|Interpretation of Persistence and Effects of Polychlorinated Biphenyls in Birds|Nature236:34-36|1972|10.1038/236034a0
35024|T||Baker,R.T.|Chemical Control of the Compressed Weevil Irenimus Compressus (Broun) (Coleoptera:Curculionidaie)|N. Z. J. Exp. Agric.8:75-77|1980|10.1080/03015521.1980.10426237
35025|T||Baksi,S.N., and A.D. Kenny|Effect of Lead Ingestion on Vitamin D3 Metabolism in Japanese Quail|Res. Commun. Chem. Pathol. Pharmacol.21(2): 375-378|1978|
35026|T||Balachandran,A., M.K. Bhatnagar, and H.D. Geissinger|Scanning and Transmission Electron Microscopic Studies on the Oviducts of Pekin Ducks fed Methyl Mercury Containing Diets|Scanning Electron Microsc.1:311-322|1985|
35027|T||Balcomb,R., R. Stevens, and C. Bowen II|Toxicity of 16 Granular Insecticides to Wild-Caught Songbirds|Bull. Environ. Contam. Toxicol.33(3): 302-307|1984|10.1007/BF01625547
35028|T||Barker,R.J., and G.D. Waller|Sublethal Effects of Parathion, Methyl Parathion, or Formulated Methoprene Fed to Colonies of Honey Bees|Environ. Entomol.7(4): 569-571|1978|10.1093/ee/7.4.569
35029|T||Barker,R.J., and G.D. Waller|Effects of Diflubenzuron Wettable Powder on Caged Honey Bee Colonies|Environ. Entomol.7:534-535|1978|10.1093/ee/7.4.534
35030|T||Barker,R.J., Y. Lehner, and M.R. Kunzmann|Pesticides and Honey Bees:  Nectar and Pollen Contamination in Alfalfa Treated with Dimethoate|Arch. Environ. Contam. Toxicol.9:125-133|1980|10.1007/BF01055368
35031|T||Bean,J.R., and R.H. Hudson|Acute Oral Toxicity and Tissue Residues of Thallium Sulfate in Golden Eagles, Aquila Chrysaetos|Bull. Environ. Contam. Toxicol.15(1): 118-121|1976|10.1007/BF01686203
35032|T||Beardmore,C.J., and R.J. Robel|Weight and Body Fat Recovery by Dieldrin-Dosed, Underweight Bobwhites|J. Wildl. Manag.40(1): 118-121|1976|10.2307/3800163
35033|AT||Beatty,P.W., M.A. Holscher, and R.A. Neal|Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Larval and Adult Forms of Rana catesbeiana|Bull. Environ. Contam. Toxicol.16(5): 578-581|1976|10.1007/BF01685367
35034|T||Bedford,C.T., D.H. Hutson, and I.L. Natoff|The Acute Toxicity of Endrin and Its Metabolites to Rats|Toxicol. Appl. Pharmacol.33:115-121|1975|10.1016/0041-008X(75)90250-1
35035|T||Bell,H.B., and R.W. Dimmik|Hazards to Predators Feeding on Prairie Voles Killed with Zinc Phosphide|J. Wildl. Manag.39(4): 816-819|1975|10.2307/3800250
35036|T||Bell,J.|The Acute Toxicity of Four Common Poisons to the Opossum, Trichosurus vulpecula|N. Z. Vet. J.20:212-214|1972|10.1080/00480169.1972.34053
35037|T||Bellward,G.D., R. Dawson, and M. Otten|The Effect of Dieldrin-Contaminated Feed on Rat Hepatic Microsomal Epoxide Hydrase and Aryl Hydrocarbon Hydroxylase|Res. Commun. Chem. Pathol. Pharmacol.12(4): 669-684|1975|
35038|T||Benedek,P.|Effect of Night Temperature on the Toxicity of Field-Weathered Mevinphos Residues to Honeybees|Z. Angew. Entomol. (Multiple Languages)79:328-331|1975|10.1111/j.1439-0418.1975.tb02349.x
35039|T||Berteau,P.E., and W.A. Deen|A Comparison of Oral and Inhalation Toxicities of Four Insecticides to Mice and Rats|Bull. Environ. Contam. Toxicol.19(1): 113-120|1978|10.1007/BF01685774
35040|T||Beyer,W.N., J.W. Spann, L. Sileo, and J.C. Franson|Lead Poisoning in Six Captive Avian Species|Arch. Environ. Contam. Toxicol.17:121-130|1988|10.1007/BF01055162
35041|T||Bhatnagar,M.K., O.E. Vrablic, and S. Yamashiro|Ultrastructural Alterations of the Liver of Pekin Ducks fed Methyl Mercury-Containing Diets|J. Toxicol. Environ. Health10:981-1003|1982|10.1080/15287398209530311
35042|T||Biessmann,A.|Effects of PCBs on Gonads, Sex Hormone Balance and Reproduction Processes of Japanese Quail Coturnix coturnix japonica After Ingestion During Sexual Maturation|Environ. Pollut. A.27:15-30|1982|10.1016/0143-1471(82)90059-9
35043|T||Biessmann,A., and H. Von Faber|Effects of DDT and Its Metabolites on the Adrenal Gland of Japanese Quail|Environ. Pollut.25:99-104|1981|10.1016/0143-1471(81)90010-6
35044|T||Bildstein,K.L., and D.J. Forsyth|Effects of Dietary Dieldrin on Behavior of White-Footed Mice (Peromyscus leucopus) Towards An Avian Predator|Bull. Environ. Contam. Toxicol.21(1-2): 93-97|1979|10.1007/BF01685393
35045|T||Bird,D.M., and C. Massari|Effects of Dietary Sodium Fluoride on Bone Fluoride Levels and Reproductive Performance of Captive American Kestrels|Environ. Pollut.31(1): 67-76|1983|10.1016/0143-1471(83)90053-3
35046|T||Black,W.M., and D. Neely|Effect of Soil-Injected Benomyl on Resident Earthworm Populations|Pestic. Sci.6:543-545|1975|10.1002/ps.2780060515
35047|T||Bleavins,M.R., W.J. Breslin, R.J. Aulerich, and R.K. Ringer|Excretion and Placental and Mammary Transfer of Hexachlorobenzene in the European Ferret (Mustela putorius furo)|J. Toxicol. Environ. Health10:929-940|1982|10.1080/15287398209530307
35048|T||Blow,D.P.|Laboratory Evaluation of Permethrin Against Cockroaches and the Rust-Red Flour Beetle|Int.Biodeterior.Bull.14:71-76|1978|
35050|T||Borg,K., K. Erne, E. Hanko, and H. Wanntorp|Experimental Secondary Methyl Mercury Poisoning in the Goshawk (Accipiter G. gentilis L.)|Environ. Pollut.1:91-104|1970|
35051|T||Borst,H.A., and C.G. Van Lieshout|Phenylmercuric Acetate intoxication in Mink|Tijdschr. Diergeneeskd. (Multiple Languages)102(8): 495-503|1977|
35052|T||Boyd,E.M., and G. Carro-Ciampi|The Oral 100-Day LD50 Index of Phenacetin in Guinea Pigs|Toxicol. Appl. Pharmacol.16:232-238|1970|10.1016/0041-008X(70)90180-8
35053|T||Bracher,G.A., and J.R. Bider|Changes in Terrestrial Animal Activity of a Forest Community After an Application of Aminocarb (Matacil)|Can. J. Zool.60:1981-1997|1982|10.1139/z82-256
35054|T||Bradbury,S.P., and J.R. Coats|Toxicity of Fenvalerate to Bobwhite Quail (Colinus Virginianus) Including Brain and Liver Residues Associated with Mortality|J. Toxicol. Environ. Health10(2): 307-319|1982|10.1080/15287398209530253
35055|T||Brake,J., P.Y. Hester, P. Thaxton, G.W. Morgan, and C.V. Sikes|Effect of Mercury Toxicity on Serum Osmolality, Plasma Sodum and Potassium, and Serum Proteins in the Chicken|Arch. Environ. Contam. Toxicol.9:431-436|1980|10.1007/BF01055295
35056|T||Breslin,W.J.|Photoperiodic Effects on the Avian Dietary LC50 with Bobwhite (Colinus virgianus) and Mallards (Anas platyrhynchos)|M.S. Thesis, Michigan State University, East Lansing, MI:82 p.|1984|
35057|T||Brunstrom,B., and L. Reutergardh|Differences in Sensitivity of Some Avian Species to the Embryo Toxicity of a PCB, 3,3',4,4'-Tetrachlorobiphenyl, Injected into the Eggs|Environ. Pollut. A.42:37-45|1986|10.1016/0143-1471(86)90043-7
35058|T||Buckner,C.H., B.B. McLeod, T.A. Gochnauer, and R. Lough|Effects of the Fungicide Dithane M-45 on Colonies of Honey Bees, Apis Mellifera Linneaus|Manit. Entomol.10:46-48|1976|
35059|T||Buerger,T.T., R.J. Kendall, B.S. Mueller, T. Devos, and B. Awilliams|Effects of Methyl Parathion on Northern Bobwhite Survivability|Environ. Toxicol. Chem.10:527-532|1991|10.1002/etc.5620100413
35060|T||Bunch,T.D., and J.B. Low|Effects of Dieldrin on Chromosomes of Semi-Domestic Mallard Ducks|J. Wildl. Manag.37(1): 51-57|1973|10.2307/3799737
35061|T||Bunyan,P.J., M.J. Van den Heuvel, P.I. Stanley, and E.N. Wright|An Intensive Field Trial and a Multi-Site Surveillance Exercise on the Use of Aldicarb to Investigate Methods for the Assessment of Possible Environmental Hazards Presented by New Pesticides|Agro-Ecosystems7:239-262|1981|10.1016/0304-3746(81)90005-6
35062|T||Bunyan,P.J., and D.M. Jennings|Carbamate Poisoning:  Effect of Certain Carbamate Pesticides on Esterase Levels in the Pheasant (Phasianius colchicus) and Pigeon (Columba livia)|J. Agric. Food Chem.24(1): 136-143|1976|10.1021/jf60203a012
35063|T||Bunyan,P.J., D.M. Jennings, and A. Taylor|Organophosphorus Poisoning. Chronic Feeding of Some Common Pesticides to Pheasants and Pigeons|J. Agric. Food Chem.17(5): 1027-1032|1969|10.1021/jf60165a046
35065|T||Burger,J., and M. Gochfeld|Early Postnatal Lead Exposure: Behavioral Effects in Common Tern Chicks (Sterna hirundo)|J. Toxicol. Environ. Health16:869-886|1985|10.1080/15287398509530794
35066|T||Burger,J.|Behavioral Effects of Early Postnatal Lead Exposure in Herring Gull (Larus argentatus) Chicks|Pharmacol. Biochem. Behav.35:7-13|1990|10.1016/0091-3057(90)90196-O
35067|T||Burger,J., and M. Gochfeld|Effects of Lead on Growth in Young Herring Gulls (Larus argentatus)|J. Toxicol. Environ. Health25:227-236|1988|10.1080/15287398809531204
35068|T||Bursian,S.J., and F.W. Edens|The Prolonged Exposure of Japanese Quail to Carbaryl and Its Effects on Neurochemical and Blood Chemical Parameters|Bull. Environ. Contam. Toxicol.21(1): 144-151|1979|10.1007/BF01685402
35069|T||Bursian,S.J., and F.W. Edens|The Prolonged Exposure of Japanese Quail to Carbaryl and Its Effects on Growth and Reproductive Parameters|Bull. Environ. Contam. Toxicol.17(3): 360-368|1977|10.1007/BF01686091
35070|T||Bursian,S.J., and F.W. Edens|The Effect of Acute Carbaryl Administration on Various Neurochemical and Blood Chemical Parameters in the Japanese Quail|Toxicol. Appl. Pharmacol.46:463-473|1978|10.1016/0041-008X(78)90092-3
35071|T||Bus,J.S., S.Z. Cagen, M. Olgaard, and J.E. Gibson|A Mechanism of Paraquat Toxicity in Mice and Rats|Toxicol. Appl. Pharmacol.35:501-513|1976|10.1016/0041-008X(76)90073-9
35072|T||Busby,D.G., P.A. Pearce, and N.R. Garrity|Brain Cholinesterase Reponse in Songbirds Exposed to Experimental Fenitrothion Spraying in New Brunswick, Canada|Bull. Environ. Contam. Toxicol.26(3): 401-406|1981|10.1007/BF01622110
35073|T||Busby,D.G., P.A. Pearce, N.R. Garrity, and L.M. Reynolds|Effect of an Organophosphorus Insecticide on Brain Cholinesterase Activity in White-Throated Sparrows Exposed to Aerial Forest Spraying|J. Appl. Ecol.20:255-263|1983|10.2307/2403391
35074|T||Cabe,P.A., and P.B. Colwell|Toxic Effects of Acrylamide in Japanese Quail (Coturnix coturnix japonica)|J. Toxicol. Environ. Health7:935-940|1981|10.1080/15287398109530036
35075|T||Cain,B.W., L. Sileo, J.C. Franson, and J. Moore|Effects of Dietary Cadmium on Mallard Ducklings|Environ. Res.32:286-297|1983|10.1016/0013-9351(83)90112-3
35076|T||Cairns,M.A., C.C. Maguire, B.A. Williams, and J.K. Bennett|Brain Cholinesterase Activity of Bobwhite Acutely Exposed to Chlorpyrifos|Environ. Toxicol. Chem.10:657-664|1991|10.1002/etc.5620100512
35077|T||Call,D.J., and B.E. Harrell|Effects of Dieldrin and PCB's upon the Production and Morphology of Japanese Quail Eggs|Bull. Environ. Contam. Toxicol.11(1): 70-77|1974|10.1007/BF01685031
35078|T||Call,D.J., and J.K.J. Call|Blood Chemistries of Japanese Quail fed Dieldrin|Poult. Sci.53:54-56|1974|10.3382/ps.0530054
35079|T||Cappon,I.D., E.T. Young, and D.M. Nicholls|An Environmental Chemical, Polychlorinated Biphenyl, Increases the Protein Synthesizing Activity of Liver and Kidney pH 5 Supernatant Fractions|Chem.-Biol. Interact.14:127-134|1976|10.1016/0009-2797(76)90030-2
35080|T||Carevic,O.|The Effect on Gamma-Hexachlorcyclohexane on Rat Liver Lysosomes|Biochem. Pharmacol.26:1377-1381|1977|10.1016/0006-2952(77)90360-4
35081|T||Carpenter,H.M., D.E. Williams, and D.R. Buhler|A Comparison of the Effects of Hexachlorobenzene, Beta-Naphthoflavone, and Phenobarbital on Cytochrome P-450 and Mixed-Function Oxidases in Japanese Quail|J. Toxicol. Environ. Health15:93-108|1985|10.1080/15287398509530638
35082|T||Carpenter,H.M., M.J. Harvey, and D.R. Buhler|The Effect of Tetrachlorohydroquinone on Hexachlorobenzene-Induced Porphyria in Japanese Quail|J. Toxicol. Environ. Health15(1): 81-92|1985|10.1080/15287398509530637
35083|T||Cecil,H.C., S.J. Harris, and J. Bitman|Effects of Nonpersistent Pesticides on Liver Weight, Lipids and Vitamin A of Rats and Quail|Bull. Environ. Contam. Toxicol.11(6): 496-499|1974|10.1007/BF01685003
35084|T||Cecil,H.C., S.J. Harris, J. Bitman, and G.F. Fries|Polychlorinated Biphenyl-Induced Decrease in Liver Vitamin A in Japanese Quail and Rats|Bull. Environ. Contam. Toxicol.9(3): 179-185|1973|10.1007/BF01685000
35085|T||Chang,E.S., and E.L.R. Stokstad|Effect of Chlorinated Hydrocarbons on Shell Gland Carbonic Anhydrase and Egg Shell Thickness in Japanese Quail|Poult. Sci.54:3-10|1975|10.3382/ps.0540003
35087|T||Chattopadhyay,D.P., S.K. Dighe, D.K. Dube, and Purnanand |Changes in Toxicity of DDVP, DFP, and Parathion in Rats Under Cold Environment|Bull. Environ. Contam. Toxicol.29:605-610|1982|10.1007/BF01669628
35088|T||Chen,T.S., F.K. Kinoshita, and K.P. DuBois|Acute Toxicity and Antiesterase Action of 0-Ethyl-S,S-Diphenyl Phosphorodithioate (Hinosan)|Toxicol. Appl. Pharmacol.23:519-527|1972|10.1016/0041-008X(72)90054-3
35089|T||Chernoff,N., and B.D. Carver|Fetal Toxicity of Toxaphene in Rats and Mice|Bull. Environ. Contam. Toxicol.15(6): 660-664|1976|10.1007/BF01685614
35090|T||Chernoff,N., and E.H. Rogers|Fetal Toxicity of Kepone in Rats and Mice|Toxicol. Appl. Pharmacol.38:189-194|1976|10.1016/0041-008X(76)90172-1
35091|T||Chernoff,N., R.E. Linder, T.M. Scotti, E.H. Rogers, B.D. Carver, and R.J. Kavlock|Fetotoxicity and Cataractogenicity of Mirex in Rats and Mice with Notes on Kepone|Environ. Res.18:257-269|1979|10.1016/0013-9351(79)90102-6
35092|T||Chernoff,N., R.J. Kavlock, J.R. Kathrein, J.M. Dunn, and J.K. Haseman|Prenatal Effects of Dieldrin and Photodieldrin in Mice and Rats|Toxicol. Appl. Pharmacol.31:302-308|1975|10.1016/0041-008X(75)90165-9
35093|T||Clark,J.R.,Jr.|Effect of Stress on Dieldrin Toxicity to Male Redwinged Blackbirds (Agelaius phoeniceus)|Bull. Environ. Contam. Toxicol.14(2): 250-256|1975|10.1007/BF01701322
35094|T||Clark,D.R.,Jr.|Uptake of Dietary PCB by Pregnant Big Brown Bats (Eptesicus fuscus) and Their Fetuses|Bull. Environ. Contam. Toxicol.19:707-714|1978|10.1007/BF01685862
35095|T||Clark,D.R.,Jr., and C.J. Stafford|Effects of DDE and PCB (Aroclor 1260) on Experimentally Poisoned Female Little Brown Bats (Myotis lucifugus): Lethal Brain Concentrations|J. Toxicol. Environ. Health7:925-934|1981|10.1080/15287398109530035
35096|T||Clark,D.R.,Jr., and J.C. Kroll|Effects of DDE on Experimentally Poisoned Free-Tailed Bats (Tadarida brasiliensis): Lethal Brain Concentrations|J. Toxicol. Environ. Health3:893-901|1977|10.1080/15287397709529623
35098|T||Cole,L.K., J.R. Sanborn, and R.L. Metcalf|Inhibition of Corn Growth by Aldrin and the Insecticide's Fate in the Soil, Air, Crop, and Wildlife of a Terrestrial Model Ecosystem|Environ. Entomol.5(3): 583-589|1976|10.1093/ee/5.3.583
35099|T||Cole,L.K., R.L. Metcalf, and J.R. Sanborn|Environmental Fate of Insecticides in Terrestrial Model Ecosystems|Int. J. Environ. Stud.10(1): 7-14|1976|10.1080/00207237608737287
35100|T||Collins,H.L., G.P. Markin, and J. Davis|Residue Accumulation in Selected Vertebrates Following a Single Aerial Application of Mirex Bait, Louisiana--1971-72|Pestic. Monit. J.8(2): 125-130|1974|
35101|T||Collins,W.T.,Jr., L. Kasza, and C.C. Capen|Ultrastructural and Biochemical Effects of Polychlorinated Biphenyls (PCB) on the Thyroid Gland of Osborne Mendel Rats|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:327-338|1979|
35102|T||Collins,T.F.X., W.H. Hansen, and H.V. Keeler|The Effect of Carbaryl (Sevin) on Reproduction of the Rat and the Gerbil|Toxicol. Appl. Pharmacol.19:202-216|1971|10.1016/0041-008X(71)90107-4
35103|T||Conover,M.R., J.G. Francik, and D.E. Miller|An Experimental Evaluation of Aversive Conditioning for Controlling Coyote Predation|J. Wildl. Manag.41(4): 775-779|1977|10.2307/3800006
35104|T||Cory-Slechta,D.A., R.H. Garman, and D. Seidman|Lead-Induced Crop Dysfunction in the Pigeon|Toxicol. Appl. Pharmacol.52:462-467|1980|10.1016/0041-008X(80)90341-5
35105|T||Coulson,R.A., and T. Hernandez|Catabolic Effects of Cycloheximide in the Living Reptile|Comp. Biochem. Physiol. B Comp. Biochem.40:741-749|1971|10.1016/0305-0491(71)90149-0
35106|T||Cranmer,J.S., D.L. Avery, R.R. Grady, and J.I. Kitay|Postnatal Endocrine Dysfunction Resulting from Prenatal Exposure to Carbofuran, Diazinon, or Chlordane|J. Environ. Pathol. Toxicol.2(2): 357-369|1978|
35107|T||Creger,C.R., and L.F. Kubena|Lipotropic Agents and DDT Residue in Birds and Eggs|Bull. Environ. Contam. Toxicol.6(5): 453-459|1971|10.1007/BF01684368
35108|T||Creger,C.R., and L.F. Kybena|The Effect of Dietary Choline Chloride and Inositol on the Depletion Rate of Heptachlor from Birds|Bull. Environ. Contam. Toxicol.6(3): 255-278|1971|10.1007/BF01539936
35109|T||Cress,C.R., and A. Strother|Effects on Drug Metabolism of Carbaryl and 1-Naphthol in the Mouse|Life Sci.14:861-872|1974|10.1016/0024-3205(74)90075-7
35110|T||Crowder,L.A., and E.F. Dindal|Fate of 36C1-Toxaphene in Rats|Bull. Environ. Contam. Toxicol.12(3): 320-327|1974|10.1007/BF01709126
35111|T||Custer,T.W., and G.H. Heinz|Reproductive Success and Nest Attentiveness of Mallard Ducks fed Aroclor 1254|Environ. Pollut. A.21:313-318|1980|10.1016/0143-1471(80)90133-6
35112|T||Cyr,J.|Experiments with Alpha-Chloralose to Control Harmful Birds|Bird-Band.48(2): 125-137|1977|
35113|T||Dahlgren,R.B., and R.L. Linder|Effects of Polychlorinated Biphenyls on Pheasant Reproduction, Behavior, and Survival|J. Wildl. Manag.35(2): 315-319|1971|10.2307/3799606
35114|T||Dahlgren,R.B., and R.L. Linder|Effects of Dieldrin in Penned Pheasants Through the Third Generation|J. Wildl. Manag.38(2): 320-330|1974|10.2307/3800740
35115|T||Dahlgren,R.B., and R.L. Linder|Eggshell Thickness in Pheasants Given Dieldrin|J. Wildl. Manag.34(1): 226-228|1970|10.2307/3799517
35116|T||Dahlgren,R.B., R.J. Bury, R.L. Linder, and R.F.,Jr. Reidinger|Residue Levels and Histopathology in Pheasants Given Polychlorinated Biphenyl|J. Wildl. Manag.36(2): 524-533|1972|10.2307/3799084
35117|T||Dahlgren,R.B., R.L. Linder, and C.W. Carlson|Polychlorinated Biphenyls: Their Effects on Penned Pheasants|Environ. Health Perspect.1:89-101|1972|10.1289/ehp.720189
35118|T||Dahlgren,R.B., R.L. Linder, and W.L. Tucker|Effects of Stress on Pheasants Previously Given Polychlorinated Biphenyls|J. Wildl. Manag.36(3): 974-978|1972|10.2307/3799462
35119|T||Damron,B.L., and H.R. Wilson|Lead Toxicity of Bobwhite Quail|Bull. Environ. Contam. Toxicol.14(4): 489-496|1975|10.1007/BF01705517
35120|T||Davies,D.B., and B.J. Holub|Determination of the 'No Effect' Level of Dietary Parathion for the Rat Based on A Short-Term Study|Can. J. Physiol. Pharmacol.56:659-664|1978|10.1139/y78-104
35121|T||Davison,K.L., K.A. Engebretson, and J.H. Cox|p,p'-DDT and p,p'-DDE Effects on Egg Production, Eggshell Thickness and Reproduction of Japanese Quail|Bull. Environ. Contam. Toxicol.15(3): 265-270|1976|10.1007/BF01812634
35122|T||De Barros,M., and A.M. Saliba|Toxicity of the Hexachlorocyclohexane in Rats|Toxicology10:271-279|1978|10.1016/0300-483X(78)90077-X
35123|T||Deo,P.G., S.B. Hasan, and S.K. Majumder|Toxicity and Suitability of Some Insecticides for Household Use|Int. Pest Control30:118 - 121,129|1988|
35124|T||Derosa,C.T., D.H. Taylor, M.P. Farrell, and S.K. Seilkop|Effects of Sevin on the Reproductive Biology of the Coturnix|Poult. Sci.55:2133-2141|1976|10.3382/ps.0552133
35125|T||Desi,I., L. Gonczi, G. Simon, I. Farkas, and Z. Kneffel|Neurotoxicologic Studies of Two Carbamate Pesticides in Subacute Animal Experiments|Toxicol. Appl. Pharmacol.27:465-476|1974|10.1016/0041-008X(74)90025-8
35126|T||DeWeese,L.R., C.J. Henny, R.L. Floyd, K.A. Bobal, and A.W. Shultz|Response of Breeding Birds to Aerial Sprays of Trichlorfon (Dylox) and Carbaryl (Sevin-4-Oil) in Montana Forests|U.S.Dep.of the Interior,U.S.Fish and Wildl.Serv., Spec.Sci.Rep.No.224:29 p.|1979|
35127|T||Di Giulio,R.T., and P.F. Scanlon|Effects of Cadmium and Lead Ingestion on Tissue Concentrations of Cadmium, Lead, Copper, and Zinc in Mallard Ducks|Sci. Total Environ.39(1-2): 103-110|1984|10.1016/0048-9697(84)90028-7
35128|T||Di Simplicio,P., and C. Leonzio|Effects of Selenium and Mercury on Glutathione and Glutathione-Dependent Enzymes in Experimental Quail|Bull. Environ. Contam. Toxicol.42:15-21|1989|10.1007/BF01699198
35129|T||Dieter,M.P.|Further Studies on the Use of Enzyme Profiles to Monitor Residue Accumulation in Wildlife: Plasma Enzymes in Starlings Fed Graded Concentrations of Morsodren, DDE, Aroclor 1254, and Malathion|Arch. Environ. Contam. Toxicol.3(2): 142-150|1975|10.1007/BF02220784
35130|T||Dieter,M.P.|Plasma Enzyme Activities in Coturnix Quail fed Graded Doses of DDE, Polychlorinated Biphenyl, Malathion and Mercuric Chloride|Toxicol. Appl. Pharmacol.27:86-98|1974|10.1016/0041-008X(74)90175-6
35131|T||Dieter,M.P., and J.L. Ludke|Studies on Combined Effects of Organophosphates or Carbamates and Morsodren in Birds. II. Plasma and Cholinesterase in Quail fed Morsodren and Orally Dosed with Parathion or Carbofuran|Bull. Environ. Contam. Toxicol.19:389-395|1978|10.1007/BF01685815
35132|T||Dieter,M.P., and J.L. Ludke|Studies on Combined Effects of Organophosphates and Heavy Metals in Birds.  I.  Plasma and Brain Cholinesterase in Coturnix Quail fed Methyl Mercury and Orally Dosed with Parathion|Bull. Environ. Contam. Toxicol.13(3): 257-262|1975|10.1007/BF01685332
35133|T||Dieter,M.P., and S.N. Miemeyer|Six Different Plasma Enzymes in Bald Eagles (Haliaeetus leucocephalus) and Their Usefulness in Pathological Diagnosis|Comp. Biochem. Physiol. C Comp. Pharmacol.61:153-155|1978|10.1016/0306-4492(78)90125-9
35134|T||Dieter,M.P., M.I. Luster, G.A. Boorman, C.W. Jameson, J.H. Dean, and J.W. Cox|Immunological and Biochemical Responses in Mice Treated With Mercuric Chloride|Toxicol. Appl. Pharmacol.68:218-228|1983|10.1016/0041-008X(83)90006-6
35135|T||Dietz,D.D., D.E. McMillan, and P. Mushak|Effects of Chronic Lead Administration on Acquisition and Performance of Serial Position Sequences by Pigeons|Toxicol. Appl. Pharmacol.47:377-384|1979|10.1016/0041-008X(79)90333-8
35136|T||Di Giulio,R.T., and P.F. Scanlon|Effects of Cadmium Ingestion and Food Restriction on Energy Metabolism and Tissue Metal Concentrations in Mallard Ducks (Anas platyrhynchos)|Environ. Res.37:433-444|1985|10.1016/0013-9351(85)90125-2
35137|T||Di Giulio,R.T., and P.F. Scanlon|Sublethal Effects of Cadmium Ingestion on Mallard Ducks|Arch. Environ. Contam. Toxicol.13(6): 765-771|1984|10.1007/BF01055941
35138|T||Dikshith,T.S.S., K.K. Datta, and P. Chandra|90 Day Dermal Toxicity of DDVP in Male Rats|Bull. Environ. Contam. Toxicol.15(5): 574-580|1976|10.1007/BF01685707
35139|T||Dindal,D.L.|Accumulation and Excretion of Cl36 DDT in Mallard and Lesser Scaup Ducks|J. Wildl. Manag.34(1): 74-92|1970|10.2307/3799494
35140|T||Dixit,V.P., and N.K. Lohiya|Histological Changes in Testis of the Non-Scrotal Mammal, Rhinopoma Kinneari (Wroughton) Following the Administration of Cadmium Chloride|Indian J. Exp. Biol.12:200-202|1974|
35141|T||Dost,F.N., D.J. Reed, A. Finch, and C.H. Wang|Toxicity of Tetrafluorohydrazine|Toxicol. Appl. Pharmacol.18:766-772|1971|10.1016/0041-008X(71)90228-6
35142|T||Eastin,W.C.,Jr., S.D. Haseltine, and H.C. Murray|Intestinal Absorption of 5 Chromium Compounds in Young Blackducks (Anas rubripes)|Toxicol. Lett.6:193-197|1980|10.1016/0378-4274(80)90191-5
35144|T||Edens,F.W., E. Benton, S.J. Bursian, and G.W. Morgan|Effect of Dietary Lead on Reproductive Performance in Japanese Quail, Coturnix coturnix japonica|Toxicol. Appl. Pharmacol.38:307-314|1976|10.1016/0041-008X(76)90137-X
35145|T||Edwards,C.A.|The Uptake of Two Organophosphorus Insecticides by Slugs|Bull. Environ. Contam. Toxicol.16(4): 406-410|1976|10.1007/BF01686153
35146|T||Emmett,B.J., and B.M. Archer|The Toxicity of Diflubenzuron to Honey Bee (Apis mellifera L.) Colonies in Apple Orchards|Plant Pathol.29(4): 177-183|1980|10.1111/j.1365-3059.1980.tb01209.x
35147|T||Eroschenko,V.P., and T.A. Place|Variation in Dimensions and Shell Weights of Eggs Collected from Japanese Quail fed Kepone with Different Level Calcium Diets|Environ. Pollut.16:123-127|1978|
35148|T||Eroschenko,V.P., and W.O. Wilson|Photoperiods and Age as Factors Modifying the Effects of Kepone in Japanese Quail|Toxicol. Appl. Pharmacol.29:329-339|1974|10.1016/0041-008X(74)90105-7
35149|T||Eroschenko,V.P.|Morphological Alterations in the Cells of the Developing Quail Oviduct as Influenced by Estradiol-17 beta and the Insectcide Kepone:  I.  Observations by Light and Scanning Electron Microscopy|Biol. Reprod.21:625-638|1979|10.1095/biolreprod21.3.625
35150|T||Eroschenko,V.P., and T.A. Place|Prolonged Effects of Kepone on Strength and Thickness of Eggshells from Japanese Quail fed Different Calcium Level Diets|Environ. Pollut.13:255-264|1977|
35151|T||Evans,H.L., R.H. Garman, and V.G. Laties|Neurotoxicity of Methylmercury in the Pigeon|Neurotoxicology3(3): 21-36|1982|
35152|T||Fairbrother,A., and J. Fowles|Subchronic Effects of Sodium Selenite and Selenomethionine on Several Immune-Functions in Mallards|Arch. Environ. Contam. Toxicol.19:836-844|1990|10.1007/BF01055048
35153|T||Fergin,T.J., and E.C. Schafer|Toxicity of Dieldrin to Bobwhite Quail in Relation to Sex and Reproductive Status|Arch. Environ. Contam. Toxicol.6(2-3): 213-219|1977|10.1007/BF02097762
35154|T||Fimreite,N., and L. Karstad|Effects of Dietary Methyl Mercury on Red-Tailed Hawks|J. Wildl. Manag.35(2): 293-300|1971|10.2307/3799603
35155|T||Findlay,G.M., G.J. Howe, and W.L. Lockhart|Impact of Fenitrothion upon Japanese Quail (Coturnix coturnix japonica) in a Forest Ecosystem|Manit. Entomol.8:10-15|1974|
35156|T||Finkiewicz-Murawiejska,L.|The Influence of Subacute Poisoning with the Organophosphate Insecticide Trichlorfon on Morphology of the Spinal Cord in White Rats|Folia Morphol. (Warsz. )37(2): 135-150|1978|
35157|T||Finley,M.T., and R.C. Stendell|Survival and Reproductive Success of Black Ducks fed Methyl Mercury|Environ. Pollut.16:51-64|1978|
35158|T||Finley,M.T., W.H. Stickel, and R.E. Christensen|Mercury Residues in Tissues of Dead and Surviving Birds fed Methylmercury|Bull. Environ. Contam. Toxicol.21:105-110|1979|10.1007/BF01685396
35159|T||Fleming,W.J., G.H. Heinz, J.C. Franson, and B.A. Rattner|Toxicity of Abate 4e (Temephos) in Mallard Ducklings and the Influence of Cold|Environ. Toxicol. Chem.4:193-199|1985|10.1002/etc.5620040209
35160|T||Fourie,F.R., and J. Hattingh|DDT Administration: Haematological Effects Observed in the Crowned Guinea-Fowl (Numida meleagris)|J. Environ. Pathol. Toxicol.2:1439-1446|1979|
35161|T||Frank,R., G.J. Sirons, and D. Wilson|Residues of 4-Aminopyridine in Poisoned Birds|Bull. Environ. Contam. Toxicol.26:389-392|1981|10.1007/BF01622108
35162|T||Franson,J.C., J.W. Spann, G.H. Heinz, C. Bunck, and T. Lamont|Effects of Dietary Abate on Reproductive Success, Duckling Survival, Behavior and Clinical Pathology in Game-Farm Mallards|Arch. Environ. Contam. Toxicol.12:529-534|1983|10.1007/BF01056548
35163|T||Frederick,R.B.|Effects of Lead Nitrate Ingestion on Open-Field Behavior of Mallard Ducklings|Bull. Environ. Contam. Toxicol.16(6): 739-742|1976|10.1007/BF01685582
35164|T||Friend,M., and D. Trainer|Experimental DDT-Duck Hepatitus Virus Interaction Studies|J. Wildl. Manag.38(4): 887-895|1974|10.2307/3800062
35165|T||Friend,M., and D.O. Trainer|Polychlorinated Biphenyl:  Interaction with Duck Hepatitus Virus|Science170:1314-1316|1970|10.1126/science.170.3964.1314
35166|T||Friend,M., and D.O. Trainer|Experimental Dieldrin-Duck Hepatitus Virus Interaction Studies|J. Wildl. Manag.38(4): 896-902|1974|10.2307/3800063
35167|T||Fuhremann,T.W., and E.P. Lichtenstein|Release of Soil Bound Methyl Carbon-14 Parathion Results and Their Uptake by Earthworms and Oat Plants|J. Agric. Food Chem.26(3): 605-610|1978|10.1021/jf60217a011
35168|T||Fujimori,K., I.K. Ho, and H.M. Mehendale|Assessment of Photomirex Toxicity in the Mouse|J. Toxicol. Environ. Health6:869-876|1980|10.1080/15287398009529905
35169|T||Fujimori,K., I.K. Ho, H.M. Mehendale, and D.C. Villeneuve|Comparative Toxicology of Mirex, Photomirex and Chlordecone After Oral Administration to the Mouse|Environ. Toxicol. Chem.2:49-60|1983|10.1002/etc.5620020106
35170|T||Gaines,T.B., R.D. Kimbrough, and R.E. Linder|The Toxicity of Amitrole in the Rat|Toxicol. Appl. Pharmacol.26:118-129|1973|10.1016/0041-008X(73)90092-6
35171|T||Gaines,T.B., R.D. Kimbrough, and R.E. Linder|The Oral and Dermal Toxicity of Hexachlorophene in Rats|Toxicol. Appl. Pharmacol.25:332-343|1973|10.1016/0041-008X(73)90307-4
35172|T||Gall,A., and J.R. Dogger|Effect of 2,4-D on the Wheat Stem Sawfly|J. Econ. Entomol.60(1): 75-77|1967|10.1093/jee/60.1.75
35173|T||Gallo,M.A., A. Guardigli, and C.H.,Jr. McGinnis|Effect of Asulam in Wildlife Species Residues and Toxicity in Bobwhite Quail After Prolonged Exposure|Bull. Environ. Contam. Toxicol.13(2): 200-205|1975|10.1007/BF01721738
35174|T||Gallo,M.A., E. Bachmann, and L. Golberg|Mitochondrial Effects of 2,6-Dichloro-4-Nitroaniline and Its Metabolites|Toxicol. Appl. Pharmacol.35:51-61|1976|10.1016/0041-008X(76)90110-1
35175|T||Garavini,C., and P. Seren|Hematologic and Hemopoietic Alterations Following Experimental Benzene Exposure in Newts (Triturus Cristatus)|Biochem. Exp. Biol.14(3): 247-255|1978|
35176|T||Gardiner,E.E.|Differences Between Ducks, Pheasants, and Chickens in Tissue Mercury Retention, Depletion, and Tolerance to Increasing Levels of Dietary Mercury|Can. J. Anim. Sci.52:419-423|1972|10.4141/cjas72-047
35177|T||Gesell,G.G., R.J. Robel, A.D. Dayton, and J. Frieman|Effects of Dieldrin on Operant Behavior of Bobwhites|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(2): 153-170|1979|
35178|T||Giavini,E., M. Prati, and C. Vismara|Effects of Triphenyltin Acetate on Pregnancy in the Rat|Bull. Environ. Contam. Toxicol.24:936-939|1980|10.1007/BF01608214
35179|T||Gill,J.A., and B.J. Verts|Tolerances of Two Populations of Ring-Necked Pheasants to DDT|J. Wildl. Manag.34(3): 630-636|1970|10.2307/3798873
35180|T||Gill,J.A., B.J. Verts, and A.G. Christensen|Toxicities of DDE and Some Other Analogs of DDT to Pheasants|J. Wildl. Manag.34(1): 223-226|1970|10.2307/3799516
35181|T||Giri,S.N., A.A. Bickford, and A.E. Barger|Effects of 2-Chloro-4-Acetotoluidine (CAT) Toxicity on Biochemical and Morphological Alterations in Quail|Avian Dis.24(4): 794-811|1979|10.2307/1589595
35182|T||Giri,S.N., A.E. Barger, A.A. Bickford, and S.A. Peoples|Histopathological Features and Biochemical Mechanism of 2-Chloro-4-Acetotoluidine Toxicity in Starling|Exp. Mol. Pathol.29:426-441|1978|10.1016/0014-4800(78)90083-7
35183|T||Gochfeld,M., and J. Burger|Effects of Lead on Growth and Feeding Behavior of Young Common Terns (Sterna Hirundo)|Arch. Environ. Contam. Toxicol.17:513-517|1988|10.1007/BF01055517
35184|T||Gojmerac,T., and J. Kniewald|Atrazine Biodegradation in Rats - a Model for Mammalian Metabolism|Bull. Environ. Contam. Toxicol.43:199-206|1989|10.1007/BF01701748
35186|T||Grabowski,C.T., and D.B. Payne|The Causes of Perinatal Death Induced by Prenatal Exposure of Rats to the Pesticide, Mirex. Part 2: Postnatal Observations|J. Toxicol. Environ. Health11:301-315|1983|10.1080/15287398309530343
35187|T||Grant,D.L., C.A. Moodie, and W.E.J. Phillips|Toxicodynamics of Aroclor 1254 in the Male Rat|Environ. Physiol. Biochem.4:214-225|1974|
35188|T||Gray,A.J., C.M. Thompson, and T.R. Fukuto|Distribution and Excretion of (14CH3S)Methamidophos After Intravenous Administration of a Toxic Dose and the Relationship with Anticholinesterase Activity|Pestic. Biochem. Physiol.18:28-37|1982|10.1016/0048-3575(82)90085-2
35189|T||Greichus,A., B. McDaniel, and Y.A. Greichus|Effects of Orally Administered Insecticides and Polychlorinated Biphenyls on the Parasite Fauna of Two Species of Piscivorous Birds|Exp. Parasitol.35:248-252|1974|10.1016/0014-4894(74)90029-0
35190|T||Greichus,Y.A., and A. Greichus|Dieldrin-14C Residues on Feathers of Birds with Surgically Removed Uropygial Glands|Bull. Environ. Contam. Toxicol.12(4): 413-416|1974|10.1007/BF01684975
35191|T||Grissom,R.E.,Jr., and J.P. Thaxton|Interaction of Mercury and Water Deprivation on the Hematology of Chickens|J. Toxicol. Environ. Health19(1): 65-74|1986|10.1080/15287398609530907
35192|T||Grissom,R.E.,Jr., and J.P. Thaxton|Interaction of Mercury and Water Deprivation on Growth, Feed Consumption, and Mortality in Chickens|Bull. Environ. Contam. Toxicol.33:317-324|1984|10.1007/BF01625550
35193|T||Grissom,R.E.J., and J.P. Thaxton|Onset of Mercury Toxicity in Young Chickens|Arch. Environ. Contam. Toxicol.14:193-196|1985|10.1007/BF01055611
35194|T||Gromysz-Kalkowska,K., E. Szubartowska, J. Sulikowska, and K. Trocewicz|Peripheral Blood Changes of the Japanese Quail Coturnix coturnix japonica Following Repeated Small Doses of Trichlorfon|Bull. Environ. Contam. Toxicol.35:757-766|1985|10.1007/BF01636585
35195|T||Grue,C.E., G.V.N. Powell, and M.J. Mcchesney|Care of Nestlings by Wild Female Starlings Exposed to an Organophosphate Pesticide|J. Appl. Ecol.19:327-335|1982|10.2307/2403470
35196|T||Grue,C.E.|Response of Common Grackles to Dietary Concentrations of Four Organophosphate Pesticides|Arch. Environ. Contam. Toxicol.11:617-626|1982|10.1007/BF01056371
35197|T||Grue,C.E., and B.K. Shipley|Interpreting Population Estimates of Birds Following Pesticide Applications - Behavior of Male Starlings Exposed to An Organophosphate Pesticide|Stud. Avian Biol.6:292-296|1981|
35198|T||Gupta,P.K.|Distribution of Endosulfan in Plasma and Brain After Repeated Oral Administration to Rats|Toxicology9:371-377|1978|10.1016/0300-483X(78)90020-3
35199|T||Gupta,P.K., S.V. Chandra, and D.K. Saxena|Teratogenic and Embryotoxic Effects of Endosulfan in Rats|Acta Pharmacol. Toxicol.42:150-152|1978|10.1111/j.1600-0773.1978.tb02183.x
35200|T||Guzman,J.A., and T. Guardia|Effects of an Organophosphorous Insecticide on the Cholinesteratic Activities of Bufo Arenarum (H)|Bull. Environ. Contam. Toxicol.20:52-58|1978|10.1007/BF01683485
35201|T||Haegele,M.A., and R.H. Hudson|Eggshell Thinning and Residues in Mallards One Year After DDE Exposure|Arch. Environ. Contam. Toxicol.2(4): 356-363|1974|10.1007/BF02047100
35202|T||Haegele,M.A., R.K. Tucker, and R.H. Hudson|Effects of Dietary Mercury and Lead on Eggshell Thickness in Mallards|Bull. Environ. Contam. Toxicol.11(1): 5-11|1974|10.1007/BF01685020
35203|T||Haley,T.J., J.H. Farmer, J.R. Harmon, and K.L. Dooley|Estimation of the LD1 and Extrapolation of the LD0.1 for Five Organophosphate Pesticides|Arch. Toxicol.34:103-109|1975|10.1007/BF00353310
35204|T||Hamilton,G.A., K. Hunter, and A.D. Ruthven|Inhibition of Brain Acetylcholinesterase Activity in Songbirds Exposed to Fenitrothion During Aerial Spraying of Forests|Bull. Environ. Contam. Toxicol.27(6): 856-863|1981|10.1007/BF01611107
35205|T||Hammond,P.B., D.J. Minnema, and R. Shulka|Lead Exposure Lowers the Set Point for Food Consumption and Growth in Weanling Rats|Toxicol. Appl. Pharmacol.106:80-87|1990|10.1016/0041-008X(90)90108-7
35206|T||Hanny,B., and J. Harvey|Sevin Sprayable Versus Sevin XLR Applied to Field Corn (Zea mays L.) at Pine Bluffs, Wyoming - Effects on Honey Bees (Apis mellifera L.)|Am. Bee J.122(7): 506-508|1982|
35207|T||Harland,B.F., M.R. Spivey Fox, and B.E.,Jr. Fry|Magnesium Deficiency, Requirement and Toxicity in the Young Japanese Quail|Poult. Sci.55:359-364|1976|10.3382/ps.0550359
35208|T||Harri,M.N.E., J. Laitinen, and E.L. Valkama|Toxicity and Retention of DDT in Adult Frogs, Rana temporaria L.|Environ. Pollut.20(1): 45-55|1979|
35209|T||Haseltine,S.D., and R.M. Prouty|Aroclor 1242 and Reproductive Success of Adult Mallards (Anas platyrhynchos)|Environ. Res.23:29-34|1980|10.1016/0013-9351(80)90090-0
35211|T||Hattula,M.L., V.M. Wasenius, R. Krees, A.U. Arstila, and M. Kihlstrom|Acute and Short-Term Toxicity of 2,3,4,6-Tetrachlorophenol in Rats|Bull. Environ. Contam. Toxicol.26:795-800|1981|10.1007/BF01622173
35212|T||Hayes,W.J.|Distribution of Dieldrin Following A Single Oral Dose|Toxicol. Appl. Pharmacol.28:485-492|1974|10.1016/0041-008X(74)90233-6
35213|T||Heath,R.G., and J.W. Spann|Reproduction and Related Residues in Birds fed Mirex|Pestic.Environ.Contin.Controversy Pap.Inter.AM Conf.Toxicol.Occup.Med.8th2:421-435|1973|
35214|T||Heath,R.G., J.W. Spann, E.F. Hill, and J.F. Kreitzer|Comparative Dietary Toxicities of Pesticides to Birds|Special Scientific Report  Wildlife 152, Bureau of Sport Fisheries and Wildlife, U.S. Department of the Interior, Washington, DC:57 p.|1972|
35215|T||Heinz,G.|Effects of Low Dietary Levels of Methylmercury on Mallard Reproduction|Bull. Environ. Contam. Toxicol.11(4): 386-392|1974|10.1007/BF01684947
35216|T||Heinz,G.H.|Eggshell Thickness in Mallards fed Methylmercury|Bull. Environ. Contam. Toxicol.25(3): 498-502|1980|10.1007/BF01985561
35217|T||Heinz,G.H.|Methylmercury: Second-Generation Reproductive and Behavioral Effects on Mallard Ducks|J. Wildl. Manag.40(4): 710-715|1976|10.2307/3800567
35218|T||Heinz,G.H.|Comparison of Game-Farm and Wild-Strain Mallard Ducks in Accumulation of Methylmercury|J. Environ. Pathol. Toxicol.3:379-386|1980|
35219|T||Heinz,G.H.|Behavior of Mallard Ducklings from Parents fed 3 ppm DDE|Bull. Environ. Contam. Toxicol.16(6): 640-645|1976|10.1007/BF01685567
35220|T||Heinz,G.H., and L.G. Gold|Behavior of Mallard Ducklings from Adults Exposed to Selenium|Environ. Toxicol. Chem.6(11): 863-865|1987|
35221|T||Heinz,G.H., and L.N. Locke|Brain Lesions in Mallard Ducklings from Parents Fed Methylmercury|Avian Dis.20(1): 9-17|1976|10.2307/1589469
35222|T||Heinz,G.H., and R.W. Johnson|Elimination of Endrin by Mallard Ducks|Toxicology12:189-196|1979|10.1016/0300-483X(79)90065-9
35223|T||Heinz,G.H., D.J. Hoffman, and L.G. Gold|Toxicity of Organic and Inorganic Selenium to Mallard Ducklings|Arch. Environ. Contam. Toxicol.17:561-568|1988|10.1007/BF01055823
35224|T||Heinz,G.|Effects of Methylmercury on Approach and Avoidance Behavior of Mallard Ducklings|Bull. Environ. Contam. Toxicol.13(5): 554-564|1975|10.1007/BF01685179
35225|T||Heinz,G.H.|Methylmercury: Reproductive and Behavioral Effects on Three Generations of Mallard Ducks|J. Wildl. Manag.43(2): 394-401|1979|10.2307/3800348
35226|T||Heinz,G.H.|Methylmercury: Second-Year Feeding Effects on Mallard Reproduction and Duckling Behavior|J. Wildl. Manag.40(1): 82-90|1976|10.2307/3800158
35227|T||Heinz,G.H., and C.J. Sanderson|Avoidance of Selenium-Treated Food by Mallards|Environ. Toxicol. Chem.9:1155-1158|1990|
35228|T||Heinz,G.H., and R.W. Johnson|Diagnostic Brain Residues of Dieldrin: Some New Insights|ASTM Spec. Tech. Publ.:72-92|1981|
35229|T||Heinz,G.H., D.J. Hoffman, and L.G. Gold|Impaired Reproduction of Mallards Fed an Organic Form of Selenium|J. Wildl. Manag.53(2): 418-428|1989|10.2307/3801145
35230|T||Heinz,G.H., S.D. Haseltine, and L. Sileo|Altered Avoidance Behavior of Young Black Ducks fed Cadmium|Environ. Toxicol. Chem.2:419-421|1983|10.1002/etc.5620020406
35232|T||Henny,C.J., R.A. Olson, and D.L. Meeker|Residues in Common Flicker and Mountain Bluebird Eggs One Year After a DDT Application|Bull. Environ. Contam. Toxicol.18(2): 115-122|1977|10.1007/BF01686317
35233|T||Herbert,E.W.,Jr., and H. Shimanuki|Impact on Honey Bees of ULV Malathion Application to Control Mosquitoes in Maryland|Am. Bee J.123(1): 26-28|1983|
35234|T||Herin,R.A., A.A. Komeil, D.G. Graham, A. Curley, and M.B. Abou-Donia|Delayed Neurotoxicity Induced by Organophosphorus Compounds in the Wild Mallard Duckling: Effect of Leptophos|J. Environ. Pathol. Toxicol.1:233-240|1978|
35235|T||Herin,R.A., E. Suggs, E.M. Lores, L.T. Heiderscheit, J.D. Farmer, and D. Prather|Correlation of Salt Gland Function with Levels of Chlorpyrifos in the Feed of Mallard Ducklings|Pestic. Biochem. Physiol.9:157-164|1978|10.1016/0048-3575(78)90076-7
35236|T||Hester,P.Y., J. Brake, C.V. Sikes, P. Thaxton, and S.L. Purdue|The Excretory System of Young Chickens Experiencing Mercury Toxicity-Effects on Kidney Development, Morphology, and Function|Arch. Environ. Contam. Toxicol.7:257-271|1978|10.1007/BF02332054
35237|T||Hill,E.F.|Subacute Dietary Toxicities of Dicrotophos and Dieldrin in Time-Replicated Trials with Young Ring-Necked Pheasants and Mallards|ASTM Spec. Tech. Publ.:105-120|1981|
35238|T||Hill,E.F.|Avoidance of Lethal Dietary Concentrations of Insecticide by House Sparrows|J. Wildl. Manag.36(2): 635-639|1972|10.2307/3799099
35239|T||Hill,E.F., and C.S. Shaffner|Sexual Maturation and Productivity of Japanese Quail fed Graded Concentrations of Mercuric Chloride|Poult. Sci.55:1449-1459|1976|10.3382/ps.0551449
35240|T||Hill,E.F., and M.B. Camardese|Subacute Toxicity Testing with Young Birds:  Response in Relation to Age and Interest Variability of LC50 Estimates|ASTM Spec. Tech. Publ.:41-65|1981|
35241|T||Hill,E.F., and J.H.,Jr. Soares|Subchronic Mercury Exposure in Coturnix and a Method of Hazard Evaluation|Environ. Toxicol. Chem.3:489-502|1984|10.1002/etc.5620030311
35242|T||Hill,E.F., J.W. Spann, and J.D. Williams|Responsiveness of 6 to 14 Generations of Birds to Dietary Dieldrin Toxicity|Toxicol. Appl. Pharmacol.42:425-431|1977|10.1016/0041-008X(77)90020-5
35243|T||Hill,E.F., R.G. Heath, J.W. Spann, and J.D. Williams|Lethal Dietary Toxicities of Environmental Pollutants to Birds|Spec. Sci. Rep. Wildl.191:61 p.|1975|
35244|T||Hochstein,J.R., R.J. Aulerich, and S.J. Bursian|Acute Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Mink|Arch. Environ. Contam. Toxicol.17:33-37|1988|10.1007/BF01055151
35245|T||Hodgson,J.R., J.C. Hoch, T.R. Castles, D.O. Helton, and C.C. Lee|Metabolism and Disposition of Ferbam in the Rat|Toxicol. Appl. Pharmacol.33:505-513|1975|10.1016/0041-008X(75)90076-9
35246|T||Hoffman,J.R., J.C. Franson, O.H. Pattee, and C.M. Bunck|Survival, Growth, and Histopathological Effects of Paraquat Ingestion in Nestling American Kestrels (Falco sparverius)|Arch. Environ. Contam. Toxicol.14:495-500|1985|10.1007/BF01055536
35247|T||Hoffman,D.G., H.M. Worth, J.L. Emmerson, and R.C. Anderson|Comparison of 14- and 90-Day Tests in Rats for Liver Enlargement and Stimulation of Drug-Metabolizing Enzymes Induced by the Agricultural Fungicide El 241|Toxicol. Appl. Pharmacol.18:311-320|1971|10.1016/0041-008X(71)90122-0
35248|T||Hoffman,D.G., N.R. Bernhard, H.M. Worth, and J.L. Emmerson|Microsomal Drug-Metabolizing Enzyme Activity in Rats Given Alpha-(2,4-Dichlorophenyl)-Alpha-Phenyl-5-Pyrimidinemethanol for Periods of 14 Days to 2 Years|Toxicol. Appl. Pharmacol.35:413-421|1976|10.1016/0041-008X(76)90064-8
35249|T||Hoffman,D.J., and P.H. Albers|Evaluation of Potential Embryotoxicity and Teratogenicity of 42 Herbicides, Insecticides, and Petroleum Contaminants to Mallard Eggs|Arch. Environ. Contam. Toxicol.13:15-27|1984|10.1007/BF01055642
35250|T||Hoffman,D.J., and W.C.,Jr. Eastin|Effects of Malathion, Diazinon, and Parathion on Mallard Embryo Development and Cholinesterase Activity|Environ. Res.26:472-485|1981|10.1016/0013-9351(81)90222-X
35251|T||Hoffman,D.J., and W.C. Eastin Jr|Effects of Lindane, Paraquat, Toxaphene, and 2,4,5-Trichlorophenoxyacetic Acid on Mallard Embryo Development|Arch. Environ. Contam. Toxicol.11:79-86|1982|10.1007/BF01055190
35252|T||Holler,N.R., H.P. Naquin, P.W. Lefebvre, D.L. Otis, and D.J. Cunningham|Mesurol for Protecting Sprouting Rice from Blackbird Damage in Louisiana|Wildl. Soc. Bull.10(2): 165-170|1982|
35253|T||Holub,B.J., J. Piekarski, and K. Nilsson|The Effect of a PCB (2,4,2',4'-Tetrachlorobiphenyl) on Lipid-Synthesizing Enzymes in Rat Liver Microsomes|Bull. Environ. Contam. Toxicol.14(4): 415-421|1975|10.1007/BF01705506
35254|T||Hornshaw,T.C., J. Safronoff, R.K. Ringer, and R.J. Aulerich|LC50 Test Results in Polychlorinated Biphenyl-Fed Mink:  Age, Season, and Diet Comparisons|Arch. Environ. Contam. Toxicol.15:717-723|1986|10.1007/BF01054918
35255|T||Hothem,R.L., D.F. Mott, R.W. DeHaven, and J.L. Guarino|Mesurol as a Bird Repellent on Wine Grapes in Oregon and California|Am. J. Enol. Vitic.32(2): 150-154|1981|10.5344/ajev.1981.32.2.150
35256|T||Hough,E.J., and M.E. Zabik|Distribution of Mercury in Organs of McGraw-Mallard Ducks Given Methyl Mercury Chloride|Poult. Sci.51:2101-2103|1972|10.3382/ps.0512101
35257|T||Howard,W.E., R.E. Marsh, and R.E. Cole|Duration of Associative Memory to Toxic Bait in Deer Mice|J. Wildl. Manag.41(3): 484-486|1977|10.2307/3800520
35258|T||Hudson,R.H.|Toxicities of the Lampricides 3-Trifluoromethyl-4-nitrophenol (TFM) and the 2-Aminoethanol Salt of 2',5-Dichloro-4'-Nitrosalicylanilide (Bayer 73) to Four Bird Species|U.S.Fish and Wildlife Service.Investigations in Fish Control No.89:5 p.|1979|
35259|T||Hudson,R.H., M.A. Haegele, and R.K. Tucker|Acute Oral and Percutaneous Toxicity of Pesticides to Mallards:  Correlations with Mammalian Toxicity Data|Toxicol. Appl. Pharmacol.47:451-460|1979|10.1016/0041-008X(79)90515-5
35260|T||Hudson,R.H., R.K. Tucker, and M.A. Haegele|Effect of Age on Sensitivity: Acute Oral Toxicity of 14 Pesticides to Mallard Ducks of Several Ages|Toxicol. Appl. Pharmacol.22:556-561|1972|10.1016/0041-008X(72)90284-0
35261|T||Hurley,S., and M.B. Fenton|Ineffectiveness of Fenthion, Zinc Phosphide, DDT and Two Ultrasonic Rodent Repellers for Control of Populations of Little Brown Bats (Myotis lucifugus)|Bull. Environ. Contam. Toxicol.25:503-507|1980|10.1007/BF01985562
35262|T||Hurst,J.G., W.S. Newcomer, and J.A. Morrison|Some Effects of DDT, Toxaphene and Polychlorinated Biphenyl on Thyroid Function in Bobwhite Quail|Poult. Sci.53:125-133|1974|10.3382/ps.0530125
35263|T||Hyde,K.M., J.B. Graves, A.B. Watts, and F.L. Bonner|Reproductive Success of Mallard Ducks fed Mirex|J. Wildl. Manag.37(4): 479-484|1973|10.2307/3800312
35264|T||Iatropoulos,M.J., A. Milling, W.F. Muller, G. Nohynek, K. Rozman, F. Coulston, and F. Korte|Absorption, Transport and Organotropism of Dichlorobiphenyl (DCB), Dieldrin, and Hexachlorobenzene (HCB) in Rats|Environ. Res.10:384-389|1975|10.1016/0013-9351(75)90033-X
35265|T||Ilback,N.G., J. Sundberg, and A. Oskarsson|Methyl Mercury Exposure via Placenta and Milk Impairs Natural Killer (NK) Cell Function in Newborn Rats|Toxicol. Lett.58:149-158|1991|10.1016/0378-4274(91)90169-7
35266|T||Ingebrigtsen,K., E.M. Brevik, and I. Nafstad|Distribution and Elimination of Hexachlorobenzene (HCB) After Single Oral Exposure in Japanese Quail (Coturnix coturnix japonica)|J. Toxicol. Environ. Health8:845-856|1981|10.1080/15287398109530120
35268|T||Ireland,M.P.|Lead Retention in Toads Xenopus laevis fed Increasing Levels of Lead-Contaminated Earthworms|Environ. Pollut.12:85-92|1977|
35269|T||Ivey,M.C., J.S. Palmer, and R.H. Washburn|Famphur and Its Oxygen Analogue: Residues in the Body Tissues of Reindeer|J. Econ. Entomol.69(2): 260-262|1976|10.1093/jee/69.2.260
35270|T||Ivie,G.W., H.W. Dorough, and H.E. Bryant|Fate of Mirex-14C in Japanese Quail|Bull. Environ. Contam. Toxicol.11(2): 129-135|1974|10.1007/BF01684591
35271|T||Izquierdo,J.A., G. Rabiller, E. Borghi, S. Costas, C. Savini, and E. Justel|Tryptophan (trp), Serotonin (5-HT), Monoamino Oxidase (MAO) and 5-Hydroxyindole Acetic Acid (5-HIAA) in Brain and Subesophagic Ganglions of Earthworms. Effects of Parathion|Experientia35(1): 73-74|1979|10.1007/BF01917885
35272|T||Jefferies,D.J., and J.L.F. Parslow|Thyroid Changes in PCB-Dosed Guillemots and Their Indication of One of the Mechanisms of Action of These Materials|Environ. Pollut.10:293-311|1976|
35273|T||Jefferies,D.J., and J.L.F. Parslow|Effect of One Polychlorinated Biphenyl on Size and Activity of the Gull Thyroid|Bull. Environ. Contam. Toxicol.8(5): 306-310|1972|10.1007/BF01684561
35274|T||Jefferies,D.J., and M.C. French|Changes Induced in the Pigeon Thyroid by p,p'-DDE and Dieldrin|J. Wildl. Manag.36(1): 24-30|1972|10.2307/3799185
35275|T||Jennings,D.M., P.J. Bunyan, P.M. Brown, P.I. Stanley, and F.J.S. Jones|Organophosphorus Poisoning: A Comparative Study of the Toxicity of Carbophenothion to the Canada Goose, the Pigeon and the Japanese Quail|Pestic. Sci.6:245-257|1975|10.1002/ps.2780060306
35276|T||Jensen,S., J.E. Kihlstrom, M. Olsson, C. Lundberg, and J. Orberg|Effects of PCB and DDT on Mink (Mustela vision) During the Reproductive Season|Ambio6(4): 239-|1977|
35277|T||Jenssen,D., and L. Renberg|Distribution and Cytogenetic Test of 2,4-D and 2,4,5-T Phenoxyacetic Acids in Mouse Blood Tissues|Chem.-Biol. Interact.14:291-299|1976|10.1016/0009-2797(76)90108-3
35278|T||Johansen,C.|Spray Additives for Insecticidal Selectivity to Injurious vs. Beneficial Insects|Environ. Entomol.1(1): 51-54|1972|10.1093/ee/1.1.51
35279|T||Johansen,C.A., and C.W. Kious|Bee Poisoning Characteristics of Microencapsulated Methyl Parathion|Glean. Bee Cult.106:382-385|1978|
35280|T||Johansen,C.A., and F.C. Brown|Toxicity of Carbaryl-Contaminated Pollen Collected by Honey Bees|Environ. Entomol.1(3): 385-386|1972|10.1093/ee/1.3.385
35281|T||Johansen,C.A., and M.G. Kleinschmidt|Insecticide Formulations and Their Toxicity to Honeybees|J. Apic. Res.11(1): 59-62|1972|10.1080/00218839.1972.11099700
35283|T||Johnson,D.R.|Short-Term Effects of Silicone Antitranspirant on Bird and Mammal Populations|Northwest Sci.50(3): 156-159|1976|
35284|T||Johnson,D.R., and R.M. Hansen|Effects of Range Treatment with 2,4-D on Rodent Populations|J. Wildl. Manag.33(1): 125-132|1969|10.2307/3799659
35285|T||Johnston,G., G. Collett, C. Walker, A. Dawson, I. Boyd, and D. Osborn|Enhancement of Malathion Toxicity to the Hybrid Red-Legged Partridge Following Exposure to Prochloraz|Pestic. Biochem. Physiol.35:107-118|1989|10.1016/0048-3575(89)90108-9
35287|T||Jordan,M., Z. Srebro, E. Pierscinska, and L. Wozny|Preliminary Observations on the Effects on the Organs of Mice of Administering Some Carbamate Pesticides|Bull. Environ. Contam. Toxicol.14(2): 205-208|1975|10.1007/BF01701315
35288|T||Jordan,S.A., M.K. Bhatnagar, and W.J. Bettger|Combined Effects of Methylmercury,Lead and Cadmium on Hepatic Metallothionein and Metal Concentration in the Pekin Duck|Arch. Environ. Contam. Toxicol.19:886-891|1990|10.1007/BF01055055
35289|T||Jordan,S.A., and M.K. Bhatnagar|Hepatic Enzyme Activity After Combined Administration of Methylmercury, Lead and Cadmium in the Pekin Duck|Bull. Environ. Contam. Toxicol.44:623-628|1990|10.1007/BF01700886
35291|T||Kale,R.D., and R.V. Krishnamoorthy|Pesticidal Effects of Sevin (1-Naphthyl-N-Methyl Carbamate) on the Survivability and Abundance of Earthworm Pontoscolex corethrurus|Proc. Indian Acad. Sci. Sect. B88(6, Pt.1): 391-396|1979|
35292|T||Kaneda,M., S. Teramoto, A. Shingu, and Y. Shirasu|Teratogenicity and Dominant-Lethal Studies with o-Phenylphenol|J. Pestic. Sci. (Multiple Languages)3:365-370|1978|10.1584/jpestics.3.365
35293|T||Karel,A.K., and S.C. Saxena|Chronic Chlordane Toxicity: Effect on Blood Biochemistry of Meriones Hurrianae Jerdon, the Indian Desert Gerbil|Pestic. Biochem. Physiol.6:111-114|1976|10.1016/0048-3575(76)90029-8
35294|T||Karlsson,B., B. Persson, A. Sodergren, and S. Ulfstrand|Locomotory and Dehydrogenase Activities of Redstarts Phoenicurus phoenicurus L. (Aves) Given PCB and DDT|Environ. Pollut.7:53-63|1974|
35295|T||Kedderis,L.B., J.J. Diliberto, and L.S. Birnbaum|Disposition and Excretion of Intravenous 2,3,7,8-Tetrabromodibenzo-p-Dioxin (TBDD) in Rats|Toxicol. Appl. Pharmacol.108:397-406|1991|10.1016/0041-008X(91)90086-T
35296|T||Kedderis,L.B., J.J. Diliberto, P. Linko, J.A. Goldstein, and L.S. Birnbaum|Disposition of 2,3,7,8-Tetrabromodibenzo-p-Dioxin and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat: Biliary Excretion and Induction of Cytochromes CYP1A1 and CYP1A2|Toxicol. Appl. Pharmacol.111:163-172|1991|10.1016/0041-008X(91)90145-5
35297|T||Kenaga,E.E., R.J. Fink, and J.B. Beavers|Dietary Toxicity Tests with Mallards, Simulating Residue Decline of Chlorpyrifos and Avoidance of Treated Food|ASTM Spec. Tech. Publ.:36-44|1979|
35298|T||Kendall,R.J., R. Noblet, J.D. Hair, and H.B. Jackson|Mirex Residues in Bobwhite Quail After Aerial Application of Bait for Fire Ant Control, South Carolina--1975-76|Pestic. Monit. J.11(2): 64-68|1977|
35299|T||Kendall,R.J., R. Noblet, L.H. Senn, and A.J.R. Holman|Toxicological Studies with Mirex in Bobwhite Quail|Poult. Sci.57:1539-1545|1978|10.3382/ps.0571539
35300|T||Kenny,A.D.|DDT and Vitamin D Metabolism in Japanese Quail|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:363-366|1974|
35302|T||Khera,K.S., and W.P. McKinley|Pre- and Postnatal Studies on 2,4,5-Trichlorophenoxyacetic Acid, 2,4-Dichlorophenoxyacetic Acid and Their Derivatives in Rats|Toxicol. Appl. Pharmacol.22:14-28|1972|10.1016/0041-008X(72)90221-9
35303|T||Kling,L.J., and J.H. Soares|Mercury Metabolism in Japanese Quail I. The Effect of Dietary Mercury and Selenium on Their Tissue Distribution|Poult. Sci.57:1279-1285|1978|10.3382/ps.0571279
35304|T||Kociba,R.J., P.A. Keeler, C.N. Park, and P.J. Gehring|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD):  Results of a 13-Week Oral Toxicity Study in Rats|Toxicol. Appl. Pharmacol.35:553-574|1976|10.1016/0041-008X(76)90078-8
35305|T||Kolaja,G.J., and D.E. Hinton|Histopathologic Alterations in Shell Gland Accompanying DDT-Induced Thinning of Eggshell|Environ. Pollut.10:225-231|1976|
35306|T||Kolaja,G.J., and D.E. Hinton|DDT-Induced Reduction in Eggshell Thickness, Weight, and Calcium is Accompanied by Calcium ATPase Inhibition|In: S.W.Nielsen,G.Migaki, and D.G.Scarpelli (Eds.), Symp.on Animals as Monitors of Environmental Pollutants, 1977, Storrs, CT, Natl.Acad.Sci., Washington, D.C.:309-318|1979|
35307|T||Kolaja,G.J., and D.E. Hinton|Ultrastructural Alterations in the Eggshell Gland Epithelium of the Mallard Duck after Chronic Exposure to DDT|Environ. Pollut.17:237-244|1978|
35308|T||Kopischke,E.D.|The Effect of 2,4-D and Diesel Fuel on Egg Hatchability|J. Wildl. Manag.36(4): 1353-1356|1972|10.2307/3799284
35309|T||Korpela,S., and U. Tulisalo|The Residual Contact Toxicity to Honey Bees of Eight Organophosphorous Insecticides on Rape Flowers Tested with a Simple Laboratory Method|Ann. Entomol. Fenn.40(1): 1-9|1974|
35310|T||Krampl,V., and A. Hladka|Dose-Dependent Extent Microsomal Enzyme Induction by Aldrin and Dieldrin in Rats|Bull. Environ. Contam. Toxicol.14(5): 571-578|1975|10.1007/BF01683374
35311|T||Krause,W., K. Hamm, and J. Weissmuller|Damage to Spermatogenesis in Juvenile Rat Treated with DDVP and Malathion|Bull. Environ. Contam. Toxicol.15(4): 458-462|1976|10.1007/BF01685072
35312|T||Krechniak,J., and W. Foss|Cholinesterase Activity in Rats Treated with Propoxur|Bull. Environ. Contam. Toxicol.29:599-604|1982|10.1007/BF01669627
35313|T||Kreitzer,J.F., and G.H. Heinz|The Effect of Sublethal Dosages of Five Pesticides and a Polychlorinated Biphenyl on the Avoidance Response of Coturnix Quail Chicks|Environ. Pollut.6:21-29|1974|
35314|T||Muralidhara,S., and M.K. Krishnakumari|Mammalian Toxicity of Aromex and Xylene Used in Pesticidal Formulations|Indian J. Exp. Biol.18:1148-1151|1980|
35315|T||Kurtz,D.A., and C.R. Studholme|Recovery of Trichlorfon (Dylox) and Carbaryl (Sevin) in Songbirds Following Spraying of Forest for Gyspy Moth|Bull. Environ. Contam. Toxicol.11(1): 78-84|1974|10.1007/BF01685032
35316|T||Labisky,R.F.|Responses of Pheasants to Simulated Field Applications of Counter, An Organophosphate Insecticide|J. Wildl. Manag.39(1): 174-178|1975|10.2307/3800482
35317|T||Lacombe,D., A. Cyr, and J.M. Bergeron|Effects of the Chemosterilant Ornitrol on the Nesting Success of Red-Winged Blackbirds|J. Appl. Ecol.23:773-779|1986|10.2307/2403933
35318|T||Lake,B.G., P.H. Brantom, S.D. Gangolli, K. Butterworth, P. Grasso, and A.G. Lloyd|The Hepatic Effects of Orally Administered di-(2-Ethylhexyl)Phthalate in the Ferret|Biochem. Soc. Trans.5:310-311|1977|10.1042/bst0050310
35322|T||Lindquist,N.G.|An Autoradiographic Study on the Distribution of the Herbicide 4-Chloro-2-Methylphenoxyacetic Acid in Pregnant Mice|Toxicol. Appl. Pharmacol.30:227-236|1974|10.1016/0041-008X(74)90094-5
35323|T||Linzey,A.V.|Effects of Chronic Polychlorinated Biphenyls Exposure on Reproductive Success of White-Footed Mice (Peromyscus leucopus)|Arch. Environ. Contam. Toxicol.16:455-460|1987|10.1007/BF01055267
35324|T||Linzey,A.V.|Effects of Chronic Polychlorinated Biphenyls Exposure on Growth and Reproduction of Second Generation White-Footed Mice (Peromyscus leucopus)|Arch. Environ. Contam. Toxicol.17:39-45|1988|10.1007/BF01055152
35325|T||Longcore,J.R., and F.B. Samson|Eggshell Breakage by Incubating Black Ducks fed DDE|J. Wildl. Manag.37(3): 390-394|1973|10.2307/3800130
35326|T||Longcore,J.R., and R.C. Stendell|Shell Thinning and Reproductive Impairment in Black Ducks After Cessation of DDE Dosage|Arch. Environ. Contam. Toxicol.6:293-304|1977|10.1007/BF02097770
35327|T||Lowe,T.P., and R.C. Stendell|Eggshell Modifications in Captive American Kestrels Resulting from Aroclor 1248 in the Diet|Arch. Environ. Contam. Toxicol.20(4): 519-522|1991|10.1007/BF01065842
35328|T||Ludke,J.L.|Interaction of Dieldrin and DDE Residues in Japanese Quail (Coturnix coturnix japonica)|Bull. Environ. Contam. Toxicol.11(4): 297-302|1974|10.1007/BF01685112
35329|T||Ludke,J.L.|Organochlorine Pesticide Residues Associated with Mortality:Additivity of Chlordane and Endrin|Bull. Environ. Contam. Toxicol.16(3): 253-260|1976|10.1007/BF01685886
35330|T||Ludke,J.L., E.F. Hill, and M.P. Dieter|(CHE) Reponse and Related Mortality Among Birds Fed CHE Inhibitors|Arch. Environ. Contam. Toxicol.3(1): 1-21|1975|10.1007/BF02221128
35331|T||Mahoney,J.J.,Jr.|DDT and DDE Effects on Migratory Condition in White-Throated Sparrows|J. Wildl. Manag.39(3): 520-527|1975|10.2307/3800394
35332|T||Makary,M.H., and W.A. Brindley|Biphenyl Hydroxylation and Its Induction Differ Between Montane Voles and Swiss Webster Mice|Pestic. Biochem. Physiol.19:23-30|1983|10.1016/0048-3575(83)90037-8
35333|T||Malecki,R.A., S.H. Allen, J.O. Elliston, K.C. Sadler, W.R. Goforth, and T.S. Baskett|Cottontail Reproduction Related to Dieldrin Exposure|U.S.Bureau of Sport Fisheries and Wildlife, Washington Dc Special Scientific Report177:1-61|1974|
35334|T||Mansour,S.A., A.D. Ali, and M.K. Al-Jalili|The Residual Toxicity to Honeybees of Some Insecticides on Clover Flowers:  Laboratory Studies|J. Apic. Res.23(4): 213-216|1984|10.1080/00218839.1984.11100635
35335|T||March,B.E., R. Poon, and S. Chu|The Dynamics of Ingested Methyl Mercury in Growing and Laying Chickens|Poult. Sci.62:1000-1009|1983|10.3382/ps.0621000
35337|T||Marsh,R.E., W.E. Howard, and R.E. Cole|The Toxicity of Chlorophacinone and Diphacinone to Deer Mice|J. Wildl. Manag.41(2): 298-301|1977|10.2307/3800608
35338|T||Martin,N.A.|Effect of Four Insecticides on the Pasture Ecosystem V. Earthworms (Oligochaeta:  Lumbricidae) and Arthropoda Extracted by wet Sieving and Salt Flotation|N. Z. J. Agric. Res.:111-115|1919|
35339|T||Martin,N.A.|Effect of Four Insecticides on the Pasture Ecosystem.  VI.  Arthropoda dry Heat-Extracted from Small Soil Cores, and Conclusions|N. Z. J. Agric. Res.21:307-319|1978|10.1080/00288233.1978.10427416
35340|T||Mason,J.R., and R.F.,Jr. Reidinger|Importance of Color for Methiocarb-Induced Food Aversions in Red-Winged Blackbirds|J. Wildl. Manag.47(2): 383-393|1983|10.2307/3808511
35341|T||Matschke,G.H., and K.A. Fagerstone|Effects of A New Rodenticide, Benzenesulfonic Acid Hydrazide, on Prenatal Mice|J. Toxicol. Environ. Health3:407-411|1977|10.1080/15287397709529573
35342|T||McFarland,L.Z., and P.B. Lacy|Physiologic and Endocrinologic Effects of the Insecticide Kepone in the Japanese Quail|Toxicol. Appl. Pharmacol.15:441-450|1969|10.1016/0041-008X(69)90042-8
35343|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 5. The Sensitivity of Feral Pigs, Sus Scrofa, to 1080 and Its Implications for Poisoning Campaigns|Aust. Wildl. Res.10:139-148|1983|10.1071/WR9830139
35344|T||McNeil,S.I., and M.K. Bhatnagar|Ultrastructure of the Testis of Pekin Ducks fed Methyl Mercury Chloride: Seminiferous Epithelium|Am. J. Vet. Res.46(9): 2019-2025|1985|
35346|T||Mehendale,H.M., A. Takanaka, D. Desaiah, and I.K. Ho|Kepone Induction of Hepatic Mixed Function Oxidases in the Male Rat|Life Sci.20:991-998|1977|10.1016/0024-3205(77)90286-7
35348|T||Mendoza,C.E.|Toxicity and Effects of Malathion on Esterases of Suckling Albino Rats|Toxicol. Appl. Pharmacol.35:229-238|1976|10.1016/0041-008X(76)90284-2
35349|T||Mendoza,C.E., and J.B. Shields|Effects on Esterases and Comparison of I50 and LD50 Values of Malathion in Suckling Rats|Bull. Environ. Contam. Toxicol.17(1): 9-15|1977|10.1007/BF01685257
35350|T||Merson,M.H., and R.L. Kirkpatrick|Reproductive Performance of Captive White-Footed Mice fed a PCB|Bull. Environ. Contam. Toxicol.16(4): 392-398|1976|10.1007/BF01686151
35351|T||Mertens,H.W., J.A. Steen, and M.F. Lewis|The Effects of Mevinphos on Appetitive Operant Behavior in the Gerbil|Psychopharmacologia41:47-52|1975|10.1007/BF00421305
35352|T||Mertens,H.W., M.F. Lewis, and J.A. Steen|Some Behavioral Effects of Pesticides: Phosdrin and Free-Operant Escape-Avoidance Behavior in Gerbils|Aerosp. Med.45(10): 1171-1176|1974|
35353|T||Meyers,S.M., J.L. Cummings, and R.S. Bennett|Effects of Methyl Parathion on Red-Winged Blackbird (Agelaius) Incubation Behavior and Nesting Success|Environ. Toxicol. Chem.9(6): 807-814|1990|
35354|T||Miller,D.S., A.,Jr. Seymour, D. Shoemaker, G. Maeda, D.B. Peakall, R.W. Risebrough, and W.B. Kinter|Minimal DDE-Disruption of Osmoregulation in Mallard Type Ducks Anas platyrhynchos|Bull. Mt. Desert Isl. Biol. Lab.13:77-79|1973|
35355|T||Moffett,J.O., A. Stoner, and R.M. Ahring|Effect of Fenvalerate Applications on Honey Bees in Flowering Alfalfa|Southwest. Entomol.7(2): 111-115|1982|
35356|T||Moffett,J.O., H.L. Morton, and R.H. MacDonald|Toxicity of Some Herbicidal Sprays to Honey Bees|J. Econ. Entomol.65(1): 32-36|1972|10.1093/jee/65.1.32
35357|T||Moffett,J.O., J. Harvey, and A. Stoner|Toxicity to Honey Bees of two Formulations of Methyl Parathion Sprayed on Flowering Alfalfa|Southwest. Entomol.8(2): 113-117|1983|
35358|T||Moffett,J.O., R.H. MacDonald, and M.D. Levin|Toxicity of Carbaryl-Contaminated Pollen to Adult Honey Bees|J. Econ. Entomol.63(2): 475-476|1970|10.1093/jee/63.2.475
35359|T||Montz,W.E., and R.L. Kirkpatrick|Effects of Cold Ambient Temperatures on Acute Mortality of Peromyscus leucopus Dosed with Parathion|Bull. Environ. Contam. Toxicol.35:375-379|1985|10.1007/BF01636525
35360|T||Montz,W.E., W.C. Card, and R.L. Kirkpatrick|Effects of Polychlorinated Biphenyls and Nutritional Restriction on Barbituate-Induced Sleeping Times and Selected Blood Characteristics in Raccooons (Procyon lotor)|Bull. Environ. Contam. Toxicol.28:578-583|1982|10.1007/BF01605588
35361|T||Montz,W.E.,Jr., R.L. Kirkpatrick, and P.F. Scanlon|Parathion Effects on Reporoductive Characteristics and Vital Organ Weights of Female Cottontail Rabbits(Sylvilagus Floridanus)|Bull. Environ. Contam. Toxicol.33:484-490|1984|10.1007/BF01625573
35362|T||Morgan,G.W., F.W. Edens, P. Thaxton, and C.R. Parkhurst|Toxicity of Dietary Lead in Japanese Quail|Poult. Sci.54:1636-1642|1975|10.3382/ps.0541636
35363|T||Morton,H.L., J.O. Moffett, and R.D. Martin|Influence of Water Treated Artificially with Herbicides on Honey Bee Colonies|Environ. Entomol.3(5): 808-812|1974|10.1093/ee/3.5.808
35364|T||Morton,H.L., J.O. Moffett, and R.H. MacDonald|Toxicity of Herbicides to Newly Emerged Honey Bees|Environ. Entomol.1(1): 102-104|1972|10.1093/ee/1.1.102
35365|T||Moulton,D.W.|Responses of Caged Red-Winged Blackbirds to Methiocarb on Wild Rice|In: Marsh,R.E.(Ed.) Proceedings Tenth Vertebrate Pest Conference, Vertebrate Pest Council, Univ.of Ca, Davis CA:226-228|1982|
35366|T||Moulton,D.W.|Evaluation of Methiocarb for Repelling Blackbirds from Cultivated Wild Rice|J. Wildl. Manag.43(3): 747-751|1979|10.2307/3808754
35367|T||Muacevic,G.|Acute Toxicity and Cholinesterase Inhibition In Vivo of Bromophos-Ethyl|Toxicol. Appl. Pharmacol.25:180-189|1973|10.1016/S0041-008X(73)80004-3
35368|T||Muller,H.D., and D.C. Lockman|Fecundity and Progeny Growth Following Subacute Insecticide Ingestion by the Mallard|Poult. Sci.51:239-241|1972|10.3382/ps.0510239
35369|T||Mullins,W.H., E.G. Bizeau, and W.W. Benson|Effects of Phenyl Mercury on Captive Game Farm Pheasants|J. Wildl. Manag.41(2): 302-308|1977|10.2307/3800609
35370|T||Murray,F.J., B.A. Schwetz, M.F. Balmer, and R.E. Staples|Teratogenic Potential of Hexachlorocyclopentadiene in Mice and Rabbits|Toxicol. Appl. Pharmacol.53:497-500|1980|10.1016/0041-008X(80)90361-0
35371|T||Nath,A., and K.N. Mehrotra|Toxicity of Carbofuran to the Female House Sparrow, Passer Domesticus L.|J. Entomol. Res.4(2): 220-221|1980|
35372|T||Nelson,J.R., L.E. Wookey, C.F. Nockels, and J.V. Shutze|Interaction of Vitamin A and Dieldrin on Mallard Liver Lipids and Biotin Content|Poult. Sci.51:747-751|1972|10.3382/ps.0510747
35373|T||Nosek,J.A., S.R. Craven, J.R. Sullivan, S.S. Hurley, and R.E. Peterson|Toxicity and Reproductive Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Ring-Necked Pheasant Hens|J. Toxicol. Environ. Health35(3): 187-198|1992|10.1080/15287399209531608
35374|T||Nusz,W.A., R.J. Robel, A.D. Dayton, and T.L. Hopkins|Residue Levels and Weights of Bobwhites Given Dieldrin|J. Wildl. Manag.40(1): 111-117|1976|10.2307/3800162
35375|T||O'Shea,T.J., and C.J. Stafford|Phthalate Plasticizers: Accumulation and Effects on Weight and Food Consumption in Captive Starlings|Bull. Environ. Contam. Toxicol.25(3): 345-352|1980|10.1007/BF01985536
35376|T||Oliver,A.J., and S.H. Wheeler|The Toxicity of the Anticoagulant Pindone to the European Rabbit, Oryctolagus cuniculus, and the Sheep, Ovis aries|Aust. Wildl. Res.5:135-142|1978|10.1071/WR9780135
35377|T||Olsson,M., J.E. Kihlstrom, S. Jensen, and J. Orberg|Cadmium and Mercury Concentrations in Mink (Mustela vison) After Exposure to PCBs|Ambio8(1): 25-|1979|
35379|T||Parkhurst,C.R., and P. Thaxton|Toxicity of Mercury to Young Chickens I. Effect on Growth and Mortality|Poult. Sci.52:273-276|1973|10.3382/ps.0520273
35380|T||Peakall,D.B.|Effects of di-n-Butyl and di-2-Ethylhexyl Phthalate on the Eggs of Ring Doves|Bull. Environ. Contam. Toxicol.12(6): 698-702|1974|10.1007/BF01685917
35381|T||Peakall,D.B., and J.L. Lincer|Methyl Mercury: Its Effect on Eggshell Thickness|Bull. Environ. Contam. Toxicol.8(2): 89-90|1972|10.1007/BF01684512
35382|T||Peakall,D.B., and M.L. Peakall|Effect of a Polychlorinated Biphenyl on the Reproduction of Artificially and Naturally Incubated Dove Eggs|J. Appl. Ecol.10(3): 863-868|1973|10.2307/2401875
35383|T||Peakall,D.B., J.L. Lincer, R.W. Risebrough, and W.B. Kinter|DDE-Induced Egg-Shell Thinning: Structural and Physiological Effects in Three Species|Comp. Gen. Pharmacol.4:305-313|1973|10.1016/0010-4035(73)90013-X
35384|T||Peterle,T.J., and R. Bentley|Effects of a Low OP Dose on Seed/Bead Discrimination in the Kangaroo Rat, Dipodomys|Bull. Environ. Contam. Toxicol.43(1): 95-100|1989|10.1007/BF01702243
35385|T||Petrella,V.J., J.P. Fox, and R.E. Webb|Endrin Metabolism in Endrin-Susceptible and -Resistant Strains of Pine Mice|Toxicol. Appl. Pharmacol.24:283-291|1975|10.1016/0041-008X(75)90033-2
35386|T||Pike,K.S., D.F. Mayer, M. Glazer, and C. Kious|Effects of Permethrin on Mortality and Foraging Behavior of Honey Bees in Sweet Corn|Environ. Entomol.11:951-953|1982|10.1093/ee/11.4.951
35387|T||Platonow,N.S., and B.S. Reinhart|The Effects of Polychlorinated Biphenyls (Aroclor 1254) on Chicken Egg Production, Fertility and Hatchability|Can. J. Comp. Med.37:341-346|1973|
35388|T||Platonow,N.S., and L.H. Karstad|Dietary Effects of Polychlorinated Biphenyls on Mink|Can. J. Comp. Med.37:391-400|1973|
35389|T||Plowright,R.C., B.A. Pendrel, and I.A. McLaren|The Impact of Aerial Fenitrothion Spraying upon the Population Biology of Bumble Bees (Bombus Latr.:Hym.) in South-Western New Brunswick|Can. Entomol.110:1145-1156|1978|10.4039/Ent1101145-11
35390|T||Pomeroy,S.E., and G.W. Barrett|Dynamics of Enclosed Small Mammal Populations in Relation to an Experimental Pesticide Application|Am. Midl. Nat.93(1): 91-106|1975|10.2307/2424108
35391|T||Post,G.|The Effects of Aldrin on Birds|J. Wildl. Manag.16(4): 492-497|1952|10.2307/3797498
35392|T||Potvin,N., J. Bergeron, M. Norman, and A. Cyr|Evaluating the Sterile Male Method on Red-Winged Blackbirds:Clinical Evaluation of Thiotepa As A Sterilant|Can. J. Zool.60:460-465|1982|10.1139/z82-062
35393|T||Powell,G.V.N., L.R. DeWeese, and T.G. Lamont|A Field Evaluation of Frogs as a Potential Source of Secondary Organophosphorus Insecticide Poisoning|Can. J. Zool.60:2233-2235|1982|10.1139/z82-286
35394|T||Prince,H.H.|Genetic Response of Mallards to Toxic Effects of Methyl Mercuric Chloride|ASTM Spec. Tech. Publ.:31-40|1981|
35395|T||Pritchard,J.B., D.B. Peakall, R.W. Risebrough, and W.B. Kinter|DDE-Induced Eggshell Thinning in White Pekin Ducks Anas platyrynchos:  Structural, Physiological and Biochemical Studies|Bull. Mt. Desert Isl. Biol. Lab.12:77-79|1972|
35396|T||Rao,P.V.V.P., S.A. Jordan, and M.K. Bhatnagar|Combined Nephrotoxicity of Methylmercury, Lead, and Cadmium in Pekin Ducks:  Metallothionein, Metal Interactions, and Histopathology|J. Toxicol. Environ. Health26:327-348|1989|10.1080/15287398909531257
35397|T||Rattner,B.A., W.J. Fleming, and C.M. Bunck|Comparative Toxicity of Lead Shot in Black Ducks (Anas rubripes) and Mallards (Anas platyrhynchos)|J. Wildl. Dis.25(2): 175-183|1989|10.7589/0090-3558-25.2.175
35398|T||Rhodes,H.A., W.T. Wilson, P.E. Sonnet, and A. Stoner|Exposure of Apis Mellifera to Bee-Collected Pollen Containing Residues of Microencapsulated Methyl Parathion|Environ. Entomol.8(5): 944-948|1979|10.1093/ee/8.5.944
35399|T||Richardson,M.E., M.R.S. Fox, and B.E.,Jr. Fry|Pathological Changes Produced in Japanese Quail by Ingestion of Cadmium|J. Nutr.104:323-338|1974|10.1093/jn/104.3.323
35401|T||Risebrough,R.W., and D.W. Anderson|Some Effects of DDE and PCB on Mallards and Their Eggs|J. Wildl. Manag.39(3): 508-513|1975|10.2307/3800392
35402|T||Riviere,J.L., E. De Lavaur, and G. Grolleau|Effect of Polychlorinated Biphenyls on Drug Metabolism in Japanese Quail and Its Progeny|Toxicology11:329-334|1978|10.1016/S0300-483X(78)91989-3
35403|T||Riviere,J.L., J. Bach, and A.G. Grolleau|Effects of Prochloraz on Drug Metabolism in the Japanese Quail, Grey Partridge, Chicken, and Pheasant|Arch. Environ. Contam. Toxicol.14:299-306|1985|10.1007/BF01055406
35404|T||Robinson,G.A., D.C. Wasnidge, and F. Floto|A Comparison of the Distributions of the Actinides Uranium and Thorium with the Lanthanide Gadolinium in the Tissues and Eggs of Japanese Quail: Concentrations of Uranium in Feeds and Foods|Poult. Sci.63:883-891|1984|10.3382/ps.0630883
35405|T||Robinson,W.S., and C.A. Johansen|Effects of Control Chemicals for Douglas-Fir Tussock Moth Orgyia Pseudotsugata (McDonnough) on Forest Pollination (Lepidoptera: Lymantriidae)|Melanderia30:9-56|1978|
35406|T||Rodgers,R.D., and R.J. Robel|Effects of Carbaryl on Body Weight and Fat Reserves of Dietetically-Stressed Bobwhites|Bull. Environ. Contam. Toxicol.17(2): 184-189|1977|10.1007/BF01685548
35407|T||Rogers,J.G.|Responses of Caged Red-Winged Blackbirds to Two Types of Repellents|J. Wildl. Manag.38(3): 418-423|1974|10.2307/3800871
35408|T||Ronald,K., S.V. Tessaro, J.F. Uthe, H.C. Freeman, and R. Frank|Methylmercury Poisoning in the Harp Seal (Pagophiles groenlandicus)|Sci. Total Environ.8:1-11|1977|10.1016/0048-9697(77)90057-2
35409|T||Rorke,M.A., D.R. Gardner, and R. Greenhalgh|Lethality and Behavioural Symptoms Produced by Some Organophosphorus Compounds in the Snail (Helix aspersa)|Bull. Environ. Contam. Toxicol.11(5): 417-424|1974|10.1007/BF01685297
35410|T||Rose,J.Q., J.C. Ramsey, T.H. Wentzler, R.A. Hummel, and P.J. Gehring|The Fate of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Following Single and Repeated Oral Doses to the Rat|Toxicol. Appl. Pharmacol.36:209-226|1976|10.1016/0041-008X(76)90001-6
35411|T||Rose,R.W., R. Swain, and W.K. Whitten|Cadmium Toxicity and Its Effect on the Testes of an Australian Marsupial (Trichosurus Vulpecula)|Bull. Environ. Contam. Toxicol.26(2): 233-236|1980|
35412|T||Ross,B., and J. Harvey|Penncap-M Versus Penncap-M Plus Sticker Applied to Sunflower (Helianthus Annuus) at Pine Bluffs, Wyoming-Effects on Honeybees (Apis mellifera L.)|Am. Bee J.121:510-511, 516|1981|
35413|T||Roughton,R.D.|Effects of Oral Melengestrol Acetate on Reproduction in Captive White-Tailed Deer|J. Wildl. Manag.43(2): 428-436|1979|10.2307/3800352
35414|T||Rowe,B.L., and H.H. Prince|Behavioral Response of Mallards to Contaminated Drinking Water|Bull. Environ. Contam. Toxicol.30(5): 505-510|1983|10.1007/BF01610167
35415|T||Roylance,K.J., C.D. Jorgensen, G.M. Booth, and M.W. Carter|Effects of Dietary Endrin on Reproduction of Mallard Ducks|Arch. Environ. Contam. Toxicol.14:705-711|1985|10.1007/BF01055777
35416|T||Rozman,R.S., L.N. Locke, and S.F. McClure III|Enzyme Changes in Mallard Ducks Fed Iron or Lead Shot|Avian Dis.18(3): 435-445|1974|10.2307/1589111
35417|T||Ruddick,J.A., and W.H. Newsome|Teratogenicity Assessment of Ethylenebis(Isothiocyanate) in the Rat|Bull. Environ. Contam. Toxicol.17(2): 159-162|1977|10.1007/BF01685543
35418|T||Russell,L.K., J.I. DeHaven, and R.P. Botts|Toxic Effects of Cadmium on the Garden Snail (Helix aspersa)|Bull. Environ. Contam. Toxicol.26(5): 634-640|1981|10.1007/BF01622148
35419|T||Sanders,O.T., and R.L. Kirkpatrick|Reproductive Characteristics and Corticoid Levels of Female White-Footed Mice Fed Ad Libitum and Restricted Diets Containing a Polychlorinated Biphenyl|Environ. Res.13:358-363|1977|10.1016/0013-9351(77)90015-9
35420|T||Sanders,O.T., and R.L. Kirkpatrick|Effects of a Polychlorinated Biphenyl (PCB) on Sleeping Times, Plasma Corticosteriods, and Testicular Activity of White-Footed Mice|Environ. Physiol. Biochem.5:308-313|1975|
35421|T||Sauerhoff,M.W., W.H. Braun, G.E. Blau, and P.J. Gehring|The Dose-Dependent Pharmacokinetic Profile of 2,4,5-Trichlorophenoxy Acetic Acid Following Intravenous Administration To Rats|Toxicol. Appl. Pharmacol.36:491-501|1976|10.1016/0041-008X(76)90228-3
35422|T||Savarie,P.J., D.J. Hayes, R.T. McBride, and J.D. Roberts|Efficacy and Safety of Diphacinone as a Predacide|ASTM Spec. Tech. Publ.:69-79|1979|
35423|T||Savarie,P.J., H.P. Pan, D.J. Hayes, J.D. Roberts, G.J. Dasch, R. Felton, and E.W.,Jr. Schafer|Comparative Acute Oral Toxicity of para-Aminopropiophenone (PAPP) in Mammals and Birds|Bull. Environ. Contam. Toxicol.30:122-126|1983|10.1007/BF01610109
35424|T||Sawicka-Kapusta,K., A. Gorecki, R. Swiergosz, G. Juszczak, M. Mielczarek, and B. Wojcik|Effect of Metabolic Rate on the Rate of Elimination of high and Low Concentrations of Cadmium and Lead in the Bank Vole|Ekol. Pol.35(2): 399-430|1987|
35425|T||Saxena,S.C., and A.K. Karel|On Effect of Chlordane on the Blood Glucose and of Glucose Administration on the Acute Chlordane Toxicity in Meriones Hurrianae Jerdon, the Indian Desert Gerbil|Bull. Environ. Contam. Toxicol.15(5): 593-600|1976|10.1007/BF01685711
35426|T||Schafer,E.W.,Jr., and W.A.,Jr. Bowles|Acute Oral Toxicity and Repellency of 933 Chemicals to House and Deer Mice|Arch. Environ. Contam. Toxicol.14(1): 111-129|1985|10.1007/BF01055769
35427|T||Scheuhammer,A.M.|Chronic Dietary Toxicity of Methylmercury in the Zebra Finch, Poephila guttata|Bull. Environ. Contam. Toxicol.40:123-130|1988|10.1007/BF01689398
35428|T||Schitoskey,F.,Jr.|Primary and Secondary Hazards of Three Rodenticides to Kit Fox|J. Wildl. Manag.39(2): 416-418|1975|10.2307/3799922
35429|T||Schultz,D.P., and E.W. Whitney|Monitoring 2,4-D Residues at Loxahatchee National Wildlife Refuge|Pestic. Monit. J.7(3/4): 146-152|1974|
35430|T||Schwetz,B.A., J. Norris, R. Kociba, P.A. Keeler, R.F. Cornier, and P.J. Gehring|Reproduction Study of Japanese Quail Fed Hexachlorobutadiene for 90 Days|Toxicol. Appl. Pharmacol.30(2): 255-265|1974|10.1016/0041-008X(74)90097-0
35431|T||Scott,M.L.|Effects of PCBs, DDT, and Mercury Compounds in Chickens and Japanese Quail|Fed. Proc.36(6): 1888-1893|1977|
35432|T||Scott,M.L., J.R. Zimmermann, S. Marinsky, P.A. Mullenhoff, G.L. Rumsey, and R.W. Rice|Effects of PCBs, DDT, and Mercury Compounds upon Egg Production, Hatchability and Shell Quality in Chickens and Japanese Quail|Poult. Sci.54:350-368|1975|10.3382/ps.0540350
35433|T||Sechser,B., and I.W. Varty|Effect of an Insect Growth Regulator on Non-target Arthropods in An Aerial Application Against the Spruce Budworm, Choristoneura Fumiferana (Lepidoptera: Tortricidae), in New Brunswick, Canada|Can. Entomol.110(6): 561-567|1978|10.4039/Ent110561-6
35434|T||Seefeld,M.D., S.W. Corbett, R.E. Keesey, and R.E. Peterson|Characterization of the Wasting Syndrome in Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.73:311-322|1984|10.1016/0041-008X(84)90337-5
35435|T||Shanahan,G.J., and P.B. Hughes|Susceptibility of Organophosphorus Resistant and Non-Resistant Larvae of Lucilia Cuprina to a Triazine Pesticide|Vet. Rec.106(4): 306-307|1980|10.1136/vr.106.14.306
35436|T||Shellenberger,T.E., and F.R. Fullerton|A Multi-Generation Toxicity Evaluation of p,p'-DDT and Dieldrin with Japanese Quail 2. Tissue Residues Analyses|Drug Chem. Toxicol.1(2): 147-161|1978|10.3109/01480547809034432
35437|T||Shellenberger,T.E.|A Multi-Generation Toxicity Evaluation of p,p'-DDT and Dieldrin with Japanese Quail 1.  Effects on Growth and Reproduction|Drug Chem. Toxicol.1(2): 137-146|1978|10.3109/01480547809034431
35438|T||Sherman,M., and E. Ross|Acute and Subchronic Toxicity to Japanese Quail of the Carbamate Insecticides, Carbofuran and SD 8530|Poult. Sci.48:2013-2018|1969|10.3382/ps.0482013
35439|T||Sherman,M., E. Ross, and J.R. Yates III|Comparative Toxicity of Four Halogenated Organophosphorus Insecticides to Chicks, Japanese Quail, and Diptera|J. Econ. Entomol.64(4): 814-819|1971|10.1093/jee/64.4.814
35440|T||Shires,S.W., J. Le Blanc, A. Murray, S. Forbes, and P. Debray|A Field Trial to Assess the Effects of A New Pyrethroid Insecticide, WL85871, on Foraging Honeybees in Oilseed Rape|J. Apic. Res.23(4): 217-226|1984|10.1080/00218839.1984.11100636
35441|T||Short,R.D.,Jr., J.Q. Russell, J.L. Minor, and C.C. Lee|Developmental Toxicity of Ferric Dimethyldithiocarbamate and bis(Dimethylthiocarbamoyl) Disulfide in Rats and Mice|Toxicol. Appl. Pharmacol.35:83-94|1976|10.1016/0041-008X(76)90113-7
35442|T||Shott,L.D., A.B. Borkovec, and W.A. Knapp|Toxicology of Hexamethylphosphoric Triamide in Rats and Rabbits|Toxicol. Appl. Pharmacol.18:499-506|1971|10.1016/S0041-008X(71)80002-9
35443|T||Shumake,S.A., S.E. Gaddis, and E.W.,Jr. Schafer|Behavioral Response of Quelea to Methiocarb (Mesurol)|Proc. Bird Control Semin. Bowling Green State Univ.7:250-254|1977|
35445|T||Sjoden,P.O., T. Archer, and U. Soderberg|Effects of 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T) on Radioiodine Distribution in Rats|Bull. Environ. Contam. Toxicol.17(6): 670-678|1977|10.1007/BF01685951
35446|T||Smith,G.J., and V.P. Anders|Toxic Effects of Boron on Mallard Reproduction|Environ. Toxicol. Chem.8:943-950|1989|10.1002/etc.5620081013
35447|T||Smith,G.J., G.H. Heinz, D.J. Hoffman, J.W. Spann, and A.J. Krynitsky|Reproduction in Black-Crowned Night-Herons Fed Selenium|Lakes Reserv. Res. Manag.4(2): 175-180|1988|10.1080/07438148809354825
35449|T||Snelgrove-Hobson,S.M., P. Rao, and M.K. Bhatnagar|Ultrastructural Alterations in the Kidneys of Pekin Ducks fed Methylmercury|Can. J. Vet. Res.52:89-98|1988|
35450|T||Snyder,R.L.|Effects of Dieldrin on Homing and Orientation in Deer Mice|J. Wildl. Manag.38(2): 362-364|1974|10.2307/3800747
35451|T||Solomon,K.E., R.B. Dahlgren, and R.L. Linder|Abnormal Embryos in Eggs of Pheasants Given 2,4-D or PCB|Proc. S. D. Acad. Sci.52:95-99|1973|
35452|T||Soltani,N.|Effects of Ingested Diflubenzuron on the Longevity and the Peritrophic Membrane of Adult Mealworms (Tenebrio Molitor L.)|Pestic. Sci.15:221-225|1984|10.1002/ps.2780150302
35453|T||Somers,J., E.T.,Jr. Moran, B.S. Reinhart, and G.R. Stephenson|Effect of External Application of Pesticides to the Fertile Egg on Hatching Success and Early Chick Performance 1. Pre-Incubation Spraying with DDT and Commercial Mixtures of 2,4-D: Picloram and 2,4-D: 2,4,5-T|Bull. Environ. Contam. Toxicol.11(1): 33-38|1974|10.1007/BF01685025
35454|T||Sonnet,P.E., T.L. Lye, and R.R. Sackett|Effects of Selected Herbicides on the Toxicity of Several Insecticides to Honey Bees|Environ. Entomol.7(2): 254-256|1978|10.1093/ee/7.2.254
35455|T||Spann,J.W., G.H. Heinz, M.B. Camardese, E.F. Hill, J.F. Moore, and H.C. Murray|Differences in Mortality Among Bobwhite Fed Methylmercury Chloride Dissolved in Various Carriers|Environ. Toxicol. Chem.5:721-724|1986|10.1002/etc.5620050802
35456|T||Standifer,L.N.|Toxicity of Triton X-100 to Honey Bees|J. Econ. Entomol.65(1): 306-|1972|10.1093/jee/65.1.306
35457|T||Staples,R.E., R.G. Kellam, and J.K. Haseman|Developmental Toxicity in the Rat After Ingestion or Gavage of Organophosphate Pesticides (Dipterex, Imidan) During Pregnancy|Environ. Health Perspect.13:133-140|1976|10.1289/ehp.7613133
35458|T||Steen,J.A., G.D. Hanneman, P.L. Nelson, and E.D. Folk|Acute Toxicity of Mevinphos to Gerbils|Toxicol. Appl. Pharmacol.35:195-198|1976|10.1016/0041-008X(76)90039-9
35459|T||Stehn,R.A., J.A. Stone, and M.E. Richmond|Feeding Response of Small Mammal Scavengers to Pesticide-Killed Arthropod Prey|Am. Midl. Nat.95(1): 253-256|1976|10.2307/2424259
35460|T||Stenersen,J., A. Gilman, and A. Vardanis|Carbofuran:  Its Toxicity for and Metabolism by Earthworms (Lumbricus terrestris)|J. Agric. Food Chem.21(2): 166-171|1973|10.1021/jf60186a013
35461|T||Stevenson,J.H., P.H. Needham, and J. Walker|Poisoning of Honeybees by Pesticides: Investigations of the Changing Pattern in Britain Over 20 Years|Rothamsted Exp. Stn. Rep.2:55-72|1978|
35462|T||Stickel,L.F., W.H. Stickel, M.A.R. McLane, and M. Bruns|Prolonged Retention of Methyl Mercury by Mallard Drakes|Bull. Environ. Contam. Toxicol.18(4): 393-400|1977|10.1007/BF01683707
35463|T||Stickel,L.F., W.H. Stickel, R.D. McArthur, and D.L. Hughes|Chlordane in Birds: A Study of Lethal Residues and Loss Rates|Dev. Toxicol. Environ. Sci.4:387-396|1979|
35464|T||Stickel,W.H., L.F. Stickel, R.A. Dyrland, and D.L. Hughes|Aroclor 1254 Residues in Birds: Lethal Levels and Loss Rates|Arch. Environ. Contam. Toxicol.13:7-13|1984|10.1007/BF01055641
35465|T||Stickel,W.H., T.E. Kaiser, and W.L. Reichel|Endrin Versus 12-Ketoendrin in Birds and Rodents|In: Avian and Mammalian ToxicologySTP693:61-68|1979|
35466|T||Stickel,W.H., J.A. Galyen, R.A. Dyrland, and D.L. Hughes|Toxicity and Persistence of Mirex in Birds|In: W.B.Deichmann (Ed.), Pesticides and the Environment: A Continuing Controversy:437-467|1973|
35467|T||Stiles,T.W., F.T. Turpin, and T.L. Harris|Carbaryl 4-Oil for Rootworm Beetle Control: Effects on Honey Bee Colonies|Am. Bee J.117(9): 564 - 565,582|1977|
35468|T||Stoewsand,G.S., C.A. Bache, and D.J. Lisk|Dietary Selenium Protection of Methylmercury intoxication of Japanese Quail|Bull. Environ. Contam. Toxicol.11(2): 152-156|1974|10.1007/BF01684595
35469|T||Stoewsand,G.S., C.A. Bache, W.H. Gutenmann, and D.J. Lisk|Concentration of Cadmium in Coturnix Quail fed Earthworms Lumbricus terrestris|J. Toxicol. Environ. Health18(3): 369-376|1986|10.1080/15287398609530878
35470|T||Stoewsand,G.S., R.A. Morse, C.A. Bache, and D.J. Lisk|Deposition of Cadmium in Tissues of Coturnix Quail Fed Honey Bees|Bull. Environ. Contam. Toxicol.38:783-788|1987|10.1007/BF01616701
35471|T||Stoewsand,G.S., J.L. Anderson, W.H. Gutenmann, C.A. Bache, and D.L. Lisk|Eggshell Thinning in Japanese Quail Fed Mercuric Chloride|Science173:1030-1031|1971|10.1126/science.173.4001.1030
35472|T||Stone,C.P., W.F. Shake, and D.J. Langowski|Reducing Bird Damage to Highbush Blueberries with A Carbamate Repellent|Wildl. Soc. Bull.2(3): 135-139|1974|
35473|T||Stoner,A., and W.T. Wilson|Diflubenzuron (Dimilin):  Effect of Long-Term Feeding of Low Doses in Sugar-Cake or Sucrose Syrup on Honey Bees in Standard-Size Field Colonies|Am. Bee J.122:579-582|1982|
35474|T||Stoner,A., W.T. Wilson, and H.A. Rhodes|Carbofuran:  Effect of Long-Term Feeding of Low Doses in Sucrose Syrup on Honey Bees in Standard-Size Field Colonies|Environ. Entomol.11:53-59|1982|10.1093/ee/11.1.53
35475|T||Stoner,A., W.T. Wilson, and J. Harvey|Acephate (Orthene): Effects on Honey Bee Queen, Brood and Worker Survival|Am. Bee J.125(6): 448-450|1985|
35476|T||Stoner,A., W.T. Wilson, H.A. Rhodes, and R.R. Sackett|Compatibility of Honey Bees with a Mosquito Abatement Program in the Little Laramie Valley, Wyoming|Environ. Entomol.6(4): 509-517|1977|10.1093/ee/6.4.509
35477|T||Stotz,I.J., and Y.A. Greichus|The Effects of A Polychlorinated Biphenyl (Aroclor 1254) on the White Pelican:  Ultrastructure of Hepatocytes|Bull. Environ. Contam. Toxicol.19(3): 319-325|1978|10.1007/BF01685805
35478|T||Strik,J.J.T.W.|Toxicity of PBBs with Special Reference to Porphyrinogenic Action and Spectral Interaction with Hepatic Cytochrome P-450|Environ. Health Perspect.23:167-175|1978|10.1289/ehp.7823167
35479|T||Stringer,A., and M.A. Wright|The Effect of Benomyl and Some Related Compounds on Lumbricus terrestris and other Earthworms|Pestic. Sci.4:165-170|1973|10.1002/ps.2780040202
35480|T||Stringer,A., and M.A. Wright|The Toxicity of Benomyl and Some Related 2-Substituted Benzimidazoles to the Earthworm Lumbricus terrestris|Pestic. Sci.7(5): 459-464|1976|10.1002/ps.2780070507
35481|T||Stromborg,K.L.|Seed Treatment Pesticide Effects on Pheasant Reproduction at Sublethal Doses|J. Wildl. Manag.41(4): 632-642|1977|10.2307/3799983
35482|T||Stromborg,K.L.|Reproductive Tests of Diazinon on Bobwhite Quail|ASTM Spec. Tech. Publ.:19-30|1981|
35483|T||Sullivan,T.P., and D.S. Sullivan|Responses of Small-Mammal Populations to a Forest Herbicide Application in a 20-Year-Old Conifer Plantation|J. Appl. Ecol.19:95-106|1982|10.2307/2402994
35484|T||Sullivan,T.P., and D.S. Sullivan|The Effects of Glyphosate Herbicide on Food Preference and Consumption in Black-Tailed Deer|Can. J. Zool.57:1406-1412|1979|10.1139/z79-182
35485|T||Sundberg,J., and A. Oskarsson|Placental and Lactational Transfer of Mercury from Rats Exposed to Methylmercury in Their Diet: Speciation of Mercury in the Offspring|J. Trace Elem. Exp. Med.5:47-56|1992|
35486|T||Suzuki,K.T., M. Yamamura, and T. Mori|Cadmium-Binding Proteins Induced in the Earthworm|Arch. Environ. Contam. Toxicol.9:415-423|1980|10.1007/BF01055293
35487|T||Sykes,B.I., I.F.H. Purchase, and L.L. Smith|Pulmonary Ultrastructure After Oral and Intravenous Dosage of Paraquat to Rats|J. Pathol.121:233-241|1977|10.1002/path.1711210407
35488|T||Teichert,K., T. Szymczyk, S. Consolo, and H. Ladinsky|Effect of Acute and Chronic Treatment with Dichlorvos on Rat Brain Cholinergic Parameters|Toxicol. Appl. Pharmacol.35:77-81|1976|10.1016/0041-008X(76)90112-5
35489|T||Thill,R.E., K.E. Severson, and Y.A. Greichus|Effects of Aldrin on Young Pheasants Under Semi-Natural Conditions|Bull. Environ. Contam. Toxicol.7(2-3): 188-192|1972|10.1007/BF01684811
35490|T||Thomas,J.A., and L.G. Schein|Effect of Parathion on the Uptake and Metabolism of Androgens in Rodent Sex Accessory Organs|Toxicol. Appl. Pharmacol.29:53-58|1974|10.1016/0041-008X(74)90161-6
35492|T||Thompson,A.R., and W.W. Sans|Effects of Soil Insecticides in Southwestern Ontario on Non-Target Invertebrates:  Earthworms in Pasture|Environ. Entomol.3(2): 305-308|1974|10.1093/ee/3.2.305
35493|T||Tomlin,A.D., and F.L. Gore|Effects of Six Insecticides and a Fungicide on the Numbers and Biomass of Earthworms in Pasture|Bull. Environ. Contam. Toxicol.12(4): 487-492|1974|10.1007/BF01684987
35494|T||Topinka,M.A., E.M. Eisenstein, D. Siegel, R. Trofel, and D. Barraco|The Effects of Dieldrin and Chlordimeform on Learning and Memory in the Cockroach, Periplaneta Americana: A Study in Behavioral Toxicology|J. Toxicol. Environ. Health13:705-719|1984|10.1080/15287398409530533
35495|T||Tori,G.M., and L.P. Mayer|Effects of Polychlorinated Biphenyls on the Metabolic Rates of Mourning Doves Exposed to Low Ambient Temperatures|Bull. Environ. Contam. Toxicol.27:678-682|1981|10.1007/BF01611081
35496|T||Tori,G.M., and T.J. Peterle|Effects of PCBs on Mourning Dove Courtship Behavior|Bull. Environ. Contam. Toxicol.30:44-49|1983|10.1007/BF01610097
35497|T||Tschaplinski,P.J., and D.R. Gardner|Metabolism of Fenitrothion in Red-Backed Voles (Clethrionomys gapperi)|Pestic. Biochem. Physiol.16:47-62|1981|10.1016/0048-3575(81)90071-7
35498|T||Tucker,R.K., and D.G. Crabtree|Toxicity of Zectran Insecticide to Several Wildlife Species|J. Econ. Entomol.62(6): 1307-1310|1969|10.1093/jee/62.6.1307
35499|T||Tucker,R.K., and M.A. Haegele|Comparative Acute Oral Toxicity of Pesticides to Six Species of Birds|Toxicol. Appl. Pharmacol.20(1): 57-65|1971|10.1016/0041-008X(71)90088-3
35501|T||Ulfstrand,S., A. Sodergren, and J. Rabol|Effect of PCB on Nocturnal Activity in Caged Robins, Erithacus rubecula L.|Nature231:467-468|1971|10.1038/231467a0
35502|T||Van Velzen,A., and J.F. Kreitzer|The Toxicity of p,p'-DDT to the Clapper Rail|J. Wildl. Manag.39(2): 305-309|1975|10.2307/3799907
35503|T||Vangilder,L.D., and T.J. Peterle|South Louisiana Crude Oil or DDE in the Diet of Mallard Hens: Effects on Egg Quality|Bull. Environ. Contam. Toxicol.26(3): 328-336|1981|10.1007/BF01622098
35504|T||Vangilder,L.D., and T.J. Peterle|South Louisiana Crude Oil and DDE in the Diet of Mallard Hens: Effects on Reproduction and Duckling Survival|Bull. Environ. Contam. Toxicol.25:23-28|1980|10.1007/BF01985480
35506|T||Vos,J.G., H.L. Van der Maas, A. Musch, and E. Ram|Toxicity of Hexachlorobenzene in Japanese Quail with Special Reference to Porphyria, Liver Damage, Reproduction, and Tissue Residues|Toxicol. Appl. Pharmacol.18:944-957|1971|10.1016/0041-008X(71)90240-7
35507|T||Walker,A.I.T., C.H. Neill, D.E. Stevenson, and J. Robinson|The Toxicity of Dieldrin (HEOD) to Japanese Quail (Coturnix coturnix japonica)|Toxicol. Appl. Pharmacol.15:69-73|1969|10.1016/0041-008X(69)90133-1
35508|T||Waller,G.D., and R.J. Barker|Effects of Dimethoate on Honey Bee Colonies|J. Econ. Entomol.72(4): 549-551|1979|10.1093/jee/72.4.549
35509|T||Waller,G.D., R.J. Barker, and J.H. Martin|Effects of Dimethoate on Honey Bee Foraging|Chemosphere7:461-463|1979|10.1016/0045-6535(79)90006-7
35510|T||Walsh,G.M., and G.B. Fink|Comparative Toxicity and Distribution of Endrin and Dieldrin after Intravenous Administration in Mice|Toxicol. Appl. Pharmacol.23:408-416|1972|10.1016/0041-008X(72)90043-9
35511|T||Walton,M.S., V.B. Bastone, and R.L. Baron|Subchronic Toxicity of Photodieldrin, A Photodecomposition Product of Dieldrin|Toxicol. Appl. Pharmacol.20:82-88|1971|10.1016/0041-008X(71)90091-3
35512|T||Waring,R.|The Metabolic Fate of Calixin in Rats|Xenobiotica4(12): 717-723|1974|10.3109/00498257409052073
35513|T||Warren,R.J., and R.L. Kirkpatrick|Influence of Mirex Ingestion on Cottontail Eye Lens Weights|J. Wildl. Manag.40(4): 797-799|1976|10.2307/3800581
35514|T||Warren,W.J., R.J. Kirkpatrick, and R.W. Young|Barbiturate-Induced Sleeping Times, Liver Weights, and Reproduction of Cottontail Rabbits After Mirex Ingestion|Bull. Environ. Contam. Toxicol.19(2): 223-228|1978|10.1007/BF01685790
35515|T||Westlake,G.E., A.R. Hardy, and J.H. Stevenson|Effects of Storage and Pesticide Treatments on Honey Bee Brain Acetyl Cholinesterase Activities|Bull. Environ. Contam. Toxicol.34:668-675|1985|10.1007/BF01609791
35516|T||Westlake,G.E., P.J. Bunyan, P.I. Stanley, and C.H. Walker|The Effects of 1,1-di(p-Chlorophenyl)-2-Chloroethylene on Plasma Enzymes and Blood Constituents in the Japanese Quail|Chem.-Biol. Interact.25:197-210|1979|10.1016/0009-2797(79)90046-2
35517|T||Wheeler,S.H., and D.S. Hart|The Toxicity of Sodium Monofluoroacetate to Wild Rabbits, Oryctolagus Cuniculus (L.), from Three Sites in Western Australia|Aust. Wildl. Res.6:57-62|1979|10.1071/WR9790057
35518|T||White,D.H., and M.P. Dieter|Effects of Dietary Vanadium in Mallard Ducks|J. Toxicol. Environ. Health4:43-50|1978|10.1080/15287397809529643
35519|T||White,D.H., and M.T. Finley|Uptake and Retention of Dietary Cadmium in Mallard Ducks|Environ. Res.17(1): 53-59|1978|10.1016/0013-9351(78)90060-9
35520|T||White,D.H., and M.T. Finley|Effects of Dietary Cadmium in Mallard Ducks|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health-XII.University of Missouri, Columbia, MO:220-223|1978|
35521|T||Whitworth,M.R., G.W. Pendleton, D.J. Hoffman, and M.B. Camardese|Effects of Dietary Boron and Arsenic on the Behavior of Mallard Ducklings|Environ. Toxicol. Chem.10:911-916|1991|10.1002/etc.5620100707
35522|T||Wiemeyer,S.N., R.D. Porter, G.L. Hensler, and J.R. Maestrelli|DDE, DDT + Dieldrin: Residues in American Kestrels and Relations to Reproduction|U.S.Fish and Wildlife Service, Technical Report No.6:33 p.|1986|
35523|T||Williams,D.T., H.M. Cunningham, and B.J. Blanchfield|Distribution and Excretion Studies of Octachlorodibenzo-p-Dioxin in the Rat|Bull. Environ. Contam. Toxicol.7(1): 57-64|1972|10.1007/BF01709177
35524|T||Wobeser,G., N.O. Nielsen, and B. Schiefer|Mercury and Mink.  I.  The Use of Mercury Contaminated Fish as a Food for Ranch Mink|Can. J. Comp. Med.40:30-33|1976|
35525|T||Wobeser,G., N.O. Nielsen, and B. Schiefer|Mercury and Mink II. Experimental Methyl Mercury Intoxication|Can. J. Comp. Med.40(1): 34-45|1976|
35526|T||Wolfe,C.W., W.L. Baxter, and J.D. Munson|Effects of Parathion on Young Pheasants|Nebr. Agric. Exp. Stn.18(2): 4-6|1971|
35527|T||Wolfe,J.L., and B.R. Norment|Accumulation of Mirex Residues in Selected Organisms After an Aerial Treatment, Mississippi--1971-72|Pestic. Monit. J.7(2): 112-116|1973|
35528|T||Worden,A.N., G.H. Wheldon, P.R.B. Noel, and L.E. Mawdesley-Thomas|Toxicity of Gusathion for the Rat and Dog|Toxicol. Appl. Pharmacol.24:405-412|1973|10.1016/0041-008X(73)90047-1
35529|T||Worden,A.N., P.R.B. Noel, L.E. Mawdesley-Thomas, A.K. Palmer, and M.A. Fletcher|Feeding Studies on Lenacil in the Rat and Dog|Toxicol. Appl. Pharmacol.27:215-224|1974|10.1016/0041-008X(74)90192-6
35530|T||Wren,C.D., D.B. Hunter, J.F. Leatherland, and P.M. Stokes|The Effect of Polychlorinated Biphenyls and Methylmercury, Singly and in Combination on Mink.  II:  Reproduction and Kit Development|Arch. Environ. Contam. Toxicol.16:449-454|1987|10.1007/BF01055266
35531|T||Wren,C.D., D.B. Hunter, J.F. Leatherland, and P.M. Stokes|The Effects of Polychlorinated Biphenyls and Methylmercury, Singly and in Combination, on Mink.  I:  Uptake and Toxic Responses|Arch. Environ. Contam. Toxicol.16:441-447|1987|10.1007/BF01055265
35532|T||Wright,M.A.|Effects of Benomyl and Some Other Systemic Fungicides on Earthworms|Ann. Appl. Biol.87(3): 520-524|1977|
35533|T||Yadav,D.V., M.K.K. Pillai, and H.C. Agarwal|Uptake and Metabolism of DDT and Lindane by the Earthworm, Pheretima posthuma|Bull. Environ. Contam. Toxicol.16(5): 541-545|1976|10.1007/BF01685361
35534|T||Yoshida,M., H. Satoh, T. Kishimoto, and Y. Yamamura|Exposure to Mercury Via Breast Milk in Suckling Offspring of Maternal Guinea Pigs Exposed to Mercury Vapor After Parturition|J. Toxicol. Environ. Health35:135-139|1992|10.1080/15287399209531602
35537|T||Zepp,R.L.,Jr., and R.L. Kirkpatrick|Reproduction in Cottontails Fed Diets Containing a PCB|J. Wildl. Manag.40(3): 491-495|1976|10.2307/3799952
35538|T||Zinkl,J.G., C.J. Henny, and P.J. Shea|Brain Cholinesterase Activities of Passerine Birds in Forests Sprayed with Cholinesterase Inhibiting Insecticides|In: S.W.Nielsen (Ed.), Animals as Monitors of Environmental Pollutants. National Academy of Sciences, Washington, DC:356-365|1979|
35540|T||Abbasi,S.A., and R. Soni|Stress-Induced Enhancement of Reproduction in Earthworm Octochaetus pattoni Exposed to Chromium (VI) and Mercury (II) - Implications in Environmental Management|Int. J. Environ. Stud.22:43-47|1983|10.1080/00207238308710100
35542|T||Abdel-Aal,Y.A.I., T.K. Abdel-Raof, M.A.H. Fahmy, and A.H. El Sebae|Anticholinesterase Activity and Knock-Down of Substituted Phenyl N-Methylcarbamates to Honey Bee|Bull. Environ. Contam. Toxicol.21:334-337|1979|10.1007/BF01685432
35543|T||Abdel-Rahman,M.S., D.W. Lechner, and K.M. Klein|Combination Effect of Carbaryl and Malathion in Rats|Arch. Environ. Contam. Toxicol.14:459-464|1985|10.1007/BF01055532
35544|T||Abdelsalam,E.B., S.E.I. Adam, and G. Tartour|The Combined Action of Dieldrin and Phosphamidon in Goats|Zentbl. Vetmed. Reihe A29:136-141|1982|10.1111/j.1439-0442.1982.tb01387.x
35547|T||Abou-Donia,M.B.|Pharmacokinetics and Metabolism of a Topically Applied Dose of O-4-Bromo-2,5-Dichlorophenyl 0-Methyl PhenylphosphonothIoate in Hens|Toxicol. Appl. Pharmacol.51(3): 311-328|1979|10.1016/0041-008X(79)90474-5
35548|T||Abou-Donia,M.B.|Metabolism and Pharmacokinetics of a Single Oral Dose of 0-4-Bromo-2,5-Dichlorophenyl O-Methyl Phenylphosphonothioate (Leptophos) in Hens|Toxicol. Appl. Pharmacol.55:131-145|1980|10.1016/0041-008X(80)90229-X
35550|T||Abou-Donia,M.B.|Delayed Neurotoxicity of O-(2,4-Dichlorophenyl)O-Ethyl Phenylphosphonothioate (S-Seven)|Toxicol. Lett.3:61-64|1979|10.1016/0378-4274(79)90087-0
35551|T||Abou-Donia,M.B., and D.G. Graham|Delayed Neurotoxicity of O-Ethyl O-4-Nitrophenyl Phenylphosphonothioate: Toxic Effects of a Single Oral Dose on the Nervous System of Hens|Toxicol. Appl. Pharmacol.48:57-66|1979|10.1016/S0041-008X(79)80008-3
35552|T||Abou-Donia,M.B., and D.G. Graham|Delayed Neurotoxicity of O-Ethyl O-4-Nitrophenyl Phenyl-Phosphonothioate:  Subchronic (90 Days) Oral Administration in Hens|Toxicol. Appl. Pharmacol.45:685-700|1978|10.1016/0041-008X(78)90162-X
35553|T||Abou-Donia,M.B., D.G. Graham, and C.G. Kinnes|Sensitivity of the Cat to Delayed Neurotoxicity Induced by O-Ethyl O-4-Nitrophenyl Phenylphosphonothioate|Toxicol. Appl. Pharmacol.68:54-65|1983|10.1016/0041-008X(83)90354-X
35554|T||Abou-Donia,M.B., B.L. Reichert, and M.A. Ashry|The Absorption, Distribution, Excretion, and Metabolism of a Single Oral Dose of O-Ethyl O-4-Nitrophenyl Phenylphosphonothioate in Hens|Toxicol. Appl. Pharmacol.70:18-28|1983|10.1016/0041-008X(83)90175-8
35555|T||Abuelgasim,A., R. Ringer, and V. Sanger|Toxicosis of Mirex for Chick Embryos and Chickens Hatched from Eggs Inoculated with Mirex|Avian Dis.26(1): 34-39|1981|10.2307/1590022
35556|T||Acorn,T., and M.A. Gibson|Histogenesis of the Yolk Sac in Malathion-Treated Chick Embryos|Can. J. Zool.57:2325-2330|1979|10.1139/z79-302
35559|T||Adams,A.W., J.L. West, and A.J. Kahrs|Some Effects on Turkeys of Nitrate in the Drinking Water|Poult. Sci.48(4): 1222-1229|1969|10.3382/ps.0481222
35560|T||Adams,L.G., D.E. Corrier, and J.D. Williams|A Study of the Toxicity of Imidocarb Dipropionate in Cattle|Res. Vet. Sci.28:172-177|1980|10.1016/S0034-5288(18)32741-3
35561|T||Adams,P.M.|Effects of Anticholinergic and Choinesterase Blocking Drugs on Appetitive Behavior Under Different Deprivation Conditions|Life Sci.21:129-136|1977|10.1016/0024-3205(77)90433-7
35563|T||Adamson,I.Y.R., and J.L. Weeks|The LD50 and Chronic Toxicity of Reactor Terphenyls|Arch. Environ. Health27(2): 69-73|1973|10.1080/00039896.1973.10666320
35567|T||Adkins-Regan,E., and E.D. Hurvitz|O,p'-DDT Causes Growth of an Androgen-Dependent Gland in Coturnix Quail|Experientia38:1082-1083|1982|10.1007/BF01955380
35569|T||Aeschbacher,H.U.|Influence of Methylxanthines on Aniline Disappearance and Metabolism in Rats|Experientia31:894-896|1975|10.1007/BF02358836
35571|T||Ahmad,S., and C.O. Knowles|Biochemical Mode of Action of Tricyclohexylhydroxytin|Comp. Gen. Pharmacol.3:125-133|1972|10.1016/0010-4035(72)90017-1
35572|T||Ahmed,M.M., and C.H. Walker|The Metabolism of DDT in Vivo by the Japanese Quail (Coturnix coturnix japonica)|Pestic. Biochem. Physiol.10:40-48|1979|10.1016/0048-3575(79)90006-3
35573|T||Ahmed,T., G.H. Arscott, and I.J. Tinsley|Effect of Chlorinated Hydrocarbons on Reproductive Performance of Adult White Leghorn Male Chickens|Poult. Sci.57(6): 1594-1598|1978|10.3382/ps.0571594
35574|T||Ahrens,F.A., D.C. Dyer, and W.E. Lloyd|Mirex Kinetics in Chickens|J. Toxicol. Environ. Health6:835-842|1980|10.1080/15287398009529901
35575|T||Ainley,D.G., C.R. Grau, T.E. Roudybush, S.H. Morrell, and J.M. Utts|Petroleum Ingestion Reduces Reproduction in Cassin's Auklets|Mar. Pollut. Bull.12(9): 314-317|1981|10.1016/0025-326X(81)90083-7
35577|T||Akesson,C.E., and P.E.M. Linero|Effect of Chloramphenicol on Serum Salicylate Concentrations in Cats and Dogs|Am. J. Vet. Res.43(8): 1471-1472|1982|
35578|T||Akhtar,M.H., and T.S. Foster|Metabolism and Excretion of Tetrachlorvinphos in Dairy Cows|J. Agric. Food Chem.28(4): 698-704|1980|10.1021/jf60230a009
35579|T||Akhtar,M.H., R.M.G. Hamilton, and H.L. Trenholm|Metabolism, Distribution, and Excretion of Deltamethrin by Leghorn Hens|J. Agric. Food Chem.33(4): 610-617|1985|10.1021/jf00064a012
35580|T||Al-Fayadh,H., A.W.R. Mehdi, K. Al-Soudi, A.K. Al-Khazraji, N.A. Al-Jiboori, and S. Al-Muraib|Effects of Feeding Ethyl Mercury Chloride to Chickens|Poult. Sci.55:772-779|1976|10.3382/ps.0550772
35581|T||Al-Soudi,K.A., H.A. Al-Fayadh, A.K. Al-Khazraje, A.W.R. Mehdi, N.A.J. Al-Jiboori, and S. Al-Muraib|Preliminary Study of the Effects of Feeding Ethyl Mercury Chloride on Four Breeds of Chickens|Poult. Sci.55:1913-1917|1976|10.3382/ps.0551913
35585|T||Alary,J.G., P. Guay, and J. Brodeur|Effect of Phenobarbital Pretreatment on the Metabolism of DDT in the Rat and the Bovine|Toxicol. Appl. Pharmacol.18:457-468|1971|10.1016/0041-008X(71)90138-4
35586|T||Albers,P.H.|The Effects of Petroleum of Different Stages of Incubation in Bird Eggs|Bull. Environ. Contam. Toxicol.19:624-630|1978|10.1007/BF01685849
35587|T||Albers,P.H.|Transfer of Crude Oil from Contaminated Water to Bird Eggs|Environ. Res.22:307-314|1980|10.1016/0013-9351(80)90143-7
35588|T||Albers,P.H.|Effects of External Applications of Fuel Oil on Hatchability of Mallard Eggs|In: D.A.Wolfe (Ed.), Proceedings of a Symposium on Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms, Seattle, WA:158-163|1977|
35589|T||Albers,P.H.|Oil Dispersants and Wildlife|In: C.H.Brown (Ed) Proc.of the 1979 U.S.Fish and Wildl.Serv.Pollut.Response Workshop, May 8-10, St.Petersburg FL:67-72|1979|
35590|T||Albers,P.H., and M.L. Gay|Effects of a Chemical Dispersant and Crude Oil on Breeding Ducks|Bull. Environ. Contam. Toxicol.29(4): 404-411|1982|10.1007/BF01605603
35592|T||Albers,P.H., and G.H. Heinz|FLIT - MLO and No. 2 Fuel Oil:  Effects of Aerosol Applications to Mallard Eggs on Hatchability and Behavior of Ducklings|Environ. Res.30:381-388|1983|10.1016/0013-9351(83)90223-2
35593|T||Albers,P.H., and R.D. Szaro|Effects of No. 2 Fuel Oil on Common Eider Eggs|Mar. Pollut. Bull.9:138-139|1978|10.1016/0025-326X(78)90590-8
35594|T||Albro,P.W.|The Metabolism of 2-Ethylhexanol in Rats|Xenobiotica5(10): 625-636|1975|10.3109/00498257509056132
35595|T||Albro,P.W., and L. Fishbein|Intestinal Absorption of Polychlorinated Biphenyls in Rats|Bull. Environ. Contam. Toxicol.8(1): 26-31|1972|10.1007/BF01684500
35597|T||Aldous,C.N., C.S. Chetty, and D. Desaiah|Alterations in Tissue Distribution of Chlordecone (Kepone) in the Rat Following Phenobarbital or Skf-525A Administration|J. Toxicol. Environ. Health11:365-372|1983|10.1080/15287398309530350
35598|T||Alexander,J., R. Koshut, R. Keefer, R. Singh, D.J. Horvath, and R. Chaney|Movement of Nickel from Sewage Sludge into Soil, Soybeans and Voles|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:377-388|1978|
35601|T||Ali,B.H., and A.L. Bartlet|Anorexia and Antagonsim of Thiamin Utilization in Poultry Treated with Furazolidone|Q. J. Exp. Physiol.67:437-448|1982|10.1113/expphysiol.1982.sp002659
35602|T||Ali,F.A.F., and T.R. Fukuto|Toxicological Properties of O,O,S-Trialkyl Phosphorothioates|J. Toxicol. Environ. Health12(4-6): 591-598|1983|10.1080/15287398309530451
35604|T||Allcroft,R., and J.S.L. Jones|Fluoroacetamide Poisoning 1. Toxicity in Dairy Cattle: Clinical History and Preliminary Investigations|Vet. Rec.84:399-402|1969|10.1136/vr.84.16.399
35605|T||Allcroft,R., F.J. Salt, R.A. Peters, and M. Shorthouse|Fluoroacetamide Poisoning--Part 2. Toxicity in Dairy Cattle:Confirmation of Diagnosis|Vet. Rec.84:403-409|1969|10.1136/vr.84.16.403
35608|T||Allen,J.G., H.G. Masters, R.L. Peet, K.R. Mullins, R.D. Lewis, S.Z. Skirrow, and J. Fry|Zinc Toxicity in Ruminants|J. Comp. Pathol.93:363-377|1983|10.1016/0021-9975(83)90024-5
35609|T||Allen,J.R., and L.J. Abrahamson|Morphological and Biochemical Changes in the Liver of Rats Fed Polychlorinated Biphenyls|Arch. Environ. Contam. Toxicol.1(3): 265-280|1973|10.1007/BF01985749
35613|T||Allen,N.K., S.R. Aakhus-Allen, and M.M. Walser|Toxic Effects of Repeated Ethanol Intubations to Chicks|Poult. Sci.60:941-943|1981|10.3382/ps.0600941
35614|T||Allen,N.K., H.R. Burmeister, G.A. Weaver, and C.J. Mirocha|Toxicity of Dietary and Intravenously Administed Moniliformin to Broiler Chickens|Poult. Sci.60:1415-1417|1981|10.3382/ps.0601415
35615|T||Allen,N.K., C.J. Mirocha, S. Aakhus-Allen, J.J. Bitgood, G. Weaver, and F. Bates|Effect of Dietary Zearalenone on Reproduction of Chickens|Poult. Sci.60:1165-1174|1981|10.3382/ps.0601165
35616|T||Allen,S.H.|Bait Consumption and Diethylstilbesterol Influence on North Dakota Red Fox Reproductive Performance|Wildl. Soc. Bull.10(4): 370-374|1982|
35617|T||Alley,E.G.|The Use of Mirex in Control of the Imported Fire Ant|J. Environ. Qual.2:52-61|1973|10.2134/jeq1973.00472425000200010005x
35618|T||Allred,P.M., and J.R. Strange|The Effects of 2,4,5-Trichlorophenoxyacetic Acid and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Developing Chicken Embryos|Arch. Environ. Contam. Toxicol.6:483-489|1977|10.1007/BF02097787
35621|T||Alumot,E., and Z. Harduf|Impaired Uptake of Labeled Proteins by the Ovarian Follicles of Hens Treated with Ethylene Dibromide|Comp. Biochem. Physiol. B Comp. Biochem.39(1B): 61-68|1971|10.1016/0305-0491(71)90253-7
35622|T||Alumot,E., and Z. Harduf|Use of Radioisotopes for a Study of Ethylene Dibromide Action on Laying Hens|Joint FAO/IAEA. Radiotracer Studies of Chemical Residues in Food and Agriculture, Vienna:123-127|1972|
35623|T||Alumot,E., and E. Mandel|Intestinal Absorption and Distribution of Decachlorbiphenyl in Rats and Chicks|Bull. Environ. Contam. Toxicol.16(6): 746-749|1976|10.1007/BF01685584
35624|T||Alumot,E., and E. Mandel|Gonadotropic Hormones in Hens Treated with Ethylene Dibromide|Poult. Sci.48(3): 957-960|1969|10.3382/ps.0480957
35625|T||Alumot,E., E. Nachtomi, and M.A.N.D. Kempenich-Pinto Ora|The Effect of Ethylene Dibromide in Feed on the Growth, Sexual Development and Fertility of Chickens|Poult. Sci.47(6): 1979-1985|1968|10.3382/ps.0471979
35626|T||Alvares,A.P., D.R. Bickers, and A. Kappas|Polychlorinated Biphenyls:  A New Type of Inducer of Cytochrome P-448 in the Liver|Proc. Natl. Acad. Sci. U.S.A.70(5): 1321-1325|1973|10.1073/pnas.70.5.1321
35627|T||Alvares,A.P., and A. Kappas|The Inducing Properties of Polychlorinated Biphenyls on Hepatic Monooxygenases|Clin. Pharmacol. Ther.22(5,Pt.1): 809-816|1977|10.1002/cpt1977225part2809
35628|T||Alvares,A.P., and A. Kappas|Heterogeneity of Cytochrome P-450S Induced by Polychlorinated Biphenyls|J. Biol. Chem.252(18): 6373-6378|1977|10.1016/S0021-9258(17)39967-2
35636|T||Anders,E., D.D. Dietz, C.R.,Jr. Bagnell, J. Gaynor, M.R. Krigman, D.W. Ross, J.D. Leander, and P. Mushak|Morphological, Pharmacokinetic, and Hematological Studies of Lead-Exposed Pigeons|Environ. Res.28:344-363|1982|10.1016/0013-9351(82)90134-7
35640|T||Anderson,A.C.|Environmental Toxicology - Biological Parameters|J. Environ. Health45(5): 231-233|1983|
35641|T||Anderson,D.W., and F. Gress|Status of a Northern Population of California Brown Pelicans|Condor85:79-88|1983|10.2307/1367894
35643|T||Anderson,D.W., J.J. Hickey, R.W. Risebrough, D.F. Hughes, and R.E. Christensen|Significance of Chlorinated Hydrocarbon Residues to Breeding Pelicans and Cormorants|Can. Field Nat.83:91-112|1969|10.5962/p.364088
35646|T||Anderson,N.H., S.K. Branch, R.S.T. Loeffler, B.E. Mann, I.W. Nowell, and P.E. Walker|Structural Studies in Azolylmethanes|Pestic. Sci.15:310-316|1984|10.1002/ps.2780150314
35647|T||Anderson,P.H., A.F. Machin, and C.N. Hebert|Blood Cholinesterase Activity as an Index of Acute Toxicity of Organophosphorus Pesticides in Sheep and Cattle|Res. Vet. Sci.10:29-33|1969|10.1016/S0034-5288(18)34483-7
35648|T||Anderson,P.H., J.G. Matthews, S. Berrett, P.J. Brush, and D.S.P. Patterson|Changes in Plasma Enzyme Activities and Other Blood Components in Response to Acute and Chronic Liver Damage in Cattle|Res. Vet. Sci.31:1-4|1981|10.1016/S0034-5288(18)32510-4
35650|T||Anderson,W.L.|Lead Poisoning in Waterfowl at Rice Lake, Illinois|J. Wildl. Manag.39(2): 264-270|1975|10.2307/3799902
35651|T||Anderson,W.L., and R.E. Duzan|DDE Residues and Eggshell Thinning in Loggerhead Shrikes|Wilson Bull.90(2): 215-220|1978|
35652|T||Andrawes,N.R., E.L. Chancey, R.J. Crabtree, R.A. Herrett, and M.H.J. Weiden|Fate of Naphthyl-1-14C Carbaryl in Laying Chickens|J. Agric. Food Chem.20(3): 608-617|1972|10.1021/jf60181a044
35653|T||Andre,F., J. Gillon, C. Andre, S. LaFont, and G. Jourdan|Pesticide-Containing Diets Augment Anti-sheep Red Blood Cell Nonreaginic Antibody Responses in Mice but may Prolong Murine Infection with Giardia Muris|Environ. Res.32:145-150|1983|10.1016/0013-9351(83)90201-3
35654|T||Andres,J., I. Lambert, L. Robertson, S. Bandiera, T. Sawyer, S. Lovering, and S. Safe|The Comparative Biologic and Toxic Potencies of Polychlorinated Biphenyls and Polybrominated Biphenyls|Toxicol. Appl. Pharmacol.70(2): 204-215|1983|10.1016/0041-008X(83)90096-0
35660|T||Angle,C.R., S.J. Stohs, M.S. Mcintire, M.S. Swanson, and K.S. Rovang|Lead-Induced Accumulation of Erythrocyte Pyrimidine Nucleotides in the Rabbit|Toxicol. Appl. Pharmacol.54:161-167|1980|10.1016/0041-008X(80)90017-4
35663|T||Ansari,M.S., and W.M. Britton|Effect of Dietary Selenium and Mercury and 203Hg Metabolism in Chicks|Poult. Sci.53:1134-1137|1974|10.3382/ps.0531134
35668|T||Aronson,A.L.|Biologic Effects of Lead in Domestic Animals|J. Wash. Acad. Sci.61(2): 110-113|1971|
35669|T||Aronson,A.L.|Lead Poisoning in Cattle and Horses Following Long-Term Exposure to Lead|Am. J. Vet. Res.33(3): 627-629|1972|
35670|T||Aronson,A.L., and K.M. Rogerson|Effect of Calcium and Chromium Chelates of Ethylenediaminetetraacetate on Intestinal Permeability and Collagen Metabolism in the Rat|Toxicol. Appl. Pharmacol.21:440-453|1972|10.1016/0041-008X(72)90002-6
35671|T||Arscott,G.H., S. Michener, and D.D. Bills|Effect of Toxaphene on the Performance of White Leghorn Layers and Their Progeny|Poult. Sci.55:1130-1131|1976|10.3382/ps.0551130
35672|T||Arscott,G.H., W.A. Robson, and I.J. Tinsley|Effect of DDE and DDT on Reproductive Performance of Adult White Leghorn Male Chickens|Nutr. Rep. Int.6(6): 307-311|1972|
35674|T||Artmann,J.W., and E.M. Martin|Incidence of Ingested Lead Shot in Sora Rails|J. Wildl. Manag.39(3): 514-519|1975|10.2307/3800393
35676|T||Aschbacher,P.W., and V.J. Feil|Metabolism of Pentachloronitrobenzene by Goats and Sheep|J. Agric. Food Chem.31:1150-1158|1983|10.1021/jf00120a005
35677|T||Atallah,Y.H., C.C. Yu, and D.M. Whitacre|Metabolic Fate of the Herbicide Buthidazole in Lactating Cows and Laying Hens|J. Agric. Food Chem.28:278-286|1980|10.1021/jf60228a005
35678|T||Atkins,T.D., and R.L. Linder|Effects of Dieldrin on Reproduction of Penned Hen Pheasants|J. Wildl. Manag.31(4): 746-753|1967|10.2307/3797978
35679|T||Atzert,S.P.|A Review of Sodium Monofluoroacetate (Compound 1080) Its Properties, Toxicology, and Use in Predator and Rodent Control|U.S.Fish and Wildlife Service, Bureau of Sport Fisheries and Wildlife, Scientific Report No.146, Washington, DC:34 p.|1971|
35680|T||Aulerich,R.J., and R.K. Ringer|Toxicity of the Polychlorinated Biphenyl Aroclor 1016 to Mink|EPA-600/3-80-033, U.S.EPA., Duluth MN:34 p.|1980|
35681|T||Aulerich,R.J., and R.K. Ringer|Some Effects of Chlorinated Hydrocarbon Pesticides on Mink|Am. Fur. Breeder43(6): 10-11|1970|
35683|T||Aulerich,R.J., R.K. Ringer, and S. Iwamoto|Reproductive Failure and Mortality in Mink Fed on Great Lakes Fish|J. Reprod. Fertil.Suppl. 19:365-376|1973|
35684|T||Aulerich,R.J., R.K. Ringer, and D. Polin|Rate of Accumulation of Chlorinated Hydrocarbon Pesticide Residues in Adipose Tissue of Mink|Can. J. Zool.50:1167-1173|1972|10.1139/z72-156
35686|T||Avrahami,M., M.H. Clear, and A.R. Ritchie|Residues in Milk, Blood, Urine, and Faeces of Cows After Treatment with 32P-Labelled Fenchlorphos 'Pour-on'|N. Z. J. Exp. Agric.2:115-119|1974|10.1080/03015521.1974.10425745
35688|T||Avrahami,M., and I.L. Gernert|Distribution, Metabolism, and Excretion of 32P-Labelled Fensulfothion in Sheep|N. Z. J. Exp. Agric.1:197-202|1973|10.1080/03015521.1973.10427642
35690|T||Avrahami,M., and R.T. Steele|Hexachlorobenzene.  II. Residues in Laying Pullets fed HCB in Their Diet and the Effects on Egg Production, Egg Hatchability, and on Chickens|N. Z. J. Agric. Res.15:482-488|1972|10.1080/00288233.1972.10430539
35691|T||Avrahami,M., and R.T. Steele|Hexachlorobenzene.  III. The Effects of Feeding HCB to Growing Chickens|N. Z. J. Agric. Res.15:489-494|1972|10.1080/00288233.1972.10430540
35692|T||Avrahami,M., and D.A. White|"Phosmet Residues in Milk of Cows After ""Pour-on"" and Spray Treatments"|N. Z. J. Exp. Agric.6:119-122|1978|10.1080/03015521.1978.10426026
35693|T||Axtell,R.C., and T.D. Edwards|Efficacy and Nontarget Effects of Larvadex as a Feed Additive for Controlling House Flies in Caged-Layer Poultry Manure|Poult. Sci.62:2371-2377|1983|10.3382/ps.0622371
35695|T||Azevedo,J.A., E.G. Hunt, and L.A. Woods|Melanistic Mutant in Ringneck Pheasants|Calif. Fish Game58(3): 175-178|1972|
35697|T||Bacon,C.W., and H.L. Marks|Growth of Broilers and Quail fed Fusarium (Gibberella Zeae)-Infected Corn and Zearalenone (F-2)|Poult. Sci.55:1531-1535|1976|10.3382/ps.0551531
35699|T||Baetjer,A.M.|Water Deprivation and Food Restriction on Toxicity of Parathion and Paraoxon|Arch. Environ. Health38(3): 168-171|1983|10.1080/00039896.1983.10543999
35701|T||Bafundo,K.W., D.H. Baker, and P.R. Fitzgerald|Lead Toxicity in the Chick as Affected by Excess Copper and Zinc and by Eimeria acervulina Infection|Poult. Sci.63:1594-1603|1984|10.3382/ps.0631594
35703|T||Baggett,J.M., A. Thureson-Klein, and R.L. Klein|Effects of Chlordecone on the Adrenal Medulla of the Rat|Toxicol. Appl. Pharmacol.52:313-322|1980|10.1016/0041-008X(80)90118-0
35704|T||Bagley,G.E., L.N. Locke, and G.T. Nightingale|Lead Poisoning in Canada Geese in Delaware|Avian Dis.11(4): 601-608|1967|10.2307/1588302
35705|T||Bahl,A.K., and B.S. Pomeroy|Acute Toxicity in Poults Associated with Carbaryl Insecticide|Avian Dis.22(3): 526-528|1978|10.2307/1589309
35707|T||Bailey,S., P.J. Bunyan, B.D. Rennison, and A. Taylor|The Metabolism of 1,1-Di(P-Chlorophenyl)-2,2-Dichloroethylene and 1,1-Di(P-Chlorophenyl)-2-Chloroethylene in the Pigeon|Toxicol. Appl. Pharmacol.14:23-32|1969|10.1016/0041-008X(69)90160-4
35708|T||Bailey,T.N.|Immobilization of Bobcats, Coyotes, and Badgers with Phencyclidine Hydrochloride|J. Wildl. Manag.35(4): 847-849|1971|10.2307/3799799
35709|T||Bajgar,J.|Inhibition of Acetylcholinesterase in Rat Brain Subcellular Fractions Following O-Isopropyl Methylphosphonofluoridate Intoxication|Toxicol. Appl. Pharmacol.22:93-96|1972|10.1016/0041-008X(72)90228-1
35710|T||Baker,G.M., and E.A. Wright|Effects of Carbon Monoxide on Insects|Bull. Environ. Contam. Toxicol.17(1): 98-104|1977|10.1007/BF01685268
35711|T||Baker,N.F., R.A. Fisk, and J.R. Douglas|A Study of Dl-Tetramisole in Lambs: Anthelmintic Efficacy and Toxicity|Am. J. Vet. Res.31(6): 977-982|1970|
35712|T||Baker,N.F., E.M. Tucker, C. Stormont, and R.A. Fisk|Neurotoxicity of Haloxon and Its Relationship to Blood Esterases of Sheep|Am. J. Vet. Res.31(5): 865-871|1970|
35713|T||Baker,R.T.|Insecticide Resistance in the Peach Silver Mite Aculus cornutus (Banks) (Acari:  Eriophyidae)|N. Z. J. Exp. Agric.7:405-406|1979|10.1080/03015521.1979.10427117
35714|T||Bakke,J.E., V.J. Feil, C.E. Fjelstul, and E.J. Thacker|Metabolism of Cyclophosphamide by Sheep|J. Agric. Food Chem.20(2): 384-388|1972|10.1021/jf60180a054
35715|T||Bakke,J.E., V.J. Feil, and R.G. Zaylskie|Characterization of the Major Sheep Urinary Metabolites of Cyclophosphamide, A Defleecing Chemical|J. Agric. Food Chem.19(4): 788-790|1971|10.1021/jf60176a038
35716|T||Bakke,J.E., and C.E. Price|Metabolism of Crufomate (4-Tert-Butyl-2-Chlorophenyl Methyl Methylphosphoramidate) Administed Topically to a Sheep|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(4): 417-426|1979|
35717|T||Bakke,J.E., J.D. Robbins, and V.J. Feil|Metabolism of 2-Methoxy-4-Ethylamino-6-Sec-Butylamino-S-Triazine by the Dairy Cow and the Goat|J. Agric. Food Chem.19(3): 462-466|1971|10.1021/jf60175a038
35718|T||Bakre,P.P.|Chronic Toxicity of Pyrethrum to Blue Rock Pigeon|Geobios9:132-134|1982|
35722|T||Balcomb,R., C.A. Bowen II, and H.O. Williamson|Acute and Sublethal Effects of 1080 on Starlings|Bull. Environ. Contam. Toxicol.31:692-698|1983|10.1007/BF01606047
35723|T||Balcomb,R., C.A. Bowen, D. Wright, and M. Law|Effects on Wildlife of At-Planting Corn Applications of Granular Carbofuran|J. Wildl. Manag.48(4): 1353-1359|1984|10.2307/3801796
35724|T||Baldwin,M.K., J.V. Crayford, D.H. Hutson, and D.L. Street|The Metabolism and Residues of (14C)Endrin in Lactating Cows and Laying Hens|Pestic. Sci.7:575-594|1976|10.1002/ps.2780070610
35725|T||Ballantyne,B.|The Comparative Short-Term Mammalian Toxicology of Phenarsazine Oxide and Phenoxarsine Oxide|Toxicology10:341-361|1978|10.1016/0300-483X(78)90082-3
35727|T||Ballou,J.E., D.H. Willard, H.S. Deford, and D.W. Murphy|Toxicology of 85Kr:  Tissue Distribution and Retention in Therat|Health Phys.43(5): 669-677|1982|10.1097/00004032-198211000-00005
35728|T||Balser,D.S.|A Review of Coyote Control Research|In: 6th Vertebrate Pest Conf., Mar. 5-7, 1974, Vertebrate Pest Counc., Publ. Univ. of Ca, Davis:171-177|1974|
35732|T||Bandyopadhyay,S.K., R.K. Tiwari, A. Mitra, B. Mukherjee, A. Banerjee, and G.C. Chatterjee|Effects of L-Ascorbic Acid Supplementation on Dieldrin Toxicity in Rats|Arch. Toxicol.50(3-4): 227-232|1982|10.1007/BF00310854
35734|T||Banks,W.A., H.L. Collins, D.F. Williams, C.E. Stringer, C.S. Lofgren, D.P. Harlan, and C.L. Mangum|Field Trials with AC-217,300 A New Amidinohydrazone Bait Toxicant for Control of the Red Imported Fire Ant|Southwest. Entomol.6(2): 158-164|1981|
35735|T||Bar,A., and S. Hurwitz|Bone Ash and Duodenal Calcium-Binding Protein in Chicks Treated with Ehdp|Poult. Sci.52:2338-2339|1973|10.3382/ps.0522338
35736|T||Barbee,S.J., E.I. Goldenthal, D.E. Rajasekaran, and E.J.F. Spicer|Subschronic Oral Toxicology of 4-Fluoro-3-Nitroaniline in the Rat|Toxicol. Appl. Pharmacol.72:400-405|1984|10.1016/0041-008X(84)90116-9
35737|T||Barker,G.M.|Short-Term Effects of Methiocarb Formulations on Pasture Earthworms (Oligochaeta:  Lumbricidae)|N. Z. J. Exp. Agric.10:309-311|1982|10.1080/03015521.1982.10427889
35738|T||Barker,R.J., Y. Lehner, and M.R. Kunzmann|Pesticides and Honey Bees: The Danger of Microencapsulated Formulations|Z. Naturforsch.34C:153-156|1979|10.1515/znc-1979-1-230
35739|T||Barker,R.J., and S. Taber III|Effects of Diflubenzuron fed to Caged Honey Bees|Environ. Entomol.6(1): 167-168|1977|10.1093/ee/6.1.167
35741|T||Barker,W.M., P.L. Moy, and A.G. Ebert|Distribution and Metabolism of Carboxyl-14C-2,3,5-Triiodobenzoic Acid and 2,3,(125I),5(125I)-Triiodobenzoic Acid in the Rat|J. Agric. Food Chem.19(5): 916-922|1971|10.1021/jf60177a060
35742|T||Barnett,J.R., and H.W. Dorough|Metabolism of Chlordane in Rats|J. Agric. Food Chem.22(4): 612-619|1974|10.1021/jf60194a045
35743|T||Barnett,S.A., and R.G. Dickson|Changes Among Wild House Mice (Mus Musculus) Bred for Ten Generations in a Cold Environment, and Their Evolutionary Implications|J. Zool. (Lond.)203:163-180|1984|10.1111/j.1469-7998.1984.tb02324.x
35745|T||Baron,R.L., and M.S. Walton|Dynamics of HEOD (Dieldrin) in Adipose Tissue of the Rat|Toxicol. Appl. Pharmacol.18:958-963|1971|10.1016/0041-008X(71)90241-9
35746|T||Barr Nea,L., and M. Wolman|The Effects of Cutaneous Application of Beach-Polluting Oil on Mice|Isr. J. Med. Sci.8(10): 1745-1749|1972|
35747|T||Barrett,M.W., and L.H. Karstad|A Fluorescent Erythrocyte Test for Lead Poisoning in Waterfowl|J. Wildl. Manag.35(1): 109-118|1971|10.2307/3799878
35750|T||Bart,J.|Effects of Acephate and Sevin on Forest Birds|J. Wildl. Manag.43(2): 544-549|1979|10.2307/3800370
35752|T||Bartell,D.P., J.R. Sanborn, and K.A. Wood|Insecticide Penetration of Cocoons Containing Diapausing and Nondiapausing Bathyplectes curculionis, an Endoparasite of the Alfalfa Weevil|Environ. Entomol.5(4): 659-661|1976|10.1093/ee/5.4.659
35753|T||Barth,D., and E.S. Brokken|The Activity of 22,23-Dihydroavermectin B Against the Pig Louse, Haematopinus Suis|Vet. Rec.106:388-|1980|10.1136/vr.106.17.388-a
35754|T||Barthalmus,G.T., J.D. Leander, and D.E. McMillan|Combined Effects of Ethanol and Diazepam on Performance and Acquisition of Serial Position Sequences by Pigeons|Psychopharmacology59:101-102|1978|10.1007/BF00428039
35755|T||Barthalmus,G.T., J.D. Leander, D.E. McMillan, P. Mushak, and M.R. Krigman|Chronic Effects of Lead on Schedule-Controlled Pigeon Behavior|Toxicol. Appl. Pharmacol.42(2): 271-284|1977|10.1016/0041-008X(77)90004-7
35756|T||Bartov,I., P. Budowski, Y. Dror, U. Sandbank, and J.J. Bubis|Effect of Ozone Exposure on Growth, Nutritional Encephalopathy, and Fatty Acid Composition of Cerebellum and Lungs in the Young Chick|Poult. Sci.60:532-540|1981|10.3382/ps.0600532
35759|T||Bass,S.W., A.J. Triolo, and J.M. Coon|Effect of DDT on the Toxicity and Metabolism of Parathion in Mice|Toxicol. Appl. Pharmacol.22:684-693|1972|10.1016/0041-008X(72)90297-9
35760|T||Basson,N.C.J.|Effect of Dieldrin and Its Photoisomerization Product 'Photodieldrin' on Birds|Phytophylactica3:115-124|1971|
35762|T||Batt,B.D.J., J.A. Black, and W.F. Cowan|The Effects of Glyphosate Herbicide on Chicken Egg Hatchability|Can. J. Zool.58:1940-1942|1980|10.1139/z80-265
35765|T||Baumann,M., E. Deml, E. Schaffer, and H. Greim|Effects of Polychlorinated Biphenyls at Low Dose Levels in Rats|Arch. Environ. Contam. Toxicol.12:509-515|1983|10.1007/BF01056545
35768|T||Baxter,W.L., R.L. Linder, and R.B. Dahlgren|Dieldrin Effects in Two Generations of Penned Hen Pheasants|J. Wildl. Manag.33(1): 96-102|1969|10.2307/3799655
35769|T||Bayer,R.C., and F.H. Bird|Surface Changes in the Epicardium of Chickens Fed Polychlorinated Biphenyls|Poult. Sci.53:737-741|1974|10.3382/ps.0530737
35774|T||Becci,P.J., W.D. Johnson, F.G. Hess, M.A. Gallo, R.A. Parent, and J.M. Taylor|Combined Two-Generation Reproduction-Teratogenesis Study of Zearalenone in the Rat|J. Appl. Toxicol.2(4): 201-206|1982|10.1002/jat.2550020406
35775|T||Beck,B.E., C.D. Wood, and G.R. Whenham|Triaryl Phosphate Poisoning in Cattle|Vet. Pathol.14:128-137|1977|10.1177/030098587701400205
35776|T||Beck,E.W., J.C. Johnson, M.E. Getz, F.B. Skinner, L.H. Dawsey, D.W. Woodham, and J.C. Derbyshire|Effects of Feeding Dimethoate, Its Oxygen Analog, and Dimethoate-Treated Silage to Cattle|J. Econ. Entomol.61(3): 605-610|1968|10.1093/jee/61.3.605
35779|T||Bedford,C.T., R.K. Harrod, E.C. Hoadley, and D.H. Hutson|The Metabolic Fate of Endrin in the Rabbit|Xenobiotica5(8): 485-500|1975|10.3109/00498257509056119
35780|T||Bedford,P.G.C., and E.G.C. Clarke|Experimental Benzoic Acid Poisoning in the Cat|Vet. Rec.90(3): 53-58|1972|10.1136/vr.90.3.53
35781|T||Bee,J.A., N.C. Unruh, D.L. Sommerfeld, and G.W. Conrad|Avian Corneal Innervation: Inhibition of Nerve Ring Formation by 6-Diazo-5-Oxo-L-Norleucine|Dev. Biol.92:123-132|1982|10.1016/0012-1606(82)90156-7
35785|T||Belisle,A.A., M.L. Gay, and N.C. Coon|Comparison of Two Extraction Methods for the Analysis of Petroleum Hydrocarbon Residues in Mallard Duck Eggs by GC and GC-MS|Chemosphere10(11-12): 1197-1203|1981|10.1016/0045-6535(81)90036-9
35786|T||Belisle,A.A., W.L. Reichel, and J.W. Spann|Analysis of Tissues of Mallard Ducks Fed Two Phthalate Esters|Bull. Environ. Contam. Toxicol.13(2): 129-132|1975|10.1007/BF01721725
35790|T||Bell,M.C., L.B. Sasser, J.L. West, and L. Wade|Effects of Feeding 90Y-Labeled Fallout Simulant to Sheep|Radiat. Res.43:71-82|1970|10.2307/3572859
35791|T||Bello,T.R., and B.J. Torbert|Toxicity of an Organic Phosphate Anthelmintic (Shell Sd 15803) at Excessive Dosages in Two-Month-Old Pony Foals|Am. J. Vet. Res.33(2): 329-334|1972|
35792|T||Bellows,R.A., T.S. Rumsey, C.W. Kasson, J. Bond, E.J. Warwick, and O.F. Pahnish|Effects of Organic Phosphate Systemic Insecticides on Bovine Embryonic Survival and Development|Am. J. Vet. Res.36(8): 1133-1140|1975|
35793|T||Benezet,H.J., C.O. Knowles, J.R. Campbell, and J.E. Savage|Excretion Balance, Metabolic Fate, and Tissue Residues Following Treatment of Lactating Goats and Laying Hens with Thidiazuron Cotton Defoliant|J. Agric. Food Chem.26(3): 622-627|1978|10.1021/jf60217a012
35796|T||Benignus,V.A., K.E. Muller, C.N. Barton, and J.A. Bittikofer|Toluene Blood Level Following Subcutaneous Injection of Toluene in the Rat|Environ. Res.33:441-453|1984|10.1016/0013-9351(84)90041-0
35800|T||Benke,G.M., and S.D. Murphy|The Influence of Age on the Toxicity and Metabolism of Methyl Parathion and Parathion in Male and Female Rats|Toxicol. Appl. Pharmacol.31(2): 254-269|1975|10.1016/0041-008X(75)90161-1
35803|T||Bennett,D.R., S.J. Gorzinski, and L.E. Lebeau|Structure-Activity Relationships of Oral Organosiloxanes on the Male Reproductive System|Toxicol. Appl. Pharmacol.21:55-67|1972|10.1016/0041-008X(72)90027-0
35810|T||Berdanier,C.D., R.B. Tobin, R.C. Nielsen, M.A. Mehlman, and R.L. Veech|Effect of Polychlorinated Biphenyls and Thiamin Deficiency on Liver Metabolism in Growing Rats|J. Toxicol. Environ. Health1:91-105|1975|10.1080/15287397509529310
35812|T||Berg,L.R., and W.W. Lawrence|Cottonseed Meal, Dehydrated Grass and Ascorbic Acid as Dietary Factors Preventing Toxicity of Vanadium for the Chick|Poult. Sci.50(5): 1399-1404|1971|10.3382/ps.0501399
35813|T||Berg,L.R., and R.D. Martinson|Effect of Diet Composition on the Toxicity of Zinc for the Chick|Poult. Sci.51:1690-1695|1972|10.3382/ps.0511690
35814|T||Berge,G.N., M. Mondain-Monval, A. Smith, and O.M. Moller|Ovarian and Testicular Function in the Blue Fox (Alopex lagopus) After Oral Administration of Fenchlorphos During the Breeding Season|Acta Vet. Scand.24:200-210|1983|10.1186/BF03546747
35815|T||Berge,G.N., and I. Nafstad|Teratogenicity and Embryotoxicity of Orally Administered Fenchlorphos in Blue Foxes|Acta Vet. Scand.24:99-112|1983|10.1186/BF03546761
35816|T||Bergen,W.G.|Liver and Brain Nucleic Acids and Body Composition of Growing Rats fed Dieldrin|Proc. Soc. Exp. Biol. Med.140(4): 1259-1262|1972|10.3181/00379727-140-36654
35817|T||Berndtson,W.E., P.J. Chenoweth, T.T. Olar, B.W. Pickett, and G.E. Seidel|Influence of Albendazole on Reproductive Function of Bulls|Am. J. Vet. Res.41(4): 640-644|1980|
35818|T||Bernert,J.T.,Jr., D.F. Groce, and R.D. Kimbrough|Long-Term Effects of a Single Oral Dose of Polybrominated Biphenyls on Serum and Liver Lipids in Rats|Toxicol. Appl. Pharmacol.68:424-433|1983|10.1016/0041-008X(83)90287-9
35819|T||Bernstein,J.D., and S.L. Johnson|Effects of Diphenylhydantoin upon Estrogen Metabolism by Liver Microsomes of DDT-Treated Japanese Quail|Bull. Environ. Contam. Toxicol.10(5): 309-314|1973|10.1007/BF01684822
35822|T||Besser,J.F.|4-Aminopyridine for Protecting Crops from Birds - A Current Review|In: Vertebrate Pest Council, Publ., Univ of California, Davis, CA:11-16|1976|
35823|T||Besser,J.F.|Protecting Seeded Rice from Blackbirds with Methiocarb|Int. Rice Comm. Newsl.22(3): 9-12|1973|
35824|T||Best,G.R., J.V. Nabholz, J. Ojasti, and D.A.,Jr. Crossley|Response of Microarthropod Populations to Naphthalene in Three Contrasting Habitats|Pedobiologia (Multiple Languages)18(8): 189-201|1978|10.1016/S0031-4056(23)00585-1
35826|T||Beyer,W.N., R.L. Chaney, and B.M. Mulhern|Heavy Metal Concentrations in Earthworms from Soil Amended with Sewage Sludge|J. Environ. Qual.11(3): 381-385|1982|10.2134/jeq1982.00472425001100030012x
35827|T||Beyer,W.N., and C.D. Gish|Persistence in Earthworms and Potential Hazards to Birds of Soil Applied DDT, Dieldrin and Heptachlor|J. Appl. Ecol.17(2): 295-307|1980|10.2307/2402326
35828|T||Beyer,W.N., and J. Moore|Lead Residues in Eastern Tent Caterpillars (Malacosoma Americanum) and Their Host Plant (Prunus Serotina) Close to A Major Highway|Environ. Entomol.9(1): 10-12|1980|10.1093/ee/9.1.10
35831|T||Bharathi,C.H., and B.V.S.S.R. Subba Rao|Toxicity of Phosphamidon to the Common South Indian Earthworm Lampeto mauritii|Bull. Environ. Contam. Toxicol.32:295-300|1984|10.1007/BF01607501
35834|T||Bhat,S.K., and D.N. Mathew|Comparative Toxicity of Two Acute Rodenticides to the Western Ghats Squirrel, (Funambulus tristriatus Waterhouse)|Int. Pest Control23(5): 132-|1981|
35835|T||Bhatia,S.C., S.C. Sharma, and T.A. Venkitasubramanian|Effect of Dieldrin on Hepatic Carbohydrate Metabolism and Protein Biosynthesis in Vivo|Toxicol. Appl. Pharmacol.24:216-229|1973|10.1016/0041-008X(73)90142-7
35836|T||Bickel,M.H., and S. Muehlebach|Pharmacokinetics and Ecodisposition of Polyhalogenated Hydrocarbons: Aspects and Concepts|Drug Metab. Rev.11(2): 149-190|1980|10.3109/03602538008994024
35837|T||Bickers,D.R., L.C. Harber, A. Kappas, and A.P. Alvares|Polychlorinated Biphenyls:  Comparative Effects of High and Low Chlorine Containing Aroclors on Hepatic Mixed Function Oxidase|Res. Commun. Chem. Pathol. Pharmacol.3(3): 505-512|1972|
35839|T||Biessmann,A.|Accumulation of Polychlorinated Biphenyls in Steroidgenic Tissue of Gonads and Adrenals in Japanese Quail|Arch. Environ. Contam. Toxicol.10:653-662|1981|10.1007/BF01054850
35840|T||Biessmann,A., I. Brandt, and P.O. Darnerud|Comparative Distribution and Metabolism of Two 14C-Labelled Chlorinated Paraffins in Japanese Quail Coturnix coturnix japonica|Environ. Pollut. A.28:109-120|1982|10.1016/0143-1471(82)90097-6
35844|T||Bircham,J.S., G. Crouchley, and M.W. Aitken|Effects of Superphosphate, Lime, and Stocking Rate on Pasture and Animal Production on the Wairarapa Plains|N. Z. J. Exp. Agric.9:69-72|1981|10.1080/03015521.1981.10427805
35846|T||Bird,D.M., D.B. Peakall, and D.S. Miller|Enzymatic Changes in the Oviduct Associated with DDE-Induced Eggshell Thinning in the Kestrel, Falco sparverius|Bull. Environ. Contam. Toxicol.31:22-24|1983|10.1007/BF01608761
35847|T||Bird,D.M., P.H. Tucker, G.A. Fox, and P.C. Lague|Synergistic Effects of Aroclor 1254 and Mirex on the Semen Characteristics of American Kestrels|Arch. Environ. Contam. Toxicol.12:633-640|1983|10.1007/BF01060745
35848|T||Bird,F.H., C.B. Chawan, and R.W. Gerry|Response of Broiler Chickens to Low Level Intake of Polychlorinated Biphenyl Isomers|Poult. Sci.57:538-541|1978|10.3382/ps.0570538
35850|T||Bird,R.P., H.H. Draper, and V.E.O. Valli|Toxicological Evaluation of Malonaldehyde: A 12-Month Study of Mice|J. Toxicol. Environ. Health10:897-905|1982|10.1080/15287398209530304
35851|T||Birge,W.J., and O.W. Roberts|Toxicity of Metals to Chick Embryos|Bull. Environ. Contam. Toxicol.16(3): 319-324|1976|10.1007/BF01685895
35852|T||Birge,W.J., O.W. Roberts, and J.A. Black|Toxicity of Metal Mixtures to Chick Embryos|Bull. Environ. Contam. Toxicol.16(3): 314-318|1976|10.1007/BF01685894
35854|T||Birnbaum,L.S.|Distribution and Excretion of 2,3,6,2',3',6'- and 2,4,5,2',4',5'-Hexachlorobiphenyl in Senescent Rats|Toxicol. Appl. Pharmacol.70:262-272|1983|10.1016/0041-008X(83)90102-3
35857|T||Bitman,J., H.C. Cecil, and G.F. Fries|DDT-Induced Inhibition of Avian Shell Gland Carbonic Anhydrase:  A Mechanism for Thin Eggshells|Science168:594-597|1970|10.1126/science.168.3931.594
35858|T||Bitman,J., H.C. Cecil, and S.J. Harris|Biological Effects of Polychlorinated Biphenyls in Rats and Quail|Environ. Health Perspect.1:145-149|1972|10.1289/ehp.7201145
35859|T||Bitman,J., H.C. Cecil, S.J. Harris, and G.F. Fries|DDT Induces a Decrease in Eggshell Calcium|Nature224:44-46|1969|10.1038/224044a0
35860|T||Bitman,J., H.C. Cecil, S.J. Harris, and G.F. Fries|Estrogenic Activity of o,p'-DDT in the Mammalian Uterus and Avian Oviduct|Science162:371-372|1968|10.1126/science.162.3851.371
35863|T||Black.W.D., R.B. Talbot, and A.E. Wade|A Study of the Effect of Ovex on Parathion and Paraoxon Toxicity in Rats|Toxicol. Appl. Pharmacol.33:393-400|1975|10.1016/0041-008X(75)90066-6
35864|T||Black.W.D., A.E. Wade, and R.B. Talbot|A Study of the Effect of Ovex on Parathion Toxicity in Rats|Can. J. Physiol. Pharmacol.51:682-685|1973|10.1139/y73-103
35866|T||Blair,D., E.C. Hoadley, and D.H. Hutson|The Distribution of Dichlorvos in the Tissues of Mammals After Its Inhalation or Intravenous Administration|Toxicol. Appl. Pharmacol.31:243-253|1975|10.1016/0041-008X(75)90160-X
35867|T||Blake,B.|Threats to Birds of the Sea|New Sci.20:210-211|1983|
35868|T||Blakley,B.R.|Lindane Toxicity in Pigeons|Can. Vet. J.23:267-268|1982|
35869|T||Bleavins,M.R., R.J. Aulerich, and R.K. Ringer|Effects of Chronic Dietary Hexachlorobenzene Exposure on the Reproductive Performance and Survivability of Mink and European Ferrets|Arch. Environ. Contam. Toxicol.13:357-365|1984|10.1007/BF01055287
35870|T||Bleavins,M.R., R.J. Aulerich, and R.K. Ringer|Placental and Mammary Transfer of Polychlorinated and Polybrominated Biphenyls in the Mink and Ferret|ASTM Spec. Tech. Publ.:121-131|1981|
35872|T||Blend,M.J., and W.J. Visek|Effects of Low Concentrations of Dieldrin and Chlormadinone Acetate on Canine Prostatic Fluid|Toxicol. Appl. Pharmacol.23(2): 344-348|1972|10.1016/0041-008X(72)90196-2
35875|T||Blincoe,C., V.R. Bohman, and D.D. Smith|The Ingestion of Plutonium and Americum by Range Cattle|Health Phys.41:285-291|1981|10.1097/00004032-198108000-00005
35877|T||Blum,K., C.G. Huizenga, R.S. Ryback, D.K. Johnson, and I. Geller|Toxicity of Diethanolamine in Mice|Toxicol. Appl. Pharmacol.22:175-185|1972|10.1016/0041-008X(72)90166-4
35878|T||Blunt,C.G., and P.J. Saunders|The Distribution, Live Sampling for and Decline of DDT in Steers|Aust. J. Exp. Agric. Anim. Husb.18:335-339|1978|10.1071/EA9780335
35879|T||Blus,L.J.|Short-Tailed Shrews:  Toxicity and Residue Relationships of DDT, Dieldrin, and Endrin|Arch. Environ. Contam. Toxicol.7:83-98|1978|10.1007/BF02332040
35880|T||Blus,L.J.|DDE in Birds' Eggs: Comparison of Two Methods for Estimatingcritical Levels|Wilson Bull.96(2): 268-276|1984|
35882|T||Blus,L.J., C.D. Gish, A.A. Belisle, and R.M. Prouty|Further Analysis of the Logarithmic Relationship of DDE Residues to Eggshell Thinning|Nature240:164-166|1972|10.1038/240164b0
35889|T||Blus,L.J., S.N. Wiemeyer, J.A. Kerwin, R.C. Stendell, H.M. Ohlendorf, and L.F. Stickel|Impact of Estuarine Pollution on Birds|In: Estuarine Pollution Control and Assessment, Proc.of a Conf., U.S.EPA, Washington, DC1:57-71|1977|
35890|T||Bobakova,E., J. Kosutzky, and O. Adamec|Liver Aryl 4-Monooxygenase Activity in the Progeny of Hens Receiving Dietary Polychlorinated Biphenyls|Br. Poult. Sci.21:103-106|1980|10.1080/00071668008416643
35892|T||Bogan,J.A.|Organochlorine Levels in Atlantic Seabirds|Nature240:358-|1972|10.1038/240358a0
35899|T||Bolcsak,L.E., and D.E. Nerland|Inhibition of Erythropoiesis by Benzene and Benzene Metabolites|Toxicol. Appl. Pharmacol.69:363-368|1983|10.1016/0041-008X(83)90259-4
35900|T||Bond,C.A., D.W. Woodham, E.H. Ahrens, and J.G. Medley|The Cumulation and Disappearance of Mirex Residues. II. In Milk and Tissues of Cows Fed Two Concentrations of the Insecticide in Their Diet|Bull. Environ. Contam. Toxicol.14(1): 25-31|1975|10.1007/BF01685593
35901|T||Book,S.A.|Iodine-129 Uptake and Effects of Lifetime Feeding in Rats|Health Phys.45(1): 61-66|1983|10.1097/00004032-198307000-00006
35902|T||Book,S.A.|Scaling Toxicity from Laboratory Animals to People: An Example with Nitrogen Dioxide|J. Toxicol. Environ. Health9:719-725|1982|10.1080/15287398209530199
35903|T||Borchard,R.E., M.E. Welborn, W.B. Wiekhorst, D.W. Wilson, and L.G. Hansen|Pharmacokinetics of Polychlorinated Biphenyl Components in Swine and Sheep After a Single Oral Dose|J. Pharm. Sci.64(8): 1294-1299|1975|10.1002/jps.2600640807
35904|T||Borison,H.L., S.R. Snow, D.S. Longnecker, and R.P.,Jr. Smith|3-Chloro-P-Toluidine:  Effects of Lethal Doses in Rats and Cats|Toxicol. Appl. Pharmacol.31:403-412|1975|10.1016/0041-008X(75)90262-8
35906|T||Borzelleca,J.F., P.S. Larson, E.M. Crawford, G.R.,Jr. Hennigar, E.J. Kuchar, and H.H. Klein|Toxicologic and Metabolic Studies on Pentachloronitrobenzene|Toxicol. Appl. Pharmacol.18:522-534|1971|10.1016/S0041-008X(71)80005-4
35907|T||Bosia,A., O. Brossa, O. Danni, E. Burdino, S. Mina, I. Chiappino, P. Pescarmona, and G. Ugazio|Impairment of Erythropoiesis in Rats Exposed to Environmental Pollutants|Res. Commun. Chem. Pathol. Pharmacol.40(1): 133-139|1983|
35909|T||Botha,D.H., W.F. Ross, H. Van Ark, and F.E. Pick|Residues in Sheep Exposed to BHC Treated Karoo Veld in the Outbreak Region of the Brown Locust [Locustana pardalina (Walker)]|Phytophylactica6:235-248|1974|
35915|T||Bourne,W.R.P.|Toxic Chemicals and Seabirds|Mar. Pollut. Bull.12(4): 105-106|1981|10.1016/0025-326X(81)90417-3
35916|T||Bourne,W.R.P.|Recovery of Guillemot Colonies|Mar. Pollut. Bull.13(12): 435-436|1982|10.1016/0025-326X(82)90022-4
35917|T||Bourne,W.R.P.|The Mass Mortality of Common Murres in the Irish Sea in 1969|J. Wildl. Manag.40 (4):789-792|1976|10.2307/3800577
35918|T||Bourne,W.R.P.|Seabirds and Pollution|In: R.Johnston (Ed.), Marine Pollution, Academic Press, NY:403-502|1976|
35920|T||Bourne,W.R.P., and J.A. Bogan|Organochlorines in Mediterranean Seabirds|Environ. Conserv.7:277-278|1980|10.1017/S0376892900008018
35922|T||Bovard,K.P., J.P. Fontenot, and B.M. Priode|Accumulation and Dissipation of Heptachlor Residues in Fattening Steers|J. Anim. Sci.33(1): 127-132|1971|10.2527/jas1971.331127x
35923|T||Bowen,T.E., and P.W. Waldroup|The Occurrence of a Toe Abnormality in Chicks Fed Propylene Glycol|Poult. Sci.47(3): 1036-|1968|10.3382/ps.0471036
35924|T||Bowens,E.,Jr., J.E. Pearson, and R.L. Williams|Renal Effects of Paraoxon in the Rat|Bull. Environ. Contam. Toxicol.11(4): 343-347|1974|10.1007/BF01684940
35925|T||Bower,C.C., and J. Kaldor|Selectivity of Five Insecticides for Codling Moth Control: Effects on the Twospotted Spider Mite and Its Predators|Environ. Entomol.9:128-132|1980|10.1093/ee/9.1.128
35929|T||Bowman,M.C., D.B. Leuck, J.C. Johnson, and F.E. Knox|Residues of Fenthion in Corn Silage and Effects of Feeding Dairy Cows the Treated Silage|J. Econ. Entomol.63(5): 1523-1528|1970|10.1093/jee/63.5.1523
35931|T||Boyd,E.M., and F.I. Taylor|Toxaphene Toxicity in Protein-Deficient Rats|Toxicol. Appl. Pharmacol.18:158-167|1971|10.1016/0041-008X(71)90325-5
35935|T||Bradway,D.E., T.M. Shafik, and E.M. Lores|Comparison of Cholinesterase Activity, Residue Levels, and Urinary Metabolite Excretion of Rats Exposed to Organophosphorus Pesticides|J. Agric. Food Chem.25(6): 1353-1358|1977|10.1021/jf60214a007
35936|T||Braham,H.W., and C.M. Neal|The Effects of DDT on Energetics of the Short-Tailed Shrew, Blarina brevicauda|Bull. Environ. Contam. Toxicol.12(1): 32-37|1974|10.1007/BF01713023
35937|T||Brake,J., J.F. Ort, T.A. Carter, and W.R. Campbell|Effect of the Insect Growth Regulator CGA-72662 (Larvadex) on Broiler Breeder Production, Hatchability, and Subsequent Chick Performance|Poult. Sci.63(5): 910-916|1984|10.3382/ps.0630910
35938|T||Brandt,I.|Distribution of 2,2',4,4',5,5'-Hexachlorobiphenyl in Mice and Chinese Hamsters:  Dose Dependent Accumulation in the Mouse Bronchial Mucosa|Arch. Toxicol.34:111-119|1975|10.1007/BF00353311
35939|T||Brandt,I., P.G. Hogman, Y. Larsson, and S. Olsson|Tissue Localization of DDT and Two PCB Isomers (Octa- and Tetra-Chlorobiphenyl) in Laying Quails|Acta Vet. Scand.19:368-376|1978|10.1186/BF03547606
35944|T||Braunberg,R.C., R.E. Dailey, E.A. Brouwer, L. Kasza, and A.M. Blaschka|Acute, Subacute, and Residual Effects of Polychlorinated Biphenyl (PCB) in Rats. 1. Biologic Half-Life in Adipose Tissue|J. Toxicol. Environ. Health1:683-688|1976|10.1080/15287397609529368
35945|T||Braund,D.G., L.D. Brown, J.T. Huber, N.C. Leeling, and M.J. Zabik|Effect of Stage of Gestation During Contamination on Storageand Excretion of Dieldrin by Dairy Heifers|J. Dairy Sci.52(12): 1988-1997|1969|10.3168/jds.S0022-0302(69)86884-0
35946|T||Braund,D.G., L.D. Brown, J.T. Huber, N.C. Leeling, and M.J. Zabik|Excretion and Storage of Dieldrin in Dairy Cows fed Thyroprotein and Different Levels of Energy|J. Dairy Sci.52(2): 172-182|1969|10.3168/jds.S0022-0302(69)86526-4
35947|T||Braund,D.G., B.E. Langlois, D.J. Conner, and E.E. Moore|Feeding Phenobarbital and Activated Carbon to Accelerate Dieldrin Residue Removal in A Contaminated Dairy Herd|J. Dairy Sci.54(3): 435-438|1971|10.3168/jds.S0022-0302(71)85861-7
35948|T||Braverman,Y.|Experiments on Direct and Secondary Poisoning by Fluoroacetamide (1081) in Wildlife and Domestic Carnivores|J. Wildl. Dis.15:319-325|1979|10.7589/0090-3558-15.2.319
35950|T||Breeden,G.C., E.C. Turner, W.L. Beane, R.W. Miller, and L.C. Pickens|The Effect of Methoprene as a Feed Additive on House Fly Emergence in Poultry Houses|Poult. Sci.60:556-562|1981|10.3382/ps.0600556
35951|T||Breslin,W.J., M.R. Bleavins, and R.K. Ringer|Distribution and Excretion of Hexachlorobenzene in Bobwhite (Colinus virginianus)|J. Toxicol. Environ. Health11:885-896|1983|10.1080/15287398309530392
35952|T||Brett,L.P., W.G. Hankins, and J. Garcia|Prey-Lithium Aversions. 3: Buteo Hawks|Behav. Biol.17:87-98|1976|10.1016/S0091-6773(76)90302-3
35954|T||Bridger,M.A., and J.P. Thaxton|Humoral Immunity in the Chicken as Affected by Mercury|Arch. Environ. Contam. Toxicol.12:45-49|1983|10.1007/BF01055000
35956|T||Briggs,D.M., and J.R. Harris|Polychlorinated Biphenyls Influence on Hatchability|Poult. Sci.52:1291-1294|1973|10.3382/ps.0521291
35957|AT||Briggs,G.G., and K.A. Lord|The Distribution of Aldicarb and Its Metabolites Between Lumbricus terrestris, Water and Soil|Pestic. Sci.14:412-416|1983|10.1002/ps.2780140410
35958|T||Brinsfield,T.H., M.V. Clark, E.H. Dolnick, and P.J. Reynolds|Cytoplasmic Degeneration in the Wool Follicle Bulb Followingadministration of Cyclophosphamide|J. Anim. Sci.34(2): 273-277|1972|10.2527/jas1972.342273x
35959|T||Britton,W.M.|Toxicity of high Dietary Levels of DDT in Laying Hens|Bull. Environ. Contam. Toxicol.13(6): 703-706|1975|10.1007/BF01721940
35960|T||Britton,W.M.|Influence of high Levels of DDT in the Diet on Liver Microsomal Estrogen Metabolism in the Laying Hen|Bull. Environ. Contam. Toxicol.13(6): 698-702|1975|10.1007/BF01721939
35961|T||Britton,W.M.|Effect of DDT on Liver Microsomal Estrogen Metabolism in the Laying Hen|Poult. Sci.49(5): 1371-1372|1970|
35962|T||Britton,W.M., and O.W. Charles|The Influence of Dietary PCB on the PCB Content of Carcass Lipid in Broiler Chickens|Poult. Sci.53:1892-1893|1974|10.3382/ps.0531892
35963|T||Britton,W.M., and T.M. Huston|Influence of Polychlorinated Biphenyls in the Laying Hen|Poult. Sci.52:1620-1624|1973|10.3382/ps.0521620
35964|T||Britton,W.M., M.B. Palmer, and B.,Jr. Howarth|Fertility, Hatchability and Progeny Performance of Laying Hens Fed High Levels of DDT in the Diet|Poult. Sci.53:1053-1055|1974|10.3382/ps.0531053
35965|T||Broadbent,A.B., and D.J. Pree|Effects of Diflubenzuron and BAY SIR 8514 on Beneficial Insects Associated with Peach|Environ. Entomol.13:133-136|1984|10.1093/ee/13.1.133
35966|T||Broadbent,A.B., and A.D. Tomlin|Comparison of Two Methods for Assessing the Effects of Carbofuran on Soil Animal Decomposers in Cornfields|Environ. Entomol.11:1036-1042|1982|10.1093/ee/11.5.1036
35968|T||Bromenshenk,J.J.|Investigation of the Impact of Coal-Fired Power Plant Emissions upon Insects: Entomolgical Studies at the Zonal Air Pollution System|In: EPA 600/3-78-021,3rd Interim Report, E.M.Preston and R.A.Lewis (Eds) Bioenvironmental Impact of a Coal-Fired Power Plant.3rd Interim Report, Colstrip, MT, U.S.EPA, Corvallis OR:|1978|
35970|T||Brouwer,A., and K.J. Van den Berg|Early and Differential Decrease in Natural Retinoid Levels in C57BL/Rij and DBA/2 Mice by 3,4,3',4'-Tetrachlorobiphenyl|Toxicol. Appl. Pharmacol.73:204-209|1984|10.1016/0041-008X(84)90325-9
35971|T||Brown,D., K.R. Butterworth, I.F. Gaunt, and P.G. Grasso|Short-Term Oral Toxicity Study of Diethyl Phthalate in the Rat|Food Cosmet. Toxicol.16:415-422|1978|10.1016/S0015-6264(78)80258-2
35973|T||Brown,D.L.|The Helinet:  A Device for Capturing Prairie Chickens and Ring-Necked Pheasants|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies35:92-96|1981|
35975|T||Brown,K.C., J.H. Lawton, and S.W. Shires|Effects of Insecticides on Invertebrate Predators and Their Cereal Aphid (Hemiptera: Aphididae) Prey: Laboratory Experiments|Environ. Entomol.12:1747-1750|1983|10.1093/ee/12.6.1747
35978|T||Bruckner,J.V., and W.L. Guess|Morphological Skin Reactions to 2-Chloroethanol|Toxicol. Appl. Pharmacol.22:29-44|1972|10.1016/0041-008X(72)90222-0
35979|T||Bruckner,J.V., K.L. Khanna, and H.H. Cornish|Biological Responses of the Rat to Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.24:434-448|1973|10.1016/0041-008X(73)90050-1
35980|T||Bruckner,J.V., K.L. Khanna, and H.H. Cornish|Polychlorinated Biphenyl-Induced Alteration of Biologic Parameters in the Rat|Toxicol. Appl. Pharmacol.28:189-199|1974|10.1016/0041-008X(74)90004-0
35982|T||Bruggers,R.L., M.M. Jaeger, J.O. Keith, P.L. Hegdal, J.B. Bourassa, A.A. Latigo, and J.N. Gillis|Impact of Fenthion on Nontarget Birds During Quelea Control in Kenya|Wildl. Soc. Bull.17:149-160|1989|
35984|T||Brunstrom,B., P.O. Darnerud, I. Brandt, and J. Orberg|Distribution, Metabolism and Toxicity of 2,2',4,5'-Tetrachlorobiphenyl After Injection into the Yolk of Embryonated Hens' Eggs|Ambio11(4): 212-214|1982|
35985|T||Brunstrom,B., and J. Orberg|A Method for Studying Embryotoxicity of Lipophilic Substances Experimentally Introduced into Hens' Eggs|Ambio11(4): 209-211|1982|
35986|T||Brust,R.A., S. Miyazaki, and G.C. Hodgson|Effect of Dursban in the Drinking Water of Chicks|J. Econ. Entomol.64(5): 1179-1183|1971|10.1093/jee/64.5.1179
35988|T||Buckner,C.H., and B.B. McLeod|Impact of Experimental Spruce Budworm (Choristoneura fumiferana Clemens) Suppression Trials upon Forest Dwelling Birds in Newfoundland in 1977|Report FPM-X-9, Forest Pest Management Institute, Canadian Forestry Service, Sault Ste. Marie, Ontario, Canada:80 p.|1977|
35989|AT||Buckner,C.H., and B.B. McLeod|Impact of Aerial Applications of Orthene upon Non-Target Organisms|Information Report CC-X-104, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:48 p.|1975|
35992|T||Buckner,C.H., B.B. McLeod, and R.G. Lidstone|Environmental Impact Studies of Spruce Budworm (Choristoneura Fumiferana Clemens) Control Programmes in New Brunswick In1976|Chemical Control Research Institute, Environmental Management Service, Ottawa, Ontario:|1976|
35993|AT||Buckner,C.H., and R. Sarrazin|Studies of the Environmental Impact of the 1974 Spruce Budworm Control Operaton in Quebec|Information Report CC-X-93, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:103 p.|1975|
35994|T||Buckpitt,A.R., C.N. Statham, and M.R. Boyd|In Vivo Studies on the Target Tissue Metabolism, Covalent Binding, Glutathione Depletion, and Toxicity of 4-Ipomeanol in Birds, Species Deficient in Pulmonary Enzymes for Metabolic Activation|Toxicol. Appl. Pharmacol.65:38-52|1982|10.1016/0041-008X(82)90360-X
35995|T||Budny,J.A.|Metabolism and Blood Pressure Effects of Disodium Nitrilotriacetate (Na2NTA) in Dogs|Toxicol. Appl. Pharmacol.22:655-660|1972|10.1016/0041-008X(72)90293-1
35996|T||Budreau,C.H., and R.P. Singh|Teratogenicity and Embryotoxicity of Demeton and Fenthion in CF-1 Mouse Embryos|Toxicol. Appl. Pharmacol.24:324-332|1973|10.1016/0041-008X(73)90152-X
35997|T||Budreau,C.H., and R.P. Singh|Effect of Fenthion and Dimethoate on Reproduction in the Mouse|Toxicol. Appl. Pharmacol.26:29-38|1973|10.1016/0041-008X(73)90082-3
35999|T||Bull,D.L.|Metabolism of Organophosphorus Insecticides in Animals and Plants|In: Gunther,F.A.and Gunther,J.D., Residue Reviews, Springer Verlag,Ny, Res.Rev.43:1-22|1972|
36002|T||Bull,R.J.|Delayed Metabolic Maturation of the Cerebral Cortex of Rat Pups Derived from Lead-Treated Dams|J. Toxicol. Environ. Health11:211-225|1983|10.1080/15287398309530336
36004|T||Bungay,P.M., R.L. Dedrick, and H.B. Matthews|Enteric Transport of Chlordecone (Kepone) in the Rat|J. Pharmacokinet. Biopharm.9(3): 309-341|1981|10.1007/BF01059269
36005|T||Bunner,B.L., and D.A. Creasia|Toxicity, Tissue Distribution, and Excretion of Benzyl Chloride in the Rat|J. Toxicol. Environ. Health10:837-846|1982|10.1080/15287398209530298
36006|T||Bunyan,P.J., J. Davidson, and M.J. Shorthill|Hepatic Glucose-6-Phosphate Dehydrogenase and 6-Phosphogluconate Dehydrogenase Levels in Japanese Quail Following the Ingestion of P,P'-DDT and Related Compounds|Chem.-Biol. Interact.2:175-182|1970|10.1016/0009-2797(70)90020-7
36007|T||Bunyan,P.J., M.R. Dilloway, and P.I. Stanley|The Excretion of Activity Following the Administration of 1,1-Di(4-Chlorophenyl)-2-Chloroethylene-Ring-UL-14C(14C-DDMU) to Japanese Quail|Bull. Environ. Contam. Toxicol.18(6): 758-765|1977|10.1007/BF01691989
36008|T||Bunyan,P.J., and J.M.J. Page|Polychlorinated Biphenyls.  The Effect of Structure on the Induction of Quail Hepatic Microsomal Enzymes|Toxicol. Appl. Pharmacol.43:507-518|1978|10.1016/S0041-008X(78)80010-6
36009|T||Bunyan,P.J., and J.M.J. Page|Pesticide-Induced Changes in Hepatic Microsomal Enzyme Systems.  Some Effects of 1,1-Di(p-Chlorophenyl)-2,2-Dichloroethylene (DDE) and 1,1-Di(p-Chlorophenyl)-2-Chloroethylene (DDMU) in the Rat and Japanese Quail|Chem.-Biol. Interact.6:249-257|1973|10.1016/0009-2797(73)90052-5
36010|T||Bunyan,P.J., and P.I. Stanley|Toxic Mechanisms in Wildlife|Regul. Toxicol. Pharmacol.2:106-145|1982|10.1016/0273-2300(82)90023-X
36011|T||Bunyan,P.J., M.G. Townsend, and A. Taylor|Pesticide-Induced Changes in Hepatic Microsomal Enzyme Systems. Some Effects of 1,1-Di(p-Chlorophenyl)-2,2,2-Trichloroethane (DDT) and 1,1-Di(p-Chlorophenyl)-2,2-Dichloroethylene (DDE) in the Rat and Japanese Quail|Chem.-Biol. Interact.5:13-26|1972|10.1016/0009-2797(72)90043-9
36012|T||Burditt,S.J., W.M. Hagler, J.E. Hutchins, and P.B. Hamilton|Models of Feed Refusal Syndrome in Poultry|Poult. Sci.62:2158-2163|1983|10.3382/ps.0622158
36013|T||Burgett,M., and G. Fisher|The Contamination of Foraging Honey Bees and Pollen with Penncap-M|Am. Bee J.117:626-627|1977|
36014|T||Burgett,M., and G.C. Fisher|Recovery of Penncap-M from Foraging Honey Bees and Pollen Storage Cells|Environ. Entomol.9:430-431|1980|10.1093/ee/9.4.430
36017|T||Burrage,R.H., and J.G. Saha|Insecticide Residues in Pheasants After Being Fed on Wheat Seed Treated with Heptachlor and 14C-Lindane|J. Econ. Entomol.65(4): 1013-1017|1972|10.1093/jee/65.4.1013
36018|T||Burrows,G.E., and R.E. Borchard|Experimental Lead Toxicosis in Ponies: Comparison of the Effects of Smelter Effluent-Contaminated Hay and Lead Acetate|Am. J. Vet. Res.43(12): 2129-2133|1982|
36019|T||Burse,V.W., R.D. Kimbrough, E.C. Villanueva, R.W. Jennings, R.E. Linder, and G.W. Sovocool|Polychlorinated Biphenyls: Storage, Distribution, Excretion, and Recovery: Liver Morphology After Prolonged Dietary Ingestion|Arch. Environ. Health29:301-307|1974|10.1080/00039896.1974.10666603
36024|T||Bursian,S., C. Flaga, and R. Ringer|The Injection of the Delayed Neurotoxin Tri-O-Tolyl Phosphate into Embryonating Chicken Eggs and Its Effect on Subsequent Chick Development|J. Toxicol. Environ. Health10:101-109|1982|10.1080/15287398209530234
36025|T||Bursian,S.J., J.S. Brewster, and R.K. Ringer|Differential Sensitivity to the Delayed Neurotoxin Tri-O-Tolyl Phosphate in Several Avian Species|J. Toxicol. Environ. Health11:907-916|1983|10.1080/15287398309530394
36026|T||Bursian,S.J., D. Polin, B.A. Olson, L.R. Shull, H.L. Marks, and H.S. Siegel|Microsomal Enzyme Induction, Egg Production, and Reproduction in Three Lines of Japanese Quail fed Polybrominated Biphenyls|J. Toxicol. Environ. Health12:291-307|1983|10.1080/15287398309530427
36027|T||Bus,J.S., and J.E. Gibson|Postnatal Toxicity of Chronically Administered Paraquat in Mice and Interactions with Oxygen and Bromobenzene|Toxicol. Appl. Pharmacol.33(3): 461-470|1975|10.1016/0041-008X(75)90072-1
36028|T||Bus,J.S., M.M. Preache, S.Z. Cagen, H.S. Posner, B.C. Eliason, C.W. Sharp, and J.E. Gibson|Fetal Toxicity and Distribution of Paraquat and Diquat in Mice and Rats|Toxicol. Appl. Pharmacol.33:450-460|1975|10.1016/0041-008X(75)90071-X
36029|T||Bus,J.S., S.D. Aust, and J.E. Gibson|Lipid Peroxidation: A Possible Mechanism for Paraquat Toxicity|Res. Commun. Chem. Pathol. Pharmacol.11(1): 31-38|1975|
36030|T||Busbee,E.L.|The Effects of Dieldrin on the Behavior of Young Loggerhead Shrikes|Auk94(1): 28-35|1977|
36031|T||Busby,D.G., P.A. Pearce, and N.R. Garrity|Brain ChE Response in Forest Songbirds Exposed to Aerial Spraying of Aminocarb and Possible Influence of Application Methodology and Insecticide Formulation|Bull. Environ. Contam. Toxicol.31:125-131|1983|10.1007/BF01607882
36032|T||Busby,D.G., P.A. Pearce, and N.R. Garrity|Brain Cholinesterase Inhibition in Forest Passerines Exposed to Experimental Aminocarb Spraying|Bull. Environ. Contam. Toxicol.28:225-229|1982|10.1007/BF01608580
36034|T||Bush,B., C.F. Tumasonis, and F.D. Baker|Toxicity and Persistence of PCB Homologs and Isomers in the Avian System|Arch. Environ. Contam. Toxicol.2(3): 195-212|1974|10.1007/BF01956169
36035|T||Bush,P.B., J.T. Kiker, R.K. Page, N.H. Booth, and O.J. Fletcher|Effects of Graded Levels of Toxaphene on Poultry Residue Accumulation, Egg Production, Shell Quality, and Hatachbility in White Leghorns|J. Agric. Food Chem.25(4): 928-932|1977|10.1021/jf60212a005
36036|T||Bush,P.B., M. Tanner, J.T. Kiker, R.K. Page, N.H. Booth, and O.J. Fletcher|Tissue Residue Studies on Toxaphene in Broiler Chickens|J. Agric. Food Chem.26(1): 126-130|1978|10.1021/jf60215a064
36037|T||Busse,H.|Statistical Aspects of LD50|In: Hunter,W.J.and Morris,C.(Eds).Quality Assurance of Toxicological Data: Proceedings of the International Colloquium, Luxembourg, NTIS, Washington D.C.:12-|1979|
36038|T||Butler,R.G., and P. Lukasiewicz|A Field Study of the Effect of Crude Oil on Herring Gull (Larus argentatus) Chick Growth|Auk96:809-811|1979|
36039|T||Butt,K.M.|The Use of Bromocyclen for the Control of the Cat Flea (Ctenocephalides Felis)|Vet. Rec.88:253-254|1971|10.1136/vr.88.10.253
36040|T||Buys,S.B., and R.W. Rasmussen|Heat Stress Mortality in Nicarbazine fed Chickens|J. S. Afr. Vet. Assoc.49 (2):127-128|1978|
36041|T||Byard,J.L., U.C. Koepke, R. Abraham, L. Golberg, and F. Coulston|Biochemical Changes in the Liver of Mice Fed Mirex|Toxicol. Appl. Pharmacol.33:70-77|1975|10.1016/0041-008X(75)90245-8
36042|T||Byers,R.E.|A Rapid Method for Assessing Pine Vole Control in Orchards|Hortscience10(4): 391-392|1975|10.21273/HORTSCI.10.4.391
36043|T||Byers,R.E., and R.S. Young|Pine Vole Control with Anticoagulant Baits|J. Am. Soc. Hortic. Sci.100(6): 691-694|1975|10.21273/JASHS.100.6.691
36044|T||Byrd,R.A., C.A. Kimmel, M.D. Morris, J.F. Holson, and J.F. Young|Altered Pattern of Prenatal Toxicity in Rats Due to Different Treatment Schedules with Mirex|Toxicol. Appl. Pharmacol.60:213-219|1981|10.1016/0041-008X(91)90225-4
36047|T||Cagen,S.Z., and J.E. Gibson|Ouabain Lethality as a Measure of Biliary Function in Developing Mice and Rats and Effect of Polybrominated Biphenyls|Toxicol. Appl. Pharmacol.40:327-334|1977|10.1016/0041-008X(77)90104-1
36050|T||Cain,B.W., and E.A. Pafford|Effects of Dietary Nickel on Survival and Growth of Mallard Ducklings|Arch. Environ. Contam. Toxicol.10(6): 737-745|1981|10.1007/BF01054857
36054|T||Call,D.J., Y.A. Greichus, and J.J. Worman|A Gas Chromatographic-Mass Spectrometric Comparison of Polychlorinated Biphenyl Residues in the Japanese Quail Brain to an Aroclor Standard|Bull. Environ. Contam. Toxicol.11(4): 333-338|1974|10.1007/BF01684938
36055|T||Call,J.W., C.A.V. Barker, and J.N. Cummings|The Effects of I.C.I. Compound 33828 (Methallibure) on the Testicular Development and Health of Immature Boars|Can. Vet. J.10(10): 263-267|1969|
36056|T||Callear,J.F.F., and J.F.E. Van Gestel|An Ananlysis of the Results of Field Experiments in Pigs in the UK and Ireland with the Sedative Neuroleptic Azaperone|Vet. Rec.89:453-458|1971|10.1136/vr.89.17.453
36059|T||Campbell,B., K. Newcomb, and J. Guerrero|Evaluation of the Safety of Flubendazole Premix in Swine|Am. J. Vet. Res.44(3): 486-489|1983|
36060|T||Campbell,J.K., and C.F. Mills|The Toxicity of Zinc to Pregnant Sheep|Environ. Res.20(1): 1-13|1979|10.1016/0013-9351(79)90080-X
36062|T||Campbell,L.H.|The Impact of Changes in Sewage Treatment on Seaducks Wintering in the Firth of Forth, Scotland|Biol. Conserv.28:173-180|1984|10.1016/0006-3207(84)90034-X
36063|T||Campbell,L.H., K.T. Standring, and C.J. Cadbury|Firth of Forth Oil Pollution Incident, February 1978|Mar. Pollut. Bull.9:335-339|1978|10.1016/0025-326X(78)90244-8
36064|T||Cantor,A.H.|Effect of Dietary Selenium on the Concentration of Selenium in Turkey Eggs|Poult. Sci.60:1094-1096|1981|10.3382/ps.0601094
36067|T||Carevic,O., V. Prpic, and V. Sverko|Correlation Between Erythromycin and Acid Phosphatase in Mouse Liver|Biochim. Biophys. Acta381:269-277|1975|10.1016/0304-4165(75)90233-0
36068|T||Carew,L.B., and D.C. Foss|Monosodium Glutamate in Chicks|Poult. Sci.50:1501-1502|1971|10.3382/ps.0501501
36069|T||Carlson,D.A., W.A. Banks, and D.P. Wojcik|Distortion of Mirex Residues in Insects Owing to use of Isopropyl Alcohol as a Collection Solvent|Bull. Environ. Contam. Toxicol.9(6): 365-369|1973|10.1007/BF01685088
36072|T||Carlson,G.P., and G.P. Schoenig|Induction of Liver Microsomal NADPH Cytochrome C Reductase and Cytrochrome P-450 by Some New Synthetic Pyrethroids|Toxicol. Appl. Pharmacol.52:507-512|1980|10.1016/0041-008X(80)90345-2
36073|T||Carlson,R.W., and R.T. Duby|Embryotoxic Effects of Three PCB's in the Chicken|Bull. Environ. Contam. Toxicol.9(5): 261-270|1973|10.1007/BF01684780
36075|T||Carlton,W.W., and J.R. Welser|Glomerular Lesions Induced in Pekin Ducks by Dietary Administration of Dimethylnitrosamine|Toxicol. Appl. Pharmacol.13(3): 404-411|1968|10.1016/0041-008X(68)90116-6
36077|T||Carnio,J.S., and D.J. McQueen|Adverse Effects of 15 ppm of p,p'-DDT on Three Generations of Japanese Quail|Can. J. Zool.51:1307-1312|1973|10.1139/z73-185
36080|T||Carpenter,L.H., and W.R. Lance|Approved Use of Etorphine (M99) in North American Big Game Animals|Final Report, U.S.Fish and Wildlife Service, DC:25 p.|1983|
36081|T||Carson,T.L., G.A. Van Gelder, W.B. Buck, L.J. Hoffman, D.L. Mick, and K.R. Long|Effects of Low Level Lead Ingestion in Sheep|Clin. Toxicol.6(3): 389-403|1973|10.3109/15563657308990539
36083|T||Carter,J.W.|Onset of Hepatomegaly in PCB (Aroclor 1254)-Treated Rats|Bull. Environ. Contam. Toxicol.31:183-187|1983|10.1007/BF01607891
36084|T||Carter,J.W.|Hypercholesterolemia Induced by Dietary PCBs (Aroclor 1254) in Fischer Rats|Bull. Environ. Contam. Toxicol.33:78-83|1984|10.1007/BF01625514
36085|T||Carter,J.W., and L.P. Mercer|Pair-Feeding Study of PCB (Aroclor 1254) Toxicity in Rats|Bull. Environ. Contam. Toxicol.31:686-691|1983|10.1007/BF01606046
36086|T||Carter,N.E., and N.R. Brown|Seasonal Abundance of Certain Soil Arthropods in a Fenitrothion-Treated Red Spruce Stand|Can. Entomol.105:1065-1073|1973|10.4039/Ent1051065-8
36087|T||Carter,S.D., J.F. Hein, G.L. Rehnberg, and J.W. Laskey|Effect of Benomyl on the Reproductive Development of Male Rats|J. Toxicol. Environ. Health13:53-68|1984|10.1080/15287398409530481
36088|T||Casale,G.P., S.D. Cohen, and R.A. DiCapua|The Effects of Organophosphate-Induced Cholinergic Stimulation on the Antibody Response to Sheep Erythrocytes in Inbred Mice|Toxicol. Appl. Pharmacol.68(2): 198-205|1983|10.1016/0041-008X(83)90004-2
36095|T||Casterline,J.L.,Jr., R.E. Brodie, and T.J. Sobotka|Effect of Banol and Parathion on Operant Learning Behavior of Rats Fed Adequate and Inadequate Casein Diets|Bull. Environ. Contam. Toxicol.6(4): 297-303|1971|10.1007/BF01539993
36097|T||Casterline,J.L., C.H. Williams, J.E. Keys, and M.J. Taylor|The Effect of 28-Day Pesticide Feeding on Serum and Tissue Enzyme Activities of Rats Fed Diets of Varying Casein Content|Toxicol. Appl. Pharmacol.18:607-618|1971|10.1016/S0041-008X(71)80015-7
36099|T||Cavanaugh,K.P., and W.N. Holmes|Effects of Ingested Petroleum on Plasma Levels of Ovarian Steroid Hormones in Photostimulated Mallard Ducks|Arch. Environ. Contam. Toxicol.11(4): 503-508|1982|10.1007/BF01056079
36100|T||Cavanaugh,K.P., A.R. Goldsmith, W.N. Holmes, and B.K. Follett|Effects of Ingested Petroleum on the Plasma Prolactin Levels During Incubation and on the Breeding Success of Paired Mallard Ducks|Arch. Environ. Contam. Toxicol.12:335-341|1983|10.1007/BF01059411
36103|T||Cecil,H.C., and J. Bitman|Toxicity of Polybrominated Biphenyl and Its Effects on Reproduction of White Leghorn Hens|Poult. Sci.57(4): 1027-1036|1978|10.3382/ps.0571027
36104|T||Cecil,H.C., J. Bitman, G.F. Fries, S.J. Harris, and R.J. Lillie|Changes in Egg Shell Quality and Pesticide Content of Laying Hens or Pullets Fed DDT in high or Low Calcium Diets|Poult. Sci.52:648-653|1973|10.3382/ps.0520648
36105|T||Cecil,H.C., J. Bitman, and S.J. Harris|Effects of Dietary p,p'-DDT and p,p'-DDE on Egg Production and Egg Shell Characteristics of Japanese Quail Receiving an Adequate Calcium Diet|Poult. Sci.50(2): 657-659|1971|10.3382/ps.0500657
36107|T||Cecil,H.C., J. Bitman, R.J. Lillie, G.F. Fries, and J. Verrett|Embryotoxic and Teratogenic Effects in Unhatched Fertile Eggs from Hens Fed Polychlorinated Biphenyls (PCBs)|Bull. Environ. Contam. Toxicol.11(6): 489-495|1974|10.1007/BF01685002
36108|T||Cecil,H.C., G.F. Fries, J. Bitman, S.J. Harris, R.J. Lillie, and C.A. Denton|Dietary p,p'-DDT, o,p'-DDT or p,p'-DDE and Changes in Egg Shell Characteristics and Pesticide Accumulation in Egg Contents and Body Fat of Caged White Leghorns|Poult. Sci.51:130-139|1972|10.3382/ps.0510130
36109|T||Cecil,H.C., S.J. Harris, and J. Bitman|Effects of Polychlorinated Biphenyls and Terphenyls and Polybrominated Biphenyls on Pentobarbital Sleeping Times of Japanese Quail|Arch. Environ. Contam. Toxicol.3(2): 183-192|1975|10.1007/BF02220787
36111|T||Cecil,H.C., S.J. Harris, and J. Bitman|Liver Mixed Function Oxidases in Chickens: Induction by Polychlorinated Biphenyls and Lack of Induction by DDT|Arch. Environ. Contam. Toxicol.7:283-290|1978|10.1007/BF02332056
36112|T||Cecil,H.C., R.W. Miller, and C. Corley|Feeding Three Insect Growth Regulators to White Leghorn Hens:  Residues in Eggs and Tissues and Effects on Production and Reproduction|Poult. Sci.60(9): 2017-2027|1981|10.3382/ps.0602017
36113|T||Chadwick,R.W., L.T. Chuang, and K. Williams|Dehydrogenation:  A Previously Unreported Pathway of Lindane Metabolism in Mammals|Pestic. Biochem. Physiol.5:575-586|1975|10.1016/0048-3575(75)90033-4
36114|T||Chadwick,R.W., M.F. Copeland, and C.J. Chadwick|Enhanced Pesticide Metabolism, a Previously Unreported Effect of Dietary Fibre in Mammals|Food Cosmet. Toxicol.16:217-225|1978|10.1016/S0015-6264(76)80517-2
36116|T||Chadwick,R.W., M.F. Copeland, S.A. Soliman, R. Froehlich, J.D. Perry, J.D. Farmer, and R.R. Watts|Comparative Disposition of Leptophos in the Rat and Chicken 24 Hours after a Single Oral or IV Dose|Vet. Hum. Toxicol.24(3): 219-|1982|
36119|T||Chadwick,R.W., and J.J. Freal|The Identification of Five Unreported Lindane Metabolites Recovered from Rat Urine|Bull. Environ. Contam. Toxicol.7(2-3): 137-146|1972|10.1007/BF01684805
36121|T||Chalmers,K.|Evaluation of the Efficacy of the Anthelmintic Oxfendazole Against Artificial Infections of Gastrointestinal Nematodes in Sheep and Cattle|N. Z. J. Exp. Agric.7:111-114|1979|10.1080/03015521.1979.10426174
36122|T||Chamberlain,W.F., L.M. Hunt, D.E. Hopkins, A.R. Gingrich, J.A. Miller, and B.N. Gilbert|Absorption, Excretion, and Metabolism of Methoprene by a Guinea Pig, a Steer, and a Cow|J. Agric. Food Chem.23(4): 736-742|1975|10.1021/jf60200a031
36123|T||Chandra,S.V., and G.S. Shukla|Role of Iron Deficiency in Inducing Susceptibility to Manganese Toxicity|Arch. Toxicol.35:319-323|1976|10.1007/BF00570272
36129|T||Chasko,G.G., T.R. Hoehn, and P. Howell-Heller|Toxicity of Lead Shot to Wild Black Ducks and Mallards fed Natural Foods|Bull. Environ. Contam. Toxicol.32(4): 417-428|1984|10.1007/BF01607518
36133|T||Cherian,M.G.|Absorption and Tissue Distribution of Cadmium in Mice After Chronic Feeding With Cadmium Chloride and Cadmium-Metallothionein|Bull. Environ. Contam. Toxicol.30:33-36|1983|10.1007/BF01610095
36135|T||Chertok,R.J., and S. Lake|Fate of Fallout Ingested by Swine and Beagles; In: Benson,D.W. and Sparrow,A.H. (Eds) Survival of Food Crops and Livestock in the Event of Nuclear War. Proc. of A Symposium Held Atbrookhaven National Laboratory, Upton N|U.S.Atomic Energy Commission, Office of Information Services:125-130|1971|
36136|T||Chesney,C.F., and J.R. Allen|Oxidative Phosphorylation and Respiration by Liver Mitochondria from Polychlorinated Biphenyl-intoxicated Rats|Biochem. Pharmacol.23:1577-1582|1974|10.1016/0006-2952(74)90369-4
36140|T||Chi,M.S., and C.J. Mirocha|Necrotic Oral Lesions in Chickens fed Diacetoxyscirpenol, T-2 Toxin, and Crotocin|Poult. Sci.57:807-808|1978|10.3382/ps.0570807
36141|T||Chi,M.S., T.S. Robison, C.J. Mirocha, and K.R. Reddy|Acute Toxicity of 12,13-Epoxytrichothecenes in One-Day-Old Broiler Chicks|Appl. Environ. Microbiol.35(4): 636-640|1978|10.1128/aem.35.4.636-640.1978
36142|T||Chi,M.S., C.J. Mirocha, H.J. Kurtz, G.A. Weaver, F. Bates, T. Robison, and W. Shimoda|Effect of Dietary Zearalenone on Growing Broiler Chicks|Poult. Sci.59:531-536|1980|10.3382/ps.0590531
36143|T||Chian,E.S.K., and F.B. Dewalle|Organics|J. Water Pollut. Control Fed.48(6): 1042-1077|1976|
36144|T||Chiasson,R.B., A.S. Egge, and B. Lynch|The Effect of Ketalar on the Adrenal Gland of Young White Leghorn Cockerels|Poult. Sci.52:1014-1018|1973|10.3382/ps.0521014
36146|T||Chio,H., and J.R. Sanborn|The Metabolism of Atrazine, Chloramben, and Dicamba in Earthworms (Lumbricus terrestris) from Treated and Untreated Plots|Weed Sci.26(4): 331-335|1978|10.1017/S0043174500050050
36149|T||Choi,J.H., and I.K. Han|Dietary Interaction of Phosphorus with Sodium from Either Chloride or Bicarbonate Affects Laying Hen Performance|Poult. Sci.62:341-344|1983|10.3382/ps.0620341
36150|T||Cholakis,J.M., M.J. McKee, L.C.K. Wong, and J.D. Gile|Acute and Subacute Toxicity of Pesticides in Microtine Rodents|ASTM Spec. Tech. Publ.757:143-154|1981|
36151|T||Chopade,H.M., and H.B. Matthews|Disposition and Metabolism of 4-Chloro-2-Nitroaniline in the Male F344 Rat|J. Toxicol. Environ. Health12:267-282|1983|10.1080/15287398309530425
36152|T||Choules,G.L., W.C. Russell, and D.A. Gauthier|Duck Mortality from Detergent-Polluted Water|J. Wildl. Manag.42(2): 410-414|1978|10.2307/3800280
36154|T||Chowdhury,P., K. Inoue, L.W. Chang, and P.L. Rayford|Distribution and Retention of Cadmium 109 by the Gastrointestinal Tract and Other Organs Following Intraperitoneal Cadmium Exposure|Bull. Environ. Contam. Toxicol.31:399-406|1983|10.1007/BF01622268
36156|A||Christian,F.A., and T.M. Tate|Toxicity of Fluometuron and Diuron on the Intermediate Snail Host (Lymnea spp.) of Fasciola hepatica|Bull. Environ. Contam. Toxicol.30(5): 628-631|1983|10.1007/BF01610185
36157|T||Christian,J.J.|Love Canal's Unhealthy Voles|Nat.Hist.10:8-16|1983|
36158|T||Christian,R.G., and L. Tryphonas|Lead Poisoning in Cattle: Brain Lesions and Hematologic Changes|Am. J. Vet. Res.32(2): 203-216|1971|
36160|T||Christmas,R.B., and R.H. Harms|The Performance of Laying Hens as Affected by Copper Sulfate and Methionine Level|Poult. Sci.62:389-391|1983|10.3382/ps.0620389
36161|T||Chrzanowski,R.L., and A.G. Jelinek|Metabolism of Phenyl Carbon-14-Labeled O-Ethyl O-(4-Nitrophenyl) Phenylphosphonothioate in the Rat and in Hens at Toxic and Subtoxic Dose Levels|J. Agric. Food Chem.29(3): 580-587|1981|10.1021/jf00105a037
36162|T||Chu,C.K., V.J. Stella, J.V. Bruckner, and W.D. Jiang|Effects of Long-Term Exposure to Environmental Levels of Polychlorinated Biphenyls on Pharmacokinetics of Pentobarbital in Rats|J. Pharm. Sci.66(2): 238-241|1977|10.1002/jps.2600660227
36163|T||Chu,I., V. Secours, D.C. Villeneuve, and A. Viau|Metabolism and Tissue Distribution of (1,4,5,8-14C)-1,2-Dichloronaphthalene in Rats|Bull. Environ. Contam. Toxicol.18(2): 177-183|1977|10.1007/BF01686064
36164|T||Chu,I., V.E. Secours, D.C. Villeneuve, and V.E. Valli|Acute and Subacute Toxicity of Octachlorostyrene in the Rat|J. Toxicol. Environ. Health10:285-296|1982|10.1080/15287398209530251
36166|T||Chu,I., D.C. Villeneuve, G.C. Becking, F. Iverson, L. Ritter, V.E. Valli, and L.M. Reynolds|Short-Term Study of the Combined Effects of Mirex, Photomirex, and Kepone with Halogenated Biphenyls in Rats|J. Toxicol. Environ. Health6:421-432|1980|10.1080/15287398009529861
36167|T||Chu,I., D.C. Villeneuve, V.E. Secours, V.E. Valli, and G.C. Becking|Effects of Photomirex and Mirex on Reproduction in the Rat|Toxicol. Appl. Pharmacol.60:549-556|1981|10.1016/0041-008X(81)90341-0
36170|T||Cibulka,J., and B. Thomas|Ontogenetic Dynamics of Delta-Amino-Laevulinic Acid Dehydratase Activity in Chick Embryo Organs and the Changes in Hepatocytes After Exposure to Lead|Br. Poult. Sci.23:563-568|1982|
36171|T||Cisson,C.M., and B.W. Wilson|Degenerative Changes in Skeletal Muscle of Hens with Tri-Ortho-Cresyl Phosphate-Induced Delayed Neurotoxicity: Altered Acetylcholinesterase Molecular Forms and Increased Plasma Creatine Phosphokinase Activity|Toxicol. Appl. Pharmacol.64:289-305|1982|10.1016/0041-008X(82)90224-1
36172|T||Cisson,C.M., and B.W. Wilson|Percutaneous Toxicity and Delayed Neurotoxicity of Organophosphates in the Scaleless Hen|Toxicol. Appl. Pharmacol.67:310-321|1983|10.1016/0041-008X(83)90314-9
36173|T||Civen,M., C.B. Brown, and R.J. Morin|Effects of Organophosphate Insecticides on Adrenal Cholesteryl Ester and Steroid Metabolism|Biochem. Pharmacol.26:1901-1907|1977|10.1016/0006-2952(77)90164-2
36174|T||Civen,M., J.E. Leeb, R.M. Wishnow, A. Wolfsen, and R.J. Morin|Effects of Low Level Administration of Dichlorvos on Adrenocorticotrophic Hormone Secretion, Adrenal Cholestryl Ester and Steroid Metabolism|Biochem. Pharmacol.29:635-641|1980|10.1016/0006-2952(80)90388-3
36175|T||Claborn,H.V., R.A. Hoffman, H.D. Mann, and D.D. Oehler|Residues of Dursban and Its Oxygen Analog in the Body Tissues of Treated Cattle|J. Econ. Entomol.61(4): 983-986|1968|10.1093/jee/61.4.983
36176|T||Claborn,H.V., R.A. Hoffman, H.D. Mann, and D.D. Oehler|Residues of Stauffer R-3828 and Its Oxygen Analogue in the Body Tissues of Cattle fed R-3828 in the Diet|J. Econ. Entomol.63(5): 1560-1562|1970|10.1093/jee/63.5.1560
36177|T||Claborn,H.V., S.E. Kunz, and H.D. Mann|Residues of Dursban in the Body Tissues of Turkeys Confined in Pens Containing Treated Soil|J. Econ. Entomol.63(2): 422-424|1970|10.1093/jee/63.2.422
36179|T||Clark,L., and P.S. Shah|Nonlethal Bird Repellents:  In Search of a General Model Relating Repellency and Chemical Structure|J. Wildl. Manag.55(3): 538-545|1991|10.2307/3808987
36180|T||Clark,D.E., G.W. Ivie, H.R. Crookshank, J.A. DeVaney, and D.L. Bull|Effects of Sulprofos and Its Sulfoxide and Sulfone Metabolites on Laying Hens fed the Compounds in the Diet|J. Agric. Food Chem.27(1): 103-107|1979|10.1021/jf60221a008
36181|T||Clark,D.E., L.F. Kubena, and R.L. Younger|A Simple, Rapid Fat Biopsy Technique to Monitor Pesticide Residues in Chickens|Poult. Sci.61:1221-1224|1982|10.3382/ps.0611221
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36186|T||Clark,D.R.,Jr., and R.M. Prouty|Disposition of Dietary Dieldrin in the Little Brown Bat and Correlation of Skin Levels with Body Burden|Bull. Environ. Contam. Toxicol.33:177-183|1984|10.1007/BF01625528
36188|T||Clark,R.A.|DDT Contamination of the Sacred Ibis|Ostrich50:134-138|1979|10.1080/00306525.1979.9634104
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36192|T||Clary,J.J.|Nickel Chloride-Induced Metabolic Changes in the Rat and Guinea Pig|Toxicol. Appl. Pharmacol.31(1): 55-65|1975|10.1016/0041-008X(75)90051-4
36194|T||Clausen,J., and G. Konat|Enzymic and Behavioural Changes Induced in Mice fed Polychlorinated Biocides Followed by Starvation|Experientia28(8): 902-903|1972|10.1007/BF01924934
36195|T||Clegg,D.E., and P.R. Martin|Residues of the Carbamate Acaricide, 3-Methyl-5-Isopropylphenyl-N-(N-Butanoyl)-N-Methylcarbamate (Promacyl) and Two Metabolites in the Tissues and Milk of Cattle|Pestic. Sci.4:447-457|1973|10.1002/ps.2780040403
36196|T||Clemens,E.T., L. Krook, A.L. Aronson, and C.E. Stevens|Pathogenesis of Lead Shot Poisoning in the Mallard Duck|Cornell Vet.65:248-285|1975|
36197|T||Clement,J.G., and A.B. Okey|Reproduction in Female Rats Born to DDT-Treated Parents|Bull. Environ. Contam. Toxicol.12(3): 373-377|1974|10.1007/BF01709135
36198|T||Clements,R.O., and J.S. Bale|The Short-Term Effects on Birds and Mammals of the Use of Chlorpyrifos to Control Leatherjackets in Grassland|Ann. Appl. Biol.112:41-47|1988|10.1111/j.1744-7348.1988.tb02039.x
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36202|T||Coan,E.|Oil Pollution|Sierra Club Bull.56(3): 12-16|1971|
36203|T||Coats,J.R., R.L. Metcalf, and I.P. Kapoor|Metabolism of the Methoxychlor Isostere, Dianisylneopentane, in Mouse, Insects, and a Model Ecosystem|Pestic. Biochem. Physiol.4:201-211|1974|10.1016/0048-3575(74)90099-6
36204|T||Cockfield,S.D., and D.A. Potter|Short-Term Effects of Insecticidal Applications on Predaceous Arthropods and Oribatid Mites in Kentucky Bluegrass Turf|Environ. Entomol.12:1260-1264|1983|10.1093/ee/12.4.1260
36206|T||Cohen,S.D., and M. Ehrich|Cholinesterase and Carboxylesterase Inhibition by Dichlorvos and Interactions with Malathion and Triorthotolyl Phosphate|Toxicol. Appl. Pharmacol.37:39-48|1976|10.1016/S0041-008X(76)80006-3
36207|AT||Cohen,S.D., and S.D. Murphy|Comparative Potentiation of Malathion by Triorthotolyl Phosphate in Four Classes of Vertebrates|Toxicol. Appl. Pharmacol.16:701-708|1970|10.1016/0041-008X(70)90075-X
36208|T||Cohen,S.D., and S.D. Murphy|Inactivation of Malaoxon by Mouse Liver|Proc. Soc. Exp. Biol. Med.139(4): 1385-1389|1971|10.3181/00379727-139-36368
36210|T||Collett,J.N., and D.L. Harrison|Lindane Residues on Pasture and in the Fat of Sheep Grazing Pasture Treated with Lindane Prills|N. Z. J. Agric. Res.11:589-600|1968|10.1080/00288233.1968.10422438
36212|T||Collins,T.F.X.|Effect of Captan and Triethylenemelamine (TEM) on Reproductive Fitness of DBA/2J Mice|Toxicol. Appl. Pharmacol.23(2): 277-287|1972|10.1016/0041-008X(72)90191-3
36213|T||Collins,T.F.X., and C.H. Williams|Teratogenic Studies with 2,4,5-T and 2,4-D in the Hamster|Bull. Environ. Contam. Toxicol.6(6): 559-567|1971|10.1007/BF01796866
36214|T||Collison,C.H., R.G. Danka, and D.R. Kennell|An Evaluation of Permethrin, Carbaryl, and Amitraz for the Control of Northern Fowl Mites on Caged Chickens|Poult. Sci.60:1812-1817|1981|10.3382/ps.0601812
36215|T||Colmano,G., and W.B. Gross|Effect of Metyrapone and DDD on Infectious Diseases|Poult. Sci.50(3): 850-854|1971|10.3382/ps.0500850
36216|T||Combs,G.F., R.N. Brewer, N.K. Williams, and R.W. Richburg|Dieldrin Dilution in Visceral Fat of Field-Contaminated Broilers|Poult. Sci.54:1713-1716|1975|10.3382/ps.0541713
36217|T||Combs,G.F.,Jr., A.H. Cantor, and M.L. Scott|Effects of Dietary Polychlorinated Biphenyls on Vitamin E and Selenium Nutrition in the Chick|Poult. Sci.54:1143-1152|1975|10.3382/ps.0541143
36218|T||Combs,G.F.,Jr., and F.J. Peterson|Protection Against Acute Paraquat Toxicity by Dietary Selenium in the Chick|J. Nutr.113:538-545|1983|10.1093/jn/113.3.538
36219|T||Combs,G.F.,Jr., and M.L. Scott|Polychlorinated Biphenyl-Stimulated Selenium Deficiency in the Chick|Poult. Sci.54:1152-1158|1975|10.3382/ps.0541152
36221|T||Confer,A.W., B.C. Ward, and F.A. Hines|Arsanilic Acid Toxicity in Rabbits|Lab. Anim. Sci.30(2,Pt.1): 234-236|1980|
36224|T||Conney,A.H., and J.J. Burns|Metabolic Interactions Among Environmental Chemicals and Drugs|Science178:576-586|1972|10.1126/science.178.4061.576
36226|T||Connolly,G.E., R.E. Griffiths, and P.J. Savarie|Toxic Collar for Control of Sheep-Killing Coyotes|In: W.E.Howard (Ed.), 8th Vertebrate Pest Conf., Mar. 9-11, 1976, Vertebrate Pest Counc., Publ. Univ. of Calif., Davis, CA:197-205|1978|
36227|T||Conover,M.R.|Response of Birds to Different Types of Food Repellents|J. Appl. Ecol.21:437-443|1984|10.2307/2403420
36228|T||Conover,M.R.|Comparative Effectiveness of Avitrol, Exploders, and Hawk-Kites in Reducing Blackbird Damage to Corn|J. Wildl. Manag.48(1): 109-116|1984|10.2307/3808458
36229|T||Conrad,B.|Correlation Between Embryonal Mortality and DDE Contamination in the Sparrow Hawk Accipiter-Nisus|J. Ornithol.119(1): 109-111|1978|10.1007/BF01642976
36235|T||Cook,R.M.|Metabolism of Xenobiotics in Ruminants Dieldrin Recycling from the Blood to the Gasytrointestinal Tract|J. Agric. Food Chem.18(3): 434-436|1970|10.1021/jf60169a042
36236|T||Cook,R.M., L.R. Prewitt, and G.F. Fries|Effects of Activated Carbon, Phenobarbital, and Vitamins A,D, and E on Polybrominated Biphenyl Excretion in Cows|J. Dairy Sci.61:414-419|1978|10.3168/jds.S0022-0302(78)83615-7
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36239|T||Cooke,A.S.|The Action of Sulphanilamide on Shell Deposition|Br. Poult. Sci.19:267-272|1978|10.1080/00071667808416474
36241|T||Cooke,A.S.|The Effect of o,p'-DDT on Japanese Quail|Bull. Environ. Contam. Toxicol.5(2): 152-157|1970|10.1007/BF01617193
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36246|T||Coon,N.C.|Summaries of Selected Studies on Wildlife Pollution. Progress Reports from the Patuxent Wildlife Research Center for the Year 1982|U.S.Fish and Wildlife Service, Patuxent Wildlife Research Center, Laurel, MD:28 p.|1983|
36248|T||Coon,N.C., and M.P. Dieter|Responses of Adult Mallard Ducks to Ingested South Louisiana Crude Oil|Environ. Res.24:309-314|1981|10.1016/0013-9351(81)90160-2
36249|T||Coon,N.C., L.N. Locke, E. Cromartie, and W.L. Reichel|Causes of Bald Eagle Mortality, 1960-1965|J. Wildl. Dis.6:72-76|1970|10.7589/0090-3558-6.1.72
36251|T||Copping,L.G., R.J. Birchmore, K. Wright, and D.H. Godson|Structure-Activity Relationships in a Group of Imidazole-1-Carboxamides|Pestic. Sci.15:280-284|1984|10.1002/ps.2780150310
36252|T||Cornwell,R.L., R.M. Jones, and J.M. Pott|Controlled Anthelmintic Trials in Sheep with A Combination of Morantel and Diethylcarbamazine|Vet. Rec.88:277-283|1971|10.1136/vr.88.11.277
36257|T||Cortesi,R., and O.S. Privett|Toxicity of Fatty Ozonides and Peroxides|Lipids7(11): 715-721|1972|10.1007/BF02533120
36259|T||Cory-Slechta,D.A., and T. Thompson|Behavioral Toxicity of Chronic Postweaning Lead Exposure in the Rat|Toxicol. Appl. Pharmacol.47:151-159|1979|10.1016/0041-008X(79)90082-6
36261|T||Costa,L.G., B.W. Schwab, and S.D. Murphy|Tolerance to Anticholinesterase Compounds in Mammals|Toxicology25:79-97|1982|10.1016/0300-483X(82)90021-X
36262|T||Cottrell,W.O., R.K. Ringer, and J.G. Babish|Acute Toxicity of Dietary Polybrominated Biphenyls in Bobwhite Quail|Bull. Environ. Contam. Toxicol.33:308-312|1984|10.1007/BF01625548
36263|T||Coulson,J.M., R.A. Brown, P.J. Edwards, and F.J. Lewis|The Effects of Tefluthrin on Terrestrial Non-target Organisms|Br. Crop Prot. Conf. Pests Dis.3:975-980|1990|
36265|T||Courtens,J., D. Amir, and J. Duran|Abnormal Spermiogenesis in Bulls Treated with Ethylene Dibromide: An Ultrastructural and Ultracytochemical Study|J. Ultrastruct. Res.71(1): 103-115|1980|10.1016/S0022-5320(80)90099-4
36267|T||Courtney,K.D.|Prenatal Effects of Herbicides:  Evaluation by the Prenatal Development Index|Arch. Environ. Contam. Toxicol.6(1): 33-46|1977|10.1007/BF02097747
36268|T||Courtney,K.D., and J.E. Andrews|Teratogenic Evaluation and Fetal Deposition of Hexabromobenzene (Hbb) and Hexafluorobenzene (Hfb) in Cd-1 Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(1): 83-94|1984|
36269|T||Courtney,K.D., M.F. Copeland, and A. Robbins|The Effects of Pentachloronitrobenzene, Hexachlorobenzene, and Related Compounds on Fetal Development|Toxicol. Appl. Pharmacol.35:239-256|1976|10.1016/0041-008X(76)90285-4
36270|T||Courtney,K.D., and J.A. Moore|Teratology Studies with 2,4,5-Trichlorophenoxyacetic Acid and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.20:396-403|1971|10.1016/0041-008X(71)90282-1
36271|T||Cousins,R.J., A.K. Barber, and J.R. Trout|Cadmium Toxicity in Growing Swine|J. Nutr.103(7): 964-972|1973|10.1093/jn/103.7.964
36272|T||Cowan,M.J., and L.J. Jenkins|Navy Toxicity Study of Shale and Petroleum Jp-5 Aviation Fuel and Diesel Fuel Marine|In: W.H.Griest, M.R.Guerin, and D.L.Coffin (Eds.), Meet.on the Health Effects Investigation of Oil Shale Development, June 23-24, 1980, Gatlinburg, TN, Ann Arbor Sci.Publ., Ann Arbor, MI:129-140|1981|
36273|T||Cox,R.L., and W.T. Wilson|Effects of Permethrin on the Behavior of Individually Tagged Honey Bees, Apis mellifera L. (Hymenoptera:  Apidae)|Environ. Entomol.13:375-378|1984|10.1093/ee/13.2.375
36274|T||Crabtree,H.C., E.A. Lock, and M.S. Rose|Effects of Diquat on the Gastrointestinal Tract of Rats|Toxicol. Appl. Pharmacol.41:585-595|1977|10.1016/S0041-008X(77)80012-4
36275|T||Craig,G.R., and D.M. Ogilvie|Alteration of T-Maze Performance in Mice Exposed to DDT During Pregnancy and Lactation|Environ. Physiol. Biochem.4:189-199|1974|
36278|T||Crampton,E.W.|Husbandry Versus Fluoride Ingestion as Factors in Unsatisfactory Dairy Cow Performance|J. Air Pollut. Control Assoc.18(4): 229-234|1968|10.1080/00022470.1968.10469119
36279|T||Cranmer,J.S., and P.T. Goad|Validation of Selected Behavior Tests for Evaluating Low-Level Toxicity|In: Zbinden,G.et al.(Eds), Application of Behavioral Pharmacology in Toxicology,Raven Press, NY:97-112|1983|
36283|T||Creek,R.D.|The Toxicity of Trimethylene Glycol for the Chick|Poult. Sci.49(6): 1686-1687|1970|10.3382/ps.0491686
36284|T||Creger,C.R., and L.F. Kubena|The Effect of Lipotropic Agents on Depletion of Chlorinated Hydrocarbons from Tissues of Birds|Poult. Sci.50:1567-1568|1971|
36285|T||Cremer,J.E., and J. Bligh|Body-Temperature and Responses to Drugs|Br. Med. Bull.25(3): 299-306|1969|10.1093/oxfordjournals.bmb.a070722
36286|T||Critchley,B.R., A.G. Cook, U. Critchley, T.J. Perfect, and A. Russell-Smith|The Effects of Crop Protection with DDT on Some Elements of the Subterranean and Surface Active Arthropod Fauna of a Cultivated Forest Soil in the Humid Tropics|Pedobiologia (Multiple Languages)20:31-38|1980|10.1016/S0031-4056(23)03516-3
36287|T||Crocker,A.D., J. Cronshaw, and W.N. Holmes|The Effect of a Crude Oil on Intestinal Absorption in Ducklings (Anas platyrhynchos)|Environ. Pollut.7:165-177|1974|
36288|T||Crocker,A.D., J. Cronshaw, and W.N. Holmes|The Effect of Several Crude Oils and Some Petroleum Distillation Fractions on Intestinal Absorption in Ducklings (Anas platyrhynchos)|Environ. Physiol. Biochem.5:92-106|1975|
36289|T||Crookshank,H.R., B.A. Sowa, L. Kubena, G.M. Holman, H.E. Smalley, and R. Morison|Effect of Diflubenzuron (Dimilin; TH-6040) on the Hyaluronic Acid Concentration in Chicken Combs|Poult. Sci.57:1-11|1977|
36291|T||Crossley,J.|Prevention of Epinephrine and Stress-Induced Egg Laying Delay by Feeding Propranolol to the Laying Hen|Poult. Sci.62:375-378|1983|10.3382/ps.0620375
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36293|T||Crowder,L.A., G.C. Lanzaro, and R.S. Whitson|Behavioral Effects of Methyl Parathion and Toxaphene Exposure in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(4): 365-378|1980|
36294|T||Crowder,L.A., and R.S. Whitson|Fate of Toxaphene, Methyl Parathion, and Chlordimeform Combinations in the Mouse|Bull. Environ. Contam. Toxicol.24:444-451|1980|10.1007/BF01608137
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36300|T||Currie,A.|Oil Pollution in the Cromarty Firth|Mar. Pollut. Bull.5 (8):118-119|1974|10.1016/0025-326X(74)90143-X
36301|T||Curtis,L.R., and H.M. Mehendale|The Effects of Kepone Pretreatment on Biliary Excretion of Xenobiotics in the Male Rat|Toxicol. Appl. Pharmacol.47:295-303|1979|10.1016/0041-008X(79)90324-7
36303|T||Cushman,J.R., and J.C. Street|Allergic Hypersensitivity to the Insecticide Malathion in BALB/c Mice|Toxicol. Appl. Pharmacol.70:29-42|1983|10.1016/0041-008X(83)90176-X
36304|T||Cushman,J.R., and J.C. Street|Allergic Hypersensitivity to the Herbicide 2,4-D in BALB/c Mice|J. Toxicol. Environ. Health10:729-741|1982|10.1080/15287398209530291
36305|T||Custer,T.W., and P.H. Albers|Response of Captive, Breeding Mallards to Oiled Water|J. Wildl. Manag.44(4): 915-918|1980|10.2307/3808324
36307|T||Custer,T.W., J.C. Franson, and O.H. Pattee|Tissue Lead Distribution and Hematologic Effects in American Kestrels (Falco sparverius L.) fed Biologically Incorporated Lead|J. Wildl. Dis.20(1): 39-43|1984|10.7589/0090-3558-20.1.39
36310|T||Cysewski,S.J., J.S. Palmer, H.R. Crookshank, and E.G. Steel|Toxicologic Evaluation of Diisopropyl Methylphosphonate and Dicyclopentadiene in Cattle|Arch. Environ. Contam. Toxicol.10:605-615|1981|10.1007/BF01054883
36311|T||Czarnecki,C.M., and O.A. Evanson|Distribution of Myocardial Glycogen in Turkey Pouults Duringdevelopment of Furazolidone-Induced Cardiomyopathy|Poult. Sci.59:1510-1514|1980|10.3382/ps.0591510
36312|T||Czarnecki,C.M., O.A. Evanson, M.D. Powers, D.A. Grahn, and A.L. Good|Effect of Furazolidone on Plasma Enzyme and Protein Levels in Turkey Poults|Poult. Sci.60:1537-1543|1981|10.3382/ps.0601537
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36315|T||Czarnecki,G.L., and D.H. Baker|Tolerance of the Chick to Excess Dietary Cadmium as Influenced by Dietary Cysteine and by Experimental Infection with Eimeria acervulina|J. Anim. Sci.54(5): 983-988|1982|10.2527/jas1982.545983x
36316|T||D'Aguanno,W.|The Work of the OECD Long-Term Toxicity Group|In: Hunter,W.J.and Morris,C.(Eds).Quality Assurance Or Toxicological Data: Proceedings of the International Colloqium, Luxembourg, NTIS, Washington, D.C.(B83-169771):13 p.|1979|
36317|T||D'Mello,G.D., E.A.M. Lewandowska, and S.S. Miles|Effect of the Acetylcholinesterase Inhibitor Sarin upon a Visually Guided Reaching Response in the Marmoset (Hapale jacchus)|In: G.Zbinden, V.Cuomo, G.Racagni, and B.Weiss (Eds.), Application of Behavioral Pharmacology in Toxicology, Raven Press, NY:153-158|1983|
36322|T||Dahlgren,R.B., R.L. Linder, and K.K. Ortman|Dieldrin Effects on Susceptibility of Penned Pheasants to Hand Capture|J. Wildl. Manag.34(4): 957-959|1970|10.2307/3799170
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36327|T||Damron,B.L., M.F. Hall, D.M. Janky, H.R. Wilson, O. Osuna, R.L. Suber, and M.C. Lutrick|Corn Fertilized with Municipal Sludge in the Diet of Chicks and Hens|Poult. Sci.60:1491-1496|1981|10.3382/ps.0601491
36329|T||Danielsson,B.R.G., L. Dencker, and A. Lindgren|Transplacental Movement of Inorganic Lead in Early and Late Gestation in the Mouse|Arch. Toxicol.54:97-107|1983|10.1007/BF01261379
36330|T||Danse,L.H.J.C., F.L. Van Velsen, and C.A. Van der Heijden|Methylbromide: Carcinogenic Effects in the Rat Forestomach|Toxicol. Appl. Pharmacol.72:262-271|1984|10.1016/0041-008X(84)90311-9
36331|T||Darjono, S.D. Sleight, H.D. Stowe, and S.D. Aust|Vitamin A Status, Polybrominated Biphenyl (PBB) Toxicosis, and Common Bile Duct Hyperplasia in Rats|Toxicol. Appl. Pharmacol.71:184-193|1983|10.1016/0041-008X(83)90335-6
36333|T||Darnerud,P.O., A. Biessmann, and I. Brandt|Metabolic Fate of Chlorinated Paraffins:  Degree of Chlorination of (1-14C)-Chlorododecanes in Relation to Degradation and Excretion in Mice|Arch. Toxicol.50:217-226|1982|10.1007/BF00310853
36334|T||Darnerud,P.O., and I. Brandt|Studies on the Distribution and Metabolism of a 14D-Labelled Chlorinated Alkane in Mice|Environ. Pollut. A.27:45-56|1982|10.1016/0143-1471(82)90062-9
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36338|T||David,D.|Gas Chromatographic Study of the Rate of Penetration of DDT into Quail Eggs at Different Stages of Their Development|Bull. Environ. Contam. Toxicol.21:289-295|1979|10.1007/BF01685425
36340|T||David,D.|Gas Chromatographic Determination of Decamethrin Residues in Quail and Quail Eggs|Bull. Environ. Contam. Toxicol.28:733-739|1982|10.1007/BF01605645
36341|T||David,D.|Residual DDT in Two Successive Generations of Quail and Their Eggs|Poult. Sci.59:1183-1186|1980|10.3382/ps.0591183
36348|T||Davidson,K.L.|Routes of Dieldrin Elimination in Fed and Starved Chickens|Bull. Environ. Contam. Toxicol.21:756-759|1979|10.1007/BF01685500
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36352|T||Davis,B.N.K., and M.C. French|The Accumulation and Loss of Organochlorine Insecticide Residues by Beetles, Worms, and Slugs in Sprayed Fields|Soil Biol. Biochem.1:45-55|1969|10.1016/0038-0717(69)90033-9
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36356|T||Davison,K.L.|Monensin Absorption and Metabolism in Calves and Chickens|J. Agric. Food Chem.32:1273-1277|1984|10.1021/jf00126a016
36358|T||Davison,K.L.|Dieldrin Accumulation in Tissues of the Sheep|J. Agric. Food Chem.18(6): 1156-1160|1970|10.1021/jf60172a018
36359|T||Davison,K.L.|Dieldrin-14C Balance in Rats, Sheep and Chickens|Bull. Environ. Contam. Toxicol.10(1): 16-24|1973|10.1007/BF01684749
36360|T||Davison,K.L., J.H. Cox, and C.K. Graham|The Effect of Mirex on Reproduction of Japanese Quail and On Characteristics of Eggs from Japanese Quail and Chickens|Arch. Environ. Contam. Toxicol.3(1): 84-95|1975|10.1007/BF02221133
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36364|T||Davison,K.L., and J.L. Sell|DDT Thins Shells of Eggs from Mallard Ducks Maintained on Ad Libitum or Controlled-Feeding Regimens|Arch. Environ. Contam. Toxicol.2(3): 222-232|1974|10.1007/BF01956171
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36366|T||Stocco,R.D.C., G.C.C. Da Cruz, F. Saliba, and W. Becak|Cytogenetic Effects of an Organophosphorus Pesticide on Cattle and Their Progeny|Rev. Bras. Genet.4(1): 55-63|1981|
36367|T||De Grazio,J.W., J.F. Besser, T.J. Decino, J.L. Guarino, and E.W. Schafer|Protecting Ripening Corn from Blackbirds by Broadcasting 4-Aminopyridine Baits|J. Wildl. Manag.36(4): 1316-1320|1972|10.2307/3799274
36371|T||De Licastro,S.A., E.N. Zerba, E. Wood, and M.I.P. De Villar|The Insecticidal and Anticholinesterase Activities of O,O-Diethyl O-4-(2,2-Disubstituted Vinyl)Phenyl Phosphates and Phosphorothioates|Pestic. Sci.13(5): 505-512|1982|10.1002/ps.2780130507
36372|T||De Lopez,O.H., F.A. Smith, and H.C. Hodge|Plasma Fluoride Concentrations in Rats Acutely Poisoned with Sodium Fluoride|Toxicol. Appl. Pharmacol.37(1): 75-83|1976|10.1016/S0041-008X(76)80009-9
36373|T||Los Reyes,M., and E.C. Mora|Tissue Residues and Ultrastructural Changes Induced by DDT in Chickens|Poult. Sci.58:1183-1191|1979|10.3382/ps.0581183
36375|T||De Moor,A., P. Desmet, C. Van den Hende, and Y. Moens|Influence of Promazine on the Venous Haematocrit and Plasma Protein Concentration in the Horse|Zentbl. Vetmed. Reihe A25:189-197|1978|10.1111/j.1439-0442.1978.tb00919.x
36376|T||De Reede,R.H.|A Field Study on the Possible Impact of the Insecticide Diflubenzuron on Insectivorous Birds|Agro-Ecosystems7:327-342|1982|10.1016/0304-3746(82)90024-5
36377|T||Dean,B.J., and E. Thorpe|Cytogenetic Studies with Dichlorvos in Mice and Chinese Hamsters|Arch. Toxicol.30:39-49|1972|10.1007/BF00605272
36378|T||Dean,B.J., and E. Thorpe|Studies with Dichlorvos Vapour in Dominant Lethal Mutation Tests on Mice|Arch. Toxicol.30:51-59|1972|10.1007/BF00605273
36380|T||Debackere,M., and F.T. Delbeke|Fluoride Pollution Caused by an Enamel Factory in the Flemish Countryside of Belgium|Int. J. Environ. Stud.17(3-4): 201-207|1981|10.1080/00207238108709908
36381|T||DeBaun,J.R., and J.J. Menn|Sulfoxide Reduction in Relation to Organophosphorus Insecticide Detoxification|Science191(4223): 187-188|1976|10.1126/science.1246606
36382|T||DeBaun,J.R., J.B. Miaullis, J. Knarr, A. Mihailovski, and J.J. Menn|The Fate of N-Trichloro[14C]Methylthio-4-Cyclohexene-1,2-Dicarboximide ([14C]Captan) in the Rat|Xenobiotica4(2): 101-119|1974|10.3109/00498257409049350
36385|T||DeCaprio,A.P., N.L. Strominger, and P. Weber|Neurotoxicity and Protein Binding of 2,5-Hexanedione in the Hen|Toxicol. Appl. Pharmacol.68:297-307|1983|10.1016/0041-008X(83)90014-5
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36387|T||Decker,W.J., W.A. Goldsmith, R.C. Mills, and R.J. Banez|Systemic Absorption of Copper After Oral Administration of Radioactive Copper Sulfate Emetic in Rats|Toxicol. Appl. Pharmacol.21:331-334|1972|10.1016/0041-008X(72)90152-4
36389|T||DeFreitas,A.S.W., J.S. Hart, and H.V. Morley|Chronic Cold Exposure and DDT Toxicity|In: Miller,M.W.and Berg,G.G.(Eds) Chemical Fallout: Current Research on Persistent Pesticides, C.C.Thomas Publ., Springfield IL:361-367|1969|
36390|T||Degraeve,N., M.C. Chollet, and J. Moutschen|Mutagenic Properties of Methyl- and Ethylbromophos in Mammals|Bull. Environ. Contam. Toxicol.32:269-273|1984|10.1007/BF01607497
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36392|T||DeHaven,R.W., D.F. Mott, J.L. Guarino, J.F. Besser, C.E. Knittle, and E.W.,Jr. Schafer|Methiocarb for Repelling Birds from Ripening Sweet Cherries|Int. Pest Control21:12 - 14,21|1979|
36394|T||Deichmann,W.B., W.E. MacDonald, A.G. Beasley, and D. Cubit|Subnormal Reproduction in Beagle Dogs Induced by DDT and Aldrin|Ind. Med. Surg.40(2): 10-19|1971|
36396|T||Del Pup,J.A., B.S. Pasternack, N.H. Harley, P.B. Kane, and E.D. Palmes|Effects of DDT on Stable Laboratory Mouse Populations|J. Toxicol. Environ. Health4(4): 671-687|1978|10.1080/15287397809529689
36397|T||Del Tito,B.J., H. Mukhtar, and D.R. Bickers|In Vivo Metabolism of Topically Applied Benzo(a)Pyrene-4,5-Oxide in Neonatal Rat Skin|J. Invest. Dermatol.82:378-380|1984|10.1111/1523-1747.ep12260724
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36404|T||Dent,J.G., K.M. McCormack, D.E. Rickert, S.Z. Cagen, P. Melrose, and J.E. Gibson|Mixed Function Oxidase Activities in Lactating Rats and Their Offspring Following Dietary Exposure to Polybrominated Biphenyls|Toxicol. Appl. Pharmacol.46:727-735|1978|10.1016/0041-008X(78)90318-6
36405|T||Dent,J.G., K.J. Netter, and J.E. Gibson|The Induction of Hepatic Microsomal Metabolism in Rats Following Acute Administration of a Mixture of Polybrominated Biphenyls|Toxicol. Appl. Pharmacol.38:237-249|1976|10.1016/0041-008X(76)90132-0
36406|T||Desaiah,D., I.K. Ho, and H.M. Mehendale|Effects of Kepone and Mirex on Mitochondrial Mg2+-ATPase Activity in Rat Liver|Toxicol. Appl. Pharmacol.39:219-228|1977|10.1016/0041-008X(77)90155-7
36408|T||DeWeese,L.R., L.C. McEwen, L.A. Settimi, and R.D. Deblinger|Effects on Birds of Fenthion Aerial Application for Mosquitocontrol|J. Econ. Entomol.76:906-911|1983|10.1093/jee/76.4.906
36409|T||Dharma,D.N., S.D. Sleight, R.K. Ringer, and S.D. Aust|Pathologic Effects of 2,2',4,4',5,5'- and 2,3',4,4',5,5'-Hexabromobiphenyl in White Leghorn Cockerels|Avian Dis.26(3): 542-552|1982|10.2307/1589900
36410|T||Dhillon,A.S., R.W. Winterfield, and H.L. Thacker|Quaternary Ammonium Compound Toxicity in Chickens|Avian Dis.26(4): 928-931|1982|10.2307/1589882
36416|T||Dickson,S.J., H.M. Stone, and E.A. Queree|Xylazine (Rompun) Levels in Deer Antler Velvet|N. Z. J. Agric. Res.26:93-94|1983|10.1080/00288233.1983.10420957
36419|T||Dieter,M.P.|Blood Delta-Aminolevulinic Acid Dehydratase (Alad) to Monitor Lead Contaminiation in Canvasback Ducks (Aythya valisineria)|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.C:177-191|1979|
36420|T||Dieter,M.P.|Acute and Chronic Studies with Waterfowl Exposed to Petroleum Hydrocarbons|In: Hall,C.and Preston,W.(Compilers) Program Review Proc.of: Environmental Effects of Energy Related Activities on Marine/Estuarine Ecosystem, U.S.EPA, Office of Research and Development, Washington, D.C.:35-43|1977|
36421|T||Dieter,M.P., and M.T. Finley|Erythrocyte Delta-Aminolevulinic Acid Dehydratase Activity in Mallard Ducks: Duration of Inhibition After Lead Shot Dosage|J. Wildl. Manag.42(3): 621-625|1978|10.2307/3800826
36424|T||Dikshith,T.S.S.|DDT- the Problems of Residue and Hazard|J. Sci. Ind. Res.37:316-328|1978|
36425|T||Dikshith,T.S.S., and K.K. Datta|Endrin Induced Cytological Changes in Albino Rats|Bull. Environ. Contam. Toxicol.9(2): 65-69|1973|10.1007/BF01684756
36426|T||Dikshith,T.S.S., R.B. Raizada, and K.K. Datta|Interaction of Phosphamidon & Benzene in Female Rabbits|Indian J. Exp. Biol.18:1273-1277|1980|
36428|T||Dilley,J.V., C.A. Tyson, R.J. Spanggord, D.P. Sasmore, G.W. Newell, and J.C. Dacre|Short-Term Oral Toxicity of 2,4,6-Trinitrotoluene in Mice, Rats, and Dogs|J. Toxicol. Environ. Health9:565-585|1982|10.1080/15287398209530188
36430|T||Dilworth,B.C., T.C. Chen, E.J. Day, R.D. Miles, A.S. Arafa, R.H. Harms, G.L. Romoser, V.G. Difate, and K.J. Shaver|Fungistatic Compounds in Broiler Production. 1. Effect on Rate of Gain and Feed Utilization|Poult. Sci.58:1445-1450|1979|10.3382/ps.0581445
36434|T||Dindal,D.L., and P.C. Stromberg|DDT Residues Associated with Cestodes from Mallard and Lesser Scaup Ducks|Bull. Environ. Contam. Toxicol.5(1): 13-15|1970|10.1007/BF01545117
36435|T||Dindal,D.L., and K.H. Wurzinger|Accumulation and Excretion of DDT by the Terrestrial Snail, Cepaea Hortensis|Bull. Environ. Contam. Toxicol.6(4): 362-371|1971|10.1007/BF01540005
36437|T||Dixon,R.L., R.J. Sherins, and I.P. Lee|Assessment of Environmental Factors Affecting Male Fertility|Environ. Health Perspect.30:53-68|1979|10.1289/ehp.793053
36438|T||Do Nev,B., K. Stoyanov, A. Djourov, and P. Dilov|Acute and Subchronic Monenzine Toxicity to Lambs|Vet. Sci.7(1): 25-31|1980|
36439|T||Dobson,R.C., and E.R. Baugh|Dieldrin Residue Removal from the Fat of Swine|Bull. Environ. Contam. Toxicol.16(5): 567-571|1976|10.1007/BF01685365
36440|T||Dobson,R.C., J.E. Fahey, D.L. Ballee, and E.R. Baugh|Reduction of Chlorinated Hydrocarbon Residues in Swine|Bull. Environ. Contam. Toxicol.6(2): 189-192|1971|10.1007/BF01540104
36441|T||Dobson,R.C., J.E. Fahey, D.L. Ballee, and E.R. Baugh|Dieldrin and Heptachlor Epoxide Residues in Fat from Hogs Foraging on Corn Stover in Insecticidally Treated Fields|Bull. Environ. Contam. Toxicol.7(5): 311-320|1972|10.1007/BF01684531
36442|T||Doctor,S.V., and D.A. Fox|Immediate and Long-Term Alterations in Maximal Electroshock Seizure Responsiveness in Rats Neonatally Exposed to Triethyltin Bromide|Toxicol. Appl. Pharmacol.68:268-281|1983|10.1016/0041-008X(83)90011-X
36443|T||Doctor,S.V., L.G. Sultatos, and S.D. Murphy|Effect of Trimethyltin on Hepatic and Extra-Hepatic Non-protein Sulfhydryl Levels in the Mouse|Toxicol. Appl. Pharmacol.70:165-168|1983|10.1016/0041-008X(83)90192-8
36444|T||Dodman,N.H.|Complications of Saffan Anaesthesia in Cats|Vet. Rec.107:481-483|1980|10.1136/vr.107.21.481
36447|T||Dollahite,J.W., and K.R. Pierce|Neurologic Disturbances due to Triaryl Phosphate Toxicity|Am. J. Vet. Res.30(8): 1461-1464|1969|
36450|T||Dominick,M.A., and T.L. Carson|Effects of Carbon Monoxide Exposure on Pregnant Sows and Their Fetuses|Am. J. Vet. Res.44(1): 35-40|1983|
36452|T||Donahue,M.A., M.E. Lisano, and J.E. Kennamer|Effects of Alpha-Chloralose Drugging on Blood Constituents in the Eastern Wild Turkey|J. Wildl. Manag.46(2): 468-474|1982|10.2307/3808659
36453|T||Donaldson,L.E.|Effect of Continued Daily Injections of Oxytocin on Oestrouscycle Length and Reproductive Tract Morphology in the Cow|J. Reprod. Fertil.18:259-263|1969|10.1530/jrf.0.0180259
36454|T||Donaldson,W.E.|The Effects of Mercury Ingestion on Hepatic Mitochondrial Membranes of Chicks|Poult. Sci.55(6): 2280-2284|1976|10.3382/ps.0552280
36455|T||Donaldson,W.E., M.D. Jackson, and T.J. Sheets|Influence of Iodinated Casein on DDT Residues in Chicks|Poult. Sci.50(5): 1316-1320|1971|10.3382/ps.0501316
36456|T||Donaldson,W.E., and T.K. Leeming|Dietary Lead:  Effects on Hepatic Fatty Acid Composition in Chicks|Toxicol. Appl. Pharmacol.73(1): 119-123|1984|10.1016/0041-008X(84)90060-7
36457|T||Donaldson,W.E., and J.P. Thaxton|Mercuric Chloride Effects on the Activities of Some Hepatic Enzymes in Chicks|Poult. Sci.54:1613-1616|1975|10.3382/ps.0541613
36460|T||Dorough,H.W., and D.E. Nye|Metabolism of Croneton (2-Ethylthiomethylphenyl N-Methylcarbamate) in Large Animals|In: G.W.Ivie and H.W.Dorough (Eds.), Fate of Pesticides in Large Animals, Academic Press,  New York, NY:233-252|1977|
36462|T||Dorough,H.W., R.B. Davis, and G.W. Ivie|Fate of Temik-Carbon-14 in Lactating Cows During a 14-Day Feeding Period|J. Agric. Food Chem.18(1): 135-142|1970|10.1021/jf60167a041
36463|T||Dorough,H.W., and R.W. Hemken|Chlordane Residues in Milk and Fat of Cows Fed HCS 3260 (High Purity Chlordane) in the Diet|Bull. Environ. Contam. Toxicol.10(4): 208-216|1973|10.1007/BF01684546
36464|T||Dorough,H.W., and G.W. Ivie|Fate of Mirex-14C During and After a 28-Day Feeding Period to a Lactating Cow|J. Environ. Qual.3(1): 65-67|1974|10.2134/jeq1974.00472425000300010018x
36465|T||Doull,J.|The Effect of Physical Environmental Factors on Drug Response|Essays Toxicol.3:37-63|1972|10.1016/B978-0-12-107603-0.50009-7
36466|T||Douthwaite,R.J.|Occurrence of Birds in Acacia Woodland in Northern Botswana Related to Endosulfan Sprayed for Tsetse Fly Control|Environ. Pollut.22:273-279|1980|10.1016/0143-1471(80)90003-3
36467|T||Douthwaite,R.J.|Changes in Pied Kingfisher (Ceryle rudis) Feeding Related to Endosulfan Pollution from Tsetse Fly Control Operations in the Okavango Delta, Botswana|J. Appl. Ecol.19:133-141|1982|10.2307/2402997
36469|T||Doyle,J.J.|Toxic and Essential Elements in Bone-A Review|J. Anim. Sci.49(2): 482-497|1979|10.2527/jas1979.492482x
36470|T||Doyle,P.T., and N.R. Adams|Toxic Effects of Large Amounts of Dl-Methionine Infused into the Rumen of Sheep|Aust. Vet. J.56(7): 331-334|1980|10.1111/j.1751-0813.1980.tb05743.x
36472|T||Drew,R.T., and J.R. Fouts|The Lack of Effects of Pretreatment with Phenobarbital and Chlorpromazine on the Acute Toxicity of Benzene in Rats|Toxicol. Appl. Pharmacol.27:183-193|1974|10.1016/0041-008X(74)90185-9
36473|T||Drewes,C.D., and E.P. Vining|In Vivo Neurotoxic Effects of Dieldrin on Giant Nerve Fibers and Escape Reflex Function in the Earthworm, Eisenia foetida|Pestic. Biochem. Physiol.22(1): 93-103|1984|10.1016/0048-3575(84)90014-2
36474|T||Driver,D., R.N. Brewer, and G.J. Cottier|Pesticide Residues in Eggs and Chicks from Laying Hens Fed Low Levels of Several Chlorinated Hydrocarbon Pesticides|Poult. Sci.55:1544-1549|1976|10.3382/ps.0551544
36477|T||Duby,R.T., H.F. Travis, and C.E. Terrill|Uterotropic Activity of DDT in Rats and Mink and Its Influence on Reproduction in the Rat|Toxicol. Appl. Pharmacol.18:348-355|1971|10.1016/0041-008X(71)90127-X
36479|T||Duffard,R., L. Traini, and A.M.E. De Duffard|Embryotoxic and Teratogenic Effects of Phenoxy Herbicides|Acta Physiol. Latinoam.31(1): 35-38|1981|
36482|T||Dunachie,J.F., and W.W. Fletcher|An Investigation of the Toxicity of Insecticides to Birds'  Eggs Using the Egg-Injection Technique|Ann. Appl. Biol.64(3): 409-423|1969|10.1111/j.1744-7348.1969.tb02890.x
36483|T||Dunckel,A.E.|An Updating on the Polybrominated Biphenyl Disaster in Michigan|J. Am. Vet. Med. Assoc.167(9): 838-841|1975|
36484|T||Dunn,J.D., J.W. Carter, and D.A. Henderson|Effect of Polychlorinated Biphenyls (Aroclor 1254) on Rhythmic Pituitary-Adrenal Function|Bull. Environ. Contam. Toxicol.31:322-325|1983|10.1007/BF01608706
36485|T||Dunn,J.S., N.H. Booth, P.B. Bush, R.L. Farrell, D. Thomason, and D.D. Goetsch|The Accumulation and Elimination of Tissue Residues After Feeding Pentachloronitrobenzene to White Leghorn Cockerels|Poult. Sci.57:1533-1538|1978|10.3382/ps.0571533
36486|T||Dunn,J.S., P.B. Bush, N.H. Booth, R.L. Farrell, D.M. Thomason, and D.D. Goetsch|Effect of Pentachloronitrobenzene upon Egg Production, Hatchability, and Residue Accumulation in the Tissues of White Leghorn Hens|Toxicol. Appl. Pharmacol.48:425-433|1979|10.1016/0041-008X(79)90426-5
36487|T||Dunn,J.S., P.B. Bush, N.H. Booth, R.L. Farrell, D.M. Thomason, and D.D. Goetsch|Tissue Residues from Feeding Pentachloronitrobenzene (Quintozene) to White Leghorn Chickens|Am. J. Vet. Res.40(9): 1227-1230|1979|
36488|T||Dunnet,G.M.|Oil Pollution and Seabird Populations|Philos. Trans. R. Soc. Lond., B Biol. Sci.297(1087): 413-426|1982|
36489|T||Dunnick,J.K., B.N. Gupta, M.W. Harris, and J.C. Lamb|Reproductive Toxicity of Dimethyl Methyl Phosphonate (DMMP) in the Male Fischer 344 Rat|Toxicol. Appl. Pharmacol.72:379-387|1984|10.1016/0041-008X(84)90114-5
36490|T||Dunsmore,J.D., L.S. Hall, and K.H. Kottek|DDT in the Bent-Winged Bat in Australia|Search5(3): 110-111|1974|
36491|T||Durst,H.I., L.B. Willett, C.J. Brumm, and F.L. Schanbacher|Changes in Blood and Urine Composition from Feeding Polybrominated Biphenyls to Pregnant Holstein Heifers|J. Dairy Sci.61:197-205|1978|10.3168/jds.S0022-0302(78)83578-4
36496|T||Dutcher,J.S., and C.E. Mitchell|Distribution and Elimination of Inhaled Phenanthridone in Fischer-344 Rats|J. Toxicol. Environ. Health12(4-6): 709-719|1983|10.1080/15287398309530462
36497|T||Dwernychuk,L.W., D.H. Sheppard, and L.E. Haley|Mergamma DB and Phenylmercuric Acetate: Their Effect on the Reproduction of Japanese Quail (Coturnix coturnix japonica Temminck and Schlegel)|Can. J. Zool.52:291-300|1974|10.1139/z74-036
36499|T||Dzierzawski,A., and M. Minta|Embryotoxic Effects of Chlorfenvinphos and Bromfenvinphos in Laboratory Animals|Bull. Vet. Inst. Pulawy23(1-2): 32-41|1979|
36500|T||Dzogbefia,V.P., D. Kling, and W. Gamble|Polychlorinated Biphenyls:  In Vivo and In Vitro Modifications of Phospholipid and Glyceride Biosynthesis|J. Environ. Pathol. Toxicol.1:841-856|1978|
36501|T||Eales,F.A., J. Small, J.S. Oliver, and C. Quigley|Phenol Poisoning in A Newborn Lamb|Vet. Rec.108:421-|1981|10.1136/vr.108.19.421
36502|T||Earl,F.L., J.M. Curtis, H.N. Bernstein, and H.E.,Jr. Smalley|Ocular Effects in Dogs and Pigs Treated with Dichloran (2,6-Dichloro-4-Nitroaniline)|Food Cosmet. Toxicol.9:819-828|1971|10.1016/0015-6264(71)90233-1
36503|T||Earl,F.L., B.E. Melveger, J.E. Reinwall, G.W. Bierbower, and J.M. Curtis|Diazinon Toxicity - Comparative Studies in Dogs and Miniature Swine|Toxicol. Appl. Pharmacol.18:285-295|1971|10.1016/0041-008X(71)90120-7
36504|T||Eastin,W.C.|Methods Used at Patuxent Wildlife Research Center to Study the Effects of Oil on Birds|In: C.H.Brown (Ed.), Proc.of The 1979 U.S.Fish and Wildl.Serv.Responses Work Shop, May 8-10, St.Petersburg, FL, U.S.Fish and Wildlife Service, Washington D.C.:60-66|1979|
36505|A||Eastin,W.C.,Jr., W.J. Fleming, and H.C. Murray|Organophosphate Inhibition of Avian Salt Gland Na, K-ATPase Activity|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 101-107|1982|10.1016/0306-4492(82)90175-7
36506|T||Eastin,W.C., and D.J. Hoffman|Biological Effects of Petroleum on Aquatic Birds|In: C.C.Bates (Ed.), Proceedings of the Conference on Assessment of Ecological Impact of Oil Spills, Arlington, VA:561-582|1979|
36508|T||Eastin,W.C., and H.C. Murray|Effects of Crude Oil Ingestion on Avian Intestinal Function|Can. J. Physiol. Pharmacol.59:1063-1068|1981|10.1139/y81-162
36509|T||Eastin,W.C.,Jr., and T.J. O'Shea|Effects of Dietary Nickel on Mallards|J. Toxicol. Environ. Health7:883-892|1981|10.1080/15287398109530031
36510|T||Eastin,W.C.,Jr., and B.A. Rattner|Effects of Dispersant and Crude Oil Ingestion on Mallard Ducklings (Anas platyrhynchos)|Bull. Environ. Contam. Toxicol.29:273-278|1982|10.1007/BF01706228
36512|T||Ecker,J.L., J.B. Hook, and J.E. Gibson|Nephrotoxicity of Paraquat in Mice|Toxicol. Appl. Pharmacol.34:178-186|1975|10.1016/0041-008X(75)90185-4
36513|T||Ecobichon,D.J.|Enzymatic and Other Biochemical Responses to Selected PCB's|In: Contract No.68-01-2928, Conference Proceedings of the National Conference on Polychlorinated Biphenyls, Chicago, IL:57-66|1976|
36514|T||Ecobichon,D.J., and A.M. Comeau|Genetic Polymorphism of Plasma Carboxylesterases in the Rabbit:  Correlation with Pharmacologic and Toxicologic Effects|Toxicol. Appl. Pharmacol.27:28-40|1974|10.1016/0041-008X(74)90171-9
36515|T||Ecobichon,D.J., and A.M. Comeau|Isomerically Pure Chlorobiphenyl Congeners and Hepatic Function in the Rat: Influence of Position and Degree of Chlorination|Toxicol. Appl. Pharmacol.33:94-105|1975|10.1016/0041-008X(75)90248-3
36516|T||Ecobichon,D.J., and P.W. Saschenbrecker|The Redistribution of Stored DDT in Cockerels Under the Influence of Food Deprivation|Toxicol. Appl. Pharmacol.15:420-432|1969|10.1016/0041-008X(69)90040-4
36517|T||Edens,F.W.|Body Temperature and Blood Chemistry Responses in Broiler Cockerels Given A Single Intravenous Injection of Na+ Or Ca++ Before and Acute Heating Episode|Poult. Sci.55:2248-2255|1976|10.3382/ps.0552248
36518|T||Edens,F.W., and J.D. Garlich|Lead-Induced Egg Production Decrease in Leghorn and Japanese Quail Hens|Poult. Sci.62:1757-1763|1983|10.3382/ps.0621757
36519|T||Edgerton,T.R., and R.F. Moseman|Electron-Capture Gas Chromatographic Determination of 2-Sec-Butyl-4,6-Dinitrophenol (Dnbp) Residues in Feed, Tissue, Andexcreta|J. Agric. Food Chem.26 (2):425-428|1978|10.1021/jf60216a028
36520|T||Edjtehadi,M., M. Szabuniewicz, and B. Emmanuel|Acute Urea Toxicity in Sheep|Can. J. Comp. Med.42:63-68|1978|
36523|T||Edwards,P.J., and S.M. Brown|Use of Grassland Plots to Study the Effect of Pesticides on Earthworms|Pedobiologia (Multiple Languages)24:145-150|1982|10.1016/S0031-4056(23)05876-6
36525|T||Ehrich,M., and W.B. Gross|Modification of Triorthotolyl Phosphate Toxicity in Chickens by Stress|Toxicol. Appl. Pharmacol.70:249-254|1983|10.1016/0041-008X(83)90100-X
36526|T||Ehrich,M., C. Larsen, and J. Arnold|Organophosphate Detoxification Related to Induced Hepatic Microsomal Enzymes of Chickens|Am. J. Vet. Res.45(4): 755-758|1984|
36527|T||Eichler,D.|Bromophos and Bromophos-Ethyl Residues; In: Gunther,F.A. Andgunther,J.D. (Eds), Residues Reviews, Springer Verlag,Ny|Residue Rev.41:65-112|1972|
36528|T||Eisele,G.R.|Naphthalene Distribution in Tissues of Laying Pullets, Swine, and Dairy Cattle|Bull. Environ. Contam. Toxicol.34:549-556|1985|10.1007/BF01609774
36529|T||Eitminaviciute,I.S., V.M. Strazdiene, B.A. Kadyte, J.J. Vanagas, and G.K. Kilikevicius|The Accumulation of Benzophosphate in Soil Animals|Pedobiologia (Multiple Languages)24:23-28|1982|10.1016/S0031-4056(23)05862-6
36530|T||El Dareer,S.M., P.E. Noker, K.F. Tillery, and D.L. Hill|Investigations on the Basis for the Differential Toxicity Ofhexachlorocyclopentadiene Administered to Rats by Various Routes|J. Toxicol. Environ. Health12:203-211|1983|10.1080/15287398309530419
36532|T||El-Begearmi,M.M., H.E. Ganther, and M.L. Sunde|Toxicity of Mercuric Chloride in Japanese Quail as Affected by Methods of Incorporation into the Diet|Poult. Sci.59:2216-2220|1980|10.3382/ps.0592216
36533|T||El Sebae,A.H., S.A. Soliman, N.S. Ahmed, and A. Curley|Biochemical Interaction of Six Op Delayed Neurotoxicants with Several Neurotargets|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(4): 465-474|1981|
36534|T||El-Sebae,A.H., S.A. Soliman, M.A. Elamayem, and N.S. Ahmed|Neurotoxicity of Organophosphorus Insecticides Leptophos and EPN|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes12(4): 269-288|1977|
36537|T||Ellenton,J.A.|Teratogenic Activity of Aliphatic and Aromatic Fractions of Prudhoe Bay Crude and Fuel Oil No. 2 in the Chicken Embryo|Toxicol. Appl. Pharmacol.63:209-215|1982|10.1016/0041-008X(82)90043-6
36538|T||Elliott,M., N.F. Janes, and C. Potter|The Future of Perethroids in Insect Control|Annu. Rev. Entomol.23:443-469|1978|10.1146/annurev.en.23.010178.002303
36541|T||Elovaara,E., K. Hemminki, and H. Vainio|Effects of Methylene Chloride, Trichloroethane, Trichloroethylene, Tetrachloroethylene and Toluene on the Development of Chick Embryos|Toxicology12(2): 111-119|1979|10.1016/0300-483X(79)90037-4
36542|T||Eltohamy,M.M., H. Takahara, and M. Okamoto|Effects of Zinc on Intact and Castrated Cockerels|Br. Poult. Sci.21:363-369|1980|10.1080/00071668008416682
36543|T||Ender,F.|The Effect of Air Pollution on Animals|In: Ten Houten,J.G.(Chairman) Air Pollution.Proc.First European Congress on the Influence of Air Pollution on Plant and Animals, Wageningen, April 22 to 27, 1968, Centre for Agricultural Publishing and Documentation, Wageningen, The Netherlands:245-254|1969|
36547|T||Engebretson,K.A., and K.L. Davison|Dieldrin Acumulation and Excretion by Rats Fed Phenobarbital and Carbon|Bull. Environ. Contam. Toxicol.6(5): 391-399|1971|10.1007/BF01684358
36548|T||Engel,S.E., T.E. Roudybush, J.C. Dobbs, and C.R. Grau|Depressed Food Intake and Reduced Reproduction in Japanese Quail After a Single Dose of Prudhoe Bay Crude Oil|Proc. 17th Annu. Hanford Biol. Symp. at Richland, Washington, Developmental Toxicology of Energy-Related Pollutants, Tech. Inf. Ctr., U.S. Dep. of Energy47:27-36|1978|
36549|T||Engelhardt,F.R.|Petroleum Hydrocarbons in Arctic Ringed Seals, Phoca hispida, Following Experimental Oil Exposure|In: C.C.Bates (Ed.), Proceedings of the Conference on Assessment of Ecological Impact of Oil Spills, Arlington, VA:614-628|1979|
36550|A||Engelhardt,F.R.|Hydrocarbon Metabolism and Cortisol Balance in Oil-Exposed Ringed Seals, Phoca hispida|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 133-136|1982|10.1016/0306-4492(82)90219-2
36551|AT||Engelhardt,F.R., J.R. Geraci, and T.G. Smith|Uptake and Clearance of Petroleum Hydrocarbons in the Ringed Seal, Phoca hispida|J. Fish. Res. Board Can.34:1143-1147|1977|10.1139/f77-171
36553|T||Engst,R., R.M. Macholz, and M. Kujawa|Metabolism of gamma-Hexachlorocyclohexan (HCH) in Vivo. Metabolism of Orally Administered gamma-2,3,4,5,6-Pentachlorocyclohexen (PCCH)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes13(4): 425-427|1978|
36556|T||Epstein,S.S.|Kepone-Hazard Evaluation|Sci. Total Environ.9:1-62|1978|10.1016/0048-9697(78)90002-5
36558|T||Epstein,S.S., W. Bass, E. Arnold, Y. Bishop, S. Joshi, and I.D. Adler|Sterility and Semisterility in Male Progeny of Male Mice Treated with the Chemical Mutagen TEPA|Toxicol. Appl. Pharmacol.19:134-146|1971|10.1016/0041-008X(71)90100-1
36560|T||Erasmus,T., W. Strydom, O. Tipshraeny, and R.J. Watling|Ore Dust Pollution, Hatching and Egg Temperatures in Birds|Mar. Pollut. Bull.9(2): 48-52|1978|10.1016/0025-326X(78)90533-7
36561|T||Erdman,H.E.|Ozone Toxicity During Ontogeny of Two Species of Flour Beetles, Tribolium confusum and T. castaneum|Environ. Entomol.9:16-17|1980|10.1093/ee/9.1.16
36566|T||Ericsson,R.J., H.E. Downing, R.E. Marsh, and W.E. Howard|Bait Acceptance by Rats of Microencapsulated Male Sterilant Alpha-Chlorohydrin|J. Wildl. Manag.35(3): 573-575|1971|10.2307/3799718
36567|T||Erne,K., and I. Sperber|Renal Tubular Transfer of Phenoxyacetic Acids in the Chicken|Acta Pharmacol. Toxicol.35:233-241|1974|10.1111/j.1600-0773.1974.tb00743.x
36568|T||Ernst,R.A., and R.K. Ringer|The Effect of DDT, Zectran and Zytron on the Packed Cell Volume, Total Erythrocyte Count and Mean Corpuscular Volume of Japanese Quail|Poult. Sci.47(2): 639-643|1968|10.3382/ps.0470639
36570|T||Eroschenko,V.P., and M.A. Mousa|Neonatal Administration of Insecticide Chlordecone and Its Effects on the Development of the Reproductive Tract in the Female Mouse|Toxicol. Appl. Pharmacol.49:151-159|1979|10.1016/0041-008X(79)90286-2
36573|T||Evans,D.L.|Status Report on Twelve Raptors|In: U.S.Fish and Wildlife Service Special Scientific Report-Wildlife, VNO.238, U.S.Fish and Wildlife Service, Washington DC:1-58|1982|
36577|T||Eyal,A., and E.T.,Jr. Moran|Egg Changes Associated with Reduced Interior Quality Because of Dietary Vanadium Toxicity in the Hen|Poult. Sci.63:1378-1385|1984|10.3382/ps.0631378
36578|T||Eyden,B.P., J.R. Maisin, and G. Mattelin|Long-Term Effects of Dietary Lead Acetate on Survival, Body Weight and Seminal Cytology in Mice|Bull. Environ. Contam. Toxicol.19(3): 266-272|1978|10.1007/BF01685797
36579|T||Fabacher,D.L., and E. Hodgson|Hepatic Mixed-Function Oxidase Activity in Mice Treated with Methylated Benzenes and Methylated Naphthalenes|J. Toxicol. Environ. Health2:1143-1146|1977|10.1080/15287397709529512
36580|T||Fabacher,D.L., and E. Hodgson|Induction of Hepatic Mixed-Function Oxidase Enzymes in Adult and Neonatal Mice by Kepone and Mirex|Toxicol. Appl. Pharmacol.38:71-77|1976|10.1016/0041-008X(76)90161-7
36581|T||Falandysz,J.|Chlorinated Hydrocarbons in Gulls from the Baltic South Coast|Mar. Pollut. Bull.11:75-80|1980|10.1016/0025-326X(80)90548-2
36582|T||Falandysz,J., and P. Szefer|Chlorinated Hydrocarbons in Diving Ducks Wintering in Gdanskbay, Baltic Sea|Sci. Total Environ.24:119-127|1982|10.1016/0048-9697(82)90104-8
36584|T||Fanelli,R., M.P. Bertoni, M. Bonfanti, M.G. Castelli, C. Chiabrando, G.P. Martelli, M.A. Noe, A. Noseda, and S. Garatti|2,3,7,8-Tetrachlorodibenzo-P-Dioxin Levels in Cow's Milk from the Contaminated Area of Seveso, Italy|Bull. Environ. Contam. Toxicol.24:634-639|1980|10.1007/BF01608166
36588|T||Fang,S.C., E. Fallin, M.L. Montgomery, and V.H. Freed|The Metabolism and Distribution of 2,4,5-Trichlorophenoxyacetic Acid in Female Rats|Toxicol. Appl. Pharmacol.24:555-563|1973|10.1016/0041-008X(73)90217-2
36590|T||Farlow,R.A., and H.N. Pitre|Effects of Selected Pesticide Application Routines on Pest and Beneficial Arthropods on Soybean in Mississippi|Environ. Entomol.12(2): 552-557|1983|10.1093/ee/12.2.552
36591|T||Farooqui,M.Y.H., and R.L. Metcalf|Penetration and Excretion of Effective Ethoxychlor Analogs in DDT- Resistant and Susceptible Houseflies|Arch. Environ. Contam. Toxicol.12:489-497|1983|10.1007/BF01057594
36592|T||Farr,C.H., C.N. Aldous, and R.P. Sharma|Effects of Tri-o-Tolyl Phosphate on Rat Brain Catecholamine and Indoleamine Metabolism|J. Toxicol. Environ. Health11:317-325|1983|10.1080/15287398309530344
36594|T||Fawkes,J., P.W. Albro, D.B. Walters, and J.D. McKinney|Comparison of Extraction Methods for Determination of Polybrominated Biphenyl Residues in Animal Tissue|Anal. Chem.54:1866-1871|1982|10.1021/ac00248a048
36595|T||Fearing,R.B., E.N. Walsh, J.J. Menn, and A.H. Freiberg|Synthesis and Insecticidal Properties of O-Alkyl S-Aryl Chloromethylphosphonodithioates|J. Agric. Food Chem.17(6): 1261-1264|1969|10.1021/jf60166a065
36598|T||Fellows,D.P., L.F. Pank, and R.M. Engeman|Hazards to Birds from Zinc Phosphide Rat Bait in a Macadamia Orchard|Wildl. Soc. Bull.16:411-416|1988|
36601|T||Ferguson,P.W., P.J. Medon, and E. Nasri|Temephos (Abate) Metabolism and Toxicity in Rats|Arch. Environ. Contam. Toxicol.14:143-147|1985|10.1007/BF01055604
36609|T||Fimreite,N.|Effects of Methyl Mercury Treated Feed on the Mortality and Growth of Leghorn Cockerels|Can. J. Anim. Sci.50:387-389|1970|10.4141/cjas70-058
36612|T||Findlay,G.M., and A.S.W. DeFreitas|DDT Movement from Adipocyte to Muscle Cell During Lipid Utilization|Nature229:63-65|1971|10.1038/229063a0
36615|T||Finley,M.T., M.P. Dieter, and L.N. Locke|Sublethal Effects of Chronic Lead Ingestion in Mallard Ducks|J. Toxicol. Environ. Health1:929-937|1976|10.1080/15287397609529395
36616|T||First,N.L., and C.C. Alm|Dexamethasone-Induced Parturition in Pony Mares|J. Anim. Sci.44(6): 1072-1075|1977|10.2527/jas1977.4461072x
36619|T||Fisher,H.K., J.A. Clements, and R.R. Wright|Pulmonary Effects of the Herbicide Paraquat Studied 3 Days After Injection in Rats|J. Appl. Physiol.35(2): 268-273|1973|10.1152/jappl.1973.35.2.268
36620|T||Fisher,S.W., and R.L. Metcalf|Production of Delayed Ataxia by Carbamate Acid Esters|Pestic. Biochem. Physiol.19:243-253|1983|10.1016/0048-3575(83)90052-4
36621|T||Fishwick,F.B., E.G. Hill, I. Rutter, and P.R. Warre|Gamma-HCH in Eggs and Poultry Arising from Exposure to Thermal Vaporisers|Pestic. Sci.11(6): 633-642|1980|10.1002/ps.2780110611
36622|T||Fitzpatrick,G., R.H. Cherry, and R.V. Dowell|Short-Term Effects of Three Insecticides on Predators and Parasites of the Citrus Blackfly|Environ. Entomol.7:553-555|1978|10.1093/ee/7.4.553
36625|T||Fleming,R.A., S.B. Holmes, and D.G. Busby|An Interlaboratory Comparison of Data on Brain Cholinesterase Activity in Forest Songbirds Exposed to Aerial Application of Zectran|Arch. Environ. Contam. Toxicol.22:228-237|1992|10.1007/BF00213290
36627|T||Fleming,W.J.|Recovery of Brain and Plasma Cholinesterase Activities in Ducklings Exposed to Organophosphorus Pesticides|Arch. Environ. Contam. Toxicol.10:215-229|1981|10.1007/BF01055623
36629|T||Fleming,W.J.|Summaries of Selected Studies on Wildlife Pollution. Progress Reports from the Patuxent Wildlife Research Center for the Year 1981|U.S.Fish and Wildlife Service, Patuxent Wildlife Research Center, Laurel, MD:12 p.|1982|
36631|T||Fleming,W.J., and S.P. Bradbury|Recovery of Cholinesterase Activity in Mallard Ducklings Administered Organophosphorus Pesticides|J. Toxicol. Environ. Health8:885-897|1981|10.1080/15287398109530123
36632|T||Fleming,W.J., H.D. Chacin, O.H. Pattee, and T.G. Lamont|Parathion Accumulation in Cricket Frogs and Its Effect on American Kestrels|J. Toxicol. Environ. Health10:921-927|1982|10.1080/15287398209530306
36635|T||Fleming,W.J., M.A.R. McLane, and E. Cromartie|Endrin Decreases Screech Owl Productivity|J. Wildl. Manag.46(2): 462-468|1982|10.2307/3808658
36637|T||Fleming,W.J., L. Sileo, and J.C. Franson|Toxicity of Prudhoe Bay Crude Oil to Sandhill Cranes|J. Wildl. Manag.46(2): 474-478|1982|10.2307/3808660
36638|T||Flick,D.F., D. Firestone, and G.R. Higginbotham|Studies of the Chick Edema Disease 9. Response of Chicks fed or Singly Administered Synthetic Edema-Producing Compounds|Poult. Sci.:|1972|
36641|AT||Flickinger,E.L., and K.A. King|Some Effects of Aldrin-Treated Rice on Gulf Coast Wildlife|J. Wildl. Manag.36(3): 706-727|1972|10.2307/3799422
36643|T||Flickinger,E.L., D.S. Lobpries, and H.A. Bateman|Fulvous Whistling Duck Populations in Texas and Louisiana|Wilson Bull.89(2): 329-331|1977|
36646|T||Flickinger,G.L.|Effect of Prolonged ACTH Administration on the Gonads of Sexually Mature Chickens|Poult. Sci.45(4): 753-761|1966|10.3382/ps.0450753
36653|T||Forsell,J.H., L.R. Shull, and J.R. Kateley|Subchronic Administration of Technical Pentachlorophenol to Lactating Dairy Cattle: Immunotoxicologic Evaluation|J. Toxicol. Environ. Health8:543-558|1981|10.1080/15287398109530090
36654|T||Forsyth,D.J., and N.D. Westcott|Carbofuran Residues in Grasshoppers and Vegetation from Aerially Sprayed Prairie Pastures:  Potential Effects on Wildlife|Environ. Toxicol. Chem.13(2): 299-306|1994|10.1002/etc.5620130214
36655|T||Forsyth,D.J., and T.J. Peterle|Species and Age Differences in Accumulation of 36Cl-DDT by Voles and Shrews in the Field|Environ. Pollut.33:327-340|1984|10.1016/0143-1471(84)90141-7
36656|T||Forsyth,D.J., T.J. Peterle, and L.W. Bandy|Persistence and Transfer of 36Cl-DDT in the Soil and Biota of an Old-Field Ecosystem: A Six-Year Balance Study|Ecology64(6): 1620-1636|1983|10.2307/1937515
36657|T||Forsyth,D.J., T.J. Peterle, and M.K. Goodwin|Uptake of 36C1-DDT Residues by Slugs and Isopods in the Laboratory and Field|Environ. Pollut. A.29:135-143|1982|10.1016/0143-1471(82)90117-9
36658|T||Foster,T.S.|Evaulation of the Possible Estrogenic Activity of Methoxychlor in the Chicken by Means of Feeding Trials|Bull. Environ. Contam. Toxicol.9(4): 234-242|1973|10.1007/BF01684831
36661|T||Foster,T.S., and S.U. Khan|Metabolism of Atrazine by the Chicken|J. Agric. Food Chem.24(3): 566-570|1976|10.1021/jf60205a010
36663|T||Fowler,B.A., H.S. Jones, H.W. Brown, and J.K. Haseman|The Morphological Effects of Chronic Cadmium Administration on the Renal Vasculature of Rats Given Low and Normal Calcium Diets|Toxicol. Appl. Pharmacol.34:233-252|1975|10.1016/0041-008X(75)90028-9
36665|T||Fowler,B.A., J.S. Woods, and C.M. Schiller|Ultrastructural and Biochemical Effects of Prolonged Oral Arsenic Exposure on Liver Mitochondria of Rats|Environ. Health Perspect.19:197-204|1977|10.1289/ehp.7719197
36666|T||Fowler,J.S.L.|Chlorinated Hydrocarbon Toxicity in the Fowl and Duck|J. Comp. Pathol.80:465-471|1970|10.1016/0021-9975(70)90079-4
36667|T||Fowler,J.S.L.|Toxicity of Carbon Tetrachloride and Other Fasciocidal Drugs in Sheep and Chickens|Br. Vet. J.127:304-312|1971|10.1016/S0007-1935(17)37482-1
36668|T||Fox,C.J.S.|The Effects of Five Herbicides on the Numbers of Certain Invertebrate Animals in Grassland Soil|Can. J. Plant Sci.44:405-409|1964|10.4141/cjps64-080
36674|T||Francis,B.M., L. Hensen, and R.L. Metcalf|Response of Japanese Quail (Coturnix coturnix) to Organophosphorus Ester-Induced Delayed Neurotoxicity Relative to Domestic Hens (Gallus gallus Domesticus)|Bull. Environ. Contam. Toxicol.25:537-540|1980|10.1007/BF01985568
36675|T||Francis,B.M., R.L. Metcalf, and S.W. Fisher|Response of Laboratory Rodents to Selected Avian Delayed Neurotoxicants|Arch. Environ. Contam. Toxicol.12:731-738|1983|10.1007/BF01060758
36676|T||Francis,B.M., R.L. Metcalf, and L.G. Hansen|Toxicity of Organophosphorus Esters to Laying Hens After Oral and Dermal Administration|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(1): 73-95|1985|
36678|T||Frank,R., N. Fish, G.J. Sirons, J. Walker, H.L. Orr, and S. Leeson|Residues of Polychlorinated Phenols and Anisoles in Broilersraised on Contaminated Woodshaving Litter|Poult. Sci.62:1559-1565|1983|10.3382/ps.0621559
36681|T||Franklin,R.B., R.K. Breger, and J.J. Lech|Comparative Effects of Hexachloro- and Hexabromobenzene on Hepatic Monooxygenase Activity of Male and Female Rats|J. Toxicol. Environ. Health12:223-234|1983|10.1080/15287398309530421
36682|T||Franson,J.C., and T.W. Custer|Toxicity of Dietary Lead in Young Cockerels|Vet. Hum. Toxicol.24(6): 421-423|1982|
36684|T||Franson,J.C., L. Sileo, O.H. Pattee, and J.F. Moore|Effects of Chronic Dietary Lead in American Kestrels (Falco sparverius)|J. Wildl. Dis.192:110-113|1983|10.7589/0090-3558-19.2.110
36687|T||Franzmann,B.A., and P.D. Rossiter|Toxicity of Insecticides to Trioxys complanatus quilis (Hymenoptera:  Braconidae) in Lucerne|J. Aust. Entomol. Soc.20:313-315|1981|10.1111/j.1440-6055.1981.tb01054.x
36690|T||Freed,V.H., D. Schmedding, R. Kohnert, and R. Haque|Physical Chemical Properties of Several Organophosphates: Some Implications in Environmental and Biological Behavior|Pestic. Biochem. Physiol.10:203-211|1979|10.1016/0048-3575(79)90023-3
36691|T||Freedman,B., A.M. Poirier, R. Morash, and F. Scott|Effects of the Herbicide 2,4,5-T on the Habitat and Abundance of Breeding Birds and Small Mammals of a Conifer Clearcut in Nova Scotia|Can. Field Nat.102:6-11|1988|10.5962/p.356494
36693|T||French,M.C., and D.J. Jefferies|Degradation and Disappearance of Ortho, para Isomer of Technical DDT in Living and Dead Avian Tissues|Science165:914-916|1969|10.1126/science.165.3896.914
36696|T||Friedenbach,D.J., and K.L. Davison|Scanning and Transmission Electron Microscopic Changes Associated with Duck and Chicken Shell Gland Cilia after p,p'-DDT Administration|Toxicol. Appl. Pharmacol.40:291-297|1977|10.1016/0041-008X(77)90100-4
36697|T||Friedman,M.A., E.J. Greene, R. Csillag, and S.S. Epstein|Paradoxical Effects of Piperonyl Butoxide on the Kinetics of Mouse Liver Microsomal Enzyme Activity|Toxicol. Appl. Pharmacol.21:419-427|1972|10.1016/0041-008X(72)90162-7
36698|T||Friedman,M.A., and V. Sanders|Acute Toxicity of Dimethylnitrosamine in the Presence of Inhibitors of Dmn Demethylase|Experientia32(4): 495-496|1976|10.1007/BF01920817
36699|T||Friend,M., M.A. Haegele, and R. Wilson|DDE:  Interference with Extra-Renal Salt Excretion in the Mallard|Bull. Environ. Contam. Toxicol.9(1): 49-53|1973|10.1007/BF01856771
36700|T||Friend,M., M.A. Haegle, D.L. Meeker, R. Hudson, and C.H. Baer|Correlations Between Residues of Dichlorodiphenylethane, Polychlorinated Biphenyl, and Dieldrin in the Serum and Tissues of Mallard Ducks (Anas platyrhynchos)|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:319-326|1979|
36701|T||Friend,M., and D.O. Trainer|Response of Different-Age Mallards to DDT|Bull. Environ. Contam. Toxicol.11(1): 49-56|1974|10.1007/BF01685028
36702|T||Friend,M., and D.O. Trainer|Duck Hepatitis Virus Interactions with DDT and Dieldrin in Adult Mallards|Bull. Environ. Contam. Toxicol.7(4): 202-205|1972|10.1007/BF01684399
36705|T||Fries,G.F.|Effect of Low Exposure to Polybrominated Biphenyl on Production and other Indicators of Dairy Herd Performance|J. Dairy Sci.66:1303-1311|1983|10.3168/jds.S0022-0302(83)81939-0
36706|T||Fries,G.F., H.C. Cecil, J. Bitman, and R.J. Lillie|Retention and Excretion of Polybrominated Biphenyls by Hens|Bull. Environ. Contam. Toxicol.15(3): 278-282|1976|10.1007/BF01812636
36707|T||Fries,G.F., R.M. Cook, and L.R. Prewitt|Distribution of Polybrominated Biphenyl Residues in the Tissues of Environmentally Contaminated Dairy Cows|J. Dairy Sci.61:420-425|1978|10.3168/jds.S0022-0302(78)83616-9
36708|T||Fries,G.F., R.J. Lillie, H.C. Cecil, and J. Bitman|Retention and Excretion of Polychlorinated Biphenyl Residues by Laying Hens|Poult. Sci.56:1275-1280|1977|10.3382/ps.0561275
36709|T||Fries,G.F., and G.S. Marrow|Excretion of Polybrominated Biphenyls into the Milk of Cows|J. Dairy Sci.58(6): 947-951|1975|10.3168/jds.S0022-0302(75)84661-3
36710|T||Fries,G.F., and G.S. Marrow|Residues in the Fat of Ewes Grazing on Soil Contaminated with Halogenated Hydrocarbons|J. Anim. Sci.55(5): 1118-1124|1982|10.2527/jas1982.5551118x
36711|T||Fries,G.F., G.S. Marrow, and R.M. Cook|Distribution and Kinetics of PBB Residues on Cattle|Environ. Health Perspect.23:43-50|1978|10.1289/ehp.782343
36713|T||Fries,G.F., G.S. Marrow, and C.H. Gordon|Comparative Excretion and Retention of DDT Analogs by Dairy Cows|J. Dairy Sci.52(11): 1800-1805|1969|10.3168/jds.S0022-0302(69)86844-X
36714|T||Fries,G.F., G.S.,Jr. Marrow, and C.H. Gordon|Long-Term Studies of Residue Retention and Excretion by Cows fed a Polychlorinated Biphenyl (Aroclor 1254)|J. Agric. Food Chem.21:117-121|1973|10.1021/jf60185a012
36716|T||Fries,G.F., G.S. Marrow, J.W. Lester, and C.H. Gordon|Effect of Microsomal Enzyme Inducing Drugs on Ddt and Dieldrin Elimination from Cows|J. Dairy Sci.54(3): 364-368|1971|10.3168/jds.S0022-0302(71)85845-9
36717|T||Friis,P., E. Hasselager, and P. Krogh|Isolation of Citrinin and Oxalic Acid from Penicillium viridicatum Westling and Their Nephrotoxicity in Rats and Pigs|Acta Pathol. Microbiol. Scand.77:559-560|1969|10.1111/j.1699-0463.1969.tb04263.x
36718|T||Fritz,H., and R. Hess|The Effect of Chloramphenicol on the Prenatal Development of Rats, Mice, and Rabbits|Toxicol. Appl. Pharmacol.19:667-674|1971|10.1016/0041-008X(71)90298-5
36720|T||Froslie,A.|Effects Following Intra-Ruminal Administration of DNOC and DNBP to Sheep|Natl. Vet. Inst., Oslo, Norway:1-61|1974|
36721|T||Fry,M.D., and C.K. Toone|DDT-Induced Feminization of Gull Embryos|Science213:922-924|1981|10.1126/science.7256288
36722|AT||Fukami,J.I., T. Shishido, K. Fukunaga, and J.E. Casida|Oxidative Metabolism of Rotenone in Mammals, Fish and Insects and Its Relation to Selective Toxicity|J. Agric. Food Chem.17(6): 1217-1226|1969|10.1021/jf60166a048
36723|T||Fuller,G.B., and S.W. Draper|Effect of Mirex on Induced Ovulation in Immature Rats|Proc. Soc. Exp. Biol. Med.148:414-417|1975|10.3181/00379727-148-38550
36725|T||Furness,R.W., and M. Hutton|Pollutants and Impaired Breeding of Great Skuas Catharacta Skua in Britain|Ibis122(1): 88-94|1980|10.1111/j.1474-919X.1980.tb00875.x
36727|T||Gadallah,A.I., W.W. Kilgore, and R.R. Painter|Protein Synthesis by Ribosomes from Eggs of Normal and Thiotepa-Chemosterilized House Flies|J. Econ. Entomol.64(4): 819-821|1971|10.1093/jee/64.4.819
36728|T||Gage,J.C., and S. Holm|The Influence of Molecular Structure on the Retention and Excretion of Polychlorinated Biphenyls by the Mouse|Toxicol. Appl. Pharmacol.36(3): 555-560|1976|10.1016/0041-008X(76)90234-9
36731|T||Galowalia,M.M.S.|Some Conclusions of Study on the Development of Chemical Control of Stomoxys Nigra|Trop. Pest Manag.27(3): 435-436|1981|10.1080/09670878109413819
36733|T||Gandolfi,O., D.L. Cheney, J.S. Hong, and E. Costa|On the Neurotoxicity of Chlordecone: A Role for Gamma-Aminobutyric Acid and Serotonin|Brain Res.303:117-123|1984|10.1016/0006-8993(84)90218-X
36735|T||Garber,B., and E. Wei|Lead Toxicity in Mice with Genetically Different Levels of Delta-Aminolevulinic Acid Dehydratase|Bull. Environ. Contam. Toxicol.9(2): 80-83|1973|10.1007/BF01684759
36739|T||Gardiner,E.E., R. Hironaka, and S.B. Slen|Growth, Feed Efficiency and Levels of Mercury in Tissues of Two Breeds of Chickens Fed Methyl Mercury Dicyandiamide|Can. J. Anim. Sci.51:657-662|1971|10.4141/cjas71-087
36740|T||Gardiner,J.A., J.J. Kirkland, H.L. Klopping, and H. Sherman|Fate of Benomyl in Animals|J. Agric. Food Chem.22(3): 419-427|1974|10.1021/jf60193a046
36744|T||Garrison,M.V., A. Ammayao, and J.L. Libay|Evaluation of 4-Amonipyridine as a Bird Control Agent in the Philippines|Philipp. Agric.65:53-58|1982|
36746|T||Gasaway,W.C., and I.O. Buss|Zinc Toxicity in the Mallard Duck|J. Wildl. Manag.36(4): 1107-1117|1972|10.2307/3799239
36752|T||Gaughan,L.C., M.E. Ackerman, T. Unai, and J.E. Casida|Distribution and Metabolism of trans- and cis-Permethrin in Lactating Jersey Cows|J. Agric. Food Chem.26(3): 613-618|1978|10.1021/jf60217a003
36753|T||Gaughan,L.C., R.A. Robinson, and J.E. Casida|Distribution and Metabolic Fate of trans- and cis-Permethrin in Laying Hens|J. Agric. Food Chem.26(6): 1374-1380|1978|10.1021/jf60220a021
36754|T||Gaunt,I.F., M.G. Wright, R. Cottrell, and S.D. Gangolli|Short-Term Toxicity of 2,6-Dimethylhept-5-En-1-Al in Rats|Food Chem. Toxicol.21(5): 543-549|1983|10.1016/0278-6915(83)90138-2
36756|T||Geissbuhler,H., G. Voss, and R. Anliker|The Metabolism of Phosphamidon in Plants and Animals|Residue Rev.37:39-60|1971|
36757|T||Gellert,R.J.|Kepone, Mirex, Dieldrin, and Aldrin: Estrogenic Activity Andthe Induction of Persistent Vaginal Estrus and Anovulation in Rats Following Neonatal Treatment|Environ. Res.16:131-138|1978|10.1016/0013-9351(78)90150-0
36760|T||George,T.L., L.C. McEwen, and A. Fowler|Effects of a Carbaryl Bait Treatment on Nontarget Wildlife|Environ. Entomol.21(6): 1239-1247|1992|10.1093/ee/21.6.1239
36762|T||George,J.W., and J.D. Duncan|Erythrocyte Protoporphyrin in Experimental Chronic Lead Poisoning in Calves|Am. J. Vet. Res.42(9): 1630-1637|1981|
36763|T||Geraci,J.R., and T.G. Smith|Direct and Indirect Effects of Oil on Ringed Seals (Phoca hispida) of the Beaufort Sea|J. Fish. Res. Board Can.33:1976-1984|1976|10.1139/f76-252
36764|T||Gerhart,J.M., J.S. Hong, and H.A. Tilson|Studies on the Possible Sites of Chlordecone-Induced Tremor in Rats|Toxicol. Appl. Pharmacol.70:382-389|1983|10.1016/0041-008X(83)90156-4
36765|T||Gerhart,J.M., J.S. Hong, L.L. Uphouse, and H.A. Tilson|Chlordecone-Induced Tremor: Quantification and Pharmacological Analysis|Toxicol. Appl. Pharmacol.66:234-243|1982|10.1016/0041-008X(82)90288-5
36766|T||Gitlitz,P.H., F.W.Jr. Sunderman, and P.J. Goldblatt|Aminoaciduria and Proteinuria in Rats After a Single Intraperitoneal Injection of Ni(II)|Toxicol. Appl. Pharmacol.34:430-440|1975|10.1016/0041-008X(75)90136-2
36769|T||Getzendaner,M.E.|Study of Resiues of Dalapon in Chicken Tissues and Eggs Following Repeated Feeding|J. Agric. Food Chem.16(5): 856-862|1968|10.1021/jf60159a022
36770|T||Ghanshani,P., S. Bhargava, and G.N. Tandon|Effects of Some Chemosterilants on the Ovaries, Fat Body and Body Weight of Periplaneta americana L|Comp. Physiol. Ecol.6(4): 258-260|1981|
36771|T||Giavini,E., M. Prati, and C. Vismara|Embryotoxic Effects of 2,3,7,8 Tetrachlorodibenzo-p-Dioxin Administered to Female Rats Before Mating|Environ. Res.31:105-110|1983|10.1016/0013-9351(83)90066-X
36772|T||Giavini,E., M. Prati, and C. Vismara|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Administered to Pregnant Rats During the Preimplantation Period|Environ. Res.29:185-189|1982|10.1016/0013-9351(82)90018-4
36773|T||Giavini,E., C. Vismara, and M.L. Broccia|Pre- and Postimplantation Embryotoxic Effects of Zinc Dimethyldithiocarbamate (Ziram) in the Rat|Ecotoxicol. Environ. Saf.7:531-537|1983|10.1016/0147-6513(83)90011-8
36774|T||Gibbens,R.P., C.H. Herbel, H.L. Morton, W.C. Lindemann, J.A. Ryder-White, D.B. Richman, E.W. Huddleston, and W.H. Conle|Some Impacts of 2,4,5-T on a Mesquite Duneland Ecosystem in Southern new Mexico: A Synthesis|J. Range Manag.39(4): 320-396|1986|10.2307/3899771
36775|T||Gibson,J.E.|Teratology Studies in Mice with 2-Sec-Butyl-4,6-Dinitrophenol (Dinoseb)|Food Cosmet. Toxicol.11:31-43|1973|10.1016/0015-6264(73)90059-X
36777|T||Gibson,J.E., and K.S. Rao|Disposition of 2-Sec-Butyl,-4,6-Dinitrophenol (Dinoseb) in Pregnant Mice|Food Cosmet. Toxicol.11:45-52|1973|10.1016/0015-6264(73)90060-6
36778|T||Gilani,S.H.|Congenital Abnormalities in Methylmercury Poisoning|Environ. Res.9:128-134|1975|10.1016/0013-9351(75)90057-2
36779|T||Gilani,S.H., and M. Chatzinoff|Aluminum Poisoning and Chick Embryogenesis|Environ. Res.24:1-5|1981|10.1016/0013-9351(81)90125-0
36780|T||Gilani,S.H., and M. Marano|Chromium Poisoning and Chick Embryogenesis|Environ. Res.19:427-431|1979|10.1016/0013-9351(79)90067-7
36781|T||Gilani,S.H., and M. Marano|Congenital Abnormalities in Nickel Poisoning in Chick Embryos|Arch. Environ. Contam. Toxicol.9(1): 17-22|1980|10.1007/BF01055496
36782|T||Gilbert,F.F.|Physiological Effects of Natural DDT Residues and Metabolites on Ranch Mink|J. Wildl. Manag.33(4): 933-943|1969|10.2307/3799328
36784|T||Gilbert,W.S., and C.E. Lewis|Residues in Soil, Pasture and Grazing Dairy Cattle after the Incorporation of Dieldrin and Heptachlor into Soil Before Sowing|Aust. J. Exp. Agric. Anim. Husb.22:106-115|1982|10.1071/EA9820106
36788|T||Gile,J.D., J.B. Beaver, and R. Fink|The Effect of Chemical Carriers on Avian LC50 Toxicity Tests|Bull. Environ. Contam. Toxicol.31:195-202|1983|10.1007/BF01607893
36789|T||Gile,J.D., and J.W. Gillett|Fate of 14C Dieldrin in a Simulated Terrestrial Ecosystem|Arch. Environ. Contam. Toxicol.8:107-124|1979|10.1007/BF01055145
36792|T||Gillett,J.W., and G.H. Arscott|Microsomal Epoxidation in Japanese Quail: Induction by Dietary Dieldrin|Comp. Biochem. Physiol.30:589-600|1969|10.1016/0010-406X(69)92136-7
36794|T||Gilman,A.P., D.J. Hallett, G.A. Fox, L.J. Allan, W.J. Learning, and D.B. Peakall|Effects of Injected Organochlorines on Naturally Incubated Herring Gull Eggs|J. Wildl. Manag.42(3): 484-493|1978|10.2307/3800808
36795|T||Gilman,A.P., D.B. Peakall, D.J. Hallett, G.A. Fox, and R.J. Norstrom|Herring Gulls (Larus argentatus) as Monitors of Contamination in the Great Lakes|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:280-289|1979|
36797|T||Gilsleider,E., and F.W. Oehme|Some Common Toxicoses in Raptors|Vet. Hum. Toxicol.24(3): 169-170|1982|
36798|T||Ginevan,M.E., D.D. Lane, and L. Greenberg|Ambient Air Concentration of Sulfur Dioxide Affects Flight Activity in Bees|Proc. Natl. Acad. Sci. U.S.A.77(10): 5631-5633|1980|10.1073/pnas.77.10.5631
36800|T||Giri,S.N., D.H. Gribble, and S.A. Peoples|Distribution and Binding of Radioactivity in the Starling After Intravenous Administration of (14C)3-Chloro-P-Toluidine|Exp. Mol. Pathol.24:392-404|1976|10.1016/0014-4800(76)90073-3
36801|T||Giri,S.N., S.A. Peoples, G.V. Llaguno, and R.L. Mull|Oral Toxicity of Azinphosmethyl in Horses|Am. J. Vet. Res.35(8): 1031-1035|1974|
36805|T||Gish,C.D., and N.J. Chura|Toxicity of DDT to Japanese Quail as Influenced by Body Weight, Breeding Condition, and Sex|Toxicol. Appl. Pharmacol.17:740-751|1970|10.1016/0041-008X(70)90049-9
36806|T||Gish,C.D., and D.L. Hughes|Residues of DDT, Dieldrin and Heptachlor in Earthworms During Two Years Following Application|U.S.Fish and Wildl.Ser.Spec.Sci.Rep.No.241, Washington, DC:15 p.|1982|
36810|T||Glahn,J.F., and L.D. Lamper|Hazards to Geese from Exposure to Zinc Phosphide Rodenticide Baits|Calif. Fish Game69(2): 105-114|1983|
36813|T||Glick,B.|Antibody-Mediated Immunity in the Presence of Mirex and DDT|Poult. Sci.53:1476-1485|1974|10.3382/ps.0531476
36814|T||Glickman,A.H., K.D. Wing, and J.E. Casida|Profenofos Insecticide Bioactivation in Relation to Antidote Action and the Stereospecificity of Acetylcholinesterase Inhibition, Reactivation, and Aging|Toxicol. Appl. Pharmacol.73:16-22|1984|10.1016/0041-008X(84)90047-4
36816|T||Godfrey,M.E.R., and C.P. Lyman|Preliminary Dosing Trials of a New Anticoagulant, Brodifacoum, as a Toxicant for the Rabbit, Oryctolagus cuniculus (L.)|N. Z. J. Exp. Agric.8:1-5|1980|10.1080/03015521.1980.10426224
36817|T||Godfrey,M.E.R., T.C. Reid, and H.J.F. McAllum|The Acute Oral Toxicity of the Anticoagulant Brodifacoum to Dogs|N. Z. J. Exp. Agric.9:147-149|1981|10.1080/03015521.1981.10427819
36818|T||Goehring,T.B., I.S. Palmer, O.E. Olson, G.W. Libal, and R.C. Wahlstrom|Toxic Effects of Selenium on Growing Swine fed Corn-Soybean Meal Diets|J. Anim. Sci.59(3): 733-737|1984|10.2527/jas1984.593733x
36819|T||Golab,T., R.J. Herberg, E.W. Day, A.P. Raun, F.J. Holzer, and G.W. Probst|Fate of Carbon-14 Trifluralin in Artificial Rumen Fluid and in Ruminant Animals|J. Agric. Food Chem.17(3): 576-580|1969|10.1021/jf60163a030
36824|T||Goldstein,E., R. Amavis, R. Cabridenc, C. Gilliard, and R. Schubert|Prevention of Ecotoxicological Effects in the Earth Environment Analysis of Methods Available for Birds|Symposium on Terrestrial Ecotoxicology, les Arc, France:51 p.|1984|
36825|T||Goldstein,J.A., J.R. Hass, P. Linko, and D.J. Harvan|2,3,7,8-Tetrachlorodibenzofuran in a Commercially Available 99% Pure Polychlorinated Biphenyl Isomer Identified as the Inducer of Hepatic Cytochrome P-448 and Aryl Hydrocarbon Hydroxylase in the Rat|Drug Metab. Dispos.6(3): 258-264|1978|
36826|T||Goldstein,J.A., P. Hickman, H. Bergman, J.D. McKinney, and M.P. Walker|Separation of Pure Polychlorinated Biphenyl Isomers into Two Types of Inducers on the Basis of Induction of Cytochrome P-450 or P-448|Chem.-Biol. Interact.17:69-87|1977|10.1016/0009-2797(77)90073-4
36827|T||Goldstein,J.A., P. Hickman, H. Bergman, and J.G. Vos|Hepatic Porphyria Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Mouse|Res. Commun. Chem. Pathol. Pharmacol.6(3): 919-928|1973|
36831|T||Gonzalez,S.S., S.D. Farlin, and C.A. Baile|Effect of Elfazepam on Apparent Digestibility, Intake and Gain in Sheep|J. Anim. Sci.49(4): 1096-1100|1979|10.2527/jas1979.4941096x
36832|T||Goodman,D.R., R.C. James, and R.D. Harbison|Placental Toxicology|Food Chem. Toxicol.20:123-128|1982|10.1016/S0278-6915(82)80018-5
36833|T||Gooneratne,S.R., and J.M. Howell|Creatine Kinase Release and Muscle Changes in Chronic Copper Poisoning in Sheep|Res. Vet. Sci.28:351-361|1980|10.1016/S0034-5288(18)32722-X
36834|T||Gopinath,C., and J.M. Howell|Experimental Chronic Copper Toxicity in Sheep.  Changes that Follow the Cessation of Dosing at the Onset of Haemolysis|Res. Vet. Sci.19:35-43|1975|10.1016/S0034-5288(18)33551-3
36835|T||Gopinath,C., G.A. Hall, and J.M. Howell|The Effect of Chronic Copper Poisoning on the Kidneys of Sheep|Res. Vet. Sci.16:57-69|1974|10.1016/S0034-5288(18)33775-5
36836|T||Gordon,J.J., R.H. Inns, M.K. Johnson, L. Leadbeater, M.P. Maidment, D.G. Upshall, G.H. Cooper, and R.L. Rickard|The Delayed Neuropathic Effects of Nerve Agents and Some Other Organophosphorus Compounds|Arch. Toxicol.52:71-82|1983|10.1007/BF00354767
36837|T||Gorman,M.L., and C.E. Simms|Lack to Effect of Ingested Forties Field Crude Oil on Avian Growth|Mar. Pollut. Bull.9:273-276|1978|10.1016/0025-326X(78)90610-0
36838|T||Gorsline,J., and W.N. Holmes|Variations with Age in the Adrenocortical Responses of Mallard Ducks (Anas platyrhynchos) Consuming Petroleum-Contaminated Food|Bull. Environ. Contam. Toxicol.29:146-152|1982|10.1007/BF01606142
36841|T||Gorsline,J., and W.N. Holmes|Suppression of Adrenocortical Activity in Mallard Ducks Exposed to Petroleum-Contaminated Food|Arch. Environ. Contam. Toxicol.11(4): 497-502|1982|10.1007/BF01056078
36842|T||Gorsline,J., and W.N. Holmes|Effects of Petroleum on Adrenocortical Activity and on Hepatic Naphthalene-Metabolizing Activity in Mallard Ducks|Arch. Environ. Contam. Toxicol.10(6): 765-777|1981|10.1007/BF01054860
36843|T||Gorsline,J., W.N. Holmes, and J. Cronshaw|The Effects of Ingested Petroleum on the Naphthalene-Metabolizing Properties of Liver Tissue in Seawater-Adapted Mallard Ducks (Anas platyrhynchos)|Environ. Res.24:377-390|1981|10.1016/0013-9351(81)90167-5
36845|T||Gottschalk,J.S.|Wildlife Research-Problems, Programs, Progress, 1967; U.S. Fish and Wildlife Service, Bureau of Sport Fisheries and Wildlife, Resource Publication|U.S.Fish and Wildlife Service, Washington Dc74:45-104|1969|
36847|T||Gough,A.W., and L. Silo|Unidentified Kidney Inclusion Bodies in A Lead-Poisoned Lorikeet|J. Wildl. Dis.12:390-391|1976|10.7589/0090-3558-12.3.390
36848|T||Grabowski,C.T.|Plasma Proteins and Colloid Osmotic Pressure of Blood of Rat Fetuses Prenatally Exposed to Mirex|J. Toxicol. Environ. Health7:705-714|1981|10.1080/15287398109530013
36849|T||Grabowski,C.T., and D.B. Payne|An Electrocardiographic Study of Cardiovascular Problems in Mirex-fed Rat Fetuses|Teratology22:167-177|1980|10.1002/tera.1420220205
36850|T||Gradiski,D., J. Vinot, D. Zissu, J.C. Limasset, M. Lafontaine, and A. Blachere|The Carcinogenic Effect of A Series of Petroleum-Derived Oils on the Skin of Mice|Environ. Res.32:258-268|1983|10.1016/0013-9351(83)90110-X
36851|T||Graf,G., S. Guttman, and G. Barrett|The Effects of an Insecticide Stress on Genetic Composition and Population Dynamics of a Population of Feral Mus musculus|Comp. Biochem. Physiol. C Comp. Pharmacol.55:103-110|1976|10.1016/0306-4492(76)90031-9
36854|T||Grant,D.L., and W.E.J. Phillips|The Effect of Age and Sex on the Toxicity of Aroclor 1254, a Polychlorinated Biphenyl, in the Rat|Bull. Environ. Contam. Toxicol.12(2): 145-152|1974|10.1007/BF01684951
36857|T||Grassle,B., and A. Biessmann|Effects of DDT, Polychlorinated Biphenyls and Thiouracil on Circulating Thyroid Hormones, Thyroid Histology and Eggshell Quality in Japanese Quail (Coturnix coturnix japonica)|Chem.-Biol. Interact.42:371-377|1982|10.1016/0009-2797(82)90080-1
36858|T||Grau,C.R., T. Roudybush, J. Dobbs, and J. Wathen|Altered Yolk Structure and Reduced Hatchability of Eggs from Birds Fed Single Doses of Petroleum Oils|Science195:779-781|1977|10.1126/science.836586
36859|T||Graves,J.B., F.L. Bonner, W.F. McKnight, A.B. Watts, and E.A. Epps|Residues in Eggs, Preening Glands, Liver, and Muscle from Feeding Dieldrin-Contaminated Rice Bran to Hens and Its Effect on Egg Production, Egg Hatch, and Chick Survival|Bull. Environ. Contam. Toxicol.4(6): 375-383|1969|10.1007/BF01560969
36860|T||Graves,J.B., W.F. McKnight, A.B. Watts, F.L. Bonner, and E.A. Epps|Residues in Eggs and Tissues of Hens fed Dieldrin-Contaminated Rice Bran|La. Agric.12(4): 14-15|1969|
36861|T||Gray,L.E.,Jr., R.J. Kavlock, N. Chernoff, J. Ostby, and J. Ferrell|Postnatal Developmental Alterations Following Prenatal Exposure to the Herbicide 2,4-Dichlorophenyl-p-nitrophenyl Ether:  A Dose Response Evaluation in the Mouse|Toxicol. Appl. Pharmacol.67:1-14|1983|10.1016/0041-008X(83)90239-9
36862|T||Gray,M.E., and J.R. Coats|Effects of an Insecticide on a Herbicide Combination on Nontarget Arthropods in a Cornfield|Environ. Entomol.12(4): 1171-1174|1983|10.1093/ee/12.4.1171
36863|T||Gray,T.J.B., K.R. Butterworth, I.F. Gaunt, P. Grasso, and S.D. Gangolli|Short-Term Toxicity Study of Zinc Dibutyldithiocarbamate in Rats|Food Cosmet. Toxicol.16:237-242|1978|10.1016/S0015-6264(76)80519-6
36864|T||Greaves,J.H., and A.B. Rehman|The Susceptibility of Tatera indica, Nesokia indica and Bandicota bengalensis to Three Anticoagulant Rodenticides|J. Hyg.78:75-84|1977|10.1017/S0022172400055959
36866|T||Greenburg,R.R., R.W. Risebrough, and D.W. Anderson|p,p'-DDE-Induced Changes in the Organic and Inorganic Structure of Eggshells of the Mallard, Anas platyrhynchos|Toxicol. Appl. Pharmacol.48:279-286|1979|10.1016/0041-008X(79)90034-6
36869|T||Greenwood,M., and H. Huddart|The Effect of an Organochlorine and an Organophosphorus Insecticide on the Fine Structure of Flight Muscle and the Implications for the Maintenance of Contractility|Comp. Biochem. Physiol. A Comp. Physiol.51:475-481|1975|10.1016/0300-9629(75)90397-7
36870|T||Greer,N.I., M.J. Janes, and D.W. Beardsley|Toxicity of Crotoxyphos Insecticide to Brahman Calves and Brahman and Crossbred Yearling Steers|Fla. Entomol.56(3): 243-250|1973|10.2307/3493131
36871|T||Gregory,W.W., J.K. Reed, and L.G. Webb|Bioaccumulation of Endrin from Natural Food Sources in the Eastern Bobwhite Quail, Colinus Virginianus virginianus l|Proc. Ann. Conf. S. E. Assoc. Game Fish Comm.25:156-164|1972|
36872|T||Greichus,A., and Y.A. Greichus|Some Factors Affecting the Nesting Success of Pelicans and Cormorants in South Dakota|Proc. S. D. Acad. Sci.52:241-247|1973|
36873|T||Greichus,Y.A., D.J. Call, B.M. Ammann, A. Greichus, and H. Shave|Physiological Effects of Polychlorinated Biphenyls or a Combination of DDT, DDD, and DDE in Penned White Pelicans|Arch. Environ. Contam. Toxicol.3:330-343|1975|10.1007/BF02220745
36877|T||Greichus,Y.A., G.W. Libal, and D.D. Johnson|Diagnosis and Physiologic Effects of Pentachlorophenols on Young Pigs. Part 1. Effects of Purified Pentachlorophenol|Bull. Environ. Contam. Toxicol.23:418-422|1979|10.1007/BF01769981
36879|T||Greig,J.B., G. Jones, W.H. Butler, and J.M. Barnes|Toxic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Food Cosmet. Toxicol.11:585-595|1973|10.1016/S0015-6264(73)80329-3
36881|T||Griminger,P.|Effect of Copper Sulfate on Egg Production and Shell Thickness|Poult. Sci.56(1): 359-361|1977|10.3382/ps.0560359
36883|T||Grodzinski,W., and T.P. Yorks|Species and Ecosystem Level Bioindicators of Airborne Pollution: An Analysis of Two Major Studies|Water Air Soil Pollut.16:33-53|1981|10.1007/BF01047040
36890|T||Gromysz-Kalkowska,K., E. Szubartowska, and J. Sulikowska|Effect of the Pesticide Trichlorfon on the Peripheral Blood of the Quail|Folia Biol. (Krakow)29(3-4): 185-200|1981|
36891|T||Grosch,D.S.|Alterations in the Reproductive Performance of Habrobracon Females Following Combined Treatments with Ethylurea and Sodium Nitrate or Nitrate|Mutat. Res.88:179-189|1981|10.1016/0165-1218(81)90017-3
36897|T||Grue,C.E., G.V.N. Powell, and C.H. Gorsuch|Assessing Effects of Organophosphates on Songbirds: Comparison of a Captive and a Free-Living Population|J. Wildl. Manag.46(3): 766-768|1982|10.2307/3808571
36899|T||Gruffydd-Jones,T.J., R.J. Evans, P. Brown, and K. Sullivan|Dieldrin Poisoning of Cats After Woodworm Treatment|Vet. Rec.108:540-|1981|10.1136/vr.108.25.540
36904|T||Guirguis,G.N., and W.A. Brindley|Insecticide Susceptibility and Response to Selected Pollens of Larval Alfalfa Leafcutting Bees, Megachile pacifica (Panzer) (Hymenoptera: Megachilidae)|Environ. Entomol.3(4): 691-694|1974|10.1093/ee/3.4.691
36905|T||Gullvag,B.M., E.M. Ophus, and B. Eskeland|Lead Poisoning of Japanese Quail (Coturnix coturnix japonica)|Acta Zool. (Stockh.)56:163-175|1975|10.1111/j.1463-6395.1975.tb00092.x
36907|T||Gupta,B.N., E.E. McConnell, J.A. Goldstein, M.W. Harris, and J.A. Moore|Effects of a Polybrominated Biphenyl Mixture in the Rat and Mouse I. Six-Month Exposure|Toxicol. Appl. Pharmacol.68(1): 1-18|1983|10.1016/0041-008X(83)90350-2
36908|T||Gupta,B.N., E.E. McConnell, J.A. Moore, and J.K. Haseman|Effects of a Polybrominated Biphenyl Mixture in the Rat and Mouse 2. Lifetime Study|Toxicol. Appl. Pharmacol.68:19-35|1983|10.1016/0041-008X(83)90351-4
36909|T||Gupta,B.N., J.G. Vos, J.A. Moore, J.G. Zinkl, and B.C. Bullock|Pathologic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Laboratory Animals|Environ. Health Perspect.5:125-140|1973|10.1289/ehp.7305125
36910|T||Gupta,P.K., and S.V. Chandra|The Toxicity of Endosulfan in Rabbits|Bull. Environ. Contam. Toxicol.14(5): 513-519|1975|10.1007/BF01683364
36911|T||Gupta,P.K., and S.V. Chandra|Toxicity of Endosulfan After Repeated Oral Administration to Rats|Bull. Environ. Contam. Toxicol.18:378-384|1977|10.1007/BF01683436
36913|T||Gupta,P.K., and J.D. Kohli|Acute Toxicity of Iomexa - Petroleum Weedicide|Bull. Environ. Contam. Toxicol.14(2): 241-249|1975|10.1007/BF01701321
36914|T||Gupta,P.K., and B.S. Paul|Bioavailability and Metabolism of [32P]Malathion in the Hen|Environ. Res.12:334-339|1976|10.1016/0013-9351(76)90043-8
36915|T||Gupta,P.K., and B.S. Paul|Influence of Dietary Intake of Malathion on the Haematology and Plasma Electrolytes in Chickens|Poult. Sci.51:1574-1577|1972|10.3382/ps.0511574
36916|T||Gupta,P.K., and B.S. Paul|Effect of Malathion on Blood Cholinesterase and Its Toxicity in Gallus domesticus|Indian J. Exp. Biol.9:455-457|1971|
36917|T||Gupta,P.K., and B.S. Paul|Biological Fate of 32P Malathion in Gallus domesticus (Desi Poultry Birds)|Toxicology7:169-177|1977|10.1016/0300-483X(77)90062-2
36918|T||Gupta,R.C., and B.S. Paul|"""No-Effect-Level"" of Malathion (O,O'-Dimethyl Dithiophosphate of Diethyl Mercaptosuccinate) in Bubalus bubalis"|Bull. Environ. Contam. Toxicol.20:819-825|1978|10.1007/BF01683606
36919|T||Gupta,R.C., and B.S. Paul|Influence of Malathion (O,O'-Dimethyl Dithiophosphate of Diethyl Mercaptosuccinate) on Body Enzymes in Dermal Subacute Toxicity Studies in Bubalus bubalis Species|Bull. Environ. Contam. Toxicol.20:811-818|1978|10.1007/BF01683605
36920|T||Gupta,R.C., and B.S. Paul|Sub-Acute Toxicity Study of Malathion in Bubalus bubalis (Buffalo)|Pesticides 11(8): 26-29|1977|
36921|T||Gupta,R.C., J.E. Thornburg, D.B. Stedman, and F. Welsch|Effect of Subchronic Administration of Methyl Parathion on In Vivo Protein Synthesis in Pregnant Rats and Their Conceptuses|Toxicol. Appl. Pharmacol.72:457-468|1984|10.1016/0041-008X(84)90122-4
36922|T||Gupta,R.C., F. Welsch, J.E. Thornburg, and B.S. Paul|Effect of Chloramphenicol Pretreatment on Malathion-Induced Acute Toxicity in the Rat|J. Toxicol. Environ. Health11:897-905|1983|10.1080/15287398309530393
36923|T||Gustine,D.L., B.G. Moyer, P.J. Wangsness, and J.S. Shenk|Ruminal Metabolism of 3-Nitropropanoyl-D-Glucopyranoses Fromcrownvetch|J. Anim. Sci.44(6): 1107-1111|1977|10.2527/jas1977.4461107x
36924|T||Gutenmann,W.H., and D.J. Lisk|Metabolism of Planavin Herbicide in a Lactating Cow|J. Dairy Sci.53(9): 1289-1291|1970|10.3168/jds.S0022-0302(70)86384-6
36925|T||Gutenmann,W.H., and D.J. Lisk|Metabolic Fate of Methyl 2,3,5,6-Tetrachloro-N-Methoxy-N-Methylterephthalamate (OCS-21693) Herbicide in a Lactating Cow|J. Dairy Sci.51(1): 1855-1857|1968|10.3168/jds.S0022-0302(68)87294-7
36926|T||Gutenmann,W.H., and D.J. Lisk|Metabolism and Excretion of Bromacil in Milk of Dairy Cows|J. Agric. Food Chem.18(1): 128-129|1970|10.1021/jf60167a022
36927|T||Gutenmann,W.H., and D.J. Lisk|Excretory Pathway of Terbacil (Sinbar) in Lactating Cows|J. Agric. Food Chem.17(5): 1011-1013|1969|10.1021/jf60165a035
36928|T||Gutenmann,W.H., and D.J. Lisk|Metabolic Studies with Chloroneb Fungicide in a Lactating Cow|J. Agric. Food Chem.17(5): 1008-1010|1969|10.1021/jf60165a041
36929|T||Gutenmann,W.H., and D.J. Lisk|Metabolic Studies with Bexide (Herbisan) Herbicide in the Dairy Cow|J. Agric. Food Chem.19(1): 200-201|1971|10.1021/jf60173a045
36930|T||Gutenmann,W.H., and D.J. Lisk|Tissue Storage and Excretion in Milk of Polybrominated Biphenyls in Ruminants|J. Agric. Food Chem.23(5): 1005-1007|1975|10.1021/jf60201a008
36931|T||Gutenmann,W.H., and D.J. Lisk|A Feeding Study with Diphenylamine in a Dairy Cow|Bull. Environ. Contam. Toxicol.13(2): 177-180|1975|10.1007/BF01721733
36932|T||Gutenmann,W.H., L.E.,Jr. St.John, and D.J. Lisk|Metabolic Studies with Gardona Insecticide in the Dairy Cow|J. Agric. Food Chem.19(6): 1259-1260|1971|10.1021/jf60178a037
36933|T||Guthrie,F.E., and W.E. Donaldson|Distribution of DDT and Dieldrin in the Avian Embryo|Toxicol. Appl. Pharmacol.16:475-481|1970|10.1016/0041-008X(70)90021-9
36934|T||Guthrie,F.E., R.J. Monroe, and C.O. Abernathy|Response of the Laboratory Mouse to Selection for Resistance to Insecticides|Toxicol. Appl. Pharmacol.18:92-101|1971|10.1016/0041-008X(71)90318-8
36936|T||Gwynn,G.W.|Effects of a Chemosterilant on Fecundity of Wild Norway Rats|J. Wildl. Manag.36(2): 550-556|1972|10.2307/3799087
36937|T||Gwynn,G.W.|Field Trial of a Chemosterilant in Wild Norway Rats|J. Wildl. Manag.36(3): 823-828|1972|10.2307/3799436
36941|T||Gyrd-Hansen,N., and S. Dalgaard-Mikkelsen|The Effect of Phenoxy-Herbicides on the Hatchability of Eggs and the Viability of the Chicks|Acta Pharmacol. Toxicol.35:300-308|1974|10.1111/j.1600-0773.1974.tb00750.x
36943|T||Gyrd-Hansen,N., and I. Kraul|Obidoxime Reactivation of Organophosphate-Inhibited Cholinesterase Activity in Pigs|Acta Vet. Scand.25:86-95|1984|10.1186/BF03547282
36944|T||Haas,P.J., W.B. Buck, J.E. Hixon, R.D. Shanks, W.C. Wagner, P.G. Weston, and H.L. Whitmore|Effect of Chlorpyrifos on Holstein Steers and Testosterone-Treated Holstein Bulls|Am. J. Vet. Res.44(5): 879-881|1983|
36946|T||Hacker,M.P., R.A. Newman, and C.B. Hong|The Effect of L-3,4-Dehydroproline on the Antitumor Activity and Toxicity of Bleomycin|Toxicol. Appl. Pharmacol.69:102-109|1983|10.1016/0041-008X(83)90125-4
36947|T||Hadani,A., and M.N. Egyed|Use of the Chick Embryo for Testing the Toxicity of Cholinesterase-Inhibiting Compounds|Toxicol. Appl. Pharmacol.10:313-321|1967|10.1016/0041-008X(67)90113-5
36948|T||Haegele,M.A., and R.H. Hudson|DDE Effects on Reproduction of Ring Doves|Environ. Pollut.4:53-57|1973|
36949|T||Hafez,Y., and F.H. Kratzer|The Effect of Dietary Vanadium on Fatty Acid and Cholesterol Synthesis and Turnover in the Chick|J. Nutr.106:249-257|1976|10.1093/jn/106.2.249
36950|T||Hafez,Y.S.M., E. Chavez, P. Vohra, and F.H. Kratzer|Methionine Toxicity in Chicks and Poults|Poult. Sci.57:699-703|1978|10.3382/ps.0570699
36951|T||Hafez,Y.S.M., and F.H. Kratzer|The Effect of Diet on the Toxicity of Vanadium|Poult. Sci.55:918-922|1976|10.3382/ps.0550918
36952|T||Hafez,Y.S.M., and F.H. Kratzer|The Effect of Pharmacological Levels of Dietary Vanadium on the Egg Production, Shell Thickness and Egg Yolk Cholesterol in Laying Hens and Coturnix|Poult. Sci.55:923-926|1976|10.3382/ps.0550923
36954|T||Hagley,E.A.C.|Pesticides, Pollination, and Fruit Set on Apple|Can. Entomol.115(11): 1535-1536|1983|10.4039/Ent1151535-11
36955|T||Hagley,E.A.C., D.J. Pree, C.M. Simpson, and A. Hikichi|Toxicity of Insecticides to Parasites of the Spotted Tentiform Leafminer (Lepidoptera:  Gracillariidae)|Can. Entomol.113:899-906|1981|10.4039/Ent113899-10
36956|T||Haim,A., B. Nicolaisen, and N.A. Oritsland|Crude Oil - Its Impact on the Rat's Heat Balance|Comp. Biochem. Physiol. A Comp. Physiol.78(2): 259-261|1984|10.1016/0300-9629(84)90142-7
36960|T||Halford,D.K., and O.D. Markham|Radiation Dosimetry of Small Mammals Inhabiting A Liquid Radioactive Waste Disposal Area|Ecology59(5): 1047-1054|1978|10.2307/1938557
36963|T||Hall,F.R.|Effects of Synthetic Pyrethroids on Major Insect and Mite Pests of Apple|J. Econ. Entomol.72(3): 441-446|1979|10.1093/jee/72.3.441
36964|T||Hall,G.A., and I.M. Reid|The Effects of Hexachlorophane on the Nervous System of Sheep|J. Pathol.114:241-246|1974|10.1002/path.1711140410
36965|T||Hall,L.L., R.W. Kilpper, F.A. Smith, D.A. Morken, and H.C. Hodge|Kinetic Model of Fluoride Metabolism in the Rabbit|Environ. Res.13(2): 285-302|1977|10.1016/0013-9351(77)90105-0
36966|T||Hall,R.D., M.C. Foehse, and J.M. Vandepopuliere|Application Phenomena and Efficacy of Concentrated Acaricide Dusts for Northern Fowl Mite Control on Caged Laying Hens|Poult. Sci.60:1187-1194|1981|10.3382/ps.0601187
36967|T||Hall,R.D., J.M. Vandepopuliere, L.M. English, W. Jaynes, J.J. Lyons, K.E. Doisy, and M.C. Foehse|Comparative Evaluation of Four Registered Acaricides for Field Control of Northern Fowl Mites on Caged Laying Hens|Poult. Sci.59:2424-2430|1980|10.3382/ps.0591795
36968|T||Hall,R.J.|Why Is Environmental Contamination Research Done by Wildlife Management Agencies?|In: K.Sabol (Ed), Trans. of the 48th N. Am. Wildl. and Nat. Resour. Conf., Mar. 19-24, 1983, Kansas City, MO, Wildl. Manag. Inst., Washington, D.C.:238-239|1983|
36970|T||Hall,R.J., and D.R.,Jr. Clark|Responses of the Iguanid Lizard Anolis carolinensis to Four Organophosphorus Pesticides|Environ. Pollut. A.28(1): 45-52|1982|10.1016/0143-1471(82)90044-7
36972|T||Hallett,D.J., K.S. Khera, D.R. Stoltz, I. Chu, D.C. Villeneuve, and G. Trivett|Photomirex:  Synthesis and Assessment of Acute Toxicity, Tissue Distribution, and Mutagenicity|J. Agric. Food Chem.26(2): 388-391|1978|10.1021/jf60216a001
36975|T||Hamilton,G.A., A.D. Ruthven, E. Findlay, K. Hunter, and D.A. Lindsay|Wildlife Deaths in Scotland Resulting from Misuse of Agricultural Chemicals|Biol. Conserv.21:315-326|1981|10.1016/0006-3207(81)90085-9
36976|T||Hamir,A.N.|Lead Poisoning of Dogs in Australia|Vet. Rec.108:438-439|1981|10.1136/vr.108.20.438
36977|T||Hammock,B.D., and K. Ota|Differential Induction of Cytosolic Epoxide Hydrolase, Microsomal Epoxide Hydrolase, and Glutathione S-Transferase Activities|Toxicol. Appl. Pharmacol.71:254-265|1983|10.1016/0041-008X(83)90342-3
36979|T||Hammond,A.C., J.R. Carlson, and R.G. Breeze|Indole Toxicity in Cattle|Vet. Rec.107:344-346|1980|10.1136/vr.107.15.344
36981|T||Hanny,B., G. Loper, and J. Harvey|Chemical Detection of Penncap-M Capsules in Pollen, and Methyl Parathion Residues in Honey Bees (Apis mellifera L.) and Bee Products from Colonies near Arizona Cotton Fields Treated with Penncap-M - 1980|Am. Bee J.123:526-529|1983|
36982|T||Hansard,S.L., C.B. Ammerman, K.R. Fick, and S.M. Miller|Performance and Vanadium Content of Tissues in Sheep as Influenced by Dietary Vanadium|J. Anim. Sci.46(4): 1091-1095|1978|10.2527/jas1978.4641091x
36984|T||Hansen,E., O. Meyer, and E. Kristiansen|Assessment of Teratological Effect and Developmental Effect of Maleic Hydrazide Salts in Rats|Bull. Environ. Contam. Toxicol.33:184-192|1984|10.1007/BF01625529
36985|T||Hansen,L.G., P.D. Beamer, D.W. Wilson, and R.L. Metcalf|Effects of Feeding Polychlorinated Biphenyls to Broiler Cockerels in Three Dietary Regimes|Poult. Sci.55:1084-1088|1976|10.3382/ps.0551084
36986|T||Hansen,L.G., C.S. Byerly, R.L. Metcalf, and R.F. Bevill|Effect of a Polychlorinated Biphenyl Mixture on Swine Reproduction and Tissue Residues|Am. J. Vet. Res.36(1): 23-26|1975|
36987|T||Hansen,L.G., S.B. Dorn, and P.D. Beamer|Residues and Effects from Feeding High Concentrations of Hexachlorobenzene to Broiler Cockerels|Poult. Sci.58:81-86|1979|10.3382/ps.0580081
36988|T||Hansen,L.G., S.B. Dorn, S.M. Sundlof, and R.S. Vogel|Toxicity, Accumulation, and Depletion of Hexachlorobenzene in Laying Chickens|J. Agric. Food Chem.26(6): 1369-1374|1978|10.1021/jf60220a005
36990|T||Hansen,L.G., L.G.M.T. Tuinstra, C.A. Kan, J.J.T.W.A. Strik, and J.H. Koeman|Accumulation of Chlorobiphenyls in Chicken Fat and Liver After Feeding Aroclor 1254 Directly or Fat from Swine fed Aroclor 1254|J. Agric. Food Chem.31:254-260|1983|10.1021/jf00116a017
36991|T||Hansen,L.G., D.W. Wilson, and C.S. Byerly|Effects on Growing Swine and Sheep of Two Polychlorinated Biphenyls|Am. J. Vet. Res.37(9): 1021-1024|1976|
36993|T||Hansen,L.G., D.W. Wilson, R.L. Metcalf, and M.E. Welborn|Residues of Polychlorinated Biphenyl (PCB) Components in Broiler Cockerels Receiving Two Aroclors in Three Dietary Variations|J. Agric. Food Chem.24(2): 256-261|1976|10.1021/jf60204a045
36994|T||Hansen,R.W., and E.A. Osgood|Effects of a Split Application of Sevin-4-Oil on Pollinators and Fruit Set in a Spruce-Fir Forest|Can. Entomol.116:457-464|1984|10.4039/Ent116457-3
36996|T||Hansen,W.H., M.L. Quaife, R.T. Habermann, and O.G. Fitzhugh|Chronic Toxicity of 2,4-Dichlorophenoxyacetic Acid in Rats and Dogs|Toxicol. Appl. Pharmacol.20:122-129|1971|10.1016/0041-008X(71)90096-2
36997|T||Hapke,H.J.|Organo-Halogenated Compounds in Farm and Domestic Animals|In: Luepke,N.P.(Ed) Monitoring Environmental Materials and Specimen Banking.Proc.of the International Workshop, 23-28 Oct 1978, West Berlin:313-319|1979|
37000|T||Haque,A., I. Schuphan, and W. Ebing|Bioavailability of Conjugated and Soil-Bound [14C]'Hydroxymonolinuron'-beta-D-Glucoside Residues to Earthworms and Ryegrass|Pestic. Sci.13:219-228|1982|10.1002/ps.2780130302
37001|T||Hara,A.H., and H.K. Kaya|Toxicity of Selected Organophosphate and Carbamate Pesticides to Infective Juveniles of the Entomogenous Nematode Neoaplectana carpocapsae (Rhabditida: Steinernematidae)|Environ. Entomol.12:496-501|1983|10.1093/ee/12.2.496
37002|T||Harbers,L.H., C.W. Pitts, K.F. Harrison, L.L. Tucker, and E.F. Smith|Effect of Feeding Insecticide to Cattle on Growing and Finishing Rations|Kansas State University. Agricultural Experiment Station557:50-52|1972|
37004|T||Harbison,R.D.|Parathion-Induced Toxicity and Phenobarbital-Induced Protection Against Parathion During Prenatal Development|Toxicol. Appl. Pharmacol.32:482-493|1975|10.1016/0041-008X(75)90113-1
37005|T||Harbison,R.D., and B.A. Becker|Diphenylhydantoin Teratogenicity in Rats|Toxicol. Appl. Pharmacol.22:193-200|1972|10.1016/0041-008X(72)90168-8
37007|T||Harms,R.H., A.S. Arafa, C.F. Simpson, and R.D. Miles|Influence of Protamone on Fatty Liver Syndrome in Commerciallaying Hens|Poult. Sci.61:2370-2374|1982|10.3382/ps.0612370
37008|T||Harr,J.R., R.R. Claeys, J.F. Bone, and T.W. McCorcle|Dieldrin Toxicosis: Rat Reproduction|Am. J. Vet. Res.31(1): 181-189|1970|
37009|T||Harris,C.R., and F. Gore|Toxicological Studies on Cutworms. VIII. Toxicity of Three Insecticides to the Various Stages in the Development of the Darksided Cutworm|J. Econ. Entomol.64(5): 1049-1050|1971|10.1093/jee/64.5.1049
37010|T||Harris,J.R., and L. Rose|Toxicity of Polychlorinated Biphenyls in Poultry|J. Am. Vet. Med. Assoc.161(11): 1584-1586|1972|
37011|T||Harris,M.P., and D. Osborn|Effect of a Polychlorinated Biphenyl on the Survival and Breeding of Puffins|J. Appl. Ecol.18:471-479|1981|10.2307/2402408
37012|T||Harris,M.W., J.A. Moore, J.G. Vos, and B.N. Gupta|General Biological Effects of TCDD in Laboratory Animals|Environ. Health Perspect.5:101-109|1973|10.1289/ehp.7305101
37013|T||Harris,P.N., W.R. Gibson, and R.D. Dillard|Oncogenicity of 1-(4-Chlorophenyl)-1-Phenyl-2-Propynyl Carbamate for Rats|Toxicol. Appl. Pharmacol.21:414-418|1972|10.1016/0041-008X(72)90161-5
37014|T||Harris,S.J., H.C. Cecil, and J. Bitman|Embryotoxic Effects of Polybrominated Biphenyls (PBB) in Rats|Environ. Health Perspect.23:295-300|1978|10.1289/ehp.7823295
37016|T||Harris,S.J., H.C. Cecil, J. Bitman, and R.J. Lillie|Antibody Response and Reduction in Bursa of Fabricius and Spleen Weights of Progeny of Chickens Fed PCBs|Poult. Sci.55:1933-1940|1976|10.3382/ps.0551933
37017|T||Harrison,D.L., J.C.M. Mol, and W.B. Healy|DDT Residues in Sheep from the Ingestion of Soil|N. Z. J. Agric. Res.13:664-672|1970|10.1080/00288233.1970.10421613
37022|T||Hartgrove,R.W., S.G. Hundley, and R.E. Webb|Characterization of the Hepatic Mixed Function Oxidase System in Endrin-Resistant and -Susceptible Pine Voles|Pestic. Biochem. Physiol.7(2): 146-153|1977|10.1016/0048-3575(77)90026-8
37023|T||Hartner,L.|How do Chlorinated Hydrocarbons Influence Egg Shell Formation?|J. Ornithol.119(3): 339-340|1978|10.1007/BF01643213
37025|T||Harvey,S., H. Klandorf, and J.G. Phillips|Reproductive Performance and Endocrine Responses to Ingested Petroleum in Domestic Ducks (Anas platyrhynchos)|Gen. Comp. Endocrinol.45:372-380|1981|10.1016/0016-6480(81)90077-0
37026|T||Harvey,S., P.J. Sharp, and J.G. Phillips|Influence of Ingested Petroleum on the Reproductive Performance and Pituitary-Gonadal Axis of Domestic Ducks (Anas platyrhynchos)|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 83-89|1982|10.1016/0306-4492(82)90208-8
37027|T||Harwood,D.J., R.J. Heitzman, and A. Jouquey|A Radioimmunoassay Method for the Measurement of Residues Ofthe Anabolic Agent, Hexoestrol, in Tissues of Cattle and Sh Eep|J. Vet. Pharmacol. Ther.3:245-254|1980|10.1111/j.1365-2885.1980.tb00489.x
37028|T||Haschek,W.M., L. Krook, F.A. Kallfelz, and W.G. Pond|Vitamin D Toxicity. Initial Site and Mode of Action|Cornell Vet.68:324-364|1978|
37029|T||Haschek,W.M., D.J. Lisk, and R.A. Stehn|Accumulation of Lead in Rodents from Two Old Orchard Sites in New York|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:192-199|1979|
37030|T||Haseltine,S.D., M.T. Finley, and E. Cromartie|Reproduction and Residue Accumulation in Black Ducks Fed Toxaphene|Arch. Environ. Contam. Toxicol.9:461-471|1980|10.1007/BF01055298
37031|T||Haseltine,S., and G. Hensler|Growth of Mallards Fed Phosphamidon for 13-Day Periods During Three Different Developmental Stages|Environ. Pollut.25:139-147|1981|10.1016/0143-1471(81)90014-3
37032|T||Haseltine,S., K. Uebelhart, T. Peterle, and S. Lustick|DDE, PTH and Eggshell Thinning in Mallard, Pheasant and Ring Dove|Bull. Environ. Contam. Toxicol.11(2): 139-145|1974|10.1007/BF01684593
37034|T||Haseltine,S.D., and L. Sileo|Response of American Black Ducks to Dietary Uranium: A Proposed Substitute for Lead Shot|J. Wildl. Manag.47(4): 1124-1129|1983|10.2307/3808174
37036|T||Hashimoto,K., S. Akasaka, Y. Takagi, M. Kataoka, T. Otake, Y. Murata, S. Aburada, T. Kitaura, and H. Uda|Distribution and Excretion of (14C)Polychlorinated Biphenyls After Their Prolonged Administration to Male Rats|Toxicol. Appl. Pharmacol.37:415-423|1976|10.1016/0041-008X(76)90203-9
37039|T||Hassan,M.Q., S.J. Stohs, and W.J. Murray|Comparative Ability of TCDD to Induce Lipid Peroxidation in Rats, Guinea Pigs, and Syrian Golden Hamsters|Bull. Environ. Contam. Toxicol.31:649-657|1983|10.1007/BF01606041
37041|T||Hattula,M.L., H. Elo, H. Reunanen, A.U. Arstila, and T.E. Sorvari|Acute and Subchronic Toxicity of 2-Methyl-4-Chlorophenoxyacetic Acid (MCPA) in Male Rat. I. Light Microscopy and Tissue Concentrations of MCPA|Bull. Environ. Contam. Toxicol.18(2): 152-158|1977|10.1007/BF01686061
37042|T||Hatziolos,B.C.|The Effect of Urethan on Newborn Calves|Zentbl. Vetmed. Reihe A17(8): 743-756|1970|10.1111/j.1439-0442.1970.tb01055.x
37043|T||Haufe,W.O.|Interaction of Pesticidal Toxicity, Parasites, and Reversible Anticholinesterase Activity as Stresses on Growth Rate in Cattle Infested with Horn Flies Haematobia irritans L.|Toxicol. Appl. Pharmacol.25:130-144|1973|10.1016/0041-008X(73)90172-5
37047|T||Hayashi,M.|Lead Toxicity in the Pregnant Rat.  1.  The Effect of High-Level Lead on delta-Aminolevulinic Acid Dehydratase Activity in Maternal and Fetal Blood or Tissues|Environ. Res.30:152-160|1983|10.1016/0013-9351(83)90174-3
37048|T||Hayden,J.F., and S.A. Barlow|Structure-Activity Relationships of Organosiloxanes and the Female Reproductive System|Toxicol. Appl. Pharmacol.21:68-79|1972|10.1016/0041-008X(72)90028-2
37049|T||Hayes,A.W., D.B. Presley, and J.A. Neville|Acute Toxicity of Penitrem A in Dogs|Toxicol. Appl. Pharmacol.35:311-320|1976|10.1016/0041-008X(76)90290-8
37051|T||Haynes,R.J.|Effects of DDT on Glycogen and Lipid Levels in Bobwhites|J. Wildl. Manag.36(2): 518-523|1972|10.2307/3799083
37054|T||Hazeltine,W.|Disagreements on Why Brown Pelican Eggs Are Thin|Nature239:410-411|1972|10.1038/239410a0
37055|T||Heath,A.C.G., J.D. Tenquist, and D.M. Bishop|Effects of Pour-on Organophosphate Insecticides and a Diamidide Araricide on the Cattle Tick, Haemaphysalis longicornis|N. Z. J. Exp. Agric.8:79-87|1980|10.1080/03015521.1980.10426238
37058|T||Heck,W.W., and A.S. Heagle|Plants and Insects React to Space Shuttle Exhaust|Agric. Res.A:7-|1982|
37059|T||Hedde,R.D., K.L. Davison, and J.D. Robbins|Dieldrin-14C Metabolism in Sheep Distribution and Isolation of Urinary Metabolites|J. Agric. Food Chem.18(1): 116-119|1970|10.1021/jf60167a039
37060|T||Heeres,J.|Structure-Activity Relationships in A Group of Azoles, with Special Reference to 1,3-Dioxolan-2-Ylmethyl Derivatives|Pestic. Sci.15:268-279|1984|10.1002/ps.2780150309
37061|T||Hegazi,E.M., F.H. El-Gayar, I.A. Rawash, and E.A. Kares|Oral and Residual Toxicities of Some Insecticides to the Adults and Full Grown Larvae of Two Parasites of the Cotton Leafworm Spodoptera littoralis (Boisd.)|Acta. Phytopathol. Acad. Sci. Hung.17(3/4): 301-309|1982|
37062|T||Hegdal,P.L., K.A. Fagerstone, T.A. Gatz, J.F. Glahn, and G.M. Matschke|Hazards to Wildlife Associated with 1080 Baiting for the California Ground Squirrels|Wildl. Soc. Bull.14:11-21|1986|
37064|T||Hegdal,P.L., and T.A. Gatz|Hazards to Wildlife Associated with Underground Strychnine Baiting for Pocket Gophers|In: C.C.Siebe (Ed.) Proceedings Seventh Vertebrate Pest Conference, Monterey, Ca, Vertebrate Pest Council, Publ.Univ.of Ca, Davis:258-266|1976|
37065|T||Heinz,G.H., G.W. Pendleton, A.J. Krynitsky, and L.G. Gold|Selenium Accumulation and Elimination in Mallards|Arch. Environ. Contam. Toxicol.19:374-379|1990|10.1007/BF01054981
37066|T||Heinz,G.H.|Mercury Accumulation in Mallards fed Methylmercury with or Without Added DDE|Environ. Res.42:372-376|1987|10.1016/S0013-9351(87)80203-7
37067|T||Heinz,G.H., and S.D. Haseltine|Avoidance Behavior of Young Black Ducks Treated with Chromium|Toxicol. Lett.8:307-310|1981|10.1016/0378-4274(81)90118-1
37068|T||Heinz,G.H., E.F. Hill, and J.F. Contrera|Dopamine and Norepinephrine Depletion in Ring Doves fed DDE, Dieldrin, and Aroclor 1254|Toxicol. Appl. Pharmacol.53:75-82|1980|10.1016/0041-008X(80)90383-X
37071|T||Hekmati,M., R.L. Bradley, and M.L. Sunde|Use of A Fertile Egg Injection Technique to Assess Toxicity of Chlorinated Compounds Found in Drinking Water|J. Food Prot.46(8): 690-692|1983|10.4315/0362-028X-46.8.690
37076|T||Helmke,P.A., W.P. Robarge, R.L. Korotev, and P.J. Schomberg|Effects of Soil-Applied Sewage Sludge on Concentrations of Elements in Earthworms|J. Environ. Qual.8(3): 322-327|1979|10.2134/jeq1979.00472425000800030012x
37077|T||Henderson,J.D., J.T. Yamamoto, D.M. Fry, J.N. Seiber, and B.W. Wilson|Oral and Dermal Toxicity of Organophosphate Pesticides in the Domestic Pigeon (Columba livia)|Bull. Environ. Contam. Toxicol.52:633-640|1994|10.1007/BF00195480
37078|T||Henderson,B.M., and R.W. Winterfield|Acute Copper Toxicosis in the Canada Goose|Avian Dis.19(2): 385-387|1975|10.2307/1588998
37079|T||Henderson,M., and P.A. Kitos|Do Organophosphate Insecticides Inhibit the Conversion of Tryptophan to NAD+ In Ovo?|Teratology26:173-181|1982|10.1002/tera.1420260210
37081|T||Henny,C.J., J.R. Bean, and R.W. Fyfe|Elevated Heptachlor Epoxide and DDE Residues in a Merlin That Died After Migrating|Can. Field Nat.90:361-363|1976|10.5962/p.345079
37083|T||Henny,C.J., L.J. Blus, A.J. Krynitsky, and C.M. Bunck|Current Impact of DDE on Black-Crowned Night-Herons in the Intermountain West|J. Wildl. Manag.48(1): 1-13|1984|10.2307/3808448
37085|T||Henny,C.J., L.J. Blus, and C.J. Stafford|DDE not Implicated in Cliff Swallow, Petrochelidon Pyrrhonota, Mortality During Severe Spring Weather in Oregon|Can. Field Nat.96(2): 210-211|1982|10.5962/p.354818
37087|T||Henny,C.J., and D.L. Meeker|An Evaluation of Blood Plasma for Monitoring DDE in Birds of Prey|Environ. Pollut. A.25:291-304|1981|10.1016/0143-1471(81)90090-8
37091|T||Henny,C.J., and H.M. Wight|Population Ecology and Environmental Pollution: Red-Tailed and Cooper's Hawks|In: U.S.Bureau of Sport Fish.Wildlife, Wildlife Research Report #VN2:229-250|1972|
37095|T||Herbert,E.W.,Jr., H. Shimanuki, and R.J. Argauer|Effect of Feeding Pollen Substitutes to Colonies of Honey Bees (Hymenoptera: Apidae) Exposed to Carbaryl|Environ. Entomol.12:758-762|1983|10.1093/ee/12.3.758
37100|T||Herrick,G.M., J.L. Fry, W.G. Fong, and D.C. Golden|Pesticide Residues in Eggs Resulting from the Dusting and Short-Time Feeding of low Levels of Chlorinated Hydrocarbon Insecticides to Hens|J. Agric. Food Chem.17(2): 291-295|1969|10.1021/jf60162a020
37101|T||Herrick,R.B., M. Sherman, and T.R. Batra|The Effect of the Insect Chemosterilent Apholate on the Reproductive Performance of Leghorn Hens|Poult. Sci.46(5): 1045-1050|1967|10.3382/ps.0461045
37103|T||Hewlett,T.P., A.C. Ray, and J.C. Reagor|Diagnosis of Ethylene Glycol (Antifreeze) Intoxication in Dogs by Determination of Clycolic Acid in Serum and Urine With High Pressure Liquid Chlormatography and Gas Chromatography -Mass Spectrometry|J. AOAC Int.66(2): 276-283|1983|10.1093/jaoac/66.2.276
37106|T||Hicks,B.W., H.W. Dorough, and R.B. Davis|Fate of Carbofuran in Laying Hens|J. Econ. Entomol.63(4): 1108-1111|1970|10.1093/jee/63.4.1108
37107|T||Hicks,B.W., H.W. Dorough, and H.M. Mehendale|Metabolism of Aldicarb Pesticide in Laying Hens|J. Agric. Food Chem.20(1): 151-156|1972|10.1021/jf60179a036
37109|T||Higgins,R.J.|Chronic Copper Poisoning in Growing Pigs|Vet. Rec.109:134-135|1981|10.1136/vr.109.7.134
37110|T||Hilado,C.J., H.J. Cumming, J.E. Schneider, A.N. Solis, and A. Furst|Alc50 Values for Materials Under Pyrolysis Conditions|Proc. West. Pharmacol. Soc.21:167-170|1978|
37111|T||Hill,E.F., and M.B. Camardese|Toxicity of Anticholinesterase Insecticides to Birds:  Technical Grade Versus Granular Formulations|Ecotoxicol. Environ. Saf.8(6): 551-563|1984|10.1016/0147-6513(84)90015-0
37112|T||Hill,E.F., M.B. Camardese, G.H. Heinz, J.W. Spann, and A.B. DeBevec|Acute Toxicity of Diazinon is Similar for Eight Stocks of Bobwhite|Environ. Toxicol. Chem.3:61-66|1984|10.1002/etc.5620030108
37113|T||Hill,E.F., and J.W. Carpenter|Responses of Siberian Ferrets to Secondary Zinc Phosphide Poisoning|J. Wildl. Manag.46(3): 678-685|1982|10.2307/3808559
37114|T||Hill,E.F., W.E. Dale, and J.W. Miles|DDT Intoxication in Birds: Subchronic Effects and Brain Residues|Toxicol. Appl. Pharmacol.20(4): 502-514|1971|10.1016/0041-008X(71)90254-7
37115|T||Hill,E.F., D.A. Eliason, and J.W. Kilpatrick|Effects of Ultra-Low Volume Applications of Malathion in Hale County, Texas. III. Effect on Nontarget Animals|J. Med. Entomol.8(2): 173-179|1971|10.1093/jmedent/8.2.173
37117|T||Hill,E.F., R.G. Heath, J.W. Spann, and J.D. Williams|Polychlorinated Biphenyl Toxicity to Japanese Quail as Related to Degree of Chlorination|Poult. Sci.53:597-604|1974|10.3382/ps.0530597
37118|T||Hill,E.F., and D.J. Hoffman|Avian Models for Toxicity Testing|J. Am. Coll. Toxicol.3(6): 357-376|1984|10.3109/10915818409104398
37119|T||Hill,E.F., and V.M. Mendenhall|Secondary Poisoning of Barn Owls with Famphur, an Organophosphate Insecticide|J. Wildl. Manag.44(3): 676-681|1980|10.2307/3808017
37120|T||Hill,E.F., and J.H.,Jr. Soares|Reproductivity of Japanese Quail Fed Mercuric Chloride in the Absence of Vitamin D|Poult. Sci.56:710-712|1977|10.3382/ps.0560710
37122|T||Hillam,R.P., and Y.A. Greichus|Effects of Purified Pentachlorophenol on the Serum Proteins of Young Pigs|Bull. Environ. Contam. Toxicol.31:599-604|1983|10.1007/BF01605482
37124|T||Hillman,D., D. Bolenbaugh, and E.M. Convey|Fluorosis from Phosphate Mineral Supplements in Michigan Dairy Cattle|Q. Bull. Mich. Agric. Exp. Stn.:|1978|
37125|T||Hines,T., and R.W. Dimmick|The Acceptance by Bobwhite Quail of Rodent Baits Dyed and Treated with Zinc Phosphide|Proc. Ann. Conf. S. E. Assoc. Game Fish Comm.24:201-205|1971|
37128|T||Hladka,A., V. Krampl, and J. Kovac|Effect of Malathion on the Content of Fenitrothion and Fenitrooxone in the Rat|Bull. Environ. Contam. Toxicol.12(1): 38-45|1974|10.1007/BF01713024
37137|T||Hoffman,D.J.|Embryotoxic Effects of Crude Oil in Mallard Ducks and Chicks|Toxicol. Appl. Pharmacol.46:183-190|1978|10.1016/0041-008X(78)90149-7
37138|T||Hoffman,D.J.|Embryotoxic Effects of Crude Oil Containing Nickel and Vanadium in Mallards|Bull. Environ. Contam. Toxicol.23:203-206|1979|10.1007/BF01769942
37139|T||Hoffman,D.J.|Embryotoxic Effects of Petroleum Hydrocarbons in Avian Embryos|Teratology17:40A|1978|
37141|T||Hoffman,D.J.|Embryotoxic and Teratogenic Effects of Crude Oil on Mallard Embryos on Day One of Development|Bull. Environ. Contam. Toxicol.22:632-637|1979|10.1007/BF02026999
37143|T||Hoffman,D.J., and W.C.,Jr. Eastin|Effects of Industrial Effluents, Heavy Metals, and Organic Solvents on Mallard Embryo Development|Toxicol. Lett.9:35-40|1981|10.1016/0378-4274(81)90171-5
37145|T||Hoffman,D.J., J.C. Franson, O.H. Pattee, C.M. Bunck, and A. Anderson|Survival, Growth, and Accumulation of Ingested Lead in Nestling American Kestrels (Falco sparverius)|Arch. Environ. Contam. Toxicol.14:89-94|1985|10.1007/BF01055766
37147|T||Hoffman,D.J., and L. Sileo|Neurotoxic and Teratogenic Effects of An Organophosphorus Insecticide (Phenyl Phosphonothioic Acid-O-Ethyl-O-[4-Nitrophenyl] Ester) on Mallard Development|Toxicol. Appl. Pharmacol.73:284-294|1984|10.1016/0041-008X(84)90334-X
37152|T||Holbrook,D.J.,Jr., M.E. Washington, H.B. Leake, and P.E. Brubaker|Studies on the Evaluation of the Toxicity of Various Salts of Lead, Manganese, Platinum, and Palladium|Environ. Health Perspect.10:95-101|1975|10.1289/ehp.751095
37154|T||Holden,A.V.|Organochlorines--An Overview|Mar. Pollut. Bull.12(4): 110-115|1981|10.1016/0025-326X(81)90438-0
37155|AT||Holden,A.V.|Pollutants and Seals--A Review|Mammal Rev.8(1-2): 53-66|1978|10.1111/j.1365-2907.1978.tb00217.x
37157|T||Hollebone,B.R., and D.B. Peakall|A Physiological Model for Bioeffects Monitoring|In: K.Sabol (Ed), Trans. of the 48th N. Am. Wildl. and Nat. Resour. Conf., Mar. 19-24, 1983, Kansas City, MO, Wildl. Manag. Inst., Washington, D.C.:221-229|1983|
37159|T||Holleman,K.A., B.D. Barnett, and G.W. Wicker|Response of Chicks and Turkey Poults to Aroclor 1242|Poult. Sci.55:2354-2356|1976|10.3382/ps.0552354
37161|T||Holler,N.R., and E.W.,Jr. Schafer|Potential Secondary Hazards of Avitrol Baits to Sharp-Shinned Hawks and American Kestrels|J. Wildl. Manag.46(2): 457-462|1982|10.2307/3808657
37163|T||Holme,J.A., and E. Dybing|Increased Cytochrome P-450 Independent Drug Metabolism and Mutagen Activation in Rat Liver by Octachlorostyrene|Acta Pharmacol. Toxicol.53:325-332|1983|10.1111/j.1600-0773.1983.tb03430.x
37164|T||Holmes,W.N., K.P. Cavanaugh, and J. Cronshaw|The Effects of Ingested Petroleum on Oviposition and Some aspects of Reproduction in Experimental Colonies of Mallard Ducks (Anas platyrhynchos)|J. Reprod. Fertil.54:335-347|1978|10.1530/jrf.0.0540335
37165|T||Holmes,W.N., J. Cronshaw, and J. Gorsline|Some Effects of Ingested Petroleum on Seawater-Adapted Ducks (Anas platyrhynchos)|Environ. Res.17:191-204|1978|10.1016/0013-9351(78)90020-8
37166|T||Holmes,W.N., J. Gorsline, and J. Cronshaw|Effects of Mild Cold Stress on the Survival of Seawater-Adapted Mallard Ducks (Anas platyrhynchos) Maintained on Food Contaminated with Petroleum|Environ. Res.20:425-444|1979|10.1016/0013-9351(79)90017-3
37167|T||Holmstead,R.L., T.R. Fukuto, and R.B. March|The Metabolism of O-(4-Bromo-2,5-Dichlorophenyl)O-Methyl Phenylphosphonothioate (Leptophos) in White Mice and on Cotton Plants|Arch. Environ. Contam. Toxicol.1(2): 133-147|1973|10.1007/BF01986003
37168|T||Holroyd,R.G., D.J. Hirst, A.W. Merrifield, and M.A. Toleman|The Effect of Spraying for Buffalo Fly (Haematobia irritans Exiqua) on Infestations, Growth Rat and Lesion Development on Bos indicus X B. taurus Cattle in the Dry Tropics of North Queensland|Aust. J. Agric. Res.35:595-608|1984|10.1071/AR9840595
37174|T||Hone,J.|A Short-Term Evaluation of Feral Pig Eradication at Willandra in Western New South Wales|Aust. Wildl. Res.10:269-275|1983|10.1071/WR9830269
37175|T||Hone,J., and R. Kleba|The Toxicity and Acceptability of Warfarin and 1080 Poison to Penned Feral Pigs|Aust. Wildl. Res.11:103-111|1984|10.1071/WR9840103
37177|T||Hood,R.D., J.M. Lary, and J.B. Blacklock|Lack of Prenatal Effects of Maternal Ethanol Consumption in CD-1 Mice|Toxicol. Lett.4:79-82|1979|10.1016/0378-4274(79)90077-8
37178|T||Hoogenboom,J.J.L., and C.G. Rammell|Improved HPLC Method for Determining Brodifacoum in Animal Tissues|Bull. Environ. Contam. Toxicol.31:239-243|1983|10.1007/BF01607900
37181|T||Hoopingarner,R., G. Degrandi-Hoffman, and R. Leavitt|Visual Quantification of Insecticide Contamination in Honey Bees|Am. Bee J.:195-197|1981|
37182|T||Horn,G.W., F.P. Horn, W.R. Lyman, and D.G. Wagner|Tissue Residues of Steers Grazed on Wheat Pasture Treated with Indar Systemic Fungicide|J. Anim. Sci.49(2): 318-323|1979|10.2527/jas1979.492318x
37187|T||Howard,F.W., and A.D. Oliver|Arthropod Populations in Permanent Pastures Treated and Untreated with Mirex for Red Imported Fire Ant Control|Environ. Entomol.7:901-903|1978|10.1093/ee/7.6.901
37188|T||Howard,S.K., P.R. Werner, and S.D. Sleight|Polybrominated Biphenyl Toxicosis in Swine:  Effects on Some Aspects of the Immune System in Lactating Sows and Their Offspring|Toxicol. Appl. Pharmacol.55:146-153|1980|10.1016/0041-008X(80)90230-6
37189|T||Howard,W.E., R.E. Marsh, and S.D. Palmateer|Selective Breeding of Rats for Resistance to Sodium Monofluoroacetate|J. Appl. Ecol.10:731-736|1973|10.2307/2401865
37190|T||Howarth,B., and H.L. Marks|The Effect of Prolonged Feeding of Thiouracil on Testicular Development in Japanese Quail|Poult. Sci.51:1491-1497|1972|10.3382/ps.0511491
37192|T||Howell,G.O., and C.H. Hill|Biological Interaction of Selenium with Other Trace Elements in Chicks|Environ. Health Perspect.25:147-150|1978|10.1289/ehp.7825147
37193|T||Howell,J.M., and C. Gopinath|Copper Toxicity in Sheep:  The Effects of Repeated Intravenous Injections of Copper Sulphate|Res. Vet. Sci.22:86-94|1977|10.1016/S0034-5288(18)33319-8
37196|T||Hsu,W.H., and T.J. Kakuk|Effect of Amitraz and Chlordimeform on Heart Rate and Pupil Diameter in Rats: Mediated by Alpha2-Adrenoreceptors|Toxicol. Appl. Pharmacol.73:411-415|1984|10.1016/0041-008X(84)90093-0
37197|T||Huck,D.W., and A.J. Clawson|Excess Dietary Cobalt in Pigs|J. Anim. Sci.43(6): 1231-1246|1976|10.2527/jas1976.4361231x
37198|T||Huck,D.W., and A.J. Clawson|Cobalt Toxicity in Pigs|J. Anim. Sci.53(1): 253-254|1976|
37201|T||Huckle,K.R., I.J.G. Climie, D.H. Hutson, and P. Millburn|Dipeptide Conjugation of 3-Phenoxybenzoic Acid in the Mallard Duck|Drug Metab. Dispos.9(2): 147-149|1981|
37202|T||Huff,W.E., P.B. Hamilton, and A. Ciegler|Evaluation of Penicillic Acid for Toxicity in Broiler Chickens|Poult. Sci.59:1203-1207|1980|10.3382/ps.0591203
37203|T||Hughes,P.R., J.E. Potter, and L.H. Weinstein|Effects of Air Pollutants on Plant-Insect Interactions:  Reactions of the Mexican Bean Beetle to SO2-Fumigated Pinto Beans|Environ. Entomol.10(5): 741-744|1981|10.1093/ee/10.5.741
37205|T||Hunnego,J.N., and D.L. Harrison|Metabolism of DDE, DDD, and DDT in Sheep|N. Z. J. Agric. Res.14:406-416|1971|10.1080/00288233.1971.10427104
37206|T||Hunt,E.G., J.A. Azevedo, L.A. Woods, and W.T. Castle|The Significance of Residues in Pheasant Tissues Resulting from Chronic Exposures to DDT|In: Miller,M.W.and Berg,G.G.(Eds) Chemical Fallout: Current Research on Persistent Pesticides, C.C.Thomas Publ., Springfield IL:335-360|1969|
37207|T||Hunt,L.B.|Physiological Susceptibility of Robins to DDT Poisoning|Wilson Bull.81(4): 407-418|1969|
37208|T||Hunt,L.B., and R.J. Sacho|Response of Robins to DDT and Methoxychlor|J. Wildl. Manag.33(2): 336-345|1969|10.2307/3799833
37209|T||Hunt,L.M., B.N. Gilbert, and C.A. Lemeilleur|Distribution and Depletion of Radioactivity in Hens Treated Dermally with 14C-Labeled Permethrin|Poult. Sci.58(5): 1197-1201|1979|10.3382/ps.0581197
37210|T||Hunt,L.M., B.N. Gilbert, and J.S. Palmer|Effects of a Herbicide, 2-Ethyl Hexyl Ester of 2,4-D on Magnesium:  Calcium Ratios and Blood Urea Nitrogen Levels in Sheep and Cattle|Bull. Environ. Contam. Toxicol.5(1): 54-60|1970|10.1007/BF01545126
37211|T||Hunt,L.M., B.N. Gilbert, J.S. Palmer, and R.L. Younger|Effects of a Thiocarbamate Herbicide Compound (Pebulate) on Magnesium: Calcium Ratio and Blood Urea Nitrogen Levels in Exposed Sheep and Cattle|Bull. Environ. Contam. Toxicol.6(3): 263-272|1971|10.1007/BF01539937
37212|T||Hunt,L.M., B.N. Gilbert, and J.C. Schlinke|Rapid Gas Chromatographic Method for Analysis of O,O-Diethyl O-3,5-6-Trichloro-2-Pyridyl Phosphorothioate (Dursban) in Turkey and Chicken Tissues|J. Agric. Food Chem.17(6): 1166-1167|1969|10.1021/jf60166a064
37213|T||Hunt,L.M., and R.T. McCarty|Effects of Some Organophosphorus Insecticides on Vitamin E and Other Blood Constituents and on the Apparent Inducement of Diarrhea in Neonatal Calves|Bull. Environ. Contam. Toxicol.8(5): 297-310|1972|10.1007/BF01684560
37217|T||Hurkat,P.C.|Some Histological & Histochemical Studies in Rabbits (Oryctolagus cuniculus) During Sub-Chronic Administration of Dieldrin (HEOD)|Indian J. Exp. Biol.16(6): 716-718|1978|
37219|AT||Hussain,M.A., R.B. Mohamad, and P.C. Oloffs|Studies on the Toxicity, Metabolism, and Anticholinesterase Properties of Acephate and Methamidophos|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(1): 129-147|1985|
37221|T||Hutson,D.H., M.K. Baldwin, and E.C. Hoadley|Detoxication and Bioactivation of Endrin in the Rat|Xenobiotica5(11): 697-714|1975|10.3109/00498257509056139
37225|AT||Hutzinger,O., D.M. Nash, S. Safe, A.S.W. DeFreitas, R.J. Norstrom, D.J. Wildish, and V. Zitko|Polychlorinated Biphenyls:  Metabolic Behavior of Pure Isomers in Pigeons, Rats, and Brook Trout|Science178:312-314|1972|10.1126/science.178.4058.312
37226|T||Hwang,S.W.|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Biliary Excretion of Indocyanine Green in Rat|Environ. Health Perspect.5:227-231|1973|10.1289/ehp.7305227
37227|T||Iftner,D.C., and F.R. Hall|Toxicities of Selected Synthetic Pyrethroids to Two Species of Phytophagous Mites|J. Econ. Entomol.76(4): 687-689|1983|10.1093/jee/76.4.687
37228|T||Imai,H., M. Miyata, S. Uga, and S. Ishikawa|Retinal Degeneration in Rats Exposed to An Organophosphate Pesticide (Fenthion)|Environ. Res.30:453-465|1983|10.1016/0013-9351(83)90231-1
37229|T||Imamura,T., and L. Hasegawa|Role of Metabolic Activation, Covalent Binding, and Glutathione Depletion in Pulmonary Toxicity Produced by an Impurity of Malathion|Toxicol. Appl. Pharmacol.72:476-483|1984|10.1016/0041-008X(84)90124-8
37230|T||Imamura,T., N.L. Schiller, and T.R. Fukuto|Malathion and Phenthoate Carboxylesterase Activity in Pulmonary Alveolar Macrophages as Indicators of Lung Injury|Toxicol. Appl. Pharmacol.70:140-147|1983|10.1016/0041-008X(83)90187-4
37234|T|OECDG|Inglesfield,C.|Toxicity of the Pyrethroid Insecticides Cypermethrin and WL85871 to the Earthworm Eisenia foetida Savigny|Bull. Environ. Contam. Toxicol.33:568-570|1984|10.1007/BF01625585
37236|T||Ioannou,Y.M., L.S. Birnbaum, and H.B. Matthews|Toxicity and Distribution of 2,3,7,8-Tetrachlorodibenzofuran in Male Guinea Pigs|J. Toxicol. Environ. Health12:541-553|1983|10.1080/15287398309530448
37237|T||Ireland,M.|Heavy Worms|New Sci.76:486-487|1977|
37241|T||Ireland,M.P., and K.S. Richards|Metal Content, After Exposure to Cadmium, of Two Species of Earthworms of Known Differing Calcium Metabolic Activity|Environ. Pollut. A.26(1): 69-78|1981|10.1016/0143-1471(81)90099-4
37242|T||Irwin,J.C., and L.H. Karstad|The Toxicity for Ducks of Disintegrated Lead Shot in A Simulated Marsh Environment|J. Wildl. Dis.8:149-154|1972|10.7589/0090-3558-8.2.149
37243|T||Isaev,S.I., and A.D. Pokarzhevskii|Effect of an Increase in 90Sr Concentration in the Biogeocenosis on Growth and Sexual Maturation of Field Mice|Sov. J. Ecol.9(3): 251-254|1978|
37244|T||Ishida,M., K. Suyama, S. Adachi, and T. Hoshino|Distribution of Orally Administered Diethylhexyl Phthalate in Laying Hens|Poult. Sci.61:262-267|1982|10.3382/ps.0610262
37245|T||Ishii,K., K. Sakai, Y. Ueno, H. Tsunoda, and M. Enomoto|Solaniol, a Toxic Metabolite of Fusarium solani|Appl. Microbiol.22(4): 718-720|1971|10.1128/am.22.4.718-720.1971
37246|T||Ishikawa,K., I. Okuda, and S. Kuwatsuka|Metabolism of Benthiocarb (4-Chlorobenzyl N,N-Diethylthiolcarbamate) in Mice|Agric. Biol. Chem.37(1): 165-173|1973|
37247|T||Ishmael,J., C. Gopinath, and J.McC. Howell|Experimental Chronic Copper Toxicity in Sheep. Histological and Histochemical Changes During the Development of the Lesions in the Liver|Res. Vet. Sci.12:358-366|1971|10.1016/S0034-5288(18)34163-8
37248|T||Ismail,R.M., L. Salminen, and F. Korte|Distribution of Topically Applied Environmental Chemicals in the Rabbit Eye|Chemosphere12:797-802|1977|10.1016/0045-6535(77)90135-7
37251|T||Ito,N., H. Nagasaki, H. Aoe, S. Sugihara, Y. Miyata, M. Arai, and T. Shirai|Brief Communication: Development of Hepatocellular Carcinomas in Rats Treated with Benzene Hexachloride|J. Natl. Cancer Inst.54(3): 801-805|1975|
37252|T||Ito,T., and C. Hirose|Effects of Certain Insecticides on Lyctus brunneus Stephens (Coleoptera: Lyctidae)|Appl. Entomol. Zool.15(3): 293-298|1980|10.1303/aez.15.293
37253|T||Ito,T., and C. Hirose|Effects of Permethrin, Fenitrothion and Lindane on Oviposition of Lyctus brunneus Stephens (Coleoptera:  Lyctidae)|Appl. Entomol. Zool.16(2): 156-161|1981|10.1303/aez.16.156
37255|T||Iturri,S.J., A. Gaggero, L. Lucero, M. Goldzveig, and M.T. Giroz|The Combined Effect of DDT and Polychlorinated Biphenyls on the Blood and Heart Rate of the White Leghorn Cockerel (Gallus Domesticus)|Comp. Biochem. Physiol. C Comp. Pharmacol.72(1): 27-32|1982|10.1016/0306-4492(82)90200-3
37257|T||Iverson,F., D.L. Grant, and J. Lacroix|Diazinon Metabolism in the Dog|Bull. Environ. Contam. Toxicol.13(5): 611-618|1975|10.1007/BF01685188
37258|T||Iverson,F., J. Truelove, and S.L. Hierlihy|Hepatic Microsomal Enzyme Induction by Aroclors 1248 and 1254 in Cynomolgus Monkeys|Food Chem. Toxicol.20:307-310|1982|10.1016/S0278-6915(82)80297-4
37259|T||Iverson,F., D.C. Villeneuve, D.L. Grant, and G.V. Hatina|Effect of Aroclor 1016 and 1242 on Selected Enzyme Systems in the Rat|Bull. Environ. Contam. Toxicol.13(4): 456-463|1975|10.1007/BF01721852
37261|T||Ivey,M.C., and J.L. Eschle|Residues of Dichlorvos in Milk and Tissues of Dairy Cows Treated to Control Insect Pests|J. Econ. Entomol.63(6): 1729-1730|1970|10.1093/jee/63.6.1729
37262|T||Ivey,M.C., R.A. Hoffman, H.V. Claborn, and B.F. Hogan|Residues of Gardona in the Body Tissues and Eggs of Laying Hens Exposed to Treated Litter and Dust Boxes for Control of External Arthropod Parasites|J. Econ. Entomol.62(5): 1003-1005|1969|10.1093/jee/62.5.1003
37263|T||Ivey,M.C., G.W. Ivie, J.A. DeVaney, and K.R. Beerwinkle|Residues of Carbaryl and Two of Its Metabolites in Eggs of Laying Hens Treated with Sevin for Northern Fowl Mite Control by Dipping|Poult. Sci.63:61-65|1984|10.3382/ps.0630061
37264|T||Ivey,M.C., S.E. Kunz, and H.D. Mann|Ethion, Ethion Monooxon, and Ethion Dioxon: Residues in the Body Tissues of Turkeys Confined in Pens on Treated Soil|J. Econ. Entomol.68(3): 353-354|1975|10.1093/jee/68.3.353
37265|T||Ivey,M.C., J.A. Miller, and G.W. Ivie|Methoprene: Residues in Fat of Cattle Treated with Methoprene Boluses|J. Econ. Entomol.75:254-256|1982|10.1093/jee/75.2.254
37266|T||Ivey,M.C., and D.D. Oehler|Gas-Liquid Chromatographic Determination of Iodofenphos and Several Related Compounds in Tissues and Urine of Cattle|J. Agric. Food Chem.24(5): 1049-1053|1976|10.1021/jf60207a007
37267|T||Ivey,M.C., and J.S. Palmer|Chlorpyrifos and 3,5,6-Trichloro-2-Pyridinol: Residues in the Body Tissues of Sheep Treated with Chlorpyrifos for Sheep Ked Control|J. Econ. Entomol.74:136-137|1981|10.1093/jee/74.2.136
37268|T||Ivey,M.C., J.S. Palmer, and E.C. Hooten|Chlorpyrifos and 3,5,6-Trichloro-2-Pyridinol:  Residues in the Body Tissues of Cattle Wearing Chlorpyrifos-Impregnated Plastic Ear Bands|J. Econ. Entomol.71:697-700|1978|10.1093/jee/71.4.697
37269|T||Ivie,G.W.|Fate of Diisopropyl Methylphosphonate (DIMP) in a Lactating Cow|Bull. Environ. Contam. Toxicol.24(1): 40-48|1980|10.1007/BF01608073
37270|T||Ivie,G.W.|Fate of the Plant Growth Regulator Mefluidide [N-[2,4-Dimethyl-5-[[(trifluoromethyl)sulfonyl]amino]phenyl]acetamide] in a Cow and Sheep|J. Agric. Food Chem.28:1286-1288|1980|10.1021/jf60232a030
37272|T||Ivie,G.W., D.L. Bull, and D.A. Witzel|Metabolic Fate of O-Ethyl O-[4-(Methylthio)Phenyl-14C] S-Propyl Phosphorodithioate (Bay Ntn 9306) in A Lactating Cow|J. Agric. Food Chem.24(1): 147-151|1976|10.1021/jf60203a006
37273|T||Ivie,G.W., and D.D. Oehler|Fate of Dicyclopentadiene in a Lactating Cow|Bull. Environ. Contam. Toxicol.24(5): 662-670|1980|10.1007/BF01608171
37276|T||Jacobs,R.J., C.A. Kouskolekas, and H.R.,Jr. Gross|Responses of Trichogramma pretiosum (Hymenoptera:  Trichogrammatidae) to Residues of Permethrin and Endosulfan|Environ. Entomol.13:355-358|1984|10.1093/ee/13.2.355
37278|T||Jacobs,R.M., A.O. Lee Jones, M.R. Spivey Fox, and J. Lener|Effects of Dietary Zinc, Manganese, and Copper on Tissue Accumulation of Cadmium by Japanese Quail|Proc. Soc. Exp. Biol. Med.172:34-38|1983|10.3181/00379727-172-41522
37279|T||Jacobsen,P.L., R.C. Spear, and E. Wei|Parathion and Diisopropylfluorophosphate (DFP) Toxicity in Partially Hepatectomized Rats|Toxicol. Appl. Pharmacol.26:314-317|1973|10.1016/0041-008X(73)90266-4
37281|T||Jaeger,R.J., R.B. Conolly, and S.D. Murphy|Effect of 18 Hr Fast and Glutathione Depletion on 1,1-Dichloroethylene-Induced Hepatotoxicity and Lethality in Rats|Exp. Mol. Pathol.20:187-198|1974|10.1016/0014-4800(74)90053-7
37283|T||Jaglan,P.S., and T.S. Arnold|Metabolism of [14C]Dichloran (2,6-Dichloro-4-Nitroaniline) in the Lactating Goat|J. Agric. Food Chem.30:1051-1056|1982|10.1021/jf00114a012
37284|T||Jaglan,P.S., R.E. Gosline, and A.W. Neff|Metabolic Fate of P-Toluoyl Chloride Phenylhydrazone (Tcph) in Sheep. the Nature of Bound Residues in Erythrocytes|J. Agric. Food Chem.24(3): 659-664|1976|10.1021/jf60205a001
37285|T||Jakobson,I., and S. Yllner|Metabolism of 14C-Pentachlorophenol in the Mouse|Acta Pharmacol. Toxicol.29:513-524|1971|10.1111/j.1600-0773.1971.tb00625.x
37286|T||James,L.F., J.C. Street, J.E. Butcher, and W. Binns|Oxalate Metabolism in Sheep 1. Effect of Low Level Halogetonglomeratus Intake on Nutrient Balance|J. Anim. Sci.27(3): 718-723|1968|10.2527/jas1968.273718x
37287|T||James,L.F., J.C. Street, J.E. Butcher, and J.L. Shupe|Oxalate Metabolism in Sheep 2. Effect of Low Level Halogetonglomeratus Intake on Electrolyte Metabolism|J. Anim. Sci.27(3): 724-729|1968|10.2527/jas1968.273724x
37288|T||Jan,J., and D. Josipovic|Polychlorinated Terphenyls in Hens - The Behaviour of Ortho-, Meta- and Para- Isomers|Chemosphere7(11): 863-866|1978|10.1016/0045-6535(78)90117-0
37289|T||Jan,J., M. Komar, and M. Milohnoja|Excretion of Some Pure PCB Isomers in Milk of Cows|Bull. Environ. Contam. Toxicol.13(3): 313-315|1975|10.1007/BF01685342
37290|T||Janardhan,A., P.B. Sattur, and P. Sisodia|Teratogenicity of Methyl Benzimidazole Carbamate in Rats and Rabbits|Bull. Environ. Contam. Toxicol.33:257-263|1984|10.1007/BF01625540
37291|T||Jankus,E.F., G.R. Noren, and N.A. Staley|Furazolidone-Induced Cardiac Dilatation in Turkeys|Avian Dis.16(4): 958-961|1972|10.2307/1588780
37296|T||Jarvisalo,J., H. Savolainen, E. Elovaara, and H. Vainio|The in Vivo Toxicity of Cs2 to Liver Microsomes: Binding of Labelled Cs2 and Changes of the Microsomal Enzyme Activities|Acta Pharmacol. Toxicol.40:329-336|1977|10.1111/j.1600-0773.1977.tb02085.x
37297|T||Javaid,M.Y., and R. Jalil|Effect of Sublethal Doses of Chlorinated Hydrocarbon Insecticides on the Heart of the Tortoise, Lissemys punctata|Pak. J. Sci. Res.24(1-2): 148-154|1972|
37299|T||Jefferies,D.J.|Organochlorine Insecticide Residues in British Bats and Their Significance|J. Zool. (Lond.)166:245-263|1972|10.1111/j.1469-7998.1972.tb04088.x
37300|T||Jefferies,D.J., and M.C. French|Avian Thyroid:  Effect of p,p'-DDT on Size and Activity|Science166:1278-1280|1969|10.1126/science.166.3910.1278
37301|T||Jefferies,D.J., and M.C. French|Hyper- and Hypothyroidism in Pigeons fed DDT:  An Explanation for the 'Thin Eggshell Phenomenon'|Environ. Pollut.1:235-242|1971|
37303|T||Jefferies,D.J., M.C. French, and B.E. Osborne|The Effect of pp'-DDT on the Rate, Amplitude and Weight of the Heart of the Pigeon and Bengalese Finch|Br. Poult. Sci.12:387-399|1971|10.1080/00071667108415895
37304|T||Jehl,J.R.|Studies of A Declining Population of Brown Pelicans in Northwestern Baja California|Condor75:69-79|1973|10.2307/1366536
37305|T||Jehl,J.R.|Mortality of Magellanic Penguins in Argentina|Auk92(3): 596-598|1975|10.2307/4084621
37306|T||Jelinek,R., and A. Kistler|Effect of Retinoic Acid upon the Chick Embryonic Morphogenetic Systems. 1. the Embryotoxicity Dose Range|Teratology23:191-195|1981|10.1002/tera.1420230204
37308|T||Jensen,D.J., and R.A. Hummel|Secretion of TCDD in Milk and Cream Following the Feeding of TCDD to Lactating Dairy Cows|Bull. Environ. Contam. Toxicol.29:440-446|1982|10.1007/BF01605609
37309|T||Jensen,L.S., C.H. Chang, and K.W. Washburn|Differential Response in Cardiomyopathy of Chicks and Turkeys to Furazolidone Toxicity|Avian Dis.19(3): 596-602|1975|10.2307/1589085
37310|T||Jensen,L.S., and D.V. Maurice|Effect of Methionine on Copper-Induced Growth Depression and Gizzard Erosion|Poult. Sci.57:1530-1532|1978|10.3382/ps.0571530
37311|T||Jensen,L.S., and D.V. Maurice|Influence of Sulfur Amino Acids on Copper Toxicity in Chicks|J. Nutr.109(1): 91-97|1979|10.1093/jn/109.1.91
37312|T||Jensen,L.S., and D.V. Maurice|Effect of High Dietary Copper on the Ceca of Chicks|Poult. Sci.57(1): 166-170|1978|10.3382/ps.0570166
37313|T||Jensen,L.S., R.P. Peterson, and L. Falen|Inducement of Enlarged Hearts and Muscular Dystrophy in Turkey Poults with Dietary Silver|Poult. Sci.53:57-64|1974|10.3382/ps.0530057
37314|T||Jensen,R.K., S.D. Sleight, S.D. Aust, J.I. Goodman, and J.E. Trosko|Hepatic Tumor-Promoting Ability of 3,3',4,4',5,5'-Hexabromobiphenyl:  The Interrelationship Between Toxicity, Induction of Hepatic Microsomal Drug Metabolizing Enzymes, and Tumor-Promoting Ability|Toxicol. Appl. Pharmacol.71:163-176|1983|10.1016/0041-008X(83)90333-2
37319|T||Jeyaratnam,J., and P.J. Forshaw|A Study of the Cardiac Effects of DDT in Laboratory Animals|Bull. W. H. O.51(5): 531-535|1974|
37323|T||Johansen,C.|Bee Poisoning Survey|Am. Bee J.119:- 315,318|1979|
37324|T||Johansen,C., and J. Eves|Acidified Sprays, Pollinator Safety, and Integrated Pest Control on Alfalfa Grown for Seed|J. Econ. Entomol.65(2): 546-555|1972|10.1093/jee/65.2.546
37325|T||Johansen,C.A.|Honeybee Poisoning by Chemicals: Signs, Contributing Factors, Current Problems and Prevention|Bee World60:109-127|1979|10.1080/0005772X.1979.11097744
37327|T||Johansen,C.A., M.G. Kleinschmidt, L.I. Butler, L.M. McDonough, and D.S. Jackson|Adjuvants Decrease Insecticide Hazard to Honey Bees|Wash. State Univ. Coll. Agric. Res. Cent. Bull.801:7 p.|1974|
37328|T||Johansen,C.A., D.F. Mayer, J.D. Eves, and C.W. Kious|Pesticides and Bees|Environ. Entomol.12(5): 1513-1518|1983|10.1093/ee/12.5.1513
37330|T||Johns,B.E., and R.D. Thompson|Acute Toxicant Identification in Whole Bodies and Baits Without Chemical Analysis|ASTM Spec. Tech. Publ.:80-88|1979|
37333|T||Johnson,J.C.,Jr., and M.C. Bowman|Responses from Cows Fed Diets Containing Fenthion or Fenitrothion|J. Dairy Sci.55(6): 777-782|1972|10.3168/jds.S0022-0302(72)85572-3
37334|T||Johnson,J.C.,Jr., and M.C. Bowman|Fate of Bidrin and Imidan when Fed in Silage to Lactating Dairy Cows|J. Dairy Sci.51(8): 1225-1228|1968|10.3168/jds.S0022-0302(68)87161-9
37335|T||Johnson,J.C.,Jr., M.C. Bowman, and D.B. Leuck|Responses from Cows Fed Silages Containing Dursban Residues|J. Dairy Sci.52(8): 1253-1258|1969|10.3168/jds.S0022-0302(69)86734-2
37336|T||Johnson,J.C., M.C. Bowman, D.B. Leuck, and F.E. Knox|Persistence of Dasanit in Corn Silage and Effects of Feedingdiary Cows the Treated Silage|J. Dairy Sci.56(6): 775-782|1973|10.3168/jds.S0022-0302(73)85249-X
37337|T||Johnson,J.C.,Jr., R.L. Jones, D.B. Leuck, M.C. Bowman, and F.E. Knox|Persistence of Chlorpyrifos-Methyl in Corn Silage and Effects of Feeding Dairy Cows the Treated Silage|J. Dairy Sci.57(12): 1467-1473|1974|10.3168/jds.S0022-0302(74)85090-3
37338|T||Johnson,J.C.,Jr., R.S. Lowrey, M.C. Bowman, D.B. Leuck, E.W. Beck, and J.C. Derbyshire|Responses from Cows Fed Silages Containing Imidan Residues|J. Dairy Sci.51(8): 1219-1224|1968|10.3168/jds.S0022-0302(68)87160-7
37340|T||Johnson,J.H., R.L. Younger, D.A. Witzel, and R.D. Radeleff|Acute Toxicity of Tricyclohexyltin Hydroxide to Livestock|Toxicol. Appl. Pharmacol.31:66-71|1975|10.1016/0041-008X(75)90052-6
37341|T||Johnson,K.W., A.C. Anderson, A.E. Munson, and K.L.,Jr. White|In Vivo and In Vitro Effects of Sodium Azide on Mouse Complement|Toxicol. Appl. Pharmacol.73:559-563|1984|10.1016/0041-008X(84)90108-X
37345|T||Johnson,M.K.|The Primary Biochemical Lesion Leading to the Delayed Neurotoxic Effects of Some Organophosphorus Esters|J. Neurochem.23:785-789|1974|10.1111/j.1471-4159.1974.tb04404.x
37348|T||Johnson,W.L., and B.L. Damron|Influence of Lead Acetate or Lead Shot Ingestion upon White Chinese Geese|Bull. Environ. Contam. Toxicol.29:177-183|1982|10.1007/BF01606147
37349|T||Johnston,C.A., K.T. Demarest, K.M. McCormack, J.B. Hook, and K.E. Moore|Endocrinological, Neurochemical, and Anabolic Effects of Polybrominated Biphenyls in Male and Female Rats|Toxicol. Appl. Pharmacol.56:240-247|1980|10.1016/0041-008X(80)90295-1
37355|T||Johnstone,G.J., D.J. Ecobichon, and O. Hutzinger|The Influence of Pure Polychlorinated Biphenyl Compounds on Hepatic Function in the Rat|Toxicol. Appl. Pharmacol.28:66-81|1974|10.1016/0041-008X(74)90132-X
37356|T||Joiner,R.L., H.W. Chamber, and K.P. Baetcke|Toxicity of Parathion and Several of its Photoalteration Products to Boll Weevils|Bull. Environ. Contam. Toxicol.6(3): 220-224|1971|10.1007/BF01539930
37357|T||Jokl,P., and H.C.W. Skinner|Fluoride-Induced Changes in Ashed Bone Mineral of Growing Sheep|J. Bone Joint Surg.55(4): 761-770|1973|10.2106/00004623-197355040-00011
37358|T||Jones,A.R.|The Metabolism of Tri-Alkyl Phosphates|Experientia26(5): 492-493|1970|10.1007/BF01898464
37361|T||Jones,G., and W.H. Butler|A Morphological Study of the Liver Lesion Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rats|J. Pathol.112:93-97|1974|10.1002/path.1711120204
37362|T||Jones,P.H.|Roosting Behaviour of Long-Tailed Ducks in Relation to Possible Oil Pollution|Wildfowl30:155-158|1979|
37363|T||Jones,P.H., J.Y. Monnat, C.J. Cadbury, and T.J. Stowe|Birds Oiled During the Amoco Cadiz Incident--An Interim Report|Mar. Pollut. Bull.9 (11):307-310|1978|10.1016/0025-326X(78)90256-4
37365|T||Jones,R.E., R.J. Aulerich, and R.K. Ringer|Feeding Supplemental Iodine to Mink: Reproductive and Histopathologic Effects|J. Toxicol. Environ. Health10:459-471|1982|10.1080/15287398209530268
37366|T||Jones,S.G., and M.M. Jones|Structure-Activity Relationships Among Dithiocarbamate Antidotes for Acute Cadmium Chloride Intoxication|Environ. Health Perspect.54:285-290|1984|10.1289/ehp.8454285
37372|T||Joubert,J.P.J., and J.A. Minne|The Safety of Fenthion 20% M/V When Applied Topically to Pregnant Cows|J. S. Afr. Vet. Assoc.50(1): 47-48|1979|
37375|T||Joy,R.M.|Contrasting Actions of Dieldrin and Aldrin-Transdiol, Its Metabolite, on Cat CNS Function|Toxicol. Appl. Pharmacol.42:137-148|1977|10.1016/0041-008X(77)90204-6
37376|T||Joy,R.M.|Elecrical Correlates of Preconvulsive and Convulsive Doses of Chlorinated Hydrocarbon Insecticides in the CNS|Neuropharmacology12:63-76|1973|10.1016/0028-3908(73)90133-0
37377|T||Joy,R.M.|Alteration of Sensory and Motor Evoked Responses by Dieldrin|Neuropharmacology13:93-110|1974|10.1016/0028-3908(74)90027-6
37379|T||Julian,R.J., D.E. Galt, and D. Butler|Diagnosis of Triorthocresyl Phosphate Poisoning in Cattle|J. Proc. Ann. Meet. Am. Assoc. Vet. Lab. Diagn.18:407-418|1976|
37380|T||Juszkiewicz,T., and B. Kowalski|Absorption, Tissue Deposition and Passage into Eggs of N-Nitrosodimethylamine in Hens|IARC Sci. Publ.19:433-439|1978|
37381|T||Kacew,S., and R.L. Singhal|Metabolic Alterations After Chronic Exposure to alpha-Chlordane|Toxicol. Appl. Pharmacol.24:539-544|1973|10.1016/0041-008X(73)90215-9
37382|T||Kadous,A.A., and F. Matsumura|Toxicity of Metabolites of Dieldrin, Photodieldrin, and Endrin in the Cockroach|Arch. Environ. Contam. Toxicol.11:635-643|1982|10.1007/BF01056373
37387|T||Kaley,R.G., O. Hicks, W.M. Mees, E.S. Tucker, J.P. Mieure, F.R. Johannsen, and G.J. Levinskas|Tissue Residues from Subacute Oral Feeding of Polychlorinated Biphenyl Dielectric Fluids|Bull. Environ. Contam. Toxicol.15(6): 699-707|1976|10.1007/BF01685620
37388|T||Kalinowski,S.A., and D.S. Decalesta|Baiting Regimes for Reducing Ground Squirrel Damage to Alfalfa|Wildl. Soc. Bull.9(4): 268-272|1981|
37389|T||Kalnins,M.A., and B.F. Detroy|Effect of Wood Preservative Treatment of Beehives on Honey Bees and Hive Products|J. Agric. Food Chem.32(5): 1176-1180|1984|10.1021/jf00125a060
37391|T||Kamienski,F.X., and S.D. Murphy|Biphasic Effects of Methylenedioxyphenyl Synergists on the Action of Hexobarbital and Organophosphate Insecticides in Mice|Toxicol. Appl. Pharmacol.18(4): 883-894|1971|10.1016/0041-008X(71)90236-5
37392|AT||Kaminski,A.|The Use of Biological Tests for the Examination of Pesticides|Pure Appl. Chem.42(1-2): 255-284|1975|10.1351/pac197542010255
37401|T||Kankaanpaa,J., E. Elovaara, K. Hemminki, and H. Vainio|Embryotoxicity of Acrolein, Acrylonitrile and Acrylamide in Developing Chick Embryos|Toxicol. Lett.4:93-96|1979|10.1016/0378-4274(79)90080-8
37403|T||Kaphalia,B.S., and T.D. Seth|DDT and BHC Residues in Some Body Tissues of Goats, Buffalo, and Chickens, Lucknow, India|Pestic. Monit. J.15(2): 103-106|1981|
37404|AT||Kapoor,I.P., R.L. Metcalf, A.S. Hirwe, P.Y. Lu, J.R. Coats, and R.F. Nystrom|Comparative Metabolism of DDT, Methylchlor, and Ethoxychlor in Mouse, Insects, and in a Model Ecosystem|J. Agric. Food Chem.20(1): 1-6|1972|10.1021/jf60179a043
37406|T||Kar,P.P., and M.A. Matin|Duration of Diazinon Induced Changes in the Brain Acetylcholine of Rats|Pharmacol. Res. Commun.3(4): 351-354|1971|10.1016/0031-6989(71)90006-3
37409|T||Karnak,R.E., and J.L. Hamelink|A Standardized Method for Determining the Acute Toxicity of Chemicals to Earthworms|Ecotoxicol. Environ. Saf.6(2): 216-222|1982|10.1016/0147-6513(82)90012-4
37410|T||Karol,M.H.|Concentration-Dependent Immunologic Response to Toluene Diisocyanate (TDI) Following Inhalation Exposure|Toxicol. Appl. Pharmacol.68:229-241|1983|10.1016/0041-008X(83)90007-8
37411|T||Kasza,L., M.A. Weinberger, C. Carter, D.E. Hinton, B.F. Trump, and E.A. Brouwer|Acute, Subacute, and Residual Effects of Polychlorinated Biphenyl (PCB) in Rats.  II.  Pathology and Electron Microscopy of Liver and Serum Enzyme Study|J. Toxicol. Environ. Health1:689-703|1976|10.1080/15287397609529369
37412|T||Kateley,J.R., R. Insalaco, S. Codere, L.B. Willett, and F.L. Schanbacher|Host Defense Systems in Cattle Exposed to Polybrominated Biphenyl|Am. J. Vet. Res.43(7): 1288-1295|1982|
37415|T||Kaukeinen,D.|A Review of the Secondary Poisoning Hazard Potential to Wildlife from the use of Anticoagulant Rodenticides|In: Marsh,R.E.(Ed.) Proceedings Tenth Vertebrate Pest Conference, Vertebrate Pest Council, Univ.of Ca, Davis CA:151-158|1982|
37417|T||Kavlock,R., N. Chernoff, R. Baron, R. Linder, E. Rogers, B. Carver, J. Dilley, and V. Simmon|Toxicity Studies with Decamethrin, a Synthetic Pyrethroid Insecticide|J. Environ. Pathol. Toxicol.2:751-765|1979|
37418|T||Kavlock,R.J., N. Chernoff, L.E.,Jr. Gray, J.A. Gray, and D. Whitehouse|Teratogenic Effects of Benomyl in the Wistar Rat and CD-1 Mouse, with Emphasis on the Route of Administration|Toxicol. Appl. Pharmacol.62:44-54|1982|10.1016/0041-008X(82)90100-4
37419|T||Kawar,N.S., G.C. De Batista, and F.A. Gunther|Pesticide Stability in Cold-Stored Plant Parts, Soils, and Dairy Products, and in Cold-Stored Extractives Solutions|Residue Rev.48:45-77|1973|10.1007/978-1-4615-8498-8_2
37423|T||Keeler,R.F., L.D. Balls, J.L. Shupe, and M.W. Crowe|Teratogenicity and Toxicity of Coniine in Cows, Ewes, and Mares|Cornell Vet.70:19-26|1980|
37424|T||Keiding,J., A.S. El-Khodary, and J.B. Jespersen|Resistance Risk Assessment of Two Insect Development Inhibitors, Diflubenzuron and Cyromazine, for Control of the Housefly, Musca domestica L. Part II. Effect of Selection Pressure in Laboratory and Field Population|Pestic. Sci.35(1): 27-37|1992|10.1002/ps.2780350105
37425|T||Keiser,J.A., A.J. Vander, and C.L. Germain|Clearance of Renin in Unanesthetized Rats: Effects of Chronic Lead Exposure|Toxicol. Appl. Pharmacol.69:127-137|1983|10.1016/0041-008X(83)90128-X
37426|T||Kelliher,D.J., E.P. Hilliard, D.B.R. Poole, and J.D. Collins|Chronic Lead intoxiciation in Cattle:  Preliminary Observations on Its Effects on the Erythrocyte and on Porphyrin Metabolism|Ir. J. Agric. Res.12:61-69|1973|
37428|T||Kellner,H.M., K. Drepper, C.P. Kedenburg, and O.E. Christ|Absorption, Distribution, and Excretion of the 14C-Labeled Acaricide Hoe 2910 Following Oral Application to Milk-Producing Ruminants and Dermal Application to a Calf|J. Agric. Food Chem.20(6): 1249-1252|1972|10.1021/jf60184a047
37430|T||Kelly,R.W., R.J.M. Hay, and G.H. Shackell|Formononetin Content of 'Grasslands Pawera' Red Clover and Its Oestrogenic Activity to Sheep|N. Z. J. Exp. Agric.7:131-134|1979|10.1080/03015521.1979.10426178
37437|T||Kenaga,E.E.|Avian and Mammalian Wildlife Toxicology|ASTM Spec. Tech. Publ.:6693-|1979|
37440|T||Kenaga,E.E.|Toxicological and Residue Data Useful in the Environmental Safety Evaluation of Dalapon|Residue Rev.53:109-151|1974|10.1007/978-1-4612-9849-6_9
37441|T||Kendall,R.J.|Wildlife Toxicology|Environ. Sci. Technol.16(8): 448A - 453A|1982|10.1021/es00102a001
37442|T||Kendall,R.J., and P.F. Scanlon|Effects of Chronic Lead Ingestion on Reproductive Characteristics of Ringed Turtle Doves Streptopelia risoria and on Tissue Lead Concentrations of Adults and Their Progeny|Environ. Pollut.26:203-213|1981|10.1016/0143-1471(81)90006-4
37444|T||Kendall,R.J., and P.F. Scanlon|Chronic Lead Ingestion and Nephropathy in Ringed Turtle Doves|Poult. Sci.60:2028-2032|1981|10.3382/ps.0602028
37447|T||Kendall,R.J., and P.F. Scanlon|The Toxicology of Ingested Lead Acetate in Ringed Turtle Doves Streptopelia risoria|Environ. Pollut.27:255-262|1982|10.1016/0143-1471(82)90153-2
37449|T||Kendall,R.J., P.F. Scanlon, and H.P. Veit|Histologic and Ultrastructural Lesions of Mourning Doves (Zenaida Macroura) Poisoned by Lead Shot|Poult. Sci.62:952-956|1983|10.3382/ps.0620952
37450|T||Kendall,R.J., H.P. Veit, and P.F. Scanlon|Histological Effects and Lead Concentrations in Tissues of Adult Male Ringed Turtle Doves That Ingested Lead Shot|J. Toxicol. Environ. Health8:649-658|1981|10.1080/15287398109530099
37452|T||Kennedy,G.L., J.P. Frawley, and J.C. Calandra|Multigeneration Reproductive Effects of Three Pesticides in Rats|Toxicol. Appl. Pharmacol.25:589-596|1973|10.1016/0041-008X(73)90029-X
37456|T||Kerkvliet,N.I., L. Baecher-Steppan, and J.A. Schmitz|Immunotoxicity of Pentachlorophenol (PCP): Increased Susceptiblity to Tumor Growth in Adult Mice fed Technical PCP-Contaminated Diets|Toxicol. Appl. Pharmacol.62:55-64|1982|10.1016/0041-008X(82)90101-6
37457|T||Kerr,K.B., J.R. Narveson, and F.A. Lux|Toxicity of an Organic Arsenical, 3-Nitro-4-Hydroxyphenylarsonic Acid Residues in Chicken Tissues|J. Agric. Food Chem.17(6): 1400-1402|1969|10.1021/jf60166a021
37458|T||Kesterson,J.W., and W.W. Carlton|Cuprizone Toxicosis in Mice--Attempts to Antidote the Toxicity|Toxicol. Appl. Pharmacol.22:6-13|1972|10.1016/0041-008X(72)90220-7
37460|T||Keymer,I.F., M.R. Fletcher, and P.I. Stanley|Mortality of Sparrowhawks and Kestrels|Br. Birds75(9): 424-425|1982|
37461|T||Khan,M.A.|Some Factors Involved in Systemic Insecticide Toxicosis:  Esophageal Lesions in Heifers Treated with Coumaphos, Crufomate and Trichlorfon|Can. J. Anim. Sci.51:411-417|1971|10.4141/cjas71-054
37462|T||Khan,M.A.|The Toxicity of Crufomate to Calves Exposed to Warble Flies (Hypoderma Spp)|Res. Vet. Sci.15:180-185|1973|10.1016/S0034-5288(18)33826-8
37464|T||Khera,K.S., D.C. Villeneuve, G. Terry, L. Panopio, L. Nash, and G. Trivett|Mirex: A Teratogenicity, Dominant Lethal and Tissue Distribution Study in Rats|Food Cosmet. Toxicol.14:25-29|1976|10.1016/S0015-6264(76)80359-8
37466|T||Kiessling,K.|The Effect of Zearalenone on Growth Rate, Organ Weight and Muscle Fibre Composition in Growing Rats|Acta Pharmacol. Toxicol.51:154-158|1982|10.1111/j.1600-0773.1982.tb01007.x
37477|T||Kimbrough,R.D., C.D. Carter, J.A. Liddle, and R.E. Cline|Epidemiology and Pathology of a Tetrachlorodibenzodioxin Poisoning Episode|Arch. Environ. Health32(2): 77-86|1977|10.1080/00039896.1977.10667259
37478|T||Kimbrough,R.D., and T.B. Gaines|The Chronic Toxicity of Hexamethylphosphoramide in Rats|Bull. Environ. Contam. Toxicol.10(4): 225-226|1973|10.1007/BF01684548
37479|T||Kimbrough,R.D., and T.B. Gaines|Toxicity of Paraquat to Rats and Its Effect on Rat Lungs|Toxicol. Appl. Pharmacol.17:679-690|1970|10.1016/0041-008X(70)90042-6
37480|T||Kimbrough,R.D., and T.B. Gaines|Gamma Irradiation of DDT: Radiation Products and Their Toxicity|J. Agric. Food Chem.19(5): 1307-1308|1971|10.1021/jf60177a054
37481|T||Kimbrough,R.D., T.B. Gaines, and R.E. Linder|The Ultrastructure of Livers of Rats Fed DDT and Dieldrin|Arch. Environ. Health22:460-467|1971|10.1080/00039896.1971.10665879
37483|T||Kimbrough,R.D., and R.E. Linder|The Effect of Technical and Purified Pentachlorophenol on the Rat Liver|Toxicol. Appl. Pharmacol.46:151-162|1978|10.1016/0041-008X(78)90146-1
37484|T||Kimbrough,R.D., R.E. Linder, and T.B. Gaines|Morphological Changes in Livers of Rats Fed Polychlorinated Biphenyls|Arch. Environ. Health25(5): 354-364|1972|10.1080/00039896.1972.10666186
37485|T||Kimbrough,R.D., R.A. Squire, R.E. Linder, J.D. Strandberg, R.J. Montali, and V.W. Burse|Induction of Liver Tumors in Sherman Strain Female Rats by Polychlorinated Biphenyl Aroclor 1260|J. Natl. Cancer Inst.55(6): 1453-1459|1975|10.1093/jnci/55.6.1453
37486|T||Kimura,E.T., D.M. Ebert, and P.W. Dodge|Acute Toxicity and Limits of Solvent Residue for Sixteen Organic Solvents|Toxicol. Appl. Pharmacol.19:699-704|1971|10.1016/0041-008X(71)90301-2
37487|T||Kimura,R., M. Kawai, M. Sato, T. Aimoto, and T. Murata|Induction of Hepatic Microsomal Drug-Metabolizing Enzymes By Sulfur-Containing Metabolites of Chlorinated Benzenes in Rats|Toxicol. Appl. Pharmacol.67:338-345|1983|10.1016/0041-008X(83)90317-4
37489|T||King,D.R., A.J. Oliver, and R.J. Mead|Bettongia and Fluoroacetate: A Role for 1080 in Fauna Management|Aust. Wildl. Res.8:529-536|1981|10.1071/WR9810529
37491|T||King,K.A., E.L. Flickenger, and H.H. Hildebrand|The Decline of Brown Pelicans on the Louisiana and Texas Gulf Coast|Southwest. Nat.21(4): 417-431|1977|
37492|T||King,K.A., and C.A. Lefever|Effects of Oil Transferred from Incubating Gulls to Their Eggs|Mar. Pollut. Bull.10:319-321|1979|10.1016/0025-326X(79)90399-0
37496|T||King,K.A., D.H. White, and C.A. Mitchell|Nest Defense Behavior and Reproductive Success of Laughing Gulls Sublethally Dosed with Parathion|Bull. Environ. Contam. Toxicol.33:499-504|1984|10.1007/BF01625575
37497|T||King,K.A., D.L. Meeker, and D.M. Swineford|White-Faced Ibis Populations and Pollutants in Texas, 1969-1976|Southwest. Nat.25(2): 225-240|1980|10.2307/3671244
37499|T||Kinkead,E.R., U.C. Pozzani, D.L. Geary, and C.P. Carpenter|The Mammalian Toxicity of Dicyclopentadiene|Toxicol. Appl. Pharmacol.20:552-561|1971|10.1016/0041-008X(71)90259-6
37500|T||Kinoshita,F.K., and K.P. DuBois|Induction of Hepatic Microsomal Enzymes by Herban, Diuron, and Other Substituted Urea Herbicides|Toxicol. Appl. Pharmacol.17:406-417|1970|10.1016/0041-008X(70)90198-5
37502|T||Kirkland,G.L.|Population and Community Responses of Small Mammals to 2,4,5-T|NW #314, USDA Forest Service Research Note, USDA Pacific Northwest Forest and Range Experiment Station:6 p.|1978|
37504|T||Kitos,P.A., D.S. Anderson, E.M. Uyeki, M. Misawa, and C.R. Wyttenbach|Teratogenic Effects of Cholinergic Insecticides in Chick Embryos - II. Effects on the NAD Content of Early Embryos|Biochem. Pharmacol.30(16): 2225-2235|1981|10.1016/0006-2952(81)90092-7
37507|T||Klein,L., and J. Hopkins|Behavioral and Cardiorespiratory Responses to 4-Aminopyridine in Healthy Awake Horses|Am. J. Vet. Res.42(9): 1655-1657|1981|
37509|T||Klemmer,H.W., A.M. Budy, W. Takahashi, E. Leitis, M. Sato, and T.J. Haley|Fatalities in Kittens Exposed to Aldrin-Treated Soil|J. Am. Vet. Med. Assoc.170(7): 727-729|1977|
37510|T||Kling,D., J. Kunkle, A.S. Roller, and W. Gamble|Polychlorinated Biphenyls:  In Vivo and In Vitro Modifications of Cholesterol and Fatty Acid Biosynthesis|J. Environ. Pathol. Toxicol.1:813-828|1978|
37512|T||Kluwe,W.M., B.N. Gupta, and J.C. Lamb IV|The Comparative Effects of 1,2-Dibromo-3-Chloropropane (DBCP) and Its Metabolites, 3-Chloro-1,2-Propaneoxide (Epichlorohydrin), 3-Chloro-1,2-Propanediol (Alphachlorohydrin), and Oxalic Acid, on the Urogenital System of |Toxicol. Appl. Pharmacol.70:67-86|1983|10.1016/0041-008X(83)90180-1
37514|T||Kluwe,W.M., J.C. Lamb IV, A. Greenwell, and F.W. Harrington|1,2-Dibromo-3-Chloropropane (DBCP)-Induced Infertility in Male Rats Mediated by a Post-Testicular Effect|Toxicol. Appl. Pharmacol.71:294-298|1983|10.1016/0041-008X(83)90346-0
37515|T||Kluwe,W.M., C.A. Montgomery, H.D. Giles, and J.D. Prejean|Encephalopathy in Rats and Nephropathy in Rats and Mice After Subchronic Oral Exposure to Benzaldehyde|Food Chem. Toxicol.21(3): 245-250|1983|10.1016/0278-6915(83)90055-8
37521|T||Knight,H.D., and M. Reina-Guerra|Intoxication of Cattle with Sodium Bromide-Contaminated Feed|Am. J. Vet. Res.38(3): 407-409|1977|
37523|T||Knull,H.R., W.W. Wells, and L.P. Kozak|Galactose Toxicity in the Chick: Hyperosmolality Or Depressed Brain Energy Reserves?|Science176(4036): 815-817|1972|10.1126/science.176.4036.815.b
37525|T||Kobayashi,H., A. Yuyama, M. Kudo, and N. Matsusaka|Effects of Organophosphorus Compounds, O,O-Dimethyl O-(2,2-Dichlorovinyl)Phosphate (DDVP) and O,O-Dimethyl O-(3-Methyl 4-Nitrophenyl)Phosphorothioate (Fenitrothion), on Brain Acetylcholine Content and Acetylcholinestera|Toxicology28(3): 219-227|1983|10.1016/0300-483X(83)90119-1
37526|T||Kobow,J., M. Akkilic, and H. Luders|Ethopabate Tolerance in Growing Chickens|Poult. Sci.48(3): 1019-1021|1969|10.3382/ps.0481019
37528|T||Kocher,C.W., N.H. Mahle, R.A. Hummel, L.A. Shadoff, and M.E. Getzendaner|A Search for the Presence of 2,3,7,8 Tetrachlorodibenzo-p-Dioxin in Beef Fat|Bull. Environ. Contam. Toxicol.19(2): 228-236|1978|
37534|AT||Koeman,J.H., and J.H. Pennings|An Orientational Survey on the Side-Effects and Environmental Distribution of Insecticides Used in Tsetse-Control in Africa|Bull. Environ. Contam. Toxicol.5(2): 164-170|1970|10.1007/BF01617195
37539|T||Kohli,J.D., M.Z. Hasan, and B.N. Gupta|Dermal Absorption of Fenitrothion in Rat|Bull. Environ. Contam. Toxicol.11(3): 285-290|1974|10.1007/BF01685110
37541|T||Kolaja,G.J.|The Effects of DDT, DDE and Their Sulfonated Derivatives on Eggshell Formation in the Mallard Duck|Bull. Environ. Contam. Toxicol.17(6): 697-701|1977|10.1007/BF01685955
37543|T||Koller,L.D.|Immunosuppression Produced by Lead, Cadmium and Merucry|Am. J. Vet. Res.34(11): 1457-1459|1973|
37545|T||Koller,L.D., and J.E. Thigpen|Biphenyl-Exposed Rabbits|Am. J. Vet. Res.34(2): 1605-1606|1973|
37546|T||Koller,L.D., and J.G. Zinkl|Pathology of Polychlorinated Biphenyls in Rabbits|Am. J. Pathol.70:363-378|1973|
37547|T||Kolmodin-Hedman,B., B. Alexanderson, and F. Sjoqvist|Effect of Exposure to Lindane on Drug Metabolism: Decreased Hexobarbital Sleeping-Times and Increased Antipyrine Disppearance Rate in Rats|Toxicol. Appl. Pharmacol.20:299-307|1971|10.1016/0041-008X(71)90273-0
37549|T||Konings,J., R. Kirchmann, G.B. Gerber, R. Van Bruwaene, and J. Colard|Distribution of 60Co and 137Cs in Mallard Ducks (Anas Platyrhynchus)|Health Phys.46(3): 681-684|1984|
37550|T||Konno,N., and H. Kinebuchi|Residues of Phosvel in Plasma and in Adipose Tissue of Hens After Single Oral Administration|Toxicol. Appl. Pharmacol.45:541-547|1978|10.1016/0041-008X(78)90116-3
37551|T||Konno,N., and H. Kinebuchi|Accumulation of Phosvel in Adipose Tissue of Hens|Experientia35(1): 82-83|1979|10.1007/BF01917891
37553|T||Koppang,M., and H. Rimeslatten|Toxic and Carcinogenic Effects of Nitrosodimethylamine in Mink|IARC Sci. Publ.14:443-452|1976|
37554|T||Koppang,N.|The Toxic Effects of Dimethylnitrosamine in Sheep|Acta Vet. Scand.15:533-543|1974|10.1186/BF03547224
37555|T||Koppang,N.|Dimethylnitrosamine--Formation in Fish Meal and Toxic Effects in Pigs|Am. J. Pathol.74:95-108|1974|
37557|T||Koppang,N., A. Helgebostad, D. Armstrong, and H. Rimeslatten|Toxic and Carcinogenic Effects of Dimethylnitrosamine (DMNA) in the Blue Fox (Alopex lagopus)|Acta Vet. Scand.22:501-516|1981|10.1186/BF03548675
37558|T||Korhonen,A., K. Hemminki, and H. Vainio|Embryotoxicity of Benzothiazoles, Benzenesulfohydrazide, and Dithiodimorpholine to the Chicken Embryo|Arch. Environ. Contam. Toxicol.11:753-759|1982|10.1007/BF01059164
37559|T||Korhonen,A., K. Hemminki, and H. Vainio|Application of the Chicken Embryo in Testing for Embryotoxicity|Scand. J. Work Environ. Health8:63-69|1982|10.5271/sjweh.2495
37560|T||Korhonen,A., K. Hemminki, and H. Vainio|Embryotoxic Effects of Eight Organic Peroxides and Hydrogen Peroxide on Three-Day Chicken Embryos|Environ. Res.33:54-61|1984|10.1016/0013-9351(84)90008-2
37565|T||Koschier,F.J., W.D. Conway, and B.R. Rennick|Renal Transport and Renal Metabolism of 2,4,5-Trichlorophenoxyacetate by the Chicken|J. Environ. Pathol. Toxicol.2:927-940|1979|
37572|T||Kosutzky,J., O. Adamec, and E. Bobakova|Effects of Polychlorinated Biphenyls on Poultry Reproduction|Bull. Environ. Contam. Toxicol.21:737-742|1979|10.1007/BF01685497
37574|T||Kovacs,K., J.A. Blascheck, E. Yeghiayan, S. Hatakeyama, and C. Gardell|Adrenocortical Lipid Hyperplasia Induced in Rats by Aniline|Am. J. Pathol.62(1): 17-33|1971|
37576|T||Krampl,V.|Relationship Between Serum Enzymes and Histological Changes in Liver After Administration of Heptachlor in the Rat|Bull. Environ. Contam. Toxicol.5(6): 529-536|1971|10.1007/BF01539982
37579|T||Kratzer,F.H., R.A. Ernst, B.J. Marquez, P. Schroeder, C.H. Brown, and S.A. Peoples|The Effect of A Low Energy Diet on the Concentration of DDT in the Adipose Tissue of Turkeys|Poult. Sci.55:365-369|1976|10.3382/ps.0550365
37580|T||Krause,W., K. Hamm, and J. Weissmuller|The Effect of DDT on Spermatogenesis of the Juvenile Rat|Bull. Environ. Contam. Toxicol.14(2): 171-179|1975|10.1007/BF01701310
37581|T||Kreider,J.L., and R.H. Dutt|Histology of the Reproductive Tract of Southdown Rams fed the Chlorohydrin (3-Chloro-1,2-Propanediol)|Ky. Agric. Exp. Stn. Prog. Rep.196:8-9|1971|
37582|T||Kreider,J.L., and R.H. Dutt|Semen Characteristics of Southdown Rams Fed a Chlorohydrin (3-Chloro-1,2-Propanediol)|Ky. Agric. Exp. Stn. Prog. Rep.181:75-76|1969|
37584|T||Kreitzer,J.F.|Effects of Toxaphene and Endrin at Very Low Dietary Concentrations on Discrimination Acquisition and Reversal in Bobwhite Quail, Colinus virginianus|Environ. Pollut.23:217-230|1980|10.1016/0143-1471(80)90046-X
37590|T||Krishnakumari,M.K., and S. Muralidhara|Acute Oral Toxicity of Hexachlorocyclohexane and X-Factor Topoultry Gallus Domesticus|Poult. Sci.60:2599-2602|1981|10.3382/ps.0602599
37591|T||Krista,L.M., P.E. Waibel, J.H. Sautter, and R.N. Shoffner|Aortic Rupture, Body Weight, and Blood Pressure in the Turkey As Influenced by Strain, Dietary Fat, Beta-Aminopropionitril Fumarate, and Diethyl Stilbestrol|Poult. Sci.48(6): 1954-1960|1969|10.3382/ps.0481954
37592|T||Krivolutski,D.A., T.M. Semyashkina, Z.A. Mikhal'Tsova, and V.A. Turchaninova|Earthworms as a Bioindicator of Radioactive Contamination of Soil|Sov. J. Ecol.11(6): 379-383|1980|
37593|T||Krivolutsky,D., V. Turcaninova, and Z. Miknaltsova|Earthworms as Bioindicators of Radioactive Soil Pollution|Pedobiologia (Multiple Languages)23:263-265|1982|10.1016/S0031-4056(23)03629-6
37594|T||Kruckenberg,S.M., A.C. Strafuss, W.P. Marsland, B.S. Blauch, R.T. Marsh, J.G.E. Vestweber, and W.G. Winter|Posterior Paresis in Swine due to Dermal Absorption of the Neurotoxic Organophosphate Tri-O-Tolyl Phosphate|Am. J. Vet. Res.34(3): 403-404|1973|
37595|T||Kruger,B.J., C.M. Patterson, and C.J. Masters|Species Differences in Uptake and Distribution of 18F|Aust. J. Exp. Biol. Med. Sci.56:427-431|1978|10.1038/icb.1978.48
37598|T||Ku,P.K., M.G. Hogberg, A.L. Trapp, P.S. Brady, and E.R. Miller|Polybrominated Biphenyl (PBB) in the Growing Pig Diet|Environ. Health Perspect.23:13-18|1978|10.1289/ehp.782313
37599|T||Kubena,L.F.|The Influence of Diflubenzuron on Several Weight Characteristics in Growing Male Broiler and Layer Chickens|Poult. Sci.60:1175-1182|1981|10.3382/ps.0601175
37600|T||Kubena,L.F.|The Influence of Diflubenzuron on Several Reproductive Characteristics in Male and Female Layer-Breed Chickens|Poult. Sci.61:268-271|1982|10.3382/ps.0610268
37601|T||Kubena,L.F., and T.D. Phillips|Toxicity of Vanadium in Female Leghorn Chickens|Poult. Sci.62:47-50|1982|10.3382/ps.0620047
37602|T||Kuchar,E.J., F.O. Geenty, W.P. Griffith, and R.J. Thomas|Analytical Studies of Metabolism of Terraclor in Beagle Dogs, Rats, and Plants|J. Agric. Food Chem.17(6): 1237-1240|1969|10.1021/jf60166a041
37605|T||Kulkarni,P.G., N. Mitlin, and G.A. Hurst|Toxicity of Busulfan and Influence of Ingested Chemosterilized Boll Weevils on Reproductive Performance of the Japanese Quail|J. Econ. Entomol.66(2): 341-343|1973|10.1093/jee/66.2.341
37607|T||Kundomal,Y.R., R.M. Morgan, and E.W. Hupp|Metal Content and Testes Weight in Rats Following Cadmium And/Or Gamma Radiation Exposure|Environ. Pollut.30:161-172|1983|10.1016/0143-1471(83)90013-2
37612|T||Kurtz,D.A., and L. Hutchinson|Fonofos Toxicosis in Dairy Cows:  An Accidental Poisoning (1977)|Am. J. Vet. Res.43(9): 1672-1674|1982|
37614|T||Kurtz,P.J.|Dissociated Behavioral and Cholinesterase Decrements Following Malathion Exposure|Toxicol. Appl. Pharmacol.42:589-594|1977|10.1016/S0041-008X(77)80044-6
37615|T||Kurtz,P.J., and M.H. Weeks|Effects of Single and Repeated Exposures to Abate on Rat Behavior and Cholinesterase Activity|Toxicology13:35-43|1979|
37618|T||Kuwahara,M.D., and S.B. Sparber|Behavioral Consequences of Embryonic Or Early Postnatal Exposure to L-Alpha-Noracetylmethadol (NLAAM) in the Domestic Chicken|Neurobehav. Toxicol. Teratol.4(3): 323-329|1982|
37619|T||Kuzan,F.B., and K.V. Prahlad|The Effects of 1,2,3,4,10,10-Hexachloro-1,4,4a,5,8,8a-Hexahydroxy endo, exo-5,8-Dimethionaphthalene (Aldrin) and Sodium Ethylenebisdithiocarbomate (Nabam) on the Chick|Poult. Sci.54:1054-1064|1975|10.3382/ps.0541054
37623|T||Lal,S., and T.L. Sourkes|Deposition of Copper in Rat Tissues - the Effect of Dose and Duration of Administration of Copper Sulfate|Toxicol. Appl. Pharmacol.20(3): 269-283|1971|10.1016/0041-008X(71)90270-5
37625|T||Lake,B.G., P.G. Brantom, S.D. Gangolli, K.R. Butterworth, and P. Grasso|Studies on the Effects of Orally Administered Di-(2-Ethylhexyl)Phthalate in the Ferret|Toxicology6:341-356|1976|10.1016/0300-483X(76)90038-X
37626|T||Lake,B.G., M.A. Collins, R.A. Harris, and S.D. Gangolli|The Induction of Hepatic and Extrahepatic Xenobiotic Metabolism in the Rat and Ferret by a Polychlorinated Biphenyl Mixture (Aroclor 1254)|Xenobiotica9(12): 723-731|1979|10.3109/00498257909042340
37627|T||Lake,B.G., S.D. Gangolli, P. Grasso, and A.G. Lloyd|Studies on the Hepatic Effects of Orally Administered Di-(2-Ethylhexyl)Phthalate in the Rat|Toxicol. Appl. Pharmacol.32:355-367|1975|10.1016/0041-008X(75)90226-4
37630|T||Lalor,J.H., and G.C. Llewellyn|The Effects of Selenium on Mongolian Gerbils|Environ. Res.19(1): 23-32|1979|10.1016/0013-9351(79)90030-6
37631|T||Lamb,D.W., Y.A. Greichus, and R.L. Linder|Distribution of Dieldrin-14C in Pheasant Tissues After a Single Administration|J. Agric. Food Chem.18(1): 168-171|1970|10.1021/jf60167a021
37632|T||Lambert,G., D.B. Peakall, B.J.R. Philogene, and F.R. Engelhardt|Effect of Oil and Oil Dispersant Mixtures on the Basal Metabolic Rate of Ducks|Bull. Environ. Contam. Toxicol.29:520-524|1982|10.1007/BF01669614
37633|T||Lamberton,J.G., R.D. Inman, R.R. Claeys, W.A. Robson, and G.H. Arscott|The Metabolism of p,p'-DDE in Laying Japanese Quail and Their Incubated Eggs|Bull. Environ. Contam. Toxicol.14(6): 657-664|1975|10.1007/BF01685239
37636|T||Landolt,R.R., H.W. Berk, and H.T. Russell|Studies on the Toxicity of Rhodium Trichloride in Rats and Rabbits|Toxicol. Appl. Pharmacol.21:589-590|1972|10.1016/0041-008X(72)90016-6
37638|T||Lapadula,D.M., C.D. Carrington, and M.B. Abou-Donia|Induction of Hepatic Microsomal Cytochrome P-450 and Inhibition of Brain, Liver, and Plasma Esterases by an Acute Dose of S,S,S-Tri-N-Butyl Phosphorotrithioate (DEF) in the Adult Hen|Toxicol. Appl. Pharmacol.73:300-310|1984|10.1016/0041-008X(84)90336-3
37639|T||Larsen,K.D., and S.M. Jalal|DDT Induced Chromosome Mutations in Mice--Further Testing|Can. J. Genet. Cytol.16:491-497|1974|10.1139/g74-055
37640|T||Larsen,R.V., L.E. Kirsch, S.M. Shaw, J.E. Christian, and G.S. Born|Excretion and Tissue Distribution of Uniformly Labeled 14C-Pentachlorophenol in Rats|J. Pharm. Sci.61(12): 2004-2006|1972|10.1002/jps.2600611229
37641|T||Larson,G.E., P.J. Savarie, and I. Okuno|Iophenoxic Acid and Mirex for Marking Wild, Bait-Consuming Animals|J. Wildl. Manag.45(4): 1073-1076|1981|10.2307/3808136
37642|T||Larson,P.S., J.L.,Jr. Egle, G.R. Hennigar, R.W. Lane, and J.F. Borzelleca|Acute, Subchronic, and Chronic Toxicity of Chlordecone|Toxicol. Appl. Pharmacol.48:29-41|1979|10.1016/S0041-008X(79)80005-8
37645|T||Laskey,J.W., G.L. Rehnberg, S.C. Laws, and J.F. Hein|Reproductive Effects of Low Acute Doses of Cadmium Chloride in Adult Male Rats|Toxicol. Appl. Pharmacol.73:250-255|1984|10.1016/0041-008X(84)90330-2
37646|T||Laties,V.G., and H.L. Evans|Methylmercury-Induced Changes in Operant Discrimination by the Pigeon|J. Pharmacol. Exp. Ther.214:620-628|1980|
37647|T||Latimer,J.W., and H.S. Siegel|Immune Response in Broilers fed Technical Grade DDT|Poult. Sci.53:1078-1083|1974|10.3382/ps.0531078
37648|T||Latshaw,J.D., and M.D. Biggert|Incorporation of Selenium into Egg Proteins After Feeding Selenomethionine or Sodium Selenite|Poult. Sci.60:1309-1313|1981|10.3382/ps.0601309
37650|T||Lawler,G.C., J.P. Holmes, B.J. Fiorito, J.L. Laseter, and R.C. Szaro|Quantification of Petroleum Hydrocarbons in Selected Tissues of Male Mallard Ducklings Chronically Exposed to South Louisiana Crude Oil|In: C.C.Bates (Ed.), Proceedings of the Conference on Assessment of Ecological Impact of Oil Spills, Arlington, VA:583-612|1979|
37651|T||Lawler,G.C., W.A. Loong, and J.L. Laseter|Accumulation of Saturated Hydrocarbons in Tissues of Petroleum-Exposed Mallard Ducks (Anas platyrhynchos)|Environ. Sci. Technol.12(1): 47-51|1978|10.1021/es60137a002
37652|T||Lawler,G.C., W.A. Loong, and J.L. Laseter|Accumulation of Aromatic Hydrocarbons in Tissues of Petroleum-Exposed Mallard Ducks (Anas platyrhynchos)|Environ. Sci. Technol.12(1): 51-54|1978|10.1021/es60137a003
37653|T||Lawrence,W.H., M. Malik, J.E. Turner, and J. Autian|Toxicity Profile of Epichlorohydrin|J. Pharm. Sci.61(11): 1712-1717|1972|10.1002/jps.2600611103
37656|T||Lay,J.P., J.K. Malik, W. Klein, and F. Korte|Effects of Dosing and Routes of Administration on Excretion and Metabolism of 14-C Dieldrin in Rats|Chemosphere11(12): 1231-1242|1982|10.1016/0045-6535(82)90037-6
37657|T||Le Fevre,R., F. Coulston, and L. Goldberg|Action of a Copolymer of Mixed Phenylmethylcyclosiloxanes on Reproduction in Rats and Rabbits|Toxicol. Appl. Pharmacol.21:29-44|1972|10.1016/0041-008X(72)90025-7
37658|T||Le Vier,R.R., and M.E. Jankowiak|Effects of Oral 2,6-cis-Diphenylhexamethylcyclotetrasiloxane on the Reproductive System of the Male Rat|Toxicol. Appl. Pharmacol.21:80-88|1972|10.1016/0041-008X(72)90029-4
37659|T||Leander,D., and R.C. MacPhail|Effect of Chlordimeform (A Formamidine Pesticide) on Schedule-Controlled Responding of Pigeons|Neurobehav.Toxicol.2(4): 315-321|1980|
37660|T||Leander,J.D., D.E. McMillan, and T.S. Barlow|Chronic Mercuric Chloride: Behavioral Effects in Pigeons|Environ. Res.14:424-435|1977|10.1016/0013-9351(77)90050-0
37661|T||Leber,A.P., and T.S. Miya|A Mechanism for Cadmium- and Zinc-Induced Tolerance to Cadmium Toxicity:  Involvement of Metallothionein|Toxicol. Appl. Pharmacol.37:403-414|1976|10.1016/0041-008X(76)90202-7
37664|T||Lechner,D.W., and M.S. Abdel-Rahman|Alterations in Rat Liver Microsomal Enzymes Following Exposure to Carbaryl and Malathion in Combination|Arch. Environ. Contam. Toxicol.14:451-457|1985|10.1007/BF01055531
37666|T||Ledet,A.E., J.R. Duncan, W.B. Buck, and F.K. Ramsey|Clinical, Toxicological, and Pathological Aspects of Arsanilic Acid Poisoning in Swine|Clin. Toxicol.6(3): 439-457|1973|10.3109/15563657308990543
37667|T||Lee,B.J.|Effects of Mirex on Litter Organisms and Leaf Decomposition in a Mixed Hardwood Forest in Athens, Georgia|J. Environ. Qual.3(4): 305-311|1974|10.2134/jeq1974.00472425000300040001x
37669|T||Lee,H.Y., G.W. Kalmus, and M.A. Levin|Effects of Phthalate Esters (Plasticizers) on Chick Embryos and Chick Embryonic Cells|Growth38:301-312|1974|
37670|T||Lee,H.J., and G.B. Jones|Interactions of Selenium, Cadmium and Copper in Sheep|Aust. J. Agric. Res.27(3): 447-452|1976|10.1071/AR9760447
37671|T||Lee,S., and W.M. Britton|Magnesium Toxicity: Effect on Phosphorus Utilization by Broiler Chicks|Poult. Sci.59:1989-1994|1980|10.3382/ps.0591989
37672|T||Lee,S.R., W.M. Britton, and G.N. Rowland|Magnesium Toxicity: Bone Lesions|Poult. Sci.59:2403-2411|1980|10.3382/ps.0592403
37673|T||Lees,P., and B. Pharm|Pharmacology and Toxicology of Alpha Chloralose:  A Review|Vet. Rec.91:330-333|1972|10.1136/vr.91.14.330
37674|T||Lehman,J.W., T.J. Peterle, and C.M. Mills|Effects of DDT on Bobwhite Quail (Colinus virginianus) Adrenal Gland|Bull. Environ. Contam. Toxicol.11(5): 407-414|1974|10.1007/BF01685295
37675|T||Lehner,P.N., and A. Egbert|Dieldrin and Eggshell Thickness in Ducks|Nature224:1218-1219|1969|10.1038/2241218a0
37676|T||Lehotzky,K., and G. Ungvary|Experimental Data on the Neurotoxicity of Fenitrothion|Acta Pharmacol. Toxicol.39:374-382|1976|10.1111/j.1600-0773.1976.tb03188.x
37677|T||Leighton,F.A., D.B. Peakall, and R.G. Butler|Heinz-Body Hemolytic Anemia from the Ingestion of Crude Oil:  A Primary Toxic Effect in Marine Birds|Science220:871-873|1983|10.1126/science.6844918
37678|T||Lein,D.H., G.A. Maylin, R.B. Hillman, W.C. Rebhun, J.D. Henion, and J.G.,Jr. Ebel|Chlorpyrifos (Dursban 44) Toxicity in Dairy Bulls|Cornell Vet.72(Suppl.9): 1-58|1982|
37679|T||Leish,Z., and B.A. Panaretto|Studies on Intravenously Infused Dexamethasone in Sheep|Aust. J. Biol. Sci.31:373-383|1978|10.1071/BI9780373
37681|T||Lemercier,G., P. Carpentier, H. Sentenac-Roumanou, and P. Morelis|Histological and Histochemical Changes in the Central Nervous System of the Rat Poisoned by An Irreversible Anticholinesterase Organophosphorus Compound|Acta Neuropathol.61:123-129|1983|10.1007/BF00697391
37686|T||Leonard,D.E., and G.A. Simmons|The Effects of Zectran on the Parasitoids of the Spruce Budworm, Choristoneura fumiferana (Lepidoptera:  Tortricidae)|Can. Entomol.106:545-554|1974|10.4039/Ent106545-5
37687|T||Leone,N.C., E.F. Geever, and N.C. Moran|Acute and Subacute Toxicity Studies of Sodium Fluoride in Animals|Public Health Report71(5): 459-467|1956|
37689|T||Leonzio,C., and A. Massi|Metal Biomonitoring in Bird Eggs: A Critical Experiment|Bull. Environ. Contam. Toxicol.43:402-406|1989|10.1007/BF01701875
37692|T||Leswing,R.J., and W.E. Ribelin|Physiologic and Pathologic Changes in Acrylamide Neuropathy|Arch. Environ. Health18:22-29|1969|10.1080/00039896.1969.10665368
37693|T||Leuck,D.B., M.C. Bowman, J.C.,Jr. Johnson, E.W. Beck, and R.S. Lowery|Niagara NIA-10242 Insecticide Residues:  Their Persistence in Coastal Bermudagrass, Corn, and Silages, and Their Effect, fed in Silage, on Lactating Cows|J. Econ. Entomol.61(5): 1349-1352|1968|10.1093/jee/61.5.1349
37698|T||Lewis,M.F., H.W. Mertens, and J.A. Steen|Behavioral Changes from Chronic Exposure to Pesticides Used in Aerial Application: Effects of Phosdrin on the Performance of Monkeys and Pigeons on Variable Interval Reinforcement Schedules|Aerosp. Med.44(3): 290-293|1973|
37700|T||Lewis,S.J., and R.A. Malecki|Effects of Egg Oiling on Larid Productivity and Population Dynamics|Auk101:584-592|1984|10.1093/auk/101.3.584
37705|T||Lillard,D.A., and R.K. Noles|Effect of Force Molting and Induced Hyperthyroidism on the Depletion of DDT Residues from the Laying Hen|Poult. Sci.52:222-228|1973|10.3382/ps.0520222
37706|T||Lillie,R.J.|Studies on the Reproductive Performance and Progeny Performance of Caged White Leghorns fed Malathion and Carbaryl|Poult. Sci.52:266-272|1973|10.3382/ps.0520266
37707|T||Lillie,R.J., H.C. Cecil, and J. Bitman|Methoxychlor in Chicken Breeder Diets|Poult. Sci.52:1134-1138|1973|10.3382/ps.0521134
37708|T||Lillie,R.J., H.C. Cecil, J. Bitman, and G.F. Fries|Differences in Response of Caged White Leghorn Layers to Various Polychlorinated Biphenyls (PCBs) in the Diet|Poult. Sci.53:726-732|1974|10.3382/ps.0530726
37709|T||Lillie,R.J., H.C. Cecil, J. Bitman, and G.F. Fries|Dietary Calcium, DDT Source and Age of Hen on the Reproductive Performance of Caged White Leghorns fed DDT|Poult. Sci.52:636-644|1973|10.3382/ps.0520636
37711|T||Lillie,R.J., C.A. Denton, H.C. Cecil, J. Bitman, and G.F. Fries|Effect of p,p'-DDT, o,p'-DDT and p,p'-DDE on the Reproductive Performance of Caged White Leghorns|Poult. Sci.51:122-129|1972|10.3382/ps.0510122
37712|T||Lillie,R.J., S.J. Harris, H.C. Cecil, and J. Bitman|Normal Reproductive Performance of Mature Cockerels Fed Aroclor 1248|Poult. Sci.53:1604-1607|1974|10.3382/ps.0531604
37714|T||Lim,S., and S. Lee|The Toxicity of Diflubenzuron to Oxya japonica (Willemse) and Its Effect on Moulting|Pestic. Sci.13(5): 537-544|1982|10.1002/ps.2780130512
37716|T||Lincer,J.L.|DDE-Induced Eggshell-Thinning in the American Kestrel:  A Comparison of the Field Situation and Laboratory Results|J. Appl. Ecol.12(3): 781-793|1975|10.2307/2402090
37720|T||Linder,R.L., R.B. Dahlgren, and Y.A. Greichus|Residues in the Brain of Adult Pheasants Given Dieldrin|J. Wildl. Manag.34(4): 954-956|1970|10.2307/3799169
37721|T||Linder,R.E., T.B. Gaines, and R.D. Kimbrough|The Effect of Polychlorinated Biphenyls on Rat Reproduction|Food Cosmet. Toxicol.12:63-77|1974|10.1016/0015-6264(74)90322-8
37722|T||Linder,R.E., T.M. Scotti, W.K. McElroy, J.W. Laskey, L.F. Strader, and K. Powell|Spermotoxicity and Tissue Accumulation of Chlordecone (Kepone) in Male Rats|J. Toxicol. Environ. Health12:183-192|1983|10.1080/15287398309530417
37724|T||Lindsey,G.D., R.D. Nass, and G.A. Hood|An Evaluation of Bait Stations for Controlling Rats in Sugarcane|J. Wildl. Manag.35(3): 440-443|1971|10.2307/3799695
37727|T||Lingk,W.|European Community Cooperative Study to Determine Acute Oral Toxicity in Rats-Preliminary Results|In: W.J.Hunter and C.Morris (Eds.), Quality Assurance of Toxicological Data, Luxembourg:10-|1979|
37728|AT||Linn,J.D., and R.L. Stanley|TDE Residues in Clear Lake Animals|Calif. Fish Game55(3): 164-178|1969|
37730|T||Lisk,D.J., R.D. Boyd, J.N. Telford, J.G. Babish, G.S. Stoewsand, C.A. Bache, and W.H. Gutenmann|Toxicologic Studies with Swine fed Corn Grown on Municipal Sewage Sludge-Amended Soil|J. Anim. Sci.55(3): 613-619|1982|10.2527/jas1982.553613x
37731|T||Litterst,C.L., T.M. Farber, A.M. Baker, and E.J. Van Loon|Effect of Polychlorinated Biphenyls on Hepatic Microsomal Enzymes in the Rat|Toxicol. Appl. Pharmacol.23:112-122|1972|10.1016/0041-008X(72)90210-4
37732|T||Litterst,C.L., and E.J. Van Loon|Time-Course of Induction of Microsomal Enzymes Following Treatment with Polychlorinated Biphenyl|Bull. Environ. Contam. Toxicol.11(3): 206-212|1974|10.1007/BF01685093
37733|T||Littlefield,N.A., C.J. Nelson, and C.H. Frith|Benzidine Dihydrochloride: Toxicological Assessment in Mice During Chronic Exposures|J. Toxicol. Environ. Health12:671-685|1983|10.1080/15287398309530459
37734|T||Littrell,E.E.|A Study of the Effects of Bolero 10G on the Mountain Garter Snake, Thamnophis elegans elegans|Calif. Fish Game69(3): 186-187|1983|
37735|T||Liu,T.Z., S.D. Lee, and R.S. Bhatnagar|Toxicity of Palladium|Toxicol. Lett.4:469-473|1979|10.1016/0378-4274(79)90113-9
37736|T||Llewellyn,G.C., W.S. Hastings, T.D. Kimbrough, F.W. Rea, and C.E. O'Rear|The Effects of Dimethylformamide on Female Mongolian Gerbils, Meriones unguiculatus|Bull. Environ. Contam. Toxicol.11(5): 467-473|1974|10.1007/BF01685306
37737|T||Lloyd,J.E., and J.G. Matthysse|Residues of Dichlorvos, Diazinon, and Dimetilan in Milk of Cows Fed PVC-Insecticide Feed Additives|J. Econ. Entomol.64(4): 821-822|1971|10.1093/jee/64.4.821
37740|T||Lofs-Holmin,A.|Measuring Cocoon Production of the Earthworm Allolobophora caliginosa (Sav.) as a Method of Testing Sublethal Toxicity of Pesticides|Swed. J. Agric. Res.12:117-119|1982|
37741|T|OECDG|Lofs-Holmin,A.|Measuring Growth of Earthworms as a Method of Testing Sublethal Toxicity of Pesticides|Swed. J. Agric. Res.10:25-33|1980|
37742|T||Logner,K.R., M.W. Neathery, W.J. Miller, R.P. Gentry, D.M. Blackmon, and F.D. White|Lead Toxicity and Metabolism from Lead Sulfate Fed to Holstein Calves|J. Dairy Sci.67:1007-1013|1984|10.3168/jds.S0022-0302(84)81399-5
37743|T||Longcore,J.R., P.O. Corr, and H.E. Spencer|Lead Shot Incidence in Sediments and Waterfowl Gizzards Frommerrymeeting Bay, Maine|Wildl. Soc. Bull.10:3-10|1982|
37747|T||Longcore,J.R., F.B. Samson, and T.W.,Jr. Whittendale|DDE Thins Eggshells and Lowers Reproductive Success of Captive Black Ducks|Bull. Environ. Contam. Toxicol.6(6): 485-490|1971|10.1007/BF01796852
37748|T||Loose,L.D.|Macrophage Induction of T-Suppressor Cells in Pesticide-Exposed and Protozoan-Infected Mice|Environ. Health Perspect.43:89-97|1982|10.1289/ehp.824389
37751|T||Lopata,A., F. Darvas, K. Valko, G. Mikite, E. Jakucs, and A. Kis-Tamas|Structure-Activity Relationships in A Series of new Antifungal Nitroalcohol Derivatives|Pestic. Sci.14:513-520|1983|10.1002/ps.2780140509
37752|T||Loper,G.M., and B.H. Ross|Concentration of Methyl Parathion from Penncap-M in Pollens of Various Lipid and Oil Contents|Environ. Entomol.11(4): 925-927|1982|10.1093/ee/11.4.925
37753|T||Van Oorschot,J.L.P.|Photosynthetic Inhibition in Phaseolus vulgaris I.  The Analogy Between Herbicidal Action and Carbon Dioxide Starvation|Weed Res. (Multiple Languages)14(2): 75-79|1974|10.1111/j.1365-3180.1974.tb01499.x
37756|T||Lox,C.D.|Effects of Acute Pesticide Poisoning on Blood Clotting in the Rat|Ecotoxicol. Environ. Saf.7:451-454|1983|10.1016/0147-6513(83)90084-2
37757|T||Lu,M.H., and R.E. Staples|Teratogenicity of Ethylenethiourea and Thyroid Function in the Rat|Teratology17:171-178|1978|10.1002/tera.1420170210
37758|T||Lucier,G.W., G.J. Davis, and J.A. McLachlan|Transplacental Toxicology of the Polychlorinated and Polybrominated Biphenyls|In: D.D.Mahlum, M.R.Sikov, P.L.Hackett, F.D.Andrew (Eds.), Developmental Toxicology of Energy-Related Pollutants, Proc.17th Ann.Hanford Biol.Symp., Oct 17-19, 1977, Richland,WA:188-203|1978|
37760|T||Ludke,J.L.|DDE Increases the Toxicity of Parathion to Coturnix Quail|Pestic. Biochem. Physiol.7:28-33|1977|10.1016/0048-3575(77)90063-3
37764|T||Lund,M.|Hens, Eggs and Anticoagulants|Int. Pest Control23(5): 126-127|1981|
37766|T||Lundholm,C.E.|Comparison of p-p'-DDE and o-p'-DDE on Eggshell Thickness and Ca Binding Activity of Shell Gland in Ducks|Acta Pharmacol. Toxicol.47:377-384|1980|10.1111/j.1600-0773.1980.tb01576.x
37767|T||Lundholm,C.E.|Effect of P,P'-DDE Administered In Vivo and In Vitro on Ca Binding and Ca-Mg-ATPase Activity in Egg Shell Gland Mucosa of Ducks|Acta Pharmacol. Toxicol.50:121-129|1982|10.1111/j.1600-0773.1982.tb00953.x
37768|T||Lundholm,C.E.|Effect of DDE on the Ca Metabolism of the Duck Eggshell Gland and Its Subcellular Fractions; Relations to the Functional Stage|Comp. Biochem. Physiol. C Comp. Pharmacol.78(1): 5-12|1984|10.1016/0742-8413(84)90039-2
37769|T||Lundholm,C.E., and K. Mathson|The Inhibitory Effect of Some Chlorinated Hydrocarbon Pesticides on the ATP-Dependent Ca2+ Binding of the Particulate Fraction of the Eggshell Gland Mucosa Cells|Acta Pharmacol. Toxicol.52:390-394|1983|10.1111/j.1600-0773.1983.tb01119.x
37770|T||Luscombe,D.K., and P.J. Nicholls|Acute and Subacute Oral Toxicity of Ahr-2438B, A Purified Sodium Lignosulphonate, in Rats|Food Cosmet. Toxicol.11:229-237|1973|10.1016/S0015-6264(73)80489-4
37772|T||Lutz,H., and Y. Lutz-Ostertag|The Action of Different Pesticides on the Development of Bird Embryos|Adv. Exp. Med. Biol.27:127-150|1972|10.1007/978-1-4684-3219-0_11
37773|T||Lutz-Ostertag,Y.|Effects of Lindane upon the Reproductive Function in Four Generations Running in the Quail. Studies of Gonads and Mullerian Tract in Embryos, One Day Chicken and Adults|Arch. Anat. Microsc. Morphol. Exp.70(3): 161-188|1981|
37777|T||Lyman,C.M., J.T. Cronin, M.M. Trant, and G.V. Odell|Metabolism of Gossypol in the Chick|J. Am. Oil Chem. Soc.46:100-104|1969|10.1007/BF02541218
37778|T||Lynch,G.P., E.D. Jackson, C.A. Kiddy, and D.F. Smith|Responses of Young Calves to Low Doses of Lead|J. Dairy Sci.59(8): 1490-1494|1975|10.3168/jds.S0022-0302(76)84389-5
37779|T||Lynch,G.P., D.F. Smith, M. Fisher, T.L. Pike, and B.T. Weinland|Physiological Responses of Calves to Cadmium and Lead|J. Anim. Sci.42(2): 410-421|1976|10.2527/jas1976.422410x
37780|AT||Lynch,W.T., and J.M. Coon|Effect of Tri-o-Tolyl Phosphate Pretreatment on the Toxicity and Metabolism of Parathion and Paraoxon in Mice|Toxicol. Appl. Pharmacol.21:153-165|1972|10.1016/0041-008X(72)90058-0
37781|T||Lynn,R.K., C. Garvie-Gould, K. Wong, and J.M. Kennish|Metabolism, Distribution, and Excretion of the Flame Retardant, Tris(2,3-Dibromopropyl) Phosphate (Tris-BP) in the Rat:  Identification of Mutagenic and Nephrotoxic Metabolites|Toxicol. Appl. Pharmacol.63:105-119|1982|10.1016/0041-008X(82)90030-8
37785|T||MacDonald,E.|Effect of Pyrazole, 4-Methylpyrazole, 4-Bromopyrazole and 4-Iodopyrazole on Brain Noradrenaline Levels of Mice and Rats|Acta Pharmacol. Toxicol.39:513-524|1976|10.1111/j.1600-0773.1976.tb03201.x
37787|T||Machin,A.F., M.P. Quick, H. Rogers, and P.H. Anderson|The Conversion of Diazinon to Hydroxydiazinon in the Guinea-Pig and Sheep|Bull. Environ. Contam. Toxicol.6(1): 26-27|1971|10.1007/BF01559069
37788|T||MacIntyre,T.M.|Effect of Bunker 'C' Oil on Sheep|Can. J. Anim. Sci.50:748-749|1970|10.4141/cjas70-104
37792|T||MacPherson,A., and R.G. Hemingway|The Relative Merit of Various Blood Analyses and Liver Function Tests in Giving an Early Diagnosis of Chronic Copper Poisoning in Sheep|Br. Vet. J.125:213-221|1969|10.1016/S0007-1935(17)48958-5
37793|T||Madani,M.O.K., and S.E.I. Adam|Ligation of the Bile Duct and Acute Chloroform Toxicity in the Donkey|J. Comp. Pathol.86:539-546|1976|10.1016/0021-9975(76)90063-3
37797|T||Mahaffey,K.R., and B.A. Fowler|Effects of Concurrent Administration of Lead, Cadmium, and Arsenic in the Rat|Environ. Health Perspect.19:165-171|1977|10.1289/ehp.7719165
37799|T||Mahoney,J.J.,Jr.|Residue Accumulation in White-Throated Sparrows Fed DDT for 5 and 11 Weeks|Bull. Environ. Contam. Toxicol.12(6): 677-681|1974|10.1007/BF01685913
37801|T||Makhija,S.J., and S.S. Pawar|Effect of Insecticide Take-20 (0,0-Dimethyl Malathion) on Hepatic Drug Metabolism & Lipid Peroxidation in Young Growing Rats|Indian J. Biochem. Biophys.11:266-268|1974|
37803|T||Malaki,A., and A. Jilek|Preliminary Studies on Toxicity of Ronnel-Dow et 57 in Sheep|Mysore J. Agric. Sci.2:56-58|1968|
37804|T||Malaspina,O., and A.C. Stort|DDT Tolerance of Africanized Bees, Italian Bees (Apis Mellifera Ligustica) and Their F1 Hybrids (Hymenoptera: Apidae)|J. Kans. Entomol. Soc.56(1): 74-79|1983|
37805|T||Malave,I., and D.T. De Ruffino|Altered Immune Response During Cadmium Administration in Mice|Toxicol. Appl. Pharmacol.74:46-56|1984|10.1016/0041-008X(84)90268-0
37808|T||Malhotra,S.K., J.C. VanHeertum, L.L. Larson, and M.J. Ricks|Dowco 417: A Potent Synthetic Pyrethroid Insecticide|J. Agric. Food Chem.29:1287-1289|1981|10.1021/jf00108a046
37809|T||Malik,J.K., B.D. Garg, S.P. Verma, and A. Ahmad|Serum Transaminases & Alkaline Phosphatase Activities Duringsubacute Toxicity of Hinosan in Bubalus Bubalis|Indian J. Exp. Biol.16:497-499|1978|
37810|T||Malik,J.K., A.K. Srivastava, and B.S. Paul|Biochemical Alterations in Bubalus bubalis after Repeated Exposures to Quinalphos|Chemosphere13(2): 251-254|1984|10.1016/0045-6535(84)90131-0
37812|T||Mallipudi,N.M., and T.R. Fukuto|Toxicity of N-Sulfenylated Derivatives of Insecticidal Methylcarbamate Esters to the Honeybee|J. Agric. Food Chem.27(2): 261-265|1979|10.1021/jf60222a005
37813|T||Maly,M.S., and G.W. Barrett|Food Chain Uptake of Cadmium by Meadow Voles from Sewage Sludge-Amended Old-Fields|In: Proceedings 62nd American Society of Mammal Dept. of Zoology, Miami University, Oxford Ohio:1-7|1982|
37814|T||Manara,L., P. Coccia, and T. Croci|Persistent Tissue Levels of TCDD in the Mouse and Their Reduction as Related to Prevention of Toxicity|Drug Metab. Rev.13(3): 423-446|1982|10.3109/03602538209029988
37815|T||Mankes,R.F., R. LeFevre, H. Bates, and R. Abraham|Effects of Various Exposure Levels of 2-Phenylethanol on Fetal Development and Survival in Long-Evans Rats|J. Toxicol. Environ. Health12:235-244|1983|10.1080/15287398309530422
37816|T||Mankes,R.F., R. LeFevre, K.F. Benitz, I. Rosenblum, H. Bates, A.I.T. Walker, R. Abraham, and W. Rockwood|Paternal Effects of Ethanol in the Long-Evans Rat|J. Toxicol. Environ. Health10(6): 871-878|1982|10.1080/15287398209530302
37819|T||Mann,H.D., M.C. Ivey, S.E. Kunz, and B.F. Hogan|Chlorpyrifos, Its Oxygen Analogue, and 3,5,6-Trichloro-2-Pyridinol:  Residues in the Body Tissues of Turkeys Confined in Pens on Treated Soil|J. Econ. Entomol.66(3): 715-717|1973|10.1093/jee/66.3.715
37820|T||Manson,J.M., T. Brown, and D.M. Baldwin|Teratogenicity of Nitrofen (2,4-Dichloro-4'-Nitrodiphenyl Ether) and Its Effects on Thyroid Function in the Rat|Toxicol. Appl. Pharmacol.73:323-335|1984|10.1016/0041-008X(84)90338-7
37821|T||March,B.E., R. Soong, E. Bilinski, and R.E.E. Jonas|Effects on Chickens of Chronic Exposure to Mercury at Low Levels Through Dietary Fish Meal|Poult. Sci.53:2175-2181|1974|10.3382/ps.0532175
37822|T||March,B.E., R. Soong, E. Bilinski, and R.E.E. Jonas|Tissue Residues of Mercury in Broilers Fed Fish Meals Containing Different Concentrations of Mercury|Poult. Sci.53:2181-2185|1974|10.3382/ps.0532181
37823|T||Marion,W.W., J.M.J. Ning, and S.M. Ning|Application of Malathion to the Laying Hen|Poult. Sci.47(6): 1956-1961|1968|10.3382/ps.0471956
37825|T||Marks,T.A., G.L. Kimmel, and R.E. Staples|Influence of Symmetrical Polychlorinated Biphenyl Isomers On Embryo and Fetal Development in Mice I.  Teratogenicity of 3 ,3',4,4',5,5'-Hexachlorobiphenyl|Toxicol. Appl. Pharmacol.61(2): 269-276|1981|10.1016/0041-008X(81)90417-8
37826|T||Markson,L.M., E.E. Edwin, G. Lewis, and C. Richardson|The Production of Cerebrocortical Necrosis in Ruminant Calves by the Intraruminal Administration of Amprolium|Br. Vet. J.130:9-16|1974|10.1016/S0007-1935(17)35985-7
37827|T||Marrett,L.E., and M.L. Sunde|The Use of Turkey Poults and Chickens as Test Animals for Nitrate and Nitrite Toxicity|Poult. Sci.47(2): 511-519|1968|10.3382/ps.0470511
37828|T||Marshall,T.C., R.E. Royer, A.P. Li, D.F. Kusewitt, and A.L. Brooks|Acute and Genetic Toxicity of 1-Nitropyrene and Its Fate After Single Oral Doses to Rats|J. Toxicol. Environ. Health10:373-384|1982|10.1080/15287398209530260
37829|T||Martin,A.D., G. Norman, P.I. Stanley, and G.E. Westlake|Use of Reactivation Techniques for the Differential Diagnosis of Organophosphorus and Carbamate Pesticide Poisoning in Birds|Bull. Environ. Contam. Toxicol.26(6): 775-780|1981|10.1007/BF01622170
37830|T||Martin,B.W., G.W. Ivie, and E.M. Bailey|The Acute Toxicity of 1-Methylaminoanthraquinone in Dogs and rabbits and Its Metabolism in Sheep|Arch. Environ. Contam. Toxicol.12:499-507|1983|10.1007/BF01057595
37831|T||Martin,D.H., R. Lewis, and F.D. Tibbitts|Teratogenicity of the Fungicides Captan and Folpet in the Chick Embryo|Bull. Environ. Contam. Toxicol.20:155-158|1978|10.1007/BF01683501
37833|T||Martin,N.A.|Earthworm (Oligochaeta: Lumbricidae) Populations and Late Summer Pasture Renovation|N. Z. J. Agric. Res.23:417-419|1980|10.1080/00288233.1980.10425377
37837|T||Martinez,D.G., and R.L. Pienkowski|Comparative Toxicities of Several Insecticides to an Insect Predator, a Nonpest Prey Species, and a Pest Prey Species|J. Econ. Entomol.76:933-935|1983|10.1093/jee/76.4.933
37838|T||Marton,A.V., E.A. Sellers, and W. Kalow|Effect of Cold on Rats Chronically Exposed to Malathion|Can. J. Biochem. Physiol.40:1671-1676|1962|10.1139/y62-185
37839|T||Marusich,W.L., E. Ogrinz, and M. Mitrovic|Toxicity and Safety Studies with the Antihistomonal Agent, Ipronidazole, in Turkeys|Poult. Sci.49(1): 92-98|1970|10.3382/ps.0490092
37840|T||Maslinska,D., and Z. Zalewska|Effect of Dichlorvos, Administered to the Pregnant Rabbits, on the Cholinesterases Activity in the Progeny|Folia Histochem. Cytochem.16(4): 335-342|1978|
37841|T||Masuda,Y., R. Kagawa, S. Tokudome, and M. Kuratsune|Transfer of Polychlorinated Biphenyls to the Foetuses and Offspring of Mice|Food Cosmet. Toxicol.16:33-37|1978|10.1016/S0015-6264(78)80324-1
37842|T||Mathur,R.P., and I. Prakash|Laboratory Evaluation of Anticoagulant-Treated Baits for Control of the Northern Palm Squirrel, Funambulus pennanti Wroughton|J. Hyg.85:421-426|1980|10.1017/S002217240006349X
37843|T||Matin,M.A., and R. Agarwal|Effect of Acetylcholine Acetyl-Hydrolase (E.C.3.1.1.7) Inhibition on the Accumulation of Pp'Ddt in Various Brain Regionsof Rats|Experientia38:607-608|1982|10.1007/BF02327076
37844|T||Matschke,G.H., K.A. Fagerstone, N.D. Halstead, G.K. Lavoie, and D.L. Otis|Population Reduction of Richardson's Ground Squirrels with Zinc Phosphide|J. Wildl. Manag.46(3): 671-677|1982|10.2307/3808558
37845|T||Matsumoto,T., H. Itoh, and Y. Akiba|Effects of (-)-5-Vinyl-2-Oxazolidinethione on the Radioiodine Metabolism in Growing Chicks|Poult. Sci.48(3): 1061-1069|1969|10.3382/ps.0481061
37848|T||Matsumura,F., D.W. Brewster, B.V. Madhukar, and D.W. Bombick|Alteration of Rat Hepatic Plasma Membrane Functions by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Arch. Environ. Contam. Toxicol.13:509-515|1984|10.1007/BF01056330
37850|T||Matthews,H.B., J.D. McKinney, and G.W. Lucier|Dieldrin Metabolism, Excretion, and Storage in Male and Female Rats|J. Agric. Food Chem.19(6): 1244-1248|1971|10.1021/jf60178a035
37852|T||Matthysse,J.G., and D. Lisk|Residues of Diazinon, Coumaphos, Ciodrin, Methoxychlor, and Rotenone in Cow's Milk from Treatments Similar to Those Used for Ectoparasite and Fly Control on Dairy Cattle, with Notes on Safety of Diazinon and Ciodrin to |J. Econ. Entomol.61(5): 1394-1398|1968|10.1093/jee/61.5.1394
37853|T||May,R.M.|The Ecology of Dragons|Nature264:16-17|1976|10.1038/264016a0
37854|T||Mayer,O., and H. Michalek|Effects of DFP and Obidoxime on Brain Acetylcholine Levels and on Brain and Peripheral Cholinesterases|Biochem. Pharmacol.20:3029-3037|1971|10.1016/0006-2952(71)90107-9
37855|T||Maylin,G.A., and L. Krook|Milk Production of Cows Exposed to Industrial Fluoride Pollution|J. Toxicol. Environ. Health10:473-478|1982|10.1080/15287398209530269
37856|T||Mcarn,G.E., M.L. Boardman, R. Munn, and S.R. Wellings|Relationship of Pulmonary Particulates in English Sparrows to Gross Air Pollution|J. Wildl. Dis.10:335-340|1974|10.7589/0090-3558-10.4.335
37858|T||McBlain,W.A., V. Lewin, and F.H. Wolfe|Limited Accumulation of DDT in Eggs, Fat and Livers of Japanese Quail|Poult. Sci.53:84-88|1974|10.3382/ps.0530084
37859|T||McCann,J.A., W. Teeters, D.J. Urban, and N. Cook|A Short-Term Dietary Toxicity Test on Small Mammals|ASTM Spec. Tech. Publ.:132-142|1981|
37860|T||McCarty,R.T., M. Haufler, and C.A. McBeth|Response of Sheep Grazing Forage Sprayed with Phorate or Mevinphos|J. Am. Vet. Med. Assoc.154(12): 1577-1580|1969|
37861|T||McCarty,R.T., M. Haufler, M.G. Osborn, and C.A.,Jr. McBeth|Oral Toxicity of Four Organophosphate Insecticides to Farm Livestock|Am. J. Vet. Res.30(7): 1149-1153|1969|
37862|T||McClain,R.M., and B.A. Becker|Effects of Organolead Compounds on Rat Embryonic and Fetal Development|Toxicol. Appl. Pharmacol.21:265-274|1972|10.1016/0041-008X(72)90070-1
37865|AT||McCollister,D.D., and M.L. Leng|Toxicology of Picloram and Safety Evaluation of Tordon Herbicides|Down Earth25(2): 5-10|1969|
37866|T||McCollister,S.B., R.J. Kociba, C.G. Humiston, D.D. McCollister, and P.J. Gehring|Studies of the Acute and Long-Term Oral Toxicity of Chlorpyrifos (O,O-Diethyl-O-(3,5,6-Trichloro-2-Pyridyl) Phosphorothioate)|Food Cosmet. Toxicol.12:45-61|1974|10.1016/0015-6264(74)90321-6
37867|T||McComb,W.C., and R.L. Rumsey|Characteristics and Cavity-Nesting Bird Use of Picloram-Created Snags in the Central Appalachians|South. J. Appl. For.7(1): 34-37|1983|10.1093/sjaf/7.1.34
37868|T||McConnell,E.E., G.W. Lucier, R.C. Rumbaugh, P.W. Albro, D.J. Harvan, J.R. Hass, and M.W. Harris|Dioxin in Soil: Bioavailability After Ingestion by Rats and Guinea Pigs|Science223:1077-1079|1984|10.1126/science.6695194
37870|T||McConnell,E.E., J.A. Moore, B.N. Gupta, A.H. Rakes, M.I. Luster, J.A. Goldstein, J.K. Haseman, and C.E. Parker|The Chronic Toxicity of Technical and Analytical Pentachlorophenol in Cattle, 1. Clinicopathology|Toxicol. Appl. Pharmacol.42:468-490|1980|10.1016/0041-008X(80)90342-7
37871|T||McConnell,E.E., J.A. Moore, J.K. Haseman, and M.W. Harris|The Comparative Toxicity of Chlorinated Dibenzo-p-Dioxin in Mice and Guinea Pigs|Toxicol. Appl. Pharmacol.44(2): 335-356|1978|10.1016/0041-008X(78)90195-3
37875|T||McCully,K.A., W.P. McKinley, and W.E.J. Phillips|The Effect of the Rout of Administration of Single Doses of p,p'-DDT on Residues in Adipose and Liver Tissues|J. AOAC Int.51(5): 1050-1057|1968|10.1093/jaoac/51.5.1050
37876|T||McDonald,T.O., M.D. Roberts, and A.R. Borgmann|Ocular Toxicity of Ethylene Chlorohydrin and Ethylene Glycol in Rabbit Eyes|Toxicol. Appl. Pharmacol.21:143-150|1972|10.1016/0041-008X(72)90035-X
37877|T||McElligott,T.F.|The Dermal Toxicity of Paraquat: Differences due to Techniques of Application|Toxicol. Appl. Pharmacol.21:361-368|1972|10.1016/0041-008X(72)90156-1
37878|T||McEwan,E.H.|The Effect of Crude Oils on Salt Gland Sodium Secretion of Orally Imposed Salt Loads in Glaucous-Winged Gulls, Larus glaucescens|Can. J. Zool.56:1212-1213|1978|10.1139/z78-167
37879|T||McEwan,E.H., N. Aitchison, and P.E. Whitehead|Energy Metabolism of Oiled Muskrats|Can. J. Zool.52:1057-1062|1974|10.1139/z74-140
37880|T||McEwan,E.H., and A.F.C. Koelink|The Heat Production of Oiled Mallards and Scaup|Can. J. Zool.51:27-31|1973|10.1139/z73-005
37881|T||McEwan,E.H., and P.M. Whitehead|Uptake and Clearance of Petroleum Hydrocarbons by the Glaucous-Winged Gull (Laras glaucescens) and the Mallard Duck (Anas platyrhynchos)|Can. J. Zool.58:723-726|1980|10.1139/z80-103
37882|T||McEwan,E.H., and P.M. Whitehead|Influence of Weathered Crude Oil on Liver Enzyme Metabolism of Testosterone in Gulls|Can. J. Zool.56:1922-1924|1978|10.1139/z78-261
37883|T||McEwen,L.C., C.E. Knittle, and M.L. Richmond|Wildlife Effects from Grasshopper Insecticides Sprayed on Short-Grass Range|J. Range Manag.25(3): 188-194|1972|10.2307/3897053
37884|T||McFarland,L.Z., and P.B. Lacy|Acute Anticholinesterase Toxicity in Ducks and Japanese Quail|Toxicol. Appl. Pharmacol.12:105-114|1968|10.1016/0041-008X(68)90180-4
37886|T||McGill,P.A., and M.E. Richmond|Hatching Success of Great Black-Backed Gull Eggs Treated with Oil|Bird-Band.50(2): 108-113|1979|10.2307/4512434
37888|T||McIlroy,J.C., and E.J. Gifford|Effects on Non-Target Animal Populations of a Rabbit Trail- Baiting Campaign with 1080 Poison|Wildl. Res.18:315-325|1991|10.1071/WR9910315
37889|T||McIlroy,J.C., E.J. Gifford, and R.J. Cooper|Effects on Non-Target Animal Populations of Wild Dog Trail- Baiting Campaigns with 1080 Poison|Aust. Wildl. Res.13:447-453|1986|10.1071/WR9860447
37890|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 7. Native and Introduced Birds|Aust. Wildl. Res.11:373-385|1984|10.1071/WR9840373
37891|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 6. Bandicoots|Aust. Wildl. Res.10:507-512|1983|10.1071/WR9830507
37892|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 3. Marsupial and Eutherian Herbivores|Aust. Wildl. Res.9:487-503|1982|10.1071/WR9820487
37893|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 4. Native and Introduced Rodents|Aust. Wildl. Res.9(3): 505-518|1982|10.1071/WR9820505
37894|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 2. Marsupial and Eutherian Carnivores|Aust. Wildl. Res.8:385-399|1981|10.1071/WR9810385
37895|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison 1. Intraspecific Variation and Factors Affecting Acute Toxicity|Aust. Wildl. Res.8:369-383|1981|10.1071/WR9810369
37902|T||McLandress,M.R.|Sex, Age, and Species Differences in Disease Mortality of Ross' and Lesser Snow Geese in California: Implications for Avian Cholera Research|Calif. Fish Game69(4): 196-206|1983|
37906|T||McLaughlin,J.E.|Studies in Pesticide Residues. 3. Ronnel Residues in the Perirenal and Omental Fat of Cattle Following Dermal Application|Qld. J. Agric. Anim. Sci.25:1-5|1968|
37907|T||McMullan,M.J., W.H.D. Leaning, J. Holmden, and G.C. Cairns|The Effect of Anthelmintic Treatment on the Growth Rate of Beef Calves Following Weaning|N. Z. J. Exp. Agric.9:129-134|1981|10.1080/03015521.1981.10427816
37909|T||McParland,P.J., and R.H. Thompson|Deaths in Cattle Following Ingestion of Lead Arsonate|Vet. Rec.89:450-451|1971|10.1136/vr.89.16.450
37910|T||Medley,J.G., C.A. Bond, and D.W. Woodham|The Cumulation and Disappearance of Mirex Residues I. in Tissues of Roosters Fed Four Concentrations of Mirex in Their Feed|Bull. Environ. Contam. Toxicol.11(3): 217-223|1974|10.1007/BF01685095
37912|T||Meeter,E.|The Mode of Action of Cholinesterase Inhibitors on the Temperature Regulation of the Rat|Arch. Int. Pharmacodyn. Ther.182(2): 416-419|1969|
37913|T||Meeter,E.|Some New Effects of Anticholinesterases in the Whole Animal, with Special Emphasis on the Hypothermia Inducing Action in the Rat|In: Aldridge,W.N. (Ed), Mechanisms of Toxicity, MacMillan, NY:29-41|1971|
37914|T||Meeter,E., and O.L. Wolthuis|The Effects of Cholinesterase Inhibitors on the Body Temperature of the Rat|Eur. J. Pharmacol.4:18-24|1968|10.1016/0014-2999(68)90004-6
37915|T||Mehdi,A.W.R., K.A. Al-Soudi, N.A.J. Al-Jiboori, and M.K. Al Hiti|Effect of High Fluoride Intake on Chicken Performance, Ovulation, Spermatogenesis and Bone Fluoride Content|Fluoride16(1): 37-43|1983|
37916|T||Mehendale,H.M.|Effect of Preexposure to Kepone on the Biliary Excretion of Imipramine and Sulfobromophthalein|Toxicol. Appl. Pharmacol.40:247-259|1977|10.1016/0041-008X(77)90095-3
37917|T||Mehendale,H.M.|Mirex-Induced Suppression of Biliary Excretion of Polychlorinated Biphenyl Compounds|Toxicol. Appl. Pharmacol.36:369-381|1976|10.1016/0041-008X(76)90015-6
37918|T||Mehendale,H.M., K. Onoda, L.R. Curtis, and I.K. Ho|Induction of Hepatic Mixed Function Oxidases by Photomirex|J. Agric. Food Chem.26(6): 1416-1418|1979|10.1021/jf60226a011
37919|T||Mehlman,M.A., P.H. Craig, and M.A. Gallo|Teratological Evaluation of Trimethyl Phosphite in the Rat|Toxicol. Appl. Pharmacol.72:119-123|1984|10.1016/0041-008X(84)90255-2
37920|T||Mehlman,M.A., L. Yin, and R.C. Nielsen|Metabolic Changes in 'Frozen-Clamped' Livers of Rats Caused by Ingestion of Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.27:300-307|1974|10.1016/0041-008X(74)90201-4
37921|T||Mehrotra,K.N., Y.P. Beri, S.S. Misra, and A. Phokela|Physiological Effects of Malathion on the House Sparrow, Passer domesticus L.|Indian J. Exp. Biol.5:219-221|1967|
37924|T||Melius,T.O.|Effects of Atrazine on Penned Hen Pheasants|Proc. S. D. Acad. Sci.54:137-142|1975|
37925|T||Memon,G.N., K.P. Shukla, G.F. Mithuji, and N.C. Buch|Effect of Melengestrol Acetate on the Bleeding and Clotting Times of Blood in Indian Water Buffalo|Indian J. Exp. Biol.8:220-222|1970|
37927|T||Mendenhall,V.M., E.E. Klaas, and M.A.R. McLane|Breeding Success of Barn Owls (Tyto alba) Fed Low Levels of DDE and Dieldrin|Arch. Environ. Contam. Toxicol.12:235-240|1983|10.1007/BF01059586
37934|T||Menge,H.|The Influence of Dietary Oils on Chick Growth Rate|Poult. Sci.50(1): 261-266|1971|10.3382/ps.0500261
37936|T||Menzer,R.E., and J.O. Nelson|Water and Soil Pollutants|In: J.Doull (Ed.), Toxicology, The Basic Science of Poisons, MacMillan Press, NY:632-658|1980|
37938|T||Mercer,H.D., R.H. Teske, R.J. Condon, A. Furr, G. Meerdink, W. Buck, and G. Fries|Herd Health Status of Animals Exposed to Polybrominated Biphenyls (PBB)|J. Toxicol. Environ. Health2:335-349|1976|10.1080/15287397609529437
37939|T||Merkley,J.W.|The Effect of Sodium Fluoride on Egg Production, Egg Quality, and Bone Strength of Caged Layers|Poult. Sci.60:771-776|1981|10.3382/ps.0600771
37940|T||Merrick,B.A., M.H. Davies, K.L. Johnson, and R.C. Schnell|Selenite-Induced Protection of Bromobenzene Hepatotoxicity in Male Rats|Toxicol. Appl. Pharmacol.72:102-110|1984|10.1016/0041-008X(84)90253-9
37941|T||Merson,M.H., R.E. Byers, and D.E. Kaukeinen|Residues of the Rodenticide Brodifacoum in Voles and Raptors After Orchard Treatment|J. Wildl. Manag.48(1): 212-216|1984|10.2307/3808474
37942|T||Mertens,H.W., J.A. Steen, and M.F. Lewis|Some Behavioral Effects of Pesticides: the Interaction of Mevinphos and Atropine in Pigeons|Aviat. Space Environ. Med.47(2): 137-141|1976|
37944|T||Messick,J.P., E.G. Bizeau, W.W. Benson, and W.H. Mullins|Aerial Pesticide Applications and Ring-Necked Pheasants|J. Wildl. Manag.38(4): 679-685|1974|10.2307/3800035
37945|T||Messner,B., J. Berndt, and J. Still|Inhibition of PEP-Carboxykinase in Rat Liver by Polychlorinated Biphenyl|Nature263:599-600|1976|10.1038/263599a0
37947|T||Metcalf,R.L., B.M. Francis, R.A. Metcalf, and L.G. Hansen|Acute and Delayed Neurotoxicity of Leptophos Analogs|Pestic. Biochem. Physiol.20:57-66|1983|10.1016/0048-3575(83)90121-9
37948|A||Metcalf,R.L., and J.R. Sanborn|Pesticides and Environmental Quality in Illinois|Ill. Nat. Hist. Surv. Bull.31(9): 381-436|1975|10.21900/j.inhs.v31.153
37951|T||Mia,A.S., A. Latif, and K.M. Ali|Comparative Toxicity of Certain Organophosphorus Insecticides in Goat|Bangladesh J. Biol. Agric. Sci.2(1): 17-19|1973|
37953|T||Mick,D.L., K.R. Long, and S.M. Aldinger|The Effects of Dietary Dieldrin on Residues in Eggs and Tissues of Laying Hens and the Effects of Phenobarbital and Charcoal on These Residues|Bull. Environ. Contam. Toxicol.9(4): 197-203|1973|10.1007/BF01684825
37956|T||Miles,J.T., B.J. Demott, S.A. Hinton, M.J. Montgomery, and S.E. Bennett|Effect of Feeding Carbofuran on the Physiology of the Dairy Cow and on Pesticide Residues in Milk|J. Dairy Sci.54(4): 478-480|1971|10.3168/jds.S0022-0302(71)85871-X
37957|T||Miller,D.S., D.J. Hallett, and D.B. Peakall|Which Components of Crude Oil are Toxic to Young Seabirds?|Environ. Toxicol. Chem.1:39-44|1982|10.1002/etc.5620010106
37958|T||Miller,D.S., W.B. Kinter, and D.B. Peakall|Enzymatic Basis for DDE-Induced Eggshell Thinning in A Sensitive Bird|Nature259:122-124|1976|10.1038/259122a0
37959|T||Miller,D.S., W.B. Kinter, and D.B. Peakall|Effects of Crude Oil Ingestion in Immature Pekin Ducks (Anasplatyrhynchos) and Herring Gulls (Larus argentatus)|In: Animal as Monitors of Environmental Pollutants, Natl.Acad.of Sci., Washington, D.C.:27-40|1979|
37960|T||Miller,D.S., W.B. Kinter, D.B. Peakall, and R.W. Risebrough|DDE Feeding and Plasma Osmoregulation in Ducks, Guillemots, and Puffins|Am. J. Physiol.231(2): 370-376|1976|10.1152/ajplegacy.1976.231.2.370
37961|T||Miller,D.S., D.B. Peakall, and W.B. Kinter|Ingestion of Crude Oil:  Sublethal Effects in Herring Gull Chicks|Science199:315-317|1978|10.1126/science.145655
37962|T||Miller,E.P.|Organophosphate Toxicity in Domestic Animals - 1: Acute Toxicity|Vet. Med. Small Anim. Clin.78(4): 482-488|1983|
37963|T||Miller,G.D., T.F. Massaro, R.W. Granlund, and E.J. Massaro|Tissue Distribution of Lead in the Neonatal Rat Exposed to Multiple Doses of Lead Acetate|J. Toxicol. Environ. Health11:121-128|1983|10.1080/15287398309530326
37964|T||Miller,G.W., M.N. Egyed, and J.L. Shupe|Aconitate Hydratase Activity and Citrate Content of Heart and Kidney in Fluoride Affected Cows|Fluoride11(1): 14-17|1978|
37965|T||Miller,R.W., H.C. Cecil, A.M. Carey, C. Corley, and C.A. Kiddy|Effects of Feeding Diflubenzuron to Young Male Holstein Cattle|Bull. Environ. Contam. Toxicol.23:482-486|1979|10.1007/BF01769991
37966|T||Miller,R.W., and C.H. Gordon|Effect of Feeding Rabon to Dairy Cows over Extended Periods|J. Econ. Entomol.66(1): 135-138|1973|10.1093/jee/66.1.135
37967|T||Miller,R.W., and P.P. Long|Effect of Feeding Coumaphos on Feed Intake and Rate of Gain of Steers|J. Dairy Sci.57(6): 723-725|1974|10.3168/jds.S0022-0302(74)84955-6
37968|T||Miller,R.W., Y. Wong, and O.P. Thomas|Feeding Bay Vi7533 to Hens|Poult. Sci.63:1748-1751|1984|10.3382/ps.0631748
37969|T||Miller,T.L., D.J. Lorusso, M.L. Walsh, and M.L. Deinzer|The Acute Toxicity of Penta-, Hexa-, and Heptachlorohydroxydiphenyl Ethers in Mice|J. Toxicol. Environ. Health12:245-253|1983|10.1080/15287398309530423
37970|T||Miller,V.L., G.E. Bearse, and E. Csonka|Mercury Retention in Several Strains and Strain Crosses of Chickens|Poult. Sci.49(4): 1101-1104|1970|10.3382/ps.0491101
37971|T||Mills,J.A.|Some Observations on the Effects of Field Applications of Fensulfothion and Parathion on Bird and Mammal Populations|Proc. N. Z. Ecol. Soc.20:65-71|1973|
37972|T||Mills,N., N.V. Helbacka, and R.D. Creek|The Effect of a High Level of Lithium Carbonate on Egg Shellformation of Laying Hens|Poult. Sci.48(5): 1766-1767|1969|10.3382/ps.0481766
37974|T||Miniats,O.P., N.S. Plantonow, and H.D. Geissinger|Experimental Polychlorinated Biphenyl Toxicosis in Germfree Pigs|Can. J. Comp. Med.42:192-199|1978|
37975|T||Ministry of Agriculture Fisheries and Food|Pest Infestation Controls Laboratory Report 1977-79|In: Ministry of Agriculture, Fisheries and Food, Her Majesty's Stationery Office:125-156|1981|
37976|T||Mink,F.L., W.E. Coleman, J.W. Munch, W.H. Kaylor, and H.P. Ringhand|In Vivo Formation of Halogenated Reaction Products Following Peroral Sodium Hypochlorite|Bull. Environ. Contam. Toxicol.30:394-399|1983|10.1007/BF01610150
37977|T||Miranda,C.L., J. Wang, M.C. Henderson, H.M. Carpenter, H.S. Nakaue, and D.R. Buhler|Studies on the Porphyrinogenic Action of 1,2,4-Trichloro-Benzene in Birds|Toxicology28:83-92|1983|10.1016/0300-483X(83)90108-7
37978|T||Miranda,C.L., J. Wang, M.C. Henderson, H.M. Carpenter, H.S. Nakaue, and D.R. Buhler|Differential Induction of Hepatic Drug Metabolizing Enzymes in Japanese Quail by 1,2,4-Trichlorobenzene|Toxicology28:75-82|1983|10.1016/0300-483X(83)90107-5
37979|T||Mirer,F.E., B.S. Levine, and S.D. Murphy|Parathion and Methyl Parathion Toxicity and Metabolism in Piperonyl Butoxide and Diethyl Maleate Pretreated Mice|Chem.-Biol. Interact.17(1): 99-112|1977|10.1016/0009-2797(77)90075-8
37980|T||Mirocha,C.J., T.S. Robison, R.J. Pawlosky, and N.K. Allen|Distribution and Residue Determination of (3H)Zearalenone in Broilers|Toxicol. Appl. Pharmacol.66:77-87|1982|10.1016/0041-008X(82)90062-X
37981|T||Misawa,M., J. Doull, P.A. Kitos, and E.M. Uyeki|Teratogenic Effects of Cholinergic Insecticides in Chick Embryos I. Diazinon Treatment on Acetylcholinesterase and Choline Acetyltransferase Activities|Toxicol. Appl. Pharmacol.57:20-29|1981|10.1016/0041-008X(81)90021-1
37982|T||Misawa,M., J. Doull, and E.M. Uyeki|Teratogenic Effects of Cholinergic Insecticides in Chick Embryos. III. Development of Cartilage and Bone|J. Toxicol. Environ. Health10:551-563|1982|10.1080/15287398209530276
37983|T||Hisra,D., R.N. Khanna, M. Anand, and K. Gopal|Effect of Endosulfan on Blood Glucose|Chemosphere9:119-121|1980|10.1016/0045-6535(80)90098-3
37986|T||Mitema,E.S., and J.B. Masha|Organophosphate Poisoning in Cattle: A Report of Clinical Cases|Vet. Med. Small Anim. Clin.79(1): 111 - 112,114|1984|
37987|T||Mithal,R.K.|Studies on Acute Cadmium Exposure in Lung, Adrenal and Spleen of Squirrels (Funambulus Pennanti, Wroughton 1905) After Different Administrative Routes|Ind. Health21:107-115|1983|10.2486/indhealth.21.107
37988|T||Mithal,R.K.|Morphological Changes in Liver and Kidney of the Common Ground Squirrel, Funambullus pennant Following Acute Cadmium Exposure|Zool. Mag. (Tokyo)90:189-194|1981|
37992|AT||Miyamoto,J.|Degradation of Fenitrothion in Terrestrial and Aquatic Environments Including Photolytic and Microbial Reactions|In: Roberts,J.R.et Al (Eds) Proc.of A Symposium on Fenitrothion:the Long-Term Effects of Its Use on Forests,National Research Council of Canada, Environmental Secretariat, Ottawa OntarioVNRCC 16073:105-134|1977|
37994|T||Miyamoto,J., A. Wakimura, and T. Kadota|Biodegradation of Cyanox, O,O-Dimethyl O-(4-Cyanophenyl) Phosphorothioate in Rats|Environ. Qual. Saf.1:235-239|1972|
37995|AT||Miyazaki,S., and G.C. Hodgson|Chronic Toxicity of Dursban and Its Metabolite, 3,5,6-Trichloro-2-Pyridinol in Chickens|Toxicol. Appl. Pharmacol.23:391-398|1972|10.1016/0041-008X(72)90041-5
37996|T||Mizutani,T., K. Hidaka, T. Ohe, M. Matsumoto, K. Yamamoto, and K. Tajima|Comparative Study on Accumulation and Elimination of Hexachlorobiphenyls and Decachlorobiphenyl in Mice|Bull. Environ. Contam. Toxicol.25:181-187|1980|10.1007/BF01985508
37997|T||Mjor-Grimsrud,M., N.E. Soli, and G. Norheim|The Distribution of Soluble Copper- and Zinc-Binding Proteins in Liver and Kidney of Chronic Copper-Poisoned Goats|Acta Vet. Scand.21:578-586|1980|10.1186/BF03546845
37998|T||Modak,A.T., R.H. Purdy, and W.B. Stavinoha|Changes in Acetylcholine Concentration in Mouse Brain Following Ingestion of Lead Acetate in Drinking Water|Drug Chem. Toxicol.1(3): 373-389|1978|10.3109/01480547809016049
37999|T||Modell,J.G., M.K. Tham, J.H. Modell, H.W. Calderwood, and B.C. Ruiz|Distribution and Retention of Fluorocarbon in Mice and Dogs After Injection or Liquid Ventilation|Toxicol. Appl. Pharmacol.26:86-92|1973|10.1016/0041-008X(73)90088-4
38000|T||Moffett,J.O., and H.L. Morton|Surfactants in Water Drown Honey Bees|Environ. Entomol.2(2): 227-231|1973|10.1093/ee/2.2.227
38003|T||Moffett,J.O., W.T. Wilson, A. Stoner, and A. Wardecker|Effect of Fifteen Combinations of Four Management Methods on Losses of Honey Bees Caused by Spraying Insecticides on Cotton|J. Econ. Entomol.72:453-455|1979|10.1093/jee/72.3.453
38004|T||Mohammad,F.K., and V.E.V. St.Omer|Interaction of Dichlorvos-Crotoxyphos Insecticide with Phenothiazine Anthelmintic in Sheep with or Without Haemonchus and Trichostrongylus Infections|Am. J. Vet. Res.44(10): 1949-1953|1983|
38007|T||Mol,J.C.M., D.L. Harrison, and R.H. Telfer|Parathion: Toxicity to Sheep and Persistence on Pasture and in Soil|N. Z. J. Agric. Res.15:306-320|1972|10.1080/00288233.1972.10421258
38010|T||Montz,W.E.,Jr., and R.L. Kirkpatrick|Temporal Patterns of Brain Cholinesterase Activities of White-Footed Mice (Peromyscus leucopus) Following Dosing with Diazinon or Parathion|Arch. Environ. Contam. Toxicol.14:19-24|1985|10.1007/BF01055757
38016|T||Moore,R.W., G.A. Dannan, and S.D. Aust|Structure-Function Relationships for the Pharmacological and Toxicological Effects and Metabolism of Polybrominated Biph Enyl Congeners|In: R.S.Bhatnager (Ed.), Molecular Basis of Environment Toxicity, 176th Natl.Meet., Ann Arbor Sci., Ann Arbor, MI:173-212|1980|
38017|T||Moore,R.W., and J.F. Smith|Effect of Progestagen Intravaginal Sponges and Pmsg on Synchronisation of Oestrus in Maiden Heifers and on Interval Fromcalving to Oestrus in Beef Cows|N. Z. J. Exp. Agric.8:199-203|1980|10.1080/03015521.1980.10426258
38018|T||Moore,W.,Jr., D. Hysell, W. Crocker, and J. Stara|Biological Fate of 103Pd in Rats Following Different Routes of Exposure|Environ. Res.8:234-240|1974|10.1016/0013-9351(74)90055-3
38019|T||Moore,W.,Jr., D. Hysell, W. Crocker, and J. Stara|Biological Fate of a Single Administration of 191Pt in Rats Following Different Routes of Exposure|Environ. Res.9:152-158|1975|10.1016/0013-9351(75)90059-6
38020|T||Moorhead,P.D., L.B. Willett, C.J. Brumm, and H.D. Mercer|Pathology of Experimentally Induced Polybrominated Biphenyl Toxicosis in Pregnant Heifers|J. Am. Vet. Med. Assoc.170(3): 307-313|1977|
38021|T||Moorhead,P.D., L.B. Willett, and F.L. Schanbacher|Effects of PBB on Cattle. II. Gross Pathology and Histopathology|Environ. Health Perspect.23:111-118|1978|10.1289/ehp.7823111
38024|T||Moradeshaghi,M.J., W.A. Brindley, and N.N. Youssef|Chlorcyclizine and SKF 525A Effects on Parathion Toxicity and Midgut Tissue Structure in Alkali Bees, Nomia melanderi|Environ. Entomol.3(3): 455-463|1974|10.1093/ee/3.3.455
38025|T||Morgan,D.W.T., and H.D. Bailie|A Field Trial to Determine the Effect of Fly Control Using Permethrin on Milk Yields in Dairy Cattle in the UK|Vet. Rec.106:121-123|1980|10.1136/vr.106.6.121
38027|T||Morgan,J.M., and J.P. Hickenbottom|Comparison of Selected Parameters for Monitoring Methoxychlor-Induced Hepatotoxicity|Bull. Environ. Contam. Toxicol.23:275-280|1979|10.1007/BF01769955
38028|T||Morin,E.W., A. Robertson, and M. Beauregard|Endrin Poisoning In Chickens|Can. Vet. J.11(4): 74-77|1970|
38030|T||Morita,M., and S. Oishi|Clearance and Tissue Distribution of Polychlorinated Dibenzofurans in Mice|Bull. Environ. Contam. Toxicol.18(1): 61-66|1977|10.1007/BF01686306
38032|T||Morrison,J.L., and G.M. George|Dry Ashing Method for the Determination of Total Arsenic in Poultry Tissues|J. AOAC Int.52(5): 930-932|1969|10.1093/jaoac/52.5.930
38036|T||Morrison,M.L., and L.F. Kiff|Eggshell Thickness in American Shorebirds Before and Since DDT|Can. Field Nat.93:187-190|1979|10.5962/p.346919
38042|T||Morton,J.D.|Effect on Liveweight Gain and Fleeceweight of Anthelmintic Drenching of Hoggets on the West Coast|N. Z. J. Exp. Agric.9:123-127|1981|10.1080/03015521.1981.10427815
38043|T||Moscioni,A.D., J.L. Engel, and J.E. Casida|Kynurenine Formamidase Inhibition as a Possible Mechanism for Certain Teratogenic Effects of Organophosphorus and Methylcarbamate Insecticides in Chicken Embryos|Biochem. Pharmacol.26:2251-2258|1977|10.1016/0006-2952(77)90288-X
38044|T||Mott,D.F.|Protecting Ripening Sweet Corn from Blackbirds in Idaho with 4-Aminopyridine|In: Bird Control Seminars Proceedings. University of Nebraska, Lincoln, NE7:195-199|1976|
38045|T||Mott,D.F., J.L. Guarino, E.W.,Jr. Schafer, and D.J. Cunningham|Methiocarb for Preventing Blackbird Damage to Sprouting Rice|In: 7th Vertebrate Pest Conference, Mar 9-11, 1976, Vertebrate Pest Council, Publ.Univ.of Ca, Davis:22-25|1976|
38046|T||Moulding,J.D.|Effects of A Low-Persistence Insecticide on Forest Bird Populations|Auk93:692-708|1976|
38047|T||Mount,M.E.|Comparison of Measurement of Dialkyl Phosphates in Milk/Urine and Blood Cholinesterase and Insecticide Concentrations in Goats Exposed to the Organophosphate Insecticide, Imidan|Toxicol. Appl. Pharmacol.72(2): 236-244|1984|10.1016/0041-008X(84)90308-9
38048|T||Mount,M.E.|Diagnostic Value of Urinary Dialkyl Phosphate Measurement in Goats Exposed to Diazinon|Am. J. Vet. Res.45(4): 817-824|1984|
38049|T||Mount,M.E., and B.F. Feldman|Mechanism of Diphacinone Rodenticide Toxicosis in the Dog and Its Therapeutic Implications|Am. J. Vet. Res.44(11): 2009-2017|1983|
38050|T||Mount,M.E., and F.W. Oehme|Diagnostic Criteria for Carbaryl Poisoning in Sheep|Arch. Environ. Contam. Toxicol.10:483-495|1981|10.1007/BF01055444
38053|T||Mraz,F.R.|45Ca, 85Sr and 32P Absorption by Laying Hens fed Varying Levels of Calcium and Phosphorus|Poult. Sci.51:586-591|1972|10.3382/ps.0510586
38055|T||Mueller,W.J., and R.M. Leach|Effects of Chemicals on Egg Shell Formation|Annu. Rev. Pharmacol.14:289-303|1974|10.1146/annurev.pa.14.040174.001445
38056|T||Muggenburg,B.A., J.L. Mauderly, F.F. Hahn, S.A. Silbaugh, and S.A. Felicetti|Effects of the Ingestion of Various Commercial Detergent Products by Beagle Dogs and Pigs|Toxicol. Appl. Pharmacol.30:134-148|1974|10.1016/0041-008X(74)90255-5
38059|T||Mull,R.L., S.N. Giri, and S.A. Peoples|Effects of An Acutely Toxic Dose of the Avicide 3-Chloro-p-toluidine in Chickens|Toxicol. Appl. Pharmacol.22:458-464|1972|10.1016/0041-008X(72)90253-0
38063|T||Mullen,A.L., A.A. Moghissi, R.E. Stanley, S.R. Lloyd, and P.A. Fort|Biological Half-Life of Tritium in Chickens and Eggs|Health Phys.30:310-311|1976|
38065|T||Mullen,P.A.|Clinical and Metabolic Consequences to Cattle of Rumen Overdosing with Di-Ureido Iso-Butane (Duib)|Res. Vet. Sci.24:8-13|1978|10.1016/S0034-5288(18)33090-X
38068|T||Muller,H.D., and D.C. Lockman|The Influence of Dieldrin on Tibial Bone Calcium Deposition in Domestic Chicks|Bull. Environ. Contam. Toxicol.9(6): 351-355|1973|10.1007/BF01685085
38070|T||Murota,T., and T. Shibuya|Genetic Analysis of Mutants in Mice Induced by N-Ethyl-N-Nitrosourea|Idengaku Zasshi58:263-267|1983|
38071|T||Murphy,D.A., and L.J. Korschgen|Reproduction, Growth, and Tissue Residues of Deer fed Dieldrin|J. Wildl. Manag.34(4): 887-903|1970|10.2307/3799157
38072|T||Murphy,S.D.|Some Relationships Between Effects of Insecticides and Other Stress Conditions|Ann. N. Y. Acad. Sci.160:366-377|1969|10.1111/j.1749-6632.1969.tb15858.x
38074|T||Murray,A.|Acute and Residual Toxicity of a New Pyrethroid Insecticide, WL85871, to Honey-Bees|Bull. Environ. Contam. Toxicol.34:560-564|1985|10.1007/BF01609776
38075|T||Murray,F.A.|Effects of Dichlorvos on Lymphocyte Reactivity During Pregnancy in the Pig|J. Anim. Sci.57(5): 1270-1275|1983|10.2527/jas1983.5751270x
38077|T||Murray,R.E., and J.E. Gibson|A Comparative Study of Paraquat Intoxication in Rats, Guinea Pigs and Monkeys|Exp. Mol. Pathol.17:317-325|1972|10.1016/0014-4800(72)90044-5
38078|T||Murton,R.K.|Considerations Applicable to the Monitoring of Organohalogenated Compounds in Terrestrial Wildlife, Especially Birds|In: Luepke,N.P.(Ed) Monitoring Environmental Materials and Specimen Banking.Proc.of the Internation:450-469|1979|
38082|T||Mylroie,A.A., L. Moore, and U. Erogbogbo|Influence of Dietary Factors on Blood and Tissue Lead Concentrations and Lead Toxicity|Toxicol. Appl. Pharmacol.41(2): 361-367|1977|10.1016/0041-008X(77)90037-0
38084|T||Nafstad,I., G. Berge, E. Sannes, and A. Lyngset|Teratogenic Effects of the Organophosphorus Compound Fenchlorphos in Rabbits|Acta Vet. Scand.24:295-304|1983|10.1186/BF03546733
38085|T||Nagayama,J., H. Kuroki, Y. Masuda, and M. Kuratsune|A Comparative Study of Polychlorinated Dibenzofurans, Polychlorinated Biphenyls and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Aryl Hydrocarbon Hydroxylase Inducing Potency in Rats|Arch. Toxicol.53:177-184|1983|10.1007/BF00316501
38086|AT||Nagel,R., and K. Urich|Elimination and Distribution of Different Substituted Phenols by Frog (Rana Temporaria) and Crayfish (Astacus Leptodactylus)|Bull. Environ. Contam. Toxicol.26:289-294|1981|10.1007/BF01622092
38089|T||Nakaue,H.S., and J.K. Koelliker|Studies with Clinoptilolite in Poultry. 1. Effect of Feedingvarying Levels of Clinoptilolite (Zeolite) to Dwarf Single Comb White Leghorn Pullets and Ammonia Production|Poult. Sci.60:944-949|1981|10.3382/ps.0600944
38090|T||Nakaue,H.S., J.K. Koelliker, and M.L. Pierson|Studies with Clinoptilolite in Poultry 2.  Effect of Feeding Broilers and the Direct Application of Clinoptilolite (Zeolite) on Clean and Reused Broiler Litter on Broiler Performance and House Environment|Poult. Sci.60:1221-1228|1981|10.3382/ps.0601221
38094|T||Nass,R.D., G.A. Hood, and G.D. Lindsey|Influence of Gulch-Baiting on Rats in Adjacent Sugarcane Fields|J. Wildl. Manag.35(2): 357-359|1971|10.2307/3799613
38098|T||Neathery,M.W.|Metabolism and Toxicity of Cadmium in Animals|In: Cadmium in the Environment, John Wiley and Sons, Inc., NY:553-581|1981|
38100|T||Neathery,M.W., D.G. Pugh, W.J. Miller, R.P. Gentry, and R.H. Whitlock|Effects of Sources and Amounts of Potassium on Feed Palatability and on Potassium Toxicity in Dairy Calves|J. Dairy Sci.63(1): 82-85|1980|10.3168/jds.S0022-0302(80)82890-6
38101|T||Nebert,D.W., R.C. Levitt, M.M. Orlando, and J.S. Felton|Effects of Environmental Chemicals on the Genetic Regulation of Microsomal Enzyme Systems|Clin. Pharmacol. Ther.22(5, Pt.2): 640-658|1977|10.1002/cpt1977225part2640
38102|T||Needham,P.H., and J.H. Stevenson|The Toxicity to Foraging Honeybees, Apis mellifera, of Endosulfan, Malathion and Azinphos-Methyl Applied to Flowering Oil Seed Rape, Brassica napus|Ann. Appl. Biol.75:235-240|1973|10.1111/j.1744-7348.1973.tb07303.x
38104|T||Nehez,M., E. Mazzag, E. Huszta, and G. Berencsi|The Teratogenic, Embryotoxic, and Prenatal Mutagenic Effect of 3-Methyl-4-Nitrophenol in the Mouse|Ecotoxicol. Environ. Saf.9:230-232|1985|10.1016/0147-6513(85)90025-9
38105|T||Neill,D.D., J.V. Shutze, and H.D. Muller|The Influence of Feeding Dieldrin and Parathion to the Hungarian Partridge on Reproduction|Poult. Sci.48:1850-|1969|
38106|T||Nell,J.A., E.F. Annison, and D. Balnave|The Influence of Tungsten on the Molybdenum Status of Poultry|Br. Poult. Sci.21:193-202|1980|10.1080/00071668008416657
38107|T||Nell,J.A., W.L. Bryden, G.S. Heard, and D. Balnave|Reproductive Performance of Laying Hens fed Tungsten|Poult. Sci.60:257-258|1981|10.3382/ps.0600257
38109|T||Nelson,E.E., B.A. Croft, A.J. Howitt, and A.L. Jones|Toxicity of Apple Orchard Pesticides to Agistemus fleschneri|Environ. Entomol.2(2): 219-222|1973|10.1093/ee/2.2.219
38111|T||Nelson,P.A., R.R. Stewart, M.A. Morelli, and T. Nakatsugawa|Aldrin Epoxidation in the Earthworm, Lumbricus terrestis|Pestic. Biochem. Physiol.6:243-253|1976|10.1016/0048-3575(76)90067-5
38114|T||Newman,J.R.|The Effects of Air Pollution on Wildlife and Their Use As Biological Indicators|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:223-232|1979|
38115|T||Newman,J.R., and D. Markey|Effects of Elevated Levels of Fluoride on Deer Mice (Peromyscus maniculatus)|Fluoride9(1): 47-53|1976|
38117|T||Newsome,W.H., F. Iverson, J.B. Shields, and S.L. Hierlihy|Disposition of Chlorinated Diphenyl Ethers Isolated from Technical Pentachlorophenol in the Rat|Bull. Environ. Contam. Toxicol.31:613-618|1983|10.1007/BF01605484
38119|T||Newton,G.L., and A.J. Clawson|Iodine Toxicity: Physiological Effects of Elevated Dietary Iodine on Pigs|J. Anim. Sci.39(5): 879-884|1974|10.2527/jas1974.395879x
38124|T||Newton,I., J.E. Robson, and D.W. Yalden|Decline of the Merlin in the Peak District|Bird Study23:225-234|1981|10.1080/00063658109476727
38125|T||Newton,M., K.M. Howard, B.R. Kelpsas, R. Danhaus, C.M. Lottman, and S. Dubelman|Fate of Glyphosate in an Oregon Forest Ecosystem|J. Agric. Food Chem.32(5): 1144-1151|1984|10.1021/jf00125a054
38130|T||Nicholson,J.K., and D. Osborn|Kidney Lesions in Juvenile Starlings Sturnus vulgaris Fed on a Mercury-Contaminated Synthetic Diet|Environ. Pollut.33:195-206|1984|10.1016/0143-1471(84)90010-2
38134|T||Nickerson,S.C., and C.J. Sniffen|Effects of DDT on Growth and Reproduction in the Rat|Res. Life Sci.20(19): 1-6|1973|
38137|T||Nigam,P.C.|Toxicity of Dursban, Gardona and Seven Other Insecticides to White-Pine Weevil Pissodes strobi (Peck) and Other Components of the Forest Ecosystem|Proc. Entomol. Soc. Ont.103:55-59|1972|
38139|T||Nisbet,I.C.T.|DDE in Eggs and Embryos of Brown Pelicans|Nature242:341-342|1973|10.1038/242341a0
38141|T||Nishimura,M., N. Urakawa, and M. Ikeda|An Autoradiographic Study on the Distribution of Mercury And its Transfer to the Egg in the Laying Quail|Jpn. J. Pharmacol.21:651-659|1971|10.1016/S0021-5198(19)31749-4
38143|T||Nitsan,Z., and I. Bruckental|Effect of Treating Soybean Meal with Formaldehyde on the Activity of Enzymic Inhibitors and on Protein Utilization in the Chick|J. Anim. Sci.44(6): 998-1003|1977|10.2527/jas1977.446998x
38145|T||Nocerini,M.R., J.R. Carlson, and R.G. Breeze|Effect of Glutathione Status on Covalent Binding and Pneumotoxicity of 3-Methylindole in Goats|Life Sci.32:449-458|1983|10.1016/0024-3205(83)90137-6
38148|T||Nomiyama,K., Y. Sugata, A. Yamamoto, and H. Nomiyama|Effects of Dietary Cadmium on Rabbits.  1.  Early Signs of Cadmium intoxication|Toxicol. Appl. Pharmacol.31:4-12|1975|10.1016/0041-008X(75)90046-0
38149|T||Norback,D.H., and J.R. Allen|Biological Responses of the Nonhuman Primate, Chicken, and Rat to Chlorinated Dibenzo-p-Dioxin Ingestion|Environ. Health Perspect.5:233-240|1973|10.1289/ehp.7305233
38150|T||Norback,D.H., J.F. Engblom, and J.R. Allen|Tissue Distribution and Excretion of Octachlorodibenzo-p-Dioxin in the Rat|Toxicol. Appl. Pharmacol.32:330-338|1975|10.1016/0041-008X(75)90223-9
38151|T||Nordkvist,M., and K. Erne|The Toxicity of Forest Fertilizers (Ammonium Nitrate) to Reindeer|Ann. Zool. Fennici175:101-105|1983|
38158|T||Norstrom,R.J., R.W. Risebrough, and D.J. Cartwright|Elimination of Chlorinated Dibenzofurans Associated with Polychlorinated Biphenyls fed to Mallards (Anas Platyrhynchos)|Toxicol. Appl. Pharmacol.37:217-228|1976|10.1016/0041-008X(76)90085-5
38162|T||Nowicki,H.G., J.F. Myrtle, and A.W. Norman|Effects of Organochlorine Insecticides on Metabolism of Cholecalciferol (Vitamin D3) in Rachitic Cockerel|J. Agric. Food Chem.20(2): 380-384|1972|10.1021/jf60180a059
38163|T||Nowicki,H.G., R.G. Wong, J.F. Myrtle, and A.W. Norman|Inhibition of Biological Activity of Cholecalciferol (Vitamin D3) by o,p'-DDT or p,p'-DDT in Rachitic Cockerel|J. Agric. Food Chem.20(2): 376-380|1972|10.1021/jf60180a058
38165|T||Nuorteva,P.|The Fate of Mercury in Sarcosaprophagous Flies and in Insects Eating Them|Ambio11(1): 34-37|1982|
38169|T||O'Brien,J.J.|Toxicological Aspects of Some Modern Anthelmintics|Aust. Vet. J.46:297-300|1970|10.1111/j.1751-0813.1970.tb07902.x
38172|T||O'Hara,P.J., I.P. Mccausland, and M.R. Coup|Phosphatic Fertiliser Poisoning of Sheep: Experimental Studies|N. Z. Vet. J.30:165-169|1982|10.1080/00480169.1982.34930
38174|T||O'Shea,T.J., W.J. Fleming, and E. Cromartie|DDT Contamination at Wheeler National Wildlife Refuge|Science209:509-510|1980|10.1126/science.7394517
38178|T||Odam,E.M., and M.G. Townsend|The Determination of Warfarin in Animal Tissues by Electron-Capture Gas-Liquid Chromatography|Analyst (Lond.)101:478-484|1976|10.1039/an9760100478
38179|T||Odom,R.R., and J.W. Guthrie|Status of the Osprey in Georgia|Oriole45(2/3): 25-33|1980|
38180|T||Oehler,D.D., and G.W. Ivie|Metabolism of 4-Chlorophenyl Methyl Sulfide and Its Sulfone Analog in Cattle and Sheep|Arch. Environ. Contam. Toxicol.12:227-233|1983|10.1007/BF01059585
38181|T||Oestreicher,M.I., D.H. Shuman, and C.F. Wurster|DDE Reduces Medullary Bone Formation in Birds|Nature229:571-|1971|10.1038/229571a0
38183|T||Ohkawa,H., H. Oshita, and J. Miyamoto|Comparison of Inhibitory Activity of Various Organophosphorus Compounds Against Acetylcholinesterase and Neurotoxic Esterase of Hens with Respect to Delayed Neurotoxicity|Biochem. Pharmacol.29:2721-2727|1980|10.1016/0006-2952(80)90002-7
38191|T||Ohlendorf,H.M., R.W. Risebrough, and K. Vermeer|Exposure of Marine Birds to Environmental Pollutants; U.S. Fish and Wildlife Service Wildlife Research Report|U.S.Fish and Wildlife Service, No.9, Washington DC:40 p.|1978|
38193|T||Oishi,S.|Influence of Polychlorinated Dibenzofurans (PCDFs) and Polychlorinated Biphenyls (PCBs) to Serum Protein Components in Rats|Bull. Environ. Contam. Toxicol.18(6): 773-777|1977|10.1007/BF01691991
38195|T||Okuno,I., G.E. Connolly, P.J. Savarie, and C.P. Breidenstein|Gas Chromatographic Analysis of Coyote and Magpie Tissues for Residues of Compound 1080 (Sodium Fluoroacetate)|J. AOAC Int.67(3): 549-553|1984|10.1093/jaoac/67.3.549
38199|T||Oliver,A.J., and D.R. King|The Influence of Ambient Temperatures on the Susceptibility of Mice, Guinea-Pigs and Possums to Compound 1080|Aust. Wildl. Res.10:297-301|1983|10.1071/WR9830297
38200|T||Oliver,A.J., S.H. Wheeler, and C.D. Gooding|Field Evaluation of 1080 and Pindone Oat Bait, and the Possible Decline in Effectiveness of Poison Baiting for the Control of the Rabbit, Oryctolagus cuniculusu|Aust. Wildl. Res.9:125-134|1982|10.1071/WR9820125
38205|T||Olson,J.R., M.A. Holscher, and R.A. Neal|Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Golden Syrian Hamster|Toxicol. Appl. Pharmacol.55:67-78|1980|10.1016/0041-008X(80)90221-5
38207|T||Onley,J.H., L. Giuffrida, R.R. Watts, N.F. Ives, and R.W. Storherr|Residues in Broiler Chick Tissues from Low Level Feedings of Seven Chlorinated Hydrocarbon Insecticides|J. AOAC Int.58(4): 785-792|1975|10.1093/jaoac/58.4.785
38208|T||Ookawa,T., and K. Takagi|Behavioral and Physiological Studies of Seizures Induced by Systemic Injection of Metrazol in Chickens|Poult. Sci.55:2228-2240|1976|10.3382/ps.0552228
38209|T||Opdycke,J.C., and R.E. Menzer|Pharmacokinetics of Diflubenzuron in Two Types of Chickens|J. Toxicol. Environ. Health13:721-733|1984|10.1080/15287398409530534
38210|T||Opdycke,J.C., R.W. Miller, and R.E. Menzer|In Vivo and Liver Microsomal Metabolism of Diflubenzuron by Two Breeds of Chickens|J. Agric. Food Chem.30:1227-1233|1982|10.1021/jf00114a056
38212|T||Ophus,E.M., G. Fagerland, and B.M. Gullvag|A Fine Structural Study and Energy-Dispersive X-Ray Spectrometrical Analysis of the Metals Present in Ovarian and Other Tissues of Normal and Lead-Poisoned Quail (Coturnix coturnix japonica)|Acta Zool. (Stockh.)56:117-187|1975|10.1111/j.1463-6395.1975.tb00093.x
38213|T||Orberg,J.|Effects of Pure Chlorobiphenyls (2,4',5-Trichlorobiphenyl and 2,2',4,4',5,5'-Hexachlorobiphenyl) on the Post-Natal Growth in Mice|Acta Pharmacol. Toxicol.42:275-279|1978|10.1111/j.1600-0773.1978.tb02201.x
38214|T||Orberg,J.|Effects of Pure Chlorobiphenyls (2,4',5-Trichlorobiphenyl and 2,2',4,4',5,5'-Hexachlorobiphenyl) on the Reproductive Capacity in Female Mice|Acta Pharmacol. Toxicol.42:323-327|1978|10.1111/j.1600-0773.1978.tb02211.x
38215|T||Orberg,J., and J.E. Kihlstrom|Effects of Long-Term Feeding of Polychlorinated Biphenyls (PCB, Clophen A 60) on the Length of the Oestrous Cycle and On the Frequency of Implated Ova in the Mouse|Environ. Res.6:176-179|1973|10.1016/0013-9351(73)90031-5
38216|T||Orberg,J., and C. Lundberg|Some Effects of DDT and PCB on the Hormonal System in the Male Mouse|Environ. Physiol. Biochem.4:116-120|1974|
38217|T||Osborn,D., W.J. Every, and K.R. Bull|The Toxicity of Trialkyl Lead Compounds to Birds|Environ. Pollut. A.31(4): 261-275|1983|10.1016/0143-1471(83)90063-6
38218|T||Osborn,D., and M.P. Harris|A Procedure for Implanting A Slow Release Formulation of An Environmental Pollutant into A Free-Living Animal|Environ. Pollut.19:139-144|1979|
38223|T||Osweiler,G.D., and P.G. Eness|Ethylene Glycol Poisoning in Swine|J. Am. Vet. Med. Assoc.160(5): 746-749|1972|
38224|T||Osweiler,G.D., B. Olesen, and G.E. Rottinghaus|Plasma Pentachlorophenol Concentrations in Calves Exposed to Treated Wood in the Environment|Am. J. Vet. Res.45(2): 244-246|1984|
38226|T||Ottoboni,A.|Effect of DDT on the Reproductive Life-Span in the Female Rat|Toxicol. Appl. Pharmacol.22:497-502|1972|10.1016/0041-008X(72)90257-8
38227|T||Oudiz,D.J., Zenick.H., R.J. Niewenhuis, and P.M. Mcginnis|Male Reproductive Toxicity and Recovery Associated with Acute Ethoxyethanol Exposure in Rats|J. Toxicol. Environ. Health13:763-775|1984|10.1080/15287398409530538
38228|T||Ousterhout,L.E., and L.R. Berg|Effects of Diet Composition on Vanadium Toxicity in Laying Hens|Poult. Sci.60:1152-1159|1981|10.3382/ps.0601152
38229|T||Owen,P.J., and M.R. Wells|Insecticide Residues in Two Turtle Species Following Treatment with DDT|Bull. Environ. Contam. Toxicol.15(4): 406-411|1976|10.1007/BF01685063
38232|T||Palafox,A.L., and E. Ho-A|Effect of Zinc Toxicity in Laying White Leghorn Pullets and Hens|Poult. Sci.59(9): 2024-2028|1980|10.3382/ps.0592024
38233|T||Palmateer,S.D., and J.A. McCann|Relationship of Acceptance and Mortality of Anticoagulant Baits to Rats|Bull. Environ. Contam. Toxicol.15(6): 750-755|1976|10.1007/BF01685628
38234|T||Palmer,J.S.|Toxicity of a 4-Chloro-2-Butynyl M-Chlorocarbanilate (Barban) Formulation to Cattle, Sheep and Chickens|J. Am. Vet. Med. Assoc.160(3): 338-340|1972|
38235|T||Palmer,J.S.|Toxicologic Effects of Aerosols of N,N-Diethyl-M-Toluamide (DEET) Applied on Skin of Horses|Am. J. Vet. Res.30(11): 1929-1932|1969|
38236|T||Palmer,J.S.|Toxicity of Famfur to Young Brahman Heifers and Bulls|J. Am. Vet. Med. Assoc.159(10): 1263-1265|1971|
38237|T||Palmer,J.S.|Toxicologic Evaluation of Microencapsulated Formulation of Diazinon Applied Dermally to Cattle|Am. J. Vet. Res.39(7): 1231-1232|1978|
38239|T||Palmer,J.S., M. Haufler, L.M. Hunt, J.C. Schlinke, and C.E. Gates|Chronic Toxicosis of Sheep from the Organic Herbicide Di-Allate|Am. J. Vet. Res.33(3): 543-546|1972|
38240|T||Palmer,J.S., L.D. Rowe, and H.R. Crookshank|Effect of Age on Tolerance of Calves to Chlorpyrifos|Am. J. Vet. Res.41(8): 1323-1325|1980|
38241|T||Palmer,J.S., and J.C. Schlinke|Toxicologic Effect of Two Crotoxyphos Formulations on Pigs|J. Econ. Entomol.64(3): 684-685|1971|10.1093/jee/64.3.684
38242|T||Palmer,J.S., and J.C. Schlinke|Toxic Effects of Carbofuran in Cattle and Sheep|J. Am. Vet. Med. Assoc.162(7): 561-563|1973|
38243|T||Palmer,J.S., F.C. Wright, and M. Haufler|Toxicologic and Residual Aspects of an Alkyl Mercury Fungicide to Cattle, Sheep, and Turkeys|Clin. Toxicol.6(3): 425-437|1973|10.3109/15563657308990542
38244|T||Palmer,K.A., S. Green, and M.S. Legator|Dominant Lethal Study of p,p'-DDT in Rats|Food Cosmet. Toxicol.11:53-62|1973|10.1016/0015-6264(73)90061-8
38245|T||Palmer,W.A., J.H.P. Dingle, and G.H. O'Neil|Residues of Dioxathion in Adipose Tissue of Cattle Subjected to Multiple Dippings|Aust. J. Exp. Agric. Anim. Husb.17(84): 20-24|1977|10.1071/EA9770020
38248|T||Parker,C.E., W.A. Jones, H.B. Matthews, E.E. McConnell, and J.R. Hass|The Chronic Toxicity of Technical and Analytical Pentachlorophenol in Cattle II. Chemical Analyses of Tissues|Toxicol. Appl. Pharmacol.55:359-369|1980|10.1016/0041-008X(80)90098-8
38249|T||Parker,C.M., D.R. Patterson, G.A. Van Gelder, E.B. Gordon, M.G. Valerio, and W.C. Hall|Chronic Toxicity and Carcinogenicity Evaluation of Fenvalerate in Rats|J. Toxicol. Environ. Health Part A13:83-97|1984|10.1080/15287398409530483
38252|T||Parkhie,M.R., M. Webb, and M.A. Norcross|Dimethoxyethyl Phthalate: Embryopathy, Teratogenicity, Fetal Metabolism and the Role of Zinc in the Rat|Environ. Health Perspect.45:89-97|1982|10.1289/ehp.824589
38256|T||Pasquet,J., A. Mazuret, J. Fournel, and F.H. Koenig|Acute Oral and Percutaneous Toxicity of Phosalone in the Rat, in Comparison with Azinphosmethyl and Parathion|Toxicol. Appl. Pharmacol.37:85-92|1976|10.1016/S0041-008X(76)80010-5
38257|T||Pass,D.A.|Microautoradiographic Study of the Distribution of Methylmercuric(203) Chloride in the Mallard Duck (Anas platyrhynchos)|J. Comp. Pathol.85:1-6|1975|10.1016/0021-9975(75)90078-X
38258|T||Pass,D.A., P.B. Little, and L.H. Karstad|The Pathology of Subacute and Chronic Methyl Mercury Poisoning of the Mallard Duck (Anas platyrhynchos)|J. Comp. Pathol.85:7-21|1975|10.1016/0021-9975(75)90079-1
38259|T||Patra,P.B., A. Ghosh, and N.M. Biswas|Testicular Histology & Delta5-3Beta Hydroxysteriod Dehydrogenase in Cadmium Treated Garden Lizard Calotes Versicolor|Indian J. Exp. Biol.16:603-605|1978|
38260|T||Pattee,O.H.|Eggshell Thickness and Reproduction in American Kestrels Exposed to Chronic Dietary Lead|Arch. Environ. Contam. Toxicol.13:29-34|1984|10.1007/BF01055643
38261|T||Pattee,O.H., and J.C. Franson|Short-Term Effects of Oil Ingestion on American Kestrels (Falco sparverius)|J. Wildl. Dis.18(2): 235-241|1982|10.7589/0090-3558-18.2.235
38262|T||Pattee,O.H., and S.K. Hennes|Bald Eagles and Waterfowl:  The Lead Shot Connection; In: Sabol, K. (Ed), Transactions of the 48Th North American Wildlife and Natural Resources Conference, March 19-24,1983, Kansas City, Mo|In: K.Sabol (Ed), Trans. of the 48th N. Am. Wildl. and Nat. Resour. Conf., Mar. 19-24, 1983, Kansas City, MO, Wildl. Manag. Inst., Washington, D.C.:230-237|1983|
38263|T||Patterson,C.E., and M.L. Rhodes|The Effect of Superoxide Dismutase on Paraquat Mortality in Mice and Rats|Toxicol. Appl. Pharmacol.62:65-72|1982|10.1016/0041-008X(82)90102-8
38264|T||Patton,J.F., and M.P. Dieter|Effects of Petroleum Hydrocarbons on Hepatic Function in the Duck|Comp. Biochem. Physiol. C Comp. Pharmacol.65:33-36|1980|10.1016/0306-4492(80)90041-6
38265|T||Patuxent Wildlife Research Center|Summaries of Selected Studies on Wildlife Pollution Progress Reports from the Patuxent Wildlife Research Center for the Year 1980|U.S.Fish and Wildlife Service, Patuxent Wildlife Research Center, Laurel, MD:24 p.|1981|
38266|T||Paul,B.S., S.D. Singh, and J.K. Malik|Effect of Quinalphos on Blood Enzymes and Its Acute Toxicity in Bubalus bubalis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(1): 111-122|1984|
38267|T||Paul,B.S., and V.P. Vadlamudi|Teratogenic Studies of Fenitrothion on White Leghorn Chick Embryos|Bull. Environ. Contam. Toxicol.15(2): 223-229|1976|10.1007/BF01685165
38271|T||Paulov,S., and J.M. Demers|Effect of Ethanol on Body Growth and Serum Proteins in Young Ducklings|Nutr. Metab.13:1-6|1971|10.1159/000175313
38272|T||Paulov,S., J. Veselovsky, and J.M. Demers|Metabolic Pool of Heart Proteins and Amino Acids in Cobalt-Poisoned Ducklings|Acta Physiol. Acad. Sci. Hung.40(2): 173-177|1971|
38273|T||Paulson,G.D., M.M. Docktor, A.M. Jacobsen, and R.G. Zaylskie|Isopropyl Carbanilate (Propham) Metabolism in the Chicken: Balance Studies and Isolation and Identification of Excreted Metabolites|J. Agric. Food Chem.20(4): 867-876|1972|10.1021/jf60182a035
38274|T||Paulson,G.D., A.M. Jacobsen, and G.G. Still|Animal Metabolism of Propham (Isopropyl Carbanilate): the Fate of Residues in Alfalfa When Consumed by the Rat and Sheep|Pestic. Biochem. Physiol.5:523-535|1975|10.1016/0048-3575(75)90027-9
38276|T||Paulson,G.D., E.R. Mansager, and G.L. Larsen|The Metabolism of the Nonionic Surfactant 14C-Labeled Alpha[P-1,1,3,3-Tetramethylbutyl)Phenyl]-Omega-Hydroxyhexa(Oxyethylene) in the Goat|Pestic. Biochem. Physiol.14:111-128|1980|10.1016/0048-3575(80)90102-9
38278|T||Paulson,G.D., and M.V. Zehr|Metabolism of P-Chlorophenyl N-Methylcarbamate in the Chicken|J. Agric. Food Chem.19(3): 471-474|1971|10.1021/jf60175a033
38279|T||Pawar,S.S., and M.M. Fawade|Alterations in the Toxicity of Thiodemeton due to the Pretreatment of Inducers, Substrates and Inhibitors of Mixed Function Oxidase System|Bull. Environ. Contam. Toxicol.20:805-810|1978|10.1007/BF01683604
38283|T||Peakall,D.B.|p,p'-DDT:  Effect on Calcium Metabolism and Concentration of Estradiol in the Blood|Science168:592-594|1970|10.1126/science.168.3931.592
38289|T||Peakall,D.B., D. Hallett, D.S. Miller, R.G. Butler, and W.B. Kinter|Effects of Ingested Crude Oil on Black Guillemots:  A Combined Field and Laboratory Study|Ambio9(1): 28-30|1980|
38290|T||Peakall,D.B., D.J. Hallett, J.R. Bend, G.L. Foureman, and D.S. Miller|Toxicity of Prudhoe Bay Crude Oil and Its Aromatic Fractions to Nestling Herring Gulls|Environ. Res.27(1): 206-215|1982|10.1016/0013-9351(82)90071-8
38293|T||Peakall,D.B., and L.F. Kiff|Eggshell Thinning and DDE Residue Levels Among Peregrine Falcons Falco peregrinus: A Global Perspective|Ibis121:200-204|1979|10.1111/j.1474-919X.1979.tb04962.x
38295|T||Peakall,D.B., D.S. Miller, and W.B. Kinter|Prolonged Eggshell Thinning Caused by DDE in the Duck|Nature254(5499): 421-|1975|10.1038/254421a0
38296|T||Peakall,D.B., D.S. Miller, and W.B. Kinter|Blood Calcium Levels and the Mechanism of DDE-Induced Eggshell Thinning|Environ. Pollut.9:289-294|1975|
38298|T||Peakall,D.B., D.S. Miller, and W.B. Kinter|Toxicity of Crude Oils and Their Fractions to Nestling Herring Gulls - 1.  Physiological and Biochemical Effects|Mar. Environ. Res.8:63-71|1983|10.1016/0141-1136(83)90027-2
38299|T||Peakall,D.B., L.M. Reynolds, and M.C. French|DDE in Eggs of the Peregrine Falcon|Bird Study23(3): 183-186|1976|10.1080/00063657609476499
38300|T||Peakall,D.B., J. Tremblay, W.B. Kinter, and D.S. Miller|Endocrine Dysfunction in Seabirds Caused by Ingested Oil|Environ. Res.24:6-14|1981|10.1016/0013-9351(81)90126-2
38301|T||Pearce,P.A., and N.R. Garrity|Impact of Aminocarb (Matacil) Spraying on Forest Songbirds in Northern New Brunswick|Can.Wildl.Svc.Progr.Notes121:1-19|1981|
38303|T||Pearce,P.A., D.B. Peakall, and A.J. Erskine|Impact of Forest Birds of the 1975 Spruce Budworm Spray Operation in New Brunswick|Can.Wildl.Serv.Prog.Note No.62, Can.Wildl.Serv., Ottawa:1-7|1976|
38304|T||Pearce,P.A., D.B. Peakall, and A.J. Erskine|Impact on Forest Birds of the 1976 Spruce Budworm Spray Operation in New Brunswick; Canadian Wildlife Service Progress Notes|Can.Wildl.Serv.VNO. 97:1-15|1979|
38309|T||Pepperell,J.G.|Effects of p,p'-DDT on the Domestic Hen|Aust. J. Zool.20:301-313|1972|10.1071/ZO9720301
38310|T||Peppriell,J.|The Induction of Hepatic Microsomal Mixed-Function Oxidase Activities in the Mouse by Mirex, 3,4,5,3',4',5'-Hexachlorobiphenyl, and Equimolar Dosages of Both|Environ. Res.26:402-408|1981|10.1016/0013-9351(81)90216-4
38312|T||Perfect,T.J., A.G. Cook, B.R. Critchley, U. Critchley, R.L. Moore, A. Russel-Smith, M.J. Swift, and R. Yeadon|The Effects of DDT on the Populations of Soil Organisms and the Processes of Decomposition in a Cultivated Soil in Nigeria|Ecol. Bull.25:565-568|1977|
38313|T||Periquet,A., and R. Derache|Inflammation Experimentale et Taux Proteique Alimentaire Chez des Rats intoxiques Subchroniquement au Nabame|Food Cosmet. Toxicol.16:575-584|1978|10.1016/S0015-6264(78)80226-0
38315|T||Perry,T.W., R.J. Everson, K.S. Hendrix, R.C. Peterson, and F.R. Robinson|In Utero Exposure of Bovine Fetuses to Polychlorinated Biphenyls|J. Dairy Sci.67:224-228|1984|10.3168/jds.S0022-0302(84)81289-8
38316|T||Persson,B.|Degradation and Seasonal Variation of DDT in Whitethroats Sylvia communis|Oikos25(2): 216-221|1974|
38317|T||Peterle,A.F., and T.J. Peterle|The Effect of DDT on Aggression in Laboratory Mice|Bull. Environ. Contam. Toxicol.6(5): 401-405|1971|10.1007/BF01684359
38319|T||Peters,J.W., and R.M. Cook|Effects of Atrazine on Reproduction in Rats|Bull. Environ. Contam. Toxicol.9(5): 301-304|1973|10.1007/BF01684788
38322|T||Peterson,R.E., J.L. Seymour, and J.R. Allen|Distribution and Biliary Excretion of Polychlorinated Biphenyls in Rats|Toxicol. Appl. Pharmacol.38:609-619|1976|10.1016/0041-008X(76)90191-5
38323|T||Peterson,R.G., and J.V. Bruckner|A Rapid Analytical Method for Measuring Toluene in Biological Specimens|J. Chromatogr.152:69-78|1978|10.1016/S0021-9673(00)85335-2
38324|T||Peterson,R.P., and L.S. Jensen|Induced Exudative Diathesis in Chicks by Dietary Silver|Poult. Sci.54:795-798|1975|10.3382/ps.0540795
38325|T||Peterson,R.P., and L.S. Jensen|Interrelationship of Dietary Silver with Copper in the Chick|Poult. Sci.54:771-775|1975|10.3382/ps.0540771
38329|T||Petrova-Vergieva,T., and L. Ivanova-Tchemishanska|Assessment of the Teratogenic Activity of Dithiocarbamate Fungicides|Food Cosmet. Toxicol.11:239-244|1973|10.1016/S0015-6264(73)80490-0
38330|T||Petrovsky,E., J. Grolmus, J. Kalova, and J. Dubovsky|Effects of Ethylnitrsourea on the Hatchability and Survival of Chicks|Br. Poult. Sci.22:85-91|1981|10.1080/00071688108447867
38331|T||Petters,R.M., and R.V. Mettus|Reproductive Performance of Bracon hebetor Females Following Acute Exposure to Sulphur Dioxide in Air|Environ. Pollut. A.27(2): 155-163|1982|10.1016/0143-1471(82)90107-6
38333|T||Pharr,C.L., and L.D. Andrews|The Use of Fly Ash in Diets of Cage and Floor Broilers|Poult. Sci.59:2080-2087|1980|10.3382/ps.0592080
38334|T||Phillips,J.A., and C.C. Whitehead|Studies on the Performance of Laying Hens and Broiler Chickens Fed Low Doses of Tetrachlorvinphos|Pestic. Sci.4:753-757|1973|10.1002/ps.2780040518
38335|T||Phillips,T.D., B.R. Nechay, S.L. Neldon, L.F. Kubena, N.D. Heidelbaugh, E.C. Shepard, A.F. Stein, and A.W. Hayes|Vanadium-Induced Inhibition of Renal Na+, K+-Adenosinetriphosphatase in the Chicken After Chronic Dietary Exposure|J. Toxicol. Environ. Health9:651-661|1982|10.1080/15287398209530193
38336|T||Phillips,W.E.J., G. Hatina, D.C. Villeneuve, and G.C. Becking|Chronic Ingestion of Lead and the Response of the Immature Rat to Parathion|Bull. Environ. Contam. Toxicol.9(1): 28-43|1973|10.1007/BF01856768
38339|T||Pickering,R.G., and C.E. Pickering|Methods for the Estimation of Acetylcholinesterase Activity in the Erythrocytes of Laboratory Animals Given Carbamates Or Organophosphorus Compounds|Arch. Toxicol.31:197-216|1974|10.1007/BF00311053
38341|T||Pillmore,R.E., E.L. Flickinger, and M.L. Richmond|Forest Spraying of Zectran and Its Safety to Wildlife|J. For.69(10): 721-727|1971|
38347|T||Piper,W.N., J.Q. Rose, and P.J. Gehring|Excretion and Tissue Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|Environ. Health Perspect.5:241-244|1973|10.1289/ehp.7305241
38348|T||Piper,W.N., J.Q. Rose, and P.J. Gehring|Excretion and Tissue Distribution of 2,3,7,8-Tetrachloro-Dibenzo-p-Dioxin in the Rat|In: E.H.Blair (Ed), Chlorodioxins-Origin and Fate, 162nd Meet.of the Am.Chem.Soc., Sep.16-17, 1971, Adv.in Chem.120:85-91|1973|
38349|T||Piper,W.N., J.Q. Rose, M.L. Leng, and P.J. Gehring|The Fate of 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T) Following Oral Administration to Rats and Dogs|Toxicol. Appl. Pharmacol.26:339-351|1973|10.1016/0041-008X(73)90270-6
38350|T||Plasterer,M.R., W.S. Bradshaw, G.M. Booth, M.W. Carter, R.L. Schuler, and B.D. Hardin|Developmental Toxicity of Nine Selected Compounds Following Prenatal Exposure in the Mouse:  Naphthalene, p-Nitrophenol, Sodium Selenite, Dimethyl Phthalate, Ethylenethiourea, and Four Glycol Ether Derivatives|J. Toxicol. Environ. Health15(1): 25-38|1985|10.1080/15287398509530633
38351|T||Platonow,N.S., L.H. Karstad, and P.W. Saschenbrecker|Tissue Distribution of Polychlorinated Biphenyls (Aroclor 1254) in Cockerels:  Relation to the Duration of Exposure and Observations on Pathology|Can. J. Comp. Med.37:90-95|1973|
38352|T||Platonow,N., and N.Y. Chen|Transplacental Transfer of Polychlorinated Biphenyls (Aroclor 1254) in a Cow|Vet. Rec.92(3): 69-70|1973|10.1136/vr.92.3.69
38354|T||Platonow,N.S., and H.S. Funnell|The Distribution and Some Effects of Polychlorinated Biphenyls (Aroclor 1254) in Cockerels During Prolonged Feeding Trial|Can. J. Comp. Med.36:89-93|1972|
38355|T||Platonow,N.S., and H.S. Funnell|The Accumulation of Mercury in Chickens Following the Prolonged Administration of Low Levels of an Inorganic Mercurial|Vet. Rec.88(19): 503-504|1971|10.1136/vr.88.19.503
38356|T||Platonow,N.S., R.M. Liptrap, and H.D. Geissinger|The Distribution and Excretion of Polychlorinated Biphenyls (Aroclor 1254) and Their Effect on Urinary Gonadal Steroid Levels in the Boar|Bull. Environ. Contam. Toxicol.7(6): 358-365|1972|10.1007/BF01684460
38357|T||Platonow,N.S., E.B. Meads, R.M. Liptrap, and F. Lotz|Effects of Some Commercial Preparations of Polychlorinated Biphenyls in Growing Piglets|Can. J. Comp. Med.40:421-428|1976|
38359|T||Plowright,R.C., and F.H. Rodd|The Effect of Aerial Insecticide Spraying on Hymenopterous Pollinators in New Brunswick|Can. Entomol.112:259-269|1980|10.4039/Ent112259-3
38360|T||Plummer,F.R., and B.E. Bartlett|Mercury Distribution in Laying Hens Fed Whalemeal Supplement|Bull. Environ. Contam. Toxicol.13(3): 324-329|1975|10.1007/BF01685344
38361|T||Poat,J.A., D. Morris, and K.A. Munday|The Effect of Dietary Morfamquat on Mitochondrial Function in Rat Kidney|Int. J. Biochem.3:378-382|1972|10.1016/0020-711X(72)90087-0
38365|T||Pol,E.W.V.D.|Note on the Determination of Carbaryl Residues in Hen Skin|J. AOAC Int.51(4): 901-|1968|10.1093/jaoac/51.4.901
38366|T||Polan,C.E., and P.T. Chandler|Metabolism of 14C-Carbonyl Labeled Supracide by Lactating Cows|J. Dairy Sci.54(6): 847-853|1971|10.3168/jds.S0022-0302(71)85930-1
38367|T||Polan,C.E., J.T. Huber, C.N. Miller, and R.A. Sandy|Oral Administration of Supracide to Lactating Cows: Effect on Consumption, Production, Ration Utilization, and Residue Levels in Milk and Certain Tissues|J. Dairy Sci.52(9): 1384-1387|1969|10.3168/jds.S0022-0302(69)86759-7
38368|T||Polan,C.E., J.T. Huber, R.W. Young, and J.C. Osborne|Chronic Feeding of S-[(2-Methoxy-5-Oxo-Delta2-1,3,4-Thiadiazolin-4-yl)Methyl] O,O-Dimethyl Phosphorodithioate (Surpracide) to Rumating Bull Curves|J. Agric. Food Chem.17(4): 857-859|1969|10.1021/jf60164a045
38369|T||Poland,A., and E. Glover|Comparison of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin, A Potent Inducer of Aryl Hydrocarbon Hydroxylase, with 3-Methylcholanthrene|Mol. Pharmacol.10:349-359|1974|
38370|T||Poland,A., and E. Glover|Chlorinated Biphenyl Induction of Aryl Hydrocarbon Hydroxylase Activity:  A Study of the Structure-Activity Relationship|Mol. Pharmacol.13:924-938|1977|
38371|T||Poland,A., and E. Glover|2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  A Potent Inducer of delta-Aminolevulinic Acid Synthetase|Science179:476-477|1973|10.1126/science.179.4072.476
38372|T||Poland,J.J., J.B. Kissam, J.K. Reed, and B.D. Barnett|The Uptake of DDT by Domestic Turkeys Ranged on Treated Clayloam Soil|Poult. Sci.51:1024-1026|1972|10.3382/ps.0511024
38373|T||Polin,D., and R.K. Ringer|Polybrominated Biphenyls in Chicken Eggs Vs. Hatchability|Proc. Soc. Exp. Biol. Med.159:131-135|1978|10.3181/00379727-159-40298
38374|T||Polin,D., and R.K. Ringer|PBB Fed to Adult Female Chickens:  Its Effect on Egg Production, Reproduction, Viability of Offspring, and Residues in Tissues and Eggs|Environ. Health Perspect.23:283-290|1978|10.1289/ehp.7823283
38375|T||Polin,D., and R.K. Ringer|Toxicity and Tissue Residues from Diphenylhydantoin fed to Chickens|Poult. Sci.55:1946-1954|1976|10.3382/ps.0551946
38376|T||Polin,D., R.K. Ringer, and S.D. Aust|Effect of Congeners of Polybrominated Biphenyls on Hatchability of Chicken Eggs. I. 2,2'4,4',5,5'-Hexabromobiphenyl vs. PBB|Proc. Soc. Exp. Biol. Med.161:44-47|1979|10.3181/00379727-161-40486
38380|T||Pommer,E.H.|Chemical Structure-Fungicidal Activity Relationships in Substituted Morpholines|Pestic. Sci.15:285-295|1984|10.1002/ps.2780150311
38381|T||Poonacha,K.B., B.C. Wentworth, and A.B. Chapman|Genetic Resistance to DDT in the Japanese Quail Coturnix coturnix japonica|Poult. Sci.52:841-846|1973|10.3382/ps.0520841
38382|T||Poore,R.E., and R.A. Neal|Evidence for Extrahepatic Metabolism of Parathion|Toxicol. Appl. Pharmacol.23:759-768|1972|10.1016/0041-008X(72)90117-2
38383|T||Pope,A.M., and J.E. Heavner|Acetylcholinesterase Activity in Pregnant and Nonpregnant Ewes|Am. J. Vet. Res.44(9): 1730-1731|1983|
38384|T||Pope,G.G., and P. Ward|The Effects of Small Applications of An Organophosphorus Poison, Fenthion on the Weaver-Bird Quelea Quelea|Pestic. Sci.3:197-205|1972|10.1002/ps.2780030214
38385|T||Porter,M.C., T.S. Miya, and W.F. Bousquet|Cadmium and Vascular Reactivity in the Rat|Toxicol. Appl. Pharmacol.34:143-150|1975|10.1016/0041-008X(75)90182-9
38386|T||Porter,R.D., and S.N. Wiemeyer|DDE at Low Dietary Levels Kills Captive American Kestrels|Bull. Environ. Contam. Toxicol.8(1): 193-199|1972|10.1007/BF01839511
38387|T||Porter,R.E.R.|Methiocarb Protects Sprouting Peas from Small Birds|N. Z. J. Exp. Agric.5:335-338|1977|10.1080/03015521.1977.10425992
38388|T||Poso,A.R., M.E. Hillbom, and L. Eriksson|Acetaldehyde Penetrates the Blood-Liquor Barrier of Goats|Toxicol. Lett.8:57-62|1981|10.1016/0378-4274(81)90138-7
38389|T||Potchoiba,M.J., J.R. Carlson, and R.G. Breeze|Metabolism and Pneumotoxicity of 3-Methyloxindole, Indole-3-Carbinol, and 3-Methylindole in Goats|Am. J. Vet. Res.43(8): 1418-1423|1982|
38390|T||Potter,C.L., I.G. Sipes, and D.H. Russell|Hypothyroxinemia and Hypothermia in Rats in Response to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Administration|Toxicol. Appl. Pharmacol.69:89-95|1983|10.1016/0041-008X(83)90123-0
38392|T||Potter,G.D., G.M. Vattuone, and D.R. McIntyre|Fate of Fallout Ingested by Dairy Cows; In: Bensen,D.W. and Sparrow,A.H. (Eds) Survival of Food Crops and Livestock in the Event of Nuclear War. Proc. of A Symposium Held at Brookhaven National Laboratory, Upton, Ny, Se|U.S.Atomic Energy Commission, Office of Information Services:115-124|1971|
38393|T||Potter,L.M., J.R. Shelton, C.M. Parsons, and A.H. Cantor|Menhaden Fish Meal, Dried Whey Product, and Selenium in Diets of Young Turkeys|Poult. Sci.60:378-384|1981|10.3382/ps.0600378
38394|T||Potts,G.R.|Success of Eggs of the Shag on the Farne Islands, Northumberland, in Relation to Their Content of Dieldrin and p,p'-DDE|Nature217:1282-1284|1968|10.1038/2171282a0
38395|T||Potvin,N., J.M. Bergeron, M. Norman, and A. Cyr|Evaluating the Sterile Male Method on Red-Winged Blackbirds:  Effects of the Chemosterilant Thiotepa on the Reproduction of Clinically Treated Birds Under Field Conditions|Can. J. Zool.60:2337-2343|1982|10.1139/z82-301
38396|T||Pounder,B.|Wildfowl and Pollution in the Tay Estuary|Mar. Pollut. Bull.5(3): 35-38|1974|10.1016/0025-326X(74)90231-8
38397|T||Poupoulis,C., and L.S. Jensen|Effect of High Dietary Copper on Gizzard Integrity of the Chick|Poult. Sci.55:113-121|1976|10.3382/ps.0550113
38398|T||Powell,G.V.N.|Reproduction by an Altricial Songbird, the Red-Winged Blackbird, in Fields Treated with the Organophosphate Insecticide Fenthion|J. Appl. Ecol.21:83-95|1984|10.2307/2403038
38400|T||Rao,P.V.V.P., M.K.C. Sridhar, and A.B.O. Desalu|Effect of Acute Oral Cadmium on Mitochrondrial Enzymes in Rat Tissues|Arch. Environ. Contam. Toxicol.12:293-297|1983|10.1007/BF01059405
38403|T||Price,M.A., R.D. Radeleff, S.E. Kunz, and R.E. Everett|Toxicity of Soil Applications of Dursban to Bobwhite Quail|Prog. Rep. Texas Agric. Exp. Stn.:3 p. |1971|
38404|T||Pritsos,C.A., D.E. Pisani, and R.S. Pardini|Inhibition of Liver Glycolysis in Rats by Dietary Dichlone (2,3-Dichloro-1,4-Naphthoquinone)|Bull. Environ. Contam. Toxicol.35:23-28|1985|10.1007/BF01636475
38406|T||Pritzl,M.C., and E.W. Kienholz|The Effect of Hydrochloric, Sulfuric, Phosphoric, and Nitric Acids in Diets for Broiler Chicks|Poult. Sci.52:1979-1981|1973|10.3382/ps.0521979
38407|T||Probst,G.S.|Cadmium: Absorption, Distribution, and Excretion in Mammals|In: J.H.Mennear (Ed.) Cadmium Toxicity, Marcel Dekker, Inc., New York:29-59|1979|
38408|T||Proudfoot,F.G., and W.F. Dewitt|Effects of Genetian Violet in Broiler Diets on Performance|Poult. Sci.57:545-547|1978|10.3382/ps.0570545
38409|T||Proudfoot,F.G., H.W. Hulan, and W.F. Dewitt|Effects of Using 0,1.0,1.5, and 2.0% 'Lignosol Fg' As A Pellet Binder in Broiler Chick Finisher Diets|Poult. Sci.58:87-89|1979|10.3382/ps.0580087
38410|T||Prouty,R.M., and E. Cromartie|Recovery of DDT and Dieldrin from Tissues of Coturnix japonica Stepwise During Residue Analysis|Environ. Sci. Technol.4(9): 768-769|1970|10.1021/es60044a007
38414|T||Putnam,E.M., R.N. Brewer, and G.J. Cottier|Low Level Pesticide Contamination of Soil and Feed and Its Effect on Broiler Tissue Residue|Poult. Sci.53:1695-1698|1974|10.3382/ps.0531695
38415|T||Puyear,R.L., and G.D. Paulson|Effect of Carbaryl (1-Naphthyl N-Methylcarbamate) on Pentobarbital-Induced Sleeping Time and Some Liver Microsomal Enzymes in White Leghorn Cockerels|Toxicol. Appl. Pharmacol.22:621-627|1972|10.1016/0041-008X(72)90289-X
38416|T||Puzynska,L.|Brain Biochemistry and Learning Ability of Rats Treated with Propoxur Given in Diets of Varying Protein Content|Environ. Res.23:385-396|1980|10.1016/0013-9351(80)90073-0
38417|T||Pym,R.A.E., G. Singh, W.S. Gilbert, J.P. Armstrong, and B.V. McCleary|Effects of Dichlorvos, Maldison and Pirimiphos-Methyl on Food Consumption, Egg Production, Egg and Tissue Residues, and Plasma Acetylcholinesterase Inhibition in Layer Strain Hens|Aust. J. Exp. Agric. Anim. Husb.24:83-92|1984|10.1071/EA9840083
38419|T||Quimby,P.O., K.E. Frick, R.D. Wauchope, and S.H. Kay|Effects of Cadmium on Two Biocontrol Insects and Their Host Weeds|Bull. Environ. Contam. Toxicol.22:371-378|1979|10.1007/BF02026957
38420|T||Quistad,G.B., K.M. Mulholland, and G.C. Jamieson|2-Chlorotoluene Metabolism by Rats|J. Agric. Food Chem.31(6): 1158-1162|1983|10.1021/jf00120a006
38421|T||Quistad,G.B., L.E. Staiger, G.C. Jamieson, and D.A. Schooley|Metabolism of Fluvalinate by a Lactating Dairy Cow|J. Agric. Food Chem.30:895-901|1982|10.1021/jf00113a023
38422|T||Quistad,G.B., L.E. Staiger, and D.A. Schooley|Environmental Degradation of the Miticide Cycloprate (Hexadecyl Cyclopropanecarboxylate). 3. Bovine Metabolism|J. Agric. Food Chem.26(1): 71-75|1978|10.1021/jf60215a011
38423|T||Quistad,G.B., L.E. Staiger, and D.A. Schooley|Environmental Degradation of the Miticide Cycloprate (Hexadecyl Cyclopropanecarboxylate). 1. Rat Metabolism|J. Agric. Food Chem.26(1): 60-66|1978|10.1021/jf60215a008
38424|T||Radar,J.I., E.M. Celesk, J.T. Peeler, and K.R. Mahaffey|Retention of Lead Acetate in Weanling and Adult Rats|Toxicol. Appl. Pharmacol.67:100-109|1983|10.1016/0041-008X(83)90248-X
38425|T||Radeleff,R.D., and S.E. Kunz|Toxicity and Hazard of Diazinon, Ethion, and Supracide to Turkeys|J. Econ. Entomol.65(1): 162-165|1972|10.1093/jee/65.1.162
38426|T||Radhakrishnan,C.V., N.P. Thompson, and D.J. Forrester|Susceptibility of Chickens Fed p,p'-DDT to Histomoniasis|Bull. Environ. Contam. Toxicol.8(3): 147-152|1972|10.1007/BF01684469
38427|T||Radwan,H.S.A., and S.M. Abo-Korah|Population Dynamics of Soil Inhabiting Mites in Cucumber Treated with Granular Insect Growth Regulators (IGRs)|Experientia35:1485-1487|1979|10.1007/BF01962800
38428|T||Ragland,W.L., M. Friend, D.O. Trainer, and N.E. Sladek|Interaction Between Duck Hepatitis Virus and DDT in Ducks|Res. Commun. Chem. Pathol. Pharmacol.2(2): 236-244|1971|
38429|T||Rai,U.C., and T.S.K. Singh|Cardio-Pulmonary Changes in Mongrel Dogs After Exposure to Kerosene Smoke|Indian J. Exp. Biol.18:1263-1266|1980|
38430|T||Raisanen,S., R. Hiltunen, A.U. Arstila, and T. Sipilainen|Determination of 2,3,7,8-Tetrachlorodibenzo-P-Dioxin in Goatmilk and Tissues by Glass Capillary Gas Chromatography and Medium Resolution Mass Fragmentography|J. Chromatogr.208:323-330|1981|10.1016/S0021-9673(00)81944-5
38431|T||Ramakrishna,N., and B.V. Ramachandran|Malathion A and B Esterases of Mouse Liver--III: In Vivo Effect of Parathion and Related PNP-Containing Insecticides on Esterase Inhibition and Potentiation of Malathion Toxicity|Biochem. Pharmacol.27(16): 2049-2054|1978|10.1016/0006-2952(78)90065-5
38432|T||Ramprashad,F., and K. Ronald|A Surface Preparation Study on the Effect of Methyl Mercury on the Sensory Hair Cell Population in the Cochlea of the Harp Seal (Pagophilus groenlandicus Erxleben, 1777)|Can. J. Zool.55:223-230|1977|10.1139/z77-025
38433|T||Rana,S.V.S., and A. Kumar|Some Observations on the Intake of Inorganic Lead and Animal Growth|Bull. Environ. Contam. Toxicol.17(6): 759-763|1977|10.1007/BF01685966
38436|T||Rao,G.S., and K.P. Pandya|Toxicity of Petroleum Products:  Effects on Alkaline Phosphatase and Lipid Peroxidation|Environ. Res.16:174-178|1978|10.1016/0013-9351(78)90153-6
38437|T||Rao,R.R., F. Quadros, R.M. Mazmudar, M.R. Marathe, and S.D. Gangoli|Toxicological Effects of Aerial Application of Monocrotophos|Arch. Environ. Contam. Toxicol.9:473-481|1980|10.1007/BF01055299
38438|T||Rao,V.S.N., K.S. Krishnaiah, P.K. Sreeraman, and P.R. Rao|Effect of Oral DDT in Male Rats|Indian J. Exp. Biol.16:1002-1003|1978|
38441|T||Rasul,A.R., and J.M. Howell|The Toxicity of Some Dithiocarbamate Compounds in Young and Adult Domestic Fowl|Toxicol. Appl. Pharmacol.30(1): 63-78|1974|10.1016/0041-008X(74)90247-6
38443|T||Rattner,B.A.|Tolerance of Adult Mallards to Subacute Ingestion of Crude Petroleum Oil|Toxicol. Lett.8:337-342|1981|10.1016/0378-4274(81)90123-5
38444|T||Rattner,B.A.|Diagnosis of Anticholinesterase Poisoning in Birds:  Effects of Environmental Temperature and Underfeeding on Cholinesterase Activity|Environ. Toxicol. Chem.1:329-335|1982|10.1002/etc.5620010408
38445|T||Rattner,B.A., and W.C.,Jr. Eastin|Plasma Corticosterone and Thyroxine Concentrations During Chronic Ingestion of Crude Oil in Mallard Ducks (Anas platyrhynchos)|Comp. Biochem. Physiol. C Comp. Pharmacol.68:103-107|1981|10.1016/0306-4492(81)90002-2
38446|T||Rattner,B.A., W.J. Fleming, and H.C. Murray|Osmoregulatory Function in Ducks Following Ingestion of the Organophosphorus Insecticide Fenthion|Pestic. Biochem. Physiol.20:246-255|1983|10.1016/0048-3575(83)90030-5
38447|T||Rattner,B.A., and J.C. Franson|Methyl Parathion and Fenvalerate Toxicity in American Kestrels: Acute Physiological Responses and Effects of Cold|Can. J. Physiol. Pharmacol.62:787-792|1984|10.1139/y84-129
38448|T||Rattner,B.A., and D.J. Hoffman|Comparative Toxicity of Acephate in Laboratory Mice, White-Footed Mice, and Meadow Voles|Arch. Environ. Contam. Toxicol.13:483-491|1984|10.1007/BF01056263
38449|T||Rattner,B.A., L. Sileo, and C.G. Scanes|Oviposition and the Plasma Concentrations of Lh, Progesterone and Corticosterone in Bobwhite Quail (Colinus Virginianus) Fed Parathion|J. Reprod. Fertil.66:147-155|1982|10.1530/jrf.0.0660147
38450|T||Rattner,B.A., L. Sileo, and C.G. Scanes|Hormonal Responses and Tolerance to Cold of Female Quail Following Parathion Ingestion|Pestic. Biochem. Physiol.18:132-138|1982|10.1016/0048-3575(82)90096-7
38452|T||Ray,A.C., J.N. Dwyer, G.W. Fambro, and J.C. Reagor|Clinical Signs and Chemical Confirmation of 4-Aminopyridine Poisoning in Horses|Am. J. Vet. Res.39(2): 329-331|1978|
38455|T||Rayudu,G.V.N., R. Kadirvel, and P.Kratzer Vohra|Toxicity of Tannic Acid and Its Metabolites for Chickens|Poult. Sci.49(4): 957-960|1970|10.3382/ps.0490957
38456|T||Reading,C.M., G.H. Arscott, and I.J. Tinsley|Effect of Dieldrin and Calcium on the Performance of Adult Japanese Quail (Coturnix coturnix japonica)|Poult. Sci.55:212-219|1976|10.3382/ps.0550212
38458|T||Reddy,G., and M.A.Q. Khan|Metabolism, Excretion, and Tissue Distribution of [14C]Photodieldrin in Male Rabbits, Following Single Oral and Intraperitoneal Administration|J. Agric. Food Chem.23(5): 861-866|1976|10.1021/jf60201a010
38459|T||Redig,P.T.|Lead Toxicosis in Raptors|J. Am. Vet. Med. Assoc.177(9): 941-942|1980|
38464|T||Reed,D.L., N.H. Booth, P.B. Bush, D.D. Goetsch, and J. Kiker|Residues in Broiler Chickens fed Low Levels of Hexachlorobenzene|Poult. Sci.56:908-911|1977|10.3382/ps.0560908
38465|T||Reed,D.L., P.B. Bush, N.H. Booth, J.T. Kiker, D.D. Goetsch, and R.L. Farrell|Tissue Residues from Feeding Pentachloronitrobenzene to Broiler Chickens|Toxicol. Appl. Pharmacol.42:433-441|1977|10.1016/0041-008X(77)90021-7
38468|T||Rehfeld,B.M., R.L.,Jr. Bradley, and M.L. Sunde|Toxicity Studies on Polychlorinated Biphenyls in the Chick 2.  Biochemical Effects and Accumulations|Poult. Sci.51:488-493|1972|10.3382/ps.0510488
38469|T||Rehfeld,B.M., R.L.,Jr. Bradley, and M.L. Sunde|The Effect of Polychlorinated Biphenyls on Chicks 3.  Recovery|Poult. Sci.51:435-439|1972|10.3382/ps.0510435
38470|T||Rehfeld,B.M., R.L.,Jr. Bradley, and M.L. Sunde|Toxicity Studies on Polychlorinated Biphenyls in the Chick 1.  Toxicity and Symptoms|Poult. Sci.50(4): 1090-1096|1971|10.3382/ps.0501090
38471|T||Rehfeld,B.M., D.E. Pratt, and M.L. Sunde|Effect of Various Levels of Dietary Malathion on Performance of Chicks|Poult. Sci.48(5): 1718-1723|1969|10.3382/ps.0481718
38472|T||Rehnberg,G.L., J.F. Hein, S.D. Carter, R.S. Linko, and J.W. Laskey|Chronic Ingestion of Mn3O4 by Rats:  Tissue Accumulation and Distribution of Manganese in Two Generations|J. Toxicol. Environ. Health9:175-188|1982|10.1080/15287398209530153
38477|T||Reichert,D., D. Henschler, and P. Bannasch|Nephrotoxic and Hepatotoxic Study of Dichloroacetylene|Food Cosmet. Toxicol.16:227-235|1978|10.1016/S0015-6264(76)80518-4
38478|T||Reid,G.G., P.J. Ketterer, H. Mawhinney, and P. Glover|Exposure to Phenol and Endrin As A Cause of Skin Ulcerationsand Nervous Signs in Pigs|Aust. Vet. J.59:160-|1982|10.1111/j.1751-0813.1982.tb02766.x
38479|T||Reid,I.M., and G.A. Hall|An Ultrastructural and Biochemical Study of Hexachlorophane-Induced Fatty Liver in Sheep|J. Pathol.115:33-43|1975|10.1002/path.1711150106
38480|T||Reid,M., and C.S. Hacker|Spatial and Temporal Variation in Lead and Cadmium in the Laughing Gull, Larus Atricilla|Mar. Pollut. Bull.13(11): 387-389|1982|10.1016/0025-326X(82)90113-8
38481|T||Reidinger,R.F., and D.G. Crabtree|Organochlorine Residues in Golden Eagles, United States--March 1964-July 1971|Pestic. Monit. J.8(1): 37-43|1974|
38482|T||Reif,J.S., and D. Cohen|Canine Pulmonary Disease: A Spontaneous Model for Environmental Epidemiology|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:241-250|1979|
38486|T||Reinders,J.H., L.G. Hansen, R.L. Metcalf, and R.A. Metcalf|In Vitro and in Vivo Inhibition of Chicken Brain Neurotoxic Esterase by Leptophos Analogs|Pestic. Biochem. Physiol.20:67-75|1983|10.1016/0048-3575(83)90122-0
38488|T||Reis,P.J., and R.E. Chapman|Changes in Wool Growth and the Skin of Merino Sheep Following Administration of Cyclophosphamide|Aust. J. Agric. Res.25:931-943|1974|10.1071/AR9740931
38489|T||Reis,P.J., D.A. Tunks, and R.E. Chapman|Effects of Mimosine, A Potential Chemical Defleecing Agent, on Wool Growth and the Skin of Sheep|Aust. J. Biol. Sci.28:69-84|1975|10.1071/BI9750069
38491|T||Reissig,W.H., E.A. Heinrichs, and S.L. Valencia|Effects of Insecticides on Nilaparvata lugens and Its Predators:  Spiders, Microvelia atrolineata, and Cyrtorhinus lividipennis|Environ. Entomol.11(1): 193-199|1982|10.1093/ee/11.1.193
38492|T||Reiter,L., G. Talens, and D. Woolley|Acute and Subacute Parathion Treatment:  Effects on Cholinesterase Activities and Learning in Mice|Toxicol. Appl. Pharmacol.25:582-588|1972|10.1016/0041-008X(73)90028-8
38494|T||Renzoni,A.|The Influence of Some Toxicants on the Reproductive Activities of the Japanese Quail (Coturnix coturnix japonica)|Biol. Conserv.5(3): 181-184|1973|10.1016/0006-3207(73)90007-4
38501|T||Richardson,K.E.|The Effect of Partial Hepatectomy on the Toxicity of Ethylene Glycol, Glycolic Acid, Glyoxylic Acid and Glycine|Toxicol. Appl. Pharmacol.24:530-538|1973|10.1016/0041-008X(73)90214-7
38503|T||Richert,E.P., and K.V. Prahlad|The Effect of the Organophosphate O,O-Diethyl S-((Ethylthio)Methyl)Phosphorodithioate on the Chick|Poult. Sci.51:613-619|1972|10.3382/ps.0510613
38504|T||Richert,E.P., and K.V. Prahlad|Effects of DDT and Its Metabolites on Thyroid of the Japanese Quail, Coturnix coturnix japonica|Poult. Sci.51:196-200|1972|10.3382/ps.0510196
38505|T||Richmond,C.R.|Retention and Excretion of Radionuclides of the Alkali Metals by Five Mammalian Species|Health Phys.38:1111-1153|1980|10.1097/00004032-198006000-00019
38510|T||Rickert,D.E., J.G. Dent, S.Z. Cagen, K.M. McCormack, P. Melrose, and J.E. Gibson|Distribution of Polybrominated Biphenyls After Dietary Exposure in Pregnant and Lactating Rats and Their Offspring|Environ. Health Perspect.23:63-66|1978|10.1289/ehp.782363
38511|T||Ridlen,R.L., R.J. Christopher, G.W. Ivie, R.C. Beier, and Camp.B.J. |Distribution and Metabolism of Cis- and Trans-resmethrin in Lactating Jersey Cows|J. Agric. Food Chem.32:1211-1217|1984|10.1021/jf00126a002
38512|T||Riedl,H., and S.A. Hoying|Toxicity and Residual Activity of Fenvalerate to Typhlodromus occidentalis (Acari: Phytoseiidae) and Its Prey Tetranychus urticae (Acari: Tetranychidae) on Pear|Can. Entomol.115:807-813|1983|10.4039/Ent115807-7
38513|T||Rifkind,A.B., A.,Jr. Firpo, and D.R. Alonso|Coordinate Induction of Cytochrome P-448 Mediated Mixed Function Oxidases and Histopathologic Changes Produced Acutely in Chick Embryo Liver by Polychlorinated Biphenyl Cogeners|Toxicol. Appl. Pharmacol.72:343-354|1984|10.1016/0041-008X(84)90319-3
38514|T||Rifkind,A.B., and H. Muschick|Benoxaprofen Suppression of Polychlorinated Biphenyl Toxicity Without Alteration of Mixed Function Oxidase Function|Nature303:524-525|1983|10.1038/303524a0
38515|T||Righter,H.F., N.H. Booth, and R.H. Teske|Acute Effects of Aroclor 1254 on the Feline Cardiovascular System|Environ. Res.11:353-358|1976|10.1016/0013-9351(76)90097-9
38516|T||Ringer,R.K.|PBB fed to Immature Chickens: Its Effect on Organ Weights and Function and on the Cardiovascular System|Environ. Health Perspect.23:247-255|1978|10.1289/ehp.7823247
38518|T||Ringer,R.K., and D. Polin|The Biological Effects of Polybrominated Biphenyls in Avian Species|Fed. Proc.36:1894-1898|1977|
38519|T||Rinsky,A., and A.S. Perry|Induction of the Mixed-Function Oxidase System in the Liver of the Barn Owl Tyto alba by PCBs|Pestic. Biochem. Physiol.16:72-78|1981|10.1016/0048-3575(81)90073-0
38520|T||Rinzky,A., and A.S. Perry|Postnatal Development of the Mixed Function Oxidase System in Nestling Barn Owls and Baby Chicks and Induction of this System in the Mature Forms by Aroclor 1254|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 51-55|1983|10.1016/0742-8413(83)90011-7
38521|T||Risebrough,R.W., G.L. Florant, and D.D. Berger|Organochlorine Pollutants in Peregrines and Merlins Migrating Through Wisconsin|Can. Field Nat.84:247-253|1970|10.5962/p.342968
38524|T||Riviere,J.L., P. Leroux, J. Bach, and M. Gredt|Effect of Some Ergosterol Biosynthesis Inhibiting Fungicides on Sterols and Cytochrome P-450 from the Japanese Quail Coturnix coturnix|Pestic. Sci.15:317-323|1984|10.1002/ps.2780150315
38525|T||Riviere,J.L.|Prochloraz, A Potent Inducer of the Microsomal Cytochrome P-450 System|Pestic. Biochem. Physiol.19:44-52|1983|10.1016/0048-3575(83)90040-8
38526|T||Riviere,J.L., J. Bach, and G. Grolleau|Effect of Pyrethroid Insecticides and N-(3,5-Dichlorophenyl)Dicarboximide Fungicides on Microsomal Drug-Metabolizing Enzymes in the Japanese Quail (Coturnix coturnix)|Bull. Environ. Contam. Toxicol.31:479-485|1983|10.1007/BF01622281
38527|T||Roan,C.C., J.A. Laubscher, and D.P. Morgan|DDT in Tissues of Man Animals and Soils of Arizona|Prog. Agro. Ariz.21(6): 16-17|1969|
38528|T||Robbins,J.D.B., and V.J. Feil|Metabolism of Benzo[B]Thien-4-Yl Methylcarbamate (Moban) in Dairy Goats and a Lactating Cow|J. Agric. Food Chem.18(1): 130-134|1970|10.1021/jf60167a040
38529|T||Robel,R.J., R.W. Felthousen, and A.D. Dayton|Effects of Dietary Carbofuran on Bobwhite Activity Patterns|Bull. Environ. Contam. Toxicol.30:105-109|1983|10.1007/BF01610106
38530|T||Robel,R.J., C.A. Howard, M.S. Udevitz, and B. Curnutte|Lead Contamination in Vegetation, Cattle Dung, and Dung Beetles Near An Interstate Highway, Kansas|Environ. Entomol.10(2): 262-263|1981|10.1093/ee/10.2.262
38531|T||Robel,R.J., and W.E. Klopfenstein|Major Fatty Acids of Wild Bobwhites During Fall and Winter|Southwest. Nat.30(1): 33-39|1985|10.2307/3670654
38538|T||Robertson,L.W., J.L. Andres, S.H. Safe, and S.L. Lovering|Toxicity of 3,3',4,4'- and 2,2',5,5'-Tetrabromobiphenyl: Correlation of Activity with Aryl Hydrocarbon Hydroxylase Induction and Lack of Protection by Antioxidants|J. Toxicol. Environ. Health11:81-91|1983|10.1080/15287398309530322
38539|T||Robertson,L.W., K. Thompson, and A. Parkinson|Synthesis, Characterization and Biologic Effects of Polybrominated Naphthalenes|Arch. Toxicol.55:127-131|1984|10.1007/BF00346051
38540|T||Robinson,C.P., P.W. Smith, and B.R. Endecott|Depression of Cholinesterase Activity by Ethylestrenol in Organophosphorus-Poisoned and Normal Rats|Toxicol. Appl. Pharmacol.44:207-211|1978|10.1016/0041-008X(78)90299-5
38541|T||Robinson,G.A., and K.H. Tam|Distribution of 99Mtc and 131I Amoung Tissues of the Japanese Quail|Poult. Sci.53:2209-2214|1974|10.3382/ps.0532209
38543|T||Robinson,G.A., and A.M. Verrinder Gibbins|Induction of Vitellogenesis in Japanese Quail as a Sensitive Indicator of the Estrogen-Mimetic Effect of a Variety of Environmental Contaminants|Poult. Sci.63:1529-1536|1984|10.3382/ps.0631529
38544|T||Robinson,G.A., D.C. Wasnidge, F. Floto, and A.M. Gibbins|153Gadolinium as a Useful Radiolanthanide for Long-Term Labeling of Tissues in Japanese Quail|Poult. Sci.60:861-866|1981|10.3382/ps.0600861
38545|T||Robinson,G.A., D.C. Wasnidge, F. Floto, and G.A. Templeton|Distribution of 153Gd in F1 Quail|Poult. Sci.60:563-568|1981|10.3382/ps.0600563
38546|T||Robinson,G.R., D.J. Wagstaff, J.J. Colaianne, and A.G. Ulsamer|Experimental Hexachlorophene intoxication in Young Swine|Am. J. Vet. Res.36(11): 1615-1618|1975|
38548|T||Robinson,K.M., and M.R. Wells|Retention of a Single Oral Dose of Cadmium in Tissues of the Softshell Turtle, Trionyx spinifer|Bull. Environ. Contam. Toxicol.14(6): 750-752|1975|10.1007/BF01685253
38549|T||Robinson,M.H., and S.H. Wheeler|A Radiotracking Study of Four Poisoning Techniques for Control of the European Rabbit, Oryctolagus cuniculus (L.)|Aust. Wildl. Res.10:513-520|1983|10.1071/WR9830513
38550|T||Robinson,P.T., and A.G. Richter|A Preliminary Report on the Toxicity and Efficacy of Levamisole Phosphate in Zoo Birds|J. Zoo Anim. Med.8(1): 23-26|1977|10.2307/20460132
38552|T||Robison,W.H.|Acute Toxicity of Sodium Monofluoroacetate to Cattle|J. Wildl. Manag.34(3): 647-648|1970|10.2307/3798878
38554|T||Robson,W.A., G.H. Arscott, and I.J. Tinsley|Effect of DDE, DDT and Calcium on the Performance of Adult Japanese Quail (Coturnix coturnix japonica)|Poult. Sci.55:2222-2227|1976|10.3382/ps.0552222
38556|T||Rocke,T.E., T.M. Yuill, and R.D. Hinsdill|Oil and Related Toxicant Effects on Mallard Immune Defenses|Environ. Res.33:343-352|1984|10.1016/0013-9351(84)90032-X
38557|T||Rodgers,J.B., E.C. Kyriakides, and W.J. Bochenek|Effect of Surfactant Poloxalene 2930 on Food Intake, Lipid Absorption, and Serum Cholesterol in Rats|Exp. Mol. Pathol.40:214-222|1984|10.1016/0014-4800(84)90078-9
38558|T||Roe,R.T.|Whole Blood Cholinesterase and Serum Enzyme Levels in Cattle as Indicators of Exposure to Organo-Phosphorus Compounds|Aust. Vet. J.45(9): 411-413|1969|10.1111/j.1751-0813.1969.tb15113.x
38560|T||Roebuck,B.D., and S.J. Carpenter|Teratogenic Effects of Azaserine in the Syrian Golden Hamster|Experientia39:324-326|1983|10.1007/BF01955329
38562|T||Rogers,J.G.|Some Characteristics of Conditioned Aversion in Red-Winged Blackbirds|Auk95:362-369|1978|
38563|T||Rogers,J.M., L. Morelli, and C.T. Grabowski|Plasma Glucose and Protein Concentrations in Rat Fetuses and Neonates Exposed to Cataractogenic Doses of Mirex|Environ. Res.34:155-161|1984|10.1016/0013-9351(84)90084-7
38564|T||Romanow,L.R., and J.T. Ambrose|Effects of Solid Rocket Fuel Exhaust on Honey Bee Colonies|Environ. Entomol.10:812-816|1981|10.1093/ee/10.5.812
38565|T||Rooke,I.J.|Methiocarb-Induced Aversion to Grapes by Gray-Backed White-Eyes|J. Wildl. Manag.48(2): 444-449|1984|10.2307/3801176
38566|T||Root,R.B., and J.A. Gowan|The Influence of Insecticides with Differing Specificity on the Structure of the Fauna Associated with Potatoes|Am. Midl. Nat.99(2): 299-314|1978|10.2307/2424808
38567|T||Roscoe,D.E., and S.W. Nielsen|Lead Poisoning in Mallard Ducks (Anas Platyrhynchos)|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:165-176|1979|
38568|T||Roscoe,D.E., S.W. Nielsen, A.A. Lamola, and D. Zuckerman|A Simple, Quantitative Test for Erythrocytic Protoporphyrin in Lead-Poisoned Ducks|J. Wildl. Dis.15:127-136|1979|10.7589/0090-3558-15.1.127
38571|T||Rose,J.A., and G. Voss|Anticholinesterase Activity and Enzymatic Degradation of Phosphamidon and Gamma-Chlorophosphamidon A Comparative Study|Bull. Environ. Contam. Toxicol.6(3): 205-208|1971|10.1007/BF01539928
38572|T||Rose,M.S., H.C. Crabtree, K. Fletcher, and I. Wyatt|Biochemical Effects of Diquat and Paraquat. Disturbance of the Control of Corticosteroid Synthesis in Rat Adrenal and Subsequent Effects on the Control of Liver Glycogen Utilization|Biochem. J. (Lond.)138:437-443|1974|10.1042/bj1380437
38573|T||Rosebrough,R.W., and N.C. Steele|Effect of 1,3-Butylene Glycol on Growth and in Vivo and in Vitro Lipogenesis by Turkey Poults|Poult. Sci.60:1448-1453|1981|10.3382/ps.0601448
38574|T||Rosebrough,R.W., and N.C. Steele|Effect of Supplemental Dietary Chromium or Nicotinic Acid on Carbohydrate Metabolism During Basal, Starvation, and Refeeding Periods in Poults|Poult. Sci.60:407-417|1981|10.3382/ps.0600407
38575|T||Rosenthal,E., and S.B. Sparber|Methylmercury Dicyandiamide:  Retardation of Detour Learning in Chicks Hatched from Injected Eggs|Life Sci.11(Pt. 1): 883-892|1972|10.1016/0024-3205(72)90105-1
38577|T||Rosewell,K.T., D.C.G. Muir, and B.E. Baker|Organochlorine Residues in Harp Seal (Phagophilus groenlandicus) Tissues, Gulf of St. Lawrence, 1971, 1973|Pestic. Monit. J.12(4): 189-192|1979|
38578|T||Rosin,D.L., and B.R. Martin|Comparison of the Effects of Acute and Subchronic Administration of Aroclor 1254, a Commercial Mixture of Polychlorinated Biphenyls, on Pentobarbital-Induced Sleep Time and [14C]Pentobarbital Disposition in Mice|J. Toxicol. Environ. Health11:917-931|1983|10.1080/15287398309530395
38581|T||Rothstein,S.I.|Eggshell Thickness and Its Variation in the Cedar Waxwing|Wilson Bull.84(4): 469-474|1972|
38582|T||Roush,C.F., and R.D. Akre|Impact of Chemicals for Control of the Douglas-Fir Tussock Moth upon Populations of Ants and Yellowjackets (Hymenoptera:Formicidae, Vespidae)|Melanderia30:95-110|1978|
38583|T||Rowe,L.D., J.W. Dollahite, and B.J. Camp|Toxicity of Two Crude Oils and of Kerosine to Cattle|J. Am. Vet. Med. Assoc.162(1): 61-66|1973|
38587|T||Rozman,K., T. Rozman, and H. Greim|Effect of Thyroidectomy and Thyroxine on 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induced Toxicity|Toxicol. Appl. Pharmacol.72:372-376|1984|10.1016/0041-008X(84)90322-3
38588|T||Rudd,R.L., R.B. Craig, and W.S. Williams|Trophic Accumulation of DDT in a Terrestrial Food Web|Environ. Pollut. A.25(3): 219-228|1981|10.1016/0143-1471(81)90106-9
38589|T||Ruddick,J.A., P.M. Scott, and J. Harwig|Teratological Evaluation of Zearalenone Administered Orally to the Rat|Bull. Environ. Contam. Toxicol.15(6): 678-681|1976|10.1007/BF01685617
38590|T||Rudolph,S.G., and D.W. Anderson|Kestrel Predatory Behavior Under Chronic Low-Level Exposure to DDE|Environ. Pollut.32:121-136|1983|10.1016/0143-1471(83)90045-4
38591|T||Rudolph,S.G., J.G. Zinkl, D.W. Anderson, and P.J. Shea|Prey-Capturing Ability of American Kestrels fed DDE and Acephate or Acephate Alone|Arch. Environ. Contam. Toxicol.13:367-372|1984|10.1007/BF01055288
38592|T||Rumsey,T.S., J. Bitman, and H. Tao|Changes in Plasma Concentrations of Thyroxine, Triiodothyronine, Cholesterol and Total Lipid in Beef Steers Fed Ronnel|J. Anim. Sci.56(1): 125-131|1983|10.2527/jas1983.561125x
38593|T||Rumsey,T.S., and J. Bond|Effect of Aldrin, Urea and DES on the Physiology of Beef Heifers Fed a Concentrate or Roughage Diet|J. Anim. Sci.35(5): 978-985|1972|10.2527/jas1972.355978x
38595|T||Rumsey,T.S., G. Samuelson, J. Bond, and F.L. Daniels|Teratogenicity to 35-Day Fetuses, Excretion Patterns and Placental Transfer in Beef Heifers Administered 4-Tert-Butyl-2-Chlorophenyl Methyl Methyl-Phosphoramidate (Ruelene)|J. Anim. Sci.39(2): 386-391|1974|10.2527/jas1974.392386x
38596|T||Rumsey,T.S., G. Samuelson, K.P. Bovard, and B.M. Priode|Placental Transfer of DDT in Beef Cattle|J. Anim. Sci.37(5): 1186-1190|1973|10.2527/jas1973.3751186x
38597|T||Rumsey,T.S., L.L. Slyter, S.M. Shepherd, and D.L. Kern|Effect of p,p'-DDT on Rumen Ecology, EKG Patterns, and Respiratory Rate of Beef Steers|J. Agric. Food Chem.18(3): 485-489|1970|10.1021/jf60169a034
38598|T||Rumsey,T.S., E.E. Williams, and A.D. Evans|Tissue Residues, Performance and Ruminal and Blood Characteristics of Steers Fed Ronnel and Activated Carbon|J. Anim. Sci.40(4): 743-749|1975|10.2527/jas1975.404743x
38599|T||Ruppel,R.F., and C.W. Laughlin|Toxicity of Some Soil Pesticides to Earthworms|J. Kans. Entomol. Soc.50(1): 113-118|1977|
38600|T||Ruppert,P.H., K.F. Dean, and L.W. Reiter|Comparative Developmental Toxicity of Triethyltin Using Split-Litter and Whole-Litter Dosing|J. Toxicol. Environ. Health12:73-87|1983|10.1080/15287398309530408
38601|T||Rush,G.F., J.H. Smith, K. Maita, M. Bleavins, R.J. Aulerich, R.K. Ringer, and J.B. Hook|Perinatal Hexachlorobenzene Toxicity in the Mink|Environ. Res.31:116-124|1983|10.1016/0013-9351(83)90068-3
38602|T||Russell,S.H., T. Monin, and W.C. Edwards|Rodenticide Toxicosis in a Horse|J. Am. Vet. Med. Assoc.172(3): 270-271|1978|
38605|T||Ruzo,L.O., J.L. Engel, and J.E. Casida|Decamethrin Metabolites from Oxidative, Hydrolytic, and Conjugative Reactions in Mice|J. Agric. Food Chem.27(4): 725-731|1979|10.1021/jf60224a070
38606|T||Ruzo,L.O., S. Safe, and O. Hutzinger|Metabolism of Bromobenzenes in the Rabbit|J. Agric. Food Chem.24(2): 291-293|1976|10.1021/jf60204a001
38607|T||Ruzo,L.O., S. Safe, D. Jones, and N. Platonow|Uptake and Distribution of Chloronaphthalenes and Their Metabolites in Pigs|Bull. Environ. Contam. Toxicol.16(2): 233-239|1976|10.1007/BF01685233
38608|T||Ryan,D.L., and T.R. Fukuto|The Effect of Isomalathion and O,S,S-Trimethyl Phosphorodithioate on the In Vivo Metabolism of Malathion in Rats|Pestic. Biochem. Physiol.21:349-357|1984|10.1016/0048-3575(84)90103-2
38611|T||Sabbioni,E., E. Marafante, L. Amantini, L. Ubertalli, and R. Pietra|Cadmium Toxicity Studies Under Long Term-Low Level Exposure (Lle) Conditions 1. Metabolic Patterns in Rats Exposed to Present Environmental Dietary Levels of Cd for Two Years|Sci. Total Environ.10:135-161|1978|10.1016/0048-9697(78)90059-1
38616|T||Safe,S., O. Hutzinger, and D. Ecobichon|Identification of 4-Chloro-4'-Hydroxybiphenyl and 4,4'-Dichloro-3-Hydroxybiphenyl as Metabolites of 4-Chloro- and 4,4'-Dichlorobiphenyl fed to Rats|Experientia30(7): 720-721|1974|10.1007/BF01924147
38617|T||Safe,S., L.O. Ruzo, D. Jones, N.S. Platonow, and O. Hutzinger|The Metabolism of 4-Chlorobiphenyl in the Pig|Can. J. Physiol. Pharmacol.53:392-396|1975|10.1139/y75-056
38618|T||Sager,D.B.|Effect of Postnatal Exposure to Polychlorinated Biphenyls on Adult Male Reproductive Function|Environ. Res.31(1): 76-94|1983|10.1016/0013-9351(83)90063-4
38619|T||Saha,J.G., and R.H. Burrage|Residues of Lindane and Its Metabolites in Eggs,Chicks, and Body Tissues of Hen Pheasants after Ingestion of Lindane-14C via Treated Wheat Seed or Gelatin Capsules|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes11(1): 67-93|1976|
38621|T||Saito,M., C. Streffer, and M. Molls|Tritium Distribution in Newborn Mice After Providing Mother Mice with Drinking Water Containing Tritiated Thymidine|Radiat. Res.95:273-297|1983|10.2307/3576255
38622|T||Salisbury,R.M., I.G. McIntosh, and E.L.J. Staples|Mortality in Lambs and Cattle Following the Administration of Phenothiazine 2. Laboratory Investigations|N. Z. Vet. J.17:227-233|1969|10.1080/00480169.1969.33834
38625|T||Samuels,E.R., M. Cawthorn, B.H. Lauer, and B.E. Baker|Strontium-90 and Cesium-137 Levels in Tissues of Fin Whale (Balaenoptera Physalus) and Harp Seal (Pagophilus Groenlandicus)|Can. J. Zool.48:267-269|1970|10.1139/z70-043
38628|T||Sanders,C.L., C. Skinner, and R.A. Gelman|Percutaneous Absorption of [7,10-14C]Benzo(a)pyrene and [7,12-14C]Dimethylbenz(a)anthracene in Mice|Environ. Res.33:353-360|1984|10.1016/0013-9351(84)90033-1
38629|T||Sanders,O.T., R.L. Kirkpatrick, and P.F. Scanlon|Polychlorinated Biphenyls and Nutritional Restriction:  Their Effects and Interactions on Endocrine and Reproductive Characteristics of Male White Mice|Toxicol. Appl. Pharmacol.40:91-98|1977|10.1016/0041-008X(77)90120-X
38630|T||Sanders,O.T., R.L. Zepp, and R.L. Kirkpatrick|Effect of PCB Ingestion on Sleeping Times, Organ Weights, Food Consumption, Serum Corticosterone and Survival of Albino Mice|Bull. Environ. Contam. Toxicol.12(4): 394-399|1974|10.1007/BF01684972
38631|T||Sanders,V.M., B.M. Kauffmann, K.L.,Jr. White, K.A. Douglas, D.W. Barnes, L.E. Sain, T.J. Bradshaw, J.F. Borzellica, and|Toxicology of Chloral Hydrate in the Mouse|Environ. Health Perspect.44:137-146|1982|10.1289/ehp.8244137
38632|T||Sanderson,C.A., and L.J. Rogers|2,4,5-Trichlorophenoxyacetic Acid Causes Behavioral Effects in Chickens at Environmentally Relevant Doses|Science211:593-595|1981|10.1126/science.7455699
38633|T||Sandler,B.E., G.A. Van Gelder, W.B. Buck, and G.G. Karas|Effect of Dieldrin Exposure on Detour Behavior in Sheep|Psychol. Rep.23:451-455|1968|10.2466/pr0.1968.23.2.451
38634|T||Sanotskii,I.V.|Aspects of the Toxicology of Chloroprene:  Immediate and Long-Term Effects|Environ. Health Perspect.17:85-93|1976|10.1289/ehp.761785
38635|T||Santolucito,J.A., and E. Whitcomb|Mechanical Response of Skeletal Muscle Following Oral Administration of Pesticides|Toxicol. Appl. Pharmacol.20:66-72|1971|10.1016/0041-008X(71)90089-5
38639|T||Saschenbrecker,P.W., H.S. Funnell, and N.S. Platonow|Persistence of Polychlorinated Biphenyls in the Milk of Exposed Cows|Vet. Rec.90(4): 100-102|1972|10.1136/vr.90.4.100-a
38640|T||Sato,N., M. Ota, Y. Murata, and K. Obara|The Effect of Pesticides on Hydroxylation of Testosterone In Hepatic Microsomes of Rabbits|Experientia31(10): 1193-1194|1975|10.1007/BF02326788
38641|T||Satoh,T., and K. Moroi|Comparative Studies on the Inhibition of Liver Amidases, Aminopeptidase and Serum Cholinesterases by EPN|Toxicol. Appl. Pharmacol.25:553-559|1973|10.1016/0041-008X(73)90024-0
38642|T||Sauter,E.A., and E.E. Steele|The Effect of Low Level Pesticide Feeding on the Fertility and Hatchability of Chicken Eggs|Poult. Sci.51:71-76|1972|10.3382/ps.0510071
38647|T||Scanlon,P.F.|Lead Contamination of Mammals and Invertebrates Near Highways with Different Traffic Volumes|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:200-208|1979|
38648|T||Scanlon,P.F., R.J. Kendall, R.L. Lochmiller II, and R.L. Kirkpatrick|Lead Concentrations in Pine Voles from Two Virginia Orchards|Environ. Pollut.6:157-160|1983|
38650|T||Scanlon,P.F., T.G. O'Brien, N.L. Schauer, and R.G. Oderwald|Lead Levels in Primary Feathers of American Woodcocks Harvested by Hunters Throughout the United States Range|Bull. Environ. Contam. Toxicol.21:683-688|1979|10.1007/BF01685489
38653|T||Schafer,J.R., M.L. Eschen, and A.B. DeMilo|Repellency and Toxicity of 2-Acetylpyridinethio-Semicarbazones and Related Chemicals to Wild Birds|J. Environ. Sci. Health Part A Environ. Sci. Eng.21(3): 281-288|1986|10.1080/10934528609375291
38654|T||Schafer,E.W.,Jr., R.B. Brunton, and N.F. Lockyer|Hazards to Animals Feeding on Blackbirds Killed with 4-Aminopyridine Baits|J. Wildl. Manag.38(3): 424-426|1974|10.2307/3800872
38655|T||Schafer,E.W.|The Acute Oral Toxicity of 369 Pesticidal, Pharmaceutical and Other Chemicals to Wild Birds|Toxicol. Appl. Pharmacol.21:315-330|1972|10.1016/0041-008X(72)90151-2
38656|T||Schafer,E.W.,Jr., W.A.,Jr. Bowles, and J. Hurlbut|The Acute Oral Toxicity, Repellency, and Hazard Potential of 998 Chemicals to One or More Species of Wild and Domestic Birds|Arch. Environ. Contam. Toxicol.12(3): 355-382|1983|10.1007/BF01059413
38657|T||Schafer,E.W.,Jr., and R.B. Brunton|Chemicals as Bird Repellents: Two Promising Agents|J. Wildl. Manag.35(3): 569-572|1971|10.2307/3799717
38658|T||Schafer,E.W., and R.B. Brunton|Indicator Bird Species for Toxicity Determinations, Is the Technique Usable in Test Method Development?|ASTM Spec. Tech. Publ.:157-168|1979|
38659|T||Schafer,E.W.,Jr., R.B. Brunton, and D.J. Cunningham|A Summary of the Acute Toxicity of 4-Aminopyridine to Birds and Mammals|Toxicol. Appl. Pharmacol.26:532-538|1973|10.1016/0041-008X(73)90291-3
38660|T||Schafer,E.W.,Jr., R.B. Brunton, N.F. Lockyer, and D.J. Cunningham|The Chronic Toxicity of Methiocarb to Grackles, Doves, and Quail and Reproductive Effects in Quail|Bull. Environ. Contam. Toxicol.14(6): 641-647|1975|10.1007/BF01685236
38661|T||Schafer,E.W., R.B. Brunton, and N.F. Lockyer|The Effects of Subacute and Chronic Exposure to 4-Aminopyridine on Reproduction in Coturnix Quail|Bull. Environ. Contam. Toxicol.13(6): 758-764|1975|10.1007/BF01721949
38662|T||Schafer,E.W.,Jr., R.B. Brunton, and N.F. Lockyer|Evaluation of 45 Chemicals as Chemosterilants in Adult Male Quail (Coturnix coturnix)|J. Reprod. Fertil.48:371-375|1976|10.1530/jrf.0.0480371
38663|T||Schafer,E.W.,Jr., R.B. Brunton, N.F. Lockyer, and J.W. De Grazio|Comparative Toxicity of Seventeen Pesticides to the Quelea, House Sparrow, and Red-Winged Blackbird|Toxicol. Appl. Pharmacol.26:154-157|1973|10.1016/0041-008X(73)90096-3
38664|T||Schafer,E.W.,Jr., R.B. Brunton, E.C. Schafer, and G. Chavez|Effects of 77 Chemicals on Reproduction in Male and Female Coturnix Quail|Ecotoxicol. Environ. Saf.6(2): 149-156|1982|10.1016/0147-6513(82)90002-1
38665|T||Schafer,E.W.,Jr., and M. Jacobson|Repellency and Toxicity of 55 Insect Repellents to Red-Winged Blackbirds (Agelaius phoeniceus)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control18(4): 493-502|1983|
38667|T||Schanbacher,F.L., L.B. Willet, P.D. Moorhead, and H.D. Mercer|Effects of PBBs on Cattle. III. Target Organ Modification as Shown by Renal Function and Liver Biochemistry|Environ. Health Perspect.23:119-127|1978|10.1289/ehp.7823119
38668|T||Scharpf,L.G.J., F.J. Ramos, and I.D. Hill|Influence of Nitrilotriacetate (NTA) on the Toxicity, Excretion and Distribution of Cadmium in Female Rats|Toxicol. Appl. Pharmacol.22:186-192|1972|10.1016/0041-008X(72)90167-6
38669|T||Schein,L.G., and J.A. Thomas|Dieldrin and Parathion Interaction in the Prostate and Liver of the Mouse|J. Toxicol. Environ. Health1:829-838|1976|10.1080/15287397609529382
38670|T||Scheuhammer,A.M., and M.G. Cherian|Influence of Chronic MnCl2 and EDTA Treatment on Tissue Levels and Urinary Excretion of Trace Metals in Rats|Arch. Environ. Contam. Toxicol.11:515-520|1982|10.1007/BF01056081
38674|T||Schlink,A.C., and W.V. Macfarlane|Chemical Shearing: Effects in Field Trials of Repeated Doses of Cyclophosphamide on Pregnancy, Wool Growth and Cpa Toler Ance|Proc. Aust. Soc. Anim. Prod.12:272-|1978|
38675|T||Schlinke,J.C.|Toxicologic Effects of Five Soil Nematocides in Cattle and Sheep|J. Am. Vet. Med. Assoc.155(8): 1364-1366|1969|
38676|T||Schlinke,J.C.|Chronic Toxicity of Dursban in Chickens, 1969|J. Econ. Entomol.63(1): 319-|1970|10.1093/jee/63.1.319
38677|T||Schlinke,J.C., and J.S. Palmer|Preliminary Toxicologic Study of Three Organophosphate Insecticidal Compounds in Turkeys|Am. J. Vet. Res.32(3): 495-498|1971|
38678|T||Schlinke,J.C., and J.S. Palmer|Toxicity of Two Organophosphorus Insecticides in Stressed Cattle|J. Econ. Entomol.65(1): 64-66|1972|10.1093/jee/65.1.64
38679|T||Schlinke,J.C., and J.S. Palmer|Combined Effects of Phenothiazine and Organophosphate Insecticides in Cattle|J. Am. Vet. Med. Assoc.163(1): 756-758|1973|
38681|T||Schmoldt,A., H.F. Benthe, and R. Fruhling|Induction of Rat Liver Enzymes by Polychlorinated Biphenyls (PCBs) in Dependence on the Dose and Chlorine Content|Arch. Toxicol.32:69-81|1974|10.1007/BF00316228
38683|T||Schom,C.B., U.K. Abbott, and N.E. Walker|Adult and Embryo Responses to Organophosphate Pesticide: Azodrin|Poult. Sci.58:60-66|1979|10.3382/ps.0580060
38685|T||Schrankel,K.R., B.L. Kreamer, and M.T.S. Hsia|Embroytoxicity of 3,3',4,4'-Tetrachloroazobenzene and 3,3',4,4'-Tetrachloroazoxybenzene in the Chick Embryo|Arch. Environ. Contam. Toxicol.11:195-202|1982|10.1007/BF01054896
38686|T||Schreiber,R.W.|Shell Thickness in Brown Pelican Eggs from Tampa Bay, Florida|Fla. Field Nat.5:31-34|1977|
38687|T||Schricker,B.|The Effect of Sublethal Doses of Parathion on the Time-Sensein Honey Bees; in German|Apidologie5(4): 385-398|1974|10.1051/apido:19740404
38690|T||Schroeder,H.A., and M. Mitchener|Life-Term Effects of Mercury, Methyl Mercury, and Nine other Trace Metals on Mice|J. Nutr.105(4): 452-458|1975|10.1093/jn/105.4.452
38691|T||Schroeder,T., D.D. Avery, and H.A. Cross|The LD50 Value of Tertraethyl Lead|Experientia28:425-426|1972|10.1007/BF02008318
38694|T||Schumann,A.M., and J.F. Borzelleca|An Assessment of the Methemoglobin and Heinz Body-Inducing Capacity of Pentachloronitrobenzene in the Cat|Toxicol. Appl. Pharmacol.44:523-529|1978|10.1016/0041-008X(78)90260-0
38695|T||Schwab,B.W., L.G. Costa, and S.D. Murphy|Muscarinic Receptor Alterations as a Mechanism of Anticholinesterase Tolerance|Toxicol. Appl. Pharmacol.71:14-23|1983|10.1016/0041-008X(83)90041-8
38696|T||Schwartz,R.W., and N.K. Allen|Effect of Aging on the Protein Requirement of Mature Female Japanese Quail for Egg Production|Poult. Sci.60:342-348|1981|10.3382/ps.0600342
38697|T||Schwetz,B.A., H.D. Ioset, B.K.J. Leong, and R.E. Staples|Teratogenic Potential of Dichlorvos Given by Inhalation and Gavage to Mice and Rabbits|Teratology20:383-388|1979|10.1002/tera.1420200309
38698|T||Schwetz,B.A., P.A. Keeler, and P.J. Gehring|The Effect of Purified and Commercial Grade Tetrachlorophenol on Rat Embryonal and Fetal Development|Toxicol. Appl. Pharmacol.28:146-150|1974|10.1016/0041-008X(74)90140-9
38699|T||Schwetz,B.A., P.A. Keeler, and P.J. Gehring|The Effect of Purified and Commercial Grade Pentachlorophenol on Rat Embryonal and Fetal Development|Toxicol. Appl. Pharmacol.28:151-161|1974|10.1016/0041-008X(74)90141-0
38700|T||Schwetz,B.A., J.M. Norris, G.L. Sparschu, V.K. Rowe, P.J. Gehring, J.L. Emerson, and C.G. Gerbig|Toxicology of Chlorinated Dibenzo-p-Dioxins|Environ. Health Perspect.5:87-99|1973|10.1289/ehp.730587
38702|T||Scott,J.T., T.M. Ferguson, J.W. Bradley, and C.R. Creger|The Effect of Low Levels of Lithium Chloride in the Diet of the Laying Hen|Poult. Sci.52:2336-2337|1973|10.3382/ps.0522336
38703|T||Seabloom,R.W., G.L. Pearson, L.W. Oring, and J.R. Reilly|An Incident of Fenthion Mosquito Control and Subsequent Avian Mortality|J. Wildl. Manag.9:18-20|1973|
38704|T||Seawright,A.A., L.J. Filippich, and D.P. Steele|The Effect of Carbon Disulphide Used in Combination with Carbon Tetrachloride on the Toxicity of the Latter Drug for Sheep|Res. Vet. Sci.15:158-166|1973|10.1016/S0034-5288(18)33824-4
38705|T||Seidensticker,J.C.|A Biopsy Technique to Obtain Tissue for Pesticide Residue Analysis from Falconiform Birds|Bull. Environ. Contam. Toxicol.5(5): 443-446|1970|10.1007/BF01559056
38706|T||Seidensticker,J.C., and H.V. Reynolds|The Nesting. Reproductive Performance, and Chlorinated Hydrocarbon Residues in the Red-Tailed Hawk and Great Horned Owl in South-Central Montana|Wilson Bull.83(4): 408-418|1971|
38708|T||Seifert,J., and J.E. Casida|Relation of Yolk Sac Membrane Kynurenine Formamidase Inhibition to Certain Teratogenic Effects of Organophosphorus Insecticides and of Carbaryl and Eserine in Chicken Embryos|Biochem. Pharmacol.27:2611-2615|1978|10.1016/0006-2952(78)90335-0
38711|T||Seinen,W., J.G. Vos, I. Van Spanje, M. Snoek, R. Brands, and H. Hooykaas|Toxicity of Organotin Compounds. II. Comparative In Vivo and In Vitro Studies with Various Organotin and Organolead Compounds in Different Animal Species with Special Emphasis on Lymphocyte Cytotoxicity|Toxicol. Appl. Pharmacol.42:197-212|1977|10.1016/0041-008X(77)90210-1
38712|T||Selgrade,M.K., M.J. Daniels, J.W. Illing, A.L. Ralston, M.A. Grady, E. Charlet, and J.A. Graham|Increased Susceptibility to Parathion Poisoning Following Murine Cytomegalovirus Infection|Toxicol. Appl. Pharmacol.76:356-364|1984|10.1016/0041-008X(84)90017-6
38714|T||Sell,J.L.|Cadmium and the Laying Hen:  Apparent Absorption, Tissue Distribution and Virtual Absence of Transfer into Eggs|Poult. Sci.54:1674-1678|1975|10.3382/ps.0541674
38715|T||Sell,J.L., J.A. Arthur, and I.L. Williams|Adverse Effect of Dietary Vanadium, Contributed by Dicalcium Phosphate, on Albumen Quality|Poult. Sci.61:2112-2116|1982|10.3382/ps.0612112
38716|T||Sell,J.L., K.L. Davison, and R.L. Puyear|Aniline Hydroxylase, N-Demethylase, and Cytochrome P450 in Liver Microsomes of Hens Fed DDT and Dieldrin|J. Agric. Food Chem.19(1): 58-60|1971|10.1021/jf60173a048
38720|T||Serio,R., R.A. Long, J.E. Taylor, R.L. Tolman, R.M. Weppelman, and G. Olson|The Antifertility and Antiadrenergic Actions of Thiocarbamate Fungicides in Laying Hens|Toxicol. Appl. Pharmacol.72(2): 333-342|1984|10.1016/0041-008X(84)90318-1
38723|T||Sethi,S., W. Hilscher, and R. Flasbeck|Tissue Response to a Single Intraperitoneal Injection of Various Substances in Rats|Zentbl. Bakteriol. Abt 1 Orig. B Hyg. Krankenhhyg. Betrhyg. Praev. Med.157:131-144|1973|
38728|T||Shah,P.S., L. Clark, and J.R. Mason|Predicition of Avian Repellency from Chemical Structure: The Aversiveness of Vanillin, Vanillyl Alcohol, and Veratryl Alcohol|Pestic. Biochem. Physiol.40:169-175|1991|10.1016/0048-3575(91)90112-Y
38730|T||Shanks,V.|Fenchlorphos Residues in the Milk of Cows and in the Tissues of Sheep After 'Pour-on' Treatment|N. Z. J. Exp. Agric.3:37-41|1975|10.1080/03015521.1975.10425771
38731|T||Sharma,R.P., J.L. Shupe, and J.R. Potter|Tissue Cholinesterase Inhibition by 2-Carbomethoxy-1-Methylvinyl Dimethyl Phosphate (Mevinphos)|Toxicol. Appl. Pharmacol.24:645-652|1973|10.1016/0041-008X(73)90226-3
38733|T||Sharp,C.W., A. Ottolenghi, and H.S. Posner|Correlation of Paraquat Toxicity with Tissue Concentrations and Weight Loss of the Rat|Toxicol. Appl. Pharmacol.22:241-251|1972|10.1016/0041-008X(72)90174-3
38736|T||Shefte,N., R.L. Bruggers, and E.W.,Jr. Schafer|Repellency and Toxicity of Three Bird Control Chemicals to Four Species of African Grain-Eating Birds|J. Wildl. Manag.46(2): 453-457|1982|10.2307/3808656
38737|T||Shellenberger,T.E., G.W. Newell, R.F. Adams, and J. Barbaccia|Cholinesterase Inhibition and Toxicologic Evaluation of Two Organophosphate Pesticides in Japanese Quail|Toxicol. Appl. Pharmacol.8:22-28|1966|10.1016/0041-008X(66)90096-2
38738|T||Shelton,M.|Chemical Shearing of Sheep and Angora Goats|Texas Agric. Exp. Stn. Prog. Rep.:|1970|
38739|T||Shelton,M.|Influence of Cyclophosphamide (CPA) on Reproduction in Sheep|Texas Agric. Exp. Stn. Prog. Rep.:|1972|
38740|T||Shen,P.F., and L.T. Patterson|A Simplified Wright'S Stain Technique for Routine Avian Blood Smear Staining|Poult. Sci.62:923-924|1983|10.3382/ps.0620923
38741|T||Shen,S.Y., D.C. Villeneuve, I. Chu, J. Kelly, and A.P. Gilman|Acute Dermal Toxicity of Tetrachlorophenols in the Rat|Bull. Environ. Contam. Toxicol.31:680-685|1983|10.1007/BF01606045
38743|T||Sherman,H., R. Culik, and R.A. Jackson|Reproduction, Teratogenic, and Mutagenic Studies with Benomyl|Toxicol. Appl. Pharmacol.32:305-315|1975|10.1016/0041-008X(75)90221-5
38744|T||Sherman,M., J. Beck, and R.B. Herrick|Chronic Toxicity and Residues from Feeding Nemacide [O-(2,4-Dichlorophenyl) O,O-Diethyl Phosphorothioate] to Laying Hens|J. Agric. Food Chem.20(3): 617-624|1972|10.1021/jf60181a045
38745|T||Sherman,M., M.T.Y. Chang, and R.B. Herrick|Fly Control, Chronic Toxicity, and Residues from Feeding Propyl Thiopyrophosphate to Laying Hens|J. Econ. Entomol.62(6): 1494-1499|1969|10.1093/jee/62.6.1494
38746|T||Sherman,M., and R.B. Herrick|Fly Control and Chronic Toxicity from Feeding Dursban (O,O-Diethyl O-3,5,6-Trichloro-2-Pyridyl Phosphorothioate) to Laying Hens|Poult. Sci.52:741-747|1973|10.3382/ps.0520741
38747|T||Sherman,M., and R.B. Herrick|Chronic Toxicity and Fly Control from Feeding S 4087 (O,p-Cyanophenyl O-Ethyl Phenylphosponothioate) to Laying Hens|Poult. Sci.51:1064-1066|1972|10.3382/ps.0511064
38748|T||Sherman,M., and R.B. Herrick|Acute Toxicity of Five Insect Chemosterilants, Hemel, Hempa,Tepa, Metepa, and Methotrexate, for Cockerels|Toxicol. Appl. Pharmacol.16:100-107|1970|10.1016/0041-008X(70)90166-3
38749|T||Sherman,M., and R.B. Herrick|Fly Control and Chronic Toxicity from Feeding Two Chlorinated Organophosphorus Insecticides to Laying Hens|J. Econ. Entomol.66(1): 139-145|1973|10.1093/jee/66.1.139
38750|T||Sherman,M., R.B. Herrick, E. Ross, and M.T.Y. Chang|Further Studies on the Acute and Subacute Toxicity of Insecticides to Chicks|Toxicol. Appl. Pharmacol.11:49-67|1967|10.1016/0041-008X(67)90026-9
38751|T||Sherman,M., E. Ross, and M.T.Y. Chang|Acute and Subacute Toxicity of Several Organophosphorus Insecticides to Chicks|Toxicol. Appl. Pharmacol.6:147-153|1964|10.1016/0041-008X(64)90099-7
38753|T||Sherman,M., G.H. Takei, R.B. Herrick, and E. Ross|Chronic Toxicity to Laying Hens and Degradation of Bayer 18779|Poult. Sci.47(2): 648-654|1968|10.3382/ps.0470648
38754|T||Shih,T., and I. Havin|Chronic Lead Exposure in Immature Animals: Neurochemical Correlates|Life Sci.23(9): 877-888|1978|10.1016/0024-3205(78)90212-6
38757|T||Shires,S.W., A. Murray, P. Debray, and J. Le Blanc|The Effects of a New Pyrethroid Insecticide WL-85871 on Foraging Honey Bees (Apis mellifera L.)|Pestic. Sci.15:491-499|1984|10.1002/ps.2780150511
38758|T||Shivanandappa,T., and M.K. Krishnakumari|Hexachlorocyclohexane-Induced Testicular Dysfunction in Rats|Acta Pharmacol. Toxicol.52:12-17|1983|10.1111/j.1600-0773.1983.tb01069.x
38759|T||Shivanandappa,T., M.K. Krishnakumari, and S.K. Majumder|Testicular Atrophy in Gallus domesticus Fed Acute Doses of Copper Fungicides|Poult. Sci.62:405-408|1983|10.3382/ps.0620405
38760|T||Shivanandappa,T., H.P. Ramesh, and M.K. Krishnakumari|Rodenticidal Poisoning of Non-Target Animals: Acute Oral Toxicity of Zinc Phosphide to Poultry|Bull. Environ. Contam. Toxicol.23:452-455|1979|10.1007/BF01769986
38761|T||Shiverick,K.T., and T.F. Muther|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Effects on Hepatic Microsomal Steroid Metabolism and Serum Estradiol of Pregnant Rats|Biochem. Pharmacol.32(6): 991-995|1983|10.1016/0006-2952(83)90616-0
38762|T||Shlosberg,A., and M.N. Egyed|Mass Poisoning in Cattle, Palm Doves and Mink Caused by the Coccidiostat Dibutyltin Dilaurate|Vet. Hum. Toxicol.21(1): 1-3|1979|
38763|T||Shlosberg,A., M.N. Egyed, A. Eilat, M. Malkinson, and E. Preissler|Efficacy of Pralidoxime Iodide and Obidoxime Dichloride as Antidotes in Diazinon-Poisoned Goslings|Avian Dis.20(1): 162-166|1976|10.2307/1589485
38764|T||Shlosberg,A., M.N. Egyed, H. Mendelssohn, and Y. Langer|Fluoroacetamide (1081) Poisoning in Wild Birds|J. Wildl. Dis.11:534-536|1975|10.7589/0090-3558-11.4.534
38765|T||Shull,L.R., M.R. Bleavins, B.A. Olson, and R.J. Aulerich|Polychlorinated Biphenyls (Aroclors 1016 and 1242):  Effect on Hepatic Microsomal Mixed Function Oxidases in Mink and Ferrets|Arch. Environ. Contam. Toxicol.11:313-321|1982|10.1007/BF01055208
38766|T||Shull,L.R., and P.R. Cheeke|Effects of Synthetic and Natural Toxicants on Livestock|J. Anim. Sci.57:330-354|1983|
38767|T||Shupe,J.L., and A.E. Olson|Clinical Aspects of Fluorosis in Horses|J. Am. Vet. Med. Assoc.158(12): 167-174|1971|
38768|T||Shupe,J.L., A.E. Olson, and R.P. Sharma|Fluoride Toxicity in Domestic and Wild Animals|Clin. Toxicol.5(2): 195-213|1972|10.3109/15563657208990999
38770|T||Shupe,J.L., H.B. Peterson, and A.E. Olson|Fluoride Toxicosis in Wild Ungulates of the Western United States|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:253-266|1979|
38771|T||Siddiqui,M.K.J., and M.C. Saxena|Biological Monitoring of Environmental Contaminants: Chlorinated Hydrocarbons in Eggs of Hens|Sci. Total Environ.32:29-34|1983|10.1016/0048-9697(83)90130-4
38772|T||Sidra,M.S., and C.H. Walker|The Metabolism of p,p'-DDT by the Feral Pigeon (Columbia Livia)|Pestic. Biochem. Physiol.14:62-71|1980|10.1016/0048-3575(80)90023-1
38773|T||Siegel,H.S., J.W. Latimer, L.N. Drury, and E.W. Loy|Accumulation and Depletion of Dieldrin in Viscerl Fatty Tissues of Broilers|Poult. Sci.55:2319-2326|1976|10.3382/ps.0552319
38774|T||Sifri,M., J.L. Sell, and K.L. Davison|Comparative Effects of p,p'-DDT and Pentobarbital on Hepatic Microsomal Enzymes in Young Quail, Chicks and Ducklings|Comp. Biochem. Physiol. B Comp. Biochem.51:213-219|1975|10.1016/0305-0491(75)90211-4
38775|T||Silkworth,J., D. McMartin, A. DeCaprio, R. Rej, P. O'Keefe, and L. Kaminsky|Acute Toxicity in Guinea Pigs and Rabbits of Soot from a Polychlorinated Biphenyl-Containing Transformer Fire|Toxicol. Appl. Pharmacol.65:425-439|1982|10.1016/0041-008X(82)90388-X
38776|T||Silver,J., and Z. Alpern|The Effect of DDT on Vitamin D Metabolism and Calcium Binding Activity in the Chick|Chem.-Biol. Interact.24:133-136|1979|10.1016/0009-2797(79)90002-4
38777|T||Silvestri,R., J.A. Himes, and G.T. Edds|Repeated Oral Administration of Coumaphos in Sheep:  Effects on Erythrocyte Acetylcholinesterase and Other Constituents|Am. J. Vet. Res.36(3): 283-287|1975|
38778|T||Silvestri,R., J.A. Himes, and G.T. Edds|Repeated Oral Administration of Coumaphos in Sheep:  Interactions of Coumaphos with Bishydroxycoumarin, Trichlorfon, and Phenobarbital Sodium|Am. J. Vet. Res.36(3): 289-292|1975|
38779|T||Simmons,C.L., and C.A. Wilson|Studies to Determine the Effects of the Boll Weevil Eradication Experiment on the Honey Bee, Apis Mellifera l|Am. Bee J.115(9): 356-|1975|
38780|T||Simon,G.S., E.J. Kuchar, H.H. Klein, and J.F. Borzelleca|Distribution and Clearance of Pentachloronitrobenzene in Chickens|Toxicol. Appl. Pharmacol.50:401-406|1979|10.1016/0041-008X(79)90392-2
38781|T||Simon,G.S., R.G. Tardiff, and J.F. Borzelleca|Potential Mutagenic and Adverse Male Reproductive Effects of 1,2,3,4-Tetrabromobutane:  A Dominant Lethal Study in the Rat|Toxicol. Appl. Pharmacol.44:661-664|1978|10.1016/0041-008X(78)90273-9
38782|T||Simpson,C.F., B.L. Damron, and R.H. Harms|Abnormalities of Erythrocytes and Renal Tubules of Chicks Poisoned with Lead|Am. J. Vet. Res.31(3): 515-523|1970|
38783|T||Simpson,C.F., and R.H. Harms|Influence of Oat Fractions on Diethylstilbestrol-Induced Aortic Ruptures of Turkeys|Poult. Sci.48(5): 1757-1761|1969|10.3382/ps.0481757
38786|T||Sindermann,C.J.|Beyond the LC50: An Opinion About Research Activities and Needs Concerning Physiological Effects of Pollutants in the Environment|In: Marine Pollution: Functional Responses, Academic Press, NY:437-450|1979|
38790|T||Singh,A.R., W.H. Lawrence, and J. Autian|Dominant Lethal Mutations and Antifertility Effects of Di-2-Ethylhexyl Adipate and Diethyl Adipate in Male Mice|Toxicol. Appl. Pharmacol.32:566-576|1975|10.1016/0041-008X(75)90121-0
38791|T||Singh,K.K., and G.J. Jha|Bone Growth During Chronic Aldrin intoxication in Goats|Res. Vet. Sci.32:283-288|1982|10.1016/S0034-5288(18)32381-6
38792|T||Singhal,R.L., and Z. Merali|Biochemical Toxicity of Cadmium|In: J.H.Mennear (Ed.) Cadmium Toxicity, Marcel Dekker, Inc., New York:61-112|1979|
38794|T||Singwi,M.S., and S.B. Lall|Effect of CdCl2 on Testicular Lactate Dehydrogenase of a Non-Scrotal Bat Rhinopoma kinneari Wroughton|Indian J. Exp. Biol.19:466-468|1981|
38796|T||Siniff,D.B., T.D. Williams, A.M. Johnson, and D.L. Grashelis|Experiments on the Response of Sea Otters Enhydra lutris to Oil Contamination|Biol. Conserv.23:261-272|1982|10.1016/0006-3207(82)90082-9
38797|T||Sipes,I.G., M.L. Slocumb, D.F. Perry, and D.E. Carter|4,4'-Dichlorobiphenyl: Distribution, Metabolism, and Excretion in the Dog and the Monkey|Toxicol. Appl. Pharmacol.55:554-563|1980|10.1016/0041-008X(80)90057-5
38798|T||Skinner,C.S., and W.W. Kilgore|Percutaneous Penetration of [14C]Parathion in the Mouse: Effect of Anatomic Region|J. Toxicol. Environ. Health9:483-490|1982|10.1080/15287398209530179
38799|T||Skinner,C.S., and W.W. Kilgore|Acute Dermal Toxicities of Various Organophosphate Insecticides in Mice|J. Toxicol. Environ. Health9:491-497|1982|10.1080/15287398209530180
38801|T||Skinner,J.D., and L.E.A. Rowson|Some Effects of A Single Injection of Chlormadinone Acetate Or Methallibure on Sexual Function in the Pubescent Male Animal 1. the Ram|J. Reprod. Fertil.20:95-104|1969|10.1530/jrf.0.0200095
38804|T||Sleet,R.B., and J.H.,Jr. Soares|Some Effects of Vitamin E Deficiency on Hepatic Xanthine Dehydrogenase Activity, Lead, and Alpha-Tocopherol Concentrations in Tissues of Lead-Dosed Mallard Ducks|Toxicol. Appl. Pharmacol.47:71-78|1979|10.1016/0041-008X(79)90073-5
38805|T||Sleight,S.D.|Polybrominated Biphenyls: A Recent Environmental Pollutant|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:366-374|1979|
38806|T||Sleight,S.D., and V.L. Sanger|Pathologic Features of Polybrominated Biphenyl Toxicosis in the Rat and Guinea Pig|J. Am. Vet. Med. Assoc.169(11): 1231-1235|1976|
38809|T||Smalley,H.E.|Toxicity and Hazard of the Herbicide, Paraquat, in Turkeys|Poult. Sci.52:1625-1628|1973|10.3382/ps.0521625
38814|T||Smirle,M.J., M.L. Winston, and K.L. Woodward|Development of a Sensitive Bioassay for Evaluating Sublethal Pesticide Effects on the Honey Bee (Hymenoptera:  Apidae)|J. Econ. Entomol.77(1): 63-67|1984|10.1093/jee/77.1.63
38816|T||Smith,B.L., G.W. Reynold, and P.P. Embling|Effect of Method of Oral Administration of Zinc Sulphate on Acute Zinc Toxicity in the Sheep|N. Z. J. Exp. Agric.7:107-110|1979|10.1080/03015521.1979.10426173
38817|T||Smith,F.A., B.A. Schwetz, and K.D. Nitschke|Teratogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in CF-1 Mice|Toxicol. Appl. Pharmacol.38:517-523|1976|10.1016/0041-008X(76)90183-6
38819|T||Smith,F.H., and A.J. Clawson|The Effects of Dietary Gossypol on Animals|J. Am. Oil Chem. Soc.47:443-447|1970|10.1007/BF02632963
38822|T||Smith,J.D., R.M. Jordan, and M.L. Nelson|Tolerance of Ponies to High Levels of Dietary Copper|J. Anim. Sci.41(6): 1645-1649|1975|10.2527/jas1975.4161645x
38823|T||Smith,L.H., W.M. Haschek, and H. Witschi|Acute Toxicity of Selected Crude and Refined Shale Oil- and Petroleum-Derived Substances|In: W.H.Griest, M.R.Guerin, and D.L.Coffin (Eds.), Meet.on the Health Effects Investigation of Oil Shale Development, June 23-24, 1980, Gatlinburg, TN, Ann Arbor Sci.Publ., Ann Arbor, MI:141-160|1981|
38824|T||Smith,L.W.|Wildlife Toxicity Studies with Oxamyl|Environ. Toxicol. Chem.1:157-165|1982|10.1002/etc.5620010207
38827|T||Smith,S.I., C.W. Weber, and B.L. Reid|The Effect of Injection of Chlorinated Hydrocarbon Pesticides on Hatchability of Eggs|Toxicol. Appl. Pharmacol.16:179-185|1970|10.1016/0041-008X(70)90174-2
38828|T||Smith,S.I., C.W. Weber, and B.L. Reid|Dietary Pesticides and Contamination of Yolks and Abdominal Fat of Laying Hens|Poult. Sci.49(1): 233-237|1970|10.3382/ps.0490233
38829|T||Smith,S.I., C.W. Weber, and B.L. Reid|The Effect of High Levels of Dietary DDT on Egg Production, Mortality, Fertility, Hatchability and Pesticide Content of Yolks in Japanese Quail|Poult. Sci.48(3): 1000-1005|1969|10.3382/ps.0481000
38833|T||Smith,T.G., J.R. Geraci, and D.J. Aubin|Reaction of Bottlenose Dolphins, Tursiops truncatus, to a Controlled Oil Spill|Can. J. Fish. Aquat. Sci.40:1522-1525|1983|10.1139/f83-175
38835|T||Smrek,A.L., S.R. Adams, J.A. Liddle, and R.D. Kimbrough|Pharmacokinetics of Mirex in Goats 1. Effect on Reproduction and Lactation|J. Agric. Food Chem.25(6): 1321-1325|1977|10.1021/jf60214a011
38836|T||Smrek,A.L., S.R. Adams, J.A. Liddle, and R.D. Kimbrough|Pharmacokinetics of Mirex in Goats. 2. Residue Tissue Levels, Transplacental Passage During Recovery|J. Agric. Food Chem.26(4): 945-947|1978|10.1021/jf60218a006
38837|T||Snapier,N., B. Robinzon, and M. Perek|Brain Damage in the Male Domestic Fowl Treated with Monosodium Glutamate|Poult. Sci.50(5): 1511-1514|1971|10.3382/ps.0501511
38838|T||Snedecor,J.G.|Responses of Normal and Goitrogen-fed Cockerels to Differentenvironmental Temperatures|Poult. Sci.50 (1):237-243|1971|10.3382/ps.0500237
38839|T||Snider,T.G.|Lead Poisoning in a Bovine Herd|Southwest. Vet.24(2): 136-138|1971|
38840|T||Soares,J.H., D.M. Kaetzel, J.T. Allen, and M.R. Swerdel|Toxicity of a Vitamin D Steroid to Laying Hens|Poult. Sci.62:24-29|1982|10.3382/ps.0620024
38842|T||Sobotka,T.J.|Behavioral Effects of Low Doses of DDT|Proc. Soc. Exp. Biol. Med.137:952-955|1971|10.3181/00379727-137-35703
38844|T||Soli,N.E., R.A. Andersen, J.U. Skaare, and A. Mikalsen|The Effect of O,O-Dimethyl-O-(2,4,5-Trichlorophenyl) Phosphorothioate (Fenchlorphos) on Cholinesterases in the Blue Fox (Alopex lagopus)|Acta Vet. Scand.18:408-415|1977|10.1186/BF03548438
38845|T||Soli,N.E., and A. Froslie|Chronic Copper Poisoning in Sheep.  1.  The Relationship of Methaemoglobinemia to Heinz Body Formation and Haemolysis During the Terminal Crisis|Acta Pharmacol. Toxicol.40:169-177|1977|10.1111/j.1600-0773.1977.tb02065.x
38846|T||Soli,N.E., and J.P. Rambaek|Excretion of Intravenously Injected Copper-64 in Sheep|Acta Pharmacol. Toxicol.43:205-210|1978|10.1111/j.1600-0773.1978.tb02256.x
38847|T||Soliman,S.A., J. Farmer, and A. Curley|Is Delayed Neurotoxicity a Property of all Organophosphorus Compounds? A Study with a Model Compound: Parathion|Toxicology23:267-279|1982|10.1016/0300-483X(82)90066-X
38848|T||Soliman,S.A., R. Linder, J. Farmer, and A. Curley|Species Susceptibility to Delayed Toxic Neuropathy in Relation to In Vivo Inhibition of Neurotoxic Esterase by Nuerotoxic Organophosphorus Esters|J. Toxicol. Environ. Health9:189-197|1982|10.1080/15287398209530154
38849|T||Soliman,S.A., D. Svendsgaard, J.D. Farmer, A. Curley, and W.F. Durham|Six-Month Daily Treatment of Sheep with Neurotoxic Organophosphorus Compounds|Toxicol. Appl. Pharmacol.69:417-431|1983|10.1016/0041-008X(83)90265-X
38851|T||Solly,S.R.B., and D.L. Harrison|Fensulfothion 1. Toxicity to Sheep and Rats, Residues in Sheep, and Persistence on Pasture|N. Z. J. Agric. Res.14:66-78|1971|10.1080/00288233.1971.10421302
38852|T||Solly,S.R.B., D.L. Harrison, J.N. Hunnego, and V. Shanks|Fensulfothion 2. the Effects of Grazing Sheep on Fensulfothion-Treated Pasture Or on Pasture Grown in Fensulfothion-Treated Soil|N. Z. J. Agric. Res.14:79-87|1971|10.1080/00288233.1971.10421303
38853|T||Solly,S.R.B., D.L. Harrison, and A.R. Ritchie|Fensulfothion 3. Effects of Grazing Dairy Cows on Fensulfothion-Treated Pastures|N. Z. J. Agric. Res.14:88-96|1971|10.1080/00288233.1971.10421304
38857|T||Solly,S.R.B., V. Shanks, R.T. Steele, and W.S.H. Poole|Effects of Polychlorinated Biphenyls on Poultry I.  Residues in Tissues and Eggs|N. Z. J. Agric. Res.19:225-229|1976|10.1080/00288233.1976.10426770
38861|T||Somers,J.D., E.T.,Jr. Moran, and B.S. Reinhart|Effect of External Application of Pesticides to the Fertile Egg on Hatching Success and Early Chick Performance 3. Consequences of Combining 2,4-D with Picloram and Extremes in Contamination|Bull. Environ. Contam. Toxicol.11(6): 511-516|1974|10.1007/BF01685006
38862|T||Somers,J.D., E.T.,Jr. Moran, and B.S. Reinhart|Reproductive Success of Hens and Cockerels Originating from Eggs Sprayed with 2,4-D, 2,4-5-T and Picloram Followed by Early Performance of Their Progeny After a Comparable In Ovo Exposure|Bull. Environ. Contam. Toxicol.20(1): 111-119|1978|10.1007/BF01683494
38863|T||Somers,J.D., E.T.,Jr. Moran, and B.S. Reinhart|Hatching Success and Early Performance of Chicks from Eggs Sprayed with 2,4-D, 2,4,5-T and Picloram at Various Stages of Embryonic Development|Bull. Environ. Contam. Toxicol.20(3): 289-293|1978|10.1007/BF01683523
38864|T||Somers,J.D., E.T.,Jr. Moran, and B.S. Reinhart|Influence of Hen Dietary Calcium and Phosphorus on the Integrity of the Egg Shell as it Would Influence Hatching Success and the Consequences of Preincubation 2,4,5-T Spraying with and Without a High TCDD Level|Bull. Environ. Contam. Toxicol.19:648-654|1978|10.1007/BF01685853
38867|T||Sorrell,J.M., and L. Weiss|Development of the Embryonic Chick Phagocytic System: Intraembryonic Erythrophagocytosis Induced by Phenylhydrazine|J. Morph.171:183-194|1982|10.1002/jmor.1051710206
38868|T||Sosa-Lucero,J.C., F.A. De la Iglesia, and G.H. Thomas|Distribution of a Polychlorinated Terphenyl (PCT) (Aroclor 5460) in Rat Tissues and Effect on Hepatic Microsomal Mixed Function Oxidases|Bull. Environ. Contam. Toxicol.10(4): 248-256|1973|10.1007/BF01684553
38869|T||Sotherton,N.W., and S.J. Moreby|The Effects of Foliar Fungicides on Beneficial Arthropods in Wheat Fields|Entomophaga3(1): 87-99|1988|10.1007/BF02372317
38870|T||Soto,A.R., and W.B. Deichmann|Major Metabolism and Acute Toxicity of Aldrin, Dieldrin, Andendrin|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:149-158|1970|
38871|T||Southern,L.L., and D.H. Baker|The Effect of Methionine or Cysteine on Cobalt Toxicity in the Chick|Poult. Sci.60:1303-1308|1981|10.3382/ps.0601303
38872|T||Southwell,L.T., and J.D. Majer|The Survival and Growth of the Earthworm Eisenia Foetida (Lumbricidae: Oligochaeta) in Alkaline Residues Associated Withthe Bauxite Refining Process|Pedobiologia (Multiple Languages)23:42-52|1982|10.1016/S0031-4056(23)03641-7
38873|T||Speijers,G.J.A., E.I. Krajnc, J.M. Berkvens, and M.J. Van Logten|Acute Oral Toxicity of Inorganic Cobalt Compounds in Rats|Food Chem. Toxicol.20:311-314|1982|10.1016/S0278-6915(82)80298-6
38875|T||Spencer,F.|Structural and Reproductive Modifications in Rats Following a Post-Implantational Exposure to Captan|Bull. Environ. Contam. Toxicol.33:84-91|1984|10.1007/BF01625515
38876|T||Spickett,J.T., and R.R. Bell|The Influence of Dietary Phosphate on the Toxicity of Orally Ingested Lead in Rats|Food Chem. Toxicol.21(2): 157-161|1983|10.1016/0278-6915(83)90230-2
38877|T||Spiers,D.E., T. Adams, and R.K. Ringer|Temperature Regulation in Adult Quail (Colinus Virginianus) During Acute Thermal Stress|Comp. Biochem. Physiol. A Comp. Physiol.74(2): 369-373|1983|10.1016/0300-9629(83)90617-5
38878|T||Spiers,D.E., T. Adams, and R.K. Ringer|Homeothermic Development in the Bobwhite (Colinus Virginianus)|Comp. Biochem. Physiol. A Comp. Physiol.81(4): 921-927|1985|10.1016/0300-9629(85)90931-4
38882|T||Springfield,A.C., G.P. Carlson, and J.J. Defeo|Liver Enlargement and Modification of Hepatic Microsomal Drug Metabolism in Rats by Pyrethrum|Toxicol. Appl. Pharmacol.24:298-308|1973|10.1016/0041-008X(73)90149-X
38884|T||Squires,E.L., R.P. Amann, B.W. Pickett, W.E. Berndtson, R.K. Shideler, and J.L. Voss|Effect of Fenbendazole on Reproductive Function in Stallions|Theriogenology9 (5):447-455|1978|10.1016/0093-691X(78)90101-2
38885|T||Srebocan,V., J.P. Gotal, V. Adamovic, B. Sokic, and M. Delak|Effect of Technical Grade DDT and p,p'-DDT on Adrenocorticalfunction in Chicks|Poult. Sci.50(5): 1271-1278|1971|10.3382/ps.0501271
38886|T||Srebocan,V., J. Pompe-Gotal, V. Brmalj, and M. Plazonic|Effect of Polychlorinated Biphenyls (Aroclor 1254) on Liver Gluconeogenic Enzyme Activities in Embryonic and Growing Chickens|Poult. Sci.56:732-735|1977|10.3382/ps.0560732
38887|T||Srivastava,D.N., and G.C. Parasar|Studies on Toxic Effects of Malathion in Fowls|Indian J. Anim. Sci.41(12): 1154-1158|1971|
38888|T||Srivastava,L., and S.K. Tandon|Effect of Cadmium and Lead on Chick Embryo|Chemosphere11(5): 541-546|1982|10.1016/0045-6535(82)90188-6
38891|T||St.John,L.E.,Jr., W.H. Gutenmann, and D.J. Lisk|Metabolism Studies with Torak Insecticide in a Dairy Cow|J. Agric. Food Chem.19(5): 900-903|1971|10.1021/jf60177a046
38893|T||St.John,L.E.,Jr., and D.J. Lisk|A Feeding Study with Captan Fungicide in the Dairy Cow|Bull. Environ. Contam. Toxicol.16(4): 474-476|1976|10.1007/BF01686164
38895|T||St.John,L.E.,Jr., and D.J. Lisk|Metabolism of Fenac Herbicide in a Lactating Cow|J. Dairy Sci.53(2): 161-164|1970|10.3168/jds.S0022-0302(70)86174-4
38896|T||St.John,L.E.,Jr., and D.J. Lisk|Feeding Studies with Randox in the Dairy Cow|Bull. Environ. Contam. Toxicol.11(6): 529-531|1974|10.1007/BF01685009
38898|T||St.John,L.E., and D.J. Lisk|Excretory Pathway of Amiben in A Lactating Cow|J. Agric. Food Chem.18 (3):482-484|1970|10.1021/jf60169a033
38899|T||St.John,L.E.,Jr., and D.J. Lisk|Metabolic Studies with Zytron Herbicide in a Lactating Cow|J. Agric. Food Chem.18(1): 125-127|1970|10.1021/jf60167a031
38900|T||St.John,L.E., and D.J. Lisk|The Excretion of Hexachlorophene in the Dairy Cow|J. Agric. Food Chem.20(2): 389-391|1972|10.1021/jf60180a060
38901|T||St.John,L.E., and D.J. Lisk|Feeding Studies with Supracide in the Dairy Cow|Bull. Environ. Contam. Toxicol.12(5): 594-598|1974|10.1007/BF01684924
38904|T||Staiger,L.E., G.B. Quistad, S.K. Duddy, and D.A. Schooley|Metabolism of Fluvalinate by Laying Hens|J. Agric. Food Chem.30:901-906|1982|10.1021/jf00113a600
38906|T||Stam,P.A., D.F. Clower, J.B. Graves, and P.E. Schilling|Effects of Certain Herbicides on Some Insects and Spiders Found in Louisiana Cotton Fields|J. Econ. Entomol.71(3): 477-480|1978|10.1093/jee/71.3.477
38907|T||Stanger,W., and W. Winterlin|Residues of the Insecticides Carbaryl and Monocrotophos in Honeybee Colonies|J. Apic. Res.14(3-4): 131-135|1975|10.1080/00218839.1975.11099816
38908|T||Stanley,P.I., and P.J. Bunyan|Hazards to Wintering Geese and Other Wildlife from the Use of Dieldrin, Chlorfenvinphos and Carbophenothion as Wheat Seed Treatments|Proc. R. Soc. Lond.205B:31-45|1979|
38909|T||Stanley,P.I., P.J. Bunyan, W.D. Rees, D.M. Swindon, and G.E. Westlake|Pesticide-Induced Changes in Hepatic Microsomal Enzyme Systems:  Further Studies on the Effects of 1,1,-Di(P-Chloro-Phenyl)-2-Chloroethylene (DDMU) in the Japanese Quail|Chem.-Biol. Interact.21:203-213|1978|10.1016/0009-2797(78)90019-4
38910|T||Stanley,P.I., and A.K.M. St.Joseph|Poisoning of Dark-Bellied Brent Geese in Essex, February 1979|Wildfowl30:154-|1979|
38911|T||Statham,M.|The Use of Dyes in Bait for Wallaby Control|Aust. Wildl. Res.16:421-424|1989|10.1071/WR9890421
38912|T||Stedman,T.M.,Jr., N.H. Booth, P.B. Bush, R.K. Page, and D.D. Goetsch|Toxicity and Bioaccumulation of Pentachlorophenol in Broiler Chickens|Poult. Sci.59:1018-1026|1980|10.3382/ps.0591018
38913|T||Steele,N.C., and R.W. Rosebrough|Effect of Trivalent Chromium on Hepatic Lipogenesis by the Turkey Poult|Poult. Sci.60:617-622|1981|10.3382/ps.0600617
38917|T||Steinhoff,D., H. Weber, U. Mohr, and K. Boehme|Evaluation of Amitrole (Aminotriazole) for Potential Carcinogenicity in Orally Dosed Rats, Mice, and Golden Hamsters|Toxicol. Appl. Pharmacol.69:161-169|1983|10.1016/0041-008X(83)90296-X
38918|T||Stelter,L.H.|Baseline Levels of Selected Trace Elements in Colorado Oil Shale Region Animals|J. Wildl. Dis.16(2): 175-182|1980|10.7589/0090-3558-16.2.175
38921|T||Longcore,J.R., and R.C. Stendell|Black Ducks and DDE: Review and Status|In: 39th Trans. of the Northeast Sect., Wildl. Soc.:68-75|1982|
38923|T||Stephen,B.J., J.D. Garlich, and F.E. Guthrie|Effect of DDT on Induction of Microsomal Enzymes and Deposition of Calcium in the Domestic Chicken|Bull. Environ. Contam. Toxicol.5(6): 569-576|1971|10.1007/BF01539989
38924|T||Stephen,W.P., and B. Schricker|The Effect of Sublethal Doses of Parathion. 2. Site of Parathion Activity, and Signal Integration|J. Apic. Res.9(3): 155-164|1970|10.1080/00218839.1970.11100262
38925|T||Stenersen,J.|Action of Pesticides on Earthworms. Part I:  The Toxicity of Cholinesterase-Inhibiting Insecticides to Earthworms as Evaluated by Laboratory Tests|Pestic. Sci.10:66-74|1979|10.1002/ps.2780100109
38926|T||Sterrett,F.S., and A. Boss|Careless Kepone: A Persistent Nightmare|Environment19(2): 30-37|1977|
38930|T||Stevenson,D.E.|Current Problems in the Choice of Animals for Toxicity Testing|J. Toxicol. Environ. Health5:9-15|1979|10.1080/15287397909529720
38931|T||Stevenson,J.H.|The Acute Toxicity of Unformulated Pesticides to Worker Honey Bees (Apis mellifera L.)|Plant Pathol.27:38-40|1978|10.1111/j.1365-3059.1978.tb01070.x
38933|T||Stewart,A.G.|Seabird Mortality in the North Irish Sea and Firth of Clyde Early in 1974|Mar. Pollut. Bull.5 (9):136-140|1974|
38935|T||Stickel,L.F.|The Costs and Effects of Chronic Exposure to Low-Level Pollutants in the Environment|In: Hearings Before the Subcommittee on the Environment and the Atmosphere of the Committee Onscience and Technology, U.S.House of Representives, U.S.House of Representatives, Ninety-Fourth Congress, Washington DC49:716-789|1975|
38937|T||Stickel,L.F., and M.P. Dieter|Ecological and Physiological/Toxicological Effects of Petroleum on Aquatic Birds|FWS/OBS-79/23, U.S.Fish and Wildl.Serv., Biol.Serv.Prog., Washington, D.C.:14 p.|1979|
38938|T||Stickel,L.F., W.H. Stickel, and R. Christensen|Residues of DDT in Brains and Bodies of Birds that Died on Dosage and in Survivors|Science151:1549-1551|1966|10.1126/science.151.3717.1549
38939|T||Stickel,L.F., W.H. Stickel, R.A. Dyrland, and D.L. Hughes|Oxychlordane, HCS-3260, and Nonachlor in Birds: Lethal Residues and Loss Rates|J. Toxicol. Environ. Health12:611-622|1983|10.1080/15287398309530453
38943|T||Stickel,W.H., L.F. Stickel, R.A. Dyrland, and D.L. Hughes|DDE in Birds:  Lethal Residues and Loss Rates|Arch. Environ. Contam. Toxicol.13:1-6|1984|10.1007/BF01055640
38944|T||Stickel,W.H., L.F. Stickel, and J.W. Spann|Tissue Residue of Dieldrin in Relation to Mortality in Birds and Mammals|In: M.W.Miller and G.G.Berg (Eds.), Chemial Fallout - Current Research on Persistent Pesticides, Chas C.Thomas, Springfield, IL:174-204|1969|
38945|T||Stickley,A.R., and J.L. Guarino|A Repellent for Protecting Corn Seed from Blackbirds and Crows|J. Wildl. Manag.36(1): 150-152|1972|10.2307/3799200
38946|T||Stickley,A.R.,Jr., R.T. Mitchell, R.G. Heath, C.R. Ingram, and E.L.,Jr. Bradley|A Method for Appraising the Bird Repellency of 4-Aminopyridine|J. Wildl. Manag.36(4): 1313-1316|1972|10.2307/3799273
38947|T||Stickley,A.R., R.T. Mitchell, J.L. Seubert, C.R. Ingram, and M.I. Dyer|Large-Scale Evaluation of Blackbird Frightening Agent 4-Aminopyridine in Corn|J. Wildl. Manag.40(1): 126-131|1976|10.2307/3800165
38948|T||Stinson,S.F., and C.G. Loosli|The Effect of Synthetic Smog on Voluntary Activity of Cd-1 Mice; In: Animals as Monitors of Environmental Pollutants|In: Animals as Monitors of Environmental Pollutants, Natl. Acad. of Sci., Washington, D.C.:233-240|1979|
38949|T||Stoewsand,G.S., J.L. Anderson, W.H. Gutenmann, and D.J. Lisk|Infuence of Dietary Calcium, Selenium, and Methylmercury on Eggshell Thickness in Japanese Quail|Bull. Environ. Contam. Toxicol.20:135-142|1978|10.1007/BF01683497
38951|T||Stoll,R.E., J.F. White, T.S. Miya, and W.F. Bousquet|Effects of Cadmium on Nucleic Acid and Protein Synthesis in Rat Liver|Toxicol. Appl. Pharmacol.37:61-74|1976|10.1016/S0041-008X(76)80008-7
38953|T||Stone,C.L., M.R.S. Fox, A.L. Jones, and K.R. Mahaffey|delta-Aminolevulinic Acid Dehydratase-A Sensitive Indicator of Lead Exposure in Japanese Quail|Poult. Sci.56:174-181|1977|10.3382/ps.0560174
38954|T||Stone,C.L., M.R.S. Fox, A.O.L. Jones, and K.R. Mahaffey|Procedural Modifications for the Determination of Lead in Microquantities of Blood of Young Japanese Quail|Poult. Sci.57:811-813|1978|10.3382/ps.0570811
38955|T||Stone,C.L., K.R. Mahaffey, and M.R.S. Fox|A Rapid Bioassay System for Lead Using Young Japanese Quail|J. Environ. Pathol. Toxicol.2:767-779|1979|
38956|T||Stone,C.L., and J.H.,Jr. Soares|The Effect of Dietary Selenium Level on Lead Toxicity in the Japanese Quail|Poult. Sci.55(1): 341-349|1976|10.3382/ps.0550341
38957|T||Stone,C.L., and M.R. Spivey Fox|Effects of Low Levels of Dietary Lead and Iron on Hepatic RNA, Protein, and Minerals in Young Japanese Quail|Environ. Res.33(2): 322-332|1984|10.1016/0013-9351(84)90030-6
38960|T||Stone,W.B., and S.A. Butkas|Lead Poisoning in A Wild Turkey|N. Y. Fish Game J.25(2): 169-|1978|
38961|T||Stone,W.B., E. Kiviat, and S.A. Butkas|Toxicants in Snapping Turtles|N. Y. Fish Game J.27(1): 38-50|1980|
38963|T||Stone,W.B., S.R. Overmann, and J.C. Okoniewska|Intentional Poisoning of Birds with Parathion|Condor86:333-336|1984|10.2307/1367004
38969|T||Stoner,A., and W.T. Wilson|Microencapsulated Methyl Parathion (Penncap-M):  Effect of Long-Term Feeding of Low Doses in Pollen on Honey Bees (Hymenoptera: Apidae) in Standard-Size Field Colonies|J. Kans. Entomol. Soc.56(2): 234-240|1983|
38970|T||Stoner,A., W.T. Wilson, and J. Harvey|Dimethoate (Cygon):  Effect of Long-Term Feeding of low Doses on Honey Bees in Standard-Size Field Colonies|Southwest. Entomol.8(3): 174-177|1983|
38971|T||Stoner,G.D., E.A. Greisiger, H.A.J. Schut, M.A. Pereira, T.R. Loeb, J.E. Klaunig, and D.G. Branstetter|A Comparison of the Lung Adenoma Response in Strain A/J Mice After Intraperitoneal and Oral Administration of Carcinogens|Toxicol. Appl. Pharmacol.72:313-323|1984|10.1016/0041-008X(84)90316-8
38972|T||Stowe,C.M., D.M. Barnes, and T.D. Arendt|Ethylene Glycol intoxication in Ducks|Avian Dis.25(2): 538-541|1981|10.2307/1589948
38975|T||Strange,J.R., P.M. Allred, and W.E. Kerr|Teratogenic and Toxicological Effects of 2,4,5-Trichlorophenoxyacetic Acid in Developing Chick Embryos|Bull. Environ. Contam. Toxicol.15(6): 682-688|1976|10.1007/BF01685618
38976|T||Strange,J.R., and W.E. Kerr|Teratogenic and Toxicological Examination of 2,4,5-Trichlorophenoxyacetic Acid in Developing Chick Embryos|Toxicology6:35-40|1976|10.1016/0300-483X(76)90005-6
38977|T||Street,J.C., and S.E. Blau|Oxychlordane: Accumulation in Rat Adipose Tissue on Feeding Chlordane Isomers of Technical Chlordane|J. Agric. Food Chem.20(2): 395-397|1972|10.1021/jf60180a062
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38979|T||Street,J.C., and R.P. Sharma|Alteration of Induced Cellular and Humoral Immune Responses by Pesticides and Chemicals of Environmental Concern: Quantitative Studies on Immunosuppression by DDT, Aroclor 1254, Carbaryl, Carbofuran, and Methylparathion|Toxicol. Appl. Pharmacol.32(3): 587-602|1975|10.1016/0041-008X(75)90123-4
38980|T||Strickland,R.K., R.R. Gerrish, J.L. Hourrigan, and F.P. Czech|Chloropyridyl Phosphorothioate Insecticide as Dip and Spray: Efficacy Against Psoroptes ovis, Dermal Toxicity for Domesticated Animals, Selective Carryout, and Stability in the Dipping Vat|Am. J. Vet. Res.31(12): 2135-2143|1970|
38981|T||Strickler,G.S., and P.J. Edgerton|Monitoring DDT Residues on Forage Plants Following a Forest Insect Control Program|Pestic. Monit. J.4(3): 106-110|1970|
38983|T||Strik,J.J.T.W.A., A.H.J. Centen, M.M.T. Janssen, E.G.M. Harmsen, D.C. Villeneuve, I. Chu, and V.E. Valli|Toxicity of Photomirex with Special Reference to Porphyria, Hepatic P-450 and Glutathione Levels, Serum Enzymes, Histology and Residues in the Quail and Rat|Bull. Environ. Contam. Toxicol.24:350-355|1980|10.1007/BF01608121
38984|T||Stringer,A., and C.H. Lyons|The Effect on Earthworm Populations of Methods of Spraying Benomyl in an Apple Orchard|Pestic. Sci.8:647-650|1977|10.1002/ps.2780080609
38985|T||Stromborg,K.L., W.N. Beyer, and E. Kolbe|Diazinon Residues in Insects from Sprayed Tobacco|Chem. Ecol.1:93-97|1982|10.1080/02757548208070791
38987|T||Stula,E.F., J.R. Barnes, H. Sherman, C.F. Reinhardt, and J.A. Zapp|Liver and Lung Tumors in Dogs from 4,4'-Methylene-Bis(2-Methylaniline)|J. Environ. Pathol. Toxicol.1:339-356|1978|
38989|T||Stull,J.W., W.H. Brown, F.M. Whiting, L.M. Sullivan, M. Milbrath, and J.M. Witt|Secretion of DDT by Lactating Cows fed Thyroprotein|J. Dairy Sci.51(1): 56-59|1968|10.3168/jds.S0022-0302(68)86920-6
38990|T||Sturtevant,J.|Evaluation of Environmental Hazards Following the Use of Synthetic Grit Containing Mestranol for Pigeon Control|Toxicol. Appl. Pharmacol.19:649-659|1971|10.1016/0041-008X(71)90296-1
38991|T||Su,M.Q., F.K. Kinoshita, J.P. Frawley, and K.P. DuBois|Comparative Inhibition of Aliesterases and Cholinesterase in Rats Fed Eighteen Organophosphorus Insecticides|Toxicol. Appl. Pharmacol.20(2): 241-249|1971|10.1016/0041-008X(71)90050-0
38994|T||Su,T.H., J.W. Beardsley, and F.L. McEwen|AC-217,300, a Promising New Insecticide for Use in Baits For Control of the Bigheaded Ant in Pineapple|J. Econ. Entomol.73(6): 755-756|1980|10.1093/jee/73.6.755
38995|T||Suarez,K.A., and P. Bhonsle|The Relationship of Cobaltous Chloride-Induced Alterations of Hepatic Microsomal Enzymes to Altered Carbon Tetrrachloride Hepatotoxicity|Toxicol. Appl. Pharmacol.37:23-27|1976|10.1016/S0041-008X(76)80004-X
38996|T||Rao,B.V.S.S., and C. Bharathi|Effects of Phosphamidon on the Oxygen Uptake of a Common Earthworm, Lampeto mauritii|J. Environ. Biol.5(2): 115-118|1984|
38997|T||Sugawara,N., and C. Sugawara|Cadmium Accumulation in Organs and Mortality During a Continued Oral Uptake|Arch. Toxicol.32:297-306|1974|10.1007/BF00330111
38998|T||Sugden,E.A., R. Greenhalgh, and J.R. Pettit|Characterization of Delayed Neurotoxic Triaryl Phosphates by Analysis of Trifluoroacetylated Phenolic Moieties|Environ. Sci. Technol.14(12): 1498-1501|1980|10.1021/es60172a006
38999|T||Sugiura,K., M. Hattori, M. Baba, and M. Goto|Accumulation and Excretion of PCBs in the Mouse|Chemosphere3:181-187|1975|10.1016/0045-6535(75)90098-3
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39024|T||Swanson,G.A.|Dissemination of Amphipods by Waterfowl|J. Wildl. Manag.48(3): 988-991|1984|10.2307/3801453
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39026|T||Swartz,W.J.|Long- and Short-Term Effects of Carbaryl Exposure in Chick Embryos|Environ. Res.26:463-471|1981|10.1016/0013-9351(81)90221-8
39027|T||Swartz,W.J.|Effects of Carbaryl on Gonadal Development in the Chick Embryo|Bull. Environ. Contam. Toxicol.34:481-485|1985|10.1007/BF01609764
39028|T||Swartz,W.J.|Dissimilarities in the Toxic Response of Early Chick Embryos to DDT Administered in Differenct Vehicles|Bull. Environ. Contam. Toxicol.25(6): 898-901|1980|10.1007/BF01985627
39029|T||Swartz,W.J., and R.L. Schutzmann|Uptake of DDT from the Yolk Sac into the Early Chick Embryo As Measured by Gas Chromatography|Bull. Environ. Contam. Toxicol.27:393-396|1981|10.1007/BF01611038
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39031|T||Swezey,J.L., B.B. Baldwin, and M.C. Bromel|Effect of Oxytetracycline as a Turkey Feed Additive|Poult. Sci.60:738-743|1981|10.3382/ps.0600738
39032|T||Swiggart,R.C., C.J.,Jr. Whitehead, A. Curley, and F.E. Kellogg|Wildlife Kill Resulting from the Misuse of Arsenic Acid Herbicide|Bull. Environ. Contam. Toxicol.8(2): 122-128|1972|10.1007/BF01684519
39033|T||Switzer,B., V. Lewin, and F.H. Wolfe|DDE and Reproductive Success in Some Alberta Common Terns|Can. J. Zool.51:1081-1086|1973|10.1139/z73-157
39034|T||Switzer,B.C., F.H. Wolfe, and V. Lewin|Eggshell Thinning and DDE|Nature240:162-163|1972|10.1038/240162a0
39038|T||Szaro,R.C.|Reproductive Success and Foraging Behavior of the Osprey at Seahorse Key, Florida|Wilson Bull.90(1): 112-118|1978|
39039|T||Szaro,R.C.|Effects of Petroleum on Birds|In: Transactions of the 42nd North American Wildlife Conference:374-381|1977|
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39048|T||Tainlin,L., H. Tingyi, Z. Changqi, Y. Peipei, and Z. Qiong|Studies of the Chronic Toxicity of Tetrandrine in Dogs:  An Inhibitor of Silicosis|Ecotoxicol. Environ. Saf.6:528-534|1982|10.1016/0147-6513(82)90034-3
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39054|T||Talas,A., and H.H. Wellhoner|Dose-Dependency of Tl+ Kinetics As Studied in Rabbits|Arch. Toxicol.53:9-16|1983|10.1007/BF01459997
39055|T||Talcott,P.A., and L.D. Koller|The Effect of Inorganic Lead and/or a Polychlorinated Biphenyl on the Developing Immune System of Mice|J. Toxicol. Environ. Health12:337-352|1983|10.1080/15287398309530431
39056|T||Talens,G., and D. Woolley|Effects of Parathion Administration During Gestation in the Rat on Development of the Young|Proc. West. Pharmacol. Soc.16:141-145|1973|
39065|T||Tanton,M.T., and J.S.O. Epila|Effects of DDT and Fenitrothion on Field-Collected Larvae of a Eucalypt-Defoliating Beetle, Paropsis Atomaria II. Effects of Treatment of the Host on the Parasitoids|Aust. J. Zool.32:337-344|1984|10.1071/ZO9840337
39066|T||Tarrant,K.A., P.J. Bunyan, P.I. Stanley, and G.E. Westlake|The Effects of 1,1,-Di(P-Chlorophenyl)-2-Chloroethylene (DDMU) on Hepatic Morphology of Japanese Quail|Toxicol. Appl. Pharmacol.67:184-192|1983|10.1016/0041-008X(83)90223-5
39067|T||Tarrant,K.A., and G.E. Westlake|Histological Technique for the Identification of Poisoning in Wildlife by the Rodenticide Calciferol|Bull. Environ. Contam. Toxicol.32:175-178|1984|10.1007/BF01607482
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39075|T||Teetes,G.L.|Differential Toxicity of Standard and Reduced Rates of Insecticides to Greenbugs and Certain Beneficial Insects|Tex. Agric. Exp. Stn. Prog. Rep.:1-9|1972|
39076|T||Tejning,S.|Biological Effects of Methyl Mercury Dicyandiamide-Treated Grain in the Domestic Fowl Gallus gallus L. X. Mercury in Organs in New-Hatched Chicks|Oikos8:67-74|1967|
39077|T||Temple,S.A.|Chlorinated Hydrocarbon Residues and Reproductive Success Ineastern North American Merlins|Condor74(1): 105-106|1972|10.2307/1366459
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39080|T||Terman,C.R., and R.J. Huggett|Occurrence of Kepone in White-Footed Mice (Peromyscus Leucopus Noveboracensis) on Jamestown Island, Virginia|Environ. Int.3:307-310|1980|10.1016/0160-4120(80)90143-9
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39084|T||Thaxton,J.P., J. Gilbert, P.Y. Hester, and J. Brake|Mercury Toxicity as Compared to Adrenocorticotropin-Induced Physiological Stress in the Chicken|Arch. Environ. Contam. Toxicol.11:509-514|1982|10.1007/BF01056080
39085|T||Thaxton,J.P., and C.R. Parkhurst|Abnormal Mating Behavior and Reproductive Dysfunction Caused by Mercury in Japanese Quail|Proc. Soc. Exp. Biol. Med.144(1): 252-253|1973|10.3181/00379727-144-37567
39086|T||Thaxton,P., L.A. Cogburn, and C.R. Parkhurst|Dietary Mercury as Related to the Blood Chemistry in Young Chickens|Poult. Sci.52:1212-1214|1973|10.3382/ps.0521212
39087|T||Thaxton,P., and C.R. Parkhurst|Toxicity of Mercury to Young Chickens 2. Gross Changes in Organs|Poult. Sci.52:277-281|1973|10.3382/ps.0520277
39088|T||Thaxton,P., and C.R. Parkhurst|Toxicity of Mercury to Young Chickens 3. Changes in Immunological Responsiveness|Poult. Sci.52:761-764|1973|10.3382/ps.0520761
39089|T||Thaxton,P., C.R. Parkhurst, L.A. Cogburn, and P.S. Young|Adrenal Function in Chickens Experiencing Mercury Toxicity|Poult. Sci.54:578-584|1975|10.3382/ps.0540578
39090|T||Thaxton,P., W.P. Yonushonis, and G.R. Baughman|Synergistic Relationship of Temperature, Air Velocity, and Mercury in the Chicken|J. Appl. Physiol.38(6): 969-973|1975|10.1152/jappl.1975.38.6.969
39091|T||Thaxton,P., P.S. Young, L.A. Cogburn, and C.R. Parkhurst|Hematology of Mercury Toxicity in Young Chickens|Bull. Environ. Contam. Toxicol.12(1): 46-52|1974|10.1007/BF01713025
39092|T||Thayer,R.H., and W.E. Donaldson|Mercury Inhibition of Fatty Acid Synthesis in Chicks|Chem.-Biol. Interact.11:235-243|1975|10.1016/0009-2797(75)90077-0
39093|T||Theobald,H.M., R.W. Moore, L.B. Katz, R.O. Pieper, and R.E. Peterson|Enhancement of Carrageenan and Dextran-Induced Edemas by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Related Compounds|J. Pharmacol. Exp. Ther.225(3): 576-583|1983|
39097|T||Thomas,J.A., C.S. Dieringer, and L. Schein|Effects of Carbaryl on Mouse Organs of Reproduction|Toxicol. Appl. Pharmacol.28:142-145|1974|10.1016/0041-008X(74)90139-2
39098|T||Thomas,J.A., J.W. Lloyd, M.T. Smith, M.G. Mawhinney, and C.G. Smith|Effect of Dieldrin on the Accumulation and Biotransformation of Radioactive Testosterone by the Mouse Prostate Gland|Toxicol. Appl. Pharmacol.26:523-531|1973|10.1016/0041-008X(73)90290-1
39099|T||Thomas,J.A., L.G. Schein, and M.P. Donovan|Some Actions of Parathion and/or Dieldrin on Androgen Metabolism|Environ. Res.13:441-450|1975|10.1016/0013-9351(77)90024-X
39101|T||Thomas,J.M., L.L. Cadwell, D.A. Cataldo, T.R. Garland, and R.E. Wildung|Concentration of Orally Administered and Chronically fed 95Mtc in Japanese Quail Eggs|Health Phys.46(3): 657-663|1984|10.1097/00004032-198403000-00016
39103|T||Thomas,P.T., and R.D. Hinsdill|Perinatal PCB Exposure and Its Effect on the Immune System of Young Rabbits|Drug Chem. Toxicol.3(2): 173-184|1980|10.3109/01480548009108281
39105|T||Thompson,D.J., I.L. Dyke, and J.A. Molello|Reproduction and Teratology Studies on Hexamethylmelamine in the Rat and Rabbit|Toxicol. Appl. Pharmacol.72:245-254|1984|10.1016/0041-008X(84)90309-0
39106|T||Thompson,J.H., C. Su, J.C. Shih, D. Aures, L. Choi, S. Butcher, W.S. Loskota, M. Simon, and D. Silva|Effects of Chronic Nicotine Administration and Age on Various Neurotransmitters and Associated Enzymes in Male Fischer-344 Rats|Toxicol. Appl. Pharmacol.27(1): 41-59|1974|10.1016/0041-008X(74)90172-0
39107|T||Thompson,N.P., R.A. Conover, and P.G. Orth|Chlorinated Hydrocarbon Residue in Soils, Spiders and Rats of the Hole-In-The-Donut Region as Indicators of Environmental Residues|Annu. Meet. Fla. State Hortic. Soc.89:100-103|1976|
39108|T||Thompson,N.P., and R.L. Emerman|Interaction of p,p' DDT with Histomoniasis in Bobwhites|Bull. Environ. Contam. Toxicol.11(5): 474-482|1974|10.1007/BF01685307
39109|T||Thompson,N.P., P.W. Rankin, and D.W. Johnston|Polychlorinated Biphenyls and p,p' DDE in Green Turtle Eggs from Ascension Island, South Atlantic Ocean|Bull. Environ. Contam. Toxicol.11(5): 399-406|1974|10.1007/BF01685294
39110|T||Thompson,R.C.|Animal Data on Plutonium Toxicity|Health Phys.29:511-519|1975|10.1097/00004032-197510000-00007
39111|T||Thompson,R.D., C.V. Grant, and D.J. Elias|Factors Affecting Red-Winged Blackbird Response to Methiocarb, an Avian Repellent|Pestic. Biochem. Physiol.15:166-171|1981|10.1016/0048-3575(81)90082-1
39112|T||Thompson,W.D., and R.S. Patrick|Collagen Prolyl Hydroxylase Levels in Experimental Paraquat Poisoning|Br. J. Exp. Pathol.59:288-291|1978|
39114|T||Thorpe,E., and A.I.T. Walker|The Toxicology of Dieldrin (HEOD).  2.  Comparative Long-Term Oral Toxicity Studies in Mice with Dieldrin, DDT, Phenobarbitone, Beta-BHC, and Gamma-BHC|Food Cosmet. Toxicol.11:433-442|1973|10.1016/0015-6264(73)90008-4
39116|T||Tietjen,H.P.|Zinc Phosphide - Its Development as a Control Agent for Black-Tailed Prairie Dogs|Special Scientific Report #195, U.S.Fish and Wildlife Service, Denver Wildlife Research Center.Denver, CO:14 p.|1976|
39117|T||Tilson,H.A., and P.A. Cabe|The Effects of Acrylamide Given Acutely or in Repeated Doses on Fore- and Hindlimb Function of Rats|Toxicol. Appl. Pharmacol.47:253-260|1979|10.1016/0041-008X(79)90319-3
39118|T||Timbrell,J.A., and J.R. Mitchell|Toxicity-Related Changes in Benzene Metabolism In Vivo|Xenobiotica7(7): 415-423|1977|10.3109/00498257709035801
39120|AT||Todd,G.C., W.R. Gibson, and C.C. Kehr|Oral Toxicity of Tebuthiuron (1-(5-Tert-Butyl-1,3,4-Thiadiazol-2-yl)-1,3-Dimethylurea) in Experimental Animals|Food Cosmet. Toxicol.12:461-470|1974|10.1016/0015-6264(74)90059-5
39121|T||Tofilon,P.J., and W.N. Piper|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Mediated Depression of Rat Testicular Heme Synthesis and Microsomal Cytochrome P-450|Biochem. Pharmacol.31(22): 3663-3666|1982|10.1016/0006-2952(82)90592-5
39122|T||Tomatis,L., V. Turusov, R.T. Charles, and M. Biocchi|Effect of Long-Term Exposure to 1,1-Dichloro-2,2-bis(p-Chlorophenyl)Ethylene, to 1,1-Dichloro-2,2-bis(p-Chlorophenyl)Ethane, and to the Two Chemicals Combined on Cf-1 Mice|J. Natl. Cancer Inst.52(3): 883-891|1974|10.1093/jnci/52.3.883
39124|T||Tomlin,A.D.|Effects on Soil Fauna of the Fungicide, Benomyl, Used to Control Earthworm Populations Around an Airport|Prot. Ecol.2:325-330|1981|
39125|T||Tomlinson,A.R., and C.D. Gooding|Wildlife Hazards from 1080 Baiting|J. Agric. West. Aust.12:268-270|1971|
39126|T||Torchio,P.F.|Relative Toxicity of Insecticides to the Honey Bee, Alkali Bee, and Alfalfa Leafcutting Bee (Hymenoptera: Apidae, Halictidae, Megachilidae)|J. Kans. Entomol. Soc.46(4): 446-453|1973|
39128|T||Torok,P.|Delayed Pregnancy in NMRI Mice Treated with PCB:  2,2'-Dichlorobiphenyl|Bull. Environ. Contam. Toxicol.16(1): 33-36|1976|10.1007/BF01753102
39129|T||Torok,P., and H. Kriegel|Distribution of 14C-PCB During Fetal Period:  Whole-Body Autoradiography of Pregnant Mice|Arch. Toxicol.33:199-207|1975|10.1007/BF00311273
39130|T||Tortoreto,M., P. Catalani, M. Bianchi, C. Blonda, and C. Pantarotto|Determination of 4,4'-Diaminodiphenylmethane in Blood by Gas-Liquid Chromatography with Electron-Capture Detection|J. Chromatogr.262:367-372|1983|10.1016/S0021-9673(01)88122-X
39131|T||Townsend,M.G., P.J. Bunyan, E.M. Odam, P.I. Stanley, and H.P. Wardall|Assessment of Secondary Poisoning Hazard of Warfarin to Least Weasels|J. Wildl. Manag.48(2): 628-632|1984|10.2307/3801205
39132|T||Traiger,G.J., and G.L. Plaa|Chlorinated Hydrocarbon Toxicity|Arch. Environ. Health28:276-278|1974|10.1080/00039896.1974.10666486
39134|T||Triolo,A.J., W.R. Lang, J.M. Coon, D. Lindstrom, and D.L. Herr|Effect of the Insecticides Toxaphene and Carbaryl on Induction of Lung Tumors by Benzo(a)pyrene in the Mouse|J. Toxicol. Environ. Health9:637-649|1982|10.1080/15287398209530192
39135|T||Triolo,A.J., E. Mata, and J.M. Coon|Effect of Acute Ethanol Intoxication on the Distribution of Dieldrin in Mice|Toxicol. Appl. Pharmacol.22:201-207|1972|10.1016/0041-008X(72)90169-X
39136|T||Tripathi,A.K.|DDT-Induced Neurosecretory Activity in Odoiporus longicollis Olivier|Environ. Pollut.28:77-80|1982|10.1016/0143-1471(82)90094-0
39137|T||Trivelpiece,W.Z., R.G. Butler, D.S. Miller, and D.B. Peakall|Reduced Survival of Chicks of Oil-Dosed Adult Leach's Storm-Petrels|Condor86:81-82|1984|10.2307/1367353
39138|T||Troetschler,R.G.|Effects of Nontarget Arthropods of Malathion Bait Sprays Used in California to Eradicate the Mediterranean Fruit Fly, Ceratitisu capitata (Wiedemann) (Dystera: Tephritidae)|Environ. Entomol.12:1816-1822|1983|10.1093/ee/12.6.1816
39140|T||Trottier,B.L., and I. Jankowska|In Vivo Study on the Storage of Fenitrothion in Chicken Tissues After Long-Term Exposure to Small Doses|Bull. Environ. Contam. Toxicol.24(4): 606-610|1980|10.1007/BF01608162
39145|T||Tucker,E.M., J.D. Young, and C. Crowley|Red Cell Glutathione Deficiency: Clinical and Biochemical Investigations Using Sheep as an Experimental Model System|Br. J. Haematol.48:403-415|1981|10.1111/j.1365-2141.1981.tb02732.x
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39147|T||Tucker,R.K., and H.A. Haegele|Eggshell Thinning as Influenced by Method of DDT Exposure|Bull. Environ. Contam. Toxicol.5(3): 191-194|1970|10.1007/BF01558308
39149|AT||Tulp,M.Th, G. Sundstrom, and O. Hutzinger|The Metabolism of 4,4'-Dichlorobiphenyl in Rats and Frogs|Chemosphere6:425-432|1976|10.1016/0045-6535(76)90041-2
39150|T||Tumasonis,C.F., B. Bush, and F.D. Baker|PCB Levels in Egg Yolks Associated with Embryonic Mortality and Deformity of Hatched Chicks|Arch. Environ. Contam. Toxicol.1(4): 312-324|1973|10.1007/BF01985433
39151|T||Tumasonis,C.F., D.N. McMartin, and B. Bush|Lifetime Toxicity of Chloroform and Bromodichloromethane When Administered Over a Lifetime in Rats|Ecotoxicol. Environ. Saf.9:233-240|1985|10.1016/0147-6513(85)90026-0
39152|T||Turk,D.E., and K.G. Hietman|Ingested Polychlorinated Biphenyl (Aroclor 1242) and Growth, Calcium and Zinc Absorption, and Intestinal Ultrastructure in Chicks|Poult. Sci.55:672-678|1976|10.3382/ps.0550672
39153|T||Turner,A.K.|Counts of Aerial-Feeding Birds in Relation to Pollution Levels|Bird Study29:221-226|1982|10.1080/00063658209476762
39157|T||Turner,J.C., and R.S. Green|Effect of Polychlorinated Biphenyls on Poultry.  II.  Induction of Liver Microsomal Enzymes|N. Z. J. Agric. Res.19:231-232|1976|10.1080/00288233.1976.10426771
39164|T||Turusov,V.S., N.E. Day, L. Tomatis, E. Gati, and R.T. Charles|Tumors in CF-1 Mice Exposed for Six Consecutive Generations to DDT|J. Natl. Cancer Inst.51(3): 983-997|1973|10.1093/jnci/51.3.983
39165|T||Tuttle,M.D.|Status, Causes of Decline, and Management of Endangered Graybats|J. Wildl. Manag.43(1): 1-17|1979|10.2307/3800631
39168|T||Ueyama,I., and I. Takase|Metabolic Behavior of O-Ethyl S,S-Diphenyl Phosphorodithiolate (Edifenphos) in Female Goat|Agric. Biol. Chem.39(9): 1719-1727|1975|
39171|T||Ungvary,G., A. Hudak, Z. Bors, and G. Folly|The Effect of Toluene on the Liver Assayed by Quantitative Morphological Methods|Exp. Mol. Pathol.25:49-59|1976|10.1016/0014-4800(76)90016-2
39172|T||Uphouse,L., G. Mason, and V. Hunter|Persistent Vaginal Estrus and Serum Hormones After Chlordecone (Kepone) Treatment of Adult Female Rats|Toxicol. Appl. Pharmacol.72:177-186|1984|10.1016/0041-008X(84)90301-6
39173|A||Urbauer,D., and K.P. Pruess|Drift of Terrestrial Arthropods in an Irrigation Canal Following a Wide-Area Application of ULV Malathion|J. Econ. Entomol.66(6): 1267-1268|1973|10.1093/jee/66.6.1267
39175|T||Uzoukwu,M., and S.D. Sleight|Effects of Dieldrin in Pregnant Sows|J. Am. Vet. Med. Assoc.160(12): 1641-1643|1972|
39176|T||Vainio,H., and A. Makinen|Styrene and Acrylonitrile Induced Depression of Hepatic Nonprotein Sulfhydryl Content in Various Rodent Species|Res. Commun. Chem. Pathol. Pharmacol.17(1): 115-124|1977|
39178|T||Valkonen,S., H. Savolainen, and J. Jarvisalo|Arsenic Distribution and Neurochemical Effects in Peroral Sodium Arsenite Exposure of Rats|Bull. Environ. Contam. Toxicol.30:303-308|1983|10.1007/BF01610137
39179|T||Van Bruwaene,R., G.B. Gerber, R. Kirchmann, and J. Colard|Metabolism of Antimony-124 in Lactating Dairy Cows|Health Phys.43(5): 733-738|1982|
39180|T||Van Bruwaene,R., G.B. Gerber, R. Kirchmann, J. Colard, and J. Van Kerkom|Metabolism of 51Cr, 54Mn, 59Fe and 60Co in Lactating Dairy Cows|Health Phys.46(5): 1069-1082|1984|10.1097/00004032-198405000-00007
39182|T||Van Gelder,G.A., B.E. Sandler, W.B. Buck, and G.G. Karas|Convulsive Seizures in Dieldrin Exposed Sheep During Photic Stimulation|Psychol. Rep.24:502-|1969|10.2466/pr0.1969.24.2.502
39184|T||Van Kampen,K.R.S., A.E.M. Johnson, L.F. James, R.A. Smart, and J.E. Rasmussen|Effects of Nerve Gas Poisoning in Sheep in Skull Valley, Utah|J. Am. Vet. Med. Assoc.156(8): 1032-1035|1970|
39185|T||Van Leeuwen,F.X.R., E.M. Den Tonkelaar, and M.J. Van Logten|Toxicity of Sodium Bromide in Rats:  Effects on Endocrine System and Reproduction|Food Chem. Toxicol.21(4): 383-389|1983|10.1016/0278-6915(83)90092-3
39186|T||Van Logten,M.J., M. Wolthuis, A.G. Rauws, R. Kroes, E.M. Den Tonkelaar, H. Berkvens, and G.J. Van Esch|Semichronic Toxicity Study of Sodium Bromide in Rats|Toxicology2:257-267|1974|10.1016/0300-483X(74)90017-1
39188|T||Van Miller,J.P., I.C. Hsu, and J.R. Allen|Distribution and Metabolism of 3H-2,5,2',5'-Tetrachlorobiphenyl in Rats|Proc. Soc. Exp. Biol. Med.148:682-687|1975|10.3181/00379727-148-38610
39189|T||Van Miller,J.P., R.J. Marlar, and J.R. Allen|Tissue Distribution and Excretion of Tritiated Tetrachlorodibenzo-p-Dioxin in Non-Human Primates and Rats|Food Cosmet. Toxicol.14:31-34|1976|10.1016/S0015-6264(76)80360-4
39190|T||Van Rhee,J.A.|Effects of Soil Pollution on Earthworms|Pedobiologia (Multiple Languages)17:201-208|1977|10.1016/S0031-4056(23)00171-3
39191|T||Van Velzen,A.C., W.B. Stiles, and L.F. Stickel|Lethal Mobilization of DDT by Cowbirds|J. Wildl. Manag.36(3): 733-739|1972|10.2307/3799424
39192|T||Van Vleet,J.F., G.D. Boon, and V.J. Ferrans|Induction of Lesions of Selenium-Vitamin E Deficiency in Weanling Swine Fed Silver, Cobalt, Tellurium, Zinc, Cadmium, and Vanadium|Am. J. Vet. Res.42(5): 789-799|1981|
39193|T||Van Vleet,J.F., and V.J. Ferrans|Furazolidone-Induced Congestive Cardiomyopathy in Ducklings:Regression of Cardiac Lesions After Cessation of Furazolido Ne Ingestion|Am. J. Vet. Res.44(6): 1007-1013|1983|
39194|T||Van Vleet,J.F., and V.J. Ferrans|Furazolidone-Induced Congestive Cardiomyopathy in Ducklings:Myocardial Ultrastructural Alterations|Am. J. Vet. Res.44(6): 1014-1023|1983|
39195|T||Van Vleet,J.F., and V.J. Ferrans|Congestive Cardiomyopathy Induced in Ducklings fed Graded Amounts of Furazolidone|Am. J. Vet. Res.44(1): 76-85|1983|
39196|T||Van Vleet,J.F., and V.J. Ferrans|Furazolidone-Induced Congestive Cardiomyopathy in Ducklings: Lack of Protection from Selenium, Vitamin E, and Taurine Supplements|Am. J. Vet. Res.44(6): 1143-1148|1983|
39197|T||Van Vleet,J.F., and V.J. Ferrans|Myocardial Ultrastructural Alterations in Ducklings fed Tellurium|Am. J. Vet. Res.43(11): 2000-2009|1982|
39200|T||Vangilder,L.D., and T.J. Peterle|Mallard Egg Quality:  Enhancement by Low Levels of Petroleum and Chlorinated Hydrocarbons|Bull. Environ. Contam. Toxicol.30:17-23|1983|10.1007/BF01610092
39201|T||Vargas,M.I., J.M. Lamas, and V. Alvarenga|Tibial Dyschondroplasia in Growing Chickens Experimentally Intoxicated with Tetramethylthiuram Disulfide|Poult. Sci.62:1195-1200|1983|10.3382/ps.0621195
39203|T||Varnagy,L.|Teratogenicity Testing of Parathion 20 WP, Methylparathion 18 WP and Wofatox 50 EC in Japanese Quail Embryos by Egg Immersion Technique|Acta Vet. Acad. Sci. Hung.29(1): 85-90|1981|
39205|T||Varnagy,L., R. Imre, T. Fancsi, and A. Hadhazy|Teratogenicity of Methylparathion 18 WP and Wofatox 50 EC in Japanese Quail and Pheasant Embryos, with Particular Reference to Osteal and Muscular Systems|Acta Vet. Acad. Sci. Hung.30(1-3): 135-146|1982|
39206|T||Varty,I.W.|Long-Term Effects of Fenitrothion Spray Programs on Non-Target Terrestrial Arthropods|In: Roberts,J.R.et Al (Eds) Proceedings of A Symposium on Fenitrothion: the Long-Term Effects of Its Use in Forest Ecosystems Environmental Secretariat, Ottawa, Ont., Can.SNRCC-CNRC:343-375|1977|
39207|T||Vassilieff,I., and D.J. Ecobichon|Acute Toxicity of Aminocarb in Male Rats and Inhibition of Tissue Esterases|Bull. Environ. Contam. Toxicol.31:326-330|1983|10.1007/BF01608707
39209|T||Vecchi,A., M. Sironi, M.A. Canegrati, M. Recchia, and S. Garattini|Immunosuppressive Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Strains of Mice with Different Susceptiblity to Induction of Aryl Hydrocarbon Hydroxylase|Toxicol. Appl. Pharmacol.68:434-441|1983|10.1016/0041-008X(83)90288-0
39211|T||Vengris,V.E., and C.J. Mare|Lead Poisoning in Chickens and the Effect of Lead on Interferon and Antibody Production|Can. J. Comp. Med.38(3): 328-335|1974|
39214|T||Verlangieri,A.J., J.J. Meyer, and J.C. Kapeghian|Effect of Dietary Protein on Locomotor Activity During Chronic Lead Exposure in Male and Female Rats|Bull. Environ. Contam. Toxicol.30(2): 158-164|1983|10.1007/BF01610115
39215|T||Verma,M.P., R.P. Sharma, and J.C. Street|Hepatic and Renal Metallothionein Concentrations in Cows, Swine, and Chickens Given Cadmium and Lead in Feed|Am. J. Vet. Res.39(12): 1911-1915|1978|
39220|T||Vermeer,K., and R.W. Risebrough|Additional Information on Egg Shell Thickness in Relation To DDE Concentrations in Great Blue Heron Eggs|Can. Field Nat.86:384-385|1972|10.5962/p.343651
39222|T||Verschoyle,R.D., and W.N. Aldridge|Structure-Activity Relationships of Some Pyrethroids in Rats|Arch. Toxicol.45(4): 325-329|1980|10.1007/BF00293813
39223|T||Verschuuren,H.G., R. Kroes, and G.J. Van Esch|Toxicity Studies on Tetrasul 1. Acute, Long-Term and Reproduction Studies|Toxicology1:63-78|1973|10.1016/0300-483X(73)90018-8
39224|T||Vesely,V., V. Drobnikova, L. Sprincl, and M. Peroutka|Residual Effects of Ethylene Oxide in Honey and Pollen|J. Apic. Res.20(1): 39-43|1981|10.1080/00218839.1981.11100471
39225|T||Vijayalaxmi|Cytogenetic Studies in Rats fed Irradiated Wheat|Int. J. Radiat. Biol.27(3): 283-285|1975|
39227|T||Villeneuve,D.C., D.L. Grant, K. Khera, D.J. Clegg, H. Baer, and W.E.J. Phillips|The Fetotoxicity of a Polychlorinated Biphenyl Mixture (Aroclor 1254) in the Rabbit and in the Rat|Environ. Physiol.1:67-71|1971|
39228|T||Villeneuve,D.C., D.L. Grant, and W.E.J. Phillips|Modification of Pentobarbital Sleeping Times in Rats Following Chronic PCB Ingestion|Bull. Environ. Contam. Toxicol.7(5): 264-272|1972|10.1007/BF01684521
39229|T||Villeneuve,D.C., D.L. Grant, W.E.J. Phillips, M.L. Clark, and D.J. Clegg|Effects of PCB Administration on Microsomal Enyme Activity in Pregnant Rabbits|Bull. Environ. Contam. Toxicol.6(2): 120-128|1971|10.1007/BF01540092
39232|T||Villeneuve,D.C., L. Ritter, G. Felsky, R.J. Norstrom, I.A. Marino, V.E. Valli, I. Chu, and G.C. Becking|Short-Term Toxicity of Photomirex in the Rat|Toxicol. Appl. Pharmacol.47:105-114|1979|10.1016/0041-008X(79)90077-2
39233|T||Villeneuve,D.C., M.J. Van Logten, E.M. Den Tokelaar, A.G. Rauws, R. Kroes, and G.J. Van Esch|The Combined Effect of Food Restriction and Parathion Exposure in Rats|Arch. Environ. Contam. Toxicol.7:37-45|1978|10.1007/BF02332036
39235|T||Villeneuve,D.C., R.F. Willes, J.B. Lacroix, and W.E.J. Phillips|Placental Transfer of 14C-Parathion Administered Intravenously to Sheep|Toxicol. Appl. Pharmacol.21:542-548|1972|10.1016/0041-008X(72)90010-5
39237|T||Villeneuve,D.C., A.P. Yagminas, I.A. Marino, and G.C. Becking|Toxicity Studies on Dehydroabietic Acid|Bull. Environ. Contam. Toxicol.18(1): 42-47|1977|10.1007/BF01686303
39239|T||Vinuela,E.|Influence of Cold and Carbon Dioxide Anaesthesia on the Susceptibility of Adults of Ceratitis capitata to Malathion|Entomol. Exp. Appl.32:296-298|1982|10.1111/j.1570-7458.1982.tb03221.x
39240|T||Vohra,P.|Fluoride Tolerance of Japanese Quail|Poult. Sci.52:391-393|1973|10.3382/ps.0520391
39242|T||Vos,J.G.|2,3,7,8-Tetrachlorodibenzo-Para-Dioxin: Effects and Mechanisms|Ecol. Bull.27:165-176|1978|
39243|T||Vos,J.G., and R.B. Beems|Dermal Toxicity Studies of Technical Polychlorinated Biphenyls and Fractions Thereof in Rabbits|Toxicol. Appl. Pharmacol.19(4): 617-633|1971|10.1016/0041-008X(71)90294-8
39244|T||Vos,J.G., and T. De Roij|Immunosuppressive Activity of a Polychlorinated Biphenyl Preparation on the Humoral Immune Response in Guinea Pigs|Toxicol. Appl. Pharmacol.21:549-555|1972|10.1016/0041-008X(72)90011-7
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39246|T||Vos,J.G., J.H. Koeman, H.L. Van der Maas, M.C. Ten Noever De Brauw, and R.H. De Vos|Identification and Toxicological Evaluation of Chlorinated Dibenzofuran and Chlorinated Naphthalene in Two Commercial Polychlorinated Biphenyls|Food Cosmet. Toxicol.8(6): 625-633|1970|10.1016/S0015-6264(70)80451-5
39247|T||Vos,J.G., J.G. Kreeftenberg, H.W.B. Engel, A. Minderhoud, and L.M. Van Noorle Jansen|Studies on 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Immune Suppression and Decreased Resistance to Infection:  Endotoxin Hypersensitivity, Serum Zinc Concentrations and Effect of Thymosin Treatment|Toxicology9:75-86|1978|10.1016/0300-483X(78)90033-1
39248|T||Vos,J.G., J.A. Moore, and J.G. Zinkl|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Immune System of Laboratory Animals|Environ. Health Perspect.5:149-162|1973|10.1289/ehp.7305149
39249|T||Vos,J.G., J.A. Moore, and J.G. Zinkl|Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in C57B1/6 Mice|Toxicol. Appl. Pharmacol.29(2): 229-241|1974|10.1016/0041-008X(74)90060-X
39250|T||Vos,J.G., and E. Notenboom-Ram|Comparative Toxicity Study of 2,4,5,2',4',5'-Hexachlorobiphenyl and a Polychlorinated Biphenyl Mixture in Rabbits|Toxicol. Appl. Pharmacol.23:563-578|1972|10.1016/0041-008X(72)90097-X
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39317|T||Webber,L.A.|A Census of Birds and Fish in Areas Treated with Mosquito Adulticides Versus Similar Untreated Areas|J. Fla. Anti-Mosq. Assoc.52:51-55|1981|
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39413|T||Wilson,R.D., D.A. Witzel, and J.M. Verlander|Somatosensory-Evoked Response of Ataxic Angora Goats in Suspected Haloxon-Delayed Neurotoxicity|Am. J. Vet. Res.43(12): 2224-2226|1982|
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39415|T||Wise,A.|Blood Lead Levels After Chronic Feeding to Mice of Lead Acetate with Calcium Phytate in the Diet|Bull. Environ. Contam. Toxicol.29:550-553|1982|10.1007/BF01669619
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39419|T||Wojcik,D.P., W.A. Banks, W.B. Wheeler, D.P. Jouvenaz, C.H. Van Middelem, and C.S. Lofgren|Mirex Residues in Nontarget Organisms After Application of Experimental Baits for Fire Ant Control, Southwest Georgia--1971-72|Pestic. Monit. J.9(3): 124-133|1975|
39421|AT||Wolfe,J.L., and R.J. Esher|Effects of Crude Oil on Swimming Behavior and Survival in the Rice Rat|Environ. Res.26:486-489|1981|10.1016/0013-9351(81)90223-1
39422|T||Wolff,T., and S. Hesse|Species Differences of Mixed-Function Oxidase Induction Between Rabbits and Rats After Pretreatment with Polychlorinatedbiphenyls (PCB's)|Biochem. Pharmacol.26:783-787|1977|10.1016/0006-2952(77)90225-8
39424|T||Wong,L.T., and G. Solomonraj|Biliary and Urinary Excretion of [14C]Warfarin in Rabbits|Xenobiotica10(3): 201-210|1980|10.3109/00498258009033746
39425|T||Woo,Y.|Carcinogenicity, Mutagenicity and Teratogenicity of Carbamates and Related Compounds: An Overview of Structure-Activity Relationships and Environmental Concerns|J. Environ. Sci. Health C. Environ. Carcinog. Ecotoxicol. Rev.1(1): 97-133|1983|10.1080/10590508309373313
39426|T||Wood,D.L., and J. Bitman|The Effect of Feeding Di-(2-Ethylhexyl) Phthalate (DEHP) on the Lipid Metabolism of Laying Hens|Lipids15(3): 151-156|1980|10.1007/BF02540961
39427|T||Wood,D.L., and J. Bitman|The Effect of Feeding Di-(2-Ethylhexyl)Phthalate and Related Compounds on Lipids in the Laying Hen|Poult. Sci.63:469-477|1984|10.3382/ps.0630469
39428|T||Wood,E.C., and A.N. Worden|The Influence of Dietary Copper Concentration on Hepatic Copper in the Duckling and the Chick|J. Sci. Food Agric.24:167-174|1973|10.1002/jsfa.2740240209
39429|T||Wood,G.W.|The Effects of the Fenitrothion Spray Program on Bees and Pollination|In: Roberts,J.R.et Al (Eds) NRCC/CNRC.Proceedings of A Symposium on Fenitrothion: the Long-Term Effects of Its Use in Forest Ecosystems, Environmental Secretariat, Ottawa, Ont., Can:321-333|1977|
39431|T||Wood,G.W., and D.N. Small|Trichlorfon:  A Selective Insecticide for Lowbush Blueberry|J. Econ. Entomol.71(2): 219-220|1978|10.1093/jee/71.2.219
39433|T||Woodham,D.W., C.A. Bond, E.H. Ahrens, and J.G. Medley|The Cumulation and Disappearance of Mirex Residues. III. In Eggs and Tissues of Hens fed Two Concentrations of the Insecticide in Their Diet|Bull. Environ. Contam. Toxicol.14(1): 98-104|1975|10.1007/BF01685606
39435|T||Woody,C.O., O.J. Ginther, and A.L. Pope|Unilateral Effect of Intrauterine Injection of Alocoholic Solutions on the Corpus Luteum of the Ewe|J. Anim. Sci.23(1): 63-65|1969|10.2527/jas1969.28163x
39439|T||Woolley,J.L., O. Murch, and C.W. Sigel|Thin Layer Chromatographic Screening Method for Sulfadiazineresidues in Calf Tissues, Plasma, and Urine|J. AOAC Int.61(3): 545-549|1978|10.1093/jaoac/61.3.545
39442|T||Word,J.D., L.C. Martin, D.L. Williams, E.I. Williams, R.J. Panciera, T.E. Nelson, and A.D. Tillman|Urea Toxicity Studies in the Bovine|J. Anim. Sci.29(5): 786-791|1969|10.2527/jas1969.295786x
39443|T||Worden,A.N., P.R.B. Noel, and L.E. Mawdesley-Thomas|Effect of Ronnel After Chronic Feeding to Dogs|Toxicol. Appl. Pharmacol.23:1-9|1972|10.1016/0041-008X(72)90199-8
39444|T||Worden,A.N., and E.C. Wood|The Effect of Carbarsone (33.6% W/V P-Ureidobenzene Arsonic Acid) on Bodyweight Gain, Food Conversion and Tissue Arseniclevels of Turkey Poults|J. Sci. Food Agric.24:35-41|1973|10.1002/jsfa.2740240107
39446|T||Woronecki,P.P., R.A. Dolbeer, C.R. Ingram, and A.R. Stickley|4-Aminopyridine Effectiveness Reevaluated for Reducing Blackbird Damage to Corn|J. Wildl. Manag.43(1): 184-191|1979|10.2307/3800650
39447|T||Woronecki,P.P., R.A. Dolbeer, and R.A. Stehn|Reponse of Blackbirds to Mesurol and Sevin Applications on Sweet Corn|J. Wildl. Manag.45(3): 693-701|1981|10.2307/3808702
39449|T||Wrathall,A.E., D.E. Wells, and P.H. Anderson|Effect of Feeding Dichlorvos to Sows in Mid-Pregnancy|Zentbl. Vetmed. Reihe A27:662-668|1980|10.1111/j.1439-0442.1980.tb01886.x
39450|T||Wrenn,T.R., J.R. Weyant, G.F. Fries, and J. Bitman|Influence of Dietary o,p'-DDT on Reproduction and Lactation of Ewes|J. Anim. Sci.33(6): 1288-1292|1971|10.2527/jas1971.3361288x
39451|T||Wrenn,T.R., J.R. Weyant, G.F. Fries, and J. Bitman|Effect of Several Dietary Levels of o,p'-DDT on Reproduction and Lactation in the Rat|Bull. Environ. Contam. Toxicol.6(5): 471-480|1971|10.1007/BF01684371
39452|T||Wrenn,T.R., J.R. Wood, G.F. Fries, and J. Bitman|Tests of Estrogenicity in Rats Fed Low Levels of o,p'-DDT|Bull. Environ. Contam. Toxicol.5(1): 61-66|1970|10.1007/BF01545127
39455|T||Wright,D.E., N.R. Towers, and D.P. Sinclair|Intake of Zinc Sulphate in Drinking Water by Grazing Beef Cattle|N. Z. J. Agric. Res.21(2): 215-221|1978|10.1080/00288233.1978.10427402
39456|T||Wright,F.C., J.S. Palmer, J.C. Riner, M. Haufler, J.A. Miller, and C.A. McBeth|Effects of Dietary Feeding or Organocadmium to Cattle and Sheep|J. Agric. Food Chem.25(2): 293-297|1977|10.1021/jf60210a007
39458|T||Wright,F.C., J.C. Riner, M. Haufler, J.S. Palmer, and R.L. Younger|Toxicity and Residual Aspects of Alkylmercury Fungicides in Livestock|In: F.W.Oehme (Ed.), Toxicity of Heavy Metals in the Environment, Marcel Dekker, Inc., NY and Basel:331-355|1978|
39459|T||Wright,F.C., J.C. Riner, and R.L. Younger|Residues in Chickens Given DDT|J. Agric. Food Chem.20(1): 17-19|1972|10.1021/jf60179a032
39460|T||Wright,F.C., R.L. Younger, and J.C. Riner|Residues of Mercury in Tissues and Eggs of Chickens Given Oral Doses of Panogen 15|Bull. Environ. Contam. Toxicol.12(3): 366-372|1974|10.1007/BF01709134
39461|T||Wright,F.C., R.L. Younger, J.C. Riner, C.A. McBeth, and M. Haufler|Effects of Daily Oral Subtoxic Doses of A Wet Lead-Based Paint on Cattle|Bull. Environ. Contam. Toxicol.16(2): 156-163|1976|10.1007/BF01685222
39466|T||Wszolek,P.C., D.E. Hogue, and D.J. Lisk|Accumulation of Fenvalerate Insecticide in Lamb Tissues|Bull. Environ. Contam. Toxicol.27:869-871|1981|10.1007/BF01611109
39467|T||Wszolek,P.C., N.A. Lafaunce, T. Wachs, and D.J. Lisk|Studies of Possible Bovine Urinary Excretion and Rumen Decomposition of Fenvalerate Insecticide and a Metabolite|Bull. Environ. Contam. Toxicol.26(2): 262-266|1981|10.1007/BF01622088
39468|T||Wszolek,P.C., D.H. Lein, and D.J. Lisk|Excretion of Fenvalerate Insecticide in the Milk of Diary Cows|Bull. Environ. Contam. Toxicol.24(2): 296-298|1980|10.1007/BF01608112
39469|T||Wurster,C.F.|Bird Mortality After Spraying for Dutch Elm Disease with DDT|Science148(3666): 90-91|1965|10.1126/science.148.3666.90
39470|T||Wurster,C.F.|DDT Proved Neither Essential Nor Safe|Bioscience23(2): 105-106|1973|10.1093/bioscience/23.2.105
39472|T||Wyatt,R.D., and B. Howarth|Effect of Dimethyl Sulfoxide on Embryonic Survival and Subsequent Chick Performance|Poult. Sci.55:579-582|1976|10.3382/ps.0550579
39474|T||Yadava,C.P., and F.R. Shaw|Residues of Rabon in Tissues and Egg Yolks of Poultry|J. Econ. Entomol.63(4): 1097-1099|1970|10.1093/jee/63.4.1097
39475|T||Yadava,C.P., F.R. Shaw, and D.L. Anderson|Effects of Massive Oral Dosages of Rabon on Hens|Poult. Sci.49(1): 321-323|1970|10.3382/ps.0490321
39476|T||Yagi,N., K. Kamohara, and Y. Itokawa|Effect of Difference in Diet Composition on the Toxicity of Polychlorinated Biphenyls|Bull. Environ. Contam. Toxicol.34:709-714|1985|10.1007/BF01609797
39478|T||Yamamoto,R.S., G.M. Williams, H.H. Frankel, and J.H. Weisburger|8-Hydroxyquinoline:  Chronic Toxiciy and Inhibitory Effect On the Carcinogenicity of N-2-Fluorenylacetamide|Toxicol. Appl. Pharmacol.19:687-698|1971|10.1016/0041-008X(71)90300-0
39480|T||Yap,T.N., W.G. Pond, J.F. Wu, G.S. Stoewsand, P.C. Wszolek, and D.J. Lisk|Nutritional and Toxicological Studies with Growing Pigs Fed Aquatic Plant Rations|Arch. Environ. Contam. Toxicol.8:613-619|1979|10.1007/BF01055041
39481|T||Yarrington,J.T., C.C. Capen, H.E. Black, R. Re, J.T.,Jr. Potts, and W.B. Geho|Effect of Ethane-1-Hydroxy-1,1-Diphosphonate (EHDP) on the Ultrastructure of Parathyroid Glands and Plasma Immunoreactive Parathyriod Hormone in Pregnant Cows Fed a Low Calcium Diet|Lab. Invest.36(4): 402-412|1977|
39482|T||Yasuda,M., and H. Maeda|Teratogenic Effects of 4-Chloro-2-Methylphenoxyacetic Acid Ethylester (MCPEE) in Rats|Toxicol. Appl. Pharmacol.23:326-333|1972|10.1016/0041-008X(72)90193-7
39483|T||Yawetz,A., I. Sidis, and A. Gasith|Metabolism of Parathion and Brain Cholinesterase Inhibition in Aroclor 1254-Treated and Untreated Caspian Terrapin (Mauremys Caspica Rivulata, Emydidae, Chelonia) in Comparison with Two Species of Wild Birds|Comp. Biochem. Physiol. C Comp. Pharmacol.75:377-382|1983|10.1016/0742-8413(83)90209-8
39485|T||Yllner,S.|Metabolism of 1,1,2,2-Tetrachloroethane-14C in the Mouse|Acta Pharmacol. Toxicol.29:499-512|1971|10.1111/j.1600-0773.1971.tb00624.x
39489|T||Yoshida,T., M. Nomura, Y. Suzuki, and M. Uchiyama|Inhibition of Hepatic UDP-Glucuronyltransferase Activity by Organophosphate Insecticides and by Carbon Disulfide in Mice|Bull. Environ. Contam. Toxicol.15(4): 421-424|1976|10.1007/BF01685065
39490|T||Yoshiki,S., M. Kimura, and M. Suzuki|Bone and Kidney Lesions in Experimental Cadmium Intoxication|Arch. Environ. Health30:559-562|1975|10.1080/00039896.1975.10666776
39491|T||Yoshimura,H., and H. Yamamoto|Metabolic Studies on Polychlorinated Biphenyls. I. Metabolic Fate of 3,4,3',4'-Tetrachlorobiphenyl in Rats|Chem. Pharm. Bull.21(5): 1168-1169|1973|10.1248/cpb.21.1168
39495|T||Young,S.Y., and R.S. Berger|The Metabolism of Bayer 9017 in Calves|J. Econ. Entomol.62(4): 929-933|1969|10.1093/jee/62.4.929
39496|T||Younger,R.L.|Effects of Three Aziridine Alkylating Compounds on the Gross Development of Chicken Embryos|Toxicol. Appl. Pharmacol.24:423-433|1973|10.1016/0041-008X(73)90049-5
39497|T||Younger,R.L., and H.R. Crookshank|Chronic Exposure of Sheep to Silver Iodide|Water Air Soil Pollut.9:281-287|1978|10.1007/BF00280676
39498|T||Yu,M.H., and C.J. Driver|The Effects of Fluoride on the Growth and L-Ascorbic Acid Levels of Tissues from the Domestic Chicken (Gallus Domesticus)|Fluoride11(2): 60-67|1978|
39499|T||Zabik,M.E., C. Beebe, and R. Schemmel|Effect of Dam's Diet on PCB Accumulation in Nursing Osborne Mendel Pups|Arch. Environ. Contam. Toxicol.4:246-256|1976|10.1007/BF02221027
39500|T||Zabik,M.E., and L.,Jr. Dugan|Location of Lindane, Dieldrin, and DDT Compounds in Eggs|J. Agric. Food Chem.19(5): 904-908|1971|10.1021/jf60177a012
39501|T||Zabik,M.E., and L. Dugan|Location of Lindane, Dieldrin, and DDT in Eggs|Poult. Sci.49(5): 1452-1453|1970|
39502|T||Zabik,M.E., and M.J. Zabik|Dioxin Levels in Raw and Cooked Liver, Loin Steaks, Round, and Patties from Beef fed Technical Grade Pentachlorophenol|Bull. Environ. Contam. Toxicol.24:344-349|1980|10.1007/BF01608120
39504|T||Zareba,G., and J. Chmielnicka|Aminolevulinic Acid Dehydratase Activity in the Blood of Rats Exposed to Tin and Zinc|Ecotoxicol. Environ. Saf.9:40-46|1985|10.1016/0147-6513(85)90032-6
39505|T||Zavanella,T., N.P. Zaffaroni, and E. Arias|Abnormal Limb Regeneration in Adult Newts Exposed to the Fungicide Maneb 80.  A Histological Study|J. Toxicol. Environ. Health13:735-745|1984|10.1080/15287398409530535
39506|T||Zayed,S.M.A.D., I.Y. Mostafa, and B. Hegazi|Alkylation of Urinary Guanine in Mice by the Organophosphorus Insecticide Tetrachlorvinphos|Ecotoxicol. Environ. Saf.8:205-207|1984|10.1016/0147-6513(84)90022-8
39507|T||Zeakes,S.J., M.F. Hansen, and R.J. Robel|Increased Susceptibility of Bobwhites (Colinus virginianus) to Histomonas meleagridis After Exposure to Sevin Insecticide|Avian Dis.25(4): 981-987|1981|10.2307/1590073
39508|T||Zemaitis,M.A., K.M. Oberholser, and F.E. Greene|Effects of Acute and Chronic Dieldrin Administration on Liver and Plasma Esterases of the Rat|Toxicol. Appl. Pharmacol.37(1): 29-37|1976|10.1016/S0041-008X(76)80005-1
39510|T||Zenick,H., L. Hastings, M. Goldsmith, and R.J. Niewenhuis|Chronic Cadmium Exposure: Relation to Male Reproductive Toxicity and Subsequent Fetal Outcome|J. Toxicol. Environ. Health9:377-387|1982|10.1080/15287398209530171
39511|T||Zepp,R.L.,Jr., O.T. Sanders, and R.L. Kirkpatrick|Reduction of Pentobarbital-Induced Sleeping Times in PCB-Treated Cottontail Rabbits|Bull. Environ. Contam. Toxicol.12(5): 518-521|1974|10.1007/BF01684912
39515|T||Zinkl,J.G., D.A. Jessup, A.I. Bischoff, T.E. Lew, and E.B. Wheeldon|Fenthion Poisoning of Wading Birds|J. Wildl. Dis.17(1): 117-119|1981|10.7589/0090-3558-17.1.117
39516|T||Zinkl,J.G., P.D. Mack, M.E. Mount, and P.J. Shea|Brain Cholinesterase Activity and Brain and Liver Residues in Wild Birds of a Forest Sprayed with Acephate|Environ. Toxicol. Chem.3:79-88|1984|10.1002/etc.5620030110
39518|T||Zinkl,J.G., R.B. Roberts, C.J. Henny, and D.J. Lenhart|Inhibition of Brain Cholinesterase Activity in Forest Birds and Squirrels Exposed to Aerially Applied Acephate|Bull. Environ. Contam. Toxicol.24(5): 676-683|1980|10.1007/BF01608173
39519|T||Zinkl,J.G., R.B. Roberts, P.J. Shea, and J. Lasmanis|Toxicity of Acephate and Methamidophos to Dark-Eyed Juncos|Arch. Environ. Contam. Toxicol.10:185-192|1981|10.1007/BF01055620
39520|T||Zitko,V.|Determination, Toxicity and Environmental Levels of Phthalate Plasticizers|J. Fish. Res. Board Can.344:40 p.|1972|
39523|T||Zmudski,J., G.R. Bratton, C. Womac, and L. Rowe|Lead Poisoning in Cattle: Reassessment of the Minimum Toxic Oral Dose|Bull. Environ. Contam. Toxicol.30:435-441|1983|10.1007/BF01610157
39524|T||Zmudzki,J., G.R. Bratton, C. Womac, and L.D.,Jr. Rowe|Low Dose Lead Effects in Calves Fed a Whole Milk Diet|Bull. Environ. Contam. Toxicol.35:612-619|1985|10.1007/BF01636563
39527|T||Zulalian,J., D.A. Champagne, R.S. Wayne, and R.C. Blinn|Absorption, Excretion, and Metabolism of 1,3-Bis(P-Chlorobenzylideneamino)Guanidine Hydrochloride (Robenz Robenidine Hydrochloride) in the Chicken|J. Agric. Food Chem.23(4): 724-730|1975|10.1021/jf60200a049
39528|T||Zulalian,J., S.J. Stout, C.N. Babcock, L.M. Lucas, P. Miller, and E. Orloski|A Study of the Absorption, Excretion, Metabolism, and Residues in Tissues in Rats fed Carbon-14-Labeled Sulfamethazine|J. Agric. Food Chem.32:1434-1440|1984|10.1021/jf00126a055
39530|T||Dahlen,J.H., and A.O. Haugen|Acute Toxicity of Certain Insecticides to the Bobwhite Quail and Mourning Dove|J. Wildl. Manag.18(4): 477-481|1954|10.2307/3797082
39532|T||Genelly,R.E., and R.L. Rudd|Chronic Toxicity of DDT, Toxaphene, and Dieldrin to Ring-Necked Pheasants|Calif. Fish Game42(1): 5-14|1956|
39535|T||Batra,K., O.P. Taneja, and L.D. Khemani|Acute Oral Toxicity of Aluminum Phosphide in Male Albino Rats (Wistar)|Bull. Environ. Contam. Toxicol.52:662-666|1994|10.1007/BF00195484
39537|T||Gary,N.E., and K. Lorenzen|Effect of Methamidophos on Honey Bees (Hymenoptera: Apidae) During Alfalfa Pollination|J. Econ. Entomol.82(4): 1067-1072|1989|10.1093/jee/82.4.1067
39538|T||Truelove,J., and F. Iverson|Serum Domoic Acid Clearance and Clinical Observations in the Cynomolgus Monkey and Sprague-Dawley Rat Following a Single IV Dose|Bull. Environ. Contam. Toxicol.52:479-486|1994|10.1007/BF00194132
39539|T||Buerger,T.T., S.R. Mortensen, R.J. Kendall, and M.J. Hooper|Metabolism and Acute Toxicity of Methyl Parathion in Pen-Reared and Wild Northern Bobwhites|Environ. Toxicol. Chem.13(7): 1139-1143|1994|
39541|T||Antony,M., Y. Shukla, and N.K. Mehrotra|Preliminary Carcinogenic and Cocarcinogenic Studies on Captan Following Topical Exposure in Mice|Bull. Environ. Contam. Toxicol.52:203-211|1994|10.1007/BF00198489
39542|T||Potter,D.A., P.G. Spicer, C.T. Redmond, and A.J. Powell|Toxicity of Pesticides to Earthworms in Kentucky Bluegrass Turf|Bull. Environ. Contam. Toxicol.52:176-181|1994|10.1007/BF00198485
39543|T||De Gandarias,J.M., E. Echevarria, F. Martinez-Garcia, L. Martinez-Millan, and L. Casis|Brain Met-Enkephalin Immunostaining After Subacute and Subchronic Exposure to Benzene|Bull. Environ. Contam. Toxicol.52:163-170|1994|10.1007/BF00197373
39544|T||McMurry,S.T., R.L. Lochmiller, M.R. Vestey, and C.W.,Jr. Qualls|Immunological Responses of Weaning Cotton Rats (Sigmodon hispidus) to Acute Benzene and Cyclophosphamide Exposure|Bull. Environ. Contam. Toxicol.52:155-162|1994|10.1007/BF00197372
39546|T||Hassan,A.A.M., Y. Minatogawa, T. Hirai, and R. Kido|Changes of Some Serum Parameters and Amino Acids Content in Rats After Chronic Sublethal Doses of Dimethoate|Arch. Environ. Contam. Toxicol.27:256-259|1994|10.1007/BF00214271
39547|T||Marden,B.T., A. Fairbrother, and J.K. Bennett|Interlaboratory Comparison of Cholinesterase Assay Measurements|Environ. Toxicol. Chem.13(11): 1761-1768|1994|10.1002/etc.5620131107
39548|T||Weiss,D.J., R.S. Geary, W. Wustenberg, T.J. Bucci, V. Perman, I.P. Baumel, and J.C. Dacre|The Comparative Metabolism of Diisopropyl Methylphosphonate in Mink and Rats|Arch. Environ. Contam. Toxicol.27:420-425|1994|10.1007/BF00213181
39549|T||Wiles,J.A., and P.C. Jepson|Substrate-Mediated Toxicity of Deltamethrin Residues to Beneficial Invertebrates:  Estimation of Toxicity Factors to Aid Risk Assessment|Arch. Environ. Contam. Toxicol.27:384-391|1994|10.1007/BF00213175
39551|T||Helson,B.V., K.N. Barber, and P.D. Kingsbury|Laboratory Toxicology of Six Forestry Insecticides to Four Species of Bee (Hymenoptera: Apoidea)|Arch. Environ. Contam. Toxicol.27(1): 107-114|1994|10.1007/BF00203895
39553|T||McMurry,S.T., R.L. Lochmiller, M.R. Vestey, and C.W.,Jr. Qualls|Cellular Immune Responses of Nutritionally Stressed Juvenile Cotton Rats (Sigmodon hispidus) During Acute Benzene Exposure|Arch. Environ. Contam. Toxicol.27:14-19|1994|10.1007/BF00203881
39554|T||Kroll,R.B., G.D. Robinson, and J.H. Chung|Characterization of Trihalomethane (THM)-Induced Renal Dysfunction in the Rat. II:  Relative Potency of THMs in Promoting Renal Dysfunction|Arch. Environ. Contam. Toxicol.27:5-7|1994|
39555|T||Kroll,R.B., G.D. Robinson, and J.H. Chung|Characterization of Trihalomethane (THM)-Induced Renal Dysfunction in the Rat. I:  Effects of THM on Glomerular Filtration and Renal Concentrating Ability|Arch. Environ. Contam. Toxicol.27:1-4|1994|
39556|T||Jonsson,C.J., B.O. Lund, B. Brunstrom, and I. Brandt|Toxicity and Irreversible Binding of Two DDT Metabolites-3-Methylsulfonyl-DDE and o,p'-DDD-in Adrenal Interrenal Cells in Birds|Environ. Toxicol. Chem.13(8): 1303-1310|1994|
39560|T||Tobin,M.E.|Cues Used by European Starlings for Detecting Methiocarb-Treated Grapes|J. Wildl. Manag.49(4): 1102-1108|1985|10.2307/3801402
39561|T||McEwen,L.C., and R.L. Brown|Acute Toxicity of Dieldrin and Malathion to Wild Sharp-Tailed Grouse|J. Wildl. Manag.30(3): 604-611|1966|10.2307/3798755
39564|T||Fries,G.F., G.S. Marrow, C.N. Detering, L.R. Prewitt, and R.M. Cook|Distribution of Polybrominated Biphenyl Residues in Tissues of Dairy Cattle|J. Dairy Sci.58(4): 764-765|1975|
39565|T||Bruggers,R.L., P. Sultana, J.E. Brooks, L.A. Fiedler, M. Rimpel, S. Manikowski, N. Shivanarayan, and N. Santhaiah|Preliminary Investigations of the Effectiveness of Trimethacarb as a Bird Repellent in Developing Countries|In: D.O.Clark (Ed.), Proc.of the 11th Vertebrate Pest Conference, Red Lion Motor Inn, March 6-8, 1984, Sacramento, CA:92-203|1984|
39567|T||Greig-Smith,P.W., and C.M. Rowney|Effects of Colour on the Aversions of Starlings and House Sparrows to Five Chemical Repellents|Crop Prot.6:402-409|1987|10.1016/0261-2194(87)90075-5
39568|T||Connor,E.E., P.F. Scanlon, and R.L. Kirkpatrick|Bioavailability of Lead from Contaminated Sediment in Northern Bobwhites, Colinus virginianus|Arch. Environ. Contam. Toxicol.27(1): 60-63|1994|10.1007/BF00203889
39570|T||Spyker,J.M., and D.L. Avery|Neurobehavioral Effects of Prenatal Exposure to the Organophosphate Diazinon in Mice|J. Toxicol. Environ. Health3:989-1002|1977|10.1080/15287397709529633
39572|T||Garrison,M.V., and J.L. Libay|Potential of Methiocarb Seed Treatment for Protection of Sprouting Rice from Philippine Bird Pests, Lonchura spp.|Philipp. Agric.65:363-366|1982|
39573|T||Schafer,E.W., R.I. Starr, D.J. Cunningham, and T.J. Decino|Substituted Phenyl N-Methylcarbamates as Temporary Immobilizing Agents for Birds|J. Agric. Food Chem.15(2): 287-289|1967|10.1021/jf60150a022
39574|T||Tobin,M.E., and R.W. DeHaven|Repellency of Methiocarb-Treated Grapes to Three Species of Birds|Agric. Ecosyst. Environ.11:291-297|1984|10.1016/0167-8809(84)90002-1
39575|T||Lareau,M.J., and C. Vincent|Effect of Methiocarb-Treated Blueberries on the Field Behaviour of Frugivorous Birds|Acta Hortic.165:177-183|1985|10.17660/ActaHortic.1985.165.23
39577|T||Tobin,M.E., R.A. Dolbeer, and C.M. Webster|Alternate-Row Treatment with the Repellent Methiocarb to Protect Cherry Orchards from Birds|Crop Prot.8:461-465|1989|10.1016/0261-2194(89)90076-8
39578|T||Meyers,S.M., and J.D. Gile|Mallard Reproductive Testing in a Pond Environment:  A Preliminary Study|Arch. Environ. Contam. Toxicol.15(6): 757-761|1986|10.1007/BF01054923
39579|T||Holmes,S.B., D.G. Thompson, K.L. Wainio-Keizer, S.S. Capell, and B. Staznik|Effects of Lethal and Sublethal Concentrations of the Herbicide, Triclopyr Butoxyethyl Ester, in the Diet of Zebra Finches|J. Wildl. Dis.30(3): 319-327|1994|10.7589/0090-3558-30.3.319
39580|T||Trust,K.A., J.R. Fowles, M.J. Hooper, and A. Fairbrother|Cyclophosphamide Effects on Immune Function of European Starlings|J. Wildl. Dis.30(3): 328-334|1994|10.7589/0090-3558-30.3.328
39581|T||Turkall,R.M., G.A. Skowronski, A.M. Kadry, and M.S. Abdel-Rahman|A Comparative Study of the Kinetics and Bioavailability of Pure and Soil-Adsorbed Naphthalene in Dermally Exposed Male Rats|Arch. Environ. Contam. Toxicol.26:504-509|1994|10.1007/BF00214154
39582|T||Stanley,T.R.,Jr., J.W. Spann, G.J. Smith, and R. Rosscoe|Main and Interactive Effects of Arsenic and Selenium on Mallard Reproduction and Duckling Growth and Survival|Arch. Environ. Contam. Toxicol.26(4): 444-451|1994|10.1007/BF00214145
39583|T||Shirazi,M.A., R.S. Bennett, and R.K. Ringer|An Interpretation of Toxicity Response of Bobwhite Quail with Respect to Duration of Exposure|Arch. Environ. Contam. Toxicol.26:417-424|1994|10.1007/BF00214142
39587|T||Gary,N.E., and E.C. Mussen|Impact of Mediterranean Fruit Fly Malathion Bait Spray on Honey Bees|Environ. Entomol.13(3): 711-717|1984|10.1093/ee/13.3.711
39588|T||Newton,I., and M.B. Haas|Pollutants in Merlin Eggs and Their Effects on Breeding|Br. Birds81:258-269|1988|
39589|T||Driver,C.J., M.W. Ligotke, P. Van Voris, B.D. McVeety, B.J. Greenspan, and D.B. Drown|Routes of Uptake and Their Relative Contribution to the Toxicologic Response of Northern Bobwhite (Colinus virginianus) to an Organophosphate Pesticide|Environ. Toxicol. Chem.10:21-33|1991|10.1002/etc.5620100104
39590|T||Forsyth,D.J.|Effects of Dietary Fenitrothion on the Behavior and Survival of Captive White-Throated Sparrows|In: I.W.Varty (Compiler), Environ. Surveillance in New Brunswick, 1978-79, Comm. for Environ. Monit. of Forest Insect Control Operations, Dep. Forest Res., Univ. New Brunswick, Fredericton, N.B., Canada:27-28|1980|
39591|T||Kononen,D.W., J.R. Hochstein, and R.K. Ringer|A Quantitative Method for Evaluating Avian Food Avoidance Behavior|Environ. Toxicol. Chem.5:823-830|1986|10.1002/etc.5620050907
39592|T||Grue,C.E., and B.K. Shipley|Sensitivity of Nestling and Adult Starlings to Dicrotophos, an Organophosphate Pesticide|Environ. Res.35:454-465|1984|10.1016/0013-9351(84)90152-X
39594|T||Enderson,J.H., and D.D. Berger|Pesticides:  Eggshell Thinning and Lowered Production of Young in Prairie Falcons|Bioscience20(6): 355-356|1970|10.2307/1295071
39596|T||Lambertini,M., and C. Leonzio|Pollutant Levels and Their Effects on Mediterranean Seabirds|NATO ASI Ser. Ser. F Comp. Syst. Sci.12:359-378|1986|
39598|T||Pascual,J.A.|No Effects of a Forest Spraying of Malathion on Breeding Blue Tits (Parus caeruleus)|Environ. Toxicol. Chem.13(7): 1127-1131|1994|10.1002/etc.5620130713
39600|T||Ratcliffe,D.A.|Decrease in Eggshell Weight in Certain Birds of Prey|Nature215:208-210|1967|10.1038/215208a0
39601|T||Galindo,J.C., R.J. Kendall, C.J. Driver, and T.E.,Jr. Lacher|The Effect of Methyl Parathion on Susceptibility of Bobwhite Quail (Colinus virginianus) to Domestic Cat Predation|Behav. Neural Biol.43:21-36|1985|10.1016/S0163-1047(85)91454-2
39604|T||Crum,J.A., R.J. Aulerich, D. Polin, W.E. Braselton, and S.J. Bursian|The Efficacy of Mineral Oil Combined with Feed Restriction in Enhancing the Elimination of Heptachlor Epoxide from Mink (Mustela vison)|Arch. Environ. Contam. Toxicol.26:374-380|1994|10.1007/BF00203565
39605|T||Krechniak,J., B. Englot, K. Wrzesniowska, and E. Hac|Interaction of Lindane and Carbaryl on Hepatic Microsomal Enzymes in Rats|Bull. Environ. Contam. Toxicol.52:927-934|1994|10.1007/BF00200704
39607|T||Nagabhushanam,M., P.B. Suhasini, M.R. Rao, and K.J. Rao|Effect of Heptachlor on Certain Aspects of Carbohydrate Metabolism in Swiss Albino Mice|Bull. Environ. Contam. Toxicol.52:905-911|1994|10.1007/BF00200701
39609|T||Duffy,L.K., R.T. Bowyer, J.W. Testa, and J.B. Faro|Evidence for Recovery of Body Mass and Haptoglobin Values of River Otters Following the Exxon Valdez Oil Spill|J. Wildl. Dis.30(3): 421-425|1994|10.7589/0090-3558-30.3.421
39610|T||Hale,M.B., S.J. Griesemer, and T.K. Fuller|Immobilization of Porcupines with Tiletamine Hydrochloride and Zolazepam Hydrochloride (Telazol)|J. Wildl. Dis.30(3): 429-431|1994|10.7589/0090-3558-30.3.429
39611|T||Lari,L., A. Massi, M.C. Fossi, S. Casini, C. Leonzio, and S. Focardi|Evaluation of Toxic Effects of the Organophosphorus Insecticide Azinphos-Methyl in Experimentally and Naturally Exposed Birds|Arch. Environ. Contam. Toxicol.26:234-239|1994|10.1007/BF00224810
39612|T||Coenen,T.M.M., I.C. Enninga, D.A. Cave, and J.C.M. Van der Hoeven|Hematology and Serum Biochemistry of Japanese Quail Fed Dietary Tri-n-Butyltin Oxide During Reproduction|Arch. Environ. Contam. Toxicol.26:227-233|1994|10.1007/BF00224809
39613|T||Nosek,J.A., S.R. Craven, J.R. Sullivan, J.R. Olson, and R.E. Peterson|Metabolism and Disposition of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Ring-Necked Pheasant Hens, Chicks, and Eggs|J. Toxicol. Environ. Health35:153-164|1992|10.1080/15287399209531605
39614|T||Moore,R.W., C.R. Jefcoate, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Inhibits Steroidogenesis in the Rat Testis by Inhibiting the Mobilization of Cholesterol to Cytochrome P450SCC|Toxicol. Appl. Pharmacol.109:85-97|1991|10.1016/0041-008X(91)90193-I
39615|T||Enan,E., P.C.C. Liu, and F. Matsumura|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Causes Reduction of Glucose Transporting Activities in the Plasma Membranes of Adipose Tissue and Pancreas from the Guinea Pig|J. Biol. Chem.267(28): 19785-19791|1992|10.1016/S0021-9258(19)88622-2
39617|T||Maria,C.S., J. Moreno, and J.L. Lopez-Campos|Hepatotoxicity Induced by the Herbicide Atrazine in the Rat|J. Appl. Toxicol.7(6): 373-378|1987|10.1002/jat.2550070605
39619|T||Brewster,D.W., and F. Matsumura|Differential Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Adipose Tissue Lipoprotein Lipase Activity in the Guinea Pig, Rat, Hamster, Rabbit, and Mink|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 49-53|1989|10.1016/0742-8413(89)90009-1
39620|T||Brunstrom,B., D. Broman, and C. Naf|Embryotoxicity of Polycyclic Aromatic Hydrocarbons (PAHs) in Three Domestic Avian Species, and of PAHs and Coplanar Polychlorinated Biphenyls (PCBs) in the Common Eider|Environ. Pollut.67(2): 133-143|1990|10.1016/0269-7491(90)90078-Q
39621|T||Bird,D.M., D. Carriere, and D. Lacombe|The Effect of Dietary Sodium Fluoride on Internal Organs, Breast Muscle, and Bones in Captive American Kestrels (Falco sparverius)|Arch. Environ. Contam. Toxicol.22:242-246|1992|10.1007/BF00213292
39622|T||Martin,P.A., K.R. Solomon, D.J. Forsyth, H.J. Boermans, and N.D. Westcott|Effects of Exposure to Carbofuran-Sprayed Vegetation on the Behavior, Cholinesterase Activity and Growth of Mallard Ducklings (Anas platyrhynchos)|Environ. Toxicol. Chem.10:901-909|1991|
39623|T||Bennett,J.K., and R.S. Bennett|Effects of Dietary Methyl Parathion on Northern Bobwhite Egg Production and Eggshell Quality|Environ. Toxicol. Chem.9:1481-1485|1990|10.1002/etc.5620091207
39624|T||Aulerich,R.J., A.C. Napolitano, S.J. Bursian, B.A. Olson, and J.R. Hochstein|Chronic Toxicity of Dietary Fluorine to Mink|J. Anim. Sci.65:1759-1767|1987|10.2527/jas1987.6561759x
39625|T||French,M.C., C.W. Haines, and J. Cooper|Investigation into the Effects of Ingestion of Zinc Shot by Mallard Ducks (Anas platyrhynchos)|Environ. Pollut.47:305-314|1987|10.1016/0269-7491(87)90150-3
39627|T||Birnbaum,L.S., R.E. Morrissey, and M.W. Harris|Teratogenic Effects of 2,3,7,8-Tetrabromodibenzo-p-Dioxin and Three Polybrominated Dibenzofurans in C57BL/6N Mice|Toxicol. Appl. Pharmacol.107:141-152|1991|10.1016/0041-008X(91)90338-F
39628|T||Maguire,C.C., and B.A. Williams|Response of Thermal Stressed Bobwhite to Organophosphorus Exposure|Environ. Pollut.47:25-39|1987|10.1016/0269-7491(87)90119-9
39629|T||Bennett,J.K., S.E. Dominguez, and W.L. Griffis|Effects of Dicofol on Mallard Eggshell Quality|Arch. Environ. Contam. Toxicol.19:907-912|1990|10.1007/BF01055059
39631|T||Brunstrom,B.|Sensitivity of Embryos from Duck, Goose, Herring Gull, and Various Chicken Breeds to 3,3',4,4'-Tetrachlorobiphenyl|Poult. Sci.67:52-57|1988|10.3382/ps.0670052
39632|T||Couillard,C.M., and F.A. Leighton|Bioassays for the Toxicity of Petroleum Oils in Chicken Embryos|Environ. Toxicol. Chem.10:533-538|1991|10.1002/etc.5620100414
39633|T||Clark,D.R.,Jr.|Toxicity of Methyl Parathion to Bats:  Mortality and Coordination Loss|Environ. Toxicol. Chem.5:191-195|1986|10.1002/etc.5620050210
39635|T||Shull,L.R., G.F. Rush, B.A. Olson, S.D. Sleight, R.J. Aulerich, and J.A. Wisniewski|Biological and Induction Effects of Phenobarbital and 3-Methylcholanthrene in Mink (Mustela vison)|Drug Metab. Dispos.11(5): 441-445|1983|
39637|T||Bleavins,M.R., R.J. Aulerich, J.R. Hochstein, T.C. Hornshaw, and A.C. Napolitano|Effects of Excessive Dietary Zinc on the Intrauterine and Postnatal Development of Mink|J. Nutr.113:2360-2367|1983|10.1093/jn/113.11.2360
39638|T||Fleming,W.J., and C.E. Grue|Recovery of Cholinesterase Activity in Five Avian Species Exposed to Dicrotophos, an Organophosphorus Pesticide|Pestic. Biochem. Physiol.16:129-135|1981|10.1016/0048-3575(81)90045-6
39641|T||Spear,P.A., and T.W. Moon|Low Dietary Iodine and Thyroid Anomalies in Ring Doves, Streptopelia risoria, Exposed to 3,4,3',4'-Tetrachlorobiphenyl|Arch. Environ. Contam. Toxicol.14(5): 547-553|1985|10.1007/BF01055384
39642|T||Lundholm,C.E.|Influence of Chlorinated Hydrocarbons, Hg2+ and Methyl-Hg+ on Steroid Hormone Receptors from Eggshell Gland Mucosa of Domestic Fowls and Ducks|Arch. Toxicol.65:220-227|1991|10.1007/BF02307312
39643|T||Vincent,C., and M.J. Lareau|Effectiveness of Methiocarb and Netting for Bird Control in a Highbush Blueberry Plantation in Quebec, Canada|Crop Prot.12(5): 397-399|1993|10.1016/0261-2194(93)90085-W
39645|T||Eroschenko,V.P., and W.O. Wilson|Cellular Changes in the Gonads, Livers and Adrenal Glands of Japanese Quail as Affected by the Insecticide Kepone|Toxicol. Appl. Pharmacol.31:491-504|1975|10.1016/0041-008X(75)90273-2
39649|T||Byrne,J.J.|Influences of Polychlorinated Biphenyl Administration on Reproduction and Thyroid Function in Mink (Mustela vison)|Ph.D. Thesis, Michigan State University, East Lansing, MI:150 p.|1974|
39650|T||Buckner,C.H., D.G.H. Ray, and B.B. McLeod|The Effects of Pesticides on Small Forest Vertebrates of the Spruce Woods Provincial Forest, Manitoba|Manit. Entomol.7:37-45|1973|
39651|T||Aulerich,R.J., and R.K. Ringer|Toxic Effects of Dietary Polybrominated Biphenyls on Mink|Arch. Environ. Contam. Toxicol.8(4): 487-498|1979|10.1007/BF01056355
39654|T||Davison,K.L., and J.L. Sell|Dieldrin and DDT Effects on Reproduction and Some Hepatic Mixed-Function Oxidases in the Mallard Duck|Arch. Environ. Contam. Toxicol.2(4): 302-314|1974|10.1007/BF02047096
39656|T||Kolaja,G.J., and D.E. Hinton|Effects of DDT on Eggshell Quality and Calcium Adenosine Triphosphatase|J. Toxicol. Environ. Health3:699-704|1977|10.1080/15287397709529604
39658|T||Mehrle,P.M., M.T. Finley, J.L. Ludke, F.L. Mayer, and T.E. Kaiser|Bone Development in Black Ducks as Affected by Dietary Toxaphene|Pestic. Biochem. Physiol.10:168-173|1979|10.1016/0048-3575(79)90018-X
39659|T||Stickel,W.H., L.F. Stickel, and F.B. Coon|DDE and DDD Residues Correlated with Mortality of Experimental Birds|In: W.B.Deichmann, J.L.Radomski, and R.A.Penalver (Eds.), Inter-American Conferences on Toxicology and Occupational Medicine, 7th Conference, University of Miami, Miami, FL:287-294|1970|
39660|T||Heinz,G.H., D.J. Hoffman, A.J. Krynitsky, and D.M.G. Weller|Reproduction in Mallards Fed Selenium|Environ. Toxicol. Chem.6:423-433|1987|10.1002/etc.5620060603
39661|T||Bleavins,M.R., R.J. Aulerich, and R.K. Ringer|Polychlorinated Biphenyls (Aroclors 1016 and 1242):  Effects on Survival and Reproduction in Mink and Ferrets|Arch. Environ. Contam. Toxicol.9:627-635|1980|10.1007/BF01056942
39662|T||Perviz,D.A., and M. Rajyasree|Effect of Organophosphorus Compound on Nitrogenous End Product of Swiss Albino Mice|Environ. Ecol.11(4): 988-990|1993|
39663|T||Sodhi,S.K., and D.S. Sidhu|Effect of Sodium Hypophosphite on the Life Span of Henosepilachna vigintioctopunctata (Fabr.) (Insecta)|Environ. Ecol.11(4): 766-769|1993|
39665|T||Nickelson,S.A., and S.D. West|Renal Cadmium Concentrations in Mice and Shrews Collected from Forest Lands Treated with Biosolids|J. Environ. Qual.25:86-91|1996|10.2134/jeq1996.00472425002500010011x
39666|T||Sinha,N., R. Narayan, and D.K. Saxena|Effect of Endosulfan on the Testis of Growing Rats|Bull. Environ. Contam. Toxicol.58:79-86|1997|10.1007/s001289900303
39669|T||Powell,D.C., S.J. Bursian, C.R. Bush, J.A. Render, G.E. Rottinghaus, and R.J. Aulerich|Effects of Dietary Exposure to Fumonisins from Fusarium monoliforme Culture Material (M-1325) on the Reproductive Performance of Female Mink|Arch. Environ. Contam. Toxicol.31(2): 286-292|1996|10.1007/BF00212379
39670|T||Yeardley,R.B.,Jr., J.M. Lazorchak, and L.C. Gast|The Potential of an Earthworm Avoidance Test for Evaluation of Hazardous Waste Sites|Environ. Toxicol. Chem.15(9): 1532-1537|1996|
39673|T||Fryday,S.L., A.D.M. Hart, and S.D. Langton|Effects of Exposure to an Organophosphorus Pesticide on the Behavior and Use of Cover by Captive Starlings|Environ. Toxicol. Chem.15(9): 1590-1596|1996|10.1002/etc.5620150924
39674|T||Van Brummelen,T.C., and N.M. Van Straalen|Uptake and Elimination of Benzo(a)pyrene in the Terrestrial Isopod Porcellio scaber|Arch. Environ. Contam. Toxicol.31(2): 277-285|1996|10.1007/BF00212378
39676|T||Nishimura,K., T. Tada, and Y. Nakagawa|Effect of the Insect Growth Regulators, N-tert-Butyl-N,N'-Dibenzoylhydrazines, on Neural Activity of the American Cockroach|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(2): 141-144|1996|
39677|T||Van Brummelen,T.C., C.A.M. Van Gestel, and R.A. Verweij|Long-Term Toxicity of Five Polycyclic Aromatic Hydrocarbons for the Terrestrial Isopods Oniscus asellus and Porcellio scaber|Environ. Toxicol. Chem.15(7): 1199-1210|1996|
39678|T||Anthony,R.G., and M.L. Morrison|Influence of Glyphosate Herbicide on Small-Mammal Populations in Western Oregon|Northwest Sci.59(3): 159-168|1985|
39682|T||Eskeland,B., and I. Nafstad|The Modifying Effect of Multiple Generation Selection and Dietary Cadmium on Methyl Mercury Toxicity in Japanese Quail|Arch. Toxicol.40:303-314|1978|10.1007/BF00310336
39684|T||All,J.N., and M.D. Jellum|Efficacy of Insecticide-Nematocides on Sphenophorus callosus and Phytophagous Nematodes in Field Corn|J. Ga. Entomol. Soc.12(4): 291-297|1977|
39686|T||Ariyoshi,T., K. Ideguchi, K. Iwasaki, and M. Arakaki|Relationship Between Chemical Structure and Activity.  II.  Influences of Isomers in Dichlorobenzene, Trichlorobenzene, and Tetrachlorobenzene on the Activities of Drug-Metabolizing Enzymes|Chem. Pharm. Bull.23(4): 824-830|1975|10.1248/cpb.23.824
39688|T||Aulerich,R.J., S.J. Bursian, and A.C. Napolitano|Biological Effects of Epidermal Growth Factor and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Developmental Parameters of Neonatal Mink|Arch. Environ. Contam. Toxicol.17:27-31|1988|10.1007/BF01055150
39689|T||Aulerich,R.J., R.K. Ringer, and J. Safronoff|Primary and Secondary Toxicity of Warfarin, Sodium Monofluoroacetate, and Methyl Parathion in Mink|Arch. Environ. Contam. Toxicol.16(3): 357-366|1987|10.1007/BF01054954
39691|T||Bennett,R.S.|Role of Dietary Choices in the Ability of Bobwhite to Discriminate Between Insecticide-Treated and Untreated food|Environ. Toxicol. Chem.8(8): 731-738|1989|
39692|T||Bennett,R.S., R. Bentley, T. Shiroyama, and J.K. Bennett|Effects of the Duration and Timing of Dietary Methyl Parathion Exposure on Bobwhite Reproduction|Environ. Toxicol. Chem.9:1473-1480|1990|10.1002/etc.5620091206
39693|T||Bennett,R.S., B.A. Williams, D.W. Schmedding, and J.K. Bennett|Effects of Dietary Exposure to Methyl Parathion on Egg Laying and Incubation in Mallards|Environ. Toxicol. Chem.10:501-507|1991|10.1002/etc.5620100410
39694|T||Bussiere,J.L., R.J. Kendall, T.E.,Jr. Lacher, and R.S. Bennett|Effect of Methyl Parathion on Food Discrimination in Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.8:1125-1131|1989|10.1002/etc.5620081204
39695|T||Beyer,J., and G. Frank|Hydroxylation and Conjugation of Phenol by the Frog Rana temporaria|Xenobiotica15(4): 277-280|1985|10.3109/00498258509045361
39697|T||Brewer,L.W., C.J. Driver, R.J. Kendall, T.E.,Jr. Lacher, J.C. Galindo, and G.W. Dickson|Avian Response to a Turf Application of Triumph 4E|Environ. Toxicol. Chem.7:391-401|1988|10.1002/etc.5620070509
39698|T||Brewer,L.W., C.J. Driver, R.J. Kendall, C. Zenier, and T.E.,Jr. Lacher|Effects of Methyl Parathion in Ducks and Duck Broods|Environ. Toxicol. Chem.7:375-379|1988|10.1002/etc.5620070507
39703|T||Chishti,M.A., and T. Rotkiewicz|Ultrastructural Alterations Produced in Cockerels After Mercuric Chloride Toxicity and Subsequent Interaction with an Organophosphate Insecticide|Arch. Environ. Contam. Toxicol.22:445-451|1992|10.1007/BF00212565
39704|T||Clark,D.R.,Jr., and B.A. Rattner|Orthene Toxicity to Little Brown Bats (Myotis lucifugus):  Acetylcholinesterase Inhibition, Coordination Loss, and Mortality|Environ. Toxicol. Chem.6(9): 705-708|1987|
39705|T||Clay,K.L., and R.C. Murphy|On the Metabolic Acidosis of Ethylene Glycol Intoxication|Toxicol. Appl. Pharmacol.39:39-49|1977|10.1016/0041-008X(77)90175-2
39706|T||Clinch,P.G.|Control of Acarapis externus Morgenthaler: Further Tests to Determine the Efficacy of Pesticides Fed in Sugar Syrup to Infested Honey Bees|N. Z. J. Exp. Agric.7:407-409|1979|10.1080/03015521.1979.10427118
39707|T||Daigneault,E.A.|Correlation of Prolonged Insecticide Exposure and the Activity of the Inhibition of Cochlea N1 Potential|Toxicol. Appl. Pharmacol.21:495-502|1972|10.1016/0041-008X(72)90006-3
39710|T||Dolbeer,R.A., C.R. Ingram, J.L. Seubert, A.R.,Jr. Stickley, and R.T. Mitchell|4-Aminopyridine Effectiveness in Sweet Corn Related to Blackbird Population Density|J. Wildl. Manag.40(3): 564-570|1976|10.2307/3799961
39712|T||Erwin,W.J., and R.S. Sharpe|Effect of Wide Area Ultra Low Volume Application of Malathion on Small Mammal Populations|Trans. Nebr. Acad. Sci.5:25-28|1978|
39714|T||Fairbrother,A., R.S. Bennett, and J.K. Bennett|Sequential Sampling of Plasma Cholinesterase in Mallards (Anas platyrhynchos) as an Indicator of Exposure to Cholinesterase Inhibitors|Environ. Toxicol. Chem.8(2): 117-122|1989|10.1002/etc.5620080202
39715|T||Fairbrother,A., S.M. Meyers, and R.S. Bennett|Changes in Mallard Hen and Brood Behaviors in Response to Methyl Parathion-Induced Illness of Ducklings|Environ. Toxicol. Chem.7:499-503|1988|
39716|T||Fleming,W.J., C.E. Grue, C.A. Schuler, and C.M. Bunck|Effects of Oral Doses of Fluoride on Nestling European Starlings|Arch. Environ. Contam. Toxicol.16(4): 483-489|1987|10.1007/BF01055271
39717|T||Forthman Quick,D.L., and E.F. Hill|Sublethal Landrin Toxicity: Behavioral and Physiological Effects on Captive Vultures|J. Wildl. Manag.52(2): 233-237|1988|10.2307/3801227
39718|T||Frank,G., and J. Beyer|Metabolism of 3-Nitrophenol by the Frog Rana temporaria|Xenobiotica16(4): 291-294|1986|10.3109/00498258609043531
39719|T||Gile,J.D., and S.M. Meyers|Effect of Adult Mallard Age on Avian Reproductive Tests|Arch. Environ. Contam. Toxicol.15:751-756|1986|10.1007/BF01054922
39720|T||Hegdal,P.L., and B.A. Colvin|Potential Hazard to Eastern Screech-Owls and Other Raptors of Brodifacoum Bait Used for Vole Control in Orchards|Environ. Toxicol. Chem.7:245-260|1988|
39721|T||Herbert,G.B., T.J. Peterle, and T.C. Grubb|Chronic Dose Effects of Methyl Parathion on Nuthatches: Cholinesterase and Ptilochronology|Bull. Environ. Contam. Toxicol.42:471-475|1989|10.1007/BF01700223
39723|T||Hill,E.F., and J.H.,Jr. Soares|Oral and Intramuscular Toxicity of Inorganic and Organic Mercury Chloride to Growing Quail|J. Toxicol. Environ. Health20:105-116|1987|10.1080/15287398709530964
39724|A||Hamdy,M.K., and N.V. Prabhu|Behavior of Mercury in Bio-Systems II. Depuration of 203Hg2+ in Various Trophic Levels|Bull. Environ. Contam. Toxicol.19(3): 365-373|1978|10.1007/BF01685812
39726|T||Hoffman,D.J.|Effects of Krenite Brush Control Agent (Fosamine Ammonium) on Embryonic Development in Mallards and Bobwhite|Environ. Toxicol. Chem.7:69-75|1988|10.1002/etc.5620070110
39727|T||Hoffman,D.J., M.B. Camardese, L.J. LeCaptain, and G.W. Pendleton|Effects of Boron on Growth and Physiology in Mallard Ducklings|Environ. Toxicol. Chem.9(3): 335-346|1990|10.1002/etc.5620090309
39728|T||Hoffman,D.J., J.C. Franson, O.H. Pattee, C.M. Bunck, and H.C. Murray|Toxicity of Paraquat in Nestling Birds: Effects on Plasma and Tissue Biochemistry in American Kestrels|Arch. Environ. Contam. Toxicol.16:177-183|1987|10.1007/BF01055799
39729|T||Hoffman,D.J., and G.H. Heinz|Embryotoxic and Teratogenic Effects of Selenium in the Diet of Mallards|J. Toxicol. Environ. Health24:477-490|1988|10.1080/15287398809531178
39732|T||Hoffman,D.J., and J.M. Moore|Teratogenic Effects of External Egg Applications of Methyl Mercury in the Mallard, Anas platyrhynchos|Teratology20(3): 453-462|1979|10.1002/tera.1420200315
39733|T||Hoffman,D.J., C.J. Sanderson, L.J. LeCaptain, E. Cromartie, and G.W. Pendleton|Interactive Effects of Boron, Selenium, and Dietary Protein on Survival, Growth, and Physiology in Mallard Ducklings|Arch. Environ. Contam. Toxicol.20(2): 288-294|1991|10.1007/BF01055918
39738|T||Kling,L.J., J.H.,Jr. Soares, and W.A. Haltman|Effect of Vitamin E and Synthetic Antioxidants on the Survival Rate of Mercury-Poisoned Japanese Quail|Poult. Sci.66:325-331|1987|10.3382/ps.0660325
39739|T||Krapu,G.L.|Experimental Responses of Mallards and Canada Geese to Tribromoethanol|J. Wildl. Manag.40(1): 180-183|1976|10.2307/3800178
39740|T||Kreitzer,J.F., and W.J. Fleming|Effects of Monocrotophos and Fenthion on Discrimination Acquisition and Reversal in Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.7:237-240|1988|
39741|T||Ku,T.Y.|Distribution and Population Fluctuation of Field Rodents and Their Control in Taiwan|J. Agric. Assoc. China 118:1-25|1982|
39742|T||Lacombe,D., P. Matton, and A. Cyr|Effect of Ornitrol on Spermatogenesis in Red-Winged Blackbirds|J. Wildl. Manag.51(3): 596-601|1987|10.2307/3801274
39743|T||Lane,R.H., R.M. Grodner, and J.L. Graves|Irradiation Studies of Mallard Duck Eggs Material Containing Mirex|J. Agric. Food Chem.24(1): 192-193|1976|10.1021/jf60203a008
39746|T||Leonzio,C., M.C. Fossi, L. Lari, and S. Focardi|Influence of Cadmium on Polychlorobiphenyl Uptake, MFO Activity, and Serum Lipid Levels in Japanese Quail|Arch. Environ. Contam. Toxicol.22:238-241|1992|10.1007/BF00213291
39747|T||Lewis,S.A., and R.W. Furness|Mercury Accumulation and Excretion in Laboratory Reared Black-Headed Gull Larus ridibundus Chicks|Arch. Environ. Contam. Toxicol.21:316-320|1991|10.1007/BF01055352
39748|T||Lundholm,C.E.|Methyl Mercury Decreases the Eggshell Thickness and Inhibits the Ca2+ Uptake in a Homogenate of the Eggshell Gland Mucosa and Its Subcellular Fractions from the Domestic Fowl|Pharmacol. Toxicol.60:385-388|1987|10.1111/j.1600-0773.1987.tb01532.x
39749|T||Maguire,C.C., and B.A. Williams|Cold Stress and Acute Organophosphorus Exposure:  Interaction Effects on Juvenile Northern Bobwhite|Arch. Environ. Contam. Toxicol.16:477-481|1987|10.1007/BF01055270
39750|T||Martino,P.E., M.I. Diaz Gomez, D. Tamayo, A.J. Lopez, and J.A. Castro|Studies on the Mechanism of the Acute and Carcinogenic Effects of N-Nitrosodimethylamine on Mink Liver|J. Toxicol. Environ. Health23:183-192|1988|10.1080/15287398809531105
39751|T||Martoja,R., J.M. Bouquegneau, and C. Verthe|Toxicological Effects and Storage of Cadmium and Mercury in an Insect Locusta migratoria (Orthoptera)|J. Invertebr. Pathol.42:17-32|1983|10.1016/0022-2011(83)90198-2
39755|T||Meyers,S.M.|Effects of Northern Bobwhite (Colinus virginianus) Age and Weight on Results of the Avian Dietary Toxicity Test|Bull. Environ. Contam. Toxicol.45:667-674|1990|10.1007/BF01700984
39756|T||Mitcham,S.A., and G. Wobeser|Effects of Sodium and Magnesium Sulfate in Drinking Water on Mallard Ducklings|J. Wildl. Dis.24(1): 30-44|1988|10.7589/0090-3558-24.1.30
39758|T||Moffett,J.O., and H.L. Morton|Repellency of Surfactants to Honey Bees|Environ. Entomol.4 (5):780-782|1975|10.1093/ee/4.5.780
39760|T||Nebeker,A.V., W.L. Griffis, T.W. Stutzman, G.S. Schuytema, L.A. Carey, and S.M. Scherer|Effects of Aqueous and Dietary Exposure of Dieldrin on Survival, Growth and Bioconcentration in Mallard Ducklings|Environ. Toxicol. Chem.11(5): 687-699|1992|10.1002/etc.5620110512
39762|T||Pattee,O.H., S.N. Wiemeyer, and D.M. Swineford|Effects of Dietary Fluoride on Reproduction in Eastern Screech-Owls|Arch. Environ. Contam. Toxicol.17:213-218|1988|10.1007/BF01056027
39765|T||Radvanyi,A., P. Weaver, C. Massari, D. Bird, and E. Broughton|Effects of Chlorophacinone on Captive Kestrels|Bull. Environ. Contam. Toxicol.41:441-448|1988|10.1007/BF01688891
39766|T||Rao,P.V.V.P., S.A. Jordan, and M.K. Bhatnagar|Ultrastructure of Kidney of Ducks Exposed to Methylmercury, Lead and Cadmium in Combination|J. Environ. Pathol. Toxicol. Oncol.9(1): 19-44|1989|
39767|T||Rattner,B.A., and C.E. Grue|Toxicity of Parathion to Captive European Starlings (Sturnus vulgaris) - Absence of Seasonal Effects|Environ. Toxicol. Chem.9:1029-1033|1990|
39768|T||Reddy,R.D., K.R. Purushotham, and R. Ramamurthi|Effect of Sublethal Concentration of Sumithion (Fenitrothion) on Carbohydrate Metabolism in the South Indian Earthworm, Lampeto mauritii (Kinberg)|J. Environ. Biol.5(2): 119-123|1984|
39772|T||Ridgway,L.P., and D.A. Karnofsky|The Effects of Metals on the Chick Embryo: Toxicity and Production of Abnormalities in Development|Ann. N. Y. Acad. Sci.55:203-215|1952|10.1111/j.1749-6632.1952.tb26536.x
39773|T||Roberts,D.K., N.J. Silvey, and E.M.,Jr. Bailey|Brain Acetylcholinesterase Activity Recovery Following Acute Methyl Parathion Intoxication in Two Feral Rodent Species: Comparison to Laboratory Rodents|Bull. Environ. Contam. Toxicol.41:26-35|1988|10.1007/BF01689055
39774|T||Robinson,J.R., and E.J. Bond|The Toxic Action of Phosphine - Studies with 32PH3; Terminal Residues in Biological Materials|J. Stored Prod. Res.6:133-146|1970|10.1016/0022-474X(70)90002-0
39775|T||Robinson,S.C., R.J. Kendall, R. Robinson, C.J. Driver, and T.E.,Jr. Lacher|Effects of Agricultural Spraying of Methyl Parathion on Cholinesterase Activity and Reproductive Success in Wild Starlings (Sturnus vulgaris)|Environ. Toxicol. Chem.7:343-349|1988|10.1002/etc.5620070503
39776|T||Sandhu,H.S., and J.K. Malik|Biochemical Alterations After Single Oral Dose of Monocrotophos in Bubalus bubalis|Bull. Environ. Contam. Toxicol.41:337-343|1988|10.1007/BF01688876
39779|T||Schwarzbach,S.E., L. Shull, and C.R. Grau|Eggshell Thinning in Ring Doves Exposed to p,p'-Dicofol|Arch. Environ. Contam. Toxicol.17:219-227|1988|10.1007/BF01056028
39781|T||Serafin,J.A.|Avian Species Differences in the Intestinal Absorption of Xenobiotics (PCB, Dieldrin, Hg2+)|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 491-496|1984|10.1016/0742-8413(84)90120-8
39782|T||Smith,G.J., J.W. Spann, and E.F. Hill|Cholinesterase Activity in Black-Crowned Night-Herons Exposed to Fenthion-Treated Water|Arch. Environ. Contam. Toxicol.15:83-86|1986|10.1007/BF01055252
39785|T||Tarrant,K.A., and G.E. Westlake|Laboratory Evaluation of the Hazard to Wood Mice, Apodemus sylvaticus, from the Agricultural Use of Methiocarb Molluscicide Pellets|Bull. Environ. Contam. Toxicol.40:147-152|1988|10.1007/BF01689401
39786|T||Thompson,H.M., C.H. Walker, and A.R. Hardy|Avian Esterases as Indicators of Exposure to Insecticides - The Factor of Diurnal Variation|Bull. Environ. Contam. Toxicol.41:4-11|1988|10.1007/BF01689052
39788|T||Van Vleet,J.F.|Amounts of Twelve Elements Required to Induce Selenium-Vitamin E Deficiency in Ducklings|Am. J. Vet. Res.43(5): 851-857|1982|
39789|T||Westlake,G.E., K.A. Tarrant, and A.R. Hardy|Biochemical and Histological Effects of Diclofop-Methyl in Mice and Voles Under Laboratory Conditions|Bull. Environ. Contam. Toxicol.40:153-158|1988|10.1007/BF01689402
39790|T||Balasubramaniam,A.|Effect of Certain Organochlorines on Reproduction in Chickens and Mallard Ducks|Ph.D.Thesis, Louisiana State University, Baton Rouge, LA:210 p.|1972|
39791|T||Banks,Y.B., and L.S. Birnbaum|Absorption of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) After Low Dose Dermal Exposure|Toxicol. Appl. Pharmacol.107:302-310|1991|10.1016/0041-008X(91)90210-6
39792|T||Beaudoin,A.R.|Teratogenicity of Polybrominated Biphenyls in Rats|Environ. Res.14:81-86|1977|10.1016/0013-9351(77)90069-X
39794|T||Mehendale,H.M., and I.K. Ho|Effects of Preexposure to Morphine and Pentobarbital on Disposition of Methadone in Isolated Rat Livers|Toxicol. Appl. Pharmacol.45:871-882|1978|10.1016/0041-008X(78)90178-3
39795|T||Rose,J.C., J.W. Strandhoy, and P.J. Meis|Acute and Chronic Effects of Maternal Ethanol Administration on the Ovine Maternal-Fetal Unit|Prog. Biochem. Pharmacol.18:1-14|1981|
39797|T||Cavanaugh,K.P., and W.N. Holmes|Effects of Ingested Petroleum on the Development of Ovarian Endocrine Function in Photostimulated Mallard Ducks (Anas platyrhynchos)|Arch. Environ. Contam. Toxicol.16:247-253|1987|10.1007/BF01055806
39799|T||Boersma,P.D., E.M. Davies, and W.V. Reid|Weathered Crude Oil Effects on Chicks of Fork-Tailed Storm-Petrels (Oceanodroma furcata)|Arch. Environ. Contam. Toxicol.17:527-531|1988|10.1007/BF01055519
39802|T||Wagstaff,D.J., J.R. McDowell, and H.J. Paulin|Heptachlor Residue Accumulation and Depletion in Broiler Chickens|Am. J. Vet. Res.41(5): 765-768|1980|
39804|T||Van Stee,E.W., A.M. Harris, M.L. Horton, and K.C. Back|The Treatment of Ethylene Glycol Toxicosis with Pyrazole|J. Pharmacol. Exp. Ther.192(2): 251-259|1975|
39810|T||Winek,C.L., D.P. Shingleton, and S.P. Shanor|Ethylene and Diethylene Glycol Toxicity|Clin. Toxicol.13(2): 297-324|1978|10.3109/15563657808988239
39811|T||Woods,A.E., P.E. Morgan, and J.T. Coates|Toxicity, Acetylcholinesterase Inhibition and Metabolism of Enolic Phosphate Esters Resembling the Insecticide, Phosdrin|Bull. Environ. Contam. Toxicol.14(3): 325-329|1975|10.1007/BF01685645
39812|T||Wilkinson,F.C.|The Uptake of Dipping Fluid and Persistence of Diazinon on Shower-Dipped Sheep|Aust. Vet. J.56:561-562|1980|10.1111/j.1751-0813.1980.tb02597.x
39814|T||Ohkawa,H., R. Shibaike, T. Hatanaka, and J. Miyamoto|Metabolism of the Fungicide S-n-butyl S'-p-tert-Butylbenzyl N-3-Pyridyldithiocarbonimidate (S-1358) in Rats|Agric. Biol. Chem.39(8): 1605-1615|1975|
39815|T||Nowicki,H.G., and A.W. Norman|Enhanced Hepatic Metabolism of Testosterone, 4-Androstene-3,17-Dione, and Estradiol-17beta in Chickens Pretreated with DDT or PCB|Steroids19(1): 85-99|1972|10.1016/0039-128X(72)90029-3
39817|T||Trankina,M.L., D.C. Beitz, and D.R. Ware|Growth and Carcass Composition of Rat Pups from Dams fed Dowco 290, and an Organophosphate, Ronnel|Nutr. Rep. Int.26(4): 591-596|1982|
39821|T||Tatchell,R.J., and G.F. Bennett|Boophilus microplus: Antihistaminic and Tranquilizing Drugs and Cattle Resistance|Exp. Parasitol.26(3): 369-377|1969|10.1016/0014-4894(69)90130-1
39823|T||Stewart,J.R., and G.L. Diamond|In Vivo Renal Tubular Secretion and Metabolism of the Disulfide of 2,3-Dimercaptopropane-1-Sulfonate|Drug Metab. Dispos.16(2): 189-195|1988|
39826|T||Sanborn,J.R., R.L. Metcalf, and L.G. Hansen|The Neurotoxicity of O-(2,5-Dichlorophenyl) O-Methyl Phenylphosphonothionate, an Impurity and Photoproduct of Leptophos (Phosvel) Insecticide|Pestic. Biochem. Physiol.7:142-145|1977|10.1016/0048-3575(77)90025-6
39829|T||Rozman,K.|Separation of Wasting Syndrome and Lethality Caused by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Lett.22:279-285|1984|10.1016/0378-4274(84)90102-4
39831|T||Reed,W.T., and A.J. Forgash|Metabolism of Lindane to Organic-Soluble Products by Houseflies|J. Agric. Food Chem.18(3): 475-481|1970|10.1021/jf60169a051
39832|T||Randell,W.F., and R.E. Bradley|Effects of Injectable Famphur on Young Brahman and Angus Cattle|Am. J. Vet. Res.41(9): 1423-1426|1980|
39833|T||Rajagopal,G., and S. Ramakrishnan|Effect of Ethylene Glycol Toxicity on Hepatic Carbohydrate Metabolism in Rats|Toxicol. Appl. Pharmacol.46:507-515|1978|10.1016/0041-008X(78)90096-0
39835|T||Platonow,N.S., and H.S. Funnell|Anti-androgenic-like Effect of Polychlorinated Biphenyls in Cockerels|Vet. Rec.88:109-110|1971|10.1136/vr.88.4.109
39839|T||Osheim,D.L., P.F. Ross, L.D. Keck, and B.L. Tipton|Carbofuran Toxicosis in Cattle:  Case History and Analytical Methods|Vet. Hum. Toxicol.27(5): 386-387|1985|
39842|T||Konno,N., K. Katoh, Y. Yamaguchi, T. Yamauchi, and M. Fukushima|Effect of Phenobarbital on the Delayed Neurotoxicity of Leptophos in Hens|Arch. Environ. Contam. Toxicol.15:653-659|1986|10.1007/BF01054912
39844|T||Miller,V.L., P.A. Klavano, and E. Csonka|Absorption, Distribution and Excretion of Phenylmercuric Acetate|Toxicol. Appl. Pharmacol.2:344-352|1960|10.1016/0041-008X(60)90063-6
39845|T||Mia,A.S., and H. Islam|Comparative Studies on Rametin and Phenothiazine as Anthelmintic in Ruminants Under Field Conditions|Indian Vet. J.46(6): 479-485|1969|
39847|T||Maitra,T., and S.K. Maitra|Reproductive Consequences of Mercuric Chloride Treatment During Growing Phase of Female Domestic Fowl|J. Reprod. Biol. Comp. Endocrinol.2(1): 25-30|1990|
39848|T||Maci,R., M. Colleoni, P. Fumagalli, and A. Santagostino|Effects of 2-Methyl-4-Chlorophenoxyacetic Acid on the Catalase Liver Activity of Chicken Embryos|Bull. Environ. Contam. Toxicol.40:263-267|1988|10.1007/BF01881049
39850|T||Layton,D.W., B.J. Mallon, D.H. Rosenblatt, and M.J. Small|Deriving Allowable Daily Intakes for Systemic Toxicants Lacking Chronic Toxicity Data|Regul. Toxicol. Pharmacol.7:96-112|1987|10.1016/0273-2300(87)90050-X
39851|T||Lavigne,J.G., and C. Marchand|The Role of Metabolism in Chloroform Hepatotoxicity|Toxicol. Appl. Pharmacol.29:312-326|1974|10.1016/0041-008X(74)90068-4
39852|AT||Miyamoto,J.|Degradation, Metabolism and Toxicity of Synthetic Pyrethroids|Environ. Health Perspect.14:15-28|1976|10.1289/ehp.761415
39853|T||Mitema,E.S.|Effect of Chronic Lead Exposure on the Canine Bone Marrow|Am. J. Vet. Res.41(5): 682-685|1980|
39854|T||Brake,J., P. Thaxton, and P.Y. Hester|Mercury Induced Cardiovascular Abnormalities in the Chicken|Arch. Environ. Contam. Toxicol.6(2/3): 269-277|1977|10.1007/BF02097768
39856|T||Kambamanoli-Dimou,A., A. Kamarianos, and S. Kilikidis|Transfer of Methylmercury to Hens' Eggs After Oral Administration|Bull. Environ. Contam. Toxicol.46:128-133|1991|10.1007/BF01688265
39857|T||Darlington,W.A., R.D. Partos, and K.W. Ratts|Correlation of Cholinesterase Inhibition and Toxicity in Insects and Mammals I. Ethylphosphonates|Toxicol. Appl. Pharmacol.18:542-547|1971|10.1016/S0041-008X(71)80007-8
39861|T||Chou,J.Y., and K.E. Richardson|The Effect of Pyrazole on Ethylene Glycol Toxicity and Metabolism in the Rat|Toxicol. Appl. Pharmacol.43:33-44|1978|10.1016/S0041-008X(78)80030-1
39862|T||Chandra,S.V., and Z. Imam|Manganese Induced Histochemical and Histological Alterations in Gastrointestinal Mucosa of Guinea Pigs|Acta Pharmacol. Toxicol.33(5/6): 449-458|1973|10.1111/j.1600-0773.1973.tb01546.x
39865|T||Bulusu,S., and I. Chakravarty|Effect of Subacute Administration of Three Organophosphorus Pesticides on the Hepatic Phosphatases Under Various Nutritional Conditions|Environ. Res.44(1): 126-135|1987|10.1016/S0013-9351(87)80092-0
39866|T||Kamel,S.H., A.R. Khater, and A.F. Farid|Pathological Changes in Experimental Copper Poisoning in Chickens|Zentbl. Vetmed. Reihe A18:465-474|1971|10.1111/j.1439-0442.1971.tb00602.x
39869|T||Hu,C.Y., C.Y. Hung, and C.P. Robinson|Effects of Daily Soman Administration on Rabbit Blood Pressure, Temperature, Body Weight, and Erythrocyte and Plasma Cholinesterases|Bull. Environ. Contam. Toxicol.40:365-372|1988|10.1007/BF01689093
39870|T||Honkakoski,P., R. Ryhanen, M. Harri, P. Ylitalo, and O. Hanninen|Spontaneous Recovery of Cholinesterases After Organophosphate intoxication:  Effect of Environmental Temperature|Bull. Environ. Contam. Toxicol.40:358-364|1988|10.1007/BF01689092
39873|T||Hoffman,D.J., G.H. Heinz, and A.J. Krynitsky|Hepatic Glutathione Metabolism and Lipid Peroxidation in Response to Excess Dietary Selenomethionine and Selenite in Mallard Ducklings|J. Toxicol. Environ. Health27:263-271|1989|10.1080/15287398909531296
39884|T||Mundy,R.L., L.M. Hall, and R.S. Teague|Pyrazole as an Antidote for Ethylene Glycol Poisoning|Toxicol. Appl. Pharmacol.28:320-322|1974|10.1016/0041-008X(74)90019-2
39885|T||Moore,J.A., B.N. Gupta, and J.G. Vos|Toxicity of 2,3,7,8-Tetrachlorodibenzofuran - Preliminary Results|In: T.E.Kopp (Ed.), EPA-560/6-75-004, Conf.Proc.Natl.Conf.on Polychlorinated Biphenyls, Nov.1975, Chicago, IL:77-80|1976|
39887|T||Kanamadi,R.D., and S.K. Saidapur|Effect of Chronic Exposure to the Mercurial Fungicide Emisan on Spermatogenesis in Rana cyanophlyctis|J. Herpetol.26(4): 508-510|1992|10.2307/1565134
39892|T||Holmstrup,M., and P.H. Krogh|Effects of an Anionic Surfactant, Linear Alkylbenzene Sulfonate, on Survival, Reproduction and Growth of the Soil-Living Collembolan Folsomia fimetaria|Environ. Toxicol. Chem.15(10): 1745-1748|1996|
39893|T||Stanley,T.R.,Jr., G.J. Smith, D.J. Hoffman, G.H. Heinz, and R. Rosscoe|Effects of Boron and Selenium on Mallard Reproduction and Duckling Growth and Survival|Environ. Toxicol. Chem.15(7): 1124-1132|1996|10.1002/etc.5620150717
39895|T||Hawkes,A.W., L.W. Brewer, J.F. Hobson, M.J. Hooper, and R.J. Kendall|Survival and Cover-Seeking Reponse of Northern Bobwhites and Mourning Doves Dosed with Aldicarb|Environ. Toxicol. Chem.15(9): 1538-1543|1996|
39896|T||Stafford,T.R., L.B. Best, and D.L. Fischer|Effects of Different Formulation of Granular Pesticides on Birds|Environ. Toxicol. Chem.15(9): 1606-1611|1996|10.1002/etc.5620150926
39897|T||Deshmukh,P.B., and R. Keshavan|Activities of Amylase and Lipase in the Frog Exposed to DDT and Sevin|J. Adv. Zool.8(2): 118-122|1987|
39898|T||Boyd,C.E., S.B. Vinson, and D.E. Ferguson|Possible DDT Resistance in Two Species of Frogs|Copeia2:426-429|1963|10.2307/1441363
39901|T||Fitzgerald,D.G., K.A. Warner, R.P. Lanno, and D.G. Dixon|Assessing the Effects of Modifying Factors on Pentachlorophenol Toxicity to Earthworms: Applications of Body Residues|Environ. Toxicol. Chem.15(12): 2299-2304|1996|10.1002/etc.5620151227
39902|T||Leuschner,J., H. Haschke, and G. Sturm|New Investigations on Acute Toxicities of Vanadium Oxides|Monatsh Chem125(12): 623-646|1994|
39904|T||Ferguson,D.E., and C.C. Gilbert|Tolerances of Three Species of Anuran Amphibians to Five Chlorinated Hydrocarbon Insecticides|J. Miss. Acad. Sci.13:134-138|1967|
39905|T||Brattsten,L.B., and R.L. Metcalf|The Synergistic Ratio of Carbaryl with Piperonyl Butoxide as an Indicator of the Distribution of Multifunction Oxidases in the Insecta|J. Econ. Entomol.63(1): 101-104|1970|10.1093/jee/63.1.101
39907|T||Uchida,K., A. Fukuda, S. Kawakishi, S. Toyokuni, H. Hiai, S. Ikeda, and F. Horio|Acute Nephrotoxicity of a Carcinogenic Iron Chelate Selective Inhibition of a Proteolytic Conversion of alpha2U-Globulin to the Kidney Fatty Acid-Binding Protein|FEBS Lett.357:165-167|1995|10.1016/0014-5793(94)01330-4
39909|T||Bhattacharyya,M.H.|Bioavailability of Orally Administered Cadmium and Lead to the Mother, Fetus, and Neonate During Pregnancy and Lactation: An Overview|Sci. Total Environ.28:327-342|1983|10.1016/S0048-9697(83)80030-8
39911|T||Schonmann,S., and N. Gruener|The Effect of Lead-Acetate on Isolation-Induced Aggression in Mice|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:29-239|1975|
39913|T||Mahaffey,K.R., T.A. Banks, C.L. Stone, S.G. Capar, J.F. Compton, and M.H. Gubkin|Effect of Varying Levels of Dietary Calcium on Susceptibility to Lead Toxicity|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:155-164|1977|
39914|T||Willoughby,R.A., and D.G. Thawley|Lead, Cadmium, Zinc, Calcium and Vitamin D Interactions in Animals|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:143-154|1975|
39916|T||Geraci,J.R., and T.G. Smith|Consequences of Oil Fouling on Marine Mammals|In: D.C.Malins (Ed.), Effects of Petroleum on Arctic and Subarctic Marine Environments and Organisms, Biological Effects, Academic Press, London:410-|1977|
39917|T||Bhatnagar,S.P., C.P.S. Yadava, K.N. Bhatnagar, and B.P. Srivastava|Comparative Efficacy of Some Chlorinated and Phosphatic Ins ecticides Against Chrotogonus trachypterus Blanchard|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:1-27|1964|
39918|T||Chadha,D.B., S.L. Perti, and R.S. Dixit|Effect of Temperature and Humidity on the Susceptibility of Insects to Insecticides|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:28-32|1964|
39919|T||Rao,D.S.|Effect of Repeated Spraying with DDT on the Rice Weevil (Sitophilus oryzae L.) with a Brief Note on a Probable Explanation for the Variation in the Susceptibility of Some Adult Coleoptera to DDT|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:3-40|1964|
39920|T||Qadri,S.H.|Toxicity of Cyclodiene Compounds at Intermittent and Continuous Exposures to House Fly (Musca domestica nebulo) Fabr|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:5-49|1964|
39921|T||Ghiasuddin,S.M.|Sex Susceptibility of the House Fly (Musca domestica nebulo F.) to Different Insecticides|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:50-53|1964|
39922|T||Dixit,R.S., and S.L. Perti|Insecticidal Properties of Deoxygenated and Chlorinated Shark Liver Oil|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:|1964|
39923|T||Rajak,R.L., and N.D. Pande|Susceptibility of Pulse Beetle (Callosobruchus chinensis Linn) to Telodrin, Endrin, Aldrin and Malathion|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:65-68|1964|
39924|T||Govind,R.|A New Design of Insecticide Testing Chamber: Results of Some Preliminary Experiments|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:104-114|1964|
39925|T||Oberbarscheidt,J., U. Hurtenbach, R. Stiller-Winkler, and G. leichmann|Increased B Cell Reactivity and Decreased T Cell Reactivity in CD Treated Mice|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:34-136|1985|
39926|T||Donald,J.M., M.R. Moore, and M.G. Cutler|Effects of Pregnancy on the Absorption, Retention and Distribution of Radiolabelled Lead in the Mouse|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:47-149|1985|
39927|T||Jacobson,K.B., M.W. Williams, J.E. Turner, and N.T. Christie|Cadmium Toxicity in Drosophila: Genetic and Physiological Parameters|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:47-149|1985|
39930|T||Joshi,K.C., S. Giri, and S.C. Bahol|Fungicidal and Insecticidal Activity of Some New Organo-Fluorine Compounds|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:1-4|1964|
39931|T||Rasheed,S.|Role of Food on the Toxicity of Insecticides to House Fly (Musca domestica nebulo)|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:351-353|1964|
39932|T||Khan,N.H., and J.A. Ansari|Loss and Reversion of DDT-Resistance in Musca domestica nebulo Fabr|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:39-344|1964|
39933|T||Krishnakumari,M.K.|Comparative Toxicity of Shoxin to Different Test Animals|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:87-191|1964|
39934|T||Perti,S.L., A. Ausat, and T. Koshy|A New Method for Evaluation of Timber Preservatives Against Termites|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:15-118|1964|
39935|T||Govindan,R., S.B. Magadum, B.G. Krishna, and V.B. Magdum|Effect of Feeding Ferric Sulfate and Nickel Chloride on Economic Traits of Eri Silkworm Samia cynthia ricini|Environ. Ecol.5(4): 763-765|1987|
39938|T||Cole,C.L.|Effectiveness of Diflubenzuron in the Upper Gulf Coast of Texas|Southwest. Entomol.Suppl:22-26|1980|
39939|T||Newman,J.R.|Sensitivity of the House Martin, Delichon urbica, to Fluoride Emissions|Fluoride10(2): 73-76|1977|
39942|T||Abro,G.H., T.S. Corbitt, P.T. Christie, and D.J. Wright|Sub-Lethal Effects of Abamectin on Plutella xylostella L. and Spodoptera littoralis Boisduval Larvae|Crop Prot.12:39-44|1993|10.1016/0261-2194(93)90017-D
39944|T||Ortel,J.|Metal-Supplemented Diets Alter Carbohydrate Levels in Tissue and Hemolymph of Gypsy Moth Larvae (Lymantria dispar, Lymantriidae, Lepidoptera)|Environ. Toxicol. Chem.15(7): 1171-1176|1996|
39948|T||Guven,K., J.A. Duce, and D.I. De Pomerai|Calcium Moderation of Cadmium Stress Explored Using a Stress-Inducible Transgenic Strain of Caenorhabditis elegans|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.110(1): 61-70|1995|
39949|T||Guven,K., J.A. Duce, and D.I. De Pomerai|Evaluation of a Stress-Inducible Transgenic Nematode Strain for Rapid Aquatic Toxicity Testing|Aquat. Toxicol.29:119-137|1994|10.1016/0166-445X(94)90052-3
39951|T||Heinz,G.H.|Methylmercury:  Effects on Mallard Ducks|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:C-222 - C-224|1975|
39952|T||Stickel,L.F., and L.I. Rhodes|The Thin Eggshell Problem|In: J.W.Gillett (Ed.), The Biological Impact of Pesticides in the Environment, Environmental Health Ser.No.1, Oregon State Univ., Corvallis, OR:31-35|1969|
39954|T||Dunnick,J.K., and R.L. Melnick|Assessment of the Carcinogenic Potential of Chlorinated Water: Experimental Studies of Chlorine, Chloramine, and Trihalomethanes|J. Natl. Cancer Inst.85(10): 817-822|1993|10.1093/jnci/85.10.817
39955|T||Spencer,T.S., J.A. Hill, W.A. Akers, and G. Bjorkland|Studies of Repellent Formulations with N,N-Diethyl-m-Toluamide|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.:121-123|1977|
39960|T||Simpson,C.F., N.P. Thompson, and J.T. Neilson|Effect of Long-Term Feeding of DDT to Turkeys|Bull. Environ. Contam. Toxicol.7(5): 277-283|1972|10.1007/BF01684524
39961|T||Boersma,D.C., J.A. Ellenton, and A. Yagminas|Investigation of the Hepatic Mixed-Function Oxidase System in Herring Gull Embryos in Relation to Environmental Contaminants|Environ. Toxicol. Chem.5:309-318|1986|
39962|T||Dell'Omo,G., R. Bryenton, and R.F. Shore|Effects of Exposure to an Organophosphate Pesticide on Behavior and Acetylcholinesterase Activity in the Common Shrew, Sorex araneus|Environ. Toxicol. Chem.16(2): 272-276|1997|10.1002/etc.5620160224
39963|T||Ramesh,N., P.B. Murthy, and K.S. Pillai|In Vivo and In Vitro Effect of an Organophosphorous Pesticide, Monocrotophos on Acetylcholinesterase Activity in Wistar Rats|J. Environ. Biol.17(3): 235-238|1996|
39964|A||Deshmukh,P.B., and R. Keshavan|Acute Toxicity of DDT and Sevin to the Bullfrog, Rana tigrina|J. Curr. Biosci.1(4): 141-145|1984|
39965|T||Janssen,M.P.M., P. Glastra, and J.F.M.M. Lembrechts|Uptake of 134Cs from a Sandy Soil by Two Earthworm Species:  The Effects of Temperature|Arch. Environ. Contam. Toxicol.31(2): 184-191|1996|10.1007/BF00212364
39973|T||Blaylock,B.L., K.K. Newsom, S.D. Holladay, B.K. Shipp, T.A. Bartow, and H.M. Mehendale|Topical Exposure to Chlordane Reduces the Contact Hypersensitivity Response to Oxazolone in BALB/c Mice|Toxicol. Lett.81(2/3): 205-211|1995|10.1016/0378-4274(95)03436-6
39974|T||Fair,J.M., P.L. Kennedy, and L.C. McEwen|Effects of Carbaryl Grasshopper Control on Nesting Killdeer in North Dakota|Environ. Toxicol. Chem.14(5): 881-890|1995|10.1002/etc.5620140521
39975|T||Dalby,P.R., G.H. Baker, and S.E. Smith|Glyphosate, 2,4-DB and Dimethoate:  Effects on Earthworm Survival and Growth|Soil Biol. Biochem.27(12): 1661-1662|1995|10.1016/0038-0717(95)00091-R
39976|T||Danielson,T.J., L.R. Golsteyn, and J.L. Elder|Pharmacokinetics of Fenvalerate After Intravenous Administration to Sheep|Pestic. Sci.46(2): 145-150|1996|10.1002/(SICI)1096-9063(199602)46:2<145::AID-PS327>3.0.CO;2-1
39978|T||Dunn,M.A., A.S. Ishizaki, M.Y.B. Liew, S.L. Too, and N.E. Johnson|Dietary Aluminum Chloride Inhibits the Ability of Vitamin D to Regulate Intestinal Calbindin D-28K Levels in Chicks|J. Trace Elem. Exp. Med.8(1): 47-57|1995|
39980|T||De Clercq,P., A. De Cock, L. Tirry, E. Vinuela, and D. Degheele|Toxicity of Diflubenzuron and Pyriproxyfen to the Predatory Bug Podisus maculiventris|Entomol. Exp. Appl.74(1): 17-22|1995|10.1111/j.1570-7458.1995.tb01870.x
39981|T||De Cock,A., P. De Clercq, L. Tirry, and D. Degheele|Toxicity of Diafenthiuron and Imidacloprid to the Predatory Bug Podisus maculiventris (Heteroptera: Pentatomidae)|Environ. Entomol.25(2): 476-480|1996|10.1093/ee/25.2.476
39984|T||Janz,D.M., and G.D. Bellward|Effects of Acute 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on Plasma Thyroid and Sex Steroid Hormone Concentrations and Estrogen Receptor Levels in Adult Great Blue Herons|Environ. Toxicol. Chem.16(5): 985-989|1997|
39985|T||Hanowski,J.M., G.J. Niemi, A.R. Lima, and R.R. Regal|Do Mosquito Control Treatments of Wetlands Affect Red-Winged Blackbird (Agelaius phoeniceus) Growth, Reproduction, or Behavior?|Environ. Toxicol. Chem.16(5): 1014-1019|1997|
39986|T||Henshel,D.S., B. Hehn, R. Wagey, M. Vo, and J.D. Steeves|The Relative Sensitivity of Chicken Embryos to Yolk- or Air-Cell-Injected 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Environ. Toxicol. Chem.16(4): 725-732|1997|
39991|T||Parker,L.W., J. Ryder-White, S. Thomas, and W.G. Whitford|Effects of Oxamyl and Chlordane on the Activities of Nontarget Soil Organisms|Biol. Fertil. Soils1:141-148|1985|10.1007/BF00301781
39994|T||Bartkowiak,D.J., and B.W. Wilson|Avian Plasma Carboxylesterase Activity as a Potential Biomarker of Organophosphate Pesticide Exposure|Environ. Toxicol. Chem.14(12): 2149-2153|1995|10.1002/etc.5620141219
39995|T||Audas,A., G.R. Hogan, and H. Razniak|Incubation Temperature as a Modifying Factor on Survival of Tenebrio molitor Reared in Selenium-Containing Media|J. Toxicol. Environ. Health44(1): 115-122|1995|10.1080/15287399509531947
39996|T||Christ,S.A., E.J. Read, J.A. Stober, and M.K. Smith|The Developmental Toxicity of Bromochloroacetonitrile in Pregnant Long-Evans Rats|Int. J. Environ. Health Res.5:175-188|1995|10.1080/09603129509356846
39997|T||Bayoun,I.M., F.W.,Jr. Plapp, F.E. Gilstrap, and G.J.,Jr. Michels|Toxicity of Selected Insecticides to Diuraphis noxia (Homoptera:  Aphididae) and Its Natural Enemies|J. Econ. Entomol.88(5): 1177-1185|1995|10.1093/jee/88.5.1177
39998|T||Baynes,R.E., and J.M. Bowen|Toxicokinetics of Methyl Parathion in Lactating Goats|J. Agric. Food Chem.43(6): 1598-1604|1995|10.1021/jf00054a034
40000|T||Petz,W., and W. Foissner|The Effects of Mancozeb and Lindane on the Soil Microfauna of a Spruce Forest: A Field Study Using a Completely Randomized Block Design|Biol. Fertil. Soils7:225-231|1989|10.1007/BF00709653
40002|T||Boyd,I.L., D.G. Myhill, and A.J. Mitchell-Jones|Uptake of Gamma-HCH (Lindane) by Pipistrelle Bats and Its Effect on Survival|Environ. Pollut.51:95-111|1988|10.1016/0269-7491(88)90199-6
40004|T||Floore,T.G., J.C. Dukes, A.H.,Jr. Boike, M.J. Greer, and J.S. Coughlin|Evaluation of Three Candidate Cypermethrin-Piperonyl Butoxide Formulations Compared with Scourge Against Adult Culex quinquefasciatus|Am. Mosq. Control Assoc. J.8(1): 97-98|1992|
40005|T||Mason,C.E.|Progression of Knockdown and Mortality of Honey Bees (Hymenoptera: Apidae) Sprayed with Insecticides Mixed with Penncap-M|Environ. Entomol.15(1): 170-176|1986|10.1093/ee/15.1.170
40006|T||McEwen,L.C., L.R. DeWeese, and P. Schladweiler|Bird Predation on Cutworms (Lepidoptera: Noctuidae) in Wheat Fields and Chlorpyrifos Effects on Brain Cholinesterase Activity|Environ. Entomol.15(1): 147-151|1986|10.1093/ee/15.1.147
40007|T||McIlroy,J.C.|The Sensitivity of Australian Animals to 1080 Poison IX. Comparisons Between the Major Groups of Animals, and the Potential Danger Non-Target Species Face from 1080-Poisoning Campaigns|Aust. Wildl. Res.13:39-48|1986|10.1071/WR9860039
40009|T||Serafin,J.A.|Factors Influencing Methionine Toxicity in Young Bobwhite Quail|Poult. Sci.60:204-214|1981|10.3382/ps.0600204
40012|T||Barclay,R.M.R., D.W. Thomas, and M.B. Fenton|Comparison of Methods used for Controlling Bats in Buildings|J. Wildl. Manag.44(2): 502-506|1980|10.2307/3807989
40013|T||Bailey,P.L., J.D. Port, N.L. Pace, T.H. Stanley, and J. Kimball|The ED50 of Carfentanil for Elk Immobilization with and Without the Tranquilizer R5 1703|J. Wildl. Manag.49(4): 931-934|1985|10.2307/3801373
40014|T||Baker,K.N.|Laboratory and Field Experiments on the Responses by Two Species of Woodland Salamanders to Malathion-Treated Substrates|Arch. Environ. Contam. Toxicol.14:685-691|1985|10.1007/BF01055775
40015|T||Bauer,C.A.|Effects of Paraquat on Reproduction and Growth in Northern Bobwhite|J. Wildl. Manag.49(4): 1066-1073|1985|10.2307/3801397
40016|T||Bunck,C.M., T.J. Bunck, and L. Sileo|Discrimination Learning in Adult Bobwhite Quail Fed Paraquat|Environ. Toxicol. Chem.5:295-298|1986|10.1002/etc.5620050309
40017|T||Evans,D.D., and M.J. Batty|Effects of High Dietary Concentrations of Glyphosate (Roundup) on a Species of Bird, Marsupial and Rodent Indigenous to Australia|Environ. Toxicol. Chem.5:399-401|1986|10.1002/etc.5620050410
40018|T||Hornshaw,T.C., R.J. Aulerich, and R.K. Ringer|Toxicity of o-Cresol to Mink and European Ferrets|Environ. Toxicol. Chem.5:713-720|1986|
40019|T||Hornshaw,T.C., R.K. Ringer, R.J. Aulerich, and H.H. Casper|Toxicity of Sodium Monofluoroacetate (Compound 1080) to Mink and European Ferrets|Environ. Toxicol. Chem.5:213-223|1986|10.1002/etc.5620050213
40020|T||Schafer,E.W.J., and D.J. Cunningham|An Evaluation of 148 Compounds as Avian Immobilizing Agents|Spec.Sci.Rep.Wildl.No.150, Bur.Sport Fish.Wildl., U.S.D.I.:30-|1972|
40021|T||Spann,J.W., G.H. Heinz, and C.S. Hulse|Reproduction and Health of Mallards Fed Endrin|Environ. Toxicol. Chem.5(8): 755-759|1986|10.1002/etc.5620050806
40022|T||Stromborg,K.L.|Reproduction of Bobwhites Fed Different Dietary Concentrations of an Organophosphate Insecticide, Methamidophos|Arch. Environ. Contam. Toxicol.15:143-147|1986|10.1007/BF01059963
40030|T||Munson,S.C., and M.I. Gottlieb|The Differences Between Male and Female American Roaches in Total Lipid Content and in Susceptibility to DDT|J. Econ. Entomol.46:798-802|1953|10.1093/jee/46.5.798
40031|T||Lyons,E.T., M.C. Keyes, and J. Conlogue|Activities of Dichlorvos or Disophenol Against the Hookworm (Uncinaria lucasi) and Sucking Lice of Northern Fur Seal Pups (Callorhinus ursinus) on St. Paul Island, Alaska|J. Wildl. Dis.14:455-465|1978|10.7589/0090-3558-14.4.455
40032|A||Kaplan,H.M., and L. Yoh|Toxicity of Copper for Frogs|Herpetologica17(2): 131-135|1961|
40034|T||Richardson,M.E., and M.R. Spivey Fox|Dietary Cadmium and Enteropathy in the Japanese Quail: Histochemical and Ultrastructural Studies|Lab. Invest.31(6): 722-731|1974|
40035|A||Leong,J.K., R.S. Wheeler, and L.M. Lansford|Tolerance and Responses of Normal and Diseased Loggerhead Turtles (Caretta caretta) to Some Chemotherapeutics|Proc World Maricul Soc11:291-302|1980|
40036|T||Jernelov,A., A.H. Johansson, L. Sorensen, and A. Svenson|Methyl Mercury Degradation in Mink|Toxicology6:315-321|1976|10.1016/0300-483X(76)90035-4
40037|T||White,D.H., M.T. Finley, and J.F. Ferrell|Histopathologic Effects of Dietary Cadmium on Kidneys and Testes of Mallard Ducks|J. Toxicol. Environ. Health4:551-558|1978|10.1080/15287397809529678
40038|T||Carlson,B.L., and S.W. Nielsen|Influence of Dietary Calcium on Lead Poisoning in Mallard Ducks (Anas platyrynchos)|Am. J. Vet. Res.46(1): 276-282|1985|
40039|T||Honeycutt,M.E., and B.L. Roberts|Assessment of DNA Strand Breaks in the Earthworm, Eisenia fetida, as a Bioindicator of Soil Contamination|Environ. Sci.3(4): 199-207|1995|
40040|T||Honeycutt,M.E., and B.L. Roberts|In Vivo Metabolism of Aldrin by the Earthworm Eisenia fetida|Environ. Sci.2(4): 217-225|1994|
40041|T||Decarie,R., J.L. DesGranges, C. Lepine, and F. Morneau|Impact of Insecticides on the American Robin (Turdus migratorius) in a Suburban Environment|Environ. Pollut.80:231-238|1993|10.1016/0269-7491(93)90043-N
40043|T||Gralewicz,S., T. Tomas, and R. Socko|Interaction of Chlorphenvinphos with Cholinergic Receptors in the Rabbit Hypothalamus|Neurotoxicol. Teratol.17(3): 289-295|1995|10.1016/0892-0362(94)00068-O
40045|T||Carriere,D., K.L. Fischer, D.B. Peakall, and P. Anghern|Effects of Dietary Aluminum Sulphate on Reproductive Success and Growth of Ringed Turtle-Doves (Streptopelia risoria)|Can. J. Zool.64:1500-1505|1986|10.1139/z86-224
40046|T||Jepson,P.C., E. Efe, and Wiles.J.A. |The Toxicity of Dimethoate to Predatory Coleoptera: Developing an Approach to Risk Analysis for Broad-Spectrum Pesticides|Arch. Environ. Contam. Toxicol.28(4): 500-507|1995|10.1007/BF00211633
40048|T||Bayley,M.|Prolonged Effects of the Insecticide Dimethoate on Locomotor Behaviour in the Woodlouse, Porcellio scaber Latr. (Isopoda)|Ecotoxicology4(2): 79-90|1995|10.1007/BF00122170
40049|T||Chu,I., D. Dick, R. Bronaugh, and L. Tryphonas|Skin Reservoir Formation and Bioavailability of Dermally Administered Chemicals in Hairless Guinea Pigs|Food Chem. Toxicol.34(3): 267-276|1996|10.1016/0278-6915(95)00112-3
40051|T||Arias,E.|Cytogenetic and Cytokinetic Effects of 2,4-D on B Lymphocytes During Development of the Chick Embryo|In Vitro Toxicol.8(1): 65-70|1995|
40052|T||Hellwig,J., H.J. Klimisch, and R. Jackh|Investigation of the Prenatal Toxicity of Orally Administered Diethylene Glycol in Rabbits|Fundam. Appl. Toxicol.28(1): 27-33|1995|10.1006/faat.1995.1142
40053|T||Foote,R.H., P.B. Farrell, D.H. Schlafer, M.M. McArdle, V. Trouern-Trend, M.E. Simkin, and C.C. Brockett|Ethylene Glycol Monomethyl Ether Effects on Health and Reproduction in Male Rabbits|Reprod. Toxicol.9(6): 527-539|1995|10.1016/0890-6238(95)02003-9
40054|T||Kjaer,C., and P.C. Jepson|The Toxic Effects of Direct Pesticide Exposure for a Nontarget Weed-Dwelling Chrysomelid Beetle (Gastrophysa polygoni) in Cereals|Environ. Toxicol. Chem.14(6): 993-999|1995|10.1002/etc.5620140610
40055|T||Hemming,H., Y. Bager, S. Flodstrom, I. Nordgren, T. Kronevi, U.G. Ahlborg, and L. Warngard|Liver Tumour Promoting Activity of 3,4,5,3',4'-Pentachlorobiphenyl and Its Interaction with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Eur. J. Pharmacol.292(3-4): 241-249|1995|
40056|T||Cobb,G.P., E.H. Hol, P.W. Allen, J.A. Gagne, and R.J. Kendall|Uptake, Metabolism and Toxicity of Terbufos in the Earthworm (Lumbricus terrestris) Exposed to Counter -15G in Artificial Soils|Environ. Toxicol. Chem.14(2): 279-285|1995|
40057|T||MacLellan,K.N.M., D.M. Bird, D.M. Fry, and J.L. Cowles|Reproductive and Morphological Effects of o,p'-Dicofol on Two Generations of Captive American Kestrels|Arch. Environ. Contam. Toxicol.30(3): 364-372|1996|10.1007/BF00212295
40058|T||Holopainen,J.K., and R. Rikala|Effects of Three Insecticides on the Activity of Non-Target Arthropods in Nursery Soil|Ann. Zool. Fennici196:329-332|1995|
40060|T||Liu,Y., and L.D. Fechter|Trimethyltin Disrupts Loudness Recruitment and Auditory Threshold Sensitivity in Guinea Pigs|Neurotoxicol. Teratol.17(3): 281-287|1995|10.1016/0892-0362(94)00067-N
40061|T||McMurry,S.T., R.L. Lochmiller, S.A.M. Chandra, and C.W.,Jr. Qualls|Sensitivity of Selected Immunological, Hematological, and Reproductive Parameters in the Cotton Rat (Sigmodon hispidus) to Subchronic Lead Exposure|J. Wildl. Dis.31(2): 193-204|1995|10.7589/0090-3558-31.2.193
40062|T||Shore,R.F., D.G. Myhill, G. Polworth, and M. Dunmow|The Effects of Chronic Doses of Dietary Cadmium on Macro-Element Balance in Wood Mice and Bank Voles|In: Proceedings of the International Symposium on Trace Elements in Man and Animals:7-18|1982|
40064|T||Kao,T.S., and T.R. Fukuto|Metabolism of O,S-Dimethyl Propionyl- and Hexanoylphosphoramidothioate in the House Fly and White Mouse|Pestic. Biochem. Physiol.7:83-95|1977|10.1016/0048-3575(77)90069-4
40065|T||Jett,D.A.|Cholinesterase Inhibition in Meadow Voles (Microtus pennsylvanicus) Following Field Applications of Orthene|Environ. Toxicol. Chem.5:255-259|1986|10.1002/etc.5620050304
40066|T||Morris,R.D.|The Effects of Endrin on Microtus and Peromyscus. II. Enclosed Field Populations|Can. J. Zool.50:885-896|1972|10.1139/z72-119
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40073|T||Albers,P.H.|Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms|In: D.A.Wolfe (Ed.), Proceedings of a Symposium on Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms, Seattle, WA:58-163|1977|
40075|T||Leighton,F.A.|Morphological Lesions in Red Blood Cells from Herring Gulls and Atlantic Puffins Ingesting Prudhoe Bay Crude Oil|Vet. Pathol.22:393-402|1985|10.1177/030098588502200415
40077|T||Khan,S., M. Martin, J.F. Payne, and A.D. Rahimtula|Embryotoxic Evaluation of a Prudhoe Bay Crude Oil in Rats|Toxicol. Lett.38:109-114|1987|10.1016/0378-4274(87)90118-4
40080|T||Jenkins,K.J., and M. Hidiroglou|Tolerance of the Calf for Excess Copper in Milk Replacer|J. Dairy Sci.72:150-156|1989|10.3168/jds.S0022-0302(89)79090-1
40082|T||Farmer,P.E., T.E. Adams, and W.R. Humphries|Copper Supplementation of Drinking Water for Cattle Grazing Molybdenum-Rich Pastures|Vet. Rec.:193-195|1982|10.1136/vr.111.10.193
40088|T||Hanioka,N., H. Jinno, T. Nishimura, and M. Ando|Effect of 2,4,4'-Trichloro-2'-Hydroxydiphenyl Ether on Cytochrome P450 Enzymes in the Rat Liver|Chemosphere34(4): 719-730|1997|10.1016/S0045-6535(97)00464-5
40089|T||Kula,H.|Comparison of Laboratory and Field Testing for the Assessment of Pesticide Side Effects on Earthworms|Acta Zool. Fenn.196:338-341|1995|
40090|T||Lindqvist,L., M. Block, and H. Tjalve|Distribution and Excretion of Cd, Hg, Methyl-Hg and Zn in the Predatory Beetle Pterostichus niger (Coleoptera: Carabidae)|Environ. Toxicol. Chem.14(7): 1195-1201|1995|
40091|T||Malone,L.A., H.A. Giacon, E.P.J. Burgess, J.Z. Maxwell, J.T. Christeller, and W.A. Laing|Toxicity of Trypsin Endopeptidase Inhibitors to Honey Bees (Hymenoptera: Apidae)|J. Econ. Entomol.88(1): 46-50|1995|10.1093/jee/88.1.46
40092|T||Sorensen,F.F., M. Bayley, and E. Baatrup|The Effect of Sublethal Dimethoate Exposure on the Locomotor Behavior of the Collembolan Folsomia candida (Isotomidae)|Environ. Toxicol. Chem.14(9): 1587-1590|1995|10.1002/etc.5620140919
40093|A||McBain,J.|Oral Tetracycline Absorbtion and Excretion Rates in Killer Whales (Orcinus orca)|Proc. Int. Assoc. Aquat. Anim. Med.16:79-86|1985|
40094|T||El-Begearmi,M.M., H.E. Ganther, and M.L. Sunde|Dietary Interaction Between Methylmercury, Selenium, Arsenic, and Sulfur Amino Acids in Japanese Quail|Poult. Sci.61:272-279|1982|10.3382/ps.0610272
40095|T||Lewis,S.A., and R.W. Furness|The Role of Eggs in Mercury Excretion by Quail Coturnix coturnix and the Implications for Monitoring Mercury Pollution by Analysis of Feathers|Ecotoxicology2:55-64|1993|10.1007/BF00058214
40097|T||Bleavins,M.R., W.J. Breslin, R.J. Aulerich, and R.K. Ringer|Placental and Mammary Transfer of a Polychlorinated Biphenyl Mixture (Aroclor 1254) in the European Ferret (Mustela putorius furo)|Environ. Toxicol. Chem.3(4): 637-644|1984|10.1002/etc.5620030414
40098|T||Gillette,D.M., R.D. Corey, L.J. Lowenstine, and L.R. Shull|Comparative Toxicology of Tetrachlorobiphenyls in Mink and Rats.  II.  Pathology|Fundam. Appl. Toxicol.8:15-22|1987|10.1016/0272-0590(87)90096-0
40099|T||Heath,R.G., J.W. Spann, and J.F. Kreitzer|Marked DDE Impairment of Mallard Reproduction in Controlled Studies|Nature224:47-48|1969|10.1038/224047a0
40101|T||Scheuhammer,A.M.|The Dose-Dependent Deposition of Cadmium into Organs of Japanese Quail Following Oral Administration|Toxicol. Appl. Pharmacol.95:153-161|1988|10.1016/S0041-008X(88)80014-0
40102|T||Wolff,B.G., and R.E. Phillips|Effects of Dietary Aluminum on Reproduction in Japanese Quail Coturnix coturnix japonica|Water Air Soil Pollut.50(3): 293-299|1990|10.1007/BF00280630
40103|T||Dinter,A., and H.M. Poehling|Side-Effects of Insecticides on Two Erigonid Spider Species|Entomol. Exp. Appl.74:151-163|1995|10.1111/j.1570-7458.1995.tb01887.x
40106|T||Stickel,L.F., N.J. Chura, P.A. Stewart, C.M. Menzie, R.M. Prouty, and W.L. Reichel|Bald Eagle Pesticide Relations|In: Trans.31st North Amercian Wildlife and Natural Resources Conference:190-201|1966|
40107|T||Bleavins,M.R., R.J. Aulerich, R.K. Ringer, and T.G. Bell|Excessive Nail Growth in the European Ferret Induced by Aroclor 1242|Arch. Environ. Contam. Toxicol.11:305-312|1982|10.1007/BF01055207
40108|T||McLane,M.A.R., and L.C. Hall|DDE Thins Screech Owl Eggshells|Bull. Environ. Contam. Toxicol.8:65-68|1972|10.1007/BF01684506
40109|T||Khan,A.A., R.W. Coppock, M.M. Schuler, L.Z. Florence, L.E. Lillie, and M.S. Mostrom|Biochemical Effects of Pembina Cardium Crude Oil Exposure in Cattle|Arch. Environ. Contam. Toxicol.30(3): 349-355|1996|10.1007/BF00212293
40110|T||Sivarao,D.V., and H.M. Mehendale|2-Butoxyethanol Autoprotection is Due to Resiliance of Newly Formed Erythrocytes to Hemolysis|Arch. Toxicol.69(8): 526-532|1995|10.1007/s002040050207
40111|T||Paulino,C.A., and J. Palermo-Neto|Effects of Acute 2,4-Dichlorophenoxyacetic Acid on Cattle Serum Components and Enzyme Activities|Vet. Hum. Toxicol.37(4): 329-332|1995|
40112|T||Stubblefield,W.A., G.A. Hancock, H.H. Prince, and R.K. Ringer|Effects of Naturally Weathered Exxon Valdez Crude Oil on Mallard Reproduction|Environ. Toxicol. Chem.14(11): 1951-1960|1995|10.1002/etc.5620141117
40113|T||Lotti,M., A. Moretto, M. Bertolazzi, M. Peraica, and F. Fioroni|Organophosphate Polyneuropathy and Neuropathy Target Esterase: Studies with Methamidophos and Its Resolved Optical Isomers|Arch. Toxicol.69(5): 330-336|1995|10.1007/s002040050179
40114|T||Peraica,M., A. Moretto, and M. Lotti|Selective Promotion by Phenylmethanesulfonyl Fluoride of Peripheral and Spinal Cord Neuropathies Initiated by Diisopropyl Phosphorofluoridate in the Hen|Toxicol. Lett.80(1-3): 115-121|1995|10.1016/0378-4274(95)03343-J
40116|T||Peach,M.L., D.G. Alston, and V.J. Tepedino|Sublethal Effects of Carbaryl Bran Bait on Nesting Performance, Parental Investment, and Offspring Size and Sex Ratio of the Alfalfa Leafcutting Bee (Hymenoptera:  Megachilidae)|Environ. Entomol.24(1): 34-39|1995|10.1093/ee/24.1.34
40117|T||Sampath,K., P. Elango, and V. Roseline|Effect of Carbaryl on the Levels of Protein and Aminoacids of Common Frog Rana tigrina|J. Environ. Biol.16(1): 61-65|1995|
40120|T||Gupta,A., and G.S. Shukla|Enzymatic Antioxidants in Erythrocytes Following Heavy Metal Exposure:  Possible Role in Early Diagnosis of Poisoning|Bull. Environ. Contam. Toxicol.58(2): 198-205|1997|10.1007/s001289900320
40121|T||Ville,P., P. Roch, E.L. Cooper, and J.F. Narbonne|Immuno-Modulator Effects of Carbaryl and 2,4 D in the Earthworm Eisenia fetida andrei|Arch. Environ. Contam. Toxicol.32(3): 291-297|1997|10.1007/s002449900187
40128|T||Paulino,C.A., J.L. Guerra, G.H. Oliveira, and J. Palermo-Neto|Acute, Subchronic and Chronic 2,4-Dichlorophenoxyacetic Acid (2,4-D) Intoxication in Rats|Vet. Hum. Toxicol.38(5): 348-352|1996|
40129|T||Nakagawa,Y., and K. Tayama|Acute Hepatotoxic Potential of Imazalil Fungicide in Rats|Bull. Environ. Contam. Toxicol.58(3): 402-407|1997|10.1007/s001289900348
40130|T||Punzo,F.|Effects of Azadirachtin on Mortality, Growth, and Immunological Function in the Wolf Spider, Schizocosa episina (Araneae: Lycosidae)|Bull. Environ. Contam. Toxicol.58(3): 415-421|1997|10.1007/s001289900350
40131|T||Gupta,P., and A. Kar|Role of Testosterone in Ameliorating the Cadmium Induced Inhibition of Thyroid Function in Adult Male Mouse|Bull. Environ. Contam. Toxicol.58(3): 422-428|1997|10.1007/s001289900351
40132|T||Spurgeon,D.J., M.A. Tomlin, and S.P. Hopkin|Influence of Temperature on the Toxicity of Zinc to the Earthworm Eisenia fetida|Bull. Environ. Contam. Toxicol.58(2): 283-290|1997|10.1007/s001289900332
40133|T||Balanca,G., and M.N. De Visscher|Impacts on Nontarget Insects of a New Insecticide Compound used Against the Desert Locust [Schistocerca gregaria (Forskal 1775)]|Arch. Environ. Contam. Toxicol.32(1): 58-62|1997|10.1007/s002449900155
40134|T||Van Hamburg,H., and P.J. Guest|The Impact of Insecticides on Beneficial Arthropods in Cotton Agro-Ecosystems in South Africa|Arch. Environ. Contam. Toxicol.32(1): 63-68|1997|10.1007/s002449900156
40135|T||Peveling,R., and S.A. Demba|Virulence of the Entomopathogenic Fungus Metarhizium flavoviride Gams and Rozsypal and Toxicity of Diflubenzuron, Fenitrothion-Esfenvalerate and Profenofos-Cypermethrin to Nontarget Arthropods in Mauritania|Arch. Environ. Contam. Toxicol.32(1): 69-79|1997|10.1007/s002449900157
40136|T||Stone,J.C., C.I. Abramson, and J.M. Price|Task-Dependent Effects of Dicofol (Kelthane) on Learning in the Honey Bee (Apis mellifera)|Bull. Environ. Contam. Toxicol.58(2): 177-183|1997|10.1007/s001289900317
40137|T||Asongalem,E.A., and A. Akintonwa|Embryotoxic Effects of Oral Ametryn Exposure in Pregnant Rats|Bull. Environ. Contam. Toxicol.58(2): 184-189|1997|10.1007/s001289900318
40138|T||Villagra,R., N.N. Tchernitchin, and A.N. Tchernitchin|Effect of Subacute Exposure to Lead and Estrogen on Immature Pre-Weaning Rat Leukocytes|Bull. Environ. Contam. Toxicol.58(2): 190-197|1997|10.1007/s001289900319
40139|T||Paulino,C.A., and J. Palermo-Neto|Effects of Acute 2,4-Dichlorophenoxyacetic Acid Intoxication on Some Rat Serum Components and Enzyme Activities|Braz. J. Med. Biol. Res.24:195-198|1991|
40140|T||Peach,M.L., D.G. Alston, and V.J. Tepedino|Bees and Bran Bait:  Is Carbaryl Bran Bait Lethal to Alfalfa Leafcutting Bee (Hymenoptera:  Megachilidae) Adults or Larvae?|J. Econ. Entomol.87(2): 311-317|1994|10.1093/jee/87.2.311
40141|T||Randi,M.A.F., and M.L.S. Mello|Critical Electrolyte Concentration and Dispersion of Birefringence in Heterochromatin and Euchromatin of Copper Sulfate-Treated Specimens of Triatoma infestans Klug|Acta Histochem.96:81-85|1994|10.1016/S0065-1281(11)80012-7
40142|T||Dinter,A., and H.M. Poehling|Spider Populations in Winter Wheat Fields and the Side-Effects of Insecticides|Asp. Appl. Biol.31:77-85|1992|
40143|T||Spurgeon,D.J., and S.P. Hopkin|Extrapolation of the Laboratory-Based OECD Earthworm Toxicity Test to Metal Contaminated Field Sites|Ecotoxicology4(3): 190-205|1995|10.1007/BF00116481
40145|T||Blumenthal,G.M., A.A. Abdel-Rahman, K.R. Wilmarth, M.A. Friedman, and M.B. Abou-Donia|Toxicokinetics of a Single 50 mg/kg Oral Dose of [2,3-14C] Acrylamide in White Leghorn Hens|Fundam. Appl. Toxicol.27(1): 149-153|1995|10.1006/faat.1995.1118
40146|T||Kale,P., and R. Kale|Induction of Delayed Mutations by Benzene and Ethylene Dibromide in Drosophila|Environ. Mol. Mutagen.25:211-215|1995|10.1002/em.2850250307
40147|T||Kale,P.G., B.T.,Jr. Petty, S. Walker, J.B. Ford, N. Dehkordi, S. Tarasia, B.O. Tasie, R. Kale, and Y.R. Sohni|Mutagenicity Testing of Nine Herbicides and Pesticides Currently Used in Agriculture|Environ. Mol. Mutagen.25(2): 148-153|1995|10.1002/em.2850250208
40148|T||Lundholm,C.E.|Effects of Methyl Mercury at Different Dose Regimes on Eggshell Formation and Some Biochemical Characteristics of the Eggshell Gland Mucosa of the Domestic Fowl|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.110(1): 23-28|1995|
40149|T||Fimreite,N.|Effects of Dietary Methylmercury on Ring-Necked Pheasants|Can. Wildl. Serv. Occas. Pap.9:39 p.|1971|
40150|T||McGrath,J.J., L. Purkiss, M. Eberle, and W.R. McGrath|Long-Term Effects of a Cross-Linked Polyacrylate Superabsorbent in the Hamster|J. Appl. Toxicol.15(1): 69-73|1995|10.1002/jat.2550150115
40152|T||Gallego-Iniesta,M., E. Pertierra-Rimada, and M. Galvez|Factors in the Accumulation of Dieldrin in Broiler Organs: Doses Administered with Feed; Dose-Organ-Dieldrin Accumulated Relationship; Toxicological Consequences|Comp. Biochem. Physiol. C Comp. Pharmacol.86(2): 289-294|1987|10.1016/0742-8413(87)90081-8
40155|T||Jaworska,M., A. Gorczyca, J. Sepiol, and P. Tomasik|Effect of Metal Ions on the Entomopathogenic Nematode Heterorhabditis bacteriophora Poinar (Nematode:  Heterohabditidae) Under Laboratory Conditions|Water Air Soil Pollut.93:157-166|1997|
40156|T||Heinrich-Hirsch,B., H. Beck, I. Chahoud, K. Grote, J. Hartmann, and W. Mathar|Tissue Distribution, Toxicokinetics and Induction of Hepatic Drug Metabolizing Enzymes in Male Rats After a Single S.C. Dose of 3,4,3',4'-Tetrachlorobiphenyl (PCB-77)|Chemosphere34(5-7): 1523-1534|1997|10.1016/S0045-6535(97)00448-7
40157|T||Poon,R., P. Lecavalier, A. Bergman, A. Yagminas, I. Chu, and V.E. Valli|Effects of tris(4-Chlorophenyl)Methanol on the Rat Following Short-term Oral Exposure|Chemosphere34(1): 1-12|1997|10.1016/S0045-6535(96)00363-3
40158|T||Nath,B.S., A. Suresh, B.M. Varma, and R.P.S. Kumar|Changes in Protein Metabolism in Hemolymph and Fat Body of the Silkworm, Bombyx mori (Lepidoptera:  Bombycidae) in Response to Organophosphorus Insecticides Toxicity|Ecotoxicol. Environ. Saf.36:169-173|1997|10.1006/eesa.1996.1504
40159|T||Lau,S.S., M.E. Fuller, H. Ferris, R.C. Venette, and K.M. Scow|Development and Testing of an Assay for Soil Ecosystem Health Using the Bacterial-Feeding Nematode Cruznema tripartitum|Ecotoxicol. Environ. Saf.36(2): 133-139|1997|10.1006/eesa.1996.1498
40160|T||Van Gestel,C.A.M., and A.M.F. Van Diepen|The Influence of Soil Moisture Content on the Bioavailability and Toxicity of Cadmium for Folsomia candida Willem (Collembola: Isotomidae)|Ecotoxicol. Environ. Saf.36(2): 123-132|1997|10.1006/eesa.1996.1493
40161|T||Sato,S., M. Okabe, T. Emoto, M. Kurasaki, and Y. Kojima|Restriction of Cadmium Transfer to Eggs from Laying Hens Exposed to Cadmium|J. Toxicol. Environ. Health51:15-22|1997|10.1080/00984109708984008
40162|T||Svendsen,C., and J.M. Weeks|Relevance and Applicability of a Simple Earthworm Biomarker of Copper Exposure II.  Validation and Applicability Under Field Conditions in a Mesocosm Experiment with Lumbricus rubellus|Ecotoxicol. Environ. Saf.36(1): 80-88|1997|10.1006/eesa.1996.1492
40163|T||Svendsen,C., and J.M. Weeks|Relevance and Applicability of a Simple Earthworm Biomarker of Copper Exposure I.  Links to Ecological Effects in a Laboratory Study with Eisenia andrei|Ecotoxicol. Environ. Saf.36(1): 72-79|1997|10.1006/eesa.1996.1491
40164|T||Sun,J., and K.F. Chung|Interaction of Ozone Exposure with Airway Hyperresponsiveness and Inflammation Induced by Trimellitic Anhydride in Sensitized Guinea Pigs|J. Toxicol. Environ. Health51:77-87|1997|
40165|T||Elliott,J.E., S.W. Kennedy, and A. Lorenzen|Comparative Toxicity of Polychlorinated Biphenyls to Japanese Quail (Coturnix c. japonica) and American Kestrels (Falco sparverius)|J. Toxicol. Environ. Health51(1): 57-75|1997|
40166|T||Rodriquez,J., S.D. Kholkute, and W.R. Dukelow|Reproductive Toxicology of 3,3',4,4'-Tetrachlorobiphenyl in Mice|Bull. Environ. Contam. Toxicol.58:999-1005|1997|10.1007/s001289900433
40167|T||Bibic,A., D. Drobne, J. Strus, and A.R. Bryne|Assimilation of Zinc by Porcellio scaber (Isopoda, Crustacea) Exposed to Zinc|Bull. Environ. Contam. Toxicol.58:814-821|1997|10.1007/s001289900407
40168|T||Dabbert,C.B., R.B. Mitchell, and D.T. Oberheu|Northern Bobwhite Egg Hatchability and Chick Immunocompetence Following a Field Application of Clopyralid|Bull. Environ. Contam. Toxicol.58:801-806|1997|10.1007/s001289900405
40170|T||Wu,Y.J., and X.F. Leng|Comparison of Effects of Verapamil and Quercetin on Delayed Polyneuropathy Induced by Tri-o-Cresyl Phosphate in Hens|Bull. Environ. Contam. Toxicol.58:611-618|1997|10.1007/s001289900378
40171|T||Zanger,M., S. Graff, T. Braunbeck, G. Alberti, and H.R. Kohler|Detection and Induction of Cytochrome P450IA (CYP 1A)-Like Proteins in Julus scandinavius (Diplopoda) and Oniscus asellus (Isopoda):  A First Analysis|Bull. Environ. Contam. Toxicol.58:511-517|1997|10.1007/s001289900364
40172|T||Longley,M., and P.C. Jepson|Cereal Aphid and Parasitoid Survival in a Logarithmically Diluted Deltamethrin Spray Transect in Winter Wheat:  Field-Based Risk Assessment|Environ. Toxicol. Chem.16(8): 1761-1767|1997|
40173|T||Stafford,T.R., and L.B. Best|Effects of Granular Pesticide Formulations and Soil Moisture on Avian Exposure|Environ. Toxicol. Chem.16(8): 1687-1693|1997|10.1002/etc.5620160817
40174|T||Murk,A.J., P.E.G. Leonards, A.S. Bulder, A.S. Jonas, M.J.C. Rozemeijer, M.S. Denison, J.H. Koeman, and A. Brouwer|The Calux (Chemical-Activated Luciferase Expression) Assay Adapted and Validated for Measuring TCDD Equivalents in Blood Plasma|Environ. Toxicol. Chem.16(8): 1583-1589|1997|
40175|T||Joshi,S.N., and H.S. Patil|Chromium Induced Changes in the Blood Parameters of Rana cyanophlyctis|Environ. Ecol.15(1): 145-147|1997|
40176|T||Sailaja,K., P.P. Rani, P.M. Mohan, and D. Bharathi|Effect of Cobalt on the Nitrogenous End Products of Silkworm Bombyx mori L.|Environ. Ecol.15(1): 151-153|1997|
40177|T||Das,N., A.K. Pattnaik, A.K. Senapati, and D.K. Dash|Management of Rhizosphere Nematode Population by Different Weed Control Practices in Mustard (Brassica juncea L.)|Environ. Ecol.15(1): 154-156|1997|
40178|T||Kumar,S., and A. Nath|Effect of an Organophosphorus Insecticide Malathion on Spermatocytes of Mice|Environ. Ecol.15(1): 161-165|1997|
40179|T||Stubblefield,W.A., G.A. Hancock, W.H. Ford, and R.K. Ringer|Acute and Subchronic Toxicity of Naturally Weathered Exxon Valdez Crude Oil in Mallards and Ferrets|Environ. Toxicol. Chem.14(11): 1941-1950|1995|10.1002/etc.5620141116
40180|T||Zahar,A.R., and K. Thymakis|Investigation on the Susceptibility of A. pharoensis to Insecticides in Egypt - UAR|W.H.O.Documentary Series, WHO/Mal-341:27-|1962|
40181|T||Panter,K.E., L.F. James, and H.F. Mayland|Reproductive Response of Ewes Fed Alfalfa Pellets Containing Sodium Selenate or Astragalus bisulcatus as a Selenium Source|Vet. Hum. Toxicol.37(1): 30-32|1995|
40182|T||Honeycutt,M.E., B.L. Roberts, and D.S. Roane|Cadmium Disposition in the Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.30(2): 143-150|1995|10.1006/eesa.1995.1018
40183|T||Schoof,R.A., M.K. Butcher, C. Sellstone, R.W. Ball, J.R. Fricke, V. Keller, and B. Keehn|An Assessment of Lead Absorption from Soil Affected by Smelter Emissions|Environ. Geochem. Health17(4): 189-199|1995|10.1007/BF00661331
40185|T||Fossi,M.C., J.C. Sanchez-Hernandez, R. Diaz-Diaz, L. Lari, J.E. Garcia-Hernandez, and C. Gaggi|The Lizard Gallotia galloti as a Bioindicator of Organophosphorus Contamination in the Canary Islands|Environ. Pollut.87(3): 289-294|1995|10.1016/0269-7491(94)P4160-P
40187|T||Dieter,C.D., L.D. Flake, and W.G. Duffy|Effects of Phorate on Ducklings in Northern Prairie Wetlands|J. Wildl. Manag.59(3): 498-505|1995|10.2307/3802456
40188|T||Vail,K.M., and D.F. Williams|Pharaoh Ant (Hymenoptera: Formicidae) Colony Development After Consumption of Pyriproxyfen Baits|J. Econ. Entomol.88(6): 1695-1702|1995|10.1093/jee/88.6.1695
40189|T||Heinz,G.H., D.J. Hoffman, and L.J. LeCaptain|Toxicity of Seleno-L-Methionine, Seleno-DL-Methionine, High Selenium Wheat, and Selenized Yeast to Mallard Ducklings|Arch. Environ. Contam. Toxicol.30(1): 93-99|1996|10.1007/BF00211333
40190|T||Pendleton,G.W., M.R. Whitworth, and G.H. Olsen|Accumulation and Loss of Arsenic and Boron, Alone and in Combination, in Mallard Ducks|Environ. Toxicol. Chem.14(8): 1357-1364|1995|10.1002/etc.5620140811
40191|T||Heaton,S.N., S.J. Bursian, J.P. Giesy, D.E. Tillitt, J.A. Render, P.D. Jones, D.A. Verbrugge, T.J. Kubiak, and R.J. Aul|Dietary Exposure of Mink to Carp from Saginaw Bay, Michigan: 2.  Hematology and Liver Pathology|Arch. Environ. Contam. Toxicol.29(3): 411-417|1995|10.1007/BF00212509
40192|T||Boyer,K.E., and J.B. Zedler|Damage to Cordgrass by Scale Insects in a Constructed Salt Marsh: Effects of Nitrogen Additions|Estuaries19(1): 1-12|1996|10.2307/1352646
40193|T||Rondeau,G., and J.L. DesGranges|Effects of Insecticide Use on Breeding Birds in Christmas Tree Plantations in Quebec|Ecotoxicology4(5): 281-298|1995|10.1007/BF00118595
40194|T||Ramos-Morales,P., and R. Rodriguez-Arnaiz|Genotoxicity of Two Arsenic Compounds in Germ Cells and Somatic Cells of Drosophila melanogaster|Environ. Mol. Mutagen.25(4): 288-299|1995|10.1002/em.2850250405
40195|T||Staub,R.E., S.E. Sparks, G.B. Quistad, and J.E. Casida|S-Methylation as a Bioactivation Mechanism for Mono- and Dithiocarbamate Pesticides as Aldehyde Dehydrogenase Inhibitors|Chem. Res. Toxicol.8(8): 1063-1069|1995|10.1021/tx00050a010
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40198|T||Nebbia,C., and J. Fink-Gremmels|Acute Effects of Low Doses of Zineb and Ethylenethiourea on Thyroid Function in the Male Rat|Bull. Environ. Contam. Toxicol.56:847-852|1996|10.1007/s001289900123
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40241|T||Lal,N., and A. Nath|Effect of Organophosphorus Insecticide Malathion on Seminal Vesicle of Two-Month Old Mice|Environ. Ecol.14(1): 209-212|1996|
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40243|T||Mishra,D.N.|Bio-Efficacy of Some Insecticides and Acaro-Insecticides for the Control of Aphis gassypii Glover Infesting Solanum melongna L. at West Bengal Conditions|Environ. Ecol.14(2): 279-281|1996|
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40255|T||Senapati,S.K., and S. Ghose|Efficacy of Some Pesticides Against Pest Complex of Jute (Corchorus capsularis L.) in Tarai Ecological Conditions of West Bengal|Environ. Ecol.12(1): 65-71|1994|
40256|T||Chaudhari,R.D., and A.B. Kulkarni|Alterations in the Carbohydrate Metabolism due to Monocrotophos Toxicity of the Terrestrial Snail Zootecus insularis|Environ. Ecol.12(1): 119-122|1994|
40257|T||Raj,T.P., M. Selvanayagam, A.J. Thatheyus, and A. Jebanesan|Effect of Food Utilization on the Larvae of Eupterote molifera fed with Cythion Sprayed Moringa indica Leaves|Environ. Ecol.12(1): 199-201|1994|
40258|T||Babu,S., A.T.V. Reddy, and K. Yellamma|Alterations in Lipid Metabolic Profiles in the Central Nervous System of Cockroach Periplaneta americana During Cypermethrin Stress|Environ. Ecol.12(1): 212-213|1994|
40259|T||Sailaja,K., P.P. Rani, P.M. Mohan, and D. Bharathi|Effect of Cobalt on the Growth Pattern Silkworm Bombyx mori (L.)|Environ. Ecol.15(1): 130-132|1997|
40260|T||Sharma,S.N., and P.J. Mishra|Effect of Weed Control. Methods on Weed, Crop Growth and Yield of Indian Mustard Brassica juncea (L.) Czernj & Cosson Varieties|Environ. Ecol.15(3): 511-514|1997|
40261|T||Choudhary,R.P., and S.P. Sinha|Mutagenicity Testing of Organosulfur Fungicide Hexathane Using Drosophila melanogaster|Environ. Ecol.12(2): 435-440|1994|
40262|T||Kaur,S.P., G. Mander, D.S. Sidhu, and K.S. Bath|Effect of Sodium Hypophosphite on Free Amino Acids During Larval and Pupal Stages of Musca domestica nebulo F. (Insecta)|Environ. Ecol.12(3): 510-514|1994|
40263|T||Kumar,P., and A.K. Sinha|Chemical Control of Red Cotton Bugs (Dysdercus koenigii) with Combination of Malathion and Metacid|Environ. Ecol.12(3): 644-647|1994|
40264|T||Jha,S., S.K. Paul, and M.R. Ghosh|Effect of Dates of Sowing and Insecticide (Methyl-Demeton) on Three Lepidopteran Pests of Safflower|Environ. Ecol.15(2): 466-468|1997|
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40267|T||Das,T.K., and D.N. Mishra|Toxicity of Some Synthetic Pyrethroids to Rhizoglyphus echinopus (Acarina: Acaridae), a Pest of Mushroom|Environ. Ecol.13(2): 366-368|1995|
40268|T||Gould,J.C., K.R. Cooper, and C.G. Scanes|Effects of Polychlorinated Biphenyl Mixtures and Three Specific Congeners on Growth and Circulating Growth-Related Hormones|Gen. Comp. Endocrinol.106(2): 221-230|1997|10.1006/gcen.1996.6868
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40270|T||Yawetz,A., M. Benedek-Segal, and B. Woodin|Cytochrome P4501A Immunoassay in Freshwater Turtles and Exposure to PCBs and Environmental Pollutants|Environ. Toxicol. Chem.16(9): 1802-1806|1997|10.1002/etc.5620160906
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40273|T||Banerjee,P.K.|Insecticide Applications at Early Stage of Rice Cropping Season may Cause Brown Planthopper Resurgence|Environ. Ecol.14(4): 985-986|1996|
40274|T||Kumar,K.R., S. Kannan, V. Balasubramanian, and A. Mohandoss|Effect of UV-B Irradiation and Erythromycin on Biochemistry and Fecundity of Spodoptera litura (Fab.):  A Novel Approach in Pest Management|Environ. Ecol.14(4): 944-948|1996|
40275|T||Singh,S.P., K.K. Kapoor, and T.S. Kathpal|Effect of Diclofop-Methyl on Soil Microbial Health|Environ. Ecol.14(4): 889-891|1996|
40276|T||Setty,T.A.S., K.G.H. Setty, T.R. Guruprasad, and M.R. Krishnappa|Persistence of the Antibiotic (TC-102) on the Development and Reproduction of Root-Knot Nematode Meloidogyne incognita (Kofoid and White), Chitwood Infecting Tomato|Environ. Ecol.12(4): 843-844|1994|
40277|T||Majumdar,S.R., S. Sarkar, and A.K. Sarkar|Influence of Inorganic Lead on the Biochemical Studies of Liver and Pancreas in the House Sparrow Passer domesticus indicus|Environ. Ecol.12(4): 905-908|1994|
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40285|T||Cilgi,T., and P.C. Jepson|The Risks Posed by Deltamethrin Drift to Hedgerow Butterflies|Environ. Pollut.87(1): 1-9|1995|10.1016/S0269-7491(99)80001-3
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40289|T||Mansour,N.A., I.A. Gaaboub, and F.M. Kamel|Evaluation of Some Insecticides with Three Pyrethrin Synergists Against the Mosquito Culex pipiens fatigans Wied. in Egypt II. Adult Stage|Z. Angew. Entomol. (Multiple Languages)70:375-378|1972|10.1111/j.1439-0418.1972.tb02203.x
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40315|T||Bokori,J., S. Fekete, I. Kadar, and M. Albert|Complex Study of the Physiological Role of Cadmium II.  Effect of Cadmium Load on the Cadmium Content of Eggs|Acta Vet. Hung.43(1): 45-62|1995|
40316|T||Silver,T.M., and T.D. Nudds|Influence of Low-Level Cadmium and Reduced Calcium Intake on Tissue Cd Concentrations and Behaviour of American Black Ducks|Environ. Pollut.90(2): 153-161|1995|10.1016/0269-7491(94)00102-J
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40319|T||Dutson,S.M., G.M. Booth, G.B. Schaalje, R.N. Castle, and R.E. Seegmiller|Comparative Developmental Dermal Toxicity and Mutagenicity of Carbazole and Benzo(a)carbazole|Environ. Toxicol. Chem.16(10): 2113-2117|1997|10.1002/etc.5620161018
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40345|T||Ghatak,S.S., and M. Rafiquzzaman|Effect of Some Hormones and Steroid on Growth and Development of Mulberry Silkworm Bombyx mori L. (Bombycidae:  Lepidoptera:  Race-GI)|Environ. Ecol.12(3): 674-678|1994|
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40368|T||Baskaran,J., R. Kanakasabai, and P. Neelanarayanan|Evaluation of Two Rodenticides in the Paddy Fields During Samba and Thaladi Seasons|J. Exp. Biol.33(2): 113-121|1995|
40369|T||Bunn,K.E., H.M. Thompson, and K.A. Tarrant|Effects of Agrochemicals on the Immune Systems of Earthworms|Bull. Environ. Contam. Toxicol.57(4): 632-639|1996|10.1007/s001289900237
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40419|T||Suzuki,M.M., E.L. Cooper, G.S. Eyambe, and A.J. Goven|Polychlorinated Biphenyls (PCBs) Depress Allogeneic Natural Cytotoxicity by Earthworm Coelomocytes|Environ. Toxicol. Chem.14(10): 1697-1700|1995|10.1002/etc.5620141009
40420|T||Fischer,E., and L. Koszorus|Sublethal Effects, Accumulation Capacities and Elimination Rates of As, Hg and Se in the Manure Worm, Eisenia fetida (Oligochaeta, Lumbricidae)|Pedobiologia (Multiple Languages)36:172-178|1992|10.1016/S0031-4056(24)00772-8
40421|T||Hoy,J.M.|Toxicity of Some Hydrocarbon Insecticides to Earthworms|N. Z. J. Sci. Technol.:367-370|1955|
40422|T||Baker,W.L.|DDT and Earthworm Populations|J. Econ. Entomol.39(3): 404-405|1946|10.1093/jee/39.3.404
40423|T|OECDG|Reinecke,A.J., and J.M. Venter|Influence of Dieldrin on the Reproduction of the Earthworm Eisenia fetida (Oligochaeta)|Biol. Fertil. Soils1(1): 39-44|1985|10.1007/BF00710969
40424|T||Van Wensem,J., M. Krijgsman, J.F. Postma, R.W. Van Westrienen, and J.M. Wezenbeek|A Comparison of Test Systems for Assessing Effects of Metals on Isopod Ecological Functions|Ecotoxicol. Environ. Saf.24(2): 203-216|1992|10.1016/0147-6513(92)90048-8
40425|T||Beyer,W.N., and A. Anderson|Toxicity to Woodlice of Zinc and Lead Oxides Added to Soil Litter|Ambio14(3): 172-174|1985|
40426|T||Dennis,J.L., M.H.A.Z. Mutwakil, K.C. Lowe, and D.I. De Pomerai|Effects of Metal Ions in Combination with a Non-Ionic Surfactant on Stress Responses in a Transgenic Nematode|Aquat. Toxicol.40(1): 37-50|1997|10.1016/S0166-445X(97)00043-X
40427|T||Marinussen,M.P.J.C., S.E.A.T.M. Van der Zee, and F.A.M. De Haan|Effect of Cd or Pb Addition to Cu-Contaminated Soil on Tissue Cu Accumulation in the Earthworm, Dendrobaena veneta|Ecotoxicol. Environ. Saf.38(3): 309-315|1997|10.1006/eesa.1997.1593
40428|T||Reinecke,A.J., M.S. Maboeta, and S.A. Reinecke|Stimulating Effects of Low Lead Concentrations on Growth and Cocoon Production of Eisenia fetida (Oligochaeta)|S. Afr. J. Zool.32(3): 72-75|1997|10.1080/02541858.1997.11448433
40429|T||Scaps,P., C. Grelle, and M. Descamps|Cadmium and Lead Accumulation in the Earthworm Eisenia fetida (Savigny) and Its Impact on Cholinesterase and Metabolic Pathway Enzyme Activity|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(3): 233-238|1997|
40430|T||Marinussen,M.P.J.C., S.E.A.T. Van der Zee, and F.A.M. De Haan|Cu Accumulation in the Earthworm Dendrobaena veneta in a Heavy Metal (Cu, Pb, Zn) Contaminated Site Compared to Cu Accumulation in Laboratory Experiments|Environ. Pollut.96(2): 227-233|1997|10.1016/S0269-7491(97)00017-1
40431|T||Weeks,J.M., and C. Svendsen|Neutral Red Retention by Lysosomes from Earthworm (Lumbricus rubellus) Coelomocytes:  A Simple Biomarker of Exposure to Soil Copper|Environ. Toxicol. Chem.15(10): 1801-1805|1996|10.1002/etc.5620151022
40432|T||Ramseier,S., M. Martin, W. Haerdi, P. Honsberger, G. Cuendet, and J. Tarradellas|Bioaccumulation of Cadmium by Lumbricus terrestris|Toxicol. Environ. Chem.22(1-4): 189-196|1989|10.1080/02772248909357437
40433|T||Verma,A., and M.K.K. Pillai|Bioavailability of Soil-Bound Residues of DDT and HCH to Earthworms|Curr. Sci. (Bangalore)61(12): 840-843|1991|
40434|T||Reinecke,S.A., and A.J. Reinecke|The Influence of Lead and Manganese on Spermatozoa of Eisenia fetida (Oligochaeta)|Soil Biol. Biochem.29(3/4): 737-742|1997|10.1016/S0038-0717(97)00024-2
40435|T||Triebskorn,R., and H.R. Kohler|The Impact of Heavy Metals on the Grey Garden Slug, Deroceras reticulatum (Muller): Metal Storage, Cellular Effects and Semi-quantitative Evaluation of Metal Toxicity|Environ. Pollut.93(3): 327-343|1996|10.1016/S0269-7491(96)00048-6
40437|T||Salminen,J.E., and P.O. Sulkava|Decomposer Communities in Contaminated Soil:  Is Altered Community Regulation a Proper Tool in Ecological Risk Assessment of Toxicants?|Environ. Pollut.97(1/2): 45-53|1997|10.1016/S0269-7491(97)00078-X
40438|T||Yadav,P.R., S. Jaipal, and Z. Singh|Field Evaluation of Some Modern Insecticides Against Jassid in Okra Crop|Indian J. Entomol.50(1): 5-11|1988|
40439|T||Roberts,P.A., and I.J. Thomason|Screening of a Granular Chelate of Metham-Zinc for Nematicidal Activity Using Citrus and Root-Knot Nematodes|Ann. Appl. Nematol.2:11-14|1988|
40440|T||Bengtsson,G., and S. Rundgren|Seasonal Variation of Lead Uptake in the Earthworm Lumbricus terrestris and the Influence of Soil Liming and Acidification|Arch. Environ. Contam. Toxicol.23:198-205|1992|10.1007/BF00212275
40441|T||Janssen,M.P.M., and W.F. Bergema|The Effect of Temperature on Cadmium Kinetics and Oxygen Consumption in Soil Arthropods|Environ. Toxicol. Chem.10(11): 1493-1501|1991|10.1002/etc.5620101115
40443|T||Crommentuijn,T., C.J.A.M. Doodeman, A. Doornekamp, J.J.C. Van der Pol, J.J.M. Bedaux, and C.A.M. Van Gestel|Lethal Body Concentrations and Accumulation Patterns Determine Time-Dependent Toxicity of Cadmium in Soil Arthropods|Environ. Toxicol. Chem.13(11): 1781-1789|1994|
40444|T||Crossley,D.A.J., E.R. Blood, P.F. Hendrix, and T.R. Seastedt|Turnover of Cobalt-60 by Earthworms (Eisenia foetida) (Lumbricidae, Oligochaeta)|Appl. Soil Ecol.2(2): 71-75|1995|10.1016/0929-1393(94)00045-9
40445|T||Crommentuijn,T., C.J.A.M. Doodeman, J.J.C. Van der Pol, A. Doornekamp, M.C.J. Rademaker, and C.A.M. Van Gestel|Sublethal Sensitivity Index as an Ecotoxicity Parameter Measuring Energy Allocation Under Toxicant Stress: Application to Cadmium in Soil Arthropods|Ecotoxicol. Environ. Saf.31(3): 192-200|1995|10.1006/eesa.1995.1062
40446|T||Haimi,J., and S. Paavola|Responses of Two Earthworm Populations with Different Exposure Histories to Chlorophenol Contamination|Environ. Toxicol. Chem.17(6): 1114-1117|1998|10.1002/etc.5620170618
40447|T||Donker,M.H., H.M. Abdel-Lateif, M.A. Khalil, B.M. Bayoumi, and N.M. Van Straalen|Temperature, Physiological Time and Zinc Toxicity in the Isopod Porcellio scaber|Environ. Toxicol. Chem.17(8): 1558-1563|1998|10.1002/etc.5620170817
40448|T||Denneman,C.A.J., and N.M. Van Straalen|The Toxicity of Lead and Copper in Reproduction Tests Using the Oribatid Mite Platynothrus peltifer|Pedobiologia (Multiple Languages)35:305-311|1991|10.1016/S0031-4056(24)00071-4
40449|T||Gibb,J.O.T., C. Svendsen, J.M. Weeks, and J.K. Nicholson|1H NMR Spectroscopic Investigations of Tissue Metabolite Biomarker Response to Cu(II) Exposure in Terrestrial Invertebrates:  Identification of Free Histidine as a Novel Biomarker of Exposure to Copper in Earthworms|Biomarkers (Lond.)2(5): 295-302|1997|10.1080/135475097231526
40450|T||Fischer,E., and L. Molnar|Growth and Reproduction of Eisenia fetida (Oligochaeta, Lumbricidae) in Semi-natural Soil Containing Various Metal Chlorides|Soil Biol. Biochem.29(3-4): 667-670|1997|10.1016/S0038-0717(96)00193-9
40451|T||Reinecke,S.A., A.J. Reinecke, and M.L. Froneman|The Effects of Dieldrin on the Sperm Ultrastructure of the Earthworm Eudrilus eugenia (Oligochaeta)|Environ. Toxicol. Chem.14(6): 961-965|1995|10.1002/etc.5620140606
40453|T||Holmstrup,M.|Drought Tolerance in Folsomia candida Willem (Collembola) After Exposure to Sublethal Concentrations of Three-Soil Polluting Chemicals|Pedobiologia (Multiple Languages)41(4): 361-368|1997|10.1016/S0031-4056(24)00252-X
40454|T||Svendsen,C., and J.M. Weeks|A Simple Low-Cost Field Mesocosm for Ecotoxicological Studies on Earthworms|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(1): 31-40|1997|
40455|T||Reinecke,A.J., and S.A. Reinecke|The Influence of Heavy Metals on the Growth and Reproduction of the Compost Worm Eisenia fetida (Oligochaeta)|Pedobiologia (Multiple Languages)40(5): 439-448|1996|10.1016/S0031-4056(24)00357-3
40456|T||Corp,N., and A.J. Morgan|Accumulation Of Heavy Metals From Polluted Soils By The Earthworm, Lumbricus Rubellus: Can Laboratory Exposure Of 'Control' Worms Reduce Biomonitoring Problems?|Environ. Pollut.74(1): 39-52|1991|10.1016/0269-7491(91)90025-R
40457|T||Beyer,W.N., G. Hensler, and J. Moore|Relation of pH and Other Soil Variables to Concentrations of Pb, Cu, Zn, Cd and Se in Earthworms|Pedobiologia (Multiple Languages)30:167-172|1987|10.1016/S0031-4056(23)00368-2
40458|T||Gunnarsson,T., and S. Rundgren|Nematode Infestation and Hatching Failure of Lumbricid Cocoons in Acidified and Polluted Soils|Pedobiologia (Multiple Languages)29(3): 165-173|1986|10.1016/S0031-4056(23)06890-7
40459|T||Graff,S., M. Berkus, G. Alberti, and H.R. Kohler|Metal Accumulation Strategies in Saprophagous and Phytophagous Soil Invertebrates: A Quantitative Comparison|BioMetals10(1): 45-53|1997|10.1023/A:1018366703974
40460|T||Pawert,M., R. Triebskorn, S. Graff, M. Berkus, J. Schulz, and H. Koehler|Cellular Alterations in Collembolan Midgut Cells as a Marker of Heavy Metal Exposure: Ultrastructure and Intracellular Metal Distribution|Sci. Total Environ.181(3): 187-200|1996|10.1016/0048-9697(95)05009-4
40461|T||Kratz,W., H. Gruttke, and G. Weigmann|Cadmium Accumulation In Soil Fauna After Artificial Application of Cadmium Nitrate in a Ruderal Ecosystem|Acta Phytopathol. Entomol. Hung.22(1-4): 391-398|1987|
40462|T||Van Straalen,N.N., and R.G.M. De Goede|Productivity as a Population Performance Index in Life-Cycle Toxicity Tests|Water Sci. Technol.19(11): 13-20|1987|10.2166/wst.1987.0108
40463|T||Baldwin,N.A., and J.R. Bennett|Evaluation of Chemical Treatments for Inhibition of Earthworm Casting in Amenity Turf|Tests Agrochem. Cultiv.11:14-15|1990|
40464|T||Van Gestel,C.A.M., W.C. Ma, and C.E. Smit|Development of QSARs in Terrestrial Ecotoxicology: Earthworm Toxicity and Soil Sorption of Chlorophenols, Chlorobenzenes and Dichloroaniline|Sci. Total Environ.109/110:589-604|1991|10.1016/0048-9697(91)90212-W
40465|T||Streit,B.|Effects of High Copper Concentrations on Soil Invertebrates (Earthworms and Oribatid Mites):  Experimental Results and a Model|Oecologia64(3): 381-388|1984|10.1007/BF00379137
40467|T||Lighthart,B., and H. Bond|Design and Preliminary Results from Soil/Litter Microcosms|Int. J. Environ. Stud.10:51-58|1976|10.1080/00207237608737292
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40469|T||Neuhauser,E.F., and C.A. Callahan|Growth and Reproduction of the Earthworm Eisenia fetida Exposed to Sublethal Concentrations of Organic Chemicals|Soil Biol. Biochem.22(2): 175-180|1990|10.1016/0038-0717(90)90083-C
40470|T||Neuhauser,E.F., M.R. Malecki, and R.C. Loehr|Growth and Reproduction of the Earthworm Eisenia fetida After Exposure to Sublethal Concentrations of Metals|Pedobiologia (Multiple Languages)27:89-97|1984|10.1016/S0031-4056(23)05824-9
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40472|T||Bengtsson,G., T. Gunnarsson, and S. Rundgren|Influence of Metals on Reproduction, Mortality and Population Growth in Onychiurus armatus (Collembola)|J. Appl. Ecol.22:967-978|1985|10.2307/2403244
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40474|T||Thompson,A.R., and F.L. Gore|Toxicity of Twenty-Nine Insecticides to Folsomia candida:  Laboratory Studies|J. Econ. Entomol.65(3): 1255-1260|1972|10.1093/jee/65.5.1255
40475|T||Akhtar,M.S., and M. Saleem|Toxicity of Insecticides Against Coptotermes heimi (Wasmann) (Isoptera: Rhinotermitidae)|Pak. J. Zool.25(2): 139-142|1993|
40476|T||Van Gestel,C.A.M., E.M. Dirven-Breemen, and R. Baerselman|Accumulation and Elimination of Cadmium, Chromium and Zinc and Effects on Growth an Reproduction in Eisenia andrei (Oligochaeta, Annelida)|Sci. Total Environ.134(suppl.1): 585-597|1993|10.1016/S0048-9697(05)80061-0
40477|T||Rundgren,S., and P. Nilsson|Sublethal Effects of Aluminium on Earthworms in Acid Soil: The Usefulness of Dendrodrilus rubidus (Sav.) in a Laboratory Test System|Pedobiologia (Multiple Languages)41(5): 417-436|1997|10.1016/S0031-4056(24)00313-5
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40479|T||Donkin,S.G., and D.B. Dusenbery|Using the Caenorhabditis elegans Soil Toxicity Test to Identify Factors Affecting Toxicity to Identify Factors Affecting Toxicity of Four Metal Ions in Intact Soil|Water Air Soil Pollut.78:359-373|1994|10.1007/BF00483043
40480|T||Dindal,D.L., D. Folts, and R.A. Norton|Effects of DDT on Community Structure of Soil Microarthropods in an Old Field|In: J.Vanek (Ed.), Progress in Soil Zoology, The Hague, Netherlands:505-513|1975|
40481|T||Scott-Fordsmand,J.J., P.H. Krogh, and J.M. Weeks|Sublethal Toxicity of Copper to a Soil-Dwelling Springtail (Folsomia fimetario) (Collembola:  Isotomidae)|Environ. Toxicol. Chem.16(2): 2538-2542|1997|
40482|T||Posthuma,L., R. Baerselman, R.P.M. Van Veen, and E.M. Dirven-Van Breemen|Single and Joint Toxic Effects of Copper and Zinc on Reproduction of Enchytraeus crypticus in Relation to Sorption of Metals in Soils|Ecotoxicol. Environ. Saf.38(2): 108-121|1997|10.1006/eesa.1997.1568
40483|T||Sandifer,R.D., and S.P. Hopkin|Effects of pH on the Toxicity of Cadmium, Copper, Lead and Zinc to Folsomia candida Willem, 1902 (Collembola) in a Standard Laboratory Test System|Chemosphere33(12): 2475-2486|1996|10.1016/S0045-6535(96)00348-7
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40485|T||Fitzgerald,G.D., R.P. Lanno, U. Klee, A. Farwell, and D.G. Dixon|Critical Body Residues (CBRS):  Applications in the Assessment of Pentachlorophenol Toxicity to Eisenia fetida in Artificial Soil|Soil Biol. Biochem.29(3-4): 685-688|1997|10.1016/S0038-0717(96)00274-X
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40487|T||Jaggy,A., and B. Streit|Toxic Effects of Soluble Copper on Octolasium cyaneum Sav. (Lumbricidae)|Rev. Suisse Zool.89(4): 881-889|1982|
40488|T||Van Gestel,C.A.M., W.A. Van Dis, E.M. Dirven-Van Breemen, P.M. Sparenburg, and R. Baerselman|Influence of Cadmium, Copper, and Pentachlorophenol on Growth and Sexual Development of Eisenia andrei (Oligochaeta; Annelida)|Biol. Fertil. Soils12:117-121|1991|10.1007/BF00341486
40489|T||Neuhauser,E.F., R.C. Loehr, D.L. Milligan, and M.R. Malecki|Toxicity of Metals to the Earthworm Eisenia fetida|Biol. Fertil. Soils1(3): 149-152|1985|10.1007/BF00301782
40490|T||Van Gestel,C.A.M., and P.J. Hensbergen|Interaction of Cd and Zn Toxicity for Folsomia candida Willem (Collembola: Isotomidae) in Relation to Bioavailability in Soil|Environ. Toxicol. Chem.16(6): 1177-1186|1997|10.1002/etc.5620160612
40491|T||Korthals,G.W., A.D. Alexiev, T.M. Lexmond, J.E. Kammenga, and T. Bongers|Long-Term Effects of Copper and pH on the Nematode Community in an Agroecosystem|Environ. Toxicol. Chem.15:979-985|1996|
40492|T|OECDG|Heimbach,F.|Correlations Between Three Methods for Determining the Toxicity of Chemicals to Earthworms|Pestic. Sci.15:605-611|1984|10.1002/ps.2780150612
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40494|T||Donkin,S.G., and D.B. Dusenbery|A Soil Toxicity Test Using the Nematode Caenorhabditis elegans and an Effective Method of Recovery|Arch. Environ. Contam. Toxicol.25(2): 145-151|1993|10.1007/BF00212125
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40497|T||Smit,C.E., and C.A.M. Van Gestel|Comparison of the Toxicity of Zinc for the Springtail Folsomia candida in Artifically Contaminated and Polluted Field Soils|Appl. Soil Ecol.3:127-136|1996|10.1016/0929-1393(95)00078-X
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40501|T||Ma,W.C.|Toxicity of Copper to Lumbricid Earthworms in Sandy Agricultural Soils Amended with Cu-Enriched Organic Waste Materials|Ecol. Bull.39:53-56|1988|
40502|T||Houx,N.W., and W.J.M. Aben|Bioavailability of Pollutants to Soil Organisms via the Soil Solution|Sci. Total Environ.Suppl(1/2): 387-395|1993|10.1016/S0048-9697(05)80039-7
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40507|T||Edwards,C.A., E.B. Dennis, and D.W. Empson|Pesticides and the Soil Fauna:  Effects of Aldrin and DDT in an Arable Field|Ann. Appl. Biol.60:11-22|1967|10.1111/j.1744-7348.1967.tb05917.x
40508|T||Polivka,J.B.|Effect of Insecticides upon Earthworm Populations|Ohio J. Sci.51(4): 195-196|1951|
40509|T||Kohler,H.R., C. Knodler, and M. Zanger|Divergent Kinetics of hsp70 Induction in Oniscus asellus (Isopoda) in Response to Four Environmentally Relevant Organic Chemicals (B[a]P, PCB52, gamma-HCH, PCP): Suitability and Limits of a Biomarker|Arch. Environ. Contam. Toxicol.36(2): 179-185|1999|10.1007/s002449900458
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40511|T||Cikutovic,M.A., L.C. Fitzpatrick, A.J. Goven, B.J. Venables, M.A. Giggleman, and E.L. Cooper|Wound Healing in Earthworms Lumbricus terrestris: A Cellular-Based Biomarker for Assessing Sublethal Chemical Toxicity|Bull. Environ. Contam. Toxicol.62(4): 508-514|1999|10.1007/s001289900905
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40513|T||Tingle,C.C.D.|Some Effects of DDT Used To Control Tsetse Fly On Woodland Invertebrates In Zimbabwe|Ann. Zool. Fennici(196): 361-363|1995|
40514|T||Kula,C.|A Prolonged Laboratory Test on Sublethal Effect of Pesticides on Eisenia fetida|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:257-262|1994|
40515|T||Guenther,A., and H. Greven|Increase of the Number of Epidermal Gland Cells: An Unspecific Response of Lumbricus terrestris L. (Lumbricidae: Oligochaeta) to Different Environmental Stressors|Zool. Anz. (Multiple Languages)225(5-6): 278-286|1990|
40516|T||Diaz-Lopez,G., and R. Mancha|Usefulness of Testing with Eisenia fetida for the Evaluation of Agrochemicals in Soils|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:251-256|1994|
40517|T||Ramseier,S., J. Deshusses, and W. Haerdi|Cadmium Speciation Studies In The Intestine Of Lumbricus terrestris By Electrophoresis Of Metal Proteins Complexes|Mol. Cell. Biochem.97(2): 137-144|1990|10.1007/BF00221055
40518|T||Lamprecht,I., C. Motzkus, B. Schaarschmidt, and D. Coenen-Stass|Pentachlorophenol - an Environmental Pollutant. Microcalorimetric Investigations of an Ecological Model System|Thermochim. Acta172:87-94|1990|10.1016/0040-6031(90)80562-D
40519|T||Haque,A., and W. Ebing|Uptake and Accumulation of Pentachlorophenol and Sodium Pentachlorophenate by Earthworms from Water and Soil|Sci. Total Environ.68:113-125|1988|10.1016/0048-9697(88)90365-8
40520|AT||Labrot,F., J.F. Narbonne, P. Ville, M. Saint Denis, and D. Ribera|Acute Toxicity, Toxicokinetics, and Tissue Target of Lead and Uranium in the Clam Corbicula fluminea and the Worm Eisenia fetida: Comparison with the Fish Brachydanio rerio|Arch. Environ. Contam. Toxicol.36(2): 167-178|1999|10.1007/s002449900457
40522|T||Lord,K.A., G.G. Briggs, M.C. Neale, and R. Manlove|Uptake of Pesticides from Water and Soil by Earthworms|Pestic. Sci.11:401-408|1980|10.1002/ps.2780110406
40523|T||Edwards,C.A., and K. Jeffs|The Rate of Uptake of DDT from Soils by Earthworms|Nature247:157-158|1974|10.1038/247157a0
40524|T||Beyer,W.N., and A.J. Krynitsky|Long-Term Persistence of Dieldrin, DDT, and Heptachlor Epoxide in Earthworms|Ambio18(5): 271-273|1989|
40525|T||Khan,M.R., M.W. Khan, and S.T. Nabi|Effect of Cobalt, a Soil-Pollutant, on Hatching, Mortality and Penetration of Root-Knot Nematode, Meloidogyne incognita|Chem. Environ. Res.3(3-4): 265-269|1994|
40526|T||Parmelee,R.W., C.T. Phillips, R.T. Checkai, and P.J. Bohlen|Determining the Effects of Pollutants on Soil Faunal Communities and Trophic Structure Using a Refined Microcosm System|Environ. Toxicol. Chem.16(6): 1212-1217|1997|10.1002/etc.5620160616
40527|T||Smit,C.E., P. Van Beelen, and C.A.M. Van Gestel|Development of Zinc Bioavailability and Toxicity for the Springtail Folsomia candida in an Experimentally Contaminated Field Plot|Environ. Pollut.98(1): 73-80|1997|10.1016/S0269-7491(97)00104-8
40528|T||Totaro,E.A., L. Lucadamo, T. Coppa, C. Turano, and R. Gervasi|Effects of Iron Pollution on Macroinvertebrates Promoting Organic Matter Transformation in Soils of Presila Cosentina (Italy)|Biol. Fertil. Soils14(4): 223-229|1992|10.1007/BF00395456
40529|T||Posthuma,L.|Genetic Differentiation Between Populations of Orchesella cincta (Collembola) from Heavy Metal Contaminated Sites|J. Appl. Ecol.27:609-622|1990|10.2307/2404306
40530|T||Venter,J.M., and A.J. Reinecke|Effects of the Pesticide Dieldrin on Incubation of the Earthworm Eisenia foetida (Oligochaeta)|S. Afr. J. Zool.22(2): 97-100|1987|10.1080/02541858.1987.11448027
40531|T|OECDG|Roberts,B.L., and H.W. Dorough|Relative Toxicities of Chemicals to the Earthworm Eisenia foetida|Environ. Toxicol. Chem.3(1): 67-78|1984|10.1002/etc.5620030109
40532|T||Haque,A., H. Gruttke, W. Kratz, U. Kielhorn, G. Weigmann, G. Meyer, R. Bornkamm, I. Schuphan, and W. Ebing|Environmental Fate and Distribution of Sodium 14C-Pentachlorophenate in a Section of Urban Wasteland Ecosystem|Sci. Total Environ.68:127-139|1988|10.1016/0048-9697(88)90366-X
40533|T||Appel,A.G., and E.P. Bemson|Preformance of Abamectin Bait Formulations Against German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.88(4): 924-931|1995|10.1093/jee/88.4.924
40534|T||Korthals,G.W., A. Van de Ende, H. Van Megen, T.M. Lexmond, J.E. Kammenga, and T. Bongers|Short-Term Effects of Cadmium, Copper, Nickel and Zinc on Soil Nematodes from Different Feeding and Life-History Strategy Groups|Appl. Soil Ecol.4(2): 107-117|1996|10.1016/0929-1393(96)00113-8
40535|T||Cathey,B.|Comparative Toxicities of Five Insecticides to the Earthworm, Lumbricus terrestris|Agric. Environ.7(1): 73-81|1982|10.1016/0304-1131(87)90008-7
40536|T||Ma,W.C., J. Immerzel, and J. Bodt|Earthworm and Food Interactions on Bioconcentration and Disappearance in Soil of Polycyclic Aromatic Hydrocarbons: Studies on Phenanthrene and Fluoranthene|Ecotoxicol. Environ. Saf.32(3): 226-232|1995|10.1006/eesa.1995.1108
40537|T||Ash,C.P.J., and D.L. Lee|Lead, Cadmium, Copper and Iron in Earthworms from Roadside Sites|Environ. Pollut.22(1): 59-67|1980|10.1016/0143-1471(80)90082-3
40538|T||Jefferies,D.J., and B.N.K. Davis|Dynamics of Dieldrin in Soil, Earthworms and Song Thrushes|J. Wildl. Manag.32:441-456|1968|10.2307/3798922
40539|T||Debus,R., and R. Niemann|Nematode Test to Estimate the Hazard Potential of Solved Contaminations|Chemosphere29(3): 611-621|1994|10.1016/0045-6535(94)90447-2
40540|T||Hartenstein,R., E.F. Neuhauser, and J. Collier|Accumulation of Heavy Metals in the Earthworm, Eisenia foetida|J. Environ. Qual.9(1): 23-26|1980|10.2134/jeq1980.00472425000900010007x
40541|T||Filser,J., and G. Hoelscher|Experimental Studies on the Reactions of Collembola to Copper Contamination|Pedobiologia (Multiple Languages)41(1-3): 173-178|1997|10.1016/S0031-4056(24)02991-3
40542|T||Van Gestel,C.A.M., J. Van Hekezen, J. Bot, and A. Doornekamp|Development of a Standardized Soil Ecotoxicity Test with Platynothrus peltifer (Acari:  Orobatida), Using Copper as a Reference Chemical|In: W.J.Van den Brink, R.Bosman, and F.Arendt (Eds.), Contaminated Soil 95, Kluwer Publ., Netherlands:611-612|1995|
40543|T||Ma,W.C.|Sublethal Toxic Effects of Copper on Growth, Reproduction and Litter Breakdown Activity in the Earthworm Lumbricus rubellus, with Observations on the Influence of Temperature and Soil pH|Environ. Pollut. A.33:207-219|1984|10.1016/0143-1471(84)90011-4
40544|T|OECDG|Heimbach,F.|Comparison of Laboratory Methods, Using Eisenia foetida and Lumbricus terrestris, for the Assessment of the Hazard of Chemicals to Earthworms|J. Plant Dis. Prot.92(2): 186-193|1985|
40545|T||Forge,T.A., M.L. Berrow, J.F. Darbyshire, and A. Warren|Protozoan Bioassays of Soil Amended with Sewage Sludge and Heavy Metals, Using the Common Soil Ciliate Colpoda steinii|Biol. Fertil. Soils16:282-286|1993|10.1007/BF00369305
40546|T||Edwards,C.A.|Development of a Standardized Laboratory Method for Assessing the Toxicity of Chemical Substances to Earthworms|Rep.No.EUR-8714-EN, Commiss.Eur.Commun., Luxembourg:141 p.|1983|
40547|T||Edwards,C.A.|Report of the Second Stage in Development of a Standardized Laboratory Method for Assessing the Toxicity of Chemical Substances to Earthworms|Contract No.XI/AL/82/430, Comm.Eur.Commun., Luxembourg9360:98 p.|1984|
40548|T||Scott-Fordsmand,J.J., P.H. Krogh, and S.P. Hopkin|Toxicity of Nickel to a Soil-Dwelling Springtail, Folsomia fimetaria (Collembola: Isotomidae)|Ecotoxicol. Environ. Saf.43(1): 57-61|1999|10.1006/eesa.1998.1758
40549|T||Bengtsson,G., T. Gunnarsson, and S. Rundgren|Effects of Metal Pollution on the Earthworm Dendrobaena rubida (Sav.) in Acidified Soils|Water Air Soil Pollut.28(3/4): 361-383|1986|10.1007/BF00583501
40550|T|OECDG|Van Gestel,C.A.M., and W.A. Van Dis|The Influence of Soil Characteristics on the Toxicity of Four Chemicals to the Earthworm Eisenia fetida andrei (Oligochaeta)|Biol. Fertil. Soils6(3): 262-265|1988|10.1007/BF00260822
40551|T||Sheppard,S.C., W.G. Evenden, S.A. Abboud, and M. Stephenson|A Plant Life-Cycle Bioassay for Contaminated Soil, with Comparison to Other Bioassays: Mercury and Zinc|Arch. Environ. Contam. Toxicol.25(1): 27-35|1993|10.1007/BF00230707
40552|T||Salminen,J., and J. Haimi|Effects of Pentachlorophenol on Soil Organisms and Decomposition in Forest Soil|J. Appl. Ecol.34(1): 101-110|1997|10.2307/2404851
40553|T||Spencer,W.F.|Effect of Copper on Yield and Uptake of Phosphorus and Iron by Citrus Seedlings Grown at Various Phosphorus Levels|Soil Sci.102(5): 296-299|1966|10.1097/00010694-196611000-00003
40554|T||Simon,L., H.W. Martin, and D.C. Adriano|Chicory (Cichorium intybus L.) and Dandelion (Taraxacum officinale Web.) as Phytoindicators of Cadmium Contamination|Water Air Soil Pollut.91(3-4): 351-362|1996|10.1007/BF00666269
40555|T||Fecenko,J., and O. Lozek|Maize Grain Yield Formation in Dependence on Applied Zinc Doses and Its Content in Soil|Rostl. Vyroba (Multiple Languages)44(1): 15-18|1998|
40556|AT||Reboredo,F.|Interaction Between Copper and Zinc and Their Uptake by Halimione portulacoides (L.) Aellen|Bull. Environ. Contam. Toxicol.52(4): 598-605|1994|10.1007/BF00194149
40557|T||Kjaer,C., M.B. Pedersen, and N. Elmegaard|Effects of Soil Copper on Black Bindweed (Fallopia convolvulus) in the Laboratory and in the Field|Arch. Environ. Contam. Toxicol.35(1): 14-19|1998|10.1007/s002449900342
40558|T||Bansal,R.L., and D.S. Chahal|Zinc-Manganese Relationships in Berseem (Trifolium alexandrinum) Grown on an Alkaline Soil in a Pot Experiment|Acta Agron. Hung.45(4): 449-454|1997|
40559|T||Walsh,L.M., W.H. Erhardt, and H.D. Seibel|Copper Toxicity in Snapbeans (Phaseolus vulgaris L.)|J. Environ. Qual.1(2): 197-200|1972|10.2134/jeq1972.00472425000100020022x
40560|T||Luo,Y., and D.L. Rimmer|Zinc-Copper Interaction Affecting Plant Growth on a Metal-Contaminated Soil|Environ. Pollut.88(1): 79-83|1995|10.1016/0269-7491(95)91050-U
40561|T||Chlopecka,A., and D.C. Adriano|Mimicked In-Situ Stabilization of Metals in a Cropped Soil:  Bioavailability and Chemical Form of Zinc|Environ. Sci. Technol.30(11): 3294-3303|1996|10.1021/es960072j
40562|T||Gaweda,M.|The Uptake of Lead by Spinach Spinacia oleracea L. and Radish Raphanus raphanistrum L. subvar. radicula Pers. as Affected by Organic Matter in Soil|Acta Physiol. Plant.13(3): 167-174|1991|
40563|T||Xiong,Z.T.|Bioaccumulation and Physiological Effects of Excess Lead in a Roadside Pioneer Species Sonchus oleraceus L|Environ. Pollut.97(3): 275-279|1997|10.1016/S0269-7491(97)00086-9
40564|T|OECDG|Gunther,P., and W. Pestemer|Risk Assessment for Selected Xenobiotics by Bioassay Methods with Higher Plants|Environ. Manag.14(3): 381-388|1990|10.1007/BF02394206
40565|T|OECDG|Adema,D.M.M., and L. Henzen|A Comparison of Plant Toxicities of Some Industrial Chemicals in Soil Culture and Soilless Culture|Ecotoxicol. Environ. Saf.18(2): 219-229|1989|10.1016/0147-6513(89)90083-3
40566|T||Zaman,M.S., and F. Zereen|Growth Responses of Radish Plants to Soil Cadmium and Lead Contamination|Bull. Environ. Contam. Toxicol.61(1): 44-50|1998|10.1007/s001289900727
40567|T||Balba,A.M., G. El Shibiny, and S. El Khatib|Effect of Lead Increments on the Yield and Lead Content of Tomato Plants|Water Air Soil Pollut.57/58:93-99|1991|10.1007/BF00282872
40568|T||Singh,B., and R.S. Antil|Effect of Zn and N levels on dry Matter Yield and Nutrient Uptake by Wheat|Ann. Biol.12(1): 165-167|1996|
40569|T||Roszyk,E., S. Roszyk, and Z. Spiak|The Zinc Amount Toxic for Plants Contaminated in Soils|Rocz. Glebozn. (Multiple Languages)39(3): 57-69|1988|
40570|T||Dixon,R.K.|Response of Ectomycorrhizal Quercus rubra to Soil Cadmium, Nickel and Lead|Soil Biol. Biochem.20(4): 555-559|1988|10.1016/0038-0717(88)90072-7
40571|T||Hassett,J.J., J.E. Miller, and D.E. Koeppe|Interaction of Lead and Cadmium on Maize Root Growth and Uptake of Lead and Cadmium by Roots|Environ. Pollut.11:297-302|1976|
40572|T||Kelly,J.M., G.R. Parker, and W.W. McFee|Heavy Metal Accumulation and Growth of Seedlings of Five Forest Spcies as Influenced by Soil Cadmium Level|J. Environ. Qual.8:361-364|1979|10.2134/jeq1979.00472425000800030019x
40574|T||Gaweda,M., and E. Capecka|Effect of Substrate pH on the Accumulation of Lead in Radish (Raphanus sativus L. subvar. radicula) and Spinach (Spinacia oleracea L.)|Acta Physiol. Plant.17(4): 333-340|1995|
40575|T||Kula,H., and O. Larink|Development and Standardization of Test Methods for the Prediction of Sublethal Effects of Chemicals on Earthworms|Soil Biol. Biochem.29(3-4): 635-639|1997|10.1016/S0038-0717(96)00030-2
40576|T||Torres,M.O., and A. De Varennes|Remediation of a Sandy Soil Artificially Contaminated with Copper Using a Polyacrylate Polymer|Soil Use Manag.14(2): 106-110|1998|10.1111/j.1475-2743.1998.tb00625.x
40577|T||Sandifer,R.D., and S.P. Hopkin|Effects of Temperature on the Relative Toxicities of Cd, Cu, Pb, and Zn to Folsomia candida (Collembola)|Ecotoxicol. Environ. Saf.37:125-130|1997|10.1006/eesa.1997.1536
40578|T||Neuhauser,E.F., R.C. Loehr, and M.R. Malecki|Contact and Artificial Soil Tests Using Earthworms to Evaluate the Impact of Wastes in Soil|ASTM Spec. Tech. Publ.886:192-203|1986|
40579|T||Salminen,J., and P. Sulkava|Distribution of Soil Animals in Patchily Contaminated Soil|Soil Biol. Biochem.28(10/11): 1349-1355|1996|10.1016/S0038-0717(96)00151-4
40580|T||Seiler,J.R., and D. Paganelli|Photosynthesis and Growth Response of Red Spruce and Loblolly Pine to Soil-Applied Lead and Simulated Acid Rain|For. Sci.33(3): 668-675|1987|
40581|T||Gifford,J.R., B.F. Oliver, and G.B. Trahan|Insecticidal Seed Dressings on Drill-Seeded Rice to Control the Rice Water Weevil|J. Econ. Entomol.65:1380-1383|1972|10.1093/jee/65.5.1380
40582|T||Goldsworthy,M.C., and S.I. Gertler|Fungicidal and Phytotoxic Properties of 506 Synthetic Organic Compounds|Plant Dis. Rep.182:89-109|1949|
40583|T||Pizey,J.S., and R.L. Wain|Pre-Emergent Herbicidal Activity of Some Substituted Amides and Related Compounds|J. Sci. Food Agric.10:577-584|1959|10.1002/jsfa.2740101101
40585|T||Yokoyama,K., and K. Munakata|Herbicidal Activities of Halogenoalkylcarboxylic Acid Esters. II. Effects on Seedlings|Bot. Gaz.122:67-69|1960|10.1086/336087
40586|T||De Datta,S.K.|Chemical Weed Control in Tropical Rice in Asia|PANS (Pest Artic. News Summ.)18(4, Sect.C): 433-440|1972|
40587|T||Fischer,B.B.|Herbicides for Weed Control in Sesame|Calif. Agric.25(4): 14-15|1971|
40588|T||Sprankle,P.L.|AC 92,553, A Selective Herbicide for Weed Control in Cereals and Other Crops|Proc. Br. Weed Control Conf.12:825-830|1974|
40589|T||Hammerton,J.L.|Problems of Herbicide Assessment in Peanuts in Jamaica|Weed Res. (Multiple Languages)16:27-35|1976|10.1111/j.1365-3180.1976.tb00374.x
40590|T||Caso,O.H., and N.P. Kefford|Control of Regeneration in Roots of the Deep-Rooted Weed Chondrilla Juncea l|Weed Res. (Multiple Languages)13:148-157|1973|10.1111/j.1365-3180.1973.tb01259.x
40591|T||Cassidy,J.C.|Herbicide Evaluation in Brassica Crops - 1968-72|Proc. Br. Weed Control Conf.11:958-964|1972|
40592|T||Matolcsy,G., and M. Hamran|The Herbicidal Effect on Some Substituted Anilides. I. Phenoxy-3,4-Dichloroacetanilides|Weed Res. (Multiple Languages)4:118-122|1963|10.1111/j.1365-3180.1964.tb00280.x
40593|T||Elkins,D.M., and D.L. Suttner|Chemical Regulation of Grass Growth. I. Field and Greenhouse Studies with Tall Fescue|Agron. J.66:487-491|1974|10.2134/agronj1974.00021962006600040005x
40594|T||Elkins,D.M., J.A. Tweedy, and D.L. Suttner|Chemical Regulation of Grass Growth.  II.  Greenhouse and Field Studies with Intensively Managed Turfgrasses|Agron. J.66:492-497|1974|10.2134/agronj1974.00021962006600040006x
40595|T||Parker,C., and M.L. Dean|The Effect of Some Plant Growth Regulators on the Sprouting of Cyperus rotundus and Its Response to Herbicides|Proc. Br. Weed Control Conf.11:744-751|1972|
40596|T||Chappell,W.E., J.S. Coartney, and M.L. Link|Plant Growth Regulators for Highway Maintenance|Proc. South. Weed Sci. Soc.30:300-305|1977|
40597|T||Harvey,R.G., and R. Baker|Influence of Herbicides on Couch Bud Development|Weed Res. (Multiple Languages)14(1): 57-63|1974|10.1111/j.1365-3180.1974.tb01027.x
40598|T||Hilton,H.W., and N. Nomura|Phytotoxicity of Herbicides as Measured by Root Absorption|Weed Res. (Multiple Languages)4:216-222|1964|10.1111/j.1365-3180.1964.tb00290.x
40599|T||Robinson,E.L.|Soil-Incorporated Pre-Planting Herbicides for Witchweed Control|Weeds (Urbana)9:411-415|1961|10.2307/4040858
40600|T||Hitchcock,A.E., P.W. Zimmerman, and H.,Jr. Kirkpatrick|Chemical Weed Control in Corn, Cabbage, Tomato, and Other Crop Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.5:105-108|1951|
40601|T||Gentile,A.G., K.J. Gallagher, and Z. Santner|Effect of Some Formulated Insecticides on Pollen Germination in Tomato and Petunia|J. Econ. Entomol.64(4): 916-919|1971|10.1093/jee/64.4.916
40602|T||Lay,M.M., W.F. Smith, and R.D. Ilnicki|Weed Control Effectiveness of Some Acetanilide, Triazine, and Substituted Urea Herbicides in Sweet Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:61-68|1973|
40603|T||Lay,M.M., W.J. McAvoy, and R.D. Ilnicki|Some Promising Herbicides and Herbicide Combinations for Weed Control in White Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:266-273|1973|
40604|T||Bayer,G.H.|An Evaluation of Herbicides for Control of Annual Grasses in Field Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:47-51|1973|
40605|T||Noll,C.J.|Evaluation of Herbicides for Weed Control in Seeded Onions Grown in Mineral Soils|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:221-223|1974|
40606|T||Ivany,J.A., and J.A. Cutcliffe|Herbicides for Cole Crops in Eastern Canada|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:194-198|1973|
40607|T||Hammerton,J.L.|Weed Control Work in Progress at the University of the West Indies Part 4|PANS (Pest Artic. News Summ.)20(4): 429-436|1974|
40608|T||McClure,P.R., H.D. Gross, and W.A. Jackson|Phosphate Absorption by Soybean Varieties: the Influence of Ferulic Acid|Can. J. Bot.56:764-768|1978|10.1139/b78-087
40609|T||Herman,D.J., and R.D. Ilnicki|Weed Control in Corn by Alachlor and Prynachlor in Combination with Some S-Triazine Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:41-46|1973|
40610|T||Welker,W.V.,Jr., and J.C. Cialone|An Evaluation of Herbicides for the Control of Weeds in Field-Grown Chrysanthemums|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:51-54|1972|
40611|T||Greig,J.K., and M. Asif|Effects of Herbicides on Yield, Weed Control, and Nutrient Content of Sweet Corn|Proc. Northeast. Weed Control Conf.26:99-101|1971|
40612|T||Bivins,J.L., C. Elmore, and A. Lange|Chemical Weed Control in Carnation Transplants|Calif. Agric.26(8): 14-15|1972|
40613|T||Tanaka,J.S., R.R.,Jr. Romanowski, R.T. Sakuoka, and J.A.,Jr. Crozier|Herbicide Evaluation Studies with Sweet Corn (Zea mays L.) in Hawaii|Hawaii Agric. Exp. Stn. Res. Rep.194:3-28|1974|
40614|T||Simms,J.W., C.W.,Jr. Collier, and O.E. Schubert|Chemical Weed Control in Liriope (Liliaceae)|Proc. W. Va. Acad. Sci.44(1): 78-84|1972|
40615|T||Lawson,H.M.|Weed Competition in Transplanted Spring Cabbage|Weed Res. (Multiple Languages)12:254-267|1972|10.1111/j.1365-3180.1972.tb01215.x
40616|AT||Kratky,B.A., and G.F. Warren|The Use of Three Simple, Rapid Bioassays on Forty-Two Herbicides|Weed Res. (Multiple Languages)11:257-262|1971|10.1111/j.1365-3180.1971.tb01008.x
40617|T||O'Loughlin,T.C., L.R. Nelson, J.D. Walstad, J.H. Breland, and J.E. Voeller|Velpar and Other Preemergence Herbicides for Use in Establishment of Loblolly Pine Plantations|Proc. South. Weed Sci. Soc.29:262-268|1976|
40618|T||Ludwig,J.W.|The Use of a Low Dose of Atrazine Alone and in Mixtures with Other Herbicides in the Maize Crop|Weed Res. (Multiple Languages)13:12-18|1973|10.1111/j.1365-3180.1973.tb01241.x
40619|T||Hodgkinson,H.D.|Weed Control in Fodder Brassicas and Vegetables Using Granular Alachlor and Propachlor|Proc. Br. Weed Control Conf.11:150-157|1972|
40620|T||Ward,C.R., J.C. Owens, E.W. Huddleston, D. Ashdown, and C.F. Bailey|Phytotoxic and Residual Properties of Disulfoton Used on Wheat|J. Econ. Entomol.65(2): 561-563|1972|10.1093/jee/65.2.561
40621|T||Vengris,J.|Annual Weed Control in Alfalfa New Seedlings|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:99-103|1977|
40622|T||Kurtz,W.L., and E.W. Stroube|Control of Yellow Nutsedge by Various Herbicides|Proc. North Cent. Weed Control Conf.30:59-62|1975|
40623|T||Tso,T.C., G.L. Steffens, and M.E. Engelhaupt|Inhibition of Tobacco Axillary Bud Growth with Fatty Acid Methyl Esters|J. Agric. Food Chem.13:78-81|1965|10.1021/jf60137a023
40624|T||Parochetti,J.V.|Weed Control in Soybeans with Metribuzin and Combinations with Other Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:28-35|1975|
40625|T||Watschke,T.L., D.J. Wehner, and J.M. Duich|Pre- and Postemergence Crabgrass Control in Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:358-366|1976|
40626|T||Gerber,H.R., G. Muller, and L. Ebner|CGA 24705, a New Grasskiller Herbicide|Proc. Br. Weed Control Conf.12:787-794|1974|
40627|T||Brown,J.F., and H.D. Swingle|Herbicide Evaluation in Vegetable Crops|Proc. South. Weed Sci. Soc.30:168-175|1977|
40628|T||Selleck,G.W., and L.E. Weber|Herbicide Trials for Yellow Nutsedge in Potatoes on Long Island|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:239-242|1976|
40629|T||Higgins,E.R., M.G. Schnappinger, and S.W. Pruss|Yellow Nutsedge Control with CGA-24705 in Corn and Soybeans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:9-16|1975|
40630|T||Henne,R.C.|New Compounds with Potential for Weed Control in Tomatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:207-214|1977|
40631|T||Bing,A.|1976 Preemergence Weed Control in Nursery Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:320-325|1977|
40632|T||Hartnett,J.P.|Weed Control in Soybeans with RH-2512 and RH-2915|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:4-8|1975|
40633|T||Currier,H.B., and S.A. Peoples|Phytotoxicity of Hydrocarbons|Hilgardia23:155-173|1954|10.3733/hilg.v23n06p155
40634|T||Swingle,H.D., and C. Mullins|Herbicide Trials with Irish Potatoes|Proc. South. Weed Sci. Soc.26:256-258|1973|
40635|T||Wilson,H.P., J.N. Belote III, and T.E. Hines|Activities of Alachlor and Fluorodiphen in Snap Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:161-166|1974|
40636|T||Sanok,W.J.|Evaluation of Herbicides for Control of Weeds in Long Island Potatoes-1973|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:282-286|1974|
40637|T||Sanok,W.J., G.W. Selleck, and W.L. Kline|Herbicides for Weed Control in Onions and Shallots|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:261-265|1977|
40638|T||Sanok,W.J., and L.E. Weber|Evaluation of Potato Herbicides on Long Island 1974|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:316-318|1975|
40639|T||Ahrens,J.F.|Weed Control in Field-Grown Chrysanthemums|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:386-394|1974|
40640|T||Knake,E.L., A.P. Appleby, and W.R. Furtick|Soil Incorporation and Site of Uptake of Preemergence Herbicides|Weeds (Urbana)15:228-232|1967|10.2307/4041210
40641|T||Selleck,G.W., and W.J. Sanok|Herbicides for Weed Control in Sweet Corn and Cabbage|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:256-260|1977|
40642|T||Ashley,R.A.|Evaluation of Herbicides and Herbicide Combinations for Weed Control in Seeded Cucumbers and Summer Squash|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:226-231|1973|
40643|T||Elmore,C.L., and W.A. Humphery|Preemergence Weed Control in Ground Cover Ornamentals|Proc. West. Soc. Weed Sci.27:62-65|1974|
40644|T||Jeffery,L.S., J.T. Connell, and T.H.,Jr. Morgan|Johnsongrass Control in Corn Using Commercially-Available Herbicides|Tenn. Farm Home Sci.93:38-40|1975|
40645|T||Fenster,C.R., and G.A. Wicks|Weed Control in Field Beans in Nebraska|Proc. Northeast. Weed Control Conf.26:50-52|1971|
40646|T||Locascio,S.J., and W.L. Currey|Yellow Nutsedge (Cyperus esculentus) Control and Vegetable Crop Tolerance with Various Herbicides|Proc. South. Weed Sci. Soc.26:259-266|1973|
40647|T||Beste,C.E.|New Herbicides for Lima Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:194-196|1975|
40648|T||Fricke,D.H.|Evaluation of Herbicides for Control of Nutsedge and Annual Weeds in Potatoes (1972)|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:276-283|1973|
40649|T||Michieka,R., R.D. Ilnicki, and J.R. Justin|Weed Control in Double-Crop Soybeans with Herbicides Applied Alone and in Combination with Paraquat or Glyphosate|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:61-69|1977|
40650|T||Monaco,T.J., and J.B. Weber|Alachlor-A Herbicide for Selected Vegetable Crops|Proc. South. Weed Sci. Soc.26:205-214|1973|
40651|T||Harris,G.K., and J.D. Stone|COBEX - A New Herbicide in Beans|Proc. West. Soc. Weed Sci.27:47-|1974|
40652|T||Herman,D.J., M.M. Lay, and R.D. Ilnicki|The Response of Several Sweet Corn Varieties to Various Herbicides and Herbicide Combinations|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:175-181|1974|
40653|T||Harvey,R.G., and E. Doersch|Effects of Selected Herbicides on Annual Weed Control and Production of Processing Peas|Agron. J.64:812-815|1972|10.2134/agronj1972.00021962006400060033x
40654|T||Henne,R.C., and R.T. Guest|Alachlor, Chlorbromuron, and Metribuzin for Weed Control in Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:296-298|1974|
40655|T||Narsaiah,D.B., and R.G. Harvey|Alachlor Placement in the Soil as Related to Phytotoxicity to Maize (Zea mays L.) Seedlings|Weed Res. (Multiple Languages)17:163-168|1977|10.1111/j.1365-3180.1977.tb00461.x
40656|T||Amir,J., and N. Lifshitz|Weed Control of Irrigated Peanuts in an Arid Zone|J. Agric. Sci.86:623-626|1976|10.1017/S0021859600061207
40657|T||Jennings,V.M.|Soybean Herbicide Evaluations Across Iowa in 1974|Proc. Northeast. Weed Control Conf.29:79-83|1974|
40658|T||Parochetti,J.V., G.W. Burt, and A.W. Bell|Triazines, Acetanilides, and Several Other Herbicides for Weed Control in Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:48-54|1976|
40659|T||LeBaron,H.M., R.R. Wilson, and T.D. Taylor|Evaluation of CGA-10832 and Other Herbicides for Soybeans in the North Central States|Proc. Northeast. Weed Control Conf.26:44-48|1971|
40660|T||Selleck,G.W., and W.J. Sanok|Herbicide Trial for Direct Seeded Fall Cabbage on Long Island|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:197-199|1976|
40661|T||Horowitz,M., and T. Blumenfeld|Phytotoxicity of Four Herbicides in Different Synthetic Soils|Phytoparasitica1(2): 101-110|1973|10.1007/BF02981039
40662|T||Klassen,M., and G. Guccione|Evaluation of Herbicides for Weed Control in Sugarbeets in Manitoba|J. Am. Soc. Sugar Beet Technol.16:552-560|1971|10.5274/jsbr.16.7.552
40663|T||Burnside,O.C., and D.L. Kittock|Weed Control in Castorbeans|Weeds (Urbana)13:130-133|1965|10.2307/4041153
40664|T||Winget,C.H., T.T. Kozlowski, and J.E. Kuntz|Effects of Herbicides on Red Pine Nursery Stock|Weeds (Urbana)11:87-90|1963|10.2307/4040696
40665|T||Amling,H.J., W.A. Johnson, and M.H. Hollingsworth|Chemicals Control Weeds in Tomatoes and Pimento Pepper|Highlights Agric. Res.10(1): 5-|1963|
40666|T||Foy,C.L., T. Lyons, and S.P. Carlson|Controlling Watergrass in Corn|Calif. Agric.16(3): 12-14|1962|
40667|T||Selleck,G.W., and W.J. Sanok|Herbicide Trials for Direct Seeded Onions on Long Island, 1975|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:181-184|1976|
40668|T||Hay,J.R.|Pre-Emergence Weed Control in Soybeans with Mixtures of Two Herbicides|Weeds (Urbana)9:117-123|1961|10.2307/4040394
40669|T||Dennis,E.B., and C.A. Edwards|Phytotoxicity of Insecticides and Acaricides.  II.  Flowers and Ornamentals|Plant Pathol.12:27-36|1963|10.1111/j.1365-3059.1963.tb00207.x
40670|T||Dennis,E.B., and C.A. Edwards|Phytotoxicity of Insecticides and Acaricides. I. Foliage Sprays|Plant Pathol.10:54-60|1961|10.1111/j.1365-3059.1961.tb00003.x
40671|T||Peaud-Lenoel,C., and C. Gournay-Margerie|Some Effects of Chloramphenicol on Isolated Wheat Roots|Phytochemistry1:267-275|1962|10.1016/S0031-9422(00)82836-8
40672|T||Weinman,C.J., and G.C. Decker|Toxicity of Some Chlorinated Phenol Derivatives|J. Econ. Entomol.40(1): 74-78|1947|10.1093/jee/40.1.74
40673|T||McCarty,C.D., S.B. Boswell, and R.M. Burns|Chemically Induced Sprouting of Axillary Buds in Avocados|Calif. Agric.25(12): 4-5|1971|
40674|T||Boyles,D.T.|The Loss of Electrolytes from Leaves Treated with Hydrocarbons and Their Derivatives|Ann. Appl. Biol.83:103-113|1976|10.1111/j.1744-7348.1976.tb01699.x
40675|T||Thimann,K.V., and W.D. Bonner|Experiments on the Growth and Inhibition of Isolated Plant Parts.  I.  The Action of Iodoacetate and Organic Acids on the Avena Coleoptile|Am. J. Bot.35:271-281|1948|10.1002/j.1537-2197.1948.tb08076.x
40676|T||Burstrom,H., B. Sjoberg, and B.A.M. Hansen|The Plant Growth Activity of Phenoxy-Thioacetic Acids|Acta Agric. Scand.26:155-177|1976|
40677|T||Ravid,U., R. Ikan, and R.M. Sachs|Structures Related to Jasmonic Acid and Their Effect on Lettuce Seedling Growth|J. Agric. Food Chem.23:835-838|1975|10.1021/jf60201a053
40678|T||Binns,W., L.F. James, and A.E.M. Johnson|Control of Larkspur with Herbicides Plus Nitrogen Fertilizer|J. Range Manag.24:110-113|1971|10.2307/3896516
40679|T||Bell,A.R., J. Nalewaja, S. Alam, A.B. Schooler, and T.S. Hsieh|Herbicide Response and Morphology of Interspecific Sowthistle Crosses|Weed Sci.21(3): 189-193|1973|10.1017/S0043174500032094
40680|T||Shukla,S.P.|The Effects of Some Chemicals on the Germination of a Weed, Psoralea Corylifolia L.|Weed Res. (Multiple Languages)12:293-300|1972|10.1111/j.1365-3180.1972.tb01223.x
40681|T||Lange,A.H., and B.B. Fischer|Phytotoxicity, and Irrigation Effects in Orchard Weed Control with Herbicides|Calif. Agric.23(10): 6-8|1969|
40682|T||Smith,D.T., A.F. Wiese, and A.W. Cooley|Woollyleaf Bursage Response to Selected Herbicides|Weed Sci.20(6): 554-556|1972|10.1017/S0043174500078735
40683|T||Jagschitz,J.A.|Postemergence Crabgrass and Nutsedge Control in Turfgrass with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:376-381|1975|
40684|T||Schlesinger,A.H., and D.T. Mowry|Benzothiophenes and Their 1-Dioxides|J. Am. Chem. Soc.73:2614-2616|1951|10.1021/ja01150a056
40685|T||Lange,A., H. Kempen, W. McHenry, and O. Leonard|Roundup - a new Perennial Weed Killer|Calif. Agric.27(2): 6-7|1973|
40686|T||Peabody,D.V., and H.M. Austenson|Herbicides and Their Effect on the Yield of Grass Seed|Agron. J.57:633-634|1965|10.2134/agronj1965.00021962005700060036x
40687|T||Elliott,B.R., J.M. Lumb, T.G. Reeves, and T.E. Telford|Yield Losses in Weed-Free Wheat and Barley Due to Post-Emergence Herbicides|Weed Res. (Multiple Languages)15:107-111|1975|10.1111/j.1365-3180.1975.tb01107.x
40688|T||Audus,L.J., and J.H. Quastel|Coumarin as a Selective Phytocidal Agent|Nature159(4036): 320-324|1947|10.1038/159320a0
40689|T||Baur,J.R., and R.W. Bovey|Herbicidal Effects of Tebuthiuron and Glyphosate|Agron. J.67(4): 547-553|1975|10.2134/agronj1975.00021962006700040024x
40690|T||Canode,C.L.|Tolerance of Five Cool-Season Perennial Grasses to Selected Herbicides|Agron. J.66:683-686|1974|10.2134/agronj1974.00021962006600050023x
40691|T||Forbes,J.C.|Chemical Control of Marsh Ragwort (Senecio aquaticus Huds.) in Established Grassland|Weed Res. (Multiple Languages)17:247-250|1977|10.1111/j.1365-3180.1977.tb00475.x
40692|T||Bailey,D.R.|Control of Acacia flavescens with Herbicides|Aust. J. Exp. Agric. Anim. Husb.12:441-446|1972|10.1071/EA9720441
40693|T||Bell,A.R., J. Nalewaja, and A.B. Schooler|Response of Kochia Selections to 2,4-D, Dicamba, and Picloram|Weed Sci.20:458-461|1972|10.1017/S0043174500036134
40694|T||Lange,A., B. Fischer, D. Hamilton, and H. Agamalian|Weed Control in California Vineyards|Calif. Agric.22(10): 6-7|1968|
40695|T||Hodgson,J.M.|Differential Response of Ditchbank Grasses to Herbicides|Weed Sci.21:421-423|1973|10.1017/S0043174500027387
40696|T||Dubey,P.S., and L.P. Mall|Effect of Herbicides on Germination, Viability, and Seed Growth of Weed Seeds. I. Digera alternifolia Aschers|Trop. Ecol.16:39-42|1975|
40697|T||Derscheid,L.A., J.F. Stritzke, and W.G. Wright|Field Bindweed Control with Cultivation, Cropping, and Chemicals|Weed Sci.18:590-596|1970|10.1017/S0043174500034275
40698|T||Stritzke,J.F.|Germination Characteristics and Chemical Control of Horehound|J. Range Manag.28(3): 225-226|1975|10.2307/3897532
40699|T||George,K.|Degeneration of Mitochondria on Herbicidal Treatment|Indian J. Exp. Biol.9:481-484|1971|
40700|T||Hammerton,J.L.|Experiments with Cyperus rotundus L.: II. Effects of Some Herbicides and Growth Regulators|Weed Res. (Multiple Languages)15:177-183|1975|10.1111/j.1365-3180.1975.tb01119.x
40701|T||Sharma,N.N., and R.K. Roy|Anatomical Studies on Wheat Plants from Plots Treated with Weedicides|Sci. Cult.40:161-162|1974|
40702|T||Wiese,A.F., and A.G. Martin|Toxicity of Benzoic Acid Herbicides to Cotton and Soybeans|Weeds (Urbana)11:7-10|1963|10.2307/4040673
40703|T||Peevy,F.A.|Injection Treatments for Killing Bottom-Land Hardwoods|Weed Sci.20(6): 566-568|1972|10.1017/S0043174500078760
40704|T||Hyder,D.N., F.A. Sneva, D.O. Chilcote, and W.R. Furtick|Chemical Control of Rabbitbrush with Emphasis upon Simultaneous Control of Big Sagebrush|Weeds (Urbana)6:289-297|1958|10.2307/4040159
40705|T||Jagschitz,J.A., and L.H. Barrett|Chemical Control of Broadleaved Weeds in Cool Season Turfgrasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:385-388|1976|
40706|T||Lange,A.H., H. Agamalian, R. Brendler, and M. Snyder|Weed Control in Cole Crops|Calif. Agric.22(5): 10-12|1968|
40707|T||Jorgenson,E.M., C.B. Wingfield, and G.I. Nzewi|Use of Penoxalin Herbicide for Weed Control in Spring Grains and Potatoes|Proc. Northeast. Weed Control Conf.30:72-74|1975|
40708|T||Lider,L.A., and O.A. Leonard|Morning Glory Control in Vineyards with Two New Soil-Residual Herbicides:  Dichlobenil and Chlorthiamid|Calif. Agric.22(5): 8-10|1968|
40709|T||Jagschitz,J.A.|Evaluation of Herbicides for Nutsedge Control in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:331-333|1973|
40710|T||Agamalian,H., W.A. Humphrey, and V. Voth|Weed Control Studies in Strawberries|Calif. Agric.21(12): 8-9|1967|
40711|T||Hartmann,H.T., M. Fadl, and J. Whisler|Inducing Abscission of Olive Fruits by Spraying with Ascorbic Acid and Iodoacetic Acid|Calif. Agric.21(7): 5-7|1967|
40712|T||Johnson,R.R.|Improving Forage Production and Big Game Winter Range with Phenoxy Herbicides|Proc. West. Soc. Weed Sci.28:40-43|1975|
40713|T||Bovey,R.W.|Control of Yucca by Aerial Application of Herbicides|J. Range Manag.17:194-196|1964|10.2307/3895764
40714|T||Youngner,V.B., and J.R. Goodin|Control of Pennisetum clandestinum, Kikuyugrass|Weeds (Urbana)9:238-242|1961|10.2307/4040411
40715|T||Schubert,O.E.|Plant Cover Changes Following Herbicide Applications in Orchards|Weed Sci.20:124-127|1972|10.1017/S0043174500035104
40716|T||Weis,M.E., E.M. Jorgenson, C.B. Wingfield, and T. Wang|Wild Oat Control in Barley with Difenzoquat Alone and in Combination with Broadleaf Herbicides During 1975 Under an EPA Experimental Permit|Proc. Northeast. Weed Control Conf.30:106-109|1975|
40717|T||Frame,J., and R.D. Harkness|Herbicides for Control of Docks (Rumex spp) in Grassland|Proc. Br. Weed Control Conf.11:323-330|1972|
40719|T||Srivastava,T.N.|The Applications of Selective Herbicides to Forestry Practice  Part II:  Historical Review|Indian For.77:176-191|1951|
40720|T||Weatherspoon,D.M., and E.E. Schweizer|Control of Kochia in Sugarbeets with Benzadox|Weed Sci.18:183-185|1970|10.1017/S004317450007764X
40721|T||Ross,R.G., and R.A. Ludwig|A Comparative Study of Fungitoxicity and Phytotoxicity in an Homologous Series of N-N-Alkylethylenethioureas|Can. J. Bot.35:65-95|1957|10.1139/b57-010
40722|AT||Haagsma,T.|Dowco 233 Herbicide-A Possible New Tool in Vegetation Management|Down Earth30:22-24|1975|
40723|T||Zimmerman,P.W., A.E. Hitchcock, and H.,Jr. Kirkpatrick|Killing of Leaves and Defoliation of Plants by Chemical Means|Proc. Northeast. Weed Control Conf.:231-233|1951|
40724|T||Chow,P.N.P.|Factors Affecting the Herbicidal Activity of Tca on Green Foxtail|Weed Sci.20:172-175|1972|10.1017/S0043174500035293
40725|T||Wallgren,B.|Effects of TCA and Aminotriazole on Agropyron repens (L.) Beauv., Holcus mollis L. and Agrostis gigantea Roth|Swed. J. Agric. Res.6:121-130|1976|
40726|T||Dickens,R., and G.A. Buchanan|Control of Cogongrass with Herbicides|Weed Sci.23(3): 194-197|1975|10.1017/S004317450005284X
40727|T||Chow,P.N., and R.D. Dryden|Wheat Tolerance to Tca (Trichloroacetic Acid) for Green Foxtail Control|Weed Sci.21:238-241|1973|10.1017/S0043174500032215
40728|T||Canode,C.L., W.C. Robocker, and T.J. Muzik|Grass Seed Production as Influenced by Chemical Control of Downy Brome|Weeds (Urbana)10:216-219|1962|10.2307/4040782
40729|T||McCarthy,M.K., and P.F. Sand|Chemical Weed Control in Seedling Alfalfa. I. Control of Weedy Grasses|Weeds (Urbana)6:152-160|1958|10.2307/4040288
40730|T||Beggs,J.P., and W.F. Leonard|Nassella Tussock Control: Preventing Reversion|N. Z. J. Agric.97:211-|1958|
40731|T||Cruzado,H.J., T.J. Muzik, and W.C. Kennard|Control of Bamboo in Puerto Rico by Herbicides|Weeds (Urbana)9:20-26|1961|10.2307/4040381
40732|T||Carlson,R.F., and J.E. Moulton|Use of the Ammonium Salt of Trichloroacetate, the Sodium Salt of Trichloroacetate, Ammonium Thiocyanate, and Herbicide 'Pb', in the Eradication of Grasses, and the Effect of These Chemicals on Strawberry and Raspberry P|Mich. Agric. Exp. Stn. Q. Bull.30(4): 413-420|1948|
40733|T||Lange,A.H., B. Fischer, H. Agamalian, and H. Kempen|Weed Control in Young Grapes|Calif. Agric.23:11-12|1969|
40734|T||Wagner,C.R., C.L. Hamner, and H.M. Sell|Some new Esters of 2,4-Dichlorophenoxyacetic Acid and Their Herbicidal Activity|J. Am. Chem. Soc.75:4861-4862|1953|
40735|T||Gentner,W.A., and L.L. Danielson|Phytotoxic Properties of Substituted Benzonitriles and Derivatives|Weed Sci.18:551-555|1970|10.1017/S0043174500034172
40736|T||Juska,F.V.|Pre-Emergence Herbicides for Crabgrass Control and Their Effects on Germination of Turfgrass Species|Weeds (Urbana)9:137-144|1961|10.2307/4040397
40737|T||Noll,C.J., and M.L. Odland|Pre-Emergence Weeding of Spinach with Chemical Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.5:115-117|1951|
40738|T||Atsushi,H., and S.G. Wildman|Similarity in Symptoms Produced in Tobacco Plants by Actinomycin D and Tmv|Virology (N.Y.)31:721-722|1967|
40739|T||Seidlova,F.|Inhibition of Flowering of Chenopodium rubrum L. after the Action of Actinomycin D|Biol. Plant. (Praha)10:318-321|1968|10.1007/BF02921015
40740|T||Galun,E., J. Gressel, and A. Keynan|Suppression of Floral Induction by Actinomycin D -An Inhibitor of 'Messenger' Rna Synthesis|Life Sci.3:911-915|1964|10.1016/0024-3205(64)90156-0
40741|T||Beridze,T.G., M.S. Odintsova, N.A. Cherkashina, and M.M. Sissakian|The Effect of Nucleic Acid Synthesis Inhibitors on the Chlorophyll Formation by Etiolated Bean Leaves|Biochem. Biophys. Res. Commun.23:683-690|1966|10.1016/0006-291X(66)90454-2
40742|T||Wilske,C., and H. Burstrom|The Growth-Inhibiting Action of Thiophenoxy Acetic Acids|Physiol. Plant. (Multiple Languages)3:58-67|1950|10.1111/j.1399-3054.1950.tb07492.x
40743|T||Odmark,G., and B.A. Kihlman|Effects of Chromosome-Breaking Purine Derivatives on Nucleic Acid Synthesis and on the Levels of Adenosine 5'-Triphosphate and Deoxyadenosine 5'-Triphosphate in|Mutat. Res.2:274-286|1965|10.1016/0027-5107(65)90038-2
40744|T||Odmark,G.|True or Apparent Inhibition of Nucleic Acid Synthesis by the Chromosome-Breaking Purine Derivatives Adenine and 8-Ethoxycaffeine|Mutat. Res.14:123-126|1972|10.1016/0027-5107(72)90115-7
40745|T||Crisan,E.V.|Effects of Aflatoxin on Germination and Growth of Lettuce|Appl. Microbiol.25:342-345|1973|10.1128/am.25.3.342-345.1973
40746|T||El-Khadem,M., M.S. Tewfik, and Y.A. Hamdi|Effect of Aflatoxic B(1), Aspergillic and Kojic Acid on Peanut Seedlings|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.130:556-559|1975|10.1016/S0044-4057(75)80043-8
40747|AT||Crisan,E.V.|Effects of Aflatoxin on Seedling Growth and Ultrastructure in Plants|Appl. Microbiol.26:991-1000|1973|10.1128/am.26.6.991-1000.1973
40748|T||Oswald,A.K., and R.J. Haggar|The Tolerance of Ten Grass Varieties to Six Herbicides with a Potential for Wild Oat Control in Herbage Seed Crops|Proc. Br. Weed Control Conf.12:715-722|1974|
40749|T||Nakata,S., and Y. Tanada|Phytotoxicity of Wetting Agents on Lychee|J. Econ. Entomol.54(6): 1074-1076|1961|10.1093/jee/54.6.1074
40750|T||Nethery,A.A.|Inhibition of Mitosis by Surfactants|Cytologia32:321-327|1967|10.1508/cytologia.32.321
40752|T||Chen,S.C., and R.M. Elofson|Phytotoxicity of Organic and Inorganic Iodides to Avena fatua|J. Agric. Food Chem.26:287-289|1978|10.1021/jf60215a028
40753|T||Schlesinger,A.H., and D.T. Mowry|Herbicidal Activity and Structure - Preliminary Evaluation of Some Quaternary Ammonium Salts as Phytotoxic Agents|J. Agric. Food Chem.7:33-34|1959|10.1021/jf60095a004
40754|T||Davies,W., G.A. Atkins, and P.C.B. Hudson|The Effect of Ascorbic Acid and Certain Indole Derivatives on the Regeneration and Germination of Plants|Ann. Bot.1(2): 329-351|1937|10.1093/oxfordjournals.aob.a083473
40755|T||Chang,F.Y., G.R. Stevenson, G.W. Anderson, and J.D. Bandeen|Control of Wild Oats in Oats with Barban Plus Antidote|Weed Sci.22:546-548|1974|10.1017/S0043174500038261
40758|T||Wain,R.L., and F. Wightman|The Growth-Regulating Activity of Certain omega-Substituted Alkylcarboxylic Acids in Relation to Their beta-Oxidation Within the Plant|Proc. R. Soc. Lond. Ser. B Biol. Sci.142:525-536|1954|
40759|T||Juska,F.V., and A.A. Hanson|Effect of Preemergence Crabgrass Herbicides on Seedling Emergence of Turfgrass Species|Weeds (Urbana)12:97-101|1964|10.2307/4040604
40760|T||Fujinama,A., A. Mine, and T. Fujita|Relationship Between Chemical Structure and Selectivity in Herbicidal Activity of Trans-B-(2,4-Dichlorophenoxy)-Acrylates Against Rice Plant and Barnyard-Grass|Agric. Biol. Chem.38:1399-1403|1974|
40761|T||Arnold,C.E., and J.B. Aitken|Perennial Grass Control in Pecan Orchards|Proc. South. Weed Sci. Soc.26:231-235|1973|
40762|T||Tamura,S., and M. Nagao|5-(1,2-Epoxy-2,6,6-Trimethyl-1-Cyclohexyl)-3-Methyl-Cis,Trans-2,4-Pentadienoic Acid and Its Esters:  New Plant Growth Inhibitors Structurally Related to Abscisi|Planta (Multiple Languages)85:209-212|1969|10.1007/BF00388552
40763|T||Hall,J.R.|Control of Broadleaf Weeds in Cool-Season Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:377-384|1976|
40764|T||Singh,R.K.N., and R.W. Campbell|Herbicides on Bluegrass|Weeds (Urbana)13:170-171|1965|10.2307/4041163
40765|T||Arle,H.F., and K.C. Hamilton|Over-the-Top Applications of Herbicides in Cotton|Weed Sci.24:166-169|1976|10.1017/S0043174500065681
40766|T||Peters,E.J., and S.A. Lowance|MSMA and DSMA for Removing Grass Weeds from Grass-Legume Seedlings|Weed Sci.22(6): 578-583|1974|10.1017/S0043174500038340
40767|T||Lee,W.O.|Wild Oat Control in Kentucky Bluegrass and Perennial Ryegrass|Weed Sci.23:525-528|1975|10.1017/S0043174500065152
40768|T||Connell,J.T., and C.W. Derting|Glyphosate Performance on Johnsongrass and Associated Weed Species in No-Tillage Soybeans|Proc. South. Weed Sci. Soc.26:51-58|1973|
40769|T||Johnson,B.J.|Tolerance of Turfgrasses to Postemergence Treatments of MSMA|Ga. Agric. Res.14:7-8|1972|
40770|T||Murdoch,C.L., and D. Ikeda|Goosegrass Control in Bermudagrass Turf with Combinations of MSMA and S-Triazines|Agron. J.66:712-714|1974|10.2134/agronj1974.00021962006600050033x
40771|T||Johnson,B.J.|Smutgrass Control with Herbicides in Turfgrasses|Weed Sci.23(2): 87-90|1975|10.1017/S0043174500052553
40772|T||Knypl,J.S., and W. Mazurczyk|Arrest of Chlorophyll and Protein Breakdown in Senescing Leaf Discs of Kale by Cycloheximide and Vanillin|Curr. Sci. (Bangalore)40:294-295|1971|
40773|T||Khvostova,V.V., V.S. Mozhaeva, N.S. Aigaes, and S.A. Valeva|Mutants Induced by Ionizing Radiation and Ethyleneimine in Winter Wheat|Mutat. Res.2:339-344|1965|10.1016/0027-5107(65)90069-2
40774|T||Simon,Z., and I. Badilescu|Sensibility Towards An Alkylating Agent of Seeds of Different Ploidies|Biochem. Biophys. Res. Commun.21:1-5|1965|10.1016/0006-291X(65)90416-X
40775|T||Badilescu,I., S. Botis-Simon, and Z. Simon|Response of Some Seeds of Different Ploidies Towards Alkylating Agents and Some Common Phytotoxica|Rev. Roum. Biochim.4(4): 279-285|1967|
40776|T||St.John,J.B.|Manipulation of Galactolipid Fatty Acid Composition with Substituted Pyridazinones|Plant Physiol.57:38-40|1976|10.1104/pp.57.1.38
40777|T||Switzer,C.M.|Effects of Herbicides and Related Chemicals on Oxidation and Phosphorylation by Isolated Soybean Mitochondria|Plant Physiol.32:42-44|1957|10.1104/pp.32.1.42
40778|T||Iwanami,Y.|Acceleration of the Growth of Camellia sasanqua Pollen by Soaking in Organic Solvent|Plant Physiol.52:508-509|1973|10.1104/pp.52.5.508
40779|T||Levine,M.|Plant Responses to Carcinogenic Agents and Growth Substances: Their Relation to Crown Gall and Cancer|Bull. Torrey Bot. Club67:199-226|1940|10.2307/2480877
40780|T||Van Daalen,J.J., J. Meltzer, R. Mulder, and K. Wellinga|A Selective Insecticide with A Novel Mode of Action|Naturwissenschaften59:312-313|1972|10.1007/BF00593360
40781|T||Ivany,J.A., and R.D. Sweet|Response of Cucurbits to Certain Analogs of Chloramben|Weed Sci.19:491-495|1971|10.1017/S0043174500050505
40782|T||Whitney,A.S., A.V. Ramos, and A.S. Rios|Chemical Control of Paragrass (Brachiaria mutica) in a Humid Upland Area|J. Agric. Univ. P. R.57:129-135|1973|10.46429/jaupr.v57i2.10791
40783|T||Ivens,G.W.|Preliminary Evaluation of Pre- and Post-Emergence Herbicides in 'Maku' Lotus|Proc. N. Z. Weed Pest Control Conf.28:31-34|1975|10.30843/nzpp.1975.28.9172
40784|T||Baldwin,J.H., and W.A. Armsby|Herbicides for Use in Chicory|Proc. Br. Weed Control Conf.12:435-438|1974|
40785|T||Ahrens,J.F.|Preplant Herbicides for Control of Quackgrass in Ornamentals|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:372-378|1974|
40786|T||Ahrens,J.F.|Fall Applications of Herbicides for Control of Quackgrass and Yellow Nutsedge in Taxus cuspidata capitata|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:379-385|1974|
40787|T||Johnson,B.J.|Herbicides for Seasonal Weed Control in Turfgrasses|Agron. J.68:717-720|1976|10.2134/agronj1976.00021962006800050007x
40788|T||Mitidieri,A., and G. Crabtree|The Effect of Pronamide on Lettuce Growth and Weeds as Affected by Soil Type|Hortscience8(3): 224-225|1973|10.21273/HORTSCI.8.3.224
40789|T||Peterson,R.L., and L.W. Smith|Effects of N-(1,1-Dimethylpropynyl)-3,5-Dichlorobenzamide on the Anatomy of Agropyron repens (L.) Beauv.|Weed Res. (Multiple Languages)11:84-87|1971|10.1111/j.1365-3180.1971.tb00981.x
40790|T||Rath,N., and T.F. O'Callaghan|Further Experiments with Herbicides for the Control of Perennial Grass Weeds in Strawberries|Proc. Br. Weed Control Conf.11:398-405|1972|
40791|T||Johnson,B.J.|Minimal Herbicide Treatments on the Establishment of Four Turfgrasses|Agron. J.67:786-789|1975|10.2134/agronj1975.00021962006700060015x
40792|T||Buchanan,G.A., R.D. McLaughlin, J. Bannon, and H. Ivy|Performance of Dinitroaniline Herbicides in Peanuts|Proc. South. Weed Sci. Soc.26:95-105|1973|
40793|T||McRae,D.H., and J. Bonner|Chemical Structure and Antiauxin Activity|Physiol. Plant. (Multiple Languages)6:485-510|1953|10.1111/j.1399-3054.1953.tb08406.x
40794|T||Noll,C.J.|Evaluation of Eight Herbicides Alone and in Combination for Weed Control in Carrots|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:167-171|1974|
40795|T||Gorter,C.J.|Further Experiments on Auxin-Synergists|Physiol. Plant. (Multiple Languages)15:88-95|1962|10.1111/j.1399-3054.1962.tb07990.x
40796|T||Thompson,O.C., B. Truelove, and D.E. Davis|Effects of Triazines on Energy Relations of Mitochondria and Chloroplasts|Weed Sci.22(2): 164-166|1974|10.1017/S004317450003678X
40797|T||Hilton,J.L., A.L. Scharen, J.B. St.John, D.E. Moreland, and K.H. Norris|Modes of Action of Pyridazinone Herbicides|Weed Sci.17(4): 541-547|1969|10.1017/S0043174500054771
40798|T||St.John,J.B., and L. Hilton|Structure Versus Activity of Substituted Pyridazinones as Related to Mechanism of Action|Weed Sci.24:579-582|1976|10.1017/S0043174500062986
40799|T||Moreland,D.E., F.S. Farmer, and G.G. Hussey|Inhibition of Photosynthesis and Respiration by Substituted 2,6-Dinitroaniline Herbicides. I. Effects on Chloroplast and Mitochondrial Activities|Pestic. Biochem. Physiol.2:342-353|1971|10.1016/0048-3575(72)90039-9
40800|T||Engel,R.E., C.W. Bussey, and R.D. Ilnicki|Control of Crabgrass Digitaria spp. and Goosegrass Eleusine indica in Turf with Experimental Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:324-330|1973|
40802|T||Basu,R.N., T.K. Bose, B.N. Roy, and A. Mukhopadhyay|Auxin Synergists in Rooting of Cuttings|Physiol. Plant. (Multiple Languages)22:649-652|1969|10.1111/j.1399-3054.1969.tb07419.x
40803|T||Dest,W.M., R.A. Peters, and M. Barrett|The Control of Crabgrass and Redroot Pigweed in Silage Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:55-58|1976|
40804|T||Moore,R.W.|Penoxalin, a New Selective Herbicide for Weed Control in Peas, Beans and Other Crops|Proc. N. Z. Weed Pest Control Conf.28:185-188|1975|10.30843/nzpp.1975.28.9151
40805|T||Rutherford,P.P., C.M. Griffiths, and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXIII. Water Uptake by Discs from Inulin-Storing Roots and Tubers in Response to Growth-Substance Treatment|Ann. Appl. Biol.58:467-476|1966|10.1111/j.1744-7348.1966.tb04406.x
40806|T||Coville,C.M., and J.A. Jagschitz|Herbicides for Preemergence Crabgrass and Goosegrass Control in Turfgrass - 1975|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:367-371|1976|
40807|T||Scott,A.W.,Jr., and S.A.,Jr. Reeves|Evaluation of Selected Pre and Postemergence Weed Control Treatments in Sugarcane|Proc. South. Weed Sci. Soc.30:125-129|1977|
40808|T||Whiting,F.L., L.F. Lippert, and J.M. Lyons|Chemical Weed Control in Peppers|Calif. Agric.24(7): 8-9|1970|
40809|T||Whiting,F.L., F.H. Takatori, and J.M. Lyons|Weed Control in Asparagus Direct Seeded Under Semi-Arid Conditions|Calif. Agric.25(1): 4-5|1971|
40810|T||Cooksley,D.G.|A Study of Preplanting Herbicides, Nitrogen, Burning and Post-Emergence Cultivation on the Establishment of Leucaena Leucocephala Cv. Peru|Qld. J. Agric. Anim. Sci.31:271-278|1974|
40811|T||Monaco,T.J., and C.H. Miller|Herbicide Activity in Close-Spaced, Pickling Cucumber|Weed Sci.20(6): 545-548|1972|10.1017/S0043174500078711
40812|T||Chapman,W.H.|Weed Control and Crop Tolerance with Various Herbicides Applied to Florida Shade Tobacco|Proc. South. Weed Sci. Soc.26:170-172|1973|
40813|T||Ivens,G.W., and N.J. Withers|Effects of Herbicide Treatments on Three Lupin Species|Proc. N. Z. Weed Pest Control Conf.29:89-92|1976|10.30843/nzpp.1976.29.9112
40814|T||Engelhard,A.W.|Chemical Sprays: Concentration, Drying Rate and Temperature Effects on Chrysanthemum Flower Quality|Proc. Annu. Meet. Fla. State Hortic. Soc.85:370-374|1973|
40815|T||Skylakakis,G., B. Anastasiadis, J. Buendia, R.M. Bayo, Y. Oran, and W.T. Waldrep|El-161, A New Pre-Plant Incorporated Herbicide for Control of Grass and Dicotyledonous Weeds in Cotton|Proc. Br. Weed Control Conf.12:795-800|1974|
40816|T||Murphy,H.J., and M.J. Goven|Weed Control in Potatoes with Several Pre-Plant Incorporated, Preemergence, and Early Post Emergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:235-238|1976|
40817|T||Begonia,G.B., B.L. Mercado, and R.P. Robles|Morphological and Physiological Responses of Crops and Weeds to Trifluralin. VII. Influence on Peroxidase Activity|Philipp. Agric.55:247-252|1971|
40818|T||Beste,C.E.|Weed Control in Transplanted Tomatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:265-269|1974|
40819|T||Brock,J.L.|The Control of Broad-Leaved Dock (Rumex obtusifolius) in Newly-Sown Red Clover (Trifolium pratense) with Trifluralin, Carbetamide and Asulam|Weed Res. (Multiple Languages)12:310-315|1972|10.1111/j.1365-3180.1972.tb01225.x
40820|T||Burnside,O.C.|Control of Wild Cane in Soybeans|Weed Sci.16:18-22|1968|10.1017/S0043174500030435
40821|T||Carpenter,P.L.|Chemical Weed Control in Container-Grown Nursery Stock|Hortscience8(5): 385-386|1973|10.21273/HORTSCI.8.5.385
40822|T||Dill,T.R., and M.C. Carter|Preemergence Weed Control in Southeastern Forest Nurseries|Weed Sci.21:363-366|1973|10.1017/S004317450002720X
40823|T||Horowitz,M., T. Blumenfeld, G. Herzlinger, and N. Hulin|Effects of Repeated Applications of Ten Soil-Active Herbicides on Weed Population, Residue Accumulation and Nitrification|Weed Res. (Multiple Languages)14:97-109|1974|10.1111/j.1365-3180.1974.tb01502.x
40824|T||Horowitz,M., N. Hulin, and T. Blumenfeld|Behaviour and Persistence of Trifluralin in Soil|Weed Res. (Multiple Languages)14:213-220|1974|10.1111/j.1365-3180.1974.tb01044.x
40825|T||Noll,C.J.|Weeding of Carrots Using Preplant Incorporation Herbicides Followed by Preemergence And/Or Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:244-246|1975|
40826|T||Johnson,B.J.|Soybean Varieties React Similarly to Herbicides|Ga. Agric. Res.13:7-8|1971|
40827|T||Boling,J.C., and J. Hacskaylo|Effect of the Systemic Insecticide UC 21149 and Four Pre-Emergence Herbicides on Cotton Seedlings|J. Econ. Entomol.59(4): 1026-1027|1966|10.1093/jee/59.4.1026
40828|T||Grande,J.A., and T. Ombrello|Weed Control in Transplanted Tomatoes with Metribuzin in Combination with Other Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:219-224|1975|
40829|T||Moyer,J.R., and R.D. Dryden|Effects of Combined Applications of Triallate or Trifluralin with Solution Nitrogen on Wheat, Wild Oats and Green Foxtail|Can. J. Plant Sci.57:479-484|1976|10.4141/cjps77-070
40830|T||Wessels,J.S.C., and R. Van der Veen|The Action of Some Derivatives of Phenylurethan and of 3-Phenyl-1,1-Dimethylurea on the Hill Reaction|Biochim. Biophys. Acta19:548-549|1956|10.1016/0006-3002(56)90481-4
40831|T||Skoog,F., R.Y. Schmitz, R.M. Bock, and S.M. Hecht|Cytokinin Antagonists: Synthesis and Physiological Effects of 7-Substituted 3-Methylpyrazolo(4,3-d)Pyrimidines|Phytochemistry12:25-37|1973|10.1016/S0031-9422(00)84620-8
40832|T||Hamilton,K.C., and H.F. Arle|Persistence of Herbicides in Fallow Desert Cropland|Weed Sci.20(6): 573-576|1972|10.1017/S0043174500078784
40833|T||Rahman,A.|Persistence of Terbacil and Trifluralin Under Different Soil and Climatic Conditions|Weed Res. (Multiple Languages)17:145-152|1977|10.1111/j.1365-3180.1977.tb00458.x
40834|T||Parochetti,J.V., R.W. Feeny, and S.R. Colby|Preemergence Herbicides Plus Postemergence Chloroxuron on Soybeans|Weed Sci.20:548-553|1972|10.1017/S0043174500078723
40835|T||Saghir,A.R., and G. Markoullis|Effects of Weed Competition and Herbicides on Yield and Quality of Potatoes|Proc. Br. Weed Control Conf.12:533-539|1974|
40836|T||Barrentine,W.L., and G.F. Warren|Differential Phytotoxicity of Trifluralin and Nitralin|Weed Sci.19:31-37|1971|10.1017/S0043174500048219
40837|T||Ahrens,J.F.|Experimental Herbicides for Field-Grown Ornamentals|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:297-302|1976|
40838|T||Herman,D.J., M.M. Lay, and R.D. Ilnicki|Some Promising Herbicides for Weed Control in Summer Squash|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:224-228|1974|
40839|T||Newhall,W.F.|Correlation on Pseudocholinesterase Inhibition and Plant Growth Retardation by Quaternary Ammonium Derivatives of (+)-Limonene|Nature223:965-966|1969|10.1038/223965a0
40840|T||Ruddat,M.|Inhibition of the Biosynthesis of Steviol by a Growth Retardant|Nature211:971-972|1966|10.1038/211971a0
40842|T||De Datta,S.K., R.T. Bantilan, and J.K. Park|Selective Control of Annual Grassy Weeds in Transplanted Tropical Rice with alpha-2,2,2-Trichloroethyl Styrene|Nature221:64-65|1969|10.1038/221064a0
40843|T||Allen,W.R., W.L. Askew, and K. Schreiber|Effect of Insecticide Fertilizer Mixtures and Seed Treatments on Emergence of Sugar Beet Seedlings|J. Econ. Entomol.54(1): 181-187|1961|10.1093/jee/54.1.181
40844|T||Self,L.S., and F.E. Guthrie|Tobacco Malformations Caused by Insecticidal Treatments Used for Budworm Control|Tob. Sci.6:78-83|1962|
40845|T||Brown,W.|Experiments on the Effect of Chlorinated Nitrobenzenes on the Sprouting of Potato Tubers|Ann. Appl. Biol.34:422-429|1947|10.1111/j.1744-7348.1947.tb06375.x
40846|T||Mukewar,P.M., and V.P. Bhide|Effect of Seed Treatment with Fungicides and Antibiotic Aureofungin on Nodulation by Rhizobium in Groundnut|Hindustan Antibiot. Bull.12(2/3): 75-80|1970|
40847|T||Kirby,A.H.M., and M. Bennett|Phytotoxicity Trials with Acaricides on Black Currant and Plum|East Malling Res. Stn. Annu. Rep.57:152-154|1958|
40848|T||Yamagata,Y., and Y. Masuda|Comparative Studies on Auxin and Fusicoccin Actions on Plant Growth|Plant Cell Physiol.16:41-52|1975|10.1093/oxfordjournals.pcp.a075126
40849|T||Probst,A.H., and R.T. Everly|Effect of Foliage Insecticides on Growth, Yield and Chemical Composition of Soybeans|Agron. J.49:577-581|1957|10.2134/agronj1957.00021962004900110003x
40850|T||Eno,C.F., and P.H. Everett|Effects of Soil Applications of 10 Chlorinated Hydrocarbon Insecticides on Soil Microorganisms and the Growth of Stringless Black Valentine Beans|Proc. Soil Sci. Soc. Am.22:235-238|1958|10.2136/sssaj1958.03615995002200030013x
40851|T||Lal,O.P.|Insecticidal Sprayings Causing Pollen Sterility in Chinese Cabbage|Acta Agron. Hung.24:145-147|1975|
40853|T||Western,J.H., and R. Stewart|The Effect of A Chemical Soil Sterilizing Agent on the Subsequent Development of Tomato Plants|Ann. Appl. Biol.30:370-372|1943|10.1111/j.1744-7348.1943.tb06717.x
40854|T||Knauss,J.F.|The Phytotoxicity of Seventeen Miticides Applied as Repeated Weekly Sprays Under Slat Shed Conditions to Five Foliage Plant Species|Annu. Meet. Fla. State Hortic. Soc.84:428-432|1971|
40855|T||Clay,D.V.|The Response of Strawberry to a Range of Foliage Acting Herbicides|Proc. Br. Weed Control Conf.11:409-416|1972|
40856|T||Parochetti,J.V.|Postemergence and Postdirected Broadleaved Weed Control for Soybeans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:75-79|1973|
40857|T||Noll,C.J.|Herbicide Weeding of Cucumber Grown in a Stale Seed Bed|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:262-263|1975|
40858|T||Bivins,J.L., and C. Elmore|Nitrofen Herbicide for Control of Yellow Oxalis in Greenhouse Roses|Calif. Agric.26(11): 11-|1972|
40859|T||Hawton,D., and E.H. Stobbe|Selectivity of Nitrofen Among Rape, Redroot Pigweed, and Green Foxtail|Weed Sci.19:42-44|1971|10.1017/S0043174500048232
40860|T||Jojima,T., N. Yoshimura, T. Takematsu, and S. Tamura|Herbicidal Activity of Some Pyridazine Derivatives:  Part III.  3-Phenoxypyridazines and Related Compounds|Agric. Biol. Chem.33:96-102|1969|
40861|T||Takai,M., S. Miyamoto, Y. Hattori, and S. Tamura|Isolation of 2-Phenylacetamide as a Plant Growth Regulator Produced by Actinomyces|Agric. Biol. Chem.27(12): 876-877|1963|10.1080/00021369.1963.10858194
40862|T||Wiltrout,T.R., and H.A. Holt|Prospects of Controlling Vegetation in New Forest Plantations|Proc. North Cent. Weed Control Conf.30:31-36|1976|
40863|T||Taylor,H.F., and R.L. Wain|Studies on Plant Growth-Regulating Substances. LII. Growth Retardation by 3,5-Dichlorophenoxyethylamine and 3,5-Dichlorophenoxybutyric Acid Arising from Their Conversion to 3,5-Dichlorophenoxyacetic Acid in Tomato Plant|Ann. Appl. Biol.89:271-275|1978|10.1111/j.1744-7348.1978.tb07700.x
40864|T||Deli,J., and G.F. Warren|Relative Sensitivity of Several Plants to Diphenamid|Weed Sci.19(1): 70-72|1971|10.1017/S004317450004830X
40865|T||Fretz,T.A.|Herbicide-Impregnated Mulches for Weed Control in Container Nursery Stock|Sci. Hortic.1:165-170|1973|10.1016/0304-4238(73)90027-7
40866|T||Hauser,E.W., and J.D. Miles|Flue-Cured Tobacco Yield and Quality As Affected by Weed Control Methods|Weed Res. (Multiple Languages)15:211-215|1975|10.1111/j.1365-3180.1975.tb01126.x
40867|T||Short,D.E., and D.B. McConnell|Pesticide Phytotoxicity to Ornamental Plants|Annu. Meet. Fla. State Hortic. Soc.86:439-442|1974|
40868|T||Clower,D.F., and J.G. Matthysse|Phytotoxicity of Insecticides in Mist Concentrate Type Formulations|J. Econ. Entomol.47:735-738|1954|10.1093/jee/47.5.735
40869|T||Vengris,J.|Annual Weed Control in Field Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:1-5|1977|
40870|T||Ilnicki,R.D., and R.W. Michieka|Penoxalin Alone and in Combination with Atrazine, Cyanazine, and RH 5205 for Weed Control in Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:6-10|1977|
40871|T||Allen,M.G.|Further Evaluation of Cyanazine and Cyanazine Mixtures for Selective Weed Control in Newly-Planted Raspberries|Proc. Br. Weed Control Conf.12:679-682|1974|
40872|T||Burns,E.R., G.A. Buchanan, and M.C. Carter|Inhibition of Carotenoid Synthesis as a Mechanism of Action of Amitrole, Dichlormate, and Pyriclor|Plant Physiol.47:144-148|1971|10.1104/pp.47.1.144
40873|T||Santelmann,P.W., R.S. Matlock, and L. Six|Phytotoxicity of Herbicides to Spanish Peanuts (Arachis hypogaea L.) as Influenced by Planting Depth and Simulated Rainfall|Crop Sci.7:365-367|1967|10.2135/cropsci1967.0011183X000700040026x
40874|T||Bartels,P.G., and E.J. Pegelow|The Action of Sirmate (3,4-Dichlorobenzyl Methylcarbamate) on Chloroplast Ribosomes of Triticum Vulgare L. Seedlings|J. Cell Biol.37:C1 - C6|1968|
40875|T||Martin,T.J., D.B. Morris, and C.E. Rieley|Studies on the Action and Efficiency of Chlorfenprop-Methyl Against Avena fatua L. (Spring Wild Oats)|Proc. Br. Weed Control Conf.11:209-217|1972|
40876|T||Hack,H.|Study of the Translocation of Bidisin in Wild Oats (Avena fatua L.), with Special Consideration to the Reaction of Different Varieties|Pflanzenschutz-Nachr. Bayer (English Ed.)26(3): 353-367|1973|
40877|T||Lynn,L.B., M.L. Jones, W.E. Rogers, and G.J. Shoop|Oryzalin Applied Overtop Wheat for Weed Control in Soybeans Planted in the Stubble Following Wheat Harvest|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:46-53|1977|
40878|T||Murphy,H.J., and M.J. Goven|Weed Control in White Potatoes in Maine -1973|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:287-295|1974|
40879|T||Rao,M.S.S., R.B. Prasad, and K.L. Khanna|On the Influence of Sulpha Drugs in Sugarcane|Proc. Indian Acad. Sci. Sect. B45:225-233|1957|10.1007/BF03050937
40880|T||Sharma,C.B.S.R.|Cytological Effects of Sulphanilamide on the Root Apices of Allium cepa|Indian J. Biochem. Biophys.8:324-326|1971|
40881|T||Klingensmith,M.J.|The Effect of Certain Benzazole Compounds on Plant Growth and Development|Am. J. Bot.48:40-45|1961|10.1002/j.1537-2197.1961.tb11602.x
40882|T||Burton,D.E., A.J. Lambie, J.C.L. Ludgate, G.T. Newbold, A. Percival, and D.T. Saggers|2-Trifluoromethylbenzimidazoles:  A New Class of Herbicidal Compounds|Nature208:1166-1169|1965|10.1038/2081166a0
40883|T||Vasilev,G.N., L.K. Iliev, and R.T. Vassileva|Chemical Structure and Herbicidal Activity of Certain Esters of the M- and P- Ethylthioureidobenzoic Acids and of 3-Ethyl-4-Oxo-2-Thio-1,2,3,4-Tetrahydroquinazo|C. R. Acad. Bulg. Sci.22(9): 1031-1034|1969|
40884|T||Noll,C.J.|Weed Control in Cucumbers in a Conventional Planting and in a Stale Seed Bed|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:248-251|1977|
40885|T||Sherwood,L.V., and H.R. Kemmerer|The Influence of Winter Applied Preemergence Herbicides on Weed Growth Among Woody Ornamental Plants|J. Am. Soc. Hortic. Sci.85:657-662|1964|
40887|T||Gaur,A.C., and R.P. Pareek|A Study on the Effect of Certain Phenolic Acids and Fumaric Acid in Soil on the Development of Paddy Seedlings and Nitrogen-Fixing Bacteria|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.131:148-156|1976|10.1016/S0044-4057(76)80082-2
40888|T||Sutherland,M.L., S.R. McLane, R.D. Hart, and H.L. Raman|The Response of Soybeans to Several Substituted Benzoic Acids|Hormolog3:5-7|1961|
40889|T||Herron,J.W.|Nimblewill in Kentucky Bluegrass Lawns Controlled by Herbicides|Ky. Farm Home Sci.8(2): 4 - 5, 8|1962|
40890|T||Chaturvedi,S.N.|Formative Effects of 2,3,5-Tri-Iodobenzoic Acid on Foeniculum vulgare Mill|Agra Univ. J. Res. Sci.4:589-594|1955|
40891|T||Madison,R.W., and V.H. Freed|Basal Treatments for Control of Salmonberry|Weeds (Urbana)10:247-248|1962|10.2307/4040790
40892|T||Eastin,E.F.|Control of Problem Weeds in Texas Soybeans|Proc. South. Weed Sci. Soc.26:67-73|1973|
40893|T||Hauser,E.W., W.C. Shaw, H.F. Harrison, and S.A. Parham|Herbicides and Herbicide Mixtures for Weed Control in Peanuts|Weeds (Urbana)10:139-144|1962|10.2307/4040666
40895|T||Skoog,F., H.Q. Hamzi, A.M. Szweykowska, N.J. Leonard, K.L. Carraway, T. Fujii, and J.P. Hegels|Cytokinins: Structure/Activity Relationships|Phytochemistry6:1169-1192|1967|10.1016/S0031-9422(00)86080-X
40896|T||Bempong,M.A.|Interaction of Daunomycin with Meiotic Chromosomes in Vicia Faba|Can. J. Genet. Cytol.15:587-595|1973|10.1139/g73-070
40897|T||Knypl,J.S.|The Control of RNA, Protein and Chlorophyll Synthesis in Senescing Leaf Tissue of Kale by Coumarin and Growth Retardants|Flora (Multiple Languages)160:217-233|1969|
40898|T||Leaper,J.M.F., and J.R. Bishop|Relation of Halogen Position to Physiological Properties in the Mono-, Di-, and Trichlorophenoxyacetic Acids|Bot. Gaz.112:250-258|1951|10.1086/335658
40899|T||Rogozinska,J.H., C. Kroon, and C.A. Salemink|Influence of Alterations in the Purine Ring on Biological Activity of Cytokinins|Phytochemistry12:2087-2092|1973|10.1016/0031-9422(73)85105-2
40900|T||Thimann,K.V.|The Role of Ortho-substitution in the Synthetic Auxins|Plant Physiol.27:392-404|1952|10.1104/pp.27.2.392
40902|T||Fawcett,C.H., D.J. Osbourne, R.L. Wain, and R.D. Walker|Studies on Plant Growth-Regulating Substances. VI. Side-Chain Structure in Relation to Growth-Regulating Activity in the Aryloxyalkylcarboxylic Acids|Ann. Appl. Biol.40(2): 231-243|1953|10.1111/j.1744-7348.1953.tb01078.x
40903|T||Asada,K., and Z. Kasai|Inhibition of the Photosynthetic Carbon Dioxide Fixation of Green Plants by A-Hydroxysulfonates, and Its Effects on the Assimilation Products|Plant Cell Physiol.3:125-136|1962|10.1093/oxfordjournals.pcp.a078948
40904|T||Bruce,M.I., and J.A. Zwar|Cytokinin Activity of Some Substituted Ureas and Thioureas|Proc. R. Soc. Lond. Ser. B Biol. Sci.165:245-265|1966|
40905|T||Burstrom,H.|Studies on the Growth and Metabolism of Roots. Vii. the Growth Action of A-(Phenoxy)Propionic Acids|Physiol. Plant. (Multiple Languages)4:641-651|1951|10.1111/j.1399-3054.1951.tb07699.x
40906|T||Audus,L.J., and M.E. Shipton|2,4-Dichloranisole-Auxin Interactions in Root-Growth|Physiol. Plant. (Multiple Languages)5:430-455|1952|10.1111/j.1399-3054.1952.tb07538.x
40907|T||Hilton,J.L., J.B. St. John, M.N. Christiansen, and K.H. Norris|Interaction of Lipoidal Materials and a Pyridazinone Inhibitor of Chloroplast Development|Plant Physiol.48(2): 171-177|1971|10.1104/pp.48.2.171
40908|T||Dennis,D.T., C.D. Upper, and C.A. West|An Enzymic Site of Inhibition of Gibberellin Biosynthesis by Amo 1618 Andother Plant Growth Retardants|Plant Physiol.40:948-952|1965|10.1104/pp.40.5.948
40909|T||Bunning,E., and I. Moser|Influence of Valinomycin on Circadian Leaf Movements of Phaseolus|Proc. Northeast. Weed Control Conf.69:2732-2733|1972|
40912|T||Muir,R.M., and C. Hansch|The Relationship of Structure and Plant-Growth Activity of Substituted Benzoic and Phenoxyacetic Acids|Plant Physiol.26:369-374|1951|10.1104/pp.26.2.369
40914|T||Wirwille,J.W., and J.W. Mitchell|Six new Plant-Growth-Inhibiting Compounds|Bot. Gaz.111:491-494|1950|10.1086/335620
40915|T||Marth,P.C., W.H.,Jr. Preston, and J.W. Mitchell|Growth-Controlling Effects of Some Quaternary Ammonium Compounds on Various Species of Plants|Bot. Gaz.115:200-204|1953|10.1086/335816
40916|T||Palmer,R.D., and C.W. Helpert|Rice Weed Control in the Western Belt of Texas|Proc. South. Weed Sci. Soc.27:127-135|1974|
40917|T||Fawcett,C.H., R.M. Pascal, M.B. Pybus, H.F. Taylor, R.L. Wain, and F. Wightman|Plant Growth-Regulating Activity in Homologous Series of omega-Phenoxyalkanecarboxylic Acids and the Influence of Ring Substitution on Their Breakdown by beta-Oxidation within Plant Tissues|Proc. R. Soc. Lond. Ser. B Biol. Sci.150:95-119|1959|
40921|T||Langer,C.A., W.H. Smith, and G. Gebe|Ten Consecutive Years of Weed Control in Each of Two Separate Apple Orchards in new Hampshire|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:257-261|1973|
40922|T||Ugochukwu,E.N., and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xxv. the Plant Growth-Regulating Activity of Cinnamic Acids|Ann. Appl. Biol.61:121-130|1968|10.1111/j.1744-7348.1968.tb04515.x
40923|T||Lord,W.J., and R.A.,Jr. Damon|Influence of Mulch on Residue Accumulation and on Injury to 'Richaven' Peach Trees from 2,6-Dichlorobenzonitrile (Dichlobenil)|Hortscience9(5): 449-450|1974|10.21273/HORTSCI.9.5.449
40924|T||Daniell,J.W., and W.S. Hardcastle|Response of Peach Trees to Herbicide and Mechanical Weed Control|Weed Sci.20:133-136|1972|10.1017/S0043174500035177
40925|T||James,C.S., and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xxvi. Isatic and Anthranilic Acids|Ann. Appl. Biol.61:295-302|1968|10.1111/j.1744-7348.1968.tb04534.x
40926|T||Knight,B.E.A., H.F. Taylor, and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xxix. the Plant Growth-Retarding Properties of Certain Ammonium, Phosphonium and Sulphonium Halides|Ann. Appl. Biol.63:211-223|1969|10.1111/j.1744-7348.1969.tb05483.x
40927|T||Chamberlain,V.K., and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xxxii. Chlorosubstituted A-Hydroxy- and A-Methoxy-Phenyl-Acetic Acids|Ann. Appl. Biol.68:307-311|1971|10.1111/j.1744-7348.1971.tb04650.x
40929|T||Barnsley,G.E., and P.H. Rosher|The Relationship Between the Herbicidal Effect of 2,6-Dichlorobenzonitrile and Its Persistence in the Soil|Weed Res. (Multiple Languages)1:147-158|1961|10.1111/j.1365-3180.1961.tb00016.x
40930|T||Hamilton,W.D., A.H. Lange, and C.L. Elmore|Field Bindweed Control in Vineyards|Calif. Agric.25(9): 9-10|1971|
40931|T||Firn,R.D., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXXIV.  The Effects of 3,5-Dichlorophenoxyacetic Acid on Plant Growth|Ann. Appl. Biol.69:73-80|1971|10.1111/j.1744-7348.1971.tb04659.x
40932|T||Chamberlain,K., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXXVI. the Metabolism of Indole-3-Acetonitrile and Related Compounds in Wheat and Pea Tissues|Ann. Appl. Biol.75:409-417|1973|10.1111/j.1744-7348.1973.tb07989.x
40933|T||Wilkins,H., A. Larque-Saavedra, and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xxxvii. the Effects of Light and Hormone Inhibitors on Plant Root Growth|Ann. Appl. Biol.78:169-177|1974|10.1111/j.1744-7348.1974.tb01495.x
40934|T||Price,D.N., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XlI. Structure-Activity Relationships and Metabolism of a Group of Nitrophenols Capable of Inhibiting Chloroplast|Ann. Appl. Biol.83:115-124|1976|10.1111/j.1744-7348.1976.tb01700.x
40935|T||Kemp,M.S., C. Rius-Alonso, and R.L. Wain|Studies on Plant Growth-Regulating Substances. XLIII. 2-Chloro-3-Phenoxypropionitriles|Ann. Appl. Biol.83:447-453|1976|10.1111/j.1744-7348.1976.tb01715.x
40936|T||Wilcox,E.J., and R.L. Wain|Studies on Plant Growth-Regulating Substances. Xliv. the Cytokinin Activity of 6-Benzyloxypurine|Ann. Appl. Biol.84:403-408|1976|10.1111/j.1744-7348.1976.tb01782.x
40937|T||Gromet-Elhanan,Z.|The Inhibition of Photoreactions of Chloroplasts by Ioxynil|Biochem. Biophys. Res. Commun.30:28-31|1968|10.1016/0006-291X(68)90707-9
40938|T||Wilcox,E.J., C. Selby, and R.L. Wain|Studies on Plant Growth-Regulating Substances. L. the Cytokinin Activity of Some Substituted Benzyloxypurines|Ann. Appl. Biol.88:439-444|1978|10.1111/j.1744-7348.1978.tb00736.x
40939|T||Price,R., and R.L. Wain|Studies on Plant Growth-Regulating Substances. LIV. Factors Affecting the Production of Active Growth Substance from Structurally Related Amines in Plants|Ann. Appl. Biol.89:485-488|1978|10.1111/j.1744-7348.1978.tb05978.x
40940|T||Chamberlain,K., and R.L. Wain|Studies on Plant-Growth Regulating Substances. LV. the Plant Growth-Promoting Properties of Some B-Aryl-Propionic Acids|Ann. Appl. Biol.90:115-119|1978|10.1111/j.1744-7348.1978.tb02617.x
40941|T||Davis,D.|Benzotriazole, a Plant-Growth Regulator|Science120:989-|1954|10.1126/science.120.3128.989
40943|T||Kuraishi,S., and T. Yamaki|Cytokinin-Like Activities of 4-Benzylaminobenzimidazole|Physiol. Plant. (Multiple Languages)20:208-212|1967|10.1111/j.1399-3054.1967.tb07156.x
40944|T||Cleland,R.|Evidence on the Site of Action of Growth Retardants|Plant Cell Physiol.6:7-15|1965|10.1093/oxfordjournals.pcp.a079086
40945|T||McDonald,J.J., N.J. Leonard, R.Y. Schmitz, and F. Skoog|Cytokinins: Synthesis and Biological Activity of Ureidopurines|Phytochemistry10:1429-1439|1971|10.1016/0031-9422(71)85004-5
40946|T||Avery,G.S., J. Berger, and B. Shalucha|Comparative Activity of Synthetic Auxins and Derivatives|Bot. Gaz.104:281-287|1942|10.1086/335132
40947|T||Brook,J., S.H. West, and D.S. Anthony|Effects of Phosfon-S on Nucleic Acid Metabolism in Pisum Sativa Alaska|Plant Physiol.42:785-790|1967|10.1104/pp.42.6.785
40948|T||Bruce,M.I., J.A. Zwar, and N.P. Kefford|Chemical Structure and Plant Kinin Activity--the Activity of Urea and Thiourea Derivatives|Life Sci.4:461-466|1965|10.1016/0024-3205(65)90094-9
40949|T||Meyer,H., and A.M. Mayer|Permeation of Dry Seeds with Chemicals:  Use of Dichloromethane|Science171:583-584|1971|10.1126/science.171.3971.583
40950|T||Kemp,C.L.|The Effects of Inhibitors of RNA and Protein Synthesis on Cytological Development During Meiosis|Chromosoma (Berl.)15:652-665|1964|10.1007/BF00319997
40951|T||Torigoe,Y., M. Akiyama, M. Hirobe, T. Okamato, and Y. Isogai|Cytokinin Activity of Azaindene, Azanaphthalene, Naphthalene, and Indole Derivatives|Phytochemistry11:1623-1630|1972|10.1016/0031-9422(72)85009-X
40952|T||Starks,K.J., and J.H. Lilly|Insecticide Seed Treatment of Soybeans in Relation to Phytotoxicity and Seed-Corn Maggot Control|J. Econ. Entomol.48(5): 538-543|1955|10.1093/jee/48.5.538
40953|T||Tripathi,R.L., and M.M. Haque|Studies on Seed Treatment with Insecticides I:  Effect of Certain Organophosphorus Insecticides on Germination and Growth of Seedlings of Mustard|Indian Oilseeds J.7:144-147|1963|
40954|T||Horowitz,M.|Effect of Growth Regulators on Cynodon dactylon (L.) Pers., Sorghum halepense (L.) Pers., and Cyperus rotundus L.|Weed Res. (Multiple Languages)12:11-20|1972|10.1111/j.1365-3180.1972.tb01182.x
40955|T||Schwartzbeck,R.A., and J.W. Pullen|S-21634, 1-Methyl-4-Phenylpyridinium Chloride, for the Control of Nutsedge|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:46-|1974|
40956|T||Pandey,S.N.|Effect of B 995 (N-Dimethylamino Succinic Acid) on the Growth and Alkaloid Content of Tobacco (Nicotiana Tabacum L.) Plants|JNKVV (Jawaharlal Nehru Krishi Vishwa Vidyalaya) Res. J.7(1): 31-34|1973|
40957|T||England,D.J.F.|Pp528 - A New Phenyl Tetrazole Plant Growth Regulator|Proc. Br. Weed Control Conf.12:123-130|1974|
40958|T||Andrews,F.S.|The Influence of Succinic Acid 2,2-Dimethylhydrazide (Alar) on Plant Growth, Inflorescence and Seed Development and Chemical Analysis of Barbarea verna, Land Cress|J. Am. Soc. Hortic. Sci.94:28-32|1969|10.21273/JASHS.94.1.28
40959|T||Burstrom,H.|Studies on Growth and Metabolism of Roots. XI. The Influence of Auxin and Coumarin Derivatives on the Cell Wall|Physiol. Plant. (Multiple Languages)7:548-559|1954|10.1111/j.1399-3054.1954.tb07600.x
40960|T||Burstrom,H.|Studies on Growth and Metabolism of Roots. Iii. the Adaptation Against Growth Inhibition by Aliphatic C12 and C11 Acids|Physiol. Plant. (Multiple Languages)3:175-184|1950|10.1111/j.1399-3054.1950.tb07500.x
40961|T||Zilkah,S., and J. Gressel|Cell Cultures vs. Whole Plants for Measuring Phytotoxicity.  I.  The Establishment and Growth of Callus and Suspension Cultures; Definition of Factors Affecting Toxicity on Calli|Plant Cell Physiol.18:641-655|1977|
40962|T||Veldstra,H., W. Kruyt, E.J. Van der Steen, and B. Aberg|Researches on Plant Growth Regulators. XXII. Structure/Activity VII. Sulphonic Acids and Related Compounds|Rec. Trav. Chim. Pays-Bas73:23-34|1954|10.1002/recl.19540730105
40963|T||Lee,W.O.|Effect of 2,4-DB on White Clover Seed Production|Weed Sci.20(4): 330-331|1972|10.1017/S0043174500035785
40964|T||Gossett,B.J., L.R. Reinhardt, and W.P. Byrd|Cocklebur Control in Soybeans with 2,4-DB and Chloroxuron|Weed Sci.20(5): 489-491|1972|10.1017/S0043174500036213
40965|T||Jonsson,A., G. Nilsson, and H. Burstrom|Synthetic Plant Hormones.  III.  Sulphur Analogues of 2,4-Dichlorophenoxy- and 4-Chloro-2-Methyphenoxy-Acetic Acids|Acta Chemica Scandinavica6:993-998|1952|10.3891/acta.chem.scand.06-0993
40966|T||Gupta,O.P., and N.M. Bacchawat|Weed Control in Berseem Using Stale Seed-Bed, EPTC, and MCPB|PANS (Pest Artic. News Summ.)22(3): 386-390|1976|
40967|T||Grace,N.A.|Physiological Activity of a Series of Naphthyl-Acids|Can. J. Res.17:247-255|1939|10.1139/cjr39c-024
40968|T||Jones,R.L., T.P. Metcalfe, and W.A. Sexton|The Relationship Between the Constitution and the Effect of Chemical Compounds on Plant Growth.  3.  Chlorinated Benzaldehydes and Benzoic Acids|Biochem. J. (Lond.)48:422-425|1951|10.1042/bj0480422
40969|T||Templeman,W.G., and W.A. Sexton|Effect of Some Arylcarbamic Esters and Related Compounds upon Cereals and Other Plant Species|Nature156:630-|1945|10.1038/156630b0
40971|T||Morrow,L.A., and M.K. McCarty|Selectivity and Soil Persistence of Certain Herbicides Used on Perennial Forage Grasses|J. Environ. Qual.5(4): 462-465|1976|10.2134/jeq1976.00472425000500040030x
40972|T||Stiles,W., and M.L.L. Stirk|Studies on Toxic Action. Ii. the Toxicity of Normal Aliphatic Alcohols Towards Potato Tuber. Iii. the Parallelism Between Surface Activity and Toxicity of Norma|Protoplasma (Multiple Languages)13:1-20|1931|10.1007/BF01599622
40973|T||Dent,K.W.|Studies on Toxic Action. V. the Toxicity of Aliphatic Aldehydes Towards Potato Tuber|Protoplasma (Multiple Languages)16:357-368|1932|10.1007/BF01638826
40974|T||El-Nawawy,A.S., M.A. Ashry, and M. Zeid|Relation Between Chemical Structure and Biological Activity: XV. Phytocidal Properties of Sodium and Ten S-Alkylisothiouronium Salts of N,N-Dimethyldithiocarbamic Acid to Cotton and Wheat Seedlings|Alex. J. Agric. Res.13:17-30|1965|
40975|T||El-Nawawy,A.S., and M.A. Ashry|Relation Between Chemical Structure and Biological Activity. XXIII. The Bimodal Behaviour of Cotton, Wheat, and Turnip Seedlings with Sodium and S-N-Amylisothionium N,N-Dimethyldithiocarbamates in the Presence of Copper|Alex. J. Agric. Res.14:263-275|1966|
40976|T||El-Nawawy,A.S., A.A. Sheriffe, T. Ali, and E.A. Kadous|Relation Between Chemical Structure and Biological Activity: Xxxi. Phytocidal Properties of Certain Alkylxanthates|Alex. J. Agric. Res.20:151-155|1972|
40978|T||Watkins,F.B.|Effect of Triallate and Barban on Five Strains of Wild Oat from the Darling Downs, Queensland|Qld. J. Agric. Anim. Sci.27:33-41|1970|
40980|T||Friesen,H.A., P.A. O'Sullivan, and W.H. Vandenborn|HOE 23408, a New Selective Herbicide for Wild Oats and Green Foxtail in Wheat and Barley|Can. J. Plant Sci.56:567-578|1976|10.4141/cjps76-093
40981|T||Chow,P.N.P.|Asulam Mixtures for Weed Control in Flax|Weed Res. (Multiple Languages)17:55-60|1977|10.1111/j.1365-3180.1977.tb00445.x
40982|T||Jacoby,P.W., J.E. Slosser, and C.H. Meadors|Vegetational Responses Following Control of Sand Shinnery Oak with Febuthiuron|J. Range Manag.36:510-512|1983|10.2307/3897956
40983|T||Friesen,H.A.|Some Factors Affecting the Control of Wild Oats with Barban|Weeds (Urbana)9:185-194|1961|10.2307/4040404
40984|T||Noll,C.J.|Weed Control in Beets with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:244-246|1977|
40985|T||Short,J.L.|The Use of Sugar Beet Herbicides on Sandy Soils|Proc. Br. Weed Control Conf.11:499-504|1972|
40986|T||Sarpe,N., O. Segarceanu, L. Ciorlaus, I. Popovici, I. Clotan, and C. Nagy|The Efficiency of Herbicides Based on Pyrazone, Ethofumesate, Lenacil and Phenmedipham, Used Alone or in Combination, in Sugar Beet Grown Under Romanian Conditions|Proc. Br. Weed Control Conf.12:477-483|1974|
40987|T||Boyd,W.E., E.B. Herndon, and R.E. Sosebee|Herbicidal Control of Common Broomweed|J. Range Manag.36(4): 521-524|1983|10.2307/3897959
40988|T||Burnside,O.C., and D.R. Carlson|Weed Control in a Low-Till Oat (Avena sativa) - Soybean (Glycine max) Rotation|Weed Sci.31(6): 853-856|1983|10.1017/S0043174500070867
40989|T||Blair,A.M., and J. Holroyd|Sensitivity of Benzene Sulfonyl Carbamyl Herbicides Between Different Grass Species and Clover|Weed Res. (Multiple Languages)13:385-392|1973|10.1111/j.1365-3180.1973.tb01291.x
40990|T||Almeida,F.S., V.F. Oliveira, and J.M. Filho|Selective Control of Grass Weeds in Soybeans with Some Recently Developed Postemergence Herbicides|Trop. Pest Manag.29(3): 261-266|1983|10.1080/09670878309370812
40991|T||O'Sullivan,P.A.|Influence of Picloram Alone or Plus 2,4-D on Control of Wild Oats (Avena fatua) with Four Postemergence Herbicides|Weed Sci.31:889-891|1983|10.1017/S0043174500070934
40992|T||Soper,D.|Review of Bracken Control Experiments with Asulam|Proc. Br. Weed Control Conf.11:24-31|1972|
40993|T||Harkess,R.D., and R.A. Hope|The Control of Yorkshire Fog (Holcus lanatus L.) in Timothy Swards|Proc. Br. Weed Control Conf.12:733-736|1974|
40994|T||Scragg,E.B., A.D. McKelvie, and D.W. Kilgour|Control of Bracken with Asulam in the North of Scotland|Proc. Br. Weed Control Conf.11:335-341|1972|
40995|T||Van Wambeke,E., and C. Van Assche|MBC Residues and Phytotoxicity in Gherkin Plants by Soil and Foliar Spray Applications with MBC Producing Compounds|Proc. Br. Insectic. Fungic. Conf.:35-42|1975|
40996|T||Reyes,A.A.|Phytotoxicity of Benomyl to Crucifers|Phytopathology65:535-539|1975|
40997|T||Baijot,E., J.R. DeCallonne, and J.A. Meyer|Modifications Induced by Benomyl and Related Compounds into Chloroplasts Spectral Patterns, Photosynthetic Rates and Chlorophyll Contents of Spinacia oleracea and Cucumis melo|Bull. Environ. Contam. Toxicol.17(4): 431-437|1977|10.1007/BF01685935
40998|T||Wensley,R.N.|Effects of Benomyl and Two Related Systemic Fungicides on Growth of Fusarium Wilt-Susceptible and Resistant Muskmelon|Can. J. Plant Sci.52:775-779|1972|10.4141/cjps72-126
40999|T||Bethlenfalvay,G., and R.F. Norris|Phytotoxic Action of Desmedipham: Influence of Temperature and Light Intensity|Weed Sci.23:499-503|1975|10.1017/S0043174500065097
41000|T||Johnson,B.J.|Response of Weeds in Bermudagrass (Cynodon dactylon) Turf to Tank-Mixed Herbicides|Weed Sci.31(6): 883-888|1983|10.1017/S0043174500070922
41001|T||Heslot,H., R. Ferrary, and J. Tempe|The Relative Mutagenic Effects of Some Nitrosamines on Barley Seeds|Mutat. Res.3:354-355|1966|10.1016/0027-5107(66)90042-X
41002|T||Hoagland,R.E., and S.O. Duke|Relationships Between Phenylalanine Ammonia-Lyase Activity and Physiological Responses of Soybean (Glycine max) Seedlings to Herbicides|Weed Sci.31(6): 845-852|1983|10.1017/S0043174500070855
41003|T||Brewster,B.D., and A.P. Appleby|Response of Wheat and Rotation Crops to Chlorsulfuron|Weed Sci.31:861-865|1983|10.1017/S0043174500070880
41004|T||Mitchell,J.W., and P.C. Marth|Sensitivity of Grasses and Some Crop Plants to Isopropyl-N-Phenyl Carbamate|Science106:15-17|1947|10.1126/science.106.2740.15
41005|T||Murty,K.V., D.S.S. Raju, and C.B.S.R. Sharma|Cytogenetic Hazards from Agricultural Chemicals.  7.  Herbicides, Fungicides and Insecticides Screened for Effects on Chiasmata in Hordeum vulgare|Biol. Zentbl. (Multiple languages)102(5): 571-576|1983|
41006|T||Kozlowski,T.T., and J.H. Torrie|Effect of Soil Incorporation of Herbicides on Seed Germination and Growth of Pine Seedlings|Soil Sci.100:139-146|1965|10.1097/00010694-196508000-00010
41007|T||Marinos,N.G.|The Control of Soursob (Oxalis pes-caprae) with Vapam|J. Aust. Inst. Agric. Sci.24:259-261|1958|
41008|T||Mohamed,H.A.|Testing the Effect of Vapam on Weeds and Fungi Under Field Conditions|Plant Dis. Rep.47:281-283|1963|
41009|T||Graham,T.W.|Weed and Root Knot Control in Tobacco Plant Beds by Surface Drench and Other Treatments|Plant Dis. Rep.40(12): 1041-1044|1956|
41010|T||Sullivan,E.F., R.L. Abrams, and R.R. Wood|Weed Control in Sugar Beets by Combinations of Thiocarbamate Herbicides|Weeds (Urbana)11:258-260|1963|10.2307/4040525
41011|T||Herbel,C.H., W.L. Gould, W.F. Leifeste, and R.P. Gibbens|Herbicide Treatment and Vegetation Response to Treatment of Mesquites in Southern New Mexico|J. Range Manag.36:149-151|1983|10.2307/3898149
41012|T||Miller,S.D., and J. Nalewaja|Phototoxicity of Triallate Vapors to Wild Oat|Weed Sci.24:134-136|1976|10.1017/S0043174500065553
41013|T||Widell,K.O.|The Effect of San 9789 (Y-Chloro-5-(Methylamino)-(A,A,A,-Trifluoro-M-Tolyl)-3(2H)-Pyridazinone) and Light on the Germination of Seeds from Taraxacum Vulgare|Physiol. Plant. (Multiple Languages)59:223-227|1983|10.1111/j.1399-3054.1983.tb00762.x
41014|T||Taylor,H.F., M.P.C. Loader, and S.J. Norris|A Novel Bioassay for Herbicides Used in Wild Oat Control and for the Assessment of Their Interactions with Other Xenobiotics|Ann. Appl. Biol.103:311-320|1983|10.1111/j.1744-7348.1983.tb02769.x
41015|T||Banks,P.A., and T.N. Tripp|Control of Johnsongrass (Sorghum halepense) in Soybeans (Glycine max) with Foliar-Applied Herbicides|Weed Sci.31:628-633|1983|10.1017/S0043174500070090
41016|T||Agamalian,H., B. Fischer, F. Ashton, A. Lange, E. Stilwell, R. Brendler, H. Kempen, and V. Schweer|Weed Control Studies in Tomatoes, 1968-1970|Calif. Agric.26(1): 10-11|1972|
41017|T||Shibayama,H., and J.F. Worley|Growth Responses of Barnyardgrass and Bearded Sprangletop Seedlings to Benthiocarb|Weed Sci.24(3): 276-281|1976|10.1017/S0043174500065954
41018|T||Palmer,R.D.|Rice Weed Control in the Texas Western Belt|Proc. South. Weed Sci. Soc.26:146-154|1973|
41019|T||Gaynor,J.D., and A.S. Hamill|Bentazon Preemergence Activity on Velvetleaf (Abutilon theophrasti Medic) and Persistence in Southwestern Ontario Soils|Can. J. Plant Sci.63:1015-1022|1983|10.4141/cjps83-126
41020|T||O'Sullivan,P.A., J.T. O'Donovan, and G.M. Weiss|Influence of Stage of Application of Glyphosate and Paraquat with and Without Tween 20 on the Control of Annual Grass Species|Can. J. Plant Sci.63:1039-1046|1983|10.4141/cjps83-129
41021|T||Gosselink,J.G., and L.C. Standifer|Diurnal Rhythm of Sensitivity of Cotton Seedlings to Herbicides|Science158:120-121|1967|10.1126/science.158.3797.120
41022|T||Watt,T.A.|The Fungicide Tridemorph as a Selective Herbicide for the Control of Holcus Lanatus in Ryegrass and of Bromus Sterilis in Barley|Weed Res. (Multiple Languages)23:267-271|1983|10.1111/j.1365-3180.1983.tb00549.x
41023|T||Davies,A.O., and J.L. Harwood|Effect of Substituted Pyridazinones on Chloroplast Structure and Lipid Metabolism in Greening Barley Leaves|J. Exp. Bot.34:1089-1100|1983|10.1093/jxb/34.9.1089
41024|T||Frank,J.R., and C.E. Beste|Effects of Metribuzin Placement on the Foliage of Tomato (Lycoperison esculentum) and Jimsonweed (Datura stramonium)|Weed Sci.31(4): 445-449|1983|10.1017/S0043174500069368
41025|T||Gealy,D.R., and F.W. Slife|BAS 9052 Effects on Leaf Photosynthesis and Growth|Weed Sci.31:457-461|1983|10.1017/S0043174500069381
41026|T||Johnson,B.J.|Grass Control with EPTC in Sand Traps on Golf Courses|Weed Sci.22:434-436|1974|10.1017/S0043174500037954
41027|T||Elliott,R.A., and T.J. Purnell|Effect of the Addition of R-25788 Safener to EPTC for the Control of Agropyron Repens and Annual Weeds in Forage Maize - 1974-176|Proc. Br. Weed Control Conf.13:533-540|1976|
41028|T||Jacoby,P.W., and C.H. Meadors|Triclopyr for Control of Honey Mesquite (Prosopis juliflora var. glandulosa)|Weed Sci.31:681-685|1983|10.1017/S0043174500070181
41029|T||Petersen,J.L., R.L. Potter, and D.N. Ueckert|Evaluation of Selected Herbicides for Manipulating Herbaceous Rangeland Vegetation|Weed Sci.31(5): 735-739|1983|10.1017/S0043174500070272
41030|T||Hauser,E.W., S.R. Cecil, and C.C. Dowler|Systems of Weed Control for Peanuts|Weed Sci.21:176-180|1973|10.1017/S0043174500032069
41031|T||Giannopolitis,C.N.|Amaranthus Weed Species in Greece: Dormancy, Germination and Response to Pre-Emergence Herbicides|Ann. Inst. Phytopathol. Benaki (Multiple Languages)13:80-91|1981|
41032|T||Ruizzo,M.A., E.M. Smith, and S.F. Gorske|Evaluations of Herbicides in Slow-Release Formulations for Container-Grown Landscape Crops|J. Am. Soc. Hortic. Sci.108:551-553|1983|10.21273/JASHS.108.4.551
41033|T||Teasdale,J.R., and J.R. Frank|Tolerance of Peas (Pisum sativum) to Acifluorfen Applied Preemergence|Weed Sci.31(5): 592-596|1983|10.1017/S0043174500070028
41034|T||Hamilton,W.T., and C.J. Scifres|Buffelgrass (Cenchrus ciliaris) Responses to Tebuthiuron|Weed Sci.31:634-638|1983|10.1017/S0043174500070107
41035|T||Halling,B.P., and R. Behrens|Effects of Difenzoquat on Photoreactions and Respiration in Wheat (Triticum aestivum) and Wild Oat (Avena fatua)|Weed Sci.31(5): 693-699|1983|10.1017/S004317450007020X
41036|T||Sturkie,D.G.|Control of Weeds in Lawns with Calcium Cyanamide|J. Am. Soc. Agron.29(10): 803-808|1937|10.2134/agronj1937.00021962002900100001x
41037|T||Hahn,P.|Calcium Cyanamide for Pre-Emergence Weed Control and Fertilization in Canning Peas, New York State, 1950|Proc. Annu. Meet. Northeast. Weed Sci. Soc.5:119-123|1951|
41038|T||Jacob,W.C.|Pre-Emergence Weed Control in Lima Beans and Cauliflower|Proc. Annu. Meet. Northeast. Weed Sci. Soc.5:109-113|1951|
41039|T||Cooper,G.S., and W.G. Corns|Pre-Harvest Chemical Top Killing of Legume Seed Crops. II. General Effects of Cyanamid Compounds|Sci. Agric.32:281-284|1952|
41040|T||York,A.C.|Cotton Cultivar Response to Mepiquat Chloride|Agron. J.75:663-667|1983|10.2134/agronj1983.00021962007500040020x
41041|T||Crowder,S.H., A.W. Cole, and V.H. Watson|Weed Control and Forage Quality in Tebuthiuron Treated Pastures|Weed Sci.31(5): 585-587|1983|10.1017/S0043174500070004
41042|T||Meyer,R.E., R.W. Bovey, L.G. Bouse, and J.B. Carlton|Response of Live Oak and Understory Vegetation to Herbicides|Weed Sci.31:639-647|1983|10.1017/S0043174500070119
41043|T||Salazar,A.G., and G.M. Paulsen|Some Physiological Responses of Sorghum bicolor to Benzene Hexachloride|J. Agric. Food Chem.19(5): 1005-1007|1971|10.1021/jf60177a047
41045|T||Murthy,N.B.K., and K. Raghu|The Effect of Benzene Hexachloride on the Growth and Nodulation of Peanut Plants|Bull. Environ. Contam. Toxicol.16:122-126|1976|10.1007/BF01753117
41047|T||Macklon,A.E.S., A. Sim, D.G. Parsons, M.R. Truter, and J.N. Wingfield|Effects of Some Cyclic Crown Polyethers on Potassium Uptake, Efflux and Transport in Excised Root Segments and Whole Seedlings|Ann. Bot.52:345-356|1983|10.1093/oxfordjournals.aob.a086582
41048|T||Leasure,J.K., and M.J. Josephs|Acetylenic Derivatives As Herbicides|Weeds (Urbana)9:103-105|1961|10.2307/4040391
41049|T||Mitchell,J.W., J.W. Wirwille, and L. Weil|Plant Growth-Regulating Properties of Some Nicotinium Compounds|Science110:252-254|1949|10.1126/science.110.2854.252
41050|T||Waldrop,D.D., and P.A. Banks|Interactions of Herbicides with Insecticides in Soybeans (Glycine max)|Weed Sci.31(5): 730-734|1983|10.1017/S0043174500070260
41051|T||Gummesson,G.|Dessication with Diquat|In: Ogreas och Ogreasbekeampning: 17e svenska ogreaskonferensen, Jan.29-30, 1976, Uppsala:K14 - K16|1976|
41052|T||Buckner,J.S., and P.E. Kolattukudy|Specific Inhibition of Alkane Synthesis with Accumulation of Very Long Chain Compounds by Dithioerythritol, Dithiothreitol, and Mercaptoethanol in Pisum sativum|Arch. Biochem. Biophys.156:34-45|1973|10.1016/0003-9861(73)90338-X
41053|T||Lokke,H., and L. Rasmussen|Phytotoxicological Effects of Di-(2-Ethyl Hexyl)-Phthalate and Din-n-Butyl-Phthalate on Higher Plants in Laboratory and Field Experiments|Environ. Pollut.32(A): 179-199|1983|10.1016/0143-1471(83)90035-1
41054|T||Dalvi,R.R., B. Singh, and D.K. Salunkhe|Physiological and Biochemical Investigations on the Phytotoxicity of Usnic Acid|Phyton (Horn) (Multiple Languages)29:63-73|1972|
41055|T||Bishop,D.G., and W.G. Nolar|Inhibition by Dibromothymoquinone of Photosynthetic Electron Transfer in Chloroplasts of Differing Ultrastructure|Arch. Biochem. Biophys.168:594-600|1975|10.1016/0003-9861(75)90291-X
41056|T||Frank,R., and C.M. Switzer|Effects of Pyrazon on Growth, Photosynthesis, and Respiration|Weed Sci.17:344-348|1969|10.1017/S0043174500054199
41057|T||Federcsak,I., and L. Ehrenberg|Effects of Diethyl Pyrocarbonate and Methyl Methanesulfonate on Nucleic Acids and Nucleases|Acta Chemica Scandinavica20:107-112|1966|10.3891/acta.chem.scand.20-0107
41058|T||Hall,W.C.|Morphological and Physiological Responses of Carnation and Tomato to Organic Phosphorus Insecticides and Inorganic Soil Phosphorus|Plant Physiol.26:502-524|1951|10.1104/pp.26.3.502
41059|T||Sterrett,J.P., R.H. Hodgson, and R.H. Snyder|Growth Retardant Response of Bean (Phaseolus vulgaris) and Woody Plants to Injections of MBR 18337|Weed Sci.31:431-435|1983|10.1017/S0043174500069332
41060|T||Squires,V.R.|Herbicides for the Selective Control of Barley Grass in Irrigated Clover Pastures|Aust. J. Exp. Agric.3:35-38|1963|10.1071/EA9630035
41061|T||Leasure,J.K., and J.L. Speier|Some Herbicidal Silicon Compounds|J. Med. Chem.9:949-952|1966|10.1021/jm00324a036
41062|T||Gawronski,S.W.|Tolerance of Tomato (Lycopersicon esculentum) Cultivars to Metribuzin|Weed Sci.31(4): 525-527|1983|10.1017/S0043174500069502
41063|T||Harrison,H.F., P. Bhatt, and G. Fassuliotis|Response of Calli and Seedlings of Tomato Cultivars to Metribuzin|Weed Sci.31:533-536|1983|10.1017/S0043174500069526
41064|T||Hartzler,R.G., and C.L. Foy|Efficacy of Three Postemergence Grass Herbicides for Soybeans|Weed Sci.31(4): 557-561|1983|10.1017/S0043174500069563
41065|T||Coble,H.D.|Optimizing Broadleaf Weed Control in Soybeans with Postemergence Herbicide|Down Earth32:12-15|1977|
41066|T||Tosh,G.C., and K.C. Nanda|Chemical Weed Control Studies in Direct-Sown Ragi or Finger Millet|Trop. Pest Manag.29(2): 122-124|1983|10.1080/09670878309370786
41067|T||Singh,M.P., C.S. Kalia, and H.K. Jain|Chromosomal Aberrations Induced in Barley by Lsd|Science169:491-492|1970|10.1126/science.169.3944.491
41068|T||Shohat,B., and H. Joshua|The Effect of Withaferin A on Plant Cells|Eur. J. Cancer7:561-563|1971|10.1016/0014-2964(71)90063-6
41069|T||Kalia,C.S., M.P. Singh, H.K. Jain, and R.K. Katiyar|LSD Induced Genetic Damage in Barley|Chromosoma (Berl.)32:142-151|1970|
41070|T||Kopcewicz,J.|Influence of Estrone on Growth and Endogenous Gibberellins Content in Dwarf Pea|Bull. Acad. Pol. Sci. Ser. Sci. Biol.17:727-731|1969|
41071|T||Lingaraj,D.S., and K.M. Srinivasan|A Note on Cycocel (2-Chloroethyl Trimethyl Ammonium Chloride), a Newly Released Plant Growth Regulant|Curr. Sci. (Bangalore)36(8): 215-216|1967|
41072|T||Hook,I.L.I., C.S. O'Connor, and R.F. Timoney|Some Effects of Chlorocholine Chloride on Mentha piperita|Planta Med.24:249-259|1973|10.1055/s-0028-1099494
41073|T||Bireca,H., and Z. Zebrowski|Influence of (2-Chloroethyl) Trimethylammonium Chloride (CCC) on Photosynthetic Activity and Frost Resistance of Tomato Plants|Plant Physiol.14:367-373|1966|
41074|T||Bakke,A.L.|The Use of Tetrachlorethane in the Eradication of the European Bindweed|Agron. J.33:759-761|1941|10.2134/agronj1941.00021962003300080012x
41075|T||Templeton,W.C.,Jr., and P.O. Ritcher|Dandelion Control with Dichloroethyl Ether|Agron. J.34:283-284|1942|10.2134/agronj1942.00021962003400030013x
41076|T||Brown,A.L., J.J. Jurinak, and P.E. Martin|Plant Growth as Affected by Ethylene Dibromide Fumigation of Soils at Two Moisture Levels|Proc. Soil Sci. Soc. Am.23:311-313|1959|10.2136/sssaj1959.03615995002300040025x
41077|T||Nunn,J.F., J.D. Lovis, and K.L. Kimball|Arrest of Mitosis by Halothane|Br. J. Anaesth.43:524-530|1971|10.1093/bja/43.6.524
41078|T||Lee,L.W., K.C. Sanderson, and J.G. Williams|Effect of Fungicides Applied to Polyurethane Propagation Blocks on Rooting of Poinsettia Cuttings|Hortscience18(3): 359-360|1983|10.21273/HORTSCI.18.3.359
41079|T||DePew,L.J.|Further Evaluation of Insecticides for Greenbug Control on Grain Sorghum in Kansas|J. Econ. Entomol.65(4): 1095-1098|1972|10.1093/jee/65.4.1095
41080|T||Wheeler,B.A., and M.H. Bass|Effects of Certain Systemic Insecticides on Growth and Yield of Soybeans|J. Econ. Entomol.64:1219-1221|1971|10.1093/jee/64.5.1219
41081|T||Donnan,A.,Jr.|Evaluation of Oxamyl for Phytotoxicity to Selected Foliage Plants|Proc. Annu. Meet. Fla. State Hortic. Soc.88:593-595|1977|
41082|T||Sciuchetti,L.A., and G.K. Nielsen|Effects of Beta-Hydroxyethylhydrazine on Growth and Alkaloid Formation of Datura Stramonium|J. Pharm. Sci.56:244-247|1967|10.1002/jps.2600560220
41083|T||Burg,S.P., and E.A. Burg|Inhibition of Polar Auxin Transport by Ethylene|Plant Physiol.42:1224-1228|1967|10.1104/pp.42.9.1224
41084|T||De Munk,W.J.|Flower-Bud Blasting in Tulips Caused by Ethylene|Neth. J. Plant Pathol.79:41-53|1973|10.1007/BF02083665
41085|T||Irvine,R.F., and D.J. Osborne|The Effect of Ethylene on (1-(14)C) Glycerol Incorporation into Phospholipids of Etiolated Pea Stems|Biochem. J. (Lond.)136:1133-1135|1973|10.1042/bj1361133
41086|T||Kaul,B.L., and D.K. Choudhary|The Effect of Chemical Mutagens on Quantitative Characters in Atropa belladonna|Planta Med.27:337-342|1975|10.1055/s-0028-1097811
41087|T||Masaru,N., F. Syozo, and K. Saburo|Effects of Exposure to Various Injurious Gases on Germination of Lily Pollen|Environ. Pollut.11(3): 181-187|1976|
41088|T||Springer-Lederer,H., A.M. El-Badry, H.C.J. Ottenheym, and J.A. Bassham|Inhibition of Photosynthesis in Isolated Spinach Chloroplasts by Added Fructose-1,6-Diphosphatase|Biochim. Biophys. Acta189:464-467|1969|10.1016/0005-2728(69)90181-9
41089|T||Sequeira,L., R.J. Hemingway, and S.M. Kupchan|Vernolepin: A new, Reversible Plant Growth Inhibitor|Science161:789-790|1968|10.1126/science.161.3843.789
41090|T||Ellis,J.R., and T.M. McCalla|Effects of Patulin and Method of Application on Growth Stages of Wheat|Appl. Microbiol.25:562-566|1973|10.1128/am.25.4.562-566.1973
41091|T||Marasas,W.F.O., E.B. Smalley, J.R. Bamburg, and F.M. Strong|Phytotoxicity of T-2 Toxin Produced by Fusarium Tricinctum|Phytopathology61:1488-1491|1971|10.1094/Phyto-61-1488
41092|T||Toscano,N.C., F.V. Sances, M.W. Johnson, and L.F. LaPre|Effect of Various Pesticides on Lettuce Physiology and Yield|J. Econ. Entomol.75:738-741|1982|10.1093/jee/75.4.738
41093|T||Miller,J.H., L.M. Carter, and C.H. Carter|An Experimental Incorporator-Planter for Cotton (Gossypium hirsutum)|Weed Sci.31(2): 208-214|1983|10.1017/S0043174500068843
41094|T||Khan,A.A.|Inhibition of Lettuce Seed Germination and Seedling Growth by Antimetabolites of Nucleic Acids, and Reversal by Nucleic Acid Precursors and Gibberellic Acid|Planta (Multiple Languages)68:83-87|1966|10.1007/BF00385373
41095|T||Masoud,A.N., N.J. Doorenbos, and M.W. Quimby|Mississippi-Grown Cannabis sativa L. IV: Effects of Gibberellic Acid and Indoleacetic Acid|J. Pharm. Sci.62:316-318|1973|10.1002/jps.2600620230
41096|T||Masoud,A.N., L.A. Sciuchetti, N.R. Farnsworth, R.N. Blomster, and W.A. Meer|Effect of Gibberellic Acid on the Growth, Alkaloid Production, and Vlb Content of Catharanthus Roseus|J. Pharm. Sci.57:589-593|1968|10.1002/jps.2600570408
41097|T||Balyan,R.S., V.M. Bhan, and S.P. Singh|Chemical and Cultural Weed Control Studies in Cotton|Trop. Pest Manag.29(1): 56-59|1983|10.1080/09670878309370771
41098|T||Ueckert,D.N., S.G. Whisenant, and G.W. Sultemeier|Control of Rayless Goldenrod (Isocoma wrightii) with Soil-Applied Herbicides|Weed Sci.31(2): 143-147|1983|10.1017/S0043174500068739
41099|T||Baird,D.D., N.J. Shaulis, and C.G. Waywell|Glyphosate for Herbaceous Perennial Weed Control in Northeastern Apple Orchards and Vineyards|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:205-212|1974|
41100|T||Campbell,W.F., J.O. Evans, and S.C. Reed|Effects of Glyphosate on Chloroplast Ultrastructure of Quackgrass Mesophyll Cells|Weed Sci.24:22-25|1976|10.1017/S0043174500065346
41101|T||Cluff,G.J., B.A. Roundy, R.A. Evans, and J.A. Young|Herbicidal Control of Greasewood and Salt Rabbitbrush (Chrysothamnus nauseosus ssp. consimilis)|Weed Sci.31:275-279|1983|10.1017/S0043174500068971
41102|T||El Masry,R., and S. Rehm|The Effects of Growth Regulators and Herbicides on Purple Nutsedge (Cyperus rotundus L.) IV. Effects of Glyphosate and Morphactin on the Viability of Tubers|Z. Acker- Pflanzenbau. (Multiple Languages)144:259-267|1977|
41103|T||Johnson,B.J.|Glyphosate for Weed Control in Dormant Bermudagrass|Weed Sci.24(1): 140-143|1976|10.1017/S0043174500065577
41104|T||McWhorter,C.G.|Weed Control in Soybeans with Glyphosate Applied in the Recirculating Sprayer|Weed Sci.25:135-141|1977|10.1017/S0043174500033117
41105|T||Peters,R.A., and W.M. Dest|Glyphosate for Perennial Sod Kill in No-Tillage Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:1-6|1973|
41106|T||Parochetti,J.V., and A.W. Bell|Residual Herbicides on No-Tillage Corn in a Rye Cover Crop|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:24-29|1977|
41107|T||Parochetti,J.V.|Herbicides for No-Tillage Double Cropped Soybeans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:54-60|1977|
41108|T||Moshier,L., A.J. Turgeon, and D. Penner|Effects of Glyphosate and Siduron on Turfgrass Establishment|Weed Sci.24:445-448|1976|10.1017/S004317450006642X
41109|T||Kaufmann,J.E.|Chemical Control of Veronica Filiformis in Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:340-343|1976|
41110|T||Haramaki,C.|Control of Perennial and Annual Weeds in Established Plantings of Narrowleaf Evergreens|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:324-329|1977|
41111|T||Lay,M.M., and A.M. Niland|The Herbicidal Mode of Action of R-40244 (1-(M-Trifluoromethylphenyl)-3-Chloro-4-Chloromethyl-2-Pyrrolidinone) and Its Absorption by Plants|Pestic. Biochem. Physiol.19:337-343|1983|10.1016/0048-3575(83)90062-7
41112|T||Dimock II,E.J., T.F. Beebe, and E.B. Collard|Planting-Site Preparation with Herbicides to Aid Conifer Reforestation|Weed Sci.31(2): 215-221|1983|10.1017/S0043174500068855
41113|T||Sachs,R.M., H. Hield, and J. DeBie|Dikegulac: A Promising New Foliar-Applied Growth Regulator for Woody Species|Hortscience10(4): 367-369|1975|10.21273/HORTSCI.10.4.367
41114|T||Wilcox,M.|Synthesis and Herbicidal Activity of 1,1-Dimethyl- and 2-Methyl-4-Phenylsemicarbazides|J. Med. Chem.11:171-172|1968|10.1021/jm00307a045
41115|T||Strong,R.G., and D.L. Lindgren|Effect of Methyl Bromide and Hydrocyanic Acid Fumigation on the Germination of Rice|J. Econ. Entomol.52(4): 706-710|1959|10.1093/jee/52.4.706
41116|T||Sayed,H.I., S.B. Helgason, and E.N. Larter|Effect of Gamma Rays and Some Chemical Mutagens on Induction of Telotrisomics in Hordeum|Can. J. Genet. Cytol.15:815-824|1973|10.1139/g73-095
41117|T||Hall,M.D., and E.C. Cocking|The Bursting Response of Isolated Avena Coleoptile Protoplasts to Indol-3-ylacetic Acid|Biochem. J. (Lond.)124:33-|1971|
41118|T||Andreo,C.S., and R.H. Vallejos|Inhibition of Energy Transfer Reactions in Spinach Chloroplasts by Discarine B, a New Peptide Alkaloid|FEBS Lett.33:201-204|1973|10.1016/0014-5793(73)80192-9
41119|T||Daines,R.H., R.J. Lukens, E. Brennan, and I.A. Leone|Phytotoxicity of Captan As Influenced by Formulation, Environment, and Plant Factors|Phytopathology47:567-572|1957|
41120|T||Xu,S.Y., and M.J. Bukovac|Phthalimide-Inhibition of the Ethylene Effect on Sex Expression in Monoecious Cucumber Plants|J. Am. Soc. Hortic. Sci.108(2): 282-284|1983|10.21273/JASHS.108.2.282
41121|T||Kirby,A.H.M., and M. Bennett|Further Phytotoxicity Studies with Phenylmercuric Chloride on Conference Pear|East Malling Res. Stn. Annu. Rep.56:148-151|1957|
41122|T||Bajaj,Y.P.S., V.S. Rathore, S.H. Wittwer, and M.W. Adams|Effect of Dimethyl Sulfoxide on Zinc Uptake, Respiration, and Rna and Protein Metabolism in Bean (Phaseolus Vulgaris) Tissues|Am. J. Bot.57:794-799|1970|10.1002/j.1537-2197.1970.tb09874.x
41124|T||Okafor,L.I., and S.K. De Datta|Chemical Control of Perennial Nutsedge (Cyperus rotundus L.) in Tropical Upland Rice|Weed Res. (Multiple Languages)16:1-5|1976|10.1111/j.1365-3180.1976.tb00368.x
41125|T||Buchanan,G.A., R.D. McLaughlin, and G.C. Weed|Destun and Zorial - New Herbicides for Use in Cotton|Highlights Agric. Exp. Stn.22(1): 6|1975|
41126|T||Johnson,B.J.|Purple Nutsedge Control with Bentazon and Perfluidone in Turfgrasses|Weed Sci.23(5): 349-353|1975|10.1017/S0043174500062640
41127|T||South,D.B.|Pre- and Postemergent Weed Control in Forest Nurseries|Proc. South. Weed Sci. Soc.30:269-278|1977|
41128|T||Teasdale,J.R., and R.W. Thimijan|Influence of Light and Temperature on Bentazon Phytotoxicity to Cucumber (Cucumis sativus)|Weed Sci.31:232-235|1983|10.1017/S0043174500068892
41129|T||Hatzios,K.K.|Effects of CGA-43089 on Responses of Sorghum to Metolachlor Combined with Ozone or Antioxidants|Weed Sci.31:280-284|1983|10.1017/S0043174500068983
41130|T||Mukhiya,Y.K., K.C. Gupta, N. Shrotriya, J.K. Joshi, and V.P. Singh|Comparative Responses of the Action of Different Mercury Compounds on Barley|Int. J. Environ. Stud.20(3/4): 323-327|1983|10.1080/00207238308710052
41131|T||Chourey,P.S., and D. Schwartz|Ethyl Methanesulfonate Induced Mutations of the Sh(1) Protein in Maize|Mutat. Res.12:151-157|1971|10.1016/0027-5107(71)90136-9
41132|T||Leffler,H.R., T.J. O'Brien, D.V. Glover, and J.H. Cherry|Growth of RNA Synthesis in Maize Seedlings Treated with Ethyl Methanesulfonate|Biochem. Biophys. Res. Commun.38:224-230|1970|10.1016/0006-291X(70)90700-X
41134|T||Fisher,D.J., and A.L. Hayes|Effects of Some Systemic Imidazole and Triazole Fungicides on White Clover and Symbiotic Nitrogen Fixation by Rhizobium trifolii|Ann. Appl. Biol.101:19-24|1982|10.1111/j.1744-7348.1982.tb00796.x
41135|T||Siddiqui,K.A.|Resistance in Some Wild and Cultivated Grasses to the Phytotoxicity of a Systemic Fungicide|Experientia28:1239-1240|1972|10.1007/BF01946196
41136|T||Veleminsky,J., and T. Gichner|The Mutagenic Activity of Nitrosoamines in Arabidopsis Thaliana|Mutat. Res.5:429-431|1968|10.1016/0027-5107(68)90012-2
41137|T||Sharma,M.P., and W.H. Vanden Born|Crop Competition Aids Efficacy of Wild Oat Herbicides|Can. J. Plant Sci.63:503-507|1983|10.4141/cjps83-059
41138|T||Loy,J.B.|Effects of (2-Chloroethyl)Phosphonic Acid and Succinic Acid-2,2-Dimethylhydrazide on Sex Expression in Muskmelon|J. Am. Soc. Hortic. Sci.96(5): 641-644|1971|10.21273/JASHS.96.5.641
41139|T||Shinozaki,M., and A. Takimoto|Effects of Some Growth Regulators and Benzoic Acid Derivatives on Flower Initiation and Root Elongation of Pharbitis nil, Strain Kidachi|Plant Cell Physiol.24(3): 433-439|1983|
41140|T||Dalvi,R.R., B. Singh, and D.K. Salunkhe|A Study on Phytotoxicity of Atlantolactone|Chem.-Biol. Interact.3:13-18|1971|10.1016/0009-2797(71)90022-6
41141|T||Rahalkar,A.P.|Studies on Stability and Phytotoxicity of Neopentene|Hindustan Antibiot. Bull.10:207-208|1968|
41142|T||Stewart,J.K., and Y. Aharoni|Vacuum Fumigation with Ethyl Formate to Control the Green Peach Aphid in Packaged Head Lettuce|J. Am. Soc. Hortic. Sci.108(2): 295-298|1983|10.21273/JASHS.108.2.295
41143|T||Moorman,G.W., and W.C. Woodbridge|Effect of Fungicide Drenches on Root Initiation by Geranium Cuttings|Plant Dis.67(6): 612-613|1983|10.1094/PD-67-612
41144|T||Bempong,M.A.|Cytological Effect of Nogalamycin in Tradescantia paludosa Microsporocytes|Mutat. Res.21:323-326|1973|10.1016/0165-1161(73)90055-1
41145|T||Cox,R.H., H.G. Cutler, R.E. Hurd, and R.J. Cole|Proton Nmr and Carbon-13 NMR Studies of the Conformation of Cytochalasin H Derivatives and Plant Growth Regulating Effects of Cytochalasins|J. Agric. Food Chem.31:405-408|1983|10.1021/jf00116a055
41146|T||Colby,S.R., and G.F. Warren|Selective Action of Solan on Tomato and Eggplant|Weeds (Urbana)13:257-263|1965|10.2307/4041042
41147|T||Brown,R.M.|Testing Various Herbicides, Including Diphenamid and Propham, for Weed Control in Seedbeds of Sitka Spruce (Picea sitchensis Bong. Carr.)|Proc. Br. Weed Control Conf.12:255-264|1974|
41148|T||Thompson,C.R., and G. Kats|Effects of Ambient Concentrations of Peroxyacetyl Nitrate on Navel Orange Trees|Environ. Sci. Technol.9:35-38|1975|10.1021/es60099a008
41150|T||Frank,R., G.J. Sirons, and G.W. Anderson|Atrazine:  The Impact of Persistent Residues in Soil on Susceptible Crop Species|Can. J. Soil Sci.63:315-325|1983|10.4141/cjss83-031
41151|T||Amer,S.M., and E.M. Ali|Cytological Effects of Pesticides. IV. Mitotic Effects of Some Phenols|Cytologia34:533-540|1969|10.1508/cytologia.34.533
41152|T||Southwick,L., and R.G. Hanson|Weedbed Herbicides - a New Formulation of Sodium Pentachlorophenate for Pre-Emergence Weed Control in Soybeans|Down Earth17:6-8|1962|
41153|T||Lin,S.C., B.R. Funke, and J.T. Schulz|Effects of Some Organophosphate and Carbamate Insecticides on Nitrification and Legume Growth|Plant Soil37:489-496|1972|10.1007/BF01348509
41154|T||Ruppel,R.F.|Effect of Seed Treatment with Carbofuran and Propoxur on Germination of Small Grains|J. Econ. Entomol.64(6): 1554-1556|1971|10.1093/jee/64.6.1554
41155|T||Webb,T., and W. Armstrong|Effects of KCN and Salicylhydroxamic Acid on the Root Respiration of Pea Seedlings|Plant Physiol.72:280-286|1983|10.1104/pp.72.2.280
41156|T||O'Sullivan,P.A., P.N.P. Chow, J.H. Hunter, and K.J. Kirkland|Control of Green Foxtail (Setaria viridis) in Cereals with AC 206784, Alone and in Mixtures with Triallate for Wild Oats (Avena fatua)|Can. J. Plant Sci.62:995-1001|1982|10.4141/cjps82-147
41157|T||Rolston,M.P., and B.P. Devantier|Alternative Herbicides to 2,4,5-T for Gorse Control|N. Z. J. Exp. Agric.11:91-94|1983|10.1080/03015521.1983.10427735
41158|T||Fujii,T., and T. Inoue|Mutagenic Effect of A Pesticide (Ekatin) in the Soybean Test System|Environ. Exp. Bot.23(2): 97-102|1983|10.1016/0098-8472(83)90026-6
41159|T||Hoshino,T.|Effects of Acetylcholine on the Growth of the Vigna Seedling|Plant Cell Physiol.24(3): 551-556|1983|
41160|T||Jordan,T.N., and G.F. Warren|Effects of Prometryn and Dinoseb Combinations in an Undiluted Oil Carrier|Weed Sci.23:328-332|1975|10.1017/S0043174500053121
41161|T||Jarvis,B.C., P.R.M. Shannon, and S. Yasmin|Involvement of Polyamines with Adventitious Root Development in Stem Cuttings of Mung Bean|Plant Cell Physiol.24:677-683|1983|10.1093/oxfordjournals.pcp.a076564
41162|T||Reece,P.E., and R.G. Wilson|Effect of Canada Thistle (Cirsium arvense) and Musk Thistle (Carduus nutans) Control on Grass Herbage|Weed Sci.31:488-492|1983|10.1017/S0043174500069447
41163|T||Baldwin,F.L., and R.E. Frans|Soybean and Weed Response to Dinoseb and Chloroxuron Applied Topically|Weed Sci.20(5): 511-514|1972|10.1017/S0043174500036262
41164|T||Wicks,G.A., and R.G. Wilson|Control of Weeds in Sugarbeets (Beta vulgaris) with Handhoeing and Herbicides|Weed Sci.31:493-499|1983|10.1017/S0043174500069459
41165|T||Murphy,H.J.|Effect of Combinations of Chlorbromuron and Linuron with Alachlor on Yield and Weed Control in White Potatoes in Maine - 1973|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:299-302|1974|
41166|T||Rouchaud,J., C. Moons, and J.A. Meyer|Effects of Selected Insecticides and Herbicides on Free Sugar Contents of Carrots|J. Agric. Food Chem.31(2): 206-210|1983|10.1021/jf00116a006
41168|T||Davis,D.E., and H.H. Funderburk|Variability in Susceptibility to Injury by Dnbp|Weeds (Urbana)6:454-460|1958|10.2307/4040241
41169|T||King,J.M., and R.P. Handley|Post-Emergence Herbicide Experiments in Peas and Dwarf Beans|Proc. Br. Weed Control Conf.11:539-546|1972|
41170|T||Aberg,B.|Plant Growth Regulators. Xlvii. Some Boronic Acids and Arsonic Acids|Swed. J. Agric. Res.13:101-106|1983|
41171|T||Umbeck,P.F., and B.G. Gengenbach|Streptomycin and Other Inhibitors as Selection Agents in Corn Tissue Cultures|Crop Sci.23:717-719|1983|10.2135/cropsci1983.0011183X002300040027x
41172|T||Adams,J.D.|Growth Effects of Tranquilizing Agents Containing Phenothiazine Derivatives on Barley Seedlings|Pharmacology13:137-142|1975|10.1159/000136894
41173|T||White,G.D., and E.T. Jacobson|Phosphine Fumigation: Effects on the Germination of Grass Seed|J. Econ. Entomol.65(1): 1523-1524|1972|10.1093/jee/65.5.1523
41174|T||Aberg,B.|Studies on Plant Growth Regulators. Ix. Para-Alkyl-Phenoxy-Acetic and -Propionic Acids, and Some Related Derivatives of Naturally Occurring Phenols|Physiol. Plant. (Multiple Languages)7:241-252|1954|10.1111/j.1399-3054.1954.tb07573.x
41175|T||Welch,A.W., M.B. Weed, and C.W. Bingeman|Control of Brush with a New Growth Regulator|Proc. South. Weed Sci. Soc.27:245-250|1974|
41176|T||Zilkah,S., P.F. Bocion, and J. Gressel|Cell Cultures vs. Whole Plants for Measuring Phytotoxicity.  II.  Correlations Between Phytotoxicity in Seedlings and Calli|Plant Cell Physiol.18:657-670|1977|
41177|T||Parsons,D.L., and R.E. Sosebee|Influence of Ethrel on Phenological Development in Honey Mesquite|J. Range Manag.27:165-166|1974|10.2307/3896758
41178|T||Eid,A., B.F. Hanna, R.K. Mohammed, G.M. Amin, A.M. Ali, and I.I. Guirguis|Toxic Effect of Insecticides on Seeds|Agric. Res. Rev.49:46-54|1971|
41179|T||Riccelli-Mattei,M.|Differential Phytotoxic Reaction of Sorghum Cultivars to Insecticides. I. Genetic Resistance to Trichlorfon|Crop Sci.11:923-926|1971|10.2135/cropsci1971.0011183X001100060048x
41180|T||Harris,C.R., H.J. Svec, W.W. Sans, A. Hikichi, S.C. Phatak, R. Frank, and H.E. Braun|Efficacy, Phytotoxicity, and Persistance of Insecticides Used As Pre- and Postplanting Treatments for Control of Cutworms Attacking Vegetables in Ontario|Proc. Entomol. Soc. Ont.105:65-75|1975|
41181|T||Aberg,B.|Plant Growth Regulators. XXVIII. The Optically Active Dichlorophenoxypropionic Acids|Swed. J. Agric. Res.1:23-32|1971|
41182|T||Aberg,B.|Plant Growth Regulators.  XXX.  The Optically Active Mono-, Bromo- and Mono-Iodo-Phenoxypropionic Acids|Swed. J. Agric. Res.2:57-64|1972|
41183|T||Aberg,B.|Plant Growth Regulators. XXXI. Some Monochloro-Monomethylphenoxy-Acetic and Related Optically Active Propionic Acids|Swed. J. Agric. Res.3:49-62|1973|
41184|T||Daniel,W.H., and J.W. Herron|Use of Zytron for Controlling Nimblewill in Bluegrass Turf|Down Earth17:21-23|1962|
41185|T||Aberg,B.|Plant Growth Regulators.  XXXII.  Some tri- and Tetrasubstituted Phenoxy-Acetic and Related Optically Active Propionic Acids|Swed. J. Agric. Res.4:71-85|1974|
41186|T||Aberg,B.|Plant Growth Regulators. Xxxiii. Optically Active Methoxy-Phenoxypropionic Acids and Some Related Two- and Three-Substituted Phenoxy Compounds|Swed. J. Agric. Res.5:49-59|1975|
41187|T||Aberg,B.|Plant Growth Regulators. XXXVI. Further Indole Derivatives|Swed. J. Agric. Res.8:133-138|1978|
41188|T||Aberg,B.|Plant Growth Regulators.  XXXIX.  Some Nitrophenoxyacetic Acids and Chloronitrophenoxyacetic Acids and Optically Active Phenoxypropionic Acids|Swed. J. Agric. Res.10:101-106|1980|
41189|T||Aberg,B.|Plant Growth Regulators. XL. Some Halogeno- and Alkyl-Phenoxyacetic and Optically Active - Phenoxypropionic Acids|Swed. J. Agric. Res.10:107-114|1980|
41190|T||Matsunaka,S.|Propanil Hydrolysis: Inhibition in Rice Plants by Insecticides|Science160:1360-1361|1968|10.1126/science.160.3834.1360
41191|T||Ammann,C.A., and R.S. Safferman|The Onion Test as a Possible Screening Method for Antitumor Agents|Antibiot. Chemother.8(1): 1-7|1958|
41192|T||Dalvi,R.R., B. Singh, and D.K. Salunkhe|Influence of Selected Pecticides on Germination and Associated Metabolic Changes in Wheat and Mung Bean Seeds|J. Agric. Food Chem.20:1000-1003|1972|10.1021/jf60183a034
41193|T||Hanna,R.L.|Insecticidal Seed Treatments for Cotton|J. Econ. Entomol.51(2): 160-163|1958|10.1093/jee/51.2.160
41194|T||DePew,L.J.|Effect of In-Furrow Treatments of Three Systemic Insecticides on Grain Sorghum Emergence|J. Econ. Entomol.64:1321-1322|1971|10.1093/jee/64.5.1321
41195|T||Bentley,J.A.|Growth-Regulating Effect of Certain Organic Compounds|Nature165(4194): 449-|1950|10.1038/165449a0
41196|T||Roberts,J.E., R.D. Chisholm, and L. Koblitsky|Persistence of Insecticides in Soil and Their Effects on Cotton in Georgia|J. Econ. Entomol.55(2): 153-155|1962|10.1093/jee/55.2.153
41197|T||Kabir,S.M.H., and M.H. Khan|Effects of Diazinon, Dieldrin, and Supracide on Seedlings of Tomato, Eggplant, and Cabbage|J. Econ. Entomol.65:1179-1180|1972|10.1093/jee/65.4.1179
41198|T||Chesebro,J.W., and D.J. Porteous|Evaluation of Dursban 2e Emulsifiable Insecticide for Phytotoxicity to Bentgrass Turf|Down Earth28:1-2|1972|
41199|T||Pomber,L., and P. Weinberger|Some Physiological and Phytotoxic Effects of Fenitrothion on Germination and Seedling Growth of Pinus strobus l|Inf.Rep.CC-X-80, Chem.Control Res.Inst., Ottawa, Ontario80:25 p.|1974|
41200|T||Pomber,L., and P. Weinberger|The Phytotoxicity of Fenitrothion as Assessed by the Germination and Early Growth of Betula alleghaniensis Britt|Inf.Rep.CC-X-79, Chem.Control Res.Inst., Ottawa, Ontario79:20 p.|1974|
41201|T||Harlan,D.P.|Whitefringed Beetles: Control of Larvae in Nursery Containers and Phytotoxicity of Abate|J. Econ. Entomol.67(6): 804-|1974|10.1093/jee/67.6.804
41202|T||Manzelli,M.A., and V.H. Young|Tolerance of Plants to V-C 13 Nematocide|Plant Dis. Rep.41:195-200|1957|
41203|T||Denny,F.E., and E.N. Stanton|Chemical Treatments for Shortening the Rest Period of Pot-Grown Woody Plants|Am. J. Bot.15:327-336|1928|
41204|T||De Villiers,O.T., F.M. Ashton, and R.K. Glenn|The Effect of Ethanol and Acetone on Metabolic Processes in Isolated Plant Cells|Agroplantae9:67-|1977|
41205|T||Powell,C.C., R.M. Riedel, and V.R. Walter|The Effect of Aldicarb on Aphelenchoides fragariae on Rieger Begonia|Plant Dis. Rep.59(4): 370-372|1975|
41206|T||Florian,S.F., and J.M. Naylor|Effects of Some Purine Antimetabolites on Mitosis and Growth in Vicia faba Roots|Proc. Can. Cancer Res. Conf.3:31-40|1959|
41207|T||El Refai,A.R., and M. Mowafy|Interaction of Propanil with Insecticides Absorbed from Soil and Translocated into Rice Plants|Weed Sci.21:246-248|1973|10.1017/S0043174500032239
41208|T||Soper,D., and A.S. Hutchison|The Regulation of Grasses in Clover Seed Crops and Pasture Using Carbetamide|Proc. Br. Weed Control Conf.12:779-786|1974|
41209|T||Hacskaylo,J., J.K.,Jr. Walker, and E.G. Pires|Response of Cotton Seedlings to Combinations of Preemergence Herbicides and Systemic Insecticides|Weeds (Urbana)12:288-291|1964|10.2307/4040756
41210|T||Griffiths,G.P., and C.T. Lake|An Evaluation of R7465 for the Control of Annual Weeds in Brassica Crops|Proc. Br. Weed Control Conf.11:138-142|1972|
41211|T||Iwanami,Y.|Absolute Dormancy of Pollen Induced by Soaking in Organic Solvents|Protoplasma (Multiple Languages)84:181-184|1975|10.1007/BF02075953
41212|T||Higgins,E.R., M.G. Schnappinger, and S.W. Pruss|Procyazine for Annual Grass and Broadleaf Control in Corn|Agricultural Division, CIBA-GEIGY Corporation, Washington, PA29:63-67|1975|
41213|T||Knypl,J.S.|Inhibition of Chlorophyll Synthesis by Growth Retardants and Coumarin, and Its Reversal by Potassium|Nature224:1025-1026|1968|10.1038/2241025a0
41215|T||Lado,P., F.R. Caldogno, and R. Columba|Promoting Effect of Fusicoccin on Seed Germination|Physiol. Plant. (Multiple Languages)31:149-152|1974|10.1111/j.1399-3054.1974.tb03120.x
41216|T||Marriage,P.B., and W.J. Saidak|Control of Barnyardgrass and Yellow Foxtail by Herbicides in Relation to the Sucrose Content of the Seedling Leaves|Weed Res. (Multiple Languages)14:115-118|1974|10.1111/j.1365-3180.1974.tb01504.x
41217|T||Jones,R.G., and B.C. Haddow|The Use of Cyanazine for the Control of Weeds in Narcissus and Tulip Crops|Proc. Br. Weed Control Conf.12:633-640|1974|
41218|T||Laloraya,M.M., and D. Banerji|Effect of Chloramphenicol on the Expansion of Isolated Cotyledons of Cucurbita Pepo in Light and in Presence of Kinetin|Experientia21:516-517|1965|10.1007/BF02138967
41219|T||Morris,R.O.|Experiments to Investigate the Use of Cyanazine as a Herbicide on Light Soils at Successive Growth Stages of Peas Under Varying Rainfall Conditions|Proc. Br. Weed Control Conf.11:565-572|1972|
41222|T||Paton,D., and J.E. Smith|The Effect of Sulfhydryl Agents on the Ioxynil-Inhibited Cyclic Photophosphorylation in Chloroplasts of Vicia faba l|Experientia22:734-|1966|10.1007/BF01901348
41223|T||Andersen,R.N.|Control of Volunteer Corn and Giant Foxtail in Soybeans|Weed Sci.24(3): 253-256|1976|10.1017/S0043174500065905
41224|T||Person,C., D.J. Samborski, and F.R. Forsyth|Effect of Benzimidazole on Detached Wheat Leaves|Nature180:1294-1295|1957|10.1038/1801294b0
41225|T||Pillai,C.G.P., and D.E. Davis|S-Triazine Effects on Seed Germination and Hypocotyl Hook Opening|Weed Sci.21(5): 461-464|1973|10.1017/S0043174500027508
41227|T||Seeley,R.C., and R.L. Wain|Studies on Plant Growth-Regulating Substances. Ix. Investigations with Pollen Extracts and Synthetic Growth Substances on the Hop Plant (Humulus Lupulus L.)|Ann. Appl. Biol.43:355-365|1955|10.1111/j.1744-7348.1955.tb02486.x
41228|T||Maroder,H.L.|Physiological Effects of Dalapon in Cynodon Dactylon (L.) Pers|Weed Res. (Multiple Languages)13:19-23|1973|10.1111/j.1365-3180.1973.tb01242.x
41229|T||Sparapano,L.|The Action of Fusicoccin Alone and with Some Plant Growth Substances on Tobacco Tissue Cultures|Physiol. Plant. (Multiple Languages)38:323-326|1976|10.1111/j.1399-3054.1976.tb04013.x
41230|T||Synerholm,M.E., and P.W. Zimmerman|The Preparation of Some Substituted Phenoxy Alkyl Carboxylic Acids and Their Properties as Growth Substances|Contrib. Boyce Thompson Inst.14:91-103|1945|
41231|T||Rowe,G.R., and B.P. O'Connor|Tetrapion: Evaluation for the Control of Rhizomatous Grasses and Toetoe|Proc. N. Z. Weed Pest Control Conf.28:173-176|1975|10.30843/nzpp.1975.28.9148
41232|T||Kampe,W.|Effect of Bidisin (Chlorphenprop-Methyl) on Avena fatua L. and Yields of Cereals and Sugar Beet|Pflanzenschutz-Nachr. Bayer (English Ed.)26(3): 299-316|1973|
41233|T||Holst,E.M., E.G. Eckroth, and C.E. Cormany|Chemical Weed Control in Some Holly Areas in Montana, Colorado, and Wyoming|J. Am. Soc. Sugar Beet Technol.9:499-502|1957|10.5274/jsbr.9.6.499
41234|T||Ernst,R., J. Arditti, and P.L. Healey|Biological Effects of Surfactants. I. Influence on the Growth of Orchid Seedlings|New Phytol.70:457-475|1971|10.1111/j.1469-8137.1971.tb02547.x
41235|T||Katekar,G.F., and A.E. Geissler|Auxin Transport Inhibitors: Fluorescein and Related Compounds|Plant Physiol.56:645-646|1975|10.1104/pp.56.5.645
41236|T||Kihlman,B.A., and G. Odmark|Deoxyribonucleic Acid Synthesis and the Production of Chromosomal Aberrations by Streptonigrin, 8-Ethoxycaffeine and 1,3,7,9-Tetramethyluric Acid|Mutat. Res.2(6): 494-505|1965|10.1016/0027-5107(65)90015-1
41237|T||Minshall,W.H.|Eradification of Poison Ivy (Rhus radicans L.). I. Experiments with Sodium Chlorate, Sodium Chloride, and Two Petroleum Oils|Sci. Agric. (Piracicaba, Braz. )26(5): 183-193|1946|
41238|T||Cassidy,J.C.|Herbicide Evaluation in Peas and French Beans 1971-72|Proc. Br. Weed Control Conf.11:1088-1095|1972|
41239|T||Bartels,P.G., and C. McCullough|A New Inhibitor of Carotenoid Synthesis in Higher Plants: 4-Chloro-5-(Dimethylamino)-2-alpha, alpha, alpha, (Trifluoro-m-Tolyl)-3(2H)-Pyridazinone (Sandoz 6706)|Biochem. Biophys. Res. Commun.48(1): 16-22|1972|
41240|T||Owens,L.D.|Herbicidal Potential of Rhizobitoxine|Weed Sci.21(1): 63-66|1973|10.1017/S0043174500031714
41241|T||Devlin,R.M., and K.H. Deubert|Tolerance of Cranberry (Vaccinium Macrocarpon) to San-9789: A Experimental Herbicide|Weed Res. (Multiple Languages)13:393-398|1973|10.1111/j.1365-3180.1973.tb01292.x
41242|T||Lavalleye,M.P., V.F. Boyd, C.G. Keefer, L.F. Hist, and W. McDonald|SAN 9789, a Pyridazinone Herbicide Selective for Cotton and Other Crops|Proc. South. Weed Sci. Soc.26:124-130|1973|
41243|T||Richardson,W.G., and J.D. Banting|The Phytotoxicity of Various Herbicides in Two Sandy Loam Soils and the Effect of Liming|Weed Res. (Multiple Languages)17:203-207|1977|10.1111/j.1365-3180.1977.tb00467.x
41244|T||Geronimo,J., L.L.,Jr. Smith, G.D. Stockdale, and C.A.I. Goring|Laboratory Studies on the Phytotoxicity of Nitrapyrin and Its Principal Metabolite 6-Chloropicolinic Acid|Down Earth29:25-28|1973|
41245|T||Geronimo,J., L.L.,Jr. Smith, G.D. Stockdale, and C.A.I. Goring|Comparative Phytotoxicity of Nitrapyrin and Its Principal Metabolite, 6-Chloropicolinic Acid|Agron. J.65:689-692|1973|10.2134/agronj1973.00021962006500050003x
41246|T||Mills,H.A., A.V. Barker, and D.N. Maynard|A Study of the Phytotoxicity of 2-Chloro-6-(Trichloromethyl) Pyridine|Commun. Soil Sci. Plant Anal.4:487-494|1973|10.1080/00103627309366470
41247|T||Bennett,M.D.|Effects of Ethirimol on Cytological Characters in Barley|Nature230:406|1971|10.1038/230406a0
41248|T||Moreland,D.E., and K.L. Hill|The Action of Alkyl N-Phenylcarbamates on the Photolytic Activity of Isolated Chloroplasts|J. Agric. Food Chem.7:832-837|1959|10.1021/jf60106a004
41249|T||Izawa,S., D.G. Winget, and N.E. Good|Phlorozin, A Specific Inhibitor of Photophosphorylation and Phosphorylaton-Coupled Electron Transport in Chloroplasts|Biochem. Biophys. Res. Commun.22:223-226|1966|10.1016/0006-291X(66)90436-0
41250|T||Baltscheffsky,H.|Uncoupling Agents and Photophosphorylation in Chromatophores and Chloroplasts|Acta Chemica Scandinavica19:1933-1938|1965|10.3891/acta.chem.scand.19-1933
41252|T||Bucha,H.C., W.E. Cupery, J.E. Harrod, H.M. Loux, and L.M. Ellis|Substituted Uracil Herbicides|Science137:537-538|1962|10.1126/science.137.3529.537
41253|T||Synerholm,M.E., and P.W. Zimmerman|Preparation of a Series of Omega-(2,4-Dichlorophenoxy)-Aliphatic Acids and Some Related Compounds with a Consideration of Their Biochemical Role as Plant-Growth Regulators|Contrib. Boyce Thompson Inst.14:369-382|1947|
41254|T||Lewak,S., and E. Skowronska|Interaction of Triacontanol with Gibberellin Control of Lettuce Seed Germination|Physiol. Plant. (Multiple Languages)55:183-186|1982|10.1111/j.1399-3054.1982.tb02284.x
41255|T||Jayachandra|Parthenium Weed in Mysore State and Its Control|Curr. Sci. (Bangalore)40:568-569|1971|
41256|T||Peevy,F.A.|Bromacil and Picloram Under Southern Upland Hardwoods|Weed Sci.21:54-56|1973|10.1017/S0043174500031684
41257|T||Srivastava,S.K., and T.A. Smith|The Inhibition of Growth in Higher Plants by a Homologous Series of Guanidines and Its Reversal by Spermine|Ann. Bot.50:265-275|1982|10.1093/oxfordjournals.aob.a086364
41258|T||Sterrett,J.P.|Selective Control of Trees by Pressure Injection of Herbicides|Hortscience17(3): 360-361|1982|10.21273/HORTSCI.17.3.360
41259|T||Lewis,A.J., and S. Lewis|Height Control of Lilium longiflorum Cultivar Ace Using Ancymidol Bulb-Dips|Hortscience17:336-337|1982|10.21273/HORTSCI.17.3.336
41260|T||Janardhanan,K.K., and A. Husain|Isolation of Tenuazonic Acid, A Phytotoxin, from Alternaria Alternata Causing Leaf Blight of Datura Innoxia Mill|Indian J. Exp. Biol.13:321-322|1975|
41261|T||Walsh,C.S., and M. Faust|AVG Increases the Yield of Young 'Delicious' Apple Trees|Hortscience17(3): 370-372|1982|10.21273/HORTSCI.17.3.370
41262|T||Riov,J., and S.F. Yang|Stimulation of Ethylene Production in Citrus Sinensis Cultivar Washington Navel Citrus Leaf Discs by Mannitol|Plant Physiol.70:142-146|1982|10.1104/pp.70.1.142
41263|T||Davidonis,G.H., R.H. Hamilton, R.P. Vallejo, R. Buly, and R.O. Mumma|Biological Properties of D-Amino Acid Conjugates of 2,4-D|Plant Physiol.70:357-360|1982|10.1104/pp.70.2.357
41264|T||Fromm,F., and I.M. Vidal|The Chemical Control of Bermuda Grass and of Crowfoot Grass|Science99(2580): 478-|1944|10.1126/science.99.2580.478.a
41265|T||Ueckert,D.N., and S.G. Whisenant|Individual Plant Treatments for Controlling Redberry Juniper Seedlings|J. Range Manag.35(4): 419-423|1982|10.2307/3898595
41266|T||Jacoby,P.W., C.H. Meadors, M.A. Foster, and F.S. Hartmann|Honey Mesquite (Prosopis glandulosa Var. glandulosa) Control and Forage Response in Crane County, Texas|J. Range Manag.35:424-426|1982|10.2307/3898596
41267|T||Nyffeler,A., H.R. Gerber, K. Hurle, W. Pestemer, and R.R. Schmidt|Collaborative Studies of Dose-Response Curves Obtained with Different Bioassay Methods for Soil-Applied Herbicides|Weed Res. (Multiple Languages)22:213-222|1982|10.1111/j.1365-3180.1982.tb00166.x
41268|T||Matsui,S., and M. Nakamura|Studies on the Further Growth of Seedless Berries Induced by Prebloom Treatment with 4-Chlorophenoxyacetic Acid in Kyoho Grapevines|J. Hortic. Sci.57:307-314|1982|10.1080/00221589.1982.11515057
41269|T||Pal,R.N., and K.L. Chadha|Deblossoming Mangoes with Cycloheximide|J. Hortic. Sci.57(3): 331-332|1982|10.1080/00221589.1982.11515060
41270|T||Erez,A.|Thiourea, a New Thinning Agent for Early-Ripening Peaches and Nectarines|Hortscience10:251-253|1975|10.21273/HORTSCI.10.3.251
41271|T||Vasilev,G., L. Iliev, and K. Dobrev|Herbicidal Activity of Certain Thiourea Derivatives|C. R. Acad. Bulg. Sci.20(11): 1193-1195|1967|
41272|T||Mathur,A., M.H. Siddiqui, D. Mukerji, and S.N. Mathur|Influence of Rogor (30E) on Seed Germination and Germination Physiology of Vigna mungo|Phytophylactica14:57-59|1982|
41273|T||Koopman,H., J.H. Uhlenbroek, and J. Daams|New S-Triazine Herbicides|Nature180:147-148|1957|10.1038/180147b0
41274|T||Selman,B.R., and T.T. Bannister|Trypsin Inhibition of Photosystem Ii|Biochim. Biophys. Acta253:428-436|1971|10.1016/0005-2728(71)90046-6
41275|T||Frans,R., M. McClelland, and S. Kennedy|Chemical and Cultural Methods for Bermudagrass Control in Cotton|Weed Sci.30:481-484|1982|10.1017/S0043174500041011
41276|T||De Mur,A.R., V.B. Youngner, and J.R. Goodin|Siduron Toxicity to Turfgrass As Affected by Several Climatic Factors|Agron. J.65:730-732|1973|10.2134/agronj1973.00021962006500050016x
41277|T||Meyer,R.E.|Brush Response to Spacing and Individual-Plant Herbicide Treatments|Weed Sci.30:378-384|1982|10.1017/S0043174500040790
41278|T||McWhorter,C.G., and T.J. Sheets|The Effectiveness of Five Phenylureas As Foliar Sprays and the Influence of Surfactants on Their Activity|Proc. South. Weed Conf.14:54-59|1961|
41279|T||Takematsu,T., M. Konnai, T. Akashiba, and N. Seki|Selective Control of Cyperaceous Weeds with K-223|Weed Sci.23(1): 15-19|1975|10.1017/S0043174500062433
41280|T||Campbell,J.R., and D. Penner|Compatibility of Diclofop and BAS 9052 with Bentazon|Weed Sci.30(5): 458-462|1982|10.1017/S0043174500040972
41281|T||Van Busschbach,E.J., J.J. Van Daalen, and J. Daams|3-(4-Chloropropylphenyl)-1,1-Dimethylurea, a Selective Herbicide for Weed Control in Cereal Grains|J. Agric. Food Chem.21(6): 1055-1057|1973|10.1021/jf60190a053
41282|T||Obrigawitch,T., F.W. Roeth, A.R. Martin, and R.G.,Jr. Wilson|Addition of R-33865 to EPTC for Extended Herbicide Activity|Weed Sci.30:417-422|1982|10.1017/S0043174500040868
41283|T||McNevin,G.R., and R.G. Harvey|Wild Proso Millet (Panicum miliaceum) Control in Processing Peas (Pisum sativum) and Soybeans (Glycine max)|Weed Sci.30(4): 365-368|1982|10.1017/S0043174500040765
41284|T||Andersen,R.N.|Variation in Growth Habit and Response to Chemicals Among Three Common Cocklebur (Xanthium strumarium) Selections|Weed Sci.30(4): 339-343|1982|10.1017/S0043174500040716
41285|T||Lee,S.D., and L.R. Oliver|Efficacy of Acifluorfen on Broadleaf Weeds: Times and Methods for Application|Weed Sci.30:520-526|1982|10.1017/S0043174500041096
41286|T||Pepperman,A.B., W.J.,Jr. Connick, S.L. Vail, A.D. Worsham, A.D. Pavlista, and D.E. Moreland|Evaluation of Precursors and Analogs of Strigol as Witchweed Seed Germination Stimulants|Weed Sci.30:561-566|1982|10.1017/S0043174500041175
41287|T||Lanini,W.T., and S.R. Radosevich|Herbicide Effectiveness in Response to Season of Application and Shrub Physiology|Weed Sci.30:467-475|1982|10.1017/S0043174500040996
41288|T||Baker,R.S.|Preemergence Control of Spotted Spurge in Cotton|Proc. South. Weed Sci. Soc.30:97-100|1977|
41289|T||Jeffery,L.S., A.W. Jackson, and T.C. Mccutchen|Tolerance of Soybean to Fluometuron, a Herbicide Commonly Used to Control Weeds in Cotton|Tenn. Farm Home Sci.94:30-32|1975|
41290|T||Johnson,B.J.|Oxadiazon Treatments on Overseeded Putting-Green Turf|Weed Sci.30:335-338|1982|10.1017/S0043174500040704
41291|T||Shawa,A.Y.|Control of Aster and Birdsfoot Trefoil in Cranberries with Napropamide|Weed Sci.30:369-371|1982|10.1017/S0043174500040777
41292|T||Marrese,R.J.|HOE-2991 (3-Tetrafluoroethoxyphenyl-N,N-Dimethyl Urea) a New Flexible Broad Spectrum Herbicide for Cotton|Proc. Br. Weed Control Conf.11:835-840|1972|
41293|T||Cole,R.J., and G.B. Horsnail|Broad-Spectrum Weed Control in Winter and Spring Cereals with Isoproturon/Hydroxybenzonitrile Mixtures|Proc. Br. Weed Control Conf.13:111-118|1976|
41294|T||Hewson,R.T.|Isoproturon, a New Selective Herbicide for Control of Alopecurus myosuroides in Winter Cereals|Proc. Br. Weed Control Conf.12:75-82|1974|
41295|T||Derr,J.F., and T.J. Monaco|Ethalfluralin Activity in Cucumber (Cucumis sativus)|Weed Sci.30(5): 498-502|1982|10.1017/S0043174500041059
41296|T||Mead,H., D. Livingston, and B.L. Ross|Herbicide Tolerance Studies in White Clover|Proc. Br. Weed Control Conf.13:677-679|1976|
41297|T||Yamasue,Y., A.D. Worsham, and C.E. Anderson|Morphological and Anatomical Effects of Benefin Vapors on Tobacco|Weed Sci.30:539-544|1982|10.1017/S0043174500041126
41298|T||Friedman,R., A. Altman, and U. Bachrach|Polyamines and Root Formation in Mung Bean Hypocotyl Cuttings. I. Effects of Exogenous Compounds and Changes in Endogenous Polyamine Content|Plant Physiol.70:844-848|1982|10.1104/pp.70.3.844
41299|T||Sharma,M.P., and W.H. Vanden Born|Interaction Between Difenzoquat and Propanil Or Propanil-2-Methyl-4-Chlorophenoxyacetic Acid Combinations for Wild Oat and Green Foxtail Control in Barley|Can. J. Plant Sci.62:453-459|1982|10.4141/cjps82-065
41300|T||O'Sullivan,P.A., and J.T. O'Donovan|Influence of Several Herbicides for Broad-Leaved Weed Control and Tween 20 on the Phytotoxicity of Paraquat|Can. J. Plant Sci.62:445-452|1982|10.4141/cjps82-064
41301|T||Srivastava,S.K., and T.A. Smith|Effect of Some Oligo-Amines and -Guanidines on Membrane Permeability in Higher Plants|Phytochemistry21:997-1008|1982|10.1016/S0031-9422(00)82404-8
41303|T||Pool,R.M.|Effect of Mepiquat Chloride on the Growth and Yield of Grapevines Cultivar Concord|J. Am. Soc. Hortic. Sci.107:376-380|1982|10.21273/JASHS.107.3.376
41304|T||Sharma,D.P., D.C. Ferree, and F.O. Hartman|Effect of Some Soil-Applied Herbicides on Net Photosynthesis and Growth of Apple Trees|Hortscience12(2): 153-154|1977|10.21273/HORTSCI.12.2.153
41305|T||Akinyemiju,O.A., and D.I. Dickman|Variation Among 21 Populus Clones in Tolerance to Simazine and Diuron|Can. J. For. Res.12:708-712|1982|10.1139/x82-106
41306|T||Aberg,B., T. Popoff, and O. Theander|Plant Growth Regulators  XLIII. 2,4-D Metabolites and Related Substances|Swed. J. Agric. Res.12:41-50|1982|
41307|T||Aberg,B.|Plant Growth Regulators.  XLIV.  Some Aliphatic Acids|Swed. J. Agric. Res.12:51-61|1982|
41308|T||Itokawa,H., Y. Oshida, A. Ikuta, H. Inatomi, and T. Adachi|Phenolic Plant Growth Inhibitors from the Flowers of Cucurbita Pepo|Phytochemistry21(8): 1935-1937|1982|10.1016/0031-9422(82)83018-5
41309|T||Cutler,H.G., F.G. Crumley, R.H. Cox, E.E. Davis, J.L. Harper, R.J. Cole, and D.R. Sumner|Prehelminthosporol and Prehelminthosporol Acetate:  Plant Growth Regulating Properties|J. Agric. Food Chem.30:658-662|1982|10.1021/jf00112a009
41310|T||Bucha,H.C., and C.W. Todd|3-(p-Chlorophenyl)-1,1-Dimethylurea - a New Herbicide|Science114:493-494|1951|10.1126/science.114.2967.493.b
41311|T||Johnson,B.J.|Performance of Chloroxuron on Weeds and Soybeans|Ga. Agric. Res.13:7-9|1972|
41312|T||Ogg,A.G.,Jr., and S.R. Drake|Response of Sweetcorn (Zea mays) to Alachlor, EPTC + R - 25788, and Vernolate + R - 25788|Weed Sci.30:446-449|1982|10.1017/S0043174500040947
41313|T||Lee,I.N., and K. Ishizuka|A Mode of Selective Action of Thiadiazolyl Urea Herbicides|Arch. Environ. Contam. Toxicol.4:155-165|1976|10.1007/BF02221020
41314|T||Socher,S.H., and D. Davidson|Evidence for an Effect of 5-Fluorodeoxyuridine on Cells in the G(2) Phase of the Mitotic Cycle|Can. J. Genet. Cytol.13:70-74|1971|10.1139/g71-010
41315|T||Reeves,S.A.,Jr.|Evaluations of Selected Pre and Postemergence Chemicals on Weed Control and Phytotoxicity to Eight Sugarcane Varieties|Proc. South. Weed Sci. Soc.30:130-132|1977|
41316|T||Van Staden,J., and S.E. Drewes|6-(2,3,4-Trihydroxy-3-Methylbutylamino)Purine, a Cytokinin with High Biological Activity|Phytochemistry21:1783-1784|1982|10.1016/S0031-9422(82)85061-9
41317|T||Ilnicki,R.D., and R.W. Michieka|Weed Control in Corn with Vel 5052 and Buthiazole (Vel 5026) Applied Alone, in Combination, and in Combination with Atrazine and Alachlor|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:15-19|1977|
41318|T||Klerk-Kiebert,Y.M., T.J.A. Kneppers, and L.H.W. Van der Plas|Influence of Chloramphenicol on Growth and Respiration of Soybean (Glycine max) Suspension Cultures|Physiol. Plant. (Multiple Languages)55:98-102|1982|10.1111/j.1399-3054.1982.tb02270.x
41319|T||Degraeve,N., and J. Gilot-Delhalle|Cytological Effects of Vinblastine in Plants|Experientia28:581-582|1972|10.1007/BF01931891
41320|T||Shishiyama,J., M. Fukutomi, and S. Akai|Effect of Some Fungicides on the Synthesis of Chlorophylls, Deoxyribonucleic Acid, and Ribonucleic Acid in Onion Leaves|Phytopathology55:844-847|1965|
41321|T||Metlitskii,L.V., N.P. Korableva, L.S. Sukhova, A.N. Pershutin, and N.N. Litver|Use of Hydrel to Prevent Potato Tuber Germination During Storage with Concurrent Reduction of Disease-Induced Losses|Prikl. Biokhim. Mikrobiol.18:96-103|1982|
41322|T||Clay,D.V., S.J. Rutherford, and J.S. Wiseman|New Herbicides for Strawberries: Crop Tolerance and Weed Control Performance|Proc. Br. Weed Control Conf.12:699-706|1974|
41323|T||Tadera,K., F. Yagi, S. Minemoto, and A. Kobayashi|Inhibitory Effects of Cycasin on Germination, Growth and alpha-Amylase Biosynthesis in Rice Plants|Agric. Biol. Chem.46(6): 1453-1456|1982|
41324|T||Gossett,B.J., L.F. Morgan, and T.R. Murphy|Soybean Plant Damage and Yields As Affected by Metribuzin and Seed Quality|Agron. J.74:691-693|1982|10.2134/agronj1982.00021962007400040023x
41325|T||Fischer,B.B., and A.H. Lange|Control of Field Bindweed in Cropland with 1,3-Dichloropropene Soil Fumigants|Down Earth31:19-24|1975|
41326|T||Pyne,W.J., S.S. Szabo, and R.E. Holm|Synthesis and Herbicidal Activitiy of Pyrrolidinecarboxanilides|J. Agric. Food Chem.22(6): 921-926|1974|10.1021/jf60196a041
41327|T||White,G.A., and A.N. Starratt|The Production of A Phytotoxic Substance by Alternaria zinniae|Can. J. Bot.45:2087-2090|1967|10.1139/b67-226
41328|T||Weinberger,P., and R. Vladut|Comparative Toxic Effects of Some Xenobiotics on the Germination and Early Seedling Growth of Jackpine (Pinus banksiana) and White Birch (Betula papyrifera)|Can. J. For. Res.11(4): 796-804|1981|10.1139/x81-114
41329|T||Kononkov,P.F., and I.D. Kuznetsov|The Effect of Fumigants on Germination of Some Vegetable Seeds|Seed Sci. Technol.10:95-104|1982|
41330|T||Creager,R.A.|Evaluation of Oxadiazon and Oxyfluorfen for Weed Control in Container-Grown Ornamentals|Hortscience17(1): 40-42|1982|10.21273/HORTSCI.17.1.40
41331|T||Malan,C., J.H. Visser, and N. Grobbelaar|Control of Problem Weeds of Maize on the Transvaal Highveld (South Africa). III. Crotolaria sphaerocarpa Perr. ex. DC|Weed Res. (Multiple Languages)22:105-109|1982|10.1111/j.1365-3180.1982.tb00150.x
41332|T||Malan,C., J.H. Visser, and N. Grobbelaar|Control of Problem Weeds of Maize on the Transvaal Highveld (South Africa).  II. Datura stramonium L.|Weed Res. (Multiple Languages)22:101-104|1982|10.1111/j.1365-3180.1982.tb00150.x
41333|T||Gjerstad,D.H., and D.B. South|Preemergence Weed Control in Loblolly, Slash, Shortleaf, and Eastern White Pine Nursery Seedbeds|Can. J. For. Res.11:848-853|1981|10.1139/x81-125
41334|T||Overton,J.R., T. McCutchen, L.S. Jeffery, H. Morgan, J.F. Brown, and A.Y. Chambers|Crop and Weed Response-Bay 94337 in Tennessee, 1969 to 1972|Proc. South. Weed Sci. Soc.26:182-192|1973|
41336|T||Fortino,J.,Jr., and W.E. Splittstoesser|The Use of Metribuzin for Weed Control in Tomato|Weed Sci.22(6): 615-619|1974|10.1017/S0043174500038418
41337|T||Crassweller,R.M.|Effect of Cga-15281, An Ethylene-Generating Material, on Maturity of Apple Cultivar Delicious|Hortscience17:656-658|1982|10.21273/HORTSCI.17.4.656
41338|T||Meyer,R.H.|Fruit Thinning and Russeting Effects of Oxamyl on Apple|Hortscience17(4): 658-659|1982|10.21273/HORTSCI.17.4.658
41339|T||Maftoun,M., J. Yasrebi, and M. Darbeheshti|Comparative Phytotoxicity of Nitrapyrin and ATC to Several Leguminous Species|Plant Soil63(2): 303-306|1981|10.1007/BF02374610
41340|T||Coosemans,J., and C. Van Assche|Comparative Study of Growth-Promoting Capacity of Some Insecticides/Nematicides|Plant Soil63:251-259|1981|10.1007/BF02374603
41341|T||Droppa,M., G. Horvath, I. Vass, and S. Demeter|Mode of Action of Photosystem II Herbicides Studied by Thermoluminescence|Biochim. Biophys. Acta638:210-216|1981|10.1016/0005-2728(81)90229-2
41342|T||Gomaa,E.A.A.|1,2,4-Triazoles. I. The Relationship of Structure to Phytotoxicity|Acta Phytopathol. Entomol. Hung.3:175-180|1968|
41343|T||Olofinboba,M.O., and T.T. Kozlowski|Effects of Three Systemic Insecticides on Seed Germination and Growth of Pinus halepensis Seedlings|Plant Soil64:255-258|1982|10.1007/BF02184257
41344|T||Wardle,K., and K.C. Short|Effects of Isoprenoid Alcohols and Fatty Acids on Root Elongation, Germination and Their Association with Stomatal Activity|Biochem. Physiol. Pflanzen (Multiple Languages)177(3): 210-215|1982|10.1016/S0015-3796(82)80002-4
41346|T||Kirby,P., and R.G. Turner|Wl 29226 - a New Selective Herbicide for Use in Cereals|Proc. Br. Weed Control Conf.12:817-824|1974|
41347|T||Rajanna,B., and A.A. De la Cruz|Mirex Incorporation in the Environment: Phytotoxicity on Germination, Emergence, and Early Growth of Crop Seedlings|Bull. Environ. Contam. Toxicol.14:77-82|1975|10.1007/BF01685603
41348|T||Felton,W.L.|Control of Datura Stramonium with Oxadiazon Under Simulated Spray and Furrow Irrigation|Weed Res. (Multiple Languages)14:209-212|1974|10.1111/j.1365-3180.1974.tb01043.x
41349|T||Grande,J.A.|Pre-Post Herbicide Combination Studies in Direct Seeded Onions|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:185-189|1976|
41350|T||Penner,D., and R.W. Early|Effect of Atrazine on Chromatin Activity in Corn and Soybean|Weed Sci.20(4): 367-370|1972|10.1017/S0043174500035888
41351|T||Fucik,V., A. Michaelis, and R. Rieger|On the Induction of Segment Extension and Chromatid Structural Changes in Vicia Faba Chromosomes After Treatment with 5-Azacytidine and 5-Azadeoxycytidine|Mutat. Res.9:599-606|1970|10.1016/0027-5107(70)90105-3
41352|T||Allen,T.J., and W.G. McCully|Control of Roadside Vegetation with Velpar|Proc. South. Weed Sci. Soc.30:293-295|1977|
41353|T||Eshel,Y.|Selective Action of Triazines for Control of Wild Canarygrass in Wheat|Weed Res. (Multiple Languages)12:301-309|1972|10.1111/j.1365-3180.1972.tb01224.x
41354|T||Eshel,Y., and B. Rubin|Differential Tolerance of Six Leguminous Crops to Terbutryne|Isr. J. Agric. Res.22:11-15|1972|
41355|T||Sheets,T.J., and W.C. Shaw|Herbicidal Properties and Persistence in Soils of s-Triazines|Weeds (Urbana)11:15-21|1963|10.2307/4040676
41356|T||Kozlowski,T.T., S. Sasaki, and J.H. Torrie|Influence of Temperature on Phytotoxicity of Triazine Herbicides to Pine Seedlings|Am. J. Bot.54(6): 790-796|1967|10.1002/j.1537-2197.1967.tb10701.x
41357|T||Fitzgerald,C.H., R.F. Richards, C.W. Selden, and J.T. May|Three Year Effects of Herbaceous Weed Control in a Sycamore Plantation|Weed Sci.23(1): 32-35|1975|10.1017/S0043174500062469
41358|T||Ball,A.P., C. Harris, and R.K. Pfeiffer|The Use of Trietazine and a Trietazine/Simazine Mixture for Weed Control in Peas|Proc. Br. Weed Control Conf.11:528-533|1972|
41359|T||Parochetti,J.V.|Cyprazine, Cyanazine and Atrazine for Weed Control in Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:1-6|1974|
41360|T||Chadhokar,P.A., and V.S. Mani|Effect of Herbicides on Weed Control and Grain Production in Sorghum|Indian J. Agric. Sci.42:610-613|1972|
41361|T||Fitzgerald,C.H., and C.W. Selden III|Effects of Herbaceous Weed Control in a Yellow Poplar Plantation - I|Proc. South. Weed Sci. Soc.26:288-293|1973|
41362|T||Ivany,J.A.|Effects of Glyphosate Application at Different Growth Stages on Quack Grass Control|Can. J. Plant Sci.55:861-863|1975|10.4141/cjps75-136
41363|T||Hangarter,R., S.K. Ries, and P. Carlson|Effect of Triacontanol on Plant Cell Cultures in Vitro|Plant Physiol.61:855-857|1978|10.1104/pp.61.5.855
41364|T||Allinson,D.W.|Influence of Simazine on Yield and Quantity Components of Reed Canarygrass|Agron. J.64:530-535|1972|10.2134/agronj1972.00021962006400040036x
41365|T||Grover,R., and G.A. Morgan|Response of Weeds and Several Shelterbelt Tree and Shrub Species to Granular Simazine|Can. J. Plant Sci.52:197-202|1972|10.4141/cjps72-031
41366|T||Ragab,M.T.H.|Simazine Persistence in Soil and Effects of Its Residue on Crops|Can. J. Plant Sci.54:713-716|1974|10.4141/cjps74-120
41367|T||Lazar,G., V. Soran, and I. Coste|The Effect of 2,4-Dinitrophenol (DNP) upon the Accumulation of Neutral Red in Various Tissues of Zea mays Roots|Z. Pflanzenphysiol. (Multiple Languages)59:1-6|1968|
41368|T||Shaybany,B., and J.L. Anderson|Effect of Chlorthal Dimethyl on Oat and Foxtail Seedling Anatomy|Weed Res. (Multiple Languages)12:164-168|1972|10.1111/j.1365-3180.1972.tb01201.x
41369|T||Schauer,R.L.|Postemergence Control of Creeping Speedwell with Chlorthal-methyl|Proc. Br. Weed Control Conf.11:1112-1116|1972|
41372|T||Hendershot,W.F., C.W. Hesseltine, T.G. Pridham, R.G. Benedict, and R.W. Jackson|Ramulosin:  Inhibitory Effect Against Plant Seeds and Various Fungi|Arch. Biochem. Biophys.96:166-170|1962|10.1016/0003-9861(62)90466-6
41374|T||Lodhi,M.A.K.|Soil-Plant Phytotoxicity and Its Possible Significance in Patterning of Herbaceous Vegetation in a Bottomland Forest|Am. J. Bot.62(6): 618-622|1975|
41375|T||Lee,W.O.|Effect of Picloram on Production and Quality of Seed in Several Grasses|Weed Sci.18:171-173|1970|10.1017/S0043174500077614
41376|T||Ragab,M.T.H.|Residues of Picloram in Soil and Their Effects on Crops|Can. J. Soil Sci.55:55-59|1975|10.4141/cjss75-008
41377|T||Andersen,R.N., W.E. Lueschen, D.D. Warnes, and W.W. Nelson|Controlling Broadleaf Weeds in Soybeans with Bentazon in Minnesota|Weed Sci.22(2): 136-142|1974|10.1017/S0043174500036730
41378|T||Swietlinska,Z., J. Zuk, M. Korzen, and J. Zbrzeska|The Effect of Diepoxybutane on Chromosomes of Vicia faba|Mol. Gen. Genet.99:322-332|1967|10.1007/BF00330908
41379|T||Delseny,M., L. Aspart, and Y. Guitton|Effect of the Protein Synthesis Inhibitor Cycloheximide on Rna Synthesis in Radish Seedlings|Biochimie59:51-57|1977|
41380|T||Arora,O.P., V.C. Shah, S.R.V. Rao, and C.M.S. Dass|Effect of Cycloheximide on Cell Division and Macromolecular Synthesis in Root-Tip Cells of Vicia Faba l|Indian J. Exp. Biol.8:121-125|1970|
41381|T||Starr,R.I., and D.J. Cunningham|Phytotoxicity, Absorption, and Translocation of 4-Aminopyridine in Corn and Sorghum Growing in Treated Nutrient Cultures and Soils|J. Agric. Food Chem.22(3): 409-413|1974|10.1021/jf60193a034
41382|T||Dale,J.E.|Selectivity of Pyriclor on Witchweed, Tobacco, and Other Plants|Weed Sci.19:90-93|1971|10.1017/S0043174500048360
41383|T||Ogg,A.G.,Jr., and C.E. Zimmerman|Effects of Paraquat and Dinoseb in Hops|Weed Sci.24:493-495|1976|10.1017/S0043174500066522
41384|T||Hyder,D.N.|Paraquat Kills Geyer Larkspur|J. Range Manag.25:460-463|1972|10.2307/3897008
41385|T||Fleming,W.E.|Chlordane for Control of Japanese Beetle Larvae in Turf|J. Econ. Entomol.40:932-933|1947|10.1093/jee/40.6.932
41386|T||Schweizer,E.E.|Crop Response to Soil Applications of Ethofumesate|Weed Sci.23:409-413|1975|10.1017/S0043174500062779
41387|T||O'Connor,B.P., I.C. Logan, and G.R. Rowe|Effect of Ethofumesate on Barley Grass and Other Pasture Species|Proc. N. Z. Weed Pest Control Conf.28:12-16|1975|10.30843/nzpp.1975.28.9130
41388|T||Apple,J.W.|Response of Corn to Granular Insecticides Applied to the Row at Planting|J. Econ. Entomol.64(5): 1208-1211|1971|10.1093/jee/64.5.1208
41389|T||Fedtke,C.|Changed Physiology in Wheat Plants Treated with the Herbicide Methabenzthiazuron|Naturwissenschaften61:272-273|1974|10.1007/BF00595665
41390|T||Anderson,W.P., and M. Clary|Selective Control of Barley and Other Weeds in Corn and Sorghum|Proc. South. Weed Sci. Soc.28:149-151|1975|
41391|T||Aitken,J.B.|Weed Control in Snap Beans with Dinitroaniline Herbicides|Proc. South. Weed Sci. Soc.28:175-178|1975|
41392|T||Locascio,S.J.|Weed Control in Cucurbits with Ethalfluralin, Oryzalin, and Pendimethalin|Proc. South. Weed Sci. Soc.31:152-158|1978|
41393|T||Buchanan,G.A., E.W. Hauser, and J. Street|Response of Peanuts to Dinitroaniline Herbicides|Proc. South. Weed Sci. Soc.31:105-114|1978|
41394|T||Fitzgerald,C.H., and S. Terrell|Control of Seymeria cassioides with Phenoxyalkanoic Acid Herbicides|Proc. South. Weed Sci. Soc.28:226-229|1975|
41395|T||Constantin,R.J., T.P. Hernandez, and B.W. Wascom|Effects of Herbicides on Quality of Sweet Potatoes|Proc. South. Weed Sci. Soc.28:194-200|1975|
41396|T||Haramaki,C., and L. Kuhns|Chemical Weed Control in Broadleaf Evergreen Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:233-236|1979|
41397|T||Morrow,L.S., and H.J. Murphy|Effect of Several Herbicides Applied at Different Time Sequences on Yield and Weed Control in White Potatoes, Maine-1978|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:196-199|1979|
41398|T||Selleck,G.W., R.S. Greider, and J.F. Creighton|Herbicides for Dodder Control in Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:191-195|1979|
41399|T||Selleck,G.W., and W.J. Sanok|Evaluation of Herbicides for Weed Control in Cabbage|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:158-160|1979|
41400|T||Devlin,R.M., M.J. Kisiel, and A.S. Kostusiak|The Blocking of Carotenoid Synthesis in Corn with the Experimental Herbicide R-40244|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:95-99|1979|
41401|T||Parochetti,J.V., and T.C. Harris|Bifenox Alone and with Selected Herbicides Applied Incorporated Versus Preemergence for Soybean Weed Control|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:11-16|1979|
41402|T||Watschke,T.L., J.M. Duich, and M.S. Welterlen|Crabgrass Control with Single and Split Applications of Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:256-261|1979|
41403|T||Devlin,R.M., and A.S. Kostusiak|Use of the Organic Solvents Petroleum Ether, Chloroform, Ethyl Ether and Acetone in the Screening of Herbicides and Growth Regulator Influence on the Germinatio|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:324-329|1979|
41404|T||Jagschitz,J.A.|Postemergence Herbicides for Crabgrass and Nutsedge Control in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:274-279|1979|
41405|T||Singh,B.G., and D.J. Chandra Singh|Herbicidal, Anatomical and Selective Effects of Alachlor and Nitrofen on Groundnut (Arachis Hypogea L.)|Pesticides 11:46-47|1977|
41406|T||Misra,L.P., and H.S. Dhuria|Effect of Herbicides on the Control of Weeds in Apple Orchards|Pesticides 12:27-28|1978|
41407|T||Schiller,J.M., P. Indhaphun, and S. Tanomsak|Herbicide Phytotoxicity on Mungbean (Vigna Radiata) During Establishment and Early Growth|Thai J. Agric. Sci.12:123-137|1979|
41408|T||Soczek,Z., M. Mackiewicz, F. Luczak, and R. Kowalski|Preliminary Evaluation of Some Herbicides Applied in Young Non Fruiting Cranberry Plantation|Acta Hortic.61:309-313|1977|10.17660/ActaHortic.1977.61.37
41409|T||Lutman,P.J.W.|Studies on the Control of Groundkeeper Potatoes with the Soil-Applied Herbicides Chloropham, Propyzamide and Trifluralin|Pestic. Sci.8(6): 637-646|1977|10.1002/ps.2780080608
41410|T||Vasilev,G.N., N.H. Spassovska, A.V. Spassov, and G.P. Kimenov|Herbicidal and Growth-Regulating Activity on Certain Hydrazin-Pyrimidines|C. R. Acad. Bulg. Sci.32:809-812|1979|
41411|T||Byrd,B.C., W.G. Wright, and L.E. Warren|Vegetation Control with Dowco 233 Herbicide|Proc. South. Weed Sci. Soc.28:251-260|1975|
41412|T||Gill,H.S., U.S. Walia, and L.S. Brar|Control of Phalaris minor Retz and Wild Oats Avena Ludoviciana in Wheat with New Herbicides|Pesticides 12:53-56|1978|
41413|T||Berry,C.D., and G.A. Buchanan|Tolerance of Phalaris and Tall Fescue to Postemergence Herbicide Treatments|Proc. South. Weed Sci. Soc.28:102-110|1975|
41414|T||Kahlon,P.S., and M. Singh|Comparative Efficiency of Herbicides and Their Application Techniques in Transplanted Rice|Pesticides 12:51-52|1978|
41415|T||Cameron,J.N., and K.G. Stokes|Efficacy and Selectivity of Hexazinone in Radiata Pine|Proc. N. Z. Weed Pest Control Conf.:58-65|1978|10.30843/nzpp.1978.31.9337
41416|T||Ivens,G.W.|Further Herbicide Studies on Gorse Seedlings|Proc. N. Z. Weed Pest Control Conf.31:44-46|1978|10.30843/nzpp.1978.31.9334
41417|T||Arafa,A.E., M. Salah-El-Din, and T.A. El Masry|Effect of Some Herbicide Treatments on Vegetable Crops. II. Effect of Dinitramine, Trifluralin and Fluorodifen in Controlling Weeds in Squash Fields|Agric. Res. Rev.55:205-210|1977|
41418|T||Arafa,A.E., H. Shahin, and M. Salah El-Din|Effect of Some Herbicide Treatments on Vegetable Crops. I - Effect of Dinitramine, Trifluralin, Fluorodifen and Prometryn in Controlling Weeds in Cabbage Fields|Agric. Res. Rev.55:193-204|1977|
41419|T||Eshel,Y.|Selective Control of Graminaceous Weeds in Spring Wheat|Phytoparasitica6(2): 71-77|1978|10.1007/BF02980385
41420|T||Yoshikawa,F., A.D. Worsham, and R.E. Eplee|Growth Regulators and Herbicides for Control of Witchweed (Striga asiatica (L.) Kuntze) in Corn|Proc. South. Weed Sci. Soc.28:92-101|1975|
41423|T||Visalakshy,A., and M.R.G.K. Nair|On the Effect of Phorate on Germination of Cowpea Seeds and Phytotoxicity to the Seedlings|Agric. Res. J. Kerala16(1): 102-103|1978|
41424|T||Devlin,R.M., I.E. Demoranville, and S.S. Kostusiak|Tolerance of 'Early Black' Cranberry to Furloe-124 and Metribuzin Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:332-335|1978|
41425|T||Hatfield,H.H., D.T. Warholic, and R.D. Sweet|Dinitroaniline Toxicity of Galinsoga, Ragweed, and Several Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:141-150|1978|
41426|T||Michieka,R.W., C.N. Somody, and R.D. Ilnicki|The Effects of Two Atrazine Formulations on the Response of Several Varieties of Sweet Corn|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:119-123|1978|
41427|T||Fedtke,C.|Effects of Methabenzthiazuron on the Physiology of Wheat Plants|Pestic. Sci.4:653-664|1973|10.1002/ps.2780040506
41428|T||Dicks,J.W.|Inhibition of the Hill Reaction of Isolated Chloroplasts by Herbicidal Phenylureas|Pestic. Sci.9:59-62|1978|10.1002/ps.2780090111
41429|T||Bobak,M.|Electron Microscopical Study of the Influence of Trifluralin on the Ultrastructure of the Mitochondria in Meristematic Cells of the Horse Bean (Vicia faba L.)|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant13:9-13|1977|
41430|T||Awatramani,N.A., and P.K. Mathew|Herbicidial Control of Weeds and Its Effect on Growth and Yield of Coffee|J. Coffee Res.3:61-70|1973|
41431|T||Rajashekara,B.G., G. Raghunatha, K. Krishnamurthy, M.K. Jagannath, N. Venugopal, and A. Bommegowda|Relative Tolerance of Sorghum Genotypes to Herbicides|Mysore J. Agric. Sci.8:68-79|1974|
41432|T||Weatherspoon,D.M., and W.L. Currey|Herbicide Evaluations for Woody Ornamentals in Containers|Proc. South. Weed Sci. Soc.28:205-214|1975|
41433|T||Monaco,T.J., H.P. Wilson, and K.R. Burnside|Metribuzin Performance in Irish Potatoes|Proc. South. Weed Sci. Soc.28:187-193|1975|
41434|T||Banks,P.A., M.A. Kirby, and P.W. Santelmann|Influence of Postemergence and Subsurface Layered Herbicides on Horsenettle and Peanuts|Weed Sci.25(1): 5-8|1977|10.1017/S004317450003280X
41435|T||Khan,M.U., N.W. Lem, K.R. Chandorkar, and J.P. Williams|Effects of Substituted Pyridazinones (San 6706, San 9774, San 9785) on Glycerolipids and Their Associated Fatty Acids in the Leaves of Vicia faba and Hordeum vulgare|Plant Physiol.64:300-305|1979|10.1104/pp.64.2.300
41436|T||Mohandas,T., and W.F. Grant|A Relationship Between Nuclear Volume and Response to Auxin Herbicides for Some Weed Species|Can. J. Bot.51:1133-1136|1973|10.1139/b73-143
41437|T||Wilkinson,R.E.|Zeaxanthin Epoxidation Inhibition by EPTC (S-Ethyl Dipropylthiocarbamate)|Bot. Gaz.138(3): 270-275|1977|10.1086/336924
41438|T||Ayling,R.D.|Anatomical and Histochemical Changes in Germinating Seeds of Pinus radiata Treated with Tordon Herbicides|Can. J. Bot.55:1359-1372|1977|10.1139/b77-158
41439|T||Thomas,S.M., and B.G. Murray|Herbicide Tolerance and Polyploidy in the Widespread Weed Cynodon Dactylon (L.) Pers. (Gramineae)|Ann. Bot.42:137-143|1978|10.1093/oxfordjournals.aob.a085433
41440|T||Iwanami,Y., and T. Iwadare|Inhibiting Effects of Myrmicacin on Pollen Growth and Pollen Tube Mitosis|Bot. Gaz.139(1): 42-45|1978|10.1086/336964
41441|T||Birchem,R., and C.L. Brown|Ultrastructure of Paraquat-Treated Slash Pine (Pinus Elliottii engelm)|Am. J. Bot.66:1208-1218|1979|
41442|T||Davis,D.G., R.H. Hodgson, K.E. Dusbabek, and B.L. Hoffer|The Metabolism of the Herbicide Diphenamid (N-N-Dimethyl-2,2-Diphenyl-Acetamide) in Cell Suspensions of Soybean (Glycine max)|Physiol. Plant. (Multiple Languages)44:87-91|1978|10.1111/j.1399-3054.1978.tb01619.x
41443|T||Blume,D.E., and J.W. McClure|C-Glycosylflavone Accumulation in Sandoz 6706-Treated Barley Seedlings is a Photocontrolled Response|Phytochemistry17:1549-1551|1978|10.1016/S0031-9422(00)94640-5
41444|T||Koukkari,W.L., and M.A. Johnson|Oscillations of Leaves of Abutilon theophrasti (Velvetleaf) and Their Sensitivity to Bentazon in Relation to Low and High Humidity|Physiol. Plant. (Multiple Languages)47:158-162|1979|10.1111/j.1399-3054.1979.tb03208.x
41445|T||Robinson,S.J., C.F. Yocum, H. Ikuma, and F. Hayashi|Inhibition of Chloroplast Electron Transport Reactions by Trifluralin and Diallate|Plant Physiol.60:840-844|1977|10.1104/pp.60.6.840
41446|T||Frosch,S., M. Jabben, R. Bergfeld, H. Kleinig, and H. Mohr|Inhibition of Carotenoid Biosynthesis by the Herbicide SAN 9789 and Its Consequences for the Action of Phytochrome on Plastogenesis|Planta (Multiple Languages)145:497-505|1979|10.1007/BF00380105
41447|T||Davis,D.G., R.A. Hoerauf, K.E. Dusbabek, and D.K. Dougall|Isopropyl M-Chlorocarbanilate and Its Hydroxylated Metabolites: Their Effects on Cell Suspensions and Cell Division in Soybean and Carrot|Physiol. Plant. (Multiple Languages)40:15-20|1977|10.1111/j.1399-3054.1977.tb01485.x
41448|T||Bovey,R.W., J.R. Baur, and J.D. Diaz-Colon|Phytotoxicy of 2,4,5-T, Picloram and Dicamba, Alone and in Mixtures in Tissue Culture|Weed Sci.22:191-192|1974|10.1017/S0043174500036857
41449|T||Wax,L.M., R.L. Bernard, and R.M. Hayes|Response of Soybean Cultivars to Bentazon, Bromoxynil, Chloroxuron and 2,4-DB|Weed Sci.22:35-41|1974|10.1017/S004317450003647X
41450|T||Long,C.E., and R.W. Campbell|Some Responses of Bluegrass to Herbicides and Temperature Variation|Weed Sci.22(5): 487-489|1974|10.1017/S0043174500038066
41451|T||Fortino,J.,Jr., and W.E. Splittstoesser|Response of Tomato to Metribuzin|Weed Sci.22:460-463|1974|10.1017/S0043174500038017
41452|T||Bovey,R.W., and R.E. Meyer|Mortality of Honey Mesquite and Huisache Seedlings from Herbicides and Top Removal|Weed Sci.22(3): 276-279|1974|10.1017/S0043174500037061
41453|T||Kawakubo,K., M. Shindo, and T. Konotsune|A Mechanism of Chlorosis Caused by 1,3-Dimethyl-4-(2,4-Dichlorobenzoyl)-5-Hydroxypyrazole, a Herbicidal Compound|Plant Physiol.64:774-779|1979|10.1104/pp.64.5.774
41454|T||Darwent,A.L., and R. Behrens|Effect of Pretreatment Environment in 2,4-D Phytotoxicity|Weed Sci.20:540-544|1972|10.1017/S004317450007870X
41455|T||Rubin,B., and Y. Eshel|Phytotoxicity of Fluometuron and Its Derivatives to Cotton and Weeds|Weed Sci.19:592-594|1971|10.1017/S0043174500050773
41456|T||Wu,C., and P.W. Santelmann|Phytotoxicity and Soil Activity of Hoe 23408|Weed Sci.24:601-604|1976|10.1017/S0043174500063037
41457|T||Johnson,B.J.|Turfgrass Tolerance and Weed Control with Methazole and Metribuzin|Weed Sci.24(5): 512-517|1976|10.1017/S0043174500066571
41458|T||Struckmeyer,B.E., L.K. Binning, and R.G. Harvey|Effect of Dinitroanaline Herbicides in a Soil Medium on Snap Bean and Soybean|Weed Sci.24(4): 366-369|1976|10.1017/S0043174500066194
41459|T||Betts,M., and R. Ashford|The Effect of 2,4-D on Rapeseed|Weed Sci.24(4): 356-360|1976|10.1017/S0043174500066170
41461|T||Klingman,D.L., and J.J. Murray|Germination of Seeds of Turfgrass as Affected by Glyphosate and Paraquat|Weed Sci.24:191-193|1976|10.1017/S0043174500065735
41462|T||Stephenson,G.R., J.E. McLeod, and S.C. Phatak|Differential Tolerance of Tomato Cultivars to Metribuzin|Weed Sci.24(2): 161-165|1976|10.1017/S004317450006567X
41463|T||Jacques,G.L., and R.G. Harvey|Dinitroaniline Herbicide Phytotoxicity As Influenced by Soil Moisture and Herbicide Vaporization|Weed Sci.27:536-539|1979|10.1017/S0043174500044556
41464|T||Crowley,R.H., D.H. Teem, G.A. Buchanan, and C.S. Hoveland|Responses of Ipomoea spp. and Cassia spp. to Preemergence Applied Herbicides|Weed Sci.27(5): 531-535|1979|10.1017/S0043174500044544
41465|T||McCarty,M.K.|Yield and Quality of Two Cool-Season Grasses as Affected by Selected Herbicides|Weed Sci.27(4): 415-421|1979|10.1017/S0043174500044301
41466|T||Bailey,R.E., and J.A. Simmons|Oxadiazon for Weed Control in Woody Ornamentals|Weed Sci.27(4): 396-400|1979|10.1017/S0043174500044283
41467|T||Meyer,R.E., and J.R. Baur|Smutgrass (Sporobolus poiretii) Control in Pastures with Herbicides|Weed Sci.27(4): 361-366|1979|10.1017/S0043174500044209
41468|T||Chen,L.G., A. Ali, R.A. Fletcher, C.M. Switzer, and G.R. Stephenson|Effects of Auxin-Like Herbicides on Nucleohistones in Cucumber and Wheat Roots|Weed Sci.21:181-184|1973|10.1017/S0043174500032070
41469|T||Wilson,R.G.,Jr., and O.C. Burnside|Weed Control in Soybeans with Postemergence-Directed Herbicides|Weed Sci.21(1): 81-85|1973|10.1017/S0043174500031751
41470|T||Robocker,W.C.|Germination of Seeds of Common Yarrow (Achillea Millefolium) and Its Herbicidal Control|Weed Sci.25(5): 456-459|1977|10.1017/S0043174500033853
41471|T||Hull,R.J., J.J. McGuire, and R.D. Wyman|Rooting Capacity of Herbicide-Treated Woody Ornamental Plants|Weed Sci.25:452-455|1977|10.1017/S0043174500033841
41472|T||Radosevich,S.R., W.L. Graves, and H.A. Agamalian|Response of Two Adenostoma Species to Several Herbicides|Weed Sci.25:188-192|1977|10.1017/S0043174500033245
41473|T||Bode,L.E., and C.G. McWhorter|Toxicity of MSMA, Fluometuron, and Propanil to Soybeans|Weed Sci.25(2): 101-105|1977|10.1017/S004317450003304X
41474|T||Porter,E.M., and P.G. Bartels|Use of Single Leaf Cells to Study Mode of Action of San 6706 on Soybean and Cotton|Weed Sci.25:60-65|1977|10.1017/S0043174500032926
41475|T||Weierich,A.J., Z.A. Nelson, and A.P. Appleby|Influence of Fonofos on the Distribution and Metabolism of 14C-Terbacil in Peppermint|Weed Sci.25(1): 27-29|1977|10.1017/S0043174500032859
41476|T||Harvey,R.G., and E.T. Gritton|Susceptibility of Pea Cultivars to Trifluralin|Weed Sci.25:23-26|1977|10.1017/S0043174500032847
41477|T||Rincon,D.J., and G.F. Warren|Effect of Five Thiocarbamate Herbicides on Purple Nutsedge (Cyperus rotundus)|Weed Sci.26:127-131|1978|10.1017/S0043174500049481
41478|T||Appleby,A.P., and M. Somabhi|Antagonistic Effect of Atrazine and Simazine on Glyphosate Activity|Weed Sci.26(2): 135-139|1978|10.1017/S004317450004950X
41479|T||Waddington,J.|Reaction of Sainfoin (Onobrychis viciaefolia) Seedlings to Four Herbicides Applied After Emergence|Weed Sci.26(2): 175-178|1978|10.1017/S0043174500049614
41480|T||Bartels,P.G., and C.W. Watson|Inhibition of Carotenoid Synthesis by Fluridone and Norflurazon|Weed Sci.26(2): 198-203|1978|10.1017/S0043174500049675
41481|T||Peterson,S.C., and J.V. Parochetti|Canada Thistle (Cirsium Arvense) Control in Timothy (Phleum Pratense) and Red Clover (Trifolium Pratense) Sward|Weed Sci.26(3): 215-220|1978|10.1017/S0043174500049754
41482|T||Miller,S.D., S.K. Hudson, and J. Nalewaja|Wheat (Triticum aestivum) and Barley (Hordeum vulgare) Response to Barban|Weed Sci.26(3): 226-229|1978|10.1017/S0043174500049778
41483|T||Egley,G.H., and R.D. Williams|Glyphosate and Paraquat Effects on Weed Seed Germination and Seedling Emergence|Weed Sci.26:249-251|1978|10.1017/S004317450004981X
41484|T||Jordan,G.L., and R.G. Harvey|Response of Processing Peas (Pisum sativum) and Annual Weeds to Acetanilide Herbicides|Weed Sci.26(4): 313-317|1978|10.1017/S0043174500050013
41485|T||Linscott,D.L., R.D. Hagin, and T. Tharawanich|Control of Yellow Nutsedge (Cyperus esculentus) and Other Weeds Before Summer Planting of Alfalfa (Medicago sativa)|Weed Sci.26(4): 399-402|1978|10.1017/S0043174500050190
41486|T||Nishimoto,R.K., C.P. Yip, and R.D. Sweet|Some Factors Influencing Atrazine Activity on Yellow Nutsedge (Cyperus esculentus)|Weed Sci.26(5): 421-425|1978|10.1017/S0043174500050244
41487|T||Devlin,R.M., C.N. Saras, M.J. Kisiel, and A.S. Kostusiak|Influence of Fluridone on Chlorophyll Content of Wheat (Triticum aestivum) and Corn (Zea mays)|Weed Sci.26(5): 432-433|1978|10.1017/S0043174500050268
41488|T||Meyer,R.E., R.W. Bovey, and J.R. Baur|Control of an Oak (Quercus) Complex with Herbicide Granules|Weed Sci.26(5): 444-453|1978|10.1017/S0043174500050293
41489|T||Linscott,D.L., and R.D. Hagin|Weed Control During Establishment of Birdsfoot Trefoil (Lotus corniculatus) and Red Clover (Trifolium pratense) with EPTC and Dinoseb|Weed Sci.26(5): 497-501|1978|10.1017/S0043174500050402
41490|T||Gorske,S.F., and H.J. Hopen|Effects of Two Diphenylether Herbicides on Common Purslane (Portulaca oleracea)|Weed Sci.26:585-588|1978|10.1017/S0043174500064602
41491|T||Teasdale,J.R., R.G. Harvey, and D.J. Hagedorn|Suppression of Pea (Pisum sativum) Root Rot by Dinitroaniline Herbicides|Weed Sci.26(6): 609-613|1978|10.1017/S0043174500064651
41492|T||Feierabend,J., and B. Schubert|Comparative Investigation of the Action of Several Chlorosis-Inducing Herbicides on the Biogenesis of Chloroplasts and Leaf Microbodies|Plant Physiol.61:1017-1022|1978|10.1104/pp.61.6.1017
41493|T||Leavitt,J.R.C., D.N. Duncan, D. Penner, and W.F. Meggitt|Inhibition of Epicuticular Wax Deposition on Cabbage by Ethofumesate|Plant Physiol.61:1034-1036|1978|10.1104/pp.61.6.1034
41494|T||Gaskins,M.H., and H. Delpin|Weed Control in New Plantings of Steroid-Producing Dioscorea Species|Weed Sci.21(3): 263-265|1973|10.1017/S0043174500032288
41495|T||Marriage,P.B.|Herbicidal Activity and Metabolism of Dyrene in Canada Thistle|Weed Sci.21(5): 389-392|1973|10.1017/S0043174500027296
41496|T||Cole,A.W., and G.E. Coats|Tall Morningglory Germination Response to Herbicides and Temperature|Weed Sci.21:443-446|1973|10.1017/S0043174500027454
41497|T||Barrentine,J.L., and R.E. Frans|Assessment of Herbicide-Induced Growth Inhibition of Soybean|Weed Sci.21(5): 455-460|1973|10.1017/S0043174500027491
41498|T||Harvey,R.G.|Relative Phytotoxicities of Dinitroaniline Herbicides|Weed Sci.21(6): 517-520|1973|10.1017/S0043174500032380
41499|T||Spotanski,R.F., and O.C. Burnside|Reducing Herbicide Injury to Sorghum with Crop Protectants|Weed Sci.21(6): 531-536|1973|10.1017/S0043174500032422
41500|T||Eastin,E.F.|Soybean (Glycine max) Cultivar Response to Propanil|Weed Sci.27:4-6|1979|10.1017/S0043174500043368
41501|T||Peters,E.J., and M.B. Zbiba|Effects of Herbicides on Nitrogen Fixation of Alfalfa (Medicago sativa) and Red Clover (Trifolium pratense)|Weed Sci.27(1): 18-21|1979|10.1017/S004317450004340X
41502|T||Gjerstad,D.H., D.B. South, and R.H. Crowley|Effect of Selected Herbicides on Production of Southern Pines (Pinus spp.) in Nursery Seedbeds|Weed Sci.27(2): 173-177|1979|10.1017/S0043174500043769
41503|T||Chow,P.N.P., and D.G. Dorrell|Response of Wild Oat (Avena fatua), Flax (Linum usitatissimum), and Rapeseed (Brassica campestris and B. napus) to Diclofop-Methyl|Weed Sci.27(2): 212-215|1979|10.1017/S0043174500043848
41504|T||Richard,E.P.,Jr., and J.B. Baker|Response of Selected Rice (Oryza sativa) Lines to Molinate|Weed Sci.27(2): 219-223|1979|10.1017/S0043174500043861
41505|T||Wilkinson,R.E., and D. Ashley|EPTC Induced Modification of Gibberellin Biosynthesis|Weed Sci.27(3): 270-274|1979|10.1017/S004317450004399X
41506|T||Meyer,R.E., and R.W. Bovey|Control of Honey Mesquite (Prosopis juliflora var. glandulosa) and Macartney Rose (Rosa bracteata) with Soil-Applied Herbicides|Weed Sci.27(3): 280-284|1979|10.1017/S0043174500044027
41508|T||Rafii,Z.E., and F.M. Ashton|Influence of Site of Uptake of Fluridone on Early Development of Soybean (Glycine max) and Cotton (Gossypium hirsutum)|Weed Sci.27:321-327|1979|10.1017/S0043174500044106
41509|T||Banks,P.A., L.V. Hill, and P.W. Santelmann|Control of Field Bindweed (Convolvulus arvensis) in Winter Wheat (Triticum aestivum) with Foliar and Subsurface Layered Herbicides|Weed Sci.27(3): 332-335|1979|10.1017/S004317450004412X
41510|T||Murray,D.S., J.E. Street, J.K. Soteres, and G.A. Buchanan|Growth Inhibition of Cotton (Gossypium hirsutum) and Soybean (Glycine max) Roots and Shoots by Three Dinitroaniline Herbicides|Weed Sci.27:336-342|1979|10.1017/S0043174500044131
41511|T||Johnson,B.J.|Bahiagrass (Paspalum notatum) and Common Lespedeza (Lespedeza striata) Control with Herbicides in Centipedegrass (Eremochloa ophiuroides)|Weed Sci.27(3): 346-348|1979|10.1017/S0043174500044155
41512|T||Rice,E.L.|Effects of Various Plant Growth-Regulators on Flowering in Several Crop Plants|Bot. Gaz.112:207-213|1950|10.1086/335649
41513|T||Rohrbaugh,L.M., and E.L. Rice|Relation of Phosphorus Nutrition to the Translocation of 2,4-Dichlorophenoxyacetic Acid in Tomato Plants|Plant Physiol.31:196-199|1956|10.1104/pp.31.3.196
41514|T||Danks,M.L., J.S. Fletcher, and E.L. Rice|Effects of Phenolic Inhibitors on Growth and Metabolism of Glucose-Ul-14C in Paul'S Scarlet Rose Cell Suspension Cultures|Am. J. Bot.62:311-317|1975|10.1002/j.1537-2197.1975.tb12358.x
41515|T||Lodhi,M.A.K., and E.L. Rice|Allelopathic Effects of Celtis laevigata|Bull. Torrey Bot. Club98(2): 83-89|1971|10.2307/2483771
41516|T||Olmstead,C.E., and E.L. Rice|Relative Effects of Known Plant Inhibitors on Species from First Two Stages of Old-Field Succession|Southwest. Nat.15(2): 165-173|1970|10.2307/3670344
41517|T||Danks,M.L., J.S. Fletcher, and E.L. Rice|Influence of Ferulic Acid on Mineral Depletion and Uptake of 86Rb by Paul'S Scarlet Rose Cell-Suspension Cultures|Am. J. Bot.62:749-755|1975|
41518|T||Einhellig,F.A., E.L. Rice, P.G. Risser, and S.H. Wender|Effects of Scopoletin on Growth, C02 Exchange Rates, and Concentration of Scopoletin, Scopolin, and Chlorogenic Acids in Tobacco, Sunflower, and Pigweed|Bull. Torrey Bot. Club97:22-33|1969|10.2307/2483987
41519|T||Tonecki,J.|Anatomical Aspect of 2,4,5-T and Dalapon Toxic Action on Norway Spruce (Picea abies) Seedlings|Can. J. Bot.54:1481-1485|1976|10.1139/b76-160
41520|T||Mohanadas,S., W. Wallace, and D.J.D. Nicholas|Effects of Atrazine on the Assimilation of Inorganic Nitrogen in Cereals|Phytochemistry17(6): 1021-1028|1978|10.1016/S0031-9422(00)94272-9
41522|T||Bovey,R.W., and R.E. Meyer|Control of Huisache with Soil Applied Herbicides|J. Range Manag.31(3): 179-182|1978|10.2307/3897174
41523|T||Lord,W.J., R.A.,Jr. Damon, and D.E. Robinson|Phytotoxicity of Soil-Incorporated 2,6-Dichlorobenzonitrile to Clonal Apple Rootstocks|J. Am. Soc. Hortic. Sci.97:390-392|1972|10.21273/JASHS.97.3.390
41524|T||Johnson,B.J.|Effect of Vel 4207 and Dicamba on Bermudagrass and Broadleaf Weeds|Agron. J.70:143-145|1978|10.2134/agronj1978.00021962007000010035x
41525|T||Burrill,L.C., and A.P. Appleby|Influence of Italian Ryegrass Density on Efficacy of Diuron Herbicide|Agron. J.70:505-506|1978|10.2134/agronj1978.00021962007000030035x
41526|T||Daniell,J.W., and R.P. Lane|Effect of Glyphosate on Perennial Weed Control and Yield of Muscadine Grapes|Hortscience13(4): 471-472|1978|10.21273/HORTSCI.13.4.471
41527|T||Bucholtz,D.L., and T.L. Lavy|Alachlor and Trifluralin Effects on Nutrient Uptake in Oats and Soybeans|Agron. J.71:24-26|1979|10.2134/agronj1979.00021962007100010006x
41528|T||Johnson,B.J.|Large Crabgrass Control in Turfgrasses with Fall-Applied Herbicides|Agron. J.71:137-138|1979|10.2134/agronj1979.00021962007100010034x
41529|T||Johnson,R.R., and L.M. Wax|Soybean Stand Establishment and Yield as Affected by Herbicides and Cultural Practices|Agron. J.71:880-884|1979|10.2134/agronj1979.00021962007100050041x
41530|T||Whigham,D.K., and E.W. Stoller|Soybean Desiccation by Paraquat, Glyphosate, and Ametryn to Accelerate Harvest|Agron. J.71:630-633|1979|10.2134/agronj1979.00021962007100040027x
41531|T||Behran,S., M. Maftoun, B. Sheibany, and S.M. Hojjati|Effect of Fertilizer-N and Herbicides on the Growth and N Content of Soybeans and Cowpeas|Agron. J.71:533-538|1979|10.2134/agronj1979.00021962007100040003x
41532|T||Morrow,L.A., and M.K. McCarty|Effect of Repeated Herbicide Applications on Green Sagewort in North Central Nebraska|J. Range Manag.29(5): 413-414|1976|10.2307/3897154
41533|T||Shroyer,J.P., J.F. Stritzke, and L.I. Croy|Carbohydrate Levels and Control of Blackjack Oak and Winged Elm Treated with Tebuthiuron and 2,4,5-T|J. Range Manag.32(1): 60-62|1979|10.2307/3897387
41534|T||Pettit,R.D.|Effects of Picloram and Tebuthiuron Pellets on Sand Shinnery Oak Communities|J. Range Manag.32(3): 196-200|1979|10.2307/3897122
41535|T||Mayeux,H.S.Jr., D.L. Drawe, and C.J. Scifres|Control of Common Goldenweed with Herbicides and Associated Forage Release|J. Range Manag.32(4): 271-274|1979|10.2307/3897829
41536|T||Hollingsworth,E.B., P.C.,Jr. Quimby, and D.C. Jaramillo|Control of Saltcedar by Subsurface Placement of Herbicides|J. Range Manag.32(4): 288-291|1979|10.2307/3897833
41537|T||Bovey,R.W., J.R. Baur, and E.C. Bashaw|Tolerance of Kleingrass to Herbicides|J. Range Manag.32(5): 337-339|1979|10.2307/3898010
41538|T||Shearman,R.C., E.J. Kinbacher, and D.H. Steinegger|Herbicide Effects on Sod Transplant Rooting of Three Kentucky Bluegrass Cultivars|Hortscience14(3): 282-283|1979|10.21273/HORTSCI.14.3.282
41540|T||Jensen,K.I.N., J.D. Bandeen, and V.S. Machado|Studies on the Differential Tolerance of Two Lamb's-Quarters Selections to Triazine Herbicides|Can. J. Plant Sci.57:1169-1177|1977|10.4141/cjps77-172
41541|T||Bell,S.L., O.J. Schwarz, and K.W. Hughes|Studies of the Herbicide Paraquat. I. Effects on the Cell Cycle and DNA Synthesis in Vicia faba|Can. J. Genet. Cytol.18:93-99|1976|10.1139/g76-013
41542|T||Young,E., and L.J. Edgerton|Effects of Ethephon and Gibberellic Acid on Thinning Peaches|Hortscience14(6): 713-714|1979|10.21273/HORTSCI.14.6.713
41543|T||Devlin,R.M., and I.E. Demoranville|Influence of the Herbicide R-7465 on Cranberry Fruit Development|Hortscience8(5): 400-|1973|10.21273/HORTSCI.8.5.400
41544|T||Cope,W.A., T.W. Waldrep, D.S. Chamblee, and W.M. Lewis|Evaluation of Herbicides in the Establishment of Alfalfa, Ladino White Clover, and Crownvetch|Agron. J.65(5): 820-825|1973|10.2134/agronj1973.00021962006500050044x
41545|T||Robison,L.R., and C.R. Fenster|Winter Wheat Response to Herbicides Applied Postemergence|Agron. J.65:749-751|1973|10.2134/agronj1973.00021962006500050022x
41547|T||Whitney,A.S., R.E. Green, and O.R. Younge|Effects of Gibberellic Acid and Sublethal Levels of Four Herbicides on the Cool-Season Regrowth of Two Tropical Forage Grasses|Agron. J.65:473-476|1973|10.2134/agronj1973.00021962006500030036x
41548|T||Murray,D.S., P.W. Santelmann, and H.A.L. Greer|Differential Phytotoxicity of Several Dinitroaniline Herbicides|Agron. J.65:34-36|1973|10.2134/agronj1973.00021962006500010010x
41549|T||Dunigan,E.P., J.P. Frey, L.D.,Jr. Allen, and A. McMahon|Herbicidal Effects on the Nodulation of Glycine max (L.) Merrill|Agron. J.64:806-808|1972|10.2134/agronj1972.00021962006400060031x
41550|T||Black,W.N.|Effects of Herbicide Rates and Time of Application on the Control of Tansy Ragwort in Pastures|Can. J. Plant Sci.56:605-610|1976|10.4141/cjps76-096
41551|T||Chow,P.N.P.|Dinitroaniline Herbicides for Grassy Weed Control in Rapeseed|Can. J. Plant Sci.56:705-713|1976|10.4141/cjps76-111
41552|T||Blume,D.E., and J.W. McClure|Photocontrol of Phenylalanine Ammonia-Lyase in Barley Seedlings Treated with Pyridazinone Inhibitors of Chloroplast Development|Phytochemistry17:1545-1547|1978|10.1016/S0031-9422(00)94639-9
41554|T||Baldwin,F., P. Santelmann, and H. Greer|Weed Control Systems for Hophornbeam Copperleaf Control in Peanuts|Agron. J.66(6): 789-792|1974|10.2134/agronj1974.00021962006600060021x
41555|T||Harvey,R.G., and R.E. Doersch|Triazine Susceptibility of Fall Panicum and Small Crabgrass|Agron. J.66:267-270|1974|10.2134/agronj1974.00021962006600020025x
41556|T||Crowley,J., J.T. O'Donovan, and G.N. Prendeville|Phytotoxicity of Soil-Applied Dichlorfop Methyl and Its Effect on Uptake of 45Ca in Wild Oats, Barley and Wheat|Can. J. Plant Sci.58:395-399|1978|10.4141/cjps78-061
41557|T||Moyer,J.R., S. Smoliak, and A. Johnston|Tolerance of Seedling Cicer Milkvetch to Herbicides|Can. J. Plant Sci.59:1155-1157|1979|10.4141/cjps79-179
41558|T||Freyman,S., and W.M. Hamman|Effect of Phenoxy Herbicides on Cold Hardiness of Winter Wheat|Can. J. Plant Sci.59:237-240|1979|10.4141/cjps79-032
41559|T||Hoveland,C.S., R. Rodriquez-Kabana, and R.L. Haaland|Phototoxicity and Efficacy of Nematicide Seed Treatment on Wheat, Rye, Oats, and Ryegrass|Agron. J.69:837-839|1977|10.2134/agronj1977.00021962006900050027x
41560|T||Harvey,R.G., D.A. Rohweder, and R.S. Fawcett|Susceptibility of Alfalfa Cultivars to Triazine Herbicides|Agron. J.68:632-634|1976|10.2134/agronj1976.00021962006800040025x
41561|T||Sameni,A.M., M. Maftoun, S.M. Hojjati, and B. Sheibany|Effect of Fertilizer-N and Herbicides on the Growth and N Content of Sunflower|Agron. J.68:285-288|1976|10.2134/agronj1976.00021962006800020020x
41562|T||Thompson,A.R., J.L. Price, and H.A. Roberts|Growth and Yield of High-Density Cauliflower Crops Treated with Pesticides to Control Weeds and Cabbage Root Fly (Delia brassicae)|Ann. Appl. Biol.86:415-422|1977|10.1111/j.1744-7348.1977.tb01857.x
41563|T||Rasmussen,J.A., and F.A. Einhellig|Synergistic Inhibitory Effects of P-Coumaric and Ferulic Acids on Germination and Growth of Grain Sorghum|J. Chem. Ecol.3:197-205|1977|10.1007/BF00994146
41564|T||Roslansky,D.R., G.C. Marten, and R. Behrens|Control of Reed Canarygrass Seedlings in Culm Propagules of Reed Canarygrass|Crop Sci.15:26-29|1975|10.2135/cropsci1975.0011183X001500010008x
41565|T||Karazawa,M., and C.E. Caviness|Genetic Variability for Resistance to Propanil Injury in Soybeans|Crop Sci.19:739-740|1979|10.2135/cropsci1979.0011183X001900050049x
41566|T||Berry,C.D., and G.A. Buchanan|Tolerance of Phalaris tuberosa L. and Festuca arundinacea Schreb. to Preemergence Herbicide Treatment|Crop Sci.14:96-99|1974|10.2135/cropsci1974.0011183X001400010029x
41567|T||Eastin,E.F.|Soybean Response to Selected Rice Herbicides|Crop Sci.18:967-968|1978|10.2135/cropsci1978.0011183X001800060014x
41568|T||Upadhyaya,M.K., and L.D. Nooden|Mode of Dinitroanaline Herbicide Action. I. Analysis of the Colchicine-Like Effects of Dinitroaniline Herbicides|Plant Cell Physiol.18:1319-1330|1977|10.1093/oxfordjournals.pcp.a075554
41569|T||Wolf,D.D., G.R. Buss, and R.L. Pienkowski|Growth and Physiological Response of Alfalfa to Diazinon and Methoxychlor Insecticides|Crop Sci.16:190-192|1976|10.2135/cropsci1976.0011183X001600020006x
41570|T||Humaydan,H.S., and E.W. Scott|Methomyl Insecticide Selective Phytotoxicity on Sweet Corn Hybrids and Inbreds Having the Texas Male Sterile Cytoplasm|Hortscience12(4): 312-313|1977|10.21273/HORTSCI.12.4.312
41571|T||Tucker,D.P.H.|Glyphosate Injury Symptom Expression in Citrus|Hortscience12(5): 498-500|1977|10.21273/HORTSCI.12.5.498
41572|T||Sumida,S., and M. Ueda|Effect of O-Ethyl O-(3-Methyl-6-Nitrophenyl) N-Sec-Butylphosphorothioamidate (S-2846), an Experimental Herbicide, on Mitosis in Allium cepa|Plant Cell Physiol.17:1351-1354|1976|
41573|T||Schadler,D.L., J.A. Steele, and R.D. Durbin|Some Effects of Tentoxin on Mature and Developing Chloroplasts|Mycopathologia58:101-105|1976|10.1007/BF00707180
41574|T||Seiler,J.P.|The Genetic Toxicology of Phenoxy Acids Other Than 2,4,5-T|Mutat. Res.55:197-226|1978|10.1016/0165-1110(78)90004-0
41575|T||Duke,S.O., and R.E. Hoagland|Effects of Glyphosate on Metabolism of Phenolic Compounds. I. Induction of Phenylalanine Ammonia-lyase Activity in Dark-Grown Maize Roots|Plant Sci. Lett.11:185-190|1978|10.1016/0304-4211(78)90002-0
41576|T||Zilkah,S., and J. Gressel|The Estimation of Cell Death in Suspension Cultures Evoked by Phytotoxic Compounds:  Differences Among Techniques|Plant Sci. Lett.12:305-315|1978|10.1016/0304-4211(78)90083-4
41577|T||Gronewald,J.W., J.M. Cheeseman, and J.B. Hanson|Comparison of the Responses of Corn Root Tissue to Fusicoccin and Washing|Plant Physiol.63:255-259|1979|10.1104/pp.63.2.255
41578|T||Tottman,D.R., and E.L.P. Davies|The Effect of Herbicides on the Root System of Wheat Plants|Ann. Appl. Biol.90:93-99|1978|10.1111/j.1744-7348.1978.tb02614.x
41579|T||Williams,G.H., and A. Foley|Effect of Herbicides on Bracken Rhizome Survival|Ann. Appl. Biol.79:109-111|1975|10.1111/j.1744-7348.1975.tb01526.x
41580|T||Phatak,S.C., and D.J. Cantliffe|Effect of Herbicides on Weed Control and Nitrate Accumulation in Table Beets|Hortscience10(3): 271-273|1975|10.21273/HORTSCI.10.3.271
41581|T||Monaco,T.J.|Response of Container-Grown Azalea and Ivy to Four Preemergence Herbicides in Three Planting Media|Hortscience9(6): 550-551|1974|10.21273/HORTSCI.9.6.550
41582|T||Walker,A., and K.T. Schmidt|Effects of Concentration and Time of Exposure on the Phytotoxicity of Linuron|J. Exp. Bot.25(86): 514-520|1974|10.1093/jxb/25.3.514
41583|T||Pemadasa,M.A., and K. Jeyaseelan|Some Effects of Three Herbicidal Auxins on Stomatal Movements|New Phytol.77:569-573|1976|10.1111/j.1469-8137.1976.tb04648.x
41584|T||Kennedy,J.M., R.E. Frans, and R.E. Talbert|Factors Affecting the Selectivity of Dinitramine in Soybeans|Proc. South. Weed Sci. Soc.28:27-34|1975|
41585|T||Wills,G.D.|Evaluation of Glyphosate for Post Emergence Control of Purple Nutsedge in Cotton|Proc. South. Weed Sci. Soc.28:54-57|1975|
41586|T||Palmer,R.D., and F. Miears|Horsenettle Control in Pastures of Sabine County, Texas|Proc. South. Weed Sci. Soc.28:82-90|1975|
41587|T||Jordan,T.N., and R.S. Baker|Control of Spurred Anoda in Cotton|Proc. South. Weed Sci. Soc.28:116-121|1975|
41588|T||Baker,R.S.|Preemergence Control of Velvetleaf in Cotton|Proc. South. Weed Sci. Soc.28:129-131|1975|
41589|T||Burt,E.O., and A.E. Dudeck|Glyphosate - Four Years Results|Proc. South. Weed Sci. Soc.28:152-153|1975|
41590|T||Howell,S.L., R.E. Talbert, J.M. Kennedy, and J.N. Moore|An Evaluation of Herbicides in Blackberries|Proc. South. Weed Sci. Soc.28:154-160|1975|
41591|T||Aitken,J.B.|Herbicide Combinations for Effective Grass Control in Pecan Orchards|Proc. South. Weed Sci. Soc.28:167-172|1975|
41592|T||Peevy,F.A.|Soil-Applied Herbicides for Upland Hardwoods|Proc. South. Weed Sci. Soc.28:223-225|1975|
41593|T||Eplee,R.E.|Effectiveness of Ethylene in Control of Witchweed|Proc. South. Weed Sci. Soc.28:300-305|1975|
41594|A||Pillai,C.G.P., and D.E. Davis|Mode of Action of CGA-18762, CGA-17020, and CGA-24705|Proc. South. Weed Sci. Soc.28:308-314|1975|
41595|T||Basler,E., and P.W. Santelmann|Effects of Trifluralin on the Absorption and Translocation of Phosphate and Rubidium by Soybean Seedlings|Proc. South. Weed Sci. Soc.28:316-319|1975|
41596|T||Hogue,C.W., and M.G. Kirby|Oxidiazon for Preemergence Weed Control in Soybeans|Proc. South. Weed Sci. Soc.28:335-338|1975|
41597|T||Nelson,L.R., and L.L. Autry|Evaluation of 2,4,5-T Application Rates for Early Release of Loblolly Pine Plantations|Proc. South. Weed Sci. Soc.28:220-222|1975|
41598|T||Bobak,M.|Electronmicroscopic Study of the Influence of Trifluraline on the Submicroscopic Structure of Interkinetic Nuclei, on the Process of Karyokinese and Cytokinese of Meristematic Cells in the Horse Bean (Vicia faba L.)|Acta Fac. Rerum Nat. Univ. Comen. Physiol. Plant11:19-25|1976|
41599|T||Amer,S.M., and O.R. Farah|"Cytological Effects of Pesticides. VI. Effect of the Insecticide ""Rogor"" on the Mitosis of Vicia faba and Gossypium barbadense"|Cytologia39:507-514|1974|10.1508/cytologia.39.507
41601|T||McCool,M.M.|Use of Sodium Cyanide for the Eradication of Undesirable Plants|Contrib. Boyce Thompson Inst.13:473-477|1945|
41602|T||Moore,R.M.|Differential Effects of Certain Phenoxyacetic Acid Compounds and Phenylcarbamates on Plant Species. II. Effects of Foliage Applications with Special Reference to Yields of Wheat|Aust. J. Agric. Res.1:401-412|1950|10.1071/AR9500401
41603|T||Perry,S.F.|Inhibition of Respiration by Juglone in Phaseolus and Lycopersicon|Bull. Torrey Bot. Club94:26-30|1967|10.2307/2483598
41604|T||Sood,N.K., U.K. Kaushik, and V.S. Rathore|Phytotoxicity of Modern Insecticides to Cucurbits|Indian J. Hortic.29:111-113|1972|
41605|T||Zimmerman,P.W., and A. Hartzell|Hexaethyl Tetraphosphate and Tetraethyl Pyrophosphate:  I. Their Effects on Plants.  II. Their Toxicities to Insects and Mites|Contrib. Boyce Thompson Inst.15:11-19|1948|
41606|T||Nagaraja Rao,R., and A.T. Natarajan|Mutagenicity of Some Alkyl Alkanesulfonates in Barley|Mutat. Res.2:132-148|1964|
41607|T||Bingham,S.W.|Influence of Herbicides on Root Development of Bermudagrass|Weeds (Urbana)14:363-365|1966|
41608|T||Bingham,S.W.|Effect of DCPA on Anatomy and Cytology of Roots|Weed Sci.16:449-452|1968|10.1017/S0043174500047718
41609|T||Croker,B.H.|Effects of 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid on Mitosis in Allium cepa|Bot. Gaz.114:274-283|1953|10.1086/335769
41610|T||D'Amato,F.|The Effect of Colchicine and Ethylene Glycol on Sticky Chromosomes in Allium Cepa|Hereditas34(1/2): 83-103|1948|
41611|T||Dawson,J.H.|Development of Barnyardgrass Seedlings and Their Response to EPTC|Weeds (Urbana)11:60-67|1963|10.2307/4040688
41612|T||Kaufman,P.B.|Histological Responses of the Rice Plant (Oryza sativa) to 2,4-D|Am. J. Bot.42:649-659|1955|
41613|T||Lignowski,E.M., and E.G. Scott|Trifluralin and Root Growth|Plant Cell Physiol.12:701-708|1971|
41614|T||Nishimoto,R.K., and G.F. Warren|Stem Abnormality Induced by DCPA|Weed Sci.19:343-346|1971|10.1017/S0043174500049110
41615|T||Swann,C.W., and R. Behrens|Phytotoxicity of Trifluralin Vapors from Soil|Weed Sci.20:143-146|1972|10.1017/S0043174500035207
41616|T||Ravindran,C.S., K.P.M. Nair, and V.K. Sasidhar|A Note on the Effect of Various Herbicides on the Yield Attributing Characters of Two High Yielding Varieties of Rice|Agric. Res. J. Kerala16(1): 104-107|1978|
41617|T||Hardcastle,W.S.|Differences in Susceptibility of Soya Bean Cultivars to Metribuzin|Pestic. Sci.6(6): 589-594|1975|10.1002/ps.2780060606
41618|T||Carder,A.C.|Selective Control of Wild Oats in Grain Crops by Use of Maleic Hydrazide|Weeds (Urbana)7:141-152|1959|10.2307/4040213
41619|T||Burt,E.O., and C.J. Willard|Control of Johnson Grass (Sorghum Halepense L. Pers) in Ohio by Herbicides and Cultural Practices|Weeds (Urbana)7:162-166|1959|10.2307/4040216
41620|T||Bruns,V.F., and J.H. Dawson|Effects of DCB-Xylene Mixtures, Amitrol, and Sodium Salt of Dalapon in Irrigation Water on Corn and Rutabagas|Weeds (Urbana)7:333-340|1959|10.2307/4040342
41621|T||Dana,M.N.|Effect of Amitrol Sprays on the Growth and Development of the Cranberry|Weeds (Urbana)7:277-283|1959|10.2307/4040335
41622|T||Porter,W.K.,Jr., C.H. Thomas, and J.B. Baker|A Three-Year Study of the Effect of Some Phenoxy Herbicides on Cotton|Weeds (Urbana)7:341-348|1959|10.2307/4040343
41623|T||Ries,S.K., B.H. Grigsby, and H. Davidson|Evaluation of Herbicides for Several Species of Ornamentals|Weeds (Urbana)7:409-417|1959|10.2307/4040461
41624|T||Dawson,J.H.|Effects of EPTC on Barnyardgrass Seeds|Weeds (Urbana)11:184-186|1963|10.2307/4040577
41625|T||Hauser,E.W.|Effects of Amitrol on Purple Nutsedge at Different Growth Stages|Weeds (Urbana)11:181-183|1963|10.2307/4040576
41626|T||Hill,E.R., W.H. Lachman, and D.N. Maynard|Translocation of Amitrole in Yellow Nutsedge and Its Effect on Seed Germitation|Weeds (Urbana)11:165-166|1963|10.2307/4040571
41627|T||Kay,B.L.|Effects of Dalapon on a Medusahead Community|Weeds (Urbana)11:207-209|1963|10.2307/4040584
41628|T||Smith,R.J.,Jr.|Chemical Control of Barnyardgrass in Rice|Weeds (Urbana)8:256-267|1960|10.2307/4040490
41629|T||Cronin,E.H.|Effects of Monuron on Halogeton and Associated Salt-Desert Shrub Vegetation|Weeds (Urbana)8:168-172|1960|10.2307/4040481
41630|T||Hoffmann,O.L., J.W. Pullen, J.R. Epperly, and T.R. Hopkins|Factors Affecting the Activity of 4-Chloro-2-Butynyl N-(3-Chlorophenyl)Carbamate as a Selective Herbicide|Weeds (Urbana)8:198-203|1960|10.2307/4040485
41631|T||De Vries,M.L.|The Effect of Simazine on Monterey Pine and Corn as Influenced by Lime, Bases, and Aluminum Sulfate|Weeds (Urbana)11:220-222|1963|10.2307/4040588
41632|T||Wagle,R.F., and E.M. Schmutz|The Effect of Fenuron on Four Southwestern Shrubs|Weeds (Urbana)11:149-157|1963|10.2307/4040710
41633|T||Jordan,L.S., B.E. Day, and W.A. Clerx|Effect of Incorporation and Method of Irrigation on Preemergence Herbicides|Weeds (Urbana)11:157-160|1963|10.2307/4040711
41634|T||Carder,A.C.|Monuron for Eradication of Quackgrass|Weeds (Urbana)11:308-310|1963|10.2307/4040539
41635|T||McWhorter,C.G.|Effects of Surfactant Concentration on Johnsongrass Control with Dalapon|Weeds (Urbana)11:83-86|1963|10.2307/4040695
41636|T||Day,B.E., L.S. Jordan, and R.T. Hendrixson|Herbicidal Properties of Low-Volatile Esters of Dalapon|Weeds (Urbana)11:128-130|1963|10.2307/4040705
41637|T||Tweedy,J.A., A.D. Kern, G. Kapusta, and D.E. Millis|Yield and Nitrogen Content of Wheat and Sorghum Treated with Different Rates of Nitrogen Fertilizer and Herbicides|Agron. J.63:216-218|1971|10.2134/agronj1971.00021962006300020005x
41638|T||Burnside,O.C.|Effect of Herbicides on Seedling Emergence Force|Weed Sci.19(2): 182-184|1971|10.1017/S004317450004861X
41639|T||Deli,J., and G.F. Warren|Uptake, Translocation, and Herbicidal Effect of Diphenamid|Weed Sci.18(6): 692-696|1970|10.1017/S0043174500034561
41640|T||Gentner,W.A.|A Technique to Assay Herbicide Translocation and Effect on Root Growth|Weed Sci.18:715-716|1970|10.1017/S0043174500034615
41641|T||Santelmann,P.W., and L. Evetts|Germination and Herbicide Susceptibility of Six Pigweed Species|Weed Sci.19(1): 51-54|1971|10.1017/S0043174500048256
41642|T||Welker,W.V.,Jr., and J.L. Brogdon|Effects of Continued Use of Herbicides in Asparagus Plantings|Weed Sci.20(5): 428-432|1972|10.1017/S0043174500036067
41643|T||Welker,W.V., and C.R. Smith|Effect of Repeated Annual Applications of Herbicides in Red Raspberry Plantings|Weed Sci.20:432-433|1972|10.1017/S0043174500036079
41644|T||Anderson,J.L., and B. Shaybany|Effects of DCPA on Tomato Hypocotyl Tissue|Weed Sci.20(5): 434-439|1972|10.1017/S0043174500036080
41645|T||Johnson,B.J.|Effects of Herbicides Applied Preplant or Preemergence on Weeds and Sunflowers|Crop Sci.12:650-653|1972|10.2135/cropsci1972.0011183X001200050029x
41646|T||Weaver,R.J., and S.R. McCune|Effect of Gibberellin on Seedless Vitis Vinifera|Hilgardia29:247-275|1959|10.3733/hilg.v29n06p247
41648|T||Pybus,M.B., R.L. Wain, and F. Wightman|Studies on Plant Growth-Regulating Substances. Xiv. Chloro-Substituted Phenylacetic Acids|Ann. Appl. Biol.47:593-600|1959|10.1111/j.1744-7348.1959.tb07291.x
41650|T||Sexsmith,J.J.|Influence of the Ester of 2,4-D Applied at Various Growth Stages for the Control of Russian Thistle (Salsola Pestifer Nels.) in Flax|Can. J. Plant Sci.39:458-465|1959|10.4141/cjps59-062
41652|T||Brian,P.W., J.H.P. Petty, and P.T. Richmond|Extended Dormacy of Deciduous Woody Plants Treated in Autumn with Gibberellic Acid|Nature184:69-|1959|10.1038/184069a0
41653|T||Weaver,R.J., and S.B. McCune|Test for Activity of Plant Growth-Regulators on Grapes|Bot. Gaz.120:166-170|1959|10.1086/336020
41654|T||Stenlid,G.|Inhibitory Effects of 2-Desoxy-D-Galactose upon Plant Roots|Physiol. Plant. (Multiple Languages)12:310-313|1959|10.1111/j.1399-3054.1959.tb07934.x
41655|T||Brian,P.W., H.G. Hemming, and D. Lowe|Effect of Gibberellic Acid on Rate of Extension and Maturation of Pea Internodes|Ann. Bot.22:539-542|1958|10.1093/oxfordjournals.aob.a083631
41656|T||Gifford,J.R., C.C. Burkhardt, and H.W. Somsen|Effects of Thimet and Various Stickers on Germination and Seedling Growth of Wheat|J. Econ. Entomol.52(4): 650-654|1959|10.1093/jee/52.4.650
41657|T||Last,F.T.|Effect of Cultural Treatments on the Incidence of Striga hermonthica (Del.) Benth. and Yields of Sorghum in the Sudani Field Experiments 1957/8|Ann. Appl. Biol.48:207-229|1960|10.1111/j.1744-7348.1960.tb03518.x
41658|T||Bayley,S.T., and G. Setterfield|The Influence of Mannitol and Auxin on Growth of Cell Walls in Avena Coleoptiles|Ann. Bot.21(84): 633-641|1957|10.1093/oxfordjournals.aob.a083591
41659|T||Biswas,P.K., and M.N. Rogers|Effects of Gibberellic Acid on Size and Quality of Inflorescence in Geranium, Pelargonium hortorum|Proc. Am. Soc. Hortic. Sci.82:490-493|1963|
41660|T||Foster,R.E.|The Effect of Growth Regulators on Rooting Muskmelon Cuttings for Breeding|Proc. Am. Soc. Hortic. Sci.82:397-402|1963|
41661|T||Baldwin,B.C.|Translocation of Diquat in Plants|Nature198:872-873|1963|10.1038/198872a0
41662|T||Horsfall,F.,Jr., and R.C. Moore|Effect of 1-Naphthyl N-Methylcarbamate (Sevin) on Thinning Four Varieties of Apples|Proc. Am. Soc. Hortic. Sci.82:1-4|1963|
41663|T||Hield,H.Z., C.W. Coggins, and S.B. Boswell|Some Effects of Localized Maleic Hydrazide Sprays on Lemon Trees|Proc. Am. Soc. Hortic. Sci.82:158-164|1963|
41664|T||Brookes,R.F., and E.L. Leafe|Structure and Plant Growth-Regulating Activity of Some 2-Benzothiazolyloxyacetic Acids and 2-Oxobenzothiazolin-3-ylacetic Acids|Nature198(4880): 589-590|1963|10.1038/198589b0
41665|T||Johnson,S.P.|A Preliminary Study of the Effect of Low Concentrations of Phenoxy-Type Growth Regulators on Early Physiological Shedding in Deltapine, Tpsa, Cotton: Ii. Influ|Agron. J.52:294-295|1960|10.2134/agronj1960.00021962005200050018x
41666|T||Wittwer,S.H., and N.E. Tolbert|(2-Chloroethyl)Trimethylammonium Chloride and Related Compounds as Plant Growth Substances.  III.  Effect on Growth and Flowering of the Tomato|Am. J. Bot.47:560-565|1960|10.1002/j.1537-2197.1960.tb14906.x
41667|T||Soost,R.K.|Effects of Gibberellic Acid on Genetic Characters in Two Tomato Lines|Bot. Gaz.121:114-118|1959|10.1086/336053
41668|T||Neumann,J.|The Nature of the Growth-Promoting Action of Coumarin|Physiol. Plant. (Multiple Languages)13:328-341|1960|10.1111/j.1399-3054.1960.tb08035.x
41669|T||Alvim,P.T.|Net Assimilation Rate and Growth Behavior of Beans as Affected by Gibberellic Acid, Urea and Sugar Sprays|Plant Physiol.35(3): 285-288|1960|10.1104/pp.35.3.285
41670|T||Kahn,A.|Promotion of Lettuce Seed Germination by Gibberellin|Plant Physiol.35:333-339|1960|10.1104/pp.35.3.333
41671|T||Humphries,E.C., and S.A.W. French|The Effect of Gibberellic Acid on Leaf Area and dry-Matter Production in Majestic Potato|Ann. Appl. Biol.48:177-188|1960|10.1111/j.1744-7348.1960.tb03515.x
41672|T||Fang,S.L., F. Teeny, and J.S. Butts|Influence of 2,4-Dichlorophenoxyacetic Acid on Pathways of Glucose Utilization in Bean Stem Tissues|Plant Physiol.35:405-408|1960|10.1104/pp.35.3.405
41673|T||Humphries,E.C.|Effects of (2 Chloro-ethyl) Trimethylammonium Chloride on Plant Growth, Leaf Area, and Net Assimilation Rate|Ann. Bot.27(107): 517-532|1963|10.1093/oxfordjournals.aob.a083868
41674|T||Krishna Sastry,K.S., and R.M. Muir|Gibberellin: Effect on Diffusible Auxin in Fruit Development|Science140:494-495|1963|10.1126/science.140.3566.494
41675|T||Eliasson,L.|The Toxic Effects of Chlorinated Phenoxyacetic Acids on Aspen|Physiol. Plant. (Multiple Languages)16:255-268|1963|10.1111/j.1399-3054.1963.tb08306.x
41676|T||Humphries,E.C., and S.A.W. French|The Effects of Nitrogen, Phosphorus, Potassium and Gibberellic Acid on Leaf Area and Cell Division in Majestic Potato|Ann. Appl. Biol.52:149-162|1963|10.1111/j.1744-7348.1963.tb03737.x
41677|T||Palmer,J.H., and I.D.J. Phillips|The Effect of the Terminal Bud, Indoleacetic Acid and Nitrogen Supply on the Growth and Orientation of the Petiole of Helianthus Annuus|Physiol. Plant. (Multiple Languages)16:572-584|1963|10.1111/j.1399-3054.1963.tb08335.x
41678|T||Ikuma,H., and K.U. Thimann|Action of Kinetin on Photosensitive Germination of Lettuce Seeds As Compared with that of Gibberellic Acid|Plant Cell Physiol.4:113-128|1963|10.1093/oxfordjournals.pcp.a078980
41679|T||Trelawny,J.G.S., and D.J. Ballantyne|The Effect of Gibberellin and Temperature on the Germination of Seed of Bells of Ireland|Can. J. Plant Sci.43:522-527|1963|10.4141/cjps63-106
41680|T||Sivtsev,M.V.|Photochemical Activity of the Chloroplasts and Stability of the Chlorophyll Bond in Complexes in Cultivated Plants Under the Influence of Herbicides, Salinization, and Biologically Active Substances|Fiziol. Rast. (Mosc.) (Non-English)20(6): 1001-1005|1973|
41681|T||Stroev,V.S.|The Cytogenetic Activity of the Herbicides Atrazine, Chloro-IPC, and Paraquat|Sov. Genet. Cover-to-Cover Transl. Genetika6:293-297|1970|
41682|T||Patil,V.A., and V.R. Kale|Yield and Protein Content of Wheat Varieties (Kalyansona and NI-5642) as Influenced by Sublethal Doses of Herbicides|Qual. Plant. Plant Foods Hum. Nutr.25(2): 187-192|1975|10.1007/BF02591039
41683|T||Stoller,E.W., E.J. Weber, and L.M. Wax|The Effects of Herbicides on Soybean Seed Constituents|J. Environ. Qual.2(2): 241-244|1973|10.2134/jeq1973.00472425000200020015x
41684|T||Amer,S.M., and O.R. Farah|"Cytological Effects of Pesticides. VII. Mitotic Effects of Isopropyl-N-Phenyl Carbamate and ""Duphar"""|Cytologia40:21-29|1975|10.1508/cytologia.40.21
41685|T||Callahan,L.M.|Phytotoxicity of Herbicides to a Tifgreen Bermudagrass Green|Weed Sci.24:92-98|1976|10.1017/S0043174500065486
41686|T||Costa,J., and A.P. Appleby|Response of Two Yellow Nutsedge Varieties to Three Herbicides|Weed Sci.24(1): 54-58|1976|10.1017/S0043174500065413
41687|T||Hodges,L., and J.N. Moore|Effects of the Postemergence Systemic Herbicide Glyphosate on Highbush Blueberry (Vaccinium corymbosum L.). First-Year Injuries|Hortscience14:49-50|1979|10.21273/HORTSCI.14.1.49
41688|T||Walsh,G.E., R. Barrett, G.H. Cook, and T.A. Hollister|Effects of Herbicides on Seedlings of the Red Mangrove, Rhizophora mangle L.|Bioscience23:361-364|1973|10.2307/1296515
41689|T||Cantliffe,D.J., and S.C. Phatak|Effect of Herbicides on Weed Control and Nitrate Accumulation in Spinach|Hortscience9:470-472|1974|10.21273/HORTSCI.9.5.470
41690|T||Hamilton,K.C., and H.F. Arle|Preplanting Applications of Dinitroaniline Herbicides in Cotton|Weed Sci.24(1): 51-53|1976|10.1017/S0043174500065401
41691|T||Wax,L.M., E.W. Stoller, and R.L. Bernard|Differential Response of Soybean Cultivars to Metribuzin|Agron. J.68:484-486|1976|10.2134/agronj1976.00021962006800030011x
41692|T||Darwent,A.L., and P. Pankiw|Effects of Several Herbicides on Red Clover Seed Production|Can. J. Plant Sci.56:413-415|1976|10.4141/cjps76-068
41693|T||McKercher,R.B., R. Ashford, and R.E. Morgan|Effects of Triallate Herbicide on Wild Oat (Avena Fatua) Grown in A Growth Chamber|Weed Sci.23:283-285|1975|10.1017/S0043174500053030
41694|T||Kern,A.D., W.F. Meggitt, and D. Penner|Uptake, Movement and Metabolism of Cyanazine Herbicide in Fall Panicum, Green Foxtail, and Corn|Weed Sci.23:277-282|1975|10.1017/S0043174500053029
41695|T||Johnson,B.J.|Broadleaf Weed Control in Dormant Bermudagrass Turf|Agron. J.67:689-692|1975|10.2134/agronj1975.00021962006700050027x
41696|T||Srinivasan,P.S., and J. Sakharam Rao|Effect of Dowpon on the Content of Protein and Proteolytic Activity in Cynodon Dactylon Pers|Curr. Sci. (Bangalore)44:355-|1975|
41697|T||Hakeem,H., and A. Shehab|Cytological Effects of Eptam and Cotoran Herbicides on Vicia Faba Broadbeans|Egypt. J. Bot.16:303-311|1973|
41698|T||Rizk,T.Y.|Anatomical and Cytological Changes in Excised Cotton Roots in Response to Trifluralin or Nitralin Treatments|Egypt. J. Bot.16:281-289|1973|
41699|T||Hakeem,H., and A. Shehab|Cytological Effects of Some Herbicides (Amine Salt of Dichloro-Phenoxy Acetic Acid, Dalapon, Paraquat) on Broadbeans|Egypt. J. Bot.16:291-301|1973|
41700|T||Segura,J., S.W. Bingham, and C.L. Foy|Phytotoxicity of Glyphosate to Italian Ryegrass (Lolium multiflorum) and Red Clover (Trifolium pratense)|Weed Sci.26:32-36|1978|10.1017/S0043174500032641
41701|T||Keeley,P.E., C.H. Carter, and J.H. Miller|Yellow Nutsedge and Cotton Response to Several Herbicides|Weed Sci.21(4): 327-329|1973|10.1017/S0043174500027119
41702|T||Billett,D., and R. Ashford|Differences in the Phytotoxic Response of Wild Oats (Avena fatua) to Triallate and Trifluralin|Weed Sci.26:273-276|1978|10.1017/S0043174500049882
41703|T||Volynets,A.P., and L.A. Pal' Chenko|Enzymatic Oxidation of IAA in Lupine Plants Treated with Herbicides|Sov. Plant Physiol.24(3): 446-449|1977|
41705|T||Banks,P.A., and M.G. Merkle|Field Evaluations of the Herbicidal Effects of Fluridone on Two Soils|Agron. J.7:759-762|1979|10.2134/agronj1979.00021962007100050013x
41707|T||Dalessandro,G., and G. Borraccino|Inhibitory Effect of Fusioccine, A Fungal Phytotoxic Diterpene Glucoside on Cell Division in Jerusalem Artichoke, Braodbeans, Onions|Plant Cell Physiol.20:1135-1139|1979|
41708|T||Baur,J.R.|Effect of Glyphosate on Auxin Transport in Corn and Cotton Tissues|Plant Physiol.63:882-886|1979|10.1104/pp.63.5.882
41709|T||Yousif,O.A.F., N.A. Fielder, and N.J. Pinfield|Hypocotyl Swelling in Marrow Pumpkin Seedlings in Response to 2,4-D Treatment|New Phytol.82:37-40|1979|10.1111/j.1469-8137.1979.tb07557.x
41710|T||Zilkah,S., and J. Gressel|Cell Cultures vs. Whole Plants for Measuring Phytotoxicity. III. Correlations Between Phytotoxicities in Cell Suspension Cultures, Calli and Seedlings|Plant Cell Physiol.18:815-820|1977|
41711|T||Zsoldos,F., and E. Haunold|Effects of pH Changes on Ion and 2,4-D Uptake of Wheat Roots|Physiol. Plant. (Multiple Languages)47(2): 77-80|1979|10.1111/j.1399-3054.1979.tb03193.x
41712|T||Carlson,W.C., E.M. Lignowski, and H.J. Hopen|Uptake, Translocation, and Adsorption of Pronamide|Weed Sci.23(2): 148-154|1975|10.1017/S0043174500052693
41713|T||Fawcett,R.S., and F.W. Slife|Germination Stimulation Properties of Carbamate Herbicides|Weed Sci.23(5): 419-424|1975|10.1017/S0043174500062792
41714|T||Burnside,O.C., and R.S. Moomaw|Sorghum Growth as Affected by Annual Applications of Atrazine|Weed Sci.23(6): 494-498|1975|10.1017/S0043174500065085
41715|T||Bendixen,L.E.|Cytokinin Effects Induced in Purple Nutsedge (Cyperus rotundus) by Perfluidone|Weed Sci.23:445-447|1975|10.1017/S0043174500064985
41716|T||Butts,E.R., and C.L. Foy|Phytotoxicity of Methazole to Prickly Sida and Cotton Sida Spinosa|Weed Sci.2:409-414|1974|10.1017/S0043174500037905
41717|T||El-Labban,H.M., M.A. Ashry, and A.S. El-Nawawy|The Effect of Weed Control Treatments on Both Weeds and Cymbopogon citratus|Curr. Sci. (Bangalore)46:532-533|1977|
41718|T||Chow,P.N.P., and D.E. Laberge|Wild Oat Herbicide Studies II.  Physiological and Chemical Changes in Barley and Wild Oats Treated with Diclofop-Methyl Herbicide in Relation to Plant Tolerance|J. Agric. Food Chem.26:1134-1137|1978|10.1021/jf60219a017
41719|T||Marquis,L.Y., and R.G. Zaylskie|Metabolism and Selectivity of Fluchloralin in Soybean Roots|J. Agric. Food Chem.27:1148-1156|1979|10.1021/jf60226a008
41721|T||Iwasaki,T., N. Miyamoto, T. Takeno, M. Oiwa, and K. Tachibana|Herbicidal Activity of Novel Acrylamides|J. Agric. Food Chem.25:1413-1416|1977|10.1021/jf60214a017
41722|T||Maftoun,M., and B. Sheibany|Comparative Phytoxicity of Several Nitrification Inhibitors to Soybean Plants|J. Agric. Food Chem.27(6): 1365-1368|1979|10.1021/jf60226a013
41723|T||Lamoureux,G.L., and L.E. Stafford|Translocation and Metabolism of Perfluidone (1,1,1-Trifluoro-n-2-Methyl-4-(Phenylsulfonyl) Phenyl Methane Sulfonamide) in Peanuts|J. Agric. Food Chem.25:512-517|1977|10.1021/jf60211a011
41724|T||Mercado,B.L., R.L. Talatala, and R.A. Perez|Morphological Response of Rice Seedlings to Dinitroxylidine Herbicides|Philipp. J. Sci.103(3): 165-169|1974|
41725|T||Bottalico,A., A. Graniti, and P. Lerario|Further Investigation on the Biological Activity of Some Fusicoccins and Cotylenins|Phytopathol. Mediterr.17:127-134|1978|
41726|T||Kobayashi,K., and T. Ui|Phytotoxicity and Antimicrobial Activity of Graminin A, Produced by Cephalosporium Gramineum, the Causal Agent of Cephalosporium Stripe Disease of Wheat|Physiol. Plant Pathol.14:129-133|1979|10.1016/0048-4059(79)90032-8
41727|T||Jones,A.L.|Phytotoxicity of Dodine and Azinphosmethyl to Cherry Fruit|Plant Dis. Rep.57(5): 428-431|1973|
41728|T||Reinert,J.A., and P.L. Neel|Evaluation of Phytotoxicity of Malathion, Ethion, and Combinations of FC-435 Spray Oil with each on Twenty-Eight Species of Environmental Plants Under Slat Shade|Annu. Meet. Fla. State Hortic. Soc.89:368-370|1976|
41729|T||Unnikrishnan,K., and M. Hariharan|Leaf Variation Due to 2,4-D Influence in Trigonella foenum-graecum L.|Proc. Indian Acad. Sci. Sect. B82(5): 167-174|1975|10.1007/BF03050530
41730|T||Ilnicki,R.D., D.J. Herman, and J. Somody|The Response of Soybeans to Some Dinitroaniline Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:17-18|1975|
41731|T||Henne,R.C.|Tomato Variety Response to Metribuzin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:225-229|1975|
41732|T||Sieczka,J.B.|The Effect of Postemergence Applications of Metribuzin on Six Potato Cultivars|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:308-315|1975|
41733|T||Henne,R.C.|Potato Variety Response to Metribuzin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:300-303|1975|
41734|T||Anderson,E.R.|Effect of the Amine Salt of Picloram and 2,4-D and of the Butyl Ester of 2,4,5-T on Coolibah (Eucalyptus microtheca) Saplings|Qld. J. Agric. Anim. Sci.31(2): 165-170|1974|
41735|T||Mikityuk,O.D., G.G. Petelina, and D.I. Chkanikov|Inhibition of Apices During the Herbicide Action of 2,4-D|Sov. Plant Physiol.24(6): 1000-1003|1977|
41736|T||Davis,E.A.|Transpiration Reduction of Shrub Live Oak by Picloram|For. Sci.24:217-221|1978|
41737|T||Hagimoto,H., H. Yoshikawa, and Y. Okada|Herbicidal Activity of 2-(2-Chlorobenzylthio)-5-Methyl-1,3,4-Oxadiazole and Related Compounds|J. Takeda Res. Lab.33:38-42|1974|
41738|T||Cole,A.W., and V.L. Etheridge|Redroot Pigweed (Amaranthus retroflexus) and Cucumber Response to Application Time of Herbicides|Adv. Front. Plant Sci.30:17-24|1975|
41739|T||Winston,D.A., and V.F. Haavisto|Greenhouse and Field Trials of Gramoxone and Pp493 Herbicides on Boreal Forest Vegetation of Northeastern Ontario|Bi-Mon. Res. Notes Environ. Can. For. Serv.30:37-38|1974|
41740|T||Weinberger,P., L. Pomber, and R. Prasad|Phytotoxicity of Fenitrothion to White Pine Pinus strobus Seeds and Seedlings|Can. J. For. Res.8:155-161|1978|10.1139/x78-025
41741|T||Karanov,E.N., G.N. Vassilev, and L.N. Hristova|Growth-Retarding Activity and Chemical Structure of Certain Derivatives of Itaconic Acid|C. R. Acad. Bulg. Sci.28(8): 1085-1088|1975|
41742|T||Holliday,R.J., and P.D. Putwain|Variation in the Susceptibility to Simazine in Three Species of Annual Weeds|Proc. Br. Weed Control Conf.12:649-654|1974|
41743|T||Lawson,H.M., and J.S. Wiseman|Experiments on the Tolerance of Newly-Planted Raspberries and Strawberries to Trifluralin|Proc. Br. Weed Control Conf.12:669-674|1974|
41744|T||Davison,J.G., and J.A. Bailey|The Response of Convolvulus arvensis (Bindweed) to 2,4-D, MCPA, MCPB, Dichlorprop, Mecoprop, 2,4,5-T, Dicamba and Glyphosate at Various Doses and Application Dates|Proc. Br. Weed Control Conf.12:641-648|1974|
41745|T||Misra,L.P., L.D. Kapoor, and R.S. Choudhri|Effect of Herbicides on the Carbohydrate and Nitrogen Contents of Nutgrass (Cyperus Rotundus L.)|Proc. Indian Acad. Sci. Sect. B82:57-62|1975|10.1007/BF03050518
41746|T||Elek,E., I. Borbely, F. Borbely, and M. Kecskes|Herbicides Increasing the Protein Content of Lupin|Acta Agron. Hung.23:456-459|1974|
41747|T||Balasimha,D., M.N. Tewari, and C. Ram|Growth and Certain Metabolic Aspects in Relation to Sodium Diethyl Dithiocarbamate Herbicide Effects in Phaseolus Radiatus Seedlings|Biochem. Physiol. Pflanzen (Multiple Languages)171:43-47|1977|10.1016/S0015-3796(17)30266-4
41748|T||Fedtke,C., G. Deichgraber, and E. Schnepf|Herbicide Induced Changes in Wheat Chloroplast Ultrastructure and Chlorophyll A/B Ratio|Biochem. Physiol. Pflanzen (Multiple Languages)171:307-312|1977|10.1016/S0015-3796(17)30314-1
41749|T||Hoagland,R.E., G. Graf, and E.D. Handel|Hydrolysis of 3',4'-Dichloropropionanilide by Plant Aryl Acylamidases|Weed Res. (Multiple Languages)14:371-374|1974|10.1111/j.1365-3180.1974.tb01077.x
41750|T||Faulkner,J.S.|The Effect of Dalapon on Thirty-Five Cultivars of Lolium Perenne|Weed Res. (Multiple Languages)14:405-413|1974|10.1111/j.1365-3180.1974.tb01083.x
41751|T||Retzlaff,G., and R. Hamm|The Relationship Between CO2 Assimilation and the Metabolism of Bentazone in Wheat Plants|Weed Res. (Multiple Languages)16:263-266|1976|10.1111/j.1365-3180.1976.tb00411.x
41752|T||Eshel,Y., E.E. Schweitzer, and R.L. Zimdahl|Sugarbeet Tolerance of Post-Emergence Applications of Desmedipham and Ethofumesate Herbicides|Weed Res. (Multiple Languages)16:249-254|1976|10.1111/j.1365-3180.1976.tb00409.x
41753|T||Rolston,M.P., and A.G. Robertson|Some Aspects of the Absorption of Picloram Herbicide by Gorse (Ulex europaeus L.) |Weed Res. (Multiple Languages)16:81-86|1976|10.1111/j.1365-3180.1976.tb00384.x
41754|T||Devlin,R.M., M.J. Kisiel, and S.J. Karczmarczyk|Chlorophyll Production and Chloroplast Development in Norflurazon Pre-Emergence Herbicide-Treated Plants|Weed Res. (Multiple Languages)16:125-129|1976|10.1111/j.1365-3180.1976.tb00390.x
41755|T||Swain,D.J.|Timing of Molinate Applications for the Control of Echinochloa crus-galli (L.) Beauv. in Rice|Weed Res. (Multiple Languages)18:71-76|1978|10.1111/j.1365-3180.1978.tb01138.x
41756|T||O'Sullivan,P.A., and W.H. Vandenborn|Interaction Between Difenzoquat and Other Herbicides for Wild Oat and Broadleaf Control in Barley|Weed Res. (Multiple Languages)18:257-263|1978|10.1111/j.1365-3180.1978.tb01157.x
41757|T||Gur,A., Y. Gil, and B. Bravdo|The Efficacy of Several Herbicides in the Vineyard and Their Toxicity to Grapevines|Weed Res. (Multiple Languages)19:109-116|1979|10.1111/j.1365-3180.1979.tb01583.x
41758|T||Muschinek,G., G.I. Garab, L.A. Mustardy, and A. Faludi-Daniel|The Mechanism of Linuron Phytotoxicity in Maize|Weed Res. (Multiple Languages)19:101-107|1979|10.1111/j.1365-3180.1979.tb01582.x
41759|T||Devlin,R.M., and A.S. Kostusiak|Influence of R-40244 Experimental Herbicide on Pigment Content of Wheat and Corn|Weed Res. (Multiple Languages)19:59-61|1979|10.1111/j.1365-3180.1979.tb01518.x
41760|T||Watts,M.J., and H.A. Collin|The Effect of Asulam Herbicide on the Growth of Tissue Cultures of Celery|Weed Res. (Multiple Languages)19:33-37|1979|10.1111/j.1365-3180.1979.tb01514.x
41761|T||Ekanayake,A., R.L. Wickremasinghe, and H.D.S. Liyanage|Studies on the Mechanism of Herbicidal Action of N-(Phosphonomethyl) Glycine|Weed Res. (Multiple Languages)19:39-43|1979|10.1111/j.1365-3180.1979.tb01515.x
41762|T||Blair,A.M.|Some Studies on the Sites of Uptake of Chlortoluron, Isoproturon and Metoxuron by Wheat, Avena Fatua and Alopecurus Myosuroides|Weed Res. (Multiple Languages)18:381-387|1978|10.1111/j.1365-3180.1978.tb01178.x
41763|T||Brathwaite,R.A.I.|Effect of Herbicides on Weed Control, Yield and Quality of Eggplant (Solanum melongena L.) in Trinidad|Weed Res. (Multiple Languages)18:243-246|1978|10.1111/j.1365-3180.1978.tb01614.x
41764|T||Harvey,R.G.|Susceptibility of Seven Annual Grasses to Herbicides|Weed Res. (Multiple Languages)14:51-55|1974|10.1111/j.1365-3180.1974.tb01026.x
41766|T||Fedtke,C., and R.R. Schmidt|Chlorfenprop-Methyl: Its Hydrolysis in Vivo and in Vitro and A New Principle for Selective Herbicidal Action on Wild Oats|Weed Res. (Multiple Languages)17(4): 233-240|1977|10.1111/j.1365-3180.1977.tb00473.x
41767|T||Prendeville,G.N., and G.F. Warrens|Effect of Four Herbicides and Two Oils on Leaf-Cell Membrane Permeability|Weed Res. (Multiple Languages)17:251-258|1977|10.1111/j.1365-3180.1977.tb00476.x
41768|T||Hagon,M.W.|Effects of Competition, Herbicides and Activated Carbon on Establishment of Australian Grasses|Weed Res. (Multiple Languages)17(5): 297-301|1977|10.1111/j.1365-3180.1977.tb00482.x
41769|T||Lutman,P.J.W., and W.G. Richardson|The Activity of Glyphosate and Aminotriazole Herbicides Against Volunteer Potato Plants and Their Daughter Tubers|Weed Res. (Multiple Languages)18:65-70|1978|10.1111/j.1365-3180.1978.tb01137.x
41770|T||Amor,R.L., and R.V. Harris|Control of Cirsium arvense (L) Scop. by Herbicides and Mowing|Weed Res. (Multiple Languages)17:303-309|1977|10.1111/j.1365-3180.1977.tb00483.x
41771|T||Kossuth,S.V., J. Young, J. Voeller, and H.A. Holt|Four Season Herbicide Injection of Hardwoods|Weed Res. (Multiple Languages)18:161-167|1978|10.1111/j.1365-3180.1978.tb01153.x
41772|T||Schweizer,E.E.|Weed Control in Sugarbeets with Cycloate, Phenmedipham and EP 475|Weed Res. (Multiple Languages)14:39-43|1974|10.1111/j.1365-3180.1974.tb01024.x
41773|T||Steen,R.C., I.R. Schultz, D.C. Zimmerman, and J.R. Fleeker|Absence of 3-(2,4-Dichlorophenoxy)Propionic Acid in Plants Treated with 2,4-Dichlorophenoxyacetic Acid|Weed Res. (Multiple Languages)14:23-28|1974|10.1111/j.1365-3180.1974.tb01022.x
41774|T||Ashford,R., and J. Holroyd|Postemergence Phytotoxic Effects of Different Distribution Patterns of Tri-Allate Granules on Avena Fatua L. and Wheat Plants|Weed Res. (Multiple Languages)17:415-422|1977|10.1111/j.1365-3180.1977.tb00502.x
41776|T||Tonecki,J.|Investigations on Changes in Soluble Protein Content and Activity of Proteases and Acid Phosphatases in Needles of Norway Spruce (Picea abies L. Karst) Seedlings Treated with Dalapon|Biochem. Physiol. Pflanzen (Multiple Languages)167:141-149|1975|10.1016/S0015-3796(17)30770-9
41777|T||Harris,G.R., and K. Hurle|The Effect of Plant-Induced Changes of pH Upon the Adsorption and Phytotoxicity of S-Triazine Herbicides|Weed Res. (Multiple Languages)19:343-349|1979|10.1111/j.1365-3180.1979.tb01549.x
41778|T||Ludwig,J.W.|Effects of Herbicides on the Productivity of Fodder Maize with Especial Reference to Pre-Emergence Applications of 2,4-D-Amine|Weed Res. (Multiple Languages)13:1-11|1973|10.1111/j.1365-3180.1973.tb01240.x
41779|T||Grover,R., J.R. Gear, and R. Zerr|Relative Phytotoxicity of Some Picloram Herbicide Derivatives to Sunflowers|Bull. Environ. Contam. Toxicol.14:721-725|1975|10.1007/BF01685248
41780|T||Glaze,N.C., and T.P. Gaines|Effect of Herbicides on Direct-Seeded Tomatoes. I. Nitrogen and Carbohydrate Determinations|Weed Res. (Multiple Languages)12:395-399|1972|10.1111/j.1365-3180.1972.tb01235.x
41781|T||Singh,C., and G.V. Katti|Evaluation of Some Herbicides in Rain-Fed Cotton (Gossypium hirsutum L.) in the Black Cotton Soils of Madhya Pradesh|Indian J. Agric. Sci.42(9): 840-844|1972|
41782|T||Fedtke,C.|Influence of Photosynthesis-Inhibiting Herbicides on the Regulation of Crop Plant Metabolism|Pestic. Biochem. Physiol.2:312-323|1972|10.1016/0048-3575(72)90035-1
41783|T||Long,C., and W. Rieck|Effects of Glyphosate Used as a Postemergent Application in Selected Pine Species|Proc. Northeast. Weed Control Conf.32:122-123|1977|
41784|T||Misra,L.P., L.D. Kapoor, and R.S. Choudhri|Studies on the Efficacy of Some Herbicides on the Control of Weeds in Japanese Mint|Proc. Indian Acad. Sci. Sect. B79:110-119|1974|10.1007/BF03045437
41786|T||Edwards,I.B., and S.D. Miller|Spring Wheat Varietal Tolerance to Application of Difenzoquat or MCPA-Dicamba|Proc. Northeast. Weed Control Conf.33:57-60|1978|
41787|T||Pemadasa,M.A.|Stomal Responses to Two Herbicidal Auxins 1-Naphthylacetic Acid and 2-Naphthoxyacetic Acid, on Illumination of Excised, Turgid Leaves of Stachytarpheta Indica|J. Exp. Bot.30:267-274|1979|10.1093/jxb/30.2.267
41788|T||Geyer,W.A.|Tree Control with Injection of Garlon and Tordon Brand Herbicides|Down Earth35:9-13|1979|
41789|T||Whitesides,R.E., and A.P. Appleby|Dowco 290 Herbicide for Selective Control of Canada Thistle in Peppermint|Down Earth35:14-18|1979|
41790|T||Bartel,L.E., and L.R. Rittenhouse|Herbicidal Control of Gambel Oak (Quercus gambelli) Root Sprouts in Southwestern Colorado|Down Earth36:6-9|1979|
41791|T||Eshel,Y., and E. Shlevin|Toxicity of Dinitroaniline Herbicides to Watermelons|J. Am. Soc. Hortic. Sci.98:483-485|1973|10.21273/JASHS.98.5.483
41792|T||Wade,N.L., and C.J. Rigney|Phytotoxicity of the Insecticidal Fumigant Ethylene Dibromide to Cherry and Banana Fruit|J. Am. Soc. Hortic. Sci.104:900-903|1979|10.21273/JASHS.104.6.900
41793|T||Tewari,M.N., and D. Balasimha|The Influence of Substituted Ureas and Uracil on Growth, Sugar Content and Peroxidase Activity in Fenugreek (Trigonella foenum graecum L.) Seedlings|Indian J. Plant Physiol.19:127-219|1976|
41794|T||Tewari,M.N., D. Balasimha, and C. Ram|Biochemical Changes in the Germinating Seeds of Trigonella foenum graecum L. in Relation to s-Triazine Herbicides|Biol. Plant. (Praha)18(4): 268-272|1976|10.1007/BF02922371
41795|T||Santakumari,M., and V.S.R. Das|Herbicidal Interference with the Photochemical Activities of Chloroplasts (In Vivo and In Vitro) of Certain Crop and Weed Species|Pestic. Biochem. Physiol.9:119-129|1978|10.1016/0048-3575(78)90072-X
41796|T||Moreland,D.E., and S.C. Huber|Inhibition of Photosynthesis and Respiration by Substituted 2,6-Dinitroaniline Herbicides. III. Effects on Electron Transport and Membrane Properties of Isolated Mung Bean Mitochrondria|Pestic. Biochem. Physiol.11(1-3): 247-257|1979|10.1016/0048-3575(79)90064-6
41797|T||Renosto,F., S. Nardi, and G. Ferrari|Atrazine Inhibition of Ion Uptake by Plant Roots|Pestic. Biochem. Physiol.11(1-3): 243-246|1979|10.1016/0048-3575(79)90063-4
41798|T||Mangat,B.S.|The Effect of Diuron on the Soluble Nucleotide Pool and Growth of Bean and Corn Seedlings|Pestic. Biochem. Physiol.10(3): 251-258|1979|10.1016/0048-3575(79)90030-0
41800|T||Ellis,M., and Q.O.N. Kay|Genetic Variation in Herbicide Resistance in Scentless Mayweed (Tripleurospermum inodorum (L.) Schultz Bip.)  III.  Selection for Increased Resistance to Ioxynil, MCPA and Simazine|Weed Res. (Multiple Languages)15:327-333|1975|10.1111/j.1365-3180.1975.tb01325.x
41801|T||Van Leeuwen,P.H., and J.L.P. Van Oorschot|Effects of Some Phenylurea Herbicides on Photosynthesis of Two Wheat Varieties|Weed Res. (Multiple Languages)16:11-14|1976|10.1111/j.1365-3180.1976.tb00370.x
41802|T||Kadyrov,C.S., A.T. Aiupova, A.A. Umarov, N.P. Loi, and G.A. Nezhinskaia|Search for Correlation Between Herbicide Activity and Chemical Structure of Certain Benzimidazole Derivatives|Fiziol. Rast. (Mosc.) (Non-English)21:1276-1281|1974|
41803|T||Sieczka,J.B.|The Effect of Alachlor and Linuron on Six Potato Varieties|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:189-193|1977|
41805|T||Yip,C.P., D.T. Warholic, G.W. Selleck, and R.D. Sweet|Response of Potatoes to Alachlor and Metribuzin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:184-188|1977|
41806|T||Murphy,H.J., and T. Gajewski|Effect of Several Herbicides Applied Preemergence, at Drag-Off and Layby on Weed Control in White Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:176-179|1977|
41807|T||Ilnicki,R.D., J.R. Justin, and R.W. Michieka|The Effects of Some Dinitroaniline Herbicide on Kenaf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:93-97|1977|
41808|T||Michieka,R.W., R.D. Ilnicki, J.R. Justin, and J. Zublena|Response of Kenaf to Some Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:86-90|1977|
41809|T||Van Oorschot,J.L.P.|Different Sensitivity of Photosynthesis and Transpiration to Some Herbicides and Transpiration Inhibitors|Acta Bot. Neerl.23:36-41|1974|10.1111/j.1438-8677.1974.tb00914.x
41810|T||Tosh,G.C., and A. Misra|Effect of Some Pre-Sowing Herbicides on Weed Control and Yield of Groundnut|Pesticides 11:51-52|1977|
41811|T||Nel,P.C., M.R. Court de Billot, and J.H. Voges|Effect of Benfluralin on Tobacco Roots|Agroplantae9:111-118|1977|
41812|T||Weidner,M., and N. Burchartz|Inhibition of Phosphoenolpyruvate Carboxylase by Formulated Herbicides and Anionic Detergents|Biochem. Physiol. Pflanzen (Multiple Languages)173:381-389|1978|10.1016/S0015-3796(17)30510-3
41813|T||Boldt,P.F., and R.D. Sweet|Evaluation of Herbicides on Dry and Snap Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:155-160|1974|
41814|T||Beste,C.E.|An Evaluation of Sweetcorn Varieties with Cyanazine|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:189-196|1974|
41815|T||Ashley,R.A.|Two-Year Study of Weed Control in Snap Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:178-183|1973|
41816|T||Hawkins,A.|Late Application of Metribuzin on Control of Large Established Broadleafed Weeds, Crabgrass, and Nutsedge in Katahdin Potatoes in Connecticut in 1972|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:274-275|1973|
41817|T||Henne,R.C., and R.T. Guest|Evaluation of Six Herbicides on Carrots|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:218-220|1973|
41820|T||Sivtsev,M.V., S.A. Ponomareva, and E.A. Kuznetsova|Chlorophyllase Activity in Tomato Leaves Under the Influence of Salinization and An Herbicide|Fiziol. Rast. (Mosc.) (Non-English)20:62-65|1973|
41821|T||Reeves,T.G., and J.M. Lumb|Selective Chemical Control of Annual Ryegrass (Lolium rigidum) in Oilseed Rape, Field Peas and Lupins|Aust. J. Exp. Agric. Anim. Husb.14:771-776|1974|10.1071/EA9740771
41822|T||Talbert,R.E.|Herbicide Evaluation on Overwintered Spinach|Ark. Farm Res.15:14 p.|1976|
41823|T||Lee,W.O.|Control of Winter Annual Weeds in White Clover Raised for Seed|Weed Sci.23(6): 441-444|1975|10.1017/S0043174500064973
41824|T||Takyi,S.K.|Weed Control with Amiben and 2,4-D in Groundnuts|Ghana J. Agric. Sci.4:197-199|1971|
41825|T||McCarty,M.K., and C.J. Scifres|Herbicidal Control of Western Ragweed in Nebraska Pastures|J. Range Manag.25:290-292|1972|10.2307/3896915
41826|T||Brock,J.L.|Effects of the Herbicides Trifluralin and Carbetamide on Nodulation and Growth of Legume Seedlings|Weed Res. (Multiple Languages)12:150-154|1972|10.1111/j.1365-3180.1972.tb01199.x
41827|T||Roberts,H.A.|Weed Control in Mini-Cauliflowers|Engeigaku Kenkyuu12:65-71|1972|
41828|T||Hamill,A.S., L.W. Smith, and C.M. Switzer|Influence of Phenoxy Herbicides on Picloram Uptake and Phytotoxicity|Weed Sci.20(3): 226-229|1972|10.1017/S0043174500035463
41829|T||Holm,R.E., and M.R. Miller|Hormonal Control of Weed Seed Germination|Weed Sci.10:209-212|1972|10.1017/S0043174500035426
41830|T||Devlin,R.M., and R.P. Cunningham|The Inhibition of Gibberellic Acid Induction of Alpha-Amylase Activity in Barley Endosperm by Certain Herbicides|Weed Res. (Multiple Languages)10:316-320|1970|10.1111/j.1365-3180.1970.tb00959.x
41831|T||Krishnamurthy,K.|Effect of Herbicides on Weeds and Yield of Sorghum|Indian J. Agric. Sci.40:474-480|1970|
41832|T||Patro,G.K., A. Mishra, and G.C. Tosh|Chemical Weed Control with Afalon and 2,4-D in Groundnut (Arachis hypogaea L.)|Indian J. Agric. Sci.40(7): 626-629|1970|
41834|T||Horowitz,M.|Herbicidal Effect of Diuron and Simazine on Annual and Perennial Grasses|Isr. J. Agric. Res.20:163-168|1970|
41835|T||Abernethy,W., and S. Ward|The Tolerance of Newly Planted Ornamentals to a Range of Contact Herbicides|Proc. Br. Weed Control Conf.13:329-331|1976|
41837|T||Noste,N.V., and H.M. Phipps|Herbicide and Container System Effects on Survival and Early Growth of Conifers in Northern Wisconsin|For. Chron.54:209-212|1978|10.5558/tfc54209-4
41838|T||Fretz,T.A., and W.J. Sheppard|Evaluation of Oxadiazon for Weed Control in Container-Grown Ornamental Nursery Stock|Ohio Agric. Res. Dev. Cent.246:33-35|1979|
41839|T||Williams,C.N., and R.B. Woodroofe|Rice Herbicide Trials in Brunei|PANS (Pest Artic. News Summ.)25(2): 168-170|1979|
41840|T||Shahi,H.N., P.S. Gill, and C.S. Khind|Comparative Effect of Different Herbicides on Weed Control and Nutrient Removal in Transplated Rice (Oryza sativa L.)|Int. Pest Control21:55 - 56,58,73|1979|
41841|T||Ueckert,D.N., S.G. Whisenant, and R.C. Papasan|Bitterweed Herbicides: Effect on Cool-Season Forbs|Tex. Agric. Exp. Stn. Prog. Rep.3456:49-52|1977|
41842|T||Raker,R.J.|Evaluation of Herbicides for Control of Yellow Nutsedge on Nursery Fields|Ohio Agric. Res. Dev. Cent.236:51-52|1978|
41843|T||Lichtenthaler,H.K., and H.K. Kleudgen|Effect of the Herbicide San 6706 on Biosynthesis of Photosynthetic Pigments and Prenylquinones in Raphanus and in Hordeum Seedlings|Z. Naturforsch. Sect. C J. Biosci.32:236-240|1977|10.1515/znc-1977-3-414
41844|T||Luzny,J., and J. Psurna|Use of Some Biologically Active Substances in Direct Sowings of Onions|Zahradnictvo (Bratisl.) (Non-English)2:458-459|1977|
41846|T||Sandhu,K.S., and K.S. Randhawa|Herbicide Efficacy in a Seed Crop of Okra|PANS (Pest Artic. News Summ.)25(1): 56-59|1979|
41847|T||Brathwaite,R.A.I.|Herbicide Performance in Rainfed Cabbage|PANS (Pest Artic. News Summ.)25(1): 50-55|1979|
41848|T||Palaniswamy,P., T.R. Subramaniam, and S. Thirumurthi|Influence of Some Systemic Insecticides over the Germination, Growth and Yield of Okra (Abelmoschus esculentus (L.) Moench)|Meded. Fac. Landbouwwet. Univ. Gent39(2, Pt. 1): 885-892|1974|
41849|T||Anonymous|Complementary Preplant-Postemergence Demonstration Trials|Wyo. Agric. Exp. Stn. Res. J.120:63-75|1978|
41850|T||Anonymous|Postemergence Screening Trials|Wyo. Agric. Exp. Stn. Res. J.120:83-87|1978|
41851|T||Blackman,G.E., and R.C. Robertson-Cuninghame|Interrelationships Between Light Intensity and the Physiological Effects of 2,4 Dichlorophenoxyacetic Acid on the Growth of Helianthus annuus|J. Exp. Bot.6(17): 177-211|1955|10.1093/jxb/6.2.177
41852|T||Kolbe,W.|On the Question of Chemical Weed Control in Cereals with Special Consideration to Species and Varietal Tolerance|Pflanzenschutz-Nachr.23:1-22|1970|
41853|T||Pourcharesse,P., and P. Lours|Results of Two-Year Experiments with Tribunil in French Wheat Fields|Pflanzenschutz-Nachr.23:39-57|1970|
41854|T||Devlin,R.M., and I.E. Demoranville|Tolerance of Cranberry (Vaccinium macrocarpon Ait.) to Alachlor and Two Fluorinated Pyridazinone Herbicides|Hortscience6(3): 245|1971|10.21273/HORTSCI.6.3.245
41855|T||Matthiesen,R., and P.W. Santelmann|Influence of Post-Emergence Herbicides on Peanut Development|Proc. South. Weed Sci. Soc.24:131-136|1971|
41856|T||Derting,C.W., D.F. Jones, and G.W. Selleck|Herbicide Field Studies with CP 53619 in Rice|Proc. South. Weed Sci. Soc.24:158-162|1971|
41857|T||Glaze,N.C.|Herbicide Evaluation on Lima Beans|Proc. South. Weed Sci. Soc.24:206-211|1971|
41858|T||Burgis,D.S.|Herbicide Tests on Tomato Transplants and Seeded Tomatoes|Proc. South. Weed Sci. Soc.24:198-205|1971|
41859|T||De Datta,S.K., R.Q. Lacsina, and D.E. Seaman|Phenoxy Acid Herbicides for Barnyardgrass Control in Transplanted Rice|Weed Sci.19:203-206|1971|10.1017/S0043174500048712
41860|T||Buchanan,G.A., and L.S. Howeland|Tolerance of Yuchi Arrowleaf Clover to Herbicides|Weed Sci.19:254-256|1971|10.1017/S0043174500048827
41861|T||Lontai,I., M. Horvath, and I. Rojik|Quantitative Changes in the Enzymic Ribonucleic Acid Breakdown Due to Herbicide Treatment of Barley|Bot. Acta16(3/4): 321-327|1970|
41863|T||Johnson,B.J.|Response of Weeds and Soybeans to Vernolate and Other Herbicides|Weed Sci.19(4): 372-377|1971|10.1017/S0043174500049171
41864|T||Hunter,J.H., and L.W. Smith|Environment and Herbicide Effects on Canada Thistle Ecotypes|Weed Sci.20:163-167|1972|10.1017/S0043174500035268
41865|T||Davis,F.S., A. Villarreal, J.R. Baur, and I.S. Goldstein|Herbicidal Concentrations of Picloram in Cell Culture and Leaf Buds|Weed Sci.20:185-188|1972|10.1017/S0043174500035335
41866|T||Singh,P., S.D. Choubey, and H.S. Kushwana|Effect of Some Herbicides and Their Doses on Weed Population and Yield of Mung (Phaseolus aurius)|Indian J. Agron.16:293-295|1971|
41867|T||Elmore,L.L., W.D. Hamilton, E. Johnson, and T. Kretchun|Ground Cover Species Tolerance to Herbicide Application|Calif. Agric.26:3-4|1972|
41868|T||Burgis,D.S.|Herbicide Tests on Pepper Transplants and Seeded Peppers|Proc. Annu. Meet. Fla. State Hortic. Soc.84:183-186|1971|
41869|T||Lontai,I., M. Horvath, and I. Rojik|Changes due to Herbicide Treatment in Amylase Enzymes of Barley Leaves|Bot. Acta17:99-103|1971|
41870|T||Reber,L.J., R.K. Miller, J.A. Tweedy, and J.D. Butler|Herbicidal Effects of Picloram on Bermudagrass|Weed Sci.19:521-525|1971|10.1017/S0043174500050566
41871|T||Robocker,W.C.|Herbicidal Suppression of Bracken and Effects on Forage Production|Weed Sci.19(5): 538-541|1971|10.1017/S0043174500050621
41872|T||Sachs,R.M., and J.L. Michael|Comparative Phytotoxicity Among Four Arsenical Herbicides|Weed Sci.19(5): 558-564|1971|10.1017/S0043174500050682
41874|T||Bueno,A.J., and H.C. Cabanilla|Study on the Reaction of Recommended Rice Varieties to Early-Post and Pre-Emergence Herbicides|Down Earth27(3): 8-11|1971|
41876|T||Ivany,J.A., and R.D. Sweet|Sweet Corn Response to Alachlor and Other Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:47-52|1971|
41877|T||Engel,R.E., C.W. Bussey, and P. Catron|Crabgrass and Goosegrass Control in Turfgrass with Several Preemerge Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:369-374|1975|
41878|T||Jagschitz,J.A.|Response of Turfgrasses and Broadleaved Weeds to Various Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:115-122|1971|
41879|T||Furrer,A.H.,Jr., G.R. Starke, and S.R. McLane|A-820 Selectivity and Biological Performance on Vegetable Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:167-171|1971|
41880|T||Ivany,J.A., and R.D. Sweet|Muskmelon and Cucumber Response to Dinoseb and Other Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:175-179|1971|
41881|T||Schubert,O.E., and C.E. Hickman|Effect of Herbicide Treatments on Weed Control and Yield of Midway Strawberries|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:403-410|1971|
41882|T||Agamalian,H.|Herbicide Development in Green and Dry Beans|Proc. Annu. Calif. Weed Conf.24:76-80|1972|
41883|T||Wallace,E.G.R.|Control of Barnyard Grass and Other Weeds with Prynachlor in Maize Crops|Proc. N. Z. Weed Pest Control Conf.24:97-100|1971|10.30843/nzpp.1971.24.10339
41884|T||Andersen,R.N.|Effects of Preplanting Soil-Incorporated Herbicides on Metribuzin Injury in Soybeans|Proc. Northeast. Weed Control Conf.30:62-63|1975|
41885|T||Randhawa,K.S., and P.L. Bhalla|The Effect of Herbicides on Weeds of Onion in the Punjab|PANS (Pest Artic. News Summ.)22:405-407|1976|
41886|T||Meissner,R., and P.J. Henrico|The Effect of the Herbicide Pronamide on Different Lawn Grasses|Agroplantae8:15-|1976|
41888|T||Bolton,P., and J.L. Harwood|Effect of Thiocarbamate Herbicides on Fatty Acid Synthesis by Potato|Phytochemistry15:1507-1509|1976|10.1016/S0031-9422(00)88925-6
41889|T||Jayachandra, and V. Menon|Post-Emergent Control of Dicot Weeds with Bromacil|Curr. Sci. (Bangalore)41(3): 120-|1972|
41890|T||Dodge,J.D., and G.B. Lawes|Some Effects of the Herbicide Haloxydine on the Structure and Development of Chloroplasts|Ann. Bot.36:315-323|1972|10.1093/oxfordjournals.aob.a084591
41892|T||Wiedman,S.J., and A.P. Appleby|Plant Growth Stimulation by Sublethal Concentrations of Herbicides|Weed Res. (Multiple Languages)12(1): 65-74|1972|10.1111/j.1365-3180.1972.tb01188.x
41893|T||Demoranville,I.E., and R.M. Devlin|Promising New Herbicides and Their Effects on Cranberries|Cranberries:13-14|1972|
41894|T||Skrubis,B.|Effect of Weed Control on the Yield of Herb and the Yield and Oil Composition of Mentha piperita L.|Flavour Ind.2:367-369|1971|
41895|T||Peterson,L.E., M.L. Robbins, and J.L. Weigle|Herbicidal Control of Weeds in Sweetpotato, Ipomoea batatas Poir|Hortscience7(1): 65-66|1972|10.21273/HORTSCI.7.1.65
41896|T||Chen,L.G., C.M. Switzer, and R.A. Fletcher|Nucleic Acid and Protein Changes Induced by Auxin-like Herbicides|Weed Sci.20(1): 53-55|1972|10.1017/S0043174500034937
41897|T||Keeley,P.E., C.H. Carter, and J.H. Miller|Evaluation of the Relative Phytotoxicity of Herbicides to Cotton and Nutsedge|Weed Sci.20:71-74|1972|10.1017/S0043174500034986
41898|T||Green,C.A., and R.D. Sweet|Shepherdspurse-Germination, Flowering, and Response to Herbicides--A Preliminary Report|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:93-98|1971|
41899|T||Grehlinger,P.M.|Responses of Woody Species to Rates, Formulations, Placements and Times of Application of Karbutilate|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:162-165|1971|
41900|T||Baird,D.D., R.P. Upchurch, and G.W. Selleck|Phosphonomethyl Glycine, a New Broad-Spectrum, Postemergence Herbicide|Proc. Calif. Weed Conf.24:94-102|1972|
41901|T||Bovey,R.W., R.E. Meyer, R.D. Baker, and J.R. Baur|Evaluation of Polymerized Herbicides for Brush Control|Weed Sci.20:332-335|1972|10.1017/S0043174500035797
41902|T||Swan,D.G.|Effect of Herbicides on Alfalfa and Subsequent Crops|Weed Sci.20(4): 335-337|1972|10.1017/S0043174500035803
41903|T||Smith,D.T., A.W. Cooley, D.O. Mooney, and A.F. Wiese|Herbicidal Control of Volunteer Castorbean|Weed Sci.20(4): 338-340|1972|10.1017/S0043174500035815
41904|T||Lange,A., L. Lider, B. Fischer, and H. Agamalian|Herbicide-Variety Studies of Young Grapevines|Am. J. Enol. Vitic.21(2): 85-93|1970|10.5344/ajev.1970.21.2.85
41905|T||Frans,R.E.|Field Evaluations of the Effect of Topical Applications of Herbicides to Soybeans|Proc. South. Weed Sci. Soc.23:63-69|1970|
41906|T||Marr,C., and H.D. Swingle|The Effect of Several Herbicides on Weed Control and on the Element Content, Yield, and Maturity of Snap Beans (Phaseolus vulgaris L.)|Proc. South. Weed Sci. Soc.23:181-186|1970|
41907|T||Glaze,N.C.|Evaluation of Herbicides on Southern Peas|Proc. South. Weed Sci. Soc.23:192-196|1970|
41908|T||Glaze,N.C.|Evaluation of Several Herbicides in Turnip Green Plantings|Proc. South. Weed Sci. Soc.23:197-201|1970|
41909|T||Peters,E.J., and J.F. Stritzke|Control of Persimmon with Various Herbicides and Methods of Application|Weed Sci.18(5): 572-575|1970|10.1017/S0043174500034214
41910|T||Hogue,E.J.|Molecular Structure and Herbicidal Activity of Some Substituted Ureas|Weed Sci.18(5): 580-582|1970|10.1017/S004317450003424X
41911|T||Still,G.G., D.G. Davis, and G.L. Zander|Plant Epicuticular Lipids: Alteration by Herbicidal Carbamates|Plant Physiol.46:307-314|1970|10.1104/pp.46.2.307
41912|T||Engel,R.E., and C.W. Bussey|The Effect of Three Experimental Herbicides on Control of Crabgrass and Turfgrass Species Balance|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:197-200|1971|
41913|T||Jagschitz,J.A.|Preemergence Crabgrass and Goosegrass Control in Turfgrass with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:205-210|1971|
41914|T||Wilson,H.P., B.C. Frey, and J.N. Belote III|Control of Annual Weeds and Grasses in Potatoes with Preemergence and Layby Herbicide Applications|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:324-328|1971|
41915|T||Hawkins,A.|Chemical Weed Control in Potatoes with Bay 94337 and Trifluralin in Connecticut, 1971|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:329-331|1971|
41916|T||Dickens,R., and G.A. Buchanan|Influence of Time of Herbicide Application on Control of Kudzu|Weed Sci.19:669-671|1971|10.1017/S0043174500051018
41917|T||Tsay,R.C., and F.M. Ashton|Effect of Several Herbicides on Dipeptidase Activity of Squash Cotyledons|Weed Sci.19(6): 682-684|1971|10.1017/S0043174500051055
41918|T||Taylor,J.W., and M.G. Zehner|The Effect of a Seed Disinfectant on Grain and Straw Yields and Smut Control in Winter Barley|Agron. J.22:113-123|1930|10.2134/agronj1930.00021962002200020003x
41920|T||Howard,H.W.|Possible Action of Phytohormones as Root-Determiners|Ann. Bot.2:933-942|1938|10.1093/oxfordjournals.aob.a084046
41921|T||Hanes,C.S.|The Reversible Inhibition of B-Maltamylase by Ascorbic Acid and Related Compounds|Biochem. J. (Lond.)29:2588-2603|1935|10.1042/bj0292588
41922|T||Richter,D.|The Action of Inhibitors on the Catechol Oxidase of Potatoes|Biochem. J. (Lond.)28:901-908|1934|10.1042/bj0280901
41923|T||Biale,J.B., and F.F. Halma|The Use of Heteroauxin in Rooting of Subtropicals|Proc. Am. Soc. Hortic. Sci.35:443-447|1937|
41924|T||Stuart,N.W., and P.C. Marth|Composition and Rooting of American Holly Cuttings As Affected by Treatment with Indolebutyric Acid|Proc. Am. Soc. Hortic. Sci.35:839-844|1937|
41925|T||Dent,K.W.|Studies on Toxic Action. Vii. the Toxicity of Aliphatic Esters Towards Potato Tuber|Protoplasma (Multiple Languages)21:62-72|1934|10.1007/BF01984465
41926|T||Carter,F.M.|Studies on Toxic Action. Viii. the Toxicity of Normal Aliphatic Alcohols Towards Various Plant Tissues|Protoplasma (Multiple Languages)21:615-629|1934|10.1007/BF01984548
41927|T||Rees,W.J.|Studies on Toxic Action. Vi. the Toxicity of Aliphatic Ketones Towards Potato Tuber|Protoplasma (Multiple Languages)17:499-508|1933|10.1007/BF01604137
41928|T||Bonner,J., and D. Bonner|Ascorbic Acid and the Growth of Plant Embryos|Proc. Northeast. Weed Control Conf.24:70-75|1938|
41929|T||La Rue,C.D.|The Effect of Auxin on the Abscission of Petioles|Proc. Natl. Acad. Sci. U.S.A.22:254-259|1936|10.1073/pnas.22.5.254
41930|T||Gustafson,F.G.|Inducement of Fruit Development by Growth-Promoting Chemicals|Proc. Natl. Acad. Sci. U.S.A.22:628-636|1936|10.1073/pnas.22.11.628
41931|T||Smith,D.C., and E.N. Bressman|Some Effects of Seed Treatment on the Germination and Subsequent Growth of Wheat|J. Agric. Res.40:25-36|1930|
41932|T||Young,H.D.|Effect of Various Fumigants on the Germination of Seeds|J. Agric. Res.39:925-927|1929|
41934|T||Murphy,H.F.|Some Effects of Crude Petroleum on Nitrate Production, Seed Germination and Growth|Soil Sci.27:117-120|1929|10.1097/00010694-192902000-00004
41935|T||Denny,F.E.|Effect of Ethylene Chlorhydrin Vapors upon the Chemical Composition of Gladiolus Corms|Contrib. Boyce Thompson Inst.5:435-440|1933|
41936|T||Guthrie,J.D.|Effect of Chemical Treatment of Dormant Potato Tubers on the Conductivity of the Tissue and on the Leaching of Electrolytes from the Tissue|Contrib. Boyce Thompson Inst.5:83-94|1933|
41937|T||Denny,F.E., and L.P. Miller|Effect of Ethylene Chlorhydrin Vapors upon Dormant Lilac Tissues|Contrib. Boyce Thompson Inst.4:513-528|1932|
41938|T||Guthrie,J.D., F.E. Denny, and L.P. Miller|Effect of Ethylene Chlorohydrin Treatments on the Catalase, Peroxidase pH, and Sulphydryl Content of Gladiolus Corms|Contrib. Boyce Thompson Inst.4:131-140|1932|
41939|T||Denny,F.E.|Direct Versus Indirect Effects upon Potato Amylase by Chemicals Which Induce Sprouting of Dormant Tubers|Contrib. Boyce Thompson Inst.4:53-63|1932|
41940|T||Denny,F.E.|The Effect of Thiocyanates upon Amylase Activity. I. Potato Amylase|Contrib. Boyce Thompson Inst.3:277-286|1931|
41942|T||Guthrie,J.D.|The Effect of Various Chemical Treatments of Dormant Potato Tubers on the Peroxidase, Catalase, pH, and Reducing Properties of the Expressed Juice|Contrib. Boyce Thompson Inst.3:499-508|1931|
41943|T||Miller,L.P.|Further Experiments on the Effect of Halogenated Aliphatic Compounds on the Respiration of Potato Tubers|Contrib. Boyce Thompson Inst.7:1-17|1935|
41944|T||Miller,L.P.|The Effect of the Alkyl Halides on the Respiration of Potato Tubers|Contrib. Boyce Thompson Inst.6:279-296|1934|
41945|T||Dermen,H.|Cytological Analysis of Polyploidy Induced by Colchicine and by Extremes of Temperature|J. Hered.29:211-229|1938|10.1093/oxfordjournals.jhered.a104502
41947|T||Eigsti,O.J.|A Cytological Study of Colchicine Effects in the Induction of Polyploidy in Plants|Proc. Northeast. Weed Control Conf.24:56-63|1938|
41948|T||Walker,R.I.|The Effect of Colchicine on Somatic Cells of Tradescantia paludosa|J. Arnold Arboretum19:158-162|1938|10.5962/p.324592
41949|T||Beal,J.M.|Bud Development in Lilium Harrisii Following Treatment with Indoleacetic Acid|Proc. Natl. Acad. Sci. U.S.A.23:304-306|1937|10.1073/pnas.23.6.304
41950|T||Nebel,B.R., and M.L. Ruttle|The Cytological and Genetical Significance of Colchicine|J. Hered.29:3-9|1938|10.1093/oxfordjournals.jhered.a104406
41951|T||Bissey,R., and O. Butler|Effect of Applications of Sodium Chlorate and Ammonium Thiocyanate on Subsequent Sowings of Wheat|Agron. J.26:838-846|1934|10.2134/agronj1934.00021962002600100004x
41952|T||Jones,J.W.|Germination of Rice Seed as Affected by Temperature, Fungicides, and Age|Agron. J.18:576-592|1926|10.2134/agronj1926.00021962001800070003x
41953|T||Dermen,H., and G.M. Darrow|Colchicine-Induced Tetraploid and 16-Ploid Strawberries|Proc. Am. Soc. Hortic. Sci.36:300-301|1938|
41954|T||Dermen,H., and D.H. Scott|A Note on Natural and Colchicine-Induced Polyploidy in Peaches|Proc. Am. Soc. Hortic. Sci.36:299|1938|
41955|T||Snow,A.G.,Jr.|Use of Indolebutyric Acid to Stimulate the Rooting of Dormant Aspen Cuttings|J. For.36:582-587|1938|
41956|T||Marsh,P.B., and D.R. Goddard|Respiration and Fermentation in the Carrot, Daucus carota.  I.  Respiration|Am. J. Bot.26:724-728|1939|10.1002/j.1537-2197.1939.tb09345.x
41957|T||Kraus,E.J., and J.W. Mitchell|Histological and Physiological Responses of Bean Plants to Alpha-Naphthalene Acetamide|Bot. Gaz.101:204-225|1939|10.1086/334859
41958|T||Kaiser,S., and H.G. Albaum|Early Root and Shoot Growth in Two Varieties of Avena Sativa in Relation to Growth Substances|Am. J. Bot.26:749-754|1939|10.1002/j.1537-2197.1939.tb09351.x
41959|T||Bausor,S.C.|Response of Tomato Plants to beta-Naphthoxyacetic Acid|Am. J. Bot.26:733-736|1939|10.1002/j.1537-2197.1939.tb09348.x
41960|T||Warmke,H.E., and A.F. Blakeslee|Induction of Simple and Multiple Polyploidy in Nicotiana by Colchicine Treatment|J. Hered.30:419-432|1939|10.1093/jhered/30.10.419
41961|T||Huelin,F.E., and J. Barker|The Effect of Ethylene on the Respiration and Carbohydrate Metabolism of Potatoes|New Phytol.38:85-104|1939|10.1111/j.1469-8137.1939.tb07087.x
41963|T||Bonner,J., and J.B. Koepfli|The Inhibition of Root Growth by Auxins|Am. J. Bot.26:557-566|1939|10.1002/j.1537-2197.1939.tb09319.x
41964|T||Avery,G.S.,Jr., and G.B. Sargent|The Effect of Various Compounds upon Straight Growth of the Avena Coleoptile|Am. J. Bot.26:548-555|1939|10.1002/j.1537-2197.1939.tb09317.x
41965|T||Sando,W.J.|A Colchicine-Induced Tetraploid in Buckwheat|J. Hered.30:271-272|1939|10.1093/oxfordjournals.jhered.a104738
41966|T||Reynolds,E.S.|Relations of Plants As Minute Doses of Inhibitive Substances|Plant Physiol.14:385-387|1939|10.1104/pp.14.2.385
41967|T||Chadwick,L.C., and D.L. Kiplinger|The Effect of Synthetic Growth on the Roting and Subsequent Growth of Ornamental Plants|Proc. Am. Soc. Hortic. Sci.36:809-816|1936|
41968|T||Bausor,S.C.|A New Growth Substance, beta-Naphthoxyacetic Acid|Am. J. Bot.26:415-418|1939|
41969|T||Levan,A.|Tetraploidy and Octoploidy Induced by Colchicine in Diploid Petunia|Hereditas25:109-131|1939|10.1111/j.1601-5223.1939.tb02689.x
41970|T||Mitchell,J.W.|Effect of Indoleacetic Acid on the Growth of Some Crop Plants|Proc. Am. Soc. Hortic. Sci.36:171-176|1938|
41971|T||Allan,R.E., O.A. Vogel, and J.C.,Jr. Craddock|Comparative Response to Gibberellic Acid of Dwarf, Semidwarf, and Standard Short and Tall Winter Wheat Varieties|Agron. J.51:737-740|1959|10.2134/agronj1959.00021962005100120013x
41972|T||Ameen,O.A., D. Day, and K.C. Hamilton|Effect of 1,2,4,5-Tetrachlorobenzene on the Germination and Seedling Vigor of Barley, Oats and Wheat|Agron. J.52:87-89|1960|10.2134/agronj1960.00021962005200020009x
41973|T||Thimann,K.V., and R.H. Lane|After-Effects of the Treatment of Seed with Auxin|Am. J. Bot.25:535-543|1938|
41974|T||Pratt,R.|Influence of Indole-3-Acetic Acid on the Respiration and Growth of Intact Wheat Seedlings|Am. J. Bot.25(6): 389-392|1938|
41975|T||Walker,R.I.|The Effect of Colchicine on Microspore Mother Cells and Microspores of Tradescantia Paludosa|Am. J. Bot.25:280-285|1938|10.1002/j.1537-2197.1938.tb09218.x
41976|T||Thimann,K.V.|On the Nature of Inhibitions Caused by Auxin|Am. J. Bot.24:407-412|1937|10.1002/j.1537-2197.1937.tb09119.x
41977|T||Macht,D.I., and J.D. Meyer|Effect of Eighteen Normal Aliphatic Alcohols on Growth in Lupinus Albus|Am. J. Bot.20:145-149|1933|10.1002/j.1537-2197.1933.tb08880.x
41978|T||Macht,D.I.|A Study of Twenty-Three Octyl Alcohols on Growth of Lupinus Seedlings|Am. J. Bot.17:572-578|1930|
41979|T||Baldwin,H.I.|Alcohol Separation of Empty Seed and Its Effect on the Germination of Red Spruce|Am. J. Bot.19:1-11|1932|10.1002/j.1537-2197.1932.tb09632.x
41980|T||Wallace,R.H.|Studies on the Sensitivity of Mimosa pudica.  I.  The Effect of Certain Animal Anesthetics upon Sleep Movements|Am. J. Bot.18:102-111|1931|10.1002/j.1537-2197.1931.tb09574.x
41981|T||Denny,F.E.|Second Report on the Use of Chemicals for Hastening the Sprouting of Dormant Potato Tubers|Am. J. Bot.13:386-396|1926|10.1002/j.1537-2197.1926.tb05893.x
41983|T||Marmer,D.R.|Growth of Weed Seedlings in Solutions Containing Chemical Growth Substances|Am. J. Bot.24:139-145|1937|10.1002/j.1537-2197.1937.tb09082.x
41984|T||Delisle,A.L.|The Influence of Auxin on Secondary Branching in Two Species of Aster|Am. J. Bot.24:159-167|1937|10.1002/j.1537-2197.1937.tb09084.x
41985|T||Lane,R.H.|The Inhibition of Roots by Growth Hormone|Am. J. Bot.23:532-535|1936|10.1002/j.1537-2197.1936.tb09021.x
41986|T||Chrysostom,M.M.|The Influence of Several Benzene Derivaties on the Roots of Lupinus albus|Am. J. Bot.23:461-471|1936|10.1002/j.1537-2197.1936.tb09011.x
41987|T||Gibbs,R.D.|The Toxicity of Normal Aliphatic Alcohols|Am. J. Bot.21:645-650|1934|10.1002/j.1537-2197.1934.tb04993.x
41989|T||Muskett,A.E., and H. Cairns|The Effect of Seed Disinfection upon the Oat Crop in Northern Ireland|Ann. Appl. Biol.19(4): 462-474|1932|10.1111/j.1744-7348.1932.tb04336.x
41990|T||Pearse,H.L.|Experiments with Growth-Controlling Substances I. the Reaction of Leafless Woody Cuttings to Treatment with Root-Forming Substances|Ann. Bot.2:227-235|1938|10.1093/oxfordjournals.aob.a083995
41991|T||Brain,E.D.|Experiments on the Influence of Parathyroid and Thyroid Hormones upon the Growth of Seedlings|Ann. Bot.1:615-621|1937|10.1093/oxfordjournals.aob.a083492
41992|T||Scott,F.M.|Anatomy of Auxin Treated Etiolated Seedlings of Pisum Sativum|Bot. Gaz.100:167-185|1938|10.1086/334771
41993|T||Cooper,W.C.|Hormones and Root Formation|Bot. Gaz.99:599-614|1938|10.1086/334734
41994|T||Wolfe,H.S.|Effect of Ethylene on the Ripening of Bananas|Bot. Gaz.92:337-366|1931|10.1086/334211
41995|T||Bernhard,R.A.|Some Studies of Coumarin and Coumarin Analogues as Germination Inhibitors of Radish Seeds|Bot. Gaz.121:17-21|1959|10.1086/336035
41996|T||Minshall,W.H.|Effect of 3-(4-Chlorophenyl)-1,1-Dimethylurea on Dry Matter Production, Transpiration, and Root Extension|Can. J. Bot.38:201-216|1960|10.1139/b60-018
41997|T||Knypl,J.S., and A.P. Dmitruk|Coumarin As the Stimulator of Growth of Etiolated Maize Stem Tissue|Curr. Sci. (Bangalore)30:448-449|1961|
41999|T||Hassall,K.A.|Effect of Monuron and of Related Compounds on the Growth of Seedling Peas|J. Exp. Bot.12:47-55|1961|10.1093/jxb/12.1.47
42000|T||Murfet,I.C., and H.N. Barber|Effects of Gibberellic Acid and Allogibberic Acid on Flowering and Internode Length in Pisum Sativum|Nature191:154-155|1961|10.1038/191514a0
42001|T||Levan,A.|The Effect of Colchicine on Root Mitosis in Allium|Hereditas24:471-486|1938|10.1111/j.1601-5223.1938.tb03221.x
42004|T||Thimann,K.V.|Hormones and the Analysis of Growth|Plant Physiol.13(3): 437-449|1938|10.1104/pp.13.3.437
42005|T||Bennett,J.P., and F. Skoog|Preliminary Experiments on the Relation of Growth-Promoting Substances to the Rest Period in Fruit Trees|Plant Physiol.13(2): 219-225|1938|10.1104/pp.13.2.219
42006|T||Eisenmenger,W.S.|Toxicity of Some Aliphatic Alcohols|Plant Physiol.5:131-156|1930|10.1104/pp.5.1.131
42007|T||Coggeshall,M.|Influence of Acetic, Propionic, Normal Butyric and Sulphuric Acids and Potassium Acetate on Elongation of Primary Roots of Seedlings of White Lupine|Plant Physiol.6:389-445|1931|10.1104/pp.6.3.389
42009|T||Davis,E.E.|Influence of Thyroxin on the Growth of Plants|Plant Physiol.9:377-384|1934|10.1104/pp.9.2.377
42010|T||Stevens,V.L., J.S. Butts, and S.C. Fang|Effects of Plant Growth Regulators & Herbicides on Metabolism of C14-Labeled Acetate in Pea Root Tissues|Plant Physiol.37:215-222|1962|10.1104/pp.37.2.215
42012|T||Ormrod,D.P., and W.A. Williams|Phosphorus Metabolism of Trifolium hirtum All. As Affected by 2,4-Dichlorophenoxyacetic Acid and Gibberellic Acid|Plant Physiol.35:81-87|1960|10.1104/pp.35.1.81
42013|T||Foy,C.L.|Absorption, Distribution, and Metabolism of 2,2-Dichloropropionic Acid in Relation to Phytotoxicity.  I.  Penetration and Translocation of Cl36- and C14-Labeled Dalapon|Plant Physiol.36:688-697|1961|10.1104/pp.36.5.688
42014|T||Foy,C.L.|Absorption, Distribution, and Metabolism of 2,2-Dichloropropionic Acid in Relation to Phytotoxicity. II. Distribution and Metabolic Fate of Dalapon in Plants|Plant Physiol.36:698-709|1961|10.1104/pp.36.5.698
42016|T||Guthrie,J.D.|Inducing Dormancy in Potato Tubers with Potassium Naphthaleneacetate and Breaking It with Ethylene Chlorohydrin|Science88:86-|1938|10.1126/science.88.2273.86.a
42017|T||Bradley,M.V., and J.C. Crane|Gibberellin-Induced Inhibition of Bud Development in Some Species of Prunus|Science131:825-826|1960|10.1126/science.131.3403.825
42018|T||Murashige,T.|Suppression of Shoot Formation in Cultured Tobacco Cells by Gibberellic Acid|Science134:280-|1961|10.1126/science.134.3474.280.a
42019|T||Thode,F.W.|Dowpon as an Aid to Maintenance of Home Grounds|Down Earth15:21-22|1960|
42020|T||Stoddart,J.L.|The Effects of Gibberellic Acid upon Growth Habit and Heading in Late-Flowering Red Clover|J. Agric. Sci.52:161-167|1959|10.1017/S0021859600036637
42021|AT||Watson,A.J., and M.G. Wiltse|Tordon for Brush Control on Utility Rights-Of-Way in the Eastern United States|Down Earth19:11-14|1963|
42022|T||Hammerton,J.L.|Control of Weeds in Marrowstem Kale by EPTC and Some Other Herbicides|Weed Res. (Multiple Languages)3:128-139|1963|10.1111/j.1365-3180.1963.tb00229.x
42023|T||Conway,E., and J.D. Forrest|The Effects of 4-Chlorophenoxyacetic Acid on the Rhizome of Pteridium Aquilinum (L.) Kuhn|Weed Res. (Multiple Languages)1:114-130|1961|10.1111/j.1365-3180.1961.tb00013.x
42024|T||Kingham,H.G., and J.T. Fletcher|The Effects of Mcpa and 2,3,6-Tba on Glasshouse Cucumbers|Weed Res. (Multiple Languages)3:242-245|1963|10.1111/j.1365-3180.1963.tb00240.x
42025|T||Robinson,D.W.|The Control of Ranunculus repens (L.) in Raspberries|Weed Res. (Multiple Languages)1:105-113|1961|10.1111/j.1365-3180.1961.tb00012.x
42026|T||Johnston,A.M.|The Relationship of Structure to Activity in Plant-Growth-Regulating Compounds. 2. Growth-Regulating Activity of Substituted Amides of 2,4-Dichlorophenoxyacetic Acid|Biochem. J. (Lond.)82:425-428|1962|10.1042/bj0820425
42027|T||Smith,L.H., and C.M. Harrison|Effect of 2,4-Dichlorophenoxyacetic Acid on Seedling Development and Uptake and Distribution of Calcium and Phosphorus in Barley|Crop Sci.2:31-34|1962|10.2135/cropsci1962.0011183X000200010010x
42028|T||Herrett,R.A., and A.J. Linck|The Metabolism of 3-Amino-1,2,4-Triazole by Canada Thistle and Field Bindweed and the Possible Relation to Its Herbicidal Action|Physiol. Plant. (Multiple Languages)14:767-776|1961|10.1111/j.1399-3054.1961.tb07953.x
42029|T||Eliasson,L.|Responses of Pea Roots to Growth Substances|Physiol. Plant. (Multiple Languages)14:803-812|1961|10.1111/j.1399-3054.1961.tb07956.x
42030|T||Manos,G.E.|The Effects of Growth Substances on Attached and Detached Root Tips of Pisum Sativum l|Physiol. Plant. (Multiple Languages)14:697-711|1961|10.1111/j.1399-3054.1961.tb07947.x
42031|T||Ivens,G.W.|The Effects of Arboricides on East African Trees and Shrubs - II. Species of the Brachystegia-Pseudoberlinia Woodland|Trop. Agric.36:52-64|1959|
42032|T||Ivens,G.W.|The Effects of Arboricides on East African Trees and Shrubs - I. Acacia Species|Trop. Agric.35:257-271|1958|
42033|T||Kraus,J.F.|Methoxone Treatment of Longleaf Pine Seed|J. For.57:650-|1959|
42034|T||Baptiste,E.D.C., and P. De Jonge|Poisoning Experiments with Hevea brasiliensis. II. Results of a Further Tree Poisoning Experiment with 2,4,5-T|J. Rubber Res. Inst. Malays.15:193-204|1958|
42035|T||Thakur,C., and N.S. Negi|Effect of Gibberellic Acid on Growth, Sucrose and Nitrogen Content in Sugarcane Plant|Sci. Cult.24:522-523|1959|
42036|T||Dikshit,N.N.|Initial Stages of Parthenocarpy in Custard Apple (Anona squamosa Linn.) Following Treatment with 2,4,5-Trichlorophenoxy Acetic Acid|Sci. Cult.24:381-382|1959|
42037|T||Burton,W.G.|Experiments of the Use of Alcohol Vapours to Suppress the Sprouting of Stored Potatoes|Potato Res.1:42-51|1958|10.1007/BF02364383
42038|T||Hildering,G.J.|The Mutagenic Effect of Ethylene Imine (Ei) on the Tomato|Euphytica 12:113-119|1963|10.1007/BF00033602
42039|T||Molotkovskii,Y.G., and A.M. Smirnov|The Effect of Chloramphenicol on Protein Synthesis in Plants|Fiziol. Rast. (Mosc.) (Non-English)9:268-273|1963|
42040|T||Prasad,L.K., C.P. Sinha, and S.K. Mukherjee|Preliminary Studies on Weed Control in Rabi Potato Grown in River Sand by Crag Herbicide I.|Sci. Cult.25(12): 688-690|1960|
42041|T||Heyes,J.K.|The Effects of 8-Azaguanine on Growth and Metabolism in the Root|Proc. R. Soc. Lond. Ser. B Biol. Sci.158:208-221|1963|
42042|T||Wiese,A.F., R.G. Davis, and J.P. Smith|Fenac and Tritac for Control of Small Patches of Field Bindweed and Texas Blueweed|Tex. Agric. Exp. Stn. Prog. Rep.2269:1-3|1963|
42043|T||Van Rijn,P.J.|Chemical Weed Control in Irrigation Channels at Kimberly Research Station, Western Australia|Aust. J. Exp. Agric.3:170-172|1963|10.1071/EA9630170
42044|T||Weaver,R.J., O.A. Leonard, and S.B. McCune|Response of Clusters of Vitis Vinifera Grapes to 2,4-Dichlorophenoxyacetic Acid and Related Compounds|Hilgardia31:113-125|1961|10.3733/hilg.v31n05p113
42045|T||Ashton,F.M., E.G. Uribe, and G. Zweig|Effect of Monuron on 14Co2 Fixation by Red Kidney Bean Leaves|Weeds (Urbana)9:575-579|1961|10.2307/4040807
42046|T||Funderburk,H.H.,Jr., and W.K.,Jr. Porter|Effects of N-(3,4-Dichlorophenyl)-Methacrylamide on Growth and Certain Respiratory Enzymes of Corn|Weeds (Urbana)9:538-544|1961|10.2307/4040802
42047|T||McWhorter,C.G.|Carbohydrate Metabolism of Johnsongrass as Influenced by Seasonal Growth and Herbicide Treatments|Weeds (Urbana)9:563-568|1961|10.2307/4040805
42048|T||McWhorter,C.G., and J.T.,Jr. Holstun|Phytotoxicity of s-Triazine Herbicides to Corn and Weeds as Related to Structural Differences|Weeds (Urbana)9:592-599|1961|10.2307/4040809
42049|T||Saidak,W.J.|Translocation of Dalapon in Yellow Nutsedge (Cyperus esculentus)|Weeds (Urbana)9:626-633|1961|10.2307/4040814
42050|T||Miyake,I., and I. Yukio|Killing the Arrowroot by Chemicals|Bull. Gov. For. Exp. Stn. (Tokyo)123:21-44|1960|
42051|T||Balogh,E., Z. Boszormenyi, and E. Cseh|The Effect of Chloramphenicol on the Amino Acid Metabolism and Ion Uptake of Isolated Wheat Roots|Biochim. Biophys. Acta52:381-383|1961|10.1016/0006-3002(61)90690-4
42052|T||Rebeiz,C.A., and J.C. Crane|Growth Regulator-Induced Parthenocarpy in the Bing Cherry|Proc. Am. Soc. Hortic. Sci.78:69-75|1961|
42053|T||Lange,A.H.|The Effect of 2,3-Dichloroisobutyrate on the Sex Expression of Carica Papaya l|Proc. Am. Soc. Hortic. Sci.78:218-224|1961|
42055|T||Eliasson,L.|Growth Response of Pea Roots to 2,4-D Applied to the Hypocotyl|Physiol. Plant. (Multiple Languages)12:834-840|1959|10.1111/j.1399-3054.1959.tb08917.x
42056|T||Kulkarni,K.R.|A Preliminary Study on Weed Control in Sugarcane Crop and Accelerating Cane Germination|Mysore J. Agric. Sci.34:77-81|1959|
42057|T||Catlin,P.B., and E.C. Maxie|Some Relationships Between Growth, Respiration and 2,4,5-Trichlorophenoxyacetic Acid Treatment in Developing Apricot Fruits|Proc. Am. Soc. Hortic. Sci.74:159-173|1959|
42058|T||Harley,C.P., and L.O. Regeimbal|Comparative Effectiveness of Naphthaleneacetic Acid and Naphthylacetamide Sprays for Fruit Thinning York Imperial Apples and Initiating Blossom Buds on Deliciou|Proc. Am. Soc. Hortic. Sci.74:64-66|1959|
42059|T||Hull,J.,Jr., and L.N. Lewis|Response of One-Year-Old Cherry and Mature Bearing Cherry, Peach and Apple Trees|Proc. Am. Soc. Hortic. Sci.74:93-100|1959|
42060|T||Grogan,C.O.|Effect of Fungicides and Insecticides on the Germination of Corn After Storage|Plant Dis. Rep.43:1132-1137|1959|
42061|T||Thatcher,R.C.|Toxicity of BHC to Loblolly Pine Seedlings|J. Econ. Entomol.53:175-176|1960|10.1093/jee/53.1.175
42062|T||Jackson,W.T.|Effect of Indoleacetic Acid on Rate of Elongation of Root Hairs of Argostis alba L|Physiol. Plant. (Multiple Languages)13:36-45|1960|10.1111/j.1399-3054.1960.tb08007.x
42063|T||Okumura,F.S., H. Kusaka, and T. Takematsu|Studies on Isokinetin and Its Analogs.  I.  Synthesis of Isokinetin, 2-N-Furfurylaminopurine, and Its Activity of Promoting Growth of Leaves|J. Biochem. (Tokyo)49:133-137|1961|
42064|T||Stenlid,G.|On the Effects of Some Flavonoid Pigments upon Growth and Ion Absorption of Wheat Roots|Physiol. Plant. (Multiple Languages)14:659-670|1961|10.1111/j.1399-3054.1961.tb07923.x
42065|T||Klose,S.R.|Progress Results on Wild Oat Control|Qld. Agric. J.87:227-231|1961|
42066|T||Hall,B.J.|Two New Chemicals for Weed Control in Vegetables and Maize|Agric. Gaz. N. S. W.72:393-398|1961|
42067|T||Nickell,L.G., and P.N. Gordon|Halogenated Kojic Acid Derivatives, Related Compounds, and Their Physiological Effects on Plant Growth|Agric. Biol. Chem.27:65-68|1963|
42068|T||Steinhart,C., L. Anderson, and F. Skoog|Growth Promoting Effect of Cyclitols on Spruce Tissue Cultures|Plant Physiol.37:60-66|1962|10.1104/pp.37.1.60
42069|T||Sacher,J.A.|An IAA Oxidase-Inhibitor System in Bean Pods. II. Kinetic Studies of Oxidase and Natural Inhibitor|Plant Physiol.37(1): 74-82|1962|10.1104/pp.37.1.74
42070|T||Oram,P.A.|Experiments on the Control of Weeds in Groundnuts in Tripolitania|Weed Res. (Multiple Languages)1:211-228|1961|10.1111/j.1365-3180.1961.tb00022.x
42071|T||Evans,S.A.|The Control of Weeds in Spring Cereals with MCPA, MCPB and 2,4-DB|Weed Res. (Multiple Languages)1(3): 203-210|1961|10.1111/j.1365-3180.1961.tb00021.x
42072|T||Elliott,J.G.|The Reaction of Trifolium repens (L.) in Grassland to 2,4-D, MCPA and Mixtures of 2,4-D and MCPB|Weed Res. (Multiple Languages)1(3): 184-195|1961|10.1111/j.1365-3180.1961.tb00019.x
42073|T||Vidme,T.|Control of Sanchus Arvensis (L.) with Chemicals|Weed Res. (Multiple Languages)1:275-288|1961|10.1111/j.1365-3180.1961.tb00027.x
42074|T||Roberts,H.A., and B.J. Wilson|Chemical Weed Control in Spring-Sown Broad Beans|Weed Res. (Multiple Languages)1:289-300|1961|10.1111/j.1365-3180.1961.tb00028.x
42075|T||De Hertogh,A.A., J.W. Hooks, and G.C. Klingman|Herbicides on Flue-Cured Tobacco|Weeds (Urbana)10:115-118|1962|10.2307/4040659
42076|T||Day,B.E., C.D. McCarty, and L.S. Jordan|Dalapon, Amitrole, and Weed Oil Compared for Effectiveness in Control of Bermudagrass in California Citrus Orchards|Hilgardia32(2): 207-227|1962|10.3733/hilg.v32n02p207
42077|T||Mitchell,W.D., and S.H. Wittwer|Chemical Regulation of Flower Sex Expression and Vegetative Growth in Cucumis sativus L.|Science136:880-881|1962|10.1126/science.136.3519.880
42078|T||Chrispeels,M.J., and J.B. Hanson|The Increase in Ribonucleic Acid Content of Cytoplasmic Particulates of Soybean Hypocotyl Induced by 2,4-Dichlorophenoxyacetic Acid|Weeds (Urbana)10(2): 123-125|1962|10.2307/4040662
42079|T||Riddell,J.A., H.A. Hageman, C.M. J'Anthony, and W.L. Hubbard|Retardation of Plant Growth by a New Group of Chemicals|Science136:391-|1962|10.1126/science.136.3514.391
42080|T||Schmutz,E.M., and D.W. Whitham|Shrub Control Studies in the Oak-Chaparral of Arizona|J. Range Manag.15:61-67|1962|10.2307/3894862
42081|T||Rawson,J.E.|Pre-Emergence Spraying to Control Weeds in Peanuts|Qld. Agric. J.88:3-5|1962|
42082|T||Cross,C.E., and I.E. Demoranville|Dalapon and Massachusetts Cranberries|Down Earth18:28-29|1962|
42083|T||Wittwer,S.H., and M.J. Bukovac|Quantitative and Qualitative Differences in Plant Response to the Gibberellins|Am. J. Bot.49:524-529|1962|10.1002/j.1537-2197.1962.tb14975.x
42084|T||Monseslise,S.P., and A.H. Halevy|Effects of Gibberellin and Amo-1618 on Growth, dry-Matter Accumulation, Chlorophyll Content and Peroxidase Activity of Citrus Seedlings|Am. J. Bot.49:405-412|1962|
42085|T||Ilan,I.|A Specific Stimulatory Action of Indolyl-3-Acetic Acid on Potassium Uptake by Plant Cells, with Concomitant Inhibition of Ammonium Uptake|Nature194:203-204|1962|10.1038/194203a0
42086|T||Eliasson,L.|The Response of Aspen Roots to 3-Amino-1,2,4-Triazole|Physiol. Plant. (Multiple Languages)15:229-238|1962|10.1111/j.1399-3054.1962.tb08023.x
42087|T||Swan,D.G., and C.R. Rohde|Effect of 2,4-D on Three Winter Wheat Varieties Grown in Oregon|Crop Sci.2:179-180|1962|10.2135/cropsci1962.0011183X000200020036x
42088|T||Dicker,G.H.L., and R.P. Tew|Phytotoxicity Resulting from Foliar Applications of Fluoroacetamide to Black Currants|East Malling Res. Stn. Annu. Rep.62:107-108|1961|
42089|T||Huffaker,R.C., M.D. Miller, and D.S. Mikkelsen|The Effects of 2,4-D, Iron and Chelate Supplements on Dark C02 Fixation in Cell-Free Homogenates of Field Beans|Crop Sci.2:127-129|1962|10.2135/cropsci1962.0011183X000200020012x
42090|T||Thompson,F.B.|Weed Control in Fodder Crops with Monochloracetate|Proc. N. Z. Weed Pest Control Conf.12:99-105|1959|10.30843/nzpp.1959.12.7515
42091|T||Thompson,A.|The Effect of Dalapon on Various Grass Species|Proc. N. Z. Weed Pest Control Conf.12:24-29|1959|10.30843/nzpp.1959.12.7502
42092|T||Smith,D., and K.P. Buchholtz|Transpiration Rate Reduction in Plants with Atrazine|Science136:263-264|1962|10.1126/science.136.3512.263
42093|T||Rubinstein,B., and A.C. Leopold|Effects of Amino Acids on Bean Leaf Abscission|Plant Physiol.37:398-401|1962|10.1104/pp.37.3.398
42094|T||Key,J.L.|Changes in Ascorbic Acid Metabolism Associated with Auxin-Induced Growth|Plant Physiol.37:349-356|1962|10.1104/pp.37.3.349
42095|T||Delano,R.H., and F.B. Widmoyer|Anatomy of Phaseolus Vulgaris Root Tips As Influenced by Gibberellins|Phytomorphology10:211-214|1960|
42096|T||Wiese,A.F., and H.E. Rea|Factors Affecting the Toxicity of Phenoxy Herbicides to Field Bindweeds|Weeds (Urbana)10:58-61|1962|10.2307/4040561
42097|T||Slife,F.W., J.L. Keys, S. Yamaguchi, and A.S. Crafts|Penetration, Translocation and Metabolism of 2,4-D and 2,4,5-T in Wild and Cultivated Cucumber Plants|Weeds (Urbana)10:29-35|1962|10.2307/4040556
42098|T||Rojas-Garciduenas,M., M.A. Ruiz, and J. Carrillo|Effects of 2,4-D and MCPA on Germination and Early Growth|Weeds (Urbana)10:69-71|1962|10.2307/4040564
42099|T||Jackson,D.I.|The Response of Oxalis latifolia to Hormone Herbicides|Weeds (Urbana)10:23-25|1962|10.2307/4040554
42100|T||Ross,J.G., G. Holm, and C.H. Chen|Mutagenic Effects of Colchicine and Ethylene Imine on Sorghum and Barley|Proc. S. D. Acad. Sci.40:170-175|1961|
42101|T||Batyuk,V.P., and M.Y. Palienko|Application of Certain Halogen-Containing Compounds and By-Products of Chemical Industry in the Control of Acroptilon picris|In: N.S.Sokolov, (Ed.), Herbicides in Agriculture (Conference Proceeding): Primenenie Gerbitsidov v Sel'skom Krozyaistve, Israel Program for Scientific Translations, Jerusalem, Israel:112-117|1962|
42102|T||Ashton,F.M., E.M.,Jr. Gifford, and T. Bisalputra|Structural Changes in Phaseolus vulgaris Induced by Atrazine I. Histological Changes|Bot. Gaz.124:329-335|1963|10.1086/336214
42103|T||Williams,M.C., and E.H. Cronin|Effect of Silvex and 2,4,5-T on Alkaloid Content of Tall Larkspur|Weeds (Urbana)11:317-319|1963|10.2307/4040541
42104|T||Riepma,P.|Herbicidal Effect and Plant Succession When Using Paraquat and Amitrole Against Paspalum conjugatum and Melastoma malabathricum|J. Rubber Res. Inst. Malays.18(1): 15-27|1963|
42105|T||Manuel,F.C.|Control of Weeds in Pineapple with Two Soil-Applied Herbicides|Philipp. Agric.46:514-524|1962|
42106|T||Lobarchuk,S.G.|Application of Herbicides to Potatoes|In: N.S.Sokolov, (Ed.), Herbicides in Agriculture (Conference Proceeding): Primenenie Gerbitsidov v Sel'skom Krozyaistve, Israel Program for Scientific Translations, Jerusalem, Israel:147-152|1962|
42107|T||Way,J.M.|The Effects of Sub-Lethal Doses of MCPA on the Morphology and Yield of Vegetable Crops. IV. French and Broad Beans|Weed Res. (Multiple Languages)3:312-321|1963|10.1111/j.1365-3180.1963.tb00251.x
42108|T||Beevers,L., D.M. Peterson, J.C. Shannon, and R.H. Hageman|Comparative Effects of 2,4-Dichlorophenoxyacetic Acid on Nitrate Metabolism in Corn and Cucumber|Plant Physiol.38:675-679|1963|10.1104/pp.38.6.675
42109|T||Ibanez,J.G.|The Use of Preemergence Herbicides for Weed Control Around Young Coffee Seedlings|J. Agric. Univ. P. R.48:25-31|1964|10.46429/jaupr.v48i1.12970
42110|T||Cannon,T.F., and J.B. Gartner|The Effect of Maleic Hydrazine on Forcing of Azaleas|Proc. Am. Soc. Hortic. Sci.83:741-744|1963|
42111|T||Newton,M.|Some Herbicide Effects on Potted Douglas Fir and Ponderosa Pine Seedlings|J. For.61:674-676|1963|
42112|T||Roe,E.I., and R.G. Buchman|Effect of Herbicide, Dosage and Volume on Hazel Brush at Different Foliar Stages|For. Sci.9:477-484|1963|
42113|T||Kalinin,F.L., and V.P. Lobov|Application of Chemical Methods for the Control of Acroptilon picris|In: N.S.Sokolov, (Ed.), Herbicides in Agriculture (Conference Proceeding): Primenenie Gerbitsidov v Sel'skom Krozyaistve, Israel Program for Scientific Translations, Jerusalem, Israel:107-111|1962|
42114|T||Edgerton,L.J., and M.B. Hoffman|Influence of Some Growth Regulators on Fruit Set in the Mcintosh Apple|Proc. Am. Soc. Hortic. Sci.83:63-67|1963|
42115|T||Gentner,W.A.|Herbicidal Activity of Vapors of 4-Amino-3,5,6-Trichloropicolinic Acid|Weeds (Urbana)12:239-240|1964|10.2307/4040740
42116|T||Staniforth,D.W., and W.G. Lovely|Foxtail Control in Corn with Dowpon|Down Earth19:24-27|1964|
42117|T||Wiltse,M.G.|Tordon Herbicide as a Soil Treatment for Brush Control|Down Earth19:3-6|1964|
42118|T||Wierszyllowski,J., Z. Rebandel, and W. Babilas|Influence of 2,4,5-T and Gibrescol on the Shedding of Fruit and Yield of the Sour Cherry, Hiszpanka Czarna Pozna (Spanische Schwarze)|Bull. Acad. Pol. Sci. Ser. Sci. Biol.11:191-197|1963|
42119|T||Burnside,O.C., G.A. Wicks, and C.R. Fenster|Influence of Tillage, Row Spacing, and Atrazine on Sorghum and Weed Yields from Nonirrigated Sorghum Across Nebraska|Weeds (Urbana)12:211-215|1964|10.2307/4040732
42120|T||Cronin,E.H., and M.C. Williams|Chemical Control of Timber Milkvetch and Effects on Associated Vegetation|Weeds (Urbana)12:177-179|1964|10.2307/4040723
42121|T||Kay,B.L.|Paraquat for Selective Control of Range Weeds|Weeds (Urbana)12:192-194|1964|10.2307/4040727
42122|T||Robocker,W.C., H.D. Kerr, and V.E. Bruns|Characteristics and Control of Swainson Pea|Weeds (Urbana)12:189-191|1964|10.2307/4040726
42123|T||Watson,A.J., and R.J.,Jr. Mesler|Effect of Tordon Herbicide As Basal Frill and Tree Injection Treatments on Certain Hardwood Trees|Down Earth19:20-23|1964|
42125|T||Gray,R.A., G.W. Gauger, E.L. Dulaney, E.A. Kaczka, and H.B. Woodruff|Hadacidin, A New Plant Growth Inhibitor Produced by Fermentation|Plant Physiol.39:204-207|1964|10.1104/pp.39.2.204
42126|T||Supniewska,J.H., and B. Dohnal|The Effect of Allyltrimethylammonium Bromide and Related Compounds on the Growth of Radish Hypocotyls|Bull. Acad. Pol. Sci. Ser. Sci. Biol.12(1): 45-52|1964|
42127|T||Poole,R.T.|"Effects of Gibberellic Acid and 2-Chloroethyl Trimethylammonium Chloride on Growth and Flowering of Gardenia Jasminoides ""Veitchii"""|Proc. Annu. Meet. Fla. State Hortic. Soc.76:474-477|1963|
42128|T||Barker,W.G., and W.B. Collins|An Effect of Gibberellic Acid upon the Maturing of Seeds in the Lowbrush Blueberry, Vaccinium Angustifolium Ait|Can. J. Bot.42:1102-1103|1964|10.1139/b64-103
42129|T||Froese-Gertzen,E.E., C.F. Konzak, R.A. Nilan, and R.E. Heiner|The Effect of Ethyl Methanesulfonate on the Growth Response, Chromosome Structure and Mutation Rate in Barley|Radiat. Bot.4:61-69|1964|10.1016/S0033-7560(64)80050-8
42130|T||Hamzi,H.Q., and F. Skoog|Kinetin-Like Growth-Promoting Activity of 1-Substituted Adenines 1-Benzyl-6-Aminopurine and 1-(gamma,gamma-Dimethylallyl)-6-Aminopurine|Proc. Northeast. Weed Control Conf.51:76-83|1964|
42131|T||Srivastava,B., I. Sahai, and W.O.S. Meredith|The Effect of Gibberellic Acid and N-Ethylmaleimide on Amylase Activity, Ascorbic Acid, and Glutathione in Germinating Barley Seeds|Can. J. Bot.42:507-513|1964|10.1139/b64-050
42132|T||Thatcher,A.P., G.V. Davis, and H.P. Alley|Chemical Control of Plains Prickly Pear in Southeastern Wyoming|J. Range Manag.17:190-193|1964|10.2307/3895763
42134|T||Mathur,S.N., and S.P. Mittal|Effect of Gibberellin on Flowering in Cotton|Physiol. Plant. (Multiple Languages)17:275-278|1964|10.1111/j.1399-3054.1964.tb08158.x
42135|T||Srivastava,B.I.|The Effect of Gibberellic Acid on Ribonuclease and Phytase Activity of Germinating Barley Seeds|Can. J. Bot.42:1303-1305|1964|10.1139/b64-123
42136|T||Davis,D.E., H.H.,Jr. Funderburk, and D.R. Roberts|The Bristly Thistle and Its Control|Weeds (Urbana)12(1): 22-25|1964|10.2307/4040631
42137|T||Robocker,W.C., and H.D. Kerr|Characteristics and Herbicidal Control of Flat Pea|Weeds (Urbana)12:40-42|1964|10.2307/4040637
42138|T||Sexsmith,J.J.|Morphological and Herbicide Susceptibility Differences Among Strains of Hoary Cress|Weeds (Urbana)12:19-22|1964|10.2307/4040630
42139|T||Nasrallah,M.E., and R.J. Hopp|Effect of a Selective Gametocide on Eggplant (Solanum melongena L.)|Proc. Am. Soc. Hortic. Sci.83:575-578|1963|
42140|T||Froese-Gertzen,E., R.A. Nilan, C.F. Konzak, and R.R. Legault|Effects of N-Butyl Methanesulphonate and Related Mutagens on Barley|Nature200:714-715|1963|10.1038/200714a0
42141|T||Asher,W.C.|Effects of 2-Chloroethyltrimethylammonium Chloride and 2,4-Dichlorobenzyltributyl Phosphonium Chloride on Growth and Transpiration of Slash Pine|Nature200:912-|1963|10.1038/200912a0
42143|T||Halevy,A.H., S.P. Monselise, and Z. Plant|Effects of Gibberellin on Translocation and on dry Matter and Water Content in Several Plant Species|Physiol. Plant. (Multiple Languages)17:49-62|1964|10.1111/j.1399-3054.1964.tb09016.x
42144|T||Gantz,R.L., and E.R. Laning|Tordon for the Control of Woody Rangeland Species in the Western United States|Down Earth19:10-13|1963|
42145|T||Rogozinska,J.H., J.P. Helgeson, and F. Skoog|Tests for Kinetin-Like Growth Promoting Activities of Triacanthine and Its Isomer, 6-Purine|Physiol. Plant. (Multiple Languages)17:165-176|1964|10.1111/j.1399-3054.1964.tb09029.x
42146|T||McGlasson,W.B., and H.K. Pratt|Effects of Ethylene on Cantaloupe Fruits Harvested at Various Ages|Plant Physiol.39:120-127|1964|10.1104/pp.39.1.120
42147|T||Gentner,W.A.|Herbicidal Activity of Several S-Triazines as Postemergence Sprays|Weeds (Urbana)12:115-117|1964|10.2307/4040609
42148|T||Hilton,J.L., T.J. Monaco, D.E. Moreland, and W.A. Gentner|Mode of Action of Substituted Uracil Herbicides|Weeds (Urbana)12:129-131|1964|10.2307/4040613
42149|T||Paul,J.R., and R.H. Biggs|"Influence of Gibberellic Acid, Mercaptoethanol, Mercaptoethylamine, Thiourea, and Urea on the Germination of ""Okinawa"" Peach Seeds"|Proc. Annu. Meet. Fla. State Hortic. Soc.76:393-397|1963|
42150|T||Dostal,R.|Effect of Gibberellic Acid on the Initiation of Buds in Lilac|Nature201:843-844|1964|10.1038/201843b0
42151|T||Jeater,R.S.L.|Evaluation of Paraquat and Diquat for Weed Control in Rubber|Weed Res. (Multiple Languages)4:133-141|1964|10.1111/j.1365-3180.1964.tb00282.x
42152|T||Romney,D.H.|Observations on the Effect of Herbicides on Young Coconuts|Weed Res. (Multiple Languages)4:24-30|1964|10.1111/j.1365-3180.1964.tb00264.x
42153|T||Burley,J.|Effect of Gibberellic Acid on Seed Germination of Sitka Spruce|For. Sci.10(2): 206-208|1964|
42155|T||Laloraya,M.M., and V.K. Rai|Effect of Auxin on the Nature of the Emergence of Lateral Roots in Phaseolus mungo Seedlings|Curr. Sci. (Bangalore)32:31-32|1963|
42156|T||Zeevaart,J.A.D.|Effects of the Growth Retardant Ccc on Floral Initiation and Growth in Pharbitis nil|Plant Physiol.39:402-408|1964|10.1104/pp.39.3.402
42157|T||Baron,F.J., N. Stark, and G.H. Schubert|Effects of Season and Rate of Application of 2,4-D and 2,4,5-T on Pine Seedlings and on Mountain Whitethorn in California|J. For.62:472-474|1964|
42158|T||Fukushima,E.|Acenaphthene as a Polyploidizing Agent|Proc. Imp. Acad.15:98-100|1939|10.2183/pjab1912.15.98
42159|T||Bausor,S.C., W.L. Reinhart, and G.A. Tice|Histological Changes in Tomato Stems Incident to Treatment with beta-Naphthoxyacetic Acid|Am. J. Bot.27:769-779|1940|10.1002/j.1537-2197.1940.tb10948.x
42160|T||Thornton,N.C., and C. Setterstrom|Toxicity of Ammonia, Chlorine, Hydrogen Cyanide, Hydrogen Sulphide and Sulphur Dioxide Gases.  III.  Green Plants|Contrib. Boyce Thompson Inst.11:343-356|1940|
42161|T||McCallan,S.E.A., and C. Setterstrom|Toxicity of Ammonia, Chlorine, Hydrogen Cyanide, Hydrogen Sulphide, and Sulphur Dioxide Gases.  I.  General Methods and Correlations|Contrib. Boyce Thompson Inst.11:325-330|1940|
42162|T||White,P.R.|Sucrose Vs. Dextrose As Carbohydrate Source for Excised Tomato Roots|Plant Physiol.15:355-358|1940|10.1104/pp.15.2.355
42163|T||Milbrath,J.A., and H. Hartman|Holly Defoliation Prevented by A-Naphthaleneacetic Acid|Science92:401-|1940|10.1126/science.92.2392.401.a
42164|T||Albaum,H.G., S. Kaiser, and B. Eichel|Coleoptile Growth After Preliminary Soaking of Oat Grains in Various Solutions|Am. J. Bot.27:619-623|1940|10.1002/j.1537-2197.1940.tb10924.x
42165|T||Patton,R.L., and B.R. Nebel|Preliminary Observations on Physiological and Cytological Effects of Certain Hydrocarbons on Plant Tissues|Am. J. Bot.27:609-613|1940|10.1002/j.1537-2197.1940.tb10922.x
42166|T||Guthrie,J.D.|Role of Glutathione in the Breaking of the Rest Period of Buds by Ethylene Chlorohydrin|Contrib. Boyce Thompson Inst.11:261-270|1940|
42167|T||Smith,O., L.B. Nash, and G.E. Davis|Chemical and Histological Responses of Bean Plants Grown at Different Levels of Nutrition to Indoleacetic Acid|Bot. Gaz.102:206-216|1940|10.1086/334944
42168|T||Meahl,R.P.|Effect of Pretreating Evergreen Cuttings with Alcohol Before Using Root-Promoting Substance in Powder Form|Proc. Am. Soc. Hortic. Sci.37:1105-1108|1939|
42169|T||Hamilton,C.C.|Methyl Bromide Fumigation for Control of Asiatic Beetle Grubs Attacking Azalea Plants|J. Econ. Entomol.33:486-490|1940|10.1093/jee/33.3.486
42170|T||Dennison,R.|Growth Response of Plants to Riboflavin and Ascorbic Acid|Science92:17|1940|10.1126/science.92.2375.17.a
42171|T||Traub,H.P., W.C. Cooper, and P.C. Reece|Inducing Flowering in the Pineapple, Ananas sativus|Proc. Am. Soc. Hortic. Sci.37:521-525|1939|
42172|T||Youden,W.J.|Seed Treatments with Talc and Root-Inducing Substances|Contrib. Boyce Thompson Inst.11:207-218|1940|
42173|T||Clements,H.F., and E. Akamine|Root Stimulation in Sugar Cane (Saccharum officinarum) with Special Reference to the Effects of Ethyl Alcohol|Am. J. Bot.27:482-487|1940|10.1002/j.1537-2197.1940.tb14709.x
42174|T||Barton,L.V.|Some Effects of Treatment of Seeds with Growth Substances on Dormancy|Contrib. Boyce Thompson Inst.11:229-240|1940|
42175|T||Barton,L.V.|Some Effects of Treatment of Non-Dormant Seeds with Certain Growth Substances|Contrib. Boyce Thompson Inst.11:181-205|1940|
42176|T||Tang,P.S., and S.W. Loo|Tests on After-Effects of Auxin Seed Treatment|Am. J. Bot.27:385-386|1940|
42177|T||Gross,E.W.|The Responses of Shoots of Mungo Bean Seedlings Growing in Solutions of 3-Indole-Acetic Acid|Am. J. Bot.27:371-376|1940|
42178|T||Grace,N.H.|Vegetative Propagation of Conifers.  IV.  Effects of Cane Sugar, Ethyl Mercuric Phosphate, and Indolylacetic Acid in Talc Dust on the Rooting of Norway Spruce|Can. J. Res. Sect. C Bot. Sci.18:13-17|1940|10.1139/cjr40c-003
42179|T||Grace,N.H.|Effects of Cane Sugar, Ethyl Mercuric Phosphate, and Indolylacetic Acid in Talc on the Rooting of Cuttings|Can. J. Res. Sect. C Bot. Sci.17:321-333|1939|10.1139/cjr39c-032
42180|T||Cooper,W.C., and K.R. Knowlton|The Effect of Synthetic Growth Substances on the Rooting of Subtropical Fruit Plants|Proc. Am. Soc. Hortic. Sci.37:1093-1098|1939|
42181|T||Emsweller,S.L., and P. Brierley|Colchicine-Induced Tetraploidy in Lilium|J. Hered.31:223-230|1940|10.1093/oxfordjournals.jhered.a104890
42182|T||Bonner,D.M., and J. Bonner|On the Influence of Various Growth Factors on the Growth of Green Plants|Am. J. Bot.27:38-42|1940|10.1002/j.1537-2197.1940.tb14212.x
42183|T||Bhiravamurty,P.V., R. Das Kanakala, E. Rao, and E.V. Sastry|Effect of Some Furofuranoid Lignans on Three Species of Seeds|Curr. Sci. (Bangalore)48:949-950|1979|
42184|T||Jones,T.W.A.|Biological Activity of 15,Alpha-Hydroxy Ga14 7,15-Lactone|Phytochemistry18:1752-1753|1979|10.1016/0031-9422(79)80207-1
42185|T||Langham,D.G.|Fertile Tetraploids of Sesame, Sesamum Indicum Loew, Induced by Colchicine|Science95:204|1942|10.1126/science.95.2460.204.a
42186|T||Bond,L.|Colchicine Stimulation of Seed Germination on Petunia Axillaris|J. Hered.33:200-201|1942|10.1093/oxfordjournals.jhered.a105167
42187|T||Bausor,S.C.|Interrelation of Organic Materials in the Growth Substance Response|Bot. Gaz.103:710-724|1942|10.1086/335089
42188|T||Mitchell,J.W., and F.R. Cullinan|Effects of Growth Regulating Chemicals on the Opening of Vegetative and Floral Buds of Peach and Pear|Plant Physiol.17:16-26|1942|10.1104/pp.17.1.16
42189|T||Newcomer,E.H.|A Colchine-Induced Tetraploid Cabbage|Am. Nat.75:620|1941|10.1086/281008
42191|T||Clarke,A.E., W.C. Edmundson, and P.M. Lombard|Seed-Setting in Potatoes as Affected by Spraying with A-Naphthaleneacetamide and by Light|Am. Potato J.18:273-279|1941|10.1007/BF02895492
42192|T||Jensen,H., and A. Levan|Colchicine-Induced Tetraploidy in Sequoia gigantea|Hereditas27:220-224|1941|10.1111/j.1601-5223.1941.tb03257.x
42193|T||Muntzing,A.|New Material and Cross Combinations in Galeopsis After Colchicine-Induced Chromosome Doubling|Hereditas27:193-201|1941|10.1111/j.1601-5223.1941.tb03253.x
42194|T||Graner,E.A.|Polyploid Cassava Induced by Colchicine Treatment|J. Hered.32:281-288|1941|10.1093/oxfordjournals.jhered.a105064
42195|T||Albaum,H.G., and B. Lommoner|The Relation Between the Four-Carbon Acids and the Growth of Oat Seedlings|Biol. Bull.80:314-323|1941|10.2307/1537718
42196|T||Hamilton,C.C.|Toxicity of Methyl Bromide to the Common Red Spider and to Greenhouse Roses|J. Econ. Entomol.34(2): 232-237|1941|10.1093/jee/34.2.232
42197|T||Templeman,W.G., and C.J. Marmoy|The Effect Upon the Growth of Plants of Watering with Solutions of Plant-Growth Substances and of Seed Dressings Containing These Materials|Ann. Appl. Biol.27:453-471|1940|10.1111/j.1744-7348.1940.tb07517.x
42198|T||Hitchcock,A.E., and P.W. Zimmerman|The Use of Naphthaleneacetic Acid and Its Derivatives for Preventing Fruit Drop of Apple|Proc. Am. Soc. Hortic. Sci.38:104-110|1941|
42199|T||Blum,J.L.|Responses of Sunflower Stems to Growth-Promoting Substances|Bot. Gaz.102:737-748|1941|10.1086/335007
42200|T||Minnum,E.L.|Effect of Several Growth Substances on Vegetative Crop Plants|Proc. Am. Soc. Hortic. Sci.38:477-478|1941|
42201|T||Weddle,L.|Two Colchicine-Induced Polyploids of the Greenhouse Chrysanthemum and Their Progeny|Proc. Am. Soc. Hortic. Sci.38:658-660|1941|
42202|T||Ahlgren,G.H.|The Effect of Adding Vitamin B1 (Thiamin) to Several Grass Species|Agron. J.33:572-576|1941|10.2134/agronj1941.00021962003300060010x
42203|T||Guthrie,J.D.|Sprays That Break the Rest Period of Peach Buds|Contrib. Boyce Thompson Inst.12:45-47|1941|
42204|T||Dermen,H.|Intranuclear Polyploidy in Bean Induced by Naphthalene-Acetic Acid|J. Hered.32:133-138|1941|10.1093/oxfordjournals.jhered.a105018
42205|T||James,W.O., and F.B. Hora|The Effect of Cyanide on the Respiration of Barley|Ann. Bot.4:107-118|1940|10.1093/oxfordjournals.aob.a086319
42206|T||Laurie,A., and D.C. Kiplinger|The Effect of Vitamin B1 on Some Ornamental Greenhouse Plants|Ohio Agric. Res. Dev. Cent.26:17-28|1941|
42207|T||Hwang,Y., and H.L. Pearse|The Response of Seeds and Seedlings to Treatment with Indolyacetic Acid|Ann. Bot.4(13): 31-37|1940|10.1093/oxfordjournals.aob.a086328
42208|T||Gustafson,F.G.|Lack of Inhibition of Lateral Buds by the Growth-Promoting Substance Phenylacetic Acid|Plant Physiol.16:203-206|1941|10.1104/pp.16.1.203
42210|T||Bennett,J.P., J. Oserkowsky, and L. Jacobson|Glutathione and the Rest Period of Buds|Am. J. Bot.27:883-887|1940|
42211|T||Mitchell,J.W., and M.R. Whitehead|Starch Hydrolysis in Bean Leaves As Affected by Application of Growth-Regulating Substances|Bot. Gaz.102:393-399|1940|10.1086/334968
42212|T||Howlett,F.S.|Experiments Concerning the Practicability of Certain Chemicals as a Means of Inducing Fruit Setting in the Tomato|Proc. Am. Soc. Hortic. Sci.37:886-890|1939|
42214|T||Brooks,H.J.|Responses of Pear Seedlings to N-Dimethylaminosuccinamic Acid, A Growth Retardant|Nature203:1303-|1964|10.1038/2031303a0
42215|T||Smeltzer,G.G.|The Influence of Gibberellic Acid Seed Treatment and Seed Spacing on Yield and Tuber Size of Potatoes|Am. Potato J.40:377-380|1963|10.1007/BF02849445
42216|T||Miller,J.H., and P.M. Miller|Effects of Auxin on Cell Enlargement in Fern Gametophytes: Developmental Stage of the Cell and Response to Auxin|Am. J. Bot.51:431-436|1964|10.1002/j.1537-2197.1964.tb06653.x
42217|T||Neumann,J.|The Effect of Actinomycin D on Lettuce Seedlings and Its Differential Uptake by Roots and Shoots|Physiol. Plant. (Multiple Languages)17:363-370|1964|10.1111/j.1399-3054.1964.tb08168.x
42218|T||Goss,R.L.|Preemergence Control of Annual Bluegrass (Poa annua L.)|Agron. J.56:479-481|1964|10.2134/agronj1964.00021962005600050010x
42219|T||Johnson,M.G.|Chemical Control of Weeds in Lining-Out Stock|For. Chron.40:392-397|1964|10.5558/tfc40392-3
42220|T||Wright,E.|Effect of Fumigation with Trizone on Microbial Properties of Soil and Growth of Seedlings|Down Earth20:13-15|1964|
42221|T||Smith,D., and K.P. Buchholtz|Modification of Plant Transpiration Rate with Chemicals|Plant Physiol.39:572-578|1964|10.1104/pp.39.4.572
42222|T||Dieterman,L.J., C.Y. Lin, L.M. Rohrbaugh, and S.H. Wender|Accumulation of Ayapin and Scopolin in Sunflower Plants Treated with 2,4-Dichlorophenoxyacetic Acid|Arch. Biochem. Biophys.106:275-279|1964|10.1016/0003-9861(64)90188-2
42223|T||Jiracek,V., H. Tomankova, E. Vedralova, and J. Kocourek|The Influence of 1- and 6-Thioglucose on the Growth and the Sugar and Free Amino Acid Content of Pea Seedlings|Naturwissenschaften51:199-|1964|10.1007/BF00600733
42224|T||Paleg,L., and B. Hyde|Physiological Effects of Gibberellic Acid. Vii. Electron Microscopy of Barley Aleurone Cells|Plant Physiol.39:673-680|1964|10.1104/pp.39.4.673
42225|T||Rerabek,J.|The Effect of Humic Acids on Growth and Metabolism of Plant Cells|Adv. Front. Plant Sci.6:87-111|1963|
42226|T||Sciuchetti,L.A.|Effect of Various Concentrations and Frequency of Application of Gibberellic Acid on Growth and Formation of Metabolic Products of Datura Stramonium|J. Pharm. Sci.53:61-69|1964|10.1002/jps.2600530111
42227|T||Scudder,W.T.|Evaluation of Herbicides for Soybeans on Central Florida Organic Soils|Fla. Agric. Exp. Stn. Bull.650:3-36|1963|
42228|T||Cottrell,H.J., and B.J. Heywood|Benzenesulphonylcarbamates: New Herbicides|Nature207:655-656|1965|10.1038/207655a0
42229|T||Lange,A.H., F.M. Ashton, V.H. Schweers, H.B. Collins, H. Agamalian, A.F. Van Maren, R.C. King, and H.L. Hall|Weed Control in Tomatoes|Calif. Agric.19(3): 8-10|1965|
42230|T||Panigrahi,B.M., and G. Misra|Use of 2,4-Dichlorophenoxyacetic Acid in the Control of Argemone mexicana L. and Heliotropium indicum L.|Sci. Cult.28:426-427|1962|
42231|T||Bachelard,E.P.|The Interrelations Between Root Formation and Anthocyanin Synthesis in Red Maple Cuttings: Effects of Gibberellic Acid, CCC, and 8-Azaguanine|Aust. J. Biol. Sci.18:699-702|1965|10.1071/BI9650699
42232|T||Iyer,J.G., and S.A. Wilde|Effect of Vapam Biocide on the Growth of Red Pine Seedlings|J. For.63:703-704|1965|
42233|T||Biswas,P.K., and D.D. Hemphill|Role of Growth Regulators in the Uptake and Metabolism of S-Triazine Herbicide by Tea Leaves|Nature207:215-216|1965|10.1038/207215a0
42234|T||Reed,D.J., T.C. Moore, and J.D. Anderson|Plant Growth Retardant B-995: A Possible Mode of Action|Science148:1469-1471|1965|10.1126/science.148.3676.1469
42235|T||Mann,J.D., L.S. Jordan, and B.E. Day|A Survey of Herbicides for Their Effect upon Protein Synthesis|Plant Physiol.40(5): 840-843|1965|10.1104/pp.40.5.840
42236|T||Parker,M.B., and J. Taylor|Carbaryl Toxicity Symptoms on Soybeans|Plant Dis. Rep.49(2): 168-169|1965|
42237|T||Weiss,P.W., and B.J. Hall|An Evaluation of the Herbicidal Properties of Two New Chemicals - Prometryne and Ametryne|Aust. J. Exp. Agric. Anim. Husb.3:338-343|1963|10.1071/EA9630338
42238|T||Llewelyn,F.W.M.|The Effect of Four Fungicide Sprays and DDT Dust on the Extension Growth of An Apple Rootstock|East Malling Res. Stn. Annu. Rep.1963:98-103|1964|
42239|T||Petrov,K.P.|Determination of the Effect of Dicarboxyl Acids and Inhibitors on the Suction Power of Plants|Fiziol. Rast. (Mosc.) (Non-English)11:531-534|1964|
42240|T||Miller,P.M., J.F. Ahrens, and E.M. Stoddard|Stimulation of Crabgrass Seed Germination by 1,2-Dibromo-3-Chloropropane and Ethylene Dibromide|Weeds (Urbana)13:13-14|1965|10.2307/4041086
42241|T||Zink,F.W., and H. Agamalian|Influence of CDEC on Growth, Maturity and Yield of Head Lettuce|Weeds (Urbana)13:19-22|1965|10.2307/4041088
42242|T||Isenberg,F.M., and J. Ang|Effects of Maleic Hydrazide Field Sprays on Storage Quality of Onion Bulbs|Proc. Am. Soc. Hortic. Sci.84:378-385|1964|
42243|T||Witkus,E.R., C.A. Berger, and M.C. Herold|The Effects of Gibberellin and Kinetin on the Growth of Xanthisma Texanum Dc|Phyton (Horn) (Multiple Languages)20:83-86|1963|
42244|T||Warden,R.L.|Tordon for the Control of Field Bindweed and Canada Thistle in the North Central U.S|Down Earth20:6-10|1964|
42245|T||Thorn,G.D., and W.H. Minshall|The Effect of Sodium Dimethyldithiocarbamate on Water Uptake, Transpiration and a Stomatal Opening|Can. J. Bot.42:1405-1410|1964|10.1139/b64-136
42246|T||Bourke,J.B., J.S. Butts, and S.C. Fang|Effect of Various Herbicides on Glucose Metabolism in Root Tissue of Garden Peas.  II.  Plant Growth Regulators and Other Herbicides|Weeds (Urbana)12:272-276|1964|10.2307/4040752
42247|T||Schweizer,E.E.|Effects of Amitrole on Acid-Soluble Nucleotides and Ribonucleic Acid in Corn Tissue|Weeds (Urbana)12:310-311|1964|10.2307/4040763
42248|T||Pearce,G.A.|The Effect of Herbicides on Doublegee (Emex australis) and Associated Pasture Species|Aust. J. Exp. Agric. Anim. Husb.4:185-188|1964|10.1071/EA9640185
42249|T||Kasasian,L.|Chemical Weed Control in Citrus Nursery Stock in Trinidad|Trop. Agric.41(4): 329-333|1964|
42250|T||Palmer,J.H.|Comparative Study of the Effects of Applied Indoleacetic Acid and Horizontal Orientation of the Primary Shoot, upon Internode Extension and Petiole Orientation|Planta (Multiple Languages)61:283-297|1964|10.1007/BF01894996
42251|T||Bovey,R.W.|Aerial Application of Herbicides for Control of Sand Sagebrush|J. Range Manag.17:253-256|1964|10.2307/3895445
42252|T||Southwick,F.W., W.D. Weeks, and G.W. Olanyk|The Effect of Naphthaleneacetic Acid Type Materials and L-Naphthyl N-Methylcarbamate (Sevin) on the Fruiting, Flowering and Keeping Quality of Apples|Proc. Am. Soc. Hortic. Sci.84:14-24|1964|
42253|T||Venkataratnam,L.|Effect of Gibberellic Acid on Anab-E-Shahi Grape (Vitis vinifera)|Proc. Am. Soc. Hortic. Sci.84:255-258|1964|
42254|T||Lyons,J.M., and H.K. Pratt|Effect of Stage of Maturity and Ethylene Treatment on Respiration and Ripening of Tomato Fruits|Proc. Am. Soc. Hortic. Sci.84:491-500|1964|
42255|T||Raghavan,V., and J.G. Torrey|Effects of Certain Growth Substances on the Growth and Morphogenesis of Immature Embryos of Capsella Bursa-Pastoris in Culture|Plant Physiol.39:691-699|1964|10.1104/pp.39.4.691
42256|T||Brian,P.W., H.G. Hemming, and D. Lowe|Comparative Potency of Nine Gibberellins|Ann. Bot.28:369-389|1964|10.1093/oxfordjournals.aob.a083899
42257|T||Shannon,J.C., J.B. Hanson, and C.M. Wilson|Ribonuclease Levels in the Mesocotyl Tissue of Zea mays as a Function of 2,4-Dichlorophenoxyacetic Acid Application|Plant Physiol.39:804-807|1964|10.1104/pp.39.5.804
42258|T||Burnside,O.C., and G.A. Wicks|Cultivation and Herbicide Treatments of Dryland Sorghum|Weeds (Urbana)12:307-310|1964|10.2307/4040762
42259|T||Waldrep,T.W., and J.F. Freeman|Herbicides for Nimblewill in Kentucky Bluegrass Pasture|Weeds (Urbana)12:317-318|1964|10.2307/4040767
42260|T||Gossard,A.C.|Root and Shoot Production by Young Pecan Trees Treated with Indole-Butyric Acid and at the Time of Transplanting|Proc. Am. Soc. Hortic. Sci.41:161-166|1942|
42261|T||Howlett,F.S.|Fruit Set and Development from Pollinated Tomato Flowers Treated with Indolebutyric Acid|Proc. Am. Soc. Hortic. Sci.41:277-281|1942|
42262|T||Howlett,F.S.|Di-Nitro Compounds Employed As Sprays to Reduce Fruit Set in the Apple|Proc. Am. Soc. Hortic. Sci.42:151-158|1943|
42263|T||Snapp,O.I.|Propylene Dichloride for Peachtree Borer Control|J. Econ. Entomol.36:765-768|1943|10.1093/jee/36.5.765
42264|T||Bailey,J.S., and A.I. Bourne|An Unusual Type of Ethylene Dichloride Injury to Peach|J. Econ. Entomol.36(3): 470-471|1943|10.1093/jee/36.3.470a
42265|T||Easter,S.S., and G.L. Phillips|Effect of Fumigation with Methyl Bromide and Paradichlorobenzene on Germination and Productivity of Seed Sweetpotatoes|J. Econ. Entomol.36:552-554|1943|10.1093/jee/36.4.552
42266|T||Stoutemyer,V.T.|The Influence of Substituted Groups in Some Plant Growth Substances on Rooting Responses of Cuttings|Proc. Am. Soc. Hortic. Sci.42:365-368|1943|
42267|T||Harmon,F.N.|Influence on Indolebutyric Acid on the Rootings of Grape Cuttings|Proc. Am. Soc. Hortic. Sci.42:383-388|1943|
42268|T||Greene,L.|Growth Regulators and Fruit Set with Starking Apples|Proc. Am. Soc. Hortic. Sci.42:149-150|1943|
42269|T||Beal,J.M.|Histological Studies on Parthenocarpic Fruits of Lilium Regale Induced by Growth Substances|Bot. Gaz.105:25-34|1943|10.1086/335188
42270|T||Fowells,H.A.|The Effect of Certain Growth Substances on Root-Pruned Ponderosa Pine Seedlings|J. For.41:685-686|1943|
42271|T||Hitchcock,A.E., and P.W. Zimmerman|Summer Sprays with Potassium A-Naphthaleneacetate Retard Opening of Buds on Fruit Trees|Proc. Am. Soc. Hortic. Sci.42:141-145|1943|
42272|T||Mehlquist,G.A.L., C.O. Blodgett, and L. Bruscia|Colchicine Induced Tetraploidy in Delphinum Cardinale|J. Hered.34:187-192|1943|10.1093/oxfordjournals.jhered.a105281
42273|T||Clark,H.E., and K.R. Kerns|Effects of Growth Regulating Substances on a Parthenocarpic Fruit|Bot. Gaz.104:639-644|1943|10.1086/335178
42274|T||Zimmerman,P.W., and A.E. Hitchcock|Flowering Habit and Correlation of Organs Modified by Triiodobenzoic Acid|Contrib. Boyce Thompson Inst.12:491-496|1942|
42275|T||Sparrow,A.H.|Colchicine Induced Univalents in Diploid Antirrhinum majus L.|Science96:363-364|1942|10.1126/science.96.2494.363
42276|T||Ritcher,P.O., and H.H. Jewlett|White Grub with Dichloroethyl Ether|J. Econ. Entomol.35:441-445|1942|10.1093/jee/35.3.441
42277|T||Campbell,R.E.|Dichlorethyl Ether for Protecting Melon Plants from Wireworms|J. Econ. Entomol.35:26-30|1942|10.1093/jee/35.1.26
42278|T||Marth,P.C.|Effects of Growth-Regulating Substances on Development of Roses During Common Storage|Bot. Gaz.104:26-49|1942|10.1086/335104
42279|T||Howlett,F.S.|Effect of Indolebutyric Acid upon Tomato Fruit Set and Development|Proc. Am. Soc. Hortic. Sci.39:217-227|1941|
42281|T||Bell,S.L., and S. Wolff|Effects of 5-Fluorodeoxyuridine on DNA Synthesis in Vicia faba|J. Cell Biol.23:9A|1964|
42282|T||Brender,E.V., and E.L. Moyer|Further Progress in the Control of Kudzu|Down Earth20:16-17|1965|
42283|T||Friesen,G.|Wild Buckwheat Control with Tordon|Down Earth20:9-10|1965|
42284|T||Davidson,D.|A Differential Response to Colchicine of Meristems of Roots of Vicia Faba|Ann. Bot.29:253-264|1965|
42285|T||Inouye,J.|Effects of Chemicals on Flower Bud Initiation in Cereals. I. Effect of 2-Thiouracil on Rice Plants Grown Under Aseptic Conditions|Plant Cell Physiol.6:131-134|1965|10.1093/oxfordjournals.pcp.a079080
42286|T||Bingham,S.W.|Chemical Control of Mugwort|Weeds (Urbana)13:239-242|1965|10.2307/4041036
42287|T||Foy,C.L., and D. Penner|Effect of Inhibitors and Herbicides on Tricarboxylic Acid Cycle Substrate Oxidation by Isolated Cucumber Mitochondria|Weeds (Urbana)13:226-231|1965|10.2307/4041033
42288|T||Fisher,V.J.|The Effect of Weed Control by Isocil and Bromacil on Growth of Young Peach and Apple Trees|Proc. Am. Soc. Hortic. Sci.86:148-151|1965|
42289|T||Taylorson,R.B.|New Herbicides for Sweet Potatoes|Proc. Am. Soc. Hortic. Sci.86:517-522|1965|
42290|T||Gilbert,D.A., and R.R. Dedolph|Phytokinin Effects on Respiration and Photosynthesis in Roses and Broccoli|Proc. Am. Soc. Hortic. Sci.86:774-778|1965|
42291|T||Thomas,E.W., B.C. Loughman, and R.G. Powell|Metabolic Fate of 2,4-Dichlorophenoxyacetic Acid in the Stem Tissue of Phaseolus vulgaris|Nature204:884-885|1964|10.1038/204884a0
42292|T||Williams,M.W., and L.P. Batjer|Site and Mode of Action of 1-Naphthyl N-Methylcarbamate (Sevin) in Thinning Apples|Proc. Am. Soc. Hortic. Sci.85:1-10|1964|
42293|T||Hendershott,C.H.|The Effect of Various Chemicals on the Induction of Fruit Abscission in 'Pineapple' Oranges|Proc. Am. Soc. Hortic. Sci.85:201-209|1964|
42294|T||Kerr,M.W., and R.L. Wain|Inhibition of the Ferricyanide-Hill Reaction of Isolated Bean Leaf Chloroplasts by 3,5-Diiodo-4-Hydroxybenzonitrile and Related Compounds|Ann. Appl. Biol.54:447-450|1964|10.1111/j.1744-7348.1964.tb01208.x
42295|T||Belli,M.L., and T. Cervigni|Treatment of Seeds with Ethylmethanesulphonate and Diethylsulphate|Nature204:1199-1200|1964|10.1038/2041199a0
42296|T||Fawcett,C.H.|Auxin Activity of Certain Oximes|Nature204(4964): 1200-1201|1964|10.1038/2041200a0
42297|T||Speckmann,G.J.|The Mutagenic Effect of Treatment with Ems at Different Temperatures in Pisum sativum|Euphytica 13:337-344|1964|10.1007/BF00023114
42298|T||Paleg,L., H. Kende, H. Ninnemann, and A. Lang|Physiological Effects of Gibberellic Acid.  VIII.  Growth Retardants on Barley Endosperm|Plant Physiol.40:165-169|1965|10.1104/pp.40.1.165
42299|T||Parthier,B., B. Malaviya, and K. Mothes|Effects of Chloramphenicol and Kinetin on Uptake and Incorporation of Amino Acids by Tobacco Leaf Disks|Plant Cell Physiol.5:401-411|1964|
42300|T||Huffaker,R.C., M. Akasha, A.V. Sarquis, and M.D. Miller|Effect of 2,4-D Alone and in Combination with Chelated and Nonchelated Metal Additives on Growth of Field Beans (Phaseolus vulgaris)|Crop Sci.4:649-651|1964|10.2135/cropsci1964.0011183X000400060029x
42301|T||Erickson,L.C.|The Movement and Phytotoxicity of Monuron in Palouse Silt Loam Soil|Weeds (Urbana)13:100-102|1965|10.2307/4041146
42302|T||Heikes,E.E.|Tordon and Other Herbicides.  Field Testing for the Control of Deep-Rooted Perennial Weeds in Colorado|Down Earth20:9-12|1964|
42303|T||Fucik,V., Z. Sormova, and F. Sorm|The Effect of 5-Azacytidine on the Root Meristem of Vicia faba|Biol. Plant. (Praha)7:58-64|1965|10.1007/BF02920680
42304|T||Goyal,R.D.|Effect of Colchicine and Sulphanilamide Treatment on the Morphology of the Plants of Broad Beans (Vicia faba, Linn.)|Sci. Cult.30(6): 289-290|1964|
42305|T||Kulkarni,V.G., and B.R. Deshpande|Effect of 2:4-D on Germination of Coconut (Cocos nucifera L.)|Sci. Cult.30(9): 452-453|1964|
42306|T||Baldev,B., and A. Lang|Control of Flower Formation by Growth Retardants and Gibberellin in Samolus parviflorus, a Long-Day Plant|Am. J. Bot.52(4): 408-417|1965|10.1002/j.1537-2197.1965.tb06802.x
42307|T||Riepma,K.P.|The Effect of Disodium Methylarsonate, Dalapon, Amitrole-T and Paraquat on Axonpus compressus, Ottochloa nodosa and Paspalum conjugatum|Weed Res. (Multiple Languages)5:151-157|1965|10.1111/j.1365-3180.1965.tb00338.x
42308|T||Van Oorschot,J.L.P.|Selectivity and Physiological Inactivation of Some Herbicides Inhibiting Photosynthesis|Weed Res. (Multiple Languages)5:84-97|1965|10.1111/j.1365-3180.1965.tb00331.x
42309|T||Waterson,H.A., J. Craig, and R. Joice|Evaluation of Herbicides for the Control of Couchgrass, Agropyron repens (L.) Beauv.|Weed Res. (Multiple Languages)4:229-240|1964|10.1111/j.1365-3180.1964.tb00292.x
42310|T||Grover,R.|Effect of Several Herbicides on Germination, Survival and Early Growth of Caragana and on Weeds|Can. J. Plant Sci.45:477-486|1965|10.4141/cjps65-092
42311|T||MacLeod,D.G.|The Effect of MCPA on the Amino Acid and Sugar Composition of Vicia faba Leaves|Weed Res. (Multiple Languages)4:275-282|1964|10.1111/j.1365-3180.1964.tb00302.x
42312|T||Way,J.M.|The Effects of Sub-Lethal Doses of MCPA on the Morphology and Yield of Vegetable Crops  VI.  Comparison with 2,4-D, 2,4,5-T, Mecoprop and 2,3,6-TBA|Weed Res. (Multiple Languages)4:319-337|1964|10.1111/j.1365-3180.1964.tb00306.x
42314|T||Bartels,P.G., and F.T. Wolf|The Effect of Amitrole upon Nucleic Acid and Protein Metabolism of Wheat Seedlings|Physiol. Plant. (Multiple Languages)18:805-812|1965|10.1111/j.1399-3054.1965.tb06939.x
42315|T||Chin,T.Y., and J.A. Lockhart|Translocation of Applied Gibberellin in Bean Seedlings|Am. J. Bot.52:828-833|1965|10.1002/j.1537-2197.1965.tb07254.x
42316|T||Collins,W.B., and C.F. Everett|Simazine for Weed Control in Strawberries in Eastern Canada|Can. J. Plant Sci.45:541-547|1965|10.4141/cjps65-105
42317|T||Leefe,J.S.|The Use of Simazine and Its Effect on the Yield and Labor Time Required to Weed Strawberries|Can. J. Plant Sci.45:537-540|1965|10.4141/cjps65-104
42320|T||Pillay,D.T.N.|Responses of Soybean Seedlings to N-Dimethylaminosuccinamic Acid, a Growth Retardant|Can. J. Bot.43:1477-1478|1965|10.1139/b65-156
42321|T||Reed,D.J.|Tryptamine Oxidation by Extracts of Pea Seedlings: Effect of Growth Retardant Beta-Hydroxyethylhydrazine|Science148:1097-1099|1965|10.1126/science.148.3673.1097
42322|T||Shanmugavelu,K.G.|Effect of Gibberellic Acid on Endogenous Auxins in Plants|Curr. Sci. (Bangalore)34:186-187|1965|
42323|T||Van Bragt,J., L.M. Rohrbaugh, and S.H. Wender|The Effect of 2,4-Dichlorophenoxyacetic Acid on the Rutin Content of Tomato Plants|Phytochemistry4:963-965|1965|10.1016/S0031-9422(00)86274-3
42324|T||Chen,H., and A.W. Galston|Inhibitory Effects of 6-Methylpurine on Plant Cell Growth|Plant Cell Physiol.6:365-370|1965|10.1093/oxfordjournals.pcp.a079108
42325|T||Christie,A.E., and A.C. Leopold|On the Manner of Triiodobenzoic Acid Inhibition of Auxin Transport|Plant Cell Physiol.6:337-345|1965|10.1093/oxfordjournals.pcp.a079104
42326|T||Mukai,N., and S. Kinoshita|Stimulative Effect of Halogenated Tyrosine on Root Growth of Rice Seedling|Plant Cell Physiol.6:161-166|1965|10.1093/oxfordjournals.pcp.a079091
42327|T||Suge,H., and N. Yamada|Flower-Promoting Effect of Gibberellin in Winter Wheat and Barley|Plant Cell Physiol.6:147-160|1965|10.1093/oxfordjournals.pcp.a079090
42328|T||Hughes,E.E.|Basal and Stump Sprays for Control of Saltcedar|Weeds (Urbana)13:338-340|1965|10.2307/4040891
42329|T||Lane,H.C., J.E. Baker, and L.L. Danielson|Effect of Diuron on Photosynthesis and Photomorphogenesis of Dodder Seedlings|Weeds (Urbana)13:371-372|1965|10.2307/4040900
42330|T||Romney,D.H.|Further Experiments with Herbicides on Young Coconuts|Trop. Agric.42:177-181|1965|
42331|T||Taylorson,R.B.|Delayed Preemergence Weed Control in Seeded Tomatoes and Peppers|Weeds (Urbana)13:306-308|1965|10.2307/4040881
42332|T||Bari,G.|The Mutagenic Effect of Ethyl Methane Sulphonate Alone and in Combination with Copper on Wheat|Caryologia (Multiple Languages)16:619-624|1963|10.1080/00087114.1963.10796101
42333|T||Bartels,P.G.|Effect of Amitrole on Ultrastructure of Plastids in Seedlings|Plant Cell Physiol.6:361-364|1965|10.1093/oxfordjournals.pcp.a079107
42334|T||Katsumi,M., B.O. Phinney, and W.K. Purves|The Roles of Gibberellin and Auxin in Cucumber Hypocotyl Growth|Physiol. Plant. (Multiple Languages)18:462-473|1965|10.1111/j.1399-3054.1965.tb06909.x
42335|T||David,S.K.|Phytotoxicity of Some Systemic Pesticides to Seeds and Plants|Indian J. Agric. Sci.35:57-66|1965|
42336|T||Moore,J.N., and D.H. Scott|Effects of Gibberellic Acid and Blossom Removal on Runner Production of Strawberry Varieties|Proc. Am. Soc. Hortic. Sci.87:240-244|1965|
42337|T||Jaffe,M.J., and F.M. Isenberg|Some Effects on N-Dimethyl Amino Succinamic Acid (B-Nine) on the Development of Various Plants, with Special Reference to the Cucumber, Cucumis sativus L.|Proc. Am. Soc. Hortic. Sci.87:420-428|1965|
42338|T||Jones,C.M.|Effects of Benzyladenine on Fruit Set in Muskmelon|Proc. Am. Soc. Hortic. Sci.87:335-340|1965|
42339|T||Mastalerz,J.W.|The Effect of Gibberellic Acid on the Flowering Shoots of 'Better Times' Roses|Proc. Am. Soc. Hortic. Sci.87:525-530|1965|
42340|T||Nanda,K.K., and A.N. Purohit|Effect of Gibberellin on Forest Plants. I. Rate of Extension Growth in Seedlings of Salmalia Malabarica Schott. & Endl|Indian J. Plant Physiol.7:35-47|1964|
42341|T||Smith,L.W., and P.J. Davies|The Translocation and Distribution of Three Labelled Herbicides in Paspalum Distichum l|Weed Res. (Multiple Languages)5:343-347|1965|10.1111/j.1365-3180.1965.tb00362.x
42342|T||Gentner,W.A.|The Inflence of EPTC on External Foliage Wax Deposition|Weeds (Urbana)14:27-31|1966|10.2307/4041117
42343|T||Simpson,G.M.|The Suppression by Trimethylammonium Chloride of Synthesis of A Gibberellin-Like Substance by Embryos of Avena fatua|Can. J. Bot.44:115-116|1966|10.1139/b66-018
42344|T||Vieitez,E., J. Mendez, C. Mato, and A. Vazquez|Effects of Tweens 80, 40 and 20 on the Growth of Avena Coleptile Sections|Physiol. Plant. (Multiple Languages)18:1143-1146|1965|10.1111/j.1399-3054.1965.tb07014.x
42345|T||Hield,H.Z., R.M. Burns, C.W.,Jr. Coggins, and B. Boswell|Maleic Hydrazide Sprays Retard Topping Regrowth in Lemon Tests|Calif. Agric.18(5): 4-5|1964|
42346|T||Black,M., and M. Richardson|Promotion of Germination in Light-Requiring Seed by Chloroamphenicol|Nature208:1114-1115|1965|10.1038/2081114a0
42347|T||Stott,K.G.|Further Experiments on the Effects of Time of Application of Some Herbicides on the Control of Field Thistle (Cirsium arvense (L.) Scop.) in Mature Willow Beds|Long Ashton Res. Stn. Rep.1964:218-229|1964|
42348|T||Stott,K.G.|Simazine, Bromacil and MCPA for the Control of Perennial Nettle (Urtica dioica) in Mature Willow Beds|Long Ashton Res. Stn. Rep.1964:211-217|1964|
42349|T||Stott,K.G.|The Effects of Applying Simazine, Atrazine, Diuron and Monuron for the Control of Weeds in Newly Planted Commercial Willow Beds|Long Ashton Res. Stn. Rep.:203-210|1965|
42350|T||Halevy,A.H., and S.H. Wittwer|Growth Promotion in the Snapdragon by CCC, a Growth Retardant|Naturwissenschaften52:310-|1965|10.1007/BF00608054
42351|T||Martin,G.C., and W. Lopushinsky|Effect of N-Dimethyl Amino-Succinamic Acid (B-995), A Growth Retardant, on Drought Tolerance|Nature209:216-217|1966|10.1038/209216a0
42352|T||Bidwell,R.G.S., and W.B. Turner|Effects of Growth Regulators on C02 Assimilation in Leaves, and Its Correlation with the Bud Break Response in Photosynthesis|Plant Physiol.41:267-270|1966|10.1104/pp.41.2.267
42353|T||Garrad,L.A., and R.H. Biggs|A Study of Thioamide-Induced Germination of Seeds of Prunus Persica|Phytochemistry5:103-110|1966|10.1016/S0031-9422(00)85087-6
42354|T||Giles,K.W., and A. Myers|The Effects of Gibberellic Acid and Light on Rna, Dna and Growth of the Three Basal Internodes of Dwarf and Tall Peas|Phytochemistry5:193-196|1966|10.1016/S0031-9422(00)85099-2
42355|T||Edgerton,L.J., and M.B. Hoffman|Inhibition of Fruit Drop and Color Stimulation with N-Dimethylaminosuccinamic Acid|Nature209:314-315|1966|10.1038/209314a0
42356|T||Rochecouste,E., and J. Pilot|The Control of Weeds in Tea by Herbicides in Mauritius|Weed Res. (Multiple Languages)6:50-57|1966|10.1111/j.1365-3180.1966.tb00866.x
42357|T||Anderson,J.W., and K.S. Rowan|The Effect of 6-Furfurylaminopurine on Senescence in Tobacco-Leaf Tissue After Harvest|Biochem. J. (Lond.)98:401-404|1966|10.1042/bj0980401
42358|T||Heide,O.M.|Effects of 6-Benzylamino-Purine and 1-Naphthaleneacetic Acid on the Epiphyllous Bud Formation in Bryophyllum|Planta (Multiple Languages)67:281-296|1965|10.1007/BF00385657
42359|T||Soekarjo,R.|The Effect of Caffeic Acid on the Epinastic Curvature of Isolated Petioles of Coleus sp. in Comparison with the Effect of Gibberellic Acid and Indoleacetic Acid|Acta Bot. Neerl.14:266-277|1965|10.1111/j.1438-8677.1965.tb00194.x
42360|T||Zalik,S., G.A. Hobbs, and A.C. Leopold|Parthenocarpy in Tomatoes Induced by Para-chlorophenoxyacetic Acid Applied to Several Loci|Proc. Am. Soc. Hortic. Sci.58:201-207|1951|
42361|T||Said,H., and M.I. Naguib|The Effects of Colchicine, Indoleacetic Acid and Pulvinic Acid on the Histology of the Growing Tips of Vicia Faba|Proc. Egypt. Acad. Sci.6:63-75|1950|
42362|T||Dallyn,S., and O. Smith|Effect of Applications of Growth Substances on Sprouting of Carrots, Turnips, and Onions in Storage|Bot. Gaz.113:362-367|1952|10.1086/335727
42363|T||Crane,J.C., and T.S. Mallah|Varietal Root and Top Regeneration of Fig Cuttings As Influenced by the Application of Indolebutyric Acid|Plant Physiol.27:309-319|1952|10.1104/pp.27.2.309
42364|T||Chadwick,L.C., R.R. Miller, and D. Erskine|The Prevention of Fruit Formation on Some Ornamental Trees|Proc. Am. Soc. Hortic. Sci.58:308-312|1951|
42365|T||Stewart,W.S., and H.Z. Hield|Effects of Growth-Regulating Sprays on Fruit Set of Avacado|Proc. Am. Soc. Hortic. Sci.58:53-56|1951|
42366|T||Bryant,L.R., and L.W. Rasmussen|The Use of 2,4-D in Orchard Bindweed Control|Proc. Am. Soc. Hortic. Sci.58:131-135|1951|
42367|T||Zielinski,Q.B., P.C. Marth, and V.E. Prince|Effects of 2,4,5-Trichlorophenoxyacetic Acid on the Maturation of Prunes|Proc. Am. Soc. Hortic. Sci.58:65-68|1951|
42368|T||Thompson,A.H.|The Effect of 2,4,5-Trichlorophenoxypropionic Acid Sprays in Delaying the Preharvest Drop of Several Apple Varieties|Proc. Am. Soc. Hortic. Sci.58:57-64|1951|
42369|T||Higdon,R.J.|The Effects of 2,4,5-Trichlorophenoxyacetic Acid on the Development and Ripening of Eighteen Varieties of Peach Fruits|Proc. Am. Soc. Hortic. Sci.58:73-79|1951|
42370|T||Stewart,W.S., L.J. Klotz, and H.Z. Hield|Effects of 2,4-D and Related Substances on Fruit-Drop, Yield, Size, and Quality of Washington Navel Oranges|Hilgardia21(7): 161-193|1951|10.3733/hilg.v21n07p161
42371|T||Rodgers,E.G.|Brittleness and Other Responses of Corn to 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.27:153-172|1952|10.1104/pp.27.1.153
42372|T||Kruyt,W., and H. Veldstra|Researches on Plant Growth Regulators Xviii. Potato Sprout Inhibition by A-(Alkoxymethyl-)Naphthalenes|Landbouwkd. Tijdschr. (Non-English)63:398-403|1951|
42373|T||Halls,L.K., and G.W. Burton|Effect of 2,4-D, 2,4,5-T, and Sodium Trichloroacetate on Gallberry|J. For.49:895-897|1975|
42375|T||Weaver,R.J., and W.O. Williams|Reponse of Certain Varieties of Grapes to Plant Growth Regulators|Bot. Gaz.113:75-85|1951|10.1086/335695
42376|T||Halliday,D.J., and W.G. Templeman|Field Experiments in Selective Weed Control by Plant-Growth Regulators. IV. The Effect of Plant-Growth Regulators upon the Productivity of Grassland|Exp. Agric.19(74): 104-112|1951|
42377|T||Griggs,W.H., B.T. Iwakiri, and J.E. DeTar|The Effect of 2,4,5-Trichlorophenoxypropionic Acid Applied During the Bloom Period on the Fruit Set of Several Pear Varieties, and of the Shape, Size, Stem Length, Seed Content, and Storage of Bartlett Pears|Proc. Am. Soc. Hortic. Sci.58:37-45|1951|
42378|T||Hopkins,H.T.|Inhibition of Growth by Benzene Hexachloride Isomers and Protective Effect of Glucose as Measured by Cell Counting Technique|Plant Physiol.27(3): 526-540|1952|10.1104/pp.27.3.526
42380|T||Michel,B.E.|Effects of Indoleacetic Acid upon Growth and Respiration of Kidney Bean|Bot. Gaz.112:418-436|1951|10.1086/335676
42381|T||Allen,S.E., and F. Skoog|Stimulation of Seedling Growth by Seed Treatments with N-Phenylsuccinimide Derivatives|Plant Physiol.27:179-183|1952|10.1104/pp.27.1.179
42382|T||Gentner,W.A.|Herbicidal Properties of Trifluralin Analogs (on Corn, Cotton, Soybeans, Wheat, Digitaria Sanguinalis, Lolium Multiflorum, Amaranthus Retroflexus, Brassica Napu|Weeds (Urbana)14:176-178|1966|10.2307/4040959
42383|T||Mitich,L.W.|Leafy Spurge - A Problem Weed Controlled by Tordon|Down Earth21:11-13|1966|
42384|T||Arney,S.E., and P. Mancinelli|"The Basic Action of Gibberllic Acid in Elongation of ""Meteor"" Pea Stems"|New Phytol.65:161-175|1966|10.1111/j.1469-8137.1966.tb06349.x
42385|T||De Maggio,A.E.|Phloem Differentiation: Induced Stimulation by Gibberellic Acid|Science152:370-372|1966|10.1126/science.152.3720.370
42386|T||Fox,P.M., and R. Thurston|The Effects of 1-Naphthyl-N-Methylcarbamate on Germinating Tobacco Seeds|Bot. Gaz.127(1): 70-74|1966|10.1086/336344
42387|T||Chatterjee,N.K., A.L. Caspar, and W.R. Singleton|Genetic Effects of Ethyl Methanesulfonate and Gamma Ray Treament of the Proembryo in Maize|Genetics52:1101-1111|1965|10.1093/genetics/52.6.1101
42388|T||Blatt,J., and R.V. Date|Effect of alpha-Naphthalene Acetic Acid on Yield of Indian Cotton|Nature175:44|1955|
42389|T||Rebstock,T.L., C.L. Hamner, and H.M. Sell|The Influence of 2,4-Dichlorophenoxyacetic Acid on the Phosphorus Metabolism of Cranberry Bean Plants (Phaseolus vulgaris)|Plant Physiol.29:490-491|1954|10.1104/pp.29.5.490
42390|T||Garrard,A.|The Effects of Beta-Indole Acetic Acid on the Germination and Root Growth of Certain Members of the Cruciferae|New Phytol.53:165-176|1954|10.1111/j.1469-8137.1954.tb05234.x
42391|T||Everson,L.|Further Studies on the Effect of 2,4-D on Seeds|Proc. Assoc. Off. Seed Anal.40:84-87|1950|
42392|T||Khan,M.A., and W.C. Hall|Effect of Growth Regulators on Germination (Axillary Bud Growth) and Root Development of Sugar-Cane Stem Cuttings|Bot. Gaz.115:261-271|1954|10.1086/335823
42394|T||Haas,A.R.C., and J.N. Brusca|2,4-D Treatment of Citrus Seed|Calif. Agric.8:8,12 -|1954|
42395|T||Miller,C., and F. Skoog|Chemical Control of Bud Formation in Tobacco Stem Segments|Am. J. Bot.40:768-773|1953|10.1002/j.1537-2197.1953.tb06553.x
42396|T||Allen,F.W.|The Influence of Growth Regulator Sprays on the Growth, Respiration, and Ripening of Bartlett Pears|Proc. Am. Soc. Hortic. Sci.62:279-298|1953|
42397|T||Miller,E.V., and R.L. Marsteller|The Effect of Para-Chloro-Phenoxyacetic on Physiological Breakdown of the Fruits of the Pineapple (Ananas Comosus L. Merr.)|Food Res.18:421-425|1933|10.1111/j.1365-2621.1953.tb17735.x
42398|T||Guzman,V.L., and E.A. Wolf|Effect of 2,4-D on Four Sweet Corn Hybrids at Different Stages of Growth|Annu. Meet. Fla. State Hortic. Soc.66:141-148|1953|
42399|T||Edgerton,L.J., and M.B. Hoffman|The Effect of Some Growth Substances on Leaf Petiole Abscission and Preharvest Fruit Drop of Several Apple Varieties|Proc. Am. Soc. Hortic. Sci.62:159-166|1953|
42400|T||Rea,H.E.|Post-Emergence Effects on N-1-Naphthyl Phthalamic Acid and Its Derivatives on Cotton and Certain Weeds|Proc. South. Weed Conf.:116-118|1953|
42401|T||Khudairi,A.K., and K.C. Hamner|Effect of Ethylene Chlorohydrin on Floral Initiation in Xanthium|Bot. Gaz.115:289-291|1954|10.1086/335827
42402|T||Stewart,W.S., and E.R. Parker|The Effects of 2,4-D and Related Substances on Fruit Drop, Yield, Size, and Quality of Grapefruit|Hilgardia22:623-641|1954|10.3733/hilg.v22n18p623
42403|T||Brown,W., and M.J. Reavill|Effect of Tetrachloronitrobenzene on the Sprouting and Cropping of Potato Tubers|Ann. Appl. Biol.41:435-447|1954|10.1111/j.1744-7348.1954.tb01143.x
42404|T||Zielinski,Q.B., R. Garren, and C.J. Annen|Effects of para-Chlorophenoxyacetic Acid and beta-Naphthoxyacetic Acid on Increasing Fruit Size in Thornless Evergreen Blackberries|Proc. Am. Soc. Hortic. Sci.63:182-188|1954|
42405|T||Smock,R.M., L.J. Edgerton, and M.B. Hoffman|Some Effects of Stop Drop Auxins and Respiratory Inhibitors on the Maturity of Apples|Proc. Am. Soc. Hortic. Sci.63:211-219|1954|
42407|T||Johansen,S.|Effect of Indole-Acetic Acid on Stomata and Photosynthesis|Physiol. Plant. (Multiple Languages)7:531-537|1954|10.1111/j.1399-3054.1954.tb07598.x
42408|T||Abbott,D.L.|Recent Applications of Growth Substances in Fruit Growing|Ann. Appl. Biol.41:215-220|1954|10.1111/j.1744-7348.1954.tb00928.x
42409|T||Igari,M.|Studies on the Proteins of Pea Roots and Epicotyls as Influenced by Auxin and Some Other Substances Affecting Growth|Sci. Rep.Tohoku Univ. Fourth Ser.(Biol.)32:75-88|1966|
42410|T||Hussein,F., and M.G. Hussein|Cytological Effects of Some Organophosphorus Compounds on Vicia faba L.|J. Bot. UAR6:27-51|1963|
42411|T||Hussein,F., and M.G. Hussein|Note on Some Morphological Effects of Gusathion on Vicia Faba L.|J. Bot. UAR6:85-95|1963|
42412|T||Batjer,L.P., and M.W. Williams|Effects of N-Dimethylamino Succinamic Acid (Alar) on Watercore and Harvest Drop of Apples|Proc. Am. Soc. Hortic. Sci.88:76-79|1966|
42413|T||Chao,L., and D.R. Walker|Effects of Temperature, Chemicals, and Seed Coat on Apricot and Peach Seed Germination and Growth|Proc. Am. Soc. Hortic. Sci.88:232-238|1966|
42414|T||Edgerton,L.J.|Some Effects of Gibberellin and Growth Retardants on Bud Development and Cold Hardiness of Peach|Proc. Am. Soc. Hortic. Sci.88:197-203|1966|
42415|T||Granger,R.L., and L.J. Edgerton|The Effects of Two new Petroleum Spray Oils and Phenylmercuric Acetate on the Stomata of Apple Leaves|Proc. Am. Soc. Hortic. Sci.88:48-51|1966|
42416|T||Mellenthin,W.M., G. Crabtree, and F.D. Rauch|Effects of Herbicides and Weed Competition on Growth of Orchard Trees|Proc. Am. Soc. Hortic. Sci.88:121-126|1966|
42417|T||Chacko,E.K., and R.N. Singh|The Effect of Gibberellic Acid on the Germination of Papaya Seeds and Subsequent Seedling Growth|Trop. Agric.43:341-346|1966|
42418|T||Chatterjee,P.B., and S.K. Sen Gupta|Stimulating Effect of DDT Wettable Powder Spray on Mango|Sci. Cult.31:385-386|1965|
42419|T||Greig,J.K., and A.S. Al-Tikriti|Effects of Herbicides on Some Chemical Components of Sweetpotato Foliage and Roots|Proc. Am. Soc. Hortic. Sci.88:466-471|1966|
42420|T||Kemmerer,H., and J.D. Butler|Effect of Gibberellic Acid on Growth of Woody Ground Cover Plants|Proc. Am. Soc. Hortic. Sci.88:698-702|1966|
42421|T||McDowell,T.C., and R.A. Larson|Effects of (2-Chloroethyl)Trimethyl Ammonium Chloride (Cycocel), N-Dimethyl Succinamic Acid (B-Nine) and Photoperiod on Flower Bud Initiation and Development in Azaleas|Proc. Am. Soc. Hortic. Sci.88:600-605|1966|
42422|T||Clausen,J.J., and T.T. Kozlowski|Effect of Atrazine on Water Relations of Needles of White Spruce Nursery Stock|For. Sci.12:338-341|1966|
42423|T||Lyndsay,R.V., and G.S. Hartley|Studies of the Response of Plants to Root-Applied Herbicides. II. Further Observations on the Effect of Localized Application|Weed Res. (Multiple Languages)6:221-232|1966|10.1111/j.1365-3180.1966.tb00887.x
42424|T||Robertson,J.A.|The Effect of Basal Injections of 2,4,5-T on Mature Trees of Eucalyptus Populnea|Aust. J. Exp. Agric.6:344-349|1966|10.1071/EA9660344
42425|T||Heinicke,D.R., and J.W. Foott|The Effect of Several Phosphate Insecticides on Photosynthesis of Red Delicious Apple Leaves|Can. J. Plant Sci.46:589-591|1966|10.4141/cjps66-100
42426|T||Norris,L.A., and V.H. Freed|The Absorption, Translocation and Metabolism Characteristics of 4-(2,4-Dichlorophenoxy)Butyric Acid in Bigleaf Maple|Weed Res. (Multiple Languages)6:283-291|1966|10.1111/j.1365-3180.1966.tb00894.x
42427|T||Headford,D.W.R.|An Improved Method of Control of Paspalum conjugatum with Amitrole-T and Paraquat|Weed Res. (Multiple Languages)6:304-313|1966|10.1111/j.1365-3180.1966.tb00896.x
42428|T||Mitchell,K.K., and I.V. Sarkissian|Effects of Indol-3yl Acetic Acid on the Citrate-Condensing Reaction by Preparations of Root and Shoot Tissue|J. Exp. Bot.17(53): 838-843|1966|10.1093/jxb/17.4.838
42429|T||Dyson,P.W., and E.C. Hymphries|Modification of Growth Habit of Majestic Potato by Growth Regulators Applied at Different Times|Ann. Appl. Biol.58:171-182|1966|10.1111/j.1744-7348.1966.tb04376.x
42430|T||Bonde,E.K.|Effects of Gibberellic Acid on Growth and Parthenocarpy in the Dwarf Telephone Pea|Physiol. Plant. (Multiple Languages)19:356-364|1966|10.1111/j.1399-3054.1966.tb07026.x
42431|T||Pereira,A.S.R.|Effect of 2-Thiouracil and Gibberellic Acid on Flower Formation in Wedgewood Iris|Acta Bot. Neerl.15:215-223|1966|10.1111/j.1438-8677.1966.tb00227.x
42432|T||Arnott,R.A., and C.R. Clement|The Use of Herbicides in Alternate Husbandry as a Substitute for Ploughing|Weed Res. (Multiple Languages)6:142-157|1966|10.1111/j.1365-3180.1966.tb00875.x
42433|T||Ferguso,R.H.|Tordon Controls Range Brush in New Zealand and Australia|Down Earth21:18-21|1965|
42434|T||Hammerton,J.L.|Studies on Weed Species of the Genus Polygonum L.: III. Variation in Susceptibility to 2-(2,4-Dichlorophenoxy)Propionic Acid Within P. lapathifolium|Weed Res. (Multiple Languages)6:132-141|1966|10.1111/j.1365-3180.1966.tb00874.x
42435|T||Hendershott,C.H.|The Effect of Iodoacetic Acid on Citrus Fruit Abscission|Proc. Annu. Meet. Fla. State Hortic. Soc.78:36-41|1965|
42437|T||Negl,S.S., and H.P. Olmo|Sex Conversion in Male Vitis vinifera L. by A Kinin|Science152:1624-1625|1966|10.1126/science.152.3729.1624
42438|T||Mitich,L.W.|Chemical Control of Field Bindweed in North Dakota|Down Earth22:18-19|1966|
42439|T||Rooks,F.J.|Successful Vegetation Control in Florida Ditches and Canals. I. United States Sugar Corporation|Down Earth21:12-15|1965|
42440|T||Fan,D.F., and G.A. Maclachlan|Control of Cellulase Activity by Indoleacetic Acid|Can. J. Bot.44:1025-1034|1966|10.1139/b66-110
42441|T||Anderson,W.P., and M.P. Dunford|The Herbicidal Activity of Dimethyl Sulfoxide on Purple Nutsedge|Weeds (Urbana)14:195-197|1966|10.2307/4040910
42442|T||Jain,M.L., E.B.,Jr. Kurtz, and K.C. Hamilton|Effects of Dalapon on Glucose Utilization in the Shoot and Root of Barley|Weeds (Urbana)14:259-262|1966|10.2307/4040927
42443|T||Schirman,R., and K.P. Buchholtz|Influence of Atrazine on Control and Rhizome Carbohydrate Reserves of Quackgrass|Weeds (Urbana)14:233-236|1966|10.2307/4040920
42444|T||Taylorson,R.B.|Control of Seed Production in Three Annual Grasses by Dimethyl Arsinic Acid|Weeds (Urbana)14:207-210|1966|10.2307/4040914
42445|T||Davison,R.M.|Use of Chemical Thinning Sprays on Apple Trees in New Zealand. V. Effect on Biennial Bearing|N. Z. J. Agric. Res.9:542-553|1966|10.1080/00288233.1966.10431549
42446|T||Katoh,S., and A. San Pietro|Inhibitory Effect of Salicylaldoxime on Chloroplast Photooxidation-Reduction Reactions|Biochem. Biophys. Res. Commun.24:903-908|1966|10.1016/0006-291X(66)90335-4
42447|T||Levi,E.|Some Aspects of the Toxicity of 3-(P-Chloropheny)-1,1-Dimethylurea (CMU) to Plants|Aust. J. Agric. Res.6(1): 27-32|1955|10.1071/AR9550027
42448|T||Street,H.E., S.M. McGregor, and I.M. Sussex|Effects of 3-Indolylacetic Acid and 3-Indolyacetonitrile on the Growth of Excised Tomato Roots|J. Exp. Bot.5(14): 204-214|1954|10.1093/jxb/5.2.204
42449|T||Crane,J.C., E.D. DeKazos, and J.G. Brown|The Effect of 2,4,5-Trichlorophenoxyacetic Acid on Growth, Moisture and Sugar Content of Apricot Fruits|Proc. Am. Soc. Hortic. Sci.68:105-112|1956|
42450|T||Burk,L.G., and T.C. Tso|Effects of Gibberellic Acid on Nicotiana Plants|Nature181:1672-1673|1958|10.1038/1811672b0
42451|T||Cornelius,D.R., and C.A. Graham|Sagebrush Control with 2,4-D|J. Range Manag.11:122-125|1958|10.2307/3893713
42452|T||Nashed,R.B., and R.E. Girton|Inhibition by Ethanol of the Growth and Respiration of Maize Roots and Coleoptiles|Am. J. Bot.45:190-193|1958|10.1002/j.1537-2197.1958.tb12208.x
42453|T||Persson,A., and L. Rappaport|Gibberellin-Induced Systemic Fruit Set in A Male-Sterile Tomato|Science127:816|1958|10.1126/science.127.3302.816
42454|T||Bradley,M.V., and J.C. Crane|Gibberellin-Stimulated Cambial Activity in Stems of Apricot Spur Shoots|Science126:972-973|1957|10.1126/science.126.3280.972
42455|T||Purves,W.K., and W.S. Hillman|Response of Pea Stem Sections to Indoleacetic Acid, Gibberellic Acid, and Sucrose As Affected by Length and Distance from Apex|Physiol. Plant. (Multiple Languages)11:29-35|1958|10.1111/j.1399-3054.1958.tb08422.x
42456|T||Vlitos,A.J., and T.S. Hitchcock|Plant Growth Regulating Activity of 3-Indolemethanesulfonic Acid|Contrib. Boyce Thompson Inst.19:255-265|1958|
42457|T||Humphreys,T.E., and W.M.,Jr. Dugger|The Effect of 2,4-Dichlorophenoxyacetic Acid on the Respiration of Etiolated Pea Seedlings|Plant Physiol.32:530-536|1957|10.1104/pp.32.6.530
42458|T||Primer,P.E., and J.C. Crane|Growth Regulator Induced Parthenocarpy in Apricots|Proc. Am. Soc. Hortic. Sci.70:121-124|1957|
42459|T||Pecket,R.C.|The Initiation and Development of Lateral Meristems in the Pea Root II.  The Effect of Indole-3-Acetic Acid|J. Exp. Bot.8(23): 181-194|1957|10.1093/jxb/8.2.181
42460|T||Dure,L.S., and W.A. Jensen|The Influence of Gibberellic Acid and Indoleacetic Acid on Cotton Embryos Cultured In Vitro|Bot. Gaz.118:254-261|1957|10.1086/335951
42461|T||Southwick,F.W., and W.D. Weeks|The Influence of Naphthaleneacetic Acid and Naphthalene Acetamide During a Four-Year Period on Thinning and Subsequent Flowering of Apples|Proc. Am. Soc. Hortic. Sci.69:28-40|1957|
42462|T||Crane,J.C., and R.C. Campbell|The Comparative Effectiveness of Girdling and 2,4,5-Trichlorophenoxyacetic Acid for Increasing Size and Hastening Maturity of Apricots|Proc. Am. Soc. Hortic. Sci.69:165-169|1957|
42463|T||Rufelt,H.|Influence of Growth Substances on the Geotropic Reactions of Wheat Roots|Physiol. Plant. (Multiple Languages)10:500-520|1957|10.1111/j.1399-3054.1957.tb06968.x
42464|T||Lockhart,J.A., and R.L. Weintraub|Influence of 2,4-Dichlorophenoxyacetic Acid on Auxin Content of Bean Seedlings|Am. J. Bot.44:424-428|1957|
42465|T||Norman,A.G.|Growth Repression of Higher Plants by 2-Pyridinethiol-1-Oxide|Plant Physiol.32:16-19|1957|10.1104/pp.32.1.16
42466|T||Bradley,M.V., and J.C. Crane|Effects of Auxins on Development of Apricot Seeds and Seedlings|Am. J. Bot.44:164-175|1957|10.1002/j.1537-2197.1957.tb08226.x
42467|T||Birdsall,J.J., K.G. Weckel, and R.K. Chapman|Effects of Chlorinated Hydrocarbon Insecticides on Flavors of Vegetables|J. Agric. Food Chem.5:523-526|1957|10.1021/jf60077a006
42468|T||Wain,R.L., and F. Wightman|Studies on Plant Growth-Regulating Substances. XI. Auxin Antagonism in Relation to a Theory on Mode of Action of Aryl- and Aryloxy-Alkanecarboxylic Acids|Ann. Appl. Biol.45(1): 140-157|1957|10.1111/j.1744-7348.1957.tb00450.x
42469|T||Toothill,J., R.L. Wain, and F. Wightman|Studies on Plant Growth-Regulating Substances. X. The Activity of Some 2:6- and 3:5-Substituted Phenoxyalkanecarboxylic Acids|Ann. Appl. Biol.44(4): 547-560|1956|10.1111/j.1744-7348.1956.tb02152.x
42470|T||Marth,P.C., W.V. Audia, and J.W. Mitchell|Effects of Gibberellic Acid on Growth and Development of Plants of Various Genera and Species|Bot. Gaz.118:106-111|1956|10.1086/335932
42471|T||Maxie,E.C., and J.C. Crane|Some Metabolic Effects of 2,4,5-Trichlorophenoxyacetic Acid on Tilton Apricot Fruits|Proc. Am. Soc. Hortic. Sci.68:113-123|1956|
42472|T||Rai,G.S., and C.L. Hamner|Respiratory Activity of Certain Plant Secies as Affected by Sodium Trichloroacetate|Mich. Agric. Exp. Stn. Q. Bull.38:555-558|1956|
42473|T||Friesen,H.A., and D.R. Walker|A Comparison of MCP and 2,4-D for the Control of Annual Weeds in Grain Crops|Can. J. Plant Sci.37:69-81|1957|10.4141/cjps57-008
42474|T||Edmond,D.B.|The Effect of MCPB (Sodium 2-Methyl-4-Chlorophenoxybutyrate) on Young Red Clover (Trifolium pratense) and Weeds|N. Z. J. Sci. Technol.38:397-402|1956|
42476|T||Carpenter,W.J.|The Influence of Plant Hormones on the Abscission of Poinsettia Leaves and Bracts|Proc. Am. Soc. Hortic. Sci.67:539-544|1956|
42477|T||Ching,M.T., and R.S. Bandurski|Selective Inhibition of the Geotropic Response by N-1-Naphthylphthalamic Acid|Physiol. Plant. (Multiple Languages)9:546-558|1956|10.1111/j.1399-3054.1956.tb07818.x
42478|T||Kennard,W.C., and H.F. Winters|The Effect of 2,4,5-Trichloropropionic Acid Applications on the Size, Maturation, and Quality of Amini Mangos|Proc. Am. Soc. Hortic. Sci.67:290-297|1956|
42479|T||Plaisted,P.H.|Suppression of Tomato Plant Terminal Growth by Alpha-Cyanocinnamic Acids and Related Compounds|Contrib. Boyce Thompson Inst.18:231-242|1955|
42480|T||Blaisdell,J.P., and W.F. Mueggler|Effect of 2,4-D on Forbs and Shrubs Associated with Big Sagebrush|J. Range Manag.9:30-40|1956|10.2307/3894651
42481|T||Chouinard,A.L.|Nuclear Differences in Allium Cepa Root Tissues As Revealed Through Induction of Mitosis with Indoleacetic Acid|Can. J. Bot.33:628-646|1955|10.1139/b55-049
42482|T||Haller,M.H.|Effect of 2,4,5-Trichlorophenoxypropionic Acid on Maturity and Storage Quality of Apples|Proc. Am. Soc. Hortic. Sci.64:222-224|1954|
42483|T||Brian,P.W., and H.G. Hemming|The Effect of Gibberellic Acid on Shoot Growth of Pea Seedlings|Physiol. Plant. (Multiple Languages)8:669-681|1955|10.1111/j.1399-3054.1955.tb07760.x
42484|T||Overcash,J.P.|Some Effects of Certain Growth-Regulating Substances on the Ripening of Concord Grapes|Proc. Am. Soc. Hortic. Sci.65:54-58|1955|
42485|T||Hatton,T.T.,Jr.|Responses of the Common Delicious Apple to Sprays of 2,4,5-Trichlorophenoxyacetic Acid|Proc. Am. Soc. Hortic. Sci.65:59-62|1955|
42486|T||Crane,J.C.|Preharvest Drop, Size and Maturity of Apricots as Affected by 2,4,5-Trichlorophenoxyacetic Acid|Proc. Am. Soc. Hortic. Sci.65:75-84|1955|
42487|T||Fransson,P., and T. Ingestad|The Effect of An Antiauxin on the Indoleacetic Acid Content in Avena Coleoptiles|Physiol. Plant. (Multiple Languages)8:336-342|1955|10.1111/j.1399-3054.1955.tb08979.x
42489|T||Edgerton,L.J., and M.B. Hoffman|Effect of N-1-Naphthyl Phthalamic Acid on Fruit Set of Peaches|Science121:467-468|1955|10.1126/science.121.3144.467
42490|T||Wene,G.P., G.W. Otey, and F.P. Griffiths|Effect of Benzene Hexachloride and Lindane on the Flavor of Purple Hull Peas|Proc. Am. Soc. Hortic. Sci.64:390-392|1954|
42491|T||Mattus,G.E., and R.C. Moore|Preharvest Growth Regulator Sprays on Apples. I. Drop and Maturity 1952 and 1953|Proc. Am. Soc. Hortic. Sci.64:199-208|1954|
42492|T||Crane,J.C.|Frost Resistance, and Reduction in Drop of Injured Apricot Fruits Effected by 2,4,5-Trichlorophenoxyacetic Acid|Proc. Am. Soc. Hortic. Sci.64:225-231|1954|
42494|T||Howell,R.W., and F. Skoog|Effect of Adenine and Other Substances on Growth of Excised Pisum Epicotyls Cultured In Vitro|Am. J. Bot.42:356-360|1955|10.1002/j.1537-2197.1955.tb11131.x
42495|T||Asana,R.D., V.S. Mani, and Vedprakash |The Effects of Auxins on the Growth and Yield of Wheat|Physiol. Plant. (Multiple Languages)8:279-287|1955|10.1111/j.1399-3054.1955.tb08955.x
42496|T||Fries,N.|Further Experiments on the Response of Decotylised Pea Seedlings to Arginine|Physiol. Plant. (Multiple Languages)8:164-173|1955|10.1111/j.1399-3054.1955.tb08969.x
42497|T||Lee,A.E.|The Effects of Ascorbic Acid on Seedling Organ Growth|Bull. Torrey Bot. Club82:1-8|1955|10.2307/2482389
42498|T||Bradley,M.V., and J.C. Crane|The Effect of 2,4,5-Trichlorophenoxyacetic Acid on Cell and Nuclear Size and Endopolyploidy in Parenchyma of Apricot Fruits|Am. J. Bot.42:273-281|1955|
42499|T||Harel,S., and L. Reinhold|The Effect of 2,4-Dinitrophenol on Translocation in the Phloem|Physiol. Plant. (Multiple Languages)19:634-643|1966|10.1111/j.1399-3054.1966.tb07047.x
42500|T||Mathan,D.S.|Morphogenetic Effect of Phenylboric Acid on Various Leaf-Shape Mutants in the Tomato, Duplicating the Effect of the Lanceolate Gene|Mol. Gen. Genet.97(2): 157-165|1965|10.1007/BF00897493
42501|T||Digby,J., and P.F. Wareing|The Effect of Growth Hormones on Cell Division and Expansion in Liquid Suspension Cultures of Acer Pseudoplatanus|J. Exp. Bot.17:718-725|1966|10.1093/jxb/17.4.718
42502|T||Miller,C.|Reversible Inhibition of Cell Division and Enlargement in Plant Tissues by 2,6-Diaminopurine|Proc. Soc. Exp. Biol. Med.83:561-565|1953|10.3181/00379727-83-20418
42503|T||Rebstock,T.L., C.L. Hamner, R.W. Luecke, and H.M. Sell|The Effect of Sodium Trichloroacetate upon the Metabolism of Wheat Seedlings|Plant Physiol.28:437-442|1953|10.1104/pp.28.3.437
42504|T||Muzik,T.J., and H.J. Cruzado|The Effect of 2,4-D on Sprout Formation in Cyperus rotundus|Am. J. Bot.40:507-512|1953|
42505|T||Sell,H.M., S.H. Wittwer, T.L. Rebstock, and C.T. Redemann|Comparative Stimulation of Parthenocarpy in the Tomato by Various Indole Compounds|Plant Physiol.28:481-487|1953|10.1104/pp.28.3.481
42506|T||Kay,B.L., O.A. Leonard, and J.E. Streets|Control of Madrone and Tanoak Stump Sprouting|Weeds (Urbana)9:369-373|1961|10.2307/4040854
42507|T||Courter,J.W., and W.O. Drinkwater|Effect of Gibberellin on Flowering and Fruiting of Field Grown Tomatoes|Proc. Am. Soc. Hortic. Sci.77:487-493|1961|
42509|T||Ingle,M.|Some Physiological Effects of 2,2-Dichloropropionic Acid|Weeds (Urbana)9:264-272|1961|10.2307/4040415
42510|T||Lundquist,F., and H. Rufelt|Influence of Cupferron on the Geotropic Reaction and the Respiration of Wheat Roots|Physiol. Plant. (Multiple Languages)14:400-407|1961|10.1111/j.1399-3054.1961.tb07875.x
42511|T||Elliott,J.G., J.O. Green, and T.A. Evans|The Effects of MCPB and 2,4-DB on Established Legumes|Proc. Br. Weed Control Conf.1:477-485|1956|
42512|T||Batjer,L.P., and B.J. Thomson|Effect of 1-Naphthyl N-Methylcarbamate (Sevin) on Thinning Apples|Proc. Am. Soc. Hortic. Sci.77:1-8|1961|
42513|T||Laloraya,M.M., and S.A. Naqvi|Auxin Gibberellic Acid Interaction in Controlling the Hypocotyl Growth in Seedlings|Science133:1357-1359|1961|10.1126/science.133.3461.1357
42514|T||Burnside,O.C., and R. Behrens|Phytotoxicity of Simazine|Weeds (Urbana)9:145-157|1961|10.2307/4040398
42516|T||Fang,S.C., F. Teeny, and J.S. Butts|Effect of 2,4-Dichlorophenoxyacetic Acid on Utilization of Labeled Acetate by Bean Leaf and Stem Tissues|Plant Physiol.36:192-196|1961|10.1104/pp.36.2.192
42517|T||Herich,R.|Influence of Gibberellic Acid on Metabolism of Amino Acids|Physiol. Plant. (Multiple Languages)14:111-114|1961|10.1111/j.1399-3054.1961.tb08143.x
42518|T||Jenkins,M.E.|The Effect of Gibberellin on the Germination Rate of Eastern White Pine|J. For.59:210-211|1961|
42519|T||Spicer,P.B., and L.A. Dionne|Use of Gibberellin to Hasten Germination of Solanum Seed|Nature189:327-328|1961|10.1038/189327a0
42520|T||Kretovich,V.L., A.A. Bundel, M.R. Frasheri, and N.V. Borovikova|The Effect of Hydroxylamine on the Growth of Wheat|Fiziol. Rast. (Mosc.) (Non-English)7:219-224|1960|
42521|T||Modlibowska,I.|Breaking the Rest Period in Black Currants with Gibberellic Acid and Low Temperature|Ann. Appl. Biol.48:811-816|1960|10.1111/j.1744-7348.1960.tb03582.x
42522|T||Stewart,W.S., H.Z. Hield, and B.L. Brannaman|Effects of 2,4-D and Related Substances on Fruit-Drop, Yield, Size, and Quality of Valencia Oranges|Hilgardia21(11): 301-328|1952|10.3733/hilg.v21n11p301
42523|T||Thompson,A.H.|Further Experiments with 2,4,5-Trichlorophenoxypropionic Acid Sprays for Control of the Preharvest Drop of Apples|Proc. Am. Soc. Hortic. Sci.60:175-183|1952|
42524|T||Southwick,F.W., and W.D. Weeks|The Influence of Chemical Thinning Treatments on Yield and Flowering of Apples|Proc. Am. Soc. Hortic. Sci.60:165-172|1952|
42525|T||Pickett,W.F., and J.C. Bates|The Influence of Naphthalene Acetic Acid and Sodium Dinitro Foliage Sprays on the Internal Structure of Jonathan Apple Leaves|Proc. Am. Soc. Hortic. Sci.60:173-174|1952|
42526|T||Curtis,O.F.,Jr., and D.R. Rodney|Ethylene Injury to Nursery Trees in Cold Storage|Proc. Am. Soc. Hortic. Sci.60:104-108|1952|
42527|T||Douwes,H.|Colchicine Treatment of Young Cotton Seedlings As A Means of Inducing Polyploidy|J. Genet.51:7-25|1952|10.1007/BF02986700
42528|T||Wort,D.J., and L.M. Cowie|The Effect of 2,4-Dichlorophenoxyacetic Acid on Phosphorylase, Phosphatase, Amylase, Catalase, and Peroxidase Activity in Wheat|Plant Physiol.28:135-139|1953|10.1104/pp.28.1.135
42529|T||Banham,F.L.|The Effect of Certain Insecticides on the Germination and Growth of Onions. I. Insecticides Applied to the Soil|Proc. Entomol. Soc. B. C.48:67-69|1951|
42530|T||Ellison,J.H.|Inhibition of Potato Sprouting by 2,3,5,6-Tetrachloronitrobenzene and Methyl Ester of a-Naphthaleneacetic Acid|Am. Potato J.29:176-181|1952|10.1007/BF02885337
42531|T||Derscheid,L.A., L.M. Stahler, and D.E. Kratochvil|Differential Responses of Oat Varieties to 2,4-Dichlorophenoxyacetic Acid (2,4-D)|Agron. J.45:11-17|1953|10.2134/agronj1953.00021962004500010003x
42532|T||Aberg,B.|On the Growth-Regulating Effects of Some 1-Naphthyl and 2,4-Dichlorophenoxy Derivatives Without Carboxyl Groups|Physiol. Plant. (Multiple Languages)5:567-574|1952|10.1111/j.1399-3054.1952.tb07547.x
42533|T||Batjer,L.P., and M. Uota|Effect of 2,4,5-Trichlorophenoxypropionic Acid Sprays on Fruit Set of Pears and Apples|Proc. Am. Soc. Hortic. Sci.58:33-36|1951|
42534|T||Gifford,E.M.,Jr.|Effect of 2,4-D upon the Development of the Cotton Leaf|Hilgardia21:605-644|1953|10.3733/hilg.v21n18p605
42535|AT||Muir,R.M., and C. Hansch|On the Mechanism of Action of Growth Regulators|Plant Physiol.28:218-232|1953|10.1104/pp.28.2.218
42536|T||Loustalot,A.J., and T.J. Muzik|Effect of 2,4-D on Apparent Photosynthesis and Developmental Morphology of Velvet Beans|Bot. Gaz.115:56-66|1953|10.1086/335797
42537|T||Southwick,F.W., I.E. Demoranville, and J.F. Anderson|The Influence of Some Growth Regulating Substances on Preharvest Drop, Color, and Maturity of Apples|Proc. Am. Soc. Hortic. Sci.61:155-162|1953|
42538|T||Clore,W.J., and V.F. Bruns|The Sensitivity of the Concord Grape to 2,4-D|Proc. Am. Soc. Hortic. Sci.61:125-134|1953|
42539|T||Murneek,A.E., and F.G. Teubner|The Dual Action of Naphthaleneacetic Acid in Thinning of Apples|Proc. Am. Soc. Hortic. Sci.61:149-154|1953|
42540|T||Crane,J.C.|Further Responses of the Apricot to 2,4,5-Trichlorophenoxyacetic Acid Application|Proc. Am. Soc. Hortic. Sci.61:163-174|1953|
42541|T||Zielinski,Q.B., and R.,Jr. Garren|Effects of beta-Naphthoxyacetic Acid on Fruit Size in the Marshall Strawberry|Bot. Gaz.114:134-139|1952|10.1086/335754
42542|T||Weaver,R.T.|Response of Black Corinth Grapes to Applications of 4-Chlorophenoxyacetic Acid|Bot. Gaz.114:107-113|1952|10.1086/335750
42543|T||Hartmann,H.T.|Spray Thinning of Olives with Naphthaleneacetic Acid|Proc. Am. Soc. Hortic. Sci.59:18-195|1952|
42544|T||Stewart,W.S., J.E. Palmer, and H.Z. Hield|Packing-House Experiments on the Use of 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid to Increase Storage Life of Lemons|Proc. Am. Soc. Hortic. Sci.59:327-334|1952|
42545|T||Staniforth,D.W.|Effect of 2,4-Dichlorophenoxyacetic Acid on Meristematic Tissues of Corn|Plant Physiol.27:803-811|1952|10.1104/pp.27.4.803
42547|T||Greulach,V.A., and D.B. Plyler|The Influence of 22 Maleic Hydrazide Derivatives or Related Compounds on the Growth of Phaseolus vulgaris|J. Elisha Mitchell Sci. Soc.82:18-23|1966|
42548|T||McComb,A.J.|The Stimulation by Gibberellic Acid of Cell Wall Synthesis in the Dwarf Pea Plant|Ann. Bot.30:155-163|1966|10.1093/oxfordjournals.aob.a084063
42549|T||Norris,R.F.|Effect of (2-Chloroethyl) Trimethylammonium Chloride on the Level of Endogenous Indole Compounds in Wheat Seedlings|Can. J. Bot.44:675-684|1966|10.1139/b66-081
42550|T||Okuda,M., J. Kato, and S. Tamura|Microscopial Investigation on the Effect of Helminthosporol on Rice Seedlings|Physiol. Plant. (Multiple Languages)19:152-158|1966|10.1111/j.1399-3054.1966.tb09086.x
42551|T||Youssef,E., and W. Elsaadawy|The Effects of 2,4-Dichlorophenoxyacetic Acid on the Absorption and Assimilation of Potassium Nitrate by Radish Root Slices|J. Bot. UAR6:61-73|1963|
42552|T||Youssef,E., and W. Elsaadawy|Respiration and Nitrogen Metabolism of Radish Root Slices as Influenced by alpha-Naphthylacetic Acid|J. Bot. UAR6:75-84|1963|
42553|T||Hanover,J.W.|Effect of the Chemical Mutagen Ethyl Methanesulfonate on Western White Pine|Silvae Genet.14:23-26|1965|
42554|T||Shutak,V.G., J.T. Kitchin, and M.M. Dayawon|Effects of N-Dimethyl Amino Succinamic Acid on Quality of Cortland Apples|Hortscience1(1): 27-28|1969|10.21273/HORTSCI.1.1.27
42555|T||Marei,N., J.C. Crane, and M.V. Bradley|2,4,5-Trichlorophenoxyacetic Acid-Induced Changes in Transpiration and Water Content in the Apricot, Prunus Armeniaca L.|Proc. Am. Soc. Hortic. Sci.89:61-71|1966|
42556|T||Rangaswamy,N.S., and T.S. Rangan|Effects of Seed Germination Stimulants on the Witchweed Striga Euphrasoides (Vahl) Benth|Nature210:440-441|1966|10.1038/210440a0
42558|T||Bernier,G., R. Bronchart, and A. Jacqmard|Action of Gibberellic Acid on the Mitotic Activity of the Different Zones of the Shoot Apex of Rudbeckia Bicolor and Perilla Nankinensis|Planta (Multiple Languages)61:236-244|1964|10.1007/BF01897158
42559|T||Schmutz,E.M.|Chemical Control of Three Chihuahuan Desert Shrubs|Weeds (Urbana)15:62-67|1967|10.2307/4041070
42560|T||Knypl,J.S.|Synergistic Inhibition of Kale Seed Germination by Coumarin and (2-Chloroethyl)-Trimethylammonium Chloride, and Its Reversal by Kinetin and Gibberellic Acid|Planta (Multiple Languages)72:292-296|1967|10.1007/BF00386756
42561|T||Reid,D.M., and D.J. Carr|Effects of a Dwarfing Compound, CCC, on the Production and Export of Gibberellin-Like Substances by Root Systems|Planta (Multiple Languages)73:1-11|1967|10.1007/BF00419836
42562|T||Peck,N.H., B.E. Clark, and J.J. Natti|Effect of Decortication and Fungicide on Performance of Table Beet Seed|Agron. J.59:78-80|1967|10.2134/agronj1967.00021962005900010024x
42563|T||Cathey,H.M., G.L. Steffens, N.W. Stuart, and R.H. Zimmerman|Chemical Pruning of Plants|Science153:1382-1383|1966|10.1126/science.153.3742.1382
42564|T||Holmsen,T.W., and J.K. Leasure|Growth-Inhibiting Action of Tris(1-Aziridinyl)-Phosphine Oxide in Grasses (Sorghum vulgare and Zea mays)|Science153:1659-|1959|10.1126/science.153.3744.1659
42565|T||Gupta,U.S.|Studies in the Physiology of Tobacco. X. Individual and Combined Effects of GA3, IAA and MH on Plants Grown in Natural Light and in Shade|Proc. Indian Acad. Sci. Sect. B62:36-45|1965|10.1007/BF03051081
42566|T||Slade,P., and E.G. Bell|The Movement of Paraquat in Plants|Weed Res. (Multiple Languages)6:267-274|1966|10.1111/j.1365-3180.1966.tb00891.x
42567|T||Margulies,M.M.|Effect of Chloramphenicol on Formation of Chloroplast Structure and Protein During Greening of Etiolated Leaves of Phaseolus Vulgaris|Plant Physiol.41:992-1003|1966|10.1104/pp.41.6.992
42568|T||Biswas,P.K., O. Hall, and B.D. Mayberry|Effects of Maleic Hydrazide on the Synthesis of Protein and Metabolism of Amino Acids in Tea|Weeds (Urbana)14:329-331|1966|10.2307/4040978
42569|T||Schaeffer,G.W., and T. Sorokin|Growth Inhibition of Tobacco Tissue Cultures with 6-Azauracil, 6-Azuridine, and Maleic Hydrazide|Plant Physiol.41:971-975|1966|10.1104/pp.41.6.971
42570|T||Zeevaart,J.A.D.|Inhibition of Stem Growth and Flower Formation in Pharbitis nil with N,N-Dimethylaminosuccinamic Acid (B 995)|Planta (Multiple Languages)71:68-80|1966|10.1007/BF00384643
42571|T||Singh,R.P., and S.H. West|Influence of Simazine on Chloroplast Ribonucleic Acid, and Protein Metabolism|Weeds (Urbana)15:31-34|1967|10.2307/4041062
42572|T||Kitagawa,H., A. Sugiura, and M. Sugiyama|Effects of Gibberellin Spray on Storage Quality of Kaki|Hortscience1:59-60|1966|10.21273/HORTSCI.1.2.59
42573|T||Bergman,E.L.|Influence of N-Dimethyl Amino Succinamic Acid on Fruit Yield of Once-Over Harvested Tomatoes|Hortscience1:53-54|1966|10.21273/HORTSCI.1.2.53
42574|T||Bagni,N.|Aliphatic Amines and a Growth-Factor of Coconut Milk As Stimulating Cellular Proliferation of Helianthus tuberosus (Jerusalem Artichoke) in Vitro|Experientia22:732-733|1966|10.1007/BF01901347
42575|T||Bagni,N., and D.S. Fracassini|Naringenin Inhibition on Explants in Vitro of Cichorium intybus (Chicory)|Experientia22:292-293|1966|10.1007/BF01900454
42576|T||Bose,S., and D. Mukherjee|Effect of Ethyl Urethane on Impatiens balsamina L.|Sci. Cult.32(12): 601-602|1966|
42577|T||Mehta,A.R.|Auxin Effects on Tracheal Differentiation in Root Callus Tissues In Vitro|Experientia22(5): 300-|1966|10.1007/BF01900460
42578|T||Prasad,A., A.K. Dikshit, and I.D. Tyagi|Effect of Maleic Hydrazide on Sex Expression and Sex Ratio in Cucumber (Cucumis sativus L.)|Sci. Cult.32:596-597|1966|
42579|T||Shanmugavelu,K.G., and G. Rangaswami|Effect of Gibberellic Acid on Cell Elongation and Multiplication in Some (20) Forest Plant Species|Sci. Cult.32:549-551|1966|
42580|T||Stephenson,G.R., and S.K. Ries|The Movement and Metabolism of Pyrazon in Tolerant and Susceptible Species|Weed Res. (Multiple Languages)7:51-60|1967|10.1111/j.1365-3180.1967.tb01347.x
42581|T||Champ,B.R.|Some Effects of DDT, Dieldrin, Dimethoate and Fenthion on Growth of Cucumbers|Qld. J. Agric. Anim. Sci.23:333-335|1966|
42582|T||Kunkel,R., and N. Holstad|Growth Responses of Russet Burbank to N-Dimethyl Amino Succinamic Acid (B-Nine)|Am. Potato J.43:107-111|1966|10.1007/BF02862619
42583|T||Eshel,Y.|Mode of Action of 1-(3-Chloro-4-Methylphenyl)3-Methyl-2-Pyrrolidinine|Weeds (Urbana)15:147-149|1967|10.2307/4041186
42584|T||Harada,H.|Effects of Morphactin on the Negative Geotropic Response and Leaf Senescence|Naturwissenschaften54:95-|1967|10.1007/BF00608779
42585|T||Luckwill,L.C.|Studies of Fruit Development in Relation to Plant Hormones. Ii. the Effect of Naphthalene Acetic Acid on Fruit Set and Fruit Development in Apples|J. Hortic. Sci.28:25-40|1953|10.1080/00221589.1953.11513768
42586|T||Davison,R.M.|Fruit-Setting of Apples Using Gibberellic Acid|Nature188:681-682|1960|10.1038/188681b0
42587|T||Halevy,A.H., and H.M. Cathey|Effect of Structure and Concentration of Gibberellins on the Growth of Cucumber Seedlings|Bot. Gaz.122:63-67|1960|10.1086/336086
42588|T||Frey,K.J.|Effect of Gibberellic Acid on Oats|Proc. Iowa Acad. Sci.67:92-97|1960|
42589|T||Bach,M.K., and J. Fellig|Correlation Between Inactivation of 2,4-Dichlorophenoxyacetic Acid and Cessation of Callus Growth in Bean Stem Sections|Plant Physiol.36:89-91|1961|10.1104/pp.36.1.89
42590|T||Aberg,B.|Studies on Plant Growth Regulators XVI.  The 2- and 3-Thianaphthenylacetic Acids and the Corresponding alpha-Propionic Acids|Lantbrukshogsk. Ann.26:229-238|1960|
42591|T||Larter,E.N., and H. Enns|The Influence of Gibberellic Acid on the Development of Hybrid Barley Ovules In Vivo|Can. J. Genet. Cytol.2:435-441|1960|10.1139/g60-046
42592|T||Nagao,M., and E. Mitsui|Studies on the Formation and Sprouting of Aerial Tubers in Begonia Evansiana Andr. III. Effect of Gibberellin on the Dormancy of Aerial Tubers|Sci. Rep.Tohoku Univ. Fourth Ser.(Biol.)25:199-205|1959|
42593|T||Sircar,S.M., and R. Chakraverty|The Effect of Gibberellic Acid on Jute (Corchorus Capsularis Linn.)|Sci. Cult.26:141-143|1960|
42594|T||Rerabek,J.|Humic Acid Interactions in the Growth Process|Biol. Plant. (Praha)2(2): 88-97|1960|10.1007/BF02920656
42595|T||Herrero,F.A., and W.C. Hall|General Effects of Ethylene on Enzyme Systems in the Cotton Leaf|Physiol. Plant. (Multiple Languages)13:736-750|1960|10.1111/j.1399-3054.1960.tb08095.x
42596|T||Wittwer,S.H., and N.E. Tolbert|2-Chloroethyl Trimethylammonium Chloride and Related Compounds as Plant Growth Substances.  V.  Growth, Flowering, and Fruiting Responses as Related to Those Induced by Auxin and Gibberellin|Plant Physiol.35:871-877|1960|10.1104/pp.35.6.871
42597|T||Paleg,L.G.|Physiological Effects of Gibberellic Acid. Ii. on Starch Hydrolyzing Enzymes of Barley Endosperm|Plant Physiol.35:902-906|1960|10.1104/pp.35.6.902
42598|T||Forsyth,F.R., and D.J. Samborski|Effects of Kinetin and Benzimidazole on the Growth of Etiolated Pea Stems and Barley Coleoptiles|Can. J. Bot.38:875-881|1960|10.1139/b60-076
42599|T||Schneider,E.F., and W.E. Synder|Effects of Urea Sprays on Growth and Flowering of Azaleas|Proc. Am. Soc. Hortic. Sci.75:658-662|1960|
42600|T||Harrington,J.F.|The Use of Gibberellic Acid to Induce Bolting and Increase Seed Yield of Tightheading Lettuce|Proc. Am. Soc. Hortic. Sci.75:476-479|1960|
42601|T||Heuser,C.W.|Response of Callus Cultures of Prunus persica, P. pomentosa, and P. besseyi to Cyanide|Can. J. Bot.50:2149-2152|1972|10.1139/b72-279
42602|T||Palevitch,D., E. Pressman, and J. Rudich|Induction of Parthenocarpy by Triiodobenzoic Acid in Cucumbers (Cucumis Sativus L.)|Z. Pflanzenphysiol. (Multiple Languages)67:457-459|1972|10.1016/S0044-328X(72)80046-1
42603|T||Pinthus,M.J.|The Effect of Chlormequat Seed-Parent Treatment on the Resistance of Wheat Seedlings to Terbutryne and Simazine|Weed Res. (Multiple Languages)12:241-247|1972|10.1111/j.1365-3180.1972.tb01213.x
42604|T||Wu,C.C., and T.T. Kozlowski|Some Histological Effects of Direct Contact of Pinus resinosa Seeds and Young Seedlings with 2,4,5-T|Weed Res. (Multiple Languages)12:229-233|1972|10.1111/j.1365-3180.1972.tb01211.x
42605|T||Tompkins,D.R., R.A. Norton, and C.G. Woodbridge|Brussels Sprouts Growth and Yields as Influenced by Succinic Acid-2,2-Dimethylhydrazide|J. Am. Soc. Hortic. Sci.97(6): 772-774|1972|10.21273/JASHS.97.6.772
42606|T||Hartmann,H.T., M. El-Hamady, and J. Whisler|Abscission Induction in the Olive by Cycloheximide|J. Am. Soc. Hortic. Sci.97(6): 781-785|1972|10.21273/JASHS.97.6.781
42607|T||Stahly,E.A., and M.W. Williams|Effect of Plant Growth Regulators on Apple Fruit and Pedicel Abscission|J. Am. Soc. Hortic. Sci.97:724-726|1972|10.21273/JASHS.97.6.724
42608|T||Venator,C.R.|Effect of Gibberellic Acid on Germination of Low-Vigor Honduras Pine Seeds|For. Sci.18:331-|1972|
42609|T||Cantliffe,D.J.|Parthenocarpy in the Cucumber Induced by Some Plant Growth Regulating Chemicals|Can. J. Plant Sci.52:781-785|1972|10.4141/cjps72-127
42610|T||Chan,K.W., R.H.V. Corley, and A.K. Seth|Effects of Growth Regulators on Fruit Abscission in Oil Palm, Elaeis guineensis|Ann. Appl. Biol.71:243-249|1972|10.1111/j.1744-7348.1972.tb05088.x
42611|T||Kaul,B.L., and U. Zutshi|Mutagenic Effects of Dimethyl Nitrosamine Under Different Conditions of Treatment|Nucleus15:34-39|1972|
42612|T||Marei,N., and R. Romani|Ethylene-Stimulated Synthesis of Ribosomes, Ribonucleic Acid, and Protein in Developing Fig Fruits|Plant Physiol.48:806-808|1971|10.1104/pp.48.6.806
42613|T||Sharma,M.P., and W.H. Vanden Born|Effects of Picloram on Growth and on Chlorophyll, RNA, and Protein Content of Plants|Can. J. Bot.50:2039-2044|1972|10.1139/b72-260
42614|T||Krishnamoorthy,H.N.|Effect of Ethrel on Growth and Flowering of Pea Nut|Z. Pflanzenphysiol. (Multiple Languages)67:367-369|1972|10.1016/S0044-328X(72)80098-9
42615|T||White,J.A., and D.D. Hemphill|An Ultrastructural Study of the Effects of 2,4-D on Tobacco Leaves|Weed Sci.20(5): 478-481|1972|10.1017/S0043174500036183
42616|T||Zeroni,M., S. Ben-Yehoshua, and J. Galil|Relationship Between Ethylene and the Growth of Ficus sycomorus|Plant Physiol.50:378-381|1972|10.1104/pp.50.3.378
42617|T||Alscher,R.G., and P.A. Castelfranco|Stimulation by Ethylene of Chlorophyll Biosynthesis in Dark-Grown Cucumber Cotyledons|Plant Physiol.50:400-403|1972|10.1104/pp.50.3.400
42618|T||Quebedeaux,B., and E.M.,Jr. Beyer|Chemically Induced Parthenocarpy in Cucumber by a New Inhibitor of Auxin Transport|Hortscience7:474-476|1972|10.21273/HORTSCI.7.5.474
42619|T||Ryan,G.F.|Growth and Flowering Response of Deciduous Azaleas to Growth Retardants|Hortscience7:487-488|1972|10.21273/HORTSCI.7.5.487
42620|T||Milbocker,D.C.|Axillary Shoot Stimulation in Poinsettia with Kinetin|Hortscience7:483-484|1972|10.21273/HORTSCI.7.5.483
42621|T||Jensen,K.F., and L.S. Dochinger|Gibberellic Acid and Height Growth of White Pine Seedlings|For. Sci.18:196-197|1972|
42622|T||Wu,M.T., B. Singh, and D.K. Salunkhe|Influence of Foliar Application of s-Triazine Compounds on Fresh Weight, Dry Weight, Chemical Composition, and Enzymatic Activity of Pea and Sweet Corn Seedlings|J. Exp. Bot.23(76): 793-800|1972|10.1093/jxb/23.3.793
42623|T||Garg,O.P., and V. Kapoor|Retardation of Leaf Senescence by Ascorbic Acid|J. Exp. Bot.23:699-703|1972|10.1093/jxb/23.3.699
42624|T||Mallory,T.E., and D.E. Bayer|The Effect of Trifluralin on the Growth and Development of Cotton and Safflower Roots|Bot. Gaz.133:96-102|1972|10.1086/336621
42625|T||Arzee,T., H. Langenauer, and J. Gressel|Effects of Dikegulac, A New Growth Regulator, on Apical Growth and Development of Three Compositae|Bot. Gaz.138:18-28|1977|10.1086/336891
42626|A||McLaren,J.S., and H. Smith|Effect of Abscisic Acid on Photosynthetic Products of Lemna Minor|Phytochemistry16(2): 219-221|1977|10.1016/S0031-9422(00)86789-8
42627|T||Avivi,L.|Colchicine Induced Bivalent Pairing of Tetraploid Microsporocytes in Triticum longissimum and T. speltoides|Can. J. Genet. Cytol.18:731-738|1976|10.1139/g76-086
42628|T||Simmonds,J.A., and B.G. Cumming|Bulb-Dip Application of Growth-Regulating Chemicals for Inhibiting Stem Elongation of ''Enchantment' and 'Harmony' Lilies|Sci. Hortic.6:71-81|1977|10.1016/0304-4238(77)90080-2
42629|T||Poapst,P.A., and I. Price|Chemical Defoliation Preparatory to Harvesting Rutabagas|Can. J. Plant Sci.56(3): 773-774|1976|10.4141/cjps76-125
42630|T||Kinet,J.M.|Effect of Defoliation and Growth Substances on the Development of the Inflorescence in Tomato|Sci. Hortic.6:27-35|1977|10.1016/0304-4238(77)90075-9
42631|T||Jensen,K.I.N., G.R. Stephenson, and L.A. Hunt|Detoxification of Atrazine in Three Gramineae Subfamilies|Weed Sci.25(3): 212-220|1977|10.1017/S0043174500033324
42632|T||Veerasekaran,P., R.C. Kirkwood, and W.W. Fletcher|Studies on the Mode of Action of Asulam in Bracken (Pteridium aquilinum L. Kuhn): II. Biochemical Activity in the Rhizome Buds|Weed Res. (Multiple Languages)17:85-92|1977|10.1111/j.1365-3180.1977.tb00450.x
42633|T||Potter,J.R.|Monitoring Photosynthesis to Measure Translocation of Bentazon in Common Cocklebur|Weed Sci.25(3): 241-246|1977|10.1017/S0043174500033385
42634|T||Lee,W.O.|Winter Annual Grass Weed Control in Italian Ryegrass and Ethofumesate|Weed Sci.25:252-255|1977|10.1017/S0043174500033403
42635|T||Harvey,R.G., and G.L. Jacques|Dinitroaniline Herbicides for Weed Control in Peas|Weed Sci.25:256-259|1977|10.1017/S0043174500033415
42636|T||Bisaria,A.K.|Effect of Morphactin on Growth, Sex Expression, Fruit Set and Yield in Luffa acutangula|Can. J. Bot.55:752-756|1977|10.1139/b77-090
42637|T||Bandeen,J.D., G.E. Jones, and C.M. Switzer|An Investigation of the Effects of Various Methods of Herbicide Application on Weed Control in Sugar Beets|J. Am. Soc. Sugar Beet Technol.11:151-154|1960|10.5274/jsbr.11.2.151
42638|T||Yermanos,D.M., and P.F. Knowles|Effects of Gibberellic Acid Treatments on Safflower|Agron. J.52:596-598|1960|10.2134/agronj1960.00021962005200100015x
42639|T||Marsh,H.V.,Jr., F.W. Southwick, and W.D. Weeks|The Influence of Chemical Thinners on Fruit Set and Size, Seed Development, and Preharvest Drop of Apples|Proc. Am. Soc. Hortic. Sci.75:5-21|1960|
42640|T||Arenaz,P.|The Ineffectiveness of Hycanthone Methanesulfonate in Inducingsomatic Crossing over and Mutations in Glycine Max|Mutat. Res.48:187-190|1977|10.1016/0027-5107(77)90159-2
42641|T||Ryan,G.F.|Multiple Herbicide Applications for Bittercress Control in Nursery Containers|Hortscience12:158-160|1977|10.21273/HORTSCI.12.2.158
42642|T||Bradley,M.R., and G. Hargreaves|Weed Control in Drilled Outdoor Lettuce|Exp. Hortic.29:35-44|1977|
42643|T||Sams,C.E., and W.A. Krueger|Ethephon Alteration of Flowering and Fruit Set Pattern of Summer Squash|Hortscience12:162-164|1977|10.21273/HORTSCI.12.2.162
42644|T||Ashton,F.M., O.T. De Villiers, R.K. Glenn, and W.B. Duke|Localization of Metabolic Sites of Action of Herbicides|Pestic. Biochem. Physiol.7:122-141|1977|10.1016/0048-3575(77)90024-4
42645|T||Henry,E.W., C.N. Chekwube, and J. Russo|Physiological Responses of Dwarf Pea Seedlings to Ethrel and UV Irradiation|Z. Pflanzenphysiol. (Multiple Languages)81:459-465|1977|10.1016/S0044-328X(77)80179-7
42646|T||Nelson,H., I. Ilan, and L. Reinhold|The Effect of Inhibitors of Protein and RNA Synthesis on Auxin-Induced Growth|Isr. J. Bot.18:129-134|1969|
42647|T||Benedict,W.G., D. Des, and S. Thomas|Effect of 2-Chloroethyl Phosphonic Acid and Gibberllic Acid on Survival of Tall and Dwarf Peas Grown in Root Rot Soils|Can. J. Bot.47:1659-1662|1969|10.1139/b69-241
42648|T||Verloop,A., and W.B. Nimmo|Absorption, Translocation and Metabolism of Dichlobenil in Bean Seedlings|Weed Res. (Multiple Languages)9:357-370|1969|10.1111/j.1365-3180.1969.tb01495.x
42649|T||Kacperska-Palacz,A., M. Blaziak, and B. Wcislinska|The Effect of Growth Retardants CCC and B-9 on Certain Factors Related to Cold Acclimation of Plants|Bot. Gaz.130(3): 213-221|1969|10.1086/336492
42650|T||Said,M.|Effect of Captan on Benching of Roots and Germination Period of Citrus Seedlings|Agric. Pak.18(4): 453-456|1967|
42651|T||Turetskaya,R.K., V.I. Kefeli, and S.A. Saidova|Effect of Natural and Synthetic Inhibitors on Various Forms of Growth|Fiziol. Rast. (Mosc.) (Non-English)16(5): 825-831|1969|
42652|T||Stembridge,G.E., and C.E.,Jr. Gambrell|Thinning Peaches with 3-Chlorophenoxy-alpha-Propionamide|J. Am. Soc. Hortic. Sci.94:570-573|1969|10.21273/JASHS.94.6.570
42653|T||Putnam,A.R., and H.C. Price|Tolerance of Rootstocks and Established Malus, Pyrus, and Prunus Trees to Terbacil|J. Am. Soc. Hortic. Sci.94(6): 655-658|1969|10.21273/JASHS.94.6.655
42654|T||Eaton,G.W., and L.I. Chen|The Effect of Captan on Strawberry Pollen Germination|J. Am. Soc. Hortic. Sci.94:558-560|1969|10.21273/JASHS.94.5.558
42655|T||Eaton,G.W., and L.I. Chen|Strawberry Achene Set and Berry Development as Affected by Captan Sprays|J. Am. Soc. Hortic. Sci.94(6): 565-568|1969|10.21273/JASHS.94.6.565
42656|T||Moreland,D.E., S.S. Malhotra, R.D. Gruenhagen, and E.H. Shokraii|Effects of Herbicides on RNA and Protein Synthesis|Weed Sci.17(4): 556-563|1969|10.1017/S0043174500054801
42658|T||Basile,D.V.|Inhibition of Proline-Hydroxyproline Metabolism and Phenovariation of Scapania Nemorosa|Bull. Torrey Bot. Club96:577-581|1969|10.2307/2483794
42659|T||Mukherjee,I.|Effect of Sucrose and Gibberellic Acid on Floral Induction of Xanthium|Physiol. Plant. (Multiple Languages)22:694-700|1969|10.1111/j.1399-3054.1969.tb07425.x
42660|T||Devlin,R.M., and D.P. Brown|Effect of Gibberellic Acid on the Elongation Rate of Agrostis Alba Root Hairs|Physiol. Plant. (Multiple Languages)22:759-763|1969|10.1111/j.1399-3054.1969.tb07433.x
42661|T||Drury,R.E., and A.A. Khan|The Inhibition of Seedling Growth by Streptomycin Sulfate|Physiol. Plant. (Multiple Languages)22:751-758|1969|10.1111/j.1399-3054.1969.tb07432.x
42662|T||Killion,D.D., and R.E. Frans|Effect of Pyriclor on Mitochondrial Oxidation|Weed Sci.17:468-470|1969|10.1017/S0043174500054576
42663|T||Wozny,A., E. Gwozdz, and H. Szweykowska|The Effect of 3-Indolylacetic Acid on the Differentiation of Plastids in Callus Culture of Cichorium Intybus L.|Protoplasma (Multiple Languages)76:109-114|1973|10.1007/BF01279677
42664|T||Bajaj,S., and G. Fellenberg|Effect of Indole Acetic Acid and Gibberellic Acid on Histone Composition in the Nucleoprotein of Dark Grown Pea Epicotyls|Z. Pflanzenphysiol. (Multiple Languages)68:178-180|1972|10.1016/S0044-328X(72)80167-3
42665|T||Mohan Ram,H.Y., H.Y. Jaiswal, and V.S. Jaiswal|Sex Reversal in the Male Plants of Cannabis sativa L. by Ethyl Hydrogen-1-Propyl-Phosphonate|Z. Pflanzenphysiol. (Multiple Languages)68:181-183|1972|10.1016/S0044-328X(72)80168-5
42666|T||Mcdavid,C.R., G.R. Sagar, and C. Marshall|The Effect of Auxin from the Shoot on Root Development in Pisum Sativum l|New Phytol.71:1027-1032|1972|10.1111/j.1469-8137.1972.tb01980.x
42667|T||Bose,S., and M.S. Bose|Effect of Treatments of Colchicine, Diethyl Sulphate and Triethylamine in Tomato (Lycopersicon esculentum Mill)|Bull. Bot. Surv. India11:362-366|1969|
42668|T||Tafuri,F., M. Businelli, and L. Scarponi|Effect of Caffeic and P-Coumaric Acids on Indole-3-Acetic Acid Catabolism|J. Sci. Food Agric.23:1417-1423|1972|10.1002/jsfa.2740231205
42669|T||Scheuermann,W., and G. Klaffke-Lobsien|On the Influence of 5-Amino Uracil on the Cell Cycle of Root Tip Meristems|Exp. Cell Res.76:428-436|1973|10.1016/0014-4827(73)90395-9
42670|T||Zuk,J., and Z. Swietlinska|Effect of Caffeine on Nucleic Acids and Protein Synthesis in Vicia faba|Mutat. Res.17:207-212|1973|10.1016/0027-5107(73)90168-1
42671|T||Rehm,M.M., and M.G. Cline|Rapid Growth Inhibition of Avena Coleoptile Segments by Abscisic Acid|Plant Physiol.51:93-96|1973|10.1104/pp.51.1.93
42672|T||Swietlinska,Z., D. Zaborowska, and J. Zuk|Induction of Chromosome Aberrations by Diepoxybutane and Caffeine in Root Meristems and Germinating Seeds of Vicia faba|Mutat. Res.17:199-205|1973|10.1016/0027-5107(73)90167-X
42673|T||De la Torre,C., J.L. Diez, J.F. Lopez-Saez, and G. Gimenez-Martin|Effect of Abscisic Acid on the Cytological Components of the Root Growth|Cytologia37:197-205|1972|10.1508/cytologia.37.197
42674|T||Buchanan,D.W., A.B. Humphrys, and R.H. Biggs|Ethephon and Pit Splitting of 'Flordasun' Peach|Hortscience8:319|1973|10.21273/HORTSCI.8.4.319
42675|T||Rossman,E.C., and D.W. Staniforth|Effects of 2,4-D on Inbred Lines and a Single Cross of Maize|Plant Physiol.23:60-74|1948|
42676|T||Shaybany,B., and H. Sharifi|Effect of Pre-Harvest Applications of Ethephon on Leaf Abscission, Fruit Drop and Constituents of Fruit Juice in Pomegranates|J. Hortic. Sci.48:293-296|1973|10.1080/00221589.1973.11514531
42677|T||Chauhan,K.S., and J.S. Pundir|Effect of Growth-Regulators and Mist on Rooting in Stem Cuttings of Peach (Prunus persica Batsch.)|Indian J. Agric. Sci.42(9): 769-771|1972|
42678|T||Blatt,C.R., and A.G. Sponagle|Effects of 2-Chloroethylphosphonic Acid on Runner Plant Yields and Fruit Maturity of the Strawberry|Can. J. Plant Sci.53:585-587|1973|10.4141/cjps73-113
42679|T||Ismail,A.A.|Effects of Preharvest Application of Ethephon on Physical and Chemical Characteristics of the Lowbush Blueberry Fruit|Can. J. Plant Sci.53:553-557|1973|10.4141/cjps73-108
42680|T||Palmer,J.H.|Ethylene as a Cause of Transient Petiole Epinasty in Helianthus Annuus During Clinostat Experiments|Physiol. Plant. (Multiple Languages)28:188-193|1973|10.1111/j.1399-3054.1973.tb01173.x
42681|T||Thomas,R.L., A.K. Seth, K.W. Chan, and S.C. Ooi|Induced Parthenocarpy in the Oil-Palm|Ann. Bot.37:447-452|1973|10.1093/oxfordjournals.aob.a084711
42683|T||Svensson,S.B.|The Effect of Coumarin on Growth, Production of dry Matter, Protein and Nucleic Acids in Roots of Maize and Wheat and the Interaction of Coumarin with Metabolic|Physiol. Plant. (Multiple Languages)27:13-24|1972|10.1111/j.1399-3054.1972.tb01130.x
42684|T||El Sadek,L.M.|Cytogenetic Effects of Dichloropropionic Acid and Some of Its Compounds|Alex. J. Agric. Res.20:103-110|1972|
42685|T||Ashby,J.P.R., and H.A. Waterson|Acceleration of Tomato Ripening by Ethephon|Engeigaku Kenkyuu12:201-203|1972|
42686|T||Van Bragt,J., and P.H.M. Dekker|The Influence of Chlormequat on the Flowering of the Tulip|Neth. J. Agric. Sci.21:139-144|1973|10.18174/njas.v21i2.17258
42687|T||Baker,D.A.|The Effect of Cccp on Ion Fluxes in the Stele and Cortex of Maize Roots|Planta (Multiple Languages)112:293-299|1973|10.1007/BF00390302
42688|T||De Fossard,R.A.|The Effects of CCC, Ethrel, Abscisic Acid, Abscisic Aldehyde, and Abscisic Hydrocarbon on the Development and Flowering of Chenopodium rubrum L.|Bot. Gaz.134:103-117|1973|10.1086/336688
42690|T||De Leo,P., G. Dalessandro, A. De Santis, and O. Arrigon|Inhibitory Effect of Lycorine on Cell Division and Cell Elongation|Plant Cell Physiol.14:41-486|1973|
42691|T||Elmstrom,G.W.|Weed Control in Watermelon with Terbacil and Activated Charcoal|Proc. Annu. Meet. Fla. State Hortic. Soc.85:105-107|1972|
42692|T||Montague,M.J., H. Ikuma, and P.B. Kaufman|On the Nature of the Physiological Responses of Avena Stem Segments to Gibberellic Acid Treatment|Plant Physiol.51:1026-1032|1973|10.1104/pp.51.6.1026
42693|T||Boyle,W.S.|Cytogenetic Effects of Benlate Fungicide on Allium Cepa and Secale Cereale|J. Hered.64:49-50|1973|10.1093/oxfordjournals.jhered.a108340
42694|T||Oberly,G.H.|Effect of 2,3,5-Triiodobenzoic Acid on Bitter Pit and Calcium Accumulation in 'Northern Spy' Apples|J. Am. Soc. Hortic. Sci.98:269-271|1973|10.21273/JASHS.98.3.269
42695|T||Besemer,S.T.|Response of Eckespoint C-1 Poinsettia to Growth Retardants|Calif. Agric.23:15|1969|
42696|T||Ghorashy,S.R., W.L. Colville, and D.L. Ashworth|Effects of 2,3,5-Triiodobenzoic Acid on the Morphology and Anatomy of Glycine Max (L.) Merr|Crop Sci.9:399-402|1969|10.2135/cropsci1969.0011183X000900040001x
42697|T||Lund-Hoie,K.|The Effect of Simazine on the Photofixation of CO2 and on Translocation of Assimilates in Norway Spruce (Picea abies)|Weed Res. (Multiple Languages)9:185-191|1969|10.1111/j.1365-3180.1969.tb01472.x
42698|T||Kwan,S.C., A.R. Hamson, and W.F. Campbell|The Effects of Different Chemicals on Pollen Germination and Tube Growth in Allium Cepa l|J. Am. Soc. Hortic. Sci.94:561-562|1969|10.21273/JASHS.94.5.561
42699|T||Looney,N.E.|Control of Apple Ripening by Succinic Acid 2,2-Dimethyl Hydrazide, 2-Chloroethyltrimethylammonium Chloride, and Ethylene|Plant Physiol.44:1127-1131|1969|10.1104/pp.44.8.1127
42701|T||Donaldson,R., W. Loescher, and D.W. Newman|The Influence of Kinetin and Antimetabolites on the Sythesis of Fatty Acids in Leaves|Am. J. Bot.56:1167-1172|1969|10.1002/j.1537-2197.1969.tb09772.x
42702|T||Dozier,W.A.,Jr., and J.A. Barden|Influence of (2-Chloroethyl)Phosphonic Acid on Growth and Abscission of Young Apple Tree Leaves|J. Am. Soc. Hortic. Sci.98:239-243|1973|10.21273/JASHS.98.3.239
42703|T||Hatton,T.T.,Jr., and R.H. Cubbedge|Influence of Ethylene on Stored Late-Season Marsh Grape-Fruit|Hortscience8:101-102|1973|10.21273/HORTSCI.8.2.101
42704|T||Shibata,H., and H. Ochiai|Effect of 4-Thiouridine on Photosystems of a Higher Plant|Agric. Biol. Chem.37:471-476|1973|10.1080/00021369.1973.10860703
42705|T||Nakayama,S., and T. Hashimoto|Effects of Abscisic Acid on Flowering in Pharbitis Nil|Plant Cell Physiol.14:419-422|1973|
42706|T||Pulver,E.L., and S.K. Ries|Action of Simazine in Increasing Plant Protein Content|Weed Sci.21(3): 233-237|1973|10.1017/S0043174500032203
42707|T||Webster,B.D.|Ultrastructural Studies of Abscission in Phaseolus:  Ethylene Effects on Cell Walls|Am. J. Bot.60:436-447|1973|10.1002/j.1537-2197.1973.tb05944.x
42708|T||Shriver,J.W., and S.W. Bingham|Physiological Effects of Bromacil on Kentucky Bluegrass and Orchardgrass|Weed Sci.21:212-217|1973|10.1017/S0043174500032148
42709|T||Wright,T.H., and C.E. Rieck|Differential Butylate Injury to Corn Hybrids|Weed Sci.21:194-196|1973|10.1017/S0043174500032100
42711|T||Ruckenbauer,P.|Effects of Kinetin on the Growth and Development of Barley and Its Interaction with Root Size|J. Agric. Sci.80:211-217|1973|10.1017/S0021859600057658
42712|T||Wu,T.P.|Some Cytological Effects of Treflan and Mitomycin C on Root Tips of Vicia faba l|Taiwania17:248-254|1972|
42713|T||Sharples,G.C.|Stimulation of Lettuce Seed Germination at high Temperatures by Ethephon and Kinetin|J. Am. Soc. Hortic. Sci.98:209-212|1973|10.21273/JASHS.98.2.209
42714|T||Kefford,N.P., M.I. Bruce, and J.A. Zwar|Retardation of Leaf Senescense by Urea Cytokinins in Raphanus sativus|Phytochemistry12:995-1003|1973|10.1016/0031-9422(73)85005-8
42715|T||Adedipe,N.O.|Effects of 2-Chloroethylphosphonic Acid on Growth, Plastid Pigments, and Sucrose Translocation in Radish|J. Exp. Bot.24:124-129|1973|10.1093/jxb/24.1.124
42716|T||Webster,P.L.|Effects of Cycloheximide on Mitosis in Vicia Faba Root-Meristem Cells|J. Exp. Bot.24:239-244|1973|10.1093/jxb/24.1.239
42717|T||Pierik,R.L.M., and H.H.M. Steegmans|The Effect of 6-Benzylamino Purine on Growth and Development of Cattleya Seedlings Grown from Unripe Seeds|Z. Pflanzenphysiol. (Multiple Languages)68:228-234|1972|10.1016/S0044-328X(72)80055-2
42718|T||Fedorov,A.K.|Effect of Gibberellin on the Period of Dormancy in Certain Woody Plants|Fiziol. Rast. (Mosc.) (Non-English)19:771-775|1972|
42719|T||Sen,D.N., and K.D. Sharma|Role of Growth Retardins on Excised Cotyledons of Merremia aegyptia (Linn.) Urban and Their Metabolism|Biochem. Physiol. Pflanzen (Multiple Languages)163:229-232|1972|10.1016/S0015-3796(17)31224-6
42720|T||Sargent,J.A., A.V. Atack, and D.J. Osborne|Orientation of Cell Growth in the Etiolated Pea Stem: Effect of Ethylene and Auxin on Cell Wall Deposition|Planta (Multiple Languages)109:185-192|1973|10.1007/BF00386126
42721|T||Wilson,R.H., J. Dever, W. Harper, and R. Fry|The Effects of Valinomycin on Respiration and Volume Changes in Plant Mitochondria|Plant Cell Physiol.13:1103-1111|1972|
42722|T||Batjer,L.P., and M.N. Westwood|1-Naphthyl N-Methylcarbamate, a New Chemical for Thinning Apples|Proc. Am. Soc. Hortic. Sci.75:1-4|1960|
42723|T||Hughes,E.W.D., and H.E. Street|Effects of Inhibitory Concentrations of 3-Indolyacetic Acid and 3-Indolylacetonitrile on Cell Division and Tissue Differentiation in Excised Tomato Roots|J. Exp. Bot.11(32): 198-205|1960|10.1093/jxb/11.2.198
42724|T||Heath,O.V.S., and J.E. Clark|Chelation in Auxin Action. I. A Study of the Interactions of 3-Indolylacetic Acid and Synthetic Chelating Agents As Affecting the Growth of Wheat Roots and Coleoptile Sections|J. Exp. Bot.11(32): 167-187|1960|10.1093/jxb/11.2.167
42725|T||Gustafson,F.G.|Influence of Gibberellic Acid on Setting and Development of Fruits in Tomato|Plant Physiol.35:521-523|1960|10.1104/pp.35.4.521
42726|T||Campbell,R.W.|Some Effects of Various Esters of 2,4-Dichlorophenoxyacetic Acid on the Morphological Development of the Strawberry|Weeds (Urbana)7:77-81|1959|10.2307/4040258
42727|T||Bokarev,K.S., and N.A. Satarova|Effect of Salts of Thiocyanic Acid and Thiourea on Potato Tubers|Fiziol. Rast. (Mosc.) (Non-English)4:347-349|1957|
42728|T||Liukova,L.A.|The Influence of Nicotinic Acid on the Growth and Yield of Certain Vegetables|Fiziol. Rast. (Mosc.) (Non-English)5:20-26|1958|
42729|T||Cooper,W.C., and A. Peynado|Effect of Gibberellic Acid on Growth and Dormancy in Citrus|Proc. Am. Soc. Hortic. Sci.72:284-289|1958|
42730|T||Thompson,A.H., and B.L. Rogers|Three Years' Results with New Chemicals for Thinning of Peaches After the Blossoming Period|Proc. Am. Soc. Hortic. Sci.73:112-119|1959|
42731|T||Thompson,A.H., and B.L. Rogers|Some Factors Affecting Chemical Thinning of Golden Delicious Apples with Naphthalene Acetic Acid Plus Tween 20|J. Am. Soc. Hortic. Sci.72:45-51|1958|
42732|T||Harley,C.P., H.H. Moon, and L.O. Regeimbal|Evidence That Post-Bloom Apple-Thinning Sprays of Naphthaleneacetic Acid Increase Blossom-Bud Formation|Proc. Am. Soc. Hortic. Sci.72:52-56|1958|
42733|T||Misra,G., and S.N. Patnaik|Effect of Coumarin on the Germination and Growth of Rice Seedlings|Nature183(4666): 989-990|1959|10.1038/183989b0
42734|T||Brian,P.W., H.G. Hemming, and D. Lowe|The Effect of Gibberellic Acid on Shoot Growth of Cupid Sweet Peas|Physiol. Plant. (Multiple Languages)12:15-29|1959|10.1111/j.1399-3054.1959.tb07881.x
42735|T||Boll,W.G.|Inhibition of Growth of Excised Tomato Roots by 2-Diethylaminoethanol|Science129:330-331|1959|10.1126/science.129.3345.330
42736|T||Button,E.F.|Effect of Gibberellic Acids on Laboratory Germination of Creeping Red Fescue (Festuca Rubra)|Agron. J.51:60-61|1959|10.2134/agronj1959.00021962005100010024x
42737|T||Kline,J.W.|Growth Responses of Gibberellin-Treated Celery Plants|Bot. Gaz.120:122-124|1958|10.1086/336012
42738|T||Bohlen,J., and H.G. Applega|The Effect of Injecting 2,3,5-Triiodobenzoic Acid into Kalanchoe Diagremontiana|New Phytol.61:132-137|1962|10.1111/j.1469-8137.1962.tb06282.x
42739|T||Lombard,P.B., and A.E. Mitchell|Anatomical and Hormonal Development in Redhaven Peach Seeds As Related to the Timing of Naphthaleneacetic Acid for Fruit Thinning|Proc. Am. Soc. Hortic. Sci.80:163-171|1962|
42740|T||Southwick,F.W., W.D. Weeks, E. Sawada, and J.F. Anderson|The Influence of Chemical Thinners and Seeds on the Growth Rate of Apples|Proc. Am. Soc. Hortic. Sci.80:33-42|1962|
42741|T||Stebbins,R.L.|Effect of 1-Naphthyl N-Methylcarbamate (Sevin) as a Chemical Thinner for Apples in Western Colorado|J. Am. Soc. Hortic. Sci.95(3): 319-322|1962|
42742|T||Sudi,J., and G. Matolesy|Colchicine-Like Action on Plants of Some Amide Derivatives of 3,5-Dichlorophenoxyacetic Acid|Bot. Gaz.123:265-272|1962|10.1086/336161
42743|T||Bukovac,M.J., and A.E. Mitchell|Biological Evaluation of 1-Napthyl N-Methylcarbamate with Special Reference to the Abscission of Apple Fruits|Proc. Am. Soc. Hortic. Sci.80:1-10|1962|
42744|T||Khurduk,N.N., and A. Nezgovorova|Inhibition of Photosynthesis by Isonicotinic Acid Hydrazide, Hydroxylamine, and Chloramphenicol|Fiziol. Rast. (Mosc.) (Non-English)8:585-591|1961|
42745|T||Magsino,H.J.|The Effects of Gibberellic Acid on Garlic|Araneta J. Agric.8:54-73|1961|
42746|T||Grover,R.|Germination of Three Coniferous Species After Treatment with Simazine|Weeds (Urbana)10:246-|1962|10.2307/4040789
42747|T||Stoddart,J.L.|Effect of Gibberellin on A Non-Flowering Genotype of Red Clover|Nature194:1063-1064|1962|10.1038/1941063a0
42748|T||Rochecouste,E.|Studies on the Biotypes of Cynodon dactylon (L.) Pers. II. Growth Response to Trichloroacetic and 2,2-Dichloropropionic Acids|Weed Res. (Multiple Languages)2:136-145|1962|10.1111/j.1365-3180.1962.tb00191.x
42749|T||Baker,R.S., and G.F. Warren|Selective Herbicidal Action of Amiben on Cucumber and Squash|Weeds (Urbana)10:219-224|1962|10.2307/4040783
42750|T||Riepma Kzn,P.|The Effect of Dalapon and Amitrole, Alone and in Mixtures, on Axonopus Compressus and Paspalum Conjugatum|J. Rubber Res. Inst. Malays.17:130-140|1962|
42751|T||Riepma,K.P.|The Effect of Paraquat on Some Grasses and Other Weeds Commonly Found in Rubber Plantations|J. Rubber Res. Inst. Malays.17:141-149|1962|
42752|T||Sachar,R.C.|Comparative Effects of Gibberellin and Indole Compounds on the Induction of Parthenocarpy in Sexually Imcompatible Pereskia aculeata|Am. J. Bot.49:913-917|1962|10.1002/j.1537-2197.1962.tb15029.x
42753|T||Laloraya,M.M., and V.K. Rai|Promotion of Hypocotyl Growth with Gibberellic Acid in Epigealy Growing Seedlings|Physiol. Plant. (Multiple Languages)15:649-655|1962|10.1111/j.1399-3054.1962.tb08113.x
42754|T||Mukula,J.|Chemical Weed Control in Fruit Crop Nurseries|Ann. Agric. Fenn.1:25-36|1962|
42755|T||Stenlid,G.|The Effect of Some Synthetic Anthocyanidins on Growth and Ion Absorption of Roots|Physiol. Plant. (Multiple Languages)15:598-605|1962|10.1111/j.1399-3054.1962.tb08064.x
42756|T||Martens,A.R., O.C. Burnside, and G.L. Cramer|Compatability and Phytotoxicity of Herbicide-Fertilizer Combinations|Agron. J.70:1089-1098|1978|10.2134/agronj1978.00021962007000060047x
42757|T||Clifford,P.E.|Alteration in Seedling Geotropic Response with Indolyl-3-Acetic Acid and Morphactin|Z. Pflanzenphysiol. (Multiple Languages)90:309-318|1978|10.1016/S0044-328X(78)80062-2
42758|T||Wample,R.L., and D.M. Reid|The Role of Endogenous Auxins and Ethylene in the Formation of Adventitous Roots and Hypocotyl Hypertrophy in Flooded Sunflower Plants (Helianthus annuus)|Physiol. Plant. (Multiple Languages)45:219-226|1979|10.1111/j.1399-3054.1979.tb01691.x
42759|T||Koranski,D.S., B.H. McCown, B.E. Struckmeyer, and G.E. Beck|Gibberellin-Growth Retardant Interactions on the Growth and Flowering of Clerodendrum Thomsoniae|Physiol. Plant. (Multiple Languages)45:88-92|1979|10.1111/j.1399-3054.1979.tb01669.x
42760|T||Wang,T.L., and P.F. Wareing|Cytokinins and Apical Dominance in Solanum andigena: Lateral Shoot Growth and Endogenous Cytokinin Levels in the Absence of Roots|New Phytol.82:19-28|1979|10.1111/j.1469-8137.1979.tb07555.x
42761|T||Mitsuhashi-Kato,M., H. Shibaoka, and M. Shimokoriyama|The Nature of the Dual Effect of Auxin on Root Formation in Azukia Cuttings|Plant Cell Physiol.19(8): 1535-1542|1978|
42762|T||Van Vuurde,J.W.L., and A.E.G. Tonneyck|Effect of Foliar Application of Urea on Wheat Growth in Relation to Plant Age, Soil Fertility and Light Intensity|Plant Soil50:473-478|1978|10.1007/BF02107195
42763|T||McWhorter,C.G., and W.L. Barrentine|Weed Control in Soybeans (Glycine max) with Mefluidide Applied Postemergence|Weed Sci.27(1): 42-47|1979|10.1017/S0043174500043459
42764|T||Gubbels,G.H.|Yield, Seed Weight and Protein Content of Field Peas After Soil and Foliar Treatments of Simazine at Sublethal Levels|Can. J. Plant Sci.59:253-256|1979|10.4141/cjps79-038
42765|T||Crowley,J., and G.N. Prendeville|Effect of Dichlofop Methyl on Leaf Cell Membrane Permeability in Wild Oat, Barley, and Wheat|Can. J. Plant Sci.59:275-278|1979|10.4141/cjps79-045
42766|T||Novak,F.J., K. Schwammenhoferova, J. Cihalikova, and M. Ondrej|Partial Synchronization of Cell Division in Root Meristem Induced by 5-Aminouracil|Biol. Plant. (Praha)21(1): 51-56|1979|10.1007/BF02888719
42767|T||Prasad,K., S.K. Shrimal, and T. Prasad|Effect of Gibberellic Acid, Thiourea and Boric Acid on Germination and Seedling Growth of Crotalaria juncea L.|Biochem. Physiol. Pflanzen (Multiple Languages)170:449-452|1976|10.1016/S0015-3796(17)30238-X
42768|T||Varma,S.K.|Role of Abscisic Acid on the Phenomenon of Abscission of Flower Buds and Bolls of Cotton (Gossypium Hirsutum L.) and Its Reversal with Other Plant Regulators|Biol. Plant. (Praha)18:421-428|1976|10.1007/BF02922545
42769|T||Frank,R.|Tomato Tolerance to Two Preemergence Herbicides|J. Am. Soc. Hortic. Sci.95:370-377|1970|10.21273/JASHS.95.3.370
42771|T||Crane,J.C., and M.M. Nelson|Apricot Fruit Growth and Abscission as Affected by Maleic Hydrazide-Induced Seed Abortion|J. Am. Soc. Hortic. Sci.95:302-306|1970|10.21273/JASHS.95.3.302
42772|T||Crozier,A., C.C. Kuo, R.C. Durley, and R.P. Pharis|The Biological Activities of 26 Gibberellins in Nine Plant Bioassays|Can. J. Bot.48:867-877|1970|10.1139/b70-121
42773|T||Dnyansagar,V.R., and S.N. Khosla|Effect of 2,4-D Sprays on the Anatomical Characters of Some Weeds|Proc. Indian Acad. Sci. Sect. B70:287-294|1969|10.1007/BF03052154
42774|T||Ku,H.S., H. Suge, L. Rappaport, and H.K. Pratt|Stimulation of Rice Coleoptile Growth by Ethylene|Planta (Multiple Languages)90:333-339|1970|10.1007/BF00386385
42776|T||Snir,I., and B. Kessler|The Influence of the Growth Retardant CCC on Endogenous Gibberellin in Cucumber Seedlings|Planta (Multiple Languages)125:73-75|1975|10.1007/BF00388875
42777|T||Colquhoun,A.J., J.R. Hillman, C. Crewe, and B.G. Bowes|An Ultrastructural Study of the Effects of Abscisic Acid on Senescence of Leaves of Radish (Raphanus sativus L.)|Protoplasma (Multiple Languages)84:205-222|1975|10.1007/BF01279354
42778|T||Solon,E.G., and A.J. Turgeon|Herbicides for Establishing Kentucky Bluegrass Turf from Plugs|Agron. J.67:675-678|1975|10.2134/agronj1975.00021962006700050023x
42779|T||Moreland,D.E., and K.L. Hill|Inhibition of Photochemical Activity of Isolated Chloroplasts by Acylanilides|Weeds (Urbana)11:55-60|1963|10.2307/4040687
42780|T||Torssell,K.|Chemistry of Areneboronic Acids. X. Action of Some Organoboron Compounds on Wheat Roots and on Pollen and Distribution of C14 Labelled Benzeneboronic Acid in Plants|Physiol. Plant. (Multiple Languages)16:92-103|1963|10.1111/j.1399-3054.1963.tb08293.x
42782|T||Sand,P.F., and M.K. McCarty|Control of Woolyleaf Franseria with 2,4-D|Weeds (Urbana)11:25-27|1963|10.2307/4040678
42783|T||Torell,P.J., and R.H. Haas|Herbicidal Control of Tall Larkspur|Weeds (Urbana)11:10-13|1963|10.2307/4040674
42784|T||Chatterjee,S., and A.C. Leopold|Auxin Structure and Abscission Activity|Plant Physiol.38:268-273|1963|10.1104/pp.38.3.268
42785|T||Stenlid,G.|The Effects of Flavonoid Compounds on Oxidative Phosphorylation and on the Enzymatic Destruction of Indoleacetic Acid|Physiol. Plant. (Multiple Languages)16:110-120|1963|10.1111/j.1399-3054.1963.tb08295.x
42786|T||Wittwer,S.H., and R.R. Dedolph|Some Effects of Kinetin on the Growth and Flowering of Intact Green Plants|Am. J. Bot.50:330-336|1963|10.1002/j.1537-2197.1963.tb07200.x
42787|T||Staskawicz,B., R. Kaur-Sawhney, R. Slaybauch, W.,Jr. Adams, and A.W. alston|The Cytokinin-Like Action of Methyl-2-Benzimidazolecarbamate on Oat Leaves and Protoplasts|Pestic. Biochem. Physiol.8:106-110|1978|10.1016/0048-3575(78)90097-4
42788|T||Jones,T., and J.G. Roddick|Effects of Steroidal Estrogens and Gibberellic Acid on Stem Elongation in Tall and Dwarf Cultivars of Pisum Sativum|New Phytol.79:493-500|1977|10.1111/j.1469-8137.1977.tb02232.x
42789|T||Chen,Y.M., and C.Y. Lin|Effect of Dowco 290 on RNA Synthesis in Soybean Hypocotyl|Taiwania22(1): 73-79|1977|
42790|T||Moon,M.W., L.T. Bell, T.L. Cutting, H.R. Keyser, R.H. Tiller, and H.J. Vostral|Phenylpyrazole Amide Herbicides|J. Agric. Food Chem.25(5): 1039-1048|1977|10.1021/jf60213a016
42791|T||Rao,D.N., and D.S. Mikkelsen|Effect of Acetic, Propionic, and Butyric Acids on Young Rice Seedlings' Growth|Agron. J.69:923-928|1977|10.2134/agronj1977.00021962006900060008x
42792|T||Martin,G.C., C.S. Sibbett, and T.M. Draper|Quality and Value of Walnut Kernels As Affected by Ethephon, Delay in Harvest or Prolonged Drying|J. Am. Soc. Hortic. Sci.102:805-808|1977|10.21273/JASHS.102.6.805
42793|T||Brown,G.K., W.F. Kwolek, D.E. Wuertz, G.A. Jumper, C.L. Wilson, and S.R. Carr|Regrowth Reduction in American Elm and Sycamore by Growth Regulator Injection|J. Am. Soc. Hortic. Sci.102(6): 748-751|1977|10.21273/JASHS.102.6.748
42794|T||Khademi,M., and M. Khosh-Khui|Effect of Growth Regulators on Branching, Flowering, and Fruit Development of Ornamental Pepper (Capsicum annuum L.)|J. Am. Soc. Hortic. Sci.102(6): 796-798|1977|10.21273/JASHS.102.6.796
42795|T||Polson,C.D.A., and J.D. Adams|Cytological Effects of Phenothiazine Tranquilizing Agents on Barley Meristems|Pharmacology16:83-88|1978|10.1159/000136751
42796|T||Nadakavukaren,M.J., and D.A. McCracken|Effect of 2,4-Dichlorophenoxyacetic Acid on the Structure and Function of Developing Chloroplasts|Planta (Multiple Languages)137:65-70|1977|10.1007/BF00394437
42797|T||Kannan,S.|Inhibition of Rb+ Absorption and Transport by Ethrel in Wheat Seedlings|Z. Pflanzenphysiol. (Multiple Languages)85:83-88|1977|10.1016/S0044-328X(77)80268-7
42798|T||Bingham,S.W.|Yellow Nutsedge (Cyperus esculentus) Control in Cool Season Turfgrass|Weed Sci.25(6): 487-491|1977|10.1017/S0043174500033968
42799|T||Meyer,R.E., H.L. Morton, M.G. Merkle, R.W. Bovey, and F.S. Davis|Brush Control on Forest-Rangelands in East Texas|J. Range Manag.23:129-132|1970|10.2307/3896115
42801|T||Ketring,D.L., and P.W. Morgan|Physiology of Oil Seeds. I. Regulation of Dormancy in Virginia-Type Peanut Seeds|Plant Physiol.45:268-273|1970|10.1104/pp.45.3.268
42803|T||Arntzen,C.J., A.J. Linck, and W.P. Cunningham|The Effect of 3-Amino-S-Triazole on Flax Root Apices|Bot. Gaz.131:14-23|1970|10.1086/336507
42804|T||Wallace,A., R.T. Mueller, and A.M. El Gazzar|Effects of Some Triazines on Corn and Bean Plants Grown on Natural and Amended Soils|Agron. J.62:373-375|1970|10.2134/agronj1970.00021962006200030019x
42805|T||Holm,R.E., T.J. O'Brien, J.L. Key, and J.H. Cherry|The Influence of Auxin and Ethylene on Chromatin-Directed Ribonucleic Acid Synthesis in Soybean Hypocotyl|Plant Physiol.45:41-45|1970|10.1104/pp.45.1.41
42806|T||Kannan,S., and T. Mathew|Effects of Growth Substances on the Absorption and Transport of Iron in Plants|Plant Physiol.45:206-209|1970|10.1104/pp.45.2.206
42808|T||Godkin,S.E., and D.J. Ballantyne|Inflorescence Initiation and Endogenous Gibberellin Content of 'Red Wing' Azaleas (Rhododendron Cv.) As Influenced by Succinic Acid|Can. J. Bot.48:813-821|1970|10.1139/b70-111
42809|T||Choudhary,D.K., and B.L. Kaul|Note on the Effect of Thiourea on the Germination of Atropa belladonna L.|Indian J. Agric. Sci.43(10): 967-968|1973|
42810|T||Sterrett,J.P., C.L. Foy, and S.W. Bingham|The Effect of Auxin on Sprouting in Poison Ivy|Weed Sci.15:199-201|1970|10.1017/S0043174500079558
42811|T||Radin,J.W., and R.S. Loomis|Ethylene and Carbon Dioxide in the Growth and Development of Cultured Radish Roots|Plant Physiol.44:1584-1589|1969|10.1104/pp.44.11.1584
42812|T||Foote,L.E., D.L. Kill, and C.S. Williams|Canada Thistle Control on Roadsides|Weed Sci.18:307-310|1970|10.1017/S0043174500079819
42813|T||Wilkinson,R.E., and T.S. Davis|Pine Seedling Response to Dichlobenil, Fluometuron, and Pebulate|Weed Sci.18:292-294|1970|10.1017/S0043174500079790
42814|T||Kasmire,R.F., L. Rappaport, and D. May|Effects of 2-Chloroethylphosphonic Acid on Ripening of Cantaloupes|J. Am. Soc. Hortic. Sci.95:134-137|1970|10.21273/JASHS.95.2.134
42815|T||Soleimani,A., W.B. Kliewer, and R.J. Weaver|Influence of Growth Regulators on Concentration of Protein and Nucleic Acids in 'Black Corinth' Grapes|J. Am. Soc. Hortic. Sci.95:143-146|1970|10.21273/JASHS.95.2.143
42816|T||Weller,S.C., and D.C. Ferree|Effect of A Pinolene-Base Antitranspirant on Fruit Growth, Net Photosythesis, Transpiration and Shoot Growth of 'Golden Delicious' Apple Trees|J. Am. Soc. Hortic. Sci.103:17-19|1978|10.21273/JASHS.103.1.17
42817|T||Ferree,D.C., and F.R. Hall|Effects of Growth Regulators and Multiple Applications of Pesticides on Net Photosynthesis and Transpiration of Greenhouse-Grown Apple Trees|J. Am. Soc. Hortic. Sci.103(1): 61-64|1978|10.21273/JASHS.103.1.61
42818|T||Murray,M.G., and J.L. Key|2,4-Dichlorophenoxyacetic Acid-Enhanced Phosphorylation of Soybean Nuclear Proteins|Plant Physiol.61:190-198|1978|10.1104/pp.61.2.190
42819|T||Awang,M.B., and T.J. Monaco|Germination, Growth, Development, and Control of Camphorweed (Heterotheca subaxillaris)|Weed Sci.26:51-57|1978|10.1017/S0043174500032689
42820|T||Misra,K.C., and A.C. Gaur|Influence of Simazine, Lindane and Ceresan on Different Parameters of Nitrogen Fixation by Groundnut|Indian J. Agric. Sci.44(12): 837-840|1974|
42821|T||Paul,Y., M.S. Saimbhi, B.N. Sharma, and K. Verma|Influence of Some Herbicides on the Chemical Composition of Potato Tubers|Indian J. Agric. Sci.44(12): 800-803|1974|
42822|T||Shukla,S.N., and M.N. Tewari|Effect of Alar and Ethrel on Growth, Fruit Development and Distribution of Nitrogen and Phosphorus in Okra|Indian J. Agric. Res.44:787-790|1974|
42823|T||Finke,R.L., R.L. Warner, and T.J. Muzik|Effect of Herbicides on In Vivo Nitrate and Nitrite Reduction|Weed Sci.25(1): 18-22|1977|10.1017/S0043174500032835
42824|T||Rao,V.S., and W.B. Duke|Effect of Alachor, Propachlor, and Prynachlor on Ga3-Induced Production of Protease and alpha-Amylase|Weed Sci.24(6): 616-618|1976|10.1017/S0043174500063062
42825|T||Quimby,P.C.,Jr., E.B. Hollingsworth, and R.L. Mcdonald|Techniques for Greenhouse Evaluation of Herbicides on Saltcedar|Weed Sci.25:1-4|1977|10.1017/S0043174500032793
42826|T||Brewer,P.E., and F.W. Slife|Soybeans (Glycine Max) as a Rescue Crop Following Cyanazine and Procyazine Application|Weed Sci.27(3): 263-266|1979|10.1017/S0043174500043976
42827|T||Theurer,J.C.|Effect of Dpx 3778 As A Male Gametocide in Sugar Beets|Can. J. Plant Sci.59:463-468|1979|10.4141/cjps79-071
42828|T||Pisarczyk,J.M., and W.E. Splittstoesser|Controlling Tomato Transplant Height with Chlormequat, Daminozide, and Ethephon|J. Am. Soc. Hortic. Sci.104(3): 342-344|1979|10.21273/JASHS.104.3.342
42829|T||Tamanaha,L.R., C.G. Shimizu, and J. Arditti|The Effects of Ethephon on Cattleya Aurantiaca (Orchidaceae) Seedlings|Bot. Gaz.140:25-28|1979|10.1086/337053
42830|T||Wee,Y.C., and A.N. Rao|"Development of the Inflorescence and ""Crown"" of Ananas Comosus After Treatment with Acetylene, NAA, and Ethephon"|Am. J. Bot.66:351-360|1979|10.1002/j.1537-2197.1979.tb06235.x
42831|T||Wright,S.T.C.|The Effect of 6-Benzyladenine and Leaf Ageing Treatment on the Levels of Stress-Induced Ethylene Emanating from Wilted Wheat Leaves|Planta (Multiple Languages)144:179-188|1979|10.1007/BF00387268
42832|T||Kapoor,H.C., and R.C. Sachar|Modulation by Gibberellic Acid and Adenosine-3',5'-Cyclic Monophosphate of Starch Hydrolyzing Activity of Cowpea Seedlings|Phytochemistry18:565-568|1979|10.1016/S0031-9422(00)84261-2
42833|T||Sosebee,R.E., W.E. Boyd, and C.S. Brumley|Broom Snakeweed Control with Tebuthiuron|J. Range Manag.32:179-182|1979|10.2307/3897117
42834|T||Jennings,E.A., and D.S.H. Drennan|Pre-Sowing Herbicides in Irrigated Cotton (Gossypium barbadense L.) and Groundnut (Arachis hypogaea L.) in the Sudan I. Weed Control and Crop Yields Achieved with Trifluralin and Benfluralin|Weed Res. (Multiple Languages)19(2): 75-80|1979|10.1111/j.1365-3180.1979.tb01578.x
42835|T||Pyne,W.J., S.S. Szabo, and R.E. Holm|Synthesis and Herbicidal Activity of N-Alkyl-N-Propargyl-N'-Phenylureas and Related Compounds|J. Agric. Food Chem.27:537-543|1979|10.1021/jf60223a049
42836|T||Paul,J.S., S.D. Krohne, and J.A. Bassham|Stimulation of CO2 Incorporation and Glutamine Synthesis by 2,4-D in Photosynthesizing Leaf-Free Mesophyll Cells|Plant Sci. Lett.15:17-24|1979|10.1016/0304-4211(79)90088-9
42837|T||Ordin,L.|Effect of Peroxyacetyl Nitrate on Growth and Cell Wall Metabolism of Avena Coleoptile Sections|Plant Physiol.37:603-608|1962|10.1104/pp.37.5.603
42838|T||Gudjonsdottir,S., and H. Burstrom|Growth-Promoting Effects of Alcohols on Excised Wheat Roots|Physiol. Plant. (Multiple Languages)15:498-504|1962|10.1111/j.1399-3054.1962.tb08053.x
42839|T||Morgan,P.W., and W.C. Hall|Effect of 2,4-Dichlorophenoxyacetic Acid on the Production of Ethylene by Cotton and Grain Sorghum|Physiol. Plant. (Multiple Languages)15:420-427|1962|10.1111/j.1399-3054.1962.tb08045.x
42840|T||Sund,K.A., and N. Nomura|Laboratory Evaluation of Several Herbicides|Weed Res. (Multiple Languages)3:35-43|1963|10.1111/j.1365-3180.1963.tb00217.x
42841|T||Way,J.M.|The Effect of Sub-lethal Doses of MCPA on the Morphology and Yield of Vegetable Crops.  II.  Cabbage, Cauliflower, and Brussels Sprouts|Weed Res. (Multiple Languages)3:11-25|1963|10.1111/j.1365-3180.1963.tb00215.x
42842|T||Odhnoff,C.|The Effect of Gibberellin and Phenylboric Acid on Xylem Differentiation and Epidermal Cell Elongation in Bean (Phaseolus vulgaris) Roots|Physiol. Plant. (Multiple Languages)16:474-483|1963|10.1111/j.1399-3054.1963.tb08325.x
42843|T||Arnold,W.J., and L.E. Warren|Dowpon C Grass Killer: A New Product for Controlling Perennial Grasses Such as Johnsongrass and Bermudagrass|Down Earth21:14-16|1966|
42844|T||Tappeiner,J.C.|Effect of Fire and 2,4-D on the Early Stages of Beaked Hazel (Corylus cornuta) Understories|Weed Sci.27:162-166|1979|10.1017/S0043174500043745
42845|T||Piggin,C.M.|Control of Echium plantagineum L. with 2,4-D and Grazing Management|Weed Res. (Multiple Languages)19:17-23|1979|10.1111/j.1365-3180.1979.tb01512.x
42846|T||Hardcastle,W.S.|Soybean (Glycine max) Cultivar Response to Metribuzin in Solution Culture|Weed Sci.27(3): 278-279|1979|10.1017/S0043174500044015
42847|T||Jachetta,J.J., S.R. Radosevich, and C.L. Elmore|Differential Susceptibility of Two Pigweed (Amaranthus spp.) Species to Napropamide|Weed Sci.27(2): 189-191|1979|10.1017/S0043174500043794
42848|T||Menhenett,R.|Effects of Growth Retardants, Gibberellic Acid, and Indol-2-Ylacetic Acid on Stem Extension and Flower Development in the Pot Chrysanthemum (Chrysanthemum Morif|Ann. Bot.43:305-318|1979|10.1093/oxfordjournals.aob.a085640
42849|T||Gordon,A.J., and A.E. Flood|Effect of 2,4-Dichlorophenoxyacetic Acid on Invertases in Chicory Root|Phytochemistry18:405-408|1979|10.1016/S0031-9422(00)81875-0
42850|T||Prakash,J., S. Babber, and S.K. Pahwa|Effect of Some Herbicides on the Epidermis of Vicia Sativa l|Weed Res. (Multiple Languages)18:379-380|1978|10.1111/j.1365-3180.1978.tb01177.x
42851|T||Sharma,M.P., W.H. Vanden Born, and D.K. McBeath|Effects of Post-Emergence Wild Oat Herbicides on the Transpiration of Wild Oats|Can. J. Plant Sci.57:127-132|1977|10.4141/cjps77-019
42852|T||O'Sullivan,P.A., H.A. Friesen, and W.H. Vanden Born|Influence of Herbicides for Broad-Leaved Weeds and Adjuvants with Dichlorfop Methyl on Wild Oat Control|Can. J. Plant Sci.57:117-125|1977|10.4141/cjps77-018
42853|T||Jeffcoat,B.|Influence of the Cytokinin, 6-Benzylamino-9-(Tetrahydropyran-2-yl)-9H-Purine, on the Growth and Development of Some Ornamental Crops|J. Hortic. Sci.52:143-153|1977|10.1080/00221589.1977.11514740
42854|T||Raese,J.T.|Response of Young 'D'Anjou' Pear Trees to Triazine and Triazole Herbicides and Nitrogen|J. Am. Soc. Hortic. Sci.102(2): 215-218|1977|10.21273/JASHS.102.2.215
42855|T||Eenink,A.H.|Induction of Male Sterility in Lettuce (Lactuca sativa L.) by Application of Gibberellic Acid: A Technical Note|Euphytica 26:31-32|1977|10.1007/BF00032067
42856|T||Giacobbe,T.J., E.H. Norton, J.S. Claus, and T.W. Holmsen|Preparation and Herbicidal Activity of the Vinylbenzyl Esters of Various Thio and Dithiocarbamic Acids|J. Agric. Food Chem.25:320-323|1977|10.1021/jf60210a014
42857|T||Esashi,Y., H. Katoh, and A.C. Leopold|Dormancy and Impotency of Cocklebur Seeds: IV. Effects of Gibberellic Acid, Benzyladenine, Thiourea, and Potassium Nitrate on the Growth of Embryonic Axis and Cotyledon Segments|Plant Physiol.59:117-121|1977|10.1104/pp.59.2.117
42858|T||Knypl,J.S.|Tween Surfactants Stimulate Growth of Amaranthus Seedlings|Z. Pflanzenphysiol. (Multiple Languages)81:147-152|1977|10.1016/S0044-328X(77)80078-0
42860|T||Singh,R.P., and S.H. West|Influence of Simazine on Chloroplast Metabolism|Curr. Sci. (Bangalore)36:510-511|1967|
42861|T||Stott,K.G.|Chlorthiamide for the Control of Perennial Weeds in Willow Beds|Long Ashton Res. Stn. Rep.1966:258-267|1966|
42862|T||Eckert,R.E.,Jr., and R.A. Evans|Chemical Control of Low Sagebrush and Associated Green Rabbitbrush|J. Range Manag.21:325-328|1968|10.2307/3895904
42863|T||Inouye,J., and J. Mukai|Effect of 2-Thiouracil in Flower Initiation in Rice and Wheat Plants Grown Under Aseptic Conditions|J. Fac. Agric. Kyushu Univ.14:33-41|1966|10.5109/22746
42864|T||Krause,B.F., and N.H. Boke|Effects of 2,3,5-Triiodobenzoic Acid on the Structure of Soybean Leaves|Am. J. Bot.55:1074-1079|1968|10.1002/j.1537-2197.1968.tb07472.x
42865|T||Kuraishi,S.|The Effect of Kinetin on Protein Level of Brassica Leaf Disks|Physiol. Plant. (Multiple Languages)21:78-83|1968|10.1111/j.1399-3054.1968.tb07232.x
42866|T||Weston,G.D., and H.E. Street|The Effects of 1-Naphthylacetic Acid on the Growth of Excised Tomato Roots|J. Exp. Bot.19:628-635|1968|10.1093/jxb/19.3.628
42867|T||Oldham,M.A., and W.J. Greenhalgh|The Effect of Alar on Vegetative Growth and Fruiting Behaviour of Three Varieties of Apples in the Central Tablelands of New South Wales|Aust. J. Exp. Agric. Anim. Husb.8:450-455|1968|10.1071/EA9680450
42868|T||Gross,E., N. Shavit, and A. San Pieto|Synthalin: An Inhibitor of Energy Transfer in Chloroplasts|Arch. Biochem. Biophys.127:224-228|1968|10.1016/0003-9861(68)90219-1
42869|T||Siow,K.S., and A.M. Unrau|Effect of Alkyldinitrophenols on Photophosphorylation in Chloroplasts|Biochemistry (Wash.)7:3507-3512|1968|10.1021/bi00850a027
42870|T||Bachelard,E.P.|Effects of Seed Treatments with Gibberellic Acid on Subsequent Growth of Some Eucalypt Seedlings|New Phytol.67:595-604|1968|10.1111/j.1469-8137.1968.tb05486.x
42871|T||Bose,S.|Effect of Individual and Combined Treatments of Diethyl Sulphate and Gibberellic Acid on the Growth of Rice (Oryza Sativa L.) Seedlings|Mysore J. Agric. Sci.1:231-233|1967|
42872|T||Brown,M.E., R.M. Jackson, and S.K. Burlingham|Effects Produced on Tomato Plants, Lycopersicum esculentum, by Seed or Root Treatment with Gibberellic Acid and Indol-3yl-Acetic Acid|J. Exp. Bot.19(60): 544-552|1968|10.1093/jxb/19.3.544
42873|T||Pinfield,N.J.|The Effects of Gibberellin on the Metabolism of Ethanol-Soluble Constituents in the Cotyledons of Hazel Seeds (Corylus Avellara L.)|J. Exp. Bot.19:452-459|1968|10.1093/jxb/19.3.452
42874|T||Bradley,M.V., J.C. Crane, and N. Marei|Some Histological Effects of 2,4,5-Trichlorophenoxyacetic Acid Applied to Mature Apricot Leaves|Bot. Gaz.129:231-238|1968|10.1086/336440
42875|T||Cheng,C.K.C., and H.V.,Jr. Marsh|Gibberellic Acid-Promoted Lignification and Phenylalanine Ammonia-Lyase Activity in A Dwarf Pea (Pisum Sativum)|Plant Physiol.43:1755-1759|1968|10.1104/pp.43.11.1755
42877|T||Harper,D.B., and R.L. Wain|Studies on Plant Growth-Regulating Substances. XXX. The Plant Growth-Regulating Activity of Substituted Phenols|Ann. Appl. Biol.64:395-407|1969|10.1111/j.1744-7348.1969.tb02889.x
42878|T||Peterson,R.L.|Observations on Bud Formation and Proliferations on Cytokinin-Treated Root Segments of Ophioglossum Petiolatum|Can. J. Bot.47:1579-1583|1969|10.1139/b69-225
42880|T||Cockshull,K.E., and H.F. Van Emden|The Effects of Foliar Applications of (2-Chloroethyl)-Trimethylammonium Chloride on Leaf Area and Dry Matter Production by the Brussels Sprout Plant|J. Exp. Bot.20(64): 648-657|1969|10.1093/jxb/20.3.648
42881|T||Rudich,J., A.H. Halevy, and N. Kedar|Increase in Femaleness of Three Cucurbits by Treatment with Ethrel, An Ethylene Releasing Compound|Planta (Multiple Languages)86:69-76|1969|10.1007/BF00385305
42882|T||Schaeffer,G.W., and F.T.,Jr. Sharpe|Release of Axillary Bud Inhibition with Benzyladenine in Tobacco|Bot. Gaz.130:107-110|1969|10.1086/336477
42883|T||Purohit,A.N., K.K. Nanda, and A. Prabha|Effect of Some Growth Substances and Antimetabolites on Elongation of the First Internode in Epiphyllous Buds of Bryophyllum Tubiflorum Harv.|Bot. Gaz.130(2): 102-106|1969|10.1086/336476
42884|T||McConnell,D.B., and B.E. Struckmeyer|Effect of Alar on the Developing Root-Hypocotyl Axis of Zinnia elegans|Bot. Gaz.130:97-101|1969|10.1086/336475
42885|T||El-Fouly,M.M., and N.I. Ashour|Effect of CCC on P32 Uptake and Distribution in Cotton Seedlings Treated with Chloramphenicol (CAP)|Z. Pflanzenphysiol. (Multiple Languages)60:467-469|1969|
42886|T||Wilkinson,R.E., and W.S. Hardcastle|EPTC Effects on Sicklepod Petiolar Fatty Acids|Weed Sci.17:335-338|1969|10.1017/S0043174500054175
42887|T||Jeffery,L.S., and J. Nalewaja|The Response of Fumitory to Various Herbicides|Weed Sci.17:355-358|1969|10.1017/S0043174500054229
42888|T||Supniewska,J.H., and B. Donhal|Biological Effect of n-Nitrosodiethylamine on the Development of Raphanus sativus L. var. radicula DC, cv. Saxa|Bull. Acad. Pol. Sci. Ser. Sci. Biol.17:115-120|1969|
42889|T||Leshem,Y.|Physiological Effects of Animal Steroid and Gonadotropic Hormones on Curd Cuttings of Brassica Oleracea L. Var. Cymosa|Phyton (Horn) (Multiple Languages)24:25-29|1967|
42890|T||Stein,H.|Actinomycin D: Its Inhibitory Effect on the Development of Epidermal Hairs on Seedlings of Sinapis Alba l|Isr. J. Bot.16:124-130|1967|
42891|T||Kriedemann,P.E.|An Effect of Kinetin on the Translocation of 14C-Labelled Photosynthate in Citrus|Aust. J. Biol. Sci.21:569-571|1968|10.1071/BI9680569
42892|T||Looney,N.E.|Inhibition of Apple Ripening by Succinic Acid 2,2-Dimethyl Hydrazide and Its Reversal by Ethylene|Plant Physiol.43:1133-1137|1968|10.1104/pp.43.7.1133
42893|T||Mansfield,T.A.|Stomatal Behaviour Following Treatment with Auxin-Like Substances and Phenylmercuric Acetate|New Phytol.66:325-330|1967|10.1111/j.1469-8137.1967.tb06011.x
42894|T||Kasasian,L.|Chemical Weed Control in Tropical Root Crops|Trop. Agric.44(2): 143-150|1967|
42895|T||Kempen,H., H. Agamalian, A. Lange, and R. Brendler|Weed Control in Carrots, Celery, and Parsley|Calif. Agric.22(4): 2-3|1968|
42896|T||Fisher,D.A., D.E. Bayer, and T.E. Weier|Morphological and Anatomical Effects of Picloram on Phaseolus vulgaris|Bot. Gaz.129:67-70|1968|10.1086/336414
42897|T||Ladonin,V.F., and K.M. Svittser|Influence of Carbine on the Metabolism of RNA, Protein, and Nucleoproteins in Wild Oat Seedlings|Fiziol. Rast. (Mosc.) (Non-English)14:1017-1026|1967|
42898|T||Rai,V.K., and M.M. Laloraya|"Effect of Inhibitors of Protein Synthesis on the Gibberellin Induced Hypocotyl Growth in Lettuce (Lactuca Sativa ""Great Lakes"")"|Plant Cell Physiol.9:561-564|1968|
42899|T||Nanda,K.K., and R.S. Dhindsa|Effect of Gibberellic Acid on Starch Content of Soybean (Glycine max L.) and Its Correlation with Extension Growth|Plant Cell Physiol.9:423-432|1968|
42900|T||Jackson,D.I.|Gibberellin and Growth in Stone Fruits: Induction of Parthenocarpy in Plum|Aust. J. Biol. Sci.21:1103-1106|1968|10.1071/BI9681103
42901|T||Griggs,W.H., and B.T. Iwakiri|Effects of Succinic Acid 2,2-Dimethyl Hydrazide (Alar) Sprays Used to Control Growth in 'Bartlett' Pear Trees Planted in Hedgerows|Proc. Am. Soc. Hortic. Sci.92:155-166|1968|
42902|T||Hicks,J.R., and D.S. Brown|Influence of Growth Regulators on Ethylene Production by Apple Leaves|Proc. Am. Soc. Hortic. Sci.92:755-762|1968|
42903|T||Maxie,E.C., and J.C. Crane|Effect of Ethylene on Growth and Maturation of the Fig|Proc. Am. Soc. Hortic. Sci.92:255-267|1968|
42904|T||Kuratle,H., and E.M. Rahn|Weed Control in Carrots with Linuron and Prometryne|J. Am. Soc. Hortic. Sci.92:465-472|1968|
42905|T||Abeles,F.B., and J. Lonski|Stimulation of Lettuce Seed Germination by Ethylene|Plant Physiol.44:277-280|1969|10.1104/pp.44.2.277
42906|T||Cutter,E.G., F.M. Ashton, and D. Huffstutter|The Effects of Bensulide on the Growth, Morphology and Anatomy of Oat Roots|Weed Res. (Multiple Languages)8:346-352|1968|10.1111/j.1365-3180.1968.tb01439.x
42907|T||Morgan,P.W.|Stimulation of Ethylene Evolution and Abscission in Cotton by 2-Chloroethanephosphonic Acid|Plant Physiol.44:337-341|1969|10.1104/pp.44.3.337
42908|T||Turetskaya,R.K., V.I. Kefeli, and E.M. Kof|Effect of Metabolic Inhibitors on Systems Participating in Growth of Elongating Cells and in Root Formation|Fiziol. Rast. (Mosc.) (Non-English)15(6): 806-812|1968|
42909|T||Westwood,M.N., and H.O. Bjornstad|Effects of Gibberellin A3 on Fruit Shape and Subsequent Seed Dormancy of Apple|Hortscience3:19-20|1968|10.21273/HORTSCI.3.1.19
42910|T||Williams,M.W., and E.A. Stahly|Effect of Cytokinins on Apple Shoot Development from Axillary Buds|Hortscience3:68-69|1968|10.21273/HORTSCI.3.2.68
42911|T||Norman,S., and C.C. Craft|Effect of Ethylene on Production of Volatiles by Lemons|Hortscience3:66-68|1968|10.21273/HORTSCI.3.2.66
42912|T||Hopp,R.J., and H.,Jr. Rochester|Responses of Butternut Squash to N-Dimethyl Amino Succinamic Acid|Hortscience2(4): 160-161|1967|10.21273/HORTSCI.2.4.160
42913|T||Thomas,T.H.|Effect of the Growth Retardant Ccc (2-Chloroethyl-Trimethylammonium Chloride) on Flowering, Seed Production and Performance of the Progeny of 2 Lettuce Species|J. Hortic. Sci.43:391-400|1968|10.1080/00221589.1968.11514267
42914|T||Danielson,L.L.|Trifluralin-Treated Cloth Controls Weeds in Geranium Plantings|Hortscience3(2): 140-141|1968|10.21273/HORTSCI.3.2.140
42915|T||Sucoff,E.I.|N,N'-Dinitroethylenediamine Retards Growth of Red Cedar and American Arborvitae|Hortscience3:42-43|1968|10.21273/HORTSCI.3.1.42
42916|T||Clifton,G., S.R. Bryant, and C.G. Skinner|Inhibition of Seed Germination by Some N-(Substituted)-N'-Hydroxyureas|Life Sci.7:993-1002|1968|10.1016/0024-3205(68)90176-8
42917|T||Nooden,L.D.|The Mode of Action of Maleic Hydrazide: Inhibition of Growth|Physiol. Plant. (Multiple Languages)22:260-270|1969|10.1111/j.1399-3054.1969.tb07375.x
42918|T||Bailey,D.R.|The Effect of Post-Emergence Herbicides on the Vegetative and Reproductive Growth of Centrosema pubescens Benth. in Queensland|Weed Res. (Multiple Languages)9:9-19|1969|10.1111/j.1365-3180.1969.tb01443.x
42919|T||Hashimoto,T., and S. Tamura|Effects of Abscisic Acid on the Sprouting of Aerial Tubers of Begonia Evansiana and Dioscorea Batatas|Bot. Mag. Tokyo82:69-75|1969|10.15281/jplantres1887.82.69
42920|T||Jones,H.C., H.S. Black, and A.M. Altschul|Comparison of the Effects of Gibberellic Acid and Aflatoxin in Germinating Seeds|Nature214:171-172|1967|10.1038/214171a0
42921|T||Beutel,J., J. Yeager, G. Post, D. Rough, W. Anderson, N. Ross, F. Perry, M. Gerdts, and J. Laru|Cling Peaches Effectively Thinned with 3-CPA|Calif. Agric.23:10-11|1969|
42922|T||Biswas,P.K., O. Hall, and B.D. Mayberry|The Effects of Maleic Hydrazide on Caffeine, Tannin, DNA and RNA Content in Tea, Camellia sinensis|Hortscience2:157-158|1967|10.21273/HORTSCI.2.4.157
42923|T||Shutak,V.G.|Effect of Succinic Acid 2,2-Dimethylhydrazide on Flower Bud Formation of the 'Coville' Highbush Blueberry|Hortscience3(4): 225-|1968|10.21273/HORTSCI.3.4.225
42924|T||Lavalleye,M., H. Agamalian, A. Lange, and R. Brendler|RH 315, a New Herbicide with Potential for Weed Control in Lettuce|Calif. Agric.23(4): 14-15|1969|
42925|T||Winget,G.D., S. Izawa, and N.E. Good|The Inhibition of Photophosphorylation by Phloridzin and Closely Related Compounds|Biochemistry 8:2067-2074|1969|
42926|T||Wu,L.L., and J.P. Overcash|Maleic Hydrazide Inhibits Growth of Young Tung Trees|Proc. Am. Soc. Hortic. Sci.93:235-241|1968|
42927|T||Barden,J.A.|Effects of Alar on the Growth and Distribution of the Growth Increment in One Year Old Apple Trees|Proc. Am. Soc. Hortic. Sci.93:33-39|1968|
42928|T||Halfacre,R.G., J.A. Barden, and H.A.,Jr. Rollins|Effects of Alar on Morphology, Chlorophyll Content and Net CO2 Assimilation Rate of Young Apple Trees|Proc. Am. Soc. Hortic. Sci.93:40-50|1968|
42929|T||Lord,W.J., R.A.,Jr. Damon, and B. Gersten|Effects of Simazine Alone and in Combination with Hay or Plastic Mulch on 'Mcintosh' Apple Trees and Accumulation of Simazine Residues|Proc. Am. Soc. Hortic. Sci.93:62-70|1968|
42930|T||Lakshmanan,M., and D. Padmanabhan|Effect of Asochitine on the in Vitro Growth of Embryos of Clitoria Ternatea l|Curr. Sci. (Bangalore)37:321-322|1968|
42931|T||Bell,D.K.|Relative Susceptibility of Three Peanut Cultivars to Fat Leg (Seedling Growth Anomaly) Caused by Seed Treatment with an Organic Mercury Fungicide|Plant Dis. Rep.53:12-14|1969|
42932|T||Bovey,R.W., and F.R. Miller|Desiccation and Defoliation of Plants by Different Herbicides and Mixtures|Agron. J.60:700-702|1968|10.2134/agronj1968.00021962006000060035x
42933|T||Hahn,R.R., O.C. Burnside, and T.L. Lavy|Dissipation and Phytotoxicity of Dicamba|Weed Sci.17:3-8|1969|10.1017/S0043174500030769
42934|T||Coble,H.D., R.P. Upchurch, and J.A. Keaton|Response of Woody Species to 2,4-D, 2,4,5-T, and Picloram as a Function of Treatment Method|Weed Sci.17:40-46|1969|10.1017/S004317450003085X
42935|T||McCarty,M.K., and C.J. Scifres|Herbicidal Control of Western Ironweed|Weed Sci.17:77-79|1969|10.1017/S0043174500030940
42937|T||Magalhaes,A.C., and F.M. Ashton|Effect of Dicamba on Oxygen Uptake and Cell Membrane Permeability in Leaf Tissue of Cyperus rotundus (L.)|Weed Res. (Multiple Languages)9:48-52|1969|10.1111/j.1365-3180.1969.tb01448.x
42938|T||Nijjar,G.S., and G.G. Bhatia|Effect of Gibberellic-Acid and para-Chlorophenoxyacetic Acid on the Cropping and Quality of Anab-e-Shahi Grapes|J. Hortic. Sci.44:91-95|1969|10.1080/00221589.1969.11514289
42939|T||Burstrom,H.G.|Root Growth Activity of Barban in Relation to Auxin and Other Growth Factors|Physiol. Plant. (Multiple Languages)21:1137-1155|1968|10.1111/j.1399-3054.1968.tb07342.x
42940|T||Mercer,E.F., and E. Pughe|The Effects of Absicsic Acid on the Biosynthesis of Isoprenoid Compounds in Maize|Phytochemistry8:115-122|1969|10.1016/S0031-9422(00)85803-3
42941|T||Weis,J.S.|The Inhibition of Soybean Seedling and Callus Growth by Morphactins|Adv. Front. Plant Sci.21:162-168|1968|
42942|T||Asahi,T., and R. Majima|Effect of Antibiotics on Biogenesis of Mitochondria During Aging of Sliced Potato Root Tissue|Plant Cell Physiol.10:317-323|1969|
42943|T||Soleimani,A.|Effect of Gibberellin A3 on Concentration of Dna, Rna, and Protein in Pea Plant|Hortscience3:276-|1968|10.21273/HORTSCI.3.4.276
42944|T||Young,R., and W.C. Cooper|Effect of Cycocel and Abscisic Acid on Bud Growth of Redblush Grapefruit|J. Am. Soc. Hortic. Sci.94:8-10|1969|10.21273/JASHS.94.1.8
42945|T||Bhattacharyya,J., and S.C. Roy|Growth Promoters and the Synthesis of Protein in Plant Mitochondria. I. Effects of Kinetin on the Incorporation of Amino Acids into Mitochondrial Protein|Biochem. Biophys. Res. Commun.35:606-610|1969|10.1016/0006-291X(69)90447-1
42946|T||Smith,O.E., W.W.L. Yen, and J.M. Lyons|The Effects of Kinetin in Overcoming High-Temperature Dormancy of Lettuce Seed|Proc. Am. Soc. Hortic. Sci.93:444-453|1968|
42948|T||Bates,L.S., E. Moreno, F.J. Zillinsky, and K.A. Mjeeb|Effect of 3-Amino Caproic Acid Foliar Spray on Seed Set and Embryo Formation in Triticum Turgidum L. Var. Durum X Secale Cereale|Chem.-Biol. Interact.17:363-366|1977|10.1016/0009-2797(77)90099-0
42949|T||Datta,A., G.D. Pal, P. Bhattacharyya, and R.K. Chakraverty|Effect of Phloridizin on the Growth, Development and Glycoalkaloid Contents of Solanum viarum Dunal|Bull. Bot. Surv. India15:177-181|1973|
42950|T||Lieberman,M., and E. Knegt|Influence of Ethylene on Indole-3-Acetic Acid Concentration in Etiolated Pea Epicotyl Tissue|Plant Physiol.60:475-477|1977|10.1104/pp.60.4.475
42951|T||Dubey,P.S.|Herbicidal Pollution - Pollen Damage Due to Herbicides|Environ. Pollut.13:169-171|1977|
42952|T||Wood,D.F., and N.E. Looney|Some Cluster Thinning and Gibberellic Acid Effects on Juice and Wine Quality of de Chaunac Grapes|Can. J. Plant Sci.57:643-646|1977|10.4141/cjps77-094
42953|T||Steinert,W.G., and J.F. Stritzke|Uptake and Phytotoxicity of Tebuthiuron|Weed Sci.25:390-395|1977|10.1017/S0043174500033725
42954|T||Fadayomi,O., and G.F. Warren|Differential Activity of Three Diphenyl Ether Herbicides|Weed Sci.25:465-468|1977|10.1017/S0043174500033889
42955|T||Bharadwaj,D.N., and D.K. Dubey|Chemical Induction of Male Sterility in Black Gram|Indian J. Agric. Sci.45:535-539|1975|
42956|T||Holliday,R.J., and P.D. Putwain|Evolution of Resistance to Simazine in Senecio vulgaris L.|Weed Res. (Multiple Languages)17:291-296|1977|10.1111/j.1365-3180.1977.tb00481.x
42957|T||Dnyansagar,V.R., and V.L. Bakale|Effect of Weedicides on Seedling Anatomy of Xanthium strumarium|Phytomorphology26:227-233|1976|
42958|T||Fernandez,C.H., and D.E. Bayer|Penetration, Translocation, and Toxicity of Glyphosate in Bermudagrass (Cynodon dactylon)|Weed Sci.25(5): 396-400|1977|10.1017/S0043174500033737
42959|T||Barg,R., and N. Umiel|Development of Tobacco Seedlings and Callus Cultures in the Presence of Amitrole|Z. Pflanzenphysiol. (Multiple Languages)83:437-448|1977|10.1016/S0044-328X(77)80050-0
42961|T||Lee,J.M., and N.E. Looney|Branching Habit and Apical Dominance of Compact and Normal Apple Seedlings As Influenced by Tiba and Ga|J. Am. Soc. Hortic. Sci.102:619-622|1977|10.21273/JASHS.102.5.619
42962|T||Sarma,R., A.E. Flood, and R.L. Wain|Studies on Plant Growth-Regulating Substances: Xlvii. Ultrastructural Studies on Emergent Leaves of Avena Sativa Treated with 3,5-Diodo (and Dibromo)-4-Hydroxy|Ann. Appl. Biol.86:429-432|1977|10.1111/j.1744-7348.1977.tb01859.x
42963|T||Katekar,G.F., and A.E. Geissler|Auxin Transport Inhibitors:  II.  2-(1-Pyrenoyl)benzoic acid, a Potent Inhibitor of Polar Auxin Transport|Aust. J. Plant Physiol.4:321-325|1977|
42964|T||Adato,I., and W.B. McGlasson|Effects of Ethylene and Propylene on Post-Harvest Development and Ripening of Young Normal and Mutant Tomato Fruits|Aust. J. Plant Physiol.4:459-466|1977|
42965|T||Zelena,E.|The Influence of Organophosphoric Insecticides on Total Nitrogen and Free Amino Acid Levels in the Leaves of Apple Seedlings|Biol. Plant. (Praha)19(4): 272-277|1977|10.1007/BF02923128
42966|T||Zigas,R.P., and B.G. Coombe|Seedling Development in Peach, Prunus Persica Batsch.: Ii. Effects of Growth Regulators and Their Possible Role|Aust. J. Plant Physiol.4:359-370|1977|
42967|T||Kochhar,T.S., and P.S. Sabharwal|Morphogenetic Effects of Indole-3-Acetic Acid and Benz(a)anthracene on Tobacco Callus|Physiol. Plant. (Multiple Languages)40:169-171|1977|10.1111/j.1399-3054.1977.tb04051.x
42968|T||Yusufov,A.G., and O.B. Ashurova|Effects of IAA and Kinetin on the Lifetime of Rooted Leaves|Fiziol. Rast. (Mosc.) (Non-English)24(3): 643-646|1977|
42969|T||Balakrishnan,S., and U. Sinha|Macromolecular Changes Induced by P-Florophenylalanine in Triticale|J. Indian Bot. Soc.55:175-181|1976|
42970|T||Dunlap,J.R., and P.W. Morgan|Reversal of Induced Dormancy in Lettuce by Ethylene, Kinetin, and Gibberellic Acid|Plant Physiol.60:222-224|1977|10.1104/pp.60.2.222
42971|T||Yamaguchi,M., D.L. Hughes, K.B. Tyler, H. Johnson, and D. May|Preharvest Ethephon Application Reduces Muskmelon Quality|Hortscience12:324-325|1977|10.21273/HORTSCI.12.4.324
42972|T||Sanderson,K.C., and W.C.,Jr. Martin|Effect of Dikegulac as a Post-shearing Shoot-Inducing Agent on Azaleas, Rhododendron Spp|Hortscience12(4): 337-338|1977|10.21273/HORTSCI.12.4.337
42973|T||Johnson,B.J.|Preemergence Winter Weed Control in Dormant Bermudagrass Turf|Agron. J.69:573-576|1977|10.2134/agronj1977.00021962006900040012x
42974|T||Cutler,H.G., W.W. Reid, and J. Deletang|Plant Growth Inhibiting Properties of Diterpenes from Tobacco|Plant Cell Physiol.18:711-714|1977|
42975|T||Challice,J.S.|Inhibition by Phenolic Compounds of Cytokinin-Stimulated Betacyanin Synthesis in Amaranthus caudatus|Biol. Plant. (Praha)19:212-218|1977|10.1007/BF02923114
42976|T||Sponsel,V.M., G.V. Hoad, and L.J. Beeley|The Biological Activities of Some New Gibberellins (GAs) in Six Plant Bioassays|Planta (Multiple Languages)135:143-148|1977|10.1007/BF00387163
42977|T||Haderlie,L.C., J.M. Widholm, and F.W. Slife|Effect of Glyphosate on Carrot and Tobacco Cells|Plant Physiol.60:40-43|1977|10.1104/pp.60.1.40
42978|T||Freytag,A.H., J.D. Berlin, and J.C. Linden|Ethylene-Induced Fine Structure Alterations in Cotton and Sugarbeet Radicle Cells|Plant Physiol.60:140-143|1977|10.1104/pp.60.1.140
42979|T||Rost,T.L., S.L. Morrison, and E.S. Sachs|Cell Cycle and Metabolic Effects of Chemical Treatments|Am. J. Bot.64:780-785|1977|10.1002/j.1537-2197.1977.tb11919.x
42980|T||Padmanabhan,U., and D.J. Wort|Metabolism and Distribution of Cyclohexanecarboxylic Acid, A Plant Growth Stimulant, in Bush Bean|Plant Physiol.60:22-25|1977|10.1104/pp.60.1.22
42981|T||Goodwin,P.B., and S.C. Morris|Application of Phytohormones to Pea Roots After Removal of the Apex: Effect on Lateral Root Production|Aust. J. Plant Physiol.6:195-200|1979|
42982|T||Gresshoff,P.M.|Growth Inhibition by Glyphosate and Reversal of Its Action by Phenylalanine and Tyrosine|Aust. J. Plant Physiol.62:177-186|1979|
42983|T||Cutler,H.G., F.G. Crumley, R.H. Cox, O. Hernandez, R.J. Cole, and J.W. Dorner|Orlandin:  A Nontoxic Fungal Metabolite with Plant Growth Inhibiting Properties|J. Agric. Food Chem.27:592-595|1979|10.1021/jf60223a043
42984|T||Yakushkina,N.I., and V.T. Starikova|Effects of Coumarin and Gibberellin on Certain Aspects of the Energy Metabolism of Corn Seedlings|Fiziol. Rast. (Mosc.) (Non-English)24:1211-1216|1977|
42985|T||Spotts,R.A., F.L. Lukezic, and N.L. Lacasse|The Effect of Benzimidazole, Cholesterol and a Steroid Inhibitor on Leaf Sterols and Ozone Resistance of Bean|Phytopathology65:45-49|1975|10.1094/Phyto-65-45
42986|T||Fawcett,R.S., and R.G. Harvey|Field Comparison of Seven Dinitroaniline Herbicides for Alfalfa (Medicago sativa) Seedling Establishment|Weed Sci.26(2): 123-127|1978|10.1017/S004317450004947X
42987|T||Swan,D.G.|Effects of Repeated Herbicide Applications on Alfalfa (Medicago sativa)|Weed Sci.26(2): 151-153|1978|10.1017/S0043174500049547
42988|T||Walker,S.R.|Effect of EPTC on Emergence and Growth of Lucerne|Qld. J. Agric. Anim. Sci.33(2): 203-206|1976|
42989|T||Millhollon,R.W.|Toxicity of Soil-Incorporated Trifluralin to Johnsongrass (Sorghum halepense) Rhizomes|Weed Sci.26(2): 171-174|1978|10.1017/S0043174500049602
42990|T||Banks,P.A., and P.W. Santelmann|Influence of Subsurface Layered Herbicides on Horsenettle and Various Crops|Agron. J.70:5-8|1978|10.2134/agronj1978.00021962007000010002x
42991|T||Shimabukuro,M.A., R.H. Shimabukuro, W.S. Nord, and R.A. Hoerauf|Physiological Effects of Methyl 2-(4(2,4-Dichlorophenoxy)phenoxy)Propanoate on Oat, Wild Oat, and Wheat|Pestic. Biochem. Physiol.8:199-207|1978|10.1016/0048-3575(78)90039-1
42992|T||Burrows,W.J.|Effects of Glycerol Ethers on Monocotyledon Nucleic Acid and Protein Biosynthesis|Pestic. Biochem. Physiol.8:137-145|1978|10.1016/0048-3575(78)90034-2
42993|T||Abivardi,C., and J. Altman|Effect of Cycloate and Aldicarb Alone and in Combination on Growth of Three Sugarbeet Species (Beta spp.)|Weed Sci.26(2): 161-162|1978|10.1017/S0043174500049572
42994|T||Machado,V.S., J.D. Bandeen, G.R. Stephenson, and K.I.N. Jensen|Differential Atrazine Interference with the Hill Reaction of Isolated Chloroplasts from Chenopodium album L. Biotypes|Weed Res. (Multiple Languages)17:407-414|1977|10.1111/j.1365-3180.1977.tb00501.x
42995|T||Jensen,K.I.N., G.R. Stephensen, L.A. Hunt, and J.D. Bandeen|The Effect of Atrazine, Cyanazine and Cyprazine on Photosynthesis and Growth of Nine Grasses|Weed Res. (Multiple Languages)17:379-386|1977|10.1111/j.1365-3180.1977.tb00497.x
42996|T|OECDG|Reynolds,T.|Comparative Effects of Aromatic Compounds on Inhibition of Lettuce Fruit Germination|Ann. Bot.42:419-427|1978|10.1093/oxfordjournals.aob.a085475
42997|T||Mohan Ram,H.Y., and R. Mazumdar|Effect of Chlorflurenol on Growth and Geotropism of Cicer Arietinum|Phytomorphology27:198-206|1977|
42999|T||Wrigley,A., and J.M. Lord|The Effects of Gibberellic Acid on Organelle Biogenesis in the Endosperm of Germinating Castor Bean Seeds|J. Exp. Bot.28:345-353|1977|10.1093/jxb/28.2.345
43000|T||Giladi,I., A. Altman, and R. Goren|Differential Effects of Sucrose, Abscisic Acid, and Benzyladenine on Shoot Growth and Callus Formation in the Abscission Zone of Excised Citrus Buds|Plant Physiol.59:1161-1164|1977|10.1104/pp.59.6.1161
43001|T||Karunen,P., and L. Eronen|Influence of S-Ethyl Dipropylthiocarbamate (EPTC) on the Fatty Acid Composition of Wheat Leaf Galactolipids|Physiol. Plant. (Multiple Languages)40:101-104|1977|10.1111/j.1399-3054.1977.tb01503.x
43002|T||Prasad,G., and K. Das|Effects of Some Growth Substances on Mitosis|Cytologia42:323-329|1977|10.1508/cytologia.42.323
43003|T||Curtis,R.W., and T.J. Buckhout|Effect of Malformin on the Growth, Development, and Behavior of Phaseolus vulgaris L.|Bot. Gaz.138:153-158|1977|10.1086/336910
43004|T||Johnson,B.J.|Effect of Herbicide Treatments on Overseeded Putting Green Turf|Weed Sci.25(4): 343-347|1977|10.1017/S0043174500033592
43005|T||Truelove,B., D.E. Davis, and C.G.P. Pillai|Mefluidide Effects on Growth of Corn (Zea mays) and the Synthesis of Protein by Cucumber (Cucumis sativus) Cotyledon Tissue|Weed Sci.25(4): 360-363|1977|10.1017/S0043174500033634
43006|T||Olson,W.A., and J. Nalewaja|Wheat and Wild Oat Response to Flufenprop-Methyl|Weed Sci.25:355-359|1977|10.1017/S0043174500033622
43007|T||Kwong,F.Y., and H.B. Langerstedt|Translocation of Ethephon in Beans and Peas|J. Am. Soc. Hortic. Sci.102:437-440|1977|10.21273/JASHS.102.4.437
43008|T||Nauer,E.M., and S.B. Boswell|Effect of NAA on Shoot Growth of Topworked Fig Trees|Hortscience12:250-251|1977|10.21273/HORTSCI.12.3.250
43009|T||Boswell,S.B., B.W. Lee, and C.D. McCarty|Chemical Inhibition of Sprouting of Avocado Stumps|Hortscience12:248-249|1977|10.21273/HORTSCI.12.3.248
43010|T||Greene,D.W., W.J. Lord, and W.J. Bramlage|Mid-Summer Applications of Ethephon and Daminozide on Apples: II. Effect on 'Delicious'|J. Am. Soc. Hortic. Sci.102:494-497|1977|10.21273/JASHS.102.4.494
43011|T||Greene,D.W., W.J. Lord, and W.J. Bramlage|Mid-Summer Applications of Ethephon and Daminozide on Apples: I. Effect on 'Mcintosh'|J. Am. Soc. Hortic. Sci.102:491-494|1977|10.21273/JASHS.102.4.491
43012|T||Elfving,D.C., and C.G. Forshey|Effects of Naphthaleneacetic Acid on Shoot Growth of Apple Trees|J. Am. Soc. Hortic. Sci.102(4): 418-423|1977|10.21273/JASHS.102.4.418
43013|T||Funt,R.C., and L.D. Tukey|Influence of Exogenous Daminozide and Gibberellic Acid on Cluster Development and Yield of the 'Concord' Grape|J. Am. Soc. Hortic. Sci.102:509-514|1977|10.21273/JASHS.102.4.509
43014|T||Fuchigami,L.H.|Ethephon-Induced Defoliation and Delay of Spring Growth in Cornus stolonifera Michx.|J. Am. Soc. Hortic. Sci.102(4): 452-454|1977|10.21273/JASHS.102.4.452
43015|T||Elkins,D.M., J.W. Vandeventer, and M.A. Briskovich|Effect of Chemical Growth Retardants on Turfgrass Morphology|Agron. J.69:458-461|1977|10.2134/agronj1977.00021962006900030031x
43017|T||Merritt,C.R., and W.A. Taylor|Glasshouse Trials with Controlled Drop Application of Some Foliage-Applied Herbicides|Weed Res. (Multiple Languages)17:241-245|1977|10.1111/j.1365-3180.1977.tb00474.x
43018|T||Radosevich,S.R.|Mechanism of Atrazine Resistance in Lambsquarters and Pigweed|Weed Sci.25(4): 316-318|1977|10.1017/S0043174500033543
43019|T||Friedlander,M., D. Atsmon, and E. Galun|Sexual Differentiation in Cucumber:  The Effects of Abscisic Acid and Other Growth Regulators on Various Sex Genotypes|Plant Cell Physiol.18:261-269|1977|10.1093/oxfordjournals.pcp.a075556
43020|T||Ries,S.K., and V. Wert|Growth Responses of Rice Seedlings to Triacontanol in Light and Dark|Planta (Multiple Languages)135:77-82|1977|10.1007/BF00387979
43021|T||Boeken,G., and P. Van Oostveldt|Gibberellic Acid-Induced Cell Elongation in Pea Epicotyls: Effect on Polyploidy and DNA Content|Planta (Multiple Languages)135:89-91|1977|10.1007/BF00387981
43022|T||Zieslin,N., Y. Leshem, H. Spiegelstein, and A.H. Halevy|Possible Membrane-Associated Effects in Gibberellic Acid and Phenylalanine-Induced Rose Coloration Enhancement|Acta Bot. Neerl.26:183-186|1977|10.1111/j.1438-8677.1977.tb01110.x
43023|T||Boswell,S.B., C.D. Mccarthy, and E.M. Nauer|Control of Sprouts on Pyracantha Trunks with Annual Applications of Naphthaleneacetic Acid|Hortscience12:579-580|1977|10.21273/HORTSCI.12.6.579
43024|T||Menhenett,R.|A Comparison of the Effects of a New Quaternary Ammonium Growth Retardant with Those of Other Growth Retarding Chemicals on the Pot Chrysanthemum (Chrysanthemum|Ann. Appl. Biol.87:451-464|1977|10.1111/j.1744-7348.1977.tb01910.x
43026|T||Ashton,F.M., and R.K. Glenn|Influence of Chloro-, Methoxy-, and Methylthio- Substitutions of bis(Isopropylamino)-S-Triazine on Selected Metabolic Processes|Pestic. Biochem. Physiol.11:201-207|1979|10.1016/0048-3575(79)90059-2
43027|T||Carpita,N.C., C.W. Ross, and M.W. Nabors|The Influence of Plant Growth Regulators on the Growth of the Embryonic Axes of Red-Treated and Farred-Treated Lettuce Seeds|Planta (Multiple Languages)145:511-516|1979|10.1007/BF00380107
43029|T||Ballarin-Denti,A., and M. Cocucci|Effects of Abscisic Acid, Gibberellic Acid, and Fusicoccin on the Transmembrane Potential During the Early Phases of Germination in Radish (Raphanus Sativus) Se|Planta (Multiple Languages)146:19-24|1979|10.1007/BF00381250
43030|T||Karmoker,J.L., and R.F.M. Van Stevenick|The Effect of Abscisic Acid on Sugar Levels in Seedlings of Phaseolus Vulgaris Cultivar Redland Pioneer|Planta (Multiple Languages)146:25-30|1979|10.1007/BF00381251
43031|T||Patrick,J.W.|An Assessment of Auxin-Promoted Transport in Decapitated Stems and Whole Shoots of Phaseolus Vulgaris|Planta (Multiple Languages)146:107-112|1979|10.1007/BF00381262
43033|T||Henderson,J.H.M., and J.P. Nitsch|Effect of Certain Phenolic Acids on the Elongation of Avena First Internodes in the Presence of Auxins and Tryptophan|Nature195(4843): 780-782|1962|10.1038/195780a0
43034|T||Chew,W.Y., H.J. Chew, and N.H. Yeong|Preemergence Weed Control on Peat. II. A Comparison of Some Herbicides for Okra|Malays. Agric. J.51:217-222|1977|
43035|T||Weyers,J.D.B., and J.R. Hillman|Sensitivity of Commelina Communis Stomata to Abscisic Acid|Planta (Multiple Languages)146:623-628|1979|10.1007/BF00388842
43036|T||Haissig,B.E.|Influence of Aryl Esters of Indole-3-acetic and Indole-3-butync Acids on Adventitious Root Primordium Initiation and Development|Physiol. Plant. (Multiple Languages)47:29-33|1979|10.1111/j.1399-3054.1979.tb06507.x
43037|T||Einhellig,F.A., and J.A. Rasmussen|Effects of Three Phenolic Acids on Chlorophyll Content and Growth of Soybean and Grain Sorghum Seedlings|J. Chem. Ecol.5:815-824|1979|10.1007/BF00986566
43038|T||Pilet,P.E., M.C. Elliott, and M.M. Moloney|Endogenous and Exogenous Auxin in the Control of Root Growth|Planta (Multiple Languages)146:405-408|1979|10.1007/BF00380852
43040|T||Yarborough,D.E., and A.A. Ismail|Barrenberry Control in Lowbush Blueberry Fields Through Selective Application of 2,4-D and Glyphosate|J. Am. Soc. Hortic. Sci.104(6): 786-789|1979|10.21273/JASHS.104.6.786
43041|T||Murthy,G.S.R., and J.A. Inamdar|Morphogenetic Effects of Various Growth Substances on the Cotyledonary Stomata of Brinjal and Tomato|Biol. Plant. (Praha)21(5): 328-335|1979|10.1007/BF02878229
43042|T||Berghoef,J., and J. Bruinsma|Flower Development of Begonia franconis:  3.  Effects of Growth-Regulating Substances on Organ Initiation in Flower Buds in Vitro|Z. Pflanzenphysiol. (Multiple Languages)93:377-386|1979|10.1016/S0044-328X(79)80171-3
43043|T||Yarborough,D.E., A.A. Ismail, and P.R. Hepler|Effect of Contact Application of Glyphosate and 2,4-D on Black Barrenberry (Aronia melanocarpa) Under Greenhouse Conditions|J. Am. Soc. Hortic. Sci.104:742-745|1979|10.21273/JASHS.104.6.742
43044|T||French,R.C., and G.R. Leather|Screening of Nonanal and Related Volatile Flavor Compounds on the Germination of 18 Species of Weed Seed|J. Agric. Food Chem.27:828-832|1979|10.1021/jf60224a020
43045|T||Wilkinson,R.E., N.C. Glaze, C.C. Dowler, and C.T. Young|Turnip Green, Cucumber, Snap Bean, and Southern Pea Response to Pesticides in Intensive-Cropping Sequences|J. Agric. Food Chem.27:900-905|1979|10.1021/jf60224a012
43046|T||O'Rourke,F.L.|The Effect of Indole-Butyric Acid in Tale on Rootings of Softwood Cuttings of Blueberries|Proc. Am. Soc. Hortic. Sci.42:369-370|1943|
43047|T||Pitombiera,J.B., T.L. Housley, A.J. Ohlrogge, and P.A. Counce|The Effect of DNBP on the Accumulation of 14C-Sucrose and the Transport of 14-C Assimilates in Corn|Crop Sci.21:135-139|1981|10.2135/cropsci1981.0011183X002100010036x
43048|T||Marth,P.C.|Retardation of Shoot Development on Roses During Common Storage by Treatment with Growth-Regulating Substance|Proc. Am. Soc. Hortic. Sci.42:620-628|1943|
43050|T||Gould,C.J.|Vegetable Seed-Treatment Tests in Western Washington, 1943|Plant Dis. Rep.27:594-601|1943|
43052|T||Dermen,H., and H.F. Bain|A General Cytohistological Study of Colchicine Polyploidy in Cranberry|Am. J. Bot.31:451-463|1944|10.1002/j.1537-2197.1944.tb08056.x
43053|T||Cooper,W.C.|Vegetative Propagation of Derris and Lonchocarpus with the Aid of Growth Substances|Bot. Gaz.106:1-12|1944|10.1086/335264
43054|T||Hamner,C.L., H.A. Schomer, and P.C. Marth|Application of Growth-Regulating Substance in Aerosol Form, with Special Reference to Fruit-Set in Tomato|Bot. Gaz.106:108-123|1944|10.1086/335274
43055|T||Hamner,C.L., and H.B. Tukey|Selective Herbicidal Action of Midsummer and Fall Applications of 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.106:232-245|1944|10.1086/335290
43056|T||Marth,P.C., and J.W. Mitchell|2,4-Dichlorophenoxyacetic Acid as a Differential Herbicide|Bot. Gaz.106:224-232|1944|10.1086/335289
43057|T||Beal,J.M.|Further Observations on the Telemorphic Effects of Certain Growth-Regulating Substances|Bot. Gaz.106:165-178|1944|10.1086/335283
43058|T||Sell,H.M., H.A. Taylor, and G.F. Potter|Effect of Chemical Treatments in Prolonging Dormancy on Tung Buds. II|Bot. Gaz.106:215-223|1945|10.1086/335288
43059|T||Levan,A., and G. Ostergren|The Mechanism of C-Mitotic Action.  Observations on the Naphthalene Series|Hereditas29:381-443|1943|10.1111/j.1601-5223.1943.tb03297.x
43060|T||Schneider,G.W., and J.V. Enzie|Further Studies on the Effect of Certain Chemicals on the Fruit Set of the Apple|Proc. Am. Soc. Hortic. Sci.45:63-68|1944|
43061|T||Marth,P.C., and E.M. Meader|Influence of Growth-Regulating Chemicals on Blackberry Fruit Development|Proc. Am. Soc. Hortic. Sci.45:293-299|1944|
43062|T||Murneek,A.E., S.H. Wittwer, and D.D. Hemphill|"Supplementary ""Hormone"" Sprays for Greenhouse-Grown Tomatoes"|Proc. Am. Soc. Hortic. Sci.45:371-381|1944|
43063|T||Zimmerman,P.W., and A.E. Hitchcock|Substances Effective for Increasing Fruit Set and Inducing Seedless Tomatoes|Proc. Am. Soc. Hortic. Sci.45:353-361|1944|
43064|T||Beames,G.H., and N.W. Butterfield|Some Physiological Effects of Methyl Bromide upon Horticultural Plants|Proc. Am. Soc. Hortic. Sci.45:318-322|1944|
43065|T||Breakey,E.P.|The Effect of Methyl Bromide Fumigation on the Subsequent Development of the Croft Lily|J. Econ. Entomol.37:277-279|1944|10.1093/jee/37.2.277
43066|T||Batjer,L.P., and P.C. Marth|New Materials for Delaying Fruit Abscission of Apples|Science101:363-364|1945|10.1126/science.101.2623.363
43068|T||Sacharov,V.V., S.L. Frolova, and V.V. Mansurova|High Fertility of Buckwheat Tetraploids Obtained by Means of Colchicine Treatment|Nature154:613|1944|10.1038/154613a0
43069|T||Toole,M.G., and R. Bamford|The Formation of Diploid Plants from Haploid Peppers|J. Hered.36:67-70|1945|10.1093/oxfordjournals.jhered.a105457
43071|T||Beal,J.M., and A.G. Whiting|Effect of Indoleacetic Acid in Inhibiting Stem Abscission in Mirabilis jalapa|Bot. Gaz.106:420-431|1945|10.1086/335314
43072|T||Marth,P.C., and F.F. Davis|Relation of Temperature to the Selective Herbicidal Effects of 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.106:463-472|1945|10.1086/335318
43074|T||Tukey,H.B., and R.F. Carlson|Breaking the Dormancy of Peach Seed by Treatment with Thiourea|Plant Physiol.20:505-516|1945|10.1104/pp.20.4.505
43075|T||Macht,D.I.|Influence of Sulfonamides and Para-aminobenzoic Acid on the Growth of Lupinus albus|Proc. Soc. Exp. Biol. Med.60:217-220|1945|10.3181/00379727-60-15140
43078|T||Van Overbeek,J.|Flower Formation in the Pineapple Plant as Controlled by 2,4-D and Naphthaleneacetic Acid|Science102:621-|1945|10.1126/science.102.2659.621.a
43079|T||Beal,J.M.|Histological Reactions of Bean Plants to Certain of the Substituted Phenoxy Compounds|Bot. Gaz.107:200-217|1945|10.1086/335341
43080|T||Maki,T.E., and H. Marshall|Effects of Soaking with Indolebutyric Acid on Root Development and Survival of Tree Seedlings|Bot. Gaz.107:268-276|1945|10.1086/335346
43081|T||Mitchell,J.W., and P.C. Marth|Effects of 2,4-Dichlorophenoxyacetic Acid on the Growth of Grass Plants|Bot. Gaz.107:276-284|1945|10.1086/335347
43082|T||Ostrom,C.E.|Effects of Plant-Growth Regulators on Shoot Development and Field Survival of Forest-Tree Seedlings|Bot. Gaz.107(2): 139-183|1945|10.1086/335339
43083|T||Levan,A.|The Thresholds of Colchicine Action in Barley, Rye, Diploid Oat, and in Their Artificial Tetraploids|Hereditas32:294-295|1946|
43084|T||Hamner,C.L., J.E. Moulton, and H.B. Tukey|Treatment of Muck and Manure with 2,4-Dichlorophenoxyacetic Acid to Inhibit Germination of Weed Seeds|Science103:476-477|1946|10.1126/science.103.2677.476.b
43085|T||Whiting,A.G., and M.A. Murray|Histological Responses of Bean Plants to Phenylacetic Acid|Bot. Gaz.107:312-332|1946|10.1086/335355
43086|T||Van Overbeek,J., and I. Velez|Use of 2,4-Dichlorophenoxyacetic Acid as a Selective Herbicide in the Tropics|Science103:472-473|1946|10.1126/science.103.2677.472
43087|T||Garman,H.R., and L.V. Barton|Response of Lettuce Seeds to Thiourea Treatments as Affected by Variety and Age|Contrib. Boyce Thompson Inst.14:229-241|1946|
43088|T||Townsend,G.R.|The Ammonium Thiocyanate Treatment for Hastening the Sprouting of Dormant Bliss Triumph Potatoes|Am. Potato J.23:92-94|1946|10.1007/BF02883588
43089|T||Brown,J.W.|Effect of 2,4-Dichlorophenoxyacetic Acid on the Water Relations, the Accumulation and Distribution of Solid Matter, and the Respiration of Bean Plants|Bot. Gaz.107:332-343|1946|10.1086/335356
43090|T||Hamner,C.L., J.E. Moulton, and H.B. Tukey|Effect of Treating Soil and Seeds with 2,4-Dichlorophenoxyacetic Acid on Germination and Development of Seedlings|Bot. Gaz.107:352-361|1946|10.1086/335358
43091|T||Hamner,C.L., and H.B. Tukey|Herbicidal Action of 2,4-Dichlorophenoxyacetic Acid on Several Shrubs, Vines, and Trees|Bot. Gaz.107:379-385|1946|10.1086/335361
43092|T||Mitchell,J.W., and P.C. Martin|Germination of Seeds in Soil Containing 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.107:408-416|1946|10.1086/335365
43093|T||Marth,P.C., and J.W. Mitchell|Period of Effective Weed Control by the Use of 2,4-Dichlorophenoxyacetic Acid|Science104:77-79|1946|10.1126/science.104.2691.77
43094|T||Felippe,G.M.|Effects of beta-Ecdysone and Altosid on Flowering, Juvenility and Sex Expression|Z. Pflanzenphysiol. (Multiple Languages)94:79-84|1979|10.1016/S0044-328X(79)80250-0
43095|T||Bovey,R.W., M.L. Ketchersid, and M.G. Merkle|Distribution of Triclopyr and Picloram in Huisache (Acacia farnesiana)|Weed Sci.27(5): 527-531|1979|10.1017/S0043174500044532
43097|T||Schultz,M.E., and O.C. Burnside|Control of Hemp Dogbane with Foliar and Soil Applied Herbicides|Agron. J.71:723-730|1979|10.2134/agronj1979.00021962007100050007x
43098|T||Knight,J.N.|Chemical Defoliation of Nursery Stock: I. Initial Experiments with Fruit Tree Material|J. Hortic. Sci.54:229-234|1979|10.1080/00221589.1979.11514875
43099|T||Pizzolato,T.D., and D.L. Regehr|Early Modifications of the Internodal Anatomy of Glycine max Sprayed with 4-Butyric Acid|Can. J. Bot.57:1340-1344|1979|10.1139/b79-165
43100|T||Davidonis,G.H., M. Arjmand, R.H. Hamilton, and R.O. Mumma|Biological Properties of Amino Acid Conjugates of 2,4,5-Trichlorophenoxyacetic Acid|J. Agric. Food Chem.27(5): 1086-1088|1979|10.1021/jf60225a018
43102|T||Sankhla,N., W. Huber, and A. Eder|Effect of Fusicoccin on Chlorophyll Biosynthesis|Biochem. Physiol. Pflanzen (Multiple Languages)174:296-304|1979|10.1016/S0015-3796(17)30591-7
43103|T||Hart,G.L.|Control of Poison Oak on Military Reservations with Tordon|Down Earth22:6-8|1966|
43104|T||Shannon,S., and R.W. Robinson|The Use of Ethephon to Regulate Sex Expression of Summer Squash for Hybrid Seed Production|J. Am. Soc. Hortic. Sci.104:674-677|1979|10.21273/JASHS.104.5.674
43105|T||Bemiller,J.N., G.L.Y. Leung, and J.E. Yopp|Synthesis and Growth Regulator Activity of Fatty Acyl Derivatives of D-Glucose and D-Galactose|Phytochemistry18:1283-1287|1979|10.1016/0031-9422(79)83008-3
43106|T||Taylor,D.L.|Effects of 2,4-Dichlorophenoxyacetic Acid on Gas Exchange of Wheat and Mustard Seedlings|Bot. Gaz.109:162-176|1947|10.1086/335465
43107|T||Wild,H.|Upright Star-Bur (Acanthospermum hispidum D.C.).  A new Method of Control|Rhod. Agric. J.43:585-589|1946|
43108|T||Carlson,R.F.|Control of Weeds in Strawberry Plantings by the Use of 2,4-Dichlorophenoxyacetic Acid|Proc. Am. Soc. Hortic. Sci.49:221-223|1947|
43109|T||Crafts,A.S., and H.G. Reiber|Herbicidal Properties of Oils|Hilgardia18(2): 77-156|1948|10.3733/hilg.v18n02p077
43111|T||Marth,P.C., L. Havis, and L.P. Batjer|Further Results with Growth Regulators in Retarding Flower Opening of Peaches|Proc. Am. Soc. Hortic. Sci.49:49-54|1947|
43112|T||Stewart,W.S., and E.R. Parker|Preliminary Studies on the Effects of 2,4-D Sprays on Preharvest Drop, Yield, and Quality of Grapefruit|Proc. Am. Soc. Hortic. Sci.50:187-194|1947|
43113|T||Stuart,N.W.|The Effects of Ceresan Dips and Fertilizer Applications on Growth, Flower Production, and Basal Rot Development in Narcissus|Proc. Am. Soc. Hortic. Sci.50:411-415|1947|
43114|T||Brunstetter,B.C., A.T. Myers, J.W. Mitchell, W.S. Stewart, and M.W. Kaufman|Mineral Composition of Bean Stems Treated with 3-Indoleacetic Acid|Bot. Gaz.109:268-276|1948|10.1086/335479
43115|T||Thimann,K.V.|Use of 2,4-Dichlorophenoxyacetic Acid Herbicides on Some Woody Tropical Plants|Bot. Gaz.109:334-340|1948|10.1086/335484
43116|T||Harley,C.P., H.H. Moon, and L.O. Regeimbal|Further Studies on Sprays Containing 2,4-Dichlorophenoxyacetic Acid, and Some Related Compounds, for Reducing Harvest Drop of Apple|Proc. Am. Soc. Hortic. Sci.50:38-44|1947|
43117|T||Smith,W.W., A.R. Hodgdon, and R. Eggert|Progress Report on Chemical Weed Control in Blueberry Fields|Proc. Am. Soc. Hortic. Sci.50:233-238|1947|
43119|T||Toxopus,H.J.|Note on the Effect of Colchicine Treatment of Hibiscus sabdariffa L. and Hibiscus cannabinus L.|Genetica ('S-Gravenhage)24:330-332|1948|
43120|T||Bond,L.|Responses of Pea Roots to Application of Certain Growth-Reglating Substances|Bot. Gaz.109:435-447|1948|10.1086/335495
43121|T||Dufrenoy,J., P. Carlo, R. Pratt, V.L. Pickering, and P.P.T. Sah|Growth Regulating Action of Salicylacetone|Growth12:157-163|1948|
43122|T||Ennis,W.B.,Jr.|Responses of Crop Plants to O-Isopropyl N-Phenyl Carbamate|Bot. Gaz.109:473-493|1948|10.1086/335497
43123|T||Mullison,W.R., and E. Mullison|Effects of Several Plant Growth-Regulators on Fruit Set, Yield, and Blossom-End Rot of Six Tomato Varieties Grown Under High Temperatures|Bot. Gaz.109:501-506|1948|10.1086/335499
43124|T||Whiting,A.G., and M.A. Murray|Abscission and Other Responses Induced by 2,3,5-Triiodobenzoic Acid in Bean Plants|Bot. Gaz.109:447-473|1948|10.1086/335496
43125|T||Noguti,Y., and T. Sugawara|Favourable Effects of Treatment of Seeds and Sprouts with Certain Growth Substances|Proc. Imp. Acad.17:402-404|1941|10.2183/pjab1912.17.402
43126|T||Karavaiko,N.N., E.E. Omann, and O.N. Kulaeva|Effect of Cytokinin on Activities of a Number of Enzymes in Isolated Pumpkin Cotyledons|Fiziol. Rast. (Mosc.) (Non-English)22:1031-1038|1975|
43127|T||Khisamutdinova,V.I., I.M. Vasil'eva, G.G. Kuz'mina, and A.A. Vershinin|Effect of Chlorocholine Chloride on Energy Metabolism and the State of Water in Winter Wheat During the Process of Hardening|Fiziol. Rast. (Mosc.) (Non-English)22(2): 1048-1054|1975|
43128|T||Saidak,W.J., and P.B. Marriage|Response of Canada Thistle Varieties to Amitrole and Glyphosate|Can. J. Plant Sci.56:211-214|1976|10.4141/cjps76-033
43129|T||Fretz,T.A.|Herbicide Performance on Transplanted Annual Bedding Plants|Hortscience11(2): 110-111|1976|10.21273/HORTSCI.11.2.110
43130|T||Boswell,S.B., R.M. Burns, and H.Z. Hield|Inhibition Effects of Localized Growth Regulator Sprays on Mature Lemon Trees|Hortscience11:115-117|1976|10.21273/HORTSCI.11.2.115
43131|T||Pisarczyk,J.M., W.E. Splittstoesser, and J.S. Vandemark|Ethephon Aids Harvest of Red Kidney Beans|Hortscience11:153-|1976|10.21273/HORTSCI.11.2.153
43132|T||Baker,E.C., and G.A. Bradley|Effects of Ethephon on Yield and Quality of Winter Squash, Cucurbita Maxima Duch|Hortscience11:140-142|1976|10.21273/HORTSCI.11.2.140
43133|T||Davies,P.J., J.A. Doro, and A.W. Tarbox|The Movement and Physiological Effect of Indoleacetic Acid Following Point Applications to Root Tips of Zea mays|Physiol. Plant. (Multiple Languages)36:333-337|1976|10.1111/j.1399-3054.1976.tb02252.x
43134|T||Shive,J.B.,Jr., and H.D. Sisler|Effects of Ancymidol and Triarimol on the Growth, Sterols and Gibberellins of Phaseolus Vulgaris|Plant Physiol.57:640-644|1976|10.1104/pp.57.4.640
43135|T||Puech,A.A., C.A. Rebeiz, and J.C. Crane|Pigment Changes Associated with Application of Ethephon to Fig Fruits|Plant Physiol.57:504-509|1976|10.1104/pp.57.4.504
43136|T||Kawamura,H., S. Kamisaka, and Y. Masuda|Regulation of Lettuce Hypocotyl Elongation by Gibberellic Acid: Correlation Between Cell Elongation, Stress-Relaxation Properties of the Cell Wall and Wall Pol|Plant Cell Physiol.17:23-34|1976|10.1093/oxfordjournals.pcp.a075262
43138|T||Robert,M.L., H.F. Taylor, and R.L. Wain|The Effects of 3,5-Diiodo-4-Hydroxybenzoic Acid on the Oxidation of IAA and Auxin-Induced Ethylene Production by Cress Root Segments|Planta (Multiple Languages)129:53-57|1976|10.1007/BF00390913
43139|T||Sangwan,R.S., B. Norreel, and H. Harada|Effects of Kinetin and Gibberellin A3 on Callus Growth and Organ Formation in Limnophila Chinensis Tissue Culture|Biol. Plant. (Praha)18:126-131|1976|10.1007/BF02923151
43140|T||Valio,I.F.M., and R.F. Rocha|Physiological Effects of Steviol|Z. Pflanzenphysiol. (Multiple Languages)78:90-94|1976|10.1016/S0044-328X(76)80145-6
43141|T||Andersen,R.N.|Response of Monocotyledons to Hoe 22870 and Hoe 23408, Usa|Weed Sci.24:266-269|1976|10.1017/S0043174500065930
43142|T||Salem,E.A., B.A. Fahmy, and K.M. Mansour|The Effect of Growth Regulators on Maturity and Quality of Egyptian Limes|Agric. Res. Rev.52:19-28|1974|
43143|T||Morey,P.R., R.E. Sosebee, and B.E. Dahl|Histological Effects of Ethephon and 2,4,5-T on Mesquite|Weed Sci.24(3): 292-297|1976|10.1017/S004317450006598X
43146|T||Eshel,Y., and S. Ilani|Tolerance of Cotton to Five Triazine Herbicides|Phytoparasitica3:121-128|1975|10.1007/BF03158294
43147|T||Liu,P.B.W., and J.B. Loy|Action of Gibberellic Acid on Cell Proliferation in the Subapical Shoot Meristem of Watermelon Seedlings|Am. J. Bot.63:700-704|1976|10.1002/j.1537-2197.1976.tb11858.x
43148|T||Hansen,E.|Effect of 2,4-Dichlorophenoxy Acetic Acid on the Ripening of Bartlett Pears|Plant Physiol.21:588-592|1946|10.1104/pp.21.4.588
43149|T||Murray,M.A., and A.G. Whiting|A Comparison of Histological Responses of Bean Plants to Tryptophane and to Low Concentrations of Indoleacetic Acid|Bot. Gaz.108:74-100|1946|10.1086/335397
43151|T||Thompson,R.C.|Germination of Endive Seed (Cichoriam Endiria) at high Temperature Stimulated by Thiourea and by Water Treatments|Proc. Am. Soc. Hortic. Sci.47:323-326|1946|
43152|T||Smith,F.G., C.L. Hamner, and R.F. Carlson|Changes in Food Reserves and Respiratory Capacity of Bindweed Tissues Accompanying Herbicidal Action of 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.22:58-65|1947|10.1104/pp.22.1.58
43153|T||Johnson,E.M., and P.O. Ritcher|Fumes from 2,4-D Cause Injury to Tomato, Cabbage and Pepper Plants|Plant Dis. Rep.30(7): 233-234|1946|
43154|T||Way,R.D., and T.E. Maki|Effects of Pre-Storage Treatments of Hardwood and Pine Seedlings with alpha-Naphthaleneacetic Acid|Bot. Gaz.108:219-232|1946|10.1086/335408
43155|T||Whiting,A.G., and M.A. Murray|Histological Responses of Bean Plants to Nicotine and to Wounding|Bot. Gaz.108:192-217|1946|10.1086/335407
43156|T||Smith,O., M.A. Baeza, and J.H. Ellison|Response of Potato Plants to Spray Applications of Certain Growth-Regulating Substances|Bot. Gaz.108:421-431|1947|10.1086/335426
43157|T||Taylor,D.L.|Growth of Field Crops in Soil Treated with Chemical Growth-Regulators|Bot. Gaz.108:432-445|1947|10.1086/335427
43158|T||Porter,W.F., and G.W. Simpson|The Use of Ethylene Chlorohydrin for Breaking the Rest Period of Large Quantities of Potatoes|Am. Potato J.24:9-15|1947|10.1007/BF02894369
43159|T||Kraus,E.J., and J.W. Mitchell|Growth-Regulating Substances as Herbicides|Bot. Gaz.108:301-351|1947|10.1086/335418
43160|T||Templeman,W.G., and W.A. Sexton|The Differential Effect of Synthetic Plant Growth Substances and Other Compounds upon Plant Species I. Seed Germination and Early Growth Responses to alpha-Naphthylacetic Acid and Compounds of the General Formula ArylOC|Proc. R. Soc. Lond. Ser. B Biol. Sci.133:300-313|1946|
43161|T||Britten,E.J.|The Effect of Naphthaleneacetic Acid on the Developing Maize Caryopsis|Am. J. Bot.34:211-218|1947|10.1002/j.1537-2197.1947.tb12978.x
43162|T||Fults,J.L., and M.G. Payne|Secondary Root Stimulation in the Common Bean, Phaseolus vulgaris L., Caused by the Insecticides DDT and Colorado 9|Bull. Torrey Bot. Club74:112-114|1947|10.2307/2481462
43163|T||Steinegger,E., and A. Levan|Constitution and C-Mitotic Activity of Iso-Colchicine|Hereditas33:385-396|1947|10.1111/j.1601-5223.1947.tb02811.x
43164|T||Steinegger,E., and A. Levan|The Cytological Effect of Chloroform and Colchicine on Allium|Hereditas33:515-525|1947|10.1111/j.1601-5223.1947.tb02818.x
43165|T||Galston,A.W.|The Effect of 2,3,5-Triiodobenzoic Acid on the Growth and Flowering of Soybeans|Am. J. Bot.34:356-360|1947|
43166|T||Templeman,W.G., and W.A. Sexton|The Differential Effect of Synthetic Growth Substances and Other Compounds upon Plant Species. II. Seed Germination and Early Growth Responses to Some Arylcarba|Proc. R. Soc. Lond. Ser. B Biol. Sci.133:480-485|1946|
43167|T||Jones,R.F.|Factors Involved in the Reaction Between Plant Cells and Substances Affecting Growth:  The Production of Swellings on Etiolated Hypocotyls of Helianthus Annuus by Heteroauxin|New Phytol.45(2): 169-184|1946|10.1111/j.1469-8137.1946.tb05054.x
43168|T||Mitchell,J.W., and J.W. Brown|Relative Sensitivity of Dormant and Germinating Seeds to 2,4-D|Science106:266-267|1947|10.1126/science.106.2751.266
43169|T||Carlson,R.F.|Destruction of Quackgrass Rhizomes by Application of Isopropylphenylcarbamate|Mich. Agric. Exp. Stn. Q. Bull.29:274-280|1947|
43170|T||Mitchell,J.W., J.W. Wood, W.C. Wolfe, and G.W.,Jr. Irving|Relative Growth Rates of Bean and Oat Plants Containing Known Amounts of A Labeled Plant Growth Regulator (2-Iodo-3-Nitro-Benzoic Acid)|Science106:395-397|1947|10.1126/science.106.2756.395
43171|T||Stewart,W.S., and L.J. Klotz|Some Effects of 2,4-Dichlorophenoxyacetic Acid on Fruit-Drop and Morphology of Oranges|Bot. Gaz.109:150-162|1947|10.1086/335464
43172|T||Burton,D.F.|Formative Effects of Certain Chlorophenoxy Compounds on Bean Leaves|Bot. Gaz.109:183-194|1947|10.1086/335467
43173|T||Rasmussen,L.W.|The Physiological Action of 2,4-Dichlorophenoxyacetic Acid on Dandelion, Taraxacum officinale|Plant Physiol.22:377-392|1947|10.1104/pp.22.4.377
43174|T||Tam,R.K.|Comparative Herbicidal Value of 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid on Some Herbaceous Weeds, Shrubs, and Trees Under Hawaiian Conditions|Bot. Gaz.109:194-203|1947|10.1086/335468
43175|T||Sell,H.M., R.W. Luecke, B.M. Taylor, and C.L. Hamner|Changes in Chemical Composition of the Stems of Red Kidney Bean Plants Treated with 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.24:295-299|1949|10.1104/pp.24.2.295
43176|T||Doxey,D.|The Effect of Isopropyl Phenyl Carbamate on Mitosis in Rye (Secale cereale) and Onion (Allium cepa)|Ann. Bot.13:329-336|1949|10.1093/oxfordjournals.aob.a083221
43177|T||Southwick,F.W.|Further Studies on the Influence of Methyl Alpha-Naphthaleneacetate on Ripening of Apples and Peaches|Proc. Am. Soc. Hortic. Sci.53:169-173|1949|
43178|T||Offord,H.R.|Killing Ribes with 2,4-D and 2,4,5-T|J. Range Manag.2:201-205|1949|10.2307/3894171
43179|T||Burstrom,H.|Studies on Growth and Metabolism of Roots. I. The Action of N-Diamyl Acetic Acid on Root Elongation|Physiol. Plant. (Multiple Languages)2:197-209|1949|10.1111/j.1399-3054.1949.tb07479.x
43180|T||Mann,L.K., and P.A. Minges|Experiments on Setting Fruit with Growth-Regulating Substances on Field-Grown Tomatoes in California|Hilgardia19(10): 309-337|1949|10.3733/hilg.v19n10p309
43181|T||Bradley,R.H., and L.L. Dean|Sprout Inhibition of Non-Dormant Chippewa Potatoes|Am. Potato J.26:279-287|1949|10.1007/BF02884594
43182|T||Mitchell,A.E., C.L. Hamner, and W. Toenjes|The Effect of 2-Methyl-4-Chlorophenoxyacetic Acid in Preventing Preharvest Drop of Apples|Proc. Am. Soc. Hortic. Sci.53:163-168|1949|
43183|T||Carlson,R.F.|Weed Control in Small Fruits|Agric. Chemic.4:37-39|1949|
43185|T||Burton,D.F.|Anatomy of the Cotton Leaf and Effects Induced by 2,4-Dichlorophenoxyacetic Acid|Bot. Gaz.111:325-332|1950|10.1086/335601
43186|T||Weller,L.E., R.W. Luecke, C.L. Hamner, and H.M. Sell|Changes in Chemical Composition of the Leaves and Roots of Red Kidney Bean Plants Treated with 2,4-Dichlorophenoxyacetic Acid|Plant Physiol.25:289-293|1950|10.1104/pp.25.2.289
43187|T||Stewart,W.S.|Effects of 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid on Citrus Fruit Storage|Proc. Am. Soc. Hortic. Sci.54:109-117|1949|
43188|T||Nitsch,J.P.|Growth and Morphogenesis of the Strawberry as Related to Auxin|Am. J. Bot.37:211-215|1950|10.1002/j.1537-2197.1950.tb12183.x
43189|T||Neely,W.B., C.D. Ball, C.L. Hamner, and H.M. Sell|Effect of 2,4-Dichlorophenoxyacetic Acid on the Invertase, Phosphorylase and Pectin Methoxylase Activity in the Stems and Leaves of the Red Kidney Bean Plants|Plant Physiol.25:525-528|1950|10.1104/pp.25.3.525
43190|T||D'Amato,F.|The Effect of M-Inositol on C-Mitosis and C-Tumor Reaction|Caryologia (Multiple Languages)1:358-361|1949|10.1080/00087114.1949.10797518
43191|T||Wester,H.V., and P.C. Marth|Growth Regulators Prolong the Bloom of Oriental Flowering Cherries and Dogwood|Science111:611|1950|10.1126/science.111.2892.611
43192|T||Neely,W.B., C.D. Ball, C.L. Hamner, and H.M. Sell|Effect of 2,4-Dichlorophenoxyacetic Acid on the alpha and beta Amylase Activity in the Stems and Leaves of Red Kidney Bean Plants|Science111:118-|1950|10.1126/science.111.2875.118
43193|T||Hamner,C.L., H.M. Sell, W. Klomparens, and J.R. Vaughn|Selective Inhibition of the Growth of Green Plants and Fungi by Beta Methyl Umbelliferone|Bot. Gaz.112:135-137|1950|10.1086/335636
43194|T||Arakeri,H.R., and R.S. Dunham|Environmental Factors Relating to the Pre-Emergence Treatment of Corn with 2,4-D and Soybeans with TCA|Minnesota Technical Bulletin 190190:1-28|1950|
43195|T||Aberg,B.|On Auxin Antagonists and Synergists in Root Growth|Physiol. Plant. (Multiple Languages)3:447-461|1950|10.1111/j.1399-3054.1950.tb07673.x
43196|T||Gregory,F.G., and B. Samantarai|Factors Concerned in the Rooting Responses of Isolated Leaves|J. Exp. Bot.1(2): 159-193|1950|10.1093/jxb/1.2.159
43197|T||Doxey,D., and A. Rhodes|The Effect of the Gamma Isomer of Benzene Hexachloride on Plant Growth and on Mitosis|Ann. Bot.15:47-52|1951|10.1093/oxfordjournals.aob.a083268
43199|T||Northen,H.T.|Alterations in the Structural Viscosity of Protoplasm by Colchicine and Their Relationship to C-Mitosis and C-Tumor Formation|Am. J. Bot.37:705-711|1950|
43200|T||Ashby,W.C.|Effects of Certain Acid Growth-Regulating Substances and Their Corresponding Aldehydes on the Growth of Roots|Bot. Gaz.112:237-250|1951|10.1086/335657
43201|T||Eames,A.J.|Destruction of Phloem in Young Bean Seedlings After Treatment with 2,4-D|Am. J. Bot.37:840-847|1950|
43202|T||Wilde,M.H.|Anatomical Modifications of Bean Roots Following Treatment with 2,4-D|Am. J. Bot.38:79-91|1951|
43203|T||Wort,D.J.|Effects of Non-lethal Concentrations of 2,4-D on Buckwheat|Plant Physiol.26:50-58|1951|10.1104/pp.26.1.50
43204|T||Jakowska,S., F. Ross, and E.D. Goldsmith|Growth Responses in Allium Cepa. Studies with 4-Amino-Pteroglutamic Acid|Caryologia (Multiple Languages)3:1-10|1950|10.1080/00087114.1950.10797143
43205|T||Southwick,F.W., M.B. Hoffman, and L.J. Edgerton|Further Experiences with Chemical Thinning of Apples and Peaches|Proc. Am. Soc. Hortic. Sci.51:41-47|1948|
43206|T||Alban,E.K., and V.E. Keirns|Pre-emergence and Post-Emergence Weed Control in Vegetable Crops with 2,4-D and Oil|Proc. Am. Soc. Hortic. Sci.51:526-532|1948|
43207|T||Ellis,N.K., and E.T. Bullard|Varietal Response of Sweet Corn to 2,4-D Spray, and the Effect of Different Formulations of 2,4-D on Yield|Proc. Am. Soc. Hortic. Sci.51:505-508|1948|
43208|T||Ellison,J.H., and O. Smith|Effects of Spraying A Sprout Inhibitor on Potato Plants in the Field|Proc. Am. Soc. Hortic. Sci.51:397-400|1948|
43209|T||Franklin,D.F.|Using Hormone Sprays to Facilitate Bolting and Seed Production of Hardheaded Lettuce Varieties|Proc. Am. Soc. Hortic. Sci.51:453-456|1948|
43210|T||Havis,J.R.|The Herbicidal Properties of Certain Pure Petroleum Hydrocarbons (Preliminary Report)|Proc. Am. Soc. Hortic. Sci.51:545-546|1948|
43211|T||Hedlin,W.A.|Chemical Weed Control in Onions (Preliminary Paper)|Proc. Am. Soc. Hortic. Sci.51:501-504|1948|
43212|T||Warren,G.F., and T.P. Hernandez|Weed Control in Certain Vegetable Crops with Soil Applications of 2,4-D|Proc. Am. Soc. Hortic. Sci.51:515-525|1948|
43213|T||Lumsden,D.V., and F.F. Smith|Growth Responses by Kalanchoes to DDT and other Synthetic Compounds|Proc. Am. Soc. Hortic. Sci.51:618-622|1948|
43214|T||Crane,J.C., and R. Blondeau|The Use of Growth-Regulating Chemicals to Induce Parthenocarpic Fruit in the Calimyrna Fig|Plant Physiol.24:44-54|1949|10.1104/pp.24.1.44
43215|T||Ferri,M.G., and A. Lex|Stomatal Behavior as Influenced by Treatment with Beta-Naphthoxyacetic Acid|Contrib. Boyce Thompson Inst.15:283-290|1948|
43216|T||Spotts,R.A., F.L. Lukezic, and R.H. Hamilton|The Effect of Benzimidazole on Some Membrane Properties of Ozonated Pinto Bean|Phytopathology65:39-45|1975|10.1094/Phyto-65-39
43217|T||Nelson,J.M., and G.C. Sharples|Influence of Chlomequat, SADH and a Cytokinin on Fruit Set in the Seeded 'Cardinal' Grape|Hortscience9(6): 598-600|1974|10.21273/HORTSCI.9.6.598
43218|T||Gallasch,P.T.|Regulating Valencia Orange Crops with Cepa: Preliminary Studies|Aust. J. Exp. Agric.14:835-838|1974|10.1071/EA9740835
43219|T||Cantliffe,D.J.|Alteration of Growth and Flowering Habit in Cucumber by Chlorflurenol|Can. J. Plant Sci.54:771-776|1974|10.4141/cjps74-130
43220|T||Cantliffe,D.J.|Promotion of Fruit Set and Reduction of Seed Number in Pollinated Fruit of Cucumber by Chlorflurenol|Hortscience9:577-578|1974|10.21273/HORTSCI.9.6.577
43221|T||Bellandi,D.M., and K. Doerffling|Effect of Abscisic Acid and Other Plant Hormones on Growth of Apical and Lateral Buds of Seedlings|Physiol. Plant. (Multiple Languages)32:369-372|1974|10.1111/j.1399-3054.1974.tb03153.x
43222|T||Demos,E.K., M. Woolwine, R.H. Wilson, and C. McMillan|The Effects of Ten Phenolic Compounds on Hypocotyl Growth and Mitochondrial Metabolism of Mung Bean|Am. J. Bot.62:97-102|1975|10.1002/j.1537-2197.1975.tb12343.x
43223|T||Cole,A.W., and T.N. Jordan|Seedling and Yield Response of Cucumber to Naptalam and Chloramben|Weed Sci.22(6): 604-607|1974|10.1017/S004317450003839X
43224|T||Abdel-Gawad,H., and R.J. Romani|Hormone-Induced Reversal of Color Change and Related Respiratory Effects in Ripening Apricot Fruits|Physiol. Plant. (Multiple Languages)32:161-165|1974|10.1111/j.1399-3054.1974.tb03745.x
43225|T||Hield,H., and S. Hemstreet|Border Growth Control of Iceplant with Chlorflurenol Sprays|Hortscience9(5): 473-474|1974|10.21273/HORTSCI.9.5.473
43226|T||Johnson,B.J.|Purple Nutsedge Control in Turfgrass with S-21634|Weed Sci.22:549-552|1974|10.1017/S0043174500038273
43227|T||Arumugam,R., and V.N.M. Rao|Note on the Effect of Growth-Retardants on Pollen Production and Fruit Set in Grapes|Indian J. Agric. Sci.43(6): 619-621|1973|
43229|T||Fedtke,C.|Influence of Methabenzthiazuron on Atp-Level and Protein Synthesis in Wheat|Pestic. Biochem. Physiol.4:386-392|1974|10.1016/0048-3575(74)90063-7
43230|T||Geuns,J.M.C.|Physiological Activity of Cortocosteroids in Etiolated Mung Bean Plants|Z. Pflanzenphysiol. (Multiple Languages)74:42-51|1974|10.1016/S0044-328X(74)80203-5
43231|T||Mertz,D., and J. Lutz|Effect of Gibberellins on Growth of Pea Seedling Internodes|Phytochemistry14:37-40|1975|10.1016/0031-9422(75)85003-5
43232|T||Albores,M., and R.L. Wain|The Growth-Regulating Activity of Certain Phenylethylamines|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)39:617-624|1974|
43233|T||Hampp,R., N. Sankhla, and W. Huber|Effect of EMD-IT-5914 on Chlorophyll Synthesis in Leaves of Pennisetum typhoides Seedlings|Physiol. Plant. (Multiple Languages)33:53-57|1975|10.1111/j.1399-3054.1975.tb03764.x
43234|T||Tao,K., M.B. McDonald, and A.A. Khan|Synergistic and Additive Effects of Kinetin and Ethrel on the Release of Seed Dormancy|Life Sci.15:1925-1933|1974|10.1016/0024-3205(74)90043-5
43235|T||Rom,R.C., S.A. Brown, and J.D. Markham|Glyphosate Toxicity to Apple Trees|Hortscience9:594-595|1974|10.21273/HORTSCI.9.6.594
43236|T||Batjer,L.P., and A.H. Thompson|The Transmission of Effect of Naphthaleneacetic Acid on Apple Drop as Determined by Localized Applications|Proc. Am. Soc. Hortic. Sci.51:77-80|1948|
43237|T||Batjer,L.P., A.H. Thompson, and F. Gerhardt|A Comparison of Naphthaleneacetic Acid and 2,4-Dichlorophenoxyacetic Acid Sprays for Controlling Pre-Harvest Drop of Bartlett Pears|Proc. Am. Soc. Hortic. Sci.51:71-74|1948|
43238|T||Thompson,A.H., and L.P. Batjer|Factors Relating to the Effectiveness of 2,4-Dichlorophenoxyacetic Acid Sprays for Control of the Preharvest Drop of Winesap Apples|Proc. Am. Soc. Hortic. Sci.51:90-94|1948|
43239|T||Felber,I.M.|The Formation of Protuberances on Bean Leaves in Response to 2,4-D Treatments|Am. J. Bot.35:555-558|1948|
43240|T||Audus,L.J.|Studies on the Phytostatic Action of 2:4-Dichlorophenoxyacetic Acid and Coumarin. The Reversibility of Root-Growth Inhibitions|New Phytol.47:196-219|1948|10.1111/j.1469-8137.1948.tb05100.x
43241|T||Cormack,R.G.H.|Intercellular Inclusions in White Mustard Roots Induced by Colchicine Treatment|Nature163:362-363|1949|10.1038/163362b0
43242|T||Trotter,W.R.|Effect of Thiouracil and Uracil on the Germination of Cress Seeds|Nature164:63-|1949|10.1038/164063a0
43243|T||Gandarillas,H., and R.E. Nylund|Further Studies on the Influence of Sprout-Inhibiting and Sprout-Inducing Treatments on the Growth and Yields of Potatoes|Am. Potato J.26:7-17|1949|10.1007/BF02881605
43244|T||Jenkins,J.M.,Jr.|The Use of 2,4-D as a Pre-Emergence Spray for the Control of Weeds in Gladioli, Daffodils, and Dutch Iris|Proc. Am. Soc. Hortic. Sci.53:513-516|1949|
43245|T||Freeland,R.O.|Effects of Growth Substances on Photosynthesis|Plant Physiol.24(4): 621-628|1949|10.1104/pp.24.4.621
43246|T||Prill,E.A., L.V. Barton, and M.L. Solt|Effects of Some Organic Acids on the Growth of Wheat Roots in Solutions|Contrib. Boyce Thompson Inst.15:429-435|1949|
43247|T||De Silva,W.H., P.F. Bocion, P. Eggenberg, and A. Demur|The Plant Growth Regulating Herbicidal Activity of 2-Amino-6-Methylbenzoic Acid|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)86:546-552|1979|
43248|T||Cocucci,M.C., and S.D. Rosa|Effects of Cordycepin on IAA and Fusicoccin-Stimulated Cell Enlargement, Proton Extrusion and Potassium Uptake in Maize Coleoptiles|Physiol. Plant. (Multiple Languages)48:302-306|1980|10.1111/j.1399-3054.1980.tb03259.x
43249|T||Iwahori,S., and J.T. Oohata|Alleviated Effects of Calcium Acetate on Defoliation and Fruit Drop Induced by 2-Chloroethylphosphonic Acid in Citrus|Sci. Hortic.12:265-272|1980|10.1016/0304-4238(80)90007-2
43250|T||Wilson,R.G.,Jr., G.A. Wicks, and C.R. Fenster|Weed Control in Field Beans (Phaseolus vulgaris) in Western Nebraska|Weed Sci.28(3): 295-299|1980|10.1017/S0043174500055326
43251|T||Radosevich,S.R., E.J. Roncoroni, S.G. Conard, and W.B. McHenry|Seasonal Tolerance of Six Coniferous Species to Eight Foliage-Active Herbicides|For. Sci.26(1): 3-9|1980|
43252|T||Jansson,E., and S.B. Svensson|Coumarin Effects on Glycine Max Hypocotyl Explants|Physiol. Plant. (Multiple Languages)48:486-490|1980|10.1111/j.1399-3054.1980.tb03291.x
43253|T||Gordon,A.J., and A.E. Flood|2,4-Dichlorophenoxyacetic Acid and the De Novo Synthesis of Invertase in Chicory Root Tissue|Phytochemistry19:505-508|1980|10.1016/0031-9422(80)87003-8
43254|T||Herold,A., E.E.M. McGee, and D.H. Lewis|The Effect of Orthophosphate Concentration and Exogenously Supplied Sugars on the Distribution of Newly Fixed Carbon in Sugar Beet (Beta Vulgaris) Leaf Discs|New Phytol.85:1-14|1980|10.1111/j.1469-8137.1980.tb04442.x
43255|T||Gauvrit,C.|Action of the Herbicides Neburon and Siduron on Membrane Permeabilities in Potato Tuber Mitochondria|Physiol. Plant. (Multiple Languages)48:448-452|1980|10.1111/j.1399-3054.1980.tb03284.x
43256|T||Hatzios,K.K., and D. Penner|Physiological Effects of Buthidazole on Zea mays L., Amaranthus retroflexus L., Medicago sativa L., and Agropyron repens (L.) Beauv.|Weed Res. (Multiple Languages)19:371-376|1979|10.1111/j.1365-3180.1979.tb01553.x
43257|T||Zurfluh,L.L., and T.J. Guilfoyle|Auxin-Induced Changes in the Patterns of Protein Synthesis in Soybean Hypocotyl|Proc. Natl. Acad. Sci. U.S.A.77(1): 357-361|1980|10.1073/pnas.77.1.357
43259|T||Sasaki,S., and T.T. Kozlowski|Effects of Herbicides on Carbon Dioxide Uptake by Pine Seedlings|Can. J. Bot.45:961-971|1967|10.1139/b67-100
43260|T||Sallee,W.R.|Weed Control in Seedling Alfalfa|Calif. Agric.21(4):14-16|1967|
43261|T||Larsen,F.E.|Stimulation of Leaf Abscission of Woody Plants by Potassium Iodide and Alanine|Hortscience2:19-20|1967|10.21273/HORTSCI.2.1.19
43262|T||Gibeault,V.A., and C.R. Skogley|Effects of Dmpa (Zytron) on Colonial Bentgrass, Kentucky Bluegrass, and Red Fescue Root Growth|Crop Sci.7:327-329|1967|10.2135/cropsci1967.0011183X000700040014x
43263|T||Smith,D.R., and H.P. Alley|Chemical Control of Alpine Avens|J. Range Manag.19:376-378|1966|10.2307/3895577
43264|T||Bayer,D.E., C.L. Foy, T.E. Mallory, and E.G. Cutter|Morphological and Histological Effects of Trifluralin on Root Development (Gossypium hirsutum, Carthamus tinctoria, Echinchloa crusgalli, Allium cepa)|Am. J. Bot.54:945-952|1967|10.1002/j.1537-2197.1967.tb10719.x
43265|T||Konings,H.|The Influence of Acropetally Transported Indoleacetic Acid on the Geotropism of Intact Pea Roots and Its Modification by 2,3,5-Triiodobenzoic Acid|Acta Bot. Neerl.18(4): 528-537|1969|10.1111/j.1438-8677.1969.tb00592.x
43266|T||Misra,G., and M. Mohapatra|Studies on Germination and Seedling Growth in Rice. I. Effect of Gibberellic Acid on An Early Variety of Rice|Bull. Torrey Bot. Club96:699-703|1969|10.2307/2483549
43267|T||Arney,S.E., and D.L. Mitchell|The Effect of Abscisic Acid on Stem Elongation and Correlative Inhibition|New Phytol.68:1001-1015|1969|10.1111/j.1469-8137.1969.tb06500.x
43269|T||Ferguson,J.D., and J.M. McEwan|The Chemical Induction of Supernumerary Shoots in the Developing Embryos of Wheat|Physiol. Plant. (Multiple Languages)23:18-28|1970|10.1111/j.1399-3054.1970.tb06387.x
43270|T||Byers,R.E., H.C. Dostal, and F.H. Emerson|Regulation of Fruit Growth with 2-Chloroethanephosphonic Acid|Bioscience19:903-904|1969|10.2307/1294716
43271|T||Bradley,M.V., N. Marei, and J.C. Crane|Morphological and Histological Effects of Ethrel on the Apricot, Prunus armeniaca L., as Compared with Those of 2,4,5-Trichlorophenoxyacetic Acid|J. Am. Soc. Hortic. Sci.94:316-318|1969|10.21273/JASHS.94.3.316
43272|T||Hipp,B.W., and W.R. Cowley|Influence of 2,3,5-Triiodobenzoic Acid and Gibberellin on Growth, Yield and Nutrient Content of Southern Peas|J. Am. Soc. Hortic. Sci.94:269-271|1969|10.21273/JASHS.94.3.269
43273|T||Read,P.E., and V.C. Hoysler|Stimulation and Retardation of Adventitious Root Formation by Application of B-Nine and Cycocel|J. Am. Soc. Hortic. Sci.94:314-316|1969|10.21273/JASHS.94.3.314
43274|T||Sterrett,J.P.|Injections of Hardwoods with Dicamba, Picloram, and 2,4-D|J. For.67:820-821|1969|
43275|T||Gostick,K.G.|Phytotoxity of Methyl Bromide to Some Plant Hosts of San Jose Scale|Plant Pathol.18:94-96|1969|10.1111/j.1365-3059.1969.tb00473.x
43276|T||Ludders,P., and G. Bunemann|The Effect of Timing of Urea Sprays on the Growth of Apple Trees: I. Vegetative Growth|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)124:157-172|1969|10.1002/jpln.19691240207
43277|T||Mishra,R.S., and B. Pradhan|The Effect of (2-Chloroethyl) Trimethyl Ammonium Chloride on Sex Expression in Cucumber|J. Hortic. Sci.45:29-31|1970|10.1080/00221589.1970.11514329
43278|T||Gratkowski,H.J.|Seasonal Effects of Phenoxy Herbicides on Ponderosa Pine and Associated Brush Species|For. Sci.23:2-12|1977|
43279|T||Parups,E.V.|Control of Ethylene Induced Permeability of Plant Cells by A Substituted Benzothiadiazole|Physiol. Plant. (Multiple Languages)39:290-294|1977|10.1111/j.1399-3054.1977.tb01886.x
43280|T||Copping,L.G., D.E. Davis, and C.G.P. Pillai|Growth Regulator-Like Activity of Atrazine and Ametryne|Weed Sci.20(3): 274-277|1972|10.1017/S0043174500035591
43281|T||Nozzolillo,C.|The Effect of Gibberellic Acid on Buckwheat Flowers|Can. J. Bot.50:901-904|1972|10.1139/b72-109
43282|T||Basu,R.N.|Effect of Non-auxin Chemicals on Translocation of Auxins in Cuttings of Phaseolus vulgaris (L.)|J. Exp. Bot.23(75): 357-365|1972|10.1093/jxb/23.2.357
43283|T||Brennan,J.R.|Colchicine Induced Microtubule Degradation: the Basis of C-Tumor Formation in Phleum Pratense|Phytomorphology20:309-315|1970|
43284|T||Iwanami,Y., and N. Nakamura|Storage in an Organic Solvent as a Means for Preserving Viability of Pollen Grains|Stain Technol.47(3): 137-139|1972|10.3109/10520297209116468
43286|T||Knypl,J.S., and K.M. Chylinska|Chlorophyll Accumulation and Protein Synthesis in Lettuce Cotyledons Treated with Growth Retardants, Gibberellin, and Benzylaminopurine|Z. Pflanzenphysiol. (Multiple Languages)66:297-306|1972|10.1016/S0044-328X(72)80143-0
43287|T||Lignowski,E.M., and E.G. Scott|Effect of Trifluralin on Mitosis|Weed Sci.20:267-270|1972|10.1017/S0043174500035578
43288|T||Badizadegan,M., E. Tafazoli, and M. Kheradnam|Effect of N6-Benzyladenine on Vegetative Growth and Tuber Production in Potato|Am. Potato J.49:109-116|1972|10.1007/BF02868224
43289|T||Watkin,E.M., and G.R. Sagar|Effect of Paraquat on Seed Germination|Weed Res. (Multiple Languages)12:195-198|1972|10.1111/j.1365-3180.1972.tb01206.x
43290|T||Bilderback,D.E.|The Effects of Hormones upon the Development of Excised Floral Buds of Aquilegia|Am. J. Bot.59:525-529|1972|10.1002/j.1537-2197.1972.tb10126.x
43291|T||Apelbaum,A., and S.P. Burg|Effect of Ethylene on Cell Division and Deoxyribonucleic Acid Synthesis in Pisum sativum|Plant Physiol.50:117-124|1972|10.1104/pp.50.1.117
43292|T||Apelbaum,A., and S.P. Burg|Effects of Ethylene and 2,4-Dichlorophenoxyacetic Acid on Cellular Expansion in Pisum sativum|Plant Physiol.50:125-131|1972|10.1104/pp.50.1.125
43293|T||Painter,J.W., and G.E. Stembridge|Peach Flowering Response As Related to Time of Gibberellin Application|Hortscience7:389-390|1972|10.21273/HORTSCI.7.4.389
43294|T||Miller,C.H., and R.L. Lower|Effect of Ethephon on Fresh-Pack and Brined Cucumbers|Hortscience7:418-420|1972|10.21273/HORTSCI.7.4.418
43296|T||Nanda,K.K., V.K. Anand, and R.N. Chibbar|The Promotive Effect of Gibberellic Acid on the Production of Adventitious Roots on Stem Cuttings of Ipomoea Fistulosa|Planta (Multiple Languages)105:360-363|1972|10.1007/BF00386772
43297|T||Dunberg,A., and L. Eliasson|Effects of Growth Retardants on Norway Spruce (Picea Abies)|Physiol. Plant. (Multiple Languages)26:302-305|1972|10.1111/j.1399-3054.1972.tb01112.x
43298|T||Mann,S.K.|Cytological and Genetical Effects of Dithane Fungicides on Allium cepa|Environ. Exp. Bot.17(1): 7-12|1977|10.1016/0098-8472(77)90014-4
43299|T||Irvine,A.M., J.C. Forbes, and S.R. Draper|Effect of 2,4-D on the Water Soluble Carbohydrate Content of Ragwort (Senecio jacobaea L.) Leaves|Weed Res. (Multiple Languages)17:169-172|1977|10.1111/j.1365-3180.1977.tb00462.x
43300|T||Maksymowych,R., and R.O. Erichson|Phyllotaxis in Xanthium Shoots Altered by Gibberellic Acid|Science196:1201-1203|1977|10.1126/science.196.4295.1201
43301|T||Polacco,J.C., and D.C. Sands|The Mycotoxin Patulin Inhibits Respiration of Higher Plant Cells|Plant Sci. Lett.9:121-128|1977|10.1016/0304-4211(77)90089-X
43302|T||Jones,R.L., T.P. Metcalfe, and W.A. Sexton|The Relationship Between the Constitution and the Effect of Chemical Compounds on Plant Growth.  I.  2-Phenoxyethylamine Derivatives|Biochem. J. (Lond.)45:143-149|1949|10.1042/bj0450143
43303|T||Smith,A.E., and B.P. Verma|Weed Control in Nursery Stock by Controlled Release of Alachlor|Weed Sci.25(2): 175-178|1977|10.1017/S0043174500033208
43304|T||Gawronski,S.W., R.H. Callihan, and J.J. Pavek|Sinking Leaf-Disk Test for Potato Variety Herbicide Tolerance|Weed Sci.25:122-127|1977|10.1017/S0043174500033087
43305|T||Williams,J.H., H.G. Kingman, B.J. Cooper, and D.J. Eagle|Growth Regulator Injury to Tomatoes in Essex, England|Environ. Pollut.12:149-157|1977|
43306|T||Fadayomi,O., and G.F. Warren|Uptake and Translocation of Nitrofen and Oxyfluorfen|Weed Sci.25(2): 111-114|1977|10.1017/S0043174500033063
43307|T||Ries,S.K., V. Wert, C.C. Sweeley, and R.A. Leavitt|Triacontanol: A new Naturally Occuring Plant Growth Regulator|Science195:1339-1341|1977|10.1126/science.195.4284.1339
43308|T||Nanda,K.K., and S. Kumar|Effect of Gibberellic Acid and Some Polyphenols on the Flowering of Impatiens Balsamina|New Phytol.78:403-406|1977|10.1111/j.1469-8137.1977.tb04845.x
43309|T||Daniell,J.W., and R.E. Wilkinson|Effect of Ethephon-Induced Ethylene on Abscission of Leaves and Fruits of Peaches|J. Am. Soc. Hortic. Sci.97:682-685|1972|10.21273/JASHS.97.5.682
43310|T||Shim,K.U., J.S. Titus, and W.E. Splittstoesser|The Utilization of Post-Harvest Urea Sprays by Senescing Apple Leaves|J. Am. Soc. Hortic. Sci.97:592-596|1972|10.21273/JASHS.97.5.592
43311|T||Wittenbach,V.A., and M.J. Bukovac|A Morphological and Histochemical Study of (2-Chloroethyl)Phosphonic Acid-Enhanced Abscission of Sour and Sweet Cherry Fruit|J. Am. Soc. Hortic. Sci.97:628-631|1972|10.21273/JASHS.97.5.628
43312|T||Thompson,A.H., and B.L. Rogers|Three Years' Results with Chemical Thinning of Peaches with (2-Chloroethyl) Phosphonic Acid|J. Am. Soc. Hortic. Sci.97:644-647|1972|10.21273/JASHS.97.5.644
43313|T||Bramlage,W.J., R.M. Devlin, and J.M. Smagula|Effects of Preharvest Application of Ethephon on 'Early Black' Cranberries|J. Am. Soc. Hortic. Sci.97(5): 625-628|1972|10.21273/JASHS.97.5.625
43314|T||Fretz,T.A.|Control of Annual Weeds in Container Grown Nursery Stock|J. Am. Soc. Hortic. Sci.97:667-669|1972|10.21273/JASHS.97.5.667
43315|T||Grierson,W., F.H. Ismail, and M.F. Oberbacher|Ethephon for Postharvest Degreening of Oranges and Grapefruit|J. Am. Soc. Hortic. Sci.97:541-544|1972|10.21273/JASHS.97.4.541
43316|T||Bex,J.H.M.|Effects of Abscisic Acid on Oxygen Uptake and RNA Synthesis in Germinating Lettuce Seeds|Acta Bot. Neerl.21:203-210|1972|10.1111/j.1438-8677.1972.tb00772.x
43317|T||Jahn,O.L., and R. Young|Influence of the Tree on the Response of Citrus Fruits to Preharvest Applications of (2-Chloroethyl) Phosphonic Acid|J. Am. Soc. Hortic. Sci.97:544-549|1972|10.21273/JASHS.97.4.544
43318|T||Stembridge,G.E., and G. Morrell|Effect of Gibberellins and 6-Benzyladenine on the Shape and Fruit Set of 'Delicious' Apples|J. Am. Soc. Hortic. Sci.97(4): 464-467|1972|10.21273/JASHS.97.4.464
43319|T||Jones,R.J., and T.A. Mansfield|Effects of Abscisic Acid and Its Esters on Stomatal Aperture and the Transpiration Ratio|Physiol. Plant. (Multiple Languages)26:321-327|1972|10.1111/j.1399-3054.1972.tb01117.x
43320|T||Chow,P.N.P.|Selectivity and Site of Action in Relation to Field Performance of Diclofop|Weed Sci.26(4): 352-358|1978|10.1017/S0043174500050098
43321|T||Burnside,O.C.|Mechanical, Cultural and Chemical Control of Weeds in a Sorghum-Soybean (Sorghum bicolor)-(Glycine max) Rotation|Weed Sci.26(4): 362-369|1978|10.1017/S0043174500050116
43322|T||Moomaw,R.S., and A.R. Martin|Interaction of Metribuzin and Trifluralin with Soil Type on Soybean (Glycine max) Growth|Weed Sci.26:327-331|1978|10.1017/S0043174500050049
43323|T||Marriage,P.B., and S.U. Khan|Differential Varietal Tolerance of Peach (Prunus persica) Seedlings to Glyphosate|Weed Sci.26:374-378|1978|10.1017/S004317450005013X
43324|T||Gamburg,K.Z.|The Influence of 1-Naphthaleneacetic Acid and (2-Chloroethyl)-Trimethylammonium Chloride on the Carotenoid Content of Tobacco Tissue in Suspension Culture|Biol. Plant. (Praha)20:93-97|1978|10.1007/BF02923268
43325|T||Majumdar,S.K., and J.S. Sullender|The Fine Structure of 2,4-D Induced Tumor Cells of Haworthia variegata|Phyton (Horn) (Multiple Languages)35(2): 145-152|1977|
43326|T||Junttilla,O.|Shoot Tip Abortion in Salix as Affected by Growth Hormones and Defoliation|Z. Pflanzenphysiol. (Multiple Languages)87:455-462|1978|10.1016/S0044-328X(78)80151-2
43327|T||Chang,W.C., and Y.I. Hsing|Dpx-3778 Promotes Proliferation of Tobacco Callus in Vitro|Planta (Multiple Languages)140:293-294|1978|10.1007/BF00390263
43328|T||Hatzios,K.K., and D. Penner|Some Effects of Buthiadazole on Corn (Zea mays) Photosynthesis, Respiration, Anthocyanin Formation, and Leaf Ultrastructure|Weed Sci.28(1): 97-100|1980|10.1017/S0043174500027855
43330|T||Atsmon,D., and C. Tabbak|Comparative Effects of Gibberellin, Silver Nitrate and Aminoethoxyvinyl Glycine on Sexual Tendency and Ethylene Evolution in the Cucumber Plant (Cucumis sativus L.)|Plant Cell Physiol.20(8): 1547-1556|1979|10.1093/oxfordjournals.pcp.a075957
43333|T||Reid,M.S., and H.K. Pratt|Effects of Ethylene on Potato Tuber Respiration|Plant Physiol.49:252-255|1972|10.1104/pp.49.2.252
43335|T||Kholodkovskaya,K.B.|Influence of Certain Indole Derivatives on the Metabolism of Essential Amino Acids in Wheat|Appl. Biochem. Microbiol.7:589-592|1971|
43336|T||Kamisaka,S., H. Sano, M. Katsumi, and Y. Masuda|Effects of Cyclic Amp and Gibberellic Acid on Lettuce Hypocotyl Elongation and Mechanical Properties of Its Cell Wall|Plant Cell Physiol.13:167-173|1972|10.1093/oxfordjournals.pcp.a074715
43337|T||Pope,D., and M. Black|The Effect of Indole-3-Acetic Acid on Coleoptile Extension Growth in the Absence of Protein Synthesis|Planta (Multiple Languages)102:26-36|1972|10.1007/BF00391447
43339|T||Rigby,B., Z.N. Dana, and L.K. Binning|Ethephon Sprays and Cranberry Fruit Color|Hortscience7:82-83|1972|10.21273/HORTSCI.7.1.82
43340|T||Chatterji,U.N., G.D. Harsh, D. Sankhla, and N. Sankhla|Lettuce Seed Germination: Interaction Between Inhibitors and Ethrel|Biochem. Physiol. Pflanzen (Multiple Languages)162:572-574|1971|10.1016/S0015-3796(17)31191-5
43341|T||Kacperska-Palacz,A., and E. Dlugokecka|Modification of Frost Hardiness of Rape Seedlings with Growth Regulators|Bull. Acad. Pol. Sci. Ser. Sci. Biol.19:537-541|1971|
43342|T||Kasemir,H., and H. Mohr|Involvement of Acetylcholine in Phytochrome Mediated Processes|Plant Physiol.49:453-454|1972|10.1104/pp.49.3.453
43343|T||Elkins,D.M., J.K. Leasure, and J.J. Faix|Herbicides for Spring Establishment of Crownvetch (Coronilla varia L.)|Crop Sci.10:95-97|1970|10.2135/cropsci1970.0011183X001000010035x
43344|T||Dennis,F.G.,Jr.|Effects of Gibberellins and Naphthaleneacetic Acid on Fruit Development in Seedless Apple Clones|J. Am. Soc. Hortic. Sci.95:125-128|1970|10.21273/JASHS.95.1.125
43345|T||Forshey,C.G.|"The Use of Alar on Vigorous ""Mcintosh"" Apple Trees"|J. Am. Soc. Hortic. Sci.95:64-67|1970|10.21273/JASHS.95.1.64
43346|T||Pieringer,A.P., and W.F. Newhall|Growth Retardation of Citrus by Quaternary Ammonium Derivatives of (T)-Limonene|J. Am. Soc. Hortic. Sci.95:53-55|1970|10.21273/JASHS.95.1.53
43347|T||Raese,J.T.|Growth Regulation of Tung Trees (Aleurites Fordii Hemsl.) with Potassium Gibberellate and N-Dimethylaminosuccinic Acid|J. Am. Soc. Hortic. Sci.95:56-58|1970|10.21273/JASHS.95.1.56
43348|T||Barritt,B.H.|Fruit Set in Seedless Grapes Treated with Growth Regulators Alar, CCC and Gibberellin|J. Am. Soc. Hortic. Sci.95(1): 58-61|1970|10.21273/JASHS.95.1.58
43349|T||Skene,K.G.M.|"A Comparison of the Effects of ""Cycocel"" and Tipping on Fruit Set in Vitis vinifera L."|Aust. J. Biol. Sci.22:1305-1311|1969|10.1071/BI9691305
43350|T||Hiller,L.K., and J.L. Weigle|Differential Tolerance of Several Inbreds of Onion Allium cepa L. to Certain Herbicides|J. Am. Soc. Hortic. Sci.95:105-107|1970|10.21273/JASHS.95.1.105
43351|T||Iwahori,S., and J.M. Lyons|Maturation and Quality of Tomatoes with Preharvest Treatments of 2-Chloroethylphosphonic Acid|J. Am. Soc. Hortic. Sci.95:88-91|1970|10.21273/JASHS.95.1.88
43352|T||Wiggans,S.C., and L.W. Martin|The Effect of Gibberellic Acid on Germination and Seedling Growth of Pecans|Proc. Am. Soc. Hortic. Sci.77:295-300|1961|
43353|T||Junttilla,O.|Effect of Gibberellic Acid on Dark and Light Germination at Different Temperatures of Calluna, Ledum and Rhododendron Seeds|Physiol. Plant. (Multiple Languages)26:239-243|1972|10.1111/j.1399-3054.1972.tb03575.x
43354|T||Carpenter,W.J., and W.H. Carlson|The Effect of Growth Regulators on Chrysanthemum|J. Am. Soc. Hortic. Sci.97(3): 349-351|1972|10.21273/JASHS.97.3.349
43355|T||De Hertogh,A.A., A. Blakely, and N. Blakely|Influence of Gibberellins A3 and A4+7 on Development of Forced Lilium longiflorum Thunb. cv. Ace|J. Am. Soc. Hortic. Sci.97:320-323|1972|10.21273/JASHS.97.3.320
43356|T||Bovey,R.W., J.R. Baur, and H.L. Morton|Control of Huisache and Associated Woody Species in South Texas|J. Range Manag.23:47-50|1970|10.2307/3896007
43357|T||Beger,H.W.|Effects of 2,4,5-T and Dibutyl Phthalate on Bloodwood (Eucalyptus dichromophloia)|Qld. J. Agric. Anim. Sci.26:117-120|1969|
43358|T||Cunningham,I.C.|Insecticide Trials in Tobacco Seedbeds, 1962-1965|Qld. J. Agric. Anim. Sci.26:99-106|1969|
43359|T||Huffaker,R.C., A.V. Sarquis, and M.D. Miller|Modification of the Effects of 2,4-D Inhibition of Growth and Lethality in Field Beans by Copper Sulfate and Copper Ethylenediaminetetraacetic Acid|Crop Sci.9:737-738|1969|10.2135/cropsci1969.0011183X000900060018x
43360|T||Barba,R.C., and R.R.,Jr. Romanowski|Differential Phytotoxicity of Atrazine and Ametryne to Bananas|Weed Res. (Multiple Languages)9:114-120|1969|10.1111/j.1365-3180.1969.tb01460.x
43361|T||Sebanek,J.|The Antagonism of (2-Chloroethyl) Trimethylammonium Chloride and Indole 3-Acetic Acid in Epicotyl and Axillary Bud Growth in the Pea Seedlings|Biol. Plant. (Praha)10:449-454|1968|10.1007/BF02920988
43362|T||Miflin,B.J.|The Inhibitory Effects of Various Amino Acids on the Growth of Barley Seedlings|J. Exp. Bot.20:810-819|1969|10.1093/jxb/20.4.810
43363|T||Robards,A.W., E. Davidson, and P. Kidwai|Short-Term Effects of Some Chemicals on Cambial Activity|J. Exp. Bot.20(65): 912-921|1969|10.1093/jxb/20.4.912
43364|T||Bachelard,E.P.|Effects of Gibberellic Acid on Internode Growth and Starch Contents of Eucalyptus Camaldulensis Seedlings|New Phytol.68:1017-1022|1969|10.1111/j.1469-8137.1969.tb06501.x
43366|T||Soteros,G.S., and D.T.N. Pillay|The Effect of Gibberellic Acid and the Retardant Amo-1618 on the Initial Stages of Growth and Nucleic Acid Synthesis in Etiolated Soybean Seedlings|Z. Pflanzenphysiol. (Multiple Languages)66:222-232|1972|10.1016/S0044-328X(72)80076-X
43367|T||Mashtakov,S.M., A.P. Volynets, and V.N. Kornelyuk|Joint Action of Several Flavonoids and Abscisic Acid on Certain Forms of Growth|Fiziol. Rast. (Mosc.) (Non-English)18(4): 802-807|1971|
43368|T||Kender,W.J., and S. Carpenter|Stimulation of Lateral Bud Growth of Apple Trees by 6-Benzylamino Purine|J. Am. Soc. Hortic. Sci.97(3): 377-380|1972|10.21273/JASHS.97.3.377
43369|T||Hogue,E.J.|Effects of Growth Regulators and Mulching on Tomato Yields|Can. J. Plant Sci.52:355-362|1972|10.4141/cjps72-055
43370|T||Hashimoto,T., S. Tamura, K. Mori, and M. Matsui|Inhibitive and Promotive Effects of Desoxy-Gibberellin C and Its Methyl Ester on Plant Growth|Plant Physiol.42:886-888|1967|10.1104/pp.42.6.886
43371|T||Mann,J.D., E. Cota-Robles, K. Yung, M. Pu, and H. Haid|Phenylurethane Herbicides:  Inhibitors of Changes in Metabolic State|Biochim. Biophys. Acta138:133-139|1967|10.1016/0005-2787(67)90593-X
43372|A||Van Overbeek,J., J.E. Loeffler, M. Iona, and R. Mason|Dormin (Abscisin II), Inhibitor of Plant DNA Synthesis?|Science156:1487-1499|1967|10.1126/science.156.3781.1497
43373|T||Choudhuri,H.C.|Effects of Maleic Hydrazide on Yield and Storage of Potatoes in West Bengal|Am. Potato J.44:123-127|1967|10.1007/BF02862910
43374|T||Headford,D.W.R., and G. Douglas|Tuber Necrosis Following the Desiccation of Potato Foliage with Diquat|Weed Res. (Multiple Languages)7:131-144|1967|10.1111/j.1365-3180.1967.tb01361.x
43375|T||Knypl,J.S.|Growth Retardants in Relation to the Germination of Seeds: I. A Paradoxical Concentration Effect of N,N-Dimethylamino-Succinamic Acid on the Germination of Kale Seeds Affected with Coumarin|Can. J. Bot.45:903-913|1967|10.1139/b67-092
43376|T||Tanimoto,E., N. Yanagishima, and Y. Masuda|Effect of Gibberellic Acid on Dwarf and Normal Pea Plants|Physiol. Plant. (Multiple Languages)20:291-298|1967|10.1111/j.1399-3054.1967.tb07165.x
43377|T||Anderson,W.P., A.B. Richards, and J.W. Whitworth|Trifluralin Effects on Cotton Seedlings|Weeds (Urbana)15:224-227|1967|10.2307/4041209
43378|T||Fink,R.J., and O.H. Fletchall|The Influence of Atrazine or Simazine on Forage Yield and Nitrogen Components of Corn|Weeds (Urbana)15:272-274|1967|10.2307/4041222
43379|T||Ryan,G.F.|Chemical Control of Field Horsetail|Weed Sci.24:401-404|1976|10.1017/S0043174500066261
43380|T||Bempong,M.A., and E.C. Trower|Cytogenetic Effects of 5-Fluorouracil. V. Induced Meiotic Abnormalities in Tradescantia paludosa|Bull. Torrey Bot. Club103:109-116|1976|10.2307/2484885
43381|T||Putnam,A.R.|Fate of Glyphosate in Deciduous Fruit Trees|Weed Sci.24:425-430|1976|10.1017/S0043174500066327
43382|T||Porlingis,I.C., and D. Voyiatzis|Effect of Growth Substances on Fruit-Set in a Partly Self-Incompatible Olive Cultivar|J. Am. Soc. Hortic. Sci.101:432-434|1976|10.21273/JASHS.101.4.432
43383|T||Moore,K.G.|Effects of Sugars on Ethylene Production by Excised Sinapis Cotyledons|Ann. Bot.40:543-549|1976|10.1093/oxfordjournals.aob.a085165
43384|T||Ronchi,V.U., G. Martini, and M. Buiatti|Genotype-Hormone Interaction in the Induction of Chromosome Aberrations: Effect of 2,4-Dichloro-Phenoxyacetic Acid (2,4-D) and Kinetin on Tissue Cultures from Nicotiana spp.|Mutat. Res.36:67-72|1976|10.1016/0027-5107(76)90021-X
43385|T||Mahotiere,S.|Response of Asparagus Crowns to Ethephon and Gibberellic Acid|Hortscience11:240-241|1976|10.21273/HORTSCI.11.3.240
43387|T||Baumann,G., and G. Guenther|Influence of Amitrole on the Composition of Free Amino Acids in Oat Seedlings|Biochem. Physiol. Pflanzen (Multiple Languages)169:163-170|1976|10.1016/S0015-3796(17)30838-7
43388|T||Calabrese,E.J., and K.J. Howe|Stimulation of Growth of Peppermint (Mentha Piperita) by Phosfon, A Growth Retardant|Physiol. Plant. (Multiple Languages)37:163-165|1976|10.1111/j.1399-3054.1976.tb03951.x
43389|T||Rudnicki,R.M., J. Nawak, and M. Saniewski|The Effect of Gibberellic Acid on Sprouting and Flowering of Some Tulip Cultivars|Sci. Hortic.4:387-397|1976|10.1016/0304-4238(76)90107-2
43390|T||Keeley,P.E., and R.J. Thullen|Yellow Nutsedge Control with Soil-Incorporated Herbicides|Weed Sci.22(4): 378-383|1974|10.1017/S0043174500037486
43391|T||Hasegawa,K., and T. Hashimoto|Gibberellin-Induced Dormancy and Batatasin Content in Yam Bulbils|Plant Cell Physiol.15:1-6|1974|
43392|T||Lee,P.K., B. Kessler, and K.V. Thimann|The Effect of Hadacinin on Bud Development and Its Implications for Apical Dominance|Physiol. Plant. (Multiple Languages)31:11-14|1974|10.1111/j.1399-3054.1974.tb03670.x
43393|T||Cohen,M.A., and J.D. Kelley|Effect of Abscisic Acid on Bud Break and Shoot Elongation in Rosa and Syringa|J. Am. Soc. Hortic. Sci.99(2): 185-187|1974|10.21273/JASHS.99.2.185
43394|T||Sims,E.T.,Jr., C.E.,Jr. Gambrell, and G.E. Stembridge|The Influence of (2-Chloroethyl) Phosphonic Acid on Peach Quality and Maturation|J. Am. Soc. Hortic. Sci.99:152-155|1974|10.21273/JASHS.99.2.152
43395|T||Eshel,Y., J. Katan, and D. Palevitch|Selective Action of Diphenamid and Napropamide in Pepper|Weed Res. (Multiple Languages)13:379-383|1974|10.1111/j.1365-3180.1973.tb01290.x
43396|T||Dalvi,R.R., W.C. Chang, D.K. Salvnkhe, and W.F. Campbell|Effects of Menazon and Usnic Acid on Histochemical and Ultrastructural Changes During Germination of Mung Beans|J. Am. Soc. Hortic. Sci.99:175-180|1974|10.21273/JASHS.99.2.175
43397|T||Shewry,P.R., N.J. Pinfield, and A.K. Stobart|Effect of Gibberellic Acid on Mevalonate Activation in Germinating Corylus avellana Seeds|Phytochemistry13:341-346|1974|10.1016/S0031-9422(00)91215-9
43398|T||Chandra,G.R., J.F. Worley, L.E. Gregory, and H.D. Clark|Effect of 6-Benzyladenine on the Initiation of Adventitious Roots on Mung Bean Hypocotyl|Plant Cell Physiol.14:1209-1212|1973|
43400|T||Wills,R.B.H., and K.J. Scott|Effect of Diphenylamine on the Incidence of Low Temperature Break-Down in Apples|Aust. J. Agric. Res.24:373-375|1973|10.1071/AR9730373
43401|T||Sadasivaiah,R.S., G.B. Collins, and P.L. Davis|Effect of LSD on Mitotic and Meiotic Plant Chromosomes|Chromosoma (Berl.)44:309-318|1973|10.1007/BF00291025
43402|T||Barritt,B.H.|The Effect of Gibberellic Acid, Blossom Removal and Planting Date on Strawberry Runner Plant Production|Hortscience9:25-27|1974|10.21273/HORTSCI.9.1.25
43403|T||Reed,N.R., and B.A. Bonner|The Effect of Abscisic Acid on the Uptake of Potassium and Chloride into Avena Coleoptile Sections|Planta (Multiple Languages)116:173-185|1974|10.1007/BF00380651
43404|T||Gopalakrishnan,S., and S.M. Sircar|A Comparative Study of the Effects of Some Growth Regulators on the Biochemistry of Oryza sativa L.|Ann. Bot.38:115-120|1974|10.1093/oxfordjournals.aob.a084780
43405|T||Shivanna,K.R.|Effect of Morphactin on Fruit and Seed Development in Nicotiana rustica L.|Z. Pflanzenphysiol. (Multiple Languages)71:30-36|1974|10.1016/S0044-328X(74)80182-0
43406|T||Ronchi,V.N., and M. Buiahi|The Effect of Chloramphenicol on the Chromosome-Breaking Action of 8-Ethoxy-Caffeine and 6-Methyl Coumarin in Vicia Faba|Mutat. Res.4:615-619|1967|10.1016/0027-5107(67)90047-4
43407|T||Barnes,D.L., and J.Q. Lynd|Factors in Paraquat-Induced Chlorosis with Phaseolus Foliar Tissues|Agron. J.59:364-366|1967|10.2134/agronj1967.00021962005900040022x
43408|T||Lange,A.H., C.L. Elmore, G.W. Morehead, E.K. Stilwell, S.M. McRitchie, D.W. Chaney, J.J. Smith, L.C. Hendricks, and K.O|Herbicides for Control of Annual Weeds in California Apples and Pears|Calif. Agric.21(3): 10-12|1967|
43409|T||Devlin,R.M., and I.E. Demoranville|Influence of Gibberellic Acid and Gibrellin on Fruit Set and Yield in Vaccinium macrocarpon cv. Early Black|Physiol. Plant. (Multiple Languages)20:587-592|1967|10.1111/j.1399-3054.1967.tb07199.x
43410|T||Marquis,L.Y., R.D. Comes, and C.P. Yang|Selectivity of Glyphosate in Creeping Red Fescue and Reed Canarygrass|Weed Res. (Multiple Languages)19:335-342|1979|10.1111/j.1365-3180.1979.tb01548.x
43411|T||Lutman,P.J.W.|The Effects of Topical Applications of Glyphosate and Aminotriazole on Volunteer Potatoes (Solanum tuberosum)|Weed Res. (Multiple Languages)19:377-383|1979|10.1111/j.1365-3180.1979.tb01554.x
43412|T||Morrison,I.N., B.D. Hill, and L.G. Dushnicky|Histological Studies on the Effects of Benzoylprop Ethyl and Flamprop-Methyl on the Growth and Development of Wild Oats|Weed Res. (Multiple Languages)19:385-394|1979|10.1111/j.1365-3180.1979.tb01555.x
43413|T||Pardo,A.D., and J.A. Schiff|Plastid and Seedling Development in SAN-9789 (4-Chloro-5-(Methylamine)-2-(alpha,alpha,alpha-Trifluoro-m-Tolyl)-3-(2H)-Pyridasinone)-Treated Etiolated Bean Seedlings|Can. J. Bot.58:25-35|1980|10.1139/b80-004
43415|T||Snel,M., J.V. Gramlich, P.F. Washbrooke, H. Brandes, R. Dohler, F. Huggenberger, and L. Jacob|Oryzalin, a New Pre-Emergence Herbicide for Rapeseed, Soybeans and Some Other Crops|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)39:523-536|1974|
43416|T||El-Antably,H.M.M.|The Effect of CCC on the Levels of Endogenous Indole-3-Acetic Acid, Abscisic Acid, Gibberellins and Cytokinins in Vicia faba Plants|Biol. Plant. (Praha)17(5): 322-328|1975|10.1007/BF02921154
43417|T||Raschke,K., R.D. Firn, and M. Pierce|Stomatal Closure in Response to Xanthoxin and Abscisic Acid|Planta (Multiple Languages)125:149-160|1975|10.1007/BF00388701
43418|T||Eidel'Nant,N.M., I.V. Esipova, T.A. Venchikova, R.F. Usmanova, and A.M. Danil'chenko|Participation of Ethylene in Metabolic Shifts Induced by 2,4-D|Fiziol. Rast. (Mosc.) (Non-English)21:794-799|1974|
43419|T||Hammerton,J.L.|Effect of Growth Regulators on Pigeon Pea (Cajanus cajan)|Exp. Agric.11:241-245|1975|10.1017/S0014479700006797
43420|T||Williams,M.W.|Carry-over Effect of Ethephon on Fruit Shape of 'Delicious' Apples|Hortscience10(5): 523-524|1975|10.21273/HORTSCI.10.5.523
43421|T||Ellis,M., and Q.O.N. Kay|Genetic Variation in Herbicide Resistance in Scentless Mayweed (Tripleurospermum inodorum (L.) Schultz Bip.) II. Intraspecific Variation in Response to Ioxynil and MCPA, and the Role of Spray Retention Characteristics|Weed Res. (Multiple Languages)15:317-326|1975|10.1111/j.1365-3180.1975.tb01324.x
43422|T||Walbot,V., M. Clutter, and I. Sussex|Effects of Abscisic Acid on Growth, RNA Metabolism, and Respiration in Germinating Bean Axes|Plant Physiol.56:570-574|1975|10.1104/pp.56.5.570
43424|T||Balasubrahmanyam,V.R., S.D. Khanduja, and S. Abbas|Effect of Thiourea on Rest Period of Grapevine Buds|Am. J. Enol. Vitic.26(3): 168-170|1975|10.5344/ajev.1975.26.3.168
43425|T||Tyihak,E., M. Maroti, D. Vagujfalvi, S. Bajusz, and A. Patthy|Effect of Guanidino-Methylated Arginines on the Growth of Tobacco Tissue Cultures|Acta Agron. Acad. Sci. Hung.24:315-323|1975|
43426|T||Kinet,J.M., M. Bodson, A. Jacqmard, and G. Bernier|The Inhibition of Flowering by Abscisic Acid in Sinapis Alba L.|Z. Pflanzenphysiol. (Multiple Languages)77:70-74|1975|10.1016/S0044-328X(75)80126-7
43427|T||Tucker,D.J., and G.A. Maw|Chemical Control of Side Shoots in the Tomato|Sci. Hortic.3:331-338|1975|10.1016/0304-4238(75)90047-3
43428|T||Wozny,A., and A. Szweykowska|Effect of Cytokinins and Antibiotics on Chloroplast Development in Cotyledons of Cucumis Sativus|Biochem. Physiol. Pflanzen (Multiple Languages)169:195-209|1975|10.1016/S0015-3796(17)30117-8
43429|AT||Coke,L.B., K.L. Stuart, and Y.G. Whittle|Further Effects of Vomifoliol on Stomatal Aperture and on the Germination of Lettuce and the Growth of Cucumber Seedlings|Planta (Multiple Languages)127:21-25|1975|10.1007/BF00388859
43430|T||O'Donovan,J.T., and G.N. Prendeville|Shoot Zone Uptake of Soil-Applied Herbicides in Some Legume Species|Weed Res. (Multiple Languages)15:413-417|1975|10.1111/j.1365-3180.1975.tb01339.x
43431|T||Webb,D.T., R.A. Darrow, and G.R. Leather|Appraisal of Ethylene Production as a Test for Defoliants|J. Agric. Food Chem.23(6): 1113-1115|1975|10.1021/jf60202a007
43432|T||El-Antably,H.M.M., S.S. Ahmed, and M.N.A. Eid|Effects of Some Growth Hormones on Plant Vigour and Volatile Oils of Origanum majorana L.|Pharmazie30:400-401|1975|
43433|T||Harada,H., and J.P. Nitsch|Flower Induction in Japanese Chrysanthemums with Gibberellic Acid|Science129:777-778|1959|10.1126/science.129.3351.777
43434|T||Johnson,B.J.|Effects of Herbicide Treatments on the Establishment of `Tifway' Bermudagrass|Weed Sci.23(6): 462-464|1975|10.1017/S0043174500065024
43435|T||McCarty,M.K., and J.L. Hatting|Effects of Herbicides or Mowing on Musk Thistle Seed Production|Weed Res. (Multiple Languages)15:363-367|1975|10.1111/j.1365-3180.1975.tb01331.x
43436|T||Bowes,G., and E.S. Molberg|Picloram for the Control of Leafy Spurge|Can. J. Plant Sci.55:1023-1027|1975|10.4141/cjps75-161
43437|T||Spiker,S., A. Mashkas, and M. Yunis|The Effect of Single and Repeated Gibberellic Acid Treatment on Internode Number and Length in Dwarf Peas|Physiol. Plant. (Multiple Languages)36:1-3|1976|10.1111/j.1399-3054.1976.tb05016.x
43438|T||Ward,C.M., and W.G. Tucker|Respiration of Maleic Hydrazide Treated and Untreated Onion Bulbs During Storage|Ann. Appl. Biol.82:135-141|1976|10.1111/j.1744-7348.1976.tb01680.x
43439|T||Blatt,C.R., and A.G. Sponagle|Effects of Several Growth Regulators on Runner Plant Production, Yield and Fruit Maturity of the Strawberry|Can. J. Plant Sci.54:873-875|1974|10.4141/cjps74-156
43440|T||Nash,R.J., T.A. Smith, and R.L. Wain|Studies on Plant Growth-Regulating Substances  XXVII.  The Growth-Regulating Activity and Metabolism of 2,4-Dichlorophenoxyethylamine and Related Compounds in Higher Plants|Ann. Appl. Biol.61:481-494|1968|10.1111/j.1744-7348.1968.tb04550.x
43441|T||Graf,G.T., and A.G.,Jr. Ogg|Differential Response of Potato Cultivars to Metribuzin|Weed Sci.24:137-139|1976|10.1017/S0043174500065565
43442|T||Mandava,N., and L.E. Gregory|Effect of 3-Methyleneoxindole on Root Initiation of Mung Bean Hypocotyl|Phyton (Horn) (Multiple Languages)33(2): 173-177|1975|
43443|T||Heidmann,L.J.|Herbicides for Preparing Ponderosa Pine Planting Sites in the Southwest|Down Earth24:18-20|1968|
43444|T||Dass,H.C., and G.S. Randhawa|"Response of ""Pusa Seedless"" Grape to 4-Cpa, Kinetin, Uracil and Ga"|Physiol. Plant. (Multiple Languages)21:298-301|1968|10.1111/j.1399-3054.1968.tb07253.x
43445|T||Corgan,J.N., and F.B. Widmoyer|The Effects of Gibberellic Acid on Flower Differentiation, Date of Bloom, and Flower Hardiness of Peach|J. Am. Soc. Hortic. Sci.96(1): 54-57|1971|10.21273/JASHS.96.1.54
43446|T||Barrentine,W.L., and G.F. Warren|Shoot Zone Activity of Trifluralin and Nitralin|Weed Sci.19:37-41|1971|10.1017/S0043174500048220
43447|T||Chang,F.Y., and W.H. Vanden Born|Dicamba Uptake, Translocation, Metabolism, and Selectivity|Weed Sci.19:113-117|1971|10.1017/S0043174500048414
43448|T||Flood,A.E., P.P. Rutherford, and E.W. Weston|The Response of Chicory Root Tissue Disks to Treatment with 2,4- and 3,5-Dichlorophenoxyacetic Acids|Phytochemistry9:2431-2437|1970|10.1016/S0031-9422(00)85758-1
43449|T||Bottrill,D.E., and J.B. Hanson|Short-Term Growth Response to Growth Regulators in Roots of Zea mays|Aust. J. Biol. Sci.21:201-208|1968|10.1071/BI9680201
43451|T||Chang,I.K., and C.L. Foy|Effects of Picloram on Mitochondrial Swelling and ATPase|Weed Sci.19(1): 54-58|1971|10.1017/S0043174500048268
43452|T||Abeles,F.B., L.E. Craker, and G.R. Leather|Abscission: the Phytogerontological Effects of Ethylene|Plant Physiol.47:7-9|1971|10.1104/pp.47.1.7
43453|T||Chang,I.K., and C.L. Foy|Effect of Picloram on Germination and Seedling Development of Four Species|Weed Sci.19:58-64|1971|10.1017/S004317450004827X
43454|T||Goren,R., and E. Tomer|Effects of Seselin and Coumarin on Growth, Indoleacetic Acid Oxidase, and Peroxidase, with Special Reference to Cucumber (Cucumis Sativa L.) Radicles|Plant Physiol.47:312-316|1971|10.1104/pp.47.2.312
43455|T||Inamdar,J.A.|Action of Growth Regulators on the Development of Stomata of Abelmoschus esculentus Moench|Flora Allg. Bot. Ztg. Abt B Morphol. Geobot. (Jena)159(5): 497-502|1970|
43456|T||Gilbert,D.A., and K.C. Sink|The Effect of Exogenous Growth Regulators on Keeping Quality in Poinsettia|J. Am. Soc. Hortic. Sci.95(6): 784-787|1970|10.21273/JASHS.95.6.784
43457|T||Putnam,A.R., and H. Davidson|Chemical Control of Weeds in Transplanted Ground Covers|J. Am. Soc. Hortic. Sci.95(6): 687-689|1970|10.21273/JASHS.95.6.687
43458|T||Sansavini,S., J.A. Martin, and K. Ryugo|The Effect of Succinic Acid 2,2-Dimethyl Hydrazide on the Uniform Maturity of Peaches and Nectarines|J. Am. Soc. Hortic. Sci.95:708-711|1970|10.21273/JASHS.95.6.708
43459|T||Larson,F.E.|Promotion of Leaf Abscission of Deciduous Nursery Stock with 2-Chloroethyl Phosphonic Acid|J. Am. Soc. Hortic. Sci.95:662-663|1970|10.21273/JASHS.95.6.662
43460|T||Buchanan,D.W., R.H. Biggs, J.A. Blake, and W.B. Sherman|Peach Thinning with 3Cpa (1-(Chlorophenoxy) Propinic Acid) and Ethrel During Cytokinesis|J. Am. Soc. Hortic. Sci.95:781-784|1970|10.21273/JASHS.95.6.781
43461|T||Cotter,D.J.|Phenylmercuric Acetate Effects on Water Loss of the Tomato|J. Am. Soc. Hortic. Sci.95:774-776|1970|10.21273/JASHS.95.6.774
43462|T||Pritchard,A.J., and R.D. Court|The Cytological Effects of Mimosine|Cytologia33:73-77|1968|10.1508/cytologia.33.73
43463|T||Carlson,L.W.|Effects of Vitavax on Chlorophyll Content, Photosynthesis and Respiration of Barley Leaves|Can. J. Plant Sci.50:627-630|1970|10.4141/cjps70-120
43464|T||Reed,N.R., and H.T. Hartmann|Histochemical and Ultrastructural Studies of Fruit Abscission in the Olive After Treatment with 2-Chloroethyl-tris-(2-Methoxyethoxy)-Silane|J. Am. Soc. Hortic. Sci.101(6): 633-637|1976|10.21273/JASHS.101.6.633
43465|T||Morini,S., C. Vitagliano, and C. Xiloyannis|Effect of 3-CPA and Ethephon on Growth and Abscission of the 'Cardinal' Peach|J. Am. Soc. Hortic. Sci.101:640-642|1976|10.21273/JASHS.101.6.640
43466|T||Lee,C.B., M.J. Lee, H.J. Chi, and Y.M. Kwon|Effect of Decursin and Decursinol on the Germination and Growth of Plants|Korean J. Bot.19:7-13|1976|
43468|T||Penel,C., E. Darimont, H. Greppin, and T. Gaspar|Effect of Acetylcholine on Growth and Isoperoxidases of the Lentil (Lens Culinaris) Root|Biol. Plant. (Praha)18:293-298|1976|10.1007/BF02922377
43469|T||Shannon,S., and R.W. Robinson|The Use of Chlorflurenol in Production of Pickling Cucumbers|Hortscience11(5): 476-478|1976|10.21273/HORTSCI.11.5.476
43470|T||Yang,H.|Effect of Benomyl on Asparagus Offcinalis L. Shoot and Root Development in Culture Media|Hortscience11:473-474|1976|10.21273/HORTSCI.11.5.473
43471|T||Flore,J.A., and M.J. Bukovac|Pesticide Effects on the Plant Cuticle: II. EPTC Effects of Leaf Cuticle Morphology and Composition in Brassica oleracea L.|J. Am. Soc. Hortic. Sci.101(5): 586-590|1976|10.21273/JASHS.101.5.586
43472|T||Tjia,B., and J. Buxton|Influence of Ethephon Spray on Defoliation and Subsequent Growth on Hydrangea macrophylla Thunb.|Hortscience11(5): 487-488|1976|10.21273/HORTSCI.11.5.487
43473|T||Yamaguchi,H.|Mutations Induced in Presoaked Barley Seeds by Diethyl Sulfate and 5-Bromodeoxyuridine|Environ. Exp. Bot.16:145-149|1976|10.1016/0098-8472(76)90006-X
43474|T||Lindgren,K., L. Ehrenberg, and A.T. Natarajan|The Action on Barley Chromosomes of Isopropyl, 2-Hydroxyisopopyl, and 2-Methoxyisopropyl Methanesulfonates|Environ. Exp. Bot.16:155-164|1976|10.1016/0098-8472(76)90008-3
43475|T||Hemberg,T.|The Effect of Abscisic Acid (ABA) on the Respiration and Uptake of Inorganic Phosphate by Potato Pith Discs|Physiol. Plant. (Multiple Languages)43:65-67|1978|10.1111/j.1399-3054.1978.tb01568.x
43476|T||Nanda,K.K., G.L. Bansal, V.K. Kochhar, and N.C. Bhahacharya|Effect of Some Metabolic Inhibitors of Oxidative Phosphorylation on Rooting of Cuttings of Phaseolus mungo|Ann. Bot.42:659-664|1978|10.1093/oxfordjournals.aob.a085500
43477|T||Bucholtz,D.L., and T.L. Lavy|Pesticide Interactions in Oats (Avena sativa L. 'Neal')|J. Agric. Food Chem.26(3): 520-524|1978|10.1021/jf60217a006
43478|T||Zawistowski,T., A.V. Barker, and L.J. Glover|Sensitivity of Ion Accumuation by Cucumber Seedlings to Nitrapyrin and to 6-Chloropicolinic Acid|Crop Sci.18:293-295|1978|10.2135/cropsci1978.0011183X001800020025x
43479|T||Flore,J.A., and M.J. Bukovac|Pesticide Effects on the Plant Cuticle: III. EPTC Effects on the Qualitative Composition of Brassica oleracea L. Leaf Cuticle|J. Am. Soc. Hortic. Sci.103(3): 297-301|1978|10.21273/JASHS.103.3.297
43480|T||Davies,W.J.|Some Effects of Abscisic Acid and Water Stress on Stomata of Vicia faba L.|J. Exp. Bot.29:175-182|1977|10.1093/jxb/29.1.175
43481|T||Erez,A.|Thiourea, A Growth Promoter of Callus Tissues|J. Exp. Bot.29:159-165|1977|10.1093/jxb/29.1.159
43482|T||Islam,A.K.M.S., C.J. Asher, D.G. Edwards, and J.P. Evenson|Germination and Early Growth of Ginger (Zingiber Officinale Rosscoe): Ii. Effects of 2-Chloroethyl Phosphonic Acid Or Elevated Temperatures|Trop. Agric.55:127-134|1978|
43483|T||Vander Beek,L.C.|Effect of 2,3,6-Trichlorobenzoic Acid and 2,6-Dichlorobenzoic Acid on the Geotropic and Phototropic Responses of Various Species|Plant Physiol.34:61-65|1959|10.1104/pp.34.1.61
43484|T||Mer,C.L.|Growth-Promoting Effect of Ethanol on Oat Seedlings|Nature182:1812-1813|1958|10.1038/1821812b0
43485|T||Leben,C., E.F. Alder, and A. Chichuk|Influence of Gibberellic Acid on the Growth of Kentucky Bluegrass|Agron. J.51:116-117|1959|10.2134/agronj1959.00021962005100020018x
43486|T||Hartman,R.T.|Effects of Growth-Regulating Substances on the Carbon Dioxide Evolution and Post-Harvest Ripening of Tomatoes|Plant Physiol.34:65-72|1959|10.1104/pp.34.1.65
43487|T||Skinner,C.G., and W. Shive|Stimulation of Lettuce Seed Germination by 6-(Substituted) Purines|Plant Physiol.34(1): 1-3|1959|10.1104/pp.34.1.1
43488|T||Endo,R.M., W.W. Thomson, and E.M. Krausman|Effects of D-Galactose on the Ultrastructure of Bentgrass Root Apices|Can. J. Bot.46:391-395|1968|10.1139/b68-060
43489|T||Matsuo,M., and Y. Satomura|Physiological Effect of Sclerothionine on Plant Growth and Phospholipases Formation|Agric. Biol. Chem.32(5): 611-616|1968|10.1080/00021369.1968.10859102
43490|T||Masingale,R.E., J.E. Lewis, S.R. Bryant, and C.G. Skinner|Inhibitory Effects of Dichlorophenoxyacetones on Auxin-Induced Growth of Avena Coleoptile Sections|Plant Physiol.43:641-644|1968|10.1104/pp.43.4.641
43491|T||Matolcsy,G., and E.A. Gomaa|The Herbicidal Effect of Some A-Hydroxy-B,B,B-Trichloroethylamino-1,2,4-Triazoles|Weed Res. (Multiple Languages)8:1-7|1968|10.1111/j.1365-3180.1968.tb01395.x
43492|T||Elwell,H.M.|Winged Elm Control with Picloram and 2,4,5-T with and Without Additives|Weed Sci.16:131-133|1968|10.1017/S0043174500046737
43493|T||Callahan,L.M., R.E. Engel, and R.D. Ilnicki|Environmental Influence on Bentgrass Treated with Silvex|Weed Sci.16:193-196|1968|10.1017/S0043174500046889
43494|T||Dvorak,J.|The Influence of Simazine on Shoot and Root Growth of Apples and Plums|Weed Res. (Multiple Languages)8:8-13|1968|10.1111/j.1365-3180.1968.tb01396.x
43495|T||Mitich,L.W.|Control of Leafy Spurge, Field Bindweed and Western Snowberry with Tordon Herbicide|Down Earth23:8-11|1967|
43496|T||Alexander,A.G.|Effects of Variable Diuron on the Sugar Production and Enzyme Activity of Sugarcane Grown on Clay and Sandy Loam Soils in Puerto Rico|J. Agric. Univ. P. R.52:126-139|1968|10.46429/jaupr.v52i2.11498
43497|T||Lange,A., D. May, B. Fischer, V. Schweers, and F. Ashton|Weed Control in Cucurbits|Calif. Agric.22:8-9|1968|
43498|T||Sachs,R.M., and R.J. Weaver|Gibberellin and Auxin-Induced Berry Enlargement in Vitis Vinifera l|J. Hortic. Sci.43:185-195|1968|10.1080/00221589.1968.11514246
43499|T||Markiewicz,L.|Morphological Changes in Vinca Rosea L. Under the Influence of Gibberellic Acid|Bull. Acad. Pol. Sci. Ser. Sci. Biol.15:51-53|1967|
43500|T||Motooka,P.S., D.F. Saiki, D.L. Plucknett, O.R. Younge, and R.E. Daehler|Control of Hawaiian Jungle with Aerially Applied Herbicide|Down Earth23:18-22|1967|
43501|T||Bingham,S.W., and J.R. Jones|Phytotoxicity of Certain Herbicides to Several Woody Ornamentals|Proc. Am. Soc. Hortic. Sci.91:786-791|1967|
43502|T||Griffing,C.G., and S.J. Ursic|Ethephon Advances Loblolly Pine Needle Cast|For. Sci.23:351-354|1977|
43503|T||Dewey,W.G., and R.S. Albrechtsen|Effects of Seed Treatment with Three Systemic Fungicides on Yields and Stands of Wheat and Barley|Plant Dis. Rep.61(12): 1057-1060|1977|
43504|T||Pool,R.A.F.|A Rapid Bioassay for Pesticide Phytotoxicity|J. Agric. Food Chem.25(5): 1216-1218|1977|10.1021/jf60213a002
43505|T||Volfova,A., L. Chvojka, and J. Hankovska|The Orientation of Cell Wall Microtubules in Wheat Coleoptile Segments Subjected to Phytohormone Treatment|Biol. Plant. (Praha)19(6): 421-425|1977|10.1007/BF02922977
43506|T||Koch,S.J., and R.H. Wilson|Effects of Phenolic Acids on Hypocotyl Growth and Mitochondrial Respiration in Mung Bean (Phaseolus Aureus)|Ann. Bot.41:1091-1092|1977|10.1093/oxfordjournals.aob.a085385
43507|T||Varnell,R.J., and I.K. Vasil|Experimental Studies of the Shoot Apical Meristem of Seed Plants:  II.  Morphological and Cytochemical Effects of Kinetin Applied to the Exposed Meristem of Pinu|Am. J. Bot.65:47-49|1978|10.1002/j.1537-2197.1978.tb10833.x
43508|T||Shibaoka,H., and T. Hogetsu|Effects of Ethyl N-Phenylcarbamate on Wall Microtubules and on Gibberellin- and Kinetin-Controlled Cell Expansion|Bot. Mag. Tokyo90:317-321|1977|10.1007/BF02489344
43510|T||Wilkins,H., S.M. Wilkins, and R.L. Wain|Studies on Plant Growth-Regulating Substances: Xlviii the Effects of 3,5-Diiodo-4-Hydroxybenzoic Acid on Seedling Growth in Compact and Loose Soils|Ann. Appl. Biol.87:415-422|1977|10.1111/j.1744-7348.1977.tb01906.x
43511|T||Jordan,T.N., R.S. Baker, and W.L. Barrentine|Comparative Toxicity of Several Dinitroaniline Herbicides|Weed Sci.26(1): 72-75|1978|10.1017/S0043174500032707
43512|T||Balke,N.E., and T.K. Hodges|Inhibition of Adenosine Triphosphatase Activity of the Plasma Membrane Fraction of Oat Roots by Diethylstilbestrol|Plant Physiol.63:48-52|1979|10.1104/pp.63.1.48
43513|T||Zur Nieden,U., and D. Neumann|Effect of (2-Chloroethyl)-Trimethyl-Ammonium Chloride (Ccc) on Chlorophyll Content and Ultrastructure of the Plastids of Pisum Sativum|Biochem. Physiol. Pflanzen (Multiple Languages)173:202-212|1978|10.1016/S0015-3796(17)30483-3
43514|T||Gaither,D.H.|Chlorflurenol: An Apparent Volatility Effect on Beans|Hortscience9:461-462|1974|10.21273/HORTSCI.9.5.461
43515|T||Otta,J.D.|Effects of 2,4-D Herbicide on Siberian Elms|For. Sci.20(3): 287-290|1974|
43516|T||Cantliffe,D.J., and S.C. Phatak|Response of Cucumbers to Soil and Foliar Application of Ethephon|Hortscience9:465-466|1974|10.21273/HORTSCI.9.5.465
43518|T||Vazquez,A.|Effect of Umbelliferone, as a Rooting Stimulator, on Endogenous Growth Substances in Bean Cuttings|Biol. Plant. (Praha)16:308-311|1974|10.1007/BF02921243
43519|T||Quebedeaux,B.,Jr., and E.M.,Jr. Beyer|Induction of Parthenocarpy by N-1-Napthylphthalamic Acid in Cucumbers|Hortscience9:396-397|1974|10.21273/HORTSCI.9.4.396
43520|T||Gertman,E., and Y. Fuchs|Changes in Pectinmethylesterase (Pme) Activity Caused by Ethylene Applied at Different Temperatures|Plant Cell Physiol.15:501-505|1974|
43521|T||Greathouse,D.C., and W.M. Laetsch|Effects of Gibberellin A-3 on the Dimorphic Branch System of Theobroma Cacao|Plant Sci. Lett.1:39-45|1973|10.1016/0304-4211(73)90018-7
43522|T||Looney,N.E., W.B. McGlasson, and B.G. Coombe|Action of Succinic Acid-2,2-Dimethylhydrazide and (2-Chloroethyl)Phosphonic Acid|Aust. J. Plant Physiol.1:77-86|1974|
43523|T||Johnson,B.J.|Effects of Pronamide Treatments on the Establishment of Centipedegrass|Weed Sci.22:508-511|1974|10.1017/S004317450003811X
43524|T||Srinivasan,C., R. Subbiah, and A. Shanmugam|Effect of Ethephon on the Chlorophyll Fractions of Banana During Ripening|Engeigaku Kenkyuu13:147-149|1973|
43525|T||Shanmugam,A., and C. Srinivasan|Influence of Ethephon on the Growth and Yield of Sweet Potato (Ipomoea Batatas Lam.)|Engeigaku Kenkyuu13:143-145|1973|
43526|T||Wilson,W.C.|A Comparison of Cycloheximide with a New Abscission Chemical|Proc. Annu. Meet. Fla. State Hortic. Soc.86:56-60|1973|
43527|T||Johnson,C.R.|Effectiveness of Ancymidol on Reducing Height of Easter Lilies Grown Under Different Environments|Proc. Annu. Meet. Fla. State Hortic. Soc.86:380-382|1974|
43528|T||Umetsu,N., T. Uramatsu, H. Honda, and K. Tamari|Studies of the Effect of Tenuazonic Acid on Plant Cells and Seedlings|Agric. Biol. Chem.38:791-799|1974|10.1080/00021369.1974.10861232
43529|T||Sankhla,N., and W. Huber|Effect of Abscisic Acid on the Activities of Photosynthetic Enzymes and 14CO2 Fixation Products in Leaves of Pennisetum typhoides Seedlings|Physiol. Plant. (Multiple Languages)30:291-294|1974|10.1111/j.1399-3054.1974.tb03659.x
43530|T||Maas,J.L.|Response of Strawberry Cultivars to Fall Application of Benomyl for Storage Decay Protection|Hortscience9:201-201|1974|10.21273/HORTSCI.9.3.201
43531|T||Ismail,A.A.|Preharvest Application of Ethephon and SADH on Ripening and Quality of Lowbush Blueberry Fruit|Hortscience9(3): 205-206|1974|10.21273/HORTSCI.9.3.205
43532|T||Hellgren,M., T. Brogardh, and A. Johnsson|Effects of Valinomycin on Oscillatory Transpiration of Avena Leaves|Z. Pflanzenphysiol. (Multiple Languages)80:251-260|1976|10.1016/S0044-328X(76)80027-X
43534|T||Evans,M.L.|Comparative Effects of Indole-3-Acetic Acid and 3-Methyleneoxindole on Intact Lentil Root Elongation|Plant Sci. Lett.7:447-453|1976|10.1016/0304-4211(76)90166-8
43535|T||Brezeanu,A.G., D.G. Davis, and R.H. Shimabukuro|Ultrastructure Effects and Translocation of Methyl-2-(4-(2,4-Dichlorophenoxy)-Phenoxy)Propanoate in Wheat (Triticum aestivum) and Wildoat (Avena fatua)|Can. J. Bot.54:2038-2048|1976|10.1139/b76-217
43536|T||Sherman,M., and I.G. Hillyer|Daminozide Reduces Stem Elongation of 'Grand Rapids Forcing' Leaf Lettuce Grown at High Greenhouse Temperatures|Hortscience11(6): 607-608|1976|10.21273/HORTSCI.11.6.607
43537|T||Blanpied,G.D., and V.A. Blak|Relationship Between Ethylene Level and Varietal Flavor in 'Delicious' Apples|Hortscience11:596-597|1976|10.21273/HORTSCI.11.6.596
43538|T||Perry,T.O., and H. Hellmers|Effects of Abscisic Acid on Growth and Dormancy of Two Races of Red Maple|Bot. Gaz.134:283-289|1973|10.1086/336716
43539|T||Kaushik,M.P., and A.K. Bisaria|Influence of Morphactin on Sex Expression in Luffa acutangula Roxb.|J. Exp. Bot.24:921-922|1973|10.1093/jxb/24.5.921
43540|T||Knavel,D.E., and T.R. Kemp|Ethephon and CDTA on Color Development in Bell Pepper Fruits|Hortscience8:403-404|1973|10.21273/HORTSCI.8.5.403
43541|T||Tompkins,D.R., and R.D. Horton|Plant Production by Sweet Potato Roots as Influenced by Ethephon|Hortscience8:415-416|1973|10.21273/HORTSCI.8.5.415
43542|T||Wills,R.B.H., K.J. Scott, and J.E. Campbell|Effect of Preharvest Application of Gibberellic Acid (Ga3) on Storage Breakdown of Apples|Hortscience8:395-|1973|10.21273/HORTSCI.8.5.395a
43543|T||Hansen,D.J., and L.E. Bendixen|Ethylene-Induced Tropism of Trifolium Fragiferum L. Stolons|Plant Physiol.53:80-82|1974|10.1104/pp.53.1.80
43544|T||Charnetski,W.A., E.P. Lichtenstein, and R.F. Evert|Effects of Lindane on Cell Structure of Pea Roots|Can. J. Bot.51:2111-2117|1973|10.1139/b73-274
43545|T||Zwar,J.A.|Effects of Cytokinins on the Nucleic Acids of Tobacco Pith|J. Exp. Bot.24:701-710|1973|10.1093/jxb/24.4.701
43546|T||Musgrave,A., and J. Walters|Ethylene-Stimulated Growth and Auxin Transport in Ranunculus Sceleratus Petioles|New Phytol.72:783-789|1973|10.1111/j.1469-8137.1973.tb02053.x
43547|T||Tehrani,G.|Effects on 'Montmorency' Cherry of Four Successive Years' Application of Succinic Acid 2,2-Dimethylhydrazide (SADH)|J. Am. Soc. Hortic. Sci.98(5): 468-473|1973|10.21273/JASHS.98.5.468
43549|T||Parochetti,J.V.|Canada Thistle Control with Atrazine|Weed Sci.22(1): 28-31|1974|10.1017/S0043174500036456
43550|T||Brand,R., and C.J. Venverloo|The Formation of Adventitious Organs. II. The Origin of Buds Formed on Young Adventitious Roots of Populus nigra L. 'Italica'|Acta Bot. Neerl.22(4): 399-406|1973|10.1111/j.1438-8677.1973.tb00855.x
43551|T||Das,G.|Gibberellin-Induced Changes in Ultrastructure of Lettuce Cotyledons|Ann. Bot.37:999-1004|1973|10.1093/oxfordjournals.aob.a084778
43552|T||Coats,G.E., C.Y. Ward, and E.L. McWhirter|Effect of Benefin and DCPA on Overseeded Grasses Maintained as Putting Greens|Weed Sci.21:528-531|1973|10.1017/S0043174500032410
43553|T||Chen,S.S.C., and W. Park|Early Actions of Gibberellic Acid on the Embryo and on the Endosperm of Avena fatua Seeds|Plant Physiol.52:174-176|1973|10.1104/pp.52.2.174
43554|T||Schaeffer,G.W., and A.A. Abdul-Baki|Effect of 6-Benzylaminopurine on Respiration and Glucose-14C Metabolism During Bud Release from Dormancy|Bull. Torrey Bot. Club100(3): 143-146|1973|10.2307/2484623
43555|T||Abou-Zied,E.N.|The Influence of Gibberellic Acid on Growth and Metabolic Products of Amni visnaga L.|Plant Foods Hum. Nutr. (Dordr.)22:137-140|1973|10.1007/BF01100681
43556|T||Hradilik,J., K.Z. Gamburg, and G.D. Nazarena|Effects of CCC and B-995 on Growth and Pigmentation of Tobacco Tissues in a Suspension Culture|Biol. Plant. (Praha)15(3): 223-228|1973|10.1007/BF02922397
43557|T||Arisumi,T.|Morphology and Breeding Behavior of Colchicine-Induced Polyploid Impatiens spp. L.|J. Am. Soc. Hortic. Sci.98(6): 599-601|1973|10.21273/JASHS.98.6.599
43558|T||Qureshi,F.A., and D.C. Spanner|The Effect of Inhibitors on Callose Formation in the Sieve Tubes of Saxifraga sarmentosa l|Ann. Bot.37:867-869|1973|10.1093/oxfordjournals.aob.a084755
43559|T||Cornforth,I.S., and R.J. Stevens|Ethylene and the Germination and Early Growth of Barley|Plant Soil38:581-587|1973|10.1007/BF00010698
43560|T||Brown,B.T., J.O.H.A. Oddvar, G.F. Katekar, and W.H.F. Sasse|The Effect on Root Geotropism of Certain Ortho-Carboxyphenylpropanoate Derivatives|Pestic. Sci.4:473-484|1973|10.1002/ps.2780040406
43561|T||Ogle,W.L.|An Evaluation of Herbicides for Southern Peas and Snap Beans|Proc. Am. Soc. Hortic. Sci.90:290-295|1966|
43562|T||Nielsen,N., and G. Bergquist|The Stimulation of the Respiration of Seeds with Gibberellic Acid and Its Analytical Application|Physiol. Plant. (Multiple Languages)11:329-331|1958|10.1111/j.1399-3054.1958.tb08468.x
43563|T||Ishikawa,S.|A Note on the Effects of Coumarin on the Germination of Seeds|Kumamoto J. Sci.2:97-103|1955|
43564|T||Skinner,C.G., F.D. Talbert, and W. Shive|Effect of 6-(Substituted)Purines and Gibberellin on the Rate of Seed Germination|Plant Physiol.33:190-194|1958|10.1104/pp.33.3.190
43565|T||Cathey,H.M., and N.W. Stuart|Growth and Flowering of Chrysanthemum Moriflorum Ramat. As Affected by Time of Application of Gibberellic Acid|Proc. Am. Soc. Hortic. Sci.71:547-554|1958|
43567|T||Plack,A.|Effect of Gibberellic Acid on Corolla Size|Nature182:610|1958|10.1038/182610a0
43568|T||Richardson,S.D.|The Effect of IAA on Root Development of Acer Saccharinum L|Physiol. Plant. (Multiple Languages)11:698-709|1958|10.1111/j.1399-3054.1958.tb08265.x
43569|T||Fletcher,W.W., J.W.S. Alcorn, and J.C. Raymond|Effect of Gibberellic Acid on the Nodulation of White Clover (Trifolium Repens L.)|Nature182:1319-1320|1958|10.1038/1821319a0
43570|T||Leivonen,H.|The Effect of Gibberellins and Indole-3-Acetic Acid on the Root Cells of Narcissus Tazetta (L.)|Physiol. Plant. (Multiple Languages)11:838-844|1958|10.1111/j.1399-3054.1958.tb08276.x
43571|T||Srivastava,H.S.|Inhibition of Maize Seeding Growth by Chloramphenicol|Indian J. Plant Physiol.19:53-59|1976|
43572|T||Tayal,M.S., and R. Gopal|Synergistic and Antagonistic Behavior of Maleic Hydrazide, Morphactin and Gibberellic Acid with Reference to the Seed Germination in Fenugreek (Trigonella foenum graecum L.)|Indian J. Plant Physiol.19:71-75|1976|
43573|T||Maksymowych,R., R.E. Cordero, and R.O. Erickson|Long-Term Developmental Changes in Xanthium Induced by Gibberellic Acid|Am. J. Bot.63:1047-1053|1976|
43574|T||Shannon,S.|Comparative Effects of (2-Chloroethyl) Phosphonic Acid and the Mono-2-Chloroethyl Ester of the Acid on Growth, Peroxidase Activity, and Sex Expression of a Monoecious Cucumber|J. Am. Soc. Hortic. Sci.101:606-610|1976|10.21273/JASHS.101.5.606
43575|T||Swamy,B.G.L., and D. Sivaramakrishna|Wound Healing Responses in Monocotyledons:  II.  Responses to Chemical Treatments|Phytomorphology25(3): 255-261|1975|
43577|T||Bangerth,F.|A Role for Auxin and Auxin Transport Inhibitors on the Ca Content of Artificially Induced Parthenocarpic Fruits|Physiol. Plant. (Multiple Languages)37:191-194|1976|10.1111/j.1399-3054.1976.tb03956.x
43578|T||Dozier,W.A.,Jr., and M.H. Hollingsworth|Sprout Control of Apple Nursery Stock with NAA|Hortscience11:392-393|1976|10.21273/HORTSCI.11.4.392
43579|T||Ferree,D.C., F.R. Hall, and R.A. Spotts|Influence of Spray Adjuvants and Multiple Applications of Benomyl and Oil on Photosynthesis of Apple Leaves|Hortscience11:391-392|1976|10.21273/HORTSCI.11.4.391
43580|T||Devlin,R.M., S.J. Karczmarczy, and K.H. Deubert|The Influence of Abscisic Acid in Cranberry Seed Dormancy|Hortscience11:412-413|1976|10.21273/HORTSCI.11.4.412
43581|T||Ballington,J.R., G.J. Galletta, and D.M. Pharr|Gibberellin Effects on Rabbiteye Blueberry Seed Germination|Hortscience11:410-411|1976|10.21273/HORTSCI.11.4.410
43582|T||Castle,W.S., and D.P.H. Tucker|Susceptibility of Citrus Nursery Trees to Herbicides as Influenced by Rootstock and Scion Cultivar|Hortscience13:692-693|1978|10.21273/HORTSCI.13.6.692
43583|T||Waterson,H.A., and M.J. Potts|The Use of Ethephon to Hasten Tomato Ripening|Engeigaku Kenkyuu18:101-112|1978|
43584|T||Wilfret,G.J., B.K. Harbaugh, and T.A. Nell|Height Control of Pixie Poinsettia with A Granular Formation of Ancymidol|Hortscience13:701-702|1978|10.21273/HORTSCI.13.6.701
43585|T||Gorske,S.F., and H.J. Hopen|Selectivity of Nitrofen and Oxyfluorfen Between Portulaca oleracea Ecotypes and Two Cabbage (Brassica oleracea var. capitata) Cultivars|Weed Sci.26(6): 640-642|1978|10.1017/S0043174500064729
43586|T||Zilkah,S., P.F. Bocion, and J. Gressel|Tissue Target for Napropamide Inhibition: Effects on Green and White Callus Cultures and Seedlings|Weed Sci.26:711-713|1978|10.1017/S0043174500064870
43587|T||Khosh-Khui,M., I. Rouhani, and B. Shaybany|Axillary Shoot Stimulation and Plant Development of Coleus Treated with Certain Plant Growth Regulators|Can. J. Plant Sci.58:971-976|1978|10.4141/cjps78-149
43588|T||Dawson,J.H.|Control of Dodder (Cuscuta spp.) with Pronamide|Weed Sci.26:660-664|1978|10.1017/S0043174500064778
43589|T||Rustagi,P.N., and N. Sankhla|Effect of 3',5'-Cyclic Adenosine Monophosphate on Stomatal Opening in Vicia Faba l|Z. Pflanzenphysiol. (Multiple Languages)73:467-470|1974|10.1016/S0044-328X(74)80118-2
43590|T||Hughes,R., and H.E. Street|Galactose As An Inhibitor of the Expansion of Root Cells|Ann. Bot.38:555-564|1974|10.1093/oxfordjournals.aob.a084841
43591|T||Srinivasan,C., D.R. Padmanabhaiah, K.G. Shanmugavelu, and V.N.M. Rao|Effect of Ethrel on the Rate of Respiration and Some Biochemical Changes During Ripening of Persimmon (Diospyros Kaki L. F.)|Indian J. Agric. Sci.43:746-751|1973|
43592|T||Peterson,R.L., G.R. Stepherson, and B.F.J. Mitchell|Effects of Picloram on Shoot Anatomy of Red Maple and White Ash|Weed Res. (Multiple Languages)14:227-229|1974|10.1111/j.1365-3180.1974.tb01046.x
43593|T||Zieslin,N., and A.H. Harvey|Interaction Between Cytokinins and CCC in Bud Breaking, Flower Bud Atrophy and the Gibberellin Content of Roses|Z. Pflanzenphysiol. (Multiple Languages)77:160-166|1976|10.1016/S0044-328X(76)80179-1
43594|T||Kinsman,L.T., N.J. Pinfield, and A.K. Stobart|The Hormonal Control of Amaranthin Synthesis in Amaranthus Caudatus Seedlings|Planta (Multiple Languages)127:207-212|1975|10.1007/BF00380717
43595|T||Janes,H.W., L. Loercher, and C. Frenkel|Effects of Red Light and Ethylene on Growth of Etiolated Lettuce Seedlings|Plant Physiol.57:420-423|1976|10.1104/pp.57.3.420
43596|T||Rao,V.S., J.W. Braun, and A.A. Khan|Promotive Effects of Organic Solvents and Kinetin on Dark Germination of Lettuce Seeds|Plant Physiol.57:446-449|1976|10.1104/pp.57.3.446
43597|T||Halloin,J.M.|Inhibition of Cottonseed Germination with Abscisic Acid and Its Reversal|Plant Physiol.57:454-455|1976|10.1104/pp.57.3.454
43600|T||Sarvari,E., G. Halasz, P. Nyitrai, and F. Lang|Effect of Lincomycin Treatment on the Greening Process in Bean (Phaseolus vulgaris) Leaves|Physiol. Plant. (Multiple Languages)36:187-192|1976|10.1111/j.1399-3054.1976.tb03933.x
43601|T||Raju,M.V.S., and R. Grover|Effect of Picloram on Organogenesis in Detached Leaves of Echeveria Elegans Bgr|Weed Sci.24:175-182|1976|10.1017/S004317450006570X
43602|T||Weston,G.D.|Effect of Abscisic Acid on Root and Shoot Growth of Tomato|Hortscience11:22-23|1976|10.21273/HORTSCI.11.1.22
43603|T||Hammett,L.K.|Ethephon Influence on Storage Quality of 'Starkrimson Delicious' and 'Golden Delicious' Apples|Hortscience11:57-59|1976|10.21273/HORTSCI.11.1.57
43604|T||Wright,R.D.|6-Benzylaminopurine Promotes Axillary Shoots in Ilex crenata Thunb.|Hortscience11(1): 43-44|1976|10.21273/HORTSCI.11.1.43
43605|T||Oswald,A.K., and R.J. Haggar|The Effect of Asulam on Two Lolium Perenne Swards Containing Rumex obtusifolius|Weed Res. (Multiple Languages)16:7-10|1976|10.1111/j.1365-3180.1976.tb00369.x
43606|T||Hardcastle,W.S.|Chemical Control of Wild Allium Species|Agron. J.68:144-145|1976|10.2134/agronj1976.00021962006800010041x
43607|T||Durley,R.C., J.D. Bewley, I.D. Railton, and R.P. Pharis|Effects of Light, Abscisic Acid and 6N-Benzyladenine on the Metabolism of (3H) Gibberellin A4 in Seeds and Seedlings of Lettuce, Cv. Grand Rapids|Plant Physiol.57:699-703|1976|10.1104/pp.57.5.699
43608|T||De Hertogh,A.A., N. Blakely, and W. Szlachetka|The Influence of Ancymidol, Chlormequat and Daminozide on the Growth and Development of Forced Dahlia variabilis Willd.|Sci. Hortic.4:123-130|1976|10.1016/S0304-4238(76)80003-9
43609|T||Shukla,A.C., and P. Shukla|Effect of IAA and NAA on the Behaviour of Catalase and Pyruvic Acid in Triticum vulgare Seedlings|Acta Bot. Indica3:160-161|1975|
43610|T||Hogue,E.J., and G.F. Warren|Selectivity of Linuron on Tomato and Parsnip|Weed Sci.16:51-54|1968|10.1017/S0043174500030514
43611|T||Hofstra,G., and C.M. Switzer|The Phytotoxicity of Propanil|Weed Sci.16:23-28|1968|10.1017/S0043174500030447
43612|T||Trewavas,A.J.|Effect of IAA on RNA and Protein Synthesis:  Effects of 3-Indolylacetic Acid on the Metabolism of Ribonucleic Acid and Protein in Etiolated Subapical Sections of Pisum sativum|Arch. Biochem. Biophys.123:324-335|1968|10.1016/0003-9861(68)90142-2
43613|T||Sciuchetti,L.A., and G.G. Hutchison|The Influence of Gibberellic Acid and DMSO on the Growth and Metabolic Products of Datura tatula|Lloydia29:368-375|1966|
43614|T||Osipova,O.P., M.K. Nikolaeva, and K.H.Y.A. Khein|Effect of Chloramphenicol on the Photosynthetic Apparatus of Plants|Fiziol. Rast. (Mosc.) (Non-English)14:210-218|1967|
43615|T||Negi,N.S., H.H.,Jr. Funderburk, D.P. Schultz, and D.E. Davis|Effect of Trifluralin and Nitralin on Mitochondrial Activities|Weed Sci.16:83-85|1968|10.1017/S0043174500030617
43617|T||Broughton,W.J.|Influence of Gibberellic Acid on Nucleic Acid Synthesis in Elongating Dwarf Pea Internodes|Biochim. Biophys. Acta155:308-310|1968|10.1016/0005-2787(68)90364-X
43618|T||Luckwill,L.C.|The Effect of Certain Growth Regulators on Growth and Apical Dominance of Young Apple Trees|J. Hortic. Sci.43:91-101|1968|10.1080/00221589.1968.11514235
43619|T||Halloin,J.M., G.A. De Zoeten, G. Gaard, and J.C. Walker|The Effects of Tentoxin on Chlorophyll Synthesis and Plastid Structure in Cucumber and Cabbage|Plant Physiol.45:310-314|1970|10.1104/pp.45.3.310
43620|T||Paton,D., and S. Zalik|Effect of Ioxynil on the Free Amino Acid and Protein Content of the Leaves of Tartary Buckwheat and Springwheat|Can. J. Bot.46:89-92|1968|10.1139/b68-017
43621|T||McCully,W.G., and W.J. Bowmer|Post-Surface Control of Bermudagrass on Highway Shoulder Pavements|Down Earth23:13-17|1967|
43622|T||Heyes,J.K., and D. Vaughan|Effects of 2-Thiouracil on Growth and Metabolism in the Root: I. Growth of Excised Root Tissue|Proc. R. Soc. Lond. Ser. B Biol. Sci.169:77-88|1967|
43623|T||Bailey,D.R.|Effect of Some Phenoxy Herbicides on Vigna Marina and Glycine Javanica|Qld. J. Agric. Anim. Sci.24:121-124|1967|
43624|T||Van Emden,H.F., and K.E. Cockshull|The Effects of Soil Applications of (2-Chloroethyl)-Trimethylammonium Chloride on Leaf Area and dry Matter Production by the Brussels Sprout Plant|J. Exp. Bot.18:707-715|1967|10.1093/jxb/18.4.707
43625|T||Vorob'Eva,P.P., and Z.I. Gutnikova|Effect of Gibberellin on the Growth and Development of Ginseng|Fiziol. Rast. (Mosc.) (Non-English)14:65-69|1967|
43626|T||Vaughan,D., and I.R. MacDonald|The Effect of Inhibitors on the Increase in Invertase Activity and RNA Content of Beet Disks During Ageing|J. Exp. Bot.18(57): 585-593|1967|
43627|T||Bradbeer,J.W., and N.J. Pinfield|Studies in Seed Dormancy: Iii. the Effects of Gibberellin on Dormant Seeds of Corylus Avellana l|New Phytol.66:515-523|1967|10.1111/j.1469-8137.1967.tb05423.x
43628|T||Way,D.W.|Carbaryl as a Fruit Thinning Agent. II. Concentration and Time of Application|J. Hortic. Sci.42:355-365|1967|10.1080/00221589.1967.11514220
43629|T||Poapst,P.A., and A.B. Durkee|Root-Differentiating Properties of Some Simple Aromatic Substances of the Apple and Pear Fruit|J. Hortic. Sci.42:429-438|1967|10.1080/00221589.1967.11514226
43630|T||Black,M., C. Bullock, E.N. Chantler, R.A. Clarke, A.D. Hanson, and G.M. Jolley|Effect of Inhibitors of Protein Synthesis on the Plastic Deformation and Growth of Plant Tissues|Nature215:1289-1290|1967|10.1038/2151289a0
43631|T||Bose,T.K., B.K. Kana, and T.P. Mukhopadhyay|Effects of Growth Regulators on Growth and Flowering in Hippeastrum hybridum Hort.|Sci. Hortic.12:195-200|1980|10.1016/0304-4238(80)90127-2
43632|T||Wall,R.E.|Timing of Fungicial Drench Treatments in Relation to Fungicide Injury to Conifer Seedlings|Phytoprotection (Multiple Languages)56(1): 46-53|1975|
43633|T||Brennan,J.R.|The Effects of Acenaphthene on Elongating Cells of the Root Apex|Phytomorphology23:255-260|1973|
43634|T||Alberte,R.S., and A.W. Naylor|The Role of Cytokinins in Chloroplast Lamellar Development|Plant Physiol.55:1079-1081|1975|10.1104/pp.55.6.1079
43635|T||Lin,W.C., H.F. Wilkins, and M. Angell|Exogenous Gibberellins and Abscisic Acid Effects on Growth and Development of Lilium Longiflorum|J. Am. Soc. Hortic. Sci.100:9-16|1975|10.21273/JASHS.100.1.9
43636|T||Wright,R.D., and L.M. Aung|Effects of Applied Gibberellins on the Growth of Japanese Holly|Hortscience10:181-182|1975|10.21273/HORTSCI.10.2.181
43638|T||Weaver,R.J.|Effect of Growth-Retardant Sprays on Fruitfulness and Cluster Development of 'Thompson Seedless' Grapes|Am. J. Enol. Vitic.26(1): 47-49|1975|10.5344/ajev.1975.26.1.47
43639|T||Martin,G.C., L.B. Fitch, G.S. Sibbett, G.L. Carnill, and D.E. Ramos|Thinning French Prune (Prunus domestica L.) with (2-Chloroethyl)Phosphonic Acid|J. Am. Soc. Hortic. Sci.100:90-93|1975|10.21273/JASHS.100.1.90
43640|T||Cantliffe,D.J., and P. Goodwin|Red Color Enhancement of Pepper Fruits by Multiple Applications of Ethephon|J. Am. Soc. Hortic. Sci.100:157-161|1975|10.21273/JASHS.100.2.157
43641|T||Srivastava,A.S., and S.K. De|A Note on the Effect of Ethylene Diamine Tetraacetic Acid and Ferrous Ammonium Sulphate on Yield of Allium Cepa|Syd Ann Myc26:133-135|1972|
43642|T||Russo,L.,Jr., R.H. Dougherty, M.C. Dostal, G.E. Wilcox, and P.E. Nelson|Quality of Processed Tomato Products for Ethephon-Ripened Fruit|Hortscience10:138-139|1975|10.21273/HORTSCI.10.2.138
43643|T||Webster,B.D., M.E. Craig, and C.L. Tucker|Effects of Ethephon on Abscission of Vegetative and Reproductive Structures of Phaseolus Vulgaris l|Hortscience10:154-156|1975|10.21273/HORTSCI.10.2.154
43644|T||Ayers,J.C.,Jr., and J.A. Barden|Net Photosynthesis and Dark Respiration of Apple Leaves as Affected by Pesticides|J. Am. Soc. Hortic. Sci.100(1): 24-28|1975|10.21273/JASHS.100.1.24
43645|T||Ferree,D.C., and F.R. Hall|Influence of Benomyl and Oil on Photosynthesis of Apple Leaves|Hortscience10:128-129|1975|10.21273/HORTSCI.10.2.128
43646|T||Tucker,D.P.H., and R.L. Phillips|2,4-D Injury to Citrus Rootstocks|Hortscience10(2): 153-154|1975|10.21273/HORTSCI.10.2.153
43647|T||Wilde,M.H., and L.J. Edgerton|Histology of Ethephon Injury on 'Montmorency' Cherry Branches|Hortscience10:79-81|1975|10.21273/HORTSCI.10.1.79
43648|T||Perfetti,P., and J.D. Caponetti|Effects of 2-Thiouracil and 5-Fluorouracil on the Morphology of Bunch Bean: I. Leaves|Bot. Gaz.135:353-360|1974|10.1086/336772
43649|T||Perfetti,P., and J.D. Caponetti|Effects of 2-Thiouracil and 5-Fluoracil on the Morphology of Bunch Bean: Ii. Stems and Roots|Bot. Gaz.135:360-368|1974|10.1086/336773
43650|T||Wergin,W.P., and J.R. Potter|The Effects of Fluometuron on the Ultrastructural Development, Chlorophyll Accumulation and Photosynthetic Competence in Developing Velvetleaf Seedlings|Pestic. Biochem. Physiol.5:265-279|1975|10.1016/0048-3575(75)90009-7
43652|T||Shaukat,S.S., K.G. Moore, and P.H. Lovell|Some Effects of Triazines on Growth, Photosynthesis and Translocation of Photosynthate in Pinus Species|Physiol. Plant. (Multiple Languages)33:295-299|1975|10.1111/j.1399-3054.1975.tb03172.x
43654|T||Jindal,K.K., A.S. Andersen, and S. Dalbro|Ethylene Evolution Stimulated by Succinic Acid-2,2-Dimethylhydrazide in Apple Shoots|Physiol. Plant. (Multiple Languages)34:26-29|1975|10.1111/j.1399-3054.1975.tb01850.x
43655|T||Sanderson,K.C., W.C.,Jr. Martin, K.A. Marcus, and W.E. Goslin|Effects of Plant Growth Regulators on Lilium Longiflorum Thunb. cv. Georgia|Hortscience10(6): 611-613|1975|10.21273/HORTSCI.10.6.611
43656|T||Corgan,J.N.|The Effect of Ethephon on Onion Seedstalk Height and Seed Production Characteristics|Hortscience10:620|1975|10.21273/HORTSCI.10.6.620a
43657|T||Baxter,L.W.,Jr., W. Witcher, and M.G. Owens|Benomyl Injury to Swedish Ivy (Plectranthus australis)|Plant Dis. Rep.59:868-|1975|
43658|T||Branca,C., V. Plazzi, M. Vitto, F. Bordi, D.S. Fracassini, and N. Bagni|Auxin-Like Activity of 1,2-Benzisothiazole Derivatives|Phytochemistry14:2545-2550|1975|10.1016/0031-9422(75)85221-6
43659|T||Vivekanandan,M., and A. Gnanam|Studies on the Mode of Action of Aminotriazole in the Induction of Chlorosis|Plant Physiol.55:526-531|1975|10.1104/pp.55.3.526
43660|T||Inamdar,J.A., and M. Gangadhara|Effect of Growth Regulators on Stomatal Structure and Development in the Cotyledons of Lageraria leucantha (Duch.) Rusby|Aust.J.Bot.23:13-25|1975|10.1071/BT9750013
43661|T||Larsen,F.E.|The Effect of Cycloheximide and a Tridecyl Alcohol Derivative on Leaf Abscission of Nursery Stock|Hortscience10:61-62|1975|10.21273/HORTSCI.10.1.61
43662|T||Galliani,S., S.P. Monselise, and R. Goren|Improving Fruit Size and Breaking Alternate Bearing in 'Wilking' Mandarins by Ethephon and Other Agents|Hortscience10:68-69|1975|10.21273/HORTSCI.10.1.68
43663|T||Goeschl,J.D., and S.J. Kays|Concentration Dependencies of Some Effects of Ethylene on Etiolated Pea, Peanut, Bean, and Cotton Seedlings|Plant Physiol.55:670-677|1975|10.1104/pp.55.4.670
43665|T||Carson,A.G., and J.D. Bandeen|Chemical Control of Canada Thistle|Weed Sci.23:116-118|1975|10.1017/S0043174500052632
43666|T||O'Sullivan,P.A., and G.N. Prendeville|Studies on the Rate of Root Growth of Intact Seedlings in a Herbicide Medium|Weed Res. (Multiple Languages)14(6): 345-348|1974|10.1111/j.1365-3180.1974.tb01073.x
43667|T||Forsyth,F.R., C.G. Embree, and A.D. Crowe|Effects of Ethephon and SADH on Color, Quality and Shelf-Life of Crimson Gravenstein Apples|Can. J. Plant Sci.55:107-112|1975|10.4141/cjps75-015
43668|T||Ivany,J.A.|Effects of Delayed Paraquat Application on Sebago Potato Yield|Can. J. Plant Sci.54:853-854|1974|10.4141/cjps74-151
43669|T||Duke,W.B., F.W. Slife, J.B. Manson, and H.S. Butler|An Investigation on the Mechanism of Action of Propachlor|Weed Sci.23:142-147|1975|10.1017/S0043174500052681
43670|T||Carlson,W.C., E.M. Lignowski, and M.J. Hopen|The Mode of Action of Pronamide|Weed Sci.23:155-161|1975|10.1017/S004317450005270X
43671|T||Hammerton,J.L.|Experiments with Cyperus rotundus L.:  I.  Growth and Development and Effects of 2,4-D and Paraquat|Weed Res. (Multiple Languages)14:365-369|1974|10.1111/j.1365-3180.1974.tb01076.x
43672|T||Fontes,M.R., and J.L. Ozbun|Effect of Growth Retardants on Growth and Flowering of Broccoli|Hortscience5:483-484|1970|10.21273/HORTSCI.5.6.483
43673|T||Dowler,C.C., and F.H. Tschirley|Evaluation of Herbicides Applied to Foliage of Four Tropical Woody Species|J. Agric. Univ. P. R.54:676-682|1970|10.46429/jaupr.v54i4.10935
43674|T||Halevy,A.H., R. Shilo, and S. Simchon|Effect of 2-Chloroethanephosphonic Acid (Ethrel) on Health, Dormancy, and Flower and Corm Yield of Gladioli|J. Hortic. Sci.45:427-434|1970|10.1080/00221589.1970.11514371
43675|T||Junttilla,O.V.|Effects of Gibberellic Acid and Temperature on the Growth of Young Seedlings of Syringa Vulgaris l|J. Hortic. Sci.45:315-324|1970|10.1080/00221589.1970.11514361
43676|T||Love,J.W., R.A. Larson, and B.G. Hilliard|The Effects of Growth Retardants and Temperature on the Growth and Flowering of Poinsetta cvs 'Annette Hegg' and 'Eckespoint C-1'|Hortscience5:482-483|1970|10.21273/HORTSCI.5.6.482
43677|T||Nagl,W.|On the Mercaptoethanol-Induced Polyploidization in Allium cepa|Protoplasma (Multiple Languages)70:349-359|1970|10.1007/BF01275762
43678|T||Majernik,O.|Responses of Stomata of Barley and Maize to Phenylmercuric Acetate|Biol. Plant. (Praha)12(6): 419-423|1970|10.1007/BF02922306
43679|T||Bhan,V.M., E.W. Stoller, and F.W. Slife|Toxicity, Absorption, Translocation, and Metabolism of 2,4-D in Yellow Nutsedge|Weed Sci.18(6): 733-737|1970|10.1017/S0043174500034664
43680|T||Washington,W.J., and E.R. Sears|Ethyl Methanesulfonate-Induced Chlorophyll Mutations in Triticum aestivum|Can. J. Genet. Cytol.12:851-859|1970|10.1139/g70-109
43681|T||Malhorta,S.S., and J.R. Hanson|Picloram Sensitivity and Nucleic Acids in Plants|Weed Sci.18:1-4|1970|10.1017/S0043174500077201
43682|T||Banting,J.D.|Effect of Diallate and Triallate on Wild Oat and Wheat Cells|Weed Sci.18:80-84|1970|10.1017/S0043174500077390
43683|T||Naqvi,S.M., R. Ansari, and A.Q. Ansari|Effect of (2-Chloroethyl)-Trimethylammonium Chloride (CCC) on Increasing Salt Tolerance in Wheat|J. Exp. Bot.21(68): 712-713|1970|10.1093/jxb/21.3.712
43684|T||Rasson,F.L., O.J. Attoe, and J.R. Boyle|Effect of Gibberellic Acid in Fertilizer Packets on Growth of Cottonwood and Silver Maple|Soil Sci. Soc. Am. J.34:826-828|1970|10.2136/sssaj1970.03615995003400050042x
43685|T||Splittstoesser,W.E.|Effects of 2-Chloroethylphosphonic Acid and Gibberellic Acid on Sex Expression and Growth of Pumpkins|Physiol. Plant. (Multiple Languages)23:762-768|1970|10.1111/j.1399-3054.1970.tb06471.x
43686|T||Karchi,Z.|Effects of 2-Chloroethanephosphonic Acid on Flower Types and Flowering Sequences in Musk Melon|J. Am. Soc. Hortic. Sci.95:515-518|1970|10.21273/JASHS.95.5.515
43687|T||Stino,K.R., A.T. Hegazy, and A.K. Gaafar|Studies on the Effect of Gibberellic Acid on Growth, Flowering and Chemical Composition of Sweet Potatoes|J. Bot. UAR12:123-137|1969|
43688|T||Browning,G., and M.G.R. Cannell|Use of 2-Chloroethane Phosphonic Acid to Promote the Abscission and Ripening of Fruit of Coffea Arabica l|J. Hortic. Sci.45:223-232|1970|10.1080/00221589.1970.11514349
43689|T||Hartmann,H.T., A. Tombesi, and J. Whisler|Promotion of Ethylene Evolution and Fruit Abscission in the Olive by 2-Chloro-Ethanephosphonic Acid Cycloheximide|J. Am. Soc. Hortic. Sci.95:635-640|1970|10.21273/JASHS.95.5.635
43690|T||Miller,S.R.|Effect of Alar on Dry Weight of Various Tissues of Greenhouse Grown Apple Trees|Can. J. Plant Sci.50:481-484|1970|10.4141/cjps70-087
43691|T||Chaplin,M.H., and A.L. Kenworthy|The Influence of Succinamic Acid 2,2-Dimethyl Hydrazide on Fruit Ripening of the 'Windsor' Sweet Cherry|J. Am. Soc. Hortic. Sci.95(5): 532-536|1970|10.21273/JASHS.95.5.532
43692|T||Ketchie,D.O., and M.W. Williams|Effects of Fall Application of 2-Chloro-Ethylphosphonic Acid on Apple Trees|Hortscience5:167-168|1970|10.21273/HORTSCI.5.3.167
43693|T||Dennis,F.G.,Jr., L.J. Edgerton, and K.G. Parker|Effects of Gibberellin and Alar Sprays upon Fruit Set, Seed Development, and Flowering of 'Bartlett' Pear|Hortscience5(3): 158-160|1970|10.21273/HORTSCI.5.3.158
43694|T||Stembridge,G.E., and C.E.,Jr. Gambrell|Comparative Effects of Gibberellin and Parthenocarpy on the Shape and Maturation of Peaches|Hortscience5:156-158|1970|10.21273/HORTSCI.5.3.156
43695|T||White,J.W.|Effects of Cycocel, Moisture Stress and Pinching on Growth and Flowering of F1 Hybrid Geraniums (Pelargonium x hortorum Bailey)|J. Am. Soc. Hortic. Sci.95(5): 546-550|1970|10.21273/JASHS.95.5.546
43696|T||Feng,K.A., and A.J. Linck|Effects of N-1-Naphthylphthalamic Acid on the Growth and Bud Formation of Tobacco Callus Growth in Vitro|Plant Cell Physiol.11:589-598|1970|
43697|T||Robinson,R.W., W. Whitaker, and G.W. Bohn|Promotion of Pistillate Flowering in Cucurbita by 2-Chloroethylphosphonic Acid|Euphytica 19:180-183|1970|10.1007/BF01902942
43698|T||Ames,I.H., and H.H. Smith|Effects of Mercaptoethanol on Tumor Induction in A Nicotiana Amphiploid|Can. J. Bot.47:921-924|1969|10.1139/b69-132
43699|T||Halfacre,R.G., and J.A. Barden|Anatomical Responses of Apple Leaf and Stem Tissues to Succinic Acid 2,2-Dimethylhydrazide|Proc. Am. Soc. Hortic. Sci.93:25-32|1969|
43702|T||Katsumi,M.|Effect of Gibberellin A3 on the Elongation, Alpha-Amylase Activity, Reducing Sugar Content and Oxygen-Uptake of the Leaf Sheath of Dwarf Maize Seedlings|Physiol. Plant. (Multiple Languages)23:1077-1084|1970|10.1111/j.1399-3054.1970.tb08883.x
43703|T||Rose,R.J., J. Gregory, and F.V. Mercer|The Effect of 5-Fluorouracil on the Growth and Nucleolus of Wheat Coleoptiles|Aust. J. Biol. Sci.23:561-571|1970|10.1071/BI9700561
43704|T||Kaufman,P.B., L.B. Petering, and P.A. Adams|Regulation of Growth and Celluar Differentiation in Developing Avena Internodes by Gibberellic Acid and Indole-3-Acetic Acid|Am. J. Bot.56(8): 918-927|1969|10.1002/j.1537-2197.1969.tb09742.x
43705|T||Heinz,D.J., and G.W.P. Mee|Colchine-Induced Polyploids from Cell Suspension Cultures of Sugarcane|Crop Sci.10:696-699|1970|10.2135/cropsci1970.0011183X001000060030x
43706|T||Iwahori,S., J.M. Lyons, and O.W. Smith|Sex Expression in Cucumber Plants As Affected by 2-Chloroethyl Phosphonic Acid, Ethylene and Growth Regulators|Plant Physiol.46:412-415|1970|10.1104/pp.46.3.412
43707|T||Lower,R.L., C.H. Miller, F.H. Baker, and C.L. McCombs|Effects of 2-Chloroethylphosphonic Acid Treatment at Various Stages of Cucumber Development|Hortscience5:433-434|1970|10.21273/HORTSCI.5.5.433
43708|T||Semenivk,P., and R. Taylor|Effects of Growth Retardants on Growth of Geranium Seedlings and Flowering|Hortscience5:393-394|1970|10.21273/HORTSCI.5.5.393
43709|T||Oakes,A.J.|Herbicidal Control of Acacia|Turrialba20(2): 213-216|1970|
43710|T||Sneva,F.A.|Paraquat: Effects of Growing Season Applications|J. Range Manag.23:451-452|1970|10.2307/3896320
43711|T||Gupta,A.K., and N.S. Grover|Hydrazine Induced Breaks in Chromosomes of Vicia Faba|Mutat. Res.10:514-520|1970|10.1016/0027-5107(70)90014-X
43712|T||Cruz,C., H.T. Streu, and R.D. Snee|Growth Response of Greenhouse Chrysanthemum, Chrysanthemum morifolium, to Root Drenches of Diazinon and Demeton|J. Econ. Entomol.63:1446-1451|1970|10.1093/jee/63.5.1446
43713|T||John,W.W., and R.W. Curtis|Stimulation and Inhibition of Respiration by Malformin: Relationship to Enhanced Ethane Production|Plant Cell Physiol.21:1-8|1980|
43714|T||Ogawa,M., and H. Kitamura|Promotion of Mesocotyl Growth in Etiolated Rice Seedlings by 4-Ethoxy-1-(P-Tolyl)-S-Triazine-2,6 (1H,3H)-Dione|Planta (Multiple Languages)147:495-499|1980|10.1007/BF00380193
43715|T||Rees,T., and J.A. Bryant|Effects of Cycloheximide on Protein Synthesis and Respiration in Disks of Carrot Storage Tissue|Phytochemistry10:1183-1190|1971|10.1016/S0031-9422(00)84316-2
43716|T||Kirby,E.J.M.|Abnormalities Induced in Barley Ears by Gibberellic Acid|J. Exp. Bot.22:411-419|1971|10.1093/jxb/22.2.411
43717|T||Sawhney,S., K.L. Toky, and K.K. Nanda|Effect of Gibberellic Acid, 2,3,5-Triiodobenzoic Acid and Indole Acetic Acid on Growth and Development of Impatiens Balsamina During Different Photoperiods|Physiol. Plant. (Multiple Languages)24:522-527|1971|10.1111/j.1399-3054.1971.tb03529.x
43719|T||Wurzburger,J., and Y. Leshem|Ribonucleic Acid As An Inducer of Germination Inhibition in Aegilops Kotschyi|Plant Cell Physiol.12:211-215|1971|
43720|T||Rao,P.G., and I.M. Rao|Metabolic Response of Groundnut (Arachis hypogaea L.) to Respiratory Inhibitor (MH) and Growth Inhibitor (NAA) in Dark|J. Indian Bot. Soc.49:174-182|1970|
43721|T||Roberts,D.W.A.|The Effect of Ccc and Gibberellins A3 and A7 on the Cold Hardiness of Kharkov 22 Mc Winter Wheat|Can. J. Bot.49:705-711|1971|10.1139/b71-109
43722|T||Rao,P.G.|Effect of IAA, NAA and GA3 on Growth, Respiration and Riboflavin Content of Green Gram (Phaseolus mungo L.)|Indian J. Plant Physiol.11:196-200|1968|
43723|T||Mostafa,I.Y., and S.C. Fang|Effects on 2,4-D on Metabolism of 14C-Glucose in Plant Tissues|Weed Sci.19:248-253|1971|10.1017/S0043174500048815
43724|T||Hassawy,G.S., and K.C. Hamilton|Effects of IAA, Kinetin, and Trifluralin on Cotton Seedlings|Weed Sci.19(3): 265-268|1971|10.1017/S0043174500048852
43725|T||Arnold,W.E., and J. Nalewaja|Effect of Dicamba on RNA and Protein|Weed Sci.19(3): 301-305|1971|10.1017/S0043174500048955
43726|T||Piattelli,M., M. Giudici de Nicola, and V. Castrogiovanni|The Effect of Kinetin on Amaranthin Synthesis in Amaranthus Tricolor in Darkness|Phytochemistry10:289-293|1971|10.1016/S0031-9422(00)94042-1
43727|T||Majumdar,S.K., and D.J. Lane|Effects of Sodium Cyclamate on Haworthia Callus Cultured In Vitro: Development, Differentiation, and the Chromosomes|J. Hered.61:193-195|1970|10.1093/oxfordjournals.jhered.a108082
43728|T||Masuda,M., and T. Asahira|Effect of Ethylene on Breaking Dormancy of Freesia Corms|Sci. Hortic.13:85-92|1980|10.1016/0304-4238(80)90026-6
43729|T||Dreher,T.W., M.F. Ngian, and G.M. Halloran|Mitotic Aberrations and Leaf Spot Induction in Soybean (Glycine max) Using Ethyl Methanesulfonate|Mutat. Res.71:201-206|1980|10.1016/0027-5107(80)90071-8
43730|T||Bewley,J.D., and A. Oaks|Cis-4-Cyclohexene-1,2-Dicarboximide: Inhibitor of Phytochrome-Promoted Seed Germination|Proc. Northeast. Weed Control Conf.77:3408-3411|1980|
43731|T||Kahlon,P.S.|Seedling Injury and Chromosome Aberrations Induced by Bladex, Dowpon, Princep and Tenoran|J. Tenn. Acad. Sci.55:17-19|1980|
43732|T||Amer,S.M., and O.R. Farah|Cytological Effects of Pesticides. IX Effects of the Phosphonothioate Insecticide Leptophos on Vicia Faba|Cytologia44:907-913|1979|10.1508/cytologia.44.907
43733|T||Glasgow,J.L., and J.W. Dicks|The Basis of Field Tolerance of Field Bean and Pea to Dimefuron|Weed Res. (Multiple Languages)20:17-24|1980|10.1111/j.1365-3180.1980.tb00036.x
43734|T||Marriage,P.B., and S.I. Warwick|Differential Growth and Response to Atrazine Between and Within Susceptible and Resistant Biotypes of Chenopodium album L.|Weed Res. (Multiple Languages)20:9-15|1980|10.1111/j.1365-3180.1980.tb00035.x
43735|T||Diaz,M.A., A. Chueca, and J.L. Gorge|Effects of Some Heterocyclic Herbicides on CO2 Assimilation by Spinach Chloroplasts|Physiol. Plant. (Multiple Languages)49:188-192|1980|10.1111/j.1399-3054.1980.tb02650.x
43736|T||Weis,G.G., J.A. Schoenemann, and M.D. Groskopp|Influence of Time of Application of Maleic Hydrazide on the Yield and Quality of Russet Burbank Potatoes|Am. Potato J.57:197-204|1980|10.1007/BF02854231
43737|T||Arnold,C.E., and J.H. Aldrich|Herbicidal Effects on Peach Seedling Growth and Weed Control|Hortscience15:293-294|1980|10.21273/HORTSCI.15.3.293
43738|T||Phatak,S.C., M.E. Austin, and J.S. Mason|Ethephon as Harvest-Aid for Muscadine Grapes|Hortscience15:267-268|1980|10.21273/HORTSCI.15.3.267
43739|T||Lewis,A.J.|Chemical Pinching of Poinsettia with Undecanol|Hortscience15:310-311|1980|10.21273/HORTSCI.15.3.310
43740|T||Wort,D.J.|The Response of Buckwheat to Treatment with 2,4-Dichlorophenoxyacetic Acid|Am. J. Bot.36:673-676|1949|
43741|T||Ellis,N.K.|The Effect on the Yield of Potatoes of Incorporating 2,4-D in the Regular Spray|Am. Potato J.59:208-213|1949|10.1007/BF02881305
43742|T||Wittwer,S.H., R.C. Sharma, L.E. Weller, and H.M. Sell|The Effect of Preharvest Foliage Sprays of Certain Growth Regulators on Sprout Inhibition and Storage Quality of Carrots and Onions|Plant Physiol.25(4): 539-549|1950|10.1104/pp.25.4.539
43743|T||Player,M.A.|Effects of Some Growth Regulating Substances on the Transpiration of Zea mays L. and Ricinus communis L.|Plant Physiol.25:469-477|1950|10.1104/pp.25.3.469
43744|T||Hansen,J.R., and K.P. Buchholtz|Germination and Seedling Responses of Inbred Lines of Corn to 2,4-Dichlorophenoxyacetic Acid|Agron. J.42:452-455|1950|10.2134/agronj1950.00021962004200090008x
43745|T||Hruschka,H.W., and J. Kaufman|Storage Tests with Long Island Cauliflower to Inhibit Leaf Abscission by Using Plant Growth Regulators|Proc. Am. Soc. Hortic. Sci.54:438-446|1949|
43746|T||Ellison,J.H., and O. Smith|Retarding Sprout Growth of Potato Tubers by Spraying the Foliage with 2,4,5-Trichlorophenoxyacetic Acid|Proc. Am. Soc. Hortic. Sci.54:447-451|1949|
43747|T||Crane,J.C., and R. Blondeau|Controlled Growth of Fig Fruits by Synthetic Hormone Application|Proc. Am. Soc. Hortic. Sci.54:102-108|1949|
43749|T||Whittenberger,R.T., and G.C. Nutting|Effect of Phytohormones on Potato Growth and the Size of the Starch Granules|Plant Physiol.24:278-285|1949|10.1104/pp.24.2.278
43750|T||Stewart,W.S., and I.J. Condit|The Effect of 2,4-Dichlorphenoxyacitic Acid and Other Plant Growth Regulators on the Calimyrna Fig|Am. J. Bot.36:332-335|1949|
43751|T||Snyder,W.E.|Some Responses of Plants to 2,3,5-Triiodobenzoic Acid|Plant Physiol.24:195-207|1949|10.1104/pp.24.2.195
43752|T||Luecke,R.W., C.L. Hamner, and H.M. Sell|Effect of 2,4-Dichlorophenoxyacetic Acid on the Content of Thiamine, Riboflavin, Nicotinic Acid, Pantothenic Acid and Carotene in Stems and Leaves of Red Kidney Bean Plants|Plant Physiol.24:546-548|1949|10.1104/pp.24.3.546
43753|T||Kelly,S., and G.S.,Jr. Avery|The Effect of 2,4-Dichlorophenoxyacetic Acid and Other Physiologically Active Substances on Respiration|Am. J. Bot.36:421-426|1949|
43754|T||Muir,R.M., C.H. Hansch, and A.H. Gallup|Growth Regulation by Organic Compounds|Plant Physiol.24:359-366|1949|10.1104/pp.24.3.359
43755|T||Stromme,E.R., and C.L. Hamner|Delayed Maturity of Bean Plants Sprayed with Solutions of 2,4-Dichlorophenoxyacetic Acid of Nonherbicidal Concentrations|Science107:170-171|1948|10.1126/science.107.2772.170
43756|T||Edgerton,L.J.|A Method for Evaluating the Effectiveness of Growth Substances in Delaying Apple Abscission|Proc. Am. Soc. Hortic. Sci.49:42-44|1947|
43757|T||Brain,E.D.|Growth Inhibition in Pea Seedlings|Nature156:397-|1945|10.1038/156397a0
43758|T||Brown,R., and M. Edwards|Effects of Thiourea and Allythiourea on the Germination of the Seed of Striga Lutea|Nature155:455-456|1945|10.1038/155455a0
43759|T||Nutman,P.S., H.G. Thornton, and J.H. Quastel|Inhibition of Plant Growth by 2:4-Dichlorophenoxyacetic Acid and Other Plant-Growth Substances|Nature155(3939): 498-500|1945|10.1038/155498a0
43761|T||Moon,H.H., L.O. Regeimbal, and C.P. Harley|Effectiveness of Different Concentrations of 2,4-D as a Preharvest Spray for Stayman Winesap Apples|Proc. Am. Soc. Hortic. Sci.51:75-76|1948|
43762|T||Edgerton,L.J., and M.B. Hoffman|Tests with 2,4-Dichlorophenoxyacetic Acid for Delaying Fruit Drop of Mcintosh|Proc. Am. Soc. Hortic. Sci.51:67-70|1948|
43763|T||Bailey,J.S.|Controlling Quackgrass by Spraying with Ammate or Atlacide|Proc. Am. Soc. Hortic. Sci.51:563-564|1948|
43764|T||Green,M., and H.J. Fuller|Indole-3-Acetic Acid and Flowering|Science108:415-416|1948|10.1126/science.108.2807.415
43765|T||Yin,H.C., and C.H. Liu|Experiments on the Rooting of Tung Tree Cuttings|Am. J. Bot.35:540-542|1948|10.1002/j.1537-2197.1948.tb08118.x
43767|T||Harvey,B.M.R., F.Y. Chang, and R.A. Fletcher|Relationship Between S-Ethyl Dipropylthiocarbamate Injury and Peroxidase Activity in Corn Seedlings|Can. J. Bot.53:225-230|1975|10.1139/b75-027
43768|T||Weaver,R.J., C.P. Swanson, W.B.,Jr. Ennis, and F.T. Boyd|Effect of Plant Growth-Regulators in Relation to Stages of Development of Certain Dicotyledonous Plants|Bot. Gaz.107:563-568|1946|10.1086/335383
43769|T||Ennis,W.B.,Jr., C.P. Swanson, R.W. Allard, and F.T. Boyd|Effects of Certain Growth-Regulating Compounds on Irish Potatoes|Bot. Gaz.106:568-574|1946|10.1086/335384
43770|T||Allard,R.W., W.B.,Jr. Ennis, H.R. Derose, and R.J. Weaver|The Action of Isopropylphenylcarbamate upon Plants|Bot. Gaz.107:589-596|1946|10.1086/335387
43771|T||Allard,R.W., H.R. Derose, and C.P. Swanson|Some Effects of Plant Growth-Regulators on Seed Germination and Seedling Development|Bot. Gaz.107:575-583|1946|10.1086/335385
43772|T||Townsend,G.R.|The Ammonium Thiocynanate Treatment for Hastening the Sprouting of Dormant Bliss Triumph Potatoes|Proc. Annu. Meet. Fla. State Hortic. Soc.58:236-237|1945|
43773|T||Newton,W., and J.E. Bosher|Growth Stimulation in Iris Bulbs by Urea|Sci. Agric. (Piracicaba, Braz. )26:300-302|1946|
43774|T||Denny,F.E.|Further Tests of the Use of the Methylester of Alpha-Naphthalene Acetic Acid for Inhibiting the Sprouting of Potato Tubers|Contrib. Boyce Thompson Inst.14:15-20|1945|
43775|T||Denny,F.E.|Synergistic Effects of Three Chemicals in the Treatment of Dormant Potato Tubers to Hasten Germination|Contrib. Boyce Thompson Inst.14:1-14|1945|
43776|T||Nutile,G.E.|Inducing Dormancy in Lettuce Seed with Coumarin|Plant Physiol.20:433-442|1945|10.1104/pp.20.3.433
43777|T||Hamner,C.L., and H.B. Tukey|The Herbicidal Action of 2,4 Dichlorophenoxyacetic Acid and 2,4,5 Trichlorophenoxyacetic Acid on Bindweed|Science100:154-155|1944|10.1126/science.100.2590.154
43778|T||Loo,T.L., and T.C. Hwang|Growth Stimulation by Manganese Sulphate, Indole-3-Acetic Acid and Colchicine in Pollen Germination and Pollen Tube Growth|Am. J. Bot.31:356-367|1944|
43779|T||Beal,J.M.|Some Telemorphic Effects Induced in Sweet Pea by Application of 4-Chlorophenoxy-Acetic Acid|Bot. Gaz.105:471-474|1944|10.1086/335257
43780|T||Snapp,O.I., and F.P. Cullinan|The Effect on Peach Trees of Ethylene Dichloride Used for Control of the Peachtree Borer|J. Econ. Entomol.37:47-51|1944|10.1093/jee/37.1.47
43781|T||Carlton,W.M.|Histological and Cytological Responses of Roots to Growth-Regulating Substances|Bot. Gaz.105:268-281|1943|10.1086/335217
43782|T||Barlow,H.W.B.|Studies in Abscission. I. Factors Affecting the Inhibition of Abscission by Synthetic Growth-Substances|J. Exp. Bot.1(3): 264-281|1950|10.1093/jxb/1.3.264
43783|T||Bartholomew,E.T., W.S. Stewart, and G.E. Carman|Some Physiological Effects of Insecticides on Citrus Fruits and Leaves|Bot. Gaz.112:501-510|1951|10.1086/335682
43784|T||Weinberger,J.H.|Effect of 2,4,5-Trichloro-Phenoxyacetic Acid on Ripening of Peaches in Georgia|Proc. Am. Soc. Hortic. Sci.57:115-119|1951|
43785|T||Osborne,D.J., and R.L. Wain|Studies on Plant Growth-Regulating Substances. III. The Production of Parthenocarpic Pomaceous Fruits by Chemical Treatment|J. Hortic. Sci.26:317-327|1951|10.1080/00221589.1951.11513744
43786|T||Edgerton,L.J., and M.B. Hoffman|The Effectiveness of Several Growth Regulating Chemicals in Delaying the Harvest Drop of the McIntosh Apple|Proc. Am. Soc. Hortic. Sci.57:121-124|1951|
43787|T||Smith,H.H., and A.M. Srb|Induction of Mutations with B-Propiolactone|Science114:490-492|1951|10.1126/science.114.2967.490
43788|T||Blair,B.O.|Mesquite Seed and Seedling Response to 2,4-D and 2,4,5-T|Bot. Gaz.112:518-521|1951|10.1086/335684
43789|T||Overland,A., and L.W. Rasmussen|Some Effects of 2,4-D Formulations in Herbicidal Concentrations on Wheat and Barley|Agron. J.43:321-324|1951|10.2134/agronj1951.00021962004300070006x
43790|T||Osborne,D.J., and R.L. Wain|Studies on Plant Growth-Regulating Substances. II. Synthetic Compounds Inducing Morphogenic Responses in the Tomato Plant|J. Hortic. Sci.26:60-74|1950|10.1080/00221589.1951.11513726
43791|T||Ondrej,M., and K. Schwammeinhoferova|Autoradiographic Study of the Effect of 5-Amino-Uracil on the S Phase and Mitosis of Barley Root Meristems|Biol. Plant. (Praha)21:187-192|1979|10.1007/BF02884566
43792|T||Arntzen,C.J., C.L. Ditto, and P.E. Brewer|Chloroplast Membrane Alterations in Triazine-Resistant Amaranthus retroflexus Biotypes|Proc. Natl. Acad. Sci. U.S.A.76(1): 278-282|1979|10.1073/pnas.76.1.278
43793|T||Duke,S.O., R.E. Hoagland, and C.D. Elmore|Effects of Glyphosate on Metabolism of Phenolic Compounds:  IV.  Phenylalanine Ammonia-Lyase Activity, Free Amino Acids, and Soluble Hydroxyphenolic Compounds in Axes of Light-Grown Soybeans|Physiol. Plant. (Multiple Languages)46:306-317|1979|10.1111/j.1399-3054.1979.tb02626.x
43794|T||Sanchez de Jimenez,E., and E. Murillo|Mecoprop as a Growth Factor in Wheat and Rye Tissue Cultures|Can. J. Bot.57(14): 1479-1483|1979|10.1139/b79-183
43795|T||Rychter,A., H.W. Janes, C.K. Chin, and C. Frenkel|Effect of Ethanol, Acetaldehyde, Acetic Acid and Ethylene on Changes in Respiration and Respiratory Metabolites in Potato (Solanum tuberosum) Tubers|Plant Physiol.64:108-111|1979|10.1104/pp.64.1.108
43796|T||Thurston,K.C., S.J. Spencer, and J. Arditti|Phytotoxicity of Fungicides and Bactericides in Orchid Culture Media|Am. J. Bot.66(7): 825-835|1979|10.1002/j.1537-2197.1979.tb06289.x
43797|T||Hamilton,K.C., and H.F. Arle|Directed Applications of Herbicides in Irrigated Cotton|Weed Sci.17:85-88|1969|10.1017/S004317450003143X
43798|T||Radley,M.|The Role of Gibberellin, Abscisic Acid, and Auxin in the Regulation of Developing Wheat Grains|J. Exp. Bot.30:381-390|1979|10.1093/jxb/30.3.381
43799|T||Philipson,J.J., and M.P. Coutts|The Induction of Root Dormancy in Picea Sitchensis by Absciscic Acid|J. Exp. Bot.30:371-380|1979|10.1093/jxb/30.3.371
43800|T||Hoagland,R.E., S.O. Duke, and C.D. Elmore|Effects of Glyphosate on Metabolism of Phenolic Compounds: III. Phenylalanine Ammonia-Lyase Activity, Free Amino Acids, Soluble Protein and Hydroxyphenolic Compounds in Axes of Dark-Grown Soybeans|Physiol. Plant. (Multiple Languages)46:357-366|1979|10.1111/j.1399-3054.1979.tb02633.x
43801|T||Kihlman,B.A.|The Production of Chromatid Abberations by 5-Flurodeoxyuridine Alone and in Combination with X-Rays and 8-Ethoxycaffeine|Caryologia (Multiple Languages)15(2): 261-277|1962|10.1080/00087114.1962.10796059
43802|T||Dostal,R.|Use of 2,3,5-Triioobenzoic Acid in Studies on the Growth Correlation Differences Between Epigeous and Hypogeous Seedlings (Linum and Pisum)|Biol. Plant. (Praha)5:68-76|1963|10.1007/BF02933668
43803|T||Gaskins,M.H., and H.F. Winters|Herbicide Trials with Young Tropical and Subtropical Fruit and Nut Trees|Proc. Annu. Meet. Fla. State Hortic. Soc.75:418-420|1962|
43804|T||Pryce,R.J.|Inhibition of Flowering by Hexahydrofluorene-9-Carboxylic Acids, Related to Allogibberic Acid|Phytochemistry13:2377-2382|1974|10.1016/S0031-9422(00)86910-1
43806|T||Paul,A.K., B.D. Gupta, T.S. Gupta, and S. Mukherji|Phsiological Effects of Colchicine on Growth and Metabolism of Mungbean (Phaseolus Aureus L) Seedlings and Alpha-Amylase Production in Rice (Oryza Sativa L.) en|Biochem. Physiol. Pflanzen (Multiple Languages)173:514-520|1978|10.1016/S0015-3796(17)30530-9
43807|T||Voelksch,B., and H. Augsten|Influence of Gibberellic Acid on the Phosphohydrolases of Embryos of Triticum Aestivum L. During Germination|Biochem. Physiol. Pflanzen (Multiple Languages)168:443-452|1975|10.1016/S0015-3796(17)30149-X
43808|T||Jordan,W.R., and F. Skoog|Effect of Cytokinins on Growth and Auxin in Coleoptiles of Derooted Avena Seedlings|Plant Physiol.48:97-99|1971|10.1104/pp.48.1.97
43809|T||El-Fouly,M.M., and Z. Moubarek|Chlormequat Chloride Effects on Seed Germination of Vicia faba at Different Temperatures|Biochem. Physiol. Pflanzen (Multiple Languages)162:318-326|1971|10.1016/S0015-3796(17)31148-4
43810|T||Lippincott,B.B., and J.A. Lippincott|Auxin-Induced Hyponasty of the Leaf Blade of Phaseolus Vulgaris|Am. J. Bot.58:817-826|1971|
43812|T||Chapman,J.M., and E.G. Jordan|Influence of Gibberellic Acid on Nucleolar Size Changes in Storage-Tissue Discs|J. Exp. Bot.22:620-626|1971|10.1093/jxb/22.3.620
43813|T||Risueno,M.C., J.L. Diez, G. Gimenez-Martin, and C. De la Torre|Ultrastractual Study of the Effect of Abscisic Acid on Cell Elongation in Plant Cells|Protoplasma (Multiple Languages)73:323-328|1972|10.1007/BF01273936
43814|T||Sawhney,R., and B.G. Cumming|Inhibition of Flower Development in Chenopodium Rubrum by A Photosynthetic Inhibitor|Can. J. Bot.49:2233-2237|1971|10.1139/b71-312
43815|T||Nozzolillo,C.|The Effect of Imbibition of Solutions of Aniline on Germination, Growth, and Red Pigmentation of Seedlings|Can. J. Bot.49:2113-2117|1971|10.1139/b71-298
43816|T||Glaze,N.C.|Evaluation of Several Herbicides in Direct-Seeded Tomatoes|Weed Res. (Multiple Languages)11:307-309|1971|10.1111/j.1365-3180.1971.tb01014.x
43817|T||Pool,R.M., R.J. Weaver, and W.M. Kliewer|The Effect of Growth Regulators on Change in Fruits of 'Thompson Seedless' Grapes During Cold Storage|J. Am. Soc. Hortic. Sci.97:67-70|1972|10.21273/JASHS.97.1.67
43818|T||Massey,L.M.,Jr., and B.R. Chase|The Effect of (2-Chloro-Ethyl) Phosphonic Acid on the Yield and Quality of Processing Tomatoes for Juice|Hortscience6:570-571|1971|10.21273/HORTSCI.6.6.570
43820|T||Suge,H.|Stimulation of Oat and Rice Mesocotyl Growth by Ethylene|Plant Cell Physiol.12:831-837|1971|10.1093/oxfordjournals.pcp.a074687
43821|T||Meredith,P., D.P. Loney, and J.D. Ferguson|Effects of Salicylates on Amylase Activities and Germination of the Wheat Grain|N. Z. J. Sci.14:480-484|1971|
43822|T||Thomas,M.A., and H.D. Hammond|"The Effect of Simazine, Kinetin, and Rhizobium phaseoli on Legume Nodulation and Morphogenesis in Phaseolus vulgaris L. cv. ""Red Kidney"""|Ohio J. Sci.71(1): 21-29|1971|
43823|T||Salomon,D., and J.P. Mascarenhas|The Effect of Cyclic 3',5'-Adenosine Monophosphate on Abscission of Coleus Petioles|Z. Pflanzenphysiol. (Multiple Languages)65:385-388|1971|
43824|T||Wade,N.L., and C.J. Brady|Effects of Kinetin on Respiration, Ethylene Production, and Ripening of Banana Fruit Slices|Aust. J. Biol. Sci.24:165-167|1971|10.1071/BI9710165
43825|T||Marei,N.|Growth and Respiratory Response of Fig (Ficus Carica L. Cv. Mission) Fruits to Ethylene|Plant Physiol.48:249-254|1971|10.1104/pp.48.3.249
43826|T||Splittstoesser,W.E., and J.S. Vandemark|Maturation, Fruit Size, and Yield of Tomatoes Treated Before Harvest with (2-Chloroethyl) Phosphonic Acid|J. Am. Soc. Hortic. Sci.96:564-567|1971|10.21273/JASHS.96.5.564
43827|T||Vyas,L.N., and S.K. Agarwal|Studies in the Seed Dormancy of Desert Plants. Ii. Effect of Thiourea and Ascorbic Acid on Germination of Verbena Bipinnatifida Nutt. Seeds|Phyton (Horn) (Multiple Languages)28:1-5|1971|
43828|T||Cannell,M.G.R.|Use of Gibberellic Acid to Change the Seasonal Fruiting Pattern of Arabica Coffee in Kinya|J. Hortic. Sci.46:289-298|1971|10.1080/00221589.1971.11514409
43829|T||Keii,H.L., and H.W. Fogle|1,1,5,5-Tetra-Methyl-3-Dimethylaminodithiobiuret, A Promising New Peach Thinner|Hortscience6:403-405|1971|10.21273/HORTSCI.6.4.403
43830|T||Bhattacharjee,S.K., K. Das Gupta, and T.K. Bose|B-Nine, an Effective Growth Retardant on Dahlia;  Ineffectiveness of CCC|Phyton (Horn) (Multiple Languages)28(1): 61-65|1971|
43831|T||Read,P.E., and V. Hoysler|Improving Rooting of Carnation and Poinsettia Cuttings with Succinic Acid-2,2-Dimethylhydrazide|Hortscience6(4): 350-351|1971|10.21273/HORTSCI.6.4.350
43832|T||Toky,K.L., and K.K. Nanda|Effect of Morphactin, Gibberellic Acid, Kinetin and Indole-3-Acetic Acid on the Elongation of Hypocotyl and Root of Impatiens Balsamina|Indian J. Plant Physiol.13:49-56|1970|
43833|T||Van Bragt,J., and F.A. Zijlstra|Effects of Gibberellins on Flowering of Tulip cv. 'Apeldoorn'|Z. Pflanzenphysiol. (Multiple Languages)64:139-144|1971|
43834|T||Krekule,J.|Actinomycin D Effect on Flowering in Chenopodium rubrum L.|Z. Pflanzenphysiol. (Multiple Languages)64:65-68|1971|
43835|T||Blair,A.M.|The Control of Agropyron repens (L) Beauv. in the Stubble Using Glyphosate|Weed Res. (Multiple Languages)15:83-88|1975|10.1111/j.1365-3180.1975.tb01103.x
43836|T||Lavee,S., and A. Haskal|Studies with Ethephon for Facilitating Olive Harvest|Sci. Hortic.3(2): 163-172|1975|10.1016/0304-4238(75)90023-0
43837|T||Eshel,Y., M. Kovacs, and B. Rubin|Differential Tolerance of Peas to Prometryne and Terbutryn|Pestic. Biochem. Physiol.5:295-302|1975|10.1016/0048-3575(75)90011-5
43838|T||Malek,T., and D.A. Baker|Effect of Fusicoccin on Proton Co-Transport of Sugars in the Phloem Loading of Ricinus communis l|Plant Sci.11:233-240|1978|
43839|T||Weinberger,P., L. Pomber, and R. Prasad|The Responses of White Spruce and Yellow Birch to Some Selected Organophosphorus Insecticides and the Adjuvants Atlox and Arotex|J. Exp. Bot.29(109): 479-487|1978|10.1093/jxb/29.2.479
43840|T||Basler,E., D.S. Murray, and P.W. Santelmann|Translocation of Dipropetryn and Prometryn in Seedlings and Excised Leaves of Oats (Avena sativa) and Corn (Zea mays)|Weed Sci.26:358-361|1978|10.1017/S0043174500050104
43841|T||Carlson,W.H., S. Schnabel, J. Schnabel, and C. Turner|Concentration and Application Time of Ancymidol of Growth Retardation of Kalanchoe Blossfeldiana Poellniz. Cv. Mace|Hortscience12:568-|1977|10.21273/HORTSCI.12.6.568
43843|T||Bittenbender,H.C., D.R. Dilley, V. Wert, and S.K. Ries|Environmental Parameters Affecting Dark Response of Rice Seedlings (Oryza Sativa L.) to Triacotanol|Plant Physiol.61:851-854|1978|10.1104/pp.61.5.851
43844|T||Mumford,P.M.|Effect of Procaine on Lettuce Seed Germination|Ann. Bot.42:491-492|1978|10.1093/oxfordjournals.aob.a085487
43845|T||Zsoldos,F., and E. Haunold|Potassium Influx and Efflux of 2,4-D-and MCPA-Treated Rice Plants|Plant Soil49:219-228|1978|10.1007/BF02149732
43846|T||Ogg,A.G.,Jr.|Herbicides and Activated Carbon for Weed Control in Direct-Seeded Asparagus|Weed Sci.26:284-286|1978|10.1017/S0043174500049912
43847|T||Cohen,M.A.|Influence of Dikegulac-Sodium, Off-Shoot-O and Manual Pinching on Rhododendrons|Sci. Hortic.8:163-167|1978|10.1016/0304-4238(78)90021-3
43848|T||Kihlman,B.A., and S. Sturelid|Effects of Caffeine on the Frequencies of Chromosomal Aberrations and Sister Chromatid Exchanges Induced by Chemical Mutagens in Root Tips of Vicia Faba|Hereditas88:35-42|1978|10.1111/j.1601-5223.1978.tb01599.x
43849|T||Rani,U., and F.A.K. Sakri|Effect of Subtoxic Applications of Atrazine and Simazine on the Nitrogenous Components of the Developing Kernels of Two Wheat Varieties|Indian J. Agric. Sci.48(3): 165-175|1978|
43852|T||Stewart,W.S., and C.L. Hamner|Treatment of Seeds with Synthetic Growth-Regulating Substances|Bot. Gaz.104:338-347|1942|10.1086/335138
43853|T||Palser,B.F.|Histological Responses of Vicia Faba to Indoleacetic Acid|Bot. Gaz.104:243-263|1942|10.1086/335129
43854|T||Eshel,Y.|Tolerance of Cotton to Diuron, Fluometron, Norea and Prometryne|Weed Sci.17:492-496|1969|10.1017/S0043174500054667
43855|T||Meyer,R.E., and R.W. Bovey|Hexazinone and Other Herbicides on Texas Woody Plants|Weed Sci.28(3): 358-362|1980|10.1017/S0043174500055454
43856|T||Singh,B., and D.J. Wort|Effects of Pyrocatechol on Some Metabolic Pocesses of Mature Sugar Beet (Beta Vulgaris) Plants|Physiol. Plant. (Multiple Languages)23:920-927|1970|10.1111/j.1399-3054.1970.tb06489.x
43857|T||Ali,A., and R.A. Fletcher|Hormonal Regulation of Apical Dominance in Soybeans|Can. J. Bot.48:1989-1994|1970|10.1139/b70-290
43858|T||Day,M.W.|Effect of 2,4,5-T Amine and 2,3,6-TBA Amine on Several Woody Plant Species|J. For.60:488-|1962|
43859|T||Lord,W.J., and D.G. White|The Induction of Parthenocarpy and an Attempt to Promote Apomixis in the Strawberry by Treatments with Growth Regulators|Proc. Am. Soc. Hortic. Sci.80:350-362|1962|
43860|T||Doughty,C.C.|The Effects of Certain Growth Regulators on the Fruiting of Cranberries, Vaccinium macrocarpon|Proc. Am. Soc. Hortic. Sci.80:340-349|1962|
43861|T||Margulies,M.M.|Effect of Chloramphenicol on Light Dependant Development of Seedlings of Phaseolus Vulgaris Var Black Valentine, with Particular Reference to Development of Pho|Plant Physiol.37:473-480|1962|10.1104/pp.37.4.473
43862|T||Scurfield,G.|Effects of Gibberellic Acid on Woody Perennials with Special Reference to Species of Eucalyptus|For. Sci.8:168-179|1962|
43863|T||Gowing,D.P., and A.H. Lange|Changing the Color of Flowers with Chloroalkylcarboxylic Acids|Proc. Am. Soc. Hortic. Sci.80:645-649|1962|
43865|T||Thompson,L.,Jr., and F.W. Slife|Foliar and Root Absorption of Atrazine Applied Postemergence to Giant Foxtail|Weed Sci.17:251-256|1969|10.1017/S0043174500031441
43866|T||Upchurch,R.P., J.A. Keaton, and H.D. Coble|Woody Plant Shoot Management and Response to Herbicidal Treatment|Weed Sci.17:175-180|1969|10.1017/S0043174500031258
43867|T||Iyer,J.G., G. Chesters, and S.A. Wilde|Deformation of Tree Planting Stock by Biocides and Corrective Amendments|Adv. Front. Plant Sci.23:183-191|1969|
43868|T||Danielson,L.L., and C. May|Effects of Several Herbicides on Yews and Japanese Maples|Weed Sci.17:142-144|1969|10.1017/S0043174500031180
43869|T||Nakamura,T., and N. Takahashi|The Role of Auxin in Growth of the Plumular Hook Section of Etiolated Pea Seedling|Plant Cell Physiol.9:681-688|1968|
43870|T||Nanda,K.K., A.N. Purohit, and K. Mehrotra|Effect of Suctose, Auxins and Gibberellic Acid on Rooting of Stem Segments of Populus Nigra Under Varying Light Condiions|Plant Cell Physiol.9:735-743|1968|
43872|T||Sasaki,S., and T.T. Kozlowski|Effects of Herbicides on Seed Germination and Early Seedling Development of Pinus resinosa|Bot. Gaz.129(3): 238-246|1968|10.1086/336441
43873|T||Hardcastle,W.S., and R.E. Wilkinson|Response of Purple and Yellow Nutsedge to Dichlobenil|Weed Sci.16:339-340|1968|10.1017/S0043174500047317
43874|T||Hadley,G., and G. Harvais|The Effect of Certain Growth Substances on Asymbiotic Germination and Development of Orchis purpurella|New Phytol.67:441-445|1968|10.1111/j.1469-8137.1968.tb06393.x
43875|T||Morey,P.R., and J. Cronshaw|Induction of Tension Wood by 2,4-Dinitrophenol and Auxins|Protoplasma (Multiple Languages)65:393-405|1968|10.1007/BF01666299
43877|T||Henry,E.W., and L.B. Richard|A Study of the Effects of Applied Ethephon on Enzyme Activity in Tobacco Apical Tissue Chloroplasts|Z. Pflanzenphysiol. (Multiple Languages)92:11-22|1979|10.1016/S0044-328X(79)80148-8
43878|T||Ogawa,Y., and R.W. King|Indirect Action of Benzyladenine and Other Chemicals on Flowering of Pharbitis nil Chois: Action by Interference with Assimilate Translocation from Induced Cotyledons|Plant Physiol.63:643-649|1979|10.1104/pp.63.4.643
43879|T||Mohan Ram,R., H.Y. Mehta, and U. Mehta|Effect of Gibberellic Acid on the Growth of Mainshoot and Auxiliary Branches in Calendula Officinalis|Proc. Indian Acad. Sci. Sect. B87:255-270|1978|10.1007/BF03048155
43880|T||Goh,C.J.|Hormonal Regulation of Flowering in a Sympodial Orchid Hybrid (Dendrobium Louisae)|New Phytol.82:35-380|1979|10.1111/j.1469-8137.1979.tb02663.x
43881|T||Peterson,J.R., and P.R. Hedberg|Some Factor Affecting the Response of Grapevines to Ethephon|Sci. Hortic.3:275-284|1975|10.1016/0304-4238(75)90011-4
43882|T||Davies,E., and G.A. Maclachlan|Effects of Indoleacetic Acid on Intracelluar Distribution of Beta-Glucanase Activities in the Pea Epicotyl|Arch. Biochem. Biophys.128:595-600|1968|10.1016/0003-9861(68)90068-4
43883|T||Sierra,J.N., and M.R. Vega|The Response of Rice and Barnyard Grass to 3,4-Dichloropropionanilide|Philipp. Agric.51:438-452|1967|
43884|T||Bartels,P.G., and T.E. Weier|The Effect of 3-Amino-1,2,4-Triazole on the Ultrastructure of Plastids of Triticum vulgare Seedlings|Am. J. Bot.56:1-7|1969|10.1002/j.1537-2197.1969.tb07498.x
43885|T||Penner,D., and F.M. Ashton|Influence of Dichlobenil, Endothall, and Bromoxynil on Kinin Control of Proteolytic Activety|Weed Sci.16:323-326|1968|10.1017/S0043174500047263
43886|T||Hill,E.R., E.C. Putala, and J. Vengris|Atrazine-Induced Ultrastructual Changes of Barnyardgrass Chloroplasts|Weed Sci.16:377-380|1968|10.1017/S0043174500047433
43887|T||Fuchs,Y., and M. Lieberman|Effects of Kinetin, IAA, and Gibberellin on Ethylene Production, and Their Interactions in Growth of Seedlings|Plant Physiol.43:2029-2036|1968|10.1104/pp.43.12.2029
43888|T||Taylor,M.C., and E.M. Burrows|Chemical Control of Fertile Spartina Townsendii (S.L.) on the Cheshire Shore of the Dee Estuary|Weed Res. (Multiple Languages)8:170-184|1968|10.1111/j.1365-3180.1968.tb01420.x
43889|T||Jacobsohn,R., and R.N. Andersen|Differential Response of Wild Oat Lines to Diallate, Triallate, and Barban|Weed Sci.16:491-494|1968|10.1017/S0043174500047846
43890|T||Hacskaylo,J., and V.A. Amato|Effect of Trifluralin on Roots of Corn and Cotton|Weed Sci.16:513-515|1968|10.1017/S0043174500047901
43892|T||Tung,H.F., and V. Raghavan|Effects of Growth Retardants on the Growth of Excised Roots of Dolichos lablab L. in Culture|Ann. Bot.32:509-519|1968|10.1093/oxfordjournals.aob.a084225
43893|T||Way,J.M.|The Effects of Sub-Lethal Doses of MCPA on the Morphology and Yield of Vegetable Crops. I. Lettuce|Weed Res. (Multiple Languages)2:233-246|1962|10.1111/j.1365-3180.1962.tb00207.x
43894|T||Asen,S., L.L. Jansen, and J.L. Hilton|Effects of 2,2-Dichloropropionic, Trichloro-Acetic, and 2,3-Dichloroisobutyric Acids on Synthesis of Anthocyanin in Flowers of Salvia Splendens Cultivar America|Nature198:185-186|1963|10.1038/198185b0
43895|T||Hield,H.Z., R.M. Burns, and C.W.,Jr. Coggins|Fruit-Thinning Effects of Naphthaleneacetic Acid on Wilking Mandarin|Proc. Am. Soc. Hortic. Sci.81:218-222|1962|
43896|T||Hagood,E.S.,Jr., J.L.,Jr. Williams, and T.T. Bauman|Influence of Herbicide Injury on the Yield Potential of Soybeans (Glycine max)|Weed Sci.28(1): 40-45|1980|10.1017/S0043174500027740
43897|T||Panda,B.B., and R. Sharma|Organophosphate Induced Chlorophyll Mutations in Hordeum vulgare|Theor. Appl. Genet.55:253-255|1979|10.1007/BF00265360
43898|T||Cocucci,S., and M. Cocucci|Effect of Aba, Ga3 and Fc on the Development of Potassium Uptake in Germinating Radish Seeds|Plant Sci. Lett.10:85-96|1977|10.1016/0304-4211(77)90053-0
43899|T||Fenton,R., W.J. Davies, and T.A. Mansfield|The Role of Farnesol As A Regulator of Stomatal Opening in Sorghum|J. Exp. Bot.28:1043-1053|1977|10.1093/jxb/28.4.1043
43900|T||Ogawa,M., T. Matsui, K. Oyamada, and J. Tobitsuka|Isourea and Triazinone Derivatives As Related to Their Ability to Stimulate Rice Seedling Growth|Plant Cell Physiol.18:841-848|1977|10.1093/oxfordjournals.pcp.a075435
43901|T||Zur,A., and R. Goren|Reducing Preharvest Drop of 'Temple' Orange Fruits by 2,4-D - Role of Cellulose in the Calyx Abscission Zone|Sci. Hortic.7:237-248|1977|10.1016/0304-4238(77)90020-6
43902|T||Maroti,M.|Growth Regulating Effect of Casein Hydrolysates and Riboflavin on Tobacco Callus Tissues|Acta Agron. Hung.25:467-472|1976|
43903|T||Johnston,G.F.S., and B. Jeffcoat|Effects of Some Growth Regulators on Tiller Bud Elongation in Cereals|New Phytol.79:239-246|1977|10.1111/j.1469-8137.1977.tb02201.x
43904|T||Rakitin,Y.V., and I.V. Khovanskaya|Growth-Inhibiting Action of Maleic Hydrazide, Abscissic Acid, and Para-coumaric Acid on Intact and Isolated Sprouts of Potato Tubers|Fiziol. Rast. (Mosc.) (Non-English)24:153-159|1977|
43905|T||Forsyth,F.R., D.L. Craig, and R. Stark|Ethephon As A Chemical Harvesting Aid for the Late Season high Bush Blueberry 'Coville'|Can. J. Plant Sci.57:1099-1102|1977|10.4141/cjps77-163
43906|T||Hoad,G.V.|Activity of Gibberellins A24 and A25 in Five Bio-Assay Systems|Planta (Multiple Languages)87:164-169|1976|10.1007/BF00386973
43908|T||Iversen,T., C. Baggerud, and K. Siegel|The Effect of Abscisic Acid (Aba) and 3,5-Diiodo-4-Hydroxybenzoic Acid (Dihb) on Elongation and Geotropic Development of Lettuce and Cress Roots|Z. Pflanzenphysiol. (Multiple Languages)84:339-348|1977|10.1016/S0044-328X(77)80147-5
43909|T||Ghosh,S., and D.R. Shivanna|Effect of Toluidine Blue on Pollen Germination and Pollen Tube Growth|Biol. Plant. (Praha)19:360-364|1977|10.1007/BF02922732
43910|T||Mato,M.C., and R. Calvo|Effect of Linularic Acid on Auxin-Oxidase Activity|Biol. Plant. (Praha)19:394-396|1977|10.1007/BF02922743
43911|T||El Antably,H.M.M., and T.Y. Risk|The Effect of EPTC on the Bud Dormancy of Purple Nutsedge|Z. Pflanzenphysiol. (Multiple Languages)84:189-194|1977|10.1016/S0044-328X(77)80020-2
43912|T||Singh,B.D.|Effects of IAA, NAA and 2,4-D on Cytogenetic Behaviour of Haplopappus gracilis (Nutt.) Gray Callus Cultures|Caryologia (Multiple Languages)29(4): 447-456|1976|10.1080/00087114.1976.10796518
43913|T||Belote III,J.N., and T.J. Monaco|Factors Involved in Alachlor Injury to the Potato|Weed Sci.25(6): 482-486|1977|10.1017/S0043174500033956
43914|T||Windus,N.D., and V.G. Shutak|Effect F Ethephon, Diphenylamine and Daminozide on the Incidence of Scald Development on 'Cortland' Apples|J. Am. Soc. Hortic. Sci.102:715-718|1977|10.21273/JASHS.102.6.715
43915|T||Severi,A., and G. Laudi|Effect of Treatments with Growth Retardant Chemicals on Petiole Abscission in Coleus|Physiol. Plant. (Multiple Languages)41:155-157|1977|10.1111/j.1399-3054.1977.tb05549.x
43916|T||Sawhney,V.K., and L.M. Srivastava|Comparative Effects of Cytochalasin B and Colchincine on Lettuce Seedlings|Ann. Bot.41:271-274|1977|10.1093/oxfordjournals.aob.a085278
43917|T||Lam,T.H., and H.E. Street|The Effects of Selected Aryloxyalkanecarboxylic Acids on the Growth and Levels of Soluble Phenols in Cultured Cells of Rosa damascena|Z. Pflanzenphysiol. (Multiple Languages)84:121-128|1977|10.1016/S0044-328X(77)80184-0
43918|T||Hammerschlag,R.S., J.L. Milton, P.G. Bartels, and D.E. Moreland|Contribution of Side Chains to Karbutilate Mode of Action|Weed Sci.23(5): 425-427|1975|10.1017/S0043174500062809
43919|T||Hallmen,U.|Translocation and Complex Formation of Root-Applied 2,4-D and Picloram in Susceptible and Tolerant Species|Physiol. Plant. (Multiple Languages)34:266-272|1975|10.1111/j.1399-3054.1975.tb03834.x
43920|T||Chen,Y., C. Lin, H. Chang, T.J. Guilfoyle, and J.L. Key|Isolation and Properties of Nuclei from Control and Auxin-Treated Soybean Hypocotyl|Plant Physiol.56:78-82|1975|10.1104/pp.56.1.78
43921|T||Sharp,P.B., G.W.,Jr. Keitt, M.M. Clum, and U. Naef|Activity of Antheridiogen from the Fern Anemia Phyllitidis in Three Flowering Plant Bioassays|Physiol. Plant. (Multiple Languages)34:101-105|1975|10.1111/j.1399-3054.1975.tb03800.x
43922|T||Lord,W.J., and D.W. Greene|Apple Tree Response to Dichlobenil|Hortscience10:395-396|1975|10.21273/HORTSCI.10.4.395
43923|T||Raese,J.T.|Sprout Control of Apple and Pear Trees with NAA|Hortscience10:396-398|1975|10.21273/HORTSCI.10.4.396
43924|T||Smith,A.E.|Herbicide Influence on Arrowleaf Clover Seedling Establishment|Crop Sci.15:539-541|1975|10.2135/cropsci1975.0011183X001500040026x
43925|AT||Hashimoto,T., A. Sakupai, and S. Tamura|Physiological Activities of Helminthosporol and Helminthosporic Acid I. Effects on Growth of Intact Plants|Plant Cell Physiol.8:23-24|1967|10.1093/oxfordjournals.pcp.a079248
43926|T||Isom,W.H., L.S. Jordan, and W.W. Wright|Chemical Control of Russian Thistle|Down Earth23:12-13|1967|
43927|T||Tamura,S., N. Takahashi, N. Murofushi, and J. Kato|Growth Promoting Activities of Bamboo Gibberellin|Plant Cell Physiol.7:677-681|1966|10.1093/oxfordjournals.pcp.a079220
43928|T||Suge,H., and A. Osada|Inhibitory Effect of Growth Retardants on the Induction of Flowering in Winter Wheat|Plant Cell Physiol.7:617-630|1966|10.1093/oxfordjournals.pcp.a079214
43929|T||Maxie,E.C., and J.C. Crane|2,4,5-Trichlorophenoxyacetic Acid: Effect on Ethylene Production by Fruits and Leaves of Fig Trees|Science155:1548-1550|1967|10.1126/science.155.3769.1548
43931|T||Wolcott,A.R., F. Maciak, L.N. Shepherd, and R.E. Lucas|Effects of Telone on Nitrogen Transformations and on Growth of Celery in Organic Soil|Down Earth16:10-14|1960|
43932|T||Chadwick,A.V., and S.P. Burg|An Explanation of the Inhibition of Root Growth Caused by Indole-3-Acetic Acid|Plant Physiol.42:415-420|1967|10.1104/pp.42.3.415
43933|T||Friesen,G.|The Efficiency of Barban As Influenced by Growth Stages of Wild Oats Nd Spring Wheat|Weeds (Urbana)15:160-162|1967|10.2307/4041189
43934|T||Welker,W.V.,Jr.|Effect of Herbicides on Quality and Yield of Sweetpotatoes|Weeds (Urbana)15:112-114|1967|10.2307/4041176
43936|T||Shaner,D.L., and J.L. Lyon|Stomatal Cycling in Phaseolus vulgaris L. in Response to Glyphosphate|Plant Sci. Lett.15:83-88|1979|10.1016/0304-4211(79)90098-1
43937|T||Naito,K., A. Iida, H. Suzuki, and H. Tsuji|The Effect of Benzyladenine on Changes in Nuclease and Protease Activities in Intact Bean Leaves During Ageing|Physiol. Plant. (Multiple Languages)46:50-53|1979|10.1111/j.1399-3054.1979.tb03184.x
43938|T||Garcia-Martinez,J.L., and M.A. Garcia-Papi|The Influence of Gibberellic Acid, 2,4-Dichlorophenoxy-Acetic Acid and 6-Benzylaminopurine on Fruit-Set of Clementine Mandarin|Sci. Hortic.10:285-294|1979|10.1016/0304-4238(79)90084-0
43939|T||Hanks,G.R., and R. Menhenett|Response of Potted Tulips to New and Established Growth-Retarding Chemicals|Sci. Hortic.10:237-254|1979|10.1016/0304-4238(79)90079-7
43940|T||Barber,D.A., and H.V. Koontz|Uptake of Dinitrophenol and Its Effect on Transpiration and Calcium Accumulation in Barley Seedlings|Plant Physiol.38:60-65|1963|10.1104/pp.38.1.60
43941|T||Nickell,L.G.|Some Simple Substituted Pyrimidines and Their Effect on the Growth of Lemna minor|Phyton (Horn) (Multiple Languages)18:59-63|1962|
43942|T||Kapoor,L.D., and B.K. Kaul|Effect of Gibberellic Acid on Chenopodium Ambrosioides Var. Anthelminticu|J. Pharm. Sci.51:1113-1114|1962|10.1002/jps.2600511129
43943|T||Brown,J.A.M.|Effect of Thymidine Analogues on Reproductive Morphogenesis in Arabidopsis Thaliana (L.) Heynh|Nature196:51-53|1962|10.1038/196051a0
43944|T||Bonner,J., E. Heftmann, and J.A.D. Zeevaart|Suppression of Floral Induction by Inhibitors of Steroid Biosynthesis|Plant Physiol.38:81-88|1963|10.1104/pp.38.1.81
43945|T||Ambrose,D.G., and L.A. Sciuchetti|Influence of Kinetin and Gibberellic Acid on the Growth and Alkaloid Patterns in Datura Meteloides|J. Pharm. Sci.51:934-938|1962|10.1002/jps.2600511006
43946|T||Boothby,D., and S.T.C. Wright|Effect of Kinetin and Other Plant Growth Regulators on Starch Degradation|Nature196:389-390|1962|10.1038/196389a0
43947|T||Woodbridge,C.G., and A.L. Kamal|The Effect of 2,4-D on the Nitrogen Fractions of Bartlett Pear Tissues|Proc. Am. Soc. Hortic. Sci.81:116-122|1962|
43948|T||Bloomberg,W.J., and J. Trelawny|Effect of Thiram on Germination of Douglas-Fir Seed|Phytopathology60:1111-1116|1970|10.1094/Phyto-60-1111
43949|T||Johnson,B.J.|Postemergence Control of Large Crabgrass and Goosegrass in Turf|Weed Sci.23(5): 404-409|1975|10.1017/S0043174500062767
43950|T||Adedipe,N.O.|Kinetics and Implications of Seedling Growth Responses to 2-Chloroethylphosphonic Acid|Biol. Plant. (Praha)17:55-59|1975|10.1007/BF02921075
43952|T||Nothmann,J., and D. Koller|Non-transmissable and Long-Lasting Effects of Exogenous Gibberellin on Floral Morphology in the Eggplant (Solanum melongena L.)|Planta (Multiple Languages)123:191-194|1975|10.1007/BF00383868
43953|T||McCaskill,D.R., and J.R. Morris|Effect of Daminozide on Yield and Quality of 'Concord' Grapes (Vitis labrusca L.) in Arkansas|J. Am. Soc. Hortic. Sci.102(1): 8-10|1977|10.21273/JASHS.102.1.8
43954|T||Da Silva,J.F., and G.F. Warren|Effect of Stage of Growth on Metribuzin Tolerance|Weed Sci.24:612-615|1976|10.1017/S0043174500063050
43956|T||Yoshida,Y.|Effect of Benzimidazole on the Senescence of Wheat Chloroplasts and Their Boat Shape Transformation|Plant Cell Physiol.11:435-444|1970|
43957|T||Lipp,A.E.G., and L.A.T. Ballard|Thiourea as a Stimulator and Inhibitor of Germination of Seed of Subterranean Clover (Trifolium subterraneum L.)|Z. Pflanzenphysiol. (Multiple Languages)62:83-88|1970|
43958|T||Sharpe,F.T.,Jr., and G.W. Schaeffer|Methylpurine Inhibition and Benzyladenine Stimulation of Axillary Bud Growth|Am. J. Bot.57(6): 629-632|1970|10.2307/2441286
43959|T||Jones,T.W.A., and J.L. Stoddart|Gibberellin-Induced Changes in Protein Synthesis and Enzyme Activity in Shoot Apices of Trifolium Pratense|J. Exp. Bot.21:452-461|1970|10.1093/jxb/21.2.452
43960|T||Skene,K.G.M.|The Relationship Between the Effects of CCC on Root Growth and Cytokinin Levels in the Bleeding Sap of Vitis vinifera L.|J. Exp. Bot.21(67): 418-431|1970|10.1093/jxb/21.2.418
43961|T||Biswas,P.K., and R.L. Haynes|Herbicidal Effects on Water Uptake of Seeds of Selected Weed Species|Physiol. Plant. (Multiple Languages)23:583-590|1970|10.1111/j.1399-3054.1970.tb06450.x
43962|T||Nanda,K.K., A.N. Purohit, and N. Kaura|Effect of Morphactin, Gibberellic Acid and Auxin on Growth and Development of Bryophyllum Tubiflorum|Physiol. Plant. (Multiple Languages)23:591-598|1970|10.1111/j.1399-3054.1970.tb06451.x
43963|T||Hale,C.R., B.G. Coombe, and J.S. Hawker|Effects of Ethylene and 2-Chloroethylphosphonic Acid on the Ripening of Grapes|Plant Physiol.45:620-623|1970|10.1104/pp.45.5.620
43964|T||Rudich,J., N. Kedar, and A.H. Halevy|Changed Sex Expression and Possibilities for F1-Hybrid Seed Production in Some Cucurbits by Application of Ethrel and Alar (B-995)|Euphytica 19:47-53|1970|10.1007/BF01904665
43965|T||Sane,P.V., and S. Zalik|Metabolism of Acetate-2-14C, Glycine-2-14C, Leucine-U-14C, and Effect of Aminolevulinic Acid on Chlorophyll Synthesis in Gateway Barley and Its Mutant|Can. J. Bot.48:1171-1178|1970|10.1139/b70-174
43966|T||Looney,N.E., and A.D. McMechan|The Use of 2-Chloro-Ethylphosphonic Acid and Succinamic Acid 2,2-Dimethyl Hydrazide to Aid in Mechanical Shaking of Sour Cherries|J. Am. Soc. Hortic. Sci.95:452-455|1970|10.21273/JASHS.95.4.452
43967|T||Cooper,W.C., W.H. Henry, G.K. Rusmussen, and C.J. Hearn|Cycloheximide: An Effective Abscission Chemical for Oranges in Florida|Proc. Annu. Meet. Fla. State Hortic. Soc.82:99-104|1969|
43968|T||Murphy,H.J., M.J. Goven, and W.D. Sewell|Pre and Early Post-Emergence Weed Control with Paraquat in Potatoes|Am. Potato J.47:252-255|1970|10.1007/BF02864824
43969|T||Abdalla,A.A., and K. Verkerk|Growth, Flowering and Fruiting in Tomatoes in Relation to Temperature, Cycocel and GA|Neth. J. Agric. Sci.18:105-110|1970|10.18174/njas.v18i2.17345
43970|T||Lord,W.J., D.W. Greene, and R.A.,Jr. Damon|Evaluation of Fruit Abscission and Flower Bud Promotion Capabilities of Ethephon and SADH on Apples|J. Am. Soc. Hortic. Sci.100(3): 259-261|1975|10.21273/JASHS.100.3.259
43971|T||Elmstrom,G.W., and S.J. Locascio|Evaluation of Herbicides for Watermelon in Florida|Proc. Annu. Meet. Fla. State Hortic. Soc.87:179-184|1974|
43972|T||Corgan,J.N., and J.M. Montano|Bolting and Other Responses of Onion (Allium cepa L.) to Growth-Regulating Chemicals|J. Am. Soc. Hortic. Sci.100:273-276|1975|10.21273/JASHS.100.3.273
43974|T||Linscott,D.L., R.R. Seaney, and R.D. Hagin|Subsurface Placement of EPTC for Weed Control in Seedling Legumes|Weeds (Urbana)15:259-264|1967|10.2307/4041219
43975|T||Frank,R.|Pyrazon, a Selective Herbicide for Sugar Beets|Weeds (Urbana)15:197-201|1967|10.2307/4041201
43976|T||Levine,M.|The Response of Plants to Localized Applications of Various Chemical Agents|Bull. Torrey Bot. Club63:177-194|1936|10.2307/2480901
43977|T||Hitchcock,A.E., and P.W. Zimmerman|Effect of Growth Substances on the Rooting Response of Cuttings|Contrib. Boyce Thompson Inst.8:63-79|1936|
43978|T||Miller,C.O.|Cytokinin Inhibition of Respiration in Mitochondria from 6 Plant Species|Proc. Northeast. Weed Control Conf.77:4731-4735|1980|
43979|T||Egley,G.H.|Stimulation of Common Cocklebur (Xanthium Pennsylvaticum) and Redroot Pigweed (Amaranthus Retroflexus) Seed Germination by Injections of Ethylene into the Soil|Weed Sci.28:510-514|1980|10.1017/S0043174500061129
43980|T||Smith,P.F.|Studies of the Growth of Pollen with Respect to Temperature, Auxins, Colchicine and Vitamin B1|Am. J. Bot.29:56-66|1942|10.1002/j.1537-2197.1942.tb13970.x
43981|T||Bachelard,E.P.|Effects of Gibberellic Acid, Kinetin & Light on the Germination of Dormant Seeds of Some Eucalypt Species|Aust.J.Bot.15:393-401|1967|10.1071/BT9670393
43982|T||Buxton,J.W., and J.R. Culbert|Effects of N-Dimethyl Amino Succinamic Acid (B-Nine) on Flower Longevity and Vegetative Growth of Pot Chrysanthemums (Chrysanthemum morifolium Ramat.)|Proc. Am. Soc. Hortic. Sci.91:645-652|1967|
43983|T||Parkash,V., and R.K. Lal|Effect of Seed Treatment with Ccc, B-Nine, Gibberellic Acid & Kinetin on Morphological & Biochemical Changes in Cotton|Indian J. Exp. Biol.6:44-46|1968|
43984|T||Leshem,Y., and B. Lunenfeld|Gonadotropin Promotion of Adventitious Root Production on Cuttings of Begonia semperflorens and Vitis vinifera|Plant Physiol.43:313-317|1968|10.1104/pp.43.3.313
43985|T||Krul,W.R.|Increased Root Initiation in Pinto Bean Hypocotyls with 2,4-Dinitrophenol|Plant Physiol.43:439-441|1968|10.1104/pp.43.3.439
43986|T||De,D.N., and S. Basak|Cytological Effects of 2,4-Diamino-6-Hydroxyprimidine on Root Tip Cells|Indian J. Exp. Biol.6:40-41|1968|
43987|T||Oliver,L.R., and R.E. Frans|Inhibition of Cotton and Soybean Roots from Incorporated Trifluralin and Persisitence in Soil|Weed Sci.16:199-203|1968|10.1017/S0043174500046907
43988|T||Mann,J.D., and M. Pu|Inhibition of Lipid Synthesis by Certain Herbicides|Weed Sci.16(2): 197-198|1968|10.1017/S0043174500046890
43989|T||Brown,J.C., and M.C. Carter|Influence of Amitrole upon Protein Metabolism in Bean Plants|Weed Sci.16:222-226|1968|10.1017/S0043174500046956
43990|T||Ashton,F.M., D. Penner, and S. Hoffman|Effect of Several Herbicides on Proteolytic Activity of Squash Seedlings|Weed Sci.16:169-171|1968|10.1017/S0043174500046828
43991|T||Hogue,E.J.|The Effect of Linuron on 32P and 45Ca Uptake in Tomato and Parsnip|Weed Sci.16:185-187|1968|10.1017/S0043174500046865
43992|T||Looney,N.E., D.V. Fisher, and J.W. Parsons|Some Effects of Annual Applications of N-Dimethylaminosuccinamic Acid (Alar) to Apples|Proc. Am. Soc. Hortic. Sci.91:18-24|1967|
43993|T||Badizadegan,M., and R.F. Carlson|Effect of N6-Benzyladenine on Seed Germination and Seedling Growth of Apple Malus Sylvestris Mill)|Proc. Am. Soc. Hortic. Sci.91:1-8|1967|
43994|T||Yakushkina,N.I., G.S. Erdeli, and N.G. Chugunova|The Effect of Gibberellin on Photosynthetic Phosphorylation in Isolated Chloroplasts|Dokl. Akad. Nauk SSSR (Non-English)176(1): 220-221|1967|
43995|T||Harper,C.W., and K.G. Stott|The Control of Japanese Knotweed Polygonum cuspidatum Sieb. and Zucc. Experiments Made During 1961-1966|Long Ashton Res. Stn. Rep.1966:268-276|1966|
43996|T||Padmanabban,D.|Effect of Fusaric Acid on In Vitro Culture of Embryos of Phaseolus vulgaris L.|Curr. Sci. (Bangalore)36:214-215|1967|
43997|T||Schultz,D.P., H.H.,Jr. Funderburk, and N.S. Neg|Effect of Trifluralin on Growth, Morphology and Nucleic Acid Synthesis|Plant Physiol.43:265-273|1968|10.1104/pp.43.2.265
43998|T||Marlangeon,R.C.|"Three Doses of Gibberellic Acid 75 ppm Induce Parthenocarpy in the Prune Tree and Increase the ""Set"" in Flowers Generously Pollinated"|Phyton (Horn) (Multiple Languages)31:95-99|1973|
44001|T||Adams,W.R.,Jr., and A.W. Galston|Differential Effects of Ethylene on Pith Peroxidase of Intact Tobacco Plants and Excised Tissue|Plant Physiol.53:931-933|1974|10.1104/pp.53.6.931
44002|T||Laycock,W.A.|Mortality of Rock Goldenrod in Sagebrush Stands Sprayed with 2,4-D|J. Range Manag.20:107-108|1967|10.2307/3895958
44003|T||Hamilton,W.D., and W.B. Davis|Chemical Growth Control of Chinese Elm Trees|Calif. Agric.21(2): 4-5|1967|
44004|T||Sachs,R.M., and T. Mock|Growth Retarding Activity of Foliar Applied Daminozide (Sadh) in Relation to Its Concentration in Three Species|J. Am. Soc. Hortic. Sci.100:210-212|1975|10.21273/JASHS.100.3.210
44005|T||Whitcomb,C.E., and J.F. Butler|Performance of Trifluralin, Nitralin, and Oryzalin in Nursery Containers|J. Am. Soc. Hortic. Sci.100:225-229|1975|10.21273/JASHS.100.3.225
44006|T||Prendeville,G.N., and G.F. Warren|Spreading and Penetration of Herbicides Dissolved in Oil Carriers|Weed Res. (Multiple Languages)15:233-241|1975|10.1111/j.1365-3180.1975.tb01130.x
44007|T||Richardson,R.G., and R.L. Amor|Effect of 2,4,5-T and Picloram on the Regeneration of Blackberry (Rubus Procerus P.J. Muell.) from Root Segments|Weed Res. (Multiple Languages)15:227-232|1975|10.1111/j.1365-3180.1975.tb01129.x
44008|T||Bhandari,M.C., and D.N. Sen|Effect of Growth Retardants on Seedling Growth, Excised Cotyledons, Chlorophylls, Proteins and Sugar Contents in Citrullus Species|Biochem. Physiol. Pflanzen (Multiple Languages)167:135-140|1975|10.1016/S0015-3796(17)30769-2
44009|T||Kemp,M.S., C. Rius-Alonse, and R.L. Wain|Studies on Plant Growth-Regulating Substances: XXXVIII. 1,1-Dichloro-2-Phenoxythanes, alpha, alpha-Dichlorotoluenes, and 1,1-Dihalo-2-Phenylethanes|Ann. Appl. Biol.80:311-316|1975|10.1111/j.1744-7348.1975.tb01636.x
44010|T||Sargent,J.A., and D.J. Osborne|An Effect of Ethylene on the Endoplasmic Reticulum of Expanding Cells of Etiolated Shoots of Pisum Sativum l|Planta (Multiple Languages)124:199-206|1975|10.1007/BF00384762
44011|T||Allen,T.J., C.L. Leinweber, D.K. Prince, and D.F. Bouchard|Chlorobenzoyl Chloride and Methyl Chlorobenzoate as Synthetic Plant Growth Regulators|Weed Sci.23(5): 428-432|1975|10.1017/S0043174500062810
44013|T||Mehta,U., and H.Y.M. Ram|Modification of the Capitulum in Calendula officinalis by Chlorflurenol|Phytomorphology28:351-372|1978|
44014|T||Amrhein,N., G. Deckers, and U. Fingerhut|Inhibition of Gibberellic Acid Induced Formation and Release of alpha-Amylase and Acid Phosphatase in Barley Aleurone Layers by Cerulenin|Biochim. Biophys. Acta174:727-737|1979|
44015|T||Jordan,T.N., and R.R. Bridge|Tolerance of Cotton to the Herbicide Glyphosate|Agron. J.71:927-928|1979|10.2134/agronj1979.00021962007100060008x
44016|T||Pilet,P.E., and P. Takahashi|Effect of Abscisic Acid on Anthocyanin Content in Light Exposed Roots|Plant Sci.17:1-5|1979|
44017|T||Hillman,J.R., and H.Y. Yeang|Correlative Inhibition of Lateral Bud Growth in Phaseolus Vulgaris Ethylene and the Physical Restriction of Apical Growth|J. Exp. Bot.30:1075-1084|1979|10.1093/jxb/30.6.1075
44018|T||Tsuji,H., K. Naito, I. Hatakeyama, and K. Ueda|Benzyladenine-Induced Increase in Dna Content Per Cell, Chloroplast Size and Chloroplast Number Per Cell in Intact Bean Leaves|J. Exp. Bot.30:1145-1152|1979|10.1093/jxb/30.6.1145
44019|T||Arnold,C.E., and J.H. Aldrich|Weed Control in Immature Pecan (Carya illinoensis Cultivars Elliot and Desirable) and Peach (Prunus persica Cultivar June Gold) Plantings|Weed Sci.27:638-641|1979|10.1017/S004317450004604X
44020|T||Ogg,A.G.,Jr., and S. Drake|Effects of Herbicides on Weeds and Sweet Corn Grown on Coarse-Textured Soils|Weed Sci.27:608-611|1979|10.1017/S0043174500045975
44021|T||Betts,M.F., and I.N. Morrison|Fall and Spring Applications of Trifluralin and Metribuzin in Fababeans (Vicia faba)|Weed Sci.27(6): 691-695|1979|10.1017/S0043174500046166
44022|T||Pillai,P., D.E. Davis, and B. Truelove|Effects of Metolachlor on Germination, Growth, Leucine Uptake and Protein Synthesis|Weed Sci.27:634-637|1979|10.1017/S0043174500046038
44023|T||Hoerauf,R.A., and R.H. Shimabukuro|The Response of Resistant and Susceptible Plants to Diclofop-Methyl|Weed Res. (Multiple Languages)19:293-299|1979|10.1111/j.1365-3180.1979.tb01541.x
44024|T||Bretherton,G., and N.D. Hallam|The Movement of 2,4,5-Trichlorophenoxyacetic Acid into the Leaves of Rubus procerus P.J. Meull and Its Effect on Chloroplast Ultrastructure|Weed Res. (Multiple Languages)19:307-313|1979|10.1111/j.1365-3180.1979.tb01543.x
44025|T||Aberg,B.|Plant Growth Regulators. XXXVII. Some Naphthylmethylthio- and Naphthylmethylseleno-Alkylcarboxylic Acids|Swed. J. Agric. Res.9:49-56|1979|
44026|T||Aberg,B.|Plant Growth Regulators. XXXVIII. Some Phenylthio-, Phenylsulfinyl-, Phenylsulfonyl- and Phenylamino-Alkylcarboxylic Acids|Swed. J. Agric. Res.9:57-63|1979|
44027|T||Kurkdjian,A., J.J. Leguay, and J. Guern|Influence of Fusicoccin on the Control of Cell Division by Auxins|Plant Physiol.64:1053-1057|1979|10.1104/pp.64.6.1053
44028|T||Grover,I.S., and P.S. Tyagi|Cytological Effects of Some Common Pesticides in Barley (Hordeum vulgare)|Environ. Exp. Bot.20:243-246|1980|10.1016/0098-8472(80)90020-9
44029|T||Sterrett,J.P.|Injection Methodology for Evaluating Plant Growth Retardants|Weed Sci.27(6): 688-690|1979|10.1017/S0043174500046154
44030|T||Levine,M., and S. Gelber|The Metaphase Stage in Colchicinized Onion Root-Tips|Bull. Torrey Bot. Club70:175-181|1943|10.2307/2481369
44031|T||Magness,J.R., and L.P. Batjer|Modifying the Biennial Bearing Habit in Apples by Spraying to Prevent Fruit Set|Proc. Am. Soc. Hortic. Sci.39:228-232|1941|
44032|T||Bonner,J.|Effects of Application of Thiamine to Cosmos|Bot. Gaz.104:475-479|1943|10.1086/335158
44033|T||Mayeux,H.S.Jr., C.S. Scifres, and R.A. Crane|Ericameria austrotexana and Associated Range Forage Responses to Herbicides|Weed Sci.28(5): 602-606|1980|10.1017/S0043174500061312
44034|T||Uotila,M.K.E., and T.H. Iverson|Effects of Glyphosate on the Development and Cell Ultrastructure of White Mustard (Sinapis alba) Seedlings|Weed Res. (Multiple Languages)20:153-158|1980|10.1111/j.1365-3180.1980.tb00061.x
44035|T||Haramaki,C., L. Kuhns, and D. Grenoble|Use of Glyphosate in Weed Infested Nursery Beds|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:315-318|1980|
44036|T||Kuhns,L.J., and C. Haramaki|An Evaluation of 5 Herbicides Applied Over Liners Representing 8 Genera of Ornamental Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:340-346|1980|
44037|T||Jagschitz,J.A.|Broadleaf Weed Control in Turfgrass with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:357-363|1980|
44038|T||Shawa,A.Y.|Control of Weeds in Cranberries (Vaccinium macrocarpon Cultivar Mcfarlin) with Glyphosate and Terbacil|Weed Sci.28:565-568|1980|10.1017/S0043174500061233
44039|T||Ahrens,J.F.|Effects of Surfactant or Preemergence Herbicides on the Selectivity of Asulam and Glyphosate in Woody Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:330-333|1980|
44042|T||Strek,H.J., and J.B. Weber|Absorption and Translocation of Polychlorinated Biphenyls (PCBs) by Weeds|Proc. 5th Weed Sci. Soc.33:226-232|1980|
44043|T||Poe,S.L., and F.J. Marousky|Control of Aphids and Mites on Cut Chrysanthemums by Post Harvest Absorption of Azodrin and Demeton|Proc. Annu. Meet. Fla. State Hortic. Soc.84:432-435|1971|
44044|T||Strek,H.J., and J.B. Weber|Adsorption and Reduction in Bioactivity of Polychlorinated Biphenyl (Aroclor 1254) to Redroot Pigweed by Soil Organic Matter and Montmorillonite Clay|Soil Sci. Soc. Am. J.46:318-322|1982|10.2136/sssaj1982.03615995004600020021x
44045|T||Strek,H.J., J.B. Weber, P.J. Shea, E.,Jr. Mrozek, and M.R. Overcash|Reduction of Polychlorinated Biphenyl Toxicity and Uptake of Carbon-14 Activity by Plants Through the Use of Activated Carbon|J. Agric. Food Chem.29:288-293|1981|10.1021/jf00104a018
44046|T||Raw,F., J.R. Lofty, and C. Potter|Studies on the Chemical Control of Wireworms (Agriotes spp.) III. The Direct and Residual Effects of BHC, Aldrin and Dieldrin|Bull. Entomol. Res.57(4): 661-667|1968|10.1017/S0007485300052998
44047|T||Duncan,D.N., W.F. Meggitt, and D. Penner|Physiological Bases of Sugarbeet (Beta vulgaris) Tolerance to Foliar Application of Ethofumesate|Weed Sci.29(6): 648-654|1981|10.1017/S0043174500040212
44048|T||Jeffcoat,B., and W.N. Harries|Selectivity and Mode of Action of Ethyl (+ Or -)-2-(N-Benzoyl-3,4-Dichloroanilino)Propionate in the Control of Avena Fatua in Cereals|Pestic. Sci.4(6):891-899|1973|10.1002/ps.2780040617
44049|T||Robinson,R.C., and R.J. Dunham|The Uptake of Soil-Applied Chlorotriazines by Seedlings and Its Prediction|Weed Res. (Multiple Languages)22:223-236|1982|10.1111/j.1365-3180.1982.tb00167.x
44050|T||Splittstoesser,W.E., and H.J. Hopen|Metabolism of Siduron by Barley and Crabgrass|Weed Sci.16(3): 305-308|1968|10.1017/S0043174500047214
44051|T||Mine,A., M. Miyakado, and S. Matsunaka|The Mechanism of Bentazon Selectivity|Pestic. Biochem. Physiol.5:566-574|1975|10.1016/0048-3575(75)90032-2
44053|T||Hendershott,C.H.|The Influence of Maleic Hydrazide on Citrus Trees and Fruits|Proc. Am. Soc. Hortic. Sci.80:241-246|1962|
44054|T||Todd,B.G., and E.H. Stobbe|Selectivity of Dichlofop Methyl Among Wheat, Barley, Wild Oil (Avena Fatuum) and Green Foxtail (Setaria Viridis)|Weed Sci.25(5):382-385|1977|10.1017/S0043174500033701
44055|T||Bocion,P.F., W.H. De Silva, and H.R. Walther|Growth Retardation Activity of Piproctanyl-Bromide on Chrysanthemum Morifolium Ramat|Hortscience13(2): 184-185|1978|10.21273/HORTSCI.13.2.184
44056|T||Shiue,C.J., R.L. Hossfeld, and L.W. Rees|Absorption and Translocation of 2,4,5-Trichlorophenoxyacetic Acid Derivatives in Quaking Aspen|For. Sci.4(4): 319-324|1958|
44058|T||Schafer,D.E., and D.O. Chilcote|Selectivity of Bromoxynil in a Resistant and a Susceptible Species|Weed Sci.18(6): 725-729|1970|10.1017/S0043174500034640
44059|T||Hawf,L.R., and R. Behrens|Selectivity Factors in the Response of Plants to 2,4-DB|Weed Sci.22(3): 245-249|1974|10.1017/S0043174500036997
44060|T||Westwood,M.N., and L.P. Batjer|Factors Influencing Absorption of Dinitro-Ortho-Cresol and Naphthaleneacetic Acid by Apple Leaves|J. Am. Soc. Hortic. Sci.72:35-44|1958|
44061|T||Norris,J.R., and R.W. Treadwell|The Effect of 2,4-Dinitrophenol on Respiration of Onion Roots|Texas J. Sci.15(3): 284-292|1963|
44062|T||Bovey,R.W.|Hormone-Like Herbicides in Weed Control|Econ. Bot.25(4):385-400|1971|10.1007/BF02985206
44063|T||MacCollom,G.B., and T.R. Flanagan|Endrin, Toxaphene, and Dalapon Effects on Birdsfoot Trefoil Seed Yields and Residue Disappearance|J. Econ. Entomol.60(4): 1174-1175|1967|10.1093/jee/60.4.1174a
44064|T||Barrentine,J.L., and G.F. Warren|Selective Action of Terbacil on Peppermint and Ivyleaf Morningglory|Weed Sci.18(3): 373-377|1970|10.1017/S0043174500080000
44065|T||Funderburk,H.H.,Jr., and D.E. Davis|The Metabolism of C14 Chain- and Ring-Labeled Simazine by Corn and the Effect of Atrazine on Plant Respiratory Systems|Weeds (Urbana)11(2): 101-104|1963|10.2307/4040700
44066|T||Tyson,R.V., and S.R. Kostewicz|Weed Control in Narrow Row Snap Bean Production|Proc. Annu. Meet. Fla. State Hortic. Soc.99:358-362|1986|
44067|T||Marrs,R.H.|Studies on the Conservation of Lowland Calluna Heaths I.  Control of Birch and Bracken and Its Effect on Heath Vegetation|J. Appl. Ecol.24(1): 163-175|1987|10.2307/2403795
44068|T||Falconer,M.M., and R.W. Seagull|Amiprophos-Methyl (Apm): A Rapid, Reversible, Anti-Microtuble Agent for Plant Cell Cultures|Protoplasma (Multiple Languages)136(2-3):118-124|1987|10.1007/BF01276360
44069|T||Kord,M.A.A.|Effects of 2,4-D Amine on Root Morphology and Minerals of Zea Seedlings|Phytologia62(2): 91-99|1987|
44070|T||Roder,W., S.S. Waller, J.L. Stubbendieck, L.E. Moser, and A.R. Martin|Effect of Herbicide Safeners on Sand and Little Bluestems|J. Range Manag.40(2): 144-147|1987|10.2307/3899207
44071|T||Yeiser,J.L., and B.F. McLemore|Basal Bark Sprays Evaluated for Efficacy and Season of Application|Ark. Farm Res.35(6): 10-|1986|
44072|T||Smith,E.M., and S.A. Treaster|Pre-Emergence Herbicides for Canna|Res. Circ. - Ohio Agric. Res. Dev. Ctr.291:13-14|1987|
44073|T||Foy,C.L., and D.E. Bayer|Barban for Control of Wild Oats in Cereal Grains|Bull. Calif. Agric. Exp. Stn.828:3-29|1966|
44074|T||Ferree,D.C., and J.C. Schmid|Influence of Growth Regulators on Branching of Young Apple Trees|Ohio Agric. Res. Dev. Cent.290:6-8|1986|
44075|T||Smith,E.M., S.F. Gorski, and M. Moore|An Evaluation of Metribuzin Slow-Release Herbicide Tablets on Woody Landscape Crops|Ohio Agric.Res.Dev.Cent.Res.Circ.289:14-17|1986|
44076|T||Hayes,R.M., A.Y. Chambers, C.R. Graves, and G.N.,Jr. Rhodes|Differential Response of Soft Red Winter Wheat Cultivars to Metribuzin|Tenn. Farm Home Sci.138:3-6|1986|
44078|T||Leavitt,J.R.C., and D. Penner|In Vitro Conjugation of Flutathione and Other Thiols and Acetanilide Herbicides and EPTC Sulfoxide and the Action of the Herbicide Antidote R-25788|J. Agric. Food Chem.27(3): 533-536|1979|10.1021/jf60223a004
44079|T||Deubert,K.H., R.M. Devlin, M.J. Kisiel, and A.S. Kostusiak|The Influence of Benzo(a)pyrene on the Growth of Wheat and Corn|Environ. Int.2:91-93|1979|10.1016/0160-4120(79)90047-3
44080|T||Bovey,R.W., R.E. Meyer, J.R. Baur, and S.V. Schulte|Effect of Picloram and Tebuthiuron on Broadleaf Weeds and Bermudagrass in East-Central Texas Pastures|Texas Agric. Exp. Stn. Prog. Rep.1540:1-34|1986|
44081|T||Vicari,A.|Weed Control in Protected Crops of Tomato, Cucumber and Melon with Herbicides and Polyethylene Mulch|Acta Hortic.176:237-242|1986|10.17660/ActaHortic.1986.176.28
44082|T||Smith,G.A., and H.S. Moser|Sporophytic-Gametophytic Herbicide Tolerance in Sugarbeet|Theor. Appl. Genet.71(2): 231-237|1985|10.1007/BF00252060
44083|T||Gayed,S.K.|Dodder in Tobacco Seedbeds in Ontario and Its Control|Can. J. Plant Sci.66(2): 421-423|1986|10.4141/cjps86-059
44084|T||Felipe,M.R.D., J.M. Pozuelo, M. Lucas, and F. Fernandez del Campo|The Effect of Isoproturon on Root Growth and Ultrastructure of the Photosynthetic Apparatus of Two Wheat Cultivars and A Weed|Physiol. Plant. (Multiple Languages)66(3):563-568|1986|10.1111/j.1399-3054.1986.tb05967.x
44085|T||Wehtje,G., R.B. Reed, and R.R. Dute|Reproductive Biology and Herbicidal Sensitivity of Maypop Passionflower (Passiflora incarnata)|Weed Sci.33(4): 484-490|1985|10.1017/S0043174500082709
44086|T||Sturges,D.L.|Responses of Vegetation and Ground Cover to Spraying a high Elevation, Big Sagebrush Watershed with 2,4-D|J. Range Manag.39(2): 141-146|1986|10.2307/3899287
44087|T||Potter,R.L., D.N. Ueckert, and J.L. Petersen|Honey Mesquite Control with Pelleted Hexazinone in Western Texas|J. Range Manag.39(2): 132-135|1986|10.2307/3899284
44088|T||Dekker,J.H., and K. Chandler|Herbicide Effect on the Viability of Quackgrass (Agropyron repens) Rhizome Buds|Can. J. Plant Sci.65(4): 1057-1064|1985|10.4141/cjps85-135
44089|T||Carlson,S.J., and L.A. Morrow|Control of Wild Oat with Triallate in Spring Wheat Conservation Tillage System|Can. J. Plant Sci.66(1): 181-184|1986|10.4141/cjps86-026
44090|T||Freeman,J.A.|Chemical Weed Control in Newly Planted Raspberries in Coastal British Columbia|Can. J. Plant Sci.66(1): 141-152|1986|10.4141/cjps86-018
44091|T||Waddington,J., A.J. Cessna, J.R. Moyer, and N.W. Holt|Sainfoin Establishment and Production on Trifluralin-Treated Soils, and Herbicide Residues in Green Forage and Hay|Can. J. Plant Sci.66(1): 103-110|1986|10.4141/cjps86-013
44092|T||Derr,J.F., T.J. Monaco, and T.J. Sheets|Response of Three Annual Grasses to Fluazifop|Weed Sci.33(5): 693-697|1985|10.1017/S0043174500083107
44093|T||Olson,B.M., and R.B. McKercher|Wheat and Triticale Root Development as Affected by Trifluralin|Can. J. Plant Sci.65(3): 723-729|1985|10.4141/cjps85-092
44094|T||O'Sullivan,P.A., V.C. Kossatz, and G.M. Weiss|Influence of Clopyralid on Several Yield and Quality Characteristics of Altex, Candle and Regent Rapeseed|Can. J. Plant Sci.65(3): 633-639|1985|10.4141/cjps85-086
44095|T||Selga,M., A. Vitola, S. Kristkalne, G. Arente, and L. Kattai|Ultrastructural Features of Cellular Organelles in Photosynthesizing Tissues of Rye, Cucumber and Pea Plants Treated with Camposan M|Photosynthetica (Praha)19(1): 19-24|1985|
44096|T||Mayeux,H.S.Jr., and R.A. Crane|Application of Herbicides on Rangelands with a Carpeted Roller: Evaluation of Four Herbicides for Control of Honey Mesquite|J. Range Manag.38(3): 233-237|1985|10.2307/3898974
44097|T||Rovira,A.D., and A. Simon|Growth, Nutrition and Yield of Wheat in Calcareous Sandy Loams of South Australia: Effects of Soil Fumigation, Fungicide, Nematicide and Nitrogen Fertilizers|Soil Biol. Biochem.17(3): 279-284|1985|10.1016/0038-0717(85)90061-6
44098|T||Almodovar-Vega,L.|Evaluation of Four S-Triazine Herbicides for Early Weed Control in Grain Sorghum|J. Agric. Univ. P. R.68(4): 331-334|1984|10.46429/jaupr.v68i4.7300
44099|T||Gonzalez-Ibanez,J.|Glyphosate for Weed Control in Puerto Rico Pastures|J. Agric. Univ. P. R.68(3): 289-296|1984|10.46429/jaupr.v68i3.7289
44100|T||Meyer,R.E., and R.W. Bovey|Response of Yaupon (Ilex vomitoria) and Understory Vegetation to Herbicides|Weed Sci.33(3): 415-419|1985|10.1017/S0043174500082539
44101|T||Quakenbush,L.S., and R.N. Anderson|Susceptibility of Five Species of the Solanum nigrum Complex to Herbicides|Weed Sci.33(3): 386-390|1985|10.1017/S0043174500082473
44102|T||Davidson,C.G., D.L. Wyse, and R.L. McGraw|Quackgrass (Agropyron repens) Control and Establishment of Three Forage Legumes with Three Selective Herbicides|Weed Sci.33(3): 376-380|1985|10.1017/S004317450008245X
44103|T||Holt,J.S., S.R. Radosevich, and W.L. Graves|Long-Term Effects on Vegetation of Herbicide Treatments in Chaparral|Weed Sci.33(3): 353-357|1985|10.1017/S0043174500082412
44104|T||Swanton,C.J.|Control of Teucrium canadense L. var. Canadense with Herbicides|Can. J. Plant Sci.65(1): 163-167|1985|10.4141/cjps85-022
44105|T||Moyer,J.R.|Effect of Weed Control and a Companion Crop on Alfalfa and Sainfoin Establishment, Yields and Nutrient Composition|Can. J. Plant Sci.65(1): 107-116|1985|10.4141/cjps85-015
44106|T||Slade,J.J., and J.H. Reynolds|Plant Growth Regulator Effects on Forage Quality of Tall Fescue and Bermudagrass|Tenn. Farm Home Sci.134:19-23|1985|
44107|T||Cisar,J.L., and J.A. Jagschitz|Turfgrass Tolerance to Post- and Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:298-302|1984|
44108|T||Bhowmik,P.C.|New Herbicides for Crabgrass Control in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:282-288|1984|
44109|T||Cisar,J.L., and J.A. Jagschitz|Postemergence Control of Smooth Crabgrass in Lawn Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:276-280|1984|
44110|T||Fry,J.D., and P.H. Dernoeden|Evaluation of Experimental Herbicides for Preemergence Control of Crabgrass in Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:271-275|1984|
44111|T||Pennucci,A., and J.A. Jagschitz|Preemergent Herbicides for Crabgrass and Spurge Control in Lawn Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:265-270|1984|
44112|T||Ennis,B.G., and R.A. Ashley|Effect of Nitrogen Fertility Levels on Crabgrass Control by Several Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:133-135|1984|
44113|T||Yarborough,D.E., and A.A. Ismail|Treatment of Bracken Fern with Asulam in Lowbush Blueberry Yields|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:168-171|1984|
44114|T||Vitolo,D.B., C.C. Kupatt, R.D. Ilnicki, and M.W. Beale|Preemergence Weed Control in White Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:155-157|1984|
44115|T||Murphy,H.J., and L.S. Morrow|Effect of Fluazifop-Butyl and Sethoxydim for Grass Control in Maine Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:139-142|1984|
44117|T||Kelly,D., and J.P. Skipworth|Tradescantia fluminensis in Manawatu (New Zealand) Forest II. Management by Herbicides|N. Z. J. Bot.22(3): 399-402|1984|10.1080/0028825X.1984.10425271
44118|T||Erf,J.A., and R.C. Funt|Effects of Herbicides on Newly Planted 'Brandywine' Purple Raspberry|Ohio Agric. Res. Dev. Cent.283:63-65|1984|
44119|T||Rhodes,G.H.,Jr., L.S. Jeffery, T.H.,Jr. Morgan, L.M. Safley, and D.D. Howard|Results of Herbicide Evaluation in Burley and Dark Fire-Cured Tobacco 1970-1981|Tenn. Agric. Exp. Stn. Bull.619:1-20|1983|
44120|T||Hicks,C.P., and T.N. Jordan|Response of Bermudagrass (Cynodon dactylon), Quackgrass (Agropyron repens), and Wirestem Muhly (Muhlenbergia frondosa) to Postemergence Grass Herbicides|Weed Sci.32:835-841|1984|10.1017/S0043174500060082
44121|T||Buhler,D.D., and O.C. Burnside|Herbicidal Activity of Fluazifop-Butyl, Haloxyfop-Methyl, and Sethoxydim in Soil|Weed Sci.32:824-831|1984|10.1017/S0043174500060069
44122|T||Barker,M.A., L.,Jr. Thompson, and F.M. Godley|Control of Annual Morningglories (Ipomoea spp.) in Soybeans (Glycine max)|Weed Sci.32(6): 813-818|1984|10.1017/S0043174500060045
44123|T||Nester,P.R., T.R. Harger, and J.P. Geaghan|Itchgrass (Rottboellia exaltata) Response to Control Practices in Soybean (Glycine max)|Weed Sci.32:807-812|1984|10.1017/S0043174500060033
44124|T||Mohamed,A., and A.A. Taha|Herbicide Screening for Economic Production of Snap Beans in the Sudan|Acta Hortic.143:433-437|1984|10.17660/ActaHortic.1984.143.50
44125|T||Voss,M., G. Renger, C. Kotter, and P. Graber|Fluorometric Detection of Phyotosystem II.  Herbicide Penetration and Detoxification in Whole Leaves|Weed Sci.32(5): 675-680|1984|10.1017/S0043174500059774
44127|T||Lehoczki,E., G. Laskay, E. Polos, and J. Mikulas|Resistance to Triazine Herbicides in Horseweed (Conyza canadensis)|Weed Sci.32(5): 669-674|1984|10.1017/S0043174500059762
44128|T||Mudge,L.C., B.J. Gossett, and T.R. Murphy|Resistance of Goosegrass (Eleusine indica) to Dinitroaniline Herbicides|Weed Sci.32(5): 591-594|1984|10.1017/S0043174500059610
44129|T||Bridges,D.C., R.H. Walker, J.A. McGuire, and N.R. Martin|Efficiency of Chemical and Mechanical Methods for Controlling Weeds in Peanuts (Arachis hypogaea)|Weed Sci.32(5): 584-591|1984|10.1017/S0043174500059609
44132|T||Webster,A.D.|Delaying Flowering and Improving the Yields of Victoria Plum with Plant Growth Regulator Sprays|Acta Hortic.149:197-202|1984|10.17660/ActaHortic.1984.149.23
44133|T||Young,F.L., D.R. Gealy, and L.A. Morrow|Effect of Herbicides on Germination and Growth of Four Grass Weeds|Weed Sci.32(4): 489-493|1984|10.1017/S0043174500059397
44134|T||Bowers,D.L., and T.T. Bauman|Postemergence Jimsonweed (Datura stramonium) Control as Influenced by Soil-Applied Vernolate and Trifluralin|Weed Sci.32(4): 451-454|1984|10.1017/S0043174500059324
44135|T||Friesen,G.H., and D.A. Wall|Response of Potato (Solanum tuberosum) Cultivars to Metribuzin|Weed Sci.32(4): 442-444|1984|10.1017/S0043174500059300
44136|T||Emmerich,W.E., J.D. Helmer, K.G. Renard, and L.J. Lane|Fate and Effectiveness of Tebuthiuron Applied to a Rangeland Watershed|J. Environ. Qual.13(3): 382-386|1984|10.2134/jeq1984.00472425001300030012x
44137|T||Weller,S.C., J.B. Masiunas, and P.L. Carpenter|Evaluation of Oxyfluorfen Formulations in Container Nursery Crops|Hortscience19(2): 222-224|1984|10.21273/HORTSCI.19.2.222
44138|T||Masters,R.A., and C.J. Scifres|Forage Quality Responses of Selected Grasses to Tebuthiuron|J. Range Manag.37(1): 83-87|1984|10.2307/3898831
44139|T||Huffman,A.H., and P.W.,Jr. Jacoby|Effects of Herbicides on Germination and Seedling Development of Three Native Grasses|J. Range Manag.37(1): 40-43|1984|10.2307/3898821
44140|T||Bhattacharjee,A., and K. Gupta|Differential Responses of Sunflower (Helianthus Annuus Cv. Modern) Towards high and Low Concentrations of Dikegulac Sodium|Can. J. Bot.62(3): 495-500|1984|10.1139/b84-073
44141|T||Tjia,B.|Growth Regulator Studies on Petunias|Flor. Rev.167(4337): 12-14, 16, 45-48|1981|
44142|T||Stefan,I.|Investigations on Herbicides Application in Apricot Orchards|Acta Hortic.121:341-345|1983|10.17660/ActaHortic.1983.121.47
44143|T||Richard,E.P.,Jr., and J.E. Street|Herbicide Performance in Rice (Oryza sativa) Under Three Flooding Conditions|Weed Sci.32(2): 157-162|1984|10.1017/S0043174500058719
44144|T||Kowalewski,E.|Investigations on Using Growth Regulator Flordimex with the Aim of Once-Over Harvest of Tomatoes|Acta Hortic.137:383-387|1983|10.17660/ActaHortic.1983.137.45
44145|T||Matlob,A.N., and E.A. Basher|The Effect of Growth Regulators on Sex Expression and Yield of Summer Squash (Cucurbita pepo L.)|Acta Hortic.137:361-366|1983|10.17660/ActaHortic.1983.137.42
44146|T||Mekers,O., M. De Proft, and L. Jacobs|Prevention of Unwanted Flowering of Ornamental Bromeliaceae by Growth Regulating Chemicals|Acta Hortic.137:217-223|1983|10.17660/ActaHortic.1983.137.23
44147|T||Eris,A.|Effect of Salicylic Acid and Some Growth Regulators on the Stomatal Resistance of Pepper Seedling Leaves|Acta Hortic.137:189-195|1983|10.17660/ActaHortic.1983.137.20
44148|T||Blanco,A.|Effects of Growth Regulators on Shoot Regrowth and Wound Healing of Pruned Almond Branches|Acta Hortic.137:169-178|1983|10.17660/ActaHortic.1983.137.17
44149|T||Arnold,C.E., J.H. Aldrich, and F.G. Martin|Vegetative and Flowering Response of Peach to Mefluidide|Acta Hortic.137:145-152|1983|10.17660/ActaHortic.1983.137.15
44150|T||Tukey,L.D.|Vegetative Control and Fruiting on Mature Apple Trees Treated with PP333|Acta Hortic.137:103-109|1983|10.17660/ActaHortic.1983.137.10
44151|T||Johann,G.|Effect of Growth Regulators on Branching Habit of Some Apple Cultivars in the Nursery|Acta Hortic.137:87-93|1983|10.17660/ActaHortic.1983.137.8
44152|T||Edgerton,L.J.|Effects of Some Growth Regulators on Branching and Flowering of Young Apple Trees|Acta Hortic.137:77-82|1983|10.17660/ActaHortic.1983.137.6
44153|T||Moyer,J.R.|Yield and Nutrient Compostion of Orchardgrass Hay as Affected by Dandelion Control|Can. J. Plant Sci.64(2): 295-302|1984|10.4141/cjps84-043
44154|T||Caso,O.H., and S. Radice|Response of Fragaria X Ananassa Duch. cv. Rabunda Plants to Growth Regulators|Phyton (Horn) (Multiple Languages)4(2): 201-206|1982|
44155|T||Lewis,A.J., and J.S. Lewis|Height Control of Lilium Longiflorum Thunb. 'Ace' Using Ancymidol Bulb-Dips|Lily Yearbook N. Am. Lily Soc.35:117-119|1982|
44156|T||Hageman,L.H., and R. Behrens|Chlorsulfuron Induction of Leaf Abscission in Velvetleaf (Abutilon theophrasti)|Weed Sci.32(1): 132-137|1984|10.1017/S0043174500058641
44157|T||Waldecker,M.A., and D.L. Wyse|Quackgrass (Agropyron repens) Control in Soybeans (Glycine max) with BAS 9052 OH, KK-80, and Ro-13-8895|Weed Sci.32(1): 67-75|1984|10.1017/S0043174500058537
44158|T||Meyer,R.E., and R.W. Bovey|Response of Macartney Rose (Rosa bracteata) and Understory Vegetation to Herbicides|Weed Sci.32(1): 63-67|1984|10.1017/S0043174500058525
44159|T||Donald,W.W.|Chlorsulfuron Effects on Shoot Growth and Root Buds of Canada Thistle (Cirsium Arvense)|Weed Sci.32(1):42-50|1984|10.1017/S0043174500058495
44160|T||Meyer,R.E., J.D. Hanson, and A.J. Dye|Correlation of Honey Mesquite Response to Herbicides with Three Plant Variables and Soil Water|J. Range Manag.36(5): 613-615|1983|10.2307/3898353
44161|T||Duncan,K.W., and C.J. Scifres|Yaupon and Associated Vegetation Response to Seasonal Tebuthiuron Applications|J. Range Manag.36(5): 568-571|1983|10.2307/3898341
44162|T||Field,R.J., and A.R. Whitford|Response of Perennial Ryegrass, Prairie Grass, and Browntop to the Growth Retardant, Mefluidide|N. Z. J. Exp. Agric.11(3): 199-203|1983|10.1080/03015521.1983.10427754
44163|T||Belander,G., and J.E. Winch|Herbicides for Sod-Seeding Legumes on Shallow Soil Pastures|Can. J. Plant Sci.65(4): 1049-1055|1985|10.4141/cjps85-134
44164|T||Parker,W.B., L.,Jr. Thompson, and F.M. Godley|Integrating Sethoxydim into Soybean (Glycine max) Weed Management Systems|Weed Sci.33(1): 100-108|1985|10.1017/S0043174500084009
44165|T||Hall,L.M., and M.D. Devine|Cross-Resistance of a Chlorsulfuron-Resistant Biotype of Stellaria Media to a Triazolopyrimidine Herbicide|Plant Physiol.93(3): 962-966|1990|10.1104/pp.93.3.962
44166|T||Matthews,J.M., J.A.M. Holtum, D.R. Liljegren, B. Furness, and S.B. Powles|Cross-Resistance to Herbicides in Annual Ryegrass (Lolium rigidum) I. Properties of the Herbicide Target Enzymes Acetyl-Coenzyme A Carboxylase and Acetolactate Synthase|Plant Physiol.94(3): 1180-1186|1990|10.1104/pp.94.3.1180
44168|T||Durner,J., V. Gailus, and P. Boger|New Aspects on Inhibition of Plant Acetolactate Synthase by Chlorsulfuron and Imazaquin|Plant Physiol.95(4): 1144-1149|1991|10.1104/pp.95.4.1144
44169|T||Christopher,J.T., S.B. Powles, D.R. Liljegren, and J.A.M. Holtum|Cross-Resistance to Herbicides in Annual Ryegrass (Lolium rigidum).II. Chlorsulfuron Resistance Involves a Wheat-Like Detoxification System|Plant Physiol.95(4): 1036-1043|1991|10.1104/pp.95.4.1036
44170|T||Royuela,M., A. Munoz-Rueda, and C. Gonzalez-Murua|Performance and Soil Persistence of Chlorsulfuron When Used for Wheat Production in Spain|Weed Sci.38(6): 546-552|1990|10.1017/S0043174500051468
44171|T||Devlin,R.M., and I.I. Zbiec|Effect of BAS-145-138 as an Antidote for Sulfonylurea Herbicides|Weed Technol.4(2): 337-340|1990|10.1017/S0890037X00025501
44172|T||Shaw,D.R., H.P. Rainero, C.A. Smith, M.B. Wixson, W.R.A.S. Ratnayake, S.A. Bruff, and L.J. Newsom|Emergence and Growth of Sicklepod (Cassia obtusifolia) with Various Planting and Herbicide Incorporation Depths|Weed Sci.38(4-5): 401-405|1990|10.1017/S0043174500056745
44173|T||Adcock,T.E., P.A. Banks, and D.C. Bridges|Effects of Preemergence Herbicides on Soybean (Glycine max):  Weed Competition|Weed Sci.38(2): 108-112|1990|10.1017/S0043174500056228
44175|T||Jones,J.D., B.J. Gossett, J.R. Harris, and J.E. Toler|Cowpea (Vigna unguiculata) Control in Soybean (Glycine max) with Acifluorfen, Chlorimuron, and Thiameturon|Weed Technol.3(3): 518-522|1989|10.1017/S0890037X00032693
44176|T||Klingaman,T.E., and T.F. Peeper|Weed Control in Winter Wheat (Triticum aestivum) with Chlorsulfuron and CGA 131036 and Comparison of Modes of Action|Weed Technol.3(3): 490-496|1989|10.1017/S0890037X00032632
44177|T||Griffin,J.L., and R.J. Habetz|Soybean (Glycine max) Tolerance to Preemergence and Postemergence Herbicides|Weed Technol.3(3): 459-462|1989|10.1017/S0890037X00032565
44178|T||Saari,L.L., J.C. Cotterman, and M.M. Primiani|Mechanism of Sulfonylurea Herbicide Resistance in the Broadleaf Weed, Kochia scoparia|Plant Physiol.93(1): 55-61|1990|10.1104/pp.93.1.55
44179|T||Primiani,M.M., J.C. Cotterman, and L.L. Saari|Resistance of Kochia (Kochia scoparia) to Sulfonylurea and Imidazolinone Herbicides|Weed Technol.4(1): 169-172|1990|10.1017/S0890037X00025185
44180|T||Malik,N., and J. Waddington|Alfalfa (Medicago sativa) Seed Yield Response to Herbicides|Weed Technol.4:63-67|1990|10.1017/S0890037X00024994
44181|T||Dernoeden,P.H.|Safety and Overseeding Effects of Chlorsulfuron in Turfgrasses|Proc. Annu. Meet. Northeast. Weed Sci. Soc.44:114-115|1990|
44182|T||Dernoeden,P.H.|Comparison of Three Herbicides for Selective Tall Fescue Control in Kentucky Bluegrass|Agron. J.82(2): 278-282|1990|10.2134/agronj1990.00021962008200020020x
44183|T||Giardini,M.C., and S. Carosi|Effects of Chlorsulfuron on Polyamine Content in Maize Seedlings|Pestic. Biochem. Physiol.36(3): 229-236|1990|10.1016/0048-3575(90)90030-6
44184|T||Blackshaw,R.E.|Control of Stinkweed (Thlaspi arvense) and Flixweed (Descurainia sophia) in Winter Wheat (Triticum aestivum)|Can. J. Plant Sci.70(3): 817-824|1990|10.4141/cjps90-099
44185|T||Lemerle,D., A.R. Leys, C.R. Kidd, and B.R. Cullis|Influences of Soil pH and Climate on the Tolerances of Barley and Wheat to Chlorsulfuron|Aust. J. Exp. Agric.30(5): 629-635|1990|10.1071/EA9900629
44186|T||Miki,B.L., H. Labbe, J. Hattori, T. Ouellet, J. Gabard, G. Sunohara, P.J. Charest, and V.N. Iyer|Transformation of Brassica napus Canola Cultivars with Arabidopsis thaliana Acetohydroxyacid Synthase Genes and Analysis of Herbicide Resistance|Theor. Appl. Genet.80(4): 449-458|1990|10.1007/BF00226744
44187|T||Derksen,D.A.|Dicamba, Chlorsulfuron, and Clopyralid as Sprayer Contaminants on Sunflower (Helianthus annuus), Mustard (Brassica juncea), and Lentil (Lens culinaris), Respectively|Weed Sci.37(4): 616-621|1989|10.1017/S0043174500072507
44188|T||Gabard,J.M., P.J. Charest, V.N. Iyer, and B.L. Miki|Cross-Resistance to Short Residual Sulfonylurea Herbicides in Transgenic Tobacco Plants|Plant Physiol.91(2): 574-580|1989|10.1104/pp.91.2.574
44189|T||Pacheco,J.L., and D.S. Jarrett|Late Post Application Timing of Bensulfuron Methyl in California's Water Seeded Rice|Proc. West. Soc. Weed Sci.42:194-202|1989|
44190|T||Moore,J.H., and J.F. Elliott|Wine Grape-Vine Tolerance to Chlorsulfuron and Metsulfuron Methyl Herbicides|Plant Prot. Q.4(3): 100-103|1989|
44191|T||Sebastian,J.S., K.G. Beck, and D.E. Hanson|Perennial Pepperweed Control with Metsulfuron, Chlorosulfuron, and 2,4-D on Colorado Rangeland|Res. Prog. Rep. West. Soc. Weed Sci.:7-8|1989|
44192|T||Krall,J.M., and S.D. Miller|Winter Wheat Cultivar Response to Chlorsulfuron and DPX-G8311|Res. Prog. Rep. West. Soc. Weed Sci.:373-375|1989|
44193|T||Schoenholts,S.H., and B.L. Barber|The Impact of Hericides on Loblolly Pine Plantation Establishment in East Texas|Gen. Tech. Rep. SO74:341-348|1989|
44194|T||Leys,A.R., and F.W. Slife|Absorption and Translocation of 14C-Chlorsulfuron and 14C-Metsulfuron in Wild Garlic (Allium vineale)|Weed Sci.36(1): 1-4|1988|10.1017/S004317450007435X
44196|T||Fay,P.K., and E.S. Davis|Testing Chlorsulfuron for Prostrate Knotweed (Polygonum aviculare L.) Control Along Sidewalk Edges|Res. Prog. Rep. West. Soc. Weed Sci.:144-|1988|
44198|T||Lockley,T.C., and A.J.,Jr. Laiche|Relative Phytotoxicity of Chlorpyrifos in a Standard Potting Medium to Foliage and Woody Landscape Plants|Res.Rep.Miss.Agric.For.Exp.Stn.15(7): 4 p.|1990|
44199|T||Moyer,J.R., P. Bergen, and G.C. Kozub|Chlorsulfuron Persistence and Response of Legumes in an Alkaline Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(1): 37-56|1989|
44200|T||Gorla,M.S., E. Ottaviano, E. Frascaroli, and P. Landi|Herbicide-Tolerant Corn by Pollen Selection|Sex. Plant Reprod.2(2): 65-69|1989|10.1007/BF00191992
44201|T||Martin,D.A., S.D. Miller, and H.P. Alley|Spring Wheat Response to Herbicides Applied at Three Growth Stages|Agron. J.82(1): 95-97|1990|10.2134/agronj1990.00021962008200010022x
44202|T||Asghari,J.B., S.A. Dewey, and T.A. Tindall|Downslope Movement of Chlorsulfuron After Conventional and Over-Snow Applications to Winter Wheat|Soil Sci.148(3): 227-230|1989|10.1097/00010694-198909000-00010
44203|T||Leif,J.W.I.I., O.C. Burnside, and A.R. Martin|Efficacy of CGA-92194 and Flurazole in Protecting Grain Sorghum (Sorghum bicolor) from Herbicide Injury|Weed Sci.35(4): 547-553|1987|10.1017/S0043174500060537
44204|T||Sebastian,S.A., and R.S. Chaleff|Soybean Mutants with Increased Tolerance for Sulfonylurea Herbicides|Crop Sci.27(5): 948-952|1987|10.2135/cropsci1987.0011183X002700050025x
44205|T||Robbins,J., and T.L. Rost|Chlorsulfuron Inhibition of Cell Cycle Progression and the Recovery of G1 Arrested Cells by Ile and Val|J. Plant Growth Regul.6(2): 67-74|1987|10.1007/BF02026456
44206|T||Ivany,J.A.|Chlorsulfuron Use in Barley and Residual Effect on Potato and Rutabaga Grown in Rotation|Can. J. Plant Sci.67(1): 337-341|1987|10.4141/cjps87-048
44207|T||Fredrickson,D.R., and P.J. Shea|Effect of Soil pH on Degradation, Movement, and Plant Uptake of Chlorsulfuron|Weed Sci.34:328-332|1986|10.1017/S0043174500066911
44208|T||Mersie,W., and C.L. Foy|Absorption and Translocation of Root Applied Chlorsulfuron in Wheat and Barley|Proc. South. Weed Sci. Soc.39:435-440|1986|
44209|T||Spratling,D.L., and R.E. Whitesides|Differential Tolerance of Spring Wheat and Spring Barley Cultivars to Three Sulfonylurea Herbicides|In: Res.Prog.Rep., West.Soc.Weed Sci.:204-206|1986|
44210|T||Fay,P.K., and E.S. Davis|The Effect of Repeated Application of Chlorsulfuron on Canada Thistle Plant Density|Res. Prog. Rep. West. Soc. Weed Sci.:207-208|1986|
44211|T||Whitesides,R.E., and D.G. Swan|Soil Persistence of Chlorsulfuron, Dicamba, and Picloram as Measured in a Bioassay Study with Peas and Lentils|Res. Prog. Rep. West. Soc. Weed Sci.:166-|1986|
44212|T||Fay,P.K., and E.S. Davis|The Residual Control of Canada Thistle by Clopyralid|Res. Prog. Rep. West. Soc. Weed Sci.:209-|1986|
44213|T||Mersie,W., and C.L. Foy|Effects of Acidity of Simulated Rain and Its Influence on the Phytotoxicity of Chlorsulfuron on Velvetleaf and Barley|Environ. Exp. Bot.26(4): 341-347|1986|10.1016/0098-8472(86)90021-3
44214|T||Sloan,M.E., and N.D. Camper|Effects of Alachlor and Metolachlor on Cucumber Seedlings|Environ. Exp. Bot.26(1): 1-7|1986|10.1016/0098-8472(86)90046-8
44215|T||Mersie,W., and C.L. Foy|Phytotoxicity and Adsorption of Chlorsulfuron as Affected by Soil Properties|Weed Sci.33(4): 564-568|1985|10.1017/S0043174500082850
44216|T||Ezra,G., J.H. Dekker, and G.R. Stephenson|Tridiphane as a Synergist for Herbicides in Corn (Zea mays) and Proso Millet (Panicum miliaceum)|Weed Sci.33(3): 287-290|1985|10.1017/S0043174500082308
44217|T||Khodayari,K., R.E. Frans, and K.H. Akkari|Evaluation of Chlorsulfuron in Wheat (Triticum aestivum) and in a Wheat-Soybean (Glycine max) Double-Cropping System|Weed Sci.33(5): 746-749|1985|10.1017/S0043174500083223
44218|T||Nalewaja,J., and Z. Woznica|Environment and Chlorsulfuron Phytotoxicity|Weed Sci.33(3): 395-399|1985|10.1017/S0043174500082497
44219|T||Anderson,R.L., and M.R. Barrett|Residual Phytotoxicity of Chlorsulfuron in Two Soils|J. Environ. Qual.14(1): 111-114|1985|10.2134/jeq1985.00472425001400010023x
44220|T||Rubin,B., and J.E. Casida|R-25788 Effects on Chlorsulfuron Injury and Acetohydroxyacid Synthase Activity|Weed Sci.33(4): 462-468|1985|10.1017/S0043174500082667
44221|T||Groves,K.E.M., and R.K. Foster|A Corn (Zea mays L.) Bioassay Technique for Measuring Chlorsulfuron Levels in Three Saskatchewan Soils|Weed Sci.33(6): 825-828|1985|10.1017/S0043174500083430
44222|T||Hall,J.C., H.D. Bestman, M.D. Devine, and W.H. Vanden Born|Contribution of Soil Spray Deposit from Postemergence Herbicide Applications to Control of Canada Thistle (Cirsium arvense)|Weed Sci.33(6): 836-839|1985|10.1017/S0043174500083454
44223|T||De Villiers,O.T., and H.M. Koch|The Effect of the Herbicide Chlorsulfuron on Photochemical Reactions in Isolated Chloroplasts of Phaseolus vulgaris|S. Afr. J. Bot.5(4): 262-264|1985|10.1016/S0254-6299(16)31655-6
44225|T||Ray,T.B.|Site of Action of Chlorsulfuron. Inhibition of Valine and Isoleucine Biosynthesis in Plants|Plant Physiol.75(3): 827-831|1984|10.1104/pp.75.3.827
44226|T||Mersie,W., and C.L. Foy|Safening Corn Against Chlorsulfuron and DPX-T6376 Injury|Proc. South. Weed Sci. Soc.37:328-334|1984|
44227|T||Suttle,J.C., H.R. Swanson, and D.R. Schreiner|Effect of Chlorsulfuron on Phenylpropanoid Metabolism in Sunflower Seedlings|J. Plant Growth Regul.2(2): 137-149|1983|10.1007/BF02042242
44228|T||Rebuffo-Gfeller,M., and A. Rios-Garcia|Residues from Winter Applications of Chlorsulfuron in Summer Crop (Field Crops,Herbicide, Soil Pollution, Uruguay)|Investig. Agron.4(1): 72-73|1983|
44229|A||Dechoretz,N., and L.W.J. Anderson|Growth of Sago Pondweed from Tubers Exposed to Various Concentrations of Chlorsulfuron and DPX5648|Res. Prog. Rep. West. Soc. Weed Sci.:262-263|1982|
44230|T||Dechoretz,N., and L.W.J. Anderson|Response of Sago Pondweed to Chlorsulfuron and DPX5648|In: Res.Prog.Rep., West.Soc.Weed Sci.:258-259|1982|
44231|T||Hastings,F.L., A.S. Jones, and C.K. Franklin|Observations on Phytotoxicity|Gen.Tech.Rep.SE-21, U.S.D.A., Southeast.For.Exp.Stn., Asheville, NC:6 p.|1981|
44232|T||Chow,P.N.P.|Adjuvant Enhancement of Herbicidal Activity, Penetration and Translocation of Chlorsulfuron in Relation to Leaf-Cell Membrane Permeability of Rapeseed|In: P.N.P.Chow and C.A.Grant (Eds.), Herbicide Activity in Plants and Soils: Proc 11th Workshop of Chemistry and Biochemistry of Herbicides, Agriculture Canada Research Station, Brandon, Manitoba:66-77|1984|
44234|T||Panda,K.K., M. Lenka, and B.B. Panda|Monitoring and Assessment of Mercury Pollution in the Vicinity of a Chloralkalai Plant. II Plant-Availability, Tissue-Concentration and Genotoxicity of Mercury from Agricultural Soil Contaminated with Solid Waste Assess|Environ. Pollut.76:33-42|1992|10.1016/0269-7491(92)90114-P
44235|T||Abdel-Reheem,S., M.H. Belal, and G. Gupta|Photosynthesis Inhibition of Soybean Leaves by Insecticides|Environ. Pollut.74:245-250|1991|10.1016/0269-7491(91)90073-6
44236|T||Meerow,A.W.|Fungicide Treatment of Pygmy Date Palm Seeds Affects Seedling Emergence|Hortscience29(10): 1201-|1994|10.21273/HORTSCI.29.10.1201
44237|T||Sikora,F.J., S.S. Harper, and P.M. Giordano|Phytotoxicity of a Chemical Weapon Simulant, Triethyl Phosphate|J. Environ. Qual.23(4): 701-705|1994|10.2134/jeq1994.00472425002300040012x
44238|T||Chakravarty,B., and S. Srivastava|Responses to Cadmium Toxicity During In Vitro Growth in Arachis hypogaea|Bull. Environ. Contam. Toxicol.52:749-755|1994|10.1007/BF00195498
44239|T||Shea,P.J., J.B. Weber, and M.R. Overcash|Uptake and Phytotoxicity of Di-n-Butyl Phthalate in Corn (Zea mays)|Bull. Environ. Contam. Toxicol.29(2): 153-158|1982|10.1007/BF01606143
44240|T||He,Y., and H.Y. Wetzstein|Pollen Degeneration and Retarded Leaf Development from Fungicidal Sprays Applied During Microspore Development and Shoot Expansion|J. Hortic. Sci.69(6): 975-983|1994|10.1080/00221589.1994.11516535
44241|T||Zhu,L., and W.R. Cullen|Effects of Mercury (II) Species on Cell Suspension Cultures of Catharanthus roseus|Bull. Environ. Contam. Toxicol.53:779-786|1994|10.1007/BF00196954
44242|T||Machado-Neto,J.G., J.O. Machado, M. Barreto, L.A. Palladini, and M.B. Matallo|Effect of Benomyl on the Formation of Mycorrhiza in Roots of Tomato (Lycopersicon esculentum Mill.) Seedlings|Bull. Environ. Contam. Toxicol.52:864-870|1994|10.1007/BF00200695
44244|T||Fargasova,A.|Effect of Pb, Cd, Hg, As, and Cr on Germination and Root Growth of Sinapis alba Seeds|Bull. Environ. Contam. Toxicol.52:452-456|1994|10.1007/BF00197836
44245|T||Heitholt,J.J., R.H. Hodgson, and T.J. Tworkoski|Toxicity and Uptake of Nitroguanidine in Plants|Bull. Environ. Contam. Toxicol.44:751-758|1990|10.1007/BF01701798
44247|T||Bhatti,M.A., K. Al Khatib, A.S. Felsot, R. Parker, and S. Kadir|Effects of Simulated Chlorsulfuron Drift on Fruit Yield and Quality of Sweet Cherries (Prunus avium L.)|Environ. Toxicol. Chem.14(3): 537-544|1995|
44248|T||Amer,S.M., and O.R. Farah|"Cytological Effects of Pesticides III. Meiotic Effects of N-Methyl-1-Naphthyl Carbamate ""Sevin"""|Cytologia33:337-344|1968|10.1508/cytologia.33.337
44249|T||Veeraswamy,J., T. Padmavathi, and K. Venkateswarlu|Effect of Selected Insecticides on Plant Growth and Mycorrhizal Development in Sorghum|Agric. Ecosyst. Environ.43:337-343|1993|10.1016/0167-8809(93)90096-8
44250|T||Mersie,W., H.A. Norman, and P. Pillai|Response of Beans and Hairy Fleabane Leaves to Ozone and Paraquat with and Without the Antiozonant, Ethylenediurea|Environ. Exp. Bot.34(4): 379-383|1994|10.1016/0098-8472(94)90020-5
44251|T||Amer,S.M., and O.R. Farah|"Cytological Effects of Pesticides VIII. Effects of the Carbamate Pesticides ""IPC"", ""Rogor"", and ""Duphar"" on Vicia faba"|Cytologia41:597-606|1976|10.1508/cytologia.41.597
44253|T||Knight,W.G., J.A. Morgan, W.D. Guenzi, and M.C. Shoop|Soil-Applied Atrazine Alters Blue Grama Physiology and Indirectly Influences Soil Nitrogen|Agron. J.85:1029-1035|1993|10.2134/agronj1993.00021962008500050014x
44255|T||Gonzalez Castanon,M.L.|Early Flowering in Seedlings of Asparagus Promoted by Diuron and Atrazine|NATO Adv. Study. Inst. Ser. Ser. A Life Sci.186:445-448|1990|
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44361|T||Singh,B., B.R. Chhipa, and P. Lal|A Study on Sodicity of Waters and Zinc Interactions in Relation to Soil Properties, Growth and Yield of Wheat Grown on Loamy Sand Soil|Agrochimica36(1-2): 1-9|1992|
44362|T||Muralidharudu,Y.|Studies on Availability of Zinc Applied Through Chelated Forms to Rice|J. Indian Soc. Soil Sci.39(1): 114-117|1991|
44363|T||Rico,M.I., J.M. Alvarez, and J.I. Mingot|Efficiency of Zinc Ethylenediaminetetraacetate and Zinc Lignosulfonate Soluble and Coated Fertilizers for Maize in Calcareous Soil|J. Agric. Food Chem.44(10): 3219-3223|1996|10.1021/jf950746u
44364|T||Reinecke,A.J., S.A. Reinecke, and H. Lambrechts|Uptake and Toxicity of Copper and Zinc for the African Earthworm, Eudrilus eugeniae (Oligochaeta)|Biol. Fertil. Soils24(1): 27-31|1997|10.1007/BF01420216
44365|T||Yulin,K., H. Xinjiang, and L. Genglin|A Study on Possible Zinc Phytotoxicity to Corn Growth|Zhongguo Nongye Kexue (Non-English)25(1): 58-67|1992|
44366|T||Kumar,V., D.V. Yadav, and D.S. Yadav|Effects of Nitrogen Sources and Copper Levels on Yield, Nitrogen and Copper Contents of Wheat (Triticum aestivum L.)|Plant Soil126(1): 79-83|1990|10.1007/BF00041371
44367|T||Cieslinski,G., G.H. Neilsen, and E.J. Hogue|Effect of Soil Cadmium Application and pH on Growth and Cadmium Accumulation in Roots, Leaves and Fruit of Strawberry Plants (Fragaria X ananassa Duch.)|Plant Soil180(2): 267-276|1996|10.1007/BF00015310
44368|T||Kochar,R.K., B.R. Arora, and V.K. Nayyar|Effect of Sulfur and Zinc Application on Maize Crop|J. Indian Soc. Soil Sci.38(2): 339-341|1990|
44369|T||Subrahmanyam,K., A.K. Nair, and D.V. Singh|Evaluation of Diammonium and Polyphosphates as Carriers of Iron and Zinc in Japanese Mint (Ratoon)-Mungbean Cropping Sequence|J. Indian Soc. Soil Sci.39(3): 477-481|1991|
44370|T||Singh,M., and N. Singh|Selenium Toxicity in Plants and Its Detoxication by Phosphorus|Soil Sci.126(5): 255-262|1978|10.1097/00010694-197811000-00001
44371|T||Chappelka,A.H., J.S. Kush, G.B. Runion, S. Meier, and W.D. Kelley|Effects of Soil-Applied Lead on Seedling Growth and Ectomycorrhizal Colonization of Loblolly Pine|Environ. Pollut.72(4): 307-316|1991|10.1016/0269-7491(91)90004-G
44372|T||Pandeya,S.B., A.K. Singh, and P. Jha|Labile Pool of Cadmium in Sludge-treated Soils|Plant Soil203(1): 1-13|1998|10.1023/A:1004328118626
44373|T||Chlopecka,A., and D.C. Adriano|Zinc Uptake by Plants on Amended Polluted Soils|Soil Sci. Plant Nutr.43:1031-1036|1997|10.1080/00380768.1997.11863712
44374|T||Kucharski,J., and T. Niklewska|The Influence of Zinc on the Yields of Broad Bean and Microbiological Activity of Soil|Pol. J. Soil Sci.25(1): 71-77|1992|
44375|T||Tlustos,P., J. Balik, J. Szakova, and D. Pavlikova|The Accumulation of Arsenic in Radish Biomass when Different Forms of As were Applied in the Soil (Akumulace Arzenu Redvicce po Pridavku vybranych Forem as do Pudy)|Rostl. Vyroba (Multiple Languages)44(1): 7-13|1998|
44376|T||Dhillon,K.S., and S.K. Dhillon|Factors Affecting the Level of Selenium in Plants Grown in Seleniferous Soils|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India1/2:371-376|1998|
44377|T||Perfect,T.J., A.G. Cook, B.R. Critchley, U. Critchley, A.L. Davies, M.J. Swift, A. Russell-Smith, and R. Yeadon|The Effect of DDT Contamination on The Productivity of a Cultivated Forest Soil in the Sub-humid Tropics|J. Appl. Ecol.16(3): 705-709|1979|10.2307/2402847
44378|T||Cataldo,D.A., S.D. Harvey, and R.J. Fellows|An Evaluation of the Environmental Fate and Behavior of Munitions Material (TNT, RDX) in Soil and Plant Systems. Environmental Fate and Behavior of RDX|Final Rep.No.PNL-7529, U.S.Army Medical Research and Development Command, Pacific Northwest Lab., Richland, WA:82 p.|1990|
44379|T||Janssen,M.P.M., A. Bruins, T.H. DeVries, and N.M. Van Straalen|Comparison of Cadmium Kinetics in Four Soil Arthropod Species|Arch. Environ. Contam. Toxicol.20:305-312|1991|10.1007/BF01064395
44380|T||Ohno,T., E.I. Sucoff, M.S. Erich, P.R. Bloom, C.A. Buschena, and R.K. Dixon|Growth and Nutrient Content of Red Spruce Seedlings in Soil Amended with Aluminium|J. Environ. Qual.17(4): 666-672|1988|10.2134/jeq1988.00472425001700040024x
44381|T||Vickers,J.C., J.M. Zak, and S.O. Odurukwe|Effects of pH and Al on the Growth and Chemical Composition of Cicer Milkvetch|Agron. J.69:511-513|1977|10.2134/agronj1977.00021962006900030044x
44382|T||Phillips,C.T., R.T. Checkai, and R.S. Wentsel|Toxicity of Selected Munitions and Munition-Contaminated Soil on the Earthworm (Eisenia foetida)|Edgewood Res., Dev.& Eng.Ctr., Aberdeen Proving Ground, MD:22-|1993|
44383|T||Singh,B., V. Kumar, R.S. Antil, and V.S. Ahlawat|Cadmium Intake by Wheat as Influenced by Nitrogen and FYM Application in Sandy Soil|Crop Res. (Hisar)5(2): 243-248|1992|
44384|T||Sharma,U.C., and J.S. Grewal|Potato Response to Zinc as Influenced by Genetic Variability|J. Indian Potato Assoc.17(1-2): 1-5|1990|
44385|T||Bogomolov,D.M., S.K. Chen, R.W. Parmelee, S. Subler, and C.A. Edwards|An Ecosystem Approach to Soil Toxicity Testing:  A Study of Copper Contamination in Laboratory Soil Microcosms|Appl. Soil Ecol.4(2): 95-105|1996|10.1016/0929-1393(96)00112-6
44386|T||Mandal,P.K., and K.P. Sarkar|Response of Jute Crop (Corchorus capsularis L.) to Chelated Zinc|Environ. Ecol.12(4): 785-787|1994|
44387|T||Banuelos,G.S., H.A. Ajwa, B. Mackey, L. Wu, C. Cook, S. Akohoue, and S. Zambruzuski|Evaluation of Different Plant Species Used for Phytoremediation of High Soil Selenium|J. Environ. Qual.26:639-646|1997|10.2134/jeq1997.00472425002600030008x
44388|T||Clegg,S., and G.R. Gobran|Effects of Aluminium on Growth and Root Reactions of Phosphorus Stressed Betula Pendula Seedlings|Plant Soil168-169:173-178|1995|10.1007/BF00029326
44389|T||Czuba,M., and A. Kraszewski|Long-Term Cadmium Exposure Accelerates Oxidant Injury: Significance of Bound/Free Water States during Long-Term Metal Stress|Ecotoxicol. Environ. Saf.29(3): 330-348|1994|10.1016/0147-6513(94)90006-X
44391|T||Kuhn,A.J., J. Bauch, and W.H. Schroder|Monitoring Uptake and Contents of Mg, Ca and K in Norway Spruce as Influenced by pH and Al, Using Microprobe Analysis and Stable Isotope Labelling|Plant Soil168-169:135-150|1995|10.1007/BF00029322
44392|T||Woolson,E.A., J.H. Axley, and P.C. Kearney|The Chemistry and Phytotoxicity of Arsenic in Soils:  I.  Contaminated Field Soils|Proc. Soil Sci. Soc. Am.35:938-943|1971|10.2136/sssaj1971.03615995003500060027x
44393|T||Gaur,A., and S.K. Gupta|Lipid Components of Mustard Seeds (Brassica juncea l.) as Influenced by Cadmium Levels|Plant Foods Hum. Nutr. (Dordr.)46(2): 93-102|1994|10.1007/BF01088760
44394|T||Baker,R.S., W.L. Barrentine, D.H. Bowman, W.L. Hawthorne, and J.V. Pettiet|Crop Response and Arsenic Uptake Following Soil Incorporation of MSMA|Weed Sci.24(3): 322-326|1976|10.1017/S0043174500066066
44395|T||Davis,J.B., and R.L. Barnes|Effects of Soil-Applied Fluoride and Lead on Growth of Loblolly Pine and Red Maple|Environ. Pollut.5:35-44|1973|
44396|T||Lamoreaux,R.J., R.C. Strickland, and W.R. Chaney|The Plastochron Index as Applied to a Cadmium Toxicity Study|Environ. Pollut.16:311-317|1978|
44398|T||Davis,B.N.K.|Laboratory Studies on the Uptake of Dieldrin and DDT by Earthworms|Soil Biol. Biochem.3:221-233|1971|10.1016/0038-0717(71)90018-6
44400|T||Panda,R., and S.K. Sahu|Respiratory and Excretory Activity of Drawida willsi (Oligochaeta) in Zinc Applied Soil|Environ. Ecol.17(2): 383-387|1999|
44401|T||Nielsen,M.G., and G. Gissel-Nielsen|Selenium in Soil-Animal Relationships|Pedobiologia (Multiple Languages)15(1): 65-67|1975|10.1016/S0031-4056(23)00020-3
44402|T||Griffiths,D.C., K.A. Jeffs, G.C. Scott, F.E. Maskell, and P.F. Roberts|Relationships Between Control of Wheat Bulb Fly (Leptohylemyia-coarctata (Fall.)) and Amounts of Dieldrin, Carbophenothion and Chlorfenvinphos on Treated Seed|Plant Pathol.25(1): 1-12|1976|10.1111/j.1365-3059.1976.tb01907.x
44403|T||Spain,A.V.|The Effects of Carbaryl and DDT on the Litter Fauna of a Corsican Pine (Pinus nigra var. maritima) Forest: A Multivariate Comparison|J. Appl. Ecol.11(2): 467-481|1974|10.2307/2402201
44404|T||Harris,C.R., H.J. Svec, and W.W. Sans|Toxicological Studies on Cutworms.  X.  Laboratory and Field Microplot Studies on Effectiveness and Persistence of Some Experimental Insecticides Used to Control the Black Cutworm in Organic Soil|J. Econ. Entomol.66(1): 203-208|1973|10.1093/jee/66.1.203
44405|T||Harris,C.R., H.J. Svec, and W.W. Sans|Toxicological Studies on Cutworms.  IX.  Laboratory and Microplot Field Studies on Effectiveness and Persistence of Some Experimental Insecticides Used for Control of the Darksided Cutworm|J. Econ. Entomol.66(1): 199-203|1973|10.1093/jee/66.1.199
44406|T||Tashiro,H., and B.J. Fiori|Susceptibilities of European Chafer and Japanese Beetle Grubs to Chlordane and Dieldrin: Suggesting Reductions in Application Rates|J. Econ. Entomol.62(5): 1179-1183|1969|10.1093/jee/62.5.1179
44407|T||Harris,C.R., H.J. Svec, and W.W. Sans|Toxicological Studies on Cutworms. V. Field Studies on the Control of the Dark-sided Cutworm by Treatment of the Rye Crop Grown in Rotation with Tobacco|J. Econ. Entomol.62(6): 1441-1444|1969|10.1093/jee/62.6.1441
44408|T||Harris,C.R., and H.J. Svec|Toxicological Studies on Cutworms. VI. Laboratory Studies on the Toxicity of Several Experimental Insecticides to the Dark-Sided Cutworm as Soil Treatments and Stomach Poisons|J. Econ. Entomol.63(2): 605-609|1970|10.1093/jee/63.2.605
44410|T||Wenz,J.M.|Implications of Wildfire and Pesticide Application on Forest Soil Microarthropod Populations in Northeastern California|Ph.D. Thesis, University of California, Berkeley, CA:103 p.|1976|
44411|T||Blair,J.M., D.A.,Jr. Crossley, and S. Rider|Effects of Naphthalene on Microbial Activity and Nitrogen Pools in Soil-Litter Microcosms|Soil Biol. Biochem.21(4): 507-510|1989|10.1016/0038-0717(89)90122-3
44412|T||Gal,J.Y., and M.B. Bouche|Correlation of Lethal Concentrations of Heavy Metals with Tissue Levels of Earthworms|Final Report, University of France, Montpellier, France:34 p.|1988|
44415|T||Biro,B., K. Koves-Pechy, I. Voros, and I. Kadar|Toxicity of Some Field Applied Heavy Metal Salts to the Rhizobial and Fungal Microsymbionts of Alfalfa and Red Clover|Agrokem. Talajt. (Non-English)47(1-4): 265-276|1998|
44416|T||Baluk,A., and H. Bukiewicz|The Action of Increased Copper Content in Soil on Wicker Rooting and Growth (Dzialanie Poswyzszbnych Zawartosci Miedzi w Glebie na Ukorenianie sie i Wzrost Wikliny)|Pr. Nauk. Inst. Ochr. Rosl. (Multiple Languages)29(2): 71-80|1987|
44417|T||Anderson,L.W.J., J.C. Pringle, and R.W. Raines|Arsenic Levels in Crops Irrigated with Water Containing MSMA|Weed Sci.26(4): 370-373|1978|10.1017/S0043174500050128
44418|T||Haghiri,F.|Cadmium Uptake by Plants|J. Environ. Qual.2(1): 93-95|1973|10.2134/jeq1973.00472425000200010012x
44419|T||Mukhi,A.K., and U.C. Shukla|Effect of S and Zn on Yield and Their Uptake in Rice in Submerged Soil Conditions|J. Indian Soc. Soil Sci.39(4): 730-734|1991|
44420|T||Uribe,E., D.C. Martens, and D.E. Brann|Response of Corn (Zea mays L.) to Manganese Application on Atlantic Coastal Plain Soils|Plant Soil112(1): 83-88|1988|10.1007/BF02181756
44421|T||MacLean,A.J., and A.J. Dekker|Availability of Zinc, Copper and Nickel to Plants Grown in Sewage-Treated Soils|Can. J. Soil Sci.58:381-389|1978|10.4141/cjss78-045
44422|T||Kadar,I., and B. Morvai|Effect of Micropollutants on Soil and Crop on Calcareous Sandy Soil|Agrokem. Talajt. (Non-English)47(1-4): 207-214|1998|
44423|T||Kashyap,J., J.C. Sharma, and V.K. Gupta|Influence on Zn Levels on dry Matter Yield, Zn and P Concentration in Parts of Cotton Genotypes at Varying Growth Stages|J. Indian Soc. Soil Sci.36(2): 386-388|1988|
44424|T||Mitchell,R.L., M.D. Burchett, A. Pulkownik, and L. McCluskey|Effects of Environmentally Hazardous Chemicals on the Emergence and Early Growth of Selected Australian Plants|Plant Soil112(2): 195-200|1988|10.1007/BF02139995
44425|T||Thakur,N.P., and B.D. Kansal|Effect of Cadmium Application to Soils on dry Matter Yield and Cd Concentration in Maize Fodder|Indian J. Ecol.19(1): 15-19|1992|
44426|T||Sarkunan,V., A.K. Misra, and P.K. Nayar|Effect of Compost Lime and Phosphorus on Cadmium Toxicity in Rice|J. Indian Soc. Soil Sci.39(3): 595-597|1991|
44427|T||Dorman,C., F.H. Tucker, and R. Coleman|The Effect of Calcium Arsenate upon the Productivity of Several Important Soils of the Cotton Belt|J. Am. Soc. Agron.31:1020-1028|1939|10.2134/agronj1939.00021962003100120004x
44428|T||Singh,A., N.K. Goyal, and A.P. Gupta|Effect of Cadmium and Farm Yard Manure on the Concentration and Uptake of Zinc by Wheat in Texturally Different Soils|Crop Res. (Hisar)4(2): 199-205|1991|
44429|T||Mehra,R.K., B.L. Baser, A. Gaffar, and N. Singh|Effect of Soil Application of Manganese on dry Matter Yield and Uptake of Manganese and Iron by Wheat (Triticum aestivum L.)|Crop Res. (Hisar)4(1): 76-83|1991|
44430|T||Smilde,K.W., B. Van Luit, and W. Van Driel|The Extraction by Soil and Absorption by Plants of Applied Zinc and Cadmium|Plant Soil143(2): 233-238|1992|10.1007/BF00007878
44431|T||He,Q.B., and B.R. Singh|Cadmium Availablity to Plants as Affected by Repeated Applications of Phosphorus Fertilizers|Acta Agric. Scand. Sect. B45(1): 22-31|1995|
44432|T||Krishnan,G., G.L. Horst, and W.L. Powers|Growth and Development of Smooth Bromegrass and Tall Fescue in TNT-contaminated Soil|Environ. Pollut.107(1): 109-116|2000|10.1016/S0269-7491(99)00126-8
44433|T||Cole,H., D. MacKenzie, C.B. Smith, and E.L. Bergman|Influence of Various Persisitent Chlorinated Insecticides on the Macro and Micro Element Contituents of Zea mays and Phaseolus vulgaris Growing in Soil containing Various Amounts of These Materials|Bull. Environ. Contam. Toxicol.3(3): 141-154|1968|10.1007/BF01684450
44434|T||Nieminen,T.M.|The Effect of Soil Copper and Nickel on Survival and Growth of Scots Pine Saplings|Chemosphere36(4-5): 745-750|1998|10.1016/S0045-6535(97)10118-7
44435|T||Mclean,H.C., A.L. Weber, and J.S. Joffe|Arsenic Content of Vegetables Grown in Soils Treated with Lead Arsenate|J. Econ. Entomol.37(3): 315-316|1944|10.1093/jee/37.2.315
44436|T||Misra,A.|Effect of Zinc Stress in Japanese Mint as Related to Growth, Photosynthesis, Chlorophyll Contents and Secondary Plant Products - the Monoterpenes|Photosynthetica (Praha)26(2): 225-234|1992|
44437|T||Rhoads,F.M., S.M. Olson, and A. Manning|Copper Toxicity in Tomato Plants|J. Environ. Qual.18(2): 195-197|1989|10.2134/jeq1989.00472425001800020011x
44439|T||Patterson III,W.A., and J.J. Olson|Effects of Heavy Metals on Radicle Growth of Selected Woody Species Germinated on Filter Paper, Mineral and Organic Soil Substrates|Can. J. For. Res.13:233-238|1983|10.1139/x83-032
44440|T||Begonia,G.B., C.D. Davis, M.F.T. Begonia, and C.N. Gray|Growth Responses of Indian Mustard [Brassica juncea (L.) Czern.] and Its Phytoextraction of Lead from a Contaminated Soil|Bull. Environ. Contam. Toxicol.61(1): 38-43|1998|10.1007/s001289900726
44441|T||Srivastava,S., K. Shanker, R. Shrivastav, S. Das, S. Prakash, and M.M. Srivastava|Effect of Selenium Supplementation on the Uptake and Translocation of Chromium by Spinach (Spinacea oleracea)|Bull. Environ. Contam. Toxicol.60(5): 750-758|1998|10.1007/s001289900690
44442|T||Balsberg,A.M.|Plant Biomass, Primary Production and Litter Disappearance in a Filipendula ulmaria Meadow Ecosystem, and the Effects and Cadmium|Oikos38:72-90|1982|
44443|T||Balsberg,A.M.|Seasonal Changes in Concentration and Distribution of Supplied Cadmium in a Filipendula ulmaria Meadow Ecosystem|Oikos38(1): 91-98|1982|
44444|T||Carlson,R.W., and F.A. Bazzaz|Growth Reduction in American Sycamore (Plantanus occidentalis L.) Caused by Pb-Cd Interaction|Environ. Pollut.12(4): 243-253|1977|
44445|T||Jordan,M.J.|Effects of Zinc Smelter Emissions and Fire on a Chestnut-Oak Woodland|Ecology56(1): 78-91|1975|10.2307/1935301
44446|T||Wickliff,C., H.J. Evans, K.R. Carter, and S.A. Russell|Cadmium Effects on the Nitrogen Fixation System of Red Alder|J. Environ. Qual.9(2): 180-184|1980|10.2134/jeq1980.00472425000900020002x
44447|T||Carlson,R.W., and G.L. Rolfe|Growth of Rye Grass and Fescue as Affected by Lead-Cadmium-Fertilizer Interaction|J. Environ. Qual.8(3): 348-352|1979|10.2134/jeq1979.00472425000800030017x
44448|T||Martin,A.L.|Toxicity of Selenium to Plants and Animals|Am. J. Bot.23:471-483|1937|10.1002/j.1537-2197.1936.tb09012.x
44449|T||Rosehart,R.G., and J.Y. Lee|The Effect of Arsenic Trioxide on the Growth of White Spruce Seedlings|Water Air Soil Pollut.2:439-443|1973|10.1007/BF00585088
44450|T||Wallace,A., E.M. Romney, G.V. Alexander, and J. Kinnear|Phytotoxicity and Some Interactions of the Essential Trace Metals Iron, Manganese, Molybdenum, Zinc, Copper, and Boron|Commun. Soil Sci. Plant Anal.8(9): 741-750|1977|10.1080/00103627709366768
44453|T||Dell,B.|Copper Nutrition of Eucalyptus maculata Hook. Seedlings:  Requirements for Growth, Distribution of Copper and the Diagnosis of Copper Deficiency|Plant Soil167:181-187|1994|10.1007/BF00007943
44454|T||Enberg,A., and L. Wu|Selenium Assimilation and Differential Response to Elevated Sulfate and Chloride Salt Concentrations in Two Saltgrass Ecotypes|Ecotoxicol. Environ. Saf.32(2): 171-178|1995|10.1006/eesa.1995.1099
44455|T||Falandysz,J., H. Bona, and D. Danisiewicz|Silver Uptake by Agaricus bisporus from an Artificially Enriched Substrate|Z. Lebensm. -Unters. -Forsch.199:225-228|1994|10.1007/BF01193450
44456|T||Streit,B., and A. Jaggy|Effect of Soil Type on Copper Toxicity and Copper Uptake in Octolasium cyaneum (Lumbricidae)|In: P.Lebrun, et al.(Eds.), Trends in Soil Biology, Ottignies-Louvain-la-Neuve:569-575|1983|
44457|T||Khan,M.W., and M.A. Salam|Interactions of Meloidogyne javanica, Fusarium udum and Rhizobium on Pigeon Pea in the Presence of Nickel and Cobalt as Pollutants|Ann. Appl. Biol.116(3): 549-556|1990|10.1111/j.1744-7348.1990.tb06637.x
44459|T||Banuelos,G.S., H.A. Ajwa, L. Wu, X. Guo, S. Akohoue, and S. Zambrzuski|Selenium-Induced Growth Reduction in Brassica Land Races Considered for Phytoremediation|Ecotoxicol. Environ. Saf.36(3): 282-287|1997|10.1006/eesa.1996.1517
44460|T||Reddy,D.S., G. Reddy, and H. Polasa|Biotoxic Effects of Copper on Ureide Metabolism of Pigeon Pea|Bull. Environ. Contam. Toxicol.54(6): 884-891|1995|10.1007/BF00197974
44461|T||De Pasquale,R., A. Rapisarda, M.P. Germano, S. Ragusa, S. Kirjavainen, and E.M. Galati|Effects of Cadmium on Growth and Pharmacologically Active Constituents of the Medicinal Plant Coriandrum sativum L|Water Air Soil Pollut.84(1-2): 147-157|1995|10.1007/BF00479594
44462|T||Mishra,S., V. Singh, S. Srivastava, R. Srivastava, M.M. Srivastava, S. Dass, G.P. Satsangi, and S. Prakash|Studies on Uptake of Trivalent and Hexavalent Chromium by Maize (Zea mays)|Food Chem. Toxicol.33(5): 393-397|1995|10.1016/0278-6915(95)00004-L
44463|T||Gartside,D.W., and T. McNeilly|The Potential for Evaluation of Heavy Metal Tolerance in Plants.  II.  Copper Tolerance in Normal Populations of Different Plant Species|Heredity (Edinb.)32(3): 335-348|1974|10.1038/hdy.1974.42
44464|T||Crafts,A.S., and R.S. Rosenfels|Toxicity Studies with Arsenic in Eighty California Soils|Hilgardia12(3): 177-200|1939|10.3733/hilg.v12n03p177
44465|T||Hurd-Karrer,A.M.|Relation of Soil Reaction to Toxicity and Persistence of Some Herbicides in Greenhouse Plots|USDA Tech.Bull.911:31 p.|1946|
44466|T||Arnott,J.T., and A.L. Leaf|The Determination and Distribution of Toxic Levels of Arsenic in a Silt Loam Soil|Weed Sci.15(2): 121-124|1967|10.2307/4041179
44467|T||Selim,K.G., S.A.Z. Mahmoud, and M.T. El Mokadem|Effect of Dieldrin and Lindane on the Growth and Nodulation of Vicia faba|Plant Soil33:325-329|1970|10.1007/BF01378225
44468|T||Giordano,P.M., J.J. Mortvedt, and D.A. Mays|Effect of Municipal Wastes on Crop Yields and Uptake of Heavy Metals|J. Environ. Qual.4(3): 394-399|1975|10.2134/jeq1975.00472425000400030024x
44469|T||Dempster,J.P.|A Study of the Effects of DDT Applications Against Pieris rapae on the Crop Fauna|Proc. Br. Insectic. Fungic. Conf.1:19-25|1967|
44470|T||Dempster,J.P.|The Control of Pieris rapae with DDT III. Some Changes in the Crop Fauna|J. Appl. Ecol.5:463-475|1968|10.2307/2401573
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44474|T||John,M.K.|Effect of Lime on Soil Extraction and on Availability of Soil Applied Cadmium to Radish and Leaf Lettuce Plants|Sci. Total Environ.1:303-308|1972|10.1016/0048-9697(72)90025-3
44476|T||Dixit,U.C., and N. Patro|Effect of Levels of NPK, Zinc and Plant Density on Yield Attributes and Yield of Summer Rice|Environ. Ecol.12(1): 72-74|1994|
44477|T||Mandal,A.B., K.K. Sarkar, and D.P. Sadhu|Effect of Borax on Different Varieties of Rape and Mustard at New Alluvial Zone|Environ. Ecol.12(4): 945-946|1994|
44478|T||Anastasia,F.B., and W.J. Kender|The Influence of Soil Arsenic on the Growth of Lowbush Blueberry|J. Environ. Qual.2(3): 335-337|1973|10.2134/jeq1973.00472425000200030004x
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44480|T||Rand,J.R., and B.M. Braithwaite|Control of the Weevil (Amnemus quadrituberculatus) in Tropical Legume Pastures with Dieldrin and Heptachlor Pre-Sowing Soil Treatments|Aust. J. Exp. Agric. Anim. Husb.15(75): 545-549|1975|10.1071/EA9750545
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44482|T||White,J.C., J.W. Kelsey, P.B. Hatzinger, and M. Alexander|Factors Affecting Sequestration and Bioavailability of Phenanthrene in Soils|Environ. Toxicol. Chem.16(10): 2040-2045|1997|10.1002/etc.5620161008
44483|T||Malysowa,E., and B. Patorczyk-Pytlik|Reaction of Two Oat Varieties to Cadmium Content in the Soil|Pol. J. Soil Sci.24(2): 205-210|1991|
44484|T||He,M., and J. Yang|Effects of Different Forms of Antimony on Rice During the Period of Germination and Growth and Antimony Concentration in Rice Tissue|Sci. Total Environ.243-244:149-155|1999|10.1016/S0048-9697(99)00370-8
44485|T||Zheng,C., and H. Chen|Interaction of Pb and Cd in Soil-Water-Plant System and Its Mechanism.  I.  Pb-Cd Interaction in Red Soil-Plant System|Pedosphere6(1): 63-72|1996|
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44487|T||Karamanos,R.E., N. Hodge, and J.W.B. Stewart|The Effect of Sulfur on Manganese and Copper Nutrition of Canola|Can. J. Soil Sci.69(1): 119-125|1989|10.4141/cjss89-011
44488|T||Blatt,C.R.|Effect of Arsenic and Molybdenum on Plant Response of Cauliflower (Brassica oleracea) Grown in Sand Culture|In: M.L.VanBuesichem, (Ed.), Plant Nutr.Physiol.Appl., Kluwer Acad.Publ.41:303-306|1990|
44489|T||MacDonald,G.E., N.H. Peck, and J. Barnard|Snap Bean Plant Responses to Zinc Sulfate and Manganese Sulfate Fertilization on Tile-Drained Calcareous Glacial Till Soils|J. Am. Soc. Hortic. Sci.115(4): 540-546|1990|10.21273/JASHS.115.4.540
44490|T||Girwani,A., R.S. Babu, and R. Chandrasekhar|Response of Marigold (Tagetes erecta) to Growth Regulators and Zinc|Indian J. Agric. Sci.60(3): 220-222|1990|
44491|T||Wu,L., P.J. Van Mantgem, and X. Guo|Effects of Forage Plant and Field Legume Species on Soil Selenium Redistribution, Leaching and Bioextraction in Soils Contaminated by Agricultural Drain Water Sediment|Arch. Environ. Contam. Toxicol.31(3): 329-338|1996|10.1007/BF00212671
44492|T||Kumar,M., and D.K. Das|Yield and Storage-Life of Onion (Allium cepa L.) as Affected by Zinc and Sulfur Application|Environ. Ecol.17(3): 580-584|1999|
44493|T||Baumhardt,G.R., and L.F. Welch|Lead Uptake and Corn Growth with Soil-Applied Lead|J. Environ. Qual.1(1): 92-94|1972|10.2134/jeq1972.00472425000100010022x
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44495|T||Chisholm,D.|Lead, Arsenic, and Copper Content of Crops Grown on Lead Arsenate-Treated and Untreated Soils|Can. J. Plant Sci.52:583-588|1972|10.4141/cjps72-090
44496|T||Daris,B.T., C. Papadopoulou, J. Kelperis, and A.P. Grimanis|Herbicide Influence on the Arsenic Uptake of Grapes.  A Study by Neutron Activation Analysis|Proc. Br. Weed Control Conf.10(1): 429-433|1970|
44497|T||Keeley,P.E., and R.J. Thullen|Control of Nutsedge with Organic Arsenical Herbicides|Weed Sci.19(5): 601-606|1971|10.1017/S0043174500050803
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44499|T||Noweir,K.H.|Study of the Role of Airborne Lead in Food Chain of Crops Grown Around a Main Highway in Egypt|J. Egypt. Publ. Health Assoc.65(3-4): 427-435|1990|
44500|T||Zellmer,S.D., J.F. Schneider, N.A. Tomczyk, W.L. Banwart, and D. Chen|Plant Uptake of Explosives from Contaminated Soil at the Joliet Army Ammunition Plant|Argonne Natl.Lab., Argonne, IL:56-|1995|
44501|T||Chen,L., W.A. Dick, J.G. Streeter, and H.A.J. Hoitink|Fe Chelates from Compost Microorganisms Improve Fe Nutrition of Soybean and Oat|Plant Soil200(2): 139-147|1998|10.1023/A:1004375430762
44502|T||Pandeya,S.B., A.K. Singh, and P. Dhar|Influence of Fulvic Acid on Transport of Iron in Soils and Uptake by Paddy Seedlings|Plant Soil198(2): 117-125|1998|10.1023/A:1004256325090
44503|T||Miller,R.L., I.P. Bassett, and W.W. Yothers|Effect of Lead Arsenate Insecticides on Orange Trees in Florida|U.S. Department of Agriculture Technical Bulletin No. 350, Washington, DC:20 p.|1933|
44504|T||Zysset,M., I. Brunner, B. Frey, and P. Blaser|Response of European Chestnut to varying Calcium/Aluminum Ratios|J. Environ. Qual.25:702-708|1996|10.2134/jeq1996.00472425002500040009x
44505|T||Davis,J.G., T.P. Gaines, and M.B. Parker|Comparison of Soil Zinc Extractants for Detection of Applied Zinc and Prediction of Leaf Zinc Concentration|Commun. Soil Sci. Plant Anal.26(17-18): 2969-2981|1995|10.1080/00103629509369501
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44507|T||Guo,Y., R. Schulz, and H. Marschner|Genotypic Differences in Uptake and Distribution of Cadmium and Nickel in Plants|Angew. Bot. (Multiple Languages)69:42-48|1995|
44508|T||Keltjens,W.G.|Magnesium Uptake by Al-Stressed Maize Plants with Special Emphasis on Cation Interactions at Root Exchange Sites|Plant Soil171(1): 141-146|1995|10.1007/BF00009577
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44510|T||Biacs,P.A., H.G. Daood, and I. Kadar|Effect of Mo, Se, Zn and Cr Treatments on the Yield, Element Concentration and Carotenoid Content of Carrot|J. Agric. Food Chem.43(3): 589-591|1995|10.1021/jf00051a007
44511|T||Vangronsveld,J., F. Van Assche, and H. Clijsters|Reclamation of a Bare Industrial Area Contaminated by Non-ferrous Metals: In Situ Metal Immobilization and Revegetation|Environ. Pollut.87(1): 51-59|1995|10.1016/S0269-7491(99)80007-4
44512|T||Bramley,R.G.V., and N.J. Barrow|Differences in the Cadmium Content of Some Common WA Pasture Plants Supplied with a Range of Levels of Cadmium|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:787-790|1993|
44513|T||Goto,S., K. Moriyama, T. Yoneyama, Y. Kobayashi, S. Mori, and M. Chino|Zn and delta15N in Plants Grown on the Soil Amended with Activated Sludge of Various Zn Levels|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:771-774|1993|
44514|T||Mizuno,N., H. Yoshida, and N.J. Barrow|Effect of Exchangeable Aluminium on the Reduction of Potato Scab. Developments in Plant and Soil Sciences; Plant Nutrition from Genetic Engineering to Field Practice|Dev. Plant Soil Sci.:751-754|1993|
44515|T||Kalyanaraman,S.B., and P. Sivagurunathan|Effect of Zinc on Some Important Macro- and Micro- Elements in Blackgram Leaves|Commun. Soil Sci. Plant Anal.25(13-14): 2247-2259|1994|10.1080/00103629409369186
44516|T||Chlopecka,A.|Forms of Trace Metals from Inorganic Sources in Soils and Amounts Found in Spring Barley|Water Air Soil Pollut.69(1-2): 127-134|1993|10.1007/BF00478353
44517|T||Valle,G., L.R. McDowell, N.S. Wilkinson, and D. Wright|Selenium Concentration of Bermudagrass after Spraying with Sodium Selenate|Commun. Soil Sci. Plant Anal.24(13-14): 1763-1768|1993|10.1080/00103629309368913
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44521|T||Mackay,A.D., J.R. Caradus, and S. Wewala|Aluminium Tolerance of Forage Species|In: R.J.Wright, V.C.Baligar, and R.P.Murrmann (Eds.), Plant-Soil Interactions at Low pH, 2nd Int.Symp.June 24-29, 1990, Academic Publ, Beckley, WV:925-930|1991|
44522|T||Amancio,S., A. Lopes, H. Santos, M. Rodrigues, and A. Teixeira|Behaviour of Inbred and Hybrid Maize Lines in the Presence of Aluminium as Evaluated by Some Physiological and Biochemical Parameters|Dev. Plant Soil Sci.45:795-803|1991|
44523|T||Henriksen,T.M., T.D. Eldhuset, A.O. Stuanes, and B.R. Langerud|Effects of Aluminium and Calcium on Picea abies Seedlings|Scand. J. For. Res.7(1): 63-70|1992|10.1080/02827589209382698
44525|T||Singh,B.P., M. Das, R.N. Prasad, and M. Ram|Characteristics of Fe-Toxic Soils and Affected Plants and Their Correction in Acid Haplaquents of Meghalaya|Int. Rice Res. Newsl.17(2): 18-19|1992|
44526|T||Marques Dos Santos,C., M.M.P. Neto, and A. DeVarennes|Some Effects of Different Levels of Lead on Berseem|Dev. Plant Soil Sci.53:517-521|1993|
44527|T||Davis-Carter,J.G., M.B. Parker, and T.P. Gaines|Interaction of Soil Zinc, Calcium, and pH with Zinc Toxicity in Peanuts|Dev. Plant Soil Sci.45:339-347|1991|
44528|T||Traynor,M.F., and B.D. Knezek|Effects of Nickel and Cadmium Contaminated Soils on Nutrient Composition of Corn Plants|Trace Subst. Environ. Health7:82-87|1973|
44529|T||Barbosa Filho,M.P., J.F. Dynia, and F.J.P. Zimmermann|Response of Upland Rice to Zinc and Copper with Residual Effect on Corn (Resposta do Arroz de Sequeiro as Zinco e as Cobre com Efeito Residual para o Milho)|Rev. Bras. Cienc. Solo (Multiple Languages)14(3): 333-338|1990|
44530|T||Wan,H.F., R.L. Mikkelsen, and A.L. Page|Selenium Uptake by Some Agricultural Crops from Central California Soils|J. Environ. Qual.17(2): 269-272|1988|10.2134/jeq1988.00472425001700020018x
44531|T||Miles,L.J., and G.R. Parker|The Effect of Soil-Added Cadmium on Several Plant Species|J. Environ. Qual.8(2): 229-232|1979|10.2134/jeq1979.00472425000800020019x
44532|T||Brown,S.L., R.L. Chaney, J.S. Angle, and J.A. Ryan|The Phytoavailability of Cadmium to Lettuce in Long-Term Biosolids-Amended Soils|J. Environ. Qual.27:1071-1078|1998|10.2134/jeq1998.00472425002700050012x
44533|T||Panwar,B.S., J.P. Singh, and R.D. Laura|Cadmium Uptake by Cowpea and Mungbean as Affected by Cd and P Application|Water Air Soil Pollut.112(1-2): 163-169|1999|10.1023/A:1005065314499
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44535|T||Walker,W.M., J.E. Miller, and J.J. Hassett|Effect of Lead and Cadmium upon the Calcium, Magnesium, Potassium and Phosphorus Concentration in Young Corn Plants|Soil Sci.124(3): 145-151|1977|10.1097/00010694-197709000-00004
44536|T||Balik,J., P. Tlustos, D. Pavlikova, J. Szakova, R. Blahnik, and S. Kaewrahun|The Effect of Sewage Sludge on Zinc Content in Soil and Plants|Rostl. Vyroba (Multiple Languages)44(10): 457-462|1998|
44537|T||Otte,M.L., J. Rozema, M.A. Beek, B.J. Kater, and R.A. Broekman|Uptake of Arsenic by Estuarine Plants and Interactions with Phosphate, in the Field (Rhine Estuary) and Under Outdoor Experimental Conditions|Sci. Total Environ.97-98:839-854|1990|10.1016/0048-9697(90)90279-4
44538|T||Xu,Z., N. Bowers, and J.R. Pratt|Variation in Morphology, Ecology, and Toxicological Responses of Colpoda inflata (Strokes) Collected from Five Biogeographic Realms|Eur. J. Protistol.33:136-144|1997|10.1016/S0932-4739(97)80031-4
44539|T||Javadi,M., J.E. Beuerlein, and T.G. Arscott|Effects of Phosphorus and Copper on Factors Influencing Nutrient Uptake, Photosynthesis, and Grain Yield of Wheat|Ohio J. Sci.91(5): 191-194|1991|
44540|T||Sauerbeck,D.R., and A. Hein|The Nickel Uptake from Different Soils and Its Prediction by Chemical Extractions|In: Int.Conf.on Metals in Soils, Waters, Plants and Animals, Apr.30-May 3, 1990, Orlando, FL, Water Air Soil Pollut.57-58:861-872|1991|
44541|T||Pezzarossa,B., L. Lubrano, G. Petruzzelli, and P. Tonutti|The Effect of Cd Contents and Ethylene Biosynthesis in Tomato Plants of Adding Cadmium Sulphate to Soil|Water Air Soil Pollut.57-58:589-596|1991|10.1007/BF00282922
44543|T||Gupta,U.C.|Iron Status of Crops in Prince Edward Island and Effect of Soil pH on Plant Iron Concentration|Can. J. Soil Sci.71(2): 197-202|1991|10.4141/cjss91-019
44544|T||Sheoran,I.S., V.K. Gupta, J.S. Laura, and R. Singh|Photosynthetic Carbon Fixation Translocation and Metabolite Levels in Pigeonpea (Cajanus cajan L.) Leaves Exposed to Excess Cadmium|Indian J. Exp. Biol.29(9): 857-861|1991|
44545|T||Hoyer,L.|Silver Thiosulphate can Considerably Reduce Leaf and Fruit Abscission Caused by Ethylene in Capsicum annuum 'janne'|J. Hortic. Sci. Biotechnol.73(1): 29-34|1998|10.1080/14620316.1998.11510939
44546|T||Fjeld,T.|Effects of Silver Thiosulfate Ethephon Temperature and Irradiance Level on Keeping Quality of Christmas Begonia begonia-cheimantha Everett|Gartenbauwissenschaft (Multiple Languages)56(2): 66-70|1991|
44547|T||Eltrop,L., G. Brown, O. Joachim, and K. Brinkmann|Lead Tolerance of Betula and Salix in the Mining Area of Mechernich, Germany|Plant Soil131(2): 275-286|1991|10.1007/BF00009459
44549|T||Szakal,P., and R. Schmidt|Copper Fertilization of Wheat with Copper Complex and Changes in Flour Quality|In: M.Anke (Ed.), Spurenelem, Arbeitstag.17th, Verlag Harald Schubert, Leipzig, Germany:53-62|1997|
44551|T||Chlopecka,A.|Copper and Lead Species in Soil and Their Uptake by Plants when Applied as Carbonates|In: D.Rosen, et al.(Eds.), Modern Agriculture and the Environment, Chapter 38, Kluwer Acad.Publ., G.B.:460-468|1997|
44552|T||Georgiev,G., B. Atanasov, K. Kalmuckov, and E. Alexandrova|Effect of Cu Concentrations on Nitrogen Fixation and Cu Accumulation in Black Locust Plant (Robinia pseudoacacia L.) and Its Symbiotic Rhizobium sp.|Dokl. Bolg. Akad. Nauk50(3): 67-70|1997|
44554|T||Lin,Z.|Aluminum Effect on Growth of Citrus Roots in Solution and Soil Systems|Ph.D Thesis, University of Florida, Gainesville, FL:152 p.|1989|
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44556|T||Robidoux,P.Y., J. Hawari, S. Thiboutot, G. Ampleman, and G.I. Sunahara|Acute Toxicity of 2,4,6-Trinitrotoluene in Earthworm (Eisenia andrei)|Ecotoxicol. Environ. Saf.44(3): 311-321|1999|10.1006/eesa.1999.1839
44557|T||Steevens,D.R., L.M. Walsh, and D.R. Keeney|Arsenic Phytotoxicity on a Plainfield Sand as Affected by Ferric Sulfate or Aluminum Sulfate|J. Environ. Qual.1(3): 301-303|1972|10.2134/jeq1972.00472425000100030021x
44558|T||Hartenstein,R.C.|The Effects of DDT and Malathion upon Forest Soil Microarthropods|J. Econ. Entomol.53(3): 357-362|1960|10.1093/jee/53.3.357
44559|T||Hoffman,D.J., O.H. Pattee, and S.N. Wiemeyer|Effects of Fluoride on Screech Owl Reproduction: Teratological Evaluation, Growth and Blood Chemistry in Hatchlings|Toxicol. Lett.26:19-24|1985|10.1016/0378-4274(85)90179-1
44560|T||Shrals,J.G.|Effects of DDT and BHC on Soil Arthropods|Nature171:978-|1953|10.1038/171978a0
44561|T||Okonkwo,A.I.|The Impact of Dieldrin Granules on the Arthropod biota of an Alfalfa Field|Sci. Biol. J.3(1): 263-270|1977|
44562|T||Neuhauser,E.F., J. Meyer, M.R. Malecki, and J.M. Thomas|Impact of Dietary Cobalt Supplements on Growth and Reproduction in the Earthworm Eisenia foetida|Soil Biol. Biochem.16(5): 521-523|1984|10.1016/0038-0717(84)90062-2
44563|T||Saint-Denis,M., J.F. Narbonne, C. Arnaud, E. Thybaud, and D. Ribera|Biochemical Responses of the Earthworm Eisenia fetida andrei Exposed to Contaminated Artificial Soil: Effects of Benzo(a)pyrene|Soil Biol. Biochem.31:1837-1846|1999|10.1016/S0038-0717(99)00106-6
44564|T||Wallace,M.M.H.|The Effect of DDT and BHC on the Population of the Lucerne Flea, Sminthurus viridis (L.) (Collembola), and Its Control by Predatory Mites, Biscirus spp. (Bdellidae)|Aust. J. Agric. Res.5:148-155|1954|10.1071/AR9540148
44565|T||Michael,P.J.|Season-Long Effects of Four Chemicals on Redlegged Earth Mite and Lucerne Flea|In: Ridsdill-Smith, J.(Ed.), Proc Natl Workshop on Redlegged Earth Mite, Lucerne Flea, and Blue Oat Mite, Perth, W.Australia, Sept.9-11, 1991II:63-65|1991|
44566|T||Martin,N.A.|Toxicity of Pesticides to Allolobophora caliginosa (Oligochaeta: Lumbricidae)|N. Z. J. Agric. Res.29(4): 699-706|1986|10.1080/00288233.1986.10430466
44567|T||Minnich,M.M., M.B. McBride, and R.L. Chaney|Copper Activity in Soil Solution:  II.  Relation to Copper Accumulation in Young Snapbeans|Soil Sci. Soc. Am. J.51:573-578|1987|10.2136/sssaj1987.03615995005100030004x
44568|T||Miles,L.J., and G.R. Parker|Effects of Cadmium on a One-time Drought Stress on Survival and Yield of Native Plant Species|J. Environ. Qual.9(2): 278-283|1980|10.2134/jeq1980.00472425000900020023x
44569|T||Andersson,A., and K.O. Nilsson|Influence of Lime and Soil pH on Cadmium Availability to Plants|Ambio3:198-200|1974|
44570|T||Mahler,R.J., J.A. Ryan, and T. Reed|Cadmium Sulfate Application to Sludge-Amended Soils. I. Effect on Yield and Cadmium Availability to Plants|Sci. Total Environ.67(2-3): 117-131|1987|10.1016/0048-9697(87)90205-1
44571|T||Reber,H.H.|Threshold Levels of Cadmium for Soil Respiration and Growth of Spring Wheat (Triticum aestivum L.), and Difficulties with Their Determination|Biol. Fertil. Soils7(2): 152-157|1989|10.1007/BF00292574
44572|T||Gonzalez,S.P.|Upper Critical Level of Copper to Alfalfa, in Ten Chilean Soils|Water Air Soil Pollut.57-58:201-208|1991|10.1007/BF00282883
44573|T||Deuel,L.E., and A.R. Swoboda|Arsenic Toxicity to Cotton and Soybeans|J. Environ. Qual.1(3): 317-320|1972|10.2134/jeq1972.00472425000100030026x
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44575|T||Sawan,Z.M., M.H. Mahmoud, and B.R. Gregg|Effect of Foliar Application of Chelated Copper and Manganese on Yield Components and Fibre Properties of Egyptian Cotton (Gossypium barbadense)|J. Agric. Sci.121(1): 199-204|1993|
44576|T||Root,R.A., R.J. Miller, and D.E. Koeppe|Uptake of Cadmium - Its Toxicity and Effect on the Iron-to-Zinc Ratio in Hydroponically Grown Corn|J. Environ. Qual.4(4): 473-476|1975|10.2134/jeq1975.00472425000400040011x
44577|T||Spurgeon,D.J., C. Svendsen, V.R. Rimmer, S.P. Hopkin, and J.M. Weeks|Relative Sensitivity of Life-Cycle and Biomarker Responses in Four Earthworm Species Exposed to Zinc|Environ. Toxicol. Chem.19(7): 1800-1808|2000|
44578|T||Robidoux,P.Y., C. Svendsen, J. Caumartin, J. Hawari, G. Ampleman, S. Thiboutot, J.M. Weeks, and G.I. Sunahara|Chronic Toxicity of Energetic Compounds in Soil Determination Using the Earthworm (Eisenia andrei) Reproduction Test|Environ. Toxicol. Chem.19(7): 1764-1773|2000|10.1002/etc.5620190709
44579|T||Kohl,K.I.|Do Armeria maritima (Mill.) Willd. Ecotypes from Metalliferous Soils and Non-metalliferous Soils Differ in Growth Response Under Zn Stress? A Comparison by a New Artificial Soil Method|J. Exp. Bot.48(317): 1959-|1997|10.1093/jxb/48.11.1959
44580|T||Handreck,K.A.|Low Iron Supply Aggravates Manganese Toxicity in Zonal Geraniums Growing in Soilless Potting Media|J. Plant Nutr.20(11): 1593-1605|1997|10.1080/01904169709365359
44581|T||Nyarai-Horvath,F., T. Szalai, I. Kadar, and P. Csatho|Germination Characteristics of Pea Seeds Originating from a Field Trial Treated with Different Levels of Harmful Elements|Acta Agron. Hung.45(2): 147-154|1997|
44582|T||Igual,J.M., C. Rodriguez-Barrueco, and E. Cervantes|The Effects of Aluminum on Nodulation and Symbiotic Nitrogen Fixation in Casuarina cunninghamiana Miq|Plant Soil190(1): 41-46|1997|10.1023/A:1004259123008
44583|T||Mishra,M., B. Widianarko, K. Vink, and N.M. Van Straalen|Growth Performance of Soybean on Soils Treated with Metal Based Fungicides|In: B.Widianarko, K.Vink and N.M.Van Straalen (Eds.), Environmental Toxicology in South East Asia, VU University Press, Amsterdam:167-174|1994|
44584|T||Sharma,D.C., and C.P. Sharma|Chromium Uptake and Its Effects on Growth and Biological Yield of Wheat|Cereal Res. Commun.21(4): 317-322|1993|
44585|T||Shah,K., and R.S. Dubey|Effect of Cadmium on RNA Level as well as Activity and Molecular Forms of Ribonuclease in Growing Rice Seedlings|Plant Physiol. Biochem.33(5):577-584|1995|
44586|T||Mitchell,G.A.,Jr.|Relative Phytotoxicity, Uptake, and Interactive Effects of Cd, Cu, Ni, and Zn to Plants Grown on Soils Amended with Metal-Enriched Sewage Sludge|Ph.D Thesis, University of California, Riverside, CA:95 p.|1977|
45021|A||Hockett,J.R., and D.R. Mount|Use of Metal Chelating Agents to Differentiate Among Sources of Acute Aquatic Toxicity|Environ. Toxicol. Chem.15(10): 1687-1693|1996|10.1002/etc.5620151006
45022|A||MacFarlane,R.D., G.L. Bullock, and J.J.A. McLaughlin|Effects of Five Metals on Susceptibility of Striped Bass to Flexibacter columnaris|Trans. Am. Fish. Soc.115(2): 227-231|1986|10.1577/1548-8659(1986)115<227:EOFMOS>2.0.CO;2
45023|A||Austen,M.C., and A.J. McEvoy|The Use of Offshore Meiobenthic Communities in Laboratory Microcosm Experiments: Response to Heavy Metal Contamination|J. Exp. Mar. Biol. Ecol.211(2): 247-261|1997|10.1016/S0022-0981(96)02734-7
45024|AT||Wundram,M., D. Selmar, and M. Bahadir|The Chlamydomonas Test: A New Phytotoxicity Test Based on the Inhibition of Algal Photosynthesis Enables the Assessment of Hazardous Leachates from Waste Disposals in Salt Mines|Chemosphere32(8): 1623-1631|1996|10.1016/0045-6535(96)00072-0
45030|A||Hutchinson,N.J., and J.B. Sprague|Toxicity of Trace Metal Mixtures to American Flagfish (Jordanella floridae) in Soft, Acidic Water and Implications for Cultural Acidification|Can. J. Fish. Aquat. Sci.43:647-655|1986|10.1139/f86-078
45040|A||Phinney,J.T., and K.W. Bruland|Trace Metal Exchange in Solution by the Fungicides Ziram and Maneb (Dithiocarbamates) and Subsequent Uptake of Lipophilic Organic Zinc, Copper and Lead Complexes into Phytoplankton Cells|Environ. Toxicol. Chem.16(10): 2046-2053|1997|10.1002/etc.5620161009
45059|A||Allen,P.|Soft-Tissue Accumulation of Lead in the Blue Tilapia, Oreochromis aureus (Steindachner), and the Modifying Effects of Cadmium and Mercury|Biol. Trace Elem. Res.50(3): 193-208|1995|10.1007/BF02785410
45060|A||Wang,W.|Rice Seed Toxicity Tests for Organic and Inorganic Substances|Environ. Monit. Assess.29:101-107|1994|10.1007/BF00546869
45061|A||Pokethitiyook,P., E.S. Upatham, and O. Leelhaphunt|Acute Toxicity of Various Metals to Moina macrocopa|Nat. Hist. Bull. Siam Soc.35(1-2): 47-56|1987|
45062|A||Powell,M.I., and K.N. White|Heavy Metal Accumulation by Barnacles and Its Implications for Their Use as Biological Monitors|Mar. Environ. Res.30:91-118|1990|10.1016/0141-1136(90)90013-E
45063|T||Laskowski,R., and S.P. Hopkin|Effect of Zn, Cu, Pb and Cd on Fitness in Snails (Helix aspersa)|Ecotoxicol. Environ. Saf.34(1): 59-69|1996|10.1006/eesa.1996.0045
45064|A||Al Akel,A.S.|Changes in Behaviour, Tissue Glycogen and Blood Chemistry of Freshwater Carp, Cyprinus carpio in Relation to Toxicity of Lead|Z. Angew. Zool. (Multiple Languages)80(1): 87-96|1994|
45065|A||Bernal,J., and S. Ruvalcaba|Pharmacological Prevention of Acute Lead Poisoning in Paramecium|Toxicology108(3): 165-171|1996|10.1016/0300-483X(95)03272-H
45066|A||Pyatt,F.B., A.J. Pyatt, and V.W. Pentreath|Distribution of Metals and Accumulation of Lead by Different Tissues in the Freshwater Snail Lymnaea stagnalis (L.)|Environ. Toxicol. Chem.16(6): 1393-1395|1997|
45067|A||Koelmans,A.A., F. Gillissen, and L. Lijklema|Influence of Salinity and Mineralization on Trace Metal Sorption to Cyanobacteria in Natural Waters|Water Res.30(4): 853-864|1996|10.1016/0043-1354(95)00235-9
45070|A||Jampani,C.S.R.|Lead Toxicity of Alga Synechococcus aeruginosus and Its Recovery by Nutrients|J. Environ. Biol.9(3): 261-269|1988|
45073|A||Dyer,S.D., K.L. Dickson, and E.G. Zimmerman|A Laboratory Evaluation of the Use of Stress Proteins in Fish to Detect Changes in Water Quality|ASTM Spec. Tech. Publ.:247-261|1993|
45074|A||Williams,R.L.|Uptake Kinetics and Toxicity of Diazinon in the American Oyster, Crassostrea virginica Gmelin|Ph.D.Thesis, College of William and Mary, VA:108 p.|1989|
45075|A||Stevens,M.M.|Insecticide Treatments Used Against a Rice Bloodworm, Chironomus tepperi (Diptera: Chironomidae): Toxicity and Residual Effects in Water|J. Econ. Entomol.84(3): 795-800|1991|10.1093/jee/84.3.795
45076|A||Stevens,M.M., and G.N. Warren|Insecticide Treatments Used Against a Rice Bloodworm, Chironomus tepperi (Diptera: Chironomidae): Suppression of Larval Populations|J. Econ. Entomol.85(5): 1606-1613|1992|10.1093/jee/85.5.1606
45077|A||Setakana,P., and K.H. Tan|Insecticide Resistance and Multi-Resistance in Two Strains of Culex quinquefasciatus Say Larvae in Penang, Malaysia|Mosq. Borne Dis. Bull.8(2): 40-44|1991|
45078|A||Qadri,N., and H.M. Dutta|Long Term Effects of Low and High Concentrations of Diazinon on Bluegill Fish, Lepomis macrochirus:  A Light Microscopic Study|Am. Zool.35(5): 144A|1995|
45079|A||Moore,A., and C.P. Waring|Sublethal Effects of the Pesticide Diazinon on Olfactory Function in Mature Male Atlantic Salmon Parr|J. Fish Biol.48:758-775|1996|10.1111/j.1095-8649.1996.tb01470.x
45080|A||Iqbal,J., S.A. Mufti, and Asmatullah |Effect of Chronic Exposure of Diazinon on the Reproduction of Fresh Water Fish, Colisa fasciata|Sci. Int.4(4): 403-408|1992|
45081|A||Miah,M.I., B.A. Bhutya, and K.C. Saha|Toxic Effects of Five Organophosphorus Insecticides on Damselfly (Odonata: Zygoptera) Larvae|Bangladesh J. Zool.23(1): 55-60|1995|
45083|A||Dutta,H., J. Marcelino, and C. Richmonds|Brain Acetylcholinesterase Activity and Optomotor Behavior in Bluegills, Lepomis macrochirus Exposed to Different Concentrations of Diazinon|Arch. Int. Physiol. Biochim. Biophys.100:331-334|1992|10.3109/13813459209000721
45084|A||Dutt,N., and R.S. Guha|Toxicity of Few Organophosphorus Insecticides to Fingerlings of Bound Water Fishes, Cyprinus carpio (Linn.) and Tilapia mossambica Peters|Indian J. Entomol.50(4): 403-421|1988|
45085|A||Ceron,J.J., E. Sancho, M.D. Ferrando, C. Gutierrez, and E. Andreu|Metabolic Effects of Diazinon on the European Eel Anguilla anguilla|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(5): 1029-1040|1996|
45086|A||Call,D.J.|Validation Study of a Protocol for Testing the Acute Toxicity of Pesticides to Invertebrates Using the Apple Snail (Pomacea paludosa)|Coop.Agreement No.CR 819612-01, U.S.EPA, Univ.of Wisconsin-Superior, Superior, WI:57 p.|1993|
45087|A||Bay,S., R. Burgess, and D. Nacci|Status and Applications of Echinoid (Phylum Echinodermata) Toxicity Test Methods|ASTM Spec. Tech. Publ.:281-302|1993|
45088|A||Alam,M.G.M., S.A.M. Al-Arabi, G.C. Halder, and M.A. Mazid|Toxicity of Diazinon to the Fry of Indian Major Carp Cirrhina mrigala (Hamilton)|Bangladesh J. Zool.23(2): 183-186|1995|
45089|T||Martinez-Toledo,M.V., V. Salmeron, and J. Gonzalez-Lopez|Effects of Diazinon and Quinalphos on Some Functional Groups of Soil Microflora|Toxicol. Environ. Chem.37:165-172|1993|10.1080/02772249309357866
45091|T||Richmond,L., and A. Beeby|A Comparative Study of Lead Uptake by Three Populations of the Snail Helix aspersa Muller|Pol. J. Environ. Stud.1(1): 9-13|1992|
45092|A||Jain,S.K., P. Vasudevan, and N.K. Jha|Azolla pinnata R.Br. and Lemna minor L. for Removal of Lead and Zinc from Polluted Water|Water Res.24(2): 177-184|1990|10.1016/0043-1354(90)90100-K
45093|A||Gekeler,W., E. Grill, E.L. Winnacker, and M.H. Zenk|Algae Sequester Heavy Metals via Synthesis of Phytochelatin Complexes|Arch. Microbiol.150:197-202|1988|10.1007/BF00425162
45095|A||Sunda,W.G., P.A. Tester, and S.A. Huntsman|Toxicity of Trace Metals to Acartia tonsa in the Elizabeth River and Southern Chesapeake Bay|Estuar. Coast. Shelf Sci.30:207-221|1990|10.1016/0272-7714(90)90048-V
45096|A||Pederzoli,A., P. Trevisan, and A.M. Bolognani Fantin|Immunocytochemical Study of Endocrine Cells in the Gut of Goldfish Carassius carassius (L.) var. auratus Submitted to Experimental Lead intoxication|Eur. J. Histochem.40:305-314|1996|
45097|A||Phinney,J.T., and K.W. Bruland|Uptake of Lipophilic Organic Cu, Cd, and Pb Complexes in the Coastal Diatom Thalassiosira weissflogii|Environ. Sci. Technol.28(11): 1781-1790|1994|10.1021/es00060a006
45098|A||Poskuta,J.W., E. Parys, and E. Romanowska|Toxicity of Lead to Photosynthesis, Accumulation of Chlorophyll, Respiration and Growth of Chlorella pyrenoidosa. Protective Role of Dark Respiration|Acta Physiol. Plant.18(2): 165-171|1996|
45099|A||Raizada,M., and L.C. Rai|Metal Induced Inhibition of Growth, Heterocyst Differentiation, Carbon Fixation and Nitrogenase Activity of Nostoc muscorum: Interaction with EDTA and Calcium|Microbios Lett.30:153-161|1985|
45100|AT||Rodriguez-Ariza,A., G. Dorado, J.I. Navas, C. Pueyo, and J. Lopez-Barea|Promutagen Activation by Fish Liver as a Biomarker of Littoral Pollution|Environ. Mol. Mutagen.24:116-123|1994|10.1002/em.2850240207
45102|A||Roderer,G.|Poterioochromonas malhamensis - A Unicellular Alga as Test System in Ecotoxicology, Toxicology, and Pharmacology|Toxic. Assess.1(1): 123-138|1986|10.1002/tox.2540010110
45103|A||Sadler,K., and A.W.H. Turnpenny|Field and Laboratory Studies of Exposures of Brown Trout to Acid Waters|Water Air Soil Pollut.30:593-599|1986|10.1007/BF00303322
45104|A||Fayed,S.E., and H.I. Abdel-Shafy|Accumulation of Cu, Cd, and Pb by Algae|Egypt. J. Microbiol.21(2): 263-274|1986|
45105|A||Sandau,E., P. Sandau, and O. Pulz|Heavy Metal Sorption by Microalgae|Acta Biotechnol.16(4): 227-235|1996|10.1002/abio.370160402
45106|A||Jop,K.M., A.M. Askew, and R.B. Foster|Development of a Water-Effect Ratio for Copper, Cadmium, and Lead for the Great Works River in Maine Using Ceriodaphnia dubia and Salvelinus fontinalis|Bull. Environ. Contam. Toxicol.54(1): 29-35|1995|10.1007/BF00196266
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45108|A||Kaur,K., and A. Dhawan|Metal Toxicity to Different Life Stages of Cyprinus carpio Linn.|Indian J. Ecol.21(2): 93-98|1994|
45109|A||Kralj-Klobucar,N., and S. Spasojevic|Lead Accumulations in Some Tissues of the Carp (Cyprinus carpio L.)|Vet. Arh. (Tisak)59(2): 93-99|1989|
45110|A||Kralj-Klobucar,N.|Lead Intake in the Juvenile and Adult Carp (Cyprinus carpio L.)|Vet. Arh. (Tisak)63(2): 95-105|1993|
45111|A||Hickie,B.E., N.J. Hutchinson, D.G. Dixon, and P.V. Hodson|Toxicity of Trace Metal Mixtures to Alevin Rainbow Trout (Oncorhynchus mykiss) and Larval Fathead Minnow (Pimephales promelas) in Soft, Acidic Water|Can. J. Fish. Aquat. Sci.50:1348-1355|1993|10.1139/f93-154
45113|A||Kocjan,G., S. Samardakiewicz, and A. Wozny|Regions of Lead Uptake in Lemna minor Plants and Localization of this Metal Within Selected Parts of the Root|Biol. Plant. (Praha)38(1): 107-117|1996|10.1007/BF02879643
45116|AT||Labrot,F., D. Ribera, M. Saint Denis, and J.F. Narbonne|In Vitro and In Vivo Studies of Potential Biomarkers of Lead and Uranium Contamination: Lipid Peroxidation, Acetylcholinesterase, Catalase and Glutathione Peroxidase Activities in Three Non-Mammalian Species|Biomarkers (Lond.)1(1): 23-30|1996|
45117|A||Singh,B.K., and S.P. Singh|Toxic Effects of Some Inorganic Salts on Testes of Fresh Water Fish Danio equipinatus (HAM)|Proc. Acad. Environ. Biol.3(2): 241-244|1994|
45118|A||Tolba,M.R., A.E. Hagras, and A. Hilmy|Effect of Some Heavy Metals on the Growth of Sphaeroma serratum (Crustacea: Isopoda)|J. Environ. Sci.10(1): 219-231|1995|
45121|A||Sobotka,J.M., and R.G. Rahwan|Teratogenesis Induced by Short- and Long-Term Exposure of Xenopus laevis Progeny to Lead|J. Toxicol. Environ. Health44(4): 469-484|1995|10.1080/15287399509531975
45122|A||Sivakumari,K., M. Ramesh, R. Manavalaramanujam, M.K. Kanagaraj, and R. Manonmani|Uptake of Lead Nitrate by Cyprinus carpio: Modified by pH|Pollut. Res.14(3): 299-303|1995|
45123|A||Stallwitz,E., and D.P. Hader|Effects of Heavy Metals on Motility and Gravitactic Orientation of the Flagellate, Euglena gracilis|Eur. J. Protistol.30:18-24|1994|10.1016/S0932-4739(11)80194-X
45125|A||Stoyanova,D.P., and E.S. Tchakalova|The Effect of Lead and Copper on the Photosynthetic Apparatus in Elodea canadensis Rich.|Photosynthetica (Praha)28(1): 63-74|1993|
45126|A||Strickler-Shaw,S., and D.H. Taylor|Lead Inhibits Acquisition and Retention Learning in Bullfrog Tadpoles|Neurotoxicol. Teratol.13:167-173|1991|10.1016/0892-0362(91)90007-J
45127|A||Talbot,V.|Mobility and Speciation of Cadmium and Lead in Polluted Seawater of Port Phillip Bay, Australia: Management Implications|J. Coast. Res.5(4): 755-763|1989|
45128|A||Sordyl,H.|Influence of Exposure Time and H+ Concentration of the Water on the Effects of Sublethal Pb2+ Loads on Blood Parameters of the Rainbow Trout (Salmo gairdneri)|Zool. Jahrb. Abt. Allg. Zool. Physiol. Tiere94:141-152|1990|
45129|A||Weber,D.N., W.M. Dingel, J.J. Panos, and R.E. Steinpreis|Alterations in Neurobehavioral Responses in Fishes Exposed to Lead and Lead-Chelating Agents|Am. Zool.37:354-362|1997|10.1093/icb/37.4.354
45130|A||Vymazal,J.|Influence of pH on Heavy Metals Uptake by Cladophora glomerata|Pol. Arch. Hydrobiol.42(3): 231-237|1995|
45131|A||Vymazal,J.|Uptake of Heavy Metals by Cladophora glomerata|Acta Hydrochim. Hydrobiol. (Multiple Languages)18(6): 657-665|1990|10.1002/aheh.19900180605
45132|A||Wehrheim,B., and M. Wettern|Influence of the External REDOX State on Heavy Metal Adsorption by Whole Cells and Isolated Cell Walls of Chlorella fusca|Biotechnol. Tech.8(4): 221-226|1994|10.1007/BF00155411
45133|A||Wozny,A., and M. Manikowska|The Toxic Effect of Lead on the Lemna minor L|Bull. Soc. Amis Sci. Lett. Poznan Ser. D Sci. Biol.28:59-63|1990|
45134|A||Lopez,J., M.D. Vazquez, and A. Carballeira|Stress Responses and Metal Exchange Kinetics Following Transplant of the Aquatic Moss Fontinalis antipyretica|Freshw. Biol.32:185-198|1994|10.1111/j.1365-2427.1994.tb00876.x
45135|A||Mathew,R., M.K. Kanangaraj, and R. Manavalaramanujam|Lead Nitrate Toxicity on Ventilation Frequency, Oxygen Consumption and Haemoglobin Content in Fish, Cyprinus carpio|Pollut. Res.16(1): 51-53|1997|
45136|A||Michailova,P., and R. Belcheva|Different Effect of Lead on External Morphology and Polytene Chromosomes of Glyptotendipes barbipes (Staeger) (Diptera, Chironomidae)|Folia Biol. (Krakow)38(1-4): 83-88|1990|
45137|A||Mudgall,C.F., and S.S. Patil|Toxicity of Lead and Mercury to Frogs Rana cyanophlyctis and Rana tigerina|Environ. Ecol.6(2): 506-507|1988|
45138|A||Nixdorf,W.L., D.H. Taylor, and L.G. Isaacson|Use of Bullfrog Tadpoles (Rana catesbeiana) to Examine the Mechanisms of Lead Neurotoxicity|Am. Zool.37:363-368|1997|10.1093/icb/37.4.363
45139|A||Sharma,M.S., and C.S. Selvaraj|Zinc, Lead and Cadmium Toxicity to Selected Freshwater Zooplankters|Pollut. Res.13(2): 191-201|1994|
45141|A||Seferlis,M., and S. Haritonidis|Accumulation of Zn, Pb, Cd, Cu, Fe Under Different Salinities and Heavy Metal Burden in the Green Alga Ulva rigida (L.)|Fresenius Environ. Bull.4:309-314|1995|
45143|A||Sayer,M.D.J., J.P. Reader, and R. Morris|Embryonic and Larval Development of Brown Trout, Salmo trutta L.: Exposure to Aluminium, Copper, Lead or Zinc in Soft, Acid Water|J. Fish Biol.38:431-455|1991|10.1111/j.1095-8649.1991.tb03132.x
45145|A||Kabila,V., A. Yamuna, and P. Geraldine|Water Hardness as a Determinant of the Potential Toxicity of Lead to the Freshwater Prawn Macrobrachium malcolmsonii (H. Milne Edwards)|Pollut. Res.15(1): 39-42|1996|
45146|A||Gupta,S., and P.P. Bakre|Influence of Lead in Various Organs of Lemnaea acuminata After Supplementation with Calcium Chloride|Geobios23:251-258|1996|
45147|A||Gupta,M., and P. Chandra|Lead Accumulation and Toxicity in Vallisneria spiralis (L.) and Hydrilla verticillata (l.f.) Royle|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(3): 503-516|1994|
45148|A||Gopal,V., S. Parvathy, and P.R. Balasubramanian|Effect of Heavy Metals on the Blood Protein Biochemistry of the Fish Cyprinus carpio and Its Use as a Bio-Indicator of Pollution Stress|Environ. Monit. Assess.48:117-124|1997|10.1023/A:1005767517819
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45150|A||Simoes Goncalves,M.L., M.F.C. Vilhena, J.M.F. Fernandes Sollis, and J.M. Castro Romero|Uptake of Lead and Its Influence in the Alga Selenastrum capricornutum Printz|Talanta38(10): 1111-1118|1991|10.1016/0039-9140(91)80228-R
45151|A||Gerhardt,A.|Monitoring Behavioural Responses to Metals in Gammarus pulex (L.) (Crustacea) with Impedance Conversion|Environ. Sci. Pollut. Res.2(1): 15-23|1995|10.1007/BF02987506
45152|A||Fabris,J.G., B.J. Richardson, J.E. O'Sullivan, and F.C. Brown|Estimation of Cadmium, Lead, and Mercury Concentrations in Estuarine Waters Using the Mussel Mytilus edulis planulatus L.|Environ. Toxicol. Water Qual.9:183-192|1994|10.1002/tox.2530090305
45153|A||El-Bouhy,Z., A.M. Alkelch, G. Saleh, and A.M. Ali|Effects of Heavy Metals intoxication on Some Fresh Water Fish|Zag. J. Pharm. Sci.2(2): 73-90|1993|
45155|A||Destombe,C., J. Godin, M. Nocher, S. Richerd, and M. Valero|Differences in Response Between Haploid and Diploid Isomorphic Phases of Gracilaria verrucosa (Rhodophyta: Gigartinales) Exposed to Artificial Environmental Conditions|Hydrobiologia (Multiple Languages)260-261:131-137|1993|10.1007/BF00049011
45156|A||Burdin,K.S., and K.T. Bird|Heavy Metal Accumulation by Carrageenan and Agar Producing Algae|Bot. Mar.37:467-470|1994|10.1515/botm.1994.37.5.467
45157|A||Brady,D., B. Letebele, J.R. Duncan, and P.D. Rose|Bioaccumulation of Metals by Scenedesmus, Selenastrum and Chlorella Algae|Water SA20(3): 213-218|1994|
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45161|A||Audesirk,G., and T. Audesirk|Chronic Lead Exposure Reduces Junctional Resistance at an Electrical Synapse|Neurotoxicology5(4): 1-8|1984|
45162|A||Audesirk,G., and T. Audesirk|Effects of Chronic Low Level Lead Exposure on the Physiology of Individually Identifiable Neurons|Neurotoxicology4(4): 13-26|1983|
45163|A||Arshaduddin,M., R. Yasmeen, M. Masood Hussain, and M.A. Khan|Effect of Two Heavy Metals (Lead and Cadmium) on Growth in the Rotifer Asplanchna intermedia|Pollut. Res.8(3): 128-129|1989|
45164|A||Amiard,J.C., H. Ettajani, A.Y. Jeantet, C. Ballan-Dufrancais, and C. Amiard-Triquet|Bioavailability and Toxicity of Sediment-Bound Lead to a Filter-Feeder Bivalve Crassostrea gigas (Thunberg)|BioMetals8:280-289|1995|
45165|A||Adam,M.S., and R. Abdel-Basset|Effect of Lead Nitrate and Lead Acetate on the Growth and Some Metabolic Processes of Scenedesmus obliquus|Acta Hydrobiol.32(1-2): 93-99|1990|
45166|A||Abdelghani,A.A., Y.V. Pramar, T.K. Mandal, P.B. Tchounwou, and L. Heyer|Levels and Toxicities of Selected Inorganic and Organic Contaminants in a Swamp Environment|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(5): 717-731|1995|
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45358|T||Kalbhor,H.B., P.H. Rasal, and P.L. Patil|Effects of Zn and Mn on Nodulation and Yield of Gram|J. Maharashtra Agric. Univ.13(2): 213-214|1988|
45359|T||Sharma,J.P., and J.M. Jain|Effect of Urea Granule Size and Cadmium Doses on Urea Transformation in Relation to Recovery and Yield of Paddy|Fert. News36(3): 51-53|1991|
45360|T||Wilkinson,R.E., and R.R. Duncan|Interaction of Hydrogen (H+) and Manganese (Mn2+) Concentrations on the Shoot Growth of Sorghum Cultivars|J. Plant Nutr.16(6): 983-998|1993|10.1080/01904169309364588
45361|T||Davis,J.G., and M.B. Parker|Zinc Toxicity Symptom Development and Partitioning of Biomass and Zinc in Peanut Plants|J. Plant Nutr.16(12): 2353-2369|1993|10.1080/01904169309364693
45362|T||Joosse,E.N.G., and S.C. Verhoef|Lead Tolerance in Collembola|Pedobiologia (Multiple Languages)25:11-18|1983|10.1016/S0031-4056(23)05903-6
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45364|T||Parmelee,R.W., R.S. Wentsel, C.T. Phillips, M. Simini, and R.T. Checkai|Soil Microcosm for Testing the Effects of Chemical Pollutants on Soil Fauna Communities and Trophic Structure|Environ. Toxicol. Chem.12(8): 1477-1486|1993|10.1002/etc.5620120815
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45366|T||Abdel-Sabour,M.F., H.A. El-Naggr, and S.M. Soliman|Use of Inorganic and Organic Compounds as Decontaminates for Cobalt T-60 and Cesium-134 by Clover Plant Grown on Inshas Sandy Soil|Nuclear Research Centre, Inshas, Egypt:17 p.|1994|
45367|T||Cataldo,D.A., R.J. Fellows, and S.D. Harvey|Evaluation of the Metabolic Fate of Munitions Material (TNT RDX) in Plant Systems and Initial Assessment of Material Interaction with Plant Genetic Material|Final Report, 8 Feb 93-31, U.S.Dept.of Energy, Richland, WA:36 p.|1995|
45368|T||Fellows,R.J., S.D. Harvey, and D.A. Cataldo|Evaluation of the Metabolic Fate of Munitions Material (TNT & RDX) in Plant Systems and Initial Assessment of Material Interaction with Plant Genetic Material. Validation of the Metabolic Fate of Munitions Materials (TN|PNL-10825 UC-402, Battelle Pacific Northwest Labs., Richland, WA:37 p.|1996|
45369|T||Atomic Energy of Canada Ltd. (AECL)|Effect of Soil Type on Radionuclides in Plants.  Field Study|Atomic Energy of Canada, Ltd., Whiteshell Nuclear Res. Establishment, Pinawa, Manitoba:39 p.|1988|
45372|T||Yan,C., F. Shunzhen, Y. Xianke, Z. Zhong, and R. Chen|Effects of Pb and Hg on Anti-Oxidation Enzymes in Tobacco Leaves|Huanjing Kexue Xuebao (Non-English)17(4): 469-473|1997|
45373|T||Chen,T., and G. Liu|Effect of Arsenic on Rice (Oryza sativa L.) Growth and Development and Its Mechanism|Zhongguo Nongye Kexue (Non-English)26(6): 50-58|1993|
45374|T||Kalyanaraman,S.B., and P. Sivagurunathan|Infrared Studies on the Effect of Zinc on Blackgram|J. Plant Nutr.17(5): 851-857|1994|10.1080/01904169409364771
45375|T||Fraguas,J.C.|Effect of Aluminum on the Absorption of Phosphorus and Calcium and on the Root Length of Grapevine Rootstocks (Efeito do Aluminio no comprimento de Raizes e na Absorcao de Fosforo e Calcio, em Porta-Enxertos de Videira)|Rev. Bras. Cienc. Solo (Multiple Languages)17(2): 251-255|1993|
45377|T||Zhu,B., and A.K. Alva|Comparison of Single and Sequential Soil Extractions for Predicting Copper Phytotoxicity|Commun. Soil Sci. Plant Anal.24(5-6): 475-486|1993|10.1080/00103629309368815
45378|T||Muramoto,S., H. Nishizaki, and I. Aoyama|Effect of Calcium Carbonate on the Cadmium Content of Wheat after Addition of Large Amounts of Cds to Soil|Bull.Res.Inst.Bioresour: Okayama Univ.(Okayama Daigaku Shigen Seibutsu Kagaku Kenkyusho Hokoku)1(1): 1-8|1992|
45379|T||Lyszcz,S., and M. Ruszkowska|Effect of Zinc Excess on Carbonic Anhydrase Activity of Crops|Acta Physiol. Plant.14(1): 35-39|1992|
45380|T||Khalil,Z., F.A. El Daly, and M.S. Khalil|Effect of Zinc Sulphate and Manganese Chloride on Chlorophyll Content, Carbohydrate Components and Mineral Composition of Roselle Leaves (Hibiscus sabdariffa L.)|Egypt. J. Bot.32(1-2): 31-41|1989|
45381|T||Osborne,L.D., and A.D. Robson|Duration of Zinc Uptake Inhibition by Chlorsulfuron in Wheat|Aust. J. Agric. Res.43(5): 1169-1174|1992|10.1071/AR9921169
45383|T||Salgare,S.A., and S. Asthana|Copper an Environmental Pollutant|Environ. Pollut.3:101-119|1990|
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45385|T||Banu,F., and Y.D. Tiagi|Physiological Studies Under Metal Stress Conditions 2. Effect of Zinc and Copper on Growth Performance of Lathyrus sativus|Indian Bot. Contactor8(1): 1-7|1991|
45386|T||Swietlik,D., and J.V. LaDuke|Productivity, Growth, and Leaf Mineral Composition of Orange and Grapefruit Trees Foliar-Sprayed with Zinc and Manganese|J. Plant Nutr.14(2): 129-142|1991|10.1080/01904169109364189
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45388|T||Gupta,R.K., and R.D. Singh|Studies on the Antagonistic Effects of Lime on Iron and Aluminium|J. Indian Soc. Soil Sci.38(1): 130-134|1990|
45389|T||Edreva,A., and E. Apostolova|Manganese Toxicity in Tobacco: A Biochemical Investigation|Agrochimica33(6): 441-451|1989|
45390|T||Horst,W.J., F. Klotz, and P. Szulkiewicz|Mechanical Impedance Increases Aluminum Tolerance of Soybean (Glycine max) Roots|Plant Soil124(2): 227-231|1990|10.1007/BF00009264
45391|T||Mackay,A.D., J.R. Caradus, and M.W. Pritchard|Variation for Aluminum Tolerance in White Clover|Plant Soil123(1): 101-105|1990|10.1007/BF00009932
45392|T||Tichy,V.|Wood Decomposition Products Inducing Changes in Manganese Toxicity|Drev. Vysk.122:1-11|1989|
45393|T||Ritchey,K.D., D.M.G. Sousa, and G.C. Rodrigues|Inexpensive Biological Tests for Soil Calcium Deficiency and Aluminum Toxicity|Plant Soil120(2): 273-282|1989|10.1007/BF02377077
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45399|T||De Pasquale,R., L. Iauk, R. Barbera, A. Saija, E.M. Galati, and S. Ragusa|Effect of Cd(2+) on Germination, Growth and Active Principles of Datura metel L.|Toxicol. Environ. Chem.23(1-4): 121-127|1989|10.1080/02772248909357457
45400|T||Javadi,M.|Plastocyanin Evaluation in Wheat (T. aestivum L.) as Affected by Rates of Phosphate and Copper|Ph.D. Thesis, The Ohio State University, Columbus, OH:47 p.|1988|
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45405|T||Asp,H., B. Bengtsson, and P. Jensen|Growth and Cation Uptake in Spruce (Picea abies Karst.) Grown in Sand Culture with Various Aluminum Contents|Plant Soil111(1): 127-133|1988|10.1007/BF02182046
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45410|T||Chlopecka,A., and D.C. Adriano|Influence of Zeolite, Apatite and Fe-oxide on Cd and Pb Uptake by Crops|Sci. Total Environ.207(2-3): 195-206|1997|10.1016/S0048-9697(97)00268-4
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45436|T||Rahim,A.A., Z. Shamsuddin, and O. Yaacob|Contribution of Nitrogen to Growth of Maize in Legume-maize Rotation on Limed Ultisols|Pertanika17(3): 173-184|1994|
45438|T||Marschner,H.|Strategies of Plants for Acquisition of Iron|Plant Soil165(2): 261-274|1994|10.1007/BF00008069
45439|T||Fabiano,E., G. Gualtieri, C. Pritsch, G. Polla, and A. Arias|Extent of High-Affinity Iron Transport Systems in Field Isolates of Rhizobia|Plant Soil164(2): 177-185|1994|10.1007/BF00010069
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45467|T||Bovey,R.W.|Effects of Foliarly Applied Desiccants on Selected Species Under Tropical Environment|Weed Sci.17(1): 79-83|1969|10.1017/S0043174500030952
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45479|T||Reisenauer,H.M.|Cobalt in Nitrogen Fixation by a Legume|Nature186(4722): 375-376|1960|10.1038/186375a0
45480|T||Singh,B., and D.J. Wort|Effect of Vanadium on Sugar Beets|Sugar J.:19-24|1970|
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45490|T||Blumenthal-Goldschmidt,S., G.W. Butler, and E.E. Conn|Incorporation of Hydrocyanic Acid Labelled with Carbon-14 into Asparagine in Seedlings|Nature197(4): 718-719|1963|10.1038/197718a0
45491|T||Hendricks,S.B., and R.B. Taylorson|Promotion of Seed Germination by Nitrates and Cyanides|Nature237:169-170|1972|10.1038/237169b0
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45498|T||Birchfield,W.|Systemic Nematicides Control Rotylenchulus reniformis of Cotton|Plant Dis. Rep.55(4): 362-365|1971|
45499|T||Coppedge,J.R., D.A. Lindquist, D.L. Bull, and H.W. Dorough|Fate of 2-Methyl-2-(Methylthio)Propionaldehyde O-(Methylcarbamoyl) Oxime (Temik) in Cotton Plants and Soil|J. Agric. Food Chem.15:902-910|1967|10.1021/jf60153a015
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45515|T||Gast,R.G., L.H. Thorvig, E.R. Landa, and K.J. Gallagher|Technetium-99 Toxicity to Plants and Sorption by Soils|In: Environmental Chemistry and Cycling Processes, D.C.Adriano and Brisbin, Jr., Eds., Tech info Ctr, US DOE:550-567|1978|
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45520|T||Nanda,D.R., and B.B. Mishra|Effect of Solid Waste from a Chlor-Alkali Factory on Rice Plants: Mercury Accumulation and Changes in Biochemical Variables|In: P.N.Cheremisinoff (Ed.), Ecological Issues and Environmental Impact Assessment, Gulf Publishing, Houston, TX:601-764|1997|
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45537|T||Helling,B., S.A. Reinecke, and A.J. Reinecke|Effects of the Fungicide Copper Oxychloride on the Growth and Reproduction of Eisenia fetida (Oligochaeta)|Ecotoxicol. Environ. Saf.46(1): 108-116|2000|10.1006/eesa.1999.1880
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45539|T||Brunner,I., and B. Frey|Detection and Localization of Aluminum and Heavy Metals in Ectomycorrhizal Norway Spruce Seedlings|Environ. Pollut.108(2): 121-128|2000|10.1016/S0269-7491(99)00248-1
45540|T||Neufeld,H.S., E.H. Lee, J.R. Renfro, and W.D. Hacker|Seedling Insensitivity to Ozone for Three Conifer Species Native to Great Smoky Mountains National Park|Environ. Pollut.108(2): 141-151|2000|10.1016/S0269-7491(99)00247-X
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45542|T||Tiedemann,A., and K.H. Firsching|Interactive Effects of Elevated Ozone and Carbon Dioxide on Growth and Yield of Leaf Rust-Infected Versus non-Infected Wheat|Environ. Pollut.108(3): 357-363|2000|10.1016/S0269-7491(99)00214-6
45543|T||Chakraborty,S., I.B. Pangga, J. Lupton, L. Hart, P.M. Room, and D. Yates|Production and Dispersal of Colletotrichum gloeosporioides Spores on Stylosanthes scabra Under Elevated CO2|Environ. Pollut.108(3): 381-387|2000|10.1016/S0269-7491(99)00217-1
45544|T||Chatterjee,J., and C. Chatterjee|Phytotoxicity of Cobalt, Chromium and Copper in Cauliflower|Environ. Pollut.109(1): 69-74|2000|10.1016/S0269-7491(99)00238-9
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45546|T||Ribas,A., and J. Penuelas|Effects of Ethylene Diurea as a Protective Antiozonant on Beans (Phaseolus vulgaris CV Lit) Exposed to Different Tropospheric Ozone Doses in Catalonia (NE Spain)|Water Air Soil Pollut.117(1-4): 263-271|2000|10.1023/A:1005138120490
45547|T||Gadallah,M.A.A.|Effects of Acid Mist and Ascorbic Acid Treatment on the Growth, Stability of Leaf Membranes. Chlorophyll Content and Some Mineral Elements of Carthamus tinctorius, the Safflower|Water Air Soil Pollut.118(3-4): 311-327|2000|10.1023/A:1005191220530
45548|T||Hensbergen,P.J., M.J.M. Van Velzen, R. Adi Nugroho, M.H. Donker, and N.M. Van Straalen|Metallothionein-Bound Cadmium in the Gut of the Insect Orchesella cincta (Collembola) in Relation to Dietary Cadmium Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125(1): 17-24|2000|
45549|T||Shishkina,G.T., and N.N. Dygalo|Role of the Serotoninergic System in the Acceleration of Sexual Maturation in Wild Norway Rats Selected for Reduced Aggressiveness Toward Humans|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125(1): 45-51|2000|
45550|T||Kong,F.X., Y. Liu, W. Hu, P.P. Shen, C.L. Zhou, and L.S. Wang|Biochemical Responses of the Mycorrhizae in Pinus massoniana to Combined Effects of Al, Ca and Low pH|Chemosphere40(3): 311-318|2000|10.1016/S0045-6535(99)00294-5
45551|T||Huwe,J.K., V.J. Feil, R.G. Zaylskie, and T.O. Tiernan|An Investigation of the In Vivo Formation of Octachlorodibenzo-p-Dioxin|Chemosphere40(9-11): 957-962|2000|10.1016/S0045-6535(99)00339-2
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45554|T||Ruan,D.Y., K.F. Yan, S.Y. Ge, Y.Z. Xu, J.T. Chen, and M. Wang|Effects of Chronic Lead Exposure on Short-Term and Long-Term Depression in Area CA1 of the Rat Hippocampus In Vivo|Chemosphere41(1-2): 165-171|2000|10.1016/S0045-6535(99)00406-3
45556|T||Dunlap,D.Y., and F. Matsumura|Analysis of Difference In Vivo Effects of TCDD Between c-src +/+ Mice, c-src Deficient, -/+ and -/- B6, 129-Srctm 1 sor Mice and Their Wild-Type Littermates|Chemosphere40(9-11): 1241-1246|2000|10.1016/S0045-6535(99)00375-6
45557|T||Wu,Y.J., and X.F. Leng|Effects of Tri-o-Cresyl Phosphate on Serum Estrogen and Progesterone Concentration and ATPase Activity in the Shell Gland of Adult Hens|Chemosphere41(1-2): 183-186|2000|10.1016/S0045-6535(99)00409-9
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45586|T||Baijukya,F.P., and E. Semu|Effects of Kocide 101(R) on the Bean (Phaseolus vulgaris) l.  Rhizobium Symbiosis|Acta Agric. Scand. Sect. B48(3): 175-183|1998|
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45589|T||Urzua,H., J. Romero, and V.M. Ruiz|Effect of p,p' DDT on Nitrogen Fixation of White Clover in Volcanic Soils of Chile|MIRCEN J.Appl.Microbiol.Biotechnol.2(3): 365-372|1986|
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45609|T||Hartley-Whitaker,J., J.W.G. Cairney, and A.A. Meharg|Toxic Effects of Cadmium and Zinc on Ectomycorrhizal Colonization of Scots Pine (Pinus sylvestris L.) from Soil Inoculum|Environ. Toxicol. Chem.19(3): 694-699|2000|10.1002/etc.5620190322
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45612|T||Patel,R.K.|Insecticidal Trial Against Cut Worm, Agrotis ipsilon Rott. on Chickpea|Indian J. Entomol.43(4): 443-445|1981|
45635|A||Hiltibran,R.C.|Effects of Insecticides on the Metal-Activated Hydrolysis of Adenosine Triphosphate by Bluegill Liver Mitochondria|Arch. Environ. Contam. Toxicol.11(6): 709-717|1982|10.1007/BF01059159
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45759|A||Koundinya,P.R., and R. Ramamurthi|Tissue Respiration in Sarotherodon mossambicus (Peters) Exposed to Sub-Lethal Concentration of Sumithion and Sevin|Curr. Sci. (Bangalore)50(21): 968-969|1981|
45760|A||Lubinski,K.S.|Monitoring Bluegill Swimming Behavior and the Effects of Sublethal Ammonium-Chloride Gradients|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:99 p.|1979|
45761|A||Turner,W.V.|Toxaphene Toxicant A. Mixture of 2,2,5-Endo,6-exo,8,8,9,10-Octachlorobornane and 2,2,5-Endo,6-Exo,8,9,9,10-Octachlorobornane|J. Agric. Food Chem.23(5): 991-995|1975|10.1021/jf60201a050
45787|A||Kobayashi,K., S. Kimura, and Y. Oshima|Sulfate Conjugation of Various Phenols by Liver-Soluble Fraction of Goldfish|Bull. Jpn. Soc. Fish. Sci.50(5): 833-837|1984|10.2331/suisan.50.833
45800|A||De March,B.G.E.|Survival of Hyalella azteca (Saussure) Raised Under Different Laboratory Conditions in a pH Bioassay, with References to Copper Toxicity|Tech.Rep.No.892, Fish.Mar.Serv., Dep.Fish.Environ., Winnipeg, Manitoba:5 p.|1979|
45826|A||Birge,W.J., J.A. Black, A.G. Westerman, T.M. Short, S.B. Taylor, D.M. Bruser, and E.D. Wallingford|Recommendations on Numerical Values for Regulating Iron and Chloride Concentrations for the Purpose of Protecting Warmwater Species of Aquatic Life in the Commonwealth of Kentucky|University of Kentucky, Lexington, KY:73 p.|1985|
45829|A||Cooper,G.P., and R.S. Manalis|Interactions of Lead and Cadmium on Acetylcholine Release at the Frog Neuromuscular Junction|Toxicol. Appl. Pharmacol.74:411-416|1984|10.1016/0041-008X(84)90294-1
45834|A||Waldegger,S., F. Schmidt, T. Herzer, E. Gulbins, A. Schuster, J. Biber, D. Markovich, H. Murer, A.E. Busch, and F. Lang|Heavy Metal Mediated Inhibition of rBAT-Induced Amino Acid Transport|Kidney Int.47(6): 1677-1681|1995|10.1038/ki.1995.232
45837|A||Butler,P.A.|The Problem of Pesticides in Estuaries|In:  R.F.Smith, A.H.Swarts and W.H.Massman (Eds.), A Symposium on Estuarine Fisheries, Special Publication 3, American Fisheries Society, Bethesda, MD:110-115|1966|
45859|A||Keizer,J., G. D' Agostino, R. Nagel, T. Volpe, P. Gnemi, and L. Vittozzi|Enzymological Differences of AChE and Diazinon Hepatic Metabolism: Correlation of In Vitro Data with the Selective Toxicity of Diazinon to Fish Species|Sci. Total Environ.171(1-3): 213-220|1995|10.1016/0048-9697(95)04687-0
45860|T||Overby,L.R., and R.L. Frederickson|Metabolic Stability of Radioactive Arsanilic Acid in Chickens|J. Agric. Food Chem.11:378-381|1963|10.1021/jf60129a009
45861|T||Wood,T.K., E.J. Armbrust, G.G. Ghyrisco, W.H. Butenmann, and D.J. Lisk|The Presence and Persistence of Heptachlor Epoxide and Dieldrin Residues on Forage Crops in New York|J. Econ. Entomol.59:131-132|1966|10.1093/jee/59.1.131
45862|T||Hauschild,M.Z.|Chromium Content of Leaves Reveals Chromium(III)-Stress of Higher Plants Before Sensitive Biomarkers Do|Sci. Total Environ.Suppl., Part 2:1345-1352|1993|10.1016/S0048-9697(05)80141-X
45865|T||Hanafi,M.M., and G.J. Maria|Cadmium and Zinc in Acid Tropical Soils:  III. Response of Cocoa Seedlings in a Greenhouse Experiment|Commun. Soil Sci. Plant Anal.29(11-14): 1949-1960|1998|10.1080/00103629809370084
45866|T||Goh,T.B., M.R. Banerjee, S. Tu, and D.L. Burton|Vesicular Arbuscular Mycorrhizae-Mediated Uptake and Translocation of P and Zn by Wheat in a Calcareous Soil|Can. J. Plant Sci.77(3): 339-346|1997|10.4141/P95-079
45867|T||Garg,O.K., and A. Hemantaranjan|Iron Sources in Relation to Leaf Senescence in French Bean (Phaseolus vulgaris L.)|J. Plant Nutr.11(6-11): 1205-1215|1988|10.1080/01904168809363879
45868|T||Farghali,K.A.|Diurnal Variations of Chlorophyll and dry Matter Contents of Senna occidentalis in Response to Zinc and Soil Moisture|Biol. Plant. (Praha)40(3): 419-424|1998|10.1023/A:1001126316498
45869|T||Gissel-Nielsen,G.|Foliar Application of Selenite to Barley Plants Low in Selenium|Commun. Soil Sci. Plant Anal.12(6): 631-642|1981|10.1080/00103628109367179
45870|T||Gupta,U.C.|Effects of Manganese and Lime on Yield and on the Concentration of Manganese, Molybdenum, Boron, Copper and Iron in the Boot Stage Tissue of Barley|Soil Sci.144(2): 131-136|1972|10.1097/00010694-197208000-00008
45873|T||Scott-Fordsmand,J.J., J.M. Weeks, and S.P. Hopkin|Importance of Contamination History for Understanding Toxicity of Copper to Earthworm Eisenia fetica (Oligochaeta:  Annelida), Using Neutral-Red Retention Assay|Environ. Toxicol. Chem.19(7): 1774-1780|2000|
45874|T||Edwards,C.A., and E.B. Dennis|Some Effects of Aldrin and DDT on the Soil Fauna of Arable Land|Nature188(4572): 767-|1960|10.1038/188767a0
45875|T||Fleming,W.E., L.B. Parker, W.W. Maines, E.L. Plasket, and P.J. McCabe|Bioassay of Soil Containing Residues of Chlorinated Hydrocarbon Insecticides with Special Reference to Control of Japanese Beetle Grubs|U.S.Dep.Agric.Tech.Bull.No.1266:44 p.|1962|
45876|T||Brallier,S., R.B. Harrison, C.L. Henry, and X. Dongsen|Liming Effects on Availability of Cd, Cu, Ni and Zn in a Soil Amended with Sewage Sludge 16 Years Previously|Water Air Soil Pollut.86(1-4): 195-206|1996|10.1007/BF00279156
45877|T||Belimov,A.A., A.M. Kunakova, N.D. Vasilyeva, T.S. Kovatcheva, V.F. Dritchko, S.N. Kuzovatov, I.R. Trushkina, and Y. Ale|Accumulation of Radionuclides by Associative Bacteria and the Uptake of 134CS by the Inoculated Barley Plants|In: K.A.Malik, et al.(Eds.), Nitrogen Fixation with Non-Legumes, Kluwer Acad.Publ., Great Britian33:275-280|1998|
45878|T||Bramley,R.G.V., and N.J. Barrow|Differences in the Cadmium Content of Some Common Western Australian Pasture Plants Grown in a Soil Amended with Cadmium-Describing the Effects of Level of Cadmium Supply|Fert. Res.39(2): 113-122|1994|10.1007/BF00750910
45879|T||Cieslinski,G., G.H. Neilsen, and E.J. Hogue|Effect of pH and Soil Cd Concentration on Cd Uptake and Accumulation by Apple Trees (Malus domestica Borkh.) Cv. Fuji|Acta Hortic.383:47-56|1995|10.17660/ActaHortic.1995.383.5
45880|T||Bilski,J.J., and C.D. Foy|Differential Tolerances of Weed Species to Aluminum, Manganese and Salinity|J. Plant Nutr.11(1): 93-105|1988|10.1080/01904168809363787
45881|T||Borkert,C.M., F.R. Cox, and M.R. Tucker|Zinc and Copper Toxicity in Peanut, Soybean, Rice, and Corn in Soil Mixtures|Commun. Soil Sci. Plant Anal.29(19/20): 2991-3005|1998|10.1080/00103629809370171
45882|T||Bhattacharya,R., and L.A. Douglas|Dieldrin Uptake from a Contaminated Haplustox by Glasshouse-Grown Plants|Soil Sci. Plant Nutr.43:1037-1039|1997|10.1080/00380768.1997.11863713
45883|T||Alhendawi,R.A., V. Romheld, E.A. Kirkby, and H. Marschner|Influence of Increasing Bicarbonate Concentrations on Plant Growth, Organic Acid Accumulation in Roots and Iron Uptake by Barley, Sorghum and Maize|J. Plant Nutr.20(12): 1731-1753|1997|10.1080/01904169709365371
45884|T||Albano,J.P., W.B. Miller, and M.C. Halbrooks|Iron Toxicity Stress Causes Bronze Speckle, a Specific Physiological Disorder of Marigold (Tagetes erecta l.)|J. Am. Soc. Hortic. Sci.121(3): 430-437|1996|10.21273/JASHS.121.3.430
45888|T||Pudelkiewicz,W.J., R.V. Boucher, E.W. Callenbach, and R.C. Miller|Some Physiological Responses of New Hampshire Chickens to a Mixture of Penta- and Hexachloronaphthalenes|Poult. Sci.38:424-430|1959|10.3382/ps.0380424
45890|T||Saha,J.G., and Y.W. Lee|The Metabolic Fate of 14C-Dieldrin in Wheat Plants and in an Agricultural Soil|J. Econ. Entomol.63:670-671|1970|10.1093/jee/63.2.670
45891|T||Bingham,F.T., and J.A. Beutel|Iron Chlorosis and Chelate Studies in Avocado Orchards|Calif. Avocado Soc. Yearbook41:133-135|1957|
45892|T||Davis,R.D., and P.H.T. Beckett|Upper Critical Levels of Toxic Elements in Plants.  II.  Critical Levels of Copper in Young Barley, Wheat, Rape, Lettuce and Ryegrass and of Nickel and Zinc in Young Barley and Ryegrass|New Phytol.80(1): 23-32|1978|10.1111/j.1469-8137.1978.tb02261.x
45893|T||Wielgus-Serafinska,E., and E. Kawka|Accumulation and Localization of Lead in Eisenia foetida (Oligochaeta) Tissues|Folia Histochem. Cytochem.14:315-320|1976|
45896|T||Barcelo,J., C. Cabot, and C. Poschenrieder|Cadmium-Induced Decrease of Water Stress Resistance in Bush Bean Plants (Phaseolus vulgaris L. cv. Contender). II. Effects of Cd on Endogenous Abscisic Acid Levels|J. Plant Physiol.125:27-34|1986|10.1016/S0176-1617(86)80240-1
45897|T||Berg,W.A., and W.G. Vogel|Manganese Toxicity of Legumes Seeded in Kentucky Strip-Mine Spoils|Paper No.NE-119, U.S.Dep.Agric., Forest Serv., Northeast.Forest Exp.Sta.:1-12|1968|
45899|T||Brennan,R.F.|The Effect of Zinc Fertilizer on Take-All and the Grain Yield of Wheat Grown on Zinc-Deficient Soils of the Esperance Region, Western Australia|Fert. Res.31:215-219|1992|10.1007/BF01063295
45900|T||Francis,C.W., and S.G. Rush|Factors Affecting Uptake and Distribution of Cadmium in Plants|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO7:75-81|1973|
45901|T||Hellmuth,U., and W. Schmidt|Lead Tolerance of Annuals at Roadsides|In: G.Esser and D.Overdieck (Eds.), Modern Ecology, Elsevier Science Publ., The Netherlands:844-|1991|
45903|T||Dueck,T.A.|Effects of Sulphur Dioxide, Zinc and Copper on Life History Characteristics of Silene cucubalus|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam:133-149|1986|
45904|T||Rosenberg,C.E., S.I. Peri, M.A. Arrieta, N.E. Fink, and A. Salibian|Red Blood Cell Osmotic Fragility in Bufo arenarum Exposed to Lead|Arch. Physiol. Biochem.106(1): 19-24|1998|10.1076/apab.106.1.19.4390
45905|T||Ghosh,D., S. Chattopadhyay, and J. Debnath|Effect of Sodium Arsenite on Adrenocortical Activity in Immature Female Rats: Evidence of Dose Dependent Response|J. Environ. Sci.11(4): 419-422|1999|
45906|T||Urso,P., W. Zhang, and J.R. Cobb|Immunological Consequences from Exposure to Benzo(a)pyrene During Pregnancy|Scand. J. Immunol.36(suppl. 11): 203-206|1992|10.1111/j.1365-3083.1992.tb01653.x
45907|T||Simkins,K.L., and J.M. Pensack|Effect of Gold Thioglucose on Survival, Food Consumption and Body Weight of Broilers|Poult. Sci.49:1241-1345|1970|10.3382/ps.0491341
45908|T||Shellabarger,C.J.|Mammary Neoplastic Response of Lewis and Sprague-Dawley Female Rats to 7,12-Dimethylbenz(a)anthracene or X-Ray|Cancer Res.32(5): 883-885|1972|
45909|T||Burzynski,M.|The Uptake and Transpiration of Water and the Accumulation of Lead by Plants Growing on Lead Chloride Solutions|Acta Soc. Bot. Pol.56(2): 271-280|1987|10.5586/asbp.1987.026
45911|T||Hart,J.J., R.M. Welch, W.A. Norvell, L.A. Sullivan, and L.V. Kochian|Characterization of Cadmium Binding, Uptake, and Translocation in Intact Seedlings of Bread and Durum Wheat Cultivars|Plant Physiol.116(4): 1413-1420|1998|10.1104/pp.116.4.1413
45912|T||Kramer,U., R.D. Smith, W.W. Wenzel, I. Raskin, and D.E. Salt|The Role of Metal Transport and Tolerance in Nickel Hyperaccumulation by Thlaspi goesingense Halacsy|Plant Physiol.115(4): 1641-1650|1997|10.1104/pp.115.4.1641
45913|T||Carbonell-Barrachina,A.A., F. Burlo-Carbonell, and J. Mataix-Beneyto|Arsenic Uptake, Distribution and Accumulation in Bean Plants: Effect of Arsenite and Salinity on Plant Growth and Yield|J. Plant Nutr.20(10): 1419-1430|1997|10.1080/01904169709365344
45914|T||Bernal,J.H., and R.B. Clark|Mineral Acquisition of Aluminum-Tolerant and -Sensitive Sorghum Genotypes Grown with Varied Aluminum|Commun. Soil Sci. Plant Anal.28(1-2): 49-62|1997|10.1080/00103629709369771
45915|T||Pellet,D.M., L.A. Papernik, and L.V. Kochian|Multiple Aluminum-Resistance Mechanisms in Wheat. Roles of Root Apical Phosphate and Malate Exudation|Plant Physiol.112(2): 591-597|1996|10.1104/pp.112.2.591
45916|T||Egerton-Warburton,L.M., and B.J. Griffin|Differential Responses of Pisolithus tinctorius Isolates to Aluminum In Vitro|Can. J. Bot.73(8): 1229-1233|1995|10.1139/b95-133
45917|T||Baligar,V.C., I. Anghinoni, G.V.E. Pitta, H.L. Dos Santos, E. Cunha Filho, and R.E. Schaffert|Aluminum Effects on Plant and Nutrient Uptake Parameters of Soil and Solution Grown Sorghum Genotypes|J. Plant Nutr.18(11): 2325-2338|1995|10.1080/01904169509365068
45918|T||De Abreu,C.A., B. Van Raij, M.F. De Abreu, W.R. Dos Santos, and J.C. De Andrade|Efficiency of Multinutrient Extractants for the Determination of Available Copper in Soils|Commun. Soil Sci. Plant Anal.27(3-4): 763-771|1996|10.1080/00103629609369593
45919|T||Bode,K., O. Doring, S. Luthje, H.U. Neue, and M. Bottger|The Role of Active Oxygen in Iron Tolerance of Rice (Oryza sativa l.)|Protoplasma (Multiple Languages)184(1-4): 249-255|1995|10.1007/BF01276928
45920|T||Ranta,H., S. Neuvonen, S. Kaariainen, and S. Vesanto|Copper and Nickel Pollution: Frequency of Endophytic Fungi in Scots Pine Shoots and Endophyte Growth In Vitro|Can. J. Bot.72(1): 93-99|1994|10.1139/b94-013
45921|T||Baligar,V.C., R.E. Schaffert, H.L. Dos Santos, G.V.E. Pitta, and A.F. Bahia Filho|Growth and Nutrient Uptake Parameters in Sorghum as Influenced by Aluminum|Agron. J.85(5): 1068-1074|1993|10.2134/agronj1993.00021962008500050021x
45922|T||Brennan,R.F.|The Effectiveness of Zinc Fertilizers as Measured by DTPA Soil Extractable Zinc, dry Matter Production and Zinc Uptake by Subterranean Clover in Relation to Soil Properties of a Range of Australian Soils|Aust. J. Soil Res.30(1): 45-53|1992|10.1071/SR9920045
45923|T||Alva,A.K., G.L. Kerven, D.G. Edwards, and C.J. Asher|Reduction in Toxic Aluminum to Plants by Sulfate Complexation|Soil Sci.152(5): 351-359|1991|10.1097/00010694-199111000-00006
45924|T||Ryan,P.R., J.E. Shaff, and L.V. Kochian|Aluminum Toxicity in Roots: Correlation Among Ionic Currents, Ion Fluxes and Root Elongation in Aluminum-Sensitive and Aluminum-Tolerant Wheat Cultivars|Plant Physiol.99(3): 1193-1200|1992|10.1104/pp.99.3.1193
45925|T||Baligar,V.C., T.A. Campbell, and R.J. Wright|Differential Responses of Alfalfa Clones to Aluminum-Toxic Acid Soil|J. Plant Nutr.16(2): 219-233|1993|10.1080/01904169309364525
45926|T||Banuelos,G.S., R. Mead, L. Wu, P. Beuselinck, and S. Akohoue|Differential Selenium Accumulation Among Forage Plant Species Grown in Soils Amended with Selenium-Enriched Plant Tissue|J. Soil Water Conserv.47(4): 338-342|1992|
45927|T||Zhang,F., V. Romheld, and H. Marschner|Role of the Root Apoplasm for Iron Acquisition by Wheat Plants|Plant Physiol.97(4): 1302-1305|1991|10.1104/pp.97.4.1302
45928|T||Campbell,T.A., N.J. Nuernberg, and C.D. Foy|Differential Responses of Sericea iespedeza to Aluminum Stress|J. Plant Nutr.14(10): 1057-1066|1991|10.1080/01904169109364265
45929|T||Miyasaka,S.C., J.G. Buta, R.K. Howell, and C.D. Foy|Mechanism of Aluminum Tolerance in Snapbeans. Root Exudation of Citric Acid|Plant Physiol.96(3): 737-743|1991|10.1104/pp.96.3.737
45930|T||Cresswell,G.C., N.G. Nair, and J.C. Evans|Effect of Boron and Copper Contaminants in Poultry Manure on the Growth of the Common Mushroom, Agaricus bisporus|Aust. J. Exp. Agric.30(5): 707-712|1990|10.1071/EA9900707
45931|T||Ahlrichs,J.L., M.C. Karr, V.C. Baligar, and R.J. Wright|Rapid Bioassay of Aluminum Toxicity in Soil|Plant Soil122(2): 279-285|1990|10.1007/BF02851986
45932|T||Huang,Y.W., and W.H. Karasov|Oral Bioavailability and Toxicokinetics of 3,3',4,4',5-Pentachlorobiphenyl in Northern Leopard Frogs, Rana pipiens|Environ. Toxicol. Chem.19(7): 1788-1794|2000|
45935|T||Kruger,E., and E. Sucoff|Growth and Nutrient Status of Quercus rubra L. in Response to Al and Ca|J. Exp. Bot.40(215): 653-658|1989|10.1093/jxb/40.6.653
45936|T||Crowley,D.E., C.P.P. Reid, and P.J. Szaniszlo|Utilization of Microbial Siderophores in Iron Acquisition by Oat|Plant Physiol.87(3): 680-685|1988|10.1104/pp.87.3.680
45937|T||Carroll,M.D., and J.F. Loneragan|Response of Plant Species to Concentrations of Zinc in Solution|Aust. J. Agric. Res.19:859-868|1968|10.1071/AR9680859
45940|T||Caradus,J.R., and J.R. Crush|Effect of Recurrent Selection for Aluminum Tolerance on Shoot Morphology and Chemical Content of White Clover|J. Plant Nutr.19(10-11): 1485-1492|1996|10.1080/01904169609365214
45941|T||Calba,H., B. Jaillard, P. Fallavier, and J.C. Arvieu|Agarose as a Suitable Substrate for Use in the Study of Al Dynamics in the Rhizosphere|Plant Soil178(1): 67-74|1996|10.1007/BF00011164
45942|T||Alvarez-Fernandez,A., A. Garate, M. Juarez, and J.J. Lucena|Tomato Acquisition of Iron from Iron Chelates in a Calcareous Sandy Substrate|J. Plant Nutr.19(8-9): 1279-1293|1996|10.1080/01904169609365198
45943|T||Gonzalez,A., and J. Lynch|Tolerance of Tropical Common Bean Genotypes to Manganese Toxicity: Performance Under Different Growing Conditions|J. Plant Nutr.22(3): 511-525|1999|10.1080/01904169909365648
45944|T||Gissel-Nielsen,G., and B. Bisbjerg|The Uptake of Applied Selenium by Agricultural Plants. 2. The Utilization of Various Selenium Compounds|Plant Soil32:382-396|1970|10.1007/BF01372878
45945|T||Abou Hussien,E.A., and M.N. Faiyad|The Combined Effect of Poudrette, Zinc and Cobalt on Corn Growth and Nutrients Uptake in Alluvial Soils|Egypt. J. Soil Sci.36(1-4): 47-58|1996|
45946|T||Horst,W.J.|Quick Screening of Cowpea (Vigna unguiculata) Genotypes for Aluminium Tolerance in an Aluminum-Treated Acid Soil|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)148:335-348|1985|10.1002/jpln.19851480312
45947|T||Dahiya,D.J., J.P. Singh, and V. Kumar|Manganese Nutrition of Wheat as Affected by Nitrogen and Phosphorus Application|Crop Res. (Hisar)9(1): 42-49|1995|
45948|T||De Iorio,A.F., A. Rendina, M.J. Barros, M. Bargiela, A. Garcia, and A. Iriarte|Copper and Molybdenum Interaction in Elytrigia elongata Growing on a Halomorphic Soil|J. Plant Nutr.21(5): 937-947|1998|10.1080/01904169809365455
45949|T||John,M.K.|Cadmium Uptake by Eight Food Crops as Influenced by Various Soil Levels of Cadmium|Environ. Pollut.4:7-15|1973|
45950|T||Monette,L.K.|The Effects of Salinity as Sodium Chloride and the Absorption of Zinc and Cadmium by Barley and Spinach|Ph.D. Thesis, University of California, Davis:99 p.|1978|
45951|T||He,Q.B., and B.R. Singh|Crop Uptake of Cadmium from Phosphorus Fertilizers:  I. Yield and Cadmium Content|Water Air Soil Pollut.74(3-4): 251-265|1994|10.1007/BF00479793
45952|T||Dahdoh,M.S.A.|Iron-Manganese-Zinc Relationships in Broad Bean Grown in Sandy Soils|Egypt. J. Soil Sci.37(4): 499-510|1997|
45954|T||Foy,C.D., M.P.W. Farina, and A.J. Oakes|Iron-Manganese Interactions Among Clones of Nilegrass|J. Plant Nutr.21(5): 987-1009|1998|10.1080/01904169809365459
45955|T||Gall,O.E., and R.M. Barnette|Toxic Limits of Replaceable Zinc to Corn and Cowpeas Grown of Three Florida Soils|J. Am. Soc. Agron.32:23-32|1940|10.2134/agronj1940.00021962003200010004x
45956|T||Fernandes,M.L., M.M. Abreu, F. Calouro, and M.C. Vaz|Effect of Liming and Cadmium Application in an Acid Soil on Cadmium Availability to Sudangrass|Commun. Soil Sci. Plant Anal.30(7-8): 1051-1062|1999|10.1080/00103629909370267
45957|T||Camacho,R.G., E.R. Arias, and T.H. Camacho|Effect of Soil Exchangeable Aluminum on Growth, Concentration and Transport of Nitrogen in Three Grain Sorghum (Sorghum bicolor l. Moench) Cultivars|Phyton (Buenos Aires)62(1-2): 65-69|1998|
45958|T||Cox,M.S., P.F. Bell, and J.L. Kovar|Differential Tolerance of Canola to Arsenic when Grown Hydroponically or in Soil|J. Plant Nutr.19(12): 1599-1610|1996|10.1080/01904169609365224
45959|T||Khalid,B.Y., and J. Tinsley|Some Effects of Nickel Toxicity on Rye Grass|Plant Soil55:139-144|1980|10.1007/BF02149717
45960|T||Hartikainen,H., P. Ekholm, V. Piironen, T.L. Xue, T. Koivu, and M. Yli-Halla|Quality of the Ryegrass and Lettuce Yields as Affected by Selenium Fertilization|Agric. Food Sci. Finl.6(5-6): 381-387|1997|10.23986/afsci.72801
45961|T||Chhibba,I.M., V.K. Nayyar, and P.N. Takkar|Upper Critical Level of Copper in Wheat (Triticum aestivum) Raised on Typic Ustipsamment Soil|Indian J. Agric. Sci.64(5): 285-289|1994|
45962|T||Chahal,D.S., and N.S. Randhawa|Dynamics of Zinc Absorption by Wheat|Indian J. Agric. Sci.47(10): 489-492|1977|
45963|T||McLaughlin,M.J., N.A. Maier, K. Freeman, K.G. Tiller, C.M.J. Williams, and M.K. Smart|Effect of Potassic and Phosphatic Fertilizer Type, Fertilizer Cd Concentration and Zinc Rate on Cadmium Uptake by Potatoes|Fert. Res.40(1): 63-70|1995|10.1007/BF00749863
45964|T||Andrewes,P., R.M. Town, M.J. Hedley, and P. Loganathan|Measurement of Plant-Available Cadmium in New Zealand Soils|Aust. J. Soil Res.34(3): 441-452|1996|10.1071/SR9960441
45965|T||Bandara,W.M.J., and G.A. Gunatilaka|Effects of Applied Potassium and Phosphorus on Bronzing in Rice Grown in Iron Toxic Soils|J. Natl. Sci. Counc. Sri Lanka22(3): 219-230|1994|
45968|T||Kasran,R., Z.H. Shamsuddin, and D.G. Edwards|Effect of Toxic Concentrations of H+ and Al on Nonsymbiotic Growth of Groundnut in Solution Culture|Pertanika15(3): 189-197|1992|
45969|T||Carver,B.F., W.E. Whitmore, E.L. Smith, and L. Bona|Registration of Four Aluminum-Tolerant Winter Wheat Germplasms and Two Susceptible Near-Isolines|Crop Sci.33(5): 1113-1114|1993|10.2135/cropsci1993.0011183X003300050060x
45970|T||Arora,C.L., and J. Kaur|Preparation of Tris(Dimethyldithiocarbamato) Iron(III) and Its Effect on Seed Germination|Asian J. Chem.5(2): 473-474|1993|
45971|T||Asp,H., B. Bengtsson, and P. Jensen|Influence of Aluminum on Phosphorus and Calcium Localization in Roots of Beech (Fagus sylvatica)|Physiol. Plant. (Multiple Languages)8(1): 41-46|1991|10.1111/j.1399-3054.1991.tb01279.x
45973|T||Aly,S.S.M., and S.M. Soliman|Impact of Some Organic Acids on Correcting Iron Chlorosis in Two Soybean Genotypes Grown in Calcareous Soil|Nutr. Cycl. Agroecosyst.51(3): 185-191|1998|10.1023/A:1009740601479
45974|T||De lima Filho,O.F., and E. Malavolta|Evaluation of Extraction Procedures on Determination of Critical Soil and Foliar Levels of Boron and Zinc in Coffee Plants|Commun. Soil Sci. Plant Anal.29(7-8): 825-833|1998|10.1080/00103629809369988
45975|T||Bernal,J.H., and R.B. Clark|Growth Traits Among Sorghum Genotypes in Response to Aluminum|J. Plant Nutr.21(2): 297-305|1998|10.1080/01904169809365404
45976|T||Andrew,C.S., and W.H.J. Pieters|Manganese Toxicity Symptoms of One Temperate and Seven Tropical Pasture Legumes|Div.Trop.Pastures Tech.Pap.No.4, Commonwealth Scientific and Industrial Research Organization, Australia:2-8|1970|
45979|T||Buczek,J.|Reduction of Nitrates in Cucumis sativus L. Seedlings II. Influence of Tungsten and Vanadium on Nitrate Reductase and ATPase Activities|Acta Soc. Bot. Pol.49(3): 269-280|1980|10.5586/asbp.1980.024
45980|T||Buczek,J., E. Kowalinska, and K. Kuczera|Reduction of Nitrates in Cucumis sativus L. Seedlings I. Influence of Tungsten and Vanadium on Absorption and Reduction of Nitrates|Acta Soc. Bot. Pol.49(3): 259-268|1980|10.5586/asbp.1980.023
45984|T||Crawford,L.A., I.D. Hodkinson, and N.W. Lepp|The Effects of Feeding by the Black Bean Aphid Aphis fabae Scop. (Homoptera: Aphididae) on Copper and Cadmium Accumulation in Broad Bean (Vicia faba L.)|Environ. Geochem. Health12:245-251|1990|10.1007/BF01782987
45986|T||Adams,M.L., P.D. McIntosh, R.D. Patterson, and K.J. Powell|Aluminium Speciation in Seasonally dry High Country Soils, South Island, New Zealand|Aust. J. Soil Res.37(5): 1005-1015|1999|10.1071/SR98111
45987|T||Bakker,M.R.|Fine-Root Parameters as Indicators of Sustainability of Forest Ecosystems|For. Ecol. Manag.122(1-2): 7-16|1999|10.1016/S0378-1127(99)00028-6
45988|T||Asensi,A., F. Bennett, R. Brooks, B. Robinson, and R. Stewart|Copper Uptake Studies on Erica andevalensis, a Metal-Tolerant Plant from Southwestern Spain|Commun. Soil Sci. Plant Anal.30(11-12): 1615-1624|1999|10.1080/00103629909370313
45990|T||Calba,H., P. Cazevieille, and B. Jaillard|Modelling of the Dynamics of Al and Protons in the Rhizosphere of Maize Cultivated in Acid Substrate|Plant Soil209(1): 57-69|1999|10.1023/A:1004515815446
45992|T||Cserjesi,A.J.|The Adaptation of Fungi to Pentachlorophenol and Its Biodegradation|Can. J. Microbiol.13:1243-1249|1967|10.1139/m67-169
45994|T||U.S. Department of Agriculture|Monitoring for Chlorinated Hydrocarbon Insecticide Residues in Soybeans - 1966|Pestic. Monit. J.2:58-67|1968|
45995|T||Mumma,R.O., W.B. Wheeler, D.E.H. Frear, and R.H. Hamilton|Dieldrin: Extraction of Accumulations by Root Uptake|Science152:530-531|1966|10.1126/science.152.3721.530
45997|T||Michels,J., and G. Gottschalk|Pathway of 2,4,6-Trinitrotoluene (TNT) Degradation by Phanerochaete chrysosporium|In: J.C.Spain (Ed.), Biodegradation of Nitroaromatic Compounds, Chapter 9, Plenum Press, NY:135-149|1995|
45998|T||Jacobson,L., and J.J. Oertli|The Relation Between Iron and Chlorophyll Contents in Chlorotic Sunflower Leaves|Plant Physiol.31:199-204|1956|10.1104/pp.31.3.199
45999|T||Athalye,V.V., and K.B. Mistry|Uptake and Distribution of Polonium-210 and Lead-210 in Tobacco Plants|Radiat. Bot.12:421-425|1972|10.1016/S0033-7560(72)80019-X
46000|T||D'souza,T.J., and K.B. Mitry|Comparative Uptake of Thorium-230, Radium-226, Lead-210 and Polonium-210 by Plants|Radiat. Bot.10:293-295|1970|10.1016/S0033-7560(70)80024-2
46001|T||Barcelo,J., C. Poschenrieder, and B. Gunse|Water Relations of Chromium VI Treated Bush Bean Plants (Phaseolus vulgaris L. cv. Contender) Under both Normal and Water Stress Conditions|J. Exp. Bot.37(175): 178-187|1986|10.1093/jxb/37.2.178
46002|T||Starkey,R.L., and S.A. Waksman|Fungi Tolerant to Extreme Acidity and high Concentrations of Copper Sulfate|J. Bacteriol.45:509-519|1943|10.1128/jb.45.5.509-519.1943
46003|T||Mugwira,L.M., V.T. Sapra, S.U. Patel, and M.A. Choudry|Aluminum Tolerance of Triticale and Wheat Cultivars Developed in Different Regions|Agron. J.73:470-475|1981|10.2134/agronj1981.00021962007300030019x
46004|T||Nelson,L.E.|Tolerances of 20 Rice Cultivars to Excess Al and Mn|Agron. J.75:134-138|1983|10.2134/agronj1983.00021962007500010034x
46005|T||Rufty,T.W., G.S. Miner, and C.D.,Jr. Raper|Temperature Effects on Growth and Manganese Tolerance in Tobacco|Agron. J.71:638-644|1979|10.2134/agronj1979.00021962007100040029x
46006|T||Carrow,R.N., B.J. Johnson, and G.W.,Jr. Landry|Centipedegrass Response to Foliar Application of Iron and Nitrogen|Agron. J.80:746-750|1988|10.2134/agronj1988.00021962008000050010x
46007|T||Fleming,A.L.|Ammonium Uptake by Wheat Varieties Differing in Al Tolerance|Agron. J.75:726-730|1983|10.2134/agronj1983.00021962007500050003x
46008|T||Ohki,K.|Manganese Deficiency and Toxicity Effects on Growth, Development and Nutrient Composition in Wheat|Agron. J.76:213-218|1984|10.2134/agronj1984.00021962007600020011x
46009|T||Wallace,S.U., and I.C. Anderson|Aluminum Toxicity and DNA Synthesis in Wheat Roots|Agron. J.76:5-8|1984|10.2134/agronj1984.00021962007600010002x
46010|T||Cary,E.E., and W.H. Allaway|Selenium Content of Field Crops Grown in Selenite-Treated Soils|Agron. J.65(6): 922-925|1973|10.2134/agronj1973.00021962006500060023x
46011|T||Cary,E.E., and M. Rutzke|Foliar Application of Selenium to Field Corn|Agron. J.73:1083-1085|1981|10.2134/agronj1981.00021962007300060043x
46012|T||Davis,A.M.|Selenium Uptake in Astragalus and Lupinus Species|Agron. J.78:727-729|1986|10.2134/agronj1986.00021962007800040033x
46013|T||Allen,W.R., and P.M. Sheppard|Copper Tolerance in Some Californian Populations of the Monkey Flower, Mimulus guttatus|Proc. R. Soc. Lond. Ser. B Biol. Sci.177:177-196|1971|
46014|T||Ulrich,J.M., and A. Shrift|Selenium Absorption by Excised Astragalus Roots|Plant Physiol.43:14-20|1968|10.1104/pp.43.1.14
46015|T||Barker,W.G.|Toxicity Levels of Mercury, Lead, Copper, and Zinc in Tissue Culture Systems of Cauliflower, Lettuce, Potato, and Carrot|Can. J. Bot.50:973-976|1972|10.1139/b72-117
46016|T||Boyd,H.W.|Manganese Toxicity to Peanuts in Autoclaved Soil|Plant Soil34:133-144|1971|10.1007/BF01372638
46017|T||Crooke,W.M., and R.H.E. Inkson|The Relationship Between Nickel Toxicity and Major Nutrient Supply|Plant Soil6(1): 1-15|1955|10.1007/BF01393752
46018|T||Brown,P.H., R.D. Graham, and D.J.D. Nicholas|The Effect of Manganese and Nitrate Supply on the Levels of Phenolics and Lignin in Young Wheat Plants|Plant Soil81:437-440|1984|10.1007/BF02323058
46019|T||Maxam,G., J.P. Rila, W. Dott, and A. Eisentraeger|Use of Bioassays for Assessment of Water-Extractable Ecotoxic Potential of Soils|Ecotoxicol. Environ. Saf.45(3): 240-246|2000|10.1006/eesa.1999.1855
46020|T||Gomot-De Vaufleury,A.|Standardized Growth Toxicity Testing (Cu,Zn,Pb, and Pentachlorophenol) with Helix aspersa|Ecotoxicol. Environ. Saf.46(1): 41-50|2000|10.1006/eesa.1999.1872
46021|T||Duncan,R.R., R.B. Clark, and P.R. Furlani|Laboratory and Field Evaluation of Sorghum for Response to Aluminum and Acid Soil|Agron. J.75:1023-1026|1983|10.2134/agronj1983.00021962007500060035x
46024|T||Wheeler,E.H., and A.A.,Jr. LaPlante|DDT and Ryanex to Control Oriental Fruit Moth: Their Effect upon Parasite Populations|J. Econ. Entomol.39(2): 211-215|1946|10.1093/jee/39.2.211
46027|T||Abraham,C.T., S.P. Singh, and G. Kulshrestha|Persistence of Herbicides in Soil in Sorghum - Legume Intercropping System|Indian J. Agron.32(3): 253-257|1987|
46028|AT||Niemi,G.J., A.E. Hershey, L. Shannon, J.M. Hanowski, A. Lima, R.P. Axler, and R.R. Regal|Ecological Effects of Mosquito Control on Zooplankton, Insects, and Birds|Environ. Toxicol. Chem.18(3): 549-559|1999|10.1002/etc.5620180325
46029|T||Ward,N.I., E. Roberts, and R.R. Brooks|Silver Uptake by Seedlings of Lolium perenne L. and Trifolium repens L|N. Z. J. Sci.22:129-132|1979|
46030|T||Colpaert,J.V., and J.A. Van Assche|The Effects of Cadmium on Ectomycorrhizal Pinus sylvestris L|New Phytol.123(2): 325-333|1993|10.1111/j.1469-8137.1993.tb03742.x
46033|T||Tano,S., H. Yamaguchi, and S. Ueda|Effects of Low Dose Tritium Labeled Thymidine and Uridine on the Induction of Somatic Mutations in Tradescantia|Environ. Exp. Bot.24(2): 173-178|1984|10.1016/0098-8472(84)90019-4
46034|T||Herman,S.G., and J.B. Bulger|Effects of a Forest Application of DDT on Nontarget Organisms|Wildl. Monogr.(69): 1-62|1979|
46035|T||Ismail,I.I.|Evaluating the Efficiency of Certain Insecticides in Controlling Chilo agamemnon Bles. and Ostrinia nubilalis (HUB.) [Lepidoptera: Crambinae]|Bull. Entomol. Soc. Egypt9(7): 7-12|1975|
46036|T||McFarlane,J.C.|Tritium Accumulation in Lettuce Fumigated with Elemental Tritium|Environ. Exp. Bot.18(2): 131-138|1978|10.1016/0098-8472(78)90010-2
46037|T||Sikka,K., and A.K. Sharma|The Effects of Some Herbicides on Plant Chromosomes|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.42(6): 299-307|1976|
46039|T||Kabir,S.M.H., and M.I. Azhar|Effectiveness and Persistence of Three Insecticides Against Coleopterous Pests of Stored Rice|Dhaka Univ. Stud. Part B Sci. 23(2): 61-65|1975|
46040|T||Badawi,A.|Chemical Control of the Cotton Flea Beetle Podagrica-puncticollis Weise in the Sudan (Halticidae Coleoptera)|Z. Angew. Entomol. (Multiple Languages)68(1): 79-82|1971|10.1111/j.1439-0418.1971.tb03125.x
46041|T||Kaschef,A.H., S.A. Soliman, and L.S. El-Sherif|The Toxicity of Some Organic Insecticides to Amitermes desertorum Desn. (Isoptera, Termitidae)|Z. Angew. Entomol. (Multiple Languages)67(2): 137-140|1971|10.1111/j.1439-0418.1971.tb02107.x
46045|T||Abdel-Salam,A.M., M.A. Assem, A.M. Abbasy, and M. El-Nahhas|Studies on Chemical Control of Cotton Leaf Worm, Spodoptera littoralis (Boisd.), on Sweet Potato in U.A.R.|Z. Angew. Entomol. (Multiple Languages)70(2): 221-223|1972|10.1111/j.1439-0418.1972.tb02173.x
46046|T||Vacher,J.|Immunological Responses of Guinea Pigs to Beryllium Salts|J. Med. Microbiol.5:91-108|1972|10.1099/00222615-5-1-91
46050|T||Jewitt,N., P. Anthony, K.C. Lowe, and D.I. De Pomerai|Oxygenated Perfluorocarbon Promotes Nematode Growth and Stress-Sensitivity in a Two-Phase Liquid Culture System|Enzyme Microb. Technol.25(3-5): 349-356|1999|10.1016/S0141-0229(99)00052-6
46051|T||Klein,A.K., E.P. Laug, P.R. Datta, J.O. Watts, and J.T. Chen|Metabolites:  Reductive Dechlorination of DDT to DDD and Isomeric Transformation of o,p'-DDT to p,p'-DDT In Vivo|J. AOAC Int.47:1129-1145|1964|10.1093/jaoac/47.6.1129
46052|T||Cannon,H.L.|The Biogeochemistry of Vanadium|Soil Sci.96(3): 196-204|1963|10.1097/00010694-196309000-00008
46056|T||Bond,E.J.|The Action of Fumigants on Insects: II. The Effect of Hydrogen Cyanide on the Activity and Respiration of Certain Insects|Can. J. Zool.39:437-444|1961|10.1139/z61-048
46058|T||Wilk,A.L., C.T.G. King, E.A. Horigan, and A.J. Steffek|Metabolism of beta-Aminopropionitrile and Its Teratogenic Activity in Rats|Teratology5(1): 41-48|1972|10.1002/tera.1420050108
46060|A||Crisp,D.J., A.O. Christie, and A.F.A. Ghobashy|Narcotic and Toxic Action of Organic Compounds on Barnacle Larvae|Comp. Biochem. Physiol.22:629-649|1967|10.1016/0010-406X(67)90758-X
46061|T||Allam,A.I., J.B. Sinclair, and P.F. Schilling|Laboratory and Greenhouse Evaluations of Four Systemic Fungicides|Phytopathology59:1659-1662|1969|
46062|T||Beestman,G.B., D.R. Keeney, and G. Chesters|Dieldrin Translocation and Accumulation in Corn|Agron. J.61:390-392|1969|10.2134/agronj1969.00021962006100030017x
46063|T||Brass,C.L., and G.W. Ware|BHC-Translocatin from Treated Soil and the Effect on Growth of Red Clover|J. Econ. Entomol.53(1): 110-113|1960|10.1093/jee/53.1.110
46064|T||Bruce,W.N., G.C. Deciker, and W.H. Luckmann|Residues of Dieldrin and Heptachlor-Epoxide Found in Pumpkins Growing on Soil Treated with Aldrin and Heptachlor|J. Econ. Entomol.60:707-709|1967|10.1093/jee/60.3.707
46065|T||Bruce,W.N., G.C. Decker, and J.G. Wilson|The Relationship of the Levels of Insecticide Contamination of Crop Seeds to Their Fat Content and Soil Concentration of Aldrin, Heptachlor, and Their Epoxides|J. Econ. Entomol.59:179-181|1966|10.1093/jee/59.1.179
46066|T||Byrne,H.D., and A.L. Steinhauer|Mechanisms of Contamination of Alfalfa with Heptachlor and Heptachlor Epoxide|J. Econ. Entomol.59(2): 338-341|1966|10.1093/jee/59.2.338
46067|T||Dawsey,L.H., D.W. Woodham, and C.S. Lofgren|Heptachlor and Heptachlor Epoxide Residues in Truck Crops|J. Econ. Entomol.54:1264-1265|1961|10.1093/jee/54.6.1264
46068|T||Erwin,D.C., J.J. Sims, and J. Partridge|Evidence for the Systemic, Fungitoxic Activity of 2-(4'-Thiazolyl) Benzimidazole inthe Control of Verticillium Wilt of Cotton|Phytopathology58:860-865|1968|
46069|T||Glasser,R.F., R.G. Blenk, J.E. Dewey, B.D. Hilton, and M.H.J. Weiden|Occurrence of a Toxic Non-aldrin Residue in Carrots Grown on Aldrin-Treated Soil|J. Econ. Entomol.51:337-341|1958|10.1093/jee/51.3.337
46070|T||Gray,L.E., and J.B. Sinclair|Uptake and Translocation of Systemic Fungicides by Soybean Seedlings|Phytopathology60:1486-1488|1970|10.1094/Phyto-60-1486
46071|T||Gray,L.E., and J.B. Sinclair|Systemic Uptake of 14C-Labeled 2-(4'-Thiazolyl)Benzimidazole in Soybean|Phytopathology61:523-525|1971|10.1094/Phyto-61-523
46072|T||Hacskaylo,J., D.A. Lindquist, and J.C. Clark|Phorate Accumulation by Cotton Plants and Recovery from Soil|J. Econ. Entomol.54(3): 411-413|1961|10.1093/jee/54.3.411
46073|T||Hacskaylo,J., D.A. Lindquist, and T.B. Davich|Dimethoate Absorption and Its Translocation and Distribution in the Cotton Plant|J. Econ. Entomol.54(6): 1206-1209|1961|10.1093/jee/54.6.1206
46074|T||James,P.E., J.V. Lagerwerff, and R.F. Dudley|Translocation of Mercury from Seed Treatment|Proc.Int.Symp.on Identification and Measurement of Environmental Pollutants, Nat Res Council, June 14-17, 1971, Ottawa, Canada:|1971|
46075|T||Lichtenstein,E.P., G.R. Myrdal, and K.R. Schulz|Effect of Formulation and Mode of Application of Aldrin on the Loss of Aldrin and Its Epoxide from Soils and Their Translocation into Carrots|J. Econ. Entomol.57:133-136|1964|10.1093/jee/57.1.133
46076|T||Muns,R.P., M.W. Stone, and F. Francis|Residues in Vegetable Crops Following Soil Applications of Insecticides|J. Econ. Entomol.53(5): 832-834|1960|10.1093/jee/53.5.832
46078|T||Onsager,J.A., and H.W. Rusk|Absorption and Translocation of Diazinon and Stauffer N-2790 in Sugar Beet Seedlings|J. Econ. Entomol.60(2): 586-588|1967|10.1093/jee/60.2.586
46079|T||Peacock,F.C.|Nematode Control by Plant Chemotherapy|Nematologica12:70-86|1966|10.1163/187529266X00031
46080|T||Ranney,C.D.|Studies with Benomyl and Thiabendazole on Control of Cotton Diseases|Phytopathology6:783-786|1971|10.1094/Phyto-61-783
46081|T||Ridgway,R.L., D.A. Lindquist, and D.L. Bull|Effect of Method of Application on Uptake of Di-Syston by the Cotton Plant|J. Econ. Entomol.58(2): 349-352|1965|10.1093/jee/58.2.349
46082|T||Smith,G.N., B.S. Watson, and F.S. Fischer|Investigations on Dursban Insecticide. Uptake and Translocation of [36Cl] O,O-Diethyl O-3,5,6-Trichloro-2-Pyridyl Phosphorothioate and [14C] O,O-Diethyl O-3,5,6-Trichloro-2-Pyridyl Phosphorothioate by Beans and Corn|J. Agric. Food Chem.15(1): 127-131|1967|10.1021/jf60149a016
46083|T||Tsao,C.H., and E.W. Clark|Absorption and Translocation of Di-Syston by Cotton Plants|J. Econ. Entomol.54:1228-1229|1954|10.1093/jee/54.6.1228
46084|T||Starnes,O.|Absorption and Translocation of Insecticides Through the Root Systems of Plants|J. Econ. Entomol.43:338-342|1950|10.1093/jee/43.3.338
46085|T||Stitt,L.L., and J. Evanson|Phytotoxicity and Off-Quality of Vegetables Grown in Soil Treated with Insecticides|J. Econ. Entomol.42(4): 614-617|1949|10.1093/jee/42.4.614
46086|T||Terranova,A.C., and G.W. Ware|Studies of Endosulfan in Bean Plants by Paper and Gas Chromotography|J. Econ. Entomol.56:596-599|1963|10.1093/jee/56.5.596
46087|T||Weiden,M.H.J., A.J. Borash, E.L. Boyd, A.A. Sousa, and L.K.,Jr. Payne|Residual and Systemic Properties of Two Methyl 4-(Methylcarbomoyloxy)-Carbanilate Insecticides|J. Econ. Entomol.60:873-874|1967|10.1093/jee/60.3.873
46088|T||Zaki,M., and H.T. Reynolds|Effects of Various Soil Types and Methods of Application upon Uptake Systemic by Cotton Plants in the Greenhouse|J. Econ. Entomol.54:568-572|1961|10.1093/jee/54.3.568
46089|T||Bingham,F.T., A.L. Page, and G.R. Bradford|Tolerance of Plants to Lithium|Soil Sci.98:4-8|1964|10.1097/00010694-196407000-00002
46090|T||Foy,C.D., W.H. Armiger, L.W. Briggle, and D.A. Reid|Differential Aluminum Tolerance of Wheat and Barley Variety to Acid Soils|Agron. J.57(5): 413-417|1965|10.2134/agronj1965.00021962005700050001x
46091|T||Chou,Y.C., T. Iguchi, and H.A. Bern|Effects of Antiestrogens on Adult and Neonatal Mouse Reproductive Organs|Reprod. Toxicol.6:439-446|1992|10.1016/0890-6238(92)90007-G
46092|T||Soane,B.D., and D.H. Saunder|Nickel and Chromium Toxicity of Serpentine Soils in Southern Rhodesia|Soil Sci.8:322-330|1959|10.1097/00010694-195988060-00004
46093|T||Thawley,D.G., S.E. Pratt, and L.A. Selby|Antagonistic Effect of Zinc on Increased Urine delta-Aminolevulinic Acid Excretion in Lead-Intoxicated Rats|Environ. Res.15(2): 218-226|1978|10.1016/0013-9351(78)90098-1
46094|T||Kjaer,C., and N. Elmegaard|Effects of Copper Sulfate on Black Bindweed (Polygonum convolvulus L.)|Ecotoxicol. Environ. Saf.33(2): 110-117|1996|10.1006/eesa.1996.0014
46095|T||Jarvis,S.C.|Copper Uptake and Accumulation by Perennial Ryegrass Grown in Soil and Solution Culture|J. Sci. Food Agric.29(1): 12-18|1978|10.1002/jsfa.2740290103
46109|T||Eckwert,H., and H.R. Kohler|The Indicative Value of the HSP70 Stress Response as a Marker for Metal Effects in Oniscus asellus (Isopoda) Field Populations: Variability Between Populations from Metal-Polluted and Uncontaminated Sites|Appl. Soil Ecol.6(3): 275-282|1997|10.1016/S0929-1393(97)00020-6
46111|T||Mishra,S., K. Shanker, M.M. Srivastava, S. Srivastava, R. Shrivastav, S. Dass, and S. Prakash|A Study on the Uptake of Trivalent and Hexavalent Chromium by Paddy (Oryza sativa):  Possible Chemical Modifications in Rhizosphere|Agric. Ecosyst. Environ.62(1): 53-58|1997|10.1016/S0167-8809(96)01105-X
46112|T||Wolterbeek,H.T., A. Van der Meer, and M. De Bruin|The Uptake and Distribution of Cadmium in Tomato Plants as Affected by Ethylenediaminetetraacetic Acid and 2,4-Dinitrophenol|Environ. Pollut.55(4): 301-315|1988|10.1016/0269-7491(88)90252-7
46113|T||Marigomez,I., M. Soto, and M. Kortabitarte|Tissue-Level Biomarkers and Biological Effect of Mercury on Sentinel Slugs, Arion ater|Arch. Environ. Contam. Toxicol.31(1): 54-62|1996|10.1007/BF00203907
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46264|T||Majdi,H., and U. Rosengren-Brinck|Effects of Ammonium Sulphate Application on the Rhizosphere, Fine-Root and Needle Chemistry in a Picea abies (L.) Karst. Stand|Plant Soil162(1): 71-80|1994|10.1007/BF01416091
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46277|T||Nurmuratov,T.|An Outbreak of Pseudohadena immunda Noctuidae in the Deserts of the Ili Depression USSR|Probl. Osvo. Pustyn5:70-73|1973|
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46321|T||Aulerich,R.J., S.J. Bursian, A.C. Napolitano, and T. Oleas|Feeding Growing Mink (Mustela vison) PCB Aroclor 1254 does not Affect Baculum (Os-penis) Development|Bull. Environ. Contam. Toxicol.64(3): 443-447|2000|10.1007/s001280000020
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46325|T||Hasan,M.Y., M.A. Fahim, and W.B. Al Shuaib|Electrophysiological Effects of Chronic Lead Treatment on Synaptic Transmission in Murine Dorsiflexor Muscle|Bull. Environ. Contam. Toxicol.64(4): 593-600|2000|10.1007/s001280000044
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46335|T||Abrol,Y.P., and E.E. Conn|Studies on Cyanide Metabolism in Lotus arabicus L. and Lotus tenuis L|Phytochemistry5:237-242|1966|10.1016/S0031-9422(00)85123-7
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46382|T||Bennett,J.P.|The Treatment of Lime-Induced Chlorosis with Iron Salts|Circ.No.321, Univ.California Coll.Agric., Agric.Exp.Sta., Berkeley, CA:1-12|1931|
46383|T||Eldhuset,T., A. Goransson, and T. Ingestad|Aluminum Toxicity in Forest Tree Seedlings|In: T.C.Hutchinson and K.M.Meema (Eds.), Effects of Atmospheric Pollutants on Forests, Wetlands, and Agricultural Ecosystems, Springer-Verlag, Berlin:401-409|1987|
46384|T||Chaney,R.L., Y.M. Li, A.A. Schneiter, C.E. Green, J.F. Miller, and D.G. Hopkins|Progress in Developing Technologies to Produce Low Cd Concentrations Concentration Sunflower Kernels|In: Proceedings of the 15th Sunflower Research Workshop, Bismark, ND:80-92|1993|
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46401|T||Cessna,A.J.|HPLC Determination of Linuron Residues in Asparagus Following Pre- and Early Postemergence Applications|Can. J. Plant Sci.70:591-597|1990|10.4141/cjps90-074
46402|T||Cessna,A.J.|Residues Analysis of Garlic (Allium sativum L.) Cloves Following a Postemergence Application of Linuron (Analyse des Residus de Linuron dans des Grousses d'ail (Allium sativum L.) apres Application en Post-Levee)|Can. J. Plant Sci.71(3): 951-955|1991|10.4141/cjps91-137
46403|T||Jacques,R.P., J.B. Robinson, and F.E. Chase|Effects of Thiourea, Ethyl Urethane and Some Dithiocarbamate Fungicides on Nitrification in a Fox Sandy Loam|Can. J. Soil Sci.39:235-243|1959|
46404|T||Fellows,R.J., S.D. Harvey, and D.A. Cataldo|Evaluation of the Environmental Fate and Behavior of Munitions Material (Tetryl and Polar Metabolites of TNT) in Soil and Plant Systems. Preliminary Evaluation of TNT-Polar Metabolites in Plants|TD 2695, Battelle Pacific Northwest Labs., Richland, WA:93 p.|1992|
46405|T||Fellows,R.J., S.D. Harvey, F.C. Leung, and D.A. Cataldo|Validation of the Metabolic Fate of Munitions Materials (TNT, RDX) in Mature Crops and Evaluation of Plant DNA Adducts and DNA Mutation Frequency as Biomarkers|PNL-SA-24516 CONF-9406213-2, Battelle Pacific Northwest Labs., Richland, WA:8 p.|1994|
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46408|T||O'Sullivan,P.A., J.T. O'Donovan, and W.M. Hamman|Influence of Non-Ionic Surfactants, Ammonium Sulphate, Water Quality and Spray Volume on the Phytotoxicity of Glyphosate|Can. J. Plant Sci.61(2): 391-400|1981|10.4141/cjps81-053
46409|T||Wallace,A.|Excess Trace Metal Effects on Calcium Distribution in Plants|Commun. Soil Sci. Plant Anal.10(1-2): 473-479|1979|10.1080/00103627909366909
46411|T||Wallace,A., S.M. Soufi, G.V. Alexander, and J.W. Cha|Comparison of the Effects of high Levels of DTPA and EDDHA on Microelement Uptake in Bush Beans|Commun. Soil Sci. Plant Anal.7(1): 111-116|1976|10.1080/00103627609366623
46412|T||Olinger,L.D.|The Effects of Dimethyl Sulfoxide on the Biological Activity of Selected Miticides and Insecticides|Ph.D Thesis, University of Florida, Gainesville, FL:51 p.|1967|
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46416|T||Atlas,S.A., B.A. Taylor, B.A. Diwan, and D.W. Nebert|Inducible Monooxygenase Activities and 3-Methylcholanthrene-Initiated Tumorigenesis in Mouse Recombinant Inbred Sublines|Genetics83:537-550|1976|10.1093/genetics/83.3.537
46420|T||Qureshi,F.A., and D.C. Spanner|Cyanide Inhibition of Phloem Transport Along the Stolon of Saxifraga sarmentosa L.|J. Exp. Bot.24(81): 751-762|1973|10.1093/jxb/24.4.751
46421|T||Bond,E.J.|The Action of Fumigants on Insects:  I. The Uptake of Hydrogen Cyanide by Sitophilus granarius (L.) During Fumigation|Can. J. Zool.39:427-436|1961|10.1139/z61-047
46428|T||Ray,D.E., and J.E. Cremer|The Action of Decamethrin (a Synthetic Pyrethroid) on the Rat|Pestic. Biochem. Physiol.10(3): 333-340|1979|10.1016/0048-3575(79)90039-7
46429|T||Chisholm,D., H.B. Specht, and J.S. Leefe|Di-Syston Residues and Control of Pea Aphid, Acyrthosiphon pisum, with In-Furrow Treatments of Canning Peas in Nova Scotia|J. Econ. Entomol.58(4): 763-765|1965|10.1093/jee/58.4.763
46430|T||Cowan,C.B.,Jr., and J.W. Davis|Systemic Insecticides for Control of the Boll Weevil and the Cotton Fleahopper|J. Econ. Entomol.60:1038-1041|1967|10.1093/jee/60.4.1038
46431|T||Darrag,I.E.M., and J.B. Sinclair|Evidence for Systemic Protection Against Rhizoctonia solani with Chloroneb in Cotton Seedlings|Phytopathology59:1102-1105|1969|
46432|T||Dorough,H.W., and N.M. Randolph|Uptake of DDT and Endrin from the Soil by Peanuts and Soybeans Growth in Soil Containing These Pesticides|Texas Agric. Exp. Stn. Prog. Rep.:4 p.|1967|
46433|T||Eden,W.G., and B.W. Arthur|Translocation of DDT and Heptachlor in Soybeans|J. Econ. Entomol.58:161-162|1965|10.1093/jee/58.1.161a
46434|T||Haines,R.G.|Evidence of Lindane Translocation in Corn Plants|J. Econ. Entomol.49(4): 563-564|1956|10.1093/jee/49.4.563
46435|T||Hermanson,H.P., L.D. Anderson, and F.A. Gunther|Effects of Variety and Maturity of Carrots upon Uptake of Endrin Residues from Soil|J. Econ. Entomol.63:1651-1654|1970|10.1093/jee/63.5.1651
46436|T||Kirk,B.T., J.B. Sinclair, and E.N. Lambremont|Translocation of 14C-Labeled Chloroneb and DMOC in Cotton Seedlings|Phytopathology59:1473-1476|1969|
46437|T||Menzer,R.E., and L.P. Ditman|Residues in Spinach Grown in Disulfoton- and Phorate-Treated Soil|J. Econ. Entomol.61(1): 225-229|1968|10.1093/jee/61.1.225
46438|T||Morrison,H.E., H.H. Crowell, S.E.,Jr. Crumb, and R.W. Lauderdale|The Effects of Certain new Soil Insecticides on Plants|J. Econ. Entomol.41:374-378|1948|10.1093/jee/41.3.374
46439|T||Onsager,J.A., H.W. Rusk, and L.I. Butler|Residues of Aldrin, Dieldrin, Chlorodane and DDT in Soil and Sugarbeets|J. Econ. Entomol.63:1143-1146|1970|10.1093/jee/63.4.1143
46440|T||Questel,D.D., and R.V. Connin|A Chemical Treatment of Soil Which Produced Plant Tissues Lethal to European Corn Borer|J. Econ. Entomol.40(6): 914-915|1947|10.1093/jee/40.6.914
46441|T||Ridgway,R.L., P.D. Lingren, C.B.,Jr. Cowan, and J.W. Davis|Populations of Arthropod Predators and Heliothis spp. After Applications of Systemic Insecticides to Cotton|J. Econ. Entomol.60(4): 1012-1016|1967|10.1093/jee/60.4.1012
46442|T||Wallace,L.E., and L.I. Butler|Residues of Heptachlor and Heptachlor Epoxide in Wheat Treated to Control the Wheat Stem Sawfly|J. Econ. Entomol.60:254-256|1967|10.1093/jee/60.1.254
46443|T||Selye,H.|Production of Nephrosclerosis in the Fowl by Sodium Chloride|J. Am. Vet. Med. Assoc.103(798): 140-143|1943|
46444|T||Schroeder,H.A., W.H.,Jr. Vinton, and J.J. Balassa|Effects of Chromium, Cadmium and Lead on the Growth and Survival of Rats|J. Nutr.80:48-54|1963|
46446|T||Starich,G.H., and C. Blincoe|Dietary Chromium - Forms and Availabilities|Sci. Total Environ.28:443-454|1983|10.1016/S0048-9697(83)80041-2
46447|T||Starich,G.H., and C. Blincoe|Properties of a Chromium Complex from Higher Plants|J. Agric. Food Chem.30:458-462|1982|10.1021/jf00111a012
46449|T||Krigman,M.R., and E.L. Hogan|Effect of Lead intoxication on the Postnatal Growth of the Rat Nervous System|Environ. Health Perspect.7:187-199|1974|10.1289/ehp.747187
46451|T||Van de Bund,C.F.|Changes in the Soil Fauna Caused by the Application of Insecticides|Boll. Zool. Agrar. Bachic.7:185-212|1965|
46452|T||Grant,C.A., and L.D. Bailey|Effects of Phosphorus and Zinc Fertiliser Management on Cadmium Accumulation in Flaxseed|J. Sci. Food Agric.73(3): 307-314|1997|10.1002/(SICI)1097-0010(199703)73:3<307::AID-JSFA732>3.0.CO;2-3
46453|T||Clark,R.B., S.K. Zeto, K.D. Ritchey, and V.C. Baligar|Maize Growth and Mineral Acquisition on Acid Soil Amended with Flue Gas Desulfurization By-Products and Magnesium|Commun. Soil Sci. Plant Anal.28(15-16): 1441-1459|1997|10.1080/00103629709369886
46454|T||Dinev,N., and I. Stancheva|Effect of Aluminum on the Growth of Wheat, Rye and Triticale|J. Plant Nutr.16(3): 461-469|1993|10.1080/01904169309364545
46455|T||Ganmore-Neumann,R., B. Bar-Yosef, A. Shanzer, and J. Libman|Enhanced Iron (Fe) Uptake by Synthetic Sideropohores in Corn Roots|J. Plant Nutr.15(6-7): 1027-1037|1992|10.1080/01904169209364378
46456|T||Godbold,D.L., and C. Kettner|Use of Root Elongation Studies to Determine Aluminum and Lead Toxicity in Picea abies Seedlings|J. Plant Physiol.138:231-235|1991|10.1016/S0176-1617(11)80276-2
46457|T||Dabin,P., E. Marafante, J.M. Mousny, and C. Myttenaere|Absorption, Distribution and Binding of Cadmium and Zinc in Irrigated Rice Plants|Plant Soil50:329-341|1978|10.1007/BF02107182
46458|T||Fujita,M., and T. Kawanishi|Purification and Characterization of Cd-Binding Complex from the Root Tissue of Water Hyacinth Cultivated in a Cd+2-Containing Medium|Plant Cell Physiol.27(7): 1317-1325|1986|10.1093/oxfordjournals.pcp.a077230
46459|T||De Pasquale,R., S. Ragusa, L. Iauk, R. Barbera, and E.M. Galati|Effect of Cadmium on Germination, Growth and Active Principle Contents of Achillea millefolium L|Pharmacol. Res. Commun.20(suppl. 5): 145-149|1988|10.1016/S0031-6989(88)80860-9
46460|T||Harrison,R.M., and M.B. Chirgawi|The Assessment of Air and Soil as Contributors of Some Trace Metals to Vegetable Plants  II. Translocation of Atmospheric and Laboratory-Generated Cadmium Aerosols to and Within Vegetable Plants|Sci. Total Environ.83(1-2): 35-45|1989|10.1016/0048-9697(89)90004-1
46461|T||Brauer,D.|Assessing the Relative Effects of Hydrogen and Aluminum Ions on Primary Root Growth of White Clover Seedlings|J. Plant Nutr.21(11): 2429-2439|1998|10.1080/01904169809365575
46462|T||El Demerdashe,S., M.S.A. Dahdoh, M.S.A. Foda, and H. El Kassas|Charcoal as a Controlling Material for Soil Pb Pollution|Egypt. J. Soil Sci.36(1-4): 257-268|1996|
46463|T||Grewal,H.S., R.D. Graham, and Z. Rengel|Genotypic Variation in Zinc Efficiency and Resistance to Crown Rot Disease (Fusarium graminearum Schw. Group 1) in Wheat|Plant Soil186(2): 219-226|1996|10.1007/BF02415517
46464|T||Marschner,P., D.L. Godbold, and G. Jentschke|Dynamics of Lead Accumulation in Mycorrhizal and Non-Mycorrhizal Norway Spruce (Picea abies (L.) Karst)|Plant Soil178(2): 239-245|1996|10.1007/BF00011589
46466|T||Dong,B., Z. Rengel, and R.D. Graham|Effects of Herbicide Chlorsulfuron on Growth and Nutrient Uptake Parameters of Wheat Genotypes Differing in Zn-Efficiency|Plant Soil173(2): 275-282|1995|10.1007/BF00011465
46467|T||Li,Y.M., R.L. Chaney, A.A. Schneiter, and J.F. Miller|Combining Ability and Heterosis Estimates for Kernel Cadmium Level in Sunflower|Crop Sci.35(4): 1015-1019|1995|10.2135/cropsci1995.0011183X003500040015x
46471|T||Grewal,H.S., R.D. Graham, and J. Stangoulis|Zinc-Boron Interaction Effects in Oilseed Rape|J. Plant Nutr.21(10): 2231-2243|1998|10.1080/01904169809365557
46472|T||Delbarre,A., P. Muller, V. Imhoff, J.L. Morgat, and H. Barbier-Brygoo|Uptake, Accumulation and Metabolism of Auxins in Tobacco Leaf Protoplasts|Planta (Multiple Languages)195(2): 159-167|1994|10.1007/BF00199674
46474|T||Holst,R.W., W.E. Schmid, and J.H. Yopp|Beryllium Uptake by Excised Barley Roots|Plant Cell Physiol.21(5): 737-743|1980|10.1093/oxfordjournals.pcp.a076048
46475|T||Carbonell-Barrachina,A.A., F. Burlo, E. Lopez, and F. Martinez-Sanchez|Arsenic Toxicity and Accumulation in Radish as Affected by Arsenic Chemical Speciation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(4): 661-679|1999|
46476|T||Jaros-Su,J., E. Groden, and J. Zhang|Effects of Selected Fungicides and the Timing of Fungicide Application on Beauveria bassiana-Induced Mortality of the Colorado Potato Beetle (Coleoptera: Chrysomelidae)|Biol. Control15(3): 259-269|1999|10.1006/bcon.1999.0724
46477|T||Marschner,P., A. Klam, G. Jentschke, and D.L. Godbold|Aluminium and Lead Tolerance in Ectomycorrhizal Fungi|J. Plant Nutr. Soil Sci.162(3): 281-286|1999|10.1002/(SICI)1522-2624(199906)162:3<281::AID-JPLN281>3.0.CO;2-A
46478|T||Kurz,H., R. Schulz, and V. Romheld|Selection of Cultivars to Reduce the Concentration of Cadmium and Thallium in Food and Fodder Plants|J. Plant Nutr. Soil Sci.162(3): 323-328|1999|10.1002/(SICI)1522-2624(199906)162:3<323::AID-JPLN323>3.0.CO;2-M
46479|T||Gray,C.W., R.G. McLaren, A.H.C. Roberts, and L.M. Condron|Cadmium Phytoavailability in Some New Zealand Soils|Aust. J. Soil Res.37(3): 461-477|1999|10.1071/S98070
46480|T||Wildung,R.E., and T.R. Garland|Influence of Soil Plutonium Concentration on Plutonium Uptake and Distribution in Shoots and Roots of Barley|J. Agric. Food Chem.22:836-838|1974|10.1021/jf60195a019
46481|A||Yu,C.C., G.M. Booth, D.J. Hansen, and J.R. Larsen|Fate of Pyrazon in a Model Ecosystem|J. Agric. Food Chem.23:309-311|1975|10.1021/jf60198a060
46482|A||Yu,C.C., D.J. Hansen, and G.M. Booth|Fate of Dicamba in a Model Ecosystem|Bull. Environ. Contam. Toxicol.13(3): 280-283|1975|10.1007/BF01685336
46484|T||Ernst,R.A.|The Physiological Effects of Selected Pesticides on the Japanese Quail (Coturnix coturnix japonica) and Embryogenesis of the Domestic Fowl|Ph.D. Thesis, Michigan State University, East Lansing, MI:86 p.|1966|
46485|T||Blamey,F.P.C., D.C. Joyce, D.G. Edwards, and C.J. Asher|Role of Trichomes in Sunflower Tolerance to Manganese Toxicity|Plant Soil91:171-180|1986|10.1007/BF02181785
46486|T||Giordano,P.M., J.C. Noggle, and J.J. Mortvedt|Zinc Uptake by Rice as Affected by Metabolic Inhibitors and Competing Cations|Plant Soil41:637-646|1974|10.1007/BF02185822
46487|T||Edwards,D.G., and C.J. Asher|Tolerance of Crop and Pasture Species to Manganese Toxicity|In: E.A.Scalfe (Ed.), Proc.9th Plant Nutrition Colloqu., Warwick 1982, Commonwealth Agric Bureaux:145-150|1982|
46488|T||Davies,E.B., and J.H. Watkinson|Uptake of Native and Applied Selenium by Pasture Species. I. Uptake of Se by Browntop, Ryegrass, Cocksfoot and White Clover from Atiamuri Sand|N. Z. J. Agric. Res.9:317-327|1966|10.1080/00288233.1966.10420783
46490|T||Cotton,M.|Toxic Effects of Iodine and Nickel on Buckwheat Grown in Solution Cultures|Bull. Torrey Bot. Club57(2): 127-141|1930|10.2307/2480594
46491|T||Caspersen,S., B.W. Alsanius, P. Sundin, and P. Jensen|Bacterial Amelioration of Ferulic Acid Toxicity to Hydroponically Grown Lettuce (Lactuca sativa L.)|Soil Biol. Biochem.32(8-9): 1063-1070|2000|10.1016/S0038-0717(00)00014-6
46492|T||Tikhomirov,F.A., L.G. Magina, and E.V. Kiseleva|Effect and Aftereffect on Plants of High Copper and Nickel Concentrations in Soil|Moscow Univ. Soil Sci. Bull.43(1): 24-27|1988|
46493|T||Rehab,F.I., and A. Wallace|Excess Trace Metal Effects on Cotton:  6.  Nickel and Cadmium in Yolo Loam Soil|Commun. Soil Sci. Plant Anal.9(8): 779-784|1978|10.1080/00103627809366851
46494|T||Reed,J.F., and M.B. Sturgis|Toxicity from Arsenic Compounds to Rice on Flooded Soils|J. Am. Soc. Agron.28:432-436|1936|10.2134/agronj1936.00021962002800060003x
46495|T||Singh,M.|Effect of Selenium and Phosphorus on the Growth and Chemical Composition of Raya (Brassica juncea Cos.)|Plant Soil51:485-490|1979|10.1007/BF02277570
46496|T||Taylor,R.W., and D.W. Allinson|Influence of Lead, Cadmium and Nickel on the Growth of Medicago sativa (L.)|Plant Soil60:223-236|1981|10.1007/BF02374107
46497|T||Strickland,R.C., W.R. Chaney, and R.J. Lamoreaux|Organic Matter Influences Phytotoxicity of Cadmium to Soybeans|Plant Soil52(3): 393-402|1979|10.1007/BF02185582
46498|T||Soltanpour,P.N., and S.M. Workman|Use of NH4HCO3-DTPA Soil Test to Assess Availability and Toxicity of Selenium to Alfalfa Plants|Commun. Soil Sci. Plant Anal.11(12): 1147-1156|1980|10.1080/00103628009367111
46499|T||Hurd-Karrer,A.M.|Factors Affecting the Absorption of Selenium from Soils by Plants|J. Agric. Res.50(5): 413-427|1935|
46500|T||Hurd-Karrer,A.M.|Selenium Injury to Wheat Plants and Its Inhibition by Sulphur|J. Agric. Res.49(4): 343-357|1934|
46501|T||Halstead,R.I., B.J. Finn, and A.J. MacLean|Extractability of Nickel Added to Soils and Its Concentration in Plants|Can. J. Soil Sci.49:335-343|1969|10.4141/cjss69-046
46502|T||Lehoczky,E., I. Szabados, and P. Marth|Cadmium Content of Plants as Affected by Soil Cadmium Concentration|Commun. Soil Sci. Plant Anal.27(5-8): 1765-1777|1996|10.1080/00103629609369668
46503|T||Mishra,S.N., S. Bhutani, and D.B. Singh|Influence of Nitrate Supply on Cadmium Toxicity in Brassica juncea During Early Seedling Growth|Indian J. Plant Physiol.37(1): 12-16|1994|
46504|T||Liang,J., R.E. Karamanos, and J.W.B. Stewart|Plant Availability of Zn Fractions in Saskatchewan Soils|Can. J. Soil Sci.71(4): 507-517|1991|10.4141/cjss91-049
46505|T||Liu,A., and C. Tang|Responses of Two Genotypes of Lupinus albus L.  to Zinc Application on an Alkaline Soil|J. Plant Nutr.22(3): 467-477|1999|10.1080/01904169909365644
46506|T||Mascagni,H.J., and W.H. Baker|Evaluation of Manganese Inorganic Fertilizer Sources and Mehlich-3 Extractant for Prediction of Manganese Deficiency in Soybeans on a Sharkey Silty Clay|Commun. Soil Sci. Plant Anal.23(5-6): 527-539|1992|10.1080/00103629209368607
46507|T||Narwal,R.P., M. Singh, J.P. Singh, and D.J. Dahiya|Cadmium-Zinc Interaction in Maize Grown on Sewer Water Irrigated Soil|Arid Soil Res. Rehabil.7:125-131|1993|
46508|T||Iretskaya,S.N., S.H. Chien, and R.G. Menon|Effect of Acidulation of high Cadmium Containing Phosphate Rocks on Cadmium Uptake by Upland Rice|Plant Soil201(2): 183-188|1998|10.1023/A:1004323715299
46509|T||Metwally,A.I., and M.H. Rabie|Effect of Ni Addition on Plant Growth and Nutrient Uptake in Two Soils|Egypt. J. Soil Sci.29(3): 261-274|1989|
46510|T||Pareek,R.P., and A.C. Gaur|Effect of Dichloro Diphenyl Trichloro-Ethane (DDT) on Symbiosis of Rhizobium sp. with Phaseolus aureus (Green Gram)|Plant Soil33(2): 297-304|1970|10.1007/BF01378222
46511|T||Piotrowska,M., and S. Dudka|Estimation of Maximum Permissible Levels of Cadmium in a Light Soil by Using Cereal Plants|Water Air Soil Pollut.73(1-4): 179-188|1994|10.1007/BF00477985
46512|T||Prasad,B., I. Sarangthem, and K.C. Choudhary|Transformation and Availability of Applied Zinc to Maize in Calcareous Soil|J. Indian Soc. Soil Sci.43(1): 84-89|1995|
46513|T||Mozaffari,M., A.K. Alva, and E.Q. Chen|Relation of Copper Extractable from Soil and pH to Copper Content and Growth of Two Citrus Rootstocks|Soil Sci.161(11): 786-792|1996|10.1097/00010694-199611000-00007
46514|T||Tu,S., and G.J. Racz|Effect of KCl on Bioavailability of Manganese|Can. J. Soil Sci.74(1): 93-98|1994|10.4141/cjss94-012
46515|T||Sankhyan,N.K., and C.M. Sharma|Effect of Phosphorus and Zinc Fertilization on Grain Yield and Uptake by Maize (Zea mays)|Indian J. Agric. Sci.67(2): 63-66|1997|
46516|T||Van Lune,P., and K.B. Zwart|Cadmium Uptake by Crops from the Subsoil|Plant Soil189(2): 231-237|1997|10.1023/A:1004270910925
46517|T||Narwal,R.P., M. Singh, V. Kumar, and D.K. Bhandari|Effect of Nickel Enriched Sewage Water on dry Matter Yield and Biochemical Characteristics of Corn (Zea mays L.)|Indian J. Plant Physiol.1(3): 185-188|1996|
46518|T||McLaughlin,M.J., R.M. Lambrechts, E. Smolders, and M.K. Smart|Effects of Sulfate on Cadmium Uptake by Swiss Chard: II. Effects Due to Sulfate Addition to Soil|Plant Soil202(2): 217-222|1998|10.1023/A:1004381413048
46519|T||Mortvedt,J.J., R.L. Mikkelsen, and A.D.,Jr. Behel|Grain Sorghum Response to Granular Formulations of Iron Sources and Hydrophilic Polymers|J. Plant Nutr.15(10): 1913-1926|1992|10.1080/01904169209364447
46520|T||Perez-Espinosa,A., J. Moreno-Caselles, R. Moral, M.D. Perez-Murcia, and I. Gomez|Effect of Sewage Sludge and Cobalt Treatments on Tomato Fruit Yield, Weight and Quality|J. Plant Nutr.22(2): 379-385|1999|10.1080/01904169909365635
46521|T||Moraghan,T., A. Sims, and L. Smith|Zinc in Wheat Grain as Affected by Nitrogen Fertilization and Available Soil Zinc|J. Plant Nutr.22(4-5): 709-716|1999|10.1080/01904169909365666
46522|A||Butler,P.A.|Annual Report of the Bureau of Commercial Fisheries Biological Laboratory, Gulf Breeze, Florida. For the Fiscal Year Ending June 30, 1965|Annu.Rep.Bur.Commercial Fish., U.S.D.I., Gulf Breeze, FL, U.S.Bur.Comm.Fish.247:15 p.|1966|
46523|A||Sanders,J.C.|Effects of Arsenic Speciation and Phosphate Concentration on Arsenic Inhibition of Skeletonema costatum (Bacillaris phyceae)|J. Phycol.15:424-428|1979|
46525|T||Mitchell,C.D., and T.A. Fretz|Cadmium and Zinc Toxicity in White Pine, Red Maple, and Norway Spruce|J. Am. Soc. Hortic. Sci.102(1): 81-84|1977|10.21273/JASHS.102.1.81
46526|T||Singh,K., S. Ghosal, and J. Singh|Effect of Sulphur, Zinc, and Iron on Chlorophyll Content, Yield, Protein Harvest and Nutrient Uptake of French Bean (Phaseolus vulgaris L.)|J. Plant Nutr.15(10): 2025-2033|1992|10.1080/01904169209364456
46527|T||Moraghan,J.T.|Zinc Concentration of Navy Bean Seed as Affected by Rate and Placement of Three Zinc Sources|J. Plant Nutr.19(10-11): 1413-1422|1996|10.1080/01904169609365209
46528|T||Mehta,S.C., S.R. Poonia, and B.S. Panwar|Effect of Farmyard Manure, Gypsum and Zinc on the Performance of Maize in Sodic Soil|Crop Res. (Hisar)8(3): 480-485|1994|
46529|T||Lehoczky,E., L. Szabo, S. Horvath, P. Marth, and I. Szabados|Cadmium Uptake by Lettuce in Different Soils|Commun. Soil Sci. Plant Anal.29(11-14): 1903-1912|1998|10.1080/00103629809370080
46530|T||Walsh,L.M., D.R. Steevens, H.D. Seibel, and G.G. Weis|Effect of high Rates of Zinc on Several Crops on an Irrigated Plainfield Sand|Commun. Soil Sci. Plant Anal.3(3): 187-195|1972|10.1080/00103627209366367
46531|T||Zhu,Y.M., D.F. Berry, and D.C. Martens|Copper Availability in Two Soils Amended with Eleven Annual Applications of Copper-Enriched Hog Manure|Commun. Soil Sci. Plant Anal.22(7-8): 769-783|1991|10.1080/00103629109368452
46532|T||De Varennes,A., M.O. Torres, J.F. Coutinho, M.M.G.S. Rocha, and M.M.P.M. Neto|Effects of Heavy Metals on the Growth and Mineral Composition of a Nickel Hyperaccumulator|J. Plant Nutr.19(5): 669-676|1996|10.1080/01904169609365151
46533|T||Hulzebos,E.M., D.M.M. Adema, E.M. Dirven-Van Breemen, L. Henzen, W.A. Van Dis, H.A. Herbold, J.A. Hoekstra, R. Baerselm|Phytotoxicity Studies with Lactuca sativa in Soil and Nutrient Solution|Environ. Toxicol. Chem.12(6): 1079-1094|1993|10.1002/etc.5620120614
46534|A||Wilson,E.F.|The Lethal and Sublethal Effects of a Zirconium Process Effluent on Juvenile Salmonids|Ph.D.Thesis, Oregon State University, Corvallis, OR:33 p.|1974|
46535|A||Bean,R.M., C.I. Gibson, and D.R. Anderson|Biocide By-Products in Aquatic Environments. Final Report September 10,1976 - September 30,1979|In: Final Rep.No.PNL-3271, U.S.Nucl.Reg.Comm., Washington, DC:47-1300|1981|
46536|A||Gingrich,D.J., D.H. Petering, and C.F. Shaw III|Zinc and Cadmium Metabolism in Euglena gracilis:  Metal Distribution in Normal and Zinc-Deficient Cells|Mar. Environ. Res.14(1-4): 89-102|1984|10.1016/0141-1136(84)90072-2
46542|A||Carr,R.S., W.L. McCulloch, and J.M. Neff|Bioavailability of Chromium from a Used Chrome Lignosulphonate Drilling Mud to Five Species of Marine Invertebrates|Mar. Environ. Res.6(3): 189-203|1982|10.1016/0141-1136(82)90053-8
46543|A||Thursby,G.B., and W.J. Berry|Acute Toxicity of 2,4-Dimethylphenol to Saltwater Animals|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI, Univ.of Rhode Island:12 p.|1987|
46544|A||Thursby,G.B., and R.L. Steele|Toxicity of 2,4-Dimethylphenol to Saltwater Plants|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI/Univ.of Rhode Island:3 p.|1987|
46545|A||Thursby,G.B., and W.J. Berry|Chronic Toxicity of 2,4-Dimethylphenol to Menidia beryllina|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI/Univ.of Rhode Island:3 p.|1987|
46546|T||Vonk,J.W., Y.A. Matla, C.A.M. Van Gestel, J. Koolhaas-Van Hekezen, A.A.M. Gerritsen, and L. Henzen|The Influence of Soil Characteristics on the Toxicity of Cadmium for Folsomia candida, Eisenia fetida and Glutamate Mineralisation|MEP-R96-144, Neth.Org.for Appl.Sci.Res., Delft, Netherlands:|1996|
46547|T||Krishnamurti,G.S.R., P.M. Huang, K.C.J. Van Rees, L.M. Kozak, and H.P.W. Rostad|A New Soil Test Method for the Determination of Plant-Available Cadmium in Soils|Commun. Soil Sci. Plant Anal.26(17-18): 2857-2867|1995|10.1080/00103629509369493
46548|T||Kummerova,M., L. Slovak, and I. Holoubek|Effect of Fluoranthene on the Growth of Lettuce|Scr. Fac. Sci. Nat. Univ. Masaryk. Brun.24:53-58|1996|
46549|T||MacLeod,L.B., and L.P. Jackson|Aluminum Tolerance of Two Barley Varieties in Nutrient Solution, Peat and Soil Culture|Agron. J.59:359-363|1967|10.2134/agronj1967.00021962005900040021x
46550|T||Huang,J.W., and S.D. Cunningham|Lead Phytoextraction:  Species Variation in Lead Uptake and Translocation|New Phytol.134(1): 75-84|1996|10.1111/j.1469-8137.1996.tb01147.x
46551|T||Mandal,B., J. Chatterjee, G.C. Hazra, and L.N. Mandal|Effect of Preflooding on Transformation of Applied Zinc and Its Uptake by Rice in Lateritic Soils|Soil Sci.153(3): 250-257|1992|10.1097/00010694-199203000-00009
46552|T||Levi,E., X. Dalschaert, and J.B.M. Wilmer|Retention and Absorption of Foliar Applied Cr|Plant Soil38:683-686|1973|10.1007/BF00010710
46553|T||Minton,G.A., and R.H. Wilson|Effect of Ba Ions on the Growth and Mitochondrial Metabolism of Mung Bean Seedlings|Plant Soil39(3): 611-617|1973|10.1007/BF00264178
46554|T||Mukherji,S., and B.K. Roy|Characterization of Chromium Toxicity in Different Plant Materials|Indian J. Exp. Biol.16(9): 1017-1019|1978|
46555|T||Ligon,W.S., and W.H. Pierre|Soluble Al Studies. II. Minimum Concentrations of Al found to be Toxic to Corn, Sorghum and Barley in Culture Solution|Soil Sci.34:307-322|1932|10.1097/00010694-193210000-00006
46556|T||Loew,O., and S. Sawa|On the Action of Manganese Compounds on Plants|Bull. Coll. Agric. Tokyo Imp. Univ. (Imp. Univ. (Tokyo) Coll. Agric. Bull.)5:161-172|1902|
46557|T||Lemaistre,V.|Influence of Automobile Exhaust and Lead on the Oxygen Exchange of Two Lichens Measured by a New Oxygen Electrode Method|In: D.H.Brown (Ed.), Lichen Physiology and Cell Biology, Plenum Press, NY:173-183|1985|
46558|T||Marienfeld,S., and R. Stelzer|X-Ray Microanalyses in Roots of Al-Treated Avena sativa Plants|J. Plant Physiol.141(5): 569-573|1993|10.1016/S0176-1617(11)80458-X
46559|T||Kaneta,M., H. Hikichi, S. Endo, and N. Sugiyama|Isolation of a Cadmium-Binding Protein from Cadmium Treated Rice Plants (Oryza sativa L.)|Agric. Biol. Chem.47(2): 417-418|1983|
46564|T||De Souza,M.P., E.A.H. Pilon-Smits, C.M. Lytle, S. Hwang, J. Tai, T.S.U. Honma, L. Yeh, and N. Terry|Rate-Limiting Steps in Selenium Assimilation and Volatilization by Indian Mustard|Plant Physiol.117(4): 1487-1494|1998|10.1104/pp.117.4.1487
46565|T||Yadav,J.S., C. Bethea, and C.A. Reddy|Mineralization of Trichloroethylene (TCE) by the White Rot Fungus Phanerochaete chrysosporium|Bull. Environ. Contam. Toxicol.65(1): 28-34|2000|10.1007/s001280000090
46566|T||Lata,K., and B. Veer|Phytotoxicity of Zn Amended Soil to Spinacia and Coriandrum|Acta Bot. Indica18(2): 194-198|1990|
46567|T||Rajan,A.R.|Zinc Uptake and Utilisation in Wetland Rice as Influenced by Zinc Sources|J. Nucl. Agric. Biol.23(1): 61-63|1994|
46568|T||Ghazali,N.J., and F.R. Cox|Effect of Temperature on Soybean Growth and Manganese Accumulation|Agron. J.73:363-367|1981|10.2134/agronj1981.00021962007300020027x
46569|T||Sharma,K.C., B.A. Krantz, A.L. Brown, and J. Quick|Interactions of Zn and P in Top and Root of Corn and Tomato|Agron. J.60:453-456|1960|10.2134/agronj1968.00021962006000050003x
46570|T||Howeler,R.H., and L.F. Cadavid|Screening of Rice Cultivars for Tolerance to Al-Toxciity in Nutrient Solutions as Compared with a Field Screening Method|Agron. J.68:551-555|1976|10.2134/agronj1976.00021962006800040005x
46571|T||Greger,M., E. Brammer, S. Lindberg, G. Larsson, and J. Idestam-Almquist|Uptake and Physiological Effects of Cadmium in Sugar Beet (Beta vulgaris) Related to Mineral Provision|J. Exp. Bot.42(239): 729-737|1991|10.1093/jxb/42.6.729
46572|T||Shaukat-Ahmed, and H.J. Evans|The Essentiality of Cobalt for Soybean Plants Grown Under Symbiotic Conditions|Proc. Natl. Acad. Sci. U.S.A.47:24-36|1961|10.1073/pnas.47.1.24
46573|T||Carbonell-Barrachina,A.A., F. Burlo, D. Valero, E. Lopez, D. Martinez-Romero, and F. Martinez-Sanchez|Arsenic Toxicity and Accumulation in Turnip as Affected by Arsenic Chemical Speciation|J. Agric. Food Chem.47(6): 2288-2294|1999|10.1021/jf981040d
46574|T||Burlo,F., I. Guijarro, A.A. Carbonell-Barrachina, D. Valero, and F. Martinez-Sanchez|Arsenic Species:  Effects on and Accumulation by Tomato Plants|J. Agric. Food Chem.47(3): 1247-1253|1999|10.1021/jf9806560
46575|T||Gallagher,P.H., and T. Walsh|The Influence of Manganese on the Growth of Cereals|Proc. R. Irish Acad.49B:187-200|1943|
46576|T||Taylor,G.J., and S.M. MacFie|Modeling the Potential for Boron Amelioration of Aluminum Toxicity Using the Weibull Function|Can. J. Bot.72(8): 1187-1196|1994|10.1139/b94-145
46577|T||Ouzounidou,G., L. Symeonidis, D. Babalonas, and S. Karataglis|Comparative Responses of a Copper-Tolerant and a Copper-Sensitive Population of Minuartia hirsuta to Copper Toxicity|J. Plant Physiol.144(1): 109-115|1994|10.1016/S0176-1617(11)81001-1
46578|T||Naidoo,G.|Aluminum Toxicity in Two Snapbean Varieties|Ph.D.Thesis, University of Tennessee, Knoxville, TN:110 p.|1976|
46579|T||Kinraide,T.B., and D.R. Parker|Assessing the Phytotoxicity of Mononuclear Hydroxy-Aluminum|Plant Cell Environ.12(5): 479-487|1989|10.1111/j.1365-3040.1989.tb02120.x
46580|T||Meyer,M.C., T. McLendon, and D. Price|Evidence of Depleted Uranium-Induced Hormesis and Differential Plant Response in Three Grasses|J. Plant Nutr.21(11): 2475-2484|1998|10.1080/01904169809365579
46581|T||Medeiros,C.A.B., R.B. Clark, and J.R. Ellis|Effects of Excess Aluminum on Mineral Uptake in Mycorrhizal Sorghum|J. Plant Nutr.17(8): 1399-1416|1994|10.1080/01904169409364815
46582|T||Liu,A., J.G. Latimer, and R.E. Wilkinson|Effects of PCMBS on Calcium- or Aluminum-Induced Curvature in Roots of Two Watermelon Cultivars|J. Plant Nutr.17(2-3): 473-477|1994|10.1080/01904169409364741
46583|T||Liu,H., J.R. Heckman, and J.A. Murphy|Screening Fine Fescues for Aluminum Tolerance|J. Plant Nutr.19(5): 677-688|1996|10.1080/01904169609365152
46584|T||Medeiros,C.A.B., R.B. Clark, and J.R. Ellis|Effects of Excess Manganese on Mineral Uptake in Mycorrhizal Sorghum|J. Plant Nutr.18(2): 201-217|1995|10.1080/01904169509364896
46585|T||Mgema,W.G., and R.B. Clark|Sorghum Genotype Differences in Tolerance to Excess Manganese|J. Plant Nutr.18(5): 983-993|1995|10.1080/01904169509364955
46586|A||Lidon,F.C., and F.S. Henriques|Copper Mediated Inhibition on Protein Synthesis in Rice Shoots|J. Plant Nutr.16(9): 1619-1630|1993|10.1080/01904169309364637
46587|T||Lin,Z., and D.L. Myhre|Supernatant Solutions Containing Various Levels of Aluminum and Similar Concentrations of Phosphorus for Aluminum Phytotoxicity Studies|Commun. Soil Sci. Plant Anal.21(19-20): 2291-2307|1990|10.1080/00103629009368381
46588|T||Nicklow,C.W., P.H. Comaws-Haezelbrouck, and W.A. Feder|Influence of Varying Soil Lead Levels on Lead Uptake by Leafy and Root Vegetables|J. Am. Soc. Hortic. Sci.108(2): 193-195|1983|10.21273/JASHS.108.2.193
46589|T||Hara,T., and Y. Sonoda|Comparison of the Toxicity of Heavy Metals to Cabbage Growth|Plant Soil51:127-133|1979|10.1007/BF02205932
46590|T||Patil,J.D., and N.D. Patil|Effect of Calcium Carbonate and Organic Matter on the Growth and Concentration of Iron and Manganese in Sorghum (Sorghum bicolor)|Plant Soil60:295-300|1981|10.1007/BF02374113
46591|T||Spittler,T.M., and W.A. Feder|A Study of Soil Contamination and Plant Lead Uptake in Boston Urban Gardens|Commun. Soil Sci. Plant Anal.10(9): 1195-1210|1979|10.1080/00103627909366973
46592|T||Wallace,A., G.V. Alexander, and F.M. Chaudhry|Phytotoxicity of Cobalt, Vanadium, Titanium, Silver, and Chromium|Commun. Soil Sci. Plant Anal.8(9): 751-756|1977|10.1080/00103627709366769
46593|T||Pintro,J., J. Barloy, and P. Fallavier|Aluminum Effects on the Growth and Mineral Composition of Corn Plants Cultivated in Nutrient Solution at Low Aluminum Activity|J. Plant Nutr.19(5): 729-741|1996|10.1080/01904169609365156
46594|T||Morris,D.R., R.H. Loeppert, and T.J. Moore|Indigenous Soil Factors Influencing Iron Chlorosis of Soybean in Calcareous Soils|Soil Sci. Soc. Am. J.54(5): 1329-1336|1990|10.2136/sssaj1990.03615995005400050021x
46596|T||Sasaki,M., M. Kasai, Y. Yamamoto, and H. Matsumoto|Comparison of the Early Response to Aluminum Stress Between Tolerant and Sensitive Wheat Cultivars: Root Growth, Aluminum Content and Efflux of K+|J. Plant Nutr.17(7): 1275-1288|1994|10.1080/01904169409364805
46597|T||Shuman,L.M., D.O. Wilson, and R.R. Duncan|Screening Wheat and Sorghum Cultivars for Aluminum Sensitivity at Low Aluminum Levels|J. Plant Nutr.16(12): 2383-2395|1993|10.1080/01904169309364695
46598|T||Yang,X., V.C. Baligar, D.C. Martens, and R.B. Clark|Plant Tolerance to Nickel Toxicity:  II Nickel Effects on Influx and Transport of Mineral Nutrients in Four Plant Species|J. Plant Nutr.19(2): 265-279|1996|10.1080/01904169609365121
46599|T||Yang,X., V.C. Baligar, D.C. Martens, and R.B. Clark|Plant Tolerance to Nickel Toxicity.  I.  Influx, Transport and Accumulation of Nickel in Four Species|J. Plant Nutr.19(1): 73-85|1996|10.1080/01904169609365108
46600|T||Sivaguru,M., and K. Paliwal|Differential Aluminum Tolerance in Some Tropical Rice Cultivars.  I.  Growth Performance|J. Plant Nutr.16(9): 1705-1716|1993|10.1080/01904169309364644
46601|T||Zhang,F., V. Romheld, and H. Marschner|Release of Zinc Mobilizing Root Exudates in Different Plant Species as Affected by Zinc Nutritional Status|J. Plant Nutr.14(7): 675-686|1991|10.1080/01904169109364234
46602|T||Williams,C.H., and D.J. David|The Accumulation in Soil of Cadmium Residues from Phosphate Fertilizers and Their Effect on the Cadmium Content of Plants|Soil Sci.121:861-893|1976|10.1097/00010694-197602000-00004
46603|T||Tiller,K.G., J.L. Honeysett, and M.P.C. De Vries|Soil Zinc and Its Uptake by Plants.  II.  Soil Chemistry in Relation to Prediction of Availability|Aust. J. Soil Res.10:165-182|1972|10.1071/SR9720165
46604|T||Williams,C.H., and D.J. David|The Effect of Superphosphates on the Cadmium Content of Soils and Plants|Aust. J. Soil Res.11:43-56|1973|10.1071/SR9730043
46605|T||Sparrow,L.A., and A.A. Salardini|Effects of Residues of Lime and Phosphorus Fertilizer on Cadmium Uptake and Yield of Potatoes and Carrots|J. Plant Nutr.20(10): 1333-1349|1997|10.1080/01904169709365338
46610|T||Pintro,J., H. Calba, P. Fallavier, and J. Barloy|Effects of Different Calcium and Sulfate Concentrations in Nutrient Solutions on Ionic Strength Values, Aluminum Activity and Root Growth of Maize Plants|J. Plant Nutr.21(11): 2381-2387|1998|10.1080/01904169809365571
46611|T||Pintro,J., J. Barloy, and P. Fallavier|Effects of Low Aluminum Activity in Nutrient Solutions on the Organic Acid Concentrations in Maize Plants|J. Plant Nutr.20(4-5): 601-611|1997|10.1080/01904169709365278
46612|T||Mench,M., J. Tancogne, A. Gomez, and C. Juste|Cadmium Bioavailability to Nicotiana tabacum L., Nicotiana rustica L. and Zea mays L. Grown in Soil Amended or Not Amended with Cadmium Nitrate|Biol. Fertil. Soils8(1): 48-53|1989|10.1007/BF00260515
46613|T||Rengel,Z., and V. Jurkic|Genotypic Differences in Wheat Aluminum Tolerance|Euphytica 62(2): 111-117|1992|10.1007/BF00037936
46614|T||Vose,P.B., and P.J. Randall|Resistance to Aluminium and Manganese Toxicities in Plants Related to Variety and Cation Exchange Capacity|Nature196(4849): 85-86|1962|10.1038/196085a0
46615|T||Muramoto,S., H. Nishizaki, and I. Aoyama|Changes in Concentration of Cadmium, Zinc and Iron in Glutinous and Non-Glutinous Rice for Cadmium Sulfide with or Without Calcium Carbonate|Ber. Ohara Inst. Landwirtschaft. Biol. Okayama Univ.20:11-18|1991|
46617|T||Viets,F.G.J., L.C. Boawn, and C.L. Crawford|The Effect of Nitrogen and Types of Nitrogen Carrier on Plant Uptake of Indigenous and Applied Zinc|Proc. Soil Sci. Soc. Am.21:197-201|1957|10.2136/sssaj1957.03615995002100020016x
46618|T||Kosak-Channing,L.|Beryllium Distribution in Hydroponically-Grown Tobacco Plants|Plant Sci.46(3): 175-180|1986|10.1016/0168-9452(86)90189-5
46619|T||Lie,T.A., and A.W.S.M. Van Egeraat|Iron-Ethylenediaminetetraacetic Acid, a Specific Inhibitor for Root-Nodule Formation in the Legume-Rhizobium Symbiosis|J. Plant Nutr.11(6-11): 1025-1031|1988|10.1080/01904168809363866
46620|T||Smith,P.F.|Effects of High Levels of Copper, Zinc, and Manganese on Tree Growth and Fruiting of Valencia Orange in Sand Culture|Proc. Am. Soc. Hortic. Sci.67:202-209|1956|
46621|T||Rauser,W.E.|The Amount of Cadmium Associated with Cd-Binding Proteins in Roots of Agrostis gigantea Maize and Tomato|Plant Sci.43:85-91|1986|10.1016/0168-9452(86)90147-0
46622|T||Quartin,V., J.C. Ramalho, and M.A. Nunes|Responses of Biomass and Several Photosynthetic Indicators to Manganese Excess in Triticale|J. Plant Nutr.21(8): 1615-1629|1998|10.1080/01904169809365508
46623|T||Hughes,D.F., V.D. Jolley, and J.C. Brown|Role of Potassium in the Iron-Stress Response Mechanism of Iron-Efficient Oat|Soil Sci. Soc. Am. J.56(3): 830-835|1992|10.2136/sssaj1992.03615995005600030026x
46624|T||Ibekwe,A.M., J.S. Angle, R.L. Chaney, and Van Berkum P. |Zinc and Cadmium Effects on Rhizobia and White Clover Using Chelator-Buffered Nutrient Solution|Soil Sci. Soc. Am. J.62(1): 204-211|1998|10.2136/sssaj1998.03615995006200010027x
46625|T||Parker,D.R.|Responses of Six Crop Species to Solution Zinc-2+ Activities Buffered with HEDTA|Soil Sci. Soc. Am. J.61(1): 167-176|1997|10.2136/sssaj1997.03615995006100010025x
46626|T||Smolders,E., and M.J. McLaughlin|Chloride Increases Cadmium Uptake in Swiss Chard in a Resin-Buffered Nutrient Solution|Soil Sci. Soc. Am. J.60(5): 1443-1447|1996|10.2136/sssaj1996.03615995006000050022x
46627|T||Halvorson,A.D., and W.L. Lindsay|The Critical Zn2+ Concentration for Corn and the Nonabsorption of Chelated Zinc|Soil Sci. Soc. Am. J.41(3): 531-534|1977|10.2136/sssaj1977.03615995004100030020x
46628|T||Moraghan,J.T.|Manganese Toxicity in Flax Growing on Certain Calcareous Soils Low in Available Iron|Soil Sci. Soc. Am. J.43:1177-1180|1979|10.2136/sssaj1979.03615995004300060024x
46629|T||Bingham,F.T., A.L. Page, R.J. Mahler, and T.J. Ganje|Cadmium Availability to Rice in Sludge-Amended Soil Under `Flood' and `Nonflood' Culture|Soil Sci. Soc. Am. J.40:715-719|1976|10.2136/sssaj1976.03615995004000050030x
46631|T||Wallace,A., and E.M. Romney|Aluminum Toxicity in Plants Grown in Solution Culture|Commun. Soil Sci. Plant Anal.8(9): 791-794|1977|10.1080/00103627709366775
46632|T||Renan,L.|Effect of Long-Term Applications of Copper on Soil and Grape Copper (Vitis vinifera)|Can. J. Soil Sci.74(3): 345-347|1994|10.4141/cjss94-047
46633|T||Zhang,G., and G.J. Taylor|Effect of Aluminum on Growth and Distribution of Aluminum in Tolerant and Sensitive Cultivars of Triticum aestivum L.|Commun. Soil Sci. Plant Anal.19(7-12): 1195-1205|1988|10.1080/00103628809368005
46634|T||Zale,J.M., and K.G. Briggs|Aluminum Tolerance in Canadian Spring Wheats|Commun. Soil Sci. Plant Anal.19(7-12): 1259-1272|1988|10.1080/00103628809368010
46691|T||Conder,J.M., and R.P. Lanno|Evaluation of Surrogate Measures of Cadmium, Lead, and Zinc Bioavailability to Eisenia fetida|Chemosphere41:1659-1668|2000|10.1016/S0045-6535(00)00045-X
46692|T||Ravikovitch,S., and M. Margolin|The Effect of Barium Chloride and Calcium Sulphate in Hindering Selenium Absorption by Lucerne|Emp. J. Exp. Agric.27:235-240|1959|
46693|T||Smiley,R.W., and M.M. Craven|Fungicides in Kentucky Bluegrass Turf: Effects on Thatch and pH|Agron. J.70:1013-1019|1978|10.2134/agronj1978.00021962007000060030x
46694|T||Payne,G.G., D.C. Martens, E.T. Kornegay, and M.D. Lindemann|Availability and Form of Copper in Three Soils Following Eight Annual Applications of Copper-Enriched Swine Manure|J. Environ. Qual.17(4): 740-746|1988|10.2134/jeq1988.00472425001700040038x
46695|T||Singh,M., N. Singh, and D.K. Bhandari|Interaction of Selenium and Sulfur on the Growth and Chemical Composition of Raya|Soil Sci.129(4): 238-244|1980|10.1097/00010694-198004000-00007
46696|T||Wallace,A.|Phytotoxicity of Cobalt when Uniformly Mixed in Soil Versus Localized Spot Placement in Soil|Soil Sci.147(6): 449-450|1989|10.1097/00010694-198906000-00016
46697|T||Singh,S.P., P.N. Takkar, and V.K. Nayyar|Effect of Cadmium on Wheat as Influenced by Lime and Manure and Its Toxic Level in Plant and Soil|Int. J. Environ. Stud.33(1-2): 59-66|1989|10.1080/00207238908710480
46698|T||Singh,V.P.|Toxic Metals in Soil-Plant Systems with Special Reference to Cadmium|Int. J. Ecol. Environ. Sci.14(2/3): 185-197|1988|
46699|T||Singh,M., and N. Singh|The Effect of Forms of Selenium on the Accumulation of Selenium, Sulfur, and Forms of Nitrogen and Phosphorus in Forage Cowpea (Vigna sinensis)|Soil Sci.127(5): 264-269|1979|10.1097/00010694-197905000-00002
46700|T||Simon,L.|Cadmium Accumulation and Distribution in Sunflower Plant|J. Plant Nutr.21(2): 341-352|1998|10.1080/01904169809365408
46701|T||Singh,R., P.R. Sharma, M. Singh, and R. Sharma|Phosphorus, Sulphur and Zinc Interactions in Barley (Hordeum vulgare L.).  Concentration and Uptake of Sulphur and Zinc|Crop Res. (Hisar)14(1): 45-54|1997|
46702|T||Sadana,U.S., and B. Singh|Yield and Uptake of Cadmium, Lead and Zinc by Wheat Grown in a Soil Polluted with Heavy Metals|J. Plant Sci. Res.3:11-17|1987|
46703|T||Singh,B.R.|Effect of Selenium-Enriched Calcium Nitrate, Top-Dressed at Different Growth Stages, on the Selenium Concentration in Wheat|Fert. Res.38(3): 199-203|1994|10.1007/BF00749692
46704|T||Singh,R.K., R.P. Shukla, and R.S. Dwivedi|Effect of Cadmium, Cobalt and Nickel Salts on the Survivability of Sclerotia and Plant Infection by Sclerotium rolfsii Causing Root-Rot Disease of Barley|Trop. Sci.32(3): 269-274|1992|
46706|T||Sarkunan,V., A.K. Misra, and A.R. Mohapatra|Effect of Cd and Zn on Yield and Cd and Zn Content in Rice|J. Indian Soc. Soil Sci.44(2): 346-348|1996|
46707|T||Sadana,U.S., and B. Singh|Effect of Zinc Application on Yield and Cadmium Content of Spinach (Spinacea oleracea L.) Grown in a Cadmium-Polluted Soil|Ann. Biol.3(2): 59-60|1987|
46709|T||Kick,H., R. Nosbers, and J. Warnusz|The Availability of Cr, Ni, Zn, Cd, Sn and Pb for Plants|In: Proc. Int. Symp. Soil Fert. Eval., Vol. 1, New Delhi, India:1039-1045|1971|
46710|T||Rehab,F.I., and A. Wallace|Excess Trace Metal Effects on Cotton:  2.  Copper, Zinc, Cobalt and Manganese in Yolo Loam Soil|Commun. Soil Sci. Plant Anal.9(6): 519-527|1978|10.1080/00103627809366827
46711|T||Maclean,A.A., and T.C. Chiasson|Differential Performance of Two Barley Varieties to Varying Aluminum Concentrations|Can. J. Soil Sci.46:147-153|1966|10.4141/cjss66-024
46712|T||Woolson,E.A.|Effects of Fertiliser Materials and Combinations on the Phytotoxicity, Availability and Content of Arsenic in Corn (Maize)|J. Sci. Food Agric.23:1477-1481|1972|10.1002/jsfa.2740231213
46713|T||Wells,B.R., and J.T. Gilmour|Sterility in Rice Cultivars as Influenced by MSMA Rate and Water Management|Agron. J.69:451-454|1977|10.2134/agronj1977.00021962006900030029x
46716|T||Pharmakon Research International|Delayed Contact Hypersensitivity In Guinea Pigs with Naphthalene|Rep.PH 424-TX-001-84, EPA 86-870000554:13 p.|1985|
46720|T||Pharmakon Research International|Primary Dermal Irritation Study in Rabbits with Naphthalene |Report PH 420-TX-013-84, EPA 86-870000555:8 p.|2000|
46721|T||Pharmakon Research International|Repeated Dose Dermal Toxicity:  28 Day Dose Range Finding Study in the Rat Using Test Article 5601-56-1|EPA/OTS Doc. #86-870000564:18 p.|2000|
46722|T||Bushy Run Research Center|Ninety-Day (Sub-chronic) Dermal Toxicity Study with Naphthalene in Albino Rats|EPA/OTS Doc.#86-870000565:269 p.|2000|
46724|T||Pharmakon Research International|Dose-Range-Finding-Developmental Toxicity Study in Rabbits Using Test Article 5601-56-1|EPA/OTS Doc.#86-870000562:20 p.|2000|
46725|T||Pharmakon Research International|Developmental Toxicity Study in Rabbits Using Test Article 5601-56-1|EPA/OTS Doc.#86-870000563:42 p.|1986|
46737|T||Munson,A.E., and K.L.,Jr. White|Effects of Subchronic Fourteen Day Exposure to Benzopyrene in B6C3F1 Female Mice on Host Resistance Parameters with Cover Letter Dated 041884|EPA/OTS Doc.#FYI-AX-0484-0309IN:62 p.|1984|
46740|T||Eastman Kodak Co.|Studies on Anthracene with Cover Letter Dated 072787|Eastman Kodak, Rochester, NY:8 p.|1987|
46741|T||Dow Chemical Co.|Feeding of Naphthalene (K1322) to Ducks in an Attempt to Produce Cataracts|Dow Chemical Co., Midland, MI:3 p.|1987|
46743|T||Haskell Laboratories|Letter to USEPA Regarding the Enclosed Study:  Toxicity of Compounds Used in Hydrogen Reduction Building with Attachment (Sanitized)|Du Pont, Newark, DE:9 p.|1991|
46744|T||Mobil Oil Corp.|Two-Week Oral Toxicity Study in Female Rats (Final Report) with Cover Letter Dated 121791 (Sanitized)|Mobil Oil Corporation, Houston, TX:14 p.|1991|
46745|T||American Petroleum Institute|Initial Submission:  Effects of Subchronic Fourteen Day Exposure to Benzopyrene in Mice with Cover Letter Dated 031192 and Attachments|EPA/OTS Doc.#88-920001876:207 p.|1992|
46746|T||Monsanto Co.|Initial Submission: Toxicological Investigation of Naphthalene with Cover Letter Dated 081392|Younger Laboratories, St. Louis, MO:3 p.|1992|
46747|T||Industrial Bio-Test Laboratories Inc.|Initial Submission:  Toxicity Studies of Naphthene (Naphthzlin; Tarcamphor) with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010200:13 p.|1992|
46748|T||Union Carbide Corp.|Initial Submission: Naphthalene Acetic Acid: Skin and Eye Irritancy Study in Rabbits with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006497:18 p.|1992|
46768|T||Abbas,M.A.|Effect of Cu and Fe on Their Uptake and on Chlorophyll Contents in Maize Seedlings|J. Environ. Sci. Mansoura6:197-209|1993|
46769|A||Abbas,R., I.R. Schultz, S. Doddapaneni, and W.L. Hayton|Toxicokinetics of Parathion and Paraoxon in Rainbow Trout After Intravascular Administration and Water Exposure|Toxicol. Appl. Pharmacol.136(1): 194-199|1996|10.1006/taap.1996.0024
46771|A||Abbe,G.R., G.F. Riedel, and J.G. Sanders|Factors That Influence the Accumulation of Copper and Cadmium by Transplanted Eastern Oysters (Crassostrea virginica) in the Patuxent River, Maryland|Mar. Environ. Res.49:377-396|2000|10.1016/S0141-1136(99)00082-3
46773|T||Abd-el-ghany,A.K., M.B. Seoud, M.F. Abd-el-Aziz, B.K. Mahmoud, K.A. El Alfy, and M. Abd-el-Gawad|Peg and Pod Rot Disease of Peanut and Its Control in A.R.E|Agric. Res. Rev.:129-138|1973|
46774|T||Abdallah,M.D.|The Joint Action of Microbial and Chemical Insecticides in the Cotton Leafowrm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt3:209-217|1969|
46775|T||Abdel-Hamid,F.M., J.A. Moore, and H.B. Matthews|Comparative Study of 3,4,3',4'-Tetrachlorobiphenyl in Male and Female Rats and Female Monkeys|J. Toxicol. Environ. Health7:181-191|1981|10.1080/15287398109529971
46776|T||Abdel-Lateif,H.M., M.H. Donker, and N.M. Van Straalen|Interaction Between Temperature and Cadmium Toxicity in the Isopod Porcellio scaber|Funct. Ecol.12(4): 521-527|1998|10.1046/j.1365-2435.1998.00227.x
46777|T||Abdel Halim,M.A., M.M. Mahmound, and A.M. Keleg|Synergistic Effect Between Different Fertilizers and Herbicides on the Growth and Yield of Maize|In: J.Szegi (Ed.), Proc.9th Int.Symp.soil Biol.Conserv.Biosphere, Volume 1, Budapest:211-218|1987|
46779|A||Abdelghani,A.A., P.B. Tchounwou, A.C. Anderson, H. Sujono, L.R. Heyer, and A. Monkiedje|Toxicity Evaluation of Single and Chemical Mixtures of Roundup, Garlon-3A, 2,4-D, and Syndets Surfactant to Channel Catfish (Ictalurus punctatus), Bluegill Sunfish (Lepomis microchirus), and Crawfish (Procambarus spp.)|Environ. Toxicol. Water Qual.12(3): 237-243|1997|10.1002/(SICI)1098-2256(1997)12:3<237::AID-TOX6>3.0.CO;2-9
46780|T||Abdelmeguid,N.E., M.M. El-Mofty, I.A. Sadek, A.E. Essawy, and E.A. Abdel-Aleem|Ultrastructural Criteria that Prove the Similarities Between Amphibian and Human Tumors|Oncology54(3): 258-263|1997|10.1159/000227698
46781|T||Abdelrahim,A.I., T. Wensign, and A.J.H. Schotman|Distribution of Iron and Copper in the Liver and Spleen of Veal Calves in Relation to the Concentration of Iron in the Diet|Res. Vet. Sci.40(2): 209-211|1986|10.1016/S0034-5288(18)30514-9
46782|T||Abdin,A.|Entomological Studies on Dura|Annual Report of the Gezira Research Station and Substations:153-155|1964|
46788|A||Abedini,S., R. Namdari, and F.C.P. Law|Comparative Pharmacokinetics and Bioavailability of Oxytetracycline in Rainbow Trout and Chinook Salmon|Aquaculture162(1/2): 23-32|1998|10.1016/S0044-8486(97)00306-2
46789|T||Abeles,F.B.|Herbicide-Induced Ethylene Production: Role of the Gas in Sublethal Doses of 2,4-D|Weed Sci.16(4): 498-500|1968|10.1017/S004317450004786X
46792|T||Aberg,B.|On the Mechanism of the Toxic Action of Chlorates and Some Related Substances upon Young Wheat Plants|Annalen der Kgl. Landwirtschaftlichen Hochschule Schwedens (Annals of the Royal Agricultural College of Sweden)15:37-107|1947|
46793|T||Abijay,B.A.|Studies on Insects Attacking Beans in Victoneta Park, Rizal Province, with Special Reference to Control with Insecticides|Araneta J. Agric.15(2): 106-119|1968|
46795|T||Abo-El-Seoud,M.A., and M. Frost|Turnover Rate and Fate of Radioactive Parathion Applied to an Aquatic System|Environ. Manag. Health6(4): 5-8|1995|10.1108/09566169510091903
46796|T||Abo Elghar,M.R., E.A. Elbadry, S.M. Hassan, and S.M. Kilany|Effect of Some Pesticides on the Predatory Mice Agistemus exsertus|J. Econ. Entomol.64(1): 26-27|1970|10.1093/jee/64.1.26
46797|A||Abou-Donia,M.B., and D.B. Menzel|Fish Brain Cholinesterase: Its Inhibition by Carbamates and Automatic Assay|Comp. Biochem. Physiol.21:99-108|1967|10.1016/0010-406X(67)90119-3
46798|T||Abou-Donia,M.B., and J.W. Dieckert|Urinary and Biliary Excretion of 14C-Gossypol in Swine|J. Nutr.104:754-760|1974|10.1093/jn/104.6.754
46799|T||Abramson,C.I., I.S. Aquino, F.S. Ramalho, and J.M. Price|The Effect of Insecticides on Learning in the Africanized Honey Bee (Apis mellifera L.)|Arch. Environ. Contam. Toxicol.37(4): 529-535|1999|10.1007/s002449900548
46800|T||Abul-Nasr,S., and M.A.H. Assem|Chemical Control of the Bean Fly. Melanagromyza phaseoli (TRYON) (Diptera: Agromyzidae) (with 2 Text-Figures)|Bull. Entomol. Soc. Egypt2:151-159|1968|
46803|T||Adalsteinsson,S.|Compensatory Root Growth in Winter Wheat:  Effects of Copper Exposure on Root Geometry and Nutrient Distribution|J. Plant Nutr.17(9): 1501-1512|1994|10.1080/01904169409364823
46805|T||Adams,D.F., C.G. Shaw, and W.D.,Jr. Yerkes|Relationship of Injury Indexes and Fumigation Fluoride Levels|Phytopathology46:587-591|1956|
46806|T||Adams,F., and J.I. Wear|Manganese Toxictiy and Soil Acidity in Relation to Crinkle Leaf of Cotton|Soil Sci. Soc. Am. J.21:305-308|1957|10.2136/sssaj1957.03615995002100030014x
46807|T||Adams,M.B., J.M. Kelly, and N.T. Edwards|Growth of Pinus taeda L. Seedlings Varies with Family and Ozone Exposure Level 1,2|Water Air Soil Pollut.38(1-2): 137-150|1988|10.1007/BF00279592
46811|T||Addison,J.A.|Safety Testing of Tebufenozide, a New Molt-Inducing Insecticide, for Effects on Nontarget Forest Soil Invertebrates|Ecotoxicol. Environ. Saf.33(1): 55-61|1996|10.1006/eesa.1996.0006
46813|A||Adelman,I.R., and G.P. Busacker|Indicators of Current Growth Rate as Rapid Methods for Toxicity Tests with Fish Larvae|In: R.A.Archibald (Ed.), Environmental Biology State-of-the-Art Seminar, EPA 600/19-82-007:|1982|
46815|T||Adianto|The Use of Soil Invertebrates as Test Organisms in Bioassays|In: B.Widianarko, K.Vink, and N.M.Van Straalen (Eds.), Environmental Toxicology in South East Asia, VU University Press, Amsterdam:235-242|1994|
46816|A||Aditya,A.K., and S. Chattopadhyay|Accumulation of Methyl Parathion in the Muscle and Gonad of Labeo rohita|J. Environ. Biol.21(1): 55-57|2000|
46817|T||Adonaylo,V.N., and P.I. Oteiza|Lead intoxication:  Antioxidant Defenses and Oxidative Damage in Rat Brain|Toxicology135:77-85|1999|10.1016/S0300-483X(99)00051-7
46818|T||Adriano,D.C., J.E. Pinder III, K.W. McLeod, J.C. Corey, and A.L. Boni|Plutonium Fluxes in a Soybean Crop Ecosystem near a Nuclear Fuel Chemical Separations Facility|J. Environ. Qual.11(3): 506-511|1982|10.2134/jeq1982.00472425001100030036x
46819|T||Aery,N.C., and S. Sarkar|Studies on the Effect of Heavy Metal Stress on Growth Parameters of Soybean|J. Environ. Biol.12(1): 15-24|1991|
46820|T||Aery,N.C., and B.L. Jagetiya|Relative Toxicity of Cadmium, Lead, and Zinc on Barley|Commun. Soil Sci. Plant Anal.28(11-12): 949-960|1997|10.1080/00103629709369845
46821|T||Aery,N.C., and G.S. Jain|Influence of Uranium on the Growth of Wheat|J. Environ. Biol.19(1): 15-23|1998|
46825|T||Agarwala,S.C., S.S. Bisht, and C.P. Sharma|Relative Effectiveness of Certain Heavy Metals in Producing Toxicity and Symptoms of Iron Deficiency in Barley|Can. J. Bot.55:1299-1307|1977|10.1139/b77-151
46826|T||Agbakoba,C.S.O., and J.R. Goodin|Effect of Stage of Growth of Field Bindweed on Absorption and Translocation of 14C-Labeled 2,4-D and Picloram|Weed Sci.17(4): 436-438|1969|10.1017/S0043174500054461
46828|T||Aggangan,N.S., B. Dell, and N. Malajczuk|Effects of Chromium and Nickel on Growth of the Ectomycorrhizal Fungus Pisolithus and Formation of Ectomycorrhizas on Eucalyptus urophylla S.T. Blake|Geoderma (Amst.)84(1-3): 15-27|1998|10.1016/S0016-7061(97)00118-3
46829|T||Agnihotri,N.P., S.Y. Pandey, and H.K. Jain|Persistence of BHC and Aldrin in Soil and Translocation in Mung (Phaseolus aureus L.) and Lobia (Vigna sinensis siva.)|Indian J. Entomol.36(4): 261-267|1974|
46831|T||Agnihotri,V.P.|Persistence of Captan and Its Effects on Microflora, Respiration, and Nitrification of a Forest Nursery Soil|Can. J. Microbiol.17:377-383|1971|10.1139/m71-063
46832|T||Agrawal,H.P.|Control of the Land Snail Bensonia Monticola by Certain Pesticides|J. Anim. Morphol. Physiol.25(1-2): 101-105|1978|
46833|T||Aharoni,Y., and R. Barkai-Golan|Senstivity to Acetaldehyde Vapors of Alternaria tenuis and Stemphylium botryosum|Phytopathol. Z. (Multiple Languages)78:57-61|1973|10.1111/j.1439-0434.1973.tb04149.x
46834|T||Aharonson,N., I. Neubauer, I. Ishaaya, and B. Raccah|Residues of Croneton and Its Sullfoxide and Sulfone Metabolites in Citrus (Clementine Trees) Following a Soil Treatment for the Control of Aphis spiraecola|J. Agric. Food Chem.27(2): 265-268|1979|10.1021/jf60222a018
46835|T||Ahlberg,J., C. Ramel, and C.A. Wachtmeister|Organolead Compounds Shown to be Genetically Active|Ambio1:29-31|1972|
46836|T||Ahlborg,U.G., J.E. Lindgren, and M. Mercier|Metabolism of Pentachlorophenol|Arch. Toxicol.32:271-281|1974|10.1007/BF00330109
46839|T||Ahlrichs,J.L., R.R. Duncan, G. Ejeta, P.R. Hill, V.C. Baligar, R.J. Wright, and W.W. Hanna|Pearl Millet and Sorghum Tolerance to Aluminium in Acid Soil|Dev. Plant Soil Sci.45(0): 947-951|1991|
46840|T||Ahmad,S., and R. Yasmin|Effects of Methyl Parathion and Tri-Miltox on the Mitosis of Allium cepa|Cytologia57:155-160|1992|10.1508/cytologia.57.155
46841|T||Ahmad,S., K. Zaman, R.S. MacGill, J.P. Batcabe, and R.S. Pardini|Dichlone-Induced Oxidative Stress in a Model Insect Species, Spodoptera eridania|Arch. Environ. Contam. Toxicol.29(4): 442-448|1995|10.1007/BF00208372
46842|T||Ahmed,M.M.|Synaptic Morphology in the Spinal Cord of Normal and Tricresylphosphate (TCP) Poisoned Hen|Acta Neuropathol.17(4): 302-309|1971|10.1007/BF00685016
46843|T||Ahmed,M.M.|Changes in the Ultrastructure of Satellite Cells of Slow Loris in Tricresylphosphate Poisoning|Acta Neuropathol.37(2): 173-175|1977|10.1007/BF00692064
46844|T||Ahmed,M.T., and S.M.M. Ismail|Residues of Methomyl in Strawberries, Tomatoes and Cucumbers|Pestic. Sci.44(2): 197-199|1995|10.1002/ps.2780440213
46845|T||Ahmed,S., and H.J. Evans|Cobalt: A Micronutrient Element for the Growth of Soybean Plants Under Symbiotic Conditions|Soil Sci.90:205-210|1960|10.1097/00010694-196009000-00009
46846|T||Ainsworth,N., J.A. Cooke, and M.S. Johnson|Biological Significance of Antimony in Contaminated Grassland|Water Air Soil Pollut.57-58:193-200|1991|10.1007/BF00282882
46847|T||Aitken,R.L., P.W. Moody, and B.L. Compton|A Simple Bioassay for the Diagnosis of Aluminum Toxicity in Soils|Commun. Soil Sci. Plant Anal.21(7-8): 511-529|1990|10.1080/00103629009368249
46849|T||Ajay, and V.S. Rathore|Effect of Zn2+ Stress in Rice (Oryza sativa cv. Manhar) on Growth and Photosynthetic Processes|Photosynthetica (Praha)31(4): 571-584|1995|
46852|T||Akbar,S., and L.J. Rogers|Effect of Toxaphene on Carbon Dioxide Assimilation and Translocation in Avena secale|Phytochemistry25(5): 1009-1013|1986|10.1016/S0031-9422(00)81545-9
46853|T||Akbar,S., and L.J. Rogers|Inhibition of Photosynthesis by the Organochlorine Pesticide Toxaphene|Phytochemistry25(5): 1003-1008|1986|10.1016/S0031-9422(00)81544-7
46855|A||Akcha,F., C. Izuel, P. Venier, H. Budzinski, T. Burgeot, and J.F. Narbonne|Enzymatic Biomarker Measurement and Study of DNA Adduct Formation in Benzo(a)pyrene-Contaminated Mussels, Mytilus galloprovincialis|Aquat. Toxicol.49:269-287|2000|10.1016/S0166-445X(99)00082-X
46856|A||Akerblom,N., K. Olsson, A.H. Berg, P.L. Andersson, M. Tysklind, L. Forlin, and L. Norrgren|Impact of Polychlorinated Naphthalenes (PCNs) in Juvenile Baltic Salmon, Salmo salar: Evaluation of Estrogenic Effects, Development, and CYP1A Induction|Arch. Environ. Contam. Toxicol.38(2): 225-233|2000|10.1007/s002449910030
46857|T||Akhtar,M.H., K.A. El Sooud, A.M. Shehata, and Anwar-ul-Haq |Fate and Residues of 14C-Chloramphenicol in Laying Chickens|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(5): 1061-1084|1996|
46861|T||Akkermans,L.M.A., J. Van den Bercken, and J.M. Van der Zalm|Effects of Aldrin-Transdiol on Neuromuscular Faciliatation and Depressions|Eur. J. Pharmacol.31:166-175|1975|10.1016/0014-2999(75)90037-0
46864|T||Al-Adil,K.M., E.R. White, W.L. Winterlin, and W.W. Kilgore|Uptake and Translocation of Guthion by Beans and Barley|J. Agric. Food Chem.21(3): 376-378|1973|10.1021/jf60187a011
46865|T||Al-Attar,A.F., M.H. Martin, and G. Nickless|Uptake and Toxicity of Cadmium, Mercury and Thallium to Lolium perenne Seedlings|Chemosphere17(6): 1219-1225|1988|10.1016/0045-6535(88)90188-9
46866|T||Al Azawi,A.F., D.M.,Jr. Norris, and J.E. Casida|Hazards Associated with the Implantation of Tetram into Elm Trees for Dutch Elm Disease Control|J. Econ. Entomol.54(1): 127-129|1961|10.1093/jee/54.1.127
46867|T||Al Fatesh,I.Y.|Toxic Levels of Aluminum and Manganese and Variation of Nitrogen Content in Grape Leaves|Ph.D Thesis, The University of Arizona:190 p.|1990|
46869|T||Al Helal,A.A.|Effect of Cadmium and Mercury on Seed Germination and Early Seedling Growth of Rice and Alfalfa|J. Univ. Kuwait Sci.22(1): 76-82|1995|
46873|T||Al-Khatib,K., R. Parker, and E.P. Fuerst|Wine Grape (Vitis vinifera L.) Response to Simulated Herbicide Drift|Weed Technol.7:97-102|1993|10.1017/S0890037X00036940
46874|T||Al-Najjar,N.R., and A.S. Soliman|Cytological Effects of Fungicides I. Mitotic Effects of Vitavax-200 and Dithane S-60 on Wheat and Two Related Species|Cytologia45:163-168|1980|10.1508/cytologia.45.163
46875|A||Al-Akel,A.S.|Chromium Toxicity and Its Impact on Behavioural Responses in Freshwater Carp, Cyprinus carpio from Saudi Arabia|Pak. J. Zool.28(4): 361-363|1996|
46877|A||Alabaster,J.S., and F.S.H. Abram|Development and Use of a Direct Method of Evaluating Toxicity to Fish|In: Proceedings of the Second International Water Pollution Research Conference, Tokyo, Japan:41-60|1964|
46878|A||Alabaster,J.S.|Evaluating Risks of Pesticides to Fish|Proc. Br. Insectic. Fungic. Conf.2:370-377|1969|
46885|T||Alam,K., M.M. Chowdhury, S. Haque, M.S.A. Hossain, and A. Islam|Effect of Insecticides on the Microbial Flora of Phyllosphere and Rhizosphere of Leguminous Plant|Dhaka Univ. Stud. Part B Sci. 33(2): 305-308|1985|
46886|T||Alam,M.M., A.M. Khan, and S.K. Saxena|Persistent Action of Oilcakes and Nematicides on the Population of Nematodes in Field|Bochu-Kagaku42:119-125|1977|
46887|A||Alam,M.N., and M. Shafi|Histopathological Lesions Induced by Metacid 50 in the Chironomus Larvae (Chironomidae: Diptera)|Environ. Ecol.17(3): 637-639|1999|
46888|T||Alaoui,A., R. Moreau, and L. Gourdoux|Effects of Deltamethrin on Glucose Catabolic Pathways in the Isolated Fat Body of Adult Male Locusta migratoria|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(1): 17-21|1997|10.1016/S0300-9629(96)00106-5
46889|A||Al-Attar,H.J., and C.O. Knowles|Diazinon Uptake, Metabolism, and Elimination by Nematodes|Arch. Environ. Contam. Toxicol.11(6): 669-673|1982|10.1007/BF01059153
46891|T||Albano,J.P., and W.B. Miller|Marigold Cultivars Vary in Susceptibility to Iron Toxicity|Hortscience33(7): 1180-1182|1998|10.21273/HORTSCI.33.7.1180
46892|T||Albelda,C., Y. Pico, J.C. Molto, G. Font, and J. Manes|Evaluation of the Fate of Aldicarb and Its Metabolites in Oranges|Int. J. Environ. Anal. Chem.58(1-4): 315-326|1995|10.1080/03067319508033133
46900|T||Albro,P.W., J.T. Corbett, and J.L. Schroeder|The Metabolism of Di(2-Ethylhexyl) Phthalate in the Earthworm Lumbricus terrestris|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 335-344|1993|10.1016/0742-8413(93)90045-M
46902|A||Alcaraz,G., and S. Espina|Scope for Growth of Juvenile Grass Carp Ctenopharyngodon idella Exposed to Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.116(1): 85-88|1997|
46904|A||Alderdice,D.F., and M.E. Worthington|Toxicity of a DDT Forest Spray to Young Salmon|Can. Fish Cult.24:41-48|1959|
46905|T||Alderman,G., and M.H. Stranks|The Iodine Content of Bulk Herd Milk in Summer in Relation to Estimated Dietary Iodine Intake of Cows|J. Sci. Food Agric.18:151-153|1967|10.1002/jsfa.2740180404
46907|T||Aldridge,W.N.|Tricresyl Phosphates and Cholinesterase|Biochem. J. (Lond.)56:185-189|1954|10.1042/bj0560185
46913|T||Alexander,M., and B.K. Lustigman|Effect of Chemical Structure on Microbial Degradation of Substituted Benzenes|J. Agric. Food Chem.14(4): 410-413|1966|10.1021/jf60146a022
46917|T||Alfano,F., A. Russell, R. Gambardella, and J.G. Duckett|The Actin Cytoskeleton of the Liverwort Riccia fluitans: Effects of Cytochalasin B and Aluminum Ions on Rhizoid Tip Growth|J. Plant Physiol.142(5): 569-574|1993|10.1016/S0176-1617(11)80400-1
46918|T||Alfaro,E., M.W. Neathery, W.J. Miller, C.T. Crowe, R.P. Gentry, A.S. Fielding, D.G. Pugh, and D.M. Blackmon|Influence of a Wide Range of Calcium Intakes on Tissue Distribution of Macroelements and Microelements in Dairy Calves|J. Dairy Sci.71:1295-1300|1988|10.3168/jds.S0022-0302(88)79686-1
46919|A||Alger,R.H.|The Effects of Fluoride Ion on Some Blood Constitutents of Rainbow Trout|M.S.Thesis, Utah State University, Logan, UT:55 p.|1960|
46920|T||Alhomida,A.S.|Theophylline-Induced Changes in the Activity of Carnitine Palmitoyltransferase in Rat Cardiac Tissues|Toxicology145:185-193|2000|10.1016/S0300-483X(00)00153-0
46921|A||Ali,A., R.D. Xue, and S.K. Alam|Ecotoxicological Effects of Abamectin (MK-936) on Natural Populations of Selected Invertebrates in Man-Made Ponds|Eisei Dobutsu48(3): 233-241|1997|10.7601/mez.48.233
46922|T||Ali,H.M., and A.A. Mostafa|Quantitative Structure-Activity Relationship of a Series of N-Aryl O-Aryl Phosphoramidate Insecticides|Environ. Toxicol. Chem.18(2): 167-171|1999|
46923|T||Ali,S.M.E.|Influence of Cations on Aluminum toxicity in Wheat (Tricum aestivum Vill. Host)|Ph.D.Thesis, Oregon State University, Corvallis, OR:|1973|
46925|T||All,J.N., J.D. Stancil, T.B. Johnson, and R. Gouger|Controlling Fall Armyworm (Lepidoptera:Noctuidae) Infestations in Whorl Stage Corn with Genetically Modified Bacillus thuringiensis Formulations|Fla. Entomol.79(3): 311-317|1996|10.2307/3495579
46926|A||Allah,A.T.A., D.B. Borchardt, M.Q.A. Wanas, and S.N. Thompson|A Qualitative 31P NMR Investigation on the Effects of Exposure to Lead, Cadmium, or Mercury on the Energetic Status of the Pulmonate Gastropod, Biomphalaria glabrata (Say)|Veliger41(4): 339-343|1998|
46929|T||Alldredge,A.W., T.B. Kirchner, and T. McLendon|Screening Level Model for Ecological. Risk Assessment at EF-Site Los Alamos National Laboratory, New Mexico. Final Report|Final Rep., Los Alamos National Lab, Los Alamos, NM:82 p.|1995|
46931|T||Alleman,B.C., B.E. Logan, and R.L. Gilbertson|A Rapid Method to Screen Fungi for Resistance to Toxic Chemicals|Biodegradation (Dordr.)4:125-129|1993|10.1007/BF00702329
46935|T||Allen,J.R., L.A. Carstens, and L.J. Abrahamson|Responses of Rats Exposed to Polychlorinated Biphenyls for Fifty-Two Weeks I. Comparison of Tissue Levels of PCB and Biological Changes|Arch. Environ. Contam. Toxicol.4(4): 404-419|1976|10.1007/BF02221038
46936|A||Allenbach,D.M., K.B. Sullivan, and M.J. Lydy|Higher Fluctuating Asymmetry as a Measure of Susceptibility to Pesticides in Fishes|Environ. Toxicol. Chem.18(5): 899-905|1999|10.1002/etc.5620180512
46937|T||Allinson,D.W., and C. Dzialo|The Influence of Lead, Cadmium and Nickel on the Growth of Ryegrass and Oats|Plant Soil62:81-89|1981|10.1007/BF02205027
46938|A||Allinson,G., L.J.B. Laurenson, G. Pistone, F. Stagnitti, and P.L. Jones|Effects of Dietary Copper on the Australian Freshwater Crayfish Cherax destructor|Ecotoxicol. Environ. Saf.46(1): 117-123|2000|10.1006/eesa.1999.1863
46939|T||Allus,M.A., M.H. Martin, and G. Nickless|Comparative Toxicity of Thallium to 2 Plant Species|Chemosphere16(4): 929-932|1987|10.1016/0045-6535(87)90026-9
46940|T||Allus,M.A., R.G. Brereton, and G. Nickless|Chemometric Studies of the Effect of Toxic Metals on Plants: The Use of Response Surface Methodology to Investigate the Influence of Tl, Cd and Ag on the Growth of Cabbage Seedlings|Environ. Pollut. A.52(3): 169-181|1988|
46944|T||Alonso,K.R., M.M. Peden-Adams, J.Y. Liu, C. Charbonneau, D. Henshel, and R.L. Dickerson|Effects of In Ovo Exposure to 2,3,7,8-TCDD on F1 Generation Adult Chickens (Gallus gallus)|Chemosphere37(9-12): 1873-1883|1998|10.1016/S0045-6535(98)00254-9
46945|A||Alsop,D.H., and C.M. Wood|Influence of Waterborne Cations on Zinc Uptake and Toxicity in Rainbow Trout, Oncorhynchus mykiss|Can. J. Fish. Aquat. Sci.56(11): 2112-2119|1999|10.1139/f99-156
46946|A||Alsop,D.H., J.C. McGeer, D.G. McDonald, and C.M. Wood|Costs of Chronic Waterborne Zinc Exposure and the Consequences of Zinc Acclimation on the Gill/Zinc Interactions of Rainbow Trout in Hard and Soft Water|Environ. Toxicol. Chem.18(5): 1014-1025|1999|10.1002/etc.5620180529
46947|A||Alsop,D.H., and C.M. Wood|Kinetic Analysis of Zinc Accumulation in the Gills of Juvenile Rainbow Trout: Effects of Zinc Acclimation and Implications for Biotic Ligand Modeling|Environ. Toxicol. Chem.19(7): 1911-1918|2000|10.1002/etc.5620190728
46948|T||Alstrom,S., and R.G. Burns|Cyanide Production by Rhizobacteria as a Possible Mechanism of Plant Growth Inhibition|Biol. Fertil. Soils7:232-238|1989|10.1007/BF00709654
46949|T||Alva,A.K., and M.E. Sumner|Alleviation of Aluminum Toxicity to Soybeans by Phosphogypsum or Calcium Sulfate in Dilute Nutrient Solutions|Soil Sci.147(4): 278-285|1989|10.1097/00010694-198904000-00007
46951|T||Alva,A.K., C.J. Asher, and D.G. Edwards|Effect of Solution pH, External Calcium Concentration, and Aluminum Activity on Nodulation and Early Growth of Cowpea|Aust. J. Agric. Res.41(2): 359-365|1990|10.1071/AR9900359
46953|T||Alva,A.K., J.H. Graham, and D.P.H. Tucker|Role of Calcium in Amelioration of Copper Phytotoxicity for Citrus|Soil Sci.155(3): 211-218|1993|10.1097/00010694-199303000-00007
46959|T||Amakiri,J.O., and F.A. Onofeghara|Effects of Crude Oil Pollution on the Germination of Zea mays and Capsicum frutescens|Environ. Pollut. A.35:159-167|1984|10.1016/0143-1471(84)90136-3
46963|T||Amberg,A., E. Rosner, and W. Dekant|Biotransformation and Kinetics of Excretion of Methyl-tert-Butyl Ether in Rats and Humans|Toxicol. Sci.51(1): 1-8|1999|10.1093/toxsci/51.1.1
46965|A||Amcoff,P., H. Borjeson, L. Norrgren, and M. Pesonen|Cytochrome P4501A-Activity In Rainbow Trout (Oncorhynchus mykiss) Hepatocytes After Exposure to PCB#126 and Astaxanthin:  In Vitro and In Vivo Studies|Mar. Environ. Res.46(1-5): 1-5|1998|10.1016/S0141-1136(97)00101-3
46968|T||Amin,A.E., and G.A. Abdalla|Effects of Endosulfan and Amitraz on Feedlot Performance, Carcass Yield and Meat Quality Characteristics of Nubian Goats|Vet. Hum. Toxicol.37(2): 113-115|1995|
46969|T||Amin,M.F., and M.A. Al Haque|Effect of Zinc on Leaf Litter Decomposition and on Bacterial and Fungal Populations in Soil|J. Biol. Sci. Res.20(1): 65-77|1989|
46970|T||Amir,H., and R. Pineau|Effects of Metals on the Germination and Growth of Fungal Isolates from New Caledonian Ultramafic Soils|Soil Biol. Biochem.30(14): 2043-2054|1998|10.1016/S0038-0717(98)00079-0
46973|T||Amstrup,S.C.|Immobilizing Free-Ranging Pronghorns with Powdered Succinylcholine Chloride|J. Wildl. Manag.45(3): 741-745|1981|10.2307/3808711
46975|A||Anandhi,D.U., and P.S. Murthy|Malathion Induced Histochemical Changes in the Hepatocytes Tissue of Gobiid Fish, Glossogobius giuris|J. Ecotoxicol. Environ. Monit.7(1): 3-9|1997|
46976|A||Anastacio,P.M., H.C.H. Lutzhoft, B. Halling-Sorensen, and J.C. Marques|Surfactant (Genapol OX-80) Toxicity to Selenastrum capricornutum|Chemosphere40(8): 835-838|2000|10.1016/S0045-6535(99)00275-1
46978|T||Anderegg,B.N., E.P. Lichtenstein, and J.D. Kemp|Effects of Lindane on DNA, RNA, and Protein Synthesis in Corn Roots|J. Agric. Food Chem.25(4): 923-928|1977|10.1021/jf60212a007
46982|T||Andersen,O.|Studies on the Absorption and Translocation of Amitrol (3-Amino-1,2,4-YTriazole) by Nutgrass (Cyperus rotundus L.)|Weeds (Urbana)6:370-385|1958|10.2307/4040231
46983|T||Andersen,R.N., R. Behrens, D.D. Warnes, and W.W. Nelson|Bromoxynil for Control of Common Cocklebur and Wild Common Sunflower in Soybeans|Weed Sci.21(2): 103-106|1973|10.1017/S0043174500031830
46990|T||Anderson,J.P.E., E.P. Lichtenstein, and W.F. Whittingham|Effect of Mucor alternans on the Persistence of DDT and Dieldrin in Culture and in Soil|J. Econ. Entomol.63:1595-1599|1970|10.1093/jee/63.5.1595
46991|T||Anderson,J.P.E., and E.P. Lichtenstein|Effects of Various Soil Fungi and Insecticides on the Capacity of Mucor alternans to Degrade DDT|Can. J. Microbiol.18:553-560|1972|10.1139/m72-088
46992|T||Anderson,J.R., and E.A. Drew|Effects of Pure Paraquat Dichloride, `Gramoxone W' and Formulation Additives on Soil Microbiological Activities.  3.  Estimation of Soil Microflora and Enzyme Activity in Field Treated Soils|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.131:247-258|1976|10.1016/S0044-4057(76)80093-7
46998|A||Anderson,S.L., and T.J. Norberg-King|Precision of Short-Term Chronic Toxicity Tests in the Real World|Environ. Toxicol. Chem.10:143-145|1991|
46999|T||Anderson,W.C., R.L. Gabrielson, W.A. Haglund, and A.S. Baker|Clubroot Control in Crucifers with Hydrated Lime and PCNB|Plant Dis. Rep.60(7): 561-565|1976|
47002|T||Andersson,M.|Effects of pH and aluminum on growth of Galium odoratum (L.) Scop. in flowing solution culture|Environ. Exp. Bot.32(4): 497-504|1992|10.1016/0098-8472(92)90063-8
47006|T||Andrawes,N.R., R.R. Romine, and W.P. Bagley|Metabolism and Residues of Temik Aldicarb Pesticide in Cotton Foliage and Seed Under Field Conditions|J. Agric. Food Chem.21(3): 379-386|1973|10.1021/jf60187a004
47009|T||Andrew,C.S., and M.P. Hegarty|Comparative Responses to Manganese Excess of Eight Tropical and Four Temperate Pasture Legume Species|Aust. J. Agric. Res.20:687-696|1969|10.1071/AR9690687
47010|T||Andrew,C.S., and P.J. Vandenberg|The Influence of Aluminum on Phosphate Sorption by Whole Plants and Excised Roots of Some Pasture Legumes|Aust. J. Agric. Res.24:341-351|1973|10.1071/AR9730341
47015|T||Angel,A., and K.L. Rogers|An Analysis of the Convulsant Activity of Substituted Benzenes in the Mouse|Toxicol. Appl. Pharmacol.21(2): 214-229|1972|10.1016/0041-008X(72)90064-6
47016|AT||Angerhofer,R.A., and L.M. Balczewski|Phase 1. Preliminary Assessment of the Relative Toxicity of Zinc Naphthenate|Study No. 75-51-0497-87, Army Environmental Hygiene Agency, Aberdeen Proving Ground, MD:77 p.|1988|
47019|T||Aniol,A.|Induction of Aluminum Tolerance in Wheat Seedlings by Low Doses of Aluminum in the Nutrient Solution|Plant Physiol.76:551-555|1984|10.1104/pp.76.3.551
47020|T||Aniol,A.|Genetics of Tolerance to Aluminum in Wheat (Triticum aestivum L. Thell)|Plant Soil123(2): 223-227|1990|10.1007/BF00011272
47021|A||Anjaneyulu,G.V.R.S., U.D.V.P. Pulla Rao, S. Singh, and K.D. Mishra|Acute Toxicity of Neem Oil to Juvenile Fish Cirrhinus mrigala (Ham.)|Environ. Ecol.17(3): 735-737|1999|
47025|A||Ankley,G.T., G.L. Phipps, E.N. Leonard, D.A. Benoit, V.R. Mattson, P.A. Kosian, A.M. Cotter, J.R. Dierkes, D.J. Hansen,|Acid-Volatile Sulfide as a Factor Mediating Cadmium and Nickel Bioavailability in Contaminated Sediments|Environ. Toxicol. Chem.10(10): 1299-1307|1991|
47031|T||Annas,A., B. Brunstrom, I. Brandt, and E.B. Brittebo|Induction of Ethoxyresorufin O-Deethylase (EROD) and Endothelial Activation of the Heterocyclic Amine Trp-P-1 in Bird Embryo Hearts|Arch. Toxicol.72(7): 402-410|1998|10.1007/s002040050520
47033|T||Anne,J., and J.F. Peberdy|Conditions for Induced Fusion of Fungal Protoplasts in Polyethylene Glycol Solutions|Arch. Microbiol.105:201-205|1975|10.1007/BF00447138
47035|T||Anonymous|Stem Borer Studies|Annual Report of the Gezira Research Station and Substations:131-134|1965|
47039|T||Ansede,J.H., P.J. Pellechia, and D.C. Yoch|Selenium Biotransformation by the Salt Marsh Cordgrass Spartina alterniflora: Evidence for Dimethylselenoniopropionate Formation|Environ. Sci. Technol.33(12): 2064-2069|1999|10.1021/es9812296
47041|T||Antonini,J.M., T.G. Charron, J.R. Roberts, J. Lai, T.L. Blake, and R.A. Rogers|Application of Laser Scanning Confocal Microscopy in the Analysis of Particle-Induced Pulmonary Fibrosis|Toxicol. Sci.51(1): 153-160|1999|10.1093/toxsci/51.1.126
47042|T||Antonious,G.F.|Clomazone Residues in Soil and Runoff: Measurement and Mitigation|Bull. Environ. Contam. Toxicol.64(2): 168-175|2000|10.1007/s001289910026
47043|A||Anusuya,D., and I. Christy|Effects of Chromium Toxicity on Hatching and Development of Tadpoles of Bufo melanostictus|J. Environ. Biol.20(4): 321-323|1999|
47044|T||Anwer,J., and N.K. Mehrotra|Teratogenic Effects of Benzo(a)pyrene in Developing Chick Embryo|Toxicol. Lett.40(3): 195-201|1988|10.1016/0378-4274(88)90041-0
47045|T||Adalsteinsson,S., M. Gussarsson, H. Asp, and P. Jensen|Monitoring Copper-Induced Changes in Fine Root Geometry of Birch (Betula pendula) Using Nutrient Film Technique (NFT)|Physiol. Plant. (Multiple Languages)99(3): 379-384|1997|10.1034/j.1399-3054.1997.990304.x
47046|T||Aoba,K.|Excess Manganese Disorder in Fruit Trees|Jpn. Agric. Res. Q.20:38-47|1986|
47047|T||Apgar,J., and J.A. Fitzgerald|Effect on the Ewe and Lamb of Low Zinc Intake Throughout Pregnancy|J. Anim. Sci.60(6): 1530-1538|1985|10.2527/jas1985.6061530x
47049|T||Appel,A.G.|Laboratory and Field Performance of Consumer Bait Products for German Cockroach (Dictyoptera: Blattellidae) Control|J. Econ. Entomol.83(1): 153-159|1990|10.1093/jee/83.1.135a
47050|T||Appel,A.G.|Performance of Gel and Paste Bait Products for German Cockroach (Dictyoptera: Blattellidae) Control: Laboratory and Field Studies|J. Econ. Entomol.85(4): 1176-1183|1992|10.1093/jee/85.4.1176
47052|T||Appel,A.G.|Nonchemical Approaches to Cockroach Control|J. Agric. Entomol.14(3): 271-280|1997|
47054|T||Appleby,J.E., R. Randell, and S. Rachesky|Chemical Control of the Bronze Birch Borer|J. Econ. Entomol.66(1): 258-259|1973|10.1093/jee/66.1.258
47055|T||Applegate,H.G., D.F. Adams, and R.C. Carriker|Effect of Aqueous Fluoride Solutions on Respiration of Intact Bush Bean Seedlings. I. Inhibition and Stimulation of Oxygen Uptake|Am. J. Bot.47:339-345|1960|10.1002/j.1537-2197.1960.tb07133.x
47056|A||Applegate,V.C., J.H. Howell, and M.A. Smith|Use of Mononitrophenols Containing Halogens as Selective Sea Lamprey Larvicides|Science127:336-338|1958|10.1126/science.127.3294.336
47064|T||Araujo do Nascimento,C.W., J.,Jr. Olimpio de Souza, H.E.P. Martinez, P.R.G. Teixeira, and P.C.R. Fontes|Accumulation of Phosphorus and Aluminum by Coffee Seedlings (Coffea arabica) Cultivated in a Nutrient Solution with Half of its Root System Exposed to Aluminum|Rev. Ceres (Multiple Languages)44(253): 331-338|1997|
47065|T||Arbestain,M.C.|Effect of Straw Amendment and Plant Growth on Selenium Transfer in a Laboratory Soil-Plant System|Can. J. Soil Sci.75(1): 187-195|1998|10.4141/S96-050
47066|T||Archambault,D.J., G. Zhang, and G.J. Taylor|Accumulation of Al in Root Mucilage of an Al-Resistant and an Al-Sensitive Cultivar of Wheat|Plant Physiol.112(4): 1471-1478|1996|10.1104/pp.112.4.1471
47071|T||Arduini,I., D.L. Godbold, and A. Onnis|Influence of Copper on Root Growth and Morphology of Pinus pinea L. and Pinus pinaster Ait. Seedlings|Tree Physiol.15:411-415|1995|10.1093/treephys/15.6.411
47072|T||Arduini,I., D.L. Godbold, A. Onnis, and A. Stefani|Heavy Metals Influence Mineral Nutrition of Tree Seedlings|Chemosphere36(4/5): 739-744|1998|10.1016/S0045-6535(97)10117-5
47073|T||Arduini,I., D.L. Godbold, and A. Onnis|Cadmium and Copper Change Root Growth and Morphology of Pinus pinea and Pinus pinaster Seedlings|Physiol. Plant. (Multiple Languages)92(4): 675-680|1994|10.1111/j.1399-3054.1994.tb03039.x
47075|A||Argese,E., C. Bettiol, A. Ghelli, R. Todeschini, and P. Miana|Submitochondrial Particles as Toxicity Biosensors of Chlorophenols|Environ. Toxicol. Chem.14(3): 363-368|1995|10.1002/etc.5620140302
47077|T||Arias,E.|Effects of the Phenoxy Herbicide MCPA on SCE Frequency and Cell Kinetics in Developing Chick Embryos|Ecotoxicol. Environ. Saf.33(1): 25-29|1996|10.1006/eesa.1996.0002
47078|T||Arida,G.S., K.L. Heong, P. Visarto, and H.J. Nesbitt|Impact of Methyl Parathion on the Natural Enemies of Rice Insect Pests in Cambodia|I. R. R. N22(1): 44-46|1997|
47079|T||Arillo,A., and F. Melodia|Reduction of Hexavalent Chromium by the Earthworn Eisenia foetida (Savigny)|Ecotoxicol. Environ. Saf.21(1): 92-100|1991|10.1016/0147-6513(91)90011-D
47080|T||Arines,J., M.E. Porto, and A. Vilarino|Effect of Manganese on Vesicular-Arbuscular Mycorrhizal Development in Red Clover Plants and on Soil Mn-Oxidizing Bacteria|Mycorrhiza1(3): 127-131|1992|10.1007/BF00203260
47081|T||Arisoy,M.|Biodegradation of Chlorinated Organic Compounds by White-Rot Fungi|Bull. Environ. Contam. Toxicol.60(6): 872-876|1998|10.1007/s001289900708
47082|T||Arita,A., M. Taikada, and H. Hayashi|Effects of Cadmium on the Impedance Locus of the Abdominal Skin of the Bullfrog (Rana catesbeiana)|Jpn. J. Physiol.29:817-821|1979|
47083|T||Arle,H.F., and K.C. Hamilton|Topical Applications of DSMA and MSMA in Irrigated Cotton|Weed Sci.19(5): 545-547|1971|10.1017/S0043174500050645
47087|T||Arnold,M.A., R.D. Lineberger, and D.K. Struve|Copper Compounds Influence In Vitro Rooting of Birch Microcuttings|J. Am. Soc. Hortic. Sci.119(1): 74-79|1994|10.21273/JASHS.119.1.74
47089|T||Arora,A., and S.S. Katewa|Germination as a Screening Index of Heavy Metal Tolerance in Three Ethno Food Grasses|J. Environ. Biol.20(1): 7-14|1999|
47091|T||Arora,S.P., E.E. Hatfield, F.C. Hinds, and U.S. Garrigus|Influence of Dietary Zinc on the Activity of Blood Vitamin A, Alcohol Dehydrogenase and Carbonic Anhydrase in Lambs|Indian J. Anim. Sci.43(2): 140-144|1973|
47092|T||Arp,P.A., and H. d'Avignon|Aluminum Uptake by Black Spruce Seedlings:  Persistence of Organic Acids in Aluminum Treated Rooting Cultures|Water Air Soil Pollut.43(3-4): 387-400|1989|10.1007/BF00279204
47094|T||Arriechi,E., and R. Ramirez|Soil Test for Available Zinc in Acid Soils of Venezuela|Commun. Soil Sci. Plant Anal.28(17-18): 1471-1480|1997|10.1080/00103629709369890
47095|T||Arsova,A.|Effect of Soil Acidity Neutralization and Copper Toxicity on Maize Productivity, Copper Uptake and Biomass Cation Content|Bulg. J. Plant Physiol.22(3-4): 56-65|1996|
47098|A||Arukwe,A., T. Celius, B.T. Walther, and A. Goksoyr|Effects of Xenoestrogen Treatment on Zona Radiata Protein and Vitellogenin Expression in Atlantic Salmon (Salmo salar)|Aquat. Toxicol.49(3): 159-170|2000|10.1016/S0166-445X(99)00083-1
47099|A||Arukwe,A., R. Thibaut, K. Ingebrigtsen, T. Celius, A. Goksoyr, and J.P. Cravedi|In Vivo and In Vitro Metabolism and Organ Distribution of Nonylphenol in Atlantic Salmon (Salmo salar)|Aquat. Toxicol.49:289-304|2000|10.1016/S0166-445X(99)00084-3
47100|T||Asakawa,F., F. Jitsunari, H. Shiraishi, S. Suna, N. Takeda, and T. Kitamado|Accumulation of Chlordanes in Adipose Tissues of Mice Caused by Long-Term Exposure of Low Level Technical Chlordane|Bull. Environ. Contam. Toxicol.57(6): 909-916|1996|10.1007/s001289900276
47102|A||Ashley,L.M., and J.E. Halver|Dimethylnitrosamine-Induced Haptic Cell Carcinoma in Rainbow Trout|J. Natl. Cancer Inst.41:531-|1968|
47105|T||Ashton,F.M., and T.J. Sheets|The Relationships of Soil Absorption of EPTC to Oats Injury in Various Soil Types|Weeds (Urbana)7:88-90|1959|10.2307/4040260
47106|T||Ashton,F.M., and K. Dunster|The Herbicidal Effect of EPTC, CDEC, and CDAA on Echinochloa crusgalli with Various Depths of Soil Incorporation|Weeds (Urbana)9:312-317|1961|10.2307/4040421
47120|T||Ashworth,R.J., and T.J. Sheets|Uptake and Translocation of Carbofuran in Tobacco Plants|J. Econ. Entomol.63(4): 1301-1304|1970|10.1093/jee/63.4.1301
47123|T||Asmatullah,S.N.Q., and A.R. Shakoori|Embryotoxic and Teratogenic Effects of Hexavalent Chromium in Developing Chicks of Gallus domesticus|Bull. Environ. Contam. Toxicol.61:281-288|1998|10.1007/s001289900760
47164|T||Atallah,Y.H., and W.C. Nettles|DDT-Metabolism and Excretion in Coleomegilla maculata DeGreer|J. Econ. Entomol.59(3): 560-564|1966|10.1093/jee/59.3.560
47165|T||Atallah,Y.H., and L.D. Newsom|Ecological and Nutritional Studies on Coleomegilla maculata DeGreer. III. The Effect of DDT, Toxaphene and Endrin on the Reproductive and Survival Potentials|J. Econ. Entomol.59:1181-1187|1966|10.1093/jee/59.5.1181
47168|T||Athalye,V.V., V. Ramachandran, and T.J. D'souza|Influence of Chelating Agents on Plant Uptake of 51Cr, 210Pb and 210Po|Environ. Pollut.89(1): 47-53|1995|10.1016/0269-7491(94)00047-H
47169|T||Atlas,S.A., A.R. Boobis, J.S. Felton, S.S. Thorgeirsson, and D.W. Nebert|Ontogenetic Expression of Polycyclic Aromatic Compound-Inducible Monooxygenase Activities and Forms of Cytochrome P-450 in the Rabbit.  Evidence for Temporal Control and Organ Specificity of Two Genetic Regulatory Syste|J. Biol. Chem.252(13): 4712-4721|1977|10.1016/S0021-9258(17)40218-3
47171|T||Atlavinyte,O.|The Effect of Chemical Substances on the Activity of Lumbricidae in the Process of Straw Disintegration|In: J.Vanek (Ed.), Progress in Soil Zoology, The Hague, Netherlands:515-519|1975|
47174|T||Attahiru,U.S., T.T. Iyaniwura, A.O. Adaudi, and J.J. Bonire|Subchronic Toxicity Studies of Tri-n-Butyltin and Triphenyltin Acetates in Rats|Vet. Hum. Toxicol.33(5): 499-502|1991|
47176|T||Attia,A.M.|Possible Involvement of beta-Adrenergic Receptors in the Enhancement of Nocturnal Pineal N-Acetyltransferase Activity due to Parathion Administration|Toxicology142:79-86|2000|10.1016/S0300-483X(99)00106-7
47177|T||Attia,F.I.|Insecticide Resistance in Plodia interpunctella (Hubner) (Lepidoptera:  Pyralidae) in New South Wales, Australia|J. Aust. Entomol. Soc.16(2): 149-152|1977|10.1111/j.1440-6055.1977.tb00076.x
47178|T||Attia,F.I., and J.T. Hamilton|Insecticide Resistance in Myzus persicae in Australia|J. Econ. Entomol.71(6): 851-853|1978|10.1093/jee/71.6.851
47180|T||Auch,D.E., and W.E. Arnold|Dicamba Use and Injury on Soybeans (Glycine max) in South Dakota|Weed Sci.26:471-475|1978|10.1017/S0043174500050347
47181|T||Auda,M., M. Fekry El Saidy, and D. Degheele|Toxicity, Retention and Distribution of [14C]Hexaflumuron in the Last Larval Instar of Leptinotarsa decemlineata, Spodoptera littoralis and Spodoptera exigua|Pestic. Sci.32(4): 419-426|1991|10.1002/ps.2780320404
47186|T||Aulerich,R.J., and R.K. Ringer|Current Status of PCB Toxicity to Mink and Effect on Their Reproduction|Arch. Environ. Contam. Toxicol.6:279-292|1977|10.1007/BF02097769
47189|T||Aviado,D.M.|Effects of Fluorocarbons, Chlorinated Solvents, and Inosine on the Cardiopulmonary System|Environ. Health Perspect.26:207-215|1978|10.1289/ehp.7826207
47191|T||Awad,A.S., D.G. Edwards, and P.J. Milham|Effect of pH and Phosphate on Soluble Soil Aluminium and on Growth and Composition of Kikuyu Grass|Plant Soil45:531-542|1976|10.1007/BF00010577
47193|T||Awate,B.G., and R.N. Pokharkar|Comparative Efficacy of Some Insecticides in Controlling Leaf Eating Caterpillar Laphygma exigua Hubner on Potato|J. Maharashtra Agric. Univ.3(1): 74-75|1978|
47196|T||Ayoade,K.A.|Evaluation of DDT Schedules for the Control of Pod Borer, Maruca testulalis Gey, Infestation of Cowpea, (Vigna unguiculata (L) Walp) var. `Mala'|Niger. J. Entomol.1(1): 9-12|1974|
47197|T||Ayoade,K.A.|Preliminary Investigation into the Effects of Some Insecticides, Sprayers and Methods of Application on the Insect Pests and Yields of Cowpea (Vigna unguiculata) (L.) Walp|Niger. J. Entomol.1(2): 133-141|1975|
47198|T||Aysal,P., K. Gozek, N. Artik, and A.S. Tuncbilek|14C-Chlorpyrifos Residues in Tomatoes and Tomato Products|Bull. Environ. Contam. Toxicol.62(4): 377-382|1999|10.1007/s001289900885
47199|T||Azab,A.K., A.K.M. El Nahal, and M.A. El Halfawy|Studies on the Susceptibility of the Cadelle, Tenebroides mauritanicus (L.), to Certain Fumigants, Contact Insecticides and Inert Materials (Coleoptera:  Ostomidae)|Bull. Entomol. Soc. Egypt5:181-196|1971|
47203|T||Babalakova,N.K., M. Kasai, and H. Matsumoto|Effect of Calcium on Tonoplast H+-PPiASE Pump in Barley Roots During the Uptake of Copper Ions|Dokl. Bolg. Akad. Nauk46(3): 113-116|1993|
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47226|T||Backlin,B., and A. Bergman|Morphological Aspects on the Reproductive Organs in Female Mink (Mustela vison) Exposed to Polychlorinated Biphenyls and Fractions Thereof|Ambio21(8): 596-601|1992|
47230|T||Bage,G., E. Cekanova, and K.S. Larsson|Teratogenic and Embryotoxic Effects of the Herbicides Di- and Trichlorophenoxyacetic Acids (2,4-D and 2,4,5-T)|Acta Pharmacol. Toxicol.32:408-416|1973|10.1111/j.1600-0773.1973.tb01487.x
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47234|T||Bai,K.M., and S.K. Majumder|Enhancement of Mammalian Safety by Incorporation of Antimony Potassium Tartrate in Zinc Phosphide Baits|Bull. Environ. Contam. Toxicol.29:107-114|1982|10.1007/BF01606097
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47251|T||Baker,A.J.M.|Environmentally-Induced Cadmium Tolerance in the Grass Holcus lanatus L|Chemosphere13:585-589|1984|10.1016/0045-6535(84)90153-X
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47255|T||Baker,M.F.|Studies on Possible Effects of Mirex Bait on the Bobwhite Quail and Other Birds|Proc. 18th Annual Conf. southeastern Assoc. Game and Fish Comm.:153-160|1967|
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47268|T||Baldry,D.A.T., D.H. Molyneux, and P. Van Wettere|The Experimental Application of Insecticides from a Helicopter for the Control of Riverine Populations of Glossina tachinoides in West Africa V. Evaluation of Decamethrin Applied as a Spray|PANS (Pest Artic. News Summ.)24(4): 447-454|1978|
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47387|T||Beare,J.A., S.A. Archer, and J.N.B. Bell|Marssonia Leafspot Disease of Poplar Under Elevated Ozone: Pre-Fumigated Host and In Vitro Studies|Environ. Pollut.105(3): 409-417|1999|10.1016/S0269-7491(99)00034-2
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47389|A||Beauvais,S.L., S.B. Jones, S.K. Brewer, and E.E. Little|Physiological Measures of Neurotoxicity of Diazinon and Malathion to Larval Rainbow Trout (Oncorhynchus mykiss) and Their Correlation with Behavioral Measures|Environ. Toxicol. Chem.19(7): 1875-1880|2000|10.1002/etc.5620190722
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47396|T||Beck,E.W., L.H. Dawsey, D.W. Woodham, D.B. Leuck, and L.W. Morgan|Insecticide Residues on Peanuts Grown in Soil Treated with Granular Aldrin and Heptachlor|J. Econ. Entomol.55(6): 953-956|1962|10.1093/jee/55.6.953
47399|T||Becker,R., A. Pich, G. Scholz, and K. Seifert|Influence of Nicotianamine and Iron Supply on Formation and Elongation of Adventitious Roots in Hypocotyl Cuttings of the Tomato Mutant 'Chloronerva' (Lycopersicon esculentum)|Physiol. Plant. (Multiple Languages)76(1): 47-52|1989|10.1111/j.1399-3054.1989.tb05451.x
47401|T||Bedard,K., I.C. Fuentealba, and A. Cribb|The Long Evans Cinnamon (LEC) Rat Develops Hepatocellular Damage in the Absence of Antimicrosomal Antibodies|Toxicology146:101-109|2000|10.1016/S0300-483X(00)00169-4
47403|T||Bednarek,W., and I. Dechnik|Uptake of Phosphorus by Italian Rye-grass from Soil Fertilized with Potassium Polyphosphate|Pol. J. Soil Sci.24(1): 71-78|1991|
47404|T||Beeby,A., and L. Richmond|Adaptation by an Urban Population of the Snail Helix aspersia to a Diet Contaminated with Lead|Environ. Pollut.46:73-82|1987|10.1016/0269-7491(87)90146-1
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47411|T||Beerling,D.J.|The Use of Non-Persistent Herbicides, Glyphosate, and 2,4-D Amine, to Control Riparian Stands of Japanese Knotweed (Reynoutria japonica Houtt.)|Regul. Rivers Res. Manag.5(5): 413-417|1990|10.1002/rrr.3450050506
47414|T||Begg,C.B.M., G.J.D. Kirk, A.F. MacKenzie, and H.U. Neue|Root-Induced Iron Oxidation and pH Changes in the Lowland Rice Rhizosphere|New Phytol.128(3): 469-477|1994|10.1111/j.1469-8137.1994.tb02993.x
47419|T||Beirne,M.J., and L.S. Jensen|Influence of high Levels of Pyridoxine on Twisted Legs in Broilers|Poult. Sci.60:1026-1029|1981|10.3382/ps.0601026
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47426|T||Belfroid,A., A. Van Wezel, M. Sikkenk, K. Van Gestel, W. Seinen, and J. Hermens|The Toxicokinetic Behavior of Chlorobenzenes in Earthworms (Eisenia andrei): Experiments in Water|Ecotoxicol. Environ. Saf.25(2): 154-165|1993|10.1006/eesa.1993.1014
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47437|T||Bell,M.J., M.J. McLaughlin, G.C. Wright, and A. Cruickshank|Inter- and Intra-specific Variation in Accumulation of Cadmium by Peanut, Soybean, and Navy Bean|Aust. J. Agric. Res.48(8): 1151-1160|1997|10.1071/A97038
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47442|T||Belles,J.M., J. Carbonell, and V. Conejero|Polyamines in Plants Infected by Citrus exocortis Viroid or Treated with Silver Ions and Ethephon|Plant Physiol.96(4): 1053-1059|1991|10.1104/pp.96.4.1053
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47459|T||Bengtsson,B., H. Asp, P. Jensen, and D. Berggren|Influence of Aluminum on Phosphate and Calcium Uptake in Beech (Fagus sylvatica) Grown in Nutrient Solution and Soil Solution|Physiol. Plant. (Multiple Languages)74(2): 299-305|1988|10.1111/j.1399-3054.1988.tb00635.x
47460|T||Bengtsson,G., T. Gunnarsson, and S. Rundgren|Growth Changes Caused by Metal Uptake in a Population of Onychiurus armatus (Collembola) Feeding on Metal Polluted Fungi|Oikos40(2): 216-225|1983|
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47544|T||Beyer,W.N.|Accumulation of Chlorinated Benzenes in Earthworms|Bull. Environ. Contam. Toxicol.57(5): 729-736|1996|10.1007/s001289900250
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47550|T||Bhatt,R., and C.M. Chaturvedi|Phase Relation of Nurotransmitter Affecting Drugs (5-HTP and L-DOPA) Alters Photo-sexual Response (Scotosensitive and Scotorefractory) in Japanese Quail|J. Environ. Biol.19(4): 285-293|1998|
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47554|T||Bhattacharya,S.P., and K. Brahmachari|Bioefficacy of Arsenol in Controlling Non-Cropped Land Weeds|Environ. Ecol.14(3): 651-653|1996|
47555|T||Bhattacharya,S.P., S.K. Mukherjee, and S. Ghosh|Bio-Efficacy of Some Herbicides on Groundnut|Environ. Ecol.14(4): 886-888|1996|
47556|T||Bhattacharya,S.P., R.P. Ghosh, K. Brahmachari, T.K. Pal, and T.K. Kumar|Efficacy of Some New Generation Herbicides in Controlling Weeds of Transplanted Boro Paddy|Environ. Ecol.14(3): 657-661|1996|
47557|T||Bhattacharya,S.P., S. Ghosh, S.K. Mukherjee, T.K. Pal, and T.K. Kumar|Bio-efficacy and Phytotoxicity of Some Herbicides on Potato|Environ. Ecol.14(4): 837-839|1996|
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47559|T||Bhattacharya,U., P. Rani, B. Manna, and V.K. Tripathi|In Vitro Testing of Some Chemotherapeutants on Aspergillus niger Van Tiegham Fish Fungal Isolates|Environ. Ecol.12(3): 710-712|1994|
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47561|T||Bhatti,D.S.|Chemical Control of the Gujhia Weevil, Tanymecus indicus Faust. (Curculionidae: Coleoptera)|J. Res. Punjab Agric. Univ.4(3): 409-414|1967|
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47568|T||Bhunya,S.P., and G.B. Jena|The Evaluation of Clastogenic Potential of Trichloroacetic Acid (TCA) in Chick In Vivo Test System|Mutat. Res.367(4): 253-259|1996|10.1016/S0165-1218(96)90085-3
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47584|T||Bingham,F.T.|Characteristics of Boron Absorption by Excised Barley Roots|Proc. Soil Sci. Soc. Am.34:613-617|1970|10.2136/sssaj1970.03615995003400040022x
47585|T||Bingham,F.T., and A.L. Page|Cadmium Accumulation by Economic Crops|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(1): 433-441|1975|
47586|T||Bingham,F.T., A.L. Page, R.J. Mahler, and T.J. Ganje|Growth and Cadmium Accumulation of Plants Grown on a Soil Treated with a Cadmium-Enriched Sewage Sludge|J. Environ. Qual.4(2): 207-211|1975|10.2134/jeq1975.00472425000400020015x
47590|T||Bird,C.C., and A.M. Crawford|Effect of 7-Hydroxymethyl-12-Methylbenz(a)anthracene on the Adrenal Gland of the Fetal and Postnatal Rat|J. Pathol.104(3): 191-199|1971|10.1002/path.1711040306
47591|T||Birge,W.J., and J.A. Black|Aquatic Toxiciology of Nickel|In: J.O.Nriagu (Ed.), Nickel in the Environment, Chap.13, Wiley, NY:349-366|1980|
47592|T||Birnbaum,L.S., and M.B. Baird|Induction of Hepatic Mixed Function Oxidases in Senescent Rodents|Exp. Gerontol.13:299-|1978|10.1016/0531-5565(78)90038-4
47593|T||Birnbaum,L.S., H. Weber, M.W. Harris, J.C. Lamb IV, and J.D. McKinney|Toxic Interaction of Specific Polychlorinated Biphenyls and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Increased Incidence of Cleft Palate in Mice|Toxicol. Appl. Pharmacol.77(2): 292-302|1985|10.1016/0041-008X(85)90329-1
47594|T||Birnbaum,L.S., L.A. Couture, and M.R. Elwell|Subchronic Effects of Exposure to Octachlorodibenzodioxin (OCDD)|Chemosphere18(1-6): 389-390|1989|10.1016/0045-6535(89)90145-8
47596|T||Bisbjerg,B., and G. Gissel-Nielsen|The Uptake of Applied Selenium by Agricultural Plants. I. The Influence of Soil Type and Plant Species|Plant Soil31(2): 287-298|1969|10.1007/BF01373572
47597|T||Bischof,C.|Effects of Heavy Metal Stress on Carbohydrate and Lipid Concentrations in the Haemolymph and Total Body Tissue of Parasitized Lymantria dispar L. Larvae (Lepidoptera)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.112(1): 87-92|1995|
47602|T||Bishnoi,U.R., and D.K. Pancholi|Effect of Diclofop and Linuron on Rye Grass (Lolium multiflorum), Control in Triticale (X Triticosecale), Wheat (Triticum aestivum), and Rye (Secale cereale)|J. Agron. Crop Sci.158(4): 241-245|1987|10.1111/j.1439-037X.1987.tb00269.x
47607|T||Biswas,A.K., and S.K. Senapati|Compatibility of Synthetic Pyrethroids with Organophosphate Insecticides to Control the Pests of Bhendi|Environ. Ecol.16(3): 526-529|1998|
47609|A||Bjerkeng,B., M. Foelling, S. Lagocki, T. Storebakken, J.J. Olli, and N. Alsted|Bioavailability of All-E-Astaxanthin and Z-Isomers of Astaxanthin in Rainbow Trout (Oncorhynchus mykiss)|Aquaculture157(1-2): 63-82|1997|10.1016/S0044-8486(97)00146-4
47610|A||Bjerregaard,P., S. Topcuoglu, and S.W. Fowler|Biokinetics of Americium and Plutonium in the Mussel Mytilus edulis|Mar. Ecol. Prog. Ser.21(1-2): 99-111|1985|10.3354/meps021099
47611|A||Bjork,M., and M. Gilek|Efficiencies of Polychlorinated Biphenyl Assimilation from Water and Algal Food by the Blue Mussel (Mytilus edulis)|Environ. Toxicol. Chem.18(4): 765-771|1999|10.1002/etc.5620180424
47617|T||Blamey,F.P.C., D.C. Edmeades, C.J. Asher, D.G. Edwards, and D.M. Wheeler|Evaluation of Solution Culture Techniques for Studying Aluminium Toxicity in Plants|Dev. Plant Soil Sci.45:905-912|1991|
47625|T||Blaylock,B.L., M. Abdel-Nasser, S.M. McCarty, J.A. Knesel, K.M. Tolson, P.W. Ferguson, and H.M. Mehendale|Suppression of Cellular Immune Responses in BALB/c Mice Following Oral Exposure to Permethrin|Bull. Environ. Contam. Toxicol.54(5): 768-774|1995|10.1007/BF00206111
47626|T||Blaylock,M.J., D.E. Salt, S. Dushenkov, O. Zakharova, C. Gussman, Y. Kapulnik, B.D. Ensley, and I. Raskin|Enhanced Accumulation of Pb in Indian Mustard by Soil-Applied Chelating Agents|Environ. Sci. Technol.:860-865|1997|10.1021/es960552a
47628|T||Bliss,C.I.|The Size Factor in the Action of Arsenic upon Silkworm Larvae|Exp. Biol.13:95-110|1936|10.1242/jeb.13.1.95
47629|A||Blockwell,S.J., S.J. Maund, and D. Pascoe|Effects of the Organochlorine Insecticide Lindane (gamma-C6H6Cl6) on the Population Responses of the Freshwater Amphipod Hyalella azteca|Environ. Toxicol. Chem.18(6): 1264-1269|1999|
47631|T||Blum,S.C., and R.E. Swarbrick|Hydroponic Growth of Crops in Solutions Saturated with [14C] Benzo(a)pyrene|J. Agric. Food Chem.25(5): 1093-1096|1977|10.1021/jf60213a010
47636|T||Blus,L.J., C.J. Henny, and R.A. Grove|Effects of Pelletized Anticoagulant Rodenticides on California Quail|J. Wildl. Dis.21(4): 391-395|1985|10.7589/0090-3558-21.4.391
47637|T||Pan,B., Z.Z. Li, Y.G. Wu, M.Z. Zhang, M.X. Li, and X. Yang|Laboratory Evaluation on the Toxic Effects of Bednets Impregnated with Permethrin Against Malaria Mosquitos|Southeast Asian J. Trop. Med. Public Health27(4): 828-833|1996|
47638|T||Boawn,L.C., F.G.,Jr. Viets, C.L. Crawford, and J.L. Nelson|Effect of Nitrogen Carrier, Nitrogen Rate, Zinc Rate, and Soil pH on Zinc Uptake by Sorghum, Potatoes, and Sugar Beets|Soil Sci.90:329-337|1960|10.1097/00010694-196012000-00003
47639|T||Boawn,L.C., and P.E. Rasmussen|Crop Response to Excessive Zinc Fertilization of Alkaline Soil|Agron. J.63:874-876|1971|10.2134/agronj1971.00021962006300060015x
47640|T||Boawn,L.C.|Zinc Accumulation Characteristics of Some Leafy Vegetables|Commun. Soil Sci. Plant Anal.2(1): 31-36|1971|10.1080/00103627109366285
47643|T||Boersma,L., C. McFarlane, and F.T. Lindstrom|Mathematical Model of Plant Uptake and Translocations of Organic chemicals: Application to Experiments|J. Environ. Qual.20(1): 137-146|1991|10.2134/jeq1991.00472425002000010021x
47645|A||Boese,B.L., R.J. Ozretich, J.O. Lamberson, R.C. Swartz, F.A. Cole, J. Pelletier, and J. Jones|Toxicity of Phototoxicity of Mixtures of Highly Lipophilic PAH Compounds in Marine Sediment: Can the SigmaPAH Model be Extrapolated?|Arch. Environ. Contam. Toxicol.36(3): 270-280|1999|10.1007/s002449900471
47649|T||Bohn,H.L., and G. Seekamp|Beryllium Effects on Potatoes and Oats in Acid Soil|Water Air Soil Pollut.11(3): 319-322|1979|10.1007/BF00296589
47652|T||Boileau,L.J.R., E. Nieboer, and D.H.S. Richardson|Uranium Accumulation in the Lichen Cladonia rangiferina. Part l. Uptake of Cationic, Neutral, and Anionic Forms of the Uranyl Ion|Can. J. Bot.63:384-389|1985|10.1139/b85-045
47653|A||Boisson,F., M.G.J. Hartl, S.W. Fowler, and C. Amiard-Triquet|Influence of Chronic Exposure to Silver and Mercury in the Field on the Bioaccumulation Potential of the Bivalve Macoma balthica|Mar. Environ. Res.45(4-5): 325-340|1998|10.1016/S0141-1136(97)00131-1
47654|A||Boisson,F., O. Cotret, and S.W. Fowler|Bioaccumulation and Retention of Lead in the Mussel Mytilus galloprovincialis Following Uptake from Seawater|Sci. Total Environ.222(1-2): 55-61|1998|10.1016/S0048-9697(98)00287-3
47658|T||Boldt,P.F., and A.R. Putnam|Selectivity Mechanisms for Foliar Applications of Dichlofop-Methyl. 2. metabolism|Weed Sci.29(2): 237-241|1981|10.1017/S0043174500061865
47663|T||Bollag,J.M., and J. Czaban|Effect of Microorganisms on Extractability of Cadmium from Soil with Sodium Hydroxide and Extractability of Cadmium from Soil with Sodium Hydroxide and DTPA|J. Soil Sci.40:451-460|1989|10.1111/j.1365-2389.1989.tb01287.x
47664|T||Bollen,W.B., L.A. Norris, and K.L. Stowers|Effect of Cacodylic Acid and MSMA on Microbes in Forest Floor and Soil|Weed Sci.22(6): 557-562|1974|10.1017/S0043174500038297
47665|A||Bols,N.C., S.A. Boliska, D.G. Dixon, P.V. Hodson, and K.L.E. Kaiser|The Use of Fish Cell Cultures as an Indication of Contaminant Toxicity to Fish|Aquat. Toxicol.6(2): 147-155|1985|10.1016/0166-445X(85)90013-X
47666|T||Bompart,G., and C. Orfila|Cisplatin Nephrotoxicity in Lead-Pretreated Rats: Enzymatic and Morphological Studies|Toxicol. Lett.50(2-3): 237-247|1990|10.1016/0378-4274(90)90016-F
47669|T||Bond,E.J.|The Action of Fumigants on Insects:  III. The Fate of Hydrogen Cyanide in Sitophilus granarius (L.)|Can. J. Biochem. Physiol.39(12): 1793-1802|1961|10.1139/o61-200
47671|T||Bond,J.A., A.M. Gown, H.L. Yang, E.P. Benditt, and M.R. Juchau|Further Investigations of the Capacity of Polynuclear Aromatic Hydrocarbons to Elicit Atherosclerotic Lesions|J. Toxicol. Environ. Health7(2): 327-335|1981|10.1080/15287398109529983
47674|T||Booij,C.J.H., and J. Noorlander|Effects of Pesticide Use and Farm Management on Carabids in Arable Crops|BCPC Monogr. - Br. Crop Prot. Counc.40:119-135|1988|
47676|T||Boon,J.P., P.J.H. Reijnders, J. Dols, P. Wensvoort, and M.T.J. Hillebrand|The Kinetics of Individual Polychlorinated Biphenyl Congeners in Female Harbour Seals (Phoca vitulina), with Evidence for Structure Related Metabolism|Aquat. Toxicol.10(5-6): 307-324|1987|10.1016/0166-445X(87)90005-1
47677|T||Boon,J.P., and F. Eijgenraam|The Possible Role of Metabolism in Determination Patterns of PCB Congeners in Species from the Dutch Wadden Sea|Mar. Environ. Res.24:3-8|1988|10.1016/0141-1136(88)90244-9
47680|A||Boone,M.D., and C.M. Bridges|The Effect of Temperature on the Potency of Carbaryl for Survival of Tadpoles of the Green Frog (Rana clamitans)|Environ. Toxicol. Chem.18(7): 1482-1484|1999|10.1002/etc.5620180720
47682|T||Booth,G.M., W.S. Bradshaw, and M.W. Carter|Screening of Priority Chemicals for Potential Reproductive Hazard|EPA/OTS Doc.#FYI-OTS-0583-0240:94 p.|1983|
47683|A||Booth,J.H.|The Effects of Oxygen Supply, Epinephrine, and Acetycholine on the Distribution of Blood Flow in Trout Gills|J. Exp. Biol.83:31-39|1979|10.1242/jeb.83.1.31
47684|T||Booth,L.H., S. Hodge, and K. O'Halloran|Use of Cholinesterase in Aporrectodea caliginosa (Oligochaeta; Lumbricidae) to Detect Organophsophate Contamination: Comparison of Laboratory Tests, Mesocosms, and Field Studies|Environ. Toxicol. Chem.19(2): 417-422|2000|10.1002/etc.5620190222
47690|A||Borgmann,U., E.S. Miljard, and C.C. Charlton|Effect of Cadmium on a Stable, Large Volume, Laboratory Ecosystem Containing Daphnia and Phytoplankton|Can. J. Fish. Aquat. Sci.46(3): 399-405|1989|10.1139/f89-052
47693|T||Borkowska,B.|Experimental System for Investigations of Aluminium Toxicity in Fruit Trees|In: R.J.Wright et al.(Eds.), Plant-Soil Interactions at Low pH, Kluwer Acadmic Publ., Netherlands:999-1004|1991|
47694|T||Borlakoglu,J.T., J.P.G. Wilkins, and R.R. Dils|Distribution and Elimination In Vivo of Polychlorinated Biphenyl (PCB) Isomers and Congeners in the Pigeon|Xenobiotica21(4): 433-445|1991|10.3109/00498259109039483
47695|A||Borneff,J., F. Selenka, H. Kunte, and A. Maximos|Experimental Studies on the Formation of Polycyclic Aromatic Hydrocarbons in Plants|Environ. Res.2:22-29|1968|10.1016/0013-9351(68)90003-0
47696|T||Bortier,K., L. De Temmerman, and R. Ceulemans|Effects of Ozone Exposure in Open-Top Chambers on Poplar (Populus nigra) and Beech (Fagus sylvatica): A Comparison|Environ. Pollut.109:509-516|2000|10.1016/S0269-7491(00)00054-3
47697|T||Bortner,C.E.|Toxicity of Manganese to Turkish Tobacco in Acid Kentucky Soils|Soil Sci.39:15-33|1935|10.1097/00010694-193501000-00003
47699|T||Borzelleca,J.F.|A Review of Volatile Organic Contaminant Data|Proc.of the AWWA (Am.Water Works Assoc.) Water Qual.Technol.Conf., Dec.5-8, 1982, Nashville, TN:225-244|1982|
47700|T||Bosco,C., R. Rodrigo, S. Diaz, and J. Borax|Renal Effects of Chronic Exposure to Malathion in Octodon degus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(2): 247-253|1997|10.1016/S0300-9629(96)00300-3
47701|A||Bose,T.|Effects of Beryllium Sulphate on Embryonic Development & Rhythmic Pattern of Subsequent RNA-Synthesis in Lymnae sp.|Indian J. Exp. Biol.11:538-540|1973|
47704|T||Bostrom,U., and A. Lofs-Holmin|Growth of Earthworms (Allolobophora caliginosa) fed Shoots and Roots of Barley, Meadow Fescue and Lucerne Studies in Relation to Particle Size, Protein, Crude Fiber Content and Toxicity|Pedobiologia (Multiple Languages)29:1-12|1986|10.1016/S0031-4056(23)06875-0
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47710|A||Botton,M.L., M. Hodge, and T.I. Gonzalez|High Tolerance to Tributyltin in Embryos and Larvae of the Horseshoe Crab, Limulus polyphemus|Estuaries21(2): 340-346|1998|10.2307/1352480
47711|A||Botton,M.L.|Toxicity of Cadmium and Mercury to Horseshoe Crab (Limulus polyphemus) Embryos and Larvae|Bull. Environ. Contam. Toxicol.64(1): 137-143|2000|10.1007/s001289910021
47714|A||Bouche,M.L., F. Habets, S. Biagianti-Risbourg, and G. Vernet|Toxic Effects and Bioaccumulation of Cadmium in the Aquatic Oligochaete Tubifex tubifex|Ecotoxicol. Environ. Saf.46(3): 246-251|2000|10.1006/eesa.2000.1919
47717|T||Bouldin,T.W., P. Mushak, L. O'Tuama, and M.R. Krigman|Blood-Brain Barrier Dysfunction in Acute Lead Encephalopathy: A Reappraisal|Environ. Health Perspect.12:81-88|1975|10.1289/ehp.751281
47718|T||Bouman,H.G.A., M.L.A. Broekhuizen, A.M.J. Baasten, A.C. Gittenberger de Groot, and A.C.G. Wenink|Spectrum of Looping Disturbances in Stage 34 Chicken Hearts After Retinoic Acid Treatment|Anat. Rec.243(1): 101-108|1995|10.1002/ar.1092430112
47720|T||Bouton,S.N., P.C. Frederick, M.G. Spalding, and H. McGill|Effects of Chronic, Low Concentrations of Dietary Methylmercury on the Behavior of Juvenile Great Egrets|Environ. Toxicol. Chem.18(9): 1934-1939|1999|10.1002/etc.5620180911
47723|T||Bowen,J.E., and H.G. Gauch|Non-Essentiality of B in Fungi and the Nature of Its Toxicity|Plant Physiol.41:319-324|1966|10.1104/pp.41.2.319
47724|T||Bowen,J.E.|Manganese-Silicon Interaction and Its Effect on Growth of Sudan Grass|Plant Soil37:577-588|1972|10.1007/BF01348516
47726|A||Bowen,W.J.|The Effects of Vanadium, Copper, Manganese and Iron on the Synthesis of Protoplasm by Chilomonas paramecium|Biol. Bull.79:114-130|1940|10.2307/1537833
47728|T||Bowerman,A.M., and J.E. Brooks|Evaluation of U-5897 as a Male Chemosterilant for Rat Control|J. Wildl. Manag.35(4): 618-624|1971|10.2307/3799765
47732|T||Bowman,R.S., J. Schroeder, R. Bulusu, M. Remmenga, and R. Heightman|Plant Toxicity and Plant Uptake of Fluorobenzoate and Bromide Water Tracers|J. Environ. Qual.26:1292-1299|1997|10.2134/jeq1997.00472425002600050015x
47733|A||Boyce,N.P., and S.B. Yamada|Effects of a Parasite, Eubothrium salvelini (Cestoda: Pseudophyllidea), on the Resistance of Juvenile Sockeye Salmon, Oncorhynchus nerka, to Zinc|J. Fish. Res. Board Can.34(5): 706-709|1977|10.1139/f77-110
47734|T||Boyd,R.S., and S.N. Martens|Nickel Hyperaccumulated by Thlaspi montanum var. montanum is Acutely Toxic to an Insect Herbivore|Oikos70(1): 21-25|1994|
47735|T||Boyd,R.S., and S.N. Martens|Nickel Hyperaccumulation by Thlaspi montanum var. montanum (Brassicaceae):  A Constitutive Trait|Am. J. Bot.85(2): 259-265|1998|10.2307/2446314
47736|T||Boyd,R.S., and W.J. Moar|The Defensive Function of Ni in Plants: Response of the Polyphagous Herbivore Spodoptera exigua (Lepidoptera: Noctuidae) to Hyperaccumulator and Accumulator Species of Streptanthus (Brassicaceae)|Oceanologia (Wroc.)118(2): 218-224|1999|
47738|T||Boyer,K.W., J.W. Jones, D. Linscott, S.K. Wright, W. Stroube, and W. Cunningham|Trace Element Levels in Tissues from Cattle Fed a Sewage Sludge-Amended Diet|J. Toxicol. Environ. Health8:281-295|1981|10.1080/15287398109530069
47739|A||Boyer,P.M., A. Ndayibagira, and P.A. Spear|Dose-Dependent Stimulation of Hepatic Retinoic Acid Hydroxylation/Oxidation and Glucuronidation in Brook Trout, Salvelinus fontinalis, After Exposure to 3,3',4,4'-Tetrachlorobiphenyl|Environ. Toxicol. Chem.19(3): 700-705|2000|
47740|T||Boylan,E.S., R.E. Calhoon, and B.K. Vonderhaar|Transplacental Action of Diethylstilbestrol on Reproductive and Endocrine Organs, Mammary Glands, and Serum Hormone Levels in Two- and Nine-Month-old Female Rats|Cancer Res.43(10): 4872-4878|1983|
47743|T||Bradbury,F.R., A. Campbell, C.W. Suckling, H.R. Jameson, and F.C. Peacock|The Nematicidal Properties of Azides|Ann. Appl. Biol.45(2): 241-250|1957|10.1111/j.1744-7348.1957.tb00462.x
47747|T||Brady,D.J., C. Hecht-Buchholz, C.J. Asher, and D.G. Edwards|Effects of Low Activities of Aluminum on Soybean (Glycine max). I. Early Growth and Nodulation|In:  M.L.Van Blusichem (Ed.), Plant Nutrient Physiology and Application, Kluwer, Dordrecht41:329-334|1990|
47749|A||Brafield,A.E., and P. Matthiessen|Oxygen Consumption by Sticklebacks (Gasterosteus aculeatus L.) Exposed to Zinc|J. Fish Biol.9(4): 359-370|1976|10.1111/j.1095-8649.1976.tb04684.x
47750|T||Bragg,D.E.|Imidacloprid (Gaucho) as an Aphicide in Spring Wheat|Arthropod Manag. Tests21:316-|1996|10.1093/amt/21.1.316
47751|A||Braginskiy,L.P., and E.P. Shcherban|Acute Toxicity of Heavy Metals to Aquatic Invertebrates at Different Temperatures|Hydrobiol. J.14(6): 78-82|1978|
47752|AT||Brammer,J.D., and R.L. Puyear|Identification and Quantification of the Water Soluble Components of JP-4 and a Determination of Their Biological Effects upon Selected Freshwater Organisms|Final Tech.Rep.No.AFOSR-78-3709, Sept 30, 1978 - Feb 27, 1984, Zoology Dept., North Dakota State Univ., Fargo, ND:171 p.|1985|
47754|T||Brams,E.A., and J.G.A. Fiskell|Copper Accumulation in Citrus Roots and Desorption with Acid|Proc. Soil Sci. Soc. Am.35:772-775|1971|10.2136/sssaj1971.03615995003500050039x
47755|T||Brandt,I.|The Distribution of 2,2',3,4,4',6' and 2,3',4,4',5',6'-Hexachlorobiphenyl in Mice Studied by Whole Body Autoradiography|Toxicology4:275-287|1975|10.1016/0300-483X(75)90050-5
47756|T||Branton,S.L., B.D. Lott, W.R. Maslin, and E.J. Day|Fatty Liver-Hemorrhagic Syndrome Observed in Commerical Layers Fed Diets Containing Chelated Minerals|Avian Dis.39(3): 631-635|1995|10.2307/1591819
47761|A||Brecken,J.A., and C.N. D'Asaro|Actue Toxicity of Four Chemicals to Marine Organisms as Affected by Temperature and Salinity|U.S.EPA Report, Gulf Breeze, FL:56 p.|1990|
47763|A||Breedis,C.|Induction of Accessory Limbs and of Sarcoma in the Newt (Triturus viridescens) with Carcinogenic Substances|Cancer Res.12:861-866|1952|
47764|T||Breeze,V.G.|Land Reclamation and River Pollution Problems in the Croal Valley Caused by Waste from Chromate Manufacture|J. Appl. Ecol.10(4): 513-525|1973|10.2307/2402299
47765|T||Breeze,V.G., and E. Van Renbsurg|Vapour of the Free Acid of the Herbicide 2,4-D is Toxic to Tomato and Lettuce Plants|Environ. Pollut.72:259-267|1991|10.1016/0269-7491(91)90001-D
47768|T||Brenmer,I., and A.H. Knight|The Complexes of Zinc, Copper and Manganese Present in Ryegrass|Br. J. Nutr.24:279-289|1970|10.1079/BJN19700027
47770|T||Brennan,R.F.|Effect of Copper Application on Take-All Severity and Grain Yield of Wheat in Field Experiments near Esperance, Western Australia|Aust. J. Exp. Agric.31:255-258|1991|10.1071/EA9910255
47778|A||Bridges,C.M.|Long-Term Effects of Pesticide Exposure at Various Life Stages of the Southern Leopard Frog (Rana sphenocephala)|Arch. Environ. Contam. Toxicol.39(1): 91-96|2000|10.1007/s002440010084
47782|T||Bringmark,L., E. Bringmark, and B. Samuelsson|Effects on MOR Layer Respiration by Small Experimental Additions of Mercury and Lead|Sci. Total Environ.213(1-3): 115-119|1998|10.1016/S0048-9697(98)00082-5
47785|T||Bristow,P.R., J. Katan, and J.L. Lockwood|Control of Rhizoctonia solani by Pentachloronitrobenzene Accumulated from Soil by Bean Plants|Phytopathology63:808-813|1973|10.1094/Phyto-63-808
47786|A||Britvic,S., and B. Kurelec|The Effect of Inhibitors of Multixenobiotic Resistance Mechanism on the Production of Mutagens by Dreissena polymorpha in Waters Spiked with Premutagens|Aquat. Toxicol.47(2): 107-116|1999|10.1016/S0166-445X(99)00011-9
47788|T||Broadley,M.R., and N.J. Willey|Differences in Root Uptake of Radiocaesium by 30 Plant Taxa|Environ. Pollut.97(1-2): 11-15|1997|10.1016/S0269-7491(97)00090-0
47789|A||Brooks,A.W., L. Maltby, A.J. Saul, and P. Calow|A Simple Indoor Artificial Stream System Designed to Study the Effects of Toxicant Pulses on Aquatic Organisms|Water Res.30(2): 285-290|1996|10.1016/0043-1354(95)00176-X
47790|T||Brooks,J.E., and A.M. Bowerman|Estrogenic Steroid Used to Inhibit Reproduction in Wild Norway Rats|J. Wildl. Manag.35(3): 444-448|1971|10.2307/3799696
47796|T||Brouwer,A.|The Role of Catabolizing Enzymes in Hepatic Retinoid Reduction Induced by TCB in Mice|In: Interference of 3,4,3,4-Tetrachlorobiphenyl in Vitamin A (Retinoids) Metabolism: Possible Implications for Toxicity and Carcinogenicity of Polyhalogenated Aromatic Hydrocarbons, Chapter 5, CIP -DATA Koninklijke Bibliotheek, Den Haag:123-145|1987|
47797|T||Brouwer,A., P.J.H. Reijnders, and J.H. Koeman|Polychlorinated Biphenyl (PCB)-Contaminated Fish Induces Vitamin A and Thyroid Hormone Deficiency in the Common Seal (Phoca vitulina)|Aquat. Toxicol.15(1): 99-106|1989|10.1016/0166-445X(89)90008-8
47798|T||Brouwer,A., E. Klasson Wehler, M. Bokdam, D.C. Morse, and W.A. Traag|Competitive Inhibition of Thyroxin Binding to Transthyretin by Monohydroxy Metabolites of 3,3',4,4'-Tetrachlorobiphenyl|Chemosphere20(7-9): 1257-1262|1990|10.1016/0045-6535(90)90255-R
47799|T||Brouwer,A.P.|Effects of PCBs on Retinoid Levels in Serum and Liver of Mice, Rats and Marmoset Monkeys; Correlation with PCB Accumulation, AHH Induction and other Toxicity Parameters|Radiobiological Inst., Health Res.TNO, Chapter 3.Materials and Methods, Rijswijk, The Netherlands:83-104|1987|
47801|T||Brouwer,A.P.|Effect of TCB on Natural Retinoid Concentrations in Peripheral Tissues of Sprague Dawley Rats and Marmoset Monkeys|Radiobiological Inst., Health Res.TNO, Chapter 4, Effects of PCBs on Retinoid Levels in Serum and Liver of Mice, Rats and Marmoset Monkeys; Correlation with PCB Accumulation and Other Toxicity Parameters, Rijswijk, The Netherlands:105-122|1987|
47802|A||Brown,A.F., and D. Pascoe|Parasitism and Host Sensitivity to Cadmium:  An Acanthocephalan Infection of the Freshwater Amphipod Gammarus pulex|J. Appl. Ecol.26(2): 473-487|1989|10.2307/2404075
47804|T||Brown,D.H., and R.P. Beckett|Differential Sensitivity of Lichens to Heavy Metals|Ann. Bot.52:51-57|1983|10.1093/oxfordjournals.aob.a086551
47805|T||Brown,E.A., and F.F. Hendrix|Effect of Certain Fungicides Sprayed During Apple Bloom on Fruit Set and Fruit Rot|Plant Dis. Rep.62(8): 739-741|1978|
47809|T||Brown,J.C., and R.L. Chaney|Effect of Iron on the Transport of Citrate into the Xylem of Soybeans and Tomatoes|Plant Physiol.47:836-840|1971|10.1104/pp.47.6.836
47811|T||Brown,J.C., and W.E. Jones|Heavy-Metal Toxicity in Plants 1. A Crisis in Embryo|Commun. Soil Sci. Plant Anal.6(4): 421-438|1975|10.1080/00103627509366579
47812|T||Brown,K.W., and J.C. McFarlane|Plutonium Uptake By Plants From Soil Containing Plutonium-238 Dioxide Particles|U.S.EPA Environmental Monitoring and Support Laboratory, Las Vegas, NV, EPA-600/3-77-052 (NTIS# 268-000):13-|1977|
47813|T||Brown,K.W.|Plutonium-239 And Americium-241 Uptake By Plants From Soil|EPA-600/3-79-026, U.S.EPA, Las Vegas, NV:16 p.|1979|
47814|T||Brown,M.M., and L.C. Ho|Factors Affecting Calcium Transport and Basipetal IAA Movement In Tomato Fruit in Relation to Blossom-End Rot|J. Exp. Bot.44(264): 1111-1117|1993|10.1093/jxb/44.7.1111
47815|T||Brown,M.T., and D.A. Wilkins|The Effects of Zinc on Germination, Survival and Growth of Betula Seed|Environ. Pollut. A.41(1): 53-61|1986|10.1016/0143-1471(86)90106-6
47818|T||Brown,N.R.|Lake Nipigon Spray Operation, 1945|In: Biological Bulletin No.2, Forest Spraying and Some Effects of DDT, Department of Lands and Forests, Ontario, Canada:71-78|1949|
47819|T||Brown,R.A., J.S. White, and C.J. Everett|How Does an Autumn Applied Pyrethroid Affect the Terrestrial Arthropod Community?|BCPC Monogr. - Br. Crop Prot. Counc.40:137-145|1988|
47821|T||Brown,R.A., and D. Farmer|Track-Sprayer and Glasshouse Techniques for Terrestrial Plant Bioassays with Pesticides|ASTM Spec. Tech. Publ.:197-208|1991|
47825|T||Brown,S.L., and J.N.B. Bell|Earthworms and Radionuclides, with Experimental Investigations on the Uptake and Exchangeability of Radiocaesium|Environ. Pollut.88(1): 27-39|1995|10.1016/0269-7491(95)91045-M
47827|T||Brown,W.V., H. Mollenhauer, and C. Johnson|An Electron Microscope Study of Silver Nitrate Reduction in Leaf Cells|Am. J. Bot.49(1): 57-63|1962|10.1002/j.1537-2197.1962.tb11746.x
47828|T||Browning,J.E., and R.L. Edmonds|Influence of Soil Aluminum and pH on Armillaria Root Rot in Douglas-Fir in Western Washington|Northwest Sci.67(1): 37-43|1993|
47829|T||Browning,M.H.R., and T.C. Hutchinson|The Effects of Aluminum and Calcium on the Growth and Nutrition of Selected Ectomycorrhizal Fungi of Jack Pine|Can. J. Bot.69(8): 1691-1699|1991|10.1139/b91-214
47832|T||Bruce,W.N., and G.C. Decker|Insecticide Residues In Soybeans Grown In Soil Containing Various Concentrations of Aldrin, Dieldrin, Heptachlor, And Hetachlor Epoxide|J. Agric. Food Chem.14(4): 395-398|1966|10.1021/jf60146a018
47835|T||Bruns,U.F., and A.D. Kelley|Effect of Sprinkler Irrigation with Xylene-Treated Water on Six Crops|Wash. State Univ. Coll. Agric. Res. Cent. Bull.796:1-4|1974|
47841|T||Brunninger,B., R. Viswanathan, and F. Beese|Terbuthylazine and Carbofuran Effects on Growth and Reproduction Within Three Generations of Eisenia andrei (Oligochaeta)|Biol. Fertil. Soils18:83-88|1994|10.1007/BF00336450
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47845|T||Bruns,V.F.|The Response of Certain Crops to 2,4-Dichlorophenoxyacetic Acid in Irrigation Water.  II.  Sugar Beets|Weeds (Urbana)5:250-258|1957|10.2307/4040195
47847|T||Brunstrom,B.|Activities in Chick Embryos of 7-Ethoxycoumarin O-Deethylase and Aryl Hydrocarbon (Benzo(a)pyrene) Hydroxylase and Their Induction by 3,3',4,4'-Tetrachlorobiphenyl in Early Embryos|Xenobiotica16(9): 865-872|1986|10.3109/00498258609038968
47848|T||Brunstrom,B., and J. Lund|Differences Between Chick and Turkey Embryos in Sensitivity to 3,3',4,4'-Tetrachlorobiphenyls and in Concentration /Affinity of the Hepatic Receptor for 3,4,7,8-Tetrachlorodibenzo-p-Dioxin|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 507-512|1988|10.1016/0742-8413(88)90069-2
47849|T||Brunstrom,B.|Toxicity of Coplanar Polychlorinated Biphenyls to Avian Embryos|Chemosphere19(1-6): 765-768|1989|10.1016/0045-6535(89)90405-0
47850|T||Brunstrom,B.|Toxicity and EROD-Inducing Potency of Polychlorinated Biphenyls (PCBs) and Polycyclic Aromatic Hydrocarbons (PAHs) in Avian Embryos|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1/2): 241-243|1991|10.1016/0742-8413(91)90161-L
47851|T||Brunstrom,B., H. Hakansson, and K. Lundberg|Effects of a Technical PCB Preparation and Fractions Thereof on Ethoxyresorufin O-Deethylase Activity, Vitamin A Levels and Thymic Development in the Mink (Mustela vison)|Pharmacol. Toxicol.69:421-426|1991|10.1111/j.1600-0773.1991.tb01324.x
47852|T||Brunstrom,B.|Induction of Cytochrome P-450-Dependent Enzyme Activities in Female Mink (Mustela vison) and Their Kits by Technical PCB Preparations and Fractions Thereof|Ambio21(8): 585-587|1992|
47853|T||Brunstrom,B.|Embryolethality and Induction of 7-Ethoxyresorufin O-Deethylase in Chick Embryos by Polychlorinated Biphenyls and Polycyclic Aromatic Hydrocarbons Having Ah Receptor Affinity|Chem.-Biol. Interact.81(1/2): 69-77|1992|10.1016/0009-2797(92)90027-I
47854|T||Brunstrom,B., and K. Halldin|EROD Induction by Environmental Contaminants in Avian Embryo Livers|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 213-219|1998|
47856|A||Bryan,G.W.|Zinc Regulation in the Lobster Homarus vulgaris. I. Tissue Zinc and Copper Concentrations|J. Mar. Biol. Assoc. U.K.44:549-563|1964|10.1017/S0025315400027764
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47861|T||Bryant,R.D., and D. Parkinson|Effects of Methanol on the Microflora of an Arctic Soil|Water Air Soil Pollut.10:277-290|1978|10.1007/BF00285057
47863|T||Buadze,O., T. Sadunishvili, and G. Kvesitadze|The Effect of 1,2-Benzanthracene and 3,4-Benzpyrene on the Ultrastructure of Maize Cells|Int. Biodeterior. Biodegrad.41:119-125|1998|10.1016/S0964-8305(98)00033-X
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47866|T||Buchmann,N., R. Oren, and R. Zimmermann|Response of Magnesium-Deficient Saplings in a Young, Open Stand of Picea abies (l.) Karst. To Elevated Soil Magnesium, Nitrogen and Carbon|Environ. Pollut.87(1): 31-43|1995|10.1016/S0269-7491(99)80005-0
47869|T||Buckle,A.P., F.P. Rowe, and A.R. Husin|Laboratory Evaluation of the Anticoagulants Coumatetralyl and Brodifacoum Against Rattus argentiventer in Peninsular Malaysia|Trop. Pest Manag.28(2): 126-130|1982|10.1080/09670878209370689
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47872|T||Buczacki,S.T., S.E. Cadd, J.G. Ockendon, and J.G. White|Field Evaluations of Systemic Fungicides and Deravatives of Dithiocarbamic Acid for the Control of Clubroot|Ann. Appl. Biol.84:51-56|1976|10.1111/j.1744-7348.1976.tb01728.x
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47881|T||Bulay,O.M., and L.W. Wattenberg|Carcinogenic Effects of Polycyclic Hydrocarbon Carcinogen Administration to Mice During Pregnancy on the Progeny|J. Natl. Cancer Inst.46(2): 397-402|1971|
47882|T||Bulbule,A.V., and P.B. Deshpande|Growth and Nutrient Content of Rice Cultivars Grown in Culture Solutions with High Levels of Iron|Oryza26(4): 363-367|1989|
47883|T||Bull,D.L.|Fate and Efficacy of Acephate After Application to Plants and Insects|J. Agric. Food Chem.27(2): 268-272|1979|10.1021/jf60222a006
47888|T||Burd,G., and O.P. Ward|Involvement of a Surface-Active high Molecular Weight Factor In Degradation of Polycyclic Aromatic Hydrocarbons by Pseudomonas Marginalis|Can. J. Microbiol.42(8): 791-797|1996|10.1139/m96-099
47889|T||Burd,G.I., D.G. Dixon, and B.R. Glick|A Plant Growth-Promoting Bacterium that Decreases Nickel Toxicity in Seedlings|Appl. Environ. Microbiol.:3663-3668|1998|10.1128/AEM.64.10.3663-3668.1998
47892|T||Burger,J., and M. Gochfeld|Effects of Varying Temporal Exposure to Lead on Behavioral Development in Herring Gull (Larus argentatus) Chicks|Pharmacol. Biochem. Behav.52(3): 601-608|1995|10.1016/0091-3057(95)00147-O
47893|T||Burger,J., and M. Gochfeld|Growth and Behavioral Effects of Early Postnatal Chromium and Manganese Exposure in Herring Gull (Larus argentatus) Chicks|Pharmacol. Biochem. Behav.50(4): 607-612|1995|10.1016/0091-3057(94)00350-5
47894|T||Burger,J., and M. Gochfeld|Behavior Effects of Lead Exposure on Different Days for Gull (Larus argentatus) Chicks|Pharmacol. Biochem. Behav.50(1): 97-105|1995|10.1016/0091-3057(94)00290-Y
47897|T||Burgess,N.M., K.A. Hunt, C. Bishop, and D.V. Weseloh|Cholinesterase Inhibition in Tree Swallows (Tachycineta bicolor) and Eastern Bluebirds (Sialia sialis) Exposed to Organophosphorus Insecticides in Apple Orchards in Ontario, Canada|Environ. Toxicol. Chem.18(4): 708-716|1999|10.1002/etc.5620180417
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47900|T||Burke,D.G., K. Watkins, and B.J. Scott|Manganese Toxicity Effects on Visible Symptoms, Yield, Manganese Levels, and Organic Acid Levels in Tolerant and Sensitive Wheat Cultivars|Crop Sci.30:275-280|1990|10.2135/cropsci1990.0011183X003000020007x
47901|T||Burken,J.G., and J.L. Schnoor|Predictive Relationships for Uptake of Organic Contaminants by Hybrid Poplar Trees|Environ. Sci. Technol.32(21): 3379-3385|1998|10.1021/es9706817
47902|A||Burkepile,D.E., M.T. Moore, and M.M. Holland|Susceptibility of Five Nontarget Organisms to Aqueous Diazinon Exposure|Bull. Environ. Contam. Toxicol.64(1): 114-121|2000|10.1007/s001289910018
47904|A||Burkhardt-Holm,P., T. Wahli, and W. Meier|Nonylphenol Affects the Granulation Pattern of Epidermal Mucous Cells in Rainbow Trout, Oncorhynchus mykiss|Ecotoxicol. Environ. Saf.46(1): 34-40|2000|10.1006/eesa.1999.1871
47906|T||Burleson,C.A., and N.R. Page|Phosphorus and Zinc Interactions in Flax|Proc. Soil Sci. Soc. Am.31:510-513|1967|10.2136/sssaj1967.03615995003100040026x
47907|T||Burmester,C.H., J.F. Adams, and J.W. Odom|Response of Soybean to Lime and Molybdenum on Ultisols in Northern Alabama|Soil Sci. Soc. Am. J.52(5): 1391-1394|1988|10.2136/sssaj1988.03615995005200050034x
47909|T||Burns,R.J., and G.E. Connolly|Toxicity of Compound 1080 Livestock Protection Collars to Sheep|Arch. Environ. Contam. Toxicol.28(2): 141-144|1995|10.1007/BF00217608
47910|A||Burreau,S., D. Broman, and U. Orn|Tissue Distribution of 2,2',4,4'-Tetrabromo[14C]Diphenyl Ether ([14C]-PBDE 47) in Pike (Esox lucius) After Dietary Exposure - A Time Series Study Using Whole Body Autoradiography|Chemosphere40(9-11): 977-985|2000|10.1016/S0045-6535(99)00342-2
47913|T||Burton,K.W., E. Morgan, and A. Roig|Interactive Effects of Cadmium, Copper and Nickel on the Growth of Sitka Spruce and Studies of Metal Uptake from Nutrient Solutions|New Phytol.103(3): 549-557|1986|10.1111/j.1469-8137.1986.tb02892.x
47919|T||Bushamuka,V.N.|Differential Genotypic and Root Type Responses to Aluminum Toxic and Compacted Subsoil Layers Using Neutron Radiography (Zea mays, Glycine max)|Ph.D.Thesis, Cornell University, Ithaca, NY:167 p.|1997|
47925|T||Butler,R.G., A. Harfenist, and F.A. Leighton|Impact of Sublethal Oil and Emulsion on the Reproductive Success of Leach's Storm-Petrels: Short and Long-Term Effects|J. Appl. Ecol.25(1): 125-143|1988|10.2307/2403614
47927|A||Buttarelli,F.R., F.E. Pontieri, V. Margotta, and G. Palladini|Acetylcholine/Dopamine Interaction in Planaria|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125:225-231|2000|
47930|T||Byczkowski,J.Z., and J. Tluczkiewicz|Comparative Study of Respiratory Chain Inhibition by DDT and DDE in Mammalian and Plant Mitochondria|Bull. Environ. Contam. Toxicol.20(4): 505-512|1978|10.1007/BF01683556
47933|T||Bytnerowicz,A., K. Percy, G. Riechers, P. Padgett, and M. Krywult|Nitric Acid Vapor Effects on Forest Trees - Deposition and Cuticular Changes|Chemosphere36(4-5): 697-702|1998|10.1016/S0045-6535(97)10110-2
47940|A||Cairns,J.,Jr., and A. Scheier|The Influence of Exposure to ABS Detergent upon the Blood Chloride Regulation of the Pumpkinseed|Prog. Fish-Cult.28(3): 128-132|1966|10.1577/1548-8640(1966)28[128:TIOETA]2.0.CO;2
47944|A||Cairns,J.,Jr., and D. Messenger|An Interim Report on the Effects of Prior Exposure to Sublethal Concentrations of Toxicants upon the Tolerance of Snails to Thermal Shock|Arch. Hydrobiol.74(4): 441-447|1974|
47956|T||Cakmak,I., N. Sari, H. Marschner, M. Kalayci, A. Yilmaz, S. Eker, and K.Y. Gulut|Dry Matter Production and Distribution of Zinc in Bread and Durum Wheat Genotypes Differing in Zinc Efficiency|Plant Soil180(2): 173-181|1996|10.1007/BF00015300
47957|T||Cakmak,I., and H. Marschner|Zinc-Dependent Changes in ESR Signals, NADPH Oxidase and Plasma Membrane Permeability in Cotton Roots|Physiol. Plant. (Multiple Languages)73(1): 182-186|1988|10.1111/j.1399-3054.1988.tb09214.x
47958|T||Calabrese,E.J.|Evidence That Hormesis Represents an 'Overcompensation' Response to a Disruption in Homeostasis|Ecotoxicol. Environ. Saf.42(2): 135-137|1999|10.1006/eesa.1998.1729
47963|T||Caldicott,J.J.B., and R.J. Isherwood|The Use of Phorate for the Control of Wireworm in Potatoes|Proc. Br. Insectic. Fungic. Conf.1:314-318|1967|
47964|T||Caldicott,J.J.B., and R.J. Isherwood|The Control of Cabbage Root Fly with Thionazin|Proc. Br. Insectic. Fungic. Conf.1:420-427|1967|
47966|T||Caldwell,T.H.|Copper Deficiency in Crops: II. Copper Deficiency in Peats and Sands in East Anglia|Tech.Bull.No.21, Trace Elements in Soils and Crops, Proc.of a Conf.Organized by the Soil Scientists of the Natl.Agric.Advisory Serv., Feb.8-9, 1966, Her Majesty's Stationery Office, London:73-87|1971|
47968|T||Callahan,C.A., M.A. Shirazi, and E.F. Neuhauser|Comparative Toxicity of Chemicals to Earthworms|Environ. Toxicol. Chem.13(2): 291-298|1994|10.1002/etc.5620130213
47970|A||Camacho,L., M.V. Alves, J. Cunha Bastos, I. Felzenszwalb, and V.L.F. Cunha Bastos|Effects of beta-Naphthoflavone on the Levels of Glutathione S-Transferase from Liver of Pacu, Piaractus mesopotamicus|Bull. Environ. Contam. Toxicol.64(2): 191-196|2000|10.1007/s001289910029
47975|T||Cambraia,J., J.A. Pimenta, M.M. Estevao, and R. Sant'anna|Aluminum Effects on Nitrate Uptake and Reduction in Sorghum|J. Plant Nutr.12(12): 1435-1445|1989|10.1080/01904168909364048
47979|T||Campbell,F.L.|Relative Susceptibility to Arsenic in Successive Instars of the Silkworm|J. Gen. Physiol.9(6): 727-733|1926|10.1085/jgp.9.6.727
47982|T||Campbell,L.G., and H.N. Lafever|Correlation of Field and Nutrient Culture Techniques of Screening Wheat for Aluminium Tolerance|In: M.J.Wright (Ed.), Plant Adaptation to Mineral Stress in Problem Soils, Cornell Univ.Agricultural Exp.Station, Ithaca:277-286|1976|
47983|A||Campbell,M.M., K.N. White, R. Jugdaohsingh, J.J. Powell, and C.R. McCrohan|Effect of Aluminum and Silicic Acid on the Behaviour of the Freshwater Snail Lymnaea stagnalis|Can. J. Fish. Aquat. Sci.57(6): 1151-1159|2000|10.1139/f00-053
47986|T||Campbell,T.A., P.R. Jackson, and Z.L. Xia|Effects of Aluminum Stress on Alfalfa Root Proteins|J. Plant Nutr.17(2-3): 461-471|1994|10.1080/01904169409364740
47988|T||Campbell,T.A., N.J. Nuernberg, and C.D. Foy|Differential Responses of Alfalfa Cultivars to Aluminum Stress|J. Plant Nutr.12(3): 291-305|1989|10.1080/01904168909363953
47989|T||Campbell,T.A., N.J. Nuernberg, and C.D. Foy|Differential Responses of Red Clover Germplasms to Aluminum Stress|J. Plant Nutr.13(11): 1463-1474|1990|10.1080/01904169009364166
47990|T||Campbell,W.V., D.A. Mount, and B.S. Heming|Influence of Organic Matter Content of Soils on Insecticidal Control of the Wireworm Melanotus communis|J. Econ. Entomol.64(1): 41-44|1971|10.1093/jee/64.1.41
48000|T||Cannon,W.N.,Jr.|Toxicity of Fe-EDTA to the Two-Spotted Spider Mite|J. Econ. Entomol.63(4): 1194-1195|1970|10.1093/jee/63.4.1194
48001|A||Canova,S., P. Degan, L.D. Peters, D.R. Livingstone, R. Voltan, and P. Venier|Tissue Dose, DNA Adducts, Oxidative DNA Damage and CYP1A-Immunopositive Proteins in Mussels Exposed to Waterborne Benzo(a)pyrene|Mutat. Res.399(1): 17-30|1998|10.1016/S0027-5107(97)00263-7
48006|A||Cao,Z., J. Hong, R.E. Peterson, and J.M. Aiken|Characterization of CYP1A1 and CYP1A3 Gene Expression in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.49:101-109|2000|10.1016/S0166-445X(99)00072-7
48007|T||Capdevielle,M.C., and C.G. Scanes|Effect of Dietary Acid or Aluminum on Growth and Growth-Related Hormones in Young Chickens|Toxicol. Appl. Pharmacol.133(1): 164-171|1995|10.1006/taap.1995.1137
48008|T||Capdevielle,M.C., L.E. Hart, J. Goff, and C.G. Scanes|Aluminum and Acid Effects on Calcium and Phosphorus Metabolism in Young Growing Chickens (Gallus gallus domesticus) and Mallard Ducks (Anas platyrhynchos)|Arch. Environ. Contam. Toxicol.35(1): 82-88|1998|10.1007/s002449900353
48012|T||Carbonell-Barrachina,A.A., M.A. Aarabi, R.D. DeLaune, R.P. Gambrell, and W.H.,Jr. Patrick|The Influence of Arsenic Chemical Form and Concentration on Spartina patens and Spartina alterniflora Growth and Tissue Arsenic Concentration|Plant Soil198(1): 33-43|1998|10.1023/A:1004285625998
48013|T||Barrachina,A.C., F.B. Carbonell, and J.M. Beneyto|Arsenic Uptake, Distribution, and Accumulation in Tomato Plants: Effect of Arsenite on Plant Growth and Yield|J. Plant Nutr.18(6): 1237-1250|1995|10.1080/01904169509364975
48014|T||Carbonell,A.A., M.A. Aarabi, R.D. DeLaune, R.P. Gambrell, and W.H. Patrick|Arsenic in Wetland Vegetation: Availability, Phytotoxicity, Uptake and Effects on Plant Growth and Nutrition|Sci. Total Environ.217(3): 189-199|1998|10.1016/S0048-9697(98)00195-8
48015|T||Carbonell,A.A., M.A. Aarabi, R.D. DeLaune, R.P. Gambrell, and W.H.,Jr. Patrick|Bioavailability and Uptake of Arsenic by Wetland Vegetation: Effects on Plant Growth and Nutrition|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance ControlA33(1): 45-66|1998|
48016|T||Care,D.A.|The effect of aluminium concentration on root hairs in white clover (trifolium repens l.)|Plant Soil171(1): 159-162|1995|10.1007/BF00009580
48021|A||Carlson,B.M.|The Effect of X-Irradiation and Beryllium Nitrate upon Implant-Induced Supernumerary Limb Formation in the Newt|Oncology24(1): 31-47|1970|10.1159/000224502
48022|T||Carlson,C.L., D.C. Adriano, K.S. Sajwan, S.L. Abels, D.P. Thoma, and J.T. Driver|Effects of Selected Trace Metals on Germinating Seeds of Six Plant Species|Water Air Soil Pollut.59(3-4): 231-240|1991|10.1007/BF00211832
48024|T||Carlson,R.W., F.A. Bazzaz, and G.L. Rolfe|The Effect of Heavy Metals on Plants:  II. Net Photosynthesis and Transpiration of Whole Corn and Sunflower Plants Treated with Pb, Cd, Ni, and Tl|Environ. Res.10:113-120|1975|10.1016/0013-9351(75)90077-8
48025|T||Carlsson,A., and T. Lindqvist|Exposure of Animals and Man to Toluene|Scand. J. Work Environ. Health3:135-143|1977|10.5271/sjweh.2780
48027|T||Carlton,W.W., and W. Henderson|Studies on the Copper Requirement of Growing Chickens|Avian Dis.8:227-234|1964|10.2307/1588065
48031|T||Carnol,M., P. Cudlin, and P. Ineson|Impacts of (NH4)2SO4 Deposition on Norway Spruce (Picea abies [L.] Karst) Roots|Water Air Soil Pollut.116(1-2): 111-120|1999|10.1023/A:1005250710017
48034|T||Caro,J.H., and A.W. Taylor|Pathways of Loss of Dieldrin from Soils Under Field Conditions|J. Agric. Food Chem.19(2): 379-384|1971|10.1021/jf60174a032
48036|T||Caro,J.H., H.P. Freeman, D.E. Glotfelty, B.C. Turner, and W.M. Edwards|Dissipation of Soil-Incorporated Carbofuran in the Field|J. Agric. Food Chem.21(6): 1010-1015|1973|10.1021/jf60190a019
48038|T||Carpenter,C.P., M.D. Woodside, E.R. Kinkead, J.M. King, and L.J. Sullivan|Response of Dogs to Repeated Intravenous Injection of Polyethylene Glycol 4000 with Notes on Excretion and Sensitization|Toxicol. Appl. Pharmacol.18:35-40|1971|10.1016/0041-008X(71)90312-7
48040|A||Carpenter,K.E.|The Lethal Action of Soluble Metallic Salts on Fishes|Br. J. Exp. Biol.4:378-391|1927|10.1242/jeb.4.4.378
48041|T||Carr,S.J., and G.S.P. Ritchie|Aluminum Toxicity of Wheat Grown in Acidic Subsoils in Relation to Soil Solution Properties and Exchangeable Cations|Aust. J. Soil Res.31(2): 583-596|1993|10.1071/SR9930583
48042|T||Carreira,J.A., A.F. Harrison, Lucy J. Sheppard, and C. Woods|Reduced soil p availability in a sitka spruce (picea sitchensis (bong.)Carr) plantation induced by applied acid-mist: significance in forest decline|For. Ecol. Manag.92(1-3): 153-166|1997|10.1016/S0378-1127(96)03914-X
48043|T||Carriere,D., K. Fischer, D. Peakall, and P. Angehrn|Effects of the Dietary Aluminum in Combination with Reduced Calcium and Phosphorus on the Ring Dove (Streptopelia risoria)|Water Air Soil Pollut.30(3/4): 757-764|1986|10.1007/BF00303342
48044|A||Carriker,N., and P.L. Brezonik|Sources, Levels and Reactions of Boron in Florida Waters|J. Environ. Qual.7(4): 516-522|1978|10.2134/jeq1978.00472425000700040010x
48047|T||Carroll,K.A., C.R. Harris, and P.E. Morrison|Resistance Shown by a Parathion-Resistant Onion Maggot (Diptera:  Anthomyiidae) Strain to some Other Insecticides|Can. Entomol.115(11): 1519-1522|1983|10.4039/Ent1151519-11
48048|T||Carson,T.L., G.A. Van Gelder, G.G. Karas, and W.B. Buck|Development of Behavioral Tests for the Assessment of Neurologic Effects of Lead in Sheep|Environ. Health Perspect.7:233-237|1974|10.1289/ehp.747233
48049|T||Carson,T.L., G.A. Van Gelder, G.C. Karas, and W.B. Buck|Slowed Learning in Lambs Prenatally Exposed to Lead|Arch. Environ. Health29(3): 154-156|1974|10.1080/00039896.1974.10666554
48050|T||Carter,D.I., M.J. Brown, and C.W. Robbins|Selenium Concentrations in Alfalfa from Several Sources Applied to a Low Selenium, Alkaline Soil|Proc. Soil Sci. Soc. Am.33:715-718|1969|10.2136/sssaj1969.03615995003300050027x
48053|AT||Carter,J.A., R.E. Mroz, K.L. Tay, and K.G. Doe|An Evaluation of the Use of Soil and Sediment Bioassays in the Assessment of Three Contaminated Sites in Atlantic Canada|Water Qual. Res. J. Can.33(2): 295-317|1998|10.2166/wqrj.1998.016
48054|T||Carter,J.W., and J.,Jr. Clancy|Acutely Administered Polychlorinated Biphenyls (PCBs) Decrease Splenic Cellularity but Increase Its Ability to Cause Graft-Versus Host Reactions in BALB/c Mice|Immunopharmacology (N. Y.)2:341-347|1980|10.1016/0162-3109(80)90018-1
48057|T||Cartwright,C.D., I.P. Thompson, and R.G. Burns|Degradation and Impact Phthalate Plasticizers on Soil Microbial Communities|Environ. Toxicol. Chem.19(5): 1253-1261|2000|10.1002/etc.5620190506
48058|T||Carvajal,M., F. Martinez-Sanchez, J.J. Pastor, C.F. Alcaraz, and J. Abadia|Leaf Spray with TI(IV) Ascorbate Improves the Iron Uptake and Iron Activity in Capsicum annuum l. Plants|Dev. Plant Soil Sci.:1-5|1995|
48059|A||Carvalho,R.A., M.C. Benfield, and P.H. Santschi|Comparative Bioaccumulation Studies of Colloidally Complexed and Free-Ionic Heavy Metals in Juvenile Brown Shrimp Penaeus aztecus (Crustacea: Decapoda: Penaeidae)|Limnol. Oceanogr.44(2): 403-414|1999|10.4319/lo.1999.44.2.0403
48065|AT||Caseley,J.C., and C.F. Eno|Survival and Reproduction of Two Species of Earthworm and a Rotifer Following Herbicide Treatments|Proc. Soil Sci. Soc. Am.30:346-350|1966|10.2136/sssaj1966.03615995003000030015x
48069|T||Caslin,T.M., and J.O. Wolff|Individual and Demographic Responses of the Gray-Tailed Vole to Vinclozolin|Environ. Toxicol. Chem.18(7): 1529-1533|1999|
48072|AT||Casterline,J.L.J., and G. Yip|The Distribution and Binding of Cadmium in Oyster, Soybean, and Rat Liver and Kidney|Arch. Environ. Contam. Toxicol.3(3): 319-329|1975|10.1007/BF02220744
48073|T||Cataldo,D.A., T.R. Garland, and R.E. Wildung|Nickel in Plants I. Uptake Kinetics Using Intact Soybean Seedlings|Plant Physiol.62:563-565|1978|10.1104/pp.62.4.563
48074|T||Cataldo,D.A., T.R. Garland, and R.E. Wildung|Cadmium Distribution and Chemical Fate in Soybean Plants|Plant Physiol.68:835-839|1981|10.1104/pp.68.4.835
48075|T||Cataldo,D.A., R.M. Bean, and R.J. Fellows|Uptake and Fate of Phenol, Aniline and Quinoline in Terrestrial Plants|In: R.H.Gray, E.K.Chess, P.J.Mellinger, R.G.Riley, and D.L.Springer (Eds.), 24th Hanford Life Sciences Symp., Health & Environmental Research on Complex Organic Mixtures, Oct.20-24, 1985, Richland, WA:631-641|1987|
48077|T||Cataldo,D.A., S.D. Harvey, and R.J. Fellows|The Environmental Behavior and Chemical Fate of Energetic Compounds (TNT, RDX, Tetryl) in Soil and Plant Systems|Battelle Pacific Northwest Labs.Richland, WA:9 p.|1993|
48078|T||Cater,B.R., M.W. Cook, S.D. Gangolli, and P. Grasso|Studies on Dibutyl Phthalate-Induced Testicular Atrophy in the Rat:  Effect on Zinc Metabolism|Toxicol. Appl. Pharmacol.41(3): 609-618|1977|10.1016/S0041-008X(77)80014-8
48079|T||Catling,W.S., and I.K. Cook|Trials with Carbophenothion and N.2790 for Wheat Bulb Fly and Wireworm Control in Cereals|Proc. Br. Insectic. Fungic. Conf.1:139-155|1967|
48082|A||Cavalli,R.O., E. Vanden Berghe, P. Lavens, N.T.T. Thuy, M. Wille, and P. Sorgeloos|Ammonia Toxicity as a Criterion for the Evaluation of Larval Quality in the Prawn Macrobrachium rosenbergii|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125:333-343|2000|
48083|T||Cavallini,A., L. Natali, M. Durante, and B. Maserti|Mercury Uptake, Distribution and DNA Affinity in Durum Wheat (Triticum durum Desf.) Plants|Sci. Total Environ.243/244:119-127|1999|10.1016/S0048-9697(99)00367-8
48087|A||Cerniglia,C.E., and D.T. Gibson|Oxidation of Benzo(a)pyrene by the Filamentous Fungus Cunninghamella elegans|J. Biol. Chem.254(23): 12174-12180|1979|10.1016/S0021-9258(19)86445-1
48088|T||Cessna,A.J.|Determination of the Herbicide Dinoseb in Fababeans|J. Agric. Food Chem.27(1): 191-193|1979|10.1021/jf60221a010
48089|T||Chakravarty,P., and L. Chatarpaul|Non-Target Effect of Herbicides:  I.  Effect of Glyphosate and Hexazinone on Soil Microbial Activity.  Microbial Population, and In-Vitro Growth of Ectomycorrhizal Fungi|Pestic. Sci.28:233-241|1990|10.1002/ps.2780280302
48090|T||Chalfant,R.B., and A.W. Johnson|Field Evaluation of Pesticides Applied to the Soil for Control of Insects and Nematodes Affecting Southern Peas in Georgia|J. Econ. Entomol.65(6): 1711-1713|1972|10.1093/jee/65.6.1711
48091|T||Chalfant,R.B., C.A. Jaworski, A.W. Johnson, and D.R. Sumner|Reflective Film Mulches, Millet Barriers, and Pesticides: Effects on Watermelon Mosaic Virus, Insects, Nematodes, Soil-Borne Fungi, and Yield of Yellow Summer Squash|J. Am. Soc. Hortic. Sci.102(1): 11-15|1977|10.21273/JASHS.102.1.11
48092|T||Chamberlain,W.F., and J.A. Miller|Barium in Forage Plants and in the Manure of Cattle Treated with Barium Boluses|J. Agric. Food Chem.30(3): 463-465|1982|10.1021/jf00111a013
48096|T||Champ,B.R.|A Test Method for Detecting Insecticide Resistance in Sitophilus oryzae (L.) (Coleoptera, Curculionidae)|J. Stored Prod. Res.4(2): 175-178|1968|10.1016/0022-474X(68)90007-6
48098|T||Chandra,A.M.S., C.W.,Jr. Qualls, and G. Reddy|1,3,5-Trinitrobenzene-Induced Encephalopathy in Male Fischer-344 Rats|Toxicol. Pathol.23(4): 527-532|1995|10.1177/019262339502300410
48100|T||Chandra,K., and J.B. Karmakar|Tolerance of Fungicides on the Locally Isolated Rhizobium Strains of Soybean and Pea and Comparative Study in Their Nodulation|Environ. Ecol.14(1): 35-38|1996|
48102|T||Chandran,R.S., and M. Singh|Reduction of Norflurazon Leaching in a Sandy Soil by Adjuvants|Bull. Environ. Contam. Toxicol.62(3): 315-323|1999|10.1007/s001289900876
48104|T||Chandravathy,V., B. Sridevi, and S.L.N. Reddy|Age-Dependent Haematological Responses During Lead Nitrate Toxicity in Mice|J. Environ. Biol.18(4): 419-423|1997|
48105|T||Chandravathy,V.M., and S.L.N. Reddy|Effect of Lead on Antioxidant Enzyme Activities and Lipid Peroxidation in Old Male Mice Mus musculus|J. Environ. Biol.20(2): 103-106|1999|
48106|T||Chaney,R.L.|Effect of Nickel on Iron Metabolism by Soybean|Diss. Abstr. Int. 31:1692-1693|1970|
48107|T||Chaney,R.L., J.C. Brown, and L.O. Tiffin|Obligatory Reduction of Ferric Chelates in Iron Uptake by Soybeans|Plant Physiol.50:208-213|1972|10.1104/pp.50.2.208
48117|T||Chaney,W.R., and R.C. Strickland|Relative Toxicity of Heavy Metals to Red Pine Pollen Germination and Germ Tube Elongation|J. Environ. Qual.13(3): 391-394|1984|10.2134/jeq1984.00472425001300030014x
48118|A||Chang,S.K.|Determination of Toxic Pollutants in Water Using a Marine Phytoplankton Dunaliella bioculata and Doppler Laser Velocimetry|Chem. Ecol.10(1-2): 87-95|1995|10.1080/02757549508035332
48121|T||Chang,C.W.|Effect of Fluoride on Ribosomes from Corn Roots. Changes with Growth Retardation|Physiol. Plant. (Multiple Languages)23:536-543|1970|10.1111/j.1399-3054.1970.tb06445.x
48124|T||Chang,K.M., and C.O. Knowles|Metabolism of Oxamyl in Mice and Twospotted Spider Mites|Arch. Environ. Contam. Toxicol.8(4): 499-508|1979|10.1007/BF01056356
48127|T||Chang,L.W., J.R. Meier, and M.K. Smith|Application of Plant and Earthworm Bioassays to Evaluate Remediation of a Lead-Contaminated Soil|Arch. Environ. Contam. Toxicol.32(2): 166-171|1997|10.1007/s002449900170
48128|A||Chang,M.H., H.C. Lin, and P.P. Hwang|Effects of Cadmium on the Kinetics of Calcium Uptake in Developing Tilapia Larvae, Oreochromis mossambicus|Fish Physiol. Biochem.16(6): 459-470|1997|10.1023/A:1007780602426
48129|A||Chang,M.H., H.C. Lin, and P.P. Hwang|Ca2+ Uptake and Cd2+ Accumulation in Larval Tilapia (Oreochromis mossambicus) Acclimated to Waterborne Cd2+|Am. J. Physiol., Regul. Integr. Comp. Physiol.27(6): 1570-1577|1998|
48130|T||Chang,M.J.W., and C.Y. Ko|Coexposure to Epichlorohydrin on the Elimination of Urinary Metabolites of Dimethylformamide|Bull. Environ. Contam. Toxicol.63(3): 372-378|1999|10.1007/s001289900990
48133|T||Chanmugathas,P., and J.M. Bollage|Microbial Mobilization of Cadmium in soil Under Aerobic and Anaerobic Conditions|J. Environ. Qual.16:161-167|1987|10.2134/jeq1987.00472425001600020012x
48134|A||Chao,M.R., and C.Y. Chen|No-Observed-Effect Concentrations in Batch and Continuous Algal Toxicity Tests|Environ. Toxicol. Chem.19(6): 1589-1596|2000|
48141|T||Chappell,W.E., and L.A. Link|Evaluation of Herbicides in No-Tillage Production of Burley Tobacco (Nicotiana tabacum)|Weed Sci.25(6): 511-514|1977|10.1017/S0043174500034019
48142|T||Chardonnens,A.N., W.M. Ten Bookum, L.D.J. Kuijper, J.A.C. Verkleij, and W.H.O. Ernst|Distribution of Cadmium in Leaves of Cadmium Tolerant and Sensitive Ecotypes of Silene vulgaris|Physiol. Plant. (Multiple Languages)104(1): 75-80|1998|10.1034/j.1399-3054.1998.1040110.x
48143|T||Chari,M.S., N.G. Patel, and H.K. Patel|Control of Mole Crickets (Gryllotalpa africana B.) in the Tobacco Nursery|Pesticides 7(3): 16-17|1973|
48144|T||Charles,J.M., D.W. Dalgard, H.C. Cunny, R.D. Wilson, and J.S. Bus|Comparative Subchronic and Chronic Dietary Toxicity Studies on 2,4-Dichlorophenoxyacetic Acid, Amine, and Ester in the Dog|Fundam. Appl. Toxicol.29(1): 78-85|1996|10.1006/faat.1996.0008
48145|T||Chatterjee,S.K., and N. Goswami|Influence of Cypermethrin on Blood Glycemic Level of Albino Mice|Environ. Ecol.16(2): 375-377|1998|
48148|T||Chattopadhyay,N., and S.N. Ghosh|Evaluation of Different Herbicides for Chemical Control of Weeds in Cashew Plantation|Environ. Ecol.17(3): 588-593|1999|
48150|A||Chaudhari,P.R., I. Jayangouder, and K.P. Krishnamoorthi|Influence of Water Quality Parameters on the Phytotoxicity of DDT|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.52(4): 499-504|1986|
48151|T||Chaudhari,R.D., and A.B. Kulkarni|In Vivo Sub-Acute Physiological Stress Induced by Monocrotophos on Ascorbic Acid Content of the Land Snail, Cerastus moussonianus|Environ. Ecol.17(1): 104-107|1999|
48152|T||Chaudhari,S., and N. Ramakrishnan|Field Efficacy of Baculovirus and Its Combination with Sub-lethal Dose of DDT and Endosulfan on Cauliflower Against Tobacco Caterpillar Spodoptera litura (Fabricius)|Indian J. Entomol.42(4): 592-596|1980|
48153|T||Chaudhary,J.P., and O.S. Bindra|The Nature and Extent of Damage Caused by the Paddy Leaf-Folder Cnaphalocrosis medinalis Guenee (Pyralididae : lepidoptera) and Studies on Its Control|J. Res. Punjab Agric. Univ.7(3): 328-332|1970|
48155|T||Chaudhry,M.A., and M. Feroz|A Comparative Study of Speed of Action of Some Insecticides on Chrotogonus trachypterus|Biologia (Lahore)22(2): 309-333|1976|
48157|T||Chaudhuri,R.K.|Effect of Ethylene Glycol on Transcription of Neurospora crassa Conidial Genome|Experentia (Basel)34(6): 735-736|1978|
48159|T||Chaudri,A.M., S.P. McGrath, and K.E. Giller|Metal Tolerance of Isolates of Rhizobium leguminosarum biovar trifolii from Soil Contaminated by Past Applications of Sewage Sludge|Soil Biol. Biochem.24(2): 83-88|1992|10.1016/0038-0717(92)90262-V
48163|A||Chaurasia,S.S., and A. Kar|An Oxidative Mechanism for the Inhibition of Iodothyronine 5'-Monodeiodinase Activity by Lead Nitrate in the Fish, Heteropneustes fossilis|Water Air Soil Pollut.111(1-4): 417-423|1999|10.1023/A:1005099822637
48168|T||Chen,H., Qi Lin, and C. Zheng|Interaction of Pb and Cd in soil-water-plant system and its mechanism: II. Pb-Cd interaction in rhizosphere|Pedosphere8(3): 237-244|1998|
48170|T||Chen,J., J.W. Huang, T. Caspar, and S.D. Cunningham|Arabidopsis thaliana as a Model System for Studying Lead Accumulation and Tolerance in Plants|ACS Symp. Ser.664:264-273|1997|10.1021/bk-1997-0664.ch019
48181|T||Cheng-nong,Y., L. Yi, W. Tian-zhi, T. Zhi-qun, Q. Song-sheng, and S. Ping|Thermochemical Studies of the Toxic Actions of Heavy Metal Ions on Rhizopus nigricans|Chemosphere38(4): 891-898|1999|10.1016/S0045-6535(98)00224-0
48184|A||Cheng,S.Y., and J.C. Chen|Accumulation of Nitrite in the Tissues of Penaeus monodon Exposed to Elevated Ambient Nitrite After Different Time Periods|Arch. Environ. Contam. Toxicol.39(2): 183-192|2000|10.1007/s002440010095
48188|T||Chernoff,N., J.T. Stevens, and E.H. Rogers|Perinatal Toxicology of Mirex Administered in the Diet: I. Viability, Growth, Cataractogenicity and Tissue Levels|Toxicol. Lett.4:263-268|1979|10.1016/0378-4274(79)90063-8
48195|T||Chettri,M.K., and T. Sawidis|Impact of Heavy Metals on Water Loss from Lichen Thalli|Ecotoxicol. Environ. Saf.37:103-111|1997|10.1006/eesa.1997.1532
48196|A||Cheung,S.G., and L.S. Wong|Physiological Responses of the Subtidal Prosobranch, Babylonia lutosa (Gastropoda: Buccinidae), to Copper|Sci. Total Environ.214(1-3): 185-191|1998|10.1016/S0048-9697(98)00064-3
48197|T||Cheung,Y.H., M.H. Wong, and N.F.Y. Tam|Root and Shoot Elongation as an Assessment of Heavy Metal Toxicity and `Zn Equivalent Value' of Edible Crops|Hydrobiologia (Multiple Languages)188/189:377-383|1989|10.1007/BF00027803
48198|T||Chiang,H.C., and R.S. Raros|Effects On Populations Of Corn Rootworms Of Aldrin Residues In Soil Four Years After Application|J. Econ. Entomol.61(5): 1204-1208|1968|10.1093/jee/61.5.1204
48202|A||Chinni,S., R.N. Khan, and P.R. Yallapragada|Oxygen Consumption, Ammonia-N Excretion, and Metal Accumulation in Penaeus indicus Postlarvae Exposed to Lead|Bull. Environ. Contam. Toxicol.64(1): 144-151|2000|10.1007/s001289910022
48203|T||Chisholm,D., and A.W. MacPhee|Persistence and Effects of Some Pesticides in Soil|J. Econ. Entomol.65(4): 1010-1013|1972|10.1093/jee/65.4.1010
48204|T||Chiu,C.Y., and C.H. Chou|The Distribution and Influence of Heavy Metals in Mangrove Forests of the Tamshui Estuary in Taiwan|Soil Sci. Plant Nutr.37(4): 659-669|1991|10.1080/00380768.1991.10416934
48205|T||Chkanikov,D.I., A.M. Makeyev, N.N. Pavlova, L.V. Grygoryeva, V.P. Dubovoi, and O.V. Klimov|Variety of 2,4-D Metabolic Pathways in Plants;  Its Significance in Developing Analytical Methods for Herbicides Residues|Arch. Environ. Contam. Toxicol.5(1): 97-103|1976|10.1007/BF02220893
48209|T||Chmielnicka,J., and B. Sowa|Cadmium Interaction with Essential Metals (Zn, Cu, Fe), Metabolism Metallothionein, and Ceruloplasmin in Pregnant Rats and Fetuses|Ecotoxicol. Environ. Saf.35(3): 277-281|1996|10.1006/eesa.1996.0111
48210|T||Cho,H.Y., J.A. Hotchkiss, and J.R. Harkema|Inflammatory and Epithelial Responses During the Development of Ozone-Induced Mucous Cell Metaplasia in the Nasal Epithelium of Rats|Toxicol. Sci.51(1): 135-145|1999|10.1093/toxsci/51.1.135
48211|T||Cho,J.J.|Control of Bacterial Soft Rot of Crisphead Type Lettuce in Hawaii|Plant Dis. Rep.61(9): 783-787|1977|
48214|T||Cho,M.K., and S.G. Kim|Enhanced Expression of Rat Hepatic Microsomal Epoxide Hydrolase by Methylthiazole in Conjuction with Liver Injury|Toxicology146:111-122|2000|10.1016/S0300-483X(00)00163-3
48216|A||Choi,J., H. Roche, and T. Caquet|Effects of Physical (Hypoxia, Hyperoxia) and Chemical (Potassium Dichromate, Fenitrothion) Stress on Antioxidant Enzyme Activities in Chironomus riparius Mg. (Diptera, Chironomidae) Larvae: Potential Biomarkers|Environ. Toxicol. Chem.19(2): 495-500|2000|
48217|A||Chong,A.M.Y., Y.S. Wong, and N.F.Y. Tam|Performance of Different Microalgal Species in Removing Nickel and Zinc from Industrial Wastewater|Chemosphere41(1-2): 251-257|2000|10.1016/S0045-6535(99)00418-X
48219|T||Chong,L.J., and S.A. Shapses|Lipopolysaccharide Alters Aggrecan Metabolism in the Growth Plate|Proc. Soc. Exp. Biol. Med.212(4): 378-384|1996|10.3181/00379727-212-44029
48220|T||Chongpraditnun,P., S. Mori, and M. Chino|Excess Copper Induces a Cytosolic Cu,Zn-Superoxide Dismutase in Soybean Root|Plant Cell Physiol.33(3): 239-244|1992|10.1093/oxfordjournals.pcp.a078246
48221|T||Choquet-Kastylevsky,G., R. Tedone, M.T. Ducluzeau, J. Kehren, J.F. Nicolas, and J. Descotes|The Popliteal Lymph Node Response to Streptozotocin is Under Type 1, MHC Class-I Restricted, CD8+ T-Cell Control|Toxicology146:73-82|2000|10.1016/S0300-483X(00)00155-4
48222|T||Choudhary,M., L.D. Bailey, and C.A. Grant|Effect of Zinc on Cadmium Concentration in the Tissue of Durum Wheat|Can. J. Plant Sci.74(3): 549-552|1994|10.4141/cjps94-099
48223|T||Choudhury,A.K.S., T.K. Das, P.K. Sarkar, and A.K. Guria|Control of the Dipteran Pest Complex of Pleurotus sajor-caju (Fr.) Singer in West Bengal|Environ. Ecol.5(4): 681-684|1987|
48226|T||Chouroulinkov,I., A. Gentil, and P. Sims|Some Biological Effects of 7-Hydroxymethyl-12-Methylbenz(a)anthracene in Mice|Biomedicine19(10): 438-441|1973|
48227|T||Chowdhury,A.K., and P. Mitra|Resistance Induced by Non-Conventional Compounds in Selected Crop Plants Against Their Fungal Pathogens|Environ. Ecol.17(3): 640-642|1999|
48228|A||Chowdhury,M.J., L. Van Ginneken, and R. Blust|Kinetics of Waterborne Strontium Uptake in the Common Carp, Cyprinus carpio, at Different Calcium Levels|Environ. Toxicol. Chem.19(3): 622-630|2000|10.1002/etc.5620190314
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48234|A||Christiansen,M.E., J.D.,Jr. Costlow, and R.J. Monroe|Effects of the Juvenile Hormone Mimic ZR-512 (Altozar) on Larval Development of the Mud-Crab Rhithropaopeus harrisii in Various Cyclic Temperatures|Mar. Biol.39(3): 281-288|1977|10.1007/BF00391002
48235|A||Christiansen,M.E., J.D.,Jr. Costlow, and R.J. Monroe|Effects of the Juvenile Hormone Mimic ZR-515 (Altosid) on Larval Development of the Mud-Crab Rhithropanopeus harrisii in Various Salinities and Cyclic Temperatures|Mar. Biol.39(3): 269-279|1977|10.1007/BF00391001
48241|T||Chugh,L.K., and S.K. Sawhney|Effect of Cadmium on Germination, Amylases and Rate of Respiration of Germinating Pea Seeds|Environ. Pollut.92(1): 1-5|1996|10.1016/0269-7491(95)00093-3
48242|T||Chukwudebe,A.C., J.B. Beavers, M. Jaber, and P.G. Wislocki|Toxicity of Emamectin Benzoate to Mallard Duck and Northern Bobwhite Quail|Environ. Toxicol. Chem.17(6): 1118-1123|1998|10.1002/etc.5620170619
48249|A||Chung,K.S.|Effects of Selected Heavy Metals on the Survival of Tropical Grass Shrimp (Palaemon northropi)|Bol. Inst. Oceanogr. Univ. Oriente19(1-2): 53-57|1980|
48251|T||Chung,Y.W., and L.G. Clemens|Effects of Perinatal Exposure to Polychlorinated Biphenyls on Development of Female Sexual Behavior|Bull. Environ. Contam. Toxicol.62(6): 664-670|1999|10.1007/s001289900925
48252|A||Ciereszko,A., and K. Dabrowski|In Vitro Effect of Gossypol Acetate on Yellow Perch (Perca flavescens) Spermatozoa|Aquat. Toxicol.49:181-187|2000|10.1016/S0166-445X(99)00081-8
48253|T||Ciesla,W.M., S. Kohler, J.E. Dewey, and M.D. McGregor|Field Efficacy of Aerial Applications of Carbaryl Against Douglas-Fir Tussock Moth|J. Econ. Entomol.69(2): 219-224|1976|10.1093/jee/69.2.219
48255|T||Cieslinski,G., K.C.J. Van Rees, P.M. Huang, L.M. Kozak, H.P.W. Rostad, and D.R. Knott|Cadmium uptake and bioaccumulation in selected cultivars of durum wheat and flax as affected by soil type|Plant Soil182(1): 115-124|1996|10.1007/BF00011000
48257|T||Cikrt,M., and V. Bencko|Biliary Excretion of 7Be and Its Distribution After Intravenous Administration of 7BeCl2 in Rats|Arch. Toxicol.34:53-60|1975|10.1007/BF00353339
48258|T||Cilgi,T., P.C. Jepson, and G. Unal|The Short-Term Exposure of Non-Target Invertebrates to Pesticides in the Cereal Crop Canopy|Br. Crop Prot. Conf. Pests Dis.:759-764|1988|
48261|T||Cizkova,R.|Response of endogenous cytokinins in picea-abies l. Karst. Seedlings to aluminium in root|Kaminek, M., D.W.S.Mok and E.Zazimalova (Ed.).Physiology and Biochemistry of Cytokinins in Plants; Symposium, Liblice, Czechoslovakia, September 10-14, 1990.Xii+507P.Spb Academic Publishing Bv: the Hague, Netherlands.Illus.Isbn 90-5103-066-5.:423-425|1992|
48262|T||Cizkova,R.|Effect of Aluminium on Growth and Phytohormones in Norway Spruce Seedlings|Prirodoved. Pr. Ust. Akad. Ved Brne26(5): 1-51|1992|
48264|T||Clark,A.J., W. Landolt, J.B. Bucher, and R.J. Strasser|Beech (Fagus sylvatica) Response to Ozone Exposure Assessed with a Chlorophyll a Fluorescence Performance Index|Environ. Pollut.109:501-507|2000|10.1016/S0269-7491(00)00053-1
48265|T||Clark,C.G., and S.J.L. Wright|Degradation of the Herbicide Isopropyl N-Phenylcarbamate by Arthrobacter and Achromobacter spp. from Soil|Soil Biol. Biochem.2:217-226|1970|10.1016/0038-0717(70)90028-3
48266|T||Clark,C.G., and S.J.L. Wright|Detoxication of Isopropyl N-Phenylcarbamate (IPC) and Isopropyl N-3-Chlorophenylcarbamate (CIPC) in Soil, and Isolation of IPC-Metabolizing Bacteria|Soil Biol. Biochem.2:19-26|1970|10.1016/0038-0717(70)90021-0
48267|T||Clark,C.H., J.E. Thomas, J.L. Milton, and W.D. Goolsby|Plasma Concentrations of Chloramphenicol in Birds|Am. J. Vet. Res.43(7): 1249-1253|1982|
48268|T||Clark,C.R., T.C. Marshall, B.S. Merickel, A. Sanchez, D.G. Brownstein, and C.H. Hobbs|Toxicological Assessment of Heat Transfer Fluids Proposed for Use in Solar Energy Applications|Toxicol. Appl. Pharmacol.51:529-535|1979|10.1016/0041-008X(79)90378-8
48271|T||Clark,D.R.,Jr., and R.M. Prouty|Experimental Feeding of DDE and PCB to Female Big Brown Bats (Eptesicus fuscus)|J. Toxicol. Environ. Health2:917-928|1977|10.1080/15287397709529491
48272|T||Clark,D.R.,Jr., J.W. Spann, and C.M. Bunck|Dicofol (Kelthane)-Induced Eggshell Thinning in Captive American Kestrels|Environ. Toxicol. Chem.9(8): 1063-1069|1990|
48275|T||Clark,R.B.|Plant Efficiencies in the Use of Calcium, Magnesium and Molybdenum|In: M.J.Wright and S.A.Ferrari (Eds.), Plant Adaptation to Mineral Stress in Problem Soils, Proc.of a Workshop held at the Natl.Agric.Library, Nov.22-23, 1976, Beltsville, MD:175-191|1976|
48276|T||Clark,R.B.|Effect of Aluminum on Growth and Mineral Elements of Al-Tolerant and Al-intolerant Corn|Plant Soil47:653-662|1977|10.1007/BF00011034
48281|T||Clarkson,D.T.|The Effect of Aluminum and Some Other Trivalent Metal Cations on Cell Division in the Root Apices of Allium cepa|Ann. Bot.29(114): 309-315|1965|10.1093/oxfordjournals.aob.a083953
48282|T||Clarkson,D.T.|Effect of Aluminum on the Uptake and Metabolism of Phosphorus by Barley Seedlings|Plant Physiol.41:165-172|1966|10.1104/pp.41.1.165
48286|T||Clary,J.J., L.S. Bland, and H.E. Stokinger|The Effect of Reproduction and Lactation on the Onset of Latent Chronic Beryllium Disease|Toxicol. Appl. Pharmacol.33(2): 214-221|1975|10.1016/0041-008X(75)90088-5
48289|A||Clayton,M.E., R. Steinmann, and K. Fent|Different Expression Patterns of Heat Shock Proteins hsp 60 and hsp 70 in Zebra Mussels (Dreissena polymorpha) Exposed to Copper and Tributyltin|Aquat. Toxicol.47(3-4): 213-226|2000|10.1016/S0166-445X(99)00022-3
48291|T||Clements,H.F., and J. Munson|Arsenic Toxicity Studies in Soil and in Culture Solutions|Pac. Sci.1:151-171|1947|
48293|T||Clements,R.O., J.S. Bale, and C.A. Jackson|An Appraisal of Methods Used to Assess the Effect on Birds and Mammals of Chlorpyrifos Applied to Grassland|BCPC Monogr. - Br. Crop Prot. Counc.40:57-64|1988|
48294|T||Clements,R.O., E. Asteraki, and C.A. Jackson|A Method to Study the Effects of Chlorpyrifos on Predatory Ground Beetles in Grassland|Symp. Proc. Br. Crop Prot. Counc.:167-174|1988|
48300|T||Coats,J.R., I.I. Karr, and C.D. Drewes|Toxicity and Neurotoxic Effects of Monoterpenoids in Insects and Earthworms|In: P.A.Hedin (Ed.), Naturally Occurring Pest Bioregulators, American Chemical Society:305-316|1991|
48301|T||Cobb,G.P., R. Mellott, L.W. Brewer, C.M. Bens, and R.J. Kendall|Diazinon Dissipation from Vegetation, Occurrence in Earthworms, and Presence in Avian Gastrointestinal Tracts Collected from Apple Orchards Following D-Z-N 50W Application|Environ. Toxicol. Chem.19(5): 1360-1367|2000|
48302|T||Coble,H.D., and F.W. Slife|Root Disfunction in Honeyvine Milkweed Caused by 2,4-D|Weed Sci.19(1): 1-3|1971|10.1017/S004317450004813X
48303|T||Coburn,D.R., and R. Treichler|Experiments on Toxicity of DDT to Wildlife|J. Wildl. Manag.10(3): 208-216|1946|10.2307/3795834
48305|AT||Cockbill,G.F.|The Effect of Ultra-Low-Volume Aerial Applications of Endosulfan Applied Against Glossina (Diptera: Glossinidae) on Populations of Non-Target Organisms in Savanna Woodland in Zimbabwe-Rhodesia|Bull. Entomol. Res.69:645-655|1979|10.1017/S0007485300020198
48306|T||Cockerham,L.G., and A.L. Young|Ultrastructural Comparison of Liver Tissues from Field and Laboratory TCDD-Exposed Beach Mice|In: R.E.Tucker (Ed.), Human and Environmental Risks of Chlorinated Dioxins and Related Compunds, Plenum Press, NY:373-389|1981|
48307|T||Cocking,D., M. Rohrer, R. Thomas, J. Walker, D. Ward, and D. Porcella|Effects of Root Morphology and Hg Concentration in the Soil on Uptake By Terrestrial Vascular Plants|Water Air Soil Pollut.80(1-4): 1113-1116|1995|10.1007/BF01189773
48311|T||Cohn,J.P.|Lead Shot Poisons Bald Eagles|Bioscience35(8): 474-476|1985|10.2307/1309813
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48315|T||Cole,D.L., and J.S. Cole|Field Control of Sore Shin (Rhizoctonia solani) of Tobacco with Benomyl and Benodanil|Ann. Appl. Biol.90:187-193|1978|10.1111/j.1744-7348.1978.tb02626.x
48316|T||Cole,H., W.R. Mills, and L.B. Massie|Influence of Chemical Seed and Soil Treatments on Verticillium-Induced Yield Reduction and Tuber Defects|Am. Potato J.49(3): 79-92|1972|10.1007/BF02868221
48317|T||Cole,M.A.|Lead Inhibition of Enzyme Synthesis in Soil|Appl. Environ. Microbiol.33(2): 262-268|1977|10.1128/aem.33.2.262-268.1977
48319|T||Cole,R.J., and D. Soper|Ethion for the Control of Wheat Bulb Fly|Proc. Br. Insectic. Fungic. Conf.1:124-138|1967|
48324|T||Colledge,C.E.|Potassium Azide or Sodium Azide|Five Memos to L.Terbush, J.E.Mayes, and D.Stubbs, Pesticide Petition No.3G359, U.S.EPA, Washington, D.C.:28 p.|1978|
48325|T||Colledge,C.E.|Acute Oral Toxicity Study - Albino Rats|Memo to D.Savitz, Freedom of Info.Request #RIN-970-78, U.S.EPA, Washington, DC:5-|1978|
48326|T||Collett,N., and D.L. Harrison|Some Observations on the Effects of Using Organochlorine Sprays in an Orchard|N. Z. J. Sci.11:371-379|1968|
48328|T||Collins,F.W., L.M. Cunningham, and T.C. Hutchinson|Physiological and Biochemical Aspects of Cadmium Toxicity in Soybean. Part II. Toxicity, Bioaccumulation, and Subcellular Fractionation of Cadmium in Soybean Grown at Subchronic to Acute Cadmium Levels|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO10:145-166|1976|
48330|T||Colpaert,J.V., and J.A. Van Assche|Zinc Toxicity in Ectomycorrhizal Pinus sylvestris|Plant Soil143(2): 201-211|1992|10.1007/BF00007874
48332|T||Colucci,A.V., D. winge, and J. Krasno|Cadmium Accumulation in Rat Liver|Arch. Environ. Health30(3): 153-157|1975|10.1080/00039896.1975.10666665
48333|T||Combrisson,J., and L.J. Monrozier|Inefficiency of Mycobacterium chlorophenolicum PCP-1 to Enhance Mineralization of Pentachlorophenol in Soil Microcosms|Chemosphere38(6): 1305-1311|1999|10.1016/S0045-6535(98)00531-1
48334|T||Combs,G.F.,Jr., and J.M. Regenstein|Influence of Selenium, Vitamin E, and Ethoxyquin on Lipid Peroxidation in Muscle Tissues from Fowl During Low Temperature Storage|Poult. Sci.59(2): 347-351|1980|10.3382/ps.0590347
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48337|T||Conklin,P.L., and R.L. Last|Differential Accumulation of Antioxidant mRNAs in Arabidopsis thaliana Exposed to Ozone|Plant Physiol.109:203-212|1995|10.1104/pp.109.1.203
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48348|T||Conover,C.A., and R.T. Poole|Influence of Fluoride on Foliar Necrosis|Proc. Annu. Meet. Fla. State Hortic. Soc.84:380-383|1971|
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48350|A||Conrad,A.U., S.D. Comber, and K. Simkiss|New Method for the Assessment of Contaminant Uptake Routes in the Oligochaete Lumbriculus variegatus|Bull. Environ. Contam. Toxicol.65(1): 16-21|2000|10.1007/s001280000088
48352|T||Conry,M.J.|Response of Winter Barley Grown on Two Contrasting Soils in Ireland to Foliar- and Soil-Applied Sulphur|Ir. J. Agric. Food Res.32(2): 177-183|1993|
48353|A||Conway,H.L., and S.C. Willaims|Sorption of Cadmium and Its Effects on Growth and the Utilization of Inorganic Carbon and Phosphorus of Two Freshwater Diatoms|J. Fish. Res. Board Can.36:579-586|1979|10.1139/f79-083
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48362|A||Cook,R.H., and R.P. Cote|The Influence of Humic Acids on the Toxicity of Copper and Zinc to Juvenile Atlantic Salmon as Derived by the Toxic Unit Concept|Environ.Prot.Serv.Manuscipt Rep No.72-75:23 p.|1972|
48363|T||Cook,R.S., and D.O. Trainer|Experimental Lead Poisoning of Canada Geese|J. Wildl. Manag.30(1): 1-8|1966|10.2307/3797877
48364|T||Cooke,A.S.|The Effects of p,p'-DDT on Adult Frogs (Rana temporaria)|Br. J. Herpetol.5:390-396|1974|
48366|T||Cooke,D.A., A.L. Winfield, K.M. Atkinson, M.E. John, and W.R. Wilson|Fumigation with D-D or Telone on Soils Prone to Docking Disorder. II. Effects on Numbers of Trichodorus spp. and Longidorus spp. (Nematoda)|Ann. Appl. Biol.82:109-115|1976|10.1111/j.1744-7348.1976.tb01678.x
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48370|T||Cooper,A.|A Comparative Study of the Tolerance of Salt Marsh Plants to Manganese|Plant Soil81(1): 47-59|1984|10.1007/BF02206893
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48377|T||Cooper,R.L., M.A. Barrett, J.M. Goldman, G.L. Rehnberg, W.K. McElroy, and T.E. Stoker|Pregnancy Alterations Following Xenobiotic-Induced Delays in Ovulation in the Female Rat|Fundam. Appl. Toxicol.22(3): 474-480|1994|10.1006/faat.1994.1053
48380|A||Coppellotti,O.|Sensitivity to Copper in a Ciliate as a Possible Component of Biological Monitoring in the Lagoon of Venice|Arch. Environ. Contam. Toxicol.35(3): 417-425|1998|10.1007/s002449900397
48382|T||Corey,K.A., and A.V. Barker|Ethylene Evolution and Polyamine Accumulation by Tomato Subjected to Interactive Stresses of Ammonium Toxicity and Potassium Deficiency|J. Am. Soc. Hortic. Sci.114(4): 651-655|1989|10.21273/JASHS.114.4.651
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48385|A||Cornell,J.S., D.A. Pillard, and M.T. Hernandez|Comparative Measures of the Toxicity of Component Chemicals in Aircraft Deicing Fluid|Environ. Toxicol. Chem.19(6): 1465-1472|2000|10.1002/etc.5620190601
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48390|T||Corpas,I., and M.T. Antonio|Study of Alterations Produced by Cadmium and Cadmium/Lead Administration During Gestational and Early Lactation Periods in the Reproductive Organs of the Rat|Ecotoxicol. Environ. Saf.41(2): 180-188|1998|10.1006/eesa.1998.1690
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48396|T||Cortes,F., J.M. Rodriguez-Higueras, and P. Escalza|Different Cytotoxic Effects Induced by Maleic Hydrazide in Root Meristem Cells|Environ. Exp. Bot.25(3): 183-188|1985|10.1016/0098-8472(85)90001-2
48397|T||Cory-Slechta,D.A.|Alterations in Tissue Pb Distribution and Hematopoietic Indices During Advanced Age|Arch. Toxicol.64(1): 31-37|1990|10.1007/BF01973373
48398|T||Cory-Slechta,D.A.|Lead Exposure During Advanced Age:  Alterations in Kinetics and Biochemical Effects|Toxicol. Appl. Pharmacol.104(1): 67-78|1990|10.1016/0041-008X(90)90283-Z
48400|T||Costa de Macedo,C., J.M. Kinet, and V. Sint Jan|Effects of Duration and Intensity of Aluminum Stress on Growth Parameters in Four Rice Genotypes Differing in Aluminum Sensitivity|J. Plant Nutr.20(1): 181-193|1997|10.1080/01904169709365241
48402|T||Costa,G., J.C. Michaut, and A. Guckert|Amino Acids Exuded from Axenic Roots of Lettuce and White Lupin Seedlings Exposed to Different Cadmium Concentrations|J. Plant Nutr.20(7-8): 883-900|1997|10.1080/01904169709365303
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48404|T||Coster,J.E., and I.R. Ragenovich|Effects of Six Insecticides on Emergence of Some Parasites and Predators from Southern Pine Beetle Infested Trees|Environ. Entomol.5(5): 1017-1021|1976|10.1093/ee/5.5.1017
48406|A||Couch,J.A.|Histopathology and Enlargement of the Pituitary of a Teleost Exposed to the Herbicide Trifluralin|J. Fish Dis.7(2): 157-163|1984|10.1111/j.1365-2761.1984.tb00918.x
48409|T||Coughtrey,P.J., and M.H. Martin|Cadmium, Lead and Zinc Interactions and Tolerance in Two Populations of Holcus lanatus L. Grown in Solution Culture|Environ. Exp. Bot.19:285-290|1979|10.1016/0098-8472(79)90031-5
48410|T||Coulaud,J., and T. McNeilly|Zinc Tolerance in Populations of Deschampsia cespitosa (Graminae) Beneath Electricity Pylons|Plant Syst. Evol.179:175-185|1992|10.1007/BF00937595
48411|T||Coulombe,L.J., B. Parent, and D. Pitre|Fluctuations des Populations de Panonychus ulmi (Koch) et de Aculus schlechtendali (Nal.) sur Pommiers Apres Traitements Fongicides dans le Sud-Ouest du Quebec|Phytoprotection (Multiple Languages)59(3): 121-131|1978|
48412|T||Coulson,E.J., R.E. Remington, and K.M. Lynch|Metabolism in the Rat of the Naturally Occurring Arsenic of Shrimp as Compared with Arsenic Trioxide|J. Nutr.10(3): 255-270|1935|10.1093/jn/10.3.255
48414|T||Courchesne,F., and G.R. Gobran|Mineralogical Variations of Bulk and Rhizosphere Soils from a Norway Spruce Stand|Soil Sci. Soc. Am. J.61:1245-1249|1997|10.2136/sssaj1997.03615995006100040034x
48421|T||Cox,R.M., D.A. Thurman, and M. Breett|Some Properties of the Soluble Acid Phosphatases of Roots of Zinc-Tolerant and Non-Tolerant Clones of Anthoxanthum odoratum|New Phytol.77:547-552|1976|10.1111/j.1469-8137.1976.tb04645.x
48422|T||Cox,W.J., and D.W. Rains|Effect of Lime on Lead Uptake by Five Plant Species|J. Environ. Qual.1(2): 167-169|1972|10.2134/jeq1972.00472425000100020013x
48424|A||Crane,M., C. Attwood, D. Sheahan, and S. Morris|Toxicity and Bioavailability of the Organophosphorus Insecticide Pirimiphos Methyl to the Freshwater Amphipod Gammarus pulex L. in Laboratory and Mesocosm Systems|Environ. Toxicol. Chem.18(7): 1456-1461|1999|10.1002/etc.5620180716
48425|A||Cravedi,J.P., E. Perdu-Durand, and A. Paris|Cytochrome P450-Dependent Metabolic Pathyways and Glucuronidation in Trout Liver Slices|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 267-275|1998|
48426|A||Craven,B.R., and C.D. Steelman|Studies on a Biological and a Chemical Method of Controlling the Dark Rice Field Mosquito in Louisiana|J. Econ. Entomol.61(5): 1333-1336|1968|10.1093/jee/61.5.1333
48428|T||Crawford,S.A., A.T. Marshall, and S. Wilkens|Localization of aluminum in root apex cells of two Australian perennial grasses by X-ray microanalysis|Aust. J. Plant Physiol.25(4): 427-435|1998|
48429|T||Crecelius,C.S., and C.O. Knowles|Toxicity, Penetration, and Metabolism of Chlordimeform and Its N-Demethyl Metabolite in Cabbage Looper Larvae|J. Agric. Food Chem.24(5): 1018-1023|1976|10.1021/jf60207a018
48432|T||Cremer,J.E., and M.P. Seville|Comparative Effects of Two Pyrethroids, Deltamethrin and Cismethrin, on Plasma Catecholamines and on Blood Glucose and Lactate|Toxicol. Appl. Pharmacol.66(1): 124-133|1982|10.1016/0041-008X(82)90067-9
48434|T||Crofton,K.M., L.S. Kehn, and M.E. Gilbert|Vehicle and Route Dependent Effects of a Pyrethroid Insecticide, Deltamethrin, on Motor Function in the Rat|Neurotoxicol. Teratol.17(4): 489-495|1995|10.1016/0892-0362(95)00008-F
48438|T||Crommentuijn,T., C.J.A.M. Doodeman, A. Doornekamp, and C.A.M. Van Gestel|Life-Table Study with the Springtail Folsomia candida (Willem) Exposed to Cadmium, Chlorpyrifos and Triphenyltin Hydroxide|In: N.M.Van Straalen and H.Lokke (Eds.), Ecological Risk Assessment of Contaminants in Soil, Chapman and Hall, London:275-291|1997|
48440|A||Cross,A.J., J. McFarlane, and C.W. Frank|Benzene Vapor Depletion in the Presence of Plants|EPA 600/3-79-096, U.S.EPA, Las Vegas, NV:15 p.|1979|
48446|T||Crush,J.R., and J.R. Caradus|Response to soil aluminum of two white clover (Trifolium repens L.) genotypes|Plant Soil146(1-2): 39-43|1992|10.1007/BF00011993
48448|T||Csaba,G., and C. Karabelyos|Transgenerational Effect of a Single Neonatal Benzpyrene Treatment (Imprinting) on the Sexual Behavior of Adult Female Rats|Hum. Exp. Toxicol.16(10): 553-556|1997|10.1177/096032719701601001
48449|T||Cuenca,G., R. Herrera, and E. Medina|Aluminum Tolerance in Trees of a Tropical Cloud Forest|Plant Soil125(2): 169-175|1990|10.1007/BF00010654
48451|A||Cullimore,D.R., and A.E. McCann|Initial Studies on a Method of Algal Assay for Nutrient Parameters in Water|J. Fish. Res. Board Can.29:195-198|1972|10.1139/f72-031
48452|A||Cullimore,D.R., and A.E. McCann|Influence of Four Herbicides on the Algal Flora of a Prairie Soil|Plant Soil46(3): 499-510|1977|10.1007/BF00015909
48454|T||Cumming,J.R.|Nitrogen Source Effects on Aluminum Toxicity in Nonmycorrhizal and Mycorrhizal Pitch Pine (Pinus rigida) Seedlings. II. Nitrate Reduction and Nitrate Uptake|Can. J. Bot.68(12): 2653-2659|1990|10.1139/b90-335
48455|T||Cumming,J.R., and L.H. Weinstein|Nitrogen Source Effects on Aluminum Toxicity in Nonmycorrhizal and Mycorrhizal Pitch Pine (Pinus rigida) Seedlings. I. Growth and Nutrition|Can. J. Bot.68(12): 2644-2652|1990|10.1139/b90-334
48456|T||Cumming,J.R., and S.M. Brown|Effects of Elevated Nitrate and Aluminum on the Growth and Nutrition of Red Spruce (picea rubens) Seedlings|Tree Physiol.14(6): 589-599|1994|10.1093/treephys/14.6.589
48457|T||Cumming,J.R.|Aluminum-Mycorrhizal Interactions in the Physiology of Pitch Pine (Pinus rigida) Seedlings|Ph.D.Thesis, Cornell University, Ithaca, NY:172 p.|1990|
48459|T||Cummings,A.M., and S.D. Perrault|Methoxychlor Accelerates Embryo Transport Through the Rat Reproductive Tract|Toxicol. Appl. Pharmacol.102(1): 110-116|1990|10.1016/0041-008X(90)90088-C
48460|T||Cummings,A.M., and J.L. Metcalf|Mechanisms of the Stimulation of Rat Uterine Peroxidase Activity by methoxychlor|Reprod. Toxicol.8(6): 477-486|1994|10.1016/0890-6238(94)90030-2
48466|T||Cunningham,L.M., F.W. Collings, and T.C. Hutchinson|Physiological and Biochemical Aspects of Cadmium Toxicity in Soybean I. Toxicity Symptoms and Autoradiographic Distribution of Cd in Roots, Stems and Leaves|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(1): 97-120|1975|
48467|T||Cunningham,L.M.|Physiological and Biochemical Aspects of Cadmium in Soybean:  The Effects of Induced Cd Toxicity on the Uptake and Translocation of Zn, Fe, Mg, Ca and K|In: Proc.Annu.Conf.on Trace Substances in the Environment:133-145|1977|
48468|A||Cuppen,J.G.M., P.J. Van den Brink, E. Camps, K.F. Uil, and T.C.M. Brock|Impact of the Fungicide Carbendazim in Freshwater Microcosms. I. Water Quality, Breakdown of Particulate Organic Matter and Responses of Macroinvertebrates|Aquat. Toxicol.48(2-3): 233-250|2000|10.1016/S0166-445X(99)00036-3
48469|T||Curl,E.A., P.J. Edwards, C. Elliott, and J.P. Leahey|The Conjugation and Accumulation of Metabolites of Cypermethrin by Earthworms|Pestic. Sci.20:207-222|1987|10.1002/ps.2780200306
48471|T||Curnow,R.D.|Assimilation and Retention of Zinc-65 by the Mallard Duck (Anas platyrhynchos)|In: Rep.No.CONF-710501-P1, D.J.Nelson (Ed.), Proc.3Rd National Symposium on Radioecology, Radionuclides in Ecosystems, May 10-12, 1971, Oak Ridge, TN1:381-383|1971|
48472|A||Currie,R.S., W.L. Fairchild, M.H. Holoka, and D.C.G. Muir|Long-Term Fate and Bioavailability of Sediment-Associated 2,3,7,8-Tetrachlorodibenzofuran in Littoral Enclosures|Environ. Toxicol. Chem.19(6): 1491-1500|2000|
48473|T||Currier,H.B.|Herbicidal Properties of Benzene and Certain Methyl Derivatives|Hilgardia20(19): 383-405|1951|10.3733/hilg.v20n19p383
48474|T||Curry,J.P.|The Effects of Different Methods of New Sward Establishment and the Effects of the Herbicides Paraquat and Dalapon on Soil Fauna|Pedobiologia (Multiple Languages)10:329-361|1970|10.1016/S0031-4056(23)00424-9
48476|T||Cushman,K.E., and T.W. Tibbitts|The Role of Ethylene in the Development of Constant-Light Injury of Potato and Tomato|J. Am. Soc. Hortic. Sci.123(2): 239-245|1998|10.21273/JASHS.123.2.239
48478|T||Cuthbert,R.A., A.C. Lincoln, B.H. Kennedy, and N.H. Roberto|Laboratory Assay of Scolytus multistriatus and Dendrosoter protuberans on DDT and Methoxychlor|J. Econ. Entomol.63(6): 1889-1891|1970|10.1093/jee/63.6.1889
48481|T||Cutler,J.M., and D.W. Rains|Characterization of Cadmium Uptake by Plant Tissue|Plant Physiol.54:67-71|1974|10.1104/pp.54.1.67
48483|A||Cutting,W., M. Baslow, D. Read, and A. Furst|The Use of Fish in the Evaluation of Drugs Affecting the Central Nervous System|J. Clin. Exp. Psychopathol.20(1): 26-32|1959|
48485|T||Cyr,R.J., and R.L. Bernstei.|Morphological-Changes and Depressed Phagocytic Efficiency in Dictyostelium amebas Treated with Toxic Concentrations of Cadmium|Environ. Res.35(1): 66-78|1984|10.1016/0013-9351(84)90114-2
48488|T||Czuba,M., and D.P. Ormrod|Effects of Cadmium and Zinc on Ozone-Induced Phototoxicity in Cress and Lettuce|Can. J. Bot.52:645-649|1974|10.1139/b74-081
48491|T||d'Argy,R.L., L. Denker, A. Klasson-Wehler, A. Bergman, P.O. Darnerud, and I. Brandt|3,3',4,4'-Tetrachlorobiphenyl in Pregnant Mice:  Embryotoxicity, Teratogenicity, and Toxic Effects on the Cultured Embryonic Thymus|Pharmacol. Toxicol.61:53-57|1987|10.1111/j.1600-0773.1987.tb01772.x
48493|T||D'souza,T.J., and K.B. Mistry|Comparative uptake of gamma emitting fission product nuclides by plants|Indian Soc. Nucl. Tech. Agric. Biol. Newsl.2(1): 17-20|1973|
48494|A||Da Costa,A.C.A., and F.P. De Franca|The Behaviour of the Microalgae Tetraselmis chuii in Cadmium-Contaminated Solutions|Aquac. Int.6(1): 57-66|1998|10.1023/A:1009221820135
48495|T||Da Costa E.W.B., F.J. Gay, and L.D. Osborne|Laboratory Evaluations of Wood Preservatives V. The Effectiveness of Some Australian Creosotes Against Subterranean Termites|Holzforschung25(2): 43-47|1971|10.1515/hfsg.1971.25.2.43
48498|A||Dabrowska,H., S.W. Fisher, K. Dabrowski, and A.E. Staubus|Dietary Uptake Efficiency of 2,2',4,4',5,5'-Hexachlorobiphenyl in Yellow Perch and Rainbow Trout:  Role of Dietary and Body Lipids|Environ. Toxicol. Chem.18(5): 938-945|1999|
48499|T||Dacre,J.C., and G.L. Ter Haar|Lead Levels in Tissues from Rats Fed Soils Containing Lead|Arch. Environ. Contam. Toxicol.6(1): 111-119|1977|10.1007/BF02097754
48501|T||Dahiya,A., and P.N. Saxena|Effect of Nitric Oxide on Lung Nucleic Acids of Sciurus palmarum Linn|J. Environ. Biol.21(1): 69-74|2000|
48502|T||Dahlgren,R.B., Y.A. Greichus, and R.L. Linder|Storage and Excretion of Polychlorinted Biphenyls in the Pheasant|J. Wildl. Manag.35(4): 823-827|1971|10.2307/3799792
48503|T||Dalal,R.C.|Effect of Toluene on the Energy Barriers in Urease Activity of Soils|Soil Sci.120(4): 256-260|1975|10.1097/00010694-197510000-00002
48505|T||Dallinger,R., and W. Wieser|The Flow of Copper Through a Terrestiral Food Chain. I. Copper and Nutrition in Isopods|Oecologia30:253-264|1977|10.1007/BF01833632
48506|T||Dallinger,R., and W. Wieser|Patterns of Accumulation, Distribution and Liberation of Zn, Cu, Cd and Pb in Different Organs of the Land Snail Helix pomatia, L.|Comp. Biochem. Physiol. C Comp. Pharmacol.79(1): 117-124|1984|10.1016/0742-8413(84)90173-7
48510|A||Dalzell,D.J.B., and N.A.A. MacFarlane|The Toxicity of Iron to Brown Trout and Effects on the Gills: A Comparison of Two Grades of Iron Sulphate|J. Fish Biol.55(2): 301-315|1999|10.1111/j.1095-8649.1999.tb00680.x
48511|T||Dang,Y.P., R. Chhabra, and K.S. Verma|Effect of Cd, Ni, Pb and Zn on Growth and Chemical Composition of Onion and Fenugreek|Commun. Soil Sci. Plant Anal.21(9-10): 717-735|1990|10.1080/00103629009368265
48514|T||Daniels,R.R., B.E. Struckmeyer, and L.A. Peterson|Copper Toxicity in Phaseolus vulgaris L. as Influenced by Iron Nutrition. I. An Anatomical Study|J. Am. Soc. Hortic. Sci.97:249-254|1972|10.21273/JASHS.97.2.249
48515|T||Daniels,R.R., B.E. Struckmeyer, and L.A. Peterson|Copper Toxicity in Phaseolus vulgaris L. as Influenced by Iron Nutrition. II. Elemental and Electron Microprobe Analyses|J. Am. Soc. Hortic. Sci.98:31-34|1973|10.21273/JASHS.98.1.31
48516|T||Daniels,R.R., and B.E. Struckmeyer|Copper Toxicity in Phaseolus vulgaris L. as Influenced by Iron Nutrition. III. Partial Alleviation by Sucinnic Acid 2,2-Dimethyl Hydrazide|J. Am. Soc. Hortic. Sci.98(5): 449-452|1973|10.21273/JASHS.98.5.449
48517|T||Danielson,L.L.|Herbicidal Effects of Sodium and Potassium Azides on Mugwort|Weeds (Urbana)13:96-98|1965|10.2307/4041144
48518|T||Dansereau,M., N. Lariviere, D. Du Tremblay, and D. Belanger|Reproductive Performance of Two Generations of Female Semidomesticated Mink fed Diets Containing Organic Mercury Contaminated Freshwater Fish|Arch. Environ. Contam. Toxicol.36(2): 221-226|1999|10.1007/s002449900464
48519|T||Darlington,A.B., and W.E. Rauser|Cadmium Alters the Growth of the Ectomycorrhizal Fungus Paxillus involutus:  A New Growth Model Accounts for Changes in Branching|Can. J. Bot.66(2): 225-229|1988|10.1139/b88-038
48521|T||Dary,C.C., and L.A. Crowder|Uptake of 36Cl-Toxaphene in the Cockroach, Leucophaea maderae (Fabr.)|Bull. Environ. Contam. Toxicol.18(6): 766-772|1977|10.1007/BF01691990
48522|AT||Das,B.P., K. Das, D.N. Chowdhury, G.K. Das, and B. Choudhury|Comparative Pesticidal Studies of 1,2,3,4-Tetrahydrocarbazole and 2-Methyl-1,2,3,4-Tetrahydrocarbazole|Environ. Ecol.16(2): 405-408|1998|
48523|T||Das,J., and S.N. Chatterjee|Effect of Toluene on Vibrio Cholerae|Bull. Calcutta Sch. Trop. Med.14(3): 93-94|1966|
48525|T||Das,M., S.P. Srivasta., J.S. Khamre, and L.B. Deshpand.|Susceptibility of DDT, Dieldrin and Malathion Resistant Anopheles culicifacies Populations to Deltamethrin|Am. Mosq. Control Assoc. J.2(4): 553-555|1986|
48526|T||Das,M.S., and P.K. Sinha|Observations on Antrycide Methyl Sulphate Toxcity in Indian Cattle and Buffalos|Indian J. Anim. Health:73-76|1975|
48528|T||Das,S.C., M. Bhuyan, and B.C. Chakraborty|Field Trials on the Relative Efficacy of Three Repellents Against Mansonia Mosquitoes|Indian J. Med. Res.87:176-178|1988|
48530|T||Das,S.K., S.N. Panda, and B.K. Pani|Evaluation of Fungicides Against Colletrotrichum gloeosporioides Penz. Inciting Blossom Blight of Mango|Environ. Ecol.16(3): 623-624|1998|
48531|T||Datkhile,R.V., S.A. Pawar, R.G. Jadhav, and U.N. Mote|Evaluation of Teflubenzuron Against Gram Pod Borer|Tests Agrochem. Cultiv.0(13): 8-9|1992|
48532|T||Datkhile,R.V., S.A. Pawar, R.G. Jadhav, and U.N. Mote|Evaluation of alpha-Cypermethrin Against Gram Pod Borer|Tests Agrochem. Cultiv.13:10-11|1992|
48533|T||Datta,A., and M. Gopal|Safety Evaluation of the Fungicide Iprodione on Cauliflower (Brassica oleracea var. oleracea L.)|Bull. Environ. Contam. Toxicol.62(4): 496-501|1999|10.1007/s001289900903
48534|T||Datta,A.K., R. Chattopadhyay, A. Biswas, S. Chattopadhyay, and S. Mukherjee|Genotoxic Effects of Some Pesticides and Fungicides in Three Plant Species|Environ. Ecol.13(3): 633-636|1995|
48535|T||Datta,S., P. Banerjee, R.D. Banerjee, G.M. Sarkar, S.K. Saha, K. Dey, R.K. Maiti, S.K. Sen, and J.K. Bhar|Anti Microbial Insect Sterilizing and Ovicidal Activity of Some Oxo Vanadium IV and Oxo Vanadium V Complexes|Agents Actions12(4): 543-551|1982|10.1007/BF01965941
48540|T||David,D.|Laboratory Evaluation of Repellent Properties Against Birds of the Synthetic Pyrethroid Decamethrin|Poult. Sci.60:1149-1151|1981|10.3382/ps.0601149
48542|T||Davies,B.E., C.F. Paveley, and B.G. Wixson|Use of Limestone Wastes from Metal Mining as Agricultural Lime: Potential Heavy Metal Limitations|Soil Use Manag.9(2): 47-52|1993|10.1111/j.1475-2743.1993.tb00928.x
48543|T||Davies,B.E.|Radish as an Indicator Plant for Derelict Land: Uptake of Zinc at Toxic Concentrations|Commun. Soil Sci. Plant Anal.24(15-16): 1883-1895|1993|10.1080/00103629309368925
48544|T||Davies,D.B., L.J. Hooper, R.R. Charlesworth, R.C. Little, C. Evans, and B. Wilkinson|Copper Deficiency in Crops: III. Copper Disorders in Cereals Grown on Chalk Soils in South Eastern and Central Southern England|Tech.Bull.No.21, Trace Elements in Soils and Crops, Proc.of a Conf.Organized by the Soil Scientists of the Natl.Agric.Advisory Serv., Feb.8-9, 1966, Her Majesty's Stationery Office, London:88-118|1971|
48545|T||Davies,E.B., and J.H. Watkinson|Uptake of Native and Applied Selenium by Pasture Species. II. Effects of Sulphate and of Soil Type on Uptake by Clover|N. Z. J. Agric. Res.9:641-652|1966|10.1080/00288233.1966.10431555
48546|A||Davies,I.M., J.G. McHenery, and G.H. Rae|Environmental Risk from Dissolved Ivermectin to Marine Organisms|Aquaculture158(3/4): 263-275|1997|10.1016/S0044-8486(97)00209-3
48547|A||Davies,I.M.|Kinetics of the Development of Imposex in Transplanted Adult Dogwhelks, Nucella lapillus|Environ. Pollut.107(3): 445-449|2000|10.1016/S0269-7491(99)00124-4
48548|T||Davies,M.T., G.R. Port, and A.W. Davison|Effects of Dietary and Gaseous Fluoride on the Aphid Aphis fabae|Environ. Pollut.99:405-409|1998|10.1016/S0269-7491(97)00184-X
48549|A||Davies,P.H., and J.P. Goettle|Study of the Effects of the Metallic Ions on Fish and Aquatic Organisms|Water Pollution Studies 7-29, Division of Wildlife, Colorado Department of Natural Resources:|1975|
48550|A||Davis,D.A., and C.R. Arnold|Tolerance of the Rotifer Brachionus plicatilis to Ozone and Total Oxidative Residuals|Ozone Sci. Eng.19(5): 457-469|1997|10.1080/01919512.1997.10382871
48551|T||Davis,B.N.K.|The Immediate and Long-Term Effects of the Herbicide MCPA on Soil Arthropods|Bull. Entomol. Res.56(2): 357-366|1965|10.1017/S0007485300056443
48559|T||Davis,J.R., G.M. McMaster, R.H. Callihan, F.H. Nissley, and J.J. Pavek|Influence of Soil Moisture and Fungicide Treatments on Common Scab and Mineral Content of Potatoes|Phytopathology66:228-233|1976|10.1094/Phyto-66-228
48560|T||Davis,J.W., D.A. Wolfenbarger, and J.A. Harding|Activity of Several Synthetic Pyrethroids Against the Boll Weevil and Heliothis spp.|Southwest. Entomol.2(4): 164-169|1977|
48561|A||Davis,P.W., J.M. Friedhoff, and G.A. Wedemeyer|Organochlorine Insecticide, Herbicide and Polychlorinated Biphenyl (PCB) Inhibition of NaK-ATPase in Rainbow Trout|Bull. Environ. Contam. Toxicol.8(2): 69-72|1972|10.1007/BF01684507
48565|T||Davis,W.B., M.J. McCauley, and B.R. Byer|Iron Requirements and Aluminum Sensitivity of Hydroxamic Acid Requiring Strain of Bacilus megaterium|J. Bacteriol.105:589-594|1971|10.1128/jb.105.2.589-594.1971
48568|A||Dawson,D.A., D.J. Fort, D.L. Newell, and J.A. Bantle|Development Toxicity Testing with Fetax:  Evaluation of Five Compounds|Drug Chem. Toxicol.12(1): 67-75|1989|10.3109/01480548908999144
48571|T||De Bertoldi,M., A. Rambelli, M. Giovannetti, and M. Griselli|Effects of Benomyl and Captan on Rhizosphere Fungi and the Growth of Allium cepa|Soil Biol. Biochem.10:265-268|1978|10.1016/0038-0717(78)90019-6
48572|T||De Catanzaro,J.B.|Effect of Nickel Addition on Nitrogen Mineralization, Nitrification and Nitrogen Leaching in some Boreal Forest Soils|Water Air Soil Pollut.24(2): 153-164|1985|
48573|T||De Chaneet,G., and R. Lewis|The Use of Molasses Blocks Medicated with Phenothiazine to Control Nematodes in Sheep in Western Australia|Aust. Vet. J.49:146-149|1973|10.1111/j.1751-0813.1973.tb06764.x
48574|A||De freitas Rebelo,M., E.M. Rodriguez, E.A. Santos, and M. Ansaldo|Histopathological Changes in Gills of the Estuarine Crab Chasmagnathus granulata (Crustacea-Decapoda) Following Acute Exposure to Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125:157-164|2000|
48575|T||De Graaf,M.C.C., R. Bobbink, P.J.M. Verbeek, and J.G.M. Roelofs|Aluminium Toxicity and Tolerance in Three Healthland Species|Water Air Soil Pollut.98(3): 229-239|1997|
48576|T||De Grazio,J.W., J.F. Besser, T.J. Decino, J.I. Guarino, and R.I. Starr|Use of 4-Aminopyridine to Protect Ripening Corn from Blackbirds|J. Wildl. Manag.35(3): 565-568|1971|10.2307/3799716
48578|T||De la Cruz,A.A., and B. Rajanna|Mirex Incorporation in the Environment:  Uptake and Distribution in Crop Seedlings|Bull. Environ. Contam. Toxicol.14(1): 38-42|1975|10.1007/BF01685595
48579|A||De la Torre,F.R., A. Salibian, and L. Ferrari|Biomarkers Assessment in Juvenile Cyprinus carpio Exposed to Waterborne Cadmium|Environ. Pollut.109:277-282|2000|10.1016/S0269-7491(99)00263-8
48581|T||De Marco,A., C. De Simone, M. Raglione, and P. Lorenzoni|Influence of Soil Characteristics on the Clastogenic Activity of Maleic Hydrazide in Root Tips of Vicia faba|Mutat. Res.344:5-12|1995|10.1016/0165-1218(95)90033-0
48583|T||De Miranda,L.N., and D.L. Rowell|Aluminum-phosphate Interactions in Wheat|New Phytol.113(1): 7-12|1989|10.1111/j.1469-8137.1989.tb02389.x
48584|T||De Ong,E.R.|Injury to Apricot Leaves from Fluorine Deposit|Phytopathology36:469-471|1946|
48594|T||Dean,H.J., J.R. Colquhoun, and C.N. Frisa|Some Effects of Carbaryl on Mites, Collembola, and Calosoma sp. in an Oak Type Forest|Environ. Entomol.5(4): 793-797|1976|10.1093/ee/5.4.793
48596|T||Dearlove,G.E., S. Lopez, and M.H. Dresden|Disruption of Normal Forelimb Regeneration in Adult Notophthalmus viridescens by Sublethal Concentrations of Trypan Blue|J. Exp. Zool.194(2): 413-427|1975|10.1002/jez.1401940208
48599|T||Debnath,R.B., and S. Mukherji|Barium Effects in Phaseolus aureus, Cephalandra indica, Canna indica, Beta vulgaris, Triticum aestivum and Lactuca sativa (Mung Beans, Beets, Wheat, Lettuce, Air Pollutants Deleterious Concentration Influencing Growth a|Biol. Plant. (Praha)24(6): 423-429|1982|10.1007/BF02880438
48600|T||DeBoo,R.F., and V. Hildahl|Aerial Spraying for Control of the Jack Pine Budworm in Manitoba Canada|Manit. Entomol.1:21-26|1967|
48601|T||DeBoo,R.F.|Experimental Aerial Applications of Permethrin for Control of Choristoneura fumiferana in Quebec, 1976-1977|Rep.No.FPM-X-41, Environment Canada, Forest Pest Manage.Inst., Sault Ste.Marie, Ontario, Canada:24 p.|1980|
48602|T||Debosz,K., H. Babich, and G. Stotzky|Toxicity of Lead to Soil Respiration: Mediation by Clay Minerals, Humic Acids, and Compost|Bull. Environ. Contam. Toxicol.35:517-524|1985|10.1007/BF01636548
48603|T||Debus,R., and P. Schroder|Effects of Halone 1301 on Lepidium sativum, Petunia hybrida and Phaseolus vulgaris|Chemosphere41:1603-1610|2000|10.1016/S0045-6535(00)00032-1
48604|T||Decker,K.L.M., and R.E.J. Boerner|Ca:Al Ratio Effects on Growth and Competitive Interactions of Northern Red Oak (Quercus rubra) and Yellow-Poplar (Liriodendron tulipifera)|J. Torrey Bot. Soc.124(4): 286-296|1997|10.2307/2997263
48605|A||De conto Cinier,C., M. Petit-Ramel, R. Faure, and M. Bortolato|Cadmium Accumulation and Metallothionein Biosynthesis in Cyprinus carpio Tissues|Bull. Environ. Contam. Toxicol.61(6): 793-799|1998|10.1007/s001289900830
48608|T||Deepak,S.S., and M. Agrawal|Growth and Yield Responses of Wheat Plants to Elevated Levels of CO2 and SO2, Singly and in Combination|Environ. Pollut.104(3): 411-419|1999|10.1016/S0269-7491(98)00171-7
48609|A||DeGraeve,G.M., and R.W. Ward|Acclimation of Fathead Minnows and Lake Trout to Residual Chlorine and Bromine Chloride|J. Water Pollut. Control Fed.49(10): 2172-2178|1977|
48613|T||De Jongh,J., F. Wondergem, W. Seinen, and M. Van den Berg|Toxicokinetic Interactions in the Liver of the C57BL/6J Mouse After Administration of a Single Oral Dose of a Binary Mixture of Some PCBs|Chemosphere25(7-10): 1165-1170|1992|10.1016/0045-6535(92)90124-A
48616|T||DeKock,P.C.|Heavy Metal Toxicity and Iron Chlorosis|Ann. Bot.20(77): 133-141|1956|10.1093/oxfordjournals.aob.a083508
48617|T||Dekoe,T., and N.M.M. Jaques|Arsenate Tolerance in Agrostis Castellana and Agrostis delicatula|Plant Soil151(2): 185-191|1993|10.1007/BF00016283
48620|T||Delgado-Rodriguez,A., R. Ortiz-Marttelo, U. Graf, R. Villalobos-Pietrini, and S. Gomez-Arroyo|Genotoxic Activity of Environmentally Important Polycyclic Aromatic Hydrocarbons and Their Nitro Derivatives in the Wing Spot Test of Drosophila melanogaster|Mutat. Res.341(4): 235-247|1995|10.1016/0165-1218(95)90095-0
48623|T||Dell'Omo,G., A. Turk, and R.F. Shore|Secondary Poisoning in the Common Shrew (Sorex araneus) Fed Earthworms Exposed to an Organophosphate Pesticide|Environ. Toxicol. Chem.18(2): 237-240|1999|10.1002/etc.5620180220
48625|T||Delmonte,A.A., F. Bedmar, J.D. Mantecon, H. Echeverria, and C.A. Barassi|Residual Phytotoxicity and Chemical Persistance of Atrazine in Soils of the Southeast of Buenos Aires Province, Argentina|J. Environ. Biol.18(3): 201-207|1997|
48626|T||DeLong,G.T., and C.D. Rice|Tributyltin Potentiates 3,3',4,4',5-Pentachlorobiphenyl-Induced Cytochrome P-4501A-Related Activity|J. Toxicol. Environ. Health51(2): 131-148|1997|
48627|A||DeLorenzo,M.E., G.I. Scott, and P.E. Ross|Effects of the Agricultural Pesticides Atrazine, Deethylatrazine, Endosulfan, and Chlorpyrifos on an Estuarine Microbial Food Web|Environ. Toxicol. Chem.18(12): 2824-2835|1999|10.1002/etc.5620181224
48628|T||Delpuech,J.M., E. Gareau, O. Terrier, and P. Fouillet|Sublethal Effects of the Insecticide Chlorpyrifos on the Sex Pheromonal Communication of Trichogramma brassicae|Chemosphere36(8): 1775-1785|1998|10.1016/S0045-6535(97)10071-6
48629|T||Delpuech,J.M., B. Froment, P. Fouillet, F. Pompanon, S. Janillon, and M. Bouletreau|Inhibition of Sex Pheromone Communications of Trichogramma brassicae (Hymenoptera) by the Insecticide Chlorpyrifos|Environ. Toxicol. Chem.17(6): 1107-1113|1998|10.1002/etc.5620170617
48630|T||Delpuech,J.M., B. Legallet, O. Terrier, and P. Fouillet|Modifications of the Sex Pheromonal Communication of Trichogramma brassicae by a Sublethal Dose of Deltamethrin|Chemosphere38(4): 729-739|1999|10.1016/S0045-6535(98)00310-5
48634|A||Dembele,K., E. Haubruge, and C. Gaspar|Concentration Effects of Selected Insecticides on Brain Acetylcholinesterase in the Common Carp (Cyprinus carpio L.)|Ecotoxicol. Environ. Saf.45(1): 49-54|2000|10.1006/eesa.1999.1829
48635|T||DeMilo,A.B., and R.E. Redfern|New Insect Juvenile Hormone Mimics: Aromatic Schiff Bases and Related Compounds Against the Large Milkweed Bug and Yellow Mealworm|J. Agric. Food Chem.27(4): 760-762|1979|10.1021/jf60224a022
48636|T||Deml,E., D. Oesterle, and F.J. Wiebel|Benzo(a)pyrene Initiates Enzyme-Altered Islands in the Liver of Adult Rats Following Single Pretreatment and Promotion with Polychlorinated Biphenyls|Cancer Lett.19:301-304|1983|10.1016/0304-3835(83)90098-8
48638|T||Dempster,J.P.|The Sublethal Effect of DDT on the Rate of Feeding by the Ground-Beetle Harpalus rufipes|Entomol. Exp. Appl.11:51-54|1968|10.1111/j.1570-7458.1968.tb00073.x
48639|T||Dempster,J.P.|The Control of Pieris rapae with DDT.  II.  Survival of the Young Stages of Pieris After Spraying|J. Appl. Ecol.5(2): 451-462|1968|10.2307/2401572
48645|T||Denne,M.P., and L.D. Atkinson|A Phytotoxic Effect of Captan on the Growth of Conifer Seedlings|Forestry46(1): 49-53|1973|10.1093/forestry/46.1.49
48649|T||Denny,H.J., and I. Ridge|Fungal Slime and Its Role in the Mycorrhizal Amelioration of Zinc Toxicity to Higher Plants|New Phytol.130(2): 251-257|1995|10.1111/j.1469-8137.1995.tb03046.x
48650|T||Denomme,M.A., S. Bandiera, I. Lambert, L. Copp, L. Safe, and S. Safe|Polychlorinated Biphenyls as Phenobarbitone-Type Inducers of Microsomal Enzymes.  Structure-Activity Relationships for a Series of 2,4-Dichloro-Substituted Congeners|Biochem. Pharmacol.32(19): 2955-2963|1983|10.1016/0006-2952(83)90402-1
48659|T||De Prado,R., E. Romera, and J. Jorrin|Effects of Chloroacetamides and Phytosynthesis-Inhibiting Herbicides on Growth and Photosynthesis in Sunflower (Helianthus annuus L.) and Amaranthus hybridus L.|Weed Res. (Multiple Languages)33(5): 369-374|1993|10.1111/j.1365-3180.1993.tb01952.x
48664|A||Deroos,C.C.|The Effects of Sodium Fluoride on the Weight Gain and Gills of the Common Goldfish|M.S.Thesis, Utah State University, Logan, UT:40 p.|1958|
48665|T||Derr,J.F.|English Ivy (Hedera helix) Response to Postemergence Herbicides|J. Environ. Hortic.11(2): 45-48|1993|10.24266/0738-2898-11.2.45
48667|T||Deshmukh,S.N., J.S. Bhalla, and P.U. Saramma|Studies on Carbaryl, DDT and Endosulfan Residues on Tomato Fruits|Indian J. Entomol.34(1): 31-34|1972|
48670|T||Dessureaux,L.|Heritability of Tolerance to Manganese Toxicity in Lucerne|Euphytica 8:260-265|1959|10.1007/BF00039369
48672|T||Devadas,N., M.V. Rajam, and K. Subhash|Comparative Mutagenicity of Four Organophosphorous Insecticides in Meiotic System of Red Pepper|Cytologia (Tokyo)51:645-653|1986|10.1508/cytologia.51.645
48673|T||DeVaney,J.A., and G.W. Ivie|Systemic Activity of Coumaphos, Famphur, Crufomate, Ronnel, and Phosmet Given Orally to Hens for Control of the Northern Fowl Mite, Ornithonyssus sylviarum (Canestrini and Fanzago)|Poult. Sci.59:1208-1210|1980|10.3382/ps.0591208
48674|T||Devi,K.D., B.S. Banu, P. Grover, and K. Jamil|Genotoxic Effect of Lead Nitrate on Mice Using a SCGE (Comet Assay)|Toxicology145:195-201|2000|10.1016/S0300-483X(00)00154-2
48675|T||Devi,Y., and S. Devi|Effect of Synthetic Detergents on Germination of Fern Spores|Bull. Environ. Contam. Toxicol.37:837-843|1986|10.1007/BF01607847
48676|T||Picollo de Villar,M.I., E. Seccacini, A. Fontan, and E.N. Zerba|Activity of the Insect Growth-Regulator Fenoxycarb (RO-13-5223) on Triatoma Infestans (Hemiptera)|Comp. Biochem. Physiol. C Comp. Pharmacol.87(2): 367-373|1987|10.1016/0742-8413(87)90023-5
48678|T||Devine,T.E.|Genetic Potentials for Solving Problems of Soil Mineral Stress: Aluminum and Manganese Toxicities in Legumes|In: M.J.Wright and S.A.Ferrari (Eds.), Plant Adaptation to Mineral Stress in Problem Soils, Proc.of a Workshop held at the Natl.Agric.Library, Nov.22-23, 1976, Beltsville, MD:65-72|1976|
48679|T||DeVito,M.J., W.E. Maier, J.J. Diliberto, and L.S. Birnbaum|Comparative Ability of Various PCBs, PCDFs and TCDD to Induce Cytochrome P450 1A1 and 1A2 Activity Following 4 Weeks of Treatment|Fundam. Appl. Toxicol.20(1): 125-130|1993|10.1006/faat.1993.1015
48681|T||Devkota,B., and G.H. Schmidt|Effects of Heavy Metals (Hg2+, Cd2+, Pb2+) During the Embryonic Development of Acridid Grasshoppers (Insecta, Caelifera)|Arch. Environ. Contam. Toxicol.36(4): 405-414|1999|10.1007/PL00006613
48683|A||Devos,E., P. Devos, and M. Cornet|Effect of Cadmium on the Cytoskeleton and Morphology of Gill Chloride Cells in Parr and Smolt Atlantic Salmon (Salmo salar)|Fish Physiol. Biochem.18(1): 15-27|1998|10.1023/A:1007782027346
48684|T||Devoto,F.C.H., B.M. Perrotto, N.E. Bordoni, and N.H. Arias|Effect of Sodium Fluoride on the Placenta in the Rat|Arch. Biol.17:371-374|1972|
48687|A||DeWitt,T.H., C.W. Hickey, D.J. Morrisey, M.G. Nipper, D.S. Roper, R.B. Williamson, L. VanDam, and E.K. Williams|Do Amphipods have the same Concentration-Response to Contaminated Sediment in Situ as In Vitro?|Environ. Toxicol. Chem.18(5): 1026-1037|1999|
48688|T||Dey,P.M., J. Burger, M. Gochfeld, and K.R. Reuhl|Developmental Lead Exposure Disturbs Expression of Synaptic Neural Cell Adhesion Molecules in Herring Gull Brains|Toxicology146:137-147|2000|10.1016/S0300-483X(00)00171-2
48690|T||Dhanapakiam,P., and V. Sampoorani|Toxicity of Diflubenzuron on Adult Emergence of Spodoptera litura F|J. Environ. Biol.18(4): 391-394|1997|
48695|A||Diamantino,T.C., L. Guilhermino, E. Almeida, and A.M.V.M. Soares|Toxicity of Sodium Molybdate and Sodium Dichromate to Daphnia magna Straus Evaluated in Acute, Chronic, and Acetylcholinesterase Inhibition Tests|Ecotoxicol. Environ. Saf.45(3): 253-259|2000|10.1006/eesa.1999.1889
48698|T||Diamond,L., and H.F. Clark|Comparative Studies on the Interaction of Benzo-a-Pyrene with Cells Derived from Poikilothermic and Homeothermic Vertebrates Part 1 Metabolism of Benzo-a-Pyrene|J. Natl. Cancer Inst.45(5): 100-1012|1970|
48699|A||Diamond,S.A., D.R. Mount, L.P. Burkhard, G.T. Ankley, E.A. Makynen, and E.N. Leonard|Effect of Irradiance Spectra on the Photoinduced Toxicity of Three Polycyclic Aromatic Hydrocarbons|Environ. Toxicol. Chem.19(5): 1389-1396|2000|10.1002/etc.5620190522
48700|T||Dias,R.M.S., J.C. Soveral-Dias, and A.S.V. Costa|The Effect of Liming and Organic Manuring on the Reduction of Copper Toxicity in an Acid Soil of Granitic Origin of Dao Wine Region, Portugal|Dev. Plant Soil Sci.:509-516|1993|
48702|T||Dible,W.T., and K.C. Berger|Boron Content of Alfalfa as Influenced by Boron Supply|Proc. Soil Sci. Soc. Am.16:60-62|1952|10.2136/sssaj1952.03615995001600010018x
48704|T||Dickerson,R.L., M.J. Hooper, N.W. Gard, G.P. Cobb, and R.J. Kendall|Toxicological Foundations of Ecological Risk Assessment: Biomarker Development and Interpretation Based on Laboratory and Wildlife Species|Environ. Health Perspect.102(suppl.12): 65-69|1994|10.1289/ehp.94102s1265a
48705|T||Dickerson,R.L., C.S. McMurry, E.E. Smith, M.D. Taylor, S.A. Nowell, and L.T. Frame|Modulation of Endocrine Pathways by 4,4'-DDE in the Deer Mouse Peromyscus maniculatus|Sci. Total Environ.233:97-108|1999|10.1016/S0048-9697(99)00183-7
48706|T||Dickinson,C.H., and B. Wallace|Effects of Late Applications of Foliar Fungicides on Activity of Micro-organisms on Winter Wheat Flag Leaves|Trans. Br. Mycol. Soc.76(1): 103-112|1976|10.1016/S0007-1536(76)80014-9
48710|T||Dieter,M.P., H.B. Matthews, R.A. Jeffcoate, and R.F. Moseman|Comparison of Lead Biopavailability in F344 Rats fed Lead Acetate, Lead Oxide, Lead Sulfide, or Lead Ore Concentrate from Skagway, Alaska|J. Toxicol. Environ. Health39(1): 79-93|1993|10.1080/15287399309531737
48711|T||Dietrich,D.R., P. Schmid, U. Zweifel, C. Schlatter, S. Jenni-Eiermann, H. Bachmann, U. Buhler, and N. Zbinden|Mortality of Birds of Prey Following Field Application of Granular Carbofuran:  A Case Study|Arch. Environ. Contam. Toxicol.29(1): 140-145|1995|10.1007/BF00213099
48712|A||Dietz,T.H., S.J. Wilcox, R.A. Byrne, and H. Silverman|Effects of Hyperosmotic Challenge on the Freshwater Bivalve Dreissena polymorpha: Importance of K+|Can. J. Zool.75(5): 697-705|1997|10.1139/z97-090
48713|A||Dietz,T.H., and R.A. Byrne|Measurement of Sulfate Uptake and Loss in the Freshwater Bivalve Dreissena polymorpha Using a Semi-Microassay|Can. J. Zool.77:331-336|1999|10.1139/z98-215
48719|A||Dillon,T.M., D.W. Moore, and A.B. Gibson|Development of a Chronic Sublethal Bioassay for Evaluating Contaminated Sediment with the Marine Polychaete Worm Nereis (Neanthes) arenaceodentata|Environ. Toxicol. Chem.12(3): 589-605|1993|10.1002/etc.5620120318
48721|T||Dina,S.O., and J.A. Medaiyedu|Field Tests with Insecticides to Control Maruca testulalis and Other Pod-Boring Insects of Cowpea in Southern Nigeria|J. Econ. Entomol.69(2): 173-177|1976|10.1093/jee/69.2.173
48722|T||Dina,S.O.|Effect of Insecticidal Application at Different Growth Phases on Insect Damage and Yield of Cowpea|J. Econ. Entomol.69(2): 186-188|1976|10.1093/jee/69.2.186
48723|T||Dinev,N., and I. Stancheva|Changes in Nitrate Reductase Activity, Plastid Pigment Content, and Plant Mineral Composition of Wheat, Rye, and Triticale Grown in the Presence of Aluminum|J. Plant Nutr.16(12): 2397-3409|1993|10.1080/01904169309364696
48727|T||Dinsdale,D., and R.D. Verschoyle|Pulmonary Toxicity of Naphthalene Derivatives in the Rat|Arch. Toxicol.(Suppl.11):288-291|1987|
48728|T||Diomande,M., and M.K. Beute|Comparison of Soil Plate Fungicide Screening and Field Efficacy in Control of Sclerotium rolfsii on Peanuts|Plant Dis. Rep.61(5): 408-412|1977|
48729|T||Dionigi,C.P.|The Effects of Copper Sulfate on Geosmin Biosynthesis by Streptomyces tendae, Streptomyces albidoflavus, and Penicillium expansum|Water Sci. Technol.31(11): 135-138|1995|10.2166/wst.1995.0421
48732|T||Disney,R.W., and K.S. Fowler|Residues in Cereals Exposed to Hydrogen Phosphide|In: Proceedings of a Combined Panel and Research.Coordination Meeting, Organized by the Joint FAO/IAEA Div.of Atomic Energy in Food and Agricult., Oct.25-29, 1971, Held in Vienna, Austria:99-101|1972|
48735|T||Dittrich,V., and A. Ghobrial|Dynamics of Resistance to Acaricides in Two Mite Species, Tetranychus arabicus Attiah, and T. cucurbitacearum Sayed, Occurring on Egyptian Cotton|Z. Angew. Entomol. (Multiple Languages)76:418-429|1974|10.1111/j.1439-0418.1974.tb01900.x
48740|T||Dixon,J., M.R. Hull, A.H. Cobb, and G.E. Sanders|Ozone Pollution Modifies the Response of Sugarbeet to the Herbicide Phenmedipham|Water Air Soil Pollut.85(3): 1443-1448|1995|10.1007/BF00477184
48743|T||Dixon,R.L., I.P. Lee, and R.J. Sherins|Methods to Assess Reproductive Effects of Environmental Chemicals: Studies of Cadmium and Boron Administered Orally|Environ. Health Perspect.13:59-67|1976|10.1289/ehp.761359
48747|T||Dobereiner,J.|Manganese Toxicity Effects on Nodulation and Fixation in Beans (Phaseolus vulgaris, L.) in Acid Soils|Plant Soil24:153-166|1966|10.1007/BF01373081
48749|T||Dobrota,M.|Absorption and Tissue Distribution of Cadmium in the Mouse Following Dietary Uptake of Cd-Potato|In: E.Merian and W.Haerdi (Eds.), Metal Compounds in Environment and Life, 4.Interrelation Between Chemistry and Biology, Science and Technology Letters, Northwood, UK:261-264|1992|
48750|T||Dobson,R.L., C.G. Koehler, J.S. Felton, T.C. Kwan, B.J. Wuebbles, and D.C.L. Jones|Vulnerability of Female Germ Cells in Developing Mice and Monkeys to Tritium, Gamma Rays, and Polycyclic Aromatic Hydrocarbons|Doe Symp Ser47:1-14|1978|
48752|A||Dodson,S.I., C.M. Merritt, J.P. Shannahan, and C.M. Shults|Low Exposure Concentrations of Atrazine Increase Male Production in Daphnia pulicaria|Environ. Toxicol. Chem.18(7): 1568-1573|1999|10.1002/etc.5620180732
48754|T||Doelman,P., and L. Haanstra|Effects of Lead on the Decomposition of Organic Matter|Soil Biol. Biochem.11:481-485|1979|10.1016/0038-0717(79)90006-3
48755|T||Doelman,P., and L. Haanstra|Effect of Lead on Soil Respiratoin and Dehydrogenase Activity|Soil Biol. Biochem.11:475-479|1979|10.1016/0038-0717(79)90005-1
48756|T||Doelman,P., G. Nieboer, J. Schroote., and M. Visser|Antagonistic and Synergistic Toxic Effects of Pb and Cd in a Simple Foodchain - Nematodes Feeding on Bacteria or Fungi|Bull. Environ. Contam. Toxicol.32(6): 717-723|1984|10.1007/BF01607562
48760|T||Dogra,S.W., and S. Kant|Effect of Bavistin on the Growth and Nodulation of Some Pulses Under Jammu Soil Conditions, J&K State|J. Environ. Biol.19(4): 313-321|1998|
48763|T||Dohler,K.D., S.S. Srivastava, J.E. Shryne, B. Jarzab, A. Sipos, and R.A. Gorski|Differentiation of the Sexually Dimorphic Nucleus in the Preoptic Area of the Rat Brain is Inhibited by Postnatal Treatment with an Estrogen Antagonist|Neuroendocrinology38:297-301|1984|10.1159/000123907
48764|AT||Dokiya,Y., N. Owa, and S. Mitsui|Comparative Physiological Study of Iron, Manganese and Copper Absorption by Plants:  III. Interaction Between Fe, Mn and Cu on the Absorption of the Elements by Rice and Barley Seedlings|Soil Sci. Plant Nutr.14(5): 169-174|1968|10.1080/00380768.1968.10432761
48765|T||Dolbeer,R.A., M.A. Link, and P.P. Woronecki|Naphthalene Shows no Repellency for Starlings|Wildl. Soc. Bull.16(1): 62-64|1988|
48768|T||Domb,A.J., A. Marlinsky, M. Maniar, and L. Teomim|Insect Repellent Formulations of N,N-Diethyl-m-Toluamide (Deet) in a Liposphere System: Efficacy and Skin Uptake|Am. Mosq. Control Assoc. J.11(1): 29-34|1995|
48769|T||Domir,S.C., E.A. Woolson, P.C. Kearney, and A.R. Isensee|Translocation and Metabolic Fate of Monosodium Methanearsonic Acid in Wheat (Triticum aestivum L.)|J. Agric. Food Chem.24(6): 1214-1217|1976|10.1021/jf60208a008
48771|A||Domouhtsidou,G.P., and V.K. Dimitriadis|Ultrastructural Localization of Heavy Metals (Hg,Ag,Pb, and Cu) in Gills and Digestive Gland of Mussels, Mytilus galloprovincialis (L.)|Arch. Environ. Contam. Toxicol.38(4): 472-478|2000|10.1007/s002449910062
48773|T||Don-Pedro,K.N.|A Population Explosion of Aphis craccivora Koch Following DDT Application in a Cowpea, Plot (Vigna unguiculata) Cultivar (Prima) in Nigeria|J. Nat. Hist.14(5): 617-620|1980|10.1080/00222938000770511
48774|T||Donald,W.W., and T. Prato|Effectiveness and Economics of Repeated Sequences of Herbicides for Canada Thistle (Cirsium arvense) Control in Reduced-Till Spring Wheat (Triticum aestivum)|Can. J. Plant Sci.72:599-618|1992|10.4141/cjps92-075
48775|T||Donaldson,T.W., D.E. Bayer, and O.A. Leonard|Absorption of 2,4-Dichlorophenoxyacetic Acid and 3-(p-Chlorophenyl)-1, 1-Dimethylurea (Monuron) by Barley Roots|Plant Physiol.52(6): 638-645|1973|10.1104/pp.52.6.638
48776|T||Donat,S., and J. Abel|Analysis of Gene Expression in Lung and Thymus ot TCDD Treated C57BL/6 Mice Using Differential Display RT-PCR|Chemosphere37(9-12): 1867-1872|1998|10.1016/S0045-6535(98)00252-5
48777|T||Doncheva,S.|Qualitative and Structural Changes in Maize Plant Root Cells Under Increased Concentrations of Manganese and Cobalt|Dokl. Bolg. Akad. Nauk45(8): 119-122|1992|
48780|T||Dongsen,X., R.B. Harrison, and C.L. Henry|Effect of Organic Acid on Cd Toxicity in Tomato and Bean Growth|J. Environ. Sci.7(4): 399-406|1995|
48781|T||Donker,M.H., and C.G. Bogert|Adaptation to Cadmium in Three Populations of the Isopod Porcellio scaber|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 143-146|1991|10.1016/0742-8413(91)90141-F
48782|T||Donker,M.H., M.H. Raedecker, and N.M. Van Straalen|Responses to Zinc Contaminated Food in Two Populations of the Isopod Porcellio scaber|In: M.H.Donker (Ed.), Ph.D.Thesis, Physiology of Metal Adaptation in Porcellio scaber, Chapter 4, Vrije Univ., Amsterdam, Netherlands:53-74|1992|
48783|T||Donker,M.H., M.H. Raedecker, and N.M. Van Straalen|The Role of Zinc Regulation in the Zinc Tolerance Mechanism of the Terrestrial Isopod Porcellio scaber|J. Appl. Ecol.33:955-964|1996|10.2307/2404677
48785|A||Donohoe,R.M., J.L. Wang-Buhler, D.R. Buhler, and L.R. Curtis|Effects of 3,3',4,4',5,5'-Hexachlorobiphenyl on Cytochrome P4501A and Estrogen-Induced Vitellogenesis in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.18(5): 1046-1052|1999|
48789|T||Dorough,H.W., D.M. Whitacre, and R.A. Cardona|Metabolism of the Herbicide Methazole in Cotton and Beans, and Fate of Certain of its Polar Metabolites in Rats|J. Agric. Food Chem.21(5): 797-803|1973|10.1021/jf60189a007
48791|T||Dortenzio,W.A., and R.F. Norris|The Influence of Soil Moisture on the Foliar Activity of Diclofop|Weed Sci.28(5): 534-539|1980|10.1017/S0043174500061178
48792|T||Dost,F.N., R.M. Knaus, D.E. Johnson, and C.H. Wang|Fluoride Impairment of Glucose Utilization:  Nature of Effect in Rats During and After Continuous NaF Infusion|Toxicol. Appl. Pharmacol.41:451-458|1977|10.1016/S0041-008X(77)80001-X
48797|A||Douglas,W.S., and M.T. Horne|The Interactive Effects of Essential Ions and Salinity on the Survival of Mysidopsis bahia in 96-h Acute Toxicity Tests of Effluents Discharged to Marine and Estuarine Receiving Waters|Environ. Toxicol. Chem.16(10): 1996-2001|1997|
48800|T||Doumbia,M.D., L.R. Hossner, and A.B. Onken|Sorghum growth in acid soils of west africa: variations in soil chemical properties|Arid Soil Res. Rehabil.12:179-190|1998|
48802|T||Douthwaite,R.J.|Effects of DDT Treatments Applied for Tsetse Fly Control on White-Headed Black Chat (Thamnolaea arnoti) Populations in Zimbabwe. Part I: Population Changes|Ecotoxicology1:17-30|1992|10.1007/BF00702653
48803|T||Douthwaite,R.J.|Effects of DDT Treatments Applied for Tsetse Fly Control on White-Browed Sparrow-Weaver (Plocepasser mahali) Populations in NW Zimbabwe|Afr. J. Ecol.30:233-244|1992|10.1111/j.1365-2028.1992.tb00498.x
48804|T||Doval,S.L., B.P. Mathur, and C.K. Kaul|Studies on the biology and control of chaetocnema-basalis chrysomelidae coleoptera|Ann. Arid Zone14(1): 57-62|1975|
48808|T||Dowler,C.C., F.H. Tschirley, R.W. Bovey, and H.L. Morton|Effect of Aerially-Applied Herbicides on Texas and Puerto Rico Forests|Weed Sci.18(1): 164-168|1970|10.1017/S0043174500077596
48809|T||Downes,G.M., and N.D. Turvey|The Effect of Nitrogen and Copper on Characteristics of Wood Tissue in Pinus radiata|Can. J. For. Res.20(9): 1369-1377|1990|10.1139/x90-181
48811|AT||Doyle,J.J., R.T. Marshall, and W.H. Pfander|Effects of Cadmium on the Growth and Uptake of Cadmium by Microorganisms|Appl. Microbiol.29:562-564|1975|10.1128/am.29.4.562-564.1975
48814|T||Dreifuss,J.J., J.S. Kelly, and K. Krnjevic|Effects of Copper on Cortical Neurones|Brain Res.13:607-611|1969|10.1016/0006-8993(69)90272-8
48815|T||Drescher,N., and T.F. Burger|Synthesis of 5-Amino-4-Chloro-2-Phenyl-3(2H)-Pyridozinone-4,5-14C (Pyrazon) in Soil|Bull. Environ. Contam. Toxicol.5(1): 79-84|1970|10.1007/BF01545131
48817|T||Drewes,C.D., E.P. Vining, and C.A. Callahan|Non-Invasive Electrophysiological Monitoring: A Sensitive Method for Detecting Sublethal Neurotoxicity in Earthworms|Environ. Toxicol. Chem.3(4): 599-607|1984|
48818|T||Drewes,C.D., M.J. Zoran, and C.A. Callahan|Sublethal Neurotoxic Effects of the Fungicide Benomyl on Earthworms (Eisenia fetida)|Pestic. Sci.19:197-208|1987|10.1002/ps.2780190305
48820|T||Drewes,C.D., and A. Lingamneni|Testing:  Sublethal Effects of Carbofuran in Lumbricus terrestris|In: P.W.Greig-Smith, H.Becker, P.J.Edwards, and F.Heimbach (Eds.), Ecotoxicology of Eathworms, Intercept Ltd., Newcastle Upon Tyne, UK:63-72|1992|
48822|T||Drobne,D., and J. Strus|The Effect of Zn on the Digestive Gland Epithelium of Porcellio scaber (Isopoda, Crustacea)|Pflug. Arch. Eur. J. Phy.431(suppl.): R247 - R248|1996|
48824|T||Drong,K., I. Lamprecht, C. Motzkus, and B. Schaarschmidt|Calorimetric Investigations of Pollution by Xenobiotics|Thermochim. Acta193:125-134|1991|10.1016/0040-6031(91)80179-M
48829|A||Duan,Y., S.I. Guttman, J.T. Oris, and A.J. Bailer|Genotype and Toxicity Relationships Among Hyalella azteca:  I.  Acute Exposure to Metals or Low pH|Environ. Toxicol. Chem.19(5): 1414-1421|2000|10.1002/etc.5620190525
48830|T||Dubey,H.D., and R.L. Rodriguez|Effect of Dyrene and Maneb on Nitrification and Ammonification and Their Degradation in Tropical Soils|Proc. Soil Sci. Soc. Am.34:435-439|1970|10.2136/sssaj1970.03615995003400030025x
48831|T||Dubey,H.D., and R.L. Rodriguez|Changes in Soil Microflora Following Application of Fungicides Dyrene and Maneb to Tropical Soils|J. Agric. Univ. P. R.58(1): 78-86|1974|10.46429/jaupr.v58i1.10705
48832|T||Dubey,P.S., and L.P. Mall|Herbicidal Pollution. Pollen Damage by the Herbicide Vapours|Experientia28(5): 600-|1972|10.1007/BF01931901
48834|T||Duble,R.L., E.C. Hlt, and G.G. McBee|Translocation and Break-Down of Disodium Methanearsonate (DSMA) in Coastal Bermudagrass|J. Agric. Food Chem.17(6): 1247-1250|1969|10.1021/jf60166a063
48835|T||Duble,R.L., and R.W. Weaver|Thatch Decomposition in Bermudagrass Turf|Turfgrass Cult55:445-451|1974|
48836|T||Duckart,E.C., L.J. Waldron, and H.E. Donner|Selenium Uptake and Volatilization from Plants Growing in Soil|Soil Sci.153(2): 94-99|1992|10.1097/00010694-199202000-00002
48839|T||Dueck,T.A., W.H.O. Ernst, E. Hulzebos, and F. Pasman|Growth and Reproduction of Silene cucubalus Exposed to Heavy Metals and Air Pollutants|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:236-238|1985|
48842|T||Duhan,J.S., and S.S. Dudeja|Effect of Exogenous Iron, Synthetic Chelator and Rhizobial Siderophores on Iron Acquisition by Pigeonpea Host in Pigeonpea-Rhizobium Symbiosis|Microbiol. Res.153(1): 37-45|1998|10.1016/S0944-5013(98)80019-0
48843|T||Duijff,B.J., De Kogel W.J., P.A.H.M. Bakker, and B. Schippers|Influence of Pseudobactin 358 on the Iron Nutrition of Barley|Soil Biol. Biochem.26(12): 1681-1688|1994|10.1016/0038-0717(94)90321-2
48852|T||Dunn,B.P.|Binding of Orally Administered Benzo(a)pyrene to the DNA of Mice over a Dosage Range of 100,000|In: M.Cooke, A.J.Dennis, and G.L.Fisher (Eds.), 6th Int.Symp., Polynuclear Aromatic Hydrocarbons, Springer-Verlag, NY:247-254|1982|
48853|T||Dupree,M., and C.M. Beckham|Residues of DDT and Endrin in Soil and on Vegetables Grown on Land Following Insecticide Treated Cotton|J. Ga. Entomol. Soc.3(4): 141-146|1968|
48854|A||Duquesne,S., M. Riddle, R. Schulz, and M. Liess|Effects of Contaminants in the Antarctic Environment - Potential of the Gammarid Amphipod Crustacean Paramorea walkeri as a Biological Indicator for Antarctic Ecosystems Based on Toxicity and Biocaccumulation of Copper |Aquat. Toxicol.49:131-143|2000|10.1016/S0166-445X(99)00067-3
48855|T||Durmishidze,S.V., D.S. Ugrekhelidze, and A.N. Dzhikiya|Assimilation and Conversion of Toluene by Higher Plants|In: Inst.of Plant Biochemistry, Acad.of Sci.of the GruzSSR, Tbilis; Translated from Prikladnaya Biokhimiya i Mikrobiologiya10(5): 673-676|1974|
48856|T||Durmishidze,S.V., T.V. Devdariani, L.K. Kavtaradze, and L.S. Kvartskhava|Assimilation and Conversion of 3,4-Benzpyrene by Plants Under Sterile Conditions|Dokl. Biochem.218(1-6): 502-505|1974|
48858|A||Dushenko,W.T., D.A. Bright, and K.J. Reimer|Arsenic Bioaccumulation and Toxicity in Aquatic Macrophytes Exposed to Gold-Mine Effluent:  Relationships with Environmental Partitioning, Metal Uptake and Nutrients|Aquat. Bot.50(2): 141-158|1995|10.1016/0304-3770(95)00448-9
48860|T||Dushenkov,V., P.B.A.N. Kumar, H. Motto, and I. Raskin|Rhizofiltration: The Use of Plants to Remove Heavy Metals From Aqueous Streams|Environ. Sci. Technol.29(5): 1239-1245|1995|10.1021/es00005a015
48861|T||Dwivedi,R.S.|Lead Exposure Alters the Drug Metabolic Activity and the Homeostasis of Essential Metal Ions in the Lenticular System of the Rat|Environ. Pollut.94(1): 61-66|1996|10.1016/S0269-7491(96)00057-7
48863|A||Dyer,S.D., D.T. Stanton, J.R. Lauth, and D.S. Cherry|Structure-Activity Relationships for Acute and Chronic Toxicity of Alcohol Ether Sulfates|Environ. Toxicol. Chem.19(3): 608-616|2000|10.1002/etc.5620190312
48866|T||Earl,J.W., and I.R. Kennedy|Pre Treatment Effects on the Rates of Aldrin Metabolism in Pea Plants Pisum sativum|Aust. J. Biol. Sci.26(2): 341-347|1973|10.1071/BI9730341
48867|T||Easterwood,G.W., and J.B. Sartain|Clover residue effectiveness in reducing orthophosphate sorption on ferric hydroxide coated soil|Soil Sci. Soc. Am. J.54(5): 1345-1350|1990|10.2136/sssaj1990.03615995005400050024x
48869|T||Eaton,F.M.|Deficiency, Toxicity and Accumulation of Boron in Plants|J. Agric. Res.69(6): 237-277|1944|
48871|T||Ebbs,S.D., and L.V. Kochian|Toxicity of Zinc and Copper to Brassica Species: Implications for Phytoremediation|J. Environ. Qual.26(3): 776-781|1997|10.2134/jeq1997.00472425002600030026x
48872|T||Ebbs,S.D., and L.V. Kochian|Phytoextraction of Zinc by Oat (Avena sativa), Barley (Hordeum vulgare), and Indian Mustard (Brassica juncea)|Environ. Sci. Technol.32(6): 802-806|1998|10.1021/es970698p
48880|T||Echevarria,G., P.C. Vong, E. Leclerc-Cassac, and J.L. Morel|Bioavailability of Technetium-99 as Affected by Plant Species and Growth Application Form, and Soil Incubation|J. Environ. Qual.26:947-956|1997|10.2134/jeq1997.00472425002600040004x
48881|T||Eckenrode,C.J.|Foliar sprays for control of the aster leafhopper on carrots|J. Econ. Entomol.66(1): 265-266|1973|10.1093/jee/66.1.265
48884|T||Eder,M., T. Knacker, and J. Rombke|Effects of Pesticides on the Decomposition Process and the Carboxymethylcellulase Activity in Terrestrial Ecosystems|In: J.P.Anderson, (Eds.), Proceedings of the International Symposium on Environmental Aspects of Pesticide Microbiology, Sigtuna, Sweden:74-81|1992|
48885|T||Edmeades,D.C., D.M. Wheeler, and R.A. Christie|The Effects of Aluminium and pH on the Growth of a Range of Temperate Grass Species and Cultivars|Dev. Plant Soil Sci.45:913-924|1991|
48886|T||Edmeades,D.C., D.M. Wheeler, F.P.C. Blamey, and R.A. Christie|Calcium and Magnesium Amelioration of Aluminium Toxicity in Aluminium-sensitive and Aluminium-tolerant Wheat|Dev. Plant Soil Sci.45:755-761|1991|
48888|T||Edwards,C.A., A.R. Thompson, and J.R. Lofty|Changes in Soil Invertebrate Populations Caused by Some Organophosphorus Insecticides|Proc. Br. Insectic. Fungic. Conf.:48-55|1967|
48890|T||Edwards,C.A., and C.J. Stafford|Interactions Between Herbicides and the Soil Fauna|Ann. Appl. Biol.91(1): 132-137|1979|
48893|T||Edwards,C.A., and J.R. Lofty|Effects of Earthworm Inoculation upon the Root Growth of Direct Drilled Cereals|J. Appl. Ecol.17(3): 533-543|1980|10.2307/2402635
48899|T||Edwards,C.R., E.C. Berry, and T.A. Brindley|Effect of Insecticide Applications on Insect Predators of the European Corn Borer in Central Iowa|Iowa State J. Res.54(3): 361-366|1980|
48900|T||Edwards,N.T., B.M. Ross-Todd, and E.G. Garver|Uptake and Metabolism of 14C Anthracene by Soybean (Glycine max)|Environ. Exp. Bot.22(3): 349-357|1982|10.1016/0098-8472(82)90027-2
48903|T||Edwards,P.M.|The Distribution and Metabolism of Acrylamide and Its Neurotoxic Analogues in Rats|Biochem. Pharmacol.24:1277-1282|1975|10.1016/0006-2952(75)90336-6
48904|T||Edwards,P.M.|The Insensitivity of the Developing Rat Foetus to the Toxic Effects of Acrylamide|Chem.-Biol. Interact.12:13-18|1976|10.1016/0009-2797(76)90062-4
48907|T||Egaas,E., E.G. Jensen, and J.U. Skare|Activities of Some Microsomal Enzymes of the Yellow Mealworm, Tenebrio molitor (Linne). II. Influence of Larval Weight on Basal Levels, Inducibility, and Lindane Toxicity with and Without Aldrin Pretreatment|Pestic. Biochem. Physiol.30:40-45|1988|10.1016/0048-3575(88)90058-2
48908|T||Egaas,E., E.G. Jensen, and J.U. Skare|Activities of Some Microsomal Enzymes of the Yellow Mealworm, Tenebrio molitor (Linne). I. Basal Levels and Inducibility|Pestic. Biochem. Physiol.30:35-39|1988|10.1016/0048-3575(88)90057-0
48910|T||Egaas,E., N.O. Svendsen, S. Kobro, and J.U. Skaare|Glutathione S-Transferases in Endosulfan-Treated Red Sword Grass Moth (Xylena vetusta Hb.) and Hebrew Character Moth (Orthosia gothica L.) Reared on Leaves from Apple (Malus domestica Cult.) or Willow (Salix caprea L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(1): 143-150|1992|10.1016/0742-8413(92)90212-P
48911|T||Egaas,E., J.U. Skaare, A. Goksoyr, N.O. Svendsen, and S. Kobro|Effects of the Insecticide Thiodan 35 (Endosulfan) on Xenobiotic Metabolizing Enzymes from Midgut and Gut-Free Tissues of Some Coleopteran Larva|Comp. Biochem. Physiol. C Comp. Pharmacol.102(3): 385-389|1992|10.1016/0742-8413(92)90130-Y
48913|T||Egilla,J.N., D.H. Byrne, and D.W. Reed|Iron Stress Response of Three Peach Rootstock Cultivars:  Ferric-Iron Reduction Capacity|J. Plant Nutr.17(12): 2079-2103|1994|10.1080/01904169409364867
48915|T||Egle,J.L.,Jr., P.M. Hudgins, and F.M. Lai|Cardiovascular Effects of Intravenous Acetaldehyde and Propionaldehyde in the Anesthetized Rat|Toxicol. Appl. Pharmacol.24:636-644|1973|10.1016/0041-008X(73)90225-1
48919|T||Ehlig,C.F., W.H. Allaway, E.E. Cary, and J. Kubota|Differences Among Plant Species in Selenium Accumulation from Soils Low in Available Selenium|Agron. J.60:43-47|1968|10.2134/agronj1968.00021962006000010014x
48921|T||Eidmann,H., O. Bergman, B. Henningsson, and C. Moller|Residues of DDT and Lindane on Treated Conifer Seedlings and in Forest Soil|Studia For. Suec.151:1-21|1979|
48922|T||Eidmann,H.H., O. Bergman, B. Henningsson, and C. Moller|DDT and Lindane Residues on Treated Conifer Seedlings and in Soil|Ambio8(5): 214-217|1979|
48924|T||Eijsackers,H.|Effects of the Herbicide 2,4,5-T on Onychiurus quadriocellatus Gisin (Coll.)|In: J.Vanek (Ed.), Progress in Soil Zoology, The Hague, Netherlands:481-488|1975|
48925|T||Eijsackers,H.|Side Effects of the Herbicide 2,4,5-T Affecting Mobility and Mortality of the Springtail Onychiurus quadriocellatus Gisin (Collembola)|Z. Angew. Entomol. (Multiple Languages)86:349-372|1978|10.1111/j.1439-0418.1978.tb01942.x
48926|T||Eijsackers,H.|Side Effects of the Herbicide 2,4,5-T Affecting the Carabid Notiophilus biguttatus Fabr., a Predator of Springtails|Z. Angew. Entomol. (Multiple Languages)86:113-128|1978|10.1111/j.1439-0418.1978.tb01919.x
48927|T||Eijsackers,H.|Side Effects of the Herbicide 2,4,5-T Affecting the Isopod Philoscia muscorum Scopoli|Z. Angew. Entomol. (Multiple Languages)87:28-52|1978|10.1111/j.1439-0418.1978.tb02424.x
48928|T||Eijsackers,H.|Litter Fragmentation by Isopods as Affected by Herbicide Application|Neth. J. Zool.41(4): 277-303|1991|10.1163/156854291X00207
48942|T||Ekblom,A., A. Flock, P. Hansson, and D. Ottoson|Ultrastructural and Electrophysiological Changes in the Olafactory Epithelium Following Exposure to Organic Solvents|Acta Oto-Laryngol.98:351-361|1984|10.3109/00016488409107573
48943|A||Eklund,B.|Reproductive Performance and Growth Response of the Red Alga Ceramium strictum Under the Impact of Phenol|Mar. Ecol. Prog. Ser.167:119-126|1998|10.3354/meps167119
48946|T||El-Kenawy,Z.A., J.S. Angle, E.M. Gewaily, N.A. El-Wafai, P. Van Berkum, R.L. Chaney, and M.A. Ibekwe|Zinc and Cadmium Effects on the Early Stages of Nodulation in White Clover|Agron. J.89(6): 875-880|1997|10.2134/agronj1997.00021962008900060005x
48947|T||El Baz,F.K., P. Maier, A.H. Wissemeier, and W.J. Horst|Uptake and Distribution of Manganese Applied to Leaves of Vicia faba (cv. Herzfreya) and Zea mays (cv. Regent) Plants|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)153(4): 279-282|1990|10.1002/jpln.19901530415
48949|T||El Fouly,M.|Effect of Low Concentrations of 3,4-Benzpyrene on Growth and Nitrogen Fractions of Seedlings|Landwirtsch. Forsch. (Non-English)33(1): 108-117|1980|
48952|T||El-Khodary,S., A. Habib, and A. Haliem|Cytological Effect of the Herbicide Garlon-4 on Root Mitosis of Allium cepa|Cytologia54:465-472|1989|10.1508/cytologia.54.465
48954|T||El Missiry,M.A.|Enhanced Testicular Antioxidant System by Ascorbic Acid in Alloxan Diabetic Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 233-237|1999|
48956|T||El-Morshedy,M.M.F., and N.H. Aziz|Effects of Fenamiphos, Carbofuran, and Aldicarb on Zearalenone Production by Toxigenic Fusarium spp. Contaminating Roots and Fruits of Tomato|Bull. Environ. Contam. Toxicol.54(4): 514-518|1995|10.1007/BF00192593
48957|T||El Nahal,A.K.M., H.M. Zazou, and M.A. Bishara|Chemical Control of the Rice Leaf Miner, Hydrellia Sp. (Diptera: Ephydridae) (with 2 Tables)|Bull. Entomol. Soc. Egypt5(1): 19-22|1971|
48958|T||El Sheikh,A.M., A. Ulrich, and T.C. Broyer|Effect of Lithium on Growth, Salt, Absorption and Chemical Composition of Sugar Beet Plants|Agron. J.63:755-758|1971|10.2134/agronj1971.00021962006300050029x
48959|T||Eldridge,J.C., D.G. Fleenor-Heyser, P.C. Extrom, L.T. Wetzel, C.B. Breckenridge, J.H. Gillis, L.G.I. Luempert III, and |Short-Term Effects of Chlorotriazines on Estrus in Female Sprague-Dawley and Fischer 344 Rats|J. Toxicol. Environ. Health43(2): 155-167|1994|10.1080/15287399409531912
48961|T||Elfadi,M.A., and M. Fahmy|Effect of Sodium 2,4-D and M.C.P.A. on Root Nodulation of Legumes and Soil Microorganisms|Agric. Res. Rev.36:333-338|1958|
48966|T||Elkhatib,E.A., G.M. Elshebiny, and A.A. Mohamed|Extractability and availability of lead from calcareous egyptian soils|Arid Soil Res. Rehabil.7(2): 113-124|1993|
48970|A||Eller,L.L.|Pathology in Redear Sunfish Exposed to Hydrothol 191|Trans. Am. Fish. Soc.98(1): 52-59|1969|10.1577/1548-8659(1969)98[52:PIRSET]2.0.CO;2
48971|T||Elliot,J.M., C.F. Marks, and C.M. Tu|Effects of Nematicides on Pratylenchus penetrans, Soil Microflora, and Flue-Cured Tobacco|Can. J. Plant Sci.52(1): 1-11|1972|10.4141/cjps72-001
48972|T||Elliott,J.E., S.W. Kennedy, D.B. Peakall, and H. Won|Polychlorinated Biphenyl (PCB) Effects on Hepatic Mixed Function Oxidases and Porphyria in Birds.  I.  Japanese Quail|Comp. Biochem. Physiol. C Comp. Pharmacol.96(1): 205-210|1990|10.1016/0742-8413(90)90069-L
48973|T||Elliott,M., A.W. Farnham, N.F. Janes, P.H. Needham, B.C. Pearson, and J.H. Stevenson|New Synthetic Insecticidal Compounds Related to the Pyrethrins|Proc. Br. Insectic. Fungic. Conf.:437-443|1967|
48979|T||Elmosly,W.A., and M.F. Abdel-Sabour|Transfer Characteristics and Uptake of Nickel by Red Clover Grown on Nickel Amended Alluvial Soils of an Arid Zone|Agric. Ecosyst. Environ.65(1): 49-57|1997|10.1016/S0167-8809(97)00053-4
48982|A||Elumalai,M., and M.P. Balasubramanian|Effect of Naphthalene on Phosphatases and Esterase in Muscle and Ovary of Intermoult Marine Edible Female Crab, Scylla serrata|Water Air Soil Pollut.111(1-4): 371-376|1999|10.1023/A:1005029600590
48984|A||Elzenga,J.T.M., H.B.A. Prins, and J. Stefels|The Role of Extracellular Carbonic Anhydrase Activity in Inorganic Carbon Utilization of Phaeocystis globosa (Pyrmnesiophyceae): A Comparison with Other Marine Algae Using Isotopic Disequilibrium Technique|Limnol. Oceanogr.45(2): 372-380|2000|10.4319/lo.2000.45.2.0372
48986|T||Ema,M., T. Itami, and H. Kawasaki|Behavioural Effects of Acute Exposure to Tributyltin Chloride in Rats|Neurotoxicol. Teratol.13:489-493|1991|10.1016/0892-0362(91)90054-Z
48987|T||Emeh,C.O., and E.H. Marth|Bioproduction of Rubratoxin in a Glucose - Mineral Salts Broth with Nutritional Supplements and Metabolic Inhibitors|Can. J. Microbiol.23:1695-1699|1977|10.1139/m77-244
48996|T||Endler,P.C., W. Pongratz, C.W. Smith, and J. Schulte|Non-molecular Information Transfer from Thyroxine to Frogs with Regard to Homeopathic Toxicology|Vet. Hum. Toxicol.37(3): 259-260|1995|
48999|T||Engelstein,D., J. Shmueli, S. Bruhis, C. Servadio, and A. Abramovici|Citral and Testosterone Interactions in Inducing Benign and Atypical Prostatic Hyperplasia in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(2): 169-177|1996|10.1016/0300-9629(96)00030-8
49000|A||England,D.C., and J.B. Bussard|Toxicity of Nonylphenol to the Midge Chironomus tentans|Final Rep.40597, ABS Lab.Inc., Columbia, MO:160 p.|1993|
49001|A||England,D.C., and J.B. Bussard|Toxicity of Nonylphenol to the Amphipod Hyalella azteca (Saussure)|Final Rep.No.41569, Chemical Manufacturers Assoc., Washington, DC:176 p.|1994|
49002|T||Engle,C.G., and V. Groupe|Effect of Chemical Carcinogens on Virus-Induced Rous sarcoma|Cancer Res.29(7): 1345-1349|1969|
49003|T||Engler,R.M., and W.H.,Jr. Patrick|Stability of Sulfides of Manganese, Iron, Zinc, Copper, and Mercury in Flooded and Nonflooded Soil|Soil Sci.119(3): 217-221|1975|10.1097/00010694-197503000-00006
49005|T||Enkvetchakul,B., and W.G. Bottje|Influence of Diethyl Maleate and Cysteine on Tissue Glutathione and Growth in Broiler Chickens|Poult. Sci.74(5): 864-873|1995|10.3382/ps.0740864
49006|T||Ensley,B.D., M.J. Blaylock, S. Dushenkov, N.P.B.A. Kumar, Y. Kapulnik, and J. Huang|Methods for Hyperaccumulation of Metals in Plant Shoots|Int.Applic.No.PCT/US97/04956, World Intellectual Property Org., Int.Appl.Publ.Under the Patient Coop.Treaty (PCT):67 p.|1997|
49012|A||U.S. Environmental Protection Agency|Semi-Annual Report.  April -September 1976|Semi-Annual Rep., U.S.EPA, Gulf Breeze, FL:51 p.|1976|
49025|A||U.S. Environmental Protection Agency|Quality Criteria for Water 1986|EPA 440/5-86-001, U.S.EPA, Washington, DC:477 p.|1986|
49043|T||Enzmann,H., C. Kuhlem, E. Loser, and P. Bannasch|Dose Dependence of Diethylnitrosamine-Induced Nuclear Enlargement in Embryonal Turkey Liver|Carcinogenesis16(6): 1351-1355|1995|10.1093/carcin/16.6.1351
49044|T||Enzmann,H., C. Kuhlem, G. Kaliner, E. Loser, and P. Bannasch|Rapid Induction of Preneoplastic Liver Foci in Embryonal Turkey Liver by Diethylnitrosamine|Toxicol. Pathol.23(5): 560-569|1995|10.1177/019262339502300502
49050|T||Epuri,V., and D.L. Sorensen|Benzo(a)pyrene and Hexachlorobiphenyl Contaminated Soil: Phytoremediation Potential|ACS Symp. Ser.664:200-222|1997|10.1021/bk-1997-0664.ch015
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49055|T||Ericsson,T., A. Goeransson, and G. Gobran|Effects of Aluminum on Growth and Nutrition in Birch Seedlings Under Magnesium- or Calcium-Limiting Growth Conditions|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)161(6): 653-660|1998|10.1002/jpln.1998.3581610609
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49067|T||Eroschenko,V.P.|Changes in the Reproductive Performance of the Japanese Quail fed Kepone in Different Calcium Diets|Bull. Environ. Contam. Toxicol.21:631-638|1979|10.1007/BF01685481
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49070|T||Erwin,D.C., H. Mee, and J.J. Sims|The Systemic Effect of 2-(Butylcarbomoyl)-2-Benzimidazole Carbamic Acid, Methyl Ester, on Verticillium Wilt of Cotton|Phytopathology58:528-529|1968|
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49079|A||Ettajani,H., C. Amiard-Triquet, and J.C. Amiard|Experimental Study of the Transfer of Two Trace Elements (Ag,Cu) in a Marine Trophic Chain: Water to Particles (Natural Sediment, Microalgae) to Filter-Feeding Molluscs (Crassostrea gigas Thunberg)|Water Air Soil Pollut.65(3-4): 215-236|1992|10.1007/BF00479888
49080|T||Evans,A.,Jr.|Influence of Low Molecular Weight Organic Acids on Zinc Distribution Within Micronutrient Pools and Zinc Uptake by Wheat|J. Plant Nutr.14(12): 1307-1318|1991|10.1080/01904169109364287
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49464|A||Geffen,A.J., N.J.G. Pearce, and W.T. Perkins|Metal Concentrations in Fish Otoliths in Relation to Body Composition After Laboratory Exposure to Mercury and Lead|Mar. Ecol. Prog. Ser.165:235-245|1998|10.3354/meps165235
49467|T||Gehrs,B.C., and R.J. Smialowicz|Persistent Suppression of Delayed-Type Hypersensitivity in Adult F344 Rats After Perinatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology134:79-88|1999|10.1016/S0300-483X(99)00024-4
49469|T||Geiger,G., P. Federer, and H. Sticher|Reclamation of Heavy Metal-Contaminated Soils: Field Studies and Germination Experiments|J. Environ. Qual.22(1): 201-207|1993|10.2134/jeq1993.00472425002200010027x
49471|T||Gellert,R.J.|Uteroptrophic Activity of Polychlorinated Biphenyls (PCB) and Induction of Precocious Reproductive Aging in Neonatally Treated Female Rats|Environ. Res.16(1-3): 123-130|1978|10.1016/0013-9351(78)90149-4
49472|T||Gellert,R.J., and C. Wilson|Reproductive Function in Rats Exposed Prenatally to Pesticides and Polychlorinated Biphenyls (PCB)|Environ. Res.18(2): 437-443|1979|10.1016/0013-9351(79)90119-1
49477|A||Gensemer,R.W., D.G. Dixon, and B.M. Greenberg|Using Chlorophyll a Fluorescence to Detect the Onset of Anthracene Photoinduced Toxicity in Lemna gibba, and the Mitigating Effects of a Commercial Humic Acid|Limnol. Oceanogr.44(3, Pt. 2): 878-888|1999|10.4319/lo.1999.44.3_part_2.0878
49478|T||Gentile,A.G., A.W. Vaughan, S.M. Richman, and A.T. Eaton|Corn Pollen Germination and Tube Elongation Inhibited or Reduced by Commercial and Experimental Formulations of Pesticides and Adjuvants|Environ. Entomol.2(2): 473-476|1973|10.1093/ee/2.3.473
49479|T||Gentile,A.G., A.W. Vaughan, and D.G. Pfeiffer|Cucumber Pollen Germination and Tube Elongation Inhibited or Reduced by Pesticides and Adjuvants|Environ. Entomol.7(5): 689-691|1978|10.1093/ee/7.5.689
49482|T||Geoghegan,M.J.|Drazoxolon - A New Fungicide|Proc. Br. Insectic. Fungic. Conf.1:451-460|1967|
49487|T||Gerard,E., G. Echevarria, T. Sterckeman, and J.L. Morel|Cadmium Availability to Three Plant Species Varying in Cadmium Accumulation Pattern|J. Environ. Qual.29(4): 1117-1123|2000|10.2134/jeq2000.00472425002900040012x
49488|T||Gerber,G., J. Maes, and J. Deroo|Effect of Dietary Lead on Placental Blood Flow and on Fetal Uptake of alpha-Amino Isobutyrate|Arch. Toxicol.41(2): 125-131|1978|10.1007/BF00302524
49489|T||Gerendas,J., J.C. Polacco, S.K. Freyermuth, and B. Sattelmacher|Co Does not Replace Ni with Respect to Urease Activity in Zucchini (Cucurbita pepo convar. giromontiina) and Soybean (Glycine max)|Plant Soil203(1): 127-135|1998|10.1023/A:1004343416511
49490|A||Gerhardt,A., and C. Palmer|Copper Tolerances of Adenophlebia auriculata (Eaton) 1884 (Insecta:  Ephemeroptera) and Burnupia stenochorias Cawston 1932 (Gastropoda:  Ancylidae) in Indoor Artificial Streams|Sci. Total Environ.215(3): 217-229|1998|10.1016/S0048-9697(98)00121-1
49494|A||Gerpe,M., P. Kling, A.H. Berg, and P.E. Olsson|Arctic Char (Salvelinus alpinus) Metallothionein: cDNA Sequence, Expression, and Tissue-Specific Inhibition of Cadmium-Mediated Metallothionein Induction by 17beta-Estradiol, 4-OH-PCB 30, and PCB 104|Environ. Toxicol. Chem.19(3): 638-645|2000|
49496|A||Gersdorff,W.A.|A New Criterion for the Comparison of Toxicity with Respect to Ceoncentration and Time|J. Agric. Res.50(11): 881-891|1935|
49498|T||Gerzabek,M.H., F. Strebl, and B. Temmel|Plant Uptake of Radionuclides in Lysimeter Experiments|Environ. Pollut.99(1): 93-103|1998|10.1016/S0269-7491(97)00167-X
49499|T||Gerzabek,M.H., and S.M. Ullah|Influence of Fulvic and Humic Acids on Cadmium- and Nickel-toxicity to Zea mays (L.)|Bodenkultur41(2): 115-124|1990|
49500|T||Gesell,S.G., and A.A.,Jr. Hower|Garden Symphylan: Comparison of Row and Broadcast Application of Granular Insecticides for Control|J. Econ. Entomol.66(3): 822-823|1973|10.1093/jee/66.3.822
49501|T||Geuns,J.M.C., A.J.F. Cuypers, T. Michiels, J.V. Colpaert, A. Van Laere, K.A.O. Van den Broeck, and C.H.A. Vandecasteele|Mung Bean Seedlings as Bio-Indicators for Soil and Water Contamination by Cadmium|Sci. Total Environ.203(3): 183-197|1997|10.1016/S0048-9697(97)00146-0
49504|T||Geyer,W.A., and C.E. Long|Tolerance of Selected Tree Seed to Combinations of Preemergent Herbicides|J. Environ. Hortic.9(1): 44-46|1991|10.24266/0738-2898-9.1.44
49505|T||Ghanta,P.K., and R.S. Dhua|Effect of Herbicides on Physico-Chemical Composition of Papaya (Carica papaya L.) and Yield of Papain|Environ. Ecol.11(4): 762-765|1993|
49506|T||Ghatak,S., G. Sounda, S. Maitra, D.K. Roy, B.K. Saren, and P.K. Panda|Effect of Irrigation and Potassium of Yield, Water Use and Nutrient Uptake by Summer Groundnut|Environ. Ecol.15(2): 425-428|1997|
49509|T||Ghetti,B., H.M. Wisniewski, R.D. Cook, and H. Schaumburg|Changes in the CNS After Acute and Chronic Acrylamide intoxication|Am. J. Pathol.70:78-|1973|
49512|T||Ghosh,D.K., A.K. Bandopadhyay, and S.K. Sen|Response of Auxinic and Non-Auxinic Chemicals on Rooting of Cashewnut (Anacardium occidentale L.) Air Layers|Environ. Ecol.12(1): 79-81|1994|
49513|T||Ghosh,G.|Effect of Growth Regulator on Nodulation in Some Important Legume Crops|Environ. Ecol.14(2): 422-424|1996|
49514|T||Ghosh,P., P.K. Jana, and G. Sounda|Effect of Sulfur and Irrigation on Growth, Yield, Oil Content and Nutrient Uptake by Irrigated Summer Sesame|Environ. Ecol.15(1): 83-89|1997|
49515|T||Ghosh,T.K., S. Maitra, B.K. Saren, D.K. Roy, and S.S. Singh|Effect of Different Levels and Methods of Sulfur Application on Growth and Yield of Blackgram|Environ. Ecol.14(4): 765-768|1996|
49518|T||Giashuddin,M., and A.H. Cornfield|Incubation Study on Effects of Adding Varying Levels of Nickel (as Sulohate) on Nitrogen and Carbon Mirealisation in Soil|Environ. Pollut.15(3): 231-234|1978|
49519|T||Giashuddin,M., and A.H. Cornfield|Effect of Adding Nickel (as Oxide) to Soil on Nitrogen and Carbon Mineralisation at Different pH Values|Environ. Pollut.19(1): 67-70|1979|
49520|T||Giavini,E., M. Prati, and C. Vismara|Effects of Cadmium, Lead and Copper on Rat Preimplantation Embryos|Bull. Environ. Contam. Toxicol.25:702-705|1980|10.1007/BF01985595
49523|T||Gibbs,M.H., L.F. Wicker, and A.J. Stewart|A Method for Assessing Sublethal Effects of Contaminants in Soils to the Earthworm, Eisenia foetida|Environ. Toxicol. Chem.15(3): 360-368|1996|10.1002/etc.5620150321
49525|T||Gibson,I.A.S., M. Ledger, and E. Boehm|An Anomalous Effect of Pentachloronitrobenzene on the Incidence of Damping-Off Caused by a Pythium sp.|Phytopathology51:531-533|1961|
49532|A||Giesy,J.P., S.L. Pierens, E.M. Snyder, S. Miles-Richardson, V.J. Kramer, S.A. Snyder, K.M. Nichols, and D.A. Villeneuve|Effects of 4-Nonylphenol on Fecundity and Biomarkers of Estrogenicity in Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.19(5): 1368-1377|2000|
49534|T||Giggleman,M.A., L.C. Fitzpatrick, A.J. Goven, and B.J. Venables|Effects of Pentachlorophenol on Survival of Earthworms (Lumbricus terrestris) and Phagocytosis by Their Immunoactive Coelomocytes|Environ. Toxicol. Chem.17(12): 2391-2394|1998|10.1002/etc.5620171205
49535|T||Gigliotti,G., D. Businelli, and P.L. Giusquiani|Trace Metals Uptake and Distribution in Corn Plants Grown on a 6-Year Urban Waste Compost Amended Soil|Agric. Ecosyst. Environ.58(2-3): 199-206|1996|10.1016/0167-8809(96)01032-8
49536|T||Gil,J., C.E. Alvarez, M.C. Martinez, and N. Perez|Effect of Vanadium on Lettuce Growth, Cationic Nutrition, and Yield|J. Environ. Sci.30A(1): 73-87|1995|
49537|T||Gilbert,L.O.|The Effect of XO2 on Lichens and Bryophytes Around Newcastle upon Tyne|In: Air Pollution, Proc.1st European congress on the Influence of Air Pollution on Plants and Animals, (1968)Wageningen: Centre for Agricultural Publ.and Documents:223-235|1969|
49538|T||Gilbert,M.E., and C.M. Mack|Seizure Thresholds in Kindled Animals are Reduced by the Pesticides Lindane and Endosulfan|Neurotoxicol. Teratol.17(2): 143-150|1995|10.1016/0892-0362(94)00065-L
49539|T||Gilbert,R.W., J.E. Sander, and T.P. Brown|Copper Sulfate Toxicosis in Commercial Laying Hens|Avian Dis.40(1): 236-239|1996|10.2307/1592396
49540|AT||Gilbertson,M.|Effects on Fish and Wildlife Populations|In: R.D.Kimbrough and A.A.Jensen (Eds.), Ilalogenated Biphenyls, Terphenyls, Naphthalenes, Dibenzodioxins and Related Products, 2nd Edition, Elsevier, Amsterdam:103-127|1989|
49541|T||Gile,J.D., and J.W. Gillett|Fate of Selected Fungicides in a Terrestrial Laboratory Ecosystem|J. Agric. Food Chem.27(6): 1159-1164|1979|10.1021/jf60226a016
49542|T||Gile,J.D., J.C. Collins, and J.W. Gillett|Fate of Selected Herbicides in a Terrestrial Laboratory Microcosm|Environ. Sci. Technol.14(9): 1124-1128|1980|10.1021/es60169a002
49543|T||Gile,J.D., and J.W. Gilbert|Transport and Fate of Organo Phosphate Insecticides in a Laboratory Model Ecosystem|J. Agric. Food Chem.29(3): 616-621|1981|10.1021/jf00105a044
49544|T||Gile,J.D., J.C. Collins, and J.W. Gillett|Fate and Impact of Wood Preservatives in a Terrestrial Microcosm|J. Agric. Food Chem.30(2): 295-301|1982|10.1021/jf00110a020
49546|T||Gill,B.S., and S.S. Sandhu|Application of the Tradescantia micronucleus Assay for the Genetic Evaluation of Chemical Mixtures in Soil and Aqueous Media|Mutat. Res.270(1): 65-69|1992|10.1016/0027-5107(92)90102-8
49548|T||Gill,T.A., G.B. Sundeen, J.F. Richards, and D.B. Bragg|The Effects of Dietary Selenium and Vitamin E on Avian White Muscle Disease as Measured by Both Chemical and Physical Parameters|Poult. Sci.59:2088-2097|1980|10.3382/ps.0592088
49552|T||Gillett,J.W.|Induction of Liver Microsomal Activities in Japanese Quail|In: J.W.Gillett (Ed.), The Biological Impact of Pesticides in the Environment, Environ.Health Ser.No.1, 8/19-19-20 1969, Oregon State University, Corvallis, OR:59-64|1970|
49553|T||Gillett,J.W., J.D. Gile, and L.K. Russell|Predator-Prey (Vole-Cricket) Interactions: The Effects of Wood Preservatives|Environ. Toxicol. Chem.2(1): 83-93|1983|
49554|T||Gillette,D.M., R.D. Corey, W.G. Helferich, J.M. McFarland, L.J. Lowenstine, D.E. Moody, B.D. Hammock, and L.R. Shull|Comparative Toxicology of Tetrachlorobiphenyls in Mink and Rats.  I.  Changes in Hepatic Enzyme Acticity and Smooth Endoplamic Reticulum Volume|Fundam. Appl. Toxicol.8:5-14|1987|10.1016/0272-0590(87)90095-9
49555|T||Gilliavod,N., and A. Leonard|Mutagenicity Tests with Cadmium in the Mouse|Toxicology5:43-47|1975|10.1016/0300-483X(75)90068-2
49558|T||Gilman,A.P., and A. Vardanis|Carbofuran. Comparative Toxicity and Metabolism in the Worms Lumbricus terrestris L. and Eisenia foetida S.|J. Agric. Food Chem.22(4): 625-628|1974|10.1021/jf60194a018
49562|T||Gilot-Delhalle,J., J. Moutschen, and M. Moutschen-Dahmen|Clastogenic Effects of Methoxy-7-Nitro-2-Naphtho (2,1-beta) Furan (R7000) on Nigella damascena L|Environ. Exp. Bot.34(4): 451-460|1994|10.1016/0098-8472(94)90028-0
49568|T||Gintenreiter,S., J. Ortel, and H.J. Nopp|Effects of Different Dietary Levels of Cadmium, Lead, Copper, and Zinc on the Vitality of the Forest Pest Insect Lymantria dispar L. (Lymantriidae, Lepid)|Arch. Environ. Contam. Toxicol.25(1): 62-66|1993|
49571|T||Giordano,P.M., and J.J. Mortvedt|Rice Response to Zn in Flooded and Nonflooded Soil|Agron. J.64:521-524|1972|10.2134/agronj1972.00021962006400040033x
49572|T||Giordano,P.M., and J.J. Mortvedt|Response of Several Rice Cultivars to Zn|Agron. J.66:220-223|1974|10.2134/agronj1974.00021962006600020012x
49575|A||Girard,J.P., J. Szpunar, M.L. Pedrotti, and D. Pesando|Toxicity of Tri-n-Butyltin to Sea Urchin Eggs and Larvae:  Relation to Bioaccumulation at the Nanomolar Level|Environ. Toxicol. Chem.19(5): 1272-1277|2000|
49576|A||Girling,A.E., D. Pascoe, C.R. Janssen, A. Peither, A. Wenzel, H. Schafer, B. Neumeier, G.C. Mitchell, E.J. Taylor, S.J.|Development of Methods for Evaluating Toxicity to Freshwater Ecosystems|Ecotoxicol. Environ. Saf.45(2): 148-176|2000|10.1006/eesa.1999.1847
49577|A||Girling,A.E., L.J. Tattersfield, G.C. Mitchell, N. Pearson, A.P. Woodbridge, and D. Bennett|Development of Methods to Assess the Effects of Xenobiotics in Outdoor Artificial Streams|Ecotoxicol. Environ. Saf.45(1): 1-26|2000|10.1006/eesa.1998.1681
49580|T||Gissel-Nielsen,G.|Influence of pH and Texture of the Soil on Plant Uptake of Added Selenium|J. Agric. Food Chem.19(6): 1165-1167|1971|10.1021/jf60178a030
49581|T||Gissel-Nielsen,G.|Selenium Content of Some Fertilizers and Their Influence on Uptake of Selenium in Plants|J. Agric. Food Chem.19(3): 564-566|1971|10.1021/jf60175a026
49583|T||Gist,C.S., and F.W. Whicker|Radioiodine Uptake and Retention by the Mule Deer Thyroid|J. Wildl. Manag.35(3): 461-468|1971|10.2307/3799699
49587|T||Glaubig,B.A., and F.T. Bingham|Boron Toxicity Characteristics of Four Northern California Endemic Tree Species|J. Environ. Qual.14(1): 72-77|1985|10.2134/jeq1985.00472425001400010014x
49589|T||Glenn,R.K., O.A. Leonard, and D.E. Bayer|Some Effects of Dichlobenil on Transport of Assimilates in Cotton|Weed Sci.:150-152|1971|
49590|T||Goats,G.C.|Assessment of the Effects of Toxic Chemicals upon Earthworms|Ph.D.Thesis, Queen Elizabeth College, London University, UK:572 p.|1985|
49592|T||Gobran,G.R., and S. Clegg|A Conceptual Model for Nutrient Availability in the Mineral Soil-Root System|Can. J. Soil Sci.76:125-131|1996|10.4141/cjss96-019
49593|T||Godbold,D.L., W.J. Horst, H. Marschner, J.C. Collins, and D.A. Thurman|Root Growth and Zn Uptake by Two Ecotypes of Deschampsia caespitosa as Affected by High Zn Concentrations|Z. Pflanzenphysiol. (Multiple Languages)112:315-|1983|10.1016/S0044-328X(83)80049-X
49594|T||Godbold,D., H. Schlegel, and A. Hutterman|Heavy Metals - A Possible Factor in Spruce Decline|VDI Berichte560:703-716|1985|
49595|T||Godbold,D.L., and A. Huttermann|Effect of Zinc, Cadmium and Mercury on Root Elongation of Picea abies (Karst.) Seedlings and the Significance of These Metals to Forest Die-Back|Environ. Pollut.38:375-381|1985|10.1016/0143-1471(85)90108-4
49596|T||Godbold,D.L., H.I. Schlegel, and A. Huttermann|Toxicity of Heavy Metals to Spruce Seedlings|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:500-502|1985|
49597|T||Godbold,D.L., and A. Huttermann|The Uptake and Toxicity of Mercury and Lead to Spruce (Picea abies Karst.) Seedlings|Water Air Soil Pollut.31(3/4): 509-515|1986|10.1007/BF00630869
49598|T||Godbold,D.L., E. Fritz, and A. Huttermann|Aluminium Toxicity and Forest Decline|Proc. Natl. Acad. Sci. U.S.A.85:3888-3892|1988|10.1073/pnas.85.11.3888
49599|T||Godbold,D.L., K. Dictus, and A. Huettermann|Influence of Aluminum and Nitrate on Root Growth and Mineral Nutrition of Norway Spruce (Picea abies) Seedlings|Can. J. For. Res.18(9): 1167-1171|1988|10.1139/x88-179
49600|T||Godbold,D.L., M. Litzinger, and C. Griese|Cadmium Toxicity in Clones of Populus tremula|Water Air Soil Pollut.57-58(0): 209-216|1991|10.1007/BF00282884
49601|T||Godbold,D.L.|Aluminium Decreases Root Growth and Calcium and Magnesium Uptake in Picea abies Seedlings|Dev. Plant Soil Sci.45:747-753|1991|
49602|T||Godbold,D.L., G. Jentschke, and P. Marschner|Solution ph modifies the response of norway spruce seedlings to aluminium|Plant Soil171(1): 175-178|1995|10.1007/BF00009583
49604|T||Godfrey,M.E.R., T.C. Reid, and H.J.F. McAllum|The Oral Toxicity of Brodifacoum to Rabbits|N. Z. J. Exp. Agric.9:23-25|1981|10.1080/03015521.1981.10427797
49605|T||Godzik,B., and W.J. Manning|Relative Effectiveness of Ethylenediurea, and Constituent Amounts of Urea and Phenylurea in Ethylenediurea, in Prevention of Ozone Injury to Tobacco|Environ. Pollut.103(1): 1-6|1998|10.1016/S0269-7491(98)00151-1
49606|A||Godzik,S.|The Toxic Effect of Nekal BXG on Daphnia magna (Toksyczne Dzialanie Nekalu BXG na Daphnia magna)|Acta Hydrobiol.3(4): 281-286|1961|
49610|T||Goel,K.A., V.P. Agrawal, and V. Garg|Pulmonary Toxicity of Beryllium in Albino Rat|Bull. Environ. Contam. Toxicol.24:59-64|1980|10.1007/BF01608076
49611|T||Goransson,A., and T.D. Eldhuset|Effects of Aluminium Ions on Uptake of Calcium, Magnesium and Nitrogen in Betula pendula Seedlings Growing at high and Low Nutrient Supply Rates|Water Air Soil Pollut.83(3-4): 351-361|1995|10.1007/BF00477362
49613|A||Goerke,H., and W. Ernst|Fate of 14C-Labelled di, tri- and Pentachlorobiphneyl n the Marine Annelid Nereis virens. I. Accumulation and Elimination After Oral Administration|Chemosphere6(9): 551-558|1977|10.1016/0045-6535(77)90109-6
49614|A||Goettl,J.P.,Jr., J.R. Sinley, and P.H. Davies|Water Pollution Studies|Water Pollution Studies Project F-33-R. Federal Aid in Fish and Wildlife Restoration, Job Progress Report F-33-R-15, Fort Collins, CO:47 p.|1972|
49616|T||Gojmerac,T., B. Kartal, M. Zuric, S. Curic, and M. Mitak|Serum Biochemical and Histopathological Changes Related to the Hepatic Function in Pigs Following Atrazine Treatment|J. Appl. Toxicol.15(3): 233-236|1995|10.1002/jat.2550150315
49617|T||Goksoyr,J.|On the Effect of Chlorate upon the Nitrate Reduction of Plants I. Experiments with Aspergillus oryzae|Physiol. Plant. (Multiple Languages)4:498-513|1951|10.1111/j.1399-3054.1951.tb07687.x
49619|T||Goldey,E.S., L.S. Kehn, C. Lau, G.L. Rehnberg, and K.M. Crofton|Developmental Exposure to Polychlorinated Biphenyls (Aroclor 1254) Reduces Circulating Thyroid Hormone Concentrations and Causes Hearing Deficits in Rats|Toxicol. Appl. Pharmacol.135(1): 77-88|1995|10.1006/taap.1995.1210
49621|T||Goldman,I.L., T.E.,Jr. Carter, and R.P. Patterson|A Detrimental Interaction of Subsoil Aluminum and Drought Stress on the Leaf Water Status of Soybean|Agron. J.81(3): 461-463|1989|10.2134/agronj1989.00021962008100030013x
49623|T||Goldman,J.M., R.L. Cooper, G.L. Rehnberg, J.F. Hein, W.K. McElroy, and L.E.,Jr. Gray|Effects of Low Subchronic Doses of Methoxychlor on the Rat Hypothalamic-Pituitary Reproductive Axis|Toxicol. Appl. Pharmacol.86(3): 474-483|1986|10.1016/0041-008X(86)90375-3
49624|T||Goldman,J.M., R.L. Cooper, S.C. Laws, G.L. Rehnberg, W.K. McElroy, and J.F. Hein|Chlordimeform-Induced Alterations in Endocrine Regulation Within the Male Rat Reproductive System|Toxicol. Appl. Pharmacol.104(1): 25-35|1990|10.1016/0041-008X(90)90279-4
49625|T||Goldman,J.M., T.E. Stoker, R.L. Cooper, W.K. McElroy, and J.F. Hein|Blockade of Ovulation in the Rat by the Fungicide Sodium N-Methyldithiocarbamate: Relationship Between Effects on the Luteinizing Hormone Surge and Alterations in Hypothalamic Catecholamines|Neurotoxicol. Teratol.16(3): 257-268|1994|10.1016/0892-0362(94)90047-7
49628|T||Goldstein,J.A., J.D. McKinney, G.W. Lucier, P. Hickman, H. Bergman, and J.A. Moore|Toxicological Assessment of Hexachlorobiphenyl Isomers and 2,3,7,8-Tetrachlorodibenzofuran in Chicks:  II.  Effects on Drug Metabolism and Porphyrin Accumulation|Toxicol. Appl. Pharmacol.36(1): 81-92|1976|10.1016/0041-008X(76)90028-4
49629|T||Goldstein,S.H., and H. Babich|Differential Effects of Arsenite and Arsenate to Drosophila melanogaster in a Combined Adult/Developmental Toxicity Assay|Bull. Environ. Contam. Toxicol.42(2): 276-282|1989|10.1007/BF01699411
49630|A||Gomez-Ariza,J.L., I. Giraldez, and E. Morales|Temporal Fluctuations of Tributyltin in the Bivalve Venerupis decussata at Five Stations in Southwest Spain|Environ. Pollut.108(2): 279-290|2000|10.1016/S0269-7491(99)00184-0
49631|A||Gomez,L., J. Masot, F. Soler, E. Duran, and V. Roncero|Structural and Ultrastructural Study of the Gills of Tench (Tinca tinca L.) After Experimental Poisoning with Copper Sulphate|Rev. Med. Vet. (Multiple Languages)149(5): 387-394|1998|
49632|T||Gomot-De Vaufleury,A., and I. Kerhoas|Effects of Cadmium on the Reproductive System of the Land Snail Helix aspersa|Bull. Environ. Contam. Toxicol.64(3): 434-442|2000|10.1007/s001280000019
49634|T||Gomot,A.|Dose-Dependent Effects of Cadmium on the Growth of Snails in Toxicity Bioassays|Arch. Environ. Contam. Toxicol.33(12): 209-216|1997|10.1007/s002449900245
49640|T||Gonzalez-Meja,A.|Identification of Manganese Tolerance and Manganese Toxicity Mechanisms in Common Bean (Phaseolus vulgaris L.)|Ph.D Thesis, Pennsylvania State University, University Park, PA:195 p.|1996|
49645|T||Gopal,M., I. Mukherjee, D. Prasad, and N.T. Yaduraju|Soil Solarization: Technique for Decontamination of an Organophosphorus Pesticide from Soil and Nematode Control|Bull. Environ. Contam. Toxicol.64(1): 40-46|2000|10.1007/s001289910007
49647|T||Goransson,A., and R.D. Eldhuset|Effects of Aluminium on Growth and Nutrient Uptake of Betula pendula Seedlings|Physiol. Plant. (Multiple Languages)69:193-199|1987|10.1111/j.1399-3054.1987.tb04275.x
49648|T||Goransson,A., and T.D. Eldhuset|Effects of aluminium on growth and nutrient uptake of small picea-abies and pinus-sylvestris plants|Trees5(3): 136-142|1991|10.1007/BF00204334
49651|T||Gordon,C.J., and T.A. Grantham|Effect of Central and Peripheral Cholinergic Antagonists on Chlorpyrifos-Induced Changes in Body Temperature in the Rat|Toxicology142:15-28|1999|10.1016/S0300-483X(99)00121-3
49652|T||Gordon,C.J., and B.K. Padnos|Prolonged Elevation in Blood Pressure in the Unrestrained Rat Exposed to Chlorpyrifos|Toxicology146(1): 1-13|2000|10.1016/S0300-483X(00)00158-X
49656|T||Goresky,C.A., T.H. Holmes, and A. Sass-Kortsak|The Initial Uptake of Copper by the Liver in the Dog|Can. J. Physiol. Pharmacol.46:771-784|1968|10.1139/y68-120
49660|T||Gorsuch,J.W., R.O. Kringle, and K.A. Robillard|Chemical Effects on the Germination and Early Growth of Terrestrial Plants|ASTM Spec. Tech. Publ.1091:49-58|1990|
49663|T||Goss,M.J., M.J.G.P. Carvalho, V. Cosimini, and M.L. Fearnhead|An Approach to the Identification of Potentially Toxic Concentrations of Manganese in Soils|Soil Use Manag.8(1): 40-44|1992|10.1111/j.1475-2743.1992.tb00891.x
49664|T||Goss,M.J., and M.J.G.P. Carvalho|Manganese Toxicity. The Significance of Magnesium for the Sensitivity of Wheat Plants|Plant Soil139(1): 91-98|1992|10.1007/BF00012846
49665|T||Gostick,K.G., and P.M. Baker|Dieldrin Resistant Carrot Fly in England|Plant Pathol.17(4): 182-183|1968|10.1111/j.1365-3059.1968.tb00451.x
49667|T||Gough,H.J., and W. Wilkinson|PP321 - Effect on Honey Bees|Br. Crop Prot. Conf. Pests Dis.4:331-335|1984|
49669|T||Gould,H.J., and T.J. Legowski|Alternatives to DDT for the Control of Pea Moth on dry Harvesting Peas|Plant Pathol.17(1): 31-35|1968|10.1111/j.1365-3059.1968.tb00412.x
49670|T||Gould,H.J., and J.G. Mayor|Alternative Seed Treatments to Dieldrin for the Control of Bean Seed Fly (Delia spp.)|Plant Pathol.24(4): 245-246|1975|10.1111/j.1365-3059.1975.tb01905.x
49672|T||Gould,J.C., K.R. Cooper, and C.G. Scanes|Effects of Polychlorinated Biphenyls on Thyroid Hormones and Liver Type I Monodeiodinase in the Chick Embryo|Ecotoxicol. Environ. Saf.43(2): 195-203|1999|10.1006/eesa.1999.1776
49673|T||Gould,M.N., D.R. Grau, L.A. Seidman, and C.J. Moore|Interspecies Comparison of Human and Rat Mammary Epithelial Cell-Mediated Mutagenesis by Polycylic Aromatic Hydrocarbons|Cancer Res.46:4942-4945|1986|
49674|T||Goutet,M., M. Ban, and S. Binet|Effects of Nickel Sulfate on Pulmonary Natural Immunicity in Wistar Rats|Toxicology145:15-26|2000|10.1016/S0300-483X(99)00216-4
49675|T||Goven,A.J., S.C. Chen, L.C. Fitzpatrick, and B.J. Venables|Lysozyme Activity in Earthworm (Lumbricus terrestris) Coelomic Fluid and Coelomocytes:  Enzyme Assay for Immunotoxicity of Xenobiotics|Environ. Toxicol. Chem.13(4): 607-613|1994|10.1002/etc.5620130409
49676|T||Goven,A.J., L.C. Fitzpatrick, and B.J. Venables|Chemical Toxicity and Host Defense in Earthworms an Invertebrate Model|Ann. N. Y. Acad. Sci.712:280-300|1994|10.1111/j.1749-6632.1994.tb33579.x
49678|T||Gowda,T.K.S., R. Siddaramappa, and N. Sethunathan|Heterotrophic Nitrification and Nitrite Tolerance by Aspergillus carneus (Van Tiegh) Blochwitz, a Predominant Fungus Isolated from Benomyl-Amended Soil|Soil Biol. Biochem.8:435-437|1976|10.1016/0038-0717(76)90046-8
49679|T||Goyer,R.A., and R. Krall|Ultrastructural Transformation in Mitochondria Isolated from Kidneys of Normal and Lead-Intoxicated Rats|J. Cell Biol.41(2): 393-400|1969|10.1083/jcb.41.2.393
49681|T||Grace,J.K.|Oral Toxicity of Barium Metaborate to the Eastern Subterranean Termite (Isoptera:  Rhinotermitidae)|J. Entomol. Sci.25(1): 112-116|1990|10.18474/0749-8004-25.1.112
49683|AT||Graf,W., and W. Nowak|Promotion of Growth in Lower and Higher Plants by Carcinogenic Polycylic Aromatics|Arch. Hyg. Bakteriol.150:513-528|1966|
49688|T||Graham,S.L., and W.H. Hansen|Effects of Short-Term Administration of Ethylenethiourea upon Thyroid Function of the Rat|Bull. Environ. Contam. Toxicol.7(1): 19-25|1972|10.1007/BF01709170
49695|T||Grant,D.L., F. Iverson, G.V. Hatina, and D.C. Villeneuve|Effects of Hexachlorobenzene on Liver Porphyrin Levels and Microsomal Enzymes in the Rat|Environ. Physiol. Biochem.4:159-165|1974|
49697|A||Grant,I.F.|Appropriate Technology for Monitoring Environmental Effecs of Insecticides in the Tropics|BCPC Monogr. - Br. Crop Prot. Counc.40:147-154|1988|
49698|T||Gras,G., C. Hasselman, C. Pellissier, and R. Bruggers|Residue Analysis of Methiocarb Applied to Ripening Sorghum as a Bird Repellent in Senegal|Bull. Environ. Contam. Toxicol.26:393-400|1981|10.1007/BF01622109
49700|T||Gratkowski,H.J.|Annual Variation in Effect of 2,4-D and 2,4,5-T on Ponderosa Pine|For. Sci.24(2): 281-287|1978|
49702|T||Grauer,U.E., and W.J. Horst|Effect of pH and nitrogen source on aluminum tolerance of rye (Secale cereale L.) and yellow lupine (Lupinus luteus L.)|Plant Soil127(1): 13-21|1990|10.1007/BF00010832
49703|T||Graven,E.H., O.J. Attoe, and D. Smith|Effects of Liming and Flooding on Manganese Toxicity in Alfalfa|Proc. Soil Sci. Soc. Am.29:702-706|1965|10.2136/sssaj1965.03615995002900060031x
49704|T||Gray,L.E.J.|Neonatal Chlordecone Exposure Alters Behavioral Sex Differentiation in Female Hamsters|Neurotoxicology3(2): 67-80|1982|
49705|T||Gray,L.E.,Jr., J. Ferrell, J. Ostby, G. Rehnberg, R. Linder, R. Cooper, J. Goldman, V. Slott, and J. Laskey|A Dose-Response Analysis of Methoxychlor-Induced Alterations of Reproductive Development and Function in the Rat|Fundam. Appl. Toxicol.12(1): 92-108|1989|10.1016/0272-0590(89)90065-1
49706|T||Gray,L.E.,Jr., J.S. Ostby, and W.R. Kelce|Developmental Effects of an Environmental Antiandrogen: The Fungicide Vinclozolin Alters Sex Differentiation of the Male Rat|Toxicol. Appl. Pharmacol.129(1): 46-52|1994|10.1006/taap.1994.1227
49707|T||Gray,L.E.,Jr., and J.S. Ostby|In Utero 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Alters Reproductive Morphology and Function in Female Rat Offspring|Toxicol. Appl. Pharmacol.133(2): 285-294|1995|10.1006/taap.1995.1153
49708|T||Gray,L.E.,Jr., W.R. Kelce, E. Monosson, J.S. Ostby, and L.S. Birnbaum|Exposure to TCDD During Development Permanently Alters Reproductive Function in Male Long Evans Rats and Hamsters:  Reduced Ejaculated and Epididymal Sperm Numbers and Sex Accessory Gland Wrights in Offspring with Norma|Toxicol. Appl. Pharmacol.131(1): 108-118|1995|10.1006/taap.1995.1052
49711|T||Gray,T.J.B., K.R. Butterworth, I.F. Gaunt, P. Grasso, and S.D. Gangolli|Short-Term Toxicity Study of Di-(2-Ethylhexyl)-Phthalate in Rats|Food Cosmet. Toxicol.15:389-399|1977|10.1016/S0015-6264(77)80003-5
49712|T||Greaves,J.H., D.S. Shepherd, and J.E. Gill|An Investigation of Difenacoum Resistance in Norway Rat Populations in Hampshire|Ann. Appl. Biol.100:581-587|1982|10.1111/j.1744-7348.1982.tb01425.x
49714|T||Grossbard,E., and D. Harris|Selective Action of 'Gramoxone W' and 'Roundup' on Chaetomium globosum in Relation to Straw Decay|Trans. Br. Mycol. Soc.69(1): 141-146|1977|10.1016/S0007-1536(77)80127-7
49715|A||Green,R.H.|Estimation of Tolerance over an Indefinite Time Period|Ecology46(6): 887-|1965|10.2307/1934028
49718|T||Green,S., J.V. Carr, K.A. Palmer, and E.J. Oswald|Lack of Cytogenetic Effects in Bone Marrow and Spermatogonial Cells in Rats Treated with Polychlorinated Biphenyls (Aroclors 1242 and 1254)|Bull. Environ. Contam. Toxicol.13(1): 14-22|1975|10.1007/BF01684858
49721|T||Greene,G.L., and M.J. Janes|Prospective Substitutes for DDT Dust for Control of Corn Earworms in Florida Sweet Corn|Annu. Meet. Fla. State Hortic. Soc.81:184-187|1968|
49725|T||Greenfeld,C.R., W. Xiongqing, and W.R. Dukelow|Aroclor 1254 does not Affect the IVF to Cumulus-Free Mouse Oocytes|Bull. Environ. Contam. Toxicol.60(5): 766-772|1998|10.1007/s001289900692
49727|T||Greenwood,D.E.|Wireworm Investigations|Conn. Agric. Exp. Stn. Bull. (New Haven)488:344-347|1945|
49730|T||Greger,M., and G. Bertell|Effects of Calcium and Cadmium on the Carbohydrate Metabolism in Sugar Beet (Beta vulgaris)|J. Exp. Bot.43(247): 167-173|1992|10.1093/jxb/43.2.167
49731|T||Gregory,D.A., D.L. Johnson, and B.H. Thompson|The Impact of Bran Baits Treated with the Insecticides Carbaryl, Chlorpyrifos and Dimethoate on the Survivorship and Reproductive Success of Non-Target Mouse Populations|Agric. Ecosyst. Environ.45(1-2): 95-103|1993|10.1016/0167-8809(93)90061-S
49732|T||Gregory,D.G., S.L. Vanhooser, and E.L. Stair|Light and Electron Microscopic Lesions in Peripheral Nerves of Broiler Chickens Due to Roxarsone and Lasalocid Toxicoses|Avian Dis.39(2): 408-416|1995|10.2307/1591886
49733|T||Gregory,R.P.G., and A.D. Bradshaw|Heavy Metal Tolerance in Populations of Agrostis tenuis Sibth. and Other Grasses|New Phytol.64(1): 131-143|1965|10.1111/j.1469-8137.1965.tb05381.x
49734|T||Taylor,G.J., and C.D. Foy|The Role of Chelation in Metal Tolerance and Toxicity; Differential Uptake and Toxicity of Ionic and Chelated Copper in Triticum aestivum L|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:147-149|1985|
49740|T||Grewal,H.S., and R.D. Graham|Residual Effects of Subsoil Zinc and Oilseed Rape Genotype on the Grain Yield and Distribution of Zinc in Wheat|Plant Soil207(1): 29-36|1998|10.1023/A:1004479911399
49741|T||Grewal,H.S., and H.S. Gill|Influence of NAA and nitrogen on the growth and yield of late-planted paddy (Oryza sativa L.)|J. Agric. Sci.106(1): 37-40|1986|10.1017/S0021859600061694
49742|T||Grewal,R.K., and M.M. Payak|Field Evaluation of Difolatan and Captan Against Curvularia Leaf Spot of Maize|Pesticides 12(5): |1978|
49745|T||Griffiths,D.C., and G.C. Scott|Persistence and Effectiveness of Carbophenothion, Chlorfenvinphos and Ethion Sed Dressings to Control Wheat Bulb Fly (Leptohylemyia coarctata)|Proc.4th British Insecticide and Fungicide Conference, Volume 1, Held Nov.20-23, 1967, Brighton, England:118-123|1967|
49747|T||Grigsby,B.H., and C.D. Ball|Some Effects of Herbicidal Sprays on the Hydrocyanic Acid Content of Leaves of Wild Black Cherry (Prunus serotina Ehrh.)|Proc. Northeast. Weed Control Conf.6:327-330|1952|
49749|A||Grillitsch,B., C. Vogl, and R. Wytek|Qualification of Spontaneous Undirected Locomotor Behavior of Fish for Sublethal Toxicity Testing.  Part II.  Variability of Measurement Parameters Under Toxicant-Induced Stress|Environ. Toxicol. Chem.18(12): 2743-2750|1999|
49751|T||Grimm,E., S. Neumann, and B. Krug|Transport of Xenobiotics in Higher Plants. IV. Amobility of the Acidic Compounds Bromoxynil and Pentachlorophenol|Biochem. Physiol. Pflanzen (Multiple Languages)182(4): 323-332|1987|10.1016/S0015-3796(87)80063-X
49755|A||Gring,D.M.|Biological Effects of Trinitrotoluene (TNT)|Ph.D.Thesis, Indiana University, Bloomington, IN:91 p.|1971|
49756|T||Gripp,R.H., and K. Ryugo|DDT Soil Residues In Mature Pear Orchards. A Lake-County Survey|Calif. Agric.20(6): 10-11|1966|
49759|T||Groffman,P.M.|Carbon additions increase nitrogen availability in northern hardwood forest soils|Biol. Fertil. Soils29(4): 430-433|1999|10.1007/s003740050576
49760|T||Gromysz-Kalkowska,K., and E. Szubartowska|Changes in the Blood of Rana temporaria L. After Different Doses of Trichlorfon|Folia Biol. (Krakow)34(1): 21-33|1986|
49761|A||Grosell,M., G. De Boeck, O. Johannsson, and C.M. Wood|The Effects of Silver on Intestinal Ion and Acid-Base Regulation in the Marine Teleost Fish, Parophrys vetulus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 259-270|1999|
49762|A||Grosell,M., C. Hogstrand, C.M. Wood, and H.J.M. Hansen|A Nose-to-Nose Comparison of the Physiological Effects of Exposure to Ionic Silver Versus Silver Chloride in the European Eel (Anguilla anguilla) and the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.48(2-3): 327-342|2000|10.1016/S0166-445X(99)00029-6
49765|T||Grossbard,E., and J.A.P. Marsh|The Effect of Seven Substituted Urea Herbicides on the Soil Microflora|Pestic. Sci.5:609-623|1974|10.1002/ps.2780050513
49766|T||Grosscurt,A.C., M.T. Haar, B. Jongsma, and A. Stoker|PH 70-23: A New Acaracide and Insecticide Interfering with Chitin Deposition|Pestic. Sci.22:51-59|1988|10.1002/ps.2780220106
49773|T||Grotz,N., T. Fox, E. Connolly, W. Park, M.L. Guerinot, and D. Eide|Identification of a Family of Zinc Transporter Genes from Arabidopsis that Respond to Zinc Deficiency|Proc. Natl. Acad. Sci. U.S.A.95(12): 7220-7224|1998|10.1073/pnas.95.12.7220
49777|T||Grusak,M.A., R.M. Welch, and L.V. Kochian|Physiological Characterization of a Single-Gene Mutant of Pisum Sativum Exhibiting Excess Iron Accumulation. I. Root Iron Reduction and Iron Uptake|Plant Physiol.93(3): 976-981|1990|10.1104/pp.93.3.976
49780|T||Gruttke,H., W. Kratz, G. Weigmann, and A. Haque|Terrestrial Model Food Chain and Environmental Chemicals. I. Transfer of Sodium 14C-Pentachlorophenate Between Springtails and Carabids|Ecotoxicol. Environ. Saf.15(3): 253-259|1988|10.1016/0147-6513(88)90079-6
49782|A||Grzenda,A.R., W.J. Taylor, and D.F. Paris|The Uptake, Metabolism, and Elimination of Chlorinated Residues by Goldfish (Carassius auratus) 14C-DDT fed a Contaminated Diet|Trans. Am. Fish. Soc.99(2): 385-396|1970|10.1577/1548-8659(1970)99<385:TUMAEO>2.0.CO;2
49783|A||Gstoettner,E.M., and N.S. Fisher|Accumulation of Cadmium, Chromium, and Zinc by the Moss Sphagnum papillosum Lindle|Water Air Soil Pollut.93:321-330|1997|
49785|T||Guangrong,C., J. Bo, L. Ming, and W. Xingguo|The Vicia Leaf Tip Cell-Micronucleus Bioassay and Air Pollution Monitoring|ASTM Spec. Tech. Publ.:170-174|1990|
49787|T||Guarino,J.L., W.F. Shake, and E.W.,Jr. Schafer|Reducing Bird Damage to Ripening Cherries with Methiocarb|J. Wildl. Manag.38(2): 338-342|1974|10.2307/3800742
49789|A||Guerin,J.L., and W.B. Stickle|Effects of Cadmium on Survival, Osmoregulatory Ability and Bioenergetics of Juvenile Blue Crabs Callinectes sapidus at Different Salinities|Mar. Environ. Res.40(3): 227-246|1995|10.1016/0141-1136(94)00148-I
49790|T||Guha Roy,H.S.|Effect of Saprol and Delan on Germination, Growth and Spornlation Against Some Post-Harvest Pathogens|Environ. Ecol.16(3): 594-598|1998|
49791|T||Guilhermino,L., A.M.V.M. Soares, A.P. Carvalho, and M.C. Lopes|Correlation Between Whole Blood Cholinesterase Activity and Cerebral Cortex Cholinesterase Activity in Rats Treated with Parathion|Chemosphere37(7): 1385-1393|1998|10.1016/S0045-6535(98)00129-5
49792|T||Guilhermino,L., A.M.V.M. Soares, A.P. Carvalho, and M.C. Lopes|Effects of Cadmium and Parathion Exposure on Hematology and Blood Biochemistry of Adult Male Rats|Bull. Environ. Contam. Toxicol.60:52-59|1998|10.1007/s001289900590
49793|T||Guilhermino,L., A.M.V.M. Soares, A.P. Carvalho, and M.C. Lopes|Acute Effects of 3,4-Dichloraniline on Blood of Male Wistar Rats|Chemosphere37(4): 619-632|1998|10.1016/S0045-6535(98)00087-3
49794|A||Guilhermino,L., T. Diamantino, M.C. Silva, and A.M.V.M. Soares|Acute Toxicity Test with Daphnia magna:  An Alternative to Mammals in the Prescreening of Chemical Toxicity?|Ecotoxicol. Environ. Saf.46(3): 357-362|2000|10.1006/eesa.2000.1916
49795|A||Guilhermino,L., M.N. Lacerda, A.J.A. Nogueira, and A.M.V.M. Soares|In Vitro and In Vivo Inhibition of Daphnia magna Acetylcholinesterase by Surfactant Agents: Possible Implications for Contamination Biomonitoring|Sci. Total Environ.247:137-141|2000|10.1016/S0048-9697(99)00485-4
49796|T||Guiney,P.D., K.H. Yang, J.L. Seymour, and R.E. Peterson|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Distribution and Biliary Excretion of Polychlorinated Biphenyls in Rats|Toxicol. Appl. Pharmacol.45(2): 403-414|1978|10.1016/0041-008X(78)90104-7
49797|T||Gulati,A., S. Prakash, and S.P. Gupta|Genotoxicity Testing for Relative Efficacy of Selected Pesticides on Allium cepa|J. Environ. Biol.15(2): 89-95|1994|
49798|A||Gully,J.R., J.P. Bottomley, and R.B. Baird|Effects of Sporophyll Storage on Giant Kelp Macrocystis pyrifera (Agardh) Bioassay|Environ. Toxicol. Chem.18(7): 1474-1481|1999|10.1002/etc.5620180719
49804|A||Gunnarsson,J.S., M.T. Schaanning, K. Hylland, and M. Skoeld|Interactions Between Eutrophication and Contaminants. III. Mobilization and Bioaccumulation of Benzo(a)pyrene from Marine Sediments|Mar. Pollut. Bull.33(1-6): 80-89|1997|10.1016/S0025-326X(97)00024-6
49805|T||Gunning,R.V., and C.S. Easton|Pyrethroid Resistance in Heliothis armigera (Hubner) Collected from Unsprayed Maize Crops in New South Wales 1983-1987|J. Aust. Entomol. Soc.28(1): 57-62|1989|10.1111/j.1440-6055.1989.tb01195.x
49807|T||Gunthardt-Goerg,M.S., S. Maurer, J. Bolliger, A.J. Clark, W. Landolt, and J.B. Bucher|Responses of Young Trees (Five Species in a Chamber Exposure) to Near-Ambient Ozone Concentrations|Water Air Soil Pollut.116(1-2): 323-332|1999|10.1023/A:1005280908529
49808|T||Gunthardt-Goerg,M.S., C.J. McQuattie, S. Maurer, and B. Frey|Visible and Microscopic Injury in Leaves of Five Deciduous Tree Species Related to Current Critical Ozone Levels|Environ. Pollut.109:489-500|2000|10.1016/S0269-7491(00)00052-X
49809|T||Gunther,F.A., R.C. Blinn, L.R. Jeppson, J.H. Barkley, G.J. Frisone, and R.D. Garmus|Field Persistence of the Acaricide 4,4'-Dichloro-alpha-(Trichloromethyl)-Bernzhydrol (FW-293) on and in Mature Lemons and Oranges|J. Agric. Food Chem.5(8): 595-598|1957|10.1021/jf60078a004
49810|T||Gunther,F.A., F. Buzzetti, and W.E. Westlake|Residue Behavior of Polynuclear Hydrocarbons on and in Oranges|Residue Rev.17:81-104|1967|
49813|T||Guo,Y., E. George, and H. Marschner|Contribution of an Arbuscular Mycorrhizal Fungus to the Uptake of Cadmium and Nickel in Bean and Maize Plants|Plant Soil184(2): 195-205|1996|10.1007/BF00010449
49814|A||Gupta,A.K., A. Muni, Ranjana, and R. Kumar|Stress Induced by Cypermethrin (10EC) and Quinalphos (25EC) on the Hepatic and Renal Phosphatases in Notopterus notopterus|J. Environ. Biol.19(3): 211-214|1998|
49815|A||Gupta,A.K.|Short-Term Toxicity of Copper to Channa punctatus (Bloch)|J. Environ. Biol.20(3): 227-229|1999|
49817|T||Gupta,D.S., D.S. Bhatti, and A.D. Khurana|The Relative Toxicity of Certain Insecticides to Gram Caterpillar (Heliothis armigera Hubner; Noctuidae; Lepidoptera)|J. Res. Punjab Agric. Univ.8(1): 57-60|1971|
49819|T||Gupta,M., and S. Devi|Effect of Cadmium on Spore Germination and Gametophyte Development in some Ferns|Bull. Environ. Contam. Toxicol.48(3): 337-343|1992|10.1007/BF00195630
49821|T||Gupta,S.K., and V. Sundararaman|Biological Response of Earthworm Pheretima Posthuma in Inorganic Cadmium|Indian J. Exp. Biol.28(1): 71-73|1990|
49824|T||Gupta,U.C.|Effects of Boron and Nitrogen on Grain Yield and Boron and Nitrogen Concentrations of Barley and Wheat|Soil Sci. Soc. Am. J.40:723-726|1976|10.2136/sssaj1976.03615995004000050032x
49825|T||Gupta,U.C.|Plant and Soil Boron as Influenced by Soil pH and Calcium Sources on Podzol Soils|Soil Sci.131(1): 20-25|1981|10.1097/00010694-198101000-00003
49826|T||Gupta,V.K., D.S. Mehla, and N.K. Tomar|Influence of Cadmium and Sulfur on dry Matter Yield and Their Concentration in Wheat in Aridisols|Haryana Agric. Univ. J. Res.20(2): 114-120|1990|
49829|T||Gussarsson,M., S. Adalsteinsson, P. Jensen, and H. Asp|Cadmium and Copper Interactions on the Accumulation and Distribution of Cd and Cu in Birch (Betula pendula Roth) Seedlings|Plant Soil171(1): 185-187|1995|10.1007/BF00009585
49830|T||Gussarsson,M., and P. Jensen|Effects of Copper and Cadmium on Uptake and Leakage of K+ in Birch (Betula pendula) Roots|Tree Physiol.11(3): 305-313|1992|10.1093/treephys/11.3.305
49833|T||Guthery,F.S., T.E. Shupe, L.J. Bareiss, and C.E. Russell|Responses of Selected Plants to Herbicide Treatment of Disturbed Soil|Wildl. Soc. Bull.15:247-251|1987|
49836|A||Gutjahr-Gobell,R.E., D.E. Black, L.J. Mills, R.J. Pruell, B.K. Taplin, and S. Jayaraman|Feeding the Mummichog (Fundulus heteroclitus) a Diet Spiked with Non-ortho- and Mono-ortho-Substituted Polychlorinated Biphenyls: Accumulation and Effects|Environ. Toxicol. Chem.18(4): 699-707|1999|
49837|T||Gutting,B.W., S.J. Schomaker, A.H. Kaplan, and D.E. Amecher|A Comparison of the Direct and Reporter Antigen Popliteal Lymph Node Assay for the Detection of Immunomodulation by Low Molecular Weight Compounds|Toxicol. Sci.51(1): 71-79|1999|10.1093/toxsci/51.1.71
49842|T||Gworek,B.|Lead Inactivation in Soils by Zeolites|Plant Soil143(1): 71-74|1992|10.1007/BF00009130
49843|T||Gworek,B.|Effect of Zeolites on the Nickel Uptake by Plants|Pol. J. Soil Sci.25(2): 127-133|1992|
49844|T||Gworek,B.|Use of Synthetic Zeolites of 3a and 5a Type for Lead Immobilization in Anthropogenic Soils|Pol. J. Soil Sci.25(1): 35-39|1992|
49846|T||Gyldenkaerne,S., H.P. Ravn, and B. Halling-Sorensen|The Effect of Dimethoate and Cypermethrin on Soil-Dwelling Beetles Under Semi-Field Conditions|Chemosphere41(7): 1045-1057|2000|10.1016/S0045-6535(99)00511-1
49848|T||Haake-McMillan,J.M., and S.H. Safe|Neonatal Modulation of Adult Rat Hepatic Microsomal Benzo(a)pyrene Hydroxylase Activities by Aroclor 1254 or Phenobarbital|J. Biochem. Toxicol.5(4): 203-210|1990|10.1002/jbt.2570050402
49850|T||Haas,A.R.C.|Toxic Effect of Boron on Fruit Trees|Bot. Gaz.88:113-131|1929|10.1086/333985
49853|AT||Haddow,B.C., F.R. Stovell, and D.H. Payne|Field Trials with Cyanatryn (WL63611) for the Control of Aquatic Weeds|Proc. Br. Weed Control Conf.:239-248|1974|
49856|T||Haegele,M.A., and R.K. Tucker|Effects of 15 Common Environmental Pollutants on Eggshell Thickness in Mallards and Coturnix|Bull. Environ. Contam. Toxicol.11(1): 98-102|1974|10.1007/BF01685035
49857|T||Haegele,M.A., and R.H. Hudson|Reduction of Courtship Behavior Induced by DDE in Male Ringed Turtle Doves|Wilson Bull.89(4): 593-601|1977|
49858|T||Haga,T., T. Toki, Y. Tsujii, and R. Nishiyama|Development of an Insect Growth Regulator Chlorfluazuron|J. Pestic. Sci. (Multiple Languages)17(2): S103 - S113|1992|10.1584/jpestics.17.2_S103
49860|T||Hagemeyer,J., D. Lohrmann, and S.W. Breckle|Development of Annual Xylem Rings and Shoot Growth of Young Beech (Fagus sylvatica L.) Grown in Soil with Various Cd and Zn Levels|Water Air Soil Pollut.69(3-4): 351-361|1993|10.1007/BF00478170
49862|T||Hagemeyer,J., and C. Hubner|Radial Distributions of Pb in Stems of 6-Year-Old Spruce Trees (Pica abies (L.) Karst.) Grown for 2 Years in Pb-Contaminated Soil|Water Air Soil Pollut.111(1-4): 215-224|1999|10.1023/A:1005019509655
49864|T||Haghighat,M., A. Moetamed, T. Vaseghi, and M. Aminlari|Isoprenaline Induces Biosynthesis of Proline-Rich Proteins in the Salivary Glands of Rat but not in Sheep|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(2): 165-168|1996|
49865|T||Haghiri,F.|Plant Uptake of Cadmium as Influenced by Cation Exchange Capacity, Organic Matter, Zinc and Soil Temperature|J. Environ. Qual.3:180-183|1974|10.2134/jeq1974.00472425000300020021x
49866|T||Haghiri,F.|Release of Cadmium for Clays and Plant Uptake of Cadmium from Soil as Affected by Potassium and Calcium Amendments|J. Environ. Qual.5(4): 395-397|1976|10.2134/jeq1976.00472425000500040013x
49873|A||Hai,D.Q., S.I. Varga, and B. Matkovics|Organophosphate Effects on Antioxidant System of Carp (Cyprinus carpio) and Catfish (Ictalurus nebulosus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(1): 83-88|1997|
49877|T||Hain,F.P., and W.E. Wallner|Control of Exoteleia nepheos with Insecticides and Their Effect upon Its Parasitoids|J. Econ. Entomol.67(6): 803-|1974|10.1093/jee/67.6.803
49879|T||Hairiah,K., I. Stulen, and P.J.C. Kuiper|Aluminum Tolerance of the Velvet Beans Mucuna pruriens var. utilis and Mucuna deeringiana. I. Effects of Aluminum on Growth and Mineral Composition|Dev. Plant Soil Sci.41:365-374|1990|
49880|T||Hairiah,K., M. Van Noordwijk, I. Stulen, F.W. Meijboom, and P.J.C. Kuiper|Phosphate Nutrition Effects on Aluminum Avoidance of Mucuna pruriens var. utilis|Environ. Exp. Bot.33(1): 75-83|1993|10.1016/0098-8472(93)90057-M
49881|T||Hairiah,K., I. Stulen, M. Van Noordwijk, and P.J.C. Kuiper|Al Avoidance and Al Tolerance of Mucuna pruriens var. utilis: effects of a Heterogeneous Root Environment and the Nitrogen Form in the Root Environment|Plant Soil167(1): 67-72|1994|10.1007/BF01587600
49882|T||Haitzer,M., B.K. Burnison, S. Hoss, W. Traunspurger, and C.E.W. Steinberg|Effects of Quantity, Quality, and Contact Time of Dissolved Organic Matter on Bioconcentration of Benzo(a)pyrene in the Nematode Caenorhabditis elegans|Environ. Toxicol. Chem.18(3): 459-465|1999|10.1002/etc.5620180314
49883|T||Haitzer,M., G. Abbt-Braun, W. Traunspurger, and C.E.W. Steinberg|Effects of Humic Substances on the Bioconcentration of Polycyclic Aromatic Hydrocarbons: Correlations with Spectroscopic and Chemical Properties of Humic Substances|Environ. Toxicol. Chem.18(12): 2782-2788|1999|10.1002/etc.5620181219
49884|T||Hakansson,H., E. Manzoor, and U.G. Ahlborg|Effects of Technical PCB Preparations and Fractions Thereof on Vitamin A Levels in the Mink (Mustela vison)|Ambio21(8): 588-590|1992|
49885|T||Hakura,A., J. Sonoda, Y. Tsutsui, T. Mikami, T. Imade, M. Shimada, S. Yaguchi, M. Yamanaka, M. Tomimatsu, and K. Tsukid|Toxicity Profile of Benzo(a)pyrene in the Male LacZ Transgenic Mouse (MutaMouse) Following Oral Administration for 5 Consecutive Days|Regul. Toxicol. Pharmacol.27(3): 273-279|1998|10.1006/rtph.1998.1218
49886|T||Halbrook,R.S., R.J. Aulerich, S.J. Bursian, and L. Lewis|Ecological Risk Assessment in a Large River-Reservoir:  8.  Experimental Study of the Effects of Polychlorinated Biphenyls on Reproductive Success in Mink|Environ. Toxicol. Chem.18(4): 649-654|1999|
49888|T||Hale-Marie,B.|Uptake, Distribution of Naphthalene and Naphthol in Vegetable Plants Following Foliar and Root Exposure|Annual Meeting and Exhibition, Air and Waste Management Association, Vancouver, British Columbia:8 p.|1991|
49891|A||Hall,A., A.H. Fielding, and M. Butler|Mechanisms of Copper Tolerance in the Marine Fouling Alga Ectocarpus siliculosus - Evidence for an Exclusion Mechanism|Mar. Biol.54(3): 195-199|1979|10.1007/BF00395780
49892|T||Hall,A., P. Pomeroy, N. Green, K. Jones, and J. Harwood|Infection, Haematology and Biochemistry in Grey Seal Pups Exposed to Chlorinated Biphenyls|Mar. Environ. Res.43(1-2): 81-98|1997|10.1016/0141-1136(96)00004-9
49893|T||Hall,J.E., Y.A. Griechus, and K.E. Severson|Effects of Aldrin on Young Pen-Reared Pheasants|J. Wildl. Manag.35(3): 429-434|1971|10.2307/3799693
49899|T||Hall,R.B.T.|The Effects of Chromium Loading on Earthworms in an Amended Soil|M.S.Thesis Submitted to the Faculty of Grad.Studies and Res., Univ.of Alberta, Edmonton, Alberta:87 p.|1988|
49900|T||Hall,R.J., and D. Swineford|Uptake of Methoxychlor from Food and Water by the American Toad (Bufo amercanus)|Bull. Environ. Contam. Toxicol.23(3): 335-337|1979|10.1007/BF01769965
49908|A||Halling-Sorensen,B.|Algal Toxicity of Antibacterial Agents Used in Intensive Farming|Chemosphere40(7): 731-739|2000|10.1016/S0045-6535(99)00445-2
49909|A||Halling-Sorensen,B., N. Nyholm, K.O. Kusk, and E. Jacobsson|Influence of Nitrogen Status on the Bioconcentration of Hydrophobic Organic Compounds to Selenastrum capricornutum|Ecotoxicol. Environ. Saf.45(1): 33-42|2000|10.1006/eesa.1999.1818
49912|A||Hamed,R.R., S.E. Elawa, N.M. Farid, and F.S. Ataya|Evaluation of Detoxification Enzyme Levels in Egyptian Catfish, Clarias lazera, Exposed to Dimethoate|Bull. Environ. Contam. Toxicol.63(6): 789-796|1999|10.1007/s001289901048
49913|T||Hamilton,J.W., and O.A. Beath|Amount and Chemical Form of Selenium in Vegetable Plants|J. Agric. Food Chem.12:371-374|1964|10.1021/jf60134a018
49914|T||Hamilton,K.C.|Response of Johsongrass Strains to Herbicides|Res. Prog. Rep. West. Soc. Weed Sci.:11-12|1967|
49915|T||Hamilton,K.C.|Repeated, Foliar Applications of Herbicides on Johnsongrass|Weed Sci.:245-250|1969|10.1017/S004317450003143X
49916|T||Hamilton,K.C., and H.F. Arle|Response of Cotton (Gossypium hirsutum) to Dicamba|Weed Sci.27(6): 604-607|1979|10.1017/S0043174500045963
49918|T||Hamlen,R.A., and R.W. Henley|Pest Control and Phytotoxicity on Indoor Ornamental Plants with Dichlorvos Fumigation|J. Am. Soc. Hortic. Sci.104(1): 136-138|1979|10.21273/JASHS.104.1.136
49919|A||Hamm,J.T., and D.E. Hinton|The Role of Development and Duration of Exposure to the Embryotoxicity of Diazinon|Aquat. Toxicol.48(4): 403-418|2000|10.1016/S0166-445X(99)00065-X
49920|T||Hammel,W., R. Debus, and L. Steubing|Mobility of Antimony in Soil and Its Availability to Plants|Chemosphere41:1791-1798|2000|10.1016/S0045-6535(00)00037-0
49922|A||Hammers-Wirtz,M., and H.T. Ratte|Offspring Fitness in Daphnia: Is the Daphnia Reproduction Test Appropriate for Extrapolating Effects on the Population Level?|Environ. Toxicol. Chem.19(7): 1856-1866|2000|10.1002/etc.5620190720
49923|T||Hammond,K.E., D.E. Evans, and M.J. Hodson|Aluminum/Silicon Interactions in Barley (Hordeum vulgare L.) Seedlings|Plant Soil173(1): 89-95|1995|10.1007/BF00155521
49926|T||Hamon,R.E., M.J. McLaughlin, R. Naidu, and R. Correll|Long-Term Changes in Cadmium Bioavailability in Soil|Environ. Sci. Technol.32(23): 3699-3703|1998|10.1021/es980198b
49928|T||Hampp,R., and K. Lendzian|Effect of Lead Ions on Chlorophyll Synthesis|Naturwissenschaften61:218-|1974|10.1007/BF00599926
49931|AT||Han,S., and K.K. Hatzios|Physiological Interactions Between the Herbicide Pretilachlor and the Safener Fenclorim on Rice|Pestic. Biochem. Physiol.39(3): 270-280|1991|10.1016/0048-3575(91)90122-3
49933|T||Hasan,M.A., C.P. Suresh, S. Bhattacharya, and P.K. Chattopadhyay|Uptake Pattern of Nutrients in Cavendish Banana (Musa AAA)|Environ. Ecol.17(3): 560-562|1999|
49934|T||Handique,A.K., and M. Baruah|Histochemical Estimation of Pollen Viability Following Exposure to Heavy Metals|J. Environ. Biol.16(2): 163-165|1995|
49936|T||Handreck,K.A.|Available Phosphorus in Potting Media:  Extractants and Interpretation of Extract Data|Commun. Soil Sci. Plant Anal.22(5-6): 529-557|1991|10.1080/00103629109368436
49938|T||Hang,C., and J.R. Sanborn|The Metabolism of 14C-Chlordane by the Earthworm, Lumbricus terrestris L.|Chemosphere5(3): 161-166|1976|10.1016/0045-6535(76)90069-2
49939|T||Hangartner,W.W., M. Suchy, H.K. Wipf, and R.C. Zurflueh|Synthesis and Laboratory and Field Evaluation of a New, Highly Active and Stable Insect Growth Regulator|J. Agric. Food Chem.24(1): 169-175|1976|10.1021/jf60203a019
49940|T||Hanioka,N., T. Tanaka-Kagawa, Y.S. Chung, T. Nishimura, H. Jinno, and M. Ando|Changes in Hepatic Cytochrome P450 Enzymes by Biodegradation Products of 4-tert-Octylphenol Polyethoxylate in Rats|Bull. Environ. Contam. Toxicol.64(6): 804-810|2000|10.1007/s0012800074
49949|T||Hansen,D.K., S.L. Dial, and T.F. Grafton|Lack of Attenuation of Valproic Acid-Induced Embryotoxicity by Compounds Involved in One-Carbon Transfer Reactions|Toxicol. In Vitro9(5): 615-621|1995|10.1016/0887-2333(95)91009-Q
49950|T||Hansen,J.D., A.H. Hara, H.T.,Jr. Chan, and V.L. Tenbrink|Efficacy of Hydrogen Cyanide Fumigation as a Treatment for Pests of Hawaiian Cut Flowers and Foliage After Harvest|J. Econ. Entomol.84(2): 532-536|1991|10.1093/jee/84.2.532
49951|T||Hansen,L.G., M.E. Welborn, R.E. Borchard, R.H. Teske, and R.L. Metcalf|Tissue Distribution of PCB Components in Swine and Sheep fed Three Different Rations Containing Aroclors 1242 and 1254|Arch. Environ. Contam. Toxicol.5(3): 257-278|1977|10.1007/BF02220909
49954|A||Hansen,P.D.|Uptake and Transfer of the Chlorinated Hydrocarbon Lindane (gamma-BHC) in a Laboratory Freshwater Food Chain|Environ. Pollut. A.21(2): 97-108|1980|10.1016/0143-1471(80)90038-0
49958|T||Hao,X., B.A. Hale, D.P. Ormrod, and A.P. Papadopoulos|Effects of Pre-Exposure to Ultraviolet-B Radiation on Responses of Tomato (Lycopersicon esculentum cv. New Yorker) to Ozone in Ambient and Elevated Carbon Dioxide|Environ. Pollut.110:217-224|2000|10.1016/S0269-7491(99)00305-X
49959|T||Haque,A., and W. Ebing|Uptake, Accumulation and Elimination of HCB and 2,4-D by the Terrestrial Slug, Deroceras reticulatum (Muller)|Bull. Environ. Contam. Toxicol.31(6): 727-733|1983|10.1007/BF01606052
49962|T||Hara,T., Y. Sonada, and I. Iwai|Growth Response of Cabbage Plants to Lithium, Sodium, and Rubidium Under Water Culture Conditions|Soil Sci. Plant Nutr.23(4): 531-539|1977|10.1080/00380768.1977.10433071
49963|T||Haraguchi,K., Y. Kato, R. Kimura, and Y. Masuda|Tissue Distribution of Methylsulfonyl Metabolites Derived from 2,2',4,5,5'-Penta- and 2,2',3,4',5',6-Hexachlorobiphenyls in Rats|Arch. Environ. Contam. Toxicol.37(1): 135-142|1999|10.1007/s002449900498
49964|T||Harazono,A., M. Ema, and K. Kawashima|Evaluation of Malnutrition as a Cause of Tributyltin-Induced Pregnancy Failure in Rats|Bull. Environ. Contam. Toxicol.61(2): 224-230|1998|10.1007/s001289900752
49965|T||Harazono,A., M. Ema, and Y. Ogawa|Evaluation of Early Embryonic Loss Induced by Tributyltin Chloride in Rats:  Phase- and Dose-Dependent Antifertility Effects|Arch. Environ. Contam. Toxicol.34(1): 94-99|1998|10.1007/s002449900290
49966|A||Hardege,J.D., J. Duncan, and J.L. Ram|Tricyclic Antidepressants Suppress Spawning and Fertilization in the Zebra Mussel, Dreissena polymorpha|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(1): 59-64|1997|
49968|T||Hardin,B.D., G.P. Bond, M.R. Sikov, F.D. Andrew, R.P. Beliles, and R.W. Niemeier|Testing of Selected Workplace Chemicals for Teratogenic Potential|Scand. J. Work Environ. Health7(Suppl. 4): 66-75|1981|
49969|T||Hardin,B.D., R.L. Schuler, J.R. Burg, G.M. Booth, K.P. Hazelden, K.M. MacKenzie, V.J. Piccirillo, and K.N. Smith|Evaluation of 60 Chemicals in a Preliminary Developmental Toxicity Test|Teratog. Carcinog. Mutagen.7:29-48|1987|10.1002/tcm.1770070106
49972|T||Harding,J.A., W.G. Lovely, and R.C. Dyar|Field Tests of Chemicals for Control of the European Corn Borer|J. Econ. Entomol.61(5): 1427-1430|1968|10.1093/jee/61.5.1427
49980|T||Harper,N., K. Connor, and S. Safe|Immunotoxic Potencies of Polychlorinated Biphenyl (PCB), Dibenzofuran (PCDF) and Dibenzo-p-Dioxin (PCDD) Congeners in C57BL/6 and DBA/2 Mice|Toxicology80(2-3): 217-227|1993|10.1016/0300-483X(93)90183-S
49981|T||Harper,S.M., D.G. Edwards, G.L. Kerven, and C.J. Asher|Effects of Organic Acid Fractions Extracted from Eucalyptus camaldulensis Leaves on Root Elongation of Maize (Zea mays) in the Presence and Absence of Aluminium|Plant Soil171(1): 189-192|1995|10.1007/BF00009586
49983|A||Harris,J.O., G.B. Maguire, S.J. Edwards, and S.M. Hindrum|Effect of Nitrite on Growth and Oxygen Consumption for Juvenile Greenlip Abalone, Haliotis laevigata Donovan|J. Shellfish Res.16(2): 395-401|1997|
49985|T||Harris,C.R., and H.J. Svec|Laboratory Studies of the Contact Toxicity of Some Insecticides to Cabbage Loopers|J. Econ. Entomol.62(5): 1013-1016|1969|10.1093/jee/62.5.1013
49986|T||Harris,C.R., and W.W. Sans|Behavior of Dieldrin in Soil: Microplot Field Studies on the Influence of Soil Type on Biological Activity and Absorption by Carrots|J. Econ. Entomol.65(2): 333-335|1972|10.1093/jee/65.2.333
49989|T||Harris,C.R., and S.A. Turnbull|Laboratory Studies on the Toxicity of Insecticides to the Bertha Armyworm (Mamestra configurata) (Lepidoptera:  Noctuidae)|Can. Entomol.107(8): 865-872|1975|10.4039/Ent107865-8
49992|T||Harris,C.R., H.J. Svec, and R.A. Chapman|Potential of Pyrethroid Insecticides for Cutworm Control|J. Econ. Entomol.71(4): 692-696|1978|10.1093/jee/71.4.692
49993|T||Harris,E.C.|A Long Term Field Trial of gamma-HCH/Dieldrin Smoke Against Death Watch Beetle (Xestobium rufovillosum) in an Ancient Oak Roof|Int.Biodeterior.Bull.13(3): 61-65|1977|
49995|A||Harris,M.L., L. Chora, C.A. Bishop, and J.P. Bogart|Species-and Age-Related Differences in Susceptibility to Pesticide Exposure for Two Amphibians, Rana pipiens, and Bufo americanus|Bull. Environ. Contam. Toxicol.64(2): 263-270|2000|10.1007/s001289910039
50001|T||Harrison,R.M., and M. Chirgawi|Quantification of Foliar Uptake of Metal Aerosols by Crop Plants|In: M.Astruc and J.N.Lester (Eds.), Heavy Metals in the Hydrological Cycle, Selper Ltd., London:601-604|1988|
50003|T||Harrison,S.C.S., N.W. Lepp, and D.A. Phipps|The Effect of Iron Source on Formation and Persistence of Root Iron Pools in Cereals|Chem. Spec. Bioavail.1(1): 39-42|1989|10.1080/09542299.1989.11083106
50004|T||Harrod,M.F.|Metal Toxicities in Glasshouse Crops; Discussion of Problems Encountered in Advisory Work on Soils of pH 6.0 and Above|Tech.Bull.No.21, Trace Elements in Soils and Crops, Proc.of a Conf.Organized by the Soil Scientists of the Natl.Agric.Advisory Serv., Feb.8-9, 1966, Her Majesty's Stationery Office, London:176-192|1971|
50005|T||Harry,G.J., T.J. Schmitt, Z. Gong, H. Brown, N. Zawia, and H.L. Evans|Lead-Induced Alterations of Glial Fibrillary Acidic Protein (GFAP) in the Developing Rat Brain|Toxicol. Appl. Pharmacol.139(1): 84-93|1996|10.1006/taap.1996.0145
50007|T||Hart,B.A., J.D. Eneman, Q. Gong, and C.C. Durieux-Lu|Increased Oxidant Resistance of Alveolar Epithelial Type II Cells. Isolated from Rats Following Repeated Exposure to Cadmium Aerosols|Toxicol. Lett.81(2-3): 131-139|1995|10.1016/0378-4274(95)03417-X
50009|T||Hart,D.R.|Assessment of Mutagenic Effects in Amphibian Embryos|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:167-177|1984|
50011|T||Hartenstein,R.|Effect of Aromatic Compounds, Humic Acids and Lignins on Growth of the Earthowrm Eisenia foetida|Soil Biol. Biochem.14:595-599|1982|10.1016/0038-0717(82)90093-1
50013|A||Hartley,W.R., A. Thiyagarajah, M.B. Anderson, M.W. Broxson, S.E. Major, and S.I. Zell|Gonadal Development In Japanese Medaka (Oryzias Latipes) Exposed To 17 Beta -Estradiol|Mar. Environ. Res.46(1-5): 145-148|1998|10.1016/S0141-1136(98)00007-5
50014|T||Hartley,R.R., and R.J. Douthwaite|Effects of DDT Treatments Applied for Tsetse Fly Control on the African Goshawk in North-West Zimbabwe|Afr. J. Ecol.32:265-272|1994|10.1111/j.1365-2028.1994.tb00577.x
50017|A||Harvey,J.S., and J.M. Parry|The Analysis of DNA Adduct Formation, Removal and Persistence in the Common Mussel Mytilus edulis Exposed to 4-Nitroquinoline 1-Oxide|Mutat. Res.399(1): 31-42|1998|10.1016/S0027-5107(97)00264-9
50020|T||Harvey,S.D., R.J. Fellows, D.A. Cataldo, and R.M. Bean|Analysis of 2,4,6-Trinitrotoluene and Its Transformation Products in Soils and Plant Tissues by High-Performance Liquid Chromatography|J. Chromatogr.518(2): 361-374|1990|10.1016/S0021-9673(01)93196-6
50021|T||Hasan,M., and P. Glees|Experimental Degeneration in the Spinal Cord and Cerebellum Following Per Cutaneous Application of Tri-Cresyl Phosphate|J. Anat. Soc. India20(1): 40-41|1971|
50022|T||Hasan,M.A., B.C. Das, S. Bhattacharya, and C.P. Suresh|Potash Fertilization for Maxixmum Yield and Quality of Cavendish Banana (Musa AAA)|Environ. Ecol.17(3): 543-545|1999|
50023|T||Hasan,M.A., C.P. Suresh, S. Bhattacharya, and P.K. Chattopadyay|Influence of Potassium on the Soil Nutrient Status of Banana Orchard|Environ. Ecol.17(3): 577-579|1999|
50025|T||Hash,H.S., and M.G. Hornocker|Immobilizing Wolverines with Ketamine Hydrochloride|J. Wildl. Manag.44(3): 713-715|1980|10.2307/3808026
50027|T||Hashimoto,K., and K. Ando|Alteration of Amino Acid Incorporation into Proteins of the Nervous System In Vitro After Administration of Acrylamide to Rats|Biochem. Pharmacol.22:1057-1066|1973|10.1016/0006-2952(73)90170-6
50029|T||Hasnain,S., S. Yasmin, and A. Yasmin|The Effects of Lead-resistant Pseudomonads on the Growth of Triticum aestivum Seedlings Under Lead Stress|Environ. Pollut.81(2): 179-184|1993|10.1016/0269-7491(93)90084-2
50030|T||Hasnain,S., and A.N. Sabri|Growth Stimulation of Triticum aestivum Seedlings Under Cr-Stresses by Non-Rhizospheric Pseudomonad Strains|Environ. Pollut.97(3): 265-273|1997|10.1016/S0269-7491(97)00087-0
50031|T||Hass,J.R., L.T. Jao, N.K. Wilson, and H.B. Matthews|Metabolism of 4-Chlorobiphenyl and 4,4'-Dichlorobiphenyl in the Rat:  Qualitative and Quantitative Aspects|J. Agric. Food Chem.25(6): 1330-1333|1977|10.1021/jf60214a005
50032|T||Hassan,S.A., F. Bigler, H. Bogenschutz, E. Boller, J. Brun, J.N.M. Calis, J. Coremans-Pelseneer, C. Duso, A. Grove, U. |Results of the Sixth Joint Pesticide Testing Programme of the IOBC/WPRS-Working Group. Pesticides and Beneficial Organisms|Entomophaga39(1): 107-119|1994|10.1007/BF02373500
50034|T||Hassett,J.J., and J.E. Miller|Uptake of Lead by Corn from Roadside Samples|Commun. Soil Sci. Plant Anal.8:49-55|1977|10.1080/00103627709366698
50035|T||Hassoun,E.A., and S.J. Stohs|TCDD, Endrin and Lindane Induced Oxidative Stress in Fetal and Placental Tissues of C57BL/6J and DBA/2J Mice|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(1): 11-18|1996|10.1016/0300-9629(95)02069-1
50036|T||Hassoun,E.A., F. Li, A. Abushaban, and S.J. Stohs|The Relative Abilities of TCDD and Its Congeners to Induce Oxidative Stress in the Hepatic and Brain Tissues of Rats After Subchronic Exposure|Toxicology145:103-113|2000|10.1016/S0300-483X(99)00221-8
50039|T||Hauschild,M.Z.|Accumulation of Putrescine in Chromium-Exposed Barley and Rape:  A Potential Biomarker in Higher Plant Tests|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:199-204|1994|
50041|T||Hauser,E.W.|Preemergence Activity of Three Thiocarbamate Herbicides in Relation to Depth of Placement in the Soil|Weeds (Urbana)13:255-257|1965|10.2307/4041041
50042|T||Hautala,E.L., and J.K. Holopainen|Gramine and Free Amino Acids as Indicators of Fluoride-Induced Stress in Barley and Its Consequences to Insect Herbivory|Ecotoxicol. Environ. Saf.31(3): 238-245|1995|10.1006/eesa.1995.1069
50043|A||Haux,C., C. Hogstrand, A. Mage, and P. Olsson|Physiological Parameters in Fish Toxicology: A Method to Interprete Sublethal Effects Observed in the Laboratory in Terms of Ultimate Survival of the Fish in the Field|Ann. Soc. R. Zool. Belg.117:11-20|1987|
50047|T||Havera,S.P., S.G. Wood, and M.M. Georgi|Blood and Tissue Parameters in wild Mallards Redosed with Lead Shot|Bull. Environ. Contam. Toxicol.49(2): 238-245|1992|10.1007/BF00191761
50050|T||Hawf,L.R., and W.E. Schmid|Uptake and Translocation of Zinc by Intact Plants|Plant Soil27(2): 249-260|1967|10.1007/BF01373393
50056|T||Hayashi,K., K. Saito, Y. Kizawa, M. Sano, T. Kusama, K. Iwamoto, and H. Murakami|Involvement of Angiotensin II and Endothelin-1 in the Development of Submandibular Gland Hypertrophy in Response to Isoproterenol to Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:123-128|2000|
50063|T||Hazra,S.K.|Reverse Mutationin Hibiscus sabdariffa L. Induced by Ethyl Methanesulphonate|Environ. Ecol.17(3): 759-760|1999|
50065|AT||He,Y., T. Sun, Z. Ou, A. Yediler, and A. Kettrup|Fate of 1,2,4-Trichlorogbenzene (1,2,4-TCB) in Soil-Rice Paddy System|Chemosphere32(7): 1381-1389|1996|10.1016/0045-6535(96)00047-1
50066|T||Heagle,A.S., J.E. Miller, B.I. Chevone, T.W. Dreschel, W.J. Manning, P.M. McCool, C.L. Morrison, G.E. Neely, and J. Reb|Response of a White Clover Indicator System to Tropospheric Ozone at Eight Locations in the United States|Water Air Soil Pollut.85(3): 1373-1378|1995|10.1007/BF00477173
50067|T||Heagle,A.S., R.A. Reinert, and J.E. Miller|Response of White Clover to Ozone in Different Environments|J. Environ. Qual.25(2): 273-278|1996|10.2134/jeq1996.00472425002500020010x
50068|T||Heath,E.D.|Chlorfenvinphos as a Seed Dressing for the Control of Wheat Bulb Fly|Proc. Br. Insectic. Fungic. Conf.1:156-169|1967|
50069|T||Heaton,M.B., and D.M. Bradley|Ethanol Influences on the Chick Embryo Spinal Cord Motor System: Analyses of Motoneuron Cell Death, Motility, and Target Trophic Factor Activity and In Vitro Analyses of Neurotoxicity and Trophic Factor Neuroprotection|J. Neurobiol.26(1): 47-61|1995|10.1002/neu.480260105
50070|T||Heaton,S.N.|Effects on Reproduction of Ranch Mink Fed Carp from Saginaw Bay, Mighigan|M.S. Thesis, Michigan State University, East Lansing, MI:|1992|
50073|T||Hecht-Buchholz,C., D.J. Brady, C.J. Asher, and D.G. Edwards|Effects of Low Activities of Aluminum on Soybean (Glycine max). II. Root Cell Structure and Root Hair Development|Dev. Plant Soil Sci.41:335-343|1990|
50079|T||Hedman,R., H. Pettersson, B. Engstrom, K. Elwinger, and O. Fossum|Effects of Feeding Nivalenol-Contaminated Diets to Male Broiler Chickens|Poult. Sci.74(4): 620-625|1995|10.3382/ps.0740620
50080|T||Heenan,D.P., and O.G. Carter|Tolerance of Soybean Cultivars to Manganese Toxicity|Crop Sci.16:389-391|1976|10.2135/cropsci1976.0011183X001600030018x
50081|T||Heenan,D.P., and O.G. Carter|Influence of Temperature on the Expression of Manganese Toxicities by Two Soybean Varieties|Plant Soil47:219-227|1977|10.1007/BF00010381
50082|T||Heenan,D.P., and L.C. Campbell|The Influence of Temperature on the Accumulation and Distribution of Manganese in Two Cultivars of Soybean (Glycine max (L.) Merr.)|Aust. J. Agric. Res.41(5): 835-843|1990|10.1071/AR9900835
50084|T||Heikal,M.M.D., W.L. Berry, A. Wallace, and D. Herman|Alleviation of Nickel Toxicity by Calcium Salinity|Soil Sci.147(6): 413-415|1989|10.1097/00010694-198906000-00006
50085|T||Heilman,R.D., E.W. Bauer, and J.P. Da Vanzo|Effect of Polyethylene Glycol on the Cardiovascular Response of the Dog to Autonomic Agents|Toxicol. Appl. Pharmacol.23:263-270|1972|10.1016/0041-008X(72)90189-5
50088|T||Heimbach,F.|Correlation Between Data from Laboratory and Field Tests for Investigating the Toxicity of Pesticides to Earthworms|Soil Biol. Biochem.24(12): 1749-1753|1992|10.1016/0038-0717(92)90182-W
50090|T||Heimbach,U., P. Leonard, A. Khoshab, R. Miyakawa, and C. Abel|Assessment of Pesticide Safety to the Carabid Beetle, Poecilus cupreus, Using Two Different Semifield Enclosures|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:273-285|1994|
50094|T||Heimer,Y.M., J.L. Wray, and P. Filner|The Effect of Tungstate on Nitrate Assimilation in Higher Plant Tissues|Plant Physiol.44:1197-1199|1969|10.1104/pp.44.8.1197
50095|A||Heinis,L.J., M.L. Knuth, K. Liber, B.R. Sheedy, R.L. Tunell, and G.T. Ankley|Persistence and Distribution of 4-Nonylphenol Following Repeated Application to Littoral Enclosures|Environ. Toxicol. Chem.18(3): 363-375|1999|
50096|T||Heinz,G.H., and M.T. Finley|Toxaphene Does not Affect Avoidance Behavior of Young Black Ducks|J. Wildl. Manag.42(2): 408-409|1978|10.2307/3800279
50098|T||Heinz,G.H., D.J. Hoffman, L. Sileo, D.J. Audet, and L.J. LeCaptain|Toxicity of Lead-Contaminated Sediment to Mallards|Arch. Environ. Contam. Toxicol.36(3): 323-333|1999|10.1007/s002449900478
50101|T||Helgeson,E.A.|The Effect of 2,4-D on Wheat|Proc. North Cent. Weed Control Conf.4:37-38|1947|
50110|T||Helma,C., L. Kronberg, T.H. Ma, and S. Knasmuller|Genotoxic Effects of the Chlorinated Hydroxyfuranones 3-Chloro-4-(Dichloromethyl)-5-Hydroxy-2[5H]-Furanone and 3,4-Dichloro-5-Hydroxy-2[5H]-Furanone in Tradescantia Micronucleus Assays|Mutat. Res.3646(3): 181-186|1995|
50113|A||Helmstetter,M.F., A.E. MacCubbin, and R.W. Alden III|The Medaka Embryo-Larval Assay: An In Vivo Assay for Toxicity, Teratogenicity, and Carcinogenicity|In: Ostrander,G.K.(Ed.) Techniques in Aquatic Toxicology,Lewis Publ.,New York, NY:93-124|1996|
50115|T||Hemalatha,S., A. Anburaj, and K. Francis|Effect of Heavy Metals on Certain Biochemical Constituents and Nitrate Reductase Activity in Oryza sativa L. Seedlings|J. Environ. Biol.18(3): 313-319|1997|
50116|T||Hemantaranjan,A.|Iron Fertilization in Relation to Nodulation and Nitrogen Fixation in French Bean (Phaseolus vulgaris L.)|J. Plant Nutr.11(6-11): 829-842|1988|10.1080/01904168809363848
50119|T||Hemphill,D.D., and J.H. Rule|Foliar Uptake and Translocation of Pb210 and Cd109 by Plants|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada2(2): 77-86|1975|
50123|A||Henderson,C., Q.H. Pickering, and J.M. Cohen|The Toxicity of Synthetic Detergents and Soaps to Fish|Sewage Ind. Wastes31(3): 295-306|1959|
50126|A||Hendricks,J.D.|Chemical Carcinogenesis in Fish|In: L.J.Weber (Ed.), Aquatic Toxicology, Volume 1, Raven Press, NY:149-211|1982|
50128|T||Henning,S.J.|Alumium Toxicity in the Primary Meristem of Wheat Roots|Ph.D.Thesis, Oregon State University, Corvallis, OR:|1975|
50131|T||Henny,C.J., R.A. Oslon, and T.L. Fleming|Breeding Chronology, Molt, and Measurements of Accipiter Hawks in Northeastern Oregon|J. Field Ornithol.56(2): 97-112|1985|
50132|T||Henrick,C.A., W.E. Willy, G.B. Staal, and G.F. Ludvik|Ovicidal Activity and Its Relation to Chemical Structure for the Two-Spotted Spider Mite (Tetranychus urticae Koch) in a new Class of Miticides Containing the Cyclopropyl Group|J. Agric. Food Chem.24(5): 1023-1029|1976|10.1021/jf60207a017
50133|T||Henrick,C.A., W.E. Willy, and G.B. Staal|Insect Juvenile Hormone Activity of Aklyl (2E,4E)-3,7,11-Trimethyl-2,4-dodecadienoates. Variations in the Ester Function and in the Carbon Chain|J. Agric. Food Chem.24(2): 207-218|1976|10.1021/jf60204a018
50135|T||Henshel,D.S., J.W. Martin, and J.C. DeWitt|Brain Asymmetry as a Potential Biomarker for Developmental TCDD I1ntoxication: A Dose-Response Study|Environ. Health Perspect.105(7): 1-12|1997|10.1289/ehp.97105718
50137|T||Henshel,D.S., D.W. Sparks, C.A.A. Mayer, K. Benson, C. Fox, Y. Lam, S.A. Sobiech, and R. Wagey|Preliminary Results Using the Early Embryo Teratogenesis Assay: A Comparison of Early Embryo Abnormalities with Late Embryo and Hatchling Teratogenic Changes|ASTM Spec. Tech. Publ.6:391-411|1997|
50139|T||Herakly,F.A.|The Control of the Cabbage Web-Worm Hellula undalis Fab. (Lepidoptera:  Pyralidae)|Bull. Entomol. Soc. Egypt3:271-277|1969|
50143|A||Herbert,D.W.M., G.H.J. Elkins, H.T. Mann, and J. Hemens|Toxicity of Synthetic Detergents to Rainbow Trout|Water Waste Treat. J.6:394-397|1957|
50144|A||Herbert,D.W.M., and A.C. Wakeford|The Effect of Calcium Sulphate on the Survival of Rainbow Trout|Water Waste Treat. J.8:608-609|1962|
50145|A||Herbrandson,C., S.P. Bradbury, and D.L. Swackhamer|New Testing Apparatus for Assessing Interactive Effects of Suspended Solids and Chemical Stressors on Plankton Invertebrates|Environ. Toxicol. Chem.18(4): 679-684|1999|10.1002/etc.5620180414
50148|T||Herichova,A.|Study of the Influence of Vanadium on Mitosis and Cytokinesis|Physiol. Plant. (Multiple Languages)(21): 11-16|1985|
50150|A||Herkovits,J., and L.A. Helguero|Copper Toxicity and Copper-Zinc Interactions in Amphibian Embryos|Sci. Total Environ.221(1): 1-10|1998|10.1016/S0048-9697(98)00184-3
50151|A||Herkovits,J., C.S. Perez-Coll, and F.D. Herkovits|Evaluation of Nickel-Zinc Interactions by Means of Bioassays with Amphibian Embryos|Ecotoxicol. Environ. Saf.45(3): 266-273|2000|10.1006/eesa.1999.1857
50155|T||Hernandez,L.E., A. Garate, and R. Carpena-Ruiz|Effect of Cadmium on Nitrogen Fixing Pea Plants Grown in Perlite and Vermiculite|J. Plant Nutr.18(2): 287-303|1995|10.1080/01904169509364902
50157|T||Hernandez,O., and W.R. Dukelow|Aroclor-1254 Effects on the In Vitro Development of 8-Cell Mouse Embryos|Bull. Environ. Contam. Toxicol.60(5): 773-780|1998|10.1007/s001289900693
50160|T||Herne,D.C., and M. Chiba|Mortality of the European Red Mite (Acarina: Tetranychidae) Relative to Distribution and Degradation of Dicofol Deposits on Peach Leaves|Can. Entomol.107(8): 801-806|1975|10.4039/Ent107801-8
50161|T||Hertstein,U., and H.J. Jager|Tolerances of Different Populations of Three Grass Species to Cadmium and Other Metals|Environ. Exp. Bot.26(4): 309-319|1986|10.1016/0098-8472(86)90018-3
50163|T||Hesler,L.S., and G.R. Sutter|Effect of Trap Color, Volatile Attractants, and Type to Toxic Bait Dispenser or Captures of Adult Corn Rootworm Beetles (Coleoptera: Chrysomelidae)|Environ. Entomol.:743-750|1993|10.1093/ee/22.4.743
50165|T||Heungens,A., and E. Van Daele|Evolution of the Soil Fauna in Begonia Culture by Repeated Applications of Dichloropropane-Dichloropropene|Agric. Environ.1:251-258|1974|10.1016/0304-1131(74)90023-X
50169|T||Higashi,K., K. Ikeuchi, and Y. Karasaki|Use of Metabolic Activation Systems of Tulip Tulipa gesneriana Bulbs in the Ames Test for Environmental Mutagens|Bull. Environ. Contam. Toxicol.29(5): 505-510|1982|10.1007/BF01669611
50173|T||Hildreth,A.C., and G.B. Brown|Repellents to Protect Trees and Shrubs from Damage by Rabbits|Technical Bulletin, U.S.Department of Agriculture, Washington, DC:30 p.|1955|
50174|T||Hill,A.C., L.G. Transtrum, M.R. Pack, and W.S. Winters|Air Pollution with Relation to Agronomic Crops: VI. An Investigation of the 'Hidden Injury' Theory of Fluoride Damage to Plants|Agron. J.50:562-565|1958|10.2134/agronj1958.00021962005000090020x
50175|T||Hill,A.C., M.R. Pack, L.G. Transtrum, and W.S. Winters|Effects of Atmospheric Fluorides and Various Types of Injury on the Respiration of Leaf Tissue|Plant Physiol.34:11-16|1959|10.1104/pp.34.1.11
50178|T||Hill,E.F.|Toxicity of Selected Mosquito Larvicides to Some Common Avian Species|J. Wildl. Manag.35(4): 757-761|1971|10.2307/3799783
50179|T||Hill,E.F., R.G. Heath, and J.D. Williams|Effect of Dieldrin and Aroclor 1242 on Japanese Quail Eggshell Thickness|Bull. Environ. Contam. Toxicol.16(4): 445-453|1976|10.1007/BF01686160
50180|T||Hill,E.F.|Cholinesterase Activity in Japanese Quail Dusted with Carbaryl|Lab. Anim. Sci.29(3): 349-352|1979|
50181|T||Hill,E.F., and M.B. Camardese|Lethal Dietary Toxicities of Environmental Contaminants and Pesticides to Coturnix|Fish and Wildlife Technical Report 2, Fish and Wildlife Service, U.S. Department of the Interior:147 p.|1986|
50187|T||Hilmy,A.M., N.A. El-Domiaty, A.Y. Daabees, and E.M. Abou-Taleb|Studies of Zn, Mg, Cu, Ca and Fe in Cadmium Poisoned Toads Before and After Treatment with EDTA|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 167-170|1986|10.1016/0742-8413(86)90068-X
50188|T||Hilmy,A.M., N. El Domiaty, and A.Y. Daabees|Toxicity of Cadmium Administration to the Toad and the Treatment of Its Poisoning with EDTA|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 249-252|1986|10.1016/0742-8413(86)90082-4
50189|T||Hilmy,A.M., N. El-Domiaty, and A.Y. Daabees|Effect of Ethylenediaminetetraacetic Acid (EDTA) on Acute Mercury Poisoning of Toad|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 253-254|1986|10.1016/0742-8413(86)90083-6
50190|T||Hilmy,A.M., N.A. El Domiaty, A.Y. Dabees, and E.M.A. Taleb|The Use of the Chelating Agent EDTA in the Treatment of Acute Cadmium Toxicity, Tissue Distribution and Some Blood Parameters in the Egyptian Toad Bufo regularis|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 67-74|1986|10.1016/0742-8413(86)90053-8
50202|T||Hirano,Y., and N. Hijii|Effects of Low pH and Aluminum on Root Morphology of Japanese Red Cedar Saplings|Environ. Pollut.101:339-347|1998|10.1016/S0269-7491(98)00058-X
50203|T||Hiriyanna, and G. Subramanya|Effect of Certain Fungicides on the Induction of Dominant Lethals in Silkworm, Bombyx mori L|J. Environ. Biol.17(4): 273-277|1996|
50208|T||Hirsch,K.S., D.E. Weaver, L.J. Black, J.F. Falcone, and N.J. MacLusky|Inhibition of Central Nervous System Aromatase Activity: A Mechanism for Fenarimol-Induced Infertility in the Male Rat|Toxicol. Appl. Pharmacol.91(2): 235-245|1987|10.1016/0041-008X(87)90104-9
50211|A||His,E., I. Heyvang, O. Geffard, and X. De Montaudouin|A Comparison Between Oyster (Crassostrea gigas) and Sea Urchin (Paracentrotus lividus) Larval Bioassays for Toxicological Studies|Water Res.33(7): 1706-1718|1999|10.1016/S0043-1354(98)00381-9
50213|T||Hitchcock,A.E., P.W. Zimmerman, and R.R. Coe|Results of Ten Years Work (1951-1960) on the Effect of Fluorides on Gladiolus|Contrib. Boyce Thompson Inst.21:303-344|1962|
50214|T||Hitchcock,A.E., P.W. Zimmerman, and R.R. Coe|The Effect of Fluorides on Milo Maize (Sorghum sp.)|Contrib. Boyce Thompson Inst.22:175-206|1963|
50217|T||Ho,S.H., B.H. Lee, and D. See|Toxicity of Deltamethrin and Cypermethrin to the Larvae of the Diamond-Back Moth, Plutella xylostella L.|Toxicol. Lett.19:127-131|1983|10.1016/0378-4274(83)90272-2
50218|T||Hoagland,M.B.|Beryllium and Growth: II. The Effect of Beryllium on Plant Growth|Arch. Biochem. Biophys.35:249-258|1952|10.1016/S0003-9861(52)80004-9
50219|T||Hoagland,M.B.|Beryllium and Growth: III. The Effect of Beryllium on Plant Phosphatase|Arch. Biochem. Biophys.35:259-267|1952|10.1016/S0003-9861(52)80005-0
50221|T||Hoch,H.C., and D.J. Hagedorn|Studies on Chemical Control of Bean Root and Hypocotyl Rot in Wisconsin|Plant Dis. Rep.58(10): 941-944|1974|
50222|T||Hochstein,J.R., S.J. Bursian, and R.J. Aulerich|Effects of Dietary Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Adult Female Mink (Mustela vison)|Arch. Environ. Contam. Toxicol.35:348-353|1998|10.1007/s002449900386
50224|T||Hodge,S., M. Longley, L. Booth, V. Heppelthwaite, and K. O'Halloran|An Evaluation of Glutathione S-Transferase Activity in the Tasmanian Lacewing (Micromus tasmaniae) as a Biomarker of Organophosphate Contamination|Bull. Environ. Contam. Toxicol.65(1): 8-15|2000|
50229|T||Hodgson,R.J., and W.C. Plaxton|Effect of Polyethylene Glycol on the Activity Intrinsic Fluorescence, and Oligomeric Structure of Castor Seed Cytosolic Fructose-1,6-Bisphosphatase|FEBS Lett.368(3): 559-562|1995|10.1016/0014-5793(95)00744-T
50233|T||Hoestra,H.|Effect of Benomyl on the Potato Cyst Nematode, Heterodera rostochiensis|Neth. J. Plant Pathol.82:17-23|1976|10.1007/BF01977344
50234|T||Hoffer,B.J., L. Olson, and M.R. Palmer|Toxic Effect of Lead in the Developing Nervous System: In Oculo Experimental Models|Environ. Health Perspect.74:169-175|1987|10.1289/ehp.8774169
50235|T||Hoffer,G.N., and J.F. Trost|The Accumulation of Iron and Aluminium Compounds in Corn Plants and Its Probable Relation to Root Rots. II|Agron. J.15:323-331|1923|10.2134/agronj1923.00021962001500080003x
50236|A||Hoffert,J.R., and P.O. Fromm|Effect of Carbonic Anhydrasae Inhibition on Aqueous Humor and Blood Bicarbonate Ion in the Teleost, Salvelinus namaycush|Comp. Biochem. Physiol.18(2): 333-340|1966|10.1016/0010-406X(66)90191-5
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50238|T||Hoffmann,C.H., H.K. Townes, H.H. Swift, and R.I. Sailer|Field Studies on the Effects of Airplane Applications of DDT on Forest Invertebrates|Ecol. Monogr.19(1): 1-46|1949|10.2307/1943583
50239|T||Hoffman,D.J.|Embryotoxic and Teratogenic Effects of Petroleum Hydrocarbons in Mallards (Anas platyrhynchos)|J. Toxicol. Environ. Health5(5): 835-844|1979|10.1080/15287397909529793
50240|T||Hoffman,D.J., and M.L. Gay|Embryotoxic Effects of Benzo(a)pyrene, Chrysene and 7,12-Dimethylbenz[a]anthracene in Petroleum Hydrocarbon Mixtures in Mallard Ducks|J. Toxicol. Environ. Health7(5): 775-788|1981|10.1080/15287398109530019
50241|T||Hoffman,D.J., J.C. Franson, O.H. Pattee, C.M. Bunck, and H.C. Murray|Biochemical and Hematological Effects of Lead Ingestion in Nestling American Kestrels (Falco sparverius)|Comp. Biochem. Physiol. C Comp. Pharmacol.80(2): 431-439|1985|10.1016/0742-8413(85)90080-5
50242|T||Hoffman,D.J., G.H. Heinz, L.J. LeCaptain, J.D. Eisemann, and G.W. Pendleton|Toxicity and Oxidative Stress of Different Forms of Organic Selenium and Dietary Protein in Mallard Ducklings|Arch. Environ. Contam. Toxicol.31(1): 120-127|1996|10.1007/BF00203916
50243|T||Hoffman,D.J., M.J. Melancon, P.N. Klein, J.D. Eisemann, and J.W. Spann|Comparative Developmental Toxicity of Planar Polychlorinated Biphenyl Congeners in Chickens, American Kestrels, and Common Terns|Environ. Toxicol. Chem.17(4): 747-757|1998|10.1002/etc.5620170432
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50250|T||Hofstra,J.J.|Chlorate Toxicity and Nitrate Reductase Activity in Tomato Plants|Physiol. Plant. (Multiple Languages)41:65-69|1977|10.1111/j.1399-3054.1977.tb01524.x
50251|T||Hogan,G.D., G.M. Courtin, and W.E. Rauser|Copper Tolerance in Clones of Agrostis gigantea from a Mine Waste Site|Can. J. Bot.55:1043-1050|1977|10.1139/b77-122
50252|T||Hogan,G.R.|Nickel Acetate-Induced Mortality in Mice of Different Ages|Bull. Environ. Contam. Toxicol.34(3): 446-450|1985|10.1007/BF01609759
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50257|T||Hogger,C.H., H.U. Ammon, and M. Bieri|The Daniel Funnel Test in a Sequence of Earthworm Tests of Agricultural Pesticides|In: P.W.Greig-Smith, H.Becker, P.J.Edwards, and F.Heimbach (Eds.), Ecotoxicology of Earthworms, Intercept Ltd., U.K.:220-224|1992|
50261|T||Holden,A.V., and D. Bevan|Control of Pine Beauty Moth by Fenitrothion in Scotland 1978|In: A.V.Holden and D.Bevan (Eds.), Control of Pine Beauty Moth by Fenitrothion in Scotland 1978, Oxford: Forstry Comm., Nuffiel Press:173-|1978|
50262|T||Holder,G.M., and S. Willox|Nitrobenzene Reduction and Reductive Cleavage of Azobenzenes in Two Species of Arachnida|Life Sci.13:391-400|1973|10.1016/0024-3205(73)90231-2
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50267|T||Holly,K., and H.A. Roberts|Persistence of Phytotoxic Residues of Triazine Herbicides in Soil|Weed Res. (Multiple Languages)3:1-10|1963|10.1111/j.1365-3180.1963.tb00214.x
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50287|T||Hong,C.B., H.V. Ellis III, C.C. Lee, and J.C. Sprinz|Subchronic and Chronic Toxicity Studies of 2,4-Dinitrotoluene.  Part III.  CD-1 Mice|J. Am. Coll. Toxicol.4(4): 257-269|1985|10.3109/10915818509078678
50302|T||Hopkin,S.P., and C.A.C. Hames|Zinc, Among a 'Cocktail' of Metal Pollutants, is Responsible for the Absence of the Terrestrial Isopod Porcellio scaber from the Vicinity of a Primary Smelting Works|Ecotoxicology2(1): 68-78|1994|10.1007/BF00121389
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50319|T||Hornung,M.W., L. Miller, B. Goodman, M.J. Melancon, and R.E. Peterson|Lack of Developmental and Reproductive Toxicity of 2,3,3',4,4'-Pentachlorobiphenyl (PCB 105) in Ring-Necked Pheasants|Arch. Environ. Contam. Toxicol.35(4): 646-653|1998|10.1007/s002449900427
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50324|T||Horvath,E., K. Kovacs, and E. Yeghiayan|Histochemical Study of the 'Adrenocortical Lipid Hyperplasia' Induced in Rats by Aniline|Acta Histochem.39:154-161|1971|
50328|T||Hough,J.L., M.B. Baird, G.T. Sfeir, C.S. Pacini, D. Darrow, and C. Wheelock|Benzo(a)pyrene Enhances Atherosclerosis in White Carneau and Show Racer Pigeons|Arterioscler. Thromb.13(12): 1721-1727|1993|
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50330|T||Houseworth,L.D., and B.G. Tweedy|Effect of Atrazine in Combination with Captan or Thiram upon Fungal and Bacterial Populations in the Soil|Plant Soil38:493-500|1973|10.1007/BF00010689
50335|T||Hovmand,M.F., J.C. Tjell, and H. Mosbaek|Plant Uptake of Airborne Cadmium|Environ. Pollut.30A:27-38|1983|10.1016/0143-1471(83)90029-6
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50338|T||Howard,B., P.C.H. Mitchell, A. Ritchie, K. Simkiss, and M. Taylor|The Composition of Intracellular Granules from the Metal-Accumulating Cells of the Common Garden Snail (Helix aspersa)|Biochem. J. (Lond.)194:507-511|1981|10.1042/bj1940507
50341|T||Howeler,R.H.|Iron-Induced Oranging Disease ofRice in Relation to Physiochemical Changes in a Flooded Oxisol|Proc. Soil Sci. Soc. Am.37:898-903|1973|10.2136/sssaj1973.03615995003700060030x
50344|T||Howell,J.M., H.S. Deol, P.R. Dorling, and J.B. Thomas|Experimental Copper and Heliotrope Intoxication in Sheep:  Morphological Changes|J. Comp. Pathol.105(1): 49-74|1991|10.1016/S0021-9975(08)80061-8
50345|T||Howick,C.D., and J.W. Creffield|Laboratory Bioassays to Compare the Efficacy of Chlorpyrifos and Dieldrin in Protecting Wood from Termites|Int. Pest Control23(2): 40-42|1981|
50346|T||Hoyle,M.C.|Manganese Toxicity in Yellow Birch (Betula alleghaniensis Britton) Seedlings|Plant Soil36:229-232|1972|10.1007/BF01578500
50347|T||Hoylman,A.M.|Fate of Polycyclic Aromatic Hydrocarbons in Plant-Soil Systems:  Plant Responses to a Chemical Stress in the Root Zone|Ph.D.Thesis, University of Tennessee, Knoxville, TN:133 p.|1993|
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50355|T||Hsu,S.M., J.L. Schnoor, L.A. Licht, M.A.S. Clair, and S.A. Fannin|Fate and Transport of Organic Compounds in Municipal Solid Waste Compost|Compost Sci. Util.1(4): 36-48|1993|10.1080/1065657X.1993.10757902
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50358|T||Huang,A., S. Lin, R. Inglis, D. Powell, and K. Chou|Pre- and Postnatal Exposure to 3,3',4,4'-Tetrachlorobiphenyl: II. Effects on the Reproductive Capacity and Fertilizing Ability of Eggs in Female Mice|Arch. Environ. Contam. Toxicol.34(2): 209-214|1998|10.1007/s002449900306
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50363|T||Huang,H., Z. Smilowitz, and M.C. Saunders|Toxicity and Field Efficacy of Cryolite Against Colorado Potato Beetle (Coleoptera: Chrysomelidae) Larvae|J. Econ. Entomol.88(5): 1408-1414|1995|10.1093/jee/88.5.1408
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50366|T||Huang,J.W., D.L. Grunes, and L.V. Kochian|Aluminium and Calcium Transport Interactions in Intact Roots and Root Plasmalemma Vesicles from Aluminium-sensitive and Tolerant Wheat Cultivars|Plant Soil171(1): 131-135|1995|10.1007/BF00009575
50370|T||Huang,J.W., D.L. Grunes, and L.V. Kochian|Aluminum Effects on the Kinetics of Calcium Uptake into Cells of the Wheat Root Apex: Quantification of Calcium Fluxes Using a Calcium-Selective Vibrating Microelectrode|Planta (Multiple Languages)188(3): 414-421|1992|10.1007/BF00192809
50371|T||Huang,J., and E.P. Bachelard|Effect of Aluminium on Growth and Cation Uptake in Seedlings of Eucalyptus mannifera and Pinus radiata|Plant Soil149(1): 121-127|1993|10.1007/BF00010769
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50374|A||Huang,X.D., D.G. Dixon, and B.M. Greenberg|Increased Polycyclic Aromatic Hydrocarbon Toxicity Following Their Photomodification in Natural Sunlight:  Impacts on the Duckweed Lemna gibba L. G-3|Ecotoxicol. Environ. Saf.32(2): 194-200|1995|10.1006/eesa.1995.1102
50375|T||Huang,X.D., L.F. Zeiler, D.G. Dixon, and B.M. Greenberg|Photoinduced Toxicity of PAHs to the Foliar Regions of Brassica napus (Canola) and Cucumbis sativus (Cucumber) in Simulated Solar Radiation|Ecotoxicol. Environ. Saf.35(2): 190-197|1996|10.1006/eesa.1996.0099
50376|T||Huang,Y.W., M.J. Melanco, R.E. Jung, and W.H. Karasov|Induction of Cytochrome P450-Associated Monooxygenases in Northern Leopard Frogs, Rana pipiens, by 3,3',4,4',5-Pentachlorobiphenyl|Environ. Toxicol. Chem.17(8): 1564-1569|1998|
50377|T||Huang,Z.Z.|Ecological Aspects of Selenium Effects on Plant Growth and Species Diversity in Soils with Elevated Concentrations of Salinity and Selenium|Ph.D. Thesis, University of California, Davis:117 p.|1991|
50378|T||Huber,M.C., R.E.K. Winter, and R.I. Bolla|Effect of Copper Sulfate and Lead Acetate on Infection of Pines with Bursaphelenchus xylophilus|J. Nematol.21(1): 1-9|1989|
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50385|T||Hudson,J.E.|Anopheles-darlingi diptera culicidae in the surinam rain forest|Bull. Entomol. Res.74(1): 129-142|1984|10.1017/S0007485300010002
50386|T||Hudson,R.H., R.K. Tucker, and M.A. Haegele|Handbook of Toxicity of Pesticides to Wildlife|Resource Publication 153, Fish and Wildlife Service, U.S. Department of the Interior:90 p.|1984|
50387|T||Hueck,H.J., D.J. Kuenen, P.J. Den Boer, and E. Jaeger-Draafsel|The Increase of Egg Production of the Fruit Tree Red Spider Mite (Metatetranychus ulmi Koch) Under Influence of DDT|Physiol. Comp. Oecol.2:371-377|1952|
50392|T||Huff,W.E., J.A. Doerr, P.B. Hamilton, and R.F. Vesonder|Acute Toxicity of Vomitoxin (Deoxynivalenol) in Broiler Chickens|Poult. Sci.60:1412-1414|1981|10.3382/ps.0601412
50393|T||Huffman,E.W.D.,Jr., and W.H. Allaway|Chromium in Plants:  Distribution in Tissues, Organelles, and Extracts and Availability of Bean Leaf Cr to Animals|J. Agric. Food Chem.21(6): 982-986|1973|10.1021/jf60190a008
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50401|T||Hull,A.C.J., and K.W. Kreitlow|Grass Seedling Emergence and Survival After Treatment with Fungicides|J. Range Manag.:383-385|1970|
50402|T||Hull,A.C.,Jr.|Effect of Spraying with 2,4-D upon Abundance of Pocket Gophers in Franklin Basin, Idaho|J. Range Manag.24(3): 230-232|1971|10.2307/3896779
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50408|T||Humphrey,B.J., and P.A. Dahm|Chlorinated Hydrocarbon Insecticide Residues in Carabidae and the Toxicity of Dieldrin to Pterostichus chalcites|Environ. Entomol.5(4): 729-734|1976|10.1093/ee/5.4.729
50414|A||Hunsinger,R.N., and W.M. Howell|Treatment of Fish with Hormones: Solubilization and Direct Administration of Steroids into Aquaria Water Using Acetone as a Carrier Solvent|Bull. Environ. Contam. Toxicol.47(2): 272-277|1991|10.1007/BF01688651
50416|T||Hunt,K.A., M.J. Hooper, and E.E. Littrell|Carbofuran Poisoning in Herons:  Diagnosis Using Cholinesterase Reactivation Techniques|J. Wildl. Dis.31(2): 186-192|1995|10.7589/0090-3558-31.2.186
50419|T||Hunter,J.G., and O. Vergnano|Nickel Toxicity in Plants|Ann. Appl. Biol.39:279-284|1952|
50420|T||Hunter,J.G.|Nickel Toxicity in a Southern Rhodesian Soil|S. Afr. J. Sci.51:133-135|1954|
50424|T||Huque,H.|Preliminary Report on the Residues of Carbaryl Granules in Rice Plants|I.A.E.A. Panel Proc.Ser.:107-109|1972|
50429|T||Hussain,K., R. Singh, M.P. Kaushik, and A.K. Gupta|Acute Toxicity of Synthetic Gymnodinium Breve Toxin Metabolite and Its Analogues in Mice|Ecotoxicol. Environ. Saf.35(1): 77-80|1996|10.1006/eesa.1996.0083
50430|T||Hussein,M.H., and Y.A.I. Abdel-Aal|Toxicity of some compounds against the cowpea seed beetle callosobruchus-maculatus coleoptera bruchidae|Int. Pest Control24(1): 12 - 13, 16|1982|
50431|A||Hutchens,J.J.,Jr., K. Chung, and J.B. Wallace|Temporal Variability of Stream Macroinvertebrate Abundance and Biomass Following Pesticide Disturbance|J. North Am. Benthol. Soc.17(4): 518-534|1998|10.2307/1468369
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50435|A||Hutchinson,T.H., N.A. Pounds, M. Hampel, and T.D. Williams|Life-Cycle Studies with Marine Copepods (Tisbe battagliai) Exposed to 20-Hydroxyecdysone and Diethylstilbestrol|Environ. Toxicol. Chem.18(12): 2914-2920|1999|
50436|T||Huwe,J.K., V.J. Feil, G.L. Larsen, and C. Wiener|Metabolism and Disposition of 1,4,7,8-Tetrachlorodibenzo-p-Dioxin in Rats|Chemosphere37(9-12): 1885-1893|1998|10.1016/S0045-6535(98)00255-0
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50439|A||Hwang,Y.S., M.S. Mulla, and J.R. Arias|Overcrowing Factors of Mosquito Larvae. V. Synthesis and Evaluation of Some Branched-Chain Fatty Acids Against Mosquito Larvae|J. Agric. Food Chem.22(3): 400-403|1974|10.1021/jf60193a040
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50441|T||Hyder,D.N.|Species Susceptibilities to 2,4-D on Mixed-Grass Prairie|Weed Sci.19(5): 526-528|1971|10.1017/S004317450005058X
50442|A||Hyotylainen,T., and A. Oikari|Assessment of the Bioactivity of Creosote-Contaminated Sediment by Liver Biotransformation System of Rainbow Trout|Ecotoxicol. Environ. Saf.44(3): 253-258|1999|10.1006/eesa.1999.1830
50450|A||Ide,F.P.|Effects of Forest Spraying with DDT on Aquatic Insects of Salmon Streams in New Brunswick|J. Fish. Res. Board Can.24:769-805|1967|10.1139/f67-067
50453|T||Ikai,C., and M. Okamoto|Reduced Macrophage Phagocytic Activity in Wolffian Lens Regeneration of the Newt After Nickel Subsulfide Administration|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.119(1): 81-88|1998|
50466|T||Ilijin,A.J.|Concerning the Effect of the Herbicide 2,4-D on Soil Microorganisms|Microbiology30:1050-1051|1962|
50468|A||Imai,A., T. Fukushima, and K. Matsushige|Effects of Iron Limitation and Aquatic Humic Subtances on the Growth of Microcystis aeruginosa|Can. J. Fish. Aquat. Sci.56(10): 1929-1937|1999|10.1139/f99-131
50469|T||Imai,I., and S.M. Siegel|A Specific Response to Toxic Cadmium Levels in Red Kidney Bean Embryos|Physiol. Plant. (Multiple Languages)29:118-120|1973|10.1111/j.1399-3054.1973.tb04820.x
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50473|T||Inclan,R., A. Ribas, J. Penuelas, and B.S. Gimeno|The Relative Sensitivity of Different Mediterranean Plant Species to Ozone Exposure|Water Air Soil Pollut.116(1-2): 273-277|1999|10.1023/A:1005214005416
50474|T||Indulkar,B.S., and G.U. Malewar|Response of Rice (Oryza sativa) to Different Zinc Sources and Their Residual Effect on Succeeding Chickpea (Cicer arietinum)|Indian J. Agron.36(SUPPL): 5-9|1991|
50477|A||Ingram,A.J.|Reactions to Carcinogens in the Axolotl (Ambystoma mexicanum) in Relation to the Regeneration Field Control Hypothesis|J. Embryol. Exp. Morphol.26(3): 425-441|1971|
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50480|T||Ingram,W.R.|Observations on the Pest Status of Bean Flower Thrips in Uganda|East Afr. Agric. For. J.34(4): 482-484|1969|10.1080/00128325.1969.11662333
50481|T||Inoue,K.|Relationship Between Dicofol Resistance and Fitness in the Citrus Red Mite, Panonychus citri (McG.)|J. Pestic. Sci. (Multiple Languages)5:165-175|1980|10.1584/jpestics.5.165
50486|T||Inoue,K., Y. Umegaki, S. Kondo, K. Sanada, and H. Yokota|Production of Iron-Enriched Leaf Vegetables by Soaking Roots in Ammonium Ferric Citrate Solution: pH and Iron Concentration on the Foliar Iron Content|Environ. Control Biol.35(1): 55-632|1997|10.2525/ecb1963.35.55
50488|T||Institoris,L., U. Undeger, O. Siroki, M. Nehez, and I. Desi|Comparison of Detection Sensitivity of Immuno- and Genotoxicological Effects of Subacute Cypermethrin and Permethrin Exposure in Rats|Toxicology137:47-55|1999|10.1016/S0300-483X(99)00081-5
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50495|T||Ireland,M.P.|Uptake and Distribution of Cadmium in the Terrestrial Slug Arion ater (L.)|Comp. Biochem. Physiol. A Comp. Physiol.68(1): 37-41|1981|10.1016/0300-9629(81)90314-5
50496|T||Ireland,M.P.|Sites of Water, Zinc and Calcium Uptake and Distribution of These Metals After Cadmium Administration in Arion ater (Gastropoda: Pulmonata)|Comp. Biochem. Physiol. A Comp. Physiol.73(2): 217-221|1982|10.1016/0300-9629(82)90058-5
50498|T||Ireland,M.P.|Effect of Chronic and Acute Lead Treatment in the Slug Arion ater on Calcium and delta-Aminolaevulinic Acid Dehydratase Activity|Comp. Biochem. Physiol. C Comp. Pharmacol.79:287-290|1984|10.1016/0742-8413(84)90201-9
50499|T||Ireland,M.P.|Effects of Wound Healing on Zinc Distribution and Alkaline Phosphatase Activity of Helix aspersa (Gastropoda:  Pulmonata)|J. Molluscan Stud.52:169-173|1986|10.1093/mollus/52.3.169
50500|T||Ireland,M.P.|Studies on the Effects of Dietary Beryllium at Two Different Calcium Concentrations in Achatina fulica (Pulmonata)|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 435-438|1986|10.1016/0742-8413(86)90149-0
50501|T||Ireland,M.P.|A Comparative Study of the Uptake and Distribution of Silver in a Slug Arion ater and a Snail Achatina fulica|Comp. Biochem. Physiol. C Comp. Pharmacol.90(1): 189-194|1988|10.1016/0742-8413(88)90118-1
50503|T||Isa,A.L., W.H. Awadallah, A.M. Tantawy, and M.A. Bishara|On the Chemical Control of the Rice Stem Borer|Bull. Entomol. Soc. Egypt4:117-125|1970|
50504|T||Isa,A.L., W.H. Awadallah, and El Tantawy A.M. |The Chemical Control of Sesamia cretica Led. on Corn|Agric. Res. Rev.50(1): 51-59|1972|
50505|T||Isaacson,P.A.|Action of DDT on the Peripheral Nervous System of the Grass Frog Rana pipiens|Curr. Sci. (Bangalore)37(18): 530-531|1968|
50506|A||Isani,G., R. Serra, O. Cattani, P. Cortesi, and E. Carpene|Adenylate Energy Charge and Metallothionein as Stress Indices in Mytilus galloprovincialis Exposed to Cadmium and Anoxia|J. Mar. Biol. Assoc. U.K.77(4): 1187-1197|1997|10.1017/S0025315400038704
50507|T||Iscan,M., T. Coban, and B.C. Eke|Responses of Hepatic Xenobiotic Metabolizing Enzymes of Mouse , Rat and Guinea-Pig to Nickel|Pharmacol. Toxicol.71:434-442|1992|10.1111/j.1600-0773.1992.tb00574.x
50508|A||Isensee,A.R., and R.S. Yockim|Freshwater Micro-Ecosystem Development and Testing of Substitute Chemicals|EPA-600/3-80-008, U.S.EPA, Duluth, MN:36 p.|1980|
50509|T||Isensee,A.R., and G.E. Jones|Absorption and Translocation of Root and Foliage Applied 2,4-Dichlorophenol, 2,7-Dichlorodibenzo-p-Dioxin, and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Agric. Food Chem.19(6): 1210-1214|1971|10.1021/jf60178a045
50510|T||Isensee,A.R., W.C. Shaw, W.A. Gentner, C.R. Swanson, B.C. Turner, and E.A. Woolson|Revegetation Following Massive Application of Selected Herbicides|Weed Sci.21(5): 409-412|1973|10.1017/S0043174500027351
50511|T||Ishay,J.S., A.B. Afek, and M.B. brown|Allopurinol and Theophylline:  Their Effect on Longevity, Fertility and Behavior of Hornets Kept Under Different Light and Crowding Conditions|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 57-65|1982|10.1016/0306-4492(82)90168-X
50515|A||Ishida,Y., H. Yoshikawa, and H. Kobayashi|Electrophysiological Responses of Three Chemosensory Systems in the Carp to Pesticides|Physiol. Behav.60(2): 633-638|1996|10.1016/S0031-9384(96)80041-2
50516|T||Ishii,S., and C. Hirano|Growth Responses of Larvae of the Rice Stem Borer to Rice Plants Treated with 2,4-D|Entomol. Exp. Appl.6:257-262|1963|10.1111/j.1570-7458.1963.tb00625.x
50517|T||Ishizaka,T., T. Suzuki, and Y. Saito|Metabolism of Dibutyltin Dichloride in Male Rats|J. Agric. Food Chem.37:1096-1101|1989|10.1021/jf00088a062
50518|T||Islam,N., M.Z. Khan, Q. Zaman, and G. Muhammad|Effect of Concurrent Feeding of Furazolidone and Sodium Chloride upon Some Clinical, Pathological and Cardiac Morphometric Parameters in Broiler Chicks|J. Vet. Med. Ser. A42(2): 91-98|1995|10.1111/j.1439-0442.1995.tb00359.x
50521|A||Isvanovics,V., H.M. Shafik, M. Presing, and S. Juhos|Growth and Phosphate Uptake Kinetics of the Cyanobacterium, Cylindrospermopsis raciborskii (Cyanophyceae) in Throughflow Cultures|Freshw. Biol.43(2): 257-275|2000|10.1046/j.1365-2427.2000.00549.x
50524|T||Itoh,K., Y. Kitade, and C. Yatome|Oxidative Biodegradation of an Anthraquinone Dye, Pigment Violet 12, by Coriolus versicolor|Bull. Environ. Contam. Toxicol.60(5): 786-790|1998|10.1007/s001289900695
50525|T||Itokawa,Y., N. Yagi, H. Kaito, K. Kamohara, and K. Fujiwara|Influence of Diet on the Induction of Hepatic Ceroid Pigment in Rats by Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.36(1): 131-141|1976|10.1016/0041-008X(76)90033-8
50528|T||Ivashchenko,N.I., T.Y. Grozdova, and T.A. Kholikova|Influence of NaF on the Frequency of Recessive Lethal Sex Linked Mutations in Drosophila melanogaster, Induced by Irradiation Under Aerobic and Anaerobic Conditions|Radiobiology:105-111|1970|
50530|T||Iwai,I., T. Hara, and Y. Sonoda|Factors Affecting Cadmium Uptake by the Corn Plant|Soil Sci. Plant Nutr.21:37-46|1975|10.1080/00380768.1975.10432619
50534|T||Iwata,Y., and F.A. Gunther|Translocation of the Polychlorinated Biphenyl Aroclor 1254 From Soil into Carrots Under Field Conditions|Arch. Environ. Contam. Toxicol.4(1): 44-59|1976|10.1007/BF02221014
50535|T||Iyer,J.G., S.H. Slayton, and W.B. Wood|Maneb Fungicide. Its Effect on Soils and Tree Growth|Adv. Front. Plant Sci.29:223-246|1972|
50537|T||Jabbar Khan,M.A.|Insecticidal Effects of Indigenous Plant Extracts Taramira and Artemisia on Some Delphacid Rice Pests in Pakistan|Ann. Entomol. Fenn.50(3): 95-96|1984|
50547|T||Jackson,H.C., and I. Kitchen|Lack of Effect of Perinatal Lead Exposure on kappa-Opioid Receptor Function|Toxicol. Lett.50(1): 17-23|1990|10.1016/0378-4274(90)90248-K
50554|T||Jacob,J., G. Grimmer, and A. Schmoldt|The Influence of Polycyclic Aromatic Hydrocarbons as Inducers of Monooxygenase on the Metabolite Profile of Benz[a]anthracene in Rat Liver Microsomes|Cancer Lett.14:175-185|1981|10.1016/0304-3835(81)90128-2
50556|T||Jacobs,L.W., S.F. Chou, and J.M. Teidje|Fate of Polybrominated Biphenyls (PBB's) in Soils. Persistence and Plant Uptake|J. Agric. Food Chem.24(6): 1198-1201|1976|10.1021/jf60208a005
50559|T||Jacobson,K.B., J.E. Turner, N.T. Christie, and R.K. Owenby|Toxic and Biochemical Effects of Divalent Metal Ions in Drosophila: Correlation to Effects in Mice and to Chemical Softness Parameters|Sci. Total Environ.28:355-366|1983|10.1016/S0048-9697(83)80032-1
50560|T||Jacobson,L.|Maintenance of Iron Supply in Nutrient Solutions by a Single Addition of Ferric Potassium Ethylenediamine Tetra-acetate|Plant Physiol.26:411-413|1951|10.1104/pp.26.2.411
50561|T||Jacques,A., and H.R. Witschi|Beryllium Effects on Aryl Hydrocarbon Hydroxylase in Rat Lung|Arch. Environ. Health27(4): 243-247|1973|10.1080/00039896.1973.10666361
50562|T||Jadhav,G.D., and S.S. Shelke|DDT and Carbaryl Residues in Seed Cotton and Plants|J. Maharashtra Agric. Univ.11(3): 312-313|1986|
50566|T||Jager,T., F.A.A. Sanchez, B. Muijs, E.G. Van der Velde, and L. Posthuma|Toxicokinetics of Polycyclic Aromatic Hydrocarbons in Eisenia andrei (Oligochaeta) Using Spiked Soil|Environ. Toxicol. Chem.19(4): 953-961|2000|10.1002/etc.5620190424
50567|T||Jagers op Akkerhuis,G.A.J.M.|Effects of Walking Activity and Physical Factors on the Short Term Toxicity of Deltamethrin Spraying in Adult Epigeal Money Spiders (Linyphiidae)|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:323-338|1994|
50568|T||Jagers op Akkerhuis,G.A.J.M., C. Kjaer, C. Damgaard, and N. Elmegaard|Temperature-Dependent, Time-Dose-Effect Model for Pesticide Effects on Growing, Herbivorous Arthropods: Bioassays with Dimethoate and Cypermethrin|Environ. Toxicol. Chem.18(10): 2370-2378|1999|10.1002/etc.5620181035
50569|T||Jagers op Akkerhuis,G.A.J.M., C. Damgaard, C. Kjaer, and N. Elmegaard|Comparison of the Toxicity of Dimethoate and Cypermethrin in the Laboratory and the Field when Applying the Same Bioassay|Environ. Toxicol. Chem.18(10): 2379-2385|1999|10.1002/etc.5620181036
50570|T||Jagiello,G., and J.S. Lin|Sodium Fluoride as Potential Mutagen in Mammalian Eggs|Arch. Environ. Health29:230-235|1974|10.1080/00039896.1974.10666574
50571|T||Jagschitz,J.A.|Evaluation of Herbicides for the Control of Broadleaved Weeds in Seedling and Mature Turfgrass|Proc. Northeast. Weed Control Conf.26:217-223|1972|
50572|T||Jain,A., N.K. Dixit, and R.S. Dhanotiya|Hyperglycemia due to Aldrin Toxicity in Goat|J. Environ. Biol.16(1): 45-50|1995|
50573|T||Jain,A.K., and R.K. Sarbhoy|Cytogenetical Studies on the Effect of Some Chlorinated Pesticides I. Effect on Somatic Chromosomes of Lens and Pisum|Cytologia (Tokyo)52:47-53|1987|10.1508/cytologia.52.47
50574|T||Jain,A.K., and R.K. Sarbhoy|Cytogenetical Studies on the Effect of Some Chlorinated Pesticides II. Effect on Meiotic Chromosomes of Lens and Pisum|Cytologia (Tokyo)52:55-61|1987|10.1508/cytologia.52.55
50575|T||Jaiswal,S.P., N.K. Saini, and S.K. Sharma|The Effect of Some Pesticides in Conjunction with Nitrogen Sources on Growth and Carbohydrate and Nitrogen Constituents of Sugarcane During Formative Phase|Plant Soil38:33-40|1973|10.1007/BF00011215
50576|A||Jak,R.G., J.L. Maas, and M.C.T. Scholten|Ecotoxicity of 3,4-Dichloroaniline in Enclosed Freshwater Plankton Communities at Different Nutrient Levels|Ecotoxicology7(1): 49-60|1998|10.1023/A:1008859718361
50579|A||James,M.O., and P.J. Little|Polyhalogenated Biphenyls and Phenobarbital:  Evaluation as Inducers of Drug Metabolizing Enzymes in the Sheepshead, Archosargus probatocephalus|Chem.-Biol. Interact.36(2): 229-248|1981|10.1016/0009-2797(81)90022-3
50580|T||Jan,F.|Varietal Diversity of Upland Rice in Tolerance to Aluminium|J. Plant Nutr.12(9): 973-993|1989|10.1080/01904168909364017
50581|T||Jan,F.|Aluminium Effects on Growth, Nurient Net Uptake and Transport in 3 Rice (Oryza sativa) Cultivars with Different Sensitivity to Aluminium|Physiol. Plant. (Multiple Languages)83(3): 441-448|1991|10.1111/j.1399-3054.1991.tb00118.x
50583|T||Jan,F., and S. Pettersson|Aluminum Uptake in Relation to K, Ca, and P Concentrations in the Roots of Two Rice Cultivars with Different al Sensitivity|International Rice Research Notes20(1): 16-|1995|
50585|T||Jana,S.K., and N.C. Paria|Effects of Agro-Chemicals on Growth and Yield of Garden Pea (Pisium sativum L.) Cv. Arkel|Environ. Ecol.14(3): 535-537|1996|
50587|T||Janes,M.J., and G.L. Greene|Control of fall armyworms and corn earworms on sweet corn-m ears in central and south florida|J. Econ. Entomol.62(5): 1031-1033|1969|10.1093/jee/62.5.1031
50588|T||Janes,M.J., and W.G. Genung|Status and control of the corn-m stem weevil in the florida everglades|Fla. Entomol.52(3): 137-140|1969|10.2307/3493847
50591|T||Janssen,H.H., and R. Dallinger|Diversification of Cadmium-Binding Proteins due to Different Levels of Contamination in Arion lusitanicus|Arch. Environ. Contam. Toxicol.20:132-137|1991|10.1007/BF01065339
50595|T||Janssen,M.P.M.|Turnover Of Cadmium Through Soil Arthropods|Vrije University, The Netherlands (NTIS#PB92104215):138-|1991|
50597|T||Janssen,M.P.M., P. Glastra, and J.F.M.M. Lembrechts|The Effects of Soil chemical Characteristics on the 134Cs Concentrations in Earthworms. Uptake from Liquid Medium|J. Environ. Radioact.35(3): 313-330|1997|10.1016/S0265-931X(96)00055-0
50602|T||Janz,D.M., and G.D. Bellward|In Ovo 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure in Three Avian Species. 2. Effects on Estrogen Receptor and Plasma Sex Steroid Hormones During the Perinatal Period|Toxicol. Appl. Pharmacol.139(2): 292-300|1996|10.1006/taap.1996.0168
50603|T||Jariel,D.M., S.U. Wallace, U.S. Jones, and H.P. Samonte|Aluminum Tolerance in Maize: Minimizing pH Changes in Screening Solutions|J. Plant Nutr.13(8): 995-1016|1990|10.1080/01904169009364131
50604|T||Jarrell,J., E.V. YoungLai, R.D. Barr, A. McMahon, L. Belbeck, and G. O'Connell|Ovarian Toxicity of Cyclophosphamide Along and in Combination with Ovarian Irradiation in the Rat|Cancer Res.47:2340-2343|1987|
50605|T||Jarrell,J.F., L. Bodo, E.V. YoungLai, R.D. Barr, and G.J. O'Connell|The Short-Term Reproductive Toxicity of Cyclophosphamide in the Female Rat|Reprod. Toxicol.5(6): 481-485|1991|10.1016/0890-6238(91)90019-C
50606|A||Jarvenpaa,T., M. Tillander, and J.K. Miettinen|Methylmercury: Half-Time of Elimination in Flounder, Pike and Eel|Suomen Kemist.43B:439-442|1970|
50608|T||Jarvis,S.C., L.H.P. Jones, and M.J. Hopper|Cadmium Uptake from Solution by Plants and Its Tranport from Roots to Shoots|Plant Soil44(1): 179-191|1976|10.1007/BF00016965
50609|T||Jarvis,S.C., and D.C. Whitehead|The Absorption, Distribution and Concentration of Copper in White Clover Grown on a Range of Soils|Plant Soil75:427-434|1983|10.1007/BF02369976
50613|T||Jaworska,M., and P. Tomasik|Metal-Metal Interactions in Biological Systems.  Part VI.  Effect of Some Metal Ions on Mortality, Pathogenicity and Reproductivity of Steinernema carpocapsae and Heterorhabditis bacteriophora Entomopathogenic Nematodes|Water Air Soil Pollut.110(1-2): 181-194|1999|10.1023/A:1005097322545
50614|T||Jawson,M.D., A.J. Franzluebbers, D.K. Galusha, and R.M. Aiken|Soil Fumigation Within Monoculture and Rotations: Response of Corn and Mycorrhizae|Agron. J.85:1174-1180|1993|10.2134/agronj1993.00021962008500060016x
50618|T||Jefferies,D.J.|The Delay in Ovulation Produced by pp'-DDT and Its Possible Significance in the Field|Ibis109:266-272|1967|10.1111/j.1474-919X.1967.tb00421.x
50619|T||Jefferson,P.|Studies on the Earthworms of Turf|J. Sports Turf Res. Inst.9(31): 6-27|1955|
50620|T||Jelenko III,C.|Topical Control of Water Loss from the Body Surface II. The Effects of Some Topical Agents upon Mature Burn Eschar: An In Vivo Intercomparison|J. Surg. Res.9(7): 409-413|1969|10.1016/0022-4804(69)90112-7
50621|T||Jelinek,R., M. Peterka, and Z. Rychter|Chick Embryotoxicity Screening Test - 130 Substances Tested|Indian J. Exp. Biol.23(10): 588-595|1985|
50623|T||Jeng,A.S., and B.R. Singh|Cadmium Status of Soils and Plants from a Long-Term Fertility Experiment in Southeast Norway|Plant Soil175(1): 67-74|1995|10.1007/BF02413011
50625|T||Jenkins,J.E.E., and J.L. Jemmett|Experiments on the Chemical Control of Barley Leaf Diseases|Proc.4th British Insecticide and Fungicide Conference, Volume 1, Held Nov.20-23, 1967, Brighton, England:108-110|1967|
50631|T||Jensen,P.R., K.M. Jenkins, D. Porter, and W. Fenical|Evidence that a New Antibiotic Flavone Glycoside Chemically Defends the Sea Grass Thalassia testudinum Against Zoosporic Fungi|Appl. Environ. Microbiol.64(4): 1490-1496|1998|10.1128/AEM.64.4.1490-1496.1998
50636|T||Jensen,H., and H. Mosbaek|Relative Availability of 200 Years Old Cadmium from Soil to Lettuce|Chemosphere20(6): 693-702|1990|10.1016/0045-6535(90)90160-U
50637|T||Jensen,L.S., and D.V. Maurice|Dietary Chromium and Interior Egg Quality|Poult. Sci.59:341-346|1980|10.3382/ps.0590341
50638|T||Jensen,P., S. Pettersson, T. Drakenberg, and H. Asp|Aluminum Effects on Vacuolar Phosphorus in Roots of Beech (Fagus sylvatica L.)|J. Plant Physiol.134(1): 37-42|1989|10.1016/S0176-1617(89)80199-3
50641|T||Jentschke,G., E. Fritz, and D.L. Godbold|Distribution of Lead in Mycorrhizal and Non-Mycorrhizal Norway Spruce Seedlings|Physiol. Plant. (Multiple Languages)81:417-422|1991|10.1111/j.1399-3054.1991.tb08752.x
50642|T||Jentschke,G., D.L. Godbold, and A. Huettermann|Culture of Mycorrhizal Tree Seedlings Under Controlled Conditions:  Effects of Nitrogen and Aluminum|Physiol. Plant. (Multiple Languages)81(3): 408-416|1991|10.1111/j.1399-3054.1991.tb08751.x
50643|T||Jeppson,L.R., H.S. Elmer, M.J. Jesser, and J.O. Complin|Effectiveness of 4,4'-Dichloro-alpha-(Trichloromethyl)Benzhydrol (FW-293) for Control of Citrus Mites in California|J. Agric. Food Chem.5(8): 592-595|1957|10.1021/jf60078a003
50644|T||Jeppson,L.R., J.O. complin, and M.J. Jesser|Effects of Application Programs on Citrus Red Mite Control and Development of Resistance to Acaricides|J. Econ. Entomol.55:17-22|1962|10.1093/jee/55.1.17
50647|T||Jewell,C.S.E., L.E. Cummings, M.J.J. Ronis, and G.W. Winston|Induction of the Hepatic Microsomal Mixed-Function Oxygenase (MFO) System of Alligator mississippiensis by 3-Methylcholanthrene (3-MC)|Mar. Environ. Res.28(1-4): 73-79|1989|10.1016/0141-1136(89)90187-6
50648|A||Jeyasingham,K., and N. Ling|Acute Toxicity of Arsenic to Three Species of New Zealand Chironomids: Chironomus zealandicus, Chironomus sp. a and Polypedilum pavidus (Diptera, Chironomidae)|Bull. Environ. Contam. Toxicol.64(5): 708-715|2000|10.1007/s001280000061
50649|T||Jezikova,M., and M. Kummerova|Interactive Effect of Aluminum and Calcium on Root Growth of Larix decidua and Two Co-occurring Acidophilous Grasses|Toxicol. Environ. Chem.63(1-4): 13-21|1997|10.1080/02772249709358513
50650|T||Jha,A.N., and A.S. Chandel|Critical Concentration of Zinc for Soybean (Glycine max) Grown in Calcareous Soil of North Indian Plains|Indian J. Agric. Sci.58(11): 857-858|1988|
50651|T||Jha,S., S.K. Paul, and M.R. Ghosh|Effect of Methyl-Demeton on Some Predators on Safflower Ecosystem|Environ. Ecol.15(3): 509-510|1997|
50652|T||Jiang,W., D. Liu, and H. Li|Effects of Cu2+ on Root Growth, Cell Division, and Nucleolus of Helianthus annuus L|Sci. Total Environ.256:59-65|2000|10.1016/S0048-9697(00)00470-8
50653|T||Jin,T., G. Nordberg, J. Sehlin, H. Wallin, and S. Sandberg|The Susceptibility to Nephrotoxicity of Streptozotocin-Induced Diabetic Rats Subchronically Exposed to Cadmium Chloride in Drinking Water|Toxicology142:69-75|1999|10.1016/S0300-483X(99)00135-3
50655|T||Jing,J., and T. Logan|Effects of Sewage Sludge Cadmium Concentration on Chemical Extractability and Plant Uptake|J. Environ. Qual.21(1): 73-81|1992|10.2134/jeq1992.00472425002100010011x
50656|A||Jobling,S., D. Sheahan, J.A. Osborne, P. Matthiessen, and J.P. Sumpter|Inhibition of Testicular Growth in Rainbow Trout (Oncorhynchus mykiss) Exposed to Estrogenic Alkylphenolic Chemicals|Environ. Toxicol. Chem.15(2): 194-202|1996|10.1002/etc.5620150218
50659|T||Johannsen,F.R., P.L. Wright, D.E. Gordon, G.J. Levinskas, R.W. Radue, and P.R. Graham|Evaluation of Delayed Neurotoxicity and Dose-Response Relationships of Phosphate Esters in the Adult Hen|Toxicol. Appl. Pharmacol.41(2): 291-304|1977|10.1016/0041-008X(77)90030-8
50661|T||Johansson,T.S.K., and M.P. Johansson|Sublethal Doses of Sodium Fluoride Affecting Fecundity of Confused Flour Beetles|J. Econ. Entomol.65(2): 356-357|1972|10.1093/jee/65.2.356
50662|T||John,M.K., C.J. Van Laerhoven, and H.H. Chuah|Factors Affecting Plant Uptake and Phytotoxicity of Cadmium Added to Soils|Environ. Sci. Technol.6(12): 1005-1009|1972|10.1021/es60071a008
50663|T||John,M.K., and C.J. Van Laerhoven|Differential Effects of Cadmium on Lettuce Varieties|Environ. Pollut.10(3): 163-173|1976|
50665|T||John,M.K.|Interrelationships Between Plant Cadmium and Uptake of Some Other Elements from Culture Solutions by Oats and Lettuce|Environ. Pollut.11:85-95|1976|
50666|T||Johnson,A.W., and G.W. Burton|Influence of Nematicides on Nematodes and Yield of Sorghum-Sudangrass Hybrids and Millets|Plant Dis. Rep.61(12): 1013-1017|1977|
50667|T||Johnson,B.J.|Toxicity of Turfgrass Herbicides to Woody Ornamentals|Res. Rep. Univ. Ga. Coll. Agric. Exp. Stn.489:17 p.|1985|
50673|A||Johnson,C.R.|The Effects of Five Organophosphorus Insecticides on Thermal Stress in Tadpoles of the Pacific Tree Frog, Hyla regilla|Zool. J. Linn. Soc.69(2): 143-147|1980|10.1111/j.1096-3642.1980.tb01935.x
50674|T||Johnson,D.R.|Effects of Range Treatment with 2,4-D on Food Habits of Rodents|Ecology45(2): 241-249|1964|10.2307/1933837
50676|T||Johnson,E.C., and S.D. Murphy|Effect of Acrylamide Intoxication on Pyridine Nucleotide Concentrations and Functions in Rat Cerebral Cortex|Biochem. Pharmacol.26:2151-2155|1977|10.1016/0006-2952(77)90267-2
50679|A||Johnson,I.C., A.E. Keller, and S.G. Zam|A Method for Conducting Acute Toxicity Tests with the Early Life Stages of Freshwater Mussels|ASTM Spec. Tech. Publ.:381-396|1993|
50680|T||Johnson,I.P., J.R. Flowerdew, and R. Hare|Effects of Broadcasting and of Drilling Methiocarb Molluscicide Pellets on Field Populations of Wood Mice, Apodemus sylvaticus|Bull. Environ. Contam. Toxicol.46(1): 84-91|1991|10.1007/BF01688259
50683|T||Johnson,M.O.|The Spraying of Yellow Pineapple Plants on Manganese Soils with Iron Sulphate Solutions|Hawaii Agric. Exp. Stn. Tech. Bull.51:11 p. |1916|
50684|T||Johnson,M.O.|Manganese Chlorosis of Pineapples:  Its Cause and Control|Hawaii Agric. Exp. Stn. Tech. Bull.52:38 p.|1924|
50686|T||Johnson,M.S., J.K. Vodela, G. Reddy, and S.D. Holladay|Fate and the Biochemical Effects of 2,4,6-Trinitrotoluene Exposure to Tiger Salamanders (Ambystoma tigrinum)|Ecotoxicol. Environ. Saf.46(2): 186-191|2000|10.1006/eesa.1999.1893
50687|T||Johnson,R.E., and W.A. Jackson|Calcium Uptake and Transport by Wheat Seedlings as Affected by Aluminium|Proc. Soil Sci. Soc. Am.28:381-386|1964|10.2136/sssaj1964.03615995002800030024x
50688|T||Johnson,R.L., P.J. Gehring, R.J. Kociba, and B.A. Schwetz|Chlorinated Dibenzodioxins and Pentachlorophenol|Environ. Health Perspect.5:171-175|1973|10.1289/ehp.7305171
50689|T||Johnson,V.J., M. Tsunoda, and R.P. Sharma|Increased Production of Proinflammatory Cytokines by Murine Macrophages Following Oral Exposure to Sodium Selenite but not to Seleno-L-Methionine|Arch. Environ. Contam. Toxicol.39(2): 243-250|2000|10.1007/s002440010101
50690|T||Johnson,W.A., and E.J. Cairns|Effects of Different Nematicides on Yield and Quality of Centennial Sweet Potato and Root-Knot Nematode Damage|J. Am. Soc. Hortic. Sci.96(4): 468-471|1971|10.21273/JASHS.96.4.468
50691|T||Johnsson,L.|Selenium Uptake by Plants as a Function of Soil Type, Organic Matter Content and pH|Plant Soil133:57-64|1991|10.1007/BF00011899
50694|A||Johnston,J.J., D.B. Hurlbut, M.L. Avery, and J.C. Rhyan|Methods for the Diagnosis of Acute 3-Chloro-p-Toluidine Hydrochloride Poisoning in Birds and the Estimation of Secondary Hazards to Wildlife|Environ. Toxicol. Chem.18(11): 2533-2537|1999|
50695|T||Johnston,R.K., J.W. Frankenfeld, and R.L. Squibb|Effects of 1,3-Butanediol-1,3-Dioctanoate and Corn Oil on Lipids of Chick Plasma, Liver, and Skin|Poult. Sci.59:2098-2104|1980|10.3382/ps.0592098
50697|T||Johnstone,I.M.|Some Aspects of the Biology of Ceratophyllum demersum|In: V.J.Chapman and C.A.Bell (Eds.), Rotorua and Waikato Water Weeds: Problems and the Search for a Solution, University of Aukland, NZ:23-27|1967|
50700|T||Jolley,V.D., and J.C. Brown|Iron Inefficient and Efficient Oat Cultivars.  II.  Characterization of Phytosiderophore Released in Response to Iron-Deficiency Stress|J. Plant Nutr.12(7): 923-937|1989|10.1080/01904168909364003
50701|T||Joner,E.J., and C. Leyval|Uptake of 109Cd by roots and hyphae of a Glomus mosseae/Trifolium subterraneum mycorrhiza from soil amended with high and low concentrations of cadmium|New Phytol.135(2): 353-360|1997|10.1046/j.1469-8137.1997.00633.x
50702|T||Jones,C.R., R.A. Lubet, J.R. Henneman, and R.W. Nims|Dose-Response Relationships for Cytochrome P450 Induction by Phenobarbital in the Cotton Rat (Sigmodon hispidus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 197-203|1998|
50704|T||Jones,A.S., and C.S. Hodges|Persistence of Mirex and Its Effects on Soil Microorganisms|J. Agric. Food Chem.22(3): 435-439|1974|10.1021/jf60193a037
50707|T||Jones,D.R., W.R. Eason, and J. Dighton|The Fate of 137Cs in Senescing Roots of Eriophorum vaginatum L|Environ. Pollut.102(2-3): 191-195|1998|10.1016/S0269-7491(98)00095-5
50709|T||Jones,H.E., and J.R. Etherington|Comparative Studies on Plant Growth and Distribution in Relation to Waterlogging. I. The Survival of Erica cinera, L. and Erica tetralix and Its Apparent Relatinship to Iron and Manganese Uptake in Waterlogged Soil|J. Ecol.58:487-496|1970|10.2307/2258285
50710|T||Jones,J.M., and J.D. Hayes|DDT Toxicity in Rye (Secale spp.)|Plant Pathol.16:139-141|1967|10.1111/j.1365-3059.1967.tb00390.x
50714|T||Jones,L.H.|Aluminium Uptake and Toxicity in Plants|Plant Soil13(4): 297-310|1961|10.1007/BF01394642
50715|T||Jones,L.H.P., and C.R. Clement|Lead Uptake by Plants and Its Significance for Animals|In: P.Hepple (Ed.), Lead in the Environment, Applied Science Publ.Ltd., Barking, England:29-33|1972|
50717|T||Jones,L.H.P., C.R. Clement, and M.J. Hopper|Lead Uptake from Solution by Perennial Ryegrass and Its Transport from Roots to Shoots|Plant Soil38(2): 403-414|1973|10.1007/BF00779022
50719|T||Jones,M.D., M.H.R. Browning, and T.C. Hutchinson|The Influence of Mycorrhizal Associations on Paper Birch and Jack Pine Seedlings when Exposed to Elevated Copper, Nickel or Aluminum|Water Air Soil Pollut.31(3/4): 441-448|1986|10.1007/BF00630862
50720|T||Jones,R., K. Prohaska, and M.S. Burgess|Zinc and Cadmium in Corn Plants Growing near Electrical Transmission Towers|Water Air Soil Pollut.37:355-363|1988|10.1007/BF00192946
50722|T||Jones,R.G.W., M. Sutcliffe, and C. Marshall|Physiological and Biochemical Basis for Heavy Metal Tolerance in Clones of Agrostis tenuis|In: Recent Advances in Plant Nutrition, Gordon & Breach, NY2:575-581|1971|
50726|T||Jones,W.W.|Nitrogen Control Program for Oranges and High Sulphate and/or High Boron|Calif. Citrogr.48:107-|1963|
50727|T||Jongbloed,R.H., and G.W.F.H. Borst-Pauwels|Effects of Aluminium and pH on growth and potassium uptake by three ectomycorrhizal fungi in liquid culture|Plant Soil140(2): 157-165|1992|10.1007/BF00010593
50731|T||Joosse,E.N.G., and J.B. Buker|Uptake and Excretion of Lead by Litter-Dwelling Collembola|Environ. Pollut.18:235-240|1979|
50732|T||Joosse,E.N.G., K.J. Wulffraat, and H.P. Glas|Tolerance and Acclimation to Zinc of the Isopod Porcellio scaber Latr.|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:425-428|1981|
50733|T||Joosse,E.N.G., H.E. Van Capelleveen, L.H. Van Dalen, and J. Van Diggelen|Effects of Zinc, Iron and Manganese on Soil Arthropods Associated with Decomposition Processes|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.1:467-470|1983|
50734|T||Joosse,E.N.G., and L.H.H. Van Vliet|Iron, Manganese and Zinc Inputs in Soil and Litter near a Blast-Furnace Plant and the Effects on Respiration of Woodlice|Pedobiologia (Multiple Languages)26(4): 249-255|1984|10.1016/S0031-4056(23)05978-4
50736|A||Jop,K.M., A.M. Askew, D.J. Texeira, and J. MacGregor|Quality Control in Aquatic Toxicity Testing Programs:  Evaluation of Copper and Hexavalent Chromium as Reference Toxicants|ASTM Spec. Tech. Publ.:397-404|1993|
50737|A||Jorgensen,E., and K. Christoffersen|Short-Term Effects of Linear Alkylbenzene Sulfonate on Freshwater Plankton Studied Under Field Conditions|Environ. Toxicol. Chem.19(4): 904-911|2000|
50738|T||Jorns,A.C., C. Hecht-Buchholz, and A.H. Wissemeier|Aluminum-Induced Callose Formation in the Root Tips of Norway Spruce (Picea abies)|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)154(5): 349-353|1991|10.1002/jpln.19911540507
50740|T||Joseph,J., and M. Tydd|Effect of Sodium Fluoride on Regeneration in the Rabbit Ear|Nature246:165-166|1973|10.1038/246165a0
50742|T||Joslin,J.D., and M.H. Wolfe|Aluminum Effects on Northern Red Oak Seedling Growth in Six Forest Soil Horizons|Soil Sci. Soc. Am. J.53(1): 274-281|1989|10.2136/sssaj1989.03615995005300010050x
50745|T||Joy,R.M., S.M. vogel, and T. Narahashi|Effects of Lindane upon Transmitter Release and End-Plate Responsiveness in the Neuromuscular Junction of the Frog|Neuropharmacology26(8): 1223-1229|1987|10.1016/0028-3908(87)90273-5
50746|T||Joy,V.C., and P.P. Chakravorty|Impact of Insecticides on Nontarget Microarthropod Fauna in Agricultural Soil|Ecotoxicol. Environ. Saf.22:8-16|1991|10.1016/0147-6513(91)90041-M
50748|T||Joyner,D.E., J.D. Somers, F.F. Gilbert, and R.J. Brooks|Use of Methiocarb as a Blackbird Repellent in Field Corn|J. Wildl. Manag.44(3): 672-676|1980|10.2307/3808016
50749|A||Joyner,T., and R. Eisler|Retention and Translocation of Radioactive Zinc by Salmon Fingerlings|Growth25:151-156|1961|
50750|T||Juarez de Ku,L.M., M. Sharma-Stokkermans, and L.A. Meserve|Thyroxine Normalizes Polychlorinated Biphenyl (PCB) Dose-Related Depression of Choline Acetyltransferase (ChAT) Activity in Hippocampus and Basal Forebrain of 15-Day-old Rats|Toxicology94(1-3): 19-30|1994|10.1016/0300-483X(94)90025-6
50752|T||Judal,G.S., and R.L. Kalra|Mechanisms Underlying the Differential Susceptibility of the Larvae and Adults of Trogoderma granarium Everts to Parathion and Paraoxon|Pestic. Res. J.6(1): 51-59|1994|
50753|T||Judd,F.W.|Acute Toxicity and Effects of Sublethal Dietary Exposure of Monosodium Methanearsonate Herbicide to Peromyscus leucopus (Rodentia: Cricetidae)|Bull. Environ. Contam. Toxicol.22:143-150|1979|10.1007/BF02026921
50755|T||Judy,B.M., W.R. Lower, C.D. Miles, M.W. Thomas, and G.F. Krause|Chlorophyll Fluorescence of a Higher Plant as an Assay for Toxicity Assessment of Soil and Water|ASTM Spec. Tech. Publ.:308-318|1990|
50756|T||Judy,B.M., W.R. Lower, F.A. Ireland, and G.F. Krause|A Seedling Chlorophyll Fluorescence Toxicity Assay|ASTM Spec. Tech. Publ.2:146-158|1991|
50762|T||Juneja,V.K., and J.C. Sharma|Effect of Host Plants on the Susceptibility of Aphis gossypii Glover to Certain Insecticides|Indian J. Entomol.35(3): 179-186|1973|
50764|A||Jyothi,B., and G. Narayan|Effect of Phorate on Certain Protein Profiles of Serum in Freshwater Fish, Clarias batrachus (Linn.)|J. Environ. Biol.18(2): 137-140|1997|
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50769|T||Kadry,A.M., G.A. Skowronski, R.M. Turkall, and M.S. Abdel-Rahman|Comparison Between Oral and Dermal Bioavailability of Soil-Adsorbed Phenanthrene in Female Rats|Toxicol. Lett.78(2): 153-163|1995|10.1016/0378-4274(95)03250-O
50770|A||Kagan,J., P.A. Kagan, and H.E.,Jr. Buhse|Light-Dependent Toxicity of alpha-Terthienyl and Anthracene Toward Late Embryonic Stages of Rana pipiens|J. Chem. Ecol.10(7): 1115-1122|1984|10.1007/BF00987517
50775|T||Kainulainen,P., J.K. Holopainen, and T. Holopainen|Plant and Environment Interactions Combined Effects of Ozone and Nitrogen on Secondary Compounds, Amino Acids, and Aphid Performance in Scots Pine|J. Environ. Qual.29(1): 334-342|2000|10.2134/jeq2000.00472425002900010042x
50776|A||Kaiser,H., and N. Vine|The Effect of 2-Phenoxyethanol and Transport Packing Density on the Post-Transport Survival Rate and Metabolic Activity in the Goldfish, Carassius auratus|Aquar. Sci. Conserv.2(1): 1-7|1998|10.1023/A:1009683325104
50780|T||Kakela,R., A. Kakela, H. Hyvarinen, J. Asikainen, and S.K. Dahl|Vitamins A1, A2, and E in Minks Exposed to Polychlorinated Biphenyls (Aroclor 1242) and Copper, Via Diet Based on Freshwater or Marine Fish|Environ. Toxicol. Chem.18(11): 2595-2599|1999|10.1002/etc.5620181129
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50790|T||Kaliamurthy,J., P. Geraldine, and P.A. Thomas|Effects of Zearalenone on Food Consumption, Growth Rate, Organ Weight and Serum Testosterone Level in Male Rats|J. Environ. Biol.18(2): 115-120|1997|
50792|T||Kalisz,P.J., J.W. stringer, J.A. Volpe, and D.T. clark|Trees as Monitors of Tritium in Soil Water|J. Environ. Qual.17(1): 62-70|1988|10.2134/jeq1988.00472425001700010009x
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50798|A||Kameda,K., M. Shimizu, and Y. Hiyama|On the Uptake of 65Zn and the Concentration Factor on Zn in Marine Organisms. I. Uptake of 65Zn in Marine Organisms|J. Radiat. Res.9(2): 50-62|1968|10.1269/jrr.9.50
50801|A||Kamjunke,N., and S. Jahnichen|Leucine Incorporation by Microcystis aeruginosa|Limnol. Oceanogr.45(3): 741-743|2000|10.4319/lo.2000.45.3.0741
50802|T||Kammenga,J.E., M.S.J. Arts, and W.J.M. Oude-Breuil|HSP60 as a Potential Biomarker of Toxic Stress in the Nematode Plectus acuminatus|Arch. Environ. Contam. Toxicol.34(3): 253-258|1998|10.1007/s002449900314
50805|T||Kanaly,R.A., and R. Bartha|Cometabolic Mineralization of Benzo(a)pyrene Caused by Hydrocarbon Additions to Soil|Environ. Toxicol. Chem.18(10): 2186-2190|1999|10.1002/etc.5620181010
50812|T||Kannan,S., and H. Keppel|Absorption and Transport of Pb2+ in Young Pea Seedlings|Z. Naturforsch. Teil C Biochem. Biophys. Biol. Virol.31:393-396|1976|
50813|T||Kannan,V., S. Srinivasan, G. Kathiravan, K. Raju, K. Subramanian, and D. Sivakumar|Influence of Glyphosate on Mastigocladus laminosus|J. Environ. Biol.20(3): 199-206|1999|
50814|A||Kannan,V.|Reversible Inhibition of GS in Tolypothrix tenuis|J. Environ. Biol.21(2): 125-132|2000|
50816|T||Kanwar,K.C., S. Kaushal, and R. Kumar|Absorption, Distribution and Excretion of Orally Administered Cadmium in Rat|Bull. Environ. Contam. Toxicol.24:321-325|1980|10.1007/BF01608116
50817|T||Kao,J., J. Faulkner, and J.W. Bridges|Metabolism of Aniline in Rats, Pigs and Sheep|Drug Metab. Dispos.6(5): 549-555|1978|
50818|T||Kao,R.L.C., and R.M. Forbes|Lead and Vitamin Effects on Heme Synthesis|Arch. Environ. Health27(1): 31-35|1973|10.1080/00039896.1973.10666303
50819|T||Kapitulnik,J., P.G. Wislocki, W. Levin, H. Yagi, D.M. Jerina, and A.H. Conney|Tumorigenicity Studies with Diol-Epoxides of Benzo(a)pyrene Which Indicate that (+-)-trans-7beta,8alpha-Dihydroxy-9alpha, 10alpha-Epoxy-7,8,9,10-Terahydrobenzo(a)pyrene is an Ultimate Carcinogen in Newborn Mice|Cancer Res.38:354-358|1978|
50820|T||Kaplan,D.I., D.C. Adriano, C.L. Carlson, and K.S. Sajwan|Vanadium: Toxicity and Accumulation by Beans|Water Air Soil Pollut.49(1-2): 81-91|1990|10.1007/BF00279512
50821|T||Kaplan,D.I., D.C. Adriano, and K.S. Sajwan|Thallium Toxicity in Bean|J. Environ. Qual.19(3): 359-365|1990|10.2134/jeq1990.00472425001900030001x
50822|A||Kaplan,H.M., and J.G. Overpeck|Toxicity of Halogenated Hydrocarbon Insecticides for the Frog, Rana pipiens|Herpetologica20(3): 163-169|1964|
50823|T||Kaplan,H.M., and S.S. Glaczenski|Hematological Effects of Organophosphate Insecticides in the Frog (Rana pipiens)|Life Sci.4:1213-1219|1965|10.1016/0024-3205(65)90335-8
50826|T||Kapoor,K.N., J.P. Gujrati, and G.A. Gangrade|Chemical Control of Soybean Leaf Miner,  Stomopteryx subsecivella Zeller (Lepidoptera : Gelechiidae)|Indian J. Entomol.37(3): 286-291|1975|
50827|T||Kapusta,G., and D.L. Rouwenhorst|Interaction of Selected Pesticides and Rhizobium japonicum in Pure Culture and Under Field Conditions|Agron. J.65:112-115|1973|10.2134/agronj1973.00021962006500010034x
50828|T||Karabelyos,C., J. Dallo, and G. Csaba|Effects of Benzopyrene and Allylestrenol Administered During Pregnancy on the Sexual Behavior of Castrated and Hormone Treated Adult Rats|Acta Physiol. Hung.82(2): 175-180|1994|
50831|T||Saxena,S.C., and A.K. Karel|A Note on the Effect of Phyrethrum on the Serum Proteins of Indian Desert Gerbils, Meriones hurrianae|Pyrethrum Post13(3): 94-96|1976|
50832|T||Kari,F., J. Bucher, J. Haseman, S. Eustis, and J. Huff|Long-Term Exposure to the Anti-Inflammatory Agent Phenylbutazone Induces Kidney Tumors in Rats and Liver Tumors in Mice|Jpn. J. Cancer Res.86(3): 252-263|1995|10.1111/j.1349-7006.1995.tb03048.x
50833|T||Karlik,J., A.D. Ali, and C.A. Harwood|Spider Mites in Rose Plant Fields, 1988|Arthropod Manag. Tests19:335-|1994|10.1093/amt/19.1.335
50835|T||Karnosky,D.F., and G.R. Stairs|The Effects of SO2 on In Vitro Forest Tree Pollen Germination and Tube Elongation|J. Environ. Qual.3(4): 406-409|1974|10.2134/jeq1974.00472425000300040024x
50836|A||Karntanut,W., and D. Pascoe|A Comparison of Methods for Measuring Acute Toxicity to Hydra vulgaris|Chemosphere41:1543-1548|2000|10.1016/S0045-6535(00)00068-0
50837|T||Karr,L.L., C.D. Drewes, and J.R. Coats|Toxic Effects of d-Limonene in the Earthworm Eisenia fetida (Savigny)|Pestic. Biochem. Physiol.36(2): 175-186|1990|10.1016/0048-3575(90)90009-Q
50839|T||Karsai,I., Z. Bedo, G. Kovacs, and B. Barnabas|The effect of in vivo and in vitro aluminum treatment on anther culture response of triticale x wheat hybrids|J. Genet. Breed.48(4): 353-357|1994|
50841|T||Kasim,F.|Responses of Some Corn Genotypes to Aluminum Stress|Ph.D. Thesis, Kansas State University, Manhattan, KS:89 p.|1989|
50842|T||Kaskhedikar,P., T.A. Kaskhedikar, and G.N. Johri|Effect of Malathion on the Worm Burden of the Mice Experimentally Infected with an Oxyuridae Nematode, Syphacia obvelata|J. Environ. Biol.17(4): 349-351|1996|
50844|T||Katan,J., and J.L. Lockwood|Effect of Pentachloronitrobenzene on Colonization of Alfalfa Residues by Fungi and Streptomycetes in Soil|Phytopathology60:1578-1582|1970|10.1094/Phyto-60-1578
50845|T||Kataoka,T., H. Iikura, and T.M. Nakanishi|Aluminum Distribution and Viability of Plant Root and Cultured Cells|Soil Sci. Plant Nutr. (Tokyo), Spec. Issue43:1003-1007|1997|
50846|T||Kataria,H.R., and R.K. Grover|Effect of Chloroneb (1,4-Dichloro-2,5-Dimethoxy Benzene) & Pentachloronitrobenzene on Metabolic Activity of Rhizoctonia solani Kuhn|Indian J. Exp. Biol.13:281-285|1975|
50848|A||Katiyar,S.K., and R. Katiyar|Effects of Different Concentrations of Zinc on Three Native Phytoplankton of River Yamuna|J. Environ. Biol.21(2): 145-148|2000|
50850|T||Kato,R., K.I. Onoda, and A. Takanaka|Strain Differences in the Metabolism and Action of Drugs in Mice and Rats|Jpn. J. Pharmacol.20:562-571|1970|10.1254/jjp.20.562
50854|T||Kaufman,D.D., and J. Blake|Degradation of Atrazine by Soil Fungi|Soil Biol. Biochem.2(218): 73-80|1970|10.1016/0038-0717(70)90010-6
50856|T||Kaufman,D.D., and J. Blake|Microbial Degradation of Several Acetamide, Acylanilide, Carbamate, Toluidine and Urea Pesticides|Soil Biol. Biochem.5:297-308|1973|10.1016/0038-0717(73)90077-1
50861|A||Kaviraj,A., and S.K. Konar|Acute Toxicity of Mercury, Chromium and Cadmium to Fish, Plankton and Worm|Geobios (Jodhpur)9(3): 97-100|1982|
50873|A||Keckes,S., B. Ozretic, and M. Krajnovic|Loss of Zn-65 in the Mussel Mytilus galloprovincialis|Malacologia7(1): 1-6|1968|
50876|T||Keeley,P.E., and R.J. Thullen|Cotton Response to Temperature and Organic Arsenicals|Weed Sci.19:297-300|1971|10.1017/S0043174500048943
50877|A||Keene,J.L., D.L.G. Noakes, R.D. Moccia, and C.G. Soto|The Efficacy of Clove Oil as an Anaesthetic for Rainbow Trout, Oncorhynchus mykiss (Walbaum)|Aquac. Res.29(2): 89-101|1998|10.1111/j.1365-2109.1998.tb01113.x
50878|T||Keener,J.A., and C.D. Pless|Effects of Direct Application of Selected Pesticides on Honey Bee Colonies|Tenn. Farm Home Sci.89:5-8|1974|
50881|T||Kegg,J.D.|The realities of the gypsy moth problem in the northeast|Bull. Entomol. Soc. Am.24(2): 153-156|1978|10.1093/besa/24.2.153
50882|T||Keil,D.E., E.L. Padgett, D.B. Barnes, and S.B. Pruett|Role of Decomposition Products in Sodium Methyldithiocarbamate-Induced Immunotoxicity|J. Toxicol. Environ. Health47(5): 479-492|1996|10.1080/009841096161627
50883|A||Keinanen,M., S. Peuranen, M. Nikinmaa, C. Tigerstedt, and P.J. Vuorinen|Comparison of the Responses of the Yolk-Sac Fry of Pike (Esox lucius) and Roach (Rutilus rutilus) to Low pH and Aluminium: Sodium Influx, Development and Activity|Aquat. Toxicol.47(3-4): 161-179|2000|10.1016/S0166-445X(99)00021-1
50885|T||Kellen,J.A., A. Kolin, and A.L. Fletch|Brief Communication:  Cerebellar Dysgenesis in Rats by Diaplacental Effects of 7,12-Dimethylbenz(a)anthracene|J. Natl. Cancer Inst.56(5): 1063-1067|1976|10.1093/jnci/56.5.1063
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50890|T||Kelley,V.C., and E.C. Mora|Ultrastructural Changes Induced by Chronic Aflatoxicosis in Chickens|Poult. Sci.55:317-324|1976|10.3382/ps.0550317
50891|T||Kellner-Weibel,G.L., R. Tchao, and P.J. Harvison|Nephrotoxic Potential of N-(3,5-Dichlorophenyl)Glutarimide and N-(3,4-Dichlorophenyl)Glutaramic Acid in Fischer 344 Rats|Toxicol. Lett.80(1-3): 123-129|1995|10.1016/0378-4274(95)03386-Y
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50895|A||Kelly,L.D., L.R. McGuinness, J.E. Hughes, and S.C. Wainright|Effects of Phenanthrene on Primary Production of Phytoplankton in Two New Jersey Estuaries|Bull. Environ. Contam. Toxicol.63(5): 646-653|1999|10.1007/s001289901029
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50899|T||Keltjens,W.G.|Effects of aluminum on growth and nutrient status of Douglas fir seedlings grown in culture solution|Tree Physiol.6(2): 165-175|1990|10.1093/treephys/6.2.165
50900|T||Keltjens,W.G., and W.J. Dijkstra|The Role of Magnesium and Calcium in Alleviating Aluminium Toxicity in Wheat Plants|Dev. Plant Soil Sci.45:763-768|1991|
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50903|T||Keltjens,W.G., and E. Van Loenen|Effects of Aluminum and Mineral Nutrition on Growth and Chemical Composition of Hydroponically Grown Seedlings of Five Different Forest Tree Species|Plant Soil119(1): 39-50|1989|10.1007/BF02370267
50906|T||Kempen,H.M.|The Seasonal Response of Hardstem Bulrush to Methanearsonate Herbicides|Res. Prog. Rep. West. Soc. Weed Sci.:91-92|1968|
50912|T||Kergosien,D.H., and C.D. Rice|Macrophage Secretory Function is Enhanced by Low Doses of Tributyltin-Oxide (TBTO), but not Tributyltin-Chloride (TBTCl)|Arch. Environ. Contam. Toxicol.34(3): 223-228|1998|10.1007/s002449900309
50916|A||Kersting,K., and R.P.A. Van Wijngaarden|Effects of a Pulsed Treatment with the Herbicide Afalon (Active Ingredient Linuron) on Macrophyte-Dominated Mesocosms.  I.  Responses of Ecosystem Metabolism|Environ. Toxicol. Chem.18(12): 2859-2865|1999|
50917|T||Kesar,M., F. Benedict, F. Newbauer, and F.E. Hutchinson|Influence of Aluminum Ions on Developmental Morphology of Sugarbeet Roots|Agron. J.67:84-88|1975|10.2134/agronj1975.00021962006700010024x
50918|T||Kesar,M., F. Benedict, F. Newbauer, and F.E. Hutchinson|Influence of Aluminum Ions on Developmental Morphology of Sugarbeet Cultivars as Evidence by Anatomical Structure|Agron. J.69:347-350|1977|10.2134/agronj1977.00021962006900030003x
50919|T||Keshavan,R., and P.B. Deshmukh|Vitamin A Concentrations in Liver and Serum of the Frog, Rana tigrina, Treated with DDT and Sevin|Indian J. Comp. Anim. Physiol.2(1): 32-36|1984|
50920|A||Ketola,H.G., P.R. Bowser, G.A. Wooster, L.R. Wedge, and S.S. Hurst|Effects of Thiamine on Reproduction of Atlantic Salmon and a New Hypothesis for Their Extirpation in Lake Ontario|Trans. Am. Fish. Soc.129(2): 607-612|2000|10.1577/1548-8659(2000)129<0607:EOTORO>2.0.CO;2
50922|T||Keymeulen,R., N. Schamp, and H. Van Langenhove|Uptake of Gaseous Toluene in Plant Leaves:  A Two Compartment Model|Chemosphere31(8): 3961-3975|1995|10.1016/0045-6535(95)00269-E
50926|T||Khan,A.A.|Field Trial of Some Rodenticides Against the Collared Pika, Ochotona rufescens in Apple Orchard|Int. Pest Control:12-13|1981|
50927|T||Khan,D.H., and B. Frankland|Effects of Cadmium and Lead on Radish Plants with Particular Reference to Movement of Metals Through Soil Profile and Plant|Plant Soil70:335-345|1983|10.1007/BF02374890
50928|T||Khan,D.H., and B. Frankland|Cellulolytic Activity and Root Biomass Production in Some Metal-Contaminated Soils|Environ. Pollut. A.33:63-74|1984|10.1016/0143-1471(84)90162-4
50929|T||Khan,H.R., G.K. Mcdonald, and Z. Rengel|Assessment of the Zn Status of Chickpea by Plant Analysis|Plant Soil198(1): 1-9|1998|10.1023/A:1004289710069
50930|T||Khan,H.R., G.K. Mcdonald, and Z. Rengel|Chickpea Genotypes Differ in their Sensitivity to Zn Deficiency|Plant Soil198(1): 11-18|1998|10.1023/A:1004241826907
50933|T||Khan,M.R., M.W. Khan, and K. Singh|Growth Performance of Chickpea Under the Influence of Nickel and Cobalt as Soil Pollutants|J. Indian Bot. Soc.75(3-4): 193-196|1996|
50935|T||Khan,S., and N.N. Khan|Influence of Lead and Cadmium on the Growth and Nutrient Concentration of Tomato (Lycopersicum esculentum) and Egg-Plant (Solanum melongena)|Plant Soil74:387-394|1983|10.1007/BF02181356
50937|T||Khan,S.U., and P.B. Marriage|Uptake of Glyphosate and N-Nitrosoglyphosate from Soil by Oat Plants|J. Agric. Food Chem.27(6): 1398-1400|1979|10.1021/jf60226a012
50938|T||Khan,S.U.|Plant Uptake of Unextracted (Bound) Residues from an Organic Soil Treated with Prometryn|J. Agric. Food Chem.28(6): 1096-1098|1980|10.1021/jf60232a005
50939|A||Khand,M.A.J., and M.A.H. Qadri|Determination of Lethal Doses of Artemisia and Taramira Oils in Comparison with DDT and Lindane Against Full Grown Larvae of Anopheles stephensi Culicidae|Agric. Pak.25(1): 21-34|1974|
50940|A||Khangarot,B.S., and D.M. Tripathi|Changes in Humoral and Cell-Mediated Immune Responses and in Skin and Respiratory Surfaces of Catfish, Saccobranchus fossilis, Following Copper Exposure|Ecotoxicol. Environ. Saf.22:291-308|1991|10.1016/0147-6513(91)90080-9
50945|T||Khoja,S.M., A.O. Abuelgassim, and O.A. Al-bar|Effect of Vanadate on the Activity of Rat Jejunal 6-Phosphofructo-1-Kinase|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(3): 217-221|1996|
50947|T||Khoury,H., and R.K. Stewart|Chemical Control of Lygus-Lineolaris heteroptera miridae on Growing Crops of Celery and Potato in Quebec|Ann. Entomol. Soc. Quebec21(1): 39-48|1976|
50949|T||Khudairi,A.K.|Boron Toxicity and Plant Growth|In: Salinity Problems in the Arid Zones, Proceedings of the Teheran Symposium, UNESCO14:175-179|1961|
50951|T||Kieliszewska-Rokicka,B., M. Rudawska, T. Leski, and E.U. Kurczynska|Effect of Low pH and Aluminium on Growth of Pinus sylvestris L. Seedlings Mycorrhizal with Suillus luteus (L. ex Fr.) S.F. Gray|Chemosphere36(4/5): 751-756|1998|10.1016/S0045-6535(97)10119-9
50952|T||Kiflom,W.G., S.O. Wandiga, P.K. Ng'ang'a, and G.N. Kamau|Variation of Plant p,p'-DDT Uptake with Age and Soil Type and Dependence of Dissipation on Temperature|Environ. Int.25(4): 479-487|1999|10.1016/S0160-4120(99)00005-7
50953|T||Kihlstrom,J.E., M. Olsson, S. Jensen, A. Johansson, J. Ahlbom, and A. Bergman|Effects of PCB and Different Fractions of PCB on the Reproduction of the Mink (Mustela vison)|Ambio21(8): 563-569|1992|
50955|T||Kilgour,J.D., S.A. Simpson, D.J. Alexander, and C.J. Reed|A Rat Nasal Epithelial Model for Predicting Upper Respiratory Tract Toxicity: In Vivo-In Vitro Correlations|Toxicology145:39-49|2000|10.1016/S0300-483X(99)00180-8
50956|T||Kilroy,A.C.|The Toxicity of Four Organic Solvents Commonly Used in the Pharmaceutical Industry to Activated Sludge|Water Res.26:887-892|1992|10.1016/0043-1354(92)90193-8
50959|T||Kim,C.S., and J. Jung|The Susceptibility of Mung Bean Chloroplasts to Photoinhibition is Increased by an Excess Supply of Iron to Plants:  A Photobiological Aspect of Iron Toxicity in Plant Leaves|Photochem. Photobiol.58(1): 120-126|1993|10.1111/j.1751-1097.1993.tb04912.x
50960|T||Kim,M.S., E.J. Huh, H.K. Kim, and K.W. Moon|Degradation of Polycyclic Aromatic Hydrocarbons by Selected White-Rot Fungi and the Influence of Lignin Peroxidase|J. Microbiol. Biotechnol.8(2): 129-133|1998|
50964|T||Kimber,I., J.A. Jackson, and M.D. Stonard|Failure of Inorganic Lead Exposure to Impair Natural Killer (NK) Cell and T Lymphocyte Function in Rats|Toxicol. Lett.31(3): 211-218|1986|10.1016/0378-4274(86)90128-1
50972|T||Kindler,S.D., G.R. Manglitz, and J.M. Schalk|Insecticides for Control of Insects Attacking Alfalfa Seed in Eastern Nebraska|J. Econ. Entomol.61(6): 1636-1639|1968|10.1093/jee/61.6.1636
50973|T||King,C.J., and T.M. Scott|Control of the large pine weevil and bark beetles of the genus hylastes|Forestry48(1): 87-97|1975|10.1093/forestry/48.1.87
50977|T||King,T.S., M.S. Canez, S. Gaskill, M.A. Javors, and R.S. Schenken|Chronic Cocaine Disruption of Estrous Cyclicity in the Rat: Dose-Dependent Effects|J. Pharmacol. Exp. Ther.264(1): 29-34|1993|
50978|T||Kingsbury,P.A., T. Rowlands, and J.F.S. Reid|Anthelmintic Activity of Oxafendazole in Pigs|Vet. Rec.108:10-11|1972|10.1136/vr.108.1.10
50979|T||Kingsbury,P.D., and B.B. McLeod|Terrestrial Impact Studies in Forest Ecosystems Treated with Double Applications of Permethrin|Rep.No.FPM-X-28, Environment Canada, For.Pest Manag.Inst., Sault Ste.Marie, Ontario, Canada:55 p.|1979|
50982|T||Kinoshita,G.B., C.R. Harris, H.J. Svec, and F.L. McEwen|Laboratory and Field Studies on the Chemical Control of the Crucifer Flea Beetle Phyllotreta-cruciferae Coleoptera chrysomelidae on Cruciferous Crops in Ontario Canada|Can. Entomol.110(8): 795-804|1978|10.4039/Ent110795-8
50983|T||Kinraide,T.B.|Assessing the Rhizotoxicity of the Aluminate Ion, Al(OH)4-|Plant Physiol.94(4): 1620-1625|1990|10.1104/pp.93.4.1620
50985|T||Kinraide,T.B.|Reconsidering the Rhizotoxicity of Hydroxyl, Sulphate and Fluoride Complexes of Aluminium|J. Exp. Bot.48(310): 1115-1124|1997|10.1093/jxb/48.5.1115
50986|T||Kira,M.T., M.F.S. Tawfik, and S.M.I. Metwally|Effect of DDT Gusathion and Lebaycid on Corn Pests and Their Predators|Bull. Entomol. Soc. Egypt6:221-230|1972|
50987|T||Kirby,A.H.M., and R.P. Tew|Further Trials with Bark-Applied Systemic Aphicides on Plum and Cherry|Proc. Br. Insectic. Fungic. Conf.1:319-330|1967|
50990|T||Kirk,J.J.|Western Spotted Frog Rana pretiosa Mortality Following Forest Spraying of DDT|Herpetol. Rev.19(3): 51-53|1988|
50991|T||Kirkham,M.B.|Water Relations of Cadmium-Treated Plants|J. Environ. Qual.7(3): 334-336|1978|10.2134/jeq1978.00472425000700030007x
50992|T||Kirkwood,A.C., and M.P. Quick|Diazinon for the Control of Sheep Scab|Vet. Rec.:279-280|1981|10.1136/vr.108.13.279
50995|T||Kishikawa,H., R. Song, and D.A. Lawrence|Interleukin-12 Promotes Enhanced Resistance to Listeria monocytogenes Infection of Lead-Exposed Mice|Toxicol. Appl. Pharmacol.147(2): 180-189|1997|10.1006/taap.1997.8308
50996|T||Kiss,A.S., M. Oncsik, J. Dombovari, S. Veres, and G. Acs|Dangers of Arsenic Drinking and Irrigation Water to Plants and Humans: Antagonism of Arsenic and Magnesium|Acta Agron. Hung.41(1/2): 3-9|1992|
51000|A||Kitamura,S., T. Kadota, M. Yoshida, N. Jinno, and S. Ohta|Whole-Body Metabolism of the Organophosphorus Pesticide, Fenthion, in Goldfish, Carassius auratus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:259-266|2000|
51001|T||Kitao,M., T.T. Lei, and T. Koike|Comparison of Photosynthetic Responses to Manganese Toxicity of Deciduous Broad-Leaved Trees in Northern Japan|Environ. Pollut.97(1-2): 113-118|1997|10.1016/S0269-7491(97)00064-X
51002|T||Kitao,M., S. Mori, and Y. Maruyama|Studies on Dynamics of Heavy Metals in Woody Plants on Acid Soils|Global Environ. Res. Jpn.Pt. 2:82-89|1996|
51003|T||Kitchen,I., and J. McDowell|Impairment of Ketocyclazocine Antinociception in Rats by Perinatal Lead Exposure|Toxicol. Ind. Health26(2-3): 101-105|1985|
51005|T||Klapcinska,B., S. Poprzecki, B. Dolezych, and E. Kimsa|Cadmium-Induced Changes in Hematology and 2,3-DPG Levels in Rats|Bull. Environ. Contam. Toxicol.64(1): 93-99|2000|10.1007/s001289910015
51007|T||Klausmeier,R.E., J.L. Osmon, and D.R. Walls|The Effect of Trinitrotoluene on Microorganisms|Dev. Ind. Microbiol.15:309-317|1973|
51009|T||Kleifeld,Y.|Combined Effet of Trifluralin, and MSMA on Johnsongrass Control in Cotton|Weed Sci.18:16-18|1970|10.1017/S0043174500077249
51010|T||Kleiman,I.D., and D.H. Cogliatti|Uptake of Chromate in Sulfate Deprived Wheat Plants|Environ. Pollut.97(1-2): 131-135|1997|10.1016/S0269-7491(97)00063-8
51011|A||Klein,B.|Age as a Factor Influencing Results in the Acute Daphnid Test with Daphnia magna Straus|Water Res.34(5): 1419-1424|2000|10.1016/S0043-1354(99)00296-1
51012|T||Klein,R.R., and D.E. Koeppe|Mode of Methomyl and Bipolaris maydis (Race T) Toxin in Uncoupling Texas Male-Sterile Cytoplasm Corn Mitochondria|Plant Physiol.77:912-916|1985|10.1104/pp.77.4.912
51014|T||Klein,W., J. Kohli, I. Weisgerber, and F. Korte|Fate of Aldrin-14C in Potatoes and Soil Under Outdoor Conditions|J. Agric. Food Chem.21(2): 152-156|1973|10.1021/jf60186a033
51021|T||Kliewer,W.M.|The Effects and Interactions of Various Combinations of Molybdenum, Aluminum, Manganese, Phosphorus, Nitrogen, Calcium, Hydrogen Ion Concentrations, Lime, and Rhizobium Strain on Growth, Composition and Nodulation of Se|Ph.D.Thesis, Cornell University, Ithaca, NY:197 p.|1961|
51022|T||Klimashevskii,E.L., and M.L. Bernatskaya|Activity of ATPase and Acid Phosphatase in Growth Zones of the Roots of Two Varieties of Peas HavingDifferent Sensitivity to Al-Ion Toxicity|Sov. Plant Physiol.20:201-204|1973|
51023|T||Klimashevskii,E.L., and V.M. Dedov|Localization of Growth Inhibiting Action of Aluminum Ions in Elongating Cell Walls|Fiziol. Rast. (Mosc.) (Non-English)22:1183-1190|1975|
51029|A||Kloas,W., I. Lutz, and R. Einspanier|Amphibians as a Model to Study Endocrine Disruptors: II. Estrogenic Activity of Environmental Chemicals In Vitro and In Vivo|Sci. Total Environ.225(1/2): 59-68|1999|10.1016/S0048-9697(99)80017-5
51032|T||Klotz,F., and W.J. Horst|Effect of Ammonium- and Nitrate-Nitrogen Nutrition on Aluminum Tolerance of Soybean (Glycine max L.)|Plant Soil111(1): 59-65|1988|10.1007/BF02182037
51033|T||Kluber,H.D., and R. Conrad|Effects of Nitrate, Nitrite, NO and N2O on Methanogenesis and Other Redox Processes in Anoxic Rice Field Soil|FEMS (Fed. Eur. Microbiol. Soc. ) Microbiol. Ecol.25(3): 301-318|1998|10.1016/S0168-6496(98)00011-7
51035|T||Klumpp,A., G. Klumpp, M. Domingos, and M. Dias da Silva|Fluoride Impact on Native Tree Species of the Atlantic Forest near Cubatao, Brazil|Water Air Soil Pollut.87(1-4): 51-71|1996|10.1007/BF00696829
51038|T||Knaus,R.M., F.N. Dost, D.E. Johnson, and C.H. Wang|Fluoride Distribution in Rats During and After Continuous Infusion of Na18F|Toxicol. Appl. Pharmacol.38:335-343|1976|10.1016/0041-008X(76)90140-X
51039|T||Knigge,T., and H.R. Kohler|Lead Impact on Nutrition, Energy Reserves, Respiration and Stress Protein (HSP 70) Level in Porcellio scaber (Isopoda) Populations Differently Preconditioned in Their Habitats|Environ. Pollut.108(2): 209-217|2000|10.1016/S0269-7491(99)00188-8
51040|T||Knight,B., F.J. Zhao, S.P. McGrath, and Z.G. Shen|Zinc and Cadmium Uptake by the Hyperaccumulator Thlaspi caerulescens in Contaminated Soils and Its Effects on the Concentration and Chemical Speciation of Metals in Soil Solution|Plant Soil197(1): 71-78|1997|10.1023/A:1004255323909
51042|T||Knoepp,J.D., D.P. Turner, and D.T. Tingey|Effects of Ammonium and Nitrate on Nutrient Uptake and Activity of Nitrogen Assimilating Enzymes in Western Hemlock|For. Ecol. Manag.59:179-191|1993|10.1016/0378-1127(93)90001-4
51045|A||Knowles,J.F., D.L. Smith, and K. Winpenny|A Comparative Study of the Uptake, Clearance and Metabolism of Technetium in Lobster (Homarus gammarus) and Edible Crab (Cancer pagurus)|Radiat. Prot. Dosimetry75(1-4): 125-129|1998|10.1093/oxfordjournals.rpd.a032214
51047|T||Knowles,S.O., and W.E. Donaldson|Dietary Modification of Lead Toxicity:  Effects on Fatty Acid and Eicosanoid Metabolism in Chicks|Comp. Biochem. Physiol. C Comp. Pharmacol.95(1): 99-104|1990|10.1016/0742-8413(90)90088-Q
51050|T||Ko,W.H., and J.L. Lockwood|Conversion of DDT to DDD in Soil and the Effect of These Compounds on Soil Microorganisms|Can. J. Microbiol.14(10): 1069-1073|1968|10.1139/m68-180
51051|T||Ko,W.H., and J.D. Farley|Conversion of Pentachloronitrobenzene to Pentachloroaniline in Soil and the Effect of These Compounds on Soil Microorganisms|Phytopathology59:64-67|1969|
51052|T||Ko,W.H., and M.K. Oda|The Nature of Control of Rhizoctonia solani by Pentachloronitrobenzene in Soil|Phytopathol Notes62:385-387|1972|
51053|T||Ko,W.H.J., and J.L.J. Lockwood|Transfer Of 32-P And Dieldrin Among Selected Microorganisms In Soil|Rev. Ecol. Biol. Sol7(4): 465-470|1970|
51054|A||Kobamoto,N., and Y. Izumi|The Nematicidal Effect of Metal Ions on the Pine Wood Nematode, Bursaphelenchus xylophilus|J. Pestic. Sci. (Multiple Languages)9(3): 527-529|1984|10.1584/jpestics.9.527
51056|A||Kobayashi,K., S. Kimura, and E. Shimizu|Studies on the Metabolism of Chlorophenols in Fish - VIII. Isolation and Identification of Phenyl-beta-Glucuronide Accumulated in Bile of Goldfish|Nippon Suisan Gakkaishi (Multiple Languages)42(12): 1365-1372|1976|10.2331/suisan.42.1365
51063|T||Kobus,J., and E. Kurek|Effect of Cadmium Contained in Plant Residues on Their Microbial Decomposition|Zentbl. Mikrobiol.145:283-291|1990|10.1016/S0232-4393(11)80043-0
51065|T||Koch,H.R., K. Doldi, and O. Hockwin|Naphthalene Cataracts in Rats. Association of Eye Pigmentation and Cataract Development|In: O.Hockwin (Ed.), Documenta Ophthalmologica Proc.Ser., Vol.8., Progress of Lens Biochemistry Research, Dr.W.Junk Publ., The Hague, Netherlands:293-303|1977|
51066|T||Koch,H.R., and K. Doldi|Naphthalene Cataracts in Rats of Differently Pigmented Strains|Exp. Eye Res.20(2): 180-|1975|10.1016/0014-4835(75)90176-1
51074|T||Kociba,R.J., D.G. Keyes, J.E. Beyer, R.M. Carreon, C.E. Wade, D.A. Dittenber, R.P. Kalnins, L.E. Frauson, C.N. Park, S.|Results of a Two-Year Chronic Toxictiy and Oncogenicity Study of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rats|Toxicol. Appl. Pharmacol.46(2): 279-303|1978|10.1016/0041-008X(78)90075-3
51076|T||Kohler,H.R., and R. Triebskorn|Assessment of the Cytotoxic Impact of Heavy Metals on Soil Invertebrates Using a Protocol Integrating Qualitative and Quantitative Components|Biomarkers (Lond.)3(2): 109-127|1998|10.1080/135475098231273
51077|T||Koehler,H.H.|The Use of Soil Mesofauna for the Judgement of Chemical Impact on Ecosystems|Agric. Ecosyst. Environ.40(1-4): 193-205|1992|10.1016/0167-8809(92)90092-P
51081|A||Koelmans,A.A., E. Hubert, H.W. Koopman, R. Portielje, and S.J.H. Crum|Modeling the Vertical Distribution of Carbendazim in Sediments|Environ. Toxicol. Chem.19(4): 793-800|2000|10.1002/etc.5620190403
51082|AT||Koeman,J.H., W.M.J. Den Boer, A.F. Feith, H.H. De Iongh, P.C. Spliethoff, B.K. Na'Isa, and U. Spielberger|Three Years' Observation on Side Effects of Helicopter Applications of Insecticides Used to Exterminate Glossina Species in Nigeria|Environ. Pollut.15(29): 31-59|1978|
51085|T||Koeppe,D.E., R.J. Miller, R.A. Root, J.E. Bittell, and C. Malone|Uptake and Some Physiological Effects of Cadmium on Corn|Proc. 1st Annu. NSF Trace Contamination Conf.:553-563|1975|
51088|T||Koga,N., N. Kikuichi, T. Kanamaru, H. Kuroki, K. Matsusue, C. Ishida, N. Ariyoshi, K. Oguri, and H. Yoshimura|Metabolism of 2,3',4',5-Tetrachlorobiphenyl by Cytochrome P450 from Rats, Guinea Pigs and Hamsters|Chemosphere37(9-12): 1895-1904|1998|10.1016/S0045-6535(98)00256-2
51089|T||Koga,N., T. Kanamaru, N. Kikuichi, N. Oishi, S. Kato, and H. Yoshimura|Guinea Pig Liver Cytochrome P450 Responsible for 3-Hydroxylation of 2,5,2',5'-Tetrachlorobiphenyl|Bull. Environ. Contam. Toxicol.60(6): 898-903|1998|10.1007/s001289900712
51092|T||Kohler,H.R., B. Belitz, H. Eckwert, R. Adam, B. Rahman, and P. Trontelj|Validation of hsp70 Stress Gene Expression as a Marker of Metal Effects in Deroceras reticulatum (Pulmonata): Correlation with Demographic Parameters|Environ. Toxicol. Chem.17(11): 2246-2253|1998|10.1002/etc.5620171115
51095|A||Kohler,R.H.|A Complex Seminatural Outdoor-Model Ecosystem:  Effects of Lindane (gamma-HCH)|Verh. Int. Ver. Theor. Angew. Limnol.24:2307-|1991|
51097|T||Kohli,J., D. Jones, and S. Safe|The Metabolism of Higher Chlorinated Benzene Isomers|Can. J. Biochem.54(3): 203-208|1976|10.1139/o76-032
51098|T||Kohli,J., I. Weisgerber, W. Klein, and F. Korte|Contributions to Ecological Chemistry CVII  Fate of Lindane-14C in Lettuce, Endives, and Soil Under Outdoor Conditions|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes11(1): 23-32|1976|
51100|T||Kohno,Y., and C.D. Foy|Manganese Toxicity in Bush Bean as Affected by Concentration of Manganese and Iron in the Nutrient Solution|J. Plant Nutr.6(5): 363-386|1983|10.1080/01904168309363097
51101|T||Kohno,Y.|Vanadium Induced Manganese Toxicity in Bush Bean Plants Grown in Solution Culture|J. Plant Nutr.9(10): 1261-1272|1986|10.1080/01904168609363527
51103|T||Kokta,C.|A Laboratory Test on Sublethal Effects of Pesticides on Eisenia fetida|In: P.W.Greig-Smith, H.Becker, P.J.Edwards, and F.Heimbach (Eds.), Ecotoxicology of Earthworms, Intercept Ltd., U.K.:213-216|1992|
51104|T||Kolaja,K.L., D.T. Engelken, and C.D. Klaassen|Inhibition of Gap-Junctional-Intercellular Communications in Intact Rat Liver by Nongenotoxic Hepatocarcinogens|Toxicology146:15-22|2000|10.1016/S0300-483X(00)00162-1
51108|T||Komives,G.K., and G. Alayoku|Body Temperatures and Weights in Rats During Daily Administration of Closely Controlled Doses of Polychlorinated Biphenyls|Bull. Environ. Contam. Toxicol.25:913-917|1980|10.1007/BF01985630
51109|T||Komp,P., and M.S. McLachlan|The Kinetics and Reversibility of the Partitioning of Polychlorinated Biphenyls Between Air and Ryegrass|Sci. Total Environ.250:63-71|2000|10.1016/S0048-9697(00)00364-8
51112|T||Konecky,M.S., and N. Mitlin|Chemical Impairment of Development in House Flies|J. Econ. Entomol.48:218-219|1955|10.1093/jee/48.2.219
51113|T||Kong,F.X.|Influence of Copper, Manganese and pH on the Growth and Several Enzyme Activities in Mycorrhizal Fungus Amanita muscaria|Chemosphere30(1): 199-207|1995|10.1016/0045-6535(94)00393-9
51114|T||Kong,F.X., Y. Liu, and F.D. Cheng|Aluminum Toxicity and Nutrient Utilization in the Myccorrhizal Fungus Hebeloma mesophacus|Bull. Environ. Contam. Toxicol.59(1): 125-131|1997|10.1007/s001289900454
51115|A||Kong,F.X., W.L. Sang, W. Hu, and J.J. Li|Physiological and Biochemical Response of Scenedsmus obliquus to Combined Effects of Al, Ca, and Low pH|Bull. Environ. Contam. Toxicol.62(2): 179-186|1999|10.1007/s001289900857
51118|T||Konwinska,A.|Effects of Aluminum on Carbohydrate Content in Scots Pine Roots|Arbor. Kornickie41:155-163|1996|
51119|T||Konzak,C.F., M. Niknejad, I. Wickham, and E.M. Donaldson|Mutagenic Interaction of Sodium Azide on Mutations Induced in Barley Seeds Treated with Diethyl Sulfate or N-Methyl-N'-Nitrosourea|Mutat. Res.30:55-62|1975|10.1016/0027-5107(75)90252-3
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51126|A||Koponen,K., P. Lindstrom-Seppa, and J.V.K. Kukkonen|Accumulation Pattern and Biotransformation Enzyme Induction in Rainbow Trout Embryos Exposed to Sublethal Aqueous Concentrations of 3,3',4,4'-Tetrachlorobiphenyl|Chemosphere40(3): 245-253|2000|10.1016/S0045-6535(99)00236-2
51127|T||Koppen,G., and L. Verschaeve|The Alkaline Comet Test on Plant Cells:  A new Genotoxicity Test for DNA Strand Breaks in Vicia faba Root Cells|Mutat. Res.360:193-200|1996|10.1016/S0165-1161(96)90017-5
51128|T||Kopsell,D.A., and W.M. Randle|Selenium Accumulation in a Rapid-Cycling Brassica oleracea Population Responds to Increasing Sodium Selenate Concentrations|J. Plant Nutr.22(6): 927-937|1999|10.1080/01904169909365683
51130|T||Korayem,A.M., and A.G. El-Sisi|Iron and Zinc as Activator Elements to Oxamyl Toxicity Against the Root Knot Nematode Meloidogyne incognita|Pak. J. Nematol.7(1): 27-31|1989|
51132|A||Kordan,H.A.|Rice Seedling Germination and Growth in Sodium Fluoride|Ann. Bot.40:1327-1328|1976|10.1093/oxfordjournals.aob.a085255
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51137|T||Korschgen,L.J.|Disappearance and Persistence of Aldrin After Five Annual Applications|J. Wildl. Manag.35(3): 494-500|1971|10.2307/3799703
51141|A||Korte,J.J., M.D. Kahl, K.M. Jensen, M.S. Pasha, L.G. Parks, G.A. LeBlanc, and G.T. Ankley|Fathead Minnow Vitellogenin: Complementary DNA Sequence and Messenger RNA and Protein Expression After 17beta-Estradiol Treatment|Environ. Toxicol. Chem.19(4): 972-981|2000|
51143|T||Korven,H.C.|Irrigation Ditch Maintenance with Chemicals and Grasses|Can. Agric. Eng.17(1): 39-43|1975|
51145|T||Kosegarten,H., G.H. Wilson, and A. Esch|The Effect of Nitrate Nutrition on Iron Chlorosis and Leaf Growth in Sunflower (Helianthus annuus L.)|Eur. J. Agron.8(3-4): 283-292|1998|10.1016/S1161-0301(98)00021-5
51151|T||Kostka-Rick,R., and W.J. Manning|Dose-Reponse Studies with the Antiozonant Ethylenediurea (EDU), Applied as a Soil Drench to Two Growth Substrates, on Greenhouse-Grown Varieties of Phaseolus vulgaris L|Environ. Pollut.82:63-72|1993|10.1016/0269-7491(93)90163-I
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51153|T||Kotru,R., B.S. Azad, and H. Singh|Chemical Control of Weeds in Wheat (Triticum aestivum L. em Thell. Fiori & Paol)|Environ. Ecol.17(3): 646-649|1999|
51154|A||Kotsanis,N., and J. Iliopoulou-Georgudaki|Toxic Effects of Cadmium at Early Stages of Rainbow Trout (Oncorhynchus mykiss)|Toxicol. Environ. Chem.62(1-4): 197-205|1997|10.1080/02772249709358507
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51158|T||Kouterick,K.B., J.M. Skelly, T.S. Fredericksen, K.C. Steiner, T.E. Kolb, and J.A. Ferdinand|Foliar Injury, Leaf Gas Exchange and Biomass Responses of Black Cherry (Prunus serotina Ehrh.) Half-Sibling Families to Ozone Exposure|Environ. Pollut.107(1): 117-126|2000|10.1016/S0269-7491(99)00125-6
51160|A||Kovacs,P., L. Kohidai, and G. Csaba|Effect of 3-Amino-1-propanol on the Phosphatidylinositol (PI) and Glycosyl Phosphatidylinositol (GPI) Systems of Tetrahymena|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(1): 83-87|1997|
51162|T||Koval'Skii,V.V.|Genetic Transformation of Adaptive Responses to high Concentrations of Boron in Natural Environment|Ekologia-CSSR3(2): 75-78|1972|
51164|A||Kovriznych,J.A., and M. Urbancikova|Acute Toxicity of Acetochlor for Zebrafish (Danio rerio) and Guppy (Poecilia reticulata)|Ekologia (Bratisl.)17(4): 449-456|1998|
51166|T||Kowolenko,M., L. Tracy, and D. Lawrence|Early Effects of Lead on Bone Marrow Cell Responsiveness in Mice Challenged with Listeria monocytogenes|Fundam. Appl. Toxicol.17(1): 75-82|1991|10.1016/0272-0590(91)90240-5
51167|T||Koyama,H., K. Ojima, T. Yamaya, and Y. Sonoda|Characteristics of Carrot Plant Regenerated from Two Cell Line Selected as Either Ionic-al Tolerant Cell or al-Phosphate Utilizing Cells|Plant Soil171(1): 179-183|1995|10.1007/BF00009584
51168|T||Koyama,H., T. Toda, S. Yokota, Z. Dawair, and T. Hara|Effects of Aluminum and pH on Root Growth and Cell Viability in Arabidopsis thaliana Strain Landsberg in Hydroponic Culture|Plant Cell Physiol.36(1): 201-205|1995|
51169|AT||Koyanagi,T., M. Morita, and Y. Fujii|Synthesis and Insecticidal Activity of Alkylated n-Benzoyl-n'-Phenylureas and Their Toxicity to Aquatic Invertebrate|J. Pestic. Sci. (Multiple Languages)23(3): 250-254|1998|10.1584/jpestics.23.250
51170|T||Kozdroj,J., and Z. Piotrowska-Seget|Indigenous Microflora and Bean Responses to Introduction of Genetically Modified Pseudomonas fluorescens Strains into Soil Contaminated with Copper|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control30(10): 2133-2158|1995|
51173|T||Kraaij,H., and D.W. Connell|Bioconcentration and Uptake Kinetics of Chlorobenzenes in Soy-Bean Roots|Chemosphere34(12): 2607-2620|1997|10.1016/S0045-6535(97)00104-5
51174|T||Kraak,H.L., and J.G. Van Pijlen|Packaging Materials and Seed Viability: Effect of Formaldehyde and Other Toxic Volatiles|Seed Sci. Technol.21:463-474|1993|
51177|T||Krajnc,E.L., P.W. Wester, J.G. Loeber, F.X.R. Van Leeuwen, J.G. Vos, H.A.M.G. Vaessen, and C.A. Van der Heijden|Toxicity of bis(Tri-n-Butyltin)Oxide in the Rat.  I.  Short-Term Effects on General Parameters and on Endocrine and Lymphoid Systems|Toxicol. Appl. Pharmacol.75:363-386|1984|10.1016/0041-008X(84)90176-5
51181|T||Karamanos,R.E., J.R. Bettany, and J.W.B. Stewart|The Uptake of Native and Applied Lead by Alfalfa and Bromegrass from Soil|Can. J. Soil Sci.56:485-494|1976|10.4141/cjss76-056
51182|T||Kramarz,P.|Dynamics of Accumulation and Decontamination of Cadmium and Zinc in Carnivorous Invertebrates.  2.  The Centipede Lithobius mutabilis Koch|Bull. Environ. Contam. Toxicol.63(4): 538-545|1999|10.1007/s001289901014
51183|T||Kramarz,P.|Dynamics of Accumulation and Decontamination of Cadmium and Zinc in Carnivorous Invertebrates.  1.  The Ground Beetle, Poecilus cupreus L.|Bull. Environ. Contam. Toxicol.63(4): 531-537|1999|10.1007/s001289901013
51185|T||Kramer,U., J.D. Cotter-Howells, J.M. Charnock, A.J.M. Baker, and J.A.C. Smith|Free Histidine as a Metal Chelator in Plants that Accumulate Nickel|Nature379(6566): 635-638|1996|10.1038/379635a0
51188|T||Krasavage,W.J., and C.J. Terhaar|d-a-Tocopheryl Poly(Ethylene Glycol) 1000 Succinate. Acute Toxicity, Subchronic Feeding, Reproduction, and Teratologic Studies in the Rat|J. Agric. Food Chem.25(2): 273-278|1977|10.1021/jf60210a002
51190|T||Kratz,W., and H. Gruttke|Pentachlorophenol - a Wood Perservative - Its Distribution in an Invertebrate Food Chain|In: Proceedings of the 6th European Symposium. Organic Micropollutants in the Aquatic Environment. Lisbon, Portugal:428-431|1991|
51192|T||Kratz,W., and R. Pohhacker|The Development of Soil Toxicity Test Systems with Lumbricides to Assess Sublethal and Lethal Effects|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:263-272|1994|
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51200|T||Krefting,L.W., and H.L. Hansen|Increasing Browse for Deer by Aerial Applications of 2,4-D|J. Wildl. Manag.33(4): 784-790|1969|10.2307/3799307
51204|T||Kretzschmar,R.M., H. Hafner, A. Bationo, and H. Marschner|Long-term and Short-term Effects of Crop Residues on Aluminum Toxicity, Phosphorus Availability and Growth of Pearl Millet in an Acid Sandy Soil|Plant Soil136(2): 215-223|1991|10.1007/BF02150052
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51208|A||Kreutzweiser,D.P., S.S. Capell, and T.A. Scarr|Community-Level Responses by Stream Insects to Neem Products Containing Azadirachtin|Environ. Toxicol. Chem.19(4): 855-861|2000|
51209|T||Kring,J.B.|Mortality of the Earthworm Lumbricus terrestris L. Following Soil Applications of Insecticides to a Tobacco Field|J. Econ. Entomol.62(4): 963-|1969|10.1093/jee/62.4.963
51211|T||Krishnakumari,M.K., K.M. Bai, and S.K. Majumder|Toxicity and Rodenticidal Potency of Zinc Phosphide|Bull. Environ. Contam. Toxicol.25:153-159|1980|10.1007/BF01985504
51212|T||Krishnamurti,A., R. Kanagasuntheram, and S. Vij|Effect of TOCP Poisoning on the Pacinian Corpuscles of Slow Loris|Acta Neuropathol.22:345-350|1972|10.1007/BF00809245
51213|T||Kristen,U., and R. Kappler|The Pollen Tube Growth Test|Methods Mol. Biol.43:189-198|1995|
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51219|T||Krogmeier,M.J., G.W. McCarty, D.R. Shogren, and J.M. Bremner|Effect of Nickel Deficiency in Soybeans on the Phytotoxicity of Foliar-Applied Urea|Plant Soil135(2): 283-286|1991|10.1007/BF00010917
51220|T||Krolikowska,J.|Physiological Effect of Triazine Herbicides on Typha latifolia L|Pol. Arch. Hydrobiol.23(2): 249-259|1976|
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51235|T||Kuehler,E.A., and R.B. Flagler|The Effects of Sodium Erythorbate and Ethylenediurea on Photosynthetic Function of Ozone-Exposed Loblolly Pine Seedlings|Environ. Pollut.105(1): 25-35|1999|10.1016/S0269-7491(98)00211-5
51236|T||Kuenen,D.J.|Time-Mortality Curves and Abbott's Correction in Experiments with Insecticides|Acta Physiol. Pharmacol. Neerl.6:179-196|1957|
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51254|T||Kumagai,S., and T. Shimizu|Neonatal Exposure to Zearalenone Causes Persistent Anovulatory Estrus in the Rat|Arch. Toxicol.50(3-4): 279-286|1982|10.1007/BF00310860
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51256|T||Kumar,D., S. Ram, and K.S. Rao|Effect of Growth Regulators and Chemicals on Fruit Set, Growth and Yield of Papaya in North Indian Conditions|Environ. Ecol.15(3): 592-594|1997|
51257|T||Kumar,D., and J. Prasad|Fruit Maturity and Quality of Papaya as Influenced by Growth Regulators and Chemicals|Environ. Ecol.15(4): 932-934|1997|
51258|T||Kumar,D., and J. Prasad|Chlorophyll Content in Papaya Leaf as Influenced by Growth Regulators and Chemicals|Environ. Ecol.16(3): 533-535|1998|
51259|T||Kumar,D., R.P.S. Chauhan, B.B. Singh, and V.P. Singh|Response of Rice (Oryza sativa) to Zinc Sulphate Incubated and Blended with Organic Materials in Sodic Soil|Indian J. Agric. Sci.69(6): 402-405|1999|
51260|T||Kumar,G.S., and P.S. Dubey|Differential Response and Detoxifying Mechanisms of Cassia siamea Lam. and Dalbergia sissoo Roxb. of Different Ages to SO2 Treatment|J. Environ. Biol.19(3): 243-249|1998|
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51262|T||Kumar,R., N. Pant, and S.P. Srivastava|Hexachlorocyclohexane and Its Isomers:  Regional Brain Levels in the Rat After Dermal Exposure|Arch. Environ. Contam. Toxicol.35:674-679|1998|10.1007/s002449900430
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51268|T||Kundagrami,S., R. Chakraborti, A.K. Basu, and P.K. Bandopadhyay|Pre-Sowing Seed Treatment of Safflower, Effect on Seedling Vigor and dry Matter Accumulation at Field Conditions|Environ. Ecol.14(2): 273-275|1996|
51269|T||Kundra,H.C., and H.S. Gill|Comparative Efficacy and Selectivity of Herbicides for Weed Control in Field Pea (Pisum sativum L.)|J. Res. Punjab Agric. Univ.27(2): 207-212|1990|
51277|T||Kuseske,D.W., B.R. Funke, and J.T. Schulz|Effects and Persistence of Baygon (Propoxur) and Temik (Aldicarb) Insecticides in Soil|Plant Soil41:255-269|1974|10.1007/BF00017253
51278|A||Kustin,K., K.V. Ladd, and G.C. McLeod|Site and Rate of Vanadium Assimilatin in the Tunicate Ciona intestinalis|J. Gen. Physiol.65:315-328|1975|
51287|T||Kvaalen,H.|Ethylene Synthesis and Growth in Embryogenic Tissue of Norway Spruce: Effects of Oxygen, 1-Aminocyclopropane-1-Carboxylic Acid, Benzyladenine and 2,4-Dichlorophenoxyacetic Acid|Physiol. Plant. (Multiple Languages)92:109-117|1994|10.1111/j.1399-3054.1994.tb06662.x
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51318|T||Lambert,M.R.K.|Effects of DDT Ground-Spraying Against Tsetse Flies on Lizards in NW Zimbabwe|Environ. Pollut.82(3): 231-237|1993|10.1016/0269-7491(93)90124-7
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51353|A||Laporte,J.M., J.P. Truchot, F. Ribeyre, and A. Boudou|Combined Effects of Water pH and Salinity on the Bioaccumulation of Inorganic Mercury and Methylmercury in the Shore Crab Carcinus maenas|Mar. Pollut. Bull.34(11): 880-893|1997|10.1016/S0025-326X(97)00059-3
51355|T||Larsen,K.H., and J.H. Dietrich|Reduction of a Raven Population on Lambing Grounds with DRC-1339|J. Wildl. Manag.34(1): 200-204|1970|10.2307/3799509
51357|T||Larson,J.L., D.C. Wolf, and B.E. Butterworth|Induced Regenerative Cell Proliferation in Livers and Kidneys of Male F-344 Rats Given Chloroform in Corn Oil by Gavage or Ad Libitum in Drinking Water|Toxicology95(1-3): 73-86|1995|10.1016/0300-483X(94)02886-Y
51358|T||Larson,J.L., D.C. Wolf, S. Mery, K.T. Morgan, and B.E. Butterworth|Toxicity and Cell Proliferation in the Liver, Kidneys and Nasal Passages of Female F-344 Rats, Induced by Chloroform Administered by Gavage|Food Chem. Toxicol.33(6): 443-456|1995|10.1016/0278-6915(95)00013-R
51359|AT||Larson,S.L., R.P. Jones, L. Escalon, and D. Parker|Classification of Explosives Transformation Products in Plant Tissue|Environ. Toxicol. Chem.18(6): 1270-1276|1999|10.1002/etc.5620180629
51361|AT||Larsson,P.|Transport of PCBs from Aquatic to Terrestrial Environments by Emerging Chironomids|Environ. Pollut. A.34(3): 283-289|1984|10.1016/0143-1471(84)90123-5
51363|T||Lasat,M.M., M. Fuhrmann, S.D. Ebbs, J.E. Cornish, and L.V. Kochian|Phytoremediation of a Radiocesium-Contaminated Soil: Evaluation of Cesium-137 Bioaccumulation in the Shoots of Three Plant Species|J. Environ. Qual.27(1): 165-169|1998|10.2134/jeq1998.00472425002700010023x
51364|T||Lasat,M.M., A.J.M. Baker, and L.V. Kochian|Altered Zn Compartmentation in the Root Symplasm and Stimulated Zn Absorption into the Leaf as Mechanisms Involved in Zn Hyperaccumulation in Thlaspi caerulescens|Plant Physiol.118(3): 875-883|1998|10.1104/pp.118.3.875
51365|T||Laskey,J.W., and F.W. Edens|Effects of Chronic High-Level Manganese Exposure on Male Behavior in the Japanese Quail (Coturnix japonica)|Poult. Sci.64:579-584|1985|10.3382/ps.0640579
51366|T||Laskowski,R., and S.P. Hopkin|Accumulation of Zn, Cu, Pb and Cd in the Garden Snail (Helix aspersa):  Implications for Predators|Environ. Pollut.91(3): 289-297|1996|10.1016/0269-7491(95)00070-4
51368|T||Lasley,S.M., and J.D. Lane|Diminished Regulation of Mesolimbic Dopaminergic Activity in Rat After Chronic Inorganic Lead Exposure|Toxicol. Appl. Pharmacol.95(3): 474-483|1988|10.1016/0041-008X(88)90365-1
51373|A||Lawler,S.P., D.A. Dritz, and T. Jensen|Effects of Sustained-Release Methoprene and a Combined Formulation of Liquid Methoprene and Bacillus thuringiensis israelensis on Insects in Salt Marshes|Arch. Environ. Contam. Toxicol.39(2): 177-182|2000|10.1007/s002440010094
51376|A||Lawrence,S.G., and M.H. Holoka|Response of Crustacean Zooplankton Impounded In Situ to Cadmium at Low Environmental Concentrations|Verh. Int. Ver. Theor. Angew. Limnol.24:2254-2259|1991|
51379|T||Laws,S.C., S.A. Carey, D.W. Hart, and R.L. Cooper|Lindane does not Alter the Estrogen Receptor or the Estrogen-Dependent Induction of Progesterone Receptors in Sexually Immature or Ovariectomized Adult Rats|Toxicology92:127-142|1994|10.1016/0300-483X(94)90172-4
51380|T||Lazof,D.B., M. Rincon, T.W. Rufty, C.T. MacKown, and T.E. Carter|Aluminum Accumulation and Associated Effects on 15NO3- Influx in Roots of Two Soybean Genotypes Differing in Al Tolerance|Plant Soil164(2): 291-297|1994|10.1007/BF00010081
51382|T||LeSueur,P., and K.J. Puckett|Effect of Vanadium on the Phosphatase Activity of Lichens|Can. J. Bot.58:502-504|1980|10.1139/b80-059
51383|T||Le Vay,S., C. Meier, and P. Glees|Effects of Tri-Ortho-Cresyl Phosphate on Spinal Ganglia and Peripheral Nerves of Chicken|Acta Neuropathol.17(2): 103-113|1971|10.1007/BF00687486
51385|A||Person le Ryyet,J., G. Boeuf, J. Zambonino Infante, S. Helgason, and A. Le Roux|Short-Term Physiological Changes in Turbot and Seabream Juveniles Exposed to Exogenous Ammonia|Comp. Biochem. Physiol. A Mol. Integr. Physiol.119(2): 511-518|1998|10.1016/S1095-6433(97)00458-3
51394|A||LeBlanc,G.A., and J.B. McLachlan|Molt-Independent Growth Inhibition of Daphnia magna by a Vertebrate Antiandrogen|Environ. Toxicol. Chem.18(7): 1450-1455|1999|
51395|A||LeBlanc,G.A., and J.B. McLachlan|Changes in the Metabolic Elimination Profile of Testosterone Following Exposure of the Crustacean Daphnia magna to Tributyltin|Ecotoxicol. Environ. Saf.45(3): 296-303|2000|10.1006/eesa.1999.1859
51396|T||Lebot,J., E.A. Kirkby, and M.L. Van Beusichem|Manganese Toxicity in Tomato Plants: Effects on Cation Uptake and Distribution|J. Plant Nutr.13(5): 513-525|1990|10.1080/01904169009364096
51401|T||Lee,C.C., C.B. Hong, H.V. Ellis III, and J.C. Dacre|Subchronic and Chronic Toxicity Studies of 2,4-Dinitrotoluene.  Part II.  CD Rats|J. Am. Coll. Toxicol.4(4): 243-256|1985|10.3109/10915818509078677
51402|T||Lee,C.R., T.C. Sturgis, and M.C. Landin|Soil Factors Influencing the Growth of Cotton Following Peach Orchards|Agron. J.59:237-240|1967|10.2134/agronj1967.00021962005900030009x
51403|T||Lee,C.R.|Influence of Aluminum on Plant Growth and Mineral Nutrition of Potatoes|Agron. J.63:604-608|1971|10.2134/agronj1971.00021962006300040027x
51404|T||Lee,C.R.|Interrelationships of Aluminum and Manganese on the Potato Plant|Agron. J.64:546-549|1972|10.2134/agronj1972.00021962006400040040x
51412|T||Lee,H., and G.W. Kalmus|Cytotoxic Effect of Di(2-Ethylhexyl) Phthalate on Cultured Chick Embryonic Cells|Experientia30(7): 800-801|1974|10.1007/BF01924194
51416|T||Lee,J.K., K.S. Kyung, and W.B. Wheeler|Rice Plant Uptake of Fresh and Aged Residues of Carbofuran from Soil|J. Agric. Food Chem.39(3): 588-593|1991|10.1021/jf00003a031
51417|T||Lee,K.C., B.A. Cunningham, K.H. Chung, G.M. Paulsen, and G.H. Liang|Effect of Cadmium on the Root and Nodule Ultrastructure of Alnus rubra|J. Environ. Qual.21(4): 287-306|1976|10.1016/0143-1471(80)90131-2
51418|T||Lee,K.C., B.A. Cunningham, G.M. Paulsen, G.H. Liang, and R.B. Moore|Effects of Cadmium on Respiration Rate and Activities of Several Enzymes in Soybean Seedlings|Physiol. Plant. (Multiple Languages)36:4-6|1976|10.1111/j.1399-3054.1976.tb05017.x
51423|A||Lee,R.F.|Fate of Petroleum Hydrocarbons in Marine Zooplankton|In: Proc.1975 Conf.on Prevention and Control of Oil Pollution, Am.Petroleum Inst., Washington, DC:549-553|1975|
51433|T||Legraverend,C., D.E. Harrison, F.W. Ruscetti, and D.W. Nebert|Bone Marrow Toxicity Induced by Oral Benzo(a)pyrene:  Protection Resides at the Level of the Intestine and Liver|Toxicol. Appl. Pharmacol.70(3): 390-401|1983|10.1016/0041-008X(83)90157-6
51434|T||Lehmann,A.|Effects of Microdialysis-Perfusion with Anisoosmotic Media on Extracellular Amino Acids in the Rat Hippocampus and Skeletal Muscle|J. Neurochem.53(2): 525-535|1989|10.1111/j.1471-4159.1989.tb07365.x
51438|T||Leifertova,I., N. Hejtmankova, H. Hlava, J. Kudrnacova, and F. Santavy|Antifungal and Antibacterial Effects of Phenolic Substances.  A Study of the Relationship Between the Biological Activity and the Constitution of the Investigated Compounds|Acta Univ. Palack. Olom. Fac. Rerum Nat.74:83-101|1975|
51439|A||Leight,A.K., and R.F. Van Dolah|Acute Toxicity of the Insecticides Endosulfan, Chlorpyrifos, and Malathion to the Epibenthic Estuarine Amphipod Gammarus palustris (Bousfield)|Environ. Toxicol. Chem.18(5): 958-964|1999|10.1002/etc.5620180521
51442|A||Leino,R.L., P. Wilkinson, and J.G. Anderson|Histopathological Changes in the Gills of Pearl Dace, Semotilus margarita, and Fathead Minnows, Pimephales promelas, from Experimentally.|Can. J. Fish. Aquat. Sci.44(suppl. 1): 126-134|1987|
51445|A||Lekube,X., M.P. Cajaraville, and I. Marigomez|Use of Polyclonal Antibodies for the Detection of Changes Induced by Cadmium in Lysosomes of Aquatic Organisms|Sci. Total Environ.247:201-212|2000|10.1016/S0048-9697(99)00491-X
51447|T||Lello,R., and A. Nieri|Sensitivity Evaluation of Bluebottle (Calliphora vomitoria) Larvae to Vapors of 10 Organic Solvents|Bull. Environ. Contam. Toxicol.63(5): 660-664|1999|10.1007/s001289901031
51448|AT||Lemin,A.J.|Translocation and Metabolism of 2,6-Dichloro-4-Nitroaniline by Lettuce and Tomato|J. Agric. Food Chem.13(6): 557-564|1965|10.1021/jf60142a020
51452|T||Parmele,L.H., E.R. Lemon, and A.W. Taylor|Micrometeorological Measurement Of Pesticide Vapor Flux From Bare Soil And Corn Under Field Conditions|Water Air Soil Pollut.1(4): 433-451|1972|10.1007/BF00250662
51457|T||LeNoble,M.E., D.G. Blevins, and R.J. Miles|Prevention of Aluminium Toxicity with Supplemental Boron. II. Stimulation of Root Growth in Acidic, High-Aluminium Subsoil|Plant Cell Environ.19(10): 1143-1148|1996|10.1111/j.1365-3040.1996.tb00429.x
51460|T||Leonard,C.D., and H.B.,Jr. Graves|The Effect of Fluorine Leve in `Valencia' Orange Leaves on Yield and Fruit Quality|Proc. Annu. Meet. Fla. Hortic. Soc.:13-18|1972|
51464|T||Leone,I.A., E. Brennan, and R.H. Daines|Atmospheric Fluoride:  Its Uptake and Distribution in Tomato and Corn Plants|Plant Physiol.31:329-333|1956|10.1104/pp.31.5.329
51466|T||Lepp,N.W.|Some Effects of Vanadium on the Growth and Development of the Gemmalings of Two Species of Thallose Liverworts|Bryologist87(1): 37-41|1984|10.2307/3242879
51467|T||Lepp,N.W., and N.M. Dickinson|Effect of Copper on Germination of Coffea Pollen: Possible Induction of Copper Tolerance|In: Environmental Contamination, International Conference, Amsterdam:33-35|1986|
51468|T||Lepp,N.W., J. Hartley, M. Toti, and N.M. Dickinson|Patterns of Soil Copper Contamination and Temporal Changes in Vegetation in the Vicinity of a Copper Rod Rolling Factory|Environ. Pollut.95(3): 363-369|1997|10.1016/S0269-7491(96)00130-3
51469|A||Leppanen,M.T., and J.V.K. Kukkonen|Relative Importance of Ingested Sediment and Pore Water as Bioaccumulation Routes for Pyrene to Oligochaete (Lumbriculus variegatus, Muller)|Environ. Sci. Technol.32(10): 1503-1508|1998|10.1021/es970941k
51470|A||Leppanen,M.T., and J.V.K. Kukkonen|Effect of Sediment-Chemical Contact Time on Availability of Sediment-Associated Pyrene and Benzo(a)pyrene to Oligochaete Worms and Semi-permeable Membrane Devices|Aquat. Toxicol.49:227-241|2000|10.1016/S0166-445X(99)00085-5
51471|A||Lesiuk,N.M., and C.D. Drewes|Autotomy Reflex in a Freshwater Oligochaete, Lumbriculus variegatus (Clitellata: Lumbriculidae)|Hydrobiologia (Multiple Languages)406:253-261|1999|10.1023/A:1003756722019
51472|A||Lesiuk,N.M., and C.D. Drewes|Blackworms, Blood Vessel Pulsations & Drug Effects|Am. Biol. Teach.61(1): 48-53|1999|10.2307/4450609
51473|T||Leski,T., M. Rudawska, and B. Kieliszewska-Rokicka|Intraspecific Aluminum Response in Suillus luteus (L.) S.F. Gray., an Ectomycorrhizal Symbiont of Scots Pine|Acta Soc. Bot. Pol.64(1): 97-105|1995|10.5586/asbp.1995.014
51475|T||Leszczynski,B., J. Warchol, and N. Seweryn|The Influence of Phenolic Compounds on the Preference of Winter Wheat Cultivars by Cereal Aphids|Insect Sci. Appl.6:157-158|1985|10.1017/S1742758400006548
51476|T||Lethbridge,G., and R.G. Burns|Inhibition of Soil Urease by Organophosphorus Insecticides|Soil Biol. Biochem.8:99-102|1976|10.1016/0038-0717(76)90072-9
51478|T||Levin,W., D.R. Thakker, A.W. Wood, R.L. Chang, R.E. Lehr, D.M. Jerina, and A.H. Conney|Evidence that Benzo(a)anthracene 3,4-Diol-1,2-Epoxide is an Ultimate Carcinogen on Mouse Skin|Cancer Res.38:1705-1710|1978|
51480|A||Levine,S.L., and J.T. Oris|Induction of CYP1A mRNA and Catalytic Activity in Gizzard Shad (Dorosoma cepedianum) After Waterborne Exposure to Benzo(a)pyrene|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 397-404|1997|
51481|T||Levine,V.E.|The Effects of Selenium Compounds upon Growth and Germination in Plants|Am. J. Bot.12:82-90|1925|10.1002/j.1537-2197.1925.tb05817.x
51485|A||Levy,G., and S.P. Gucinski|Studies on the Biologic Membrane Permeation Kinetics and Acute Toxicity of Drugs by Means of Goldfish|J. Pharmacol. Exp. Ther.146:80-86|1964|
51499|T||Li,J., M. Zhou, M. Pessarakli, and J.L. Stroehlein|Cotton Response to Zinc Fertilizer|Commun. Soil Sci. Plant Anal.22(15-16): 1689-1699|1991|10.1080/00103629109368528
51500|T||Li,M.H., Y.D. Zhao, and L.G. Hansen|Multiple Dose Toxicokinetic Influence on the Estrogenicity of 2,2',4,4',5,5'-Hexachlorobiphenyl|Bull. Environ. Contam. Toxicol.53(4): 583-590|1994|10.1007/BF00199030
51501|T||Li,M.H., C. Rhine, and L.G. Hansen|Hepatic Enzyme Induction and Acute Endocrine Effects of 2,3,3',4',6-Pentachlorobiphenyl in Prepubertal Female Rats|Arch. Environ. Contam. Toxicol.35(1): 97-103|1998|10.1007/s002449900355
51504|T||Li,Y.C., A.K. Alva, and M.E. Sumner|Response of Cotton Cultivars to Aluminum in Solutions with Varying Silicon Concentrations|J. Plant Nutr.12(7): 881-892|1989|10.1080/01904168909364000
51509|T||Liang,J., J.W.B. Stewart, and R.E. Karamanos|Distribution and Plant Availability of Soil Copper Fractions in Saskatchewan|Can. J. Soil Sci.71(1): 89-99|1991|10.4141/cjss91-008
51510|T||Liang,T.T., and E.P. Lichtenstein|Effect of Soils and Leaf Surfaces on the Photodecomposition of [14C]Azinposmethyl|J. Agric. Food Chem.24(6): 1205-1210|1976|10.1021/jf60208a014
51513|A||Liber,K., J.A. Gangl, T.D. Corry, L.J. Heinis, and F.S. Stay|Lethality and Bioaccumulation of 4-Nonylphenol in Bluegill Sunfish in Littoral Enclosures|Environ. Toxicol. Chem.18(3): 394-400|1999|
51514|A||Liber,K., M.L. Knuth, and F.S. Stay|An Integrated Evaluation of the Persistence and Effects of 4-Nonylphenol in an Experimental Littoral Ecosystem|Environ. Toxicol. Chem.18(3): 357-362|1999|
51515|T||Lichtenstein,E.P., and K.R. Schultz|The Effect of Moisture and Microorganisms on the Persistence and Metabolism of Some Organophosphorus Insecticides in Soils, with Special Emphasis on Parathion|J. Econ. Entomol.57(5): 618-627|1964|10.1093/jee/57.5.618
51516|T||Lichtenstein,E.P., K.R. Schulz, R.F. Skrentny, and P.A. Stitt|Insecticidal Residues in Cucumbers and Alfalfa Grown on Aldrin- or Heptachlor-Treated Soils|J. Econ. Entomol.58(4): 742-749|1965|10.1093/jee/58.4.742
51517|T||Lichtenstein,E.P., K.R. Schultz, T.W. Fuhremann, and T.T. Liang|Biological Interaction Between Plasticizers and Insecticides|J. Econ. Entomol.62(4): 761-765|1969|10.1093/jee/62.4.761
51518|T||Lichtenstein,E.P., K.R. Schulz, T.W. Fuhremann, and T.T. Liang|Degradation of Insecticides in Field Soils During a Ten-Year Period. Tranlocation into Crops|J. Agric. Food Chem.18(1): 100-106|1970|10.1021/jf60167a036
51519|T||Lichtenstein,E.P.|Chemical Residue Interactions and Effects in Soil-Plant-Animal Systems|In: Panel Proceeding Series, Joint FAO/IAEA Division of Atomic Energy in Food and Agriculture:3-7|1975|
51521|T||Lichtenstein,E.P.J., K.R.J. Schulz, and T.W.J. Fuhremann|Long-Term Effects Of Carbon In Reducing Uptake Of Insecticidal Soil Residues By Crops|J. Econ. Entomol.64(3): 585-588|1971|10.1093/jee/64.3.585
51522|AT||Lidon,F.C., and F.S. Henriques|Effects of Copper Toxicity on Growth and the Uptake and Translocation of Metals in Rice Plants|J. Plant Nutr.16(8): 1449-1464|1993|10.1080/01904169309364626
51523|AT||Lidon,F.C., and F.S. Henriques|Effects of Copper on the Ascorbate, Diamine and o-Diphenol Oxidases Activities of Rice Leaves|Phyton (Horn) (Multiple Languages)52(2): 97-104|1991|
51524|T||Lidon,F.C., and F.S. Henriques|Effects of Increasing Concentrations of Cu on Metal Uptake Kinetics and Biomass Yields|Soil Sci.154(1): 44-49|1992|10.1097/00010694-199207000-00006
51525|T||Lidon,F.C., and M.G. Barreiro|Threshold Aluminum Toxicity in Maize|J. Plant Nutr.21(3): 413-419|1998|10.1080/01904169809365413
51526|AT||Lidon,F.C., M.G. Barreiro, and F.S. Henriques|Interactions Between Biomass Production and Ethylene Biosynthesis in Copper-Treated Rice|J. Plant Nutr.18(6): 1301-1314|1995|10.1080/01904169509364981
51527|T||Lieb,H.B., and C.C. Still|Herbicide Metabolism in Plants: Specificity of Peroxidases for Aniline Substrates|Plant Physiol.44:1672-1673|1969|10.1104/pp.44.12.1672
51529|T||Liebig,G.F.,Jr., G.R. Bradford, and A.P. Vanselow|Effects of Arsenic Compounds on Citrus Plants in Solution Culture|Soil Sci.88(6): 342-348|1959|10.1097/00010694-195988060-00007
51533|A||Lienesch,L.A., J.N. Dumont, and J.A. Bantle|The Effect of Cadmium on Oogenesis in Xenopus laevis|Chemosphere41:1651-1658|2000|10.1016/S0045-6535(00)00046-1
51535|T||Lighthart,B.|Enrichment of Cadmium-Mediated Antibiotic-Resistant Bacteria in a Douglas-Fir (Pseudotsuga menziesii) Litter Microcosm|Appl. Environ. Microbiol.37(5): 859-861|1979|10.1128/aem.37.5.859-861.1979
51537|T||Liljestrom,S., and B. Aberg|Studies on the Mechanism of Chlorate Toxicity|Lantbrukshogsk. Ann.32:93-107|1966|
51538|T||Lillie,T.H., and R.W. Bartine|Protocol for Evaluating Soil Contaminated with Fuel or Herbicide|ASTM Spec. Tech. Publ.2:198-203|1990|
51539|A||Lim,P.E., C.K. Lee, and Z. Din|The Kinetics of Bioaccumulation of Zinc, Copper, Lead and Cadmium by Oysters (Crassostrea iredalei and C. belcheri) Under Tropical Field Conditions|Sci. Total Environ.216(1-2): 147-157|1998|10.1016/S0048-9697(98)00145-4
51543|A||Lin,S., P.L. Bullock, R.F. Addison, and M.B. Bandiera|Detection of Cytochrome P4501 A in Several Species Using Antibody Against a Synthetic Peptide Derived from Rainbow Trout Cytochrome P4501 A1|Environ. Toxicol. Chem.17(3): 439-445|1998|10.1002/etc.5620170314
51545|T||Lin,Z.Q., N.N. Barthakur, P.H. Schuepp, and G.G. Kennedy|Uptake and Translocation Studies in Balsam Fir Seedlings with 54Mn and 65Zn Radioisotopes Applied to Soil Surfaces|J. Environ. Qual.25:92-96|1996|10.2134/jeq1996.00472425002500010012x
51546|T||Lin,Z., and D.L. Myhre|Differential response of citrus rootstocks to aluminum levels in nutrient solutions: I. Plant growth|J. Plant Nutr.14(11): 1223-1238|1991|10.1080/01904169109364280
51547|T||Linberg,S., K. Szynkier, and M. Greger|Aluminum Effects on Transmembrane Potential in Root Cells of Spruce in Relation to pH and Growth Temperature|J. Plant Nutr.21(5): 975-985|1998|10.1080/01904169809365458
51548|A||Lindahl,P.E., and E. schwanbom|A Method for the Detection and Quantitative Estimation of Sublethal Poisoning in Living Fish|Oikos22(2): 210-214|1971|
51549|T||Lindberg,S., and G. Wingstrand|Mechanism for Cd2+ Inhibition of (K+ + Mg2+) ATPase Activity and K+(86Rb+) Uptake Join Roots of Sugar Beet (Beta vulgaris)|Physiol. Plant. (Multiple Languages)63:181-186|1985|10.1111/j.1399-3054.1985.tb01900.x
51550|T||Linder,G., J.C. Greene, H. Ratsch, J. Nwosu, S. Smith, and D. Wilborn|Seed Germination and Root Elongation Toxicity Tests in Hazardous Waste Site Evaluation: Method Development and Applications|U. S. EPA, Environmental Research Lab, Corvalis, OR:177-187|1990|
51552|A||Lindholst,C., K.L. Pedersen, and S.N. Pedersen|Estrogenic Response of Bisphenol A in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.48(2/3): 87-94|2000|10.1016/S0166-445X(99)00051-X
51553|T||Lindner,R.C., and E.R. Reeves|Arsenic Injury of Peach Trees: A Disorder Sometimes Confused with Western X-Disease|Proc. Annu. Meet. Wash. State Hortic. Assoc.38:37-40|1942|
51556|T||Lindqvist,L.|Influence of Metal Concentrations in Food on Metal Uptake and Accumulation in Sawfly Larvae|Arch. Environ. Contam. Toxicol.28(3): 310-313|1995|10.1007/BF00213107
51563|T||Lingle,J.C., L.O. Tiffin, and J.C. Brown|Iron Uptake-Translocation of Soybean as Influenced by Other Cations|Plant Physiol.38:71-76|1963|10.1104/pp.38.1.71
51564|T||Linnman,L., A. Andersson, K.O. Nilsson, B. Lind, T. Kjellstrom, and L. Friberg|Cadmium Uptake by Wheat from Sewage Sludge Used as a Plant Nutrient Source|Arch. Environ. Health27(1): 45-47|1973|10.1080/00039896.1973.10666306
51567|T||Lipsey,R.L.|Accumulation and Physiological Effects of Methyl Mercury Hydroxide on Maize Seedlings|Environ. Pollut.8(2): 149-155|1975|
51572|T||Little,R.C.|The Treatment of Iron Deficiency|Tech.Bull.No.21, Trace Elements in Soils and Crops, Proc.of a Conf.Organized by the Soil Scientists of the Natl.Agric.Advisory Serv., Feb.8-9, 1966, Her Majesty's Stationery Office, London:45-61|1971|
51573|T||Liu,A., J.G. Latimer, and R.E. Wilkinson|Growth Characteristics and Root Calcium Absorption of Watermelon Seedlings as Influenced by the Fungicides Captan and Thiram|J. Am. Soc. Hortic. Sci.119(2): 202-208|1994|10.21273/JASHS.119.2.202
51574|T||Liu,A.Y.C., and P.J. Bentley|A Comparison of the Toxicity of Ouabain In Vivo and In Vitro in the Frog, Rana pipiens, and the Toad, Bufo marinus|Comp. Gen. Pharmacol.(2): 476-478|1971|10.1016/0010-4035(71)90045-0
51575|T||Liu,D., W. Jiang, W. Wang, F. Zhao, and C. Lu|Effects of Lead on Root Growth, Cell Division, and Nucleolus of Allium cepa|Environ. Pollut.86:1-4|1994|10.1016/0269-7491(94)90002-7
51576|T||Liu,D., L. Zhai, W. Jiang, and W. Wang|Effects of Mg2+, Co2+, and Hg2+ on the Nucleus and Nucleolus in Root Tip Cells of Allium cepa|Bull. Environ. Contam. Toxicol.55:779-787|1995|10.1007/BF00203767
51577|T||Liu,D., W. Jiang, C. Lu, F. Zhao, Y. Hao, and L. Guo|Effects of Copper Sulfate on the Nucleolus of Allium cepa Root-Tip Cells|Hereditas120:87-90|1994|10.1111/j.1601-5223.1994.00087.x
51578|T||Liu,D., W.L. Guo, Y. Hao, C. Lu, and F. Zhao|Effects of Nickel Sulfate on Root Growth and Nucleoli in Root Tip Cells of Allium cepa|Isr. J. Plant Sci.42(2): 143-148|1994|10.1080/07929978.1994.10676565
51580|T||Liu,H., J.R. Heckman, and J.A. Murphy|Screening Kentucky Bluegrass for Aluminum Tolerance|J. Plant Nutr.18(9): 1797-1814|1995|10.1080/01904169509365024
51585|T||Liu,T.X., and P.A. Stansly|Toxicological Effects of Selected Insecticides on Nephaspis oculatus (Col., Coccinellidae), a Predator of Bemisia argentifolii (Hom., Aleyrodidae)|J. Appl. Entomol.120(6): 369-373|1996|10.1111/j.1439-0418.1996.tb01621.x
51590|A||Livingston,D.R., and S.V. Farrar|Tissue and Subcellular-Distribution of Enzyme-Activities of Mixed-Function Oxygenase and Benzo(a)pyrene Metabolism in the Common Mussel Mytilus-edulis L|Sci. Total Environ.39(3): 209-235|1984|10.1016/0048-9697(84)90080-9
51596|T||Llobet,J.M., A. De la Toore, J. Corbella, and J.L. Domingo|Repeated Intraperitoneal Administration of Chelating Agents in Removal of Cesium from Mice|Bull. Environ. Contam. Toxicol.61:289-296|1998|10.1007/s001289900761
51599|T||Llugany,M., C. Poschenrieder, and J. Barcelo|Monitoring of Aluminum-Induced Inhibition of Root Elongation in Four Maize Cultivars Differing in Tolerance to Aluminum and Proton Toxicity|Physiol. Plant. (Multiple Languages)93:265-271|1995|10.1111/j.1399-3054.1995.tb02227.x
51600|T||Llyas,M.B., M.A. Ellis, and J.B. Sinclair|Evaluation of Soil Fungicides for Control of Charcoal Rot of Soybeans|Plant Dis. Rep.59(4): 360-364|1975|
51601|A||Lo,C.C., and T.T. Hsieh|Acute Toxicity to the Golden Apple Snail and Estimated Bioconcentration Potential of Triphenylphosphine Oxide and Series of Related Compounds|Bull. Environ. Contam. Toxicol.65(1): 104-111|2000|10.1007/s001280000101
51602|A||Lo,I.H., and W.L. Hayton|Effects of pH on the Accumulation of sulfonamides by Fish|J. Pharmacokinet. Biopharm.9:443-459|1981|10.1007/BF01060888
51604|T||Loats,K.V., and J. Rebbeck|Interactive Effects of Ozone and Elevated Carbon Dioxide on the Growth and Physiology of Black Cherry, Green Ash, and Yellow-Poplar Seedlings|Environ. Pollut.106(2): 237-248|1999|10.1016/S0269-7491(99)00069-X
51608|T||Lobreaux,S., and J.F. Briat|Ferritin Accumulation and Degradation in Different Organs of Pea (Pisum sativum) During Development|Biochem. J. (Lond.)274(2): 601-606|1991|10.1042/bj2740601
51612|T||Lock,E.A., P. Gaskin, M.K. Ellis, W. McLean Provan, M. Robinson, and L.L. Smith|Tissue Distribution of 2-(2-Nitro-4-Trifluoromethylbenzoyl)-Cyclohexane-1,3-Dione (NTBC) and Its Effect on Enzymes Involved in Tyrosine Catabolism in the Mouse|Toxicology144:179-187|2000|10.1016/S0300-483X(99)00205-X
51613|T||Locke,M.A., R.J. Smeda, K.D. Howard, and K.N. Reddy|Clomazone Volatization Under Varying Environmental Conditions|Chemosphere33(7): 1213-1225|1996|10.1016/0045-6535(96)00260-3
51619|A||Loez,C.R., and M.L. Topalian|Use of Algae for Monitoring Rivers in Argentina with a Special Emphasis for the Reconquista River (Region of Buenos Aires)|In: J.Prygiel, B.A.Whitton, and J.Bukowska (Eds.), Use of Algae for Monitoring Rivers III, Agence de l'eau Artois-Picardie:72-83|1999|
51620|T||Lofs-Holmin,A.|Influence in Field Experiments of Benomyl and Carbendazim on Earthworms (Lumbricide) in Relation to Soil Texture|Swed. J. Agric. Res.11:141-147|1981|
51626|T||Lohnis,M.P.|Manganese Toxicity in Field and Market Garden Crops|Plant Soil3(3): 193-222|1951|10.1007/BF01393977
51629|T||Lolkema,P.C., and R. Vooijs|Copper Tolerance in Silene cucubalus; Subcellular Distribution of Copper and Its Effects on Chloroplasts and Plastocyanin Synthesis|Planta (Multiple Languages)167:30-36|1986|10.1007/BF00446365
51632|T||Long,T.F., R.S. Edgecomb, and L.L. Murdock|Effects of Substituted Phenylethylamines on Blowfly Feeding Behavior|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 201-209|1986|10.1016/0742-8413(86)90037-X
51634|T||Longnecker,N.E., and N.C. Uren|Factors Influencing Variability in Manganese Content of Seeds, with Emphasis on Barley (Hordeum vulgare) and White Lupines (Lupinus albus)|Aust. J. Agric. Res.41(1): 29-37|1990|10.1071/AR9900029
51637|T||Lopez,J.F., and F.W. Judd|Effect of Sublethal Dietary Exposure of Monosodium Methanearsonate Herbicide on the Nest-Building Behavior of the White-Footed Mouse, Peromyscus leucopus|Bull. Environ. Contam. Toxicol.23:30-32|1979|10.1007/BF01769911
51638|A||Loppes,R.|Sensitivity to Cyanide After Alkylation in Chlamydomonas reinhardi|Radiat. Bot.7:491-495|1967|
51640|T||Lorenzini,G., A. Panicucci, and C. Nali|A Gas-Exchange Study of the Differential Response of Quercus Species to Long-Term Fumigations with a Gradient of Sulphur Dioxide|Water Air Soil Pollut.85:1257-1262|1995|10.1007/BF00477154
51641|A||Lorenzon,S., M. Francese, and E.A. Ferrero|Heavy Metal Toxicity and Differential Effects on the Hyperglycemic Stress Response in the Shrimp Palaemon elegans|Arch. Environ. Contam. Toxicol.39(2): 167-176|2000|10.1007/s002440010093
51642|A||Lorimer,G.H., H.S. Gewitz, W. Volker, L.P. Solomonson, and B. Vennesland|The Presence of Bound Cyanide in the Naturally Inactivated Form of Nitrate Reductase of Chlorella vulgaris|J. Biol. Chem.249(19): 6074-6079|1974|10.1016/S0021-9258(19)42221-7
51643|T||Losada,M.E.O., and M.C. Rubio|A Parellel Increase in Striatal Dopamine and Inhibition of Spontaneous Motor Activity After Acute Lithium Administration|Comun. Biol.2(4): 381-387|1984|
51644|A||Lotufo,G.R., P.F. Landrum, M.L. Gedeon, E.A. Tigue, and L.R. Herche|Comparative Toxicity and Toxicokinetics of DDT and Its Major Metabolites in Freshwater Amphipods|Environ. Toxicol. Chem.19(2): 368-379|2000|10.1002/etc.5620190217
51645|T||Louis-Ferdinand,R.T., D.R. Brown, S.F. Fiddler, W.C. Daughtrey, and A.W. Klein|Morphometric and Enzymatic Effects of Neonatal Lead Exposure in the Rat Brain|Toxicol. Appl. Pharmacol.43(2): 351-360|1978|10.1016/0041-008X(78)90014-5
51646|T||Loukipoudis,S.|Effect of the Winter Cereals Variety on Cd Extraction in Acid Soils Contaminated with Heavy Elements|Dokl. Bolg. Akad. Nauk48(4): 93-96|1995|
51649|T||Love,S.D., and B.A. Hale|Response of Vegetation to Volatile Pollutants: A Delivery System for Controlled, Quantifiable Chronic Exposure of Foliage|Environ. Toxicol. Chem.17(4): 710-713|1998|10.1002/etc.5620170427
51650|T||Lovell,W.W., and D.J. Sanders|Phototoxicity Testing in Guinea-Pigs|Food Chem. Toxicol.30(2): 155-160|1992|10.1016/0278-6915(92)90151-A
51652|A||Low,K.W., and Y.M. Sin|Effects of Mercuric Chloride and Sodium Selenite on Some Immune Responses of Blue Gourami, Trichogaster trichopterus (Pallus)|Sci. Total Environ.214(1-3): 153-164|1998|10.1016/S0048-9697(98)00061-8
51653|T||Lowe,H.J.B., and L.A.D. Benevicius|Increase of Numbers of Cereal Aphids by Insecticide Application as an Aid to Plant Breeding|J. Agric. Sci.69:703-705|1981|10.1017/S0021859600034705
51656|T||Lowndes,H.E., and T. Baker|Studies on Drug-Induced Neuropathies. III. Motor Nerve Deficit in Cats with Experimental Acrylamide Neuropathy|Eur. J. Pharmacol.35:177-184|1976|10.1016/0014-2999(76)90313-7
51657|T||Lownds,N.K., and M.J. Bukovac|Studies on Octylphenoxy Surfactants: V. Toxicity to Cowpea Leaves and Effects of Spray Application Parameters|J. Am. Soc. Hortic. Sci.113(2): 205-210|1988|10.21273/JASHS.113.2.205
51659|T||Lu,C.C., N. Matsumoto, and S. Iijima|Placental Transfer and Body Distribution of Nickel Chloride in Pregnant Mice|Toxicol. Appl. Pharmacol.59(3): 409-413|1981|10.1016/0041-008X(81)90292-1
51660|A||Lu,C.M., C.W. Chau, and J.H. Zhang|Acute Toxicity of Excess Mercury on the Photosynthetic Performance of Cyanobacterium, S. platensis - Assessment by Chlorophyll Fluorescence Analysis|Chemosphere41(1/2): 191-196|2000|10.1016/S0045-6535(99)00411-7
51661|AT||Lu,P.Y., R.L. Metcalf, R. Furman, R. Vogel, and J. Hassett|Model Ecosystem Studies of Lead and Cadmium and of Urban Sewage Sludge Containing These Elements|J. Environ. Qual.4(4): 505-509|1975|10.2134/jeq1975.00472425000400040017x
51662|T||Lu,W.P., and M.B. Kirkham|Genotypic Tolerance to Metals as Indicated by Ethylene Production|Water Air Soil Pollut.57/58:605-615|1991|10.1007/BF00282924
51663|T||Lu,Z.G., H.S. Grewal, and R.D. Graham|Dry Matter Production and Uptake of Zinc and Phosphorus in Two Oilseed Rape Genotypes Under Differential Rates of Zinc and Phosphorus Supply|J. Plant Nutr.21(1): 25-38|1998|10.1080/01904169809365380
51665|T||Lubkowitz,J.A., J. Baruel, A.P. De Revilla, and M.M. Cermeli|Residue Studies of O,S-Dimethyl Phosphoroamidothioate on Tomatoes|J. Agric. Food Chem.21(1): 143-144|1973|10.1021/jf60185a013
51668|T||Luckmann,W.H., and G.C. Decker|A 5-Year Report of Observations in the Japanese Beetle Control Area at Sheldon, Illinois|J. Econ. Entomol.54(5): 821-827|1960|10.1093/jee/53.5.821
51669|T||Luckmann,W.H.|Increase of European Corn Borers Following Soil Application of Large Amounts of Dieldrin|J. Econ. Entomol.53:583-584|1960|
51670|A||Ludke,J.L., J.R. Gibson, and C.I. Lusk|Mixed Function Oxidase Activity in Freshwater Fishes:  Aldrin Epoxidation and Parathion Activation|Toxicol. Appl. Pharmacol.21(1): 89-97|1972|10.1016/0041-008X(72)90030-0
51672|T||Ludwig,D.|The Effect of DDT on the Metabolism of the Japanese Beetle, Popillia japonica Newman|Ann. Entomol. Soc. Am.39:496-509|1946|10.1093/aesa/39.3.496
51673|T||Luebke,R.W., C.B. Copeland, and D.L. Andrews|Effects of Aging on Resistance to Trichinella spiralis Infection in Rodents Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology136:15-26|1999|10.1016/S0300-483X(99)00050-5
51675|T||Lui,D., W. Jiang, W. Wang, and L. Zhai|Evaluation of Metal Ion Toxicity on Root Tip Cells by the Allium Test|Isr. J. Plant Sci.43:125-133|1995|10.1080/07929978.1995.10676598
51676|T||Lukaszewski,K.M., D.G. Blevins, and D.D. Randall|Asparagine and Boric Acid Cause Allantoate Accumulation in Soybean Leaves by Inhibiting Manganese-Dependent Allantoate Amidohydrolase|Plant Physiol.99(4): 1670-1676|1992|10.1104/pp.99.4.1670
51678|T||Lund,L.J., E.E. Betty, A.L. Page, and R.A. Elliott|Occurrence of Naturally high Cadmium Levels in Soils and Its Accumulation by Vegetation|J. Environ. Qual.10(4): 551-556|1981|10.2134/jeq1981.00472425001000040027x
51679|A||Lund,S.A., M.H. Fulton, and P.B. Key|The Sensitivity of Grass Shrimp, Palaemonetes pugio, Embryos to Organophosphate Pesticide Induced Acetylcholinesterase Inhibition|Aquat. Toxicol.48(2-3): 127-134|2000|10.1016/S0166-445X(99)00053-3
51680|A||Lunde,G.|The Synthesis of Fat and Water Soluble Arseno Organic Compounds in Marine and Limnetic Algae|Acta Chemica Scandinavica27(5): 1586-1594|1973|10.3891/acta.chem.scand.27-1586
51692|T||Luque,F., C. Fernandez-Ramos, E. Entrala, M.J. Rosales, J.A. Navarro, M.A. Romero, J.M. Salas, and M. Sanchez-Moreno|In Vitro Evaluation of Newly Synthesised (1,2,4)Triazolo(1,5)Pyrimidine Derivatives Against Trypanosoma cruzi, Leishmania donovani and Phytomonas staheli|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:39-44|2000|
51693|T||Lush,G.B., A.F. Hams, D. Hitchman, and D.K. Lewis|The Biological Efficiency of a Prill Formulation of Dazomet with Particular Reference to Outdoor Soil Sterilisation|Proc. Br. Insectic. Fungic. Conf.1:369-379|1967|
51695|A||Lussier,S.M., W.S. Boothman, S. Poucher, D. Champlin, and A. Helmstetten|Comparison of Dissolved and Total Metals Concentrations from Acute Tests with Saltwater Organisms|Environ. Toxicol. Chem.18(5): 889-898|1999|10.1002/etc.5620180511
51696|A||Lussier,S.M., D. Champlin, J. LiVolsi, S. Poucher, and R.J. Pruell|Acute Toxicity of para-Nonylphenol to Saltwater Animals|Environ. Toxicol. Chem.19(3): 617-621|2000|
51697|A||Lustigman,B., L.H. Lee, J. Morata, and F. Khan|Effect of Thallium on the Growth of Anacystis nidulans and Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.64(4): 565-573|2000|10.1007/s001280000040
51698|T||Lutterschmidt,D.I., W.I. Lutterschmidt, and V.H. Hutchison|Melatonin and Chlorpromazine:  Thermal Selection and Metabolic Rate in the Bullsnake, Pituophis melanoleucus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(3): 271-277|1997|
51699|T||Lutty,G.A.|The Acute Intravenous Toxicity of Biological Stains, Dyes, and Other Fluorescent Substances|Toxicol. Appl. Pharmacol.44(2): 225-250|1978|10.1016/0041-008X(78)90185-0
51701|A||Lutz,I., and W. Kloas|Amphibians as a Model to Study Endocrine Disruptors: I. Environmental Pollution and Estrogen Receptor Binding|Sci. Total Environ.225(1-2): 49-57|1999|10.1016/S0048-9697(99)80016-3
51705|A||Lydy,M.J., J.L. Lasater, and P.F. Landrum|Toxicokinetics of DDE and 2-Chlorobiphenyl in Chironomus tentans|Arch. Environ. Contam. Toxicol.38(2): 163-168|2000|10.1007/s002449910021
51708|T||Lynch,G.M.|Use of Etorphine to Immobilize Moose|J. Wildl. Manag.45(4): 981-985|1981|10.2307/3808108
51709|T||Lyon,G.L., P.J. Peterson, and R.R. Brooks|Chromium-51 Transport in the Xylem Sap of Leptospermum scoparium (Manuka)|N. Z. J. Sci.12:541-545|1969|
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51713|T||Lyon,R.L., S.J. Brown, and C.E. Richmond|Insecticides Tested on New Tussock Moth Defoliator Found in Montana|U S Forest Serv Res Note Psw161:1-4|1967|
51714|T||Lyon,R.L., H.W.,Jr. Flake, and L. Ball|Laboratory Tests of 55 Insecticides on Douglas-Fir Tussock Moth Larvae|J. Econ. Entomol.63(2): 513-518|1970|10.1093/jee/63.2.513
51715|T||Lyon,R.L., and S.J. Brown|Contact Toxicity of Insecticides Applied to Fall Cankerworm Reared on Artificial Diet|J. Econ. Entomol.63(6): 1970-1971|1970|10.1093/jee/63.6.1970
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51722|T||Lytle,T.F., and J.S. Lytle|Ascorbate: A Biomarker of Herbicide Stress in Wetland Plants|ACS Symp. Ser.8:106-113|1997|10.1021/bk-1997-0664.ch008
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51724|T||Ma,J.F., S.J. Zheng, X.F. Li, K. Takeda, and H. Matsumoto|A Rapid Hydroponic Screening for Aluminium Tolerance in Barley|Plant Soil191(1): 133-137|1997|10.1023/A:1004257711952
51725|T||Ma,J., and E. Takahashi|The Effect of Silicic Acid on Rice in a P-Deficient Soil|Plant Soil126(1): 121-125|1990|10.1007/BF00041377
51726|T||Ma,J., and E. Takahashi|Effect of Silicon on the Growth and Phosphorus Uptake of Rice|Plant Soil126(1): 115-119|1990|10.1007/BF00041376
51727|T||Ma,J., and C.A. Pritsos|Tissue-Specific Bioenergetic Effects and Increased Enzymatic Activities Following Acute Sublethal Peroral Exposure to Cyanide in the Mallard Duck|Toxicol. Appl. Pharmacol.142(2): 297-302|1997|10.1006/taap.1996.8045
51729|T||Ma,T.H., G.L. Cabrera, R. Chen, B.S. Gill, and S.S. Sandhu|Tradescantia Micronucleus Bioassays: A Collaborative Study on Plant Genotoxicity Bioassay|EPA/600/J-94/536, U.S. EPA, Health Effects Research Lab., Research Triangle Park, NC:13 p. |1994|
51730|T||Ma,T.H., Z. Xu, C. Xu, H. McConnell, E.V. Rabago, G.A. Arreola, and H. Zhang|The Improved Allium / Vicia Root Tip Micronucleus Assay for Clastogenicity or Environmental Pollutants|Mutat. Res.334:185-195|1995|10.1016/0165-1161(95)90010-1
51735|T|OECDG|Ma,W.C., and J. Bodt|Difference in Toxicity of the Insecticide Chlorpyriphos to Six Species of Earthworms (Oligochaeta, Lumbricidae) in Standardized Soil Tests|Bull. Environ. Contam. Toxicol.50(6): 864-870|1993|10.1007/BF00209951
51737|AT||Ma,W.C., A. Van Kleunen, J. Immerzeel, and P.G.J. De Maagd|Bioaccumulation of Polycyclic Aromatic Hydrocarbons by Earthworms: Assessment of Equilibrium Partitioning Theory in In Situ Studies and Water Experiments|Environ. Toxicol. Chem.17(9): 1730-1737|1998|10.1002/etc.5620170913
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51742|T||Maboeta,M.S., A.J. Reinecke, and S.A. Reinecke|Effects of Low Levels of Lead on Growth and Reproduction of the Asian Earthworm Perionyx excavatus (Oligochaeta)|Ecotoxicol. Environ. Saf.44(3): 236-240|1999|10.1006/eesa.1999.1797
51744|T||Macauley,B.J.|Biodegradation of Litter in Eucalyptus pauciflora Communities. II. Fungal Succession in Fungicide- and Insecticide-treated Leaves|Soil Biol. Biochem.11(2): 175-179|1979|10.1016/0038-0717(79)90097-X
51746|T||MacDonald,D.W., M.A. Lamoureux, M. Van den Brink, G.R. Whenham, and W.P. Brisbane|Chlorine Gas Poisoning in Farm Livestock: Case Report and Review|Can. Vet. J.12(2): 33-40|1971|
51748|T||MacDowall,F.D.H.|Stages of Ozone Damage to Respiration of Tobacco Leaves|Can. J. Bot.43(4): 419-427|1965|10.1139/b65-044
51749|T||MacFie,S.M., and G.J. Taylor|The Effects of pH and Ammonium on the Distribution of Manganese in Triticum aestivum Grown in Solution Culture|Can. J. Bot.67(11): 3394-3400|1989|10.1139/b89-413
51751|T||Machala,M., L. Matlova, I. Svoboda, and K. Nezveda|Induction Effects of Polychlorinated Biphenyls, Polycyclic Aromatic Hydrocarbons and Other Widespread Aromatic Environmental Pollutants on Microsomal Monooxygenase Activities in Chick Embryo Liver|Arch. Toxicol.70(6): 362-367|1996|10.1007/s002040050286
51753|T||Machlis,L.|Accumulation of Arsenic in the Shoots of Sudan Grass and Bush Bean|Plant Physiol.16:521-543|1941|10.1104/pp.16.3.521
51754|A||Machova,J., Z. Svobodova, J. Svobodnik, V. Piacka, B. Vykusova, and A. Kocova|Persistence of Malachite Green in Tissues of Rainbow Trout After a Long-Term Therapeutic Bath|Acta Vet. Brno65:151-159|1996|10.2754/avb199665020151
51755|T||Macieira,O.J.D., and M.J.A. Hebling-Beraldo|Laboratory Toxicity of Insecticides to Workers of Trigona spinipes (F., 1793) (Hymenoptera, Apidae)|J. Apic. Res.28(1): 3-6|1989|10.1080/00218839.1989.11100813
51756|T||MacIntire,W.H.|Effects of Fluorine in Tennessee Soils and Crops|J. Ind. Eng. Chem.41(11): 2466-2475|1949|10.1021/ie50479a026
51763|A||Mackay,M.E., J. Raelson, and C.B. Lazier|Up-Regulation of Estrogen Receptor mRNA and Estrogen Receptor Activity by Estradiol In Liver of Rainbow Trout and Other Teleostean Fish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(3): 201-209|1996|
51769|T||Mackenzie,R.D., and D.M. Angevine|Infertility in Mice Exposed In Utero to Benzo(a)pyrene|Biol. Reprod.24:183-191|1981|10.1095/biolreprod24.1.183
51770|T||Mackie,R.E.|The Effect of DDT on Mammals|In: Biological Bulletin No.2, Forest Spraying and Some Effects of DDT, Department of Lands and Forests, Ontario, Canada:63-70|1949|
51772|T||Macklon,A.E.S., D.G. Lumsdon, and A. Sim|Phosphate Uptake and Transport in Agrostis capillaris L.: Effects of Non-Toxic Levels of Aluminium and the Significance of P and Al Speciation|J. Exp. Bot.45(276): 887-894|1994|10.1093/jxb/45.7.887
51773|T||MacLauchlan,L.E., J.H. Borden, J.M. D'Auria, and L.A. Wheeler|Distribution of Arsenic in MSMA-Treated Lodgepole Pines Infested by the Mountain Pine Beetle Dendroctonus ponderosae Coleoptera Scolytidae and Its Relationship to Beetle Mortality|J. Econ. Entomol.81(1): 274-280|1988|10.1093/jee/81.1.274
51774|T||MacLean,A.J.|Cadmium in Different Plant Species and Its Availability in Soils as Influenced by Organic Matter and Additions of Lime, P, Cd and Zn|Can. J. Soil Sci.56:129-138|1976|10.4141/cjss76-021
51775|T||MacLean,D.C., D.C. McCune, L.H. Weinstein, R.H. Mandl, and G.N. Woodruff|Effects of Acute Hydrogen Fluoride and Nitrogen Dioxide Exposures on Citrus and Ornamental Plants of Central Florida|Environ. Sci. Technol.2(6): 444-449|1968|10.1021/es60018a002
51776|T||MacLean,D.C., R.E. Schneider, and D.C. McCune|Effects of Chronic Exposure to Gaseous Fluoride on Yield of Field-Grown Bean and Tomato Plants|J. Am. Soc. Hortic. Sci.102(3): 297-299|1977|10.21273/JASHS.102.3.297
51778|T||MacLeod,J.A., U.C. Gupta, P. Milburn, and J.B. Sanderson|Selenium Concentration in Plant Material, Drainage and Surface Water as Influenced by Se Applied to Barley Foliage in a Barley - Red Clover - Potato Rotation|Can. J. Soil Sci.78(4): 685-688|1998|10.4141/S97-069
51780|T||Macpherson,S.A., and M.H. Martin|Effects of Phosphate Additions to Soil on Lead and Phosphate Concentrations of Holcus lanatus Grown on Lead Amended Soil|Chemosphere29(12): 2571-2581|1994|10.1016/0045-6535(94)90058-2
51781|T||MacQuillan,M.J., A.R. Badley, and P.J. Hodgson|Control of Sorghum Midge with Chlorpyrifos in Australia|J. Econ. Entomol.68(5): 713-715|1975|10.1093/jee/68.5.713
51782|T||MacRae,I.C., and E. Vinckx|Effect of Lindane and DDT on Populations of Protozoa in a Garden Soil|Soil Biol. Biochem.5:245-247|1973|10.1016/0038-0717(73)90007-2
51783|A||MacRae,R.K., D.E. Smith, N. Swoboda-Colberg, J.S. Meyer, and H.L. Bergman|Copper Binding Affinity of Rainbow Trout (Oncorhynchus mykiss) and Brook Trout (Salvelinus fontinalis) Gills:  Implications for Assessing Bioavailable Metal|Environ. Toxicol. Chem.18(6): 1180-1189|1999|10.1002/etc.5620180616
51786|T||Madan,V.K., J.P.S. Yadav, A.D. Taneja, and V.P. Kudesia|Fungicidal and Nematicidal Activity of Pyrimidyl and Thiazolyl Substituted Thioureas and Their Complexes of Some Bivalent Metal|Crop Res. 4(1): 141-145|1991|
51787|T||Madan,V.K., R. Singh, B. Kumari, J.S. Naresh, and T.S. Kathpal|Dissipation of Lindane and Fenvalerate Residues in Chickpea (Cicer arietinum L.) Under Indian Climatic Conditions|Ecotoxicol. Environ. Saf.46(2): 163-166|2000|10.1006/eesa.1999.1903
51788|T||Madden,U.A., H.M. Stahr, and F.K. Stino|The Effect on Performance and Biochemical Parameters when Soil was Added to Aflatoxin-contaminated Poultry Rations|Vet. Hum. Toxicol.41(4): 213-221|1999|
51789|T||Maddox,J.J., and J.M. Soileau|Effects of Phosphate Fertilization Lime Amendments and Inoculation with Va-Mycorrhizal Fungi on Soybeans in an Acid Soil|Plant Soil134(1): 83-94|1991|10.1007/BF00010720
51791|T||Madlafousek,J., Z. Hlinak, and J. Parizek|Sexual Behaviour of Male Rats Sterilized by Cadmium|J. Reprod. Fertil.26:189-196|1971|10.1530/jrf.0.0260189
51792|A||Madoni,P.|The Acute Toxicity of Nickel to Freshwater Ciliates|Environ. Pollut.109(1): 53-59|2000|10.1016/S0269-7491(99)00226-2
51793|T||Madrigal,J.L., J.R. Parrish, M.W. Carter, G.M. Booth, and D.L. Fischer|An Alternative Avian Population Estimate for Overdispersed Populations for Use in Mark-Recapture Studies of Pesticide Effects|Environ. Toxicol. Chem.12:1233-1241|1993|
51796|T||Magnuson,L.J., K.O. Kloter, and M.K. Carroll|Wind Tunnel Evaluation of Commonly Used Adulticides Against New Orleans Aedes aegypti|Am. Mosq. Control Assoc. J.1(2): 233-238|1985|
51798|T||Mahadevappa,M., A.V. Bulbule, R. Siddaramappa, and R.S. Kulkarni|Field screening of rice cultivars for growth yield and nutrient uptake in acidic soil|Dev. Plant Soil Sci.45:959-965|1991|
51799|T||Mahaffey,K.R., R.A. Goyer, and M.H. Wilson|Influence of Ethanol Ingestion on Lead Toxicity in Rats Fed Isocaloric Diets|Arch. Environ. Health28(4): 217-222|1974|10.1080/00039896.1974.10666471
51802|T||Mahajan,K.D., A.V. Mohite, S.Y. Daftardar, and N.D. Patil|Effects of Gypsum and Iron Pyrites on Yield and Nutrient Uptake by Wheat in Saline Sodic Soil|J. Maharashtra Agric. Univ.14(1): 4-7|1989|
51803|T||Mahajan,P., U.S. Walia, K.J. Singh, and S.S. Walia|Residual Concentration of Isoproturon Through Bioassay and Analytical Techniques|Environ. Ecol.16(3): 716-718|1998|
51804|A||Mahanty,H.K., and B.A. Fineran|Effects of a Polychlorinated Biphenyl (Aroclor 1242) on the Ultrastructure of Frond Cells in the Aquatic Plant Spirodela oligorrhiaza (Kurz) Hegelm|N. Z. J. Bot.14:13-18|1976|10.1080/0028825X.1976.10428647
51809|A||Maheswari,S.L., and V.R. Selvarajan|Phosalone Effect on Carbohydrate Metabolism in Nervous System of the Edible Crab Scylla serrata (Forskal)|J. Environ. Biol.18(2): 195-199|1997|
51811|T||Mahler,R.J., F.T. Bingham, and A.L. Page|Cadmium-Enriched Sewage Sludge Applicaton to Acid and Calcareous Soils: Effect on Yield and Cadmium Uptake by Lettuce and Chard|J. Environ. Qual.7(2): 274-281|1978|10.2134/jeq1978.00472425000700020025x
51812|A||Mahoney,J.B.|The Effects of Trace Metals on Growth of a Phytoflagellate, Olisthodiscus luteus, Which Blooms in Lower New York Bay|Bull. N. J. Acad. Sci.27(2): 53-57|1982|
51816|T||Maiti,P.K., P. Gupta, S.S. Chaurasia, and A. Kar|Dimethoate Induced Lipid Peroxidation and Inhibition of Type-1 Iodothyronine 5'-Monodeiodinase Activity in Young Cockerel|Bull. Environ. Contam. Toxicol.57(2): 335-340|1996|10.1007/s001289900195
51818|T||Majdi,H., and J. Bergholm|Effects of Enhanced Supplies of Nitrogen and Sulphur on Rhizosphere and Soil Chemistry in a Norway Spruce Stand in SW Sweden|Water Air Soil Pollut.85(3): 1777-1782|1995|10.1007/BF00477237
51820|T||Majdi,H., and H. Persson|Effects Ammonium Sulphate Application on the Chemistry of Bulk, Soil, Rhizosphere, Fine Roots and Fine-root Distribution in a Picea abies (L.) Karst. Stand|Plant Soil168-169:151-160|1995|10.1007/BF00029323
51821|T||Majesky,M.W., H.Y.L. Yang, E.P. Benditt, and M.R. Juchau|Carcinogenesis and Atherogenesis:  Differences in Monooxygenase Inducibility and Bioactivation of Benzo(a)pyrene in Aortic and Hepatic Tissues of Atherosclerosis-Susceptible Versus Resistant Pigeons|Carcinogenesis4(6): 647-652|1983|10.1093/carcin/4.6.647
51822|T||Majesky,M.W., M.A. Reidy, E.P. Benditt, and M.R. Juchau|Focal Smooth Muscle Proliferation in the Aortic Intima Produced by an Initiation-Promotion Sequence|Proc. Natl. Acad. Sci. U.S.A.82(10): 3450-3454|1985|10.1073/pnas.82.10.3450
51823|T||Majumder,S., A.K. Chakraborty, T.K. Mandal, A. Bhattacharya, and D.K. Basak|Effect of Repeated Dermal Application of Fenvalerate on Cockerels:  Residue, Cell Architecture and Biochemical Profiles|Toxicol. Environ. Chem.50(1-4): 97-107|1995|10.1080/02772249509358207
51824|T||Makarov,V.I., V.M. Sakharov, and K.P. Kutzenogii|Residues of Insecticides in Vegetation and in Soil from high Dispersed Insecticide Aerosols|Bull. Environ. Contam. Toxicol.17(6): 743-751|1977|10.1007/BF01685964
51826|A||Makynen,E.A., M.D. Kahl, K.M. Jensen, J.E. Tietge, K.L. Wells, G. Van der Kraak, and G.T. Ankley|Effects of the Mammalian Antiandrogen Vinclozolin on Development and Reproduction of the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.48(4): 461-475|2000|10.1016/S0166-445X(99)00059-4
51827|T||Malakondaiah,N., and S.C. Fang|Influence of Monuron on Photosystem II and Light-Dependent Fixation in Isolated Cells of C3 and C4 Plants|Pestic. Biochem. Physiol.9:33-38|1978|10.1016/0048-3575(78)90061-5
51828|T||Malan,H.L., and J.M. Farrant|Effects of the Metal Pollutants Cadmium and Nickel on Soybean Seed Development|Seed Sci. Res.8(4): 445-453|1998|10.1017/S0960258500004414
51831|T||Malhotra,C.P., and R.N. Katiyar|Chemical Control of the Lac Predator, Eublemma amabilis Moore II. Relative Toxicity of the Various Insecticides Against the Predatory Caterpillars|Indian J. Entomol.41(2): 187-190|1979|
51832|A||Malik,D.S., K.V. Sastry, and D.P. Hamilton|Effects of Zinc Toxicity on Biochemical Composition of Muscle and Liver of Murrel (Channa punctatus)|Environ. Int.24(4): 433-438|1998|10.1016/S0160-4120(98)00022-1
51837|T||Maliszewska,W., S. Dec, H. Wierzbicka, and A. Wozniakowska|The Influence of Various Heavy Metal Compounds on the Development and Activity of Soil Micro-Organisms|Environ. Pollut. A.37:192-215|1985|10.1016/0143-1471(85)90041-8
51840|T||Mallick,G.K., C.S. Kar, C. De, and S. Mahapatra|EMS Induced Chlorophyll Mutations in Green Gram (Vigna radiata L. Wilczek)|Environ. Ecol.17(1): 143-145|1999|
51841|T||Mallinckrodt,Inc|Letter Dated Sept. 11|Studies of Nitrobenzene, Toluene, Xylene in Conformance with TSCA Section 8(d), U.S.EPA, Office of Toxic Substances, Washington, D.C.:38-|1978|
51842|A||Malmstrom,C.M., S. Miettinen, and G. Bylund|DNA Adducts in Liver and Leukocytes of Flounder (Platichthys flesus) Experimentally Exposed to Benzo(a)pyrene|Aquat. Toxicol.48(2-3): 177-184|2000|10.1016/S0166-445X(99)00033-8
51844|T||Malone,C.R.|Short Term Effects of Chemical and Mechanical Cover Management on Decomposition Processes in Grassland Soil|J. Appl. Ecol.7:591-601|1970|10.2307/2401981
51845|T||Malone,C.R.|Effects of a Non-Selective Arsenical Herbicide on Plant Biomass and Community Structure in a Fescue Meadow|Ecology53(3): 507-513|1972|10.2307/1934242
51847|A||Malvisi,J., G. Della Rocca, P. Anfossi, and G. Giorgetti|Tissue Distribution and Depletion of Flumequine After In-Feed Administration in Sea Bream (Sparus aurata)|Aquaculture157(3-4): 197-204|1997|10.1016/S0044-8486(97)00160-9
51849|T||Mammen,K.V., and M.R.G.K. Nair|On Insecticidal Control of the Pod Borers of Cow Pea|Agric. Res. J. Kerala6(1): 61-62|1968|
51851|T||Mandal,A.B.|Effect of Sulfur on Grain Yield in Wheat (Triticum aestivum)|Environ. Ecol.15(1): 211-212|1997|
51852|T||Mandal,A.B., and R. Ray|Effect of Boron on Different Varieties of Wheat (Triticum aestivum)|Environ. Ecol.17(4): 851-852|1999|
51853|T||Mandal,A.B., and R. Ray|Effect of Boron on Different Varieties of Bread Wheat (Triticum aestivum)|Environ. Ecol.17(3): 604-607|1999|
51854|T||Mandal,A.R., and R.G. Maiti|Efficacy of Different Herbicides for Weed Control in Fenugreek (Trigonella-foenum graecum L.)|Environ. Ecol.12(1): 138-142|1994|
51855|T||Mandal,B., Das Pattanayak P.S., A. Samanta, and A.K. Chatterjee|Effect of Potassium Application on the Transformation of Zinc Fractions in Soil and on the Zinc Nutrition of Wetland Rice|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)159(5): 413-417|1996|10.1002/jpln.1996.3581590502
51856|T||Mandal,N., and S. Gupta|Effect of Organic Solvents on Germination of Dormant Rice Seeds|Environ. Ecol.12(4): 781-784|1994|
51857|T||Manes,F., M. Vitale, E. Donato, and E. Paoletti|O3 and O3+CO2 Effects on a Mediterranean Evergreen Broadleaf Tree, Holm Oak (Quercus ilex L.)|Chemosphere36(4-5): 801-806|1998|10.1016/S0045-6535(97)10127-8
51859|A||Mangum,F.A., and J.L. Madrigal|Rotenone Effects on Aquatic Macroinvertebrates of the Strawberry River, Utah:  A Five-Year Summary|J. Freshw. Ecol.14(1): 125-135|1999|10.1080/02705060.1999.9663661
51860|T||Mani,M.|Contact Toxicity of Different Pesticides to the Encyrtid Parasitoids, Aenasius advena and Blepyrus insularis of the Striped Mealybug, Ferrisia virgata|Trop. Pest Manag.38(4): 386-390|1992|10.1080/09670879209371733
51863|A||Mann,E.L., and S.W. Chisholm|Iron Limits the Cell Division Rate of Prochlorococcus in the Eastern Equatorial Pacific|Limnol. Oceanogr.45(5): 1067-1076|2000|10.4319/lo.2000.45.5.1067
51865|T||Manninen,A.M., T. Laatikainen, and T. Holopainen|Condition of Scots Pine Fine Roots and Mycorrhiza After Fungicide Application and Low-Level Ozone Exposure in a 2-Year Field Experiment|Trees12(6): 347-355|1998|10.1007/s004680050161
51867|T||Manninen,S., D. Lethiec, C. Rose, G. Nourrisson, F. Radnai, J.P. Garrec, and S. Huttunen|Pigment Concentrations and Ratios of Aleppo Pine Seedlings Exposed to Ozone|Water Air Soil Pollut.116(1-2): 333-338|1999|10.1023/A:1005233025368
51868|T||Manoharan,V., P. Loganathan, R.W. Tillman, and R.L. Parfitt|Assessing Aluminum Phytotoxicity in Long-Term Phosphate Fertilized Pasture Soils|Commun. Soil Sci. Plant Anal.27(5-8): 1731-1748|1996|10.1080/00103629609369666
51869|A||Manoj,K., and G. Ragothaman|Mercury, Copper and Cadmium Induced Changes in the Total Proteins Level in Muscle Tissue of an Edible Estuarine Fish, Boleophthalmus dussumieri (CUV)|J. Environ. Biol.20(3): 231-234|1999|
51870|T||Manthey,J.A., D.L. McCoy, and D.E. Crowley|Chelation Effects on the Iron Reduction and Uptake by Low-Iron Stress Tolerant and Nontolerant Citrus Rootstocks|J. Plant Nutr.16(5): 881-893|1993|10.1080/01904169309364581
51872|T||Manville,J.F., L.H. McMullen, and K.J. Reimer|Impact and Role of Monosodium Methanearsonate on Attack and Progeny Production by the Douglas-Fir Beetle (Coleoptera: Scolytidae) in Lethal Trap Trees|J. Econ. Entomol.81(6): 1691-1697|1988|10.1093/jee/81.6.1691
51874|A||Manzon,R.G., and J.H. Youson|Temperature and KC10-4-Induced Metmorphosis in the Sea Lamprey (Petromyzon marinus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 253-257|1999|
51876|A||Marchini,S., L. Passerini, M.D. Hoglund, A. Pino, and M. Nendza|Toxicity of Aryl- and Benzylhalides to Daphnia magna and Classification of Their Mode of Action Based on Quantitative Structure-Activity Relationship|Environ. Toxicol. Chem.18(12): 2759-2766|1999|
51877|T||Marchiol,L., L. Leita, M. Martin, A. Peressotti, and G. Zerbi|Physiological Responses of Two Soybean Cultivars to Cadmium|J. Environ. Qual.25(3): 562-566|1996|10.2134/jeq1996.00472425002500030022x
51878|A||Marco,A., and A.R. Blaustein|The Effects of Nitrite on Behavior and Metamorphosis in Cascades Frogs (Rana cascadae)|Environ. Toxicol. Chem.18(5): 946-949|1999|10.1002/etc.5620180519
51879|A||Marco,A., C. Quilchano, and A.R. Blaustein|Sensitivity to Nitrate and Nitrite in Pond-Breeding Amphibians from the Pacific Northwest, USA|Environ. Toxicol. Chem.18(12): 2836-2839|1999|
51880|T||Marcotte,J., and H.P. Witschi|Synthesis of RNA and Nuclear Proteins inEarly Regenerating Rat Livers Exposed to Beryllium|Res. Commun. Chem. Pathol. Pharmacol.3(1): 97-104|1972|
51881|T||Marcus,C., and E.P. Lichtenstein|Biologically Active Components of Anise: Toxicity and Interactions with Insecticides in Insects|J. Agric. Food Chem.27(6): 1217-1223|1979|10.1021/jf60226a077
51883|T||Maretta,M., E. Marettova, P. Skrobanek, and M. Ledec|Effect of Mercury on the Seminiferous Epithelium of the Fowl Testis|Acta Vet. Hung.43(1): 153-161|1995|
51884|T||Mariappan,T., M. Kalyanasundaram, K.N. Panicker, N. Balakrishnan, B.K. Tyagi, and P.K. Das|Evaluation of Fenfluthrin (OMS 2013), a Synthetic Pyrethroid for Insecticidal Efficacy Against Mosquito Vectors|Indian J. Med. Res.82:1-8|1985|
51886|T||Marienfeld,S., H. Lehmann, and R. Stelzer|Ultrastructural investigations and edx-analyses of al-treated oat (avena sativa) roots|Plant Soil171(1): 167-173|1995|10.1007/BF00009582
51887|T||Marigomez,J.A., E. Angulo, and J. Moya|Copper Treatment of the Digestive Gland of the Slug, Arion ater L.  1.  Bioassay Conduction and Histochemical Analysis|Bull. Environ. Contam. Toxicol.36(4): 600-607|1986|10.1007/BF01623557
51888|T||Marigomez,J.A., E. Angulo, and J. Moya|Copper Treatment of the Digestive Gland of the Slug Arion ater L. 2. Morphometrics and Histophysiology|Bull. Environ. Contam. Toxicol.36(4): 608-615|1986|10.1007/BF01623558
51889|T||Marigomez,J.A., E. Angulo, and V. Saez|Feeding and Growth Responses to Copper, Zinc, Mercury and Lead in the Terrestrial Gastropod Arion ater (Linne)|J. Molluscan Stud.52:68-78|1986|10.1093/mollus/52.1.68
51891|T||Marin,A.R., S.R. Pezeshki, P.H. Masschelen, and H.S. Choi|Effect of Dimethylarsenic Acid (DMAA) on Growth, Tissue Arsenic, and Photosynthesis of Rice Plants|J. Plant Nutr.16(5): 865-880|1993|10.1080/01904169309364580
51900|T||Marinussen,M.P.J.C., and S.E.A.T.M. Van der Zee|Cu Accumulation by Lumbricus rubellus as Affected by Total Amount of Cu in Soil, Soil Moisture and Soil Heterogeneity|Soil Biol. Biochem.29(3-4): 641-647|1997|10.1016/S0038-0717(96)00190-3
51901|T||Marinussen,M.P.J.C., S.E.A.T.M. Van der Zee, and F.A.M. De Haan|Cu Accumulation in Lumbricus rubellus Under Laboratory Conditions Compared with Accumulation Under Field Conditions|Ecotoxicol. Environ. Saf.36(1): 17-26|1997|10.1006/eesa.1996.1482
51904|T||Mark,G.L., and A.C. Cassells|The Effect of Dazomet and Fosetyl-Aluminium on Indigenous and Introduced Arbuscular Mycorrhizal Fungi in Commercial Strawberry Production|Plant Soil209(2): 253-261|1999|10.1023/A:1004692907692
51906|A||Marking,L.L.|Toxicity of Quinaldine to Selected Fishes|Invest.Fish Control No.23, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:1-10|1969|
51909|A||Marking,L.L., G.E. Howe, and T.D. Bills|Temperature and pH Effects on Acute and Chronic Toxicity of Four Chemicals to Amphipods (Gammarus pseudolimnaeus) and Rainbow Trout (Oncorhynchus mykiss)|Rep.EPA/600/X-90/286, U.S.EPA, Gulf Breeze, FL:81 p.|1991|
51910|A||Marking,L.L.|Toxicological Assays with Fish|Bull. Wildl. Dis. Assoc.5:291-294|1969|10.7589/0090-3558-5.3.291
51911|A||Markle,P.J., J.R. Gully, R.B. Baird, K.M. Nakada, and J.P. Bottomley|Effects of Several Variables on Whole Effluent Toxicity Test Performance and Interpretation|Environ. Toxicol. Chem.19(1): 123-132|2000|10.1002/etc.5620190115
51913|T||Maronpot,R.R., K. Mitsumori, P. Mann, M. Takaoka, S. Yamamoto, T. Usui, S. Okamiya, S. Nishikawa, and T. Nomura|Interlaboratory Comparison of the CB6F1-Tg rasH2 Rapid Carcinogenicity Testing Model|Toxicology146:149-159|2000|10.1016/S0300-483X(00)00168-2
51914|T||Marre,M.T., and F. Albergoni|Fusicoccin Counteracts the n-Ethylmaleimide and Silver-Induced Stimulation of Oxygen Uptake in Egeria densa Leaves|Plant Physiol.116(2): 681-686|1998|10.1104/pp.116.2.681
51915|T||Marschner,H., M. Haussling, and E. George|Ammonium and Nitrate Uptake Rates and Rhizosphere pH in Non-Mycorrhizal Roots of Norway Spruce (Picea abies (L.) Karst.)|Trees5:14-21|1991|10.1007/BF00225330
51917|T||Marschner,P., G. Jentschke, and D.L. Godbold|Cation exchange capacity and lead sorption in ectomycorrhizal fungi|Plant Soil205(1): 93-98|1998|10.1023/A:1004376727051
51919|T||Marsh,K.B., and L.A. Peterson|Gradients in Manganese Accumulation and Changes in Plant form for Potato Plants Affected by Manganese Toxicity|Plant Soil121(2): 157-163|1990|10.1007/BF00012307
51928|A||Martello,L.B., C.S. Friedman, and R.S. Tjeerdema|Combined Effects of Pentachlorophenol and Salinity Stress on Phagocytic and Chemotactic Function in Two Species of Abalone|Aquat. Toxicol.49:213-225|2000|10.1016/S0166-445X(99)00075-2
51933|T||Martikainen,E., and M.L. Rantalainen|Temperature-Time Relationship in Collembolan Response to Chemical Exposure|Ecotoxicol. Environ. Saf.42(3): 236-244|1999|10.1006/eesa.1998.1754
51934|T||Martikainen,E.A.T., and P.H. Krogh|Effects of Soil Organic Matter Content and Temperature on Toxicity of Dimethoate to Folsomia fimetaria (Collembola:  Isotomiidae)|Environ. Toxicol. Chem.18(5): 865-872|1999|10.1002/etc.5620180508
51935|T||Martin,A.L.|A Comparison of the Effects of Tellurium and Selenium on Plants and Animals|Am. J. Bot.24:198-203|1937|10.1002/j.1537-2197.1937.tb09090.x
51937|T||Martin,D.A., S.D. Miller, and H.P. Alley|Barley (Hordeum vulgare) Response to Herbicides Applied at Three Growth Stages|Weed Technol.2:41-45|1988|10.1017/S0890037X00030050
51938|T||Martin,D.A., S.D. Miller, and H.P. Alley|Winter Wheat (Triticum aestivum) Response to Herbicides Applied at Three Growth Stages|Weed Technol.3(1): 90-94|1989|10.1017/S0890037X00031389
51939|A||Martin,D.J., and P.S. Rainbow|Haemocyanin and the Binding of Cadmium and Zinc in the Haemolymph of the Shore Crab Carcinus maenas (L.)|Sci. Total Environ.214(1-3): 133-152|1998|10.1016/S0048-9697(98)00060-6
51943|A||Martin,L.K.J., and M.C. Black|Biomarker Assessment of the Effects of Coal Strip-Mine Contamination on Channel Catfish|Ecotoxicol. Environ. Saf.41(3): 307-320|1998|10.1006/eesa.1998.1714
51944|T||Martin,L.W., and S.C. Wiggans|The Tolerance of Earthworms to Certain Insecticides, Herbicides and Fertilizers|Oklahoma State Univ.Exp.Stn., Processed Ser.No.334:4 p.|1959|
51947|T||Martin,S., and D. Saco|Effect of Vanadate on Phaseolus vulgaris L.: Vegetative Development and Nitrogen Metabolism|J. Plant Nutr.18(6): 1139-1148|1995|10.1080/01904169509364968
51950|T||Martinez-Toledo,M.V., V. Salmeron, B. Rodelas, C. Pozo, and J. Gonzalez-Lopez|Studies on the Effects of the Herbicide Simazine on Microflora of Four Agricultural Soils|Environ. Toxicol. Chem.15(7): 1115-1118|1996|
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52024|T||Mayo,Z.B., and L.L. Peters|Planting vs. Cultivation Time Applications of Granular Soil Insecticides to Control Larvae of Corn Rootworms in Nebraska|J. Econ. Entomol.71:801-803|1978|10.1093/jee/71.5.801
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52036|T||McCarter,S.M., and T.H. Barksdale|Effectiveness of Selected Chemicals in Controlling Rhizoctonia Fruit Rot of Tomato in Greenhouse and Field Tests|Plant Dis. Rep.61(10): 811-815|1977|
52037|T||McCarty,G.W., J.M. Bremmer, and M.J. Krogmeier|Effects of Thiosulfate and Tetrathionate on Urease Activity and Seedling Growth|Commun. Soil Sci. Plant Anal.22(7-8): 755-768|1991|10.1080/00103629109368451
52038|T||McCarty,J.C.J., and P.A. Hedin|Effects of 1,1-Dimethylpiperidinium Chloride on the Yields, Agronomic Traits, and Allelochemicals of Cotton (Gossypium hirsutum L.), a Nine Year Study|J. Agric. Food Chem.42(10): 2302-2304|1994|10.1021/jf00046a041
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52049|T||McCrady,J.K., C. McFarlane, and L.K. Gander|The Transport and Fate of 2,3,7,8-TCDD in Soybean and Corn|Chemosphere21(3): 359-376|1990|10.1016/0045-6535(90)90006-F
52050|T||McCreary,C.W.R.|The Effect of Sulphur Application to the Soil in the Control of Some Tuber Diseases|Proc. Br. Insectic. Fungic. Conf.:303-308|1967|
52052|T||McDonald,S.|Evaluation of Several New Insecticides for the Control of the Colorado Potato Beetle and the Status of DDT Resistance in Southern Alberta|J. Econ. Entomol.69(5): 659-664|1976|10.1093/jee/69.5.659
52057|T||McEuen,S.F., C.F. Jacobson, and M.G. Miller|Metabolism and Testicular Toxicity of 1,3-dinitrobenzene in the Rat: Effect of Route of Administration|Fundam. Appl. Toxicol.28(1): 94-99|1995|10.1006/faat.1995.1150
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52064|T||McFarlane,C., T. Pfleeger, and J. Fletcher|Effect, Uptake and Disposition of Nitrobenzene in Several Terrestrial Plants|Environ. Toxicol. Chem.9:513-520|1990|10.1002/etc.5620090415
52065|T||McFarlane,J.C., and T. Pfleeger|Plant Exposure Chambers for Study of Toxic Chemical-Plant Interactions|J. Environ. Qual.16(4): 361-371|1987|10.2134/jeq1987.00472425001600040013x
52066|T||McFarlane,J.C., T. Pfleeger, and J. Fletcher|Transpiration Effect on the Uptake and Distribution of Bromacil, Nitrobenzene, and Phenol in Soybean Plants|J. Environ. Qual.16(4): 372-376|1987|10.2134/jeq1987.00472425001600040014x
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52068|T||McGivney,W.T., and D.E. McMillan|The Effects of Levo-alpha-Acetylmethadol and Its Metabolites on Schedule-Controlled Behavior in the Pigeon|J. Pharmacol. Exp. Ther.216(2): 299-305|1981|
52069|T||McGowan,C., and W.E. Donaldson|Effect of Lead Toxicity on the Organ Concentration of Glutathione and Glutathione-Related Free Amino Acids in the Chick|Toxicol. Lett.38(3): 265-270|1987|10.1016/0378-4274(87)90007-5
52070|T||McGowan,C.|Influence of Vitamin B6 Status on Aspects of Lead Poisoning in Rats|Toxicol. Lett.47(1): 87-93|1989|10.1016/0378-4274(89)90088-X
52071|T||McGrath,S.P.|The Uptake and Translocation of Tri- and Hexa-Valent Chromium and Effects on the Growth of Oat in Flowing Nutrient Solution and in Soil|New Phytol.92:381-390|1982|10.1111/j.1469-8137.1982.tb03395.x
52076|T||McIlroy,J.C., D.R. King, and A.J. Oliver|The Sensitivity of Australian Animals to 1080 Poison, VIII Amphibians and Reptiles|Aust. Wildl. Res.12:113-118|1985|10.1071/WR9850113
52078|T||McIntosh,A.H.|Field Trials of Chemicals for Control of Common Scab by Soil Treatment|Potato Res.20:225-229|1977|10.1007/BF02418683
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52094|T||McKinley,W.P., and H.C. Grice|Identification of Pesticide Residues in Extracts of Fruit, Vegetables and Aminal Fats. III. Metabolites of Chlorinated Hydrocarbon Pesticides in Animal Depot Fat|J. Assoc. Off. Agric. Chem.43(3): 725-731|1960|
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52097|T||McKinney,J.D., K. Chae, E.E. McConnell, and L.S. Birnbaum|Structure-Induction Versus Structure-Toxicity Relationships for Polychlorinated Biphenyls and Related Aromatic Hydrocarbons|Environ. Health Perspect.60:57-68|1985|10.1289/ehp.856057
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52110|T||McLay,L.D., and A.D. Robson|The Effect of Chlorsulfuron and Diclofop-Methyl on the Uptake and Utilization of Zinc by Wheat|Aust. J. Agric. Res.43(1): 59-66|1992|10.1071/AR9920059
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52125|T||McPhail,D.B., D.J. Linehan, and B.A. Goodman|An EPR Study of the Uptake of Vanadyl by Wheat Triticum-aestivum Cultivar Capelle Plants|New Phytol.91(4): 615-620|1982|10.1111/j.1469-8137.1982.tb03340.x
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52128|T||McWhorter,C.G.|Toxicity of DSMA to Johnsongrass|Weeds (Urbana)14(3): 191-194|1966|10.2307/4040909
52129|T||Medappa,K.C., and M.N. Dana|Tolerance of Cranberry Plants to Mn, Fe, and Al|J. Am. Soc. Hortic. Sci.95(1): 107-110|1970|10.21273/JASHS.95.1.107
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52148|T||Meiwes,K.J., A. Merino, and F.O. Beese|Chemical Composition of Throughfall, Soil, Water Leaves and Leaf Litter in a Beech Forest Receiving Long Term Application of Ammonium Sulphate|Plant Soil201(2): 217-230|1998|10.1023/A:1004315513482
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52183|T||Mersmann,H.J., C.D. Allen, D.G. Steffen, L.G. Brown, and D.M. Danielson|Effect of Age, Weaning and Diet on Swine Adipose Tissue and Liver Lipogenesis|J. Anim. Sci.43(1): 140-150|1976|10.2527/jas1976.431140x
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52190|A||Mester,R., and O. Zarnescu|Histochemical Localization of Mercury in the Ovary of Crucian Carp, Carassius auratus gibelio, After Exposure to Mercuric Chloride|Rev. Roumaine Biol. Ser. Biol. Anim.41(1): 25-34|1996|
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52197|A||Metcalfe,T.L., C.D. Metcalfe, Y. Kiparissis, A.J. Niimi, C.M. Foran, and W.H. Benson|Gonadal Development and Endocrine Responses in Japanese Medaka (Oryzias latipes) Exposed to o,p'-DDT in Water or Through Maternal Transfer|Environ. Toxicol. Chem.19(7): 1893-1900|2000|
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52202|T||Meydani,M., and G. Post|Effect of Sublethal Concentrations of Malathion on Coturnix Quail|Bull. Environ. Contam. Toxicol.21:661-667|1979|10.1007/BF01685486
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52224|T||Migliore,L., C. Civitareale, G. Brambilla, S. Cozzoino, P. Casoria, and L. Gaudio|Effects of Sulphadimethoxine on Cosmopolitan Weeds (Amaranthus retroflexus L., Plantago major L. and Rumex acetosella L.)|Agric. Ecosyst. Environ.65:163-168|1997|10.1016/S0167-8809(97)00062-5
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52228|T||Migula,P., P. Nuorteva, S.L. Nuorteva, E. Glowacka, and A. Oja|Physiological Disturbances in Ants (Formica aquilonia) from Excess of Cadmium and Mercury in a Finnish Forest|Sci. Total Environ.3 Suppl:1305-1314|1993|10.1016/S0048-9697(05)80136-6
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52283|T||Mishra,K., and R.R. Singh|Nickel Genotoxicity Assessment in Hordeum vulgare|J. Environ. Biol.20(1): 71-72|1999|
52284|T||Mishra,P.J., J. Halder, and S. Panda|Efficacy of Different Sources of Phosphatic Fertilizers and FYM in Niger Under Red-Acidic Soil|Environ. Ecol.17(3): 754-756|1999|
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52287|T||Misra,A., and S. Ramani|Identification of Caffeic Acid in the Root Exudate of Iron-Efficient Japanese Mint Subjected to Iron Stress: Its Action on Iron Chlorosis Recovery|Agrochimica36(1/2): 93-100|1992|
52288|T||Misra,A.|Genotypic Variation of Manganese Toxicity and Tolerance of Japanese Mint|J. Herbs Spices Med. Plants4(3): 3-13|1996|10.1300/J044v04n03_02
52291|T||Misra,S.R., and B.N. Misra|Studies on the Solid Waste Extracts from a Chloro Alkali Factory:  I. Morphological Behaviour of Rice Seedlings Grown in the Waste Extract|Environ. Pollut. A.35:17-28|1984|10.1016/0143-1471(84)90127-2
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52332|A||Monteiro,P.R.R., M.A. Reis-Henriques, and J. Coimbra|Plasma Steroid Levels in Female Flounder (Platichthys flesus) after Chronic Dietary Exposure to Single Polycyclic Aromatic Hydrocarbons|Mar. Environ. Res.49(5): 453-467|2000|10.1016/S0141-1136(99)00085-9
52336|A||Moodley,L., B.E.M. Schaub, G.J. Van der Zwaan, and P.M.J. Herman|Tolerance of Benthic Foraminifera (Protista: Sarcodina) to Hydrogen Sulphide|Mar. Ecol. Prog. Ser.169:77-86|1998|10.3354/meps169077
52339|T||Moore,D.P., W.E. Kronstad, and R.J. Metzger|Screening Wheat for Aluminium Tolerance|In: M.J.Wright (Ed.), Plant Adaptation to Mineral Stress in Problem Soils, Cornell Univ.Agricultural Exp.Station, Ithaca:287-295|1976|
52343|A||Moore,E., E. Toro, M. Stanton, and M.A.Q. Khan|Absorption and Elimination of 14C-alpha- and gamma-Chlordane by a Freshwater Alga, Daphnid, and Goldfish|Arch. Environ. Contam. Toxicol.6(4): 411-420|1977|10.1007/BF02097781
52344|T||Moore,G.S., E.J. Calabrese, and D.A. Leonard|Effects of Chlorite Exposure on Conception Rate and Litters of A/J Strain Mice|Bull. Environ. Contam. Toxicol.25:689-696|1980|10.1007/BF01985593
52348|T||Moore,M.T., D.B. Huggett, G.M. Huddleston III, J.H.,Jr. Rodgers, and C.M. Cooper|Herbicide Effects on Typha latifolia (Linneaus) Germination and Root and Shoot Development|Chemosphere38(15): 3637-3647|1999|10.1016/S0045-6535(98)00561-X
52351|T||Moore,R.B., and H.H. Willcox|Effects of Dylox on Soil-Microorganisms|In: AFRI Res.Rep.No.10, Appl.Forstry Res.Inst., State Univ.College of Forestry, Syracuse, NY:37-41|1972|
52354|A||Mora,B.R., L. Martinez-Tabche, E. Sanchez-Hidalgo, G.C. Hernandez, M.C.G. Ruiz, and F.F. Murrieta|Relationship Between Toxicokinetics of Carbaryl and Effect on Acetylcholinesterase Activity in Pomacea patula Snail|Ecotoxicol. Environ. Saf.46(2): 234-239|2000|10.1006/eesa.1999.1911
52356|A||Moraga,D., and A. Tanguy|Genetic Indicators of Herbicide Stress in the Pacific Oyster Crassostrea gigas Under Experimental Conditions|Environ. Toxicol. Chem.19(3): 706-711|2000|10.1002/etc.5620190324
52357|T||Moral,R., I. Gomez, J. Navarro Pedreno, and J. Matrix|Effects of Cadmium on Nutrient Distribution, Yield and Growth of Tomato Grown in Soilless Culture|J. Plant Nutr.17(6): 953-962|1994|10.1080/01904169409364780
52358|T||Moral,R., G. Palacios, I. Gomez, J. Navarro-Pedreno, and J. Mataix|Distribution and Accumulation of Heavy Metals (Cd, Ni and Cr) in Tomato Plant|Fresenius Environ. Bull.3:395-399|1994|
52359|T||Moral,R., J.N. Pedreno, I. Gomez, and J. Mataix|Effects of Chromium on the Nutrient Element Content and Morphology of Tomato|J. Plant Nutr.18(4): 815-822|1995|10.1080/01904169509364940
52361|T||Morales,N.M., D.B. Tuey, W.A. Colburn, and H.B. Matthews|Pharmacokinetics of Multiple Oral Doses of Selected Polychlorinated Biphenyls in Mice|Toxicol. Appl. Pharmacol.48(3): 397-407|1979|10.1016/0041-008X(79)90423-X
52362|T||Morales,N.M., and H.B. Matthews|In Vivo Binding of the Flame Retardants Tris(2,3-Dibromopropyl) Phosphate and Tris(1,3-Dichloro-2-Propyl) Phosphate to Macromolecules of Mouse Liver, Kidney and Muscle|Bull. Environ. Contam. Toxicol.25:34-38|1980|10.1007/BF01985482
52363|T||Morazain,R., and P. Rosenberg|Lipid Changes in Tri-o-cresylphosphate-Induced Neuropathy|Toxicol. Appl. Pharmacol.16(2): 461-474|1970|10.1016/0041-008X(70)90020-7
52364|A||Morcillo,Y., and C. Porte|Evidence of Endocrine Disruption in Clams - Ruditapes decussata - Transplanted to a Tributyltin-Polluted Environment|Environ. Pollut.107(1): 47-52|2000|10.1016/S0269-7491(99)00133-5
52368|T||Moreno-Caselles,J., A. Perez-Espinosa, M.D. Perez-Murcia, R. Moral, and I. Gomez|Effect of Increased Cobalt Treatments on Cobalt Concentration and Growth of Tomato Plants|J. Plant Nutr.20(7-8): 805-811|1997|10.1080/01904169709365297
52369|T||Moreno-Caselles,J., A. Perez-Espinosa, M.D. Perez-Murcia, R. Moral, and I. Gomez|Cobalt-Induced Stress in Soilless Lettuce Cultivation: I. Effect on Yield and Pollutant Accumulation|Acta Hortic.458:239-242|1998|10.17660/ActaHortic.1998.458.28
52370|T||Moreno-Caselles,J., A. Perez-Espinosa, M.D. Perez-Murcia, R. Moral, and I. Gomez|Cobalt-Induced Stress in Soilless Lettuce Cultivation: II. Effect on Nutrient Evolution|Acta Hortic.458:243-246|1998|10.17660/ActaHortic.1998.458.29
52372|A||Morgan,I.J., L.M. D'Cruz, J.J. Dockray, T.K. Linton, D.G. McDonald, and C.M. Wood|The Effects of Elevated Winter Temperature and Sub-lethal Pollutants (Low pH, Elevated Ammonia) on Protein Turnover in the Gill and Liver of Rainbow Trout (Oncorhynchus mykiss)|Fish Physiol. Biochem.19(4): 377-389|1998|10.1023/A:1007748213387
52377|A||Morgan,I.J., L.M. D'Cruz, J.J. Dockray, T.K. Linton, and C.M. Wood|The Effects of Elevated Summer Temperature and Sublethal Pollutants (Ammonia, Low pH) on Protein Turnover in the Gill and Liver of Rainbow Trout (Oncorhynchus mykiss) on a Limited Food Ration|Comp. Biochem. Physiol. A Mol. Integr. Physiol.123:43-53|1999|10.1016/S1095-6433(99)00036-7
52379|T||Morgan,J.E., and A.J. Morgan|Calcium-Lead Interactions Involving Earthworms. II. The Effect of Accumulated Lead on Endogenous Calcium in Lumbricus rubellus|Environ. Pollut.55(1): 41-54|1988|10.1016/0269-7491(88)90158-3
52392|T||Morgan,P.W., H.E. Joham, and J.V. Amin|Effect of Manganese Toxcitiy of the Indole-Acetic Acid Oxidase System of Cotton|Plant Physiol.41:718-724|1966|10.1104/pp.41.4.718
52393|T||Morgan,P.W., D.M. Taylor, and H. Joham|Manipulations of IAA-Oxidase Activity and Auxin Deficiency Symptoms in Intact Cotton Plants with Manganese Nutrition|Physiol. Plant. (Multiple Languages)37:149-156|1976|10.1111/j.1399-3054.1976.tb03949.x
52397|T||Morishita,T., N. Fumoto, T. Yoshizawa, and K. Kagawa|Varietal Differences in Cadmium Levels of Rice Grains of Japonica, Indica, Javanica and Hybrid Varieties Produced in the Same Plot of a Field|Soil Sci. Plant Nutr.33(4): 629-637|1987|10.1080/00380768.1987.10557611
52398|T||Morley,H.V., and M. Chiba|Dieldrin Uptake from Soil by Wheat Plants|Can. J. Plant Sci.45:209-210|1965|10.4141/cjps65-039
52399|T||Mornstad,H.|Acute Sodium Fluoride Toxicity in Rats in Relation to Age and Sex|Acta Pharmacol. Toxicol.37:425-428|1975|10.1111/j.1600-0773.1975.tb00861.x
52400|T||Morohashi,Y., and M. Shimokoriyama|Further Studies on Glucose Catabolism in the Early Phases of Germination of Phaseolus mungo Seeds|J. Exp. Bot.26(95): 927-931|1975|10.1093/jxb/26.6.927
52406|T||Morris,H.D., and W.H. Pierre|Minimum Concentration of Manganese Necessary for Injury to Various Legumes in Culture Solutioin|Agron. J.41:107-112|1949|10.2134/agronj1949.00021962004100030003x
52408|T||Morrison,I.K., and K.A. Armson|Influence of Manganese on Growth of Jack Pine and Black Spruce Seedlings|For. Chron.44(8): 32-35|1968|10.5558/tfc44032-4
52409|T||Morrison,I.N., M.G. Owino, and E.H. Stobbe|Effects of Diclofop on growth, Mitotic Index, and Structure of Wheat (Triticum aestivum) and Wild Oat (Avena fatua) Adventitious Roots|Weed Sci.29:426-432|1981|10.1017/S0043174500039941
52410|T||Morrison,J.L.|Distribution of Arsenic from Poultry in Broiler Chickens, Soil, and Crops|J. Agric. Food Chem.17(6): 1288-1290|1969|10.1021/jf60166a018
52411|T||Mortensen,L., A. Bastrup-Birk, and H. Ro-Poulsen|Critical Levels of O3 for Wood Production of European Beech (Fagus sylvatica L.)|Water Air Soil Pollut.85(3): 1349-1354|1995|10.1007/BF00477169
52416|T||Morvai,V., A. Hudak, G. Ungvary, and B. Varga|Egg Changes in Benzene, Toluene and Xylene Poisoned Rats|Acta Med. Acad. Sci. Hung.33(3): 275-286|1976|
52418|T||Mosbaek,Hans, J.C. Tjell, and Mads F. Hovmand|Atmospheric lead input to agricultural crops in Denmark|Chemosphere19(10-11): 1787-1799|1989|10.1016/0045-6535(89)90523-7
52419|T||Moser,H., and W. Wieser|Copper and Nutrition in Helix pomatia (L.)|Oecologia42:241-251|1979|10.1007/BF00344860
52420|T||Moser,T.J., D.T. Tingey, and K.D. Rodecap|Effects of Cadmium on Arabidopsis Thaliana - First and Second Generations|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:232-234|1985|
52429|A||Moulton,C.A., W.J. Fleming, and C.E. Purnell|Effects of Two Cholinesterase-Inhibiting Pesticides on Freshwater Mussels|Environ. Toxicol. Chem.15(2): 131-137|1996|
52430|A||Mouneyrac,C., A. Geffard, J.C. Amiard, and C. Amiard-Triquet|Metallothionein-Like Proteins in Macoma balthica:  Effects of Metal Exposure and Natural Factors|Can. J. Fish. Aquat. Sci.57(1): 34-42|2000|10.1139/f99-183
52432|A||Mount,D.R., and J.R. Hockett|Use of Toxicity Identification Evaluation Methods to Characterize, Identify, and Confirm Hexavalent Chromium Toxicity in an Industrial Effluent|Water Res.34(4): 1379-1385|2000|10.1016/S0043-1354(99)00271-7
52433|T||Mount,G.A., J.M. Hirst, J.G. McWilliams, C.S. Lofgren, and S.A. White|Insecticides for Control of the Lone Star Tick Tested in the Laboratory and as High- and Ultra-Low-Volume Sprays in Wooded Areas|J. Econ. Entomol.61(4): 1005-1007|1968|10.1093/jee/61.4.1005
52435|T||Moustakas,M., G. Ouzounidou, and R. Lannoye|Rapid screening for aluminum tolerance in cereals by use of the chlorophyll fluorescence test|Plant Breed.111(4): 343-346|1993|10.1111/j.1439-0523.1993.tb00653.x
52436|T||Moustakas,M., E.P. Eleftheriou, and G. Ouzounidou|Short-term effects of aluminum at alkaline pH on the structure and function of the photosynthetic apparatus|Photosynthetica (Praha)34(2): 169-177|1997|10.1023/A:1006880205108
52438|T||Moustakas,M., G. Ouzounidou, and R. Lannoye|Aluminum effects on photosynthesis and elemental uptake in an aluminum-tolerant and nontolerant wheat cultivar|J. Plant Nutr.18(4): 669-683|1995|10.1080/01904169509364930
52439|T||Moza,P., I. Scheunert, W. Klein, and F. Korte|Studies with 2,4',5-Trichlorobiphenyl-14C and 2,2',4,4',6-Pentachlorobiphenyl-14C in Carrots, Sugar Beets, and Soil|J. Agric. Food Chem.27(5): 1120-1124|1979|10.1021/jf60225a025
52440|T||Moza,P.N., I. Scheunert, and F. Korte|Fate of Chloroalkylene-9-14C in Carrots, Sugar Beets, and Soil Under Outdoor Conditions|Arch. Environ. Contam. Toxicol.8(2): 183-189|1979|10.1007/BF01056323
52441|T||Mthal,R.K.|Studies on Acute Cadmium intoxication in Ovary and Uterus of Funambulus pennanli|Ind. Health19:231-234|1981|10.2486/indhealth.19.231
52442|A||Mudgall,C.F., and H.S. Patil|Toxic Effects of Dimethoate and Methyl Parathion on Glycogen Reserves of Male and Female Rana cyanophlyctis|J. Environ. Biol.8(3): 237-244|1987|
52443|T||Muehleisen,D.P., F.W. Plapp, J.H. Benedict, and F.A. Carino|High Affinity TCDD Binding to Fat Body cytosolic Proteins of the Bollworm, Heliothis zea|Pestic. Biochem. Physiol.35:50-57|1989|10.1016/0048-3575(89)90102-8
52444|T||Muehling,K.H., D. Steffens, and K. Mengel|Determination of Phytotoxic Soil Aluminum by Electroultrafiltration|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)151(4): 267-271|1988|10.1002/jpln.19881510409
52447|T||Mugwira,L.M., S.M. Elgawhary, and K.I. Patel|Differential Tolerances of Triticlae, Wheat, Rye, and Barley to Aluminum in Nutient Solution|Agron. J.68:782-787|1976|10.2134/agronj1976.00021962006800050024x
52448|T||Mugwira,L.M., and I. Haque|Screening Forage and Browse Legumes Germplasm to Nutrient Stress. I. Tolerance of Medicago sativa L. to Aluminum and Low Phosphorus in Soils and Nutrient Solutions|J. Plant Nutr.16(1): 17-35|1993|10.1080/01904169309364512
52449|T||Mugwira,L.M., and I. Haque|Screening Forage and Browse Legumes Germplasm to Nutrient Stresses. III. Tolerance of Sesbania to Aluminum and Low Phosphorus in Soils and Nutrient Solution|J. Plant Nutr.16(1): 51-56|1993|10.1080/01904169309364514
52450|T||Mugwira,L.M., and I. Haque|Screening Forage and Browse Legumes Germplasm to Nutrient Stresses. IV. Growth Rates of Sesbania as Affected by Aluminum and Low Phosphorus in Soils and Nutrient Solutions|J. Plant Nutr.16(1): 67-83|1993|10.1080/01904169309364515
52451|A||Muir,M.M., K.G. Kosteretz, and J.J. Lech|Localization, Depuration, Bioaccumulation and Impairment of Ion Regulation Associated with Cationic Polymer Exposure in Rainbow Trout (Oncorhynchus mykiss)|Xenobiotica27(10): 1005-1014|1997|10.1080/004982597239985
52453|T||Muir,P.S., and A.M. Shirazi|Effects of Formaldehyde-Enriched Mists on Pseudotsuga menziesii (Mirbel) Franco and Lobaria pulmonaria (L.) Hoffm|Environ. Pollut.94(2): 227-234|1996|10.1016/S0269-7491(96)00054-1
52454|T||Mukherje,A., and A. Sharma|Effects of Cadmium and Selenium on Cell-Division and Chromosomal-Aberrations in Allium sativum L.|Water Air Soil Pollut.37(3/4): 433-438|1988|10.1007/BF00192952
52456|T||Mukherjee,G.G.|Effect on Germination of Paddy Seeds Treated with Antibiotic Preparations & in Combination with Captan|Pesticides 11(6): 58-59|1977|
52457|T||Mukherjee,I., and M. Gopal|Behavior of Lindane and Endosulfan on Cowpea|Bull. Environ. Contam. Toxicol.60:225-230|1998|10.1007/s001289900614
52458|T||Mukherjee,I., and M. Gopal|Behavior of Different Formulations of Lindane on Chickpea|Bull. Environ. Contam. Toxicol.63(4): 467-472|1999|10.1007/s001289901003
52459|T||Mukherjee,P., D. Mukherjee, and P.K. Mukhopadhyaya|Response of Sulfur Fertilization on Groundnut|Environ. Ecol.13(2): 281-283|1995|
52461|T||Mukherji,S., and B. Das Gupta|Characterization of Copper Toxicity in Lettuce Seedlings|Physiol. Plant. (Multiple Languages)27:126-129|1972|10.1111/j.1399-3054.1972.tb03588.x
52462|T||Mukherji,S., and B.K. Roy|Toxic Effects of Chromium on Germinating Seedlings and Potato Tuber Slices|Biochem. Physiol. Pflanzen (Multiple Languages)171(8): 235-238|1977|10.1016/S0015-3796(17)30300-1
52464|T||Mukhopadhyay,P., and M. Haldar|Mo Along with Al and Fe Nutrition and Growth of Wetland Rice in an Acid Soil as Influenced by. I. Mo and Lime|Crop Res. (Hisar)8(3): 461-470|1994|
52465|T||Mukhopadhyaya,P.K., S.K. Choudhuri, and M.K. Pandit|Effect of Foliar Sprays of Micronutrients (Plantaid) on Growth and Yield of Okra (Abelmoschus esculentus L. Moench) Cv Vijay|Environ. Ecol.11(4): 964-966|1993|
52466|T||Mulder,C.E.G., and J. Nalewaja|Temperature Effect of Phytotoxicity of Soil-Applied Herbicides|Weed Sci.26(6): 566-570|1978|10.1017/S0043174500064560
52467|T||Mulder,C.E.G., and J. Nalewaja|Influence of Moisture on Soil-Incorporated Diclofop|Weed Sci.27:83-87|1979|10.1017/S004317450004354X
52469|AT||Mulla,M.S.|Frog and Toad Control with Insecticides!|Pest Control30:20-64|1962|
52470|T||Mullee,M.T., D.D. Cox, and A.D. Allen|Effects of Naphthalophos, Phenothiazine, and Thiobendazole on Gastrointestinal Nematode Egg Counts in Feedlot Cattle|Am. J. Vet. Res.31(7): 1203-1215|1970|
52471|T||Mullen,A.L., R.E. Stanley, S.R. Lloyd, and A.A. Moghissi|Radioberyllium Metabolism by the Dairy Cow|Health Phys.22:17-22|1972|10.1097/00004032-197201000-00003
52474|AT||Muller,P., P. Nagel, and W. Flacke|Ecological Side Effects of Dieldrin Application Against Tsetse Flies in Adamaoua, Cameroon|Oceanologia (Wroc.)50(2): 187-194|1981|
52476|T||Mullette,K.J.|Stimulation of Growth in Eucalyptus due to Aluminum|Plant Soil42:495-499|1975|10.1007/BF00010026
52477|T||Mullie,W.C.|Environmental Hazards of Mobile Ground Spraying with Cyanophos and Fenthion for Quelea Control in Senegal|Ecotoxicol. Environ. Saf.43(1): 1-8|1999|10.1006/eesa.1998.1744
52478|T||Mullins,M., K. Hardwick, and D.A. Thurman|Heavy Metal Location by Analytical Electron Microscopy in Conventionally Fixed and Freeze-Substituted Roots of Metal Tolerant and Non Tolerant Ecotypes|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:43-46|1985|
52482|AT||Munch,J.C.|Aliphatic Alcohols and Alkyl Esters:  Narcotic and Lethal Potencies to Tadpoles and to Rabbits|Ind. Med. Surg.41(4): 31-33|1972|
52485|T||Munnecke,D.E., K.H. Domsch, and J.W. Eckert|Fungicidal Activity of Air Passed Through Columns of Soil Treated with Fungicide|Phytopathology52:1298-1306|1962|
52486|T||Munns,D.N., C.M. Johnson, and L. Jacobson|Uptake and Distribution of Manganese in Oat Plants. III. An Analysis of Biotic and Environmental Effects|Plant Soil19(3): 285-295|1963|10.1007/BF01379482
52487|T||Munns,O.N.|Soil Acidity and Growth of a Legume II. Reactions of Aluminium and Phosphate in Solution and Effects of Aluminium, Phosphate, Calcium and pH on Medicago sativa L. and Trifolium subterraneum L. in Solution Culture|Aust. J. Agric. Res.16:743-755|1965|10.1071/AR9650743
52488|A||Munoz,I., and N. Roses|Comparison of Extraction Methods for the Determination of Atrazine Accumulation in Freshwater Molluscs (Physa acuta Drap. and Ancylus fluviatilis Mull, Gastropoda)|Water Res.34(10): 2846-2848|2000|10.1016/S0043-1354(99)00394-2
52489|A||Munoz,M.J., C. Ramos, and J.V. Tarazona|Bioaccumulation and Toxicity of Hexachlorobenzene in Chlorella vulgaris and Daphnia magna|Aquat. Toxicol.35(3/4): 211-220|1996|10.1016/0166-445X(96)00010-0
52490|A||Munshi,J.D., H.M. Dutta, N.K. Singh, P.K. Roy, S. Adhikari, J.V.V. Dogra, and M.M. Ali|Effect of Malathion, An Organophosphorus Pesticide, on the Serum Proteins of Heteropneustes fossilis (Bloch)|J. Environ. Pathol. Toxicol. Oncol.18(1): 79-83|1999|
52491|T||Munson,R.E., T.A. Brindley, D.C. Peters, and W.G. Lovely|Control of Both the European Corn Borer and Western Corn Rootworms with One Application of Insecticide|J. Econ. Entomol.63(2): 385-390|1970|10.1093/jee/63.2.385
52493|T||Muralidhara,D.V., and M. Desautels|Effects of Ethanol Consumption on Brown Adipose Tissue Thermogenic Capacity in Mice|Physiol. Behav.60(2): 639-644|1996|10.1016/S0031-9384(96)80042-4
52494|T||Muramoto,S.|Comparison of Metal Uptake Between Glutinous and Non-Glutinous Rice for Cadmium Chloride, Oxide and Sulfide at the Critical Levels|Bull. Environ. Contam. Toxicol.45(3): 415-421|1990|10.1007/BF01701166
52496|T||Muramoto,S., H. Nishizaki, and I. Aoyama|The Effect of Several Cadmium Compounds in Soil on the Metal Content of Unpolished Rice|Ber. Ohara Inst. Landwirtschaft. Biol. Okayama Univ.20:1-9|1991|
52497|T||Muramoto,S., F. Tezuka, and W. Agata|Effects of Anionic Surface Active Agents on the Uptake of Aluminum by Cyperus alternifolius L. Exposed to Water Containing high Levels of Aluminum|Bull. Environ. Contam. Toxicol.64(1): 122-129|2000|10.1007/s001289910019
52498|T||Murano,H., M. Kojima, and K. Sasaki|Differences in Naphthalene Cataract Formation Between Albino and Pigmented Rat Eyes|Ophthalmic Res.25(1): 16-22|1993|10.1159/000267216
52499|T||Murata,Y., A. Denda, H. Maruyama, D. Nakae, M. Tsutsumi, T. Tsujiuchi, and Y. Konishi|Chronic Toxicity and Carcinogenicity Studies of 2-Methylnaphthalene in B6C3F1 Mice|Fundam. Appl. Toxicol.36(1): 90-93|1997|10.1006/faat.1996.2283
52500|T||Muriel,P., and P. Gonzalez|Liver Damage Induced by Acute Cholestasis in the Rat is Ameliorated Partially by L-Arginine|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120:421-424|1998|
52501|T||Murk,A.J., J.H.J. Van den Berg, M. Fellinger, M.J.C. Rozemeijer, C. Swennen, P. Duiven, J.P. Boon, A. Brouwer, and J.H.|Toxic and Biochemical Effects of 3,3',4,4'-Tetrachlorobiphenyl (CB-77) and Clophen A50 on Eider Ducklings (Somateria mollissima) in a Semi-Field Experiment|Environ. Pollut.86(1): 21-30|1994|10.1016/0269-7491(94)90005-1
52502|T||Murphy,A., and L. Taiz|Comparison of Metallothionein Gene Expression and Nonprotein Thiols in Ten Arabidopsis Ecotypes. Correlation with Copper Tolerance|Plant Physiol.109(3): 945-954|1995|10.1104/pp.109.3.945
52504|T||Murphy,H.J., and M.J. Goven|Arsenic Residues in Potato Soils and Tubers|Maine Farm Res.14(3): 4-8|1966|
52505|T||Murray,F., S. Wilson, and M. Qifu|Effects of SO2 and NO2 on Growth and Nitrogen Concentrations in Lucerne and Barrel Medic|Environ. Exp. Bot.34(3): 319-328|1994|10.1016/0098-8472(94)90053-1
52506|T||Murray,F.J., F.A. Smith, K.D. Nitschke, C.G. Humiston, R.J. Kociba, and B.A. Schwetz|Three-Generation Reproduction Study of Rats Given 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Diet|Toxicol. Appl. Pharmacol.50(2): 241-252|1979|10.1016/0041-008X(79)90149-2
52511|A||Murthy,N.B.K., M.G. Kulkarni, and K. Raghu|Residues of (14)C-gamma-HCH in Paddy After Dusting, and the Fate of gamma-HCH During Refining Process of Rice Bran Oil|Toxicol. Environ. Chem.65(1-4): 241-244|1998|10.1080/02772249809358573
52512|T||Murthy,N.B.K., and K. Raghu|Effect of Thiram on Plant Growth and Rhizosphere Microflora of Barley and Nodulation in Cowpea|Plant Soil44:491-493|1976|10.1007/BF00015905
52514|T||Murthy,R.C., and S.V. Chandra|Effect of Interaction of Manganese and Nickel on Their Content in Various Tissues of Guinea Pigs|Chemosphere8(1-6): 35-38|1979|10.1016/0045-6535(79)90085-7
52515|T||Murthy,T.C.S., P. Weinberger, and M.P. Measures|Uranium Effects on the Growth of Soybean (Glycine max (L.) Merr.)|Bull. Environ. Contam. Toxicol.32(5): 580-586|1984|10.1007/BF01607541
52517|A||Murugappan,R.M., M. Muthusamy, and M. Gunasundari|Genotoxicity and Bioaccumulation of BHC and Cadmium on the Freshwater Fish, Cyprinus carpio|J. Environ. Biol.20(4): 313-316|1999|
52522|A||Butler,G.W., and P.J. Peterson|Uptake and Metabolism of Inorganic Forms of Selenium-75 by Spirodela oligorrhiza|Aust. J. Biol. Sci.20:77-86|1967|10.1071/BI9670077
52523|T||Muzik,T.J., J.H. Cruzado, and A.J. Loustalot|Studies on the Absorption, Translocation, and Action of CMU|Bot. Gaz.116:65-73|1954|10.1086/335847
52524|A||Mwatibo,J.M., and J.D. Green|Estradiol Disrupts Sea Urchin Embryogenesis Differently from Methoxychlor|Bull. Environ. Contam. Toxicol.61(5): 577-582|1998|10.1007/PL00002974
52526|T||Mykkanen,H.M., and H.E. Ganther|Effect of Mercury on Erythrocyte Glutathione Reductase Activity. In Vivo and In Vitro Studies|Bull. Environ. Contam. Toxicol.12(1): 10-16|1974|10.1007/BF01713020
52527|T||Mylroie,A.A., L. Moore, B. Olyai, and M. Anderson|Increased Susceptibility to Lead Toxicity in Rats Fed Semipurified Diets|Environ. Res.15(1): 57-64|1978|10.1016/0013-9351(78)90078-6
52528|T||Mylroie,A.A., H. Collins, C. Umbles, and J. Kyle|Erythrhocyte Superoxide Dismutase Activity and Other Parameters of Copper Status in Rats Ingesting Lead Acetate|Toxicol. Appl. Pharmacol.82(3): 512-520|1986|10.1016/0041-008X(86)90286-3
52529|T||Myttenaere,C., and J.M. Mousny|The Distribution of Chromium-51 in Lowland Rice in Relation to the Chemical Form and to the Amount of Stable Chromium in the Nutrient Solution|Plant Soil41:65-72|1974|10.1007/BF00017944
52530|T||Naber,E.C., and G.W. Ware|Effect of Kepone and Mirex on Reproductive Performqances in the Laying Hen|Poult. Sci.44:875-880|1965|10.3382/ps.0440875
52531|A||Naddy,R.B., K.A. Johnson, and S.J. Klaine|Response of Daphnia magna to Pulsed Exposures of Chlorpyrifos|Environ. Toxicol. Chem.19(2): 423-431|2000|10.1002/etc.5620190223
52533|A||Naessens,M., J.C. Leclerc, and C. Tran-Minh|Fiber Optic Biosensor Using Chlorella vulgaris for Determination of Toxic Compounds|Ecotoxicol. Environ. Saf.46(2): 181-185|2000|10.1006/eesa.1999.1904
52534|A||Nagalakshmi,N., and M.N.V. Prasad|Copper-Induced Oxidative Stress in Scenedesmus bijugatus:  Protective Role of Free Radical Scavengers|Bull. Environ. Contam. Toxicol.61(5): 623-628|1988|10.1007/s001289900806
52535|T||Nagami,H.|Fungicide Procymidone Residue in Agriculture Land|Bull. Environ. Contam. Toxicol.56(4): 594-598|1996|10.1007/s001289900085
52539|T||Nagata,M., H. Murano, M. Kojima, and K. Sasaki|A Mild Progression Type of Naphthalene-Induced Cataract in Brown-Norway Rats|Ophthalmic Res.27(suppl.1): 34-38|1995|10.1159/000267836
52540|T||Nagata,T., and T. Masuda|Insecticide Susceptibility and Wing-Form Ratio of the Brown Planthopper, Nilaparvata lugens (Stal) (Hemiptera:  Delphacidae) and the White Backed Planthopper, Sogatella furcifera (Horvath) (Hemiptera:  Delphacidae) of S|Appl. Entomol. Zool.15(1): 10-19|1980|10.1303/aez.15.10
52542|T||Nagoor,S., and A.V. Vyas|Physiological and Biochemical Responses of Cereal Seedlings to Graded Levels of Heavy Metals. III-Effects of Copper on Protein Metabolism in Wheat Seedlings|J. Environ. Biol.20(2): 125-129|1999|
52543|T||Naidoo,G., J. Sewart, and R.J. Lewis|Sites of Accumulation of Aluminum in Snap Beans and Cotton Roots|Ph.D.Thesis, University of Tennessee, Knoxville, TN:110 p.|1976|
52544|T||Naidu,C.K., and T.K.R. Reddy|Effect of Cadmium on Microorganisms and Microbe-Mediated Mineralization Process in the Soil|Bull. Environ. Contam. Toxicol.41:657-663|1988|10.1007/BF02021015
52545|T||Naidu,K.R.P., and C.V.K. Mohan|Impact of Endosulfan on Biochemical Changes in Two Speices of Vigna|Environ. Ecol.5(4): 786-788|1987|
52547|T||Naikai,Z., D. Xiuying, X. Xijuan, W. Shuqin, and A. Fengchun|Metabolic Conversion of N'-(2,4-Dimethylphenyl)-N-Methylformamidine Pesticide and the Analysis of the Metabolites|Bull. Environ. Contam. Toxicol.65(1): 22-27|2000|
52548|A||Naimo,T.J., J.G. Wiener, W.G. Cope, and N.S. Bloom|Bioavailability of Sediment-Associated Mercury to Hexagenia Mayflies in a Contaminated Floodplain River|Can. J. Fish. Aquat. Sci.57(5): 1092-1102|2000|10.1139/f00-043
52552|T||Nair,J., and V.K. Gupta|Toxicology of vanadium and its spectrophotometric determination in bio samples|Indian J. Environ. Health19(2): 116-119|1977|
52554|A||Najle,R., M. Elissondo, S. Gentile, M. Gentile, G. Vacarezza, and H. Solana|Histopathology of the Digestive Gland of an Antarctic Limpet Exposed to Cadmium|Sci. Total Environ.247:263-268|2000|10.1016/S0048-9697(99)00495-7
52557|A||Nakajima,M., T. Ogura, Y. Kusama, N. Iwabuchi, T. Imawaka, A. Araki, T. Sasaki, E. Hirose, and M. Sunairi|Inhibitory Effects of Odor Substances, Geosmin and 2-Methylisoborneol, on Early Development of Sea Urchins|Water Res.30(10): 2508-2511|1996|10.1016/0043-1354(96)00104-2
52559|T||Nakanishi,T., and H. Oku|Metabolism and Accumulation of Pentachloronitrobenzene by Phytopathogenic Fungi in Relation to Selective Toxicity|Phytopathol Notes59:1761-1762|1969|
52565|A||Nanda,P., B.N. Panda, and M.K. Behera|Nickel Induced Alterations in Protein Level of Some Tissues of Heteropneustes fossilis|J. Environ. Biol.21(2): 117-119|2000|
52567|T||Naoum,A.|The Influence of Soil Moisture on Plant Uptake of Systemic Insecticides from Different Soils|Ph.D Thesis, University of Wisconsin, Madison, WI:236 p.|1965|
52568|A||Naqvi,S.M., and S.A. Rizvi|Accumulation of Chromium and Copper in Three Different Soils and Bioaccumulation in an Aquatic Plant, Alternanthera philoxeroides|Bull. Environ. Contam. Toxicol.65(1): 55-61|2000|10.1007/s001280000094
52570|T||Narang,R.S., S.S. Mahal, S. Bedi, and K.S. Gosal|Response of Rice and Wheat to K-Fertilization Under Maxiumum Yield Research Strategies|Environ. Ecol.15(2): 474-477|1997|
52571|AT||Narashimhan,T.R., K. Mayura, B.A. Clement, S.H. Safe, and T.D. Phillips|Effects of Chlorinated Phenols on Rat Embryonic and Hepatic Mitochondrial Oxidative Phosphorylation|Environ. Toxicol. Chem.11(6): 805-814|1992|10.1002/etc.5620110609
52572|T||Narayanan,K., J. Chandrasekaran, M. Meerzainudeen, and S. Jayaraj|Effect of Graded Levels of Nitrogen on the Incidence of Rice Gall Midge|Madras Agric. J.60(7): 572-|1973|
52573|A||Narayanan,K.R., P.S. Lyla, and S.A. Khan|Pattern of Depuration of Accumulated Heavy Metals in the Mud Crab, Scylla serrata (Forskal)|J. Environ. Biol.20(3): 213-216|1999|
52574|T||Narayanan,M., L.C. Davis, J.C. Tracy, L.E. Erickson, and R.M. Green|Experimental and Modeling Studies of the Fate of Organic Contaminants in the Presence of Alfalfa Plants|J. Hazard. Mater.41(2-3): 229-249|1995|10.1016/0304-3894(94)00113-U
52577|T||Narwal,R.P., and M. Singh|Effect of Cadmium and Zinc Application on Quality of Maize|Indian J. Plant Physiol.36(3): 170-173|1993|
52579|T||Nash,R.G.|Plant Absorption of Dieldrin, DDT, and Endrin from Soils|Agron. J.60:217-219|1968|10.2134/agronj1968.00021962006000020022x
52580|T||Nash,R.G., and W.G. Harris|Screening for Phytotoxic Pesticide Interactions|J. Environ. Qual.2(4): 493-497|1973|10.2134/jeq1973.00472425000200040021x
52581|T||Nash,R.G., and W.G. Harris|Chlorinated Hydrocarbon Insecticide Residues in Crops and Soil|J. Environ. Qual.2(2): 269-273|1973|10.2134/jeq1973.00472425000200020022x
52582|T||Nash,R.G., and L.L. Jansen|Determining Phytotoxic Pesticide Interactions in Soil|J. Environ. Qual.2(4): 503-510|1973|10.2134/jeq1973.00472425000200040024x
52585|T||Nath,B.S., C.S. Raju, P.G.R. Krishna, and R.P.S. Kumar|Effects of Organophosphorus Insecticides on Protein and Nucleic Acids Contents of Fat Body and Silkgland of the Silkworm, Bombyx mori (Lepidoptera: Bombycidae)|J. Environ. Biol.17(4): 269-272|1996|
52586|T||Nath,B.S., C.S. Raju, A. Suresh, and R.P.S. Kumar|Toxic Impact of Organophosphorus Insecticides on the Growth and Economic Characters of the Silkworm, Bombyx mori L.|J. Environ. Biol.18(2): 181-184|1997|
52587|T||Surendra Nath,B., and R.P.S. Kumar|Toxic Impact of Organophosphorus Insecticides on Acetylholinesterase Activity in the Silkworm, Bombyx mori L.|Ecotoxicol. Environ. Saf.42(2): 157-162|1999|10.1006/eesa.1998.1735
52588|A||Nath,R., and V. Banerjee|Influence of Lethal and Sublethal Toxicity of Rogor on the Blood Parameters of Freshwater Fish Heteropneustes fossilis|Environ. Ecol.17(4): 940-944|1999|
52598|T||National Toxicology Program (NTP)|NTP Technical Report on the Toxicology and Carcinogenesis Studies of Pentachlorophenol (CAS No. 87-86-5) in B6C3F1 Mice (Feed Studies)|NTP NIH Publ.No.89-2804, National Inst.of Health, Res.Triangle Park, NC:15-|1989|
52600|A||Navratil,S., M. Palikova, and V. Vajcova|The Effect of Pure Microcystin LR and Biomass of Blue-Green Algae on Blood Indices of Carp (Cyprinus carpio L.)|Acta Vet. Brno67(4): 273-279|1998|10.2754/avb199867040273
52601|T||Nayak,A.K., and M.L. Gupta|Phosphorus, Zinc and Organic Matter Interaction in Relation to Uptake, Tissue Concentration and Absorption Rate of Phosphorus in Wheat|J. Indian Soc. Soil Sci.43(4): 633-636|1995|
52602|T||Nayak,R., R.P.S. Chauhan, and G. Singh|Effect of Nitrogen and Zinc on Wheat (Triticum aestivum) Yield and Nutrients Uptake Under Partially Reclaimed Sodic Soil|Indian J. Agron.42(2): 293-296|1997|
52603|T||Nazer,I.K., and H.A. Masoud|Residues of Dicofol on Cucumber Grown Under Plastic Covers in Jordan|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(5): 387-399|1986|
52605|T||Neal,J.C., and W.A. Skroch|Effects of Timing and Rate of Glyphosate Application on Toxicity to Selected Woody Ornamentals|J. Am. Soc. Hortic. Sci.110(6): 860-864|1985|10.21273/JASHS.110.6.860
52609|A||Nebeker,A.V., G.S. Schuytema, W.L. Griffis, J.A. Barbitta, and L.A. Carey|Effect of Sediment Organic Carbon on Survival of Hyalella azteca Exposed to DDT and Endrin|Environ. Toxicol. Chem.8:705-718|1989|10.1002/etc.5620080808
52610|T||Nebeker,A.V., W.L. Griffis, and G.S. Schuytema|Toxicity and Estimated Water Quality Criteria Values in Mallard Ducklings Exposed to Pentachlorophenol|Arch. Environ. Contam. Toxicol.26(1): 33-36|1994|10.1007/BF00212791
52611|T||Nebeker,A.V., K.D. Dunn, W.L. Griffis, and G.S. Schuytema|Effects of Dieldrin in Food on Growth and Bioaccumulation in Mallard Ducklings|Arch. Environ. Contam. Toxicol.26(1): 29-32|1994|10.1007/BF00212790
52612|A||Nebeker,A.V., and G.S. Schuytema|Effects of Ammonium Sulfate on Growth of Larval Northwestern Salamanders, Red-Legged and Pacific Treefrog Tadpoles, and Juvenile Fathead Minnows|Bull. Environ. Contam. Toxicol.64(2): 271-278|2000|10.1007/s001289910040
52616|T||Neeraja,P.|Effect of Induced Ammonia Toxicity in Urea Cycle Enzymes of Frog|Indian J. Comp. Anim. Physiol.1(2): 19-22|1983|
52617|T||Neeraja,P., and K.S. Swami|Transamination and Glutamate Demination in Rana hexadactyla During Induced Ammonia Toxicity|Indian J. Physiol. Pharmacol.28(2): 133-136|1984|
52618|T||Neeraja,P., and K.S. Swami|Effect of Ammonia on Free Amino Acid Levels in the Frog Rana hexadactyla|Environ. Ecol.3(3): 440-441|1985|
52620|A||Neff,J.M., and J.W. Anderson|The Effects of Copper (II) on Molting and Growth of Juvenile Lesser Blue Crabs Callinectes similis Williams|In: C.S.Giam (Ed.), Pollutant Effects on Marine Organisms, D.C.Heath and Co., Lexington, MA:155-165|1977|
52624|T||Nehez,M., R. Lorencz, and I. Desi|Simultaneous Action of Cypermethrin and Two Environmental Pollutant Metals, Cadmium and Lead, on Bone Marrow Cell Chromosomes of Rats in Subchronic Administration|Ecotoxicol. Environ. Saf.45(1): 55-60|2000|10.1006/eesa.1999.1831
52625|T||Neill,D.D., H.D. Muller, and J.V. Shutze|Pesticide Effects on the Fecundity of the Gray Partridge|Bull. Environ. Contam. Toxicol.6(6): 546-551|1971|10.1007/BF01796864
52627|T||Neiswander,C.R., and V.H. Morris|Introduction of Selenium into Plant Tissues as a Toxicant for Insects and Mites|J. Econ. Entomol.33:517-525|1940|10.1093/jee/33.3.517
52639|A||Nelson,K.J., K.D. Hoagland, and B.D. Siegfried|Chronic Effects of Atrazine on Tolerance of a Benthic Diatom|Environ. Toxicol. Chem.18(5): 1038-1045|1999|10.1002/etc.5620180531
52640|T||Nelson,P., and K.H. Hsieh|Ammonium Toxicity in Chrysanthemum: Critical Level and Symptoms|Commun. Soil Sci. Plant Anal.2(6): 439-448|1971|10.1080/00103627109366336
52641|T||Nelson,S.D., and S.U. Khan|Effect of Endomycorrhizae on the Bioavailability of Bound 14C Residues to Onion Plants from an Organic Soil Treated with [14C] Fonofos|J. Agric. Food Chem.38:894-898|1990|10.1021/jf00093a065
52642|T||Nelson,T.S., M.B. Gillis, and H.T. Peeler|Studies of the Effect of Vanadium on Chick Growth|Poult. Sci.41:519-522|1962|10.3382/ps.0410519
52644|T||Neluvhalani,M.J., S.M. Ferreira, and R.J. Van Aarde|The Effect(s) of Carbaryl-Treated Seed on Body Maintenance and Survival of the Multi-Mammate Mouse, Mastomys natalensis (sensu lato)|Onderstepoort J. Vet. Res.62(4): 235-240|1995|
52645|T||Nemes-Kosa,S., and T. Cserhati|Quantitative Structure-Activity Relationship Study on the Inhibitory Effect of Some Herbicides on the Growth of Soil Micro-Organisms|J. Appl. Bacteriol.79(5): 483-491|1995|10.1111/j.1365-2672.1995.tb03167.x
52648|T||Neto,M.M.P.M., and A. DeVarennes|Determination of Lead in White Lupin by Anodic Stripping Voltammetry|In: M.A.C.Fragoso and M.L.Van Beusichem (Eds.), Optimization of Plant Nutrition, Kluwer Acad.Publ., Netherlands:19-23|1993|
52652|T||Neuhauser,E.F., M.R. Malecki, and R.C. Loehr|Land Application of Industrial Wastes:  Effects of Metals on Soil Biota|Proc. Ind. Waste Conf.37:253-258|1983|
52657|T||Newcomer,E.J., and F.P. Dean|Effect of Xanthone, DDT, and Other Insecticides on the Pacific Mite|J. Econ. Entomol.39:783-786|1946|10.1093/jee/39.6.783
52658|T||Newell,K., J.C. Frankland, and J.B. Whittaker|Effects on Microflora of Using Naphthalene or X-Rays to Reduce Arthropod Populations in the Field|Biol. Fertil. Soils3(1/2): 11-13|1987|
52662|T||Newman,L.A., S.E. Strand, N. Choe, J. Duffy, G. Ekuan, M. Ruszaj, B.B. Shurtleff, J. Wilmoth, P. Heilman, and M.P. Gord|Uptake and Biotransformation of Trichloroethylene by Hybrid Poplars|Environ. Sci. Technol.31(4): 1062-1067|1997|10.1021/es960564w
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52666|T||Newsome,W.H., J.B. Shields, and D.C. Villeneuve|Residues of Maneb, Ethylenethiuram Monosulfide, Ethylenethiourea, and Ethylenediamine on Beans and Tomatoes Field Treated with Maneb|J. Agric. Food Chem.23(4): 756-758|1975|10.1021/jf60200a057
52668|T||Ng,Y.S., and S. Ahmad|Resistance to Dieldrin and Tolerance to Chlorpyrifos and Bendiocarb in a Northern New Jersey Population of Japanese Beetle|J. Econ. Entomol.72(5): 698-700|1979|10.1093/jee/72.5.698
52669|T||Ngu,M., E. Moya, and N. Magan|Tolerance and Uptake of Cadmium, Arsenic and Lead by Fusarium Pathogens of Cereals|Int. Biodeterior. Biodegrad.42(1): 55-62|1998|10.1016/S0964-8305(98)00047-X
52670|T||Nhung,M.T.M., and F.N. Ponnamperuma|Effects of Calcium Carbonate, Manganese Dioxide, Ferric Hydroxide, and Prolonged Flooding, Chemical and Electrochemical Changes and Growth of Rice in a Flooded, Acid Sulfate Soil|Soil Sci.102:29-41|1966|10.1097/00010694-196607000-00004
52673|A||Nice,H.E., M.C. Thorndyke, D. Morritt, S. Steele, and M. Crane|Development of Crassostrea gigas Larvae is Affected by 4-Nonylphenol|Mar. Pollut. Bull.40(6): 491-496|2000|10.1016/S0025-326X(99)00230-1
52674|T||Nichol,B.E., L. Oliveira, A.D.M. Glass, and M.Y. Siddiqi|The effects of short and long term aluminium treatment on potassium fluxes in roots of an aluminium sensitive cultivar of barley|Dev. Plant Soil Sci.45:741-746|1991|
52675|T||Nichol,B.E., and L.A. Oliveira|Effects of Aluminum on the Growth and Distribution of Calcium in Roots of an Aluminum-Sensitive Cultivar of Barley (Hordeum vulgare)|Can. J. Bot.73:1849-1858|1995|10.1139/b95-197
52676|T||Nicholaichuk,W.|Boron and Salinity Survey of Irrigation Projects and the Boron Adsorption Characteristics of Some Saskatchewan Soils|Can. J. Soil Sci.68:77-90|1988|10.4141/cjss88-007
52677|T||Nicholas,D.J.D., and W.D.E. Thomas|Some Effects of Heavy Metals on Plants Grown in Soil Culture. II. The Effect of Nickel on Fertilizer and Soil Phosphate. Uptakes and Iron and Nickel Status of Tomato|Plant Soil5(2): 182-193|1954|10.1007/BF01343850
52680|T||Nichols,J.O.|White-Pine Weevil Control in Plantations with Heptachlor Granules|J. Econ. Entomol.61(6): 1543-1546|1968|10.1093/jee/61.6.1543
52686|T||Nieboer,E., K.J. Puckett, and B. Grace|The Uptake of Nickel by Umilicaria muhlenbergii (Ach.) Tuck.: A Physicochemical Process|Can. J. Bot.54:724-733|1976|10.1139/b76-078
52688|A||Niederlehner,B.|Cadmium Toxicity to a Cladoceran|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:9-130|1984|
52689|T||Niedorf,H.R., A. Lusznat, E. Hultsch, and E. Grundmann|The Influence of Embryonal Bursectomy on Benzpyrene-Induced Sarcoma of the Chicken|Z. Krebsforsch.91(3): 323-334|1978|10.1007/BF00312294
52690|T||Nielsen,D.G., H.D. Niemczyk, C.P. Balderston, and F.F. Purrington|Black Vine Weevil:  Resistance to Dieldrin and Sensitivity to Organophosphate and Carbamate Insecticides|J. Econ. Entomol.68(3): 291-292|1975|10.1093/jee/68.3.291
52691|T||Nielsen,F.H., D.R. Myron, S.H. Givand, and D.A. Ollerich|Nickel Deficiency and Nickel-Rhodium Interaction in Chicks|J. Nutr.105:1607-1619|1975|10.1093/jn/105.12.1607
52692|T||Nielsen,F.H.|Effect of Form of Iron on the Interaction Between Nickel and Iron in Rats: Growth and Blood Parameters|J. Nutr.110:965-973|1980|10.1093/jn/110.5.965
52694|T||Nielsen,L.W., and L.M. Massay|Silver as a Fungicide|In: L.Addicts (Ed.), Silver in Industry, Reinhold, London:597-|1940|
52696|T||Niemczyk,H.D., and K.O. Lawrence|Japanese Beetle:  Evidence of Resistance to Cyclodiene Insecticides in Larvae and Adults in Ohio|J. Econ. Entomol.66(2): 520-521|1973|10.1093/jee/66.2.520
52697|T||Niemczyk,H.D.|Status of Insecticide Resistance in Japanese Beetle in Ohio - 1974|J. Econ. Entomol.68(5): 583-584|1975|10.1093/jee/68.5.583
52702|A||Nikkila,A., S. Penttinen, and J.V.K. Kukkonen|UV-B-Induced Acute Toxicity of Pyrene to the Waterflea Daphnia magna in Natural Freshwaters|Ecotoxicol. Environ. Saf.44(3): 271-279|1999|10.1006/eesa.1999.1835
52703|T||Nikolaidis,E., B. Brunstrom, and L. Dencker|Effects of the TCDD Congeners 3,3',4,4'-Tetrachlorobiphenyl and 3,3',4,4'-Tetrachloroazoxybenzene on Lymphoid Development in the Bursa of Fabricius of the Chick Embryo|Toxicol. Appl. Pharmacol.92(2): 315-323|1988|10.1016/0041-008X(88)90391-2
52704|T||Nikolaidis,E., B. Brunstrom, and L. Dencker|Effects of TCDD and Its Congeners 3,3',4,4'-Tetrachloroazoxybenzene and 3,3',4,4'-Tetrachlorobiphenyl on Lymphoid Development in the Thymus of Avian Embryos|Pharmacol. Toxicol.63:333-336|1988|10.1111/j.1600-0773.1988.tb00964.x
52706|T||Nikolov,B.A.|Uptake of Nitrate Nitrogen and Phosphorus by Plants Under the Influence of Molybdenum and Vanadium|Sov. Soil Sci.:678-683|1972|
52707|T||Nikolov,B.A., and N.G. Popova|Activity of Some Enzymes in Young Lentil Plants, Depending on the Molybdenum or Vanadium Content in the Nutritive Solution|Dokl. Bolg. Akad. Nauk27(8): 1129-1131|1974|
52712|T||Nirmala,E., K.N. Remesh, and S.R. Nair|Effect of Aluminum on Cowpea (Vigna sinensis L. cv. kanakamony)|Int. J. Environ. Stud.49(2): 117-123|1995|10.1080/00207239508711013
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52717|T||Nishizumi,M.|Acute Toxicity of Polychlorinated Dibenzofurans in CF-1 Mice|Toxicol. Appl. Pharmacol.45(1): 209-212|1978|10.1016/0041-008X(78)90041-8
52720|T||Noble,A.D., M.E. Sumner, and A.K. Alva|The pH Dependency of Aluminum Phytotoxicity Alleviation by Calcium Sulfate|Soil Sci. Soc. Am. J.52(5): 1398-1402|1988|10.2136/sssaj1988.03615995005200050036x
52721|T||Noble,A.D., M.V. Fey, and M.E. Sumner|Calcium-Aluminum Balance and the Growth of Soybean Roots in Nutrient Solutions|Soil Sci. Soc. Am. J.52(6): 1651-1656|1988|10.2136/sssaj1988.03615995005200060027x
52722|T||Noble,A.D., M.E. Sumner, and A.K. Alva|Suitability of the Aluminon Technique for Measuring Phytotoxic Aluminum in Solutions with Varying Sulfate Concentrations|Commun. Soil Sci. Plant Anal.19(13): 1495-1508|1988|10.1080/00103628809368029
52723|T||Noble,A.D., and M.E. Sumner|Calcium and Al Interactions and Soybean Growth in Nutrient Solutions|Commun. Soil Sci. Plant Anal.19(7-12): 1119-1131|1988|10.1080/00103628809367999
52724|T||Noble,A.D., and M.E. Sumner|Growth and Nutrient Content of Soybeans in Relation to Solution Calcium and Aluminum|S. Afr. J. Plant Soil6(2): 113-119|1989|10.1080/02571862.1989.10634493
52725|A||Nogami,E.M., C.C.M. Kimura, C. Rodrigues, A.R. Malagutti, E. Lenzi, and J. Nozaki|Effects of Dietary Cadmium and Its Bioconcentration in Tilapia Oreochromis niloticus|Ecotoxicol. Environ. Saf.45(3): 291-295|2000|10.1006/eesa.1999.1858
52726|T||Nohara,K., H. Ushio, S.I. Tsukumo, T. Kobayashi, M. Kijima, C. Tohyama, and H. Fujimaki|Alterations of Thymocyte Development, Thymic Emigrants and Peripheral T Cell Population in Rats Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology145:227-235|2000|10.1016/S0300-483X(99)00227-9
52727|T||Noli,M.I., M.A.,Jr. Pavia, I.R. Mignone, J.A. Brignone, K. Hagmuller, and A.A. Zaninovich|Cadmium Chloride Prevents the Rise in Rat Brown Adipose Tissue Mitochondrial Respiration in Response to Acute Cold Stress|Bull. Environ. Contam. Toxicol.61(1): 31-37|1998|10.1007/s001289900725
52732|T||Nordone,A.J., M.F. Kovacs, and R. Doane|[14]C Acrolein Accumulation and Metabolism in Leaf Lettuce|Bull. Environ. Contam. Toxicol.58:787-792|1997|10.1007/s001289900403
52733|T||Norelius,E.E., and J.A. Lockwood|The Effects of Reduced Agent-Area Insecticide Treatments for Rangeland Grasshopper (Orthoptera:  Acrididae) Control on Bird Densities|Arch. Environ. Contam. Toxicol.37(4): 519-528|1999|10.1007/s002449900547
52737|T||Normann,T.C., and M. Samaranayaka-Ramasamy|Secretory Hyperactivity and Mitochondrial Changes in Neurosecretory Cells of an Insect|Cell Tissue Res.183(1): 61-69|1977|10.1007/BF00219992
52739|T||Northover,J., and B.D. Ripley|Persistence of Chlorothalonil on Grapes and Its Effect on Disease Control and Fruit Quality|J. Agric. Food Chem.28(5): 971-974|1980|10.1021/jf60231a005
52740|T||Nothmann,J.|Effect of Growth Regulator Treatments on Heading, Bolting, Spiralled Leaf Formation and Yield Performance of Cos Lettuce (Lactuca sativa L. var. romana)|J. Hortic. Sci.48(4): 379-386|1973|10.1080/00221589.1973.11514540
52744|T||Novelli,E.L.B., R.T. Hernandes, J.L.V.B. Novelli Filho, and L.L. Barbosa|Differential/Combined Effect of Water Contamination with Cadmium and Nickel on Tissues of Rats|Environ. Pollut.103(2-3): 295-300|1998|10.1016/S0269-7491(98)00109-2
52746|A||Nowak,B., and P. De Guingand|Effects of Prophylactic Treatments with Malachite Green on Early Life Stages of Rainbow Trout|Australas. J. Ecotoxicol.3(2): 141-146|1997|
52747|T||Nowakowski,W.|Vanadium Bioaccumulation in Pisum sativum Seedlings|Biol. Plant. (Praha)35(3): 461-465|1992|
52750|T||Nuernberg,N.J., C.A. Bissani, T.A. Campbell, and C.D. Foy|Screening Pasture Plants for Aluminum Tolerance|Dev. Plant Soil Sci.42:345-353|1990|
52754|T||Nusetti,O., E. Parejo, M.M. Esclapes, J. Rodriguez-Grau, and L. Marcano|Acute-Sublethal Copper Effects on Phagocytosis and Lysozyme Activity in the Earthworm Amynthas hawayanus|Bull. Environ. Contam. Toxicol.63(3): 350-356|1999|10.1007/s001289900987
52756|T||Nutsathapana,S., P. Sawasdiwongphorn, U. Chitprarop, and J.R. Cullen|The Behaviour of Anopheles-minimus Theobald (Diptera, Culicidae) Subjected to Differing Levels of DDT Selection Pressure in Northern Thailand|Bull. Entomol. Res.76(2): 303-312|1986|10.1017/S0007485300014772
52759|T||Nyachiro,J.M., and K.G. Briggs|Seedling root response of some Kenyan bread wheat cultivars grown in acid nutrient culture solution containing aluminum|Plant Soil158(1): 141-144|1994|10.1007/BF00007927
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52763|A||Nygard,C., and N.G.A. Ekelund|Effects of Lead (PbCl2) on Photosynthesis and Respiration of the Bladder Wrack, Fucus vesiculosus, in Relation to Different Salinities|Water Air Soil Pollut.116(3-4): 549-565|1999|10.1023/A:1005191011421
52765|T||Nylen,P., M. Hagman, and A.C. Johnson|Function of the Auditory System, the Visual System, and Peripheral Nerve and Long-Term Combined Exposure to Toluene and Ethanol in Rats|Pharmacol. Toxicol.76(2): 107-111|1995|10.1111/j.1600-0773.1995.tb00113.x
52766|T||Nylund,R.E.|The Response of Onions to Soil and Foliar Applications of Manganese and to Soil Applications of Other Trace Elements|Proc. Am. Soc. Hortic. Sci.60:283-285|1952|
52769|A||Nystrom,B., M. Paulsson, K. Almgren, and H. Blank|Evaluation of the Capacity for Development of Atrazine Tolerance in Periphyton from a Swedish Freshwater Site as Determined by Inhibition of Photosynthesis and Sulfolipid Synthesis|Environ. Toxicol. Chem.19(5): 1324-1331|2000|10.1002/etc.5620190515
52772|T||O'Connor,J.C., S.R. Frame, L.G. Davis, and J.C. Cook|Detection of Thyroid Toxicants in a Tier I Screening Battery and Alterations in Thyroid Endpoints over 28 Days of Exposure|Toxicol. Sci.51(1): 54-70|1999|10.1093/toxsci/51.1.54
52773|T||O'Connor,J.C., S.R. Frame, L.G. Davis, and J.C. Cook|Detection of the Environmental Antiandrogen p,p'-DDE in CD and Long-Evans Rats Using a Tier I Screening Battery and a Hershberger Assay|Toxicol. Sci.51(1): 44-53|1999|10.1093/toxsci/51.1.44
52774|T||O'Grodnick,J.S., P.G. Wislocki, K.P. Keenan, J.B. Beavers, L.T. Frey, and M. Jaber|Subchronic and Reproductive Toxicity of Emamectin Benzoate to Mallard Ducks and Northern Bobwhite Quail|Environ. Toxicol. Chem.17(11): 2318-2324|1998|10.1002/etc.5620171124
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52776|A||O'Halloran,S.L., K. Liber, J.A. Gangl, and M.L. Knuth|Effects of Repeated Exposure to 4-Nonylphenol on the Zooplankton Community in Littoral Enclosures|Environ. Toxicol. Chem.18(3): 376-385|1999|
52780|T||Oatman,E.R.|An Ecological Study of Arthropod Populations on Apple in Northeastern Wisconsin: Population Dynamics of Mite Species on the Foliage|Ann. Entomol. Soc. Am.:122-131|1973|10.1093/aesa/66.1.122
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52783|A||Oborn,E.T.|Tolerance of Crops to Herbicides Used for Control of Aquatic Weeds|In: West.Weed Control Conf.Research Prog.Rep.14:115-116|1954|
52786|T||Odendaal|Short-Term Toxcological Effects of Cadmium on the Woodlouse, Porcellio laevis (Crustacea, Isopoda)|Ecotoxicol. Environ. Saf.43(1): 30-34|1999|10.1006/eesa.1998.1750
52787|T||Odendaal,J.P., and A.J. Reinecke|The Sublethal Effects and Accumulation of Cadmium in the Terrestrial Isopod Porcellio laevis Latr. (Crustacea, Isopoda)|Arch. Environ. Contam. Toxicol.36(1): 64-69|1999|10.1007/s002449900443
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52795|T||Ogata,G., and E.V. Maas|Interactive Effects of Salinity and Ozone on Growth and Yield of Garden Beet|J. Environ. Qual.2(4): 518-520|1973|10.2134/jeq1973.00472425000200040027x
52797|T||Ogilvie,D.M.|Effect of Lead Acetate on Memory in Mice|Bull. Environ. Contam. Toxicol.19(2): 143-146|1979|
52798|T||Ogilvie,S.C., L.H. Booth, and C.T. Eason|Uptake and Persistence of Sodium Monofluoroacetate (1080) in Plants|Bull. Environ. Contam. Toxicol.60(5): 745-749|1998|10.1007/PL00022657
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52802|T||Ohkawa,H., N. Mikami, Y. Okuno, and J. Miyamoto|Stereospecificity in Toxicity of the Optical Isomers of EPN|Bull. Environ. Contam. Toxicol.18(5): 534-540|1977|10.1007/BF01683998
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52805|T||Ohno,Tsutomu|Rhizosphere pH and aluminum chemistry of red oak and honey locust seedlings|Soil Biol. Biochem.21(5): 657-660|1989|10.1016/0038-0717(89)90060-6
52806|T||Ohshita,T.|Suppression of Autophagy by Ethionine Administration in Male Rat Liver In Vivo|Toxicology147:51-57|2000|10.1016/S0300-483X(00)00180-3
52807|AT||Ohtsubo,T., H. Takeda, S. Tsuda, M. Kagoshima, and K. Tsuji|Formulation Factors of Fenvalerate Microcapsules Influencing Insecticidal Efficacy and Fish Toxicity|J. Pestic. Sci. (Multiple Languages)14(2): 235-239|1989|10.1584/jpestics.14.235
52809|T||Oka,I.N., and D. Pimentel|Herbicide (2,4-D) Increases Insect and Pathogen Pests on Corn|Science193:239-240|1976|10.1126/science.193.4249.239
52810|T||Okamoto,K., M. Suzuki, M. Fukami, S. Toda, and K. Fuwa|Uptake of Heavy Metals by a Copper-Tolerant Fungus, Penicillium ochro-chloron|Agric. Biol. Chem.41(1): 17-22|1977|
52811|A||Okay,O.S., P. Donkin, L.D. Peters, and D.R. Livingstone|The Role of Algae (Isochrysis galbana) Enrichment on the Bioaccumulation of Benzo(a)pyrene and Its Effects on the Blue Mussel Mytilus edulis|Environ. Pollut.110:103-113|2000|10.1016/S0269-7491(99)00282-1
52815|T||Olatunde Farombi,E., B.I. Olowu, and G.O. Emerole|Effect of Three Structurally Related Antimalarial Drugs on Liver Microsomal Components and Lipid Peroxidation in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:217-224|2000|
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52821|T||Oleksyn,J., and S. Bialobok|Net Photosynthesis, Dark Respiration and Susceptibility to Air Pollution of 20 European Provenances of Scots Pine Pinus sylvestris L.|Environ. Pollut. A.40:287-302|1986|10.1016/0143-1471(86)90063-2
52822|A||Oliveira-Filho,E.C., and F.J.R. Paumgartten|Toxicity of Euphorbia milii Latex and Niclosamide to Snails and Nontarget Aquatic Species|Ecotoxicol. Environ. Saf.46(3): 342-350|2000|10.1006/eesa.2000.1924
52824|T||Oliver,D.P., J.W. Gartrell, K.G. Tiller, R. Correll, G.D. Cozens, and B.L. Youngberg|Differential Responses of Australian Wheat Cultivars to Cadmium Concentration in Wheat Grain|Aust. J. Agric. Res.46(5): 873-876|1995|10.1071/AR9950873
52826|T||Oliver,D.P., N.S. Wihelm, J.D. McFarlane, K.G. Tiller, and G.D. Cozens|Effect of Soil and Foliar Applications of Zinc on Cadmium Concentration in Wheat Grain|Aust. J. Exp. Agric.37(6): 677-681|1997|10.1071/EA97017
52827|T||Oliver,D.P., R.S. Kookana, S.L. Rogers, R.G. Sinclair, G. Roberts, and C. Cook|Strychnine Uptake by Cereals and Legumes Grown in the Glasshouse and Field|J. Environ. Qual.29(4): 1329-1336|2000|10.2134/jeq2000.00472425002900040041x
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52833|T||Olsen,C.|Iron Absorption and Chlorosis in Green Plants|C. R. Trav. Lab. Carlsberg21:15-52|1935|
52834|T||Olsen,C.|Iron Absorption in Different Plant Species as a Function of the pH Value of the Solution|C. R. Trav. Lab. Carlsberg31(4): 41-59|1958|
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52838|T||Olson,O.E., and A.L. Moxon|The Availability to Crop Plants of Different Forms of Selenium in the Soil|Soil Sci.47:305-311|1939|10.1097/00010694-193904000-00005
52840|T||Olson,R.V.|Effects of Acidification, Iron Oxide, Addition and Other Treatment on Sorghum Chlorosis and Iron Absoprtion|Proc. Soil Sci. Soc. Am.15:97-101|1951|10.2136/sssaj1951.036159950015000C0020x
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52843|T||Omar,S.A., A.M. Moharram, and M.H. Abd-Alla|Effects of an Organophosphorus Insecticide on the Growth and Cellulolytic Activity of Fungi|Int. Biodeterior. Biodegrad.31:305-310|1993|10.1016/0964-8305(93)90025-W
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52845|A||Omoregie,E., P.C. Ofojekwu, J.C. Anosike, and A.O. Adeleye|Acute Toxicity of Malachite Green to the Nile Tilapia, Oreochromis niloticus (L.)|J. Aquacult. Trop.13(4): 233-237|1998|
52847|T||Onofeghara,F.A.|The Effects of Growth Substances on the Flowering and Fruiting of Lycopersicum esculentum and Vigna unguiculata|Phyton (Buenos Aires)40(1): 107-116|1981|
52848|T||Onsager,J.A.|Efficacy of Carbaryl Applied to Different Life Stages of Rangeland Grasshoppers|J. Econ. Entomol.71(2): 269-273|1978|10.1093/jee/71.2.269
52852|T||Orchard,B.J., W.J. Doucette, J.K. Chard, and B. Bugbee|Uptake of Trichloroethylene by Hybrid Poplar Trees Grown Hydroponically in Flow-Through Plant Growth Chambers|Environ. Toxicol. Chem.19(4): 895-903|2000|
52854|T||Ordin,L., and B.P. Skoe|Inhibition of Metabolism in Avena coleoptile Tissue by Fluoride|Plant Physiol.38:416-421|1963|10.1104/pp.38.4.416
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52859|T||Ort,D.R., W.H. Ahrens, B. Martin, and E.W. Stoller|Comparison of Photosynthetic Performance in Triazine-Resistant and Susceptible Biotypes of Amaranthus hybridus|Plant Physiol.72:925-930|1983|10.1104/pp.72.4.925
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52868|T||Osborne,L.D., A.D. Robson, and D.G. Bowran|The Impact of Chlorsulfuron and Diclofop-methyl on Nutrient Uptake by Wheat|Aust. J. Agric. Res.44:1757-1766|1993|10.1071/AR9931757
52870|T||Osborne,L.S.|Dip Treatment of Tropical Ornamental Foliage Cuttings in Fluvalinate to Prevent Spread of Insect and Mite Infestations|J. Econ. Entomol.79(2): 465-470|1986|10.1093/jee/79.2.465
52874|T||Oskarsson,A., M.C. Reid, and F.W.Jr. Sunderman|Effects of Cobalt Chloride, Nickel Chloride, and Nickel Subsulfide upon Erythropoiesis in Rats|Ann. Clin. Lab. Sci.11(2): 165-172|1981|
52875|T||Oskarsson,A., L. Olson, M.R. Palmer, B. Lind, H. Bjorklund, and B. Hoffer|Increased Lead Concentration in Brain and Potentiation of Lead-Induced Neuronal Depression in Rats After Combined Treatment with Lead and Disulfiram|Environ. Res.41(2): 623-632|1986|10.1016/S0013-9351(86)80156-6
52876|T||Oskarsson,A., and M.L. Heikensten|Adverse Health Effects Due to Soil and Water Acidification:  A Swedish Research Program|Colloq.Inst.Natl.Rech.Agron., Contaminated Soils85:345-353|1997|
52878|A||Ososkov,I., and J.S. Weis|Development of Social Behavior in Larval Mummichogs After Embryonic Exposure to Methylmercury|Trans. Am. Fish. Soc.125(6): 983-987|1996|10.1577/1548-8659(1996)125<0983:DOSBIL>2.3.CO;2
52882|T||Osuji,G.O., V.A. Haby, A. Beyene, W.C. Madu, and A.S. Mangaroo|The Isomerization of Glutamate Dehydrogenase in Response to Lead Toxicity in Maize|Biol. Plant. (Praha)40(3): 389-398|1998|10.1023/A:1001018014681
52885|A||Ota,M., T. Saito, G. Yoshizaki, and A. Otsuki|Vitellogenin-Like Gene Expression in Liver of Male Zebrafish (Danio rerio) by 1 uM 3-Methylcholanthrene Treatment: The Possibility of a Rapid and Sensitive In Vivo Bioassay|Water Res.34(8): 2400-2403|2000|10.1016/S0043-1354(00)00117-2
52892|T||Ottesen,P.|The Mortality of Oedaleus senegalensis (Orthoptera) and Other Invertebrates in Mali Using Reduced Dosages of Fenitrothion|Report to Royal Norwegian Ministry of Development Cooperation, University of Oslo, Norway:22 p.|1987|
52893|T||Ottesen,P., S. Fossland, B. Johannessen, and J.H. Simonsen|Reduced Rates of Fenitrothion: The Effect on Oedaleus senegalensis (Orthoptera) and Non-Target Arthropods in Mali, West Africa|Report to the Royal Norweigian Ministry of Development Cooperation, Oslo:|1989|
52894|T||Ottesen,P.S., L. Semme, K. Fiskvatn, B. Johannessen, and P. Krokene|The Impact of Three Pesticides, Fenitrothion, Lambdacyhalothrine and Teflubenzuron, on Grasshoppers and Non-Target Organisms in Mali, West Africa|Report to the Royal Norwegian Ministry for Development Cooperation, University of Oslo, Norway:34 p.|1990|
52897|T||Ou,X., and K.S. Ramos|Proliferative Responses of Quail Aortic Smooth Muscle Cells to Benzo(a)pyrene:  Implications in PAH-Induced Atherogenesis|Toxicology74(2-3): 243-258|1992|10.1016/0300-483X(92)90143-3
52898|T||Ouellette,G.J., and L. Dessureaux|Chemical Compositiin of Alfalfa as Related to Degree of Tolerance to Manganese and Aluminium|Can. J. Plant Sci.38:206-214|1958|10.4141/cjps58-034
52901|T||Ouzounidou,G.|Effect of Copper on Germination and Seedling Growth of Minuartia, Silene, Alyssum and Thlaspi|Biol. Plant. (Praha)37(3): 411-416|1995|10.1007/BF02913990
52902|T||Ouzounidou,G., M. Moustakas, and E.P. Eleftheriou|Physiological and Ultrastructural Effects of Cadmium on Wheat (Triticum aestivum) Leaves|Arch. Environ. Contam. Toxicol.32(2): 154-160|1997|10.1007/s002449900168
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52905|A||Overstreet,R.M.|Buquinolate as a Preventive Drug to Control Microsporidosis in the Blue Crab|J. Invertebr. Pathol.26(2): 213-216|1975|10.1016/0022-2011(75)90051-8
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52910|T||Ozmen,M., S.E. Dominguez, and A. Fairbrother|Effects of Dietary Azinphos Methyl on Selected Plasma and Tissue Biomarkers of the Gray-Tailed Vole|Bull. Environ. Contam. Toxicol.60:194-201|1998|10.1007/s001289900610
52913|A||Pacheco,M., and M.A. Santos|Biochemical and Genotoxic Responses of Adult Eel (Anguilla anguilla L.) to Resin Acids and Pulp Mill Effluent: Laboratory and Field Experiments|Ecotoxicol. Environ. Saf.42(1): 81-93|1998|10.1006/eesa.1998.1733
52914|T||Pack,M.R.|Effects of Hydrogen Fluoride on Production and Organic Reserves of Bean Seed|Environ. Sci. Technol.5(11): 1128-1132|1971|10.1021/es60058a010
52915|T||Pack,M.R.|Effects of Hydrogen Fluoride on Bean Reproduction|J. Air Pollut. Control Assoc.21(3): 133-137|1971|10.1080/00022470.1971.10469509
52916|T||Pack,M.R.|Response of Strawberry Fruiting to Hydrogen Fluoride Fumigation|J. Air Pollut. Control Assoc.22(9): 714-717|1972|10.1080/00022470.1972.10469705
52917|T||Pack,M.R., and C.W. Sulzbach|Response of Plant Fruiting to Hydrogen Fluoride Fumigation|Atmos. Environ.10:73-81|1976|10.1016/0004-6981(76)90263-8
52918|A||Packer,R.K., and W.A. Dunson|Effects of Low Environmental pH on Blood pH and Sodium Balance of Brook Trout|J. Exp. Zool.174:65-72|1970|10.1002/jez.1401740107
52919|A||Padmavathi,P., and M.K.D. Prasad|An Effective and Economically Feasible Treatment of Organophosphate Pesticide and Common Salt to Eradicate the Fish Ectoparasite, Argulus japonicus Thiele in Carp Culture Ponds|J. Environ. Biol.19(3): 193-203|1998|
52920|A||Padros,J., E. Pelletier, S. Reader, and F. Denizeau|Mutual In Vivo Interactions Between Benzo(a)pyrene and Tribuytyltin in Brook Trout (Salvelinus fontinalis)|Environ. Toxicol. Chem.19(4): 1019-1027|2000|10.1002/etc.5620190431
52923|T||Page,A.L., F.T. Bingham, and C. Nelson|Cadmium Absorption and Growth of Various Plant Species as Influenced by Solution Cadmium Concentration|J. Environ. Qual.1(3): 288-291|1972|10.2134/jeq1972.00472425000100030017x
52925|T||Page,E.R.|Aqueous Ammonia as a Nitrogen Fertilizer for Summer Cauliflowers, Compared with Ammonium Nitrate (Broadcast) and Urea (Broadcast and Injected)|J. Agric. Sci.92:251-254|1979|10.1017/S0021859600060718
52931|T||Paivoke,A.|The Short-Term Effects of Zinc on the Growth, Anatomy and Acid Phosphatase of Pea Seedlings|Ann. Bot. Fenn.20(2): 197-203|1983|
52932|T||Paivoke,A.|Long-Term Effects of Zinc on the Growth and Development, Chlorophyll Content and Nitrogen Fixation of the Garden Pea|Ann. Bot. Fenn.20(2): 205-213|1983|
52934|T||Pal,A.K., and A. Mujib|A Scheme for the Propagation of Philodendron erubescens Ceylon Gold by Tissue Culture|Environ. Ecol.11(4): 920-922|1993|
52938|T||Pal,R., and S. Nandi|Cytological Abnormalities Induced by Mercury Water Pollutants on Allium cepa L|Bull. Environ. Contam. Toxicol.45(5): 767-774|1990|10.1007/BF01700999
52940|T||Palazzo,A.J., and D.C. Leggett|Effect and Disposition of TNT in a Terrestrial Plant and Validation of Analytical Methods|Contract Rep., U.S.Army Engineer Cold Regions Research and Engineering Laboratory, Hanover, N.H.:17 p.|1985|
52942|A||Palikova,M., F. Kovaru, S. Navratil, L. Kubala, S. Pesak, and V. Vajcova|The Effects of Pure Microcystin LR and Biomass of Blue-Green Algae on Selected Immunological Indices of Carp (Cyprinus carpio L.) and Silver Carp (Hypophthalmichthys molitrix Val.)|Acta Vet. Brno67(4): 265-272|1998|10.2754/avb199867040265
52945|T||Paliwal,K., and M. Sivaguru|Indirect Effect of Aluminum on the Reflectance Properties of Rice Cultivars Differing in Aluminum Tolerance|J. Plant Nutr.17(6): 883-897|1994|10.1080/01904169409364775
52946|T||Pallas,J.E.J., and J.B.,Jr. Jones|Platinum Uptake by Horticultural Crops|Plant Soil50:207-212|1978|10.1007/BF02107169
52947|T||Pallett,K.E., and A.D. Dodge|Experiments into the Mechanism of Action of the Photosynthetic Inhibitor Herbicide, Monuron|Br. Crop Prot. Conf. Weeds:235-240|1977|
52948|T||Pallos,F.M., P.E. Letchworth, and J.J. Menn|Novel Nonterpenoid Insect Growth Regulators|J. Agric. Food Chem.24(2): 218-221|1976|10.1021/jf60204a020
52950|A||Palmer,B.D., L.K. Huth, D.L. Pieto, and K.W. Selcer|Vitellogenin as a Biomarker for Xenobiotic Estrogens in an Amphibian Model System|Environ. Toxicol. Chem.17(1): 30-36|1998|10.1002/etc.5620170105
52955|A||Pan,G., and H.M. Dutta|The Inhibition of Brain Acetylcholinesterase Activity of Juvenile Largemouth Bass Micropterus salmoides by Sublethal Concentrations of Diazinon|Environ. Res.79(2): 133-137|1998|10.1006/enrs.1998.3868
52957|T||Pan,W.L., A.G. Hopkins, and W.A. Jackson|Aluminum Inhibition of Shoot Lateral Branches of Glycine max and Reversal by Exogenous Cytokinin|Plant Soil120:1-9|1989|10.1007/BF02370285
52961|T||Panda,R., S.S. Pati, and S.K. Sahu|Accumulation of Zinc and Its Effects on the Growth, Reproduction and Life Cycle of Drawida willsi (Oligochaeta), a Dominant Earthworm in Indian Crop Fields|Biol. Fertil. Soils29(4): 419-423|1999|10.1007/s003740050574
52962|T||Panda,S., and S.K. Sahu|Effects of Malathion on the Growth and Reproduction of Drawida willsi (Oligochaeta) Under Laboratory Conditions|Soil Biol. Biochem.31:363-366|1999|10.1016/S0038-0717(98)00135-7
52963|T||Pande,H.K.|Effect of Sodium Dichloro-Phenoxyacetae on Crop and Weeds in the Wheat Fields|Agra Univ. J. Res. Sci.3:241-252|1954|
52964|T||Pandey,D.D., and A.P. Sinha|Response of Productivity of Eleusine coracana to Spraying of Herbicides and Manual Weeding|Environ. Ecol.12(3): 619-621|1994|
52965|T||Pandey,D.K., H.S. Gupta, and P.S. Pandey|Assessment of Divergence in Rice Grown in Iron Toxic Soil of Meghalaya|Indian J. Agric. Sci.69(1): 69-70|1999|
52966|T||Pandey,G.C., and A.K. Sharma|Dichlorvos Induced Alterations in the Contents of Glycogen, Reducing Sugars and Lactic Acid in the Ear-Cutting Caterpillar, Mythimna separata Walker (Lepidoptera: Pyralidae)|Toxicol. Environ. Chem.47(3/4): 185-190|1995|10.1080/02772249509358138
52967|T||Pandey,R., and S.P. Srivastava|Spermatotoxic Effects of Nickel in Mice|Bull. Environ. Contam. Toxicol.64(2): 161-167|2000|10.1007/s001289910025
52969|T||Panicucci,A., C. Nali, and G. Lorenzini|Differential Photosynthetic Response of Two Mediterranean Species (Arbutus unedo and Viburnum tinus) to Sulphur Dioxide|Chemosphere36(4/5): 703-708|1998|10.1016/S0045-6535(97)10111-4
52971|T||Pankakoski,E., I. Koivisto, H. Hyvarinen, J. Terhivuo, and K.M. Tahka|Experimental Accumulation of Lead from Soil Through Earthworms to Common Shrews|Chemosphere29(8): 1639-1649|1994|10.1016/0045-6535(94)90311-5
52972|A||Pant,A.|Methyl Mercury Uptake by Permeaplasts of a Cyanobacterium|Environ. Ecol.17(4): 858-861|1999|
52980|A||Papoulias,D.M., D.B. Noltie, and D.E. Tillitt|An In Vivo Model Fish System to Test Chemical Effects on Sexual Differentiation and Development: Exposure to Ethinyl Estradiol|Aquat. Toxicol.48(1): 37-50|1999|10.1016/S0166-445X(99)00026-0
52981|A||Pardos,M., C. Benninghoff, and R.L. Thomas|Photosynthetic and Population Growth Response of the Test Alga Selenastrum capricornutum Printz to Zinc, Cadmium and Suspended Sediment Elutriates|J. Appl. Phycol.10(2): 145-151|1998|10.1023/A:1008043931094
52982|T||Pareek,B.L., and K.S. Kushwaha|Insecticidal Trial Against the Cutworm, Agrotis spinifera Hubner|Indian J. Entomol.38(2): 198-199|1976|
52983|T||Pareek,R.P., and A.C. Gaur|Effect of Dichloro Diphenyl-Trichloro-Ethane (DDT) on Nodulation, Growth, Yield and Nitrogen Uptake of Pisum sativum Inoculated with Rhizobium leguminosarum|Indian J. Microbiol.9(4): 93-100|1969|
52986|T||Parihar,N.S., and A. Gupta|Fenvalerate Residues in Green Pods, Pod Cover, and Grain of Pigeonpea (Cajanus cajan L.)|Bull. Environ. Contam. Toxicol.60:159-163|1998|10.1007/s001289900604
52987|A||Paris-Palacios,S., S. Biagianti-Risbourg, A. Fouley, and G. Vernet|Metallothioneins in Liver of Rutilus rutilus Exposed to Cu2+.  Analysis by Metal Summation, SH Determination and Spectrofluorimetry|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:113-122|2000|
52989|T||Parker,A.|Evaluation of Chemical Dip Treatment for the Control of Powdery Scab of Potatoes|Ann. Appl. Biol.104:62-63|1984|
52990|A||Parker,C.|A Rapid Bio-Assay Method for the Detection of Herbicides Which Inhibit Photosynthesis|Weed Res. (Multiple Languages)5:181-184|1965|10.1111/j.1365-3180.1965.tb00341.x
52991|T||Parker,C.G., and D. Giles|The Activity of the Dithiocarbamate Complex in Cufram Z Against Powdery Mildews and Other Fungi|Proc.4th British Insecticide and Fungicide Conference, Volume 1, Held Nov.20-23, 1967, Brighton, England:427-436|1967|
52992|T||Parker,D.R., L.W. Zelazny, and T.B. Kinraide|Chemical Speciation and Plant Toxicity of Aqueous Aluminum|In: Environmental Chemistry and Toxicology of Aluminum, T.E.Lewis (Ed.), Proc 194th Meeting of ACS, Aug.30-Sept 4, 1987, New Orleans, LA:117-145|1987|
52993|T||Parker,D.R., A.L. Page, and D.N. Thomason|Salinity and Boron Tolerances of Candidate Plants for the Removal of Selenium from Soils|J. Environ. Qual.20(1): 157-164|1991|10.2134/jeq1991.00472425002000010025x
52994|T||Parker,D.R.|Novel Nutrient Solutions for Zinc Nutrition Research: Buffering Free Zinc2+ with Synthetic Chelators and P with Hydroxyapatite|Plant Soil54:677-680|1993|
52995|T||Parker,D.R.|Root growth analysis: an underutilised approach to understanding aluminium rhizotoxicity|Plant Soil171(1): 151-157|1995|10.1007/BF00009579
52996|T||Parker,D.R., K.R. Rice, and D.N. Thomason|Effects of Ion Pairing with Calcium and Magnesium on Selenate Availability to Higher Plants|Environ. Toxicol. Chem.16(3): 565-571|1997|10.1002/etc.5620160324
52997|T||Parker,D.R., J.F. Pedler, D.N. Thomason, and H. Li|Alleviation of Copper Rhizotoxicity by Calcium and Magnesium at Defined Free Metal-Ion Activities|Soil Sci. Soc. Am. J.62(4): 965-972|1998|10.2136/sssaj1998.03615995006200040017x
52998|T||Parker,M.B., and M.E. Walker|Soil pH and Manganese Effects on Manganese Nutrition of Peanut|Agron. J.78:614-620|1986|10.2134/agronj1986.00021962007800040011x
52999|T||Parker,M.B., T.P. Gaines, M.E. Walker, C.O. Plank, and J.G. Davis-Carter|Soil Zinc and pH Effects on Leaf Zinc and the Interaction of Leaf Calcium and Zinc on Zinc Toxicity of Peanuts|Commun. Soil Sci. Plant Anal.21(19-20): 2319-2332|1990|10.1080/00103629009368383
53000|T||Parker,M.L., and M.I. Goldstein|Differential Toxicities of Organophosphate and Carbamate Insecticides in the Nestling European Starling (Sturnus vulgaris)|Arch. Environ. Contam. Toxicol.39(2): 233-242|2000|10.1007/s002440010100
53003|T||Parmar,B.S.|Improved DDT Emulsifiable Concentrates|Int. J. Trop. Agric.3(3): 139-145|1985|
53006|A||Parrott,J.L.|Toxic Equivalent Factors for Dioxins and Furans in Fish: Where do we Compare Potencies?|Comments Toxicol.6(2): 105-116|1997|
53007|A||Parthasarathi,K., and L.S. Ranganathan|Effect of Mercuric Chloride on Gut Enzyme Activities of Laccotrephes ruber (Linn.)|Environ. Ecol.17(3): 563-567|1999|
53009|T||Pascual,J.A., and A.D.M. Hart|Exposure of Captive Feral Pigeons to Fonofos-Treated Seed in a Semifield Experiment|Environ. Toxicol. Chem.16(12): 2543-2549|1997|
53010|T||Pascual,J.A., A.D.M. Hart, and S.L. Fryday|Incidence of Lethal Bird Poisoning Reduced by Regurgitation of Pesticide-Treated Food|Environ. Toxicol. Chem.18(2): 247-253|1999|
53012|T||Pasual,J.A., S.L. Fryday, and A.D.M. Hart|Effects of Food Restriction on Food Avoidance and Risk of Acute Poisoning of Captive Feral Pigeneons from Fonofos-Treated Seeds|Arch. Environ. Contam. Toxicol.37(1): 115-124|1999|10.1007/s002449900496
53013|T||Patel,P.M., A. Wallace, and R.T. Mueller|Some Effects of Copper, Cobalt, Cadmium, Zinc, Nickel, and Chromium on Growth and Mineral Element Concentration in Chrysanthemum|J. Am. Soc. Hortic. Sci.101(5): 553-556|1976|10.21273/JASHS.101.5.553
53014|T||Patel,R.K.|Relative Efficacy of DDT and BHC Dust Formulations Against Pod-Borer|Indian J. Entomol.52(2): 195-196|1990|
53015|T||Patel,V.C., and H.K. Patel|Chemical Control of Polytela gloriosae on Ornamental Lilies|Indian J. Entomol.29(4): 397-|1967|
53016|T||Pathirana,R., P.A.N. Chandrasiri, and S.G. Sirisena|Response of Rice Cultivars to Increased Iron and Aluminum Concentrations|Dev. Plant Soil Sci.64:413-417|1995|
53018|T||Patil,B.D., and R.N. Pokharkar|Residual Toxicity of Some of the Commonly Used Insecticides to the First Instar Larvae of Spotted Bollworm (Earias vitella Stoll)|J. Maharashtra Agric. Univ.2(3): 252-256|1977|
53019|T||Patil,H.S., and K.M. Shivaraj|Sub-lethal Effects of Copper on the Blood Cells of Rana cyanophlyctis|Geobios (Jodhpur)11(3): 108-111|1984|
53021|T||Patnode,K.A., and L.R. Curtis|2,2',4,4',5,5'- and 3,3',4,4',5,5'-Hexachlorobiphenyl Alteration of Uterine Progesterone and Estrogen Receptors Coincides with Embryotoxicity in Mink (Mustela vison)|Toxicol. Appl. Pharmacol.127(1): 9-18|1994|10.1006/taap.1994.1133
53022|T||Patra,J., A.V. Subhadra, and B.B. Panda|Cycloheximide and Buthionine Sulfoximine Prevent Induction of Genotoxic Adaptation by Cadmium Salt Against Methyl Mercuric Chloride in Embryonic Shoot Cells of Hordeum vulgare L.|Mutat. Res.348:13-18|1995|
53023|T||Patra,J., and B.B. Panda|A Comparison of Biochemical Responses to Oxidative and Metal Stress in Seedlings of Barley, Hordeum vulgare L.|Environ. Pollut.101:99-105|1998|10.1016/S0269-7491(98)00009-8
53027|A||Patterson,P.W., K.L. Dickson, W.T. Waller, and J.H.,Jr. Rodgers|The Effects of Nine Diet and Water Combinations on the Culture Health of Ceriodaphnia dubia|Environ. Toxicol. Chem.11(7): 1023-1035|1992|10.1002/etc.5620110715
53032|A||Paulsson,M., B. Nystrom, and H. Blanck|Long-Term Toxicity of Zinc to Bacteria and Algae in Periphyton Communities from the River Gota Alv, Based on a Microcosm Study|Aquat. Toxicol.47(3/4): 243-257|2000|10.1016/S0166-445X(99)00013-2
53037|A||Pavlostathis,S.G., and G.H. Jackson|Biotransformation of 2,4,6-Trinitrotoluene in Anabaena sp. Cultures|Environ. Toxicol. Chem.18(3): 412-419|1999|
53039|T||Pavlova,A., P. Buchvarov, and P. Trifonov|Comparative Study of Ferrous Chelate Physiological Activity in Young Bean Plants|Dokl. Bolg. Akad. Nauk44(7): 89-91|1991|
53042|T||Payne,G.G., D.C. Martens, C. Winarko, and N.F. Perera|Form and Availability of Copper and Zinc Following Long-Term Copper Sulfate and Zinc Sulfate Applications|J. Environ. Qual.17(4): 707-711|1988|10.2134/jeq1988.00472425001700040031x
53047|T||Peakall,D.B.|Effect of Polychlorinated Biphenyls (PCB's) on the Eggshells of Ring Doves|Bull. Environ. Contam. Toxicol.6(2): 100-101|1971|10.1007/BF01540089
53050|T||Pearson,C.H., and M.B. Kirkham|Water Relations of Wheat Cultivars Grown with Cadmium|J. Plant Nutr.3(1-4): 309-318|1981|10.1080/01904168109362839
53051|T||Pearson,J.E., K. Tinsley, and T. Hernandez|Distribution of Dieldrin in the Turtle|Bull. Environ. Contam. Toxicol.10(6): 360-364|1973|10.1007/BF01721003
53054|T||Peden-Adams,M., K. Alonso, C. Godard, S. Skipper, W. Mashburn, J. Hoover, C. Charbonneau, D. Henshel, and R. Dickerson|Effects of Environmentally Relevant Concentrations of 2,3,7,8-TCDD on Domestic Chicken Immune Function and CYP450 Activity: F1 Generation and Egg Injection Studies|Chemosphere37(9-12): 1923-1939|1998|10.1016/S0045-6535(98)00259-8
53057|A||Pedrajas,J.R., J. Lopez-Barea, and J. Peinado|Dieldrin Induces Peroxisomal Enzymes in Fish (Sparus aurata) Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.115(2): 125-131|1996|
53058|T||Pegtel,D.M.|Effect of Ionic Al in Culture Solutions on the Growth of Arnica montana L. and Deschampsia flexuosa (L.) Trin|Plant Soil102:85-92|1987|10.1007/BF02370905
53060|T||Peisach,J., and W.E. Blumberg|Electron Paramagnetic Resonance Study of the High- and Low-Spin forms of Cytochrome P-450 in Liver and in Liver Microsomes from a Methylcholanthrene-Treated Rabbit|Proc. Natl. Acad. Sci. U.S.A.67(1): 172-179|1970|10.1073/pnas.67.1.172
53061|T||Pekar,S.|Effect of Liquid Fertilizer (UAN) Combined with Deltamethrin on Beneficial Arthropods in Spring Barley|Ochr. Rostl. (Multiple Languages)33(4): 257-264|1997|
53064|A||Pena,S., J.B. Pena, C. Rios, E. Sancho, C. Fernandez, and M.D. Ferrando|Role of Glutathione in Thiobencarb Resistance in the European Eel Anguilla anguilla|Ecotoxicol. Environ. Saf.46(1): 51-56|2000|10.1006/eesa.1999.1882
53065|T||Peng,C.Y.S., E. Mussen, A. Fong, P. Cheng, G. Wong, and M.A. Montague|Laboratory and Field Studies on the Effects of the Antibiotic Tylosin on Honey Bee Apis mellifera L. (Hymenoptera: Apidae) Development and Prevention of American Foulbrood Disease|J. Invertebr. Pathol.67(1): 65-71|1996|10.1006/jipa.1996.0010
53068|T||Penn,A., and C. Snyder|Arteriosclerotic Plaque Development is 'Promoted' by Polynuclear Aromatic Hydrocarbons|Carcinogenesis9(12): 2185-2189|1988|10.1093/carcin/9.12.2185
53069|T||Penn,A.L., G.G. Batastini, and R.E. Albert|Age-Dependent Changes in Prevalence Size and Proliferation of Arterial Lesions in Cockerels II. Carcinogen-Associated Lesions|Artery9(5): 382-393|1981|
53070|T||Pennington,J.C.|Plant Uptake of 2,4,6-Trinitrotoluene, 4-Amino-2,6-Dinitrotoluene, and 2-Amino-4,6-Dinitrotoluene Using 14C-Labeled and Unlabeled Compounds|Tech.Rep.EL-88-20, U.S.Army Engineer Waterways Experiment Station, Vicksburg, MO:66 p.|1988|
53077|A||Penttinen,O.P., and J. Kukkonen|Chemical Stress and Metabolic Rate in Aquatic Invertebrates:  Threshold, Dose-Response Relationships, and Mode of Toxic Action|Environ. Toxicol. Chem.17(5): 883-890|1998|10.1002/etc.5620170516
53078|T||Pepelko,W.E., J.K. Mattox, and A.L. Cohen|Toxicology of Ammonium Sulfate in the Lung|Bull. Environ. Contam. Toxicol.24:156-160|1980|10.1007/BF01608091
53080|T||Peralta-Zamora,P., A. Kunz, S. Gomes de Moraes, R. Pelegrini, P. Campos Moleiro, J. Reyes, and N. Duran|Degradation of Reactive Dyes I. A Comparative Study of Ozonation, Enzymatic and Photochemical Processes|Chemosphere38(4): 835-852|1999|10.1016/S0045-6535(98)00227-6
53082|T||Peredney,C.L., and P.L. Williams|Utility of Caenorhabditis elegans for Assessing Heavy Metal Contamination in Artificial Soil|Arch. Environ. Contam. Toxicol.39(1): 113-118|2000|10.1007/s002440010086
53085|T||Perez-Coll,C.S., J. Herkovits, O. Fridman, P. Daniel, and J.L. D'Eramo|Metallothioneins and Cadmium Uptake by the Liver in Bufo arenarum|Environ. Pollut.97(3): 311-315|1997|10.1016/S0269-7491(97)00071-7
53087|T||Perfect,J.|The Environmental Impact of DDT in a Tropical Agro-ecosystem|Ambio9(1): 16-21|1980|
53088|T||Perfect,T.J., A.G. Cook, B.R. Critchley, and A. Russell-Smith|The Effect of Crop Protection with DDT on the Microarthropod Population of a Cultivated Forest Soil in the Sub-humid Tropics|Pedobiologia (Multiple Languages)21(1): 7-18|1981|10.1016/S0031-4056(23)03560-6
53090|A||Perkins,P.J., H.J. Boermans, and G.R. Stephenson|Toxicity of Glyphosate and Triclopyr Using the Frog Embryo Teratogenesis Assay - Xenopus|Environ. Toxicol. Chem.19(4): 940-945|2000|10.1002/etc.5620190422
53092|T||Perry,D.A., and T.W. Hegarty|Effect of Captan Seed Dressing on Carrot Emergence|Plant Pathol.20:29-32|1971|10.1111/j.1365-3059.1971.tb00504.x
53093|T||Perry,H.M.J.,Jr., M.W. Erlanger, and E.F. Perry|Increase in the Blood Pressure of Rats Chronically Fed Low Levels of Lead|Environ. Health Perspect.78:107-111|1988|10.1289/ehp.8878107
53094|T||Persans,M.W., and M.A. Schuler|Differential Induction of Cytochrome P450-Mediated Triasulfuron Metabolism by Naphthalic Anhydride and Triasulfuron|Plant Physiol.109:1483-1490|1995|10.1104/pp.109.4.1483
53095|A||Perschbacher,P.W., N. Stone, G.M. Ludwig, and C.B.,Jr. Guy|Evaluation of Effects of Common Aerially-Applied Soybean Herbicides and Propanil on the Plankton Communities of Aquaculture Ponds|Aquaculture157(1-2): 117-122|1997|10.1016/S0044-8486(97)00147-6
53103|T||Persson,H., Y. Von Fircks, H. Majdi, and L.O. Nilsson|Root Distribution in a Norway Spruce (Picea abies (L.) Karst.) Stand Subjected to Drought and Ammonium-Sulphate Application|Plant Soil168/169:161-165|1995|10.1007/BF00029324
53106|T||Peryea,F.J.|Phosphate-Fertilizer-Induced Salt Toxicity of Newly Planted Apple Trees|Soil Sci. Soc. Am. J.54(6): 1778-1783|1990|10.2136/sssaj1990.03615995005400060046x
53108|A||Pesonen,M., P. Teivainen, J. Lundstrom, E. Jakobsson, and L. Norrgren|Biochemical Responses of Fish Sac Fry and a Primary Cell Culture of Fish Hepatocytes Exposed to Polychlorinated Naphthalenes|Arch. Environ. Contam. Toxicol.38(1): 52-58|2000|10.1007/s002449910007
53111|T||Petering,H.G., M.A. Johnson, and K.L. Stemmer|Studies of Zinc Metabolism in the Rat. I. Dose-Response Effects of Cadmium|Arch. Environ. Health23(2): 93-101|1971|10.1080/00039896.1971.10665962
53113|T||Petering,H.G., L. Murphy, and E. O'Flaherty|Influence of Dietary Copper and Zinc on Rat Lipid Metabolism|J. Agric. Food Chem.25(5): 1105-1109|1977|10.1021/jf60213a051
53121|T||Peterson,M.M., G.L. Horst, P.J. Shea, S.D. Comfort, and R.K.D. Peterson|TNT and 4-Amino-2,6-Dinitrotoluene Influence on Germination and Early Seedling Development of Tall Fescue|Environ. Pollut.93(1): 57-62|1996|10.1016/0269-7491(96)00016-4
53122|T||Peterson,M.M., G.L. Horst, P.J. Shea, and S.D. Comfort|Germination and Seedling Development of Switchgrass and Smooth Bromegrass Exposed to 2,4,6-Trinitrotoluene|Environ. Pollut.99(1): 53-59|1998|10.1016/S0269-7491(97)00175-9
53123|T||Peterson,P.J.|The Distribution of Zinc-65 in Agrostis tenuis Sibth. and A. stolonifera L. Tissues|J. Exp. Bot.20(65): 863-875|1969|10.1093/jxb/20.4.863
53124|T||Peterson,P.J., M.A.S. Burton, M. Gregson, S. Nye, and E.K. Porter|Accumulation of Tin by Mangrove Species in West Malaysia|Sci. Total Environ.11:213-221|1979|10.1016/0048-9697(79)90028-7
53127|A||Peterson,S., and K.O. Kusk|Photosynthesis Tests as an Alternative to Growth Tests for Hazard Assessment of Toxicant|Arch. Environ. Contam. Toxicol.38(2): 152-157|2000|10.1007/s002449910019
53129|T||Petroske,E., and J.E. Casida|Diafenthiuron Action: Carbodiimide Formation and ATPase Inhibition|Pestic. Biochem. Physiol.53(1): 60-74|1995|10.1006/pest.1995.1055
53131|A||Pettersson,A., M. Adamsson, and G. Dave|Toxicity and Detoxification of Swedish Detergents and Softner Products|Chemosphere41:1611-1620|2000|10.1016/S0045-6535(00)00035-7
53132|T||Pettersson,O.|Heavy Metal Uptake by Plants from Solutions|In: International Conference on Heavy Metals in the Environment, Toronto, Ontario, Canada:245-|1975|
53133|T||Pettersson,O.|Differences in Cadmium Uptake Between Plant Species and Cultivars|Swed. J. Agric. Res.7:21-24|1977|
53134|T||Pettersson,S., and H. Strid|Effects of aluminum on growth and kinetics of potassium (rubidium-86) uptake in two cultivars of wheat (Triticum aestivum) with different sensitivity to aluminum|Physiol. Plant. (Multiple Languages)76(3): 255-261|1989|10.1111/j.1399-3054.1989.tb05773.x
53135|T||Pettersson,S., and H. Strid|Aluminum Toxicity in Two Cultivars of Wheat (Triticum aestivum L.) with Different Sensitivity to Aluminum as Affected by the Level of Nutrient Supply|Swed. J. Agric. Res.19(4): 183-191|1989|
53136|T||Peuke,A.D., and R. Tischner|The Effects of SO2 Fumigation on the Nitrogen Metabolism of Aseptically Grown Spruce Seedlings|Environ. Pollut.83(3): 371-377|1994|10.1016/0269-7491(94)90159-7
53138|T||Pfaender,F.K., and M. Alexander|Extensive Microbial Degradation of DDT In Vitro and DDT Metabolism by Natural Communities|J. Agric. Food Chem.20:842-846|1972|10.1021/jf60182a045
53141|T||Pfleeger,T., C. McFarlane, R. Sherman, and G. Volk|A Short-Term Bioassay for Whole Plant Toxicity|ASTM Spec. Tech. Publ.2:355-364|1991|
53142|T||Pfleeger,T., and D. Zobel|Organic Pesticide Modification of Species Interactions in Annual Plant Communities|Ecotoxicology4:15-37|1995|10.1007/BF00350648
53143|T||Pflugmacher,S., K. Geissler, and C. Steinberg|Activity of Phase I and Phase II Detoxication Enzymees in Different Cormus Parts of Phragmites australis|Ecotoxicol. Environ. Saf.42(1): 62-66|1999|10.1006/eesa.1998.1727
53144|T||Philip,B., and P.A. Kurup|Effect of Adrenocortical Suppression on the Concentration of Lipids & Glycosaminoglycans in Tissues in Rats fed Normal Diet|Indian J. Exp. Biol.16:43-45|1978|
53147|A||Phillips,D.J.H.|Effects of Salinity on the Net Uptake of Zinc by the Common Mussel Mytilus edulis|Mar. Biol.41:79-88|1977|10.1007/BF00390584
53150|A||Phillips,D.J.H., and M.H. Depledge|Chemical Forms of Arsenic in Marine Organisms with Emphasis on Hemifusus-spp|Water Sci. Technol.18(4/5): 213-222|1986|10.2166/wst.1986.0197
53151|T||Phillips,J., and J. Batty|Effects of PCBs (Aroclor 1254) on Reproduction and Growth Rate in Mongolian Gerbils (Meriones unguiculatus)|Chemosphere30(3): 449-456|1995|10.1016/0045-6535(94)00424-S
53153|T||Phillips,P.H., J.W. Suttie, and E.J. Zebrowski|Effects of Dietary Sodium Fluoride on Dairy Cows. VII. Recovery from Fluoride Ingestion|J. Dairy Sci.46:513-516|1963|10.3168/jds.S0022-0302(63)89087-6
53154|T||Phillips,T.M., D. Liu, A.G. Seech, H. Lee, and J.T. Trevors|Bioremediation in field Box Plots of a Soil Contaminated Conditions Using Toxicity Testing as a Monitoring Technique|Water Air Soil Pollut.121(1-4): 173-187|2000|10.1023/A:1005218426532
53155|T||Phillips,W.E.J., J.H.L. Mills, S.M. Charbonneau, L. Tryphonas, and G.V. Hatina|Subacute Toxicity of Pyridoxine Hydrochloride in the Beagle Dog|Toxicol. Appl. Pharmacol.44:323-333|1978|10.1016/0041-008X(78)90194-1
53157|T||Phuong,D.D.T., E. Tatar, I. Varga, G. Zaray, E. Cseh, and F. Fodor|Accumulation and Translocation of Lead in Cucumber Plants Monitored by Graphite Furnace Atomic Absorption Spectrometry|Microchem. J.51(1/2): 145-150|1995|10.1006/mchj.1995.1018
53158|T||Piccardi,P., A. Longoni, P. Massardo, and F. Corda|Synthesis and Laboratory Evluation of new Aryl Chloroalkenyl Ether Juvenoids|J. Agric. Food Chem.25(5): 1073-1075|1977|10.1021/jf60213a017
53163|T||Picton,S.J., K.D. Richards, and R.C. Gardner|Protein Profiles in Root-Tips of Two Wheat Triticum aestivum l. Cultivars with Differential Tolerance to Aluminium|In: R.J.Wright et al.(Eds.), Plant-Soil Interactions at Low pH, Kluwer Acadmic Publ., Netherlands:1063-1070|1991|
53164|T||Pielou,D.P.|The Effect of DDT on Oviposition, and on Behavior, in the European Red Mite, Panonychus ulmi (Koch)|Can. J. Zool.38:1147-1151|1960|10.1139/z60-119
53165|A||Pierce,R.H., M.S. Henry, D. Kelly, and W. Kozlowski|Hazard Assessment of Temephos Applied to a Southwest Florida, USA, Salt Marsh Community|Environ. Toxicol. Chem.19(2): 501-507|2000|10.1002/etc.5620190232
53166|T||Piero,L.J., and J.S. Haines|Cadmium Induced Teratogenecity and Embryo Toxicity|Doe Symp Ser47:614-626|1978|
53173|T||Pilgram,K.H., L.E. Wittsell, R.D. Skiles, A.L. James, and J.W. Dawson|Herbicidal Activity and Redox Properties of 3-Aryl-6-(Perfluoroalkyl)-1,2,4,5-Tetrazines and 1,2-Dihydro Derivatives|J. Agric. Food Chem.25(4): 888-892|1977|10.1021/jf60212a021
53175|A||Pilie,R.J., R.E. Baier, R.C. Ziegler, R.P. Leonard, J.G. Michalovic, S.L. Pek, and D.H. Bock|Methods to Treat, Control and Monitor Spilled Hazardous Materials|EPA 670/2-75-042, U.S.EPA, Cincinnati, OH:138 p.|1975|
53178|T||Pilon-Smits,E.A.H., M.P. De Souza, C.M. Lytle, C. Shang, T. Lugo, and N. Terry|Selenium Volatilization and Assimilation by Hybrid Poplar (Populus tremula x alba)|J. Exp. Bot.49(328): 1889-1892|1998|
53179|AT||Pilon-Smits,E.A.H., M.P. De Souza, G. Hong, A. Amini, R.C. Bravo, S.T. Payabyab, and N. Terry|Selenium Volatilization and Accumulation by Twenty Aquatic Plant Species|J. Environ. Qual.28(3): 1011-1018|1999|10.2134/jeq1999.00472425002800030035x
53181|T||Pimentel,D., C. Shoemaker, and R.J. Whitmans|Systems Management Program for Corn Pest Control in New York State|Agriculture (Lond.)8(1): 15-|1978|
53185|T||Pines,I.L., and A.R. Westwood|Evaluation of Monosodium Methane Arsenate for the Suppression of Native Elm Bark Beetles, Hylurgopinus rufipes (Eichhoff) (Coleoptera: Scolytidae)|Can. Entomol.128:435-441|1996|10.4039/Ent128435-3
53186|A||Pinkney,A.E., P.C. McGowan, D.R. Murphy, T.P. Lowe, D.W. Sparling, and L.C. Ferrington|Effect of the Mosquito Larvicides Temephos and Methoprene on Insect Populations in Experimental Ponds|Environ. Toxicol. Chem.19(3): 678-684|2000|10.1002/etc.5620190320
53187|T||Pinto-Carnide,O., and H. Guedes-Pinto|Aluminum Tolerance Variability in Rye and Wheat Portuguese Germplasm|Genet. Resour. Crop Evol.46(1): 81-85|1999|10.1023/A:1008642526392
53188|T||Pinto,L.J., J.B. Mann, and D.G. Bottrell|Analysis of Aerial Application of Fenitrothion ULV for Locust Control in Sudan. Environmental Assessment|Sudan Multi-Donor Locust /Grasshopper Control Program, Consotrium for International Crop Protection, College Park, MD:|1988|
53194|T||Pipe,A.E., and D.R. Cullimore|An Implanted Slide Technique for Examining the Effects of the Herbicide Diuron on Soil Algae|Bull. Environ. Contam. Toxicol.24(2): 306-312|1980|10.1007/BF01608114
53198|T||Pitcher,R.S., and D.G. McNamara|The Toxicity of Low Concentrations of Silver and Cupric Ions to Three Species of Plant-Parasitic Nematodes|Nematologica18:385-390|1972|10.1163/187529272X00656
53200|T||Pitter,P.|Determination of Biological Degradability or Organic Substances|Water Res.10:231-235|1976|10.1016/0043-1354(76)90132-9
53203|T||Pizl,V.|Interactions Between Earthworms and Herbicides. I. Toxicity of Some Herbicides to Earthworms in Laboratory Tests|Pedobiologia (Multiple Languages)32(3/4): 227-232|1988|10.1016/S0031-4056(23)00235-4
53206|T||Pizzarello,D.J., and A. Wolsky|Carcinogenesis and Regeneration in Newts|Experientia22:387-388|1966|10.1007/BF01901153
53208|A||Playle,R.C.|Metal-Gill Conditional Stability Constants:  What About Silver?|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:93-94|1997|
53209|T||Pleijel,H., P. Almbring Norberg, G. Sellden, and L. Skarby|Tropospheric Ozone Decreases Biomass Production in Radish Plants (Raphanus sativus) Grown in Rural South-West Sweden|Environ. Pollut.106(1): 143-147|1999|10.1016/S0269-7491(99)00057-3
53214|A||Plowman,M.C., S. Grbac-Ivankovic, J. Martin, S.M. Hopfer, and F.W.Jr. Sunderman|Malformations Persist After Metamorphosis of Xenopus laevis Tadpoles Exposed to Ni2+, Co2+, or Cd2+ in FETAX Assays|Teratog. Carcinog. Mutagen.14:135-144|1994|10.1002/tcm.1770140305
53215|T||Plowright,R.C.|The Effect of Fenitrothion on Forest Pollinators in New Brunswick|Dep.Zool., University of Toronto, Ontario:335-341|1977|
53216|T||Plumb,T.R., L.A. Norris, and M.L. Montgomery|Persistence of 2,4-D and 2,4,5-T in Chaparral Soil and Vegetation|Bull. Environ. Contam. Toxicol.17(1): 1-8|1977|10.1007/BF01685256
53217|T||Po,E.S.M., and J.W. Ho|Paraquat Affects Light-Induced Proton Transport Through Chloroplast Membranes in Spinach|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(1): 65-69|1997|
53219|T||Poddar,S., A.K. Datta, P.S. Nandy, and S. Mukherjee|Mitostatic Activity of Acrylamide on Root-Tip Cells of Pisum sativum L|Environ. Ecol.14(2): 469-470|1996|
53221|T||Poe,S.L., and S. McFadden|Effect of Benomyl and Surfactants on Populations of the Two Spotted Spider Mite on Dwarf Marigold|J. Ga. Entomol. Soc.7(3): 167-170|1972|
53223|A||Pohnert,G., and E. Von Elert|No Ecological Relevance of Trimethylamine in Fish - Daphnia Interactions|Limnol. Oceanogr.45(5): 1153-1156|2000|10.4319/lo.2000.45.5.1153
53229|T||Polizu,A., S. Floru, and F. Paulian|Absorption, Translocation and Distribution of Lindane and DDT in the Corn Plant|Qual. Plant. Mater. Veg.20(3): 203-213|1971|10.1007/BF01104964
53231|T||Polizu,A., and A. Zeriu|Studies on the Translocation and Localization Mechanism of DDT in Maize Seedlings|Chemosphere6(8): 495-498|1977|10.1016/0045-6535(77)90040-6
53236|T||Polson,D.E., and M.W. Adams|Differential Reponse of Navy Beans (Phaseolus vulgaris L.) to Zinc.  I.  Differential Growth and Elemental Composition at Excessive Zn Levels|Agron. J.62:557-560|1970|10.2134/agronj1970.00021962006200050002x
53242|T||Poole,A., and P. Buckley|1-Naphthol-Single and Repeated Dose (30-Day) Oral Toxicity Studies in the Mouse|Food Chem. Toxicol.27(4): 233-238|1989|10.1016/0278-6915(89)90161-0
53243|T||Poovaiah,B.W., and H.H. Wiebe|Influence of Hydrogen Fluoride Fumigation on the Water Economy of Soybean Plants|Plant Physiol.51:396-399|1973|10.1104/pp.51.2.396
53244|T||Popham,J.D., and J.M. Webster|Comparative Toxicity of Heavy Metals with Special Reference to Cadmium on Caenorhabditis elegans|Proceedings of the International Colloquium on Invertebrate Pathology:372-373|1976|
53246|T||Popov,P., and L. Donev|Studies on the Residual Effects of Insecticides Applied into the Soil|Acta Agron. Acad. Sci. Hung.19(1/2): 89-96|1970|
53248|T||Port,G.R., M.T. Davies, and A.W. Davison|Fluoride Loading of a Lepidopteran Larva (Pieris brassicae) Fed on Treated Diets|Environ. Pollut.99(2): 233-239|1998|10.1016/S0269-7491(97)00183-8
53249|T||Portelli,M.J., S.R. De Solla, R.J. Brooks, and C.A. Bishop|Effect of Dichlorodiphenyltrichloroethane on Sex Determination of the Common Snapping Turtle (Chelydra serpentina serpentina)|Ecotoxicol. Environ. Saf.43(3): 284-291|1999|10.1006/eesa.1999.1791
53250|T||Porteous,F., K. Killham, and A. Meharg|Use of a lux-Marked Rhizobacterium as a Biosensor to Assess Changes in Rhizosphere C Flow Due to Pollutant Stress|Chemosphere41:1549-1554|2000|10.1016/S0045-6535(00)00072-2
53252|T||Porter,E.K., and P.J. Peterson|Arsenic Accumulation in Grasses Growing on Mine Waste|Environ. Pollut. A.14(4): 255-265|1977|
53255|T||Pospisilova,J.|Water Relations in Primary Leaves of Bean Plants Treated with Polyethylene Glycol Solutions|Biol. Plant. (Praha)19(4): 316-319|1977|10.1007/BF02923139
53256|T||Posthuma,L., R.F. Hogervorst, and N.M. Van Straalen|Adaptation to Soil Pollution by Cadmium Excretion in Natural Populations of Orchesella cincta (L.) (Collembola)|Arch. Environ. Contam. Toxicol.22(1): 146-156|1992|10.1007/BF00213314
53257|T||Posthuma,L., R.A. Verweij, B. Widianarko, and C. Zonneveld|Life-History Patterns In Metal-Adapted Collembola|Oikos67(2): 235-249|1993|
53258|T||Posthuma,L., R.F. Hogervorst, E.N.G. Joosse, and N.M. Van Straalen|Genetic Variation And Covariation For Characteristics Associated With Cadmium Tolerance In Natural Populations Of The Springtail Orchesella cincta (L.)|Evolution47(2): 619-631|1993|10.2307/2410074
53267|T||Poulik,Z.|The Danger of Cumulation of Nickel in Cereals on Contaminated Soil|Agric. Ecosyst. Environ.63(1): 25-29|1997|10.1016/S0167-8809(96)01122-X
53268|T||Poulik,Z.|Influence of Nickel Contaminated Soils on Lettuce and Tomatoes|Sci. Hortic.81(3): 243-250|1999|10.1016/S0304-4238(99)00023-0
53273|T||Powell,A.J.B., T. Stevens, and K.A. Mccully|Effects of Commercial Processing on Residues of Aldrin and Dieldrin in Tomatoes and Residues in Subsequent Crops Grown on the Treated Plots|J. Agric. Food Chem.18(2): 224-227|1970|10.1021/jf60168a025
53274|T||Powell,C.C., and C. Leben|Epidemiology Control of Lophodermium Needlecast of Scotch Pine in Ohio|Plant Dis. Rep.57(6): 515-517|1973|
53275|T||Powell,D.C., R.J. Aulerich, J.C. Meadows, D.E. Tillitt, J.P. Giesy, K.L. Stromborg, and S.J. Bursian|Effects of 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Injected into the Yolks of Chicken (Gallus domesticus) Eggs Prior to Incubation|Arch. Environ. Contam. Toxicol.31(3): 404-409|1996|10.1007/BF00212680
53276|T||Powell,D.C., R.J. Aulerich, J.C. Meadows, D.E. Tillitt, M.E. Kelly, K.L. Stromborg, M.J. Melancon, S.D. Fitzgerald, and|Effects of 3,3',4,4',5-Pentachlorobiphenyl and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Injected into the Yolks of Double-Crested Cormorant (Phalacrocorax auritus) Eggs Prior to Incubation|Environ. Toxicol. Chem.17(10): 2035-2040|1998|
53278|T||Powell,G.V.N., and D.C. Gray|Dosing Free-Living Nestling Starlings with an Organophosphate Pesticide, Famphur|J. Wildl. Manag.44(4): 918-921|1980|10.2307/3808325
53279|AT||Powell,R.L., R.A. Kimerle, and E.M. Moser|Development of a Plant Bioassay to Assess Toxicity of Chemical Stressors to Emergent Macrophytes|Environ. Toxicol. Chem.15(9): 1570-1576|1996|10.1002/etc.5620150921
53280|T||Power,R.S., and D.I. De Pomerai|Effect of Single and Paired Metal Inputs in Soil on a Stress-Inducible Transgenic Nematode|Arch. Environ. Contam. Toxicol.37(4): 503-511|1999|10.1007/s002449900545
53281|T||Power,S.A., M.R. Ashmore, D.A. Cousins, and N. Ainsworth|Long Term Effects of Enhanced Nitrogen Deposition on a Lowland dry Heath in Southern Britain|Water Air Soil Pollut.85(3): 1701-1706|1995|10.1007/BF00477225
53283|A||Powers,E.B.|The Goldfish (Carassius carassius) as a Test Animal in the Study of Toxicity|Ill. Biol. Monogr.4(2): 7-73|1917|
53284|T||Pozo,C., M.V. Martinez-Toledo, V. Salmeron, B. Rodelas, and J. Gonzalez-Lopez|Effect of Chlorpyrifos on Soil Microbial Activity|Environ. Toxicol. Chem.14(2): 187-192|1995|10.1002/etc.5620140201
53285|T||Prabhaker,N., D.L. Coudriet, and N.C. Toscano|Effect of Synergists on Organophosphate and Permethrin Resistance in Sweetpotato Whitefly (Homoptera: Aleyrodidae)|J. Econ. Entomol.81(1): 34-39|1988|10.1093/jee/81.1.34
53288|T||Pradhan,A.C., S.K. Sarkar, and S.K. Roy|Growth and Yield of Rape Seed-Mustard Varieties as Influenced by Nitrogen and Phosphorus Fertilization|Environ. Ecol.12(1): 166-170|1994|
53289|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Failure of BHC and DDT to Control Singhara Beetle, Galerucella birmanica Jacoby (Chrysomelidae: Coleoptera)|Indian J. Entomol.25(2): 176-179|1963|
53290|T||Pradhan,S.C., and P.C. Mishra|Inhibition and Recovery Kinetics of Acetylcholinesterase Activity in Drawida calebi and Octochaetona surensis, the Tropical Earthworms, Exposed to Carbaryl Insecticide|Bull. Environ. Contam. Toxicol.60(6): 904-908|1998|10.1007/s001289900713
53291|T||Pradhan,S.K., S.K. Sarkar, B.N. Gupta, S.N. Tripathi, and B.K. Samanta|Effect of Boron, Zinc and Iron on the Incidience of Wilt Fusarium udum Bulter f. sp. crotalariae (Kulkarni) Padwick and Top Shoot Borer (Cydia tricentra Meyr.) of Sunnhemp (Crotalaria juncea Linn)|Environ. Ecol.17(1): 176-179|1999|
53293|T||Prakash,N.S., N. Lakshmi, and I. Harini|Cytological Effects of Agricultural Chemicals II. Effects of Fungicides 'Bavistin' and 'Deltan' on Chilli (Capsicum annuum L.)|Cytologia53:709-715|1988|10.1508/cytologia.53.709
53294|T||Prakasham,R.S., J.S. Merrie, R. Sheela, N. Saswathi, and S.V. Ramakrishna|Biosorption of Chromium VI by Free and Immobilized Rhizopus arrhizus|Environ. Pollut.104(3): 421-427|1999|10.1016/S0269-7491(98)00174-2
53295|T||Pramanik,R., K. Sarkar, and V.C. Joy|Toxicity Screening of Insecticide Residues in Soil Using Nontarget Microarthropod Species|J. Environ. Biol.19(2): 131-139|1998|
53296|T||Pramoda,S., and S.K. Saidapur|Effect of Cadmium Chloride on the Ovary of the Frog Rana tigrina|Curr. Sci. (Bangalore)55(4): 206-208|1986|
53299|T||Prasad,S.K., and C.M. Chaturvedi|Effects of Specific Phase Relation of Serotonergic and Dopaminergic Drugs on the Annual Reproductive Cycle of Spotted Munia, Lonchura punctulata|J. Environ. Biol.19(1): 49-56|1998|
53301|T||Prasse,J.|The Effect of the Herbicides 2,4-D and Simazin on the Coenosis of Collembola and Acari in Arable Soil|In: J.Vanek (Ed.), Progress in Soil Zoology, The Hague, Netherlands:469-480|1975|
53310|T||Presidente,P.J.A.|Methods for Detection of Resistance to Anthelmintics|In: N.Anderson and P.J.Waller (Eds.), Resistance in Nematodes to Anthelmintic Drugs, Chapter 2, CSIRO Div.of Animal Health Australian Wool Corporation, Glebe, Australia:13-27|1985|
53312|A||Preston,B.L., T.W. Snell, and D.B. Dusenbery|The Effects of Sublethal Pentachlorophenol Exposure on Predation Risk in Freshwater Rotifer Species|Aquat. Toxicol.47(2): 93-105|1999|10.1016/S0166-445X(99)00012-0
53314|T||Pribilincova,J., M. Maretta, I. Janotikova, and E. Marettova|The Effect of Cadmium Treatment on Breeding Hens and Cocks and Early Viability of Their Chickens|Vet. Med.40(11): 353-357|1995|
53315|T||Price,L.A., and K.A. Mills|The Toxicity of Phosphine to the Immature Stages of Resistant and Susceptible Strains of Some Common Stored Product Beetles and Implications for Their Control|J. Stored Prod. Res.24(1): 51-60|1988|10.1016/0022-474X(88)90008-2
53317|T||Prickett,A.J., and C.A. Ratcliffe|The Behaviour of Tribolium castaneum (Herbst) and Sitophilus granarius (L.) in the Presence of Insecticide-Treated Surfaces|J. Stored Prod. Res.13:145-148|1977|10.1016/0022-474X(77)90013-3
53318|T||Priestly,B.G., and G.L. Plaa|Hepatic Function After Acute or Subchronic Nicotine Administration in Untreated Mice and Mice Treated with Hepatotoxic Chemicals|Arch. Int. Pharmacodyn. Ther.223:132-141|1976|
53319|T||Prins,A.H., J.J.M. Berdowski, and M.J. Latuhihin|Effect of NH4-Fertilization on the Maintenance of a Calluna vulgaris Vegetation|Acta Bot. Neerl.40(4): 269-279|1991|10.1111/j.1438-8677.1991.tb01558.x
53320|T||Prior,M.G., C.S. Sisodia, and J.B. O'Neil|Acute Oral Ochratoxicosis in Day-Old White Leghorns, Turkeys and Japanese Quail|Poult. Sci.55:786-790|1976|10.3382/ps.0550786
53324|T||Proctor,J., and I.D. McGowan|Influence of Magnesium on Nickel Toxicity|Nature260:134-|1976|10.1038/260134a0
53327|T||Prukop,J.A., and N.L. Savage|Some Effects of Multiple, Sublethal Doses of Monosodium Methanearsonate (MSMA) Herbicide on Hematology, Growth, and Reproduction of Laboratory Mice|Bull. Environ. Contam. Toxicol.36:337-341|1986|10.1007/BF01623517
53329|T||Publicover,S.J., and C.J. Ducan|The Action of Lindane in Accelerating the Spontaneous Release of Transmitter at the Frog Neuromuscular Junction|Naunyn-Schmiedeberg's Arch. Pharmacol.381:179-182|1979|10.1007/BF00499062
53330|T||Puckett,K.J., E. Nieboer, M.J. Gorzynski, and D.H.S. Richardson|The Uptake of Metal Ions by Lichens: A Modified Ion-Exchange Process|New Phytol.72:329-342|1973|10.1111/j.1469-8137.1973.tb02040.x
53331|T||Puckett,K.J., E. Nieboer, W.P. Flora, and D.H.S. Richardson|Sulphur Dioxide:  Its Effect on Photosynthetic 14C Fixation and Suggested Mechanisms of Phytotoxicity|New Phytol.72:141-154|1973|10.1111/j.1469-8137.1973.tb02019.x
53332|T||Puckett,K.J., D.H.S. Richardson, W.P. Flora, and E. Nieboer|Photosynthetic 14C Fixation by the Lichen Umbilicaria muhlenbergii (Ach.) Tuck. Following Short Exposure to Aqueous Sulphur Dioxide|New Phytol.73:1183-1192|1974|10.1111/j.1469-8137.1974.tb02147.x
53333|T||Puckett,K.J.|The Effect of Heavy Metals on Some Aspects of Lichen Physiology|Can. J. Bot.54:2695-2703|1976|10.1139/b76-290
53336|T||Pugh,G.J.F., and M. Wainwright|The Effects of Fungicides on Microbial Activities in the Soil|Proc. 5th Int. Conf. Soil Zoology, Prague 1973:17-22|1975|
53338|A||Punt,A.G., G.E. Millward, and M.B. Jones|Uptake and Depuration of 63Ni by Mytilus edulis|Sci. Total Environ.214(1-3): 71-78|1998|10.1016/S0048-9697(98)00054-0
53340|T||Purschke,G., M. Hagens, and W. Westheide|Ultrahistopathology of Enchytraeid Oligochaetes (Annelida) After Exposure to Pesticides - A Means of Identification of Sublethal Effects?|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1-2): 119-122|1991|10.1016/0742-8413(91)90136-H
53342|T||Puthota,V., R. Cruz-Ortega, J. Johnson, and J. Ownby|An Ultrastructural Study of the Inhibition of Mucilage Secretion in the Wheat Root Cap by Aluminium|Dev. Plant Soil Sci.45:779-787|1991|
53343|T||Putnam,L.G.|The Survival of Grasshopper Nymphs on Vegetation Treated with 2,4-D|Sci. Agric. (Piracicaba, Braz. )29:396-399|1949|
53344|T||Putrament,A., H. Baranowska, A. Ejchart, and W. Jachymczyk|Manganese Mutagenesis in Yeast. VI. Mn2+ Uptake, Mitochondrial DNA Replication and ER Induction Comparison with Other Divalent Cations|Mol. Gen. Genet.151:69-76|1977|10.1007/BF00446914
53346|T||Pyles,R.A., and E.A. Woolson|Quantitation and Characterization of Arsenic Compounds in Vegetables Grown in Arsenic Acid Treated Soil|J. Agric. Food Chem.30(5): 866-870|1982|10.1021/jf00113a018
53347|T||Pylypiw,H.M.,Jr., G.J. Bugbee, and C.R. Frink|Uptake of Pre-Emergent Herbicides by Corn:  Distribution in Plants and Soil|Bull. Environ. Contam. Toxicol.50(3): 474-478|1993|10.1007/BF00197210
53348|T||Pyykko,K., S. Paavilainen, T. Metsa-Ketela, and K. Laustiola|The Increasing and Decreasing Effects of Aromatic Hydrocarbon Solvents on Pulmonary and Hepatic Cytochrom P-450 in the Rat|Pharmacol. Toxicol.60:288-293|1987|10.1111/j.1600-0773.1987.tb01754.x
53349|T||Pyza,E., P. Mak, P. Kramarz, and R. Laskowski|Heat Shock Proteins (HSP70) as Biomarkers in Ecotoxicological Studies|Ecotoxicol. Environ. Saf.38(3): 244-251|1997|10.1006/eesa.1997.1595
53353|T||Qifu,M.A., and F. Murray|Responses of Potato Plants to Sulphur Dioxide, Water Stress and Their Combination|New Phytol.118(1): 101-109|1991|10.1111/j.1469-8137.1991.tb00570.x
53357|T||Que,Hee S.S., R.G. Sutherland, K.S. McKinlay, and J.G. Saha|Factors Affecting the Volatility of DDT, Dieldrin and Dimethylamine salt of 2 4-D from Leaf and Glass Surfaces|Bull. Environ. Contam. Toxicol.13(3): 284-290|1975|10.1007/BF01685337
53358|T||Quezada,T., H. Cuellar, F. Jaramillo-Juarez, A.G. Valdivia, and J.L. Reyes|Effects of Aflatoxin B1 on the Liver and Kidney of Broiler Chickens During Development|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125:265-272|2000|
53359|T||Quinlan,J.K.|Surface and Wall Sprays of Malathion for Controlling Insect Populations in Stored Shelled Corn|J. Econ. Entomol.70(3): 335-336|1977|10.1093/jee/70.3.335
53360|T||Quinlan,J.K.|Malathion Aerosols Applied in Conjunction with Vertically Placed Aeration for the Control of Insects in Stored Corn|J. Kans. Entomol. Soc.52(4): 648-652|1979|
53362|T||Quist,M.E.|Reversibility of Damages to Forest Floor Plants by Episodes of Elevated Hydrogen- and Aluminium-Ion Concentrations in the Soil Solution|Plant Soil176(2): 297-305|1995|10.1007/BF00011794
53363|T||Quist,M.E.|Acid Episodes Decisive for Plant Performance|Chemosphere36(4-5): 627-632|1998|10.1016/S0045-6535(97)10098-4
53367|T||Qureshi,A.H.|Preliminary Investigations on the Susceptibility of some Stored Products Insects to DDT, BHC and Fenitrothion Dusts|Nigerina Stored Prod.Res Inst.Rep No.21:137-140|1966|
53368|T||Rabinowitz,M.|Plant Uptake of Soil and Atmospheric Lead in Southern California|Chemosphere4:175-180|1972|10.1016/0045-6535(72)90023-9
53372|A||Rach,J.J., M.P. Gaikowski, G.E. Howe, and T.M. Schreier|Evaluation of the Toxicity and Efficacy of Hydrogen Peroxide Treatments on Eggs of Warm- and Coolwater Fishes|Aquaculture165(1-2): 11-25|1998|10.1016/S0044-8486(98)00248-8
53373|T||Radeleff,R.D., G.T. Woodard, W.J. Nickerson, and R.C. Bushland|The Acute Toxicity of Chlorinated Hydrocarbon and Organic Phosphorous Insecticides to Livestock|Technical Bulletin 1122, United States Department of Agriculture:1-46|1954|
53376|T||Radosevich,S.R., and W.L. Winterlin|Persistence of 2,4-D and 2,4,5-T in Chaparral Vegetation and Soil|Weed Sci.25(5): 423-425|1977|10.1017/S0043174500033786
53378|T||Ragunath,C., M. Sivaguru, P.R. Anbudurai, M.R. James, and T. Balakumar|Tolerance to Aluminum Toxicity: Certain Basic Biochemical Aspects|Bull. Environ. Contam. Toxicol.47(6): 858-863|1991|10.1007/BF01689516
53379|T||Rahman,A., and L.J. Matthews|Effect of Soil Organic Matter on the Phytotoxicity of Thirteen s-Triazine Herbicides|Weed Sci.27(2): 158-161|1979|10.1017/S0043174500043733
53380|T||Rahman,A.|Sensitive Bioassays for Determining Residues of Sulfonylurea Herbicides in Soil and Their Availability to Crop Plants|Hydrobiologia (Multiple Languages)188-189:367-375|1989|10.1007/BF00027802
53381|T||Rahman,M.S., M. Guha, and G.N. Bhattacharya|Differential Effects of Two Pesticides on a Vegetatively Reproducing Plant Caladium bicolor|Geobios (Jodhpur)13(4): 181-184|1986|
53382|T||Rahouti,M., R. Steiman, F. Seigle-Murandi, and L.P. Christov|Growth of 1044 Strains and Species of Fungi on 7 Phenolic Lignin Model Compounds|Chemosphere38(11): 2549-2559|1999|10.1016/S0045-6535(98)00462-7
53385|T||Raina,J.N., and K.P. Goswami|Effect of Fulvic Acid and Fulvates on the Growth and Nutrient Uptake by Maize Plant|J. Indian Soc. Soil Sci.36(2): 264-268|1988|
53388|A||Raizada,S., and K.S. Rana|Acute Toxicity of Malachite Green to an Air Breathing Teleost, Clarias batrachus (Linn.)|J. Environ. Biol.19(3): 237-241|1998|
53389|T||Rajaram,S., and E. Villegas|Breeding Wheat (Triticum aestivum) for Aluminum Toxicity Tolerance at CIMMYT|Dev. Plant Soil Sci.42:489-495|1990|
53390|T||Rajendra,W., C.S.R. Chetty, R. Anasuya, K. Indira, and K.S. Swami|Insecticide Impact on Contractile Pattern of Amphibian Skeletal Muscle|Curr. Sci. (Bangalore)49(13): 502-504|1980|
53391|T||Rajput,A.L.|Effect of Nitrogen and Zinc Split Application on Wheat (Triticum aestivum) and Their Residual Effect on Rice (Oryza sativa)|Indian J. Agron.42(1): 22-25|1997|
53392|T||Rajput,J.C., Y.R. Parulekar, S.S. Sawant, and B.M. Jamadagni|Sex Modification in Kartoli (Momordica dioica Roxb.) by Foliar Sprays of Silver Nitrate (AgNO3)|Curr. Sci. (Bangalore)66(10): 779-|1994|
53393|T||Rajyalakshmi,A., and P.U. Reddy|Carbaryl Induced Changes in the Lipid Metabolism of the Scorpion, Heterometrus fulvipes (Koch) and the Embryos During the Gestation Period|J. Environ. Biol.13(1): 13-19|1992|
53396|T||Ramachandran,V., B.M. Bhujbal, and T.J. D'souza|Influence of Rock Phosphates with and Without Vegetable Compost on the Yield, Phosphorus, and Cadmium Contents of Rice (Oryza sativa) Grown on an Ultisol|Fresenius Environ. Bull.7(9-10): 551-556|1998|
53397|T||Ramamurthi,C.S.|Choice of Fungicides for Low-Volume Sprays|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Science, Mysore, India:127-137|1964|
53398|A||Ramamurthy,K., and K.J. Rao|Toxic Impact of Heptachlor on Carbohyrate Metabolism in the Tissues of a Fresh Water Edible Fish, Channa punctatus (Bloch)|In: S.R.Verma (Ed.), Growth Dev.Nat.Resources Conserv.Nature Conservators:287-291|1990|
53399|T||Ramanujam,M.P., and G.D. Leena|Response of Two Peanut Cultivars to Pretreatment of Seeds with Zinc and Molybdenum|Geobios (Jodhpur)19(2-3): 121-123|1992|
53402|T||De Mur,A.R.|Effect of Several Environmental Factors on the Toxicity of the Herbicide Siduron and Mechanism of Its Action|Ph.D Thesis, University of California, Riverside, CA:112 p.|1971|
53406|T||Rana,S.V.S., and A. Kumar|Proteins, Lipids and Carbohydrates in the Liver and Kidney of Rats After Molybdenum and Copper Treatment|Bull. Environ. Contam. Toxicol.25:146-152|1980|10.1007/BF01985503
53407|T||Rana,S.V.S.|Visual Evidences on Reversible Dysenzymia Induced by Zinc and a new Chelating Agent in CCl4 Poisoned Liver of Squirrels|Mikroskopie36:233-241|1980|
53408|T||Rana,S.V.S., and S. Kumar|Histopathological Studies on the Liver of Rats Treated Individually and with a Combination of Xylene and Methyl Alcohol|J. Environ. Biol.18(2): 185-190|1997|
53410|A||Rand,G.M., J.R. Clark, and C.M. Holmes|Use of Outdoor Freshwater Pond Microcosms:  II.  Responses of Biota to Pyridaben|Environ. Toxicol. Chem.19(2): 396-|2000|10.1002/etc.5620190220
53411|A||Randall,D.J., and C.J. Brauner|Toxicant Uptake Across Fish Gills|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1:501-517|1991|
53413|T||Randhawa,H.S., and S.P. Singh|Zinc Fractions in Soils and Their Availability to Maize|J. Indian Soc. Soil Sci.43(2): 293-294|1995|
53414|T||Randolph,N.M., and G.L. Teetes|Residues from Chemical Treatment of Grain Sorghum|Texas Agric. Exp. Stn. Prog. Rep.2941:41-45|1971|
53415|T||Rane,P.D., and D.S. Mathur|Toxicity of Aldrin to Rana cyanophylyctis (Schn)|Science44:128-130|1978|
53417|T||Rani,P.P., and D. Bharathi|Organic Composition of Silkgland, Testes and Ovaries of Silkworm Bombyx mori L. on Exposure to Thyroxine|Environ. Ecol.17(3): 552-556|1999|
53418|T||Rani,S., R. Tabassum, S.N.H. Naqvi, A.B. Sultan, and M.F. Khan|Comparative Toxicity of Different Formulations of Cypermethrin, Deltamethrin and Permethrin Against Drosophila melanogaster (K.U. Strain)|J. Environ. Biol.18(4): 343-349|1997|
53422|T||Rao,B.V., N. Sriniyas, and P.V.V. Prasada Rao|Clastogenecity of Captan and Zineb in Allium meristem Assay|J. Environ. Biol.21(2): 157-160|2000|
53423|T||Rao,D.R., and S.P. Raychaudhuri|Effect of Herbicides on the Multiplication of Cucumber Mosaic Virus in Tissue Culture|Natl. Acad. Sci. Lett.1(5): 165-167|1978|
53426|T||Rao,K.V.B., and B.R. Maiti|Adrenomedullary Responses to Formalin Stress in Indian Fruit-Bat|Zool. Anz. (Multiple Languages)206(1/2): 100-103|1981|
53427|T||Rao,M.S., and R.C. Patel|Biology and Control of Okra Semilooper anomis-flava fabricius noctuidae lepidoptera on Okra|Indian J. Entomol.35(3): 198-205|1973|
53430|T||Rascio,N., V.F. Dalla, M. Ferretti, L. Merlo, and R. Ghisi|Some Effects of Cadmium on Maize Plants|Arch. Environ. Contam. Toxicol.25(2): 244-249|1993|10.1007/BF00212136
53431|A||Rasmussen,A.D., and O. Andersen|Effects of Cadmium Exposure on Volume Regulation in the Lugworm, Arenicola marina|Aquat. Toxicol.48(2-3): 151-164|2000|10.1016/S0166-445X(99)00045-4
53432|A||Raspor,B., and J. Pavicic|Electrochemical Methods for Quantification and Characterization of Metallothioneins Induced in Mytilus galloprovincialis|Fresenius' J. Anal. Chem.354(5-6): 529-534|1996|10.1007/s0021663540529
53433|T||Rastogi,S.N., and N. Anand|Agents Acting on the Central Nervous System. 19. (+-)-1-(o- and m-Alkanoylphenoxy)-3-(N4-Arylpiperazinyl)Propan-2-ols as Local Anesthetics, Hypotensives, and Tranquilizers|J. Med. Chem.16(7): 797-804|1973|10.1021/jm00265a012
53435|T||Ratner,A.|Effect of Phenoxybenzamine on Luteinizing Hormone Release in the Female Rat|Proc. Soc. Exp. Biol. Med.138:995-998|1971|10.3181/00379727-138-36035
53436|T||Ratsch,H.C.|Interlaboratory Root Elongation Testing of Toxic Substances on Selected Plant Species|EPA 600/S3-83-051, U.S.Environmental Protection Agency:46 p.|1983|
53437|T||Ratsch,H.C., and D. Johndro|Comparative Toxicity of Six Test Chemicals to Lettuce Using Two Root Elongation Test Methods|Environ. Monit. Assess.6(3): 267-276|1986|10.1007/BF00396794
53438|T||Rattan,R.K., and L.M. Shukla|Influence of Different Zinc Carriers on the Utilization of Micronutrients by Rice|J. Indian Soc. Soil Sci.39(4): 808-810|1991|
53441|T||Rauret,G., V.R. Vallejo, D. Cancio, and J. Real|Transfer of Radionuclides in Soil-Plant Systems Following Aerosol Simulation of Accidental Release:  Design and First Results|J. Environ. Radioact.29(2): 163-184|1995|10.1016/0265-931X(94)00059-6
53442|T||Rauser,W.E.|Early Effects of Phytotoxic Burdens of Cadmium, Cobalt, Nickel and Zinc in White Beans|Can. J. Bot.56:1744-1749|1978|10.1139/b78-207
53443|T||Rauser,W.E., and E.B. Dumbroff|Effects of Excess Cobalt, Nickel and Zinc on the Water Relations of Phaseolus vulgaris|Environ. Exp. Bot.21(2): 249-255|1981|10.1016/0098-8472(81)90032-0
53444|T||Rauser,W.E., and P. Meuwly|Retention of Cadmium in Roots of Maize Seedlings. Role of Complexation by Phytochelatins and Related Thiol Peptides|Plant Physiol.109(1): 195-202|1995|10.1104/pp.109.1.195
53445|T||Raut,A.K., G. Kulshrestha, and P.K. Chhonkar|Effect of Butachlor On Microbial Soil Populations In Rice Fields|Toxicol. Environ. Chem.59(1-4): 145-149|1997|10.1080/02772249709358431
53450|T||Ravanel,P., and M. Tissut|Toxicity of Pentachlorophenol on Isolated Plant Mitochondria|Phytochemistry25(3): 577-583|1986|10.1016/0031-9422(86)88002-5
53451|T||Rawat,R.R., R.K. Patel, O.P. Veda, and A. Patitunda|Control of gram pod borer heliothis-armigera|Indian J. Entomol.41(1): 33-35|1979|
53452|A||Rawi,S.M., H. El-Gindy, and A. Abd-El-Kader|New Possible Molluscicides from Calendula micrantha officinalis and Ammi majus. II. Molluscicidal, Physiological, and Egg-Laying Effects Against Biomphalaria alexandrina and Bulinus truncatus|Ecotoxicol. Environ. Saf.35(3): 261-267|1996|10.1006/eesa.1996.0109
53453|T||Rawlings,P., P.R.J. Herath, and S. Kelly|Anopheles-culicifacies (Diptera, Culicidae) - DDT Resistance in Sri Lanka Prior to and After Cessation of DDT Spraying|J. Med. Entomol.22(4): 361-365|1985|10.1093/jmedent/22.4.361
53455|T||Ray,B.C., S.P. Bhattacharya, and A.K. Mukherjee|Efficacy of Sulfonyl Urea Herbicides in Controlling Weeds of Wheat|Environ. Ecol.14(3): 646-650|1996|
53460|A||Rayburn,J.R., and W.S. Fisher|Developmental Toxicity of Copper Chloride, Methylene Chloride, and 6-Aminonicotinamide to Embryos of the Grass Shrimp Palaemonetes pugio|Environ. Toxicol. Chem.18(5): 950-957|1999|
53461|T||Raynal,D.J., J.D. Joslin, F.C. Thornton, M. Schaedle, and G.S. Henderson|Sensitivity of Tree Species to Al: III. Red Spruce and Loblolly Pine|J. Environ. Qual.19(2): 180-187|1990|10.2134/jeq1990.00472425001900020003x
53464|T||Readshaw,J.L.|The ecology of tetranychid mites in australian orchards|J. Appl. Ecol.12(2): 473-495|1975|10.2307/2402169
53468|T||Rebar,A.H., T.P. Lipscomb, R.K. Harris, and B.E. Ballachey|Clinical and Clinical Laboratory Correlates in Sea Otters Dying Unexpectedly in Rehabilitation Centers Following The Exxon Valdez Oil Spill|Vet. Pathol.32(4): 346-350|1995|10.1177/030098589503200402
53469|T||Rebbeck,J.|Chronic Ozone Effects On Three Northeastern Hardwood Species: Growth And Biomass|Can. J. For. Res.26(10): 1788-1798|1996|10.1139/x26-203
53474|T||Reboredo,F.|Some Observations on the Effects of Iron on the Leaf Ultrastructure of Halimione portulacoides|J. Plant Physiol.115:581-589|1997|10.1016/S0176-1617(97)80234-9
53475|T||Rechcigl,J.E., R.B.J. Reneau, and D.E. Starner|Alfalfa Yields and Quality as Influenced by Subsurface Application of Phosphorus Potassium and Limestone|Dev. Plant Soil Sci.45:485-490|1991|
53476|T||Reddy,B.G., L.R. Pohl, and G. Krishna|The Requirement of the Gut Flora in Nitrobenzene-Induced Methemoglobinemia in Rats|Biochem. Pharmacol.25:1119-1122|1976|10.1016/0006-2952(76)90507-4
53477|T||Reddy,D.V.R., and A. Apparao|Adaptation of Sclerotium rolfsii to Copper Compounds|Indian Phytopathol.17:35-41|1964|
53478|T||Reddy,G., T.V. Reddy, H. Choudhury, F.B. Daniel, and G. Leach|Assessment of Environmental Hazards of 1,3,5-Trinitrobenzene|J. Toxicol. Environ. Health52(5): 447-460|1997|10.1080/00984109708984075
53479|T||Reddy,G.P.V., V.D. Prasad, and R.S. Rao|Relative Resistance in Chilli Thrips, Scirtothrips dorsalis Hood Populations in Andhra Pradesh to Some Conventional Insecticides|Indian J. Plant Prot.20:218-222|1992|
53480|T||Reddy,J.K., D.E. Moody, D.L. Azarnoff, and M.S. Rao|Di-(2-Ethylhexyl)Phthalate: An Industrial Plasticizer Induces Hypolipidemia and Enhances Hepatic Catalase and Carnitine Acetyltransferase Activities in Rats and Mice|Life Sci.18(9): 941-946|1976|10.1016/0024-3205(76)90412-4
53481|T||Reddy,K.S., and H.A. Mills|Interspecific Responses of Marigold to Manganese as Influenced by Nitrogen Source|Hortscience26(10): 1281-1282|1991|10.21273/HORTSCI.26.10.1281
53482|T||Reddy,M.R., A. Ronaghi, and J.A. Bryant|Differential Responses of Soybean Genotypes to Excess Manganese in an Acid Soil|Plant Soil134(2): 221-226|1991|10.1007/BF00012039
53483|T||Reddy,S.J., B.V. Reddy, and R. Ramamurthi|Identification of Perturbations in Xenobiotic Metabolism of Rat During Phosalone Toxicity 1. Effect on Glutathione Metabolism|Bio. -Sci. Res. Bull.11(1): 57-62|1995|
53484|A||Reddy,T.P., and K. Vaidyanath|Mutagenic, Potentiating and Antimutagenic Activity of Certain Metallic Ions in the Rice Genetic System|Curr. Sci. (Bangalore)47(14): 513-515|1978|
53487|A||Reed-Judkins,D.K., J.L. Farris, D.S. Cherry, and J.,Jr. Cairns|Foodborne Uptake and Sublethal Effects of Copper and Zinc to Freshwater Snails|Hydrobiologia (Multiple Languages)364(2): 105-118|1998|
53488|T||Reed,D.W., C.G.,Jr. Lyons, and G.R. McEachern|Field Evaluation of Inorganic and Chelated Iron Fertilizers as Foliar Sprays and Soil Application|J. Plant Nutr.11(6-11): 1369-1378|1988|10.1080/01904168809363894
53489|T||Reed,D.W.|Effect of Urea, Ammonium and Nitrate on Foliar Absorption of Ferric Citrate|J. Plant Nutr.11(6-11): 1429-1437|1988|10.1080/01904168809363899
53490|T||Reed,J.K., and L.E. Priester|DDT Residues in Tobacco and Soybeans Grown in Soil Treated with DDT|Pestic. Monit. J.3(2): 87-89|1969|
53494|T||Reepmeyer,H., and H. Vetter|The Effect of Hydrogen Fluoride in Comparison with Calcium Fluoride Dust on Omorika Fir-Trees|Ziegelind. Int.11:485-492|1976|
53495|T||Rees,W.J., and G.H. Sidrak|Inter-Relationship of Aluminium and Manganese Toxicities Towards Plants|Plant Soil14(2): 101-117|1961|10.1007/BF01394561
53500|T||Reeves,A.L., R.H. Swanborg, E.K. Busby, and N.D. Krivanek|The Role of Immunologic Reactions in Pulmonary Berylliosis|In: W.H.Walton (Ed.), Inhaled Particles III, Unwin Brothers, Ltd., Surrey, England:599-608|1971|
53501|T||Reeves,A.L., N.D. Krivanek, E.K. Busby, and R.H. Swanborg|Immunity to Pulmonary Berylliosis in Guinea Pigs|Int. Arch. Occup. Health29:209-220|1972|
53502|T||Reeves,A.L., and N.D. Krivanek|The Influence of Cutaneous Hypersensitivity to Beryllium on the Development of Experimental Pulmonary Berylliosis|Trans. NY Acad.Sci.36(1): 78-93|1974|10.1111/j.2164-0947.1974.tb01556.x
53503|T||Reeves,D.W., and J.T. Touchton|Effect of Dicyandiamide on Growth and Nutrient Uptake of Cotton|Commun. Soil Sci. Plant Anal.20(19-20): 2091-2103|1989|10.1080/00103628909368203
53512|A||Regoli,F., M. Nigro, E. Bertoli, G. Principato, and E. Orlando|Defenses Against Oxidative Stress in the Antarctic Scallop Adamussium colbecki and Effects of Acute Exposure to Metals|Hydrobiologia (Multiple Languages)355(1-3): 139-144|1997|10.1023/A:1003094515903
53514|T||Rehab,F.I., and A. Wallace|Excess Trace Metal Effects on Cotton: 5. Nickel and Cadmium in Solution Culture|Commun. Soil Sci. Plant Anal.9(8): 771-778|1978|10.1080/00103627809366850
53515|T||Shafiq-ur-Rehman|Effects of Zinc, Copper, and Lead Toxicity on alpha-Aminolevulinic Acid Dehydratase Activity|Bull. Environ. Contam. Toxicol.33(1): 92-98|1984|10.1007/BF01625516
53516|T||Reich,P.B., and R.G. Amundson|Low Level O3 and/or SO2 Exposure Causes a Linear Decline in Soybean Yield|Environ. Pollut. A.34:345-355|1984|10.1016/0143-1471(84)90112-0
53517|T||Reich,P.B., A.W. Schoettle, H.F. Stroo, J. Troiano, and R.G. Amundson|Effects of O3, SO2, and Acidic Rain on Mycorrhizal Infection in Northern Red Oak Seedlings|Can. J. Bot.63(11): 2049-2055|1985|10.1139/b85-287
53523|T||Reilley,K.A., M.K. Banks, and A.P. Schwab|Organic Chemicals in the Environment: Dissipation of Polycyclic Aromatic Hydrocarbons in the Rhizosphere|J. Environ. Qual.25:212-219|1996|10.2134/jeq1996.00472425002500020002x
53528|T||Reinecke,A.J., and R.G. Nash|Toxicity of 2,3,7,8-TCDD and Short-Term Bioaccumulation by Earthworms (Oligochaeta)|Soil Biol. Biochem.16(1): 45-49|1984|10.1016/0038-0717(84)90124-X
53532|T||Reinert,R.A., and H.W.,Jr. Spurr|Differential Effect of Fungicides on Ozone Injury and Brown Spot Disease of Tobacco|J. Environ. Qual.1(4): 450-452|1972|10.2134/jeq1972.00472425000100040027x
53535|T||Reisen,W.K., M.M. Milby, W.C. Reeves, M.W. Eberle, R.P. Meyer, C.H. Schaefer, R.B. Parman, and H.L. Clement|Aerial Adulticiding for the Suppression of Culex tarsalis in Kern County, California, Using Low Volume Propoxur: 2. Impact on Natural Populations in Foothill and Valley Habitats|Am. Mosq. Control Assoc. J.1(2): 154-163|1985|
53548|T||Reith,J.P., and M.D. Levin|The Repellent Effect of Two Pyrethroid Insecticides on the Honey Bee|Physiol. Entomol.13:213-218|1988|10.1111/j.1365-3032.1988.tb00925.x
53549|T||Ren,F., T. Liu, H. Liu, and B. Hu|Influence of Zinc on the Growth, Distribution of Elements, and Metabolism of One-Year Old American Ginseng Plants|J. Plant Nutr.16(2): 393-405|1993|10.1080/01904169309364539
53550|T||Ren,L., L.F. Zeiler, D.G. Dixon, and B.M. Greenberg|Photoinduced Effects of Polycyclic Aromatic Hydrocarbons on Brassica napus (Canola) During Germination and Early Seedling Development|Ecotoxicol. Environ. Saf.33:73-80|1996|10.1006/eesa.1996.0008
53552|T||Ren,Z., and E.I. Sucoff|Solution Aluminum and Transpiration in Picea rubens and Gleditsia triacanthos Seedlings|Tree Physiol.6(3): 337-346|1990|10.1093/treephys/6.3.337
53554|T||Renauld,A.E., M.J. Melancon, and L.M. Sordillo|Identification of In Vitro Cytochrome P450 Modulators to Detect Induction by Prototype Inducers in the Mallard Duckling (Anas platyrhynchos)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(2): 273-281|1999|
53555|T||Rengel,Z., and D.L. Robinson|Aluminum Effects on Growth and Macronutrient Uptake by Annual Ryegrass|Agron. J.81(2): 208-215|1989|10.2134/agronj1989.00021962008100020014x
53556|T||Rengel,Z., and D.L. Robinson|Temperature and Magnesium Effects on Aluminum Toxicity in Annual Ryegrass (Lolium multiflorum)|Dev. Plant Soil Sci.41:413-417|1990|
53557|T||Rengel,Z., and D.L. Robinson|Temperature, Magnesium and Aluminum Interaction Effects on Grass Tetany Potential of Ryegrass Forage|J. Agron. Crop Sci.166(5): 347-352|1991|10.1111/j.1439-037X.1991.tb00924.x
53558|T||Rengel,Z.|Modeling Magnesium Uptake from an Acid Soil IV. Depletion of Magnesium, Calcium and Potassium from Soluble and Exchangeable Phase|Commun. Soil Sci. Plant Anal.23(1-2): 165-174|1992|10.1080/00103629209368579
53562|T||Rengel,Z., and R.D. Graham|Importance of Seed Zn Content for Wheat Growth on Zn-Deficient Soil: I. Vegetative Growth|Plant Soil173(2): 259-266|1995|10.1007/BF00011463
53563|T||Rengel,Z., and R.D. Graham|Wheat Genotypes Differ in Zn Efficiency when Grown in Chelate-Buffered Nutrient Solution: II. Nutrient Uptake|Plant Soil176(2): 317-324|1995|10.1007/BF00011796
53564|T||Rengel,Z., and R.D. Graham|Importance of Seed Zn Content for Wheat Growth on Zn-Deficient Soil: II. Grain Yield|Plant Soil173(2): 267-274|1995|10.1007/BF00011464
53565|T||Rengel,Z., and H.A. Kordan|Effects of Nitrogen, Phosphorus, and Potassium Deficiencies on Light-Dependent Anthocyanin Formation in Zea mays L. Seedlings|J. Plant Physiol.132(1): 126-128|1988|10.1016/S0176-1617(88)80196-2
53568|T||Reno,F.E.|Toxic Effects of Polynuclear Aromatic Hydrocarbons in Chicken Embryos and Mice|Ph.D.Thesis, Utah State University, Logan, UT:118 p.|1969|
53572|T||Retzlaff,W.A., L.E. Williams, and T.M. Dejong|Growth and Yield Response of Commercial Bearing-Age `Casselman' Plum Trees to Various Ozone Partial Pressures|J. Environ. Qual.26:858-865|1997|10.2134/jeq1997.00472425002600030036x
53574|T||Reuss,J., H.L. Dooley, and W. Griffis|Plant Uptake of Cadmium from Phosphate Fertilizer|EPA 600/3-76-053, Ecol.Res.Ser.:43 p.|1976|
53578|T||Revis,N.W., R. Bull, D. Laurie, and C.A. Schiller|The Effectiveness of Chemical Carcinogens to Induce Atherosclerosis in the White Carneau Pigeon|Toxicology32(3): 215-227|1984|10.1016/0300-483X(84)90075-1
53579|T||Revzin,A.M.|Some Acute and Chronic Effects of Endrin on the Brains of Pigeons and Monkeys|In: J.W.Gillett (Ed.), The Biological Impact of Pesticides in the Environment, Environ.Health Ser.No.1, 8/19-19-20 1969, Oregon State University, Corvallis, OR:134-141|1970|
53585|T||Rheinheimer,D.S., C. Petry, J. Kaminski, and H.R. Bartz|Aluminum Stress in Tobacco Plants:  I.  Effects on Phosphorus and Calcium Uptake, Root System and Dry Matter Production|Rev. Bras. Cienc. Solo (Multiple Languages)18(1): 63-68|1994|
53586|T||Rhoads,A.F., and E. Brennan|Response of Ornamental Plants to Chlorine Contamination in the Atmosphere|Plant Dis. Rep.60(5): 409-411|1976|
53587|T||Rhodes,R.C.|Studies with Manganese [14C]Ethylenebis(dithiocarbamate) ([14C]Maneb) Fungicide and [14C]Ethylenethiourea ([14C]ETU) in Plants, Soil, and Water|J. Agric. Food Chem.25(3): 528-533|1977|10.1021/jf60211a016
53588|T||Rhue,R.D.|The Time Concentration Interaction of Al Toxicity in Wheat Root Meristems|Ph.D.Thesis, Oregon State University, Corvallis, OR:|1976|
53590|A||Ribeiro,R., L.A. Kelly, F. Goncalves, G.A.,Jr. Burton, and A.M.V.M. Soares|New Artificial Sediment for Chironomus riparius Toxicity Testing|Bull. Environ. Contam. Toxicol.63(6): 691-697|1999|10.1007/s001289901035
53591|A||Ribeiro,R., I. Lopes, A.M.M. Pereira, F. Goncalves, and A.M.V.M. Soares|Survival Time of Ceriodaphnia dubia in Acid Waters with Metal Contamination|Bull. Environ. Contam. Toxicol.64(1): 130-136|2000|10.1007/s001289910020
53592|T||Ribeiro,S., L. Guilhermino, J.P. Sousa, and A.M.V.M. Soares|Novel Bioassay Based on Acetylcholinesterase and Lactate Dehydrogenase Activities to Evaluate the Toxicity of Chemicals to Soil Isopods|Ecotoxicol. Environ. Saf.44(3): 287-293|1999|10.1006/eesa.1999.1837
53607|T||Richardson,A.E., M.A. Djordjevic, B.G. Rolfe, and R.J. Simpson|Effects of pH, Ca and Al on the Exudation from Clover Seedlings of Compounds that Induce the Expression of Nodulation Genes in Rhizobium trifolii|Plant Soil109:37-47|1988|10.1007/BF02197578
53608|T||Richardson,C.J., T.W. Sasek, and R.T. Di Giulio|Use of Physiological and Biochemical Markers for Assessing Air Pollution Stress in Trees|ASTM Spec. Tech. Publ.2:143-155|1990|
53609|T||Richardson,R.G.|Absorption, Translocation and Toxicity of Picloram in Silver Leaf Nightshade (Solanum elaeagnifolium Cav.)|J. Aust. Inst. Agric. Sci.45(4): 263-266|1979|
53610|T||Richie,P.J., and T.J. Peterle|Effect of DDE on Circulating Luteinizing Hormone Levels in Ring Doves During Courtship and Nesting|Bull. Environ. Contam. Toxicol.23(1/2): 230-236|1979|
53611|T||Richkind,K.E., and A.D. Hacker|Responses of Natural Wildlife Populations to Air Pollution|J. Toxicol. Environ. Health6:1-10|1980|10.1080/15287398009529826
53614|T||Richmond,M.L., C.J. Henny, R.L. Floyd, R.W. Mannan, D.M. Finch, and L.R. DeWeese|Effects of Sevin-4-Oil, Dimilin, and Orthene on Forest Birds in Northeastern Oregon|Research Paper PSW-148, Pacific Forest and Range Experiment Station, U.S.D.I., Washington, D.C.:19 p.|1979|
53617|A||Riedel,G.F., J.G. Sanders, and R.W. Osman|The Effect of Biological and Physical Disturbances on the Transport of Arsenic from Contaminated Estuarine Sediments|Estuar. Coast. Shelf Sci.25(6): 693-706|1987|10.1016/0272-7714(87)90016-3
53621|T||Riesen,T.K., and I. Brunner|Effect of Ectomycorrhizae and Ammonium on Cs-134 and Sr-85 Uptake into Picea abies Seedlings|Environ. Pollut.93(1): 1-8|1996|10.1016/0269-7491(96)00023-1
53627|T||Ring,S.M., R.P. Fisher, G.J. Poile, K.R. Helyar, M.K. Conyers, S.G. Morris, and N.J. Barrow|Screening Species and Cultivars for Their Tolerance to Acidic Soil Conditions.|Dev. Plant Soil Sci.:767-770|1993|
53631|T||Ritchey,K.D.|Evaluating Sweet-Potato Tolerance to Aluminium Toxicity Comparison of Rapid Test Method and Field Results|Dev. Plant Soil Sci.45:939-945|1991|
53632|T||Ritchey,K.D., T.B. Kinraide, and R.R. Wendell|Interactions of Calcium Sulfite with Soils and Plants|Plant Soil173:329-335|1995|10.1007/BF00011471
53633|T||Rivera,P., S. Vargas, M. Picado, and M. Mercado|Comparative Study of the Susceptibility and Residual Effectiveness of Airborne Spray Deposits of Fenitrothion 40 W.P. on Anopheles albimanus in Two villages of Nicaragua in 1991|J. Fla. Mosq. Control Assoc.64(1): 30-34|1993|
53634|T||Roark,J.H., and J.L. Dale|The Effect of Turf Fungicides on Earthworms|Ark. Acad. Sci. Proc.33:71-79|1979|
53635|A||Roast,S.D., R.S. Thompson, P. Donkin, J. Widdows, and M.B. Jones|Toxicity of the Organophosphate Pesticides Chlorpyrifos and Dimethoate to Neomysis integer (Crustacea:  Mysidacea)|Water Res.33(2): 319-326|1999|10.1016/S0043-1354(98)00248-6
53636|A||Roast,S.D., J. Widdows, and M.B. Jones|Disruption of Swimming in the Hyperbenthic Mysid Neomysis integer (Peracarida:  Mysidacea) by the Organophosphate Pesticide Chlorpyrifos|Aquat. Toxicol.47(3-4): 227-241|2000|10.1016/S0166-445X(99)00016-8
53637|T||Robb,J., L. Busch, and W.E. Rauser|Zinc Toxicity and Xylem Vessel Alterations in White Beans|Ann. Bot.46:43-50|1980|10.1093/oxfordjournals.aob.a085894
53638|T||Robbins,C.T., and L.M. Koger|Prevention and Stimulation of Antler Growth by Injections of Calcium Chloride|J. Wildl. Manag.45(3): 733-737|1981|10.2307/3808709
53639|T||Robbins,K.R., and D.H. Baker|Effect of High-Level Copper Feeding on the Sulfur Amino Acid Need of Chicks Fed Corn-Soybean Meal and Purified Crystalline Amino Acid Diets|Poult. Sci.59:1099-1108|1980|10.3382/ps.0591099
53641|T||Robel,R.J., R.W. Felthousen, and A.D. Dayton|Effects of Carbamates on Bobwhite Food Intake, Body Weight, and Locomotor Activity|Arch. Environ. Contam. Toxicol.11:611-615|1982|10.1007/BF01056370
53642|T||Roberge,M.R.|Effects of Toluene on Microflora and Hydrolysis of Urea in a Black Spruce Humus|Can. J. Microbiol.14:999-1003|1968|10.1139/m68-165
53643|T||Roberts,B.R.|The Response of Field-Grown White Pine Seedlings to Different Sulphur Dioxide Environments|Environ. Pollut.11:175-180|1976|
53644|T||Roberts,D.R., W.D. Alecrim, A.M. Tavares, and K.M. McNeill|Influence of Physiological Condition on the Behavioral-Response of Anopheles-darlingi to DDT|Mosq. News44(3): 357-362|1984|
53647|T||Robertson,B.K., and M. Alexander|Sequestration of DDT and Dieldrin in Soil:  Disappearance of Acute Toxicity but Not the Compounds|Environ. Toxicol. Chem.17(6): 1034-1038|1998|10.1002/etc.5620170608
53648|T||Robertson,J.L., R.L. Lyon, F.L. Shon, and M. Page|Western Blackheaded Budworm:  Toxicity of Five Insecticides to Two Populations|J. Econ. Entomol.66(1): 274-275|1973|10.1093/jee/66.1.274
53649|T||Robertson,J.L., and R.L. Lyon|Douglas-Fir Tussock Moth:  Contact Toxicity of 20 Insecticides Applied to the Larvae|J. Econ. Entomol.66(6): 1255-1257|1973|10.1093/jee/66.6.1255
53650|T||Robertson,J.L., L.M. Boelter, R.M. Russell, and N.E. Savin|Variation in Response to Insecticides by Douglas-Fir Tussock Moth Orgyia pseudotsugata (Lepidoptera: Lymantriidae), Populations|Can. Entomol.110:325-328|1978|10.4039/Ent110325-3
53651|T||Robertson,J.L., and L.M. Boelter|Toxicity of Insecticides to Douglas-Fir Tussock Moth, Orgyia pseudotsugata (Lepidoptera:  Lymantriidae) I. Contact and Feeding Toxicity|Can. Entomol.111(10): 1145-1159|1979|10.4039/Ent1111145-10
53652|T||Robertson,J.L., and M.W. Stock|Toxicological and Electrophoretic Population Characteristics of Western Spruce Budworm, Choristoneura occidentalis (Lepidoptera: Tortricidae)|Can. Entomol.117(1): 57-66|1985|10.4039/Ent11757-1
53655|T||Robinson,D.B., and W.A. Hodgson|Note on the Effect of Some Amino Acids on Manganese Toxicity in Potato|Can. J. Plant Sci.41:436-437|1961|10.4141/cjps61-059
53659|T||Robinson,J.F., E.C. Berry, L.C. Lewis, and R.E. Lynch|European Corn Borer: Host-Plant Resistance and Use of Insecticides|J. Econ. Entomol.71(1): 109-110|1978|10.1093/jee/71.1.109
53660|T||Robinson,N.J., and D.A. Thurman|Copper-Binding Protein in Mimulus guttatus|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:47-50|1985|
53661|A||Robinson,R.D.|The Effects of a Bromoxynil Herbicide on Experimental Prairie Wetlands|M.S.Thesis, McGill University, Montreal, Canada:115 p.|1989|
53663|T||Robocker,W.C., and C.L. Canode|Control of Witchgrass in Fields of Seedling Kentucky Bluegrass|Agron. J.69:455-457|1977|10.2134/agronj1977.00021962006900030030x
53664|T||Robson,A.D., and J.F. Loneragan|Sensitivity of Annual Medicago Species to Manganese Toxicity as Affected by Calcium and pH|Aust. J. Agric. Res.21:223-232|1970|10.1071/AR9700223
53665|T||Robson,A.D., and K. Snowball|The Effect of 2-(4-2',4'-dichlorophenoxy-phenoxy)-methyl propanoate on the Uptake and Utilization of Zinc by Wheat|Aust. J. Agric. Res.40(5): 981-990|1989|10.1071/AR9890981
53668|A||Roche,H., and G. Boge|In Vivo Effects of Phenolic Compounds on Blood Parameters of a Marine Fish (Dicentrarchus labrax)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125:345-353|2000|
53670|T||Rocovich,S.E., and D.A. West|Arsenic Tolerance in a Population of the Grass Andropogon scoparius Michx|Science188:263-264|1975|10.1126/science.188.4185.263
53671|T||Rod,J.|The Effect of Seed Treatment on Clubroot (Plasmodiophora brassicae Wor.) Incidence|Ochr. Rostl. (Multiple Languages)28(1): 1-7|1992|
53674|T||Rodecap,K.D., D.T. Tingey, and E.H. Lee|Iron nutrition influence on cadmium accumulation by Arabidopsis thaliana (L.) Heynh|J. Environ. Qual.23(2): 239-246|1994|10.2134/jeq1994.00472425002300020004x
53675|T||Legraverend,C., T.M. Guenthner, and D.W. Nebert|Importance of the Route of Administration for Genetic Differences in Benzo(a)pyrene-Induced In Utero Toxicity and Teratogenicity|Teratology29:35-47|1984|10.1002/tera.1420290106
53676|T||Rodell,S., B.R. Funke, and J.T. Schultz|Effects of Insecticides on Acetylene Reduction by Azotobacter vinelandii and Soybean Nodules|Plant Soil47(2): 375-381|1977|10.1007/BF00011496
53678|T||Rodenkirchen,H.|Evidence for a Nutritional Disorder of Oxalis acetosella l. On Acid Forest Soils: II. Diagnostic Field Experiments and Nutrient Solution Studies|Plant Soil199(1): 153-166|1998|10.1023/A:1004296115612
53681|A||Rodrguez Moreno,P.A., P.J. Schwarzbaum, and E.M. Rodriguez|Effects of Cadmium on Gill Na, K-ATPase of the Estuarine Crab Chasmagnathus granulata (Decapoda, Grapsidae) During Postmolt: In Vivo and In Vitro Studies|Bull. Environ. Contam. Toxicol.61(5): 629-636|1998|10.1007/s001289900807
53682|T||Rodriguez-Kabana,R., P.A. Backman, and P.S. King|Applications of Sodium Azide for Control of Soilborne Pathogens in Potatoes|Plant Dis. Rep.59(6): 528-532|1975|
53684|A||Rodriguez,E.M., L.S. Lopez Greco, and M. Fingerman|Inhibition of Ovarian Growth by Cadmium in the Fiddler Crab, Uca pugilator (Decapoda, Ocypodidae)|Ecotoxicol. Environ. Saf.46(2): 202-206|2000|10.1006/eesa.1999.1896
53685|T||Rodriguez,J., B.J. Venables, L.C. Fitzpatrick, A.J. Goven, and E.L. Cooper|Suppression of Secretory Rosette Formation by PCBs in Lumbricus terrestris: An Earthworm Immunoassay for Humoral Immunotoxicity of Xenobiotics|Environ. Toxicol. Chem.8:1201-1207|1989|10.1002/etc.5620081213
53686|A||Rodsaether,M.C., J. Olafsen, J. Raa, K. Myhre, and J.B. Steen|Copper as an Initiating Factor of Vibriosis (Vibrio anguillarum) in Eel (Anguilla anguilla)|J. Fish Biol.10(1): 17-21|1977|10.1111/j.1095-8649.1977.tb04037.x
53687|T||Roebuck,B.D., S.I. Nam, D.L. MacMillan, K.J. Baumgartner, and M.E. Walsh|Toxicology of White Phosphorus (P4) to Ducks and Risk for Their Predators:  Effects of Particle Size|Environ. Toxicol. Chem.17(3): 511-518|1998|10.1002/etc.5620170323
53696|T||Rogers,J.E., and S.W. Li|Effect of Metals and Other Inorganic Ions on Soil Microbial Activity:  Soil Dehydrogenase Assay as a Simple Toxicity Test|Bull. Environ. Contam. Toxicol.34:858-865|1985|10.1007/BF01609817
53697|A||Rojickova,R., D. Dvorakova, and B. Marsalek|The Use of Miniaturized Algal Bioassays in Comparison to the Standard Flask Assay|Environ. Toxicol. Water Qual.13(3): 235-241|1998|10.1002/(SICI)1098-2256(1998)13:3<235::AID-TOX5>3.0.CO;2-8
53698|T||Rolfe,G.L., and F.A. Bazzaz|Effect of Lead Contamination on Transpiration and Photosynthesis of Loblolly Pine and Autumn Olive|For. Sci.21(1): 33-35|1975|
53700|T||Romanelli,A., M. Falzoi, A. Mutti, E. Bergamaschi, and I. Franchini|Effects of Some Monocyclic Aromatic Solvents and Their Metabolites on Brain Dopamine in Rabbits|J. Appl. Toxicol.6(6): 431-435|1986|10.1002/jat.2550060609
53701|T||Rombke,J., T. Knacker, B. Forster, and A. Marcinkowski|Comparison of Effects of Two Pesticides on Soil Organisms in Laboratory Tests, Microcosms, and in the Field|In: M.H.Donker, H.Eijasackers, and F.Heimbach (Eds.), Ecotoxicology of Soil Organisms, SETAC Special Publication Series, Lewis Publishing, Boca Raton, FL:229-240|1994|
53704|A||Romeo,M., R.P. Cosson, M. Gnassia-Barelli, C. Risso, X. Stien, and M. LaFaurie|Metallothionein Determination in the Liver of the Sea Bass Dicentrarchus labrax Treated with Copper and B(a)P|Mar. Environ. Res.44(3): 275-284|1997|10.1016/S0141-1136(97)00007-X
53705|A||Romeo,M., N. Bennani, M. Gnassia-Barelli, M. LaFaurie, and J.P. Girard|Cadmium and Copper Display Different Responses Towards Oxidative Stress in the Kidney of the Sea Bass Dicentrarchus labrax|Aquat. Toxicol.48(2/3): 185-194|2000|10.1016/S0166-445X(99)00039-9
53706|T||Romero,I.A., T. Lister, H.K. Richards, M.P. Seville, S.P. Wylie, and D.E. Ray|Early Metabolic Changes During m-Dinitrobenzene Neurotoxicity and the Possible Role of Oxidative Stress|Free Radic. Biol. Med.18(2): 311-319|1995|10.1016/0891-5849(94)E0143-7
53708|T||Romney,E.M., J.D. Childress, and G.V. Alexander|Beryllium and the Growth of Bush Beans|Science185:786-787|1962|10.1126/science.135.3506.786
53709|T||Romney,E.M., A. Wallace, G.V. Alexander, and O.R. Lunt|Effect of Beryllium on Mineral Element Composition of Bush Beans (and toxicity)|J. Plant Nutr.2(1-2): 103-106|1980|10.1080/01904168009362745
53711|T||Ronis,M.J.J., M. Celander, and T.M. Badger|Cytochrome P450 Enzymes in the Kidney of the Bobwhite Quail (Colinus virginianus): Induction and Inhibition by Ergosterol Biosynthesis Inhibiting Fungicides|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 221-229|1998|
53712|T||Ronneau,C.|Contamination of Foliar Surfaces by dry Deposition of Airborne Pollutants|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:497-499|1985|
53715|A||Roque,A., J.F. Turnbull, and B. Gomez-Gil|Delivery of Bioencapsulated Oxytetracycline to the Marine Shrimp Penaeus monodon|J. World Aquac. Soc.29(2): 249-251|1998|10.1111/j.1749-7345.1998.tb00984.x
53717|T||Rosa,N., and H.H. Cheng|The Effect of Soil Composition and Length of Exposure to DDT on Uptake by Tobacco|Tob. Sci.19:71-74|1974|
53719|T||Rosen,J.A., C.S. Pike, and M.L. golden|Zinc, Iron, and Chlorophyll Metabolism in Zinc-Toxic corn|Plant Physiol.59:1085-1087|1977|10.1104/pp.59.6.1085
53720|T||Rosenberg,D.W., G.S. Drummond, and A. Kappas|The Influence of Organometals on Heme Metabolism. In Vivo and In Vitro Studies with Organotins|Mol. Pharmacol.21:150-158|1981|
53722|T||Rosolem,C.A., and E.F. Caires|Yield and Nitrogen Uptake of Peanuts as Affected by Lime, Cobalt and Molybdenum|J. Plant Nutr.21(5): 827-835|1998|10.1080/01904169809365446
53724|T||Ross,P., R. De Swart, R. Addison, H. Van Loveren, J. Vos, and A. Osterhaus|Contaminant-Induced Immunotoxicity in Harbour Seals: Wildlife at Risk?|Toxicology112(2): 157-169|1996|10.1016/0300-483X(96)03396-3
53725|T||Ross,R.G., and D.K.R. Stewart|Movement and Accumulation of Mercury in Apple Trees and Soil|Can. J. Plant Sci.42:280-285|1962|10.4141/cjps62-041
53728|T||Roth,D.R., and T.J. Fahey|The Effects of Acid Precipitation and Ozone on the Ectomycorrhizae of Red Spruce Saplings|Water Air Soil Pollut.103(1-4): 263-276|1998|10.1023/A:1004929801839
53732|T||Rothschild,T.C., E.S. Boylan, R.E. Calhoon, and B.K. Vonderhaar|Transplacental Effects of Diethylstilbestrol on Mammary Development and Tumorigenesis in Female ACI Rats|Cancer Res.47:4508-4516|1987|
53734|T||Rouchaud,J.P., J.R. DeCallonne, and J.A. Meyer|Residues of Triforine and Its Metabolites in Barley Grain and Straw|Bull. Environ. Contam. Toxicol.18(6): 742-748|1977|10.1007/BF01691987
53735|T||Rouchaud,J.P.|Analysis of Piperazine, of the Piperazine Generating Fungicide Triforine, and of Triforine's Metabolites in Barley Plants|Bull. Environ. Contam. Toxicol.18(2): 184-189|1977|10.1007/BF01686065
53736|A||Rouleau,C., M. Block, and H. Tjalve|Kinetics and Body Distribution of Waterborne 65Zn(II), 109Cd(II), 203Hg(II), and CH3 203Hg(II) in Phantom Midge Larvae (Chaoborus americanus) and Effects of Complexing Agents|Environ. Sci. Technol.32(9): 1230-1236|1998|10.1021/es970613k
53737|A||Rouleau,C., C. Gobeil, and H. Tjalve|Accumulation of Silver from the Diet in Two Marine Benthic Predators: The Snow Crab (Chionoecetes opilio) and American Plaice (Hippoglossoides platessoides)|Environ. Toxicol. Chem.19(3): 631-637|2000|10.1002/etc.5620190315
53739|T||Roussel,Y.E., and R. Patenaude|Some Physiological Effects of M99 Etorphine on Immobilized Free-Ranging Moose|J. Wildl. Manag.39(3): 634-636|1975|10.2307/3800411
53740|T||Rout,G.R., S. Samantaray, and P. Das|Differential Chromium Tolerance Among Eight Mungbean Cultivars Grown in Nutrient Culture|J. Plant Nutr.20(4-5): 473-483|1997|10.1080/01904169709365268
53742|T||Rovira,A.D.|Studies on Soil Fumigation - I. Effects on Ammonium, Nitrate and Phosphate in Soil and on the Growth, Nutrition and Yield of Wheat|Soil Biol. Biochem.8:241-247|1976|10.1016/0038-0717(76)90051-1
53743|T||Rowlands,D.G., and D.F. Horler|Penetration of Malathion into Wheat Grains|Proc. Br. Insectic. Fungic. Conf.1:331-335|1967|
53744|T||Rowwouw,J., J. Offermeier, and J.M. Van Rooyen|Apparent Central Neurotransmiiter Receptor Changes Induced by Low-Level Lead Exposure During Different Developmental Phases in the Rat|Toxicol. Appl. Pharmacol.91(1): 132-139|1987|10.1016/0041-008X(87)90200-6
53746|T||Roy,S., and S.R. Mandal|Economic Benefit of Rockhosphate Application to the Kharif Green Manure Crop (Dhaincha) in Rice Mustard Cropping System|Environ. Ecol.17(3): 743-745|1999|
53747|T||Roychowdhury,P., and P. Sukul|Residue Behavior of Fluvalinate in Chili (Capsicum annuum L.) Under Indian Climatic Condition|Bull. Environ. Contam. Toxicol.59(5): 723-727|1997|10.1007/s001289900540
53749|T||Rozsa,K.S., I.V. Chudakova, and L. Hiripi|Effect of Benserazid and 6-Hydroxydopamine on the Development of the Last Larval Instar of the House Cricket, Acheta domestica L|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 83-88|1986|10.1016/0742-8413(86)90016-2
53750|A||Ruby,S.M., R. Hull, and P. Anderson|Sublethal Lead Affects Pituitary Function of Rainbow Trout During Exogenous Vitellogenesis|Arch. Environ. Contam. Toxicol.38(1): 46-51|2000|10.1007/s002449910006
53757|T||Rudra,M., and C.S. Chakrabarti|Genotoxic Effect of Neem Oil on Bone Marrow Cells of Mice (Mus musculus)|Environ. Ecol.17(4): 814-817|1999|
53758|T||Rufener,W.H.,Jr., and M.J. Wolin|Effect of CCl4 on CH4 and Volatile Acid Production in Continuous Cultures of Rumen Organisms and in a Sheep Rumen|Appl. Microbiol.16(12): 1955-1956|1968|10.1128/am.16.12.1955-1956.1968
53759|T||Rufty,T.W.,Jr., C.T. MacKown, D.B. Lazof, and T.E. Carter|Effects of Aluminum on Nitrate Uptake and Assimilation|Plant Cell Environ.18(11): 1325-1331|1995|10.1111/j.1365-3040.1995.tb00192.x
53764|T||Rup,P.J., P. Kaur, and S.K. Sohal|Influence of Coumarin (a Secondary Plant Compound) on the Morphology and Biochemistry of the Mustard Aphid, Lipaphis erysimi (Kalt.)|J. Environ. Biol.19(3): 251-257|1998|
53770|T||Ryan,C.L.J.|Comparing Costs and Efficiency of Fungicides for the Control of Grey Mould in Lettuce|Proc.4th British Insecticide and Fungicide Conference, Volume 1, Held Nov.20-23, 1967, Brighton, England:243-253|1967|
53771|T||Ryan,D., A.Y.H. Lu, S. West, and W. Levin|Multiple Forms of Cytochrome P-450 in Phenobarbital and 3-Methylcholanthrene-Treated Rats|J. Biol. Chem.250(6): 2157-2163|1975|10.1016/S0021-9258(19)41695-5
53774|T||Ryu,B.W., S. Roy, B.R. Sparrow, D.P. Selivonchick, and H.W. Schaup|Ah Receptor Involvement in Mediation of Pyruvate Carboxylase Levels and Activity in Mice Given 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biochem. Toxicol.10(2): 103-109|1995|10.1002/jbt.2570100207
53775|T||Saad,A.S.A., A.H. El-Sebae, and M. Zeid|Susceptibility of Different Corn Varieties in the Presence or Absence of Certain Insecticides to Limothrips cerealium and Rhopalociphum maidis Infestation in Alexandria District|Alex. J. Agric. Res.20(2): 311-320|1972|
53776|T||Sabale,A., and B.N. Misal|Effect of Endosulfan and Methylparathion on Hydrolytic Enzymes in Germinating Seeds of Jowar|J. Environ. Biol.21(1): 29-35|2000|
53777|T||Sabatini,M.A., L. Rebecchi, C. Cappi, A. Guidi, G. Dinelli, A. Vicari, and R. Bertolani|Side Effects of the Herbicide Triasulfuron on Collembola Under Laboratory Conditions|Chemosphere37(14-15): 2963-2973|1998|10.1016/S0045-6535(98)00337-3
53778|T||Sabry,I., and M.M. El Mofty|Seasonal Variation in the Response of the Egyptian Toad (Bufo regularis) to the Carcinogenic Effect of Bayluscide (Bayer 73)|Dirasat13:149-153|1986|
53779|T||Sachan,G.C., and S. Sharma|Effect of Some Insecticides on Germination and Seedling Vigour of Toria Seed|Indian J. Plant Prot.15(1): 65-67|1987|
53780|T||Sachan,J.N., J.K. Verma, and B.P. Srivastava|Effect of the Application of Soil Insecticides on the Germination and Growth of Wheat|Indian J. Entomol.29(2): 185-188|1967|
53784|T||Sadek,I.|Vitamin E and Its Effect on Skin Papilloma|Prasad,K.N.(Ed.), Vitamins Nutrition and Cancer; International Symposium, June 20-22, 1983, Denver, CO:118-122|1984|
53785|T||Sadek,I., F. Abdel-Salam, and K. Al-Qattan|Chemopreventive Effects of Cabbage on 7,12-Dimethylbenz(a)-Anthracene-Induced Hepatocarcinogenesis in Toads (Bufo viridis)|J. Nutr. Sci. Vitaminol.41(1): 163-168|1995|10.3177/jnsv.41.163
53789|T||Safe,S., D. Jones, J. Kohli, L.O. Ruzo, O. Hutzinger, and G. Sundstrom|The Metabolism of Chlorinated Aromatic Pollutants by the Frog|Can. J. Zool.54:1818-1823|1976|10.1139/z76-212
53800|T||Saha,J.G.|Residues In Seedlings Of Ten Wheat Varieties Grown In Dieldrin-Treated Soil|J. Econ. Entomol.65(1): 302-303|1972|10.1093/jee/65.1.302
53801|T||Saha,K., A.K. Somchoudhury, and P.K. Sarkar|Efficacy of Different Antibiotics, Fungicides and Insecticides Against Development of Cephaleuros virescens Kunze Parasitic Algae of Litchi (Litchi chinensis) (Gaertn.) Sonn. Leaf at Laboratory Condition|Environ. Ecol.12(4): 815-817|1994|
53802|T||Saha,T., S. Chatterjee, K. Saha, A. Chowdhury, A.K. Somchoudhury, and A. Bhattacharyya|Residues of Amitraz, a new Acaricide, on Tea|Bull. Environ. Contam. Toxicol.65(2): 215-221|2000|10.1007/s001280000117
53803|T||Sahoo,A., L. Samanta, and G.B.N. Chainy|Mediation of Oxidative Stress in HCH-Induced Neurotoxicity in Rat|Arch. Environ. Contam. Toxicol.39(1): 7-12|2000|10.1007/s002440010073
53804|T||Sahu,M.P., D.D. Sharma, and G.L. Jain|Phosphorus-Copper Interactions in the Incidence of Chlorosis in Garden Peas (Pisum sativum L.) on Calcareous Soil|Plant Soil108(2): 291-293|1988|10.1007/BF02375662
53805|T||Saida,K., J.R. Mendell, and H.S. Weiss|Peripheral Nerve Changes Induced by Methyl n-Butyl Ketone and Potentiation by Methyl Ethyl Ketone|J. Neuropathol. Exp. Neurol.35(3): 207-225|1976|10.1097/00005072-197605000-00001
53807|T||Saigusa,M., T. Matsumoto, and T. Abe|Phytotoxicity of Monomer Aluminum Ions and Hydroxy-Aluminum Polymer Ions in an Andosol|Dev. Plant Soil Sci.64:367-370|1995|
53813|A||Sakwinska,O.|Trimethylamine does not Trigger Antipredatory Life History Shifts in Daphnia|Limnol. Oceanogr.45(4): 988-990|2000|10.4319/lo.2000.45.4.0988
53814|T||Salama,A.K., and M.A. Radwan|Uptake, Excretion, and Metabolism of Phorate in the Land Snail, Helix aspersa (Muller)|J. Environ. Sci. Health30(2): 233-242|1995|
53817|T||Salardini,A.A., L.A. Sparrow, R.J. Holloway, and N.J. Barrow|Effects of Potassium and Zinc Fertilizers, Gypsum and Leaching on Cadmium in the Seed of Poppies (Papaver somniferum l.).  Developments in Plant and Soil Sciences; Plant Nutrition from Genetic Engineering to Field Pract|Dev. Plant Soil Sci.:795-798|1993|
53820|T||Saleh,M.K.I., M.T. Shafik, M. Zeid, and M.A. Ela|The Control of Corn Borers by Granulated Insecticides During the Neely Season|Alex. J. Agric. Res.15(2): 277-306|1967|
53821|T||Salim,M., and R.C. Saxena|Iron Silica and Aluminum Stresses and Varietal Resistance in Rice Effects of Whitebacked Planthopper|Crop Sci.32(1): 212-219|1992|10.2135/cropsci1992.0011183X003200010044x
53822|T||Salim,R., M. Isa, M.M. Al Subu, S.A. Sayrafi, and O. Sayrafi|Effect of Irrigation with Lead and Cadmium on the Growth and on the Metal Uptake of Cauliflower, Spinach and Parsley|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance ControlA30(4): 831-849|1995|
53824|T||Salminen,J., I. Eriksson, and J. Haimi|Effects of Terbuthylazine on Soil Fauna and Decomposition Processes|Ecotoxicol. Environ. Saf.34(2): 184-189|1996|10.1006/eesa.1996.0062
53825|T||Salminen,J., and J. Haimi|Responses of the Soil Decomposer Community and Decomposition Processes to the Combined Stress of Pentachlorophenol and Acid Precipitation|Appl. Soil Ecol.9(1-3): 475-481|1998|10.1016/S0929-1393(98)00108-5
53827|T||Salt,D.E., R.C. Prince, I.J. Pickering, and I. Raskin|Mechanisms of Cadmium Mobility and Accumulation in Indian Mustard|Plant Physiol.109(4): 1427-1433|1995|10.1104/pp.109.4.1427
53828|T||Salunkhe,G.N.|Chemical control of rust red flour beetle tribolium-castaneum on stored sorghum|J. Maharashtra Agric. Univ.7(3): 274-276|1982|
53831|T||Samanta,L., and G.B.N. Chainy|Hexachlorocyclohexane-Induced Changes in Lipid Peroxidation, Superoxide Dismutase and Catalase Activities and Glutathione Content in Chick Liver|Indian J. Exp. Biol.33(2): 131-133|1995|
53832|T||Samikkannu,T., and S.N. Devaraj|Effect of Methacrylonitrile on Rat Lung Antioxidant Enzymes|Bull. Environ. Contam. Toxicol.59(6): 894-900|1997|10.1007/s001289900566
53834|A||Samocha,T.M., H. Guajardo, A.L. Lawrence, F.L. Castille, M. Speed, D.A. McKee, and K.I. Page|A Simple Stress Test for Penaeus vannamei Postlarvae|Aquaculture165(3/4): 233-242|1998|10.1016/S0044-8486(98)00264-6
53838|A||Samson,J.C., and J. Shenker|The Teratogenic Effects of Methylmercury on Early Devleopment of the Zebrafish, Danio rerio|Aquat. Toxicol.48(2/3): 343-354|2000|10.1016/S0166-445X(99)00044-2
53839|T||Samuels,T.D., K. Kucukakyuz, and M. Rincon-Zachary|Al Partitioning Patterns and Root Growth as Related to Al Sensitivity and Al Tolerance in Wheat|Plant Physiol.113(2): 527-534|1997|10.1104/pp.113.2.527
53841|A||Sanchez-Dardon,J., I. Voccia, A. Hontela, S. Chilmonczyk, M. Dunier, H. Boermans, B. Blakley, and M. Fournier|Immunomodulation by Heavy Metals Tested Individually or in Mixtures in Rainbow Trout (Oncorhynchus mykiss) Exposed In Vivo|Environ. Toxicol. Chem.18(7): 1492-1497|1999|10.1002/etc.5620180722
53842|A||Sanchez,F.A.A., and M. De Ariz|Carbofuran Acute and Sublethal Toxicity on Freshwater Algae and Fish|In: P.N.Cheremisinoff (Ed.), Ecological Issues and Environmental Impact Assessment, Gulf Publishing, Houston, TX4:743-764|1997|
53843|T||Sanchez,J.C., M.C. Fossi, and S. Focardi|"Serum ""B"" Esterases as a Nondestructive Biomarker for Monitoring the Exposure of Reptiles to Organophosphorus Insecticides"|Ecotoxicol. Environ. Saf.38(1): 45-52|1997|10.1006/eesa.1997.1560
53845|A||Sanchez,M., M.D. Ferrando, E. Sancho, and E. Andreu|Assessment of the Toxicity of a Pesticide with a Two-Generation Reproduction Test Using Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 247-252|1999|
53846|A||Sanchez,M., M.D. Ferrando, E. Sancho, and E. Andreu|Physiological Perturbations in Several Generations of Daphnia magna Straus Exposed to Diazinon|Ecotoxicol. Environ. Saf.46(1): 87-94|2000|10.1006/eesa.1999.1890
53847|A||Sancho,E., M.D. Ferrando, M. Gamon, and E. Andreu-Moliner|Uptake and Elimination Kinetics of a Pesticide in the Liver of the European Eel|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(1): 83-98|1998|
53848|A||Sancho,E., C. Fernandez-Vega, M. Sanchez, M.D. Ferrando, and E. Andreu-Moliner|Alterations on AChE Activity of the Fish Anguilla anguilla as Response to Herbicide-Contaminated Water|Ecotoxicol. Environ. Saf.46(1): 57-63|2000|10.1006/eesa.1999.1873
53849|T||Sand,P.F., and M.K. McCarty|Chemical Weed Control in Seedling Alfalfa. II. Control Broad-Leaved Weeds|Weeds (Urbana)7:317-323|1959|10.2307/4040340
53851|T||Sander,J.E., J.L. Wilson, G.N. Rowland, and P.J. Middendorf|Formaldehyde Vaporization in the Hatcher and the Effect on Tracheal Epithelium of the Chick|Avian Dis.39(1): 152-157|1995|10.2307/1591996
53854|T||Sanders,G.E., and K.E. Pallett|Studies into the Differential Activity of the Hydroxybenzonitrile Herbicides. II. Uptake, Movement and Metabolism in Two Contrasting Species|Pestic. Biochem. Physiol.28(2): 163-171|1987|10.1016/0048-3575(87)90015-0
53858|T||Sandhu,M.S., and J.T. Moraghan|Influence of Three Chemicals on Soil Biological Activity|Commun. Soil Sci. Plant Anal.3:439-447|1972|10.1080/00103627209366400
53859|T||Sandhu,S.S., T.H. Ma, Y. Peng, and X. Zhou|Clastogenicity Evaluation of Seven Chemicals Commonly Found at Hazardous Industrial Waste Sites|Mutat. Res.224(4): 437-445|1989|10.1016/0165-1218(89)90068-2
53860|T||Sandhu,S.S., J.S. Dhesi, and B.S. Gill|Identification of Aneuploidy-Inducing Agents Using the Wheat Seedling Assay|ASTM Spec. Tech. Publ.2:326-330|1991|
53862|T||Sangalang,J.B., and J.C. Bouwkamp|Selection of Sweet Potato for Tolerance to Aluminum Toxicity: Screening Procedures and Field Test|J. Am. Soc. Hortic. Sci.113(2): 277-281|1988|10.21273/JASHS.113.2.277
53865|T||Sansinanea,A.S., S.I. Cerone, A. Elperding, and N. Auza|Glucose-6-Phosphate Dehydrogenase Activity in Erythrocytes from Chronically Copper-Poisoned Sheep|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.114(3): 197-200|1996|10.1016/0300-9629(95)02136-1
53866|T||Santelmann,P.W., E.O. Burt, and C.J. Willard|The Use of Herbicides in Establishing Legume Seedlings|Weeds (Urbana)4:156-163|1956|10.2307/4039988
53867|A||Santhakumar,M., M. Balaji, K.R. Saravanan, D. Soumady, and K. Ramudu|Effect of Monocrotophos on the Optomotor Behaviour of an Air-Breathing Fish, Anabas testudineus (Bloch)|J. Environ. Biol.21(1): 65-68|2000|
53868|A||Santhakumar,M., and M. Balaji|Acute Toxicity of an Organophosphorus Insecticide Monocrotophos and Its Effects on Behaviour of an Air-Breathing Fish, Anabas testudineus (Bloch)|J. Environ. Biol.21(2): 121-123|2000|
53869|T||Santi,R., and F. Gozzo|Degradation and Metabolism of Drepamon in Rice and Barnyard Grass|J. Agric. Food Chem.24(6): 1229-1235|1976|10.1021/jf60208a006
53871|T||Santos,J.L., A. Fontanellas, M.J. Moran, and R. Enriquez de Salamanca|Nonsynergic Effect of Ethanol and Lead on Heme Metabolism in Rats|Ecotoxicol. Environ. Saf.43(1): 98-102|1999|10.1006/eesa.1999.1774
53874|T||Sanz,M., J. Pascual, and J. Machin|Prognosis and Correction of Iron Chlorosis in Peach Trees: Influence on Fruit Quality|J. Plant Nutr.20(11): 1567-1572|1997|10.1080/01904169709365357
53875|T||Sanzonowicz,C., T.J. Smyth, and D.W. Israel|Hydrogen and Aluminum Inhibition of Soybean Root Extension from Limed Soil into Acid Subsurface Solutions|J. Plant Nutr.21(2): 387-403|1998|10.1080/01904169809365410
53876|T||Sapota,A., J.A. Szymanska, B. Czerski, and J.K. Piotrowski|The Disposition and Metabolism of 2,3-Dibromobenzene in the Rat|Chemosphere39(13): 2229-2238|1999|10.1016/S0045-6535(99)00146-0
53877|T||Sarkar,A.K., and D.L. Deb|Transformation of Applied Zinc fertilizer in Rice Wheat Sequence in Inceptisol|J. Nucl. Agric. Biol.19(2): 101-104|1990|
53878|T||Sarkar,P.K., and N.C. Debnath|Effect of Aluminum Concentration in the Rooting Medium on the Growth and Nutrition of Two Cultivars of Wheat|J. Indian Soc. Soil Sci.37(3): 506-512|1989|
53879|T||Sarkar,P.K.|Effect of Ammonium and Nitrate Forms of Nitrogen on the Growth, Composition and Uptake of Nutrient in Wheat (Triticum aestivum L.)|Environ. Ecol.12(3): 491-496|1994|
53880|T||Sarkar,S., and N.C. Aery|Effect of Zinc on Growth of Soybean|Indian J. Plant Physiol.33(3): 239-241|1990|
53883|A||Sarma,S.S.S., T. Ramirez Perez, and S. Nandini|Comparison of the Sensitivitiy of Branchionus calyciflorus and Branchionus patulus (Rotifera) to Selected Heavy Metals Under Low and high Food (Chlorella vulgaris) Levels|Bull. Environ. Contam. Toxicol.64(5): 735-739|2000|10.1007/s001280000065
53884|A||Sartory,D.P., and B.J. Lloyd|The Toxic Effects of Selected Heavy Metals on Unadapted Populations of Vorticella convallaria var. similis|Water Res.10(12): 1123-1127|1976|10.1016/0043-1354(76)90045-2
53885|T||Sarup,P., P. Sircar, D.N. Sharma, D.S. Singh, S. Dhingra, R.S. Dewan, and R. Lal|Evaluation of Biological Efficacy of Insecticidal Granular Formulations Against Some Important Predator/Pests of Pea Crop|Indian J. Entomol.36(2): 153-159|1974|
53887|T||Sasaki,M., M. Kasai, Y. Yamamoto, and H. Matsumoto|Involvement of Plasma Membrane Potential in the Tolerance Mechanism of Plant Roots to Aluminium Toxicity|Plant Soil171(1): 119-124|1995|10.1007/BF00009573
53888|T||Sasaki,M., Y. Yamamoto, J.F. Ma, and H. Matsumoto|Early Events Induced by Aluminum Stress in Elongating Cells of Wheat Root|Soil Sci. Plant Nutr.43(5): 1009-1014|1997|10.1080/00380768.1997.11863708
53889|A||Sasaki,Y.F., F. Izumiyama, E. Nishidate, S. Ishibashi, S. Tsuda, N. Matsusaka, N. Asano, K. Saotome, T. Sofuni, and M. |Detection of Genotoxicity of Polluted Sea Water Using Shellfish and the Alkaline Single-Cell Gel Electrophoresis (SCE) Assay: A Preliminary Study|Mutat. Res.393(1-2): 133-139|1997|10.1016/S1383-5718(97)00098-3
53890|A||Sasikumar,N., A.S. Clare, D.J. Gerhart, D. Stover, and D. Rittschof|Comparative Toxicities of Selected Compounds to Nauplii of Balanus amphitrite amphitrite Darwin and Artemia sp.|Bull. Environ. Contam. Toxicol.54(2): 289-296|1995|10.1007/BF00197443
53895|A||Sato,S., T. Matsushima, N. Tanaka, T. Sugimura, and F. Takashima|Hepatic Tumors in the Guppy (Lebestes reticulatas) Induced by Aflatoxin b1, Dimethylnitrosamine, and 2-Acetylaminofluorene|J. Natl. Cancer Inst.50:767-778|1973|10.1093/jnci/50.3.767
53896|T||Satoh,T., and K. Moroi|Effect of Pretreatment with Tricresylphosphates and Phenobarbital on the Metabolism and Toxicity of Procaine in Rats|Jpn. J. Pharmacol.27:233-237|1977|10.1254/jjp.27.233
53897|T||Saunders,D.G., and C.D. Forgie|Some Effects of Phorate on Earthworm Populations|Proc. N. Z. Weed Pest Control Conf.:222-226|1977|10.30843/nzpp.1977.30.9028
53898|T||Saunders,J.L., and W.R. Harrigan|Chemical Control of Eriophyoid Mites on Scots Pine|J. Econ. Entomol.69(3): 333-335|1976|10.1093/jee/69.3.333
53899|T||Saur,E.|Interactive Effects of P-Cu Fertilizers on Growth and Mineral Nutrition of Maritime Pine|New For. 7(2): 93-105|1993|10.1007/BF00034193
53900|A||Sauvant,M.P., D. Pepin, J. Bohatier, and C.A. Groliere|Effects of Chelators on the Acute Toxicity and Bioavailability of Aluminium to Tetrahymena pyriformis|Aquat. Toxicol.47(3/4): 259-275|2000|10.1016/S0166-445X(99)00015-6
53901|T||Sauve,S., N. Cook, W.H. Hendershot, and M.B. McBride|Linking Plant Tissue Concentrations and Soil Copper Pools in Urban Contaminated Soils|Environ. Pollut.94(2): 153-157|1996|10.1016/S0269-7491(96)00081-4
53902|T||Savabieasfahani,M., R.L. Lochmiller, D.P. Rafferty, and J.A. Sinclair|Sensitivity of Wild Cotton Rats (Sigmodon hispidus) to the Immunotoxic Effects of Low-Level Arsenic Exposure|Arch. Environ. Contam. Toxicol.34(3): 289-296|1998|10.1007/s002449900320
53906|T||Sawan,Z.M., B.R. Gregg, and S.E. Yousef|Effect of Phosphorus, Chelated Zinc and Calcium on Cotton Seed Yield, Viability and Seedling Vigour|Seed Sci. Technol.27(1): 329-337|1999|
53907|A||Sawhney,A.K., and M.S. Johal|Potential Application of Elemental Analysis of Fish Otoliths as Pollution Indicator|Bull. Environ. Contam. Toxicol.63(6): 698-702|1999|10.1007/s001289901036
53908|A||Sawhney,A.K., and M.S. Johal|Erythrocyte Alterations Induced by Malathion in Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.64(3): 398-405|2000|10.1007/s001280000014
53909|T||Saxena,P.N.|Assessment of Certain Responses After Dietary Phosphamidon Consumption in Passer domesticus|J. Environ. Biol.16(1): 83-88|1995|
53910|T||Saxena,P.N., and P. Saxena|Haemogrammic Studies in Albino Rat After Cybil Intoxication|J. Environ. Biol.18(4): 425-428|1997|
53911|T||Saxena,P.N., and Y.K. Gupta|Effect of Mexacarbate on Certain Liver Biochemical Parameters of Passer domesticus (Linnaeus)|J. Environ. Biol.18(3): 229-232|1997|
53914|A||Say,P.J., and B.A. Whitton|Influence of Zinc on Lotic Plants. II. Environmental Effects on Toxicity of Zinc to Hormidium rivulare|Freshw. Biol.7(4): 377-384|1977|10.1111/j.1365-2427.1977.tb01685.x
53915|A||Sayler,G.S., J.D. Nelson, and R.R. Colwell|Role of Bacteria in Bioaccumulation of Mercury in the Oyster Crassostrea virginica|Appl. Microbiol.30:91-96|1975|10.1128/am.30.1.91-96.1975
53916|A||Scanferlato,V.S., and J.,Jr. Cairns|Effect of Sediment-Associated Copper on Ecological Structure and Function of Aquatic Microcosms|Aquat. Toxicol.18(1): 23-34|1990|10.1016/0166-445X(90)90033-L
53917|T||Schaaf,W., L.O. Nilsson, R.F. Huttl, and U.T. Johansson|Effects of Mg(oh)-2-Fertilization on Nutrient Cycling in a Heavily Damaged Norway Spruce Ecosystem (ne bavaria/frg)|Dev. Plant Soil Sci.:505-511|1995|10.1007/BF00029363
53918|A||Schaanning,M.T., K. Hylland, D.O. Eriksen, T.D. Bergan, J.S. Gunnarson, and J. Skei|Interactions Between Eutrophication and Contaminants. II. Mobilization and Bioaccumulation of Hg and Cd from Marine Sediments|Mar. Pollut. Bull.33(1-6): 71-79|1997|10.1016/S0025-326X(97)00023-4
53924|T||Schantz,S.L., J. Moshtaghian, and D.K. Ness|Spatial Learning Deficits in Adult Rats Exposed to Ortho-Substituted PCB Congeners During Gestation and Lactation|Fundam. Appl. Toxicol.26(1): 117-126|1995|10.1006/faat.1995.1081
53926|T||Scheidemann,P., A. Klunk, C. Sens, and D. Werner|Species Dependent Uptake and Tolerance of Nitroaromatic Compounds by Higher Plants|J. Plant Physiol.152(2/3): 242-247|1998|10.1016/S0176-1617(98)80139-9
53936|T||Scheuing,M.R., and M. Singer|The Effects of Microquantities of Beryllium Ion on the Regenerating Forelimb of the Adult Newt, Triturus|J. Exp. Zool.136:301-327|1957|10.1002/jez.1401360207
53937|T||Scheunert,I., J. Kohli, R. Kaul, and W. Klein|Fate of (14C)Aldrin in Crop Rotation Under Outdoor Conditions|Ecotoxicol. Environ. Saf.1(3): 365-386|1977|10.1016/0147-6513(77)90028-8
53939|T||Scheunert,I., C. Marra, R. Viswanathan, W. Klein, and F. Korte|Fate of Hexachlorobenzene-14C in Wheat Plants and Soil Under Outdoor Conditions|Chemosphere12(6): 843-858|1983|10.1016/0045-6535(83)90151-0
53940|T||Scheunert,I., Z. Qiao, and F. Korte|Comparative Studies of the Fate of Atrazine-14C and Pentachlorophenol-14C in Various Laboratory and Outdoor Soil-Plant Systems|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(6): 457-485|1986|
53941|T||Schier,G.A., and C.J. McQuattie|Response of Ectomycorrhizal and Nonmycorrhizal Pitch Pine (Pinus rigida) Seedlings to Nutrient Supply and Aluminum: Growth and Mineral Nutrition|Can. J. For. Res.26(12): 2145-2152|1996|10.1139/x26-243
53942|T||Schier,G.A., and C.J. McQuattie|Effect of Nitrogen Source on Aluminum Toxicity in Nonmycorrhizal and Ectomycorrhizal Pitch Pine Seedling|J. Plant Nutr.22(6): 951-965|1999|10.1080/01904169909365685
53943|T||Schier,George A., and C.J. McQuattie|Effect of Aluminum on the Growth, Anatomy, and Nutrient Content of Ectomycorrhizal and Nonmycorrhizal Eastern White Pine Seedlings|Can. J. For. Res.25(8): 1252-1262|1995|10.1139/x95-138
53946|T||Schiffgens-Gruber,A., and C. Lutz|Ultrastructure of Mesophyll Cell Chloroplasts of Spruce Needles Exposed to O3, SO2 and NO2 Alone and in Combination|Environ. Exp. Bot.32(3): 243-254|1992|10.1016/0098-8472(92)90007-O
53950|T||Schlegel,H., and D.L. Godbold|The Influence of Aluminum on the Metabolism of Spruce Needles|Water Air Soil Pollut.57-58(0): 131-138|1991|10.1007/BF00282876
53952|A||Schlekat,C.E., A.W. Decho, and G.T. Chandler|Bioavailability of Particle-Associated Silver, Cadmium, and Zinc to the Estuarine Amphipod Leptocheirus plumulosus Through Dietary Ingestion|Limnol. Oceanogr.45(1): 11-21|2000|10.4319/lo.2000.45.1.0011
53953|A||Schlenk,D., and A. El-Alfy|Expression of Branchial Flavin-Containing Monooxygenase is Directly Correlated with Salinity-Induced Aldicarb Toxicity in the Euryhaline Fish (Oryzias latipes)|Mar. Environ. Res.46(1-5): 103-106|1998|10.1016/S0141-1136(97)00123-2
53957|T||Schmid,W.E., H.P. Haag, and E. Epstein|Absorption of Zinc by Excised Barley Roots|Physiol. Plant. (Multiple Languages)18:860-|1965|10.1111/j.1399-3054.1965.tb06945.x
53958|T||Schmidt,G.H., N.M.M. Ibrahim, and M.D. Abdallah|Toxicological Studies on the Long-Term Effects of Heavy Metals (Hg, Cd, Pb) in Soil on the Development of Aiolopus thalassinus (Fabr.) (Saltatoria: Acrididae)|Sci. Total Environ.107:109-133|1991|10.1016/0048-9697(91)90254-C
53959|T||Schmidt,G.H., N.M.M. Ibrahim, and M.D. Abdallah|Long-Term Effects of Heavy Metals in Food on Developmental Stages of Aiolopus thalassinus (Saltatoria: Acrididae)|Arch. Environ. Contam. Toxicol.23(3): 375-382|1992|10.1007/BF00216248
53961|T||Schmidt,Wolfgang|Iron stress-induced redox reactions in bean roots|Physiol. Plant. (Multiple Languages)89(3): 448-452|1993|10.1111/j.1399-3054.1993.tb05197.x
53963|A||Schmude,K.L., K. Liber, T.D. Corry, and F.S. Stay|Effects of 4-Nonylphenol on Benthic Macroinvertebrates and Insect Emergence in Littoral Enclosures|Environ. Toxicol. Chem.18(3): 386-393|1999|
53964|T||Schnabel,W.E., A.C. Dietz, J.G. Burken, J.L. Schnoor, and P.J. Alvarez|Uptake and Transformation of Trichloroethylene by Edible Garden Plants|Water Res.31(4): 816-824|1997|10.1016/S0043-1354(96)00303-X
53966|T||Schneider,C.L., H.S. Potter, and D.L. Reichard|Tests with Fungicides to Control Rhizoctonia Crown Rot of Sugarbeet|J. Am. Soc. Sugar Beet Technol.19(2): 150-156|1976|10.5274/jsbr.19.2.150
53970|T||Schneider,M., M.I. Resnick, and K.F. Wellmann|Increased Bone Formation in Rabbits Following Intravenous and Intra-Osseous Injection of Zinc Beryllium Silicate|Clin. Orthop. Relat. Res.92:251-259|1973|10.1097/00003086-197305000-00023
53971|T||Schneider,N.R., S.L. Bradley, and M.E. Andersen|Toxicology of Cyclotrimethylenetrinitramine: Distribution and Metabolism in the Rat and the Miniature Swine|Toxicol. Appl. Pharmacol.39(3): 531-541|1977|10.1016/0041-008X(77)90144-2
53972|T||Schneider,N.R., S.L. Bradley, and M.E. Andersen|The Distribution and Metabolism of Cyclotrimethylenetrinitramine (RDX) in the Rat After Subchronic Administration|Toxicol. Appl. Pharmacol.46(1): 163-171|1978|10.1016/0041-008X(78)90147-3
53973|T||Schnelle,M.A., and D.L. Hensley|Effects of Pesticides upon Nitrogen Fixation and Nodulation by Dry Bean|Pestic. Sci.28:83-88|1990|10.1002/ps.2780280110
53974|T||Schoenig,G.P., R.E.,Jr. Hartnagel, T.G. Osimitz, and S. Llanso|Absorption, Distribution, Metabolism, and Excretion of N,N-Diethyl-M-Toluamide in the Rat|Drug Metab. Dispos.24(2): 156-163|1996|
53975|A||Schoettger,R.A., and A.M. Julin|Efficacy of Quinaldine as an Anesthetic for Seven Species of Fish|Invest.Fish Control No.22, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:10 p. |1969|
53976|A||Schoettger,R.A., C.R. Walker, L.L. Marking, and A.M. Julin|MS-222 as an Anesthetic for Channel Catfish:  Its Toxicity, Efficacy, and Muscle Residues|Invest.Fish Control No.17, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:1-14|1967|
53977|T||Schoettli,G., and H.G. Seiler|Uptake and Localization of Radioactive Zinc in the Visceral Complex of the Land Pulmonate Arion rufus|Experientia26:1212-1213|1970|10.1007/BF01897971
53978|T||Schomberg,H.H., and R.W. Weaver|Growth and Nitrogen Fixation Response of Arrowleaf Clover to Manganese and pH in Solution Culture|Dev. Plant Soil Sci.45:641-647|1991|
53979|T||Schotz,A.H., C.J. Asher, F.P.C. Blamey, and K.E. Basford|Manganese Toxicity in Sunflower Lines|Dev. Plant Soil Sci.42:231-236|1990|
53983|T||Schread,J.C.|Control of Lace Bugs on Broadleaf Evergreens|Conn. Agric. Exp. Stn. Bull. (New Haven)684:3-7|1968|
53984|T||Schreiber,L., and J. Schonherr|Uptake of Organic Chemicals in Conifer Needles: Surface Adsorption and Permeability of Cuticles|Environ. Sci. Technol.26(1): 153-159|1992|10.1021/es00025a017
53985|T||Schreiber,S.S., M. Oratz, M.A. Rothschild, F. Reff, and C. Evans|Alcoholic Cardiomyopathy, II. The Inhibition of Cardiac Microsomal Protein Synthesis by Acetaldehyde|J. Mol. Cell. Cardiol.6:207-213|1974|10.1016/0022-2828(74)90023-6
53987|T||Schricker,B., and W.P. Stephen|The Effect of Sublethal Doses of Parathion on Honeybee Behaviour.  I.  Oral Administration and the Communication Dance|J. Apic. Res.9(3): 141-153|1970|10.1080/00218839.1970.11100261
53988|T||Schreiber,M.M.|Pre-Emergence Herbicides on Alfalfa and Birdsfoot Trefoil|Weeds (Urbana)8:291-299|1960|10.2307/4040494
53989|T||Schroder,P., and R. Debus|Responses of Spruce Trees (Picea abies. L. KARST) to Fumigation with Halone 1211-First Results of a Pilot Study|ASTM Spec. Tech. Publ.2:258-266|1991|
53990|T||Schroeder,H.A., and M. Mitchener|Life-Term Studies in Rats:  Effects of Aluminum, Barium, Beryllium, and Tungsten|J. Nutr.105:421-427|1975|10.1093/jn/105.4.421
53991|T||Schroeder,M., and G.F. Warren|Relative Sensitivity of Several Plants to Dinoseb|Weed Sci.19(6): 671-674|1971|10.1017/S004317450005102X
53992|T||Schroeder,W.H., J. Bauch, and R. Endeward|Microbeam analysis of calcium exchange and uptake in the fine roots of spruce: influence of pH and aluminum|Trees2(2): 96-103|1988|
53993|T||Schroeder,W.J., R.A. Sutton, and J.B. Beavers|Diaprepes abbreviatus: Fate of Diflubenzuron and Effect on Nontarget Pests and Beneficial Species After Application to Citrus for Weevil Control|J. Econ. Entomol.73:637-638|1980|10.1093/jee/73.5.637
53995|T||Schubert,C.L., D.J. Erasmus, L.P. Van Dyk, and V. Gray|Cabbage Seed Germination for the Assessment of Adjuvant Effects on 2,4-D Iso-Octyl Ester Volatility|S. Afr. J. Plant Soil10(3): 144-146|1993|10.1080/02571862.1993.10634660
54000|T||Schultz,C.L., and T.C. Hutchinson|Copper Tolerance in the Grass Deschampsia cespitosa:  Metallothionein Involved?|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:51-54|1985|
54001|A||Schultz,I.R., and W.L. Hayton|Interspecies' Scaling of the Bioaccumulation of Lipophilic Xenobiotics in Fish:  An Example Using Trifluralin|Environ. Toxicol. Chem.18(7): 1440-1449|1999|10.1002/etc.5620180714
54005|A||Schulz,R., and M. Liess|Toxicity of Fenvalerate to Caddisfly Larvae:  Chronic Effects of 1- vs 10-h Pulse-Exposure with Constant Doses|Chemosphere41:1511-1517|2000|10.1016/S0045-6535(00)00107-7
54006|T||Schulze,E.F.|Comparative Studies on the Effectiveness of Different DNBP Esters on Spider Mites|Proc.4th British Insecticide and Fungicide Conference, Volume 1, Held Nov.20-23, 1967, Brighton, England:444-450|1967|
54007|T||Schumann,K., P. Friebel, G. Schmolke, and B. Elsenhans|State of Iron Repletion and Cadmium Tissue Accumulation as a Function of Growth in Young Rats After Oral Cadmium Exposure|Arch. Environ. Contam. Toxicol.31(4): 483-487|1996|10.1007/BF00212431
54009|T||Schuurmann,G., R.K. Somashekar, and U. Kristen|Structure-Activity Relationships for Chloro- and Nitrophenol Toxicity in the Pollen Tube Growth Test|Environ. Toxicol. Chem.15(10): 1702-1708|1996|
54010|A||Schuytema,G.S., A.V. Nebeker, W.L. Griffis, and C.E. Miller|Effects of Freezing on Toxicity of Sediments Contaminated with DDT and Endrin|Environ. Toxicol. Chem.8(10): 883-891|1989|10.1002/etc.5620081007
54011|T||Schuytema,G.S., A.V. Nebeker, and W.L. Griffis|Effects of Dietary Exposure to Forest Pesticides on the Brown Garden Snail Helix aspersa Muller|Arch. Environ. Contam. Toxicol.26(1): 23-28|1994|10.1007/BF00212789
54013|T||Schwab,A.P., M.B. Tomecek, and P.D. Ohlenbusch|Plant Availability of Lead, Cadmium and Boron in Amended Coal Ash|Water Air Soil Pollut.57-58:297-306|1991|10.1007/BF00282893
54014|T||Schwab,A.P., A.A. Al Assi, and M.K. Banks|Adsorption of Naphthalene Onto Plant Roots|J. Environ. Qual.27(1): 220-224|1998|10.2134/jeq1998.00472425002700010031x
54017|T||Schwartz,J.L., and R.L. Lyon|Contact Toxicity of Five Insecticides to California Oakworm Reared on an Artificial Diet|J. Econ. Entomol.64(1): 146-148|1971|10.1093/jee/64.1.146
54018|T||Schwarz,K., and D.B. Milne|Growth Effects of Vanadium in the Rat|Science174:426-428|1971|10.1126/science.174.4007.426
54019|A||Schweitzer,L.E., S.M. Bay, and I.H. Suffet|Dietary Assimilation of a Polychlorinated Biphenyl in Adult Sea Urchins (Lytechinus pictus) and Maternal Transfer to Their Offspring|Environ. Toxicol. Chem.19(7): 1919-1924|2000|10.1002/etc.5620190729
54023|T||Sckerl,M.M., and R.E. Frans|Translocation and Metabolism of MAA-14C in Johnsongrass and Cotton|Weed Sci.17:421-427|1969|10.1017/S0043174500054436
54025|A||Scott-Fordsmand,J.J., and M.H. Depledge|Changes in the Tissue Concentrations and Contents of Calcium, Copper and Zinc in the Shore Crab Carcinus maenas (L.) (Crustacea:  Decapoda) During the Moult Cycle and Following Copper Exposure During Ecdysis|Mar. Environ. Res.44(4): 397-414|1997|10.1016/S0141-1136(97)00015-9
54026|T||Scott,B.J., J.A. Fisher, and L.J. Spohr|Tolerance of australian wheat varieties to aluminium toxicity|Commun. Soil Sci. Plant Anal.23(5-6): 509-526|1992|10.1080/00103629209368606
54031|T||Seal,B.S., and H.J. Weeth|Effect of Boron in Drinking Water on the Male Laboratory Rat|Bull. Environ. Contam. Toxicol.25:782-789|1980|10.1007/BF01985608
54036|T||Seefeld,M.D., and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Weight Loss: A Proposed Mechanism|In: R.E.Tucker, A.L.Young, and A.P.Gray (Eds.), Human and Environmental Risks of Chlorinated Dioxins and Related Compounds, Plenum Press, NY:405-413|1983|
54037|T||Seegal,R.F.|Are PCBs the Major Neurotoxicant in Great Lakes Salmon?|Environ. Res.80(2): S38 - S45|1999|10.1006/enrs.1998.3907
54039|T||Seidel,G.E., and R.C. Whitmore|Effects of Dimilin Application on White-Footed Mouse Populations in a Central Appalachian Forest|Environ. Toxicol. Chem.14(5): 793-799|1995|
54040|T||Seidel,H.J.|The Effect of Dimethylbenz(a)anthracene on Murine Hematopoiesis|Z. Krebsforsch. Klin. Onkol.89(2): 221-229|1977|10.1007/BF00308520
54042|T||Seidman,L., G. Bergtrom, and C.C. Remsen|Structure of the Larval Midgut of the Fly Chironomus thummi and Its Relationship to Sites of Cadmium Sequestration|Tissue Cell18(3): 407-418|1986|10.1016/0040-8166(86)90060-1
54045|T||Seinen,W., J.G. Vos, R. Van Krieken, A. Penninks, R. Brands, and H. Hooykaas|Toxicity of Organotin Compounds. III. Suppression of Thymus-Dependent Immunity in Rats by Di-n-Butyltindichloride and Di-n-Octyltindichloride|Toxicol. Appl. Pharmacol.42:213-224|1977|10.1016/0041-008X(77)90211-3
54046|T||Seinhorst,J.W., and H.A. Van Hoof|The Effect of DD and Dazomet Treatments on Nematode Populations at Various Depths in the Soil and on the Transmission of Soil-Borne Tobacco Rattle Virus to Gladiolus|Neth. J. Plant Pathol.82:215-230|1976|10.1007/BF03041377
54048|A||Selck,H., V.E. Forbes, and T.L. Forbes|Toxicity and Toxicokinetics of Cadmium in Capitella sp. I:  Relative Importance of Water and Sediment as Routes of Cadmium Uptake|Mar. Ecol. Prog. Ser.164:167-178|1998|10.3354/meps164167
54050|A||Sellem,F., D. Pesando, G. Bodennec, A.E. Abed, and J.P. Girard|Toxic Effects of Gymnodinium cf. Mikimotoi Unsaturated Fatty Acids to Gametes and Embryos of the Sea Urchin Paracentroutus lividus|Water Res.34(2): 550-556|2000|10.1016/S0043-1354(99)00181-5
54052|A||Selvakumar,S., and T.M. Haridasan|Toxic Effects of Heavy Metals Copper, Zinc, Cadmium and Mercury on the Zoeal Development of Sesarminid Crab Nanosesarma (Beanium) batavicum|J. Environ. Biol.21(2): 101-104|2000|
54053|T||Sen-Sarma,P.K., and S.C. Mishra|Bioassay of Silica Aerogel Against Wood Inhabiting Termite Neotermes bosei Snyder|Indian J. Entomol.38(1): 11-17|1976|
54055|T||Sengupta,R.K., P. Chaudhuri, and P. Ghosh|Effect of Heavy Metal Compounds on Nucleolus of Root Meristematic Cells of Pisum sativum L|J. Environ. Biol.19(2): 91-98|1998|
54058|T||Sens,C., P. Scheidemann, and D. Werner|The Distribution of 14C-TNT in Different Biochemical Compartments of the Monocotyledonous Triticum aestivum|Environ. Pollut.104(1): 113-119|1999|10.1016/S0269-7491(98)00142-0
54059|T||Serda,S., and A. Furst|Acute Toxicity of Selenium to Earthworms|Proc. West. Pharmacol. Soc.30:227-228|1987|
54060|T||Serek,M., and A.S. Andersen|Polyamine Uptake does not Affect Floral Longevity in Miniature Potted Roses|Hortscience29(3): 196-198|1994|10.21273/HORTSCI.29.3.196
54061|A||Serra,R., C. Barghigiani, A. Rossi, O. Cattani, and E. Carpene|Mercury Concentrations in Tissues of Solea solea Treated with HgCl2|Oebalia22:113-118|1996|
54064|T||Sethunathan,N., and T. Yoshida|Fate of Diazinon in Submerged Soil:  Accumulation of Hydrolysis Product|J. Agric. Food Chem.17(6): 1192-1195|1969|10.1021/jf60166a045
54068|T||Seymour,N.P., J.P. Thompson, and M.L. Fiske|Phytotoxicity of Fosetyl Al and Phosphonic Acid to Maize During Production of Vesicular-Arbuscular Mycorrhizal Inoculum|Plant Dis.78(5): 441-446|1994|10.1094/PD-78-0441
54071|T||Shafer,S.R., U. Blum, S.J. Horton, and D.L. Hesterberg|Biomass of Tomato Seedlings Exposed to an Allelopathic Phenolic Acid and Enriched Atmospheric Carbon Dioxide|Water Air Soil Pollut.106:123-136|1998|10.1023/A:1004944731826
54073|A||Shaffi,S.A., S.P. Norton, Y.R. Manohar, and M.J. Nandan|Distribution of Hexokinase and ATPase in the Brain of DDT-Exposed Fish|Bull. Environ. Contam. Toxicol.64(3): 406-411|2000|10.1007/s001280000015
54075|T||Shah,K., and R.S. Dubey|Cadmium Alters Phosphate Level and Suppresses Activity of Phosphorolytic Enzymes in Germinating Rice Seeds|J. Agron. Crop Sci.179(1): 35-45|1997|10.1111/j.1439-037X.1997.tb01145.x
54076|T||Shah,Kavita, and R.S. Dubey|Cadmium Elevates Level of Protein, Amino Acids and Alters Activity of Proteolytic Enzymes in Germinating Rice Seeds|Acta Physiol. Plant.20(2): 189-196|1998|10.1007/s11738-998-0013-5
54077|T||Shah,P.V., R.J. Monroe, and F.E. Guthrie|Comparative Penetration of Insecticides in Target and Non-Target Species|Drug Chem. Toxicol.6(2): 155-179|1983|10.3109/01480548309016022
54078|T||Shamsuddin,Z.H., J.F. Loneragan, and M.J. Dilworth|Tolerance of winged bean psophocarpus-tetragonolobus and its symbiotic system to soil acidity|Dev. Plant Soil Sci.45:611-618|1991|
54079|T||Shamsuddin,Z.H., R. Kasran, D.G. Edwards, and F.P.C. Blamey|Effects of Calcium and Aluminum on Nodulation, Nitrogen Fixation and Growth of Groundnut in Solution Culture|Plant Soil144(2): 273-279|1992|10.1007/BF00012885
54080|T||Shan,Y., T. Izuta, M. Aoki, and T. Totsuka|Effects of O3 and Soil Acidification, Alone and in Combination, on Growth, Gas Exchange Rate and Chlorophyll Content of Red Pine Seedlings|Water Air Soil Pollut.97(3-4): 355-366|1997|10.1007/BF02407472
54081|T||Shanker,K., S. Mishra, S. Srivastava, R. Srivastava, S. Dass, S. Prakash, and M.M. Srivastava|Study of Mercury-Selenium (Hg-Se) Interactions and Their Impact on Hg Uptake by the Radish (Raphanus sativus) Plant|Food Chem. Toxicol.34(9): 883-886|1996|10.1016/S0278-6915(96)00047-6
54082|T||Shann,J.R., and P.M. Bertsch|Differential Cultivar Response to Polynuclear Hydroxo-aluminum Complexes|Soil Sci. Soc. Am. J.78(5): 116-120|1993|10.2136/sssaj1993.03615995005700010022x
54085|T||Sharma,A.K., and S. Ghosh|Chemical Basis of the Acton of Cresols and Nitrophenols on Chromosomes|Nucleus8(2): 183-190|1965|
54087|T||Sharma,B.M., and J.S.P. Yadav|Effect of Exchangeable Sodium Percentage on Availability of Iron and Manganese to Rice and Wheat|J. Indian Soc. Soil Sci.36(1): 138-141|1988|
54089|T||Sharma,D.P., D.C. Ferree, and F.O. Hartman|Multiple Applications of Dicofol and Dodine Sprays on Net Photosynthesis of Apple Leaves|Hortscience12(2): 154-155|1977|10.21273/HORTSCI.12.2.154
54090|T||Sharma,K.N., and D.L. Deb|Uptake of Zinc by Wheat Plants in Soils in Relation to their Diffusion Coefficients Under Varying Physical and Chemical Environment II. Effect of Soil Bulk Density|J. Nucl. Agric. Biol.19(1): 29-33|1990|
54091|T||Sharma,K.N., and D.L. Deb|Uptake of Zinc by Wheat Plants in Relation to Their Diffusion Coefficients Under Varying Physical and Chemical Environment IV. Effect of Organic Manures Addition|J. Nucl. Agric. Biol.20(2): 102-107|1991|
54092|T||Sharma,L.L., and P.N. Saxena|Carbaryl Induced Haematological Changes in Columba livia Gmelin|J. Environ. Biol.18(1): 17-22|1997|
54093|T||Sharma,L.L., and P.N. Saxena|Furadan SP50 Induced Haematological Responses of Blue-Rock Pigeon, Columba livia Gmelin|Bull. Environ. Contam. Toxicol.61:297-302|1998|10.1007/s001289900762
54094|T||Sharma,R., E. Kaur, and K. Sharma|Differential Varietal Response of Raya Germination and Early Seedling Growth to Polyethylene Glycol Induced Water Stress|Environ. Ecol.12(1): 1-8|1994|
54097|T||Sharma,S.S., H. Schat, R. Vooijs, and L.M. Van Heerwaarden|Combination Toxicology of Copper, Zinc, and Cadmium in Binary Mixtures: Concentration-Dependent Antagonistic, Nonadditive, and Synergistic Effects on Root Growth in Silene vulgaris|Environ. Toxicol. Chem.18(2): 348-355|1999|
54099|A||Sharp,A.A., and D.E. Stearns|Sublethal Effects of Cupric Ion Activity on the Grazing Behaviour of Three Calanoid Copepods|Mar. Pollut. Bull.34(12): 1041-1048|1997|10.1016/S0025-326X(97)00096-9
54100|T||Sharpe,R.M., J.S. Fisher, M.M. Millar, S. Jobling, and J.P. Sumpter|Gestational and Lactational Exposure of Rats to Xenoestrogens Results in Reduced Testicular Size and Sperm Production|Environ. Health Perspect.103(12): 1136-1143|1995|10.1289/ehp.951031136
54101|A||Sharpe,W.E., W.G. Kimmel, E.S.J. Young, and D.R. DeWalle|In-Situ Bioassays of Fish Mortality in 2 Pennsylvania USA Streams Acidified by Atmospheric Deposition|Northeast. Environ. Sci.2(3-4): 171-178|1983|
54102|T||Sharples,J.M., A.A. Meharg, S.M. Chambers, and J.W.G. Cairney|Arsenate Sensitivity in Ericoid and Ecomycorrhizal Fungi|Environ. Toxicol. Chem.18(8): 1848-|1999|10.1002/etc.5620180836
54104|T||Shaver,T.N., D.L. Bull, and G.W. Ivie|Fate of Potassium 3,4-Dichloro-5-Isothiazolecarboxylate in Cotton Plants and White Rats|J. Agric. Food Chem.27(2): 325-328|1979|10.1021/jf60222a004
54105|T||Shaw,B.P.|Changes in the Levels of Photosynthetic Pigments in Phaseolus aureus Roxb. Exposed to Hg and Cd at Two Stages of Development: A Comparative Study|Bull. Environ. Contam. Toxicol.55(4): 574-580|1995|10.1007/BF00196038
54106|T||Shaw,D.R., T.F. Peeper, and D.L. Nofziger|Comparison of Chlorophyll Fluorescence and Fresh Weight as Herbicide Bioassay Techniques|Weed Sci.33:29-33|1985|10.1017/S0043174500083880
54107|T||Shaw,J.|Genetic Variation for Tolerance to Copper and Zinc Within and Among Populations of the Moss, Funaria hygrometrica Hedw.|New Phytol.109:211-222|1988|10.1111/j.1469-8137.1988.tb03710.x
54109|T||Shaw,L.J., and R.G. Burns|Biodegradation-Transport Interactions of Pulse Applied 2,4-D in Repacked Soil Column Microcosms|J. Environ. Qual.27(6): 1472-1478|1998|10.2134/jeq1998.00472425002700060025x
54110|T||Shaw,L.J., and R.G. Burns|Biodegradation of 2,4-D in a Noncontaminated Grassland Soil Profile|J. Environ. Qual.27(6): 1464-1471|1998|10.2134/jeq1998.00472425002700060024x
54114|T||Shen,S., G.E. Pepper, J.J. Hassett, and J.W. Stucki|Acidity and Aluminum Toxicity Caused by Iron Oxidation Around Anode Bars|Soil Sci.163(8): 657-664|1998|10.1097/00010694-199808000-00006
54115|T||Shen,Z., J. Wang, and H. Guan|Effect of Aluminum and Calcium on Growth of Wheat Seedlings and Germination of Seeds|J. Plant Nutr.16(11): 2135-2148|1993|10.1080/01904169309364679
54116|T||Shen,Z., and F. Zhang|Toxicity of Copper and Zinc in Seedlings of Mung Bean and Inducing Accumulation of Polyamine|J. Plant Nutr.21(6): 1153-1162|1998|10.1080/01904169809365474
54118|A||Shephard,B.|The Effect of Reduced pH and Elevated Aluminum Concentrations on Three Species of Zooplankton: Ceriodaphnia reticulata, Daphnia magna and Daphnia pulex|U.S.EPA, Duluth, MN:14 p.|1983|
54127|T||Sheppard,S.C., and W.G. Evenden|Simple Whole-Soil Bioassay Based on Microarthropods|Bull. Environ. Contam. Toxicol.52(1): 95-101|1994|10.1007/BF00197363
54128|A||Sherba,M., D.W. Dunham, and H.H. Harvey|Sublethal Copper Toxicity and Food Response in the Freshwater Crayfish Cambarus bartonii (Cambaridae, Decapoda, Crustacea)|Ecotoxicol. Environ. Saf.46(3): 329-333|2000|10.1006/eesa.1999.1910
54129|T||Sherburne,J.A., and J.B. Dimond|DDT Persistence in Wild Hares and Mink|J. Wildl. Manag.33(4): 944-947|1969|10.2307/3799329
54130|AT||Sherman,H., and A.M. Kaplan|Toxicity Studies with 5-Bromo-3-sec-Butyl-6-Methyluracil|Toxicol. Appl. Pharmacol.34:189-196|1975|10.1016/0041-008X(75)90023-X
54132|A||Sherry,J., A. Gamble, M. Fielden, P. Hodson, B. Burnison, and K. Solomon|An ELISA for Brown Trout (Salmo trutta) Vitellogenin and Its Use in Bioassays for Environmental Estrogens|Sci. Total Environ.225(1-2): 13-31|1999|10.1016/S0048-9697(99)80014-X
54133|T||Sherwood,C.H., J.L. Weigle, and E.L. Denisen|2,4-D as an Air Pollutant: Effects on Growth of Representative Horticultural Plants|Hortscience5(4): 211-213|1970|10.21273/HORTSCI.5.4.211
54135|T||Shetty,K.M., and S.V. Nayar|A Comparative Trial of BHC and Some Organic Phosphate Insecticides for the Control of `Shaft Louse' of Fowls|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:15-20|1964|
54137|T||Shewry,P.R., and P.J. Peterson|The Uptake and Transport of Chromium by Barley Seedlings (Hordeum vulgare L.)|J. Exp. Bot.25(87): 785-797|1974|10.1093/jxb/25.4.785
54141|A||Shigenaka,G., and C.B.,Jr. Henry|Use of Mussels and Semipermeable Membrane Devices to Assess Bioavailability of Residual Polynuclear Aromatic Hydrocarbons Three Years After the Exxon Valdez Oil Spill|ASTM Spec. Tech. Publ.:239-260|1995|
54143|T||Shilling,D.G., H.C. Aldrich, H.A. Moye, J.F. Gaffney, J.K. Tolson, R. Querns, M.A. Mossler, and B.L. Russell|N,N'-Dibutylurea from n-Butyl Isocyanate, a Degradation Product of Benomyl. 2. Effects on Plant Growth and Physiology|J. Agric. Food Chem.42:1209-1212|1994|10.1021/jf00041a030
54144|T||Shimabuku,R.A., H.C. Ratsch, C.M. Wise, J.U. Nwosu, and L.A. Kapustka|A New Plant Life-Cycle Bioassay for Assessment of the Effects of Toxic Chemicals Using Rapid Cycling Brassica|ASTM Spec. Tech. Publ.2:365-375|1991|
54145|T||Shimada,T., and Y. Sawabe|Activation of 3,4,3',4'-Tetrachlorobiphenyl to Protein-Based Metabolites by Rat Liver Microsomal Cytochrome P-448 Containing Monooxygenase System|Toxicol. Appl. Pharmacol.70(3): 486-493|1983|10.1016/0041-008X(83)90166-7
54146|T||Shimada,T., and Y. Sawabe|Comparative Studies on Distribution and Covalent Tissue Binding of 2,4,2',4'- and 3,4,3',4'-Tetrachlorobiphenyl Isomers in the Rat|Arch. Toxicol.55(3): 182-185|1984|10.1007/BF00316125
54147|T||Shimanuki,H., T. Lehnert, D.A. Knox, and E.W.,Jr. Herbert|Control of European Foulbrood Disease of the Honey Bee|J. Econ. Entomol.62(4): 813-814|1969|10.1093/jee/62.4.813
54148|T||Shimanuki,H., D.A. Knox, and E.W.,Jr. Herbert|Fumigation with Ethylene Oxide to Control Diseases of Honey Bees|J. Econ. Entomol.61:1062-1063|1969|
54150|T||Shinde,V.K.R., J.P. Verma, and S.K. Sharma|Laboratory Evaluation of Some Insecticides Against Adults of Myllocerus undecimpustulatus maculosus Desbrochers|Indian J. Entomol.32(3): 283-285|1970|
54153|A||Shioda,T., and M. Wakabayashi|Effect of Certain Chemicals on the Reproduction of Medaka (Oryzias latipes)|Chemosphere40(3): 239-243|2000|10.1016/S0045-6535(99)00235-0
54156|T||Shiraishi,Y.|Chromosome Aberrations Induced by Monomeric Acrylamide in Bone Marrow and Germ Cells of Mice|Mutat. Res.57:313-324|1978|10.1016/0027-5107(78)90216-6
54157|T||Shirazi,M.A., M.L. Robideaux, L.A. Kapustka, J.J. Wagner, and M.C. Reporter|Cell Growth in Plant Cultures: An Interpretation of the Influence of Initial Weight in Cadmium and Copper Toxicity Tests|Arch. Environ. Contam. Toxicol.27(3): 331-337|1994|10.1007/BF00213168
54162|T||Shivpuje,P.R., S.K. Mundiwale, and M.N. Borle|Relative Toxicity of Seven Insecticides to Tobacco Caterpillar, Prodenia litura, Fabr.|J. Maharashtra Agric. Univ.1:255-257|1976|
54163|T||Shlevin,E., and J. Katan|Rhizoctonia Disease of Carrot Seedlings and Its Control|Plant Dis. Rep.59(1): 29-32|1975|
54164|A||Shofer,S.L., J.A. Willis, and R.S. Tjeerdema|Effects of Hypoxia and Toxicant Exposure on Phosphoarginine, Intracellular pH, and Free Mg2+ in Abalone as Measured by 31P-NMR|Comp. Biochem. Physiol. A Comp. Physiol.118(4): 1183-1191|1997|10.1016/S0300-9629(97)00061-3
54165|A||Shofer,S.L., J.A. Willis, and R.S. Tjeerdema|Effects of Hypoxia and Toxicant Exposure on Arginine Kinase Function as Measured by 31P-NMR Magnetization Transfer in Living Abalone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(3): 283-289|1997|
54166|T||Shokod'Ko,T.I., A.I. Merezhko, and M.V. Malinovskaya|DDT-Induced Changes in the Activity of the Photosynthetic System of Aquatic Plants|Hydrobiol. J.14(5): 75-78|1978|
54167|T||Shore,R.F., D.G. Myhill, M.C. French, D.V. Leach, and R.E. Stebbings|Toxicity and Tissue Distribution of Pentachlorophenol and Permethrin in Pipistrelle Bats Experimentally Exposed to Treated Timber|Environ. Pollut.73(2): 101-118|1991|10.1016/0269-7491(91)90017-Q
54168|T||Shore,R.F., and G. Dell'Omo|Does Sub-lethal Exposure to Organophosphate Pesticide Affect Capture Rates in Free-Living Rodents?|Bull. Environ. Contam. Toxicol.61:440-447|1998|10.1007/s001289900782
54171|A||Shrivastava,S., and K.S. Rao|Observations on the Experimental Assessment of Optimal Exposure Time for Mercury Detoxification by an Integrated Aquatic Macrophyte Base System|Bull. Environ. Contam. Toxicol.65(1): 91-97|2000|10.1007/s001280000099
54174|AT||Shugart,L.|Quantitating Exposure to Chemical Carcinogens:  In Vivo Alkylation of Hemoglobin by Benzo(a)pyrene|Toxicology34:211-220|1985|10.1016/0300-483X(85)90172-6
54177|T||Shull,L.R., and P.R. Cheeke|Vitamin E, Selenium, and Tri-o-Cresyl Phosphate Interrelationships|J. Anim. Sci.23:139-143|1972|
54178|T||Shull,L.R., and P.R. Cheeke|Glucose Selenium Tri-o-Cresyl Phosphate Relationships in Erythrocyte Hemolysis|J. Anim. Sci.34(5): 148-151|1972|
54179|T||Shull,L.R., and P.R. Cheeke|Antiselenium Activity of Tri-o-cresyl Phosphate in Rats and Japanese Quail|J. Nutr.103(4): 560-568|1973|10.1093/jn/103.4.560
54180|T||Shull,L.R., and P.R. Cheeke|Tri-o-Cresyl Phosphate Interrelationships with Selenium, Vitamin E and Sulfur Amino Acids in the Rat: Growth, Hemolysis and Glutathione Peroxidase|Nutr. Rep. Int.11(1): 39-48|1975|
54182|T||Shuman,L.M., D.O. Wilson, and E.L. Ramseur|Testing aluminum-chelate equilibria models using sorghum root growth as a bioassay for aluminum|Water Air Soil Pollut.57-58(0): 149-158|1991|10.1007/BF00282878
54183|T||Shuman,L.M.|Chelate and pH effects on aluminum determined by differential pulse polarography and plant root bioassay|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance ControlA29(7): 1423-1438|1994|
54186|A||Shumway,S.E., T.M. Scott, and J.M. Shick|The Effect of Anoxia and Hydrogen Sulphide on Survival, Activity and Metabolic Rate in the Coot Clam, Mulinia lateralis (Say)|J. Exp. Mar. Biol. Ecol.71:135-146|1983|10.1016/0022-0981(93)90069-Z
54187|A||Shuster,C.N.,Jr., and B.H. Pringle|Effects of Trace Metals on Estuarine Mollusks|Proc. Mid-Atl. Ind. Waste Conf.:285-304|1968|
54188|T||Siciliano,S.D., and J.J. Germida|Bacterial Inoculants of Forage Grasses that Enhance Degradation of 2-Chlorobenzoic Acid in Soil|Environ. Toxicol. Chem.16(6): 1098-1104|1997|
54189|T||Siciliano,S.D., J.J. Germida, and J.V. Headley|Evaluation of Prairie Grass Species as Bioindicators of Halogenated Aromatics in Soil|Environ. Toxicol. Chem.16(3): 521-527|1997|10.1002/etc.5620160318
54190|T||Siciliano,S.D., and C.W. Greer|Plant-Bacterial Combinations to Phytoremediate Soil Contaminated with High Concentrations of 2,4,6-Trinitrotoluene|J. Environ. Qual.29(1): 311-316|2000|10.2134/jeq2000.00472425002900010039x
54193|A||Siddaramappa,R., and I. Watanabe|Evidence for Vapor Loss 14C-Carbofuran from Rice Plants|Bull. Environ. Contam. Toxicol.23(4-5): 544-551|1979|10.1007/BF01770001
54194|T||Sidhu,A.S., and G.S. Simwat|Evaluation of Some New Insecticides for the Control of Amrasca devastans (Distant) Infesting Okra, Abelmoschus esculentus (L.)|Indian J. Entomol.35(4): 297-299|1973|
54199|T||Siedentop,S.|A Litterbag-Test for the Assessment of Side Effects of Pesticides on Soil Mesofauna|Ann. Zool. Fennici196:357-360|1995|
54200|T||Siedlecka,A., Z. Krupa, G. Samuelsson, G. Oquist, and P. Gardestrom|Primary Carbon Metabolism in Phaseolus vulgaris Plants Under Cd/Fe Interaction|Plant Physiol. Biochem.35(12): 951-957|1997|
54203|T||Siegel,S.M.|The Cytotoxic Response of Nicotiana Protoplast to Metal Ions:  A Survey of the Chemical Elements|Water Air Soil Pollut.8(1-4): 293-304|1977|10.1007/BF00541916
54206|T||Siepel,H.|Are Some Mites More Ecologically Exposed to Pollution with Lead Than Others?|Exp. Appl. Acarol.19(7): 391-398|1995|10.1007/BF00145156
54211|T||Sihvonen,M.L.|Mineral Element Composition of Two Species of Finnish Mushrooms|In: T.D.Lekkas (Ed.), Heavy Metals in the Environment, International Conference, Edinburgh, U.K.:512-514|1985|
54212|T||Sikora,F.J., J.P. Copeland, E.F. Dillard, and J.R. Burnell|Corn Growth as Affected by Suspension Fertilizers Containing Fluorosilicic Acid|Soil Sci. Soc. Am. J.56(3): 961-966|1992|10.2136/sssaj1992.03615995005600030046x
54214|AT||Sileo,L., and A. Gilman|Carbofuran Induced Muscle Necrosis in the Earthworm|J. Invertebr. Pathol.25(1): 145-148|1975|10.1016/0022-2011(75)90297-9
54217|T||Silversides,D.W., C.A. Price, and G.M. Cook|Effects of Short-Term Exposure to Hydrocyflutamide in Utero on the Development of the Reproductive Tract in Male Mice|Can. J. Physiol. Pharmacol.73:1582-1588|1995|10.1139/y95-718
54218|T||Siman,A., F.W. Cradock, P.J. Nicholls, and H.C. Kirton|Effects of Calcium Carbonate and Ammonium Sulphate on Manganese Toxicity in an Acid Soil|Aust. J. Agric. Res.22(2): 201-214|1971|10.1071/AR9710201
54223|T||Simkiss,K., and B. Watkins|Differences in Zinc Uptake Between Snails (Helix aspera (Muller)) From Metal- and Bacteria-Polluted Sites|Funct. Ecol.5:787-794|1991|10.2307/2389542
54228|T||Simon,E.|Cadmium Tolerance in Populations of Agrostis tenuis and Festuca ovina|Nature265:328-330|1977|10.1038/265328a0
54229|T||Simon,S.L., and L.,Jr. Fraley|Uptake by Sagebrush of Uranium Progeny Injected In Situ|J. Environ. Qual.15(4): 345-350|1986|10.2134/jeq1986.00472425001500040006x
54230|T||Simons,T.J., H.W. Israel, and A.F. Ross|Effect of 2,4-Dichlorophenoxyacetic Acid on Tobacco Mosaic Virus Lesions in Tobacco and on the Fine Structure of Adjacent Cells|Virology (N.Y.)48(2): 502-515|1972|
54232|T||Simpson,C.F., R.J. Boucek, and N.L. Noble|Influence of d-,l-, and dl-Propranolol, and Practolol on beta-Amino-Propionitrile-Induced Aortic Ruptures of Turkeys|Toxicol. Appl. Pharmacol.38:169-175|1976|10.1016/0041-008X(76)90170-8
54235|T||Sin,Y.M., and P.T.K. Woo|Inflammatory Response and Resistance in Lead-Treated Mice|Bull. Environ. Contam. Toxicol.48(4): 502-508|1992|10.1007/BF00199064
54237|T||Sing,L.T., and F. Spencer|A Post-Implantational Study on the Effects of Zineb on Reproduction Using the Decidualized Pseudopregnant Rat as a Model|Bull. Environ. Contam. Toxicol.27:418-425|1981|10.1007/BF01611042
54238|T||Singer,C.E., and D.C. Havill|Resistance to Divalent Manganese of Salt-Marsh Plants|J. Ecol.81(4): 797-806|1993|10.2307/2261677
54239|A||Singh,A.J.A.R.|Suceptibility of Indoplanorbis exustus to Toxic Doses of an Organophosphorus Pesticide, Dimecron|J. Ecotoxicol. Environ. Monit.7(2): 95-99|1997|
54240|T||Singh,A., I.S. Hooda, and R.C. Tyagi|Studies on 2,4-Dichlorophenoxy Acetic Acid Biodegredation in Relation to Yield and Yield Attributes of Wheat|Environ. Ecol.15(4): 943-945|1997|
54241|T||Singh,A.C., R.B. Pandey, M. Bharti, and A.M. Jha|Cytological Effects of Two Rare Earth Compounds on the Root Tip Cells of Vicia faba L|J. Environ. Biol.18(1): 27-31|1997|
54242|T||Singh,A.K., S. Thakur, and S.K. Singh|Response of Rice to Nitrogen and Zinc Application in a Calcareous Situation|Int. Rice Res. Notes20(2): 16-17|1995|
54244|T||Singh,B., and P.R. Nanda|Prediction of Adaptation Pattern of Some Mungbean Genotypes Based on Steptomycin Response|Environ. Ecol.15(3): 559-561|1997|
54248|T||Singh,D.S., S. Dhingra, and R. Lal|Relative Toxicity of Some Newer Insecticides to Urentius echinus Distant|Indian J. Entomol.40(2): 215-217|1978|
54249|T||Singh,D.S., S. Dhingra, V.S. Srivastava, P. Sircar, and R. Lal|Relative Susceptibility of Aphis craccivora Koch, to Pesticides in Relation to Different Hosts|Indian J. Entomol.42(4): 746-756|1980|
54251|T||Singh,H., and G. Singh|Evaluation of Some Important Pesticides for the Control of Fruit Borer, Heliothis armigera Hubner Infesting Tomato|Indian J. Entomol.32(3): 205-210|1970|
54252|T||Singh,H., and M.S. Dhooria|Comparative Efficacy of Some Insecticides Against Etiella zinckenella Infesting Lentil Pods|Indian J. Agric. Sci.41(12): 1102-1106|1971|
54254|T||Singh,J., and S.N. Deshmukh|Estimation and Dissipation of DDT and Endosulfan Residues in and on the Fruits of Okra|Indian J. Agric. Chem.44(8): 516-520|1974|
54255|A||Singh,K., and D.K. Singh|Effect of Different Combinations of MGK-264 or Piperonyl Butoxide with Plant-Derived Molluscicides on Snail Reproduction|Arch. Environ. Contam. Toxicol.38(2): 182-190|2000|10.1007/s002449910024
54258|T||Singh,M., R.P. Narwal, and J.P. Singh|Effect of Selenium and Sulfur Compounds on the Growth and Chemical Composition of Forage Cowpea|J. Indian Soc. Soil Sci.27(1): 65-69|1979|
54260|T||Singh,N.|Effect of Saline Water on Germination, Early Seedling Growth and Respiration of Vigna unguiculata|J. Freshw. Biol.5(3): 217-222|1993|
54262|T||Singh,R.N., and J.R. Singh|Studies of the Influence of Boron Nutrition on the Growth Charateristics of Garlic (Allium sativum L.)|Indian J. Hortic.31(3): 255-258|1974|
54265|T||Singh,R.P., S. Dabas, and A. Choudhary|Recovery of Pb2+ Caused Inhibition of Chlorophyll Biosynthesis in Leaves of Vigna radiata (L.) Wilczek by Inorganic Salts|Indian J. Exp. Biol.34(11): 1129-1132|1996|
54266|T||Singh,S.B., N.T. Yaduraju, and G. Kulshrestha|Residues of Metolachlor Herbicide in Soil and Potato Tubers Under Indian Tropical Conditions|Bull. Environ. Contam. Toxicol.59(2): 216-221|1997|10.1007/s001289900467
54268|T||Singh,S.P., and M.P. Singh|Response of Dwarf Rice Cv Jaya to Different Rates, Methods and Forms of Urea Materials|Environ. Ecol.15(3): 612-613|1997|
54270|T||Singh,S.S., S.S. Brar, and D.S. Kler|Uptake of Nutrients by Wheat and Phalaris minor as Influenced by Crop Residue Managment Systems and Weed Control Methods in Rice-Wheat|Environ. Ecol.15(3): 617-620|1997|
54271|T||Singh,Z., and S.M. Vaishampayan|Results of Trials on the Chemical Control of Caliothrips indicus on Pea|Indian J. Entomol.29(2): 219-220|1967|
54272|T||Singhal,R.K., U. Narayanan, and I.S. Bhat|Investigations on Interception and Translocation of Airborne 85Sr, 131I, 137Cs in Beans, Spinach and Radish Plants|Water Air Soil Pollut.101(1-4): 163-176|1998|10.1023/A:1004918210840
54273|T||Singhal,R.L., Z. Merali, S. Kacew, and D.J.B. Sutherland|Persistence of Cadmium-Induced Metabolic Changes in Liver and Kidney|Science183:1094-1096|1974|10.1126/science.183.4129.1094
54274|T||Singleton,P., and R. White|Silver Iodide: Its Movement in an Alpine Ecosystem and Its Effect on Two Plant Species|In: D.H.Knight (Ed.), The Medicine Bow Ecology Proj., Univ.Wyoming, Laramie, WY:329-351|1975|
54275|A||Sinha,G.M.|Effects of Cadmium on Growth and Related Parameters in an Indian Freshwater Major Carp Labeo rohita (Hamilton)|Environ. Ecol.14(4): 840-849|1996|
54276|A||Sinha,G.M.|Effect of Cadium on Hematological Parameters in Young and Adult Fish Labeo rohita (Hamilton)|Environ. Ecol.17(4): 999-1004|1999|
54277|T||Sinha,N.C., and R.P. Singh|Influence of Linuron on Physiological Activity and Seed Yield on Forage Oat|Indian J. Plant Physiol.30(3): 266-271|1987|
54278|A||Sinha,S., U.N. Rai, and P. Chandra|Modulation of Cadmium Uptake and Toxicity in Spirodela polyrrhiza (L.)Schleiden due to Malathion|Environ. Monit. Assess.38(1): 67-73|1995|10.1007/BF00547127
54279|T||Sinha,S.K., H.S. Srivastava, and R.D. Tripathi|Influence of Some Growth Regulators and Cations on Inhibition of Chlorophyll Biosynthesis by Lead in Maize|Bull. Environ. Contam. Toxicol.51(2): 241-246|1993|10.1007/BF00198887
54284|T||Sivaguru,M., and K. Paliwal|Differential Aluminum Tolerance in Some Tropical Rice Cultivars. II. Mechanism of Aluminum Tolerance|J. Plant Nutr.16(9): 1717-1732|1993|10.1080/01904169309364645
54285|A||Sivakumari,K., R. Manavalaramanujam, M. Ramesh, and R. Lakshmi|Cypermethrin Toxicity:  Sublethal Effects on Enzyme Activities in a Freshwater Fish, Cyprinus carpio var. communis|J. Environ. Biol.18(2): 121-125|1997|
54286|T||Sivasubramaniam,S., and O. Talibudeen|Effect of Aluminium on Growth of Tea (Camellia sinensis) and Its Uptake of Potassium and Phosphorus|J. Sci. Food Agric.22(7): 325-329|1971|10.1002/jsfa.2740220702
54290|T||Skeen,J.R.|The Tolerance Limit of Seedlings for Aluminum and the Antagonism of Calcium|Soil Sci.27:69-80|1929|10.1097/00010694-192901000-00003
54293|A||Skidmore,J.F.|Resistance to Zinc Sulphate of the Zebrafish (Brachydanio rerio Hamilton-Buchanan) at Different Phases of Its Life History|Ann. Appl. Biol.56:47-53|1965|10.1111/j.1744-7348.1965.tb01214.x
54296|T||Skipper,H.D., C.M. Gilmour, and W.R. Furtick|Microbial Versus Chemical Degradation of Atrazine in Soils|Proc. Soil Sci. Soc. Am.31:653-656|1967|10.2136/sssaj1967.03615995003100050014x
54300|A||Skowronski,T., J.A. De Knecht, J. Simons, and J.A.C. Verkleij|Phytochelatin Synthesis in Response to Cadmium Uptake in Vaucheria (Xanthophyceae)|Eur. J. Phycol.33(1): 87-91|1998|10.1080/09670269810001736573
54302|T||Skrzydlewska,E., A. Witek, and R. Farbiszewski|The Comparison of the Antioxidant Defense Potential of Brain to Liver of Rats After Methanol Ingestion|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120:289-294|1998|
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54308|T||Slaski,Jan J.|Differences in the metabolic responses of root tips of wheat and rye to aluminum stress|Plant Soil167(1): 165-171|1994|10.1007/BF01587612
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54311|T||Sleight,S.D., S. Mangkoewidjojo, B.T. Akoso, and V.L. Sanger|Polybrominated Biphenyl toxicosis in Rats Fed an Iodine-Deficient, Iodine-Adequate, or Iodine-Excess Diet|Environ. Health Perspect.23:341-346|1978|10.1289/ehp.7823341
54320|A||Small,L.F.|Experimental studies on the Transfer of 65Zn in high Concentration by Euphausiids|J. Exp. Mar. Biol. Ecol.3:106-|1969|10.1016/0022-0981(69)90045-8
54321|T||Smelt,J.H., L.G.M.T. Tuinstra, C.A.A.A. Maenhout, and W. Luten|Uptake of DDT and Related Compounds from Soils into Forage Crops|Agro-Ecosystems2(2): 133-143|1975|10.1016/0304-3746(75)90013-X
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54324|T||Smialowicz,R.J., M.M. Riddle, W.C. Williams, and J.J. Dilberto|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Humoral Immunity and Lymphocyte Subpopulations:  Differences Between Mice and Rats|Toxicol. Appl. Pharmacol.124(2): 248-256|1994|10.1006/taap.1994.1029
54325|T||Smiley,R.W., and M.M. Craven|Microflora of Turfgrass Treated with Fungicides|Soil Biol. Biochem.11:349-353|1979|10.1016/0038-0717(79)90047-6
54329|T||Smith,B.D.|The Effects of Plant Growth-Retarding Compounds on the Behaviour of Some Pests and Disease of Blackcurrant|Proc. Br. Insectic. Fungic. Conf.1:364-368|1967|
54333|A||Smith,D.L., J.F. Knowles, and K. Winpenny|The Accumulation, Retention and Distribution of 95mTc in Crab (Cancer pagurus L.) and Lobster (Homarus gammarus L.). A Comparative Study|J. Environ. Radioact.40(2): 113-135|1998|10.1016/S0265-931X(97)00080-5
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54335|T||Smith,D.R., J.D. Osterloh, S. Niemeyer, and A.R. Flegal|Stable Isotope Labeling of Lead Compartments in Rats with Ultralow Lead Concentrations|Environ. Res.57(2): 190-207|1992|10.1016/S0013-9351(05)80079-9
54337|T||Smith,D.T.|Woollyleaf Bursage Control with Monosodium Methanearsonate and Tillage|Agron. J.68:657-660|1976|10.2134/agronj1976.00021962006800040031x
54338|T||Smith,G.C., and E. Brennan|Responses of Silver Maple Seedlings to an Acute Dose of Root Applied Cadmium|For. Sci.30:582-586|1984|
54339|T||Smith,J.C.|Field Evaluation of Candidate Insecticides for Control of the Southern Corn Rootworm on Peanuts in Virginia|J. Econ. Entomol.64(1): 280-283|1970|10.1093/jee/64.1.280
54342|T||Smith,M.S.|Persisitence of DDT and Benzene Hexachloride in Soils|Ann. Appl. Biol.35:494-504|1948|10.1111/j.1744-7348.1948.tb07393.x
54343|T||Smith,P.F., and A.W. Specht|Heavy-Metal Nutrition and Iron Chlorosis of Citrus Seedlings|Plant Physiol.28:371-382|1953|10.1104/pp.28.3.371
54344|T||Smith,R.D.|Effects of Heptachlor on Wildlife in Louisiana|M.S.Thesis, Louisiana State University, Baton Rouge, LA7:57-|1960|
54346|T||Smolders,A.J.P., and J.G.M. Roelofs|The roles of internal iron hydroxide precipitation, sulfide toxicity and oxidizing ability in the survival of Stratiotes aloides roots at different iron concentrations in sediment pore water|New Phytol.133(2): 253-260|1996|10.1111/j.1469-8137.1996.tb01892.x
54352|T||Soares,A., and J. Pearson|Short-Term Physiological Responses of Mosses to Atmospheric Ammonium and Nitrate|Water Air Soil Pollut.93:225-242|1997|
54353|T||Sobotik,M., V.B. Ivanov, N.V. Obroucheva, I.V. Seregin, M.L. Martin, O.V. Antipova, and H. Bergmann|Barrier Role of Root System in Lead-Exposed Plants|Angew. Bot. (Multiple Languages)72(3-4): 144-147|1998|
54354|A||Sobral,P., and J. Widdows|Effects of Copper Exposure on the Scope for Growth of the Clam Ruditapes decussatus from Southern Portugal|Mar. Pollut. Bull.34(12): 992-1000|1997|10.1016/S0025-326X(97)00116-1
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54358|T||Sogn,T.A., and G. Abrahamsen|Effects of N and S deposition on leaching from an acid forest soil and growth of Scots pine (Pinus sylvestris L.) after 5 years of treatment|For. Ecol. Manag.103(2-3): 177-190|1998|10.1016/S0378-1127(97)00188-6
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54362|T||Solberg,R.A., D.F. Adams, and H.A. Ferchau|Some Effects of Hydrogen Fluoride on the Internal Structure of Pinus ponderosa Needles|Proc. 3rd Natl. Air Pollut. Symp. , Pasadena, CA:164-176|1955|
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54364|A||Soldo,D., and R. Behra|Long-Term Effects of Copper on the Structure of Freshwater Periphyton Communities and Their Tolerance to Copper, Zinc, Nickel and Silver|Aquat. Toxicol.47(3-4): 181-189|2000|10.1016/S0166-445X(99)00020-X
54365|A||Sole,M., C. Porte, and D. Barcelo|Vitellogenin Induction and Other Biochemical Responses in Carp, Cyprinus carpio, After Experimental Injection with 17alpha-Ethynylestradiol|Arch. Environ. Contam. Toxicol.38(4): 494-500|2000|10.1007/s002440010065
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54374|T||Solomon,K.R., and R.L. Metcalf|The Effect of Piperonyl Butoxide and Triorthocresyl Phosphate on the Activity and Metabolism of Altosid (Isopropyl 11-Methoxy, 3,7,11-Trimethyldodeca-2,4-Dienoate) in Tenebrio molitor L. and Oncopeltus fasciatus (Dallas|Pestic. Biochem. Physiol.4(2): 127-134|1974|10.1016/0048-3575(74)90091-1
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54385|T||Sorensen,A.J., and P. Barbosa|Effectiveness of Carbaryl and Thuricide 16-B on a Population of Larval Lambdina athasaria pellucidaria|J. Econ. Entomol.68(4): 561-562|1975|10.1093/jee/68.4.561
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54388|T||Sotherton,N.W.|The Effects of Herbicides on the Chrysomelid Beetle Gastrophysa polygoni (L.) in the Laboratory and Field|Z. Angew. Entomol. (Multiple Languages)94:446-451|1982|10.1111/j.1439-0418.1982.tb02592.x
54389|T||Soto,C.P., B.L. Perez, L.P. Favari, and J.L. Reyes|Prevention of Alloxan-Induced Diabetes Mellitus in the Rat by Silymarin|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.119(2): 125-129|1998|
54390|A||Soto,E., A. Larrain, and E. Bay-Schmith|Sensitivity of Ampelisca araucana Juveniles (Crustacea:  Amphipoda) to Organic and Inorganic Toxicants in Tests of Acute Toxicity|Bull. Environ. Contam. Toxicol.64(4): 574-578|2000|10.1007/s001280000041
54391|A||Soto,M., M.P. Ireland, and I. Marigomez|The Contribution of Metal/Shell-Weight Index in Target-Tissues to Metal Body Burden in Sentinel Marine Molluscs  2.  Mytilus galloprovincialis|Sci. Total Environ.198(2): 149-160|1997|10.1016/S0048-9697(97)05451-X
54392|A||Soto,M., M.P. Ireland, and I. Marigomez|Changes in Mussel Biometry on Exposure to Metals:  Implications in Estimation of Metal Bioavailability in `Mussel-Watch' Programmes|Sci. Total Environ.247:175-187|2000|10.1016/S0048-9697(99)00489-1
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54397|T||Spalding,B.P.|Effect of Divalent Metal Chlorides on Respiration and Extractable Enzymatic Activities of Douglas-Fir Needle Litter|J. Environ. Qual.8(1): 105-109|1979|10.2134/jeq1979.00472425000800010023x
54398|T||Spann,J.W., R.G. Heath, J.F. Kreitzer, and L.N. Locke|Ethyl Mercury p-Toluene Sulfonanilide:  Lethal and Reproductive Effects on Pheasants|Science175:328-331|1972|10.1126/science.175.4019.328
54399|T||Sparapano,L., and A. Evidente|Biological Activity of Cyclopaldic Acid, a Major Toxin of Seiridium cupressi, Its Six Derivatives, and iso-Cyclopaldic Acid|Nat.Toxins3(3): 156-165|1995|10.1002/nt.2620030307
54400|T||Sparapano,L., and A. Evidente|Studies on Structure-Activity Relationship of Seiridins, Phytotoxins Produced by Three Species of Seiridium|Nat.Toxins3:166-173|1995|10.1002/nt.2620030308
54401|A||Sparks,R.E., J.,Jr. Cairns, R.A. McNabb, and G. Suter II|Monitoring Zinc Concentrations in Water Using the Respiratory Response of Bluegills (Lepomis macrochirus Rafinesque)|Hydrobiologia (Multiple Languages)40(3): 361-369|1972|10.1007/BF00016781
54402|A||Sparks,R.E., J.,Jr. Cairns, and A.G. Heath|The Use of Bluegill Breathing Rates to Detect Zinc|Water Res.6(8): 895-911|1972|10.1016/0043-1354(72)90042-5
54404|T||Sparling,D.W., D. Day, and P. Klein|Acute Toxicity and Sublethal Effects of White Phosphorus in Mute Swans, Cygnus olor|Arch. Environ. Contam. Toxicol.36(3): 316-322|1999|10.1007/s002449900477
54406|T||Spassova,D., T. White, and A.K. Singh|Acute Effects of Acephate and Methamidophos on Acetylcholinesterase Activity, Endocrine System and Amino Acid Concentrations in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.126:79-89|2000|
54408|T||Spear,P.A., D.H. Boubonnais, D.B. Peakall, and T.W. Moon|Dove Reproduction and Retinoid (Vitamin A) Dynamics in Adult Females and Their Eggs Following Exposure to 3,3',4,4'-Tetrachlorobiphenyl|Can. J. Zool.67:908-913|1989|10.1139/z89-132
54409|T||Specht,W.L., S.J. Klaine, and D.D. Hook|Rapid Bioassessment Methods for Assessing Vegetation Toxicity at the Savannah River Site - Germination Tests and Root Elongation Trials|NTIS Technical Report No.9804:167 p.|1996|
54410|T||Speese III,J.|Foliar Sprays to Control Worms on Early and Late Sweet Corn, 1995|Arthropod Manag. Tests21:112-113|1996|10.1093/amt/21.1.112a
54412|T||Spehar,C.R.|Diallel Analysis for Grain Yield and Mineral Absorption Rate of Soybeans Grown in Acid Brazilian Savannah Soil (Analise Dialelica da Producao de Graos e Taxa de Absorcao Mineral na Soja Cultivada em Solo Acido dos Cerra|Pesqui. Agropecu. Bras. (Multiple Languages)34(6): 1003-1009|1999|10.1590/S0100-204X1999000600011
54418|T||Speir,T.W., J.A. August, and C.W. Feltham|Assessment of the Feasibility of Using CCA (Copper, Chromium and Arsenic) - Treated and Boric Acid - Treated Sawdust as Soil Amendments I. Plant Growth and Element Uptake|Plant Soil142(2): 235-248|1992|10.1007/BF00010969
54419|AT||Speirs,J.M.|The Relation of DDT Spraying to the Vertebrate Life of the Forest|In: Biological Bulletin No.2, Forest Spraying and Some Effects of DDT, Department of Lands and Forests, Ontario, Canada:141-159|1949|
54422|T||Spencer,P.S., and H.H. Schaumburg|Feline Nervous System Response to Chronic Intoxication with Commercial Grades of Methyl n-Butyl Ketone, Methyl isoButyl Ketone, and Methyl Ethyl Ketone|Toxicol. Appl. Pharmacol.37:301-311|1976|10.1016/0041-008X(76)90093-4
54423|T||Spencer,T.S., K.L. Zeller, C.F. Brodel, and W.A. Akers|Analysis of Four-Site Method for Testing Mosquito Repellents|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.:119-120|1977|
54424|T||Spiers,J.M., and J.H. Braswell|Soil-Applied Sulfur Affects Elemental Leaf Content and Growth of 'Tifblue' Rabbiteye Blueberry|J. Am. Soc. Hortic. Sci.117(2): 230-233|1992|10.21273/JASHS.117.2.230
54425|T||Spillner,C.J., V.M. Thomas, and J.R. DeBaun|Effect of Fenitrothion on Microorganisms Which Degrade Leaf-Litter and Cellulose in Forest Soils|Bull. Environ. Contam. Toxicol.23:601-606|1979|10.1007/BF01770011
54432|T||Spotts,R.A., and D.C. Ferree|Effect of a Dormant Application of Surfactants on Bud Development and Disease Control in Selected Deciduous Fruit Plants|Hortscience14(1): 38-39|1979|10.21273/HORTSCI.14.1.38
54433|T||Spradbery,J.P., and R.S. Tozer|The Efficacy of Diazinon Impregnated Ear Tags Against Buffalo Fly and Resulting Weight Gains and Diazinon Residues in Meat and Milk|Aust. Vet. J.73(1): 6-10|1996|10.1111/j.1751-0813.1996.tb09945.x
54434|T||Sprague,G.L., L.L. Sandvik, M.J. Brookins-Hendricks, and A.A. Bickford|Neurotoxicity of Two Organophosphorus Ester Flame Retardants in Hens|J. Toxicol. Environ. Health8:507-518|1981|10.1080/15287398109530087
54442|T||Sprince,H., C.M. Parker, G.G. Smith, and L.J. Gonzales|Protection Against Acetaldehyde Toxicity in the Rat by L-Cysteine, Thiamin and L-2-Methylthiazolidine-4-Carboxylic Acid|Agents Actions4-2:125-130|1974|10.1007/BF01966822
54448|T||Spurgeon,D.J., and S.P. Hopkin|The Development of Genetically Inherited Resistance to Zinc in Laboratory-Selected Generations of the Earthworm Eisenia fetida|Environ. Pollut.109:193-201|2000|10.1016/S0269-7491(99)00267-5
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54455|T||Srivastava,S., R. Nigam, S. Prakash, and M.M. Srivastava|Mobilization of Trivalent Chromium in Presence of Organic Acids:  A Hydroponic Study of Wheat Plant (Triticum vulgare)|Bull. Environ. Contam. Toxicol.63(4): 524-530|1999|10.1007/s001289901012
54456|T||Srivastava,S.C.|In Vivo Effects of Di-n-Butyltin Dichloride on Some Enzymes and Lipids of Rat Liver Plasma Membrane|Toxicol. Lett.52:287-291|1990|10.1016/0378-4274(90)90038-N
54459|T||Stab,J.A., W.P. Cofino, and B. Van Hattum|Assessment of Transport Routes of Triphenyltin used in Potato Culture in the Netherlands|Anal. Chem.286:335-|1994|
54460|AT||Stadler,L., and W. Pestemer|Availability to Plants of Herbicide Residues in Soil. Part I:  A Rapid Method for Estimating Potentially Available Residues of Herbicides|Weed Res. (Multiple Languages)20:341-347|1980|10.1111/j.1365-3180.1980.tb00081.x
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54463|T||Stahl,B.U., A. Kettrup, and K. Rozman|Comparative Toxicity of Four Chlorinated Dibenzo-p-Dioxins (CDDs) and Their Mixture.  Part I:  Acute Toxicity and Toxic Equivalency Factors (TEFs)|Arch. Toxicol.66(7): 471-477|1992|10.1007/BF01970671
54465|T||Staker,E.V., and R.W. Cummings|The Influence of Zinc on the Productivity of Certain New York Peat Soils|Proc. Soil Sci. Soc. Am.6:207-214|1941|10.2136/sssaj1942.036159950006000C0037x
54466|T||Staker,E.V.|Progress Report on the Control of Zinc Toxicity in Peat Soils|Proc. Soil Sci. Soc. Am.7:387-392|1942|10.2136/sssaj1943.036159950007000C0063x
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54471|T||Stansly,P.A., and B.M. Cawley|Control of Adult Sweetpotato Whitefly (SPWF) and Tomato Mottle Geminivirus (TMoV) Transmission on Staked Tomato, Spring, 1992|Arthropod Manag. Tests19:156-|1994|
54476|T||Stark,J.D., and J.A.O. Banken|Importance of Population Structure at the Time of Toxicant Exposure|Ecotoxicol. Environ. Saf.42(3): 282-287|1999|10.1006/eesa.1998.1760
54477|A||Stark,J.S.|Effects of Copper on Macrobenthic Assemblages in Soft Sediments: A Laboratory Experimental Study|Ecotoxicology7(3): 161-173|1998|10.1023/A:1014356327595
54478|A||Statham,C.N., C.R. Elcombe, S.P. Szyjka, and J.J. Lech|Effect of Polycylic Aromatic Hydrocarbons on Hepatic Microsomal Enymes and Disposition of Methyl-Naphthalene in Rainbow Trout In Vivo|Xenobiotica8(2): 65-71|1978|10.3109/00498257809060385
54480|T||Stavric,B., and R. Klassen|Dietary Effects on the Uptake of Benzo(a)pyrene|Food Chem. Toxicol.32(8): 727-734|1994|10.1016/S0278-6915(09)80005-7
54485|A||Stecko,J.R., and L.I. Bendell-Young|Uptake of 109Cd Sediments by the Bivalves Macoma balthica and Protothaca staminea|Aquat. Toxicol.47(3-4): 1147-1159|2000|10.1016/S0166-445X(99)00023-5
54486|T||Steele,A.E., J. Thompson, and G. Wheatley|Depth of Application and Efficacy of Soil Nematicides for Controlling Heterodera Schachtii|Plant Dis. Rep.55(12): 1101-1105|1979|
54495|T||Stehn,R.A., E.A. Johnson, and M.E. Richmond|An Antibiotic Rodenticide for Pine Voles in Orchards|J. Wildl. Manag.44(1): 275-280|1980|10.2307/3808388
54498|T||Steiner,L.F., C.H. Arnold, and S.A. Summerland|Laboratory and Field Tests of DDT for the Control of the Codling Moth|J. Econ. Entomol.37(1): 156-157|1944|10.1093/jee/37.1.156
54500|T||Stendell,R.C., W.N. Beyer, and R.A. Stehn|Accumulation of Lead and Organochlorine Residues in Captive American Kestrels Fed Pine Voles from Apple Orchards|J. Wildl. Dis.25(3): 388-391|1989|10.7589/0090-3558-25.3.388
54502|T||Stenersen,J.|Action of Pesticides on Earthworms. Part III:  Inhibition and Reactivation of Cholinesterases in Eisenia foetida (Savigny) After Treatment with Cholinesterase-Inhibiting Insecticides|Pestic. Sci.10(2): 113-122|1979|10.1002/ps.2780100204
54503|T||Stenersen,J., and N. Oien|Action of Pesticides on Earthworms.  Part IV:  Uptake and Elimination of Oxamyl Compared to Carbofuran|Pestic. Sci.11:396-400|1980|10.1002/ps.2780110405
54517|T||Stephan,U.W., and Z. Prochazka|Physiological Disorders of the Nicotianamine-Auxotroph Tomato Mutant Chloronerva at Different Levels of Iron Nutrition. I. Growth Characteristics and Physiological Abnormalities Related to Iron and Nicotianamine Supply|Acta Bot. Neerl.38(2): 147-153|1989|10.1111/j.1438-8677.1989.tb02037.x
54520|T||Stephenson,G.L., K.R. Solomon, B. Hale, B.M. Greenberg, and R.P. Scroggins|Development of Suitable Test Methods for Evaluating the Toxicity of Contaminated Soils to a Battery of Plant Species Relevant to Soil Environments in Canada|ASTM Spec. Tech. Publ.6:474-489|1997|
54523|T||Sterner,R.T.|Effects of Sodium Cyanide and Diphacinone in Coyotes (Canis latrans):  Applications as Predacides in Livestock Toxic Collars|Bull. Environ. Contam. Toxicol.23:211-217|1979|10.1007/BF01769944
54524|T||Sterner,R.T., C.A. Pedersen, B.R. Helsten, and M.J. Goodall|Subchronic Dietary Toxicity of Strychnine:  Bobwhite Quail are Less Sensitive than Mallard Ducks|Arch. Environ. Contam. Toxicol.35(3): 498-505|1988|10.1007/s002449900408
54526|T||Stevens,D.P., M.J. McLaughlin, and A.M. Alston|Phytotoxicity of Aluminum-Fluoride Complexes and Their Uptake from Solution Culture by Avena sativa and Lycopersicon esculentum|Plant Soil192(1): 81-93|1997|10.1023/A:1004224526067
54527|T||Stevens,D.P., M.J. McLaughlin, and A.M. Alston|Phytotoxicity of the Fluoride Ion and Its Uptake from Solution Culture by Avena sativa and Lycopersicon esculentum|Plant Soil200(2): 119-129|1998|10.1023/A:1004392801938
54528|T||Stevens,D.P., M.J. McLaughlin, and A.M. Alston|Phytotoxicity of Hydrogen Fluoride and Fluoroborate and Their Uptake from Solution Culture by Lycopersicon esculentum and Avena sativa|Plant Soil200(2): 175-184|1998|10.1023/A:1004321602847
54530|T||Stevenson,A.J., S. Kacew, and R.L. Singhal|Influence of Lead on Hepatic, Renal and Pulmonary Nucleic Acid, Polyamine, and Cyclic Adenosine 3':5'-Monophosphate Metabolism in Neonatal Rats|Toxicol. Appl. Pharmacol.40(1): 161-170|1977|10.1016/0041-008X(77)90127-2
54532|A||Stewart,A.R., and D.F. Malley|Effect of Metal Mixture (Cu, Zn, Pb, and Ni) on Cadmium Partitioning in Littoral Sediments and Its Accumulation by the Freshwater Macrophyte Eriocaulon septangulare|Environ. Toxicol. Chem.18(3): 436-447|1999|10.1002/etc.5620180311
54533|T||Stewart,K.E.|Application of DDT Sprays by Aircraft in Canada for the Control of the Spruce Budworm, Archips fumiferana Clem|In: Biological Bulletin No.2, Forest Spraying and Some Effects of DDT, Department of Lands and Forests, Ontario, Canada:93-140|1949|
54534|T||Stickel,L.F.|Field Studies of a Peromyscus Population in an Area Treated with DDT|J. Wildl. Manag.10(3): 216-218|1946|10.2307/3795835
54539|T||Stickley,A.R.,Jr., and C.R. Ingram|Methiocarb as a Bird Repellent for Mature Sweet Corn|Proc. Bird Control Semin. Bowling Green State Univ.7:228-238|1976|
54540|T||Stickney,J.A., A.E. Roberts, D.M. Silverman, and R.A. Schatz|The Effects of m-Xylene on Rat Lung Benzo(a)pyrene Metabolism and Microsomal Membrane Lipids:  Comparison with p-Xylene|Toxicology58:155-165|1989|10.1016/0300-483X(89)90005-X
54541|T||Stienen,H., and J. Bauch|Element Content in Tissues of Spruce Seedlings from Hydroponic Cultures Simulating Acidification and Deacidification|Plant Soil106(2): 231-238|1988|10.1007/BF02371218
54547|A||Stillwell,E.F., and K.E. Corum|Effects of Cadmium and Low Magnesium on Cell Division and Calcification in the Marine Coccolithophorid Crisophaera (Hymenomonas) carterae|Mar. Biol.66(3): 227-230|1982|10.1007/BF00397026
54548|T||Stoakley,J.T.|Control of the Pine Weevil Hylobius Abietis and of Hylastes pinus|Forestry41(2): 182-188|1968|10.1093/forestry/41.2.182
54550|T||Stoddard,G.E., G.Q. Bateman, L.E. Harris, J.L. Shupe, and D.A. Greenwood|Effects of Fluorine on Dairy Cattle. IV. Milk Production|J. Dairy Sci.46:720-726|1963|10.3168/jds.S0022-0302(63)89129-8
54555|T||Stokinger,H.E., and C.A. Stroud|Anemia in Acute Experimental Beryllium Poisoning|J. Lab. Clin. Med.38:173-182|1951|
54557|T||Stonard,M.D., and M. Webb|Influence of Dietary Cadmium on the Distribution of the Essential Metals Copper, Zinc and Iron on the Tissues of the Rat|Chem.-Biol. Interact.15(4): 349-363|1976|10.1016/0009-2797(76)90140-X
54558|T||Stonier,T., F. Rodriguez-Tormes, and Y. Yoneda|Studies on Auxin Protectors. IV. The Effect of Manganese on Auxin Protector I of the Japanese Morning Glory|Plant Physiol.43:69-72|1968|10.1104/pp.43.1.69
54559|A||Stouthart,X.J.H.X., M.A.J. Huijbregts, P.H.M. Balm, R.A.C. Lock, and S.E. Wendelaar Bonga|Endocrine Stress Response and Abnormal Development in Carp (Cyprinus carpio) Larvae After Exposure of the Embryos to PCB 126|Fish Physiol. Biochem.18(4): 321-329|1998|10.1023/A:1016076415178
54560|T||Stowe,H.D., M. Wilson, R. Goyer, and C. Hitt|Clinical and Morphologic Effects of Oral Cadmium Toxicity in Rabbits|Arch. Pathol.94:389-405|1972|
54562|T||Stowe,H.D.|Effects of Copper Pretreatment upon the Toxicity of Selenium in Ponies|Am. J. Vet. Res.41(12): 1925-1928|1980|
54563|T||Strasser,O., K. Kohl, and V. Romheld|Overestimation of Apoplastic Fe in Roots of Soil Grown Plants|Plant Soil210(2): 179-187|1999|10.1023/A:1004650506592
54564|T||Strati,S., E. Paoletti, E. Barbolani, and R. Pirazzi|Root Length and Distribution of Chromium in Corylus avellana with Tuber Albidum mycorrhizas|Water Air Soil Pollut.113(1-4): 33-41|1999|10.1023/A:1005021607135
54565|T||Stratton,G.D.,Jr., and W.B. Wheeler|Fate of Dieldrin in Radishes|J. Agric. Food Chem.31(5): 1076-1079|1983|10.1021/jf00119a038
54567|A||Straus,D.L., T.R. Stuthridge, S.M. Anderson, and J.S. Gifford|Acute Toxicity of Dehydroabietic Acid to Rainbow Trout:  Manipulation of Biotransformation Enzymes|Australas. J. Ecotoxicol.3(2): 131-139|1997|
54570|T||Street,J.J., B.R. Sabey, and W.L. Lindsay|Influence of pH, Phosphorus, Cadmium, Sewage Sludge, and Incubation Time on the Solubility and Plant Uptake of Cadmium|J. Environ. Qual.7(2): 286-290|1978|10.2134/jeq1978.00472425000700020027x
54573|A||Strickman,D.|A New Aquatic Bioassay Technique Using Wyeomyia smithii, the Pitcher-Plant Mosquito|ASTM Spec. Tech. Publ.854:104-116|1985|
54574|T||Strid,H.|Effects of Root Zone Temperature on Aluminum Toxicity in Two Cultivars of Spring Wheat with Different Resistance to Aluminum|Physiol. Plant. (Multiple Languages)97(1): 5-12|1996|10.1111/j.1399-3054.1996.tb00471.x
54575|T||Stringer,A., and J.A. Pickard|The DDT Content of Herbage and Slugs in an Apple Orchard at Long Ashton|Rep Agr Hort Res Sta Univ Bristol1964:172-175|1965|
54576|T||Stringer,A., and C.H. Lyons|The Effect of Benomyl and Thiophanate-Methyl on Earthworm Populations in Apple Orchards|Pestic. Sci.5:189-196|1974|10.1002/ps.2780050210
54577|T||Stringham,E.G., and E.P.M. Candido|Transgenic hsp16-lacZ Strains of the Soil Nematode Caenorhabditis elegans as Biological Monitors of Environmental Stress|Environ. Toxicol. Chem.13(8): 1211-1220|1994|
54579|T||Stroomberg,G.J., J.A. De Knecht, F. Ariese, C.A.M. Van Gestel, and N.H. Velthorst|Pyrene Metabolites in the Hepatopancreas and Gut of the Isopod Porcellio scaber, a new Biomarker for Polycyclic Aromatic Hydrocarbon Exposure in Terrestrial Ecosytems|Environ. Toxicol. Chem.18(10): 2217-2224|1999|10.1002/etc.5620181014
54580|T||Struckmeyer,B.E., L.A. Peterson, and F.H.M. Tai|Effects of Copper on the Composition and Anatomy of Tobacco|Agron. J.61:932-936|1969|10.2134/agronj1969.00021962006100060032x
54581|T||Stubblefield,W.A., G.A. Hancock, W.H. Ford, H.H. Prince, and R.K. Ringer|Evaluation of the Toxic Properties of Naturally Weathered Exxon Valdez Crude Oil to Surrogate Wildlife Species|ASTM Spec. Tech. Publ.:665-692|1995|
54582|A||Stuijfzand,S.C., L. Poort, G.D. Greve, H.G. Van der Geest, and M.H.S. Kraak|Variables Determining the Impact of Diazinon on Aquatic Insects:  Taxon, Developmental Stage, and Exposure Time|Environ. Toxicol. Chem.19(3): 582-587|2000|10.1002/etc.5620190309
54584|A||Styrishave,B., and M.H. Depledge|Evaluation of Mercury-Induced Changes in Circadian Heart Rate Rhythms in the Freshwater Crab, Potamon potamios and the Crayfish, Astacus astacus as an Early Predictor of Mortality|Comp. Biochem. Physiol. A Comp. Physiol.115(4): 349-356|1996|10.1016/S0300-9629(96)00105-3
54587|T||Subagja,J., and R.J. Snider|The Side Effects of Herbicides Atrazine and Paraquat upon Folsomia candida and Tullbergia granulata (Insecta, Collembola)|Pedobiologia (Multiple Languages)22(3): 141-152|1981|10.1016/S0031-4056(23)03679-X
54588|T||Subhadra,A.V., K.K. Panda, and B.B. Panda|Residual Mercury in Seed of Barley (Hordeum vulgare L.) Confers Genotoxic Adaptation to Ethyl Methanesulfonate, Maleic Hydrazide, Methyl Mercuric Chloride and Mercury-Contaminated Soil|Mutat. Res.300(3/4): 141-149|1993|10.1016/0165-1218(93)90045-F
54590|T||Sudhakar,C., L. Syamalabai, and K. Veeranjaneyulu|Lead Tolerance of Certain Legume Species Grown on Lead Ore Tailings|Agric. Ecosyst. Environ.41(3-4): 253-261|1992|10.1016/0167-8809(92)90114-Q
54591|T||Sugawara,N., D. Li, M. Katakura, and C. Sugawara|Biliary Excretion of Copper in Fischer Rats Treated with Copper Salt and in Long-Evans Cinnamon (LEC) Rats with an Inherently Abnormal Copper Metabolism|Biol. Trace Elem. Res.46:125-134|1994|10.1007/BF02790073
54592|T||Sugiyama,C., A. Shinoda, H. Hayatsu, and T. Negishi|Inhibition of 2-Amino-3,8-Dimethylimidazo[4,5-f]Quinoxaline-Mediated DNA-Adduct Formation by Chlorophylin in Drosophila|Jpn. J. Cancer Res.87(4): 325-328|1996|10.1111/j.1349-7006.1996.tb00224.x
54593|T||Suhayda,C.G., and A. Haug|Organic Acids Reduce Aluminum Toxicity in Maize Root Membranes|Physiol. Plant. (Multiple Languages)68:189-195|1986|10.1111/j.1399-3054.1986.tb01913.x
54595|T||Sukarno,N., F.A. Smith, E.S. Scott, G.P. Jones, and S.E. Smith|The Effect of Fungicides on Vesicular-Arbuscular Mycorrhizal Symbiosis. III. The Influence of VA Mycorrhiza on Phytotoxic Effects Following Application of Fosetyl-Al and Phosphonate|New Phytol.139(2): 321-330|1998|10.1046/j.1469-8137.1998.00204.x
54596|T||Suketa,Y., and E. Mikami|Changes in Urinary Ion Excretion and Related Renal Enzyme Activities in Fluoride-Treated Rats|Toxicol. Appl. Pharmacol.40:551-559|1977|10.1016/0041-008X(77)90079-5
54597|T||Sukul,P., and S.K. Handa|Dissipation of Permethrin Residues in Green Gram|Environ. Ecol.13(4): 928-931|1995|
54599|A||Sullivan,K.B., and M.J. Lydy|Differences in Survival Functions of Mosquitofish (Gambusia affinis) and Sand Shiner (Notropis ludibundus) Genotypes Exposed to Pesticides|Environ. Toxicol. Chem.18(5): 906-911|1999|10.1002/etc.5620180513
54600|T||Sulzbach,C.W., and M.R. Pack|Effects of Fluoride on Pollen Germination, Pollen Tube Growth, and Fruit Development in Tomato and Cucumber|Phytopathology62:1247-1253|1972|10.1094/Phyto-62-1247
54601|T||Sumida,H., H. Nakamura, T. Matsuo, and M. Yasuda|Effects of bis-Diamine to Cardiac Mesenchymal Cell Migration of the Chick Embryo|Congenital Anom.34(2): 215-222|1995|10.1111/j.1741-4520.1995.tb00613.x
54603|T||Sumner,D.R., S.J. Kays, and A.W. Johnson|Etiology and Control of Root Diseases of Spinach|Phytopathology66(11): 1267-1273|1976|10.1094/Phyto-66-1267
54604|T||Sumner,D.R., A.W. Johnson, C.A. Jaworski, and R.B. Chalfant|Influence of Film Mulches and Soil Pesticides on Root Diseases and Populations of Soil-Borne Fungi in Vegetables|Plant Soil49(2): 267-283|1978|10.1007/BF02149736
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54607|T||Sun,W.H., G.L. Horst, R.A. Drijber, and T.E. Elthon|Fate of 2,4,6-Trinitrotoluene in Axenic Sand Culture Systems Containing Smooth Bromegrass|Environ. Toxicol. Chem.19(8): 2038-2046|2000|
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54610|T||Sundari,M.S.N., M. Arivalagan, A. Balachander, and G. Durairaj|Effect of Diflubenzuron on the Chitinase Activity of Predatory Insect, Cryptolaemus montrouzieri|J. Environ. Biol.19(4): 323-324|1998|
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54614|T||Sunderman,F.W.Jr., M.C. Reid, L.M. Bibeau, and J.V. Linden|Nickel Induction of Microsomal Heme Oxygenase Activity in Rodents|Toxicol. Appl. Pharmacol.68(1): 87-95|1983|10.1016/0041-008X(83)90357-5
54616|A||Supriyono,E., F. Takashima, and C.A. Strussmann|Toxicity of Linear Alkylbenzene Sulphonate (LAS) to Juvenile Kuruma Shrimp, Penaeus japonicus: A Hystopathological Study on Acute and Sub-Chronic Levels|J. Tokyo Univ. Fish.85(1): 1-10|1998|
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54620|T||Suresh,R., C.D. Foy, and J.R. Weidner|Effects of Water Deficit and Manganese Toxicity on Two Cultivars of Soybeans (Glycine max (L.) Merr.: Possible Applications in Remote Sensing|J. Plant Nutr.12(9): 995-1003|1989|10.1080/01904168909364018
54622|T||Suss,A., H. Siegmund, C. Eben, and B. Grampp|Reactions of Herbicides with Soil and Plants|In: IAEA-PL-469/16. Radiotrace Studies of Chemical Residues in Food and Agriculture, Vienna, Austria:111-121|1972|
54624|T||Suszcynsky,E.M., and J.R. Shann|Phytotoxicity and Accumulation of Mercury in Tobacco Subjected to Different Exposure Routes|Environ. Toxicol. Chem.14(1): 61-67|1995|10.1002/etc.5620140108
54625|T||Suter-Eichenberger,R., H. Altorfer, W. Lichtensteiger, and M. Schlumpf|Bioaccumulation of Musk Xylene (MX) in Developing and Adult Rats of both Sexes|Chemosphere36(13): 2747-2762|1998|10.1016/S0045-6535(97)10234-X
54629|T||Suthipradit,S., D.G. Edwards, and C.J. Asher|Effects of aluminum on tap-root elongation of soybean (Glycine max), cowpea (Vigna unguiculata) and green gram (Vigna radiata) grown in the presence of organic acids|Plant Soil124(2): 233-237|1990|10.1007/BF00009265
54630|T||Suttie,J.W., and D.L. Kolstad|Effects of Dietary Fluoride Ingestion on Ration Intake and Milk Production|J. Dairy Sci.60:1568-1573|1977|10.3168/jds.S0022-0302(77)84072-1
54633|T||Suzuki,K.T., Y. Tanaka, and R. Kawamura|Properties of Metallothionein Induced by Zinc, Copper and Cadmium in the Frog, Xenopus laevis|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 33-37|1983|10.1016/0742-8413(83)90007-5
54634|T||Suzuki,K., and L.D. Pfaff|Acrylamide Neuropathy in Rats|Acta Neuropathol.24:197-213|1973|10.1007/BF00687590
54635|T||Suzuki,K.T.|Copper Content in Cadmium-Exposed Animal Kidney Metallothioneins|Arch. Environ. Contam. Toxicol.8(3): 255-268|1979|10.1007/BF01056242
54637|T||Suzuki,M., N. Aizawa, G. Okano, and T. Takahashi|Translocation of Polychlorobiphenyls in Soil into Plants: A Study by a Method of Culture of Soybean Sprouts|Arch. Environ. Contam. Toxicol.5:343-|1977|10.1007/BF02220916
54639|T||Suzuki,T., and A. Yoshida|Effect of Dietary Iron and Ascorbic Acid on the Recovery from Cadmium Toxicity in Rats|Nutr. Rep. Int.16(6): 769-778|1977|
54641|T||Suzuki,T.|Methylation and hydroxylation of penta chloro phenol by mycobacterium-sp isolated from soil|J. Pestic. Sci. (Multiple Languages)8(4): 419-428|1983|10.1584/jpestics.8.419
54642|T||Suzuki,T., Y. Nakagawa, S. Tayama, K. Yaguchi, S. Suzuki, and T. Suga|Micronucleus Test of Herbicide Terbutol and Its Metabolites in Cultured Chinese Hamster Lung Cells and Male CD-1 Mice|Bull. Environ. Contam. Toxicol.64(1): 66-73|2000|10.1007/s001289910011
54646|A||Svobodova,Z., M. Flajshans, B. Vykusova, and J. Machova|The Effect of Long-Term Therapeutic Batch of Malachite Green on Common Carp (Cyprinus carpio L.)|Acta Vet. Brno66(2): 111-117|1977|10.2754/avb199766020111
54648|T||Swaine,G.|Studies on the biology and control of pests of seed beans-d phaseolus-vulgaris-d in northern tanzania|Bull. Entomol. Res.59(2): 323-338|1969|10.1017/S0007485300003266
54649|T||Swanepoel,R.E., P.A. Racey, R.F. Shore, and J.R. Speakman|Energetic Effects of a Sublethal Exposure to Lindane on Pipistrelle Bats (Pipistrellus pipistrellus)|Environ. Pollut.104(2): 169-177|1999|10.1016/S0269-7491(98)00196-1
54652|T||Swiergosz,R., M. Zakrzewska, K. Sawicka-Kapusta, K. Bacia, and I. Janowska|Accumulation of Cadmium in and Its Effect on Bank Vole Tissues After Chronic Exposure|Ecotoxicol. Environ. Saf.41:130-136|1998|10.1006/eesa.1998.1677
54656|T||Sylven,E., G. Svenson, S. Renvall, and M. Akerblom|Studies on Two Insect Pests. Meligethes aeneus F. (Col.)  and Ceuthorrhynchus assimilis Payk. (Col.),  as Test Organisms for DDT in Oil Plant Crops|Int. J. Environ. Stud.4(2): 127-134|1973|10.1080/00207237308709553
54661|T||Szatanik-Kloc,A., and G. Jozefaciuk|Effect of pH and aluminum on surface properties of barley roots as determined from water vapor adsorption|Acta Physiol. Plant.19(3): 327-332|1997|10.1007/s11738-997-0009-6
54665|T||Szpiech,M., Z. Dabrowski, and H. Mixzta|The Effect of Molybdenum upon Blood Serum Enzymatic Ceruloplasmin Activity in Rats|Sci. Total Environ.30:213-219|1983|10.1016/0048-9697(83)90013-X
54666|T||Szymanska,J.A., E. Bruchajzer, S. Sporny, and J.K. Piotrowski|Changes in Selected Indicators of Liver Impairment After Repeated Administration of Mono- and Polybromobenzenes in Mice|Bull. Environ. Contam. Toxicol.61(1): 22-30|1998|10.1007/s001289900724
54667|T||Szymanska,J.A., and J.K. Piotrowski|Hepatotoxicity of Monobromobenzene and Hexabromobenzene: Effects of Repeated Dosage in Rats|Chemosphere41:1689-1696|2000|10.1016/S0045-6535(00)00064-3
54674|T||Tack,F.M.G., J. Esteban-Mozo, and M.G. Verloo|Cadmium Uptake by Cucumber Plants as Affected by Fluctuations in Nutrient Solution Cadmium Concentration During Growth|Commun. Soil Sci. Plant Anal.29(19-20): 3015-3021|1998|10.1080/00103629809370173
54675|T||Tadano,T.|Devices of Rice Roots to Tolerant high Iron Concentrations in Growth Media|Jpn. Agric. Res. Q.9:34-39|1975|
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54677|A||Tadros,M.G., A. Crawford, A. Mateo-Sullivan, C. Zhang, and J.B. Hughes|Toxic Effects of Hydroxylamino Intermediates from Microbial Transformation of Trinitrotoluene and Dinitrotoluenes on Algae Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.64(4): 579-585|2000|10.1007/s001280000042
54680|T||Taher,M., and L.K. Cutkomp|Effects of Sublethal Doses of DDT and 3 other Insecticides on Tribolium confusum|J. Stored Prod. Res.19(1): 43-50|1983|10.1016/0022-474X(83)90023-1
54681|T||Taimr,L., and I. Hanker|Detoxication of Carbon-14 DDT in Field Populations of Meligethes-aeneus Coleoptera Nitidulidae|Z. Angew. Entomol. (Multiple Languages)73(4): 422-439|1973|10.1111/j.1439-0418.1973.tb02305.x
54682|T||Takada,M., and H. Hayashi|Effects of Cadmium Ion on the Na, K-ATPase of Microsomes Obtained from Frog Skin|Jpn. J. Physiol.28:473-483|1978|
54683|T||Takagi,Y., S. Aburada, K. Hashimoto, and T. Kitaura|Transfer and Distribution of Accumulated (14C)-Polychlorinated Biphenyls from Maternal to Fetal and Suckling Rats|Arch. Environ. Contam. Toxicol.15(6): 709-715|1986|10.1007/BF01054917
54684|T||Takahashi,A., M. Mizutani, and C. Itakura|Acrylamide-Induced Peripheral Neuropathy in Normal and Neurofilament-Deficient Japanese Quails|Acta Neuropathol.89(1): 17-22|1995|10.1007/BF00294254
54685|A||Takamatsu,Y., Y. Inamori, H. Nishimae, T. Ebisuno, R. Sudo, and M. Matsumura|Environmental Assessment of LAS on the Aquatic Ecosystem Using a Scale-Up System|Water Sci. Technol.36(12): 207-214|1997|10.2166/wst.1997.0449
54686|A||Takayanagi,K., T. Sakami, M. Shiraishi, and H. Yokoyama|Acute Toxicity of Formadldhyde to the Pearl Oyster Pinctada fucata Martensii|Water Res.34(1): 93-98|2000|10.1016/S0043-1354(99)00101-3
54690|A||Takeuchi,T., J. Dedi, Y. Haga, T. Seikai, and T. Watanabe|Effect of Vitamin A Compounds on Bone Deformity in Larval Japanese Flounder (Paralichthys olivaceus)|Aquaculture169(3-4): 155-165|1998|10.1016/S0044-8486(98)00373-1
54692|A||Takimoto,A., and O. Tanaka|Effects of Some SH-Inhibitors and EDTA on Flowering in Lemna perpusilla 6746|Plant Cell Physiol.14:1133-1141|1973|
54694|T||Talekar,N.S., L.T. Sun, E.M. Lee, and J.S. Chen|Persistence of Some Insecticides in Subtropical Soil|J. Agric. Food Chem.25(2): 348-352|1977|10.1021/jf60210a017
54695|T||Talekar,N.S., T.M. Lee, and J.S. Chen|Effects of Repeated Seasonal Application of Insecticides on Some Properties of Humid Subtropical Soil|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))20(3): 232-243|1978|
54696|T||Talekar,N.S., J.S. Chen, E.M. Lee, and T.M. Lee|Absorption of Certain Insecticide Residues from Contaminated Soil by Sweet Potato Roots|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))27(4): 423-432|1985|
54697|T||Talfuri,F., M. Musinelli, L. Scarponi, and C. Marucchini|Decline and Movement of AG Chlordane in Soil and Its Residues in Alfalfa|J. Agric. Food Chem.25(2): 353-356|1977|10.1021/jf60210a035
54699|T||Talukdar,F.A., M.S. Jahan, and S. Ahmed|Effect of Nitrogen and Zinc on Rice Green Leafhoppers, Nephotettix spp. and Prey-Predator Relationship Between Leafhoppers and Their Predators|Pak. J. Sci. Res.34(11): 453-455|1991|
54703|T||Tan,K., and W.G. Keltjens|Effects of aluminum on growth, nutrient uptake, proton efflux and phosphorus assimilation of aluminum-tolerant and -sensitive sorghum (Sorghum bicolor) genotypes|Dev. Plant Soil Sci.41:397-401|1990|
54704|T||Tan,K., W.G. Keltjens, and G.R. Findenberg|Acid Soil Damage in Sorghum Genotypes Role of Magnesium Deficiency and Root Impairment|Plant Soil132(2): 149-156|1992|10.1007/BF00009305
54705|T||Tan,K., W.G. Keltjens, and G.R. Findenegg|Aluminium Toxicity with Sorghum Genotypes in Nutrient Solutions and Its Amelioration by Magnesium|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)155(2): 81-86|1992|10.1002/jpln.19921550203
54706|T||Tan,K., and W.G. Keltjens|Interaction Between Aluminum and Phosphorus in Sorghum Plants.  II.  Studies with the Aluminum-tolerant Sorghum Genotype SC0283|Plant Soil124(1): 25-32|1990|10.1007/BF00010927
54707|T||Tan,K., and W.G. Keltjens|Interaction Between Aluminum and Phosphorus in Sorghum Plants.  I.  Studies with the Aluminum Sensitive Sorghum Genotype TAM428|Plant Soil124(1): 15-23|1990|10.1007/BF00010926
54708|T||Tan,K., W.G. Keltjens, and G.R. Findenegg|Role of Magnesium in Combination with Liming in Alleviating Acid-Soil Stress with the Aluminum-Sensitive Sorghum Genotype CV323|Plant Soil136(1): 65-71|1991|10.1007/BF02465221
54709|T||Tan,K., W. Keltjens, and G. indenegg|Effect of Nitrogen Form on Aluminum Toxicity in Sorghum Genotypes|J. Plant Nutr.15(9): 1383-1394|1992|10.1080/01904169209364405
54711|T||Tan,K., W.G. Keltjens, and G.R. Findenegg|Aluminum Toxicity in Sorghum Genotypes as Influenced by Solution Acidity|Soil Sci. Plant Nutr.39(2): 291-298|1993|10.1080/00380768.1993.10417000
54712|T||Tan,K., W.G. Keltjens, and G.R. Findenegg|Evaluating the Contribution of Magnesium Deficiency in the Aluminium Toxicity Syndrome in Twelve Sorghum Genotypes|Plant Soil149(2): 255-261|1993|10.1007/BF00016616
54716|T||Tanaka,H.|Boron Adsorption by Plant Roots|Plant Soil27(2): 300-302|1967|10.1007/BF01373400
54717|T||Tanaka,H., K. Otake, and S. Kato|Ferrous-Ion Contents of Wheat Leaves Cultured in Solutions with Various Concentrations of Phosphate|Meijo Daigaku Nogakubu Gakujutsu Hokoku26:1-6|1990|
54718|T||Tanaka,M.A.S., A.A. Masceraenhas, M.F. Ito, and R.T. Tanaka|Tolerance to Manganese Toxicity and Resistance to Powdery Mildew in a Soybean Line Selected from IAC-Foscarin-31|Summa Phytopathol.21(3-4): 225-228|1995|
54721|T||Tang,C., A.D. Robson, and M.J. Dilworth|The Role of Iron in Nodulation and Nitrogen Fixation in Lupinus angustifolius L.|New Phytol.114(2): 173-182|1990|10.1111/j.1469-8137.1990.tb00388.x
54722|T||Tang,J., M.J. Carroquino, B.K. Robertson, and M. Alexander|Combined Effect of Sequestration and Bioremediation in Reducing the Bioavailability of Polycyclic Aromatic Hydrocarbons in Soil|Environ. Sci. Technol.32(22): 3586-3590|1998|10.1021/es9803512
54724|T||Tang,Y., B.I. Chevone, and J.L. Hess|Ozone-responsive Proteins in a Tolerant and Sensitive Clone of White Clover (Trifolium repens)|Environ. Pollut.104(1): 89-98|1999|10.1016/S0269-7491(98)00149-3
54727|T||Tao,S., and J.W. Suttie|Evidence for a Lack of an Effect of Dietary Fluoride Level on Reproduction in Mice|J. Nutr.106:1115-1122|1976|10.1093/jn/106.8.1115
54728|A||Tao,S., H. Li, C. Liu, and K.C. Lam|Fish Uptake of Inorganic and Mucus Complexes of Lead|Ecotoxicol. Environ. Saf.46(2): 174-180|2000|10.1006/eesa.1999.1902
54738|T||Tashiro,H., K.E. Personius, D. Zinter, and M. Zinter|Resistance of the European Chafer to Cyclodiene Insecticides|J. Econ. Entomol.64(1): 242-245|1971|10.1093/jee/64.1.242
54739|T||Tashiro,H., and R.J. Kuhr|Some Factors Influencing the Toxicity of Soil Applications of Chlorpyrifos and Diazinon to European Chafer Grubs|J. Econ. Entomol.71(6): 904-907|1978|10.1093/jee/71.6.904
54740|T||Tashiro,H., J.B. Bourke, and S.D. Gibbs|Residual activity of dieldrin and chlordane in soil of established turf in japanese beetle popillia-japonica grub control|J. Econ. Entomol.74(4): 397-399|1981|10.1093/jee/74.4.397
54741|A||Tatara,C.P., M. Mulvey, and M.C. Newman|Genetic and Demographic Responses of Mosquitofish (Gambusia holbrooki) Populations Exposed to Mercury for Multiple Generations|Environ. Toxicol. Chem.18(12): 2840-2845|1999|10.1002/etc.5620181226
54749|T||Taylor,C.E., and S.C. Gordon|A Comparison of Four Nematicides for the Control of Longidorus elongatus and Xiphinema diversicaudatum and the Viruses They Transmit|Engeigaku Kenkyuu10:133-141|1970|
54754|T||Taylor,Gregory J.|Aluminum Tolerance is Independent of Rhizosphere pH in Triticum aestivum L|Commun. Soil Sci. Plant Anal.19(7-12): 1217-1227|1988|10.1080/00103628809368007
54755|T||Taylor,G.J., F.P.C. Blamey, and D.G. Edwards|Antagonistic and Synergistic Interactions Between Aluminum and Manganese on Growth of Vigna unguiculata at Low Ionic Strength|Physiol. Plant. (Multiple Languages)104(2): 183-194|1998|10.1034/j.1399-3054.1998.1040206.x
54756|T||Taylor,J.|The Effect of Continual Use of Certain Fungicides on Physalospora obtusa|Phytopathology43:268-270|1953|
54757|T||Taylor,J.D.|The Effect of Tri-o-Cresyl Phosphate intoxication on Phospholipid Synthesis in Cat Spinal Cord|Can. J. Physiol. Pharmacol.43:715-721|1965|10.1139/y65-073
54758|T||Taylor,J.M.|Testing the Effects of Liquid Eradicants on Emergence of Anobium punctatum|Ann. Appl. Biol.67(2): 201-210|1971|10.1111/j.1744-7348.1971.tb02921.x
54762|T||Taylor,R.W., K.R. Sistani, and S. Patel|Soybean-rhizobium Combination for Tolerance to Low Phosphorus-high Aluminum|J. Agron. Crop Sci.165(1): 54-60|1990|10.1111/j.1439-037X.1990.tb00834.x
54763|T||Taylor,R.W., M.L. Williams, and K.R. Sistani|Nitrogen fixation by soybean-Bradyrhizobium combinations under acidity, low phosphorus and high aluminum stresses|Plant Soil131(2): 293-300|1991|10.1007/BF00009461
54766|T||Taylor,W.G., T.W. Hall, and C.E. Schreck|Synthesis and Mosquito Repellent Properties of 2,2-Dialkyl- and 2-Alkyl-4,4-Dimethyl-N-Acetyloxazolidines|Pestic. Sci.46(4): 307-314|1996|10.1002/(SICI)1096-9063(199604)46:4<307::AID-PS368>3.0.CO;2-V
54767|T||Tchernitchin,N.N., A.N. Tchernitchin, M.A. Mena, L. Villarroel, C. Guzman, and P. Poloni|Effect of Subacute Exposure to Lead on Responses to Estrogen in the Immature Rat Uterus|Bull. Environ. Contam. Toxicol.60(5): 759-765|1998|10.1007/s001289900691
54770|A||Tedengren,M., B. Olsson, O. Reimer, D.C. Brown, and B.P. Bradley|Heat Pretreatment Increases Cadmium Resistance and HSP 70 Levels in Baltic Sea Mussels|Aquat. Toxicol.48(1): 1-12|2000|10.1016/S0166-445X(99)00030-2
54771|T||Teillon,H.B., R. Hunt, B. Roettgering, and J. Pierce|Western Pine Beetle and Other Bark Beetles: Lindane Emulsion Effective in California Tests|J. Econ. Entomol.66(1): 208-211|1973|10.1093/jee/66.1.208
54773|T||Tekel,J., M. Holla, S. Vaverkova, and E. Svajdlenka|Determination of Uracil Herbicide Residues and Components in Essential Oil of Melissa officinalis L. in Its Main Development Phases|J. Essent. Oil Res.9:63-66|1997|10.1080/10412905.1997.9700716
54774|T||TeKrony,D.M., D.B. Egli, A. Phillips, and T.W. Still|Effect of Fungicide Seed Treatment on Soybean Germination and Field Emergence|Proc. Assoc. Off. Seed Anal.64:80-89|1974|
54776|T||Temesagdie,P., and T. Takano|Effect of Treated Seeds with H2BO3, GA3, KNO3 and ZnSO4 on Seedling Growth of Sweet Corn and Yard Long Bean|Kasetsart J. Nat. Sci.26(5): 34-40|1992|
54778|T||Templin,M.V., K.C. Jamison, D.C. Wolf, K.T. Morgan, and B.E. Butterworth|Comparison of Chloroform-Induced Toxicity in the Kidneys, Liver, and Nasal Passages of Male Osborne-Mendel and F-344 Rats|Cancer Lett.104(1): 71-78|1996|10.1016/0304-3835(96)04234-6
54779|T||Ten Houten,J.G.|Air Pollution and Plant Health|Bull. OEPP/EPPO:65-77|1972|
54782|T||Tenywa,J.S.|Crop Residue Influence on Exchangeable Aluminum, Potassium Availability, and Seedling Root Growth in an Oxisol|Ph.D. Thesis, The Ohio State University, Columbus, OH:128 p.|1993|
54783|A||Teplyakov,Y.V., and A.M. Nikanorov|Simulation of Heavy Metal Effect on Fresh-Water Ecosystems in Mesocosms and Estimation of Water Body Self-Purification Properties|In: N.E.Peters, R.J.Allan, and V.V.Tsirkunov (Eds.), Hydrological, Chemical and Biological Processes of Transformation and Transport of Contaminants in Aquatic Environments, IAHS Publ.No.219:293-301|1994|
54784|T||Tepper,H.B., C.S. Yang, and M. Schaedle|Effect of Aluminum on Growth of Root Tips of Honey Locust and Loblolly Pine|Environ. Exp. Bot.29(2): 165-173|1989|10.1016/0098-8472(89)90049-X
54785|T||Ter Haar,G.|Air as a Source of Lead in Edible Crops|Environ. Sci. Technol.4(3): 226-229|1970|10.1021/es60038a008
54786|T||Terhivuo,J., E. Pankakoski, H. Hyvarinen, and I. Koivisto|Pb Uptake by Ecologically Dissimilar Earthworm (Lumbricidae) Species Near a Lead Smelter in South Finland|Environ. Pollut.85(1): 87-96|1994|10.1016/0269-7491(94)90241-0
54787|T||Terry,N., P.S. Evans, and D.E. Thomas|Manganese Toxicity Effects on Leaf Cell Multiplication and Expansion and on dry Matter Yield of Sugar Beets|Crop Sci.15:205-208|1975|10.2135/cropsci1975.0011183X001500020019x
54788|A||Tessier,L., J.L. Boisvert, L.B.M. Vought, and J.O. LaCoursiere|Effects of 2,4-Dichlorophenol on the Net-Spinning Behavior of Hydropsyche slossonae Larvae (Trichoptera; Hydropsychidae) an Early Warning Signal of Chronic Toxicity|Ecotoxicol. Environ. Saf.46(2): 207-217|2000|10.1006/eesa.1999.1897
54789|A||Tessier,L., J.L. Boisvert, L.B.M. Vought, and J.O. LaCoursiere|Anomalies on Capture Nets of Hydropsyche slossonae Larvae (Trichoptera; Hydropsychidae) Following a Sublethal Chronic Exposure to Cadmium|Environ. Pollut.108(3): 425-438|2000|10.1016/S0269-7491(99)00219-5
54791|T||Tews,L.L.|The Effects of Selected Fungicides and Soil Fumigants upon the Microfungi of a Cattail Marsh|Proc. Conf. Gt. Lakes Res.:128-136|1971|
54792|A||Thakur,P.B., and V.S. Bais|Toxic Effect of Aldrin and Fenvalerate on Certain Haematological Parameters of a Fresh Water Teleost, Heteropneustes fossilis (Bl.)|J. Environ. Biol.21(2): 161-163|2000|
54793|A||Amma,V.G.T., and S.K. Konar|Pollutional Effects of Chlorpyrifos on Fish, Fish Food Organisms and Water Quality|Environ. Ecol.14(3): 723-730|1996|
54795|A||Thatheyus,A.J., M. Selvanayagam, and S.S. Raja|Toxicity of Nickel on Protein Content in Tissues of Cyprinus Carpio communis (Linn.)|Indian J. Environ. Health34(3): 236-238|1992|
54796|T||Thawley,D.G., R.A. Willoughby, B.J. McSherry, G.K. MacLeod, K.H. Mackay, and W.R. Mitchell|Toxic Interactions Among Pb, Zn, and Cd with Varying Levels of Dietary Ca and Vitamin D: Hematological System|Environ. Res.14(3): 463-475|1977|10.1016/0013-9351(77)90053-6
54798|A||Theede,H.|Comparative Studies on the Influence of Oxygen Deficiency and Hydrogen Sulfide on Marine Bottom Invertertebrates|Neth. J. Sea Res.7:244-252|1973|10.1016/0077-7579(73)90048-3
54801|T||Theiss,J.C., G.D. Stoner, M.B. Shimkin, and E.K. Weisburger|Test for Carcinogenicity of Organic Contaminants of United States Drinking Waters by Pulmonary Tumor Resonse in Strain A Mice|Cancer Res.37:2717-2720|1977|
54803|T||Theuer,R.C., A.W. Mahoney, and H.P. Sarett|Placental Transfer of Fluoride and Tin in Rats Given Various Fluoride and Tin Salts|J. Nutr.101:525-532|1971|10.1093/jn/101.2.223
54804|T||Thiboldeaux,R.L., R.L. Lindroth, and J.W. Tracy|Effects of Juglone (5-Hydroxy-1,4-Naphthoquinone) on Midgut Morphology and Glutathione Status in Saturniid Moth Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(3): 481-487|1998|
54805|T||Thiele,G.H., and R.L. Zimdahl|Triallate Accumulation in Wild Oat and Barley|Weed Sci.24:183-185|1976|10.1017/S0043174500065711
54807|T||Thilenius,J.F., D.R. Smith, and G.R. Brown|Effect of 2,4-D on Composition and Production of an Alpine Plant Community in Wyoming|J. Range Manag.27(2): 140-142|1974|10.2307/3896751
54808|T||Thind,T.S., and J.S. Jhooty|Use of Malathion and Stickers for Increasing the Efficacy of Fungicides for Controlling Purple Blotch of Onion|Indian J. Agric. Sci.54(4): 299-302|1984|
54809|T||Thiry,Y., N. Kruyts, and B. Delvaux|Respective Horizon Contributions to Cesium-137 Soil-to-Plant Transfer: A Pot Experiment Approach|J. Environ. Qual.29(4): 1194-1199|2000|10.2134/jeq2000.00472425002900040023x
54813|T||Thomas,M.D.|Air Pollution with Relation to Agronomic Crops: I. General Status of Research on the Effects of Air Pollution on Plants|Agron. J.50:545-|1958|10.2134/agronj1958.00021962005000090015x
54816|T||Thompson,C.R., and O.C. Taylor|Effects of Air Pollutants on Growth, Leaf Drop, Fruit Drop, and Yield of Citrus Trees|Environ. Sci. Technol.3(10): 934-940|1969|10.1021/es60033a004
54817|T||Thompson,C.R., G. Kats, and R.W. Lennox|Phytotoxicity of Air Pollutants Formed by High Explosive Production|Environ. Sci. Technol.13(10): 1263-1268|1979|10.1021/es60158a004
54819|T||Thompson,G.W., and R.J. Medve|Effects of Aluminum and Manganese on the Growth of Ectomycorrhizal Fungi|Appl. Environ. Microbiol.48(3): 556-560|1984|10.1128/aem.48.3.556-560.1984
54825|T||Thompson,L.S., and R.P. White|Effect of Insecticides on European Corn Borer and Yield of Silage Corn in Prince Edward Island|J. Econ. Entomol.70(6): 706-708|1977|10.1093/jee/70.6.706
54826|T||Thompson,L.S.|Field Tests with Chemical and Biological Insecticides for Control of Thymelicus lineola on Timothy|J. Econ. Entomol.70(3): 324-326|1977|10.1093/jee/70.3.324
54828|T||Thompson,P.L., L.A. Ramer, A.P. Guffey, and J.L. Schnoor|Decreased Transpiration in Poplar Trees Exposed to 2,4,6-Trinitrotoluene|Environ. Toxicol. Chem.17(5): 902-906|1997|
54829|T||Thompson,P.L., L.A. Ramer, and J.L. Schnoor|Hexahydro-1,3,5-Trinitro-1,3,5-Triazine Translocation in Poplar Trees|Environ. Toxicol. Chem.18(2): 279-284|1999|
54830|T||Thompson,P.L., L.A. Ramer, and J.L. Schnoor|Uptake and Transformation of TNT by Hybrid Poplar Trees|Environ. Sci. Technol.32:975-980|1998|10.1021/es970799n
54832|T||Thorgeirsson,S.S., S.A. Atlas, A.R. Boobis, and J.S. Felton|Species Differences in the Substrate Specificity of Hepatic Cytochrome P-448 from Polycyclic Hydrocarbon-Treated Animals|Biochem. Pharmacol.28:217-226|1979|10.1016/0006-2952(79)90507-0
54835|T||Thornton,B., and A.E.S. Macklon|Copper Uptake by Ryegrass Seedlings; Contribution of Cell Wall Adsorption|J. Exp. Bot.40(219): 1105-1111|1989|10.1093/jxb/40.10.1105
54836|A||Thornton,C.S.|Beryllium Inhibition of Regeneration: I. Morphological Effects of Beryllium on Amputated Fore Limbs of Larval Amblystoma|J. Morph.84:459-493|1949|10.1002/jmor.1050840305
54837|A||Thornton,C.S.|Beryllium Inhibition of Regeneration: II. Localization of the Beryllium Effect in Amputated Limbs of Larval Amblystoma|J. Exp. Zool.114:305-333|1950|10.1002/jez.1401140206
54838|A||Thornton,C.S.|Beryllium Inhibition of Regeneration: III. Histological Effects of Beryllium on the Amputated Fore Limbs of Amblystoma Larvae|J. Exp. Zool.118:467-493|1951|10.1002/jez.1401180307
54839|T||Thornton,F.C., M. Schaedle, and D.J. Raynal|Effects of Aluminum on Red Spruce Seedlings in Solution Culture|Environ. Exp. Bot.27(4): 489-498|1987|10.1016/0098-8472(87)90030-X
54840|T||Thornton,F.C., M. Schaedle, and D.J. Raynal|Tolerance of Red Oak and American and European Beech Seedlings to Aluminum|J. Environ. Qual.18(4): 541-545|1989|10.2134/jeq1989.00472425001800040027x
54841|T||Thornton,F.C., P.A. Pier, and C.,Jr. McDuffie|Response of growth, photosynthesis, and mineral nutrition of red spruce seedlings to ozone and acidic cloud deposition|Environ. Exp. Bot.30(3): 313-323|1990|10.1016/0098-8472(90)90043-4
54846|T||Thyagarajan,N.M., and G. Muthuswamy|Studies on the Residues of Solbar Sprayed on Bhendi and Tomato|In: S.K.Majunder (Ed.), Symposium on Pesticides, Academy of Pest Control Sciences, Mysore, India:306-309|1964|
54848|T||Tichy,V.|Pathophysiology of Plant Intoxications. V. Low-molecular-weight Humus Fractions and Aluminum Sulfate Interaction in Plant Growth|Scr. Fac. Sci. Nat. Univ. Purkynianae Brun.18(2): 65-72|1988|
54849|T||Tichy,V.|Manganese and Macromolecular Humus Substances Interaction in Plant Growth|Scr. Biol.21:11-17|1991|
54850|T||Tichy,V.|Low-Molecular Humus Substances and Manganese Sulfate Interaction in Plant Growth|Scr. Biol.21:19-25|1991|
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54854|T||Tiews,J., E. Scharrer, N. Harre, and L. Flogel|Metabolism and Excretion of Dimethyl Sulfoxide in Cows and Calves After Topical and Parenteral Application|Ann. N. Y. Acad. Sci.243:139-150|1975|10.1111/j.1749-6632.1975.tb25352.x
54855|T||Tiffin,L.O.|Translation of Manganese, Iron, Cobalt and Zinc in Tomato|Plant Physiol.42:1427-1432|1967|10.1104/pp.42.10.1427
54856|T||Tiffin,L.O.|Translocation of Nickel in Xylem Exudate of Plants|Plant Physiol.48:273-277|1971|10.1104/pp.48.3.273
54858|T||Tigar,B.J., and D.B. Pinniger|A Comparison of the Toxicity of Pirimiphos-Methyl and Malathion to Typhaea stercorea (L.) when Applied to Stored Maize|J. Stored Prod. Res.32(4): 307-313|1996|10.1016/S0022-474X(96)00037-9
54861|T||Tillander,M., J.K. Miettinen, and I. Koivisto|Excretion Rate of Methyl Mercury in the Seal (Pusa hispida)|In: M.Ruivo (Ed.), Marine Pollution and Sea Life, Fishing News Books, London:303-305|1972|
54866|T||Tiryaki,O., S. Maden, and A.S. Tuncbilek|14C-Residues of Trifluralin in Soil and Melon|Bull. Environ. Contam. Toxicol.59(5): 750-756|1997|10.1007/s001289900544
54867|T||Tischler,A.S., J.F. Powers, M. Pignatello, P. Tsokas, J.C. Downing, and R.M. McClain|Vitamin D3-Induced Proliferative Lesions in the Rat Adrenal Medulla|Toxicol. Sci.51(1): 9-18|1999|10.1093/toxsci/51.1.9
54868|A||Tisler,T., and J. Zagorc-Koncan|A Simple Flow-Through System for Toxicity Testing with Daphnids|Water Air Soil Pollut.111(1-4): 327-336|1999|10.1023/A:1005037027016
54869|T||Titov,A.F., V.V. Talanova, N.P. Boeba, S.V. Minaeva, and S.E. Soldatov|The effect of lead ions on the growth of wheat, barley, and cucumber seedlings|Russ. J. Plant Physiol.42(3): 403-407|1995|
54870|A||Tjarnlund,U., G. Ericson, U. Orn, C. Wit, and L. Balk|Effects of Two Polybrominated Diphenyl Ethers on Rainbow Trout (Oncorhynchus mykiss) Exposed Via Food|Mar. Environ. Res.46(1-5): 107-112|1998|10.1016/S0141-1136(97)00091-3
54872|T||Tjoelker,M.G., and R.J. Luxmoore|Soil nitrogen and chronic ozone stress influence physiology, growth and nutrient status of Pinus taeda L. and Liriodendron tulipifera L. seedlings|New Phytol.119(1): 69-81|1991|10.1111/j.1469-8137.1991.tb01009.x
54873|T||Tjoelker,M.G., J.C. Volin, J. Oleksyn, and P.B. Reich|Interaction Of Ozone Pollution And Light Effects On Photosynthesis In A Forest Canopy Experiment|Plant Cell Environ.18(8): 895-905|1995|10.1111/j.1365-3040.1995.tb00598.x
54879|T||Toker,M.Cihat|Uptake of Lead by Barley (Hordeum distichon L.) Roots and Its Relation to Potassium|DOGA Turk Zool. Dergisi12(2): 128-133|1988|
54880|T||Tolle,D.A., M.F. Arthur, K.M. Duke, and J. Chesson|Ecological Effects Evaluation of Two Phosphorus Smoke-Producing Compounds Using Terrestrial Microcosms|ASTM Spec. Tech. Publ.2:127-142|1990|
54882|A||Tolls,J., and D.T.H.M. Sijm|Bioconcentration and Biotransformation of the Nonionic Surfactant Octyaethylene Glycol Monotridecyl Ether 14C-C13EO8|Environ. Toxicol. Chem.18(12): 2689-2695|1999|
54883|A||Tolls,J., M. Haller, E. Labee, M. Verweij, and D.T.H.M. Sijm|Experimental Determination of Bioconcentration of the Nonionic Surfactant Alcohol Ethoxylate|Environ. Toxicol. Chem.19(3): 646-653|2000|10.1002/etc.5620190317
54885|T||Tomer,N.K., and A.K. Sharma|Effect of Preincubated Rock Phosphate and Pyrite with Manure on the Availability of Secondary and Micronutrients:  Availability of Sulfur to Wheat|Crop Res. (Hisar)4(1): 69-75|1991|
54887|T||Tomlin,A.D.|Toxicity of Soil Applications of the Fungicide Benomyl, and Two Analogues, to Three Species of Collembola|Can. Entomol.109:1619-1620|1977|
54889|T||Tomlin,A.D., J.H. Tolman, and G.D. Thorn|Suppression of Earthworm (Lumbricus terrestris) Populations Around an Airport by Soil Application of the Fungicide, Benomyl|Prot. Ecol.2:319-323|1981|
54892|T||Tomokuni,K., and M. Ichiba|Interaction Between Nickel and Lead in Relation to Porphyrin Metabolism in Mice|Ind. Health28:145-149|1990|10.2486/indhealth.28.145
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54896|T||Topp,E., I. Scheunert, and F. Korte|Kinetics of the Uptake of 14C-Labelled Chlorinated Benzenes from Soil by Plants|Ecotoxicol. Environ. Saf.17(2): 157-166|1989|10.1016/0147-6513(89)90034-1
54897|T||Toppozada,A., F.I. Ismail, and M.E. Eldefrawi|Susceptibility of Local Strains of Sitophilus oryzae (L.) and Tribolium castaneum (Herbst) to Insecticides|J. Stored Prod. Res.5(4): 393-397|1969|10.1016/0022-474X(69)90013-7
54902|A||Torres,E., A. Cid, C. Herrero, and J. Abalde|Effect of Cadmium on Growth, ATP Content, Carbon Fixation and Ultrastructure in the Marine Diatom Phaeodactylum tricornutum Bohlin|Water Air Soil Pollut.117(1-4): 1-14|2000|10.1023/A:1005121012697
54904|T||Tosh,J.E., E. Senior, J.E. Smith, and I.A. Watson-Craik|Landfill Site Restoration:  The Inimical Challenges of Ethylene and Methane|Environ. Pollut.83(3): 335-340|1994|10.1016/0269-7491(94)90155-4
54905|T||Totawat,K.L., and S.C. Chauhan|Effect of Soil Treatments and Plant Cultivars on Crop Production in Zinc-Polluted Fields|Int. J. Trop. Agric.10(3): 180-185|1992|
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54940|T||Tripathi,A.K., and S. Tripathi|Changes in Some Physiological and Biochemical Characters in Albizia lebbek as Bio-Indicators of Heavy Metal Toxicity|J. Environ. Biol.20(2): 93-98|1999|
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54948|A||Truchot,J.P., and A. Rtal|Effects of Long-Term Sublethal Exposure to Copper on Subsequent Uptake and Distribution of Metal in the Shore Crab Carcinus maenas|J. Crustac. Biol.18(2): 224-231|1998|10.2307/1549316
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54952|T||Tsakelidou,K., N. Karagiannidis, and S. Bladenopoulou|Effects of Calcium Carbonate and Organic Matter on Soil Aluminum, Manganese, Iron, Zinc and Copper and Their Concentration in Corn Plants in Greek Acid Soils|Agrochimica43(2): 89-100|1999|
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54960|T||Tsuda,H., and E. Farber|Resistant Hepatocytes as Early Changes in Liver by Polycyclic Aromatic Hydrocarbons|Int. J. Cancer25:137-139|1980|10.1002/ijc.2910250118
54961|T||Tsujimoto,Y., T. Noda, H. Moriwaki, and M. Tanaka|High Performance Liquid Chromatographic Determination of Mercapturic Acids in Urine of Rats Administered with m- or p-Xylene|Chemosphere36(11): 2491-2495|1998|10.1016/S0045-6535(97)10216-8
54962|T||Tsujimoto,Y., T. Noda, M. Shimizu, H. Moriwaki, and M. Tanaka|Identification of the Dimethylbenzyl Mercapturic Acid in Urine of Rats Administered with 1,2,4-Trimethylbenzene|Chemosphere40(8): 893-896|2000|10.1016/S0045-6535(99)00467-1
54963|T||Tsukada,H., and Y. Nakamura|Transfer of 137Cs and Stable Cs from Soil to Potato in Agricultural Fields|Sci. Total Environ.228:111-120|1999|10.1016/S0048-9697(99)00009-1
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54966|T||Tsunoda,M., R.R. Dugyala, and R.P. Sharma|Fumonisin B1-Induced Increases in Neurotransmitter Metabolite Levels in Different Brain Regions of BALB/c Mice|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(3): 457-465|1998|
54967|T||Tsunoda,M., V.J. Johnson, and R.P. Sharma|Increase in Dopamine Metabolites in Murine Striatum After Oral Exposure to Inorganic but not Organic Form of Selenium|Arch. Environ. Contam. Toxicol.39(1): 32-37|2000|10.1007/s002440010076
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54971|T||Tu,C.M.|Effect of Four Organophosphorus Insecticides on Microbial Activities in Soil|Appl. Microbiol.19(3): 479-484|1970|10.1128/am.19.3.479-484.1970
54972|T||Tu,C.M.|Effect of Four Nematicides on Activities of Micro-Organisms in Soil|Appl. Microbiol.23:398-401|1972|10.1128/am.23.2.398-401.1972
54973|T||Tu,C.M.|The Temperature Dependent Effect of Residual Nematicides on the Activities of Soil Micro-Organisms|Can. J. Microbiol.19:855-859|1973|10.1139/m73-136
54975|T||Tu,C.M.|Effects of Pesticide Seed Treatments on Rhizobium japonicum and Its Symbiotic Relationship with Soybean|Bull. Environ. Contam. Toxicol.18(2): 190-199|1977|10.1007/BF01686066
54976|T||Tu,C.M.|A Screening Technique for Assessing Effects of Pesticides on Population and Activities of Non-Target Soil Microorganisms|Bull. Environ. Contam. Toxicol.20(1-3): 212-218|1978|10.1007/BF01683511
54977|T||Tu,C.M.|Effect of Pesticides on Acetylene Reduction and Microorganisms in a Sandy Loam|Soil Biol. Biochem.10(6): 451-456|1978|10.1016/0038-0717(78)90035-4
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54984|T||Tuncbilek,A.S., P. Aysal, and M.B. Halitligil|Loss of label During Processing Cotton Oil Grown with 14C-Aldicarb|Bull. Environ. Contam. Toxicol.58(2): 213-218|1997|10.1007/s001289900322
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54991|T||Turnbull,C.R.A., C.L. Beadle, P.W. West, and M.L. Ottenschlaeger|Effect of Post-Planting Application of Granulated Atrazine and Fertiliser on the Early Growth of Eucalyptus nitens|New For. 8:323-333|1994|10.1007/BF00036732
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54995|T||Turner,M.A., and R.H. Rust|Effect of Chromium on Growth and Mineral Nutrition of Soybeans|Proc. Soil Sci. Soc. Am.35(1): 755-758|1971|10.2136/sssaj1971.03615995003500050035x
54996|T||Turner,M.A.|Effect of Cadmium Treatment on Cadmium and Zinc Uptake by Selected Vegetable Species|J. Environ. Qual.2(1): 118-119|1973|10.2134/jeq1973.00472425000200010020x
54997|T||Turner,R.G., and R.P.G. Gregory|The Use of Radioisotopes to Investigate Heavy Metal Tolerance in Plants|In: Isotopes in Plant Nutrition and Physiology, Austria: I.A.E.A.:493-508|1967|
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55009|T||Tyler,L.D., and M.B. McBride|Influence of Ca, pH and Humic Acid on Cd Uptake|Plant Soil64:259-262|1982|10.1007/BF02184258
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55636|T||Williams,C.H., and D.J. David|Some Effects of the Distribution of Cadmium and Phosphate in the Root Zone on the Cadmium Content of Plants|Aust. J. Soil Res.15:59-68|1977|10.1071/SR9770059
55638|T||Williams,J.C., J.W. Knox, B.A. Baumann, T.G. Snider, and T.J. Hoerner|Further Studies on the Efficacy of Fenbendazole Against Inhibited Larvae of Ostertagia ostertagi|Vet. Rec.108:228-230|1981|10.1136/vr.108.11.228
55639|T|OECDG|Williams,J.E., and R.G. Wiegert|Effects of Naphthalene Application on a Coastal Plain Broomsedge (Andropogon) Community|Pedobiologia (Multiple Languages)11:58-65|1971|10.1016/S0031-4056(23)00444-4
55640|A||Williams,L.G., and D.I. Mount|Influence of Zinc on Periphytic Communities|Am. J. Bot.52(1): 26-34|1965|10.1002/j.1537-2197.1965.tb06753.x
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55654|A||Wilson,A.L., M.M. Stevens, and R.J. Watts|Acute and Chronic Toxicity of the Herbicide Benzofenap (Taipan 300) to Chironomus tepperi Skuse (Diptera: Chironomidae) and Isidorella newcombi (Adams and Angas) (Gastropoda: Planorbidae)|Arch. Environ. Contam. Toxicol.38(2): 176-181|2000|10.1007/s002449910023
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55657|T||Wilson,E.J., and R.A. Skeffington|The Effects of Excess Nitrogen Deposition on Young Norway Spruce Trees:  Part II. The Vegetation|Environ. Pollut.86(2): 153-160|1994|10.1016/0269-7491(94)90186-4
55659|T||Wilson,J.H., and P.L. Ruszler|Effects of Dietary Boron on Poultry Bone Strength|Trans ASAE (Am. Soc. Agric. Eng.)38(1): 167-170|1995|10.13031/2013.27826
55660|T||Wilson,K.J.|The Biology and Control of Maize Rootworm, Buphonella murina Gerst., (Coleoptera: galerucidae) a Pest of Maize in Zambia|J. Entomol. Soc. South. Afr.32(1): 147-159|1969|
55661|T||Wilson,P.C., T. Whitwell, and S.J. Klaine|Phytotoxicity, Uptake, and Distribution of [14C] Simazine in Canna hybrida `Yellow King Humbert'|Environ. Toxicol. Chem.18(7): 1462-1468|1999|10.1002/etc.5620180717
55662|T||Wilson,R.G.|Cyanazine Residues on Fieldbeans (Phaseolus vulgaris) as a Replant Crop|Weed Technol.2(1): 28-30|1988|10.1017/S0890037X00030025
55664|T||Wilson,S.B., and H.M. Reisenauer|Cobalt Requirements of Symbiotically Grown Alfalfa|Plant Soil19(3): 364-373|1963|10.1007/BF01379489
55665|T||Wilson,S.B., and E.G. Hallsworth|Studies on the Nutrition of Forage Legumes. IV. The Effect of Cobalt on the Growth of Nodulated and Non-Nodulated Trifolium subterraneum L.|Plant Soil22(2): 260-279|1965|10.1007/BF01373996
55666|T||Wilson,S.B., and D.J.D. Nicholas|A Cobalt requirement for Non-Nodulated Legjmes and for Wheat|Phytochemistry6:1057-1066|1967|10.1016/S0031-9422(00)86062-8
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55669|T||Wimalajeewa,D.L.S.|Field Investigations on the Control of Club Root of Cabbage in Sri Lanka|Ann. Appl. Biol.79:321-327|1975|10.1111/j.1744-7348.1975.tb01588.x
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55700|T||Wolfe,M.F., and R.J. Kendall|Age-Dependent Toxicity of Diazinon and Terbufos in European Starlings (Sturnus vulgaris) and Red-Winged Blackbirds (Agelaius phoeniceus)|Environ. Toxicol. Chem.17(7): 1300-1312|1998|
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55776|T||Wu,L., and Z.Z. Huang|Selenium Accumulation and Selenium Tolerance of Salt Grass from Soils with Elevated Concentrations of Selenium and Salinity|Ecotoxicol. Environ. Saf.22(3): 267-282|1991|10.1016/0147-6513(91)90078-4
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55827|T||Yang,X.E., V.C. Baligar, J.C. Foster, and D.C. Martens|Accumulation and Transport of Nickel in Relation to Organic Acids in Ryegrass and Maize Grown with Different Nickel Levels|Plant Soil196(2): 271-276|1997|10.1023/A:1004270528532
55829|T||Yang,Y.H., and H.Y. Zhang|Boron Amelioration of Aluminum Toxicity in Mungbean Seedlings|J. Plant Nutr.21(5): 1045-1054|1998|10.1080/01904169809365463
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55832|T||Yao,H., R. Conrad, R. Wassmann, and H.U. Neue|Effect of Soil Characteristics on Sequential Reduction and Methane Production in Sixteen Rice Paddy Soils from China, the Philippines and Italy|Biogeochemistry (Dordr.)47(3): 269-295|1999|10.1007/BF00992910
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55847|T||Yeo,R.R.|Response of Field Crops to Acrolein|West.Weed Control Conf.Res.Prog.Rep.:71-|1959|
55848|T||Yermiyahu,U., G. Rytwo, D.K. Brauer, and T.B. Kinraide|Binding And Electrostatic Attraction Of Lanthanum (La3+) And Aluminum (Al3+) To Wheat Root Plasma Membranes|J. Membr. Biol.159(3): 239-252|1997|10.1007/s002329900287
55853|T||Yip,G., J.H. Onley, and S.F. Howard|Residues of Maneb and Ethylene Thiourea on Field-Sprayed Lettuce and Kale|J. AOAC Int.54(6): 1373-1375|1971|10.1093/jaoac/54.6.1373
55854|T||Ylaranta,T.|Effect of Added Selenite and Selenate on the Selenium Content of Italian Ryegrass (Lolium multiflorum) in Different Soils|Ann. Agric. Fenn.22:139-151|1983|
55855|T||Ylaranta,T.|Effect of Applied Selenite and Selenate on the Selenium Content of Barley (Hordeum vulgare)|Ann. Agric. Fenn.22:164-174|1983|
55856|T||Ylaranta,T.|Effect of Selenium Fertilization and Foliar Spraying at Different Growth Stages on the Selenium Content of Spring Wheat and Barley|Ann. Agric. Fenn.23:85-95|1984|
55859|A||Yokota,H., Y. Tsuruda, M. Maeda, Y. Oshima, H. Tadokoro, A. Nakazono, T. Honjo, and K. Kobayashi|Effects of Bisphenol A on the Early Life Stage in Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.19(7): 1925-1930|2000|10.1002/etc.5620190730
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55864|T||Yorio,T., and P.J. Bentley|The Effects of Methylmercury Compounds on the Skin (In Vitro) of the Leopard Frog (Rana pipiens)|Comp. Gen. Pharmacol.4:167-174|1973|10.1016/0010-4035(73)90035-9
55866|T||Yoshida,T., Y. Ito, and Y. Suzuki|Inhibition of Hepatic Drug Metabolizing Enzyme by Cadmium in Mice|Bull. Environ. Contam. Toxicol.15(4): 402-405|1976|10.1007/BF01685062
55867|T||Yoshimura,H., S. Yoshihara, N. Koga, K. Nagata, I. Wada, J. Kuroki, and Y. Hokama|Inductive Effect on Hepatic Enzymes and Toxicity of Congeners of PCBs and PCDFs|Environ. Health Perspect.59:113-119|1985|
55869|T||Yothers,M.A., and F.W. Carlson|Effect of DDT on the Green Peach Aphid and Its Coccinellid Predators|J. Econ. Entomol.41(3): 515-516|1948|10.1093/jee/41.3.515a
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55874|T||Young,H.Y.|Pesticide and Growth Regulator Residues in Pineapple|Residue Rev.35:81-101|1971|
55875|T||Young,R.W.|Residues of Dieldrin and DDT in Peanuts and Turnip Greens Grown in Soil Containing These Compounds|Pestic. Monit. J.3:94-99|1969|
55877|T||Younts,S.E.|Response of Wheat to Rates, Dates of Application, and Sources of Copper and to Other Micronutrients|Agron. J.56:266-269|1964|10.2134/agronj1964.00021962005600030005x
55878|T||Yousif,Y.H.|Growth, Mineral Composition, and Seed Oil of Sesame (Sesamun indicum L.) as Affected by Boron and Exhangeable Sodium|Proc. Soil Sci. Soc. Am.36:923-926|1972|10.2136/sssaj1972.03615995003600060026x
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55880|T||Youssef,S.A.H., A.A. El-Sanousi, N.A. Afifi, and A.M.A. El-Brawy|Effect of Subclinical Lead Toxicity on the Immune Response of Chickens to Newcastle Disease Virus Vaccine|Res. Vet. Sci.60(1): 13-16|1996|10.1016/S0034-5288(96)90123-X
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55890|T||Yugin,M., Z. Zhonglun, S. Zhen, M. Bin, Z. Yanzhen, L. Chengxiang, W. Yingyan, and W. Jiguang|SO2-Induced Change of Spectrum in Low-Level Chemiluminescence from Leaf of Populus tomentosa|Bull. Environ. Contam. Toxicol.55(1): 136-141|1995|10.1007/BF00212400
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55898|T||Zaman,K., R.S. MacGill, J.E. Johnson, S. Ahmad, and R.S. Pardini|An Insect Model for Assessing Mercury Toxicity: Effect of Mercury on Antioxidant Enzyme Activities of the Housefly (Musca domestica) and the Cabbage Looper Moth (Trichoplusia ni)|Arch. Environ. Contam. Toxicol.26(1): 114-118|1994|10.1007/BF00212802
55899|T||Zaman,K., R.S. MacGill, J.E. Johnson, S. Ahmad, and R.S. Pardini|An Insect Model for Assessing Oxidative Stress Related to Arsenic Toxicity|Arch. Insect Biochem. Physiol.29(2): 199-209|1995|10.1002/arch.940290209
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55901|T||Zaman,Q., M.Z. Khan, N. Islam, and G. Muhammad|Experimental Furazolidone Toxicosis in Broiler Chicks: Effect of Dosage, Duration and Age upon Clinical Signs and Some Blood Parameters|Acta Vet. Hung.43(2-3): 359-367|1995|
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55904|T||Zaragoza,S., V. Almela, F.R. Tadeo, E. Primo-Millo, and M. Agusti|Effectiveness of Calcium Nitrate and GA3 on the Control of Peel-Pitting of Fortune Mandarin|J. Hortic. Sci.71(2): 321-326|1996|10.1080/14620316.1996.11515411
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55907|T||Zaurov,D.E., P. Perdomo, and I. Raskin|Optimizing Soil Fertility and pH to Maximize Cadmium Removed by Indian Mustard from Contaminated Soils|J. Plant Nutr.22(6): 977-986|1999|10.1080/01904169909365687
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55937|T||Zhong,M., and S.C. Miyasaka|Oxalate Exudation by Taro in Response to Al|Plant Physiol.118(3): 861-865|1998|10.1104/pp.118.3.861
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55953|A||Zou,E., and M. Fingerman|Patterns of N-Acetyl-beta-Glucosaminidase Isoenzymes in the Epidermis and Hepatopancreas and Induction of N-Acetyl-beta-Glucosaminidase Activity by 20-Hydroxyecdysone in the Fiddler Crab, Uca pugilator|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 345-349|1999|
55954|T||Zsoldos,F., A. Vashegyi, L. Bona, A. Pecsvaradi, and Z. Szegletes|Aluminium and Nitrite Induced Alteration in Potassium Transport of Wheat|Cereal Res. Commun.27(1-2): 147-153|1999|10.1007/BF03543931
55955|T||Zuch,C.L., D.J. O'Mara, and D.A. Cory-Slechta|Low-Level Lead Exposure Selectively Enhances Dopamine Overflow in Nucleus Accumbens: An In Vivo Electrochemistry Time Course Assessment|Toxicol. Appl. Pharmacol.150(1): 174-185|1998|10.1006/taap.1998.8396
55958|T||Zupan,M., V. Hudnik, F. Lobnik, and V. Kadunc|Accumulation of Lead, Cadmium and Zinc from Contaminated Soil in Various Plants and Evaluation of Soil Remediation with Indicator Plant (Plantago lanceolata L.)|Colloq.Inst.Natl.Rech.Agron., Contaminated Soils85:325-335|1997|
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55962|A||Danish Environmental Protection Agency|Immobilization Test of Selected Organic Amines with the Crustacean Daphnia magna|Report, Danish Environmental Protection Agency, Copenhagen, Denmark:51 p.|1999|
55963|A||Pedersen,F.|Immobilization Test of Three Trialkylamine Compounds with the Crustacean Daphnia magna|Proj.No.303587, Report to Danish EPA, Copenhagen, Denmark:46 p.|2000|
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55965|A||Pedersen,F., E. Bjornestad, T. Vulpius, and H.B. Rasmussen|Immobilisation Test of Alkylamine Compounds with the Crustacean Daphnia magna|Proj.No.303587, Report to Danish EPA, Copenhagen, Denmark:98 p.|1998|
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55967|T||Al-Hamood,M.H., A. Elbetieha, and H. Bataineh|Sexual Maturation and Fertility of Male and Female Mice Exposed Prenatally and Postnatally to Trivalent and Hexavalent Chromium Compounds|Reprod. Fertil. Develop.10:179-183|1998|10.1071/R97001
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55970|T||Bataineh,H., M.H. Al-Hamood, A. Elbetieha, and I. Bani Hani|Effect of Long-Term Ingestion of Chromium Compounds on Aggression, Sex Behavior and Fertility in Adult Male Rat|Drug Chem. Toxicol.20(3): 133-149|1997|10.3109/01480549709003875
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55977|T||Diaz,G.J., R.J. Julian, and E.J. Squires|Lesions in Broiler Chickens Following Experimental Intoxication with Cobalt|Avian Dis.38:308-316|1994|10.2307/1591955
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55984|T||Hart,E.R.|Final Report, Two-Year Feeding Study in Rats|Off.of Naval Res., Litton Bionetics Inc., Kensington, MD:209 p.|1976|
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55988|T||Hill,C.H.|Influence of High Levels of Minerals on the Susceptibility of Chicks to Salmonella gallinarum|J. Nutr.104:1221-1226|1974|10.1093/jn/104.10.1221
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55991|T||Reitz,H.J., and N.F. Shimp|Copper Oxide as a Soil Amendment for Citrus|Annu. Meet. Fla. State Hortic. Soc.66:37-42|1953|
55992|T||Reid,W.S.|The Effect of Several Factors on the Response of Barley (Hordeum vulgare L.) to Excess Soil Manganese in an Acid Terrace Soil|Ph.D. Thesis, Mississippi State University, Starkville, MS:157 p.|1965|
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55994|T||Chen,C., H. Gong, and K. Wang|Effect of Cd on Quality, Physiological and Biochemical Characteristics of Mulberry Leaves and Its Mechanism|Yingyong Shengtai Xuebao (Non-English)7(4): 417-423|1996|
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56002|T||White,M.C., R.L. Chaney, and A.M. Decker|Differential Cultivar Tolerance in Soybean to Phytotoxic Levels of Soil Zn.  II.  Range of Zn Additions and the Uptake and Translocation of Zn, Mn, Fe and P|Agron. J.71:126-131|1979|10.2134/agronj1979.00021962007100010032x
56003|T||Sarada,R.L., and H. Polasa|Effect of Manganese, Copper and Cobalt on the In Vitro Growth of R. leguminosarum-2001 and on the Symbiotic Nitrogen Fixation in Lentil Plants|Indian J. Agric. Res.26(4): 187-194|1992|
56004|T||Sarkunan,V., A.K. Misra, and A.R. Mohapatra|Effect of Cadmium on Yield and Uptake of Cadmium by Different Rice Varieties|J. Indian Soc. Soil Sci.43(2): 298-300|1995|
56005|T||Singh,S.P., and V.K. Nayyar|Critical Limit of Zinc for Cotton on a Typic Ustochrept|J. Indian Soc. Soil Sci.43(3): 479-481|1995|
56006|T||Thatoi,H.N., S. Sahu, A.K. Misra, and G.S. Padhi|Comparative Effect of VAM Inoculation on Growth, Nodulation and Rhizobium Population of Subabul (Leucaena leucocephala (Lam.) De Wit) Grown in Iron Mine Waste Soil|Indian For.119(6): 481-489|1993|
56007|T||Zhang,X.G., R.S. Jessop, and F. Ellison|Inheritance of Root Regrowth as an Indicator of Apparent Aluminum Tolerance in Triticale|Euphytica 108(2): 97-103|1999|10.1023/A:1003656312298
56008|T||Ostmark,H.E.|Chemical Control of the Arizona Five-Spined Ips Ips lecontei SW. (Coleoptera:  Scolytidae)|U.S.Dep.of Agriculture, Res.Note No.RM-154:1-4|1969|
56009|T||Vosatka,M., E. Batkhuugyin, and J. Albrechtova|Response of Three Arbuscular Mycorrhizal Fungi to Simulated Acid Rain and Aluminium Stress|Biol. Plant. (Praha)42(2): 289-296|1999|10.1023/A:1002125005497
56010|T||Sharma,P.N., and A. Tripathi|Water Relations and Photosynthesis in Barley Plants Grown Under Conditions of Deficiency and Toxicity of Iron|Indian J. Plant Physiol.37(2): 85-88|1994|
56011|T||Wu,P., B. Zhao, J. Yan, A. Luo, Y. Wu, and D. Senadihra|Genetic Control of Seedling Tolerance to Aluminum Toxicity in Rice|Euphytica 97(3): 289-293|1997|10.1023/A:1003084409038
56012|T||Ruiz-Torres,N.A., and B.F. Carver|Genetic Expression of Aluminum Tolerance in Hard Red Winter Wheat|Cereal Res. Commun.20(3-4): 233-240|1992|
56013|T||Wheeler,D.M., D.J.C. Wild, and D.C. Edmeades|Preliminary Results from a Microscopic Examination on the Effects of Aluminium on the Root Tips of Wheat|Dev. Plant Soil Sci.50:97-101|1993|
56014|T||Passlow,T., and P.D. Rossiter|Insecticides for the Protection of Stored Potatoes|Qld. J. Agric. Anim. Sci.30(2): 151-155|1973|
56015|T||Wicks,R.|Control Trials Against the Rough Brown Weevil Leptopius corrugatus Pascoe|Qld. J. Agric. Anim. Sci.30(4): 337-340|1973|
56016|T||Rossiter,P.D.|Insecticides to Control Sorghum Midge Contarinia sorghicola (Coq.)|Qld. J. Agric. Anim. Sci.34(2): 147-150|1977|
56017|T||Waite,G.K.|Insecticidal Control of Lucerne Jassids in South-East Queensland|Qld. J. Agric. Anim. Sci.35(2): 133-138|1978|
56018|T||Elder,R.J.|Oncopera brachyphylla Turner and Oncopera mitocera (Turner) Insecticide Control Trials 1964-1966|Qld. J. Agric. Anim. Sci.31(3): 279-284|1974|
56019|T||Rossiter,P.D.|Control of Jassids (F. Cicadellidae) on Potatoes in Southern Queensland|Qld. J. Agric. Anim. Sci.34(2): 141-145|1977|
56020|T||Babulkar,N.N., Y.M. Taley, and K.M. Khan|Chemical Control of Sorghum Earhead Midge (Contarinia sorghicola coquillet)|PKV Res. J.3(1): 32-35|1974|
56021|T||Pinese,B.|Chlorpyrifos-Impregnated Bunch Covers and Insecticides Control Banana Rust Thrips|Qld. J. Agric. Anim. Sci.44(2): 113-116|1987|
56023|T||Bhunya,S.P., and T. Behura|Evaluation of Clastogenicity of Three Pesticides in the Grasshopper Test System|J. Zool. Soc. India28(1/2): 73-82|1986|
56024|T||Singh,B.P., Das Madhumita, R.N. Prasad, and M. Ram|Phosphorus Nutrition of Rice Grown in Fe-Toxic Acid Haplaquent|J. Indian Soc. Soil Sci.44(3): 437-440|1996|
56029|T||Venkateswerlu,G., and K.S. Sastry|Interrelationships in Trace-Element Metabolism in Metal Toxicities in a Cobalt-Resistant Strain of Neurospora crassa|Biochem. J. (Lond.)132(4): 673-680|1973|10.1042/bj1320673
56030|T||Sachdev,P., M.S. Sachdev, and D.L. Deb|The Uptake and Transfer of Caesium-137, Strontium-90 and Zinc-65 from Soil to Food Crops in Tropical Environment|J. Nucl. Agric. Biol.27(1): 1-9|1998|
56033|T||Aniol,A.|Aluminium Uptake by Roots of Two Winter Wheat Varieties of Different Tolerance to Aluminium|Biochem. Physiol. Pflanzen (Multiple Languages)178:11-20|1983|10.1016/S0015-3796(83)80065-1
56034|T||Grimme,H.|Aluminium Induced Magnesium Deficiency in Oats|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)146:666-676|1983|10.1002/jpln.19831460515
56042|T||Begg,J.A., P.J.G. Plummer, and H. Konst|Insecticide Residues in Potatoes After Soil Treatment for Control of Wireworms|Can. J. Plant Sci.40:680-689|1960|10.4141/cjps60-100
56044|T||Snyder,E., and F.N. Harmon|Some Responses of Vinifera Grapes to Zinc Sulphate|Proc. Am. Soc. Hortic. Sci.63:91-94|1954|
56049|T||McBee,G.G., P.R. Johnson, and E.C. Holt|Arsenic Residue Studies on Coastal Bermudagrass|Weeds (Urbana)15:77-79|1967|10.2307/4041073
56050|T||Suthipradit,S., and A.K. Alva|Aluminum and pH Limitations for Germination and Radicle Growth of Soybean|J. Plant Nutr.9(1): 67-73|1986|10.1080/01904168609363424
56051|T||Wagatsuma,T., and M. Kaneko|high Toxicity of Hydroxy-Aluminum Polymer Ions to Plant Roots|Soil Sci. Plant Nutr.33(1): 57-67|1987|10.1080/00380768.1987.10557552
56052|T||Elamin,O.M., and G.E. Wilcox|Manganese Toxicity Development in Muskmelons as Influenced by Nitrogen Form|J. Am. Soc. Hortic. Sci.111(3): 323-327|1986|10.21273/JASHS.111.3.323
56054|T||Coorts,G.D.|Excess Manganese Nutrition of Ornamental Plants|Res. Bull. Univ. Mo. Agric. Exp. Stn.:35 p.|1958|
56056|T||Cantrell,R.L., D.M. Flinchum, and D.G. Neary|Individual Tree Treatments Using Herbicides for Control of Turkey Oak|South. J. Appl. For.10(3): 131-134|1986|10.1093/sjaf/10.3.131
56057|T||Varavipour,M., R. Hasan, and D. Singh|Effect of Applied Phosphorus, Sulphur and Zinc on Yield and Uptake Parameters of Wheat (Triticum aestivum) and Soybean (Glycine max) Grown on a Loamy Sand|Indian J. Agric. Sci.69(1): 1-4|1999|
56058|T||Krause,G.H.M., and H. Kaiser|Plant Response to Heavy Metals and Sulphur Dioxide|Environ. Pollut.12(1): 63-71|1977|
56059|T||Ormrod,D.P.|Cadmium and Nickel Effects on Growth and Ozone Sensitivity of Pea|Water Air Soil Pollut.8:263-270|1977|10.1007/BF00541912
56060|T||Singh,D.N., H.S. Srivastava, and R.P. Singh|Nitrate Assimilation in Pea Leaves in the Presence of Cadmium|Water Air Soil Pollut.42:1-5|1988|
56064|T||Steinberg,R.A.|Effects of Barium Salts upon Aspergillus niger and Their Bearing upon the Sulphur and Zinc Metabolism of the Fungus in an Optimum Solution|Bot. Gaz.97:666-671|1936|10.1086/334589
56065|T||McHargue,J.S.|Effect of Certain Compounds of Barium and Strontium on the Growth of Plants|J. Agric. Res.16:183-194|1919|
56066|T||Dancis,A., D.G. Roman, G.J. Anderson, A.G. Hinnebusch, and R.D. Klausner|Ferric Reductase of Saccharomyces cerevisiae:  Molecular Characterization, Role in Iron Uptake and Transcriptional Control by Iron|Proc. Natl. Acad. Sci. U.S.A.89:3869-3873|1992|10.1073/pnas.89.9.3869
56067|T||Fleming,A.L.|Enhanced Mn Accumulation by Snapbean Cultivars Under Fe Stress|J. Plant Nutr.12(6): 715-731|1989|10.1080/01904168909363986
56070|T||Adriano,D.C., D.I. Kaplan, W.G. Burkman, and G.L. Mills|Long-Term Phytoavailability of Soil-Applied Organo-Borates|J. Environ. Qual.17(3): 485-492|1988|10.2134/jeq1988.00472425001700030024x
56071|T||Anderson,R.A., N.A. Bryden, M.M. Polansky, and M.P. Richards|Chromium Supplementation of Turkeys:  Effects on Tissue Chromium|J. Agric. Food Chem.37:131-134|1989|10.1021/jf00085a031
56074|T||Gale,T.F.|Embryotoxic Effects of Chromium Trioxide in Hamsters|Environ. Res.16(1-3): 101-109|1978|10.1016/0013-9351(78)90147-0
56075|T||Laborda,R., J. Diaz-Mayans, and A. Nunez|Nephrotoxic and Hepatotoxic Effects of Chromium Compounds in Rats|Bull. Environ. Contam. Toxicol.36(3): 332-336|1986|10.1007/BF01623516
56076|T||Saxena,D.K., R.C. Murthy, V.K. Jain, and S.V. Chandra|Fetoplacental -- Maternal Uptake of Hexavalent Chromium Administered Orally in Rats and Mice|Bull. Environ. Contam. Toxicol.45(3): 430-435|1990|10.1007/BF01701168
56079|T||Bachman,G.R., and W.B. Miller|Iron Chelate Inducible Iron /Manganese Toxicity in Zonal Geranium|J. Plant Nutr.18(9): 1917-1929|1995|10.1080/01904169509365033
56081|T||McKinlay,R.G.|Chemical Control of the Wheat Bulb Fly Delia coarctata Fall. (Diptera: Anthomyiidae) in the United Kingdom Using Pesticide Formulations that Reduce the Hazard to Wildlife|Prot. Ecol.2(4): 305-312|1981|
56082|T||Allison,R.V., O.C. Bryan, and J.H. Hunter|The Stimulation of Plant Response on the Raw Peat Soils of the Florida Everglades Through the Use of Copper Sulphate and Other Chemicals|Fla. Agric. Exp. Stn. Bull.:33-80|1927|
56083|T||Blamey,F.P.C., D.M. Wheeler, D.C. Edmeades, and R.A. Christie|Independence of Differential Aluminum Tolerance in Lotus on Changes in Rhizosphere pH or Excretion of Organic Ligands|J. Plant Nutr.13(6): 713-728|1990|10.1080/01904169009364111
56084|T||Pich,A., G. Scholz, and K. Seifert|Effect of Nicotianamine on Iron Uptake and Citrate Accumulation in Two Genotypes of Tomato, Lycopersicon esculentum Mill.|J. Plant Physiol.137:323-326|1991|10.1016/S0176-1617(11)80139-2
56085|T||Stephan,U.W., and G. Scholz|Nicotianamine Concentrations in iron Sufficient and Iron Deficient Sunflower and Barley Roots|J. Plant Physiol.136:631-634|1990|10.1016/S0176-1617(11)80226-9
56086|T||Shelton,J.E., and D.C. Zeiger|Distribution of Manganese-54 in `Delicious' Apple Trees in Relation to the Occurrence of Internal Bark Necrosis (IBN)|J. Am. Soc. Hortic. Sci.95(6): 758-762|1970|10.21273/JASHS.95.6.758
56087|T||Conner,S.D.|The Effect of Zinc in Soil Tests with Zinc and Galvanized Iron Pots|J. Am. Soc. Agron.12:61-64|1920|10.2134/agronj1920.00021962001200020004x
56088|T||Ryan,P.J., S.P. Gessel, and R.J. Zasoski|Acid Tolerance of Pacific Northwest Conifers in Solution Culture II.  Effect of Varying Aluminum Concentrations at Constant pH|Plant Soil96:259-272|1986|10.1007/BF02374769
56089|T||Lopez-Benitez,A.|Influence of Aluminium Toxicity in Intergeneric Crosses of Wheat and Rye|Ph.D.Thesis, Oregon State University, Corvallis, OR:107 p.|1977|
56090|T||McKersie,B.D., W.D. Beversdorf, and P. Hucl|The Relationship Between Ozone Insensitivity, Lipid-Soluble Antioxidants and Superoxide Dismutase in Phaseolus vulgaris|Can. J. Bot.60:2687-2691|1982|
56091|T||Masters,R.A., R.N. Stougaard, and S.J. Nissen|Leafy Spurge (Euphorbia esula) Control with Fall-Applied Imazapyr, Imazaquin and Imazethapyr|Weed Technol.8:58-63|1994|10.1017/S0890037X00039208
56092|T||Ahrend,R., H. Kahle, and S.W. Breckle|Effect of Cadmium on Transpiration of Young Beech Trees (Fagus silvatica L.)|In: J.B.Bucher and I.Bucher-Wallin (Eds.), Proc.14th Int.Meeting for Specialists in Air Pollution Effects on Forest Ecosystems, Oct.2-8, 1988, Interlaken, Switzerland:381-383|1989|
56093|T||Hiatt,A.J., and J.L. Ragland|Manganese Toxicity of Burley Tobacco|Agron. J.55(1): 47-49|1963|10.2134/agronj1963.00021962005500010017x
56094|T||Naidoo,G.J., J.M.D. Stewart, and R.J. Lewis|Accumulation Sites of Al in Snapbean and Cotton Roots|Agron. J.70:489-492|1978|10.2134/agronj1978.00021962007000030031x
56095|T||Keisling,T.C., D.A. Lauer, M.E. Walker, and R.J. Henning|Visual, Tissue and Soil Factors Associated with Zn Toxicity of Peanuts|Agron. J.69(5): 765-769|1977|10.2134/agronj1977.00021962006900050008x
56096|T||Fleming,A.L., and C.D. Foy|Root Structure Reflects Differential Aluminum Tolerance in Wheat Varieties|Agron. J.60:172-176|1968|10.2134/agronj1968.00021962006000020009x
56097|T||Foy,C.D., J.E. Jones, and H.W. Webb|Adaptation of Cotton Genotypes to an Acid, Aluminum Toxic Soil|Agron. J.72:833-839|1980|10.2134/agronj1980.00021962007200050032x
56098|T||Sens,C., P. Scheidemann, A. Klunk, and D. Werner|Distribution of 14C-TNT and Derivatives in Different Biochemical Compartments of Phaseolus vulgaris|Environ. Sci. Pollut. Res.5(4): 202-208|1998|10.1007/BF02986402
56100|T||Rajput,A.L., D.P. Singh, and S.P. Singh|Effect of Soil and Foliar Application of Nitrogen and Zinc with Farmyard Manure on Late-Sown Wheat (Triticum aestivum)|Indian J. Agron.40(4): 598-600|1995|
56101|T||Turnau,K.|The Influence of Cadmium Dust on Fungi in a Pino quercetum Forest|Ekol. Pol.39(1): 39-57|1991|
56102|T||Singh,B.R., and E. Steinnes|Uptake of Trace Elements by Barley in Zinc-Polluted Soils: 2. Lead, Cadmium, Mercury, Selenium, Arsenic, Chromium and Vanadium in Barley|Soil Sci.121(1): 38-43|1976|10.1097/00010694-197601000-00007
56103|T||Samantaray,S., G.R. Rout, and P. Das|Differential Nickel Tolerance of Mung Bean (Vigna radiata L.) Genotypes in Nutrient Culture|Agronomie (Multiple Languages)18(8-9): 537-544|1998|10.1051/agro:19980804
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56107|T||Alam,S.M., and W.A. Adams|The Effect of Aluminium upon Growth and Nutrient Compositon of Oats (Avena sativa L.)|Pak. J. Sci. Ind. Res.23(4): 130-135|1980|
56108|T||Tan,K.H., and A. Binger|Effect of Humic Acid on Aluminum Toxicity in Corn Plants|Soil Sci.141(1): 20-25|1986|10.1097/00010694-198601000-00004
56109|T||Daabees,A.Y., N.A. El Domiaty, A.M. Hilmy, A.M. Awadallah, and E.M. Abu Taleb|Mortality, Distribution and Excretion of Cobalt and Nickel Administered Subcutaneously to the Toads|J. Med. Res. Inst.12(1): 185-201|1991|
56110|T||Wu,L., and Z.Z. Huang|Chloride and Sulfate Salinity Effects on Selenium Accumulation by Tall Fescue|Crop Sci.31(1): 114-118|1991|10.2135/cropsci1991.0011183X003100010028x
56111|T||Robinson,D.K., D.W. Monks, and J.D. Burton|Effect of BAS 145 138, CGA 154 281 and Naphthalic Anhydride Seed Treatments on Sweet Corn (Zea mays) Tolerance to Nicosulfuron|Weed Sci.42(4): 614-617|1994|10.1017/S0043174500077031
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56113|T||Salim,R., J. Hagemeyer, M.M. Al Subu, A. Atallah, and L. Chenavier|Effects, on Growth and Uptake Distribution, of Root and Foliar Treatments of Marrow Plants with Cadmium and Lead Solutions|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(8): 2173-2190|1992|
56114|T||Macauley,B.J.|Biodegradation of Litter in Eucalyptus pauciflora Communities - 1.  Techniques for Comparing the Effects of Fungi and Insects|Soil Biol. Biochem.7(6): 341-344|1975|10.1016/0038-0717(75)90046-2
56115|T||Sanka,M., and M. Dolezal|Prediction of Plant Contamination by Cadmium and Zinc Based on Soil Extraction Method and Contents in Seedlings|Int. J. Environ. Anal. Chem.46(1-3): 87-96|1992|10.1080/03067319208027000
56116|T||Stringer,A., J.A. Pickard, and C.H. Lyons|Accumulation and Distribution of p,p'-DDT and Related Compounds in an Apple Orchard. II. Residues in Trees and Herbage|Pestic. Sci.6(3): 223-232|1975|10.1002/ps.2780060303
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56118|T||Banerjee,S.N., and B.K. Chatterjee|The Efficacy of Some Insecticides in Relation to the Time of Application|Proc. Zool. Soc.20(1): 87-97|1967|
56120|T||Sharma,A.K., P.C. Srivastava, and B.N. Johri|Multiphasic Zinc Uptake System in Mycorrhizal and Nonmycorrhizal Roots of French Bean (Phaseolus vulgaris L.)|Curr. Sci. (Bangalore)76(2): 228-230|1999|
56121|AT||Scribner,J.D.|Cocarcinogens as Environmental Hazards|Med. Pediatr. Oncol.3(2): 151-157|1977|10.1002/mpo.2950030208
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56123|T||Schier,G.A., and C.J. McQuattie|Effects of Carbon Dioxide Enrichment on Response of Mycorrhizal Pitch Pine (Pinus rigida) to Aluminum:  Growth and Mineral Nutrition|Trees12(6): 340-346|1998|
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56140|T||Davis,J.G.|Soil pH and Magnesium Effects on Manganese Toxicity in Peanuts|J. Plant Nutr.19(3-4): 535-550|1996|10.1080/01904169609365141
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56143|A||Hai,Y., and L. Yun-Xia|Dimethyl Phthalate Biodegradation by Dunaliella tertiolecta|J. Environ. Sci.10(3): 296-301|1998|
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56145|A||Ferrari,L., and A. Salibian|Effect of Cadmium on the Epidermic Structure of Bufo arenarum Tadpoles:  Influence of the Chemical Composition of the Incubation Media|Arch. Physiol. Biochem.107(2): 91-96|1999|10.1076/apab.107.2.91.4346
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56194|T||Kelsey,P.D.|Aluminum Effects on Rooting Habits of Sugar Maple and on the Nutrient Balance of Sugar Maple, Red Maple and Red Oak Grown in Sand Culture|M.S.Thesis, Northern Illinois Univ., Dekalb,IL:76 p.|1985|
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56296|A||Haga,Y., T. Takeuchi, and T. Seikai|Effect of Retinoic Acid on Larval Japanese Flounder, Paralichthys olivaceus, Reared on Artemia Nauplii|Suisan Zoshoku (Non-English)47(4): 559-566|1999|
56299|T|OECDG|Malkomes,H.P., W. Steudel, and R. Thielemann|Einfluss Langjahriger Anwendung von TEMIK 10 G (Aldicarb) in einer Zuckerruben-Monokultur auf Bodenorganismen|Sonderdruck aus dem Nachrichtenblatt des Deutschen Pflanzenschutzdienstes29(4): |1977|
56300|T|OECDG|Marquart,H.W., B. Sewekow, B. Hamburger, C. Harzdorf, H.D. Hellbusch, G. Hermann, and W. Sassenberg|Uberprufung der Durchfuhrbarkeit von Prufvorschriften und der Aussagekraft der Stufe I und 2 des ChemG-Teil II|Forschungsvorhaben 106 04 011/04, Umweltbundesamt Berlin:132 p|1984|
56301|A|OECDG|Matthias,U.|Sonderprojekt:  Okologische Schaden im Rhein durch den Sandoz-Schadensfall, Okotoxikologische Bewertung des Sandoz-Schandensfalles Anhand von Laboruntersuchungen|Landesanst. Umwelschutz Baden-Wurttemberg, Abt. Wasser:|1990|
56302|A|OECDG|Matthias,U., and S. Rompp|Erprobung des Dreissena-Monitors, eines neuen Biotestsystems mit der Zebramuschel (Dreissena polymorpha), in der Rhein-Gutemssstation Karlruhe|Acta Hydrochim. Hydrobiol. (Multiple Languages)22(4): 161-165|1994|10.1002/aheh.19940220402
56303|T|OECDG|Pestemer,W., and B. Auspurg|Suitability of a Test Plant Assortment for the Risk Assessment of Effects of Higher Plants Within the Framework of the Chemicals Law (Eignung eines Testpflanzensortiments zur Risikoabschatzung von Stoffwirkungen auf Hoh|J. Kult.Pflanzen (Non-English)38:120-125|1989|
56305|T|OECDG|Aggarwal,T.C., N. Narula, and K.G. Gupta|Effect of Some Carbamate Pesticides on Nodulation, Plant Yield and Nitrogen Fixation by Pisum sativum and Vigna sinensis in the Presence of Their Respective Rhizobia|Plant Soil94:125-132|1986|10.1007/BF02380594
56306|A|OECDG|Adolphi,H.|Uberprufung der Durchfuhrbarkeit von Prufungsvorschriften und der Aussagkraft der Stufe 1 und 2 ChemG|Umweltforschungsplan des Bundesministers des Innem, Forschungsbericht 106 04 011/03:59 p|1984|
56307|T|OECDG|Adolphi,H., H.G. Muller, R. Munk, H.J. Neu, and U. Pagga|Assessment of the Feasibility and Evidence of Test Methods of Levels 1 and 2 of the Chemicals Act|Res.Rep.No.106 04 011/03, Umweltbundesamt Berlin:59 p|1984|
56308|T|OECDG|Anton,F.A., E. Laborda, P. Laborda, and E. Ramos|Carbofuran Acute Toxicity to Eisenia foetida Savigny.  Earthworms|Bull. Environ. Contam. Toxicol.50:407-412|1993|
56309|T|OECDG|Back,H., and P. Susser|Concentrations of Volatile Chlorinated Hydrocarbons and Trichloroacetic Acid in Earthworms|Soil Biol. Biochem.24(12): 1745-1748|1992|10.1016/0038-0717(92)90181-V
56310|AT|OECDG|Ballhorn,L., D. Freitag, H. Geyer, I. Quast, B. Rott, I. Scheunert, H. Spieser, and R. Vishwanathan|Assessment of the Feasibility and Evidence of Test Methods of Level I and II of the Chemical Act|Forschungsbericht No.106 04 011/02, Umweltbundesamt Berlin (): (OECDG Data File):201 p.|1984|
56311|T|OECDG|Beck,L., and K. Dumpert|Vergleichende Okologische Untersuchungen in Einem Buchenwald nach Einwirkung von Umweltchemikalien|In: C.A.J.Dennemann and C.A.M.Van Gestel (Hrsg.) Bodemverontreiniging en Bodemecosystemen, RIVM Rep.No.725201001:|1990|
56312|A|OECDG|Becker,E.|Ableitung von Qualitatszielen zum Schutz Oberirdischer Binnengewasser fur Organozinnverbindungen:  Dibutylzinnverbindungen, Tetrabutylzinn, Tributylzinnverbindungen, Triphenylzinnverbindungen|Umweltbundesamt, Entwurf fur den BLAK QZ, Stand 26.3.:|1992|
56320|T|OECDG|Bouwman,H., and A.J. Reinecke|Effects of Carbofuran on the Earthworm, Eisenia fetida, Using a Defined Medium|Bull. Environ. Contam. Toxicol.38(1): 171-178|1987|10.1007/BF01606577
56321|T|OECDG|Briggs,G.G., and I.F. Henderson|Some Factors Affecting the Toxicity of Poisons to the Slug Deroceras reticulum (Muller) (Pulmonata:  Limacidae)|Crop Prot.6:341-346|1987|10.1016/0261-2194(87)90065-2
56322|A|OECDG|Bringmann,G., and F. Meinck|Wassertoxikologische Beurteilung von Industrieabwassern|Gesund. -Ing.85:229-260|1964|
56323|T|OECDG|Broeker,B., R. Fischer, H.G. Gerber, M. Markert, and H. Wellens|Uberprufung der Durchfuhbarkeit von Prufungsvorschriften und der Aussagekraft der Stufe 1 und 2 des Chemikaliengesetzes     Review of the feasibility of audit rules and the significance of Stage I and II of the Chemical|Forschungsvorhaben Nr.106 04 011/07, Umweltbundesamt Berlin:|1984|
56324|A|OECDG|Buchen,G., U. Vogel, and M. Pattard|Okotoxizitat von Ethylparation (21-Tage Reproduktionstest mit Daphnia magna)|Inst.fur Wasser-, Boden- und Lufthygiene des BGA, Untersuchungsbericht vom 6.6:|1994|
56326|A|OECDG|Butte,W., C. Paul, A. Willig, and G.P. Zauke|Beziehungen Zwischen der Struktur von Phenolen und ihrer Akkumulation Gemessen im Flow-Through Fisch-Test (OECD No. 305 E)|Umweltforschungsplan des Bundesministers fur Umwelt, Naturschutz und Reaktorsicherheit, Umweltchemikalien, Forschungsbericht: FKZ 10602053, Im Auftrag des UBA:145 p|1988|
56327|A|OECDG|Caspers,N., P. Hartmann, R. Kanne, and G. Knoop|"Bund/Lander-Arbeitskreis ""Qualitatsziele (BLAK-QZ)"" - Problematik des Konzepts bei der Festlegung von Zielvorgaben fur Oberflachengewasser am Beispiel von Trichlorethen und Hexachlorbenzol"|Umweltwiss. Schadst.-Forsch. (Multiple Languages)5(5): 265-270|1993|10.1007/BF02937960
56329|A|OECDG|Ebere,A.G., and A. Akintonwa|Acute Toxicity of Pesticides to Gobius sp., Palaemonetes africanus, and Desmocaris trispimosa|Bull. Environ. Contam. Toxicol.49:588-592|1992|10.1007/BF00196303
56330|A|OECDG|Environmental Chemicals Data and Information Network (ECDIN)|Environmental Chemicals Data and Information Network|Joint Res. Ctr. Publ. Bull.:|2001|
56332|A|OECDG|Ernst,W., S. Weigelt, V. Weigelt, H. Rosenthal, P.D. Hansen, and M. Chutsch|Development of a Bioaccumulations Test Using the Mussel Mytilus edulis  (Entwicklung eines Bioakkumulationstests mit der Muschel Mytilus edulis)|106-020-24/05, Umweltforschungsplan des Bundesministers des Innern.Umweltchemikalien.Forschungsbericht:206 p|1987|
56334|T|OECDG|Fiskesjo,G.|Benzo(a)pyrene and N-Methyl-N-Nitro-N-Nitrosoguanidine in the Allium Test|Hereditas95:155-162|1981|10.1111/j.1601-5223.1981.tb01334.x
56335|T|OECDG|Fiskesjo,G.|The Allium Test as a Standard in Environmental Monitoring|Hereditas102:99-112|1985|10.1111/j.1601-5223.1985.tb00471.x
56336|T|OECDG|Fiskesjo,G., C. Lassen, and L. Renberg|Chlorinated Phenoxyacetic Acids and Chlorophenols in the Modified Allium Test|Chem.-Biol. Interact.34:333-344|1981|10.1016/0009-2797(81)90105-8
56337|T|OECDG|Forster,B., A. Marcinkowski, H. Schallnass, and T. Knackker|Umweltverhalten von Chemiaklien in Einem Terrestrischen Okosystemausschnitt:  Effekte auf Mikrobielle bodenatmung|In: S.Riewenherm and H.Lieth (Eds.), Verhandlungen der Gesellschaft fur Okologie (Osnabruck 1989) Band XIX/III (Poster):149-156|1989|
56338|A|OECDG|Frank,U., and K.G. Steinhauser|Okotoxizitat Schwerloslicher Stoffgemische am Beispiel der Daphnientoxizitat von Chlorparaffinen|Vom Wasser (Non-English)83:203-211|1994|
56339|T|OECDG|Friesel,P., P.D. Hansen, R. Kuhn, and J. Trenel|Uberprufung der Durchfuhrbarkeit von Prufungsvorschriften und der Aussagekraft der Stufe 1 und 2 des Chemikaliengesetzes - Teil IV|Forschungsvorhaben 106 04 011/08, Umweltbundesamt Berlin:112 p|1984|
56342|T|OECDG|Gode,P., P. Gerike, E. Keck, and J. Steber|Uberprufung der Durchfuhrbarkeit von Prufvorschriften und der Aussagekraft der Stufen 1 und 2 des Chem. -Gesetzes  (IV)|Forschungsbericht Nr.106 04 011/06, Umweltbundesamt Berlin:34 p|1984|
56343|T|OECDG|Gromysz-Kalkowska,K., and E. Szubartowska|Evaluation of Fenitrothion Toxicity to Rana temporaria L.|Bull. Environ. Contam. Toxicol.50:116-124|1993|10.1007/BF00196549
56345|A|OECDG|Hahn,J., H.P. Hansen, W. Rotard, M. Pattard, R. Bock, and W. Pluta|1,2-Dichloroethane|Bundesgesundheitsamt, Unveroffentlicht (Unpublished Report of the German Federal Health Office):|1989|
56346|A|OECDG|Hall,L.H., L.B. Kier, and G. Phipps|Structure-Activity Relationship Studies on the Toxicities of Benzene Derivates: I. An Additivity Model|Environ. Toxicol. Chem.3:355-365|1984|
56347|T|OECDG|Haimi,J., J. Salminen, V. Huhta, J. Knuutinen, and H. Palm|Bioaccumulation of Organochlorine Compounds in Earthworms|Soil Biol. Biochem.24(12): 1699-1703|1992|10.1016/0038-0717(92)90172-T
56349|A|OECDG|Howard,P.H.|Handbook of Environmental Fate and Exposure Data for Organic Chemicals - Large Production and Priority Pollutants|Handbook of Environmental Fate and Exposure Data for Organic Chemicals - Large Production and Priority Pollutants, Volume 1, Lewis Publ.Inc., U.S.:|1989|
56350|A|OECDG|Huber,H.C., U. Ritter, W. Huber, and W. Mucke|Photometrische Bestimmung der Zytotoxizitat von Chemikalien mit Mikrokulturen von Tetrahymena pyriformis und Pseudomonas aeruginosa|Umweltwiss. Schadst.-Forsch. (Multiple Languages)6(5): 251-253|1994|10.1007/BF02940353
56351|T|OECDG|Hulzebos,E.M., E.M. Dirven-Van Breemen, W.A. Van Dis, C.A.M. Van Gestel, H.A. Herbold, R. Baerselman, and M. Stolk|Toxicity of 45 Priority Organic Substances for Lettuce (Lactuca sativa). Final Report on the RIVM-Part in the Project Phytotoxicity 2 (Toxiciteit van 45 Prioritaire Organische Stoffen Voor sla (Lactuca sativa). Eindrapp|Report No.719102018, National Institute of Public Health and Environmental Protection, Bilthoven, The Netherlands:|1989|
56352|A|OECDG|Jones,A.|Proposed Provisional Environmental Quality Standards for Trifluralin in Water (Essl 9378)|Water Research Center, Report No.DoE 2231-M/11990:|1990|
56355|A|OECDG|Anonymous|Unknown Data Source|UmweltBundesAmt Database:|1993|
56356|T|OECDG|Keymeulen,R., N. Schamp, and H. Van Langenhove|Factors Affecting Airborne Monocyclic Aromatic Hydrocarbon Uptake by Plants|Atmos. Environ.27A:175-180|1993|10.1016/0960-1686(93)90348-3
56357|A|OECDG|Konemann,W.H.|Quantitative Structure-Activity Relationships for Kinetics and Toxicity of Aquatic Pollutants and Their Mixtures in Fish|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:76 p.|1979|
56358|T|OECDG|Kordel,W., D. Kuhnen-Clausen, W. Fabig, and F. Otto|Uberprufung der Durchfuhrbarkeit von Prufungsvorschriften und der Aussagekraft der Stufen 1 und 2 des Chem. G|Forschungsbericht 10604011/01, Band 1, Umweltbundesamt Berlin:246 p|1984|
56359|A|OECDG|Krebs,F.|Bestimmung der Biologischen Schadwirkung Wassergefahrdender Stoffe im Assimilations-Zehrungs-Test (A-Z-Test)|Dtsch. Gewaesserkd. Mitt.35(5-6): 161-170|1991|
56360|A|OECDG|Krebs,F.|Okotoxikologische Bewertung von Abwassern und Umweltchemikalien|Umweltforschungsplan des Bundesminsters des Innern, Forschungsbericht 102 05 115:131 p|1985|
56362|A|OECDG|Martinez-Tabche,L., and R.Y. Alfaro|Toxic Effect of Parathion on Moina macrocopa Metabolism|Bull. Environ. Contam. Toxicol.47:51-56|1991|10.1007/BF01689452
56363|A|OECDG|Millington,L.A., K.H. Goulding, and N. Adams|The Influence of Growth Medium Composition on the Toxicity of Chemicals to Algae|Water Res.22(12): 1593-1597|1988|10.1016/0043-1354(88)90173-X
56364|T|OECDG|Murado,M.A., M.C. Tejedor, and G. Baluja|Interactions Between Polychlorinated Biphenyls (PCBs) and Soil Microfungi. Effects of Aroclor 1254 and Other PCBs on Aspergillus flavus Cultures|Bull. Environ. Contam. Toxicol.15(6): 768-774|1976|10.1007/BF01685631
56366|A|OECDG|Pattard,M., U. Vogel, and K. Steinhauser|Wasser-Qualitatsziele fur Organozinnverbindungen (OZV); Langerfristige Toxizitatstests, Nachtrag der Analytischen Ergebnisse|Inst.fur Wasser, -Boden, -und Lufthygiene des Bundesgesundheitsamtes:|1992|
56367|A|OECDG|Pauli,W., S. Berger, S. Schmitz, L. Jaskulka, and K. Stadtlander|Validation of Toxicological Endpoints with Tetrahymena. Membrane Functions, Chemotaxis, Cell Rotation in Electric Fields (Validierung Toxikologischer Prufparameter an Tetrahymena:  Membranfunktionen, Chemotaxis, Rotatio|R-Report, UFOPLAN 10603083, UBA-FB-93-074, Berlin:62 p.|1993|
56369|T|OECDG|Reynolds,T.|Comparative effects of heterocyclic compounds on inhibition of lettuce fruit germination|J. Exp. Bot.40(212): 391-404|1989|10.1093/jxb/40.3.391
56370|T|OECDG|Reynolds,T.|Comparative Effects of Alicyclic Compounds and Quinones on Inhibition of Lettuce Fruit Germination|Ann. Bot.60:215-223|1987|10.1093/oxfordjournals.aob.a087439
56371|T|OECDG|Reynolds,T.|pH Restraints on Lettuce Fruit Germination|Ann. Bot.39:797-805|1975|10.1093/oxfordjournals.aob.a084995
56372|A|OECDG|Roderer,G.|Testung Wassergefahrdender Stoffe als Grundlage fur Wasserqualitatsstandards.  Testbericht: Wassergefahrdende Stoffe|Fraunhofer-Institut fur Umweltchemie und Okotoxikologie, Schmallenberg:|1990|
56375|T|OECDG|Rombke,J.|Umweltverhalten von Chemiaklien in Einem Terrestrischen Okosystemausschnitt:  Effekte auf Enchytraeidae (Oligochaeta)|In: S.Riewenherm and H.Lieth (Eds.), Verhandlungen der Gesellschaft fur Okologie (Osnabruck 1989) Band XIX/III(Poster): 157-161|1989|
56376|A|OECDG|Sastry,K.V., and V. Shukla|Acute and Chronic Toxic Effects of Cadmium on Some Haematological, Biochemical, and Enzymological Parameters in the Fresh Water Teleost Fisch Channa punctatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)22(4): 171-176|1994|10.1002/aheh.19940220404
56377|T|OECDG|Scheubel,J.B.|Uberprufung der Durchfuhrbarkeit von Prufungsvorschriften und der Aussagekraft der Stufe I und II des Chemikaliengesetzes|Forschungsbericht Nr.106 04 011/05, Umweltbundesamt Berlin:87 p|1984|
56378|A|OECDG|Scheubel,J.B.|Uberprufung der Durchfuhrbarkeit von Prufvorschriften und der Aussagekraft der Stufe I und II des Chemikaliengesetzes. Abschlussbericht|Chem.Werke Huls A.G., Abt.Umweltschutz, UBA Bericht 106 04 011/5 CHW:|2001|
56380|T|OECDG|Schroll,R., and I. Scheunert|A Laboratory System to Determine Separately the Uptake of Organic Chemicals from Soil by Plant Roots and by Leaves After Vaporization|Chemosphere24(1): 97-108|1992|10.1016/0045-6535(92)90571-8
56381|T|OECDG|Schroll,R., and I. Scheunert|Time Course of the Bioconcentration of Hexachlorobenzene-14C in Barley and Carrot Plants|Fresenius Environ. Bull.1:329-333|1992|
56382|T|OECDG|Schroll,R., and I. Scheunert|Uptake of the Lipophilic Model Compound Hexachlorobenzene by Different Plant Species During the Vegetation Period|Fresenius Environ. Bull.1:334-338|1992|
56383|T|OECDG|Schubert,U., L. Wisanowsky, and U. Kull|Determination of Phytotoxicity of Several Volatile Organic Compounds by Investigating the Germination Pattern of Tobacco Pollen|J. Plant Physiol.145:514-518|1995|10.1016/S0176-1617(11)81780-3
56384|A|OECDG|Schwaiger,J., N. Schilling, F. Braun, W. Kalbfus, R.W. Hoffmann, and R.D. Negele|Untersuchungen uber die Okotoxikologischen Wirkungen von Chemikalien auf Aquatische Organismen|Umweltforschungsplan des Bundesministers fur Umwelt, Naturschutz und Reaktorsicherheit, Forschungsbericht 116 08 07 /02, Im Auftrag des UBA:68 p|1992|
56385|T|OECDG|Semus,S., and J.C.G. Ottow|Einfluss Verschiedener Chloraniline (Herbizidmetaboliten) auf die Dehydrogenaseaktivitat und Kohlenstoffmineralisierung eines Humushaltigen Lehmigen Sandes|Landwirtsch. Forsch. (Non-English)38(1): 173-179|1985|
56386|A|OECDG|Singh,A., and R.A. Agarwal|Effect of Three Synthethic Pyrethroids to a Non-Target Fish, Channa striatus|Acta Hydrochim. Hydrobiol. (Multiple Languages)22(5): 237-240|1994|10.1002/aheh.19940220506
56388|T|OECDG|Streit,B.|Aufnahme und Speicherung von Schwermetallen durch Regenwurmer|Z.Umweltch.Okotoxikol.2(1): 10-13|1990|
56391|T|OECDG|Thompson,A.R.|Persistence of Biological Activity of Seven Insecticides in Soil Assayed with Folsomia candida|J. Econ. Entomol.66(4): 855-857|1973|10.1093/jee/66.4.855
56394|A|OECDG|Trenel,J., and R. Kuhn|Bewertung Wassergefahrdender Stoffe im Hinblick auf Lagerung, Umschlag und Transport|Umweltforschungsplan des Bundesministers des Innern:72 p|1982|
56395|A|OECDG|Gottschalk,C., C. Markard, H. Hellmann, F. Krebs, P.D. Hansen, and R. Kuhn|Beitrag zur Beurteilung von 19 Gefahrlichen Stoffen in Oberirdischen Gewassern (Contribution to the Assessment of 19 Hazardous Substances in Surface Waters)|Texte - Umweltbundesamt:171 p|1986|
56396|A|OECDG|Umweltbundesamt (Hrsg.).|Datenbank OESA (Okotoxikologische Schnellauskunft)|Umweltbundesamt, Berlin, 1993-1997 (OECD Data File):|2001|
56397|T|OECDG|Vogel,J., and J.C.G. Ottow|Einfluss Unterschiedlicher Fluoride in Sublethalen Konzentrationen auf Wachstum, Fertilitat und Fluorid-Akkumulation von Eisenia fetida (Oligochaeta, Lumbricidae)|Pedobiologia (Multiple Languages)36:121-128|1992|10.1016/S0031-4056(24)00778-9
56398|T|OECDG|Vogel,J., and J.C.G. Ottow|Okotoxikologische Bewertung Verschiedener Fluoride mit Hilfe von Eisenia fetida (Oligochaeta, Lumbricidae)|Pedobiologia (Multiple Languages)36:129-135|1992|10.1016/S0031-4056(24)00777-7
56399|T|OECDG|Vonk,J.W., D.M.M. Adema, and D. Barug|Comparison of the Effects of Several Chemicals on Microorganisms, Higher Plants and Earthworms|In: J.W.Assink and W.J.Van den Brink (Hrsg.) Contaminated Soil, (1986) Martinus Nijhoff Publ., Dordrecht, Netherland:191-202|1986|
56400|T|OECDG|Wasilewska,L., P.C. Oloffs, and J.M. Webster|Effects of Carbofuran and a PCB on Development of a Bacteriophagous Nematode Acrobeloides nanus|Can. J. Zool.53:1709-1715|1975|10.1139/z75-206
56401|A|OECDG|Weber,A., T. Christlieb, and U. Irmer|Die Kombination eines Unkomplizierten Chemikalientoxizitatstests mit einem Multi-Spezies-Testsystem zur Erfassung Synergistischer und Sublethaler Effekte in Aquatischen Okosystemen|Forschungsbericht 03 7293,  Bundesminister fur Forschung und Technologie:|1984|
56402|A|OECDG|Weiss,G.|Hazardous Chemical Data Book|Hazardous Chemical Data Book, NDC (Noyes Data Corp.), Park Ridge, NJ2:|1986|
56403|A|OECDG|Weissflog,L.|Bioverfugbarkeit von Schwermetallen - Beeinflussung der Schwermetallaufnahme in Wasserpflanzen|Z.Umweltch.Okotoxikol.2(3): 126-128|1990|
56404|T|OECDG|Welp,G., and G.W. Brummer|Toxicity of Organic Pollutants to Soil Microorganisms|In: J.E.Hall, D.R.Sauerbeck, and P.LHermite (Eds.), Effects of Organic Contaminats in Sewadge Sludge on Soil Fertility, Plants and Animals, Proc.Semin.Braunschweig, June 6-8, 1990:161-168|1990|
56405|T|OECDG|Wilms,W.|Prufung der Auswirkungen von Pflanzenschutzmitteln auf Rauberische Nematoden|J. Kult.Pflanzen (Non-English)44(2): 25-29|1992|
56406|T|OECDG|Zelles,L., I. Scheunert, and F. Korte|Side Effects of Some Pesticides on Non-Target Soil Microorganisms|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(5): 457-488|1985|
56407|T||Kanojia,R.K., M. Junaid, and R.C. Murthy|Embryo and Fetotoxicity of Hexavalent Chromium:  A Long-Term Study|Toxicol. Lett.95:165-172|1998|10.1016/S0378-4274(98)00034-4
56408|T||Kolaja,K.L., D.E. Stevenson, J.T. Johnson, E.F.,Jr. Walborg, and J.E. Klaunig|Subchronic Effects of Dieldrin and Phenobarbital on Hepatic DNA Synthesis in Mice and Rats|Fundam. Appl. Toxicol.29(2): 219-228|1996|10.1006/faat.1996.0025
56409|T||Neiger,R.D., and G.D. Osweiler|Effect of Subacute Low Level Dietary Sodium Arsenite on Dogs|Fundam. Appl. Toxicol.13(3): 439-451|1989|10.1016/0272-0590(89)90281-9
56413|T||Tripathi,N., G.M. Kannan, B.P. Pant, D.K. Jaiswal, P.R. Malhotra, and S.J.S. Flora|Arsenic-Induced Changes in Certain Neurotransmitter Levels and Their Recoveries Following Chelation in Rat Whole Brain|Toxicol. Lett.92:201-208|1997|10.1016/S0378-4274(97)00058-1
56415|T||Tice,R.R., J.W. Yager, P. Andrews, and E. Crecelius|Effect of Hepatic Methyl Donor Status on Urinary Excretion and DNA Damage in B6C3F1 Mice Treated with Sodium Arsenite|Mutat. Res.386:315-334|1997|10.1016/S1383-5742(97)00004-5
56417|T||Itoh,T., Y.F. Zhang, S. Murai, H. Saito, H. Nagahama, H. Miyate, Y. Saito, and E. Abe|The Effect of Arsenic Trioxide on Brain Monoamine Metabolism and Locomotor Activity of Mice|Toxicol. Lett.54(2-3): 345-353|1990|10.1016/0378-4274(90)90202-W
56436|T||Daghir,N.J., and N.N. Hariri|Determination of Total Arsenic Residues in Chicken Eggs|J. Agric. Food Chem.25(5): 1009-1010|1977|10.1021/jf60213a044
56442|T||Fuentes,N., F. Zambrano, and M. Rosenmann|Arsenic Contamination:  Metabolic Effects and Localization in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol.70(2): 269-272|1981|10.1016/0306-4492(81)90062-9
56443|AT|OECDG|Adema,D.M.M., and L. Henzen|De Invloed van 50 Prioritaire Stoffen op de Groei van Lactuca sativa (sla.)|TNO-Rapport No.21003, TNO, Delft, Netherlands:89 p.|2001|
56444|T||Ecological Planning and Toxicology Inc.|Plant Toxicity Testing to Support Development of Ecological Soil Screening Levels|Subcontract Agreement No.SC-IDIQ-1999142-29, Conducted for TN & Assoc.Inc., Ecol.Plan.and Toxicol.Inc., Corvallis, OR:53 p.|2000|
56446|T||Poon,R., I. Chu, P. Lecavalier, V.E. Valli, W. Foster, S. Gupta, and B. Thomas|Effects of Antimony on Rats Following 90-Day Exposure via Drinking Water|Food Chem. Toxicol.36:21-35|1998|10.1016/S0278-6915(97)80120-2
56447|T||Elbetieha,A., and M.H. Al-Hamood|Long-Term Exposure of Male and Female Mice to Trivalent and Hexavalent Chromium Compounds:  Effect on Fertility|Toxicology116:39-47|1997|10.1016/S0300-483X(96)03516-0
56448|T||James,L.F., V.A. Lazar, and W. Binns|Effects of Sublethal Doses of Certain Minerals on Pregnant Ewes and Fetal Development|Am. J. Vet. Res.27(116): 132-135|1966|
56449|T||Peredney,C.L., and P.L. Williams|Comparison of the Toxicological Effects of Nitrate Versus Chloride Metallic Salts on Caenorhabditis elegans in Soil|ASTM Spec. Tech. Publ.9:256-268|2000|
56450|T||Freeman,M.N., C.L. Peredney, and P.L. Williams|A Soil Bioassay Using the Nematode Caenorhabditis elegans|ASTM Spec. Tech. Publ.:305-318|1999|
56451|T||Van Rhee,J.A.|Effects of Biocides on and Their Residues in Earthworms|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)34:682-689|1969|
56452|T||Woolson,E.A., J.H. Axley, and P.C. Kearney|The Chemistry and Phytotoxicity of Arsenic in Soils: II. Effects of Time and Phosphorus|Proc. Soil Sci. Soc. Am.37:254-259|1973|10.2136/sssaj1973.03615995003700020028x
56453|T||Van Gestel,C.A.M., E.M. Van Breemen, M. Stolk, R. Baerselman, and J.L.M. De Boer|Toxicity and Bioaccumulation of Chronic Nitrate in the Earthworm Eisenia andrei in Artificial Soil (Toxiciteit en Bioaccumulatie van Chroom(III)Nitraat in de Regenworm Eisenia andrei in een Kunstgrond)|Report No.719102018, National Institute of Public Health and Environmental Protection, Bilthoven, The Netherlands:16 p.|1989|
56454|T||Woolson,E.A., and A.R. Isensee|Soil Residue Accumulation from Three Applied Arsenic Sources|Weed Sci.29(1): 17-21|1981|10.1017/S0043174500025753
56455|T||Takijima,Y., F. Katsumi, and S. Koizumi|Cadmium Contamination of Soils and Rice Plants Caused by Zinc Mining.  III.  Effects of Water Management and Applied Organic Manures on the Control of Cd Uptake by Plants|Soil Sci. Plant Nutr.19(3): 183-193|1973|10.1080/00380768.1973.10432587
56456|T||Covey,R.P., B.L. Koch, and H.J. Larsen|Influence of Vesicular Arbuscular Mycorrhizae on the Growth of Apple and Corn in Low-Phosphorous Soil|Phytopathology71:712-715|1981|10.1094/Phyto-71-712
56457|T||White,M.C., R.L. Chaney, and A.M. Decker|Role of Roots and Shoots of Soybean in Tolerance to Excess Soil Zinc|Crop Sci.19:126-128|1979|10.2135/cropsci1979.0011183X001900010034x
56458|T||Boggess,S.F., J.J. Hassett, and D.E. Koeppe|Effect of Soil Phosphorus Fertility Level on the Uptake of Cadmium by Maize|Environ. Pollut.15(4): 265-270|1978|
56459|T||Crafts,A.S.|The Toxicity of Sodium Arsenite and Sodium Chlorate in Four California Soils|Hilgardia9:462-498|1935|
56460|T||Brun,L.A., J. Maillet, P. Hinsinger, and M. Pepin|Evaluation of Copper Availability to Plants in Copper-Contaminated Vineyard Soils|Environ. Pollut.111(2): 293-302|2001|10.1016/S0269-7491(00)00067-1
56463|T||Bruus Pedersen,M., C. Kjaer, and N. Elmegaard|Toxicity and Bioaccumulation of Copper to Black Bindweed (Fallopia convolvulus) in Relation to Bioavailability and the Age of Soil Contamination|Arch. Environ. Contam. Toxicol.39(4): 431-439|2000|10.1007/s002440010124
56465|A||U.S. Bureau of Commercial Fisheries|Unpublished Laboratory Data (Chlorpyrifos/Dursban 3-30-67)|U.S.EPA, Gulf Breeze, FL:|1967|
56466|A||U.S. Bureau of Commercial Fisheries|Unpublished Laboratory Data (Chlorpyrifos/Dursban 12-20-65)|U.S.EPA, Gulf Breeze, FL:1 p.|1965|
56467|A||Call,D.J., and L.T. Brooke|Memorandum to R.C. Russo, July 17,1980, August 25, 1980 and September 10, 1980. Algal Assay Data Analysis|Memo, University of Wisconsin, Superior.Center For Lake Superior Environmental Studies:2 p.|1980|
56468|A||Eaton,J.G.|Chronic Cadmiun Toxicity to the Bluegill (Lepomis macrochirus Rafinesque)|Memo to C.E.Stephan, U.S.EPA, Duluth, MN:1 p.|1980|
56469|A||U.S. Bureau of Commercial Fisheries|Unpublished Laboratory Data|Bur.Comm.Fish.Biol.Lab., Gulf Breeze, FL:1 p.|1966|
56470|A||U.S. Bureau of Commercial Fisheries|Unpublished Laboratory Data|Bur.Comm.Fish.Biol.Lab., Gulf Breeze, FL:1 p.|1967|
56472|A||Nebeker,A.V., F.A. Puglisi, and D.L. De Foe|Toxicity of Polychlorinated Biphenyls (PCBs) to Fish and Other Aquatic Life|Final Rep., Natl.Water Quality Lab., U.S.EPA, Duluth, MN:73 p.|1972|
56473|A||Holcombe,G., and G. Phipps|Memorandum to N.Thomas, C. Stephan, B. Spehar and S. Broderius, U.S. EPA. March 2, 1987. 2,4-Dimethylphenol and Methyl Parathion Multiple Species Acute Test Results for Criteria Document Development|Memo to N.Thomas, C.Stephan, B.Spehar, and S.Broderius, U.S.EPA, Duluth, MN:|1987|
56474|A||Spehar,R.L.|Criteria Document Data. Memorandum to D.J. Call, Center for Lake Superior Environmental Studies, University of Wisconsin-Superior. September 16, 1986|Memo to D.J.Call, U.S.EPA, Duluth, MN /Center for Lake Superior Environ.Studies, Univ.of Wisconsin-Superior, Superior, WI:17 p.|1986|
56475|A||Nimmo,D.R.|Toxaphene: Its Effects on Mysids|Memo to F.Hagman, U.S.EPA, June, Washington, DC:1 p.|1977|
56482|T||Brenchley,W.E.|The Action on the Growth of Crops of Small Percentages of Certain Metallic Compounds when Applied with Ordinary Artificial Fertilisers|J. Agric. Sci.22:704-735|1932|10.1017/S0021859600054551
56489|T||Burrage,R.H., and J.G. Saha|Insecticide Residues in Spring Wheat Plants Grown in the Field from Seed Treated with Aldrin or Heptachlor|Can. J. Plant Sci.47:114-115|1967|10.4141/cjps67-016
56490|T||Martin,N.A., and G.W. Yeates|Effect of Four Insecticides on the Pasture Ecosystem.  III.  Nematodes, Rotifers, and Tardigrades|N. Z. J. Agric. Res.18:307-312|1975|10.1080/00288233.1975.10423649
56491|T||Paull,J.G., B. Cartwright, and A.J. Rathjen|Responses of Wheat and Barley Genotypes to Toxic Concentrations of Soil Boron|Euphytica 39:137-144|1988|10.1007/BF00039866
56492|T||French,N., F.A.B. Ludlam, and L.R. Wardlow|Biology, Damage and Control of Rosy Rustic Moth Hydraecia micacea (Esp.), on Hops|Plant Pathol.22(2): 58-64|1973|10.1111/j.1365-3059.1973.tb01773.x
56493|T||Orphanos,P.I.|Spray Application of Zinc to Young Apple Trees|Engeigaku Kenkyuu15:23-30|1975|
56494|T||Wallace,A.|Interactions of Excesses of Copper and Salinity on Vegetative Growth of Bush Beans at Two Different pH Levels in Solution Culture|Soil Sci.147(6): 426-429|1989|10.1097/00010694-198906000-00009
56495|T||He,Y.W., and C.S. Loh|Cerium and Lanthanum Promote Floral Initiation and Reproductive Growth of Arabidopsis thaliana|Plant Sci.159(1): 117-124|2000|10.1016/S0168-9452(00)00338-1
56496|T||Pearson,M.S., K. Maenpaa, G.M. Pierzynski, and M.J. Lydy|Effects of Soil Amendments on the Bioavailability of Lead, Zinc, and Cadmium to Earthworms|J. Environ. Qual.29(5): 1611-1617|2000|10.2134/jeq2000.00472425002900050031x
56497|T||Mynett,M., and M. Jagusz|Effect of Several Herbicides on Gladiolus Plants Cultivated from Corms and Cormels|Acta Hortic.266:557-560|1990|10.17660/ActaHortic.1990.266.74
56499|T||Ragland,J.L., and N.T. Coleman|Influence of Aluminum on Phosphorus Uptake by Snap Bean Roots|Proc. Soil Sci. Soc. Am.26:88-89|1962|10.2136/sssaj1962.03615995002600010034xb
56501|T||Murray,J.J., D.L. Klingman, R.G. Nash, and E.A. Woolson|Eight Years of Herbicide and Nitrogen Fertilizer Treatments on Kentucky Bluegrass (Poa pratensis) Turf|Weed Sci.31(6): 825-831|1983|10.1017/S0043174500070818
56503|T||Lunt,O.R., and A.M. Kofranek|Manganese and Aluminum Tolerance of Azalea, cv. Sweetheart Supreme|Int. Colloq. Plant Anal. Fert. Probl.6(2): 559-573|1970|
56504|T||Pimentel,D., T. Culliney, M.N. Burgess, G.S. Stoewsand, J.L. Anderson, C.A. Bache, W.H. Gutenmann, and D.J. Lisk|Cadmium in Japanese Quail fed Earthworms Inhabiting a Golf Course|Nutr. Rep. Int.30(2): 475-481|1984|
56505|T||Swartz,W.J., and D.R. Mattison|Benzo(a)pyrene Inhibits Ovulation in C57BL/6N Mice|Anat. Rec.212(3): 268-276|1985|10.1002/ar.1092120308
56506|T||Waibel,P.E., D.C. Snetsinger, R.A. Ball, and J.H. Sautter|Variation in Tolerance of Turkeys to Dietary Copper|Poult. Sci.43:504-506|1964|10.3382/ps.0430504
56508|T||Wang,Z., and Y. Chen|Alleviation of Copper Toxicity to Maize by Phosphorus Fertilizer in Purple Soil|Pedosphere7(3): 281-288|1997|
56510|T||Kerridge,P.C.|Aluminum Toxicity in Wheat (Triticum aestivum Vill., Host)|Ph.D.Thesis, Oregon State University, Corvallis, OR:170 p.|1969|
56511|T||Wagner,K.H., and I. Siddiqi|Uptake and Accumulation of Polycyclic Aromatic Hydrocarbons (PAH) Through the Root of Plants|Nat. Sci.3(2): 41-51|1981|
56512|T||Singh,S.K., R.P. Singh, and V. Singh|Influence of Exchangeable Pb on Yield and Pb Accumulation by Cabbage and Spinach|Model. Measure. Control A Gen. Phys. Elect. Elect. Eng.36(1): 13-18|1993|
56513|T||Liao,Z.W., D.J. Lin, W.H. Wang, D.R. Jiang, and Z.P. Wen|Combined Application of Si and Mn for Correcting Fe Toxicity to Rice (Oryza sativa L.) on a Red Earth|Pedosphere4(4): 307-310|1994|
56515|T||Orabi,A.A., T. El-Kobbia, and A.I. Fathi|Zinc-Phosphorus Relationship in the Nutrition of Corn Plants (Zea mays L.) as Affected by the Total Carbonate Content of the Soil|Plant Soil83:317-321|1985|10.1007/BF02184302
56516|T||Gottschalk,M.R., and D.J. Shure|Herbicide Effects on Leaf Litter Decomposition Processes in an Oak-Hickory Forest|Ecology60(1): 143-151|1979|10.2307/1936476
56517|T||Hara,T., Y. Sonoda, and I. Iwai|Growth Response of Cabbage Plants to Transition Elements Under Water Culture Conditions.  II.  Cobalt, Nickel, Copper, Zinc, and Molybdenum|Soil Sci. Plant Nutr.22(3): 317-325|1976|10.1080/00380768.1976.10432994
56518|T||Garcia,M.M., and D.C. Jordan|Action of 2,4-DB and Dalapon on the Symbiotic Properties of Lotus corniculatus (Birdsfoot Trefoil)|Plant Soil30(2): 317-334|1969|10.1007/BF01349519
56519|T||Mahapatra,R.N., and V. Rajaramamohan Rao|Influence of Hexachlorocyclohexane on the Nitrogenase Activity of Rice Rhizosphere Soil|Plant Soil59:473-477|1981|10.1007/BF02184551
56520|T||Gulati,K.L., M.C. Oswal, and K.K. Nagpaul|Assimilation of Uranium by Wheat and Tomato Plants|Plant Soil55:55-59|1980|10.1007/BF02149708
56521|T||Thompson,A.H., and L.P. Batjer|Effect of Various Soil Treatments for Correcting Arsenic Injury of Peach Trees|Soil Sci.69:281-290|1950|10.1097/00010694-195004000-00004
56522|T||Grimme,H.|Aluminium Tolerance of Soybean Plants as Related to Magnesium Nutrition|In: E.P.Martin-Prevel (Ed.), Proc.VI Int.Colloq., Optimiz.of Plant Nutrition, Montpellier, France:243-249|1984|
56524|A||Till,J.E., S.V. Kaye, and J.R. Trabalka|The Toxicity of Uranium and Plutonium to the Developing Embryos of Fish|Environmental Sciences Division, Oak Ridge National Laboratories, Oak Ridge, TN884:193 p.|1976|
56526|A||Mount,D.I.|An Autopsy Technique for Zinc-Caused Fish Mortality|Trans. Am. Fish. Soc.93(2): 174-182|1964|10.1577/1548-8659(1964)93[174:AATFZF]2.0.CO;2
56527|A||Li,W.K.W.|Kinetic Analysis of Interactive Effects of Cadmium and Nitrate on Growth of Thalassiosira fluviatilis (Bacillariophyceae)|J. Phycol.14:454-460|1978|10.1111/j.1529-8817.1978.tb02468.x
56528|A||Ravera,O., R. Gommes, and H. Muntau|Cadmium Distribution in Aquatic Environment and Its Effects on Aquatic Organisms|In: European Colloquiium Problems of the Contamination of Man and His Environment by Mercury and Cadmium, July 3-5, 1973, CECEUR-5075:317-331|1974|
56529|A||Bartley,T.R.|Physical and Chemical Properties Indicative of Good Hydrocarbon Solvents for Aquatic Weed Control in Irrigation Systems|Pap.to be Presented at the 16th Western Weed Control Conf., March 18-20, 1958, Spokane, Washington, DC:7 p.|1958|
56530|A||Hiripi,L., J. Salanki, G.B. Stefano, and P.A. Assanah|Heavy Metal Pollution Influences Serotonin Level and Dopamine-Stimulated Adenylate Cyclase Activity in the Central Nervous System of Molluscs|Symp. Biol. Hung.29:401-412|1985|
56533|A||Sengar,R.M.S., and K.D. Sharma|Tolerance of Phormidium corium and Chlamydomonas sp. Against Chemical Elements Present in Polluted Water of Yamuna River|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(1): 56-64|1987|
56536|A||Poucher,S.|Memo to D.J.Hansen, U.S. EPA. Results of Acute Toxicity Tests Conducted with Ammonia at ERL, Narragansett|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:18 p.|1986|
56537|A||Rubinstein,N.|Effect of PCP on Neanthes arenaceodentata|Memorandum to S. Tagatz, U.S. EPA, Gulf Breeze, FL:2 p.|1981|
56538|A||Scott,J., and M.S. Redmond|Acute Toxicity Tests with Chloropyrifos and the Amphipod, Rhepoxynius abronius|August 5,1986, Memo.to D.J.Hansen, U.S.EPA, Narragansett, RI:3 p.|1986|
56539|A||Scott,J., and M.S. Redmond|Acute Toxicity Tests with Chloropyrifos|June 13, 1986 Memo.to D.J.Hansen, U.S.EPA, Narragansett, RI:3 p.|1986|
56540|A||Thursby,G.B.|July 3,1986 Memorandum to D.J.Hansen, U.S. EPA. Results of Chronic Toxicity Tests Conducted with Ammonia at ERL-Narragansett Using Campia parvula|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:2 p.|1986|
56543|A||Jha,B.S., and M.M. Jha|Biochemical Effects of Nickel Chloride on the Liver and Gonads of the Freshwater Climbing Perch, Anabas testudineus (Bloch.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.65:39-46|1995|
56544|A||Hughes,G.M.|Coughing in the Rainbow Trout (Salmo gairdneri) and the Influence of Pollutants|Rev. Suisse Zool.82(1): 47-64|1975|10.5962/bhl.part.78257
56546|A||Fujiya,M.|Studies on the Effects of Copper Dissolved in Sea Water on Oyster|Nippon Suisan Gakkaishi (Multiple Languages)26(5): 462-468|1960|10.2331/suisan.26.462
56547|A||Gelsleichter,J., E. Cortes, C.A. Manire, R.E. Hueter, and J.A. Musick|Evaluation of Toxicity of Oxytetracycline on Growth of Captive Nurse Sharks, Ginglymostoma cirratum|Fish. Bull.96(3): 624-627|1998|
56548|A||Lage,O.M., and M.T.S.D. Vasconcelos|Influence of Medium Composition on Copper (II) Toxicity to Marine Dinoflagellates|Mar. Microorgan. Indust.21:144-149|1998|
56550|A||Khobot'yev,V.G., V.I. Kapkov, Y.G. Rukhadze, N.V. Turunina, and N.A. Shidlovskaya|Algal Uptake of Copper from Compounds and Its Effect on Salt Metabolism in Algae|Hydrobiol. J.12(1): 29-34|1976|
56551|A||Sullivan,J.T., and T.C. Cheng|Heavy Metal Toxicity to Biomphalaria glabrata (Mollusca:  Pulmonata)|Ann. N. Y. Acad. Sci.266:437-444|1975|10.1111/j.1749-6632.1975.tb35121.x
56553|A||Belden,J.B., and M.J. Lydy|Impact of Atrazine on Organophosphate Insecticide Toxicity|Environ. Toxicol. Chem.19(9): 2266-2274|2000|10.1002/etc.5620190917
56554|A||Taylor,L.N., J.C. McGeer, C.M. Wood, and D.G. McDonald|Physiological Effects of Chronic Copper Exposure to Rainbow Trout (Oncorhynchus mykiss) in Hard and Soft Water:  Evaluation of Chronic Indicators|Environ. Toxicol. Chem.19(9): 2298-2308|2000|10.1002/etc.5620190920
56555|A||Barata,C., D.J. Baird, A. Minarro, and A.M.V.M. Soares|Do Genotype Responses Always Converge from Lethal to Nonlethal Toxicant Exposure Levels?  Hypothesis Tested Using Clones of Daphnia magna Straus|Environ. Toxicol. Chem.19(9): 2314-2322|2000|10.1002/etc.5620190922
56556|A||Tietge,J.E., G.T. Ankley, D.L. De Foe, G.W. Holcombe, and K.M. Jensen|Effects of Water Quality on Development of Xenopus laevis:  A Frog Embryo Teratogenesis Assay - Xenopus Assessment of Surface Water Associated with Malformations in Native Anurans|Environ. Toxicol. Chem.19(8): 2114-2121|2000|10.1002/etc.5620190822
56557|T||Singh,S.K., and R.S. Singh|Effect of Soil Pb on Yield and Pb Content in Carrot (Daucus carota L. Sativa) and Barley (Hordeum vulgare L.)|Model. Measure. Control A Gen. Phys. Elect. Elect. Eng.33(1): 55-63|1992|
56558|T||Singh,S.K., and V. Singh|Influence of Soil Pb on Yield and Pb Accumulation by Radish and Wheat|Model. Measure. Control A Gen. Phys. Elect. Elect. Eng.37(4): 59-64|1993|
56559|A||Tolls,J., M.P. Lehmann, and D.T.H.M. Sijm|Quantification of In Vivo Biotransformation of the Anionic Surfactant C12-2-Linear Alkylbenzene Sulfonate in Fathead Minnows|Environ. Toxicol. Chem.19(10): 2394-2400|2000|
56560|A||Monteverdi,G.H., and R.T. Di Giulio|In Vitro and In Vivo Association of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Benzo(a)pyrene with the Yolk-Precursor Protein Vitellogenin|Environ. Toxicol. Chem.19(10): 2502-2511|2000|
56561|A||Monteverdi,G.H., and R.T. Di Giulio|Oocytic Accumulation and Tissue Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Benzo(a)pyrene in Gravid Fundulus heteroclitus|Environ. Toxicol. Chem.19(10): 2512-2518|2000|
56562|A||Vasconcelos,M.T.S.D., C.M.R. Almeida, O.M. Lage, and F. Sansonetty|Influence of Zwitterionic pH Buffers on the Bioavailability and Toxicity of Copper to the Alga Amphidinium carterae|Environ. Toxicol. Chem.19(10): 2542-2550|2000|10.1002/etc.5620191021
56563|A||Mayer,P., N. Nyholm, E.M.J. Verbruggen, J.L.M. Hermens, and J. Tolls|Algal Growth Inhibition Test in Filled, Closed Bottles for Volatile and Sorptive Materials|Environ. Toxicol. Chem.19(10): 2551-2556|2000|10.1002/etc.5620191022
56564|A||Kelly,S.A., and R.T. Di Giulio|Developmental Toxicity of Estrogenic Alkylphenols in Killifish (Fundulus heteroclitus)|Environ. Toxicol. Chem.19(10): 2564-2570|2000|10.1002/etc.5620191024
56565|A||Magnusson,K., R. Ekelund, K. Ingebrigtsen, A. Granmo, and I. Brandt|Tissue Disposition of Benzo(a)pyrene in Blue Mussel (Mytilus edulis) and Effect of Algal Concentration on Metabolism and Depuration|Environ. Toxicol. Chem.19(11): 2683-2690|2000|10.1002/etc.5620191111
56566|A||Pelletier,M.C., R.M. Burgess, M.G. Cantwell, J.R. Serbst, K.T. Ho, and S.A. Ryba|Importance of Maternal Transfer of the Photoreactive Polycyclic Aromatic Hydrocarbon Fluoranthene from Benthic Adult Bivalves to Their Pelagic Larvae|Environ. Toxicol. Chem.19(11): 2691-2698|2000|10.1002/etc.5620191112
56567|A||Hollis,L., J.C. McGeer, D.G. McDonald, and C.M. Wood|Protective Effects of Calcium Against Chronic Waterborne Cadmium Exposure to Juvenile Rainbow Trout|Environ. Toxicol. Chem.19(11): 2725-2734|2000|10.1002/etc.5620191117
56568|A||Verrengia Guerrero,N.R., D.E. Nahabedian, and E.A. Wider|Analysis of Some Factors that may Modify the Bioavailability of Cadmium and Lead by Biomphalaria glabrata|Environ. Toxicol. Chem.19(11): 2762-2768|2000|10.1897/1551-5028(2000)019<2762:AOSFTM>2.0.CO;2
56569|A||Olsson,P.E., L. Westerlund, S.J. Teh, K. Billsson, A.H. Berg, M. Tysklind, J. Nilsson, L.O. Eriksson, and D.E. Hinton|Effects of Maternal Exposure to Estrogen and PCB on Different Life Stages of Zebrafish (Danio rerio)|Ambio28(1): 100-106|1999|
56570|A||Stagg,R.M., J. Rusin, M.E. McPhail, A.D. McIntosh, C.F. Moffat, and J.A. Craft|Effects of Polycyclic Aromatic Hydrocarbons on Expression of CYP1A in Salmon (Salmo salar) Following Experimental Exposure and After the Braer Oil Spill|Environ. Toxicol. Chem.19(11): 2797-2805|2000|10.1002/etc.5620191126
56571|A||Thorpe,K.L., T.H. Hutchinson, J.P. Hetheridge, J.P. Sumpter, and C.R. Tyler|Development of an In Vivo Screening Assay for Estrogenic Chemicals Using Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.19(11): 2812-2820|2000|10.1002/etc.5620191128
56572|A||Allran,J.W., and W.H. Karasov|Effects of Atrazine and Nitrate on Northern Leopard Frog (Rana pipiens) Larvae Exposed in the Laboratory from Posthatch Through Metamorphosis|Environ. Toxicol. Chem.19(11): 2850-2855|2000|10.1002/etc.5620191133
56575|A||Arukwe,A., A. Goksoyr, R. Thibaut, and J.P. Cravedi|Metabolism and Organ Distribution of Nonylphenol in Atlantic Salmon (Salmo salar)|Mar. Environ. Res.50(1): 141-145|2000|10.1016/S0141-1136(00)00081-7
56576|A||Wood,C.M., D.G. McDonald, C.G. Ingersoll, D.R. Mount, O.E. Johannsson, S. Landsberger, and H.L. Bergman|Whole Body Ions of Brook Trout (Salvalinus fontinalis) Alevins:  Reponses of Yolk-Sac and Swim-Up Stages to Water Acidity, Calcium and Aluminum and Recovery Effects|Can. J. Fish. Aquat. Sci.47(8): 1604-1615|1990|10.1139/f90-182
56577|A||Mount,D.I., and H.W. Boyle|Parathion-Use of Blood Concentration to Diagnose Mortality of Fish|Environ. Sci. Technol.3(11): 1183-1185|1969|10.1021/es60034a012
56578|A||Bovee,E.C., and T.L. O'Brien|Some Effects of Selenium, Vanadium and Zirconium on the Swimming Rate of Tetrahymena pyriformis:  A Bioassay Study|Univ.Kans.Sci.Bull.52(4): 39-44|1982|
56579|A||Brix,K.V., R.D. Cardwell, D.G. Henderson, and A.R. Marsden|Site-Specific Marine Water-Quality Criterion for Cyanide|Environ. Toxicol. Chem.19(9): 2323-2327|2000|
56580|A||Brungs,W.A., and D.I. Mount|Lethal Endrin Concentration in the Blood of Gizzard Shad|J. Fish. Res. Board Can.24(2): 429-432|1967|10.1139/f67-033
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56583|A||Carlsson,G., S. Orn, P.L. Andersson, H. Soderstrom, and L. Norrgren|The Impact of Musk Ketone on Reproduction in Zebrafish (Danio rerio)|Mar. Environ. Res.50:237-241|2000|10.1016/S0141-1136(00)00075-1
56584|A||Chu,F.L.E., P. Soudant, L.A. Cruz-Rodriguez, and R.C. Hale|PCB Uptake and Accumulation by Oysters (Crassostrea virginica) Exposed via a Contaminated Algal Diet|Mar. Environ. Res.50:217-221|2000|10.1016/S0141-1136(00)00070-2
56585|T||Cioci,L.K., L. Qiu, and J.H. Freedman|Transgenic Strains of the Nematode Caenorhabditis elegans as Biomonitors of Metal Contamination|Environ. Toxicol. Chem.19(8): 2122-2129|2000|10.1002/etc.5620190823
56586|A||Cruz-Rodriguez,L.A., A.J. Baucum, P. Soudant, F.L.E. Chu, and R.C. Hale|Effects of PCBs Sorbed to Algal Paste and Sediments on the Stress Protein Response (HSP70 Family) in the Eastern Oyster, Crassostrea virginica|Mar. Environ. Res.50(1-5): 341-345|2000|10.1016/S0141-1136(00)00079-9
56587|A||Den Besten,P.J., and C.W. Tuk|Relation Between Responses in the Neutral Red Retention Test and the Comet Assay and Life History Parameters of Daphnia magna|Mar. Environ. Res.50:513-516|2000|10.1016/S0141-1136(00)00129-X
56588|A||Encomio,V., and F.L.E. Chu|The Effect of PCBs on Glycogen Reserves in the Eastern Oyster Crassostrea virginica|Mar. Environ. Res.50(1-5): 45-49|2000|10.1016/S0141-1136(00)00044-1
56589|A||Evans,J.J., C.A. Shoemaker, and P.H. Klesius|In Vivo and In Vitro Effects of Benzothiazole on Sheepshead Minnow (Cyprinodon variegatus)|Mar. Environ. Res.50:257-261|2000|10.1016/S0141-1136(00)00090-8
56590|A||Ferreira-Leach,A.M.R., and E.M. Hill|Bioconcentration and Distribution of 4-Tert-Octylphenol Residues in Tissues of the Rainbow Trout (Oncorhynchus mykiss)|Mar. Environ. Res.51(1): 75-89|2001|10.1016/S0141-1136(00)00256-7
56592|A||Foran,C.M., E.R. Bennett, and W.H. Benson|Developmental Evaluation of a Potential Non-Steroidal Estrogen:  Triclosan|Mar. Environ. Res.50:153-156|2000|10.1016/S0141-1136(00)00080-5
56593|A||Foran,C.M., E.R. Bennett, and W.H. Benson|Exposure to Environmentally Relevant Concentrations of Different Nonylphenol Formulations in Japanese Medaka|Mar. Environ. Res.50(1-5): 135-139|2000|10.1016/S0141-1136(00)00115-X
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56595|A||Goerke,H., and K. Weber|Species-Specific Elimination of Polychlorinated Biphenyls in Estuarine Animals and Its Impact on Residue Patterns|Mar. Environ. Res.51(2): 131-149|2001|10.1016/S0141-1136(00)00036-2
56596|A||Gonzalez,J.F., P.L. Del Valle, S. Thohan, and A.S. Kane|Effects of Waterborne Nitrite on Phase I-II Biotransformation in Channel Catfish (Ictalurus punctatus)|Mar. Environ. Res.50:29-32|2000|10.1016/S0141-1136(00)00106-9
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56612|A||Koyama,J., N. Nanamori, and S. Segawa|Bioaccumulation of Waterborne and Dietary Cadmium by Oval Squid, Sepioteuthis lessoniana, and Its Distribution Among Organs|Mar. Pollut. Bull.40(11): 961-967|2000|10.1016/S0025-326X(99)00240-4
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56614|A||Marin,M.G., V. Moschino, F. Cima, and C. Celli|Embryotoxicity of Butyltin Compounds to the Sea Urchin Paracentrotus lividus|Mar. Environ. Res.50:231-235|2000|10.1016/S0141-1136(00)00072-6
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56622|A||Nichols,J.W., K.M. Jensen, J.E. Tietge, and R.D. Johnson|Physiologically Based Toxicokinetic Model for Maternal Transfer of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Brook Trout (Salvelinus fontinalis)|Environ. Toxicol. Chem.17(12): 2422-2434|1998|
56623|AT||Okamura,H., I. Aoyama, T. Takami, T. Maruyama, Y. Suzuki, M. Matsumoto, I. Katsuyama, J. Hamada, T. Beppu, O. Tanaka, R|Phytotoxicity of the New Antifouling Compound Irgarol 1051 and a Major Degradation Product|Mar. Pollut. Bull.40(9): 754-763|2000|10.1016/S0025-326X(00)00020-5
56624|A||Olmstead,A.W., and G.A. LeBlanc|Effects of Endocrine-Active Chemicals on the Development of Sex Characteristics of Daphnia magna|Environ. Toxicol. Chem.19(8): 2107-2113|2000|
56625|A||Padros,J., and E. Pelletier|In Vivo Formation of (+)-Anti-Benzo(a)pyrene Diol-Epoxide-Plasma Albumin Adducts in Fish|Mar. Environ. Res.50:347-351|2000|10.1016/S0141-1136(00)00064-7
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56629|A||Radenac,G., D. Fichet, and P. Miramand|Bioaccumulation and Toxicity of Four Dissolved Metals in Paracentrotus lividus Sea-Urchin Embryo|Mar. Environ. Res.51:151-166|2001|10.1016/S0141-1136(00)00092-1
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56631|A||Ringwood,A.H., and D.E. Conners|The Effects of Glutathione Depletion on Reproductive Success in Oysters, Crassostrea virginica|Mar. Environ. Res.50:207-211|2000|10.1016/S0141-1136(00)00069-6
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56633|A||Roderer,G.|Differential Toxic Effects of Mercuric Chloride and Methylmercuric Chloride on the Freshwater Alga Poterioochromonas malhamensis|Aquat. Toxicol.3(1): 23-34|1983|10.1016/0166-445X(83)90004-8
56634|A||Rueter,J.G., J.J. McCarthy, and E.J. Carpenter|The Toxic Effect of Copper on Oscillatoria (Trichodesmium) theibautii|Limnol. Oceanogr.24(3): 558-562|1979|10.4319/lo.1979.24.3.0558
56635|A||Schuytema,G.S., and A.V. Nebeker|Comparative Effects of Ammonium and Nitrate Compounds on Pacific Treefrog and African Clawed Frog Embryos|Arch. Environ. Contam. Toxicol.36(2): 200-206|1999|10.1007/s002449900461
56636|A||Shepard,J.L., and B.P. Bradley|Protein Expression Signatures and Lysosomal Stability in Mytilus edulis Exposed to Graded Copper Concentrations|Mar. Environ. Res.50:457-463|2000|10.1016/S0141-1136(00)00119-7
56637|A||Shepard,J.L., B. Olsson, M. Tedengren, and B.P. Bradley|Protein Expression Signatures Identified in Mytilus edulis Exposed to PCBs, Copper and Salinity Stress|Mar. Environ. Res.50(1-5): 337-340|2000|10.1016/S0141-1136(00)00065-9
56638|A||Sildanchandra,W., and M. Crane|Influence of Sexual Dimorphism in Chironomus riparius Meigen on Toxic Effects of Cadmium|Environ. Toxicol. Chem.19(9): 2309-2313|2000|10.1002/etc.5620190921
56639|A||Steevens,J.A., and W.H. Benson|Interactions of Chlorpyrifos and Methyl Mercury:  A Mechanistic Approach to Assess Chemical Mixtures|Mar. Environ. Res.50(1-5): 113-117|2000|10.1016/S0141-1136(00)00051-9
56640|A||Szarek,J., A. Siwicki, A. Andrzejewska, E. Terech-Majewska, and T. Banaszkiewicz|Effects of the Herbicide Roundup on the Ultrastructural Pattern of Hepatocytes in Carp (Cyprinus carpio)|Mar. Environ. Res.50(1-5): 263-266|2000|10.1016/S0141-1136(00)00088-X
56641|A||Teh,S.J., I. Werner, and D.E. Hinton|Sublethal Effects of Chromium-VI in the Asian Clam (Potamocorbula amurensis)|Mar. Environ. Res.50:295-300|2000|10.1016/S0141-1136(00)00086-6
56642|A||Tubbing,D.M.J., W. Admiraal, R.F.M.J. Cleven, M. Iqbal, D. Van de Meent, and W. Verweij|The Contribution of Complexed Copper to the Metabolic Inhibition of Algae and Bacteria in Synthetic Media and River Water|Water Res.28(1): 37-44|1994|10.1016/0043-1354(94)90117-1
56643|A||Van den Hurk,P., M. Faisal, and M.H.,Jr. Roberts|Interactive Effects of Cadmium and Benzo(a)pyrene on Metallothionein Induction in Mummichog (Fundulus heteroclitus)|Mar. Environ. Res.50:83-87|2000|10.1016/S0141-1136(00)00098-2
56644|A||Wilson,R.W., and E.W. Taylor|Transbranchial Ammonia Gradients and Acid-Base Responses to High External Ammonia Concentration in Rainbow Trout (Oncorhynchus mykiss) Acclimated to Different Salinities|J. Exp. Biol.166:95-112|1992|10.1242/jeb.166.1.95
56645|A||Wilson,R.W., P.M. Wright, S. Munger, and C.M. Wood|Ammonia Excretion in Freshwater Rainbow Trout (Oncorhynchus mykiss) and the Importance of Gill Boundary Layer Acidification:  Lack of Evidence for Na+/NH4+ Exchange|J. Exp. Biol.191:37-58|1994|10.1242/jeb.191.1.37
56646|A||Yonkos,L.T., D.J. Fisher, D.A. Wright, and A.S. Kane|Pathology of Fathead Minnows (Pimephales promelas) Exposed to Chlorine Dioxide and Chlorite|Mar. Environ. Res.50:267-271|2000|10.1016/S0141-1136(00)00048-9
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56650|A||Kuma,K., J. Tanaka, and K. Matsunaga|Effect of Hydroxamate Ferrisiderophore Complex (Ferrichrome) on Iron Uptake and Growth of a Coastal Marine Diatom, Chaetoceros sociale|Limnol. Oceanogr.45(6): 1235-1244|2000|10.4319/lo.2000.45.6.1235
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56656|A||Blondeau,R.|The Control of Submersed Aquatic Weeds with Aqualin Herbicide|West. Weed Control Conf.:72-73|1959|
56657|A||Hardy,R.W., C.V. Sullivan, and A.M. Koziol|Absorption, Body Distribution, and Excretion of Dietary Zinc by Rainbow Trout (Salmo gairdneri)|Fish Physiol. Biochem.3(3): 133-143|1987|10.1007/BF02180415
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56660|A||Mierle,G., and P.M. Stokes|Heavy Metal Tolerance and Metal Accumulation by Planktonic Algae|Trace Subst. Environ. Health:113-122|1976|
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56666|A||Simoes Goncalves,M.L.S., M.F.C. Vilhena, and M. Antonia Sampayo|Effect of Nutrients, Temperature and Light on Uptake of Cadmium by Selenastrum capricornutum Printz|Water Res.22(11): 1429-1435|1988|10.1016/0043-1354(88)90100-5
56667|A||Landrum,P.F., and R. Poore|Toxicokinetics of Selected Xenobiotics in Hexagenia limbata|J. Great Lakes Res.14(4): 427-437|1988|10.1016/S0380-1330(88)71576-2
56668|A||Havens,K.E., and R.T. Heath|Phytoplankton Succession During Acidification with and Without Increasing Aluminum Levels|Environ. Pollut.68(1/2): 129-145|1990|10.1016/0269-7491(90)90017-7
56669|A||Service,M.W.|Mortalities of the Immature Stages of Species B of the Anopheles gambiae Complex in Kenya: Comparison Between Rice Fields and Temporary Pools, Identification of Predators, and Effects of Insecticidal Spraying|J. Med. Entomol.13(4-5): 535-545|1977|10.1093/jmedent/13.4-5.535
56670|A||Shears,M.A., and G.L. Fletcher|Regulation of Zn2+ Uptake from the Gastrointestinal Tract of a Marine Teleost, the Winter Flounder (Pseudopleuronectes americanus)|Can. J. Fish. Aquat. Sci.40(suppl. 2): 197-205|1983|
56671|A||Madhina,D., and C. Shiff|Prevention of Snail Miracidia Interactions Using Phytolacca dodecandra (L'Herit) (Endod) as a Miracidiacide: An Alternative Approach to the Focal Control of Schistosomiasis|Trop. Med. Int. Health1(2): 221-226|1996|10.1111/j.1365-3156.1996.tb00030.x
56672|A||Yetis,U., A. Dolek, F.B. Dilek, and G. Ozcengiz|The Removal of Pb(II) by Phanerochaete chrysosporium|Water Res.34(16): 4090-4100|2000|10.1016/S0043-1354(00)00155-X
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56677|A||Stromgren,T.|The Effect of Copper on Length Increase in Ascophyllum nodosum (L.) Le Jolis|J. Exp. Mar. Biol. Ecol.37:153-159|1979|10.1016/0022-0981(79)90092-3
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56679|A||Matta,M.B., J. Linse, C. Cairncross, L. Francendese, and R.M. Kocan|Reproductive and Transgenerational Effects of Methylmercury or Aroclor 1268 on Fundulus heteroclitus|Environ. Toxicol. Chem.20(2): 327-335|2001|10.1002/etc.5620200213
56680|A||Hemmer,M.J., B.L. Hemmer, C.J. Bowman, K.J. Kroll, L.C. Folmar, D. Marcovich, M.D. Hoglund, and N.D. Denslow|Effects of p-Nonylphenol, Methoxychlor, and Endosulfan on Vitellogenin Induction and Expression in Sheepshead Minnow (Cyprinodon variegatus)|Environ. Toxicol. Chem.20(2): 336-343|2001|
56681|A||Jones,P.D., K. Kannan, J.L. Newsted, D.E. Tillitt, L.L. Williams, and J.P. Giesy|Accumulation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin by Rainbow Trout (Onchorhynchus mykiss) at Environmentally Relevant Dietary Concentrations|Environ. Toxicol. Chem.20(2): 344-350|2001|
56682|A||Carlson,D.B., and D.E. Williams|4-Hydroxy-2',4',6'-Trichlorobiphenyl and 4-Hydroxy-2',3',4',5'-Tetrachlorobiphenyl are Estrogenic in Rainbow Trout|Environ. Toxicol. Chem.20(2): 351-358|2001|
56683|A||De Boeck,G., A. Vlaeminck, P.H.M. Balm, R.A.C. Lock, B. De Wachter, and R. Blust|Morphological and Metabolic Changes in Common Carp, Cyprinus carpio, During Short-Term Copper Exposure:  Interactions Between Cu2+ and Plasma Cortisol Elevation|Environ. Toxicol. Chem.20(2): 374-381|2001|
56684|A||Weinstein,J.E.|Characterization of the Acute Toxicity of Photoactivated Fluoranthene to Glochidia of the Freshwater Mussel, Utterbackia imbecillis|Environ. Toxicol. Chem.20(2): 412-419|2001|10.1002/etc.5620200224
56685|A||Franklin,N.M., J.L. Stauber, and R.P. Lim|Development of Flow Cytometry-Based Algal Bioassays for Assessing Toxicity of Copper in Natural Waters|Environ. Toxicol. Chem.20(1): 160-170|2001|
56686|A||Schulz,R., and M. Liess|Toxicity of Aqueous-Phase and Suspended Particle-Associated Fenvalerate:  Chronic Effects After Pulse-Dosed Exposure of Limnephilus lunatus (Trichoptera)|Environ. Toxicol. Chem.20(1): 185-190|2001|
56687|A||Fordham,C.L., J.D. Tessari, H.S. Ramsdell, and T.J. Keefe|Effects of Malathion on Survival, Growth, Development, and Equilibrium Posture of Bullfrog Tadpoles (Rana catesbeiana)|Environ. Toxicol. Chem.20(1): 179-184|2001|10.1002/etc.5620200120
56688|A||Playle,R.C., G.G. Goss, and C.M. Wood|Physiological Disturbances in Rainbow Trout (Salmo gairdneri) During Acid and Aluminum Exposures in Soft Water of Two Calcium Concentrations|Can. J. Zool.67(2): 314-324|1989|10.1139/z89-046
56689|A||Eddy,F.B., and C. Talbot|Sodium Balance in Eggs and Dechorionated Embryos of the Atlantic Salmon Salmo salar L. Exposed to Zinc, Aluminium and Acid Waters|Comp. Biochem. Physiol. C Comp. Pharmacol.81(2): 259-266|1985|10.1016/0742-8413(85)90003-9
56690|A||Frick,K.G., and J. Herrmann|Aluminum Accumulation in a Lotic Mayfly at Low pH - A Laboratory Study|Ecotoxicol. Environ. Saf.19(1): 81-88|1990|10.1016/0147-6513(90)90081-F
56691|A||Segner,H., R. Marthaler, and M. Linnenbach|Growth, Aluminium Uptake and Mucous Cell Morphometrics of Early Life Stages of Brown Trout, Salmo trutta, in Low pH Water|Environ. Biol. Fishes21(2): 153-159|1988|10.1007/BF00004850
56692|A||Havens,K.E., and R.T. Heath|Acid and Aluminum Effects on Freshwater Zooplankton: An In Situ Mesocosm Study|Environ. Pollut.62(2/3): 195-211|1989|10.1016/0269-7491(89)90187-5
56693|A||Palmer,R.E., R.J. Klauda, and T.E. Lewis|Comparative Sensitivities of Bluegill, Channel Catfish and Fathead Minnow to pH and Aluminum|Environ. Toxicol. Chem.7(6): 505-516|1988|10.1002/etc.5620070610
56694|A||Malte,H.|Effects of Aluminium in Hard, Acid Water on Metabolic Rate, Blood Gas Tensions and Ionic Status in the Rainbow Trout|J. Fish Biol.29(2): 187-198|1986|10.1111/j.1095-8649.1986.tb04937.x
56696|A||Siddens,L.K., W.K. Seim, L.R. Curtis, and G.A. Chapman|Comparison of Continuous and Episodic Exposure to Acidic, Aluminum-Contaminated Waters of Brook Trout (Salvelinus fontinalis)|Can. J. Fish. Aquat. Sci.43(10): 2036-2040|1986|10.1139/f86-249
56697|A||McDonald,D.G., C.M. Wood, R.G. Rhem, M.E. Mueller, D.R. Mount, and H.L. Bergman|Nature and Time Course of Acclimation to Aluminum in Juvenile Brook Trout (Salvelinus fontinalis).  I.  Physiology|Can. J. Fish. Aquat. Sci.48(10): 2006-2015|1991|10.1139/f91-239
56698|A||Witters,H.E., S. Van Puymbroeck, and O.L.J. Vanderborght|Adrenergic Response to Physiological Disturbances in Rainbow Trout, Oncorhynchus mykiss, Exposed to Aluminum at Acid pH|Can. J. Fish. Aquat. Sci.48(3): 414-420|1991|10.1139/f91-053
56699|A||Reid,S.D., D.G. McDonald, and R.R. Rhem|Acclimation to Sublethal Aluminum:  Modifications of Metal - Gill Surface Interactions of Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.48(10): 1996-2005|1991|10.1139/f91-238
56700|A||Walker,R.L., C.M. Wood, and H.L. Bergman|Effects of Long-Term Preexposure to Sublethal Concentrations of Acid and Aluminum on the Ventilatory Reponse to Aluminum Challenge in Brook Trout (Salvelinus fontinalis)|Can. J. Fish. Aquat. Sci.48(10): 1989-1995|1991|10.1139/f91-237
56701|A||Florence,T.M., B.G. Lumsden, and J.J. Fardy|Evaluation of Some Physico-Chemical Techniques for the Determination of the Fraction of Dissolved Copper Toxic to the Marine Diatom Nitzschia closterium|Anal. Chim. Acta151:281-295|1983|10.1016/S0003-2670(00)80091-4
56703|A||Torres,E., A. Cid, C. Herrero, and J. Abalde|Removal of Cadmium Ions by the Marine Diatom Phaeodactylum tricornutum Bohlin Accumulation and Long-Term Kinetics of Uptake|Bioresour. Technol.63(3): 213-220|1998|10.1016/S0960-8524(97)00143-0
56704|A||Witters,H.E., S. Van Puymbroeck, J.H.D. Vangenechten, and O.L.J. Vanderborght|The Effect of Humic Substances on the Toxicity of Aluminium to Adult Rainbow Trout, Oncorhynchus mykiss (Walbaum)|J. Fish Biol.37(1): 43-53|1990|10.1111/j.1095-8649.1990.tb05925.x
56705|A||Reader,J.P., T.R.K. Dalziel, R. Morris, M.D.J. Sayer, and C.H. Dempsey|Episodic Exposure to Acid and Aluminium in Soft Water:  Survival and Recovery of Brown Trout, Salmo trutta L.|J. Fish Biol.39(2): 181-196|1991|10.1111/j.1095-8649.1991.tb04355.x
56706|A||Kanazawa,T., and K. Kanazawa|Specific Inhibitory Effect of Copper on Cellular Division in Chlorella|Plant Cell Physiol.10:495-502|1969|
56707|A||Rose-Janes,N.G., and R.C. Playle|Protection by Two Complexing Agents, Thiosulphate and Dissolved Organic Matter, Against the Physiological Effects of Silver Nitrate to Rainbow Trout (Oncorhynchus mykiss) in Ion-Poor Water|Aquat. Toxicol.51(1): 1-18|2000|10.1016/S0166-445X(00)00103-X
56708|A||Meier,P.G., K. Choi, and L.I. Sweet|Acute and Chronic Life Cycle Toxicity of Acenaphthene and 2,4,6-Trichlorophenol to the Midge Paratanytarsus parthenogeneticus (Diptera:  Chironomidae)|Aquat. Toxicol.51(1): 31-44|2000|10.1016/S0166-445X(00)00104-1
56709|A||Mann,R.M., and J.R. Bidwell|Application of the FETAX Protocol to Assess the Developmental Toxicity of Nonylphenol Ethoxylate to Xenopus laevis and Two Australian Frogs|Aquat. Toxicol.51(1): 19-29|2000|10.1016/S0166-445X(00)00106-5
56710|A||Markich,S.J., P.L. Brown, R.A. Jeffree, and R.P. Lim|Valve Movement Responses of Velesunio angasi (Bivalvia: Hyriidae) to Manganese and Uranium: An Exception to the Free Ion Activity Model|Aquat. Toxicol.51(2): 155-175|2000|10.1016/S0166-445X(00)00114-4
56711|A||Dang,Z.C., G. Flik, B. Ducouret, C. Hogstrand, S.E. Wendelaar Bonga, and R.A.C. Lock|Effects of Copper on Cortisol Receptor and Metallothionein Expression in Gills of Oncorhynchus mykiss|Aquat. Toxicol.51(1): 45-54|2000|10.1016/S0166-445X(00)00102-8
56712|A||Maranger,R., D.F. Bird, and N.M. Price|Iron Acquisition by Photosynthetic Marine Phytoplankton from Ingested Bacteria|Nature396(6708): 248-251|1998|10.1038/24352
56713|A||Ploch,S.A., L.C. King, M.J. Kohan, and R.T. Di Giulio|Comparative In Vitro and In Vivo Benzo(a)pyrene-DNA Adduct Formation and Its Relationship to CYP1A Activity in Two Species of Ictalurid Catfish|Toxicol. Appl. Pharmacol.149(1): 90-98|1998|10.1006/taap.1997.8359
56714|A||Rice,C.D., and L.E. Roszell|Tributyltin Modulates 3,3',4,4',5-Pentachloro-Biphenyl (PCB-126)-Induced Hepatic CYP1A Activity In Channel Catfish, Ictalurus punctatus|J. Toxicol. Environ. Health Part A55(3): 197-212|1998|10.1080/009841098158494
56715|A||Manera,M., R. Serra, G. Isani, and E. Carpene|Macrophage Aggregates in Gilthead Sea Bream fed Copper, Iron and Zinc Enriched Diets|J. Fish Biol.57(2): 457-465|2000|10.1111/j.1095-8649.2000.tb02184.x
56716|A||Lin,H.C., S.C. Hsu, and P.P. Hwang|Maternal Transfer of Cadmium Tolerance in Larval Oreochromis mossambicus|J. Fish Biol.57(1): 239-249|2000|10.1111/j.1095-8649.2000.tb00789.x
56717|A||Borgmann,U., R. Neron, and W.P. Norwood|Quantification of Bioavailable Nickel in Sediments and Toxic Thresholds to Hyalella azteca|Environ. Pollut.111(2): 189-198|2001|10.1016/S0269-7491(00)00076-2
56718|A||De Boeck,G., A. Vlaeminck, A. Van der Linden, and R. Blust|Salt Stress and Resistance to Hypoxic Challenges in the Common Carp (Cyprinus carpio L.)|J. Fish Biol.57(3): 761-776|2000|10.1111/j.1095-8649.2000.tb00273.x
56719|A||Foster,E.P., N.H. Vrolijk, T.T. Chen, and L.R. Curtis|Interaction of 2,2',4,4',5,5'-Hexachlorobiphenyl with Hepatic Cytochrome P-4501A in Rainbow Trout (Oncorhynchus mykiss)|J. Toxicol. Environ. Health Part A53(4): 313-325|1998|10.1080/009841098159303
56720|A||Boersma,M., and C.P. Stelzer|Response of a Zooplankton Community to the Addition of Unsaturated Fatty Acids:  An Enclosure Study|Freshw. Biol.45(2): 179-188|2000|10.1046/j.1365-2427.2000.00666.x
56721|A||Lawrence,A.L., and R.P. Mason|Factors Controlling the Bioaccumulation of Mercury and Methylmercury by the Estuarine Amphipod Leptocheirus plumulosus|Environ. Pollut.111(2): 217-231|2001|10.1016/S0269-7491(00)00072-5
56722|A||Beaumont,M.W., P.J. Butler, and E.W. Taylor|Exposure of Brown Trout, Salmo trutta, to a Sub-lethal Concentration of Copper in Soft Acidic Water:  Effects upon Muscle Metabolism and Membrane Potential|Aquat. Toxicol.51(2): 259-272|2000|10.1016/S0166-445X(00)00109-0
56723|A||Guadagnolo,C.M., C.J. Brauner, and C.M. Wood|Effects of an Acute Silver Challenge on Survival, Silver Distribution and Ionoregulation Within Developing Rainbow Trout Eggs (Oncorhynchus mykiss)|Aquat. Toxicol.51(2): 195-211|2000|10.1016/S0166-445X(00)00112-0
56724|A||Allin,C.J., and R.W. Wilson|Effects of Pre-Acclimation to Aluminium on the Physiology and Swimming Behaviour of Juvenile Rainbow Trout (Oncorhynchus mykiss) During a Pulsed Exposure|Aquat. Toxicol.51(2): 213-224|2000|10.1016/S0166-445X(00)00111-9
56725|A||McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood|Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 1:  Iono-Regulatory Disturbance and Metabolic Costs|Aquat. Toxicol.50(3): 231-243|2000|10.1016/S0166-445X(99)00105-8
56726|A||McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood|Effects of Chronic Sublethal Exposure to Waterborne Cu, Cd or Zn in Rainbow Trout 2:  Tissue Specific Metal Accumulation|Aquat. Toxicol.50(3): 245-256|2000|10.1016/S0166-445X(99)00106-X
56727|A||Barron,M.G., and S. Albeke|Calcium Control of Zinc Uptake in Rainbow Trout|Aquat. Toxicol.50(3): 257-264|2000|10.1016/S0166-445X(99)00099-5
56729|A||Verma,S.R., M. Jain, and I.P. Tonk|In Vivo Effect of Mercuric Chloride on Tissue ATPases of Notopterus notopterus|Toxicol. Lett.16(3/4): 305-309|1983|10.1016/0378-4274(83)90191-1
56731|A||Goss,G.G., and C.M. Wood|The Effects of Acid and Acid/Aluminum Exposure on Circulating Plasma Cortisol Levels and Other Blood Parameters in the Rainbow Trout, Salmo gairdneri|J. Fish Biol.32(1): 63-76|1988|10.1111/j.1095-8649.1988.tb05335.x
56732|A||Battram,J.C.|The Effects of Aluminium and Low pH on Chloride Fluxes in the Brown Trout, Salmo trutta L.|J. Fish Biol.32(6): 937-947|1988|10.1111/j.1095-8649.1988.tb05437.x
56733|A||Riedel,G.F.|The Relationship Between Chromium (VI) Uptake, Sulfate Uptake, and Chromium (VI) Toxicity in the Estuarine Diatom Thalassiosira pseudonana|Aquat. Toxicol.7(3): 191-204|1985|10.1016/S0166-445X(85)80005-9
56734|A||Cancio,I., A. Orbea, A. Volkl, H.D. Fahimi, and M.P. Cajaraville|Induction of Peroxisomal Oxidases in Mussels:  Comparison of Effects of Lubricant Oil and Benzo(a)pyrene with Two Typical Peroxisome Proliferators on Peroxisome Structure and Function in Mytilus galloprovincialis|Toxicol. Appl. Pharmacol.149(1): 64-72|1998|10.1006/taap.1997.8358
56735|A||Sarkar,A., and S. Jana|Effects of Combinations of Heavy Metals on Hill Activity of Azolla pinnata|Water Air Soil Pollut.35(1-2): 141-145|1987|10.1007/BF00183849
56736|A||Havens,K.E., and J. DeCosta|The Role of Aluminium Contamination in Determining Phytoplankton and Zooplankton Responses to Acidification|Water Air Soil Pollut.33(3/4): 277-293|1987|10.1007/BF00294197
56737|A||McCahon,C.P., A.F. Brown, M.J. Poulton, and D. Pascoe|Effects of Acid, Aluminium and Lime Additions on Fish and Invertebrates in a Chronically Acidic Welsh Stream|Water Air Soil Pollut.45(3/4): 345-359|1989|
56738|A||Peterson,R.H., R.A. Bourbonniere, G.L. Lacroix, D.J. Martin-Robichaud, P. Takats, and G. Brun|Responses of Atlantic Salmon (Salmo salar) Alevins to Dissolved Organic Carbon and Dissolved Aluminum at Low pH|Water Air Soil Pollut.46(1-4): 399-413|1989|10.1007/BF00192873
56739|A||Karlsson-Norrgren,L., I. Bjorklund, O. Ljungberg, and P. Runn|Acid Water and Aluminium Exposure:  Experimentally Induced Gill Lesions in Brown Trout, Salmo trutta L.|J. Fish Dis.9(1): 11-25|1986|10.1111/j.1365-2761.1986.tb00975.x
56740|A||Itazawa,Y., and J. Koyama|Effects or Oral Administration of Cadmium on Fish - III.  Comparison of the Effects on the Porgy and the Carp|Nippon Suisan Gakkaishi (Multiple Languages)44(8): 891-895|1978|10.2331/suisan.44.891
56741|A||Brown,L.N., M.G. Robinson, and B.D. Hall|Mechanisms for Copper Tolerance in Amphora coffeaeformis - Internal and External Binding|Mar. Biol.97(4): 581-586|1988|10.1007/BF00391055
56742|A||Poston,H.A.|Effect of Dietary Aluminum on Growth and Composition of Young Atlantic Salmon|Prog. Fish-Cult.53(1): 7-10|1991|10.1577/1548-8640(1991)053<0007:EODAOG>2.3.CO;2
56743|A||Mount,D.R., M.J. Swanson, J.E. Breck, A.M. Farag, and H.L. Bergman|Responses of Brook Trout (Salvelinus fontinalis) Fry to Fluctuating Acid, Aluminum and Low Calcium Exposure|Can. J. Fish. Aquat. Sci.47:1623-1630|1990|10.1139/f90-184
56744|A||Ingersoll,C.G., D.D. Gulley, D.R. Mount, M.E. Mueller, J.D. Fernandez, J.R. Hockett, and H.L. Bergman|Aluminum and Acid Toxicity to Two Strains of Brook Trout (Salvelinus fontinalis)|Can. J. Fish. Aquat. Sci.47:1641-1648|1990|10.1139/f90-186
56745|A||Wood,C.M., D.G. McDonald, C.G. Ingersoll, D.R. Mount, O.E. Johannsson, S. Landsberger, and H.L. Bergman|Effects of Water Acidity, Calcium and Aluminum on Whole Body Ions of Brook Trout (Salvelinus fontinalis) Continuously Exposed from Fertilization to Swim-Up: A Study by Instrumental Neutron Activation Analysis|Can. J. Fish. Aquat. Sci.47:1593-1603|1990|10.1139/f90-181
56746|A||Weatherley,N.S., G.P. Rutt, S.P. Thomas, and S.J. Ormerod|Liming Acid Streams:  Aluminium Toxicity to Fish in Mixing Zones|Water Air Soil Pollut.55(3/4): 345-353|1991|
56747|AT||Okamura,H., I. Aoyama, D. Liu, R.J. Maguire, G.J. Pacepavicius, and Y.L. Lau|Fate and Ecotoxicity of the New Antifouling Compound Irgarol 1051 in the Aquatic Environment|Water Res.34(14): 3523-3530|2000|10.1016/S0043-1354(00)00095-6
56748|A||Kuhn,A., W.R.,Jr. Munns, D. Champlin, R. McKinney, M. Tagliabue, J. Serbst, and T. Gleason|Evaluation of the Efficacy of Extrapolation Population Modeling to Predict the Dynamics of Americamysis bahia Populations in the Laboratory|Environ. Toxicol. Chem.20(1): 213-221|2001|10.1002/etc.5620200125
56749|A||Stuthridge,T.R., S.M. Anderson, J.S. Gifford, M.J. Robinson, and D.L. Straus|Bioaccumulation of Dehydroabietic Acid in Rainbow Trout (Oncorhynchus mykiss):  Role of Biotransformation Enzymes|Water Sci. Technol.35(2-3): 365-372|1997|10.2166/wst.1997.0559
56750|A||Andrew,R.W.|Physiological Chemistry and Toxicity of Cadmium to Fish|Unpublished research seminar:5 p.|1967|
56751|A||Lowe,J.I.|Some Effects of Endrin on Estuarine Fishes|Proc. 19th Annu. Conf. Southeast. Assoc. Game Fish Comm. , Oct. 10-13, 1965, Tulsa, OK:271-276|1965|
56752|A||Cheung,C.C.C., and P.K.S. Lam|Effect of Cadmium on the Embryos and Juveniles of a Tropical Freshwater Snail, Physa acuta (Draparnaud, 1805)|Water Sci. Technol.38(7): 263-270|1998|10.2166/wst.1998.0300
56753|A||Januszko,M.|Algae in Copper Treated Fish Ponds|Pol. Arch. Hydrobiol.23(1): 95-103|1976|
56754|A||Tonelli,R.|A Mathematical Analysis of Acute Toxicity of Copper to Bluegills (Lepomis macrochirus)|M.S.Thesis, Manhattan College, Bronx, NY:52 p.|1984|
56755|A||U.S. Environmental Protection Agency|Acephate, Aldicarb, Carbophenothion, DEF, EPN, Ethoprop, Methyl Parathion, and Phorate:  Their Acute and Chronic Toxicity, Bioconcentration Potential, and Persistence as Related to Marine Environments|EPA 600/4-81-041, U.S.EPA, Gulf Breeze, FL:255 p.|1981|
56756|A||Wang,W.X., and R.C.H. Dei|Effects of Major Nutrient Additions on Metal Uptake in Phytoplankton|Environ. Pollut.111(2): 233-240|2001|10.1016/S0269-7491(00)00071-3
56757|A||Eimers,M.C., R.D. Evans, and P.M. Welbourn|Cadmium Accumulation in the Freshwater Isopod Asellus racovitzai:  The Relative Importance of Solute and Particulate Sources at Trace Concentrations|Environ. Pollut.111(2): 247-253|2001|10.1016/S0269-7491(00)00066-X
56758|A||Lombardi,J.V., J.G. Machado-Neto, A.L. Brossi-Garcia, H.L.A. Marques, and E. Kubo|Acute Toxicity of the Fungicide Copper Oxychloride to the Freshwater Prawn Macrobrachium rosenbergii De Man|Bull. Environ. Contam. Toxicol.65(3): 383-390|2000|10.1007/s001280000139
56759|A||Chen,Y., X.D. Cao, Y. Lu, and X.R. Wang|Effects of Rare Earth Metal Ions and Their EDTA Complexes on Antioxidant Enzymes of Fish Liver|Bull. Environ. Contam. Toxicol.65(3): 357-365|2000|10.1007/s001280000136
56760|A||Wang,Y., and P.J. Walsh|High Ammonia Tolerance in Fishes of the Family Batrachoididae (Toadfish and Midshipmen)|Aquat. Toxicol.50(3): 205-219|2000|10.1016/S0166-445X(99)00101-0
56761|A||Schwaiger,J., O.H. Spieser, C. Bauer, H. Ferling, U. Mallow, W. Kalbfus, and R.D. Negele|Chronic Toxicity of Nonylphenol and Ethinylestradiol:  Haematological and Histopathological Effects in Juvenile Common Carp (Cyprinus carpio)|Aquat. Toxicol.51(1): 69-78|2000|10.1016/S0166-445X(00)00098-9
56762|A||Hollis,L., J.C. McGeer, D.G. McDonald, and C.M. Wood|Effects of Long Term Sublethal Cd Exposure in Rainbow Trout During Soft Water Exposure:  Implications for Biotic Ligand Modelling|Aquat. Toxicol.51(1): 93-105|2000|10.1016/S0166-445X(00)00099-0
56763|A||Pawlik-Skowronska,B.|Relationships Between Acid-Soluble Thiol Peptides and Accumulated Pb in the Green Alga Stichococcus bacillaris|Aquat. Toxicol.50(3): 221-230|2000|10.1016/S0166-445X(99)00102-2
56764|A||Alderdice,D.F., and J.R. Brett|Toxicity of Sodium Arsenite to Young Chum Salmon|Prog.Rep.of the Pacific Coast Stations No.108, Fish.Res.Board Can.:27-29|1957|
56765|A||Cassie,V.|Effects of Spraying on Phytoplankton in Lake Rotorua|In: V.J.Chapman and C.A.Bell (Eds.), Proc.of the Rotorua Seminar on Water Weeds: Problems and the Search for a Solution, held on Oct.15, 1966, Univ.of Auckland, New Zealand:31-40|1966|
56766|T||Llugany,M., C. Poschenrieder, and J. Barcelo|Assessment of Barium Toxicity in Bush Beans|Arch. Environ. Contam. Toxicol.39(4): 440-444|2000|10.1007/s002440010125
56767|T||Yu,G., G. Wang, C. He, and J. Bai|Physiological Responses to Oxidative and Heavy Metal Stress in Seedlings of Rice Paddy, Oryza sativa L.|Bull. Environ. Contam. Toxicol.65(4): 514-521|2000|10.1007/s001280000154
56768|T||Sneller,F.E.C., L.M. Van Heerwaarden, H. Schat, and J.A.C. Verkleij|Toxicity, Metal Uptake, and Accumulation of Phytochelatins in Silene vulgaris Exposed to Mixtures of Cadmium and Arsenate|Environ. Toxicol. Chem.19(12): 2982-2986|2000|10.1002/etc.5620191219
56769|T||Baur,J.R., R.W. Bovey, and E.C. Holt|Effect of Herbicides on Production and Protein Levels in Pasture Grasses|Agron. J.69:846-851|1977|10.2134/agronj1977.00021962006900050030x
56771|T||Wang,X., Y. Dong, S. Han, and L. Wang|Structure-Phytotoxicity Relationship:  Comparative Inhibition of Selected Nitrogen-Containing Aromatics to Root Elongation of Cucumis sativus|Bull. Environ. Contam. Toxicol.65(4): 435-442|2000|10.1007/s001280000143
56772|T||Reinecke,A.J., S.A. Reinecke, D.E. Musilbono, and A. Chapman|The Transfer of Lead (Pb) from Earthworms to Shrews (Myosorex varius)|Arch. Environ. Contam. Toxicol.39(3): 392-397|2000|10.1007/s002440010120
56773|T||Martin,P.A., D.L. Johnson, D.J. Forsyth, and B.D. Hill|Effects of Two Grasshopper Control Insecticides on Food Resources and Reproductive Success of Two Species of Grassland Songbirds|Environ. Toxicol. Chem.19(12): 2987-2996|2000|10.1002/etc.5620191220
56774|T||Congiu,L., M. Chicca, A. Pilastro, M. Turchetto, and L. Tallandini|Effects of Chronic Dietary Cadmium on Hepatic Glutathione Levels and Glutathione Peroxidase Activity in Starlings (Sturnus vulgaris)|Arch. Environ. Contam. Toxicol.38(3): 357-361|2000|10.1007/s002449910047
56775|T||Burger,J., C. Carruth-Hinchey, J. Ondroff, M. McMahon, J.W. Gibbons, and M. Gochfeld|Effects of Lead on Behavior, Growth, and Survival of Hatchling Slider Turtles|J. Toxicol. Environ. Health55A(7): 495-502|1998|10.1080/009841098158296
56776|T||De Roode,D.F., L. Balk, J.H. Koeman, and A.T.C. Bosveld|Development of a Bioassay to Test the Possible Role of Thiamine Disturbance as a Mechanism Behind Pollution-Induced Reproductive Failures in Birds|Arch. Environ. Contam. Toxicol.39(3): 386-391|2000|10.1007/s002440010119
56779|T||Bell,W.B.|The Relative Toxicity of the Chlorinated Naphthalenes in Experimentally Produced Bovine Hyperkeratosis (X-Disease)|Vet. Med.48:135-140|1953|
56781|T||Wodinsky,I., and J.K. Swiniarski|Antitumor Activity of Amygdalin MF (NSC-15780) as a Single Agent and with beta-Glucosidase (NSC-128056) on a Spectrum of Transplantable Rodent Tumors|Cancer Chemother. Rep. Part 159(5): 939-950|1975|
56782|T||Bunyan,J., A.T. Diplock, M.A. Cawthorne, and J. Green|Vitamin E and Stress 8. Nutritional Effects of Dietary Stress with Silver in Vitamin E-Deficient Chicks and Rats|Br. J. Nutr.22:165-182|1968|10.1079/BJN19680023
56792|T||Weitzman,G.A., M.M. Miller, S.N. London, and D.R. Mattison|Morphometric Assessment of the Murine Ovarian Toxicity of 7,12-Dimethylbenz(a)anthracene|Reprod. Toxicol.6(2): 137-141|1992|10.1016/0890-6238(92)90115-A
56795|T||Shaw,P.A.|Toxicity and Deposition of Thallium in Certain Game Birds|J. Pharmacol. Exp. Ther.48:478-487|1933|
56796|T||Diaz-Mayans,J., R. Laborda, and A. Nunez|Hexavalent Chromium Effects on Motor Activity and Some Metabolic Aspects of Wistar Albino Rats|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 191-195|1986|10.1016/0742-8413(86)90035-6
56797|T||Yagi,Y., Y. Nakamura, I. Tomita, K. Tsuchikawa, and N. Shimoi|Teratogenic Potential of Di- and Mono(2-Ethylhexyl)Phthalate in Mice|J. Environ. Pathol. Toxicol.4-2(3): 533-544|1980|
56798|T||Boroujerdi,M., H. Kung, A.G.E. Wilson, and M.W. Anderson|Metabolism and DNA Binding of Benzo(a)pyrene In Vivo in the Rat|Cancer Res.41:951-957|1981|
56800|T||Lassiter,T.L., S. Padilla, S.R. Mortensen, S.M. Chanda, V.C. Moser, and S.,Jr. Barone|Gestational Exposure to Chlorpyrifos:  Apparent Protection of the Fetus?|Toxicol. Appl. Pharmacol.152(1): 56-65|1998|10.1006/taap.1998.8514
56801|T||Sheffield,S.R., and R.L. Lochmiller|Effects of Field Exposure to Diazinon on Small Mammals Inhabiting a Semienclosed Prairie Grassland Ecosystem.  I.  Ecological and Reproductive Effects|Environ. Toxicol. Chem.20(2): 284-296|2001|10.1002/etc.5620200209
56802|T||Wang,G., W.D. Edge, and J.O. Wolff|Response of Bobwhite Quail and Gray-Tailed Voles to Granular and Flowable Diazinon Applications|Environ. Toxicol. Chem.20(2): 406-411|2001|
56803|T||Bargar,T.A., G.I. Scott, and G.P. Cobb|Maternal Transfer of Contaminants:  Case Study of the Excretion of Three Polychlorinated Biphenyl Congeners and Technical-Grade Endosulfan into Eggs by White Leghorn Chickens (Gallus domesticus)|Environ. Toxicol. Chem.20(1): 61-67|2001|
56804|T||Huang,Y.W., J.J. Stegeman, B.R. Woodin, and W.H. Karasov|Immunohistochemical Localization of Cytochrome P4501A Induced by 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) in Multiple Organs of Northern Leopard Frogs, Rana pipiens|Environ. Toxicol. Chem.20(1): 191-197|2001|
56805|T||Firling,C.E., A.R. Severson, and T.A. Hill|Aluminum Effects on Blood Chemistry and Long Bone Development in the Chick Embryo|Arch. Toxicol.68(9): 541-547|1994|10.1007/s002040050111
56807|T||Applegate,H.G., and D.F. Adams|Nutritional and Water Effect on Fluoride Uptake and Respiration of Bean Seedlings|Phyton (Buenos Aires)14(2): 111-120|1960|
56809|T||Muhler,J.C.|The Effect of Vanadium Pentoxide, Fluorides, and Tin Compounds on the Dental Caries Experience in Rats|J. Dent. Res.36:787-794|1957|10.1177/00220345570360052501
56811|T||Brouwer,A.|Interference of TCB with the Plasma Transport of Retinol|In: Interference of 3,4,3',4'-Tetrachlorobiphenyl in Vitamin A (Retinoids) Metabolism: Possible Implications for Toxicity and Carcinogenicity of Polyhalogenated Aromatic Hydrocarbons, Chapter 6, CIP-Data Koninklijke Bibliotheek, Den Haag:147-163|1987|
56812|T||Hopfer,S.M., F.W.Jr. Sunderman, E.E. Morse, and T.N. Fredrickson|Effects of Intrarenal Injection of Nickel Subsulfide in Rodents|Ann. Clin. Lab. Sci.10(1): 54-64|1980|
56813|T||Horak,E., E.R. Zygowicz, R. Tarabishy, J.M. Mitchell, and F.W.Jr. Sunderman|Effects of Nickel Chloride and Nickel Carbonyl upon Glucose Metabolism in Rats|Ann. Clin. Lab. Sci.8(6): 476-482|1978|
56814|T||Dalvi,R.R., and T.J. Robbins|Comparative Studies on the Effect of Cadmium, Cobalt, Lead and Selenium on Hepatic Microsomal Monooxygenase Enzymes and Glutathione Levels in Mice|J. Environ. Pathol. Toxicol.1(5): 601-607|1978|
56815|T||Olson,L.D., and D.E. Rodabaugh|Evaluation of Cobalt Arsanilate for Prevention and Treatment of Swine Dysentery|Am. J. Vet. Res.34(7): 903-907|1973|
56818|T||Oskarsson,A., and H. Tjalve|An Autoradiographic Study on the Distribution of 63-NiCl2 in Mice|Ann. Clin. Lab. Sci.9(1): 47-59|1979|
56825|T||Hopfer,S.M., F.W.Jr. Sunderman, T.N. Fredrickson, and E.E. Morse|Increased Serum Erythropoietin Activity in Rats Following Intrarenal Injection of Nickel Subsulfide|Res. Commun. Chem. Pathol. Pharmacol.23(1): 155-170|1979|
56826|T||Hopfer,S.M., and F.W.Jr. Sunderman|Manganese Inhibition of Nickel Subsulfide Induction of Erythrocytosis in Rats|Res. Commun. Chem. Pathol. Pharmacol.19(2): 337-345|1978|
56827|T||Decsy,M.I., and F.W.Jr. Sunderman|Binding of 63Ni to Rabbit Serum alpha-1-Macroglobulin In Vivo and In Vitro|Bioinorg.Chem.3:95-105|1974|10.1016/S0006-3061(00)80032-0
56828|T||Asato,N., M. Van Soestbergen, and F.W.Jr. Sunderman|Binding of 63Ni(II) to Ultrafiltrable Constituents of Rabbit Serum In Vivo and In Vitro|Clin. Chem.21(4): 521-527|1975|10.1093/clinchem/21.4.521
56832|T||Boutin,C., H.B. Lee, E.T. Peart, P.S. Batchelor, and R.J. Maguire|Effects of the Sulfonylurea Herbicide Metsulfuron Methyl on Growth and Reproduction of Five Wetland and Terrestrial Plant Species|Environ. Toxicol. Chem.19(10): 2532-2541|2000|10.1002/etc.5620191020
56833|T||Courdassier,M., A. Gomot-De Vaufleury, and P.M. Badot|Dose-Dependent Growth Inhibition and Bioaccumulation of Hexavalent Chromium in Land Snail Helix aspersa aspersa|Environ. Toxicol. Chem.19(10): 2571-2578|2000|
56834|T||Yoshimura,N., K. Kida, S. Usutani, and M. Nishimura|Histochemical Localization of Copper in Various Organs of Brindled Mice After Copper Therapy|Pathol. Int.45:10-18|1995|10.1111/j.1440-1827.1995.tb03374.x
56835|T||Burch,R.E., R.V. Williams, and J.F. Sullivan|Tissue Trace Metal Content of Rats Fed Selenium with and Without Cobalt|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:257-261|1973|
56836|T||Roginski,E.E., and W. Mertz|A Biphasic Response of Rats to Cobalt|J. Nutr.107(8): 1537-1542|1977|10.1093/jn/107.8.1537
56837|T||Ely,R.E., L.A. Moore, P.E. Hubanks, R.H. Carter, and F.W. Poos|Results of Feeding Methoxychlor Sprayed Forage and Crystalline Methoxychlor to Dairy Cows|J. Dairy Sci.36:309-314|1953|10.3168/jds.S0022-0302(53)91495-7
56841|T||Thomas,R.G., J.E. Furchner, J.E. London, G.A. Drake, J.S. Wilson, and C.R. Richmond|Comparative Metabolism of Radionuclides in Mammals-X.  Retention of Tracer-Level Cobalt in the Mouse, Rat, Monkey and Dog|Health Phys.31(4): 323-333|1976|10.1097/00004032-197610000-00003
56842|T||Beyer,C., M.L. Cruz, V.L. Gay, and R.B. Jaffe|Effect of Testosterone and Dihydrotestosterone on FSH Serum Concentration and Follicular Growth in Female Rats|Endocrinology95:722-727|1974|10.1210/endo-95-3-722
56845|T||Kiigemagi,U., R.G. Sprowls, and L.C. Terriere|Endrin Content of Milk and Body Tissues of Dairy Cows Receiving Endrin Daily in Their Diet|J. Agric. Food Chem.6(7): 518-521|1958|10.1021/jf60089a003
56846|T||Kashani,A.B., H. Samie, R.J. Emerick, and C.W. Carlson|Effect of Copper with Three Levels of Sulfur Containing Amino Acids in Diets for Turkeys|Poult. Sci.65:1754-1759|1986|10.3382/ps.0651754
56847|T||Nettesheim,P., M.G.,Jr. Hanna, D.G. Doherty, R.F. Newell, and A. Hellman|Effect of Calcium Chromate Dust, Influenza Virus and 100 R Whole-Body X-Radiation on Lung Tumor Incidence in Mice|J. Natl. Cancer Inst.47:1129-1144|1971|
56848|T||Bache,C.A., G.G. Gyrisco, S.N. Fertig, E.W. Huddleston, D.J. Lisk, F.H. Fox, G.W. Trimberger, and R.F. Holland|Effects of Feeding Low Levels of Heptachlor Epoxide to Dairy Cows on Residues and Off-Flavors in Milk|J. Agric. Food Chem.8(5): 408-409|1960|10.1021/jf60111a021
56850|T||Matsusaka,N., Y. Nishimura, and R. Ichikawa|Incorporation of Radioactive Cobalt into the Eggs of Domestic Fowls|J. Radiat. Res.13:156-162|1972|10.1269/jrr.13.156
56852|T||Levy,L.S., P.A. Martin, and P.L. Bidstrup|Investigation of the Potential Carcinogenicity of a Range of Chromium Containing Materials on Rat Lung|Br. J. Ind. Med.43:243-256|1986|
56853|T||Webb,M., J.C. Heath, and T. Hopkins|Intranuclear Distribution of the Inducing Metal in Primary Rhabdomyosarcomata Induced in the Rat by Nickel, Cobalt and Cadmium|Br. J. Cancer26:274-278|1972|10.1038/bjc.1972.37
56854|T||Bruce,W.N., R.P. Link, and G.C. Decker|Storage of Heptachlor Epoxide in the Body Fat and Its Excretion in Milk of Dairy Cows fed Heptachlor in Their Diets|J. Agric. Food Chem.13(1): 63-67|1965|10.1021/jf60137a019
56855|T||Rusoff,L.L., R.S. Temple, R.G. Myers, L.D. Newsom, E.C. Burns, W.F. Barthel, C. Corley, and A. Allsman|Residues in Fatty Tissues and Meat of Cattle Grazing on Pastures Treated with Granular Heptachlor|J. Agric. Food Chem.11(4): 289-291|1963|10.1021/jf60128a004
56858|A||Ferard,J.F., P. Vasseur, and J.M. Jouany|Value of Dynamic Tests in Acute Ecotoxicity Assessment in Algae|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1163:38-56|1983|
56860|A||Halter,M.T.|The Acute Toxicity of Polychlorinated Biphenyl, Aroclor 1254, to the Early Life Stages of Coho Salmon and Steelhead Trout|Aug.4 PCB Newsl., U.S.EPA, Duluth, MN:3 p.|1974|
56861|T||Kitao,M., T.T. Lei, T. Nakamura, and T. Koike|Manganese Toxicity as Indicated by Visible Foliar Symptoms of Japanese White Birch (Betula platyphylla var. japonica)|Environ. Pollut.111(1): 89-94|2001|10.1016/S0269-7491(99)00332-2
56864|T||Sunohara,Y., and H. Matsumoto|Comparative Physiological Effects of Quinclorac and Auxins, and Light Involvement in Quinclorac-Induced Chlorosis in Corn Leaves|Pestic. Biochem. Physiol.58:125-132|1997|10.1006/pest.1997.2289
56866|T||Huber,J.T., and J.L. Bishop|Secretion of Heptachlor Epoxide in Milk of Cows fed Field-Cured Hay from Soils Treated with Heptachlor|J. Dairy Sci.45:79-81|1962|10.3168/jds.S0022-0302(62)89331-X
56867|T||Kesner,C.D., and S.K. Ries|Diphenamid Metabolism in Plants|Science155:210-211|1967|10.1126/science.155.3759.210
56868|T||Ely,R.E., L.A. Moore, P.E. Iiubanks, R.H. Carter, and F.W. Poos|Excretion of Heptachlor Epoxide in the Milk of Dairy Cows fed Heptachlor-Sprayed Forage and Technical Heptachlor|J. Dairy Sci.38:669-672|1955|10.3168/jds.S0022-0302(55)95022-0
56869|T||Nishimura,Y., J. Inaba, and R. Ichikawa|Whole-Body Retention of 60CoCl2 and 58Co-Cyanocobalamin in Young and Adult Rats|J. Radiat. Res.17:240-246|1976|10.1269/jrr.17.240
56871|T||Chen,J.K.M., R.T. Haro, and A. Furst|Excretion of Nickel Compounds by the Rat:  Blood and Urine Levels|Wasmann J. Biol.29(1): 1-15|1971|
56872|T||El-Gazzar,R.M., V.N. Finelli, J. Boiano, and H.G. Petering|Influence of Dietary Zinc on Lead Toxicity in Rats|Toxicol. Lett.1(4): 227-234|1978|10.1016/0378-4274(78)90053-X
56873|T||Van Vleet,J.F., A.H. Rebar, and V.J. Ferrans|Acute Cobalt and Isoproterenol Cardiotoxicity in Swine: Protection by Selenium-Vitamin E Supplementation and Potentiation by Stress-Susceptible Phenotype|Am. J. Vet. Res.38(7): 991-1002|1977|
56876|T||Lu,C.C., N. Matsumoto, and S. Iijima|Teratogenic Effects of Nickel Chloride on Embryonic Mice and Its Transfer to Embryonic Mice|Teratology19:137-142|1979|10.1002/tera.1420190202
56877|T||Huck,D.W.|The Study of Cobalt Toxicity in Pigs and Rats|Diss. Abstr. Int. B Sci. Eng.37(1): 159-|1975|
56878|T||Jasmin,G.|Anaphylactoid Edema Induced in Rats by Nickel and Cobalt Salts (38328)|Proc. Soc. Exp. Biol. Med.147(1): 289-292|1974|10.3181/00379727-147-38328
56882|T||Witt,J.M., F.M. Whiting, W.H. Brown, and J.W. Stull|Contamination of Milk from Different Routes of Animal Exposure to DDT|J. Dairy Sci.49:370-380|1966|10.3168/jds.S0022-0302(66)87877-3
56887|T||Kinkead,E.R., R.E. Wolfe, C.D. Flemming, D.J. Caldwell, C.R. Miller, and G.B. Marit|Reproductive Toxicity Screen of 1,3,5-Trinitrobenzene Administered in the Diet of Sprague-Dawley Rats|Toxicol. Ind. Health11(3): 309-323|1995|10.1177/074823379501100302
56888|T||Gumbleton,M., and P.J. Nicholls|Dose-Response and Time-Response Biochemical and Histological Study of Potassium Dichromate-Induced Nephrotoxicity in the Rat|Food Chem. Toxicol.26(1): 37-44|1988|10.1016/0278-6915(88)90039-7
56889|T||Srivastava,L., V.K. Jain, D.N. Kachru, and S.K. Tandon|Comparative Toxicity of Trivalent and Hexavalent Chromium V:  Enzymatic Alterations in Rat Liver and Kidneys|Ind. Health23:89-94|1985|10.2486/indhealth.23.89
56890|T||Yamaguchi,S., K. Sano, and N. Shimojo|On the Biological Half-Time of Hexavalent Chromium in Rats|Ind. Health21:25-34|1983|10.2486/indhealth.21.25
56892|T||Davidow,B., J.L. Radomski, and R. Ely|Excretion of Heptachlor Epoxide in Milk of a Dairy Cow Fed Heptachlor|Science118:383-385|1953|10.1126/science.118.3066.383
56894|T||Langard,S., and A.L. Nordhagen|Small Animal Inhalation Chambers and the Significance of Dust Ingestion from the Contaminated Coat when Exposing Rats to Zinc Chromate|Acta Pharmacol. Toxicol.46:43-46|1980|10.1111/j.1600-0773.1980.tb02417.x
56895|T||Griffing,W.J., and G.C. Todd|Development and Reversibility of Pancreatic Acinar Cell Changes in the Rat Produced by Tebuthiuron (1-(5-tert-Butyl-1,3,4-Thiadiazol-2-yl)-1,3-Dimethylurea)|Food Cosmet. Toxicol.12(5/6): 665-669|1974|10.1016/0015-6264(74)90237-5
56897|A||Kalinkina,L.G., K.S. Spektorov, and V.O. Bogoslovskaya|Effects of Different Concentrations of NaCl on Growth and Development of Chlorella pyrenoidosa|Sov. Plant Physiol.25:16-20|1978|
56898|A||Kalinkina,L.G.|Growth and Biomass Accumulation in Marine and Freshwater Algae of the Genus Chlorella as a Function of NaCl Concentration in the Medium|Sov. Plant Physiol.26:320-325|1979|
56899|A||Kalinkina,L.G., and B.P. Strogonov|Excretion of Glycolic Acid by Marine and Freshwater Algae Under the Influence of Different NaCl Concentrations|Sov. Plant Physiol.27:44-50|1980|
56900|A||Kostecki,P.T., and J.J. Jones|The Effect of Osmotic and Ion-Osmotic Stresses on the Mortality of Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. A Comp. Physiol.74:773-775|1983|10.1016/0300-9629(83)90583-2
56902|A||Melgar,M.J., M. Perez, M.A. Garcia, J. Alonso, and B. Miguez|The Toxic and Accumulative Effects of Short-Term Exposure to Cadmium in Rainbow Trout (Oncorhynchus mykiss)|Vet. Hum. Toxicol.39(2): 79-83|1997|
56905|A||Schimmel,S.C., and J.M. Patrick|Effects of Insect Growth Regulators and Juvenile Hormone Mimics on Crustacean Development|U.S.EPA, Gulf Breeze, FL:3 p.|1975|
56907|T||Vanden Heuvel,J.P., G.C. Clark, M.C. Kohn, A.M. Tritscher, W.F. Greenlee, G.W. Lucier, and D.A. Bell|Dioxin-Responsive Genes:  Examination of Dose-Response Relationships Using Quantitative Reverse Transcriptase-Polymerase Chain Reaction|Cancer Res.54:62-68|1994|
56908|T||Foy,C.D., D.H.,Jr. Smith, and L.W. Briggle|Tolerances of Oat Cultivars to an Acid Soil high in Exchangeable Aluminum|J. Plant Nutr.10(9-16): 1163-1174|1987|10.1080/01904168709363644
56911|T||Patel,P.M., A. Wallace, and E.M. Romney|Effect of Chelating Agents on Phytotoxicity of Lead and Lead Transport|Commun. Soil Sci. Plant Anal.8(9): 733-740|1977|10.1080/00103627709366767
56912|T||Fellows,R.J., S.D. Harvey, and D.A. Cataldo|An Evaluation of the Environmental Fate and Behavior of Munitions Material (Tetryl and Polar Metabolites of TNT) in Soil and Plant Systems|ADA-266548, U.S.Army Med.Res.and Dev.Command, Ft.Detrick, MD:92 p.|1992|
56913|T||Overley,F.L., and A. Spuler|Relation of Oil Spray to Production of Apples in Washington|Hilgardia2(9): 343-347|1927|
56914|T||Takematsu,T., Y. Takeuchi, and S. Tamura|Preemergence Herbicidal Activities of 3-Phenoxypyridazine Derivatives|Weed Sci.20(4): 327-329|1972|10.1017/S0043174500035773
56915|T||Ishizuka,K.|Mechanisms of Activation and Inactivation of Physiologically Active Substances in Plants (Part 13).  On Herbicidal Activities of 1,3,4-Thiadiazolylurea Derivatives|Agric. Biol. Chem.35(6): 964-967|1971|
56916|T||Vanden Born,W.H., and R.J. Schraa|Control of 2,4-D Resistant Weeds in Small Grains with DOWCO 290 Herbicide|Down Earth31(2): 4-9|1975|
56917|T||Foote,L.E., and B.F. Himmelman|MH as a Roadside Grass Retardant|Weed Sci.19(1): 86-90|1971|10.1017/S0043174500048359
56919|T||Rius-Alonso,C., and R.L. Wain|Studies on Plant Growth-Regulating Substances.  XLIX.  Phenoxyalkenes|Ann. Appl. Biol.88:299-308|1978|10.1111/j.1744-7348.1978.tb00710.x
56920|T||Smith,L.W., R.L. Peterson, and R.F. Horton|Effects of a Dimethylpropynyl Benzamide Herbicide on Quackgrass Rhizomes|Weed Sci.19(2): 174-177|1971|10.1017/S0043174500048591
56921|AT||Arnason,T.J., and R. Wakonig|The Mutagenic Effects of 2:4:6 Tri (Ethyleneimino)-1:3:5 Triazine (TEM) on Plants|Can. J. Genet. Cytol.1:16-20|1959|10.1139/g59-004
56922|T||Crane,J.C.|Parthenocarpic Peach Development as Influenced by Time of Gibberellin Application|J. Am. Soc. Hortic. Sci.83:240-247|1963|
56923|T||Takeda,A.|alpha-Substituted Aryl-Acetic Acids as Plant Growth Regulators|Contrib. Boyce Thompson Inst.20:197-203|1959|
56924|T||Miller,H.J.|Endothal Weed Killer for Beets|Agric. Chemic.:38-39, 126 - 127|1959|
56925|T||Knight,H., J.C. Chamberlin, and C.D. Samuels|On Some Limiting Factors in the Use of Saturated Petroleum Oils as Insecticides|Plant Physiol.4(3): 299-321|1929|10.1104/pp.4.3.299
56926|T||Nagaraja Rao,R., and A.T. Natarajan|Effect of 9-beta-delta-Arabinofuranosyladenine on Vicia faba Chromosomes|Cancer Res.25:1764-1769|1965|
56927|T||Singh,R.K.N., and R.W. Campbell|Some Effects of 4-Thianaphtheneacetic Acid on Ripening of Concord Grapes|J. Am. Soc. Hortic. Sci.84:259-262|1963|
56928|T||Herrett,R.A.|3,4-Dichlorobenzyl Methylcarbamate and Related Compounds as Herbicides|Science14:191-193|1965|10.1126/science.149.3680.191
56929|T||Bukovac,M.J.|Modification of the Vegetative Development of Phaseolus vulgaris with N,N-Dimethylaminomaleamic Acid|Am. J. Bot.51(5): 480-485|1964|10.1002/j.1537-2197.1964.tb06659.x
56930|T||Sinclair,W.B., E.T. Bartholomew, and W. Ebeling|Comparative Effects of Oil Spray and Hydrocyanic Acid Fumigation on the Composition of Orange Fruits|J. Econ. Entomol.34(6): 821-829|1941|10.1093/jee/34.6.821
56931|T||Grace,N.H.|Physiological Activity of a Series of Indolyl Acids|Can. J. Res. Sect. C Bot. Sci.17:373-375|1939|10.1139/cjr39c-036
56932|T||Grace,N.H.|Effects of Plant and Animal Hormones on the Rooting of Dust- and Solution-Treated Dormant Stem Cuttings|Can. J. Res. Sect. C Bot. Sci.17:304-311|1939|
56933|T||Bishop,P.|Gibberellic Acid and Chlorophyll Content of Leaves of Meteor Peas|Nature192(4802): 576-577|1961|10.1038/192576a0
56934|T||Crane,J.C., C.A. Rebeiz, and R.C. Campbell|"Gibberellin-Induced Parthenocarpy in the J.H.Hale Peach and the Probable Cause of ""Button"" Production"|J. Am. Soc. Hortic. Sci.78:111-118|1961|
56935|T||Soost,R.K., and R.H. Burnett|Effects of Gibberellin on Yield and Fruit Characteristics of Clementine Mandarin|J. Am. Soc. Hortic. Sci.77:194-201|1960|
56936|T||Thurber,G.A., J.R. Douglas, and A.W. Galston|Inhibitory Effect of Gibberellins on Nodulization in Dwarf Beans, Phaseolus vulgaris|Nature181(4615): 1082-1083|1958|10.1038/1811082a0
56937|T||Shiue,C.J., R.M. Brown, and L.W. Rees|Aspen Debarking with 2,4,5-T|J. For.:503-507|1958|
56938|T||Dennis,F.G.,Jr., and L.J. Edgerton|Effects of Gibberellins and Ringing upon Apple Fruit Development and Flower Bud Formation|J. Am. Soc. Hortic. Sci.88:14-24|1965|
56939|T||Crane,J.C.|Responses of the Royal Apricot to 2,4-Dichlorophenoxyacetic Acid Application|J. Am. Soc. Hortic. Sci.:189-193|1953|
56940|T||Rood,P., and C.L. Hamner|The Use of 4-Phthalimido-2,6-Dimethylpyrimidine as a Plant Growth Regulator|J. Am. Soc. Hortic. Sci.:495-500|1954|
56941|T||Altona,R.E., and N.J. Mentz|The Control of Weeds in Maize with Selective Plant-Growth Regulators.  Second Report 1949-50 Season|Emp. J. Exp. Agric.19(73): 26-32|1951|
56942|T||Hamner,C.L., and H.B. Tukey|Chlorophyll Inhibition and Herbicidal Action of 3-(Alpha-Imino-Ethyl) 5-Methyl Tetronic Acid|Bot. Gaz.:525-529|1951|10.1086/335686
56943|T||Proebsting,E.L.,Jr., and H.H. Mills|Effect of Gibberellic Acid and Other Growth Regulators on Quality of Early Italian Prunes (Prunus domestica, L.)|J. Am. Soc. Hortic. Sci.89:135-139|1966|
56944|T||Newman,E.I., and P.J. Kramer|Effects of Decenylsuccinic Acid on the Permeability and Growth of Bean Roots|Plant Physiol.41:606-609|1966|10.1104/pp.41.4.606
56945|T||Crane,J.C., and R.M. Brooks|Growth of Apricot Fruits as Influenced by 2,4,5-Trichlorophenoxyacetic Acid Application|J. Am. Soc. Hortic. Sci.:218-224|1951|
56946|T||Sciuchetti,L.A., A. Hisatomi, and A.N. Masoud|Effects of Amo-1618, Maleic Hydrazide, and Gibberellin Seed Treatment on the First and Second Generation of Datura tatula|J. Pharm. Sci.54(3): 403-407|1965|10.1002/jps.2600540312
56947|T||Borer,K., R.J. Hardy, W.S. Lindsay, and D.A. Spratt|Ethylene-bis-Nitrourethane:  Investigation of the Plant Growth Stimulant Action of Analogous Compounds|J. Exp. Bot.17(51): 378-389|1966|10.1093/jxb/17.2.378
56948|T||Sestak,Z., J. Catsky, and J. Sahulka|Changes in Sunflower Shoot Structure Under Influence of Gibberellic Acid|Biol. Plant. (Praha)2(4): 247-251|1960|10.1007/BF02920664
56949|T||Lam,S.L., A.C. Leopold, and K.W. Johnson|A Chemical Treatment to Concentrate Tomato Ripening for Mechanical Harvest|J. Am. Soc. Hortic. Sci.80:530-534|1961|
56950|T||Dennis,F.G.,Jr., and L.J. Edgerton|Induction of Parthenocarpy in the Apple with Gibberellin, and the Effects of Supplementary Auxin Application|J. Am. Soc. Hortic. Sci.80:58-63|1961|
56952|T||Eliasson,L.|Growth Response of Wheat Roots to Antiauxins and 2,3,5-Triiodobenzoic Acid|Physiol. Plant. (Multiple Languages)13:505-512|1960|10.1111/j.1399-3054.1960.tb08073.x
56953|T||Calder,F.W., W.D. Canham, and D.S. Fensom|Some Effects of Alar-85 on the Physiology of Alfalfa and Ladino Clover|Can. J. Plant Sci.53:269-278|1973|10.4141/cjps73-051
56954|T||Iwamura,H., N. Masuda, K. Koshimizu, and S. Matsubara|Cytokinin-Agonistic and Antagonistic Activities of 4-Substituted-2-Methylpyrrolo[2,3-d]Pyrimidines, 7-Deaza Analogs of Cytokinin-Active Adenine Derivatives|Phytochemistry18:217-222|1979|10.1016/0031-9422(79)80058-8
56955|T||Lipe,W.N., and J.A. Skinner|Effect of an Antitranspirant on Water Use, Growth, and Yield of Greenhouse-grown Potatoes|Hortscience14(3): 239-241|1979|10.21273/HORTSCI.14.3.239
56956|T||Kirino,O., R. Yoshida, and S. Sumida|3-(2'-Pyridyl)-1,2,4-Triazin-5(4H)-One and Its Derivatives as Potential Post-Emergence Herbicides|Agric. Biol. Chem.41(6): 1093-1094|1977|
56957|T||Giza,C.A., and S.M. Siegel|Growth Promoting Derivatives of 5-Hydroxybenzofuran.  The Effects of Selected Derivatives on Germination and Seedling Growth|Physiol. Plant. (Multiple Languages)16:52-56|1963|10.1111/j.1399-3054.1963.tb08288.x
56958|T||Chan,J.H.H., F. Walker, C.K. Tseng, D.R. Baker, and D.R. Arneklev|Synthesis and Herbicidal Activity of N,N-Diethyl-2-(1-Naphthyloxy)Propionamide and Its Optical Isomers|J. Agric. Food Chem.23(5): 1008-1010|1975|10.1021/jf60201a043
56959|T||Chow,P.N.P.|Absorption of Herbicides by Wheat as Influenced by the Phenoxy Compound|J. Agric. Food Chem.23(4): 730-736|1975|10.1021/jf60200a030
56960|T||Shaybany,B., G. Costa, S.S. Brown, G. Obenauff, G.C. Martin, and M. Gerdts|Effect of 2-(3-Chlorophenoxy)Propionic Acid and 2-(3-Chlorophenoxy)Propionamide Applications on Fruit Size and Maturity of Peach|J. Am. Soc. Hortic. Sci.104(1): 34-36|1979|10.21273/JASHS.104.1.34
56961|T||Southwick,F.W., W.J. Lord, and W.D. Weeks|The Influence of Succinamic Acid 2, 2-Dimethylhydrazide (Alar) on the Growth, Productivity, Mineral Nutrition, and Quality of Apples|J. Am. Soc. Hortic. Sci.92:71-81|1967|
56962|T||Kaul,C.L., and S.P. Singh|Effects of Sodium 2,3-Dichloroisobutyrate Sprays on Anther Development and Microsporogenesis of Fenu-Greek (Trigonella foenum-graecum L.)|Crop Sci.7:516-518|1967|10.2135/cropsci1967.0011183X000700050032x
56963|T||Murphy,H.J., M.J. Goven, J.C. Campbell, C.F. Everett, J.D. Harrington, and R.L. Sawyer|Effect of Tetrachloronitrobenzene (Fusarex) on Emergence and Yield of Potatoes.  Part II. - Northeast|Am. Potato J.45:168-173|1968|10.1007/BF02849144
56965|T||Ajgami,K., Y. Inamoto, N. Takaishi, and Y. Fujikura|Plant Growth Retardant Activity of 4-Homoisotwistane Derivatives|Phytochemistry16:41-43|1977|10.1016/0031-9422(77)83009-4
56966|T||St.John,J.B., M.N. Christiansen, E.N. Ashworth, and W.A. Gentner|Effect of BASF 13-338, a Substituted Pyridazinone, on Linolenic Acid Levels and Winterhardiness of Cereals|Crop Sci.19:65-69|1979|10.2135/cropsci1979.0011183X001900010015x
56967|T||Thuoc,N.H., L.V. Quy, D.X. Nhu, and H.N. Thach|The Effect of 2-Pyridylhydroxymethanesulfonic Acid (PHMSA) on Glycolate Oxidase Activity and Photosynthesis of Soybean and Azolla pinnata R. Br.|Photosynthetica (Praha)12(4): 449-451|1978|
56968|T||Iwamura,H., S. Murakami, J.I. Koga, S. Matsubara, and K. Koshimizu|Quantitative Analysis of Anticytokinin Activity of 4-Substituted-2-Methylthiopyrido[2,3-d]Pyrimidines|Phytochemistry18:1265-1268|1979|10.1016/0031-9422(79)83004-6
56969|T||Yarborough,D.E., and A.A. Ismail|Effect of Endothall and Glyphosate on a Native Barrenberry and Lowbush Blueberry Stand|Can. J. Plant Sci.59:737-740|1979|10.4141/cjps79-114
56970|T||Willemot,C.|Simultaneous Inhibition of Linolenic Acid Synthesis in Winter Wheat Roots and Frost Hardening by BASF 13-338, a Derivative of Pyridazinone|Plant Physiol.60:1-4|1977|10.1104/pp.60.1.1
56971|T||Parups,E.V.|Effectiveness of 2,3-Dihydro-5,6-Diphenyl-1,4-Oxathiin for Disbudding of Chrysanthemums Grown Under Different Environmental Conditions|Hortscience12(4): 332-334|1977|10.21273/HORTSCI.12.4.332
56972|T||Kornis,G., S.F. Rehrauer, and H.J. Vostral|Herbicidal Activity of Alkylpyrazole Amides|J. Agric. Food Chem.25(4): 884-888|1977|10.1021/jf60212a065
56973|T||Stewart,W.S., and C. Gammon|Fog Application of 2,4-D to Wild Grape and Other Plants|Am. J. Bot.34:492-496|1947|
56974|T||Clore,W.J.|The Effect of Alpha-Naphthaleneacetic Acid on Certain Varieties of Lima Beans|J. Am. Soc. Hortic. Sci.:475-478|1947|
56976|T||Purcell,D.L.|Sandalwood (Eremophila mitchellii) Control in Gidyea Country|Qld. J. Agric. Anim. Sci.23:387-395|1966|
56977|T||Hasman,M., and H. Burstrom|The Action of 6-Aminoundecane on Wheat Seedlings|Physiol. Plant. (Multiple Languages)3:361-369|1950|10.1111/j.1399-3054.1950.tb07667.x
56978|T||Ostachowska,T.|Synthesis and Biological Properties of Dihydrosarcomycin Derivatives|Bull. Acad. Pol. Sci. Ser. Sci. Biol.11(9): 445-448|1963|
56980|A||Walter,G.L., P.D. Jones, and J.P. Giesy|Pathologic Alterations in Adult Rainbow Trout, Oncorhynchus mykiss, Exposed to Dietary 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Aquat. Toxicol.50(4): 287-299|2000|10.1016/S0166-445X(00)00095-3
56981|A||Kwak,H.I., M.H. Lee, and M.H. Cho|Interrelationship of Apoptosis, Mutation, and Cell Proliferation in N-Methyl-N'-Nitro-N-Nitrosoguanidine (MNNG)-Induced Medaka Carcinogenesis Model|Aquat. Toxicol.50(4): 317-329|2000|10.1016/S0166-445X(00)00093-X
56982|A||Saravana Bhavan,P.S., and P. Geraldine|Histopathology of the Hepatopancreas and Gills of the Prawn Macrobrachium malcolmsonii Exposed to Endosulfan|Aquat. Toxicol.50(4): 331-339|2000|10.1016/S0166-445X(00)00096-5
56983|A||Conners,D.E., and A.H. Ringwood|Effects of Glutathione Depletion on Copper Cytotoxicity in Oysters (Crassostrea virginica)|Aquat. Toxicol.50(4): 341-349|2000|10.1016/S0166-445X(00)00092-8
56984|A||Meregalli,G., L. Pluymers, and F. Ollevier|Induction of Mouthpart Deformities in Chironomus riparius Larvae Exposed to 4-n-Nonylphenol|Environ. Pollut.111(2): 241-246|2001|10.1016/S0269-7491(00)00068-3
56985|A||Schoor,W.P., D.P. Middaugh, and D.T. Marcovich|Effects of Aerially Applied Fenthion on Survival and Reproduction of the Panacea Sand Fiddler, Uca panacea, in Laboratory Habitats|Arch. Environ. Contam. Toxicol.38(3): 327-333|2000|10.1007/s002449910043
56986|A||MacFie,S.M., and P.M. Welbourn|The Cell Wall as a Barrier to Uptake of Metal Ions in the Unicellular Green Alga Chlamydomonas reinhardtii (Chlorophyceae)|Arch. Environ. Contam. Toxicol.39(4): 413-419|2000|10.1007/s002440010122
56987|A||Hatch,A.C., and A.R. Blaustein|Combined Effects of UV-B, Nitrate, and Low pH Reduce the Survival and Activity Level of Larval Cascades Frogs (Rana cascadae)|Arch. Environ. Contam. Toxicol.39(4): 494-499|2000|10.1007/s002440010132
56988|A||Mastin,B.J., and J.H.,Jr. Rodgers|Toxicity and Bioavailability of Copper Herbicides (Clearigate, Cutrine-Plus, and Copper Sulfate) to Freshwater Animals|Arch. Environ. Contam. Toxicol.39(4): 445-451|2000|10.1007/s002440010126
56989|A||Milam,C.D., J.L. Farris, and J.D. Wilhide|Evaluating Mosquito Control Pesticides for Effect on Target and Nontarget Organisms|Arch. Environ. Contam. Toxicol.39(3): 324-328|2000|10.1007/s002440010111
56990|A||Weltens,R., R. Goossens, and S. Van Puymbroeck|Ecotoxicity of Contaminated Suspended Solids for Filter Feeders (Daphnia magna)|Arch. Environ. Contam. Toxicol.39(3): 315-323|2000|10.1007/s002440010110
56991|A||Peeters,E.T.H.M., T.J. De Jager, J.A.J. Beijer, and A.A. Koelmans|Effects of Benzo(a)pyrene and Size of Organic Matter Particles on Bioaccumulation and Growth of Asellus aquaticus|Arch. Environ. Contam. Toxicol.39(3): 307-314|2000|10.1007/s002440010109
56992|A||Scott,I.M., and N.K. Kaushik|The Toxicity of a Neem Insecticide to Populations of Culicidae and Other Aquatic Invertebrates as Assessed in In Situ Microcosms|Arch. Environ. Contam. Toxicol.39(3): 329-336|2000|10.1007/s002440010112
56993|A||Qiao,P., F.A.P.C. Gobas, and A.P. Farrell|Relative Contributions of Aqueous and Dietary Uptake of Hydrophobic Chemicals to the Body Burden in Juvenile Rainbow Trout|Arch. Environ. Contam. Toxicol.39(3): 369-377|2000|10.1007/s002440010117
56994|A||Heinonen,J., J.V.K. Kukkonen, and I.J. Holopainen|Toxicokinetics of 2,4,5-Trichlorophenol and Benzo(a)pyrene in the Clam Pisidium amnicum:  Effects of Seasonal Temperatures and Trematode Parasites|Arch. Environ. Contam. Toxicol.39(3): 352-359|2000|10.1007/s002440010115
56995|A||Marino-Balsa,J.C., E. Poza, E. Vazquez, and R. Beiras|Comparative Toxicity of Dissolved Metals to Early Larval Stages of Palaemon serratus, Maja squinado, and Homarus gammarus (Crustacea:  Decapoda)|Arch. Environ. Contam. Toxicol.39(3): 345-351|2000|10.1007/s002440010114
56996|A||Schlezinger,J.J., and J.J. Stegeman|Induction of Cytochrome P450 1A in the American Eel by Model Halogenated and Non-halogenated Aryl Hydrocarbon Receptor Agonists|Aquat. Toxicol.50(4): 375-386|2000|10.1016/S0166-445X(00)00087-4
56997|A||Scholz,S., and H.O. Gutzeit|17-alpha-Ethinylestradiol Affects Reproduction, Sexual Differentiation and Aromatase Gene Expression of the Medaka (Oryzias latipes)|Aquat. Toxicol.50(4): 363-373|2000|10.1016/S0166-445X(00)00090-4
56998|A||Van Schanke,A., J.P. Boon, Y. Aardoom, A. Van Leest, F.J. Van Schooten, L. Maas, M. Van den Berg, and J.M. Everaarts|Effect of a Dioxin-Like PCB (CB 126) on the Biotransformation and Genotoxicity of Benzo(a)pyrene in the Marine Flatfish Dab (Limanda limanda)|Aquat. Toxicol.50(4): 403-415|2000|10.1016/S0166-445X(00)00086-2
56999|A||Grinwis,G.C.M., H.T. Besselink, E.J. Van den Brandhof, A.S. Bulder, M.Y. Engelsma, R.V. Kuiper, P.W. Wester, M.A. Vaal,|Toxicity of TCDD in European Flounder (Platichthys flesus) with Emphasis on Histopathology and Cytochrome P450 1A Induction in Several Organ Systems|Aquat. Toxicol.50(4): 387-401|2000|10.1016/S0166-445X(00)00084-9
57001|A||Varo,I., R. Serrano, E. Pitarch, F. Amat, F.J. Lopez, and J.C. Navarro|Toxicity and Bioconcentration of Chlorpyrifos in Aquatic Organisms:  Artemia parthenogenetica (Crustacea), Gambusia affinis, and Aphanius iberus (Pisces)|Bull. Environ. Contam. Toxicol.65(5): 623-630|2000|10.1007/s0012800169
57002|A||Ringelband,U., and O. Hehl|Kinetics of Vanadium Bioaccumulation by the Brackish Water Hydroid Cordylophora caspia (Pallas)|Bull. Environ. Contam. Toxicol.65(4): 486-493|2000|10.1007/s001280000150
57003|A||Saygideger,S.|Sorption of Cadmium and Their Effects on Growth, Protein Contents, and Photosynthetic Pigment Composition of Veronica Anagallis-aquatica L. and Ranunculus aquatilis L.|Bull. Environ. Contam. Toxicol.65(4): 459-464|2000|10.1007/s001280000146
57004|A||Ondrejkovicova,I., A. Fargasova, and E. Havranek|Detection of Biological Efficiency of Fe(III) Complexes with Hetercyclic N-Donor Ligand Nicotinamide (nia) Using Algal Assay|Bull. Environ. Contam. Toxicol.65(4): 451-458|2000|10.1007/s001280000145
57005|A||Zhan,W., Y. Xu, A.H. Li, J. Zhang, K.W. Schramm, and A. Kettrup|Endocrine Disruption by Hexachlorobenzene in Crucian Carp (Carassius auratus gibelio)|Bull. Environ. Contam. Toxicol.65(5): 560-566|2000|10.1007/s0012800160
57006|A||Izaguirre,M.F., R.C. Lajmanovich, P.M. Peltzer, A.P. Soler, and V.H. Casco|Cypermethrin-Induced Apoptosis in the Telencephalon of Physalaemus biligonigerus Tadpoles (Anura:  Leptodactylidae)|Bull. Environ. Contam. Toxicol.65(4): 501-507|2000|10.1007/s001280000152
57007|A||Al-Omar,M.A., and N.A. Hassan|Simple and Rapid Method for the Detection of Early Signs of Toxicity in Daphnia magna Straus|Bull. Environ. Contam. Toxicol.65(5): 553-559|2000|10.1007/s0012800159
57008|A||Whyte,J.J., K.L. Herbert, N.A. Karrow, D.G. Dixon, J.G. Sivak, and N.C. Bols|Effect of Maintaining Rainbow Trout in Creosote Microcosms on Lens Optical Properties and Liver 7-Ethoxyresorufin-O-Deethylase (EROD) Activity|Arch. Environ. Contam. Toxicol.38(3): 350-356|2000|10.1007/s002449910046
57009|A||Watts,M.M., and D. Pascoe|A Comparative Study of Chironomus riparius Meigen and Chironomus tentans Fabricius (Diptera:  Chironomidae) in Aquatic Toxicity Tests|Arch. Environ. Contam. Toxicol.39(3): 299-306|2000|10.1007/s002440010108
57010|T||Wilson,P.C., T. Whitwell, and S.J. Klaine|Metalaxyl and Simazine Toxicity to and Uptake by Typha latifolia|Arch. Environ. Contam. Toxicol.39(3): 282-288|2000|10.1007/s002440010106
57011|A||Seubert,J.M., and C.J. Kennedy|Benzo(a)pyrene Toxicokinetics in Rainbow Trout (Oncorhynchus mykiss) Acclimated to Different Salinities|Arch. Environ. Contam. Toxicol.38(3): 342-349|2000|10.1007/s002449910045
57012|A||Simon,O., F. Ribeyre, and A. Boudou|Comparative Experimental Study of Cadmium and Methylmercury Trophic Transfers Between the Asiatic Clam Corbicula fluminea and the Crayfish Astacus astacus|Arch. Environ. Contam. Toxicol.38(3): 317-326|2000|10.1007/s002449910042
57013|A||Lasier,P.J., P.V. Winger, and K.J. Bogenrieder|Toxicity of Manganese to Ceriodaphnia dubia and Hyalella azteca|Arch. Environ. Contam. Toxicol.38(3): 298-304|2000|10.1007/s002449910039
57014|A||Norrgren,L., U. Pettersson, S. Orn, and P.A. Bergqvist|Environmental Monitoring of the Kafue River, Located in the Copperbelt, Zambia|Arch. Environ. Contam. Toxicol.38(3): 334-341|2000|10.1007/s002449910044
57015|A||Saxena,T.B., K.E. Zachariassen, and L. Jorgensen|Effects of Ethoxyquin on the Blood Composition of Turbot, Scophthalmus maximus L.|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(1): 1-9|2000|
57016|A||Satyavathi,C., and Y. Prabhakara Rao|Inhibition of Na+, K+ -ATPase in Penaeus indicus Postlarvae by Lead|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(1): 11-22|2000|
57017|A||Egaas,E.|Effects of Atrazine, Endosulfan and Butylated Hydroxyanisole on Glutathione-S-Transferases in Orthosia gothica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(2): 117-122|2000|
57018|A||DeBusk,B.C., S.S. Chimote, J.M. Rimoldi, and D. Schenk|Effect of the Dietary Brominated Phenol, Lanasol, on Chemical Biotransformation Enzymes in the Gumboot Chiton Cryptochiton stelleri (Middendorf, 1846)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(2): 133-142|2000|
57019|T||Ossola,J.O., G. Kristoff, and M.L. Tomaro|Heme Oxygenase Induction by Menadione Bisulfite Adduct-Generated Oxidative Stress in Rat Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(1): 91-99|2000|
57020|A||Munger,C., and L. Hare|Influence of Ingestion Rate and Food Types on Cadmium Accumulation by the Aquatic Insect Chaoborus|Can. J. Fish. Aquat. Sci.57(2): 327-332|2000|10.1139/f99-225
57021|A||Hernandez,C., R. Yanez, and A. Rudolph|Toxicity Response of Emerita analoga (Stimpson, 1857) Collected from Beaches of South Central Chile|Bull. Environ. Contam. Toxicol.65(5): 567-572|2000|10.1007/s0012800161
57022|A||Villar,C.A., S.E. Gomez, and C.A. Bentos|Lethal Concentration of Cu in the Neotropical Fish Cnesterodon decemmaculatus (Pisces, Cyprinodontiformes)|Bull. Environ. Contam. Toxicol.65(4): 465-469|2000|10.1007/s001280000147
57023|A||Fraysse,B., J.P. Baudin, J. Garnier-Laplace, A. Boudou, F. Ribeyre, and C. Adam|Cadmium Uptake by Corbicula fluminea and Dreissena polymorpha:  Effects of pH and Temperature|Bull. Environ. Contam. Toxicol.65(5): 638-645|2000|10.1007/s0012800171
57024|A||Sinha,S., R. Saxena, and S. Singh|Fluoride Removal from Water by Hydrilla verticillata (l.f.) Royle and Its Toxic Effects|Bull. Environ. Contam. Toxicol.65(5): 683-690|2000|10.1007/s0012800177
57025|A||Ramaneswari,K., and L.M. Rao|Bioconcentration of Endosulfan and Monocrotophos by Labeo rohita and Channa punctata|Bull. Environ. Contam. Toxicol.65(5): 618-622|2000|10.1007/s0012800168
57026|A||Nichols,P.B., J.D. Couch, and S.H. Al-Hamdani|Selected Physiological Responses of Salvinia minima to Different Chromium Concentrations|Aquat. Bot.68(4): 313-319|2000|10.1016/S0304-3770(00)00128-5
57027|A||Coyner,A., G. Gupta, and T. Jones|Effect of Chlorsulfuron on Growth of Submerged Aquatic Macrophyte Potamogeton pectinatus (Sago Pondweed)|Environ. Pollut.111(3): 453-455|2001|10.1016/S0269-7491(00)00084-1
57028|A||Latif,M.A., R.A. Bodaly, T.A. Johnston, and R.J.P. Fudge|Effects of Environmental and Maternally Derived Methylmercury on the Embryonic and Larval Stages of Walleye (Stizostedion vitreum)|Environ. Pollut.111(1): 139-148|2001|10.1016/S0269-7491(99)00330-9
57030|A||Au,D.W.T., A.A. Reunov, and R.S.S. Wu|Reproductive Impairment of Sea Urchin upon Chronic Exposure to Cadmium.  Part II:  Effects on Sperm Development|Environ. Pollut.111(1): 11-20|2001|10.1016/S0269-7491(00)00036-1
57031|A||Au,D.W.T., C.Y. Lee, K.L. Chan, and R.S.S. Wu|Reproductive Impairment of Sea Urchins upon Chronic Exposure to Cadmium.  Part 1:  Effects on Gamete Quality|Environ. Pollut.111(1): 1-9|2001|10.1016/S0269-7491(00)00035-X
57032|A||Zhang,L., and K.N. Baer|The Influence of Feeding, Photoperiod and Selected Solvents on the Reproductive Strategies of the Water Flea, Daphnia magna|Environ. Pollut.110(3): 425-430|2000|10.1016/S0269-7491(99)00324-3
57034|T||Shukla,V.H., K.R. Dave, and S.S. Katyare|Effect of Catecholamine Depletion on Oxidative Energy Metabolism in Rat Liver, Brain and Heart Mitochondria;  Use of Reserpine|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(1): 79-90|2000|
57037|T||Blevins,J.E., K.D. Dixon, E.J. Hernandez, J.A. Barrett, and D.W. Gietzen|Effects of Threonine Injections in the Lateral Hypothalamus on Intake of Amino Acid Imbalanced Diets in Rats|Brain Res.879(1-2): 65-72|2000|10.1016/S0006-8993(00)02734-7
57038|T||Golightly,W.H., P.L. Mathias, and P.F. Roberts|Chemical Control of Wireworms in Winter Wheat in the East Midlands, 1966-68|Plant Pathol.18(1): 28-33|1969|10.1111/j.1365-3059.1969.tb00459.x
57039|T||Rayner,J.M.|Chemical Control of Leatherjackets (Diptera:  Tipulidae) in Grassland|Plant Pathol.27(4): 160-165|1978|10.1111/j.1365-3059.1978.tb01108.x
57040|T||Ranieri,A., F. Petacco, A. Castagna, and G.F. Soldatini|Redox State and Peroxidase System in Sunflower Plants Exposed to Ozone|Plant Sci.159(1): 159-167|2000|10.1016/S0168-9452(00)00352-6
57041|T||Chartzoulakis,K., and G. Klapaki|Response of Two Greenhouse Pepper Hybrids to NaCl Salinity During Different Growth Stages|Sci. Hortic.86(3): 247-260|2000|10.1016/S0304-4238(00)00151-5
57042|T||Vander Lee,B., and R.S. Lutz|Dose-Tissue Relationships for Dieldrin in Nestling Black-Billed Magpies|Bull. Environ. Contam. Toxicol.65(4): 427-434|2000|10.1007/s001280000025
57043|T||Bortier,K., G. Dekelver, L. De Temmerman, and R. Ceulemans|Stem Injection of Populus nigra with EDU to Study Ozone Effects Under Field Conditions|Environ. Pollut.111(2): 199-208|2001|10.1016/S0269-7491(00)00075-0
57045|T||Janssen,G.B., R.B. Beems, L.H. Elvers, and G.J.A. Speijers|Subacute Toxicity of alpha-Ergocryptine in Sprague-Dawley Rats.  2:  Metabolic and Hormonal Changes|Food Chem. Toxicol.38(8): 689-695|2000|10.1016/S0278-6915(00)00055-7
57046|T||Weiner,M.L., C. Freeman, H. Trochimowicz, J. De Gerlache, S. Jacobi, G. Malinverno, W. Mayr, and J.F. Regnier|13-Week Drinking Water Toxicity Study of Hydrogen Peroxide with 6-Week Recovery Period in Catalase-Deficient Mice|Food Chem. Toxicol.38(7): 607-615|2000|10.1016/S0278-6915(00)00048-X
57047|T||Tashima,K., A. Fujita, M. Umeda, and K. Takeuchi|Lack of Gastric Toxicity of Nitric Oxide-Releasing Aspirin, NCX-4016, in the Stomach of Diabetic Rats|Life Sci.67(13): 1639-1652|2000|10.1016/S0024-3205(00)00746-3
57051|T||Maitani,T., M.P. Waalkes, and C.D. Klaassen|Distribution of Cadmium After Oral Administration of Cadmium-Thionein to Mice|Toxicol. Appl. Pharmacol.74(2): 237-243|1984|10.1016/0041-008X(84)90148-0
57052|T||Graham,J.A., F.J. Miller, M.J. Daniels, E.A. Payne, and D.E. Gardner|Influence of Cadmium, Nickel and Chromium on Primary Immunity in Mice|Environ. Res.16(1-3): 77-87|1978|10.1016/0013-9351(78)90144-5
57053|T||Fisher,S.W.|A Comparison of Standardized Methods for Measuring the Biological Activity of Pesticides to the Earthworm, Lumbricus terrestris|Ecotoxicol. Environ. Saf.8(6): 564-571|1984|10.1016/0147-6513(84)90016-2
57058|T||Popp,E.|Effects of Dieldrin (HEOD) on a Moss Mite Hermannia convexa C.L. Koch. (Acari:  Oribatei)|Z. Angew. Entomol. (Multiple Languages)65:117-130|1970|10.1111/j.1439-0418.1970.tb03946.x
57059|T||Czaplicka,B.|The Effect of Spraying Against Colorado Beetle-Leptinotarsa decemlineata Say (Col., Chrysomelidae) on Coleoptera (Wplyw Opryskiwania Ziemniakow Przeciw Stonce Ziemniaczanej - Leptinotarsa decemlineata Say (Col., Chrysom|Pol. J. Entomol.46(3): 613-622|1976|
57060|T||Rapoport,E.H., and L. Sanchez|Effect of Organic Fungicides on the Soil Microfauna|Pedobiologia (Multiple Languages)7:317-322|1968|10.1016/S0031-4056(23)00292-5
57062|T||Sanocka-Woloszyn,E., and B.W. Woloszyn|The Influence of Herbicides on the Mesofauna of the Soil|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)35:731-738|1970|
57063|T||Tiwari,R.C., and J. Adinarayana|The Effect of Rate of Application of Nitrogen Fertilizer on Soil Copper Uptake by Barley Under Unirrigated Conditions|J. Agric. Sci.104:583-587|1985|10.1017/S002185960004435X
57066|T||Decker,L.E., R.U. Byerrum, C.F. Decker, C.A. Hoppert, and R.F. Langham|Chronic Toxicity Studies. I. Cadmium Administered in Drinking Water to Rats|AMA Arch. Ind. Health18:228-231|1958|
57067|T||Stenersen,J.|Action of Pesticides on Earthworms. Part II: Elimination of Parathion by the Earthworm Eisenia foetida (Savigny)|Pestic. Sci.10(2): 104-112|1979|10.1002/ps.2780100203
57068|T||Ghabbour,S.I., and M. Imam|The Effect of Five Herbicides on Three Oligochaete Species|Rev. Ecol. Biol. Sol4(1): 119-122|1967|
57069|T||Palmeira,C.M., J. Serrano, D.W. Kuehl, and K.B. Wallace|Preferential Oxidation of Cardiac Mitochondrial DNA Following Acute Intoxication with Doxorubicin|Biochim. Biophys. Acta1321(2): 101-106|1997|10.1016/S0005-2728(97)00055-8
57070|A||Le Patourel,G.N.J., and D.J. Wright|Uptake and Metabolism of Phorate by the Free-Living Nematode Panagrellus redivivus|Pestic. Biochem. Physiol.4:135-143|1974|10.1016/0048-3575(74)90092-3
57071|T||Takaba,K., H. Furumoto, J. Ikegami, K. Suzuki, J. Takahashi, T. Hara, and A. Ishii|Inhibitory Effects of Subcutaneous Dexamethasone Treatment on Rat Pulmonary Toxicity of KW-2149, a New Mitomycin C Analogue|Arch. Toxicol.74(2): 106-111|2000|10.1007/s002040050660
57072|T||Pleijel,H., L. Skarby, G. Wallin, and G. Sellden|Yield and Grain Quality of Spring Wheat (Triticum aestivum L., cv. Drabant) Exposed to Different Concentrations of Ozone in Open-Top Chambers|Environ. Pollut.69(2-3): 151-168|1991|10.1016/0269-7491(91)90140-R
57074|T||Voronova,L.D.|The Effect of Some Pesticides on the Soil Invertebrate Fauna in the South Taiga Zone in the Perm Region (USSR)|Pedobiologia (Multiple Languages)8:507-525|1968|10.1016/S0031-4056(23)00345-1
57075|T||Wang,T., R.D. Fontenot, M.G. Soni, T.J. Bucci, and H.M. Mehendale|Enhanced Hepatotoxicity and Toxic Outcome of Thioacetamide in Streptozotocin-Induced Diabetic Rats|Toxicol. Appl. Pharmacol.166(2): 92-100|2000|10.1006/taap.2000.8952
57076|T||Fattore,E., C. Trossvik, and H. Hakansson|Relative Potency Values Derived from Hepatic Vitamin A Reduction in Male and Female Sprague-Dawley Rats Following Subchronic Dietary Exposure to Individual Polychlorinated Dibenzo-p-Dioxin and Dibenzofuran Congeners and|Toxicol. Appl. Pharmacol.165(3): 184-194|2000|10.1006/taap.2000.8943
57077|T||Popovici,I., G. Stan, V. Stefan, R. Tomescu, A. Dumea, A. Tarta, and F. Dan|The Influence of Atrazine on Soil Fauna|Pedobiologia (Multiple Languages)17:209-215|1977|10.1016/S0031-4056(23)00172-5
57079|T||White,R.D., D.E. Carter, D. Earnest, and J. Mueller|Absorption and Metabolism of Three Phthalate Diesters by the Rat Small Intestine|Food Cosmet. Toxicol.18(4): 383-386|1980|10.1016/0015-6264(80)90194-7
57080|T||Welsch,C.W., C. Gribler, and J.A. Clemens|6-Methyl-8-beta-Ergoine-Acetonitrile (MEA)-Induced Suppression of Mammary Tumorigenesis in C3H/HeJ Female Mice|Eur. J. Cancer10:595-600|1974|10.1016/0014-2964(74)90048-6
57081|T||Menser,H.A.|Response of Plants to Air Pollutants. III. A Relation Between Ascorbic Acid Levels and Ozone Susceptibility of Light-Preconditioned Tobacco Plants|Plant Physiol.39:564-567|1964|10.1104/pp.39.4.564
57082|T||Koo,S.J., J.C. Neal, and J.M. DiTomaso|3,7-Dichloroquinolinecarboxylic Acid Inhibits Cell-Wall Biosynthesis in Maize Roots|Plant Physiol.112:1383-1389|1996|10.1104/pp.112.3.1383
57086|T||Ray,D.E.|An EEG Investigation of Decamethrin-Induced Choreoathetosis in the Rat|Exp. Brain Res.38:221-227|1980|10.1007/BF00236743
57087|T||Cerklewski,F.L., and R.M. Forbes|Influence of Dietary Copper on Lead Toxicity in the Young Male Rat|J. Nutr.107(1): 143-146|1977|10.1093/jn/107.1.143
57088|T||Martel,P., and M. Hudon|Laboratory and Greenhouse Studies on the Control of the European Corn Borer, Ostrinia nubilalis (Hubner), in Quebec|Phytoprotection (Multiple Languages)59(1): 12-18|1978|
57089|T||Johansen,C., and J. Eves|Toxicity of Insecticides to the Alkali Bee and the Alfalfa Leafcutting Bee|Wash. Agric. Exp. Stn. Bull.475:15 p.|1967|
57094|T||Salminen,K., O.P. Obermeier, and W. Kreuzer|Metabolism of 60Co in Chickens-II.  Absorption After Single and Repeated Peroral Administration|Comp. Biochem. Physiol. B Comp. Biochem.51:267-272|1975|10.1016/0305-0491(75)90004-8
57095|T||Shukla,U.C., and H. Raj|Zinc Response in Corn as Influenced by Genetic Variability|Agron. J.68:20-22|1976|10.2134/agronj1976.00021962006800010006x
57096|T||White,M.C., A.M. Decker, and R.L. Chaney|Differential Cultivar Tolerance in Soybean to Phytotoxic Levels of Soil Zn.  I.  Range of Cultivar Response|Agron. J.71:121-126|1979|10.2134/agronj1979.00021962007100010031x
57105|T||Riley,M.M.|Boron Toxicity in Barley|J. Plant Nutr.10(9-16): 2109-2115|1987|10.1080/01904168709363761
57106|T||Onkelinx,C.|Compartment Analysis of Cobalt (II) Metabolism in Rats of Various Ages|Toxicol. Appl. Pharmacol.38(2): 425-438|1976|10.1016/0041-008X(76)90149-6
57107|T||Lardy,H.A.|Experiments with Peas and Sweet Corn Treated with DDT Insecticides|J. Ind. Eng. Chem.40:710-711|1948|10.1021/ie50460a031
57108|T||Millard,M.M., C.D. Foy, C.A. Coradetti, and M.D. Reinsel|X-Ray Photoelectron Spectroscopy Surface Analysis of Aluminum Ion Stress in Barley Roots|Plant Physiol.93:578-583|1990|10.1104/pp.93.2.578
57110|T||Ribeiro Pinto,L.F.|Differences Between Isoamyl Alcohol and Ethanol on the Metabolism and DNA Ethylation of N-Nitrosodiethylamine in the Rat|Toxicology151:73-79|2000|10.1016/S0300-483X(00)00297-3
57111|T||Pitt,J.A., A.R. Buckalew, D.E. House, and B.D. Abbott|Adrenocorticotropin (ACTH) and Corticosterone Secretion by Perifused Pituitary and Adrenal Glands from Rodents Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicology151:25-35|2000|10.1016/S0300-483X(00)00257-2
57112|T||Lind,P.M., S. Larsson, S. Johansson, H. Melhus, M. Wikstrom, O. Lindhe, and J. Orberg|Bone Tissue Composition, Dimensions and Strength in Female Rats Given an Increased Dietary Level of Vitamin A or Exposed to 3,3',4,4',5-Pentachlorobiphenyl (PCB126) Alone or in Combination with Vitamin C|Toxicology151:11-23|2000|10.1016/S0300-483X(00)00262-6
57113|T||Li,Q., Y. Hirata, S. Piao, and M. Minami|Immunotoxicity of N,N-Diethylaniline in Mice:  Effect on Natural Killer Activity, Cytotoxic T Lymphocyte Activity, Lymphocyte Proliferation Response and Cellular Components of the Spleen|Toxicology150:179-189|2000|10.1016/S0300-483X(00)00247-X
57114|T||Travacio,M., J.M. Polo, and S. Llesuy|Chromium(VI) Induces Oxidative Stress in the Mouse Brain|Toxicology150:137-146|2000|10.1016/S0300-483X(00)00254-7
57116|T||Golub,M.S., S.L. Germann, B. Han, and C.L. Keen|Lifelong Feeding of a high Aluminum Diet to Mice|Toxicology150:107-117|2000|10.1016/S0300-483X(00)00251-1
57117|T||Coyle,P., G. Niezing, T.L. Shelton, J.C. Philcox, and A.M. Rofe|Tolerance to Cadmium Hepatotoxicity by Metallothionein and Zinc:  In Vivo and In Vitro Studies with MT-Null Mice|Toxicology150:53-67|2000|10.1016/S0300-483X(00)00243-2
57118|T||Lind,P.M., S. Larsson, H. Oxlund, H. Hakansson, K. Nyberg, T. Eklund, and J. Orberg|Change of Bone Tissue Composition and Impaired Bone Strength in Rats Exposed to 3,3',4,4',5-Pentachlorobiphenyl (PCB126)|Toxicology150:41-51|2000|10.1016/S0300-483X(00)00245-6
57121|T||Muralikrishna,P.V.G., and K. Venkateswarlu|Effect of Insecticides on Soil Algal Population|Bull. Environ. Contam. Toxicol.33(2): 241-245|1984|10.1007/BF01625537
57122|T||Crooke,W.M.|Effect of Nickel Versenate on Oat Plants|Nature173:403-404|1954|10.1038/173403b0
57123|T||Hardee,D.D., W.H. Gutenmann, D.J. Lisk, G.G. Gyrisco, and C.M. Edmonds|Zonal Accumulation of Dieldrin in Soil and Alfalfa Residues|J. Econ. Entomol.57:583-585|1964|10.1093/jee/57.4.583
57124|T||Bolle-Jones,E.W., and V.R. Mallikarjuneswara|A Beneficial Effect of Cobalt on the Growth of the Rubber Plant (Hevea brasiliensis)|Nature179:738-739|1957|10.1038/179738a0
57126|T||Denny,H.J., and D.A. Wilkins|Zinc Tolerance in Betula spp.  I.  Effect of External Concentration on Zinc on Growth and Uptake|New Phytol.106:517-524|1987|
57127|T||Jones,M.D., and T.C. Hutchinson|Nickel Toxicity in Mycorrhizal Birch Seedlings Infected with Lactarius rufus of Scleroderma flavidum I.  Effects on Growth, Photosynthesis, Respiration & Transpiration|New Phytol.108:451-459|1988|10.1111/j.1469-8137.1988.tb04186.x
57129|T||Parry,K.E., and R.K.S. Wood|The Adaptation of Fungi to Fungicides:  Adaptation to Copper and Mercury Salts|Ann. Appl. Biol.46(3): 446-456|1958|10.1111/j.1744-7348.1958.tb02225.x
57130|T||Hooper,M.C.|An Investigation of the Effect of Lead on Plants|Ann. Appl. Biol.24:690-695|1937|10.1111/j.1744-7348.1937.tb05049.x
57131|T||Paivoke,A.|Anatomical Response of the Roots of Pea Seedlings to Lead and Arsenate Ions|Ann. Bot. Fenn.20:307-315|1983|
57132|T||Patra,J., M. Lenka, and B.B. Panda|Tolerance and Co-Tolerance of the Grass Chloris barbata sw. to Mercury, Cadmium and Zinc|New Phytol.128(1): 165-171|1994|10.1111/j.1469-8137.1994.tb03999.x
57133|T||Findley,D.A., G.J. Keever, A.H. Chappelka, D.J. Eakes, and C.H. Gilliam|Sensitivity of Red Maple Cultivars to Acute and Chronic Exposures of Ozone|J. Arboric.22(6): 264-269|1996|
57135|T||Youssef,R.A., A.A. El Fattah, and M.H. Hilal|Studies on the Movement on Ni in Wheat Rhizosphere using Rhizobox Technique|Egypt. J. Soil Sci.37(2): 175-187|1997|
57136|T||Utriainen,M.A., L.V. Karenlampi, S.O. Karenlampi, and H. Schat|Differential Tolerance to Copper and Zinc of Micropropagated Birches Tested in Hydroponics|New Phytol.137:543-549|1997|10.1046/j.1469-8137.1997.00840.x
57138|T||Nokes,S.E., and J.H. Young|Predicting the Persistence and Efficacy of Chlorothalonil on Peanut Leafspot|Trans ASAE (Am. Soc. Agric. Eng.)35(5): 1699-1708|1992|10.13031/2013.28786
57139|T||Skilling,D.D., and T.H. Nicholls|Brown Spot Needle Disease. Biology and Control in Scotch Pine Plantations|Res. Pap. NC. U.S. For. Serv.:19 p.|1974|
57140|T||Vodnik,D., M. Bozic, N. Gogala, and K. Gabrovsek|Growth Response of Ectomycorrhizal Norway Spruce Seedlings Transplanted on Lead-Polluted Soil|Phyton (Horn) (Multiple Languages)36(3): 77-80|1996|
57141|T||Spasojevic,V.|Chromosome Mutations Induced by Cadmium Chloride in Maize|Bull. Classe Sci. Math. Nat. Sci. Math.68(19): 57-63|1979|
57142|T||Heale,E.L., and D.P. Ormrod|Effects of Nickel and Copper on Acer rubrum, Cornus stolonifera, Lonicera tatarica, and Pinus resinosa|Can. J. Bot.60:2674-2681|1982|10.1139/b82-325
57143|T||Wheeler,D.M., and J.M. Follett|Effect of Aluminium on Onions, Asparagus and Squash|J. Plant Nutr.14(9): 897-912|1991|10.1080/01904169109364251
57144|T||Casterline,J.L.,Jr., and N.M. Barnett|Cadmium-Binding Components in Soybean Plants|Plant Physiol.69:1004-1007|1982|10.1104/pp.69.5.1004
57145|T||Smith,D.|Biological Control of Ceroplastes rubens Maskell, by the Introduced Parasitoid Anicetus beneficus Ishii and Yasumatsu|Qld. J. Agric. Anim. Sci.43(2): 101-105|1986|
57147|T||Salim,R., M.M. Al-Subu, A. Douleh, L. Chenavier, and J. Hagemeyer|Effects of Root and Foliar Treatments of Carrot Plants with Lead and Cadmium on the Growth Uptake and the Distribution of Uptake of Metals in Treated Plants|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(7): 1739-1758|1992|
57149|T||Sharaf,Abd El-Monem|Effects of Cadmium and Lead on Cabbage Plants Grown in Soils Treated with Cyanobacteria|Azhar Bull. Sci.7(1): 423-433|1996|
57154|T||Sirkar,S., and J.V. Amin|The Manganese Toxicity of Cotton|Plant Physiol.54:539-543|1974|10.1104/pp.54.4.539
57155|T||Samantaray,S., G.R. Rout, and P. Das|Tolerance of Rice to Nickel in Nutrient Solution|Biol. Plant. (Praha)40(2): 295-298|1998|10.1023/A:1001085007412
57161|T||Gupta,B.P., and K.M. Rai|Phytotoxic Effects of Some Insecticides on Peach Saplings|Prog. Hortic.16(1/2): 150-152|1984|
57162|T||Cataldo,D.A., R.E. Wildung, and T.R. Garland|Root Absorption and Transport Behavior of Technetium in Soybean|Plant Physiol.73(3): 849-852|1983|10.1104/pp.73.3.849
57163|T||Elder,R.J.|Insecticide Control of Three Grass-Feeding Noctuids and Herpetogramma licarsisalis (Walk.)|Qld. J. Agric. Anim. Sci.33(1): 125-127|1976|
57167|T||Srivastava,S., S. Prakash, and M.M. Srivastava|Fate of Trivalent Chromium in Presence of Organic Acids:  A Hydroponic Study on the Tomato Plant|Chem. Spec. Bioavail.10(4): 147-150|1998|10.3184/095422998782775763
57168|T||White,G., I. Fernandez, and G. Wiersma|Impacts of Ammonium Sulfate Treatment on the Foliar Chemistry of Forest Trees at the Bear Brook Watershed in Maine|Environ. Monit. Assess.55(1): 235-250|1999|10.1023/A:1006186105021
57169|T||Couch,R.W., J.V. Gramlich, D.E. Davis, and H.H.,Jr. Funderburk|The Metabolism of Atrazine and Simazine by Soil Fungi|Proc. South. Weed Conf.18:623-631|1965|
57170|T||Smith,G.S., and J.H. Watkinson|Selenium Toxicitiy in Perennial Ryegrass and White Clover|New Phytol.97:557-564|1984|10.1111/j.1469-8137.1984.tb03619.x
57171|T||Boyd,R.S., J.J. Shaw, and S.N. Martens|Nickel Hyperaccumulation Defends Streptanthus polygaloides (Brassicaceae) Against Pathogens|Am. J. Bot.81(3): 294-300|1994|10.1002/j.1537-2197.1994.tb15446.x
57172|T||MacFie,S.M., G.J. Taylor, K.G. Briggs, and J. Hoddinott|Differential Tolerance of Manganese Among Cultivars of Triticum aestivum|Can. J. Bot.67:1305-1308|1989|10.1139/b89-173
57173|T||Ahmed,S., and H.J. Evans|Effect of Cobalt on the Growth of the Soybeans in the Absence of Supplied Nitrogen|Biochem. Biophys. Res. Commun.1(5): 271-275|1959|10.1016/0006-291X(59)90036-1
57174|T||Martin,A.L., and S.F. Trelease|Absorption of Selenium by Tobacco and Soy Beans in Sand Cultures|Am. J. Bot.25:380-385|1938|10.1002/j.1537-2197.1938.tb09233.x
57175|T||Smith,P.F., and A.W. Specht|Mineral Composition of Valencia Orange Seedlings Grown in Solution with Varying Amounts of Copper, Zinc, Manganese, and Iron|Annu. Meet. Fla. State Hortic. Soc.66:85-89|1953|
57176|T||Ganje,T.J., and E.I. Whitehead|Selenium Uptake by Plants as Affected by the Forms of Selenium in the Soil|Proc. S. D. Acad. Sci.37:85-88|1958|
57177|T||Wilkins,D.A.|The Measurement and Genetical Analysis of Lead Tolerance in Festuca ovina|Rep.Scott.Plant Breed.Stn.:85-98|1960|
57178|T||Robinson,E.L.|Arsenic in Soil with Five Annual Applications of MSMA|Weed Sci.23(5): 341-343|1975|10.1017/S0043174500062627
57179|T||Meharg,A.A., and M.R. Macnair|Uptake, Accumulation and Translocation of Arsenate in Arsenate-Tolerant and Non-Tolerant Holcus lanatus L.|New Phytol.117:225-231|1991|10.1111/j.1469-8137.1991.tb04903.x
57210|T||Wright,K.E., and B.A. Donahue|Aluminium Toxicity Studies with Radioactive Phosphorus|Plant Physiol.28:674-680|1953|10.1104/pp.28.4.674
57213|T||Snyman,R.G., S.A. Reinecke, and A.J. Reinecke|Hemocytic Lysosome Response in the Snail Helix aspersa After Exposure to the Fungicide Copper Oxychloride|Arch. Environ. Contam. Toxicol.39(4): 480-485|2000|10.1007/s002440010130
57216|T||Wahlberg,J.E.|Vehicle Role of Petrolatum.  Absorption Studies with Metallic Test Compounds in Guinea Pigs|Acta Dermato-Venereol.51(2): 129-134|1971|10.2340/0001555551129134
57217|T||Hasegawa,T.|Tissue Cobalt Content and Excretion in Mice and Rats Following Injection of Cobalt Chloride|Jpn. J. Hyg. (Non-English)29(2): 289-299|1974|
57218|T||Bovard,K.P., B.M. Priode, G.E. Whitmore, and A.J. Ackerman|DDT Residues in the Internal Fat of Beef Cattle fed Contaminated Apple Pomace|J. Anim. Sci.20:824-826|1961|10.2527/jas1961.204824x
57220|T||Zweig,G., E.L. Pye, and S.A. Peoples|Residues in Butterfat and Body Fat of Dairy Cows fed at Two Levels of Kelthane (1.0 and 2.0 P.P.M.)|J. Agric. Food Chem.11(1): 72-74|1963|10.1021/jf60125a022
57221|T||Levine,B.S., E.M. Furedi, D.E. Gordon, P.M. Lish, and J.J. Barkley|Subchronic Toxicity of Trinitrotoluene in Fischer 344 Rats|Toxicology32:253-265|1984|10.1016/0300-483X(84)90078-7
57222|T||Mathur,A.K., S.V. Chandra, and S.K. Tandon|Comparative Toxicity of Trivalent and Hexavalent Chromium to Rabbits.  II.  Morphological Changes in Some Organs|Toxicology8:53-61|1977|10.1016/0300-483X(77)90023-3
57224|T||Ivey,M.C., H.V. Claborn, H.D. Mann, R.D. Radeleff, and G.T. Woodard|Aldrin and Dieldrin Content of Body Tissues of Livestock Receiving Aldrin in Their Diet|J. Agric. Food Chem.9(5): 374-376|1961|10.1021/jf60117a010
57225|T||Bateman,G.Q., C. Biddulph, J.R. Harris, D.A. Greenwood, and L.E. Harris|Transmission Studies of Milk of Dairy Cows Fed Toxaphene-Treated Hay|J. Agric. Food Chem.1:322-324|1953|10.1021/jf60004a009
57226|T||Rusoff,L.L., W.H. Waters, J.H. Gholson, J.B.,Jr. Frye, L.D. Newsom, E.C. Burns, W.F. Barthel, and R.T. Murphy|Residues of Heptachlor Epoxide in Butterfat of Dairy Cows Grazing Pastures Treated with Granular Heptachlor|J. Agric. Food Chem.10(5): 377-380|1962|10.1021/jf60123a006
57227|T||Zweig,G., L.M. Smith, S.A. Peoples, and R. Cox|DDT Residues in Milk from Dairy Cows fed Low Levels of DDT in Their Daily Rations|J. Agric. Food Chem.9(6): 481-484|1961|10.1021/jf60118a019
57229|T||Lee,W.O.|Pre-Plant Soil-Incorporated Herbicides for Control of Annual Weeds in the Establishment of Alfalfa, Birdsfoot Trefoil, and Red Clover|West.Weed Control Conf.Research Prog.Rep.:29 p.|1964|
57233|T||Hunter,J.G., and O. Vergnano|Trace-Element Toxicities in Oat Plants|Ann. Appl. Biol.40:761-777|1953|10.1111/j.1744-7348.1953.tb01113.x
57234|T||Horst,W.J.|Aluminium Tolerance and Calcium Efficiency of Cowpea Genotypes|J. Plant Nutr.10(9-16): 1121-1129|1987|10.1080/01904168709363640
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57236|T||Van Praag,H.J., F. Weissen, S. Sougnez-Remy, and C. Carletti|Aluminium Effects on Spruce and Beech Seedlings. II. Statistical Analysis of Sand Culture Experiments|Plant Soil83:339-356|1985|10.1007/BF02184446
57237|T||Jarak,M., M. Govedarica, Petrovic, M. Ubavic, and N. Milosevic|The Effect of Heavy Metals on Nodulation and Microbial Activity in the Rhizosphere of the Pea|In: S.Jevtic and B.Lasic (Eds.), Proc.First Balkan Symp.on Vegetables and Potatoes, Volume 1, July 4-7, 1996, Belgrade, Yugoslavia, Acta Hortic.No.462:229-234|1997|
57238|T||Nada,M., M. Govedarica, J. Mirjana, and N. Petrovic|The Effect of Heavy Metals on Total Soil Microbiological Activity in Lettuce|In: S.Jevtic and B.Lasic (Eds.), Proc.First Balkan Symp.on Vegetables and Potatoes, Volume 1, July 4-7, 1996, Belgrade, Yugoslavia, Acta Hortic.No.462:133-137|1997|
57240|T||Coats,G.E.|Studies on Translocation, Degradation, and Persistence of Diquat and Paraquat|M.S.Thesis, Auburn University, Auburn, AL:67 p.|1965|
57241|T||Parker,R.D.R., and R.P. Sharma|Accumulation and Depletion of Vanadium in Selected Tissues of Rats Treated with Vanadyl Sulfate and Sodium Orthovanadate|J. Environ. Pathol. Toxicol.2:235-245|1978|
57242|T||Stevenson,M.H., and N. Jackson|The Accumulation of Copper in the Liver of the Domestic Laying Hen|Proc. Nutr. Soc.38:29A|1978|
57243|T||Vann,S.L., D.W. Sparling, and M.A. Ottinger|Effect of White Phosphorus on Mallard Reproduction|Environ. Toxicol. Chem.19(10): 2525-2531|2000|10.1002/etc.5620191019
57244|T||Sousa,J.P., S. Loureiro, S. Pieper, M. Frost, W. Kratz, A.J.A. Nogueira, and A.M.V.M. Soares|Soil and Plant Diet Exposure Routes and Toxicokinetics of Lindane in a Terrestrial Isopod|Environ. Toxicol. Chem.19(10): 2557-2563|2000|10.1002/etc.5620191023
57245|T||Shen,S.K., S. Williams, C. Onkelinx, and F.W.Jr. Sunderman|Use of Implanted Minipumps to Study the Effects of Chelating Drugs on Renal 63Ni Clearance in Rats|Toxicol. Appl. Pharmacol.51(2): 209-217|1979|10.1016/0041-008X(79)90463-0
57246|T||Hans,R.K., R.C. Gupta, and M.U. Beg|Toxicitiy Assessment of Four Insecticides to Earthworm, Pheretima posthuma|Bull. Environ. Contam. Toxicol.45(3): 358-364|1990|10.1007/BF01701158
57247|T||Mathur,A.K., S.V. Chandra, J. Behari, and S.K. Tandon|Biochemical and Morphological Changes in Some Organs of Rats in Nickel Intoxication|Arch. Toxicol.37:159-164|1977|10.1007/BF00293867
57248|T||Voltura,M.B., and J.B.,Jr. French|Effects of Dietary Polychlorinated Biphenyl Exposure on Energetics of White-Footed Mouse, Peromyscus leucopus|Environ. Toxicol. Chem.19(11): 2757-2761|2000|
57249|T||Drenth,H.J., C.J.C. Van Oevelen, C.J.K. Buitenhuis, and M. Van den Berg|Induction of Hepatic Cytochrome P450 Activities by Toxaphene in Rat and Japanese Quail|Environ. Toxicol. Chem.19(11): 2806-2811|2000|10.1002/etc.5620191127
57250|T||Swiergosz,R., and A. Kowalska|Cadmium Accumulation and Its Effects in Growing Pheasants Phasianus colchicus (L.)|Environ. Toxicol. Chem.19(11): 2742-2750|2000|10.1002/etc.5620191119
57251|T||Drouillard,K.G., and R.J. Norstrom|Dietary Absorption Efficiencies and Toxicokinetics of Polychlorinated Biphenyls in Ring Doves Following Exposure to Aroclor Mixtures|Environ. Toxicol. Chem.19(11): 2707-2714|2000|10.1002/etc.5620191114
57252|T||Ho,W., and A. Furst|Nickel Excretion by Rats Following a Single Treatment|Proc. West. Pharmacol. Soc.16:245-248|1973|
57253|T||Schroeder,H.A., and M. Mitchener|Toxic Effects of Trace Elements on the Reproduction of Mice and Rats|Arch. Environ. Health23(2): 102-106|1971|10.1080/00039896.1971.10665963
57254|T||Thunberg,T., U.G. Ahlborg, and H. Johnsson|Vitamin A (Retinol) Status in the Rat After a Single Oral Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Arch. Toxicol.42(4): 265-274|1979|10.1007/BF00334840
57255|T||Thunberg,T., U.G. Ahlborg, and B. Wahlstrom|Comparison Between the Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Six Other Compounds on Vitamin A Storage, the UDP-Glucuronosyltransferase and the Aryl Hydrocarbon Hydroxylase Activity in the Rat Liver|Arch. Toxicol.55(1): 16-19|1984|10.1007/BF00316580
57257|T||Sloop,T.C., and G.W. Lucier|Dose-Dependent Elevation of Ah Receptor Binding by TCDD in Rat Liver|Toxicol. Appl. Pharmacol.88(3): 329-337|1987|10.1016/0041-008X(87)90208-0
57258|T||Romkes,M., and S. Safe|Comparative Activities of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Progesterone as Antiestrogens in the Female Rat Uterus|Toxicol. Appl. Pharmacol.92(3): 368-380|1988|10.1016/0041-008X(88)90177-9
57259|T||Miranda,C.L., M.C. Henderson, and D.R. Buhler|Dietary Copper Enhances the Hepatotoxicity of Senecio jacobaea in Rats|Toxicol. Appl. Pharmacol.60(3): 418-423|1981|10.1016/0041-008X(81)90326-4
57260|T||Puhvel,S.M., D.C. Ertl, and C.A. Lynberg|Increased Epidermal Transglutaminase Activity Following 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  In Vivo and In Vitro Studies with Mouse Skin|Toxicol. Appl. Pharmacol.73(1): 42-47|1984|10.1016/0041-008X(84)90051-6
57261|T||Ryan,R.P., G.I. Sunahara, G.W. Lucier, L.S. Birnbaum, and K.G. Nelson|Decreased Ligand Binding to the Hepatic Glucocorticoid and Epidermal Growth Factor Receptors After 2,3,4,7,8-Pentachlorodibenzofuran and 1,2,3,4,7,8-Hexachlorodibenzofuran Treatment of Pregnant Mice|Toxicol. Appl. Pharmacol.98(3): 454-464|1989|10.1016/0041-008X(89)90174-9
57262|T||Bharathi,C., and B.V.S.S.R. Subba Rao|Toxic Effects of Two Organophosphate Insecticides, Monocrotophos and Dichlorvos to Common Earthworm Lampito mauritii (Kinberg)|Water Air Soil Pollut.28(1-2): 127-130|1986|10.1007/BF00184075
57264|T||DeCaprio,A.P., D.N. McMartin, P.W. O'Keefe, R. Rej, J.B. Silkworth, and L.S. Kaminsky|Subchronic Oral Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Guinea Pig:  Comparisons with PCB-Containing Transformer Fluid Pyrolysate|Fundam. Appl. Toxicol.6(3): 454-463|1986|10.1016/0272-0590(86)90219-8
57265|T||Chapman,D.E., and C.M. Schiller|Dose-Related Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in C57BL/6J and DBA/2J Mice|Toxicol. Appl. Pharmacol.78(1): 147-157|1985|10.1016/0041-008X(85)90314-X
57266|T||Henry,E.C., and T.A. Gasiewicz|Changes in Thyroid Hormones and Thyroxine Glucuronidation in Hamsters Compared with Rats Following Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.89(2): 165-174|1987|10.1016/0041-008X(87)90037-8
57268|T||Nagarkatti,P.S., G.D. Sweeney, J. Gauldie, and D.A. Clark|Sensitivity to Suppression of Cytotoxic T Cell Generation by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) is Dependent on the Ah Genotype of the Murine Host|Toxicol. Appl. Pharmacol.72(1): 169-176|1984|10.1016/0041-008X(84)90261-8
57269|T||Greig,J.B., J.E. Francis, S.J.E. Kay, D.P. Lovell, and A.G. Smith|Incomplete Correlation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Hepatotoxicity with Ah Phenotype in Mice|Toxicol. Appl. Pharmacol.74(1): 17-25|1984|10.1016/0041-008X(84)90265-5
57270|T||Yao,C., and S. Safe|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Porphyria in Genetically Inbred Mice:  Partial Antagonism and Mechanistic Studies|Toxicol. Appl. Pharmacol.100(2): 208-216|1989|10.1016/0041-008X(89)90307-4
57271|T||Birnbaum,L.S., M.W. Harris, D.D. Crawford, and R.E. Morrissey|Teratogenic Effects of Polychlorinated Dibenzofurans in Combination in C57BL/6N Mice|Toxicol. Appl. Pharmacol.91(2): 246-255|1987|10.1016/0041-008X(87)90105-0
57272|T||Romkes,M., J. Piskorska-Pliszczynska, and S. Safe|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Hepatic and Uterine Estrogen Receptor Levels in Rats|Toxicol. Appl. Pharmacol.87(2): 306-314|1987|10.1016/0041-008X(87)90292-4
57273|T||Couture,L.A., M.R. Elwell, and L.S. Birnbaum|Dioxin-Like Effects Observed in Male Rats Following Exposure to Octachlorodibenzo-p-Dioxin (OCDD) During a 13 Week Study|Toxicol. Appl. Pharmacol.93(1): 31-46|1988|10.1016/0041-008X(88)90023-3
57274|T||Csaba,G., C. Karabelyos, and J. Dallo|Fetal and Neonatal Action of a Polycyclic Hydrocarbon (Benzpyrene) or a Synthetic Steroid Hormone (Allylestrenol) as Reflected by the Sexual Behavior of Adult Rats|J. Dev. Physiol.19(2): 67-70|1993|
57275|T||Neubert,D., and I. Dillmann|Embryotoxic Effects in Mice Treated with 2,4,5-Trichlorophenoxyacetic Acid and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Naunyn-Schmiedeberg's Arch. Pharmacol.272:243-264|1972|10.1007/BF00499037
57304|T||Wallace,A., E.M. Romney, J.W. Cha, S.M. Soufi, and F.M. Chaudhry|Nickel Phytotoxicity in Relationship to Soil pH Manipulation and Chelating Agents|Commun. Soil Sci. Plant Anal.8(9): 757-764|1977|10.1080/00103627709366770
57306|T||Karlen,D.L., and P.G. Hunt|Copper, Nitrogen, and Rhizobium japonicum Relationships in Determinate Soybean|J. Plant Nutr.8(5): 395-404|1985|10.1080/01904168509363354
57308|T||Bjerre,G.K., and H.H. Schierup|Uptake of Six Heavy Metals by Oat as Influenced by Soil Type and Additions of Cadmium, Lead, Zinc and Copper|Plant Soil88:57-69|1985|10.1007/BF02140666
57310|T||Gupta,U.C., and W.J. Arsenault|Boron and Zinc Nutrition of Tobacco Grown in Prince Edward Island|Can. J. Soil Sci.66:67-71|1986|10.4141/cjss86-008
57311|T||Kumar,V., V.S. Ahlawat, and R.S. Antil|Interactions of Nitrogen & Zinc in Pearl Millet:  1.  Effect of Nitrogen and Zinc Levels on dry Matter Yield and Concentration and Uptake of Nitrogen and Zinc in Pearl Millet|Soil Sci.139(4): 351-356|1985|10.1097/00010694-198504000-00009
57312|T||Walker,W.M., J.E. Miller, and J.J. Hassett|Effect of Lead and Cadmium upon the Boron, Copper, Manganese, and Zinc Concentration of Young Corn Plants|Commun. Soil Sci. Plant Anal.8(1): 57-66|1977|10.1080/00103627709366699
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57319|T||Donaldson,W.E.|Interaction of Lead Toxicity and Riboflavin Status in Chicks (Gallus domesticus)|Comp. Biochem. Physiol. C Comp. Pharmacol.85(1): 1-3|1986|10.1016/0742-8413(86)90042-3
57320|T||Ogilvie,D.M.|Sublethal Effects of Lead Acetate on the Y-Maze Performance of Albino Mice (Mus musculus L.)|Can. J. Zool.55:771-775|1977|10.1139/z77-100
57321|T||Piasek,M., and K. Kostial|Effect of Exposure to Lead on Reproduction in Male Rats|Bull. Environ. Contam. Toxicol.39(3): 448-452|1987|10.1007/BF01688309
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57370|T||Delhaize,E., S. Craig, C.D. Beaton, R.J. Bennet, V.C. Jagadish, and P.J. Randall|Aluminum Tolerance in Wheat (Triticum aestivum L.).  I.  Uptake and Distribution of Aluminum in Root Apices|Plant Physiol.103:685-693|1993|10.1104/pp.103.3.685
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57376|T||Humphreys,T.E., and L.A. Garrard|The Effect of Uranyl Nitrate on Sucrose Production and Storage in Corn Scutellum Slices|Phytochemistry9:1715-1723|1970|10.1016/S0031-9422(00)85583-1
57377|T||Martini,J.A., R.A. Kochhann, O.J. Siqueira, and C.M. Borkert|Response of Soybeans to Liming as Related to Soil Acidity, Al and Mn Toxicities, and P in Some Oxisols of Brazil|Proc. Soil Sci. Soc. Am.38(4): 616-620|1974|10.2136/sssaj1974.03615995003800040027x
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57379|T||Johnsen,R.E., P.A. Dahm, H.W. Rusk, M.L. Fairchild, and A.E. Freeman|Heptachlor Residues on Corn Stover in Relation to Dairy Cattle Feeding|J. Econ. Entomol.53:19-22|1960|10.1093/jee/53.1.19
57380|T||Allen,W.R., W.L. Askew, and K. Schreiber|Insecticidal Control of the Sugar-Beet Root Maggot and Yield of Sugar Beets|J. Econ. Entomol.54(1): 178-181|1961|10.1093/jee/54.1.178
57381|T||Treece,R.E., and G.W. Ware|Lindane Residues on Alfalfa and in Milk|J. Econ. Entomol.58(2): 218-219|1965|10.1093/jee/58.2.218
57383|T||Eshel,Y.|Effect of Pyrazon on Photosynthesis of Various Plant Species|Weed Res. (Multiple Languages)9:167-172|1969|10.1111/j.1365-3180.1969.tb01470.x
57386|T||O'Sullivan,J., R.A. Brammall, and W.J. Bouw|Response of Sweet Corn (Zea mays) Cultivars to Nicosulfuron plus Rimsulfuron|Weed Technol.9:58-62|1995|10.1017/S0890037X00022958
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57388|T||Douthwaite,R.J., and C.C.D. Tingle|Effects of DDT Treatments Applied for Tsetse Fly Control on White-Headed Black Chat (Thamnolaea arnoti) Populations in Zimbabwe. Part II. Cause of Decline|Ecotoxicology1:101-115|1992|10.1007/BF00831891
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57393|T||Rehab,F.I., and A. Wallace|Excess Trace Metal Effects on Cotton.  1.  Copper, Zinc, Cobalt and Manganese in Solution Culture|Commun. Soil Sci. Plant Anal.9(6): 507-518|1978|10.1080/00103627809366826
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57399|T||Bishnoi,N.R., A. Dua, V.K. Gupta, and S.K. Sawhney|Effect of Chromium on Seed Germination, Seedling Growth and Yield of Peas|Agric. Ecosyst. Environ.47(1): 47-57|1993|10.1016/0167-8809(93)90135-C
57400|T||Fontes,P.C.R., M.A. Moreira, R.L.F. Fontes, and A.A. Cardoso|Effects of Zinc Fungicides and Different Zinc Fertilizer Application Methods on Soluble and Total Zinc in Potato Plant Shoots|Commun. Soil Sci. Plant Anal.30(13/14): 1847-1859|1999|10.1080/00103629909370336
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57402|T||Salim,R., M.M. Al-Subu, and Y.S.S. Ismail|Effects of Several Factors on the Growth and on the Metal Uptake Distribution of Pepper Plants Treated with Cadmium|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control30(8): 1659-1684|1995|
57403|T||Colombo,R., A. Bonetti, R. Cerana, and P. Lado|Effect of Plasmalemma ATPase Inhibitors, Diethylstilbestrol and Orthovanadate, on Fusicoccin-Induced H+ Extrusion in Maize Roots|Plant Sci. Lett.21(4): 305-315|1981|10.1016/0304-4211(81)90103-6
57404|T||Lux,A., M. Mikus, and S. Koval|Effect of Vanadium on Root Growth and Regeneration of the Root Cap in Maize (Zea mays L.)|Physiol. Plant. (Multiple Languages)22:29-34|1986|
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57410|T||Hill,J., A.D. Robson, and J.F. Loneragan|The Effect of Copper Supply on the Senescence and the Retranslocation of Nutrients of the Oldest Leaf of Wheat|Ann. Bot.44:279-287|1979|10.1093/oxfordjournals.aob.a085731
57411|T||Wood,J.G., and P.M. Sibly|The Distribution of Zinc in Oat Plants|Aust. J. Sci. Res.3B:14-27|1950|
57413|T||Singh,R.P., N. Bharti, and G. Kumar|Differential Toxicity of Heavy Metals to Growth and Nitrate Reductase Activity of Sesamum indicum Seedlings|Phytochemistry35(5): 1153-1156|1994|10.1016/S0031-9422(00)94812-X
57414|T||Prasad,D.D.K., and A.R.K. Prasad|Effect of Lead and Mercury on Chlorophyll Synthesis in Mung Bean Seedlings|Phytochemistry26(4): 881-883|1987|10.1016/S0031-9422(00)82310-9
57415|T||Bharti,N., and R.P. Singh|Growth and Nitrate Reduction by Sesamum indicum cv PB-I Respond Differentially to Lead|Phytochemistry33(3): 531-534|1993|10.1016/0031-9422(93)85443-U
57416|T||Marten,G.C., and P.B. Hammond|Lead Uptake by Bromegrass from Contaminated Soils|Agron. J.58:553-554|1966|10.2134/agronj1966.00021962005800050030x
57417|T||Lagerwerff,J.V., W.H. Armiger, and A.W. Specht|Uptake of Lead by Alfalfa and Corn from Soil and Air|Soil Sci.115(6): 455-460|1973|10.1097/00010694-197306000-00009
57419|T||Peaslee,D.E., and C.R. Frink|Influence of Silicic Acid on Uptake of Mn, Al, Zn, and Cu by Tomatoes (Lycopersicum esculentum) Grown on an Acid Soil|Proc. Soil Sci. Soc. Am.33:569-571|1969|10.2136/sssaj1969.03615995003300040025x
57420|T||Lazof,D.B., J.G. Goldsmith, T.W. Rufty, and R.W. Linton|Rapid Uptake of Aluminum into Cells of Intact Soybean Root Tips.  A Microanalytical Study Using Secondary Ion Mass Spectrometry|Plant Physiol.106:1107-1114|1994|10.1104/pp.106.3.1107
57421|T||Huang,J.W., D.L. Grunes, and L.V. Kochian|Aluminum Effects on Calcium (45Ca2+) Translocation in Aluminum-Tolerant and Aluminum-Sensitive Wheat (Triticum aestivum L.) Cultivars|Plant Physiol.102:85-93|1993|10.1104/pp.102.1.85
57422|T||Buckhout,T.J., P.F. Bell, D.G. Luster, and R.L. Chaney|Iron-Stress Induced Redox Activity in Tomato (Lycopersicum esculentum Mill.) is Localized on the Plasma Membrane|Plant Physiol.90:151-156|1989|10.1104/pp.90.1.151
57424|T||Rengel,Z.|Competitive Al3+ Inhibition of Net Mg2+ Uptake by Intact Lolium multiflorum Roots.  II.  Plant Age Effects|Plant Physiol.93:1261-1267|1990|10.1104/pp.93.3.1261
57425|T||Hodson,M.J., and A.G. Sangster|The Interaction Between Silicon and Aluminium in Sorghum bicolor (L.) Moench:  Growth Analysis and X-Ray Microanalysis|Ann. Bot.72:389-400|1993|10.1006/anbo.1993.1124
57426|T||MacLean,D.C., K.S. Hansen, and R.E. Schneider|Amelioration of Aluminium Toxicity in Wheat by Fluoride|New Phytol.121:81-88|1992|10.1111/j.1469-8137.1992.tb01095.x
57427|T||Schmidt,W., and C. Fuhner|Sensitivity to and Requirement for Iron in Plantago Species|New Phytol.138(4): 639-651|1998|10.1046/j.1469-8137.1998.00156.x
57428|T||Jones,M.D., and T.C. Hutchinson|Nickel Toxicity in Mycorrhizal Birch Seedlings Infected with Lactarius rufus or Scleroderma flavidum.  II.  Uptake of Nickel, Calcium, Magnesium, Phosphorus and Iron|New Phytol.108(4): 461-470|1988|10.1111/j.1469-8137.1988.tb04187.x
57429|T||Scholz,G., G. Schlesier, and K. Seifert|Effects of Nicotianamine on Iron Uptake by the Tomato Mutant 'Chloronerva'|Physiol. Plant. (Multiple Languages)63:99-104|1985|10.1111/j.1399-3054.1985.tb02825.x
57430|T||Lindberg,S.|Aluminium Interactions with K+(86Rb+) and 45Ca2+ Fluxes in Three Cultivars of Sugar Beet (Beta vulgaris)|Physiol. Plant. (Multiple Languages)79:275-282|1990|10.1111/j.1399-3054.1990.tb06742.x
57431|T||Stroinski,A., and Z. Szczotka|Effect of Cadmium and Phytophthora infestans on Polyamine Levels in Potato Leaves|Physiol. Plant. (Multiple Languages)77:244-246|1989|10.1111/j.1399-3054.1989.tb04976.x
57432|T||Kinraide,T.B., and D.R. Parker|Apparent Phytotoxicity of Mononuclear Hydroxy-Aluminum to Four Dicotyledonous Species|Physiol. Plant. (Multiple Languages)79:283-288|1990|10.1111/j.1399-3054.1990.tb06743.x
57433|T||Romheld,V., and H. Marschner|Mechanism of Iron Uptake by Peanut Plants.  I.  Fe(III) Reduction, Chelate Splitting, and Release of Phenolics|Plant Physiol.71:949-954|1983|10.1104/pp.71.4.949
57434|T||Sijmons,P.C., W. Van den Briel, and H.F. Bienfait|Cytosolic NADPH in the Electron Donor for Extracellular Fe(III) Reduction in Iron-Deficient Bean Roots|Plant Physiol.75:219-221|1984|10.1104/pp.75.1.219
57435|T||Romheld,V., and H. Marschner|Evidence for a Specific Uptake System for Iron Phytosiderophores in Roots of Grasses|Plant Physiol.80:175-180|1986|10.1104/pp.80.1.175
57436|T||Rengel,Z., and D.L. Robinson|Competitive Al3+ Inhibition of Net Mg2+ Uptake by Intact Lolium multiflorum Roots.  I.  Kinetics|Plant Physiol.91:1407-1413|1989|10.1104/pp.91.4.1407
57437|T||Lane,I., and K.J. Puckett|Responses of the Phosphatase Activity of the Lichen Cladina rangiferina to Various Environmental Factors Including Metals|Can. J. Bot.57:1534-1540|1979|10.1139/b79-191
57438|T||Cumming,J.R., R.T. Eckert, and L.S. Evans|Effect of Aluminum on Potassium Uptake by Red Spruce Seedlings|Can. J. Bot.63:1099-1103|1985|10.1139/b85-151
57439|T||Taylor,G.J., and C.D. Foy|Mechanisms of Aluminum Tolerance in Triticum aestivum (Wheat).  IV.  The Role of Ammonium and Nitrate Nutrition|Can. J. Bot.63:2181-2186|1985|10.1139/b85-309
57440|T||Nosko,P., P. Brassard, J.R. Kramer, and K.A. Kershaw|The Effect of Aluminum on Seed Germination and Early Seedling Establishment, Growth, and Respiration of White Spruce (Picea glauca)|Can. J. Bot.66:2305-2310|1988|10.1139/b88-313
57441|T||Bennet,R.J., C.M. Breen, and M.V. Fey|The Effect of Aluminium on Root Cap Function and Root Development in Zea mays L.|Environ. Exp. Bot.27(1): 91-104|1987|10.1016/0098-8472(87)90059-1
57442|T||McCormick,L.H., and K.C. Steiner|Variation in Aluminum Tolerance Among Six Genera of Trees|For. Sci.24(4): 565-568|1978|
57443|T||Smith,W.H., and A.S. Pooley|Red Spruce Rhizosphere Dynamics:  Spatial Distribution of Aluminum and Zinc in the Near-Root Soil Zone|For. Sci.35(4): 1114-1124|1989|
57444|T||Failla,M.L., C.D. Benedict, and E.D. Weinberg|Accumulation and Storage of Zn2+ by Candida utilis|J. Gen. Microbiol.94:23-36|1976|10.1099/00221287-94-1-23
57446|T||Wallihan,E.F.|The Influence of Aluminum on the Phosphorus Nutrition of Plants|Am. J. Bot.35:106-112|1948|10.1002/j.1537-2197.1948.tb05193.x
57447|T||Taylor,G.J., and C.D. Foy|Mechanisms of Aluminum Tolerance in Triticum aestivum L. (Wheat).  I.  Differential pH Induced by Wheat Cultivars in Nutrient Solutions|Am. J. Bot.72(5): 695-701|1985|10.1002/j.1537-2197.1985.tb08327.x
57448|T||Powell,M.J., M.S. Davies, and D. Francis|Effects of Zinc on Meristem Size and Proximity of Root Hairs and Xylem Elements to Root Tip in a Zinc-Tolerant and a Non-Tolerant Cultivar of Festuca rubra L.|Ann. Bot.61:723-726|1988|10.1093/oxfordjournals.aob.a087610
57449|T||De Herralde,F., C. Biel, R. Save, M.A. Morales, A. Torrecillas, J.J. Alarcon, and M.J. Sanchez-Blanco|Effect of Water and Salt Stresses on the Growth, Gas Exchange and Water Relations in Argyranthemum coronopifolium Plants|Plant Sci.139(1): 9-17|1998|10.1016/S0168-9452(98)00174-5
57450|T||App,B.A., R.H. Carter, and R.E. Ely|Residues on Forage, in the Soil, and in Milk Following Pasture Treatment with Granulated Dieldrin|J. Econ. Entomol.49(1): 136-137|1956|10.1093/jee/49.1.136
57451|T||Wallace,A., R.T. Mueller, and G.V. Alexander|High Levels of Four Heavy Metals on the Iron Status of Plants|Commun. Soil Sci. Plant Anal.7(1): 43-46|1976|10.1080/00103627609366610
57452|T||Kenten,R.H., and P.J.G. Mann|Manganese Oxidation in the Pea Plant (Pisum sativum L.) Grown Under Conditions of Manganese Toxicity|Biochem. J. (Lond.)65:179-185|1956|10.1042/bj0650179
57453|T||Struckmeyer,B.E., and K.C. Berger|Histological Structure of Potato Stems and Leaves as Influenced by Manganese Toxicity|Plant Physiol.25:114-119|1950|10.1104/pp.25.1.114
57455|T||McCreight,J.D., and D.B. Schroeder|Inhibition of Growth of Nine Ectomycorrhizal Fungi by Cadmium, Lead, and Nickel In Vitro|Environ. Exp. Bot.22(1): 1-7|1982|10.1016/0098-8472(82)90002-8
57456|T||Hevesy,G.|The Absorption and Translocation of Lead by Plants.  A Contribution to the Application of the Method of Radioactive Indicators in the Investigation of the Change of Substance in Plants|Biochem. J. (Lond.)17:439-445|1923|10.1042/bj0170439
57457|T||Berggren,P.O., and P.R. Flatt|Effects of Trivalent Chromium Administration on Endogenous Chromium Stores in Lean and Obese Hyperglycaemic (ob/ob) Mice|Nutr. Rep. Int.31:213-218|1985|
57458|T||Krupa,Z., M. Ruszkowski, and E. Gilowska-Jung|The Effect of Chromate on the Synthesis of Plastid Pigments and Lipoquinones in Zea mays L. Seedlings|Acta Soc. Bot. Pol.51(2): 275-281|1982|10.5586/asbp.1982.024
57459|T||Radotic,K., T. Ducic, and D. Mutavdzic|Changes in Peroxidase Activity and Isoenzymes in Spruce Needles After Exposure to Different Concentrations of Cadmium|Environ. Exp. Bot.44(2): 105-113|2000|10.1016/S0098-8472(00)00059-9
57460|T||Burzynski,M., and A. Grabowski|Influence of Lead on Nitrate Uptake and Reduction in Cucumber Seedlings|Acta Soc. Bot. Pol.53(1): 77-86|1984|10.5586/asbp.1984.009
57461|T||Mukherji,S., and P. Maitra|Toxic Effects of Lead on Growth & Metabolism of Germinating Rice (Oryza sativa L.) Seeds & on Mitosis of Onion (Allium cepa L.) Root Tip Cells|Indian J. Exp. Biol.14:519-521|1976|
57462|T||Koehler,C.S., A.A. Muka, G.G. Gyrisco, and C.M. Edmonds|Studies on the Control of Alfalfa Snout Beetle Larva|J. Econ. Entomol.51(5): 682-685|1958|10.1093/jee/51.5.682
57463|T||Singh,R.P., R. Maheshwari, and S.K. Sinha|Recovery of Lead Caused Decrease in Biomass Accumulation of Mungbean (Vigna radiata L.) Seedlings of K2HPO4 and CaCl2|Indian J. Exp. Biol.32:507-510|1994|
57464|T||Burzynski,M.|Influence of Lead on the Chlorophyll Content and on Initial Steps of Its Synthesis in Greening Cucumber Seedlings|Acta Soc. Bot. Pol.54(1): 95-105|1985|10.5586/asbp.1985.009
57465|T||Sinha,S.K., H.S. Srivastava, and S.N. Mishra|Effect of Lead on Nitrate Reductase Activity and Nitrate Assimilation in Pea Leaves|Acta Soc. Bot. Pol.57(4): 457-463|1988|10.5586/asbp.1988.043
57466|T||Janda,J.M., and R.W. Fleming|Effects of Selenate Toxicity on Soil Mycoflora|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control13(9): 697-706|1978|
57467|T||Kinraide,T.B., and D.R. Parker|Cation Amelioration of Aluminum Toxicity in Wheat|Plant Physiol.83:546-551|1987|10.1104/pp.83.3.546
57468|T||Bobak,M.|Influence of Exogenous Added Cobalt upon the Submicroscopic Structure and the Chromosomes of Meristematic Cells of the Horse Bean (Vicia faba L.,C.V. Zborovicky)|Physiol. Plant. (Multiple Languages)8:17-24|1974|
57469|T||Huang,J.W., J.E. Shaff, D.L. Grunes, and L.V. Kochian|Aluminum Effects on Calcium Fluxes at the Root Apex of Aluminum-Tolerant and Aluminum-Sensitive Wheat Cultivars|Plant Physiol.98:230-237|1992|10.1104/pp.98.1.230
57470|T||Tice,K.R., D.R. Parker, and D.A. DeMason|Operationally Defined Apoplastic and Symplastic Aluminum Fractions in Root Tips of Aluminum-intoxicated Wheat|Plant Physiol.100:309-318|1992|10.1104/pp.100.1.309
57471|T||Norvell,W.A., and R.M. Welch|Growth and Nutrient Uptake by Barley (Hordeum vulgare L. cv Herta):  Studies Using an N-(2-Hydroxyethyl)Ethylenedinitrilotriacetic Acid-Buffered Nutrient Solution Technique.  I.  Zinc Ion Requirements|Plant Physiol.101:619-625|1993|10.1104/pp.101.2.619
57479|T||Martin,N.A.|Effect of Four Insecticides on the Pasture Ecosystem.  IV.  Enchytraeidae and Diptera Larvae Heat-Extracted in Water-Filled Funnels|N. Z. J. Agric. Res.18:313-315|1975|10.1080/00288233.1975.10423650
57481|T||Smeulders,F., J. Sinnaeve, and A. Cremers|In Situ Immobilization of Heavy Metals with Tetraethylenepentamine (Tetren) in Natural Soils & Its Effect on Toxicity & Plant Growth:  II.  Effect of Complex Formation with Tetren on Copper & Zinc Uptake in Corn from Nu|Plant Soil70:49-57|1983|10.1007/BF02374749
57482|T||O'Connor,G.A., D. Kiehl, G.A. Eiceman, and J.A. Ryan|Plant Uptake of Sludge-Borne PCBs|J. Environ. Qual.19:113-118|1990|10.2134/jeq1990.00472425001900010016x
57483|T||Fiskell,J.G.A., and C.D. Leonard|Soil and Root Copper.  Evaluation of Copper Fertilization by Analysis of Soil and Citrus Roots|J. Agric. Food Chem.15:350-353|1967|10.1021/jf60150a023
57484|T||Dogger,J.R., and T.G. Bowery|A Study of Residues of Some Commonly Used Insecticides on Alfalfa|J. Econ. Entomol.51:392-394|1958|10.1093/jee/51.3.392
57485|T||Singh,J.P., B. Singh, and S.P.S. Karwasra|Yield and Uptake Response of Lettuce to Cadmium as Influenced by Nitrogen Application|Fert. Res.18:49-56|1988|10.1007/BF01064177
57486|T||Pavel,J., and J. Zakova|The Effect of Various Microelements on Changes in the Activity of Certain Enzymes in Hydroponically Cultivated Barley During the First Period of Growth|Biol. Plant. (Praha)9(5): 383-391|1967|10.1007/BF02929782
57487|T||Vinson,E.B., and F.S. Arant|Parathion, Toxaphene and DDT Residues on Peanut Hay|J. Econ. Entomol.43(6): 942-943|1950|10.1093/jee/43.6.942
57488|T||Karamanos,R.E., J.G. Fradette, and P.D. Gerwing|Evaluation of Copper and Manganese Nutrition of Spring Wheat Grown on Organic Soils|Can. J. Soil Sci.65:133-148|1985|10.4141/cjss85-014
57489|T||Keltjens,W.G., and P.S.R. Van Ulden|Effects of Al on Nitrogen (NH4+ and NO3-) Uptake, Nitrate Reductase Activity and Proton Release in Two Sorghum Cultivars Differing in Al Tolerance|Plant Soil104:227-234|1987|10.1007/BF02372536
57490|T||Jackson,A.P., and B.J. Alloway|The Bioavailability of Cadmium to Lettuce and Cabbage in Soils Previously Treated with Sewage Sludges|Plant Soil132:179-186|1991|10.1007/BF00010398
57491|T||Lindberg,S., K. Szynkier, and M. Greger|Aluminium Effects on Transmembrane Potential in Cells of Fibrous Roots of Sugar Beet|Physiol. Plant. (Multiple Languages)83:54-62|1991|10.1111/j.1399-3054.1991.tb01281.x
57492|T||Ownby,J.D., and W.R. Hruschka|Quantitative Changes in Cytoplasmic and Microsomal Proteins Associated with Aluminium Toxicity in Two Cultivars of Winter Wheat|Plant Cell Environ.14:303-309|1991|10.1111/j.1365-3040.1991.tb01505.x
57497|T||Kang,B.T., and R.L. Fox|A Methodology for Evaluating the Manganese Tolerance of Cowpea (Vigna unguiculata) and Some Preliminary Results of Field Trials|Field Crops Res.3(3): 199-210|1980|10.1016/0378-4290(80)90028-3
57498|T||Ramachandran,V., T.J. D'souza, and K.B. Mistry|Uptake and Transport of Chromium in Plants|J. Nucl. Agric. Biol.9(4): 126-128|1980|
57499|T||Vlamis,J., and D.E. Williams|Comparative Accumulation of Manganese and Boron in Barley Tissues|Plant Soil33:623-628|1970|10.1007/BF01378251
57500|T||Horst,W.J., and H. Marschner|Effect of Silicon on Manganese Tolerance of Bean Plants (Phaseolus vulgaris L.)|Plant Soil50:287-303|1978|10.1007/BF02107179
57501|T||De Knecht,J.A., P.L.M. Koevoets, J.A.C. Verkleij, and W.H.O. Ernst|Evidence Against a Role for Phytochelatins in Naturally Selected Increased Cadmium Tolerance in Silene vulgaris (Moench)|New Phytol.122:681-688|1992|10.1111/j.1469-8137.1992.tb00097.x
57502|T||Bishnoi,N.R., L.K. Chugh, and S.K. Sawhney|Effect of Chromium on Photosynthesis, Respiration and Nitrogen Fixation in Pea (Pisum sativum L.) Seedlings|J. Plant Physiol.142:25-30|1993|10.1016/S0176-1617(11)80102-1
57503|T||Ohki,K.|Critical Zinc Levels Related to Early Growth and Development of Determinate Soybeans|Agron. J.69:969-974|1977|10.2134/agronj1977.00021962006900060017x
57504|T||Taylor,G.J., and C.D. Foy|Effects of Aluminum on the Growth and Element Composition of 20 Winter Cultivars of Triticum aestivum L. (Wheat) Grown in Solution Culture|J. Plant Nutr.8(9): 811-824|1985|10.1080/01904168509363386
57505|T||Davis,A.M.|Selenium Accumulation in Astragalus Species|Agron. J.64:751-754|1972|10.2134/agronj1972.00021962006400060013x
57506|T||Torres-Martin,M., and F. Gallardo-Lara|Chemical and Physical Fractions of Manganese in Soil During Intensive Ryegrass Cropping|Commun. Soil Sci. Plant Anal.29(1-2): 97-105|1998|10.1080/00103629809369931
57508|T||Barrows,H.L., M.S. Neff, and N.,Jr. Gammon|Effect of Soil Type on Mobility of Zinc in the Soil and on Its Availability from Zinc Sulfate to Tung|Proc. Soil Sci. Soc. Am.24:367-372|1960|10.2136/sssaj1960.03615995002400050019x
57509|T||Goransson,A.|Growth and Nutrition of Small Betula pendula Plants at Different Relative Addition Rates of Manganese|Tree Physiol.14:375-388|1994|10.1093/treephys/14.4.375
57510|T||Parker,M.B., H.B. Harris, H.D. Morris, and H.F. Perkins|Manganese Toxicity of Soybeans as Related to Soil and Fertility Treatments|Agron. J.61:515-518|1969|10.2134/agronj1969.00021962006100040009x
57511|T||Sparrow,L.A., A.A. Salardini, and A.C. Bishop|Field Studies of Cadmium in Potatoes (Solanum tuberosum L.).  I.  Effects of Lime and Phosphorus on cv. Russet Burbank|Aust. J. Agric. Res.44:845-853|1993|10.1071/AR9930845
57512|T||Ryan,P.R., J.M. Di Tomaso, and L.V. Kochian|Aluminium Toxicity in Roots:  An Investigation of Spatial Sensitivity and the Role of the Root Cap|J. Exp. Bot.44(259): 437-446|1993|10.1093/jxb/44.2.437
57513|T||MacFarlane,G.R., and M.D. Burchett|Zinc Distribution and Excretion in the Leaves of the Grey Mangrove, Avicennia marina (Forsk.) Vierh|Environ. Exp. Bot.41(2): 167-175|1999|10.1016/S0098-8472(99)00002-7
57514|T||Brewer,R.F., R.K. Creveling, F.B. Guillemet, and F.H. Sutherland|The Effects of Hydrogen Fluoride Gas on Seven Citrus Varieties|Proc. Am. Soc. Hortic. Sci.75:236-243|1960|
57515|T||Brewer,R.F., F.H. Sutherland, and F.B. Guillemet|The Relative Susceptibility of Some Popular Varieties of Roses to Fluoride Air Pollution|Proc. Am. Soc. Hortic. Sci.91:771-776|1967|
57517|T||Lamoureux,G.L., and D.G. Rusness|Quinclorac Absorption, Translocation, Metabolism, and Toxicity in Leafy Spurge (Euphorbia esula)|Pestic. Biochem. Physiol.53:210-226|1995|10.1006/pest.1995.1069
57519|T||Altman,D.W., W.L. McCuistion, and W.E. Kronstad|Grain Protein Percentage, Kernel Hardness, and Grain Yield of Winter Wheat with Foliar Applied Urea|Agron. J.75:87-91|1983|10.2134/agronj1983.00021962007500010022x
57521|T||Clark,R.B., and J.C. Brown|Differential Phosphorus Uptake by Phosphorus-Stressed Corn Inbreds|Crop Sci.14:505-508|1974|10.2135/cropsci1974.0011183X001400040004x
57522|T||Dubey,H.D., and J.F. Freeman|Bioassay of Diphenamid and Linuron in Soil|Bot. Gaz.124:388-392|1963|10.1086/336224
57523|T||McClenahen,J.R.|Effects of Ethylene Diurea and Ozone on the Growth of Tree Seedlings|Plant Dis. Rep.63(4): 320-323|1979|
57524|T||Wood,B., T. Gottwald, and J. Payne|Influence of Single Applications of Fungicides on Net Photosynthesis of Pecan|Plant Dis.68(5): 427-428|1984|10.1094/PD-69-427
57525|T||Wallis,R.L., and R.H. Carter|Methoxychlor Residues on Vegetable Crops|J. Econ. Entomol.52(2): 232-233|1959|10.1093/jee/52.2.232
57527|T||Nable,R.O., and J.F. Loneragan|Translocation of Manganese in Subterranean Clover (Trifolium subterraneum L. cv. Seaton Park).  I.  Redistribution During Vegetative Growth|Aust. J. Plant Physiol.11:101-111|1984|
57528|T||McGrath,J.F., and A.D. Robson|The Influence of Zinc Supply to Seedlings of Pinus radiata D. Don on the Internal Transport of Recently Absorbed Zinc|Aust. J. Plant Physiol.11:165-178|1984|
57529|T||Ulmer,S.E.|Aluminum Toxicity and Root DNA Synthesis in Wheat|Ph.D.Thesis, Iowa State University, Ames, IA:128 p.|1979|
57530|T||Gorge,E., S. Brandt, and D. Werner|Uptake and Metabolism of 2,4,6-Trinitrotoluene in Higher Plants|Environ. Sci. Pollut. Res.1(4): 229-233|1994|10.1007/BF02986535
57531|T||Horiguchi,T., and S. Morita|Mechanism of Manganese Toxicity and Tolerance of Plants:  VI.  Effect of Silicon on Alleviation of Manganese Toxicity of Barley|J. Plant Nutr.10(17): 2299-2310|1987|10.1080/01904168709363778
57532|A||Russom,C.L.|Acute and Early Life Stage Toxicity Data|June 21 Memo from U.S.EPA, Duluth, MN.to R.Spehar U.S.EPA, Duluth, MN:41 p.|1993|
57533|T||Takkar,P.N., and M.S. Mann|Toxic Levels of Soil and Plant Zinc for Maize and Wheat|Plant Soil49:667-669|1978|10.1007/BF02183293
57534|T||Zhang,G., and G.J. Taylor|Effects of Biological Inhibitors on Kinetics of Aluminium Uptake by Excised Roots and Purified Cell Wall Material of Aluminium-Tolerant and Aluminium-Sensitive Cultivars of Triticum aestivum L.|J. Plant Physiol.138:533-539|1991|10.1016/S0176-1617(11)80236-1
57535|T||Slaski,J.J.|Effect of Aluminium on Calmodulin-Dependent and Calmodulin-Independent NAD Kinase Activity in Wheat (Triticum aestivum L.) Root Tips|J. Plant Physiol.133:696-701|1989|10.1016/S0176-1617(89)80075-6
57536|T||Slaski,J.J.|NAD+ Kinase Activity in Root Tips of Nearly Isogenic Lines of Wheat (Triticum aestivum L.) that Differ in Their Tolerance to Aluminium|J. Plant Physiol.145:143-147|1995|10.1016/S0176-1617(11)81861-4
57537|T||Ruano,A., C. Poschenrieder, and J. Barcelo|Growth and Biomass Partitioning in Zinc-Toxic Bush Bean|J. Plant Nutr.11(5): 577-588|1988|10.1080/01904168809363824
57538|T||Mathur,S.P., and A. Belanger|The Influence of Variation in Soil Copper on the Yield and Nutrition of Carrots Grown in Microplots on Two Organic Soils|Commun. Soil Sci. Plant Anal.18(6): 615-624|1987|10.1080/00103628709367846
57539|T||Wallace,A., and W.L. Berry|Dose-Response Curves for Zinc, Cadmium, and Nickel in Combinations of One, Two, or Three|Soil Sci.147(6): 401-410|1989|10.1097/00010694-198906000-00004
57540|T||Loneragan,J.F., G.J. Kirk, and M.J. Webb|Translocation and Function of Zinc in Roots|J. Plant Nutr.10(9-16): 1247-1254|1987|10.1080/01904168709363653
57541|T||Brown,P.H., R.M. Welch, E.E. Cary, and R.T. Checkai|Beneficial Effects of Nickel on Plant Growth|J. Plant Nutr.10(9-16): 2125-2135|1987|10.1080/01904168709363763
57542|T||Paulino,V.T., J. Olivares, and E.J. Bedmar|Nodulation and Nitrogenase Activity of Pea Nodules as Affected by Low pH and Aluminium|Plant Soil101:299-302|1987|10.1007/BF02370660
57543|T||Salam,M.A., and S. Subramanian|Differential Effects of Plant Characters on Grain Yield Under Two Levels of Zinc Fertilization in Rice (Oryza sativa)|Indian J. Agric. Sci.59(4): 265-266|1989|
57544|T||Hoxha,Y., M. Jablanavic, K. Abdullai, and R. Filipovic|Catalase Activity in Plant Exposed to Contamination with Heavy Metals|Acta Biol. Med. Exp.10:23-26|1985|
57545|T||Horst,W.J., C.J. Asher, I. Cakmak, P. Szulkiewicz, and A.H. Wissemeier|Short-Term Responses of Soybean Roots to Aluminium|J. Plant Physiol.140(2): 174-178|1992|10.1016/S0176-1617(11)80930-2
57546|T||Qureshi,J.A., K. Hardwick, and H.A. Collin|Intracellular Localization of Lead in a Lead Tolerant and Sensitive Clone of Anthoxanthum odoratum|J. Plant Physiol.122:357-364|1986|10.1016/S0176-1617(86)80168-7
57547|T||Anderson,A.J., D.R. Meyer, and F.K. Mayer|Effects of the Environment on the Symptom Pattern of Nickel Toxicity in the Oat Plant|Ann. Bot.43:271-283|1979|10.1093/oxfordjournals.aob.a085636
57548|T||Voelcker,J.A.|Pot-Culture Experiments, 1921|J. R. Agric. Soc. Engl.82:286-297|1921|
57549|T||McKenzie,R.M.|The Effect of Two Manganese Dioxides on the Uptake of Lead, Cobalt, Nickel, Copper and Zinc by Subterranean Clover|Aust. J. Soil Res.16(2): 209-214|1978|10.1071/SR9780209
57550|T||Cumming,J.R., R.T. Eckert, and L.S. Evans|Effect of Aluminum on 32P Uptake and Translocation by Red Spruce Seedlings|Can. J. For. Res.16:864-867|1986|10.1139/x86-152
57551|T||Nash,R.G., M.L.,Jr. Beall, and E.A. Woolson|Plant Uptake of Chlorinated Insecticides from Soils|Agron. J.62(3): 369-372|1970|10.2134/agronj1970.00021962006200030018x
57552|T||Dell,B., and S.A. Wilson|Effect of Zinc Supply on Growth of Three Species of Eucalyptus Seedlings and Wheat|Plant Soil88:377-384|1985|10.1007/BF02197494
57553|T||Reuter,D.J., J.F. Loneragan, A.D. Robson, and D. Plaskett|Zinc in Subterranean Clover (Trifolium subterraneum L. cv. Seaton Park).  I.  Effects of Zinc Supply on Distribution of Zinc and dry Weight Among Plant Parts|J. Agric. Res.33:989-999|1982|
57554|T||Belanger,A., M. Levesque, and S.P. Mathur|The Effect of Residual Copper Levels on the Nutrition and Yield of Oats Grown in Microplots on Three Organic Soils|Commun. Soil Sci. Plant Anal.17(1): 85-96|1986|10.1080/00103628609367698
57555|T||Small,H.G.,Jr., and C.B. McCants|Influence of Arsenic Applied to the Growth Media on the Arsenic Content of Flue-Cured Tobacco|Agron. J.54:129-133|1962|10.2134/agronj1962.00021962005400020011x
57557|T||Gawaad,A.A.A., F.H. El Gayar, A.S. Soliman, F.I. Rehab, and N.M. Ali|Effect of Some Soil Insecticides on Plants Part 1.  On Cotton, Clover, Bean and Corn|Phytopathol. Z. (Multiple Languages)73(3): 189-200|1972|10.1111/j.1439-0434.1972.tb02541.x
57558|T||Nelson,L.G., K.C. Berger, and H.J. Andries|Copper Requirements and Deficiency Symptoms of a Number of Field and Vegetable Crops|Proc. Soil Sci. Soc. Am.20:69-72|1956|10.2136/sssaj1956.03615995002000010017x
57559|T||Brown,A.L., B.A. Krantz, and P.E. Martin|Plant Uptake and Fate of Soil-Applied Zinc|Proc. Soil Sci. Soc. Am.26(2): 167-170|1962|10.2136/sssaj1962.03615995002600020021x
57560|T||Hue,N.V., G.R. Craddock, and F. Adams|Effect of Organic Acids on Aluminum Toxicity in Subsoils|Soil Sci. Soc. Am. J.50:28-34|1986|10.2136/sssaj1986.03615995005000010006x
57561|T||Otte,M.L., J. Rozema, M.A. Beek, W.H.O. Ernst, and R.A. Broekman|Uptake of Arsenic by Vegetation of the Former Rhine Estuary|Proc.Third Int.Conf.Environ.Contam., Sept.1988, Venice, Italy:529-531|1988|
57562|T||McFarland,M.J., X.J. Qiu, W.A. Aprill, and R.C. Sims|Biological Composting of Petroleum Waste Organics Using the White Rot Fungus Phanerochaete chrysosporium|In: C.Akin and J.Smith (Eds.), Gas, Oil, Coal, and Environmental Biotechnology II, 2nd International Symp., Inst.of Gas Technol., Chicago, IL:37-57|1989|
57563|T||Don-Pedro,K.N.|A Survey of Non-target Arthropods Associated with Sprayed and Unsprayed Cowpea (Vigna unguiculata) in Nigeria|Rev. Zool. Afr.98(2): 247-260|1984|
57564|T||Furlani,P.R., and R.B. Clark|Screening Sorghum for Aluminum Tolerance in Nutrient Solutions|Agron. J.73:587-594|1981|10.2134/agronj1981.00021962007300040005x
57565|T||Jasik,J.|Influence of Vanadium on the Structure of Meristematic Cells in Root Tip of Bean (Vicia faba L.)|Biologia (Bratisl.)41(1): 5-12|1986|
57566|T||Wallace,A., and E.M. Romney|Synergistic Trace Metal Effects in Plants|Commun. Soil Sci. Plant Anal.8(9): 699-707|1977|10.1080/00103627709366762
57567|T||Masao,O., and K. Minami|Isolation and Identification of Cadmium Ion-Tolerant Microorganisms and Accumulation of Cadmium Ion by the Cells|Hakkokogaku Kaishi56:1-8|1978|
57568|T||Cameron,R.S., S.P. Ritchie, and A.D. Robson|Relative Toxicities of Inorganic Aluminum Complexes to Barley|Soil Sci. Soc. Am. J.50:1231-1236|1986|10.2136/sssaj1986.03615995005000050029x
57569|T||Lambert,D.H.|Response of Sweetgum to Mycorrhizae, Phosphorus, Copper, Zinc, and Sewage Sludge|Can. J. For. Res.12:1024-1027|1982|10.1139/x82-149
57570|T||Hinesly,T.D., K.E. Redborg, E.L. Ziegler, and J.D. Alexander|Effect of Soil Cation Exchange Capacity on the Uptake of Cadmium by Corn|Soil Sci. Soc. Am. J.46:490-497|1982|10.2136/sssaj1982.03615995004600030009x
57571|T||Entry,J.A., K.,Jr. Cromack, S.G. Stafford, and M.A. Castellano|The Effect of pH and Aluminum Concentration on Ectomycorrhizal Formation of Abies balsamea|Can. J. For. Res.17:865-871|1987|10.1139/x87-137
57577|T||Adams,R.S.,Jr., and D.J. Pritchard|Influence of Soil pH on the Phytotoxicity of Three s-Triazine Herbicides|Agron. J.69(5): 820-824|1977|10.2134/agronj1977.00021962006900050023x
57578|T||Baur,J.R., R.W. Bovey, and C.R. Benedict|Effect of Picloram on Growth and Protein Levels in Herbaceous Plants|Agron. J.62:627-630|1970|10.2134/agronj1970.00021962006200050023x
57579|T||Wiedenhoeft,M.H., and A.J. Ciha|Herbicide Tolerance of White Lupin|Agron. J.79:999-1002|1987|10.2134/agronj1987.00021962007900060010x
57581|T||Zaini,Z., and B.T. Mercado|Calcium-Aluminum Interaction on the Growth of Two Rice Cultivars in Culture Solution|Philipp. Agric.67:93-99|1984|
57582|T||Griffin,J.L., V.H. Watson, W.E. Knight, and A.W. Cole|Forage Legume Response to Dicamba and 2,4-D Applications|Agron. J.76:487-490|1984|10.2134/agronj1984.00021962007600030029x
57583|T||Rhue,R.D.|Differential Aluminum Tolerance in Crop Plants|In: H.Mussell and R.C.Staples (Eds.), Stress Physiology of Crop Plants, Wiley Interscience Publ., NY:62-80|1979|
57584|T||Mader,E.O., and F.M. Blodgett|Potato Spraying and Potato Scab|Am. Potato J.12(6): 137-142|1935|10.1007/BF02880165
57585|T||Ingebretsen,K., W.E. Martin, J. Vlamis, and R. Jetor|Iron Deficiency of Rice.  Crop Failures in Localized Areas Within Productive Fields Corrected in Tests Conducted in Glenn and Colusa Counties|Calif. Agric.13:6 - 8, 14|1959|
57586|T||Horst,W.J., A. Wagner, and H. Marschner|Effect of Aluminium on Root Growth, Cell-Division Rate and Mineral Element Contents in Roots of Vigna unguiculata Genotypes|Z. Pflanzenphysiol. (Multiple Languages)109:95-103|1983|10.1016/S0044-328X(83)80199-8
57587|T||Young,G.R.|Biological and Chemical Control of Ostrinia furnacalis Guenee (Lepidoptera: Pyralidae) on the Mainland of Papua New Guinea|Papua New Guinea Agric. J.30(1-3): 21-24|1979|
57588|T||Jyung,W.H., and M.E. Camp|The Effect of Zinc on the Formation of Ribulose Diphosphate Carboxylase in Phaseolus vulgaris|Physiol. Plant. (Multiple Languages)36:350-355|1976|10.1111/j.1399-3054.1976.tb02255.x
57589|T||Beach,G.|Some Effects of Sodium Selenate on Greenhouse Carnations Grown in Gravel|Proc. Am. Soc. Hortic. Sci.53:507-512|1949|
57590|T||Camp,S.D., V.D. Jolley, and J.C. Brown|Comparative Evaluation of Factors Involved in Fe Stress Response in Tomato and Soybean|J. Plant Nutr.10(4): 423-442|1987|10.1080/01904168709363583
57591|T||Barcelo,J., C. Poschenrieder, and B. Gunse|Effect of Chromium VI on Mineral Element Composition of Bush Beans|J. Plant Nutr.8(3): 211-217|1985|10.1080/01904168509363337
57592|T||Saric,T., and B. Saciragic|Effect of Oat Seed Treatment with Microelements|Plant Soil31(1): 185-187|1969|10.1007/BF01373038
57593|T||Ely,R.E., L.A. Moore, R.H. Carter, P.E. Hubanks, and F.W. Poos|Excretion of Dieldrin in the Milk of Cows fed Dieldrin-Sprayed Forage and Technical Dieldrin|J. Dairy Sci.37:1461-1465|1954|10.3168/jds.S0022-0302(54)91433-2
57595|T||Williams,K.A.|Tolerances of Four Species of Southern Pine to Aluminum in Solution Culture|M.S.Thesis, University of Florida, Gainesville, FL:129 p.|1982|
57600|T||Pfleeger,T.G., A. Fong, R. Hayes, H. Ratsch, and C. Wickliff|Field Evaluation of the EPA (Kenaga) Nomogram, a Method for Estimating Wildlife Exposure to Pesticide Residues on Plants|Environ. Toxicol. Chem.15(4): 535-543|1996|10.1002/etc.5620150419
57665|T||Davenport,D.C., M.A. Fisher, and R.M. Hagan|Retarded Stomatal Closure by Phenylmercuric Acetate|Physiol. Plant. (Multiple Languages)24:330-336|1971|10.1111/j.1399-3054.1971.tb03499.x
57696|T||Zimdahl,R.L., and J.M. Foster|The Influence of Applied Phosphorus, Manure, or Lime on Uptake of Lead from Soil|J. Environ. Qual.5(1): 31-34|1976|10.2134/jeq1976.00472425000500010006x
57697|T||Brennan,E., and I.A. Leone|Chrysanthemum Response to Sulfur Dioxide and Ozone|Plant Dis. Rep.56(1): 85-87|1972|
57698|T||Brasher,E.P., D.J. Fieldhouse, and M. Sasser|Ozone Injury in Potato Variety Trials|Plant Dis. Rep.57(6): 542-544|1973|
57699|T||Davis,D.D., and L. Kress|The Relative Susceptibility of Ten Bean Varieties to Ozone|Plant Dis. Rep.58(1): 14-16|1974|
57701|T||Batra,N., B. Nehru, and M.P. Bansal|The Effect of Zinc Supplementation on the Effects of Lead on the Rat Testis|Reprod. Toxicol.12(5): 535-540|1998|10.1016/S0890-6238(98)00030-6
57702|T||Junaid,M., D.K. Chowdhuri, R. Narayan, R. Shanker, and D.K. Saxena|Lead-Induced Changes in Ovarian Follicular Development and Maturation in Mice|J. Toxicol. Environ. Health50(1): 31-40|1997|10.1080/009841097160582
57703|T||Yagminas,A.P., P.B. Little, C.G. Rousseaux, C.A. Franklin, and D.C. Villeneuve|Neuropathologic Findings in Young Male Rats in a Subchronic Oral Toxicity Study Using Triethyl Lead|Fundam. Appl. Toxicol.19(3): 380-387|1992|10.1016/0272-0590(92)90177-J
57704|T||Corpas,I., I. Gaspar, S. Martinez, J. Codesal, S. Candelas, and M.T. Antonio|Testicular Alterations in Rats due to Gestational and Early Lactational Administration of Lead|Reprod. Toxicol.9(3): 307-313|1995|10.1016/0890-6238(95)97355-G
57705|T||Odenbro,A., and J.E. Kihlstrom|Frequency of Pregnancy and Ova Implantation in Triethyl Lead-Treated Mice|Toxicol. Appl. Pharmacol.39(3): 359-363|1977|10.1016/0041-008X(77)90130-2
57706|T||Mykkanen,H.M., J.W.T. Dickerson, and M. Lancaster|Strain Differences in Lead intoxication in Rats|Toxicol. Appl. Pharmacol.52(3): 414-421|1980|10.1016/0041-008X(80)90336-1
57707|T||Johnson,D.R., and L.I. Kleinman|Effects of Lead Exposure on Renal Function in Young Rats|Toxicol. Appl. Pharmacol.48(3): 361-367|1979|10.1016/0041-008X(79)90419-8
57708|T||Thoreux-Manlay,A., G. Pinon-Lataillade, H. Coffigny, J.C. Soufir, and R. Masse|Prenatal or Lactational Exposure of Male Rats to Lead Acetate. Effect on Reproductive Function|Bull. Environ. Contam. Toxicol.54(2): 266-272|1995|10.1007/BF00197440
57709|T||Bourjeily,N., and J.B. Suszkiw|Developmental Cholinotoxicity of Lead: Loss of Septal Cholinergic Neurons and Long-Term Changes in Cholinergic Innervation of the Hippocampus in Perinatally Lead-Exposed Rats|Brain Res.771(2): 319-328|1997|10.1016/S0006-8993(97)00828-7
57710|T||Johansson,L., and M. Wide|Long-Term Exposure of the Male Mouse to Lead: Effects on Fertility|Environ. Res.41(2): 481-487|1986|10.1016/S0013-9351(86)80142-6
57711|T||Shafiq-ur-Rehman, Khushnood-ur-Rehman, Kabir-ud-Din, and O. Chandra|Differential Effects of Chronic Lead intoxication on Circadian Rhythm of Ambulatory Activity and on Regional Brain Norepinephrine Levels in Rats|Bull. Environ. Contam. Toxicol.36(1): 81-91|1986|10.1007/BF01623478
57712|T||Karmakar,N., R. Saxena, and S. Anand|Histopathological Changes Induced in Rat Tissues by Oral Intake of Lead Acetate|Environ. Res.41(1): 23-28|1986|10.1016/S0013-9351(86)80164-5
57713|T||Jacquet,P., G.B. Gerber, and J. Maes|Biochemical Studies in Embryos After Exposure of Pregnant Mice to Dietary Lead|Bull. Environ. Contam. Toxicol.18(3): 271-277|1977|10.1007/BF01683418
57714|T||Al-Hakkak,Z.S., Z.R. Zahid, D.K. Ibrahim, I.S. Al-Jumaily, and A.A. Bazzaz|Effects of Ingestion of Lead Monoxide Alloy on Male Mouse Reproduction|Arch. Toxicol.62(1): 97-100|1988|10.1007/BF00316265
57715|T||Hallen,I.P., L. Jorhem, and A. Oskarsson|Placental and Lactational Transfer of Lead in Rats:  A Study on the Lactational Process and Effects on Offspring|Arch. Toxicol.69(9): 596-602|1995|10.1007/s002040050219
57716|T||Nathan,E., H.F.S. Huang, L. Pogach, W. Giglio, J.D. Bogden, and J. Seebode|Lead Acetate does not Impair Secretion of Sertoli Cell Function Marker Proteins in the Adult Sprague Dawley Rat|Arch. Environ. Health47(5): 370-375|1992|10.1080/00039896.1992.9938377
57717|T||Rauser,W.E.|Zinc Toxicity in Hydroponic Culture|Can. J. Bot.51:301-304|1973|10.1139/b73-037
57718|T||Aschmann,S.G., and R.J. Zasoski|Nickel and Rubidium Uptake by Whole Oat Plants in Solution Culture|Physiol. Plant. (Multiple Languages)71:191-196|1987|10.1111/j.1399-3054.1987.tb02866.x
57719|T||Ohki,K.|Effect of Zinc Nutrition on Photosynthesis and Carbonic Anhydrase Activity in Cotton|Physiol. Plant. (Multiple Languages)38:300-304|1976|10.1111/j.1399-3054.1976.tb04007.x
57720|T||Ryan,P.R., and L.V. Kochian|Interaction Between Aluminum Toxicity and Calcium Uptake at Root Apex in Near-Isogenic Lines of Wheat (Triticum aestivum L.) Differing in Aluminum Tolerance|Plant Physiol.102:975-982|1993|10.1104/pp.102.3.975
57721|T||Marschner,H., and I. Cakmak|Mechanism of Phosphorus-Induced Zinc Deficiency in Cotton.  II.  Evidence for Impaired Shoot Control of Phosphorus Uptake and Translocation Under Zinc Deficiency|Physiol. Plant. (Multiple Languages)68:491-496|1986|10.1111/j.1399-3054.1986.tb03387.x
57722|T||Webster,J.M.|Some Effects of 2,4-Dichlorophenoxyacetic Acid Herbicides on Nematode-Infested Cereals|Plant Pathol.16:23-26|1967|10.1111/j.1365-3059.1967.tb00356.x
57723|T||Wallace,E.G.R.|A Comparison of the Control of Pithomyces chartarum with Three Fungicides Applied at Both the Pre- and Post-Danger Levels of Spores in Pasture|N. Z. J. Exp. Agric.4:243-247|1976|10.1080/03015521.1976.10425877
57724|T||Martin,N.A.|Effect of Four Insecticides on the Pasture Ecosystem.  II.  The Fauna Collected in Pit Traps|N. Z. J. Agric. Res.18:179-182|1975|10.1080/00288233.1975.10421020
57725|T||Veltrup,W.|The Effect of Ni2+, Cd2+, and Co2+ on the Uptake of Copper by Intact Barley Roots|Z. Pflanzenphysiol. (Multiple Languages)93:1-9|1979|10.1016/S0044-328X(79)80137-3
57726|T||Fletcher,W.W., P.B. Dickenson, J.D. Forrest, and J.C. Raymond|The Effect of Soil-Applications of Certain Substituted Phenoxyacetic and Phenoxybutyric Acids on the Growth and Nodulation of Trifolium repens sylvestre|Phyton (Horn) (Multiple Languages)9(1): 41-46|1957|
57727|T||Gorissen,A., A.E. Jansen, and A.F.M. Olsthoorn|Effects of a Two-Year Application of Ammonium Sulphate on Growth, Nutrient Uptake, and Rhizosphere microflora of Juvenile Douglas-Fir|Plant Soil157(1): 41-50|1993|10.1007/BF02390226
57728|T||Veltrup,W.|Characteristics of Zinc Uptake by Barley Roots|Physiol. Plant. (Multiple Languages)42:190-194|1978|10.1111/j.1399-3054.1978.tb02546.x
57729|T||Beckett,P.H.T., and R.D. Davis|Upper Critical Levels of Toxic Elements in Plants|New Phytol.79:95-106|1977|10.1111/j.1469-8137.1977.tb02185.x
57730|T||Thornton,F.C., M. Schaedle, D.J. Raynal, and C. Zipperer|Effects of Aluminium on Honeylocust (Gleditsia triacanthos L.) Seedlings in Solution Culture|J. Exp. Bot.37(179): 775-785|1986|10.1093/jxb/37.6.775
57731|T||Johnson,L.R., and A.E. Hiltbold|Arsenic Content of Soil and Crops Following Use of Methanearsonate Herbicides|Proc. Soil Sci. Soc. Am.33(2): 279-282|1969|10.2136/sssaj1969.03615995003300020032x
57732|T||Baker,A.J.M., R.R. Brooks, A.J. Pease, and F. Malaisse|Studies on Copper and Cobalt Tolerance in Three Closely Related Taxa Within the Genus Silene L. (Caryophyllaceae) from Zaire|Plant Soil73:377-385|1983|10.1007/BF02184314
57733|T||Stewart,D.K.R., and R.G. Ross|Nickel Residues in Apple Fruit and Foliage Following a Foliar Spray of Nickel Chloride|Can. J. Plant Sci.49:375-377|1969|10.4141/cjps69-061
57734|T||Morrison,R.S., R.R. Brooks, R.D. Reeves, and F. Malaisse|Copper and Cobalt Uptake by Metallophytes from Zaire|Plant Soil53:535-539|1979|10.1007/BF02140724
57736|T||Matsumoto,H., Y. Yamamoto, and M. Kasai|Changes of Some Properties of the Plasma Membrane-Enriched Fraction of Barley Roots Related to Aluminum Stress:  Membrane-Associated ATPase, Aluminum and Calcium|Soil Sci. Plant Nutr.38(3): 411-419|1992|10.1080/00380768.1992.10415073
57737|T||Brown,J.C., and M.E. McDaniel|Factors Associated with Differential Response of Oat Cultivars to Iron Stress|Crop Sci.18:551-556|1978|10.2135/cropsci1978.0011183X001800040006x
57738|T||Jarosik,J., P. Zvara, J. Konecny, and M. Obdrzalek|Dynamics of Cobalt-60 Uptake by Roots of Pea Plant (Pisum sativum)|Sci. Total Environ.71:225-229|1988|10.1016/0048-9697(88)90170-2
57739|T||Ohki,K.|Zinc Concentration in Soybean as Related to Growth, Photosynthesis, and Carbonic Anhydrase Activity|Crop Sci.18:79-82|1978|10.2135/cropsci1978.0011183X001800010021x
57740|T||McQuattie,C.J., and G.A. Schier|Response of Red Spruce Seedlings to Aluminum Toxicity in Nutrient Solution:  Alterations in Root Anatomy|Can. J. For. Res.20:1001-1011|1990|10.1139/x90-134
57741|T||Briggs,D.|Population Differentiation in Marchantia polymorpha L. in Various Lead Pollution Levels|Nature238:166-167|1972|10.1038/238166a0
57742|T||Magistad,O.C.|The Aluminum Content of the Soil Solution and Its Relation to Soil Reaction and Plant Growth|Soil Sci.20(3): 181-225|1925|10.1097/00010694-192509000-00001
57743|T||Romney,E.M., and S.J. Toth|Plant and Soil Studies with Radioactive Manganese|Soil Sci.77:107-117|1954|10.1097/00010694-195402000-00003
57744|T||Van Oorschot,J.L.P.|Effect of Transpiration Rate of Bean Plants on Inhibition of Photosynthesis by Some Root-Applied Herbicides|Weed Res. (Multiple Languages)10:230-242|1970|10.1111/j.1365-3180.1970.tb00947.x
57745|T||Rhue,R.D., and C.O. Grogan|Screening Corn for Aluminum Tolerance|In: M.J.Wright (Ed.), Proc.of a Workshop Held at the National Agricultural Library on Plant Adaptation to Mineral Stress in Problem Soils, Nov.22-23, 1976, Beltsville, MD:297-310|1976|
57746|T||Feder,W.A., F.L. Fox, W.W. Heck, and F.J. Campbell|Varietal Responses of Petunia to Several Air Polluntants|Plant Dis. Rep.53(7): 506-509|1969|
57747|T||Brennan,E., I.A. Leone, and R.H. Daines|Toxicity of Sulfur Dioxide to Highbush Blueberry|Plant Dis. Rep.54(8): 704-707|1970|
57748|T||Wright,K.E.|Internal Precipitation of Phosphorus in Relation to Aluminium Toxicity|Plant Physiol.18:708-712|1943|10.1104/pp.18.4.708
57750|T||Benson,N.R.|Retardation of Apple Tree Growth by Soil Arsenic Residues|J. Am. Soc. Hortic. Sci.101(3): 251-253|1976|
57751|T||Partridge,A.D., and A.E. Rich|Induced Tolerance to Fungicides in Three Species of Fungi|Phytopathology52:1000-1004|1962|
57753|T||Singh,B.R., and K. Steenberg|Plant Response to Micronutrients I.  Uptake, Distribution and Translocation of Zinc in Maize and Barley Plants|Plant Soil40:637-646|1974|10.1007/BF00010519
57754|T||Marsh,D.B., and L.,Jr. Waters|Critical Deficiency and Toxicity Levels of Tissue Zinc in Relation to Cowpea Growth and N2 Fixation|J. Am. Soc. Hortic. Sci.110(3): 365-370|1985|10.21273/JASHS.110.3.365
57755|T||Memon,A.R., M. Chino, H. Hidaka, K. Hara, and M. Yatazawa|Manganese Toxicity in Field Grown Tea Plants and the Microdistribution of Manganese in the Leaf Tissues as Revealed by Electron Probe X-Ray Micrography|Soil Sci. Plant Nutr.27(3): 317-328|1981|10.1080/00380768.1981.10431286
57756|T||McNeil,W.K., J.F. Stritzke, and E. Basler|Absorption, Translocation, and Degradation of Tebuthiuron and Hexazinone in Woody Species|Weed Sci.32(6): 739-743|1984|10.1017/S0043174500059919
57757|T||Bovey,R.W., and R.E. Meyer|Woolly Croton (Croton capitatus) and Bitter Sneezeweed (Helenium amarum) Control in the Blackland Prairie of Texas|Weed Technol.4(4): 862-865|1990|10.1017/S0890037X00026543
57758|T||Pepper,I., N. Galanti, J. Sans, and J.F. Lopez-Saez|Reversible Inhibition of Root Growth and Cell Proliferation by Pentavalent Arsenic in Allium cepa L.|Environ. Exp. Bot.28(1): 9-18|1988|10.1016/0098-8472(88)90040-8
57759|T||Hurtt,W., J.A. Meade, and P.W. Santelmann|The Effect of Various Factors on the Movement of CIPC in Certain Soils|Weeds (Urbana)6:425-431|1958|10.2307/4040237
57760|T||Lee,K.C., B.A. Cunningham, K.H. Chung, G.M. Paulsen, and G.H. Liang|Lead Effect on Several Enzymes and Nitrogenous Compounds in Soybean Leaf|J. Environ. Qual.5(4): 357-359|1976|10.2134/jeq1976.00472425000500040003x
57761|T||Dietz,A.C., and J.L. Schnoor|Phytotoxicity of Chlorinated Aliphatics to Hybrid Poplar (Populus deltoides x Nigra DN34)|Environ. Toxicol. Chem.20(2): 389-393|2001|10.1002/etc.5620200221
57762|T||Sinha,S.K., H.S. Srivastava, and S.N. Mishra|Nitrate Assimilation in Intact and Excised Maize Leaves in the Presence of Lead|Bull. Environ. Contam. Toxicol.41(3): 419-426|1988|10.1007/BF01688888
57763|T||Kumar,G., R.P. Singh, and Sushila |Nitrate Assimilation and Biomass Production in Sesamum indicum L. Seedlings in a Lead Enriched Environment|Water Air Soil Pollut.66(1-2): 163-171|1993|10.1007/BF00477067
57764|T||Hartwell,B.L., and F.R. Pember|The Presence of Aluminum as a Reason for the Difference in the Effect of So-Called Acid Soil on Barley and Rye|Soil Sci.6(4): 259-279|1918|10.1097/00010694-191810000-00001
57765|T||Paliouris,G., and T. Hutchinson|Arsenic, Cobalt and Nickel Tolerances in Two Populations of Silene vulgaris (Moench) Garcke from Ontario, Canada|New Phytol.117:449-459|1991|10.1111/j.1469-8137.1991.tb00009.x
57766|T||Lexmond,T.M., and P.D.J. Van der Vorm|The Effect of pH on Copper Toxicity to Hydroponically Grown Maize|Neth. J. Aquat. Ecol.29:217-238|1981|
57767|T||Ruano,A., J. Barcelo, and C. Poschenrieder|Zinc Toxicity-Induced Variation of Mineral Element Composition in Hydroponically Grown Bush Bean Plants|J. Plant Nutr.10(4): 373-384|1987|10.1080/01904168709363579
57768|T||Pauli,A.W., R.,Jr. Ellis, and H.C. Moser|Zinc Uptake and Translocation as Influenced by Phosphorus and Calcium Carbonate|Agron. J.60(4): 394-396|1968|10.2134/agronj1968.00021962006000040019x
57769|T||Blamey,F.P.C., D.G. Edwards, and C.J. Asher|Effects of Aluminum, OH:Al and P:Al Molar Ratios and Ionic Strength on Soybean Root Elongation in Solution Culture|Soil Sci.136(4): 197-207|1983|10.1097/00010694-198310000-00001
57770|T||Rorison,I.H.|The Effect of Aluminium on Legume Nutrition|In: E.G.Hallsworth (Ed.), Proc.of the Nutrition of Legumes, Chapter 3, Academic Press, New York, NY:43-61|1958|
57771|T||Swank,G.,Jr.|Fungicides for the Control of Early Blight on Celery|Annu. Meet. Fla. State Hortic. Soc.:168-172|1953|
57772|T||Wallace,A.|Effect of Phosphorus Deficiency and Copper Excess on Vegetative Growth of Bush Bean Plants in Solution Culture at Two Different Solution pH Levels|J. Plant Nutr.7(1-5): 603-608|1984|10.1080/01904168409363225
57773|T||Riedell,W.E., and W.E. Schmid|Physiological and Cytological Aspects of Manganese Toxicity in Barley Seedlings|J. Plant Nutr.9(1): 57-66|1986|10.1080/01904168609363423
57774|T||Bennet,R.J., C.M. Breen, and M.V. Fey|Aluminium Induced Changes in the Morphology of the Quiescent Centre, Proximal Meristem and Growth Region of the Root of Zea mays|S. Afr. J. Bot.51:355-362|1985|10.1016/S0254-6299(16)31643-X
57775|T||Bennet,R.J., C.M. Breen, and V. Bandu|Aluminium Toxicity and Regeneration of the Root Cap: Preliminary Evidence for a Golgi Apparatus Derived Morphogen in the Primary Root of Zea mays|S. Afr. J. Bot.51:363-370|1985|10.1016/S0254-6299(16)31644-1
57776|T||Clarkson,D.T.|Interactions Between Aluminium and Phosphorus on Root Surfaces and Cell Wall Material|Plant Soil27(3): 347-356|1967|10.1007/BF01376328
57777|T||Brewer,R.F., F.B. Guillemet, and F.H. Sutherland|The Effects of Atmospheric Fluoride on Gladiolus Growth, Flowering and Corm Production|Proc. Am. Soc. Hortic. Sci.88:631-634|1966|
57778|T||Morimura,S., E. Takahashi, and H. Matsumoto|Association of Aluminium with Nuclei and Inhibition of Cell Division in Onion (Allium cepa) Roots|Z. Pflanzenphysiol. (Multiple Languages)88:395-401|1978|10.1016/S0044-328X(78)80255-4
57779|T||Olson,O.E., E.J. Novacek, E.I. Whitehead, and I.S. Palmer|Investigations on Selenium in Wheat|Phytochemistry9:1181-1188|1970|10.1016/S0031-9422(00)85306-6
57780|T||Wallace,A.|Additive, Protective, and Synergistic Effects of Plants with Excess Trace Elements|Soil Sci.133(5): 319-323|1982|10.1097/00010694-198205000-00009
57782|T||Baker,R.S., H.F. Arle, J.H. Miller, and J.T.,Jr. Holstun|Effects of Organic Arsenical Herbicides on Cotton Response and Chemical Residues|Weed Sci.17:37-40|1969|10.1017/S0043174500030848
57783|T||Grifferty,A., and S. Barrington|Zinc Uptake by Young Wheat Plants Under Two Transpiration Regimes|J. Environ. Qual.29(2): 443-446|2000|10.2134/jeq2000.00472425002900020011x
57784|T||Chatterjee,C., P. Sinha, and S.C. Agarwala|Interactive Effect of Boron and Phosphorus on Growth and Metabolism of Maize Grown in Refined Sand|Can. J. Plant Sci.70:455-460|1990|10.4141/cjps90-053
57785|T||Sievers,F.J.|Crop Injury Resulting from Magnesium Oxide Dust|Phytopathology14(2): 108-113|1924|
57786|T||Shen,Z.G., X.D. Li, and H.M. Chen|Comparison of Elemental Composition and Solubility in the Zinc Hyperaccumulator Thlaspi caerulescens with the Non-Hyperaccumulator Thlaspi ochroleucum|Bull. Environ. Contam. Toxicol.65(3): 343-350|2000|10.1007/s0012800134
57787|T||Huett,D.O., and R.C. Menary|Effect of Aluminium on Growth and Nutrient Uptake of Cabbage, Lettuce and Kikuyu Grass in Nutrient Solution|Aust. J. Agric. Res.31:749-761|1980|10.1071/AR9800749
57788|T||Burton,M.A.S., P. LeSueur, and K.J. Puckett|Copper, Nickel and Thallium Uptake by the Lichen Cladina rangiferina|Can. J. Bot.59:91-100|1981|10.1139/b81-015
57789|T||Weiss-Berg,E., and C. Tamm|The Influence of Deoxycorticosterone, Digitoxigenin and Cyanide Ions on the Respiration of Fusarium lini (Bolley)|Experentia (Basel)27(7): 778-779|1971|
57791|T||Elrashidi,M.A., N. Persaud, and V.C. Baligar|Effect of Fluoride and Phosphate on Yield and Mineral Composition of Barley Grown on Three Soils|Commun. Soil Sci. Plant Anal.29(3-4): 269-283|1998|10.1080/00103629809369945
57792|T||Gestring,W.D., and P.N. Soltanpour|Comparison of Soil Tests for Assessing Boron Toxicity to Alfalfa|Soil Sci. Soc. Am. J.51:1214-1219|1987|10.2136/sssaj1987.03615995005100050022x
57793|T||Stewart,D.K.R., D. Chisholm, and C.J.S. Fox|Insecticide Residues in Potatoes and Soil After Consecutive Soil Treatments of Aldrin and Heptachlor|Can. J. Plant Sci.45:72-78|1965|10.4141/cjps65-009
57794|T||Ali,H.M., and M.K. Ali|Potential Antifungal Activity and Structure-Activity Relationships of Some 2-Amino Acid Substituted Benzo-1,3,2-Dioxaphospholene, Oxazaphospholine and Diazaphospholine 2-Ones|Bull. Environ. Contam. Toxicol.65(4): 421-426|2000|10.1007/s001280000024
57795|T||Dekhuijzen,H.M.|A Paper Chromatographic Method for the Demonstration of Fungitoxic Transformation Products of Sodium Dimethyldithiocarbamate in Plants|Meded. Landbouwhogesch. Opzoekingsstn. Staat Gent26:1542-1547|1961|
57796|T||Wallace,A., R.T. Mueller, and G.V. Alexander|Effect of High Levels of Nitrilotriacetate on Metal Uptake by Plants Grown in Soil|Agron. J.66:707-708|1974|10.2134/agronj1974.00021962006600050030x
57797|T||Schneider,C., F.I. Bohnenstengel, B.W. Nugroho, V. Wray, L. Witte, P.D. Hung, L.C. Kiet, and P. Proksch|Insecticidal Rocaglamide Derivatives from Aglaia spectabilis (Meliaceae)|Phytochemistry54(8): 731-736|2000|10.1016/S0031-9422(00)00205-3
57798|T||Wilkinson,V., and R.L. Lucas|Effects of Herbicides on the Growth of Soil Fungi|New Phytol.68:709-719|1969|10.1111/j.1469-8137.1969.tb06475.x
57799|T||Wilkinson,V., and R.L. Lucas|Influence of Herbicides on the Competitive Ability of Fungi to Colonize Plant Tissues|New Phytol.68:701-708|1969|10.1111/j.1469-8137.1969.tb06474.x
57800|T||Horowitz,M., and T. Blumenfeld|Phytotoxicity of Four Herbicides in Different Synthetic Soils|Phytoparasitica1(2): 101-110|1973|10.1007/BF02981039
57801|T||Chang,S.S., and J.F. Stritzke|Sorption, Movement, and Dissipation of Tebuthiuron in Soils|Weed Sci.25(2): 184-187|1977|10.1017/S0043174500033233
57802|T||Koren,E., C.L. Foy, and F.M. Ashton|Phytotoxicity and Persistence of Four Thiocarbamates in Five Soil Types|Weed Sci.16:172-175|1968|10.1017/S004317450004683X
57803|T||Scifres,C.J., J.W. Stuth, and R.W. Bovey|Control of Oaks (Quercus spp.) and Associated Woody Species on Rangeland with Tebuthiuron|Weed Sci.29(3): 270-275|1981|10.1017/S0043174500061944
57804|T||Mayeux,H.S.Jr.|A Comparison of Herbicide Sprays and Pellets for Control of Broadleaf Weeds in Pastures|Weed Technol.3(4): 668-673|1989|10.1017/S0890037X00033017
57805|T||Coffman,C.B., J.R. Frank, and W.E. Potts|Crop Responses to Hexazinone, Imazapyr, Tebuthiuron, and Triclopyr|Weed Technol.7:140-145|1993|10.1017/S0890037X00037015
57806|T||Sheets,T.J.|The Comparative Toxicities of Monuron and Simazin in Soil|Weeds (Urbana)7:189-194|1959|10.2307/4040220
57807|T||Upchurch,R.P.|The Influence of Soil Factors on the Phytotoxicity and Plant Selectivity of Diuron|Weeds (Urbana)6:161-171|1958|10.2307/4040289
57808|T||Spencer,H., and A.G. Selhime|New Miticides for the Citrus Red Mite (Purple Mite)|Annu. Meet. Fla. State Hortic. Soc.:42-44|1954|
57809|T||Rapoport,E.H., and G. Cangioli|Herbicides and the Soil Fauna|Pedobiologia (Multiple Languages)2:235-238|1963|10.1016/S0031-4056(22)00104-4
57810|T||Gnekow,M.A., and H. Marschner|Influence of the Fungicide Pentachloronitrobenzene on VA-Mycorrhizal and Total Root Length and Phosphorus Uptake of Oats (Avena sativa)|Plant Soil114:91-98|1989|10.1007/BF02203086
57811|T||Herring,R., and C.L. Bering|Effects of Phthalate Esters on Plant Seedlings and Reversal by a Soil Microorganism|Bull. Environ. Contam. Toxicol.40(4): 626-632|1988|10.1007/BF01688390
57812|T||Zaki,A.I., G.A. Zentmyer, and H.M. Lebaron|Systemic Translocation of 14C-Labeled Metalaxyl in Tomato, Avocado, and Persea indica|Phytopathology71(5): 509-514|1981|10.1094/Phyto-71-509
57813|T||Dobrovsky,T.M.|Retarding Effect of Some Insecticides on Cabbage Seedlings|Annu. Meet. Fla. State Hortic. Soc.:166-168|1953|
57814|T||Johnson,R.B., and W.L. Thompson|Studies on the Use of Malathion on Citrus|Annu. Meet. Fla. State Hortic. Soc.:44-49|1954|
57815|T||Reddy,B.R., and V.F. Nettles|The Germination of Some Crop Seeds as Affected by Two Soil Fumigants Under Laboratory Conditions|Annu. Meet. Fla. State Hortic. Soc.68:208-213|1955|
57816|T||Suit,R.F., and T.L. Brooks|Progress Report on Treating Citrus Trees in Place to Control Burrowing Nematode|Annu. Meet. Fla. State Hortic. Soc.:50-53|1955|
57835|T||Valles,S.M., P.G. Koehler, and R.J. Brenner|Comparative Insecticide Susceptibility and Detoxification Enzyme Activities Among Pestiferous Blattodea|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.124(3): 227-232|1999|
57887|T||Wallace,T.|Investigations on Chlorosis of Fruit Trees. V. The Control of Lime-Induced Chlorosis by Injected of Iron Salts|J. Pomol. Hortic. Sci.13:54-67|1935|10.1080/03683621.1935.11513444
57888|T||Komczynski,L., H. Nowak, and L. Rejniak|Effect of Cobalt, Nickel and Iron on Mitosis in the Roots of the Broad Bean (Vicia faba)|Nature198(4884): 1016-1017|1963|10.1038/1981016a0
57889|T||Clarkson,D.T., and J. Sanderson|Inhibition of the Uptake and Long-Distance Transport of Calcium by Aluminium and Other Polyvalent Cations|J. Exp. Bot.22(73): 837-851|1971|10.1093/jxb/22.4.837
57890|T||Scott,R., J. Hoddinott, G.J. Taylor, and K. Briggs|The Influence of Aluminum on Growth, Carbohydrate, and Organic Acid Content of an Aluminum-Tolerant and an Aluminum-Sensitive Cultivar of Wheat|Can. J. Bot.69:711-716|1991|10.1139/b91-096
57891|T||Chen,J., E.I. Sucoff, and E.J. Stadelmann|Aluminum and Temperature Alteration of Cell Membrane Permeability of Quercus rubra|Plant Physiol.96:644-649|1991|10.1104/pp.96.2.644
57892|T||Cakmak,I., and W.J. Horst|Effect of Aluminium on Net Efflux of Nitrate and Potassium from Root Tips of Soybean (Glycine max L.)|J. Plant Physiol.138:400-403|1991|10.1016/S0176-1617(11)80513-4
57893|T||Dessureaux,L., and G.J. Ouellette|Tolerance of Alfalfa to Manganese Toxicity in Sand Culture|Can. J. Soil Sci.38:8-13|1958|10.4141/cjss58-002
57894|T||Godbold,D.L., R. Tischner, and A. Huttermann|Effects of Heavy Metals and Aluminum on the Root Physiology of Spruce (Picea abies Karst.) Seedlings|In: T.C.Hutchinson and K.M.Meema (Eds.), Proc.of the NATO Advanced Research Workshop on Effects of Acidic Deposition on Forests, Wetlands, and Agricultural Ecosystems, Held at Toronto, Canada, May 12-17, 1985, Springer-Verlag, NY:387-400|1987|
57896|T||Krewer,G.W., J.W. Daniell, G.A. Couvillon, and H.R. Smith|Peach Fruit and Leaf Tissue Sensitivity to CGA 15281|Hortscience17(3): 374-375|1982|10.21273/HORTSCI.17.3.374
57897|T||Krewer,G.W., J.W. Daniell, and G.A. Couvillon|Peach Blossom Thinning with CGA 15281|Hortscience17(4): 663-664|1982|10.21273/HORTSCI.17.4.663
57898|T||Kohlmunzer,S., J. Grzybek, and H. Tomczyk|Investigation on the Biological Activity of Emiline Using Phytobiological Tests|Pol. J. Pharmacol. Pharm.25:293-297|1973|
57899|T||Khazanchi,R., and N.K. Roy|Synthesis and Herbicidal Activities of O-Methyl P-(Dichloromethyl)Phosphonamidates and Diamides|Agric. Biol. Chem.47(2): 331-335|1983|
57900|A||McGilvrey,F.B., and J.H. Steenis|Control of Alligatorweed in South Carolina with Granular Silvex|Weeds (Urbana):66-68|1964|
57901|T||Milborrow,B.V.|Effects of Rate of Formation of 2,6-Dichlorobenzonitrile on Its Toxicity to Plants|Weed Res. (Multiple Languages)5:332-342|1965|10.1111/j.1365-3180.1965.tb00361.x
57902|T||Mok,M.C., D.W.S. Mok, D.J. Armstrong, K. Shudo, Y. Isogai, and T. Okamoto|Cytokinin Activity of N-Phenyl-N'-1,2,3-Thiadiazol-5-Ylurea (Thidiazuron)|Phytochemistry21(7): 1509-1511|1982|10.1016/S0031-9422(82)85007-3
57903|T||Moutschen,J., R. Matagne, and J. Gilot|Chromosome Breakage with Two Isomers of 1-Threitol 1,4-Bismethanesulphonate in Plants|Nature210:762-763|1966|10.1038/210762a0
57904|T||Nichols,L.P.|Phytotoxicitiy of Phenylmercury Sprays to White Oak Foliage|Plant Dis. Rep.45(5): 346-347|1961|
57905|T||O'Sullivan,P.A.|Selective Control of False Cleavers in Rapeseed with Benzolin|Can. J. Plant Sci.63:497-501|1983|10.4141/cjps83-058
57906|T||O'Sullivan,P.A., and V.C. Kossatz|Selective Control of Canada Thistle in Rapeseed with 3,6-Dichloropicolinic Acid|Can. J. Plant Sci.62:989-993|1982|10.4141/cjps82-146
57907|T||Oritani,T., and K. Yamashita|Synthesis and Plant Growth Inhibitory Activities of (+)- and (-)-(2Z,4E)-5-(1',2'-Epoxy-2',6',6'-Trimethylcyclohexyl)-3-Methyl-2,4-Pentadienoic Acid|Phytochemistry22(9): 1909-1912|1983|10.1016/0031-9422(83)80010-7
57908|T||Pawar,V.H., and M.J. Thirumalachar|Necrocitin as a Wilt Toxin|Hindustan Antibiot. Bull.8(3): 126-128|1966|
57909|T||Pielou,D.P., and R.S. Downing|Trithion as an Orchard Insecticide|Proc. Entomol. Soc. B. C.55:17-23|1958|
57910|T||Poling,S.M., W.J. Hsu, and H. Yokoyama|Synthetic Bioregulators of Poly-cis Carotenoid Biosynthesis|Phytochemistry21(3): 601-604|1982|10.1016/0031-9422(82)83148-8
57911|T||Richardson,L.T., and G.D. Thorn|Comparative Fungitoxicity and Phytotoxicity of Sodium N-Methyldithiocarbamate and Its n-Alkyl Homologues|Can. J. Bot.47:241-245|1969|10.1139/b69-033
57912|T||Scifres,C.J.|Woody Plant Control in the Post Oak Savannah of Texas with Hexazinone|J. Range Manag.35(3): 401-404|1982|10.2307/3898328
57913|AT||Tamura,S., T. Jojima, K. Kawakubo, K. Nakamura, and T. Takematsu|3-Phenoxypyridazine as a New Selective Herbicide|Agric. Biol. Chem.30(4): 423-424|1966|10.1080/00021369.1966.10858617
57914|T||Ries,S., V. Wert, and J.A. Biernbaum|Factors Altering Response of Plants to Triacontanol|J. Am. Soc. Hortic. Sci.108(6): 917-922|1983|10.21273/JASHS.108.6.917
57915|T||Trepka,R.D., J.K. Harrington, J.W. McConville, K.T. McGurran, A. Mendel, D.R. Pauly, J.E. Robertson, and J.T. Waddingto|Synthesis and Herbicidal Activity of Fluorinated N-Phenylalkanesulfonamides|J. Agric. Food Chem.22(6): 1111-1119|1974|10.1021/jf60196a044
57916|A||Viste,K.L.|Watergrass Control in Rice|Calif. Agric.:4-|1962|
57917|T||Wills,G.D.|Effect of EL-171 on Cotton and Purple Nutsedge|Proc. South. Weed Sci. Soc.30:113-118|1977|
57918|T||Yoneyama,K., H. Omokawa, N. Ichizen, Y. Takeuchi, M. Konnai, and T. Takematsu|Phytotoxic Activity of N-Phenylsulfonylbenzamides|Agric. Biol. Chem.47(3): 593-596|1983|
57919|T||Hecht,S.M., R.M. Bock, R.Y. Schmitz, F. Skoog, N.J. Leonard, and J.L. Occolowitz|Question of the Ribosyl Moiety in the Promotion of Callus Growth by Exogenously Added Cytokinins|Biochemistry (Wash.)10(23): 4224-4228|1971|10.1021/bi00799a011
57920|T||Hanna,M.A., and M.A. Abdelhafez|On the Control of Citrus Mites:  An Experimental Carbamate Fungicide Phytotoxic to Citrus Trees|Agric. Res. Rev.53:187-190|1975|
57921|T||Greene,D.W.|Some Effects of AVG on Fruit Set, Fruit Characteristics and Vegetative Growth of Apple Trees|J. Am. Soc. Hortic. Sci.108(3): 410-415|1983|10.21273/JASHS.108.3.410
57922|T||Gambrell,C.E.,Jr., D.C. Coston, and E.T.,Jr. Sims|Results of Eight Years with CGA-15281 as a Postbloom Thinner for Peaches|J. Am. Soc. Hortic. Sci.108(4): 605-608|1983|10.21273/JASHS.108.4.605
57923|T||Gasque,C.E.|Comparison of Cytokinin Activities of 9-Substituted N6-Benzyladenines in the Cucumis and Amaranthus Bioassays|Phytochemistry21(7): 1501-1507|1982|10.1016/S0031-9422(82)85006-1
57924|T||El-Nawawy,A.S., S. Abou-Donia, A.T. El-Din, and E.A. Kadous|Relation Between Chemical Structure and Biological Activity Part XXXII.  Phytotoxicity of Metal Complexes of Dithioacids to Cotton Seedlings|Alex. J. Agric. Res.19:157-167|1972|
57925|T||Doweyko,A.M., A.R. Bell, J.A. Minatelli, and D.I. Relyea|Quantitative Structure-Activity Relationships for 2-((Phenylmethyl)Sulfonyl}Pyridine 1-Oxide Herbicides|J. Med. Chem.26:475-478|1983|10.1021/jm00358a004
57926|T||Cetas,R.C.|The Use of Sodium Methyl Dithiocarbamate for the Control of Clubroot of Crucifers|Plant Dis. Rep.42(3): 324-329|1958|
57927|T||Byers,R.E., and C.G.,Jr. Lyons|Flower Bud Removal with Surfactants for Peach Thinning|Hortscience17(3): 377-378|1982|10.21273/HORTSCI.17.3.377
57928|T||Burstrom,H.|Studies on Growth and Metabolism of Roots.  II.  n-Diamylacetic Acid and Assimilation of Nitrate|Physiol. Plant. (Multiple Languages)2:332-340|1949|10.1111/j.1399-3054.1949.tb07659.x
57929|T||Bose,S.|Mutagenic Action of 2-Ethyl-2-Phenyl-Ethyleneimine|Experientia21(9): 506-507|1965|10.1007/BF02138959
57930|T||Bartels,P.G., and A. Hyde|Chloroplast Development in 4-Chloro-5-(Dimethylamino)-2-(alpha,alpha,alpha-Trifluoro-m-Tolyl)-3(2H)-Pyridazinone (Sandoz 6706)-Treated Wheat Seedlings|Plant Physiol.45:807-810|1970|10.1104/pp.45.6.807
57931|T||Banks,P., E.J. Britten, and D.E. Byth|Heritable Para-Fluorophenylalanine-Induced Aneuploidy in Maize|J. Hered.73:465-466|1982|10.1093/oxfordjournals.jhered.a109699
57932|T||Arnold,C.E., J.H. Aldrich, and F.G. Martin|Peach Responses to Dikegulac|Hortscience18(3): 474-476|1983|10.21273/HORTSCI.18.4.474
57933|T||Wilkins,S.M., H. Wilkins, and R.L. Wain|Studies on Plant Growth-Regulating Substances LI.  The Effects of 3,5-Dibromo- and 3,5-Dichloro-4-Hydroxybenzoic Acids on Seedling Growth in Compact and Loose Soils|Ann. Appl. Biol.89:265-269|1978|10.1111/j.1744-7348.1978.tb07699.x
57934|T||Farrahi-Aschtiani,S., H.F. Taylor, and R.L. Wain|Studies on Plant Growth-Regulating Substances XLVI.  The Effects of 4-Chlorobenzyltributylammonium Bromide (B4) on the Growth of Seedlings of Phaseolus vulgaris|Ann. Appl. Biol.85:277-286|1977|10.1111/j.1744-7348.1977.tb01801.x
57935|T||Jenkins,C.L.D., L.J. Rogers, and M.W. Kerr|Glycollate Oxidase Inhibition and Its Effect on Photosynthesis and Pigment Formation in Hordeum vulgare|Phytochemistry21(8): 1849-1858|1982|10.1016/0031-9422(82)83002-1
57936|T||Iwamura,H., T. Ito, Z. Kumazawa, and Y. Ogawa|Synthesis and Anticytokinin Activity of 4-Substituted-7-(beta-delta-Ribofuranosyl)-Pyrrolo[2,3-d]Pyrimidines|Phytochemistry14:2317-2321|1975|10.1016/0031-9422(75)80336-0
57937|A||Batianoff,G.N., and W.H. Burrows|Studies in the Dynamics and Control of Woody Weeds in Semi-arid Queensland 2.  Cassia nemophila and C. artemisioides|Qld. J. Agric. Anim. Sci.30:65-71|1973|
57938|T||Wilcoxon,F., and A. Hartzell|Further Experiments on Organic Thiocyanates as Insecticides|Contrib. Boyce Thompson Inst.7:31-36|1935|
57939|T||Geronimo,J., L.L.,Jr. Smith, and G.D. Stockdale|Effect of Site of Exposure to Nitrapyrin and 6-Chloropicolinic Acid on Growth of Cotton and Wheat Seedlings|Agron. J.65:692-693|1973|10.2134/agronj1973.00021962006500050004x
57940|T||Tewari,M.N.|Inhibition of Growth of the Seedlings of Phaseolus radiatus Linn. by N-Benzyl Orthofluorophenoxy Acetamide - A New Growth Retardant|Experientia25(4): 433-434|1969|10.1007/BF01899970
57941|T||Murphy,H.J., and M.J. Goven|Effect of Tetrachloronitrobenzene (Fusarex) on Emergence and Yield of Potatoes.  Part I. - Maine|Am. Potato J.44:272-276|1967|10.1007/BF02862527
57942|T||Schmitz,R.Y., F. Skoog, S.M. Hecht, R.M. Bock, and N.J. Leonard|Comparison of Cytokinin Activities of Naturally Occurring Ribonucleosides and Corresponding Bases|Phytochemistry11:1603-1610|1972|10.1016/0031-9422(72)85006-4
57943|T||Parups,E.V., I. Hoffman, and H.V. Morley|Relationships Between Structure and Activity of Maleic Hydrazide Analogues and Related Compounds|Can. J. Biochem. Physiol.40(9): 1159-1164|1962|10.1139/o62-130
57944|T||Olson,O.E., E.E. Cary, and W.H. Allaway|Absorption of Trimethylselenonium by Plants|Agron. J.68:805-809|1976|10.2134/agronj1976.00021962006800050030x
57945|T||Dekker,P.H.M., and J.J. Neuvel|The Influence of Daminozide (Alar-85) on the Yield of Broad Beans, Vicia faba L.|Acta Hortic.137:181-188|1983|10.17660/ActaHortic.1983.137.19
57946|AT||Kida,T., T. Ishikawa, and H. Shibai|Isolation of Two Streptothricin-Like Antibiotics, Nos. 6241-A and B, as Inhibitors of de novo Starch Synthesis and Their Herbicidal Activity|Agric. Biol. Chem.49(6): 1839-1844|1985|
57947|T||Kleifeld,Y., T. Blumenfeld, and A. Bargutti|Control of Johnsongrass (Sorghum halepense) in Cotton Fields|Phytoparasitica14(1): 55-61|1986|10.1007/BF02980478
57949|T||Albrigo,L.G., and N.F. Childers|Effect of Succinamic Acid, 2-2-dimethyl Hydrazide and Late-Season Night Temperature on the Maturity Indices of `Stayman' Apples|J. Am. Soc. Hortic. Sci.95(4): 482-484|1976|10.21273/JASHS.95.4.482
57950|T||Kim,K.U., and B.L. Mercado|Physiological Responses of Rice to TCE-Styrene|Philipp. J. Sci.103(2): 81-89|1974|
57951|T||Katsin,N., R. Ikan, and A.H. Halevy|Effect of Substituted Cyclopentenones and Cyclopentanones on Lettuce Seed Germination and Radicle Growth|J. Agric. Food Chem.25(6): 1426-1427|1977|10.1021/jf60214a015
57952|T||Aung,L.H., and J.M. Byrne|The Effects of Sodium 2,3-Dichloroisobutyrate on Microsporogenesis and Fruit Set in Lycopersicon esculentum Mill.|J. Exp. Bot.28(106): 1117-1124|1977|10.1093/jxb/28.5.1117
57953|T||Dedolph,R.R.|Effect of Benzothiazole-2-Oxyacetate on Flowering and Fruiting of Papaya|Bot. Gaz.124:75-78|1962|10.1086/336175
57954|T||Hsiao,A.I.|The Effect of Sodium Hypochlorite, Gibberellic Acid and Light on Seed Dormancy and Germination of Stinkweed and Wild Mustard|Can. J. Plant Sci.60:643-649|1980|10.4141/cjps80-091
57955|T||Chew,W.Y., and M.A.A. Malek|Influence of BOH (Beta-Hydroxyethylhydrazine) on Pineapple cv Mauritius Grown in Malaysian Peat|Exp. Agric.14:157-159|1978|10.1017/S0014479700008565
57956|T||Iwamura,H., M. Yada, K. Koshimizu, and S. Matsubara|Synthesis and Comparative Cytokinin Activities of N-(Purin-6-yl)-delta- and -L-Amino Acid Methyl Esters|Agric. Biol. Chem.42(5): 1009-1014|1978|
57957|T||Tompkins,D.R., W.A. Sistrunk, and J.W. Fleming|Yield of Snap Beans (Phaseolus vulgaris L.) as Influenced by 5-Chloro, 2-Thenyl, Tri-n-Butyl-Phosphoniumchloride|Hortscience6(4): 393-394|1971|10.21273/HORTSCI.6.4.393
57958|T||Joshi,G.V., and S. Patil|Effect of EDTA on Photosynthesis in Bryophyllum pinnatum|Indian J. Exp. Biol.9:476-477|1971|
57959|T||Popoff,I.C., J.R. Frank, C.B. Thanawalla, and R.A. Creager|Fluorosulfonated Thiophenols and Their Effects on Plants|J. Agric. Food Chem.20(1): 80-82|1972|10.1021/jf60179a042
57960|T||Yokoyama,H., C.W.,Jr. Coggins, and G.L. Henning|The Effect of 2-(4-Chlorophenylthio)-Triethylamine Hydrochloride on the Formation of Carotenoids in Citrus|Phytochemistry10:1831-1834|1971|10.1016/S0031-9422(00)86445-6
57961|T||Love,J.M., and J.A. Barden|The Effects of Ethyl 5-(4-Chlorophenyl)-2H-Tetrazole-2-Acetate on Net Photosynthesis, Stomatal Resistance and Transpiration in `Delicious' and `Golden Delicious' Apple Leaves|Hortscience14(4): 515-516|1979|10.21273/HORTSCI.14.4.515
57962|T||McCall,G.L., and J.W. Zahnley|Control of Noxious Perennial Grasses with the Trichloroacetates|In: Kansas Circ.254, Agric.Exp.Sta., Kansas State College, Manhattan, KS:3-8|1949|
57963|T||Chakrabarti,A.G.|Effect of Selected Growth Retardants on the Germinability of Weed Seeds|J. Seed Technol.1(1): 60-63|1976|
57964|T||Knypl,J.S.|Stimulation of Bulb Growth in Onion (Allium cepa L.) by N,N-Diethyl-N-(2-Hydroxyethyl)Glycine|Biol. Plant. (Praha)22(3): 226-230|1980|10.1007/BF02892745
57965|T||Rogers,B.L., and A.H. Thompson|Growth and Fruiting Response of Young Apple and Pear Trees to Annual Applications of Succinic Acid 2, 2-Dimethyl Hydrazide|J. Am. Soc. Hortic. Sci.93:16-24|1969|
57966|T||Wah,C.P.|The Effect of Bertam Control on Regeneration of Shorea Curtish Dyer|Malay. For.33(2): 166-182|1970|
57967|T||Gaither,D.H.|Auxin and the Response of Pea Roots to Auxin Transport Inhibitors: Morphactin|Plant Physiol.55:1082-1086|1975|10.1104/pp.55.6.1082
57968|T||Chem,T.M., D.E. Seaman, and F.M. Ashton|Herbicidal Action of Molinate in Barnyardgrass and Rice|Weed Sci.16:28-31|1968|10.1017/S0043174500030459
57969|T||Kato,Y., and M. Hongo|Regulation of Bud and Root Formation in Excised Leaf Segments of Heloniopsis orientalis (Liliaceae)|Phytomorphology:273-279|1974|
57970|T||Bonde,E.K., and T.C. Moore|Effects of Gibberellic Acid on the Growth and Flowering of Telephone Peas|Physiol. Plant. (Multiple Languages)11:451-456|1958|10.1111/j.1399-3054.1958.tb08241.x
57971|T||Gawlik,S.R., and J. Shen-Miller|Effects of Indoleacetic Acid on Dictyosomes of Apical and Expanding Cells of Oat Coleoptiles|Plant Physiol.54:217-221|1974|10.1104/pp.54.3.217
57972|T||Blume,D.E., and J.W. McClure|Developmental Effects of Sandoz 6706 on Activities of Enzymes of Phenolic and General Metabolism in Barley Shoots Grown in the Dark or Under Low or high Intensity Light|Plant Physiol.65:238-244|1980|10.1104/pp.65.2.238
57973|T||Kleudgen,H.K.|Changes in Composition of Chlorophylls, Carotenoids and Prenylquinones in Green Seedlings of Hordeum and Raphanus Induced by the Herbicide San 6706 - an Effect Possibly Antagonistic to Phytochrome Action|Pestic. Biochem. Physiol.12:231-238|1979|10.1016/0048-3575(79)90106-8
57974|T||Parups,E.V.|Use of 2,3-Dihydro-5,6-Diphenyl-1,4-Oxathin for Disbudding of Standard Chrysanthemums|Can. J. Plant Sci.56:531-537|1976|10.4141/cjps76-087
57975|T||Chamel,A.|Action of the 2,4 Dichlorophenoxyacetic Acid on the Translocation of 42K Deposited on Leaves of Lettuce and Maize Plants|Biol. Plant. (Praha)17(2): 95-102|1975|10.1007/BF02920967
57976|T||Dean,H.A.|Responses of Four Orange Varieties to Certain Petroleum Oils in Texas|J. Econ. Entomol.68(6): 835-837|1975|10.1093/jee/68.6.835
57977|T||Larsen,S.P., V.P. Scholes, and C.G. Skinner|Effect of 4'-Chloroglutaranilic Acid on Growth and Development of Sunflower Seedlings|Am. J. Bot.61(3): 290-295|1974|10.1002/j.1537-2197.1974.tb10777.x
57979|T||Filipovich,S.D., and R.N. Rowe|Effect of Succinic Acid 2,2-Dimethyl Hydrazide (SADH) on Starch Accumulation in Young Apple Trees|J. Hortic. Sci.52:367-370|1977|10.1080/00221589.1977.11514764
58009|T||Anderson,O.E., and F.C. Boswell|Boron and Manganese Effects on Cotton Yield, Lint Quality, and Earliness of Harvest|Agron. J.60:488-493|1968|10.2134/agronj1968.00021962006000050014x
58010|T||Lingle,J.C., and D.M. Holmberg|The Response of Sweet Corn to Foliar and Soil Zinc Applications on a Zinc Deficient Soil|Proc. Am. Soc. Hortic. Sci.70:308-315|1957|
58012|T||Singh,B.R.|Selenium Content of Wheat as Affected by Selenate and Selenite Contained in a Cl- or SO4-Based NPK Fertilizer|Fert. Res.30(1): 1-7|1991|10.1007/BF01048821
58013|T||Keltjens,W.G.|Short-Term Effects of Al on Nutrient Uptake, H+ Efflux, Root Respiration and Nitrate Reductase Activity of Two Sorghum Genotypes Differing in Al-Susceptibility|Commun. Soil Sci. Plant Anal.19(7-12): 1155-1163|1988|10.1080/00103628809368002
58014|T||McLaughlin,M.J., S.J. Andrew, M.K. Smart, and E. Smolders|Effects of Sulfate on Cadmium Uptake by Swiss Chard: I. Effects of Complexation and Calcium Competition in Nutrient Solutions|Plant Soil202(2): 211-216|1998|10.1023/A:1004333529886
58015|T||Singh,R., P.R. Sharma, M. Singh, R. Sharma, and R.D. Laura|Phosphorus, Sulphur and Zinc Interactions in Barley (Hordium vulgare L.) -Yield, Phosphorus Concentration and Its Uptake|Crop Res. (Hisar)13(3): 571-577|1997|
58016|T||Sahu,S.K., G.N. Mitra, and S.C. Pani|Effect of Zn Application on Uptake of Nutrients by Rice on an Inceptisol|J. Indian Soc. Soil Sci.44(4): 795-796|1996|
58017|T||Singh,J.P., D.J. Dahiya, and V. Kumar|Effect of Nitrogen and Iron Supply on the Growth and Nutrient Uptake of Wheat Grown on Sandy Soil|Crop Res. (Hisar)10(3): 271-276|1995|
58018|T||Singh,G.P., and V. Singh|Effect of Molybdenum and Manganese on Their Uptake and Yield in Pea (Pisum sativum L.)|Indian J. Plant Physiol.38(1): 85-87|1995|
58019|T||Singh,V., V. Kumar, and S.P.S. Karwasra|Interaction of S and Zn on dry Matter Yield, Concentration and Uptake of S in Green Gram (Vigna radiata L.)|Crop Res. (Hisar)9(1): 32-41|1995|
58022|T||Sharma,C.M., and S.K. Bhardwaj|Effect of Phosphorus and Zinc Fertilization on Yield and Nutrient Uptake in Wheat (Triticum aestivum) and Their Residual Effect on Soybean (Glycine max)|Indian J. Agron.43(3): 426-430|1998|
58024|T||Brenchley,W.E.|Comparative Effects of Cobalt, Nickel and Copper on Plant Growth|Ann. Appl. Biol.25(4): 671-694|1938|10.1111/j.1744-7348.1938.tb02347.x
58025|T||Oberley,T.D., A.L. Friedman, R. Moser, and F.L. Siegel|Effects of Lead Administration on Developing Rat Kidney. II. Functional, Morphologic, and Immunohistochemical Studies|Toxicol. Appl. Pharmacol.131(1): 94-107|1995|10.1006/taap.1995.1051
58026|T||Murphy,K.J., G.B. Fox, J. Kelly, and C.M. Regan|Influence of Toxicants on Neural Cell Adhesion Molecule-Mediated Neuroplasticity in the Developing and Adult Animal: Persistent Effects of Chronic Perinatal Low-Level Lead Exposure|Toxicol. Lett.82-83:271-276|1995|10.1016/0378-4274(95)03561-3
58027|T||Gandley,R., L. Anderson, and E.K. Silbergeld|Lead:  Male-Mediated Effects on Reproduction and Development in the Rat|Environ. Res.80(4): 355-363|1999|10.1006/enrs.1998.3874
58028|T||Gonzalez-Riola,J., E.R. Hernandez, A. Escribano, M. Revilla, C. Seco, L.F. Villa, and H. Rico|Effect of Lead on Bone and Cartilage in Sexually Mature Rats: A Morphometric and Histomorphometry Study|Environ. Res.74(1): 91-93|1997|10.1006/enrs.1997.3760
58029|T||Zheng,W., H. Shen, W.S. Blaner, Q. Zhao, X. Ren, and J.H. Graziano|Chronic Lead Exposure Alters Transthyretin Concentration in Rat Cerebrospinal Fluid: The Role of the Choroid Plexus|Toxicol. Appl. Pharmacol.139(2): 445-450|1996|10.1006/taap.1996.0186
58030|T||Boscolo,P., M. Carmignani, G. Sacchettoni-Logroscino, F.O. Rannelletti, L. Artese, and P. Preziosi|Ultrastructure of the Testis in Rats with Blood Hypertension Induced by Long-Term Lead Exposure|Toxicol. Lett.41(2): 129-137|1988|10.1016/0378-4274(88)90086-0
58031|T||Cory-Slechta,D.A., S.T. Bissen, A.M. Young, and T. Thompson|Chronic Postweaning Lead Exposure and Response Duration Performance|Toxicol. Appl. Pharmacol.60(1): 78-84|1981|10.1016/0041-008X(81)90137-X
58032|T||Winder,C., I. Kitchen, L.B. Clayton, S.M. Gardiner, J.M. Wilson, and P.D. Lewis|The Effect of Perinatal Lead Administration on the Ontogeny of Striatal Enkephalin Levels in the Rat|Toxicol. Appl. Pharmacol.73(1): 30-34|1984|10.1016/0041-008X(84)90049-8
58033|T||Wadi,S.A., and G. Ahmad|Effects of Lead on the Male Reproductive System in Mice|J. Toxicol. Environ. Health56(7): 513-521|1999|10.1080/009841099157953
58034|T||Shailesh Kumar,M.V., and T. Desiraju|Regional Alterations of Brain Biogenic Amines and GABA/Glutamate Levels in Rats Following Chronic Lead Exposure During Neonatal Development|Arch. Toxicol.64(4): 305-314|1990|10.1007/BF01972991
58035|T||Petrusz,P., C.M. Weaver, L.D. Grant, P. Mushak, and M.R. Krigman|Lead Poisoning and Reproduction: Effects on Pituitary and Serum Gonadotropins in Neonatal Rats|Environ. Res.19(2): 383-391|1979|10.1016/0013-9351(79)90063-X
58036|T||Exon,J.H., L.D. Koller, and N.I. Kerkvliet|Lead-Cadmium Interaction:  Effects on Viral-Induced Mortality and Tissue Residues in Mice|Arch. Environ. Health34(6): 469-475|1979|10.1080/00039896.1979.12088659
58037|A||Stalling,D.L.|PCB Residues in Bluegills and Channel Catfish Exposed to Aroclor(R) 1248 and Aroclor(R) 1254 for 11 Weeks|July 28 PCB Newsletter, U.S.EPA, Duluth, MN:2 p.|1971|
58038|A||North,W.J., and M.B. Schaefer|An Investigation of the Effects of Discharged Wastes on Kelp|California State Quality Control Board, Sacramento, CA26:124 p.|1964|
58039|T||Winneke,G., A. Brockhaus, and R. Baltissen|Neurobehavioral and Systemic Effects of Longterm Blood Lead-Elevation in Rats.  I.  Discrimination Learning and Open Field-Behavior|Arch. Toxicol.37(4): 247-263|1977|10.1007/BF00330817
58040|T||Harry,G.J., A.D. Toews, M.R. Krigman, and P. Morell|The Effect of Lead Toxicity and Milk Deprivation on Myelination in the Rat|Toxicol. Appl. Pharmacol.77(3): 458-464|1985|10.1016/0041-008X(85)90186-3
58041|T||Hammond,P.B., and P.A. Succop|Effects of Supplemental Nutrition on Lead-Induced Depression of Growth and Food Consumption in Weanling Rats|Toxicol. Appl. Pharmacol.131(1): 80-84|1995|10.1006/taap.1995.1049
58042|T||Michaelson,I.A., and M.W. Sauerhoff|An Improved Model of Lead-Induced Brain Dysfunction in the Suckling Rat|Toxicol. Appl. Pharmacol.28(1): 88-96|1974|10.1016/0041-008X(74)90134-3
58043|T||Krasovskii,G.N., L.Y. Vasukovich, and O.G. Chariev|Experimental Study of Biological Effects of Lead and Aluminum Following Oral Administration|Environ. Health Perspect.30:47-51|1979|
58044|T||Hamilton,J.D., E.J. O'Flaherty, R. Ross, R. Shukla, and P.S. Gartside|Structural Equation Modeling and Nested ANOVA:  Effects of Lead Exposure on Maternal and Fetal Growth in Rats|Environ. Res.64(1): 53-64|1994|10.1006/enrs.1994.1006
58045|T||Hamilton,J.D., and E.J. O'Flaherty|Effects of Lead Exposure on Skeletal Development in Rats|Fundam. Appl. Toxicol.22(4): 594-604|1994|10.1006/faat.1994.1066
58046|T||Yagminas,A.P., C.A. Franklin, D.C. Villeneuve, A.P. Gilman, P.B. Little, and V.E.O. Valli|Subchronic Oral Toxicity of Triethyl Lead in the Male Weanling Rat. Clinical, Biochemical, Hematological, and Histopathological Effects|Fundam. Appl. Toxicol.15(3): 580-596|1990|10.1016/0272-0590(90)90043-J
58048|A||Thorpe,K.L., T.H. Hutchinson, M.J. Hetheridge, M. Scholze, J.P. Sumpter, and C.R. Tyler|Assessing the Biological Potency of Binary Mixtures of Environmental Estrogens Using Vitellogenin Induction in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Technol.35(12): 2476-2481|2001|10.1021/es001767u
58050|A||Clark,E.J., D.O. Norris, and R.E. Jones|Interactions of Gonadal Steroids and Pesticides (DDT, DDE) on Gonaduct Growth in Larval Tiger Salamanders, Ambystoma tigrinum|Gen. Comp. Endocrinol.109(1): 94-105|1998|10.1006/gcen.1997.7013
58051|T||Jentschke,G., H. Schlegel, and D.L. Godbold|The Effect of Aluminium on Uptake and Distribution of Magnesium and Calcium in Roots of Mycorrhizal Norway Spruce Seedlings|Physiol. Plant. (Multiple Languages)82:266-270|1991|10.1111/j.1399-3054.1991.tb00092.x
58053|A||Fortin,C., and P.G.C. Campbell|Silver Uptake by the Green Alga Chlamydomonas reinhardtii in Relation to Chemical Speciation:  Influence of Chloride|Environ. Toxicol. Chem.19(11): 2769-2778|2000|10.1002/etc.5620191123
58054|T||Ronis,M.J.J., T.M. Badger, S.J. Shema, P.K. Roberson, and F. Shaikh|Effects on Pubertal Growth and Reproduction in Rats Exposed to Lead Perinatally or Continuously Throughout Development|J. Toxicol. Environ. Health53(4): 327-341|1998|10.1080/009841098159312
58058|A||Hampson,M.A.|Uptake of Radioactivity by Aquatic Plants and Location in the Cells.  I.  The Effect of pH on the Strontium-90 and Yttrium-90 Uptake by the Green Alga Ulva lactuca and the Effect of Stable Yttrium on Yttrium-90 Uptake|J. Exp. Bot.18(54): 17-33|1967|10.1093/jxb/18.1.17
58059|T||Koval,P.J., T.J. Peterle, and J.D. Harder|Effects of Polychlorinated Biphenyls on Mourning Dove Reproduction and Circulating Progesterone Levels|Bull. Environ. Contam. Toxicol.39(4): 663-670|1987|10.1007/BF01698460
58060|T||Zimmerman,P.W., and W. Crocker|Toxicity of Air Containing Sulphur Dioxide Gas|Contrib. Boyce Thompson Inst.6:455-470|1934|
58062|T||Hart,A.D.M., and H.M. Thompson|Significance of Regurgitation in Avian Toxicity Tests|Bull. Environ. Contam. Toxicol.54(6): 789-796|1995|10.1007/BF00197960
58063|T||Stouvenakers,N., J.L. Hugla, G. Goffinet, P. Kremers, and J.P. Thome|Effects on PCBs on Liver Ultrastructure and Monooxygenase Activities in Japanese Quail|Bull. Environ. Contam. Toxicol.56(5): 839-846|1996|10.1007/s001289900122
58064|T||Solecki,R., A.S. Faqi, R. Pfeil, and V. Hilbig|Effects of Methyl Parathion on Reproduction in the Japanese Quail|Bull. Environ. Contam. Toxicol.57(6): 902-908|1996|10.1007/s001289900275
58065|A||Blazquez,M., A. Felip, S. Zanuy, M. Carrillo, and F. Piferrer|Critical Period of Androgen-Inducible Sex Differentiation in a Teleost Fish, the European Sea Bass|J. Fish Biol.58(2): 342-358|2001|
58066|T||Miranda,C.L., M.C. Henderson, J.L. Wang, H.S. Nakaue, and D.R. Buhler|Comparative Effects of the Polychlorinated Biphenyl Mixture, Aroclor 1242, on Porphyrin and Xenobiotic Metabolism in Kidney of Japanese Quail and Rat|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 149-152|1992|10.1016/0742-8413(92)90244-2
58067|T||Cacini,W., and I.M. Fink|Toxicity and Excretion of Cisplatin in the Avian Kidney|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(2): 343-350|1995|
58068|A||Close,P.G., C.G. Barlow, and L.J. Rodgers|Early Ontogeny of Coal Grunter from Hormone-Induced Spawnings and Laboratory-Reared Embryos and Larvae|J. Fish Biol.58(4): 928-942|2001|
58069|A||Harris,C.A., E.M. Santos, A. Janbakhsh, T.G. Pottinger, C.R. Tyler, and J.P. Sumpter|Nonylphenol Affects Gonadotropin Levels in the Pituitary Gland and Plasma of Female Rainbow Trout|Environ. Sci. Technol.35(14): 2909-2916|2001|10.1021/es0002619
58070|A||Sohoni,P., C.R. Tyler, K. Hurd, J. Caunter, M. Hetheridge, T. Williams, C. Woods, M. Evans, R. Toy, M. Gargas, and J.P.|Reproductive Effects of Long-Term Exposure to Bisphenol A in the Fathead Minnow (Pimephales promelas)|Environ. Sci. Technol.35(14): 2917-2925|2001|10.1021/es000198n
58072|A||Melo,A.C., and J.S. Ramsdell|Sexual Dimorphism of Brain Aromatase Activity in Medaka:  Induction of a Female Phenotype by Estradiol|Environ. Health Perspect.109(3): 257-264|2001|10.1289/ehp.01109257
58073|A||Cheek,A.O., T.H. Brouwer, S. Carroll, S. Manning, J.A. McLachlan, and M. Brouwer|Experimental Evaluation of Vitellogenin as a Predictive Biomarker for Reproductive Disruption|Environ. Health Perspect.109(7): 681-689|2001|10.1289/ehp.01109681
58074|T||Nosek,J.A., J.R. Sullivan, S.R. Craven, A. Gendron-Fitzpatrick, and R.E. Peterson|Embryotoxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Ring-Necked Pheasant|Environ. Toxicol. Chem.12(7): 1215-1222|1993|
58076|T||Martin,P.A., D.L. Johnson, and D.J. Forsyth|Effects of Grasshopper-Control Insecticides on Survival and Brain Acetylcholinesterase of Pheasant (Phasianus colchicus) Chicks|Environ. Toxicol. Chem.15(4): 518-524|1996|
58078|A||Brooke,L.T.|Repeat Toxicity Tests of the Amphipod, Gammarus pseudolimnaeus, with Selenite and Selenate|July 20th Letter to C.Stephan, U.S.EPA, Duluth, MN, from L.Brooke, Ctr.for Lake Cuperior Environ.Stud., Univ.of Wisconsin-Superior, Superior, WI:6 p.|1987|
58080|T||Miles,J.R.W., W.W. Sans, H.B. Wressell, and G.F. Manson|Growth-Dilution as a Factor in the Decline of Pesticide Residues on Alfalfa-Grass Forage|Can. J. Plant Sci.44(1): 37-41|1964|10.4141/cjps64-007
58081|T||Tanaka,A., and S.A. Navasero|Aluminum Toxicity of the Rice Plant Under Water Culture Conditions|Soil Sci. Plant Nutr.12(2): 9-14|1966|10.1080/00380768.1966.10431183
58082|T||Wang,X., C. Sun, L. Wang, and S. Han|Quantitative Structure-Activity Relationships: Comparative Inhibition of Nitrogen-Containing Aromatics on Germination of Cucumis sativus|Environ. Toxicol. Chem.20(4): 913-916|2001|
58083|T||Parker,D.R., J.F. Pedler, Z.A.S. Ahnstrom, and M. Resketo|Reevaluating the Free-Ion Activity Model of Trace Metal Toxicity Toward Higher Plants:  Experimental Evidence with Copper and Zinc|Environ. Toxicol. Chem.20(4): 899-906|2001|
58086|T||Hewitt,E.J.|The Resolution of the Factors in Soil Acidity:  The Relative Effects of Aluminium and Manganese Toxicities on Farm and Market Garden Crops|Annu.Rep.Agric.Hortic.Res.Sta., Long Ashton, Bristol, England:82-96|1947|
58088|T||Zylicz,E., R. Zablotna, J. Geisler, and Z. Szot|Effects of DTPA on the Deposition of 65Zn, 60Co and 144Ce in Pregnant Rat and in Foetoplacental Unit|Int. J. Radiat. Biol.28(2): 125-136|1975|
58091|T||Sheline,G.E., I.L. Chaikoff, and M.L. Montgomery|The Elimination of Administered Cobalt in Pancreatic Juice and Bile of the Dog, as Measured with Its Radioactive Isotopes|Am. J. Physiol.145:285-290|1946|10.1152/ajplegacy.1946.145.3.285
58092|T||Setzer,A.K., and B. Slotnick|Disruption of Axonal Transport from Olfactory Epithelium by 3-Methylindole|Physiol. Behav.65(3): 479-487|1998|10.1016/S0031-9384(98)00185-1
58093|T||Jamroz,R.C., F.D. Guerrero, D.M. Kammlah, and S.E. Kunz|Role of the kdr and Super-kdr Sodium Channel Mutations in Pyrethroid Resistance:  Correlation of Allelic Frequency to Resistance Level in Wild and Laboratory Populations of Horn Flies (Haematobia irritans)|Insect Biochem. Mol. Biol.28(12): 1031-1037|1998|10.1016/S0965-1748(98)00094-0
58094|T||El Hani,A., J.R. Mason, D.L. Nolte, and R.H. Schmidt|Flavor Avoidance Learning and Its Implications in Reducing Strychnine Baiting Hazards to Nontarget Animals|Physiol. Behav.64(5): 585-589|1998|10.1016/S0031-9384(98)00076-6
58095|T||Mccully,K.A., D.C. Villeneuve, W.P. McKinley, W.E.J. Phillips, and M. Hidiroglou|Metabolism and Storage of DDT in Beef Cattle|J. Assoc. Off. Agric. Chem.49(5): 966-973|1966|
58096|T||Norseth,T., J. Alexander, J. Aaseth, and S. Langard|Biliary Excretion of Chromium in the Rat:  A Role of Glutathione|Acta Pharmacol. Toxicol.51:450-455|1982|10.1111/j.1600-0773.1982.tb01052.x
58097|T||Bishop,J.L., and J.T. Huber|Secretion of Telodrin in the Milk of Cows fed Varying Levels of Telodrin|J. Dairy Sci.47:552-554|1964|10.3168/jds.S0022-0302(64)88711-7
58098|T||Matsusaka,N., D. Berg, and W.E. Kollmer|Influence of Changing Zn Supply on 65Zn Absorption and Retention in Rats|In: C.F.Mills, I.Bremner, and J.K.Chesters (Eds.), Trace Elements in Man and Animals, Commonwealth Agric.Bur., Slough:394-397|1985|
58099|T||Hopfer,S.M., F.W.Jr. Sunderman, T.N. Fredrickson, and E.E. Morse|Nickel-Induced Erythrocytosis:  Efficacies of Nickel Compounds and Susceptibilities of Rat Strains|Ann. Clin. Lab. Sci.8(5): 396-402|1978|
58101|T||Horak,E., F.W.Jr. Sunderman, and B. Sarkar|Comparisons of Antidotal Efficacy of Chelating Drugs upon Acute Toxicity of Ni(II) in Rats|Res. Commun. Chem. Pathol. Pharmacol.14(1): 153-165|1976|
58102|T||Spears,J.W., and E.E. Hatfield|Nickel for Ruminants.  I.  Influence of Dietary Nickel on Ruminal Urease Activity|J. Anim. Sci.47(6): 1345-1350|1978|10.2527/jas1978.4761345x
58106|T||Davich,T.B., A.S. Tombes, and R.H. Carter|Insecticide Control of Green June Beetle Larvae Attacking Ladino Clover Pastures:  Residues on Foilage and Accumulation in Swine Tissue|J. Econ. Entomol.50(1): 96-100|1957|10.1093/jee/50.1.96
58107|T||Sahu,S.K., G.N. Mitra, and S.C. Pani|Effect of Zn Sources on Uptake Zn and Other Macronutrients by Rice on Vertisol|J. Indian Soc. Soil Sci.42(3): 487-489|1994|
58110|T||Yang,H.H., R.J. Aulerich, W. Helferich, B. Yamini, K.C. Chou, E.R. Miller, and S.J. Bursian|Effects of Zearalenone and/or Tamoxifen on Swine and Mink Reproduction|J. Appl. Toxicol.15(3): 223-232|1995|10.1002/jat.2550150314
58113|T||Morikawa,K.|The Effect of the Soil-Mesofauna by the Scattering of the Insecticide from the Helicopter Against the Japanese Pine Sawyer|Rev. Ecol. Biol. Sol13(1): 43-46|1976|
58114|T||Mustapha,J., and S.B. Hill|Short-Term Effects of Diazinon on Soil Arthropods|Rev. Ecol. Biol. Sol11(2): 197-200|1974|
58115|T||Johansen,C., E.R. Jaycox, and R. Hutt|The Effect of Pesticides on the Alfalfa Leafcutting Bee, Megachile rotundata|Wash. Agric. Exp. Stn. Bull.418:12 p.|1963|
58118|T||Peakall,D.B.|Pesticide-Induced Enzyme Breakdown of Steroids in Birds|Nature216(4): 505-506|1967|10.1038/216505a0
58119|T||Azevedo,J.A.,Jr., E.G. Hunt, and L.A.,Jr. Woods|Physiological Effects of DDT on Pheasants|Calif. Fish Game51(4): 276-293|1965|
58121|T||Varghese,R.G., S.J. Bursian, C. Tobias, and D.,Jr. Tanaka|Organophosphorus-Induced Delayed Neurotoxicity:  A Comparative Study of the Effects of Tri-Ortho-Tolyl Phosphate and Triphenyl Phosphite on the Central Nervous System of the Japanese Quail|Neurotoxicology16(1): 45-54|1995|
58122|T||Clawson,S.G., and M.F. Baker|Immediate Effects of Dieldrin and Heptachlor on Bobwhites|J. Wildl. Manag.23(2): 215-219|1959|10.2307/3797643
58124|T||Bergstrand,J., and W.D. Klimstra|"Toxicity of ""Dybar"" to Bobwhite Quail"|J. Wildl. Manag.26(3): 325-327|1962|10.2307/3798709
58125|T||Goldman,D., and A. Yawetz|Cytochrome P-450 Mediated Metabolism of Progesterone by Adrenal Microsomes of PCB-Treated and Untreated Barn Owl (Tyto alba) and Marsh Turtle (Mauremys caspica) in Comparison with the Guinea-Pig|Comp. Biochem. Physiol. C Comp. Pharmacol.99(1/2): 251-255|1991|10.1016/0742-8413(91)90107-5
58127|T||Rosene,W.,Jr.|Effects of Field Applications of Heptachlor on Bobwhite Quail and Other Wild Animals|J. Wildl. Manag.29:554-580|1965|10.2307/3798056
58129|T||Finley,R.B.,Jr.|Adverse Effects on Birds of Phosphamidon Applied to a Montana Forest|J. Wildl. Manag.29(3): 580-591|1965|10.2307/3798057
58130|T||Kreitzer,J.F., and J.W. Spann|Mortality Among Bobwhites Confined to a Heptachlor Contaminated Environment|J. Wildl. Manag.32(4): 874-878|1968|10.2307/3799564
58131|T||Hoffman,R.S., R.G. Janson, and F. Hartkorn|Effect on Grouse Populations of DDT Spraying for Spruce Budworm|J. Wildl. Manag.22(1): 92-93|1958|10.2307/3797304
58132|T||Ferguson,D.E.|Some Ecological Effects of Heptachlor on Birds|J. Wildl. Manag.28(1): 158-163|1964|10.2307/3797945
58133|T||Neave,D.J., and B.S. Wright|The Effects of Weather and DDT Spraying on a Ruffed Grouse Population|J. Wildl. Manag.33(4): 1015-1020|1969|10.2307/3799341
58136|T||Prasse,I., G. Makhulla, and K. Gelmeke|Effect of Herbicides on the Structure of the Complex of Soil-Inhabiting Microarthropods|Sov. J. Ecol.9:228-237|1978|
58137|T||Gannon,N., and G.C. Decker|The Excretion of Dieldrin, DDT, and Heptachlor Epoxide in Milk of Dairy Cows fed on Pastures Treated with Dieldrin, DDT, and Heptachlor|J. Econ. Entomol.53:411-415|1960|10.1093/jee/53.3.411
58138|T||Cunningham,G.N., M.B. Wise, and E.R. Barrick|Effect of High Dietary Levels of Manganese on the Performance and Blood Constituents of Calves|J. Anim. Sci.25:532-538|1966|10.2527/jas1966.252532x
58139|T||Ely,R.E., L.A. Moore, R.H. Carter, and B.A. App|Excretion of Endrin in the Milk of Cows Fed Endrin-Sprayed Alfalfa and Technical Endrin|J. Econ. Entomol.50:348-349|1957|10.1093/jee/50.3.348
58140|T||Hardee,D.D., W.H. Gutenmann, G.I. Keenan, G.G. Gyrisco, D.J. Lisk, F.H. Fox, G.W. Trimberger, and R.F. Holland|Residues of Heptachlor Epoxide and Telodrin in Milk from Cows fed at Part per Billion Insecticide Levels|J. Econ. Entomol.56(3): 404-407|1964|10.1093/jee/57.3.404
58141|T||Fahey,J.E., and T.A. Brindley|DDT Residues in Fat from Steers Pastured on Corn Stover in DDT-Treated Fields|J. Econ. Entomol.48(5): 606-607|1953|10.1093/jee/48.5.606
58142|T||Telib,M.|Effects of Cobaltous Chloride in Laboratory Animals:  I.  The Histological and Electron Microscopical Changes in the Islets of Rabbits|Endokrinologie60(1): 81-102|1972|
58143|T||Harris,J.R., G.E. Stoddard, G.Q. Bateman, J.L. Shupe, D.A. Greenwood, L.E. Harris, T.L. Bahler, and F.V. Lieberman|Effects of Feeding Dieldrin- and Heptachlor-Treated Alfalfa Hay to Dairy Cows|J. Agric. Food Chem.4:694-696|1956|10.1021/jf60066a004
58145|T||Zile,M.H., C. Summer, R. Aulerich, S.J. Bursian, D.E. Tillitt, J.P. Giesy, and T.J. Kubiak|Retinoids in Eggs and Embryos of Birds Fed Fish from the Great Lakes|Environ. Toxicol. Pharmacol.3(4): 277-288|1997|10.1016/S1382-6689(97)00028-8
58146|T||Achazi,R.K., G. Chroszcz, C. Duker, M. Henneken, B. Rothe, K. Schaub, and I. Steudel|The Effect of Fluoranthene (Fla), Benzo(a)pyrene (BaP) and Cadmium (Cd) upon Survival Rate and Life Cycle Parameters of Two Terrestrial Annelids in Laboratory Test Systems|Newsl. Enchytraeidae4:7-14|1995|
58147|T||Genovese,G.A.|Toxicity of Copper and Nickel to Some Coniferous Seedlings|M.S. Thesis, University of Toronto, Ontario, Canada:38 p.|1978|
58148|T||Nicholas,D.J.D.|Some Effects of Metals in Excess on Crop Plants Grown in Soil Culture.  I.  Effects of Copper, Zinc, Lead, Cobalt, Nickel and Manganese on Tomato Grown in an Acid Soil|Bristol Agric.Hortic.Res.Stn.Annu.Rep.1950:96-108|1950|
58149|T||Kulich,J., and R. Kulichova|Comparison of the Phytotoxicity of Arsenic and Lead (Porovnanie Fytotoxicity Arzenu a Olova)|Agriculture (Lond.)30(2): 109-117|1984|
58150|T||Kiritani,K.|Strategy in Integrated Control of Rice Pests|Rev. Plant Prot. Res.5:76-104|1972|
58151|T||Vergnano,O., and J.G. Hunter|Nickel and Cobalt Toxicities in Oat Plants|Ann. Bot.17(66): 317-328|1952|
58163|T||Wingo,C.W.|Persistence and Degradation of Dieldrin and Heptachlor in Soil and Effects on Plants|Mo. Agric. Exp. Stn. Res. Bull.914:27 p.|1966|
58164|T||Gammon,N.,Jr.|Persistence of ZnS in Leon Fine Sand and Its Relative Availability to Plants|Proc. Soil Crop Sci. Soc. Fla.34:52-54|1975|
58165|T||Wildung,R.E., T.R. Garland, and D.A. Cataldo|Preliminary Studies on the Uptake of Technetium by Soybeans|U.S.ERDA Rep.No.BNWL-1950, Part 2, Natl.Tech.Inf.Serv., Springfield, VA:41-43|1974|
58167|AT||Yu,C.C., G.M. Booth, D.J. Hansen, and J.R. Larsen|Fate of Carbofuran in a Model Ecosystem|J. Agric. Food Chem.22(3): 431-434|1974|10.1021/jf60193a036
58169|T||Blue,W.G., and M. Rodriguez-Gomez|Effect of Sodium and Lime on Pangola Digitgrass Growth on Leon Fine Sand|Proc. Soil Crop Sci. Soc. Fla.34:66-68|1975|
58170|T||Martin,N.A.|The Effects of Herbicides Used on Asparagus on the Growth Rate of the Earthworm Allolobophora caliginosa|Proc. N. Z. Weed Pest Control Conf.:328-331|1982|10.30843/nzpp.1982.35.10579
58171|T||Swiader,J.M.|Iron and Zinc Absorption Characteristics and Copper Inhibitions in Cucurbitaceae|J. Plant Nutr.8(10): 921-931|1985|10.1080/01904168509363395
58172|T||Cakmak,I., and W.J. Horst|Effect of Aluminium on Lipid Peroxidation, Superoxide Dismutase, Catalase, and Peroxidase Activities in Root Tips of Soybean (Glycine max)|Physiol. Plant. (Multiple Languages)83:463-468|1991|10.1111/j.1399-3054.1991.tb00121.x
58173|T||Ismail,A.S.S., and F. Awad|Effect of Certain Ions on Growth and Uptake of Iron and Zinc by Barley Seedlings Grown on Alluvial Soil|J. Plant Nutr.9(3-7): 297-306|1986|10.1080/01904168609363446
58174|T||Smith,R.L., and K.S.M. Shoukry|Changes in the Zinc Distribution Within Three Soils and Zinc Uptake by Field Beans Caused by Decomposing Organic Matter|In: Isotopes and Radiation in Soil Organic Matter Studies, IAEA, Vienna, Australia:397-410|1968|
58175|T||He,Q.B., and B.R. Singh|Crop Uptake of Cadmium from Phosphorus Fertilizers:  II.  Relationship with Extractable Soil Cadmium|Water Air Soil Pollut.74(3-4): 267-280|1994|10.1007/BF00479794
58177|T||Weber-Lotfi,F., A. Pfohl-Leszkowicz, G. Keith, D.T.N. Pillay, A. Dietrich, B. Rether, and P. Guillemaut|Formation of Abnormal Hypermodified Nucleotides on Plant DNA upon Xenobiotic Action|Plant Sci.86(1): 13-19|1992|10.1016/0168-9452(92)90174-K
58178|T||Cataldo,D.A., R.E. Wildung, and T.R. Garland|Accumulation of Technetium from Soil by Plants.  II.  Potential Mechanisms for Uptake and Toxicity|U.S.ERDA Rep.No.BNWL-2000, Part 2, Natl.Tech.Inf.Serv., Springfield, VA:40-42|1975|
58188|T||Jasmin,G., and J.L. Riopelle|Renal Carcinomas and Erythrocytosis in Rats Following Intrarenal Injection of Nickel Subsulfide|Lab. Invest.35(1): 71-78|1976|
58189|T||Shabaan,A.A., V. Marks, M.C. Lancaster, and G.N. Dufeu|Fibrosarcomas Induced by Cobalt Chloride (CoCl2) in Rats|Lab. Anim. (Lond.)11:43-46|1977|10.1258/002367777780959157
58191|T||Callan,W.M., and F.W.Jr. Sunderman|Species Variations in Binding of 63Ni(II) by Serum Albumin|Res. Commun. Chem. Pathol. Pharmacol.5(2): 459-472|1973|
58192|T||Gannon,N., R.P. Link, and G.C. Decker|Storage of Dieldrin in Tissues and Its Excretion in Milk of Dairy Cows fed Dieldrin in Their Diets|J. Agric. Food Chem.7(12): 824-826|1959|10.1021/jf60106a001
58193|T||Gannon,N., R.P. Link, and G.C. Decker|Storage of Dieldrin in Tissues of Steers, Hogs, Lambs, and Poultry fed Dieldrin in Their Diets|J. Agric. Food Chem.7(12): 826-828|1959|10.1021/jf60106a002
58194|T||Franke,K.W., and A.L. Moxon|The Toxicity of Orally Ingested Arsenic, Selenium, Tellurium, Vanadium and Molybdenum|J. Pharmacol. Exp. Ther.61:89-102|1937|
58195|T||Drouillard,K.G., and R.J. Norstrom|Quantifying Maternal and Dietary Sources of 2,2',4,4',5,5'-Hexachlorobiphenyl Deposited in Eggs of the Ring Dove (Streptopelia risoria)|Environ. Toxicol. Chem.20(3): 561-567|2001|
58196|T||Sayato,Y., K. Nakamuro, S. Matsui, and M. Ando|Metabolic Fate of Chromium Compounds.  I.  Comparative Behavior of Chromium in Rat Administered with Na251CrO4 and 51CrCl3|J. Pharmacobio-Dyn.3:17-23|1980|10.1248/bpb1978.3.17
58198|T||Heath,R.G., J.W. Spann, J.F. Kreitzer, and C. Vance|Effects of Polychlorinated Biphenyls on Birds|In: K.H.Voous (Ed.), Proc.15th Int.Ornithological Congress, Aug.30-Sept.5, 1970, The Hague, Netherlands:475-485|1972|
58199|T||Fernie,K.J., J.E. Smits, G.R. Bortolotti, and D.M. Bird|Reproduction Success of American Kestrels Exposed to Dietary Polychlorinated Biphenyls|Environ. Toxicol. Chem.20(4): 776-781|2001|10.1002/etc.5620200412
58202|T||Miranda,C.L., M.C. Henderson, J.L. Wang, H.S. Nakaue, and D.R. Buhler|Effects of Polychlorinated Biphenyls on Porphyrin Synthesis and Cytochrome P-450-Dependent Monooxygenases in Small Intestine and Liver of Japanese Quail|J. Toxicol. Environ. Health20:27-35|1987|10.1080/15287398709530959
58206|AT||Sine,C.|Farm Chemicals Handbook|Farm Chemicals Handbook, Meister Publications Co., Willoughby, OH:|1994|
58207|AT||Lewis,R.L., and D.V. Sweet|Registry of Toxic Effects of Chemical Substances (Fiche)|U.S.Dep.Health Human Serv., Ctr.for Dis.Control, Natl.Inst.for Occup.Saf.and Health, Cincinnati, OH:|1990|
58208|T||Rader,J.I., J.T. Peeler, and K.R. Mahaffey|Comparative Toxicity and Tissue Distribution of Lead Acetate in Weanling and Adult Rats|Environ. Health Perspect.42:187-195|1981|10.1289/ehp.8142187
58209|T||Hammond,P.B., D.J. Minnema, and P.A. Succop|Reversibility of Lead-Induced Depression of Growth|Toxicol. Appl. Pharmacol.123(1): 9-15|1993|10.1006/taap.1993.1215
58210|T||Ronis,M.J.J., T.M. Badger, S.J. Shema, P.K. Roberson, and F. Shaikh|Reproductive Toxicity and Growth Effects in Rats Exposed to Lead at Different Periods During Development|Toxicol. Appl. Pharmacol.136(2): 361-371|1996|10.1006/taap.1996.0044
58211|T||Cernochova,D., and V. Kamarad|Toxic Effect of Lead on Mice Testicles After Its Administration with Drinking Water|Acta Univ. Palacki. Olomuc. Fac. Med.133:9-13|1992|
58212|T||Dilts,P.V.,Jr., and R.A. Ahokas|Effects of Dietary Lead and Zinc on Pregnancy|Am. J. Obstet. Gynecol.135(7): 940-946|1979|10.1016/0002-9378(79)90820-2
58213|T||Ronis,M.J., J. Gandy, and T. Badger|Endocrine Mechanisms Underlying Reproductive Toxicity in the Developing Rat Chronically Exposed to Dietary Lead|J. Toxicol. Environ. Health54(2): 77-99|1998|10.1080/009841098158935
58214|T||Ronis,M.J.J., T.M. Badger, S.J. Shema, P.K. Roberson, L. Templer, D. Ringer, and P.E. Thomas|Endocrine Mechanisms Underlying the Growth Effects of Developmental Lead Exposure in the Rat|J. Toxicol. Environ. Health54(2): 101-120|1998|10.1080/009841098158944
58215|T||Aviv,A., E. John, J. Bernstein, D.I. Goldsmith, and A. Spitzer|Lead Intoxication During Development: Its Late Effects on Kidney Function and Blood Pressure|Kidney Int.17(4): 430-437|1980|10.1038/ki.1980.51
58216|T||Agodi,A., M. Viola, M. Alberghina, and A.M.G. Stella|Effect of Low-Dose Lead Acetate Exposure on the Metabolism of Nucleic Acids and Lipids in Cerebellum and Hippocampus of Rat During Postnatal Development|J. Neurosci. Res.25(1): 131-138|1990|10.1002/jnr.490250117
58217|T||Dobryszycka,W., B. Zawirska, H. Owczarek, M. Grzebieluch, and T. Dzik|Morphological and Biochemical Effects of Chronic Low Level Cadmium and Lead Feeding to Rats|Acta Pol. Pharm.41(1): 111-115|1984|
58218|T||Barratt,C.L.R., A.G. Davies, M.R. Bansal, and M.E. Williams|The Effects of Lead on the Male Rat Reproductive System|Andrologia (Berl.)21(2): 161-166|1989|10.1111/j.1439-0272.1989.tb02388.x
58219|T||Cookman,G.R., W. King, and C.M. Regan|Chronic Low-Level Lead Exposure Impairs Embryonic to Adult Conversion of the Neural Cell Adhesion Molecule|J. Neurochem.49(2): 399-403|1987|10.1111/j.1471-4159.1987.tb02879.x
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58230|T||Bataineh,H., M.H. Al-Hamood, and A.M. Elbetieha|Assessment of Aggression, Sexual Behavior and Fertility in Adult Male Rat Following Long-Term Ingestion of Four Industrial Metals Salts|Hum. Exp. Toxicol.17(10): 570-576|1998|10.1177/096032719801701008
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58232|T||Donald,J.M., M.G. Cutler, and M.R. Moore|Effects of Lead in the Laboratory Mouse.  Development and Social Behaviour After Lifelong Exposure to 12 uM Lead in Drinking Fluid|Neuropharmacology26(4): 391-399|1987|10.1016/0028-3908(87)90194-8
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58280|T||Anderson,T.A.|Comparative Plant Uptake and Microbial Degradation of Trichloroethylene in the Rhizospheres of Five Plant Species-Implications for Bioremediation of Contaminated Surface Soils|Ph.D Thesis, University of Tennessee, Knoxville, TN:187 p.|1991|
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58314|T||Sparling,D.W., M. Gustafson, P. Klein, and N. Karouna-Renier|Toxicity of White Phosphorus to Waterfowl:  Acute Exposure in Mallards|J. Wildl. Dis.33(2): 187-197|1997|10.7589/0090-3558-33.2.187
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58320|T||Menke,K.H., and M. Sarif-Sarban|Incorporation of Cobalt into Nucleic Acids of the Chick Embryo|Nature212(5064): 821-822|1966|10.1038/212821a0
58321|T||Jacobsen,N., I. Alfheim, and J. Jonsen|Nickel and Strontium Distribution in Some Mouse Tissues:  Passage Through Placenta and Mammary Glands|Res. Commun. Chem. Pathol. Pharmacol.20(3): 571-584|1978|
58322|T||Saint-Denis,M., J.F. Narbonne, C. Arnaud, and D. Ribera|Biochemical Responses of the Earthworm Eisenia fetida andrei Exposed to Contaminated Artificial Soil:  Effects of Lead Acetate|Soil Biol. Biochem.33:395-404|2001|10.1016/S0038-0717(00)00177-2
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58325|T||Singh,M., and A.N. Pathak|Effects of Manganese and Iron Application on Their Solubility, Absorption and Growth of Oat Plants|Agrochimica12(4): 382-388|1968|
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58333|T||Cunningham,L.M.|The Uptake and Distribution of Cadmium in Growing Soybean|M.S. Thesis, University of Toronto, Ontario, Canada:146 p.|1977|
58334|T||Schuster,J.L.|Plains Pricklypear Control by Night Applications of Phenoxy Herbicides|Proc. South. Weed Sci. Soc.23:245-249|1970|
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58349|T||Gupta,G.S., J. Singh, and P. Parkash|Renal Toxicity After Oral Administration of Lead Acetate During Pre- and Post-Implantation Periods:  Effects on Trace Metal Composition, Metallo-Enzymes and Glutathione|Pharmacol. Toxicol.76(3): 206-211|1995|10.1111/j.1600-0773.1995.tb00131.x
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58353|T||Hsu,J.M.|Lead Toxicity as Related to Glutathione Metabolism|J. Nutr.111(1): 26-33|1981|10.1093/jn/111.1.26
58354|T||Hubermont,G., J.P. Buchet, H. Roels, and R. Lauwerys|Effect of Short-Term Administration of Lead to Pregnant Rats|Toxicology5(3): 379-384|1976|10.1016/0300-483X(76)90056-1
58355|T||Jacquet,P.|Early Embryonic Development in Lead-intoxicated Mice|Arch. Pathol. Lab. Med.101(12): 641-643|1977|
58356|T||Jacquet,P., G.B. Gerber, A. Leonard, and J. Maes|Plasma Hormone Levels in Normal and Lead-Treated Pregnant Mice|Experientia33(10): 1375-1377|1977|10.1007/BF01920190
58357|T||Jacquet,P., A. Leonard, and G.B. Gerber|Action of Lead on Early Divisions of the Mouse Embryo|Toxicology6(1): 129-132|1976|10.1016/0300-483X(76)90014-7
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58360|T||Krigman,M.R., M.J. Druse, T.D. Traylor, M.H. Wilson, L.R. Newell, and E.L. Hogan|Lead Encephalopathy in the Developing Rat:  Effect upon Myelination|J. Neuropathol. Exp. Neurol.33(1): 58-73|1974|10.1097/00005072-197401000-00005
58361|T||Mahaffey,K.R., R. Goyer, and J.K. Haseman|Dose-Response to Lead Ingestion in Rats fed Low Dietary Calcium|J. Lab. Clin. Med.82(1): 92-100|1973|
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58364|T||Maxfield,M.E., G.J. Stopps, J.R. Barnes, R.D. Snee, M. Finan, and A. Azar|Recovery of Blood Lead Concentration and of Red Cell 8-Aminolevulinic Acid Dehydrase Activity in Dogs Following Return to Normal Diets After 75 Weeks of Lead Feeding|Am. Ind. Hyg. Assoc. J.36(3): 193-206|1975|10.1080/0002889758507235
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58366|T||McConnell,P., and M. Berry|The Effects of Postnatal Lead Exposure on Purkinje Cell Dendritic Development in the Rat|Neuropathol.Appl.Neurobiol.5(2): 115-132|1979|10.1111/j.1365-2990.1979.tb00665.x
58367|T||Miller,C.D., W.B. Buck, F.B. Hembrough, and W.L. Cunningham|Fetal Rat Development as Influenced by Maternal Lead Exposure|Vet. Hum. Toxicol.24(3): 163-166|1982|
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58373|T||Pal,D.R., J. Chatterjee, and G.C. Chatterjee|Influence of Lead Administration on L-Ascorbic Acid Metabolism in Rats: Effect of L-Ascorbic Acid Supplementation|Int. J. Vitam. Nutr. Res.45(4): 429-437|1975|
58374|T||Pentschew,A., and F. Garro|Lead Encephalo-Myelopathy of the Suckling Rat and Its Implications on the Porphyrinopathic Nervous Diseases. With Special Reference to the Permeability Disorders of the Nervous System's Capillaries|Acta Neuropathol.6(3): 266-278|1966|10.1007/BF00687857
58375|T||Petit,T.L., and J.C. LeBoutillier|Effects of Lead Exposure During Development on Neocortical Dendritic and Synaptic Structure|Exp. Neurol.64(3): 482-492|1979|10.1016/0014-4886(79)90226-7
58376|T||Piasecka,M., L. Rozewicka, M. Laszczynska, and M. Marchlewicz|Electron-Dense Deposits in Epididymal Cells of Rats Chronically Treated with Lead Acetate (Pb(II))|Folia Histochem. Cytobiol.33(2): 89-94|1995|
58377|T||Piasek,M., and K. Kostial|Reversibility of the Effects of Lead on the Reproductive Performance of Female Rats|Reprod. Toxicol.5(1): 45-51|1991|10.1016/0890-6238(91)90109-S
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58380|T||Press,M.F.|Neuronal Development in the Cerebellum of Lead Poisoned Neonatal Rats|Acta Neuropathol.40(3): 259-268|1977|10.1007/BF00691964
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58384|T||Selvin-Testa,A.|Chronic Lead Exposure Induces Alterations on Local Circuit Neurons|Microsc. Electron. Biol. Cel.15(1): 25-40|1991|
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58386|T||Sharma,S., and K.C. Kanwar|Reproductive Performance in Mice Following Lead Administration|Res. Bull. Panjab Univ. Sci.36(3-4): 389-393|1985|
58387|T||Sierra,E.M., and E. Tiffany-Castiglioni|Effects of Low-Level Lead Exposure on Hypothalamic Hormones and Serum Progesterone Levels in Pregnant Guinea Pigs|Toxicology72(1): 89-97|1992|10.1016/0300-483X(92)90088-V
58388|T||Singh,A.K., and M. Ashraf|Neurotoxicity in Rats Sub-Chronically Exposed to Low Levels of Lead|Vet. Hum. Toxicol.31(1): 21-25|1989|
58389|T||Singh,U.S., D.K. Saxena, C. Singh, R.C. Murthy, and S.V. Chandra|Lead-Induced Fetal Nephrotoxicity in Iron-Deficient Rats|Reprod. Toxicol.5(3): 211-217|1991|10.1016/0890-6238(91)90053-I
58390|T||Slomianka,L., J. Rungby, M.J. West, G. Danscher, and A.H. Andersen|Dose-Dependent Bimodal Effect of Low-Level Lead Exposure on the Developing Hippocampal Region of the Rat: A Volumetric Study|Neurotoxicology10(2): 177-190|1989|
58391|T||Sobotka,T.J., and M.P. Cook|Postnatal Lead Acetate Exposure in Rats: Possible Relationship to Minimal Brain Dysfunction|Am. J. Ment. Defic.79(1): 5-9|1974|
58392|T||Sokol,R.Z.|The Effect of Duration of Exposure on the Expression of Lead Toxicity on the Male Reproductive Axis|J. Androl.11(6): 521-526|1990|10.1002/j.1939-4640.1990.tb00191.x
58393|T||Sokol,R.Z.|Hormonal Effects of Lead Acetate in the Male Rat: Mechanism of Action|Biol. Reprod.37(5): 1135-1138|1987|10.1095/biolreprod37.5.1135
58394|T||Sokol,R.Z.|Reversibility of the Toxic Effect of Lead on the Male Reproductive Axis|Reprod. Toxicol.3(3): 175-180|1989|10.1016/0890-6238(89)90004-X
58395|T||Sokol,R.Z., C.E. Madding, and R.S. Swerdloff|Lead Toxicity and the Hypothalamic-Pituitary-Testicular Axis|Biol. Reprod.33(3): 722-728|1985|10.1095/biolreprod33.3.722
58396|T||Sourgens,H., K. Klages, H.P. Bertram, and C. Muller|Gonadal and Thyroid Function After Experimental Lead Exposure|Trace Elem. Med.4(1): 8-12|1987|
58397|T||Spence,I., H. Chen, C. Drew, and G.A.R. Johnston|Effect of Chronic Lead Treatment on the Development of Neuromuscular Connections in the Rat|Neurotoxicology8(3): 403-410|1987|
58398|T||Steiss,J.E., K.G. Braund, and E.G. Clark|Inability to Experimentally Produce a Polyneuropathy in Dogs Given Chronic Oral Low Level Lead|Can. J. Comp. Med.49(4): 401-404|1985|
58399|T||Stewart,P.W., V. Delbagno, J. Ng, R. Burright, and P. Donovick|Subacute Pb Exposure During Development and Unbaited Tunnel Maze Performance in Mice|Pharmacol. Biochem. Behav.59(1): 183-189|1998|10.1016/S0091-3057(97)00412-7
58400|T||Stowe,H.D., and R.A. Goyer|The Reproductive Ability and Progeny of F1 Lead-Toxic Rats|Fertil. Steril.22(11): 755-760|1971|10.1016/S0015-0282(16)38586-7
58401|T||Tafelski,T.J., and A.A. Lamperti|Failure of Lead Acetate to Alter the Reproductive Cycle of Female Rats|IRCS (Int.Res.Commun.Syst.) J.Med.Sci.3(9): 449-|1975|
58402|T||Tian,X., N. Bourjeily, H. Bielarczyk, and J.B. Suszkiw|Reduced Densities of Sodium-Dependent [3H] Hemicholinium-3 Binding Sites in Hippocampus of Developmental Rats Following Perinatal Low-Level Lead Exposure|Brain Res. Dev. Brain Res.86(1-2): 268-274|1995|10.1016/0165-3806(95)00038-F
58403|T||Toews,A.D., W.D. Blaker, D.J. Thomas, J.J. Gaynor, M.R. Krigman, P. Mushak, and P. Morell|Myelin Deficits Produced by Early Postnatal Exposure to Inorganic Lead or Triethyltin are Persistent|J. Neurochem.41(3): 816-822|1983|10.1111/j.1471-4159.1983.tb04813.x
58404|T||Toews,A.D., A. Kolber, J. Hayward, M.R. Krigman, and P. Morell|Experimental Lead Encephalopathy in the Suckling Rat:  Concentration of Lead in Cellular Fractions Enriched in Brain Capillaries|Brain Res.147(1): 131-138|1978|10.1016/0006-8993(78)90777-1
58405|T||Vyskocil,A., M. Cizkova, and I. Tejnorova|Effect of Prenatal and Postnatal Exposure to Lead on Kidney Function in Male and Female Rats|J. Appl. Toxicol.15(4): 327-328|1995|10.1002/jat.2550150416
58406|T||Vyskocil,A., J. Pancl, M. Tusl, E. Ettlerova, V. Semecky, L. Kasparova, R. Lauwerys, and A. Bernard|Dose-Related Proximal Tubular Dysfunction in Male Rats Chronically Exposed to Lead|J. Appl. Toxicol.9(6): 395-399|1989|10.1002/jat.2550090605
58407|T||Vyskocil,A., V. Semecky, Z. Fiala, M. Cizkova, and C. Viau|Renal Alterations in Female Rats Following Subchronic Lead Exposure|J. Appl. Toxicol.15(4): 257-262|1995|10.1002/jat.2550150405
58408|T||Wenda-Rozewicka,L., M. Marchlewicz, B. Barcew-Wiszniewska, and M. Piasecka|The Ultrastructure of the Testis in Rats After Long-Term Treatment with Lead Acetate|Andrologia (Berl.)28(2): 97-102|1996|10.1111/j.1439-0272.1996.tb02763.x
58409|T||White,D.J.|Histochemical and Histological Effects of Lead on the Liver and Kidney of the Dog|Br. J. Exp. Pathol.58(1): 101-112|1977|
58410|T||Wiebe,J.P., and K.J. Barr|Effect of Prenatal and Neonatal Exposure to Lead on the Affinity and Number of Estradiol Receptors in the Uterus|J. Toxicol. Environ. Health24(4): 451-460|1988|10.1080/15287398809531176
58411|T||Wiszniewska,B., M. Marchlewicz, M. Piasecka, L. Wenda-Rozewicka, and M. Swider-Al-Amawi|Phospholipid Content and Lamellar Structures in the Epididymal Epithelial Cells of Rats Treated Chronically with Lead Acetate [Pb(II)]|Folia Biol. (Krakow)46(3-4): 215-224|1998|
58412|T||Zenick,H., F. Pecorraro, D. Price, K. Saez, and J. Ward|Maternal Behavior During Chronic Lead Exposure and Measures of Offspring Development|Neurobehav.Toxicol.1(1): 65-71|1979|
58413|T||Fick,K.R., C.B. Ammerman, S.M. Miller, C.F. Simpson, and P.E. Loggins|Effect of Dietary Lead on Performance, Tissue Mineral Composition and Lead Absorption in Sheep|J. Anim. Sci.42(2): 515-523|1976|10.2527/jas1976.422515x
58414|T||Lassen,E.D., and W.B. Buck|Experimental Lead Toxicosis in Swine|Am. J. Vet. Res.40(10): 1359-1364|1979|
58415|T||Donovick,P.J., and R.G. Burright|Short Term Lead Exposure, Age and Food Deprivation: Interactive Effects on Wheel Running Behavior of Adult Male Mice|Exp. Aging Res.12(3): 163-168|1986|10.1080/03610738608259455
58416|T||Draski,L.J., R.G. Burright, and P.J. Donovick|The Influence of Prenatal and/or Postnatal Exposure to Lead on Behavior of Preweanling Mice|Physiol. Behav.45(4): 711-715|1989|10.1016/0031-9384(89)90283-7
58417|T||Krasovskii,G.N., and S.A. Fridlyand|Experimental Data for the Valadation of the Maximum Permissable Concentration of Cobalt in Water Bodies|Hyg. Sanit.36:277-279|1971|
58418|T||Clasen,R.A., J.F. Hartmann, A.J. Starr, P.S. Coogan, S. Pandolfi, I. Laing, R. Becker, and G.M. Hass|Electron Microscopic and Chemical Studies of the Vascular Changes and Edema of Lead Encephalopathy.  A Comparative Study of the Human and Experimental Disease|Am. J. Pathol.74(2): 215-239|1974|
58419|T||Horwitt,M.K., and G.R. Cowgill|Effects of Minute Amounts of Lead in the Diet of the Dog|Exp. Biol. Med.36(5): 744-746|1937|10.3181/00379727-36-9381P
58420|T||Yu,S.Y., K.M. Mizinga, V.K. Nonavinakere, and K.F.A. Soliman|Decreased Endurance to Cold Water Swimming and Delayed Sexual Maturity in the Rat Following Neonatal Lead Exposure|Toxicol. Lett.85(3): 135-141|1996|10.1016/0378-4274(96)03655-7
58421|T||Latta,D.M., and W.E. Donaldson|Lead Toxicity in Chicks: Interactions with Dietary Methionine and Choline|J. Nutr.116(8): 1561-1568|1986|10.1093/jn/116.8.1561
58422|T||Leeming,T.K., and W.E. Donaldson|Effect of Dietary Methionine and Lysine on the Toxicity of Ingested Lead Acetate in the Chick|J. Nutr.114(11): 2155-2159|1984|10.1093/jn/114.11.2155
58423|T||Majumdar,S.R., S. Sarkar, and A.K. Sarkar|The Effect of Dietary Lead on the Stomach and Intestine of Passer domesticus indicus - a Biochemical Study|Pollut. Res.14(3): 351-355|1995|
58424|T||Mazliah,J., S. Barron, E. Bental, and I. Reznik|The Effect of Chronic Lead intoxication in Mature Chickens|Avian Dis.33(3): 566-570|1989|10.2307/1591121
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58426|T||Scheuhammer,A.M.|Erythrocyte delta-Aminolevulinic Acid Dehydratase in Birds.  II.  The Effects of Lead Exposure In Vivo|Toxicology45(2): 165-175|1987|10.1016/0300-483X(87)90102-8
58428|T||Donaldson,W.E., and C. McGowan|Lead Toxicity in Chickens Interaction with Toxic Dietary Levels of Selenium|Biol. Trace Elem. Res.20(1-2): 127-133|1989|10.1007/BF02919105
58429|T||Alfano,D.P., and T.L. Petit|Neonatal Lead Exposure Alters the Dendritic Development of Hippocampal Dentate Granule Cells|Exp. Neurol.75(2): 275-288|1982|10.1016/0014-4886(82)90160-1
58430|T||Berg,L.R., J.O. Nordstrom, and L.E. Ousterhout|The Prevention of Chick Growth Depression due to Dietary Lead by Increased Dietary Calcium and Phosphorus Levels|Poult. Sci.59(8): 1860-1863|1980|10.3382/ps.0591860
58431|T||Cupo,M.A., and W.E. Donaldson|Effect of Lead and Niacin on Growth and Serotonin Metabolism in Chicks|J. Nutr.118(1): 107-113|1988|10.1093/jn/118.1.107
58432|T||Donald,J.M., M.G. Cutler, M.R. Moore, and M. Bradley|Development and Social Behaviour in Mice After Prenatal and Postnatal Administration of Low Levels of Lead Acetate|Neuropharmacology20(11): 1097-1104|1981|10.1016/0028-3908(81)90102-7
58433|T||Donald,J.M., M.G. Cutler, M.R. Moore, and M. Bradley|Effects of Lead in the Laboratory Mouse  2.  Development and Social Behaviour After Lifelong Administration of a Small Dose of Lead Acetate in Drinking Fluid|Neuropharmacology25(2): 151-160|1986|10.1016/0028-3908(86)90036-5
58434|T||Dyck,P.J., A.J. Windebank, P.A. Low, and W.J. Baumann|Blood Nerve Barrier in Rat and Cellular Mechanisms of Lead-Induced Segmental Demyelination|J. Neuropathol. Exp. Neurol.39(6): 700-709|1980|10.1097/00005072-198011000-00009
58435|T||Edens,F.W.|Whole Brain Acetylcholinesterase Activity in Lead-Exposed Japanese Quail|Poult. Sci.64(7): 1391-1393|1985|10.3382/ps.0641391
58436|T||Epstein,H.T., K. Fenton, and S. Shimpach|Lead Acetate Delays Rapid Postnatal Mouse Brain and Body Growth|Life Sci.49(16): 1169-1172|1991|10.1016/0024-3205(91)90564-R
58437|T||Epstein,H.T., J.T. Newton, and K. Fenton|Lead Effects on Offspring Depend on when Mouse Mothers were Exposed to Lead|Biol. Neonate75(4): 272-278|1999|10.1159/000014104
58438|T||Escribano,A., M. Revilla, E.R. Hernandez, C. Seco, J. Gonzalez-Riola, L.F. Villa, and H. Rico|Effect of Lead on Bone Development and Bone Mass: A Morphometric, Densitometric, and Histomorphometric Study in Growing Rats|Calcif. Tissue Int.60(2): 200-203|1997|10.1007/s002239900214
58439|T||Eweis,E.A., and N.M. Ibrahim|Lead Toxicity in Mice|Vet. Med. J. Giza44(4): 671-678|1996|
58440|T||Cerklewski,F.L., and R.M. Forbes|Influence of Dietary Selenium on Lead Toxicity in the Rat|J. Nutr.106(6): 778-783|1976|10.1093/jn/106.6.778
58441|T||Jeng,S.L., S.J. Lee, Y.F. Liu, S.C. Yang, and P.P. Liou|Effect of Lead Ingestion on Concentrations of Lead in Tissues and Eggs of Laying Tsaiya Ducks in Taiwan|Poult. Sci.76(1): 13-16|1997|10.1093/ps/76.1.13
58442|T||Kawamoto,J.C., V.K. Vijayan, and D.E. Woolley|Morphometric Effects of Exposure to Lead During the Preweaning Period on the Hippocampal Formation of Aging Rats|Neurobiol.Aging5(4): 297-307|1984|10.1016/0197-4580(84)90006-X
58443|T||Kempinas,W.G., T.L. Lamano-Carvalho, S.O. Petenusci, A.L. Viana Favaretto, R.A. Lopes, and R. Azoubel|Functional Disturbance of Rat Sexual Accessory Glands in an Early Phase of Lead intoxication|Gegenbaurs Morphol. Jahrb.134(5): 791-798|1988|
58444|T||Kempinas,W.G., T.L. Lamano-Carvalho, S.O. Petenusci, R.A. Lopes, and R. Azoubel|Morphometric and Stereological Analysis of Rat Testis and Epididymis in an Early Phase of Saturnism|Exp. Biol.48(1): 51-56|1988|
58445|T||Gruber,H.E., H.C. Gonick, F. Khalil-Manesh, T.V. Sanchez, S. Motsinger, M. Meyer, and C.F. Sharp|Osteopenia Induced by Long-Term, Low- and High-Level Exposure of the Adult Rat to Lead|Miner. Electrolyte Metab.23(2): 65-73|1997|
58446|T||Kawamoto,J.C., S.R. Overmann, D.E. Woolley, and V.K. Vijayan|Morphometric Effects of Preweaning Lead Exposure on the Hippocampal Formation of Adult Rats|Neurotoxicology5(3): 125-148|1984|
58447|T||Herman,Z.S., K. Kmieciak-Kolada, R. Szkilnik, W. Felinska, J. Slominska Zurek, B. Bien, R. Winter, J. Bodziony, B. Hebr|Chronic Toxicity of Lead and Cadmium:  III.  Effects of Chronic Intoxication on the Reproductive Function of the F1 Generation of Rats and on the Central Nervous System of the F2 Generation|EPA-600/1-82-006,U.S.EPA, Research Triangle Park, NC:17 p.|1982|
58448|T||Fox,D.A., and L.W.F. Chu|Rods are Selectively Altered by Lead: II. Ultrastructure and Quantitative Histology|Exp. Eye Res.46(4): 613-625|1988|10.1016/S0014-4835(88)80017-4
58449|T||Hasan,F., G.R. Cookman, G.J. Keane, J.G. Bannigan, W.B. King, and C.M. Regan|The Effect of Low Level Lead Exposure on the Postnatal Structuring of the Rat Cerebellum|Neurotoxicol. Teratol.11(5): 433-440|1989|10.1016/0892-0362(89)90020-2
58450|T||Mahaffey,K.R., S.G. Capar, B.C. Gladen, and B.A. Fowler|Concurrent Exposure to Lead, Cadmium, and Arsenic.  Effects on Toxicity and Tissue Metal Concentrations in the Rat|J. Lab. Clin. Med.98(4): 463-481|1981|
58451|T||Brashear,C.W., V.J. Kopp, and M.R. Krigman|Effect of Lead on the Developing Peripheral Nervous System|J. Neuropathol. Exp. Neurol.37(4): 414-425|1978|10.1097/00005072-197807000-00005
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58453|T||Barlow,J.J., J.K. Baruah, and A.N. Davison|Delta-Aminolaevulinic Acid Dehydratase Activity and Focal Brain Haemorrhages in Lead-Treated Rats|Acta Neuropathol.39(3): 219-223|1977|10.1007/BF00691700
58454|T||Carpenter,S.J.|Enhanced Teratogenicity of Orally Administered Lead in Hamsters fed Diets Deficient in Calcium or Iron|Toxicology24(3-4): 259-271|1982|10.1016/0300-483X(82)90008-7
58455|T||Mason,W.H., E.M. EuDaly, and P.S.B. Chiu|65Zn, 59Fe and 54Mn Bioelimination Versus Egg Production in Heliothis zea|In: C.E.Cushing,Jr.(Ed.), Proceedings of the Fourth National Symposium on Radioecology and Energy Resources, Oregon State University, Corvallis, OR:217-220|1976|
58456|T||Fukunaga,K., Y. Tsukano, and J. Kanazawa|Residue Analysis of Organomercury Fungicides Sprayed on Rice Plants|In: F.Matsumura, G.M.Boush and T.Misato, (Eds), Environmental Toxicology of Pesticides, Academic Press, New York, NY:177-191|1972|
58457|A||Herbes,S.E.|Transport and Bioaccumulation of Polycyclic Aromatic Hydrocarbons (PAH) in Aquatic Systems|In: Coal Technology Program Quarterly Progress Report for the Period Ending December 31, 1975, Oak Ridge National Lab., Oak Ridge, TN:65-71|1976|
58459|T||Folsom,B.L.,Jr., J.C. Pennington, C.L. Teeter, M.R. Barton, and J.A. Bright|Effects of Soil pH and Treatment Level on Persistence and Plant Uptake of 2,4,6-Trinitrotoluene|Tech.Rep.No.EL-88-22, Dep.of the Army, Waterways Experiment Station, Corps of Engineers, Vicksburg, MS:27 p.|1988|
58460|T||Gomez,A.|Effects of Cadmium Humates Prepared at pH 4 and pH 6 on the Growth and Mineral Composition of Maize Plantlets Cultivated in Nutrient Solutions|In: R.D.Davis, G.Hucker, and P.L'Hermite (Eds.), Proc.of a Workshop held at Stevenage on the Environmental Effects of Organic and Inorganic Contaminants in Sewage Sludge, May 25-26, 1982, D.Reidel Publ.Co., Dordrecht:161-170|1983|
58461|T||Coppola,S.|Effects of Heavy Metals on Soil Microorganisms|In: R.D.Davis, G.Hucker, and P.L'Hermite (Eds.), Proc.of a Workshop held at Stevenage on the Environmental Effects of Organic and Inorganic Contaminants in Sewage Sludge, May 25-26, 1982, D.Reidel Publ.Co., Dordrecht:233-243|1983|
58463|A||Kudo,A., and D.C. Mortimer|Pathways for Mercury Uptake by Fish from Bed Sediments|Environ. Pollut.19:239-245|1979|
58464|A||Mayer,F.L., and P.M. Mehrle|Toxicological Aspects of Toxaphene in Fish:  A Summary|Trans.N.Am.Wildl.Nat.Res.Conf.42:365-373|1977|
58465|A||Tas,J.W., W. Seinen, and A. Opperhuizen|Lethal Body Burdens of Triphenyltin in Fish After Exposure to Water and Sediment/Water Systems|In: Fate and Effects of Triorganotins in the Aqueous Environment, Chapter 7, Univ.of Utrecht, Utrecht, Netherlands:133-145|1993|
58466|A||Tas,J.W., M.A.B. Van Velthoven, and A. Opperhuizen|Bioconcentration and Lethal Body Burden of Tributyltin Chloride in Fish During Continuous and Pulse Exposure|In: Fate and Effects of Triorganotins in the Aqueous Environment, Chapter 3, Univ.of Utrecht, Utrecht, Netherlands:43-71|1993|
58468|A||Wilson,J.G.|The Uptake and Accumulation of Ni by Cerastoderma edule and Its Effects on Mortality, Body Condition and Respiration Rate|Mar. Environ. Res.8:129-148|1983|10.1016/0141-1136(83)90047-8
58469|A||Tsuda,T., S. Aoki, T. Inoue, and M. Kojima|Accumulation and Excretion of Pesticides Used as Insecticides or Fungicides in Agricultural Products by the Willow Shiner Gnathopogon caerulescens|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 469-473|1994|10.1016/0300-9629(94)90027-2
58470|A||Tachikawa,M., R. Swamura, S. Okada, and A. Hamada|Differences Between Freshwater and Seawater Killifish (Oryzias latipes) in the Accumulation and Elimination of Pentachlorophenol|Arch. Environ. Contam. Toxicol.21(1): 146-151|1991|10.1007/BF01055570
58471|A||Sijm,D.T.H.M., and A. Opperhuizen|Biotransformation, Bioaccumulation and Lethality of 2,8-Dichlorodibenzo-p-Dioxin:  A Proposal to Explain the Biotic Fate and Toxicity of PCDD's and PCDF's|Chemosphere17(1): 83-99|1988|10.1016/0045-6535(88)90047-1
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58473|A||Oladimeji,A.A., and G. Leduc|Effects of Dietary Methoxychlor on the Food Maintenance Requirements of Brook Trout|Prog. Water Technol.7(3-4): 587-598|1975|
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58475|A||Koeller,P.A., and G.T. Wallace|Controlled Ecosystem Pollution Experiment: Effect of Mercury on Enclosed Water Columns. V. Growth of Juvenile Chum Salmon (Oncorhynchus keta)|Mar. Sci. Commun.3(4): 395-406|1977|
58476|A||Hickie,B.E., L.S. McCarty, and D.G. Dixon|A Residue-Based Toxicokinetic Model for Pulse-Exposure Toxicity in Aquatic Systems|Environ. Toxicol. Chem.14(12): 2187-2197|1995|
58477|A||Addison,R.F., and M.E. Zinck|Rate of Conversion of 14C-p,p'-DDT to p,p'-DDE by Brook Trout (Salvelinus fontinalis): Absence of Effect of Pretreatment of Fish with Compounds Related p,p'-DDT|J. Fish. Res. Board Can.34:119-122|1977|10.1139/f77-014
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58479|A||Erickson,R., C. Kleiner, J. Fiandt, and T. Highland|Use of Toxicity Models to Reduce Uncertainty in Aquatic Hazard Assessements:  Effects of Exposure Conditions on Pentachloroethane Toxicity to Fathead Minnows|Draft Report, Deliverable A8215 PPA 26, Proj.No.31, U.S.EPA, Duluth, MN:37 p.|1991|
58480|A||Flos,R., A. Caritat, and J. Balasch|Zinc Content in Organs of Dogfish (Scyliorhinus canicula L.) Subject to Sublethal Experimental Aquatic Zinc Pollution|Comp. Biochem. Physiol. C Comp. Pharmacol.64:77-81|1979|10.1016/0306-4492(79)90031-5
58481|A||Gunkel,G.|Bioaccumulation of a Herbicide (Atrazine, S-Triazine) in the Whitefish (Coregonus fera J.): Uptake and Distribution of the Residue in Fish|Arch. Hydrobiol.59(2/3): 252-287|1981|
58482|T||Chowdhury,A.R., A. Dewan, and D.N. Gandhi|Toxic Effect of Lead on the Testes of Rat|Biomed. Biochim. Acta43(1): 95-100|1984|
58483|A||Oshida,P.S.|A Safe Level of Hexavalent Chromium for a Marine Polychaete|South.Calif.Coastal Water Res.Proj.Ann.Rep.:169-180|1977|
58487|A||Ferrando,M.D., E. Sancho, and E. Andreu-Moliner|Effects of Lindane on Daphnia magna During Chronic Exposure|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(6): 815-825|1995|
58491|A||Granmo,A., R. Ekelund, M. Berggren, and K. Magnusson|Toxicity of 4-Nonylphenol to Aquatic Organisms and Potential for Bioaccumulation|Rapp. Naturvard.:53-75|1991|
58495|A||Barrett,M.M., and H. Timourian|Effect of Cobalt on Sea Urchin Morphogenesis|UCRL-50717, U.S.AEC, Lawrence Radiation Lab., University of California, Livermore, CA:7 p.|1969|
58496|AT||Schreffler,M., M. Farlling, R.H. Crist, and K.B. Hoover|Uptake of Copper Ions by Plant Roots and Algae|Proc. Pa. Acad. Sci.51(2): 163-165|1977|
58498|A||Newbold,C.|The Ecological Effects of the Herbicide Dichlobenil Within Pond Ecosystems|Int. Symp. Aquat. Weeds:37-52|1974|
58499|A||Gagen,C.J.|Aluminum Toxicity and Sodium Loss in Three Salmonid Species Along a pH Gradient in a Mountain Stream|M.S.Thesis, Pa.State Univ., University Park, PA:87 p.|1986|
58500|A||Ghirardini,A.V., A.A. Novelli, B. Likar, G. Pojana, P.F. Ghetti, and A. Marcomini|Sperm Cell Toxicity Test Using Sea Urchin Paracentrotus lividus Lamarck (Echinodermata:  Echinoidea):  Sensitivity and Discriminatory Ability Toward Anionic and Nonionic Surfactants|Environ. Toxicol. Chem.20(3): 644-651|2001|10.1002/etc.5620200325
58501|A||Davies,P.H.|Water Pollution Studies.  Investigations on the Toxicity of Metals to Fish|Federal Aid in Fish and Wildl.s Restoration, Job Progress Rep.No.F-33-R-15, Colorado Div.of Wildl., Ft.Collins, CO:38 p.|1980|
58503|T||Sauerhoff,M.W., and I.A. Michaelson|Hyperactivity and Brain Catecholamines in Lead-Exposed Developing Rats|Science182(116): 1022-1024|1973|10.1126/science.182.4116.1022
58504|T||Holtzman,D., J.S. Hsu, and M. Desautel|Absence of Effects of Lead Feedings and Growth-Retardation on Mitochondrial and Microsomal Cytochromes in the Developing Brain|Toxicol. Appl. Pharmacol.58(1): 48-56|1981|10.1016/0041-008X(81)90114-9
58506|T||Camoratto,A.M., L.M. White, Y.S. Lau, G.O. Ware, W.D. Berry, and C.M. Moriarty|Effect of Exposure to Low Level Lead on Growth and Growth Hormone Release in Rats|Toxicology83(1-3): 101-114|1993|10.1016/0300-483X(93)90095-A
58507|T||Fox,D.A., J.P. Lewkowski, and G.P. Cooper|Acute and Chronic Effects of Neonatal Lead Exposure on Development of the Visual Evoked Response in Rats|Toxicol. Appl. Pharmacol.40(3): 449-461|1977|10.1016/0041-008X(77)90072-2
58508|T||Campbell,J.B., D.E. Woolley, V.K. Vijayan, and S.R. Overmann|Morphometric Effects of Postnatal Lead Exposure on Hippocampal Development of the 15-Day-Old Rat|Brain Res.255(4): 595-612|1982|10.1016/0165-3806(82)90056-6
58509|T||Singh,C., D.K. Saxena, R.C. Murthy, and S.V. Chandra|Embryo-Fetal Development Influenced by Lead Exposure in Iron-Deficient Rats|Hum. Exp. Toxicol.12(1): 25-28|1993|10.1177/096032719301200105
58518|AT||Hawker,D.W., and D.W. Connell|Octanol-Water Partition Coefficients of Polychlorinated Biphenyl Congeners|Environ. Sci. Technol.22(4): 382-387|1988|10.1021/es00169a004
58519|A||Gibbs,P.E., and G.W. Bryan|TBT Paints and the Demise of the Dog-Whelk, Nucella Lapillus (Gastropoda)|In: Oceans 87, IEEE Publishing Services, New York, NY4:1482-1487|1987|
58520|A||Hermanutz,R.O., K.N. Allen, and N.E. Detenbeck|Continuous-Dose Effects and Residue Effects of Selenium on Bluegills (Lepomis macrochirus) in Outdoor Experimental Streams|Unpublished Report, U.S. EPA, Duluth, MN:40 p.|1993|
58521|T||Rasile,D.A., P.W. Stewart, R.G. Burright, and P.J. Donovick|Cross Generation Lead Ingestion:  Behavioral and Physiological Effects in Mice|Brain Res. Bull.36(5): 473-482|1995|10.1016/0361-9230(94)00228-S
58522|T||Cooper,H.P., W.R. Paden, E.E. Hall, W.B. Albert, W.B. Rogers, and J.A. Riley|Effect of Calcium Arsenate on the Productivity of Certain Soil Types|S.C.Agric.Exp.Stn.Ann.Rep.No.44:28-36|1931|
58524|T||McGivern,R.F., R.Z. Sokol, and N.G. Berman|Prenatal Lead Exposure in the Rat During the Third Week of Gestation : Long-Term Behavioral, Physiological, and Anatomical Effects Associated with Reproduction|Toxicol. Appl. Pharmacol.110(2): 206-215|1991|10.1016/S0041-008X(05)80003-1
58525|T||Edens,F.W., and V.K. Melvin|Lead Influences on Physiological and Growth Responses in Coturnix coturnix japonica Selected for Large Body Weights|Environ. Res.50(1): 140-156|1989|10.1016/S0013-9351(89)80054-4
58526|T||Brown,D.V.L.|Reaction of the Rabbit Retinal Pigment Epithelium to Systemic Lead Poisoning|Trans. Am. Ophthalmol. Soc.72:405-447|1974|
58528|A||Nehring,D.|Experiments on the Toxicological Effects of Thallium Ions on Fish and Fish-Food Organisms (Untersuchungen uber die Toxikologische Wirkung von Thallium-Ionen auf Fische und Fischnahrtiere)|Z. Fisch. Hilfswiss.11:557-561|1962|
58529|A||Lewis,E.J.C., and E. Frieden|Biochemistry of Amphibian Metamorphosis: Effect of Triiodothyronine, Thyroxin, and Dinitrophenol on the Respiration of the Tadpole|Endocrinology65:273-282|1959|10.1210/endo-65-2-273
58530|A||Mora,B., and J. Fabregas|The Effect of Inorganic and Organic Mercury on Growth Kinetics of Nitzchia acicularis W. Sm. and Tetraselmis suecica Butch|Can. J. Microbiol.26:930-937|1980|10.1139/m80-160
58531|A||Flickinger,C.J.|Influence of Inhibitors of Energy Metabolism on the Formation of Golgi Bodies in Amebae|Exp. Cell Res.73:154-160|1972|10.1016/0014-4827(72)90113-9
58533|A||Bernstein,G.S.|Effect of 2,4-Dinitrophenol on Sea-Urchin Sperm|Proc. Soc. Exp. Biol. Med.90:28-31|1955|10.3181/00379727-90-21930
58534|T||American Petroleum Institute|Effects of Subchronic Fourteen Day Exposure to Benzopyrene in B6C3F1 Male and Female Mice on Specific Immunological Parameters with Cover Letter|EPA/OTS Doc.#FYI-AX-1182-0220IN:405 p.|1982|
58535|T||Munson,A.E., and K.L.,Jr. White|Effects of Subchronic Fourteen Day Exposure to Benzopyrene in B6C3F1 Male and Female Mice on Specific Immunological Parameters|Final Rep., Doc # FYI-AX-1182-0220:207 p.|1983|
58537|T||Munson,A.E., K.L.,Jr. White, and H.H. Lysy|Effects of Subchronic Fourteen Day Exposure to Benzopyrene in B6C3F1 Female Mice on Host Resistance wtih Cover Letter 041484|Task Force #PS-23-B(A)P-14-2-5C, Doc #FYI-AX-0485-0220SU:164 p.|1985|
58538|T||Munson,A.E., and K.L.,Jr. White|Immunotoxicology of Benzopyrenes in Fisher 344 Rats|EPA/OTS Doc. #FYI-AX-1285-0309:46 p.|1985|
58545|T||Edwards,N.T.|Assimilation and Metabolism of Polycyclic Aromatic Hydrocarbons by Vegetation-  An Approach to this Controversial Issue and Suggestions for Future Research|CONF.851068--1,US NTIS, Springfield, VA:20 p.|1985|
58547|T||Wang,F., D. Couillard, J.C. Auclair, and P.G.C. Campbell|Effects of Alum-treated Waste Water Sludge on Barley Growth|Water Air Soil Pollut.108(1-2): 33-49|1998|10.1023/A:1005034107131
58548|T||Saha,J.G., J.C. Karapally, and W.K. Janzen|Influence of the Type of Mineral Soil on the Uptake of Dieldrin by Wheat Seedlings|J. Agric. Food Chem.19(5): 842-845|1971|10.1021/jf60177a055
58550|T||Yeadon,R., and T.J. Perfect|DDT Residues in Crop and Soil Resulting from Application to Cowpea Vigna unguiculata (L.) Walp. in the Sub-Humid Tropics|Environ. Pollut. Ser. B Chem. Phys.2(4): 275-294|1981|10.1016/0143-148X(81)90025-2
58551|T||Cary,E.E., W.H. Allaway, and O.E. Olson|Control of Chromium Concentrations in Food Plants.  1.  Absorption and Translocation of Chromium by Plants|J. Agric. Food Chem.25(2): 300-304|1977|10.1021/jf60210a048
58552|T||Cary,E.E., W.H. Allaway, and O.E. Olson|Control of Chromium Concentrations in Food Plants. 2. Chemistry of Chromium in Soils and Its Availability to Plants|J. Agric. Food Chem.25(2): 305-309|1977|10.1021/jf60210a049
58554|T||Sheppard,M.I., D.H. Thibault, and S.C. Sheppard|Concentrations and Concentration Ratios of U, As and Co in Scots Pine Grown in a Waste-Site Soil and an Experimentally Contaminated Soil|Water Air Soil Pollut.26(1): 85-94|1985|10.1007/BF00299491
58555|T||Zhao,J.Z., B.A. Bishop, and E.J. Grafius|Inheritance and Synergism of Resistance to Imidacloprid in the Colorado Potato Beetle (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.93(5): 1508-1514|2000|10.1603/0022-0493-93.5.1508
58556|T||Getty,G.M., M.I. Haverty, K.A. Copren, and V.R. Lewis|Response of Reticulitermes spp. (Isoptera: Rhinotermitidae) in Northern California to Baiting with Hexaflumuron with Sentricon Termite Colony Elimination System|J. Econ. Entomol.93(5): 1498-1507|2000|10.1603/0022-0493-93.5.1498
58557|T||Yang,L.K., H.N. Nigg, S.E. Simpson, L.E. Ramos, N.W. Cuyler, J.I. Barnes, and C.G. Green|Sodium Tetraborate Effects on Mortality and Reproduction of Anastrepha suspensa (Diptera:  Tephritidae)|J. Econ. Entomol.93(5): 1485-1492|2000|10.1603/0022-0493-93.5.1485
58558|T||Dowd,P.F., R.L. Pingel, D. Ruhl, B.S. Shasha, R.W. Behle, D.R. Penland, M.R. McGuire, and E.J. Faron II|Multiacreage Evaluation of Aerially Applied Adherent Malathion Granules for Selective Insect Control and Indirect Reduction of Mycotoxigenic Fungi in Specialty Corn|J. Econ. Entomol.93(5): 1424-1428|2000|10.1603/0022-0493-93.5.1424
58559|T||Collins,P.J., M.K. Nayak, and R. Kopittke|Residual Efficacy of Four Organophosphate Insecticides on Concrete and Galvanized Steel Surfaces Against Three Liposcelid Psocid Species (Psocoptera:  Liposcelidae) Infesting Stored Products|J. Econ. Entomol.93(4): 1357-1363|2000|10.1603/0022-0493-93.4.1357
58560|T||Bynum,E.D.,Jr., and T.L. Archer|Identifying Insecticide-Resistant Greenbugs (Homoptera:  Aphididae) with Diagnostic Assay Tests|J. Econ. Entomol.93(4): 1286-1292|2000|10.1603/0022-0493-93.4.1286
58561|T||Valles,S.M., F.M. Oi, T. Wagner, and R.J. Brenner|Toxicity and In Vitro Metabolism of t-Permethrin in Eastern Subterranean Termite (Isoptera:  Rhinotermitidae)|J. Econ. Entomol.93(4): 1259-1264|2000|10.1603/0022-0493-93.4.1259
58562|T||Whiting,D.C., L.E. Jamieson, and P.G. Connolly|Pre- and Postharvest Effects of Lufenuron on Epiphyas postvittana (Lepidoptera:  Tortricidae)|J. Econ. Entomol.93(3): 673-679|2000|10.1603/0022-0493-93.3.673
58563|T||White,P.F., and M. Czajkowska|Effects of Methoprene and Permethrin on Paedogenetic Larvae of Heteropeza pygmaea and Mycophila speyeri (Diptera:  Cecidomyiidae)|J. Econ. Entomol.93(4): 1222-1226|2000|10.1603/0022-0493-93.4.1222
58564|T||Ibrahim,Y.B., and T.S. Yee|Influence of Sublethal Exposure to Abamectin on the Biological Performance of Neoseiulus longispinosus (Acari:  Phytoseiidae)|J. Econ. Entomol.93(4): 1085-1089|2000|10.1603/0022-0493-93.4.1085
58565|T||Yokoyama,V.Y., G.T. Miller, P.L. Hartsell, and J.G. Leesch|Large-Scale, On-Site Confirmatory, and Varietal Testing of a Methyl Bromide Quarantine Treatment to Control Codling Moth (Lepidoptera:  Tortricidae) in Nectarines Exported to Japan|J. Econ. Entomol.93(3): 1025-1030|2000|10.1603/0022-0493-93.3.1025
58566|T||Dunley,J.E., and S.C. Welter|Correlated Insecticide Cross-Resistance in Azinphosmethyl Resistant Codling Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.93(3): 955-962|2000|10.1603/0022-0493-93.3.955
58567|T||Sivasupramaniam,S., and T.F. Watson|Selection for Fenpropathrin and Fenpropathrin + Acephate Resistance in the Silverleaf Whitefly (Homoptera:  Aleyrodidae)|J. Econ. Entomol.93(3): 949-954|2000|10.1603/0022-0493-93.3.949
58568|T||Pruett,J.H., D.D. Oehler, D.M. Kammlah, and F.D. Guerrero|Evaluation of Horn Flies (Diptera:  Muscidae) from a Pyrethroid Susceptible Colony for General and Permethrin Esterase Activities|J. Econ. Entomol.93(3): 920-924|2000|10.1603/0022-0493-93.3.920
58569|T||Choo,L.E.W., C.S. Tang, F.Y. Pang, and S.H. Ho|Comparison of Two Bioassay Methods for Determining Deltamethrin Resistance in German Cockraoches (Blattodea:  Blattellidae)|J. Econ. Entomol.93(3): 905-910|2000|10.1603/0022-0493-93.3.905
58570|T||Mascarenhas,R.N., and D.J. Boethel|Development of Diagnostic Concentrations for Insecticide Resistance Monitoring in Soybean Looper (Lepidoptera:  Noctuidae) Larvae Using an Artificial Diet Overlay Bioassay|J. Econ. Entomol.93(3): 897-904|2000|10.1093/jee/93.3.897
58571|T||Hooper-Bui,L.M., and M.K. Rust|Oral Toxicity of Abamectin, Boric Acid, Fipronil, and Hydramethylnon to Laboratory Colonies of Argentine Ants (Hymenoptera:  Formicidae)|J. Econ. Entomol.93(3): 858-864|2000|10.1603/0022-0493-93.3.858
58572|T||Xia,Y., and R.L. Brandenburg|Effect of Irrigation on the Efficacy of Insecticides for Controlling Two Species of Mole Crickets (Orthoptera: Gryllotalpidae) on Golf Courses|J. Econ. Entomol.93(3): 852-857|2000|10.1603/0022-0493-93.3.852
58573|T||Van Iersel,M.W., R.D. Oetting, and D.B. Hall|Imidacloprid Applications by Subirrigation for Control of Silverleaf Whitefly (Homoptera: Aleyrodidae) on Poinsettia|J. Econ. Entomol.93(3): 813-819|2000|10.1603/0022-0493-93.3.813
58574|T||Hoffmann,M.P., J.J. Kirkwyland, and J. Gardner|Impact of Western Corn Rootworm (Coleoptera:  Chrysomelidae) on Sweet Corn and Evaluation of Insecticidal and Cultural Control Options|J. Econ. Entomol.93(3): 805-812|2000|10.1603/0022-0493-93.3.805
58575|T||Haile,F.J., D.L. Kerns, J.M. Richardson, and L.G. Higley|Impact of Insecticides and Surfactant on Lettuce Physiology and Yield|J. Econ. Entomol.93(3): 788-794|2000|10.1603/0022-0493-93.3.788
58578|T||Hill,T.A., and R.E. Foster|Effect of Insecticides on the Diamondback Moth (Lepidoptera:  Plutellidae) and Its Parasitoid Diadegma insulare (Hymenoptera:  Ichneumonidae)|J. Econ. Entomol.93(3): 763-768|2000|10.1603/0022-0493-93.3.763
58579|T||Capinera,J.L., and J.M. Squitier|Insecticidal Activity of Photoactive Dyes to American and Migratory Grasshoppers (Orthoptera:  Acrididae)|J. Econ. Entomol.93(3): 662-666|2000|10.1603/0022-0493-93.3.662
58580|T||Durier,V., and C. Rivault|Secondary Transmission of Toxic Baits in German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.93(2): 434-440|2000|10.1603/0022-0493-93.2.434
58581|T||Ramakrishnan,R., D.R. Suiter, C.H. Nakatsu, and G.W. Bennett|Feeding Inhibition and Mortality in Reticulitermes flavipes (Isoptera: Rhinotermitidae) After Exposure to Imidacloprid-Treated Soils|J. Econ. Entomol.93(2): 422-428|2000|10.1603/0022-0493-93.2.422
58582|T||Hu,X.P., R.J. Prokopy, and J.M. Clark|Toxicity and Residual Effectiveness of Insecticides on Insecticide-Treated Spheres for Controlling Females of Rhagoletis pomonella (Diptera:  Tephritidae)|J. Econ. Entomol.93(2): 403-411|2000|10.1603/0022-0493-93.2.403
58583|T||Elzen,G.W., S.N. Maldonado, and M.G. Rojas|Lethal and Sublethal Effects of Selected Insecticides and an Insect Growth Regulator on the Boll Weevil (Coleoptera: Curculionidae) Ectoparasitoid Catolaccus grandis (Hymenoptera: Pteromalidae)|J. Econ. Entomol.93(2): 300-303|2000|10.1603/0022-0493-93.2.300
58584|T||Tharp,C.I., G.D. Johnson, and J.A. Onsager|Laboratory and Field Evaluations of Imidacloprid Against Melanoplus sanguinipes (Orthoptera: Acrididae) on Small Grains|J. Econ. Entomol.93(2): 293-299|2000|10.1603/0022-0493-93.2.293
58585|T||Liu,T.X., and T.Y. Chen|Effects of the Chitin Synthesis Inhibitor Buprofezin on Survival and Development of Immatures of Chrysoperla rufilabris (Neuroptera:  Chrysopidae)|J. Econ. Entomol.93(2): 234-239|2000|10.1603/0022-0493-93.2.234
58586|T||Melathopoulos,A.P., M.L. Winston, R. Whittington, T. Smith, C. Lindberg, A. Mukai, and M. Moore|Comparative Laboratory Toxicity of Neem Pesticides to Honey Bees (Hymenoptera:  Apidae), Their Mite Parasites Varroa jacobsoni (Acari:  Varroidae) and Acarapis woodi (Acari:  Tarsonemidae), and Brood Pathogens Paenibaci|J. Econ. Entomol.93(2): 199-209|2000|10.1603/0022-0493-93.2.199
58587|T||Lindberg,C.M., A.P. Melathopoulos, and M.L. Winston|Laboratory Evaluation of Miticides to Control Varroa jacobsoni (Acari:  Varroidae), a Honey Bee (Hymenoptera:  Apidae) Parasite|J. Econ. Entomol.93(2): 189-198|2000|10.1603/0022-0493-93.2.189
58588|T||Cowles,R.S., E.A. Cowles, A.M. McDermott, and D. Ramoutar|"""Inert"" Formulation Ingredients with Activity:  Toxicity of Trisiloxane Surfactant Solutions to Twospotted Spider Mites (Acari:  Tetranychidae)"|J. Econ. Entomol.93(2): 180-188|2000|10.1603/0022-0493-93.2.180
58589|T||Pachamuthu,P., and S.T. Kamble|In Vivo Study on Combined Toxicity of Metarhizium anisopliae (Deuteromycotina:  Hyphomycetes) Strain ESC-1 with Sublethal Doses of Chlorpyrifos, Propetamphos, and Cyfluthrin Against German Cockroach (Dictyoptera:  Blatt|J. Econ. Entomol.93(1): 60-70|2000|10.1603/0022-0493-93.1.60
58590|T||Mannion,C.M., H.E. Winkler, D.I. Shapiro, and T. Gibb|Interaction Between Halofenozide and the Entomopathogenic Nematode Heterorhabditis marelatus for Control of Japanese Beetle (Coleoptera: Scarabaeidae) Larvae|J. Econ. Entomol.93(1): 48-53|2000|10.1603/0022-0493-93.1.48
58591|T||Tharp,C., S.L. Blodgett, and G.D. Johnson|Efficacy of Imidacloprid for Control of Cereal Leaf Beetle (Coleoptera: Chrysomelidae) in Barley|J. Econ. Entomol.93(1): 38-42|2000|10.1603/0022-0493-93.1.38
58592|T||Perez-Mendoza,J., J.A. Fabrick, K.Y. Zhu, and J.E. Baker|Alterations in Esterases are Associated with Malathion Resistance in Habrobracon hebetor (Hymenoptera:  Braconidae)|J. Econ. Entomol.93(1): 31-37|2000|10.1603/0022-0493-93.1.31
58593|T||Li,X., A.R. Zangerl, M.A. Schuler, and M.R. Berenbaum|Cross-Resistance to alpha-Cypermethrin After Xanthotoxin Ingestion in Helicoverpa zea (Lepidoptera:  Noctuidae)|J. Econ. Entomol.93(1): 18-25|2000|10.1603/0022-0493-93.1.18
58594|T||Wright,R.J., M.E. Scharf, L.J. Meinke, X. Zhou, B.D. Siegfried, and L.D. Chandler|Larval Susceptibility of an Insecticide-Resistant Western Corn Rootworm (Coleoptera:  Chrysomelidae) Population to Soil Insecticides:  Laboratory Bioassays, Assays of Detoxification Enzymes, and Field Performance|J. Econ. Entomol.93(1): 7-13|2000|10.1603/0022-0493-93.1.7
58595|T||Haubruge,E., and L. Arnaud|Fitness Consequences of Malathion-Specific Resistance in Red Flour Beetle (Coleoptera:  Tenebrionidae) and Selection for Resistance in the Absence of Malathion|J. Econ. Entomol.94(2): 552-557|2001|10.1603/0022-0493-94.2.552
58596|T||Wilde,G.E., R.A. Shufran, S.D. Kindler, H.L. Brooks, and P.E. Sloderbeck|Distribution and Abundance of Insecticide Resistant Greenbugs (Homoptera:  Aphididae) and Validation of a Bioassay to Assess Resistance|J. Econ. Entomol.94(2): 547-551|2001|10.1603/0022-0493-94.2.547
58597|T||Hardman,J.M., D.L. Moreau, M. Snyder, S.O. Gaul, and E.D. Bent|Performance of a Pyrethroid-Resistant Strain of the Predator Mite Typhlodromus pyri (Acari:  Phytoseiidae) Under Different Insecticide Regimes|J. Econ. Entomol.93(3): 590-604|2000|10.1603/0022-0493-93.3.590
58598|T||Grundy,P.R., D. Maelzer, P.J. Collins, and E. Hassan|Potential for Integrating Eleven Agricultural Insecticides with the Predatory Bug Pristhesancus plagipennis (Hemiptera:  Reduviidae)|J. Econ. Entomol.93(3): 584-589|2000|10.1603/0022-0493-93.3.584
58599|T||Suh,C.P.C., D.B. Orr, and J.W. Van Duyn|Effect of Insecticides on Trichogramma exiguum (Trichogrammatidae:  Hymenoptera) Preimaginal Development and Adult Survival|J. Econ. Entomol.93(3): 577-583|2000|10.1603/0022-0493-93.3.577
58600|T||Dentener,P.R., S.E. Lewthwaite, K.V. Bennett, J.H. Maindonald, and P.G. Connolly|Effect of Temperature and Treatment Conditions on the Mortality of Epiphyas postvittana (Lepidoptera:  Tortricidae) Exposed to Ethanol|J. Econ. Entomol.93(2): 519-525|2000|10.1603/0022-0493-93.2.519
58601|T||Olson,E.R., G.P. Dively, and J.O. Nelson|Baseline Susceptibility to Imidacloprid and Cross Resistance Patterns in Colorado Potato Beetle (Coleoptera: Chrysomelidae) Populations|J. Econ. Entomol.93(2): 447-458|2000|10.1603/0022-0493-93.2.447
58602|T||Snodgrass,G.L., and W.P. Scott|Seasonal Changes in Pyrethroid Resistance in Tarnished Plant Bug (Heteroptera:  Miridae) Populations During a Three-Year Period in the Delta Area of Arkansas, Louisiana, and Mississippi|J. Econ. Entomol.93(2): 441-446|2000|10.1603/0022-0493-93.2.441
58603|T||Xu,J., A.M. Shelton, and X. Cheng|Variation in Susceptibility of Diadegma insulare (Hymenoptera:  Ichneumonidae) to Permethrin|J. Econ. Entomol.94(2): 541-546|2001|10.1603/0022-0493-94.2.541
58604|T||Byrne,F.J., and N.C. Toscano|An Insensitive Acetylcholinesterase Confers Resistance to Methomyl in the Beet Armyworm Spodoptera exigua (Lepidoptera:  Noctuidae)|J. Econ. Entomol.94(2): 524-528|2001|10.1603/0022-0493-94.2.524
58605|T||Park,N.J., and S.T. Kamble|Decapitation Impacting Effect of Topically Applied Chlorpyrifos on Acetylcholinesterase and General Esterases in Susceptible and Resistant German Cockroaches (Dictyoptera:  Blattellidae)|J. Econ. Entomol.94(2): 499-505|2001|10.1603/0022-0493-94.2.499
58606|T||Thorne,B.L., and N.L. Breisch|Effects of Sublethal Exposure to Imidacloprid on Subsequent Behavior of Subterranean Termite Reticulitermes virginicus (Isoptera:    Rhinotermitidae)|J. Econ. Entomol.94(2): 492-498|2001|10.1603/0022-0493-94.2.492
58607|T||Gahlhoff,J.E.,Jr., and P.G. Koehler|Penetration of the Eastern Subterranean Termite into Soil Treated at Various Thicknesses and Concentrations of Dursban TC and Premise 75|J. Econ. Entomol.94(2): 486-491|2001|10.1603/0022-0493-94.2.486
58608|T||Waldstein,D.E., and W.H. Reissig|Effects of Field Applied Residues and Length of Exposure to Tebufenozide on the Obliquebanded Leafroller (Lepidoptera:  Tortricidae)|J. Econ. Entomol.94(2): 468-475|2001|10.1603/0022-0493-94.2.468
58609|T||Knight,A.L., J.E. Dunley, and R.K. Jansson|Baseline Monitoring of Codling Moth (Lepidoptera:  Tortricidae) Larval Reponse to Benzoylhydrazine Insecticides|J. Econ. Entomol.94(1): 264-270|2001|10.1603/0022-0493-94.1.264
58611|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Bioassay of Insecticides.  VII.  Relative Toxicity of Some Organic Insecticides to the Larvae of Euproctis lunata Walker (Lymantri I Dae-Lepidoptera)|Indian J. Entomol.19(2): 96-100|1957|
58612|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Relative Toxicity of Some Organo-phosphorus Insecticides to Lipaphis erysimi (Kalt.)-(Rhopalosiphum pseudobrassicae (Davis)) (Aphididae: Homoptera)|Indian J. Entomol.19(3): 217-220|1957|
58614|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Bioassay of the Comparative Toxicity of Some Insecticides to the Adults of Dysdercus koenigii Fabricius (Pyrrhocoridae:  Hemiptera), a Pest of Cotton|Indian Cotton Grow.Rev.14(1): 14-15|1960|
58615|T||Jotwani,M.G., P. Sarup, and S. Pradhan|Relative Toxicity of Some Important Insecticides to the Cotton Aphid, Aphis gossypii Glover (Aphididae:  Homoptera)|Indian Cotton Grow.Rev.14(5): 381-383|1960|
58616|T||Raju,K.S., and G. Rangaswami|Studies on the Effect of Herbicides on Soil Microflora|Indian J. Microbiol.11(3): 25-32|1971|
58621|T||McKeen,C.D.|Methyl Bromide as a Soil Fumigant for Controlling Soil-Borne Pathogens and Certain Other Organisms in Vegetable Seedbeds|Can. J. Bot.32:101-115|1954|10.1139/b54-012
58622|T||Heungens,A.|The Influence of DBCP on the Soil Fauna in Azalea-Culture|Pedobiologia (Multiple Languages)8:281-288|1968|10.1016/S0031-4056(23)00333-5
58624|T||Oshima,R.J.|Effect of Ozone on a Commercial Sweet Corn Variety|Plant Dis. Rep.57(9): 719-723|1973|
58625|T||Spierings,F.|Differences in Susceptibility to Damage by HF Between Tulip Varieties|In: Symposium: the Toxicology of Fluorine:158-161|1963|
58626|T||Hameed,K.M., and C.L. Foy|Effect of Picloram on the Growth of Five Soil Fungi|Bull. Coll. Sci. Univ. Baghdad15:13-19|1974|
58629|T||Finley,M.T., and M.P. Dieter|Influence of Laying on Lead Accumulation in Bone of Mallard Ducks|J. Toxicol. Environ. Health4:123-129|1978|10.1080/15287397809529649
58632|A||Southwest Texas State University|Comparison of EPA Target Toxicity Aquatic Test Organisms to the Fountain Darter. 7 Day Chronic Toxicity Test Using Cadmium Chloride. Performed 11/12/99 - 3/6/00 (5 parts)|Edwards Aquifer Res.and Data Center (EARDC), Southwest Texas State Univ., San Marcos, TX.Fed.Assist.Agree.No.X-986345-01:179 p.|2000|
58634|T||Manning,W.J., W.A. Feder, and I. Perkins|Response of Poinsettia Cultivars to Several Concentrations of Ozone|Plant Dis. Rep.57(9): 774-775|1973|
58635|AT||Laumond,F., M. Neuburger, B. Donnier, A. Fourcy, R. Bittel, and M. Aubert|Experimental Investigations, at Laboratoy, on the Transfer of Mercury in Marine Trophic Chains|Rev. Int. Oceanogr. Med. (Multiple Languages)31/32:47-53|1973|
58638|T||Van den Brande,J., and A. Heungens|Influence of Repeated Applications of Nematicides on the Soil Fauna in Begonia Culture|Neth. J. Plant Pathol.75:40-44|1969|10.1007/BF02137191
58641|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Bio-Assay of Insecticides-X. Comparative Toxicity of Some Important Insecticides to Cylas formicarius Fabricius and Myllocerus undecimpustulatus maculosus Desbrochers (Curculionidae:  Coleoptera)|Indian J. Entomol.20(3): 171-174|1958|
58643|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Comparative Toxicity of Some Important Insecticides to Locusta migratoria Linnaeus (Acrididae-Orthoptera)|Indian J. Entomol.21(3): 214-217|1959|
58644|T||Pradhan,S., and M.G. Jotwani|Bio-assay of Insecticides - IV Comparative Toxicity of Some Important Insecticides to Utetheisa pulchella Linn. (Arctiidae, Lepidoptera)|Indian J. Entomol.17(3): 315-316|1955|
58646|T||Chauhan,R.P.S., and A.K. Asthana|Tolerance of Lentil, Barley and Oats to Boron in Irrigation Water|J. Agric. Sci.97:75-78|1981|10.1017/S0021859600035863
58647|T||Culpepper,A.S., and A.C. York|Weed Management in Ultra Narrow Row Cotton (Gossypium hirsutum)|Weed Technol.14:19-29|2000|10.1614/0890-037X(2000)014[0019:WMIUNR]2.0.CO;2
58648|T||Salisbury,R.M., E.L.J. Staples, and M. Sutton|Lead Poisoning of Chickens|N. Z. Vet. J.6:2-7|1958|10.1080/00480169.1958.33279
58649|T||Von Schmeling,B., and M. Kulka|Systemic Fungicidal Activity of 1,4-Oxathiin Derivatives|Science152:659-660|1966|10.1126/science.152.3722.659
58650|T||Yadav,O.P., and H.R. Manchanda|Boron Tolerance Studies in Gram and Wheat Grown on a Sierozem Sandy Soil|J. Indian Soc. Soil Sci.27:174-180|1979|
58651|T||Pathak,A.N., R.K. Singh, and R.S. Singh|Effect of Different Concentrations of Boron in Irrigation Water on Sunflower|J. Indian Soc. Soil Sci.23:388-390|1975|
58652|T||Rana,S.V.S., and A. Kumar|Biological, Haematological and Histological Observations in Copper Poisoned Rats|Ind. Health18:9-17|1980|10.2486/indhealth.18.9
58653|T||Vaughan,A.K.F.|The Relation Between the Concentration of Boron in the Reproductive and Vegetative Organs of Maize Plants and Their Development|Rhod. J. Agric. Res.15:163-170|1977|
58654|T||Vlamis,J., and A. Ulrich|Boron Tolerance of Sugar Beets in Relation to the Growth and Boron Content of Tissues|J. Am. Soc. Sugar Beet Technol.17:280-288|1973|10.5274/jsbr.17.3.280
58655|T||Aguero-Alvarado,R., and A.P. Appleby|Uptake, Translocation and Phytotoxicity of Root-Absorbed Haloxyfop in Soybean, Festuca rubra L. and Festuca arundinacea Schreb.|Weed Res. (Multiple Languages)31:257-263|1991|10.1111/j.1365-3180.1991.tb01765.x
58656|T||Heck,W.W., J.A. Dunning, and I.J. Hindawi|Ozone: Nonlinear Relation of Dose and Injury in Plants|Science151:577-578|1966|10.1126/science.151.3710.577
58657|T||Adams,D.F., and C.W. Sulzbach|Nitrogen Deficiency and Fluoride Susceptibility of Bean Seedlings|Science133(3462): 1425-1426|1961|10.1126/science.133.3462.1425
58658|T||Heggestad,H.E., K.L. Tuthill, and R.N. Stewart|Differences Among Poinsettias in Tolerance to Sulfur Dioxide|Hortscience8:337-338|1973|10.21273/HORTSCI.8.4.337
58660|T||Gopal,N.H., and I.M. Rao|Physiological Studies on Boron Toxicity in Groundnut (Arachis hypogaea)|Andhra Agric. J.11:144-152|1964|
58664|T||Stocks,D.L.|The Effects of Fluoride on the Growth and Reproduction of Bush Bean Plants, Phaseolus vulgaris L.|M.S.Thesis, University of Utah:48 p.|1960|
58665|T||Shan,Y., T. Izuta, and T. Totsuka|Phenological Disorder Induced by Atmospheric Nitrogen Deposition: Original Causes of Pine Forest Decline over Japan. Part I|Water Air Soil Pollut.117(1-4): 191-203|2000|10.1023/A:1005143820567
58668|T||Wissemeier,A.H., F. Klotz, and W.J. Horst|Aluminium Induced Callose Synthesis in Root of Soybean (Glycine max L.)|J. Plant Physiol.129:487-492|1987|10.1016/S0176-1617(87)80012-3
58670|T||Dahiya,S.S., and M. Singh|Effect of Salinity, Alkalinity and Iron Application on the Availability of Iron, Manganese, Phosphorus and Sodium in Pea (Pisum sativum L.) Crop|Plant Soil44:697-702|1976|10.1007/BF00011387
58671|T||Kirkpatrick,H.C., J.M. Thompson, and J.H. Edwards|Effects of Aluminum Concentration on Growth and Chemical Composition of Peach Seedlings|Hortic. Sci.10:132-134|1975|
58672|T||Tichy,R., S. Kuzel, V. Riha, and L. Kolar|A Possible Use of Soil Microorganisms for Bioindication of Cadmium Toxicity to Plants|Environ. Technol.14(4): 379-384|1993|10.1080/09593339309385303
58673|T||Asher,C.J., G.W. Butler, and P.J. Peterson|Selenium Transport in Root Systems of Tomato|J. Exp. Bot.28(103): 279-291|1977|10.1093/jxb/28.2.279
58674|T||Kloke,A., and W. Egels|Effect of Excess Fertilization with Boron, Cobalt, Copper Manganese, and Zinc on the Content of These Elements in Soil and Plants|Internationaler Mineralduengerkongress2(4/5): 115-121|1976|
58678|T||Bernard,R.F.|Studies on the Effects of DDT on Birds|Publ.of the Museum, Michigan State University, Biological Series, Stone Printing Co., Lansing, MI2(3): 159-191|1963|
58679|T||Strain,W.H., W.J. Pories, and O.A.,Jr. Hill|Correlation of Results of Activation Analysis of Rat Aortas with Radiocobalt Retention Determinations|In: Proc.Am.Nucl.Soc.Natl.Topical Meeting, April 19-21, 1971, Augusta, GA1(5): 33-38|1971|
58680|T||Gibson,I.A.S.|Crown Rot, a Seedling Disease of Groundnuts Caused by Aspergillus niger II. An Anomalous Effect of Organo-Mercurial Seed Dressings|Trans. Br. Mycol. Soc.36:324-334|1953|10.1016/S0007-1536(53)80028-8
58681|T||Gevao,B., C. Mordaunt, K.T. Semple, T.G. Piearce, and K.C. Jones|Bioavailability of xtractable (Bound) Pesticide Residues to Earthworms|Environ. Sci. Technol.35(3): 501-507|2001|10.1021/es000144d
58682|T||Kopponen,P., M. Utriainen, K. Lukkari, S. Suntioinen, L. Karenlampi, and S. Karenlampi|Clonal Differences in Copper and Zinc Tolerance of Birch in Metal-Supplemented Soils|Environ. Pollut.112(1): 89-97|2001|10.1016/S0269-7491(00)00096-8
58683|T||Granger,M.M., and R.W. Leiby|How Plants Absorb Parathion|Agric. Chemic.4(2): 34 - 35,85|1949|
58685|T||Rule,J., D. Hemphill, and J.O. Pierce|The Use of 210Pb and 109Cd Isotopes in a Preliminary Study of Their Uptake and Translocation by Plants|In: Proc. 2nd Annu. NSF-RANN Trace Contaminants Conf., Aug. 29-31, 1974, Asilomar, Pacific Grove, CA:333-339|1974|
58688|T||Marshall,V.G.|Effects of the Insecticide Diflubenzuron on Soil Mites of a Dry Forest Zone in British Columbia|In: J.G.Rodriguez (Ed.), Recent Advances in Acarology, Volume 1, 5th Int.Congr.Acarology, Academic Press, NY:129-134|1979|
58691|T||Pradhan,S., and P. Sarup|Relative Toxicity of Some Organic Insecticidal Films to Three Species of Coleopterous Pests of Stored Grain|Indian J. Entomol.20(3): 221-227|1958|
58692|T||Pradhan,S., and P. Sarup|Relative Toxicity of Some Insecticides to the Larvae of Tribolium castaneum Herbst (Tenebrionidae: Coleoptera), a Pest of Milled Cereals|Indian J. Entomol.22(1): 27-30|1960|
58693|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Comparative Toxicity of Some Insecticides to the Grubs of Hypera variabilis (Herbst.) (Curculionidae: Coleoptera)|Indian J. Entomol.22(1): 60-62|1960|
58694|T||Sarup,P., M.G. Jotwani, and S. Pradhan|Relative Toxicity of Some Important Insecticides to the Bean Aphid, Aphis craccivora Koch (Aphididae:  Homoptera)|Indian J. Entomol.22(2): 105-108|1960|
58695|T||Peswani,K.M.|Relative Toxicity of Some Important Insecticidal Dusts to Hieroglyphus nigrorepletus Bol. Adults (Acridiidae: Orthoptera)|Indian J. Entomol.22(2): 112-114|1960|
58696|T||Jotwani,M.G., P. Sarup, and S. Pradhan|Comparative Toxicity of Insecticides to the Grubs and Adults of Epilachna vigintioctopunctata F. (Coccinellidae: Coleoptera)|Indian J. Entomol.24(4): 223-228|1962|
58697|T||Srivastava,P.D., M.W. Bhamburkar, P.N. Saxena, and P.J. Rao|Comparative Toxicity of Insecticides to the Third Instar Hoppers and Adults of the Desert Locust|Indian J. Entomol.24(4): 236-238|1962|
58698|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Relative Efficacy of Different Insecticides to the Grubs of Singhara Beetle, Galerucella birmanica Jacoby (Chrysomelidae:  Coleoptera)|Indian J. Entomol.26(1): 92-96|1964|
58699|T||Sarup,P., D.S. Singh, and R. Lal|Testing of Pesticides Against Safflower Aphid, Dactynotus carthami -H.-R.-L. (Aphididae: Homoptera)|Indian J. Entomol.26(3): 300-309|1964|
58700|T||Krampl,V., M. Kontskova, and J. Kramplova|Influence of Ethanol on the Interaction Between Polychlorinated Biphenyls and Drug Metabolism|Bull. Environ. Contam. Toxicol.25(5): 718-725|1980|10.1007/BF01985598
58701|T||Edqvist,L.E., A. Madej, and M. Forsberg|Biochemical Blood Parameters in Pregnant Mink Fed PCB and Fractions of PCB|Ambio21(8): 577-581|1992|
58703|A||Spehar,R.L.|Criteria Document Data|Memo to C.Stephan, U.S.EPA, Duluth, MN:24 p.|1987|
58704|A||Suzuki,K.T., and Y. Ebihara|Distribution of Cadmium, Copper and Zinc in the Liver of Spot Salamander, Ambystoma maculatum and Their Binding to Metallothionein|Comp. Biochem. Physiol. C Comp. Pharmacol.78(1): 35-38|1984|10.1016/0742-8413(84)90043-4
58705|T||Indra,N., P.R. Karpagaganapathy, and V. Meenakshi|Succinic Dehydrogenase Activity in Tissues of Male Tree Frog Polypedates maculatus (Gray) Exposed to Median Lethal Dose of Phosphamidon|Environ. Ecol.17(1): 14-17|1999|
58706|T||Neubert,D., P. Zens, A. Rothenwallner, and H.J. Merker|A Survey of the Embryotoxic Effects of TCDD in Mammalian Species|Environ. Health Perspect.5:67-79|1973|10.1289/ehp.730567
58707|A||Zaffaroni,N.P., T. Zavanella, M.L. Ferrari, and E. Arias|Toxicity of 2-Methyl-4-Chlorophenoxyacetic Acid to the Adult Crested Newt|Environ. Res.41(1): 201-206|1986|10.1016/S0013-9351(86)80182-7
58708|A||Zaffaroni,N.P., T. Zavanella, A. Cattaneo, and E. Arias|The Toxicity of 2,4-Dichlorophenoxyacetic Acid to the Adult Crested Newt|Environ. Res.41(1): 79-87|1986|10.1016/S0013-9351(86)80169-4
58710|T||Balasandaram,K., K. Ramalingam, and V.R. Selvarajan|Bioelectrical Activity of Brain in Rana tigrina (Daudin) in Response to Phosalone Poisoning|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(2): 229-231|1997|10.1016/S0300-9629(97)00072-8
58711|T||Cheng,Y.H., T.F. Shen, V.F. Pang, and B.J. Chen|Effects of Aflatoxin and Carotenoids on Growth Performance and Immune Response in Mule Ducklings|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(1): 19-26|2001|10.1016/S1532-0456(00)00173-3
58712|T||Delpuech,J.M., B. Legallet, and P. Fouillet|Partial Compensation of the Sublethal Effect of Deltamethrin on the Sex Pheromonal Communication of Trichogramma brassicae|Chemosphere42(8): 985-991|2001|10.1016/S0045-6535(00)00110-7
58713|T||Saitanis,C.J., A.N. Riga-Karandinos, and M.G. Karandinos|Effects of Ozone on Chlorophyll and Quantum Yield of Tobacco (Nicotiana tabacum L.) Varieties|Chemosphere42(8): 945-953|2001|10.1016/S0045-6535(00)00158-2
58714|T||Bergman,A., B.M. Backlin, B. Jarplid, L. Grimelius, and E. Wilander|Influence of Commerical Polychlorinated Biphenyls and Fractions Thereof on Liver Histology in Female Mink (Mustela vison)|Ambio21(8): 591-595|1992|
58715|A||Arias,E., N. Pacces Zaffaroni, and T. Zavanella|Teratological Evaluation of the Phenoxyacid Herbicide MCPA in the Regenerating Forelimb of the Adult Newt|Ecotoxicol. Environ. Saf.17(1): 30-37|1989|10.1016/0147-6513(89)90006-7
58716|T||Chowdhury,A.R., A.K. Gautam, and H. Venkatakrishna-Bhatt|DDT (2,2,Bis(p-Chlorophenyl) 1,1,1-Trichloroethane) Induced Structural Changes in Adrenal Glands of Rats|Bull. Environ. Contam. Toxicol.45(2): 193-196|1990|10.1007/BF01700183
58717|T||Banerjee,B.D., S.T. Pasha, M. Gulati, and Q.Z. Hussain|Biochemical & Pathological Changes in Albino Rats due to Long Term Feeding of Dietary DDT|J. Commun. Dis.15(3): 167-177|1983|
58718|T||Carlisle,J.C., D.W. Lamb, and P.A. Toll|Breaking Strength:  An Alternative Indicator of Toxic Effects on Avian Eggshell Quality|Environ. Toxicol. Chem.5(10): 887-889|1986|10.1002/etc.5620051004
58722|T||Lundholm,C.E.|Changes in the Levels of Different Ions in the Eggshell Gland Lumen Following p,p'-DDE-Induced Eggshell Thinning in Ducks|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.109(1): 57-62|1994|
58726|T||Balasubramaniam,G.A., and A. Sundararaj|Study of Testicular Pathology in Dichloro Diphenyl Trichlorethane (DDT) Treated White Leghorn Cockerels|Indian Vet. J.70(5): 414-416|1993|
58727|T||Attia,A.M., M.K. Vaughan, C. Rodriguez, and R.J. Reiter|Lindane and DDT-Induced Changes in Rat Harderian N-Acetyltransferase Activity, Melatonin Levels, and Porphyrin Concentration|Bull. Environ. Contam. Toxicol.55(1): 14-21|1995|10.1007/BF00212383
58730|T||Jiang,W., and D. Liu|Effects of Pb2+ on Root Growth, Cell Division, and Nucleolus of Zea mays L.|Bull. Environ. Contam. Toxicol.65(6): 786-793|2000|10.1007/s0012800191
58731|T||Gill,H., L.K. Wilson, K.M. Cheng, S. Trudeau, and J.E. Elliott|Effects of Azinphos-Methyl on American Robins Breeding in Fruit Orchards|Bull. Environ. Contam. Toxicol.65(6): 756-763|2000|10.1007/s0012800187
58732|T||Bunn,T.L., J.A. Marsh, and R.R. Dietert|Gender Differences in Developmental Immunotoxicity to Lead in the Chicken:  Analysis Following a Single Early Low-Level Exposure In Ovo|J. Toxicol. Environ. Health Part A61(8): 677-693|2000|10.1080/00984100050195152
58733|T||Hughes,M.R., J.E. Smits, J.E. Elliott, and D.C. Bennett|Morphological and Pathological Effects of Cadmium Ingestion on Pekin Ducks Exposed to Saline|J. Toxicol. Environ. Health Part A61(7): 591-608|2000|10.1080/00984100050194117
58734|T||Witzel,B.|The Influence of Zinc on the Uptake and Loss of Cadmium and Lead in the Woodlouse, Porcellio scaber (Isopoda, Oniscidea)|Ecotoxicol. Environ. Saf.47(1): 43-53|2000|10.1006/eesa.2000.1940
58735|T||Xiong,Z.T., and Y.H. Peng|Response of Pollen Germination and Tube Growth to Cadmium with Special Reference to Low Concentration Exposure|Ecotoxicol. Environ. Saf.48(1): 51-55|2001|10.1006/eesa.2000.2002
58736|T||Ma,L.Q., K.M. Komar, C. Tu, W. Zhang, Y. Cai, and E.D. Kennelley|A Fern that Hyperaccumulates Arsenic. A Hardy, Versatile, Fast-Growing Plant Helps to Remove Arsenic from Contaminated Soils|Nature409:579-|2001|10.1038/35054664
58737|T||Davis,M.A., J.F. Murphy, and R.S. Boyd|Nickel Increases Susceptibility of a Nickel Hyperaccumulator to Turnip mosaic Virus|J. Environ. Qual.30(1): 85-90|2001|10.2134/jeq2001.30185x
58738|T||McBride,M.B.|Cupric Ion Activity in Peat Soil as a Toxicity Indicator for Maize|J. Environ. Qual.30(1): 78-84|2001|10.2134/jeq2001.30178x
58739|T||Yadav,P., and A.K. Srivastava|Effect of Heavy Metal Cadmium on the Epidermal Traits of Some Crops|J. Environ. Biol.21(3): 259-262|2000|
58741|T||Sarkar,K., R. Pramanik, and V.C. Joy|Reproductive Toxicity of Pesticides on Soil Microarthropod Fauna as Ecotoxicological Tool|J. Environ. Biol.21(3): 227-234|2000|
58742|T||Merlee Teresa,M.V., and C.T. Anitha|Effect of Ammonia Fumes on Total Chlorophyll and Carotenoid Content in Rivina humilis Linn.|J. Environ. Biol.21(3): 207-209|2000|
58743|T||Hiriyanna, and G. Subramanya|Mutagenic Nature of Dithane-M45 Through Specific Locus Test on Mulberry Silkworm Bombyx mori L.|J. Environ. Biol.21(3): 203-206|2000|
58744|T||Hemalatha,S., and K. Francis|Lead Inhibition of Paddy Leaf Nitrate Reductase|J. Environ. Biol.21(4): 355-357|2000|
58745|T||Tomar,S., and N.C. Aery|Effect of Sodium Fluoride on Seed Germination, Early Seedling Growth and Biochemical Constituents of Wheat|J. Environ. Biol.21(4): 333-336|2000|
58746|T||Katiyar,V., and P.S. Dubey|Growth Behaviour of Two Cultivars of Maize in Response to SO2 and NO2|J. Environ. Biol.21(4): 317-323|2000|
58747|T||Gruttadaurio,J., A.M. Petrovic, and H. Pidduck|The Influence of Several Dicamba Formulations and 2,4-D plus Dichlorprop on the Quality of Penncross Creeping Bentgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:295-297|1984|
58749|T||Gould,H.J., and J.D.R. Vernon|Biological Control of Tetranychus urticae (Koch) on Protected Strawberries Using Phytoseiulus persimilis Athias-Henriot|Plant Pathol.27:136-139|1978|10.1111/j.1365-3059.1978.tb01098.x
58750|T||Matsumoto,N., S. Iijima, and H. Katsunuma|Placental Transfer of Chromic Chloride and Its Teratogenic Potential in Embryonic Mice|J. Toxicol. Sci.2(2): 1-13|1976|10.2131/jts.1.2_1
58754|T||Talvitie,N.A., and W.D. Wagner|Studies in Vanadium Toxicology II.  Distribution and Excretion of Vanadium in Animals|Arch. Ind. Hyg. Occup. Med.9:414-422|1954|
58761|T||Nanda,S., and P.K. Tapaswi|Biochemical, Neuropathological and Behavioral Studies in Hens Induced by Acute Exposure of Tri-Ortho-Cresyl Phosphate|Int. J. Neurosci.82(3-4): 243-254|1995|10.3109/00207459508999804
58762|T||Hurwitz,S.H.|The Reactions of Earthworms to Acids|Proc. Am. Acad. Arts Sci.46(2): 67-81|1910|
58763|T||McCool,M.M.|Effect of Thallium Sulfate on the Growth of Several Plants and on Nitrification in Soils|Contrib. Boyce Thompson Inst.5(3): 289-296|1933|
58769|T||Hagemeyer,J., T. Heppel, and S.W. Breckle|Effects of Cd and Zn on the Development of Annual Xylem Rings of Young Norway Spruce (Picea abies) Plants|Trees8:223-227|1994|10.1007/BF00196625
58770|AT||Barley,T.R., and E.T. Oborn|Effect of Endothal on Submersed Aquatic Weeds and Selected Crops|West.Weed Control Conf.Res.Prog.Rep.14:112-115|1954|
58773|A||Houba,C., and J. Remacle|Factors Influencing Toxicity of Cadmium to Tetrahymena pyriformis:  Particulate or Soluble Form and Degree of Complexation|Environ. Pollut. A.28(1): 35-43|1982|10.1016/0143-1471(82)90043-5
58774|T||Lee,C.C., and L.F. Wolterink|Metabolism of Cobalt 60 in Chickens|Poult. Sci.34:764-776|1955|10.3382/ps.0340764
58775|T||Pond,W.G., and E.F.,Jr. Walker|Cadmium-Induced Anemia in Growing Rats: Prevention by Oral or Parenteral Iron|Nutr. Rep. Int.5(6): 365-370|1972|
58776|T||De Matteis,F., and A.H. Gibbs|Inhibition of Haem Synthesis Caused by Cobalt in Rat Liver.  Evidence for Two Different Sites of Action|Biochem. J. (Lond.)162:213-216|1977|10.1042/bj1620213
58778|T||Reuther,W., and P.F. Smith|Toxic Effects of Copper on Growth of Citrus Seedlings and Its Possible Relation to Acid-Soil Chlorosis in Florida Citrus Groves|Citrus Mag.14(11): 25-27|1952|
58780|T||Smith,E.M., and S.A. Treaster|Tolerance of Azalea, Cotoneaster, and Euonymus to Devrinol, Goal, and Goal Combinations|Res. Circ. - Ohio Agric. Res. Dev. Ctr.2841:23-24|1985|
58781|T||Smith,E.M., and S.A. Treaster|Effects of BAY RSW 0411 Growth Regulator on Cotoneaster and Forsythia|Res. Circ. - Ohio Agric. Res. Dev. Ctr.289:1-3|1986|
58782|T||Selleck,G.W., and R.S. Greider|The Control of Yellow Nutsedge in Potatoes with DPX 4129|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:238-241|1980|
58783|A||Woelke,C.E.|Development of a Receiving Water Quality Bioassay Criterion Based on the 48-Hour Pacific Oyster (Crassostrea gigas) Embryo|Technical Report No.9, Washington Department of Fisheries, Seattle, WA:93 p.|1972|
58785|A||Union Carbide Environmental Services|The Acute Toxicity of Hexachlorocyclopentadiene to the Water Flea, Daphnia magna Straus|Prepared for Velsicol Chemical Corporation, Chicago, Illinois:7 p.|1977|
58789|T||Ali,S.S., and A.R. Shakoori|Histopathological Changes Induced by an Organochlorine Insecticide, DDT on the Liver of Albino Rat|Bull. Dep. Zool. Univ. Panjab11:67-81|1996|
58790|T||Ali,S.S., and A.R. Shakoori|Short and Long Term Toxicity of DDT in Albino Rats:  Biochemical Effects in Liver|Bull. Dep. Zool. Univ. Panjab11:7-24|1996|
58791|T||Clement,J.G., and A.B. Okey|Estrogenic and Anti-estrogenic Effects of DDT Administered in the Diet to Immature Female Rats|Can. J. Physiol. Pharmacol.50(10): 971-975|1972|10.1139/y72-141
58792|T||Copeland,M.F., and M.F. Cranmer|Effects of o,p'-DDT on the Adrenal Gland and Hepatic Microsomal Enzyme System in the Beagle Dog|Toxicol. Appl. Pharmacol.27(1): 1-10|1974|10.1016/0041-008X(74)90168-9
58795|T||Dinu,L., A. Ichim, E. Radovici, E. Cristea, L. Boghianu, R. Ciupe, and I. Mihailescu|Effect of DDT Administration on Some Enzymatic Reactions in Rat Tissue|Rev. Roum. Biochim.11(4): 247-255|1974|
58796|T||Fonseca,M.I., J.S. Aguilar, C. Lopez, J.C. Garcia Fernandez, and E. De Robertis|Regional Effect of Organochlorine Insecticides on Cholinergic Muscarinic Receptors of Rat Brain|Toxicol. Appl. Pharmacol.84(1): 192-195|1986|10.1016/0041-008X(86)90426-6
58797|T||Ghosh,S., S. Sengupta, and A. Ghosh|O,p'-DDD Acts Through Thyro-Gonadal Axis:  A  Cytomorphologic Evidence|Indian J. Physiol. Allied Sci.51(1): 5-8|1997|
58798|T||Cecil,H.C., J. Bitman, and S.J. Harris|Estrogenicity of o,p'-DDT in Rats|J. Agric. Food Chem.19(1): 61-65|1971|10.1021/jf60173a049
58800|T||Lundholm,C.E.|Inhibition of Prostaglandin Synthesis in Eggshell Gland Mucosa as a Mechanism for p,p'-DDE-Induced Eggshell Thinning in Birds - a Comparison of Ducks and Domestic Fowls|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 389-394|1993|
58801|T||Yagi,N., K. Kamohara, and Y. Itokawa|Thiamine Deficiency Induced by Polychlorinated Biphenyls (PCB) and Dichlorodiphenyltrichloroethane (DDT) Administration to Rats|J. Environ. Pathol. Toxicol.2(4): 1119-1125|1979|
58803|T||DeWitt,J.B., J.V.,Jr. Derby, and G.F.,Jr. Mangan|DDT vs. Wildlife. Relationships Between Quantities Ingested, Toxic Effects and Tissue Storage|J. Am. Pharm. Assoc.44(1): 22-24|1955|10.1002/jps.3030440109
58822|T||Wassermann,M., D. Wassermann, Z. Gershon, and L. Zellermayer|Effects of Organochlorine Insecticides on Body Defense Systems|Ann. N. Y. Acad. Sci.160(1): 393-401|1969|10.1111/j.1749-6632.1969.tb15861.x
58826|T||O'Toole,D., and M.F. Raisbeck|Experimentally Induced Selenosis of Adult Mallard Ducks: Clinical Signs, Lesions, and Toxicology|Vet. Pathol.34(4): 330-340|1997|10.1177/030098589703400409
58827|T||Schroeder,H.A., and M. Mitchener|Selenium and Tellurium in Mice. Effects on Growth, Survival, and Tumors|Arch. Environ. Health24(1): 66-71|1972|10.1080/00039896.1972.10666052
58828|T||Yang,Z.L., X.A. Jia, J.Y. Zhao, T.L. Li, and G.L. Xu|Effects of Selenium on Ribonucleic Acid Synthesis and Degradation in Rat Liver|J. Trace Elem. Electrolytes Health Dis.6(3): 161-167|1992|
58829|T||Yaeger,M.J., R.D. Neiger, L. Holler, T.L. Fraser, D.J. Hurley, and I.S. Palmer|The Effect of Subclinical Selenium Toxicosis on Pregnant Beef Cattle|J. Vet. Diagn. Invest.10(3): 268-273|1998|10.1177/104063879801000307
58830|T||Shan,A.S., and R.H. Davis|Effect of Dietary Phytate on Growth and Selenium Status of Chicks fed Selenite or Selenomethionine|Br. Poult. Sci.35(5): 725-741|1994|10.1080/00071669408417738
58831|T||Pathak,D.C., and B.M. Datta|The Effects of Oral Administration of Sodium Selenite on Clinical Signs and Mortality|Indian Vet. J.61(10): 845-846|1984|
58832|T||Sayato,Y., T. Hasegawa, S. Taniguchi, A,H. Maeda, K. Ozaki, I. Narama, and K. Nakamuro|Acute and Subacute Oral Toxicity of Selenocystine in Mice|Eisei Kagaku (Multiple Languages)39(4): 289-296|1993|
58833|T||George,V.T., and A. Sundararaj|Effect of DDT on Reproductive Performance of White Leghorn Cockerels|Indian Vet. J.72(7): 694-697|1995|
58834|T||Turan,B., E. Koc, and N. Zaloglu|Deficiency and Toxicity of Selenium Alter the Acetylcholine Stimulated Contraction of Isolated Rabbit Ileum|Trace Elem. Electrolytes14(1): 13-18|1997|
58835|T||Moxon,A.L., and D.C. Mahan|Toxic Dietary Selenium Levels for Weanling Swine|In: Proceedings of the International Symposium on Trace Elements in Man and Animals:471-474|1982|
58836|T||Wilson,T.M., R.H. Hammerstedt, I.S. Palmer, and A. deLahunta|Porcine Focal Symmetrical Poliomyelomalacia:  Experimental Reproduction with Oral Doses of Encapsulated Sodium Selenite|Can. J. Vet. Res.52(1): 83-88|1988|
58837|T||Wilson,T.M., R.W. Scholz, and T.R. Drake|Selenium Toxicity and Porcine Focal Symmetrical Poliomyelomalacia: Description of a Field Outbreak and Experimental Reproduction|Can. J. Comp. Med.47(4): 412-421|1983|
58839|T||Larsen,H.J., G. Overnes, and K. Moksnes|Effect of Selenium on Sheep Lymphocyte Responses to Mitogens|Res. Vet. Sci.45(1): 11-15|1988|10.1016/S0034-5288(18)30887-7
58840|T||Mahan,D.C., and P.L. Magee|Efficacy of Dietary Sodium Selenite and Calcium Selenite Provided in the Diet at Approved, Marginally Toxic, and Toxic Levels to Growing Swine|J. Anim. Sci.69(12): 4722-4725|1991|10.2527/1991.69124722x
58842|T||Kumar,K., K.C. Bhatia, and J.R. Sadana|Hematological Studies on Experimental Selenium Toxicity in Buffalo Calves|Indian J. Anim. Nutr.6(1): 52-55|1989|
58843|T||Kirchgessner,M., S. Gabler, and W. Windisch|Homeostatic Adjustments of Selenium Metabolism and Tissue Selenium to Widely Varying Selenium Supply in 75Se Labeled Rats|J. Anim. Physiol. Anim. Nutr.78(1): 20-30|1997|10.1111/j.1439-0396.1997.tb00852.x
58844|T||Mensink,C.G., J.P. Koeman, J. Veling, and E. Gruys|Haemorrhagic Claw Lesions in Newborn Piglets Due to Selenium Toxicosis During Pregnancy|Vet. Rec.126(25): 620-622|1990|
58846|T||Penrith,M.L., and J.T.R. Robinson|Selenium Toxicosis with Focal Symmetrical Poliomyelomalacia in Postweaning Pigs in South Africa|Onderstepoort J. Vet. Res.63(2): 171-179|1996|
58847|T||Poulsen,H.D.|Selenium Supplementation in Pigs|Norw. J. Agric. Sci. Suppl.11(Supplement): 189-197|1993|
58848|T||Poulsen,H.D., V. Danielsen, T.K. Nielsen, and C. Wolstrup|Excessive Dietary Selenium to Primiparous Sows and Their Offspring: I. Influence on Reproduction and Growth|Acta Vet. Scand.30(4): 371-378|1989|10.1186/BF03548012
58850|T||Smyth,J.B.A., J.H. Wang, R.M. Barlow, D.J. Humphreys, M. Robins, and J.B.J. Stodulski|Experimental Acute Selenium Intoxication in Lambs|J. Comp. Pathol.102(2): 197-209|1990|10.1016/S0021-9975(08)80125-9
58851|T||Stoewsand,G.S., J.L. Anderson, W.H. Gutenmann, and D.J. Lisk|Form of Dietary Selenium on Mercury and Selenium Tissue Retention and Egg Production in Japanese Quail|Nutr. Rep. Int.15(1): 81-87|1977|
58852|T||Tarp,U., E.B. Thorling, H.R. Andersen, and J.C. Hansen|Gold and Selenium-Induced Changes in Glutathione Peroxidase and Interaction of Some Trace Elements in Rats|Trace Elem. Med.84(4): 187-194|1991|
58853|T||Teige,J.,Jr., H.J. Larsen, and S. Tollersrud|Swine Dysentery: The Influence of Dietary Selenium on Clinical and Pathological Effects of Treponema hyodysenteriae Infection|Acta Vet. Scand.25(1): 1-9|1984|10.1186/BF03547273
58854|T||Chernoff,N., and R.J. Kavlock|A Teratology Test System Which Utilizes Postnatal Growth and Viability in the Mouse|Environ. Sci. Res.27:417-427|1983|
58855|T||Chernoff,N., and R.J. Kavlock|An In Vivo Teratology Screen Utilizing Pregnant Mice|J. Toxicol. Environ. Health10:541-550|1982|10.1080/15287398209530275
58856|T||Rossi,L., O. Barbieri, M. Sanguineti, J.R.P. Cabral, P. Bruzzi, and L. Santi|Carcinogenicity Study with Technical-Grade Dichlorodiphenyltrichloroethane and 1,1-Dichloro-2,2-bis(p-Chlorophenyl) Ethylene in Hamsters|Cancer Res.43:776-781|1983|
58857|T||Birt,D.F., A.D. Julius, C.E. Runice, and S. Sayed|Tolerance of Diets Deficient or Excessive in Selenium by Syrian Hamsters|Ann. Nutr. Metab.27(2): 81-93|1983|10.1159/000176627
58858|T||Debski,B., T.P. Zarski, and J.A. Milner|The Influence of Age and Sex on Selenium Distribution and Glutathione Peroxidase Activity in Plasma and Erythrocytes of Selenium-Adequate and Supplemented Rats|J. Physiol. Pharmacol.43(3): 299-306|1992|
58859|T||Cantor,A.H., and M.L. Scott|Influence of Dietary Selenium on Tissue Selenium Levels in Turkeys|Poult. Sci.54(1): 262-265|1975|10.3382/ps.0540262
58860|T||Bauersachs,S., M. Kirchgessner, and B.R. Paulicks|Effects of Different Levels of Dietary Selenium and Vitamin E on the Humoral Immunity of Rats|J. Trace Elem. Electrolytes Health Dis.7(3): 147-152|1993|
58861|T||Hermann,J.R., J.E. Spallholz, A. Raferty, and S. Gunasegarum|Comparative Dietary Toxicity of  D- and L-Selenomethionine in Fisher 344 Rats: Brief Report|J. Trace Elem. Exp. Med.4(1): 69-71|1991|
58862|T||Cabe,P.A., N.G. Carmichael, and H.A. Tilson|Effects of Selenium, Alone and in Combination with Silver or Arsenic, in Rats|Neurobehav.Toxicol.1(4): 275-278|1979|
58863|T||Coudray,C., H. Hida, F. Boucher, V. Tirard, J. De Leiris, and A. Favier|Effect of Selenium Supplementation on Biological Constants and Antioxidant Status in Rats|J. Trace Elem. Med. Biol.10(1): 12-19|1996|10.1016/S0946-672X(96)80003-4
58864|T||Grillo,M.A., S. Colombatto, and D.C. Pezzali|Effect of Selenium on Polyamine Metabolism|Ital. J. Biochem.36(1): 29A - 30A|1987|
58868|T||Khan,M.Z., J. Szarek, and K. Markiewicz|Effects of Oral Administration of Toxic Levels of Lead and Selenium upon Concentration of Different Elements in the Liver of Broiler Chicks|J. Vet. Med. Ser. A40:652-664|1993|10.1111/j.1439-0442.1993.tb00681.x
58871|T||Davis,R.H., J. Fear, and A.C. Winton|Interactions Between Dietary Selenium, Copper and Sodium Nitroprusside, a Source of Cyanide in Growing Chicks and Laying Hens|Br. Poult. Sci.37:87-94|1996|10.1080/00071669608417839
58873|T||Naishtein,S.Y., and D.L. Leibovich|Effect of Small Doses of DDT and Lindane and Their Mixture on Sexual Function and Embryogenesis in Rats|Hyg. Sanit.36(4-6): 190-194|1971|
58874|T||Kornbrust,D., B. Gillis, B. Collins, T. Goehl, B. Gupta, and B. Schwetz|Effects of 1,1-Dichloro-2,2-Bis(p-Chlorophenyl)Ethylene (DDE) on Lactation in Rats|J. Toxicol. Environ. Health17:23-36|1986|10.1080/15287398609530799
58875|T||Lindenau,A., B. Fischer, P. Seiler, and H.M. Beier|Effects of Persistent Chlorinated Hydrocarbons on Reproductive Tissues in Female Rabbits|Hum. Reprod. (Oxf.)9(5): 772-780|1994|10.1093/oxfordjournals.humrep.a138595
58876|T||Seiler,P., B. Fischer, A. Lindenau, and H.M. Beier|Effects of Persistent Chlorinated Hydrocarbons on Fertility and Embryonic Development in the Rabbit|Hum. Reprod. (Oxf.)9(10): 1920-1926|1994|10.1093/oxfordjournals.humrep.a138359
58877|T||Chura,N.J., and P.A. Stewart|Care, Food Consumption, and Behavior of Bald Eagles Used in DDT Tests|Wilson Bull.79(4): 441-448|1967|
58878|T||Hart,M.M., R.H. Adamson, and S. Fabro|Prematurity and Intrauterine Growth Retardation Induced by DDT in the Rabbit|Arch. Int. Pharmacodyn. Ther.192:286-290|1971|
58879|T||Mackintosh,C.G., J. Gill, and K. Turner|Selenium Supplementation of Young Red Deer (Cervus elaphus)|N. Z. Vet. J.37:143-145|1989|10.1080/00480169.1989.35588
58880|T||Zaki,A.A., F.A. Elnagmi, and S.Y. Saleh|Effect of Selenium and Vitamin E on Some Enzymatic Activities of Gut Contents and Sera of Chicken|Assiut Vet. Med. J.29(57): 17-25|1993|
58883|T||Gillett,J.W., T.M. Chan, and L.C. Terriere|Interactions Between DDT Analogs and Microsomal Epoxidase Systems|J. Agric. Food Chem.14(6): 540-545|1966|10.1021/jf60148a001
58888|A||Boney,A.D.|Sub-lethal Effects of Mercury on Marine Algae|Mar. Pollut. Bull.2(5): 69-71|1971|10.1016/0025-326X(71)90225-6
58889|A||Talbot,V., R.J. Magee, and M. Hussain|Lead in Port Phillip Bay Mussels|Mar. Pollut. Bull.(7): 234-237|1976|10.1016/0025-326X(76)90269-1
58890|A||Parrish,K.M., and R.A. Carr|Transport of Mercury Through a Laboratory Two-Level Marine Food Chain|Mar. Pollut. Bull.7:90-91|1976|10.1016/0025-326X(76)90148-X
58891|A||Rivkin,R.B.|Effects of Lead on Growth of the Marine Diatom Skeletonema costatum|Mar. Biol.50:239-247|1979|10.1007/BF00394205
58892|A||Berdugo,V., R.P. Harris, and S.C. O'Hara|The Effect of Petroleum Hydrocarbons on Reproduction of an Estuarine Planktonic Copepod in Laboratory Cultures|Mar. Pollut. Bull.9:138-143|1977|10.1016/0025-326X(77)90154-0
58894|A||Pringle,B.H., D.E. Hissong, E.L. Katz, and S.T. Mulawka|Trace Metal Accumulation by Estuarine Mollusks|J. Sanit. Eng. Div.94:455-475|1968|10.1061/JSEDAI.0000839
58895|A||Wheeler,A.E., R.A. Zingaro, K. Irgolic, and N.R. Bottino|The Effect of Selenate, Selenite, and Sulfate on the Growth of Six Unicellular Marine Algae|J. Exp. Mar. Biol. Ecol.57:181-194|1982|10.1016/0022-0981(82)90191-5
58896|A||Zaroogian,G.E., and G.L. Hoffman|Arsenic Uptake and Loss in the American Oyster, Crassostrea virginica|Environ. Monit. Assess.1(4): 345-358|1982|10.1007/BF00403835
58903|T||Jorgensen,P.F., and I. Wegger|Glutathione Peroxidase and Health in Swine|Acta Vet. Scand.20(4): 610-612|1979|10.1186/BF03546592
58904|T||Cecil,H.C., S.J. Harris, J. Bitman, and P. Reynolds|Estrogenic Effects and Liver Microsomal Enzyme Activity of Technical Methoxychlor and Technical 1,1,1-Trichloro-2,2-Bis(p-Chlorophenyl)Ethane in Sheep|J. Agric. Food Chem.23(3): 401-403|1975|10.1021/jf60199a028
58905|T||Greichus,Y.A., and M.R. Hannon|Distribution and Biochemical Effects of DDT, DDD and DDE in Penned Double-Crested Cormorants|Toxicol. Appl. Pharmacol.26(4): 483-494|1973|10.1016/0041-008X(73)90286-X
58906|T||Janda,J.|Pesticides and Game (Research Results 1971-1972)|Commun. Inst. For. Cechos.9:111-120|1975|
58907|T||Jones,F.J.S., and D.D.B. Summers|Relation Between DDT in Diets of Laying Birds and Viability of Their Eggs|Nature217(5134): 1162-1163|1968|10.1038/2171162a0
58908|T||Sell,J.L., K.L. Davison, and K.B. Poonacha|Decreased Aniline Hydroxylase Activity in Japanese Quail due to Dietary DDT|J. Agric. Food Chem.20(3): 553-557|1972|10.1021/jf60181a062
58909|T||Tarjan,R., and T. Kemeny|Multigeneration Studies on DDT in Mice|Food Cosmet. Toxicol.7(3): 215-222|1969|10.1016/S0015-6264(69)80325-1
58910|T||Awad,Y.L., A.A. Ahmed, A.Y. Lotfi, and F. Fahmy|The Influence of Selenium Administration on Copper Levels and Growth of Lambs|Zentbl. Vetmed. Reihe A20(9): 742-747|1973|10.1111/j.1439-0442.1973.tb00636.x
58911|T||Boylan,L.M., D. Cogan, N. Huffman, and J.E. Spallholz|Behavioral Characteristics in Open Field Testing of Mice Fed Selenium-Deficient and Selenium-Supplemented Diets|J. Trace Elem. Exp. Med.3(2): 157-164|1990|
58912|T||Derevenco,P., A. Vaida, N. Stoica, S. Gabor, L. Ivanof, M. Botoc, L. Alexa, and I. Baciu|Neurobehavioral and Biochemical Response to Manganese and Selenium Exposure in Rats|Physiologie25(3): 111-118|1988|
58913|T||Elzubeir,E.A., and R.H. Davis|Effect of Dietary Sodium Nitroprusside as a Source of Cyanide on the Selenium Status of Chicks Given Diets of Varying Selenium Concentration|Br. Poult. Sci.29(4): 769-777|1988|10.1080/00071668808417105
58914|T||Gronbaek,H., and O. Thorlacius-Ussing|Selenium Complexes in the Anterior Pituitary of Rats Exposed to L-Selenomethionine|Virchows Arch. B Cell Pathol. Incl. Mol. Pathol.59(5): 291-296|1990|10.1007/BF02899416
58915|T||Jacobs,M., and C. Forst|Toxicological Effects of Sodium Selenite in Swiss Mice|J. Toxicol. Environ. Health8(4): 587-598|1981|10.1080/15287398109530093
58916|T||Jenkins,K.J., and M. Hidiroglou|Tolerance of the Preruminant Calf for Selenium in Milk Replacer|J. Dairy Sci.69(7): 1865-1870|1986|10.3168/jds.S0022-0302(86)80612-9
58917|T||Piccirillo,V.J., D.L. McCall, C. Lunchick, L.J. Plankenhorn, and C. Sexsmith|Screening of Priority Chemicals for Reproductive Hazards|Final Report, Borriston Project No. 0107-A,B,C. Submitted by the Borriston Laboratories Inc., Temple Hills, MD:108 p.|1983|
58921|T||Miller,W.T., and H.W. Schoening|Toxicity of Selenium Fed to Swine in the Form of Sodium Selenite|J. Agric. Res.56(11): 831-842|1938|
58922|T||Wahlstrom,R.C., and O.E. Olson|The Effect of Selenium on Reproduction in Swine|J. Anim. Sci.18:141-145|1959|10.2527/jas1959.181141x
58923|T||Jacobs,M., and C. Forst|Toxicological Effects of Sodium Selenite in Sprague-Dawley Rats|J. Toxicol. Environ. Health8(4): 575-585|1981|10.1080/15287398109530092
58940|T||Heinz,G.H.|Selenium Accumulation and Loss in Mallard Eggs|Environ. Toxicol. Chem.12(4): 775-778|1993|10.1002/etc.5620120419
58944|T||Laug,E.P., and O.G. Fitzhugh|2,2-bis (p-Chlorophenyl)-1,1,1-Trichloroethane (DDT) in the Tissues of the Rat Following Oral Ingestion for Periods of Six Months to Two Years|J. Pharmacol. Exp. Ther.87:18-23|1946|
58945|T||Mohan,M., P.K. Dwarakanath, and M. Singh|A Note on Serum Transaminases Activity During Experimental Selenosis in Sheep|Indian J. Anim. Sci.46(7): 371-372|1976|
58949|T||Heinz,G.H., and D.J. Hoffman|Methylmercury Chloride and Selenomethionine Interactions on Health and Reproduction in Mallards|Environ. Toxicol. Chem.17(2): 139-145|1998|10.1002/etc.5620170202
58951|T||Heinz,G.H., and M.A. Fitzgerald|Overwinter Survival of Mallards fed Selenium|Arch. Environ. Contam. Toxicol.25(1): 90-94|1993|10.1007/BF00230717
58952|T||Heinz,G.H.|Re-Exposure of Mallards to Selenium After Chronic Exposure|Environ. Toxicol. Chem.12(9): 1691-1694|1993|
58953|T||Hoffman,D.J., C.J. Sanderson, L.J. LeCaptain, E. Cromartie, and G.W. Pendleton|Interactive Effects of Selenium, Methionine, and Dietary Protein on Survival, Growth, and Physiology in Mallard Ducklings|Arch. Environ. Contam. Toxicol.23(2): 163-171|1992|10.1007/BF00212270
58954|T||Hoffman,D.J., G.H. Heinz, L.J. LeCaptain, C.M. Bunck, and D.E. Green|Subchronic Hepatotoxicity of Selenomethionine Ingestion in Mallard Ducks|J. Toxicol. Environ. Health32(4): 449-464|1991|10.1080/15287399109531495
58956|T||Hoffman,D.J., C.J. Sanderson, L.J. LeCaptain, E. Cromartie, and G.W. Pendleton|Interactive Effects of Arsenate, Selenium, and Dietary Protein on Survival, Growth, and Physiology in Mallard Ducklings|Arch. Environ. Contam. Toxicol.22(1): 55-62|1992|10.1007/BF00213302
58958|T||Davidson-York,D., F.D. Galey, P. Blanchard, and I.A. Gardner|Selenium Elimination in Pigs After an Outbreak of Selenium Toxicosis|J. Vet. Diagn. Invest.11(4): 352-357|1999|10.1177/104063879901100410
58960|T||Julius,A.D., M.H. Davies, and D.F. Birt|Toxic Effects of Dietary Selenium in the Syrian Hamster|Ann. Nutr. Metab.27(4): 296-305|1983|10.1159/000176690
58961|T||Bahadir,M., S. Nitz, H. Parlar, and F. Korte|On Chemical Problems of the Mechanism of Action of the Chlorothiobenzamides|J. Agric. Food Chem.27(4): 815-818|1979|10.1021/jf60224a017
58966|T||Bruggers,R., J. Matee, J. Miskell, W. Erickson, M. Jaeger, W.B. Jackson, and Y. Juimale|Reduction of Bird Damage to Field Crops in Eastern Africa with Methiocarb|Trop. Pest Manag.27(2): 230-241|1981|10.1080/09670878109413656
58967|T||Johnson,F., D.F. Allmendinger, V.L. Miller, and C.J. Gould|Leaf Scorch of Gladiolus Caused by Atmospheric Fluoric Effluents|Phytopathology40:239-246|1950|
58968|T||Bruns,V.F.|The Response of Certain Crops to 2,4-Dichlorophenoxyacetic Acid in Irrigation Water. Part I. Red Mexican Beans|Weeds (Urbana)3:359-376|1954|10.2307/4040081
58969|T||Echevarria,G., J.L. Morel, J.C. Fardeau, and E. Leclerc-Cessac|Assessment of Phytoavailability of Nickel in Soils|J. Environ. Qual.27(5): 1064-1070|1998|10.2134/jeq1998.00472425002700050011x
58970|A||Roast,S.D., J. Widdows, and M.B. Jones|Effects of Salinity and Chemical Speciation on Cadmium Accumulation and Toxicity to Two Mysid Species|Environ. Toxicol. Chem.20(5): 1078-1084|2001|10.1002/etc.5620200519
58971|A||Brix,K.V., J.S. Volosin, W.J. Adams, R.J. Reash, R.G. Carlton, and D.O. McIntyre|Effects of Sulfate on the Acute Toxicity of Selenate to Freshwater Organisms|Environ. Toxicol. Chem.20(5): 1037-1045|2001|10.1002/etc.5620200514
58973|A||Hattink,J., H.T. Wolterbeek, and J.J.M. De Goeij|Influence of Salinity and Eutrophication on Bioaccumulation of 99Technetium in Duckweed|Environ. Toxicol. Chem.20(5): 996-1002|2001|10.1002/etc.5620200509
58974|A||Nikkila,A., M. Paulsson, K. Almgren, H. Blanck, and J.V.K. Kukkonen|Atrazine Uptake, Elimination, and Bioconcentration by Periphyton Communities and Daphnia magna:  Effects of Dissolved Organic Carbon|Environ. Toxicol. Chem.20(5): 1003-1011|2001|10.1002/etc.5620200510
58975|A||Wong,D.C.L., W.R. Arnold, G.A. Rausina, E.R. Mancini, and A.E. Steen|Development of a Freshwater Aquatic Toxicity Database for Ambient Water Quality Criteria for Methyl Tertiary-Butyl Ether|Environ. Toxicol. Chem.20(5): 1125-1132|2001|
58976|T||Jensen,J., J. Van Langevelde, G. Pritzl, and P.H. Krogh|Effects of di(2-Ethylhexyl) Phthalate and Dibutyl Phthalate on the Collembolan Folsomia fimetaria|Environ. Toxicol. Chem.20(5): 1085-1091|2001|
58980|A||Wang,W.X.|Comparison of Metal Uptake Rate and Absorption Efficiency in Marine Bivalves|Environ. Toxicol. Chem.20(6): 1367-1373|2001|10.1002/etc.5620200628
58981|AT||Sudhakar Babu,T., J.B. Marder, S. Tripuranthakam, D.G. Dixon, and B.M. Greenberg|Synergistic Effects of a Photooxidized Polycyclic Aromatic Hydrocarbon and Copper on Photosynthesis and Plant Growth:  Evidence that In Vivo Formation of Reactive Oxygen Species is a Mechanism of Copper Toxicity|Environ. Toxicol. Chem.20(6): 1351-1358|2001|10.1897/1551-5028(2001)020<1351:SEOAPP>2.0.CO;2
58982|T||Oste,L.A., J. Dolfing, W.C. Ma, and T.M. Lexmond|Effect of Beringite on Cadmium and Zinc Uptake by Plants and Earthworms:  More than a Liming Effect?|Environ. Toxicol. Chem.20(6): 1339-1345|2001|10.1002/etc.5620200624
58983|T||Sverdrup,L.E., A.E. Kelley, P.H. Krogh, T. Nielsen, J. Jensen, J.J. Scott-Fordsmand, and J. Stenersen|Effects of Eight Polycyclic Aromatic Compounds on the Survival and Reproduction of the Springtail Folsomia fimetaria L. (Collembola, Isotomidae)|Environ. Toxicol. Chem.20(6): 1332-1338|2001|10.1002/etc.5620200623
58984|A||Torres de Lemos,C., P.M. Rodel, N.R. Terra, and B. Erdtmann|Evaluation of Basal Micronucleus Frequency and Hexavalent Chromium Effects in Fish Erythrocytes|Environ. Toxicol. Chem.20(6): 1320-1324|2001|10.1897/1551-5028(2001)020<1320:EOBMFA>2.0.CO;2
58986|T||Jalil,A., F. Selles, and J.M. Clarke|Growth and Cadmium Accumulation in Two Durum Wheat Cultivars|Commun. Soil Sci. Plant Anal.25(15-16): 2597-2611|1994|10.1080/00103629409369211
58990|A||Bringmann,G., and R. Kuhn|The Water-Toxicological Detection of Insecticides (Zum Wasser-Toxikologischen Nachweis von Insektiziden)|Gesund. -Ing.8:243-244|1960|
58991|T||Gunes,A., and W.H.K. Post|Effects of Various Levels and Combinations of Molybdenum and Tungsten on the Growth and Nitrate Accumulation in Lettuca (Lactuce sativa L.) Grown in Nutrient Solution|Turk. J. Agric. For.19(3): 195-199|1995|
58992|T||Unni,P.N., G. Santhakumar, and S.R. Nair|Metal Toxicity in Acid Soils of Kerala - Effect of Manganese on Growth and Physiology of Rice (Oryza sativa L.) cv. Jaya|Int. J. Environ. Stud.47(2): 151-158|1995|10.1080/00207239508710953
58993|T||Van Capelleveen,H.E.|Ecotoxicity of Heavy Metals for Terrestrial Isopods|Ph.D.Thesis, Vrijej Universiteit, Amsterdam:104 p.|1987|
58996|T||Blakley,B.R., C.S. Sisodia, and T.K. Mukkur|The Effect of Methylmercury, Tetraethyl Lead, and Sodium Arsenite on the Humoral Immune Response in Mice|Toxicol. Appl. Pharmacol.52(2): 245-254|1980|10.1016/0041-008X(80)90111-8
58997|T||Moksnes,K.|Selenium Deposition in Tissues and Eggs of Laying Hens Given Surplus of Selenium as Selenomethionine|Acta Vet. Scand.24(1): 34-44|1983|10.1186/BF03546755
58998|T||Hill,C.H.|Influence of Time of Exposure to high Levels of Minerals on the Susceptibility of Chicks to Salmonella gallinarum|J. Nutr.110(3): 433-436|1980|10.1093/jn/110.3.433
58999|T||Arnold,R.L., O.E. Olson, and C.W. Carlson|Dietary Selenium and Arsenic Additions and Their Effects on Tissue and Egg Selenium|Poult. Sci.52:847-854|1973|10.3382/ps.0520847
59000|T||Fitzhugh,O.G., and A.A. Nelson|The Chronic Oral Toxicity of DDT (2,2-bis(p-Chlorophenyl-1,1,1-Trichloroethane)|J. Pharmacol. Exp. Ther.89:18-30|1947|
59001|T||Ishikawa,M., M. Sasaki, K. Koiwai, M. Ozaki, Y. Takayanagi, and K. Sasaki|Inhibition of Hepatic Mixed-Function Oxidase Enzymes in Mice by Acute and Chronic Treatment with Selenium|J. Pharmacobio-Dyn.15(8): 377-385|1992|10.1248/bpb1978.15.377
59005|T||Bahig,M.R.E.|Effect of Subacute Poisoning by Cyolane1 on Acetylcholine Esterase and Succinic Dehydrogenase in the Rat|Experientia31(7): 836-837|1975|10.1007/BF01938494
59008|T||Srebocan,V., J. Pompe-Gotal, V. Brmalj, and M. Plazonic|Effect of Pesticidal Chlorinated Hydrocarbons on the Enzymatic Regulaton of Carbohydrate Metabolism in Poultry. I.  Influence of DDT, Lindane, Chlordane, Toxaphene, Aldrin, Endosulfan and Kelevan on the Enzymatic Regula|Vet. Arh. (Tisak)48(3): 111-121|1978|
59009|T||Wasti,S.S., G.H. Snoeyenbos, F.R. Shaw, and J.H. Lilly|Toxicity and Residues of Encapsulated Rabon to Salmon Sex-Link Hens|J. Econ. Entomol.64(1): 81-83|1971|10.1093/jee/64.1.81
59010|T||Magee,T.A., and L.E. Limpel|Insecticidal Substituted 2-Butanone O-(Methylaminocarbonyl)Oximes|J. Agric. Food Chem.25(6): 1376-1382|1977|10.1021/jf60214a019
59011|T||Chang,K.M., and C.O. Knowles|Formamidine Acaricides.  Toxicity and Metabolism Studies with Twospotted Spider Mites, Tetranychus urticae Koch|J. Agric. Food Chem.25(3): 493-501|1977|10.1021/jf60211a024
59012|T||Gladstone,C.M., and J.L. Wong|Azadiene Chemistry.  4.  Insecticidal Activities and Chemical Reactivities of Azaaldrin and Azadieldrin.  Comparison with Aldrin and Dieldrin|J. Agric. Food Chem.25(3): 489-493|1977|10.1021/jf60211a019
59013|T||Cochran,D.G.|Toxic Effects of Boric Acid on the German Cockroach|Experientia51(6): 561-563|1995|10.1007/BF02128743
59014|T||Chalvet-Monfray,K., L.P. Belzunces, M.E. Colin, C. Fleche, and P. Sabatier|Synergy Between Deltamethrin and Prochloraz in Bees:  Modeling Approach|Environ. Toxicol. Chem.15(4): 525-534|1996|10.1002/etc.5620150418
59015|T||Alekseev,A.A., E.I. Kirov, and I.B. Knorr|Effects of Insecticide Aerosols on Insects of Grassland Ecosystems|J. Aerosol Sci.26:S539 - S540|1995|10.1016/0021-8502(95)97177-G
59016|T||Bayley,M., and E. Baatrup|Pesticide Uptake and Locomotor Behaviour in the Woodlouse:  An Experimental Study Employing Video Tracking and 14C-Labelling|Ecotoxicology5(1): 35-45|1996|10.1007/BF00116322
59017|T||Chalvet-Monfray,K., L.P. Belzunces, M.E. Colin, C. Fleche, and P. Sabatier|Modelling Synergistic Effects of Two Toxic Agents in the Honeybee|J. Biol. Syst.3(1): 253-263|1995|10.1142/S0218339095000241
59019|T||Henson,M.C., H.G. Kattesh, J.P. Hitchcock, and S.A. Kincaid|The Effects of Dietary Selenium on Growth and Selected Reproductive Parameters in Young Boars|Anim. Prod.37(3): 401-408|1983|
59020|T||Santolo,G.M., J.T. Yamamoto, J.M. Pisenti, and B.W. Wilson|Selenium Accumulation and Effects on Reproduction in Captive American Kestrels fed Selenomethionine|J. Wildl. Manag.63(2): 502-511|1999|10.2307/3802635
59021|T||Jefferies,D.J.|Some Sublethal Effects of pp'-DDT and Its Metabolite pp'-DDE on Breeding Passerine Birds|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)36(1): 34-42|1971|
59023|T||Thapar,N.T., E. Guenthner, C.W. Carlson, and O.E. Olson|Dietary Selenium and Arsenic Additions to Diets for Chickens over a Life Cycle|Poult. Sci.48(6): 1988-1993|1969|10.3382/ps.0481988
59024|T||Moksnes,K., and G. Norheim|Selenium Concentrations in Tissues and Eggs of Growing and Laying Chickens fed Sodium Selenite at Different Levels|Acta Vet. Scand.23(3): 368-379|1982|10.1186/BF03546788
59028|T||El-Begearmi,M.M., M.L. Sunde, and H.E. Ganther|A Mutual Protective Effect of Mercury and Selenium in Japanese Quail|Poult. Sci.56(1): 313-322|1977|10.3382/ps.0560313
59029|T||VanderKop,P.A., and J.D. MacNeil|The Effect of Sodium Selenite Supplementation on Monensin-Induced Growth Inhibition and Residue Accumulation in Broiler Chicks|Vet. Hum. Toxicol.32(1): 1-5|1990|
59030|T||Hill,C.H.|The Effect of Dietary Protein Levels on Mineral Toxicity in Chicks|J. Nutr.109:501-507|1979|10.1093/jn/109.3.501
59031|T||Chiou,P.W.S., K.L. Chen, and B. Yu|Toxicity, Tissue Accumulation and Residue in Egg and Excreta of Copper in Laying Hens|Anim. Feed Sci. Technol.67(1): 49-60|1997|10.1016/S0377-8401(96)01139-X
59032|T||Hebert,C.D., M.R. Elwell, G.S. Travlos, C.J. Fitz, and J.R. Bucher|Subchronic Toxicity of Cupric Sulfate Administered in Drinking Water and Feed to Rats and Mice|Fundam. Appl. Toxicol.21(4): 461-475|1993|10.1006/faat.1993.1122
59036|T||Chiou,P.W.S., K.L. Chen, and B. Yu|Effect of Dietary Organic Arsenicals and Cupric Sulfate on Copper Toxicity, Liver Accumulation and Residue in Eggs and Excreta of Laying Hens|Anim. Feed Sci. Technol.73(1/2): 161-171|1998|10.1016/S0377-8401(98)00120-5
59038|T||John,M.K., H.H. Chuah, and C.J. VanLaerhoven|Cadmium Contamination of Soil and Its Uptake by Oats|J. Environ. Qual.6(6): 555-557|1972|
59039|T||Mizutani,T., K. Hidaka, T. Ohe, and M. Matsumoto|A Comparative Study on Accumulation and Elimination of Tetrachlorobiphenyl Isomers in Mice|Bull. Environ. Contam. Toxicol.18(4): 452-461|1977|10.1007/BF01683716
59040|A|OECDG|Webler,A., and M. Erbes|Nachweis von DNA-Schaden in Aquatischen Protozoen und Algen mit der Mikrogelelektrophorese (Comet Assay) fur eine Gentoxikologische Gewassergutebewertung von Oberflachenwasser|Acta Hydrochim. Hydrobiol. (Multiple Languages)26(2): 82-89|1998|10.1002/(SICI)1521-401X(199803)26:2<82::AID-AHEH82>3.0.CO;2-G
59041|A|OECDG|Sahay,N., and R.A. Agarwal|Changes in Transaminase Activity Following Treatment with Pesticide Mixtures|Acta Hydrochim. Hydrobiol. (Multiple Languages)26(4): 230-234|1998|10.1002/(SICI)1521-401X(199807)26:4<230::AID-AHEH230>3.0.CO;2-I
59045|A|OECDG|Ecker,U., and W. Pfluger|Profil der Okobiologischen Wirkungen des Fungizids Fenhexamid|Pflanzenschutz-Nachr.2:181-192|1999|
59046|A|OECDG|Nehring,S.|Effekte von Tributylzinn (TBT) aus Antifoulinganstrichen auf Schneckenpopulationen an der Deutschen Nordseekuste|Hydrol. Wasserbewirtschaftung2:66-74|1999|
59047|T|OECDG|Pestemer,W., and P. Pucelik-Gunther|Vergleich Dreier Biotest-Methoden zur Ermittlung des No-Observable-Effect Levels (ED10) und Weiterer Kenndaten der Dosis-Wirkungs-Beziehung Zwischen dem Herbizid Clomazone und Ausgewahlten Nachbaukult|J. Kult.Pflanzen (Non-English)51(2): 32-37|1999|
59049|T|OECDG|Ojimelukwe,P.C., and C. Adler|Potential of Zimtaldehyde, 4-Allyl-anisol, Linalool, Terpineol and Other Phytochemicals for the Control of the Confused Flour Beetle (Tribolium confusum J.d.V.) (Col.,Tenebrionidae)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)72(4): 81-86|1999|10.1007/BF02768913
59050|A||Clendenning,K.A., and W.J. North|Effects of Waste on the Giant Kelp, Macrocystis pyrifera|In: E.A.Pearson (Ed.), Proc.1st Conf.Waste Disposal Marine Environ, Berkeley, CA:82-91|1959|
59054|T||Wells,G.A.H., J. McC.Howell, and C. Gopinath|Experimental Lead Encephalopathy of Calves.  Histological Observations on the Nature and Distribution of the Lesions|Neuropathol.Appl.Neurobiol.2:175-190|1976|10.1111/j.1365-2990.1976.tb00495.x
59058|T||Brady,K., Y. Herrera, and H. Zenick|Influence of Parenatal Lead Exposure on Subsequent Learning Ability of Offspring|Pharmacol. Biochem. Behav.3:561-565|1975|10.1016/0091-3057(75)90173-2
59059|T||Gelman,B.B., and I.A. Michaelson|Neonatal Lead Toxicity and In Vitro Lipid Peroxidation of Rat Brain|J. Toxicol. Environ. Health5:671-682|1979|10.1080/15287397909529779
59060|T||Bull,R.J., S.D. Lutkenhoff, G.E. McCarty, and R.G. Miller|Delays in the Postnatal Increase of Cerebral Cytochrome Concentrations in Lead-Exposed Rats|Neuropharmacology18:83-92|1979|10.1016/0028-3908(79)90013-3
59061|T||Fuentealba,I.C., R.W. Davis, M.E. Elmes, B. Jasani, and S. Haywood|Mechanisms of Tolerance in the Copper-Loaded Rat Liver|Exp. Mol. Pathol.59(1): 71-84|1993|10.1006/exmp.1993.1028
59062|T||Fuentealba,I., S. Haywood, and J. Trafford|Variations in the Intralobular Distribution of Copper in the Livers of Copper-Loaded Rats in Relation to the Pathogenesis of Copper Storage Diseases|J. Comp. Pathol.100(1): 1-11|1989|10.1016/0021-9975(89)90084-4
59063|T||Fuentealba,I., S. Haywood, and J. Foster|Cellular Mechanisms of Toxicity and Tolerance in the Copper-Loaded Rat. II. Pathogenesis of Copper Toxicity in the Liver|Exp. Mol. Pathol.50(1): 26-37|1989|10.1016/0014-4800(89)90054-3
59064|T||Fuentealba,I., and S. Haywood|Cellular Mechanisms of Toxicity and Tolerance in the Copper-Loaded Rat.  I.  Ultrastructural Changes in the Liver|Liver8(6): 372-380|1988|10.1111/j.1600-0676.1988.tb01019.x
59065|T||Elliot,J.I., and J.P. Bowland|Response of Rats to Diets Containing 250 ppm Supplemental Copper: Growth, Food Conversion, Liver Copper Accumulation, and Fat Composition|Can. J. Anim. Sci.52(1): 97-101|1972|10.4141/cjas72-011
59066|T||Ekperigin,H.E., and P. Vohra|Influence of Copper Supplementation on the Relationship Between Dietary Methionine and Free Plasma Methionine|J. Nutr.111(9): 1621-1629|1981|10.1093/jn/111.9.1621
59067|T||Edmonds,M.S., and D.H. Baker|Toxic Effects of Supplemental Copper and Roxarsone when Fed Alone or in Combination to Young Pigs|J. Anim. Sci.63(2): 533-537|1986|10.2527/jas1986.632533x
59068|T||DeGoey,L.W., R.C. Wahlstrom, and R.J. Emerick|Studies of High Level Copper Supplementation to Rations for Growing Swine|J. Anim. Sci.33(1): 52-57|1971|10.2527/jas1971.33152x
59069|T||Cromwell,G.L., H.J. Monegue, and T.S. Stahly|Long-Term Effects of Feeding a High Copper Diet to Sows During Gestation and Lactation|J. Anim. Sci.71(11): 2996-3002|1993|10.2527/1993.71112996x
59070|T||Khairy,M.|Effects of Chronic Dieldrin Ingestion on the Muscular Efficiency of Rats|Br. J. Ind. Med.17:146-148|1960|
59071|T||Braude,R., and K. Ryder|Copper Levels in Diets for Growing Pigs|J. Agric. Sci.80(3): 489-493|1973|10.1017/S0021859600058135
59072|T||Buckley,W.T., and R.M. Tait|Chronic Copper Toxicity in Lambs:  A Survey of Blood Constituent Responses|Can. J. Anim. Sci.61(3): 613-624|1981|10.4141/cjas81-074
59079|T||Daugherty,J.W., D.E. Lacey, and P. Korty|Problems in Aerial Application I. Some Biochemical Effects of Lindane and Dieldrin on Vertebrates|Aerosp. Med.33(10): 1171-1176|1962|
59085|T||Haywood,S., and M. Loughran|Copper Toxicosis and Tolerance in the Rat.  II.  Tolerance - a Liver Protective Adaptation|Liver5(5): 267-275|1985|10.1111/j.1600-0676.1985.tb00248.x
59086|T||Haywood,S., and B. Comerford|The Effect of Excess Dietary Copper on Plasma Enzyme Activity and on the Copper Content of the Blood of the Male Rat|J. Comp. Pathol.90(2): 233-238|1980|10.1016/0021-9975(80)90059-6
59087|T||Haywood,S.|The Effect of Excess Dietary Copper on the Liver and Kidney of the Male Rat|J. Comp. Pathol.90(2): 217-232|1980|10.1016/0021-9975(80)90058-4
59088|T||Haywood,S.|Copper Toxicosis and Tolerance in the Rat.  I - Changes in Copper Content of the Liver and Kidney|J. Pathol.145(2): 149-158|1985|10.1002/path.1711450203
59089|T||Harms,R.H., and R.E. Buresh|Influence of Three Levels of Copper on the Performance of Turkey Poults with Diets Containing Two Sources of Methionine|Poult. Sci.66(4): 721-724|1987|10.3382/ps.0660721
59090|T||Harms,R.H., and R.E. Buresh|Influence of Nutrient Density and Copper Levels of Diets upon Performance of Laying Hens|Nutr. Rep. Int.33(2): 261-268|1986|
59091|T||Funk,M.A., and D.H. Baker|Toxicity and Tissue Accumulation of Copper in Chicks Fed Casein and Soy-Based Diets|J. Anim. Sci.69(11): 4505-4511|1991|10.2527/1991.69114505x
59092|T||Fuentealba,I.C., S. Haywood, and J. Foster|Cellular Mechanisms of Toxicity and Tolerance in the Copper-Loaded Rat. III. Ultrastructural Changes and Copper Localization in the Kidney|Br. J. Exp. Pathol.70(5): 543-556|1989|
59093|T||Chiou,P.W.S., C.L. Chen, K.L. Chen, and C.P. Wu|Effect of High Dietary Copper on the Morphology of Gastro-Intestinal Tract in Broiler Chickens|Asian-Australas. J. Anim. Sci.12(4): 548-553|1999|10.5713/ajas.1999.548
59094|T||Christmas,R.B., and R.H. Harms|The Effect of Supplemental Copper and Methionine on the Performance of Turkey Poults|Poult. Sci.58(2): 382-384|1979|10.3382/ps.0580382
59095|T||Chesta,J., S.K.S. Srai, A.K. Burroughs, P.J. Scheuer, and O. Epstein|Copper Overload in the Developing Guinea Pig Liver: A Histological, Histochemical and Biochemical Study|Liver9(4): 198-204|1989|10.1111/j.1600-0676.1989.tb00400.x
59096|T||Charmley,L.L., and M. Ivan|The Relative Accumulation of Copper in the Liver and Kidneys of Sheep fed Corn Silage Supplemented with Copper Chloride Copper Acetate or Copper Sulfate|Can. J. Anim. Sci.69(1): 205-214|1989|10.4141/cjas89-024
59097|T||Haddad,D.S., L.A. Al-Alousi, and A.H. Kantarjian|The Effect of Copper Loading on Pregnant Rats and Their Offspring|Funct. Dev. Morphol.1(3): 17-22|1991|
59098|T||Todd,J.R., J.F. Gracey, and R.H. Thompson|Studies on Chronic Copper Poisoning:  I.  Toxicity of Copper Sulphate and Copper Acetate in Sheep|Br. Vet. J.118:482-491|1962|10.1016/S0007-1935(17)42754-0
59099|T||Haywood,S., J. Trafford, and M. Loughran|Copper Toxicosis and Tolerance in the Rat: IV. Renal Tubular Excretion of Copper|Br. J. Exp. Pathol.66(6): 699-707|1985|
59100|T||Grobner,M.A., P.R. Cheeke, and N.M. Patton|Effect of Dietary Copper and Oxytetracycline on Growth and Mortality of Weanling Rabbits|J. Appl. Rabbit Res.9(2): 46-53|1986|
59101|T||King,J.O.L.|The Feeding of Copper Sulphate to Growing Fowls|Br. Poult. Sci.13(1): 61-65|1972|10.1080/00071667208415916
59102|T||King,J.O.L.|The Feeding of Copper Sulphate to Growing Rabbits|Br. Vet. J.131(1): 70-75|1975|10.1016/S0007-1935(17)35389-7
59103|T||King,J.O.L.|The Feeding of Copper Sulphate to Ducklings|Br. Poult. Sci.16(4): 409-411|1975|10.1080/00071667508416205
59104|T||Bassuny,S.M.|The Effect of Copper Sulfate Supplement on Rabbit Performance Under Egyptian Conditions|J. Appl. Rabbit Res.14(2): 93-97|1991|
59105|T||Shand,A., and G. Lewis|Chronic Copper Poisoning in Young Calves|Vet. Rec.69:618-620|1957|
59106|T||Aykac,G., G. Ozdemirler, and M. Uysal|Lipid Peroxidation in Erythrocytes of Rats Fed a High Copper Diet|J. Clin. Biochem. Nutr6:35-38|1989|10.3164/jcbn.6.35
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59109|T||Arthur,D.|Interrelationships of Molybdenum and Copper in the Diet of the Guinea Pig|J. Nutr.87(1): 69-76|1965|10.1093/jn/87.1.69
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59111|T||Lecyk,M.|Toxicity of CuSO4 in Mice Embryonic Development|Zool. Pol.28(2): 101-105|1980|
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59293|A||Betka,M., and G.V. Callard|Stage-Dependent Accumulation of Cadmium and Induction of Metallothionein-Like Binding Activity in the Testis of the Dogfish Shark, Squalus acanthias|Biol. Reprod.60(1): 14-22|1999|10.1095/biolreprod60.1.14
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59305|T||Allen,G.P.|The Influence of Nitrogen on a Pasture Treated with Dalapon for the Selective Suppression of Agrostis stolonifera and Holcus lanatus in Perennial Ryegrass|J. Br. Grassl. Soc.24(2): 138-145|1969|10.1111/j.1365-2494.1969.tb01059.x
59306|T||Alm,D.M., L.M. Wax, and E.W. Stoller|Weed Suppression for Weed Management in Corn (Zea mays) and Soybean (Glycine max) Production Systems|Weed Technol.14:713-717|2000|10.1614/0890-037X(2000)014[0713:WSFWMI]2.0.CO;2
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59309|T||Anderson,L.M., S.D. Fox, C.W. Riggs, and H.J. Issaq|Selective Retention of Polychlorinated Biphenyl Congeners in Lung and Liver After Single-Dose Exposure of Infant Mice to Aroclor 1254|J. Environ. Pathol. Toxicol. Oncol.12(1): 3-16|1993|
59310|T||Anelli,G., P. Pelosi, and C. Galoppini|Influence of Mercury on the Amino Acidic Composition of Tobacco Leaves|Agric. Biol. Chem.37(7): 1579-1582|1973|10.1080/00021369.1973.10860877
59311|T||Ansari,M.A., and R.K. Razdan|Relative Efficacy of Insecticide Treated Mosquito Nets (Diptera:  Culicidae) Under Field Conditions|J. Med. Entomol.37(1): 201-204|2000|10.1603/0022-2585-37.1.201
59312|T||Applegate,H.G., and D.F. Adams|Effect of Atmospheric Fluoride on Respiration of Bush Beans|Bot. Gaz.121(4): 223-227|1960|10.1086/336074
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59315|T||Askew,S.D., D.R. Shaw, and J.E. Street|Graminicide Application Timing Influences Red Rice (Oryza sativa) Control and Seedhead Reduction in Soybean (Glycine max)|Weed Technol.14:176-181|2000|10.1614/0890-037X(2000)014[0176:GATIRR]2.0.CO;2
59318|T||Avery,M.L., E.A. Tillman, J.S. Humphrey, J.L. Cummings, D.L. York, and J.,Jr. Davis|Evaluation of Overspraying as an Alternative to Seed Treatment for Application of Flight Control Bird Repellent to Newly Planted Rice|Crop Prot.19:225-230|2000|10.1016/S0261-2194(00)00012-0
59319|T||Ayer,W.C., G.L. Brun, D.C. Eidt, W. Ernst, V.N. Mallet, R.A. Matheson, and P.J. Silk|Persistence of Aerially Applied Fenitrothion in Water, Soil, Sediment, and Balsam Fir Foliage|Inf.Rep.M-X-153, Maritime Forest Research Centre, Can.For.Serv., Fredericton, New Brunswick:14 p.|1984|
59320|T||Ayyappath,R., S. Polavarapu, and M.R. McGuire|Effectiveness of Thiamethoxam-Coated Spheres Against Blueberry Maggot Flies (Diptera: Tephritidae)|J. Econ. Entomol.93(5): 1473-1479|2000|10.1603/0022-0493-93.5.1473
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59322|T||Babich,H., and G. Stotzky|Effect of Cadmium on Fungi and on Interactions Between Fungi and Bacteria in Soil:  Influence of Clay Minerals and pH|Appl. Environ. Microbiol.33(5): 1059-1066|1977|10.1128/aem.33.5.1059-1066.1977
59323|T||Bajwa,W.I., and M.T. Aliniazee|Spider Fauna in Apple Ecosystem of Western Oregon and Its Field Susceptibility to Chemical and Microbial Insecticides|J. Econ. Entomol.94(1): 68-75|2001|10.1603/0022-0493-94.1.68
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59326|T||Beard,A.P., and N.C. Rawlings|Reproductive Effects in Mink (Mustela vison) Exposed to the Pesticides Lindane, Carbofuran and Pentachlorophenol in a Multigeneration Study|J. Reprod. Fertil.113(1): 95-104|1998|10.1530/jrf.0.1130095
59327|T||Beck,K.G., and J.R. Sebastian|Combining Mowing and Fall-Applied Herbicides to Control Canada Thistle (Cirsium arvense)|Weed Technol.14:351-356|2000|10.1614/0890-037X(2000)014[0351:CMAFAH]2.0.CO;2
59328|T||Beckenbach,J.R.|Functional Relationships Between Boron and Various Anions in the Nutrition of the Tomato|Fla. Agric. Exp. Stn. Bull.:1-34|1944|
59329|T||Beckett,R.P., and D.H. Brown|Cellular Uptake of Heavy Metals by Bryophytes and Lichens|In: International Conference, Heavy Metals in the Environment, Heidelberg - September 1983. Volume 1:447-450|1983|
59330|T||Belimov,A.A., and K.J. Dietz|Effect of Associative Bacteria on Element Composition of Barley Seedlings Grown in Solution Culture at Toxic Cadmium Concentrations|Microbiol. Res.155(2): 113-121|2000|10.1016/S0944-5013(00)80046-4
59331|A||Arukwe,A., T. Celius, B.T. Walther, and A. Goksoeyr|Plasma Levels of Vitellogenin and Eggshell Zona radiata Proteins in 4-Nonylphenol and o,p'-DDT Treated Juvenile Atlantic Salmon (Salmo salar)|Mar. Environ. Res.46(1-5): 133-136|1998|10.1016/S0141-1136(98)00002-6
59332|T||Bell,G.E., D.L. Martin, R.M. Kuzmic, M.L. Stone, and J.B. Solie|Herbicide Tolerance of Two Cold-Resistant Bermudagrass (Cynodon spp.) Cultivars Determined by Visual Assessment and Vehicle-Mounted Optical Sensing|Weed Technol.14:635-641|2000|10.1614/0890-037X(2000)014[0635:HTOTCR]2.0.CO;2
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59334|T||Bellows,T.S.,Jr., and J.G. Morse|Toxicity of Insecticides Used in Citrus to Aphytis melinus DeBach (Hymenoptera: Aphelinidae) and Rhizobius lophanthae (Blaisd.) (Coleoptera: Coccinellidae)|Can. Entomol.125(6): 987-994|1993|10.4039/Ent125987-6
59335|T||Benedict,H.M., J.M. Ross, and R.W. Wade|The Disposition of Atmospheric Fluorides by Vegetation|Air Water Pollut.8:279-289|1964|
59336|T||Bennett,A.C., and D.R. Shaw|Effect of Preharvest Desiccants on Weed Seed Production and Viability|Weed Technol.14:530-538|2000|10.1614/0890-037X(2000)014[0530:EOPDOW]2.0.CO;2
59338|T||Bennett,A.C., and D.R. Shaw|Effect of Glycine max Cultivar and Weed Control on Weed Seed Characteristics|Weed Sci.48:431-435|2000|10.1614/0043-1745(2000)048[0431:EOGMCA]2.0.CO;2
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59340|T||Berndt,W.O.|The Effect of Potassium Dichromate on Renal Tubular Transport Processes|Toxicol. Appl. Pharmacol.32(1): 40-52|1975|10.1016/0041-008X(75)90193-3
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59344|T||Blackshaw,R.E., L.J. Molnar, H. Henning Muendel, G. Saindon, and X. Li|Integration of Cropping Practices and Herbicides Improves Weed Management in Dry Bean (Phaseolus vulgaris)|Weed Technol.14:327-336|2000|10.1614/0890-037X(2000)014[0327:IOCPAH]2.0.CO;2
59345|T||Blincoe,C.|Investigations of the Chemical Form of Chromium in Lucerne|J. Sci. Food Agric.25:973-979|1974|10.1002/jsfa.2740250813
59346|T||Blum,R.R., J. Isgrigg III, and F.H. Yelverton|Purple (Cyperus rotundus) and Yellow Nutsedge (C. esculentus) Control in Bermudagrass (Cynodon dactylon) Turf|Weed Technol.14:357-365|2000|10.1614/0890-037X(2000)014[0357:PCRAYN]2.0.CO;2
59347|T||Bollich,P.K., D.L. Jordan, D.M. Walker, and B. Burns|Rice (Oryza sativa) Response to the Miroencapsulated Formulation of Clomazone|Weed Technol.14(1): 89-93|2000|10.1614/0890-037X(2000)014[0089:ROSRTT]2.0.CO;2
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59350|T||Bradley,P.R., W.G. Johnson, S.E. Hart, M.L. Buesinger, and R.E. Massey|Economics of Weed Management in Glufosinate-Resistant Corn (Zea mays L.)|Weed Technol.14:495-501|2000|10.1614/0890-037X(2000)014[0495:EOWMIG]2.0.CO;2
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59352|T||Brewer,R.F., F.H. Sutherland, F.B. Guillemet, and R.K. Creveling|Some Effects of Hydrogen Fluoride Gas on Bearing Navel Orange Trees|Proc. Am. Soc. Hortic. Sci.76:208-214|1960|
59353|T||Brickle,D.S., S.G. Turnipseed, and M.J. Sullivan|Efficacy of Insecticides of Different Chemistries Against Helicoverpa zea (Lepidoptera:  Noctuidae) in Transgenic Bacillus thuringiensis and Conventional Cotton|J. Econ. Entomol.94(1): 86-92|2001|10.1603/0022-0493-94.1.86
59354|T||Bradley,P.R., W.G. Johnson, and R.J. Smeda|Response of Sorghum (Sorghum bicolor) to Atrazine, Ammonium Sulfate, and Glyphosate|Weed Technol.14:15-18|2000|10.1614/0890-037X(2000)014[0015:ROSSBT]2.0.CO;2
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59359|T||Brown,J.R.|The Effect of Dietary Kelthane on Mouse and Rat Reproduction|In: A.S.Tahori (Ed.), Proc.of the Fate of Pesticides in the Environment, Gordon and Breach Publ., NY6:531-548|1972|
59360|T||Brown,K.W., and J.C. McFarlane|Plutonium Uptake by Plants Grown in Soil Containing Plutonium-238 Dioxide Particles|Health Phys.35:481-485|1978|
59361|T||Broyer,T.C., C.M. Johnson, and R.P. Huston|Selenium and Nutrition of Astragalus II. Ionic Sorption Interactions Among Selenium, Phosphate, and the Macro and Micronutrient Cations|Plant Soil36:651-669|1972|10.1007/BF01373514
59362|T||Buckardt,H.L.|Effectiveness of Furfural Petroleum Combinations in Eradicating Certain Noxious Weeds|J. Am. Soc. Agron.28(6): 437-442|1936|10.2134/agronj1936.00021962002800060004x
59364|T||Burgis,D.S., and J.R. Beckenbach|Herbicides for Control of Weeds in Vegetable Seedbeds also Control Root-Knot|Proc. Am. Soc. Hortic. Sci.52:461-463|1948|
59365|T||Businelli,M., F. Tafuri, L. Scarponi, and C. Marucchini|Persistence of Benfluralin in Soil and Its Uptake by Carrots|Pestic. Sci.6:475-480|1975|10.1002/ps.2780060506
59366|T||Bussan,A.J., C.M. Boerboom, and D.E. Stoltenberg|Response of Velvetleaf Demographic Processes to Herbicide Rate|Weed Sci.49:22-30|2001|10.1614/0043-1745(2001)049[0022:ROVDPT]2.0.CO;2
59367|T||Bussan,A.J., C.M. Boerboom, and D.E. Stoltenberg|Response of Setaria faberi Demographic Processes to Herbicide Rates|Weed Sci.48:445-453|2000|10.1614/0043-1745(2000)048[0445:ROSFDP]2.0.CO;2
59368|T||Call,N.M., H.D. Coble, and T. Perez-Fernandez|Tropical Soda Apple (Solanum viarum) Herbicide Susceptibility and Competitiveness in Tall Fescue (Festuca arundinacea)|Weed Technol.14(2): 252-260|2000|10.1614/0890-037X(2000)014[0252:TSASVH]2.0.CO;2
59369|T||Carlson,G.P.|Influence of Starvation on the Induction of Xenobiotic Metabolism by Polychlorinated Biphenyls|Life Sci.27:1571-1576|1980|10.1016/0024-3205(80)90566-4
59370|T||Carlyle,R.E., and J.D. Thorpe|Some Effects of Ammonium and Sodium 2,4-Dichlorophenoxyacetates on Legumes and the Rhizobium Bacteria|J. Am. Soc. Agron.39:929-936|1947|10.2134/agronj1947.00021962003900100008x
59372|T||Carter,G.A., and R.L. Wain|Investigations on Fungicides IX.  The Fungitoxicity, Phytotoxicity, and Systemic Fungicidal Activity of Some Inorganic Salts|Ann. Appl. Biol.53:291-309|1964|10.1111/j.1744-7348.1964.tb03804.x
59374|T||Cathey,B.|Some Morphological and Physiological Studies on the Effects of Carbaryl on the Earthworm, Lumbricus terrestris|Ph.D. Thesis, Michigan State University, East Lansing, MI:64 p.|1973|
59375|T||Chachalis,D., K.N. Reddy, and C.D. Elmore|Characterization of Leaf Surface, Wax Composition, and Control of Redvine and Trumpetcreeper with Glyphosate|Weed Sci.49:156-163|2001|10.1614/0043-1745(2001)049[0156:COLSWC]2.0.CO;2
59376|T||Chandran,R.S., and M. Singh|Antagonistic Effect of Thiazopyr on Azafenidin to Control Yellow Nutsedge (Cyperus esculentus)|Weed Technol.14:556-561|2000|10.1614/0890-037X(2000)014[0556:AEOTOA]2.0.CO;2
59377|T||Chang,A.T., and G.D. Sherman|The Nickel Content of Some Hawaiian Soils and Plants and the Relation of Nickel to Plant Growth|Hawaii Agric. Exp. Stn. Tech. Bull.19:3-25|1953|
59378|T||Chauhan,R.P.S., and S.L. Powar|Tolerance of Wheat and Pea to Boron in Irrigation Water|Plant Soil50:145-149|1978|10.1007/BF02107164
59379|T||Chopra,S.L., and K.S. Nandra|Effect of Thiometon on the Germination of Sarson (Brassica campestris Linn. var. Brown Sarson)|J. Agric. Food Chem.17(4): 805-806|1969|10.1021/jf60164a035
59381|T||Clay,P.A., and J.L. Griffin|Weed Seed Production and Seedling Emergence Responses to Late-Season Glyphosate Applications|Weed Sci.48:481-486|2000|10.1614/0043-1745(2000)048[0481:WSPASE]2.0.CO;2
59382|T||Coetzer,E., K. Al-Khatib, and T.M. Loughin|Glufosinate Efficacy, Absorption, and Translocation in Amaranth as Affected by Relative Humidity and Temperature|Weed Sci.49:8-13|2001|10.1614/0043-1745(2001)049[0008:GEAATI]2.0.CO;2
59383|T||Corden,M.E., and R.A. Young|Changes in the Soil Microflora Following Fungicide Treatments|Soil Sci.99(4): 272-277|1965|10.1097/00010694-196504000-00011
59384|T||Corrigan,K.A., and R.G. Harvey|Glyphosate with and Without Residual Herbicides in No-Till Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.14:569-577|2000|10.1614/0890-037X(2000)014[0569:GWAWRH]2.0.CO;2
59385|T||Crooke,W.M.|Effect of Heavy-Metal Toxicity on the Cation-Exchange Capacity of Plant Roots|Soil Sci.86(5): 231-240|1958|10.1097/00010694-195811000-00001
59387|T||Culpepper,A.S., A.C. York, R.B. Batts, and K.M. Jennings|Weed Management in Glufosinate- and Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.14(1): 77-88|2000|10.1614/0890-037X(2000)014[0077:WMIGAG]2.0.CO;2
59388|T||Currie,R.S., and C.R. Thompson|Effects of Herbicides and Application Timing on Woollyleaf Bursage (Ambrosia grayi)|Weed Technol.14:188-190|2000|10.1614/0890-037X(2000)014[0188:EOHAAT]2.0.CO;2
59389|T||Dallyn,S.L., and R.D. Sweet|Theories on the Herbicidal Action of Petroleum Hydrocarbons|Proc. Am. Soc. Hortic. Sci.57:347-354|1951|
59390|T||Davis,D.D., and F.A. Wood|The Influence of Environmental Factors on the Sensitivity of Virginia Pine to Ozone|Phytopathology63:371-376|1973|10.1094/Phyto-63-371
59391|T||Dawson,J.H.|Prolonged Control of Cuscuta with Microencapsulated Chlorpropham|In: Proceedings of the Controlled Release Pesticide Symposium, University of Akron, OH:6.30 - 6.35|1976|
59393|T||Deknudt,G., and G.B. Gerber|Chromosomal Aberrations in Bone-Marrow Cells of Mice Given a Normal or a Calcium-Deficient Diet Supplemented with Various Heavy Metals|Mutat. Res.68:163-168|1979|10.1016/0165-1218(79)90144-7
59394|T||Del Rosario,D.A., and M.R. Vega|Properties and Effects of WL-9385-D on Rice and Some Weed Species|Philipp. Agric.:412-437|1961|
59395|T||Dencker,L.|Possible Mechanisms of Cadmium Fetotoxicity in Golden Hamsters and Mice:  Uptake by the Embryo, Placenta and Ovary|J. Reprod. Fertil.44:461-471|1975|10.1530/jrf.0.0440461
59396|T||Dennis,E.B., and C.A. Edwards|Phytotoxicity of Insecticides and Acaricides.  III.  Soil Applications|Plant Pathol.13(4): 173-177|1964|10.1111/j.1365-3059.1964.tb00929.x
59397|T||De Prado,R., J. Gonzalez-Gutierrez, J. Menendez, J. Gasquez, J.W. Gronwald, and R. Gimenez-Espinosa|Resistance to Acetyl CoA Carboxylase-Inhibiting Herbicides in Lolium multiflorum|Weed Sci.48:311-318|2000|10.1614/0043-1745(2000)048[0311:RTACCI]2.0.CO;2
59398|T||Derscheid,L.A., R.L. Nash, and G.A. Wicks|Thistle Control with Cultivation, Cropping and Chemicals|Weeds (Urbana):90-102|1961|10.2307/4040390
59400|T||Dieter,M.P., C.W. Jameson, A.N. Tucker, M.I. Luster, J.E. French, H.L. Hong, and G.A. Boorman|Evaluation of Tissue Disposition, Myelopoietic, and Immunologic Responses in Mice After Long-Term Exposure to Nickel Sulfate in the Drinking Water|J. Toxicol. Environ. Health24:357-372|1988|10.1080/15287398809531167
59401|T||DiGiovanni,J., A. Viaje, D.L. Berry, T.J. Slaga, and M.R. Juchau|Tumor-Initiating Ability of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and Aroclor 1254 in the Two-Stage System of Mouse Skin Carcinogenesis|Bull. Environ. Contam. Toxicol.18(5): 552-557|1977|10.1007/BF01684000
59402|T||Dirks,J.T., W.G. Johnson, R.J. Smeda, W.J. Wiebold, and R.E. Massey|Reduced Rates of Sulfentrazone Plus Chlorimuron and Glyphosate in No-Till, Narrow-Row, Glyphosate-Resistant Glycine max|Weed Sci.48:618-627|2000|10.1614/0043-1745(2000)048[0618:RROSPC]2.0.CO;2
59403|T||Dirks,J.T., W.G. Johnson, R.J. Smeda, W.J. Wiebold, and R.E. Massey|Use of Preplant Sulfentrazone in No-Till, Narrow-Row, Glyphosate-Resistant Glycine max|Weed Sci.48:628-639|2000|10.1614/0043-1745(2000)048[0628:UOPSIN]2.0.CO;2
59407|T||Duble,R.L., E.C. Holt, and G.G. McBee|The Translocation of Two Organic Arsenicals in Purple Nutsedge|Weed Sci.16:421-424|1968|10.1017/S0043174500047615
59408|T||Edomwande,E.O., A.S. Schoeman, J.A. Brits, and M. Van der Merwe|Laboratory Evaluation of Lufenuron on Immature Stages of Potato Tuber Moth (Lepidoptera: Gelechiidae)|J. Econ. Entomol.93(6): 1741-1743|2000|10.1603/0022-0493-93.6.1741
59409|T||Edwards,J.H., B.D. Horton, and H.C. Kirkpatrick|Aluminum Toxicity Symptoms in Peach Seedlings|J. Am. Soc. Hortic. Sci.101(2): 139-142|1976|10.21273/JASHS.101.2.139
59410|T||Ehman,P.J.|Effect of Arsenical Build-Up in the Soil on Subsequent Growth and Residue Content of Crops|Proc. South. Weed Conf.18:685-687|1965|
59411|T||Eleftherohorinos,I.G., I.B. Vasilakoglou, and K.V. Dhima|Metribuzin Resistance in Amaranthus retroflexus and Chenopodium album in Greece|Weed Sci.48:69-74|2000|10.1614/0043-1745(2000)048[0069:MRIARA]2.0.CO;2
59412|T||El-Nawawy,A.S., E.A.A. Goma, and M. Zeid|Relation Between Chemical Structure and Biological Activity.  Part XXIV.  Effect of Sodium Salts of Eight Arylmercaptoacetic and Arylene di (Mercaptoacetic) Acids on Germinating Cotton Seeds and Wheat Grains|Alex. J. Agric. Res.14:277-288|1966|
59413|T||El-Sebae,A.H., S.I. Sherby, and N.A. Mansour|Gossypol as an Inducer or Inhibitor in Spodoptera littoralis Larvae|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(2): 167-178|1981|
59414|T||Elzen,G.W.|Lethal and Sublethal Effects of Insecticide Residues on Orius insidiosus (Hemiptera: Anthocoridae) and Geocoris punctipes (Hemiptera:  Lygaeidae)|J. Econ. Entomol.94(1): 55-59|2001|10.1603/0022-0493-94.1.55
59415|T||Ensminger,L.E., J.T. Hood, and G.H. Willis|The Mechanism of Ammonium Phosphate Injury to Seeds|Proc. Soil Sci. Soc. Am.29:320-322|1965|10.2136/sssaj1965.03615995002900030027x
59416|T||Entry,J.A., L.S. Watrud, and M. Reeves|Influence of Organic Amendments on the Accumulation of 137Cs and 90Sr from Contaminated Soils by Three Grass Species|Water Air Soil Pollut.126(3-4): 385-398|2001|10.1023/A:1005201220596
59417|T||Fausey,J.C., D. Penner, and K.A. Renner|Physiological Basis for CGA-248757 and Flumiclorac Selectivity in Five Plant Species|Weed Sci.48:405-411|2000|10.1614/0043-1745(2000)048[0405:PBFCAF]2.0.CO;2
59418|T||Feng,X., A. Apelbaum, E.C. Sisler, and R. Goren|Control of Ethylene Responses in Avocado Fruit with 1-Methylcyclopropene|Postharvest Biol. Technol.20(2): 143-150|2000|10.1016/S0925-5214(00)00126-5
59419|T||Ferreira,J.F.S., and K.N. Reddy|Absorption and Translocation of Glyphosate in Erythroxylum coca and E. novogranatense|Weed Sci.48:193-199|2000|10.1614/0043-1745(2000)048[0193:AATOGI]2.0.CO;2
59420|T||Ferster,B., R.H. Scheffrahn, E.M. Thoms, and P.N. Scherer|Transfer of Toxicants from Exposed Nymphs of the Drywood Termite Incisitermes snyderi (Isoptera:  Kalotermitidae) to Unexposed Nestmates|J. Econ. Entomol.94(1): 215-222|2001|10.1603/0022-0493-94.1.215
59421|T||Fischer,A.J., C.M. Ateh, D.E. Bayer, and J.E. Hill|Herbicide-Resistant Echinochloa oryzoides and E. phyllopogon in California Oryza sativa Fields|Weed Sci.48(2): 225-230|2000|10.1614/0043-1745(2000)048[0225:HREOAE]2.0.CO;2
59422|T||Fismes,J., P.C. Vong, A. Guckert, and E. Frossard|Influence of Sulfur on Apparent N-Use Efficiency, Yield and Quality of Oilseed Rape (Brassica napus L.) Grown on a Calcareous Soil|Eur. J. Agron.12:127-141|2000|10.1016/S1161-0301(99)00052-0
59423|T||Fornstrom,K.J.|Wex Study|In: Res.J.Agric.Exp.Stn.Univ.Wyo.:45-47|1978|
59424|T||Forcella,F.|Rotary Hoeing Substitutes for Two-Thirds Rate of Soil-Applied Herbicide|Weed Technol.14:298-303|2000|10.1614/0890-037X(2000)014[0298:RHSFTT]2.0.CO;2
59425|T||Foster,A.C.|Some Plant Responses to Certain Insecticides in the Soil|U.S.Dep.Agric.Circ.No.862:1-41|1951|
59426|T||Fournier,V., and J. Brodeur|Dose-Response Susceptibility of Pest Aphids (Homoptera:  Aphididae) and Their Control on Hydroponically Grown Lettuce with the Entomopathogenic Fungus Verticillium lecanii, Azadirachtin, and Insecticidal Soap|Environ. Entomol.29(3): 568-578|2000|10.1603/0046-225X-29.3.568
59427|T||Brown,A.L., B.A. Krantz, and P.E. Martin|The Residual Effect of Zinc Applied to Soils|Proc. Soil Sci. Soc. Am.28:236-238|1964|10.2136/sssaj1964.03615995002800020032x
59428|T||Fratello,B., R. Bertolani, M.A. Sabatini, L. Mola, and M.A. Rassu|Effects of Atrazine on Soil Microarthropods in Experimental Maize Fields|Pedobiologia (Multiple Languages)28:161-168|1985|10.1016/S0031-4056(23)03032-9
59430|T||Friesen,L.F., T.L. Jones, R.C. Van Acker, and I.N. Morrison|Identification of Avena fatua Populations Resistant to Imazamethabenz, Flamprop, and Fenoxaprop-P|Weed Sci.48(5): 532-540|2000|10.1614/0043-1745(2000)048[0532:IOAFPR]2.0.CO;2
59432|T||Galloway,B.A., D.W. Monks, and J.R. Schultheis|Effect of Herbicides on Pepper (Capsicum annuum) Stand Establishment and Yield from Transplants Produced Using Various Irrigation Systems|Weed Technol.14:241-245|2000|10.1614/0890-037X(2000)014[0241:EOHOPC]2.0.CO;2
59433|T||Gentile,A.G., W.A. Feder, R.E. Young, and Z. Santner|Susceptibility of Lycopersicon spp. to Ozone Injury|J. Am. Soc. Hortic. Sci.96(1): 94-96|1971|10.21273/JASHS.96.1.94
59434|T||Gile,P.L.|Effect of Different Soil Colloids on the Toxicity of Boric Acid to Foxtail Millet and Wheat|J. Agric. Res.70(10): 339-346|1945|
59435|T||Gile,P.L., H.W. Lakin, and H.G. Byers|Effect of Different Soil Colloids and Whole Soils on the Toxicity of Sodium Selenate to Millet|J. Agric. Res.57(1): 1-20|1938|
59436|T||Gillies,P.A., E.M. Fussell, and D.J. Womeldorf|Mortality of Caged Organophosphorus-Resistant Culex tarsalis Coquillett Using Various Adulticides Applied as Nonthermal Aerosols|In: Proc.and Papers of the 14th Annu.Conf.Mosq.Control Assoc., Jan.31-Feb.1-2, 1972, Visalia, CA:22-25|1972|
59437|T||Gilreath,J.P., C.A. Chase, and S.J. Locascio|Phytotoxic Effects of Glyphosate on Pepper (Capsicum annuum)|Weed Technol.14(3): 488-494|2000|10.1614/0890-037X(2000)014[0488:PEOGOP]2.0.CO;2
59439|T||Godbold,D.L.|Cadmium Uptake in Norway Spruce (Picea abies (L.) Karst.) Seedlings|Tree Physiol.9:349-357|1991|10.1093/treephys/9.3.349
59440|T||Gore,M.G., R.B. Evans, H.M. Hill, and L.J. Rogers|The Effect of Isonicotinyl Hydrazide on the Greening of Maize and Barley|Biochem. J. (Lond.)121:7-8|1971|
59441|T||Grace,N.H.|Effects of Potassium Acid Phosphate, Cane Sugar, Ethyl Mercuric Bromide, and Indolylacetic Acid in a Talc Carrier on the Rooting of Stem Cuttings|Can. J. Res.19(4): 99-105|1941|10.1139/cjr41c-014
59442|T||Greenham,C.G.|"Studies on Phytocides I. Diurnal Variation in Effectiveness of ""Methoxone"""|Aust. J. Agric. Res.1:148-155|1950|10.1071/AR9500148
59443|T||Grey,T.L., D.C. Bridges, and B.J. Brecke|Response of Seven Peanut (Arachis hypogaea) Cultivars to Sulfentrazone|Weed Technol.14:51-56|2000|10.1614/0890-037X(2000)014[0051:ROSPAH]2.0.CO;2
59444|T||Grichar,W.J., D.C. Sestak, K. Brewer, and B. Minton|Weed Control with CGA-152005 and Peanut (Arachis hypogaea) Response|Weed Technol.14:218-222|2000|10.1614/0890-037X(2000)014[0218:WCWCAP]2.0.CO;2
59445|A||Griffith,M.B., E.M. Barrows, and S.A. Perry|Effect of Diflubenzuron on Flight of Adult Aquatic Insects (Plecoptera, Trichoptera) Following Emergence During the Second Year After Aerial Application|J. Econ. Entomol.93(6): 1695-1700|2000|10.1603/0022-0493-93.6.1695
59446|T||Gunse,B., C. Poschenrieder, and J. Barcelo|The Role of Ethylene Metabolism in the Short-Term Responses to Aluminium by Roots of Two Maize Cultivars Different in Al-Resistance|Environ. Exp. Bot.43:73-81|2000|10.1016/S0098-8472(99)00044-1
59447|T||Gupta,U.C.|Boron and Molybdenum Nutrition of Wheat, Barley and Oats Grown in Prince Edward Island Soils|Can. J. Soil Sci.51:415-422|1971|10.4141/cjss71-056
59448|T||Gupta,U.C.|Interaction Effects of Boron and Lime on Barley|Proc. Soil Sci. Soc. Am.36:332-334|1972|10.2136/sssaj1972.03615995003600020036x
59449|T||Gupta,U.C.|Effects of Boron and Lime on Boron Concentration and Growth Forage Legumes Under Greenhouse Conditions|Commun. Soil Sci. Plant Anal.3(5): 355-365|1972|10.1080/00103627209366389
59450|T||Hall,L.M., and D.P. Kasbekar|Drosophila Sodium Channel Mutations Affect Pyrethroid Sensitivity|In: T.Narahashi and J.E.Chambers (Eds.), Insecticide Action from Molecule to Organism, Plenum Press, NY:99-114|1989|
59451|T||Hamill,A.S., S.Z. Knezevic, K. Chandler, P.H. Sikkema, F.J. Tardif, A. Shrestha, and C.J. Swanton|Weed Control in Glufosinate-Resistant Corn (Zea mays)|Weed Technol.14:578-585|2000|10.1614/0890-037X(2000)014[0578:WCIGRC]2.0.CO;2
59452|T||Hamilton,K.C.|Repeated, Foliar Applications of MSMA on Purple Nutsedge|Weed Sci.19(6): 675-677|1971|10.1017/S0043174500051031
59453|T||Hansen,C.J.|Influence of the Rootstock on Injury From Excess Boron in Nonpareil Almond and Elberta Peach|Proc. Am. Soc. Hortic. Sci.65:128-138|1955|
59454|T||Hanson,B.D., and C.A. Mallory-Smith|Rapid Publication Diuron-Resistant Poa annua is Resistant to Norflurazon|Weed Sci.48:666-668|2000|10.1614/0043-1745(2000)048[0666:RPRPAI]2.0.CO;2
59455|T||Harris,C.R.|Influence of Soil Type and Soil Moisture on the Toxicity of Insecticides in Soils to Insects|Nature202:724-|1964|10.1038/202724a0
59458|T||Harikrishnan,R., and X.B. Yang|Influence of Herbicides on Growth and Sclerotia Production in Rhizoctonia solani|Weed Sci.49:241-247|2001|10.1614/0043-1745(2001)049[0241:IOHOGA]2.0.CO;2
59459|T||Harvey,R.B.|Ammonium Thiocyanate as a Weed Eradicant|J. Am. Soc. Agron.23(11): 944-946|1931|10.2134/agronj1931.00021962002300110009x
59460|T||Haseltine,S., T. Peterle, L. Nagode, A. Parsons, and S. Lustick|Physiology of the Eggshell Thinning Response to DDE|In: XII Congress of the International Union of Game Biologists, Direccao-Geral das Recursos Florestais Servico de Inspeccao de Casa e Pesca, Lisbon:237-243|1981|
59461|T||Hasman,M.|The Action of 6-Amino Undecane on Wheat Seedlings|Experientia7(4): 137-138|1951|10.1007/BF02156147
59462|T||Heagle,A.S., W.W. Heck, and D. Body|Ozone Injury to Plants as Influenced by Air Velocity During Exposure|Phytopathology61:1209-1212|1971|10.1094/Phyto-61-1209
59463|T||Heagle,A.S., D.E. Body, and E.K. Pounds|Effect of Ozone on Yield of Sweet Corn|Phytopathology62:683-687|1972|10.1094/Phyto-62-683
59464|T||Heck,W.W., and E.G. Pires|Effect of Ethylene on Horticultural and Agronomic Plants|Texas Agric. Exp. Stn. Misc. Publ.613:3-12|1962|
59465|T||Hemavathi,E., and M.A. Rahiman|A Comparative Mutagenicity Study of the Three Carbamate Fungicides Ziram, Thiram and Dithane M-45|J. Environ. Biol.17(3): 171-180|1996|
59467|T||Hemming,J.D.C., and R.L. Lindroth|Effects of Phenolic Glycosides and Protein on Gypsy Moth (Lepidoptera:  Lymantriidae) and Forest Tent Caterpillar (Lepidoptera:  Lasiocampidae) Performance and Detoxication Activities|Environ. Entomol.29(6): 1108-1115|2000|10.1603/0046-225X-29.6.1108
59471|T||Hilgeman,R.H., W.H. Fuller, L.F. True, G.C. Sharples, and P.F. Smith|Lithium Toxicity in 'Marsh' Grapefruit in Arizona|J. Am. Soc. Hortic. Sci.95(2): 248-251|1970|10.21273/JASHS.95.2.248
59472|T||Hitchcock,A.E., D.C. McCune, L.H. Weinstein, D.C. MacLean, J.S. Jacobson, and R.H. Mandl|Effects of Hydrogen Fluoride Fumigation on Alfalfa and Orchard Grass: A Summary of Experiments from 1952 Through 1965|Contrib. Boyce Thompson Inst.24(14): 363-385|1971|
59474|T||Hitchcock,A.E., L.H. Weinstein, D.C. McCune, and J.S. Jacobson|Effects of Fluorine Compounds on Vegetation, with Special Reference to Sweet Corn|J. Air Pollut. Control Assoc.14(12): 503-508|1964|10.1080/00022470.1964.10468323
59475|T||Hodgkiss,W.S., R.H. Hageman, and J.S. McHargue|The Amount of Boron Absorbed by Soybean Plants and Its Effect on Their Growth|Plant Physiol.17:652-660|1944|10.1104/pp.17.4.652
59476|T||Holm,F.A., K.J. Kirkland, and F.C. Stevenson|Defining Optimum Herbicide Rates and Timing for Wild Oat (Avena fatua) Control in Spring Wheat (Triticum aestivum)|Weed Technol.14(1): 167-175|2000|10.1614/0890-037X(2000)014[0167:DOHRAT]2.0.CO;2
59477|T||Holmes,F.W., and J.H. Baker|Salt Injury to Trees. II. Sodium and Chloride in Roadside Sugar Maples in Massachusetts|Phytopathology56:633-636|1966|
59478|T||Holt,E.C., J.L. Faubion, W.W. Allen, and G.G. McBee|Arsenic Translocation in Nutsedge Tuber Systems and Its Effect on Tuber Viability|Weeds (Urbana)15:13-15|1967|10.2307/4041056
59479|T||Horst,W.J.|Quick Screening of Cowpea Genotypes for Manganese Tolerance During Vegetative and Reproductive Growth|Z. Pflanzenernaehr. Dueng. Bodenkd.145:423-435|1982|10.1002/jpln.19821450502
59480|T||Horst,W.J.|Factors Responsible for Genotypic Manganese Tolerance in Cowpea (Vigna unguiculata)|Plant Soil72:213-218|1983|10.1007/BF02181959
59481|T||Howell,R.K., and C.A. Thomas|Relative Tolerance of Twelve Safflower Cultivars to Ozone|Plant Dis. Rep.56(3): 195-197|1972|
59482|T||Hoffmann,W.C., J.R. Coppedge, P.S. Lingren, and L.D. Chandler|Impact of a Semiochemical Insecticide (Slam) on Abundance of Beneficial Insects in Corn|Southwest. Entomol.25(1): 31-38|2000|
59483|T||Houtz,R.L., R.O. Nable, and G.M. Cheniae|Evidence for Effects on the In Vivo Activity of Ribulose-Bisphosphate Carboxylase/Oxygenase During Development of Mn Toxicity in Tobacco|Plant Physiol.86(4): 1143-1149|1988|10.1104/pp.86.4.1143
59485|T||Huang,J.Z., R.A. Campbell, J.A. Studens, and R.A. Fleming|Absorption and Translocation of Triclopyr Ester in Populus tremuloides|Weed Sci.48:680-687|2000|10.1614/0043-1745(2000)048[0680:AATOTE]2.0.CO;2
59486|A||Scott,C.R., and P.A. Wolf|The Antibacterial Activity of a Series of Quaternaries Prepared from Hexamethylenetetramine and Halohydrocarbons|Appl. Microbiol.10:211-216|1962|10.1128/am.10.3.211-216.1962
59487|T||Hunnam,D., and P. Waddington|Factors Affecting the Phytotoxicity of Metham-Sodium to Tomatoes|Plant Pathol.10:118-121|1961|10.1111/j.1365-3059.1961.tb00131.x
59488|T||Hurd-Karrer,A.M.|Comparative Toxicity of Selenates and Selenites to Wheat|Am. J. Bot.24:720-728|1937|10.1002/j.1537-2197.1937.tb09172.x
59489|T||Hutacharern,C., and C.O. Knowles|Metabolism of Chloropyrifos-14C in the Eastern Subterranean Termite|Bull. Environ. Contam. Toxicol.13(3): 351-356|1975|10.1007/BF01685350
59490|T||Hyvarinen,M., M. Roitto, R. Ohtonen, and A. Markkola|Impact of Wet Deposited Nickel on the Cation Content of a Mat-Forming Lichen Cladina stellaris|Environ. Exp. Bot.43:211-218|2000|10.1016/S0098-8472(99)00058-1
59491|T||Jacobs,L.W., and D.R. Keeney|Arsenic - Phosphorus Interactions on Corn|Commun. Soil Sci. Plant Anal.1(2): 85-93|1970|10.1080/00103627009366245
59492|T||Jacobsen,N.K.|Effects of Age and Behavior of Black-Tailed Deer on Dosages of Xylazine|J. Wildl. Manag.47(1): 252-255|1983|10.2307/3808079
59493|T||James,N.I., and S. Lund|Induction of Male Sterility in Barley (Hordeum vulgare L. Emend. Lam.) with Potassium Gibberellate and Other Plant Growth Regulators|Agron. J.57:269-272|1965|10.2134/agronj1965.00021962005700030013x
59494|T||Jan,F., and S. Pettersson|Effects of Low Aluminium Levels on Growth and Nutrient Relations in Three Rice Cultivars with Different Tolerances to Aluminium|J. Plant Nutr.16(2): 359-372|1993|10.1080/01904169309364537
59495|T||Jansen,C., I. Schuphan, and B. Schmidt|Glufosinate Metabolism in Excised Shoots and Leaves of Twenty Plant Species|Weed Sci.48(3): 319-326|2000|10.1614/0043-1745(2000)048[0319:GMIESA]2.0.CO;2
59496|T||Jauset,A.M., M.J. Sarasua, J. Avilla, and R. Albajes|Effect of Nitrogen Fertilization Level Applied to Tomato on the Greenhouse Whitefly|Crop Prot.19:255-261|2000|10.1016/S0261-2194(00)00016-8
59497|T||Johnson,W., C.M. McKell, R.A. Evans, and L.J. Berry|Yield and Quality of Annual Range Forage Following 2,4-D Application on Blue Oak Trees|J. Range Manag.12:18-20|1959|10.2307/3895211
59498|T||Johnson,W.G., P.R. Bradley, S.E. Hart, M.L. Buesinger, and R.E. Massey|Efficacy and Economics of Weed Management in Glyphosate-Resistant Corn (Zea mays)|Weed Technol.14:57-65|2000|10.1614/0890-037X(2000)014[0057:EAEOWM]2.0.CO;2
59499|T||Johnston,G.|The Study of Interactive Effects of Pollutants:  A Biomarker Approach|Sci. Total Environ.171(1-3): 205-212|1995|10.1016/0048-9697(95)04686-9
59500|T||Jones,A.R., C.M. Lytle, R.L. Stone, L.D. Hansen, and B.N. Smith|Methylcyclopentadienyl Manganese Tricarbonyl (MMT), Plant Uptake and Effects on Metabolism|Thermochim. Acta349:141-146|2000|10.1016/S0040-6031(99)00507-9
59501|T||Jotwani,M.G., B.K. Rai, and S. Pradhan|Bioassay of the Comparative Toxicity of Some Insecticides to the Larvae of Prodenia litura Fabricius (Noctuidae:  Lepidoptera)|Indian J. Entomol.23(1): 50-53|1961|
59503|T||Jung,S., J.S. Kim, K.Y. Cho, G.S. Tae, and B.G. Kang|Antioxidant Responses of Cucumber (Cucumis sativus) to Photoinhibition and Oxidative Stress Induced by Norflurazon Under High and Low PPFDs|Plant Sci.153:145-154|2000|10.1016/S0168-9452(99)00259-9
59505|T||Kelly,S.T., and G.E. Coats|Virginia Buttonweed (Diodia vitginiana) Control with Pyridine Herbicides|Weed Technol.14:591-595|2000|10.1614/0890-037X(2000)014[0591:VBDVCW]2.0.CO;2
59506|T||Kelly,S.T., and G.E. Coats|Postemergence Herbicide Options for Virginia Buttonweed (Diodia virginiana) Control|Weed Technol.14:246-251|2000|10.1614/0890-037X(2000)014[0246:PHOFVB]2.0.CO;2
59508|T||Kamali,A.R., and N.F. Childers|Growth and Fuiting of Peach in Sand Culture as Affected by Boron and a Fritted Form of Trace Elements|J. Am. Soc. Hortic. Sci.95(5): 652-656|1970|10.21273/JASHS.95.5.652
59509|T||Karhu,R.R., and S.H. Anderson|Effects of Pyriproxyfen Spray, Powder, and Oral Bait Treatments on the Relative Abundance of Nontarget Arthropods of Black-Tailed Prairie Dog (Rodentia:  Sciuridae) Towns|J. Med. Entomol.37(4): 612-618|2000|10.1603/0022-2585-37.4.612
59510|T||Karhu,R., and S. Anderson|Effects of Pyriproxyfen Spray, Powder, and Oral Bait Treatments on the Relative Abundance of Fleas (Siphonaptera:  Ceratophyllidae) in Black-Tailed Prairie Dog (Rodentia:  Sciuridae) Towns|J. Med. Entomol.37(6): 864-871|2000|10.1603/0022-2585-37.6.864
59511|T||Kefford,N.P.|Extension-Growth Activities of Some Cyclopropane Derivatives, a New Class of Antiauxin|Aust. J. Biol. Sci.12:257-262|1959|10.1071/BI9590257
59512|T||Kim,D.S., J.C. Caseley, P. Brain, C.R. Riches, and B.E. Valverde|Rapid Detection of Propanil and Fenoxaprop Resistance in Echinochloa colona|Weed Sci.48(6): 695-700|2000|10.1614/0043-1745(2000)048[0695:RDOPAF]2.0.CO;2
59513|T||King,J.W., and J.L. Dale|Reduction of Earthworm Activity by Fungicides Applied to Putting Green Turf|Ark. Farm Res.26:12-|1977|
59516|T||Klotz,J.H., L. Greenberg, C. Amrhein, and M.K. Rust|Toxicity and Repellency of Borate-Sucrose Water Baits to Argentine Ants (Hymenoptera:  Formicidae)|J. Econ. Entomol.93(4): 1256-1258|2000|10.1603/0022-0493-93.4.1256
59517|T||Kluge,R., and W. Podlesak|Plant Critical Levels for the Evaluation of Boron Toxicity in Spring Barley (Hordeum vulgare L.)|Plant Soil83:381-388|1985|10.1007/BF02184450
59519|T||Kirby,A.H.M., and M. Bennett|Phytotoxic Effects of Phenylmercuric Compounds upon Certain Pear Varieties|J. Hortic. Sci.38:68-79|1963|10.1080/00221589.1963.11514061
59520|T||Knight,A.L.|Tebufenozide Targeted Against Codling Moth (Lepidoptera:  Tortricidae) Adults, Eggs, and Larvae|J. Econ. Entomol.93(6): 1760-1767|2000|10.1603/0022-0493-93.6.1760
59521|T||Kofranek,A.M., H.C.,Jr. Kohl, and O.R. Lunt|Effects of Excess Salinity and Boron on Geraniums|Proc. Am. Soc. Hortic. Sci.71:516-521|1958|
59522|T||Kofranek,A.M., O.R. Lunt, and H.C.,Jr. Kohl|Tolerance of Gladioli to Salinity and Boron|Proc. Am. Soc. Hortic. Sci.69:556-560|1957|
59523|T||Koo,Y.M., M. Salyani, and J.D. Whitney|Effects of Abscission Chemical Spray Deposition on Mechanical Harvest Efficiancy of 'Hamlin' Orange|Annu. Meet. Fla. State Hortic. Soc.112:28-33|1999|
59524|T||Kranthi,K.R., D. Jadhav, R. Wanjari, S. Kranthi, and D. Russell|Pyrethroid Resistance and Mechanisms of Resistance in Field Strains of Helicoverpa armigera (Lepidoptera:  Noctuidae)|J. Econ. Entomol.94(1): 253-263|2001|10.1603/0022-0493-94.1.253
59525|T||Krausz,R.F., B.G. Young, G. Kapusta, and J.L. Matthews|Application Timing Determines Giant Foxtail (Setaria faberi) and Barnyardgrass (Echinochloa crus-galli) Control in No-Till Corn (Zea mays)|Weed Technol.14:161-166|2000|10.1614/0890-037X(2000)014[0161:ATDGFS]2.0.CO;2
59526|T||Krizek,D.T., C.D. Foy, and W.P. Wergin|Role of Water Stress in Differential Aluminum Tolerance of Six Sunflower Cultivars Grown in an Acid Soil|J. Plant Nutr.11(4): 387-408|1988|10.1080/01904168809363810
59527|T||Kuk,Y.I., N.R. Burgos, and R.E. Talbert|Cross- and Multiple Resistance of Diclofop-Resistant Lolium spp.|Weed Sci.48(4): 412-419|2000|10.1614/0043-1745(2000)048[0412:CAMRODRL]2.0.CO;2
59528|T||Kulkarni,J.H., J.S. Sardeshpande, and D.J. Bagyaraj|Effect of Four Soil-Applied Insecticides on Symbiosis of Rhizobium sp. with Arachis hypogaea Linn.|Plant Soil40:169-172|1974|10.1007/BF00011419
59529|T||Kunkel,B.A., D.W. Held, and D.A. Potter|Lethal and Sublethal Effects of Bendiocarb, Halofenozide, and Imidacloprid on Harpalus pennsylvanicus (Coleoptera: Carabidae) Following Different Modes of Exposure in Turfgrass|J. Econ. Entomol.94(1): 60-67|2001|10.1603/0022-0493-94.1.60
59530|T||Laverack,M.S.|Tactile and Chemical Perception in Earthworms - I. Responses to Touch, Sodium Chloride, Quinine and Sugars|Comp. Biochem. Physiol.1:155-163|1960|10.1016/0010-406X(60)90047-5
59531|T||Lee,C.D., D. Penner, and R. Hammerschmidt|Influence of Formulated Glyphosate and Activator Adjuvants on Sclerotinia sclerotiorum in Glyphosate-Resistant and -Susceptible Glycine max|Weed Sci.48:710-715|2000|10.1614/0043-1745(2000)048[0710:IOFGAA]2.0.CO;2
59532|T||Lee,C.J., G.W. Miller, and G.W. Welkie|The Effects of Hydrogen Fluoride and Wounding on Respiratory Enzymes in Soybean Leaves|Air Water Pollut.10:169-181|1966|
59533|T||Lee,J.M., and M.D.K. Owen|Comparison of Acetolactate Synthase Enzyme Inhibition Among Resistant and Susceptible Xanthium strumarium Biotypes|Weed Sci.48:286-290|2000|10.1614/0043-1745(2000)048[0286:COASEI]2.0.CO;2
59534|T||Legg,D.C.|Comparison of Various Worm-Killing Chemicals|J. Sports Turf Res. Inst.44:47-48|1969|
59535|T||Leif,J.W., J.L. Vollmer, T.J. Hartberg, and T.O. Ballard|Growth and Response of Common Rageweed (Ambrosia artemisiifolia) Ecotypes to Imazethapyr|Weed Technol.14:150-155|2000|10.1614/0890-037X(2000)014[0150:GAROCR]2.0.CO;2
59536|T||Leone,I.A., and D. Green|A Field Evaluation of Air Pollution Effects on Petunia and Potato Cultivars in New Jersey|Plant Dis. Rep.58(8): 683-687|1974|
59537|T||Leone,I.A., E.G. Brennan, R.H. Daines, and W.R. Robbins|Some Effects of Fluoride on Peach, Tomato, and Buckwheat when Absorbed Through the Roots|Soil Sci.66:259-266|1948|10.1097/00010694-194810000-00003
59538|T||Li,Z., G.R. Wehtje, and R.H. Walker|Physiological Basis for the Differential Tolerance of Glycine max to Sulfentrazone During Seed Germination|Weed Sci.48:281-285|2000|10.1614/0043-1745(2000)048[0281:PBFTDT]2.0.CO;2
59539|T||Li,Z., R.H. Walker, G. Wehtje, and H.G. Hancock|Using Electrolyte Leakage to Detect Soybean (Glycine max) Cultivars Sensitive to Sulfentrazone|Weed Technol.14:699-704|2000|10.1614/0890-037X(2000)014[0699:UELTDS]2.0.CO;2
59540|T||Lidon,F.C., and M.G. Teixeira|Oxy Radicals Production and Control in the Chloroplast of Mn-Treated Rice|Plant Sci.152:7-15|2000|10.1016/S0168-9452(99)00179-X
59541|T||Lipton,W.V., and A.S. Goldin|Some Factors Influencing the Uptake of Plutonium-239 by Pea Plants|Health Phys.31:425-430|1976|10.1097/00004032-197611000-00002
59542|T||Lloveras,J., J.G. Baudin, J.M. Balague, and M. Serrano|Response of Durum Wheat (Triticum turgidum L. var. durum) Cultivars to Imazamethabenz and PP-604|Weed Technol.14:274-278|2000|10.1614/0890-037X(2000)014[0274:RODWTT]2.0.CO;2
59543|T||Lockard,R.G., and A.R. McWalter|Effects of Toxic Levels of Sodium, Arsenic, Iron and Aluminium on the Rice Plant|Malay. Agric. J.39:256-267|1956|
59544|T||Lowe,D.B., T. Whitwell, S.B. Martin, and L.B. McCarty|Yellow Nutsedge (Cyperus esculentus) Management and Tuber Reduction in Bermudagrass (Cynodon dactylon x C. transvaalensis) Turf with Selected Herbicide Programs|Weed Technol.14:72-76|2000|10.1614/0890-037X(2000)014[0072:YNCEMA]2.0.CO;2
59545|T||Luckwill,L.C., and D. Woodcock|Plant Growth Regulators I.  The Influence of Side-Chain Length on the Activity of omega-(2-Naphthyloxy)-n-Alkylcarboxylic Acids for the Induction of Parthenocarpy in Tomatoes|J. Hortic. Sci.30:109-115|1955|10.1080/00221589.1955.11513833
59546|T||Ludbrook,W.V.|The Effects of Various Concentrations of Boron on the Growth of Pine Seedlings in Water Culture|J. Aust. Inst. Agric. Sci.8:112-114|1942|
59547|T||MacKay,D.C., W.M. Langille, and E.W. Chipman|Boron Deficiency and Toxicity in Crops Grown on Sphagnum Peat Soil|Can. J. Soil Sci.42:302-310|1962|10.4141/cjss62-040
59548|T||MacLean,A.J.|Mercury in Plants and Retention of Mercury by Soils in Relation to Properties and Added Sulfur|Can. J. Soil Sci.54:287-292|1974|10.4141/cjss74-037
59549|A||Rinchard,J., A. Ciereszko, K. Dabrowski, and J. Ottobre|Effects of Gossypol on Sperm Viability and Plasma Sex Steroid Hormones in Male Sea Lamprey, Petromyzon marinus|Toxicol. Lett.111(3): 189-198|2000|10.1016/S0378-4274(99)00149-6
59550|T||Mangan,R.L., and D.S. Moreno|PhotoActive Dye Insecticide Formulations:  Adjuvants Increase Toxicity to Mexican Fruit Fly (Diptera:  Tephritidae)|J. Econ. Entomol.94(1): 150-156|2001|10.1603/0022-0493-94.1.150
59551|T||Manley,B.S., H.P. Wilson, and T.E. Hines|Weed Management and Crop Rotations Influence Populations of Several Broadleaf Weeds|Weed Sci.49(1): 106-122|2001|10.1614/0043-1745(2001)049[0106:WMACRI]2.0.CO;2
59552|T||Manning,W.J., W.A. Feder, and I. Perkins|Effects of Botrytis and Ozone on Bracts and Flowers of Poinsettia Cultivars|Plant Dis. Rep.56(9): 814-816|1973|
59554|T||Manning,W.J., W.A. Feder, I. Perkins, and M. Glickman|Ozone Injury and Infection of Potato Leaves by Botrytis cinerea|Plant Dis. Rep.53(9): 691-693|1969|
59555|T||Manning,W.J., W.A. Feder, P.M. Papia, and I. Perkins|Influence of Foliar Ozone Injury on Root Development and Root Surface Fungi of Pinto Bean Plants|Environ. Pollut.1:305-312|1971|
59556|T||Marousky,F.J., and S.S. Woltz|Effect of Fluoride and a Floral Preservative on Quality of Cut Gladiolus|Annu. Meet. Fla. State Hortic. Soc.84:375-380|1971|
59557|T||Martin,R.L., B. Pittendrigh, J. Liu, R. Reenan, R. Ffrench-Constant, and D.A. Hanck|Point Mutations in Domain III of a Drosophila neuronal Na Channel Confer Resistance to Allethrin|Insect Biochem. Mol. Biol.30(11): 1051-1059|2000|10.1016/S0965-1748(00)00080-1
59558|T||Maschhoff,J.R., S.E. Hart, and J.L. Baldwin|Effect of Ammonium Sulfate on the Efficacy, Absorption, and Translocation of Glufosinate|Weed Sci.48:2-6|2000|10.1614/0043-1745(2000)048[0002:EOASOT]2.0.CO;2
59560|T||McCallan,S.E.A., A. Hartzell, and F. Wilcoxon|Hydrogen Sulphide Injury to Plants|Contrib. Boyce Thompson Inst.8:189-197|1936|
59561|T||McCravy,K.W., M.J. Dalusky, and C.W. Berisford|Effects of a Broad Spectrum and Biorational Insecticides on Parasitoids of the Nantucket Pine Tip Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.94(1): 112-115|2001|10.1603/0022-0493-94.1.112
59562|T||McCune,D.C., L.H. Weinstein, J.S. Jacobson, and A.E. Hitchcock|Some Effects of Atmospheric Fluoride on Plant Metabolism|J. Air Pollut. Control Assoc.14:465-468|1964|10.1080/00022470.1964.10468316
59563|T||McCune,D.C., A.E. Hitchcock, J.S. Jacobson, and L.H. Weinstein|Fluoride Accumulation and Growth of Plants Exposed to Particulate Cryolite in the Atmosphere|Contrib. Boyce Thompson Inst.23:1-11|1965|
59565|T||Menon,M.G.R., P. Sarup, and H.D. Vasu|Effect of Some Modern Organic Insecticidal Films on Lasioderma serricorne Fabricius. (Anobiidae: Coleoptera)|Indian Oilseeds J.5(1): 60-62|1961|
59566|T||Menser,H.A., and G.H. Hodges|Effects of Air Pollutants on Burley Tobacco Cultivars|Agron. J.62:265-269|1972|10.2134/agronj1970.00021962006200020027x
59567|T||Meola,R., K. Meier, S. Dean, and G. Bhaskaran|Effect of Pyriproxyfen in the Blood Diet of Cat Fleas on Adult Survival, Egg Viability, and Larval Development|J. Med. Entomol.37(4): 503-506|2000|10.1603/0022-2585-37.4.503
59570|T||Mohamed,F.S.A., M.M. Abbassy, Z.E.A. Darwish, G.E. Tetreault, A.S. Marzouk, M.A. Shoukry, D.J. Fryauff, and G.M. Beaver|Effects of Permethrin on the Salivary Glands and Neuroendocrine Organs of Unfed Female Hyalomma (Hyalomma) dromedarii (Ixodiodea:  Ixodidae)|J. Med. Entomol.37(3): 393-400|2000|
59571|T||Mohan Ram,H.Y., and R. Sett|Sex Reversal in the Female Plants Cannabis sativa by Cobalt Ion|Proc. Indian Acad. Sci.88B(4): 303-308|1979|
59572|T||Moyses,E.W., and F.J. Gfeller|Topical Application as a Method for Comparing the Effectiveness of Insecticides Against Cat Flea (Siphonaptera: Pulicidae)|J. Med. Entomol.38(2): 193-196|2001|10.1603/0022-2585-38.2.193
59573|T||Mulvihill,J.E., S.H. Gramm, and V.H. Ferm|Facial Formations in Normal and Cadmium-Treated Golden Hamsters|J. Embryol. Exp. Morphol.24(2): 393-403|1970|
59574|T||Murphy,H.E., D.G. Edwards, and C.J. Asher|Effects of Aluminium on Nodulation and Early Growth of Four Tropical Pasture Legumes|Aust. J. Agric. Res.35:663-673|1984|10.1071/AR9840663
59575|T||Nakai,J.S., R. Poon, P. Lecavalier, I. Chu, A. Yagminas, and V.E. Valli|Effects of Subchronic Exposure of Rats to Dichloramine and Trichloramine in Drinking Water|Regul. Toxicol. Pharmacol.31(21): 200-209|2000|10.1006/rtph.2000.1376
59576|T||Nalyanya,G., C.B. Moore, and C. Schal|"Integration of Repellents, Attractants, and Insecticides in a ""Push-Pull"" Strategy for Managing German Cockroach (Dictyoptera: Blattellidae) Populations"|J. Med. Entomol.37(3): 427-434|2000|
59577|T||Narloch,B.A., M.P. Lawton, D.E. Moody, B.D. Hammock, and L.R. Shull|The Effects of Dicofol on Induction of Hepatic Microsomal Metabolism in Rats|Pestic. Biochem. Physiol.28:362-370|1987|10.1016/0048-3575(87)90132-5
59578|T||El-Nawawy,A.S., and M.A.S. Khalifa|Relation Between Chemical Structure and Biological Activity.  Part XXII.  Phytocidal Properties of Sodium and Several s-Alkyl Isothiouronium Salts of N:N-Diethyldithiocarbamic Acid to Four Different Crops|Alex. J. Agric. Res.14:275-280|1966|
59579|T||Newhall,W.F., M. Hummon, M.J. Jaffe, and R.A. Fluck|Mode of Action of 2-Hydroxycyclohexyl Quaternary Ammonium Plant Regulators|J. Agric. Food Chem.23(5): 838-840|1975|10.1021/jf60201a014
59581|T||Nie,G.Y., M. Tomasevic, and N.R. Baker|Effects of Ozone on the Photosynthetic Apparatus and Leaf Proteins During Leaf Development in Wheat|Plant Cell Environ.16:643-651|1993|10.1111/j.1365-3040.1993.tb00482.x
59582|T||Norris,W.E.,Jr., and B. Brotzman|The Effect of Malformin on Elongation and Geotropically Induced Curvature of Avena coleoptiles|Adv. Front. Plant Sci.15:121-127|1966|
59583|T||Nowak,J.T., C.J. Fettig, K.W. McCravy, and C.W. Berisford|Efficacy Tests and Determination of Optimal Spray Timing Values to Control Nantucket Pine Tip Moth (Lepidoptera:  Tortricidae) Infestations|J. Econ. Entomol.93(6): 1708-1713|2000|10.1603/0022-0493-93.6.1708
59584|T||Ntanos,D.A., S.D. Koutroubas, and C. Mavrotas|Barnyardgrass (Echinochloa crus-galli) Control in Water-Seeded Rice (Oryza sativa) with Cyhalofop-Butyl|Weed Technol.14:383-388|2000|10.1614/0890-037X(2000)014[0383:BECGCI]2.0.CO;2
59585|T||Oertli,J.J., and J.A. Roth|Boron Nutrition of Sugar Beet, Cotton, and Soybean|Agron. J.61:191-195|1969|10.2134/agronj1969.00021962006100020006x
59586|T||Ohki,K.|Photosynthesis, Chlorophyll, and Transpiration Responses in Aluminum Stressed Wheat and Sorghum|Crop Sci.26:572-575|1986|10.2135/cropsci1986.0011183X002600030030x
59587|T||Olson,B.L.S., K. Al-Khatib, P.W. Stahlman, and P.J. Isakson|MON 37500 Efficacy as Affected by Rate, Adjuvants, and Carriers|Weed Technol.14:750-754|2000|10.1614/0890-037X(2000)014[0750:MEAABR]2.0.CO;2
59588|T||Olson,B.L.S., K. Al-Khatib, P. Stahlman, and P.J. Isakson|Efficacy and Metabolism of MON 37500 in Triticum aestivum and Weedy Grass Species as Affected by Temperature and Soil Moisture|Weed Sci.48:541-548|2000|10.1614/0043-1745(2000)048[0541:EAMOMI]2.0.CO;2
59589|T||Ormrod,D.P., N.O. Adedipe, and G. Hofstra|Responses of Cucumber, Onion and Potato Cultivars to Ozone|Can. J. Plant Sci.51:283-288|1971|10.4141/cjps71-056
59590|T||Ormrod,D.P., and W.A. Williams|Vegetative and Reproductive Growth Response of Three Trifolium Species to 2,4-D|Agron. J.52:229-234|1960|10.2134/agronj1960.00021962005200040017x
59591|T||Paliwal,K.V., and K.K. Mehta|Interactive Effect of Salinity, Sar and Boron on the Germination and Growth of Seedlings of Some Paddy (Oryza sativa) Varieties|Plant Soil39:603-609|1973|10.1007/BF00264177
59592|T||Palmer,E.W., D.R. Shaw, and J.C.,Jr. Holloway|Broadleaf Weed Control in Soybean (Glycine max) with CGA-277476 and Four Postemergence Herbicides|Weed Technol.14(3): 617-623|2000|10.1614/0890-037X(2000)014[0617:BWCISG]2.0.CO;2
59593|T||Almer-Jones,T.P.|Effect of Honey Bees of 2,4-D|N. Z. J. Agric. Res.7:339-342|1964|10.1080/00288233.1964.10416414
59594|T||Pantera,H.|The Effect of Herbicides on Algae in the Soil|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)35:847-854|1970|
59595|T||Parker,D.R., J.J. Aguilera, and D.N. Thomason|Zinc-Phosphorus Interactions in Two Cultivars of Tomato (Lycopersicon esculentum L.) Grown in Chelator-Buffered Nutrient Solutions|Plant Soil143:163-177|1992|10.1007/BF00007870
59596|T||Pasian,C., R.A.J. Taylor, R.W. McMahon, and R.K. Lindquist|New Method of Acephate Application to Potted Plants for Control of Aphis gossypii, Frankliniella occidentalis and Bemisia tabaci|Crop Prot.19(4): 263-271|2000|10.1016/S0261-2194(00)00019-3
59597|T||Paromenskaya,L.N., L.D. Mikhailova, and L.G. Vagiyan|Effects of the Herbicides 2M-4X and 2M-4XM on Photosynthetic Pigments in Pea Plants|Sov. Plant Physiol.22(2): 348-350|1975|
59598|T||Payne,S.A., and L.R. Oliver|Weed Control Programs in Drilled Glyphosate-Resistant Soybean|Weed Technol.14(2): 413-422|2000|10.1614/0890-037X(2000)014[0413:WCPIDG]2.0.CO;2
59599|T||Pearson,J.O.|Postemergence Timing Studies with BAS 3512-H in Soybeans|Proc. Northeast. Weed Control Conf.:124-129|1971|
59600|T||Peczely,P., and K. Kovacs|Effects of a Fungicide (VITAVAX 200 FF) on the Reproductive-Endocrine Functions in Mallards|Environ. Toxicol. Water Qual.13(2): 133-141|1998|10.1002/(SICI)1098-2256(1998)13:2<133::AID-TOX4>3.0.CO;2-8
59601|T||Pedersen,M.W.|Effect of Sodium 2,3-Dichloroisobutyrate on Alfalfa Gametes|Agron. J.51:573 p.|1959|10.2134/agronj1959.00021962005100090021x
59602|T||Perez,C.J., P. Alvarado, C. Narvaez, F. Miranda, L. Hernandez, H. Vanegas, A. Hruska, and A.M. Shelton|Assessment of Insecticide Resistance in Five Insect Pests Attacking Field and Vegetable Crops in Nicaragua|J. Econ. Entomol.93(6): 1779-1787|2000|10.1603/0022-0493-93.6.1779
59603|T||Picollo,M.I., C.V. Vassena, G.A. Mougabure Cueto, M. Vernetti, and E.N. Zerba|Resistance to Insecticides and Effect of Synergists on Permethrin Toxicity in Pediculus capitis (Anoplura:  Pediculidae) from Buenos Aires|J. Med. Entomol.37(5): 721-725|2000|10.1603/0022-2585-37.5.721
59604|T||Pimpl,M., and H. Schuttelkopf|Transport of Plutonium, Americium, and Curium from Soils into Plants by Root Uptake|Nucl. Saf.22(2): 214-225|1981|
59606|T||Pline,W.A., K.K. Hatzios, and E.S. Hagood|Weed and Herbicide-Resistant Soybean (Glycine max) Response to Glufosinate and Glyphosate Plus Ammonium Sulfate and Pelargonic Acid|Weed Technol.14:667-674|2000|10.1614/0890-037X(2000)014[0667:WAHRSG]2.0.CO;2
59607|T||Poland,A.P., E. Glover, J.R. Robinson, and D.W. Nebert|"Genetic Expression of Aryl Hydrocarbon Hydroxylase Activity:  Induction of Monooxygenase Activities and Cytochrome P1-450 Formation by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Mice Genetically ""Nonresponsive"" to Other Aro"|J. Biol. Chem.249(17): 5599-5606|1974|10.1016/S0021-9258(20)79769-3
59609|T||Poston,D.H., H.P. Wilson, and T.E. Hines|Imidazolinone Resistance in Several Amaranthus hybridus Populations|Weed Sci.48:508-513|2000|10.1614/0043-1745(2000)048[0508:IRISAH]2.0.CO;2
59610|T||Pound,J.M., J.A. Miller, and J.E. George|Efficacy of Amitraz Applied to White-Tailed Deer by the `4-Poster' Topical Treatment Device in Controlling Free-Living Lone Star Ticks (Acari:  Ixodidae)|J. Med. Entomol.37(6): 878-884|2000|10.1603/0022-2585-37.6.878
59611|T||Pound,J.M., J.A. Miller, J.E. George, and C.A. Lemeilleur|The `4-Poster' Passive Topical Treatment Device to Apply Acaricide for Controlling Ticks (Acari:  Ixodidae) Feeding on White-Tailed Deer|J. Med. Entomol.37(4): 588-594|2000|10.1603/0022-2585-37.4.588
59612|T||Pradhan,S., and S.C. Bhatia|Comparative Toxicity of Some Important Insecticides to Bagrada cruciferarum Kirk. (Pentatomidae: Hemiptera) -I|Indian J. Entomol.14(2): 169-171|1952|
59613|T||Pradhan,S., and S.S. Bhatia|Bioassay of Insecticides Part V. Relative Toxicity of Some Important Insecticides to Certain Species of Storage Pests|Indian J. Entomol.18(1): 34-40|1956|
59614|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Bio-assay of Insecticides VI. Comparative Toxicity of Modern Insecticides to Drosicha mangiferae Green (Coccidae: Hemiptera)|Indian J. Entomol.18(4): 315-317|1956|
59615|T||Pradhan,S., M.G. Jotwani, and B.K. Rai|Bioassay of Insecticides. VIII.  Relative Toxicity of Some Insecticides to Red Pumpkin Beetle, Aulacophora foveicollis Lucas (Coleoptera:  Chrysomelidae)|Indian J. Entomol.20(2): 104-107|1958|
59616|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Bioassay of Insecticides.  Effect of Some Important Insecticides on Coccinella septempunctata Linn, (Coccinellidae:  Coleoptera), a Predator of Mustard Aphid (Lipaphis erysimi Kalt.)|Indian Oilseeds J.3(2): 121-124|1959|
59617|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Bioassay of Insecticides. Relative Toxicity of some Important Insecticides to the Larvae of Athalia proxima Klug (Tenthredinidae, Hymenoptera), a Pest of Mustard|Indian Oilseeds J.3(3): 166-168|1959|
59618|T||Pradhan,S., and J.M. Satpathy|Bioassay of Insecticides-II. Comparative Toxicity of Some Important Insecticides to Oxycaraenus laetus Kirby (Lygacidae: Hemiptera) and Rhopalosiphum pseudobrassicae (Davis). (Aphididae: Hemiptera)|Indian J. Entomol.15(4): 297-298|1953|
59619|T||Rakitin,Y.V., and A. Imamaliev|Chemical Defoliation of Fruit Trees|Sov. Plant Physiol.6:57-62|1959|
59620|T||Rao,A.V., E. Fallin, and S.C. Fang|Comparative Study of Uptake and Cellular Distribution of Hg203-Labeled Phenyl-Mercuric Acetate and Mercuric Acetate by Pea Roots|J. Plant Physiol.41(3): 443-446|1966|10.1104/pp.41.3.443
59621|T||Ravichandran,S., N. Vijayaprabha, and S. Vijayalakshmi|Impact of the Pesticide Dimethoate on Protein Content in the Ovary, Fatbody and Hemolymph of Catacanthus incarnatus (Hemiptera)|Environ. Ecol.13(1): 41-43|1995|
59622|T||Rajendran,S.|Inhibition of Hatching of Tribolium castaneum by Phosphine|J. Stored Prod. Res.36:101-106|2000|10.1016/S0022-474X(99)00038-7
59623|T||Rasmussen,G.K., and W.H. Henry|Effects of Lead on the Growth of Sweet Orange Seedlings in Nutrient Solution Cultures|Proc. Soil Crop Sci. Soc. Fla.23:70-74|1963|
59624|T||Rattan,L., B.K. Rai, and K. Kumar|Relative Toxicity of Different Insecticidal Dusts Against Locusta migratoria Linnaeus (Acridiidae: Orthoptera)|Indian J. Entomol.23(3): 186-194|1961|
59625|T||Reddy,K.N.|Factors Affecting Toxicity, Absorption, and Translocation of Glyphosate in Redvine (Brunnichia ovata)|Weed Technol.14:457-462|2000|10.1614/0890-037X(2000)014[0457:FATAAT]2.0.CO;2
59626|T||Reddy,K.N.|Weed Control in Soybean (Glycine max) with Cloransulam and Diclosulam|Weed Technol.14:293-297|2000|10.1614/0890-037X(2000)014[0293:WCISGM]2.0.CO;2
59627|T||Reddy,K.N., and K. Whiting|Weed Control and Economic Comparisons of Glyphosate-Resistant, Sulfonylurea-Tolerant, and Conventional Soybean (Glycine max) Systems|Weed Technol.14:204-211|2000|10.1614/0890-037X(2000)014[0204:WCAECO]2.0.CO;2
59629|T||Reicher,Z.J., D.V. Weisenberger, G.A. Hardebeck, and C.S. Throssell|Turf Safety to Dithiopyr of Newly Seeded Kentucky Bluegrass (Poa pratensis)|Weed Technol.14:550-555|2000|10.1614/0890-037X(2000)014[0550:TSTDON]2.0.CO;2
59630|T||Reinert,R.A., D.T. Tingey, and H.B. Carter|Sensitivity of Tomato Cultivars to Ozone|J. Am. Soc. Hortic. Sci.97(2): 149-151|1972|10.21273/JASHS.97.2.149
59631|T||Reinert,R.A., D.T. Tingey, and H.B. Carter|Ozone Induced Foliar Injury in Lettuce and Radish Cultivars|J. Am. Soc. Hortic. Sci.97(6): 711-714|1972|10.21273/JASHS.97.6.711
59632|T||Ric de Vos,C.H., H. Schat, R. Vooijs, and W.H.O. Ernst|Copper-Induced Damage to the Permeability Barrier in Roots of Silene cucubalus|J. Plant Physiol.135:164-169|1989|10.1016/S0176-1617(89)80171-3
59633|T||Richardson,D.H.S., E. Nieboer, K.J. Puckett, B. Grace, and F.D. Tomassini|Potential Sulphur Dioxide Damage to Lichens of the Mackenzie Valley N.W.T.|Final Rep.to Atmos.Environ.Serv., Environ.Can., Dept.Biol.and Chem., Laurentian Univ., Sudbury, Ontario1-2:408 p.|1975|
59634|T||Richardson,L.T.|Effects of Atrazine on Growth Response of Soil Fungi|Can. J. Plant Sci.50:594-596|1970|10.4141/cjps70-112
59635|T||Rolfe,G.L.|Lead Uptake by Selected Tree Seedlings|J. Environ. Qual.2:153-157|1973|10.2134/jeq1973.00472425000200010029x
59636|T||Romera,F.J., E. Alcantara, and M.D. De la Guardia|Characterization of the Tolerance to Iron Chlorosis in Different Peach Rootstocks Grown in Nutrients Solution.  II.  Iron-Stress Response Mechanisms|In: Y.Chen and Y.Hadar (Eds.), Proc.5th Int.Symp.on Iron Nutrition and Interactions in Plants, Volume 43, June 11-17, 1989, Jerusalem, Israel, Kluwer Acad.Publ., Dordrecht, Netherlands:151-155|1991|
59637|A||Romi,R., M. Di Luca, W. Raineri, M. Pesce, A. Rey, S. Giovannangeli, F. Zanasi, and A. Bella|Laboratory and Field Evaluation of Metallic Copper on Aedes albopictus (Diptera:  Culicidae) Larval Development|J. Med. Entomol.37(2): 281-285|2000|10.1603/0022-2585-37.2.281
59638|T||Rosenberg,D.W., G.S. Drummond, H.C. Cornish, and A. Kappas|Prolonged Induction of Hepatic Haem Oxygenase and Decreases in Cytochrome P-450 Content by Organotin Compounds|Biochem. J. (Lond.)190:465-468|1980|10.1042/bj1900465
59639|T||Rumburg,C.B., R.E. Engel, and W.F. Meggitt|Effect of Temperature on the Herbicidal Activity and Translocation of Arsenicals|Weeds (Urbana)8:582-588|1960|10.2307/4040359
59640|T||Ryan,J., S. Miyamoto, and J.L. Stroehlein|Relation of Solute and Sorbed Boron to the Boron Hazard in Irrigation Water|Plant Soil47:253-256|1977|10.1007/BF00010386
59641|T||Saha,J.G., Y.W. Lee, R.D. Tinline, S.H.F. Chinn, and H.M. Austenson|Mercury Residues in Cereal Grains from Seeds or Soil Treated with Organomercury Compounds|Can. J. Plant Sci.50:597-599|1970|10.4141/cjps70-113
59642|T||Sajap,A.S., S. Amit, and J. Welker|Evaluation of Hexaflumuron for Controlling the Subterranean Termite Coptotermes curvignathus (Isoptera: Rhinotermitidae) in Malaysia|J. Econ. Entomol.93(2): 429-433|2000|10.1603/0022-0493-93.2.429
59643|T||Samgin,P.A., Y.V. Shestopal, and I.V. Shutov|Chemical Control of Undesirable Shrubs and Trees (Khimicheskaya bor'ba s Sornymi i Nezhelatel'nymi Drevesuymi Rasteniyami)|In: Herbicides in Agriculture:124-130|1962|
59644|T||Sarup,P., M.G. Jotwani, and S. Pradhan|Relative Toxicity of Some Important Insecticides as Contact Poisons to Maize Aphid, Rhopalosiphum maidis (Fitch)|Indian J. Entomol.23:257-261|1961|
59645|T||Satchivi,N.M., L.M. Wax, E.W. Stoller, and D.P. Briskin|Absorption and Translocation of Glyphosate Isopropylamine and Trimethylsulfonium Salts in Abutilon theophrasti and Setaria faberi|Weed Sci.48:675-679|2000|10.1614/0043-1745(2000)048[0675:AATOGI]2.0.CO;2
59647|T||Savvas,D., and F. Lenz|Effects of NaCl or Nutrient-Induced Salinity on Growth, Yield, and Composition of Eggplants Grown in Rockwool|Sci. Hortic.84:37-47|2000|10.1016/S0304-4238(99)00117-X
59648|T||Schilter,B., M.R. Andersen, C. Acharya, and C.J. Omiecinski|Activation of Cytochrome P450 Gene Expression in the Rat Brain by Phenobarbital-Like Inducers|J. Pharmacol. Exp. Ther.294(3): 916-922|2000|
59649|T||Schmoll,J.T., S.K. Harrison, E.E. Regnier, and M.A. Bennett|Hydroponic Tomato (Lycopersicon esculentum) Response to Dicamba in the Nutrient Media|Weed Technol.14:562-568|2000|10.1614/0890-037X(2000)014[0562:HTLERT]2.0.CO;2
59650|T||Schneider,R.E., and D.C. MacLean|Relative Susceptibility of Seven Grain Sorghum Hybrids to Hydrogen Fluoride|Contrib. Boyce Thompson Inst.24(12): 241-243|1970|
59651|T||Schulze,T.L., R.A. Jordan, and R.W. Hung|Effects of Granular Carbaryl Application on Sympatric Populations of Ixodes scapularis and Amblyomma americanum (Acari:  Ixodidae) Nymphs|J. Med. Entomol.37(1): 121-125|2000|10.1603/0022-2585-37.1.121
59652|T||Schulze,T.L., R.A. Jordan, R.W. Hung, R.C. Taylor, D. Markowski, and M.S. Chomsky|Efficacy of Granular Deltamethrin Against Ixodes scapularis and Amblyomma americanum (Acari:  Ixodidae) Nymphs|J. Med. Entomol.38(2): 344-346|2001|10.1603/0022-2585-38.2.344
59653|T||Schulze,T.L., R.A. Jordan, R.W. Hung, A.J.,Jr. Krivenko, J.J. Schulze, and T.M. Jordan|Effects of an Application of Granular Carbaryl on Nontarget Forest Floor Arthropods|J. Econ. Entomol.94(1): 123-128|2001|10.1603/0022-0493-94.1.123
59655|T||Sechler,D., and D.R. Davis|Ozone Toxicity in Small Grain|Plant Dis. Rep.48(12): 919-922|1964|
59658|T||Sharma,L.N., and S.N. Saxena|Influence of 2,4-D on Soil Microorganisms with Special Reference to Azotobacter|J. Indian Soc. Soil Sci.22(2): 168-171|1974|
59659|T||Shaw,D.R., W.H. Morris, E.P. Webster, and D.B. Smith|Effects of Spray Volume and Droplet Size on Herbicide Deposition and Common Cocklebur (Xanthium strumarium) Control|Weed Technol.14:321-326|2000|10.1614/0890-037X(2000)014[0321:EOSVAD]2.0.CO;2
59660|T||Sheikh,K.H., and S. Khanum|Some Studies of the Quality of Irrigation Water and the Germination and Growth of Wheat at Different Concentrations of Boron|Plant Soil45:565-576|1976|10.1007/BF00010580
59661|T||Shimada,T., T. Watanabe, and A. Endo|Potential Mutagenicity of Cadmium in Mammalian Oocytes|Mutat. Res.40:389-396|1976|10.1016/0165-1218(76)90038-0
59662|T||Shonouda,M.L., R.M. Farrag, and O.M. Salama|Efficacy of the Botanical Extract (Myrrh), Chemical Insecticides and Their Combinations on the Cotton Leafworm, Spodoptera littoralis Boisd (Lepidoptera:  Noctuidae)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(3): 347-356|2000|
59663|T||Siminszky,B., B.S. Sheldon, F.T. Corbin, and R.E. Dewey|A Cytochrome P450 Monooxygenase cDNA (CYP71A10) Confers Resistance to Linuron in Transgenic Nicotiana tabacum|Weed Sci.48(3): 291-295|2000|10.1614/0043-1745(2000)048[0291:ACPMCC]2.0.CO;2
59664|T||Singh,B.D., R.B. Singh, R.M. Singh, Y. Singh, and J. Singh|Effect of Insecticides on Germination, Early Growth and Cytogenetic Behavior of Barley (Hordeum vulgare)|Environ. Exp. Bot.19(3): 127-132|1979|10.1016/0098-8472(79)90041-8
59665|T||Skora Neto,F., H.D. Coble, and F.T. Corbin|Absorption, Translocation, and Metabolism of 14C-Glufosinate in Xanthium strumarium, Commelina difusa, and Ipomoea purpurea|Weed Sci.48:171-175|2000|10.1614/0043-1745(2000)048[0171:ATAMOC]2.0.CO;2
59666|T||Slater,J.W.|3,5-Dichloro-2,6-Difluoro-4-Hydroxypyridine as a Selective Herbicide in Kale|Weed Res. (Multiple Languages)8:149-150|1968|10.1111/j.1365-3180.1968.tb01413.x
59667|T||Smeda,R.J., and S.C. Weller|Biology and Control of Burcucumber|Weed Sci.49:99-105|2001|10.1614/0043-1745(2001)049[0099:BACOB]2.0.CO;2
59668|T||Smith,H.H.|The Induction of Polyploidy in Nicotiana Species and Species Hybrids|J. Hered.30:291-306|1939|10.1093/oxfordjournals.jhered.a104748
59669|T||Smith,N.R., and M.E. Wenzel|Soil Microorganisms are Affected by Some of the New Insecticides|Proc. Soil Sci. Soc. Am.12:227-233|1947|10.2136/sssaj1948.036159950012000C0053x
59670|T||Smith,N.R., V.T. Dawson, and M.E. Wenzel|The Effect of Certain Herbicides on Soil Microorganisms|Proc. Soil Sci. Soc. Am.10:197-201|1946|10.2136/sssaj1946.03615995001000C00032x
59671|T||Sprague,C.L., E.W. Stoller, and S.E. Hart|Preemergence Broadleaf Weed Control and Crop Tolerance in Imidazolinone-Resistant and -Susceptible Corn (Zea mays)|Weed Technol.11(1): 118-122|1997|10.1017/S0890037X00041440
59672|T||Spierings,F.H.F.G.|Influence of Fumigations with Nitrogen Dioxide on Growth and Yield of Tomato Plants|Neth. J. Plant Pathol.77:194-200|1971|10.1007/BF01977278
59673|T||Stachler,J.M., J.J. Kells, and D. Penner|Resistance of Wild Carrot (Daucus carota) to 2,4-D in Michigan|Weed Technol.14:734-739|2000|10.1614/0890-037X(2000)014[0734:ROWCDC]2.0.CO;2
59674|T||Sterling,T.M., N.K. Lownds, and L.W. Murray|Picloram-Resistance and -Susceptible Yellow Starthistle Accessions have Similar Competitive Ability|Weed Sci.49:42-47|2001|10.1614/0043-1745(2001)049[0042:PRASYS]2.0.CO;2
59675|T||Stelmach,Z.|Bromine Retention in Some Soils and Uptake of Bromine by Plants After Soil Fumigation|Soil Sci.88(2): 61-66|1959|10.1097/00010694-195988020-00001
59676|T||Stevenson,F.C., F.A. Holm, and K.J. Kirkland|Optimizing Wild Oat (Avena fatua) Control with ICIA 0604|Weed Technol.14:608-616|2000|10.1614/0890-037X(2000)014[0608:OWOAFC]2.0.CO;2
59677|T||Stewart,R.N.|Effect on Poinsettia Progeny of Applications of 4-Chlorophenoxyacetic Acid to Young Fruit on Parent Plant|Bot. Gaz.123:43-46|1961|10.1086/336127
59678|T||Strahan,R.E., J.L. Griffin, D.L. Jordan, and D.K. Miller|Influence of Adjuvants on Itchgrass (Rottboellia cochinchinensis) Control in Corn (Zea mays) with Nicosulfuron and Primisulfuron|Weed Technol.14:66-71|2000|10.1614/0890-037X(2000)014[0066:IOAOIR]2.0.CO;2
59679|T||Stuart,A.E., C.J.W. Brooks, R.J. Prescott, and A. Blackwell|Repellent and Antifeedant Activity of Salicylic Acid and Related Compounds Against the Biting Midge, Culicoides impunctatus (Diptera:  Ceratopogonidae)|J. Med. Entomol.37(2): 222-227|2000|10.1603/0022-2585-37.2.222
59680|T||Subramanyam,H., and K. Sebastian|Effect of Succinic Acid 2,2-Dimethyl Hydrazide on Carotene Development in `Alphonso' Mango|Hortscience5:160-161|1970|10.21273/HORTSCI.5.3.160
59681|T||Suzuki,T., R. Iwanaga, C. Togo, H. Katsunuma, and S. Suzuki|Distribution of 109CdCl2 in Pregnant Mice fed with the Diet Deficient in Vitamin A and Vitamin D|Ind. Health9:46-50|1971|10.2486/indhealth.9.46
59682|T||Swanton,C.J., A. Shrestha, K. Chandler, and W. Deen|An Economic Assessment of Weed Control Strategies in No-Till Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.14:755-763|2000|10.1614/0890-037X(2000)014[0755:AEAOWC]2.0.CO;2
59685|T||Taylor,M.F.J., D.G. Heckel, T.M. Brown, M.E. Kreitman, and B. Black|Linkage of Pyrethroid Insecticide Resistance to a Sodium Channel Locus in the Tobacco Budworm|Insect Biochem. Mol. Biol.23(7): 763-775|1993|10.1016/0965-1748(93)90064-Y
59686|T||Thalken,C.E., and A.L. Young|Long-Term Field Studies of a Rodent Population Continuously Exposed to TCDD|Environ. Sci. Res.26:357-372|1983|
59687|T||Thakre,S.K., and S.N. Saxena|Effect of Chlorinated Insecticides on Plant Growth and Uptake of Nutrients by Wheat and Maize|J. Indian Soc. Soil Sci.20(1): 45-48|1972|
59688|T||Tharp,B.E., and J.J. Kells|Effect of Soil-Applied Herbicides on Establishment of Cover Crop Species|Weed Technol.14:596-601|2000|10.1614/0890-037X(2000)014[0596:EOSAHO]2.0.CO;2
59689|T||Thompson,C.R., E. Hensel, and G. Kats|Effects of Photochemical Air Pollutants on Zinfandel Grapes|Hortscience4(3): 222-224|1969|10.21273/HORTSCI.4.3.222
59690|T||Thompson,C.R., E.G. Hensel, G. Kats, and O.C. Taylor|Effects of Continuous Exposure of Navel Oranges to Nitrogen Dioxide|Atmos. Environ.4:349-355|1970|10.1016/0004-6981(70)90079-X
59691|T||Thompson,W.M., and S.J. Nissen|Absorption and Fate of Carfentrazone-Ethyl in Zea mays, Glycine max, and Abutilon theophrasti|Weed Sci.48:15-19|2000|10.1614/0043-1745(2000)048[0015:AAFOCE]2.0.CO;2
59692|T||Tietz,H., R.L. Metcalf, and T.R. Fukuto|"Action of the Insecticide ""Gusathion"" on Cotton Plants, and the Problem of Residues in Cottonseed"|Hofchen-Briefe Wissensch. Prax.10:279-289|1952|
59693|T||Tillman,P.G., and J.E. Mulrooney|Effect of Selected Insecticides on the Natural Enemies Coleomegilla maculata and Hippodamia convergens (Coleoptera:  Coccinellidae), Geocoris punctipes (Hemiptera:  Lygaeidae), and Bracon mellitor, Cardiochiles nigricep|J. Econ. Entomol.93(6): 1638-1643|2000|10.1603/0022-0493-93.6.1638
59694|T||Tincker,M.A.H.|Tests Made at Wisley with a Selective Weedkiller Methoxone|J. R. Hortic. Soc.71:141-147|1946|
59695|T||Tingey,D.T., R.A. Reinert, and H.B. Carter|Soybean Cultivars: Acute Foliar Response to Ozone|Crop Sci.12:268-270|1972|10.2135/cropsci1972.0011183X001200030003x
59696|T||Tingey,D.T., W.W. Heck, and R.A. Reinert|Effect of Low Concentrations of Ozone and Sulfur Dioxide on Foliage, Growth and Yield of Radish|J. Am. Soc. Hortic. Sci.96(3): 369-371|1971|10.21273/JASHS.96.3.369
59697|T||Tingey,D.T., R.A. Reinert, J.A. Dunning, and W.W. Heck|Foliar Injury Responses of Eleven Plant Species to Ozone/Sulfur Dioxide Mixtures|Atmos. Environ.7:201-208|1973|10.1016/0004-6981(73)90169-8
59698|T||Tonks,D.J., C.V. Eberlein, and M.J. Guttieri|Preemergence Weed Control in Potato (Solanum tuberosum) with Ethalfluralin|Weed Technol.14:287-292|2000|10.1614/0890-037X(2000)014[0287:PWCIPS]2.0.CO;2
59699|T||Townsend,A.M.|Sorption of Ozone by Nine Shade Tree Species|J. Am. Soc. Hortic. Sci.99(3): 206-208|1974|10.21273/JASHS.99.3.206
59700|T||Trimble,R.M., D.J. Pree, and N.J. Carter|Integrated Control of Oriental Fruit Moth (Lepidoptera:  Tortricidae) in Peach Orchards Using Insecticide and Mating Disruption|J. Econ. Entomol.94(2): 476-485|2001|10.1603/0022-0493-94.2.476
59701|T||Tripathi,B.R., and R.M. Singh|Studies on Boron Toxicity in Gram (Cicer arietinum) and Ground-Nut (Archis hypogaea)|Indian J. Agron.13:211-214|1968|
59702|T||Tschirley,F.H., and H.M. Hull|Susceptibility of Velvet Mequite to an Amine and an Ester of 2,4,5-T as Related to Various Biological and Meteorological Factors|Weeds (Urbana)7:427-435|1959|10.2307/4040463
59704|T||Tworkoski,T.J., W.V. Welker, and G.D. Vass|Weed Community Changes Following Diuron, Simazine, or Terbacil Application|Weed Technol.14:197-203|2000|10.1614/0890-037X(2000)014[0197:WCCFDS]2.0.CO;2
59705|T||Usmani,K.A., and P.W. Shearer|Susceptibility of Male Oriental Fruit Moth (Lepidoptera:  Tortricidae) Populations from new Jersey Apple Orchards to Azinphosmethyl|J. Econ. Entomol.94(1): 233-239|2001|10.1603/0022-0493-94.1.233
59706|A||Norrgren,L., A. Blom, P.L. Andersson, H. Borjeson, D.G.J. Larsson, and P.E. Olsson|Effects of Potential Xenoestrogens (DEHP, Nonylphenol and PCB) on Sexual Differentiation in Juvenile Atlantic Salmon (Salmo salar)|Aquat. Ecosyst. Health Manag.2(3): 311-317|1999|10.1080/14634989908656967
59707|T||VanGessel,M.J., A.O. Ayeni, and B.A. Majek|Optimum Glyphosate Timing with or Without Residual Herbicides in Glyphosate-Resistant Soybean (Glycine max) Under Full-Season Conventional Tillage|Weed Technol.14(1): 140-149|2000|10.1614/0890-037X(2000)014[0140:OGTWOW]2.0.CO;2
59708|T||VanGessel,M.J., D.W. Monks, and Q.R. Johnson|Herbicides for Potential Use in Lima Bean (Phaseolus lunatus) Production|Weed Technol.14:279-286|2000|10.1614/0890-037X(2000)014[0279:HFPUIL]2.0.CO;2
59709|T||Van Wychen,L.R., R.G. Harvey, and J.L. Wedberg|Interactions Among Weed, Insect, and Common Rust Treatments in Sweet Corn|Weed Sci.49:209-216|2001|10.1614/0043-1745(2001)049[0209:IAWIAC]2.0.CO;2
59710|T||Villanueva-Jimenez,J.A., M.A. Hoy, and F.S. Davies|Field Evaluation of Integrated Pest Management-Compatible Pesticides for the Citrus Leafminer Phyllocnistis citrella (Lepidoptera: Gracillariidae) and Its Parasitoid Ageniaspis citricola (Hymenoptera: Encyrtidae)|J. Econ. Entomol.93(2): 357-367|2000|10.1603/0022-0493-93.2.357
59711|T||Visalakshy,P.N.G.|Toxic and Behavioural Effects of Commonly Used Mosquito Larvicides on the Waterhyacinth Weevils, Neochetina eichhornia and N. bruchi|Entomon18(1-2): 11-14|1993|
59712|T||Vodela,J.K., and R.R. Dalvi|Effect of Chlorpyrifos on Hepatic Gamma-Glutamyl Transferase, Serum Cholinesterase and Xenobiotic Metabolizing Enzyme Activities in Rats|Bull. Environ. Contam. Toxicol.59(5): 796-801|1997|10.1007/s001289900551
59713|T||Vogiatzis,A.K., and N.S. Loumbourdis|Uptake, Tissue Distribution, and Depuration of Cadmium (Cd) in the Frog Rana ridibunda|Bull. Environ. Contam. Toxicol.59(5): 770-776|1997|10.1007/s001289900547
59714|T||Volenberg,D.S., D.E. Stoltenberg, and C.M. Boerboom|Solanum ptycanthum Resistance to Acetolactate Synthase Inhibitors|Weed Sci.48:399-401|2000|10.1614/0043-1745(2000)048[0399:SPRTAS]2.0.CO;2
59715|T||Vyas,B.N., and K.B. Mistry|Comparative Uptake and Translocation of Plutonium and Americium in Six Plant Species|J. Nucl. Agric. Biol.12:89-92|1983|
59716|T||Wagner,G.J., T.G. Sutton, and R. Yeargan|Root Control of Leaf Cadmium Accumulation in Tobacco|Tob. Sci.32:88-91|1988|
59717|T||Wahab,M.H.A., E.S.E.M.S. Akoul, and A.A.A.H. Abdel-Aziz|Modulatory Effects of Melatonin and Vitamin E on Doxorubicin-Induced Cardiotoxicity in Ehrlich Ascites Carcinoma-Bearing Mice|Tumori86(2): 157-162|2000|10.1177/030089160008600210
59718|T||Wakiuchi,N., H. Matsumoto, and E. Takahashi|Changes of Some Enzyme Activities of Cucumber During Ammonium Toxicity|Physiol. Plant. (Multiple Languages)24:248-253|1971|
59719|T||Waldstein,D.E., and W.H. Reissig|Synergism of Tebufenozide in Resistant and Susceptible Strains of Obliquebanded Leafroller (Lepidoptera:  Tortricidae) and Resistance to New Insecticides|J. Econ. Entomol.93(6): 1768-1772|2000|10.1603/0022-0493-93.6.1768
59720|T||Wallace,A., and A.M. Abou-Zamzam|Low Levels, but Excesses, of Five Different Trace Elements, Singly and in Combination, on Interactions in Bush Beans Grown in Solution Culture|Soil Sci.147(6): 439-441|1989|10.1097/00010694-198906000-00013
59721|T||Wallace,S.U., S.J. Henning, and I.C. Anderson|Elongation, Al Concentration, and Hematoxylin Staining of Aluminum-Treated Wheat Roots|Iowa State J. Res.57(1): 97-106|1982|
59722|T||Wallihan,E.F., R.G. Sharpless, and W.L. Printy|Cumulative Toxic Effects of Boron, Lithium, and Sodium in Water Used for Hydroponic Production of Tomatoes|J. Am. Soc. Hortic. Sci.103(1): 14-16|1978|10.21273/JASHS.103.1.14
59723|T||Walton,G.S.|Boron Toxicity on Chrysanthemums|Plant Dis. Rep.52(10): 824-|1968|
59724|T||Wang,T.S.C., T.K. Yang, and T.T. Chuang|Soil Phenolic Acids as Plant Growth Inhibitors|Soil Sci.103(4): 239-246|1967|10.1097/00010694-196704000-00003
59725|T||Wang,Y., S. Deshpande, and J.C. Hall|Calcium May Mediate Auxinic Herbicide Resistance in Wild Mustard|Weed Sci.49:2-7|2001|10.1614/0043-1745(2001)049[0002:CMMAHR]2.0.CO;2
59727|T||Washburn,B.E., and T.G. Barnes|Postemergence Tall Fescue (Festuca arundinacea) Control at Different Growth Stages with Glyphosate and AC 263,222|Weed Technol.14(1): 223-230|2000|10.1614/0890-037X(2000)014[0223:PTFFAC]2.0.CO;2
59728|T||Watanabe,H.|Accumulation of Chromium from Fertilizers in Cultivated Soils|Soil Sci. Plant Nutr.30(4): 543-554|1984|10.1080/00380768.1984.10434722
59729|T||Watanabe,T., T. Shimada, and A. Endo|Mutagenic Effects of Cadmium on Mammalian Oocyte Chromosomes|Mutat. Res.67:349-356|1979|10.1016/0165-1218(79)90031-4
59730|T||Webster,E.P., D.R. Shaw, T.A. Baughman, C.E. Snipes, and C.T. Bryson|Influence of Cultivation Timing on Pyrithiobac Performance in Cotton (Gossypium hirsutum)|Weed Technol.14:116-121|2000|10.1614/0890-037X(2000)014[0116:IOCTOP]2.0.CO;2
59731|T||Weigel,H.J., and H.J. Jager|Different Effects of Cadium In Vitro and In Vivo on Enzyme Activities in Bean Plants (Phaseolus vulgaris L.c.v. Sankt Andreas)|Z. Pflanzenphysiol. (Multiple Languages)97:103-113|1980|10.1016/S0044-328X(80)80024-9
59732|T||Weinstein,L.H.|Effects of Atmospheric Fluoride on Metabolic Constituents of Tomato and Bean Leaves|Contrib. Boyce Thompson Inst.21(4): 215-231|1961|
59733|A||Nakamura,M.|Effects of Estradiol-17beta on Gonadal Sex Differentiation in Two Species of Salmonids, the Masu Salmon, Oncorhynchus masou, and the Chum Salmon, O. keta|Aquaculture43(1-2): 83-90|1984|10.1016/0044-8486(84)90012-7
59734|T||Van de Westeringh,C., and H. Veldstra|Researches on Plant Growth Regulators, XXIV.  Structure/Activity, IX.  Tetrazole Derivatives|Rec. Trav. Chim. Pays-Bas77:1107-1113|1958|10.1002/recl.19580771204
59735|T||Wicks,G.A., G.W. Mahnken, and G.E. Hanson|Effect of Herbicides Applied in Winter Wheat (Triticum aestivum) Stubble on Weed Management in Corn (Zea mays)|Weed Technol.14:705-712|2000|10.1614/0890-037X(2000)014[0705:EOHAIW]2.0.CO;2
59736|T||Wilkinson,R.E., and W.S. Handcastle|Plant and Soil Arsenic Analyses|Weed Sci.17(1): 536-537|1969|10.1017/S0043174500054758
59737|T||Williams,B.J., and R.G. Harvey|Effect of Nicosulfuron Timing on Wild-Proso Millet (Panicum miliaceum) Control in Sweet Corn (Zea mays)|Weed Technol.14:377-382|2000|10.1614/0890-037X(2000)014[0377:EONTOW]2.0.CO;2
59738|AT||Wilson,P.C., T. Whitwell, and S.J. Klaine|Phytotoxicity, Uptake, and Distribution of 14C-Simazine in Acorus gramenius and Pontederia cordata|Weed Sci.48:701-709|2000|10.1614/0043-1745(2000)048[0701:PUADOC]2.0.CO;2
59739|T||Wilson,P.C., T. Whitwell, and S.J. Klaine|Metalaxyl Toxicity, Uptake, and Distribution in Several Ornamental Plant Species|J. Environ. Qual.30(2): 411-417|2001|10.2134/jeq2001.302411x
59740|T||Brenchley,W.E.|The Toxic Action of Molybdenum in Relation to Soils and Crops|Ann. Appl. Biol.35(2): 139-160|1948|10.1111/j.1744-7348.1948.tb07358.x
59742|T||Wolf,R., S.A. Clay, and L.J. Wrage|Herbicide Strategies for Managing Kochia (Kochia scoparia) Resistant to ALS-Inhibiting Herbicides in Wheat (Triticum aestivum) and Soybean (Glycine max)|Weed Technol.14:268-273|2000|10.1614/0890-037X(2000)014[0268:HSFMKK]2.0.CO;2
59743|T||Wolf,T.M., S.K. Harrison, F.R. Hall, and J. Cooper|Optimizing Postemergence Herbicide Deposition and Efficacy Through Application Variables in No-Till Systems|Weed Sci.48:761-768|2000|10.1614/0043-1745(2000)048[0761:OPHDAE]2.0.CO;2
59745|T||Womeldorf,D.J., and G.A. Mount|Control of Adult Aedes nigromaculis (Ludlow) with Aerosols of Pyrethrins and Synthetic Pyrethriods - II. Field Evaluations|Proc. Pap. Annu. Conf. Calif. Mosq. Vector Control Assoc.:154-156|1977|
59746|T||Woodbridge,C.G.|The Boron Requirements of Stone Fruit Trees|Can. J. Agric. Sci.35:282-286|1955|
59747|T||Yang,X., D.C. Margolies, K.Y. Zhu, and L.L. Buschman|Host Plant-Induced Changes in Detoxification Enzymes and Susceptibility to Pesticides in the Twospotted Spider Mite (Acari:  Tetranychidae)|J. Econ. Entomol.94(2): 381-387|2001|10.1603/0022-0493-94.2.381
59748|T||Yenish,J.P., and F.L. Young|Effect of Preharvest Glyphosate Application on Seed and Seedling Quality of Spring Wheat (Triticum aestivum)|Weed Technol.14:212-217|2000|10.1614/0890-037X(2000)014[0212:EOPGAO]2.0.CO;2
59749|T||York,D.L., J.L. Cummings, R.M. Engeman, and J.E.,Jr. Davis|Evaluation of Flight Control and Mesurol as Repellents to Reduce Horned Lark (Eremophila alpestris) Damage to Lettuce Seedlings|Crop Prot.19:201-203|2000|10.1016/S0261-2194(00)00011-9
59750|T||Zawierucha,J.E., and D. Penner|Absorption, Translocation, Metabolism, and Spray Retention of Quinclorac in Digitaria sanguinalis and Eleusine indica|Weed Sci.48:296-301|2000|10.1614/0043-1745(2000)048[0296:ATMASR]2.0.CO;2
59751|T||Zenger,J.T., and T.J. Gibb|Impact of Four Insecticides on Japanese Beetle (Coleoptera: Scarabaeidae) Egg Predators and White Grubs in Turfgrass|J. Econ. Entomol.94(1): 145-149|2001|10.1603/0022-0493-94.1.145
59752|T||Zhang,W., E.P. Webster, and M.P. Braverman|Effect of Rotational Crop Herbicides on Water- and Dry-Seeded Oryza sativa|Weed Sci.48:755-760|2000|10.1614/0043-1745(2000)048[0755:EORCHO]2.0.CO;2
59754|T||Zimmerman,P.W., and A.E. Hitchcock|Susceptibility of Plants to Hydrofluoric Acid and Sulfur Dioxide Gases|Contrib. Boyce Thompson Inst.18:263-279|1956|
59755|A||Braunbeck,T., and S. Appelbaum|Ultrastructural Alterations in the Liver and Intestine of Carp Cyprinus carpio Induced Orally by Ultra-Low Doses of Endosulfan|Dis. Aquat. Org.36(3): 183-200|1999|10.3354/dao036183
59757|A||Breinholt,V., D. Arbogast, P. Loveland, C. Pereira, R. Dashwood, J. Hendricks, and G. Bailey|Chlorophyllin Chemoprevention in Trout Initiated by Aflatoxin B1 Bath Treatment: An Evaluation of Reduced Bioavailability vs. Target Organ Protective Mechanisms|Toxicol. Appl. Pharmacol.158(2): 141-151|1999|10.1006/taap.1999.8696
59758|A||Bretaud,S., J.P. Toutant, and P. Saglio|Effects of Carbofuran, Diuron, and Nicosulfuron on Acetylcholinesterase Activity in Goldfish (Carassius auratus)|Ecotoxicol. Environ. Saf.47(2): 117-124|2000|10.1006/eesa.2000.1954
59759|AT||Bridges,C.M.|Predator-Prey Interactions Between Two Amphibian Species:  Effects of Insecticide Exposure|Aquat. Ecol.33:205-211|1999|10.1023/A:1009922825444
59760|A||Bridges,W.R.|Sodium Cyanide as a Fish Poison|Special Scientific Report No.253, U.S. Fish and Wildlife Service:11 p.|1958|
59761|A||Brooke,L.T., D.J. Call, S.H. Poirier, T.P. Markee, C.A. Lindberg, D.J. McCauley, and P.G. Simonson|Acute Toxicity and Chronic Effects of bis(Tri-n-Butyltin) Oxide to Several Species of Freshwater Organisms|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:20 p.|1986|
59762|A||Brooks,A., R.M. White, and D.C. Paton|Effects of Heavy Metals on the Survival of Diacypris compacta (Herbst) (Ostracoda) from the Coorong, South Australia|Int. J. Salt Lake Res.4(2): 133-163|1995|10.1007/BF01990800
59763|A||Brown,M.D., D. Thomas, K. Watson, J.G. Greenwood, and B.H. Kay|Acute Toxicity of Selected Pesticides to the Estuarine Shrimp Leander tenuicornis (Decapoda: Palaemonidae)|Am. Mosq. Control Assoc. J.12(4): 721-724|1996|
59764|A||Brown,M.D., T.M. Watson, S. Green, J.G. Greenwood, D. Purdie, and B.H. Kay|Toxicity of Insecticides for Control of Freshwater Culex annulirostris (Diptera:  Culicidae) to the Nontarget Shrimp, Caradina indistincta (Decapoda:  Atyidae)|J. Econ. Entomol.93(3): 667-672|2000|10.1603/0022-0493-93.3.667
59765|A||Brown,V., S.C. Ducker, and K.S. Rowan|The Effect of Orthophosphate Concentration on the Growth of Articulated Coralline Algae (Rhodophyta)|Phycologia16(2): 125-131|1977|10.2216/i0031-8884-16-2-125.1
59766|A||Bullock,G., V. Blazer, S. Tsukuda, and S. Summerfelt|Toxicity of Acidified Chitosan for Cultured Rainbow Trout (Oncorhynchus mykiss)|Aquaculture185(3-4): 273-280|2000|10.1016/S0044-8486(99)00359-2
59767|A||Burridge,L.E., K. Haya, S.L. Waddy, and J. Wade|The Lethality of Anti-sea Lice Formulations Salmosan (Azamethiphos) and Excis (Cypermethrin) to Stage IV and Adult Lobsters (Homarus americanus) During Repeated Short-Term Exposures|Aquaculture182(1/2): 27-35|2000|10.1016/S0044-8486(99)00251-3
59768|A||Burridge,L.E., K. Haya, F.H. Page, S.L. Waddy, V. Zitko, and J. Wade|The Lethality of the Cypermethrin Formulation Excis to Larval and Post-Larval Stages of the American Lobster (Homarus americanus)|Aquaculture182(1/2): 37-47|2000|10.1016/S0044-8486(99)00252-5
59769|A||Cairns,J.,Jr., and K.L. Dickson|Reduction and Restoration of the Number of Fresh-Water Protozoan Species Following Acute Exposure to Copper and Zinc|Trans. Kans. Acad. Sci.73(1): 1-10|1970|10.2307/3627272
59770|A||Call,D.J., T.P. Markee, D.L. Geiger, L.T. Brooke, F.A. VandeVenter, D.A. Cox, K.I. Genisot, K.A. Robillard, J.W. Gorsuc|An Assessment of the Toxicity of Phthalate Esters to Freshwater Benthos. 1. Aqueous Exposures|Environ. Toxicol. Chem.20(8): 1798-1804|2001|10.1002/etc.5620200825
59771|A||Carpenter,K.E.|Further Researches on the Action of Metallic Salts on Fishes|J. Exp. Zool.56(4): 407-422|1930|10.1002/jez.1400560403
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59773|A||Celius,T., and B.T. Walther|Differential Sensitivity of Zonagenesis and Vitellogenesis in Atlantic Salmon (Salmo salar L) to DDT Pesticides|J. Exp. Zool.281(4): 346-353|1998|10.1002/(SICI)1097-010X(19980701)281:4<346::AID-JEZ9>3.0.CO;2-O
59774|A||Ceron,J.J., E. Sancho, M.D. Ferrando, C. Gutierrez, and E. Andreu|Changes in Carbohydrate Metabolism in the Eel Anguilla anguilla, During Short-Term Exposure to Diazinon|Toxicol. Environ. Chem.60(1-4): 201-210|1997|10.1080/02772249709358464
59775|A||Chao,M.R., and C.Y. Chen|Discrepancies Between Different Response Parameters in Batch and Continuous Algal Toxicity Tests|J. Hazard. Mater.82:129-136|2001|10.1016/S0304-3894(00)00367-8
59777|A||Chelomin,V.P., N.N. Belcheva, and M.V. Zakhartsev|Biochemical Mechanisms of Adaptation to Cadmium and Copper Ions in the Mussel Mytilus trossulus|Russ. J. Mar. Biol.24(5): 330-336|1998|
59778|A||Cheng,S.Y., and J.C. Chen|The Time-Course Change of Nitrogenous Excretion in the Kuruma Shrimp Penaeus japonicus Following Nitrite Exposure|Aquat. Toxicol.51(4): 443-454|2001|10.1016/S0166-445X(00)00122-3
59779|A||Cheng,S.H., P.K. Chan, and R.S.S. Wu|The Use of Microangiography in Detecting Aberrant Vasculature in Zebrafish Embryos Exposed to Cadmium|Aquat. Toxicol.52(1): 61-71|2001|10.1016/S0166-445X(00)00130-2
59780|A||Cheng,S.H., A.W.K. Wai, C.H. So, and R.S.S. Wu|Cellular and Molecular Basis of Cadmium-Induced Deformities in Zebrafish Embryos|Environ. Toxicol. Chem.19(12): 3024-3031|2000|
59781|A||Cheng,T.C.|In Vivo Effects of Heavy Metals on Cellular Defense Mechanisms of Crassostrea virginica:  Phagocytic and Endocytotic Indices|J. Invertebr. Pathol.51(3): 215-220|1988|10.1016/0022-2011(88)90028-6
59782|A||Chi,L.W., and L.R. Winkler|The Effects of Copper Sulfate, Sodium Pentachlorophenate and a Sulfonated Hydrocarbon on the Eggs of Oncomelania|Am. J. Trop. Med. Hyg.11:851-854|1962|10.4269/ajtmh.1962.11.851
59783|A||Chinni,S., and P.R. Yallapragda|Toxicity of Copper, Cadmium, Zinc and Lead to Penaeus indicus Postlarvae:  Effects of Individual Metals|J. Environ. Biol.21(3): 255-258|2000|
59784|A||Chowdhury,M.J., and R. Blust|A Mechanistic Model for the Uptake of Waterborne Strontium in the Common Carp (Cyprinus carpio L.)|Environ. Sci. Technol.35(4): 669-675|2001|10.1021/es000142t
59786|A||Cid,A., E. Torres, C. Herrero, and J.E. Abalde|Disorders Provoked by Copper in the Marine Diatom Phaeodactylum tricornutum in Short-Time Exposure Assays|Cah. Biol. Mar. (Non-English)38(3): 201-206|1997|
59787|A||Cinelli,F., L. Benedetti-Cecchi, E. Franchini, and E. Martellucci|A Preliminary Study of the Effects of Hg, Pb and Cu on the Early Life-History Stages of Callithamnion granulatum (Ducluzeau) C. Agardh (Ceramiales, Rhodophyta)|Atti Soc. Toscana Sci. Nat. P. V. Mem. Ser. B101:35-45|1994|
59789|A||Coello,W.F., and M.A.Q. Khan|Effect of Keratin on Heavy Metal Chelation and Toxicity to Aquatic Organisms|ASTM Spec. Tech. Publ.7:299-311|1998|
59790|A||Coeurdacier,J.L., and G. Dutto|Effect of Chronic Exposure to Ammonia on Alterations of Proteins and Immunoglobulins in Sea Bass (Dicentrarchus labrax) Serum|Aquat. Living Resour.12(4): 247-253|1999|10.1016/S0990-7440(00)86635-8
59791|A||Cohen,A.M., and D. Nugegoda|Toxicity of Three Oil Spill Remediation Techniques to the Australian Bass Macquaria novemaculeata|Ecotoxicol. Environ. Saf.47(2): 178-185|2000|10.1006/eesa.2000.1946
59792|A||Colt,J.E.|The Effects of Ammonia on the Growth of Channel Catfish, Ictalurus punctatus|Ph.D. Thesis, University of California, Davis:185 p.|1978|
59793|A||Connell,L., and R.A. Cattolico|Fragile Algae: Axenic Culture of Field-Collected Samples of Heterosigma carterae|Mar. Biol.125(2): 421-426|1996|10.1007/BF00346322
59794|A||Cook,P.M.|Bioaccumulation of PCBs, PCDDs, and PCDFs|In: J.Vander Wal and P.D.Watts (Eds.), Occasional Pap.No.9, Making a Great Lake Superior, Lakehead Univ.Centre for Northern Studies, Thunder Bay, Ontario:234-248|1990|
59795|A||Cotou,E., I. Castritsi-Catharios, and M. Moraitou-Apostolopoulou|Surfactant-Based Oil Dispersant Toxicity to Developing Nauplii of Artemia:  Effects on ATPase Enzymatic System|Chemosphere42(8): 959-964|2001|10.1016/S0045-6535(00)00108-9
59796|A||Corner,E.D.S., and F.H. Rigler|The Modes of Action of Toxic Agents. III. Mercuric Chloride and N-Amylmercuric Chloride on Crustaceans|J. Mar. Biol. Assoc. U.K.37:85-96|1958|10.1017/S0025315400014843
59797|AT||Cottam,C., and E. Higgins|DDT and Its Effect on Fish and Wildife|J. Econ. Entomol.39(1): 44-52|1946|10.1093/jee/39.1.44
59798|A||Couch,J.A., and L. Courtney|Interaction of Chemical Pollutants and Virus in a Crustacean:  A Novel Bioassay System|Ann. N. Y. Acad. Sci.228:497-504|1977|10.1111/j.1749-6632.1977.tb19285.x
59799|A||Crawford,R.B., and A.M. Guarino|Effects of DDT in Fundulus: Studies on Toxicity, Fate, and Reproduction|Arch. Environ. Contam. Toxicol.4(3): 334-348|1976|10.1007/BF02221032
59800|A||Curtis,T.M., R. Williamson, and M.H. Depledge|The Initial Mode of Action of Copper on the Cardiac Physiology of the Blue Mussel, Mytilus edulis|Aquat. Toxicol.52(1): 29-38|2001|10.1016/S0166-445X(00)00135-1
59801|T||Smith,R.J.,Jr.|3,4-Dichlorpropionanilide for Control of Barnyardgrass in Rice|Weeds (Urbana)9:318-322|1961|10.2307/4040422
59802|A||D'Andrea,A.F., S.E. Stancyk, and G.T. Chandler|Sublethal Effects of Cadmium on Arm Regeneration in the Burrowing Brittlestar, Microphiopholis gracillima|Ecotoxicology5(2): 115-133|1996|10.1007/BF00119050
59803|A||Dabrowska,H., S.W. Fisher, R. Ciereszko, K. Dabrowski, B.R. Woodin, and J.J. Stegeman|Hepatic P4501A Activity, Plasma Sex Steroids, and Gonadal Steroidogenesis In Vitro in Yellow Perch Exposed to 3,3',4,4',5-Pentachlorobiphenyl|Environ. Toxicol. Chem.19(12): 3052-3060|2000|
59805|A||Dawson,D.A., M.A. Cotter, D.L. Policz, D.A. Stoffer, J.P. Nichols, and G. Poch|Comparative Evaluation of the Combined Osteolathyritic Effects of Two Nitrile Combinations on Xenopus Embryos|Toxicology147(3): 193-207|2000|10.1016/S0300-483X(00)00196-7
59806|A||De Britto,A.J.|Effect of Butachlor on Azolla microphylla and Azolla filiculoides|J. Ecotoxicol. Environ. Monit.7(3): 215-217|1997|
59807|A||De Coen,W.M., and C.R. Janssen|The Use of Biomarkers in Daphnia magna Toxicity Testing.  I.  The Digestive Physiology of Daphnids Exposed to Toxic Stress|Hydrobiologia (Multiple Languages)367(1-3): 199-209|1998|10.1023/A:1003240502946
59808|A||De Filippis,L.F., and C.K. Pallaghy|The Effect of Sub-Lethal Concentrations of Mercury and Zinc on Chlorella. III. Development and Possible Mechanisms of Resistance to Metals|Z. Pflanzenphysiol. (Multiple Languages)79(4): 323-335|1976|10.1016/S0044-328X(76)80035-9
59809|A||Degitz,S.J., P.A. Kosian, E.A. Makynen, K.M. Jensen, and G.T. Ankley|Stage- and Species-Specific Developmental Toxicity of All-Trans Retinoic Acid in Four Native North American Ranids and Xenopus laevis|Toxicol. Sci.57:264-274|2000|10.1093/toxsci/57.2.264
59811|A||DellaGreca,M., A. Fiorentino, M. Isidori, and A. Zarrelli|Toxicity Evaluation of Natural and Synthetic Phenanthrenes in Aquatic Systems|Environ. Toxicol. Chem.20(8): 1824-1830|2001|10.1002/etc.5620200828
59813|A||Deshmukh,M., and V.S. Lomte|Impact of Copper Sulphate on Lipid Metabolism of the Fresh Water Bivalve, Parresia corrugata|J. Ecotoxicol. Environ. Monit.8(1): 65-69|1998|
59814|A||De Silva,S.S., D.F. Deng, and V. Rajendram|Digestibility in Goldfish Fed Diets with and Without Chromic Oxide and Exposed to Sublethal Concentrations of Cadmium|Aquac. Nutr.3(2): 109-114|1997|10.1046/j.1365-2095.1997.00079.x
59815|A||Dhawan,A., and K. Kaur|Effect of Zinc on Maturation and Breeding Potential of Cyprinus carpio and Cirrhina mrigala|Int. J. Environ. Stud.53(4): 265-274|1997|10.1080/00207239708711130
59816|T||Dhawan,R., D.B. Dusenbery, and P.L. Williams|Comparison of Lethality, Reproduction, and Behavior as Toxicological Endpoints in the Nematode Caenorhabditis elegans|J. Toxicol. Environ. Health Part A58(7): 451-462|1999|10.1080/009841099157179
59817|T||Dhawan,R., D.B. Dusenbery, and P.L. Williams|A Comparison of Metal-Induced Lethality and Behavioral Responses in the Nematode Caenorhabditis elegans|Environ. Toxicol. Chem.19(12): 3061-3067|2000|
59818|AT||Diana,S.G., W.J.,Jr. Resetarits, D.J. Schaeffer, K.B. Beckmen, and V.R. Beasley|Effects of Atrazine on Amphibian Growth and Survival in Artificial Aquatic Communities|Environ. Toxicol. Chem.19(12): 2961-2967|2000|10.1002/etc.5620191217
59819|A||Dias,E., and M.M. Dawood|"Preliminary Trials of ""B E T"" on Killing the Snails of Egypt"|J. Egypt. Publ. Health Assoc.30(1): 9-15|1955|
59820|A||Dietrich,D., C. Schlatter, N. Blau, and M. Fischer|Aluminium and Acid Rain:  Mitigating Effects of NaCl on Aluminium Toxicity to Brown Trout (Salmo trutta fario) in Acid Water|Toxicol. Environ. Chem.19:17-23|1989|10.1080/02772248909357327
59821|A||Dilling,W.J., C.W. Healey, and W.C. Smith|Experiments on the Effects of Lead on the Growth of Plaice (Pleuronectes platessa)|Ann. Appl. Biol.13:168-176|1926|10.1111/j.1744-7348.1926.tb04261.x
59822|A||Di Marzio,W.D., J.L. Alberdi, M.E. Saenz, and M.C. Tortorelli|Effects of Paraquat (Osaquat Formulation) on Survival and Total Cholinesterase Activity in Male and Female Adults of Cnesterodon decemmaculatus (Pisces, Poeciliidae)|Environ. Toxicol. Water Qual.13(1): 55-59|1998|10.1002/(SICI)1098-2256(1998)13:1<55::AID-TOX3>3.0.CO;2-6
59823|A||Ding,J., C.D. Drewes, and W.H. Hsu|Behavioral Effects of Ivermectin in a Freshwater Oligochaete, Lumbriculus variegatus|Environ. Toxicol. Chem.20(7): 1584-1590|2001|10.1002/etc.5620200724
59824|A||Dobrovolny,C.G., and J.E.,Jr. Dobrin|Initial Field Trials with Some Molluscacides in Brazil|Rev. Bras. Malariol. Doencas Trop. Publ. Avulsas19:3-19|1955|
59825|A||Doi,A.M., Z. Lou, E. Holmes, C.L.J. Li, C.S. Venugopal, M.O. James, and K.M. Kleinow|Effect of Micelle Fatty Acid Composition and 3,4,3',4'-Tetrachlorobiphenyl (TCB) Exposure on Intestinal [14C]-TCB Bioavailability and Biotransformation in Channel Catfish In Situ Preparations|Toxicol. Sci.55:85-96|2000|10.1093/toxsci/55.1.85
59828|A||Durkina,V.B.|Morphofunctional Changes in Development of Sea Urchin Offspring as a Result of Adult Exposure to Copper and Zinc|Russ. J. Mar. Biol.21(6): 351-355|1995|
59829|A||Dutta,T.K., and A. Kaviraj|Acute Toxicity of Cadmium to Fish Labeo rohita and Copepod Diaptomus forbesi Pre-Exposed to CaO and KMnO4|Chemosphere42(8): 955-958|2001|10.1016/S0045-6535(00)00166-1
59830|A||Eapen,J.T.|An Electronic Device to Record Behavioural Activity of Bivalves|Indian J. Exp. Biol.35(6): 663-664|1997|
59831|A||Egami,N., Y. Kyono-Hamaguchi, H. Mitani, and A. Shima|Characteristics of Hepatoma Produced by Treatment with Diethylnitrosamine in the Fish, Oryzias latipes|In: C.J.Dawe, J.C.Harshbarger, S.Kondo, T.Sugimura, and S.Takayama (Eds.), Phyletic Approaches to Cancer, Japanese Sci.Soc.Press, Tokyo:217-226|1981|
59832|A||Palace,V.P., K. Wautier, R.E. Evans, C.L. Baron, J. Werner, C. Ranson, J.F. Klaverkamp, and K. Kidd|Effects of 17-beta Estradiol Exposure on Metallothionein and Fat Soluble Antioxidant Vitamins in Juvenile Lake Trout (Salvelinus namaycush)|Bull. Environ. Contam. Toxicol.66(5): 591-596|2001|
59833|A||El-Gendy,K.S., N.M. Aly, and A.H. El-Sebae|Effects of Edifenphos and Glyphosate on the Immune Response and Protein Biosynthesis of Bolti Fish (Tilapia nilotica)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(2): 135-149|1998|
59834|A||El-Gindy,M.S.|Field Studies on the Action of Copper Sulphate as a Molluscocide for Control of the Snail Vectors of Schistosomiasis in Egypt|J. Egypt. Med. Assoc.40:111-121|1957|
59835|A||El-Gindy,M.S.|Laboratory Studies on the Effect of Copper Sulphate on Biomphalaria boissyi, the Snail Vector of Mansoni schistosomiasis in Egypt|J. Egypt. Med. Assoc.40:45-53|1957|
59836|A||El-Nady,F.E., and M.M. Atta|Toxicity and Bioaccumulation of Heavy Metals to Some Marine Biota from the Egyptian Coastal Waters|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control31(7): 1529-1545|1996|
59837|A||Elumalai,M., E.F. Rani, and M.P. Balasubramanian|Effect of Naphthalene on Phosphatases and Esterase in Muscle and Testes of Male Scylla serrata|Biomed. Lett.54(213): 39-43|1996|
59839|A||Etges,F.J.|Effects of Some Molluscicidal Chemicals on Chemokinesis in Australorbis glabratus|Am. J. Trop. Med. Hyg.12:701-704|1963|10.4269/ajtmh.1963.12.701
59840|A||Etges,F.J.|Experimental Studies on Chemoreception and Klinokinetic Responses of Australorbis, Bulinus, and Helisoma to Chemical Stimulation|Am. J. Trop. Med. Hyg.12:686-695|1963|10.4269/ajtmh.1963.12.686
59841|A||Etges,F.J., and D.E. Gilbertson|Repellent Action of Some Chemical Molluscicides on Schistosome Vector Snails|Am. J. Trop. Med. Hyg.15(4): 618-624|1966|10.4269/ajtmh.1966.15.618
59843|A||Fargasova,A.|Winter Third- to Fourth-Instar Larvae of Chironomus plumosus as Bioassay Tools for Assessment of Acute Toxicity of Metals and Their Binary Combinations|Ecotoxicol. Environ. Saf.48(1): 1-5|2001|10.1006/eesa.2000.1980
59844|A||Farringer,J.E.|The Determination of the Acute Toxicity of Rotenone and Bayer 73 to Selected Aquatic Organisms|M.S.Thesis, University of Wisconsin, LaCrosse, WI:32 p.|1972|
59845|A||Fehn,C.F., G.T. Carmichael, C.M.,Jr. Elmore, and J.W. Taylor|Operational Experiences with Paris Green Pellets in Mosquito Control|Mosq. News19(4): 238-243|1959|
59846|A||Feldhaus,J.M., A.J. Feldhaus, L.N. Ace, and C.N. Pope|Interactive Effects of Pesticide Mixtures on the Neurobehavioral Responses and AChE Levels of Planaria|ASTM Spec. Tech. Publ.7:140-150|1998|
59848|A||Feroz,M., and M.A.Q. Khan|Metabolism, Tissue Distribution, and Elimination of cis-(14C) Chlordane in the Tropical Freshwater Fish Cichlasoma sp.|J. Agric. Food Chem.27(6): 1190-1197|1979|10.1021/jf60226a010
59849|A||Fisher,N.S., G.J. Jones, and D.M. Nelson|Effects of Copper and Zinc on Growth, Morphology, and Metabolism of Asterionella japonica (Cleve)|J. Exp. Mar. Biol. Ecol.51:37-56|1981|10.1016/0022-0981(81)90153-2
59850|A||Folmar,L.C., G.R. Gardner, M.P. Schreibman, L. Magliulo-Cepriano, L.J. Mills, G. Zaroogian, R. Gutjahr-Gobell, R. Haebl|Vitellogenin-Induced Pathology in Male Summer Flounder (Paralichthys dentatus)|Aquat. Toxicol.51(4): 431-441|2001|10.1016/S0166-445X(00)00121-1
59851|A||Fossi,M.C., S. Casini, C. Savelli, L. Lari, I. Corsi, J.C. Sanchez-Hernandez, N. Mattei, E. Franchi, M. Depledge, and S|Multi-Trial Biomarker Approach Using Carcinus aestuarii to Evaluate Toxicological Risk due to Mediterranean Contaminants: Field and Experimental Studies|Fresenius Environ. Bull.5(11-12): 706-711|1996|
59852|A||Foster,H.S., and W. Plant|Effect of Copper Sulphate on Aquatic Weeds|Proc. Br. Weed Control Conf.2:787-791|1956|
59853|A||Fournier,M., J. Pellerin, Y. Clermont, Y. Morin, and P. Brousseau|Effects of In Vivo Exposure of Mya arenaria to Organic and Inorganic Mercury on Phagocytic Activity of Hemocytes|Toxicology161:201-211|2001|10.1016/S0300-483X(00)00387-5
59854|A||Fox,I., L.S. Ritchie, and L.P. Frick|Effect of pH on Molluscicidal Activity of Bayer 73 vs. Australorbis glabratus of Puerto Rico Under Laboratory Conditions|Exp. Parasitol.13:167-172|1963|10.1016/0014-4894(63)90066-3
59855|A||Freeman,M.N., T.J. Marse, and P.L. Williams|Establishment of Quality Assurance Procedures for Aquatic Toxicity Testing with the Nematode Caenorhabditis elegans|ASTM Spec. Tech. Publ.7:45-59|1998|
59856|A||Fries,L., and H. Iwasaki|p-Hydroxyphenylacetic Acid and Other Phenolic Compounds as Growth Stimulators of the Red Alga Porphyra tenera|Plant Sci. Lett.6:299-307|1976|10.1016/0304-4211(76)90099-7
59857|A||Fuma,S., H. Takeda, K. Miyamoto, K. Yanagisawa, Y. Inoue, N. Ishii, K. Sugai, C. Ishii, and Z. Kawabata|Simple Aquatic Microcosm for Ecotoxicity Screening at the Community Level|Bull. Environ. Contam. Toxicol.65(6): 699-706|2000|10.1007/s0012800180
59858|A||Garg,P., R.D. Tripathi, U.N. Rai, S. Sinha, and P. Chandra|Cadmium Accumulation and Toxicity in Submerged Plant Hydrilla verticillata (L.F.) Royle|Environ. Monit. Assess.47(2): 167-173|1997|10.1023/A:1005771301076
59859|A||George,K.C., A.K. Pandey, and M.P. Mohamed|Mercury Chloride Induced Renal Lesions in the Mullet Liza parsia (Hamilton-Buchanan)|J. Mar. Biol. Assoc. India37(1/2): 179-184|1995|
59860|A||Giamberini,L., and J.C. Pihan|Lysosomal Changes in the Hemocytes of the Freshwater Mussel Dreissena polymorpha Experimentally Exposed to Lead and Zinc|Dis. Aquat. Org.28(3): 221-227|1997|10.3354/dao028221
59861|A||Giamberini,L., and J.C. Pihan|The Pericardial Glands of the Zebra Mussel: Ultrastructure and Implication in Lead Detoxication Process|Biol. Cell. (Paris)86(1): 59-65|1996|
59862|A||Gibaldi,M., and C.H. Nightingale|Use of the Overturn End Point for the Estimation of Absorption and Elimination Kinetics in Goldfish|J. Pharm. Sci.57(2): 226-230|1968|10.1002/jps.2600570203
59863|A||Goldberg,E.D.|Iron Assimilation by Marine Diatoms|Biol. Bull.102:243-248|1952|10.2307/1538372
59864|A||Gorbi,G., M.G. Corradi, M. Invidia, and M. Bassi|Light Intensity Influences Chromium Bioaccumulation and Toxicity in Scenedesmus acutus (Chlorophyceae)|Ecotoxicol. Environ. Saf.48(1): 36-42|2001|10.1006/eesa.2000.2000
59865|A||Gordon,W.R., S.S. Schwemmer, and W.S. Hillman|Nickel and the Metabolism of Urea by Lemna paucicostata Hegelm. 6746|Planta (Multiple Languages)140:265-268|1978|10.1007/BF00390258
59866|A||Gormly,N.M., S. Singer, and F.J. Genthner|Nontarget Testing of Microbial Pest Control Agents Using Larvae of the Coot Clam Mulinia lateralis|Dis. Aquat. Org.26(3): 229-235|1996|10.3354/dao026229
59868|A||Gowrinathan,K.P., and V.N.R. Rao|Cd Toxicity in Nitzschia obtusa Wm. Sm., A Pennate Diatom|Seaweed Res. Util.18(1/2): 35-45|1996|
59869|A||Gray,B.R., W.R. Hill, and A.J. Stewart|Effects of Development Time, Biomass and Ferromanganese Oxides on Nickel Sorption by Stream Periphyton|Environ. Pollut.112(1): 61-71|2001|10.1016/S0269-7491(00)00095-6
59870|A||Greenfield,S.S.|Inhibitory Effects of Inorganic Compounds on Photosynthesis in Chlorella|Am. J. Bot.29:121-131|1942|10.1002/j.1537-2197.1942.tb13979.x
59872|A||Guadagnolo,C.M., C.J. Brauner, and C.M. Wood|Chronic Effects of Silver Exposure on Ion Levels, Survival, and Silver Distribution Within Developing Rainbow Trout (Oncorhynchus mykiss) Embryos|Environ. Toxicol. Chem.20(3): 553-560|2001|10.1002/etc.5620200314
59873|A||Guanzon,N.G.,Jr., M. Fukuda, and H. Nakahara|Accumulation of Agricultural Pesticides by Three Freshwater Microalgae|Fish. Sci.62(5): 690-697|1996|10.2331/fishsci.62.690
59874|A||Guasch,H., and S. Sabater|Light History Influences the Sensitivity to Atrazine in Periphytic Algae|J. Phycol.34(2): 233-241|1998|10.1046/j.1529-8817.1998.340233.x
59875|A||Guilizzoni,P., M.S. Adams, and N. MacGaffey|The Effect of Chromium on Growth and Photosynthesis of a Submersed Macrophyte, Myriophyllum spicatum|In: L.Rasmussen (Ed.), Ecol.Bull.No.36, Ecotoxicology, Proc.3rd Oikos Conf.held Nov.30-Dec.2, 1982, Copenhagen, Denmark, Publ.House of the Swedish, Stockholm, Sweden:90-96|1984|
59876|A||Gupta,P., S.S. Chaurasia, A. Kar, and P.K. Maiti|Influence of Cadmium on Thyroid Hormone Concentrations and Lipid Peroxidation in a Fresh Water Fish, Clarias batrachus|Fresenius Environ. Bull.6(7-8): 355-358|1997|
59877|A||Hagopian-Schlekat,T., G.T. Chandler, and T.J. Shaw|Acute Toxicity of Five Sediment-Associated Metals, Individually and in a Mixture, to the Estuarine Meiobenthic Harpacticoid Copepod Amphiascus tenuiremis|Mar. Environ. Res.51(3): 247-264|2001|10.1016/S0141-1136(00)00102-1
59878|A||Hamilton,H.L.|The Biological Action of Rotenone on Fresh-Water Animals|Proc. Iowa Acad. Sci.48:467-479|1941|
59879|A||Hamm,J.T., B.W. Wilson, and D.E. Hinton|Organophosphate-Induced Acetylcholinesterase Inhibition and Embryonic Retinal Cell Necrosis In Vivo in the Teleost (Oryzias latipes)|Neurotoxicology19(6): 853-869|1998|
59880|AT||Hammel,W., L. Steubing, and R. Debus|Assessment of the Ecotoxic Potential of Soil Contaminants by Using a Soil-Algae Test|Ecotoxicol. Environ. Saf.40(1-2): 173-176|1998|10.1006/eesa.1998.1659
59881|A||Hampson,M.A.|Uptake of Radioactivity by Aquatic Plants and Location in the Cells.  II.  Uptake of Cerium-144 by the Freshwater Plant Nitella opaca|J. Exp. Bot.18(54): 34-53|1967|10.1093/jxb/18.1.34
59882|A||Hanawa,M., L. Harris, M. Graham, A.P. Farrell, and L.I. Bendell-Young|Effects of Cyanide Exposure on Dascyllus aruanus, a Tropical Marine Fish Species: Lethality, Anaesthesia and Physiological Effects|Aquar. Sci. Conserv.2(1): 21-34|1998|10.1023/A:1009672626012
59883|A||Hand,L.H., S.F. Kuet, M.C.G. Lane, S.J. Maund, J.S. Warinton, and I.R. Hill|Influences of Aquatic Plants on the Fate of the Pyrethroid Insecticide lambda-Cyhalothrin in Aquatic Environments|Environ. Toxicol. Chem.20(8): 1740-1745|2001|
59884|A||Harding,J.P.C., and B.A. Whitton|Resistance to Zinc of Stigeoclonium tenue in the Field and the Laboratory|Br. Phycol. J.11(4): 417-426|1976|10.1080/00071617600650471
59885|A||Harding,J.P.C., and B.A. Whitton|Environmental Factors Reducing the Toxicity of Zinc to Stigeoclonium tenue|Br. Phycol. J.12(1): 17-21|1977|10.1080/00071617700650041
59887|A||Hare,L., A. Tessier, and L. Warren|Cadmium Accumulation by Invertebrates Living at the Sediment-Water Interface|Environ. Toxicol. Chem.20(4): 880-889|2001|10.1002/etc.5620200424
59888|A||Harpaz,S., K. Becker, and R. Blum|The Effect of Dietary L-Carnitine Supplementation on Cold Tolerance and Growth of the Ornamental Cichlid Fish Pelvicachromis pulcher - Preliminary Results|J. Therm. Biol.24:57-62|1999|10.1016/S0306-4565(98)00038-2
59889|A||Harrelson,R.A., J.H.,Jr. Rodgers, R.E.,Jr. Lizotte, and P.B. Dorn|Responses of Fish Exposed to a C9-11 Linear Alcohol Ethoxylate Nonionic Surfactant In Stream Mesocosms|Ecotoxicology6(6): 321-333|1997|10.1023/A:1018643214727
59890|A||Harries,J.E., T. Runnalls, E. Hill, C.A. Harris, S. Maddix, J.P. Sumpter, and C.R. Tyler|Development of a Reproductive Performance Test for Endocrine Disrupting Chemicals Using Pair-Breeding Fathead Minnows (Pimephales promelas)|Environ. Sci. Technol.34(14): 3003-3011|2000|10.1021/es991292a
59891|A||Harvey,J.S., and J.M. Parry|The Detection of Genotoxin-Induced DNA Adducts in the Common Mussel Mytilus edulis|Mutagenesis12(3): 153-158|1997|10.1093/mutage/12.3.153
59893|A||Hemalatha,S., and T.K. Banerjee|Estimation of Sublethal Toxicity of Zinc Chloride by Histopathological Analysis of Fish (Heteropneustes fossilis, Bloch) Epidermis|Curr. Sci. (Bangalore)73(7): 614-621|1997|
59894|A||Hendricks,J.D.|The Use of Rainbow Trout (Salmo gairdneri) in Carcinogen Bioassay, with Special Emphasis on Embryonic Exposure|In: C.J.Dawe, J.C.Harshbarger, S.Kondo, T.Sugimura, and S.Takayama (Eds.), Proc.11th Int.Symp.on Phyletic Approaches to Cancer, Japanese Sci.Soc.Press, Tokyo:227-240|1981|
59895|A||Henriksson,L.E., and E.J. DaSilva|Effects of Some Inorganic Elements on Nitrogen-Fixation in Blue-Green Algae and Some Ecological Aspects of Pollution|Z. Allg. Mikrobiol.18(7): 487-494|1978|
59896|AT||Hlywka,J.J., M.M. Beck, and L.B. Bullerman|The Use of the Chicken Embryo Screening Test and Brine Shrimp (Artemia salina) Bioassay to Assess the Toxicity of Fumonisin B1 Mycotoxin|Food Chem. Toxicol.35:991-999|1997|10.1016/S0278-6915(97)87268-7
59897|A||Hoarau,P., M. Gnassia-Barelli, M. Romeo, and J.P. Girard|Differential Induction of Glutathione S-Transferases in the Clam Ruditapes decussatus Exposed to Organic Compounds|Environ. Toxicol. Chem.20(3): 523-529|2001|
59898|A||Hofner,W., M.I. Naguib, I.A. Kobbia, Zeinab, and K. Ibrahim|Use of Laboratory Cultures of Some Algae to Predict Heavy Metal Toxicity.  I.  The Role of Some Heavy Metals in the Growth, Pigmentation, Carbohydrate and Protein Synthesis in Chlorella fusca and Spirulina maxima|Egypt. J. Microbiol.22(2): 213-226|1987|
59899|T||Hood,T.E., E.J. Calabrese, and B.M. Zuckerman|Detection of an Estrogen Receptor in Two Nematode Species and Inhibition of Binding and Development by Environmental Chemicals|Ecotoxicol. Environ. Saf.47(1): 74-81|2000|10.1006/eesa.2000.1917
59900|A||Hook,S.E., and N.S. Fisher|Sublethal Effects of Silver in Zooplankton:  Importance of Exposure Pathways and Implications for Toxicity Testing|Environ. Toxicol. Chem.20(3): 568-574|2001|10.1002/etc.5620200316
59901|A||Hong,A., W. Li, and M. Wang|Tracing Technique of Stable 15N Isotope: An Application in Study of Mariculture|Acta Oceanol. Sin.14(1): 39-45|1995|
59902|A||Horikoshi,T., A. Nakajima, and T. Sakaguchi|Uptake of Uranium by Chlorella regularis|Agric. Biol. Chem.43(3): 617-623|1979|
59903|A||Hose,J.E., L.A. Barlow, S. Bent, A.A. Elseewi, M. Cliath, M. Resketo, and C. Doyle|Evaluation of the Acute Bioassays for Assessing Toxicity of Polychlorinated Biphenyl-Contaminated Soils|Regul. Toxicol. Pharmacol.6(1): 11-23|1986|10.1016/0273-2300(86)90036-X
59904|A||Howard,T.E., H.N. Halvorson, and C.C. Walden|Toxicity of Copper Compounds to the Snail Vector Hosts of the Agent of Schistosoma Dermatitis, in Waters of Differing Hardness|Am. J. Hyg.80:33-44|1964|
59906|A||Hwang,Y.S., and M.S. Mulla|Overcrowding Factors of Mosquito Larvae. IX. 2-Bromoalkanoic Acids and Their Methyl Esters as Mosquito Larvicides|Mosq. News36(3): 238-241|1976|
59907|A||Inbamani,N., and R. Seenivasan|Effect Phosphamidon Toxicity and Pesticidal Histopathology of the Fish Sarotherodon mossambica|J. Ecotoxicol. Environ. Monit.8(2): 85-95|1998|
59908|A||Iqbal,M.J., S.S. Ali, and A.R. Shakoori|Toxicity of Lead in Freshwater Fish, Cirrhina mrigala: Haematological Changes|J. Ecotoxicol. Environ. Monit.7(2): 139-143|1997|
59909|A||Iwasaki,I., N. Kurano, and S. Miyachi|Effects of High-CO2 Stress on Photosystem II in a Green Alga, Chlorococcum littorale, Which has a Tolerance to high CO2|J. Photochem. Photobiol. B Biol.36(3): 327-332|1996|10.1016/S1011-1344(96)07385-X
59910|A||Jacobson,S.V., and R. Reimschuessel|Modulation of Superoxide Production in Goldfish (Carassius auratus) Exposed to and Recovering from Sublethal Copper Levels|Fish Shellfish Immunol.8(4): 245-259|1998|10.1006/fsim.1997.0131
59911|A||Jahn,A., I. Gamenick, and H. Theede|Physiological Adaptations of Cyprideis Torosa (Crustacea, Ostracoda) to Hydrogen Sulphide|Mar. Ecol. Prog. Ser.142(1-3): 215-223|1996|10.3354/meps142215
59912|A||James,R., K. Sampath, G. Devakiamma, and V.J. Pattu|Recovery of Dehydrogenase Enzymes Activities in Heteropneustes fossilis (Bloch) Exposed to Sublethal Levels of Mercury|Indian J. Fish.43(3): 293-297|1996|
59913|A||Jarvenpaa,T., M. Tillander, and J.K. Miettinen|Methylmercury: Half-Time of Elimination in Flounder, Pike and Eel|FAO Technical Conference on Marine Pollution and Its Effects on Living Resources and Fishing, Rome, Italy:223-248|1970|
59914|A||El Jay,A., J.M. Ducruet, J.C. Duval, and J.P. Pelletier|A High-Sensitivity Chlorophyll Fluorescence Assay for Monitoring Herbicide Inhibition of Photosystem II in the Chlorophyte Selenastrum capricornutum: Comparison with Effect on Cell Growth|Arch. Hydrobiol.140(2): 273-286|1997|10.1127/archiv-hydrobiol/140/1997/273
59915|A||Jayasree,K.G., T.G. Devi, G.S. Ammal, V. Sobha, and T.V. Nayar|Studies on the Amylase Activity in Some Fresh Water and Marine Algae|Seaweed Res. Util.13(1/2): 1-7|1996|
59916|A||Jensen,F.B., and H. Malte|Acid-Base and Electrolyte Regulation, and Haemolymph Gas Transport in Crayfish, Astacus astacus, Exposed to Soft, Acid Water with and Without Aluminium|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.160:483-490|1990|
59919|A||Johnston,A.M., and J.A. Raven|Inorganic Carbon Accumulation by the Marine Diatom Phaeodactylum tricornutum|Eur. J. Phycol.31(3): 285-290|1996|10.1080/09670269600651491
59920|A||Joux-Arab,L., B. Berthet, and J.M. Robert|Do Toxicity and Accumulation of Copper Change During Size Reduction in the Marine Pennate Diatom Haslea ostrearia?|Mar. Biol.136(2): 323-330|2000|10.1007/s002270050690
59922|A||Jyothi,B., and G. Narayan|Certain Pesticide-Induced Carbohydrate Metabolic Disorders in the Serum of Freshwater Fish Clarias batrachus (Linn.)|Food Chem. Toxicol.37:417-421|1999|10.1016/S0278-6915(99)00020-4
59923|A||Kaewsarn,P., and Q. Yu|Cadmium(II) Removal from Aqueous Solutions by Pre-Treated Biomass of Marine Alga Padina sp.|Environ. Pollut.112(2): 209-213|2001|10.1016/S0269-7491(00)00114-7
59924|A||Kalafatic,M., and N. Kopjar|Response of Green Hydra to the Treatment with Different Pesticides Under Laboratory Conditions|Z. Angew. Zool. (Multiple Languages)80(2): 213-223|1994|
59925|A||Kanazawa,J.|Prediction of Biological Concentration Potential of Pesticides in Aquatic Organisms|Rev. Plant Prot. Res.13:27-36|1980|
59928|A||Kast-Hutcheson,K., C.V. Rider, and G.A. LeBlanc|The Fungicide Propiconazole Interferes with Embryonic Development of the Crustacean Daphnia magna|Environ. Toxicol. Chem.20(3): 502-509|2001|10.1002/etc.5620200308
59929|A||Kasumyan,A.O., and A.M.H. Morsi|Effect of Heavy Metals on the Feeding Activity and Taste Behavior Responses of Carp Cyprinus carpio: 1. Copper, Cadmium, Zinc, and Lead|J. Ichthyol.38(5): 393-409|1998|
59930|A||Kater,B.J., A. Hannewijk, J.F. Postma, and M. Dubbeldam|Seasonal Changes in Acute Toxicity of Cadmium to Amphipod Corophium volutator|Environ. Toxicol. Chem.19(12): 3032-3035|2000|10.1002/etc.5620191224
59931|A||Katiyar,S.K.|Effects of Zinc on Freshwater Microbial Communities of River Yamuna Around Delhi|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.67(1): 67-72|1997|
59932|A||Kaur,H., and H.S. Toor|Histopathological Changes in the Liver of Fingerlings of Indian Major Carp, Cirrhina mrigala (Hamilton) Exposed to Some Biocides|Indian J. Ecol.24(2): 193-195|1997|
59933|A||Kaviraj,A., and T.K. Ghosal|Partitioning and Bioaccumulation of Cadmium from the Sediment of Brackishwater Ponds in Sundarban, India|Asian Fish. Sci.9(4): 269-274|1997|10.33997/j.afs.1997.9.4.004
59934|A||Kaviraj,A., and T.K. Ghosal|Effects of Compost Manure on the Body Burden of Cadmium and Growth of Common Carp, Cyprinus carpio (L.)|Aquac. Res.29(8): 555-561|1998|10.1111/j.1365-2109.1998.tb01167.x
59935|A||Kelley,C., R.E. Mielke, D. Dimaquibo, A.J. Curtis, and J.G. Dewitt|Adsorption of Eu(III) onto Roots of Water Hyacinth|Environ. Sci. Technol.33(9): 1439-1443|1999|10.1021/es9807789
59936|A||Keppler,C.J., and A.H. Ringwood|Expression of P-Glycoprotein in Southeastern Oysters, Crassostrea virginica|Mar. Environ. Res.52:81-96|2001|10.1016/S0141-1136(00)00263-4
59937|A||Khristoforova,N.K., N.A. Aizdaicher, O.Y. Berezovskaya, and M.J.,Jr. Westfall|The Effect of Copper Ions and a Detergent on Green Microalgae Dunaliella tertiolecta and Platymonas sp.|Russ. J. Mar. Biol.22(2): 109-114|1996|
59938|A||Kiburg,B., C.M. Moorer van Delft, J.J. Heimans, P.C. Huijgens, and H.H. Boer|In Vivo Modulation of Vincristine-Induced Neurotoxicity in Lymnaea stagnalis, by the ACTH(4-9) Analogue Org 2766|J. Neuro-Oncol.30(3): 173-180|1996|10.1007/BF00177268
59939|A||Kim,W.S., J.K. Jeon, S.H. Lee, and H.T. Huh|Effects of Pentachlorophenol (PCP) on the Oxygen Consumption Rate of the River Puffer Fish Takifugu obscurus|Mar. Ecol. Prog. Ser.143(1-3): 9-14|1996|10.3354/meps143009
59940|A||Kimura,I., H. Kitaori, K. Yoshizaki, K. Tayama, M. Ito, and S. Yamada|Development of Tumors in Rainbow Trout Following Embryonic Exposure to N-Nitroso Compounds|In: C.J.Dawe, J.C.Harshbarger, S.Kondo, T.Sugimura, and S.Takayama (Eds.), Proc.11th Int.Symp.on the Phyletic Approaches to Cancer, Japanese Sci.Soc.Press, Tokyo:241-252|1981|
59941|A||Kimura,Y., and Y. Honda|Uptake and Elimination of Some Radionuclides by Eggs and Fry of Rainbow Trout (II)|J. Radiat. Res.18:182-193|1977|10.1269/jrr.18.182
59942|A||Kimura,Y., and Y. Honda|Uptake and Elimination of Some Radionuclides by Eggs and Fry of Rainbow Trout (I)|J. Radiat. Res.18:170-181|1977|10.1269/jrr.18.170
59944|A||Klauda,R.J., R.E. Palmer, and M.J. Lenkevich|Sensitivity of Early Life Stages of Blueback Herring to Moderate Acidity and Aluminum in Soft Freshwater|Estuaries10(1): 44-53|1987|10.2307/1352024
59945|A||Klerks,P.L., and C.J. Moreau|Heritability of Resistance to Individual Contaminants and to Contaminant Mixtures in the Sheepshead Minnow (Cyprinodon variegatus)|Environ. Toxicol. Chem.20(8): 1746-1751|2001|10.1002/etc.5620200818
59946|A||Klumpp,D.W.|Accumulation of Arsenic from Water and Food by Littorina littoralis and Nucella lapillus|Mar. Biol.58(4): 265-274|1980|10.1007/BF00390775
59947|A||Knauer,K., R. Behra, and L. Sigg|Adsorption and Uptake of Copper by the Green Alga Scenedesmus subspicatus (Chlorophyta)|J. Phycol.33(4): 596-601|1997|10.1111/j.0022-3646.1997.00596.x
59948|A||Knuth,M.L., L.J. Heinis, and L.E. Anderson|Persistence and Distribution of Azinphos-Methyl Following Application to Littoral Enclosure Mesocosms|Ecotoxicol. Environ. Saf.47:167-177|2000|10.1006/eesa.2000.1945
59950|A||Koeman,J.H., T. Horsmans, and H.L. Van der Maas|Accumulation of Diuron in Fish|Meded. Fac. Landbouwwet. Univ. Gent34:428-433|1969|
59951|A||Kott,Y.|Effect of Halogens on Algae - III. Field Experiment|Water Res.3:265-271|1969|10.1016/0043-1354(69)90023-2
59952|A||Kozuch,J., J. Pempkowiak, and E. Gjessing|The Influence of Marine and Lacustrine Humic Substances on the Accumulation of Cadmium by the Baltic Mussel Mytilus trossulus|Oceanologia (Wroc.)40(1): 39-49|1998|
59953|A||Kozuch,J., I. Wilkowska, and J. Pempkowiak|The Kinetics of Cadmium Accumulation and Loss from Mytilus trossulus in the Presence of Marine Humic Substances|Oceanologia (Wroc.)39(2): 147-156|1997|
59954|A||Kratke,R., and F. Kirschbaum|Effects of the Antiepileptic Drug Valproic Acid on the Development of the Axolotl (Ambystoma mexicanum): Histological Investigations|Teratog. Carcinog. Mutagen.16(3): 149-167|1996|10.1002/(SICI)1520-6866(1996)16:3<149::AID-TCM2>3.0.CO;2-I
59955|A||Kreiling,J.A., R.E. Stephens, A.M. Kuzirian, K. Jessen-Eller, and C.L. Reinisch|Polychlorinated Biphenyls are Selectively Neurotoxic in the Developing Spisula solidissima Embryo|J. Toxicol. Environ. Health Part A61(8): 657-675|2000|10.1080/00984100050195143
59956|A||Kumar,A., and R.P. Mathur|Bioconcentration Kinetics and Organ Distribution of Cadmium in a Fresh Water Teleost, Colisa fasciatus|Environ. Technol.17(4): 391-398|1996|10.1080/09593331708616398
59957|A||Kumar,R., and A. Muni|Chronic Metabolic Effect of Ammonia on Aminotransferases in a Few Tissues of Freshwater Teleost Channa punctatus (Bloch)|J. Ecotoxicol. Environ. Monit.7(3): 201-205|1997|
59958|A||Kumar,G.S., and D.J. Nelson|Effects of Ekalux on Haematology of the Fresh Water Fish Etroplus maculatus|J. Ecotoxicol. Environ. Monit.7(2): 113-116|1997|
59959|A||Kwak,H.I., M.O. Bae, M.H. Lee, H.J. Sung, J.S. Shin, G.H. Ahn, Y.H. Kim, C.Y. Lee, and M.H. Cho|Effects of Cartap on the Early-Life Stages of Medaka (Oryzias latipes)|Bull. Environ. Contam. Toxicol.65(6): 717-724|2000|10.1007/s0012800182
59960|A||Kwak,H.I., M.O. Bae, M.H. Lee, Y.S. Lee, B.J. Lee, K.S. Kang, C.H. Chae, H.J. Sung, J.S. Shin, J.H. Kim, W.C. Mar, Y.Y.|Effects of Nonylphenol, Biphenol A, and Their Mixture on the Viviparous Swordtail Fish (Xiphophorus helleri)|Environ. Toxicol. Chem.20(4): 787-795|2001|10.1002/etc.5620200414
59962|A||Lahr,J., A. Badji, S. Marquenie, E. Schuiling, K.B. Ndour, A.O. Diallo, and J.W. Everts|Acute Toxicity of Locust Insecticides to Two Indigenous Invertebrates from Sahelian Temporary Ponds|Ecotoxicol. Environ. Saf.48(1): 66-75|2001|10.1006/eesa.2000.1995
59963|A||Lange,R., T.H. Hutchinson, C.P. Croudace, F. Siegmund, H. Schweinfurth, P. Hampe, G.H. Panter, and J.P. Sumpter|Effects of the Synthetic Estrogen 17alpha-Ethinylestradiol on the Life-Cycle of the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.20(6): 1216-1227|2001|
59964|A||Laporte,J.M., F. Ribeyre, J.P. Truchot, and A. Boudou|Experimental Study of the Combined Effects of pH and Salinity on the Bioaccumulation of Inorganic Mercury in the Crayfish Astacus leptodactylus|Chem. Spec. Bioavail.8(1/2): 1-15|1996|10.1080/09542299.1996.11083261
59965|A||Lares,M.L., and K.J. Orians|Differences in Cd Elimination from Mytilus californianus and Mytilus trossulus Soft Tissues|Environ. Pollut.112(2): 201-207|2001|10.1016/S0269-7491(00)00117-2
59966|A||Lauth,J.R., D.S. Cherry, and J.,Jr. Cairns|A Single Reconstituted Water Formulation for the Culture and Toxicity Testing of Algae, Invertebrates, and Fish|Environ. Auditor1(4): 209-219|1990|
59967|A||Lauth,J.R., S.D. Dyer, S.E. Belanger, and D.S. Cherry|Novel Flow-Through Method for Toxicity Assessments Using Ceriodaphnia dubia|Environ. Toxicol. Water Qual.11(4): 335-343|1996|10.1002/(SICI)1098-2256(1996)11:4<335::AID-TOX8>3.0.CO;2-A
59969|A||Leaner,J.J., and R.P. Mason|The Effect of Thiolate Organic Compounds on Methylmercury Accumulation and Redistribution in Sheepshead Minnows, Cyprinodon variegatus|Environ. Toxicol. Chem.20(7): 1557-1563|2001|10.1002/etc.5620200720
59970|A||Leboulanger,C., F. Rimet, M. Heme de Lacotte, and A. Berard|Effects of Atrazine and Nicosulfuron on Freshwater Microalgae|Environ. Int.26:131-135|2001|10.1016/S0160-4120(00)00100-8
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59973|A||Leonard,J.D., and J. Hellou|Separation and Characterization of Gall Bladder Bile Metabolites from Speckled Trout, Salvelinus fontinalis, Exposed to Individual Polycyclic Aromatic Compounds|Environ. Toxicol. Chem.20(3): 618-623|2001|10.1002/etc.5620200322
59974|A||Levitt,J.M., and A.J. Arp|The Effects of Sulfide on the Anaerobic Metabolism of Two Congeneric Species of Mudflat Clams|Comp. Biochem. Physiol. B Comp. Biochem.98(2-3): 339-347|1991|10.1016/0305-0491(91)90188-J
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59976|A||Lewis,S., M.E. Donkin, and M.H. Depledge|Hsp70 Expression in Enteromorpha intestinalis (Chlorophyta) Exposed to Environmental Stressors|Aquat. Toxicol.51(3): 277-291|2001|10.1016/S0166-445X(00)00119-3
59977|A||Lewis,W.M., and M.G. Ulrich|Chlorine as a Quick-Dip Treatment for the Control of Gyrodactylids on the Golden Shiner|Prog. Fish-Cult.29(4): 229-231|1967|10.1577/1548-8640(1967)29[229:CAAQTF]2.0.CO;2
59980|A||Lien,G.J., J.M. McKim, A.D. Hoffman, and C.T. Jenson|A Physiologically Based Toxicokinetic Model for Lake Trout (Salvelinus namaycush)|Aquat. Toxicol.51:335-350|2001|10.1016/S0166-445X(00)00117-X
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59984|A||Lochowitz,R.T., H.M. Miles, and D.R. Hafemann|Anesthetic-Induced Variations in the Cardiac Rate of the Teleost, Salmo gairdneri|Comp. Gen. Pharmacol.5:217-224|1974|10.1016/S0010-4035(74)80005-4
59985|A||Lucu,C., and M. Skreblin|Further Notes on Mercury and Selenium Interaction in Two Marine Invertebrates|J. Etud. Pollut. Mar.6:657-661|1983|
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59989|A||Liu,H., and J.W.,Jr. Avault|Effect of Nitrite on Growth of Juvenile Red Swamp Crawfish, Procambarus clarkii|J. Shellfish Res.15(3): 759-761|1996|
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59991|A||Magdaleno,A., C.E. Gomez, C.G. Velez, and J. Accorinti|Preliminary Toxicity Tests Using the Green Alga, Ankistrodesmus falcatus|Environ. Toxicol. Water Qual.12(1): 11-14|1997|10.1002/(SICI)1098-2256(1997)12:1<11::AID-TOX2>3.0.CO;2-B
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59993|A||Marsot,P., K. Mouhri, M. Loudiki, R. Fournier, and S. Kermasha|Effects of a Sublethal Concentration of Triphenyltin Chloride on Nutrient Uptake and Productivity of Phaeodactylum tricornutum Bohlin in Natural Seawater|Bot. Mar.39(3): 217-221|1996|
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59995|A||Mathew,S., and R. Damodaran|Lipofuscin as Physiological Indicator of Heavy Metal Stress in Sunetta scripta (Yellow Clam) And Perna viridis (Green Mussel)|Indian J. Mar. Sci.26(1): 64-67|1997|
59996|A||Mathew,S., and R. Damodaran|Effect of Ambient Oxygen Concentration on Lipofuscin Accumulation in a Clam Sunetta scripta and a Mussel Perna viridis|Indian J. Mar. Sci.26(1): 57-63|1997|
59997|A||Marwood,C.A., K.R. Solomon, and B.M. Greenberg|Chlorophyll Fluorescence as a Bioindicator of Effects on Growth in Aquatic Macrophytes from Mixtures of Polycyclic Aromatic Hydrocarbons|Environ. Toxicol. Chem.20(4): 890-898|2001|10.1002/etc.5620200425
59998|A||Mathis,W., and K.D. Quarterman|Field Investigations on the Use of Heavy Dosages of Several Chlorinated Hydrocarbons as Mosquito Larvicides|Am. J. Trop. Med. Hyg.2:318-324|1953|10.4269/ajtmh.1953.2.318
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60003|A||McFarland,W.N.|A Study of the Effects of Anesthetics on the Behavior and Physiology of Fishes|Institute of Marine Science, The University of Texas, Port Aransas, TX:23-55|1959|
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60012|AT||Metcalf,R.L.|A Laboratory Model Ecosystem for Evaluating the Chemical and Biological Behaviour of Radiolabelled Micropollutants|IAEA-SM-175/52, Comparative Studies of Food and Environmental Contamination, Vienna, Austria:49-63|1974|
60013|A||Mierle,G.|Studies on the Uptake and Toxicity of Copper and Other Transition Metal Ions with a Green Alga, Scenedesmus acuminatus|Ph.D. Thesis, University of Toronto, Canada:264 p.|1982|
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60015|A||Mills,L.J., R.E. Gutjahr-Gobell, R.A. Haebler, D.J. Borsay Horowitz, S. Jayaraman, R.J. Pruell, R.A. McKinney, G.R. Gar|Effects of Estrogenic (o,p'-DDT; Octylphenol) and Anti-Androgenic (p,p'-DDE) Chemicals on Indicators of Endocrine Status in Juvenile Male Summer Flounder (Paralichthys dentatus)|Aquat. Toxicol.52(2): 157-176|2001|10.1016/S0166-445X(00)00139-9
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60017|A||Min,K.J., and C.G. Cha|Determination of the Bioconcentration of Phosphamidon and Profenofos in Zebrafish (Brachydanio rerio)|Bull. Environ. Contam. Toxicol.65(5): 611-617|2000|10.1007/s0012800167
60018|A||Mohapatro,P.C., S. Panigrahi, and R.N. Padhy|Effect of Two Common Insecticides on Akinete Formation and Germination of the Cyanobacterium Cylindrospermum sp.|Fresenius Environ. Bull.7(1/2): 80-84|1998|
60019|A||Mizell,M., and E.S. Romig|The Aquatic Vertebrate Embryo as a Sentinel for Toxins: Zebrafish Embryo Dechorionation and Perivitelline Space Microinjection|Int. J. Dev. Biol.41(2): 411-423|1997|
60020|A||Mohan,B.S., and B.B. Hosetti|Lead Toxicity to Salvinia natans Grown in Macrophyte Ponds|J. Ecotoxicol. Environ. Monit.8(1): 3-7|1998|
60021|A||Moore,A., and C.P. Waring|The Effects of a Synthetic Pyrethroid Pesticide on Some Aspects of Reproduction in Atlantic Salmon (Salmo salar L.)|Aquat. Toxicol.52(1): 1-12|2001|10.1016/S0166-445X(00)00133-8
60022|A||Moreno-Garrido,I., L.M. Lubian, and A.M.V.M. Soares|Influence of Cellular Density on Determination of EC50 in Microalgal Growth Inhibition Tests|Ecotoxicol. Environ. Saf.47(2): 112-116|2000|10.1006/eesa.2000.1953
60023|A||Morgan,M.B., D.L. Vogelien, and T.W. Snell|Assessing Coral Stress Responses Using Molecular Biomarkers of Gene Transcription|Environ. Toxicol. Chem.20(3): 537-543|2001|10.1002/etc.5620200312
60024|A||Moriki,A., and M. Karydis|A Laboratory Phytoplankton Microcosm for the Assessment of Metal Impacts in the Marine Environment|Fresenius Environ. Bull.5(11-12): 740-745|1996|
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60026|A||Mulla,M.S.|Some Factors Regulating the Effectiveness of Granular Insecticides in Mosquito Control|Mosq. News20(3): 262-267|1960|
60027|A||Mulla,M.S., H. Axelrod, and L.W. Isaak|Effectiveness of New Insecticides Against Mosquito Larvae|Mosq. News21(3): 216-224|1961|
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60029|A||Munshi,A.B., Y.Q. Su, and S.J. Li|Acute Toxicities of Copper, Cadmium and Cu:  Cd Mixture to Larvae of the Shrimp Penaeus penicillatus|Chin. J. Oceanol. Limnol.14(2): 170-174|1996|10.1007/BF02850376
60030|A||Nakahara,M., T. Koyanagi, T. Ueda, and C. Shimizu|Peculiar Accumulation of Cobalt-60 by the Branchial Heart of Octopus|Nippon Suisan Gakkaishi (Multiple Languages)45(4): 539-|1979|10.2331/suisan.45.539
60031|A||Nakai,S., Y. Inoue, and M. Hosomi|Algal Growth Inhibition Effects and Inducement Modes by Plant-Producing Phenols|Water Res.35(7): 1855-1859|2001|10.1016/S0043-1354(00)00444-9
60032|A||Nakajima,A., T. Horikoshi, and T. Sakaguchi|Ion Effects on the Uptake of Uranium by Chlorella regularis|Agric. Biol. Chem.43(3): 625-629|1979|
60033|A||Nakatani,R.E.|Biological Response of Rainbow Trout (Salmo gairdneri) Ingesting Zinc-65|In: A.Guillon (Ed.), Proc.on the Disposal of Radioactive Wastes in Seas, Ocean, and Surface Waters, Int.Atomic Energy Agency (IAEA), Vienna, Austria:809-823|1966|
60034|A||Naik,S.R., S.D. Kondekar, and G.K. Kulkarni|Heptochlor Induced Changes in the Rate of Oxygen Consumption and Acetylcholinesterase Activity in the Central Nervous System of a Freshwater Leech Poecilobdella viridis|In: V.P.Agarwal, S.A.H.Abidi, and R.Prakash (Eds.), Recent Advances in Biosciences and Oceanography, Soc.of Biosci., Prakash:67-73|1996|
60035|A||Napierska,D., and M. Radlowska|Stress Proteins Induced by Cadmium in the Abdominal Muscle of the Shrimp Crangon crangon|Oceanologia (Wroc.)40(2): 157-162|1998|
60036|A||Narayanan,K.R., P.S. Lyla, and S.A. Khan|Pattern of Accumulation of Heavy Metals (Mercury, Cadmium and Zinc) in the Mud Crab Scylla serrata|J. Ecotoxicol. Environ. Monit.7(3): 191-195|1997|
60037|A||Nates,S.F., and C.L.,Jr. McKenney|Growth, Lipid Class and Fatty Acid Composition in Juvenile Mud Crabs (Rhithropanopeus harrisii) Following Larval Exposure to Fenoxycarb, Insect Juvenile Hormone Analog|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(3): 317-325|2000|
60039|A||Nepomuceno,J.C., I. Ferrari, M.A. Spano, and A.J. Centeno|Detection of Micronuclei in Peripheral Erythrocytes of Cyprinus carpio Exposed to Metallic Mercury|Environ. Mol. Mutagen.30(3): 293-297|1997|10.1002/(SICI)1098-2280(1997)30:3<293::AID-EM7>3.0.CO;2-M
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60046|A||Nivedhitha,H., P. Thangavel, A.K.S. Dawood, and M. Ramaswamy|Adaptive Changes in the Patterns of Carbohydrate Metabolites in Blood, Liver, Muscle and Heart Tissues of Sarotherodon mossambicus (Peters) Exposed to the Carbamate Fungicide Ziram|Pestic. Sci.52(2): 133-137|1998|10.1002/(SICI)1096-9063(199802)52:2<133::AID-PS685>3.0.CO;2-T
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60049|A||Oronsaye,J.A.O., and P.E. Ogbebo|The Acute Toxicity of Copper to Clarias gariepinus in Soft Water|J. Aquat. Sci.10:19-23|1995|
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60053|A||Owens,K.D., and K.N. Baer|Modifications of the Topical Japanese Medaka (Oryzias latipes) Embryo Larval Assay for Assessing Developmental Toxicity of Pentachlorophenol and p,p'-Dichlorodiphenyltrichloroethane|Ecotoxicol. Environ. Saf.47(1): 87-95|2000|10.1006/eesa.2000.1935
60054|A||Pacheco,M., and M.A. Santos|Tissue Distribution and Temperature-Dependence of Anguilla anguilla L. EROD Activity Following Exposure to Model Inducers and Relationship with Plasma Cortisol, Lactate and Glucose Levels|Environ. Int.26:149-155|2001|10.1016/S0160-4120(00)00101-X
60056|A||Palau-Casellas,A., and T.H. Hutchinson|Acute Toxicity of Chlorinated Organic Chemicals to the Embryos and Larvae of the Marine Worm Platynereis dumerilii (Polychaeta: Nereidae)|Environ. Toxicol. Water Qual.13(2): 149-155|1998|10.1002/(SICI)1098-2256(1998)13:2<149::AID-TOX6>3.0.CO;2-7
60057|A||Pande,R.K., and G.K. Shukla|Acute Toxicity and Efficacy of Herbicide CuSO4-5H2O, Used in Aquaculture, when Applied to Waters of Different Quality on Certain Fresh Water Teleosts|Z. Angew. Zool. (Multiple Languages)80(3): 297-311|1994|
60058|A||Pandey,A.K., K.C. George, and M.P. Mohamed|Effect of DDT on Thyroid Gland of the Mullet Liza parsia (Hamilton-Buchanan)|J. Mar. Biol. Assoc. India37(1-2): 287-290|1995|
60059|A||Pandey,A.K., K.C. George, and M.P. Mohamed|Histopathological Alterations Induced in the Liver of an Estuarine Mullet, Liza parsia by Mercuric Chloride and DDT|Indian J. Fish.43(3): 277-284|1996|
60060|A||Pandey,A.K., K.C. George, and M.P. Mohamed|Histopathological Changes Induced in the Gill of an Estuarine Mullet, Liza parsia, by Sublethal Exposure to Mercuric Chloride|Indian J. Fish.43(3): 285-291|1996|
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60062|A||Parker,D.L., H.D. Kumar, L.C. Rai, and J.B. Singh|Potassium Salts Inhibit Growth of the Cyanobacteria Microcystis spp. in Pond Water and Defined Media: Implications for Control of Microcystin-Producing Aquatic Blooms|Appl. Environ. Microbiol.63(6): 2324-2329|1997|10.1128/aem.63.6.2324-2329.1997
60064|A||Paul,V.I., and T.K. Banerjee|Histopathological Changes Induced by Ambient Ammonia (Ammonium Sulphate) on the Opercular Linings of the Catfish Heteropneustes fossilis|Dis. Aquat. Org.28(2): 151-161|1997|10.3354/dao028151
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60066|A||Pavlica,M., G.I.V. Klobucar, N. Mojas, R. Erben, and D. Papes|Detection of DNA Damage in Haemocytes of Zebra Mussel Using Comet Assay|Mutat. Res.490(2): 209-214|2001|10.1016/S1383-5718(00)00162-5
60067|A||Pedersen,M.F., and J. Borum|Nutrient Control of Estuarine Macroalgae:  Growth Strategy and the Balance Between Nitrogen Requirements and Uptake|Mar. Ecol. Prog. Ser.161:155-163|1997|10.3354/meps161155
60069|A||Peterson,J.K., D.R. Kashian, and S.I. Dodson|Methoprene and 20-OH-Ecdysone Affect Male Production in Daphnia pulex|Environ. Toxicol. Chem.20(3): 582-588|2001|
60070|A||Peyon,P., S. Baloche, and E. Burzawa-Gerard|Investigation into the Possible Role of Androgens in the Induction of Hepatic Vitellogenesis in the European Eel:  In Vivo and In Vitro Studies|Fish Physiol. Biochem.16(2): 107-118|1997|10.1007/BF00004668
60071|A||Pillai,S., and N.R. Menon|Structural Alterations Accompanying Acute and Chronic Toxicity of Heavy Metal Exposure in Hepatopancreas of Green Mussel Perna viridis (Class-Pelycypoda)|Indian J. Mar. Sci.27(3-4): 416-420|1998|
60072|A||Pillard,D.A., J.S. Cornell, D.L. DuFresne, and M.T. Hernandez|Toxicity of Benzotriazole and Benzotriazole Derivatives to Three Aquatic Species|Water Res.35(2): 557-560|2001|10.1016/S0043-1354(00)00268-2
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60074|T||Prescott,L.M., and D.L. Olson|The Effect of Pesticides on the Soil Amoeba Acanthamoeba castellanii (Neff)|Proc. S. D. Acad. Sci.51:136-141|1972|
60075|A||Preston,B.L., T.W. Snell, D.M. Fields, and M.J. Weissburg|The Effects of Fluid Motion on Toxicant Sensitivity of the Rotifer Brachionus calyciflorus|Aquat. Toxicol.52(2): 117-131|2001|10.1016/S0166-445X(00)00140-5
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60077|A||Pribil,S., and P. Marvan|Accumulation of Uranium by the Chlorococcal Alga Scenedesmus quadricauda|Arch. Hydrobiol.15(49): 214-225|1976|
60078|A||Prokhotskaya,V.Y., V.A. Veselovskii, T.V. Veselova, A.G. Dmitrieva, and V.I. Artyukhova|On the Nature of the Three-Phase Response of Scenedesmus quadricauda Populations to the Action of Imazalil Sulfate|Russ. J. Plant Physiol.47(6): 772-778|2000|10.1023/A:1026659228774
60080|A||Quabius,E.S., D.T. Nolan, C.J. Allin, and S.E. Wendelaar Bonga|Influence of Dietary Exposure to Polychlorinated Biphenyl 126 and Nutritional State on Stress Response in Tilapia (Oreochromis mossambicus) and Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.19(12): 2892-2899|2000|10.1002/etc.5620191207
60081|AT||Quistad,G.B., N. Zhang, S.E. Sparks, and J.E. Casida|Phosphoacetylcholinesterase: Toxicity of Phosphorus Oxychloride to Mammals and Insects that can be Attributed to Selective Phosphorylation of Acetylcholinesterase by Phosphorodichloridic Acid|Chem. Res. Toxicol.13(7): 652-657|2000|10.1021/tx000028o
60082|A||Racotta,I.S., and R. Hernandez-Herrera|Metabolic Responses of the White Shrimp, Penaeus vannamei, to Ambient Ammonia|Comp. Biochem. Physiol. A Mol. Integr. Physiol.125:437-443|2000|10.1016/S1095-6433(00)00171-9
60083|A||Radix,P., M. Leonard, C. Papantoniou, G. Roman, E. Saouter, S. Gallotti-Schmitt, H. Thiebaud, and P. Vasseur|Comparison of Four Chronic Toxicity Tests Using Algae, Bacteria, and Invertebrates Assessed with Sixteen Chemicals|Ecotoxicol. Environ. Saf.47(2): 186-194|2000|10.1006/eesa.2000.1966
60084|A||Rajyalakshmi,T., T. Srinivas, K.V. Swamy, N. Sivarama Prasad, and P.M. Mohan|Action of the Herbicide Butachlor on Cholinesterases in the Freshwater Snail Pila globosa (Swainson)|Drug Chem. Toxicol.19(4): 325-331|1996|10.3109/01480549608998241
60085|A||Rajyalakshmi,T., T. Srinivas, K.V. Swamy, and P.M. Mohan|Butachlor Impact on Protein, Free Amino Acid and Glutamine Contents, and on Activity Levels of Aminotransferases, Glutamate Dehydrogenase and Glutamine Synthetase in the Fresh Water Snail, Pila globosa (Swainson)|Biochem. Mol. Biol. Int.39(5): 949-960|1996|
60086|A||Ramakrishnan,M., S. Arunachalam, and S. Palanichamy|Sublethal Effects of Pesticides on Feeding Energetics in the Air Breathing Fish Channa striatus|J. Ecotoxicol. Environ. Monit.7(3): 169-175|1997|
60087|A||Rani,E.F., M. Elumalai, and M.P. Balasubramanian|The Toxicity of Combinations of Monocrotophos and Ammonium Chloride to Oreochromis mossambicus|Biomed. Lett.55(219-220): 193-198|1997|
60088|A||Rawat,M., and S. Bhargava|Synergistic Action of Pesticides on Fish Heteropneustes Fossilis|J. Ecotoxicol. Environ. Monit.7(3): 177-180|1997|
60089|A||Reddy,M.N., G. Ragothaman, and N. Padma|Effect of Cadmium on the Growth of Chlorogloea fritschi and Synechocystis sps|Seaweed Res. Util.19(1/2): 81-94|1997|
60090|A||Reddy,P.S.|Modulations in Antioxidant Enzymes in the Gill and Hepatopancreas of the Edible Crab Scylla serrata During Exposure to Cadmium and Copper|Fresenius Environ. Bull.6(9/10): 589-597|1997|
60091|A||Reddy,S.J., V. Kalarani, B. Tharakanadha, D.C. Reddy, and R. Ramamurthi|Changes in Energy Metabolism of the Fish, Labeo Rohita in Relation to Prolonged Lead Exposure and Recovery|J. Ecotoxicol. Environ. Monit.8(1): 43-53|1998|
60092|A||Rema,L.P., and B. Philip|Accumulation of an Essential Metal (Zinc) and a Non-Essential Metal (Mercury) in Different Tissues of Oreochromis mossambicus (Peters)|Indian J. Exp. Biol.35(1): 67-69|1997|
60093|A||Ringelband,U.|Salinity Dependence of Vanadium Toxicity Against the Brackish Water Hydroid Cordylophora caspia|Ecotoxicol. Environ. Saf.48(1): 18-26|2001|10.1006/eesa.2000.1997
60094|A||Ritchie,L.S., L.P. Frick, L.A. Berrios-Duran, and I. Fox|Molluscicidal Qualities of Sodium Pentachlorophenate (NaPCP) Revealed by 6-Hour and 24-Hour Exposures Against Representative Stages and Sizes of Australorbis glabratus|Bull. W. H. O.29:421-424|1963|
60095|A||Rogers,A.J., and C.B.,Jr. Rathburn|Tests with a new Granular Paris Green Formulation Against Aedes, Anopheles and Psorophora Larvae|Mosq. News18(2): 89-93|1958|
60096|A||Roper,J.M., D.S. Cherry, J.W. Simmers, and H.E. Tatem|Bioaccumulation of PAHs in the Zebra Mussel at Times Beach, Buffalo, New York|Environ. Monit. Assess.46(3): 267-277|1997|10.1023/A:1005714318799
60097|A||Roshon,R.D., and G.R. Stephenson|Comparison of Two Reference Toxicants and Their Effect upon the Growth and Development of Myriophyllum sibiricum in Axenic Culture|ASTM Spec. Tech. Publ.:200-214|1998|
60098|A||Rouleau,C., K. Borg-Neczak, J. Gottofrey, and H. Tjalve|Accumulation of Waterborne Mercury(II) in Specific Areas of Fish Brain|Environ. Sci. Technol.33(19): 3384-3389|1999|10.1021/es990001v
60100|A||Roy,W.J., I.H. Sutherland, H.D.M. Rodger, and K.J. Varma|Tolerance of Atlantic Salmon, Salmo salar L., and Rainbow Trout, Oncorhynchus mykiss (Walbaum), to Emamectin Benzoate, a New Orally Administered Treatment for Sea Lice|Aquaculture184(1/2): 19-29|2000|10.1016/S0044-8486(99)00307-5
60104|A||Sallal,A.K.J.|Effects of Crude Oil and Hydrocarbons on Glycollate Dehydrogenase of Anacystis nidulans|Microbios90(362): 33-43|1997|
60105|A||Samsoe-Petersen,L., K. Gustavson, T. Madsen, B.B. Mogensen, P. Lassen, K. Skjernov, K. Christoffersen, and E. Jorgensen|Fate and Effects of Esfenvalerate in Agricultural Ponds|Environ. Toxicol. Chem.20(7): 1570-1578|2001|10.1002/etc.5620200722
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60109|A||Santhakumar,M., M. Balaji, and K. Ramudu|Histopathological Lesions in the Brain of a Teleost Anabas testudineus Exposed to Monocrotophos|J. Environ. Biol.21(4): 297-299|2000|
60110|A||Santos,A.|Summary of Results of Laboratory Screening of Compound 443A Against O. quadrasi|In: Proceedings of the Controlled Release Pesticide Symposium, University of Akron, OH:5.62 - 5.63|1976|
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60113|T||Scarborough,G.A.|The Mechanism of Arsenate Inhibition of the Glucose Active Transport System in Neurospora crassa|Arch. Biochem. Biophys.166(1): 245-250|1975|10.1016/0003-9861(75)90385-9
60114|A||Saxena,S.|Effects of Zinc on the Development of Gonads in the Tadpoles of Toad Bufo andersonii|J. Ecotoxicol. Environ. Monit.7(1): 11-15|1997|
60115|A||Satish Nair,P., and W.E. Robinson|Histidine-Rich Glycoprotein in the Blood of the Bivalve Mytilus edulis:  Role in Cadmium Speciation and Cadmium Transfer to the Kidney|Aquat. Toxicol.52(2): 133-142|2001|10.1016/S0166-445X(00)00138-7
60116|A||Schlezinger,J.J., and J.J. Stegeman|Induction and Suppression of Cytochrome P450 1A by 3,3',4,4',5-Pentachlorobiphenyl and Its Relationship to Oxidative Stress in the  Marine Fish Scup (Stenotomus chrysops)|Aquat. Toxicol.52(2): 101-115|2001|10.1016/S0166-445X(00)00141-7
60117|A||Schmitt,A.S.C., and E.A. Santos|Haemolymph Nitrogenous Constituents and Nitrogen Efflux Rates of Juvenile Shrimp, Penaeus paulensis (Perez-Farfante), Exposed to Ambient Ammonia-N|Aquac. Res.30(1): 1-11|1999|10.1046/j.1365-2109.1999.00268.x
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60122|A||Seeley,K.R., and B.A. Weeks-Perkins|Suppression of Natural Cytotoxic Cell and Macrophage Phagocytic Function In Oyster Toadfish Exposed to 7,12-Dimethylbenz(a)anthracene|Fish Shellfish Immunol.7(2): 115-121|1997|10.1006/fsim.1996.0068
60124|A||Shah,D.S.M., V. Rojaramani, R.S. Priya, O. Sathick, and S. Raveendran|Effect of Tributyltin Oxide (TBTO) on Glycogen Metabolism in Estuarine Edible Blood Clam Anadara rhombea|J. Ecotoxicol. Environ. Monit.8(2): 133-138|1998|
60127|A||Sharief,S.D., and J. Azariah|Effect of 2,6 Dibromophenol; 2,4,6 Tribromophenol and the Extract of Ptychodera flava (Eshscholtz) [Hemichordate: Enteropneusta] on the Eggs of Sand Crab Emerita asiatica (Milne Edwards)|Indian J. Mar. Sci.26(1): 79-83|1997|
60128|A||Shilling,A.D., D.B. Carlson, S. Katchamart, and D.E. Williams|3,3'-Diindolylmethane, a Major Condensation Product of Indole-3-Carbinol, is a Potent Estrogen in the Rainbow Trout|Toxicol. Appl. Pharmacol.170(3): 191-200|2001|10.1006/taap.2000.9100
60131|A||Shivaraj,K.M., and H.S. Patil|Cadmium Induced Histological Changes in the Intestine of a Teleost, Lepidocephalichthys guntea|Z. Angew. Zool. (Multiple Languages)80(2): 243-247|1994|
60132|A||Da Silva Kraus,L.A., A.C.T. Bonecker, N. De Almeida, and A. Vital|Acute Toxicity of Potassium Dichromate, Sodium Dodecyl Sulfate, Copper and Zinc to Poecilia vivipara (Osteichthyes, Cyprinodontiformes)|Fresenius Environ. Bull.7(11/12): 654-658|1998|
60133|A||Simon,O., and A. Boudou|Simultaneous Experimental Study of Direct and Direct Plus Trophic Contamination of the Crayfish Astacus astacus by Inorganic Mercury and Methylmercury|Environ. Toxicol. Chem.20(6): 1206-1215|2001|10.1002/etc.5620200609
60134|A||Simonet,D.E., W.I. Knausenberger, L.H.,Jr. Townsend, and E.C.,Jr. Turner|A Biomonitoring Procedure Utilizing Negative Phototaxis of First Instar Aedes aegypti Larvae|Arch. Environ. Contam. Toxicol.7(3): 339-347|1978|10.1007/BF02332061
60135|A||Simpson,I.C., P.A. Roger, R. Oficial, and I.F. Grant|Effects of Nitrogen Fertilizer and Pesticide Management on Floodwater Ecology in Wetland Ricefield: II. Dynamics of Microcrustacean and Dipteran Larvae|Biol. Fertil. Soils17:138-146|1994|10.1007/BF00337746
60136|A||Simpson,I.C., P.A. Roger, R. Oficial, and I.F. Grant|Effects of Nitrogen Fertilizer and Pesticide Management on Floodwater Ecology in a Wetland Ricefield:  I.  Experimental Design and Dynamics of the Photosynthetic Aquatic Biomass|Biol. Fertil. Soils17:129-137|1994|10.1007/BF00337745
60137|A||Simpson,I.C., P.A. Roger, R. Oficial, and I.F. Grant|Effects of Nitrogen Fertiliser and Pesticide Managment on Floodwater Ecology in a Weltand Ricefield. III. Dynamics of Benthic Molluscs|Biol. Fertil. Soils18:219-227|1994|10.1007/BF00647670
60138|A||Singh,R.K., and B. Sharma|Carbofuran-Induced Biochemical Changes in Clarias batrachus|Pestic. Sci.53(4): 285-290|1998|10.1002/(SICI)1096-9063(199808)53:4<285::AID-PS771>3.0.CO;2-0
60139|A||Singh,S., and N. Shrivastava|Histopathological Changes in the Liver of the Fish Nandus nandus Exposed to Endosulfan and Carbaryl|J. Ecotoxicol. Environ. Monit.8(2): 139-144|1998|
60140|A||Sinha,S., M. Gupta, and P. Chandra|Bioaccumulation and Biochemical Effects of Mercury in the Plant Bacopa monnieri (L)|Environ. Toxicol. Water Qual.11(2): 105-112|1996|10.1002/(SICI)1098-2256(1996)11:2<105::AID-TOX5>3.0.CO;2-D
60141|A||Spencer-Jones,D.H.|Trials to Evaluate the Environmental and Herbicidal Effects of Dichlobenil Granules Applied to Water for the Control of Aquatic Weeds|Int. Symp. Aquat. Weeds:173-182|1971|
60142|A||Edmunds,J.S.G., R.A. McCarthy, and J.S. Ramsdell|Permanent and Functional Male-to-Female Sex Reversal in d-rR Strain Medaka (Oryzias latipes) Following Egg Microinjection of o,p'-DDT|Environ. Health Perspect.108(3): 219-224|2000|
60143|A||Sreenivasulu,Y., and M. Srinivasulu Reddy|Oxidative Metabolism and Glucose-6-Phosphate Dehydrogenase in the Detoxification of Phosphamidon and Methylparathion in Prawn, Metapenaeus monoceros|Chem. Ecol.14(1): 69-77|1997|10.1080/02757549708035540
60144|A||Srivastava,A.K., R. Sinha, N.D. Singh, and S.D. Srivastava|Histopathological Changes in a Freshwater Catfish, Heteropneustes fossilis Following Exposure to Malachite Green|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.68(1): 23-27|1998|
60145|A||Steevens,J.A., and W.H. Benson|Toxicokinetic Interactions and Survival of Hyalella azteca Exposed to Binary Mixtures of Chlorpyrifos, Dieldrin, and Methyl Mercury|Aquat. Toxicol.51(4): 377-388|2001|10.1016/S0166-445X(00)00127-2
60146|A||Stevens,M.M., S. Helliwell, and G.N. Warren|Fipronil Seed Treatments for the Control of Chironomid Larvae (Diptera:  Chironomidae) in Aerially-Sown Rice Crops|Field Crops Res.57(2): 195-207|1998|10.1016/S0378-4290(97)00146-9
60147|A||Stoffregen,D.A., S.C. Backman, R.E. Perham, P.R. Bowser, and J.G. Babish|Initial Disease Report of Streptococcus iniae Infection in Hybrid Striped (Sunshine) Bass and Successful Therapeutic Intervention with the Fluoroquinolone Antibacterial Enrofloxacin|J. World Aquac. Soc.27(4): 420-434|1996|10.1111/j.1749-7345.1996.tb00626.x
60148|A||Stone,J., I.H. Sutherland, C. Sommerville, R.H. Richards, and K.J. Varma|Field Trials to Evaluate the Efficacy of Emamectin Benzoate in the Control of Sea Lice, Lepeophtheirus salmonis (Kroyer) and Caligus elongatus Nordmann, Infestations in Atlantic Salmon Salmo salar L.|Aquaculture186:205-219|2000|10.1016/S0044-8486(99)00374-9
60149|A||Sugiura,K.|Effects of Al3+ Ions and Cu2+ Ions on Microcosms with Three Different Biological Complexities|Aquat. Toxicol.51(4): 405-417|2001|10.1016/S0166-445X(00)00126-0
60150|A||Sujatha,C.H., S.M. Nair, and J. Chacko|Pesticide Induced Physiological Changes in an Estuarine Clam|Oebalia21:181-186|1995|
60151|A||Sunderman,F.W.Jr., F.J. Mongillo, M.C. Plowman, and S.M. Brennan|Uptake and Release of 63Ni2+ by Xenopus Embryos During Early Cleavage Stages|Biol. Met.2(4): 214-218|1990|10.1007/BF01141362
60152|A||Surber,E.W.|Controlling Vegetation in Fish Ponds with Sodium Arsenite|Bur.Fish.Invest.Rep.No.11, U.S.Dep.Commerce, Washington, DC:39 p.|1932|
60153|A||Szebedinszky,C., J.C. McGeer, D.G. McDonald, and C.M. Wood|Effects of Chronic Cd Exposure via the Diet or Water on Internal Organ-Specific Distribution and Subsequent Gill Cd Uptake Kinetics in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.20(3): 597-607|2001|
60155|A||Tatara,C.P., M.C. Newman, and M. Mulvey|Effect of Mercury and Gpi-2 Genotype on Standard Metabolic Rate of Eastern Mosquitofish (Gambusia holbrooki)|Environ. Toxicol. Chem.20(4): 782-786|2001|10.1002/etc.5620200413
60156|A||Teather,K., M. Harris, J. Boswell, and M. Gray|Effects of Acrobat MZ and Tattoo C on Japanese Medaka (Oryzias latipes) Development and Adult Male Behavior|Aquat. Toxicol.51(4): 419-430|2001|10.1016/S0166-445X(00)00124-7
60157|A||Tendulkar,S.P., and B.G. Kulkarni|Physiological Responses of a Clam Gafrarium divaricatum (Gmelin) to Xylene, Benzene and Gear Oil-WSF|Indian J. Mar. Sci.27(3-4): 492-495|1998|
60158|A||Thaker,J., J. Chhaya, S. Nuzhat, R. Mittal, A.P. Mansuri, and R. Kundu|Dose and Duration Dependent Toxicity of Cr(VI) on Acid and Alkaline Phosphatases in Six Vital Organs of Mudskipper Periophthalmus dipes|Indian J. Exp. Biol.35(4): 397-400|1997|
60159|AT||Thorfinnson,V.R.|The Biological Effects of Mosquito Larvicides on Wildlife|M.S.Thesis, North Dakota Agric.College:49 p.|1952|
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60162|A||Toft,G., and E. Baatrup|Sexual Characteristics are Altered by 4-tert-Octylphenol and 17beta-Estradiol in the Adult Male Guppy (Poecilia reticulata)|Ecotoxicol. Environ. Saf.48(1): 76-84|2001|10.1006/eesa.2000.1985
60164|A||Tort,M.J., A.J. Kuhl, G.A. Wooster, and P.R. Bowser|Modification of Walleyes Stizostedion vitreum Tolerance to Hydrogen Peroxide Bath Treatment|J. World Aquac. Soc.29(4): 499-504|1998|10.1111/j.1749-7345.1998.tb00676.x
60166|A||Toussaint,M.W., A.B. Rosencrance, L.M. Brennan, J.R. Beaman, M.J. Wolfe, F.J. Hoffmann, and H.S.,Jr. Gardner|Chronic Toxicity of Chloroform to Japanese Medaka Fish|Environ. Health Perspect.109(1): 35-40|2001|10.1289/ehp.0110935
60168|A||Tsang,W.H., N.J. McGaughey, Y.H. Wong, and J.T.Y. Wong|Melatonin and 5-Methoxytryptamine Induced Muscular Contraction in Sea Anemones|J. Exp. Zool.279(3): 201-207|1997|10.1002/(SICI)1097-010X(19971015)279:3<201::AID-JEZ1>3.0.CO;2-R
60169|A||Tsuda,T., S. Aoki, M. Kojima, and T. Fujita|Accumulation and Excretion of Pesticides Used in Golf Courses by Carp (Cyprinus carpio) and Willow Shiner (Gnathopogon caerulescens)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(1): 63-66|1992|10.1016/0742-8413(92)90200-Q
60170|A||Tsuda,T., A. Takino, K. Muraki, H. Harada, and M. Kojima|Evaluation of 4-Nonlyphenols and 4-Tert-Octylphenol Contamination of Fish in Rivers by Laboratory Accumulation and Excretion Experiments|Water Res.35(7): 1786-1792|2001|10.1016/S0043-1354(00)00445-0
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60174|A||Upatham,E.S.|Preliminary Results on Slow Release TBTO-Pellets (MT-1E) Against St. Lucian Biomphalaria glabrata in a Marsh and in a Ravine|In: Proceedings of the Controlled Release Pesticide Symposium, University of Akron, OH:5.52 - 5.53|1976|
60175|A||Upitis,V.V., D.S. Pakalne, and A.F. Nollendorf|The Dosage of Trace Elements in the Nutrient Medium as a Factor in Increasing the Resistance of Chlorella to Unfavorable Conditions of Culturing|Microbiology42:758-762|1973|
60176|A||Valencia,M.D.P., L.H. Miller, and P. Mazur|Permeabilization of Eggs of the Malaria Mosquito Anopheles gambiae|Cryobiology33(1): 149-162|1996|10.1006/cryo.1996.0015
60177|A||Valencia,R., M. Gerpe, J. Trimmer, T. Buckman, A.Z. Mason, and P.E. Olsson|The Effect of Estrogen on Cadmium Distribution in Rainbow Trout (Oncorhynchus mykiss)|Mar. Environ. Res.46(1-5): 167-171|1998|10.1016/S0141-1136(97)00125-6
60178|A||Van den Heuvel,W.J.A., P.G. Wislocki, M.P. Hirsch, N.K. Porter, R.T. Ambrose, and K.A. Robillard|Bioconcentration and Metabolism of Thiabendazole (2-(4-Thiazolyl) -1H-Benzimidazole) in Bluegill Sunfish, Lepomis macrochirus|J. Agric. Food Chem.45(3): 985-989|1997|10.1021/jf9602333
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60183|A||Vashchenko,M.A., P.M. Zhadan, V.V. Malakhov, and L.A. Medvedeva|Toxic Effect of Mercury Chloride on Gametes and Embryos in the Sea Urchin Strongylocentrotus intermedius|Russ. J. Mar. Biol.21(5): 300-307|1995|
60184|A||Vaschenko,M.A., Z.P. Zhang, P.K.S. Lam, and R.S.S. Wu|Toxic Effects of Cadmium on Fertilizing Capability of Spermatozoa, Dynamics of the First Cleavage and Pluteus Formation in the Sea Urchin Anthocidaris crassispina (Agassiz)|Mar. Pollut. Bull.38(12): 1097-1104|1999|10.1016/S0025-326X(99)00116-2
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60189|A||Vincent,S., L.C.A. Kumar, T. Mani, T. Ambrose, and M. Selvanayagam|Heavy Metal Chromium Induced Alterations on Phosphatases Activity in the Indian Major Carp, Catla catla (Ham.)|Arch. Hydrobiol.135(2): 283-287|1995|10.1127/archiv-hydrobiol/135/1995/283
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60218|A||Xue,R.D., D.R. Barnard, and A. Ali|Laboratory Toxicity of Three Mosquito Oviposition Repellents to Six Nontarget Aquatic Invertebrates|Environ. Entomol.29(3): 437-441|2000|10.1603/0046-225X-29.3.437
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60220|A||Yameogo,L., K. Traore, C. Back, J.M. Hougard, and D. Calamari|Risk Assessment of Etofenprox (Vectron) on Non-Target Aquatic Fauna Compared with Other Pesticides Used as Simulium Larvicide in a Tropical Environment|Chemosphere42(8): 965-974|2001|10.1016/S0045-6535(00)00172-7
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60222|A||Yellamma,K., K. Ayyanna, and A.T.V. Reddy|Modulations in Protein Metabolism of Oziotelphusa Senex senex During Cypermethrin Intoxication|Chem. Ecol.11(2): 113-116|1995|10.1080/02757549508037691
60223|A||Yonkos,L.T., D.J. Fisher, D.T. Burton, W.K. Whitekettle, and J.C. Petrille|Effectiveness of the Sulfur (IV) Compound, Sodium Bisulfite, in Reducing Chlorine, Chlorine Dioxide, and Chlorite Toxicity to Daphnia magna in Well Water and Pond Water|Environ. Toxicol. Chem.20(3): 530-536|2001|10.1002/etc.5620200311
60225|A||Zaroogian,G., and E. Jackim|In Vivo Metallothionein and Glutathione Status in an Acute Response to Cadmium in Mercenaria mercenaria Brown Cells|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.127(3): 251-261|2000|
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60228|A||Zhao,J.H., J.Y. Guo, and T.J. Lam|Lethal Doses of Ammonia on the Late-Stage Larvae of Chinese Mitten-Handed Crab, Eriocheir sinensis (H. Milne-Edwards), (Decapoda: Grapsidae) Reared in the Laboratory|Aquac. Res.29(9): 635-642|1998|10.1046/j.1365-2109.1998.00253.x
60229|A||Zhao,J.H., T.J. Lam, and J.Y. Guo|Acute Toxicity of Ammonia to the Early Stage-Larvae and Juveniles of Eriocheir sinensis H. Milne-Edwards, 1853 (Decapoda: Grapsidae) Reared in the Laboratory|Aquac. Res.28(7): 517-525|1997|10.1111/j.1365-2109.1997.tb01070.x
60231|A||Li,Z., M. Zhou, J. Li, and T. Yan|Effects of Triphenyltin Chloride (TPTC) on Physiology of Isochrysis Galbana Cells|Stud. Mar. Sin. (Haiyang Kexue Jikan)37(37): 115-120|1996|
60232|T||Zurayk,R., B. Sukkariyah, and R. Baalbaki|Common Hydrophytes as Bioindicators of Nickel, Chromium and Cadmium Pollution|Water Air Soil Pollut.127(1-4): 373-388|2001|10.1023/A:1005209823111
60234|A||Foe,C., and A.W. Knight|Selenium Bioaccumulation, Regulation, and Toxicity in the Green Alga, Selenastrum capricornutum, and Dietary Toxicity of the Contaminated Alga to Daphnia magna|Manuscr., Dep. of Land, Air and Water Resources, Univ. of California, Davis, CA:|1986|
60236|T||Hastings,L., H. Choudhury, H.G. Petering, and G.P. Cooper|Behavioral and Biochemical Effects of Low-Level Prenatal Cadmium Exposure in Rats|Bull. Environ. Contam. Toxicol.20(1): 96-101|1978|10.1007/BF01683492
60237|T||Prigge,E., H.P. Baumert, and H. Muhle|Effects of Dietary and Inhalative Cadmium on Hemoglobin and Hematocrit in Rats|Bull. Environ. Contam. Toxicol.17(5): 585-590|1977|10.1007/BF01685982
60238|T||Nation,J.R., A.E. Bourgeois, D.E. Clark, D.M. Baker, and M.F. Hare|The Effects of Oral Cadmium Exposure on Passive Avoidance Performance in the Adult Rat|Toxicol. Lett.20(1): 41-47|1984|10.1016/0378-4274(84)90180-2
60239|T||Boscolo,P., G. Sacchettoni-Logroscino, F.O. Ranelletti, A. Gioia, and M. Carmignani|Effects of Long-term Cadmium Exposure on the Testis of Rabbits:  Ultrastructural Study|Toxicol. Lett.24(2-3): 145-149|1985|10.1016/0378-4274(85)90050-5
60241|T||Miles,R.D., S.F. O'Keefe, P.R. Henry, C.B. Ammerman, and X.G. Luo|The Effect of Dietary Supplementation with Copper Sulfate or Tribasic Copper Chloride on Broiler Performance, Relative Copper Bioavailability, and Dietary Prooxidant Activity|Poult. Sci.77(3): 416-425|1998|10.1093/ps/77.3.416
60242|T||Onifade,A.A., and O.A. Abu|Productive Response of Rabbits to Supplemental Copper in a Diet Based on Tropical Feedstuffs|J. Appl. Anim. Res.13(1/2): 129-135|1998|10.1080/09712119.1998.9706678
60243|T||Pesti,G.M., and R.I. Bakalli|Studies on the Feeding of Cupric Sulfate Pentahydrate and Cupric Citrate to Broiler Chickens|Poult. Sci.75(9): 1086-1091|1996|10.3382/ps.0751086
60244|T||Prince,T.J., V.W. Hays, and G.L. Cromwell|Effects of Copper Sulfate and Ferrous Sulfide on Performance and Liver Copper Iron Stores of Pigs|J. Anim. Sci.49(2): 507-513|1979|10.2527/jas1979.492507x
60245|T||Kumar,A., S.V.S. Rana, and C.B. Sharma|Influence of Dietary Methionine on Copper Toxicity in Rats|Adv. Biosci.6(1): 1-8|1987|
60246|T||Rangachar,T.R.S., and V.R. Hegde|Effect of Copper-Sulfate Feeding on Prothrombin Time in Chicks|Mysore J. Agric. Sci.9(1): 129-132|1975|
60247|T||Robbins,K.R., and D.H. Baker|Effect of Sulfur Amino Acid Level and Source on the Performance of Chicks Fed High Levels of Copper|Poult. Sci.59(6): 1246-1253|1980|10.3382/ps.0591246
60248|T||Shajahan,G.M., and E.C. Coligado|The Effect of Zinc Bacitracin, Copper and Quindoxin on the Small Intestine of Broilers|Bangledesh Vet. J.16(1-4): 71-77|1982|
60249|T||Stevenson,M.H., and N. Jackson|Effects of Withdrawal of Copper Sulphate from the Diet of the Mature Domestic Fowl with Special Reference to Production and Tissue Mineral Content|Br. J. Nutr.43(3): 551-559|1980|10.1079/BJN19800122
60251|T||Howell,J.M., W.F. Blakemore, C. Gopinath, G.A. Hall, and J.H. Parker|Chronic Copper Poisoning and Changes in the Central Nervous System of Sheep|Acta Neuropathol.29(1): 9-24|1974|10.1007/BF00684387
60252|T||Ishmael,J., C. Gopinath, and J.M. Howell|Experimental Chronic Copper Toxicity in Sheep. Biochemical and Haematological Studies During the Development of Lesions in the Liver|Res. Vet. Sci.13(1): 22-29|1972|10.1016/S0034-5288(18)34084-0
60253|T||Jenkins,N.K., T.R. Morris, and D. Valamotis|The Effect of Diet and Copper Supplementation on Chick Growth|Br. Poult. Sci.11(2): 241-248|1970|10.1080/00071667008415811
60254|T||Latymer,E.A., and M.E. Coates|The Effects of High Dietary Supplements of Copper Sulphate on Pantothenic Acid Metabolism in the Chick|Br. J. Nutr.45(2): 431-439|1981|10.1079/BJN19810118
60255|T||Ledoux,D.R., R.D. Miles, C.B. Ammerman, and R.H. Harms|Interaction of Dietary Nutrient Concentration and Supplemental Copper on Chick Performance and Tissue Copper Concentrations|Poult. Sci.66:1379-1384|1987|10.3382/ps.0661379
60256|T||Lillie,R.J., and L.T. Frobish|Effect of Copper and Iron Supplements on Performance and Hematology of Confined Sows and Their Progeny Through Four Reproductive Cycles|J. Anim. Sci.46(3): 678-685|1978|10.2527/jas1978.463678x
60257|T||Massie,H.R., and V.R. Aiello|Excessive Intake of Copper: Influence on Longevity and Cadmium Accumulation in Mice|Mech. Ageing Dev.26(2/3): 195-203|1984|10.1016/0047-6374(84)90093-9
60258|T||McNatt,E.N., W.G.,Jr. Campbell, and B.C. Callahan|Effects of Dietary Copper Loading on Livers of Rats.  I.  Changes in Subcellular Acid Phosphatases and Detection of an Additional Acid p-Nitrophenylphosphatase in the Cellular Supernatant During Copper Loading|Am. J. Pathol.64(1): 123-144|1971|
60259|T||Mason,K.E., M.E. Richardson, and M.R. Spivey Fox|Enteropathy Caused by 1 or 10 ppm Dietary Cd|Fed. Proc.36(3): 1152-|1977|
60260|T||Jacobs,R.M., A.O.L. Jones, M.R. Spivey Fox, and B.E.,Jr. Fry|Retention of Dietary Cadmium and the Ameliorative Effect of Zinc, Copper, and Manganese in Japanese Quail|J. Nutr.108(1): 22-32|1978|10.1093/jn/108.1.22
60261|T||Hansen,L.G., and T.D. Hinesly|Cadmium from Soil Amended with Sewage Sludge:  Effects and Residues in Swine|Environ. Health Perspect.28:51-58|1979|10.1289/ehp.792851
60262|T||Iguchi,H., and S. Sano|Effect of Cadmium on the Bone Collagen Metabolism of Rat|Toxicol. Appl. Pharmacol.62(1): 126-136|1982|10.1016/0041-008X(82)90109-0
60263|T||Machemer,L., and D. Lorke|Embryotoxic Effect of Cadmium on Rats upon Oral Administration|Toxicol. Appl. Pharmacol.58:438-443|1981|10.1016/0041-008X(81)90096-X
60264|T||Takashima,M., S. Moriwaki, and Y. Itokawa|Osteomalacic Change Induced by Long-Term Administration of Cadmium to Rats|Toxicol. Appl. Pharmacol.54(2): 223-228|1980|10.1016/0041-008X(80)90190-8
60266|T||Weigel,H.J., D. Ilge, I. Elmadfa, and H.J. Jager|Availability and Toxicological Effects of Low Levels of Biologically Bound Cadmium|Arch. Environ. Contam. Toxicol.16(1): 85-93|1987|10.1007/BF01055363
60267|T||Tewari,P.C., V.K. Jain, M. Ashquin, and S.K. Tandon|Influence of Protein Deficiency on Cadmium Toxicity in Rats|Arch. Environ. Contam. Toxicol.15(4): 409-415|1986|10.1007/BF01066408
60268|T||Nakamura,K., S. Nishiyama, T. Takata, E. Suzuki, Y. Sugiura, T. Kobayashi, and B.Y. Chao|Effects of Zinc on Cadmium-Induced Alterations in Hepatic Functions and Blood Glucose of Rats|Environ. Res.30(1): 175-181|1983|10.1016/0013-9351(83)90177-9
60269|T||Baranski,B., I. Stetkiewicz, K. Sitarek, and W. Szymczak|Effects of Oral, Subchronic Cadmium Administration on Fertility, Prenatal and Postnatal Progeny Development in Rats|Arch. Toxicol.54(4): 297-302|1983|10.1007/BF01234482
60270|T||Machida,K., K. Sugawara, and K. Ishioka|Urinary Cyclic AMP and Cyclic GMP in Rats Given Three Different Concentrations of Cadmium in the Diet for One Year|Toxicol. Lett.16(1-2): 159-164|1983|10.1016/0378-4274(83)90025-5
60271|T||Weigel,H.J., I. Elmadfa, and H.J. Jager|The Effect of Low Doses of Dietary Cadmium Oxide on the Disposition of Trace Elements (Zinc, Copper, Iron), Hematological Parameters, and Liver Function in Rats|Arch. Environ. Contam. Toxicol.13(3): 289-296|1984|10.1007/BF01055279
60272|T||Weber,C.W., and B.L. Reid|Effect of Dietary Cadmium on Mice|Toxicol. Appl. Pharmacol.14(3): 420-425|1969|10.1016/0041-008X(69)90002-7
60273|T||Lind,Y., J. Engman, L. Jorhem, and A.W. Glynn|Cadmium Accumulation in Liver and Kidney of Mice Exposed to the Same Weekly Cadmium Dose Continuously or Once a Week|Food Chem. Toxicol.35(9): 891-895|1997|10.1016/S0278-6915(97)00068-9
60274|T||Xu,B., Y. Jin, Z. Feng, Z. Xu, and T. Matsushita|Lipid Peroxidation Induced by Maternal Cadmium Exposure in Mouse Pups|Bull. Environ. Contam. Toxicol.51(5): 772-779|1993|10.1007/BF00201657
60276|T||Ando,M., Y. Sayato, and T. Osawa|Studies on the Disposition of Calcium in Bones of Rats After Continuous Oral Administration of Cadmium|Toxicol. Appl. Pharmacol.46:625-632|1978|10.1016/0041-008X(78)90308-3
60277|T||Baranski,B., and K. Sitarek|Effect of Oral and Inhalation Exposure to Cadmium on the Oestrous Cycle in Rats|Toxicol. Lett.36(3): 267-273|1987|10.1016/0378-4274(87)90195-0
60279|T||Sorell,T.L., and J.H. Graziano|Effect of Oral Cadmium Exposure During Pregnancy on Maternal and Fetal Zinc Metabolism in the Rat|Toxicol. Appl. Pharmacol.102(3): 537-545|1990|10.1016/0041-008X(90)90048-Y
60280|T||Radecki,S.V., P.K. Ku, M.R. Bennink, M.T. Yokoyama, and E.R. Miller|Effect of Dietary Copper on Intestinal Mucosa Enzyme Activity, Morphology, and Turnover Rates in Weanling Pigs|J. Anim. Sci.70(5): 1424-1431|1992|10.2527/1992.7051424x
60282|T||Stevenson,M.H., and N. Jackson|An Attempt to Distinguish Between the Direct and Indirect Effects, in the Laying Domestic Fowl, of Added Dietary Copper Sulphate|Br. J. Nutr.46(1): 71-76|1981|10.1079/BJN19810009
60284|T||Sasser,L.B., B.J. Kelman, A.A. Levin, and R.K. Miller|The Influence of Maternal Cadmium Exposure or Fetal Cadmium Injection on Hepatic Metallothionein Concentrations in the Fetal Rat|Toxicol. Appl. Pharmacol.80(2): 299-307|1985|10.1016/0041-008X(85)90087-0
60285|T||Eskeland,B., B.M. Gullvag, and I. Nafstad|Quantitative Studies of Mercury and Cadmium Deposition in Japanese Quail Through Multiple Generations|Acta Agric. Scand.29(2): 113-118|1979|10.1080/00015127909435219
60286|T||Mohan,J., R.P. Moudgal, and J.N. Panda|Effects of Cadmium Salt on Phosphomonoesterases Activity and Fertilizing Ability of Fowl Spermatozoa|Indian J. Exp. Biol.30(3): 241-243|1992|
60288|T||Wang,C., and M.H. Bhattacharyya|Effect of Cadmium on Bone Calcium and 45Ca in Nonpregnant Mice on a Calcium-Deficient Diet: Evidence of Direct Effect of Cadmium on Bone|Toxicol. Appl. Pharmacol.120(2): 228-239|1993|10.1006/taap.1993.1107
60290|T||Sokol,R.J., M.W. Devereaux, K. O'Brien, R.A. Khandwala, and J.P. Loehr|Abnormal Hepatic Mitochondrial Respiration and Cytochrome C Oxidase Activity in Rats with Long-Term Copper Overload|Gastroenterology105(1): 178-187|1993|10.1016/0016-5085(93)90024-7
60291|T||Sokol,R.J., M. Devereaux, G.W. Mierau, K.M. Hambidge, and R.H. Shikes|Oxidant Injury to Hepatic Mitochondrial Lipids in Rats with Dietary Copper Overload. Modification by Vitamin E Deficiency|Gastroenterology99(4): 1061-1071|1990|10.1016/0016-5085(90)90627-D
60292|T||Bache,C.A., G.S. Stoewsand, and D.J. Lisk|Cadmium in Tissues in Japanese Quail fed Oat Grain Grown on Municipal Sludge-Amended Soil|J. Toxicol. Environ. Health18(2): 315-319|1986|10.1080/15287398609530871
60293|T||Pritzl,M.C., Y.H. Lie, E.W. Kienholz, and C.E. Whiteman|The Effect of Dietary Cadmium on Development of Young Chickens|Poult. Sci.53(6): 2026-2029|1974|10.3382/ps.0532026
60294|T||Anke,M., T. Masaoka, B. Groppel, G. Zervas, and W. Arnhold|The Influence of Sulphur, Molybdenum and Cadmium Exposure on the Growth of Goat, Cattle and Pig|Arch. Anim. Nutr.39(1/2): 221-228|1989|
60295|T||Azar,A., H.J. Trochimowicz, and M.E. Maxfield|Review of Lead Studies in Animals Carried out at Haskell Laboratory - Two-Year Feeding Study and Response to Hemorrhage Study|In:  Proc.Int.Symp.on the Environmental Health Aspects of Lead, Oct. 2-6, 1972, Amsterdam, Nederland, Publ.by the Comm.of the Eur. Commun., Luxembourg:199-210|1973|
60298|T||Nation,J.R., C.A. Grover, G.R. Bratton, and J.A. Salinas|Behavioral Antagonism Between Lead and Cadmium|Neurotoxicol. Teratol.12(2): 99-104|1990|10.1016/0892-0362(90)90119-W
60299|T||Lockett,C.J., and W.P. Leary|Neurobehavioural Effects in Rats fed Low Doses of Cadmium and Lead to Induce Hypertension|S. Afr. Med. J.69(3): 190-192|1986|
60305|T||Bandyopadhyay,R., T. Ghosh, R. Chattopadhyay, T. Bhattacharyay, and A. Sarkar|Some Changes in Liver After Cadmium Chloride Administration in Male Rose-Ringed Parakeet, Psittacula krameri borealis|Comp. Physiol. Ecol.8(4): 279-281|1983|
60309|T||Baranski,B.|Effect of Exposure of Pregnant Rats to Cadmium on Prenatal and Postnatal Development of the Young|J. Hyg. Epidemiol. Microbiol. Immunol.29(3): 253-262|1985|
60310|T||Jacobs,R.M., M.R. Spivey Fox, and M.H. Aldridge|Changes in Plasma Proteins Associated with the Anemia Produced by Dietary Cadmium in Japanese Quail|J. Nutr.99(2): 119-128|1969|10.1093/jn/99.2.119
60311|T||Pietrzak-Flis,Z., G.L. Rehnberg, M.J. Favor, D.F. Cahill, and J.W. Laskey|Chronic Ingestion of Cadmium and/or Tritium in Rats.  I.  Accumulation and Distribution of Cadmium in Two Generations|Environ. Res.16(1-3): 9-17|1978|10.1016/0013-9351(78)90136-6
60312|T||Chinoy,N.J., and K.M. Sheth|Effects of CdCl2 on the Secretory Functions of Sex Accessory Glands of Rats|Indian J. Exp. Biol.15(8): 594-597|1977|
60313|T||Blalock,T.L., and C.H. Hill|Studies on the Role of Iron in the Reversal of Cadmium Toxicity in Chicks|Biol. Trace Elem. Res.17:247-257|1988|10.1007/BF02795461
60314|T||Lefevre,M., H. Heng, and R.B. Rucker|Dietary Cadmium, Zinc and Copper:  Effects on Chick Lung Morphology and Elastin Cross-Linking|J. Nutr.112(7): 1344-1352|1982|10.1093/jn/112.7.1344
60315|T||Leach,R.M.,Jr., K.W.L. Wang, and D.E. Baker|Cadmium and the Food Chain:  The Effect of Dietary Cadmium on Tissue Composition in Chicks and Laying Hens|J. Nutr.109(3): 437-443|1978|10.1093/jn/109.3.437
60316|T||Donaldson,W.E.|Effects of Dietary Lead, Cadmium, Mercury, and Selenium on Fatty Acid Composition of Blood Serum and Erythrocyte Membranes from Chicks|Biol. Trace Elem. Res.7(4): 255-262|1985|10.1007/BF02989250
60317|T||Pilastro,A., L. Tallandini, and M. Turchetto|Effects of Chronic Dietary Cadmium on MFO Activity in Male and Female Starlings (Sturnus vulgaris)|Boll. Zool.60(3): 311-315|1993|10.1080/11250009309355830
60318|T||Sutou,S., K. Yamamoto, H. Sendota, K. Tomomatsu, Y. Shimizu, and M. Sugiyama|Toxicity, Fertility, Teratogenicity, and Dominant Lethal Tests in Rats Administered Cadmium Subchronically. I. Toxicity Studies|Ecotoxicol. Environ. Saf.4(1): 39-50|1980|10.1016/0147-6513(80)90006-8
60319|T||Vreman,K., E.J. Van der Veen, E.J. Van der Molen, and W.G. De Ruig|Transfer of Cadmium, Lead, Mercury and Arsenic from Feed into Tissues of Fattening Bulls:  Chemical and Pathological Data|Neth. J. Aquat. Ecol.36(4): 327-338|1988|
60320|T||Kodama,Y., K. Matsuno, and K. Tsuchiya|Cadmium Distribution in Blood and Urine of Dogs After Long-Term Oral Administration of Cadmium|Toxicol. Environ. Chem.27(1-3): 73-80|1990|10.1080/02772249009357559
60321|T||Murthy,R.C., D.K. Saxena, V. Sunderaraman, and S.V. Chandra|Cadmium Induced Ultrastructural Changes in the Cerebellum of Weaned and Adult Rats|Ind. Health25(3): 159-162|1987|10.2486/indhealth.25.159
60322|T||Valois,A.A., and W.S. Webster|The Effects of Acute or Chronic Cadmium Exposure on the Adult Mouse CNS:  A Freeze-Fracture Study|Neurotoxicology6(3): 37-44|1985|
60323|T||Mallol,M., M. Mata, M.J. Perez-Alonso, M.T. Cambon, and B. Ribas|Effects of Cadmium on the Development of the Gonads in the Rat|IRCS (Int.Res.Commun.Syst.)Med.Sci.12(7): 614-615|1984|
60324|T||Gustafson,J.M., and L.P. Mercer|Prediction of Dietary Cadmium Toxicity by the Four-Parameter Model for Physiological Responses|Nutr. Rep. Int.29(1): 55-65|1984|
60325|T||Nogawa,K., E. Kobayashi, and F. Konishi|Comparison of Bone Lesions in Chronic Cadmium intoxication and Vitamin D Deficiency|Environ. Res.24(2): 233-249|1981|10.1016/0013-9351(81)90153-5
60326|T||Mitsumori,K., M. Shibutani, S. Sato, H. Onodera, J. Nakagawa, Y. Hayashi, and M. Ando|Relationship Between the Development of Hepato-Renal Toxicity and Cadmium Accumulation in Rats Given Minimum to Large Amounts of Cadmium Chloride in the Long-Term:  Preliminary Study|Arch. Toxicol.72(9): 545-552|1998|10.1007/s002040050541
60327|T||Stoewsand,G.S., J.L. Anderson, C.A. Bache, and D.J. Lisk|Cadmium Deposition and Hepatic Microsomal Activity in Mice fed Swiss Chard Grown on Municipal Incinerator Refuse Ash|Sci. Total Environ.94(3): 253-259|1990|10.1016/0048-9697(90)90174-S
60328|T||Bhattacharyya,M.H., B.D. Whelton, D.P. Peterson, B.A. Carnes, E.S. Moretti, J.M. Toomey, and L.L. Williams|Skeletal Changes in Multiparous Mice Fed a Nutrient-Sufficient Diet Containing Cadmium|Toxicology50(2): 193-204|1988|10.1016/0300-483X(88)90091-1
60329|T||Rajanna,B., M. Hobson, J. Reese, E. Sample, and K.D. Chapatwala|Chronic Hepatic and Renal Toxicity by Cadmium in Rats|Drug Chem. Toxicol.7(3): 229-241|1984|10.3109/01480548409035105
60330|T||Merali,Z., and R.L. Singhal|Diabetogenic Effects of Chronic Oral Cadmium Adminstration to Neonatal Rats|Br. J. Pharmacol.69(1): 151-157|1980|10.1111/j.1476-5381.1980.tb10895.x
60331|T||Wills,J.H., G.E. Groblewski, and F. Coulston|Chronic and Multigeneration Toxicities of Small Concentrations of Cadmium in the Diet of Rats|Ecotoxicol. Environ. Saf.5(4): 452-464|1981|10.1016/0147-6513(81)90020-8
60332|T||Sutou,S., K. Yamamoto, H. Sendota, and M. Sugiyama|Toxicity, Fertility, Teratogenicity, and Dominant Lethal Tests in Rats Administered Cadmium Subchronically. II. Fertility, Teratogenicity, and Dominant Lethal Tests|Ecotoxicol. Environ. Saf.4(1): 51-56|1980|10.1016/0147-6513(80)90007-X
60333|T||Cornwall,G.A., M.W. Carter, and W.S. Bradshaw|The Relationship Between Prenatal Lethality or Fetal Weight and Intrauterine Position in Rats Exposed to Diethylstilbestrol, Zeranol, 3,4,3',4'-Tetrachlorobiphenyl, or Cadmium|Teratology30(3): 341-349|1984|10.1002/tera.1420300306
60334|T||Simmons,D.L., D.M. Valentine, and W.S. Bradshaw|Different Patterns of Developmental Toxicity in the Rat Following Prenatal Administration of Structurally Diverse Chemicals|J. Toxicol. Environ. Health14(2-3): 121-136|1984|10.1080/15287398409530567
60335|T||Revis,N.W.|The Relationship of Dietary Protein to Metallothionein and Cadmium-Induced Renal Damage|Toxicology20(4): 323-333|1981|10.1016/0300-483X(81)90039-1
60336|T||Kajikawa,K., I. Nakanishi, and K. Kuroda|Morphological Changes of the Kidney and Bone of Rats in Chronic Cadmium Poisoning|Exp. Mol. Pathol.34(1): 9-24|1981|10.1016/0014-4800(81)90031-9
60337|T||Bonner,F.W., L.J. King, and D.V. Parke|Cadmium-Induced Reduction of Bone Alkaline Phosphatase and Its Prevention by Zinc|Chem.-Biol. Interact.29(3): 369-372|1980|10.1016/0009-2797(80)90155-6
60338|T||Larsson,S.E., and M. Piscator|Effect of Cadmium on Skeletal Tissue in Normal and Calcium-Deficient Rats|Isr. J. Med. Sci.7(3): 495-498|1971|
60339|T||Sawicka-Kapusta,K., M. Zakrzewska, and A. Zuber|Effect of Orally Administered Cadmium on Postnatal Development of Laboratory Mice|Pol. Ecol. Stud.20(1/2): 33-42|1994|
60340|T||Battersby,S., J.A. Chandler, and M.S. Morton|The Effect of Orally Administered Cadmium on the Ultrastructure of the Rat Prostate|Urol. Res.10(3): 123-130|1982|10.1007/BF00255954
60341|T||Itokawa,Y., K. Nishino, M. Takashima, T. Nakata, H. Kaito, E. Okamoto, K. Daijo, and J. Kawamura|Renal and Skeletal Lesions in Experimental Cadmium Poisoning of Rats.  Histology and Renal Function|Environ. Res.15(2): 206-217|1978|10.1016/0013-9351(78)90097-X
60342|T||Kotsonis,F.N., and C.D. Klaassen|The Relationship of Metallothionein to the Toxicity of Cadmium After Prolonged Oral Administration to Rats|Toxicol. Appl. Pharmacol.46(1): 39-54|1978|10.1016/0041-008X(78)90135-7
60343|T||Muller,L., and N.H. Stacey|Subcellular Toxicity of Low Level Cadmium in Rats:  Effect on Cytochrome c Oxidase|Toxicology51(1): 25-34|1988|10.1016/0300-483X(88)90077-7
60344|T||Webster,W.S.|Chronic Cadmium Exposure During Pregnancy in the Mouse:  Influence of Exposure Levels on Fetal and Maternal Uptake|J. Toxicol. Environ. Health24(2): 183-192|1988|10.1080/15287398809531152
60345|T||Murthy,R.C., M.M. Ali, and S.V. Chandra|Effects of In-Utero Exposure to Cadmium on the Brain Biogenic Amine Levels and Tissue Metal Distribution in Rats|Ind. Health24(1): 15-21|1986|10.2486/indhealth.24.15
60346|T||Desi,I., L. Nagymajtenyi, and H. Schulz|Behavioural and Neurotoxicological Changes Caused by Cadmium Treatment of Rats During Development|J. Appl. Toxicol.18(1): 63-70|1998|10.1002/(SICI)1099-1263(199801/02)18:1<63::AID-JAT475>3.0.CO;2-Z
60347|T||Zielinska-Psuja,B., A. Lukaszyk, and W. Senczuk|The Anti-reproductive Effects of Long Term Oral Administration of Cadmium on the Adult Male Rat|Int. J. Androl.2(2): 150-161|1979|10.1111/j.1365-2605.1979.tb00048.x
60348|T||Suzuki,T., and A. Yoshida|Effects of Administration Route of Cadmium and Iron on Cadmium Toxicity in Rats|Nutr. Rep. Int.18(4): 389-396|1978|
60349|T||Caflisch,C.R.|Effect of Orally Administered Cadmium on In Situ pH, PCO2, and Bicarbonate Concentration in Rat Testis and Epididymis|J. Toxicol. Environ. Health42(3): 323-330|1994|10.1080/15287399409531882
60350|T||Saygi,S., G. Deniz, O. Kutsal, and N. Vural|Chronic Effects of Cadmium on Kidney, Liver, Testis, and Fertility of Male Rats|Biol. Trace Elem. Res.31(3): 209-214|1991|10.1007/BF02990191
60351|T||Smith,M.J., R.O. Pihl, and B. Farrell|Longterm Effects of Early Cadmium Exposure on Locomotor Activity in the Rat|Neurobehav. Toxicol. Teratol.7(1): 19-22|1985|
60352|T||Chetty,K.N., L. Drummond, and D. Desaiah|Effect of Cadmium on ATPase Activities in Rats fed on Iron-Deficient and Sufficient Diets|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(4): 379-393|1980|
60353|T||Cousins,R.J., K.S. Squibb, S.L. Feldman, A. De Bari, and B.L. Silbon|Biomedical Responses of Rats to Chronic Exposure to Dietary Cadmium Fed in Ad Libitum and Equalized Regimes|J. Toxicol. Environ. Health2(4): 929-943|1977|10.1080/15287397709529492
60354|T||Ogoshi,K., T. Moriyama, and Y. Nanzai|Decrease in the Mechanical Strength of Bones of Rats Administered Cadmium|Arch. Toxicol.63(4): 320-324|1989|10.1007/BF00278646
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60357|T||Loeser,E., and D. Lorke|Semichronic Oral Toxicity of Cadmium  1.  Studies on Rats|Toxicology7(2): 215-224|1977|10.1016/0300-483X(77)90067-1
60358|T||Mercado,R.C., and B.G. Bibby|Trace Element Effects on Enamel Pigmentation, Incisor Growth and Molar Morphology in Rats|Arch. Oral Biol.18(5): 629-635|1973|10.1016/0003-9969(73)90101-5
60360|T||Semba,R., H. Yamamura, and U. Murakami|Effect of Cadmium Pretreatment on Teratogenicity and Fetolethality of Cadmium|Okajimas Folia Anat. Jpn.54:283-288|1977|10.2535/ofaj1936.54.5_283
60362|T||Smith,M.J., R.O. Pihl, and B. Garber|Postnatal Cadmium Exposure and Longterm Behavioral Changes in the Rat|Neurobehav. Toxicol. Teratol.4(3): 283-287|1982|
60363|T||Agarwala,S.C., C.P. Sharma, and A. Kumar|Interrelationship of Iron and Manganese Supply in Growth, Chlorophyll, and Iron Porphyrin Enzymes in Barley Plants|Plant Physiol.39:603-609|1964|10.1104/pp.39.4.603
60364|T||Al-Attar,A.F., M.H. Martin, and G. Nickless|Uptake of Selenium, Tellurium and Interaction with Some Essential Metals (Mn, Fe, Cu and Zn) by Lolium perenne|Chemosphere17(9): 1863-1869|1988|10.1016/0045-6535(88)90113-0
60365|T||Al-Qudah,K.M., L.A. Sharif, O.F. Al-Rawashdeh, and F.K. Al-Ani|Efficacy of Closantel Plus Albendazole Liquid Suspension Against Natural Infection of Gastrointestinal Parasites in Camels|Vet. Parasitol.82:173-178|1999|10.1016/S0304-4017(99)00010-2
60366|T||Annis,P.C., and R. Morton|The Acute Mortality Effects of Carbon Dioxide on Various Life Stages of Sitophilus oryzae|J. Stored Prod. Res.33(2): 115-124|1997|10.1016/S0022-474X(96)00050-1
60367|T||U.S. Department of Agriculture|Residues in Fatty Tissues, Brain, and Milk of Cattle from Insecticides Applied for Grasshopper Control on Rangeland|J. Econ. Entomol.52(6): 1206-1210|1959|10.1093/jee/52.6.1206
60368|T||Balaguer,L., J.D. Barnes, A. Panicucci, and A.M. Borland|Production and Utilization of Assimilates in Wheat (Triticum aestivum L.) Leaves Exposed to Elevaled O3 and/or CO2|New Phytol.129:557-568|1995|10.1111/j.1469-8137.1995.tb03023.x
60369|T||Barros,A.T.M., M.W.,Jr. Alison, and L.D. Foil|Evaluation of a Yearly Insecticidal Ear Tag Rotation for Control of Pyrethroid-Resistant Horn Flies (Diptera:  Muscidae)|Vet. Parasitol.82:317-325|1999|10.1016/S0304-4017(99)00024-2
60370|AT||Bongers,T., K. Ilieva-Makulec, and K. Ekschmitt|Acute Sensitivity of Nematode Taxa to CuSO4 and Relationships with Feeding-Type and Life-History Classification|Environ. Toxicol. Chem.20(7): 1511-1516|2001|
60371|T||Carbonell-Barrachina,A.A., F. Burlo, A. Burgos-Hernandez, E. Lopez, and J. Mataix|The Influence of Arsenite Concentration on Arsenic Accumulation in Tomato and Bean Plants|Sci. Hortic.71:167-176|1997|10.1016/S0304-4238(97)00114-3
60372|T||Chaurasia,S.S., S. Panda, and A. Kar|Withania somnifera Root Extract in the Regulation of Lead-Induced Oxidative Damage in Male Mouse|Pharmacol. Res.41(6): 663-666|2000|10.1006/phrs.1999.0634
60373|T||Comin,J.J., J. Barloy, G. Bourrie, and F. Trolard|Differential Effects of Monomeric and Polymeric Aluminium on the Root Growth and on the Biomass Production of Root and Shoot of Corn in Solution Culture|Eur. J. Agron.11:115-122|1999|10.1016/S1161-0301(99)00020-9
60374|T||Crommentuijn,T., A. Doornekamp, and C.A.M. Van Gestel|Bioavailability and Ecological Effects of Cadmium on Folsomia candida (Willem) in an Artificial Soil Substrate as Influenced by pH and Organic Matter|Appl. Soil Ecol.5:261-271|1997|10.1016/S0929-1393(97)00003-6
60375|T||Dale,O., B. Mortensen, L. Thommesen, and B. Hagen|Cisplatin Toxicity in the Rat may be Influenced by Anaesthetic Agents|Acta Anaesthesiol. Scand.44(6): 770-|2000|10.1034/j.1399-6576.2000.440619.x
60376|T||De Knecht,J.A., G.J. Stroomberg, C. Tump, M. Helms, R.A. Verweij, J. Commandeur, C.A.M. Van Gestel, and N.M. Van Straal|Characterization of Enzymes Involved in Biotransformation of Polycyclic Aromatic Hydrocarbons in Terrestrial Isopods|Environ. Toxicol. Chem.20(7): 1457-1464|2001|10.1002/etc.5620200707
60377|T||Font,E., E. Desfilis, M. Perez-Canellas, S. Alcantara, and J.M. Garcia-Verdugo|3-Acetylpyridine-Induced Degeneration and Regeneration in the Adult Lizard Brain:  A Qualitative and Quantitative Analysis|Brain Res.754:245-259|1997|10.1016/S0006-8993(97)00085-1
60378|T||Foulon,O., H. Girard, C. Pallen, M. Urtizberea, M. Repetto-Larsay, and A.M. Blacker|Induction of Supernumerary Ribs with Sodium Salicylate|Reprod. Toxicol.13:369-374|1999|10.1016/S0890-6238(99)00029-5
60379|T||El-Ashmawy,I.M., and S.A. Youssef|The Antagonistic Effect of Chlorpromazine on Cadmium Toxicity|Toxicol. Appl. Pharmacol.161(1): 34-39|1999|10.1006/taap.1999.8785
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60382|T||Guzman,A., C. Garcia, and I. Demestre|Subchronic Toxicity of the new Quinolone Antibacterial Agent Irloxacin in Beagle Dogs|Arzneim. Forsch.50(1): 485-494|2000|
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60385|T||Holmstrup,M., and P.H. Krogh|Effects and Risk Assessment of Linear Alkylbenzene Sulfonates in Agricultural Soil.  3.  Sublethal Effects on Soil Invertebrates|Environ. Toxicol. Chem.20(8): 1673-1679|2001|10.1002/etc.5620200808
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60388|T||Jotwani,M.G., B.K. Rai, and S. Pradhan|Relative Efficacy of Different Insecticides as Stomach Poisons to Locusta migratoria Linnaeus (Acrididae - Orthoptera)|Indian J. Entomol.24(2): 75-79|1962|
60390|T||Kenaga,E.E.|Some Hydroxynitrosamino Aliphatic Acid Derivatives as Insect Reproduction Inhibitors|J. Econ. Entomol.62:1006-1008|1969|10.1093/jee/62.5.1006
60391|T||Kirkbride-Smith,A.E., H.A. Bell, and J.P. Edwards|Effects of Three Vertebrate Hormones on the Growth, Development, and Reproduction of the Tomato Moth, Lacanobia oleracea L. (Lepidoptera:  Noctuidae)|Environ. Toxicol. Chem.20(8): 1838-1845|2001|10.1002/etc.5620200830
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60393|T||Le Lamer,S., P. Poucheret, G. Cros, R.K. De Richter, P.A. Bonnet, and F. Bressolle|Pharmacokinetics of Sodium Tungstate in Rat and Dog:  A Population Approach|J. Pharmacol. Exp. Ther.294(2): 714-721|2000|
60394|T||Liang,C.S., N.K. Rounds, E. Dong, S.Y. Stevens, J. Shite, and F. Qin|Alterations by Norepinephrine of Cardiac Sympathetic Nerve Terminal Function and Myocardial beta-Adrenergic Receptor Sensitivity in the Ferret.  Normalization by Antioxidant Vitamins|Circulation (N.Y.)102(1): 96-103|2000|
60395|T||Karunaratne,C., G.A. Moore, R. Jones, and R. Ryan|Phosphine and Its Effect on Some Common Insects in Cut Flowers|Postharvest Biol. Technol.10:255-262|1997|10.1016/S0925-5214(97)01406-3
60398|T||McLean,F.T., and B.E. Gilbert|Aluminum Toxicity|J. Plant Physiol.3:293-302|1928|10.1104/pp.3.3.293
60399|T||Monteiro,L.R., and R.W. Furness|Kinetics, Dose-Response, Excretion, and Toxicity of Methylmercury in Free-Living Cory's Shearwater Chicks|Environ. Toxicol. Chem.20(8): 1816-1823|2001|
60400|T||Mowat,D.J., and T.H. Coaker|The Toxicity of Some Soil Insecticides to Carabid Predators of the Cabbage Root Fly (Erioischia brassicae (Bouche))|Ann. Appl. Biol.59:349-354|1967|10.1111/j.1744-7348.1967.tb04451.x
60401|T||Munn,D.A., and R.E. McCollum|Solution Culture Evaluation of Sweet Potato Cultivar Tolerance to Aluminum|Agron. J.68:989-991|1976|10.2134/agronj1976.00021962006800060039x
60402|T||Mutze,G.J., and D.J. Hubbard|Effects of Molluscicide Baits on Field Populations of House Mice|Agric. Ecosyst. Environ.80(3): 205-211|2000|10.1016/S0167-8809(00)00147-X
60403|T||Oste,L.A., J. Dolfing, W.C. Ma, and T.M. Lexmond|Cadmium Uptake by Earthworms as Related to the Availability in the Soil and the Intestine|Environ. Toxicol. Chem.20(8): 1785-1791|2001|10.1002/etc.5620200823
60404|T||Pemonge,J., M.J. Pascual-Villalobos, and C. Regnault-Roger|Effects of Material and Extracts of Trigonella foenum-graecum L. Against the Stored Product Pests Tribolium castaneum (Herbst) (Coleoptera:  Tenebrionidae) and Acanthoscelides obtectus (Say) (Coleoptera:  Bruchidae)|J. Stored Prod. Res.33(3): 209-217|1997|10.1016/S0022-474X(97)00007-6
60405|T||Peveling,R., J.J. Rafanomezantsoa, R. Razafinirina, R. Tovonkery, and G. Zafimaniry|Environmental Impact of the Locust Control Agents Fenitrothion, Fenitrothion-Esfenvalerate and Triflumuron on Terrestrial Arthropods in Madagascar|Crop Prot.18:659-676|1999|10.1016/S0261-2194(99)00072-1
60406|T||Poland,A., J. Knutson, E. Glover, and A. Kende|Tumor Promotion in the Skin of Hairless Mice by Halogenated Aromatic Hydrocarbons|In: I.B.Weinstein and H.J.Vogel (Eds.), Genes and Proteins in Oncogenesis, Academic Press, NY:143-161|1983|
60407|T||Prasad,K.V.S.K., P. Pardha Saradhi, and P. Sharmila|Concerted Action of Antioxidant Enzymes and Curtailed Growth Under Zinc Toxicity in Brassica juncea|Environ. Exp. Bot.42:1-10|1999|10.1016/S0098-8472(99)00013-1
60408|T||Rahman,M.F., M.K.J. Siddiqui, and K. Jamil|Acid and Alkaline Phosphatase Activities in a Novel Phosphorothionate (RPR-11) Treated Male and Female Rats.  Evidence of Dose and Time-Dependent Response|Drug Chem. Toxicol.23(3): 497-509|2000|10.1081/DCT-100100131
60409|T||Ribera,D., J.F. Narbonne, C. Arnaud, and M. Saint-Denis|Biochemical Responses of the Earthworm Eisenia fetida andrei Exposed to Contaminated Aritificial Soil, Effects of Carbaryl|Soil Biol. Biochem.33:1123-1130|2001|10.1016/S0038-0717(01)00035-9
60410|T||Satpathy,J.M.|Effect of Soil Treatment with Granular Insecticides on Soil Micro-Organisms|Indian J. Entomol.36(2): 139-141|1974|
60411|T||Schafer,H.J., S. Greiner, T. Rausch, and A. Haag-Kerwer|In Seedlings of the Heavy Metal Accumulator Brassica juncea Cu2+ Differentially Affects Transcript Amounts for gamma-Glutamylcysteine Synthetase (gamma-ECS) and Metallothionein (MT2)|FEBS Lett.404:216-220|1997|10.1016/S0014-5793(97)00132-4
60413|T||Sirajudeen,K.N.S., R. Tamizh Selvi, Babakrishnan, H. Devaraj, and N.S. Devaraj|Effect of Amiodarone on the Membrane Bound Enzymes of Rat Intestine|Drug Chem. Toxicol.23(2): 387-400|2000|10.1081/DCT-100100124
60414|T||Somani,S.M., K. Husain, T. Asha, and R. Helfert|Interactive and Delayed Effects of Pyridostigmine and Physical Stress on Biochemical and Histological Changes in Peripheral Tissue of Mice|J. Appl. Toxicol.20(4): 327-334|2000|10.1002/1099-1263(200007/08)20:4<327::AID-JAT697>3.0.CO;2-J
60415|T||Sresty,T.V.S., and K.V.M. Rao|Ultrastructural Alterations in the Response to Zinc and Nickel Stress in the Root Cells of Pigeonpea|Environ. Exp. Bot.41:3-13|1999|10.1016/S0098-8472(98)00034-3
60416|T||Stephan,F.K., J.C. Smith, and E. Fisher|Profound Conditioned Taste Aversion Induced by Oral Consumption of 2-Deoxy-D-Glucose|Physiol. Behav.68:221-226|1999|10.1016/S0031-9384(99)00179-1
60417|T||Tagawa,T., K. Kono, T. Dote, K. Usuda, H. Nishiura, C. Koizumi, M. Saito, H. Nakaya, and H. Nagaie|Pharmacokinetics and Effects After Intravenous Administration of High-Dose Boron to Rat|Int. Arch. Occup. Environ. Health73(suppl.): S98 - S100|2000|
60418|T||Tomasi,T.E., J. Ashcraft, and E. Britzke|Effects of Fungicides on Thyroid Function, Metabolism, and Thermoregulation in Cotton Rats|Environ. Toxicol. Chem.20(8): 1709-1715|2001|10.1002/etc.5620200813
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60421|T||Wagman,N., B. Strandberg, and M. Tysklind|Dietary Uptake and Elimination of Selected Polychorinated Biphenyl Congeners and Hexachlorobenzene in Earthworms|Environ. Toxicol. Chem.20(8): 1778-1784|2001|10.1002/etc.5620200822
60422|T||Williams,D.E., and J. Vlamis|The Effect of Silicon on Yield and Manganese-54 Uptake and Distribution in the Leaves of Barley Plants Grown in Culture Solutions|Plant Physiol.32:404-409|1957|10.1104/pp.32.5.404
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60425|T||Tanaka,M., M. Yanagi, K. Shirota, Y. Une, Y. Nomura, T. Masaoka, and F. Akahori|Effect of Cadmium in the Zinc Deficient Rat|Vet. Hum. Toxicol.37(3): 203-208|1995|
60426|T||Dodds-Smith,M.E., M.S. Johnson, and D.J. Thompson|Trace Metal Accumulation by the Shrew Sorex araneus II.  Tissue Distribution in Kidney and Liver|Ecotoxicol. Environ. Saf.24(1): 118-130|1992|10.1016/0147-6513(92)90040-A
60427|T||Berry,N.R., R.F.E. Axford, I.A. Dewi, P.C. Chiy, and C.J.C. Phillips|The Effect of a Low Dose of Cadmium on Spermatogenesis in Rams|Small Ruminant Res.31(2): 97-102|1999|10.1016/S0921-4488(98)00136-9
60428|T||Hamada,T., S.I. Nakano, S. Iwai, A. Tanimoto, K. Ariyoshi, and O. Koide|Pathological Study on Beagles After Long-Term Oral Administration of Cadmium|Toxicol. Pathol.19(2): 138-147|1991|10.1177/019262339101900208
60429|T||King,R.H., W.G. Brown, V.C.M. Amenta, B.C. Shelley, P.D. Handson, N.B. Greenhill, and G.P. Willcock|The Effect of Dietary Cadmium Intake on the Growth Performance and Retention of Cadmium in Growing Pigs|Anim. Feed Sci. Technol.37(1-2): 1-7|1992|10.1016/0377-8401(92)90115-M
60430|T||Smith,R.M., L.C.,Jr. Griel, L.D. Muller, R.M. Leach, and D.E. Baker|Effects of Dietary Cadmium Chloride Throughout Gestation on Blood and Tissue Metabolites of Primigravid and Neonatal Dairy Cattle|J. Anim. Sci.69(10): 4078-4087|1991|10.2527/1991.69104078x
60431|T||Osuna,O., and G.T. Edds|Toxicology of Aflatoxin B-1, Warfarin, and Cadmium in Young Pigs:  Performance and Hematology|Am. J. Vet. Res.43(8): 1380-1386|1982|
60432|T||Wlostowski,T., A. Krasowska, and W. Dworakowski|Low Ambient Temperature Decreases Cadmium Accumulation in the Liver and Kidneys of the Bank Vole (Clethrionomys glareolus)|BioMetals9(4): 363-369|1996|10.1007/BF00140605
60433|T||Mangler,B., G. Fischer, H.G. Classen, and H. Thoni|The Induction and Reversibility of Cadmium-Induced Nephropathy in Rats:  Quantitative Analytical and Histopathological Studies|Trace Elem. Med.5(4): 143-149|1988|
60434|T||Blakley,B.R.|The Effect of Cadmium Chloride on the Immune Response in Mice|Can. J. Comp. Med.49(1): 104-108|1985|
60435|T||Lagally,H.R., T.C. Siewicki, and G.N. Biddle|Influence of Cadmium Ingestion on Bone Mineralization in the Rat|Nutr. Rep. Int.21(3): 365-374|1980|
60436|T||Pond,W.G., E.F.,Jr. Walker, and D. Kirtland|Cadmium-Induced Anemia in Growing Pigs:  Protective Effect of Oral or Parenteral Iron|J. Anim. Sci.36(6): 1122-1124|1973|10.2527/jas1973.3661122x
60437|T||Groten,J.P., E.J. Sinkeldam, T. Muys, J.B. Luten, and P.J. Van Bladeren|Interaction of Dietary Ca, P, Mg, Mn, Cu, Fe, Zn and Se with the Accumulation and Oral Toxicity of Cadmium in Rats|Food Chem. Toxicol.29(4): 249-258|1991|10.1016/0278-6915(91)90022-Y
60438|T||Whelton,B.D., M.H. Bhattacharyya, B.A. Carnes, E.S. Moretti, and D.P. Peterson|Female Reproduction and Pup Survival and Growth for Mice fed a Cadmium-Containing Purified Diet through Six Consecutive Rounds of Gestation and Lactation|J. Toxicol. Environ. Health24(3): 321-343|1988|10.1080/15287398809531165
60439|T||Combs,D.K., R.D. Goodrich, and J.C. Meiske|Influence of Dietary Zinc or Cadmium on Hair and Tissue Mineral Concentrations in Rats and Goats|J. Anim. Sci.56(1): 184-193|1983|10.2527/jas1983.561184x
60440|T||Steibert,E., M. Kaminski, O. Kaminska, E. Kusz, B. Krol, B. Sowa, and K. Gralewska|Effect of Oral Cadmium Administration to Female Rats Before and During Pregnancy on the Histoenzymatic Activity in Maternal and Fetal Kidneys|Folia Biol. (Krakow)32(4): 331-340|1984|
60441|T||Eakin,D.J., L.A. Schroeder, P.D. Whanger, and P.H. Weswig|Cadmium and Nickel Influence on Blood Pressure, Plasma Renin, and Tissue Mineral Concentrations|Am. J. Physiol. Endocrinol. Metab.238(1): E53 - E61|1980|10.1152/ajpendo.1980.238.1.E53
60442|T||Ahokas,R.A., P.V.,Jr. Dilts, and E.B. LaHaye|Cadmium-Induced Fetal Growth Retardation:  Protective Effect of Excess Dietary Zinc|Am. J. Obstet. Gynecol.136(2): 216-221|1980|10.1016/0002-9378(80)90599-2
60443|T||Wilson,R.H., F. DeEds, and A.J.,Jr. Cox|Effects of Continued Cadmium Feeding|J. Pharmacol. Exp. Ther.(71): 222-235|1941|
60444|T||Lamphere,D.N., C.R. Dorn, C.S. Reddy, and A.W. Meyer|Reduced Cadmium Body Burden in Cadmium-Exposed Calves Fed Supplemental Zinc|Environ. Res.33(1): 119-129|1984|10.1016/0013-9351(84)90013-6
60445|T||Meyer,S.A., W.A. House, and R.M. Welch|Some Metabolic Interrelationships Between Toxic Levels of Cadmium and Nontoxic Levels of Selenium Fed to Rats|J. Nutr.112(5): 954-961|1982|10.1093/jn/112.5.954
60446|T||Gupta,A., R.C. Murthy, and S.V. Chandra|Neurochemical Changes in Developing Rat Brain After Pre- and Postnatal Cadmium Exposure|Bull. Environ. Contam. Toxicol.51(1): 12-17|1993|10.1007/BF00200994
60447|T||Cromwell,G.L., T.S. Stahly, and H.J. Monegue|Effects of Source and Level of Copper on Performance and Liver Copper Stores in Weanling Pigs|J. Anim. Sci.67(11): 2996-3002|1989|10.2527/jas1989.67112996x
60448|T||Pearce,J., N. Jackson, and M.H. Stevenson|The Effects of Dietary Intake and of Dietary Concentration of Copper Sulphate on the Laying Domestic Fowl: Effects on Some Aspects of Lipid, Carbohydrate and Amino Acid Metabolism|Br. Poult. Sci.24(3): 337-348|1983|10.1080/00071668308416748
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60450|T||Anderson,C., and K.D. Danylchuk|Effect of Chronic Low-Level Cadmium intoxication on the Haversian Remodeling System in Dogs: A Reversible Phenomenon|Calcif. Tissue Int.27(2): 121-126|1979|10.1007/BF02441173
60451|T||Godowicz,B., and B. Musialek|Sensitivity to Cadmium of Male Mice from Stocks with Different Degree of Heterozygosity|Genet. Pol.29(3-4): 361-368|1988|
60452|T||Bhattacharyya,M.H., B.D. Whelton, D.P. Peterson, B.A. Carnes, M.S. Guram, and E.S. Moretti|Kidney Changes in Multiparous Mice Fed a Nutrient-Sufficient Diet Containing Cadmium|Toxicology50(2): 205-215|1988|10.1016/0300-483X(88)90092-3
60453|T||Mukherjee,M.M., N. Ganguly, and S.R. Dasgupta|Short- and Long-Term Effects of Cadmium Chloride on the Testes of Rats|J. Anat. Soc. India33(2): 107-115|1984|
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60458|T||Platt,D.S., and B.L. Cockrill|Biochemical Changes in Rat Liver in Response to Treatment with Drugs and Other Agents - II. Effects of Halothane, DDT, Other Chlorinated Hydrocarbons, Thioacetamide, Dimethylnitrosamine and Ethionine|Biochem. Pharmacol.18(2): 445-457|1969|10.1016/0006-2952(69)90221-4
60464|T||Pipkin,J., J.F. Anson, W.G. Hinson, P.H. Duffy, E.R. Burns, and D.A. Casciano|The Turnover of Radiolabeled Nuclear Proteins in Rats Exposed to Environmental and Chemical Stress|Toxicol. Lett.39(1): 15-26|1987|10.1016/0378-4274(87)90252-9
60465|T||Thacker,P.A.|Effect of High Levels of Copper or Dichlorvos During Late Gestation and Lactation on Sow Productivity|Can. J. Anim. Sci.71(1): 227-232|1991|10.4141/cjas91-025
60466|T||Wilson,J.L., R.L. Tugwell, and C.C. Wilson|The Effects of Karmex and Copper Sulfate on Chicks|Tenn. Farm Home Sci.(Jul-Aug-Sept): 3-|1975|
60467|T||Wu,B.N., D.M. Medeiros, K.N. Lin, and B.M. Thorne|Long Term Effects of Dietary Copper and Sodium upon Blood Pressure in the Long-Evans Rat|Nutr. Res.4(2): 305-314|1984|10.1016/S0271-5317(84)80015-9
60468|T||Yannakopoulos,A.L., A.S. Tserveni-Gousi, and G. Zervas|Effect of Dietary Copper Sulphate on the Performance of Growing Japanese Quail|J. Agric. Sci.115(2): 291-293|1990|10.1017/S0021859600075262
60469|T||Herigstad,R.R., C.K. Whitehair, and O.E. Olson|Inorganic and Organic Selenium Toxicosis in Young Swine Comparison of Pathologic Changes with Those in Swine with Vitamin E Selenium Deficiency|Am. J. Vet. Res.34(10): 1227-1238|1973|
60470|T||Whelton,B.D., D.P. Peterson, E.S. Moretti, H. Dare, and M.H. Bhattacharyya|Skeletal Changes in Multiparous, Nulliparous and Ovariectomized Mice fed Either a Nutrient-Sufficient or -Deficient Diet Containing Cadmium|Toxicology119(2): 103-121|1997|10.1016/S0300-483X(96)03614-1
60471|T||Webster,W.S.|Cadmium-Induced Fetal Growth Retardation in Mice and the Effects of Dietary Supplements of Zinc, Copper, Iron and Selenium|J. Nutr.109(9): 1646-1651|1979|10.1093/jn/109.9.1646
60472|T||Felinska,W., R. Brus, R. Szkilnik, M. Rykaczewska, A. Plech, R.M. Kostrzewa, and J. Frydrych|Cadmium Modulates Reactivity of Central Dopamine Receptors in Rats Prenatally Exposed to Ethanol|Pol. J. Environ. Stud.4(1): 31-36|1995|
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60475|T||Koller,L.D., and J.G. Roan|Effects of Lead and Cadmium on Mouse Peritoneal Macrophages|J. Reticuloendothel. Soc.21(1): 7-12|1977|
60476|T||Bokori,J., S. Fekete, I. Kadar, J. Koncz, F. Vetesi, and M. Albert|Complex Study of the Physiological Role of Cadmium.  III.  Cadmium Loading Trials on Broiler Chickens|Acta Vet. Hung.43(2-3): 195-228|1995|
60477|T||Loeser,E., and D. Lorke|Semichronic Oral Toxicity of Cadmium  2.  Studies on Dogs|Toxicology7(2): 225-232|1977|10.1016/0300-483X(77)90068-3
60478|T||Siewicki,T.C., J.E. Balthrop, and J.S. Sydlowski|Iron Metabolism of Mice Fed Low Levels of Physiologically Bound Cadmium in Oyster or Cadmium Chloride|J. Nutr.113(6): 1140-1149|1983|10.1093/jn/113.6.1140
60479|T||Yuyama,S.|Effect of Cadmium on Some Key Enzymes of Tryptophan-NAD Pathway in Rats In Vivo|Koshu Eiseiin Kenkyu Hokoku (Bull. of the Inst. of Public Health)31(1): 36-44|1982|
60480|T||Stewart,J.L., C.L. Newhouse, M.V. Wagner, and W.S. Bradshaw|The Effects of Prenatal Exposure to Structurally Diverse Chemicals on the Ontogeny of Rat Dehydrogenases|Biol. Neonate46(2): 69-79|1984|10.1159/000242036
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60485|T||Yuhas,E.M., T.S. Miya, and R.C. Schnell|Dose-Related Alterations in Growth and Mineral Disposition by Chronic Oral Cadmium Administration in the Male Rat|Toxicology12(1): 19-29|1979|10.1016/0300-483X(79)90028-3
60486|T||Suzuki,T., and A. Yoshida|Effects of Dietary Level of Iron and Ascorbic Acid on Cadmium Toxicity in Rats|Agric. Biol. Chem.43(5): 1151-1153|1979|
60487|T||Mesonero,J.E., M.C. Rodriguez Yoldi, and M.J. Rodriguez Yoldi|Effect of Cadmium on Enzymatic Digestion and Sugar Transport in the Small Intestine of Rabbit|Biol. Trace Elem. Res.38(3): 217-226|1993|10.1007/BF02785306
60488|T||Hill,C.H.|Studies on the Ameliorating Effect of Ascorbic Acid on Mineral Toxicities in the Chick|J. Nutr.109(1): 84-90|1979|10.1093/jn/109.1.84
60489|T||Doyle,J.J., W.H. Pfander, S.E. Grebing, and J.O. Pierce|Effect of Dietary Cadmium on Growth, Cadmium Absorption and Cadmium Tissue Levels in Growing Lambs|J. Nutr.104(2): 160-166|1974|10.1093/jn/104.2.160
60490|T||Perry,H.M.,Jr., M. Erlanger, and E.F. Perry|Elevated Systolic Pressure Following Chronic Low-Level Cadmiun Feeding|Am. J. Physiol. Heart Circ. Physiol.232(2): H114 - H121|1977|10.1152/ajpheart.1977.232.2.H114
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60495|T||Noda,S., K. Kubota, K. Yamada, S. Yoshizawa, S. Moriuchi, and N. Hosoya|The Effect of Vitamin D3 and Dietary Calcium Level on the Cadmium-Induced Morphological and Biochemical Changes in Rat Intestinal Mucosa|J. Nutr. Sci. Vitaminol.24(4): 405-418|1978|10.3177/jnsv.24.405
60496|T||Mills,C.F., and A.C. Dalgarno|Copper and Zinc Status of Ewes and Lambs Receiving Increased Dietary Concentrations of Cadmium|Nature239:171-173|1972|10.1038/239171a0
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60498|T||Byron,W.R., G.W. Bierbower, J.B. Brouwer, and W.H. Hansen|Pathologic Changes in Rats and Dogs from Two-Year Feeding of Sodium Arsenite or Sodium Arsenate|Toxicol. Appl. Pharmacol.10(1): 132-147|1967|10.1016/0041-008X(67)90135-4
60506|T||Paternain,J.L., A. Ortega, J.L. Domingo, J.M. Llobet, and J. Corbella|Oral meso-2,3-Dimercaptosuccinic Acid in Pregnant Sprague-Dawley Rats: Teratogenicity and Alterations in Mineral Metabolism. II. Effect on Mineral Metabolism|J. Toxicol. Environ. Health30(3): 191-197|1990|10.1080/15287399009531422
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60513|T||McCosker,P.J.|Systemic Effect of Dieldrin on the 'Body Louse' of Poultry|Nature179(4563): 790-|1957|10.1038/179790a0
60514|T||Keane,W.T., and M.R. Zavon|Validity of a Critical Blood Level for Prevention of Dieldrin intoxication|Arch. Environ. Health19:36-44|1969|10.1080/00039896.1969.10666802
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60528|T||Eden,W.G.|Toxicity of Dieldrin to Chickens|J. Econ. Entomol.44(6): 1013-|1951|10.1093/jee/44.6.1013
60530|T||Kitselman,C.H.|Long Term Studies on Dogs fed Aldrin and Dieldrin in Sublethal Dosages, with Reference to the Histopathological Findings and Reproduction|J. Am. Vet. Med. Assoc.123:28-30|1953|
60531|T||Kitselman,C.H., and A.R. Borgmann|A Comparative Study of the Reaction of Dogs as a Susceptible Species to Sublethal Doses of Aldrin and Dieldren|J. Am. Vet. Med. Assoc.121:383-385|1952|
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60535|T||Al-Timimi,A.A., and T.W. Sullivan|Safety and Toxicity of Dietary Organic Arsenicals Relative to Performance of Young Turkeys. 1. Arsanilic-Acid and Sodium Arsanilate|Poult. Sci.51(1): 111-116|1972|10.3382/ps.0510111
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60537|T||Chen,H., K. Yoshida, H. Wanibuchi, S. Fukushima, Y. Inoue, and G. Endo|Methylation and Demethylation of Dimethylarsinic Acid in Rats Following Chronic Oral Exposure|Appl. Organomet. Chem.10:741-745|1996|10.1002/(SICI)1099-0739(199611)10:9<741::AID-AOC551>3.0.CO;2-9
60541|T||Healy,S.M., E.A. Casarez, F. Ayala-Fierro, and H.V. Aposhian|Enzymatic Methylation of Arsenic Compounds V.  Enzymatic Methylation of Arsenic Compounds|Toxicol. Appl. Pharmacol.148(1): 65-70|1998|10.1006/taap.1997.8306
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60544|T||Woods,J.S., and B.A. Fowler|Altered Regulation of Mammalian Hepatic Heme Biosynthesis and Urinary Porphyrin Excretion During Prolonged Exposure to Sodium Arsenate|Toxicol. Appl. Pharmacol.43(2): 361-371|1978|10.1016/0041-008X(78)90015-7
60545|T||Nagaraja,T.N., and T. Desiraju|Regional Alterations in the Levels of Brain Biogenic Amines, Glutamate, GABA, and GAD Activity due to Chronic Consumption of Inorganic Arsenic in Developing and Adult Rats|Bull. Environ. Contam. Toxicol.50(1): 100-107|1993|10.1007/BF00196547
60546|T||Cameron,I., P.M. McNamee, A. Markham, R.M. Morgan, and M. Wood|The Effects of Cadmium on Succinate and NADH-Linked Substrate Oxidations in Rat Hepatic Mitochondria|J. Appl. Toxicol.6(5): 325-330|1986|10.1002/jat.2550060505
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60560|T||Agarwal,S.D., S. Ghosh, S. Sengupta, S. Sarkar, and A. Ghosh|An Adrenocorticolytic Agent Alters Thyro-gonadal System in the Pigeon, Columba livia|Philipp. J. Sci.125(3): 235-240|1996|
60561|T||Ortega,P., W.J.,Jr. Hayes, W.F. Durham, and A. Mattson|DDT in the Diet of the Rat:  Its Effect on DDT Storage, Liver Function and Cell Morphology|Public Health Monogr.No.43, Public Health Serv., Savannah, GA:27 p.|1956|
60563|T||Bitman,J., H.C. Cecil, S.J. Harris, and G.F. Fries|Comparison of DDT Effect on Pentobarbital Metabolism in Rats and Quail|J. Agric. Food Chem.19(2): 333-338|1971|10.1021/jf60174a036
60564|T||Hayes,W.J.,Jr.|Dosage Relationships Associated with DDT in Milk|Toxicol. Appl. Pharmacol.38(1): 19-28|1976|10.1016/0041-008X(76)90156-3
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60570|T||Becker,D.E., and S.E. Smith|The Level of Cobalt Tolerance in Yearling Sheep|J. Anim. Sci.10:266-271|1951|10.2527/jas1951.101266x
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60574|T||Anderson,M.B., K. Lepak, V. Farinas, and W.J. George|Protective Action of Zinc Against Cobalt-Induced Testicular Damage in the Mouse|Reprod. Toxicol.7:49-54|1993|10.1016/0890-6238(93)90009-V
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60577|T||Ferm,V.H., D.P. Hanlon, C.C. Willhite, W.N. Choy, and S.A. Book|Embryotoxicity and Dose-Response Relationships of Selenium in Hamsters|Reprod. Toxicol.4(3): 183-190|1990|10.1016/0890-6238(90)90057-3
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60579|T||Dietz,D.D., M.R. Elwell, W.E.,Jr. Davis, and E.F. Meirhenry|Subchronic Toxicity of Barium Chloride Dihydrate Administered to Rats and Mice in the Drinking  Water|Fundam. Appl. Toxicol.19(4): 527-537|1992|10.1016/0272-0590(92)90091-U
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60585|T||Kowalska,M.|Changes in Rat Lung Collagen After Life-Time Treatment with Vanadium|Toxicol. Lett.47(2): 185-190|1989|10.1016/0378-4274(89)90074-X
60587|T||Wilson,H.F., N.N. Allen, G. Bohstedt, J. Betheil, and H.A. Lardy|Feeding Experiments with DDT-Treated Pea Vine Silage with Special Reference to Dairy Cows, Sheep, and Laboratory Animals|J. Econ. Entomol.39(6): 801-806|1946|10.1093/jee/39.6.801
60588|T||Nelson,A.A., J.H. Draize, G. Woodward, O.G. Fitzhugh, R.B.,Jr. Smith, and H.O. Calvery|Histopathological Changes Following Administration of DDT to Several Species of Animals|Public Health Rep.59(31): 1009-1020|1944|10.2307/4584980
60589|T||Dieter,M.P., C.W. Jameson, M.R. Elwell, J.W. Lodge, M. Hejtmancik, S.L. Grumbein, M. Ryan, and A.C. Peters|Comparative Toxicity and Tissue Distribution of Antimony Potassium Tartrate in Rats and Mice Dosed by Drinking Water or Intraperitoneal Injection|J. Toxicol. Environ. Health34(1): 51-82|1991|10.1080/15287399109531548
60601|T||Robidoux,P.Y., J. Hawari, S. Thiboutot, G. Ampleman, and G.I. Sunahara|Chronic Toxicity of Octahydro-1,3,5,7-Tetranitro-1,3,5,7-Tetrazocine (HMX) in Soil Determined Using the Earthworm (Eisenia andrei) Reproduction Test|Environ. Pollut.111(2): 283-292|2001|10.1016/S0269-7491(00)00070-1
60602|A||Wu,W.Z., W. Li, Y. Xu, and J.W. Wang|Long-Term Toxic Impact of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Reproduction, Sexual Differentiation, and Development of Different Life Stages of Gobiocypris rarus and Daphnia magna|Ecotoxicol. Environ. Saf.48(3): 293-300|2001|10.1006/eesa.2000.2013
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60604|A||Ren,L., S.K. Lewis, and J.J. Lech|Effects of Estrogen and Nonylphenol on the Post-Transcriptional Regulation of Vitellogenin Gene Expression|Chem.-Biol. Interact.100(1): 67-76|1996|10.1016/0009-2797(95)03686-5
60605|A||Gronen,S., N. Denslow, S. Manning, S. Barnes, D. Barnes, and M. Brouwer|Serum Vitellogenin Levels and Reproductive Impairment of Male Japanese Medaka (Oryzias latipes) Exposed to 4-tert-Octylphenol|Environ. Health Perspect.107(5): 385-390|1999|10.1289/ehp.99107385
60607|A||Willey,J.B., and P.H. Krone|Effects of Endosulfan and Nonylphenol on the Primordial Germ Cell Population in Pre-larval Zebrafish Embryos|Aquat. Toxicol.54(1-2): 113-123|2001|10.1016/S0166-445X(00)00178-8
60608|A||Weber,L.P., and D.M. Janz|Effect of beta-Naphthoflavone and Dimethylbenz[a]anthracene on Apoptosis and HSP70 Expression in Juvenile Channel Catfish (Ictalurus punctatus) Ovary|Aquat. Toxicol.54(1-2): 39-50|2001|10.1016/S0166-445X(00)00179-X
60611|T||Pedigo,N.G., W.J. George, and M.B. Anderson|Effects of Acute and Chronic Exposure to Cobalt on Male Reproduction in Mice|Reprod. Toxicol.2(1): 45-53|1988|10.1016/S0890-6238(88)80008-X
60612|A||Zaroogian,G., G. Gardner, D. Borsay Horowitz, R. Gutjahr-Gobell, R. Haebler, and L. Mills|Effect of 17beta-Estradiol, o,p'-DDT, Octylphenol and p,p'-DDE on Gonadal Development and Liver and Kidney Pathology in Juvenile Male Summer Flounder (Paralichthys dentatus)|Aquat. Toxicol.54(1/2): 101-112|2001|10.1016/S0166-445X(00)00177-6
60613|A||Cooley,H.M., A.T. Fisk, S.C. Wiens, G.T. Tomy, R.E. Evans, and D.C.G. Muir|Examination of the Behavior and Liver and Thyroid Histology of Juvenile Rainbow Trout (Oncorhynchus mykiss) Exposed to high Dietary Concentrations of C10-, C11-, C12- and C14-Polychlorinated n-Alkanes|Aquat. Toxicol.54(1-2): 81-99|2001|10.1016/S0166-445X(00)00172-7
60614|A||Lindholst,C., S.N. Pedersen, and P. Bjerregaard|Uptake, Metabolism and Excretion of Bisphenol A in the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.55(1-2): 75-84|2001|10.1016/S0166-445X(01)00157-6
60615|A||Van den Belt,K., R. Verheyen, and H. Witters|Reproductive Effects of Ethynylestradiol and 4t-Octylphenol on the Zebrafish (Danio rerio)|Arch. Environ. Contam. Toxicol.41(4): 458-467|2001|10.1007/s002440010272
60617|A||Chatterjee,S., A.K. Dasmahapatra, and R. Ghosh|Disruption of Pituitary-Ovarian Axis by Carbofuran in Catfish, Heteropneustes fossilis (Bloch)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(3): 265-273|2001|10.1016/S1532-0456(01)90203-0
60618|A||Arukwe,A., S.W. Kullman, and D.E. Hinton|Differential Biomarker Gene and Protein Expressions in Nonylphenol and Estradiol-17beta Treated Juvenile Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(1): 1-10|2001|10.1016/S1532-0456(01)00170-3
60619|A||Madigou,T., P. Le Goff, G. Salbert, J.P. Cravedi, H. Segner, F. Pakdel, and Y. Valotaire|Effects of Nonylphenol on Estrogen Receptor Conformation, Transcriptional Activity and Sexual Reversion in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.53(3/4): 173-186|2001|10.1016/S0166-445X(01)00164-3
60620|A||Le Gac,F., J.L. Thomas, B. Mourot, and M. Loir|In Vivo and In Vitro Effects of Prochloraz and Nonylphenol Ethoxylates on Trout Spermatogenesis|Aquat. Toxicol.53(3/4): 187-200|2001|10.1016/S0166-445X(01)00165-5
60621|A||Bjerselius,R., K. Lundstedt-Enkel, H. Olsen, I. Mayer, and K. Dimberg|Male Goldfish Reproductive Behaviour and Physiology are Severely Affected by Exogenous Exposure to 17beta-Estradiol|Aquat. Toxicol.53(2): 139-152|2001|10.1016/S0166-445X(00)00160-0
60622|A||Vick,A.M., and W.L. Hayton|Methyltestosterone Pharmacolinetics and Oral Bioavailability in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.52(3-4): 177-188|2001|10.1016/S0166-445X(00)00146-6
60623|A||Fenske,M., R. Van Aerle, S. Brack, C.R. Tyler, and H. Segner|Development and Validation of a Homologous Zebrafish (Danio rerio Hamilton-Buchanan) Vitellogenin Enzyme-Linked Immunosorbent Assay (ELISA) and Its Application for Studies on Estrogenic Chemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(3): 217-232|2001|10.1016/S1532-0456(01)00194-6
60625|A||U.S. Environmental Protection Agency|An Assessment of Sediments from the Upper Mississippi River. Final Report - June 1997|EPA 823-R-97-005, U.S.EPA:133 p.|1997|
60627|A||Dreze,V., G. Monod, J.P. Cravedi, S. Biagianti-Risbourg, and F. Le Gac|Effects of 4-Nonylphenol on Sex Differentiation and Puberty in Mosquitofish (Gambusia holbrooki)|Ecotoxicology9(1-2): 93-103|2000|10.1023/A:1008976431227
60629|A||Blackburn,M.A., S.J. Kirby, and M.J. Waldock|Concentrations of Alkyphenol Polyethoxylates Entering UK Estuaries|Mar. Pollut. Bull.38(2): 109-118|1999|10.1016/S0025-326X(98)00104-0
60630|A||Lehtinen,K.J., K. Mattsson, J. Tana, C. Engstrom, O. Lerche, and J. Hemming|Effects of Wood-Related Sterols on the Reproduction, Egg Survival, and Offspring of Brown Trout (Salmo trutta lacustris L.)|Ecotoxicol. Environ. Saf.42:40-49|1999|10.1006/eesa.1998.1724
60632|A||Larson,D.L., S. McDonald, A.J. Fivizzani, W.E. Newton, and S.J. Hamilton|Effects of the Herbicide Atrazine on Ambystoma tigrinum Metamorphosis:  Duration, Larval Growth, and Hormonal Response|Physiol. Zool.71(6): 671-679|1998|10.1086/515999
60633|A||Kahl,M.D., K.M. Jensen, J.J. Korte, and G.T. Ankley|Effects of Handling on Endocrinology and Reproductive Performance of the Fathead Minnow|J. Fish Biol.59(3): 515-523|2001|10.1111/j.1095-8649.2001.tb02357.x
60635|A||Park,D., S.C. Hempleman, and C.R. Propper|Endosulfan Exposure Disrupts Pheromonal Systems in the Red-Spotted Newt:  A Mechanism for Subtle Effects of Environmental Chemicals|Environ. Health Perspect.109(7): 669-673|2001|10.1289/ehp.01109669
60637|A||Mercure,F., A.C. Holloway, D.R. Tocher, M.A. Sheridan, G. Van der Kraak, and J.F. Leatherland|Influence of Plasma Lipid Changes in Response to 17beta-Oestradiol Stimulation on Plasma Growth Hormone, Somatostatin, and Thyroid Hormone Levels in Immature Rainbow Trout|J. Fish Biol.59(3): 605-615|2001|
60638|A||Tyler,C.R., R. Van Aerle, M.V. Nilsen, R. Blackwell, S. Maddix, B.M. Nilsen, K. Berg, T.H. Hutchinson, and A. Goksoyr|Monoclonal Antibody Enzyme-Linked Immunosorbent Assay to Quantify Vitellogenin for Studies on Environmental Estrogens in the Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.21(1): 47-54|2002|
60639|A||Tavera-Mendoza,L., S. Ruby, P. Brousseau, M. Fournier, D. Cyr, and D. Marcogliese|Response of the Amphibian Tadpole (Xenopus laevis) to Atrazine During Sexual Differentiation of the Testis|Environ. Toxicol. Chem.21(3): 527-531|2002|10.1002/etc.5620210309
60643|A||Reed,P., and R. Evans|Acute Toxicity of Chlorides, Sulfates and Total Dissolved Solids to Some Fishes in Illinois|Contract Report 283, State Water Survey Division, Peoria, IL:|1981|
60644|A||Anderson,B.G., T.F. Andrews, D.C. Chandler, and W.J. Jahoda|The Evaluation of Aquatic Invertebrates as Assay Organisms for the Determination of the Toxicity of Industrial Wastes|Final Report 51, American Petroleum Institute Project, Ohio State University, Columbus, OH:|1948|
60645|A||Yokota,H., M. Seki, M. Maeda, Y. Oshima, H. Tadokoro, T. Honjo, and K. Kobayashi|Life-Cycle Toxicity of 4-Nonylphenol to Medaka (Oryzias latipes)|Environ. Toxicol. Chem.20(11): 2552-2560|2001|10.1002/etc.5620201122
60646|A||Cyr,D.G., and J.G. Eales|Effects of Short-Term 17beta-Estradiol Treatment on the Properties of T3-Binding Proteins in the Plasma of Immature Rainbow Trout, Salmo gairdneri|J. Exp. Zool.252:245-251|1989|10.1002/jez.1402520306
60647|A||Singh,R., R.B. Raizada, and T.P. Singh|Effects of Some Antithyroid Drugs on the Pituitary-Thyroid-Gonad Axis in a Freshwater Catfish, Heteropneustes fossilis (Bloch)|Gen. Comp. Endocrinol.31:451-456|1977|10.1016/0016-6480(77)90034-X
60648|T||Gogal,R.M.,Jr., M.S. Johnson, C.T. Larsen, M.R. Prater, R.B. Duncan, D.L. Ward, and S.D. Holladay|Influence of Dietary 2,4,6-Trinitrotoluene Exposure in the Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.21(1): 81-86|2002|
60649|T||Ainsworth,N., J.A. Cooke, and M.S. Johnson|Behavior and Toxicity of Antimony in the Short-Tailed Field Vole (Microtus agrestis)|Ecotoxicol. Environ. Saf.21:165-170|1991|10.1016/0147-6513(91)90018-K
60670|A||Hemmer,M.J., C.J. Bowman, B.L. Hemmer, S.D. Friedman, D. Marcovich, K.J. Kroll, and N.D. Denslow|Vitellogenin mRNA Regulation and Plasma Clearance in Male Sheepshead Minnows, (Cyprinodon variegatus) After Cessation of Exposure to 17beta-Estradiol and p-Nonylphenol|Aquat. Toxicol.58:99-112|2002|10.1016/S0166-445X(01)00238-7
60671|A||Yadetie,F., and R. Male|Effects of 4-Nonylphenol on Gene Expression of Pituitary Hormones in Juvenile Atlantic Salmon (Salmo salar)|Aquat. Toxicol.58:113-129|2002|10.1016/S0166-445X(01)00242-9
60672|A||Forbis,A.D., and C. Lochhaas|Chronic Toxicity of bis(Tributyltin)Oxide to Daphnia magna|Final Report 38310, Analytical Bio-Chemistry Laboratory, Columbia, MO:318 p.|1990|
60673|A||Burgess,D., S.L. Hicks, and C. Lochhaas|Acute Toxicity of bis(Tributyltin)Oxide to Daphnia magna|ABC Final Rep.No.38308, Analytical Bio-Chemistry Lab.Inc., Columbia, MO:126 p.|1990|
60678|A||Babich,H., and E. Borenfreund|In Vitro Cytotoxicity of Organic Pollutants to Bluegill Sunfish (BF-2) Cells|Environ. Res.42:229-237|1987|10.1016/S0013-9351(87)80024-5
60679|A||The Academy of Natural Sciences|Early Life Stage Studies Using the Fathead Minnow (Pimephales promelas) to Assess the Effects of Isophorone and Acenaphthene|Div.Limnol.Ecol., Philadelphia, PA, Manuscript Submission to U.S.EPA, Cincinnati, OH:27 p.|1981|
60680|A||Adams,T.G., G.J. Atchison, and R.J. Vetter|The Use of the Three-Ridge Clam (Amblema perplicata) to Monitor Trace Metal Contamination|Hydrobiologia (Multiple Languages)83:67-72|1981|10.1007/BF02187151
60686|T||Ahmed,Y.M., A.M.A. Mostafa, and M.A. Elewa|Toxicity of Certain Dyes as Insecticides and Their Joint Action with Some Pyrethroids|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(6): 689-699|1985|
60691|AT||Ahmed,W.|The Effectiveness of Predators of Rice Field Mosquitoes in Relation to Pesticide Use in Rice Culture|Ph.D. Thesis, University of California, Davis:55 p.|1976|
60693|AT||Ahokas,J.T., H. Saarni, D.W. Nebert, and O. Pelkonen|The In Vitro Metabolism and Covalent Binding of Benzo(a)pyrene to DNA Catalysed by Trout Liver Microsomes|Chem.-Biol. Interact.25:103-111|1979|10.1016/0009-2797(79)90072-3
60694|A||Albright,L.J., A. Gasith, G.H. Geen, Y. Mozel, and A.S. Perry|The Influence of the Organophosphorous Insecticides Acephate and Parathion upon the Heterotrophic Bacteria of Two Freshwater Ecosystems|In: Rep.No.IAEA-TECDOC-283, Agrochem.-Biota Interact.in Soil and Water Using Nucl.Tech., Joint FAO/IAEA Div.of Isotope and Radiat.Applic.of Atomic Energy for Food and Agric.Dev., June 7-12, 1982, Rome, Italy, INIS Clearinghouse, Vienna, Austria:33-44|1983|
60695|A||Aleksan'yan,O.M., N.R. Kosinova, and T.M. Krylova|Effects of Strontium 90 and Metaphos on Cyprinus carpio|Radiobiology18:131-134|1978|
60696|A||Alexander,T.C., M.V. Meisch, W.B. Kottkamp, and A.L. Anderson|Effect of Notonectids on Mosquito Larvae and Preliminary Observations of Insecticide Toxicity|Ark. Farm Res.31:5-|1982|
60699|A||Allen,H.L., and B.T. Ocevski|Limnological Studies in a Large, Deep, Oligotrophic Lake (Lake Ohrid, Yugoslavia).  Evaluation of Nutrient Availability and Control of Phytoplankton Production Through In Situ Radiobioassay Procedures|Arch. Hydrobiol.77(1): 1-21|1976|
60700|A||Allison,R.|The Effects of Formalin and Other Parasiticides upon Oxygen Concentrations in Ponds|Proc. Annu. Conf. Southeast. Assoc. Game Fish Commiss.:446-449|1962|
60701|A||Almon,H., and P. Boger|Nickel-Dependent Uptake-Hydrogenase Activity in the Blue-Green Alga Anabaena variabilis|Z. Naturforsch. Sect. C J. Biosci.39:90-92|1984|10.1515/znc-1984-1-215
60703|A||Butler,G.L., T.R. Deason, and J.C. O'Kelley|Loss of Five Pesticides from Cultures of Twenty-One Planktonic Algae|Bull. Environ. Contam. Toxicol.13(2): 149-152|1975|10.1007/BF01721728
60707|A||Alldredge,A.L., M. Elias, and C.C. Gotschalk|Effects of Drilling Muds and Mud Additives on the Primary Production of Natural Assemblages of Marine Phytoplankton|Mar. Environ. Res.19:157-176|1986|10.1016/0141-1136(86)90044-9
60714|A||Anderson,D.R.|Chlorine-Heavy Metals Interaction on Toxicity and Metal Accumulation|In: R.L.Jolley, W.A.Brungs, J.A.Cotruvo, R.B.Cumming, J.S.Mattice, and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Volume 4, Ann Arbor Sci.Publ., Ann Arbor, MI:811-826|1983|
60717|A||Anderson,L.M.|Iron Reduction by Juvenile Macrocystis pyrifera (L.) C. Agardh|Hydrobiologia (Multiple Languages)116-117:493-497|1984|10.1007/BF00027731
60719|A||Andersson,P., and H. Borg|Effects of Liming on the Distribution of Cadmium in Water, Sediment, and Organisms in a Swedish Lake|Can. J. Fish. Aquat. Sci.45:1154-1162|1988|10.1139/f88-138
60723|A||Ankley,G.T., V.S. Blazer, S.M. Plakas, and R.E. Reinert|Dietary Lipid as a Factor Modulating Xenobiotic Metabolism in Channel Catfish (Ictalurus punctatus)|Can. J. Fish. Aquat. Sci.46:1141-1146|1989|10.1139/f89-148
60725|A||Axtell,R.C., J.C. Dukes, and T.D. Edwards|Field Tests of Diflubenzuron, Methoprene, Flit MLO and Chlorpyrifos for the Control of Aedes taeniorhynchus Larvae in Diked Dredged Spoil Areas|Mosq. News39(3): 520-527|1979|
60726|A||Aparicio,P.J., J. Cardenas, W.G. Zumft, J. Ma Vega, J. Herrera, A. Paneque, and M. Losada|Molybdenum and Iron as Constituents of the Enzymes of the Nitrate Reducing System from Chlorella|Phytochemistry10:1487-1495|1971|10.1016/0031-9422(71)85012-4
60727|A||Arillo,A., C. Margiocco, F. Melodia, and P. Mensi|Effects of Ammonia on Liver Lysosomal Functionality in Salmo gairdneri Rich.|J. Exp. Zool.218:321-326|1981|10.1002/jez.1402180303
60735|T||Arvik,J.H., D.L. Willson, and L.C. Darlington|Response of Soil Algae to Picloram-2,4-D Mixtures|Weed Sci.19(3): 276-278|1971|10.1017/S0043174500048888
60736|T||Ashcroft,F.M., and P.R. Stanfield|The Influence of the Permeant Ions Thallous and Potassium on Inward Rectification in Frog Skeletal Muscle|J. Physiol.343:407-428|1983|10.1113/jphysiol.1983.sp014900
60737|A||Astakhova,T.V., and K.V. Martino|Measures for the Control of Fungous Diseases of the Eggs of Sturgeons in Fish Hatcheries|Probl. Ichthyol.8(2): 261-268|1968|
60739|A||Autenrieth,R.L., and J.V. DePinto|Desorption of Chlorinated Hydrocarbons from Phytoplankton|Environ. Toxicol. Chem.10(7): 857-872|1991|10.1002/etc.5620100702
60744|A||Axler,R.P., R.M. Gersberg, and C.R. Goldman|Stimulation of Nitrate Uptake and Photosynthesis by Molybdenum in Castle Lake, California|Can. J. Fish. Aquat. Sci.37:707-712|1980|10.1139/f80-089
60747|A||Bachmann,R.W.|Zinc-65 in Studies of the Freshwater Zinc Cycle|In: V.Shultz and A.W.Klements,Jr.(Eds.), Radioecology, Publ.Jointly by Reinhold Publ.Corp., NY and Am.Inst.Biol.Sci., Washington, DC:485-496|1963|
60748|T||Gillett,J.W.|Microsomal Epoxidation:  Effect of Age and Duration of Exposure to Dietary DDT on Induction|Bull. Environ. Contam. Toxicol.4(3): 159-168|1969|10.1007/BF01560958
60749|A||Cody,T.E., M.J. Radike, and D. Warshawsky|The Phototoxicity of Benzo(a)pyrene in the Green Alga Selenastrum capricornutum|Environ. Res.35(1): 122-132|1984|10.1016/0013-9351(84)90119-1
60751|A||Bagnyuk,V.M., T.L. Oleynik, N.R. L'vovskaya, and L.O. Eynor|Extraction of Iron from Water by Chlorella vulgaris and Scenedesmus quadricauda|Hydrobiol. J.12(1): 35-41|1973|
60753|A||Bajpai,V.N., and S.L. Perti|Resistance to Malathion|Pesticides 3(10): 43-45|1969|
60759|A||Babich,H., and E. Borenfreund|Structure-Activity Relationships for Diorganotins, Chlorinated Benzenes, and Chlorinated Anilines Established with Bluegill Sunfish BF-2 Cells|Fundam. Appl. Toxicol.10:295-301|1988|10.1016/0272-0590(88)90314-4
60762|A||Bagshaw,J.C., P. Rafiee, C.O. Matthews, and T.H. MacRae|Cadmium and Zinc Reversibly Arrest Development of Artemia Larvae|Bull. Environ. Contam. Toxicol.37:289-296|1986|10.1007/BF01607763
60764|A||Balk,L., J.W. DePierre, A. Sundvall, and U. Rannug|Formation of Mutagenic Metabolites from Benzo(a)pyrene and 2-Aminoanthracene by the S-9 Fraction from the Liver of the Northern Pike (Esox lucius):  Inducibility with 3-Methylcholanthrene and Correlation with Benzo(a)py|Chem.-Biol. Interact.41:1-13|1982|10.1016/0009-2797(82)90012-6
60765|A||Balk,L., J. Meijer, J. Seidegard, R. Morgenstein, and J.W. DePierre|Initial Characterization of Drug-Metabolizing Systems in the Liver of the Northern Pike, Esox lucius|Drug Metab. Dispos.8(2): 98-103|1980|
60766|A||Ballanyi,K., and J.W. Deitmer|Concentration-Dependent Effects of Ba2+ on Action Potential and Membrane Currents in the Ciliate Stylonychia|Comp. Biochem. Physiol. A Comp. Physiol.78(3): 575-581|1984|10.1016/0300-9629(84)90599-1
60768|A||Baatrup,E., and M. Junge|Antiandrogenic Pesticides Disrupt Sexual Characteristics in the Adult Male Guppy (Poecilia reticulata)|Environ. Health Perspect.109(10): 1063-1070|2001|10.1289/ehp.011091063
60769|A||Banas,W.,Jr.|Effects of Dietary Methoxychlor and Reduced Dissolved Oxygen Concentrations on Growth of Rainbow Trout|M.S.Thesis, Concordia University, Montreal, Canada:70 p.|1979|
60770|T||Vandame,R., and L.P. Belzunces|Joint Actions of Deltamethrin and Azole Fungicides on Honey Bee Thermoregulation|Neurosci. Lett.251(1): 57-60|1998|10.1016/S0304-3940(98)00494-7
60774|A||LeBlanc,G.A., X. Mu, and C.V. Rider|Embryotoxicity of the Alkylphenol Degradation Product 4-Nonylphenol to the Crustacean Daphnia magna|Environ. Health Perspect.108(12): 1133-1138|2000|10.1289/ehp.001081133
60775|A||Billinghurst,Z., A.S. Clare, T. Fileman, J. McEvoy, J. Readman, and M.H. Depledge|Inhibition of Barnacle Settlement by the Environmental Oestrogen 4-Nonylphenol and the Natural Oestrogen 17beta Oestradiol|Mar. Pollut. Bull.36(10): 833-839|1998|10.1016/S0025-326X(98)00074-5
60776|T||Naab,F., M. Volcomirsky, A. Burlon, M.E. Caraballo, M. Debray, J.M. Kesque, A.J. Kreiner, M.J. Ozafran, J.A. Schuff, P.|Metabolic Alterations Without Metal Accumulation in the Ovary of Adult Bufo arenarum Females, Observed After Long-Term Exposure to Zn2+, Followed by Toxicity to Embryos|Arch. Environ. Contam. Toxicol.41(2): 201-207|2001|10.1007/s002440010238
60777|A||Mpho,M., G.J. Holloway, and A. Callaghan|A Comparison of the Effects of Organophosphate Insecticide Exposure and Temperature Stress on Fluctuating Asymmetry and Life History Traits in Culex quinquefasciatus|Chemosphere45(6-7): 713-720|2001|10.1016/S0045-6535(01)00140-0
60779|AT||Ogawa,H., I. Yamada, K. Arai, K. Hirase, K. Moriyasu, C. Schneider, G. Sandmann, P. Boger, and K. Wakabayashi|Mode of Bleaching Phytotoxicity of Herbicidal Diphenylpyrrolidinones|Pest Manag. Sci.57:33-40|2001|10.1002/1526-4998(200101)57:1<33::AID-PS243>3.0.CO;2-H
60780|A||Matthiessen,P.|Some Effects of Slow-Release bis(Tri-n-Butyl Tin) Oxide on the Tropical Food Fish, Tilapia mossambica Peters|Proc.Int.Control.Released Symp., Sept.16-18, 1974, Akron, OH:25.1 - 25.17|1974|
60784|A||Johansson,M., K. Rasanen, and J. Merila|Comparison of Nitrate Tolerance Between Different Populations of the Common Frog, Rana temporaria|Aquat. Toxicol.54(1-2): 1-14|2001|10.1016/S0166-445X(00)00182-X
60785|AT||Haasch,M.L., M.C. Henderson, and D.R. Buhler|Induction of CYP2M1 and CYP2K1 Lauric Acid Hydroxylase Activities by Peroxisome Proliferating Agents in Certain Fish Species: Possible Implications|Mar. Environ. Res.46(1-5): 37-40|1998|10.1016/S0141-1136(97)00109-8
60787|T||Kredics,L., I. Doczi, Z. Antal, and L. Manczinger|Effect of Heavy Metals on Growth and Extracellular Enzyme Activities of Mycoparasitic Trichoderma Strains|Bull. Environ. Contam. Toxicol.66(2): 249-254|2001|10.1007/s001280000231
60788|T||Grant,R.J.|A Bioassay for the Measurement of Insecticide Concentration|Arch. Environ. Contam. Toxicol.41(3): 319-324|2001|10.1007/s002440010254
60789|T||Eberbach,P.L., and K.H. Bowmer|Conversion of 14C-Glyphosate to Carbon Dioxide by Alligator Weed|J. Aquat. Plant Manag.33:27-29|1995|
60791|T||Beeby,A., and L. Richmond|Intraspecific Competition in Populations of Helix aspersa with Different Histories of Exposure to Lead|Environ. Pollut.114(3): 337-344|2001|10.1016/S0269-7491(00)00241-4
60794|T||Chambers,H.W., and J.E. Chambers|An Investigation of Acetylcholinesterase Inhibition and Aging and Choline Acetyltransferase Activity Following a high Level Acute Exposure to Paraoxon|Pestic. Biochem. Physiol.33:125-131|1989|10.1016/0048-3575(89)90003-5
60796|AT||Dorr,B., L. Clark, J.F. Glahn, and I. Mezine|Evaluation of a Methyl Anthranilate-Based Bird Repellent: Toxicity to Channel Catfish Ictalurus punctatus and Effect on Great Blue Heron Ardea herodias Feeding Behavior|J. World Aquac. Soc.29(4): 451-462|1998|10.1111/j.1749-7345.1998.tb00669.x
60797|A||Topcuoglu,S.|Bioaccumulation of Cesium-137 by Biota in Different Aquatic Environments|Chemosphere44(4): 691-695|2001|10.1016/S0045-6535(00)00290-3
60798|A||Toomey,B.H., S. Bello, M.E. Hahn, S. Cantrell, P. Wright, D.E. Tillitt, and R.T. Di Giulio|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induces Apoptotic Cell Death and Cytochrome P4501A Expression in Developing Fundulus heteroclitus Embryos|Aquat. Toxicol.53(2): 127-138|2001|10.1016/S0166-445X(00)00161-2
60799|A||Tom,M., E. Jakubov, B. Rinkevich, and B. Herut|Monitoring of Hepatic Metallothionein mRNA Levels in the Fish Lithognathus mormyrus -- Evaluation of Transition Metal Pollution in a Mediterranean Coast|Mar. Pollut. Bull.38(6): 503-508|1999|10.1016/S0025-326X(98)90188-6
60800|A||Timmermans,K.R., M. Gledhill, R.F. Nolting, M.J.W. Veldhuis, H.J.W. De Baar, and C.M.G. Van den Berg|Responses of Marine Phytoplankton in Iron Enrichment Experiments in the Northern North Sea and Northeast Atlantic Ocean|Mar. Chem.61(3-4): 229-242|1998|10.1016/S0304-4203(97)00110-2
60801|A||Timmermans,K.R., L.J.A. Gerringa, H.J.W. De Baar, B. Van der Wagt, M.J.W. Veldhuis, J.T.M. De Jong, P.L. Croot, and M. |Growth Rates of Large and Small Southern Ocean Diatoms in Relation to Availability of Iron in Natural Seawater|Limnol. Oceanogr.46(2): 260-266|2001|10.4319/lo.2001.46.2.0260
60802|A||Thibaut,R., L. Debrauwer, D. Rao, and J.P. Cravedi|Disposition and Metabolism of (3H)-4-n-Nonylphenol in Rainbow Trout|Mar. Environ. Res.46(1-5): 521-524|1998|10.1016/S0141-1136(97)00089-5
60803|A||Thibaut,R., L. Debrauwer, D. Rao, and J.P. Cravedi|Urinary Metabolites of 4-n-Nonylphenol in Rainbow Trout (Oncorhynchus mykiss)|Sci. Total Environ.233(1-3): 193-200|1999|10.1016/S0048-9697(99)00225-9
60804|A||Tanaka,O., Y. Nasu, A. Takimoto, and M. Kugimoto|Absorption of Copper by Lemna as Influenced by Some Factors Which Nullify the Copper Effect on Flowering and Growth|Plant Cell Physiol.23(7): 1291-1296|1982|10.1093/oxfordjournals.pcp.a076473
60805|A||Tanguy,A., N. Fernandez Castro, A. Marhic, and D. Moraga|Effects of an Organic Pollutant (Tributyltin) on Genetic Structure in the Pacific Oyster Crassostrea gigas|Mar. Pollut. Bull.38(7): 550-559|1999|10.1016/S0025-326X(98)00112-X
60806|A||Tang,X., Y. Li, and J. Huang|Biological Toxicity Study of Organophosphorus Pesticide on Microalgae V. Free-Radical Damage Study of Dicrateria sp. Under Monocrotophos Stress|Collect. Ocean. Works19(1): 79-85|1996|
60807|A||Tang,K.W.|Dynamics of Dimethylsulfoniopropionate (DMSP) in a Migratory Grazer: A Laboratory Simulation Study|J. Exp. Mar. Biol. Ecol.243(2): 283-293|2000|10.1016/S0022-0981(99)00118-5
60808|A||Tang,K.W.|Defecation of Dimethylsulfoniopropionate (DMSP) by the Copepod Acartia tonsa as Functions of Ambient Food Concentration and Body DMSP Content|J. Plankton Res.23(5): 549-553|2001|10.1093/plankt/23.5.549
60809|A||Tang,K.W., H.G. Dam, P.T. Visscher, and T.D. Fenn|Dimethylsulfoniopropionate (DMSP) in Marine Copepods and Its Relation with Diets and Salinity|Mar. Ecol. Prog. Ser.179:71-79|1999|10.3354/meps179071
60810|A||Tang,K.W., T.D. Fenn, P.T. Visscher, and H.G. Dam|Regulation of Body Dimethylsulfoniopropionate (DMSP) Content by the Copepod Temora longicornis:  A Test of Four Mechanisms|Mar. Biol.136:749-757|2000|10.1007/s002270000309
60811|A||Zrum,L., B.J. Hann, L.G. Goldsborough, and G.A. Stern|Effects of Organophosphorus Insecticide and Inorganic Nutrients on the Planktonic Microinvertebrates and Algae in a Prairie Wetland|Arch. Hydrobiol.147(3): 373-399|2000|10.1127/archiv-hydrobiol/147/2000/373
60814|A||Zhou,T., R. Scali, and J.S. Weis|Effects of Methylmercury on Ontogeny of Prey Capture Ability and Growth in Three Populations of Larval Fundulus heteroclitus|Arch. Environ. Contam. Toxicol.41(1): 47-54|2001|10.1007/s002440010219
60815|A||Zhang,Y., A. Ghadouani, E.E. Prepas, B. Pinel-Alloul, S. Reedyk, P.A. Chambers, R.D. Robarts, G. Methot, A. Raik, and M|Response of Plankton Communities to Whole-Lake Ca(OH)2 and CaCO3 Additions in Eutrophic Hardwater Lakes|Freshw. Biol.46(8): 1105-1119|2001|10.1046/j.1365-2427.2001.00793.x
60816|A||Zalom,F.G., A.A. Grigarick, and M.O. Way|Toxicity of Chemicals Used in California Rice Fields to Third Instar Hydrophilid Larvae|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.:18-19|1979|
60817|A||Zaccaro,M.C., C. Salazar, G.Z. De Caire, M.S. De Cano, and A.M. Stella|Lead Toxicity in Cyanobacterial Porphyrin Metabolism|Environ. Toxicol.16(1): 61-67|2001|10.1002/1522-7278(2001)16:1<61::AID-TOX70>3.0.CO;2-L
60818|A||Ytrestoyl,T., B. Finstad, and R.S. McKinley|Swimming Performance and Blood Chemistry in Atlantic Salmon Spawners Exposed to Acid River Water with Elevated Aluminium Concentrations|J. Fish Biol.58(4): 1025-1038|2001|10.1111/j.1095-8649.2001.tb00552.x
60819|A||Giesy,J.P., P.D. Jones, K. Kannan, J.L. Newsted, D.E. Tillitt, and L.L. Williams|Effects of Chronic Dietary Exposure to Environmentally Relevant Concentrations of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Survival, Growth, Reproduction and Biochemical Responses of Female Rainbow Trout (Oncorhynchus myk|Aquat. Toxicol.59:35-53|2002|10.1016/S0166-445X(01)00235-1
60822|A||Xenopoulos,M.A., and D.F. Bird|Effect of Acute Exposure to Hydrogen Peroxide on the Production of Phytoplankton and Bacterioplankton in a Mesohumic Lake|Photochem. Photobiol.66(4): 471-478|1997|10.1111/j.1751-1097.1997.tb03175.x
60824|A||Woodruff,L.L., and H.H. Bunzel|The Relative Toxicity of Various Salts and Acids Toward Paramecium|Am. J. Physiol.25:190-194|1909|10.1152/ajplegacy.1909.25.4.190
60825|A||McKay,R.M.L., J. La Roche, A.F. Yakunin, D.G. Durnford, and R.J. Geider|Accumulation of Ferredoxin and Flavodoxin in a Marine Diatom in Response to Fe|J. Phycol.35(3): 510-519|1999|10.1046/j.1529-8817.1999.3530510.x
60826|A||McGlathery,K.J., and M.F. Pedersen|The Effect of Growth Irradiance on the Coupling of Carbon and Nitrogen Metabolism in Chaetomorpha linum (Chlorophyta)|J. Phycol.35(4): 721-731|1999|10.1046/j.1529-8817.1999.3540721.x
60827|A||Mazzeo,N., B. Dardano, and A. Marticorena|Interclonal Variation in Response to Simazine Stress in Lemna gibba (Lemnaceae)|Ecotoxicology7(3): 151-160|1998|10.1023/A:1014304310756
60829|A||Matsuyama,Y., T. Uchida, and T. Honjo|Toxic Effects of the Dinoflagellate Heterocapsa circularisquama on Clearance Rate of the Blue Mussel Mytilus galloprovincialis|Mar. Ecol. Prog. Ser.146(1-3): 73-80|1997|10.3354/meps146073
60831|AT||Miyake,Y., H. Ito, and T. Yoshida|Identification of Iridals as Piscicidal Components of Iridaceous Plants and Their Conformations Associated with CD Spectra|Can. J. Chem.75(6): 734-741|1997|10.1139/v97-089
60833|A||Minier,C., R. Tutundjian, F. Galgani, and J.M. Robert|Copper Tolerance in Haslea ostrearia Assessed by Measurements of In Vivo Esterase Activity|Mar. Environ. Res.46(1-5): 579-582|1998|10.1016/S0141-1136(97)00077-9
60834|A||Mills,W.L.|Water Quality Bioassay Using Selected Protozoa, II. The Effects of Zinc on Population Growth of Euglena gracilis|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control11(8/9): 567-572|1976|
60835|A||Miadokova,E., V. Vlckova, S. Podstavkova, M. Slaninova, and D. Vlcek|Unicellular Green Alga Chlamydomonas reinhardtii as an Activation System for 2-Aminofluorene|Environ. Mol. Mutagen.31(4): 383-389|1998|10.1002/(SICI)1098-2280(1998)31:4<383::AID-EM11>3.0.CO;2-8
60836|A||Medda,C.|Haematological and Biochemical Alterations of Catla catla Fingerlings Following Sublethal Exposure to Nuvan|J. Indian Fish. Assoc.23:113-116|1993|
60837|A||Meador,J.P., C.A. Krone, D.W. Dyer, and U. Varanasi|Toxicity of Sediment-Associated Tributyltin to Infaunal Invertebrates:  Species Comparison and the Role of Organic Carbon|Mar. Environ. Res.43(3): 219-241|1997|10.1016/0141-1136(96)00090-6
60838|A||Musa,S.O., and E. Omoregie|Haematological Changes in the Mudfish, Clarias gariepinus (Burchell) Exposed to Malachite Green|J. Aquat. Sci.14:37-42|1999|10.4314/jas.v14i1.19971
60840|A||Mulla,M.S.|Dursban - Promising New Mosquito Control Agent|Down Earth23:15-17|1967|
60841|A||Mouvet,C., and B. Claveri|Localization of Copper Accumulated in Rhynchostegium riparioides Using Sequential Chemical Extraction|Aquat. Bot.63(1): 1-10|1999|10.1016/S0304-3770(98)00110-7
60842|A||Moussa,F.I., M.B. Abou Shabana, and M.Y. El Toweissy|Short and Long Term Effects of Acid Stress on Survival, Behaviour, and Some Cellular Blood Constituents, in the Cat Fish Clarias lazera|Bull. Natl. Inst. Oceanogr. Fish.20(2): 229-248|1994|
60843|A||Morrall,C.E., H.G. Trapido-Rosenthal, A.H. Knap, and M.H. Depledge|Development of Nitric Oxide and Nitric Oxide Synthase as Ecotoxicological Biomarkers in the Tropical Marine Environment|Mar. Environ. Res.46(1-5): 429-432|1998|10.1016/S0141-1136(97)00080-9
60844|A||Nelson,D.J., and C.R. Malone|Feeding Rates of Snails Determined with 60Co|Contract No.W-7405-ENG-26, Health Phys.Div.Annu.Progr.Rep.for the Period Ending July 31, 1968, Oak Ridge Natl.Lab., Oak Ridge, TN:122-124|1968|
60845|A||Morcillo,Y., M.J.J. Ronis, M. Sole, and C. Porte|Effects of Tributyltin on the Cytochrome P450 Monooxygenase System and Sex Steroid Metabolism in the Clam Ruditapes decussata|Mar. Environ. Res.46(1-5): 583-586|1998|10.1016/S0141-1136(97)00079-2
60846|A||Mora,P., X. Michel, and J.F. Narbonne|Cholinesterase Activity as Potential Biomarker in Two Bivalves|Environ. Toxicol. Pharmacol.7(4): 253-260|1999|10.1016/S1382-6689(99)00019-8
60847|A||Mohanty,P.|Effect of Elevated Levels of Zinc on Growth of Synechococcus 6301|Zentbl. Mikrobiol.144:531-536|1989|10.1016/S0232-4393(89)80046-0
60848|A||Holcombe,G., and G. Phipps|Acute Testing Series for Chlorinated Aliphatic Hydrocarbons and Pesticides Completed|In: EPA Duluth Quarterly Rep, Jan.-Mar.1980:5-6|1980|
60849|A||Mashiotta,T.A., D.W. Lea, and H.J. Spero|Experimental Determination of Cadmium Uptake in Shells of the Planktonic Foraminifera Orbulina universa and Globigerina bulloides: Implications for Surface Water Paleoreconstructions|Geochim. Cosmochim. Acta61(19): 4053-4065|1997|10.1016/S0016-7037(97)00206-8
60850|A||Wang,X., and G. Matisoff|Solute Transport in Sediments by a Large Freshwater Oligochaete, Branchiura sowerbyi|Environ. Sci. Technol.31(7): 1926-1933|1997|10.1021/es960716n
60851|A||Wang,W.X., I. Stupakoff, C. Gagnon, and N.S. Fisher|Bioavailability of Inorganic and Methylmercury to a Marine Deposit-Feeding Polychaete|Environ. Sci. Technol.32(17): 2564-2571|1998|10.1021/es971034i
60852|A||Wang,W.X., I. Stupakoff, and N.S. Fisher|Bioavailability of Dissolved and Sediment-Bound Metals to a Marine Deposit-Feeding Polychaete|Mar. Ecol. Prog. Ser.178:281-293|1999|10.3354/meps178281
60853|A||Wang,W.X., and R.C.H. Dei|Kinetic Measurements of Metal Accumulation in Two Marine Macroalgae|Mar. Biol.135(1): 11-23|1999|10.1007/s002270050596
60854|A||Wang,S., and C.M. Wai|Supercritical Fluid Extraction of Bioaccumulated Mercury from Aquatic Plants|Environ. Sci. Technol.30(10): 3111-3114|1996|10.1021/es960128+
60855|A||Wang,H.|Analyses of a Toxic Factor, Lethal to Paramecium Present in Non-Glass-Distilled Water|Proc. Soc. Exp. Biol. Med.101:682-685|1959|10.3181/00379727-101-25061
60856|A||Waluga,D.|Phenol Effects on the Anatomico-Histo-Pathological Changes in Bream (Abramis brama L.)|Acta Hydrobiol.8(1): 55-78|1966|
60857|A||Wallace,W.G., G.R. Lopez, and J.S. Levinton|Cadmium Resistance in an Oligochaete and Its Effect on Cadmium Trophic Transfer to an Omnivorous Shrimp|Mar. Ecol. Prog. Ser.172:225-237|1998|10.3354/meps172225
60858|A||Wall,W.J.,Jr., and V.M. Marganian|Control of Salt Marsh Culicoides and Tabanus Larvae in Small Plots with Granular Organophosphorus Pesticides, and the Direct Effect on Other Fauna|Mosq. News33(1): 88-93|1973|
60859|A||Myers-Kinzie,M.|Factors Affecting Survival and Recruitment of Unionid Mussels in Small Midwestern Streams|Ph.D.Thesis, Purdue University, West Lafayette, IN:143 p.|1998|
60860|A||Roses,N., M. Poquet, and I. Munoz|Behavioural and Histological Effects of Atrazine on Freshwater Molluscs (Physa acuta Drap. and Ancylus fluviatilis Mull. Gastropoda)|J. Appl. Toxicol.19(5): 351-356|1999|10.1002/(SICI)1099-1263(199909/10)19:5<351::AID-JAT588>3.0.CO;2-H
60861|A||Rose,W.L., B.L. French, W.L. Reichert, and M. Faisal|Persistence of Benzo(a)pyrene-DNA Adducts in Hematopoietic Tissues and Blood of the Mummichog, Fundulus heteroclitus|Aquat. Toxicol.52(3-4): 319-328|2001|10.1016/S0166-445X(00)00125-9
60862|A||Roex,E.W.M., M. Giovannangelo, and C.A.M. Van Gestel|Reproductive Impairment in the Zebrafish, Danio rerio, upon Chronic Exposure to 1,2,3-Trichlorobenzene|Ecotoxicol. Environ. Saf.48(2): 196-201|2001|10.1006/eesa.2000.2029
60863|A||Rodriguez-Ariza,A., J. Alhama, F.M. Diaz-Mendez, and J. Lopez-Barea|Content of 8-oxodG in Chromosomal DNA of Sparus aurata Fish as Biomarker of Oxidative Stress and Environmental Pollution|Mutat. Res.438(2): 97-107|1999|10.1016/S1383-5718(98)00156-9
60864|A||Roberts,R.O., and S.G. Berk|Effect of Copper, Herbicides, and a Mixed Effluent of Chemoattraction of Tetrahymena pyriformis|Environ. Toxicol. Water Qual.8(1): 73-85|1993|10.1002/tox.2530080108
60865|A||Roast,S.D., J. Widdows, and M.B. Jones|Impairment of Mysid (Neomysis integer) Swimming Ability:  An Environmentally Realistic Assessment of the Impact of Cadmium Exposure|Aquat. Toxicol.52(3-4): 217-227|2001|10.1016/S0166-445X(00)00153-3
60866|A||Roberts,D.R., L.W. Roberts, T.A. Miller, L.L. Nelson, and W.W. Young|Polymer Formulations of Mosquito Larvicides III.  Effects of a Polyethylene Formulation of Chlorpyrifos on Non-Target Populations Naturally Infesting Artificial Field Pools|Mosq. News33(2): 165-172|1973|
60867|A||Roast,S.D., J. Widdows, and M.B. Jones|Scope for Growth of the Estuarine Mysid Neomysis integer (Peracarida:  Mysidacea):  Effects of the Organophosphate Pesticide Chlorpyrifos|Mar. Ecol. Prog. Ser.191:233-241|1999|10.3354/meps191233
60868|A||Ritola,O., T. Lyytikainen, P. Pylkko, H. Molsa, and P. Lindstrom-Seppa|Glutathione-Dependent Defense System and Monooxygenase Enzyme Activities in Arctic Charr Salvelinus alpinus (L.) Exposed to Ozone|Aquaculture185(3-4): 219-233|2000|10.1016/S0044-8486(99)00355-5
60869|AT||Ritchie,S.A., M. Asnicar, and B.H. Kay|Acute and Sublethal Effects of (S)-Methoprene on Some Australian Mosquitoes|Am. Mosq. Control Assoc. J.13(2): 153-155|1997|
60870|A||Rice,T.M., J.T. Oris, and D.H. Taylor|Toxicokinetics, Available Source, and Route of Entry of Lead in Fed and Food-Deprived Bullfrog (Rana catesbeiana) Larvae|Arch. Environ. Contam. Toxicol.41(4): 450-457|2001|10.1007/s002440010271
60871|A||Rice,C.D., L.E. Roszell, M.M. Banes, and R.E. Arnold|Effects of Dietary PCBs and Nonyl-Phenol on Immune Function and CYP1A Activity in Channel Catfish, Ictalurus punctatus|Mar. Environ. Res.46(1-5): 351-354|1998|10.1016/S0141-1136(97)00121-9
60872|A||Rioboo,C., D. Franqueira, M.L. Canle, C. Herrero, and A. Cid|Microalgal Bioassays as a Test of Pesticide Photodegradation Efficiency in Water|Bull. Environ. Contam. Toxicol.67(2): 233-238|2001|10.1007/s001280115
60873|A||Rey,D., M.P. Pautou, and J.C. Meyran|Histopathological Effects of Tannic Acid on the Midgut Epithelium of Some Aquatic Diptera Larvae|J. Invertebr. Pathol.73(2): 173-181|1999|10.1006/jipa.1998.4810
60874|A||Reichenbach,A., S. Pritz-Hohmeier, H. Michel, C.R. Malz, and D.L. Meyer|LiCl-Induced Malformations of the Eyes and the Rostral CNS in Xenopus laevis|J. Hirnforsch.38(1): 35-45|1997|
60875|A||Reichelt-Brushett,A.J., and P.L. Harrison|The Effect of Copper, Zinc and Cadmium on Fertilization Success of Gametes from Scleractinian Reef Corals|Mar. Pollut. Bull.38(3): 182-187|1999|10.1016/S0025-326X(98)00183-0
60876|A||Rehman,A., and A.R. Shakoori|Heavy Metal Resistance Chlorella spp., Isolated from Tannery Effluents, and Their Role in Remediation of Hexavalent Chromium in Industrial Waste Water|Bull. Environ. Contam. Toxicol.66(4): 542-547|2001|10.1007/s00128-001-0041-y
60878|A||Regala,R.P., C.D. Rice, T.E. Schwedler, and I.R. Dorociak|The Effects of Tributyltin (TBT) and 3,3'4,4',5-Pentachlorobiphenyl (PCB-126) Mixtures on Antibody Responses and Phagocyte Oxidative Burst Activity in Channel Catfish, Ictalurus punctatus|Arch. Environ. Contam. Toxicol.40(3): 386-391|2001|10.1007/s002440010187
60879|A||Rees,T.A.V., and P.J. Syrett|The Uptake of Urea by Diatom, Phaeodactylum|New Phytol.82:169-178|1979|10.1111/j.1469-8137.1979.tb07572.x
60880|A||Reed,J.R.|Uptake and Excretion of 60Co by Black Bullheads Ictalurus melas (Rafinesque)|Health Phys.21:835-844|1971|10.1097/00004032-197112000-00013
60881|A||Reddy,A.P., U. Harttig, M.C. Barth, W.M. Baird, M. Schimerlik, J.D. Hendricks, and G.S. Bailey|Inhibition of Dibenzo(a,l)pyrene-Induced Multi-Organ Carcinogenesis by Dietary Chlorophyllin in Rainbow Trout|Carcinogenesis20(10): 1919-1926|1999|10.1093/carcin/20.10.1919
60882|A||Rebelo,M.F., E.A. Santos, and J.M. Monserrat|Ammonia Exposure of Chasmagnathus granulata (Crustacea, Decapoda) Dana, 1851: Accumulation in Haemolymph and Effects on Osmoregulation|Comp. Biochem. Physiol. A Mol. Integr. Physiol.122(4): 429-435|1999|10.1016/S1095-6433(99)00026-4
60883|A||Rawlins,S.C., and R. Ragoonansingh|Comparative Organophosphorus Insecticide Susceptibility in Caribbean Populations of Aedes aegypti and Toxorhynchites moctezuma|Am. Mosq. Control Assoc. J.6(2): 315-317|1990|
60886|A||Rasmussen,A.D., G.T. Banta, and O. Andersen|Effects of Bioturbation by the Lugworm Arenicola marina on Cadmium Uptake and Distribution in Sandy Sediments|Mar. Ecol. Prog. Ser.164:179-188|1998|10.3354/meps164179
60887|A||Rasmussen,A.D., G.T. Banta, and O. Andersen|Cadmium Dynamics in Estuarine Sediments:  Effects of Salinity and Lugworm Bioturbation|Environ. Toxicol. Chem.19(2): 380-386|2000|10.1002/etc.5620190218
60888|T||Rao,B.N., M.A. Sultan, and K.N. Reddy|Residues of Chlorpyrifos on Paddy|Pesticides 21(12): 31-33|1987|
60890|A||Cheng,S.K.|Chronic Effects of Hydrogen Cyanide on Reproduction and Development of American Flagfish, Jordanella floridae|M.S.Thesis, Concordia University, Montreal, Canada:77 p.|1978|
60891|A||Chen,Z., L. Ren, Q. Shao, D. Shi, and B. Ru|Expression of Mammalian Metallothionein-I Gene in Cyanobacteria to Enhance Heavy Metal Resistance|Mar. Pollut. Bull.39(1-12): 155-158|1999|10.1016/S0025-326X(99)00095-8
60892|A||Chen,J.H., and H.Y. Yang|The Effects of Cu++ on Cellular Immunity in Abalone (Haliotis diversicolor)|Dongwu Xuekan7(2): 51-59|1996|
60893|A||Chen,C.M., S.C. Yu, and M.C. Liu|Use of Japanese Medaka (Oryzias latipes) and Tilapia (Oreochromis mossambicus) in Toxicity Tests on Different Industrial Effluents in Taiwan|Arch. Environ. Contam. Toxicol.40(3): 363-370|2001|10.1007/s002440010184
60894|A||Chen,C.M., M.C. Liu, M.L. Shih, S.C. Yu, C.C. Yeh, S.T. Lee, T.Y. Yang, and S.J. Hung|Microsomal Monooxygenase Activity in Tilapia (Oreochromis mossambicus) Exposed to a Bleached Kraft Mill Effluent Using Different Exposure Systems|Chemosphere45(4-5): 581-588|2001|10.1016/S0045-6535(00)00594-4
60895|A||Chanas,B., J.R. Pawlik, T. Lindel, and W. Fenical|Chemical Defense of the Caribbean Sponge Agelas clathrodes (Schmidt)|J. Exp. Mar. Biol. Ecol.208(1-2): 185-196|1996|10.1016/S0022-0981(96)02653-6
60896|A||Chambers,P.A., E.E. Prepas, M.E. Ferguson, M. Serediak, M. Guy, and M. Holst|The Effects of Lime Addition on Aquatic Macrophytes in Hard Water:  In Situ and Microcosm Experiments|Freshw. Biol.46(8): 1121-1138|2001|10.1046/j.1365-2427.2001.00794.x
60897|A||Cecchine,G., and T.W. Snell|Toxicant Exposure Increases Threshold Food Levels in Freshwater Rotifer Populations|Environ. Toxicol.14(5): 523-530|1999|10.1002/(SICI)1522-7278(199912)14:5<523::AID-TOX6>3.0.CO;2-2
60898|A||Carpenter,K.E.|On the Biological Factors Involved in the Destruction of River-Fisheries by Pollution due to Lead-Mining|Ann. Appl. Biol.12(1): 1-13|1925|10.1111/j.1744-7348.1925.tb02252.x
60900|A||Carlson,D.B., D.E. Williams, J.M. Spitsbergen, P.F. Ross, C.W. Bacon, F.I. Meredith, and R.T. Riley|Fumonisin B1 Promotes Aflatoxin B1 and N-Methyl-N'-Nitro-Nitrosoguanidine-Initiated Liver Tumors in Rainbow Trout|Toxicol. Appl. Pharmacol.172(1): 29-36|2001|10.1006/taap.2001.9129
60901|A||Cardellini,P., and L. Ometto|Teratogenic and Toxic Effects of Alcohol Ethoxylate and Alcohol Ethoxy Sulfate Surfactants on Xenopus laevis Embryos and Tadpoles|Ecotoxicol. Environ. Saf.48(2): 170-177|2001|10.1006/eesa.2000.2005
60902|A||Caraco,N.F., G. Lampman, J.J. Cole, K.E. Limburg, M.L. Pace, and D. Fischer|Microbial Assimilation of DIN in a Nitrogen Rich Estuary: Implications for Food Quality and Isotope Studies|Mar. Ecol. Prog. Ser.167:59-71|1998|10.3354/meps167059
60923|T||Backlin,B.M., E. Persson, C.J.P. Jones, and V. Dantzer|Polychlorinated Biphenyl (PCB) Exposure Produces Placental Vascular and Trophoblastic Lesions in the Mink (Mustela vison):  A Light and Electron Microscopic Study|APMIS Acta Pathol. Microbiol. Immunol. Scand.106(8): 785-799|1998|10.1111/j.1699-0463.1998.tb00225.x
60924|T||Baligar,V.C., R.J. Wright, T.B. Kinraide, C.D. Foy, and J.H.,Jr. Elgin|Aluminum Effects on Growth, Mineral Uptake, and Efficiency Ratios in Red Clover Cultivars|Agron. J.79:1038-1044|1987|10.2134/agronj1987.00021962007900060018x
60925|T||Andrew,C.S., A.D. Johnson, and R.L. Sandland|Effect of Aluminium on the Growth and Chemical Composition of Some Tropical and Temperate Pasture Legumes|Aust. J. Agric. Res.24:325-339|1973|10.1071/AR9730325
60926|T||Aktas,M., and F. Van Egmond|Effect of Nitrate Nutrition on Iron Utilization by an Fe-Efficient and an Fe-Inefficient Soybean Cultivar|Plant Soil51:257-274|1979|10.1007/BF02232888
60928|T||Van Vleet,J.F., G.D. Boon, and V.J. Ferrans|Induction of Lesions of Selenium-Vitamin E Deficiency in Ducklings Fed Silver, Copper, Cobalt, Tellurium, Cadmium or Zinc:  Protection by Selenium or Vitamin E Supplements|Am. J. Vet. Res.42:1206-1217|1981|
60929|A||Carr,R.S., M.E. Barrows, N.G. Reichenbach, G.M. DeGraeve, T.L. Pollock, J.A. Fava, and A.H. Glickman|Investigation of Preference-Avoidance Responses to an Oil Refinery Effluent with Striped Bass and Steelhead Trout|Environ. Toxicol. Chem.9:1513-1521|1990|
60931|T||Custer,T.W., E.F. Hill, and H.M. Ohlendorf|Effects on Wildlife of Ethyl and Methyl Parathion Applied to California Rice Fields|Calif. Fish Game71(4): 220-224|1985|
60940|T||Sileo,L., R.N. Jones, and R.C. Hatch|The Effect of Ingested Lead Shot on the Electrocardiogram of Canada Geese|Avian Dis.17(2): 308-313|1973|10.2307/1589214
60941|T||Maro,J.K., J.A. Kategile, and H. Hvidsten|Studies on Copper and Cobalt in Dairy Calves|Br. J. Nutr.44:25-31|1980|10.1079/BJN19800006
60942|T||Kerridge,P.C., M.D. Dawson, and D.P. Moore|Separation of Degrees of Aluminum Tolerance in Wheat|Agron. J.63:586-591|1971|10.2134/agronj1971.00021962006300040022x
60943|A||Carlson,A.R.|Reproductive Behavior of the Threespine Stickeback Exposed to Chloramines|M.S.Thesis, Oregon State University, Corvallis, OR:30 p.|1976|
60944|A||Cantrell,S.M., J. Joy-Schlezinger, J.J. Stegeman, D.E. Tillitt, and M. Hannink|Correlation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Apoptotic Cell Death in the Embryonic Vasculature with Embryotoxicity|Toxicol. Appl. Pharmacol.148(1): 24-34|1998|10.1006/taap.1997.8309
60945|A||Canivet,V., P. Chambon, and J. Gibert|Toxicity and Bioaccumulation of Arsenic and Chromium in Epigean and Hypogean Freshwater Macroinvertebrates|Arch. Environ. Contam. Toxicol.40(3): 345-354|2001|10.1007/s002440010182
60946|A||Canaria,E.C., J.R. Elphick, and H.C. Bailey|A Simplified Procedure for Conducting Small Scale Short-Term Embryo Toxicity Tests with Salmonids|Environ. Toxicol.14(3): 301-307|1999|10.1002/(SICI)1522-7278(199907)14:3<301::AID-TOX2>3.0.CO;2-W
60947|A||Calevro,F., S. Campani, C. Filippi, R. Batistoni, P. Deri, S. Bucci, M. Ragghianti, and G. Mancino|Bioassays for Testing Effects of Al, Cr and Cd Using Development in the Amphibian Pleurodeles waltl and Regeneration in the Planarian Dugesia etrusca|Aquat. Ecosyst. Health Manag.2(3): 281-288|1999|10.1080/14634989908656964
60948|A||Buznikov,G.A., L.A. Nikitina, V.V. Bezuglov, J.M. Lauder, S. Padilla, and T.A. Slotkin|An Invertebrate Model of the Developmental Neurotoxicity of Insecticides:  Effects of Chloropyrifos and Dieldrin in Sea Urchin Embryos and Larvae|Environ. Health Perspect.109(7): 651-661|2001|10.1289/ehp.01109651
60949|AT||Bukowska,B., E. Reszka, and W. Duda|Influence of Phenoxyherbicides and Their Metabolites on the Form of Oxy- and Deoxyhemoglobin of Vertebrates|Biochem. Mol. Biol. Int.45(1): 47-59|1998|
60950|A||Bueno-Guimaraes,H.M., C.M. Ferreira, M.L.B. Garcia, and P.H.N. Saldiva|Tadpole Epithelium Test:  Potential Use of Rana catesbeiana Histopathologic Epithelial Changes to Evaluate Aquatic Pollution|Bull. Environ. Contam. Toxicol.67(2): 202-209|2001|10.1007/s00128-001-0111-1
60951|A||Bryfogle,B.M., and W.F. McDiffett|Algal Succession in Laboratory Microcosms as Affected by an Herbicide Stress|Am. Midl. Nat.101:344-354|1979|10.2307/2424600
60952|A||Pande,R.K., and G.K. Shukla|Study of Acute Toxicity Dose of Herbicide, CuSO4.5H2O; Agrochemical, NPK; and Chemotherapeutics like Formalin and KMnO4 on Mystus vittatus and Colisa fasciatus|Z. Angew. Zool. (Multiple Languages)79(2): 221-241|1992|
60953|A||Palace,V.P., S.M. Allen-Gil, S.B. Brown, R.E. Evans, D.A. Metner, D.H. Landers, L.R. Curtis, J.F. Klaverkamp, C.L. Baro|Vitamin and Thyroid Status in Arctic Grayling (Thymallus arcticus) Exposed to Doses of 3,3',4,4'-Tetrachlorobiphenyl that Induce the Phase I Enzyme System|Chemosphere45(2): 185-193|2001|10.1016/S0045-6535(00)00577-4
60956|AT||Ottinger,S.E., K. Mayura, S.L. Lemke, K.S. McKenzie, N. Wang, L.F. Kubena, and T.D. Phillips|Utilization of Electrochemically Generated Ozone in the Degradation and Detoxication of Benzo(a)pyrene|J. Toxicol. Environ. Health Part A56:565-583|1999|
60957|A||Oshima,Y., K. Nirmala, Y. Yokota, J. Go, Y. Shimasaki, M. Nakao, R.F. Lee, N. Imada, T. Honjo, and K. Kobayashi|Accumulation of Tributyltin (TBT) in the Blood of Flounder and Dab Intraperitoneally Administered with TBT|Mar. Environ. Res.46(1-5): 587-590|1998|10.1016/S0141-1136(97)00082-2
60959|A||Ong,E.S., and Z.B. Din|Cadmium, Copper, and Zinc Toxicity to the Clam, Donax faba C., and the Blood Cockle, Anadara granosa L.|Bull. Environ. Contam. Toxicol.66(1): 86-93|2001|10.1007/s001280000209
60960|A||Okumura,Y., J. Koyama, H. Takaku, and H. Satoh|Influence of Organic Solvents on the Growth of Marine Microalgae|Arch. Environ. Contam. Toxicol.41(2): 123-128|2001|10.1007/s002440010229
60961|A||Okihiro,M.S., and D.E. Hinton|Progression of Hepatic Neoplasia in Medaka (Oryzias latipes) Exposed to Diethylnitrosamine|Carcinogenesis20(6): 933-940|1999|10.1093/carcin/20.6.933
60962|A||Ohta,T., S. Tokishita, Y. Shiga, T. Hanazato, and H. Yamagata|An Assay System for Detecting Environmental Toxicants with Cultured Cladoceran Eggs In Vitro: Malformations Induced by Ethylenethiourea|Environ. Res.77(1): 43-48|1998|10.1006/enrs.1997.3783
60963|A||Sarma,S.S.S., S. Nandini, and J.L.G. Flores|Effect of Methyl Parathion on the Population Growth of the Rotifer Brachionus patulus (O.F. Muller) Under Different Algal food (Chlorella vulgaris) Densities|Ecotoxicol. Environ. Saf.48(2): 190-195|2001|10.1006/eesa.2000.2014
60964|A||Sarda,N.|Spatial and Temporal Heterogeneity in Sediments with Respect to Pore Water Ammonia and Toxicity of Ammonia to Ceriodaphnia dubia and Hyalella azteca|M.S.Thesis, Wright State University, Dayton, OH:190 p.|1994|
60965|A||Santhakumar,M., M. Balaji, and K. Ramudu|Gill Lesions in the Perch, Anabas testudineus, Exposed to Monocrotophos|J. Environ. Biol.22(2): 87-90|2001|
60966|A||Sanyahumbi,D., J.R. Duncan, M. Zhao, and R. Van Hille|Removal of Lead from Solution by the Non-Viable Biomass of the Water Fern Azolla filiculoides|Biotechnol. Lett.20(8): 745-747|1998|10.1023/A:1005386703592
60967|A||Sancho,E., M.D. Ferrando, and E. Andreu|Effects of Sublethal Exposure to a Pesticide on Levels of Energetic Compounds in Anguilla anguilla|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(4): 411-424|1998|
60968|A||Sancho,E., M.D. Ferrando, and E. Andreu|Response and Recovery of Acethylcholinesterase Activity in the European Eel Anguilla anguilla Exposed to Fenitrothion|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(6): 915-928|1997|
60969|A||Sanchez-Galan,S., A.R. Linde, F. Ayllon, and E. Garcia-Vazquez|Induction of Micronuclei in Eel (Anguilla anguilla L.) by Heavy Metals|Ecotoxicol. Environ. Saf.49(2): 139-143|2001|10.1006/eesa.2001.2048
60970|A||Sanchez,M., M.D. Ferrando, E. Sancho, and E. Andreu-Moliner|Evaluation of a Daphnia magna Renewal Life-Cycle Test Method with Diazinon|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(6): 785-797|1998|
60971|A||Sakaguchi,T., T. Tsuji, A. Nakajima, and T. Horikoshi|Accumulation of Cadmium by Green Microalgae|Eur. J. Appl. Microbiol. Biotechnol.8:207-215|1979|10.1007/BF00506184
60972|A||Saglio,P., K.H. Olsen, and S. Bretaud|Behavioral and Olfactory Responses to Prochloraz, Bentazone, and Nicosulfuron-Contaminated Flows in Goldfish|Arch. Environ. Contam. Toxicol.41(2): 192-200|2001|10.1007/s002440010237
60973|A||Saenz,M.E., W.D. Di Marzio, J.L. Alberdi, and M.C. Tortorelli|Algal Growth Recovery Studies After Paraquat Exposure|Bull. Environ. Contam. Toxicol.66(2): 263-268|2001|10.1007/s0012800233
60974|A||Sabater,C., and J.M. Carrasco|Effects of the Organophosphorus Insecticide Fenitrothion on Growth in Five Freshwater Species of Phytoplankton|Environ. Toxicol.16:314-320|2001|10.1002/tox.1038
60975|A||Sabater,C., and J.M. Carrasco|Effects of Pyridaphenthion on Growth of Five Freshwater Species of Phytoplankton.  A Laboratory Study|Chemosphere44(8): 1775-1781|2001|10.1016/S0045-6535(00)00575-0
60976|A||Runnegar,M., D.J. Seward, N. Ballatori, J.M. Crawford, and J.L. Boyer|Hepatic Toxicity and Persistence of ser/thr Protein Phosphatase Inhibition by Microcystin in the Little Skate Raja erinacea|Toxicol. Appl. Pharmacol.161(1): 40-49|1999|10.1006/taap.1999.8783
60978|A||Roshon,R.D., J.H. McCann, D.G. Thompson, and G.R. Stephenson|Effects of Seven Forestry Management Herbicides on Myriophyllum sibiricum, as Compared with Other Nontarget Aquatic Organisms|Can. J. For. Res.29(7): 1158-1169|1999|10.1139/x99-093
60979|A||Rose,R.M., M.S.J. Warne, and R.P. Lim|The Presence of Chemicals Exuded by Fish Affects the Life-History Response of Ceriodaphnia cf. dubia to Chemicals with Different Mechanisms of Action|Environ. Toxicol. Chem.20(12): 2892-2898|2001|
60980|A||Rouleau,C., C. Gobeil, and H. Tjalve|Pharmacokinetics and Distribution of Dietary Tributyltin Compared to Those of Methylmercury in the American Plaice Hippoglossoides platessoides|Mar. Ecol. Prog. Ser.171:275-284|1998|10.3354/meps171275
60982|A||Basak,P.K., and S.K. Konar|Pollution of Water by Pesticides and Protection of Fishes: Parathion|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.46(1/2): 382-392|1976|
60983|A||Basha,S.M., K.S. Swami, and A. Pushpanjali|Ciliary and Cardiac Activity of Freshwater Mussel, Lamellidens marginalis (Lamarck) as an Index of Evaluating Organophosphate Toxicity|J. Environ. Biol.9(suppl. 3): 313-318|1988|
60986|A||Bates,S., A. Tessier, and M. Letourneau|Zinc Bioaccumulation by Chlamydomonas Variabilis as a Function of Zinc Speciation|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)990:118-120|1981|
60991|A||Baxter,M., and T. Jensen|Uptake of Magnesium, Strontium, Barium, and Manganese by Plectonema boryanum (Cyanophyceae) with Special Reference to Polyphosphate Bodies|Protoplasma (Multiple Languages)104:81-89|1980|10.1007/BF01279371
60995|A||Bednarz,T.|The Evaluation of the Adaptation Ability of Some Green Algae to 2,4-D Acid, Monuron, and Diuron Admixtures, Under Laboratory Conditions|Acta Hydrobiol.23(3): 251-257|1981|
60996|A||Beehler,J.W., J.G. Millar, and M.S. Mulla|Field Evaluation of Synthetic Compounds Mediating Oviposition in Culex Mosquitoes (Diptera: Culicidae)|J. Chem. Ecol.20(2): 281-291|1994|10.1007/BF02064436
61002|A||Benge,M.K., and L.E. Fronk|Effects of Pesticides on Non-target Aquatic Organisms on the Ogden Bay Waterfowl Management Area, Utah|Proc. Annu. Meet. Utah Mosq. Abat. Assoc.23:34-40|1970|
61009|A||Berisha,A., D.A. Rozhaja, and K. Maksimovic-Kosanovic|The Effect of Heavy Metal Salts on Early Embryogenesis of the Frog Rana ridibunda Pall|Acta Biol. Med. Exp.12:67-69|1987|
61012|A||Berry,W.O., and J.W. Fisher|Transfer of 14C-Toluene from Mosquito Larvae to Bluegill Sunfish|Bull. Environ. Contam. Toxicol.23:733-736|1979|10.1007/BF01770033
61013|A||Berry,W.O., J.D. Brammer, and D.E. Bee|Uptake of Water-Soluble Gasoline Fractions and Their Effect on Oxygen Consumption Aquatic Stages of the Mosquito (Aedes aegypti (L.))|Environ. Pollut.15:1-22|1978|
61016|T||Beyer,W.N., W.J. Fleming, and D. Swineford|Changes in Litter near an Aluminum Reduction Plant|J. Environ. Qual.16(3): 246-250|1987|10.2134/jeq1987.00472425001600030011x
61017|A||Bilbaut,A.|Excitable Epithelial Cells in the Bioluminescent Scales of a Polynoid Worm; Effects of Various Ions on the Action Potentials and on the Excitation-Luminescence Coupling|J. Exp. Biol.88:219-238|1980|10.1242/jeb.88.1.219
61018|T||Binger,A.|Effect of Humic Acid on Aluminum and Manganese Toxicity|Ph.D.Thesis, University of Georgia, Athens, GA:|1980|
61020|A||E.G. and G. Bionomics|Acute Toxicity of Atrazine to Mud Crab (Neopanope texana)|Bioassay Rep.Submitted to CIBA-Giegy Chemical Corp., Greensboro, N.C.:1-9|1973|
61022|A||Birge,W.J., J.A. Black, A.G. Westerman, D.M. Bruser, W.E. McDonnell, and B.A. Ramey|The Effects of bis(2-Ethylhexyl) Phthalate on Early Life Stages of the Fathead Minnow|Final Report (EPA Contract No.68-01-6201, Task III), Submitted to NUS Corporation, Houston, TX:19 p.|1982|
61025|A||Dizer,H., B. Fischer, A.S.A. Harabawy, M.C. Hennion, and P.D. Hansen|Toxicity of Domoic Acid in the Marine Mussel Mytilus edulis|Aquat. Toxicol.55(3-4): 149-156|2001|10.1016/S0166-445X(01)00178-3
61026|A||Dietrich,D., and C. Schlatter|Low Levels of Aluminium Causing Death of Brown Trout (Salmo trutta fario, L.) in a Swiss Alpine Lake|Aquat. Sci.51(4): 279-295|1989|10.1007/BF00877172
61027|A||Dietrich,D., and C. Schlatter|Aluminium Toxicity to Rainbow Trout at Low pH|Aquat. Toxicol.15(3): 197-212|1989|10.1016/0166-445X(89)90036-2
61028|A||Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino|Lactate Dehydrogenase Activity as an Effect Criterion in Toxicity Tests with Daphnia magna Straus|Chemosphere45(4/5): 553-560|2001|10.1016/S0045-6535(01)00029-7
61029|A||Dhanapakiam,P., and V.K. Ramasamy|Toxic Effects of Copper and Zinc Mixtures on Some Haematological and Biochemical Parameters in Common Carp, Cyprinus carpio (Linn.)|J. Environ. Biol.22(2): 105-111|2001|
61030|A||De Smet,H., and R. Blust|Stress Responses and Changes in Protein Metabolism in Carp Cyprinus carpio During Cadmium Exposure|Ecotoxicol. Environ. Saf.48(3): 255-262|2001|10.1006/eesa.2000.2011
61031|A||De Smet,H., B. De Wachter, R. Lobinski, and R. Blust|Dynamics of (Cd,Zn)-Metallothioneins in Gills, Liver and Kidney of Common Carp Cyprinus carpio During Cadmium Exposure|Aquat. Toxicol.52(3-4): 269-281|2001|10.1016/S0166-445X(00)00136-3
61032|A||DeSilva,D., J. Hemingway, H. Ranson, and A. Vaughan|Resistance to Insecticides in Insect Vectors of Disease:  est alpha 3, a Novel Amplified Esterase Associated with Amplified est beta 1 from Insecticide Resistant Strains of the Mosquito Culex quinquesfasciatus|Exp. Parasitol.87(3): 253-259|1997|10.1006/expr.1997.4245
61034|A||De Coen,W.M., C.R. Janssen, and H. Segner|The Use of Biomarkers in Daphnia magna Toxicity Testing V.  In Vivo Alterations in the Carbohydrate Metabolism of Daphnia magna Exposed to Sublethal Concentrations of Mercury and Lindane|Ecotoxicol. Environ. Saf.48(3): 223-234|2001|10.1006/eesa.2000.2009
61035|A||De Boeck,M., and M. Kirsch-Volders|Nereis virens (Annelida: Polychaeta) is not an Adequate Sentinel Species to Assess the Genotoxic Risk (Comet Assay) of PAH Exposure to the Environment|Environ. Mol. Mutagen.30(1): 82-90|1997|10.1002/(SICI)1098-2280(1997)30:1<82::AID-EM11>3.0.CO;2-M
61036|A||Dawson,A.B.|The Hemopoietic Response in the Catfish, Ameirus nebulosus, to Chronic Lead Poisoning|Biol. Bull.68(3): 335-346|1935|10.2307/1537555
61037|T||Davis,A., R. Barale, G. Brun, R. Forster, T. Gunther, H. Hautefeuille, C.A. Van der Heijden, A.G.A.C. Knaap, R. Krowke,|Evaluation of the Genetic and Embryotoxic Effects of bis(Tri-n-Butyltin) Oxide (TBTO), a Broad-Spectrum Pesticide, in Multiple In Vivo and In Vitro Short-Term Tests|Mutat. Res.188:65-95|1987|10.1016/0165-1218(87)90096-6
61038|A||Das,S., and B.B. Jana|Dose-Dependent Uptake and Eichhornia-Induced Elimination of Cadmium in Various Organs of the Freshwater Mussel, Lamellidens marginalis (Linn.)|Ecol. Eng.12(3-4): 207-229|1999|10.1016/S0925-8574(98)00062-7
61039|A||Darvas,B., L. Pap, M. Kelemen, and L.A. Polgar|Synergistic Effects of Verbutin with Dibenzoylhydrazine-Type Ecdysteroid Agonists on Larvae of Aedes aegypti (Diptera: Culicidae)|J. Econ. Entomol.91(6): 1260-1264|1998|10.1093/jee/91.6.1260
61040|A||Dang,Z.C., M.H.G. Berntssen, A.K. Lundebye, G. Flik, S.E. Wendelaar Bonga, and R.A.C. Lock|Metallothionein and Cortisol Receptor Expression in Gills of Atlantic Salmon, Salmo salar, Exposed to Dietary Cadmium|Aquat. Toxicol.53(2): 91-101|2001|10.1016/S0166-445X(00)00168-5
61041|A||Dalmo,R.A., T. Seternes, S.M. Arnesen, T.O. Joergensen, and J. Bogwald|Tissue Distribution and Cellular Uptake of Aeromonas salmonicida Lipopolysaccharide (LPS) in Some Marine Fish Species|J. Fish Dis.21(5): 321-334|1998|10.1046/j.1365-2761.1998.00108.x
61042|A||Czech,P., K. Weber, and D.R. Dietrich|Effects of Endocrine Modulating Substances on Reproduction in the Hermaphroditic Snail Lymnaea stagnalis L.|Aquat. Toxicol.53(2): 103-114|2001|10.1016/S0166-445X(00)00169-7
61043|A||Croteau,M.N., L. Hare, and A. Tessier|Differences in Cd Accumulation Among Species of the Lake-Dwelling Biomonitor Chaoborus|Can. J. Fish. Aquat. Sci.58(9): 1737-1746|2001|10.1139/f01-116
61044|A||Croisetiere,L., L. Hare, and A. Tessier|Influence of Current Velocity on Cadmium Accumulation by an Aquatic Moss and the Consequences for Its Use as a Biomonitor|Environ. Sci. Technol.35(5): 923-927|2001|10.1021/es001435p
61045|A||Cravedi,J.P., G. Boudry, M. Baradat, D. Rao, and L. Debrauwer|Metabolic Fate of 2,4-Dichloroaniline, Prochloraz and Nonylphenol Diethoxylate in Rainbow Trout: A Comparative In Vivo/In Vitro Approach|Aquat. Toxicol.53(3/4): 159-172|2001|10.1016/S0166-445X(01)00163-1
61046|A||Craft,J.A., F.E. Robertson, M.E. McPhail, E. Brown, and R.M. Stagg|Measurement of Cytochrome P4501A Induction in Dab (Limanda limanda) and Other Teleosts with Species-Specific cDNA Probes:  Isolation and Characterisation of Dab cDNA and Its Use in Expression Studies with beta-Naphthofl|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(2): 115-127|2001|10.1016/S1532-0456(01)00188-0
61047|A||Craft,C.B., J. Vymazal, and C.J. Richardson|Response of Everglades Plant Communities to Nitrogen and Phosphorus Additions|Wetlands15(3): 258-271|1995|10.1007/BF03160706
61049|A||Birkner,J.H.|Selenium in Aquatic Organisms from Seleniferous Habitats|Ph.D.Thesis, Colorado State University, Fort Collins, CO:121 p.|1978|
61050|T||Bjorklund,N.E., and K. Erne|Toxicological Studies of Phenoxyacetic Herbicides in Animals|Acta Vet. Scand.7:364-390|1966|10.1186/BF03547123
61052|T||Blackman,G.E.|Studies in the Principles of Phytotoxicity I.  The Assessment of Relative Toxicity|J. Exp. Bot.3(7): 1-27|1952|10.1093/jxb/3.1.1
61053|A||Coughlan,S.|Sulphate Uptake in Fucus serratus|J. Exp. Bot.28(106): 1207-1215|1977|10.1093/jxb/28.5.1207
61056|A||De Boeck,G., M. Grosell, and C. Wood|Sensitivity of the Spiny Dogfish (Squalus acanthias) to Waterborne Silver Exposure|Aquat. Toxicol.54(3-4): 261-275|2001|10.1016/S0166-445X(00)00180-6
61057|A||Corbet,S.A., C. Tiley, T. Moorhouse, C. Giam, S. Pursglove, J. Raby, and M. Rich|Surface Films as Mosquito Larvicides:  Partitioning the Mode of Action|Entomol. Exp. Appl.94(3): 295-307|2000|10.1046/j.1570-7458.2000.00631.x
61059|A||Colby,P.J., and L.L.,Jr. Smith|Survival of Walleye Eggs and Fry on Paper Fiber Sludge Deposits in Rainy River, Minnesota|Trans. Am. Fish. Soc.96:278-296|1967|10.1577/1548-8659(1967)96[278:SOWEAF]2.0.CO;2
61060|A||Cleveland,L., E.E. Little, C.G. Ingersoll, R.H. Wiedmeyer, and J.B. Hunn|Sensitivity of Brook Trout to Low pH, Low Calcium and Elevated Aluminum Concentrations During Laboratory Pulse Exposures|Aquat. Toxicol.19(4): 303-318|1991|10.1016/0166-445X(91)90055-E
61062|A||Clarke,E., and A.H. Baldwin|Responses of Wetland Plants to Ammonia and Water Level|Ecol. Eng.18:257-264|2002|10.1016/S0925-8574(01)00080-5
61063|A||Cima,F., M.G. Marin, L. Da Ros, and L. Ballarin|Marine Invertebrates as Bioindicators of Organotin Contaminants: Immuno- and Embryotoxicity|Ann. Chim.88:517-527|1998|
61064|A||Christie,R.M., and H.I. Battle|Histological Effects of 3-Trifluoromethyl-4-Nitrophenol (TFM) on Larval Lamprey and Trout|Can. J. Zool.41:51-62|1963|10.1139/z63-007
61066|T||Blankemeyer,J.T., and M.C. Bowerman|Effect of Cyclic Aromatics on Sodium Active Transport in Frog Skin|Bull. Environ. Contam. Toxicol.50:132-137|1993|10.1007/BF00196551
61067|A||Boddington,M.J., B.A. Mackenzie, and A.S.W. DeFreitas|A Respirometer to Measure the Uptake Efficiency of Waterborne Contaminants in Fish|Ecotoxicol. Environ. Saf.3:383-393|1979|10.1016/0147-6513(79)90028-9
61069|A||Bogacka,T., B. Trzcinska, and M. Groenwald|Toxicity and Biodegradation of Atrazine and Symazine in Water Medium (Toksycznosc i Biodegradacja Atrazyny i Symazyny w Srodowisku Wodnym)|Bromatol. Chem. Toksykol. (Non-English)23(1-2): 26-34|1990|
61070|A||Boike,A.H.,Jr., and C.B.,Jr. Rathburn|An Evaluation of Several Toxic Rubber Compounds as Mosquito Larvicides|Mosq. News33(4): 501-505|1973|
61071|A||Bond,H.W., and G.C. Fuller|Correlation of Structure Versus Activity of Pollutants of Fresh Water|Tech.Completion Rep., Jul.1, 1969-Jun.30, 1971, Rhode Island Univ., Water Resour.Ctr., Kingston, RI:1-11|1971|
61075|A||Bossard,P., and R. Gachter|MELIMEX, an Experimental Heavy Metal Pollution Study:  Effects of Increased Heavy Metal Load on Uptake of Glucose by Natural Planctonic Communities|Schweiz. Z. Hydrol.41(2): 261-270|1979|
61077|A||Bottino,N.R., C.H. Banks, K.J. Irgolic, P. Micks, A.E. Wheeler, and R.A. Zingaro|Selenium Containing Amino Acids and Proteins in Marine Algae|Phytochemistry23(11): 2445-2452|1984|10.1016/S0031-9422(00)84073-X
61078|A||Bottomley,P.J., C. Van Baalen, and F.R. Tabita|Heterocyst Differentiation and Tryptophan Metabolism in the Cyanobacterium Anabaena sp. CA|Arch. Biochem. Biophys.203(1): 204-213|1980|10.1016/0003-9861(80)90170-8
61079|A||Christensen,K.K., and F.O. Andersen|Influence of Littorella uniflora on Phosphorus Retention in Sediment Supplied with Artificial Porewater|Aquat. Bot.55(3): 183-197|1996|10.1016/S0304-3770(96)01061-3
61080|A||Chou,Y.J., and D.R. Dietrich|Toxicity of Nitromusks in Early Lifestages of South African Clawed Frog (Xenopus laevis) and Zebrafish (Danio rerio)|Toxicol. Lett.111(1-2): 17-25|1999|10.1016/S0378-4274(99)00167-8
61081|AT||Chong,S., H. Garelick, D.M. Revitt, R.B.E. Shutes, P. Worrall, and D. Brewer|The Microbiology Associated with Glycol Removal in Constructed Wetlands|Water Sci. Technol.40(3): 99-107|1999|10.2166/wst.1999.0145
61082|A||Chou,H.Y., S.J. Chang, H.Y. Lee, and Y.C. Chiou|Preliminary Evidence for the Effect of Heavy Metal Cations on the Susceptibility of Hard Clam (Meretrix lusoria) to Clam Birnavirus Infection|Fish Pathol.33(4): 213-219|1998|10.3147/jsfp.33.213
61083|A||Chong,K., and W.X. Wang|Comparative Studies on the Biokinetics of Cd, Cr, and Zn in the Green Mussel Perna viridis and the Manila Clam Ruditapes philippinarum|Environ. Pollut.115(1): 107-121|2001|10.1016/S0269-7491(01)00087-2
61084|A||Choi,J., H. Roche, and T. Caquet|Hypoxia, Hyperoxia and Exposure to Potassium Dichromate or Fenitrothion Alter the Energy Metabolism in Chironomus riparius Mg. (Diptera:  Chironomidae) Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(1): 11-17|2001|10.1016/S1532-0456(01)00206-X
61085|A||Chinni,S., R.N. Khan, and P.R. Yallapragada|Larval Growth in Postlarvae of Penaeus indicus on Exposure to Lead|Bull. Environ. Contam. Toxicol.67(1): 27-34|2001|
61086|A||Wiser,C.W., and D.J. Nelson|Uptake and Elimination of Cobalt-60 by Crayfish|Am. Midl. Nat.72:181-202|1964|10.2307/2423222
61087|A||Wirth,M.C., and G.P. Georghiou|Selection and Characterization of Temephos Resistance in a Population of Aedes aegypti from Tortola, British Virgin Islands|Am. Mosq. Control Assoc. J.15(3): 315-320|1999|
61088|A||Wirth,M.C.|Isolation and Characterization of Two Novel Organophosphate Resistance Mechanisms in Culex pipiens from Cyprus|Am. Mosq. Control Assoc. J.14(4): 397-405|1998|
61089|A||Wirth,E.F., S.A. Lund, M.H. Fulton, and G.I. Scott|Determination of Acute Mortality in Adults and Sublethal Embryo Responses of Palaemonetes pugio to Endosulfan and Methoprene Exposure|Aquat. Toxicol.53(1): 9-18|2001|10.1016/S0166-445X(00)00157-0
61090|A||Wilson,J.T., P.L. Pascoe, J.M. Parry, and D.R. Dixon|Evaluation of the Comet Assay as a Method for the Detection of DNA Damage in the Cells of a Marine Invertebrate, Mytilus edulis L. (Mollusca: Pelecypoda)|Mutat. Res.399(1): 87-95|1998|10.1016/S0027-5107(97)00268-6
61091|A||Wilson,J.E.H.|Duration of Exposure Affects Delayed Toxicity of Diflubenzuron to Grass Shrimp Embryos|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2192:110-116|1997|
61092|A||Willford,W.A.|Chlorinated Hydrocarbons as a Limiting Factor in the Reproduction of Lake Trout in Lake Michigan|EPA 600/9-80-034, Proc.3rd USA-USSR Symp.on the Effects of Pollutants upon Aquatic Ecosystems, U.S.EPA, Duluth, MN:75-83|1980|
61093|A||Wiegman,S., P.L.A. Van Vlaardingen, W.J.G.M. Peijnenburg, S.A.M. Van Beusekom, M.H.S. Kraak, and W. Admiraal|Photokinetics of Azaarenes and Toxicity of Phototransformation Products to the Marine Diatom Phaeodactylum tricornutum|Environ. Sci. Technol.33(23): 4256-4262|1999|10.1021/es990228q
61094|A||White,R.D., D. Shea, A.R. Solow, and J.J. Stegeman|Induction and Post-Transcriptional Suppression of Hepatic Cytochrome P450 1A1 by 3,3',4,4'-Tetrachlorobiphenyl|Biochem. Pharmacol.53:1029-1040|1997|10.1016/S0006-2952(96)00902-1
61095|A||Wheelock,C.E., M.F. Wolfe, H. Olsen, and R.S. Tjeerdema|Characterization of Hsp60 Response in the Rotifer, Brachionus plicatilis, Exposed to Multiple Environmental Contaminants|Mar. Environ. Res.46(1-5): 453-456|1998|10.1016/S0141-1136(98)00018-X
61096|A||Weis,J.S., and L.H. Mantel|DDT as an Accelerator of Limb Regeneration and Molting in Fiddler Crabs|Estuar. Coast. Mar. Sci.4(4): 461-466|1976|10.1016/0302-3524(76)90020-7
61097|A||Watts,M.M., D. Pascoe, and K. Carroll|Survival and Precopulatory Behavior of Gammarus pulex (L.) Exposed to Two Xenoestrogens|Water Res.35(10): 2347-2352|2001|10.1016/S0043-1354(00)00537-6
61099|A||Bovee,E.C.|Effects of Heavy Metals Especially Selenium, Vanadium and Zirconium on Movement, Growth and Survival of Certain Animal Aquatic Life|National Technical Information Service, PB-292 563, Kansas Water Resources Research Institute, Manhattan:1-24|1978|
61104|A||Bowmer,K.H., and G.H. Smith|Herbicides for Injection into Flowing Water: Acrolein and Endothal-Amine|Weed Res. (Multiple Languages)24:201-211|1984|10.1111/j.1365-3180.1984.tb00589.x
61111|T||Bradfield,P.L.|Robin Population Changes and Pesticide Transformations After Methoxychlor Replaces DDT for Control of Dutch Elm Disease|Ph.D. Thesis, Michigan State University, East Lansing, MI:66 p.|1972|
61141|A||Brooke,L.|Summary of Results for the Daphnia magna Fluoranthene 21-Day Chronic Test Without Ultraviolet Light Present|Memo (Center for Lake Superior Environmental Stud., Univ.of Wisconsin-Superior, Superior, WI) to W.Berry, U.S.EPA, Narragansett,RI:1 p.|1992|
61152|A||Burrows,R.E.|Prophylactic Treatment for Control of Fungus (Saprolegnia parasitica) on Salmon Eggs|Prog. Fish-Cult.11(2): 97-103|1949|10.1577/1548-8640(1949)11[97:PTFCOF]2.0.CO;2
61164|A||Bruno,M.G., T.E. Fannin, and G.J. Leversee|The Disposition of Benzo(a)pyrene in the Periphyton Communities of Two South Carolina Streams:  Uptake and Biotransformation|Can. J. Bot.60:2084-2091|1982|10.1139/b82-255
61168|A||Brown,V.M., V.V. Mitrovic, and G.T.C. Stark|Effects of Chronic Exposure to Zinc on Toxicity of a Mixture of Detergent and Zinc|Water Res.2:255-263|1968|10.1016/0043-1354(68)90018-3
61176|A||Brooks,A.S.|The Effect of Selenium on the Reproductive Potential of the Fathead Minnow|Research Project No.1631-1, University of Wisconsin-Milwaukee, Center for Great Lakes Studies, Milwaukee, WI:188 p.|1984|
61177|A||Brooke,L.T., and D.J. Call|Bioconcentration, Metabolism and Elimination of Eight Aromatic Compounds in the Fathead Minnow (Pimephales promelas)|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:43 p.|1978|
61178|A||Brooke,L.T., D.J. Call, S.H. Poirier, C.A. Lindberg, and T.P. Markee|Acute Toxicity of Antimony III to Several Species of Freshwater Organisms|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:12 p.|1986|
61180|A||Brooke,L.|Results of Freshwater Exposures with the Chemicals 2,4-D and Diazinon to the Larval Leopard Frog (Rana pipiens), Juvenile Fathead Minnows (Pimephales promelas), Larval Midge (Chironomus riparius) and Adult Oligochaete W|February 15th Memo to R.Spehar, U.S.EPA, Duluth, MN:6 p.|1989|
61181|A||Brooke,L.T., D.J. Call, S.L. Harting, and S.H. Poirier|Acute Toxicity of Acenaphthene to Duckweed (Lemna minor)|Battelle Memorial Research Institute, Columbus OH:10 p.|1986|
61182|A||Brooke,L.T.|Conducting Toxicity Tests with Freshwater Organisms Exposed to Dieldrin, Fluoranthene and Phenanthrene|U.S.EPA Contract No.68-C1-0034, Work Assignment No.5, to R.L.Spehar, U.S.EPA, Duluth, MN:18 p.|1993|
61183|A||Brooke,L.T., D.J. Call, S.H. Poirier, S.L. Harting, and D.J. McCauley|Acute Exposure of Hexachlorobenzene to Selected Freshwater Organisms|Rep.to Battelle Memorial Res.Inst., Columbus, OH, in Partial Fulfillment of Task Order No.2 of Subcontract No.F-4114(8834)-411:10 p.|1986|
61184|A||Brooke,L.T., D.J. Call, S.L. Harting, S.H. Poirier, C.A. Lindberg, T.P. Markee, and D.J. McCauley|Acute Toxicity of 2,4,5-Trichlorophenol to Freshwater Invertebrates|Rep.to Battelle Memorial Res.Inst., Columbus, OH, in Partial Fulfillment of Task Order No.3 of Subcontract No.F-4114(8834)-411:9 p.|1986|
61185|A||Brooke,L.T.|Acute Phenanthrene Toxicity to Daphnia magna|U.S.EPA Contract No.68-C1-0034, Work Assignment No.2-14, to R.L.Spehar, U.S.EPA, Duluth, MN:11 p.|1994|
61186|A||Seki,M., H. Yokota, H. Matsubara, Y. Tsuruda, M. Maeda, H. Tadokoro, and K. Kobayashi|Effect of Ethinylestradiol on the Reproduction and Induction of Vitellogenin and Testis-Ova in Medaka (Oryzias latipes)|Environ. Toxicol. Chem.21(8): 1692-1698|2002|
61192|A||Brockway,D.L., J. Hill IV, J.R. Maudsley, and R.R. Lassiter|Development, Replicability and Modeling of Naturally Derived Microcosms|Int. J. Environ. Stud.13:149-158|1979|10.1080/00207237908709816
61194|A||Bringmann,G., and R. Kuhn|Comparative Water-Toxicological Investigations on Bacteria, Algae, and Daphnia|TR-TS-002, Literature Research Company, Annandale, VA:26 p.|1959|
61199|A||Brandao,J.C., H.H.L. Bohets, I.E. Van de Vyver, and P.J. Dierickx|Correlation Between the In Vitro Cytotoxicity to Cultured Fathead Minnow Fish Cells and Fish Lethality Data for 50 Chemicals|Chemosphere25(4): 553-562|1992|10.1016/0045-6535(92)90287-2
61200|T||Brattsten,L.B., and C.F. Wilkinson|Insecticide Solvents: Interference with Insecticidal Action|Science196:1211-1212|1977|10.1126/science.860135
61203|A||Cain,J.R., and R.K. Cain|The Effects of Selected Herbicides on Zygospore Germination and Growth of Chlamydomonas moewusii (Chlorophyceae, Volvocales)|J. Phycol.19:301-305|1983|10.1111/j.0022-3646.1983.00301.x
61204|A||Cairns,J.,Jr., R.E. Sparks, and W.T. Waller|The Use of Fish as Sensors in Industrial Waste Lines to Prevent Fish Kills|Hydrobiologia (Multiple Languages)41(2): 151-167|1973|10.1007/BF00016442
61206|A||Cairns,J.,Jr., J.W. Hall, E.L. Morgan, R.E. Sparks, W.T. Waller, and G.F. Westlake|The Development of an Automated Biological Monitoring System for Water Quality|Bull.No.59, Virginia Water Resour.Res.Ctr., Virginia Polytechnic Inst.and State Univ., Blacksburg,VA:50 p.|1973|
61207|A||Cairns,J.,Jr., E. Morgan, and R.E. Sparks|Application of Biological Monitoring Systems to Simulated Industrial Waste Discharge Situation|Proj.Completion Rep., Dep.of Biol.and Ctr.for Environ.Stud., Virginia Polytechnic Inst.and State Univ., Blacksburg, VA:1-24|1972|
61208|A||Cairns,J.,Jr., and J.R. Pratt|Multispecies Toxicity Testing Using Indigenous Organisms - a New, Cost-Effective Approach to Ecosystem Protection|In: 1985 Environ.Conf., TAPPI Proc., TAPPI Press, Atlanta, GA:149-159|1985|
61211|A||Calamari,D., and R. Marchetti|Relevance of Studies on Developmental and Young Stages of Salmo gairdneri in Establishing Water Quality Criteria for Fisheries|Berichte - Umweltbundesamt10:201-210|1978|
61212|A||Call,D.J., L.T. Brooke, S.L. Harting, S.H. Poirier, and D.J. McCauley|Toxicity of Phenanthrene to Several Freshwater Species|Rep.to Battelle Memorial Res.Inst., Columbus, OH, in Partial Fulfillment of Work Assignment No.45, Task Order No.4 of Subcontract No.F4114(8834)-411:15 p.|1986|
61216|A||Canton,J.H., and W. Slooff|A Proposal to Classify Compounds and to Establish Water Quality Criteria Based on Laboratory Data|Ecotoxicol. Environ. Saf.3:126-132|1979|10.1016/0147-6513(79)90005-8
61217|T||Campbell,J.R., and D. Penner|Enhanced Phytotoxicity of Bentazon with Organophosphate and Carbamate Insecticides|Weed Sci.30:324-326|1982|10.1017/S0043174500040625
61219|A||Capizzi,T., L. Oppenheimer, H. Mehta, H. Naimie, and J.L. Fair|Statistical Considerations in the Evaluation of Chronic Aquatic Toxicity Studies|Environ. Sci. Technol.19:35-43|1985|10.1021/es00131a002
61223|A||Capuzzo,J.M., B.A. Lancaster, and G.C. Sasaki|The Effects of Petroleum Hydrocarbons on Lipid Metabolism and Energetics of Larval Development and Metamorphosis in the American Lobster (Homarus americanus Milne Edwards)|Mar. Environ. Res.14:201-228|1984|10.1016/0141-1136(84)90079-5
61227|A||Cancalon,P.|Degeneration and Regeneration of Olfactory Cells Induced by ZnSO4 and Other Chemicals|Tissue Cell14(4): 717-733|1982|10.1016/0040-8166(82)90061-1
61228|A||Cantelmo,A.C., R.J. Lazell, and L.H. Mantel|The Effects of Benzene on Molting and Limb Regeneration in Juvenile Callinectes sapidus Rathbun|Mar. Biol. Lett2:333-343|1981|
61230|A||Carlson,R.E.|Can the Short-Term Toxicity of Water-Soluble Jet Fuel Hydrocarbons Produce Long-Lasting Effect in Lake Plankton Communities?|AFOSR Grant No.AFOSR-82-0120, Final Tech.Rep., Air Force Office of Sci.Res., Bolling Air Force Base, DC:30 p.|1983|
61234|T||Clayton,L.B., I. Kitchen, and C. Winder|Ontogenetic Differences in Striatal Enkephalin Levels in Rats Exposed to Low Levels of Lead|Br. J. Pharmacol.79:199P|1983|
61235|A||Carter,J.G.T., and W.L. Nicholas|Uptake of Zinc by the Aquatic Larvae of Simulium ornatipes (Diptera:  Nematocera)|Aust. J. Mar. Freshw. Res.29(3): 299-309|1978|10.1071/MF9780299
61237|A||Celander,M., M.J. Leaver, S.G. George, and L. Forlin|Induction of Cytochrome P450 1A1 and Conjugating Enzymes in Rainbow Trout (Oncorhynchus mykiss) Liver:  A Time Course Study|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.106(2): 343-349|1993|10.1016/0300-9629(93)90523-7
61239|A||Cenini,P., and R.J. Turner|In Vitro Effects of Zinc on Lymphoid Cells of the Carp, Cyprinus carpio L.|J. Fish Biol.23:579-583|1983|10.1111/j.1095-8649.1983.tb02937.x
61240|A||Cerniglia,C.E., J.P. Freeman, and C. Van Baalen|Biotransformation and Toxicity of Aniline and Aniline Derivatives in Cyanobacteria|Arch. Microbiol.130:272-275|1981|10.1007/BF00425939
61242|T||Chakrabarti,S.|Increased Activity of Certain Hepatic Drug-Metabolizing Enzymes due to Subchronic Exposure to Bromobenzene|Toxicol. Lett.20:79-83|1984|10.1016/0378-4274(84)90187-5
61248|A||Chapman,G., and S. Dunlop|Detoxication of Zinc and Cadmium by the Freshwater Protozoan Tetrahymena pyriformis.  I.  The Effect of Water Hardness|Environ. Res.26:81-86|1981|10.1016/0013-9351(81)90185-7
61255|A||Cline,T.F., and G. Post|Therapy for Trout Eggs Infected with Saprolegnia|Prog. Fish-Cult.34(3): 148-151|1972|10.1577/1548-8640(1972)34[148:TFTEIW]2.0.CO;2
61257|A||Clasen,J., and H. Bernhardt|The Use of Algal Assays for Determining the Effect of Iron and Phosphorus Compounds on the Growth of Various Algal Species|Water Res.8:31-44|1974|10.1016/0043-1354(74)90006-2
61259|A||Cooksey,K.E.|Requirement for Calcium in Adhesion of a Fouling Diatom to Glass|Appl. Environ. Microbiol.41(6): 1378-1382|1981|10.1128/aem.41.6.1378-1382.1981
61262|A||Cooper,K.R., V. Kindt, and R. Snyder|Correlation of Benzene Metabolism and Histological Lesions in Rainbow Trout (Salmo gairdneri)|Drug Metab. Rev.15(4): 673-696|1984|10.3109/03602538409041076
61276|A||Chen,T.T., and R.A. Sonstegard|Development of a Rapid, Sensitive and Quantitative Test for the Assessment of the Effects of Xenobiotics on Reproduction in Fish|Mar. Environ. Res.14:429-430|1984|10.1016/0141-1136(84)90101-6
61281|A||Chatterji,A., B.S. Ingole, and A.H. Parulekar|Effectiveness of Formaldehyde in Caligus Infection of Laboratory Reared Grey Mullet, Mugil cephalus (L)|Indian J. Mar. Sci.11:344-346|1982|
61282|AT||Gangawane,L.V., and R.S. Saler|Tolerance of Certain Fungicides by Nitrogen Fixing Blue-Green Algae|Curr. Sci. (Bangalore)48(7): 306-308|1979|
61283|A||Cooper,R.C., L. Hunter, P.C. Ulrichs, and R. Danielson|Environmental Quality Research - Fate of Toxic Jet Fuel Components in Aquatic Systems|Rep.No.AFAMRL-TR-82-64, The Regents of the Univ.of Calif., Irvine, CA:98 p.|1982|
61284|T||Chatterji,S.M., J.P. Kulshreshtha, and S. Rajamani|Some Promising Insecticides for the Control of the Rice Gall Midge, Orseolia oryzae (Wood-Mason)|J. Entomol. Res.3(2): 168-171|1979|
61287|T||Coats,J.R., R.L. Metcalf, I.P. Kapoor, L.C. Chio, and P.A. Boyle|Physical-Chemical and Biological Degradation Studies on DDT Analogues with Altered Aliphatic Moieties|J. Agric. Food Chem.27(5): 1016-1022|1979|10.1021/jf60225a019
61294|T||Domingo,J.L., J.L. Paternain, J.M. Llobet, and J. Corbella|Effects of Vanadium on Reproduction, Gestation, Parturition and Lactation in Rats upon Oral Administration|Life Sci.39(9): 819-824|1986|10.1016/0024-3205(86)90460-1
61295|T||Schroeder,H.A., M. Mitchener, and A.P. Nason|Zirconium, Niobium, Antimony, Vanadium and Lead in Rats:  Life Term Studies|J. Nutr.100:59-68|1970|10.1093/jn/100.1.59
61296|T||Morgareidge,K.|Metabolism of Two Forms of Dietary Arsenic by the Rat|J. Agric. Food Chem.11(5): 377-378|1963|10.1021/jf60129a008
61297|T||Webster,W.S.|Cadmium-Induced Fetal Growth Retardation in the Mouse|Arch. Environ. Health33:36-43|1978|10.1080/00039896.1978.10667306
61298|T||Adam,S.E.I., I.A. Wasfi, and M. Magzoub|Chronic Copper Toxicity in Nubian Goats|J. Comp. Pathol.87:623-627|1977|10.1016/0021-9975(77)90069-X
61299|T||Olson,K.J., J.P. Fontenot, and M.L. Failla|Influence of Molybdenum and Sulfate Supplementation and Withdrawal of Diets Containing High Copper Broiler Litter on Tissue Copper Levels in Ewes|J. Anim. Sci.59(1): 210-216|1984|10.2527/jas1984.591210x
61300|T||Zervas,G., E. Nikolaou, and A. Mantzios|Comparative Study of Chronic Copper Poisoning in Lambs and Young Goats|Anim. Prod.50:497-506|1990|
61302|T||Suttle,N.F., and C.F. Mills|Studies of the Toxicity of Copper to Pigs  2: Effect of Protein Source and Other Dietary Components on the Response to High and Moderate Intakes of Copper|Br. J. Nutr.20:149-161|1966|10.1079/BJN19660019
61303|T||Ambrose,A.M., P.S. Larson, J.F. Borzelleca, and G.R.,Jr. Hennigar|Long Term Toxicologic Assessment of Nickel in Rats and Dogs|J. Food Sci. Technol.13:181-187|1976|
61304|T||Schroeder,H.A., J.J. Balassa, and W.H.,Jr. Vinton|Chromium, Lead, Cadmium, Nickel and Titanium in Mice:  Effect on Mortality, Tumors and Tissue Levels|J. Nutr.83:239-250|1964|10.1093/jn/83.3.239
61305|T||Weber,C.W., and B.L. Reid|Nickel Toxicity in Growing Chicks|J. Nutr.95:612-616|1968|10.1093/jn/95.4.612
61307|T||Exon,J.H., and L.D. Koller|Effects of Chlorinated Phenols on Immunity in Rats|Int. J. Immunopharmacol.5:131-136|1983|10.1016/0192-0561(83)90004-8
61308|T||Knudsen,I., H.G. Verschuuren, E.M. Den Tonkelaar, R. Kroes, and P.F.W. Helleman|Short-Term Toxicity of Pentachlorophenol in Rats|Toxicology2:141-152|1974|10.1016/0300-483X(74)90005-5
61309|T||Spears,J.W., E.E. Hatfield, R.M. Forbes, and S.E. Koenig|Studies on the Role of Nickel in the Ruminant|J. Nutr.108:313-320|1978|10.1093/jn/108.2.313
61310|T||Prescott,C.A., B.N. Wilkie, B. Hunter, and R.J. Julian|Influence of a Purified Grade of Pentachlorophenol on the Immune Response of Chickens|Am. J. Vet. Res.43(3): 481-487|1982|
61311|T||Welsh,J.J., T.F.X. Collins, T.N. Black, S.L. Graham, and M.W.,Jr. O'Donnell|Teratogenic Potential of Purified Pentachlorophenol and Pentachloroanisole in Subchronically Exposed Sprague-Dawley Rats|Food Chem. Toxicol.25(2): 163-172|1987|10.1016/0278-6915(87)90150-5
61314|T||Burlington,H., and V.F. Lindeman|Effect of DDT on Testes and Secondary Sex Characters of White Leghorn Cockerels|Proc. Soc. Exp. Biol. Med.74:48-51|1950|10.3181/00379727-74-17805
61315|T||Gerber,G.B., J. Maes, N. Gilliavod, and G. Casale|Brain Biochemistry of Infant Mice and Rats Exposed to Lead|Toxicol. Lett.2:51-63|1978|10.1016/0378-4274(78)90064-4
61316|T||Dinius,D.A., T.H. Brinsfield, and E.E. Williams|Effect of Subclinical Lead Intake on Calves|J. Anim. Sci.37(1): 169-173|1973|10.2527/jas1973.371169x
61317|T||Zaiser,A.E., and V. Miletic|Prenatal and Postnatal Chronic Exposure to Low Levels of Inorganic Lead Attenuates Long-Term Potentiation in the Adult Rat Hippocampus In Vivo|Neurosci. Lett.239:128-130|1997|10.1016/S0304-3940(97)00895-1
61318|T||McCauley,P.T., R.J. Bull, and S.D. Lutkenhoff|Assocation of Alterations in Energy Metabolism with Lead-Induced Delays in Rat Cerebral Cortical Development|Neuropharmacology18:93-101|1979|10.1016/0028-3908(79)90014-5
61320|T||Carroll,P.T., E.K. Silbergeld, and A.M. Goldberg|Alteration of Central Cholinergic Function by Chronic Lead Acetate Exposure|Biochem. Pharmacol.26:397-402|1977|10.1016/0006-2952(77)90198-8
61321|T||Momcilovic,B., and K. Kostial|Kinetics of Lead Retention and Distribution in Suckling and Adult Rats|Environ. Res.8:214-220|1974|10.1016/0013-9351(74)90053-X
61322|T||Goldstein,G.W., A.K. Asbury, and I. Diamond|Pathogenesis of Lead Encephalopathy:  Uptake of Lead and Reaction of Brain Capillaries|Arch. Neurol.31:382-389|1974|10.1001/archneur.1974.00490420048005
61325|T||Bankowska,J., and C. Hine|Retention of Lead in the Rat|Arch. Environ. Contam. Toxicol.14:621-629|1985|10.1007/BF01055393
61326|T||Goyer,R.A., D.L. Leonard, J.F. Moore, B. Rhyne, and M.R. Krigman|Lead Dosage and the Role of the Intranuclear Inclusion Body.  An Experimental Study|Arch. Environ. Health20:705-711|1970|10.1080/00039896.1970.10665647
61327|T||Willoughby,R.A., T. Thirapatsakun, and B.J. McSherry|Influence of Rations Low in Calcium and Phosphorus on Blood and Tissue Lead Concentrations in the Horse|Am. J. Vet. Res.33(6): 1165-1173|1972|
61328|T||Hsu,F.S., L. Krook, W.G. Pond, and J.R. Duncan|Interactions of Dietary Calcium with Toxic Levels of Lead and Zinc in Pigs|J. Nutr.105:112-118|1975|10.1093/jn/105.1.112
61329|T||Lorenzo,A.V., M. Gewirtz, and D. Averill|CNS Lead Toxicity in Rabbit Offspring|Environ. Res.17:131-150|1978|10.1016/0013-9351(78)90067-1
61330|T||Hill,C.H.|Chromium - Interactions with Other Elements|In: D.Shapcott and J.Huber (Eds.), Chromium in Nutrition and Metabolism, Elsevier/North Holland Biomedical Press, Amsterdam:229-240|1979|
61331|T||Rama,R., and J. Planas|Dietary Cadmium Effect on Iron Metabolism in Chickens|Biol. Trace Elem. Res.3:169-183|1981|10.1007/BF02990115
61332|T||Freeland,J.H., and R.J. Cousins|Effect of Dietary Cadmium on Anemia, Iron Absorption, and Cadmium Binding Protein in the Chick|Nutr. Rep. Int.8(5): 337-347|1973|
61335|T||Stoewsand,G.S., J.L. Anderson, M. Rutzke, and D.J. Lisk|Deposition of Barium in the Skeleton of Rats fed Brazil Nuts|Nutr. Rep. Int.38(2): 259-263|1988|
61338|T||Tardiff,R.G., M. Robinson, and N.S. Ulmer|Subchronic Oral Toxicity of BaCl2 in Rats|J. Environ. Pathol. Toxicol.4(5-6): 267-275|1980|
61339|T||Perry,H.M.,Jr., S.J. Kopp, E.F. Perry, and M.W. Erlanger|Hypertension and Associated Cardiovascular Abnormalities Induced by Chronic Barium Feeding|J. Toxicol. Environ. Health28:373-388|1989|10.1080/15287398909531356
61340|T||Mathur,S., A.O. Prakash, and R. Mathur|Protective Effects of LIV-52 Against Beryllium Toxicity in Rats|Curr. Sci. (Bangalore)55(18): 899-901|1986|
61341|T||Prine,J.R., S.F. Brokeshoulder, D.E. McVean, and F.R. Robinson|Demonstration of the Presence of Beryllium in Pulmonary Granulomas|Am. J. Clin. Pathol.45(4): 448-454|1966|10.1093/ajcp/45.4.448
61342|T||Sakaguchi,S., T. Sakaguchi, I. Nakamura, M. Aminaka, T. Tanaka, and Y. Kudo|Effect of Beryllium on alpha-Aminoevulinic Acid Dehydratase and Porphobilinogen Deaminase in Pregnant Mice|Pharmacol. Toxicol.79:214-216|1996|10.1111/j.1600-0773.1996.tb02091.x
61346|T||Cobo,J.M., M.V. Aguilar, and M.C. Martinez|Effect of Chronic Cr3+ Administration and Its Interaction with Dietary As3+ on Glucose Tolerance in Wistar Rats|Nutr. Res.15(4): 555-564|1995|10.1016/0271-5317(95)00023-2
61348|T||Aebischer,N.J., and G.R. Potts|Sample Size and Area:  Implications Based on Long-Term Monitoring of Partridges|In: L.Somerville and C.H.Walker (Eds.), Pesticide Effects on Terrestrial Wildlife, Taylor and Francis, London, England, U.K.:257-270|1990|
61351|T||Treon,J.F., J. Boyd, G. Berryman, J. Gosney, L. Hartman, D. Brown, and J. Coomer|Final Report on the Effects on the Reproductive Capacity of Three Generations of Rats Being Fed on Diets Containing Aldrin, Dieldrin or DDT|Unpubl.Rep.of the Kettering Lab., Univ.of Cincinnati, Cincinnati, OH:12 p.|1954|
61352|T||Treon,J.F., F.R. Dutra, F.E. Shaffer, F.P. Cleveland, W. Wagner, and T. Gahegan|The Toxicity of Aldrin, Dieldrin, and DDT when Fed to Rats over the Period of Six Months|Unpubl.Rep.of the Kettering Lab., Univ.of Cincinnati, Cincinnati, OH:24 p.|1951|
61353|T||Treon,J.F., F.P. Cleveland, F.E. Shaffer, W. Wagner, H. Moody, T. Marshall, G. Noyes, M. Battle, and J. Cappel|The Toxicity of Aldrin, Dieldrin and DDT, when fed to Rats over the Period of Twenty-Seven Weeks|Unpubl.Rep.of the Kettering Lab., Univ.of Cincinnati, Cincinnati, OH:11 p.|1953|
61354|A||Wibe,A.E., T. Nordtug, and B.M. Jenssen|Effects of bis(Tributyltin)Oxide on Antipredator Behavior in Threespine Stickleback Gasterosteus aculeatus L.|Chemosphere44(3): 475-481|2001|10.1016/S0045-6535(00)00202-2
61357|A||Jahan,S., M.A. Azmi, S.N.H. Naqvi, and M.A. Khan|Determination of Toxicity of Pyrethroid (Deltamethrin) and SDS (Neem Formulation) Against Barbus ticto|In: M.Ahmad and A.R.Shakoori (Eds.), Proc.of the 14th Pakistan Congress of Zool., Apr.1-3, 1994, Zool.Soc.of Pakistan, Univ.of Karachi, Karachi, Pakistan14:65-67|1994|
61359|A||Su,T., and M.S. Mulla|Oviposition Bioassay Responses of Culex tarsalis and Culex quinquefasciatus to Neem Products Containing Azadirachtin1213|Entomol. Exp. Appl.91(2): 337-345|1999|10.1046/j.1570-7458.1999.00500.x
61362|T||Taha,N.M., A.S.A. Newairy, A.M. Abo-Elwafa, and A.F. Salama|Biochemical Effect of Vitamin E and Selenium Combination on Testes and Accessory Sex Organs of Albino Rats|J. Med. Res. Inst.14(1): 135-144|1993|
61363|AT||Whiteley,P.L., and T.M. Yuill|Effects of Selenium on Mallard Duck Reproduction and Immune Function|EPA-600/3-89/078, U.S.EPA, Corvallis, OR:55 p.|1989|
61364|T||Wiemeyer,S.N., and D.J. Hoffman|Reproduction in Eastern Screech-Owls Fed Selenium|J. Wildl. Manag.60(2): 332-341|1996|10.2307/3802232
61370|T||Schoening,H.W.|Production of So-Called Alkali Disease in Hogs by Feeding Corn Grown in Affected Area|N. Am. Vet.17:22-28|1936|
61371|T||Nielsen,F.H., C.D. Hunt, and E.O. Uthus|Interactions Between Essential Trace and Ultratrace Elements|Ann. N. Y. Acad. Sci.355:152-164|1980|10.1111/j.1749-6632.1980.tb21335.x
61372|T||Kanisawa,M., and H.A. Schroeder|Life Term Studies on the Effect of Trace Elements on Spontaneous Tumors in Mice and Rats|Cancer Res.29:892-895|1969|
61374|T||Kayongo-Male,H., and I.S. Palmer|Copper-Silicon Interaction Studies in Young, Rapidly Growing Turkeys Fed Semipurified Starter Diets|Biol. Trace Elem. Res.63(3): 195-204|1998|10.1007/BF02778937
61375|T||Hill,C.H.|Effect of Dietary Copper on Vanadate Toxicity in Chicks|Biol. Trace Elem. Res.23:17-23|1990|10.1007/BF02917175
61376|T||Ledoux,D.R., P.R. Henry, C.B. Ammerman, and R.D. Miles|Effect of Dietary Copper and Age on Tissue Mineral Composition of Broiler-Type Chicks as a Bioassay of Inorganic Copper Sources|Nutr. Rep. Int.40(1): 53-66|1989|
61377|T||Foster,S.D.|The Biological and Physiological Effects of Excess Copper in Juvenile Mallards (Anas platyrhynchos):  An Investigation of the Toxicity of Acid Mine Drainage in Waterfowl|M.S.Thesis, Colorado State University, Fort Collins, CO:131 p.|1999|
61378|T||Hoda,A.A., and M.H. Maha|Potency of Copper as Growth Promoter in Broiler Chickens|Vet. Med. J. Giza43(1): 77-85|1995|
61379|T||Ankari,A.A., H. Najib, and A.A. Hozab|Yolk and Serum Cholesterol and Production Traits, as Affected by Incorporating a Supraoptimal Amount of Copper in the Diet of the Leghorn Hen|Br. Poult. Sci.39(3): 393-397|1998|10.1080/00071669888944
61380|T||Guenthner,E., C.W. Carlson, and R.J. Emerick|Copper Salts for Growth Stimulation and Alleviation of Aortic Rupture Losses in Turkeys|Poult. Sci.57(5): 1313-1324|1978|10.3382/ps.0571313
61381|T||Ferguson,W.S.|The Teart Pastures of Somerset IV. The Effect of Continuous Administration of Copper Sulphate to Dairy Cows|J. Agric. Sci.33:116-118|1943|10.1017/S0021859600010686
61382|T||Doong,G., C.L. Keen, Q. Rogers, J. Morris, and R.B. Rucker|Selected Features of Copper Metabolism in the Cat|J. Nutr.113(10): 1963-1971|1983|10.1093/jn/113.10.1963
61383|T||Tom,K., M. Chen, W. Goettlich-Riemann, J. Tanimoto, S. Grey, D. Wake, and R.B. Rucker|Collagen and Elastin Metabolism in Relation to Dietary Zinc and Copper in the Chick and Rat|Nutr. Rep. Int.15(2): 191-198|1977|
61385|T||Leeson,S., and J.D. Summers|Effect of high Dietary Levels of Supplemental Zinc, Manganese, Copper or Iron on Broiler Performance to Three Weeks of Age and Accumulation of These Minerals in Tissue and Excreta|Nutr. Rep. Int.25(3): 591-599|1982|
61386|T||Ekperigin,H.E., and P. Vohra|Influence of Dietary Excess Methionine on the Relationship Between Dietary Copper and the Concentration of Copper and Iron in Organs of Broiler Chicks|J. Nutr.111(9): 1630-1640|1981|10.1093/jn/111.9.1630
61387|T||White,C.L., B.S. Chandler, and J. Musk|Copper Deficiency and Excess in Rats:  Interactions with Selenium and Iron|Nutr. Res.Suppl. I:531-534|1985|
61388|T||Haley,T.J., J.H. Farmer, J.R. Harmon, and K.L. Dooley|Estimation of the LD1 and Extrapolation of the LD0.1 for Five Organothiophosphate Pesticides|Eur. J. Toxicol. Environ. Hyg. (Multiple Languages)8(4): 229-235|1975|
61390|T||Gill,B.S., H.S. Pawar, and R. Singh|Studies on Different Dietary Copper Levels in Male White Leghorn Chicks|Int. J. Anim. Sci.10:325-329|1995|
61391|T||Wahlstrom,R.C., L.D. Kamstra, and O.E. Olson|Preventing Selenium Poisoning in Growing and Fattening Pigs|Bull. Agric. Exp. Stn. S.D. State Univ.456:1-15|1956|
61393|T||Sunderman,F.W.Jr., M.C. Reid, S.K. Shen, and C.B. Kevorkian|Embryotoxicity and Teratogenicity of Nickel Compounds|In: T.W.Clarkson, G.F.Nordberg, and P.R.Sager (Eds.), Reproductive and Developmental Toxicity of Metals, Plenum Press, NY:399-416|1983|
61394|T||Anwer,J., and N.K. Mehrotra|Effect of Simultaneous Exposure to Nickel Chloride and Benzo(a)pyrene on Developing Chick Embryos|Drug Chem. Toxicol.9(2): 171-183|1986|10.3109/01480548608998273
61395|T||Smith,M.K., E.L. George, J.A. Stober, H.A. Feng, and G.L. Kimmel|Perinatal Toxicity Associated with Nickel Chloride Exposure|Environ. Res.61(2): 200-211|1993|10.1006/enrs.1993.1064
61396|T||Spears,J.W., and E.E. Hatfield|Interaction Between Nickel and Copper in the Rat|Biol. Trace Elem. Res.7:181-193|1985|10.1007/BF02916540
61397|T||Spears,J.W., E.E. Jones, L.J. Samsell, and W.D. Armstrong|Effect of Dietary Nickel on Growth, Urease Activity, Blood Parameters and Tissue Mineral Concentrations in the Neonatal Pig|J. Nutr.114:845-853|1984|10.1093/jn/114.5.845
61398|T||Srivastava,R.C., S.K. Hasan, Jyotsana, and S. Gupta|Protective Role of Metallothionein in Nickel Induced Oxidative Damage|Biochem. Mol. Biol. Int.30(2): 261-270|1993|
61399|T||Srivastava,R.C., M.M. Husain, S.K. Srivastava, S.K. Hasan, and A. Lal|Effect of Pre-Exposure to Cadmium and Silver on Nickel Induced Toxic Manifestations in Mice:  Possible Role of Ceruloplasmin and Metallothionein|Bull. Environ. Contam. Toxicol.54(5): 751-759|1995|10.1007/BF00206109
61400|T||Sunderman,F.W.Jr., A. Marzouk, S.M. Hopfer, O. Zaharia, and M.C. Reid|Increased Lipid Peroxidation in Tissues of Nickel Chloride-Treated Rats|Ann. Clin. Lab. Sci.15(3): 229-236|1985|
61401|T||Tandon,S.K., and A.K. Mathur|Role of Iron Deficiency in Susceptibility to Nickel Toxicity|J. Environ. Biol.7(4): 201-207|1986|
61402|T||Uthus,E.O., and R.A. Poellot|Dietary Nickel and Folic Acid Interact to Affect Folate and Methionine Metabolism in the Rat|Biol. Trace Elem. Res.58:25-33|1997|10.1007/BF02910663
61403|T||Uthus,E.O., and R.A. Poellot|Effect of Nitrous Oxide on Nickel Deprivation in Rats|Biol. Trace Elem. Res.38:35-46|1993|10.1007/BF02783980
61404|T||Warner,R.D., C.R. Dorn, J.R. Blakeslee, D.F. Gerken, J.C. Gordon, and E.J. Angrick|Zinc Effects on Nickel Dermatitis in the Guinea Pig|Contact Dermatitis19:98-108|1988|10.1111/j.1600-0536.1988.tb05505.x
61405|T||Spears,J.W., R.W. Harvey, and L.J. Samsell|Effects of Dietary Nickel and Protein on Growth, Nitrogen Metabolism and Tissue Concentrations of Nickel, Iron, Zinc, Manganese and Copper in Calves|J. Nutr.116:1873-1882|1986|10.1093/jn/116.10.1873
61406|T||Scheiner,D.M., S.A. Katz, and M.H. Samitz|Nickel Levels in Hair and Nickel Ingestion in Guinea Pigs|Environ. Res.12:355-357|1976|10.1016/0013-9351(76)90045-1
61407|T||Schiffer,R.B., R.M. Herndon, and T. Eskin|Effects of Altered Dietary Trace Metals upon Experimental Allergic Encephalomyelitis|Neurotoxicology11:443-450|1990|
61408|T||Schiffer,R.B., F.W.Jr. Sunderman, R.B. Baggs, and J.A. Moynihan|The Effects of Exposure to Dietary Nickel and Zinc upon Humoral and Cellular Immunity in SJL Mice|J. Neuroimmunol.34:229-239|1991|10.1016/0165-5728(91)90134-S
61409|T||Schroeder,H.A., M. Mitchener, and A.P. Nason|Life-Term Effects of Nickel in Rats:  Survival, Tumors, Interactions with Trace Elements and Tissue Levels|J. Nutr.104:239-243|1974|10.1093/jn/104.2.239
61410|T||Oosting,J.S., A.G. Lemmens, G.J. Van den Berg, and A.C. Beynen|Iron, Copper, and Zinc Status in Rats Fed Supplemental Nickel|Biol. Trace Elem. Res.31:63-70|1991|10.1007/BF02990360
61411|T||Peligero,M.J., A. Mas, L. Arola, and M. Alemany|Effects of an Acute Administration of Nickel upon Blood Glucose Compartmentation in Pregnant Rats|Arch. Int. Physiol. Biochim.93:1-5|1985|10.3109/13813458509104509
61412|T||Obone,E., S.K. Chakrabarti, C. Bai, M.A. Malick, L. Lamontagne, and K.S. Subramanian|Toxicity and Bioaccumulation of Nickel Sulfate in Sprague-Dawley Rats Following 13 Weeks of Subchronic Exposure|J. Toxicol. Environ. Health Part A57(6): 379-401|1999|10.1080/009841099157593
61413|T||O'Dell,G.D., W.J. Miller, S.L. Moore, and W.A. King|Effect of Nickel as the Chloride and the Carbonate on Palatability of Cattle Feed|J. Dairy Sci.53:1266-1269|1970|10.3168/jds.S0022-0302(70)86377-9
61414|T||O'Dell,G.D., W.J. Miller, W.A. King, J.C. Ellers, and H. Jurecek|Effect of Nickel Supplementation on Production and Composition of Milk|J. Dairy Sci.53:1545-1548|1970|10.3168/jds.S0022-0302(70)86435-9
61416|T||Nielsen,F.H.|Effect of Form of Iron on Nickel Deprivation in the Rat:  Plasma and Liver Lipids|Biol. Trace Elem. Res.2:199-210|1980|10.1007/BF02785355
61417|T||Nielsen,F.H., and T.R. Shuler|Effect of Form of Iron on Nickel Deprivation in the Rat.  Liver Content of Copper, Iron, Manganese, and Zinc|Biol. Trace Elem. Res.3:245-256|1981|10.1007/BF02990121
61418|T||Nielsen,F.H., T.J. Zimmerman, and T.R. Shuler|Interactions Among Nickel, Copper, and Iron in Rats.  Liver and Plasma Content of Lipids and Trace Elements|Biol. Trace Elem. Res.4:125-143|1982|10.1007/BF02783253
61419|T||Novelli,E.L.B., J.P.S. Valente, and N.L. Rodrigues|Toxic Effects of Water Eutrophication on Pancreatic, Hepatic and Osteogenic Tissues of Rats|Toxicon32(10): 1270-1274|1994|10.1016/0041-0101(94)90357-3
61421|T||Nielsen,F.H., T.R. Shuler, T.J. Zimmerman, M.E. Collings, and E.O. Uthus|Interaction Between Nickel and Iron in the Rat|Biol. Trace Elem. Res.1:325-335|1979|10.1007/BF02778834
61422|T||Kadiiska,M., T. Stoytchev, and E. Serbinova|On the Mechanism of the Enzyme-Inducing Action of Some Heavy Metal Salts|Arch. Toxicol.56:167-169|1985|10.1007/BF00333421
61423|T||Lindberg,M., S. Sagstrom, G.M. Roomans, and B. Forslind|Sodium Lauryl Sulfate Enhances Nickel Penetration Through Guinea-Pig Skin.  Studies with Energy Dispersive X-Ray Microanalysis|Scanning Microsc.3(1): 221-224|1989|
61424|T||Martinez,D.A., and G.J. Diaz|Effect of Graded Levels of Dietary Nickel and Manganese on Blood Haemoglobin Content and Pulmonary Hypertension in Broiler Chickens|Avian Pathol.25:537-549|1996|10.1080/03079459608419160
61425|T||Mathur,A.K., and S.K. Tandon|Some Biochemical Alterations in Early Nickel Toxicity|Chemosphere11-12:893-901|1979|10.1016/0045-6535(79)90030-4
61426|T||Mayor,P., R. Cabrera, B. Ribas, and C. Calle|Effect of Long-Term Nickel Ingestion on Insulin Binding and Antilipolytic Response in Rat Adipocytes|Biol. Trace Elem. Res.22:63-70|1989|10.1007/BF02917417
61427|T||Milne,J.S., F.G. Whitelaw, J. Price, and W.J. Shand|The Effect of Supplementary Nickel on Urea Metabolism in Sheep Given a Low Protein Diet|Anim. Prod.50:507-512|1990|
61428|T||Misra,M., M. Athar, S. Chandra, S.K. Hasan, and R.C. Srivastava|Pharmacokinetics and Metabolic Disposition of Nickel in Poisoned Rats - Effect of Chelating Drugs|Chemosphere16(1): 259-267|1987|10.1016/0045-6535(87)90130-5
61429|T||Nation,J.R., M.F. Hare, D.M. Baker, D.E. Clark, and A.E. Bourgeois|Dietary Administration of Nickel:  Effects on Behavior and Metallothionein Levels|Physiol. Behav.34:349-353|1985|10.1016/0031-9384(85)90194-5
61430|T||Jasim,S., and H. Tjalve|Effect of Sodium Pyridinethione on the Uptake and Distribution of Nickel, Cadmium and Zinc in Pregnant and Non-pregnant Mice|Toxicology38:327-350|1986|10.1016/0300-483X(86)90148-4
61431|T||Deknudt,G., and A. Leonard|Mutagenicity Tests with Nickel Salts in the Male Mouse|Toxicology25:289-292|1982|10.1016/0300-483X(82)90106-8
61432|T||Chen,C.Y., Y.L. Huang, and T.H. Lin|Association Between Oxidative Stress and Cytokine Production in Nickel-Treated Rats|Arch. Biochem. Biophys.356(2): 127-132|1998|10.1006/abbi.1998.0761
61433|T||Athar,M., M. Misra, and R.C. Srivastava|Evaluation of Chelating Drugs on the Toxicity, Excretion, and Distribution of Nickel in Poisoned Rats|Fundam. Appl. Toxicol.9(1): 26-33|1987|10.1016/0272-0590(87)90150-3
61434|A||Su,T., and M.S. Mulla|Ovicidal Activity of Neem Products (Azadirachtin) Against Culex tarsalis and Culex quinquefasciatus (Diptera:  Culicidae)|Am. Mosq. Control Assoc. J.14(2): 204-209|1998|
61435|A||Sturm,A., J.P. Cravedi, and H. Segner|Prochloraz and Nonylphenol Diethoxylate Inhibit an Mdr1-Like Activity In Vitro, but do not Alter Hepatic Levels of P-Glycoprotein in Trout Exposed In Vivo|Aquat. Toxicol.53(3/4): 215-228|2001|10.1016/S0166-445X(01)00167-9
61436|A||Sturm,A., J.P. Cravedi, E. Perdu, M. Baradat, and H. Segner|Effects of Prochloraz and Nonylphenol Diethoxylate on Hepatic Biotransformation Enzymes in Trout: A Comparative In Vitro/In Vivo-Assessment Using Cultured Hepatocytes|Aquat. Toxicol.53(3/4): 229-245|2001|10.1016/S0166-445X(01)00168-0
61439|A||Stengel,D.B., and M.J. Dring|Copper and Iron Concentrations in Ascophyllum nodosum (Fucales, Phaeophyta) from Different Sites in Ireland and After Culture Experiments in Relation to Thallus Age and Epiphytism|J. Exp. Mar. Biol. Ecol.246(2): 145-161|2000|10.1016/S0022-0981(99)00180-X
61440|A||Stehly,G.R., and W.H. Gingerich|Evaluation of AQUI-S (Efficacy and Minimum Toxic Concentration) as a Fish Anaesthetic/Sedative for Public Aquaculture in the United States|Aquac. Res.30(5): 365-372|1999|10.1046/j.1365-2109.1999.00339.x
61441|A||Steelman,C.D., J.M. Gassie, and B.R. Craven|Laboratory and Field Studies on Mosquito Control in Waste Disposal Lagoons in Louisiana|Mosq. News27:57-59|1967|
61442|A||Steevens,J.A., M. Slattery, D. Schlenk, A. Aryl, and W.H. Benson|Effects of Ultraviolet-B Light and Polyaromatic Hydrocarbon Exposure on Sea Urchin Development and Bacterial Bioluminescence|Mar. Environ. Res.48(4/5): 439-457|1999|10.1016/S0141-1136(99)00061-6
61443|A||Standal,H., K.A. Rorvik, H. Lien, and O. Andersen|Effects of Acute Iron Overload on Atlantic Salmon (Salmo salar) and Rainbow Trout (Oncrohynchus mykiss)|Biol. Trace Elem. Res.59(1-3): 13-22|1997|10.1007/BF02783225
61445|A||Sprague,J.B., and D.E. Drury|Avoidance Reactions of Salmonid Fish to Representative Pollutants|Proc. Int. Conf. Int. Assoc. Water Pollut. Res.1:169-179|1969|
61447|A||Slabbert,J.L., and E.A. Venter|Biological Assays for Aquatic Toxicity Testing|Water Sci. Technol.39(10/11): 367-373|1999|10.2166/wst.1999.0684
61448|A||Skowronski,T., and M. Rzeczycka|Effect of High Zinc Concentrations on the Growth of Stichococcus bacillaris and Chlorella vulgaris|Acta Microbiol. Pol.29(4): 389-396|1980|
61449|A||Sivan,A., and S. Arad|Intraspecific Transfer of Herbicide Resistance in the Red Microalga Porphyridium sp. (Rhodophyceae) via Protoplast Fusion|J. Phycol.34(4): 706-711|1998|10.1046/j.1529-8817.1998.340706.x
61450|A||Sivan,A., and S. Arad (Malis)|A Mutant of the Red Microalga Porphyridium sp. (Rhodophyceae) Resistant to DCMU and Atrazine|Phycologia34(4): 299-305|1995|10.2216/i0031-8884-34-4-299.1
61451|A||Singh,S.|Cobalt-Induced Inhibition of Growth in Cyanobacteria Anabaena doliolum and Anacystis nidulans:  Interaction with Sulphur Containing Amino Acids|Indian J. Exp. Biol.27(12): 1092-1093|1989|
61453|A||Simon,O., and A. Boudou|Direct and Trophic Contamination of the Herbivorous Carp Ctenopharyngodon idella by Inorganic Mercury and Methylmercury|Ecotoxicol. Environ. Saf.50(1): 48-59|2001|10.1006/eesa.2001.2086
61454|A||Soukupova,J., A. Lukavska, J. Lukavsky, and L. Nedbal|Sensitivity of the Algal Biotest ISO 10253 to the Photosystem 2 Herbicides in Seawater|Photosynthetica (Praha)37(2): 209-216|1999|10.1023/A:1007051804296
61455|A||Solbakken,J.E., S. Tilseth, and K.H. Palmork|Uptake and Elimination of Aromatic Hydrocarbons and a Chlorinated Biphenyl in Eggs and Larvae of Cod Gadus morhua|Mar. Ecol. Prog. Ser.16:297-301|1984|10.3354/meps016297
61456|A||Sokolowski,A., M. Wolowicz, H. Hummel, and R. Bogaards|Physiological Responses of Macoma balthica to Copper Pollution in the Baltic (Reponses Physiologiques de Macoma bathica a la Pollution par le Cuivre en mer Baltique)|Oceanol. Acta22(4): 431-439|1999|10.1016/S0399-1784(00)88726-5
61457|A||Song,Z.H., and G.L. Huang|Effect of Triphenyltin on Duckweed Lemna minor|Bull. Environ. Contam. Toxicol.67(3): 368-375|2001|
61458|A||Soegianto,A., M. Charmantier-Daures, J.P. Trilles, and G. Charmantier|Impact of Cadmium on the Structure of Gills and Epipodites of the Shrimp Penaeus japonicus (Crustacea: Decapoda)|Aquat. Living Resour.12(1): 57-70|1999|10.1016/S0990-7440(99)80015-1
61459|A||Sobhan,R., and S.P.K. Sternberg|Cadmium Removal Using Cladophora|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control34(1): 53-72|1999|
61460|A||Snyder,S.A., T.L. Keith, S.L. Pierens, E.M. Snyder, and J.P. Giesy|Bioconcentration of Nonylphenol in Fathead Minnows (Pimephales promelas)|Chemosphere44(8): 1697-1702|2001|10.1016/S0045-6535(00)00524-5
61461|A||Snyder,M.J., and E.P. Mulder|Environmental Endocrine Disruption in Decapod Crustacean Larvae:  Hormone Titers, Cytochrome P450, and Stress Protein Responses to Heptachlor Exposure|Aquat. Toxicol.55(3-4): 177-190|2001|10.1016/S0166-445X(01)00173-4
61462|A||Snyder,M.J., E. Girvetz, and E.P. Mulder|Induction of Marine Mollusc Stress Proteins by Chemical or Physical Stress|Arch. Environ. Contam. Toxicol.41(1): 22-29|2001|10.1007/s002440010217
61463|A||Smith,R.W., S.C. Blaney, K. Dowling, A. Sturm, M. Jonsson, and D.F. Houlihan|Protein Synthesis Costs Could Account for the Tissue-Specific Effects of Sub-Lethal Copper on Protein Synthesis in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.53(3-4): 265-277|2001|10.1016/S0166-445X(01)00171-0
61464|A||Smith,G.R.|Effects of Acute Exposure to a Commercial Formulation of Glyphosate on the Tadpoles of Two Species of Anurans|Bull. Environ. Contam. Toxicol.67(4): 483-488|2001|10.1007/s001280149
61465|A||Sparagano,O.A.E., and C.A. Groliere|Effects of Tetramethylthiuram Disulphide (Thiram) on Adenine Nucleotide (ATP, ADP, AMP) Levels in the Ciliate Tetrahymena pyriformis|Environ. Toxicol.14(4): 409-413|1999|10.1002/(SICI)1522-7278(1999)14:4<409::AID-TOX6>3.0.CO;2-Y
61466|A||Tanaka,Y., and J. Nakanishi|Effect of Linear Alkylbenzene Sulfonate on Population Growth of Daphnia galeata: A Life Table Evaluation|Environ. Toxicol.16:344-348|2001|10.1002/tox.1042
61467|A||Tam,N.F.Y., J.P.K. Wong, and Y.S. Wong|Repeated Use of Two Chlorella Species, C. vulgaris and WW1 for Cyclic Nickel Biosorption|Environ. Pollut.114(1): 85-92|2001|10.1016/S0269-7491(00)00202-5
61468|A||Takayanagi,K.|Acute Toxicity of Waterborne Se(IV), Se(VI), Sb(III), and Sb(V) on Red Seabream (Pargus major)|Bull. Environ. Contam. Toxicol.66(6): 808-813|2001|
61469|A||Tahedl,H., and D.P. Hader|Automated Biomonitoring Using Real Time Movement Analysis of Euglena gracilis|Ecotoxicol. Environ. Saf.48(2): 161-169|2001|10.1006/eesa.2000.2004
61470|A||Tada,M., and S. Hatakeyama|Chronic Effects of an Insecticide, Fenobucarb, on the Larvae of Two Mayflies, Epeorus latifolium and Baetis thermicus, in Model Streams|Ecotoxicology9(3): 187-195|2000|10.1023/A:1008990604166
61473|T||Reigner,B.G., R.A. Gungon, F.Y. Bois, L. Zeise, and T.N. Tozer|Pharmacokinetic Concepts in Assessing Intake of Pentachlorophenol by Rats After Exposure Through Drinking Water|J. Pharm. Sci.81(11): 1113-1118|1992|10.1002/jps.2600811115
61474|T||Savolainen,H., and K. Pekari|Neurochemical Effects of Peroral Administration of Technical Pentachlorophenol|Res. Commun. Chem. Pathol. Pharmacol.23(1): 97-105|1979|
61475|T||Bleavins,M.R., S.J. Bursian, J.S. Brewster, and R.J. Aulerich|Effects of Dietary Hexachlorobenzene Exposure on Regional Brain Biogenic Amine Concentrations in Mink and European Ferrets|J. Toxicol. Environ. Health14(2/3): 363-377|1984|10.1080/15287398409530586
61476|T||Beard,A.P., P.M. Bartlewski, R.K. Chandolia, A. Honaramooz, and N.C. Rawlings|Reproductive and Endocrine Function in Rams Exposed to the Organochlorine Pesticides Lindane and Pentachlorophenol from Conception|J. Reprod. Fertil.115:303-314|1999|10.1530/jrf.0.1150303
61477|T||Beard,A.P., P.M. Bartlewski, and N.C. Rawlings|Endocrine and Reproductive Function in Ewes Exposed to the Organochlorine Pesticides Lindane or Pentachlorophenol|J. Toxicol. Environ. Health Part A56(1): 23-46|1999|10.1080/009841099158213
61478|T||Beard,A.P., and N.C. Rawlings|Thyroid Function and Effects on Reproduction in Ewes Exposed to the Organochlorine Pesticides Lindane or Pentachlorophenol (PCP) from Conception|J. Toxicol. Environ. Health Part A58(8): 509-530|1999|10.1080/009841099157124
61479|T||Dunachie,J.F., and W.W. Fletcher|Effect of Some Herbicides on the Hatching Rate of Hen's Eggs|Nature215:1406-1407|1967|10.1038/2151406b0
61481|T||Exon,J.H., and L.D. Koller|Effects of Transplacental Exposure to Chlorinated Phenols|Environ. Health Perspect.46:137-140|1982|10.1289/ehp.8246137
61482|T||Gandy,J., G.C. Millner, H.K. Bates, D.A. Casciano, and R.D. Harbison|Effects of Selected Chemicals on the Glutathione Status in the Male Reproductive System of Rats|J. Toxicol. Environ. Health29(1): 45-57|1990|10.1080/15287399009531370
61483|T||Fleischer,M., R. Meiss, H. Robenek, H. Themann, and R. Eckard|Ultrastructural Morphometric Investigations on Rat Liver of Young and Adult Rats After Treatment with Technical Pentachlorophenol (PCP)|Arch. Toxicol.44(4): 243-257|1980|10.1007/BF00278032
61484|T||Hughes,B.J., J.H. Forsell, S.D. Sleight, C. Kuo, and L.R. Shull|Assessment of Pentachlorophenol Toxicity in Newborn Calves: Clinicopathology and Tissue Residues|J. Anim. Sci.61(6): 1587-1603|1985|10.2527/jas1985.6161587x
61485|T||Kerkvliet,N.I., J.A. Brauner, and L. Baecher-Steppan|Effects of Dietary Technical Pentachlorophenol Exposure on T Cell, Macrophage and Natural Killer Cell Activity in C57B1/6 Mice|Int. J. Immunopharmacol.7(2): 239-247|1985|10.1016/0192-0561(85)90032-3
61486|T||Kerkvliet,N.I., L. Baecher-Steppan, A.T. Claycomb, A.M. Craig, and G.G. Sheggeby|Immunotoxicity of Technical Pentachlorophenol (PCP-T):  Depressed Humoral Immune Responses to T-Dependent and T-Independent Antigen Stimulation in PCP-T Exposed Mice|Fundam. Appl. Toxicol.2(2): 90-99|1982|10.1016/S0272-0590(82)80121-8
61487|T||Jekat,F.W., M.L. Meisel, R. Eckard, and H. Winterhoff|Effects of Pentachlorophenol (PCP) on the Pituitary and Thyroidal Hormone Regulation in the Rat|Toxicol. Lett.71(1): 9-25|1994|10.1016/0378-4274(94)90194-5
61488|T||Polin,D., B. Olson, S. Bursian, and E. Lehning|Enhanced Withdrawal from Chickens of Hexachlorobenzene (HCB) and Pentachlorophenol (PCP) by Colestipol, Mineral Oil, and/or Restricted Feeding|J. Toxicol. Environ. Health19:359-368|1986|10.1080/15287398609530934
61490|T||Meerman,J.H.N., H.M.J. Sterenborg, and G.J. Mulder|Use of Pentachlorophenol as Long-Term Inhibitor of Sulfation of Phenols and Hydroxamic Acids in the Rat In Vivo|Biochem. Pharmacol.32:1587-1593|1983|10.1016/0006-2952(83)90332-5
61491|T||Larsen,R.V., G.S. Born, W.V. Kessler, S.M. Shaw, and D.C. Van Sickle|Placental Transfer and Teratology of Pentachlorophenol in Rats|Environ. Lett.10(2): 121-128|1975|10.1080/00139307509435815
61493|T||Umemura,T., S. Kai, R. Hasegawa, K. Sai, Y. Kurokawa, and G.M. Williams|Pentachlorophenol (PCP) Produces Liver Oxidative Stress and Promotes but does not Initiate Hepatocarcinogenesis in B6C3F1 Mice|Carcinogenesis20(6): 1115-1120|1999|10.1093/carcin/20.6.1115
61494|T||Rawlings,N.C., S.J. Cook, and D. Waldbillig|Effects of the Pesticides Carbofuran, Chlorpyrifos, Dimethoate, Lindane, Triallate, Trifluralin, 2,4-D, and Pentachlorophenol on the Metabolic Endocrine and Reproductive Endocrine System in Ewes|J. Toxicol. Environ. Health Part A54(1): 21-36|1998|10.1080/009841098159006
61495|T||Shull,L.R., B.A. Olson, B.J. Hughes, R.M. McKenzie, and J.H. Kinzell|Effect of Pentachlorophenol on Microsomal Mixed-Function Oxidases in Cattle|Pestic. Biochem. Physiol.23:31-39|1986|10.1016/0048-3575(86)90029-5
61496|T||Altamirano,M., M.E. Ayala, A. Flores, L. Morales, and R. Dominguez|Sex Differences in the Effects of Vanadium Pentoxide Administration to Prepubertal Rats|Med. Sci. Res.19:825-826|1991|
61499|T||Zaporowska,H.|Effect of Vanadium on L-Ascorbic Acid Concentration in Rat Tissues|Gen. Pharmacol.25(3): 467-470|1994|10.1016/0306-3623(94)90199-6
61501|T||Wiegmann,T.B., H.D. Day, and R.V. Patak|Intestinal Absorption and Secretion of Radioactive Vanadium (48VO-3) in Rats and Effect of Al(OH)3|J. Toxicol. Environ. Health10:233-245|1982|10.1080/15287398209530246
61502|T||Sharma,R.P., R.A.,Jr. Coulombe, and B. Srisuchart|Effects of Dietary Vanadium Exposure on Levels of Regional Brain Neurotransmitters and Their Metabolites|Biochem. Pharmacol.35(3): 461-465|1986|10.1016/0006-2952(86)90220-0
61503|T||Susic,D., and D. Kentera|Dependence of the Hypertensive Effect of Chronic Vanadate Administration on Renal Excretory Function in the Rat|J. Hypertens.6:199-204|1988|10.1097/00004872-198803000-00003
61504|T||Sanchez,D.J., M.T. Colomina, and J.L. Domingo|Effects of Vanadium on Activity and Learning in Rats|Physiol. Behav.63(3): 345-350|1998|10.1016/S0031-9384(97)00433-2
61505|T||Sanchez,D., A. Ortega, J.L. Domingo, and J. Corbella|Developmental Toxicity Evaluation of Orthovanadate in the Mouse|Biol. Trace Elem. Res.30(3): 219-226|1991|10.1007/BF02991416
61506|T||Ryder,J.W., and J.A. Gordon|In Vivo Effect of Sodium Orthovanadate on pp60c-src Kinase|Mol. Cell. Biol.7(3): 1139-1147|1987|
61510|T||Ramanadham,S., C. Heyliger, M.J. Gresser, A.S. Tracey, and J.H. McNeill|The Distribution and Half-Life for Retention of Vanadium in the Organs of Normal and Diabetic Rats Orally fed Vanadium(IV) and Vanadium(V)|Biol. Trace Elem. Res.30(2): 119-124|1991|10.1007/BF02990348
61511|T||Ramanadham,S., J.J. Mongold, R.W. Brownsey, G.H. Cros, and J.H. McNeill|Oral Vanadyl Sulfate in Treatment of Diabetes Mellitus in Rats|Am. J. Physiol. Heart Circ. Physiol.257(3, Pt. 2): H904 - H911|1989|10.1152/ajpheart.1989.257.3.H904
61512|T||Ramanadham,S., R.W. Brownsey, G.H. Cros, J.J. Mongold, and J.H. McNeill|Sustained Prevention of Myocardial and Metabolic Abnormalities in Diabetic Rats Following Withdrawal from Oral Vanadyl Treatment|Metab. Clin. Exp.38(10): 1022-1028|1989|10.1016/0026-0495(89)90016-4
61513|T||Meyerovitch,J., Z. Farfel, J. Sack, and Y. Shechter|Oral Administration of Vanadate Normalizes Blood Glucose Levels in Streptozotocin-Treated Rats|J. Biol. Chem.262(14): 6658-6662|1987|10.1016/S0021-9258(18)48292-0
61515|T||MacDonald,E., H. Lihtamo, K. Hellevuo, and H. Komulainen|Subchronic Treatment with Vanadate Does not Potentiate the Toxicity of Cardiac Glycosides|Biol. Trace Elem. Res.16(3): 177-188|1988|10.1007/BF02797134
61516|T||Llobet,J.M., M.T. Colomina, J.J. Sirvent, J.L. Domingo, and J. Corbella|Reproductive Toxicity Evaluation of Vanadium in Male Mice|Toxicology80:199-206|1993|10.1016/0300-483X(93)90181-Q
61517|T||Jadhav,A.L., and B.S. Jandhyala|Effects of Chronic Administration of Vanadate on Blood Pressure, Heart Rate and Na+/K+-ATPase Activity in Adult Male Wistar Rats|Arch. Int. Pharmacodyn. Ther.263:74-84|1983|
61518|T||Hill,C.H.|Interaction of Vanadate and Chloride in Chicks|Biol. Trace Elem. Res.23:1-10|1990|10.1007/BF02917173
61519|T||Hill,C.H.|Interaction of Vanadium and Phosphorus in Chicks|Biol. Trace Elem. Res.46(3): 269-278|1994|10.1007/BF02789302
61520|T||Higashino,H., J.D. Bogden, M.A. Lavenhar, J.W.,Jr. Bauman, T. Hirotsu, and A. Aviv|Vanadium, Na-K-ATPase, and Potassium Adaptation in the Rat|Am. J. Physiol., Renal Fluid Electrolyte Physiol.244(2): F105 - F111|1983|10.1152/ajprenal.1983.244.2.F105
61521|T||Hamel,F.G., and W.C. Duckworth|The Relationship Between Insulin and Vanadium Metabolism in Insulin Target Tissues|Mol. Cell. Biochem.153:95-102|1995|10.1007/BF01075923
61522|T||Goldberg,A., C.B. Williams, R.S. Jones, M. Yanagita, G.E. Cartwright, and M.M. Wintrobe|Studies on Copper Metabolism XXII.  Hemolytic Anemia in Chickens Induced by the Administration of Copper|J. Lab. Clin. Med.48:442-453|1956|
61523|T||Ganguli,S., D.J. Reuland, L.A. Franklin, D.D. Deakins, W.J. Johnston, and A. Pasha|Effects of Maternal Vanadate Treatment on Fetal Development|Life Sci.55(16): 1267-1276|1994|10.1016/0024-3205(94)90065-5
61524|T||Elfant,M., and C.L. Keen|Sodium Vanadate Toxicity in Adult and Developing Rats|Biol. Trace Elem. Res.14(3): 193-208|1987|10.1007/BF02795686
61525|T||Edwards,H.M.,Jr.|Effects of Thiuram, Disulfiram and a Trace Element Mixture on the Incidence of Tibial Dyschondroplasia in Chickens|J. Nutr.117(5): 964-969|1987|10.1093/jn/117.5.964
61526|T||Dai,S., E. Vera, and J.H. McNeill|Lack of Haematological Effect of Oral Vanadium Treatment in Rats|Pharmacol. Toxicol.76:263-268|1995|10.1111/j.1600-0773.1995.tb00141.x
61527|T||Challiss,R.A.J., B. Leighton, F.J. Lozeman, L. Budohoski, and E.A. Newsholme|Effects of Chronic Administration of Vanadate to the Rat on the Sensitivity of Glycolysis and Glycogen Synthesis in Skeletal Muscle to Insulin|Biochem. Pharmacol.36(3): 357-361|1987|10.1016/0006-2952(87)90294-2
61528|T||Carmignani,M., A.R. Volpe, O. Masci, P. Boscolo, F. Di Giacomo, A. Grilli, G. Del Rosso, and M. Felaco|Vanadate as Factor of Cardiovascular Regulation by Interactions with the Catecholamine and Nitric Oxide Systems|Biol. Trace Elem. Res.51(1): 1-12|1996|10.1007/BF02790142
61529|T||Burt,C.T., B. Chen, and C.H. Hill|31P NMR Investigation of Vanadium-Treated Chick Muscle|Biol. Trace Elem. Res.31(2): 193-198|1991|10.1007/BF02990427
61530|T||Boscolo,P., M. Carmignani, A.R. Volpe, M. Felaco, G. Del Rosso, G. Porcelli, and G. Giuliano|Renal Toxicity and Arterial Hypertension in Rats Chronically Exposed to Vanadate|Occup. Environ. Med.51(7): 500-503|1994|10.1136/oem.51.7.500
61531|T||Bogden,J.D., H. Higashino, M.A. Lavenhar, J.W.,Jr. Bauman, F.W. Kemp, and A. Aviv|Balance and Tissue Distribution of Vanadium After Short-Term Ingestion of Vanadate|J. Nutr.112:2279-2285|1982|10.1093/jn/112.12.2279
61532|T||Blalock,T.L., and C.H. Hill|Studies on the Role of Iron in the Reversal of Vanadium Toxicity in Chicks|Biol. Trace Elem. Res.14(3): 225-235|1987|10.1007/BF02795689
61533|T||Bhanot,S., J.H. McNeill, and M. Bryer-Ash|Vanadyl Sulfate Prevents Fructose-Induced Hyperinsulinemia and Hypertension in Rats|Hypertension23(3): 308-312|1994|10.1161/01.HYP.23.3.308
61535|T||Benabdeljelil,K., and L.S. Jensen|Effects of Distillers Dried Grains with Solubles and Dietary Magnesium, Vanadium and Chromium on Hen Performance and Egg Quality|Nutr. Rep. Int.39(3): 451-459|1989|
61536|T||Amir,S., J. Meyerovitch, and Y. Shechter|Vanadate Ions:  Central Nervous System Action on Glucoregulation|Brain Res.419:392-396|1987|10.1016/0006-8993(87)90615-9
61537|T||Al-Bayati,M.A., M.R. Culbertson, J.P. Schreider, L.S. Rosenblatt, and O.G. Raabe|The Lymphotoxic Action of Vanadate|J. Environ. Pathol. Toxicol. Oncol.11(2): 83-91|1992|
61538|T||Patterson,B.W., S.L. Hansard II, C.B. Ammerman, P.R. Henry, L.A. Zech, and W.R. Fisher|Kinetic Model of Whole-Body Vanadium Metabolism:  Studies in Sheep|Am. J. Physiol., Regul. Integr. Comp. Physiol.251(2, Pt. 11): R325 - R332|1986|10.1152/ajpregu.1986.251.2.R325
61542|T||Eberle,D.O., and D. Novak|Fate of Diazinon in Field-Sprayed Agricultural Crops, Soil, and Olive Oil|J. AOAC Int.52(5): 1067-1075|1969|10.1093/jaoac/52.5.1067
61556|A||E.G. and G. Bionomics|Effect of Atrazine on Developing Communities of Benthic Macroinvertebrate Estuarine Organisms|Rep.No.BP-79-11-163R, Submitted to CIBA-Geigy Corp., Greensboro, NC, by the EG&G Bionomics, Mar.Res.Lab., Pensacola, FL:21 p.|1979|
61558|A||Eichenberger,E., F. Schlatter, H. Weilenmann, and K. Wuhrmann|Toxic and Eutrophicating Effects of Co,Cu and Zn on Algal Benthic Communities in Rivers|Verh. Int. Ver. Theor. Angew. Limnol.21:1131-1134|1981|
61566|AT||DeNoyelles,F.,Jr., W.D. Kettle, C.H. Fromm, M.F. Moffett, and S.L. Dewey|Use of Experimental Ponds to Assess the Effects of a Pesticide on the Aquatic Environment|In: J.R.Voshell,Jr.(Ed.), Using Mesocosms to Assess the Aquatic Ecological Risk of Pesticides: Theory and Practice, Misc.Publ.No.75:41-56|1989|
61578|A||Ding,S., F. Zhou, Z. Kong, L. Kong, B. Wang, and L. Wang|Acute Toxicity of Silver to Carp (Cyprinus carpio) and Goldfish (Carassius auratus) and Its Accumulation and Distribution in Fish Bodies|Huanjing Kexue (Non-English)3(4): 6-9|1982|
61579|T||Dixon,C., and K. Compher|The Protective Action of Zinc Against the Deleterious Effects of Cadmium in the Regenerating Forelimb of the Adult Newt, Notophthalmus viridescens|Growth41:95-103|1977|
61580|T||Djam,J.C., and D.A. Focks|Susceptibility of Toxorhynchites amboinensis and Aedes aegypti to Several Adulticides Currently Used for Mosquito Control|Mosq. News43(4): 471-473|1983|
61581|A||Doherty,J.D., and F. Matsumura|DDT Effect on 32P Incorporation from gamma-Labelled ATP into Proteins from Lobster Nerve|J. Neurochem.22:765-772|1974|10.1111/j.1471-4159.1974.tb04292.x
61593|A||Dunlop,S., and G. Chapman|Detoxication of Zinc and Cadmium by the Freshwater Protozoan Tetrahymena pyriformis II.  Growth Experiments and Ultrastructural Studies on Sequestration of Heavy Metals|Environ. Res.24:264-274|1981|10.1016/0013-9351(81)90156-0
61598|T||Kumaratilake,J.S., and J.M. Howell|Lysosomes in the Pathogenesis of Liver Injury in Chronic Copper Poisoned Sheep:  An Ultrastructural and Morphometric Study|J. Comp. Pathol.100(4): 381-390|1989|10.1016/0021-9975(89)90003-0
61601|T||Lease,J.G.|Effect of Graded Levels of Cadmium on Tissue Uptake of 65Zn by the Chick over Time|J. Nutr.96:294-302|1968|10.1093/jn/96.3.294
61602|T||Damron,B.L., C.F. Simpson, and R.H. Harms|The Effect of Feeding Various Levels of Lead on the Performance of Broilers|Poult. Sci.48:1507-1509|1969|10.3382/ps.0481507
61603|T||Borzelleca,J.F., L.W.,Jr. Condie, and J.L.,Jr. Egle|Short-Term Toxicity (One- and Ten-Day Gavage) of Barium Chloride in Male and Female Rats|J. Am. Coll. Toxicol.7(5): 675-685|1988|10.3109/10915818809019542
61605|T||Sawicka-Kapusta,K., and M. Zakrzewska|Effect of Cadmium and Lead on Postnatal Development and Mortality of Rodents|Pol. Ecol. Stud.20(1/2): 43-50|1994|
61606|T||Mithal,R.K.|Histopathological Studies with Reference to Chronic Cadmium Exposure in Adrenal and Spleen of Common Indian Ground Squirrel (Funambulus pennanti, Wroughton)|Ind. Health19:9-14|1981|10.2486/indhealth.19.231
61607|T||Gates,N.L., C.S. Card, V. Eroschenko, and C.V. Hulet|Insensitivity of the Coyote Testis to Orally Administered Cadmium|Theriogenology5(6): 281-288|1976|10.1016/0093-691X(76)90144-8
61609|T||Uthus,E.O., and F.H. Nielsen|Effects in Chicks of Arsenic, Arginine, and Zinc and Their Interaction on Body Weight, Plasma Uric Acid, Plasma Urea, and Kidney Arginase Activity|Biol. Trace Elem. Res.7:11-20|1985|10.1007/BF02916543
61610|T||Fox,M.R.S., R.M. Jacobs, A.O.L. Jones, and B.E.,Jr. Fry|Effects of Nutritional Factors on Metabolism of Dietary Cadmium at Levels Similar to Those of Man|Environ. Health Perspect.28:107-114|1979|10.1289/ehp.7928107
61611|T||Torra,M., M. Rodamilans, J. To-Figueras, I. Hornos, and J. Corbella|Delta Aminolevulinic Acid Dehydratase and Ferrochelatase Activities During Chronic Lead Exposure in Mice|Bull. Environ. Contam. Toxicol.42(4): 476-481|1989|10.1007/BF01700224
61612|T||Rabe,A., J.H. French, B. Sinha, and R. Fersko|Functional Consequences of Prenatal Exposure to Lead in Immature Rats|Neurotoxicology6(1): 43-54|1985|
61613|T||McGhee,F., C.R. Creger, and J.R. Couch|Copper and Iron Toxicity|Poult. Sci.44:310-312|1965|10.3382/ps.0440310
61614|T||Hartman,R.H., G. Matrone, and G.H. Wise|Effect of High Dietary Manganese on Hemoglobin Formation|J. Nutr.57:429-439|1955|10.1093/jn/57.3.429
61615|T||Allcroft,R.|Lead as a Nutritional Hazard to Farm Livestock IV.  Distribution of Lead in the Tissues of Bovines After Ingestion of Various Lead Compounds|J. Comp. Pathol.60:190-208|1950|10.1016/S0368-1742(50)80018-8
61616|T||Rafales,L.S., R.D. Greenland, H. Zenick, M. Goldsmith, and I.A. Michaelson|Responsiveness to d-Amphetamine in Lead-Exposed Rats as Measured by Steady State Levels of Catecholamines and Locomotor Activity|Neurobehav. Toxicol. Teratol.3:363-367|1981|
61617|T||Modak,A.T., S.T. Weintraub, and W.B. Stavinoha|Effect of Chronic Ingestion of Lead on the Central Cholinergic System in Rat Brain Regions|Toxicol. Appl. Pharmacol.34:340-347|1975|10.1016/0041-008X(75)90040-X
61618|T||Govoni,S., M. Memo, L. Lucchi, P.F. Spano, and M. Trabucchi|Brain Neurotransmitter Systems and Chronic Lead intoxication|Pharmacol. Res. Commun.12(5): 447-460|1980|10.1016/S0031-6989(80)80115-9
61619|T||Goldman,D., M.R.,Jr. Hejtmancik, B.J. Williams, and M.G. Ziegler|Altered Noradrenergic Systems in the Lead-Exposed Neonatal Rat|Neurobehav.Toxicol.2:337-343|1980|
61620|T||Fox,D.A., J.P. Lewkowski, and G.P. Cooper|Persistent Visual Cotex Excitability Alterations Produced by Neonatal Lead Exposure|Neurobehav.Toxicol.1:101-106|1979|
61621|T||Collins,M.F., P.D. Hrdina, E. Whittle, and R.L. Singhal|Lead in Blood and Brain Regions of Rats Chronically Exposed to Low Doses of the Metal|Toxicol. Appl. Pharmacol.65(2): 314-322|1982|10.1016/0041-008X(82)90014-X
61622|T||Bornschein,R.L., D.A. Fox, and I.A. Michaelson|Estimation of Daily Exposure in Neonatal Rats Receiving Lead via Dam's Milk|Toxicol. Appl. Pharmacol.40:577-587|1977|10.1016/0041-008X(77)90082-5
61623|T||Pinon-Lataillade,G., A. Thoreux-Manlay, H. Coffigny, G. Monchaux, R. Masse, and J.C. Soufir|Effect of Ingestion and Inhalation of Lead on the Reproductive System and Fertility of Adult Male Rats and Their Progeny|Hum. Exp. Toxicol.12:165-172|1993|10.1177/096032719301200213
61624|T||Blanusa,M., M. Piasek, and K. Kostial|Interaction of Lead with Some Essential Elements in Rat's Kidney in Relation to Age|Biol. Trace Elem. Res.21:189-193|1989|10.1007/BF02917251
61626|T||Hunder,G., J. Schaper, O. Ademuyiwa, and B. Elsenhans|Species Differences in Arsenic-Mediated Renal Copper Accumulation:  A Comparison Between Rats, Mice and Guinea Pigs|Hum. Exp. Toxicol.18:699-705|1999|10.1191/096032799678839545
61627|T||Schiller,C.M., R. Walden, and B.A. Fowler|Interaction Between Arsenic and Alloxan-Induced Diabetes - Effects on Rat Urinary Enzyme Levels|Biochem. Pharmacol.30:168-170|1981|10.1016/0006-2952(81)90189-1
61628|T||Palmer,I.S., N. Thiex, and O.E. Olson|Dietary Selenium and Arsenic Effects in Rats|Nutr. Rep. Int.27(2): 249-257|1983|
61630|T||Carmignani,M., P. Boscolo, and A. Iannaccone|Effects of Chronic Exposure to Arsenate on the Cardiovascular Function of Rats|Br. J. Ind. Med.40:280-284|1983|
61631|T||Ferslew,K.E., and G.T. Edds|Effects of Arsanilic Acids on Growth, Serum Enzymes, Hematologic Values, and Residual Arsenic in Young Swine|Am. J. Vet. Res.40(10): 1365-1369|1979|
61632|T||Bencko,V.|Oxygen Consumption by Mouse Liver Homogenate During Drinking Water Arsenic Exposure Part II.|J. Hyg. Epidemiol. Microbiol. Immunol.16:42-46|1972|
61634|T||Abdo,K.M.|Sodium Selenate and Sodium Selenite.  Administered in Drinking Water to F344/N Rats and B6C3F1 Mice|Toxicity Report Series No. 38, National Toxicology Program, Research Triangle Park, NC:69 p.|1994|
61635|T||Schmolke,G., B. Elsenhans, C. Ehtechami, and W. Forth|Arsenic-Copper Interaction in the Kidney of the Rat|Hum. Exp. Toxicol.11:315-321|1992|10.1177/096032719201100503
61636|T||Gupta,A., R.C. Murthy, M.M. Ali, and S.V. Chandra|Neurobehavioral and Neurochemical Changes in Growing Rates After Cadmium Exposure|Toxicol. Environ. Chem.39:153-160|1993|10.1080/02772249309357912
61637|T||Beems,R.B., and L. Van Beek|Short-Term (6-Week) Oral Toxicity Study of Selenium in Syrian Hamsters|Food Chem. Toxicol.23(10): 945-947|1985|10.1016/0278-6915(85)90113-9
61640|T||Khan,M.Z., J. Szarek, and K. Markiewicz|Concurrent Oral Administration of Monensin and Selenium to Broiler Chickens: Effects on Concentration of Different Elements in the Liver|Acta Vet. Hung.41(3/4): 365-379|1993|
61641|T||Khan,M.Z., J. Szarek, K. Markiewicz, and E. Markiewicz|Effects of Concurrent Oral Administration of Toxic Levels of Monensin and Lead on Concentration of Different Elements in the Liver of Broiler Chicks|J. Vet. Med. Ser. A40(6): 466-475|1993|10.1111/j.1439-0442.1993.tb00653.x
61642|T||Stahl,J.L., J.L. Greger, and M.E. Cook|Zinc, Copper and Iron Utilisation by Chicks Fed Various Concentrations of Zinc|Br. Poult. Sci.30:123-134|1989|10.1080/00071668908417131
61643|T||Cupo,M.A., and W.E. Donaldson|Chromium and Vanadium Effects on Glucose Metabolism and Lipid Synthesis in the Chick|Poult. Sci.66:120-126|1987|10.3382/ps.0660120
61644|T||Kubena,L.F., R.B. Harvey, T.D. Phillips, and O.J. Fletcher|Influence of Ochratoxin A and Vanadium on Various Parameters in Growing Chicks|Poult. Sci.65:1671-1678|1986|10.3382/ps.0651671
61645|T||Sell,J.L., C.Y. Davis, and S.E. Scheideler|Influence of Cottonseed Meal on Vanadium Toxicity and 48Vanadium Distribution in Body Tissues of Laying Hens|Poult. Sci.65:138-146|1986|10.3382/ps.0650138
61646|T||Zarski,T.P., H. Zarska, and B. Debski|The Effect of Selenium Supplementation in Case of Salinomycin Overdose in Broilers|Anim. Sci.31:69-73|1994|
61647|T||Ward,T.L., K.L. Watkins, and L.L. Southern|Interactive Effects of Dietary Copper, Water Copper, and Eimeria spp. Infection on Growth, Water Intake, and Plasma and Liver Copper Concentrations of Poults|Poult. Sci.74:502-509|1995|10.3382/ps.0740502
61652|T||Davis,R.H., and J. Fear|Incorporation of Selenium into Egg Proteins from Dietary Selenite|Br. Poult. Sci.37:197-211|1996|10.1080/00071669608417848
61656|T||Karring,M., R. Pohjanvirta, T. Rahko, and H. Korpela|The Influence of Dietary Molybdenum and Copper Supplementation on the Contents of Serum Uric Acid and Some Trace Elements in Cocks|Acta Vet. Scand.22:289-295|1981|10.1186/BF03548654
61658|T||Harms,R.H., and D.P. Eberst|Influence of Dietary Cupric Sulfate on the Response of Young Turkeys to Sodium Sulfate|Poult. Sci.53:1629-1631|1974|10.3382/ps.0531629
61659|T||Colnago,G.L., L.S. Jensen, and P.L. Long|Effect of Selenium and Vitamin E on the Development of Immunity to Coccidiosis in Chickens|Poult. Sci.63:1136-1143|1984|10.3382/ps.0631136
61666|T||Maljkovic,T., M. Piasek, and K. Kostial|Hemopoietic Response to Lead in Perinatally Exposed Rats|In: M.Astruc and J.N.Lester (Eds.), Heavy Metals in the Hydrological Cycle, Selper Ltd., London:217-222|1988|
61667|T||Piasek,M., K. Kostial, M. Blanusa, and A. Bunarevic|Influence of Age on Lead Effect on Kidney in Rat|In: M.Astruc and J.N.Lester (Eds.), Heavy Metals in the Hydrological Cycle, Selper Ltd., London:223-230|1988|
61668|T||Holtzman,D., M.M. Herman, J.S. Hsu, and P. Mortell|The Pathogenesis of Lead Encephalopathy:  Effects of Lead Carbonate Feedings on Morphology, Lead Content, and Mitochondrial Respiration in Brains of Immature and Adult Rats|Virchows Arch. A. Pathol. Anat. Histopathol.387:147-164|1980|10.1007/BF00430696
61669|T||Memo,M., L. Lucchi, P.F. Spano, and M. Trabucchi|Effect of Chronic Lead Treatment on GABA-Ergic Receptor Function in Rat Brain|Toxicol. Lett.6:427-432|1980|10.1016/0378-4274(80)90118-6
61671|T||Chaudhuri,A.N., S. Basu, S. Chattopadhyay, and S.D. Gupta|Effect of high Arsenic Content in Drinking Water on Rat Brain|Indian J. Biochem. Biophys.36:51-54|1999|
61672|T||Skalnaya,M.G., A.A. Zhavoronkov, I.I. Kalinina, and A.V. Skalny|Characteristic of Thymus in Newborn Mice After Chronic Exposure of Their Mothers to Sodium Arsenite|Trace Elem. Electrolytes13(2): 88-91|1996|
61673|T||Wagstaff,D.J.|Alteration of Hepatic Detoxication Enzyme Activity by Dietary Arsenic Trioxide|Food Cosmet. Toxicol.16:423-426|1978|10.1016/S0015-6264(78)80259-4
61675|T||Biswas,U., S. Sarkar, M.K. Bhowmik, and S. Roy|Clinicopathological Profile of Induced Chronic Arsenic Toxicity in Goats|Indian J. Anim. Sci.68(4): 320-323|1998|
61676|T||Kiyono,S., K. Hasui, K. Takasu, and M. Seo|Toxic Effect of Arsenic Trioxide in Infant Rats|Jpn. J. Physiol.36(7): 253-254|1974|
61677|T||Garcia-Vargas,G., M.E. Cebrian, A. Albores, C.K. Lim, and F. De Matteis|Time-Dependent Porphyric Response in Mice Subchronically Exposed to Arsenic|Hum. Exp. Toxicol.14:475-483|1995|10.1177/096032719501400602
61678|T||Mathur,S., S.J.S. Flora, R. Mathur, and S.D. Gupta|Mobilization and Distribution of Beryllium over the Course of Chelation Therapy with Some Polyaminocarboxylic Acids the the Rat|Hum. Exp. Toxicol.12:19-24|1993|10.1177/096032719301200104
61679|T||Zaporowska,H., and W. Wasilewski|Some Selected Peripheral Blood and Haemopoietic System Indices in Wistar Rats with Chronic Vanadium Intoxication|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 175-180|1989|10.1016/0742-8413(89)90030-3
61680|T||McCauley,P.T., B.H. Douglas, R.D. Laurie, and R.J. Bull|Investigations into the Effect of Drinking Water Barium on Rats|Adv. Mod. Environ. Toxicol.9:197-210|1985|
61681|T||Perry,H.M.,Jr., S.J. Kopp, M.W. Erlanger, and E.F. Perry|Cardiovascular Effects of Chronic Barium Ingestion|Trace Subst. Environ. Health17:155-164|1983|
61682|T||Novell,E.L.B., N.L. Rodrigues, G.S. Bianchi, and B.O. Ribas|Influence of Nickel Chloride on Iron-Deficiency in Rats|Bol. Estud. Med. Biol. Univ. Nacl. Auton. Mexico37(3-4): 95-99|1989|
61683|T||Pandey,R., R. Kumar, S.P. Singh, and S.P. Srivastava|Toxic Effects of Nickel Sulphate on Embryonic Mice (Exposed Male:  Normal Female)|J. Adv. Zool.20(1): 10-11|1999|
61684|T||Schiffer,R.B., R.B. Baggs, and M.P. McDermott|Effects of Exposure to Dietary Nickel and Zinc upon Experimental Allergic Encephalomyelitis in SWXJ Mice|J. Trace Elem. Exp. Med.9:1-9|1996|10.1002/(SICI)1520-670X(199607)9:1<1::AID-JTRA1>3.0.CO;2-R
61685|T||Szakmary,E., V. Morvai, M. Naray, and G. Ungvary|Haemodynamic Effect of Nickel Chloride in Pregnant Rats|Acta Physiol. Hung.83(1): 3-12|1995|
61687|A||Engelhardt,F.R., R.G. Trucco, C.K. Wong, and J.R. Strickler|Effects of Petroleum Hydrocarbons on Trophic Factors of Daphnia pulex|In: P.J.Rand (Ed.), Land and Water Issues Related to Energy Development, Proc.4th Annu.Meet.of the Int.Soc.of Petroleum Industry Biologists, Sept.22-25, 1981, Denver, CO:297-301|1981|
61693|A||Eng-Wilmot,D.L., and D.F. Martin|Uptake of Iron by Gomphosphaeria aponina, a Possible Control Organism for the Florida Red Tide Pytochodiscus brevis|Microbios26:103-113|1979|
61694|A||Eng-Wilmot,D.L., and D.F. Martin|Growth Response of the Marine Blue-Green Alga, Gomphosphaeria aponina, to Inorganic Nutrients and Significance to Management of Florida Red Tide|Microbios19:167-179|1977|
61697|A||Energy Resources Co.Inc.|Toxicity Testing Inter-Laboratory Comparison Early Life Stage Test with Fathead Minnow|Prepared for the U.S.EPA, Cincinnati, OH, and the U.S.EPA, Duluth, MN:47 p.|1981|
61700|A||Ernst,W., and M. Klages|Bioconcentration and Biotransformation of 14C-gamma-Hexachlorocyclohexane and 14C-Hexachlorobenzene in the Antarctic Amphipod Orchomene plebs (Hurley, 1965)|Polar Biol.11:249-252|1991|10.1007/BF00238458
61705|A||Fabacher,D.L.|Hepatic Microsomes from Freshwater Fish - I. In Vitro Cytochrome P-450 Chemical Interactions|Comp. Biochem. Physiol. C Comp. Pharmacol.73:277-283|1982|10.1016/0306-4492(82)90121-6
61706|T||Fadayomi,O., and G.F. Warren|The Light Requirement for Herbicidal Activity of Diphenyl Ethers|Weed Sci.24(6): 598-600|1976|10.1017/S0043174500063025
61707|A||Fairchild,J.F., S.D. Ruessler, M.K. Nelson, and A.R. Carlson|An Aquatic Risk Assessment of Four Herbicides Using Six Species of Algae and Five Species of Aquatic Macrophytes|Presented at the 1994 Meet.of the Soc.of Environ.Toxicol.Chem., Oct.30-Nov.3, 1994, Denver, CO:8 p.|1994|
61714|A||Filenko,O.F., and O.V. Parina|Quantitative Interrelationship of the Accumulation of Organotin Compounds and Inorganic Phosphate by Carp Tissues|Vestn. Mosk. Univ. Ser. XVI Biol. (Non-English)36(3): 47-53|1981|
61715|A||Filenko,O.F., and E.F. Isakova|The Prediction of the Effects of Pollutants on Aquatic Organisms Based on the Data of Acute Toxicity Experiments|In: USA-USSR Symposium on the Effects of Pollutants Upon Aquatic Ecosystems, U.S.EPA, Duluth, MN:138-155|1980|
61717|A||Finlayson,B.J., and R.A. Rudnicki|Storage and Handling as Sources of Error in Measuring Fish Acetylcholinesterase Activity|Bull. Environ. Contam. Toxicol.35:790-795|1985|10.1007/BF01636589
61719|T||Fischer,E.|Effects of Atrazine and Paraquat-Containing Herbicides on Eisenia foetida (Annelida, Oligochaeta)|Zool. Anz. (Multiple Languages)223(5/6): 291-300|1989|
61722|A||Fleming,T.P., M.K. Pratten, and K.S. Richards|Subcellular Localization of Zinc in Experimentally Polluted Tubifex tubifex (Annelida, Oligochaeta)|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 187-193|1982|10.1016/0306-4492(82)90189-7
61724|A||Fleming,W.J., J.J. Momot, and M.S. Ailstock|Bioassay for Phytotoxicity of Toxicants to Sago Pondweed|In: Understanding the Estuary: Advances in Chesapeake Bay Research, Proceedings of a Conference, 29-31 March, 1998, Baltimore, MD, Cheasapeake Research Consortium Publ.129:431-440|1988|
61728|A||Forrest,V., T. Cody, and D. Warshawsky|The Influence of Benzo(a)pyrene on the Growth and Morphogenesis of Fern Gametophytes|Proc.9th Int.Symp.on Polycyclic Aromatic Hydrocarbons, Columbus Battelle Labs, Columbus, OH:5 p.|1984|
61735|A||Fu,L.J., M. Johnson, and L.M. Newman|Prediction of the Developmental Toxicity Hazard Potential of Halogenated Drinking Water Disinfection By-Products Tested by the In Vitro Hydra Assay|Regul. Toxicol. Pharmacol.11:213-219|1990|10.1016/0273-2300(90)90022-4
61736|A||Fujii,Y., and S. Asaka|Metabolism of Diazinon and Diazoxon in Fish Liver Preparations|Bull. Environ. Contam. Toxicol.29:455-460|1982|10.1007/BF01605611
61738|A||Fowler,S.W., and G. Benayoun|Influence of Environmental Factors on Selenium Flux in Two Marine Invertebrates|Mar. Biol.37:59-68|1976|10.1007/BF00386779
61751|A||Cordone,A.J., and S.J. Nicola|Influence of Molybdenum on the Trout and Trout Fishing of Castle Lake|Calif. Fish Game56(2): 96-108|1970|
61752|T||Costa,L.G., H. Hand, B.W. Schwab, and S.D. Murphy|Tolerance to the Carbamate Insecticide Propoxur|Toxicology21:267-278|1981|10.1016/0300-483X(81)90142-6
61756|A||Couch,R.W., and E.N. Nelson|Effects of 2,4-D on Non-Target Species in Kerr Reservoir|J. Aquat. Plant Manag.20:8-13|1982|
61762|A||Cox,D., and M. Kahl|Acute Toxicity Test Exposure of Fluoranthene to the Larval Midge, Chironomus tentans in Laboratory Light|July 11th Memo to L.Brooke, Lake Superior Res.Inst., Superior, WI:5 p.|1994|
61780|A||Das,B., and P.K. Singh|The Effect of 2,4-Dichlorophenoxyacetic Acid on Growth and Nitrogen-Fixation of Blue-Green Alga Anabaenopsis raciborskii|Arch. Environ. Contam. Toxicol.5:437-445|1977|10.1007/BF02220923
61781|A||Davey,R.B., and M.V. Meisch|Dispersal of Mosquitofish, Gambusia affinis, in Arkansas Rice Field|Mosq. News37(4): 777-778|1977|
61782|A||Davies,P.E., L.S.J. Cook, and J.L. Barton|Triazine Herbicide Contamination of Tasmanian Streams:  Sources, Concentrations and Effects on Biota|Aust. J. Mar. Freshw. Res.45:209-226|1994|10.1071/MF9940209
61791|T||DeBarr,G.L., and J.C. Nord|Contact Toxicity of 34 Insecticides to Second-Stage Nymphs of Leptoglossus corculus (Hemiptera:  Coreidae)|Can. Entomol.110(9): 901-906|1978|10.4039/Ent110901-9
61793|A||Debnath,P.K., and B.N. Chatterjee|Control of Chara - A Submerged Aquatic Algal Weed|Trop. Pest Manag.27(1): 142-143|1981|10.1080/09670878109414185
61799|A||Veena,K.B., C.K. Radhakrishnan, and J. Chacko|Metal-Induced Intrinsic Response of the Female Cichlid Etroplus maculatus (Bloch) from South West Coast of India|Bull. Natl. Inst. Oceanogr. Fish.22:73-84|1996|
61800|A||Gillespie,W.B.,Jr., R.W. Steinriede, J.H.,Jr. Rodgers, P.B. Dorn, and D.C.L. Wong|Chronic Toxicity of a Homologous Series of Linear Alcohol Ethoxylate Surfactants to Daphnia magna in 21 Day Flow-Through Laboratory Exposures|Environ. Toxicol.14(3): 293-300|1999|10.1002/(SICI)1522-7278(199907)14:3<293::AID-TOX1>3.0.CO;2-N
61801|A||Ghazaly,K.S.|Efficacy of Ascorbic Acid (Vitamin C) on Experimental Copper Intoxication in Tilapia zillii|Bull. Natl. Inst. Oceanogr. Fish.20(2): 249-257|1994|
61802|A||Gerpe,M., P. Kling, and P.E. Olsson|Metallothionein Gene Expression in Arctic Char (Salvelinus alpinus) Following Metal and PCB Exposure|Mar. Environ. Res.46(1-5): 551-554|1998|10.1016/S0141-1136(97)00108-6
61803|A||Genoni,G.P., R. Behra, C.L. Montague, H. Guttinger, and R. Ternay-Aegerter|Complex Dynamics of Adaptation in a Nonaxenic Microcystis Culture.  I.  Effects of Dinitrophenol on Population Growth|Ecotoxicol. Environ. Saf.48(3): 235-240|2001|10.1006/eesa.2000.2022
61805|A||Garnacho,E., L.S. Peck, and P.A. Tyler|Effects of Copper Exposure on the Metabolism of the Mysid Praunus flexuosus|J. Exp. Mar. Biol. Ecol.265(2): 181-201|2001|10.1016/S0022-0981(01)00331-8
61807|A||Galvez,F., C. Hogstrand, J.C. McGeer, and C.M. Wood|The Physiological Effects of a Biologically Incorporated Silver Diet on Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.55(1-2): 95-112|2001|10.1016/S0166-445X(01)00155-2
61808|A||Gagneten,A.M., and I. Vila|Effects of Cu+2 and pH on the Fitness of Ceriodaphnia dubia (Richard 1894) (Crustacea, Cladocera) in Microcosm Experiments|Environ. Toxicol.16(5): 428-438|2001|10.1002/tox.10001
61809|A||Fuma,S., H. Takeda, K. Miyamoto, K. Yanagisawa, Y. Inoue, N. Ishii, K. Sugai, C. Ishii, and Z. Kawabata|Ecological Evaluation of Gadolinium Toxicity Compared with Other Heavy Metals Using an Aquatic Microcosm|Bull. Environ. Contam. Toxicol.66(2): 231-238|2001|10.1007/s001280000229
61810|A||Frias-Espericueta,M.G., D. Voltolina, and J.I. Osuna-Lopez|Acute Toxicity of Cadmium, Mercury, and Lead to Whiteleg Shrimp (Litopenaeus vannamei) Postlarvae|Bull. Environ. Contam. Toxicol.67(4): 580-586|2001|10.1007/s00128-001-0163-2
61811|A||Fortin,C., and P.G.C. Campbell|Thiosulfate Enhances Silver Uptake by a Green Alga:  Role of Anion Transporters in Metal Uptake|Environ. Sci. Technol.35(11): 2214-2218|2001|10.1021/es0017965
61812|A||Fort,D.J., E.L. Stover, T.L. Propst, B.C. Faulkner, T.A. Vollmuth, and F.J. Murray|Evaluation of the Developmental Toxicity of Caffeine and Caffeine Metabolites Using the Frog Embryo Teratogenesis Assay - Xenopus (FETAX)|Food Chem. Toxicol.36(7): 591-600|1998|10.1016/S0278-6915(98)00021-0
61813|A||Fort,D.J., and E.L. Stover|Effect of Low-Level Copper and Pentachlorophenol Exposure on Various Early Life Stages of Xenopus laevis|ASTM Spec. Tech. Publ.:188-203|1996|
61814|A||Fort,D.J., E.L. Stover, S.L. Burks, R.A. Atherton, and J.T. Blankemeyer|Utilizing Biomarker Techniques:  Cellular Membrane Potential as a Biomarker of Subchronic Toxicity|ASTM Spec. Tech. Publ.:177-187|1996|
61815|AT||Forgash,A.J.|A Summary of Studies of the Impact of Temephos and Chlorpyrifos on the Saltmarsh Environment|Proc. Annu. Meet. N. J. Mosq. Exterm. Assoc.63:94-98|1976|
61816|A||Floore,T.G., J.C. Dukes, J.P. Cuda, E.T. Schreiber, and M.J. Greer|BVA 2 Mosquito Larvicide - A New Surface Oil Larvicide for Mosquito Control|Am. Mosq. Control Assoc. J.14(2): 196-199|1998|
61817|A||Fitzsimons,J.D., L. Vandenbyllaardt, and S.B. Brown|The Use of Thiamine and Thiamine Antagonists to Investigate the Etiology of Early Mortality Syndrome in Lake Trout (Salvelinus namaycush)|Aquat. Toxicol.52(3-4): 229-239|2001|10.1016/S0166-445X(00)00147-8
61819|A||Ferrando,M.D., E. Sancho, M.J. Villarroel, M. Sanchez, and E. Andreu|Comparative Toxicity of Two Herbicides, Molinate and Thiobencarb, to Brachionus calyciflorus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(4): 569-586|1999|
61820|A||Fernandez-Vega,C., E. Sancho, M.D. Ferrando, and E. Andreu-Moliner|Thiobencarb Toxicity and Plasma AChE Inhibition in the European Eel|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(1): 61-73|1999|
61821|A||Feibicke,M.|Impact of Nitrate Addition on Phosphorus Availability in Sediment and Water Column and on Plankton Biomass - Experimental Field Study in the Shallow Brackish Schlei Fjord (Western Baltic, Germany)|Water Air Soil Pollut.99(1-4): 445-456|1997|10.1007/BF02406884
61822|A||Fauconneau,B., and G. Paboeuf|Sensitivity of Muscle Satellite Cells to Pollutants:  An In Vitro and In Vivo Comparative Approach|Aquat. Toxicol.53(3-4): 247-263|2001|10.1016/S0166-445X(01)00170-9
61823|A||Fathi,A.A., and A.M. El-Shahed|Response of Tolerant and Wild Strains of Scenedesmus biguja to Copper|Biol. Plant. (Praha)43(1): 99-103|2000|10.1023/A:1026563232101
61824|A||Fargasova,A.|Ecotoxicology of Metals Related to Freshwater Benthos|Gen. Physiol. Biophys.18(Focus Issue): 48-53|1999|
61825|A||Fargasova,A.|Interactive Effect of Manganese, Molybdenum, Nickel, Copper I and II, and Vanadium on the Freshwater Alga Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.67(5): 688-695|2001|10.1007/s00128-001-0178-8
61826|A||Faini,F., C. Labbe, I. Salgado, and J. Coll|Chemistry, Toxicity and Antifeedant Activity of the Resin of Flourensia thurifera|Biochem. Syst. Ecol.25(3): 189-193|1997|10.1016/S0305-1978(96)00100-7
61827|A||Eufemia,N.A., and D. Epel|The Multixenobiotic Defense Mechanism in Mussels is Induced by Substrates and Non-Substrates: Implications for a General Stress Response|Mar. Environ. Res.46(1-5): 401-405|1998|10.1016/S0141-1136(97)00051-2
61828|A||Ettajani,H., B. Berthet, J.C. Amiard, and L. Chevolot|Determination of Cadmium Partitioning in Microalgae and Oysters:  Contribution to the Assessment of Trophic Transfer|Arch. Environ. Contam. Toxicol.40(2): 209-221|2001|10.1007/s002440010165
61829|A||Ericson,G., E. Noaksson, and L. Balk|DNA Adduct Formation and Persistence in Liver and Extrahepatic Tissues of Northern Pike (Esox lucius) Following Oral Exposure to Benzo(a)pyrene, Benzo[k]fluoranthene and 7H-Dibenzo[c,g]carbazole|Mutat. Res.427(2): 135-145|1999|10.1016/S0027-5107(99)00088-3
61830|A||Erbe,J.L., A.C. Adams, K.B. Taylor, and L.M. Hall|Cyanobacteria Carrying an smt-lux Transcriptional Fusion as Biosensors for the Detection of Heavy Metal Cations|J. Ind. Microbiol.17(2): 80-83|1996|10.1007/BF01570047
61831|A||Podsiadlowski,L., V. Matha, and A. Vilcinskas|Detection of a P-Glycoprotein Related Pump in Chironomus Larvae and Its Inhibition by Verapamil and Cyclosporin A|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.121(4): 443-450|1998|10.1016/S0305-0491(98)10137-2
61833|A||Rauch,S., and G.M. Morrison|Platinum Uptake by the Freshwater Isopod Asellus aquaticus in Urban Rivers|Sci. Total Environ.235(1-3): 261-268|1999|10.1016/S0048-9697(99)00203-X
61834|A||Ringwood,A.H., and C.J. Keppler|Seed Clam Growth:  An Alternative Sediment Bioassay Developed During EMAP in the Carolinian Province|Environ. Monit. Assess.51(1/2): 247-257|1998|10.1023/A:1005995521173
61835|A||Roe Utvik,T.I., G.S. Durell, and S. Johnsen|Determining Produced Water Originating Polycyclic Aromatic Hydrocarbons in North Sea Waters: Comparison of Sampling Techniques|Mar. Pollut. Bull.38(11): 977-989|1999|10.1016/S0025-326X(99)00122-8
61836|A||Sather,B.T.|Chromium Absorption and Metabolism by the Crab Podophthalmus vigil|In: Proc. Int. Symp. on Radioecological Concentration Processes, 1966, Stockholm, Sweden:943-976|1967|
61839|A||Eppley,R.W., E.H. Renger, and P.M. Williams|Chlorine Reactions with Seawater Constituents and the Inhibition of Photosynthesis of Natural Marine Phytoplankton|Estuar. Coast. Mar. Sci.4:147-161|1976|10.1016/0302-3524(76)90039-6
61840|A||Eckenbach,U., R.L. Lampman, D.S. Seigler, J. Ebinger, and R.J. Novak|Mosquitocidal Activity of Acetylenic Compounds from Cryptotaenia canadensis|J. Chem. Ecol.25(8): 1885-1893|1999|10.1023/A:1020938001272
61841|T||Easton,A., K. Guven, and D.I. De Pomerai|Toxicity of the Dithiocarbamate Fungicide Mancozeb to the Nontarget Soil Nematode, Caenorhabditis elegans|J. Biochem. Mol. Toxicol.15(1): 15-25|2001|10.1002/1099-0461(2001)15:1<15::AID-JBT2>3.0.CO;2-Z
61842|A||Dubey,S.K., and L.C. Rai|Effect of Chromium and Tin on Survival, Growth, Carbon Fixation, Heterocyst Differentiation, Nitrogenase, Nitrate Reductase and Glutamine Synthetase Activities of Anabaena doliolum|J. Plant Physiol.130:165-172|1987|10.1016/S0176-1617(87)80220-1
61843|A||Duan,Y., S.I. Guttman, J.T. Oris, and A.J. Bailer|Differential Survivorship Among Allozyme Genotypes of Hyalella azteca Exposed to Cadmium, Zinc or Low pH|Aquat. Toxicol.54(1/2): 15-28|2001|10.1016/S0166-445X(00)00183-1
61844|A||Dragos,N., V. Bercea, A. Nicoara, and A. Chiorean|Toxic Effects of Zinc, Cadmium and Their Mixtures on the Growth of Two Unicellular Green Algae|Rev. Roum. Biol. Ser. Biol. Veg.33(2): 103-110|1988|
61845|A||Doran,W.J., W.G. Cope, R.G. Rada, and M.B. Sandheinrich|Acetylcholinesterase Inhibition in the Threeridge Mussel (Amblema plicata) by Chlorpyrifos:  Implications for Biomonitoring|Ecotoxicol. Environ. Saf.49(1): 91-98|2001|10.1006/eesa.2000.2036
61846|A||Donkin,P., J. Widdows, S.V. Evans, and M.D. Brinsley|QSARs for the Sublethal Responses of Marine Mussels (Mytilus edulis)|Sci. Total Environ.109/110:461-476|1991|10.1016/0048-9697(91)90201-O
61847|A||Doi,A.M., E. Holmes, and K.M. Kleinow|P-Glycoprotein in the Catfish Intestine: Inducibility by Xenobiotics and Functional Properties|Aquat. Toxicol.55(3-4): 157-170|2001|10.1016/S0166-445X(01)00180-1
61848|A||Dobrovolny,C.G., and F.S. Barbosa|Field Trials of Sodium Pentachlorophenate as a Molluscicide in Flowing Waters in Brazil|Publ.Avulsas Inst.Aggeu Magalhaes2(10): 121-158|1953|
61849|A||Schlenk,D., D.B. Huggett, J. Allgood, E. Bennett, J. Rimoldi, A.B. Beeler, D. Block, A.W. Holder, R. Hovinga, and P. Be|Toxicity of Fipronil and Its Degradation Products to Procambarus sp.:  Field and Laboratory Studies|Arch. Environ. Contam. Toxicol.41(3): 325-332|2001|10.1007/s002440010255
61850|A||Vismara,C., R. Bacchetta, B. Cacciatore, G. Vailati, and U. Fascio|Paraquat Embryotoxicity in the Xenopus laevis Cleavage Phase|Aquat. Toxicol.55(1-2): 85-93|2001|10.1016/S0166-445X(01)00153-9
61851|A||Vincent,C.D., A.J. Lawlor, and E. Tipping|Accumulation of Al, Mn, Fe, Cu, Zn, Cd and Pb by the Bryophyte Scapania undulata in Three Upland Waters of Different pH|Environ. Pollut.114(1): 93-100|2001|10.1016/S0269-7491(00)00201-3
61852|A||Villarroel,M.J., M.D. Ferrando, E. Sancho, and E. Andreu|Population Dynamics in Daphnia magna as Modified by Chronic Tetradifon Stress|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(2): 211-227|2000|
61853|A||Verrengia Guerrero,N.R., M.G. Taylor, E.A. Wider, and K. Simkiss|Modeling Pentachlorophenol Bioavailability and Bioaccumulation by the Freshwater Fingernail Clam Sphaerium corneum Using Artificial Particles and Humic Acids|Environ. Toxicol. Chem.20(12): 2910-2915|2001|10.1897/1551-5028(2001)020<2910:MPBABB>2.0.CO;2
61854|A||Verge,C., A. Moreno, J. Bravo, and J.L. Berna|Influence of Water Hardness on the Bioavailability and Toxicity of Linear Alkylbenzene Sulphonate (LAS)|Chemosphere44(8): 1749-1757|2001|10.1016/S0045-6535(00)00574-9
61855|A||Verdisson,S., M. Couderchet, and G. Vernet|Effects of Procymidone, Fludioxonil and Pyrimethanil on Two Non-Target Aquatic Plants|Chemosphere44(3): 467-474|2001|10.1016/S0045-6535(00)00468-9
61857|A||Venturino,A., O.L. Anguiano, L. Gauna, C. Cocca, R.M. Bergoc, and A.M. Pechen de D'Angelo|Thiols and Polyamines in the Potentiation of Malathion Toxicity in Larval Stages of the Toad Bufo arenarum|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(2): 191-198|2001|10.1016/S1532-0456(01)00241-1
61858|A||Venkataramana,P., and K. Radhakrishnaiah|Copper-Influenced Changes in Lactate Dehydrogenase and G-6-PDH Activities of the Freshwater Teleost, Labeo rohita|Bull. Environ. Contam. Toxicol.67(2): 257-263|2001|
61861|AT||Amiard,J.C., and C. Amiard-Triquet|Health and Ecological Aspects of Cobalt-60 Transfer in Seawater Food Chain Typical of an Intertidal Mud-Flat|Int. J. Environ. Stud.10(2): 113-118|1977|
61862|AT||Ambrose,D.P., and P.J.E. George|Comparative Toxicological Effects of Monocrotophos to the Third Nymphal Instars and the Adults of Acanthaspis pedestris Stal,a Potential Biocontrol Agent (Insecta: Heteroptera: Reduviidae)|Indian J. Environ. Sci.2(2): 105-111|1998|
61864|A||Almeida,J.A., E.L.B. Novelli, M. Dal pai Silva, and R. Alves Junior|Environmental Cadmium Exposure and Metabolic Responses of the Nile Tilapia, Oreochromis niloticus|Environ. Pollut.114(2): 169-175|2001|10.1016/S0269-7491(00)00221-9
61866|A||Al-Rasheid,K.A.S., and M.A. Sleigh|The Effects of Heavy Metals on the Feeding Rate of Euplotes mutabilis (Tuffrau, 1960)|Eur. J. Protistol.30(3): 270-279|1994|10.1016/S0932-4739(11)80073-8
61867|A||Alexander,M.K., R.W. Merritt, and M.B. Berg|New Strategies for the Control of the Parthenogenetic Chironomid (Paratanytarsus grimmii) (Diptera: Chironomidae) Infesting Water Systems|Am. Mosq. Control Assoc. J.13(2): 189-192|1997|
61869|A||Al-Akel,A.S.|Behavioural and the Physiological Changes in Oreochromis niloticus Due to Contamination of Copper|Z. Angew. Zool. (Multiple Languages)74(4): 479-487|1987|
61870|A||Akkanen,J., S. Penttinen, M. Haitzer, and J.V.K. Kukkonen|Bioavailability of Atrazine, Pyrene and Benzo(a)pyrene in European River Waters|Chemosphere45(4-5): 453-462|2001|10.1016/S0045-6535(01)00038-8
61871|A||Agrawal,M.,Jr., and H.D. Kumar|Cobalt Toxicity and Its Possible Mode of Action in the Blue-Green Alga Anacystis nidulans|Beitr. Biol. Pflanz. (Non-English)53:157-163|1977|
61872|A||Aggergaard,S., and F.B. Jensen|Cardiovascular Changes and Physiological Reponse During Nitrite Exposure in Rainbow Trout|J. Fish Biol.59(1): 13-27|2001|10.1111/j.1095-8649.2001.tb02335.x
61873|A||Abou-El-Hassan,A.A., Z.H. Zidan, A.A. Zidan, M.S. El-Zemaity, and F.M. Ragab|Molluscicidal Activities of Certain Herbicides Against Schistosomiasis Snail Vectors|Egypt. J. Bilharz.12(1-2): 133-144|1990|
61874|A||Abdel-Sabour,M.F., A.S. Ismail, and R.M. Radwan|Tolerance Index and Transfer Factor Coefficient of Zn, Cu and Co for Water Hyacinth Plant (Eichhornia crassipes)|Egypt. J. Soil Sci.36(1-4): 355-364|1996|
61875|A||Abdalla,A.A.F., C.D. McNabb, and T.R. Batterson|Ammonia Dynamics in Fertilized Fish Ponds Stocked with Nile Tilapia|Prog. Fish-Cult.58:117-123|1996|10.1577/1548-8640(1996)058<0117:ADIFFP>2.3.CO;2
61876|A||Abe,T., H. Saito, Y. Niikura, T. Shigeoka, and Y. Nakano|Embryonic Development Assay with Daphnia magna:  Application to Toxicity of Aniline Derivatives|Chemosphere45(4-5): 487-495|2001|10.1016/S0045-6535(01)00049-2
61877|A||Abbe,G.R., and J.G. Sanders|Condenser Replacement in a Coastal Power Plant:  Copper Uptake and Incorporation in the American Oyster, Crassostrea virginica|Mar. Environ. Res.19(2): 93-113|1986|10.1016/0141-1136(86)90041-3
61878|A||Abbasi,S.A., and R. Soni|Evaluation of Water Quality Criteria for Four Common Pesticides on the Basis of Computer-Aided Studies|Indian J. Environ. Health33(1): 22-24|1991|
61879|A||Hamer,M.J., U.M. Goggin, K. Muller, and S.J. Maund|Bioavailability of lambda-Cyhalothrin to Chironomus riparius in Sediment-Water and Water-Only Systems|Aquat. Ecosyst. Health Manag.2(4): 403-412|1999|10.1080/14634989908656978
61880|A||Hampel,M., I. Moreno-Garrido, C. Sobrino, L.M. Lubian, and J. Blasco|Acute Toxicity of LAS Homologues in Marine Microalgae:  Esterase Activity and Inhibition Growth as Endpoints of Toxicity|Ecotoxicol. Environ. Saf.48(3): 287-292|2001|10.1006/eesa.2000.2028
61881|A||Hansen,J.A., P.G. Welsh, J. Lipton, D. Cacela, and A.D. Dailey|Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Exposures of Cadmium and Zinc|Environ. Toxicol. Chem.21(1): 67-75|2002|10.1002/etc.5620210110
61882|A||Hanson,M.L., P.K. Sibley, S.A. Mabury, D.C. Muir, and K.R. Solomon|Chlorodifluoroacetic Acid Fate and Toxicity to the Macrophytes Lemna gibba, Myriophyllum spicatum, and Myriophyllum sibiricum in Aquatic Microcosms|Environ. Toxicol. Chem.20(12): 2758-2767|2001|10.1002/etc.5620201215
61883|A||Hardersen,S., and S.D. Wratten|The Effects of Carbaryl Exposure of the Penultimate Larval Instars of Xathocnemis zealandica on Emergence and Fluctuating Asymmetry|Ecotoxicology7(5): 297-304|1998|10.1023/A:1008828600164
61884|A||Harrison,F.L.|Accumulation and Loss of Cobalt and Caesium by the Marine Clam, Mya arenaria, Under Laboratory and Field Conditions|In: Proceedings of an International Symposium on the Interaction of Radioactive Contaminants, Seattle, WA, (IAEA), Vienna, Austria:453-478|1973|
61885|A||Hawkins,W.E., W.W. Walker, M.O. James, C.S. Manning, D.H. Barnes, C.S. Heard, and R.M. Overstreet|Carcinogenic Effects of 1,2-Dibromoethane (Ethylene Dibromide; EDB) in Japanese Medaka (Oryzias latipes)|Mutat. Res.399(2): 221-232|1998|10.1016/S0027-5107(97)00257-1
61886|A||Hebel,D.K., M.B. Jones, R.M. Moate, and M.H. Depledge|Differing Sensitivities of Respiratory and Osmoregulatory Gill Tissue of Carcinus maenas (Crustacea:  Decapoda) to Water-Borne Copper|Mar. Biol.133(4): 675-681|1999|10.1007/s002270050508
61887|A||Heinonen,J., J.V.K. Kukkonen, and I.J. Holopainen|Temperature- and Parasite-Induced Changes in Toxicity and Lethal Body Burdens of Pentachlorophenol in the Freshwater Clam Pisidium amnicum|Environ. Toxicol. Chem.20(12): 2778-2784|2001|
61889|A||Hahn,T., M. Liess, and R. Schulz|Effects of the Hormone Mimetic Insecticide Tebufenozide on Chironomus riparius Larvae in Two Different Exposure Setups|Ecotoxicol. Environ. Saf.49(2): 171-178|2001|10.1006/eesa.2001.2055
61890|A||Hadjispyrou,S., A. Kungolos, and A. Anagnostopoulos|Toxicity, Bioaccumulation, and Interactive Effects of Organotin, Cadmium, and Chromium on Artemia franciscana|Ecotoxicol. Environ. Saf.49(2): 179-186|2001|10.1006/eesa.2001.2059
61891|A||Gupta,M.|Effect of Lead and Mercury on Changes in Protein Profile in the Aquatic Macrophytes Hydrilla verticillata (l.f.) Royle and Vallisneria spiralis L.|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control34(5): 1093-1104|1999|
61892|A||Guo,L., B.J. Hunt, P.H. Santschi, and S.M. Ray|Effect of Dissolved Organic Matter on the Uptake of Trace Metals by American Oysters|Environ. Sci. Technol.35(5): 885-893|2001|10.1021/es001758l
61893|A||Guerra,R.|Ecotoxicological and Chemical Evaluation of Phenolic Compounds in Industrial Effluents|Chemosphere44(8): 1737-1747|2001|10.1016/S0045-6535(00)00562-2
61894|A||Gross,E.D., and D.F. Martin|Iron Dependence of Lyngbya majuscula|J. Aquat. Plant Manag.34:17-20|1996|
61895|A||Greve,G.D., H.G. Van der Geest, S.C. Stuijfzand, S. Engels, and M.H.S. Kraak|Development of Ecotoxicity Tests Using Laboratory Reared Larvae of the Riverine Caddisflies Hydropsyche angustipennis and Cyrnus trimaculatus|Proc. Exp. Appl. Entomol.9:205-210|1998|
61897|A||Grant,A., and A.D. Briggs|Toxicity of Ivermectin to Estuarine and Marine Invertebrates|Mar. Pollut. Bull.36(7): 540-541|1998|10.1016/S0025-326X(98)00012-5
61898|A||Goktepe,I., and L.C. Plhak|Comparative Toxicity of Two Azadirachtin-Based Neem Pesticides to Daphnia pulex|Environ. Toxicol. Chem.21(1): 31-36|2002|
61899|A||Glynn,A.W.|The Influence of Zinc on Apical Uptake of Cadmium in the Gills and Cadmium Influx to the Circulatory System in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(2): 165-172|2001|10.1016/S1532-0456(00)00188-5
61900|A||Glennemeier,K.A., and R.J. Denver|Sublethal Effects of Chronic Exposure to an Organochlorine Compound on Northern Leopard Frog (Rana pipiens) Tadpoles|Environ. Toxicol.16:287-297|2001|10.1002/tox.1035
61901|A||Webb,N.A., J.R. Shaw, J. Morgan, C. Hogstrand, and C.M. Wood|Acute and Chronic Physiological Effects of Silver Exposure in Three Marine Teleosts|Aquat. Toxicol.54(3-4): 161-178|2001|10.1016/S0166-445X(01)00150-3
61902|A||Wellmann,P., H.T. Ratte, and F. Heimbach|Primary and Secondary Effects of Methabenzthiazuron on Plankton Communities in Aquatic Outdoor Microcosms|Aquat. Ecol.32(2): 125-134|1998|10.1023/A:1009992431458
61903|A||Webbe,G., and R.F. Sturrock|Laboratory Tests of Some New Molluscicides in Tanganyika|Ann. Trop. Med. Parasitol.58:234-239|1964|10.1080/00034983.1964.11720807
61904|A||Watanabe,M., and T. Suzuki|Cadmium-Induced Abnormality in Strains of Euglena gracilis:  Morphological Alteration and Its Prevention by Zinc and Cyanocobalamin|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(1): 29-39|2001|10.1016/S1532-0456(01)00225-3
61905|A||Warren,L.A., A. Tessier, and L. Hare|Modelling Cadmium Accumulation by Benthic Invertebrates In Situ: The Relative Contributions of Sediment and Overlying Water Reservoirs to Organism Cadmium Concentrations|Limnol. Oceanogr.43(7): 1442-1454|1998|10.4319/lo.1998.43.7.1442
61906|A||Wangberg,S.A.|Effects of Arsenate and Copper on the Algal Communities in Polluted Lakes in the Northern Parts of Sweden Assayed by PICT (Pollution-Induced Community Tolerance)|Hydrobiologia (Multiple Languages)306(2): 109-124|1995|10.1007/BF00016828
61907|A||Vaz Carreiro,M.C., and G.C. Ferrador|Radiocaesium Transfer from Water to a Freshwater Hydrophyte at Different Potassium Concentrations|In: R.Rajar and C.A.Brebbia (Eds.), 4th Int.Conf.on Water Pollution 97, Jun.18-20,1997, Computational Mechanics Publ., Lake Bled, Slovenia:115-121|1997|
61908|A||Levine,S.L., and J.T. Oris|Enhancement of Acute Parathion Toxicity to Fathead Minnows Following Pre-Exposure to Propiconazole|Pestic. Biochem. Physiol.65(2): 102-109|1999|10.1006/pest.1999.2434
61909|A||Leung,K.M.Y., and R.W. Furness|Metallothionein Induction and Condition Index of Dogwhelks Nucella lapillus (L.) Exposed to Cadmium and Hydrogen Peroxide|Chemosphere44(3): 321-325|2001|10.1016/S0045-6535(00)00297-6
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62010|A||Sacan,M.T., and I.A. Balcioglu|Bioaccumulation of Aluminium in Dunaliella tertiolecta in Natural Seawater:  Aluminium-Metal (Cu,Pb,Se) Interactions and Influence of pH|Bull. Environ. Contam. Toxicol.66(2): 214-221|2001|10.1007/s0012800227
62011|A||Tujula,N., J. Radford, S.V. Nair, and D.A. Raftos|Effects of Tributyltin and Other Metals on the Phenoloxidase Activating System of the Tunicate, Styela plicata|Aquat. Toxicol.55(3/4): 191-201|2001|10.1016/S0166-445X(01)00175-8
62016|T||Garavini,C., and P. Seren|The Effect of Toluene on the Hematopoietic System in Newt Triturus cristatus|Biochem. Exp. Biol.15:341-348|1979|
62018|A||Premdas,P.D., C.D. Metcalfe, and S. Brown|The Effects of 17beta-Oestradiol, Testosterone and Tamoxifen on the Development of Papillomata in Catostomus commersoni|J. Fish Biol.59(4): 1056-1069|2001|
62019|A||Jones,I., P. Kille, and G. Sweeney|Cadmium Delays Growth Hormone Expression During Rainbow Trout Development|J. Fish Biol.59(4): 1015-1022|2001|10.1111/j.1095-8649.2001.tb00168.x
62020|A||Weber,L.P., Y. Kiparissis, G.S. Hwang, A.J. Niimi, D.M. Janz, and C.D. Metcalfe|Increased Cellular Apoptosis After Chronic Aqueous Exposure to Nonylphenol and Quercetin in Adult Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(1): 51-59|2002|10.1016/S1532-0456(01)00276-9
62021|A||Nakazawa,T., S. Hamaguchi, and Y. Kyono-Hamaguchi|Histochemistry of Liver Tumors Induced by Diethylnitrosamine and Differential Sex Susceptibility to Carcinogenesis in Oryzias latipes|J. Natl. Cancer Inst.75(3): 567-571|1985|
62022|A||Palace,V.P., R.E. Evans, K. Wautier, C.L. Baron, J. Werner, J.F. Klaverkamp, K.A. Kidd, and T.A. Dick|Altered Distribution of Lipid-Soluble Antioxidant Vitamins in Juvenile Sturgeon Exposed to Waterborne Ethynylestradiol|Environ. Toxicol. Chem.20(10): 2370-2376|2001|
62024|A||Carlisle,J.C.|Acute Toxicity of Azinphos-Methly (Guthion) Technical to Rainbow Trout|Toxicology Report 491, Mobay Chemical Corporation, Kansas City, MO:10 p.|1984|
62025|A||Carlisle,J.C.|Toxicity of Azinphos-Methyl (Guthion Technical) to Rainbow Trout Early Life Stages|Toxicology Report 578, Mobay Chemical Corporation, Stilwell, KS:17 p.|1985|
62028|A||Bottger,S.A., and J.B. McClintock|The Effects of Organic and Inorganic Phosphates on Fertilization and Early Development in the Sea Urchin Lytechinus variegatus (Echinodermata:  Echinoidea)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(4): 307-315|2001|10.1016/S1532-0456(01)00190-9
62030|A||Boone,J.S., and J.E. Chambers|Time Course of Inhibition of Cholinesterase and Aliesterase Activities, and Nonprotein Sulfhydryl Levels Following Exposure to Organophosphorus Insecticides in Mosquitofish (Gambusia affinis)|Fundam. Appl. Toxicol.29:202-207|1996|10.1006/faat.1996.0023
62031|A||Bonilla,S., D. Conde, and H. Blanck|The Photosynthetic Responses of Marine Phytoplankton, Periphyton and Epipsammon to the Herbicides Paraquat and Simazine|Ecotoxicology7(2): 99-105|1998|10.1023/A:1008867920179
62032|A||Bolognesi,C., E. Landini, P. Roggieri, R. Fabbri, and A. Viarengo|Genotoxicity Biomarkers in the Assessment of Heavy Metal Effects in Mussels: Experimental Studies|Environ. Mol. Mutagen.33(4): 287-292|1999|10.1002/(SICI)1098-2280(1999)33:4<287::AID-EM5>3.0.CO;2-G
62033|A||Bogaerts,P., J. Bohatier, and F. Bonnemoy|Use of the Ciliated Protozoan Tetrahymena pyriformis for the Assessment of Toxicity and Quantitative Structure-Activity Relationships of Xenobiotics: Comparison with the Microtox Test|Ecotoxicol. Environ. Saf.49(3): 293-301|2001|10.1006/eesa.2001.2074
62034|A||Bohme,H., K.J. Kunert, and P. Boger|Sites of Herbicidal Action on Photosynthesis:  A Fluorescence Assay Study|Weed Sci.29:371-375|1981|10.1017/S0043174500039813
62035|A||Blankemeyer,J.T., M.L. McWilliams, J.R. Rayburn, M. Weissenberg, and M. Friedman|Developmental Toxicology of Solamargine and Solasonine Glycoalkaloids in Frog Embryos|Food Chem. Toxicol.36(5): 383-389|1998|10.1016/S0278-6915(97)00164-6
62036|A||Blankemeyer,J.T., J.B. White, B.K. Stringer, and M. Friedman|Effect of alpha-Tomatine and Tomatidine on Membrane Potential of Frog Embryos and Active Transport of Ions in Frog Skin|Food Chem. Toxicol.35(7): 639-646|1997|10.1016/S0278-6915(97)00038-0
62037|A||Biever,R.C., J.M. Giddings, M. Kiamos, M.F. Annunziato, R. Meyerhoff, and K. Racke|Effects of Chlorpyrifos on Aquatic Microcosms over a Range of Off-Target Spray Drift Exposure Levels|Br. Crop Prot. Conf. Pests Dis.:1367-1372|1994|
62038|A||Bharti,N., S. Srivastava, and P.S. Srivastava|Alleviation of Cadmium-Induced Decrease in Biomass of Pisum and Sesamum by Inorganic Nutrients|Bull. Environ. Contam. Toxicol.67(4): 496-502|2001|10.1007/s00128-001-0151-6
62039|A||Berntssen,M.H.G., and A.K. Lundebye|Energetics in Atlantic Salmon (Salmo salar L.) Parr fed Evelated Dietary Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 311-323|2001|10.1016/S1532-0456(00)00205-2
62040|A||Berntssen,M.H.G., O.O. Aspholm, K. Hylland, S.E. Wendelaar Bonga, and A.K. Lundebye|Tissue Metallothionein, Apoptosis and Cell Proliferation Responses in Atlantic Salmon (Salmo salar L.) Parr Fed Elevated Dietary Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 299-310|2001|10.1016/S1532-0456(00)00204-0
62041|A||Berenzen,N., R. Schulz, and M. Liess|Effects of Chronic Ammonium and Nitrite Contamination on the Macroinvertebrate Community in Running Water Microcosms|Water Res.35(14): 3478-3482|2001|10.1016/S0043-1354(01)00055-0
62042|A||Berard,A., and C. Benninghoff|Pollution-Induced Community Tolerance (PICT) and Seasonal Variations in the Sensitivity of Phytoplankton to Atrazine in Nanocosms|Chemosphere45(4-5): 427-437|2001|10.1016/S0045-6535(01)00063-7
62043|A||Bengtsson,B.E., J.P. Bongo, and B. Eklund|Assessment of Duckweed Lemna aequinoctialis as a Toxicological Bioassay for Tropical Environments in Developing Countries|Ambio28(2): 152-155|1999|
62044|A||Bellini,R., M. Carrieri, M. Bacchi, P. Fonti, and G. Celli|Possible Utilization of Metallic Copper to Inhibit Aedes albopictus (Skuse) Larval Development|Am. Mosq. Control Assoc. J.14(4): 451-456|1998|
62045|A||Bellas,J., E. Vazquez, and R. Beiras|Toxicity of Hg, Cu, Cd, and Cr on Early Developmental Stages of Ciona intestinalis (Chordata, Ascidiacea) with Potential Application in Marine Water Quality Assessment|Water Res.35(12): 2905-2912|2001|10.1016/S0043-1354(01)00004-5
62046|A||Belden,J.B., and M.J. Lydy|Effects of Atrazine on Acetylcholinesterase Activity in Midges (Chironomus tentans) Exposed to Organophosphorus Insecticides|Chemosphere44(8): 1685-1689|2001|10.1016/S0045-6535(00)00519-1
62047|A||Beg,M.U., M. Al-Bahloul, P.G. Jacob, K.R. Beg, K. Al-Matrouk, and K. Abdel-Elah|Biomarker Response in Sheim (Acanthopagrus latus) Exposed to Polycyclic Aromatic Hydrocarbons|Bull. Environ. Contam. Toxicol.67(2): 210-216|2001|
62049|A||Bebianno,M.J., and W.J. Langston|Cadmium and Metallothionein Turnover in Different Tissues of the Gastropod Littorina littorea|Talanta46(2): 301-313|1998|10.1016/S0039-9140(97)00344-5
62050|A||Beauvais,S.L., G.J. Atchison, J.Z. Stenback, and W.G. Crumpton|Use of Cholinesterase Activity to Monitor Exposure of Chironomus riparius (Diptera:  Chironomidae) to a Pesticide Mixture in Hypoxic Wetland Mesocosms|Hydrobiologia (Multiple Languages)416:163-170|1999|10.1023/A:1003819621659
62051|A||Beauvais,S.L., S.B. Jones, J.T. Parris, S.K. Brewer, and E.E. Little|Cholinergic and Behavioral Neurotoxicity of Carbaryl and Cadmium to Larval Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.49(1): 84-90|2001|10.1006/eesa.2000.2032
62052|A||Battah,M.G., E.F. Shabana, I.A. Kobbia, and H.M. Eladel|Differential Effects of Thiobencarb Toxicity on Growth and Photosynthesis of Anabaena variabilis with Changes in Phosphate Level|Ecotoxicol. Environ. Saf.49(3): 235-239|2001|10.1006/eesa.2001.2056
62053|A||Bat,L., and D. Raffaelli|Sediment Toxicity Testing: A Bioassay Approach Using the Amphipod Corophium volutator and the Polychaete Arenicola marina|J. Exp. Mar. Biol. Ecol.226(2): 217-239|1998|10.1016/S0022-0981(97)00249-9
62054|A||Baszynski,T., M. Krol, and D. Wolinska|Photosynthetic Apparatus of Lemna minor L. as Affected by Chromate Treatment|In: G.Akoyunoglou (Ed.), Proc.5th Int.Congr.on Photosynthesis, Photosynthesis II.Electron Transport and Photophosphorylation, Volume 2, Balaban Int.Sci.Serv., Philadelphia, PA:111-122|1981|
62055|A||Barjaktarovic,L., and L.I. Bendell-Young|Accumulation of 109Cd by Second-Generation Chironominae Propagated from Wild Populations Sampled from Low-, Mid-, and High-Saline Environments|Arch. Environ. Contam. Toxicol.40(3): 339-344|2001|10.1007/s002440010181
62056|A||Barfield,M.L., J.L. Farris, and M.C. Black|Biomarker and Bioaccumulation Responses of Asian Clams Exposed to Aqueous Cadmium|J. Toxicol. Environ. Health Part A63(7): 495-510|2001|10.1080/15287390152410138
62057|A||Barata,C., D.J. Baird, A.M.V.M. Soares, and L. Guilhermino|Biochemical Factors Contributing to Response Variation Among Resistant and Sensitive Clones of Daphnia magna Straus Exposed to Ethyl Parathion|Ecotoxicol. Environ. Saf.49(2): 155-163|2001|10.1006/eesa.2001.2052
62058|A||Bantle,J.A., R.A. Finch, D.J. Fort, E.L. Stover, M. Hull, M. Kumsher-King, and A.M. Gaudet-Hull|Phase III Interlaboratory Study of FETAX Part 3. FETAX Validation Using 12 Compounds with and Without an Exogenous Metabolic Activation System|J. Appl. Toxicol.19(6): 447-472|1999|10.1002/(SICI)1099-1263(199911/12)19:6<447::AID-JAT601>3.0.CO;2-4
62059|A||Ballance,S., P.J. Phillips, C.R. McCrohan, J.J. Powell, R. Jugdaohsingh, and K.N. White|Influence of Sediment Biofilm on the Behaviour of Aluminum and Its Bioavailability to the Snail Lymnaea stagnalis in Neutral Freshwater|Can. J. Fish. Aquat. Sci.58(9): 1708-1715|2001|10.1139/f01-104
62060|A||Bailey,H.C., J.R. Elphick, R. Krassoi, and A. Lovell|Joint Acute Toxicity of Diazinon and Ammonia to Ceriodaphnia dubia|Environ. Toxicol. Chem.20(12): 2877-2882|2001|10.1002/etc.5620201230
62061|T||Bagy,M.M.K., H.M.M. El-Sharouny, and A.A. El-Shanawany|Effect of pH and Organic Matter on the Toxicity of Heavy Metals to Growth of Some Fungi|Folia Microbiol. (Prague)36(4): 367-374|1991|10.1007/BF02814511
62062|A||Babatunde,M.M., A.A. Oladimeji, and J.K. Balogun|Acute Toxicity of Gramoxone to Oreochromis niloticus (Trewavas) in Nigeria|Water Air Soil Pollut.131(1-4): 1-10|2001|10.1023/A:1011959514500
62063|A||Babarro,J.M.F., and A. De Zwaan|Factors Involved in the (near) Anoxic Survival Time of Cerastoderma edule:  Associated Bacteria vs. Endogenous Fuel|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 325-337|2001|10.1016/S1532-0456(00)00207-6
62065|A||Ayllon,F., and E. Garcia-Vazquez|Micronuclei and Other Nuclear Lesions as Genotoxicity Indicators in Rainbow Trout Oncorhynchus mykiss|Ecotoxicol. Environ. Saf.49(3): 221-225|2001|10.1006/eesa.2001.2065
62066|A||Avila,C.|Competence and Metamorphosis in the Long-Term Planktotrophic Larvae of the Nudibranch Mollusc Hermissenda crassicornis (Eschscholtz, 1831)|J. Exp. Mar. Biol. Ecol.231(1): 81-117|1998|10.1016/S0022-0981(98)00093-8
62067|A||Auffret,M., and R. Oubella|Hemocyte Aggregation in the Oyster Crassostrea gigas:  In Vitro Measurement and Experimental Modulation by Xenobiotics|Comp. Biochem. Physiol. A Comp. Physiol.118(3): 705-712|1997|10.1016/S0300-9629(97)00017-0
62068|A||Ashley,J.T.F., and J.E. Baker|The Influence of Varying Planktonic and Periphytic Algal Biomass on Exposure to Polychlorinated Biphenyls in Mesocosms|Chem. Ecol.16(2-3): 95-117|1999|10.1080/02757549908037641
62070|A||Armstrong,J., and W. Armstrong|An Overview of the Effects of Phytotoxins on Phragmites australis in Relation to Die-Back|Aquat. Bot.69(2-4): 251-268|2001|10.1016/S0304-3770(01)00142-5
62071|T||Vogiatzis,A.K., and N.S. Loumbourdis|Exposure of Rana ridibunda to Lead II.  Impact of Lead on Various Parameters of Liver Metabolism of the Frog Rana ridibunda|J. Appl. Toxicol.21:269-274|2001|10.1002/jat.753
62074|A||Silva,J., L. Troncoso, E. Bay-Schmith, and A. Larrain|Utilization of Odontesthes regia (Atherinidae) from the South Eastern Pacific as a Test Organism for Bioassays:  Study of Its Sensitivity to Six Chemicals|Bull. Environ. Contam. Toxicol.66(5): 570-575|2001|
62077|A||Shehata,F.H.A., and B.A. Whitton|Zinc Tolerance in Strains of the Blue-Green Alga Anacystis nidulans|Br. Phycol. J.17:5-12|1982|10.1080/00071618200650021
62078|A||Shapira,M., S. Seidman, N. Livni, and H. Soreq|In Vivo and In Vitro Resistance to Multiple Anticholinesterases in Xenopus laevis Tadpoles|Toxicol. Lett.102-103(1-3): 205-209|1998|10.1016/S0378-4274(98)00308-7
62079|A||Trehan,K., and Maneesha |Effect of Lead on Nitrogenase and Enzyme of Nitrogen Assimilation in a Cyanobacterium Nostoc muscorum|Indian J. Exp. Biol.29(12): 1116-1119|1991|
62081|A||Toussaint,M.W., L.M. Brennan, A.B. Rosencrance, W.E. Dennis, F.J. Hoffmann, and H.S.,Jr. Gardner|Acute Toxicity of Four Drinking Water Disinfection By-Products to Japanese Medaka Fish|Bull. Environ. Contam. Toxicol.66(2): 255-262|2001|10.1007/s001280000232
62082|A||Tortell,P.D., J.R. Reinfelder, and F.M.M. Morel|Active Uptake of Bicarbonate by Diatoms|Nature390(6657): 243-244|1997|10.1038/36765
62084|A||Sverdrup,L.E., T. Kallqvist, A.E. Kelley, C.S. Furst, and S.B. Hagen|Comparative Toxicity of Acrylic Acid to Marine and Freshwater Microalgae and the Significance for Environmental Effects Assessments|Chemosphere45(4/5): 653-658|2001|10.1016/S0045-6535(01)00044-3
62085|A||Suzuki,T., A.S. Srivastava, and T. Kurokawa|Experimental Induction of Jaw, Gill and Pectoral Fin Malformations in Japanese Flounder, Paralichthys olivaceus, Larvae|Aquaculture185(1-2): 175-187|2000|10.1016/S0044-8486(99)00345-2
62087|A||Sutton,D.L., and R.D. Blackburn|Uptake of Copper in Hydrilla|Weed Res. (Multiple Languages)11:47-53|1971|10.1111/j.1365-3180.1971.tb00975.x
62088|A||Sutton,D.L., W.T. Haller, K.K. Steward, and R.D. Blackburn|Effect of Copper on Uptake of Diquat-14C by Hydrilla|Weed Sci.20(6): 581-583|1972|10.1017/S0043174500078802
62089|A||Suresh Babu,G., R.K. Hans, J. Singh, P.N. Viswanathan, and P.C. Joshi|Effect of Lindane on the Growth and Metabolic Activities of Cyanobacteria|Ecotoxicol. Environ. Saf.48(2): 219-221|2001|10.1006/eesa.2000.2033
62090|A||Surber,E.W., and T.O. Thatcher|Laboratory Studies of the Effects of Alkyl Benzine Sulfonate (ABS) on Aquatic Invertebrates|Trans. Am. Fish. Soc.92(2): 152-160|1963|10.1577/1548-8659(1963)92[152:LSOTEO]2.0.CO;2
62091|A||Sung,K.D., J.S. Lee, C.S. Shin, and S.C. Park|Isolation of a New, Highly CO2 Tolerant Fresh Water Microalga Chlorella sp. KR-1|Renew. Energy16(1-4): 1019-1022|1999|10.1016/S0960-1481(98)00362-0
62092|A||Sundt,H., and A. Goksoyr|In Vivo and In Vitro Biotransformation of Polycyclic Aromatic Hydrocarbons in the Edible Crab, Cancer pagurus|Mar. Environ. Res.46(1-5): 515-519|1998|10.1016/S0141-1136(98)00020-8
62093|A||Sunda,W.G., and S.A. Huntsman|Interrelated Influence of Iron, Light and Cell Size on Marine Phytoplankton Growth|Nature390(6658): 389-392|1997|10.1038/37093
62094|A||Sulaiman,S., Z.A. Pawanchee, A. Wahab, J. Jamal, and A.R. Sohadi|Field Efficacy of Fipronil 3G, Lambda-Cyhalothrin 10%CS, and Sumithion 50EC Against the Dengue Vector Aedes albopictus in Discarded Tires|J. Vector Ecol.24(2): 154-157|1999|
62095|A||Kamalaveni,K., V. Gopal, U. Sampson, and D. Aruna|Effect of Pyrethroids on Carbohydrate Metabolic Pathways in Common Carp, Cyprinus carpio|Pest Manag. Sci.57:1151-1154|2001|10.1002/ps.395
62096|A||Kadar,E., J. Salanki, R. Jugdaohsingh, J.J. Powell, C.R. McCrohan, and K.N. White|Avoidance Responses to Aluminium in the Freshwater Bivalve Anodonta cygnea|Aquat. Toxicol.55(3/4): 137-148|2001|10.1016/S0166-445X(01)00183-7
62097|A||Juneau,P., D. Dewez, S. Matsui, S.G. Kim, and R. Popovic|Evaluation of Different Algal Species Sensitivity to Mercury and Metolachlor by PAM-Fluorometry|Chemosphere45(4/5): 589-598|2001|10.1016/S0045-6535(01)00034-0
62098|A||Julien,G.R., M.A. Savard, W.R. Ernst, D. McCall, K.G. Doe, J. Banoub, and P. Jackman|Deposit, Aquatic Fate and Short-Term Effects of Trichlorfon After Aerial Forestry Applications in Newfoundland|Surveillance Rep.No.EPS-5-AR-99-5, Environ.Can., Atlantic Reg., Environ.Prot.Branch, Dartmouth, NS:35 p.|1999|
62099|A||Julian,D., S.L. Wieting, S.L. Seto, M.R. Bogan, and A.J. Arp|Thiosulfate Elimination and Permeability in a Sulfide-Adapted Marine Invertebrate|Physiol. Biochem. Zool.72(4): 416-425|1999|10.1086/316681
62100|A||Gamenick,I., M. Abbiati, and O. Giere|Field Distribution and Sulphide Tolerance of Capitella capitata (Annelida:  Polychaeta) Around Shallow Water Hydrothermal Vents off Milos (Aegean Sea).  A New Sibling Species?|Mar. Biol.130:447-453|1998|10.1007/s002270050265
62101|A||Gonze,E., L. Fourel, Y. Gonthier, P. Boldo, and A. Bernis|Wastewater Pretreatment with Ultrasonic Irradiation to Reduce Toxicity|Chem. Eng. J.73(2): 93-100|1999|10.1016/S1385-8947(99)00021-2
62102|A||Haitzer,M., J. Akkanen, C. Steinberg, and J.V.K. Kukkonen|No Enhancement in Bioconcentration of Organic Contaminants by Low Levels of DOM|Chemosphere44(2): 165-171|2001|10.1016/S0045-6535(00)00269-1
62103|A||Harttig,U., and G.S. Bailey|Chemoprotection by Natural Chlorophylls In Vivo: Inhibition of Dibenzo[a,l]pyrene-DNA Adducts in Rainbow Trout Liver|Carcinogenesis19(7): 1323-1326|1998|10.1093/carcin/19.7.1323
62104|A||Hayashi,T., M. Schimerlik, and G. Bailey|Mechanisms of Chlorophyllin Anticarcinogenesis: Dose-Responsive Inhibition of Aflatoxin Uptake and Biodistribution Following Oral Co-administration in Rainbow Trout|Toxicol. Appl. Pharmacol.158(2): 132-140|1999|10.1006/taap.1999.8695
62105|A||Hayashi,H., T. Nakatani, Y. Inoue, M. Nakayama, and H. Nozaki|New Dihydroquinolinone Toxic to Artemia salina Produced by Penicillium sp. NTC-47|Biosci. Biotechnol. Biochem.61(5): 914-916|1997|10.1271/bbb.61.914
62106|A||Haya,K.|Toxicity of Pyrethroid Insecticides to Fish|Environ. Toxicol. Chem.8:381-391|1989|10.1002/etc.5620080504
62107|A||Hasspieler,B.M., J.V. Behar, and R.T. Di Giulio|Glutathione-Dependent Defense in Channel Catfish (Ictalurus punctatus) and Brown Bullhead (Ameriurus nebulosus)|Ecotoxicol. Environ. Saf.28(1): 82-90|1994|10.1006/eesa.1994.1036
62109|A||Helleck,A.M., and W.K. Hartberg|Site of Photofrin II Photosensitization in Larvae of Eretmapodites quinquevittatus Theobald|Am. Mosq. Control Assoc. J.15(4): 437-445|1999|
62110|A||Hentschel,U., E.C. Berger, M. Bright, H. Felbeck, and J.A. Ott|Metabolism of Nitrogen and Sulfur in Ectosymbiotic Bacteria of Marine Nematodes (Nematoda, Stilbonematinae)|Mar. Ecol. Prog. Ser.183:149-158|1999|10.3354/meps183149
62111|A||Herbert,D.W.M.|Measurement of Toxicity of Substances to Fish|Water Sanit. Eng.2:504-506|1952|
62112|A||Herkovits,J., C.S. Perez-Coll, and S. Zeni|Protective Effect of Zinc Against Spontaneous Malformations and Lethality in Bufo arenarum Embryos|Biol. Trace Elem. Res.22:247-250|1989|10.1007/BF02916612
62113|A||Hershey,A.E., A.R. Lima, G.J. Niemi, and R.R. Regal|Effects of Bacillus thuringiensis israelensis (BTI) and Methoprene on Nontarget Macroinvertebrates in Minnesota Wetlands|Ecol. Appl.8(1): 41-60|1998|10.1890/1051-0761(1998)008[0041:EOBTIB]2.0.CO;2
62114|T||Adachi,A., K. Ogawa, Y. Tsushi, N. Nagao, and T. Okano|Balance, Excretion and Tissue Distribution of Vanadium in Rats After Short-Term Ingestion|J. Health Sci.46(1): 59-62|2000|10.1248/jhs.46.59
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62232|A||Jones,R.J., T. Kildea, and O. Hoegh-Guldberg|PAM Chlorophyll Fluorometry:  A New In Situ Technique for Stress Assessment in Scleractinian Corals, Used to Examine the Effects of Cyanide from Cyanide Fishing|Mar. Pollut. Bull.38(10): 864-874|1999|10.1016/S0025-326X(98)90160-6
62233|A||Jensen,T., S.P. Lawler, and D.A. Dritz|Effects of Ultra-low Volume Pyrethrin, Malathion, and Permethrin on Nontarget Invertebrates, Sentinel Mosquitoes, and Mosquitofish in Seasonally Impounded Wetlands|Am. Mosq. Control Assoc. J.15(3): 330-338|1999|
62234|A||Jorgensen,E.H., P.H.M. Balm, J.S. Christiansen, N. Plotitsyna, and K. Ingebrigtsen|Influence of o'p-DDD on the Physiological Response to Stress in Arctic Charr (Salvelinus alpinus)|Aquat. Toxicol.54(3/4): 179-193|2001|10.1016/S0166-445X(01)00152-7
62235|A||Brown,M.D., D. Thomas, P. Mason, J.G. Greenwood, and B.H. Kay|Laboratory and Field Evaluation of the Efficacy of Four Insecticides for Aedes vigilax (Diptera:  Culicidae) and Toxicity to the Nontarget Shrimp Leander tenuicornis (Decapoda:  Palaemonidae)|J. Econ. Entomol.92(5): 1045-1051|1999|10.1093/jee/92.5.1045
62236|A||Brown,G.E., J.C.,Jr. Adrian, and M.L. Shih|Behavioural Responses of Fathead Minnows to Hypoxanthine-3-N-Oxide at Varying Concentrations|J. Fish Biol.58(5): 1465-1470|2001|
62237|A||Brodeur,J.C., D.G. Dixon, and R.S. McKinley|Inhibition of Oxygen Consumption by Pentachlorophenol and Tetrachloroguaiacol in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.54(1-2): 143-148|2001|10.1016/S0166-445X(00)00162-4
62238|A||Brodeur,J.C., F. Okland, B. Finstad, D.G. Dixon, and R.S. McKinley|Effects of Subchronic Exposure to Aluminium in Acidic Water on Bioenergetics of Atlantic Salmon (Salmo salar)|Ecotoxicol. Environ. Saf.49(3): 226-234|2001|10.1006/eesa.2001.2054
62239|A||Brix,K.V., D.G. Henderson, W.J. Adams, R.J. Reash, R.G. Carlton, and D.O. McIntyre|Acute Toxicity of Sodium Selenate to Two Daphnids and Three Amphipods|Environ. Toxicol.16:142-150|2001|10.1002/tox.1018
62240|A||Bridges,C.M.|Effects of a Pesticide on Tadpole Activity and Predator Avoidance Behavior|J. Herpetol.33(2): 303-306|1999|10.2307/1565728
62241|A||Bretaud,S., P. Saglio, C. Saligaut, and B. Auperin|Biochemical and Behavioral Effects of Carbofuran in Goldfish (Carassius auratus)|Environ. Toxicol. Chem.21(1): 175-181|2002|10.1002/etc.5620210125
62242|A||Shaffi,S.A., Y.R. Manohar, and M.J. Nandan|Influence of Protective Agents on Metal Induced Respiratory Distress in Labeo rohita (Ham)|Bull. Environ. Contam. Toxicol.66(5): 611-616|2001|
62243|A||Shabana,E.F., M.G. Battah, I.A. Kobbia, and H.M. Eladel|Effect of Pendimethalin on Growth and Photosynthetic Activity of Protosiphon botryoides in Different Nutrient States|Ecotoxicol. Environ. Saf.49(2): 106-110|2001|10.1006/eesa.2000.1942
62244|A||Seward,J.R., G.D. Sinks, and T.W. Schultz|Reproducibility of Toxicity Across Mode of Toxic Action in the Tetrahymena Population Growth Impairment Assay|Aquat. Toxicol.53(1): 33-47|2001|10.1016/S0166-445X(00)00158-2
62245|A||Seppala,J., T. Tamminen, and S. Kaitala|Experimental Evaluation of Nutrient Limitation of Phytoplankton Communities in the Gulf of Riga|J. Mar. Syst.23(1-3): 107-126|1999|10.1016/S0924-7963(99)00053-6
62246|A||Seguin,F., C. Leboulanger, F. Rimet, J.C. Druart, and A. Berard|Effects of Atrazine and Nicosulfuron on Phytoplankton in Systems of Increasing Complexity|Arch. Environ. Contam. Toxicol.40(2): 198-208|2001|10.1007/s002440010164
62247|A||Scholz,N.L., N.K. Truelove, B.L. French, B.A. Berejikian, T.P. Quinn, E. Casillas, and T.K. Collier|Diazinon Disrupts Antipredator and Homing Behaviors in Chinook Salmon (Oncorhynchus tshawytscha)|Can. J. Fish. Aquat. Sci.57(9): 1911-1918|2000|10.1139/f00-147
62248|A||Schrader,K.K., and M.D. Harries|Compounds with Selective Toxicity Toward the Musty-Odor Cyanobacterium Oscillatoria perornata|Bull. Environ. Contam. Toxicol.66(6): 801-807|2001|
62249|A||Schoemann,V., R. Wollast, L. Chou, and C. Lancelot|Effects of Photosynthesis on the Accumulation of Mn and Fe by Phaeocystis Colonies|Limnol. Oceanogr.46(5): 1065-1076|2001|10.4319/lo.2001.46.5.1065
62250|A||Schlenk,D., W.C. Colley, A. El-Alfy, R. Kirby, and B.R. Griffin|Effects of the Oxidant Potassium Permanganate on the Expression of Gill Metallothionein mRNA and Its Relationship to Sublethal Whole Animal Endpoints in Channel Catfish|Toxicol. Sci.54(1): 177-182|2000|10.1093/toxsci/54.1.177
62251|A||Vlckova,V., M. Slaninova, E. Miadokova, S. Podstavkova, M. Zavodna, and D. Vlcek|Comparison of the Phenylenediamine Isomers Bioactivation by the Green Alga Chlamydomonas reinhardtii|J. Environ. Pathol. Toxicol. Oncol.18(3): 191-201|1999|
62252|T||Vogiatzis,A.K., and N.S. Loumbourdis|Exposure of Rana ridibunda to Lead I. Study of Lead Accumulation in Various Tissues and Hepatic delta-Aminolevulinic Acid Dehydratase Activity|J. Appl. Toxicol.19(1): 25-29|1999|10.1002/(SICI)1099-1263(199901/02)19:1<25::AID-JAT537>3.0.CO;2-Q
62253|T||Nielsen,F.H.|Evidence for a Relationship Between Vanadium and Iron in the Rat|Nutr. Res.Suppl.1:S527-S530|1985|
62254|A||King,C.K., and M.J. Riddle|Effects of Metal Contaminants on the Development of the Common Antarctic Sea Urchin Sterechinus neumayeri and Comparisons of Sensitivity with Tropical and Temperate Echinoids|Mar. Ecol. Prog. Ser.215:143-154|2001|10.3354/meps215143
62255|A||Barry,M.J.|Effects of Endosulfan on Chaoborus-Induced Life-History Shifts and Morphological Defenses in Daphnia pulex|J. Plankton Res.22(9): 1705-1718|2000|10.1093/plankt/22.9.1705
62256|A||Smith,C.R., C.M. Barker, L.F. Barker, K. Jessen-Eller, and C.L. Reinisch|Polychlorinated Biphenyls (PCBs) Selectively Disrupt Serotonergic Cell Growth in the Developing Spisula Embryo|Toxicol. Sci.50(1): 54-63|1999|10.1093/toxsci/50.1.54
62257|A||Putchakayala,S.M., and J.L. Ram|Toxic and Excitatory Effects of the Molluscicide Metaldehyde on the Biofouling Bivalve Dreissena polymorpha Pallas|Pest Manag. Sci.56:39-42|2000|10.1002/(SICI)1526-4998(200001)56:1<39::AID-PS84>3.0.CO;2-8
62259|A||Darcy,P., J.P. Kelly, B.E. Leonard, and J.A. Henry|The Effect of Lofepramine and Other Related Agents on the Motility of Tetrahymena pyriformis|Toxicol. Lett.128(1-3): 207-214|2002|10.1016/S0378-4274(01)00542-2
62260|A||Webb,J.A., and M.J. Keough|Measurement of Environmental Trace-Metal Levels with Transplanted Mussels and Diffusive Gradients in Thin Films (DGT):  A Comparison of Techniques|Mar. Pollut. Bull.44(3): 222-229|2002|10.1016/S0025-326X(01)00244-2
62261|A||Danilov,R.A., and N.G.A. Ekelund|Responses of Photosynthetic Efficiency, Cell Shape and Motility in Euglena gracilis (Euglenophyceae) to Short-Term Exposure to Heavy Metals and Pentachlorophenol|Water Air Soil Pollut.132(1-2): 61-73|2001|10.1023/A:1012004607313
62262|A||Willett,K.L., D. Wassenberg, L. Lienesch, W. Reichert, and R.T. Di Giulio|In Vivo and In Vitro Inhibition of CYP1A-Dependent Activity in Fundulus heteroclitus by the Polynuclear Aromatic Hydrocarbon Fluoranthene|Toxicol. Appl. Pharmacol.177(3): 264-271|2001|10.1006/taap.2001.9296
62263|A||De Schamphelaere,K.A.C., and C.R. Janssen|A Biotic Ligand Model Predicting Acute Copper Toxicity for Daphnia magna:  The Effects of Calcium, Magnesium, Sodium, Potassium, and pH|Environ. Sci. Technol.36(1): 48-54|2002|10.1021/es000253s
62264|AT||Yan,Q.L., and W.X. Wang|Metal Exposure and Bioavailability to a Marine Deposit-Feeding Sipuncula, Sipunculus nudus|Environ. Sci. Technol.36(1): 40-47|2002|10.1021/es015604x
62265|A||Ivorra,N., C. Barranguet, M. Jonker, M.H.S. Kraak, and W. Admiraal|Metal-Induced Tolerance in the Freshwater Microbenthic Diatom Gomphonema parvulum|Environ. Pollut.116(1): 147-157|2002|10.1016/S0269-7491(01)00152-X
62266|A||Hampel,M., and J. Blasco|Toxicity of Linear Alkylbenzene Sulfonate and One Long-Chain Degradation Intermediate, Sulfophenyl Carboxylic Acid on Early Life-Stages of Seabream (Sparus aurata)|Ecotoxicol. Environ. Saf.51(1): 53-59|2002|10.1006/eesa.2001.2106
62267|A||Hose,G.C., R.P. Lim, R.V. Hyne, and F. Pablo|A Pulse of Endosulfan-Contaminated Sediment Affects Macroinvertebrates in Artificial Streams|Ecotoxicol. Environ. Saf.51(1): 44-52|2002|10.1006/eesa.2001.2127
62268|A||Wu,L., and X. Guo|Selenium Accumulation in Submerged Aquatic Macrophytes Potamogeton pectinatus L. and Ruppia maritima L. from Water with Elevated Chloride and Sulfate Salinity|Ecotoxicol. Environ. Saf.51(1): 22-27|2002|10.1006/eesa.2001.2116
62269|A||Sobral,O., C. Chastinet, A. Nogueira, A.M.V.M. Soares, F. Goncalves, and R. Ribeiro|In Vitro Development of Parthenogenetic Eggs:  A Fast Ecotoxicity Test with Daphnia magna?|Ecotoxicol. Environ. Saf.50(3): 174-179|2001|10.1006/eesa.2001.2088
62270|A||Al-Arabi,S.A.M., and A. Goksoyr|Cytochrome P4501A Responses in Two Tropical Fish Species, Riverine Catfish (Rita rita) and Marine Mudfish (Apocryptes bato)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(1): 61-71|2002|10.1016/S1532-0456(01)00282-4
62271|A||Garcia,E.M., and R.E. Reyes|Synthesis Pattern of an Hg-Binding Protein in Acetabularia calyculus During Short-Term Exposure to Mercury|Bull. Environ. Contam. Toxicol.66(3): 357-364|2001|10.1007/s001280013
62272|A||Sverdrup,L.E., C.S. Furst, M. Weideborg, E.A. Vik, and J. Stenersen|Relative Sensitivity of One Freshwater and Two Marine Acute Toxicity Tests as Determined by Testing 30 Offshore E & P Chemicals|Chemosphere46(2): 311-318|2002|10.1016/S0045-6535(01)00123-0
62273|A||Zohouri,M.A., G.G. Pyle, and C.M. Wood|Dietary Ca Inhibits Waterborne Cd Uptake in Cd-Exposed Rainbow Trout, Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(3): 347-356|2001|10.1016/S1532-0456(01)00260-5
62274|A||Pedlar,R.M., M.D. Ptashynski, K.G. Wautier, R.E. Evans, C.L. Baron, and J.F. Klaverkamp|The Accumulation, Distribution, and Toxicological Effects of Dietary Arsenic Exposure in Lake Whitefish (Coregonus clupeaformis) and Lake Trout (Salvelinus namaycush)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(1): 73-91|2002|10.1016/S1532-0456(01)00281-2
62275|A||Suhendrayatna, A. Ohki, T. Nakajima, and S. Maeda|Studies on the Accumulation and Transformation of Arsenic in Freshwater Organisms II.  Accumulation and Transformation of Arsenic Compounds by Tilapia mossambica|Chemosphere46(2): 325-331|2002|10.1016/S0045-6535(01)00085-6
62276|A||Sinha,S.|Oxidative Stress Induced by HCH in Hydrilla verticillata (l.f.) Royle:  Modulation in Uptake and Toxicity due to Fe|Chemosphere46(2): 281-288|2002|10.1016/S0045-6535(01)00091-1
62278|A||Suhendrayatna, A. Ohki, T. Nakajima, and S. Maeda|Studies on the Accumulation and Transformation of Arsenic in Freshwater Organisms I.  Accumulation, Transformation and Toxicity of Arsenic Compounds on the Japanese Medaka, Oryzias latipes|Chemosphere46(2): 319-324|2002|10.1016/S0045-6535(01)00084-4
62279|A||Nalecz-Jawecki,G., and J. Sawicki|The Toxicity of Tri-Substituted Benzenes to the Protozoan Ciliate Spirostomum ambiguum|Chemosphere46(2): 333-337|2002|10.1016/S0045-6535(01)00077-7
62280|A||Soucek,D.J., D.S. Cherry, and C.E. Zipper|Aluminum-Dominated Acute Toxicity to the Cladoceran Ceriodaphnia dubia in Neutral Waters Downstream of an Acid Mine Drainage Discharge|Can. J. Fish. Aquat. Sci.58(12): 2396-2404|2001|10.1139/f01-185
62281|A||Ballan-Dufrancais,C., A.Y. Jeantet, A. Geffard, J.C. Amiard, and C. Amiard-Triquet|Cellular and Tissular Distribution of Copper in an Intrasedimentary Bivalve, the Baltic Clam Macoma balthica, Originating from a Clean or a Metal-Rich Site|Can. J. Fish. Aquat. Sci.58(10): 1964-1974|2001|10.1139/f01-129
62282|A||Utz,L.R.P., and M.B.C. Bohrer|Acute and Chronic Toxicity of Potassium Chloride (KCl) and Potassium Acetate (KC2H3O2) to Daphnia similis and Ceriodaphnia dubia (Crustacea; Cladocera)|Bull. Environ. Contam. Toxicol.66(3): 379-385|2001|
62283|A||Mangas-Ramirez,E., S.S.S. Sarma, and S. Nandini|Acute and Chronic Toxicity of Ammonium Chloride to the Cladoceran Daphnia pulex Leydig in Relation to Algal Food Density|Bull. Environ. Contam. Toxicol.67(6): 834-840|2001|
62284|A||Gaizick,L., G. Gupta, and E. Bass|Toxicity of Chlorypyrifos to Rana pipiens Embryos|Bull. Environ. Contam. Toxicol.66(3): 386-391|2001|10.1007/s00128-001-0017-y
62285|A||Sarma,S.S.S., S. Nandini, and T. Ramirez Perez|Combined Effects of Mercury and Algal Food Density on the Population Dynamics of Brachionus patulus (Rotifera)|Bull. Environ. Contam. Toxicol.67(6): 841-847|2001|
62286|A||Mattingly,C.J., J.A. McLachlan, and W.A.,Jr. Toscano|Green Fluorescent Protein (GFP) as a Marker of Aryl Hydrocarbon Receptor (AhR) Function in Developing Zebrafish (Danio rerio)|Environ. Health Perspect.109(8): 845-849|2001|10.1289/ehp.01109845
62287|A||Fletcher,R., T.B. Reynoldson, and W.D. Taylor|The Use of Benthic Mesocosms for the Assesment of Sediment Contamination|Environ. Pollut.115(2): 173-182|2001|10.1016/S0269-7491(01)00115-4
62288|A||Groenendijk,D., S.M.G. Lucker, M. Plans, M.H.S. Kraak, and W. Admiraal|Dynamics of Metal Adaptation in Riverine Chironomids|Environ. Pollut.117(1): 101-109|2002|10.1016/S0269-7491(01)00154-3
62289|T||Benesch,J.A., M.S. Gustin, G.R. Cramer, and T.M. Cahill|Investigation of Effects of Trifluoroacetate on Vernal Pool Ecosystems|Environ. Toxicol. Chem.21(3): 640-647|2002|10.1002/etc.5620210325
62290|T||Barkosky,R.R., F.A. Einhellig, and J.L. Butler|Caffeic Acid-Induced Changes in Plant-Water Relationships and Photosynthesis in Leafy Spurge Euphorbia esula|J. Chem. Ecol.26(9): 2095-2109|2000|10.1023/A:1005564315131
62291|A||Barka,S., J.F. Pavillon, and J.C. Amiard|Influence of Different Essential and Non-Essential Metals on MTLP Levels in the Copepod Tigriopus brevicornis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(4): 479-493|2001|10.1016/S1532-0456(00)00198-8
62292|A||Christensen,E.R., D. Chen, N. Nyholm, and K.O. Kusk|Joint Action of Chemicals in Algal Toxicity Tests:  Influence of Response Level and Dose-Response Regression Model|Environ. Toxicol. Chem.20(10): 2361-2369|2001|
62293|A||Burdett,A.S., M.M. Stevens, and D.L. MacMillan|Laboratory and Field Studies on the Effect of Molinate, Clomazone, and Thiobencarb on Nontarget Aquatic Invertebrates|Environ. Toxicol. Chem.20(10): 2229-2236|2001|10.1002/etc.5620201015
62294|A||Brust,K., O. Licht, V. Hultsch, D. Jungmann, and R. Nagel|Effects of Terbutryn on Aufwuchs and Lumbriculus variegatus in Artificial Indoor Streams|Environ. Toxicol. Chem.20(9): 2000-2007|2001|10.1002/etc.5620200919
62296|A||El-Alfy,A.T., S. Grisle, and D. Schlenk|Characterization of Salinity-Enhanced Toxicity of Aldicarb to Japanese Medaka:  Sexual and Developmental Differences|Environ. Toxicol. Chem.20(9): 2093-2098|2001|
62297|A||Hansen,J.A., J. Lipton, and P.G. Welsh|Relative Sensitivity of Bull Trout (Salvelinus confluentus) and Rainbow Trout (Oncorhynchus mykiss) to Acute Copper Toxicity|Environ. Toxicol. Chem.21(3): 633-639|2002|10.1002/etc.5620210324
62298|A||Grosell,M., and F.B. Jensen|Uptake and Effects of Nitrite in the Marine Teleost Fish Platichthys flesus|Aquat. Toxicol.50(1-2): 97-107|2000|10.1016/S0166-445X(99)00091-0
62299|A||Greve,G.D., H.G. Van der Geest, S.C. Stuijfzand, A. Kureck, and M.H.S. Kraak|Development and Validation of an Ecotoxicity Test Using Field Collected Eggs of the Riverine Mayfly Ephoron virgo|Proc. Exp. Appl. Entomol.10:105-110|1999|
62300|A||Goleman,W.L., J.A. Carr, and T.A. Anderson|Environmentally Relevant Concentrations of Ammonium Perchlorate Inhibit Thyroid Function and Alter Sex Ratios in Developing Xenopus laevis|Environ. Toxicol. Chem.21(3): 590-597|2002|10.1002/etc.5620210318
62301|A||Ohji,M., I. Takeuchi, S. Takahashi, S. Tanabe, and N. Miyazaki|Differences in the Acute Toxicities of Tributyltin Between the Caprellidea and the Gammaridea (Crustacea:  Amphipoda)|Mar. Pollut. Bull.44(1): 16-24|2002|10.1016/S0025-326X(01)00146-1
62302|A||Das,S., and A. Kaviraj|Effect of Some Chemicals on Acute Toxicity of Cadmium to Some Aquatic Organisms|Indian J. Anim. Health38(1): 69-71|1999|
62303|A||Ke,C., and W.X. Wang|Bioaccumulation of Cd, Se, and Zn in an Estuarine Oyster (Crassostrea rivularis) and a Coastal Oyster (Saccostrea glomerata)|Aquat. Toxicol.56(1): 33-51|2001|10.1016/S0166-445X(01)00185-0
62304|A||Faust,M., R. Altenburger, T. Backhaus, H. Blanck, W. Boedeker, P. Gramatica, V. Hamer, M. Scholze, M. Vighi, and L.H. G|Predicting the Joint Algal Toxicity of Multi-Component s-Triazine Mixtures at Low-Effect Concentrations of Individual Toxicants|Aquat. Toxicol.56(1): 13-32|2001|10.1016/S0166-445X(01)00187-4
62305|A||Wood,C.M., M. Grosell, C. Hogstrand, and H. Hansen|Kinetics of Radiolabelled Silver Uptake and Depuration in the Gills of Rainbow Trout (Oncorhynchus mykiss) and European Eel (Anguilla anguilla):  The Influence of Silver Speciation|Aquat. Toxicol.56(3): 197-213|2002|10.1016/S0166-445X(01)00182-5
62306|A||Thibaut,R., L. Debrauwer, E. Perdu, A. Goksoyr, J.P. Cravedi, and A. Arukwe|Regio-Specific Hydroxylation of Nonylphenol and the Involvement of CYP2K- and CYP2M-Like Iso-Enzymes in Atlantic Salmon (Salmo salar)|Aquat. Toxicol.56(3): 177-190|2002|10.1016/S0166-445X(01)00204-1
62307|A||Flik,G., X.J.H.X. Stouthart, F.A.T. Spanings, R.A.C. Lock, J.C. Fenwick, and S.E. Wendelaar Bonga|Stress Response to Waterborne Cu During Early Life Stages of Carp, Cyprinus carpio|Aquat. Toxicol.56(3): 167-176|2002|10.1016/S0166-445X(01)00202-8
62308|A||Muyssen,B.T.A., C.R. Janssen, and B.T.A. Bossuyt|Tolerance and Acclimation to Zinc of Field-Collected Daphnia magna Populations|Aquat. Toxicol.56(2): 69-79|2002|10.1016/S0166-445X(01)00206-5
62309|A||Dekker,T., O.E. Krips, and W. Admiraal|Life History Changes in the Benthic Cladoceran Chydorus piger Induced by Low Concentrations of Sediment-Bound Cadmium|Aquat. Toxicol.56(2): 93-101|2002|10.1016/S0166-445X(01)00190-4
62310|A||Cheng,S.Y., S.J. Tsai, and J.C. Chen|Accumulation of Nitrate in the Tissues of Penaeus monodon Following Elevated Ambient Nitrate Exposure After Different Time Periods|Aquat. Toxicol.56(2): 133-146|2002|10.1016/S0166-445X(01)00181-3
62311|A||Paulsson,M., V. Mansson, and H. Blanck|Effects of Zinc on the Phosphorus Availability to Periphyton Communities from the River Gota Alv|Aquat. Toxicol.56(2): 103-113|2002|10.1016/S0166-445X(01)00189-8
62312|A||Rijstenbil,J.W., and L.J.A. Gerringa|Interactions of Algal Ligands, Metal Complexation and Availability, and Cell Responses of the Diatom Ditylum brightwellii with a Gradual Increase in Copper|Aquat. Toxicol.56(2): 115-131|2002|10.1016/S0166-445X(01)00188-6
62313|T||Meenakshi,C.E., E. Padmini, and D.B. Motlag|Comparative Toxicity of Trivalent and Hexavalent Chromium in Rats|Indian J. Environ. Health31(3): 250-256|1989|
62314|T||Kim,Y.H., I.K. Han, I.S. Shin, B.J. Chae, and T.H. Kang|Effect of Dietary Excessive Chromium Picolinate on Growth Performance, Nutrient Utilizability and Serum Traits in Broiler Chicks|Asian-Australas. J. Anim. Sci.9(3): 349-354|1996|10.5713/ajas.1996.349
62315|T||Gentry,L.R., J.M. Fernandez, T.L. Ward, T.W. White, L.L. Southern, T.D. Bidner, D.L.,Jr. Thompson, D.W. Horohov, A.M. C|Dietary Protein and Chromium Tripicolinate in Suffolk Wether Lambs: Effects on Production Characteristics, Metabolic and Hormonal Responses, and Immune Status|J. Anim. Sci.77:1284-1294|1999|10.2527/1999.7751284x
62316|T||Motozono,Y., K. Hatano, N. Sugawara, and T. Ishibashi|Effects of Dietary Chromium Picolinate and Yeast Chromium on the Growth and Carcass Fat of Broilers|Anim. Sci. Technol.69(3): 247-252|1998|
62317|T||Trivedi,B., D.K. Saxena, R.C. Murthy, and S.V. Chandra|Embryotoxicity and Fetotoxicity of Orally Administered Hexavalent Chromium in Mice|Reprod. Toxicol.3:275-278|1989|10.1016/0890-6238(89)90022-1
62318|A||Carter,C.C., and R.S. Hestand|The Effects of Selected Herbicides on Phytoplankton and Sulfur Bacteria Populations|J. Aquat. Plant Manag.15:47-56|1977|
62319|A||Wang,W.X., and C. Ke|Dominance of Dietary Intake of Cadmium and Zinc by Two Marine Predatory Gastropods|Aquat. Toxicol.56(3): 153-165|2002|10.1016/S0166-445X(01)00205-3
62320|A||Sancho,E., M. Sanchez, M.D. Ferrando, and E. Andreu-Moliner|Effects of Thiobencarb Herbicide to an Alga (Nannochloris oculata) and the Cladoceran (Daphnia magna)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(1): 55-65|2001|
62321|A||Wang,W.X., R.C.H. Dei, and Y. Xu|Cadmium Uptake and Trophic Transfer in Coastal Plankton Under Contrasting Nitrogen Regimes|Mar. Ecol. Prog. Ser.211:293-298|2001|10.3354/meps211293
62322|A||Semlitsch,R.D., C.M. Bridges, and A.M. Welch|Genetic Variation and a Fitness Tradeoff in the Tolerance of Gray Treefrog (Hyla versicolor) Tadpoles to the Insecticide Carbaryl|Oceanologia (Wroc.)125(2): 179-185|2000|
62323|A||Abou Zinada,O.A.|Effect of Niclosamide on the Marketable Fish Liza ramada (Risso, 1826) Concerning Accumulation in Muscles and Activities of Three Metabolic Liver Enzymes|J. Egypt. Soc. Parasitol.30(3): 791-797|2000|
62324|A||Soltani,M., S.S. Mirzargar, and M. Rostami|Assessment of Residues of Some Antibiotics in Serum and Tissues of Common Carp and Rainbow Trout Using Microbiological (Bioassay) and Thin Layer Chromatography-Bioautography (TLC-B)|In: European Association of Fish Pathologists International Conference on Diseases of Fish and Shellfish:11 p.|1999|
62325|A||Joseph,I., and V.S.K. Chennubhotla|Gibberellic Acid and 2,4-D as Growth Regulators in Laboratory Culture of Seaweeds|Indian J. Mar. Sci.28(1): 66-69|1999|
62327|T||Kishi,R., T. Ikeda, H. Miyake, E. Uchino, T. Tsuzuki, and K. Inoue|Effects of Low Lead Exposure on Neuro-behavioral Function in the Rat|Arch. Environ. Health38(1): 25-33|1983|10.1080/00039896.1983.10543975
62328|T||Karnofsky,D.A.|XVI. Assay of Chemotherapeutic Agents on the Developing Chick Embryo|Cancer Res.Suppl.3:83-85|1955|
62329|T||Hill,R., and H.L. Williams|The Effects on Intensively Reared Lambs of Diets Containing Excess Copper|Vet. Rec.77(36): 1043-1045|1965|10.1136/vr.77.36.1043
62330|T||Cunningham,I.J.|The Toxcity of Copper to Bovines|N. Z. J. Sci. Technol.27A:372-376|1946|
62331|T||Carmignani,M., P. Boscolo, and N. Castellino|Metabolic Fate and Cardiovascular Effects of Arsenic in Rats and Rabbits Chronically Exposed to Trivalent and Pentavalent Arsenic|Arch. Toxicol.Suppl. 8:452-455|1985|10.1007/978-3-642-69928-3_103
62336|A||Morrison,J.K.|The Effects of Pentachlorophenol on the Liver and Gills of Cutthroat Trout (Salmo clarki)|M.S.Thesis, Montana State University, Bozeman, MT:56 p.|1983|
62341|A||Schwaiger,J., U. Mallow, H. Ferling, S. Knoerr, T. Braunbeck, W. Kalbfus, and R.D. Negele|How Estrogenic is Nonylphenol?  A Transgenerational Study Using Rainbow Trout (Oncorhynchus mykiss) as a Test Organism|Aquat. Toxicol.59(3-4): 177-189|2002|10.1016/S0166-445X(01)00248-X
62342|A||Brown,S.B., A.T. Fisk, M. Brown, M. Villella, D.C.G. Muir, R.E. Evans, W.L. Lockhart, D.A. Metner, and H.M. Cooley|Dietary Accumulation and Biochemical Responses of Juvenile Rainbow Trout (Oncorhynchus mykiss) to 3,3',4,4',5-pentachlorobiphenyl (PCB 126)|Aquat. Toxicol.59:139-152|2002|10.1016/S0166-445X(01)00246-6
62343|T||Simini,M., R.T. Checkai, R.G. Kuperman, C.T. Phillips, J.A. Speicher, and D.J. Barclift|Toxicity Assessments of Antimony, Barium, Beryllium, and Manganese for Development of Ecological Soil Screening Levels (Eco-SSL) Using Earthworm (Eisenia fetida) Benchmark Values|Technical Report No.ECBC-TR-325, U.S.Army Edgewood Chemical Biological Center, Aberdeen Proving Ground, MD:74 p.|2002|
62344|T||Kuperman,R.G., R.T. Checkai, C.T. Phillips, M. Simini, J.A. Speicher, and D.J. Barclift|Toxicity Assessments of Antimony, Barium, Beryllium, and Manganese for Development of Ecological Soil Screening Levels (Eco-SSL) Using Enchytraeid Reproduction Benchmark Values|Technical Report No.ECBC-TR-324, U.S.Army Edgewood Chemical Biological Center, Aberdeen Proving Ground, MD:84 p.|2002|
62345|T||Phillips,C.T., R.T. Checkai, R.G. Kuperman, M. Simini, J.A. Speicher, and D.J. Barclift|Toxicity Assessments of Antimony, Barium, Beryllium, and Manganese for Development of Ecological Soil Screening Levels (Eco-SSL) Using Folsomia Reproduction Benchmark Values|Technical Report No.ECBC-TR-326, U.S.Army Edgewood Chemical Biological Center, Aberdeen Proving Ground, MD:81 p.|2002|
62346|T||Schroeder,H.A., and M. Mitchener|Scandium, Chromium(VI), Gallium, Yttrium, Rhodium, Palladium, Indium in Mice:  Effects on Growth and Life Span|J. Nutr.101:1431-1438|1971|10.1093/jn/101.10.1431
62347|T||Romoser,G.L., W.A. Dudley, L.J. Machlin, and L. Loveless|Toxicity of Vanadium and Chromium for the Growing Chick|Poult. Sci.40:1171-1173|1961|10.3382/ps.0401171
62348|T||Siegel,G.J., S.K. Fogt, and M.J. Hurley|Lead Actions on Sodium-Plus-Potassium-Activated Adenosinetriphosphatase from Electroplax, Rat Brain, and Rat Kidney|In: Membrane Toxicity, Advances in Exp.Med.Biol.:465-493|1977|
62352|A||Goh,Y., and T. Tamura|Electrical Responses of the Olfactory Tract to Some Chemical Stimulants in Carp|Nippon Suisan Gakkaishi (Multiple Languages)44(12): 1289-1294|1978|10.2331/suisan.44.1289
62353|A||Goldman,C.R.|Primary Productivity and Micro-Nutrient Limiting Factors in Some North American and New Zealand Lakes|Verh. Int. Ver. Theor. Angew. Limnol.15:365-374|1964|
62355|A||Goldman,C.R.|The Role of Minor Nutrients in Limiting the Productivity of Aquatic Ecosystems|Limnol. Oceanogr.1:21-37|1971|
62356|A||Goldman,C.R.|Molybdenum as an Essential Micronutrient and Useful Watermass Marker in Castle Lake, California|In: H.L.Golterman and R.S.Clymo (Eds.), Chemical Environment in the Aquatic Habitat, Proc.of an I.B.P.-Symp.Held in Amsterdam and Nieuwersluis, Oct.10-16, 1966, Amsterdam:229-244|1967|
62361|A||Goryunova,S.V., and T.U. Maksudov|Molybdenum and Cobalt Requirement of Some Nitrogen-Fixing Blue-Green Algae Under Different Nitrogen Nutrition Conditions|Microbiology41(5): 729-734|1973|
62367|A||Grande,M., S. Andersen, and D. Berge|Effects of Pesticides on Fish Experimental and Field Studies|Norw. J. Agric. Sci.Suppl.13:195-209|1994|
62375|A||Grenier,G., L. Proteau, and G. Beaumont|Lipid Synthesis by Isolated Duckweed (Lemna minor) Chloroplasts in the Presence of a Sublethal Concentration of Atrazine|Can. J. Bot.67:2261-2265|1989|10.1139/b89-289
62378|A||Grigarick,A.A., and M.O. Way|Role of Crayfish (Decapoda:  Astacidae) as Pests of Rice in California and Their Control|J. Econ. Entomol.75:633-636|1982|10.1093/jee/75.4.633
62380|A||Guertin,M., and G. Bellemare|Synthesis of Chloroplast Ribonucleic Acid in Chlamydomonas reinhardtii Toluene-Treated Cells|Eur. J. Biochem.96:125-129|1979|10.1111/j.1432-1033.1979.tb13021.x
62381|T||Gul,H., and M.I. Chaudhry|Attractancy of Granular Insecticides for Land Snail (Helix aspersa, Gastropoda, Mollusca)|Pak. J. For.:29-32|1981|
62382|T||Gupta,B.P., N.K. Joshi, K.C. Joshi, and R.C. Joshi|Evaluation of Some Insecticides Against the Larvae of Malacosoma indica Wlk.|Indian J. Agric. Res.15(2): 95-98|1981|
62390|A||Hazeleur,W.C.|Use of Dursban for Mosquito Control in Log Ponds in the Shasta Mosquito Abatement District|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.39:47-|1971|
62397|A||Gahan,J.B.|Further Studies with Water-Soluble Insecticides for the Control of Mosquito Larvae in Irrigation Water|Mosq. News17(3): 198-201|1957|
62402|A||Gatlin III,D.M., and R.P. Wilson|Dietary Zinc Requirement of Fingerling Channel Catfish|J. Nutr.113:630-635|1983|10.1093/jn/113.3.630
62404|A||Gatlin III,D.M., and R.P. Wilson|Zinc Supplementation of Practical Channel Catfish Diets|Aquaculture41(1): 31-36|1984|10.1016/0044-8486(84)90387-9
62405|A||Gatlin III,D.M., and R.P. Wilson|Characterization of Iron Deficiency and the Dietary Iron Requirement of Fingerling Channel Catfish|Aquaculture52:191-198|1986|10.1016/0044-8486(86)90143-2
62406|AT||Garten,C.T.,Jr., and M.L. Frank|Comparison of Toxicity to Terrestrial Plants with Algal Growth Inhibition by Herbicides|Interagency Agreement No.40-1067-80, Prepared for the U.S.EPA, Washington, D.C., by the Oak Ridge Natl.Lab., Oak Ridge, TN:32 p.|1984|
62407|A||Garrett,G.P., and C.R. Inman|Selenium-Induced Changes in Fish Populations of a Heated Reservoir|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies38:291-301|1984|
62408|A||Gennity,J.M., N.R. Bottino, R.A. Zingaro, A.E. Wheeler, and K.J. Irgolic|The Binding of Selenium to the Lipids of Two Unicellular Marine Algae|Biochem. Biophys. Res. Commun.118(1): 176-182|1984|10.1016/0006-291X(84)91083-0
62410|T||Georghiou,G.P., R.D. Sjogren, and J. Barkley|Effects of Organophosphorus, Carbamate, and Organochlorine Insecticides on Leptoconops kerteszi (Kieffer) (Diptera; Ceratopogonidae)|Mosq. News32(2): 205-208|1972|
62411|AT||Georghiou,G.P., P.A. Gillies, and D.J. Womeldorf|Culex tarsalis Coquillett:  Detection of Resistance to Parathion, Methyl Parathion, Fenthion, Dursban, and Abate in a Malathion-Resistant Population|Calif. Vector Views16(12): 115-118|1969|
62414|A||Gibbons,B.H.|Effects of Organic Solvents on Flagellar Asymmetry and Quiescence in Sea Urchin Sperm|J. Cell Sci.54:115-135|1982|10.1242/jcs.54.1.115
62415|A||Giesy,J.P.,Jr.|Stimulation of Growth in Scenedesmus obliquus (Chlorophyceae) by Humic Acids Under Iron Limited Conditions|J. Phycol.12:172-179|1976|10.1111/j.1529-8817.1976.tb00496.x
62418|A||Giesy,J.P., S.M. Bartell, P.F. Landrum, G.J. Leversee, and J.W. Bowling|Fates and Biological Effects of Polycyclic Aromatic Hydrocarbons in Aquatic Systems|EPA-600/3-83-053, U.S.EPA, Athens, GA:245 p.|1983|
62444|T||Lock,K., and C.R. Janssen|Ecotoxicity of Zinc in Spiked Artificial Soils Versus Contaminated Field Soils|Environ. Sci. Technol.35(21): 4295-4300|2001|10.1021/es0100219
62445|A||Muyssen,B.T.A., and C.R. Janssen|Multigeneration Zinc Acclimation and Tolerance in Daphnia magna:  Implications for Water-Quality Guidelines and Ecological Risk Assessment|Environ. Toxicol. Chem.20(9): 2053-2060|2001|
62446|A||Perschbacher,P.W., and W.A. Wurts|Effects of Calcium and Magnesium Hardness on Acute Copper Toxicity to Juvenile Channel Catfish, Ictalurus punctatus|Aquaculture172:275-280|1999|10.1016/S0044-8486(98)00499-2
62447|A||Perez-Rama,M., C.H. Lopez, J.A. Alonso, and E.T. Vaamonde|Class III Metallothioneins in Response to Cadmium Toxicity in the Marine Microalga Tetraselmis suecica (Kylin) Butch|Environ. Toxicol. Chem.20(9): 2061-2066|2001|10.1002/etc.5620200927
62448|A||Pennington,P.L., and G.I. Scott|Toxicity of Atrazine to the Estuarine Phytoplankter Pavlova sp. (Prymnesiophyceae):  Increased Sensitivity After Long-Term, Low-Level Population Exposure|Environ. Toxicol. Chem.20(10): 2237-2242|2001|
62449|A||Prasad,M.N.V., P. Malec, A. Waloszek, M. Bojko, and K. Strzalka|Physiological Responses of Lemna trisulca L. (Duckweed) to Cadmium and Copper Bioaccumulation|Plant Sci.161(5): 881-889|2001|10.1016/S0168-9452(01)00478-2
62450|A||Peterson,J.L., P.C. Jepson, and J.J. Jenkins|Effect of Varying Pesticide Exposure Duration and Concentration on the Toxicity of Carbaryl to Two Field-Collected Stream Invertebrates, Calineuria californica (Plecoptera:  Perlidae) and Cinygma sp. (Ephemeroptera: Hep|Environ. Toxicol. Chem.20(10): 2215-2223|2001|
62451|A||Peterson,J.L., P.C. Jepson, and J.J. Jenkins|A Test System to Evaluate the Susceptibility of Oregon, USA, Native Stream Invertebrates to Triclopyr and Carbaryl|Environ. Toxicol. Chem.20(10): 2205-2214|2001|10.1002/etc.5620201012
62452|A||Sanchez-Fortun,S., and V. Barahona|The Use of Carbamates, Atropine, and 2-Pyridine Aldoxime Methoiodide in the Protection of Artemia salina Against Poisoning by Carbophenothion|Environ. Toxicol. Chem.20(9): 2008-2013|2001|
62453|A||Ruus,A., J.U. Skaare, and K. Ingebrigtsen|Disposition and Depuration of Lindane (gama-HCH) and Polychlorinated Biphenyl-110 (2,3,3',4',6-Pentachlorobiphenyl) in Cod (Gadus morhua) and Bullrout (Myoxocephalus scorpius) After Single Oral Exposures|Environ. Toxicol. Chem.20(10): 2377-2382|2001|
62454|A||Reinikainen,M., J.A.O. Meriluoto, L. Spoof, and K.I. Harada|The Toxicities of a Polyunsaturated Fatty Acid and a Microcystin to Daphnia magna|Environ. Toxicol.16(5): 444-448|2001|10.1002/tox.10003
62455|A||Schulz,R., and J.M. Dabrowski|Combined Effects of Predatory Fish and Sublethal Pesticide Contamination on the Behavior and Mortality of Mayfly Nymphs|Environ. Toxicol. Chem.20(11): 2537-2543|2001|10.1002/etc.5620201120
62457|A||Semaan,M., D.A. Holdway, and R.A. Van Dam|Comparative Sensitivity of Three Populations of the Cladoceran Moinodaphnia macleayi to Acute and Chronic Uranium Exposure|Environ. Toxicol.16(5): 365-376|2001|10.1002/tox.1045
62458|A||Tran,D., A. Boudou, and J.C. Massabuau|How Water Oxygenation Level Influences Cadmium Accumulation Pattern in the Asiatic Clam Corbicula fluminea:  A Laboratory and Field Study|Environ. Toxicol. Chem.20(9): 2073-2080|2001|10.1002/etc.5620200929
62459|A||Tarczynska,M., G. Nalecz-Jawecki, Z. Romanowska-Duda, J. Sawicki, K. Beattie, G. Codd, and M. Zalewski|Tests for the Toxicity Assessment of Cyanobacterial Bloom Samples|Environ. Toxicol.16(5): 383-390|2001|10.1002/tox.1047
62460|A||Wiegand,C., E. Krause, C. Steinberg, and S. Pflugmacher|Toxicokinetics of Atrazine in Embryos of the Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.49(3): 199-205|2001|10.1006/eesa.2001.2073
62461|A||Weinstein,J.E., and K.D. Polk|Phototoxicity of Anthracene and Pyrene to Glochidia of the Freshwater Mussel Utterbackia imbecillis|Environ. Toxicol. Chem.20(9): 2021-2028|2001|10.1002/etc.5620200922
62462|A||Wallberg,P., P.R. Jonsson, and A. Andersson|Trophic Transfer and Passive Uptake of a Polychlorinated Biphenyl in Experimental Marine Microbial Communities|Environ. Toxicol. Chem.20(10): 2158-2164|2001|10.1002/etc.5620201004
62464|A||Geiszinger,A., W. Goessler, S.N. Pedersen, and K.A. Francesconi|Arsenic Biotransformation by the Brown Macroalga Fucus serratus|Environ. Toxicol. Chem.20(10): 2255-2262|2001|10.1002/etc.5620201018
62465|A||Tugiyono, and M.M. Gagnon|Pink Snapper (Pagrus auratus) as a Bioindicator of Aquatic Environmental Health in Western Australia|Environ. Toxicol.16(5): 449-454|2001|10.1002/tox.1052
62466|A||Hattink,J., and H.T. Wolterbeek|Accumulation of 99Tc in Duckweed Lemna minor L. as a Function of Growth Rate and 99Tc Concentration|J. Environ. Radioact.57(2): 117-138|2001|10.1016/S0265-931X(01)00015-7
62467|A||Hermesz,E., M. Abraham, and J. Nemcsok|Tissue-Specific Expression of Two Metallothionein Genes in Common Carp During Cadmium Exposure and Temperature Shock|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(3): 457-465|2001|10.1016/S1532-0456(01)00165-X
62468|A||Jensen,A., V.E. Forbes, and E.D.,Jr. Parker|Variation in Cadmium Uptake, Feeding Rate, and Life-History Effects in the Gastropod Potamopyrgus antipodarum:  Linking Toxicant Effects on Individuals to the Population Level|Environ. Toxicol. Chem.20(11): 2503-2513|2001|
62469|A||Ivorra,N., J. Hettelaar, M.H.S. Kraak, S. Sabater, and W. Admiraal|Responses of Biofilms to Combined Nutrient and Metal Exposure|Environ. Toxicol. Chem.21(3): 626-632|2002|10.1002/etc.5620210323
62470|A||Jorgensen,E.H., M. Celander, A. Goksoyr, and M. Iwata|The Effect of Stress on Toxicant-Dependent Cytochrome P450 Enzyme Responses in the Arctic Charr (Salvelinus alpinus)|Environ. Toxicol. Chem.20(11): 2523-2529|2001|
62471|A||Jones,R.J., and O. Hoegh-Guldberg|Effects of Cyanide on Coral Photosynthesis:  Implications for Identifying the Cause of Coral Bleaching and for Assessing the Environmental Effects of Cyanide Fishing|Mar. Ecol. Prog. Ser.177:83-91|1999|10.3354/meps177083
62472|A||Jin-Clark,Y., M.J. Lydy, and K.Y. Zhu|Effects of Atrazine and Cyanazine on Chlorpyrifos Toxicity in Chironomus tentans (Diptera:  Chironomidae)|Environ. Toxicol. Chem.21(3): 598-603|2002|10.1002/etc.5620210319
62473|A||Liess,M., O. Champeau, M. Riddle, R. Schulz, and S. Duquesne|Combined Effects of Ultraviolet-B Radiation and Food Shortage on the Sensitivity of the Antarctic Amphipod Paramoera walkeri to Copper|Bull. Environ. Contam. Toxicol.20(9): 2088-2092|2001|
62474|A||Lee,D.Y., and G.Y. Rhee|The Effect of 2,5,2',5'-Tetrachlorobiphenyl on Growth and Death of the Cyanobacterium Anabaena flos-aquae|Environ. Toxicol. Chem.20(10): 2189-2192|2001|
62475|A||Landrum,P.F., E.A. Tigue, S.K. Driscoll, D.C. Gossiaux, P.L. Van Hoof, M.L. Gedeon, and M. Adler|Bioaccumulation of PCB Congeners by Diporeia spp.:  Kinetics and Factors Affecting Bioavailability|J. Great Lakes Res.27(2): 117-133|2001|10.1016/S0380-1330(01)70627-2
62476|A||Martinez,M., J. Del Ramo, A. Torreblanca, and J. Diaz-Mayans|Effect of Cadmium Exposure on Zinc Levels in the Brine Shrimp Artemia parthenogenetica|Aquaculture172:315-325|1999|10.1016/S0044-8486(98)00431-1
62477|A||Martinez,E.A., B.C. Moore, J. Schaumloffel, and N. Dasgupta|Induction of Morphological Deformities in Chironomus tentans Exposed to Zinc- and Lead-Spiked Sediments|Environ. Toxicol. Chem.20(11): 2475-2481|2001|
62479|A||Leonard,A.W., R.V. Hyne, R.P. Lim, K.A. Leigh, J. Le, and R. Beckett|Fate and Toxicity of Endosulfan in Namoi River Water and Bottom Sediment|J. Environ. Qual.30(3): 750-759|2001|10.2134/jeq2001.303750x
62480|A||Schulz,R., S.K.C. Peall, J.M. Dabrowski, and A.J. Reinecke|Spray Deposition of Two Insecticides into Surface Waters in a South African Orchard Area|J. Environ. Qual.30(3): 814-822|2001|10.2134/jeq2001.303814x
62481|A||Hart,R.A., T. Brastrup, D.E. Kelner, and M. Davis|The Freshwater Mussel Fauna (Bivalvia:  Unionidae) of the Knife River, Minnesota, Following a Rotenone Treatment|J. Freshw. Ecol.16(4): 487-492|2001|10.1080/02705060.2001.9663839
62482|A||Baines,S.B., N.S. Fisher, M.A. Doblin, and G.A. Cutter|Uptake of Dissolved Organic Selenides by Marine Phytoplankton|Limnol. Oceanogr.46(8): 1936-1944|2001|10.4319/lo.2001.46.8.1936
62483|A||Moldovan,M., S. Rauch, M. Gomez, M.A. Palacios, and G.M. Morrison|Bioaccumulation of Palladium, Platinum and Rhodium from Urban Particulates and Sediments by the Freshwater Isopod Asellus aquaticus|Water Res.35(17): 4175-4183|2001|10.1016/S0043-1354(01)00136-1
62484|A||Mohamed,Z.A.|Removal of Cadmium and Manganese by a Non-toxic Strain of the Freshwater Cyanobacterium Gloeothece magna|Water Res.35(18): 4405-4409|2001|10.1016/S0043-1354(01)00160-9
62485|A||Hook,S.E., and N.S. Fisher|Relating the Reproductive Toxicity of Five Ingested Metals in Calanoid Copepods with Sulfur Affinity|Mar. Environ. Res.53(2): 161-174|2002|10.1016/S0141-1136(01)00118-0
62486|A||Jarvie,H.P., C. Neal, A. Warwick, J. White, M. Neal, H.D. Wickham, L.K. Hill, and M.C. Andrews|Phosphorus Uptake into Algal Biofilms in a Lowland Chalk River|Sci. Total Environ.282-283:353-373|2002|10.1016/S0048-9697(01)00924-X
62487|A||Ali,A., M.A. Chowdhury, M.I. Hossain, M. Ameen, D.B. Habiba, and A.F.M. Aslam|Laboratory Evaluation of Selected Larvicides and Insect Growth Regulators Against Field-Collected Culex quinquefasciatus Larvae from Urban Dhaka, Bangladesh|Am. Mosq. Control Assoc. J.15(1): 43-47|1999|
62488|A||Agell,G., M.J. Uriz, E. Cebrian, and R. Marti|Does Stress Protein Induction by Copper Modify Natural Toxicity in Sponges?|Environ. Toxicol. Chem.20(11): 2588-2593|2001|10.1002/etc.5620201126
62489|A||Adams,M.B., M.D. Powell, and G.J. Purser|Effect of Acute and Chronic Ammonia and Nitrite Exposure on Oxygen Consumption and Growth of Juvenile Big Bellied Seahorse|J. Fish Biol.58(3): 848-860|2001|10.1111/j.1095-8649.2001.tb00535.x
62490|A||Abdu,U., A. Barki, I. Karplus, S. Barel, P. Takac, G. Yehezkel, H. Laufer, and A. Sagi|Physiological Effects of Methyl Farnesoate and Pyriproxyfen on Wintering Female Crayfish Cherax quadricarinatus|Aquaculture202:163-175|2001|10.1016/S0044-8486(01)00596-8
62491|T||Arreghini,S., L. De Cabo, A.F. De Iorio, A. Rendina, and C. Bonetto|Effects of Zinc on the Growth of Bulrush (Schoenoplectus californicus) and Its Distribution Between Different Sediment Fractions|Bull. Environ. Contam. Toxicol.67(2): 264-270|2001|
62492|T||Deichmann,W.B.|Study of the Ecology of Pesticides|EPA-650/1-74-012, U.S.EPA, Research Triangle Park, NC:53 p.|1974|
62493|T||Hurkat,P.C., and G.P. Joshi|Some Physiological and Behaviour Studies on Rabbit (Oryctolagus cuniculus) After Dieldrin Administration|Indian Vet. J.54:709-714|1977|
62494|T||Keane,W.T., M.R. Zavon, and S.H. Witherup|Dieldrin Poisoning in Dogs:  Relation to Obesity and Treatment|Br. J. Ind. Med.26:338-341|1969|
62495|T||Mehrotra,B.D., S.R. Reddy, and D. Desaiah|Effect of Subchronic Dieldrin Treatment on Calmodulin-Regulated Ca2+ Pump Activity in Rat Brain|J. Toxicol. Environ. Health25:461-469|1988|10.1080/15287398809531224
62496|T||Reuber,M.D.|Hepatic Vein Thrombosis in Mice Ingesting Chlorinated Hydrocarbons|Arch. Toxicol.38(3): 163-168|1977|10.1007/BF00293650
62497|T||Reuber,M.D.|Significance of Acute and Chronic Renal Disease in Osborne-Mendel Rats Ingesting Dieldrin or Aldrin|Clin. Toxicol.17(2): 159-170|1980|10.3109/15563658008985075
62498|T||Schein,L.G., and J.A. Thomas|Effects of Dieldrin on the Uptake and Metabolism of Testosterone-1,2-3H by Rodent Sex Accessory Organs|Environ. Res.9:26-31|1975|10.1016/0013-9351(75)90046-8
62499|T||Shakoori,A.R., Y.G. Rasul, and S.S. Ali|The Effect of Long Term Administration of Dieldrin on Biochemical Components in Blood Serum of Albino Rats|Folia Biol. (Krakow)32(3): 213-222|1984|
62500|T||Stevenson,D.E., J.P. Kehrer, K.L. Kolaja, E.F.,Jr. Walborg, and J.E. Klaunig|Effect of Dietary Antioxidants on Dieldrin-Induced Hepatotoxicity in Mice|Toxicol. Lett.75(1-3): 177-183|1995|10.1016/0378-4274(94)03178-A
62501|T||Stoewsand,G.S., E.J. Broderick, and J.B. Bourke|Dietary Protein and Dieldrin Toxicity|Ind. Med. Surg.39(8): 45-49|1970|
62502|T||Thomas,J.A.|Actions of Pesticides and Other Drugs on the Male Reproductive System|EPA-650/1-74-011, U.S.EPA, Research Triangle Park, NC:41 p.|1974|
62503|T||Uzoukwu,M., and S.D. Sleight|Dieldrin Toxicosis:  Fetotoxicosis, Tissue Concentrations, and Microscopic and Ultrastructural Changes in Guinea Pigs|Am. J. Vet. Res.33(3): 579-583|1972|
62504|T||Van Ravenzwaay,B., H.J.M. Toussaint, and R.L. Schmitt|Dieldrin-Induced Changes in Isoenzyme Composition in the Livers of CF-1 Mice|Int. J. Cancer41:305-308|1988|10.1002/ijc.2910410223
62505|T||Virgo,B.B., and G.D. Bellward|Effect of Dietary Dieldrin on the Liver and Drug Metabolism in the Female Swiss-Vancouver Mouse|Can. J. Physiol. Pharmacol.53:903-911|1975|10.1139/y75-124
62506|T||Wassermann,M., D. Wassermann, E. Kedar, M. Djavaherian, and S. Cucos|Effects of Dieldrin and gamma BHC on Serum Proteins and PBI|Bull. Environ. Contam. Toxicol.8(3): 177-185|1972|10.1007/BF01684474
62507|T||Rana,S.V.S., and A. Kumar|Effect of Molybdenum and Copper on the Nucleus of Rat Kidney|Mikroskopie42(3/4): 102-107|1985|
62509|T||Thompson,R.H., and J.R. Todd|Role of Pentose-Phosphate Pathway in Haemolytic Crisis of Chronic Copper Toxicity of Sheep|Res. Vet. Sci.20:257-260|1976|10.1016/S0034-5288(18)33420-9
62510|T||Stevenson,M.H., and N. Jackson|Effects of Level of Dietary Copper Sulphate and Period of Feeding on the Laying, Domestic Fowl, with Special Reference to Tissue Mineral Content|Br. J. Nutr.43:205-215|1980|10.1079/BJN19800079
62511|T||Morris,H.P., E.P. Laug, H.J. Morris, and R.L. Grant|The Growth and Reproduction of Rats Fed Diets Containing Lead Acetate and Arsenic Trioxide and the Lead and Arsenic Content of Newborn and Suckling Rats|J. Pharmacol. Exp. Ther.64:420-445|1938|
62513|T||Smith,M.S.|Responses of Chicks to Dietary Supplements of Copper Sulphate|Br. Poult. Sci.10:97-108|1969|10.1080/00071666908415748
62514|A||Hanes,D., H. Krueger, I. Tinsley, and C. Bond|Influence of Pentachlorophenol on Fatty Acids of Coho Salmon (Oncorhynchus kisutch)|Proc. West. Pharmacol. Soc.11:121-125|1968|
62518|A||Hedtke,S.F., and F.A. Puglisi|Effects of Waste Oil on the Survival and Reproduction of the American Flagfish, Jordanella floridae|Can. J. Fish. Aquat. Sci.37(5): 757-764|1980|10.1139/f80-101
62520|A||Heisinger,J.F.|Antagonism of Selenium and Cadmium Pretreatments to Subsequent Embryotoxic Doses of Mercury and Cadmium in Fish Embryos|Project A-075-SDAK, Completion Report, Water Resources Institute, South Dakota State University, Brookings, SD:20 p.|1981|
62529|A||Hader,D.P., and K.L. Poff|Dependence of the Photophobic Response of the Blue-Green Alga, Phormidium uncinatum, on Cations|Arch. Microbiol.132:345-348|1982|10.1007/BF00413387
62530|A||Hagiwara,S., S. Miyazaki, W. Moody, and J. Patlak|Blocking Effects of Barium and Hydrogen Ions on the Potassium Current During Anomalous Rectification in the Starfish Egg|J. Physiol.279:167-185|1978|10.1113/jphysiol.1978.sp012338
62534|A||Hall,L.H., E.L. Maynard, and L.B. Kier|Structure-Activity Relationship Studies on the Toxicity of Benzene Derivatives: III. Predictions and Extension to New Substituents|Environ. Toxicol. Chem.8(5): 431-436|1989|
62537|A||Hall,L.W.,Jr., W.S. Hall, S.J. Bushong, and R.L. Herman|In Situ Striped Bass (Morone saxatilis) Contaminant and Water Quality Studies in the Potomac River|Aquat. Toxicol.10:73-99|1987|10.1016/0166-445X(87)90016-6
62539|A||Halliday,W.R., and G.P. Georghiou|Linkage Relationships of the Knockdown Resistance Gene (kdr) in Larvae of Culex quinquefasciatus (Diptera: Culicidae)|J. Med. Entomol.22(5): 572-576|1985|10.1093/jmedent/22.5.572
62540|T||Halverson,A.W., and K.J. Monty|An Effect of Dietary Sulfate on Selenium Poisoning in the Rat|J. Nutr.70:100-102|1960|10.1093/jn/70.1.100
62543|A||Hansen,N., V.B. Jensen, H. Appelquist, and E. Morch|The Uptake and Release of Petroleum Hydrocarbons by the Marine Mussel Mytilus edulis|Prog. Water Technol.10(5-6): 351-359|1978|
62544|A||Hansma,H.G.|Turnover of Monovalent Cations in Paramecium|J. Exp. Biol.93:81-92|1981|10.1242/jeb.93.1.81
62548|T||Harris,R.L.|Susceptibility of Three Species of Tabanids to Certain Insecticides|Southwest. Entomol.1(1): 52-55|1976|
62551|T||Ling,J.R., and R.M.,Jr. Leach|Studies on Nickel Metabolism:  Interaction with Other Mineral Elements|Poult. Sci.58:591-596|1979|10.3382/ps.0580591
62554|T||Jessup,D.C.|Lead Acetate, Three-Generation Reproduction Study - Rats|Final Rep.No.API-EA7102-4, Hazleton Lab.Inc., Falls Church, VA:13 p.|1969|
62555|T||Lee,J.S., V.C. Moser, and R.C. MacPhail|Neurotoxic Effects of Cadmium in Rats|Korean J. Toxicol.10(2): 133-144|1994|
62557|T||Abdel Fadil,H., and S. Abdel Magid|Prophylactic Role of Dietary Zinc Against Cadmium Toxicity in Broiler Chicks with Special Reference to Cumulative Effect of Cadmium on the Level of Some Elements in Various Tissues|Zagazig J. Pharm. Sci.5(2): 92-98|1996|10.21608/zjps.1996.185023
62558|T||Jessup,D.C.|Lead Acetate, Teratology Study - Rabbits|Final Rep.No.API-EA7102-5, Hazleton Lab.Inc., Falls Church, VA:17 p.|1967|
62560|T||National Toxicology Program (NTP)|Final Report on the Reproductivity Toxcity of Lead Acetate Trihydrate (CAS No. 6080-56-4) Administered in Drinking Water to Sprague-Dawley Rats|National Toxicology Program, National Institute of Environmental Health Sciences, Research Triangle Park, NC:413 p.|1996|
62581|T||Corrier,D.E., H.H. Mollenhauer, D.E. Clark, M.F. Hare, and M.H. Elissalde|Testicular Degeneration and Necrosis Induced by Dietary Cobalt|Vet. Pathol.22:610-616|1985|10.1177/030098588502200616
62582|A||Katsiadaki,I., A.P. Scott, M.R. Hurst, P. Matthiessen, and I. Mayer|Detection of Environmental Androgens:  A Novel Method Based on Enzyme-Linked Immunosorbent Assay of Spiggin, the Stickleback (Gasterosteus aculeatus) Glue Protein|Environ. Toxicol. Chem.21(9): 1946-1954|2002|
62583|A||Benguira,S., V.S. Leblond, J.P. Weber, and A. Hontela|Loss of Capacity to Elevate Plasma Cortisol in Rainbow Trout (Oncorhynchus mykiss) Treated with a Single Injection of o,p'-Dichlorodiphenyldichloroethane|Environ. Toxicol. Chem.21(8): 1753-1756|2002|
62587|T||Ma,J.F., M. Sasaki, and H. Matsumoto|Al-Induced Inhibition of Root Elongation in Corn, Zea mays L. is Overcome by Si Addition|Plant Soil188(2): 171-176|1997|10.1023/A:1004274223516
62589|T||Ma,Q., J. Gan, J.O. Becker, S.K. Papiernik, and S.R. Yates|Evaluation of Propargyl Bromide for Control of Barnyardgrass and Fusarium oxysporum in Three Soils|Pest Manag. Sci.57:781-786|2001|10.1002/ps.355
62590|T||Macnair,M.R., and N. Smirnoff|Use of Zincon to Study Uptake and Accumulation of Zinc by Zinc Tolerant and Hyperaccumulating Plants|Commun. Soil Sci. Plant Anal.30(7-8): 1127-1136|1999|10.1080/00103629909370273
62591|T||Madhava Rao,K.V., and T.V.S. Sresty|Antioxidative Parameters in the Seedlings of Pigeonpea (Cajanus cajan (L.) Millspaugh) in Response to Zn and Ni Stresses|Plant Sci.157(1): 113-128|2000|10.1016/S0168-9452(00)00273-9
62592|T||Madhukar,B.V., D.W. Brewster, and F. Matsumura|Effects of In Vivo-Administered 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Receptor Binding of Epidermal Growth Factor in the Hepatic Plasma Membrane of Rat, Guinea Pig, Mouse and Hamster|Proc. Natl. Acad. Sci. U.S.A.81:7407-7411|1984|10.1073/pnas.81.23.7407
62593|T||Majak,W., D.L. Johnson, and M.H. Benn|Detoxification of 3-Nitropropionic Acid and Karakin by Melanopline Grasshoppers|Phytochemistry49(2): 419-422|1998|10.1016/S0031-9422(97)00733-4
62594|T||Makela,P., J. Kleemola, K. Jokinen, J. Mantila, E. Pehu, and P. Peltonen-Sainio|Growth Response of Pea and Summer Turnip Rape to Foliar Application of Glycinebetaine|Acta Agric. Scand. Sect. B47(3): 168-175|1997|
62595|T||Makhmoor,H.D., and A.K. Malhotra|Selective Toxicity of Some Insecticides to the Larvae of Syrphid, Episyrphus balteatus and Adults of Aphid, Lipaphis erysimi|Indian J. Plant Prot.21(2): 157-160|1993|
62596|T||Maksymiec,W., and T. Baszynski|Are Calcium Ions and Calcium Channels Involved in the Mechanisms of Cu2+ Toxicity in Bean Plants? The Influence of Leaf Age|Photosynthetica (Praha)36(1/2): 267-278|1999|
62597|T||Maneechote,C., C. Preston, and S.B. Powles|A Diclofop-Methyl-Resistant Avena sterilis Biotype with a Herbicide-Resistant Acetyl-Coenzyme A Carboxylase and Enhanced Metabolism of Diclofop-Methyl|Pestic. Sci.49(2): 105-114|1997|
62598|T||Mani,M.|Evaluation of Toxicity of Different Pesticides to the Green Lacewing, Mallada boninensis (Chrysopidae: Neuroptera)|J. Biol. Control7(2): 61-68|1993|
62599|T||Mani,M., and A. Krishnamoorthy|Effects of Different Pesticides upon the Wax Scale Parasitoid, Anicetus ceylonensis How. (Hym.:  Encyrtidae)|Int. J. Pest Manag.43(2): 123-126|1997|10.1080/096708797228807
62600|T||Mani,M.|Relative Toxicity of Different Pesticides to Campoletis chlorideae Uchida (Hym., Ichneumonidae)|J. Biol. Control8(1): 18-22|1994|
62601|T||Mani,M., and S. Nagarkatti|Susceptibility of Two Braconid Parasites Apanteles angaleti Muesebeck and Bracon kirkpatricki (Wilkinson) to Several Chemical Pesticides|Entomon8(1): 87-92|1983|
62602|T||Mann,D.D., D.S. Jayas, N.D.G. White, and W.E. Muir|Mortality of Adult Cryptolestes ferrugineus (Stephens) Exposed to Changing CO2 Concentrations|J. Stored Prod. Res.35(4): 385-395|1999|10.1016/S0022-474X(99)00020-X
62603|T||Mansour,F.|A Malathion-Tolerant Strain of the Spider Chiracanthium mildei and Its Response to Chlorpyrifos|Phytoparasitica12(3/4): 163-166|1984|10.1007/BF02981168
62604|T||Marcar,N.E., J. Guo, and D.F. Crawford|Response of Eucalyptus camaldulensis Dehnh., E. globulus Labill. ssp. globulus and E. grandis W.Hill to Excess Boron and Sodium Chloride|Plant Soil208(2): 251-257|1999|10.1023/A:1004594028069
62605|T||Marco,V., G. Perez-Farinos, and P. Castanera|Effects of Hexaflumuron on Transovarial, Ovicidal, and Progeny Development of Aubeonymus mariaefranciscae (Coleoptera: Curculionidae)|Environ. Entomol.27(4): 812-816|1998|10.1093/ee/27.4.812
62606|T||Marcon,P.C.R.G., G.D. Thomas, B.D. Siegfried, and J.B. Campbell|Susceptibility of Stable Flies (Diptera:Muscidae) from Southeastern Nebraska Beef Cattle Feedlots to Selected Insecticides and Comparison of 3 Bioassay Techniques|J. Econ. Entomol.90(2): 293-298|1997|10.1093/jee/90.2.293
62607|T||Marek,S.M., C.A. Roberts, A.L. Karr, and D.A. Sleper|Chitinase Activity in Tall Fescue Seedlings as Affected by Cultivar, Seedling Development, and Ethephon|Crop Sci.40(3): 713-716|2000|10.2135/cropsci2000.403713x
62608|T||Markoglou,A.N., and B.N. Ziogas|Genetic Control of Resistance to Fenpropimorph in Ustilago maydis|Plant Pathol.48(4): 521-530|1999|10.1046/j.1365-3059.1999.00374.x
62609|T||Marrs,K.A., and V. Walbot|Expression and RNA Splicing of the Maize Glutathione S-Transferase Bronze2 Gene is Regulated by Cadmium and Other Stresses|Plant Physiol.113(1): 93-102|1997|10.1104/pp.113.1.93
62610|T||Marschner,H., A. Kalisch, and V. Romheld|Mechanism of Iron Uptake in Different Plant Species|In: J.Wehrmann (Ed.), Plant Analysis and Fertilizer Problems, German Soc.of Plant Nutr., Hanover, Germany:273-281|1974|
62611|T||Martin,P.A.|Effects of Carbofuran, Chlorpyrifos and Deltamethrin on Hatchability, Deformity, Chick Size and Incubation Time of Japanese Quail (Coturnix japonica) Eggs|Environ. Toxicol. Chem.9(4): 529-534|1990|10.1002/etc.5620090417
62612|T||Martin,P.A., and D.J. Forsyth|Effects of Exposure to Vegetation Sprayed with Dimethoate or Chlorpyrifos on Mallard Ducklings (Anas platyrhynchos)|Ecotoxicology7(2): 81-87|1998|10.1023/A:1008863819270
62613|T||Masabni,J.G., and B.H. Zandstra|Discovery of a Common Purslane (Portulaca oleracea) Biotype Resistant to Linuron|Weed Technol.13(3): 599-605|1999|10.1017/S0890037X00046261
62614|T||Mascarenhas,V.J., J.B. Graves, B.R. Leonard, and E. Burris|Dosage-Mortality Responses of Third Instars of Beet Armyworm (Lepidoptera:  Noctuidae) to Selected Insecticides|J. Agric. Entomol.15(2): 125-140|1998|
62615|A||Hatanaka,J., N. Doke, T. Harada, T. Aikawa, and M. Enomoto|Usefulness and Rapidity of Screening for the Toxicity and Carcinogenicity of Chemicals in Medaka, Oryzias latipes|Jpn. J. Exp. Med.52(5): 243-253|1982|
62616|A||Hibiya,T., and M. Oguri|Gill Absorption and Tissue Distribution of Some Radionuclides (Cr-51, Hg-203, Zn-65 and Ag-110m. 110) in Fish|Nippon Suisan Gakkaishi (Multiple Languages)27(11): 996-1000|1961|10.2331/suisan.27.996
62617|T||Mason,L.J., D.R. Seal, and R.K. Jansson|Response of Sweetpotato Weevil (Coleoptera:  Apionidae) to Selected Insecticides|Fla. Entomol.74(2): 350-355|1991|10.2307/3495317
62618|A||Hiltibran,R.C.|Effects of Cadmium, Zinc, Manganese, and Calcium on Oxygen and Phosphate Metabolism of Bluegill Liver Mitochondria|J. Water Pollut. Control Fed.43(5): 818-823|1971|
62619|T||Massot,N., M. Llugany, C. Poschenrieder, and J. Barcelo|Callose Production as Indicator of Aluminum Toxicity in Bean Cultivars|J. Plant Nutr.22(1): 1-10|1999|10.1080/01904169909365601
62620|T||Masters,R.A.|Influence of Seeding Rate on Big Bluestem Establishment with Herbicides|Agron. J.89(6): 947-951|1997|10.2134/agronj1997.00021962008900060016x
62621|T||Mathiassen,S.K., and P. Kudsk|Influence of Broad-Leaved Weed Herbicides on the Activity of Fenoxaprop-P-Ethyl|Weed Res. (Multiple Languages)38(4): 283-289|1998|10.1046/j.1365-3180.1998.00100.x
62622|T||Matsumoto,H.|Changes of the Structure of Pea Chromatin by Aluminum|Plant Cell Physiol.29(2): 281-287|1988|
62623|T||Matsumoto,H., Y. Kashimoto, and E. Warabi|Basis for Common Chickweed (Stellaria media) Tolerance to Oxyfluorfen|Pestic. Biochem. Physiol.64(1): 47-53|1999|10.1006/pest.1999.2408
62624|T||Matsumoto,H., N. Wakiuchi, and E. Takahashi|Changes of Sugar Levels in Cucumber Leaves During Ammonium Toxicity|Physiol. Plant. (Multiple Languages)21:1210-1216|1968|10.1111/j.1399-3054.1968.tb07351.x
62625|T||Matsumura,F.|Malathion Residues on and in the Leaves of Phaseolus vulgaris|J. Econ. Entomol.53(3): 452-454|1960|10.1093/jee/53.3.452
62626|T||Matsuo,N.|Synthetic Pyrethroids Containing a C-C Triple Bond|Pestic. Sci.52(1): 21-28|1998|10.1002/(SICI)1096-9063(199801)52:1<21::AID-PS690>3.0.CO;2-D
62627|T||Matysiak,R., and J. Nalewaja|Salt and Temperature Effects on Sethoxydim Spray Deposit and Efficacy|Weed Technol.13(2): 334-340|1999|10.1017/S0890037X00041828
62628|T||Matysiak,R., and J. Nalewaja|Temperature, Adjuvants, and UV Light Affect Sethoxydim Phytotoxicity|Weed Technol.13(1): 94-99|1999|10.1017/S0890037X00044973
62629|T||Mayer,D.F.|Effects of Methyl Salicylate on Honey Bee (Apis mellifera L.) Foraging|N. Z. J. Crop Hortic. Sci.25(3): 291-294|1997|10.1080/01140671.1997.9514018
62630|T||Mayer,D.F., and J.D. Lunden|Field and Laboratory Tests of the Effects of Fipronil on Adult Female Bees of Apis mellifera, Megachile rotundata and Nomia melanderi|J. Apic. Res.38(3/4): 191-197|1999|10.1080/00218839.1999.11101009
62631|T||Mayer,D.F., G. Kovacs, and J.D. Lunden|Field and Laboratory Tests on the Effects of Cyhalothrin on Adults of Apis mellifera, Megachile rotundata and Nomia melanderi|J. Apic. Res.37(1): 33-37|1998|10.1080/00218839.1998.11100952
62632|T||Mazhoudi,S., A. Chaoui, M.H. Ghorbal, and E. El Ferjani|Response of Antioxidant Enzymes to Excess Copper in Tomato (Lycopersicon esculentum, Mill.)|Plant Sci.127(2): 129-137|1997|10.1016/S0168-9452(97)00116-7
62633|T||Mazomenos,B.E., D. Stefanou, P. Langley, and A. Pantazi-Mazomenos|Effects of Sugar-Formulated Triflumuron-Treated Targets on Reproduction in the Olive Fruit Fly Bactrocera oleae (Diptera: Tephritidae)|Bull. Entomol. Res.87(2): 169-172|1997|10.1017/S0007485300027310
62634|T||Mazzafera,P.|Growth and Biochemical Alterations in Coffee due to Selenite Toxicity|Plant Soil201(2): 189-196|1998|10.1023/A:1004328717851
62636|T||Messersmith,D.T., W.S. Curran, N.L. Hartwig, M.D. Orzolek, and G.W. Roth|Evaluation of Several Herbicides for Burcucumber (Sicyos angulatus) Control in Corn (Zea mays)|Weed Technol.13(3): 520-524|1999|10.1017/S0890037X00046133
62637|T||Miles,M., and C. Longhurst|Field and Laboratory Studies on the Effects of the Fungicide Quinoxyfen on Non-Target and Beneficial Arthropods in Cereals|Br. Crop Prot. Conf. Pests Dis.:371-376|2000|
62638|T||Million,J.B., J.E. Barrett, T.A. Nell, and D.G. Clark|Influence of Media Components on Efficacy of Paclobutrazol in Inhibiting Growth of Broccoli and Petunia|Hortscience33(5): 852-856|1998|10.21273/HORTSCI.33.5.852
62639|T||Moreby,S.J., N.W. Sotherton, and P.C. Jepson|The Effects of Pesticides on Species of Non-Target Heteroptera Inhabiting Cereal Fields in Southern England|Pestic. Sci.51(1): 39-48|1997|10.1002/(SICI)1096-9063(199709)51:1<39::AID-PS611>3.0.CO;2-3
62640|T||Morishima,H., and H.I. Oka|The Impact of Copper Pollution on Barnyard Grass Populations|Idengaku Zasshi52(5): 357-372|1977|
62641|T||Morton,C.A., R.G. Harvey, J.L. Wedberg, J.J. Kells, D.A. Landis, and W.E. Lueschen|Influence of Corn Rootworm Insecticides on the Response of Field Corn (Zea mays) to Nicosulfuron|Weed Technol.8(2): 289-295|1994|10.1017/S0890037X00038793
62642|T||Mostert,M.A., A.S. Schoeman, and M. Van der Merwe|The Toxicity of Five Insecticides to Earthworms of the Pheretima Group, Using an Artificial Soil Test|Pest Manag. Sci.56:1093-1097|2000|10.1002/1526-4998(200012)56:12<1093::AID-PS259>3.0.CO;2-6
62643|T||Moulton,J.K., D.A. Pepper, and T.J. Dennehy|Beet Armyworm (Spodoptera exigua) Resistance to Spinosad|Pest Manag. Sci.56:842-848|2000|10.1002/1526-4998(200010)56:10<842::AID-PS212>3.0.CO;2-H
62644|T||Mrozek,E.,Jr., and N.A. Funicelli|Effect of Zinc and Lead on Germination of Spartina alterniflora Loisel Seeds at Various Salinities|Environ. Exp. Bot.22(1): 23-32|1982|10.1016/0098-8472(82)90005-3
62645|T||Muda,R., and B.W. Cribb|Effect of Uneven Application of Azadirachtin on Reproductive and Anti-Feedant Behaviour of Rhyzopertha dominica (Coleoptera: Bostrichidae)|Pestic. Sci.55(10): 983-987|1999|10.1002/(SICI)1096-9063(199910)55:10<983::AID-PS50>3.0.CO;2-1
62646|T||Mueller,D.S., G.L. Hartman, and W.L. Pedersen|Development of Sclerotia and Apothecia of Sclerotinia sclerotiorum from Infected Soybean Seed and Its Control by Fungicide Seed Treatment|Plant Dis.83(12): 1113-1115|1999|10.1094/PDIS.1999.83.12.1113
62647|T||Mukherji,S., and P. Maitra|Growth and Metabolism of Germinating Rice (Oryza sativa L.) Seeds as Influenced by Toxic Concentrations of Lead|Z. Pflanzenphysiol. (Multiple Languages)81:26-33|1977|10.1016/S0044-328X(77)80034-2
62648|T||Muller,R., M. Serek, E.C. Sisler, and A.S. Andersen|Ethylene Involvement in Leaf Abscission, Chlorosis, and Rooting of Codiaeum variegatum var. pictum (Lodd.) Muell. 'Aucubaefolia'|Gartenbauwissenschaft (Multiple Languages)63(2): 66-71|1998|
62649|T||Muller,S.L., D.B. Huggett, and J.H.,Jr. Rodgers|Effects of Copper Sulfate on Typha latifolia Seed Germination and Early Seedling Growth in Aqueous and Sediment Exposures|Arch. Environ. Contam. Toxicol.40(2): 192-197|2001|10.1007/s002440010163
62650|T||Mullie,W.C., and J.O. Keith|Locusticide Impact on Birds in Northern Senegal|Proc. VIII Pan-Afr. Orn. Congr.:617-620|1993|
62651|T||Mullie,W.C., and J.O. Keith|The Effects of Aerially Applied Fenitrothion and Chlorpyrifos on Birds in the Savannah of Northern Senegal|J. Appl. Ecol.30(3): 536-550|1993|10.2307/2404193
62652|T||Murch,S.J., J.M.R. Victor, S. Krishnaraj, and P.K. Saxena|The Role of Proline in Thidiazuron-Induced Somatic Embryogenesis of Peanut|In Vitro Cell. Dev. Biol., Plant35(1): 102-105|1999|10.1007/s11627-999-0018-9
62655|T||Odum,J., and J. Ashby|Neonatal Exposure of Male Rats to Nonylphenol has no Effect on the Reproductive Tract|Toxicol. Sci.56(2): 400-404|2000|10.1093/toxsci/56.2.400
62656|T||Ouyang,D., A.F. MacKenzie, and M. Fan|Phytotoxicity of Banded Urea Amended with Triple Superphosphate and Potassium Chloride|Agron. J.90(6): 734-739|1998|10.2134/agronj1998.00021962009000060003x
62657|T||Ownby,J.D.|Mechanisms of Reaction of Hematoxylin with Aluminium-Treated Wheat Roots|Physiol. Plant. (Multiple Languages)87:371-380|1993|10.1111/j.1399-3054.1993.tb01744.x
62658|T||Paivoke,A.E.A., and L.K. Simola|Arsenate Toxicity of Pisum sativum: Mineral Nutrients, Chlorophyll Content, and Phytase Activity|Ecotoxicol. Environ. Saf.49(2): 111-121|2001|10.1006/eesa.2001.2044
62659|T||Palmer,E.W., D.R. Shaw, and J.C.,Jr. Holloway|Evaluation of Soil-Applied Herbicides in Sequential Programs with CGA-277476 in Soybean (Glycine max)|Weed Technol.13(2): 271-275|1999|10.1017/S0890037X00041725
62660|T||Panicker,S., and K. Gangadharan|Controlling Downy Mildew of Maize Caused by Peronosclerospora sorghi by Foliar Sprays of Phosphonic Acid Compounds|Crop Prot.18(2): 115-118|1999|10.1016/S0261-2194(98)00101-X
62661|T||Pap,L., P. Sarkozy, R. Farkas, E. Bleicher, and A. Szego|Efficacy of Some Pyrethroids Against a Strain of the Rabbit Ear Mite (Psoroptes cuniculi): An Unusual Cross-Resistance Pattern|Parasitol. Res.83(2): 203-205|1997|10.1007/s004360050233
62662|T||Papadopoulos,A.I., E.I. Stamkou, I. Kostaropoulos, and E. Papadopoulou-Mourkidou|Effect of Organophosphate and Pyrethroid Insecticides on the Expression of GSTs from Tenebrio molitor Larvae|Pestic. Biochem. Physiol.63(1): 26-33|1999|10.1006/pest.1998.2391
62663|T||Paya-Perez,A.B., and P. Mannone|"Toxicity of Chloroanilines to the Earthworm ""Eisenia foetida"" by Soil Tests"|Fresenius Environ. Bull.6(7-8): 410-417|1997|
62664|T||Paya-Perez,A.B., P. Mannone, and H. Skejo-Andresen|"Toxicity of Chloroanilines to the Earthworm ""Eisenia foetida"""|Fresenius Environ. Bull.4:47-52|1995|
62666|T||Payne,G.T., R.G. Blenk, and T.M. Brown|Inheritance of Permethrin Resistance in the Tobacco Budworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.81(1): 65-73|1988|10.1093/jee/81.1.65
62667|T||Pedersen,M.B., and C.A.M. Van Gestel|Toxicity of Copper to the Collembolan Folsomia fimetaria in Relation to the Age of Soil Contamination|Ecotoxicol. Environ. Saf.49(1): 54-59|2001|10.1006/eesa.2001.2043
62668|T||Peereboom-Stegeman,J.H.J.C., and E.J. Jongstra-Spaapen|The Effect of a Single Sublethal Administration of Cadmium Chloride on the Microcirculation in the Uterus of the Rat|Toxicology13:199-213|1979|10.1016/S0300-483X(79)80024-4
62669|T||Peppuy,A., A. Robert, J.P. Delbecque, J.L. Leca, C. Rouland, and C. Bordereau|Efficacy of Hexaflumuron Against the Fungus-Growing Termite Pseudacanthotermes spiniger (Sjostedt) (Isoptera, Macrotermitinae)|Pestic. Sci.54(1): 22-26|1998|10.1002/(SICI)1096-9063(199809)54:1<22::AID-PS785>3.0.CO;2-I
62670|T||Perera,A., J.R. Burleigh, and C.B. Davis|Movement and Retention of Propanil N-(3,4-Dichlorophenyl)Propanamide in a Paddy-Riverine Wetland System in Sri Lanka|Agric. Ecosyst. Environ.72(3): 255-263|1999|10.1016/S0167-8809(98)00184-4
62671|T||Perez-Farinos,G., G. Smagghe, V. Marco, L. Tirry, and P. Castanera|Effects of Topical Application of Hexaflumuron on Adult Sugar Beet Weevil, Aubeonymus mariaefranciscae, on Embryonic Development: Pharmacokinetics in Adults and Embryos|Pestic. Biochem. Physiol.61(3): 169-182|1998|10.1006/pest.1998.2356
62672|T||Perez-Mendoza,J.|Survey of Insecticide Resistance in Mexican Populations of Maize Weevil, Sitophilus zeamais Motschulsky (Coleoptera: Curculionidae)|J. Stored Prod. Res.35(1): 107-115|1999|10.1016/S0022-474X(98)00017-4
62674|A||Jackson,S., and V.M. Brown|Effect of Toxic Wastes on Treatment Processes and Watercourses|Conf.Pap.No.2C, Annu.Conf.Inst.Water Pollut.Control, Sept.16-19, 1969, Stevenage:14 p.|1969|
62678|A||James,M.O.|Disposition and Taurine Conjugation of 2,4-Dichlorophenoxyacetic Acid 2,4,5-Trichlorphenoxyacetic Acid, bis(4-Chlorophenyl)Acetic Acid, and Phenylacetic Acid in the Spiny Lobster, Panulirus argus|Drug Metab. Dispos.10:516-522|1982|
62681|A||Jardine,C.G.|Public Evaluation of Fish Tainting from Pulp and Paper Mill Discharges|Water Sci. Technol.25(2): 57-64|1992|10.2166/wst.1992.0035
62686|A||Jennett,L.E., and C.T. Driscoll|Uptake of Trace Organic Substances by Algae|Trace Subst. Environ. Health15:291-297|1981|
62687|AT||Jewell,C.S.E., and G.W. Winston|Characterization of the Microsomal Mixed-Function Oxygenase System of the Hepatopancreas and Green Gland of the Red Swamp Crayfish, Procambarus clarkii|Comp. Biochem. Physiol. B Comp. Biochem.92(2): 329-339|1989|10.1016/0305-0491(89)90287-3
62690|A||Johnson,E.M., B.E.G. Gabel, M.S. Christian, and E. Sica|The Developmental Toxicity of Xylene and Xylene Isomers in the Hydra Assay|Toxicol. Appl. Pharmacol.82:323-328|1986|10.1016/0041-008X(86)90208-5
62695|T||Piccardi,E.B., and M. Clauser|Absorption of Copper by Iris pseudacorus|Water Air Soil Pollut.19(2): 185-192|1983|10.1007/BF00211804
62697|T||Pluschkell,U., A.R. Horowitz, and I. Ishaaya|Effect of Milbemectin on the Sweetpotato Whitefly, Bemisia tabaci|Phytoparasitica27(3): 183-191|1999|10.1007/BF02981457
62698|T||Pluschkell,U., A.R. Horowitz, P.G. Weintraub, and I. Ishaaya|DPX-MP062 - a Potent Compound for Controlling the Egyptian Cotton Leafworm Spodoptera littoralis (Boisd.)|Pestic. Sci.54(2): 85-90|1998|10.1002/(SICI)1096-9063(1998100)54:2<85::AID-PS782>3.0.CO;2-I
62700|T||Ramaprasad,G., U. Sreedhar, S. Sitaramaiah, S.N. Rao, and S.V.V. Satyanarayana|Efficacy of Imidacloprid, a New Insecticide for Controlling Myzus nicotianae on Flue Cured Virginia Tobacco (Nicotiana tabacum)|Indian J. Agric. Sci.68(3): 165-167|1998|
62701|T||Reddy,G., S.A.M. Chandra, J.W. Lish, and C.W.,Jr. Qualls|Toxicity of 2,4,6-Trinitrotoluene (TNT) in Hispid Cotton Rats (Sigmodon hispidus):  Hematological, Biochemical, and Pathological Effects|Int. J. Toxicol.19(3): 169-177|2000|10.1080/10915810050074937
62702|T||Reich,P.B., and R.G. Amundson|Ambient Levels of Ozone Reduce Net Photosynthesis in Tree and Crop Species|Science230:566-570|1985|10.1126/science.230.4725.566
62703|T||Reigosa,M.J., X.C. Souto, and L. Gonzalez|Effect of Phenolic Compounds on the Germination of Six Weeds Species|Plant Growth Regul.28(2): 83-88|1999|10.1023/A:1006269716762
62704|T||Reinecke,A.J., S.A. Reinecke, and M.S. Maboeta|Cocoon Production and Viability as Endpoints in Toxicity Testing of Heavy Metals with Three Earthworm Species|Pedobiologia (Multiple Languages)45(1): 61-68|2001|10.1078/0031-4056-00068
62705|T||Robertson,J.L., and J.A. McLean|Correspondence of the LC50 for Arsenic Trioxide in a Diet-Incorporation Experiment with the Quantity of Arsenic Ingested as Measured by X-Ray, Energy-Dispersive Spectrometry|J. Econ. Entomol.78:1035-1036|1985|10.1093/jee/78.5.1035
62706|T||Rodgers,B.E., J.K. Wickliffe, C.J. Phillips, R.K. Chesser, and R.J. Baker|Experimental Exposure of Naive Bank Voles (Clethrionomys glareolus) to the Chornobyl, Ukraine, Environment:  A Test of Radioresistance|Environ. Toxicol. Chem.20(9): 1936-1941|2001|10.1002/etc.5620200911
62707|T||Rutland,R.B., and M.J. Bukovac|The Effect of Calcium Bicarbonate on Iron Absorption and Distribution by Chrysanthemum morifolium (Ram.)|Plant Soil35(2): 225-236|1971|10.1007/BF01372653
62708|T||Ryan,P.R., R.J. Reid, and F.A. Smith|Direct Evaluation of the Ca2+ -Displacement Hypothesis for Al Toxicity|Plant Physiol.113(4): 1351-1357|1997|10.1104/pp.113.4.1351
62710|T||Schier,G.A.|Response of Red Spruce and Balsam Fir Seedlings to Aluminum Toxicity in Nutrient Solutions|Can. J. For. Res.15:29-33|1985|10.1139/x85-007
62711|T||Scursoni,J., R. Benech-Arnold, and H. Hirchoren|Demography of Wild Oat in Barley Crops: Effect of Crop, Sowing Rate, and Herbicide Treatment|Agron. J.91(3): 478-485|1999|10.2134/agronj1999.00021962009100030020x
62712|T||Scursoni,J.A., and E.H. Satorre|The Effect of Trifluralin Applied Preplant on Grass Weed Control and Establishment and Yield of Barley (Hordeum vulgare)|Weed Technol.11(3): 515-519|1997|10.1017/S0890037X00045346
62713|T||Seefeldt,S.S., D.L. Hoffman, D.R. Gealy, and E.P. Fuerst|Inheritance of Diclofop Resistance in Wild Oat (Avena fatua L.) Biotypes from the Willamette Valley of Oregon|Weed Sci.46(2): 170-175|1998|10.1017/S0043174500090378
62714|T||Shibata,M., M. Wachi, M. Kawaguchi, J. Kojima, and K. Onodera|Teratogenic and Fetal Toxicity Following Intravenous Theophylline Administration in Pregnant Rabbits is Related to Maternal Drug Plasma Levels|Methods Find. Exp. Clin. Pharmacol.22(2): 101-107|2000|10.1358/mf.2000.22.2.796072
62715|T||Shiotsuki,T., F. Yukuhiro, M. Kiuchi, and E. Kuwano|Effect of 1-(4-Phenoxyphenoxypropyl)Imidazole (KS-175) on Larval Growth in the Silkworm Bombyx mori|J. Insect Physiol.45(12): 1049-1055|1999|10.1016/S0022-1910(99)00088-8
62716|T||Spalding,M.G., P.C. Frederick, H.C. McGill, S.N. Bouton, L.J. Richey, I.M. Schumacher, C.G.M. Blackmore, and J. Harriso|Histologic, Neurologic, and Immunologic Effects of Methylmercury in Captive Great Egrets|J. Wildl. Dis.36(3): 423-435|2000|10.7589/0090-3558-36.3.423
62717|T||Spurr,E.B.|Developing a Long-Life Toxic Bait and Lures for Mustelids|Sci. Conserv.127:1-24|1999|
62719|T||Sunahara,G.I., G.W. Lucier, Z. McCoy, E.H. Bresnick, E.R. Sanchez, and K.G. Nelson|Characterization of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Mediated Decreases in Dexamethasone Binding to Rat Hepatic Cytosolic Glucocorticoid Receptor|Mol. Pharmacol.36(2): 239-247|1989|
62720|T||Lee,S.E., W.S. Choi, H.S. Lee, and B.S. Park|Cross-Resistance of a Chlorpyrifos-Methyl Resistant Strain of Oryzaephilus surinamensis (Coleoptera:  Cucujidae) to Fumigant Toxicity of Essential Oil Extracted from Eucalyptus globulus and Its Major Monoterpene, 1,8-Ci|J. Stored Prod. Res.36(4): 383-389|2000|10.1016/S0022-474X(99)00059-4
62723|T||Vandecaveye,S.C., C.M. Keaton, and L.T. Kardos|Some Factors Affecting the Toxicity of Arsenical Spray Accumulations in the Soil|Proc. Wash. State Hortic. Assoc.34:150-159|1938|
62724|T||VanGessel,M.J.|Control of Perennial Weed Species as Seedlings with Soil-Applied Herbicides|Weed Technol.13(2): 425-428|1999|10.1017/S0890037X0004197X
62726|T||Walker,S.R., J.E. Barnes, V.A. Osten, J.D. Churchett, and M. McCosker|Crop Responses to Sulfonylurea Residues in Soils of the Subtropical Grain Region of Australia|Aust. J. Agric. Res.51(5): 587-596|2000|10.1071/AR99040
62727|T||Walker,S.R., G.R. Robinson, and P.A. Hargreaves|Weed Control with Atrazine and Chlorsulfuron is Determined by Herbicide Availability and Persistence in Soils|Aust. J. Agric. Res.48(7): 1003-1009|1997|10.1071/A97027
62729|T||Warington,K.|The Influence of Length of Day on the Response of Plants to Boron|Ann. Bot.47:429-457|1933|10.1093/oxfordjournals.aob.a090398
62730|T||Westwood,J.H., C.N. Yerkes, F.P. DeGennaro, and S.C. Weller|Absorption and Translocation of Glyphosate in Tolerant and Susceptible Biotypes of Field Bindweed (Convolvulus arvensis)|Weed Sci.45(5): 658-663|1997|
62731|T||Whitson,T.D., and H.P. Alley|Tebuthiuron Effects on Artemisia spp. and Associated Grasses|Weed Sci.32(2): 180-184|1984|10.1017/S0043174500058768
62732|T||Wolkowski,R.M.|Differential Cadmium-Induced Embryotoxicity in Two Inbred Mouse Strains.  I.  Analysis of Inheritance of the Response to Cadmium and of the Presence of Cadmium in Fetal and Placental Tissues|Teratology10:243-261|1974|10.1002/tera.1420100307
62733|T||Xu,J., W.M. Purcell, and D.E. Ray|Age Difference in the Metabolism of p-Bromophenylacetylurea in the Rat:  An Implication for Age-Related Susceptibility to Its Neurotoxicity|Neurotoxicology21(3): 289-293|2000|
62736|T||Ruiz,J.M., L.R. Lopez-Lefebre, E. Sanchez, R.M. Rivero, P.C. Garcia, and L. Romero|Preliminary Studies on the Influence of Boron on the Foliar Biomass and Quality of Tobacco Leaves Subjected to NO-3 Fertilisation|J. Sci. Food Agric.81:739-744|2001|10.1002/jsfa.873
62737|T||Nepomuceno,A.L., D.M. Oosterhuis, and J.M. Stewart|Physiological Responses of Cotton Leaves and Roots to Water Deficit Induced by Polyethylene Glycol|Environ. Exp. Bot.40(1): 29-41|1998|10.1016/S0098-8472(98)00018-5
62738|T||O'Connor,J.C., L.G. Davis, S.R. Frame, and J.C. Cook|Evaluation of a Tier I Screening Battery for Detecting Endocrine-Active Compounds (EACs) Using the Positive Controls Testosterone, Coumestrol, Progesterone, and RU486|Toxicol. Sci.54(2): 338-354|2000|10.1093/toxsci/54.2.338
62739|T||Ortego,F., J. Lopez-Olguin, M. Ruiz, and P. Castanera|Effects of Toxic and Deterrent Terpenoids on Digestive Protease and Detoxication Enzyme Activities of Colorado Potato Beetle Larvae|Pestic. Biochem. Physiol.63(2): 76-84|1999|10.1006/pest.1998.2386
62740|T||Shen,Z.G., F.J. Zhao, and S.P. McGrath|Uptake and Transport of Zinc in the Hyperaccumulator Thlaspi caerulescens and the Non-hyperaccumulator Thlaspi ochroleucum|Plant Cell Environ.20(7): 898-906|1997|10.1046/j.1365-3040.1997.d01-134.x
62741|T||Sparling,D.W.|Acid Precipitation and Food Quality:  Effects of Dietary Al, Ca, and P on Bone and Liver Characteristics in American Black Ducks and Mallards|Arch. Environ. Contam. Toxicol.21(2): 281-288|1991|10.1007/BF01055347
62742|T||Thomas,P.E., L.M. Reik, D.E. Ryan, and W. Levin|Regulation of Three Forms of Cytochrome P-450 and Epoxide Hydrolase in Rat Liver Microsomes:  Effects of Age, Sex, and Induction|J. Biol. Chem.256(2): 1044-1052|1981|10.1016/S0021-9258(19)70085-4
62744|T||Turner,A.S., J.S. Bale, and R.O. Clements|Effects of a Range of Pesticides on the Carabid Beetle Pterostichus melanarius (Ill.) Using a Microplot Technique|J. Appl. Entomol.109(5): 463-469|1990|10.1111/j.1439-0418.1990.tb00077.x
62745|T||Warren,L.S.,Jr., and H.D. Coble|Managing Purple Nutsedge (Cyperus rotundus) Populations Utilizing Herbicide Strategies and Crop Rotation Sequences|Weed Technol.13(3): 494-503|1999|10.1017/S0890037X00046091
62746|T||Whitten,C.J., and D.L. Bull|Comparative Toxicity, Absorption, and Metabolism of Chlorpyrifos and Its Dimethyl Homologue in Methyl Parathion-Resistant and -Susceptible Tobacco Budworms|Pestic. Biochem. Physiol.4(3): 266-274|1974|10.1016/0048-3575(74)90110-2
62747|T||Wierzbicka,M.|Lead in the Apoplast of Allium cepa L. Root Tips - Ultrastructural Studies|Plant Sci.133(1): 105-109|1998|10.1016/S0168-9452(98)00023-5
62748|T||Wiemeyer,S.N., D.R.,Jr. Clark, J.W. Spann, A.A. Belisle, and C.M. Bunck|Dicofol Residues in Eggs and Carcasses of Captive American Kestrels|Environ. Toxicol. Chem.20(12): 2848-2851|2001|10.1002/etc.5620201226
62757|A||Hassall,K.A.|A Specific Effect of Copper on the Respiration of Chlorella vulgaris|Nature193:90-|1962|10.1038/193090a0
62761|A||Henry,M.G.|The Use of Fish Behavior in Comparing Toxic Effects of Three Chemicals|EPA-600/9-86/024, U.S.EPA, Athens, GA:31-36|1984|
62762|A||Hendrich,W., Z. Kubiak, K. Jurajda, and M. Pawlaczyk-Szpilowa|Effect of Herbicides on Photosynthetic Electron Transport and on the Growth of the Alga Scenedesmus quadricauda|Acta Soc. Bot. Pol.155(1/2): 101-110|1976|10.5586/4963
62763|A||Hershner,C., K. Ward, J. Illowsky, D. Delistraty, and J. Martorana|Effects of Atrazine on Zostera marina in Chesapeake Bay, Virginia|EPA-600/3-88/050, U.S.EPA, Annapolis, MD:286 p.|1982|
62777|A||Hirakoso,S.|Inactivation of Some Insecticides by Bacteria in Mosquito Breeding Polluted Water|Jpn. J. Exp. Med.38(4): 327-334|1968|
62781|A||Hogan,J.W., and C.O. Knowles|Metabolism of Diazinon by Fish Liver Microsomes|Bull. Environ. Contam. Toxicol.8(1): 61-64|1972|10.1007/BF01684505
62782|A||Holm,H.W., H.P. Kollig, W.R.,Jr. Payne, and L.M. Proctor|Fate of Methyl Parathion in Aquatic Channel Microcosms|Environ. Toxicol. Chem.2:169-176|1983|10.1002/etc.5620020205
62785|A||Hosaka,Y., J. Hashiguchi, Y. Sakata, E.A. Banez, and B.L. Blas|An Assessment of the Molluscicidal Activity of B-2 and Some Other Chemicals Against Oncomelania quadrasi|Jpn. J. Parasitol.33(1): 55-58|1984|
62787|A||Howarth,R.W., and J.J. Cole|Molybdenum Availability, Nitrogen Limitation, and Phytoplankton Growth in Natural Waters|Science229:653-655|1985|10.1126/science.229.4714.653
62790|A||Hrudey,S.E., G.A. Sergy, and T. Thackeray|Toxicity of Oil Sands Plant Wastewaters and Associated Organic Contaminants|Water Pollut. Res. Can.11:34-45|1976|
62794|A||Hulsmann,N., W. Korohoda, and W. Stockem|Reversible Disorganization of Motile Activities in Amoeba proteus Induced by General Anaesthetics|Acta Protozool.15(2): 187-194|1976|
62799|A||Hutber,G.N., L.J. Rogers, and A.J. Smith|Influence of Pesticides on the Growth of Cyanobacteria|Z. Allg. Mikrobiol.19(6): 397-402|1979|10.1002/jobm.19790190605
62813|AT||Ison,R.R., G.T. Newbold, and D.T. Saggers|Biocidal Activities of Some Heterocyclic Organotin Sulphides|Pestic. Sci.2:152-159|1971|10.1002/ps.2780020405
62815|T||Ivy,E.E.|Pencap M:  An Improved Methyl Parathion Formulation|J. Econ. Entomol.65(2): 473-474|1972|10.1093/jee/65.2.473
62816|A||Iwamatsu,T., T. Ohta, E. Oshima, and T. Sugiura|Requirement of Extracellular Calcium Ions for the Early Fertilization Events in the Medaka Egg|Dev. Growth Differ.27(6): 751-762|1985|10.1111/j.1440-169X.1985.00751.x
62822|T||Willingham,E.|Embryonic Exposure to Low-Dose Pesticides:  Effects on Growth Rate in the Hatchling Red-Eared Slider Turtle|J. Toxicol. Environ. Health Part A64(3): 257-272|2001|10.1080/15287390152543726
62823|T||Wilson,D.S., P. Zhang, R. He, R. Ota, and S.T. Omaye|Kinetics of Selenium Incorporation into Tissues of Female Mallard Ducks|Toxicology122(1/2): 51-60|1997|10.1016/S0300-483X(97)00077-2
62824|T||Wojcik,M., and A. Tukendorf|The Effect of EDTA on Maize Seedlings Response to Cd-Induced Stress|Z. Naturforsch. Sect. C J. Biosci.54(9/10): 754-758|1999|10.1515/znc-1999-9-1022
62826|T||Wojcik,M., and A. Tukendorf|Cd - Tolerance of Maize, Rye and Wheat Seedlings|Acta Physiol. Plant.21(2): 99-107|1999|10.1007/s11738-999-0063-3
62827|AT||Wu,J., C.L. Cramer, and K.K. Hatzios|Characterization of Two cDNAs Encoding Glutathione S-Transferases in Rice and Induction of Their Transcripts by the Herbicide Safener Fenclorim|Physiol. Plant. (Multiple Languages)105(1): 102-108|1999|10.1034/j.1399-3054.1999.105116.x
62828|T||Xiong,Z.T.|Lead Accumulation and Tolerance in Brassica chinensis L. Grown in Sand and Liquid Culture|Toxicol. Environ. Chem.69:9-18|1999|10.1080/02772249909358683
62829|T||Woodham,D.W., and F.J. Bartlett|Whitefringed Beetles:  Chemical vs. Biological Tests to Determine Resistance to Dieldrin in Larvae|J. Econ. Entomol.66:283-284|1973|10.1093/jee/66.1.283
62830|T||Young,B.G., and S.E. Hart|Woolly Cupgrass Management in Sethoxydim-Resistant Corn|J. Prod. Agric.12(2): 225-228|1999|10.2134/jpa1999.0225
62831|T||Gaw,H.Z., and P.N. Soong|Nodulation and dry Weight of Garden Peas as Affected by Sulfur and Sulfates|J. Am. Soc. Agron.34:100-103|1942|10.2134/agronj1942.00021962003400010010x
62832|T||Walker,L.A., L.J. Bailey, and R.F. Shore|The Importance of the Gut and Its Contents in Prey as a Source of Cadmium to Predators|Environ. Toxicol. Chem.21(1): 76-80|2002|10.1002/etc.5620210111
62833|T||Wei,Y.D., H.G. Zheng, and J.C. Hall|Role of Auxinic Herbicide-Induced Ethylene on Hypocotyl Elongation and Root/Hypocotyl Radial Expansion|Pest Manag. Sci.56(5): 377-387|2000|10.1002/(SICI)1526-4998(200005)56:5<377::AID-PS154>3.0.CO;2-M
62834|T||Whiting,D.C., L.E. Jamieson, and P.G. Connolly|Effect of Sublethal Tebufenozide Applications on the Mortality Responses of Epiphyas postvittana (Lepidoptera:  Tortricidae) Larvae Exposed to a High-Temperature Controlled Atmosphere|J. Econ. Entomol.92(2): 444-452|1999|10.1093/jee/92.2.445
62835|T||Wille,M.J., D.C. Thill, and W.J. Price|Wild Oat (Avena fatua) Seed Production in Spring Barley (Hordeum vulgare) is Affected by the Interaction of Wild Oat Density and Herbicide Rate|Weed Sci.46(3): 336-343|1998|10.1017/S0043174500089517
62836|T||Wilson,C.E.,Jr., P.A. Counce, T.C. Keisling, and D.L. Frizzell|Differentiation Between Osmotic Injury and Chloride Toxicity of Rice Seedlings Grown Under Saline Conditions|Commun. Soil Sci. Plant Anal.30(15-16): 2101-2112|1999|10.1080/00103629909370357
62837|T||Zuniga-Gonzalez,G., O. Torres-Bugarin, M.L. Ramos-Ibarra, A. Zamora-Perez, B.C. Gomez-Meda, A.J. Ventura-Aguilar, A. Ra|Variation of Micronucleated Erythrocytes in Peripheral Blood of Sciurus aureogaster in Relation to Age:  An Increment of Micronucleated Polychromatic Erythrocytes After the Administration of Colchicine|Environ. Mol. Mutagen.37:173-177|2001|10.1002/em.1025
62838|AT||Stout,M.J., W.C. Rice, R.M. Riggio, and D.R. Ring|The Effects of Four Insecticides on the Population Dynamics of the Rice Water Weevil, Lissorhoptrus oryzophilus Kuschel|J. Entomol. Sci.35(1): 48-61|2000|10.18474/0749-8004-35.1.48
62839|T||Bennett,R.S., E.E. Klaas, J.R. Coats, and E.J. Kolbe|Fenvalerate Concentrations in the Vegetation, Insects, and Small Mammals of an Old-Field Ecosystem|Bull. Environ. Contam. Toxicol.36:785-792|1986|10.1007/BF01623584
62840|AT||Bevenue,A., J.N. Ogata, L.S. Tengan, and J.W. Hylin|Mirex Residues in Wildlife and Soils, Hawaiian Pineapple-Growing Areas - 1972-74|Pestic. Monit. J.9(3): 141-149|1975|
62842|T||Pan,J.W., M.Y. Zhu, and H. Chen|Aluminum-Induced Cell Death in Root-Tip Cells of Barley|Environ. Exp. Bot.46(1): 71-79|2001|10.1016/S0098-8472(01)00083-1
62843|T||Parizek,J., and Z. Zahor|Effect of Cadmium Salts on Testicular Tissue|Nature177:1036-1037|1956|10.1038/1771036b0
62844|T||Patil,N.S., and D.V.S. Chauhan|A Note on the Relative Efficiency of Some New Herbicides on Weeds and the Rice Crop|Indian J. Weed Sci.4(1): 64-65|1972|
62845|T||Peterson,C.A., and W.E. Rauser|Callose Deposition and Photoassimilate Export in Phaseolus vulgaris Exposed to Excess Cobalt, Nickel, and Zinc|Plant Physiol.63:1170-1174|1979|10.1104/pp.63.6.1170
62846|T||Powell,M.J., M.S. Davies, and D. Francis|The Influence of Zinc on the Cell Cycle in the Root Meristem of Zinc-Tolerant and a Non-Tolerant Cultivar of Festuca rubra L.|New Phytol.102:419-428|1986|10.1111/j.1469-8137.1986.tb00819.x
62849|T||Zhang,X., and Z. Rengel|Role of Soil pH, Ca Supply, and Banded P Fertilisers in Modulating Ammonia Toxicity to Wheat|Aust. J. Agric. Res.51(6): 691-699|2000|10.1071/AR99071
62850|T||Godo,G.H., and H.M. Reisenauer|Plant Effects on Soil Manganese Availability|Soil Sci. Soc. Am. J.44:993-995|1980|10.2136/sssaj1980.03615995004400050024x
62852|T||Ambler,J.E., J.C. Brown, and H.G. Gauch|Effect of Zinc on Translocation of Iron in Soybean Plants|Plant Physiol.46:320-323|1970|10.1104/pp.46.2.320
62855|T||Morowati,M.|Histochemical and Histopathological Study of the Intestine of the Earthworm (Pheretima elongata) Exposed to a Field Dose of the Herbicide Glyphosate|Environmentalist20(2): 105-111|2000|10.1023/A:1006704009184
62856|T||Kolesch,H., M. Oktay, and W. Hofner|Effect of Iron Chlorosis-Inducing Factors on the pH of the Cytoplasm of Sunflower (Helianthus annuus)|Plant Soil82:215-221|1984|10.1007/BF02220248
62859|T||Sverdrup,L.E., F. Ekelund, P.H. Krogh, T. Nielsen, and K. Johnsen|Soil Microbial Toxicity of Eight Polycyclic Aromatic Compounds:  Effects on Nitrification, the Genetic Diversity of Bacteria, and the Total Number of Protozoans|Environ. Toxicol. Chem.21(8): 1644-1650|2002|10.1002/etc.5620210815
62860|T||Bundy,J.G., E.M. Lenz, N.J. Bailey, C.L. Gavaghan, C. Svendsen, D. Spurgeon, P.K. Hankard, D. Osborn, J.M. Weeks, S.A. |Metabonomic Assessment of Toxicity of 4-Fluoroaniline, 3,5-Difluoroaniline and 2-Fluoro-4-Methylaniline to the Earthworm Eisenia veneta (Rosa):  Identification of New Endogenous Biomarkers|Environ. Toxicol. Chem.21(9): 1966-1972|2002|
62861|T||Quinn,M.J.,Jr., J.B.,Jr. French, F.M.A. McNabb, and M.A. Ottinger|The Effects of Polychlorinated Biphenyls (Aroclor 1242) on Thyroxine, Estradiol, Molt, and Plumage Characteristics in the American Kestrel (Falco sparverius)|Environ. Toxicol. Chem.21(7): 1417-1422|2002|10.1002/etc.5620210713
62862|T||Brasfield,S.M., L.P. Weber, L.G. Talent, and D.M. Janz|Dose-Response and Time Course Relationships for Vitellogenin Induction in Male Western Fence Lizards (Sceloporus occidentalis) Exposed to Ethinylestradiol|Environ. Toxicol. Chem.21(7): 1410-1416|2002|10.1002/etc.5620210712
62865|T||Schroeder,H.A.|Metallic Micronutrients and Intermediary Metabolism:  Final Progress Report No. 3|Contract No.DA-49-193-MD-2595, U.S.Army Med.Res.and Dev.Command, Washington, DC:18 p.|1970|
62866|T||Reiter,L.W., G.E. Anderson, J.W. Laskey, and D.F. Cahill|Developmental and Behavioral Changes in the Rat During Chronic Exposure to Lead|Environ. Health Perspect.12:119-123|1975|10.1289/ehp.7512119
62867|A||Atienzar,F.A., Z. Billinghurst, and M.H. Depledge|4-n-Nonylphenol and 17-beta Estradiol may Induce Common DNA Effects in Developing Barnacle Larvae|Environ. Pollut.120(3): 735-738|2002|10.1016/S0269-7491(02)00184-7
62868|A||Hahn,T., K. Schenk, and R. Schulz|Environmental Chemicals with Known Endocrine Potential Affect Yolk Protein Content in the Aquatic Insect Chironomus riparius|Environ. Pollut.120(3): 525-528|2002|10.1016/S0269-7491(02)00189-6
62869|A||Kim,E.J., J.W. Kim, and S.K. Lee|Inhibition of Oocyte Development in Japanese Medaka (Oryzias latipes) Exposed to Di-2-Ethylhexyl Phthalate|Environ. Int.28(5): 359-365|2002|10.1016/S0160-4120(02)00058-2
62870|A||Foran,C.M., B.N. Peterson, and W.H. Benson|Influence of Parental and Developmental Cadmium Exposure on Endocrine and Reproductive Function in Japanese Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(3): 345-354|2002|10.1016/S1532-0456(02)00128-X
62871|A||Svavarsson,J., A. Granmo, R. Ekelund, and J. Szpunar|Occurrence and Effects of Organotins on Adult Common Whelk (Buccinum undatum) (Mollusca, Gastropoda) in Harbours and in a Simulated Dredging Situation|Mar. Pollut. Bull.42(5): 370-376|2001|10.1016/S0025-326X(00)00164-8
62875|T||Foster,P.M.D., and B.S. McIntyre|Endocrine Active Agents:  Implications of Adverse and Non-Adverse Changes|Toxicol. Pathol.30(1): 59-65|2002|10.1080/01926230252824716
62876|T||Benka-Coker,M.O., and J.A. Ekundayo|Growth Responses of Aspergillus niger and Candida lipolytica to Four Heavy Metals in Oil-Minimal Salts Medium|Niger. J. Bot.7:9-14|1994|
62877|T||Berger,C.W.,Jr., and L.G. Sultatos|The Effects of the Phosphorothioate Insecticide Fenitrothion on Mammalian Cytochrome P450-Dependent Metabolism of Estradiol|Fundam. Appl. Toxicol.37(2): 150-157|1997|10.1006/faat.1997.2311
62878|T||Biolley,J.P., B. Lauga, C. Cagnon, R. Duran, J.C. Salvado, and P. Goulas|Phenolic Pattern of Bean (Phaseolus vulgaris L.) as an Indicator of Chronic Ozone Stress|Water Air Soil Pollut.106(3-4): 355-368|1998|10.1023/A:1005050805136
62879|T||Bockus,W.W., R.L. Bowden, M.M. Claassen, W.B. Gordon, W.F. Heer, and J.P. Shroyer|Time of Application and Winter Wheat Genotype Affect Production of Large Seed After Fungicide Application|Can. J. Plant Sci.77(4): 567-572|1997|10.4141/P97-038
62880|T||Miota,F., M.E. Scharf, M. Ono, P. Marcon, L.J. Meinke, R.J. Wright, L.D. Chandler, and B.D. Siegfried|Mechanisms of Methyl and Ethyl Parathion Resistance in the Western Corn Rootworm (Coleoptera: Chrysomelidae)|Pestic. Biochem. Physiol.61(1): 39-52|1998|10.1006/pest.1998.2348
62881|T||Gonzalez,A., and J.P. Lynch|Subcellular and Tissue Mn Compartmentation in Bean Leaves Under Mn Toxicity Stress|Aust. J. Plant Physiol.26(8): 811-822|1999|
62882|T||Hare,J.D., and J.G. Morse|Toxicity, Persistence, and Potency of Sabadilla Alkaloid Formulations to Citrus Thrips (Thysanoptera: Thripidae)|J. Econ. Entomol.90(2): 326-332|1997|10.1093/jee/90.2.326
62883|T||Hatton,P.J., I. Cummins, L.J. Price, D.J. Cole, and R. Edwards|Glutathione Transferases and Herbicide Detoxification in Suspension-Cultured Cells of Giant Foxtail (Setaria faberi)|Pestic. Sci.53(3): 209-216|1998|10.1002/(SICI)1096-9063(199807)53:3<209::AID-PS762>3.0.CO;2-M
62884|T||Haughton,A.J., J.R. Bell, A. Wilcox, and N.D. Boatman|The Effect of the Herbicide Glyphosate on Non-Target Spiders:  Part I.  Direct Effects on Lepthyphantes tenuis Under Laboratory Conditions|Pest Manag. Sci.57:1033-1036|2001|10.1002/ps.388
62885|T||Mohammed,K.B., and T.H. Ma|Tradescantia-Micronucleus and -Stamen Hair Mutation Assays on Genotoxicity of the Gaseous and Liquid Forms of Pesticides|Mutat. Res.426(2): 193-199|1999|10.1016/S0027-5107(99)00067-6
62886|T||Mohamed,O.S.A., N.I. Eldirdiri, M.A. Karrar, and S.E.I. Adam|Toxicity of Chlorpyrifos in Nubian Goats|Rev. Elev. Med. Vet. Pays Trop.43(4): 431-434|1990|10.19182/remvt.8745
62887|T||Million,J.B., J.E. Barrett, T.A. Nell, and D.G. Clark|Paclobutrazol Distribution Following Application to Two Media as Determined by Bioassay|Hortscience34(6): 1099-1102|1999|10.21273/HORTSCI.34.6.1099
62888|T||Minami,M., T. Endo, K. Kikuchi, E. Ihira, M. Hirafuji, N. Hamaue, Y. Monma, T. Sakurada, K. Tan-no, and K. Kisara|Antiemetic Effects of Sendide, a Peptide Tachykinin NK1 Receptor Antagonist, in the Ferret|Eur. J. Pharmacol.363(1): 49-55|1998|10.1016/S0014-2999(98)00784-5
62889|T||Minnocci,A., A. Panicucci, L. Sebastiani, G. Lorenzini, and C. Vitagliano|Physiological and Morphological Responses of Olive Plants to Ozone Exposure During a Growing Season|Tree Physiol.19(6): 391-397|1999|10.1093/treephys/19.6.391
62890|T||Mitchell,L.G., C.A. Grant, and G.J. Racz|Effect of Nitrogen Application on Concentration of Cadmium and Nutrient Ions in Soil Solution and in Durum Wheat|Can. J. Soil Sci.80(1): 107-115|2000|10.4141/S98-085
62891|T||Miyoshi,K., and T. Sato|The Effects of Ethanol on the Germination of Seeds of Japonica and Indica Rice (Oryza sativa L.) Under Anaerobic and Aerobic Conditions|Ann. Bot.79(4): 391-395|1997|10.1006/anbo.1996.0364
62893|T||Mochizuki,M.|Variations in Insecticide Susceptibility of the Predatory Mite, Amblyseius womersleyi Schicha (Acarina: Phytoseiidae), in the Tea Fields of Japan|Appl. Entomol. Zool.29(2): 203-209|1994|10.1303/aez.29.203
62894|T||Mohaghegh,J., P. De Clercq, and L. Tirry|Toxicity of Selected Insecticides to the Spined Soldier Bug, Podisus maculiventris (Heteroptera: Pentatomidae)|Biocontrol Sci. Technol.10(1): 33-40|2000|10.1080/09583150029369
62895|T||Mendoza,J., and F. Borie|Effect of Glomus etunicatum Inoculation on Aluminum, Phosphorus, Calcium, and Magnesium Uptake of Two Barley Genotypes with Different Aluminum Tolerance|Commun. Soil Sci. Plant Anal.29(5-6): 681-695|1998|10.1080/00103629809369977
62896|T||Mercier,L., I. Serre, F. Cabanne, and C. Gauvrit|Behaviour of Alkyl Oleates Following Foliar Application in Relation to Their Influence on the Penetration of Phenmedipham and Quizalofop-P-Ethyl|Weed Res. (Multiple Languages)37(4): 267-276|1997|10.1046/j.1365-3180.1997.d01-41.x
62897|T||McKinley,T.L., R.K. Roberts, R.M. Hayes, and B.C. English|Economic Comparison of Herbicides for Johnsongrass (Sorghum halepense) Control in Glyphosate-Tolerant Soybean (Glycine max)|Weed Technol.13(1): 30-36|1999|10.1017/S0890037X00044869
62898|T||Milivojevic,D.B., and B.R. Nikolic|Effects of Diquat on Pigment-Protein Complexes of Thylakoid Membranes in Soybean and Maize Plants|Biol. Plant. (Praha)41(4): 597-600|1998|10.1023/A:1001804802959
62899|T||Matsumoto,H.|Inhibition of Proton Transport Activity of Microsomal Membrane Vesicles of Barley Roots by Aluminium|Soil Sci. Plant Nutr.34(4): 499-506|1988|10.1080/00380768.1988.10416466
62900|T||Martin,P.A., D.L. Johnson, D.J. Forsyth, and B.D. Hill|Indirect Effects of the Pyrethroid Insecticide Deltamethrin on Reproductive Success of Chestnut-Collared Longspurs|Ecotoxicology7(2): 89-97|1998|10.1023/A:1008815903340
62901|T||Miller,R.R.,Jr., C.D. Heckel, W.J. Koss, S.L. Montague, and A.L. Greenman|Ethanol- and Nicotine-Induced Membrane Changes in Embryonic and Neonatal Chick Brains|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(2): 163-178|2001|10.1016/S1532-0456(01)00227-7
62902|T||Meier,M., and J. Fuhrer|Effect of Elevated CO2 on Orchard Grass and Red Clover Grown in Mixture at Two Levels of Nitrogen or Water Supply|Environ. Exp. Bot.38(3): 251-262|1997|10.1016/S0098-8472(97)00020-8
62903|T||Mengistu,L.W., G.W. Mueller-Warrant, A. Liston, and R.E. Barker|PsbA Mutation (Valine219 to Isoleucine) in Poa annua Resistant to Metribuzin and Diuron|Pest Manag. Sci.56(3): 209-217|2000|10.1002/(SICI)1526-4998(200003)56:3<209::AID-PS117>3.0.CO;2-8
62904|T||Menon,K.I., M.G. Feldwick, P.S. Noakes, and R.J. Mead|The Mode of Toxic Action of the Pesticide Gliftor:  The Metabolism of 1,3-Difluoroacetone to (-)-Erythro-Fluorocitrate|J. Biochem. Mol. Toxicol.15(1): 47-54|2001|10.1002/1099-0461(2001)15:1<47::AID-JBT6>3.0.CO;2-E
62905|T||Merakchiiska,M., H. Kavalova, and I. Yordanov|The Effect of Lead, Applied Through the Roots on the Growth of Phaseolus vulgaris|C. R. Acad. Bulg. Sci.29(12): 1819-1821|1976|
62906|T||Michaelides,P.K., and D.J. Wright|Sub-lethal Effects of Tefluthrin on Diabrotica undecimpunctata howardi, Barber: Adult Emergence Weights, Fecundity and Fertility|Crop Prot.16(5): 431-438|1997|10.1016/S0261-2194(97)00016-1
62907|T||Michaelides,P.K., A.L. Cleverly, and D.J. Wright|Sub-lethal Effects of Tefluthrin on Diabrotica undecimpunctata howardi, Barber:  Plant Protection and Larval Development|Crop Prot.16(5): 423-429|1997|10.1016/S0261-2194(97)00015-X
62908|T||Miller,C.S., and M.M. Aboul-Ela|Fate of Pentachlorophenol in Cotton|J. Agric. Food Chem.17:1244-1246|1969|10.1021/jf60166a034
62909|T||Meyer,M.P., M.K. Hausbeck, and R. Podolsky|Optimal Fungicide Management of Purple Spot of Asparagus and Impact on Yield|Plant Dis.84(5): 525-530|2000|10.1094/PDIS.2000.84.5.525
62910|T||Miller,R.J., A.B. Broce, M.W. Dryden, and J.E. Throne|Emergence, Survival, and Fecundity of Adult Cat Fleas (Siphonaptera: Pulicidae) Exposed as Pupae to Juvenile Hormone Mimics|J. Med. Entomol.36(6): 776-779|1999|10.1093/jmedent/36.6.776
62911|T||Minucci,S., G. De Rienzo, R. Di Sena, G. Cobellis, R. Meccariello, R. Pierantoni, and S. Fasano|Effects of Multiple Injections of Ethane 1,2-Dimethane Sulphonate (EDS) on the Frog, Rana esculenta, Testicular Activity|J. Exp. Zool.287:384-393|2000|10.1002/1097-010X(20001001)287:5<384::AID-JEZ6>3.0.CO;2-I
62912|T||Beran,D.D., R.A. Masters, R.E. Gaussoin, and F. Rivas-Pantoja|Establishment of Big Bluestem and Illinois Bundleflower Mixtures with Imazapic and Imazethapyr|Agron. J.92(3): 460-465|2000|10.2134/agronj2000.923460x
62914|T||Bellinder,R.R., M. Arsenovic, J.J. Kirkwyland, and R.W. Wallace|Evaluating the EPA's Comparative Product Performance Testing Guidelines for Herbicides in Snap Bean (Phaseolus vulgaris)|Weed Technol.12(2): 215-222|1998|10.1017/S0890037X00043712
62915|T||Benckiser,G., S. Santiago, H.U. Neue, I. Watanabe, and J.C.G. Ottow|Effect of Fertilization on Exudation, Dehydrogenase Activity, Iron-Reducing Populations and Fe++ Formation in the Rhizosphere of Rice (Oryza sativa L.) in Relation to Iron Toxicity|Plant Soil79:305-316|1984|10.1007/BF02184324
62916|T||Beuchat,L.R., D.H. Smith, and C.T. Young|Effect of Foliar Fungicides on Aflatoxin, Oil and Protein Content and Maturing Rate of Peanut Kernels|J. Sci. Food Agric.25:477-482|1974|10.1002/jsfa.2740250506
62917|T||Bevard,D.S., and T.L. Watschke|Seedling Creeping Bentgrass (Agrostis stolonifera) Tolerance to Dithiopyr|Weed Technol.13(2): 216-220|1999|10.1017/S0890037X00041634
62918|T||Bishop,A.L., H.J. McKenzie, I.M. Barchia, and L.J. Spohr|Efficacy of Insecticides Against the Lucerne Flea, Sminthurus viridis (L.) (Collembola: Sminthuridae), and Other Arthropods in Lucerne|Aust. J. Entomol.37:40-48|1998|10.1111/j.1440-6055.1998.00019.x
62919|T||Blackshaw,R.P., and S. O'Neill|Chlorpyrifos Compost Treatment for Vine Weevil Control:  Growth of Ornamental Plants Compared with an Aldrin Standard|J. Hortic. Sci.62(1): 67-69|1987|10.1080/14620316.1987.11515750
62920|T||Bellinder,R.R., J.J. Kirkwyland, and R.W. Wallace|Carrot (Daucus carota) and Weed Response to Linuron and Metribuzin Applied at Different Crop Stages|Weed Technol.11(2): 235-240|1997|10.1017/S0890037X00042895
62921|T||Beard,A.P., A.C. McRae, and N.C. Rawlings|Reproductive Efficiency in Mink (Mustela vison) Treated with the Pesticides Lindane, Carbofuran and Pentachlorophenol|J. Reprod. Fertil.111:21-28|1997|10.1530/jrf.0.1110021
62922|T||Bell,C.H., and N. Savvidou|The Toxicity of Vikane (Sulfuryl Fluoride) to Age Groups of Eggs of the Mediterranean Flour Moth (Ephestia kuehniella)|J. Stored Prod. Res.35(3): 233-247|1999|10.1016/S0022-474X(99)00008-9
62923|T||Berg,C., K. Halldin, and B. Brunstrom|Effects of Bisphenol A and Tetrabromobisphenol A on Sex Organ Development in Quail and Chicken Embryos|Environ. Toxicol. Chem.20(12): 2836-2840|2001|10.1002/etc.5620201224
62924|T||McIlrath,W.J.|Response of the Cotton Plant to Maleic Hydrazide|Am. J. Bot.37(10): 816-819|1950|10.1002/j.1537-2197.1950.tb11074.x
62925|T||McLeod,K.W., and T.G. Ciravolo|Boron Tolerance and Potential Boron Removal by Bottomland Tree Seedlings|Wetlands18(3): 431-436|1998|10.1007/BF03161535
62926|T||McQuattie,C.J., and G.A. Schier|Response of Sugar Maple (Acer saccharum) Seedlings to Manganese|Can. J. For. Res.30(3): 456-467|2000|10.1139/x99-229
62927|T||Hull,M.R., and A.H. Cobb|An Investigation of Herbicide Interaction with the H+-ATPase Activity of Plant Plasma Membranes|Pestic. Sci.53(2): 155-164|1998|10.1002/(SICI)1096-9063(199806)53:2<155::AID-PS759>3.0.CO;2-X
62928|T||Matsuoka,A., H. Sakamoto, S. Tadokoro, A. Tada, Y. Terao, H. Nukaya, and K. Wakabayashi|The 2-Phenylbenzotriazole-Type Water Pollutant PBTA-2 has Cytochalasin B-Mimetic Activity|Mutat. Res.464(2): 161-167|2000|10.1016/S1383-5718(99)00196-5
62929|T||Dieter,M.P.|Report on the Toxicity Studies of Antimony Potassium Tartrate in F344/N Rats and B6C3F1 Mice (Drinking Water and Intraperitoneal Injection Studies)|NIH Publ.No.92-3130, Natl.Toxicol.Prog., Research Triangle Park, NC:64 p.|1992|
62935|T||Matthies,A., and H. Buchenauer|Effect of Tebuconazole (Folicur) and Prochloraz (Sportak) Treatments on Fusarium Head Scab Development, Yield and Deoxynivalenol (DON) Content in Grains of Wheat Following Artificial Inoculation with Fusarium culmorum|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)107(1): 33-52|2000|
62937|T||Takeyoshi,M., S. Anai, and K. Shinoda|Changes in Serum alpha2u-Globulin Levels in Male Rats Given Diethylstilbestrol and Applicability to a Screening Test for Endocrine-Disrupting Chemicals|Arch. Toxicol.74(1): 48-53|2000|10.1007/s002040050651
62939|T||You,L., M. Casanova, E.J. Bartolucci, M.W. Fryczynski, D.C. Dorman, J.I. Everitt, K.W. Gaido, S.M. Ross, and H. Heck|Combined Effects of Dietary Phytoestrogen and Synthetic Endocrine-Active Compound on Reproductive Development in Sprague-Dawley Rats:  Genistein and Methoxychlor|Toxicol. Sci.66(1): 91-104|2002|10.1093/toxsci/66.1.91
62940|T||Bermudez,A.J., and J.D. Firman|Effects of Biogenic Amines in Broiler Chickens|Avian Dis.42(1): 199-203|1998|10.2307/1592597
62941|T||Beskid,J.C.|Effects of Treflan on Embryonic Development of Bobwhite Quail|M.S.Thesis, Frostburg State Univ., Frostburg, MD:42 p.|1988|
62943|T||Minucci,S., I.I. Vitiello, C. Marmorino, L. Di Matteo, and G.C. Baccari|Mast Cell-Leydig Cell Relationships in the Testis of the Lizard Podarcis s. sicula Raf:  Thermal Manipulation, Ethane 1,2-Dimethane Sulphonate (EDS) and Sex Hormone Treatment|Zygote3:259-264|1995|10.1017/S0967199400002653
62944|T||Miller,F., and S. Uetz|Evaluating Biorational Pesticides for Controlling Arthropod Pests and Their Phytotoxic Effects on Greenhouse Crops|HortTechnology8(2): 185-192|1998|10.21273/HORTTECH.8.2.185
62945|T||Mengel,K., R. Planker, and B. Hoffmann|Relationship Between Leaf Apoplast pH and Iron Chlorosis of Sunflower (Helianthus annuus L.)|J. Plant Nutr.17(6): 1053-1065|1994|10.1080/01904169409364787
62947|T||Punshon,T., and N.M. Dickinson|Acclimation of Salix to Metal Stress|New Phytol.137(2): 303-314|1997|10.1046/j.1469-8137.1997.00802.x
62950|T||Marrs,R.H., and A.J. Frost|A Microcosm Approach to the Detection of the Effects of Herbicide Spray Drift in Plant Communities|J. Environ. Manag.50(4): 369-388|1997|10.1006/jema.1996.9984
62952|A||Pickford,D.B., and I.D. Morris|Effects of Endocrine-Disrupting Contaminants on Amphibian Oogenesis: Methoxychlor Inhibits Progesterone-Induced Maturation of Xenopus laevis Oocytes In Vitro|Environ. Health Perspect.107(4): 285-292|1999|10.1289/ehp.99107285
62954|T||Inui,H., N. Shiota, T. Ishige, Y. Ohkawa, and H. Ohkawa|Herbicide Metabolism and Resistance of Transgenic Potato Plants Expressing Rat Cytochrome P4501A1|Breed. Sci.48(2): 135-143|1998|
62959|T||Matsumoto,H., and T. Yamaya|Inhibition of Potassium Uptake and Regulation of Membrane-Associated Mg2+-ATPase Activity of Pea Roots by Aluminium|Soil Sci. Plant Nutr.32(2): 179-188|1986|10.1080/00380768.1986.10557495
62961|T||Pavlik,M., and O.M. Jandurova|Fungicides Cytotoxicity Expressed in Male Gametophyte Development in Brassica campestris After In Vitro Application of Converted Field Doses|Environ. Exp. Bot.44(1): 49-58|2000|10.1016/S0098-8472(00)00053-8
62963|A||Hunter,R.S., and F.D. Culver|QSAR Sysytem User Manual. A Structure-Activity Based Chemical Modeling and Information System|Institute for Biological and Chemical Process Analysis, Montana State University, Bozeman, MT:I1 - R5|1988|
62964|T||Shaw,D.R., and J.C. Arnold|Weed Control from Herbicide Combinations with Glyphosate|Weed Technol.16(1): 1-6|2002|10.1614/0890-037X(2002)016[0001:WCFHCW]2.0.CO;2
62965|T||Norsworthy,J.K., and L.R. Oliver|Effect of Irrigation, Soybean (Glycine max) Density, and Glyphosate on Hemp Sesbania (Sesbania exaltata) and Pitted Morningglory (Ipomoea lacunosa) Interference in Soybean|Weed Technol.16:7-17|2002|10.1614/0890-037X(2002)016[0007:EOISGM]2.0.CO;2
62966|T||Butler,T.J., J.F. Stritzke, L.A. Redmon, and C.L. Goad|Broomsedge (Andropogon virginicus) Response to Herbicides and Burning|Weed Technol.16:18-22|2002|10.1614/0890-037X(2002)016[0018:BAVRTH]2.0.CO;2
62967|T||Boydston,R.A., and S.F. Vaughn|Alternative Weed Management Systems Control Weeds in Potato (Solanum tuberosum)|Weed Technol.16:23-28|2002|10.1614/0890-037X(2002)016[0023:AWMSCW]2.0.CO;2
62968|T||Price,A.J., and J.W. Wilcut|Weed Management with Diclosulam in Strip-Tillage Peanut (Arachis hypogaea)|Weed Technol.16:29-36|2002|10.1614/0890-037X(2002)016[0029:WMWDIS]2.0.CO;2
62969|T||Kolberg,R.L., and L.J. Wiles|Effect of Steam Application on Cropland Weeds|Weed Technol.16:43-49|2002|10.1614/0890-037X(2002)016[0043:EOSAOC]2.0.CO;2
62970|T||Nandula,V.K., and F.A. Manthey|Response of Kochia (Kochia scoparia) Inbreds to 2,4-D and Dicamba|Weed Technol.16:50-54|2002|10.1614/0890-037X(2002)016[0050:ROKKSI]2.0.CO;2
62971|T||Li,Z., V.K. Nandula, and C.G. Messersmith|Seedling Bioassay to Assess Hard Red Spring Wheat (Triticum aestivum) Tolerance to Difenzoquat|Weed Technol.16:60-65|2002|10.1614/0890-037X(2002)016[0060:SBTAHR]2.0.CO;2
62972|T||Wilson,R.G., C.D. Yonts, and J.A. Smith|Influence of Glyphosate and Glufosinate on Weed Control and Sugarbeet (Beta vulgaris) Yield in Herbicide-Tolerant Sugarbeet|Weed Technol.16:66-73|2002|10.1614/0890-037X(2002)016[0066:IOGAGO]2.0.CO;2
62973|T||Singh,M., S. Tan, and S.D. Sharma|Adjuvants Enhance Weed Control Efficacy of Foliar-Applied Diuron|Weed Technol.16:74-78|2002|10.1614/0890-037X(2002)016[0074:AEWCEO]2.0.CO;2
62974|T||Green,J.M.|Weed Specificity of Alcohol Ethoxylate Surfactants Applied with Rimsulfuron|Weed Technol.16:79-83|2002|10.1614/0890-037X(2002)016[0079:WSOAES]2.0.CO;2
62975|T||Lawson,R.N., J.B. Unruh, and B.J. Brecke|Lawn Burweed (Soliva pterosperma) Control in Hybrid Bermudagrass (Cynodon dactylon X C.transvaalensis) and Common Centipedegrass (Eremochloa ophiuroides)|Weed Technol.16:84-87|2002|10.1614/0890-037X(2002)016[0084:LBSPCI]2.0.CO;2
62976|T||Viator,B.J., J.L. Griffin, and E.P.,Jr. Richard|Evaluation of Red Morningglory (Ipomoea coccinea) for Potential Atrazine Resistance|Weed Technol.16:96-101|2002|10.1614/0890-037X(2002)016[0096:EORMIC]2.0.CO;2
62977|T||Wilson,R.G., and J.A. Smith|Influence of Harvest-Aid Herbicides on Dry Bean (Phaseolus vulgaris) Desiccation, Seed Yield, and Quality|Weed Technol.16:109-115|2002|10.1614/0890-037X(2002)016[0109:IOHAHO]2.0.CO;2
62978|T||Chhokar,R.S., and R.K. Malik|Isoproturon-Resistant Littleseed Canarygrass (Phalaris minor) and Its Response to Alternate Herbicides|Weed Technol.16:116-123|2002|10.1614/0890-037X(2002)016[0116:IRLCPM]2.0.CO;2
62979|T||Clayton,G.W., K.N. Harker, J.T. O'Donovan, M.N. Baig, and M.J. Kidnie|Glyphosate Timing and Tillage System Effects on Glyphosate-Resistant Canola (Brassica napus)|Weed Technol.16:124-130|2002|10.1614/0890-037X(2002)016[0124:GTATSE]2.0.CO;2
62980|T||Buehring,N.W., G.R.W. Nice, and D.R. Shaw|Sicklepod (Senna obtusifolia) Control and Soybean (Glycine max) Response to Soybean Row Spacing and Population in Three Weed Management Systems|Weed Technol.16:131-141|2002|10.1614/0890-037X(2002)016[0131:SSOCAS]2.0.CO;2
62981|T||Viator,B.J., J.L. Griffin, and J.M. Ellis|Red Morningglory (Ipomoea coccinea) Control with Sulfentrazone and Azafeniden Applied at Layby in Sugarcane (Saccharum spp.)|Weed Technol.16:142-148|2002|10.1614/0890-037X(2002)016[0142:RMICCW]2.0.CO;2
62982|T||Ramsdale,B.K., and C.G. Messersmith|Low-Rate Split-Applied Herbicide Treatments for Wild Oat (Avena fatua) Control in Wheat (Triticum aestivum)|Weed Technol.16:149-155|2002|10.1614/0890-037X(2002)016[0149:LRSAHT]2.0.CO;2
62983|T||Bradley,K.W., and E.S.,Jr. Hagood|Evaluations of Selected Herbicides and Rates for Long-Term Mugwort (Artemisia vulgaris) Control|Weed Technol.16:164-170|2002|10.1614/0890-037X(2002)016[0164:EOSHAR]2.0.CO;2
62984|T||Porterfield,D., J.W. Wilcut, S.B. Clewis, and K.L. Edmisten|Weed-Free Yield Response of Seven Cotton (Gossypium hirsutum) Cultivars to CGA-362622 Postemergence|Weed Technol.16:180-183|2002|10.1614/0890-037X(2002)016[0180:WFYROS]2.0.CO;2
62985|T||Askew,S.D., J.W. Wilcut, and J.R. Cranmer|Cotton (Gossypium hirsutum) and Weed Response to Flumioxazin Applied Preplant and Postemergence Directed|Weed Technol.16:184-190|2002|10.1614/0890-037X(2002)016[0184:CGHAWR]2.0.CO;2
62986|A||Shearer,J.F., and L.S. Nelson|Integrated Use of Endothall and a Fungal Pathogen for Management of the Submersed Aquatic Macrophyte Hydrilla verticillata|Weed Technol.16:224-230|2002|10.1614/0890-037X(2002)016[0224:IUOEAA]2.0.CO;2
62987|T||Evers,G.W.|Herbicides for Desiccating Dallisgrass (Paspalum dilatatum) - Bermudagrass (Cynodon dactylon) Pasture Sod Prior to Overseeding with Annual Ryegrass, (Lolium multiflorum)|Weed Technol.16:235-238|2002|10.1614/0890-037X(2002)016[0235:HFDDPD]2.0.CO;2
62988|T||Baird,G.J., G.L. Caldow, I.S. Peek, and D.A. Grant|Monensin Toxicity in a Flock of Ostriches|Vet. Rec.140(24): 624-626|1997|10.1136/vr.140.24.624
62989|T||Stadnik,M.J., and H. Buchenauer|Control of Wheat Diseases by a Benzothiadiazole-Derivative and Modern Fungicides (Zur Bekampfung Pilzlicher Krankheiten an Weizen durch ein Benzothiadiazol-Derivat und Moderne Fungizide)|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)106(5): 466-475|1999|
62990|T||Tibbitts,T.W., and B. Peterson|Toxicity of Ethylene Glycol Vapors to Cucumbers|Hortscience34(2): 221-222|1999|10.21273/HORTSCI.34.2.221
62991|T||Gunthardt-Goerg,M.S., and C.J. McQuattie|Betula pendula:  Response to Ozone in Leaf, Stem, and Root Cells|In: I.Tsekos and M.Moustakas (Eds.), Proc.1st Balkan Botanical Congress on the Progress in Botanical Research, Kluwer Acad.Publ., Dordrecht, Netherlands:427-430|1998|
62993|T||Willingham,E., and D. Crews|Sex Reversal Effects of Environmentally Relevant Xenobiotic Concentrations on the Red-Eared Slider Turtle, a Species with Temperature-Dependent Sex Determination|Gen. Comp. Endocrinol.113(3): 429-435|1999|10.1006/gcen.1998.7221
62994|T||Williams,P.L., and D.B. Dusenbery|Using the Nematode Caenorhabditis elegans to Predict Mammalian Acute Lethality to Metallic Salts|Toxicol. Ind. Health4(4): 469-478|1988|10.1177/074823378800400406
62995|T||Worthington,R.E., and D.H. Smith|Modification of Peanut Oil Fatty Acid Composition by Foliar Applications of 2',2'-Dimethylsuccinohydrazide (Kylar)|J. Agric. Food Chem.22(3): 507-508|1974|10.1021/jf60193a056
62996|T||Sheppard,D.C., and J.A. Joyce|Increased Susceptibility of Pyrethroid-Resistant Horn Flies (Diptera: Muscidae) to Chlorfenapyr|J. Econ. Entomol.91(2): 398-400|1998|10.1093/jee/91.2.398
62997|T||Nauen,R., U. Ebbinghaus-Kintscher, and R. Schmuck|Toxicity and Nicotinic Acetylcholine Receptor Interaction of Imidacloprid and Its Metabolites in Apis mellifera (Hymenoptera: Apidae)|Pest Manag. Sci.57:577-586|2001|10.1002/ps.331
62998|T||Migula,P., E. Glowacka, S.L. Nuorteva, P. Nuorteva, and E. Tulisalo|Time-Related Effects of Intoxication with Cadmium and Mercury in the Red Wood Ant|Ecotoxicology6(6): 307-320|1997|10.1023/A:1018691130657
63001|T||Lopez-Olguin,J., M.C. De la Torre, F. Ortego, P. Castanera, and B. Rodriguez|Structure-Activity Relationships of Natural and Synthetic Neo-clerodane Diterpenes from Teucrium Against Colorado Potato Beetle Larvae|Phytochemistry50(5): 749-753|1999|10.1016/S0031-9422(98)00642-6
63002|T||Lorini,I., and D.J. Galley|Deltamethrin Resistance in Rhyzopertha dominica (F.) (Coleoptera: Bostrichidae), a Pest of Stored Grain in Brazil|J. Stored Prod. Res.35(1): 37-45|1999|10.1016/S0022-474X(98)00028-9
63003|T||Lorini,I., and D.J. Galley|Relative Effectiveness of Topical, Filter Paper and Grain Applications of Deltamethrin, and Associated Behaviour of Rhyzopertha dominica (F.) Strains|J. Stored Prod. Res.34(4): 377-383|1998|10.1016/S0022-474X(98)00023-X
63004|T||Lundkvist,A.|Influence of Weather on the Efficacy of Dichlorprop-P/MCPA and Tribenuron-Methyl|Weed Res. (Multiple Languages)37(5): 361-371|1997|10.1046/j.1365-3180.1997.d01-58.x
63005|T||Lundkvist,A.|Predicting Optimal Application Time for Herbicides from Estimated Growth Rate of Weeds|Agric. Syst.54(2): 223-242|1997|10.1016/S0308-521X(96)00086-8
63006|T||Luo,A., G. Jing, P. Wu, J. Ni, S. Jiang, and Y. Zhang|Rice Genotype Differences in Nutrient Status Under Excessive Ferric-Iron Conditions|J. Plant Nutr.20(10): 1361-1373|1997|10.1080/01904169709365340
63007|T||Hofmeyr,J.H., and K.L. Pringle|Resistance of False Codling Moth, Cryptophlebia leucotreta (Meyrick) (Lepidoptera: Tortricidae), to the Chitin Synthesis Inhibitor, Triflumuron|Afr. Entomol.6(2): 373-375|1998|
63008|T||Loera-Gallardo,J., D.A. Wolfenbarger, and D.G. Riley|Insecticidal Mixture Interactions Against B-Strain Sweetpotato Whitefly (Homoptera:  Aleyrodidae)|J. Entomol. Sci.33(4): 407-411|1998|10.18474/0749-8004-33.4.407
63010|T||Meier,M., M. Saurer, C. Haldemann, and J. Fuhrer|Effect of Elevated CO2 on the Carbon Balance of a Grass-Clover Mixture|Acta Ecol. (Kota)18(3): 313-317|1997|10.1016/S1146-609X(97)80020-3
63011|T||Mead,R.J., M.G. Feldwick, and J.T. Bunn|1,3-Difluoro-2-Propanol: A Potential Replacement for 1080 in Fauna Management Programs in Australia|Wildl. Res.18:27-37|1991|10.1071/WR9910027
63012|T||Locke,L.N., N.J. Chura, and P.A. Stewart|Spermatogenesis in Bald Eagles Experimentally Fed a Diet Containing DDT|Condor68:497-502|1966|10.2307/1365322
63013|T||Litterick,A.M., and M.P. McQuilken|Chemical Control of Binucleate Rhizoctonia During Propagation of Calluna vulgaris in Scotland|Crop Prot.16(2): 173-178|1997|10.1016/S0261-2194(96)00072-5
63014|T||Mohan Ram,H.Y., and P.N. Rustagi|Increase in Yield of Wheat (Triticum aestivum L. Variety 'N.P. 718') Treated with Mendok|Agron. J.61:198-201|1969|10.2134/agronj1969.00021962006100020008x
63015|T||Blackshaw,R.E., and W.M. Hamman|Control of Downy Brome (Bromus tectorum) in Winter Wheat (Triticum aestivum) with MON 37500|Weed Technol.12(3): 421-425|1998|10.1017/S0890037X00044080
63016|T||Bjornlund,L., F. Ekelund, S. Christensen, C.S. Jacobsen, P.H. Krogh, and K. Johnsen|Interactions Between Saprotrophic Fungi, Bacteria and Protozoa on Decomposing Wheat Roots in Soil Influenced by the Fungicide Fenpropimorph (Corbel): A Field Study|Soil Biol. Biochem.32(7): 967-975|2000|10.1016/S0038-0717(00)00005-5
63017|T||Megharaj,M., H.L. Boul, and J.H. Thiele|Effects of DDT and Its Metabolites on Soil Algae and Enzymatic Activity|Biol. Fertil. Soils29(2): 130-134|1999|10.1007/s003740050534
63018|T||Green,D.E., L.L. Burpee, and K.L. Stevenson|Integrated Effects of Host Resistance and Fungicide Concentration on the Progress of Rhizoctonia Blight in Tall Fescue Turf|Crop Prot.18(2): 131-138|1999|10.1016/S0261-2194(98)00107-0
63021|T||Meier,J.R., P. Wernsing, and J. Torsella|Feasibility of Micronucleus Methods for Monitoring Genetic Damage in Two Feral Species of Small Mammals|Environ. Mol. Mutagen.33(3): 219-225|1999|10.1002/(SICI)1098-2280(1999)33:3<219::AID-EM6>3.0.CO;2-X
63022|T||Blamey,F.P.C., D.M. Wheeler, R.A. Christie, and D.C. Edmeades|Variation in Aluminum Tolerance Among and Within Lotus Lines|J. Plant Nutr.13(6): 745-755|1990|10.1080/01904169009364113
63023|T||Blackshaw,R.E., G. Semach, and T. Entz|Postemergence Control of Foxtail Barley (Hordeum jubatum) Seedlings in Spring Wheat (Triticum aestivum) and Flax (Linum usitatissimum)|Weed Technol.12(4): 610-616|1998|10.1017/S0890037X00044456
63025|T||Harrison,H.F., and J.K. Peterson|Effect of Temperature and Cultivar on the Response of Broccoli and Collard (Brassica oleracea) to Oxyfluorfen|Weed Technol.13(4): 726-730|1999|10.1017/S0890037X00042135
63026|T||Hart,S.E.|Interacting Effects of MON 12000 and CGA-152005 with Other Herbicides in Velvetleaf (Abutilon theophrasti)|Weed Sci.45(3): 434-438|1997|10.1017/S0043174500093127
63027|T||Hassan,E.|Insecticidal Toxicity of Neem Seed Kernel Extract (NSKE) on Bactrocera tryoni (Frogg.) (Diptera:  Tephritidae) and Repellency on Persimmon Fruit (Insektizide Toxizitat von Niemsamenextrakten (NSKE) Gegenuber Bacterocera|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)105(4): 411-416|1998|
63028|T||Hassan,S.A., B. Hafes, P.E. Degrande, and K. Herai|The Side-Effects of Pesticides on the Egg Parasitoid Trichogramma cacoeciae Marchal (Hym., Trichogrammatidae), Acute Dose-Response and Persistence Tests|J. Appl. Entomol.122(9/10): 569-573|1998|10.1111/j.1439-0418.1998.tb01547.x
63029|T||Haubruge,E., L. Arnaud, and J. Mignon|The Impact of Sperm Precedence in Malathion Resistance Transmission in Populations of the Red Flour Beetle Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae)|J. Stored Prod. Res.33(2): 143-146|1997|10.1016/S0022-474X(96)00045-8
63030|T||Monks,C.D., M.G. Patterson, J.W. Wilcut, and D.P. Delaney|Effect of Pyrithiobac, MSMA, and DSMA on Cotton (Gossypium hirsutum L.) Growth and Weed Control|Weed Technol.13(1): 6-11|1999|10.1017/S0890037X00044821
63031|T||Monks,C.D., W.K. Vencill, J.P. Hatton, M.L. McFarland, and D.P. Delaney|Johnsongrass Response to Postemergence Herbicides Applied the Previous Year|J. Prod. Agric.11(4): 507-509|1998|10.2134/jpa1998.0507
63033|T||Blenis,P.V., L.B. Nadeau, N.R. Knowles, and G. Logue|Evaluation of Fungicides and Surfactants for Control of Fairy Rings Caused by Marasmius oreades (Bolt ex. Fr.) Fr.|Hortscience32(6): 1077-1084|1997|10.21273/HORTSCI.32.6.1077
63034|T||Block,E.K., T.E.,Jr. Lacher, and R.J. Kendall|Effects of the Organophosphate Pesticide Counter on Laboratory Deer Mice (Peromyscus maniculatus)|Environ. Toxicol. Chem.12:377-383|1993|10.1002/etc.5620120217
63036|T||Bodlaender,K.B.A., and S. Algra|Influence of the Growth Retardant B 995 on Growth and Yield of Potatoes|Potato Res.9(4): 242-259|1966|10.1007/BF02364682
63037|T||Boggess,S.F., S. Willavize, and D.E. Koeppe|Differential Response of Soybean Varieties to Soil Cadmium|Agron. J.70:756-760|1978|10.2134/agronj1978.00021962007000050015x
63038|T||Bittencourt,S.R.M., and R.D. Vieira|Use of Reduced Concentrations of Tetrazolium Solutions for the Evaluation of the Viability of Peanut Seed Lots|Seed Sci. Technol.25(1): 75-82|1996|
63039|T||Bokhari,U.G., V.B. Youngner, and R.E. Young|The Effect of (2-Chloroethyl) Trimethyl Ammoniumchloride (CCC) and Gibberellic Acid (GA) on Ribonucleic Acid and Protein Concentration of Wheat Plants|Crop Sci.13:402-405|1973|10.2135/cropsci1973.0011183X001300040002x
63041|T||Heitz,T., D.R. Bergey, and C.A. Ryan|A Gene Encoding a Chloroplast-Targeted Lipoxygenase in Tomato Leaves is Transiently Induced by Wounding, Systemin, and Methyl Jasmonate|Plant Physiol.114(3): 1085-1093|1997|10.1104/pp.114.3.1085
63042|A||Carr,R.S., E.R. Long, H.L. Windom, D.C. Chapman, G. Thursby, G.M. Sloane, and D.A. Wolfe|Sediment Quality Assessment Studies of Tampa Bay, Florida|Environ. Toxicol. Chem.15(7): 1218-1231|1996|10.1002/etc.5620150730
63043|T||Hutchinson,C.M., M.E. McGiffen, H.D. Ohr, J.J. Sims, and J.O. Becker|Efficacy of Methyl Iodide Soil Fumigation for Control of Meloidogyne incognita, Tylenchulus semipenetrans and Heterodera schachtii|Nematology1(4): 407-414|1999|10.1163/156854199508414
63044|T||Hutchinson,C.M., M.E.,Jr. McGiffen, H.D. Ohr, J.J. Sims, and J.O. Becker|Evaluation of Methyl Iodide as a Soil Fumigant for Root-Knot Nematode Control in Carrot Production|Plant Dis.83(1): 33-36|1998|10.1094/PDIS.1999.83.1.33
63045|T||Henner,P., M. Schiavon, V. Druelle, and E. Lichtfouse|Phytotoxicity of Ancient Gaswork Soils.  Effect of Polycyclic Aromatic Hydrocarbons (PAHs) on Plant Germination|Org. Geochem.30(8): 963-969|1999|10.1016/S0146-6380(99)00080-7
63046|T||Hensel,G., G. Kunze, and I. Kunze|Expression of the Tobacco Gene CBP20 in Response to Developmental Stage, Wounding, Salicylic Acid and Heavy Metals|Plant Sci.148(2): 165-174|1999|10.1016/S0168-9452(99)00134-X
63047|T||Lederer,B., O.C. Knorzer, and P. Boger|Differential Gene Expression in Plants Stressed by the Peroxidizing Herbicide Oxyfluorfen|Z. Naturforsch. Sect. C J. Biosci.54(9/10): 764-770|1999|10.1515/znc-1999-9-1024
63048|T||Eng,R.L.|A Two-Summer Study of the Effects on Bird Populations of Chlordane Bait and Aldrin Spray as Used for Grasshopper Control|J. Wildl. Manag.16(3): 326-337|1952|10.2307/3796647
63049|T||Pogoda,M.K., D.J. Pree, and D.B. Marshall|Effects of Encapsulation on the Toxicity of Insecticides to the Oriental Fruit Moth (Lepidoptera: Tortricidae) and the Predator Typhlodromus pyri (Acari: Phytoseiidae)|Can. Entomol.133:819-826|2001|10.4039/Ent133819-6
63050|T||Ries,S.K., R.P. Larsen, and A.L. Kenworthy|The Apparent Influence of Simazine on Nitrogen Nutrition of Peach and Apple Trees|Weeds (Urbana)11:270-273|1963|10.2307/4040528
63051|T||Sharma,A.K., T.R. Bandre, T. Srinivasu, and N. Chandra|Deleterious Effects of Detergent on Plants|Environ. Ecol.3(3): 444-445|1985|
63052|T||Sardeshpande,J.S., J.H. Kulkarni, and D.J. Bagyaraj|Influence of Fungicidal Seed Treatment on the Nodulation of Groundnut Inoculated with Rhizobium|Pesticides 7:11-12|1973|
63053|T||Sinha,S.K., and M.C. Ghildiyal|Increase in Yield of Bengal Gram (Cicer arietinum L.) by 2,3,5-Triiodobenzoic Acid|Crop Sci.13:283-|1973|10.2135/cropsci1973.0011183X001300020041x
63054|T||Takkar,P.N., M.S. Mann, and N.S. Randhawa|Effect of Direct and Residual Available Zinc on Yield, Zinc Concentration and Its Uptake by Wheat and Groundnut Crops|J. Indian Soc. Soil Sci.23(1): 91-95|1975|
63055|T||Shufran,R.A., G.E. Wilde, and P.E. Sloderbeck|Response of Three Greenbug (Homoptera:  Aphididae) Strains to Five Organophosphorous and Two Carbamate Insecticides|J. Econ. Entomol.90(2): 283-286|1997|10.1093/jee/90.2.283
63056|T||O'Sullivan,J., R.J. Thomas, and W.J. Bouw|Tolerance of Sweet Corn (Zea mays) Cultivars to Rimsulfuron|Weed Technol.12(2): 258-261|1998|10.1017/S0890037X00043785
63057|T||Valles,S.M.|Stage-Dependent Bendiocarb Tolerance in the German Cockroach (Dictyoptera: Blattellidae)|J. Entomol. Sci.33(3): 313-315|1998|10.18474/0749-8004-33.3.313
63058|T||Valles,S.M., S.J. Yu, and P.G. Koehler|Biochemical Mechanisms Responsible for Stage-Dependent Propoxur Tolerance in the German Cockroach|Pestic. Biochem. Physiol.54:172-180|1996|10.1006/pest.1996.0021
63059|T||Prabhaker,N., N.C. Toscano, and T.J. Henneberry|Comparison of Neem, Urea, and Amitraz as Oviposition Suppressants and Larvicides Against Bemisia argentifolii (Homoptera:  Aleyrodidae)|J. Econ. Entomol.92(1): 40-46|1999|10.1093/jee/92.1.40
63060|T||Pradhan,S., and P. Sarup|Relative Toxicity of Insecticidal Films to Adults of Trogoderma granarium Everts., Oryzaephilus surinamensis Linn. & Laemophloeus minutus Oliv.|J. Sci. Ind. Res.19C(6): 135-139|1960|
63061|T||Pradhan,S., M.G. Jotwani, and P. Sarup|Bio-Assay of Insecticides. Comparative Toxicity of Some Important Insecticides to the Adults of Citrus Psylla, Diaphorina citri Kuwana. (Psyllidae: Homoptera), a Pest of Citrus|Indian J. Hortic.16(4): 252-254|1959|
63062|T||Pfahler,P.L., H.F. Linskens, H.W. Schoot, and M. Wilcox|Surfactant Effects on Petunia Pollen Germination In Vitro|Bull. Environ. Contam. Toxicol.26(4): 567-570|1981|10.1007/BF01622138
63063|T||Nemec,V., B. Bennettova, R. Tykva, Z. Wimmer, and M. Rejzek|Distribution and Excretion of Juvenoid in the Locust Locusta migratoria migratorioides (R. et L.) (Orth., Oedipodinae)|J. Appl. Entomol.121(6): 353-356|1997|10.1111/j.1439-0418.1997.tb01418.x
63064|T||Gutierrez,A.M., G.R. Reboredo, C.J. Arcemis, and A. Catala|The Effect of Lindane on the Lipid Peroxidation of Microsomes and Mitochondria Isolated from Liver and Heart of Columba livia|Pestic. Biochem. Physiol.68:119-126|2000|10.1006/pest.2000.2505
63065|T||Jacobs,J.S., and R.L. Sheley|Spotted Knapweed, Forb, and Grass Response to 2,4-D and N-Fertilizer|J. Range Manag.52(5): 482-488|1999|10.2307/4003775
63067|T||Jotwani,M.G., P. Sarup, and S. Pradhan|Relative Toxicity of Some Important Insecticides to the Adults of Lacewing Bug, Urentius echinus Distant (Tingidae: Heteroptera), a Pest of Brinjal|Indian J. Hortic.18(1): 81-84|1961|
63068|T||Joshi,K.C., and H.R. Khan|Biology and Control of the Giant Red Bug Lohita grandis Gray (Hemiptera: Pyrrhocoridae: Largidae)|Indian For.116(4): 312-319|1990|
63069|T||Hussein,E.M.K., M.I. Abdel-Megeed, I. Gabir, and M. Abdel-Moati|Efficacy of Certain Spraying Techniques on the Biological Activity of Dursban with Special Reference to Cotton Yield and Lint Properties|Bull. Entomol. Soc. Egypt12:99-106|1980|
63071|T||Howery,L.D., D.L. Nolte, L.M. Sullivan, and M.W. Kilby|Sensory Attributes, Phytotoxicity, and Production of Grape Cultivars After Treatment with Two Deer Repellents|HortTechnology9(3): 429-432|1999|10.21273/HORTTECH.9.3.429
63072|T||Hassan,E.|The Insecticidal Effects of Neem Seed Kernel Extract on Eggs and Larvae of Helicoverpa armigera (Hubner) (Die Insektiziden Wirkungen von Niemsamenextrakten auf die Eier und Larven von Helicoverpa armigera (Hubner))|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)106(5): 523-529|1999|
63073|T||Itoyama,M.M., H.E.M.C. Bicudo, and A.J. Manzato|The Development of Resistance to Caffeine in Drosophila prosaltans: Productivity and Longevity After Ten Generations of Treatment|Cytobios96(382): 81-93|1998|
63074|T||House,H.D., and W.J. Gies|The Influence of Aluminium Ions on Lupin Seedlings|Proc. 18th Annu. Meet. of the Am. Physiol. Soc.:2 p.|1906|
63075|T||Halldin,K., C. Berg, I. Brandt, and B. Brunstrom|Sexual Behavior in Japanese Quail as a Test End Point for Endocrine Disruption: Effects of In Ovo Exposure to Ethinylestradiol and Diethylstilbestrol|Environ. Health Perspect.107(11): 861-866|1999|10.1289/ehp.99107861
63076|T||Grantz,D.A., X. Zhang, and T. Carlson|Observations and Model Simulations Link Stomatal Inhibition to Impaired Hydraulic Conductance Following Ozone Exposure in Cotton|Plant Cell Environ.22(10): 1201-1210|1999|10.1046/j.1365-3040.1999.00486.x
63077|T||Rankins,A.,Jr., D.R. Shaw, and J.D.,Jr. Byrd|HERB and MSU-HERB Field Validation for Soybean (Glycine max) Weed Control in Mississippi|Weed Technol.12(1): 88-96|1998|10.1017/S0890037X00042627
63125|T||Heagle,A.S., J.E. Miller, and F.L. Booker|Influence of Ozone Stress on Soybean Response to Carbon Dioxide Enrichment: I. Foliar Properties|Crop Sci.38(1): 113-121|1998|10.2135/cropsci1998.0011183X003800010020x
63129|T||Gray,C.W., R.G. McLaren, A.H.C. Roberts, and L.M. Condron|Effect of Soil pH on Cadmium Phytoavailability in Some New Zealand Soils|N. Z. J. Crop Hortic. Sci.27(2): 169-179|1999|10.1080/01140671.1999.9514093
63130|T||Kuthubutheen,A.J., and G.J.F. Pugh|The Effects of Fungicides on the Occurrence of Thermophilous Leaf-Surface Fungi|Mycopathologia62(3): 131-141|1977|10.1007/BF00444106
63131|T||Kurki-Helasmo,K., and J. Meriluoto|Microcystin Uptake Inhibits Growth and Protein Phosphatase Activity in Mustard (Sinapis alba L.) Seedlings|Toxicon36(12): 1921-1926|1998|10.1016/S0041-0101(98)00114-7
63132|T||Kuriachan,I., and R.E. Gold|Evaluation of the Ability of Reticulitermes flavipes Kollar, a Subterranean Termite (Isoptera: Rhinotermitidae), to Differentiate Between Termiticide Treated and Untreated Soils in Laboratory Tests|Sociobiology32(1): 151-166|1998|
63133|T||Kurepa,J., J. Smalle, M. Van Montagu, and D. Inze|Oxidative Stress Tolerance and Longevity in Arabidopsis: The Late-Flowering Mutant Gigantea is Tolerant to Paraquat|Plant J.14(6): 759-764|1998|10.1046/j.1365-313x.1998.00168.x
63140|T||Kukkola,E., P. Rautio, and S. Huttunen|Stress Indications in Copper- and Nickel-Exposed Scots Pine Seedlings|Environ. Exp. Bot.43(3): 197-210|2000|10.1016/S0098-8472(99)00057-X
63141|T||Kuehl,B.D., and R.G. Lym|Leafy Spurge (Euphorbia esula) Control with Quinclorac|Weed Technol.11(2): 265-269|1997|10.1017/S0890037X00042937
63143|A||Adema,D.M.M.|Aquatic Toxicity of Compounds that may be Carried by Ships (Marpol 19733 Annex II).  A Progress Report for 1985|Technical Report No.R85/217, TNO, The Hague, Netherlands:40 p.|1985|
63145|T||Krizek,D.T., C.D. Foy, and R.M. Mirecki|Influence of Aluminum Stress on Shoot and Root Growth of Contrasting Genotypes of Coleus|J. Plant Nutr.20(9): 1045-1060|1997|10.1080/01904169709365317
63146|T||Krizek,D.T., G.F. Kramer, and R.M. Mirecki|Influence of UV-B Radiation and Putrescine on Shoot and Root Growth of Cucumber Seedlings Grown in Nutrient Solution|J. Plant Nutr.20(6): 613-623|1997|10.1080/01904169709365281
63147|T||Krijger,G.C., A.V. Harms, R. Leen, T.G. Verburg, and B. Wolterbeek|Chemical Forms of Technetium in Tomato Plants; TcO4-, Tc-Cysteine, Tc-Glutathione and Tc-Proteins|Environ. Exp. Bot.42(1): 69-81|1999|10.1016/S0098-8472(99)00019-2
63148|T||Krieger,R.I., P. South, A.M. Trigo, and I. Flores|Toxicity of Methomyl Following Intravenous Administration in the Horse|Vet. Hum. Toxicol.40(5): 267-269|1998|
63149|A||Marcussen,C.E., and J.J. Yurk|Boron:  Acute Toxicity to Mysids (Mysidopsis bahia) Under Flow-Through Conditions|Lab.Proj.ID No.3903004000-0215-3140, ESE, Gainesville, FL:44 p.|1990|
63150|T||Kremer,E., and L.A.P. Lotz|Germination and Emergence Characteristics of Triazine-Susceptible and Triazine-Resistant Biotypes of Solanum nigrum|J. Appl. Ecol.35(2): 302-310|1998|10.1046/j.1365-2664.1998.00302.x
63152|T||Krausz,R.F., G. Kapusta, and J.L. Matthews|Sulfentrazone for Weed Control in Soybean (Glycine max)|Weed Technol.12(4): 684-689|1998|10.1017/S0890037X00044559
63153|T||Krausz,R.F., and G. Kapusta|Total Postemergence Weed Control in Imidazolinone-Resistant Corn (Zea mays)|Weed Technol.12(1): 151-156|1998|10.1017/S0890037X0004272X
63154|T||Kranthi,K.R., N.J. Armes, N.G.V. Rao, S. Raj, and V.T. Sundaramurthy|Seasonal Dynamics of Metabolic Mechanisms Mediating Pyrethroid Resistance in Helicoverpa armigera in Central India|Pestic. Sci.50(2): 91-98|1997|10.1002/(SICI)1096-9063(199706)50:2<91::AID-PS570>3.0.CO;2-X
63155|A||Marcussen,C.E.|Benzidine Acute Toxicity to Mysids (Mysidopsis bahia) Under Flow-Through Conditions|Lab.Proj.ID No.3903004000-0200-3140, HUNTER/ESE, Gainesville, FL:31 p.|1990|
63156|T||Kovacevic,G., R. Kastori, and L.J. Merkulov|dry Matter and Leaf Structure in Young Wheat Plants as Affected by Cadmium, Lead, and Nickel|Biol. Plant. (Praha)42(1): 119-123|1999|10.1023/A:1002135913249
63157|A||Vaishnav,D.D., J.J. Yurk, and M.A. Overman|Determination of Acute Toxicity of Beryllium to Mysid Shrimp (Mysidopsis bahia) Under Static Conditions|ESE Proj.No.3903004-0214-3140, Environ.Sci.and Eng.Inc.(ESE), Gainesville, FL:72 p.|1990|
63158|T||Koutsos,E.A., and K.C. Klasing|The Acute Phase Response in Japanese Quail (Coturnix coturnix japonica)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(2): 255-263|2001|10.1016/S1532-0456(00)00199-X
63159|T||Koussoulakos,S., N. Zilakos, and V. Kiortsis|The Effects of Chemical Carcinogens on Triturus Forelimb Regeneration|IRCS (Int.Res.Commun.Syst.)Med.Sci.14(8): 846-847|1986|
63160|T||Kostyukovsky,M., B. Chen, S. Atsmi, and E. Shaaya|Biological Activity of Two Juvenoids and Two Ecdysteroids Against Three Stored Product Insects|Insect Biochem. Mol. Biol.30(8/9): 891-897|2000|10.1016/S0965-1748(00)00063-1
63162|T||Keller,G., L. Spatola, D. McCabe, B. Martinell, W. Swain, and M.E. John|Transgenic Cotton Resistant to Herbicide Bialaphos|Transgenic Res.6(6): 385-392|1997|10.1023/A:1018483300902
63163|T||Kashem,M.A., K. Itoh, S. Iwabuchi, H. Hori, and T. Mitsui|Possible Involvement of Phosphoinositide-Ca2+ Signaling in the Regulation of alpha-Amylase Expression and Germination of Rice Seed (Oryza sativa L.)|Plant Cell Physiol.41(4): 399-407|2000|10.1093/pcp/41.4.399
63164|T||Koike,S.T., R.F. Smith, K.F. Schulbach, and W.E. Chaney|Association of the Insecticide Naled with Celery Petiole Lesion Damage|Crop Prot.16(8): 753-758|1997|10.1016/S0261-2194(97)00057-4
63166|T||Kumari,M.R., A. Shafeek, and G.R. Reddy|Neurotoxicity of Synthetic Pyrethroids, Fenvalerate and Cypermethrin in the Cockroach, Periplaneta americana|Entomon24(2): 129-133|1999|
63167|T||Colquhoun,J.B., R.R. Bellinder, and J.J. Kirkwyland|Efficacy of Mechanical Cultivation with and Without Herbicides in Broccoli (Brassica oleracea), Snap Bean (Phaseolus vulgaris), and Sweet Corn (Zea mays)|Weed Technol.13(2): 244-252|1999|10.1017/S0890037X00041683
63168|T||Cole,D.L.|The Efficacy of Acibenzolar-S-Methyl, an Inducer of Systemic Acquired Resistance, Against Bacterial and Fungal Diseases of Tobacco|Crop Prot.18(4): 267-273|1999|10.1016/S0261-2194(99)00026-5
63169|A||Roast,S.D., P.S. Rainbow, B.D. Smith, M. Nimmo, and M.B. Jones|Trace Metal Uptake by the Chinese Mitten Crab Eriocheir sinensis:  The Role of Osmoregulation|Mar. Environ. Res.53:453-464|2002|10.1016/S0141-1136(02)00090-9
63170|T||Clay,S.A., D.E. Clay, W.C. Koskinen, and R.K.,Jr. Berg|Application Method:  Impacts on Atrazine and Alachlor Movement, Weed Control, and Corn Yield in Three Tillage Systems|Soil Tillage Res.48(3): 215-224|1998|10.1016/S0167-1987(98)00147-0
63172|T||Childers,C.C., and R.C. Bullock|Controlling Frankliniella bispinosa (Thysanoptera: Thripidae) on Florida Citrus During Bloom and Increased Fruit Set on Navel and 'Valencia' Oranges|Fla. Entomol.82(3): 410-424|1999|10.2307/3496868
63173|T||Chisholm,D., A.W. MacPhee, and C.R. MacEachern|Effects of Repeated Applications of Pesticides to Soil|Can. J. Agric. Sci.35:433-439|1955|
63174|T||Chiou,S.J., A. Cerstiaens, S.P. Kotanen, A. De Loof, and L. Schoofs|Insect Larvae Contain Substances Toxic to Adults: The Discovery of Paralysins|J. Insect Physiol.44(5-6): 405-411|1998|10.1016/S0022-1910(98)00026-2
63175|A||Berzins,D.W., and K.J. Bundy|Bioaccumulation of Lead in Xenopus laevis Tadpoles from Water and Sediment|Environ. Int.28:69-77|2002|10.1016/S0160-4120(02)00006-5
63176|T||Chase,C.A., T.A. Bewick, and D.G. Shilling|Characterization of Paraquat Resistance in Solanum americanum Mill.  I.  Paraquat Uptake, Translocation, and Compartmentalization|Pestic. Biochem. Physiol.60(1): 13-22|1998|10.1006/pest.1998.2328
63177|AT||Chen,L.M., C.C. Lin, and C.H. Kao|Copper Toxicity in Rice Seedlings:  Changes in Antioxidative Enzyme Activities, H2O2 Level, and Cell Wall Peroxidase Activity in Roots|Bot. Bull. Acad. Sin. (Taipei)41(2): 99-103|2000|
63178|A||Almeida,J.A., Y.S. Diniz, S.F.G. Marques, L.A. Faine, B.O. Ribas, R.C. Burneiko, and E.L.B. Novelli|The Use of the Oxidative Stress Responses as Biomarkers in Nile Tilapia (Oreochromis niloticus) Exposed to In Vivo Cadmium Contamination|Environ. Int.27:673-679|2002|10.1016/S0160-4120(01)00127-1
63179|T||Chardonnens,A.N., W.M. Ten Bookum, S. Vellinga, H. Schat, J.A.C. Verkleij, and W.H.O. Ernst|Allocation Patterns of Zinc and Cadmium in Heavy Metal Tolerant and Sensitive Silene vulgaris|J. Plant Physiol.155(6): 778-787|1999|10.1016/S0176-1617(99)80096-0
63180|A||Radlowska,M., and J. Pempkowiak|Stress-70 as Indicator of Heavy Metals Accumulation in Blue Mussel Mytilus edulis|Environ. Int.27:605-608|2002|10.1016/S0160-4120(01)00117-9
63181|T||Chamnongpol,S., H. Willekens, W. Moeder, C. Langebartels, H.,Jr. Sandermann, M. Van Montagu, D. Inze, and W. Van Camp|Defense Activation and Enhanced Pathogen Tolerance Induced by H2O2 in Transgenic Tobacco|Proc. Natl. Acad. Sci. U.S.A.95(10): 5818-5823|1998|10.1073/pnas.95.10.5818
63183|T||Chang,Y.C., J.F. Ma, and H. Matsumoto|Mechanisms of Al-induced Iron Chlorosis in Wheat (Triticum aestivum). Al-inhibited Biosynthesis and Secretion of Phytosiderophore|Physiol. Plant. (Multiple Languages)102(1): 9-15|1998|10.1034/j.1399-3054.1998.1020102.x
63184|T||Chang,Y.C., J.F. Ma, T. Iwashita, and H. Matsumoto|Effect of Al on the Phytosiderophore-Mediated Solubilization of Fe and Uptake of Fe-Phytosiderophore Complex in Wheat (Triticum aestivum)|Physiol. Plant. (Multiple Languages)106(1): 62-68|1999|10.1034/j.1399-3054.1999.106109.x
63187|T||Carmona,M.A., D.E. Barreto, and E.M. Reis|Detection, Transmission and Control of Drechslera teres in Barley Seed|Seed Sci. Technol.27(2): 761-769|1999|
63188|T||Carlson,G.R., T.S. Dhadialla, R. Hunter, R.K. Jansson, C.S. Jany, Z. Lidert, and R.A. Slawecki|The Chemical and Biological Properties of Methoxyfenozide, a new Insecticidal Ecdysteroid Agonist|Pest Manag. Sci.57:115-119|2001|10.1002/1526-4998(200102)57:2<115::AID-PS245>3.0.CO;2-A
63190|T||Carswell,M.C., B.R. Grant, and W.C. Plaxton|Disruption of the Phosphate-Starvation Response of Oilseed Rape Suspension Cells by the Fungicide Phosphonate|Planta (Multiple Languages)203(1): 67-74|1997|10.1007/s00050166
63191|T||Branco,M.C., and A.G. Gatehouse|Insecticide Resistance in Plutella xylostella (L.) (Lepidoptera: Yponomeutidae) in the Federal District, Brazil|An. Soc. Entomol. Bras.26(1): 75-79|1997|10.1590/S0301-80591997000100010
63192|T||Carini,F., and E. Lombi|Foliar and Soil Uptake of 134Cs and 85Sr by Grape Vines|Sci. Total Environ.207(2-3): 157-164|1997|10.1016/S0048-9697(97)00261-1
63193|T||Campbell,P.M., J.L. Yen, A. Masoumi, R.J. Russell, P. Batterham, J.A. McKenzie, and J.G. Oakeshott|Cross-Resistance Patterns Among Lucilia cuprina (Diptera: Calliphoridae) Resistant to Organophosphorus Insecticides|J. Econ. Entomol.91(2): 367-375|1998|10.1093/jee/91.2.367
63194|T||Curran,W.S., M.H. Hall, and E.L. Werner|Effect of Varying Imazethapyr Application Rate and Timing on Yield of Seedling Grass-Alfalfa Mixtures|J. Prod. Agric.12(2): 244-248|1999|10.2134/jpa1999.0244
63196|A||Lal,R., and D.M. Saxena|Effect of DDT on Growth of Tetrahymena pyriformis|Arch. Protistenkd.122:382-386|1979|10.1016/S0003-9365(79)80047-0
63198|A||La Clair,J.J., J.A. Bantle, and J. Dumont|Photoproducts and Metabolites of a Common Insect Growth Regulator Produce Developmental Deformities in Xenopus|Environ. Sci. Technol.32(10): 1453-1461|1998|10.1021/es971024h
63199|A||Kusama-Eguchi,K., T. Kusama, F. Ikegami, F. Lambein, and K. Watanabe|Inhibitory Activity of a Naturally Occurring Heterocyclic beta-Substituted Alanine, beta-(Isoxazolin-5-on-4-yl)-L-Alanine, on the L-Glutamate/L-Aspartate Transporter (GLAST) Expressed in Xenopus Oocytes|Mol. Brain Res.52(1): 166-169|1997|10.1016/S0169-328X(97)00245-3
63200|A||Kuosa,H., R. Autio, P. Kuuppo, O. Setala, and S. Tanskanen|Nitrogen, Silicon and Zooplankton Controlling the Baltic Spring Bloom: An Experimental Study|Estuar. Coast. Shelf Sci.45(6): 813-821|1997|10.1006/ecss.1997.0241
63202|A||Koeller,P., and T.R. Parsons|The Growth of Young Salmonids (Onchorhynchus keta): Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 114-118|1977|
63204|A||Kersting,K.|Microecosystem State and Its Response to the Introduction of a Pesticide|Verh. Int. Ver. Theor. Angew. Limnol.24:2309-2312|1991|
63205|A||Palanichamy,R., K. Kanagaraj, and S. Jayanthimala|Sub-lethal Effects of Dimecron and Thiodon on Food Utilization In Mystus vittatus|J. Environ. Biol.17(2): 101-105|1996|
63206|A||Nosov,V.N., M.N. Korsak, and N.V. Sirotkina|Effects of Zinc and Chromium on Phytoplankton|Hydrobiol. J.17(1): 64-68|1981|
63207|A||Netherland,M.D., and J.F. Shearer|Integrated Use of Fluridone and a Fungal Pathogen for Control of Hydrilla|J. Aquat. Plant Manag.34:4-8|1996|
63208|A||Netherland,M.D., K.D. Getsinger, and J.D. Skogerboe|Mesocosm Evaluation of the Species-Selective Potential of Fluridone|J. Aquat. Plant Manag.35:41-50|1997|
63209|A||Peters,R.C., E. Versteeg, F. Bretschneider, R.J. Brans, and A. Went|Caffeine Reduces the Efficacy of Electroreceptor Cell Synapses: An Electrophysiological Single-Unit In Vivo Study|Neuroscience78(4): 1229-1238|1997|10.1016/S0306-4522(96)00701-4
63211|A||Roembke,J., and T. Knacker|Aquatic Toxicity Test for Enchytraeids|Hydrobiologia (Multiple Languages)180:235-242|1989|10.1007/BF00027556
63212|A||Ritchie,L.S., I. Fox, L.P. Frick, and L.A. Berrios-Duran|Molluscicidal Qualities of Dinex (Dinitro-o-Cyclohexylphenol) Revealed by 6-Hour and 24-Hour Exposures Against Representative Stages and Sizes of Australorbis glabratus|Bull. W. H. O.29:545-548|1963|
63213|A||Price,C.A., and B.L. Vallee|Euglena gracilis, a Test Organism for Study of Zinc|Plant Physiol.37:428-433|1962|10.1104/pp.37.3.428
63214|A||Schultz,M.E., and R.J. Schultz|Transplantable Chemically-Induced Liver Tumors in the Viviparous Fish Poeciliopsis|Exp. Mol. Pathol.42(3): 320-330|1985|10.1016/0014-4800(85)90082-6
63216|A||Self,L.S., and M.M. Tun|Summary of Field Trials in 1964-69 in Rangoon, Burma, of Organophosphorus Larvicides and Oils Against Culex pipiens fatigans Larvae in Polluted Water|Bull. W. H. O.43(6): 841-851|1970|
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63218|A||Surber,E.W.|Effects of DDT on Fish|J. Wildl. Manag.10(3): 183-191|1946|10.2307/3795830
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63221|A||Ward,E.E.|Uptake of Plutonium by the Lobster Homarus vulgaris|Nature209(5023): 625-626|1966|10.1038/209625b0
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63223|A||Hooten,R.L., and R.S. Carr|Development and Application of a Marine Sediment Pore-Water Toxicity Test Using Ulva fasciata Zoospores|Environ. Toxicol. Chem.17(5): 932-940|1998|
63224|A||Pesch,G.G., C.E. Pesch, and A.R. Malcolm|Neanthes arenaceodentata, a Cytogenetic Model for Marine Genetic Toxicology|Aquat. Toxicol.1(5-6): 301-311|1981|10.1016/0166-445X(81)90024-2
63225|A||Zahn,R.K., B. Kurelec, G. Zahn-Daimler, W.E.G. Mueller, M. Rijavec, R. Batel, R. Given, V. Pondeljak, and R. Beyer|The Effect of Benzo(a)pyrene on Sponges as Model Organisms in Marine Pollution|Chem.-Biol. Interact.39(2): 205-220|1982|10.1016/0009-2797(82)90122-3
63226|A||Zachleder,V., E. Wittenburg, and S. Abarzua|Factors Controlling the Inhibitory Effects of 3,4-Benzo(a)pyrene on the Chlorococcal Alga Scenedesmus quadricauda|Arch. Hydrobiol.73(2): 281-296|1986|
63228|A||Verriopoulos,G., and M. Moraitou-Apostolopoulou|Impact of Chromium to the Population Dynamics of Tisbe holothuriae|Arch. Hydrobiol.93(1): 59-67|1981|
63229|A||Hooftman,R.N.|The Induction of Chromosome Aberrations in Notobranchius rachowi (Pisces: Cyprinodontidae) After Treatment with Ethyl Methanesulphonate or Benzo(a)pyrene|Mutat. Res.91:347-352|1981|
63230|A||Hoffman,R.W., G. Bills, and J. Rae|An In Situ Comparison of the Effectiveness of Four Algicides|Water Resour. Bull.18(6): 921-927|1982|10.1111/j.1752-1688.1982.tb00096.x
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63236|A||Kagan,J., E.D. Kagan, I.A. Kagan, and P.A. Kagan|Do Polycyclic Aromatic Hydrocarbons, Acting as Photosensitizers, Participate in the Toxic Effects of Acid Rain?|ACS Symp. Ser.327:191-204|1987|10.1021/bk-1987-0327.ch014
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63239|A||Kusk,K.O.|Comparison of the Effects of Aromatic Hydrocarbons on a Laboratory Alga and Natural Phytoplankton|Bot. Mar.24:611-613|1981|
63240|A||Kulkarni,B.G., and V.B. Masurekar|Sensitivities of the Crab Scylla serrata (Forskal) to Naphthalene in Different Moulting Stages|Curr. Sci. (Bangalore)53(7): 393-394|1984|
63242|A||Kawatski,J.A., and J.C. Schmulbach|Epoxidation of Aldrin by a Freshwater Ostracod|J. Econ. Entomol.64(1): 316-317|1971|10.1093/jee/64.1.316
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63247|A||Corner,E.D.S., and B.W. Sparrow|The Modes of Action of Toxic Agents II.  Factors Influencing the Toxicities of Mercury Compounds to Certain Crustacea|J. Mar. Biol. Assoc. U.K.36:459-472|1957|10.1017/S0025315400025765
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63255|T||Kreiter,S., G. Sentenac, D. Barthes, and P. Auger|Toxicity of Four Fungicides to the Predaceous Mite Typhlodromus pyri (Acari:  Phytoseiidae)|J. Econ. Entomol.91(4): 802-811|1998|10.1093/jee/91.4.802
63256|T||Cuong,N.L., P.T. Ben, L.T. Phuong, L.M. Chau, and M.B. Cohen|Effect of Host Plant Resistance and Insecticide on Brown Planthopper Nilaparvata lugens (Stal) and Predator Population Development in the Mekong Delta, Vietnam|Crop Prot.16(8): 707-715|1997|10.1016/S0261-2194(97)00068-9
63257|T||Csinos,A.S., and M.G. Stephenson|Evaluation of Fungicides and Tobacco Cultivar Resistance to Rhizoctonia solani Incited Target Spot, Damping off and Sore Shin|Crop Prot.18(6): 373-377|1999|10.1016/S0261-2194(99)00037-X
63258|T||Cross,J.V., and C.M. Burgess|Localised Insecticide Treatment for the Control of Vine Weevil Larvae (Otiorhynchus sulcatus) on Field-Grown Strawberry|Crop Prot.16(6): 565-574|1997|10.1016/S0261-2194(97)00029-X
63259|T||Cross,J.V.|Susceptibility of the Summer Fruit Tortrix Moth, Adoxophyes orana (Lepidoptera: Tortricidae), to Chlorpyrifos and Strategies for Insecticidal Control in Orchards|Ann. Appl. Biol.131(2): 197-212|1997|10.1111/j.1744-7348.1997.tb05151.x
63260|T||Crampton,A.L., P. Green, G.D. Baxter, and S.C. Barker|Monooxygenases Play Only a Minor Role in Resistance to Synthetic Pyrethroids in the Cattle Tick, Boophilus microplus|Exp. Appl. Acarol.23(11): 897-905|1999|10.1023/A:1006245800759
63261|T||Crain,D.A., L.J.,Jr. Guillette, A.A. Rooney, and D.B. Pickford|Alterations in Steroidogenesis in Alligators (Alligator mississippiensis) Exposed Naturally and Experimentally to Environmental Contaminants|Environ. Health Perspect.105(5): 528-533|1997|10.1289/ehp.97105528
63262|T||Cox,P.D., D.A. Fleming, J.E. Atkinson, K.L. Bannon, and J.M. Whitfield|The Effect of Behaviour on the Survival of Cryptolestes ferrugineus in an Insecticide-Treated Laboratory Environment|J. Stored Prod. Res.33(3): 257-269|1997|10.1016/S0022-474X(97)00001-5
63263|T||Costa,H.S., T.J. Henneberry, and N.C. Toscano|Effects of Antibacterial Materials on Bemisia argentifolii (Homoptera: Aleyrodidae) Oviposition, Growth, Survival, and Sex Ratio|J. Econ. Entomol.90(2): 333-339|1997|10.1093/jee/90.2.333
63264|T||Corkern,C.B., D.L. Jordan, J.L. Griffin, P.R. Vidrine, B.J. Williams, and D.B. Reynolds|Influence of Adjuvants on Interactions of Sethoxydim with Selected Broadleaf Herbicides Used in Corn (Zea mays)|Weed Technol.13(4): 821-824|1999|10.1017/S0890037X00042287
63265|T||Cooke,L.R.|The Influence of Fungicide Sprays on Infection of Apple cv. Bramley's Seedling by Nectria galligena|Eur. J. Plant Pathol.105(8): 783-790|1999|10.1023/A:1008778900607
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63269|T||Carder,J.B., G.L. Lentz, and N.B. Van Tol|Impact of Early-Season Pesticide Treatments for Control of Lygus lineolaris (Hemiptera:  Miridae) on Predators of Helicoverpa zea (Lepidoptera:  Noctuidae) in Cotton|J. Agric. Urban Entomol.17(2): 89-97|2000|
63270|T||Domingues,A.M., and M.A. Nunes|Effects of Nitrate/Ammonium Ratios in Nutrient Solution on Triticale Grown Under Aluminium Stress|In: VII Congresso Luso Espanhol de Fisiologia Vegetal,  September 23-27, Badajoz, Spain:7 p.|2001|
63271|T||Dondale,C.D.|Effects of Carbofuran on Arthropod Populations and Crop Yield in Hayfields|Can. Entomol.104:1433-1437|1972|10.4039/Ent1041433-9
63272|T||Edwards,C.A., S.D. Beck, and E.P. Lichtenstein|Bioassay of Aldrin and Lindane in Soil|J. Econ. Entomol.50:622-626|1957|10.1093/jee/50.5.622
63273|T||Edge,W.D., R.L. Carey, J.O. Wolff, L.M. Ganio, and T. Manning|Effects of Guthion 2S on Microtus canicaudus:  A Risk Assessment Validation|J. Appl. Ecol.33(2): 269-278|1996|10.2307/2404749
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63276|T||Day,B.L., M.M. Walser, J.M. Sharma, and D.E. Andersen|Immunopathology of 8-Week-Old Ring-Necked Pheasants (Phasianus colchicus) Exposed to Malathion|Environ. Toxicol. Chem.14(10): 1719-1726|1995|
63277|T||Dannel,F., H. Pfeffer, and V. Romheld|Distribution Within the Plant or Compartmentation Does not Contribute Substantially to the Detoxification of Excess Boron in Sunflower (Helianthus annuus)|Aust. J. Plant Physiol.26(2): 95-99|1999|
63278|T||Drouillard,K.G., K.J. Fernie, J.E. Smits, G.R. Bortolotti, D.M. Bird, and R.J. Norstrom|Bioaccumulation and Toxicokinetics of 42 Polychlorinated Biphenyl Congeners in American Kestrels (Falco sparverius)|Environ. Toxicol. Chem.20(11): 2514-2522|2001|10.1002/etc.5620201117
63279|T||Edwards,N.T.|Uptake, Translocation and Metabolism of Anthracene in Bush Bean (Phaseolus vulgaris L.)|Environ. Toxicol. Chem.5(7): 659-665|1986|
63280|T||Dannel,F., H. Pfeffer, and V. Romheld|Compartmentation of Boron in Roots and Leaves of Sunflower as Affected by Boron Supply|J. Plant Physiol.153(5-6): 615-622|1998|10.1016/S0176-1617(98)80212-5
63281|T||Dannel,F., H. Pfeffer, and V. Romheld|Characterization of Root Boron Pools, Boron Uptake and Boron Translocation in Sunflower Using the Stable Isotopes 10B and 11B|Aust. J. Plant Physiol.27(5): 397-405|2000|
63282|T||Ester,A., S.B. Hofstede, P.S.R. Kosters, and C.P. De Moel|Filmcoating of Cauliflower Seed (Brassica oleracea L. var. botrytis L.) with Insecticides to Control the Cabbage Root Fly (Delia radicum)|Crop Prot.13(1): 14-19|1994|10.1016/0261-2194(94)90130-9
63283|T||Espen,L., L. Pirovano, and S.M. Cocucci|Effects of Ni2+ During the Early Phases of Radish (Raphanus sativus) Seed Germination|Environ. Exp. Bot.38(2): 187-197|1997|10.1016/S0098-8472(97)00011-7
63284|T||Encina,A.E., R.M. Moral, J.L. Acebes, and J.M. Alvarez|Characterization of Cell Walls in Bean (Phaseolus vulgaris L.) Callus Cultures Tolerant to Dichlobenil|Plant Sci.160(2): 331-339|2001|10.1016/S0168-9452(00)00397-6
63285|T||Elek,J.A., and B.C. Longstaff|Effect of Chitin-Synthesis Inhibitors on Stored-Product Beetles|Pestic. Sci.40:225-230|1994|10.1002/ps.2780400309
63286|T||Arthur,F.H.|Degradation and Efficacy of Deltamethrin + Chlorpyrifos-Methyl and Cyfluthrin + Chlorpyrifos-Methyl as Protectants of Wheat Stored in Southeast Georgia|J. Entomol. Sci.30(3): 397-405|1995|10.18474/0749-8004-30.3.397
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63289|T||Delgado,I.C., and A.J. Sanchez-Raya|Physiological Response of Sunflower Seedlings to Salinity and Potassium Supply|Commun. Soil Sci. Plant Anal.30(5-6): 773-783|1999|10.1080/00103629909370245
63290|T||Dean-Raymond,D., and M. Alexander|Plant Uptake and Leaching of Dimethylnitrosamine|Nature262:394-396|1976|10.1038/262394a0
63291|A||Al-Sabti,K., and B. Kurelec|Induction of Chromosomal Aberrations in the Mussel Mytilus galloprovincialis Watch|Bull. Environ. Contam. Toxicol.35(5): 660-665|1985|10.1007/BF01636570
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63295|T||Choudhri,R.S., and A.N. Singh|Effect of Growth Regulating Substances on Growth, Yield and Oil Content of Certain Oil-Seed Crops|Indian Agric.13:63-70|1969|
63296|A||Taylor,A.G.|The Direct Uptake of Amino Acids and Other Small Molecules from Sea Water by Nereis virens Sars|Comp. Biochem. Physiol.29(1): 243-250|1969|10.1016/0010-406X(69)91740-X
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63300|T||Csinos,A.S., H.R. Pappu, R.M. McPherson, and M.G. Stephenson|Management of Tomato Spotted Wilt Virus in Flue-Cured Tobacco with Acibenzolar-S-Methyl and Imidacloprid|Plant Dis.85(3): 292-296|2001|10.1094/PDIS.2001.85.3.292
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63304|T||Beard,R.L.|Effect of Sub-lethal Doses of Toxicants on Susceptibility of Insects to Insecticides|J. Econ. Entomol.45(4): 561-567|1952|10.1093/jee/45.4.561
63306|T||Cooke,I.J.|Damage to Plant Roots Caused by Urea and Anhydrous Ammonia|Nature194(4835): 1262-1263|1962|10.1038/1941262a0
63307|A||Cameron,J.N.|Responses to Reversed NH3 and NH4+ Gradients in a Teleost (Ictalurus punctatus), an Elasmobranch (Raja erinacea), and a Crustacean (Callinectes sapidus):  Evidence for NH4+/H+ Exchange in the Teleost and Elasmobranch|J. Exp. Zool.239:183-195|1986|10.1002/jez.1402390206
63308|T||Cook,D.A., and D.M. Armitage|The Efficacy of an Inert Dust on the Mites Glycyphagus destructor Schrank and Acarus siro L.|Int. Pest Control38(6): 197-199|1996|
63309|T||Cullinan,F.P.|Some New Insecticides - Their Effect on Plants and Soils|J. Econ. Entomol.42(2): 387-391|1949|10.1093/jee/42.2.387
63310|A||Von Brand,T., B. Mehlman, and M.O. Nolan|Influence of Some Potential Molluscacides on the Oxygen Consumption of Australorbis glabratus|J. Parasitol.35:475-481|1949|10.2307/3273651
63311|T||Sharma,R.P.|Chromosome Breakage and Enhancement in Radiation Sensitivity Induced by 5-Trifluoromethyl-2-Deoxy-Uridine in Vicia faba|Proc. Indian Acad. Sci. Plant Sci.64(1): 22-25|1966|10.1007/BF03052397
63313|T||Shupe,J.L., A.E. Larsen, and A.E. Olson|Effects of Diets Containing Sodium Fluoride on Mink|J. Wildl. Dis.23(4): 606-613|1987|10.7589/0090-3558-23.4.606
63314|A||Martinez Sancho,M.E., J.M. Jimenez Castillo, and F. El Yousfi|Influence of Phosphorus Concentration on the Growth Kinetics and Stoichiometry of the Microalga Scenedesmus obliquus|Process Biochem.32(8): 657-664|1997|10.1016/S0032-9592(97)00017-4
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63316|T||Smagghe,G., G.A. Bohm, K. Richter, and D. Degheele|Effect of Nonsteroidal Ecdysteroid Agonists on Ecdysteroid Titer in Spodoptera exigua and Leptinotarsa decemlineata|J. Insect Physiol.41(11): 971-974|1995|10.1016/0022-1910(95)00045-V
63317|A||Davies,A.G., and J.A. Sleep|Photosynthesis in Some British Coastal Waters may be Inhibited by Zinc Pollution|Nature277:292-293|1979|10.1038/277292a0
63318|T||Smagghe,G., B. Carton, L. Decombel, and L. Tirry|Significance of Absorption, Oxidation, and Binding to Toxicity of Four Ecdysone Agonists in Multi-Resistant Cotton Leafworm|Arch. Insect Biochem. Physiol.46:127-139|2001|10.1002/arch.1023
63319|T||Smith,K.M., D. Smith, and A.T. Lisle|Effect of Field-Weathered Residues of Pyriproxyfen on the Predatory Coccinellids Chilocorus circumdatus Gyllenhal and Cryptolaemus montrouzieri Mulsant|Aust. J. Exp. Agric.39(8): 995-1000|1999|10.1071/EA99069
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63324|T||Cuypers,A., J. Vangronsveld, and H. Clijsters|Biphasic Effect of Copper on the Ascorbate-Glutathione Pathway in Primary Leaves of Phaseolus vulgaris Seedlings During the Early Stages of Metal Assimilation|Physiol. Plant. (Multiple Languages)110:512-517|2000|
63325|A||Foster,J.A.|Malformations and Lethal Growths in Planaria Treated with Carcinogens|Natl. Cancer Inst. Monogr.31:683-691|1969|
63326|T||Chansler,J.F., and D.A. Pierce|Bark Beetle Mortality in Trees Injected with Cacodylic Acid (Herbicide)|J. Econ. Entomol.59(6): 1357-1359|1966|10.1093/jee/59.6.1357
63327|T||Carrillo,A., M.E. Puente, and Y. Bashan|Application of Diluted Chlorine Dioxide to Radish and Lettuce Nurseries Insignificantly Reduced Plant Development|Ecotoxicol. Environ. Saf.35:57-66|1996|10.1006/eesa.1996.0081
63328|A||Feuillade,M., J. Feuillade, and V. Fiala|The Effect of Light on the Release of Organic Compounds by the Cyanobacterium Oscillatoria rubescens|Aquat. Sci.52(4): 345-359|1990|10.1007/BF00879762
63329|T||Chalupsky,J.,Jr.|The Influence of Zeazin 50 on Enchytraeidae (Oligochaeta) in an Apple Orchard Soil|Pedobiologia (Multiple Languages)33:361-371|1989|10.1016/S0031-4056(24)00289-0
63331|T||Chandler,J.M., L.I. Croy, and P.W. Santelmann|Alachlor Effects on Plant Nitrogen Metabolism and Hill Reaction|J. Agric. Food Chem.20(3): 661-664|1972|10.1021/jf60181a053
63332|A||Israeli-Weinstein,D., and E. Kimmel|Behavioral Response of Carp (Cyprinus carpio) to Ammonia Stress|Aquaculture165(1-2): 81-93|1998|10.1016/S0044-8486(98)00251-8
63334|A||Hotos,G.N., and N. Vlahos|Salinity Tolerance of Mugil cephalus and Chelon labrosus (Pisces:  Mugilidae) Fry in Experimental Conditions|Aquaculture167(3-4): 329-338|1998|10.1016/S0044-8486(98)00314-7
63335|T||Chatzivasileiadis,E.A., and M.W. Sabelis|Resistance to 2-Tridecanone and Cross-Resistance to Ketones in Tetranychus urticae Koch:  Selection and/or Induction?|In: Ph.D.Thesis, Methyl Ketones from Tomato: Implications for Host Races of the Phytophagous Mite Tetranychus urticae Koch, Chapter 5, Univ.of Amsterdam, Netherlands:53-65|1996|
63336|A||Kasai,S., I.S. Weerashinghe, and T. Shono|P450 Monooxygenases are an Important Mechanism of Permethrin Resistance in Culex quinquefasciatus Say Larvae|Arch. Insect Biochem. Physiol.37(1): 47-56|1998|10.1002/(SICI)1520-6327(1998)37:1<47::AID-ARCH6>3.0.CO;2-S
63337|T||Brett,C.H., and W.C. Rhoades|Grasshopper Control in Alfalfa with Hexachlorocyclohexane Dust|J. Econ. Entomol.39(5): 677-678|1946|10.1093/jee/39.5.677
63338|A||Chipman,W.A.|Some Aspects of the Accumulation of 51Cr by Marine Organisms|In: B.Aberg and F.P.Hungate (Eds.), Proc.Int.Symp.on Radioecological Concentration Processes held in Stockholm, Apr.25-29, 1966, Session K, Pergamon Press, Oxford, London:931-941|1966|
63339|A||Doukas,P.H., T.J. Speaker, and R.S. Thompson|Azulene Analogs of Pharmacological Agents III: Acute Toxicity and Local Anesthetic Activity of Azulylamides and Azulenecarboxamides|J. Pharm. Sci.64(1): 158-161|1975|10.1002/jps.2600640137
63340|T||Bartlett,B.R.|The Contact Toxicity of Some Pesticide Residues to Hymenopterous Parasites and Coccinellid Predators|J. Econ. Entomol.56(5): 694-698|1963|10.1093/jee/56.5.694
63341|A||Pempkowiak,J., and A. Kosakowska|Accumulation of Cadmium by Green Algae Chlorella vulgaris in the Presence of Marine Humic Substances|Environ. Int.24(5-6): 583-588|1998|10.1016/S0160-4120(98)00044-0
63342|T||Branham,B.E., and D.W. Lickfeldt|Effect of Pesticide-Treated Grass Clippings Used as a Mulch on Ornamental Plants|Hortscience32(7): 1216-1219|1997|10.21273/HORTSCI.32.7.1216
63343|A||Bryan,G.W.|Zinc Regulation in the Freshwater Crayfish (Including Some Comparative Copper Analyses)|J. Exp. Biol.46(2): 281-296|1967|10.1242/jeb.46.2.281
63344|T||Broza,M., M. Halpern, B. Teltsch, R. Porat, and A. Gasith|Shock Chloramination: Potential Treatment for Chironomidae (Diptera) Larvae Nuisance Abatement in Water Supply Systems|J. Econ. Entomol.91(4): 834-840|1998|10.1093/jee/91.4.834
63345|T||Bruce,J.A., and J.J. Kells|Quackgrass (Elytrigia repens) Control in Corn (Zea mays) with Nicosulfuron and Primisulfuron|Weed Technol.11(2): 373-378|1997|10.1017/S0890037X00043098
63346|A||Wedemeyer,G.|Uptake and Distribution of Zn65 in the Coho Salmon Egg (Oncorhynchus kisutch)|Comp. Biochem. Physiol.26(1): 271-279|1968|10.1016/0010-406X(68)90331-9
63347|T||Brunstrom,B., B.O. Lund, A. Bergman, L. Asplund, I. Athanassiadis, M. Athanasiadou, S. Jensen, and J. Orberg|Reproductive Toxicity in Mink (Mustela vison) Chronically Exposed to Environmentally Relevant Polychlorinated Biphenyl Concentrations|Environ. Toxicol. Chem.20(10): 2318-2327|2001|10.1002/etc.5620201026
63348|A||Timourian,H.|The Effect of Zinc on Sea Urchin Morphogenesis|J. Exp. Zool.169(1): 121-132|1968|10.1002/jez.1401690114
63349|T||Bursian,S.J., R.J. Aulerich, J.K. Cameron, N.K. Ames, and B.A. Steficek|Efficacy of Hydrated Sodium Calcium Aluminosilicate in Reducing the Toxicity of Dietary Zearalenone to Mink|J. Appl. Toxicol.12(2): 85-90|1992|10.1002/jat.2550120204
63351|T||Burzynski,M., and J. Buczek|The Effect of Cu2+ on Uptake and Assimilation of Ammonium by Cucumber Seedlings|Acta Physiol. Plant.19(1): 3-8|1997|10.1007/s11738-997-0015-8
63353|A||Joux-Arab,L., B. Berthet, and J.M. Robert|Distribution of Copper in the Diatom Haslea ostrearia Simonsen|Mar. Environ. Res.46(1-5): 555-558|1998|10.1016/S0141-1136(97)00037-8
63354|A||Jervis,L., R. Rees-Naesborg, and M. Brown|Biochemical Responses of the Marine Macroalgae Ulva lactuca and Fucus vesiculosus to Cadmium and Copper- from Sequestration to Oxidative Stress|Biochem. Soc. Trans.25(1): 63S|1997|10.1042/bst025063s
63356|T||Blackshaw,R.E., G. Semach, X. Li, J.T. O'Donovan, and K.N. Harker|Tillage, Fertiliser and Glyphosate Timing Effects on Foxtail Barley (Hordeum jubatum) Management in Wheat|Can. J. Plant Sci.80:655-660|2000|10.4141/P99-132
63357|T||Boileau,L.J.R., E. Nieboer, and D.H.S. Richardson|Uranium Accumulation in the Lichen Cladonia rangiferina. Part II. Toxic Effects of Cationic, Neutral, and Anionic Forms of the Uranyl Ion|Can. J. Bot.63:390-397|1985|10.1139/b85-046
63358|A||Seif,A.I., I.M. Husseiny, B.A. Soliman, M.A. Soliman, and M.A. El-Kady|Development of Wuchereria bancrofti in Culex pipiens L. (Diptera: Culicidae) Exposed in the Larval Instar to Sublethal Dosages of Insecticides and One Insect Growth Regulator and Their Influence on Reproduction of Filar|J. Egypt. Soc. Parasitol.27(3): 843-853|1997|
63359|T||Booth,L.H., and K. O'Halloran|A Comparison of Biomarker Responses in the Earthworm Aporrectodea caliginosa to the Organophosphorus Insecticides Diazinon and Chlorpyrifos|Environ. Toxicol. Chem.20(11): 2494-2502|2001|10.1002/etc.5620201115
63360|A||Schneegurt,M.A., D.M. Sherman, and L.A. Sherman|Growth, Physiology, and Ultrastructure of a Diazotrophic Cyanobacterium, Cyanothece sp. Strain ATCC 51142, in Mixotrophic and Chemoheterotrophic Cultures|J. Phycol.33(4): 632-642|1997|10.1111/j.0022-3646.1997.00632.x
63361|T||Brandt,A., C. Wolstrup, and T.K. Nielsen|The Effect of Dietary dl-alpha-Tocopheryl Acetate, Sodium Selenite and Polyunsaturated Fatty Acids in Mink (Mustela vison) 1.  Clinical Chemistry and Haematology|J. Anim. Physiol. Anim. Nutr.64(5): 280-288|1990|10.1111/j.1439-0396.1990.tb00233.x
63362|A||Schmalfuss,J., B. Matthes, P. Mayer, and P. Boger|Chloroacetamide Mode of Action, I: Inhibition of Very Long Chain Fatty Acid Synthesis in Scenedesmus acutus|Z. Naturforsch. Sect. C J. Biosci.53(11/12): 995-1003|1998|
63363|T||Arthur,F.H.|Residual Efficacy of Cyfluthrin Applied Alone or in Combination with Piperonyl Butoxide or Piperonyl Butoxide + Chlorpyrifos-Methyl as Protectants of Stored Corn|J. Entomol. Sci.29(2): 276-287|1994|10.18474/0749-8004-29.2.276
63364|A||Schiedek,D.|Marenzelleria cf. viridis (Polychaeta: Spionidae) - Ecophysiological Adaptations to a Life in the Coastal Waters of the Baltic Sea|Aquat. Ecol.31(2): 199-210|1997|10.1023/A:1009907606161
63365|T||Askew,S.D., and J.W. Wilcut|Cost and Weed Management with Herbicide Programs in Glyphosate-Resistant Cotton (Gossypium hirsutum)|Weed Technol.13(2): 308-313|1999|10.1017/S0890037X00041786
63366|A||Schenck,R.C.|Copper Deficiency and Toxicity in Gonyaulax tamarensis (Lebour)|Mar. Biol. Lett5:13-19|1984|
63367|T||Atkins,C.A., and Y.T. Tchan|Study of Soil Algae.  VI.  Bioassay of Atrazine and the Prediction of Its Toxicity in Soils Using an Algal Growth Method|Plant Soil27(3): 432-442|1967|10.1007/BF01376335
63368|A||Scarlett,A., M.E. Donkin, T.W. Fileman, and P. Donkin|Occurrence of the Marine Antifouling Agent Irgarol 1051 Within the Plymouth Sound Locality:  Implications for the Green Macroalga Enteromorpha intestinalis|Mar. Pollut. Bull.34(8): 645-651|1997|10.1016/S0025-326X(96)00187-7
63369|T||Attique,M.R., A. Ghaffar, M.I. Arif, and Z. Ahmad|Ovicidal Activity of Some Insecticides on Eggs of Helicoverpa armigera (Hubner) (Noctuidae:  Lepidoptera) in Pakistan|Pak. J. Zool.30(3): 229-232|1998|
63370|A||Scanlan,D.J., N.J. Silman, K.M. Donald, W.H. Wilson, N.G. Carr, I. Joint, and N.H. Mann|An Immunological Approach to Detect Phosphate Stress in Populations and Single Cells of Photosynthetic Picoplankton|Appl. Environ. Microbiol.63(6): 2411-2420|1997|10.1128/aem.63.6.2411-2420.1997
63371|T||Audus,L.J., and J.H. Quastel|Toxic Effects of Amino-Acids and Amines on Seedling Growth|Nature160:222-223|1947|10.1038/160222a0
63372|T||Avav,T.|Control of Speargrass (Imperata cylindrica (L) Raeuschel) with Glyphosate and Fluazifop-Butyl for Soybean (Glycine max (L) Merr) Production in Savanna Zone of Nigeria|J. Sci. Food Agric.80:193-196|2000|10.1002/(SICI)1097-0010(20000115)80:2<193::AID-JSFA476>3.0.CO;2-M
63373|T||Avav,T., and O.U. Okereke|Pre-Tillage Control of Speargrass (Imperata cylindrica) with Glyphosate for Soybean (Glycine max) Production|Indian J. Agric. Sci.67(8): 295-297|1997|
63374|T||Baker,A.J.M., R.D. Reeves, and A.S.M. Hajar|Heavy Metal Accumulation and Tolerance in British Populations of the Metallophyte Thlaspi caerulescens J. & C. Presl (Brassicaceae)|New Phytol.127:61-68|1994|10.1111/j.1469-8137.1994.tb04259.x
63375|T||Bartley,C.|Simazin and Related Triazines as Herbicides|Agric. Chemic.12:34-36, 113-115|1957|
63376|T||Bethke,J.A., M.J. Blua, and R.A. Redak|Effect of Selected Insecticides on Homalodisca coagulata (Homoptera: Cicadellidae) and Transmission of Oleander Leaf Scorch in a Greenhouse Study|J. Econ. Entomol.94(5): 1031-1036|2001|10.1603/0022-0493-94.5.1031
63377|T||Longcore,J.R., R. Andrews, L.N. Locke, G.E. Bagley, and L.T. Young|Toxicity of Lead and Proposed Substitute Shot to Mallards|Spec.Sci.Rep.- Wildl.No.183, U.S.D.I., Fish Wildl.Serv., Washington, D.C.:1-23|1974|
63378|T||Biddinger,D.J., L.A. Hull, and E.G. Rajotte|Stage Specificity of Various Insecticides to Tufted Apple Bud Moth Larvae (Lepidoptera: Tortricidae)|J. Econ. Entomol.91(1): 200-208|1998|10.1093/jee/91.1.200
63379|AT||MacFarlane,G.R., and M.D. Burchett|Toxicity, Growth and Accumulation Relationships of Copper, Lead and Zinc in the Grey Mangrove Avicennia marina (Forsk.) Vierh|Mar. Environ. Res.54:65-84|2002|10.1016/S0141-1136(02)00095-8
63380|T||Skytt Andersen,A., I.B. Moller, and J. Hansen|3-Methyleneoxindole and Plant Growth Regulation|Physiol. Plant. (Multiple Languages)27:105-108|1972|10.1111/j.1399-3054.1972.tb03584.x
63381|T||Drobne,D., M. Rupnik, A. Lapanje, J. Strus, and M. Janc|Isopod Gut Microflora Parameters as Endpoints in Toxicity Studies|Environ. Toxicol. Chem.21(3): 604-609|2002|10.1002/etc.5620210320
63384|T||Sverdrup,L.E., J. Jensen, P.H. Krogh, and J. Stenersen|Studies on the Effect of Soil Aging on the Toxicity of Pyrene and Phenanthrene to a Soil-Dwelling Springtail|Environ. Toxicol. Chem.21(3): 489-492|2002|
63385|T||Alonge,S.O., and M.A. Salawu|Effect of Imazaquin on the Nitrate Reductase Activity and the Biochemical Constituents of Soybean (Glycine max)|Niger. J. Weed Sci.14:1-9|2001|
63386|T||Abrahim,D., W.L. Braguini, A.M. Kelmer-Bracht, and E.L. Ishii-Iwamoto|Effects of Four Monoterpenes on Germination, Primary Root Growth, and Mitochondrial Respiration of Maize|J. Chem. Ecol.26(3): 611-624|2000|10.1023/A:1005467903297
63387|T||Coeurdassier,M., M. Saint-Denis, A. Gomot-De Vaufleury, D. Ribera, and P.M. Badot|The Garden Snail (Helix aspersa) as a Bioindicator of Organophosphorus Exposure:  Effects of Dimethoate on Survival, Growth, and Acetylcholinesterase Activity|Environ. Toxicol. Chem.20(9): 1951-1957|2001|10.1002/etc.5620200913
63388|T||White,J.C.|Plant-Facilitated Mobilization and Translocation of Weathered 2,2-bis(p-Chlorophenyl)-1,1-Dichloroethylene (p,p'-DDE) from an Agricultural Soil|Environ. Toxicol. Chem.20(9): 2047-2052|2001|
63389|T||Lock,K., and C.R. Janssen|Zinc and Cadmium Body Burdens in Terrestrial Oligochaetes:  Use and Significance in Environmental Risk Assessment|Environ. Toxicol. Chem.20(9): 2067-2072|2001|10.1002/etc.5620200928
63390|T||Lock,K., and C.R. Janssen|Modeling Zinc Toxicity for Terrestrial Invertebrates|Environ. Toxicol. Chem.20(9): 1901-1908|2001|10.1002/etc.5620200907
63391|T||Bwye,A.M., W. Proudlove, F.A. Berlandier, and R.A.C. Jones|Effects of Applying Insecticides to Control Aphid Vectors and Cucumber Mosaic Virus in Narrow-Leafed Lupins (Lupinus angustifolius)|Aust. J. Exp. Agric.37(1): 93-102|1997|10.1071/EA96041
63392|T||Gilmour,J.T., and B.R. Wells|Residual Effects of MSMA on Sterility in Rice Cultivars|Agron. J.72:1066-1067|1980|10.2134/agronj1980.00021962007200060049x
63393|T||Ruther,U., and H. Greven|The Effect of Heavy Metals on Enchytraeids  I.  Uptake from an Artiticial Substrate and Influence on Food Preference (Die Wirkung von Schwermetallen auf Enchytraeiden I.  Aufnahme aus Einem Kunstlichen Substrat und Einf|Acta Biol. Benrodis2(1): 125-131|1990|
63394|T||Brown,J.C., R.S. Holmes, and L.O. Tiffin|Iron Chlorosis in Soybeans as Related to the Genotype of Rootstock|Soil Sci.86:75-82|1958|10.1097/00010694-195808000-00004
63395|T||Brown,J.C., R.S. Holmes, and L.O. Tiffin|Iron Chlorosis in Soybeans as Related to the Genotype of Rootstock:  3.  Chlorosis Susceptibility and Reductive Capacity at the Root|Soil Sci.91:127-132|1961|10.1097/00010694-196102000-00008
63396|T||Bostrom,U.|Type and Time of Autumn Tillage with and Without Herbicides at Reduced Rates in Southern Sweden. 1. Yields and Weed Quantity|Soil Tillage Res.50(3/4): 271-281|1999|10.1016/S0167-1987(99)00016-1
63397|T||Barrett-Lennard,E.G., H. Marschner, and V. Romheld|Mechanism of Short Term Fe(III) Reduction by Roots.  Evidence Against the Role of Secreted Reductants|Plant Physiol.73:893-898|1983|10.1104/pp.73.4.893
63399|T||Banuelos,G.S., J.S. Tebbets, J.A. Johnson, P.V. Vail, and B. Mackey|Insect Diversity in Phytoremediation and Bioaccumulation of Seour|Int. J. Phytoremediat.1(4): 311-326|1999|10.1080/15226519908500022
63400|T||Brown,P.H., H. Hu, and W.G. Roberts|Occurrence of Sugar Alcohols Determines Boron Toxicity Symptoms of Ornamental Species|J. Am. Soc. Hortic. Sci.124(4): 347-352|1999|10.21273/JASHS.124.4.347
63401|T||Brun,L.O., C. Marcillaud, V. Gaudichon, and D.M. Suckling|Cross Resistance Between Insecticides in Coffee Berry Borer, Hypothenemus hampei (Coleoptera:  Scolytidae) from New Caledonia|Bull. Entomol. Res.84(2): 175-178|1994|10.1017/S0007485300039651
63402|T||Brandenburg,R.L.|The Effect of Field Applications of Insecticides for Variegated Cutworm, Peridroma saucia (Hubner) (Noctuidae:  Lepidoptera) Control on Non-Target Arthropods in Alfalfa|J. Kans. Entomol. Soc.58(3): 437-441|1985|
63403|T||Baker,J.E., D.K. Weaver, J.E. Throne, and J.L. Zettler|Resistance to Protectant Insecticides in Two Field Strains of the Stored-Product Insect Parasitoid Bracon hebetor (Hymenoptera: Braconidae)|J. Econ. Entomol.88(3): 512-519|1995|10.1093/jee/88.3.512
63404|T||Burken,J.G., and J.L. Schnoor|Uptake and Metabolism of Atrazine by Poplar Trees|Environ. Sci. Technol.31(5): 1399-1406|1997|10.1021/es960629v
63405|T||Brown,T.M., P.K. Bryson, D.S. Brickle, S. Pimprale, F. Arnette, M.E. Roof, J.T. Walker, and M.J. Sullivan|Pyrethroid-Resistant Helicoverpa zea and Transgenic Cotton in South Carolina|Crop Prot.17(5): 441-445|1998|10.1016/S0261-2194(98)00038-6
63406|T||Broadley,M.R., N.J. Willey, C. Philippidis, and E.R. Dennis|A Comparison of Caesium Uptake Kinetics in Eight Species of Grass|J. Environ. Radioact.46(2): 225-236|1999|10.1016/S0265-931X(98)00128-3
63407|T||Bryson,M.J., C.I. Draper, J.R. Harris, C. Biddulph, D.A. Greenwood, L.E. Harris, W. Binns, M.L. Miner, and L.L. Madsen|DDT in Eggs and Tissues of Chickens Fed Varying Levels of DDT|Adv. Chem. Ser.1:232-236|1950|10.1021/ba-1950-0001.ch043
63408|T||Burrage,R.H., and R.D. Tinline|Common Rootrot and Plant Development Following Treatments of Wheat Seed with Aldrin, gamma BHC, and Heptachlor, with and Without Mercury Fungicides|Can. J. Plant Sci.40:672-679|1960|10.4141/cjps60-099
63409|T||Boutsalis,P., J. Karotam, and S.B. Powles|Molecular Basis of Resistance to Acetolactate Synthase-Inhibiting Herbicides in Sisymbrium orientale and Brassica tournefortii|Pestic. Sci.55(5): 507-516|1999|10.1002/(SICI)1096-9063(199905)55:5<507::AID-PS971>3.0.CO;2-G
63410|T||Bourguet,D., M. Raymond, S. Berrada, and D. Fournier|Interaction Between Acetylcholinesterase and Choline Acetyltransferase: An Hypothesis to Explain Unusual Toxicological Responses|Pestic. Sci.51(3): 276-282|1997|10.1002/(SICI)1096-9063(199711)51:3<276::AID-PS268>3.0.CO;2-N
63411|T||Barnabas,B., G. Kovacs, A. Hegedus, S. Erdei, and G. Horvath|Regeneration of Doubled Haploid Plants from In Vitro Selected Microspores to Improve Aluminium Tolerance in Wheat|J. Plant Physiol.156(2): 217-222|2000|10.1016/S0176-1617(00)80309-0
63412|T||Burns,J.K., U. Hartmond, and W.J. Kender|Acetolactate Synthase Inhibitors Increase Ethylene Production and Cause Fruit Drop in Citrus|Hortscience34(5): 908-910|1999|10.21273/HORTSCI.34.5.908
63413|T||Bruinsma,J.|The Effect of 4,6-Dinitro-O-Cresol (DNOC) on Growth, Development and Yield of Winter Rye (Secale cereale L.)|Weed Res. (Multiple Languages)2:73-89|1962|10.1111/j.1365-3180.1962.tb00185.x
63414|T||Brown,J.C., and J.E. Ambler|Iron-Stress Response in Tomato (Lycopersicon esculentum) 1.  Sites of Fe Reduction, Absorption and Transport|Physiol. Plant. (Multiple Languages)31:221-224|1974|10.1111/j.1399-3054.1974.tb03695.x
63415|T||Ambler,J.E., J.C. Brown, and H.G. Gauch|Sites of Iron Reduction in Soybean Plants|Agron. J.63:95-97|1971|10.2134/agronj1971.00021962006300010029x
63416|T||Alva,A.K., B. Huang, O. Prakash, and S. Paramasivam|Effects of Copper Rates and Soil pH on Growth and Nutrient Uptake by Citrus Seedlings|J. Plant Nutr.22(11): 1687-1699|1999|10.1080/01904169909365747
63417|T||Burdge,E.L.|The Mode of Action of RH-1965:  A New Phenylpyrimidinone Bleaching Herbicide|Pest Manag. Sci.56(3): 245-248|2000|10.1002/(SICI)1526-4998(200003)56:3<245::AID-PS133>3.0.CO;2-A
63418|T||Antunes,A.M.G., and M.A. Nunes|Effects of Aluminum on Nutrient Solution pH and Nitrate/Ammonium Uptake by Triticale|J. Plant Nutr.20(10): 1391-1401|1997|10.1080/01904169709365342
63419|T||Jorge,R.A., and P. Arruda|Aluminum-Induced Organic Acids Exudation by Roots of an Aluminum-Tolerant Tropical Maize|Phytochemistry45(4): 675-681|1997|10.1016/S0031-9422(97)00044-7
63420|T||Alva,A.K., D.G. Edwards, C.J. Asher, and F.P.C. Blamey|Relationships Between Root Length of Soybean and Calculated Activities of Aluminum Monomers in Nutrient Solution|Soil Sci. Soc. Am. J.50:959-962|1986|10.2136/sssaj1986.03615995005000040026x
63421|T||Arthur,F.H.|Knockdown, Mortality, and Progeny Production of Lesser Grain Borers (Coleoptera: Bostrichidae) and Rice Weevils (Coleoptera: Curculionidae) Exposed for Short Intervals on Wheat Treated with Cyfluthrin|J. Econ. Entomol.92(5): 1198-1205|1999|10.1093/jee/92.5.1198
63422|T||Ashraf,M., and H. Rehman|Interactive Effects of Nitrate and Long-Term Waterlogging on Growth, Water Relations, and Gaseous Exchange Properties of Maize (Zea mays L.)|Plant Sci.144:35-43|1999|10.1016/S0168-9452(99)00055-2
63423|T||Andrews,C.J., M. Skipsey, J.K. Townson, C. Morris, I. Jepson, and R. Edwards|Glutathione Transferase Activities Toward Herbicides Used Selectively in Soybean|Pestic. Sci.51(2): 213-222|1997|10.1002/(SICI)1096-9063(199710)51:2<213::AID-PS622>3.0.CO;2-L
63424|T||Alexander,A.G.|Relationships of Gibberellic Acid to Water and Phosphorus in the Growth, Sugar Production, and Enzyme Behavior of Sugarcane|J. Agric. Univ. P. R.53(3): 149-166|1969|10.46429/jaupr.v53i3.11154
63425|T||Arnold,M.A., D.C. Wilkerson, B.J. Lesikar, and D.F. Welsh|Impacts of Copper Leaching from Copper Hydroxide-Treated Containers on Water Recycling, Nursery Runoff, and Growth of Baldcypress and Corn|J. Am. Soc. Hortic. Sci.122(4): 574-581|1997|10.21273/JASHS.122.4.574
63426|T||Ashouri,A., S. Overney, D. Michaud, and C. Cloutier|Fitness and Feeding are Affected in the Two-Spotted Stinkbug, Perillus bioculatus, by the Cysteine Proteinase Inhibitor, Oryzacystatin I|Arch. Insect Biochem. Physiol.38(2): 74-83|1998|10.1002/(SICI)1520-6327(1998)38:2<74::AID-ARCH3>3.0.CO;2-V
63427|T||Arthur,F.H.|Survival of Red Flour Beetles (Coleoptera:  Tenebrionidae) on Concrete Partially Treated with Cyfluthrin|J. Econ. Entomol.92(4): 981-987|1999|10.1093/jee/92.4.981
63428|T||Arthur,F.H.|Residual Toxicity of Cyfluthrin Wettable Powder Against Tribolium confusum (Coleoptera:  Tenebrionidae) Exposed for Short Time Intervals on Concrete|J. Stored Prod. Res.34(1): 19-25|1998|10.1016/S0022-474X(97)00037-4
63429|T||Arthur,F.H.|Residual Susceptibility of Plodia interpunctella to Deltamethrin Dust: Effects of Concentration and Time of Exposure|J. Stored Prod. Res.33(4): 313-319|1997|10.1016/S0022-474X(97)00015-5
63430|T||Arthur,F.H.|Residual Susceptibility of Fifth Instar Plodia interpunctella to Cyfluthrin Wettable Powder|J. Stored Prod. Res.35(1): 99-105|1999|10.1016/S0022-474X(98)00016-2
63431|T||Arthur,F.H.|Effects of a Food Source on Red Flour Beetle (Coleoptera:  Tenebrionidae) Survival After Exposure on Concrete Treated with Cyfluthrin|J. Econ. Entomol.91(3): 773-778|1998|10.1093/jee/91.3.773
63432|T||Arthur,F.H.|Effect of Temperature on Residual Toxicity of Cyfluthrin Wettable Powder|J. Econ. Entomol.92(3): 695-699|1999|10.1093/jee/92.3.695
63433|T||Arthur,F.H.|Residual Studies with Cyfluthrin Wettable Powder:  Toxicity Toward Red Flour Beetles (Coleoptera:  Tenebrionidae) Exposed for Short Intervals on Treated Concrete|J. Econ. Entomol.91(1): 309-319|1998|10.1093/jee/91.1.309
63434|T||Armstrong,J., and W. Armstrong|Phragmites Die-Back: Toxic Effects of Propionic, Butyric and Caproic Acids in Relation to pH|New Phytol.142(2): 201-217|1999|10.1046/j.1469-8137.1999.00395.x
63435|T||Ateh,C.M., and R.G. Harvey|Annual Weed Control by Glyphosate in Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.13(2): 394-398|1999|10.1017/S0890037X00041920
63436|T||Amor,T.B., M. Tronchin, L. Bortolotto, R. Verdiglione, and G. Jori|Porphyrins and Related Compounds as Photoactivatable Insecticides I. Phototoxic Activity of Hematoporphyrin Toward Ceratitis capitata and Bactrocera oleae|Photochem. Photobiol.67(2): 206-211|1998|10.1111/j.1751-1097.1998.tb05188.x
63438|T||Asin,L., and X. Pons|Effects of Soil Insecticide Treatments on Maize Aphids and Aphid Predators in Catalonia|Crop Prot.18(6): 389-395|1999|10.1016/S0261-2194(99)00039-3
63439|T||Aulerich,R.J., S.J. Bursian, and A.C. Napolitano|Subacute Toxicity of Dietary Heptachlor to Mink (Mustela vison)|Arch. Environ. Contam. Toxicol.19(6): 913-916|1990|10.1007/BF01055060
63440|T||Arredondo-Jimenez,J.I., M.H. Rodriguez, E.G. Loyola, and D.N. Bown|Behaviour of Anopheles albimanus in Relation to Pyrethroid-Treated Bednets|Med. Vet. Entomol.11(1): 87-94|1997|10.1111/j.1365-2915.1997.tb00294.x
63441|T||Arthur,F.H.|Differential Effectiveness of Deltamethrin Dust on Plywood, Concrete, and Tile Surfaces Against Three Stored-Product Beetles|J. Stored Prod. Res.33(2): 167-173|1997|10.1016/S0022-474X(96)00041-0
63442|T||Askew,S.D., J.E. Street, and D.R. Shaw|Herbicide Programs for Red Rice (Oryza sativa) Control in Soybean (Glycine max)|Weed Technol.12(1): 103-107|1998|10.1017/S0890037X00042640
63443|T||Arthur,F.H.|Evaluation of an Encapsulated Formulation of Cyfluthrin to Control Sitophilus oryzae (L.) on Stored Wheat|J. Stored Prod. Res.35(2): 159-166|1999|10.1016/S0022-474X(98)00041-1
63444|T||Andersen,C.P., and C.F. Scagel|Nutrient Availability Alters Belowground Respiration of Ozone-Exposed Ponderosa Pine|Tree Physiol.17(6): 377-387|1997|10.1093/treephys/17.6.377
63445|A||Al-Rekabi,S.A.W., and C.T. Zia|The Effect of Heavy Metals on Achlya americana var. Cambrica Trow|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control25(5): 453-462|1990|
63446|T||Al-Rajhi,D., S.A.S. Mostafa, P.R. Skidmore, and C.N. Koliopanos|Control of Wheat Aphids (Sitobion spp.) in Saudi Arabia Using Chlorpyriphos, Chlorpyriphos Methyl or Dimethoate|Int. Pest Control29(4): 92-93|1987|
63447|T||Al-Mihanna,A.A., A.K. Salama, and M.Y. Abdalla|Biodegradation of Chlorpyrifos by Either Single or Combined Cultures of Some Soilborne Plant Pathogenic Fungi|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(6): 693-704|1998|
63448|T||Al-Khatib,K., and D. Peterson|Soybean (Glycine max) Response to Simulated Drift from Selected Sulfonylurea Herbicides, Dicamba, Glyphosate, and Glufosinate|Weed Technol.13(2): 264-270|1999|10.1017/S0890037X00041713
63449|T||Al-Khatib,K., and A. Tamhane|Dry Pea (Pisum sativum L.) Response to Low Rates of Selected Foliar- and Soil-Applied Sulfonylurea and Growth Regulator Herbicides|Weed Technol.13(4): 753-758|1999|10.1017/S0890037X00042184
63450|T||Al-Khatib,K., C. Libbey, S. Kadir, and R. Boydston|Differential Varietal Response of Green Pea (Pisum sativum) to Metribuzin|Weed Technol.11(4): 775-781|1997|10.1017/S0890037X00043426
63451|T||Al-Khatib,K., D.E. Peterson, and D.L. Regehr|Control of Imazethapyr-Resistant Common Sunflower (Helianthus annuus) in Soybean (Glycine max) and Corn (Zea mays)|Weed Technol.14(1): 133-139|2000|10.1614/0890-037X(2000)014[0133:COIRCS]2.0.CO;2
63452|T||Alizadeh,H.M., C. Preston, and S.B. Powles|Paraquat-Resistant Biotypes of Hordeum glaucum from Zero-Tillage Wheat|Weed Res. (Multiple Languages)38(2): 139-142|1998|10.1046/j.1365-3180.1998.00081.x
63453|A||Aliotta,G., G. Pinto, and A. Pollio|Observations on Tolerance to Heavy Metals of Four Green Algae in Relation to pH|G. Bot. Ital. (Multiple Languages)117(5/6): 247-251|1983|10.1080/11263508309427974
63454|T||AliNiazee,M.T., A. Alhumeyri, and M. Saeed|Laboratory and Field Evaluation of a Neem Insecticide Against Archips rosanus L. (Lepidoptera:  Tortricidae)|Can. Entomol.129(1): 27-33|1997|10.4039/Ent12927-1
63455|T||Ali,G., P.S. Srivastava, and M. Iqbal|Some Physiochemical Responses of Bacopa monniera (L.) Wettst. Cultures to Copper Toxicity|Indian J. Exp. Biol.37(11): 1144-1147|1999|
63456|T||Ali,G., P.S. Srivastava, and M. Iqbal|Morphogenic and Biochemical Responses of Bacopa monniera Cultures to Zinc Toxicity|Plant Sci.143(2): 187-193|1999|10.1016/S0168-9452(99)00032-1
63457|T||Ahmed,M.B.|Studies in Iron-Induced Chlorosis.  The Relative Toxicity of Some Heavy Metals to the Tomato Plant|Bull. Fac. Agric. Univ. Cairo50:20 p.|1956|
63458|T||Smagghe,G., and D. Degheele|Selectivity of Nonsteroidal Ecdysteroid Agonists RH 5849 and RH 5992 to Nymphs and Adults of Predatory Soldier Bugs, Podisus nigrispinus and P. maculiventris (Hemiptera:  Pentatomidae)|J. Econ. Entomol.88(1): 40-45|1995|10.1093/jee/88.1.40
63460|T||Jordan,D.L.|Interactions of Fenoxaprop-Ethyl with Bensulfuron and Bentazon in Dry-Seeded Rice (Oryza sativa)|Weed Technol.9(4): 724-727|1995|10.1017/S0890037X00024118
63461|T||Pandya,R.B., M.I. Khan, S.K. Gupta, and S.K. Arora|Effect of Cycocel on Growth, Yield and Chemical Composition of Raya (Brassica juncea Coss.)|Biochem. Physiol. Pflanzen (Multiple Languages)165(S):283-289|1974|10.1016/S0015-3796(17)30960-5
63462|T||Peralta,J.R., J.L. Gardea-Torresdey, K.J. Tiemann, E. Gomez, S. Arteaga, E. Rascon, and J.G. Parsons|Uptake and Effects of Five Heavy Metals on Seed Germination and Plant Growth in Alfalfa (Medicago sativa L.)|Bull. Environ. Contam. Toxicol.66(6): 727-734|2001|
63463|T||Poostchi,I., and W.R. Schmehl|Relative Total Amino Acid Contents of Sugarbeets at Harvest as Influenced by Preharvest Application of Gibberellic Acid and Growth Retardants|Isr. J. Agric. Res.23(2): 69-73|1973|
63464|T||Porter,J.R., and R.P. Sheridan|Inhibition of Nitrogen Fixation in Alfalfa by Arsenate, Heavy Metals, Fluoride, and Simulated Acid Rain|J. Plant Physiol.68:143-148|1981|10.1104/pp.68.1.143
63465|T||Powell,M.J., M.S. Davies, and D. Francis|Effects of Zinc on Cell, Nuclear and Nucleolar Size, and on RNA and Protein Content in the Root Meristem of a Zinc-Tolerant and a Non-Tolerant Cultivar of Festuca rubra L.|New Phytol.104:671-679|1986|10.1111/j.1469-8137.1986.tb00668.x
63466|T||Proctor,J., and S.R.J. Woodell|The Plant Ecology of Serpentine I.  Serpentine Vegetation of England and Scotland|J. Ecol.59:375-395|1971|10.2307/2258319
63467|T||Radetski,C.M., S. Cotelle, and J.F. Ferard|Classical and Biochemical Endpoints in the Evaluation of Phytotoxic Effects Caused by the Herbicide Trichloroacetate|Environ. Exp. Bot.44(3): 221-229|2000|10.1016/S0098-8472(00)00069-1
63469|T||Rauser,W.E., and A.B. Samarakoon|Vein Loading in Seedlings of Phaseolus vulgaris Exposed to Excess Cobalt, Nickel, and Zinc|J. Plant Physiol.65:578-583|1980|10.1104/pp.65.4.578
63470|T||Raveton,M., P. Ravanel, F. Royer, A. Schneider, M. Euvrard, and M. Tissut|Triticonazole Distribution in Dressed Corn Caryopsis and Seedlings|J. Agric. Food Chem.47(4): 1740-1744|1999|10.1021/jf980596y
63471|T||Reichard,S.L., R.M. Sulc, and L.H. Rhodes|Growth and Reproduction of Sclerotinia trifoliorum as Influenced by Herbicides|Mycologia89(1): 82-88|1997|10.1080/00275514.1997.12026757
63472|T||Reichenauer,T.G., B.A. Goodman, P. Kostecki, and G. Soja|Ozone Sensitivity in Triticum durum and T. aestivum with Respect to Leaf Injury, Photosynthetic Activity and Free Radical Content|Physiol. Plant. (Multiple Languages)104(4): 681-686|1998|10.1034/j.1399-3054.1998.1040423.x
63473|T||Reigosa,M.J., L. Gonzalez, A. Sanches-Moreiras, B. Duran, D. Puime, D.A. Fernadez, and J.C. Bolano|Comparison of Physiological Effects of Allelochemicals and Commercial Herbicides|Allelopathy J.8(2): 211-220|2001|
63474|T||Ries,S.K., and A. Gast|The Effect of Simazine on Nitrogenous Components of Corn|Weeds (Urbana)13:272-274|1965|10.2307/4041045
63475|T||Ries,S.K., C.J. Schweizer, and H. Chmiel|The Increase in Protein Content and Yield of Simazine-Treated Crops in Michigan and Costa Rica|Bioscience18:205-208|1968|10.2307/1294252
63476|T||Ries,S.K., and V. Wert|Simazine-Induced Nitrate Absorption Related to Plant Protein Content|Weed Sci.20(6): 569-572|1972|10.1017/S0043174500078772
63477|A||Ringwood,A.H., D.E. Conners, and J. Hoguet|Effects of Natural and Anthropogenic Stressors on Lysosomal Destabilization in Oysters Crassostrea virginica|Mar. Ecol. Prog. Ser.166:163-171|1998|10.3354/meps166163
63478|T||Robert,L.L., and M.J. Perich|Phlebotomine Sand Fly (Diptera: Psychodidae) Control Using a Residual Pyrethroid Insecticide|Am. Mosq. Control Assoc. J.11(2): 195-199|1995|
63479|T||Rogers,R.L.|Absorption, Translocation, and Metabolism of p-Nitrophenyl-alpha,alpha,alpha-Trifluoro-2-Nitro-p-Tolyl Ether by Soybeans|J. Agric. Food Chem.19(1): 32-35|1971|10.1021/jf60173a037
63480|T||Rosales-Robles,E., J.M. Chandler, S.A. Senseman, and E.P. Prostko|Integrated Johnsongrass Management in Cotton with Reduced Rates of Clethodim and Cultivation|J. Cotton Sci.3:27-34|1999|
63481|T||Rudd,J.A.|Effects of Pesticides on Spin Down and Webbing Production by the Two-Spotted Spider Mite, Tetranychus urticae Koch (Acari: Tetranychidae)|Exp. Appl. Acarol.21(9): 615-628|1997|10.1023/A:1018452517527
63482|T||Ruppel,R.F.|Effectiveness of Sevin Against the Grey Garden Slug|J. Econ. Entomol.52(2): 360-|1959|10.1093/jee/52.2.360
63483|T||Russo,F., and E. Brennan|Phytotoxicity and Distribution of Cadmium in Pin Oak Seedlings Determined by Mode of Entry|For. Sci.25(2): 328-332|1979|
63484|T||Salam,M.A., and G. Soja|Bush Bean (Phaseolus vulgaris L.) Leaf Injury, Photosynthesis and Stomatal Functions Under Elevated Ozone Levels|Water Air Soil Pollut.85:1533-1538|1995|10.1007/BF00477199
63485|T||Salunkhe,D.K., M.T. Wu, and B. Singh|The Nutritive Composition of Pea and Sweet Corn Seeds as Influenced by s-Triazine Compounds|J. Am. Soc. Hortic. Sci.96(4): 489-492|1971|10.21273/JASHS.96.4.489
63486|T||Salunkhe,D.K., M. Wu, M.T. Wu, and B. Singh|Effects of Telone and Nemagon on Essential Nutritive Components and the Respiratory Rates of Carrot (Daucus carota L.) Roots and Sweet Corn (Zea mays L.) Seeds|J. Am. Soc. Hortic. Sci.96(3): 357-359|1971|10.21273/JASHS.96.3.357
63487|T||Samarakoon,A.B., and W.E. Rauser|Carbohydrate Levels and Photoassimilate Export from Leaves of Phaseolus vulgaris Exposed to Excess Cobalt, Nickel, and Zinc|J. Plant Physiol.63:1165-1169|1979|10.1104/pp.63.6.1165
63488|T||Samsoe-Petersen,L.|Effects of 37 Fungicides on the Rove Beetle Aleochara bilineata (Col.: Staphylinidae) in the Laboratory|Entomophaga40(2): 145-152|1995|10.1007/BF02373063
63489|T||Samsoe-Petersen,L.|Effects of 45 Insecticides, Acaricides and Molluscicides on the Rove Beetle Aleochara bilineata (Col.: Staphylinidae) in the Laboratory|Entomophaga38(3): 371-382|1993|10.1007/BF02374455
63490|T||Samsoe-Petersen,L.|Effects of 67 Herbicides and Plant Growth Regulators on the Rove Beetle Aleochara bilineata (Col.:  Staphylinidae) in the Laboratory|Entomophaga40(1): 95-104|1995|10.1007/BF02372685
63491|T||Sandalio,L.M., H.C. Dalurzo, M. Gomez, M.C. Romero-Puertas, and L.A. Del Rio|Cadmium-Induced Changes in the Growth and Oxidative Metabolism of Pea Plants|J. Exp. Bot.52(364): 2115-2126|2001|10.1093/jexbot/52.364.2115
63492|T||Sauer,G.R., D. Nie, L.N.Y. Wu, and R.E. Wuthier|Induction and Characterization of Metallothionein in Chicken Epiphyseal Growth Plate Cartilage Chondrocytes|J. Cell. Biochem.68(1): 110-120|1998|10.1002/(SICI)1097-4644(19980101)68:1<110::AID-JCB11>3.0.CO;2-L
63493|T||Scherbatskoy,T., R.M. Klein, and G.J. Badger|Germination Responses of Forest Tree Seed to Acidity and Metal Ions|Environ. Exp. Bot.27(2): 157-164|1987|10.1016/0098-8472(87)90066-9
63494|T||Schlegel,H., D.L. Godbold, and A. Huttermann|Whole Plant Aspects of Heavy Metal Induced Changes in CO2 Uptake and Water Relations of Spruce (Picea abies) Seedlings|Physiol. Plant. (Multiple Languages)69:265-270|1987|10.1111/j.1399-3054.1987.tb04285.x
63495|T||Schraudner,M., W. Moeder, C. Wiese, W. Van Camp, D. Inze, C. Langebartels, and H.,Jr. Sandermann|Ozone-Induced Oxidative Burst in the Ozone Biomonitor Plant, Tobacco Bel W3|Plant J.16(2): 235-245|1998|10.1046/j.1365-313x.1998.00294.x
63497|T||Scott,M., K. Diwell, and J.A. McKenzie|Dieldrin Resistance in Lucilia cuprina (the Australian Sheep Blowfly):  Chance, Selection and Response|Heredity (Edinb.)84:599-604|2000|10.1046/j.1365-2540.2000.00703.x
63498|T||Scott,R.C., D.R. Shaw, R.L. Ratliff, and L.J. Newsom|Synergism of Grass Weed Control with Postemergence Combinations of SAN 582 and Fluazifop-P, Imazethapyr, or Sethoxydim|Weed Technol.12(2): 268-274|1998|10.1017/S0890037X00043803
63499|T||Scott,T.G., Y.L. Willis, and J.A. Ellis|Some Effects of a Field Application of Dieldrin on Wildlife|J. Wildl. Manag.23:409-427|1959|10.2307/3796489
63500|T||Seefeldt,S.S., R. Zemetra, F.L. Young, and S.S. Jones|Production of Herbicide-Resistant Jointed Goatgrass (Aegilops cylindrica) x Wheat (Triticum aestivum) Hybrids in the Field by Natural Hybridization|Weed Sci.46(6): 632-634|1998|10.1017/S004317450008961X
63501|T||Seguin,A., H. Milhomme, and N.M. Satchivi|Effect of BAS-145-138 on the Phytotoxicity of Imazaquin and Metsulfuron-Methyl|Weed Sci.47(2): 130-135|1999|10.1017/S0043174500091529
63502|T||Sone,S., Y. Hattori, S.I. Tsuboi, and Y. Otsu|Difference in Susceptibility to Imidacloprid of the Populations of the Small Brown Planthopper, Laodelphax striatellus Fallen, from Various Localities in Japan|J. Pestic. Sci. (Multiple Languages)20:541-543|1995|10.1584/jpestics.20.541
63503|T||Srinivasan,C., C.M. Pappiah, and A. Doraipandian|Effect of Gibberellic Acid on Ascorbic Acid, Sugar Content & Oxidative Enzyme Activity of West Indian Cherry (Malpighia punicifolia L.) Fruit|Indian J. Exp. Biol.11:469-470|1973|
63504|T||Srivastava.,V.K., and K. Kumar|Effect of the Chemosterilant Bisazir on the Eggs of Earias fabia Stoll|Toxicol. Lett.23(2): 195-200|1984|10.1016/0378-4274(84)90126-7
63505|T||Suchail,S., D. Guez, and L.P. Belzunces|Discrepancy Between Acute and Chronic Toxicity Induced by Imidacloprid and Its Metabolites in Apis mellifera|Environ. Toxicol. Chem.20(11): 2482-2486|2001|10.1002/etc.5620201113
63506|T||Symeonidis,L., T. McNeilly, and A.D. Bradshaw|Differential Tolerance of Three Cultivars of Agrostis capillaris L. to Cadmium, Copper, Lead, Nickel and Zinc|New Phytol.101:309-315|1985|10.1111/j.1469-8137.1985.tb02837.x
63507|T||Takahashi,H., K. Kobayashi, and I.S. Shim|Phytotoxic Activity of Cafenstrole on Rice (Oryza sativa L.) and Barnyardgrass (Echinochloa crus-galli (L.) Beauv. var. formosensis Ohwi) Seedlings Emerging from Various Depths and Its Behavior in Soil|Zasso Kenkyu45(3): 200-206|2000|10.3719/weed.45.200
63508|T||Tardif,F.J., and S.B. Powles|Effect of Malathion on Resistance to Soil-Applied Herbicides in a Population of Rigid Ryegrass (Lolium rigidum)|Weed Sci.47(3): 258-261|1999|10.1017/S0043174500091748
63509|T||Tharp,B.E., and J.J. Kells|Influence of Herbicide Application Rate, Timing, and Interrow Cultivation on Weed Control and Corn (Zea mays) Yield in Glufosinate-Resistant and Glyphosate-Resistant Corn|Weed Technol.13(4): 807-813|1999|10.1017/S0890037X00042263
63510|T||Thompson,W.M., S.J. Nissen, and R.A. Masters|AC 263,222 Absorption and Fate in Leafy Spurge (Euphorbia esula)|Weed Sci.46(5): 510-513|1998|10.1017/S0043174500091001
63511|T||Tomlin,A.D.|The Toxicity of Insecticides by Contact and Soil Treatment to Two Species of Ground Beetles (Coleoptera:  Carabidae)|Can. Entomol.107:529-532|1975|10.4039/Ent107529-5
63512|T||Tweedy,J.A., and S.K. Ries|Effect of Simazine on Nitrate Reductase Activity in Corn|Plant Physiol.42:280-282|1967|10.1104/pp.42.2.280
63513|T||Van de Veire,M., G. Smagghe, and D. Degheele|Laboratory Test Method to Evaluate the Effect of 31 Pesticides on the Predatory Bug, Orius laevigatus (Het.:  Anthocoridae)|Entomophaga41(2): 235-243|1996|10.1007/BF02764249
63514|T||Vigue,J.T., and P.H. Li|The Effect of Simazine and Cytokinins on Potato Tuber Protein, Nitrogen Content and Yield|Potato Res.17:327-332|1974|10.1007/BF02360327
63515|T||Vincent,C., A. Ferran, L. Guige, J. Gambier, and J. Brun|Effects of Imidacloprid on Harmonia axyridis (Coleoptera: Coccinellidae) Larval Biology and Locomotory Behavior|Eur. J. Entomol.97(4): 501-506|2000|10.14411/eje.2000.077
63516|T||Weathersbee III,A.A., M.V. Meisch, A. Inman, and D.A. Dame|Activity of lambda-Cyhalothrin Applied as an Ultralow Volume Ground Treatment Against Anopheles quadrimaculatus Adults|Am. Mosq. Control Assoc. J.7(2): 238-241|1991|
63517|T||Whitworth,C.W., and H.W. Jun|Influence of Polysorbate 20 and Sodium Cholate on Uptake of p-Hydroxybenzoates by the Frog, Rana pipiens|J. Pharm. Sci.62(11): 1890-1891|1973|10.1002/jps.2600621139
63518|T||Arthur,F.H.|Efficacy of Cyfluthrin, Cyfluthrin + Piperonyl Butoxide, and Cyfluthrin + Piperonyl Butoxide + Chlorpyrifos-Methyl as Protectants of Stored Peanuts|Peanut Sci.21:44-48|1994|10.3146/i0095-3679-21-1-11
63519|T||Alix,A., A.M. Cortesero, J.P. Nenon, and J.P. Anger|Selectivity Assessment of Chlorfenvinphos Reevaluated by Including Physiological and Behavioral Effects on an Important Beneficial Insect|Environ. Toxicol. Chem.20(11): 2530-2536|2001|10.1002/etc.5620201119
63520|T||Aguero,C., A. Vigliocco, G. Abdala, and R. Tizio|Effect of Gibberellic Acid and Uniconazol on Embryo Abortion in the Stenospermocarpic Grape Cultivars Emperatriz and Perlon|Plant Growth Regul.30(1): 9-16|2000|10.1023/A:1006207614388
63521|T||Charrois,J.W.A., W.B. McGill, and K.L. Froese|Acute Ecotoxicity of Creosote-Contaminated Soils to Eisenia fetida: A Survival-Based Approach|Environ. Toxicol. Chem.20(11): 2594-2603|2001|
63522|T||Akhter,S., and J. Antonovics|Use of Internal Transcribed Spacer Primers and Fungicide Treatments to Study the Anther-Smut Disease, Microbotryum violaceum (=Ustilago violacea), of White Campion Silene alba (=Silene latifolia)|Int. J. Plant Sci.160(6): 1171-1176|1999|10.1086/314197
63523|T||Abdellatif,M.A., and H.T. Reynolds|Toxic Effects of Granulated Disulfoton on Soil Arthropods|J. Econ. Entomol.60(1): 281-283|1967|10.1093/jee/60.1.281
63524|A||Akkanen,J., and J.V.K. Kukkonen|Effects of Water Hardness and Dissolved Organic Material on Bioavailability of Selected Organic Chemicals|Environ. Toxicol. Chem.20(10): 2303-2308|2001|10.1002/etc.5620201024
63525|T||Alonge,S.O.|Effect of Imazaquin Applications on the Growth, Leaf Chlorophyll and Yield of Soybean in the Guinea Savanna of Nigeria|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(3): 321-336|2000|
63526|T||Arthur,F.H.|Cyfluthrin WP and EC Formulations to Control Malathion-Resistant Red Flour Beetles and Confused Flour Beetles (Coleoptera:  Tenebrionidae):  Effects of Paint on Residual Efficacy|J. Entomol. Sci.27(4): 436-444|1992|10.18474/0749-8004-27.4.436
63527|T||Bushnell,W.R.|Delay of Senescence in Wheat Leaves by Cytokinins, Nickel, and Other Substances|Can. J. Bot.44:1485-1493|1966|10.1139/b66-163
63528|T||Balasubrahmanyam,V.R., and S.D. Khanduja|Effect of Foliar Sprays of Uracil, Xanthine and Caffeine on the Nucleic Acid and Protein Content of Leaves and Fruiting of Thompson Seedless Grapes (Der Einfluss von Spruhbehandlungen mit Uracil, Xanthin und Coffein auf|Vitis (Multiple Languages)12:100-104|1973|
63530|T||Beckett,P.H.T., and R.D. Davis|The Additivity of the Toxic Effects of Cu, Ni and Zn in Young Barley|New Phytol.81:155-173|1978|10.1111/j.1469-8137.1978.tb01615.x
63531|T||De Silans,L.N.M.P., J.P. Dedet, and J.R. Arias|Field Monitoring of Cypermethrin Residual Effect on the Mortality Rates of the Phlebotomine Sand Fly Lutzomyia longipalpis in the State of Paraiba, Brazil|Mem. Inst. Oswaldo Cruz93(3): 339-344|1998|10.1590/S0074-02761998000300012
63532|T||Darwent,A.L., and J.R. Moyer|Control of Wild Oat in the Year of Smooth Bromegrass Establishment and Its Effect on the Yield and Quality of Subsequent Seed Crops|Can. J. Plant Sci.79(3): 447-453|1999|10.4141/P98-086
63533|T||Cairns,R.R.|Effects of Surfactants Applied to Samples of Solonetz Soil on Water Penetration and Plant Growth|Can. J. Soil Sci.52:267-269|1972|10.4141/cjss72-033
63534|T||Mansour,F.A., K.R.S. Ascher, and F. Abo-Moch|Effects of Neemgard on Phytophagous and Predacious Mites and on Spiders|Phytoparasitica25(4): 333-336|1997|10.1007/BF02981097
63535|T||Hoveland,C.S., J.H. Bouton, and R.G. Durham|No-Till Seeding of Red Clover into Tall Fescue as Influenced by Grass Suppression, Fungicide, and Nutrients|J. Prod. Agric.10(4): 561-564|1997|10.2134/jpa1997.0561
63537|T||Johnson,G.A., T.R. Hoverstad, and R.E. Greenwald|Integrated Weed Management Using Narrow Corn Row Spacing, Herbicides, and Cultivation|Agron. J.90(1): 40-46|1998|10.2134/agronj1998.00021962009000010008x
63539|T||Gilbert,B.E., and F.R. Pember|Further Evidence Concerning the Toxic Action of Aluminum in Connection with Plant Growth|Soil Sci.31:267-273|1931|10.1097/00010694-193104000-00004
63540|T||Grote,M., M. Sietz, J. Hofele, and J. Kowalzik|Investigations on the Phytoavailability of Beryllium and Vanadium|Fresenius Environ. Bull.6(1-2): 37-42|1997|
63541|T||Iwasaki,K., and A. Matsumura|Effect of Silicon on Alleviation of Manganese Toxicity in Pumpkin (Cucurbita moschata Duch cv. Shintosa)|Soil Sci. Plant Nutr.45(4): 909-920|1999|10.1080/00380768.1999.10414340
63542|AT||Irwin,L.K., S. Gray, and E. Oberdorster|Vitellogenin Induction in Painted Turtle, Chrysemys picta, as a Biomarker of Exposure to Environmental Levels of Estradiol|Aquat. Toxicol.55(1-2): 49-60|2001|10.1016/S0166-445X(01)00159-X
63543|T||Gimenez-Abian,M.I., G. Gimenez-Martin, M.H. Navarrete, and C. De la Torre|Microtubular Structures Developed in Response to a Carbamate Herbicide in Plant Mitosis|Protoplasma (Multiple Languages)200(1-2): 65-70|1997|10.1007/BF01280735
63544|T||Cotelle,S., J.F. Masfaraud, and J.F. Ferard|Assessment of the Genotoxicity of Contaminated Soil with the Allium/Vicia-Micronucleus and the Tradescantia-Micronucleus Assays|Mutat. Res.426(2): 167-171|1999|10.1016/S0027-5107(99)00063-9
63545|T||Phillips,T.M., A.G. Seech, D. Liu, H. Lee, and J.T. Trevors|Monitoring Biodegradation of Creosote in Soils Using Radiolabels, Toxicity Tests, and Chemical Analysis|Environ. Toxicol.15(2): 99-106|2000|10.1002/(SICI)1522-7278(2000)15:2<99::AID-TOX5>3.0.CO;2-D
63546|T||Basak,M., M. Sharma, and U. Chakraborty|Biochemical Responses of Camellia sinensis (L.) O. Kuntze to Heavy Metal Stress|J. Environ. Biol.22(1): 37-41|2001|
63547|T||Phillips,T.M., D. Liu, A.G. Seech, H. Lee, and J.T. Trevors|Monitoring Bioremediation in Creosote-Contaminated Soils Using Chemical Analysis and Toxicity Tests|J. Ind. Microbiol. Biotechnol.24(2): 132-139|2000|10.1038/sj.jim.2900789
63548|T||Peshney,N.L.|Compatibility of Fungicides with Some Insecticides with Reference to Fungitoxicity and Phytotoxicity|PKV Res. J.14(1): 35-37|1990|
63549|T||Parlat,S.S., A.O. Yildiz, and H. Oguz|Effect of Clinoptilolite on Performance of Japanese Quail (Coturnix coturnix japonica) During Experimental Aflatoxicosis|Br. Poult. Sci.40(4): 495-500|1999|10.1080/00071669987269
63550|T||Payne,M.G., and J.L. Fults|The Effect of Maleic Hydrazide and 2,4-D on Reducing Sugars and Sucrose of Red McClure Potatoes|Am. Potato J.32:144-149|1955|10.1007/BF02851210
63551|T||Madan,M., and K.S. Thind|Role of Trace Elements on the Growth and Sporulation of Alternaria chartarum and A. solani|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.45(6): 628-632|1979|
63552|T||Wall,D.A., and M.A.H. Smith|Control of Volunteer Flax in Wheat|Can. J. Plant Sci.79(3): 463-468|1999|10.4141/P98-105
63553|T||Tixier,C., P. Bogaerts, M. Sancelme, F. Bonnemoy, L. Twagilimana, A. Cuer, J. Bohatier, and H. Veschambre|Fungal Biodegradation of a Phenylurea Herbicide, Diuron:  Structure and Toxicity of Metabolites|Pest Manag. Sci.56(5): 455-462|2000|10.1002/(SICI)1526-4998(200005)56:5<455::AID-PS152>3.0.CO;2-Z
63554|T||Stougaard,R.N.|Adjuvant Combinations with Quizalofop for Wild Oat (Avena fatua) Control in Peppermint (Mentha piperita)|Weed Technol.11(1): 45-50|1997|10.1017/S0890037X00041324
63564|T||Kumpatla,S.P., W. Teng, W.G. Buchholz, and T.C. Hall|Epigenetic Transcriptional Silencing and 5-Azacytidine-Mediated Reactivation of a Complex Transgene in Rice|Plant Physiol.115(2): 361-373|1997|10.1104/pp.115.2.361
63565|T||Kumpatla,S.P., and T.C. Hall|Longevity of 5-Azacytidine-Mediated Gene Expression and Re-establishment of Silencing in Transgenic Rice|Plant Mol. Biol.38(6): 1113-1122|1998|10.1023/A:1006071018039
63566|T||Veerman,A., and C.D. Van Loon|Prevention of Berry Set and True Seed Production in Six Potato (Solanum tuberosum L.) Cultivars by Single Foliar Applications of MCPA|Potato Res.41(2): 127-133|1998|10.1007/BF02358435
63567|T||Ajithkumar,P.V., K.P. Gangadhara, P. Manilal, and A.A.M. Kunhi|Soil Inoculation with Pseudomonas aeruginosa 3MT Eliminates the Inhibitory Effect of 3-Chloro- and 4-Chlorobenzoate on Tomato Seed Germination|Soil Biol. Biochem.30(8/9): 1053-1059|1998|10.1016/S0038-0717(97)00249-6
63568|T||Van Praag,H.J., F. Weissen, P. Dreze, and M. Cogneau|Effects of Aluminium on Calcium and Magnesium Uptake and Translocation by Root Segments of Whole Seedlings of Norway Spruce (Picea abies Karst.)|Plant Soil189(2): 267-273|1997|10.1023/A:1004266826855
63569|T||Akhtar,M.S., and G. Sarwar|Studies on Toxicities of Different Insecticides Against Bifiditermes beesoni (Gardner)|Pak. J. Zool.25(2): 93-98|1993|
63570|T||Valles,S.M., K. Dong, and R.J. Brenner|Mechanisms Responsible for Cypermethrin Resistance in a Strain of German Cockroach, Blattella germanica|Pestic. Biochem. Physiol.66(3): 195-205|2000|10.1006/pest.1999.2462
63571|T||Ahn,Y.J., J.R. Cho, Y.J. Kim, J.K. Yoo, and J.O. Lee|Toxicity of the Herbicide Glufosinate-Ammonium to Tetranychus urticae (Acari: Tetranychidae) Under Laboratory and Field Conditions|Pestic. Sci.51(4): 455-461|1997|10.1002/(SICI)1096-9063(199712)51:4<455::AID-PS667>3.0.CO;2-F
63572|T||Uoc,N.T., D.D. Long, L.V. Ty, D. Chupin, J.P. Renard, and B.X. Nguyen|Effects of Estradiol-17beta and hCG Supplementation on Superovulatory Responses and Embryo Quality in Swamp Buffalo (Bubalus bubalis) Implanted with Norgestomet|Anim. Reprod. Sci.47:181-187|1997|10.1016/S0378-4320(97)00009-2
63573|T||Hammad,E.M.A.F., N.M. Nemer, and N.S. Kawar|Efficacy of Chinaberry Tree (Meliaceae) Aqueous Extracts and Certain Insecticides Against the Pea Leafminer (Diptera: Agromyzidae)|J. Agric. Sci.134(4): 413-420|2000|10.1017/S002185969900773X
63574|T||Scott,J.G.|Toxicity of Spinosad to Susceptible and Resistant Strains of House Flies, Musca domestica|Pestic. Sci.54(2): 131-133|1998|10.1002/(SICI)1096-9063(199810)54:2<131::AID-PS783>3.0.CO;2-0
63575|T||Aguilera-Del Real,A., A. Valverde-Garcia, A.R. Fernandez-Alba, and F. Camacho-Ferre|Behaviour of Endosulfan Residues in Peppers, Cucumbers and Cherry Tomatoes Grown in Greenhouse: Evaluation by Decline Curves|Pestic. Sci.51(2): 194-200|1997|10.1002/(SICI)1096-9063(199710)51:2<194::AID-PS617>3.0.CO;2-K
63576|T||Schuster,D.J.|Laboratory Toxicity of Chlorfenapyr to Keiferia lycopersicella (Lepidoptera: Gelechiidae)|J. Entomol. Sci.33(1): 121-123|1998|10.18474/0749-8004-33.1.121
63577|T||Achar,B.N., J. Keshavayya, P.S.B. Gowda, S.S. Bhat, K.G. Marathe, and C.J.M. D'Souza|Biological Activity and Staining Property of Metal Phthalocyanine Derivatives|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.58(2/3): 141-146|1992|
63578|T||Sclar,D.C., D. Gerace, A. Tupy, K. Wilson, S.A. Spriggs, R.J. Bishop, and W.S. Cranshaw|Effects of Application of Various Reduced-risk Pesticides to Tomato, with Notes on Control of Greenhouse Whitefly|HortTechnology9(2): 185-189|1999|10.21273/HORTTECH.9.2.185
63579|T||Agarwala,S.C., C. Chatterjee, C.P. Sharma, and N. Nautiyal|Copper-Molybdenum Interaction in Maize|Soil Sci. Plant Nutr.35(3): 435-442|1989|10.1080/00380768.1989.10434776
63580|T||Sander,J.E., S.I. Savage, and G.N. Rowland|Sodium Sesquicarbonate Toxicity in Broiler Chickens|Avian Dis.42(1): 215-218|1998|10.2307/1592600
63581|T||Agarwala,S.C., C. Chatterjee, N. Nautiyal, and R. Jain|Sugar-Cane Response to Copper in Refined Sand|Trop. Agric.70(4): 337-341|1993|
63582|T||Ackley,J.A., K.K. Hatzios, and H.P. Wilson|Absorption, Translocation, and Metabolism of Rimsulfuron in Black Nightshade (Solanum nigrum), Eastern Black Nightshade (Solanum ptycanthum), and Hairy Nightshade (Solanum sarrachoides)|Weed Technol.13(1): 151-156|1999|10.1017/S0890037X00045061
63583|T||Sanchez-Hernandez,J.C., and C.H. Walker|In Vitro and In Vivo Cholinesterase Inhibition in Lacertides by Phosphonate- and Phosphorothioate-Type Organophosphates|Pestic. Biochem. Physiol.67(1): 1-12|2000|10.1006/pest.1999.2471
63584|T||Abro,G.H., A.J. Memon, and T.S. Syed|Sub-Lethal Effects of Cyhalothrin and Fluvalinate on Biology of Spodoptera litura F.|Pak. J. Zool.29(2): 181-184|1997|
63585|T||Roberts,R.K., R. Pendergrass, and R.M. Hayes|Economic Analysis of Alternative Herbicide Regimes on Roundup Ready Soybeans|J. Prod. Agric.12(3): 449-454|1999|10.2134/jpa1999.0449
63586|A||Abraham,A., C. Couturier, and J. Parsons|Toxicity of Un-Ionized Ammonia to Juvenille Giant Scallops, Placopecten magellanicus|Bull. Aquac. Assoc. Canada96(3): 68-70|1996|
63587|T||Richter,K., G.A. Bohm, and H. Kleeberg|Effect of NeemAzal, a Natural Azadirachtin-Containing Preparation, on Periplaneta americana (L.) (Orthopt., Blattidae)|J. Appl. Entomol.121(1): 59-64|1997|10.1111/j.1439-0418.1997.tb01371.x
63588|T||Abd-Elghafar,S.F., A.G. Appel, and T.P. Mack|Toxicity of Several Insecticide Formulations Against Adult German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.83(6): 2290-2294|1990|10.1093/jee/83.6.2290
63589|T||Rank,J., and M.H. Nielsen|Allium cepa Anaphase-Telophase Root Tip Chromosome Aberration Assay on N-Methyl-N-Nitrosourea, Maleic Hydrazide, Sodium Azide, and Ethyl Methanesulfonate|Mutat. Res.390:121-127|1997|10.1016/S0165-1218(97)00008-6
63590|T||Abd-Alla,M.H., S.A. Omar, and S. Karanxha|The Impact of Pesticides on Arbuscular Mycorrhizal and Nitrogen-Fixing Symbioses in Legumes|Appl. Soil Ecol.14(3): 191-200|2000|10.1016/S0929-1393(00)00056-1
63591|T||Nagy,P.|Effect of an Artificial Metal Pollution on Nematode Assemblage of a Calcareous Loamy Chernozem Soil|Plant Soil212(1): 35-43|1999|10.1023/A:1004657924496
63592|T||Burgos,N.R., Y.I. Kuk, and R.E. Talbert|Amaranthus palmeri Resistance and Differential Tolerance of Amaranthus palmeri and Amaranthus hybridus to ALS-Inhibitor Herbicides|Pest Manag. Sci.57:449-457|2001|10.1002/ps.308
63593|T||Bowie,M.H., S.D. Worner, and R.B. Chapman|The Use of Image Analysis to Study the Effects of Residues of Esfenvalerate on the Locomotory Behaviour of Panonychus ulmi and Typhlodromus pyri (Acari: Tetranychidae, Phytoseiidae)|Exp. Appl. Acarol.23(1): 1-9|1999|10.1023/A:1006140509101
63594|T||Scharf,M.E., and B.D. Siegfried|Toxicity and Neurophysiological Effects of Fipronil and Fipronil Sulfone on the Western Corn Rootworm (Coleoptera: Chrysomelidae)|Arch. Insect Biochem. Physiol.40(3): 150-156|1999|10.1002/(SICI)1520-6327(1999)40:3<150::AID-ARCH4>3.0.CO;2-5
63595|T||Brown,T.M., P.K. Bryson, and G.T. Payne|Synergism by Propynyl Aryl Ethers in Permethrin-Resistant Tobacco Budworm Larvae, Heliothis virescens|Pestic. Sci.43:323-331|1996|10.1002/(SICI)1096-9063(199604)46:4<323::AID-PS376>3.0.CO;2-Y
63596|AT||Scharf,M.E., B.D. Siegfried, L.J. Meinke, and L.D. Chandler|Fipronil Metabolism, Oxidative Sulfone Formation and Toxicity Among Organophosphate- and Carbamate-Resistant and Susceptible Western Corn Rootworm Populations|Pest Manag. Sci.56:757-766|2000|10.1002/1526-4998(200009)56:9<757::AID-PS197>3.0.CO;2-W
63597|T||Barnard,D.R.|Mediation of Deet Repellency in Mosquitoes (Diptera: Culicidae) by Species, Age, and Parity|J. Med. Entomol.35(3): 340-343|1998|10.1093/jmedent/35.3.340
63598|T||Sprague,C.L., A.L. Frasier, and D. Penner|Identifying Acetolactate Synthase Inhibitors for Potential Control of Quackgrass (Elytrigia repens) and Canada Thistle (Cirsium arvense) in Corn (Zea mays)|Weed Technol.13(1): 54-58|1999|10.1017/S0890037X00044900
63599|T||Bostanian,N.J., H. Thistlewood, and G. Racette|Effects of Five Fungicides Used in Quebec Apple Orchards on Amblyseius fallacis (Garman) (Phytoseiidae: Acari)|J. Hortic. Sci. Biotechnol.73(4): 527-530|1998|10.1080/14620316.1998.11511009
63600|T||Booth,L.H., S. Hodge, and K. O'Halloran|Use of Biomarkers in Earthworms to Detect Use and Abuse of Field Applications of a Model Organophosphate Pesticide|Bull. Environ. Contam. Toxicol.67(5): 633-640|2001|10.1007/s001280171
63601|T||Buntin,G.D.|Damage Loss Assessment and Control of the Cabbage Seedpod Weevil (Coleoptera: Curculionidae) in Winter Canola Using Insecticides|J. Econ. Entomol.92(1): 220-227|1999|10.1093/jee/92.1.220
63602|T||Botia,P., M. Carvajal, A. Cerda, and V. Martinez|Response of Eight Cucumis melo Cultivars to Salinity During Germination and Early Vegetative Growth|Agronomie (Multiple Languages)18(8/9): 503-513|1998|10.1051/agro:19980801
63603|T||Boulard,C., A. de L.Banting, and B. Cardinaud|Activity of Moxidectin 1% Injectable Solution Against First Instar Hypoderma spp. in Cattle and Effects on Antibody Kinetics|Vet. Parasitol.77(2-3): 205-210|1998|10.1016/S0304-4017(97)00129-5
63604|T||Braverman,Y., and A. Chizov-Ginzburg|Duration of Repellency of Various Synthetic and Plant-Derived Preparations for Culicoides imicola, the Vector of African Horse Sickness Virus|Arch. Virol.14(suppl.): 165-174|1998|
63605|T||Borlakoglu,J.T., J.D. Edwards-Webb, and R.R. Dils|Polychlorinated Biphenyls Increase Fatty Acid Desaturation in the Proliferating Endoplasmic Reticulum of Pigeon and Rat Livers|Eur. J. Biochem.188:327-332|1990|10.1111/j.1432-1033.1990.tb15407.x
63606|T||Broadbent,A.B., and D.J. Pree|Resistance to Insecticides in Populations of Frankliniella occidentalis (Pergande) (Thysanoptera:  Thripidae) from Greenhouses in the Niagara Region of Ontario|Can. Entomol.129(5): 907-913|1997|10.4039/Ent129907-5
63607|T||Bostanian,N.J., and G. Racette|Residual Toxicity of lambda-Cyhalothrin on Apple Foliage to Amblyseius fallacis and the Tarnished Plant Bug, Lygus lineolaris|Phytoparasitica25(3): 193-198|1997|10.1007/BF02981732
63608|T||Banken,J.A.O., and J.D. Stark|Multiple Routes of Pesticide Exposure and the Risk of Pesticides to Biological Controls:  A Study of Neem and the Sevenspotted Lady Beetle (Coleoptera:  Coccinellidae)|J. Econ. Entomol.91(1): 1-6|1998|10.1093/jee/91.1.1
63609|T||Boutsalis,P., and S.B. Powles|Seedbank Characteristics of Herbicide-Resistant and Susceptible Sisymbrium orientale|Weed Res. (Multiple Languages)38(5): 389-395|1998|10.1046/j.1365-3180.1998.00109.x
63610|T||Byrne,F.J., M. Cahill, I. Denholm, and A.L. Devonshire|A Biochemical and Toxicological Study of the Role of Insensitive Acetylcholinesterase in Organophosphorus Resistant Bemisia tabaci (Homoptera:  Aleyrodidae) from Israel|Bull. Entomol. Res.84(2): 179-184|1994|10.1017/S0007485300039663
63611|T||Booth,L.H., and M.L. Wickstrom|The Toxicity of Sodium Monofluoroacetate (1080) to Huberia striata, a New Zealand Native Ant|N. Z. J. Ecol.23(2): 161-165|1999|
63612|T||Barber,M.D., G.D. Moores, G.M. Tatchell, W.E. Vice, and I. Denholm|Insecticide Resistance in the Currant-Lettuce Aphid, Nasonovia ribisnigri (Hemiptera:  Aphididae) in the UK|Bull. Entomol. Res.89(1): 17-23|1999|10.1017/S0007485399000036
63613|A||Boura-Halfon,S., M. Rise, S.M. Arad, and A. Sivan|Characterization of Mutants of the Red Microalga Porphyridium aerugineum (Rhodophyceae) Resistant to DCMU and Atrazine|Phycologia36(6): 479-487|1997|10.2216/i0031-8884-36-6-479.1
63614|T||Barkosky,R.R., J.L. Butler, and F.A. Einhellig|Mechanisms of Hydroquinone-Induced Growth Reduction in Leafy Spurge|J. Chem. Ecol.25(7): 1611-1621|1999|10.1023/A:1020892917434
63615|T||Boyd,M.L., and D.J. Boethel|Susceptibility of Predaceous Hemipteran Species to Selected Insecticides on Soybean in Louisiana|J. Econ. Entomol.91(2): 401-409|1998|10.1093/jee/91.2.401
63616|T||Bovey,R.W., P.F. Pace, and H.T. Cralle|Effect of Hand Defoliation on Herbicide Efficacy in Honey Mesquite|J. Range Manag.51(4): 432-435|1998|10.2307/4003329
63617|T||Brantner,J.R., and C.E. Windels|Variability in Sensitivity to Metalaxyl In Vitro, Pathogenicity, and Control of Pythium spp. on Sugar Beet|Plant Dis.82(8): 896-899|1998|10.1094/PDIS.1998.82.8.896
63618|T||Borboa,L., and C. De la Torre|Adaptation to Cd(II) and Zn(II), and the Caffeine-Potentiated Override of the G2 Block Induced by the Checkpoint Activated by DNA Damage|Plant Biosyst.134(1): 3-9|2000|10.1080/11263500012331350275
63619|T||Bonna,R.J., R.J. Aulerich, S.J. Bursian, R.H. Poppenga, W.E. Braselton, and G.L. Watson|Efficacy of Hydrated Sodium Calcium Aluminosilicate and Activated Charcoal in Reducing the Toxicity of Dietary Aflatoxin to Mink|Arch. Environ. Contam. Toxicol.20(3): 441-447|1991|10.1007/BF01064418
63620|T||Bostanian,N.J., N. Larocque, C. Vincent, G. Chouinard, and Y. Morin|Effects of Five Insecticides Used in Apple Orchards on Hyaliodes vitripennis (Say) (Hemiptera:  Miridae)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(2): 143-155|2000|
63621|T||Bostanian,N.J., N. Larocque, G. Chouinard, and D. Coderre|Baseline Toxicity of Several Pesticides to Hyaliodes vitripennis (Say) (Hemiptera: Miridae)|Pest Manag. Sci.57(11): 1007-1010|2001|10.1002/ps.374
63622|T||Borie,F., and R. Rubio|Effects of Arbuscular Mycorrhizae and Liming on Growth and Mineral Acquisition of Aluminum-Tolerant and Aluminum-Sensitive Barley Cultivars|J. Plant Nutr.22(1): 121-137|1999|10.1080/01904169909365612
63623|T||Bale,J.S., M. Ekebuisi, and C. Wright|Effect of Seed Bed Preparation, Soil Structure and Release Time on the Toxicity of a Range of Grassland Pesticides to the Carabid Beetle Pterostichus melanarius (Ill.) (Col., Carabidae) Using a Microplot Technique|J. Appl. Entomol.113(2): 175-182|1992|10.1111/j.1439-0418.1992.tb00651.x
63624|T||Boyd,M.L., and D.J. Boethel|Residual Toxicity of Selected Insecticides to Heteropteran Predaceous Species (Heteroptera: Lygaeidae, Nabidae, Pentatomidae) on Soybean|Environ. Entomol.27(1): 154-160|1998|10.1093/ee/27.1.154
63625|T||Booker,F.L., C.D. Reid, S. Brunschon-Harti, E.L. Fiscus, and J.E. Miller|Photosynthesis and Photorespiration in Soybean [Glycine max (L.) Merr.] Chronically Exposed to Elevated Carbon Dioxide and Ozone|J. Exp. Bot.48(315): 1843-1852|1997|10.1093/jexbot/48.315.1843
63626|T||Bazzoni,E., G.S. Passino, M.D.L. Moretti, and R. Prota|Toxicity of Anethole and Its Effects on Egg Production of Ceratitis capitata Wied. (Dipt., Tephritidae)|Ann. Appl. Biol.131(3): 369-374|1997|10.1111/j.1744-7348.1997.tb05166.x
63627|T||Banken,J.A.O., and J.D. Stark|Stage and Age Influence on the Susceptibility of Coccinella septempunctata (Coleoptera:  Coccinellidae) After Direct Exposure to Neemix, a Neem Insecticide|J. Econ. Entomol.90(5): 1102-1105|1997|10.1093/jee/90.5.1102
63628|T||Bynum,E.D.,Jr., T.L. Archer, and F.W.,Jr. Plapp|Comparison of Banks Grass Mite and Twospotted Spider Mite (Acari:  Tetranychidae):  Responses to Insecticides Alone and in Synergistic Combinations|J. Econ. Entomol.90(5): 1125-1130|1997|10.1093/jee/90.5.1125
63629|T||Butzler,T.M., J. Bailey, and M.K. Beute|Integrated Management of Sclerotinia Blight in Peanut: Utilizing Canopy Morphology, Mechanical Pruning, and Fungicide Timing|Plant Dis.82(12): 1312-1318|1998|10.1094/PDIS.1998.82.12.1312
63630|T||Banham,F.L.|The Persistence of Certain Soil Insecticides for Control of the Tuber Flea Beetle, Epitrix tuberis (Gent.), in the Interior of British Columbia|Can. J. Plant Sci.41:664-671|1961|10.4141/cjps61-095
63631|T||Ball,D.A., F.L. Young, and A.G.,Jr. Ogg|Selective Control of Jointed Goatgrass (Aegilops cylindrica) with Imazamox in Herbicide-Resistant Wheat|Weed Technol.13(1): 77-82|1999|10.1017/S0890037X00044948
63632|T||Burger,J.|Effects of Lead on Sibling Recognition in Young Herring Gulls|Toxicol. Sci.43(2): 155-160|1998|10.1093/toxsci/43.2.155
63633|T||Burger,J., and M. Gochfeld|Behavioral Impairments of Lead-Injected Young Herring Gulls in Nature|Fundam. Appl. Toxicol.23(4): 553-561|1994|10.1006/faat.1994.1140
63634|T||Baldev,B., and S.K. Sinha|Effect of TIBA on Yield and Photo-Synthetic Enzyme in Red Gram|Curr. Sci. (Bangalore)43(3): 94-95|1974|
63635|T||Baker,P.B.|Responses by Japanese and Oriental Beetle Grubs (Coleoptera: Scarabaeidae) to Bendiocarb, Chlorpyrifos, and Isofenphos|J. Econ. Entomol.79(2): 452-454|1986|10.1093/jee/79.2.452
63636|T||Bussotti,F., A. Bottacci, P. Grossoni, B. Mori, and C. Tani|Cytological and Structural Changes in Pinus pinea L. Needles Following the Application of an Anionic Surfactant|Plant Cell Environ.20(4): 513-520|1997|10.1046/j.1365-3040.1997.d01-91.x
63637|T||Bovey,R.W., and S.A. Senseman|Response of Food and Forage Crops to Soil-Applied Imazapyr|Weed Sci.46(5): 614-617|1998|10.1017/S0043174500091189
63638|T||Barson,G.|Laboratory Assessment of the Residual Toxicity of Commercial Formulations of Insecticides to Adult Oryzaephilus surinamensis (Coleoptera: Silvanidae) Exposed for Short Time Intervals|J. Stored Prod. Res.27(4): 205-211|1991|10.1016/0022-474X(91)90002-T
63639|T||Banuls,J., M.D. Serna, F. Legaz, M. Talon, and E. Primo-Millo|Growth and Gas Exchange Parameters of Citrus Plants Stressed with Different Salts|J. Plant Physiol.150(1/2): 194-199|1997|10.1016/S0176-1617(97)80202-7
63640|T||Balasubramani,V., and M. Swamiappan|Persistant Toxicity of Some Insecticides to the Green Lacewing Chrysoperia carnea (Chrysopidae:  Neuroptera)|J. Ecotoxicol. Environ. Monit.7(3): 197-200|1997|
63641|T||Baker,F.D., and C.F. Tumasonis|Carbon Monoxide and Avian Embryogenesis|Arch. Environ. Health24:53-61|1972|10.1080/00039896.1972.10666050
63642|T||Bailey,J.A., and G. Kapusta|Soil Insecticide and Placement Influence Corn (Zea mays) Tolerance to Nicosulfuron|Weed Technol.8(3): 598-606|1994|10.1017/S0890037X00039750
63643|T||Backlin,B.M., A. Madej, and M. Forsberg|Histology of Ovaries and Uteri and Levels of Plasma Progesterone, Oestradiol-17beta and Oestrone Sulphate During the Implantation Period in Mated and Gonadotrophin-Releasing Hormone-Treated Mink (Mustela vison) Exposed |J. Appl. Toxicol.17(5): 297-306|1997|10.1002/(SICI)1099-1263(199709)17:5<297::AID-JAT445>3.0.CO;2-N
63644|T||Baccouch,S., A. Chaoui, and E. El Ferjani|Nickel-Induced Oxidative Damage and Antioxidant Responses in Zea mays Shoots|Plant Physiol. Biochem.36(9): 689-694|1998|10.1016/S0981-9428(98)80018-1
63645|T||Cadogan,B.L., D. Thompson, A. Retnakaran, R.D. Scharbach, A. Robinson, and B. Staznik|Deposition of Aerially Applied Tebufenozide (RH5992) on Balsam Fir (Abies balsamea) and Its Control of Spruce Budworm (Choristoneura fumiferana (Clem.))|Pestic. Sci.53(1): 80-90|1998|10.1002/(SICI)1096-9063(199805)53:1<80::AID-PS736>3.0.CO;2-B
63646|T||Caines,A.M., and C. Shennan|Interactive Effects of Ca2+ and NaCl Salinity on the Growth of Two Tomato Genotypes Differing in Ca2+ use Efficiency|Plant Physiol. Biochem.37(7/8): 569-576|1999|10.1016/S0981-9428(00)80109-6
63648|T||Casana-Giner,V., A. Gandia-Balaguer, C. Mengod-Puerta, J. Primo-Millo, and E. Primo-Yufera|Insect Growth Regulators as Chemosterilants for Ceratitis capitata (Diptera: Tephritidae)|J. Econ. Entomol.92(2): 303-308|1999|10.1093/jee/92.2.303
63649|T||Canela,R., M. Balcells, L. Dalmau, and J. Avilla|Ovicidal, Larvicidal and Juvenilizing Activity of a Picolinephenoxyanilide Against Cydia pomonella|Pest Manag. Sci.56(7): 586-590|2000|10.1002/1526-4998(200007)56:7<586::AID-PS172>3.0.CO;2-E
63650|T||Chartzoulakis,K.S., and M.H. Loupassaki|Effects of NaCl Salinity on Germination, Growth, Gas Exchange and Yield of Greenhouse Eggplant|Agric. Water Manag.32(3): 215-225|1997|10.1016/S0378-3774(96)01276-0
63651|T||Caspersen,S., P. Sundin, M. Munro, S. Aoalsteinsson, J.E. Hooker, and P. Jensen|Interactive Effects of Lettuce (Lactuca sativa L.), Irradiance, and Ferulic Acid in Axenic, Hydroponic Culture|Plant Soil210(1): 115-126|1999|10.1023/A:1004682018888
63652|T||Chen,Y., L. Zhang, Y. Zhou, Y. Geng, and Z. Chen|Inducing Somatic Meiosis-Like Reduction at High Frequency by Caffeine in Root-Tip Cells of Vicia faba|Mutat. Res., Fundam. Mol. Mech. Mutagen.452(1): 67-72|2000|10.1016/S0027-5107(00)00045-2
63653|T||Chugh,L.K., and S.K. Sawhney|Photosynthetic Activities of Pisum sativum Seedlings Grown in Presence of Cadmium|Plant Physiol. Biochem.37(4): 297-303|1999|10.1016/S0981-9428(99)80028-X
63654|T||Clune,T.S., and L. Copeland|Effects of Aluminium on Canola Roots|Plant Soil216(1/2): 27-33|1999|10.1023/A:1004789014255
63655|T||Cole,J.C.|Propazine has Little Effect on Growth of Several Containerized Woody Plant Species|HortTechnology9(2): 198-202|1999|10.21273/HORTTECH.9.2.198
63656|T||Colin,M.E., R. Vandame, P. Jourdan, and S. Di Pasquale|Fluvalinate Resistance of Varroa jacobsoni Oudemans (Acari:  Varroidae) in Mediterranean Apiaries of France|Apidologie28(6): 375-384|1997|10.1051/apido:19970605
63657|T||Condie,L.W., J.R. Hill, and J.F. Borzelleca|Oral Toxicology Studies with Xylene Isomers and Mixed Xylenes|Drug Chem. Toxicol.11(4): 329-354|1988|10.3109/01480548809018107
63658|T||Chettri,M.K., C.M. Cook, E. Vardaka, T. Sawidis, and T. Lanaras|The Effect of Cu, Zn and Pb on the Chlorophyll Content of the Lichens Cladonia convoluta and Cladonia rangiformis|Environ. Exp. Bot.39(1): 1-10|1998|10.1016/S0098-8472(97)00024-5
63659|T||Cook,D.A., and D.M. Armitage|The Efficacy of Dryacide, an Inert Dust, Against Two Species of Astigmatid Mites, Glycyphagus destructor and Acarus siro, at Nine Temperature and Moisture Content Combinations on Stored Grain|Exp. Appl. Acarol.23(1): 51-63|1999|10.1023/A:1006148711827
63660|T||Carvajal,M., V. Martinez, and A. Cerda|Influence of Magnesium and Salinity on Tomato Plants Grown in Hydroponic Culture|J. Plant Nutr.22(1): 177-190|1999|10.1080/01904169909365616
63661|T||Cocker,K.M., J.O.D. Coleman, A.M. Blair, J.H. Clarke, and S.R. Moss|Biochemical Mechanisms of Cross-Resistance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in Populations of Avena spp.|Weed Res. (Multiple Languages)40(4): 323-334|2000|10.1046/j.1365-3180.2000.00192.x
63662|T||Cho,U.H., and J.O. Park|Mercury-Induced Oxidative Stress in Tomato Seedlings|Plant Sci.156(1): 1-9|2000|10.1016/S0168-9452(00)00227-2
63663|T||Chakravarty,B., and S. Srivastava|Toxicity of Some Heavy Metals In Vivo and In Vitro in Helianthus annuus|Mutat. Res.283(4): 287-294|1992|
63664|T||Chaoui,A., S. Mazhoudi, M.H. Ghorbal, and E. El Ferjani|Cadmium and Zinc Induction of Lipid Peroxidation and Effects on Antioxidant Enzyme Activities in Bean (Phaseolus vulgaris L.)|Plant Sci.127(2): 139-147|1997|10.1016/S0168-9452(97)00115-5
63665|T||Cocker,K.M., M.J. Hodson, D.E. Evans, and A.G. Sangster|Interaction Between Silicon and Aluminum in Triticum aestivum L. (cv. Celtic)|Isr. J. Plant Sci.45(4): 285-292|1997|10.1080/07929978.1997.10676691
63666|T||Clement,J.M.A.M., J. Loorbach, J. Meijer, P.R. Van Hasselt, and I. Stulen|The Impact of Atmospheric Ammonia and Temperature on Growth and Nitrogen Metabolism of Winter Wheat|Plant Physiol. Biochem.35(5): 395-404|1997|
63667|T||Clark,R.B.|Differential Response of Maize Inbreds to Zn|Agron. J.70:1057-1060|1978|10.2134/agronj1978.00021962007000060039x
63668|T||Bull,D.L., D.A. Lindquist, and R.R. Grabbe|Comparative Fate of the Geometric Isomers of Phosphamidon in Plants and Animals|J. Econ. Entomol.60(2): 332-341|1967|10.1093/jee/60.2.332
63669|T||Long,W.H., H.L. Anderson, A.L. Isa, and M.L. Kyle|Sugarcane Growth Responses to Chlordane and Microarthropods and Effects of Chlordane on Soil Fauna|J. Econ. Entomol.60(3): 623-629|1967|10.1093/jee/60.3.623
63670|T||Lingren,P.D., and R.L. Ridgway|Toxicity of Five Insecticides to Several Insect Predators|J. Econ. Entomol.60(6): 1639-1641|1967|10.1093/jee/60.6.1639
63671|T||Madsen,H.F., and K. Williams|Effectiveness and Persistence of Low Dosages of Azinphosmethyl for Control of the Codling Moth|J. Econ. Entomol.61(3): 878-879|1968|10.1093/jee/61.3.878
63672|T||Ridgway,R.L., and N.M. Randolph|Stem Applications of Systemic Insecticides to Corn|J. Econ. Entomol.61(2): 581-582|1968|10.1093/jee/61.2.581
63673|T||Levin,M.D., W.B. Forsyth, G.L. Fairbrother, and F.B. Skinner|Impact on Colonies of Honey Bees of Ultra-Low-Volume (Undiluted) Malathion Applied for Control of Grasshoppers|J. Econ. Entomol.61(1): 58-62|1968|10.1093/jee/61.1.58
63674|T||Clements,R.O.|Some Consequences of Large and Frequent Pesticide Applications to Grassland|In: K.E.Lee (Ed.), Proc.3rd Australasian Conf.Grassl.Invert.Ecol., Nov.30-Dec.4, 1981, South Australian Government Printer, Adelaide:393-396|1982|
63675|T||Leonard,C.D., and H.B.,Jr. Graves|Effects of Air-Borne Fluorides on 'Valencia' Orange Yields|Annu. Meet. Fla. State Hortic. Soc.79:79-86|1966|
63676|T||Den Boer,M.H.|Reproduction Decline of Harbour Seals:  PCBs in the Food and Their Effect on Mink|In: Annu.Rep.1983, Res.Inst.for Nature Management, Texel, Netherlands:77-86|1984|
63677|T||Eguchi,G., and K. Watanabe|Elicitation of Lens Formation from the 'Ventral Iris' Epithelium of the Newt by a Carcinogen, N-Methyl-N'-Nitro-N-Nitrosoguanidine|J. Embryol. Exp. Morphol.30(1): 63-71|1973|
63678|T||Patil,B.C., D.K. Salunkhe, and B. Singh|Metabolism of Solanine and Chlorophyll in Potato Tubers as Affected by Light and Specific Chemicals|J. Food Sci.36:474-476|1971|10.1111/j.1365-2621.1971.tb06391.x
63679|T||Stern,V.M., R. Van den Bosch, and H.T. Reynolds|Effects of Dylox and Other Insecticides on Entomophagous Insects Attacking Field Crop Pests in California|J. Econ. Entomol.53(1): 67-72|1960|10.1093/jee/53.1.67
63680|T||Lilly,J.H., and J.E. Fahey|Translocation of BHC from High-Dosage Soil Treatments Applied Before Planting|J. Econ. Entomol.49(6): 815-818|1956|10.1093/jee/49.6.815
63681|T||Van den Bosch,R., H.T. Reynolds, and E.J. Dietrick|Toxicity of Widely Used Insecticides to Beneficial Insects in California Cotton and Alfalfa Fields|J. Econ. Entomol.49(3): 359-363|1956|10.1093/jee/49.3.359
63682|T||Stegeman,L.C.|The Effects of the Carbamate Insecticide Carbaryl upon Forest Soil Mites and Collembola|J. Econ. Entomol.57(6): 803-808|1964|10.1093/jee/57.6.803
63683|T||Atkins,E.L.,Jr., and L.D. Anderson|DDT Resistance in Honey Bees|J. Econ. Entomol.55(5): 791-792|1962|10.1093/jee/55.5.791
63684|T||Metcalf,R.L., R.B. March, T.R. Fukuto, and M. Maxon|The Behavior of Systox-Isomers in Bean and Citrus Plants|J. Econ. Entomol.47(6): 1045-1055|1954|10.1093/jee/47.6.1045
63685|T||Chang,S.C., and H.H. Crowell|Effect of Successive Treatments of DDT on Individual Susceptibility in the American Cockroach|J. Econ. Entomol.46(3): 467-472|1953|10.1093/jee/46.3.467
63687|T||Sokol,R.Z., S. Wang, Y.J.Y. Wan, F.Z. Stanczyk, E. Gentzschein, and R.E. Chapin|Long-Term, Low-Dose Lead Exposure Alters the Gonadotropin-Releasing Hormone System in the Male Rat|Environ. Health Perspect.110(9): 871-874|2002|10.1289/ehp.02110871
63688|T||Das,K.K., and S. Dasgupta|Effect of Nickel Sulfate on Testicular Steroidogenesis in Rats During Protein Restriction|Environ. Health Perspect.110(9): 923-926|2002|10.1289/ehp.02110923
63689|A||Afonso,L.O.B., J.L. Smith, M.G. Ikonomou, and R.H. Devlin|Y-Chromosomal DNA Markers for Discrimination of Chemical Substance and Effluent Effects on Sexual Differentiation in Salmon|Environ. Health Perspect.110(9): 881-887|2002|10.1289/ehp.02110881
63690|A||Halm,S., N. Pounds, S. Maddix, M. Rand-Weaver, J.P. Sumpter, T.H. Hutchinson, and C.R. Tyler|Exposure to Exogenous 17beta-Oestradiol Disrupts P450aromB mRNA Expression in the Brain and Gonad of Adult Fathead Minnows (Pimephales promelas)|Aquat. Toxicol.60(3-4): 285-299|2002|10.1016/S0166-445X(02)00011-5
63691|A||Ackermann,G.E., J. Schwaiger, R.D. Negele, and K. Fent|Effects of Long-Term Nonylphenol Exposure on Gonadal Development and Biomarkers of Estrogenicity in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.60(3-4): 203-221|2002|10.1016/S0166-445X(02)00003-6
63692|T||Dollahite,J.W., L.D. Rowe, and J.C. Reagor|Experimental Lead Poisoning in Horses and Spanish Goats|Southwest. Vet.28(1): 40-45|1975|
63693|T||Kline,R.D., V.W. Hays, and G.L. Cromwell|Effects of Copper, Molybdenum and Sulfate on Performance, Hematology and Copper Stores of Pigs and Lambs|J. Anim. Sci.33(4): 771-779|1971|10.2527/jas1971.334771x
63694|T||French,J.B.,Jr., M.B. Voltura, and T.E. Tomasi|Effects of Pre- and Postnatal Polychlorinated Biphenyl Exposure on Metabolic Rate and Thyroid Hormones of White-Footed Mice|Environ. Toxicol. Chem.20(8): 1704-1708|2001|
63695|T||Al-Omar,M.A., A.K. Abbas, and S.A. Al-Obaidy|Combined Effect of Exposure to Lead and Chlordane on the Testicular Tissues of Swiss Mice|Toxicol. Lett.115(1): 1-8|2000|10.1016/S0378-4274(99)00266-0
63697|T||Johnson,B.C., and B.G. Young|Influence of Temperature and Relative Humidity on the Foliar Activity of Mesotrione|Weed Sci.50:157-161|2002|10.1614/0043-1745(2002)050[0157:IOTARH]2.0.CO;2
63698|T||Schnick,P.J., S.M. Stewart-Wade, and G.J. Boland|2,4-D and Sclerotinia minor to Control Common Dandelion|Weed Sci.50:173-178|2002|10.1614/0043-1745(2002)050[0173:DASMTC]2.0.CO;2
63699|T||Lawlor,F.M., and D.J. Raynal|Response of Swallow-Wort to Herbicides|Weed Sci.50:179-185|2002|10.1614/0043-1745(2002)050[0179:ROSWTH]2.0.CO;2
63700|T||Tasei,J.N., G. Ripault, and E. Rivault|Hazards of Imidacloprid Seed Coating to Bombus terrestris (Hymenoptera: Apidae) when Applied to Sunflower|J. Econ. Entomol.94(3): 623-627|2001|10.1603/0022-0493-94.3.623
63701|T||Reed,J.T., and D.B. Smith|Droplet Size and Spray Volume Effects on Insecticide Deposit and Mortality of Heliothine (Lepidoptera: Noctuidae) Larvae in Cotton|J. Econ. Entomol.94(3): 640-647|2001|10.1603/0022-0493-94.3.640
63702|T||Buczkowski,G., and C. Schal|Method of Insecticide Delivery Affects Horizontal Transfer of Fipronil in the German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.94(3): 680-685|2001|10.1603/0022-0493-94.3.680
63703|T||Ladonni,H.|Evaluation of Three Methods for Detecting Permethrin Resistance in Adult and Nymphal Blattella germanica (Dictyoptera:  Blattellidae)|J. Econ. Entomol.94(3): 694-697|2001|10.1603/0022-0493-94.3.694
63704|T||Lee,S.E., and E.M. Lees|Biochemical Mechanisms of Resistance in Strains of Oryzaephilus surinamensis (Coleoptera: Silvanidae) Resistant to Malathion and Chlorpyrifos-Methyl|J. Econ. Entomol.94(3): 706-713|2001|10.1603/0022-0493-94.3.706
63705|T||Floris,I., P. Cabras, V.L. Garau, E.V. Minelli, A. Satta, and J. Troullier|Persistence and Effectiveness of Pyrethroids in Plastic Strips Against Varroa jacobsoni (Acari: Varroidae) and Mite Resistance in a Mediterranean Area|J. Econ. Entomol.94(4): 806-810|2001|10.1603/0022-0493-94.4.806
63706|T||Usmani,K.A., and C.O. Knowles|Toxicity of Pyrethroids and Effect of Synergists to Larval and Adult Helicoverpa zea, Spodoptera frugiperda, and Agrotis ipsilon (Lepidoptera:  Noctuidae)|J. Econ. Entomol.94(4): 868-873|2001|10.1603/0022-0493-94.4.868
63707|T||Usmani,K.A., and C.O. Knowles|Pharmacokinetic Mechanisms Associated with Synergism by DEF of Cypermethrin Toxicity in Larval and Adult Helicoverpa zea, Spodoptera frugiperda, and Agrotis ipsilon (Lepidoptera:  Noctuidae)|J. Econ. Entomol.94(4): 874-883|2001|10.1603/0022-0493-94.4.874
63708|T||Schroder,R.F.W., P.A.W. Martin, and M.M. Athanas|Effect of a Phloxine B-Cucurbitacin Bait on Diabroticite Beetles (Coleoptera: Chrysomelidae)|J. Econ. Entomol.94(4): 892-897|2001|10.1603/0022-0493-94.4.892
63709|T||Stelinski,L.L., and O.E. Liburd|Evaluation of Various Deployment Strategies of Imidacloprid-Treated Spheres in Highbush Blueberries for Control of Rhagoletis mendax (Diptera: Tephritidae)|J. Econ. Entomol.94(4): 905-910|2001|10.1603/0022-0493-94.4.905
63710|T||Zhu,K.Y., G.E. Wilde, R.A. Higgins, P.E. Sloderbeck, L.L. Buschman, R.A. Shufran, R.J. Whitworth, S.R. Starkey, and F. |Evidence of Evolving Carbaryl Resistance in Western Corn Rootworm (Coleoptera: Chrysomelidae) in Areawide-Managed Cornfields in North Central Kansas|J. Econ. Entomol.94(4): 929-934|2001|10.1603/0022-0493-94.4.929
63711|T||Tripathi,A.K., V. Prajapati, K.K. Aggarwal, and S. Kumar|Toxicity, Feeding Deterrence, and Effect of Activity of 1,8-Cineole from Artemisia annua on Progeny Production of Tribolium castanaeum (Coleoptera: Tenebrionidae)|J. Econ. Entomol.94(4): 979-983|2001|10.1603/0022-0493-94.4.979
63712|T||Maklakov,A., I. Ishaaya, A. Freidberg, A. Yawetz, A.R. Horowitz, and I. Yarom|Toxicological Studies of Organophosphate and Pyrethroid Insecticides for Controlling the Fruit Fly Dacus ciliatus (Diptera:  Tephritidae)|J. Econ. Entomol.94(5): 1059-1066|2001|10.1603/0022-0493-94.5.1059
63713|T||Brunner,J.F., J.E. Dunley, M.D. Doerr, and E.H. Beers|Effect of Pesticides on Colpoclypeus florus (Hymenoptera: Eulophidae) and Trichogramma platneri (Hymenoptera: Trichogrammatidae), Parasitoids of Leafrollers in Washington|J. Econ. Entomol.94(5): 1075-1084|2001|10.1603/0022-0493-94.5.1075
63714|T||Yee,W.L., P.A. Phillips, and B.A. Faber|Effects of Aerial Spray Volume, Coverage, and Sabadilla on Scirtothrips perseae (Thysanoptera: Thripidae)|J. Econ. Entomol.94(5): 1085-1089|2001|10.1603/0022-0493-94.5.1085
63715|T||Yee,W.L., P.A. Phillips, and B.A. Faber|Effects of Aerial Spray Volume, Coverage, and Abamectin on Scirtothrips perseae (Thysanoptera: Thripidae)|J. Econ. Entomol.94(5): 1090-1096|2001|10.1603/0022-0493-94.5.1090
63716|T||Giroux,P.Y., and J.R. Miller|Phytotoxicity of Pheromonal Chemicals to Fruit Tree Foliage:  Chemical and Physiological Characterization|J. Econ. Entomol.94(5): 1170-1176|2001|10.1603/0022-0493-94.5.1170
63717|T||Sanchez-Arroyo,H., P.G. Koehler, and S.M. Valles|Effects of the Synergists Piperonyl Butoxide and S,S,S-Tributyl Phosphorotrithioate on Propoxur Pharmacokinetics in Blattella germanica (Blattodea: Blattellidae)|J. Econ. Entomol.94(5): 1209-1216|2001|10.1603/0022-0493-94.5.1209
63718|T||Osbrink,W.L.A., A.R. Lax, and R.J. Brenner|Insecticide Susceptibility in Coptotermes formosanus and Reticulitermes virginicus (Isoptera: Rhinotermitidae)|J. Econ. Entomol.94(5): 1217-1228|2001|10.1603/0022-0493-94.5.1217
63719|T||Buczkowski,G., R.J.,Jr. Kopanic, and C. Schal|Transfer of Ingested Insecticides Among Cockroaches:  Effects of Active Ingredient, Bait Formulation, and Assay Procedures|J. Econ. Entomol.94(5): 1229-1236|2001|10.1603/0022-0493-94.5.1229
63720|T||Kotze,A.C., and N. Sales|Inheritance of Diflubenzuron Resistance and Monooxygenase Activities in a Laboratory-Selected Strain of Lucilia cuprina (Diptera: Calliphoridae)|J. Econ. Entomol.94(5): 1243-1248|2001|10.1603/0022-0493-94.5.1243
63721|T||Strange,J.P., and W.S. Sheppard|Optimum Timing of Miticide Applications for Control of Varroa destructor (Acari: Varroidae) in Apis mellifera (Hymenoptera: Apidae) in Washington State, USA|J. Econ. Entomol.94(6): 1324-1331|2001|10.1603/0022-0493-94.6.1324
63722|T||Takada,Y., S. Kawamura, and T. Tanaka|Effects of Various Insecticides on the Development of the Egg Parasitoid Trichogramma dendrolimi (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.94(6): 1340-1343|2001|10.1603/0022-0493-94.6.1340
63723|T||Volenberg,D.S., D.E. Stoltenberg, and C.M. Boerboom|Biochemical Mechanism and Inheritance of Cross-Resistance to Acetolactate Synthase Inhibitors in Giant Foxtail|Weed Sci.49(5): 635-641|2001|10.1614/0043-1745(2001)049[0635:BMAIOC]2.0.CO;2
63724|T||Webster,E.P., and J.A. Masson|Acetolactate Synthase-Inhibiting Herbicides on Imidazolinone-Tolerant Rice|Weed Sci.49:652-657|2001|10.1614/0043-1745(2001)049[0652:ASIHOI]2.0.CO;2
63725|T||Fausey,J.C., and K.A. Renner|Environmental Effects on CGA-248757 and Flumiclorac Efficacy/Soybean Tolerance|Weed Sci.49:668-674|2001|10.1614/0043-1745(2001)049[0668:EEOCAF]2.0.CO;2
63726|T||Poston,D.H., J. Wu, K.K. Hatzios, and H.P. Wilson|Enhanced Sensitivity to Cloransulam-Methyl in Imidazolinone-Resistant Smooth Pigweed|Weed Sci.49:711-716|2001|10.1614/0043-1745(2001)049[0711:ESTCMI]2.0.CO;2
63727|T||Geier,P.W., P.W. Stahlman, and J.G. Hargett|Dose Responses of Weeds and Winter Wheat to MKH 6561|Weed Sci.49:788-791|2001|10.1614/0043-1745(2001)049[0788:DROWAW]2.0.CO;2
63728|T||Williams II,M.M., D.A. Mortensen, A.R. Martin, and D.B. Marx|Within-Field Soil Heterogeneity Effects on Herbicide-Mediated Crop Injury and Weed Biomass|Weed Sci.49:798-805|2001|10.1614/0043-1745(2001)049[0798:WFSHEO]2.0.CO;2
63729|T||Sulc,R.M., and L.H. Rhodes|Planting Date, Fungicide, and Cultivar Effects on Sclerotinia Crown and Stem Rot Severity in Alfalfa|Plant Dis.81(1): 13-17|1997|10.1094/PDIS.1997.81.1.13
63730|T||Tognoni,F., A.H. Halevy, and S.H. Wittwer|Growth of Bean and Tomato Plants as Affected by Root Absorbed Growth Substances and Atmospheric Carbon Dioxide|Planta (Multiple Languages)72:43-52|1967|10.1007/BF00388143
63731|T||Uludag,A., D.J. Lyon, S.J. Nissen, and S.D. Kachman|Proso Millet (Panicum miliaceum) Response to CGA-152005, Metsulfuron, and Triasulfuron|Weed Technol.11(1): 138-143|1997|10.1017/S0890037X00041476
63732|T||Van Hook,R.I., and A.J. Yates|Transient Behavior of Cadmium in a Grassland Arthropod Food Chain|Environ. Res.9:76-83|1975|10.1016/0013-9351(75)90051-1
63733|T||Wu,M.T., B. Singh, and D.K. Salunkhe|Influence of s-Triazines on Some Enzymes of Carbohydrates and Nitrogen Metabolism in Leaves of Pea (Pisum sativum L.) and Sweet Corn (Zea mays L.)|Plant Physiol.48:517-520|1971|10.1104/pp.48.5.517
63734|T||Haarmann,F., and J.H. Lange|Toxicity of Sodium Bisulfate, Sodium Oxalate and Copper Sulfate with Three Different Water Sources Using a Root Elongation Test|Fresenius Environ. Bull.9(3/4): 172-178|2000|
63736|T||Hiranpradit,H., C.L. Foy, and G.M. Shear|Effects of Low Levels of Atrazine on Some Mineral Constituents and Forms of Nitrogen in Zea mays L.|Agron. J.64:267-271|1972|10.2134/agronj1972.00021962006400030003x
63737|T||Ivanova,A., K. Stefanov, and I. Yordanov|Effect of the Herbicide Atrazine on the Bean Leaf Lipids|Biol. Plant. (Praha)42(3): 417-422|1999|10.1023/A:1002421420508
63738|T||Jansen,J.P.|Side-Effects of Pesticides on Adults of Aphidius rhopalosiphi DeStefani-Perez (Hymenoptera:  Aphidiidae) in the Laboratory:  Results of the 8th Joint Pesticide Testing Programme|IOBC-WPRS Bull.23(9): 65-72|2000|
63739|T||Kleijn,D., and G.I.J. Snoeijing|Field Boundary Vegetation and the Effects of Agrochemical Drift: Botanical Change Caused by Low Levels of Herbicide and Fertilizer|J. Appl. Ecol.34(6): 1413-1425|1997|10.2307/2405258
63740|T||Kyung,K.S., Y.T. Suh, and J.K. Lee|Behaviour of the Herbicide Quinclorac in a Rice Plant-Grown Lysimeter|Int. J. Environ. Anal. Chem.68(2): 187-198|1997|10.1080/03067319708030490
63742|T||Kuwahara,M.|Resistance of the Bulb Mite, Rhizoglyphus robini Claparede, to Organophosphorus Insecticides|Jpn. Agric. Res. Q.22(2): 96-100|1988|
63743|T||Kutlesa,N.J., and S. Caveney|Insecticidal Activity of Glufosinate Through Glutamine Depletion in a Caterpillar|Pest Manag. Sci.57:25-32|2001|10.1002/1526-4998(200101)57:1<25::AID-PS272>3.0.CO;2-I
63744|T||Zsoldos,F., A. Vashegyi, L. Bona, A. Pecsvaradi, and Z. Szegletes|Growth of and Potassium Transport in Winter Wheat and Durum Wheat as Affected by Various Aluminum Exposure Times|J. Plant Nutr.23(7): 913-926|2000|10.1080/01904160009382070
63745|T||Abbott,J.D., B.D. Bruton, and C.L. Patterson|Fungicidal Inhibition of Pollen Germination and Germ-Tube Elongation in Muskmelon|Hortscience26(5): 529-530|1991|10.21273/HORTSCI.26.5.529
63746|T||Adamczewski,K., M. Grzbiela, and B. Genot|A Biological Evaluation of the New Command CS Formulation in Poland|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)107(17): 671-676|2000|
63747|T||Adaros,G., H.J. Weigel, and H.J. Jager|Impact of Ozone on Growth and Yield Parameters of Two Spring Wheat Cultivars (Triticum aestivum L.)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)98(2): 113-124|1991|
63748|T||Amthor,J.S.|Growth and Maintenance Respiration in Leaves of Bean (Phaseolus vulgaris L.) Exposed to Ozone in Open-Top Chambers in the Field|New Phytol.110:319-325|1988|10.1111/j.1469-8137.1988.tb00268.x
63749|T||Anderson,L.D., and H. Nakakihara|Toxicity of Pesticides to Corn Earworm on Sweet Corn in Southern California 1962-67|J. Econ. Entomol.61(6): 1477-1482|1968|10.1093/jee/61.6.1477
63750|T||Appleton,B.L., and S.C. French|Weed Suppression for Container-Grown Willow Oak Using Copper-Treated Fabric Disks|HortTechnology10(1): 204-206|2000|10.21273/HORTTECH.10.1.204
63751|T||Azais,V., M. Arand, P. Rauch, H. Schramm, P. Bellenand, J.F. Narbonne, F. Oesch, G. Pascal, and L.W. Robertson|A Time-Course Investigation of Vitamin A Levels and Drug Metabolizing Enzyme Activities in Rats Following a Single Treatment with Prototypic Polychlorinated Biphenyls and DDT|Toxicology44:341-354|1987|10.1016/0300-483X(87)90035-7
63752|T||Barr,M.,Jr.|The Teratogenicity of Cadmium Chloride in Two Stocks of Wistar Rats|Teratology7:237-242|1973|10.1002/tera.1420070304
63753|T||Bupp Becker,S.R.B., and I.A.,Jr. Shibley|Teratogenicity of Ethanol in Different Chicken Strains|Alcohol Alcohol.33(5): 457-464|1998|10.1093/alcalc/33.5.457
63755|T||Amor,T.B., L. Bortolotto, and G. Jori|Porphyrins and Related Compounds as Photoactivatable Insecticides.  2.  Phototoxic Activity of Meso-Substituted Porphyrins|Photochem. Photobiol.68(3): 314-318|1998|
63756|T||Benson,D.M., and L.F. Grand|Incidence of Phytophthora Root Rot of Fraser Fir in North Carolina and Sensitivity of Isolates of Phytophthora cinnamomi to Metalaxyl|Plant Dis.84(6): 661-664|2000|10.1094/PDIS.2000.84.6.661
63757|T||Ben-Yakir,D., E. Hadar, and M. Chen|Evaluating Insecticides for the Control of Narcissus Flies Under Field Conditions in Israel|Phytoparasitica25(2): 93-97|1997|10.1007/BF02981189
63758|T||Beran,D.D., R.E. Gaussoin, and R.A. Masters|Native Wildflower Establishment with Imidazolinone Herbicides|Hortscience34(2): 283-286|1999|10.21273/HORTSCI.34.2.283
63759|T||Beran,D.D., R.A. Masters, and R.E. Gaussoin|Grassland Legume Establishment with Imazethapyr and Imazapic|Agron. J.91(4): 592-596|1999|10.2134/agronj1999.914592x
63760|T||Blumel,S., C. Pertl, and F.M. Bakker|Comparative Trials on the Effects of Two Fungicides on a Predatory Mite in the Laboratory and in the Field|Entomol. Exp. Appl.97(3): 321-330|2000|10.1046/j.1570-7458.2000.00746.x
63761|T||Borg,K., H. Wanntorp, K. Erne, and E. Hanko|Alkyl Mercury Poisoning in Terrestrial Swedish Wildlife|Swed. Wildl. Res. Viltrevy6(4): 302-376|1969|
63762|T||Brouwer,A., H. Hakansson, A. Kukler, K.J. Van den Berg, and U.G. Ahlborg|Marked Alterations in Retinoid Homeostasis of Sprague-Dawley Rats Induced by a Single i.p. Dose of 10 ug/kg of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology58:267-283|1989|10.1016/0300-483X(89)90141-8
63763|T||Brown,R.A., L.C. McMullin, D. Jackson, J. Ryan, and J.M. Coulson|Beneficial Arthropod Toxicity Assessments with Three Insecticides in Laboratory, Semi-Field and Field Studies|Br. Crop Prot. Conf. Pests Dis.2:527-534|1990|
63764|T||Burnett,F.J., and M.C.N. Zziwa|Effect of Application Rate on the Sensitivity of Erysiphe graminis f.sp. tritici to Fenpropimorph|Pestic. Sci.51(3): 335-340|1997|10.1002/(SICI)1096-9063(199711)51:3<335::AID-PS645>3.0.CO;2-Y
63765|T||Cavan,G., P. Biss, and S.R. Moss|Herbicide Resistance and Gene Flow in Wild-Oats (Avena fatua and Arena sterilis ssp. ludoviciana)|Ann. Appl. Biol.133(2): 207-217|1998|10.1111/j.1744-7348.1998.tb05821.x
63766|T||Celik,I., H. Oguz, O. Demet, M. Boydak, H.H. Donmez, E. Sur, and F. Nizamlioglu|Embryotoxicity Assay of Aflatoxin Produced by Aspergillus parasiticus NRRL 2999|Br. Poult. Sci.41(4): 401-409|2000|10.1080/713654961
63767|T||Chacravarti,A.S., D.P. Srivastava, and K.L. Khanna|Foliar Application of 2,4-D to Increase Sugar in Cane|Sugar J.18:23-25|1955|
63769|T||Chiquoine,A.D.|Effect of Cadmium Chloride on the Pregnant Albino Mouse|J. Reprod. Fertil.10:263-265|1965|10.1530/jrf.0.0100263
63771|T||Chen,Y., H. Saito, and N. Matsuki|Ethanol-Induced Emesis in the House Musk Shrew, Suncus murinus|Life Sci.60(4-5): 253-261|1997|10.1016/S0024-3205(96)00625-X
63772|T||Cihak,A., and H. Inoue|Synthesis of DNA in the Liver and Testes of Cadmium-Treated Partially Hepatectomized Rats|J. Biochem. (Tokyo)86(3): 657-662|1979|10.1093/oxfordjournals.jbchem.a132569
63773|T||Choate,J., G. Wehtje, and K.L. Bowen|Interaction of Paraquat-Based Weed Control with Chlorothalonil-Based Disease Control in Peanut|J. Prod. Agric.11(2): 151-152, 191-195|1998|10.2134/jpa1998.0191
63774|AT||Choo,H.Y., H.H. Kim, and H.K. Kaya|Effects of Selected Chemical Pesticides on Agamermis unka (Nematoda: Mermithidae), a Parasite of the Brown Plant Hopper, Nilaparvata lugens|Biocontrol Sci. Technol.8(3): 413-427|1998|10.1080/09583159830216
63775|T||Cocker,K.M., D.E. Evans, and M.J. Hodson|The Amelioration of Aluminium Toxicity by Silicon in Wheat (Triticum aestivum L.): Malate Exudation as Evidence for an In Planta Mechanism|Planta (Multiple Languages)204(3): 318-323|1998|10.1007/s004250050262
63776|T||Cocker,K.M., D.S. Northcroft, J.O.D. Coleman, and S.R. Moss|Resistance to ACCase-Inhibiting Herbicides and Isoproturon in UK Populations of Lolium multiflorum:  Mechanisms of Resistance and Implications for Control|Pest Manag. Sci.57:587-597|2001|10.1002/ps.330
63777|T||Cokelaere,M., B. Cauwelier, K. Cokelaere, G. Flo, N. Houache, S. Lievens, M. Van Boven, and E. Decuypere|Hematological and Pathological Effects of 0.25% Purified Simmondsin in Growing Rats|Ind. Crops Prod.12(3): 165-171|2000|10.1016/S0926-6690(00)00068-6
63778|T||Collins,D.A., and D.A. Cook|Periods of Protection Provided by Different Formulations of Pirimiphos-Methyl and Etrimfos, when Admixed with Wheat, Against Four Susceptible Storage Beetle Pests|Crop Prot.17(6): 521-528|1998|10.1016/S0261-2194(98)00053-2
63779|T||Collins,H.L., and A.M.A. Callcott|Fipronil: An Ultra-Low-Dose Bait Toxicant for Control of Red Imported Fire Ants (Hymenoptera: Formicidae)|Fla. Entomol.81(3): 407-415|1998|10.2307/3495930
63780|T||Cooper,H.P., W.R. Paden, E.E. Hall, W.B. Albert, W.B. Rogers, and J.A. Riley|Soils Differ Markedly in Their Response to Additions of Calcium Arsenate|S.C.Agric.Exp.Stn.Ann.Rep.No.45:23-27|1932|
63781|T||Cornelius,M.L., J.K. Grace, and J.R. Yates III|Toxicity of Monoterpenoids and Other Natural Products to the Formosan Subterranean Termite (Isoptera: Rhinotermitidae)|J. Econ. Entomol.90(2): 320-325|1997|10.1093/jee/90.2.320
63782|T||Daane,L.L., and M.M. Haggblom|Earthworm Egg Capsules as Vectors for the Environmental Introduction of Biodegradative Bacteria|Appl. Environ. Microbiol.65(6): 2376-2381|1999|10.1128/AEM.65.6.2376-2381.1999
63786|T||Da Cruz,I.B.M., E. Humeres, and A.K. Oliveira|Toxicity of Fenthion to Anastrepha fraterculus (Wied.) (Diptera:  Tephritidae):  Dose Response Analysis|An. Soc. Entomol. Bras.26(3): 471-479|1997|10.1590/S0301-80591997000300009
63787|T||Dagli,F., and I. Tunc|Dicofol Resistance in Tetranychus cinnabarinus:  Resistance and Stability of Resistance in Populations from Antalya, Turkey|Pest Manag. Sci.57:609-614|2001|10.1002/ps.334
63788|T||Daglish,G.J.|Efficacy of Six Grain Protectants Applied Alone or in Combination Against Three Species of Coleoptera|J. Stored Prod. Res.34(4): 263-268|1998|10.1016/S0022-474X(98)00007-1
63789|T||Dahmani-Muller,H., F. Van Oort, and M. Balabane|Metal Extraction by Arabidopsis halleri Grown on an Unpolluted Soil Amended with Various Metal-Bearing Solids:  A Pot Experiment|Environ. Pollut.114(1): 77-84|2001|10.1016/S0269-7491(00)00203-7
63790|T||Daly,J.C., and J.H. Fisk|Sex-Linked Inheritance of Endosulphan Resistance in Helicoverpa armigera|Heredity (Edinb.)81(1): 55-62|1998|10.1046/j.1365-2540.1998.00365.x
63791|T||Danielsson,H., J. Gelang, and H. Pleijel|Ozone Sensitivity, Growth and Flower Development in Phleum Genotypes of Different Geographic Origin in the Nordic Countries|Environ. Exp. Bot.42(1): 41-49|1999|10.1016/S0098-8472(99)00016-7
63792|T||Dann,E.K., B.W. Diers, and R. Hammerschmidt|Suppression of Sclerotinia Stem Rot of Soybean by Lactofen Herbicide Treatment|Phytopathology89(7): 598-602|1999|10.1094/PHYTO.1999.89.7.598
63793|T||Dannan,G.A., F.P. Guengerich, L.S. Kaminsky, and S.D. Aust|Regulation of Cytochrome P-450.  Immunochemical Quantitation of Eight Isozymes in Liver Microsomes of Rats Treated with Polybrominated Biphenyl Congeners|J. Biol. Chem.258(2): 1282-1288|1983|10.1016/S0021-9258(18)33190-9
63794|T||Dao,K.H.T., K.E. Hamer, C.L. Clark, and L.G. Harshman|Pyoverdine Production by Pseudomonas aeruginosa Exposed to Metals or an Oxidative Stress Agent|Ecol. Appl.9(2): 441-448|1999|10.1890/1051-0761(1999)009[0441:PPBPAE]2.0.CO;2
63795|T||Daou,H., and R.E. Talbert|Control of Propanil-Resistant Barnyardgrass (Echinochloa crus-galli) in Rice (Oryza sativa) with Carbaryl/Propanil Mixtures|Weed Technol.13(1): 65-70|1999|10.1017/S0890037X00044924
63796|T||Darmani,N.A.|Delta-9-Tetrahydrocannabinol Differentially Suppresses Cisplatin-Induced Emesis and Indices of Motor Function via Cannabinoid CB1 Receptors in the Least Shrew|Pharmacol. Biochem. Behav.69:239-249|2001|10.1016/S0091-3057(01)00531-7
63797|T||Darmani,N.A.|Serotonin 5-HT3 Receptor Antagonists Prevent Cisplatin-Induced Emesis in Cryptotis parva:  A new Experimental Model of Emesis|J. Neural Transm.105(10-12): 1143-1154|1998|10.1007/s007020050118
63798|T||Darmani,N.A., W. Zhao, and B. Ahmad|The Role of D2 and D3 Dopamine Receptors in the Mediation of Emesis in Cryptotis parva (the Least Shrew)|J. Neural Transm.106:1045-1061|1999|10.1007/s007020050222
63799|T||Darra,B.L., and S.N. Saxena|Role of IAA on the Mineral Composition of Maize (Zea mays) Crop Under Various Osmotic Stressed Conditions|Plant Soil38:657-661|1973|10.1007/BF00010704
63800|T||Darwin,C.|The Action of Carbonate of Ammonia on the Roots of Certain Plants|J. Linn. Soc. Lond. Bot.19:239-261|1882|10.1111/j.1095-8339.1882.tb00369.x
63801|T||David,D.|Influence of Technical and Commercial Decamethrin, a New Synthetic Pyrethroid, on the Gonadic Germ Population in Quail Embryos|Arch. Anat. Histol. Embryol. Norm. Exp.65:99-110|1982|
63803|T||Davidson,M.M., T. Cilgi, M.K. Petersen, S.D. Wratten, and C. Frampton|Resilience of Springtail (Collembola) Populations in Farmland Following Exposure to Insecticides|Australas. J. Ecotoxicol.3(2): 99-108|1997|
63804|T||Davis,S.L., D.,Jr. Tanaka, R.J. Aulerich, and S.J. Bursian|Organophosphorus-Induced Neurotoxicity in the Absence of Neuropathy Target Esterase Inhibition:  The Effects of Triphenyl Phosphine in the European Ferret|Toxicol. Sci.49(1): 78-85|1999|10.1093/toxsci/49.1.78
63805|T||Davison,E.M., and A.G. McKay|Reduced Persistence of Metalaxyl in Soil Associated with Its Failure to Control Cavity Spot of Carrots|Plant Pathol.48(6): 830-835|1999|10.1046/j.1365-3059.1999.00401.x
63806|T||Dawson,W.A.J.M., and G.L. Bateman|Sensitivity of Fungi from Cereal Roots to Fluquinconazole and Their Suppressiveness Towards Take-All on Plants with or Without Fluquinconazole Seed Treatment in a Controlled Environment|Plant Pathol.49(4): 477-486|2000|10.1046/j.1365-3059.2000.00479.x
63807|T||Dean,S.R., R.W. Meola, S.M. Meola, H. Sittertz-Bhatkar, and R. Schenker|Mode of Action of Lufenuron in Adult Ctenocephalides felis (Siphonaptera: Pulicidae)|J. Med. Entomol.36(4): 486-492|1999|10.1093/jmedent/36.4.486
63808|T||Dean,S.R., R.W. Meola, S.M. Meola, H. Sittertz-Bhatkar, and R. Schenker|Mode of Action of Lufenuron on Larval Cat Fleas (Siphonaptera: Pulicidae)|J. Med. Entomol.35(5): 720-724|1998|10.1093/jmedent/35.5.720
63809|T||Dear,B.S., and G.A. Sandral|The Phytotoxicity of the Herbicides Bromoxynil, Pyridate, Imazethapyr and a Bromoxynil + Diflufenican Mixture on Subterranean Clover and Lucerne Seedlings|Aust. J. Exp. Agric.39(7): 839-847|1999|10.1071/EA98182
63810|T||Deatrick,E.P.|The Effect of Manganese Compounds on Soils and Plants|Cornell Univ. Agric. Exp. Stn. Mem.19:371-402|1919|
63811|T||Debieu,D., J. Bach, M. Hugon, C. Malosse, and P. Leroux|The Hydroxyanilide Fenhexamid, a New Sterol Biosynthesis Inhibitor Fungicide Efficient Against the Plant Pathogenic Fungus Botryotinia fuckeliana (Botrytis cinerea)|Pest Manag. Sci.57:1060-1067|2001|10.1002/ps.394
63812|T||Deckert,J., and E.A. Gwozdz|The Effect of Lead on Cyclin Expression in Lupine Roots|Acta Physiol. Plant.21(3): 249-256|1999|10.1007/s11738-999-0039-3
63813|T||De Clercq,P., I. Mestdagh, and D. Degheele|Variation in Susceptibility to Pyriproxyfen in Four Laboratory Strains of Podisus maculiventris (Say) (Het., Pentatomidae)|J. Appl. Entomol.122(7): 405-408|1998|10.1111/j.1439-0418.1998.tb01520.x
63814|T||Clark,J.F.|On the Toxic Effect of Deleterious Agents on the Germination and Development of Certain Filamentous Fungi|Bot. Gaz.28(5): 289 - 327, 378-404|1899|10.1086/327923
63815|A||Ankley,G.T., M.D. Kahl, K.M. Jensen, M.W. Hornung, J.J. Korte, E.A. Makynen, and R.L. Leino|Evaluation of the Aromatase Inhibitor Fadrozole in a Short-Term Reproduction Assay with the Fathead Minnow (Pimephales promelas)|Toxicol. Sci.67:121-130|2002|10.1093/toxsci/67.1.121
63816|T||Alphey,T.J.W., and D.J.F. Brown|Effect of Pollutants on Plant Parasitic Nematodes|Tests Agrochem. Cultiv.8:38-39|1987|
63818|T||De Datta,S.K., W.N. Obcemea, and R.K. Jana|Protein Content of Rice Grain as Affected by Nitrogen Fertilizer and Some Triazines and Substituted Ureas|Agron. J.64:785-788|1972|10.2134/agronj1972.00021962006400060024x
63819|T||Dedos,S.G., and H. Fugo|Acceleration of Pupal-Adult Development by Fenoxycarb in the Silkworm, Bombyx mori|Zool. Sci.18:771-777|2001|10.2108/zsj.18.771
63820|T||Dedos,S.G., and H. Fugo|Disturbance of Adult Eclosion by Fenoxycarb in the Silkworm, Bombyx mori|J. Insect Physiol.45(3): 257-264|1999|10.1016/S0022-1910(98)00121-8
63821|T||Dedos,S.G., and H. Fugo|Effects of Fenoxycarb on the Secretory Activity of the Prothoracic Glands in the Fifth Instar of the Silkworm, Bombyx mori|Gen. Comp. Endocrinol.104:213-224|1996|10.1006/gcen.1996.0164
63822|T||Dedos,S.G., and H. Fugo|Induction of Dauer Larvae by Application of Fenoxycarb Early in the 5th Instar of the Silkworm, Bombyx mori|J. Insect Physiol.45:769-775|1999|10.1016/S0022-1910(99)00058-X
63823|T||Dekhuijzen,H.M.|The Systemic Action of Dimethyldithiocarbamates on Cucumber Scab Caused by Cladosporium cucumerinum and the Conversion of These Compounds by Plants|Neth. J. Plant Pathol.70(suppl. 1): 1-75|1964|
63824|T||De Kok,L.J., C.E.E. Stuiver, M. Rubinigg, S. Westerman, and D. Grill|Impact of Atmospheric Sulfur Deposition on Sulfur Metabolism in Plants: H2S as Sulfur Source for Sulfur Deprived Brassica oleracea L.|Bot. Acta110(5): 411-419|1997|10.1111/j.1438-8677.1997.tb00657.x
63825|T||Delbeke,F., P. Vercruysse, L. Tirry, P. De Clercq, and D. Degheele|Toxicity of Diflubenzuron, Pyriproxyfen, Imidacloprid and Diafenthiuron to the Predatory Bug Orius laevigatus (Het.: Anthocoridae)|Entomophaga42(3): 349-358|1997|
63827|T||Dwivedi,S.C., and R. Kumar|Effects of Synthetic Pyrethroids and Organophosphates on Hatching of Beetle Trogoderma granarium|J. Ecotoxicol. Environ. Monit.7(1): 67-69|1997|
63828|T||Easwaramoorthy,S., H. David, G. Santhalakshmi, M. Shanmugasundaram, V. Nandagopal, and N.K. Kurup|Toxicity of Certain Insecticides to Sturmiopsis inferens, a Larval Parasite of Sugarcane Moth Borers|Entomophaga35(3): 385-391|1990|10.1007/BF02375262
63829|T||Ebel,R.C., A. Caylor, J. Pitts, and B. Boozer|Effect of Ethrel on Bloom Delay, Harvest Date, and Fruit Weight of 'Empress' Peach|HortTechnology9(1): 65-67|1999|10.21273/HORTTECH.9.1.65
63830|T||Ebel,R.C., A. Caylor, J. Pitts, and D.G. Himelrick|"""Surfactant WK"" for Thinning Peach Blossoms"|Fruit Var. J.53(3): 184-188|1999|
63831|T||Ebel,R.C., B. Wallace, and C. Elkins|Phytotoxicity of the Systemic Insecticide Imidacloprid on Tomato and Cucumber in the Greenhouse|HortTechnology10(1): 144-147|2000|10.21273/HORTTECH.10.1.144
63832|T||Eck,P.|Chemical Color Enhancement of Cranberry Fruit|Hortscience3(2): 70-72|1968|10.21273/HORTSCI.3.2.70
63833|T||Edwards,C.A.|Some Effects of Insecticides on Myriapod Populations|Symp. Zool. Soc. Lond.32:645-655|1974|
63834|T||Egan,T.P., I.A. Ungar, and J.F. Meekins|The Effect of Different Salts of Sodium and Potassium on the Germination of Atriplex prostrata (Chenopodiaceae)|J. Plant Nutr.20(12): 1723-1730|1997|10.1080/01904169709365370
63835|T||Eger,J.E.,Jr., J. Stavisky, and J.E. Funderburk|Comparative Toxicity of Spinosad to Frankliniella spp. (Thysanoptera: Thripidae), with Notes on a Bioassay Technique|Fla. Entomol.81(4): 547-551|1998|10.2307/3495955
63836|T||Eggert,D.A., and R.A. Hayden|Histochemical Relationship of Manganese to Internal Bark Necrosis of Apple|J. Am. Soc. Hortic. Sci.95(6): 715-719|1970|10.21273/JASHS.95.6.715
63838|T||Eijsackers,H.|Side Effects of the Herbicide 2,4,5-T on Reproduction, Food Consumption, and Moulting of the Springtail Onychiurus quadriocellatus Gisin (Collembola)|Z. Angew. Entomol. (Multiple Languages)85:341-360|1978|10.1111/j.1439-0418.1978.tb04047.x
63839|T||Eladel,H.M., W.J. Henley, and I.A. Kobbia|Effect of Thiobencarb on Growth and Photosynthesis of the Soil Alga Protosiphon botryoides (Chlorophyta)|J. Appl. Phycol.10(6): 547-554|1999|10.1023/A:1008092826338
63840|T||Elbert,A., and R. Nauen|Resistance of Bemisia tabaci (Homoptera: Aleyrodidae) to Insecticides in Southern Spain with Special Reference to Neonicotinoids|Pest Manag. Sci.56(1): 60-64|2000|10.1002/(SICI)1526-4998(200001)56:1<60::AID-PS88>3.0.CO;2-K
63841|T||Elek,J.A.|Interaction of Treatment of Both Adult and Immature Coleoptera with a Chitin Synthesis Inhibitor Affects Mortality and Development Time of Their Progeny|Entomol. Exp. Appl.89(2): 125-136|1998|10.1046/j.1570-7458.1998.00391.x
63842|T||El-Gazzar,L.M., P.G. Koehler, and R.S. Patterson|Factors Affecting the Susceptibility of the Cat Flea, Ctenocephalides felis Bouche to Chlorpyrifos|J. Agric. Entomol.5(2): 127-130|1988|
63843|T||Elias,M., N.P. Maheswary, M.S. Islam, and M.K. Rahman|Susceptibility of the Malaria Vectors to Insecticides in Bangladesh|Bangladesh Med. Res. Counc. Bull.24(1): 1-5|1998|
63844|T||Ellis,M.D., and F.P. Baxendale|Toxicity of Seven Monoterpenoids to Tracheal Mites (Acari: Tarsonemidae) and Their Honey Bee (Hymenoptera: Apidae) Hosts when Applied as Fumigants|J. Econ. Entomol.90(5): 1087-1091|1997|10.1093/jee/90.5.1087
63845|T||Ellis,M.D., B.D. Siegfried, and B. Spawn|The Effect of Apistan on Honey Bee (Apis mellifera L). Responses to Methyl Parathion, Carbaryl and Bifenthrin Exposure|Apidologie28(3/4): 123-127|1997|10.1051/apido:19970303
63846|T||El-Sabeawy,F., E. Enan, and B. Lasley|Biochemical and Toxic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Immature Male and Female Chickens|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(4): 317-327|2001|10.1016/S1532-0456(01)00199-5
63848|T||Elzen,P.J., J.R. Baxter, M. Spivak, and W.T. Wilson|Control of Varroa jacobsoni Oud. Resistant to Fluvalinate and Amitraz Using Coumaphos|Apidologie31(3): 437-441|2000|10.1051/apido:2000134
63849|T||Elzen,P.J., F.A. Eischen, J.R. Baxter, G.W. Elzen, and W.T. Wilson|Detection of Resistance in US Varroa jacobsoni Oud. (Mesostigmata:  Varroidae) to the Acaricide Fluvalinate|Apidologie30(1): 13-17|1999|10.1051/apido:19990102
63850|T||Elzen,G.W., and P.J. Elzen|Lethal and Sublethal Effects of Selected Insecticides on Geocoris punctipes|Southwest. Entomol.24(3): 199-205|1999|
63851|T||Elzen,G.W., M.G. Rojas, P.J. Elzen, E.G. King, and N.M. Barcenas|Toxicological Responses of the Boll Weevil (Coleoptera:  Curculionidae) Ectoparasitoid Catolaccus grandis (Hymenoptera:  Pteromalidae) to Selected Insecticides|J. Econ. Entomol.92(2): 309-313|1999|10.1093/jee/92.2.309
63854|T||Endo,S., H. Kazano, and T. Masuda|Insecticide Susceptibility of the Rice Leafroller Larvae, Cnaphalocrocis medinalis Guenee (Lepidoptera:  Pyralidae)|Appl. Entomol. Zool.22(2): 145-152|1987|10.1303/aez.22.145
63859|T||Endo,S., T. Masuda, and H. Kazano|Development and Mechanism of Insecticide Resistance in Rice Brown Planthoppers Selected with Malathion and MTMC|J. Pestic. Sci. (Multiple Languages)13:239-245|1988|10.1584/jpestics.13.239
63861|T||Endo,S., T. Nagata, S. Kawabe, and H. Kazano|Changes of Insecticide Susceptibility of the White Backed Planthopper Sogatella furcifera Horvath (Homoptera:  Delphacidae) and the Brown Planthopper Nilaparvata lugens Stal (Homoptera:  Delphacidae)|Appl. Entomol. Zool.23(4): 417-421|1988|10.1303/aez.23.417
63864|T||Endo,S., Sutrisno, I.M. Samudra, A. Nugraha, J. Soejitno, and T. Okada|Insecticide Susceptibility of Spodoptera litura (Fabricius) (Lepidoptera:  Noctuidae) Larvae Collected from Three Locations in Indonesia|Appl. Entomol. Zool.24(3): 309-313|1989|10.1303/aez.24.309
63865|T||Endo,S., and M. Tsurumachi|Insecticide Resistance and Insensitive Acetylcholinesterase in Small Brown Planthopper, Laodelphax striatellus|J. Pestic. Sci. (Multiple Languages)25:395-397|2000|10.1584/jpestics.25.395
63866|T||Endo,S., and M. Tsurumachi|Insecticide Susceptibility of the Brown Planthopper and the White-Backed Plant-Hopper Collected from Southeast Asia|J. Pestic. Sci. (Multiple Languages)26:82-86|2001|10.1584/jpestics.26.82
63867|T||Endo,T., J. Sugawara, M. Nemoto, M. Minami, and P.R. Blower|Effects of Granisetron, a Selective 5-HT3 Receptor Antagonist, on Ouabain-Induced Emesis in Ferrets|Res. Commun. Mol. Pathol. Pharmacol.102(3): 227-239|1998|
63868|T||Enloe,S.F., S.J. Nissen, and P. Westra|Absorption, Fate, and Soil Activity of Quinclorac in Field Bindweed (Convolvulus arvensis)|Weed Sci.47(2): 136-142|1999|10.1017/S0043174500091530
63870|T||Ennik,G.C.|Dry Matter Yield Response of Pasture Grass to Application of Nemafos (Thionazin)|Neth. J. Aquat. Ecol.20:81-96|1972|
63871|T||Endo,S., M. Tsurumachi, and K. Tanaka|Changes in Insecticide Susceptibility of the Rice Leafroller, Cnaphalocrocis medinalis Guenee (Lepidoptera:  Pyralidae), Collected in Kyushu, and Differences in Susceptibility Between Japanese and Malaysian Colonies|Appl. Entomol. Zool.28(2): 125-130|1993|10.1303/aez.28.125
63872|T||Ellner,F.M.|Influence of Fungicide Treatment on Deoxynivalenol Content in Winter Wheat Artificially Infected with Fusarium culmorum|Cereal Res. Commun.25(3): 735-737|1997|10.1007/BF03543828
63873|T||Ellis,J.M., D.R. Shaw, and W.L. Barrentine|Herbicide Combinations for Preharvest Weed Desiccation in Early Maturing Soybean (Glycine max)|Weed Technol.12(1): 157-165|1998|10.1017/S0890037X00042731
63874|T||Elden,T.C.|Effects of Proteinase Inhibitors and Plant Lectins on the Adult Alfalfa Weevil (Coleoptera: Curculionidae)|J. Entomol. Sci.35(1): 62-69|2000|10.18474/0749-8004-35.1.62
63875|T||Elden,T.C.|Influence of a Cysteine Proteinase Inhibitor on Alfalfa Weevil (Coleoptera: Curculionidae) Growth and Development Over Successive Generations|J. Entomol. Sci.35(1): 70-76|2000|10.18474/0749-8004-35.1.70
63876|T||Jordan,D.L., A.B. Burns, C.J. Barnes, W. Barnett, and J.K. Herrick|Influence of Adjuvants and Formulation on Barnyardgrass (Echinochloa crus-galli) Control with Propanil in Rice (Oryza sativa)|Weed Technol.11:762-766|1997|10.1017/S0890037X00043402
63877|T||Kazimir,J., and E. Brennan|The Impact of Chronic Cadmium Exposure on Growth of Pin Oak Seedlings|For. Sci.32(4): 1061-1066|1986|
63878|T||Keith,J.O., and M.S. Mulla|Relative Toxicity of Five Organophosphorus Mosquito Larvicides to Mallard Ducks|J. Wildl. Manag.3:553-563|1966|10.2307/3798747
63879|T||Kettlewell,P.S., G.L. Bayley, and R.L. Domleo|Evaluation of Late-Season Foliar Application of Potassium Chloride for Disease Control in Winter Wheat|J. Fertil. Issues7(1): 17-23|1990|
63880|T||Kulshrestha,G., and S.B. Singh|Residual Fate of Metribuzin on Carrot (Daucus carota) Crop|Bull. Environ. Contam. Toxicol.66(5): 660-663|2001|
63881|T||Hardiman,R.T., and B. Jacoby|Absorption and Translocation of Cd in Bush Beans (Phaseolus vulgaris)|Physiol. Plant. (Multiple Languages)61:670-674|1984|10.1111/j.1399-3054.1984.tb05189.x
63882|T||Hershenhorn,J., Y. Goldwasser, D. Plakhine, R. Ali, T. Blumenfeld, H. Bucsbaum, G. Herzlinger, S. Golan, T. Chilf, H. E|Orobanche aegyptiaca Control in Tomato Fields with Sulfonylurea Herbicides|Weed Res. (Multiple Languages)38(5): 343-349|1998|10.1046/j.1365-3180.1998.00105.x
63884|T||Heydari,A., and I.J. Misaghi|The Impact of Herbicides on the Incidence and Development of Rhizoctonia solani-Induced Cotton Seedling Damping-Off|Plant Dis.82(1): 110-113|1998|10.1094/PDIS.1998.82.1.110
63885|A||Honkanen,J.O., J. Heinonen, and J.V.K. Kukkonen|Toxicokinetics of Waterborne Bisphenol A in Landlocked Salmon (Salmo salar M. Sebago) Eggs at Various Temperatures|Environ. Toxicol. Chem.20(10): 2296-2302|2001|10.1002/etc.5620201023
63886|T||Howden,R., P.B. Goldsbrough, C.R. Andersen, and C.S. Cobbett|Cadmium-Sensitive, cad1 Mutants of Arabidopsis thaliana are Phytochelatin Deficient|Plant Physiol.107:1059-1066|1995|10.1104/pp.107.4.1059
63887|T||Inamori,Y., Y. Okamoto, Y. Takegawa, H. Tsujibo, Y. Sakagami, Y. Kumeda, M. Shibata, and A. Numata|Insecticidal and Antifungal Activities of Aminorhodanine Derivatives|Biosci. Biotechnol. Biochem.62(5): 1025-1027|1998|10.1271/bbb.62.1025
63889|T||Jin,X., S.W. Kennedy, T. Di Muccio, and T.W. Moon|Role of Oxidative Stress and Antioxidant Defense in 3,3',4,4',5-Pentachlorobiphenyl-Induced Toxicity and Species-Differential Sensitivity in Chicken and Duck Embryos|Toxicol. Appl. Pharmacol.172(3): 241-248|2001|10.1006/taap.2001.9150
63891|T||Kender,W.J., U. Hartmond, M. Salyani, J.K. Burns, and J.D. Whitney|Effects of Concentration and Application Time of 'Prosulfuron' on the Abscission of 'Hamlin' and 'Valencia' Oranges|Annu. Meet. Fla. State Hortic. Soc.111:108-112|1998|
63892|T||Klostermeyer,E.C., and W.B. Rasmussen|The Effect of Soil Insecticide Treatments on Mite Population and Damage|J. Econ. Entomol.46(5): 910-912|1953|10.1093/jee/46.5.910
63893|T||Koo,S.J., J.C. Neal, and J.M. DiTomaso|Mechanism of Action and Selectivity of Quinclorac in Grass Roots|Pestic. Biochem. Physiol.57(1): 44-53|1997|10.1006/pest.1997.2258
63894|T||Kopsell,D.A., and W.M. Randle|Selenate Concentration Affects Selenium and Sulfur Uptake and Accumulation by 'Granex 33' Onions|J. Am. Soc. Hortic. Sci.122(5): 721-726|1997|10.21273/JASHS.122.5.721
63895|T||Mortensen,L.M.|Growth Responses of Seedlings of Six Betula pubescens Ehrh. Provenances to Six Ozone Exposure Regimes|Scand. J. For. Res.13(2): 189-196|1998|10.1080/02827589809382976
63896|T||Mulla,M.S., G.P. Georghiou, and H.W. Cramer|Residual Activity of Organophosphorous Insecticides in Soil as Tested Against the Eye Gnat, Hippelates collusor|J. Econ. Entomol.54(5): 865-870|1961|10.1093/jee/54.5.865
63897|T||Nandra,K.S., and S.L. Chopra|Effect of Thiometon on the Chemical Composition and the Growth of Groundnut Crop|Indian J. Agric. Sci.39(3): 266-270|1969|
63898|T||Niekamp,J.W., and W.G. Johnson|Weed Management with Sulfentrazone and Flumioxazin in No-Tillage Soyabean (Glycine max)|Crop Prot.20:215-220|2001|10.1016/S0261-2194(00)00129-0
63899|T||O'Sullivan,J., and R.J. Thomas|Injury and Yield Effects on Crops Grown in CGA 152005-Treated Soil|Weed Technol.15(3): 594-597|2001|10.1614/0890-037X(2001)015[0594:IAYEOC]2.0.CO;2
63900|T||Wallace,B., R.C. Ebel, and J. Kemble|Imidacloprid Effects on Root Growth, Photosynthesis, and Water Use of Cucumber in the Greenhouse|Hortscience35(5): 953-|2000|10.21273/HORTSCI.35.5.953
63901|T||Waller,G.D.|Susceptibility of an Alfalfa Leafcutting Bee to Residues of Insecticides on Foliage|J. Econ. Entomol.62(1): 189-192|1969|10.1093/jee/62.1.189
63902|T||Wittwer,S.H., and M.J. Bukovac|Gibberellin and Higher Plants:  X.  Field Observations with Certain Vegetable Crops|Mich. Agric. Exp. Stn. Q. Bull.40(2): 352-364|1957|
63903|T||Wu,M.T., B. Singh, and D.K. Salunkhe|Influence of Foliar Application of Simazine, Igran, and GS-14254 on delta-Aminolevulinic Acid Dehydratase of Pea Seedlings|Phytochemistry10:2025-2027|1971|10.1016/S0031-9422(00)97188-7
63904|T||Wu,M.T., B. Singh, J.C. Theurer, L.E. Olson, and D.K. Salunkhe|Control of Sucrose Loss in Sugarbeet During Storage by Chemicals and Modified Atmosphere and Certain Associated Physiological Changes|J. Am. Soc. Sugar Beet Technol.16(2): 117-127|1970|10.5274/jsbr.16.2.117
63905|T||Pimprale,S.S., C.L. Besco, P.K. Bryson, and T.M. Brown|Increased Susceptibility of Pyrethroid-Resistant Tobacco Budworm (Lepidoptera: Noctuidae) to Chlorfenapyr|J. Econ. Entomol.90(1): 49-54|1997|10.1093/jee/90.1.49
63906|T||Ping,G., H. Taiping, G. Rong, C. Qiu, and L. Shigui|Activity of the Botanical Aphicides 1,5-Diphenyl-1-Pentanone and 1,5-Diphenyl-2-Penten-1-One on Two Species of Aphididnae|Pest Manag. Sci.57:307-310|2001|10.1002/ps.297
63907|T||Pintro,J., J. Barloy, and P. Fallavier|Uptake of Aluminium by the Root Tips of an Al-Sensitive and Al-Tolerant Cultivar of Zea mays|Plant Physiol. Biochem.36(6): 463-467|1998|10.1016/S0981-9428(98)80211-8
63908|T||Pinto-Carnide,O., and H. Guedes-Pinto|Differential Aluminum Tolerance of Portuguese Rye Populations and North European Rye Cultivars|Agronomie (Multiple Languages)20(1): 93-99|2000|10.1051/agro:2000113
63909|T||Polavarapu,S.|Evaluation of Phytotoxicity of Diazinon and Captan Formulations on Highbush Blueberries|HortTechnology10(2): 308-314|2000|10.21273/HORTTECH.10.2.308
63910|T||Polejaeva,I.A., W.A. Reed, T.D. Bunch, L.C. Ellis, and K.L. White|Prolactin-Induced Termination of Obligate Diapause of Mink (Mustela vison) Blastocysts In Vitro and Subsequent Establishment of Embryonic Stem-Like Cells|J. Reprod. Fertil.109:229-236|1997|10.1530/jrf.0.1090229
63911|T||Polyzou,A., M.T. Froment, P. Masson, and L.P. Belzunces|Absence of a Protective Effect of the Oxime 2-PAM Toward Paraoxon-Poisoned Honey Bees: Acetylcholinesterase Reactivation Not at Fault|Toxicol. Appl. Pharmacol.152(1): 184-192|1998|10.1006/taap.1998.8483
63912|T||Pons,S., H. Riedl, and J. Avilla|Toxicity of the Ecdysone Agonist Tebufenozide to Codling Moth (Lepidoptera: Tortricidae)|J. Econ. Entomol.92(6): 1344-1351|1999|10.1093/jee/92.6.1344
63913|T||Powles,S.B., D.F. Lorraine-Colwill, J.J. Dellow, and C. Preston|Evolved Resistance to Glyphosate in Rigid Ryegrass (Lolium rigidum) in Australia|Weed Sci.46(5): 604-607|1998|10.1017/S0043174500091165
63914|T||Prasad,R., and R.P. Moody|Translocation of Benomyl in Elm (Ulmus americana L.).  IX.  Some Ecological Consequences of the Treatments on Population Dynamics of Earthworms (Lumbricus terrestis L.)|Information Rep. No. CC-X-81, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:12 p.|1974|
63915|T||Pree,D.J., K.J. Whitty, L. Van Driel, and G.M. Walker|Resistance to Insecticides in Oriental Fruit Moth Populations (Grapholita molesta) from the Niagara Peninsula of Ontario|Can. Entomol.130(3): 245-256|1998|10.4039/Ent130245-3
63916|T||Preston,C., and S.B. Powles|Amitrole Inhibits Diclofop Metabolism and Synergises Diclofop-Methyl in a Diclofop-Methyl-Resistant Biotype of Lolium rigidum|Pestic. Biochem. Physiol.62(3): 179-189|1998|10.1006/pest.1998.2382
63917|T||Pritsos,C.A., and J. Ma|Biochemical Assessment of Cyanide-Induced Toxicity in Migratory Birds from Gold Mining Hazardous Waste Ponds|Toxicol. Ind. Health13(3-4): 203-209|1997|10.1177/074823379701300207
63918|T||Purohit,S., and V.P. Singh|Uniconazole (S-3307) Induced Protection of Abelmoschus esculentus L. Against Cadmium Stress|Photosynthetica (Praha)36(4): 597-599|1999|10.1023/A:1007052423238
63919|T||Lane,A.M., R.J. Williams, W.J. Muller, and W.M. Lonsdale|The Effects of the Herbicide Tebuthiuron on Seedlings of Mimosa pigra and Native Floodplain Vegetation in Northern Australia|Aust. J. Ecol.22(4): 439-447|1997|10.1111/j.1442-9993.1997.tb00695.x
63920|T||Ju,G.C., X.Z. Li, W.E. Rauser, and A. Oaks|Influence of Cadmium on the Production of gamma-Glutamylcysteine Peptides and Enzymes of Nitrogen Assimilation in Zea mays Seedlings|Physiol. Plant. (Multiple Languages)101(4): 793-799|1997|10.1111/j.1399-3054.1997.tb01065.x
63921|T||Jones,D., and E.P.M. Candido|Feeding is Inhibited by Sublethal Concentrations of Toxicants and by Heat Stress in the Nematode Caenorhabditis elegans: Relationship to the Cellular Stress Response|J. Exp. Zool.284(2): 147-157|1999|10.1002/(SICI)1097-010X(19990701)284:2<147::AID-JEZ4>3.0.CO;2-Z
63922|T||Conner,R.L., M.J. Clapperton, and A.D. Kuzyk|Control of Take-All in Soft White Spring Wheat with Seed and Soil Treatments|Can. J. Plant Pathol.22(2): 91-98|2000|10.1080/07060660009500497
63924|T||Iragavarapu,T.K., J.L. Posner, and G.D. Bubenzer|The Effect of Various Crops on Bromide Leaching to Shallow Groundwater Under Natural Rainfall Conditions|J. Soil Water Conserv.53(2): 146-151|1998|
63925|T||Mordue,A.J., M.S.J. Simmonds, S.V. Ley, W.M. Blaney, W. Mordue, M. Nasiruddin, and A.J. Nisbet|Actions of Azadirachtin, a Plant Allelochemical, Against Insects|Pestic. Sci.54(3): 277-284|1998|10.1002/(SICI)1096-9063(1998110)54:3<277::AID-PS801>3.0.CO;2-I
63926|T||Johnson,W.G., J.S. Dilbeck, M.S. DeFelice, and J.A. Kendig|Weed Control with Reduced Rates of Imazaquin and Imazethapyr in No-Till Narrow-Row Soybean (Glycine max)|Weed Sci.46(1): 105-110|1998|10.1017/S004317450009024X
63927|T||Pasian,C.C., R.K. Lindquist, and D.K. Struve|A New Method of Applying Imidacloprid to Potted Plants for Controlling Aphids and Whiteflies|HortTechnology7(3): 265-269|1997|10.21273/HORTTECH.7.3.265
63928|T||Payne,M.G., J.L. Fults, R.J. Hay, and C.H. Livingston|Protein Content and Specific Gravity of Red McClure Potatoes Increased by 2,4-D Treatment|Am. Potato J.30:46-49|1953|10.1007/BF02859973
63929|T||Pedersen,H.C., and M. Saether|Effects of Cadmium on Parental Behaviour in Free-Living Willow Ptarmigan Hens|Ecotoxicology8(1): 1-7|1999|10.1023/A:1008836908985
63930|T||Pretorius,M.W., and H. Van Ark|Further Insecticide Trials for the Control of Cactoblastis cactorum (Lepidoptera: Pyralidae) as well as Dactylopius opuntiae (Hemiptera: Dactylopiidae) on Spineless Cactus|Phytophylactica24(3): 229-233|1992|
63931|T||Liburd,O.E., L.J. Gut, L.L. Stelinski, M.E. Whalon, M.R. McGuire, J.C. Wise, J.L. Willett, X.P. Hu, and R.J. Prokopy|Mortality of Rhagoletis Species Encountering Pesticide-Treated Spheres (Diptera: Tephritidae)|J. Econ. Entomol.92(5): 1151-1156|1999|10.1093/jee/92.5.1151
63932|T||Gill,E.L., R.W. Watkins, D.P. Cowan, J.D. Bishop, and J.E. Gurney|Cinnamamide, an Avian Repellent, Reduces Woodpigeon Damage to Oilseed Rape|Pestic. Sci.52(2): 159-164|1998|10.1002/(SICI)1096-9063(199802)52:2<159::AID-PS691>3.0.CO;2-S
63933|T||Letouze,A., and J. Gasquez|A Rapid Reliable Test for Screening Aryloxyphenoxypropionic Acid Resistance Within Alopecurus myosuroides and Lolium spp. Populations|Weed Res. (Multiple Languages)39(1): 37-48|1999|10.1046/j.1365-3180.1999.00120.x
63934|T||Ma,J.F., S. Hiradate, K. Nomoto, T. Iwashita, and H. Matsumoto|Internal Detoxification Mechanism of Al in Hydrangea.  Identification of Al Form in the Leaves|Plant Physiol.113(4): 1033-1039|1997|10.1104/pp.113.4.1033
63935|T||Mwesigwa,J., D.J. Collins, and A.G. Volkov|Electrochemical Signaling in Green Plants: Effects of 2,4-Dinitrophenol on Variation and Action Potentials in Soybean|Bioelectrochemistry51(2): 201-205|2000|10.1016/S0302-4598(00)00075-1
63936|T||Mylona,P.V., A.N. Polidoros, and J.G. Scandalios|Modulation of Antioxidant Responses by Arsenic in Maize|Free Radic. Biol. Med.25(4/5): 576-585|1998|10.1016/S0891-5849(98)00090-2
63937|T||Parker,D.R., and J.F. Pedler|"Probing the ""Malate Hypothesis"" of Differential Aluminum Tolerance in Wheat by Using Other Rhizotoxic Ions as Proxies for Al"|Planta (Multiple Languages)205(3): 389-396|1998|10.1007/s004250050335
63938|T||Pearson,J., E.C.M. Clough, J. Woodall, D.C. Havill, and X.H. Zhang|Ammonia Emissions to the Atmosphere from Leaves of Wild Plants and Hordeum vulgare Treated with Methionine Sulphoximine|New Phytol.138(1): 37-48|1998|10.1046/j.1469-8137.1998.00880.x
63939|T||Pedibhotla,V.K., F.R. Hall, and J. Holmsen|Deposit Characteristics and Toxicity of Fipronil Formulations for Tobacco Budworm (Lepidoptera: Noctuidae) Control on Cotton|Crop Prot.18(8): 493-499|1999|10.1016/S0261-2194(99)00050-2
63940|T||Pietrantonio,P.V., and J.H. Benedict|Effect of New Cotton Insecticide Chemistries, Tebufenozide, Spinosad and Chlorfenapyr, on Orius insidious and Two Cotesia Species|Southwest. Entomol.24(1): 21-29|1999|
63941|T||Pique,J., M. Eizaguirre, and X. Pons|Soil Insecticide Treatments Against Maize Soil Pests and Corn Borers in Catalonia Under Traditional Crop Conditions|Crop Prot.17(7): 557-561|1998|10.1016/S0261-2194(98)00044-1
63942|T||Poss,J.A., S.R. Grattan, C.M. Grieve, and M.C. Shannon|Characterization of Leaf Boron Injury in Salt-Stressed Eucalyptus by Image Analysis|Plant Soil206(2): 237-245|1999|10.1023/A:1004488331737
63943|T||Prates,H.T., J.P. Santos, J.M. Waquil, J.D. Fabris, A.B. Oliveira, and J.E. Foster|Insecticidal Activity of Monoterpenes Against Rhyzopertha dominica (F.) and Tribolium castaneum (Herbst)|J. Stored Prod. Res.34(4): 243-249|1998|10.1016/S0022-474X(98)00005-8
63944|T||Pushpalatha,N., and V.A. Vijayan|Bioassay of Some Important Insecticides Against the Adults of Two Populations of Culex vishnui Theobald Prevalent in Mandya and Mysore, Karnataka State (India)|J. Entomol. Res.22(4): 293-297|1998|
63945|T||Jones,D.R., W.R. Eason, and J. Dighton|Investigation of Spatial and Temporal Patterns of 137Cs Partitioning in Eriophorum vaginatum L. in Relation to Its Nutrient Retrieval and Storage Strategy|J. Environ. Radioact.40(3): 271-288|1998|10.1016/S0265-931X(97)00089-1
63946|T||Herren,T., and U. Feller|Transport of Cadmium via Xylem and Phloem in Maturing Wheat Shoots: Comparison with the Translocation of Zinc, Strontium and Rubidium|Ann. Bot.80(5): 623-628|1997|10.1006/anbo.1997.0492
63947|T||Pierre,W.H., and A.D. Stuart|Soluble Aluminum Studies:  IV.  The Effects of Phosphorus in Reducing the Detrimental Effects of Soil Acidity on Plant Growth|Soil Sci.36:211-225|1933|10.1097/00010694-193309000-00004
63948|T||Hertel,H.|Protection of Wood Against the House Longhorn Beetle Hylotrupes bajulus with Sodium Chloride and Potassium Chloride|Pestic. Sci.49(3): 307-312|1997|10.1002/(SICI)1096-9063(199703)49:3<307::AID-PS522>3.0.CO;2-8
63949|T||Latta,R.A., and E.D. Carter|Increasing Production of an Annual Medic-Wheat Rotation by Grazing and Grass Removal with Herbicides in the Victorian Mallee|Aust. J. Exp. Agric.38(3): 211-217|1998|10.1071/EA95057
63950|T||Lee,C.Y., and L.C. Lee|Influence of Sanitary Conditions on the Field Performance of Chlorpyrifos-Based Baits Against American Cockroaches, Periplaneta americana (L.) (Dictyoptera: Blattidae)|J. Vector Ecol.25(2): 218-221|2000|
63951|T||Light,G.G., P.A. Dotray, and J.R. Mahan|Thermal Dependence of Pyrithiobac Efficacy in Amaranthus palmeri|Weed Sci.47(6): 644-650|1999|10.1017/S004317450009127X
63952|T||Lindberg,S., and H. Strid|Aluminium Induces Rapid Changes in Cytosolic pH and Free Calcium and Potassium Concentrations in Root Protoplasts of Wheat (Triticum aestivum)|Physiol. Plant. (Multiple Languages)99(3): 405-414|1997|10.1111/j.1399-3054.1997.tb00554.x
63953|T||Matthews,N., S.B. Powles, and C. Preston|Mechanisms of Resistance to Acetyl-Coenzyme A Carboxylase-Inhibiting Herbicides in a Hordeum leporinum Population|Pest Manag. Sci.56:441-447|2000|10.1002/(SICI)1526-4998(200005)56:5<441::AID-PS159>3.0.CO;2-L
63954|T||Mayer,A., M. Kilian, B. Hoster, O. Sterner, and H. Anke|In-Vitro and In-Vivo Nematicidal Activities of the Cyclic Dodecapeptide Omphalotin A|Pestic. Sci.55(1): 27-30|1999|10.1002/(SICI)1096-9063(199901)55:1<27::AID-PS854>3.0.CO;2-K
63955|T||Murchie,A.K., I.H. Williams, and D.V. Alford|Effects of Commercial Insecticide Treatments to Winter Oilseed Rape on Parasitism of Ceutorhynchus assimilis Paykull (Coleoptera: Curculionidae) by Trichomalus perfectus (Walker) (Hymenoptera: Pteromalidae)|Crop Prot.16(3): 199-202|1997|10.1016/S0261-2194(96)00103-2
63956|T||Holmes,S.B.|Reproduction and Nest Behaviour of Tennessee Warblers Vermivora peregrina in Forests Treated with Lepidoptera-Specific Insecticides|J. Appl. Ecol.35(2): 185-194|1998|10.1046/j.1365-2664.1998.00298.x
63957|T||Partridge,M.J., and J.H. Borden|Evaluation of Neem Seed Extract for Control of the Spruce Aphid, Elatobium abietinum (Walker) (Homoptera:  Aphididae)|Can. Entomol.129(5): 899-906|1997|10.4039/Ent129899-5
63958|T||Pascal,S., G. Gullner, T. Komives, and R. Scalla|Selective Induction of Glutathione S-Transferase Subunits in Wheat Plants Exposed to the Herbicide Acifluorfen|Z. Naturforsch. Sect. C J. Biosci.55(1/2): 37-39|2000|10.1515/znc-2000-1-208
63959|T||Pedersen,C.T., and D.M. Sylvia|Limitations to Using Benomyl in Evaluating Mycorrhizal Functioning|Biol. Fertil. Soils25(2): 163-168|1997|10.1007/s003740050298
63960|T||Pell,E.J., J.P. Sinn, B.W. Brendley, L. Samuelson, C. Vinten-Johansen, M. Tien, and J. Skillman|Differential Response of Four Tree Species to Ozone-Induced Acceleration of Foliar Senescence|Plant Cell Environ.22(7): 779-790|1999|10.1046/j.1365-3040.1999.00449.x
63961|T||Peluso,M., C. Bolognesi, A. Munnia, E. Landini, and S. Parodi|In Vivo Studies on Genotoxicity of a Soil Fumigant, Dazomet|Environ. Mol. Mutagen.32(2): 179-184|1998|10.1002/(SICI)1098-2280(1998)32:2<179::AID-EM14>3.0.CO;2-1
63962|T||Perfecto,I.|Indirect and Direct Effects in a Tropical Agroecosystem:  The Maize-Pest-Ant System in Nicaragua|Ecology71(6): 2125-2134|1990|10.2307/1938626
63963|T||Pline,W.A., J. Wu, and K.K. Hatzios|Effects of Temperature and Chemical Additives on the Response of Transgenic Herbicide-Resistant Soybeans to Glufosinate and Glyphosate Applications|Pestic. Biochem. Physiol.65(2): 119-131|1999|10.1006/pest.1999.2437
63964|T||Pline,W.A., J. Wu, and K.K. Hatzios|Absorption, Translocation, and Metabolism of Glufosinate in Five Weed Species as Influenced by Ammonium Sulfate and Pelargonic Acid|Weed Sci.47(6): 636-643|1999|10.1017/S0043174500091268
63965|T||Pokarzhevskii,A.D., and N.M. Van Straalen|The Influence of Dietary Nitrogen and Phosphorus on Cd Accumulation in the Woodlouse Porcellio scaber Latr|Appl. Soil Ecol.16(2): 97-107|2001|10.1016/S0929-1393(00)00112-8
63967|T||Preston,C., and S.B. Powles|Light-Dependent Enhanced Metabolism of Chlorotoluron in a Substituted Urea Herbicide-Resistant Biotype of Lolium rigidum Gaud.|Planta (Multiple Languages)201(2): 202-208|1997|10.1007/BF01007705
63968|T||Gunse,B., C. Poschenrieder, and J. Barcelo|Water Transport Properties of Roots and Root Cortical Cells in Proton- and Al-Stressed Maize Varieties|Plant Physiol.113(2): 595-602|1997|10.1104/pp.113.2.595
63969|T||Gutierrez-Lugo,M.T., B. Lotina-Hennsen, A. Farres, S. Sanchez, and R. Mata|Phytotoxic and Photosynthetic Activities of Maduramicin and Maduramicin Methyl Ester|Z. Naturforsch. Sect. C J. Biosci.54(5/6): 325-332|1999|10.1515/znc-1999-5-606
63970|T||Jung,K., K. Kaletta, H. Segner, and G. Schuurmann|15N Metabolic Test for the Determination of Phytotoxic Effects of Chemicals and Contaminated Environmental Samples|Environ. Sci. Pollut. Res.6(2): 72-76|1999|10.1007/BF02987551
63971|T||Himelblau,E., H. Mira, S.J. Lin, V.C. Culotta, L. Penarrubia, and R.M. Amasino|Identification of a Functional Homolog of the Yeast Copper Homeostasis Gene ATX1 from Arabidopsis|Plant Physiol.117(4): 1227-1234|1998|10.1104/pp.117.4.1227
63972|T||Hadas,A., B. Sagiv, and N. Haruvy|Agricultural Practices, Soil Fertility Management Modes and Resultant Nitrogen Leaching Rates Under Semi-arid Conditions|Agric. Water Manag.42(1): 81-95|1999|10.1016/S0378-3774(99)00026-8
63973|T||Lester,P.J., D.J. Pree, H.M.A. Thistlewood, L.M. Trevisan, and R. Harmsen|Pyrethroid Encapsulation for Conservation of Acarine Predators and Reduced Spider Mite (Acari: Tetranychidae) Outbreaks in Apple Orchards|Environ. Entomol.28(1): 72-80|1999|10.1093/ee/28.1.72
63974|T||Naf,C., D. Broman, and B. Brunstrom|Distribution and Metabolism of Polycyclic Aromatic Hydrocarbons (PAHs) Injected into Eggs of Chicken (Gallus domesticus) and Common Eider Duck (Somateria mollissima)|Environ. Toxicol. Chem.11(11): 1653-1660|1992|10.1002/etc.5620111114
63976|T||Nandula,V.K., C.L. Foy, and D.M. Orcutt|Glyphosate for Orobanche aegyptiaca Control in Vicia sativa and Brassica napus|Weed Sci.47(5): 486-491|1999|10.1017/S0043174500092158
63977|T||Nauen,R., U. Reckmann, S. Armborst, H.P. Stupp, and A. Elbert|Whitefly-Active Metabolites of Imidacloprid: Biological Efficacy and Translocation in Cotton Plants|Pestic. Sci.55(3): 265-271|1999|10.1002/(SICI)1096-9063(199903)55:3<265::AID-PS891>3.0.CO;2-C
63978|T||Nauen,R., B. Koob, and A. Elbert|Antifeedant Effects of Sublethal Dosages of Imidacloprid on Bemisia tabaci|Entomol. Exp. Appl.88(3): 287-293|1998|10.1046/j.1570-7458.1998.00373.x
63979|T||Nauen,R., and A. Elbert|Apparent Tolerance of a Field-Collected Strain of Myzus nicotianae to Imidacloprid due to Strong Antifeeding Responses|Pestic. Sci.49(3): 252-258|1997|10.1002/(SICI)1096-9063(199703)49:3<252::AID-PS521>3.0.CO;2-2
63980|T||Navari-Izzo,F., M.F. Quartacci, C. Pinzino, F.D. Vecchia, and C.L.M. Sgherri|Thylakoid-Bound and Stromal Antioxidative Enzymes in Wheat Treated with Excess Copper|Physiol. Plant. (Multiple Languages)104(4): 630-638|1998|10.1034/j.1399-3054.1998.1040416.x
63981|T||Nazer,I.K., and T.K. Al-Azzeh|Response of the Mosquito Culex pipiens molestus in the Amman Area of Jordan to Certain Insecticides|Am. Mosq. Control Assoc. J.1(2): 178-180|1985|
63982|T||Nedelkoska,T.V., and P.M. Doran|Hyperaccumulation of Cadmium by Hairy Roots of Thlaspi caerulescens|Biotechnol. Bioeng.67(5): 607-615|2000|10.1002/(SICI)1097-0290(20000305)67:5<607::AID-BIT11>3.0.CO;2-3
63983|T||Neil,K.A., S.O. Gaul, and K.B. McRae|Control of the English Grain Aphid (Sitobion avenae (F.)) (Homoptera: Aphididae) and the Oat-Birdcherry Aphid (Rhopalosiphum padi (L.)) (Homoptera: Aphididae) on Winter Cereals|Can. Entomol.129(6): 1079-1091|1997|10.4039/Ent1291079-6
63984|T||Nelson,K.A., K.A. Renner, and D. Penner|Weed Control in Soybean (Glycine max) with Imazamox and Imazethapyr|Weed Sci.46(5): 587-594|1998|10.1017/S0043174500091141
63985|T||Berry,D.L., B. Singh, and D.K. Salunkhe|Incorporation of beta-Hydroxy-beta-Methylglutaric Acid into Carotenoids and Other Ether Soluble Compounds in Maize Seedlings|Plant Cell Physiol.13:157-165|1972|10.1093/oxfordjournals.pcp.a074714
63990|T||Miller,J.E., A.S. Heagle, and W.A. Pursley|Influence of Ozone Stress on Soybean Response to Carbon Dioxide Enrichment: II. Biomass and Development|Crop Sci.38(1): 122-128|1998|10.2135/cropsci1998.0011183X003800010021x
63994|T||Zacharewski,T.R., M.D. Meek, J.H. Clemons, Z.F. Wu, M.R. Fielden, and J.B. Matthews|Examination of the In Vitro and In Vivo Estrogenic Activities of Eight Commercial Phthalate Esters|Toxicol. Sci.46(2): 282-293|1998|
63996|T||Melangeli,C., G.A. Rosenthal, and D.L. Dalman|The Biochemical Basis for L-Canavanine Tolerance by the Tobacco Budworm Heliothis virescens (Noctuidae)|Proc. Natl. Acad. Sci. U.S.A.94(6): 2255-2260|1997|10.1073/pnas.94.6.2255
63997|T||Miller,D.M., P.G. Koehler, and R.S. Patterson|Use of German Cockroach (Dictyoptera: Blattellidae) Fecal Extract to Enhance Toxic Bait Performance in the Presence of Alternative Food Sources|J. Econ. Entomol.90(2): 483-487|1997|10.1093/jee/90.2.483
63999|T||Beligni,M.V., and L. Lamattina|Nitric Oxide Protects Against Cellular Damage Produced by Methylviologen Herbicides in Potato Plants|Nitric Oxide3(2): 1-10|1999|
64005|A||Brion,F., B.M. Nilsen, J.K. Eidem, A. Goksoyr, and J.M. Porcher|Development and Validation of an Enzyme-Linked Immunosorbent Assay to Measure Vitellogenin in the Zebrafish (Danio rerio)|Environ. Toxicol. Chem.28(8): 1699-1708|2002|
64007|T||Kegel,B.|Laboratory Experiments on the Side Effects of Selected Herbicides and Insecticides on the Larvae of Three Sympatric Poecilus-Species (Col., Carabidae)|J. Appl. Entomol.108:144-155|1989|10.1111/j.1439-0418.1989.tb00444.x
64011|T||Nelson,K.A., and K.A. Renner|Weed Control in Wide- and Narrow-Row Soybean (Glycine max) with Imazamox, Imazethapyr, and CGA-277476 plus Quizalofop|Weed Technol.12(1): 137-144|1998|10.1017/S0890037X00042706
64012|T||Nelson,K.A., and K.A. Renner|Postemergence Weed Control with CGA-277476 and Cloransulam-Methyl in Soybean (Glycine max)|Weed Technol.12(2): 293-299|1998|10.1017/S0890037X00043840
64014|A||Gibbons,B.H., and I.R. Gibbons|Organic Solvents Modify the Calcium Control of Flagellar Movement in Sea Urchin Sperm|Nature292:65-66|1981|10.1038/292085a0
64017|A||Sandholm,M., H.E. Oksanen, and L. Pesonen|Uptake of Selenium by Aquatic Organisms|Limnol. Oceanogr.18(3): 496-499|1973|10.4319/lo.1973.18.3.0496
64021|A||Lee,C., J.G. Na, K.C. Lee, and K. Park|Choriogenin mRNA Induction in Male Medaka, Oryzias latipes as a Biomarker of Endocrine Disruption|Aquat. Toxicol.61(3-4): 233-241|2002|10.1016/S0166-445X(02)00060-7
64022|A||Ren,L., A. Meldahl, and J.J. Lech|Dimethyl Formamide (DMFA) and Ethylene Glycol (EG) are Estrogenic in Rainbow Trout|Chem.-Biol. Interact.102:63-67|1996|10.1016/0009-2797(96)03727-1
64026|T||Singh,R.|Evaluation of Fenitrothion for the Control of Malaria Vector Anopheles culicifacies and Other Anophelines (Diptera:  Culicidae)|Entomon9(3): 189-190|1984|
64028|T||Luna,C.M., L.M. Casano, and V.S. Trippi|Inhibition of Wheat Nitrate Reductase Activity by Zinc|Biol. Plant. (Praha)43(2): 257-262|2000|10.1023/A:1002760412055
64032|T||Monson,W.G., G.W. Burton, W.S. Wilkinson, and S.W. Dumford|Effect of N Fertilization and Simazine on Yield, Protein, Amino-Acid Content, and Carotenoid Pigments of Coastal Bermudagrass|Agron. J.63:928-930|1971|10.2134/agronj1971.00021962006300060032x
64036|T||Bokern,M., and H.H. Harms|Toxicity and Metabolism of 4-n-Nonylphenol in Cell Suspension Cultures of Different Plant Species|Environ. Sci. Technol.31(7): 1849-1854|1997|10.1021/es960353r
64038|T||Cooke,A.S.|Uptake of DDT and DDE by the Quail Embryo and Chick|Pestic. Sci.2:144-147|1971|10.1002/ps.2780020403
64039|T||Cavanna,S., and G.P. Molinari|Residues of Fenthion and Trichlorofon in Olives and Olive Oil After Olive Tree Treatments|Food Addit. Contam.15(5): 518-527|1998|10.1080/02652039809374676
64040|T||Chung,N., and M. Alexander|Effect of Concentration on Sequestration and Bioavailability of Two Polycyclic Aromatic Hydrocarbons|Environ. Sci. Technol.33(20): 3605-3608|1999|10.1021/es9902874
64041|T||Coenen-Stass,D.|Effects of Lead and Cadmium Uptake on the Metabolic Rate of the Woodlouse Porcellio scaber (Crustacea, Isopoda: Oniscidea)|Isr. J. Zool.44(3-4): 439-444|1998|
64042|T||Connor,P.F.|A Study of Small Mammals, Birds and Other Wildlife in an Area Sprayed with Sevin|N. Y. Fish Game J.7(1): 26-32|1960|
64043|T||Chanda,S., and S. Chakravorty|Food with Neem Oil Affects Life and Development of Rice Moth, Corcyra cephalonica (Stainton) (Lepidoptera:  Pyralidae)|Entomon23(2): 153-156|1998|
64044|T||Cessna,A.J.|Metribuzin Residues in Lentil Following Postemergence Application|Can. J. Plant Sci.78(1): 167-169|1998|10.4141/P97-040
64045|T||Capri,E., F. Sicbaldi, N. Vagnotti, and M. Trevisan|Ethoprophos Residues in Soil and in Tomato After Repeated Applications by Drip Irrigation|Fresenius Environ. Bull.7(11-12): 734-737|1998|
64047|T||Avery,M.L., D.L. Fischer, and T.M. Primus|Assessing the Hazard to Granivorous Birds Feeding on Chemically Treated Seeds|Pestic. Sci.49(4): 362-366|1997|10.1002/(SICI)1096-9063(199704)49:4<362::AID-PS540>3.0.CO;2-W
64048|T||Avery,M.L., T.M. Primus, E.M. Mihaich, D.G. Decker, and J.S. Humphrey|Consumption of Fipronil-Treated Rice Seed Does not Affect Captive Blackbirds|Pestic. Sci.52(2): 91-96|1998|10.1002/(SICI)1096-9063(199802)52:2<91::AID-PS682>3.0.CO;2-K
64049|T||Atarashi,M., H. Amano, M. Ichimasa, and Y. Ichimasa|Deposition of D2O from Air to Plant and Soil During an Experiment of D2O Vapor Release into a Vinyl House|Fusion Eng. Design42:133-140|1998|10.1016/S0920-3796(98)00376-7
64050|T||Archer,T.E., and W.O. Gauer|Residues of Five Pesticides in Field-Treated Alfalfa Seeds and Alfalfa Sprouts|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(4): 445-456|1985|
64051|T||Archambault,D.J., G. Zhang, and G.J. Taylor|Spatial Variation in the Kinetics of Aluminium (Al) Uptake in Roots of Wheat (Triticum aestivum L.) Exhibiting Differential Resistance to Al. Evidence for Metabolism-Dependent Exclusion of Al|J. Plant Physiol.151(6): 668-674|1997|10.1016/S0176-1617(97)80063-6
64053|T||Antonious,G.F., M.E. Byers, and J.C. Snyder|Residues and Fate of Endosulfan on Field-Grown Pepper and Tomato|Pestic. Sci.54(1): 61-67|1998|10.1002/(SICI)1096-9063(199809)54:1<61::AID-PS780>3.0.CO;2-M
64054|T||Anderson,A.E.|Effects of Sagebrush Eradication by Chemical Means on Deer and Related Wildlife|Proj.No.W-38-R-13, Fed.Aid in Wildl.Restoration, Colorado Game and Fish Dep., Grand Jct., CO:72 p.|1960|
64055|T||Allen,R.L., and C.E. Snipes|Interactions of Foliar Insecticides Applied with Pyrithiobac|Weed Technol.9(3): 512-517|1995|10.1017/S0890037X00023770
64056|T||Abdel-Hamid,A.Z.|Development of Bait Formulations for Control of Intermediate Hosts of African Schistosome Species|J. Appl. Toxicol.17(6): 391-395|1997|10.1002/(SICI)1099-1263(199711/12)17:6<391::AID-JAT456>3.0.CO;2-I
64057|T||Bruus Pedersen,M., E.J.M. Temminghoff, M.P.J.C. Marinussen, N. Elmegaard, and C.A.M. Van Gestel|Copper Accumulation and Fitness of Folsomia candida Willem in a Copper Contaminated Sandy Soil as Affected by pH and Soil Moisture|Appl. Soil Ecol.6:135-146|1997|10.1016/S0929-1393(96)00155-2
64058|T||Bruinsma,J., and J.J. Schuurman|The Effect of Spraying with DNOC (4,6-Dinitro-0-Cresol) on the Growth of the Roots and Shoots of Winter Rye Plants|Plant Soil24(2): 309-316|1966|10.1007/BF02232907
64059|T||Barwal,R.N., and N.S. Rao|Influence of Micro-Environment on the Incidence of Whorl Maggot, Hydrellia sp. (Dipt:  Ephydridae) and Whitebacked Planthopper, Sogatella furcifera (Horv.) (Homp:  Delphacidae) in Rice Treated and Untreated with Insecti|Indian J. Ecol.13(2): 353-356|1986|
64060|T||Broschat,T.K.|Phytotoxicity and Longevity of Twenty-Two Preemergent Herbicides Used on Three Species of Container-Grown Palms|HortTechnology10(3): 597-603|2000|10.21273/HORTTECH.10.3.597
64061|T||Bottomley,P.J., T.E. Sawyer, L. Boersma, R.P. Dick, and D.D. Hemphill|Winter Cover Crop Enhances 2,4-D Mineralization Potential of Surface and Subsurface Soil|Soil Biol. Biochem.31(6): 849-857|1999|10.1016/S0038-0717(98)00184-9
64062|T||Barnette,R.M.|The Influence of Soluble Aluminum Salts on the Growth of Wheat Seedlings in Shive's R3C3 Solution|N.J. Agric. Exp. Stn. Rep.:255-258|1923|
64063|T||Bostanian,N.J., and N. Larocque|Laboratory Tests to Determine the Intrinsic Toxicity of Four Fungicides and Two Insecticides to the Predacious Mite Agistemus fleschneri|Phytoparasitica29(3): 215-222|2001|10.1007/BF02983453
64064|T||Burger,J., and M. Gochfeld|Tissue Levels of Lead in Experimentally Exposed Herring Gull (Larus argentatus) Chicks|J. Toxicol. Environ. Health29(2): 219-233|1990|10.1080/15287399009531385
64065|T||Borek,V., L.R. Elberson, J.P. McCaffrey, and M.J. Morra|Toxicity of Rapeseed Meal and Methyl Isothiocyanate to Larvae of the Black Vine Weevil (Coleoptera: Curculionidae)|J. Econ. Entomol.90(1): 109-112|1997|10.1093/jee/90.1.109
64066|T||Barshad,I.|Molybdenum Content of Pasture Plants in Relation to Toxicity to Cattle|Soil Sci.66:187-195|1984|10.1097/00010694-194809000-00004
64067|T||Al-Sarrani, and A. Qublan|Growth of Monoascus ruber, Teigh, as Affected by Certain Heavy Metals, in the Presence of Pyridoxine|Phyton (Buenos Aires)65:153-163|1999|
64068|T||Allinson,D.W., and R.A. Peters|Influence of Simazine on Crude Protein and Cellulose Content and Yield of Forage Grasses|Agron. J.62:246-250|1970|10.2134/agronj1970.00021962006200020020x
64070|T||Amor,T.B., L. Bortolotto, and G. Jori|Porphyrins and Related Compounds as Photoactivatable Insecticides. 3. Laboratory and Field Studies|Photochem. Photobiol.71(2): 124-128|2000|10.1562/0031-8655(2000)071<0124:SIPPAR>2.0.CO;2
64072|T||Afek,U., J. Orenstein, and E. Nuriel|Fogging Disinfectants Inside Storage Rooms Against Pathogens of Potatoes and Sweet Potatoes|Crop Prot.18(2): 111-114|1999|10.1016/S0261-2194(98)00100-8
64073|T||Avila,C., A. Garcia-Gutierrez, R. Crespillo, and F.M. Canovas|Effects of Phosphinotricin Treatment on Glutamine Synthetase Isoforms in Scots Pine Seedlings|Plant Physiol. Biochem.36(12): 857-863|1998|10.1016/S0981-9428(99)80003-5
64074|T||Clark,D.R., C.J. Green, V.G. Allen, and C.P. Brown|Influence of Salinity in Irrigation Water on Forage Sorghum and Soil Chemical Properties|J. Plant Nutr.22(12): 1905-1920|1999|10.1080/01904169909365762
64075|T||Cerezo,M., P. Garcia-Agustin, and E. Primo-Millo|Influence of Chloride and Transpiration on Net 15NO3- Uptake Rate by Citrus Roots|Ann. Bot.84(1): 117-120|1999|10.1006/anbo.1999.0886
64076|T||Costa,G., and J.L. Morel|Cadmium Uptake by Lupinus albus (L.):  Cadmium Excretion, a Possible Mechanism of Cadmium Tolerance|J. Plant Nutr.16(10): 1921-1929|1993|10.1080/01904169309364661
64077|T||Cheng,B.T.|Effect of Pesticides on the Quality of Strawberries|J. Chin. Agric. Chem. Soc.27(3): 373-378|1989|
64078|T||Clement,J.M.A.M., M. De Boer, J.H. Venema, and P.R. Van Hasselt|There is No Direct Relationship Between N-Status and Frost Hardiness in Needles of NH3-Exposed Scots Pine Seedlings|Phyton (Horn) (Multiple Languages)40(3): 21-33|2000|
64079|T||Clapp,J.G.,Jr.|Response of Bragg Soybean to TIBA (2,3,5-Triiodobenzoic Acid)|Agron. J.65:41-43|1973|10.2134/agronj1973.00021962006500010012x
64080|T||Choi,C.Y., P.M. Waller, and T.M. Dennehy|Insect Control with Carbon Dioxide Foam|Trans ASAE (Am. Soc. Agric. Eng.)40(5): 1475-1480|1997|10.13031/2013.21362
64082|T||Cooke,L.R., and G. Little|The Effect of Foliar Application of Phosphonate Formulations on the Susceptibility of Potato Tubers to Late Blight|Pest Manag. Sci.58(1): 17-25|2001|10.1002/ps.408
64084|T||Avery,M.L., M.J. Kenyon, G.M. Linz, D.L. Bergman, D.G. Decker, and J.S. Humphrey|Potential Risk to Ring-Necked Pheasants from Application of Toxic Bait for Blackbird Control in South Dakota|J. Wildl. Manag.62(1): 388-394|1998|10.2307/3802303
64085|T||Athie,I., R.A.R. Gomes, S. Bolonhezi, S.R.T. Valentini, and M.F.P.M. De Castro|Effects of Carbon Dioxide and Phosphine Mixtures on Resistant Populations of Stored-Grain Insects|J. Stored Prod. Res.34(1): 27-32|1998|10.1016/S0022-474X(97)00026-X
64088|T||Antognoni,F., S. Agostani, C. Spinelli, M. Koskinen, H. Elo, and N. Bagni|Effect of bis(Guanylhydrazones) on Growth and Polyamine Uptake in Plant Cells|J. Plant Growth Regul.18(1): 39-44|1999|10.1007/PL00007044
64089|T||Amberger,A., and M. Yousry|Integrated Study About Deficiency and Toxicity of Manganese and Critical Levels Manganese in the Nutrient Solution for Corn Grown Under High Levels of Zinc and Copper|Egypt. J. Agron.13(1-2): 159-171|1988|
64090|T||Alfieri,A., and C. Gardner|The NK1 Antagonist GR203040 Inhibits Cyclophosphamide-Induced Damage in the Rat and Ferret Bladder|Gen. Pharmacol.29(2): 245-250|1997|10.1016/S0306-3623(96)00482-X
64091|T||Akkerhuis,G.A.J.M.J., J.A. Axelsen, and C. Kjaer|Towards Predicting Pesticide Deposition from Plant Phenology; a Study in Spring Barley|Pestic. Sci.53(3): 252-262|1998|10.1002/(SICI)1096-9063(199807)53:3<252::AID-PS768>3.0.CO;2-X
64093|T||Adaskaveg,J.E., H. Forster, L. Wade, D.F. Thompson, and J.H. Connell|Efficacy of Sodium Tetrathiocarbonate and Propiconazole in Managing Armillaria Root Rot of Almond on Peach Rootstock|Plant Dis.83(3): 240-246|1999|10.1094/PDIS.1999.83.3.240
64097|T||Bringmann,G., J. Holenz, B. Wiesen, B.W. Nugroho, and P. Proksch|Dioncophylline A as a Growth-Retarding Agent Against the Herbivorous Insect Spodoptera littoralis: Structure-Activity Relationships|J. Nat. Prod.60(4): 342-347|1997|10.1021/np960707s
64098|T||Burpee,L.L.|Effects of Plant Growth Regulators and Fungicides on Rhizoctonia Blight of Tall Fescue|Crop Prot.17(6): 503-507|1998|10.1016/S0261-2194(98)00048-9
64099|T||Baldassari,N., P. Baronio, V. Nemec, M. Rejzek, and Z. Wimmer|Control of Cacopsylla (Psylla) pyri (L.) (Stenorhyncha, Psyllidae) by Juvenile Hormone Analogues|J. Appl. Entomol.121(6): 343-351|1997|10.1111/j.1439-0418.1997.tb01417.x
64100|T||Bozhkov,P.V., and S. Von Arnold|Polyethylene Glycol Promotes Maturation but Inhibits Further Development of Picea abies Somatic Embryos|Physiol. Plant. (Multiple Languages)104(2): 211-224|1998|10.1034/j.1399-3054.1998.1040209.x
64101|T||Buwalda,F., I. Stulen, and L.J. De Kok|Effects of Light and Atmospheric H2S on Amino Acid Composition in Spinach Leaves|Phyton (Horn) (Multiple Languages)40(3): 15-19|2000|
64104|T||Becher,M., A. Worner, and S. Schubert|Cd Translocation into Generative Organs of Linseed (Linum usitatissimum L.)|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)160(5): 505-510|1997|10.1002/jpln.19971600411
64108|T||Bailey,J.S., and A.S. Laidlaw|The Interactive Effects of Phosphorus, Potassium, Lime and Molybdenum on the Growth and Morphology of White Clover (Trifolium repens L.) at Establishment|Grass Forage Sci.54(1): 69-76|1999|10.1046/j.1365-2494.1999.00159.x
64109|T||Taggart,P.J., L.R. Cooke, P.C. Mercer, and M.W. Shaw|Effects of Fungicides Used to Control Rhynchosporium secalis Where Benzimidazole Resistance is Present|Crop Prot.17(9): 727-734|1998|10.1016/S0261-2194(98)00081-7
64110|T||Taggart,P.J., T. Locke, A.N. Phillips, N. Pask, D.W. Hollomon, S.J. Kendall, L.R. Cooke, and P.C. Mercer|Benzimidazole Resistance in Rhynchosporium secalis and Its Effect on Barley Leaf Blotch Control in the UK|Crop Prot.18(4): 239-243|1999|10.1016/S0261-2194(99)00021-6
64111|T||Tanaka,A., R. Loe, and S.A. Navasero|Some Mechanisms Involved in the Development of Iron Toxicity Symptoms in the Rice Plant|Soil Sci. Plant Nutr.12(4): 32-38|1966|10.1080/00380768.1966.10431951
64112|T||Tanaka,D.,Jr., M. Lin, D. Powell, M. Morgan, L. Lipsitz, R.J. Aulerich, and S.J. Bursian|Effects of Dark-Rearing on Triphenyl Phosphite-Induced Neuropathy in the Visual System of the Developing European Ferret (Mustela putorius furo)|J. Toxicol. Environ. Health Part A58(4): 215-231|1999|10.1080/009841099157304
64113|T||Tanaka,S., S.I. Kochi, H. Kunita, S.I. Ito, and M. Kameya-Iwaki|Biological Mode of Action of the Fungicide, Flusulfamide, Against Plasmodiophora brassicae (Clubroot)|Eur. J. Plant Pathol.105(6): 577-584|1999|10.1023/A:1008722005570
64114|T||Tang,J., R.L. Carr, and J.E. Chambers|Changes in Rat Brain Cholinesterase Activity and Muscarinic Receptor Density During and After Repeated Oral Exposure to Chlorpyrifos in Early Postnatal Development|Toxicol. Sci.51(2): 265-272|1999|10.1093/toxsci/51.2.265
64115|T||Tavakkol-Afshari,R., and P. Hucl|Response of 21 Spring Wheat-Cultivars to Formalin Seed Treatment|Seed Sci. Technol.26(1): 199-209|1998|
64116|T||Thangavel,P., A. Shahira Sulthana, and V. Subburam|Interactive Effects of Selenium and Mercury on the Restoration Potential of Leaves of the Medicinal Plant, Portulaca oleracea Linn|Sci. Total Environ.243/244:1-8|1999|10.1016/S0048-9697(98)00181-8
64117|T||Thomas,J.C., F.K. Malick, C. Endreszl, E.C. Davies, and K.S. Murray|Distinct Responses to Copper Stress in the Halophyte Mesembryanthemum crystallinum|Physiol. Plant. (Multiple Languages)102(3): 360-368|1998|10.1034/j.1399-3054.1998.1020304.x
64118|T||Thompson,H.M., C.H. Walker, and A.R. Hardy|Inhibition of Avian Esterases by Organophosphorus Insecticides:  Problems of Reactivation and Storage|Arch. Environ. Contam. Toxicol.20(4): 509-513|1991|10.1007/BF01065840
64119|T||Thornton,B.|Influence of pH and Aluminium on Nitrogen Partitioning in Defoliated Grasses|Grass Forage Sci.53(2): 170-178|1998|10.1046/j.1365-2494.1998.5320170.x
64120|T||Thys,C., P. Vanthomme, E. Schrevens, and M. De Proft|Interactions of Cd with Zn, Cu, Mn and Fe for Lettuce (Lactuca sativa L.) in Hydroponic Culture|Plant Cell Environ.14:713-717|1991|10.1111/j.1365-3040.1991.tb01545.x
64121|T||Tiryaki,O., K. Gozek, and S.U. Khan|14C-Residues of Trifluralin in a Soil and Their Uptake by Carrots|Bull. Environ. Contam. Toxicol.59(1): 58-64|1997|10.1007/s001289900443
64122|T||Tiryaki,O., and K. Gozek|Total, Extractable and Bound 14C-Trifluralin Residues in the Soil and Melon|J. Turk. Phytopathol.26(1): 39-49|1997|
64123|T||Tjosvold,S.A., and W.E. Chaney|Effect of Insecticides on Control of Blue Gum Psyllid Infesting Commercial Cut Eucalyptus, 1991|Arthropod Manag. Tests21:371-372|1996|10.1093/amt/21.1.371
64124|T||Tones,S.J., and A.A. Tompsett|Tolerance of Narcissus Cultivars to Bulb-Immersion Treatments with Chlorpyrifos|Tests Agrochem. Cultiv.11:74-75|1990|
64125|T||Torres,A.C., R.T. Nagata, R.J. Ferl, T.A. Bewick, and D.J. Cantliffe|In Vitro Assay Selection of Glyphosate Resistance in Lettuce|J. Am. Soc. Hortic. Sci.124(1): 86-89|1999|10.21273/JASHS.124.1.86
64126|T||Torstensson,L., E. Borjesson, and B. Arvidsson|Treatment of Bare Root Spruce Seedlings with Permethrin Against Pine Weevil Before Lifting|Scand. J. For. Res.14(5): 408-415|1999|10.1080/02827589950154113
64127|T||Trisyono,A., and G.M. Chippendale|Effect of the Ecdysone Agonists, RH-2485 and Tebufenozide, on the Southwestern Corn Borer, Diatraea grandiosella|Pestic. Sci.53(2): 177-185|1998|10.1002/(SICI)1096-9063(199806)53:2<177::AID-PS753>3.0.CO;2-6
64128|T||Trisyono,A., and G.M. Chippendale|Effect of the Nonsteroidal Ecdysone Agonists, Methoxyfenozide and Tebufenozide, on the European Corn Borer (Lepidoptera:  Pyralidae)|J. Econ. Entomol.90(6): 1486-1492|1997|10.1093/jee/90.6.1486
64129|T||Trisyono,A., B. Puttler, and G.M. Chippendale|Effect of the Ecdysone Agonists, Methoxyfenozide and Tebufenozide, on the Lady Beetle, Coleomegilla maculata|Entomol. Exp. Appl.94(1): 103-105|2000|10.1046/j.1570-7458.2000.00609.x
64131|T||Tuler,S.M., and J.M. Bowen|Chronic Fenthion Toxicity in Laying Hens|Vet. Hum. Toxicol.41(5): 302-307|1999|
64132|T||Yadav,D.V., S.S. Khanna, and R.P. Yadav|Modelling Cobalt and Phosphorus Responses in Some Legumes|Int. J. Trop. Agric.4(3): 228-232|1986|
64133|T||Yoshioka,T., T. Endo, and S. Satoh|Restoration of Seed Germination at Supraoptimal Temperatures by Fluridone, an Inhibitor of Abscisic Acid Biosynthesis|Plant Cell Physiol.39(3): 307-312|1998|10.1093/oxfordjournals.pcp.a029371
64134|T||Young,B.G., S.E. Hart, and F.W. Simmons|Preemergence Weed Control in Conventional-Till Corn (Zea mays) with RPA 201772|Weed Technol.13(3): 471-477|1999|10.1017/S0890037X00046054
64135|T||Young,B.G., and S.E. Hart|Mobility of RPA 201772 in Setaria faberi|Weed Sci.48(2): 188-192|2000|10.1614/0043-1745(2000)048[0188:MORISF]2.0.CO;2
64136|T||Walker,G.P., C.B. Richards, W.G. Jones, and D.C.G. Aitken|Toxicity of Five Insecticides Used to Control California Red Scale (Homoptera: Diaspididae) Against Susceptible Red Scale Strains|J. Econ. Entomol.84(1): 17-24|1991|10.1093/jee/84.1.17
64137|T||Wall,D.A., and M.A.H. Smith|Weed Management in Common Buckwheat (Fagopyrum esculentum)|Can. J. Plant Sci.79(3): 455-461|1999|10.4141/P98-104
64139|T||Wallace,A., R.A. Lancaster, and N.L. Hill|Application of Non-Selective Herbicides During Flowering of Pasture Legumes can Reduce Seed Yield and Alter Seed Characteristics|Aust. J. Exp. Agric.38(6): 583-594|1998|10.1071/EA98048
64140|T||Wang,T., and H. Darmency|Cross-Resistance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in Foxtail Millet (Setaria italica)|Pestic. Biochem. Physiol.59(2): 81-88|1998|10.1006/pest.1997.2309
64141|T||Wang,T., and H. Darmency|Dinitroaniline Herbicide Cross-Resistance in Resistant Setaria italica Lines Selected from Interspecific Cross with S. viridis|Pestic. Sci.49(3): 277-283|1997|10.1002/(SICI)1096-9063(199703)49:3<277::AID-PS529>3.0.CO;2-4
64142|T||Wanner,K.W., B.V. Helson, and B.J. Harris|Laboratory and Field Evaluation of Spinosad Against the Gypsy Moth, Lymantria dispar|Pest Manag. Sci.56:855-860|2000|10.1002/1526-4998(200010)56:10<855::AID-PS216>3.0.CO;2-#
64143|T||Washington,W.S., S. Engleitner, G. Boontjes, and N. Shanmuganathan|Effect of Fungicides, Seaweed Extracts, Tea Tree Oil, and Fungal Agents on Fruit Rot and Yield in Strawberry|Aust. J. Exp. Agric.39(4): 487-494|1999|10.1071/EA98164
64144|T||Washington,W.S., V. Hood, F. Goubran, G. Hepworth, and S. Stewart-Wade|Effect of Fungicides Applied as Foliar Sprays and Trunk Injections on Nut Rot of Chestnuts Caused by Phomopsis castanea in Victoria|Aust. J. Exp. Agric.38(3): 295-303|1998|10.1071/EA97125
64145|T||Watson,E., G. Barson, D.B. Pinniger, G. Roberts, and A.R. Ludlow|Evaluation of the Behavioural Responses of Anthrenus verbasci Adults and Larvae to Permethrin (ec) Using a Computerized Tracking System|J. Stored Prod. Res.33(4): 335-346|1997|10.1016/S0022-474X(97)00013-1
64146|A||Watt,P.J., and P. Jarvis|Survival Analysis in Palmate Newts Exposed to Ammonium Nitrate Agricultural Fertilizer|Ecotoxicology6(6): 355-362|1997|10.1023/A:1018647415636
64147|T||Webster,E.P., K.J. Bryant, and L.D. Earnest|Weed Control and Economics in Nontransgenic and Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.13(3): 586-593|1999|10.1017/S0890037X00046248
64148|T||Weinberger,P., and T.C.S.S. Murthy|Uranium Uptake and Its Effects on the Germination and Early Growth of Some Crop Species (l'Absorption d'Uranium et ses Effets sur la Germination et la Croissance Hative de Certaines Especes de Produits Agricoles)|TR-329, Atomic Energy of Canada Limited, Chalk River, Ontario, Canada:73 p.|1985|
64149|T||Weintraub,P.G., and A.R. Horowitz|Systemic Effects of a Neem Insecticide on Liriomyza huidobrensis Larvae|Phytoparasitica25(4): 283-289|1997|10.1007/BF02981092
64150|T||Wlostowski,T., and A. Krasowska|Subcellular Distribution of Metallothionein and Cadmium in the Liver and Kidneys of Bank Voles (Clethrionomys glareolus) Exposed to Dietary Cadmium|BioMetals12(2): 173-179|1999|10.1023/A:1009285820760
64151|T||Wolfenbarger,D.A., D.G. Riley, C.A. Staetz, G.L. Leibee, G.A. Herzog, and E.V. Gage|Response of Silverleaf Whitefly (Homoptera:  Aleyrodidae) to Bifenthrin and Endosulfan by Vial Bioassay in Florida, Georgia and Texas|J. Entomol. Sci.33(4): 412-420|1998|10.18474/0749-8004-33.4.412
64152|T||Womeldorf,D.J., E.L. Atkins, and P.A. Gillies|Honey Bee Hazards Associated with Some Mosquito Abatement Aerial Spray Applications|Calif. Vector Views21(9): 51-55|1974|
64153|T||Zsombok,A., L. Molnar, and E. Fischer|Neurotoxicity of Paraquat and Triphenyltin in the Earthworm, Eisenia fetida Sav.  A Histo- and Cytopathological Study|Acta Biol. Hung.48(4): 485-495|1997|10.1007/BF03542958
64154|T||Niklaus,P.A., P.W. Leadley, J. Stocklin, and C. Korner|Nutrient Relations in Calcareous Grassland Under Elevated CO2|Oceanologia (Wroc.)116(1-2): 67-75|1998|
64155|T||Schier,G.A., and C.J. McQuattie|Effect of Water Stress on Aluminum Toxicity in Pitch Pine Seedlings|J. Plant Nutr.23(5): 637-647|2000|10.1080/01904160009382046
64156|T||Schofl,U.A., and V. Zinkernagel|A Test Method Based on Microscopic Assessments to Determine Curative and Protectant Fungicide Properties Against Septoria tritici|Plant Pathol.46(4): 545-556|1997|10.1046/j.1365-3059.1997.d01-41.x
64158|T||Shimabukuro,R.H., B.L. Hoffer, K.A. Biewer, and D.G. Davis|Physiological Responses of Resistant and Susceptible Plants to Diclofop-Methyl and Its Antagonism by 2,4-D and Antioxidants|Physiol. Plant. (Multiple Languages)107(1): 68-76|1999|10.1034/j.1399-3054.1999.100110.x
64159|T||Stocklin,J., P.W. Leadley, and C. Korner|Community and Species Level Responses to Elevated CO2 in Designed Calcareous Grassland Communities|Acta Oecol. Oecol. Appl. (Multiple Languages)18(3): 241-248|1997|10.1016/S1146-609X(97)80010-0
64160|T||Tasei,J.N., J. Lerin, and G. Ripault|Sub-Lethal Effects of Imidacloprid on Bumblebees, Bombus terrestris (Hymenoptera: Apidae), During a Laboratory Feeding Test|Pest Manag. Sci.56:784-788|2000|10.1002/1526-4998(200009)56:9<784::AID-PS208>3.0.CO;2-T
64161|T||Tatar,E., V.G. Mihucz, B. Kmethy, G. Zaray, and F. Fodor|Determination of Organic Acids and Their Role in Nickel Transport Within Cucumber Plants|Microchem. J.67:73-81|2000|10.1016/S0026-265X(00)00101-6
64162|T||Tatar,E., V.G. Mihucz, A. Varga, G. Zaray, and E. Cseh|Effect of Lead, Nickel and Vanadium Contamination on Organic Acid Transport in Xylem Sap of Cucumber|J. Inorg. Biochem.75(3): 219-223|1999|10.1016/S0162-0134(99)00091-4
64164|A||Teisseire,H., and G. Vernet|Ascorbate and Glutathione Contents in Duckweed, Lemna minor, as Biomarkers of the Stress Generated by Copper, Folpet and Diuron|Biomarkers (Lond.)5(4): 263-273|2000|10.1080/135475000413818
64165|T||Thomas,P.E., R.E. Kouri, and J.J. Hutton|The Genetics of Aryl Hydrocarbon Hydroxylase Induction in Mice:  A Single Gene Difference Between C57BL/6J and DBA/2J|Biochem. Genet.6:157-168|1972|10.1007/BF00486400
64166|T||Tillman,P.G., and W. Scott|Susceptibility of Cotesia marginiventris (Cresson) (Hymenoptera: Braconidae) to Field Rates of Selected Cotton Insecticides|J. Entomol. Sci.32(3): 303-310|1997|10.18474/0749-8004-32.3.303
64167|T||Tilstone,G.H., and M.R. Macnair|The Consequence of Selection for Copper Tolerance on the Uptake and Accumulation of Copper in Mimulus guttatus|Ann. Bot.80(6): 747-751|1997|10.1006/anbo.1997.0510
64168|T||Todd,P.A., J.D.P. Phillips, P.D. Putwain, and R.H. Marrs|Control of Molinia caerulea on Moorland|Grass Forage Sci.55(2): 181-191|2000|10.1046/j.1365-2494.2000.00215.x
64169|T||Toft,S., and A.P. Jensen|No Negative Sublethal Effects of Two Insecticides on Prey Capture and Development of a Spider|Pestic. Sci.52(3): 223-228|1998|10.1002/(SICI)1096-9063(199803)52:3<223::AID-PS692>3.0.CO;2-Z
64170|T||Tomita,Y., and H. Ishii|Reduced Sensitivity to Fenarimol in Japanese Field Strains of Venturia nashicola|Pestic. Sci.54(2): 150-156|1998|10.1002/(SICI)1096-9063(1998100)54:2<150::AID-PS797>3.0.CO;2-A
64171|T||Toscano,N.C., H.A. Yoshida, and T.J. Henneberry|Responses to Azadirachtin and Pyrethrum by Two Species of Bemisia (Homoptera:  Aleyrodidae)|J. Econ. Entomol.90(2): 583-589|1997|10.1093/jee/90.2.583
64172|T||Tozlu,I., G.A. Moore, and C.L. Guy|Effects of Increasing NaCl Concentration on Stem Elongation, dry Mass Production, and Macro- and Micro-Nutrient Accumulation in Poncirus trifoliata|Aust. J. Plant Physiol.27(1): 35-42|2000|
64173|A||Troncoso,L., R. Galleguillos, and A. Larrain|Effects of Copper on the Fitness of the Chilean Scallop Argopecten purpuratus (Mollusca:  Bivalvia)|Hydrobiologia (Multiple Languages)420(1-3): 185-189|2000|10.1023/A:1003947407939
64174|T||Trouiller,J.|Monitoring Varroa jacobsoni Resistance to Pyrethroids in Western Europe|Apidologie29(6): 537-546|1998|10.1051/apido:19980606
64175|T||Tuovinen,K., E. Kaliste-Korhonen, F.M. Raushel, and O. Hanninen|Success of Pyridostigmine, Physostigmine, Eptastigmine and Phosphotriesterase Treatments in Acute Sarin intoxication|Toxicology134(2-3): 169-178|1999|10.1016/S0300-483X(99)00029-3
64176|T||Asmatullah, A. Asma, A. Latif, and A.R. Shakoori|Effect of Hexavalent Chromium on Egg Laying Capacity, Hatchability of Eggs, Thickness of Egg Shell and Post-Hatching Development of Gallus domesticus|Asian-Australas. J. Anim. Sci.12(6): 944-950|1999|10.5713/ajas.1999.944
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64190|T||Kaschef,A.H.|Effects of Temperature on the Irritability Caused by DDT and DDT-Analogues in Anopheline Mosquitoes|Bull. W. H. O.42:917-930|1970|
64191|T||Tyson,M.J., E. Sheffield, and T.V. Callaghan|Uptake, Allocation, Accumulation and Ecological Implications of 85Sr in Bracken (Pteridium aquilinum L. Kuhn)|J. Environ. Radioact.46(1): 15-25|1999|10.1016/S0265-931X(98)00154-4
64192|T||Tyson,M.J., E. Sheffield, and T.V. Callaghan|Uptake, Transport and Seasonal Recycling of 134Cs Applied Experimentally to Bracken (Pteridium aquilinum L. Kuhn)|J. Environ. Radioact.46(1): 1-14|1999|10.1016/S0265-931X(99)00018-1
64194|T||Yuan,J., and H.W. Chambers|Evaluation of the Role of Boll Weevil Aliesterases in Noncatalytic Detoxication of Four Organophosphorus Insecticides|Pestic. Biochem. Physiol.61(3): 135-143|1998|10.1006/pest.1998.2360
64195|T||Wanner,K.W., B.V. Helson, and B.C. Kostyk|Foliar and Systemic Applications of Neem Seed Extract for Control of Spruce Budworm, Choristoneura fumiferana (Clem.) (Lepidoptera: Tortricidae), Infesting Black and White Spruce Seed Orchards|Can. Entomol.129(4): 645-655|1997|10.4039/Ent129645-4
64196|T||Wehler,E.K., L. Lindberg, C.J. Jonsson, and A. Bergman|Tissue Retention and Metabolism of 2,3,4,3',4'-Pentachlorobiphenyl in Mink and Mouse|Chemosphere27(12): 2397-2412|1993|10.1016/0045-6535(93)90262-4
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64198|T||Wilson,T.G.|Cyromazine Toxicity to Drosophila melanogaster (Diptera:  Drosophilidae) and Lack of Cross-Resistance in Natural Population Strains|J. Econ. Entomol.90(5): 1163-1169|1997|10.1093/jee/90.5.1163
64199|T||Wu,J., I.T. Hwang, and K.K. Hatzios|Effects of Chloroacetanilide Herbicides on Membrane Fatty Acid Desaturation and Lipid Composition in Rice, Maize, and Sorghum|Pestic. Biochem. Physiol.66(3): 161-169|2000|10.1006/pest.1999.2467
64200|T||Wyss,P., and M. Bolsinger|Plant-Mediated Effects on Pymetrozine Efficacy Against Aphids|Pestic. Sci.50(3): 203-210|1997|10.1002/(SICI)1096-9063(199707)50:3<203::AID-PS584>3.0.CO;2-W
64201|T||Zdarkova,E.|The Susceptibility of Different Strains of Cheyletus eruditus (Acarina: Cheyletidae) to Organophosphate Acaricides|Exp. Appl. Acarol.21(5): 259-264|1997|10.1023/A:1018498905715
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64205|T||Obenland,D.M., E.B. Jang, L.H. Aung, and L. Zettler|Tolerance of Lemons and the Mediterranean Fruit Fly to Carbonyl Sulfide Quarantine Fumigation|Crop Prot.17(3): 219-224|1998|10.1016/S0261-2194(98)00003-9
64206|T||Odendaal,J.P., and A.J. Reinecke|The Effect of high Lead Concentrations on the Mortality, Mass and Behaviour of Porcellio laevis Latr. (Crustacea, Isopoda) in Laboratory Tests|S. Afr. J. Zool.33(3): 143-146|1998|10.1080/02541858.1998.11448464
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64208|T||Ogg,C.L., and R.E. Gold|Exposure and Field Evaluation of Fenoxycarb for German Cockroach (Orthoptera:  Blattellidae) Control|J. Econ. Entomol.81(5): 1408-1413|1988|10.1093/jee/81.5.1408
64209|T||Okamoto,M.|Simultaneous Demonstration of Lens Regeneration from Dorsal Iris and Tumour Production from Ventral Iris in the Same Newt Eye After Carcinogen Administration|Differentiation61(5): 285-292|1997|10.1046/j.1432-0436.1997.6150285.x
64210|T||Oldham,R.S., D.M. Latham, D. Hilton-Brown, M. Towns, A.S. Cooke, and A. Burn|The Effect of Ammonium Nitrate Fertiliser on Frog (Rana temporaria) Survival|Agric. Ecosyst. Environ.61(1): 69-74|1997|10.1016/S0167-8809(96)01095-X
64212|T||Olson,B.L.S., K. Al-Khatib, P. Stahlman, S. Parrish, and S. Moran|Absorption and Translocation of MON 37500 in Wheat and Other Grass Species|Weed Sci.47(1): 37-40|1999|10.1017/S0043174500090627
64213|T||Ortega,F., U. Steiner, and H.W. Dehne|Induced Resistance: A Tool for Fungicide Resistance Management|Pestic. Sci.53(2): 193-196|1998|10.1002/(SICI)1096-9063(199806)53:2<193::AID-PS754>3.0.CO;2-1
64214|T||Ortego,F., M. Ruiz, and P. Castanera|Effect of DIMBOA on Growth and Digestive Physiology of Sesamia nonagrioides (Lepidoptera: Noctuidae) Larvae|J. Insect Physiol.44(2): 95-101|1998|10.1016/S0022-1910(97)00103-0
64215|T||Osman,A.A., S.M. Abo-Korah, and A. Ghattas|Toxicity of Some New Pesticides to Mites on Cotton|Indian J. Agric. Sci.55(8): 533-536|1985|
64216|T||O'Sullivan,J., R.J. Thomas, and W.J. Bouw|Yield and Injury Effects on Vegetable Crops Planted in Flumetsulam-Treated Soil|Can. J. Plant Sci.79(3): 417-420|1999|10.4141/P98-079
64217|T||O'Sullivan,J., and W.J. Bouw|Sensitivity of Processing Sweet Corn (Zea mays) Cultivars to Nicosulfuron/Rimsulfuron|Can. J. Plant Sci.78(1): 151-154|1998|10.4141/P97-054
64218|T||O'Sullivan,J., R.J. Thomas, and W.J. Bouw|Effect of Imazethapyr and Imazamox Soil Residues on Several Vegetable Crops Grown in Ontario|Can. J. Plant Sci.78(4): 647-651|1998|10.4141/P97-127
64219|T||Ozkan,A., and A. Yanikolu|Effects of 2,4-D and Maleic Hydrazide on the Glycogen Level in the Embryonic Development of Pimpla turionellae (L.) (Hym., Ichneumonidae)|J. Appl. Entomol.123(4): 211-216|1999|10.1046/j.1439-0418.1999.00344.x
64220|T||Nielsen,S.A., S. Toft, and J. Clausen|Cypermethrin Effects on Detoxification Enzymes in Active and Hibernating Wolf Spiders (Pardosa amentata)|Ecol. Appl.9(2): 463-468|1999|10.1890/1051-0761(1999)009[0463:CEODEI]2.0.CO;2
64221|T||Niranjana,S.R., A. Pandit, H.S. Prakash, and H.S. Shetty|Effect of Triacontanol on the Seed Quality of Maize, Paddy and Sunflower|Seed Sci. Technol.27(3): 1007-1013|1999|
64222|T||Noguchi,K., H. Kuramochi, Y. Takeuchi, M. Konnai, and K. Yoneyama|Restoration of Gibberellin Biosynthesis by 2,6-Diisopropylphenoxyacetic Acid in Uniconazole-Treated Rice Plants|Plant Growth Regul.28(1): 67-72|1999|10.1023/A:1006215428363
64224|T||Noldin,J.A., J.M. Chandler, G.N. McCauley, and J.W.,Jr. Sij|Red Rice (Oryza sativa) and Echinochloa spp. Control in Texas Gulf Coast Soybean (Glycine max)|Weed Technol.12(4): 677-683|1998|10.1017/S0890037X00044547
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64226|T||Parker,L.D., D.J. O'Brien, and P.G. Bates|The Use of Moxidectin for the Prevention and Treatment of Psoroptic Mange (Scab) in Sheep|Vet. Parasitol.83(3-4): 301-308|1999|10.1016/S0304-4017(99)00066-7
64227|T||Payne,N., A. Retnakaran, and B. Cadogan|Development and Evaluation of a Method for the Design of Spray Applications: Aerial Tebufenozide Applications to Control the Eastern Spruce Budworm, Choristoneura fumiferana (Clem.)|Crop Prot.16(3): 285-290|1997|10.1016/S0261-2194(96)00081-6
64228|T||Pettersson,S., and H. Strid|Initial Uptake of Aluminium in Relation to Temperature and Phosphorus Status of Wheat (Triticum aestivum L.) Roots|J. Plant Physiol.134:672-677|1989|10.1016/S0176-1617(89)80026-4
64229|T||Hayashi,M., K. Toriyama, M. Kondo, and M. Nishimura|2,4-Dichlorophenoxybutyric Acid-Resistant Mutants of Arabidopsis Have Defects in Glyoxysomal Fatty Acid beta-Oxidation|Plant Cell10(2): 183-195|1998|
64230|T||Lee,D., Y. Park, T.M. Brown, and M.E. Adams|Altered Properties of Neuronal Sodium Channels Associated with Genetic Resistance to Pyrethroids|Mol. Pharmacol.55:584-593|1999|
64231|T||Lee,S.H., and J.M. Clark|Permethrin Carboxylesterase Functions as Nonspecific Sequestration Proteins in the Hemolymph of Colorado Potato Beetle|Pestic. Biochem. Physiol.62(1): 51-63|1998|10.1006/pest.1998.2368
64232|T||Lee,J.C., F.D. Menalled, and D.A. Landis|Refuge Habitats Modify Impact of Insecticide Disturbance on Carabid Beetle Communities|J. Appl. Ecol.38(2): 472-483|2001|10.1046/j.1365-2664.2001.00602.x
64233|T||Lester,P.J., M.K. Pogoda, and D.J. Pree|Insecticide Encapsulation to Maintain Predatory Mite Populations, Reduce European Red Mite Outbreaks, and Control of the Oriental Fruit Moth Grapholitha molesta (Busck)|Proc. Entomol. Soc. Ont.129:137-148|1998|
64234|T||Nali,C., L. Guidi, F. Filippi, G.F. Soldatini, and G. Lorenzini|Photosynthesis of Two Poplar Clones Contrasting in O3 Sensitivity|Trees12(4): 196-200|1998|
64235|T||Nauen,R., K. Tietjen, K. Wagner, and A. Elbert|Efficacy of Plant Metabolites of Imidacloprid Against Myzus persicae and Aphis gossypii (Homoptera:  Aphididae)|Pestic. Sci.52(1): 53-57|1998|10.1002/(SICI)1096-9063(199801)52:1<53::AID-PS621>3.0.CO;2-6
64236|T||Nauen,R., H. Hungenberg, B. Tollo, K. Tietjen, and A. Elbert|Antifeedant Effect, Biological Efficacy and High Affinity Binding of Imidacloprid to Acetylcholine Receptors in Myzus persicae and Myzus nicotianae|Pestic. Sci.53(2): 133-140|1998|10.1002/(SICI)1096-9063(199806)53:2<133::AID-PS756>3.0.CO;2-D
64237|T||Nolan,R.S., G. Schwartz, S. Farquharson, D.R. Hootnick, E.M. Levinsohn, M. Miller, L.A. Manz, and D.S.,Jr. Packard|Hematomas and Limb Skeletal Malformations in Chicken Embryos Following Exposure to 5-Fluoro-2-Deoxyuridine|Biomed. Environ. Sci.11(1): 15-30|1998|
64238|T||Rabaey,T.L., and R.G. Harvey|Sweet Corn (Zea mays) Hybrids Respond Differently to Simulated Imazethapyr Carryover|Weed Technol.11(1): 92-97|1997|10.1017/S0890037X00041403
64239|T||Rabaey,T.L., and R.G. Harvey|Sequential Applications Control Woolly Cupgrass (Eriochloa villosa) and Wild-Proso Millet (Panicum miliaceum) in Corn (Zea mays)|Weed Technol.11(3): 537-542|1997|10.1017/S0890037X00045383
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64241|T||Rahman,M.T., K. Kawamura, H. Koyama, and T. Hara|Varietal Differences in the Growth of Rice Plants in Response to Aluminum and Silicon|Soil Sci. Plant Nutr.44(3): 423-431|1998|10.1080/00380768.1998.10414464
64242|T||Rajendran,S., K.R. Nayak, and S.S. Anjum|The Action of Phosphine Against the Eggs of Phosphine-Resistant and -Susceptible Strains of Rhyzopertha dominica F|Pest Manag. Sci.57:422-426|2001|10.1002/ps.283
64243|T||Ralphs,M.H., G.D. Manners, and D.R. Gardner|Toxic Alkaloid Response to Herbicides Used to Control Tall Larkspur|Weed Sci.46(1): 116-119|1998|10.1017/S0043174500090263
64244|T||Ransom,C.V., and J.J. Kells|Hemp Dogbane (Apocynum cannabinum) Control in Corn (Zea mays) with Selective Postemergence Herbicides|Weed Technol.12(4): 631-637|1998|10.1017/S0890037X00044481
64245|T||Rao,K.R., and V.D. Prasad|Host Plant - Induced Response to Insecticides and Haemolymph Esterase Patterns in American Bollworm, Helicoverpa armigera (Hubner)|Entomon24(1): 9-13|1999|
64246|T||Rasa,C.G., R.W. Meola, and R. Schenker|Effects of a New Insect Growth Regulator, CGA-255'728, on the Different Stages of the Cat Flea (Siphonaptera: Pulicidae)|J. Med. Entomol.37(1): 141-145|2000|10.1603/0022-2585-37.1.141
64247|T||Rebecchi,L., M.A. Sabatini, C. Cappi, P. Grazioso, A. Vicari, G. Dinelli, and R. Bertolani|Effects of a Sulfonylurea Herbicide on Soil Microarthropods|Biol. Fertil. Soils30(4): 312-317|2000|10.1007/s003740050009
64248|T||Reddy,V.R., Z. Wang, and K.R. Reddy|Growth Responses of Cotton to Aldicarb and Temperature|Environ. Exp. Bot.38(1): 39-48|1997|10.1016/S0098-8472(96)01057-X
64249|T||Ree,H.I., and S.H. Jeon|Egg Mortality of German Cockroaches Exposed to Fenitrothion MC Bait and Hydramethylnon Bait|Korean J. Appl. Entomol. (Multiple Languages)28(3): 197-201|1998|
64250|T||Reicher,Z.J., and C.S. Throssell|Effect of Repeated Fungicide Applications on Creeping Bentgrass Turf|Crop Sci.37(3): 910-915|1997|10.2135/cropsci1997.0011183X003700030035x
64251|T||Reicher,Z.J., D.V. Weisenberger, and C.S. Throssell|Turf Safety and Effectiveness of Dithiopyr and Quinclorac for Large Crabgrass (Digitaria sanguinalis) Control in Spring-Seeded Turf|Weed Technol.13(2): 253-256|1999|10.1017/S0890037X00041695
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64254|T||Rie,M.T., K.A. Lendas, and I.P. Callard|Cadmium:  Tissue Distribution and Binding Protein Induction in the Painted Turtle, Chrysemys picta|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(1): 41-51|2001|10.1016/S1532-0456(01)00219-8
64255|T||Ringer,R.K., R.J. Aulerich, and M. Zabik|Effect of Dietary Polychlorinated Biphenyls on Growth and Reproduction of Mink|In: 164th Natl.Am.Chem.Soc.Meeting12:149-154|1972|
64256|T||Robertson,J.L., and V.Y. Yokoyama|Comparison of Methyl Bromide LD50s of Codling Moth (Lepidoptera: Tortricidae) on Nectarine Cultivars as Related to Natural Variation|J. Econ. Entomol.91(6): 1433-1436|1998|10.1093/jee/91.6.1433
64257|T||Romero,A., M.T. Grau, F. Villamayor, A. Sacristan, and J.A. Ortiz|Toxicity of Ebrotidine on Reproduction:  Toxicity on Fertility and General Reproductive Performance, Embryo-Fetal Toxicity and Peri- and Postnatal Toxicity|Arzneim. Forsch.47(4): 504-510|1997|
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64259|T||Rosales-Robles,E., J.M. Chandler, S.A. Senseman, and E.P. Prostko|Influence of Growth Stage and Herbicide Rate on Postemergence Johnsongrass (Sorghum halepense) Control|Weed Technol.13(3): 525-529|1999|10.1017/S0890037X00046145
64260|T||Quintela,E.D., and C.W. McCoy|Effects of Imidacloprid on Development, Mobility, and Survival of First Instars of Diaprepes abbreviatus (Coleoptera: Curculionidae)|J. Econ. Entomol.90(4): 988-995|1997|10.1093/jee/90.4.988
64261|T||Neumann,H., and D. Werner|Gene Expression of Medicago sativa Inoculated with Sinorhizobium meliloti as Modulated by the Xenobiotics Cadmium and Fluoranthene|Z. Naturforsch. Sect. C J. Biosci.55(3/4): 222-232|2000|10.1515/znc-2000-3-414
64262|T||Neumann,H., A. Bode-Kirchhoff, A. Madeheim, and A. Wetzel|Toxicity Testing of Heavy Metals with the Rhizobium-Legume Symbiosis: High Sensitivity to Cadmium and Arsenic Compounds|Environ. Sci. Pollut. Res.5(1): 28-36|1998|10.1007/BF02986371
64263|T||Nieminen,P., R. Kakela, A.M. Mustonen, H. Hyvarinen, and J. Asikainen|Exogenous Melatonin Affects Lipids and Enzyme Activities in Mink (Mustela vison) Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128(2): 203-211|2001|10.1016/S1532-0456(00)00190-3
64264|T||Obeng-Ofori,D., and C. Reichmuth|Bioactivity of Eugenol, a Major Component of Essential Oil of Ocimum suave (Wild.) Against Four Species of Stored-Product Coleoptera|Int. J. Pest Manag.43(1): 89-94|1997|10.1080/096708797229040
64265|T||Olszak,R.W.|Influence of Some Pesticides on Mortality and Fecundity of the Aphidophagous Coccinellid Adalia bipunctata L. (Col., Coccinellidae)|Z. Angew. Entomol. (Multiple Languages)123(1): 41-45|1999|
64266|T||Saber,N.E., A.M. Abdel-Moneim, and S.Y. Barakat|Role of Organic Acids in Sunflower Tolerance to Heavy Metals|Biol. Plant. (Praha)42(1): 65-73|1999|10.1023/A:1002115425544
64267|T||Salihu,S., J.F. Derr, and K.K. Hatzios|Differential Response of Ajuga (Ajuga reptans), Wintercreeper (Euonymus fortunei), and Dwarf Burning Bush (Euonymus alatus 'Compacta') to Root- and Shoot-Applied Isoxaben|Weed Technol.13(4): 685-690|1999|10.1017/S0890037X00042081
64268|T||Samalo,A.P., P.B. Parida, and G.C. Mishra|Effects of Insecticides on the Rice Gall Midge, Orseolia oryzae, and Its Parasite, Platygaster oryzae|Trop. Pest Manag.29(2): 173-176|1983|10.1080/09670878309370794
64269|T||Santharam,G., and M. Balasubramanian|Note on the Control of Spodoptera litura Fabricius (Lepidoptera: Noctuidae) on Tobacco with a Nuclear Polyhedrosis Virus and Diflubenzuron|Indian J. Agric. Sci.50(9): 726-727|1980|
64270|T||Sarvari,E., F. Fodor, E. Cseh, A. Varga, G. Zaray, and L. Zolla|Relationship Between Changes in Ion Content of Leaves and Chlorophyll-Protein Composition in Cucumber Under Cd and Pb Stress|Z. Naturforsch. Sect. C J. Biosci.54(9/10): 746-753|1999|10.1515/znc-1999-9-1021
64272|A||Kasokat,T., R. Nagel, and K. Urich|Influence of Bacteria on the Metabolite Pattern of Phenol in Zebra Fish (Brachydanio rerio)|J. Appl. Ichthyol.1:35-40|1989|10.1111/j.1439-0426.1989.tb00567.x
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64276|A||Kauss,P.B., and T.C. Hutchinson|Effects of Benzene, a Water Soluble Component of Crude Oils, on Membrane Integrity and Ionic Content of the Green Alga Ankistrodesmus falcatus var. mirabilis|Water Pollut. Res. Can.13:85-95|1978|
64279|T||Sauphanor,B., V. Brosse, J.C. Bouvier, P. Speich, A. Micoud, and C. Martinet|Monitoring Resistance to Diflubenzuron and Deltamethrin in French Codling Moth Populations (Cydia pomonella)|Pest Manag. Sci.56:74-82|2000|10.1002/(SICI)1526-4998(200001)56:1<74::AID-PS96>3.0.CO;2-C
64280|T||Scharf,M.E., W. Kaakeh, and G.W. Bennett|Changes in an Insecticide-Resistant Field Population of German Cockroach (Dictyoptera: Blattellidae) After Exposure to an Insecticide Mixture|J. Econ. Entomol.90(1): 38-48|1997|10.1093/jee/90.1.38
64281|T||Scheffrahn,R.H., N.Y. Su, and P. Busey|Laboratory and Field Evaluations of Selected Chemical Treatments for Control of Drywood Termites (Isoptera: Kalotermitidae)|J. Econ. Entomol.90(2): 492-502|1997|10.1093/jee/90.2.492
64282|T||Schlatterer,B., T.M.M. Coenen, E. Ebert, R. Grau, V. Hilbig, and R. Munk|Effects of bis(Tri-n-Butyltin)Oxide in Japanese Quail Exposed During Egg Laying Period:  An Interlaboratory Comparison Study|Arch. Environ. Contam. Toxicol.24(4): 440-448|1993|10.1007/BF01146159
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64285|T||Scholz,B.C.G., C.J. Monsour, and M.P. Zalucki|An Evaluation of Selective Helicoverpa armigera Control Options in Sweet Corn|Aust. J. Exp. Agric.38(6): 601-607|1998|10.1071/EA98050
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64287|T||Schuster,D.J.|Armyworm and Pepper Weevil Control on Bell Pepper in West-Central Florida, Spring 1995|Arthropod Manag. Tests21:134-135|1996|10.1093/amt/21.1.134
64288|T||Schwartz,A.|Laboratory Evaluation of Toxicity of Registered Pesticides to Adult Amblyseius addoensis (Van der Merwe & Ryke) (Acari: Phytoseiidae)|S. Afr. J. Enol. Vitic.12(2): 87-89|1991|
64289|T||Schweiger,P.F., and I. Jakobsen|Dose-Response Relationships Between Four Pesticides and Phosphorus Uptake by Hyphae of Arbuscular Mycorrhizas|Soil Biol. Biochem.30(10/11): 1415-1422|1998|10.1016/S0038-0717(97)00259-9
64290|T||Scott,B.J., J.A. Fisher, and L.J. Spohr|Manganese Tolerance in a Range of Wheat Genotypes|Commun. Soil Sci. Plant Anal.29(1-2): 219-235|1998|10.1080/00103629809369940
64291|T||Scott,J.G., T.G. Alefantis, P.E. Kaufman, and D.A. Rutz|Insecticide Resistance in House Flies from Caged-Layer Poultry Facilities|Pest Manag. Sci.56(2): 147-153|2000|
64292|T||Scott,J.G., and Z. Wen|Toxicity of Fipronil to Susceptible and Resistant Strains of German Cockroaches (Dictyoptera:  Blattellidae) and House Flies (Diptera:  Muscidae)|J. Econ. Entomol.90(5): 1152-1156|1997|10.1093/jee/90.5.1152
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64297|T||Sewalk,C.J., G.L. Brewer, and D.J. Hoffman|Effects of Diquat, an Aquatic Herbicide, on the Development of Mallard Embryos|J. Toxicol. Environ. Health Part A62(1): 33-45|2001|10.1080/00984100050201659
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64299|T||Shearer,P.W., and K.A. Usmani|Sex-Related Response to Organophosphorus and Carbamate Insecticides in Adult Oriental Fruit Moth, Grapholita molesta|Pest Manag. Sci.57:822-826|2001|10.1002/ps.367
64300|T||Shetty,P.K., and S.P. Magu|Metalaxyl Effect on Nitrogenase Activity (Acetylene Reduction) and Yield of Mungbean (Vigna radiata (L.) wilzek)|J. Environ. Biol.22(2): 79-81|2001|
64301|T||Shinn,S.L., D.C. Thill, and W.J. Price|Volunteer Barley (Hordeum vulgare) Control in Winter Wheat (Triticum aestivum) with MON 37500|Weed Technol.13(1): 88-93|1999|10.1017/S0890037X00044961
64302|T||Udensi,U.E., I.O. Akobundu, A.O. Ayeni, and D. Chikoye|Management of Cogongrass (Imperata cylindrica) with Velvetbean (Mucuna pruriens var. utilis) and Herbicides|Weed Technol.13(2): 201-208|1999|10.1017/S0890037X00041610
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64306|T||Valencia,E., M.J. Williams, and L.E. Sollenberger|Yield and Botanical Composition of Rhizoma Peanut-Grass Swards Treated with Herbicides|Agron. J.91(6): 956-961|1999|10.2134/agronj1999.916956x
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64315|T||Varga,A., R.M.G. Martinez, G. Zaray, and F. Fodor|Investigation of Effects of Cadmium, Lead, Nickel and Vanadium Contamination on the Uptake and Transport Processes in Cucumber Plants by TXRF Spectrometry|Spectrochim. Acta, B At. Spectrosc.54(10): 1455-1462|1999|10.1016/S0584-8547(99)00105-6
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64321|T||Vermeulen,L.A., A.J. Reinecke, and S.A. Reinecke|Evaluation of the Fungicide Manganese-Zinc Ethylene bis(Dithiocarbamate) (Mancozeb) for Sublethal and Acute Toxicity to Eisenia fetida (Oligochaeta)|Ecotoxicol. Environ. Saf.48(2): 183-189|2001|10.1006/eesa.2000.2008
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64328|T||Rumpf,S., C. Frampton, and D.R. Dietrich|Effects of Conventional Insecticides and Insect Growth Regulators on Fecundity and Other Life-Table Parameters of Micromus tasmaniae (Neuroptera:  Hemerobiidae)|J. Econ. Entomol.91(1): 34-40|1998|10.1093/jee/91.1.34
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64395|T||Opoku,I.Y., A.Y. Akrofi, A.A. Appiah, and M.C. Luterbacher|Trunk Injection of Potassium Phosphonate for the Control of Black Pod Disease of Cocoa|Trop. Sci.38(3): 179-185|1998|
64397|T||Osborne,L.S., and A.R. Chase|Effects of Chlorpyrifos and Pythium splendens on Growth of Rex Begonia|Plant Dis.71(6): 525-527|1987|10.1094/PD-71-0525
64398|T||Samantaray,S., G.R. Rout, and P. Das|Root Growth of Echinochloa colona:  Effects of Heavy Metals in Solution Culture|Fresenius Environ. Bull.5:469-473|1996|
64399|T||Scharf,M.E., C.Y. Lee, J.J. Neal, and G.W. Bennett|Cytochrome P450 MA Expression in Insecticide-Resistant German Cockroaches (Dictyoptera:  Blattellidae)|J. Econ. Entomol.92(4): 788-793|1999|10.1093/jee/92.4.788
64400|T||Schmalfuss,J., B. Matthes, K. Knuth, and P. Boger|Inhibition of Acyl-CoA Elongation by Chloroacetamide Herbicides in Microsomes from Leek Seedlings|Pestic. Biochem. Physiol.67(1): 25-35|2000|10.1006/pest.2000.2473
64401|T||Shinn,S.L., D.C. Thill, W.J. Price, and D.A. Ball|Response of Downy Brome (Bromus tectorum) and Rotational Crops to MON 37500|Weed Technol.12(4): 690-698|1998|10.1017/S0890037X00044560
64402|T||Sahu,M.P., D.D. Sharma, G.L. Jain, and H.G. Singh|Effects of Growth Substances, Sequestrene 138-Fe and Sulphuric Acid on Iron Chlorosis of Garden Peas (Pisum sativum L.)|J. Hortic. Sci.62(3): 391-394|1987|10.1080/14620316.1987.11515796
64403|T||Rana,S.V.S., and S. Verma|Protective Effects of GSH, alpha-Tocopherol, and Selenium on Lipid-Peroxidation in Liver and Kidney of Copper Fed Rats|Bull. Environ. Contam. Toxicol.59(1): 152-158|1997|10.1007/s001289900458
64404|T||Rashid,A., C.I. Johnson, A.A. Khan, and J.T. O'Donovan|Effects of Triallate and Difenzoquat on Fatty Acid Composition in Young Shoots of Susceptible and Resistant Avena fatua Populations|Pestic. Biochem. Physiol.57(1): 79-85|1997|10.1006/pest.1997.2257
64405|T||Raveton,M., P. Ravanel, A.M. Serre, F. Nurit, and M. Tissut|Kinetics of Uptake and Metabolism of Atrazine in Model Plant Systems|Pestic. Sci.49(2): 157-163|1997|10.1002/(SICI)1096-9063(199702)49:2<157::AID-PS517>3.0.CO;2-M
64406|T||Uhlig,B.A., and A.H. Wissemeier|Reduction of Non-ionic Surfactant Phytotoxicity by Divalent Cations|Crop Prot.19(1): 13-19|2000|10.1016/S0261-2194(99)00076-9
64407|T||Rengel,Z., and M.S. Wheal|Herbicide Chlorsulfuron Decreases Growth of Fine Roots and Micronutrient Uptake in Wheat Genotypes|J. Exp. Bot.48(309): 927-934|1997|10.1093/jxb/48.4.927
64408|T||O'Donovan,J.T., J.C. Newman, R.E. Blackshaw, K.N. Harker, D.A. Derksen, and A.G. Thomas|Growth, Competitiveness, and Seed Germination of Triallate/Difenzoquat-Susceptible and -Resistant Wild Oat Populations|Can. J. Plant Sci.79(2): 303-312|1999|10.4141/P98-060
64409|T||Ribas,A., I. Filella, B.S. Gimeno, and J. Penuelas|Evaluation of Tobacco Cultivars as Bioindicators and Biomonitors of Ozone Phytotoxical Levels in Catalonia|Water Air Soil Pollut.107(1-4): 347-365|1998|10.1023/A:1005020326229
64410|T||McMurry,C.S., and R.L. Dickerson|Effects of Binary Mixtures of Six Xenobiotics on Hormone Concentrations and Morphometric Endpoints of Northern Bobwhite Quail (Colinus virginianus)|Chemosphere43(4-7): 829-837|2001|10.1016/S0045-6535(00)00441-0
64411|T||Singh,B., O.P. Vadhwa, M.T. Wu, and D.K. Salunkhe|Effects of Foliar Application of s-Triazines on Protein, Amino Acids, Carbohydrates, and Mineral Composition of Pea and Sweet Corn Seeds, Bush Bean Pods, and Spinach Leaves|J. Agric. Food Chem.20(6): 1256-1259|1972|10.1021/jf60184a050
64412|T||Singh,D.S., P. Sircar, and S. Dhingra|Status of Bihar Hairy Caterpillar, Diacrisia obliqua Walker (Arctiidae:  Lepidoptera) in the Context of Susceptibility to Pyrethroid and Non-Pyrethroid Insecticides Evaluated During the Last Two Decades|J. Entomol. Res.9(1): 15-18|1985|
64413|T||Sjursen,H., L.E. Sverdrup, and P.H. Krogh|Effects of Polycyclic Aromatic Compounds on the Drought Tolerance of Folsomia fimetaria (Collembola, Isotomidae)|Environ. Toxicol. Chem.20(12): 2899-2902|2001|10.1002/etc.5620201233
64414|T||Skorzynska-Polit,E., A. Tukendorf, E. Selstam, and T. Baszynski|Calcium Modifies Cd Effect on Runner Bean Plants|Environ. Exp. Bot.40(3): 275-286|1998|10.1016/S0098-8472(98)00045-8
64415|T||Smeyers-Verbeke,J., M. De Graeve, M. Francois, R. De Jaegere, and D.L. Massart|Cd Uptake by Intact Wheat Plants|Plant Cell Environ.1:291-296|1978|10.1111/j.1365-3040.1978.tb02042.x
64416|T||De Marco,A., C. De Simone, C. D'Ambrosio, and M. Owczarek|Buthionine Sulfoximine Prevents the Reduction of the Genotoxic Activity of Maleic Hydrazide by Soil Humic Substances in Vicia faba Seedlings|Mutat. Res.438(2): 89-95|1999|10.1016/S1383-5718(98)00154-5
64417|T||Dentener,P.R., S.E. Lewthwaite, J.H. Maindonald, and P.G. Connolly|Mortality of Twospotted Spider Mite (Acari:  Tetranychidae) After Exposure to Ethanol at Elevated Temperatures|J. Econ. Entomol.91(3): 767-772|1998|10.1093/jee/91.3.767
64418|T||Dernoeden,P.H.|Use of Prodiamine as a Preemergence Herbicide to Control Annual Bluegrass in Kentucky Bluegrass|Hortscience33(5): 845-846|1998|10.21273/HORTSCI.33.5.845
64419|T||Frampton,G.K., and T. Cilgi|"Long-Term Effects of Pesticides on Carabidae in U.K. Farmland:  Some Initial Results from the ""SCARAB"" Project"|In: K.Desender, M.Dufrene, M,Loreau, M.L.Luff and J.P.Maelfait (Eds.), Carabid Beetles: Ecology and Evolution, Dordrecht, Netherlands:433-438|1994|
64420|T||De Stasio,E., C. Lephoto, L. Azuma, C. Holst, D. Stanislaus, and J. Uttam|Characterization of Revertants of unc-93(e1500) in Caenorhabditis elegans Induced by N-Ethyl-N-Nitrosourea|Genetics147(2): 597-608|1997|10.1093/genetics/147.2.597
64421|T||De Tullio,M.C., L. De Gara, C. Paciolla, and O. Arrigoni|Dehydroascorbate-Reducing Proteins in Maize are Induced by the Ascorbate Biosynthesis Inhibitor Lycorine|Plant Physiol. Biochem.36(6): 433-440|1998|10.1016/S0981-9428(98)80207-6
64422|T||De Varennes,A., M.O. Torres, E. Conceicao, and E. Vasconcelos|Effect of Polyacrylate Polymers with Different Counter Ions on the Growth and Mineral Composition of Perennial Ryegrass|J. Plant Nutr.22(1): 33-43|1999|10.1080/01904169909365604
64423|T||Develash,R.K., and S.K. Sugha|Management of Downy Mildew (Peronospora destructor) of Onion (Allium cepa)|Crop Prot.16(1): 63-67|1997|10.1016/S0261-2194(96)00056-7
64424|T||Devine,G.J., M. Barber, and I. Denholm|Incidence and Inheritance of Resistance to METI-Acaricides in European Strains of the Two-Spotted Spider Mite (Tetranychus urticae) (Acari:  Tetranychidae)|Pest Manag. Sci.57:443-448|2001|10.1002/ps.307
64425|T||Fageria,N.K.|Influence of Aluminum in Nutrient Solutions on Chemical Composition in Two Rice Cultivars at Different Growth Stages|Plant Soil85:423-429|1985|10.1007/BF02220197
64426|T||Fedorko,A.|The Effect of Some Herbicides on Pristionchus uniformis, a Nematode Parasitic to the Colorado Beetle|Bull. Acad. Pol. Sci. Ser. Sci. Biol.27(11): 959-961|1979|
64428|T||Forlani,G., B. Lejczak, and P. Kafarski|The Herbicidally Active Compound N-2-(5-Chloro-Pyridyl) Aminomethylene Bisphosphonic Acid Acts by Inhibiting both Glutamine and Aromatic Amino Acid Biosynthesis|Aust. J. Plant Physiol.27(7): 677-683|2000|
64429|T||Fuhrer,J., A. Grandjean Grimm, W. Tschannen, and H. Shariat-Madari|The Response of Spring Wheat (Triticum aestivum L.) to Ozone at Higher Elevations II.  Changes in Yield, Yield Components and Grain Quality in Response to Ozone Flux|New Phytol.121:211-219|1992|10.1111/j.1469-8137.1992.tb01106.x
64430|T||Gabbrielli,R., T. Pandolfini, L. Espen, and M.R. Palandri|Growth, Peroxidase Activity and Cytological Modifications in Pisum sativum Seedlings Exposed to Ni2+ Toxicity|J. Plant Physiol.155(4-5): 639-645|1999|10.1016/S0176-1617(99)80066-2
64431|T||Gaeddert,J.W., D.E. Peterson, and M.J. Horak|Control and Cross-Resistance of an Acetolactate Synthase Inhibitor-Resistant Palmer Amaranth (Amaranthus palmeri) Biotype|Weed Technol.11(1): 132-137|1997|10.1017/S0890037X00041464
64432|T||Gagnon,B., R.R. Simard, M. Goulet, R. Robitaille, and R. Rioux|Soil Nitrogen and Moisture as Influenced by Composts and Inorganic Fertilizer Rate|Can. J. Soil Sci.78(1): 207-215|1998|10.4141/S97-009
64433|T||Gahlhoff,J.E.,Jr., D.M. Miller, and P.G. Koehler|Secondary Kill of Adult Male German Cockroaches (Dictyoptera: Blattellidae) via Cannibalism of Nymphs Fed Toxic Baits|J. Econ. Entomol.92(5): 1133-1137|1999|10.1093/jee/92.5.1133
64434|T||Gallaher,K., T.C. Mueller, R.M. Hayes, O. Schwartz, and M. Barrett|Absorption, Translocation, and Metabolism of Primisulfuron and Nicosulfuron in Broadleaf Signalgrass (Brachiaria platyphylla) and Corn|Weed Sci.47(1): 8-12|1999|10.1017/S0043174500090585
64435|A||Gallardo,M.T., B.B. Martin, and D.F. Martin|Inhibition of Water Fern Salvinia minima by Cattail (Typha domingensis) Extracts and by 2-Chlorophenol and Salicylaldehyde|J. Chem. Ecol.24(9): 1483-1490|1998|10.1023/A:1020955615868
64436|T||Gamliel,A., A. Grinstein, Y. Peretz, L. Klein, A. Nachmias, L. Tsror, L. Livescu, and J. Katan|Reduced Dosage of Methyl Bromide for Controlling Verticillium Wilt of Potato in Experimental and Commercial Plots|Plant Dis.81(5): 469-474|1997|10.1094/PDIS.1997.81.5.469
64437|T||Gasiewicz,T.A., and G. Rucci|Cytosolic Receptor for 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Evidence for a Homologous Nature Among Various Mammalian Species|Mol. Pharmacol.26(1): 90-98|1984|
64438|T||Gast,A., and H. Grob|Triazines as Selective Herbicides|Pest Technol.3:68-73|1960|
64439|T||Geier,P.W., and P.W. Stahlman|EXP 31130A Efficacy and Corn (Zea mays) Response in Western Kansas|Weed Technol.13(2): 404-410|1999|10.1017/S0890037X00041944
64440|T||Geier,P.W., P.W. Stahlman, and J.G. Hargett|Environmental and Application Effects on MON 37500 Efficacy and Phytotoxicity|Weed Sci.47(6): 736-739|1999|10.1017/S0043174500091414
64441|T||Geier,P.W., P.W. Stahlman, F.E. Northam, S.D. Miller, and N.R. Hageman|MON 37500 Rate and Timing Affects Downy Brome (Bromus tectorum) Control in Winter Wheat (Triticum aestivum)|Weed Sci.46(3): 366-373|1998|10.1017/S0043174500089554
64442|T||Gengenbach,B.G., K.L. VanDee, M.A. Egli, K.M. Hildebrandt, S.J. Yun, S.M. Lutz, L.C. Marshall, D.L. Wyse, and D.A. Some|Genetic Relationships of Alleles for Tolerance to Sethoxydim Herbicide in Maize|Crop Sci.39(3): 812-818|1999|10.2135/cropsci1999.0011183X003900030033x
64443|T||Gencsoylu,I., W. Liu, K.A. Usmani, and C.O. Knowles|Toxicity of Acaricides to the Bulb Mite Rhizoglyphus echinopus (Acari:  Acaridae)|Exp. Appl. Acarol.22(6): 343-351|1998|10.1023/A:1024513125550
64444|T||Gessler,A., and H. Rennenberg|The Effect of Liming on the Soluble Nitrogen Pool in Norway Spruce (Picea abies) Exposed to high Loads of Nitrogen|Phyton (Horn) (Multiple Languages)40(3): 51-64|2000|
64445|T||Gibbon,B.C., D.R. Kovar, and C.J. Staiger|Latrunculin B has Different Effects on Pollen Germination and Tube Growth|Plant Cell11(12): 2349-2363|1999|10.1105/tpc.11.12.2349
64446|T||Gichner,T., and M.J. Plewa|Induction of Somatic DNA Damage as Measured by Single Cell Gel Electrophoresis and Point Mutation in Leaves of Tobacco Plants|Mutat. Res.401(1-2): 143-152|1998|10.1016/S0027-5107(98)00003-7
64447|T||Gill,H.S., J.W.A. Burley, and L.E. Bendixen|Herbicidal Induced Modifications in the Rate of Transpiration in Plants|Indian J. Weed Sci.4(1): 1-6|1972|
64449|T||Godard,J.F., S. Ziadi, C. Monot, D. Le Corre, and D. Silue|Benzothiadiazole (BTH) Induces Resistance in Cauliflower (Brassica oleracea var botrytis) to Downy Mildew of Crucifers Caused by Peronospora parasitica|Crop Prot.18(6): 397-405|1999|10.1016/S0261-2194(99)00040-X
64451|T||Godfrey,L.D., and T.O. Holtzer|Effects of Soil-Incorporated Insecticides and Foliar-Applied Chemicals on Corn Gas-Exchange Parameters|Crop Prot.11(5): 427-432|1992|10.1016/0261-2194(92)90025-Z
64452|T||Gold,C.S., M.I. Bagabe, and R. Ssendege|Banana Weevil, Cosmopolites sordidus (Germar) (Coleoptera:  Curculionidae): Tests for Suspected Resistance to Carbofuran and Dieldrin in the Masaka District, Uganda|Afr. Entomol.7(2): 189-196|1999|
64453|T||Gollapudi,B.B., A.L. Mendrala, and V.A. Linscombe|Evaluation of the Genetic Toxicity of the Organophosphate Insecticide Chlorpyrifos|Mutat. Res.342(1/2): 25-36|1995|10.1016/0165-1218(95)90087-X
64454|T||Goodwin,S., and N. Ahmad|Relationship Between Azinphos-Methyl Usage and Residues on Grapes and in Wine in Australia|Pestic. Sci.53(1): 96-100|1998|10.1002/(SICI)1096-9063(199805)53:1<96::AID-PS751>3.0.CO;2-F
64455|T||Gopalakrishnan,C., and K.S. Mohan|Effect of Certain Insecticides and Fungicides on the Conidial Germination of Nomuraea rileyi (Farlow) Samson|Entomon25(3): 217-223|2000|
64456|T||Goransson,A.|Growth and Nutrition of Small Betula pendula Plants at Different Relative Addition Rates of Iron|Trees8:31-38|1993|10.1007/BF00240979
64458|T||Gough,N., and J.D. Brown|Insecticidal Control of White Grubs (Coleoptera:  Scarabaeidae) on the Atherton Tableland, with Observations on Crop Losses|Qld. J. Agric. Anim. Sci.45(1): 9-17|1988|
64461|T||Gozek,K., U. Yucel, M. Ilim, P. Aysal, and A.S. Tuncbilek|14C-Dimethoate Residues in Olive Oil During Oil Processing|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(3): 413-429|1999|
64462|T||Grafton-Cardwell,E.E., and Y. Ouyang|Toxicity of Four Insecticides to Various Populations of the Predacious Mite, Euseius tularensis Congdon (Acarina:  Phytoseiidae) from San Joaquin Valley California Citrus|J. Agric. Entomol.10(1): 21-29|1993|
64463|T||Gramlich,J.V., and D.E. Davis|Effect of Atrazine on Nitrogen Metabolism of Resistant Species|Weeds (Urbana)15:157-160|1967|10.2307/4041188
64464|A||Komala,Z.|Further Investigation on the Effect of Pesticides on Paramecium aurelia|Folia Biol. (Krakow)24(1): 65-76|1976|
64465|A||Komarkova,J.|Limitation of Phytoplankton Growth by the Lack of Nutrients in Two Reservoirs in Czechoslovakia|Arch. Hydrobiol.46(suppl.): 55-89|1974|
64466|A||Konar,S.K.|Pesticides and Aquatic Ecosystems|Indian J. Fish.22(1-2): 80-85|1977|
64471|T||Sone,S., S.I. Tsuboi, Y. Otsu, and T. Shono|Mechanisms of Low Susceptibility to Imidacloprid in a Laboratory Strain of the Small Brown Planthopper, Laodelphax striatellus Fallen|J. Pestic. Sci. (Multiple Languages)22(3): 236-237|1997|10.1584/jpestics.22.236
64472|T||Sorenson,C.E., A. Schreiber, H.G.,Jr. Townsend, S.F. Abd-Elghafar, M.L. Fairchild, and C.O. Knowles|Monitoring Pyrethroid Resistance in Bollworm (Lepidoptera: Noctuidae) Moths in Missouri, 1988 to 1994|J. Entomol. Sci.33(3): 300-312|1998|10.18474/0749-8004-33.3.300
64473|T||Sotherton,N.W., and S.J. Moreby|Contact Toxicity of Some Foliar Fungicide Sprays to Three Species of Polyphagous Predators Found in Cereal Fields|Ann. Appl. Biol.104:16-17|1984|
64474|T||Singh,B., W.F. Campbell, and D.K. Salunkhe|Effects of s-Triazines on Protein and Fine Structure of Cotyledons of Bush Beans|Am. J. Bot.59(6): 568-572|1972|10.1002/j.1537-2197.1972.tb10131.x
64475|T||Singh,S., R.C. Kirkwood, and G. Marshall|Effect of the Monooxygenase Inhibitor Piperonyl Butoxide on the Herbicidal Activity and Metabolism of Isoproturon in Herbicide Resistant and Susceptible Biotypes of Phalaris minor and Wheat|Pestic. Biochem. Physiol.59(3): 143-153|1998|10.1006/pest.1998.2318
64476|T||Smagghe,G., B. Carton, W. Wesemael, I. Ishaaya, and L. Tirry|Ecdysone Agonists - Mechanism of Action and Application on Spodoptera Species|Pestic. Sci.55(3): 343-389|1999|10.1002/(SICI)1096-9063(199903)55:3<386::AID-PS922>3.0.CO;2-5
64477|T||Smagghe,G., E. Vinuela, H. Van Limbergen, F. Budia, and L. Tirry|Nonsteroidal Moulting Hormone Agonists:  Effects on Protein Synthesis and Cuticle Formation in Colorado Potato Beetle Larvae|Entomol. Exp. Appl.93(1): 1-8|1999|10.1046/j.1570-7458.1999.00556.x
64478|T||Smith,C.R., B.R. Funke, and J.T. Schulz|Effects of Insecticides on Acetylene Reduction by Alfalfa, Red Clover and Sweetclover|Soil Biol. Biochem.10(6): 463-466|1978|10.1016/0038-0717(78)90037-8
64479|T||Soliman,G.A.|Effect of Sodium Methyl Arsinate and Imidocarb Dipropionate Antiprotozoal Drugs on the Pharmacokinetic of Gentamicin in Equines (Wirkund der Antiprotozoenmittel Natriummethylarsenat und Imidocarb-Dipropionat auf die Pha|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)105:274-276|1998|
64480|T||Srinivasa,N., and K. Chandrashekara|Synthetic Pyrethroids: How They Effect Resurgence in Spider Mite Tetranychus urticae|J. Acarol.15(1/2): 6-9|1999|
64481|T||Stahlman,P.W., R.S. Currie, and M.A. El-Hamid|Nitrogen Carrier and Surfactant Increase Foliar Herbicide Injury in Winter Wheat (Triticum aestivum)|Weed Technol.11(1): 7-12|1997|10.1017/S0890037X00041257
64482|T||Starratt,A.N., and G. Lazarovits|Herbicide-Induced Disease Resistance and Associated Increases in Free Amino Acid Levels in Melon Plants|Can. J. Plant Pathol.21(1): 33-36|1999|10.1080/07060661.1999.10600129
64483|T||Steckel,G.J., S.E. Hart, and L.M. Wax|Absorption and Translocation of Glufosinate on Four Weed Species|Weed Sci.45(3): 378-381|1997|10.1017/S0043174500093012
64485|T||Stephenson,G.L., C.D. Wren, I.C.J. Middelraad, and J.E. Warner|Exposure of the Earthworm, Lumbricus terrestris, to Diazinon, and the Relative Risk to Passerine Birds|Soil Biol. Biochem.29(3-4): 717-720|1997|10.1016/S0038-0717(96)00199-X
64486|T||Stevens,M.M., K.M. Fox, N.E. Coombes, and L.A. Lewin|Effect of Fipronil Seed Treatments on the Germination and Early Growth of Rice|Pestic. Sci.55(5): 517-523|1999|10.1002/(SICI)1096-9063(199905)55:5<517::AID-PS940>3.0.CO;2-J
64487|T||Stier,J.C., J.N. Rogers III, J.R. Crum, and P.E. Rieke|Flurprimidol Effects on Kentucky Bluegrass Under Reduced Irradiance|Crop Sci.39(5): 1423-1430|1999|10.2135/cropsci1999.3951423x
64488|T||Stougaard,R.N., B.D. Maxwell, and J.D. Harris|Influence of Application Timing on the Efficacy of Reduced Rate Postemergence Herbicides for Wild Oat (Avena fatua) Control in Spring Barley (Hordeum vulgare)|Weed Technol.11(2): 283-289|1997|10.1017/S0890037X00042962
64489|T||Strong,C.A., P.G. Koehler, and R.S. Patterson|Insecticide Resistance Decline and Selection in Laboratory-Reared German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.90(1): 183-187|1997|10.1093/jee/90.1.183
64490|T||Suarez-Garcia,M.P., E.P. Lopez-Rivares, and J. Ordovas|Selectivity of Thiazopyr in Three Olive Cultivars|Adv. Hortic. Sci.11(3): 133-136|1997|
64491|T||Sundaram,M., S.R. Palli, I. Ishaaya, P.J. Krell, and A. Retnakaran|Toxicity of Ecdysone Agonists Correlates with the Induction of CHR3 mRNA in the Spruce Budworm|Pestic. Biochem. Physiol.62(3): 201-208|1998|10.1006/pest.1998.2383
64492|T||Swaileh,K.M., and A. Ezzughayyar|Dose-Dependent Effects of Dietary Pb and Zn on Feeding and Growth Rates of the Landsnail Helix engaddensis|Ecotoxicol. Environ. Saf.50(1): 9-14|2001|10.1006/eesa.2001.2051
64493|T||Swamiappan,M., and K.C. Chandy|Effect of Certain Granular Insecticides on the Nodulation by Nitrogen-Fixing Bacteria in Cowpea (Vigna sinensis L.)|Curr. Sci. (Bangalore)44(15): 558-559|1975|
64494|T||Swantek,J.M., C.H. Sneller, and L.R. Oliver|Evaluation of Soybean Injury from Sulfentrazone and Inheritance of Tolerance|Weed Sci.46(2): 271-277|1998|10.1017/S0043174500090524
64495|T||Navarro,M., C. Cristofol, M. Manesse, J. Sautet, A. Carretero, F.J. Perez-Aparicio, M. Arboix, and J. Ruberte|Study of the Distribution of Albendazole-Sulphoxide (ABZ-SO) in Fertilized Egg Compartments|J. Pharmacol. Toxicol. Methods37(4): 191-196|1997|10.1016/S1056-8719(97)00018-X
64496|A||Kormondy,E.J.|Uptake and Loss of Zinc-65 in the Dragonfly Plathemis lydia|Limnol. Oceanogr.10(3): 427-433|1965|10.4319/lo.1965.10.3.0427
64497|T||Nelson,P.V., and C.E.,Jr. Niedziela|Effect of Ancymidol in Combination with Temperature Regime, Calcium Nitrate, and Cultivar Selection on Calcium Deficiency Symptoms During Hydroponic Forcing of Tulip|Sci. Hortic.74(3): 207-218|1998|10.1016/S0304-4238(97)00158-1
64498|T||Nedumpara,M.J., T.B. Moorman, and K. Jayachandran|Effect of a Vesicular-Arbuscular Mycorrhizal Fungus (Glomus epigaeus) on Herbicide Uptake by Roots|Biol. Fertil. Soils30(1-2): 75-82|1999|10.1007/s003740050590
64499|T||Steinkellner,H., K. Mun-Sik, C. Helma, S. Ecker, T.H. Ma, O. Horak, M. Kundi, and S. Knasmuller|Genotoxic Effects of Heavy Metals: Comparative Investigation with Plant Bioassays|Environ. Mol. Mutagen.31(2): 183-191|1998|10.1002/(SICI)1098-2280(1998)31:2<183::AID-EM11>3.0.CO;2-8
64501|T||Su,N.Y., V. Chew, G.S. Wheeler, and R.H. Scheffrahn|Comparison of Tunneling Responses into Insecticide-Treated Soil by Field Populations and Laboratory Groups of Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.90(2): 503-509|1997|10.1093/jee/90.2.503
64502|T||Su,N.Y., and R.H. Scheffrahn|Comparison of Eleven Soil Termiticides Against the Formosan Subterranean Termite and Eastern Subterranean Termite (Isoptera: Rhinotermitidae)|J. Econ. Entomol.83(5): 1918-1924|1990|10.1093/jee/83.5.1918
64503|T||Sun,X., B.A. Barrett, and D.J. Biddinger|Fecundity and Fertility Reductions in Adult Leafrollers Exposed to Surfaces Treated with the Ecdysteroid Agonists Tebufenozide and Methoxyfenozide|Entomol. Exp. Appl.94(1): 75-83|2000|10.1046/j.1570-7458.2000.00606.x
64504|T||Sun,X., and B.A. Barrett|Fecundity and Fertility Changes in Adult Codling Moth (Lepidoptera: Tortricidae) Exposed to Surfaces Treated with Tebufenozide and Methoxyfenozide|J. Econ. Entomol.92(5): 1039-1044|1999|10.1093/jee/92.5.1039
64505|T||Sundin,D.R., W.W. Bockus, and M.G. Eversmeyer|Triazole Seed Treatments Suppress Spore Production by Puccinia recondita, Septoria tritici, and Stagonospora nodorum from Wheat Leaves|Plant Dis.83(4): 328-332|1999|10.1094/PDIS.1999.83.4.328
64508|T||Sweeney,J.P., and A.C. Marsh|Effects of Selected Herbicides on Provitamin A Content of Vegetables|J. Agric. Food Chem.19(5): 854-856|1971|10.1021/jf60177a048
64510|T||Shipp,E.B., J.C. Restum, J.P. Giesy, S.J. Bursian, R.J. Aulerich, and W.G. Helferich|Multigenerational Study of the Effects of Consumption of PCB-Contaminated Carp from Saginaw Bay, Lake Huron, on Mink.  2.  Liver PCB Concentration and Induction of Hepatic Cytochrome P-450 Activity as a Potential Biomar|J. Toxicol. Environ. Health Part A54(5): 377-401|1998|10.1080/009841098158809
64511|T||Shuman,L.M., S. Dudka, and K. Das|Zinc Forms and Plant Availability in a Compost Amended Soil|Water Air Soil Pollut.128(1-2): 1-11|2001|10.1023/A:1010319206273
64512|T||Sprague,C.L., E.W. Stoller, and L.M. Wax|Common Cocklebur (Xanthium strumarium) Resistance to Selected ALS-Inhibiting Herbicides|Weed Technol.11(2): 241-247|1997|10.1017/S0890037X00042901
64513|T||Spollen,K., and M.A. Hoy|Residual Toxicity of Five Citrus Pesticides to a Carbaryl-Resistant and a Wild Strain of the California Red Scale Parasite Aphytis melinus DeBach (Hymenoptera: Aphelinidae)|J. Econ. Entomol.86(2): 195-204|1993|10.1093/jee/86.2.195
64514|T||Sprague,C.L., J.J. Kells, and D. Penner|Weed Control and Corn (Zea mays) Tolerance from Soil-Applied RPA 201772|Weed Technol.13(4): 713-725|1999|10.1017/S0890037X00042123
64515|T||Sprague,C.L., D. Penner, and J.J. Kells|Weed Control and Zea mays Tolerance as Affected by Timing of RP-201772 Application|Weed Sci.47(4): 375-382|1999|10.1017/S0043174500091955
64516|T||Sprague,C.L., D. Penner, and J.J. Kells|Physiological Basis for Tolerance of Four Zea mays Hybrids to RPA 201772|Weed Sci.47(6): 631-635|1999|10.1017/S0043174500091256
64517|T||Stebbins,K.E., J.F. Quast, K.T. Haut, and W.T. Stott|Subchronic and Chronic Toxicity of Ingested 1,3-Dichloropropene in Dogs|Regul. Toxicol. Pharmacol.30(3): 233-243|1999|10.1006/rtph.1999.1352
64518|T||Stone,D., P. Jepson, P. Kramarz, and R. Laskowski|Time to Death Response in Carabid Beetles Exposed to Multiple Stressors Along a Gradient of Heavy Metal Pollution|Environ. Pollut.113(2): 239-244|2001|10.1016/S0269-7491(00)00134-2
64519|T||Stork,P.R.|Bioefficacy and Leaching of Controlled-Release Formulations of Triazine Herbicides|Weed Res. (Multiple Languages)38(6): 433-441|1998|10.1046/j.1365-3180.1998.00114.x
64521|T||Sultana,N., T. Ikeda, and R. Itoh|Effect of NaCl Salinity on Photosynthesis and Dry Matter Accumulation in Developing Rice Grains|Environ. Exp. Bot.42(3): 211-220|1999|10.1016/S0098-8472(99)00035-0
64522|T||Sweeden,M.B., and P.J. McLeod|Aphicide Persistence on Spinach and Mustard Greens|J. Econ. Entomol.90(1): 195-198|1997|10.1093/jee/90.1.195
64523|T||Ryals,B., E. Westbrook, and J. Schacht|Morphological Evidence of Ototoxicity of the Iron Chelator Deferoxamine|Hear. Res.112(1-2): 44-48|1997|10.1016/S0378-5955(97)00094-4
64525|T||Osler,G.H.R., D. Westhorpe, and I. Oliver|The Short-Term Effects of Endosulfan Discharges on Eucalypt Floodplain Soil Microarthropods|Appl. Soil Ecol.16(3): 263-273|2001|10.1016/S0929-1393(00)00127-X
64526|T||Schleppi,P., I. Bucher-Wallin, R. Siegwolf, M. Saurer, N. Muller, and J.B. Bucher|Simulation of Increased Nitrogen Deposition to a Montane Forest Ecosystem: Partitioning of the Added 15N|Water Air Soil Pollut.116(1-2): 129-134|1999|10.1023/A:1005206927764
64527|T||Shaw,D.R., A.,Jr. Rankins, and J.T. Ruscoe|Sicklepod (Senna obtusifolia) Interference with Soybean (Glycine max) Cultivars Following Herbicide Treatments|Weed Technol.11(3): 510-514|1997|10.1017/S0890037X00045334
64528|T||Shore,R.F., L. Walker, B. Laczewska, and K. Sawicka-Kapusta|Causal Association Between Cadmium and Nephrotoxicity in Voles:  Evidence Suggests that Cadmium is not the Sole Cause|Ambio28(2): 203-204|1999|
64529|A||Kozlovskaya,V.I., G.M. Chuyko, L.N. Lapkina, and V.A. Nepomnyashchikh|Resistance of Aquatic Animals to Organophosphorus Pesticides and Its Mechanisms|EPA/600/9-86/024, U.S.EPA, Athens, GA:37-54|1984|
64530|A||Krahn,M.M., T.K. Collier, and D.C. Malins|Aromatic Hydrocarbon Metabolites in Fish: Automated Extraction and High-Performance Liquid Chromatographic Separation into Conjugate and Non-Conjugate Fractions|J. Chromatogr.236(2): 441-452|1982|10.1016/S0021-9673(00)84894-3
64534|A||Kraus,M.P.|Cyanophage Assay as a New Concept in the Study of Environmental Toxicity|ASTM Spec. Tech. Publ.:27-41|1985|
64538|T||Devine,G.J., and I. Denholm|An Unconventional Use of Piperonyl Butoxide for Managing the Cotton Whitefly, Bemisia tabaci (Hemiptera:  Aleyrodidae)|Bull. Entomol. Res.88(6): 601-610|1998|10.1017/S0007485300054262
64539|T||Devine,G.J., I. Ishaaya, A.R. Horowitz, and I. Denholm|The Response of Pyriproxyfen-Resistant and Susceptible Bemisia tabaci Genn (Homoptera:  Aleyrodidae) to Pyriproxyfen and Fenoxycarb Alone and in Combination with Piperonyl Butoxide|Pestic. Sci.55(4): 405-411|1999|
64540|T||Dewar,A.M., L.A. Haylock, K.M. Bean, and M.J. May|Delayed Control of Weeds in Glyphosate-Tolerant Sugar Beet and the Consequences on Aphid Infestation and Yield|Pest Manag. Sci.56(4): 345-350|2000|10.1002/(SICI)1526-4998(200004)56:4<345::AID-PS126>3.0.CO;2-Y
64541|T||DeWitt,J.B.|Chronic Toxicity to Quail and Pheasants of Some Chlorinated Insecticides|J. Agric. Food Chem.4(10): 863-866|1956|10.1021/jf60068a004
64542|T||Dhindsa,K.S., S.K. Gupta, B.P. Singh, and M.S. Chaudhary|Effect of Herbicides on the Yield and Quality of Groundnut (Arachis hypogaea L.)|Indian J. Weed Sci.4(1): 29-32|1972|
64543|T||Dhingra,S.|Periodic Checking to Detect Development of Resistance in Mustard Aphid, Lipaphis erysimi Kalt. to Recommended Insecticides Used for More than Two Decades|J. Entomol. Res.15(2): 88-92|1991|
64544|T||Grandjean Grimm,A., and J. Fuhrer|The Response of Spring Wheat (Triticum aestivum L.) to Ozone at Higher Elevations. III. Responses of Leaf and Canopy Gas Exchange, and Chlorophyll Fluorescence to Ozone Flux|New Phytol.122:321-328|1992|10.1111/j.1469-8137.1992.tb04237.x
64545|T||Grant,C.A., and L.D. Bailey|Effect of Seed-Placed Urea Fertilizer and N-(n-Butyl)Thiophosphoric Triamide (NBPT) on Emergence and Grain Yield of Barley|Can. J. Plant Sci.79(4): 491-496|1999|10.4141/P98-121
64546|T||Green,D.E., and P.H. Albers|Diagnostic Criteria for Selenium Toxicosis in Aquatic Birds: Histologic Lesions|J. Wildl. Dis.33(3): 385-404|1997|10.7589/0090-3558-33.3.385
64547|T||Green,J.M.|Differential Tolerance of Corn (Zea mays) Inbreds to Four Sulfonylurea Herbicides and Bentazon|Weed Technol.12(3): 474-477|1998|10.1017/S0890037X00044171
64548|T||Green,J.M.|Varying Surfactant Type Changes Quizalofop-P Herbicidal Activity|Weed Technol.11(2): 298-302|1997|10.1017/S0890037X00042986
64549|T||Gregory,D.A., D.L. Johnson, and B.H. Thompson|The Toxicity of Bran Baits, Formulated with Carbaryl, Chlorpyrifos and Dimethoate, on Yellow Mealworms (Tenebrio molitor L.)|J. Agric. Entomol.11(2): 85-94|1994|
64550|A||Greipsson,S., and A.A. Crowder|Amelioration of Copper and Nickel Toxicity by Iron Plaque on Roots of Rice (Oryza sativa)|Can. J. Bot.70:824-830|1992|10.1139/b92-105
64551|T||Grewal,P.S., K.T. Power, and D.J. Shetlar|Neonicotinoid Insecticides Alter Diapause Behavior and Survival of Overwintering White Grubs (Coleoptera: Scarabaeidae)|Pest Manag. Sci.57:852-857|2001|10.1002/ps.373
64552|T||Grey,T.L., D.C. Bridges, and D.S. NeSmith|Tolerance of Cucurbits to the Herbicides Clomazone, Ethalfluralin, and Pendimenthalin.  I.  Summer Squash|Hortscience35(4): 632-636|2000|10.21273/HORTSCI.35.4.632
64553|T||Grossmann,K., J. Kwiatkowski, and G. Caspar|Regulation of Phytohormone Levels, Leaf Senescence and Transpiration by the Strobilurin Kresoxim-Methyl in Wheat (Triticum aestivum)|J. Plant Physiol.154(5/6): 805-808|1999|10.1016/S0176-1617(99)80262-4
64554|T||Grotenhuis,T.P., and B. Bugbee|Super-Optimal CO2 Reduces Seed Yield but not Vegetative Growth in Wheat|Crop Sci.37(4): 1215-1222|1997|10.2135/cropsci1997.0011183X003700040031x
64555|T||Guedes,R.N.C., and K.Y. Zhu|Characterization of Malathion Resistance in a Mexican Population of Rhizopertha dominica|Pestic. Sci.53(1): 15-20|1998|10.1002/(SICI)1096-9063(199805)53:1<15::AID-PS746>3.0.CO;2-Q
64556|T||Guerrero,F.D., R.C. Jamroz, D. Kammlah, and S.E. Kunz|Toxicological and Molecular Characterization of Pyrethroid-Resistant Horn Flies, Haematobia irritans: Identification of kdr and super-kdr Point Mutations|Insect Biochem. Mol. Biol.27(8/9): 745-755|1997|10.1016/S0965-1748(97)00057-X
64557|T||Guerrero,F.D., J.H. Pruett, S.E. Kunz, and D.M. Kammlah|Esterase Profiles of Diazinon-Susceptible and -Resistant Horn Flies (Diptera: Muscidae)|J. Econ. Entomol.92(2): 286-292|1999|10.1093/jee/92.2.286
64558|T||Guerrini,V.H., and C.M. Kriticos|Effects of Azadirachtin on Ctenocephalides felis in the Dog and the Cat|Vet. Parasitol.74(2-4): 289-297|1998|10.1016/S0304-4017(97)00042-3
64559|T||Guidi,L., C. Nali, G. Lorenzini, F. Filippi, and G.F. Soldatini|Effect of Chronic Ozone Fumigation on the Photosynthetic Process of Poplar Clones Showing Different Sensitivity|Environ. Pollut.113(3): 245-254|2001|10.1016/S0269-7491(00)00194-9
64560|T||Guinel,F.C., and T.A. LaRue|Excessive Aluminium Accumulation in the Pea Mutant E107 (brz)|Plant Soil157:75-82|1993|10.1007/BF02390229
64561|T||Gullino,M.L., E. Mescalchin, and M. Mezzalama|Sensitivity to Cymoxanil in Populations of Plasmopara viticola in Northern Italy|Plant Pathol.46(5): 729-736|1997|10.1046/j.1365-3059.1997.d01-68.x
64562|T||Gunes,A., and M. Alpaslan|Boron Uptake and Toxicity in Maize Genotypes in Relation to Boron and Phosphorus Supply|J. Plant Nutr.23(4): 541-550|2000|10.1080/01904160009382038
64563|T||Gunning,R.V., G.D. Moores, and A.L. Devonshire|Insensitive Acetylcholinesterase and Resistance to Organophosphates in Australian Helicoverpa armigera|Pestic. Biochem. Physiol.62(3): 147-151|1998|10.1006/pest.1998.2380
64564|T||Guo,Y., and H. Marschner|Uptake, Distribution, and Binding of Cadmium and Nickel in Different Plant Species|J. Plant Nutr.18(12): 2691-2706|1995|10.1080/01904169509365094
64565|T||Gupta,S.K., R.C. Murthy, and D.K. Saxena|Effect of Cadmium on the Hatching of Metaphire posthuma Cocoons|Biomed. Environ. Sci.12(1): 50-53|1999|
64566|T||Gutierrez,A.M., D. Montalti, G.R. Reboredo, A. Salibian, and A. Catala|Lindane Distribution and Fatty Acid Profiles of Uropygial Gland and Liver of Columba livia After Pesticide Treatment|Pestic. Biochem. Physiol.59(3): 137-141|1998|10.1006/pest.1998.2321
64567|T||Guven,K., R.S. Power, S. Avramides, R. Allender, and D.I. De Pomerai|The Toxicity of Dithiocarbamate Fungicides to Soil Nematodes, Assessed Using a Stress-Inducible Transgenic Strain of Caenorhabditis elegans|J. Biochem. Mol. Toxicol.13(6): 324-333|1999|10.1002/(SICI)1099-0461(1999)13:6<324::AID-JBT6>3.0.CO;2-Q
64568|T||Hagiwara,A., C. Sakakura, M. Shirasu, T. Togawa, Y. Sonoyama, J. Fujiyama, Y. Ebihara, T. Itoh, and H. Yamagishi|Intraperitoneal Injection of Dextran Sulfate as an Anti-Adherent Drug for the Prevention of Peritoneal Metastasis of Cancer Shows Low Toxicity in Animals|Anti-Cancer Drugs11(5): 393-399|2000|10.1097/00001813-200006000-00010
64569|T||Haile,F.J., R.K.D. Peterson, and L.G. Higley|Gas-Exchange Responses of Alfalfa and Soybean Treated with Insecticides|J. Econ. Entomol.92(4): 954-959|1999|10.1093/jee/92.4.954
64570|T||Hainzl,D., L.M. Cole, and J.E. Casida|Mechanisms for Selective Toxicity of Fipronil Insecticide and Its Sulfone Metabolite and Desulfinyl Photoproduct|Chem. Res. Toxicol.11(12): 1529-1535|1998|10.1021/tx980157t
64571|T||Haley,T.J., J.H. Farmer, K.L. Dooley, J.R. Harmon, and A. Peoples|Determination of the LD01 and Extrapolation of the LD001 for Five Methylcarbamate Pesticides|J. Eur. Toxicol.7(3): 152-158|1974|
64573|T||Hamill,A.S., J. Zhang, and C.J. Swanton|Reducing Herbicide Use for Weed Control in Soybean (Glycine max) Grown in Two Soil Types in Southwestern Ontario|Can. J. Plant Sci.75:283-292|1995|10.4141/cjps95-050
64574|T||Hamilton,G.C., and J.H. Lashomb|Effect of Insecticides on Two Predators of the Colorado Potato Beetle (Coleoptera: Chrysomelidae)|Fla. Entomol.80(1): 10-23|1997|10.2307/3495971
64575|T||Hamir,A.N., B. Lehmann, N. Raju, J.G. Ebel, K.L. Manzell, and C.E. Rupprecht|Experimental Lead Toxicosis of Raccoons (Procyon lotor)|J. Comp. Pathol.120(2): 147-154|1999|10.1053/jcpa.1998.0261
64576|T||Hanley,M.E., and M. Fenner|Effects of Molluscicides on Seedlings of Four Grassland Plant Species|J. Appl. Ecol.34(6): 1479-1483|1997|10.2307/2405263
64577|T||Harp,P., D.,Jr. Tanaka, and C.N. Pope|Potentiation of Organophosphorus-Induced Delayed Neurotoxicity Following Phenyl Saligenin Phosphate Exposures in 2-, 5-, and 8-Week-old Chickens|Fundam. Appl. Toxicol.37(1): 64-70|1997|10.1006/faat.1997.2301
64578|T||Harris,C.R.|Influence of Soil Moisture on the Toxicity of Insecticides in a Mineral Soil to Insects|J. Econ. Entomol.57:946-950|1964|10.1093/jee/57.6.946
64579|T||Haywood,J.D.|Mulch and Hexazinone Herbicide Shorten the Time Longleaf Pine Seedlings are in the Grass Stage and Increase Height Growth|New For. 19(3): 279-290|2000|10.1023/A:1006673509218
64580|T||Heagle,A.S., S. Spencer, and M.B. Letchworth|Yield Response of Winter Wheat to Chronic Doses of Ozone|Can. J. Bot.57:1999-2005|1979|10.1139/b79-250
64581|T||Heaton,A.C.P., C.L. Rugh, N.J. Wang, and R.B. Meagher|Phytoremediation of Mercury- and Methylmercury-Polluted Soils Using Genetically Engineered Plants|J. Soil Contam.7(4): 497-509|1998|10.1080/10588339891334384
64582|T||Hecht-Buchholz,C., C.A. Jorns, and P. Keil|Effect of Excess Aluminum and Manganese on Norway Spruce Seedlings as Related to Magnesium Nutrition|J. Plant Nutr.10(9-16): 1103-1110|1987|10.1080/01904168709363638
64583|T||Heckman,J.R., B.A. Majek, and E.P. Prostko|Application of Manganese Fertilizer with Postemergence Soybean Herbicides|J. Prod. Agric.12(3): 445-448|1999|10.2134/jpa1999.0445
64584|T||Hedke,K., and J.A. Verreet|Efficacy of Single Fungicide Treatments in Winter Wheat Using Recommended and Reduced Dosages|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)106(1): 98-108|1999|
64585|T||Hegazi,E.M., W.E. Khafagi, and G.M.A. El-Aziz|Effect of Lefenuron, a Chitin Synthesis Inhibitor, on Encapsulation Response of Spodoptera littoralis Larvae to Surplus Microplitis rufiventris Larvae|Insect Sci. Appl.18(4): 357-363|1998|
64586|T||Heimbach,F.|Field Tests on the Side Effects of Pesticides on Earthworms: Influence of Plot Size and Cultivation Practices|Soil Biol. Biochem.29(3-4): 671-676|1997|10.1016/S0038-0717(96)00194-0
64587|AT||Helleck,A.M., and W.K. Hartberg|Effects of Photofrin II on Adults of Eretmapodites quinquevittatus|Am. Mosq. Control Assoc. J.16(3): 248-253|2000|
64588|T||Helleck,A.M., W.K. Hartberg, and R.S. Baldridge|Photosensitization of Eretmapodites quinquevittatus Theobald (Diptera: Culicidae) Eggs and Larvae with Photofrin II|Am. Mosq. Control Assoc. J.13(3): 292-295|1997|
64589|T||Helliwell,S., and M.M. Stevens|Efficacy and Environmental Fate of Alphacypermethrin Applied to Rice Fields for the Control of Chironomid Midge Larvae (Diptera: Chironomidae)|Field Crops Res.67(3): 263-272|2000|10.1016/S0378-4290(00)00102-7
64590|T||Hendrickson,P.E., and C.A. Mallory-Smith|Response of Downy Brome (Bromus tectorum) and Kentucky Bluegrass (Poa pratensis) to Applications of Primisulfuron|Weed Technol.13(3): 461-465|1999|10.1017/S0890037X00046030
64591|T||Hernandez,L.E., E. Lozano-Rodriguez, A. Garate, and R. Carpena-Ruiz|Influence of Cadmium on the Uptake, Tissue Accumulation and Subcellular Distribution of Manganese in Pea Seedlings|Plant Sci.132(2): 139-151|1998|10.1016/S0168-9452(98)00011-9
64592|T||Herren,T., and U. Feller|Influence of Increased Zinc Levels on Phloem Transport in Wheat Shoots|J. Plant Physiol.150(1-2): 228-231|1997|10.1016/S0176-1617(97)80208-8
64593|T||Hetherington,P.R., T.L. Reynolds, G. Marshall, and R.C. Kirkwood|The Absorption, Translocation and Distribution of the Herbicide Glyphosate in Maize Expressing the CP-4 Transgene|J. Exp. Bot.50(339): 1567-1576|1999|10.1093/jxb/50.339.1567
64594|T||Hidayat,I., and C. Preston|Enhanced Metabolism of Fluazifop Acid in a Biotype of Digitaria sanguinalis Resistant to the Herbicide Fluazifop-P-Butyl|Pestic. Biochem. Physiol.57(2): 137-146|1997|10.1006/pest.1997.2265
64595|T||Hildebrand,P.D., and K.B. McRae|Control of Clubroot Caused by Plasmodiophora brassicae with Nonionic Surfactants|Can. J. Plant Pathol.20(1): 1-11|1998|10.1080/07060669809500435
64596|T||Hill,B.D., R.A. Butts, and G.B. Schaalje|Mode of Contact of Chlorpyrifos with Russian Wheat Aphid (Homoptera:  Aphididae) in Wheat|J. Econ. Entomol.88(3): 725-733|1995|10.1093/jee/88.3.725
64597|T||Hill,B.D., R.A. Butts, and G.B. Schaalje|Reduced Rates of Foliar Insecticides for Control of Russian Wheat Aphid (Homoptera:  Aphididae) in Western Canada|J. Econ. Entomol.86(4): 1259-1265|1993|10.1093/jee/86.4.1259
64599|T||Hilton,S.A., J.H. Tolman, D.C. MacArthur, and C.R. Harris|Toxicity of Selected Insecticides to Several Life Stages of Colorado Potato Beetle, Leptinotarsa decemlineata (Say)|Can. Entomol.130(2): 187-194|1998|10.4039/Ent130187-2
64600|T||Hipp,B.W., and W.R. Cowley|Influence of 2,3,5-Triiodobenzoic Acid, Gibberellin and Row Spacing on Yield and Growth Parameters of Southern Peas|Hortscience4(4): 307-308|1969|10.21273/HORTSCI.4.4.307
64601|T||Hirai,T., M. Mizutani, T. Kimura, K. Ochiai, T. Umemura, and C. Itakura|Neurotoxic Effects of 2,5-Hexanedione on Normal and Neurofilament-Deficient Quail|Toxicol. Pathol.27(3): 348-353|1999|10.1177/019262339902700311
64602|T||Hoddle,M.S., R.G. Van Driesche, S.M. Lyon, and J.P. Sanderson|Compatibility of Insect Growth Regulators with Eretmocerus eremicus (Hymenoptera: Aphelinidae) for Whitefly (Homoptera: Aleyrodidae) Control on Poinsettias. I. Laboratory Assays|Biol. Control20(2): 122-131|2001|10.1006/bcon.2000.0885
64603|T||Hodge,S., and M. Longley|The Irritant and Repellent Effects of Organophosphates on the Tasmanian Lacewing, Micromus tasmaniae (Neuroptera:  Hemerobiidae)|Pest Manag. Sci.56:916-920|2000|10.1002/1526-4998(200010)56:10<916::AID-PS228>3.0.CO;2-2
64604|T||Hodge,S., K.M. Webster, L. Booth, V. Hepplethwaite, and K. O'Halloran|Non-Avoidance of Organophosphate Insecticides by the Earthworm Aporrectodea caliginosa (Lumbricidae)|Soil Biol. Biochem.32(3): 425-428|2000|10.1016/S0038-0717(99)00170-4
64605|T||Hoffman,M.L., D.D. Buhler, and M.D.K. Owen|Multi-Year Evaluation of Model-Based Weed Control Under Variable Crop and Tillage Conditions|J. Crop Prod.2(1): 207-224|1999|10.1300/J144v02n01_11
64606|T||Hoffman,R.A., A.R. Roth, and A.W. Lindquist|Effect on House Flies of Intermittent Exposure to Small Amounts of DDT Residues|J. Econ. Entomol.44:734-736|1951|10.1093/jee/44.5.734
64607|T||Hole,U.B., and G.N. Salunkhe|Evaluation of Some Modern Pesticides Against Rose Aphid, Macrosiphum rosae Linnaeus|J. Maharashtra Agric. Univ.21(3): 433-435|1996|
64608|T||Hollomon,D.W., I. Wheeler, K. Dixon, C. Longhurst, and G. Skylakakis|Defining the Resistance Risk of the New Powdery Mildew Fungicide Quinoxyfen|Pestic. Sci.51(3): 347-351|1997|10.1002/(SICI)1096-9063(199711)51:3<347::AID-PS651>3.0.CO;2-3
64609|T||Holmes,W.N., A. Wright, and J. Gorsline|Effects of Aldosterone and Corticosterone on Cloacal Water and Electrolyte Excretion of Constantly-Loaded Intact and Colostomized Ducks (Anas platyrhynchos)|Comp. Biochem. Physiol. A Comp. Physiol.74(4): 795-805|1983|10.1016/0300-9629(83)90349-3
64610|T||Holopainen,J.K., P. Kainulainen, and J. Oksanen|Growth and Reproduction of Aphids and Levels of Free Amino Acids in Scots Pine and Norway Spruce in an Open-Air Fumigation with Ozone|Global Change Biol.3(2): 139-147|1997|10.1046/j.1365-2486.1997.00067.x
64611|T||Holovska,K., V. Lenartova, I. Rosival, M. Kicinkova, A. Majerciakova, and J. Legath|Antioxidant and Detoxifying Enzymes in the Liver and Kidney of Pheasants After Intoxication by Herbicides MCPA and ANITEN I|J. Biochem. Mol. Toxicol.12(4): 235-244|1998|10.1002/(SICI)1099-0461(1998)12:4<235::AID-JBT6>3.0.CO;2-M
64613|T||Holste,J.E., L.L. Smith, J.A. Hair, J.L. Lancaster, J.E. Lloyd, W.K. Langholff, R.A. Barrick, and J.S. Eagleson|Eprinomectin: A Novel Avermectin for Control of Lice in all Classes of Cattle|Vet. Parasitol.73(1/2): 153-161|1997|10.1016/S0304-4017(97)00063-0
64614|T||Hooper-Bui,L.M., and M.K. Rust|An Oral Bioassay for the Toxicity of Hydramethylnon to Individual Workers and Queens of Argentine Ants, Linepithema humile|Pest Manag. Sci.57:1011-1016|2001|10.1002/ps.378
64615|T||Horak,M.J., Z. Gao, D.E. Peterson, and L.D. Maddux|Hophornbeam Copperleaf (Acalypha ostryifolia) Biology and Control|Weed Technol.12(3): 515-521|1998|10.1017/S0890037X00044237
64616|T||Hornshaw,T.C., R.J. Aulerich, and R.K. Ringer|Toxicity of Thiram (Tetramethylthiuram Disulfide) to Mink and European Ferrets|Bull. Environ. Contam. Toxicol.38(4): 618-626|1987|10.1007/BF01608594
64617|T||Horowitz,A.R., Z. Mendelson, M. Cahill, I. Denholm, and I. Ishaaya|Managing Resistance to the Insect Growth Regulator, Pyriproxyfen, in Bemisia tabaci|Pestic. Sci.55(3): 272-276|1999|10.1002/(SICI)1096-9063(199903)55:3<272::AID-PS908>3.0.CO;2-Y
64618|T||Horowitz,A.R., Z. Mendelson, and I. Ishaaya|Effect of Abamectin Mixed with Mineral Oil on the Sweetpotato Whitefly (Homoptera: Aleyrodidae)|J. Econ. Entomol.90(2): 349-353|1997|10.1093/jee/90.2.349
64619|T||Horowitz,A.R., Z. Mendelson, P.G. Weintraub, and I. Ishaaya|Comparative Toxicity of Foliar and Systemic Applications of Acetamiprid and Imidacloprid Against the Cotton Whitefly, Bemisia tabaci (Hemiptera: Aleyrodidae)|Bull. Entomol. Res.88(4): 437-442|1998|10.1017/S0007485300042176
64620|T||Horst,W.J., A.K. Puschel, and N. Schmohl|Induction of Callose Formation is a Sensitive Marker for Genotypic Aluminium Sensitivity in Maize|Plant Soil192(1): 23-30|1997|10.1023/A:1004204120863
64621|T||Horst,W.J., N. Schmohl, M. Kollmeier, F. Baluska, and M. Sivaguru|Does Aluminium Affect Root Growth of Maize Through Interaction with the Cell Wall - Plasma Membrane - Cytoskeleton Continuum?|Plant Soil215(2): 163-174|1999|10.1023/A:1004439725283
64623|T||Hoy,J.B.|Ecological Impact of Lindane on a Pine Plantation Soil Microarthropod Community|Environ. Entomol.9(2): 164-174|1980|10.1093/ee/9.2.164
64624|T||Hu,X.P., B.S. Shasha, M.R. McGuire, and R.J. Prokopy|Controlled Release of Sugar and Toxicant from a Novel Device for Controlling Pest Insects|J. Control. Release50(1-3): 257-265|1998|10.1016/S0168-3659(97)00144-2
64625|T||Huang,H.C., E. Bremer, R.K. Hynes, and R.S. Erickson|Foliar Application of Fungal Biocontrol Agents for the Control of White Mold of dry Bean Caused by Sclerotinia sclerotiorum|Biol. Control18(3): 270-276|2000|10.1006/bcon.2000.0829
64626|T||Huang,Y., and S.H. Ho|Toxicity and Antifeedant Activities of Cinnamaldehyde Against the Grain Storage Insects, Tribolium castaneum (Herbst) and Sitophilus zeamais Motsch.|J. Stored Prod. Res.34(1): 11-17|1998|10.1016/S0022-474X(97)00038-6
64627|T||Hughes,M.R., J.R. Roberts, and B.R. Thomas|Physiology and Reproduction.  Renal Function in Freshwater and Chronically Saline-Stressed Male and Female Pekin Ducks|Poult. Sci.68(3): 408-416|1989|10.3382/ps.0680408
64628|T||Humara,J.M., and R.J. Ordas|The Toxicity of Antibiotics and Herbicides on In Vitro Adventitious Shoot Formation on Pinus pinea L. Cotyledons|In Vitro Cell. Dev. Biol., Plant35(4): 339-343|1999|10.1007/s11627-999-0045-6
64629|T||Humeres,E., I.B.M. Da Cruz, and A.K. De Oliveira|Age and Time Exposure-Related Toxicity of Fenthion to Male and Female Anastrepha fraterculus (Wied.) (Diptera: Tephritidae)|An. Soc. Entomol. Bras.28(2): 285-292|1999|10.1590/S0301-80591999000200011
64630|T||Hunt,K.A., D.M. Bird, P. Mineau, and L. Shutt|Secondary Poisoning Hazard of Fenthion to American Kestrels|Arch. Environ. Contam. Toxicol.21(1): 84-90|1991|10.1007/BF01055561
64631|T||Hussein,A.S., A.H. Cantor, and T.H. Johnson|Use of High Levels of Dietary Aluminum and Zinc for Inducing Pauses in Egg Production in Japanese Quail|Poult. Sci.67:1157-1165|1988|10.3382/ps.0671157
64632|T||Indra,N., P.R. Karpagaganapathy, V. Meenakshi, and S. Vijayalakshmi|Changes in the Behaviour and Oxygen Consumption of the Frog Exposed to Median Lethal Dose of Phosphamidon|J. Ecotoxicol. Environ. Monit.7(4): 233-236|1997|
64633|T||Inoue,Y., and T.K. Watanabe|Toxicity and Mutagenicity of Cadmium and Furylfuramide in Drosophila melanogaster|Idengaku Zasshi53(3): 183-189|1978|
64634|T||Inui,T., T. Taira, T. Matsushita, and T. Endo|Pharmacokinetic Properties and Oral Bioavailabilities of Difloxacin in Pig and Chicken|Xenobiotica28(9): 887-893|1998|10.1080/004982598239128
64635|T||Diabate,S., and S. Strack|Organically Bound Tritium in Wheat After Short-Term Exposure to Atmospheric Tritium Under Laboratory Conditions|J. Environ. Radioact.36(2-3): 157-175|1997|10.1016/S0265-931X(97)84985-5
64637|T||Di Cagno,R., L. Guidi, A. Stefani, and G.F. Soldatini|Effects of Cadmium on Growth of Helianthus annuus Seedlings: Physiological Aspects|New Phytol.144(1): 65-71|1999|10.1046/j.1469-8137.1999.00497.x
64638|T||Dick,M.R., J.E. Dripps, and N. Orr|Muscarinic Agonists as Insecticides and Acaricides|Pestic. Sci.49(3): 268-276|1997|10.1002/(SICI)1096-9063(199703)49:3<268::AID-PS527>3.0.CO;2-C
64640|T||Dieleman,J.A., D.A. Mortensen, A.R. Martin, and D.Y. Wyse-Pester|Influence of Velvetleaf (Abutilon theophrasti) and Common Sunflower (Helianthus annuus) Density Variation on Weed Management Outcomes|Weed Sci.47(1): 81-89|1999|10.1017/S004317450009069X
64641|T||Dillard,H.R., and A.C. Cobb|Disease Progress of Black Dot on Tomato Roots and Reduction in Incidence with Foliar Applied Fungicides|Plant Dis.81(12): 1439-1442|1997|10.1094/PDIS.1997.81.12.1439
64642|T||Di Martino,E., and M. Romeo|Effects of the Distribution of Chlorpyrifos on the Lemon|In: R.Cavalloro and E.Di Martino (Eds.), Integrated Pest Control in Citrus Groves, Experts Meeting, March 26-29, 1985, Ariceale, Italy:455-458|1987|
64643|T||Dimitrov,B., and P. Gadeva|Genotoxicity Studies on the Insecticide Dursban in Root Meristem Cells of Crepis capillaris L.|Environ. Exp. Bot.37(2-3): 199-209|1997|10.1016/S0098-8472(96)01042-8
64644|T||Dinelli,G.|Response to Glyphosate and Electrophoretic Variation of Cynodon dactylon (L) Pers Populations|Pest Manag. Sci.56:327-335|2000|10.1002/(SICI)1526-4998(200004)56:4<327::AID-PS122>3.0.CO;2-D
64645|T||Dissanayake,N., J.W. Hoy, and J.L. Griffin|Herbicide Effects on Sugarcane Growth, Pythium Root Rot, and Pythium arrhenomanes|Phytopathology88(6): 530-535|1998|10.1094/PHYTO.1998.88.6.530
64646|T||Dixon,M., D. Le Thiec, and J.P. Garrec|Reactions of Norway Spruce and Beech Trees to 2 Years of Ozone Exposure and Episodic Drought|Environ. Exp. Bot.40(1): 77-91|1998|10.1016/S0098-8472(98)00023-9
64647|T||Dodd,S.L., R.A. Hill, and A. Stewart|Control of Athelia rolfsii Disease on Lentil Seedlings Using 6-Pentyl-alpha-Pyrone|Soil Biol. Biochem.32(7): 1033-1034|2000|10.1016/S0038-0717(00)00003-1
64648|T||Isaacs,R., M. Cahill, and D.N. Byrne|Host Plant Evaluation Behaviour of Bemisia tabaci and Its Modification by External or Internal Uptake of Imidacloprid|Physiol. Entomol.24(2): 101-108|1999|10.1046/j.1365-3032.1999.00119.x
64649|T||Ishii,H., Y. Tomita, T. Horio, Y. Narusaka, Y. Nakazawa, K. Nishimura, and S. Iwamoto|Induced Resistance of Acibenzolar-S-Methyl (CGA 245704) to Cucumber and Japanese Pear Diseases|Eur. J. Plant Pathol.105(1): 77-85|1999|10.1023/A:1008637828624
64650|T||Ismail,B.S., and K. Kalithasan|Effects of Repeated Application on Persistence and Downward Movement of Four Herbicides in Soil|Aust. J. Soil Res.35(3): 503-513|1997|10.1071/S96085
64651|A||Itoh,K., G.X. Wang, and S. Ohba|Sulfonylurea Resistance in Lindernia micrantha, an Annual Paddy Weed in Japan|Weed Res. (Multiple Languages)39(5): 413-423|1999|10.1046/j.1365-3180.1999.00155.x
64652|T||Jackson,T.J., T. Burgess, I. Colquhoun, and G.E. Hardy|Action of the Fungicide Phosphite on Eucalyptus marginata Inoculated with Phytophthora cinnamomi|Plant Pathol.49(1): 147-154|2000|10.1046/j.1365-3059.2000.00422.x
64653|T||Jackson,Y.A., M.F. Williams, L.A.D. Williams, K. Morgan, and F.A. Redway|Insecticidal Properties of Benzofuran-2-Carboxylic Acid Derivatives|Pestic. Sci.53(3): 241-244|1998|10.1002/(SICI)1096-9063(199807)53:3<241::AID-PS763>3.0.CO;2-F
64654|T||Jacobs,J.S., R.L. Sheley, and J.M. Story|Use of Picloram to Enhance Establishment of Cyphocleonus achates (Coleoptera: Curculionidae)|Environ. Entomol.29(2): 349-354|2000|10.1603/0046-225X(2000)029[0349:UOPTEE]2.0.CO;2
64655|T||Jacobs,K.A., and L.C. Berg|Inhibition of Fungal Pathogens of Woody Plants by the Plant Growth Regulator Paclobutrazol|Pest Manag. Sci.56(5): 407-412|2000|10.1002/(SICI)1526-4998(200005)56:5<407::AID-PS139>3.0.CO;2-T
64656|T||Jacobsen,C.S.|Plant Protection and Rhizosphere Colonization of Barley by Seed Inoculated Herbicide Degrading Burkholderia (Pseudomonas) cepacia DBO1(pRO101) in 2,4-D Contaminated Soil|Plant Soil189(1): 139-144|1997|10.1023/A:1004296615446
64657|T||Jacobsohn,R., and Y. Kelman|Effectiveness of Glyphosate in Broomrape (Orobanche spp.) Control in Four Crops|Weed Sci.28(6): 692-698|1980|10.1017/S0043174500061543
64658|T||Jacyna,T., and K.G. Dodds|Effect of Method of Application of Paclobutrazol in High-Density Sweet Cherry Orchards on Tree Performance and Apparent Soil Residue|J. Hortic. Sci. Biotechnol.74(2): 213-218|1999|10.1080/14620316.1999.11511097
64659|T||Jalil,A., F. Selles, and J.M. Clarke|Effect of Cadmium on Growth and the Uptake of Cadmium and Other Elements by Durum Wheat|J. Plant Nutr.17(11): 1839-1858|1994|10.1080/01904169409364851
64660|T||James,D.G.|Imidacloprid Increases Egg Production in Amblyseius victoriensis (Acari: Phytoseiidae)|Exp. Appl. Acarol.21(2): 75-82|1997|10.1023/A:1018493409832
64661|T||James,D.G., M.M. Stevens, and K.J. O'Malley|Prolonged Exclusion of Foraging Ants (Hymenoptera:  Formicidae) from Citrus Trees Using Controlled-Release Chlorpyrifos Trunk Bands|Int. J. Pest Manag.44(2): 65-69|1998|10.1080/096708798228338
64662|T||Janz,D.M., and G.D. Bellward|In Ovo 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure in Three Avian Species 1.  Effects on Thyroid Hormones and Growth During the Perinatal Period|Toxicol. Appl. Pharmacol.139(2): 281-291|1996|10.1006/taap.1996.0167
64663|T||Jayasinghe,C.K., and T.H.P.S. Fernando|Growth at Different Temperatures and on Fungicide Amended Media: Two Characteristics to Distinguish Colletotrichum Species Pathogenic to Rubber|Mycopathologia143(2): 93-95|1998|10.1023/A:1006958623733
64664|T||Jenner,P., B.Y. Zeng, L.A. Smith, R.K.B. Pearce, B. Tel, L. Chancharme, and G. Moachon|Antiparkinsonian and Neuroprotective Effects of Modafinil in the MPTP-Treated Common Marmoset|Exp. Brain Res.133(2): 178-188|2000|10.1007/s002210000370
64665|T||Jansen,J.P.|Effects of Wheat Foliar Fungicides on the Aphid Endoparasitoid Aphidius rhopalosiphi DeStefani-Perez (Hym., Aphidiidae) on Glass Plates and on Plants|J. Appl. Entomol.123(4): 217-223|1999|10.1046/j.1439-0418.1999.00339.x
64666|T||Jensen,M., K. Linke, A. Dickhauser, and G.B. Feige|The Effect of Agronomic Photosystem-II Herbicides on Lichens|Lichenologist31(1): 95-103|1999|10.1006/lich.1998.0134
64667|T||Jensen,S.E.|Acetylcholinesterase Activity Associated with Methiocarb Resistance in a Strain of Western Flower Thrips, Frankliniella occidentalis (Pergande)|Pestic. Biochem. Physiol.61(3): 191-200|1998|10.1006/pest.1998.2359
64668|T||Jettner,R.J., S.R. Walker, J.D. Churchett, F.P.C. Blamey, S.W. Adkins, and K. Bell|Plant Sensitivity to Atrazine and Chlorsulfuron Residues in a Soil-Free System|Weed Res. (Multiple Languages)39(4): 287-295|1999|10.1046/j.1365-3180.1999.00145.x
64669|T||Jensen,S.E.|Mechanisms Associated with Methiocarb Resistance in Frankliniella occidentalis (Thysanoptera: Thripidae)|J. Econ. Entomol.93(2): 464-471|2000|10.1603/0022-0493-93.2.464
64670|T||Jeong,S.H., S.S.M. Habeebu, and C.D. Klaassen|Cadmium Decreases Gap Junctional Intercellular Communication in Mouse Liver|Toxicol. Sci.57(1): 156-166|2000|10.1093/toxsci/57.1.156
64671|T||Jiang,W., and D. Liu|Effects of Pb2+ on Root Growth, Cell Division, and Nucleolus of Brassica juncea L.|Isr. J. Plant Sci.47(3): 153-156|1999|10.1080/07929978.1999.10676767
64672|T||Jiang,W., D. Liu, and W. Hou|Hyperaccumulation of Cadmium by Roots, Bulbs and Shoots of Garlic (Allium sativum L.)|Bioresour. Technol.76(1): 9-13|2001|10.1016/S0960-8524(00)00086-9
64673|T||Jiang,Z., Z. Shang, and S. Zhao|The Relationship Between Insect Growth Regulators with Juvenile Hormone Activity and Insect Feeding Behavioural Response|Entomol. Sin.6(1): 71-76|1999|
64674|T||Jin,H., and G.R.B. Webster|GC-ECD Determination of Cypermethrin and Its Major Metabolites in Soil, Elm Bark, and Litter|Fresenius' J. Anal. Chem.360:573-579|1998|10.1007/s002160050761
64675|T||Johnson,B.J.|Influence of Spring-Applied Herbicides on Bermudagrass (Cynodon dactylon) Greens Overseeded with Roughstalk Bluegrass (Poa trivialis)|Weed Technol.12(1): 1-6|1998|10.1017/S0890037X00042470
64676|T||Johnson,B.J.|Sequential Applications of Preemergence and Postemergence Herbicides for Large Crabgrass (Digitaria sanguinalis) Control in Tall Fescue (Festuca arundinacea) Turf|Weed Technol.11(4): 693-697|1997|10.1017/S0890037X0004327X
64677|T||Johnson,W.G., M.S. DeFelice, and C.S. Holman|Application Timing Affects Weed Control with Metolachlor plus Atrazine in No-Till Corn (Zea mays)|Weed Technol.11(2): 207-211|1997|10.1017/S0890037X00042858
64678|T||Johnson,W.G., J.A. Kendig, R.E. Massey, M.S. DeFelice, and C.D. Becker|Weed Control and Economic Returns with Postemergence Herbicides in Narrow-Row Soybeans (Glycine max)|Weed Technol.11(3): 453-459|1997|10.1017/S0890037X00045243
64679|T||Jokanovic,M., A. Moretto, and M. Lotti|Repeated Low Doses of O-(2-Chloro-2,3,3 Trifluorocyclobutyl) O-Ethyl S-Propyl Phosphorothioate (KBR-2822) do not Cause Neuropathy in Hens|Arch. Toxicol.72(2): 93-96|1998|10.1007/s002040050473
64680|T||Jones,C.J.P., B.M. Backlin, R.W. Stoddart, and V. Dantzer|Environmental Pollutants as Aetiological Agents in Female Reproductive Pathology:  Placental Glycan Expression in Normal and Polychlorinated Biphenyl (PCB)-Exposed Mink (Mustela vison)|Placenta18(8): 689-699|1997|10.1016/S0143-4004(97)90011-4
64681|T||Jordan,D.L.|Efficacy of Reduced Rates of Quinclorac Applied with Propanil or Propanil Plus Molinate in Dry-Seeded Rice (Oryza sativa)|Weed Sci.45(6): 824-828|1997|10.1017/S0043174500089025
64682|T||Jordan,D.L., D.E. Sanders, S.D. Linscombe, and B.J. Williams|Response of Four Rice (Oryza sativa) Cultivars to Triclopyr|Weed Technol.12(2): 254-257|1998|10.1017/S0890037X00043773
64683|T||Jordan,D.L., D.B. Reynolds, and S.H. Crawford|Rice (Oryza sativa) Response to Soil Residues of Selected Herbicides|Weed Technol.11(2): 379-383|1997|10.1017/S0890037X00043104
64684|T||Jones,D.L., S. Gilroy, P.B. Larsen, S.H. Howell, and L.V. Kochian|Effect of Aluminum on Cytoplasmic Ca2+ Homeostasis in Root Hairs of Arabidopsis thaliana (L.)|Planta (Multiple Languages)206(3): 378-387|1998|10.1007/s004250050413
64685|T||Jordan,D.L., P.K. Bollich, A.B. Burns, and D.M. Walker|Rice (Oryza sativa) Response to Clomazone|Weed Sci.46(3): 374-380|1998|10.1017/S0043174500089566
64686|T||Jordan,D.L., and J.A. Kendig|Barnyardgrass (Echinochloa crus-galli) Control with Postemergence Applications of Propanil and Clomazone in Dry-Seeded Rice (Oryza sativa)|Weed Technol.12(1): 537-541|1998|10.1017/S0890037X00044274
64687|T||Joseph,G., and R.G. Kelsey|Physiology and Growth of Douglas-Fir Seedlings Treated with Ethanol Solutions|Plant Sci.150(2): 191-199|2000|10.1016/S0168-9452(99)00189-2
64688|T||Jourdan,S.W., B.A. Majek, and A.O. Ayeni|Soil Persistence of Imazethapyr and Detection Using a Sensitive Bioassay Technique|J. Prod. Agric.11(1): 52-56|1998|10.2134/jpa1998.0052
64689|T||Jurado-Exposito,M., L. Garcia-Torres, and M. Castejon-Munoz|Broad Bean and Lentil Seed Treatments with Imidazolinones for the Control of Broomrape (Orobanche crenata)|J. Agric. Sci.129(3): 307-314|1997|10.1017/S0021859697004723
64690|T||Jurado-Exposito,M., M. Castejon-Munoz, and L. Garcia-Torres|Uptake and Translocation of Imazethapyr in Peas as Affected by Parasitism of Orobanche crenata and Herbicide Application Methods|Weed Res. (Multiple Languages)39(2): 129-136|1999|10.1046/j.1365-3180.1999.00130.x
64691|T||Donald,W.W.|Estimating Relative Crop Yield Loss Resulting from Herbicide Damage Using Crop Ground Cover or Rated Stunting, with Maize and Sethoxydim as a Case Study|Weed Res. (Multiple Languages)38(6): 425-431|1998|10.1046/j.1365-3180.1998.00110.x
64692|T||Dong,K., S.M. Valles, M.E. Scharf, B. Zeichner, and G.W. Bennett|The Knockdown Resistance (kdr) Mutation in Pyrethroid-Resistant German Cockroaches|Pestic. Biochem. Physiol.60(3): 195-204|1998|10.1006/pest.1998.2339
64694|T||Drost,D.T., J.W. MacAdam, L.M. Dudley, and N. Soltani|Response of Bean and Broccoli to High-Sulfate Irrigation Water|HortTechnology7(4): 429-434|1997|10.21273/HORTTECH.7.4.429
64695|T||Duffy,B.|Combination of Pencycuron and Pseudomonas fluorescens Strain 2-79 for Integrated Control of Rhizoctonia Root Rot and Take-All of Spring Wheat|Crop Prot.19(1): 21-25|2000|10.1016/S0261-2194(99)00078-2
64696|T||Duffy,B.K., and G. Defago|Zinc Improves Biocontrol of Fusarium Crown and Root Rot of Tomato by Pseudomonas fluorescens and Represses the Production of Pathogen Metabolites Inhibitory to Bacterial Antibiotic Biosynthesis|Phytopathology87(12): 1250-1257|1997|10.1094/PHYTO.1997.87.12.1250
64697|T||Duncan,K.W., and K.C. McDaniel|Saltcedar (Tamarix spp.) Management with Imazapyr|Weed Technol.12(2): 337-344|1998|10.1017/S0890037X00043918
64698|T||Dunfield,K.E., S.D. Siciliano, and J.J. Germida|The Fungicides Thiram and Captan Affect the Phenotypic Characteristics of Rhizobium leguminosarum Strain C1 as Determined by FAME and Biolog Analyses|Biol. Fertil. Soils31(3-4): 303-309|2000|10.1007/s003740050660
64699|T||Dusbabek,F., V. Rupes, P. Simek, and H. Zahradnickova|Enhancement of Permethrin Efficacy in Acaricide-Attractant Mixtures for Control of the Fowl Tick Argas persicus (Acari: Argasidae)|Exp. Appl. Acarol.21(5): 293-305|1997|10.1023/A:1018407307532
64700|T||Kaakeh,N., W. Kaakeh, and G.W. Bennett|Topical Toxicity of Imidacloprid, Fipronil, and Seven Conventional Insecticides to the Adult Convergent Lady Beetle (Coleoptera: Coccinellidae)|J. Entomol. Sci.31(3): 315-322|1996|10.18474/0749-8004-31.3.315
64701|T||Kaakeh,W., B.L. Reid, and G.W. Bennett|Toxicity of Fipronil to German and American Cockroaches|Entomol. Exp. Appl.84(3): 229-237|1997|10.1046/j.1570-7458.1997.00220.x
64703|T||Kain,D.P., and A.M. Agnello|Pest Status of American Plum Borer (Lepidoptera:  Pyralidae) and Fruit Tree Borer Control with Synthetic Insecticides and Entomopathogenic Nematodes in New York State|J. Econ. Entomol.92(1): 193-200|1999|10.1093/jee/92.1.193
64704|T||Kakakhel,S.A., K. Ahad, M. Amjad, and S.A. Hassan|The Side-Effects of Pesticides on Diaeretiella rapae, a Parasitoid of the Turnip Aphid (Lipaphis erysimi)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)71(3): 61-63|1998|10.1007/BF02770623
64705|T||Kakela,R., and H. Hyvarinen|Fatty Acid Alterations Caused by PCBs (Aroclor 1242) and Copper in Adipose Tissue Around Lymph Nodes of Mink|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(1): 45-53|1999|
64706|T||Kammerer,M., H. Pouliquen, L. Pinault, and M. Loyau|Residues Depletion in Egg After Warfarin Ingestion by Laying Hens|Vet. Hum. Toxicol.40(5): 273-275|1998|
64707|AT||Kandasamy,O.S.|Influence of Repeated Application of Herbicides on Weed Succession and Yield of Rice Based Cropping System in India|J. Agron. Crop Sci.179(3): 187-190|1997|10.1111/j.1439-037X.1997.tb00515.x
64708|T||Kang,Z., L. Huang, U. Krieg, A. Mauler-Machnik, and H. Buchenauer|Effects of Tebuconazole on Morphology, Structure, Cell Wall Components and Trichothecene Production of Fusarium culmorum In Vitro|Pest Manag. Sci.57:491-500|2001|10.1002/ps.310
64709|T||Kanga,L.H.B., D.J. Pree, J.L. Van Lier, and G.M. Walker|Monitoring for Resistance to Organophosphorus, Carbamate, and Pyrethroid Insecticides in the Oriental Fruit Moth (Lepidoptera:  Tortricidae)|Can. Entomol.131(4): 441-450|1999|10.4039/Ent131441-4
64710|T||Kanoun,M., M.J. Philippe Goulas, and J.P. Biolley|Effect of a Chronic and Moderate Ozone Pollution on the Phenolic Pattern of Bean Leaves (Phaseolus vulgaris L. cv Nerina):  Relations with Visible Injury and Biomass Production|Biochem. Syst. Ecol.29(5): 443-457|2001|10.1016/S0305-1978(00)00080-6
64711|T||Kapa,E.|Effect of Cancerogenic Substances on Mastocytopoiesis in the Amphibia (Rana esculenta)|Acta Biol. Acad. Sci. Hung.25(1-2): 1-7|1974|
64712|T||Kapur,A., and R.N. Chopra|Effects of Some Metal Ions on Protonemal Growth and Bud Formation in the Moss Timmiella anomala Grown in Aseptic Cultures|J. Hattori Bot. Lab.66:283-298|1989|
64713|T||Karakas,B., R.L. Bianco, and M. Rieger|Association of Marginal Leaf Scorch with Sodium Accumulation in Salt-Stressed Peach|Hortscience35(1): 83-84|2000|10.21273/HORTSCI.35.1.83
64714|T||Kard,B.M., and C.A. McDaniel|Field Evaluation of the Persistence and Efficacy of Pesticides Used for Termite Control|ACS Symp. Ser.522:46-61|1993|10.1021/bk-1993-0522.ch006
64715|T||Kard,B.M.R., and F.P. Hain|Chemical Control of Three White Grub Species (Coleoptera:  Scarabaeidae) Attacking Fraser Fir Christmas Trees in the Southern Appalachians|J. Entomol. Sci.22(1): 84-89|1987|10.18474/0749-8004-22.1.84
64716|T||Kasap,H., M. Kasap, D. Alptekin, U. Luleyap, and P.R.J. Herath|Insecticide Resistance in Anopheles sacharovi Favre in Southern Turkey|Bull. W. H. O.78(5): 687-692|2000|
64717|T||Kashyap,R.K., O.P. Chaudhary, and I.S. Sheoran|Effects of Insecticide Seed Treatments on Seed Viability and Vigour in Wheat Cultivars|Seed Sci. Technol.22(3): 503-517|1994|
64718|T||Kauppi,M., A. Kauppi, and J. Garty|Ethylene Produced by the Lichen Cladina stellaris Exposed to Sulphur and Heavy-Metal-Containing Solutions Under Acidic Conditions|New Phytol.139(3): 537-547|1998|10.1046/j.1469-8137.1998.00214.x
64719|T||Kaur,I., R.P. Mathur, and S.N. Tandon|Degradation of Some Organophosphorous Pesticides Under Different Field Conditions|Environ. Technol.19(1): 97-102|1998|10.1080/09593331908616660
64720|T||Kececi,T., H. Oguz, V. Kurtoglu, and O. Demet|Effects of Polyvinylpolypyrrolidone, Synthetic Zeolite and Bentonite on Serum Biochemical and Haematological Characters of Broiler Chickens During Aflatoxicosis|Br. Poult. Sci.39(3): 452-458|1998|10.1080/00071669889051
64721|T||Keeley,S.J., B.E. Branham, and D. Penner|Adjuvant Enhancement of Large Crabgrass (Digitaria sanguinalis) Control with Dithiopyr|Weed Sci.45(2): 205-211|1997|10.1017/S0043174500092729
64722|T||Keinath,A.P.|Effect of Protectant Fungicide Application Schedules on Gummy Stem Blight Epidemics and Marketable Yield of Watermelon|Plant Dis.84(3): 254-260|2000|10.1094/PDIS.2000.84.3.254
64723|T||Keinath,A.P., and T.A. Zitter|Resistance to Benomyl and Thiophanate-Methyl in Didymella bryoniae from South Carolina and New York|Plant Dis.82(5): 479-484|1998|10.1094/PDIS.1998.82.5.479
64726|T||Keith,J.O., and C.A. Mitchell|Effects of DDE and Food Stress on Reproduction and Body Condition of Ringed Turtle Doves|Arch. Environ. Contam. Toxicol.25(2): 192-203|1993|10.1007/BF00212130
64727|T||Keller,D.A., G.L.,Jr. Kennedy, P.E. Ross, D.P. Kelly, and G.S. Elliott|Toxicity of Tetrafluoroethylene and S-(1,1,2,2-Tetrafluoroethyl)-L-Cysteine in Rats and Mice|Toxicol. Sci.56(2): 414-423|2000|10.1093/toxsci/56.2.414
64728|T||Keller,K.E., and J.B. Weber|Soybean (Glycine max) Influences Metolachlor Mobility in Soil|Weed Sci.45(6): 833-841|1997|10.1017/S0043174500089049
64730|T||Kelsey,J.W., B.D. Kottler, and M. Alexander|Selective Chemical Extractants to Predict Bioavailability of Soil-Aged Organic Chemicals|Environ. Sci. Technol.31(1): 214-217|1997|10.1021/es960354j
64731|T||Kenaga,E.E.|Triphenyl Tin Compounds as Insect Reproduction Inhibitors|J. Econ. Entomol.58(1): 4-8|1965|10.1093/jee/58.1.4
64732|T||Kender,W.J., U. Hartmond, M. Salyani, J.K. Burns, and J.D. Whitney|Injurious Effects of Metsulfuron-Methyl When Used to Stimulate Abscission of 'Hamlin' Oranges|Hortscience34(5): 904-907|1999|10.21273/HORTSCI.34.5.904
64733|T||Kerns,D.L., and S.D. Stewart|Sublethal Effects of Insecticides on the Intrinsic Rate of Increase of Cotton Aphid|Entomol. Exp. Appl.94(1): 41-49|2000|10.1046/j.1570-7458.2000.00602.x
64734|T||Kesner,C.D., and S.K. Ries|The Interaction of Diphenamid and Two Soil Fungi on the Growth of Tomato|Weed Sci.16:55-57|1968|10.1017/S0043174500030526
64735|T||Ketel,D.H., and L.A.P. Lotz|Influence of Allocation and Detoxification of Metribuzin in Chenopodium album on the Reliability of Prediction of the Minimum Lethal Herbicide Dose Rate|Weed Res. (Multiple Languages)38(4): 267-274|1998|10.1046/j.1365-3180.1998.00103.x
64736|T||Kettlewell,P.S., J.W. Cook, and D.W. Parry|Evidence for an Osmotic Mechanism in the Control of Powdery Mildew Disease of Wheat by Foliar-Applied Potassium Chloride|Eur. J. Plant Pathol.106(3): 297-300|2000|10.1023/A:1008761202455
64737|T||Kevan,S.D., M.E. Nasr, and P.G. Kevan|Feeding Menthol to Honeybees (Hymenoptera: Apidae): Entry and Persistence in Haemolymph Without Causing Mortality|Can. Entomol.131(2): 279-281|1999|10.4039/Ent131279-2
64738|T||Khan,I., and J.G. Morse|Toxicity of Pesticide Residues to Citrus Thrips (Thysanoptera:  Thripidae)|J. Agric. Entomol.14(4): 409-420|1997|
64739|T||Khan,M.S.A., A. Hamid, A.B.M. Salahuddin, A. Quasem, and M.A. Karim|Effect of Sodium Chloride on Growth, Photosynthesis and Mineral Ions Accumulation of Different Types of Rice (Oryza sativa L.)|J. Agron. Crop Sci.179(3): 149-161|1997|10.1111/j.1439-037X.1997.tb00511.x
64740|T||Kim,J.Y., S. Shin, and I.K. Park|Effects of the Neurotoxin 3-Acetylpyridine on Levels of Soluble Proteins and Enzyme Activities in Various Tissues of Japanese Quail|Int. J. Biochem. Cell Biol.30(4): 487-495|1998|10.1016/S1357-2725(98)00009-0
64741|T||Kim,J.C., J.Y. Min, H.T. Kim, B.S. Kim, Y.S. Kim, B.T. Kim, S.H. Yu, I. Yamaguchi, and K.Y. Cho|Target Site of a New Antifungal Compound KC10017 in the Melanin Biosynthesis of Magnaporthe grisea|Pestic. Biochem. Physiol.62(2): 102-112|1998|10.1006/pest.1998.2377
64742|T||Kim,J.S., S. Jung, I.T. Hwang, and K.Y. Cho|Characteristics of Chlorophyll a Fluorescence Induction in Cucumber Cotyledons Treated with Diuron, Norflurazon, and Sulcotrione|Pestic. Biochem. Physiol.65(2): 73-81|1999|10.1006/pest.1999.2428
64743|T||Kimpinski,J., H.W. Johnston, and J.B. Sanderson|Effects of Carbathiin and Thiram with Propiconazole and Aldicarb on Grain Yield, and on Incidence of Root Rot, Leaf Blotch, and Root Lesion Nematode in Spring Wheat|Can. J. Plant Pathol.20(2): 201-205|1998|10.1080/07060669809500428
64744|T||Kinebuchi,H., K. Akimaru, S.I. Noda, and K. Yamamoto|Cholinesterase Activity in Quails of Neuropathy Caused by Organophosphates|Ind. Health36(4): 376-379|1998|10.2486/indhealth.36.376
64745|T||Kirkham,M.B.|Uptake of Cadmium and Zinc from Sludge by Barley Grown Under Four Different Sludge Irrigation Regimes|J. Environ. Qual.4(3): 423-426|1975|10.2134/jeq1975.00472425000400030030x
64746|T||Kirkland,K.J.|Implications of Late Fall and Early Spring 2,4-D Applications on Subsequent Canola Production on Black, Dark Brown and Gray Wooded Soil|Can. J. Plant Sci.77(4): 699-702|1997|10.4141/P97-019
64747|T||Kirkwood,R.C., R. Hetherington, T.L. Reynolds, and G. Marshall|Absorption, Localisation, Translocation and Activity of Glyphosate in Barnyardgrass (Echinochloa crus-galli (L) Beauv): Influence of Herbicide and Surfactant Concentration|Pest Manag. Sci.56(4): 359-367|2000|10.1002/(SICI)1526-4998(200004)56:4<359::AID-PS145>3.0.CO;2-S
64748|T||Kitao,M., T.T. Lei, and T. Koike|Application of Chlorophyll Fluorescence to Evaluate Mn Tolerance of Deciduous Broad-Leaved Tree Seedlings Native to Northern Japan|Tree Physiol.18(2): 135-140|1998|10.1093/treephys/18.2.135
64749|T||Kitao,M., T.T. Lei, and T. Koike|Effects of Manganese in Solution Culture on the Growth of Five Deciduous Broad-Leaved Tree Species with Different Successional Characters from Northern Japan|Photosynthetica (Praha)36(1-2): 31-40|1999|
64750|T||Kitao,M., T.T. Lei, and T. Koike|Effects of Manganese Toxicity on Photosynthesis of White Birch (Betula platyphylla var. japonica) Seedlings|Physiol. Plant. (Multiple Languages)101(2): 249-256|1997|10.1111/j.1399-3054.1997.tb00994.x
64751|T||Kjaer,C., N. Elmegaard, J.A. Axelsen, P.N. Andersen, and N. Seidelin|The Impact of Phenology, Exposure and Instar Susceptibility on Insecticide Effects on a Chrysomelid Beetle Population|Pestic. Sci.52(4): 361-371|1998|10.1002/(SICI)1096-9063(199804)52:4<361::AID-PS729>3.0.CO;2-3
64752|T||Kjaer,C., and U. Heimbach|Relationships Between Sulfonylurea Herbicide Treatment of Host Plants and the Performance of Herbivorous Insects|Pest Manag. Sci.57:1161-1166|2001|10.1002/ps.407
64753|T||Kleiman,I.D., and D.H. Cogliatti|Chromium Removal from Aqueous Solutions by Different Plant Species|Environ. Technol.19(11): 1127-1132|1998|10.1080/09593331908616771
64755|T||Klingeman,W.E., G.D. Buntin, M.W. Van Iersel, and S.K. Braman|Whole-Plant Gas Exchange, not Individual-Leaf Measurements, Accurately Assesses Azalea Response to Insecticides|Crop Prot.19(6): 407-415|2000|10.1016/S0261-2194(00)00033-8
64756|T||Klotz,J.H., K.M. Vail, and D.F. Williams|Toxicity of a Boric Acid-Sucrose Water Bait to Solenopsis invicta (Hymenoptera: Formicidae)|J. Econ. Entomol.90(2): 488-491|1997|10.1093/jee/90.2.488
64758|T||Knoche,M., and M.J. Bukovac|Spray Application Factors and Plant Growth Regulator Performance:  II.  Foliar Uptake of Gibberellic Acid and 2,4-D|Pestic. Sci.55(2): 166-174|1999|
64759|T||Knoche,M., and M.J. Bukovac|Spray Application Factors and Plant Growth Regulator Performance: III. Interaction of Daminozide Uptake, Translocation and Phytotoxicity in Bean Seedlings|Pest Manag. Sci.56(1): 43-48|2000|10.1002/(SICI)1526-4998(200001)56:1<43::AID-PS86>3.0.CO;2-J
64760|T||Knowlton,J.A., T.D. Siopes, M.L. Rhoads, and J.D. Kirby|Effects of Transient Treatment with 6-N-Propyl-2-Thiouracil on Testis Development and Function in Breeder Turkeys|Poult. Sci.78(7): 999-1005|1999|10.1093/ps/78.7.999
64761|T||Kobayashi,K., Y. Tsukasaki, S. Tongma, and I.S. Shim|Phytotoxic Activity of Clomeprop in Soil and Concentration of Its Hydrolysed Metabolite DMPA in Soil Water|Pestic. Sci.55(4): 474-478|1999|10.1002/(SICI)1096-9063(199904)55:4<474::AID-PS916>3.0.CO;2-V
64763|T||Kocisova,A., and L. Para|Possibilities of Long-Term Protection Against Blood-Sucking Insects and Ticks|Cent. Eur. J. Publ. Health7(1): 27-30|1999|
64764|T||Koeppe,M.K., A.C. Barefoot, C.D. Cotterman, W.T. Zimmerman, and D.C. Leep|Basis of Selectivity of the Herbicide Flupyrsulfuron-Methyl in Wheat|Pestic. Biochem. Physiol.59(2): 105-117|1998|10.1006/pest.1997.2314
64765|T||Koeppe,M.K., C.M. Hirata, H.M. Brown, W.H. Kenyon, D.P. O'Keefe, S.C. Lau, W.T. Zimmerman, and J.M. Green|Basis of Selectivity of the Herbicide Rimsulfuron in Maize|Pestic. Biochem. Physiol.66(3): 170-181|2000|10.1006/pest.1999.2470
64766|T||Kohmann,K.|Side-Effects of Formulations of Permethrin and Fenvalerate Insecticides on Frost Resistance and Field Performance of Picea abies Seedlings|Scand. J. For. Res.14(4): 355-360|1999|10.1080/02827589950152674
64767|T||Kolaczinski,J., and C. Curtis|Laboratory Evaluation of Fipronil, a Phenylpyrazole Insecticide, Against Adult Anopheles (Diptera:  Culicidae) and Investigation of Its Possible Cross-Resistance with Dieldrin in Anopheles stephensi|Pest Manag. Sci.57:41-45|2001|10.1002/1526-4998(200101)57:1<41::AID-PS260>3.0.CO;2-N
64768|T||Kolawole,G.O., G. Tian, and B.B. Singh|Differential Response of Cowpea Lines to Aluminum and Phosphorus Application|J. Plant Nutr.23(6): 731-740|2000|10.1080/01904160009382055
64769|T||Kolling,C., B. Pauli, K.H. Haberle, and K.E. Rehfuess|Magnesium Deficiency in Young Norway Spruce (Picea abies [L.] Karst.) Trees Induced by NH4NO3 Application|Plant Soil195(2): 283-291|1997|10.1023/A:1004291200514
64770|T||Komeza,N., P. Fouillet, M. Bouletreau, and J.M. Delpuech|Modification, by the Insecticide Chlorpyrifos, of the Behavioral Response to Kairomones of a Parasitoid Wasp, Leptopilina boulardi|Arch. Environ. Contam. Toxicol.41(4): 436-442|2001|10.1007/s002440010269
64771|T||Konig,M., and K. Seifert|Uptake and Translocation of Exogenously Applied 7-Oxysterols in Barley|Phytochemistry49(5): 1257-1263|1998|10.1016/S0031-9422(98)00046-6
64772|T||Kontsedalov,S., P.G. Weintraub, A.R. Horowitz, and I. Ishaaya|Effects of Insecticides on Immature and Adult Western Flower Thrips (Thysanoptera:  Thripidae) in Israel|J. Econ. Entomol.91(5): 1067-1071|1998|10.1093/jee/91.5.1067
64773|T||Koo,S.J., J.S. Kim, and S.H. Kang|Antagonistic Interaction of Propanil and Pyribenzoxim on Barnyardgrass Control|Pestic. Biochem. Physiol.67(1): 46-53|2000|10.1006/pest.2000.2476
64774|T||Kope,H.H., and D. Trotter|Evaluation of Mancozeb and Propiconazole to Control Keithia Leaf Blight of Container-Grown Western Red Cedar|For. Chron.74(4): 583-587|1998|10.5558/tfc74583-4
64775|T||Koppang,N., A. Rivenson, H.K. Dahle, and D. Hoffmann|A Study of Tobacco Carcinogenesis, LIII: Carcinogenicity of N'-Nitrosonornicotine (NNN) and 4-(Methylnitrosamino)-1-(3-Pyridyl)-1-Butanone (NNK) in Mink (Mustala vison)|Cancer Lett.111(1-2): 167-171|1997|10.1016/S0304-3835(96)04507-7
64776|T||Korthals,G.W., M. Bongers, A. Fokkema, T.A. Dueck, and T.M. Lexmond|Joint Toxicity of Copper and Zinc to a Terrestrial Nematode Community in an Acid Sandy Soil|Ecotoxicology9(3): 219-228|2000|10.1023/A:1008950905983
64777|T||Koscelny,J.A., and T.F. Peeper|Evaluation of Registered Herbicides for Cheat (Bromus secalinus) Control in Winter Wheat (Triticum aestivum)|Weed Technol.11(1): 30-34|1997|10.1017/S0890037X00041294
64778|T||Koscelny,J.A., and T.F. Peeper|Herbicides for Winter-Hardy Wild Oat (Avena fatua) Control in Winter Wheat (Triticum aestivum)|Weed Technol.11(1): 35-38|1997|10.1017/S0890037X00041300
64779|T||Koshihara,T.|Absorption and Translocation of gamma-BHC in Rice Plants Through the Root Systems|Nihon Oyo Dobutsu Konchu Gakkaishi (Non-English)9(1): 13-17|1965|10.1303/jjaez.9.13
64780|T||Lamoreaux,R.J., and W.R. Chaney|Growth and Water Movement in Silver Maple Seedlings Affected by Cadmium|J. Environ. Qual.6(2): 201-205|1977|10.2134/jeq1977.00472425000600020021x
64781|T||Lamsal,K., G.N. Paudyal, and M. Saeed|Model for Assessing Impact of Salinity on Soil Water Availability and Crop Yield|Agric. Water Manag.41(1): 57-70|1999|10.1016/S0378-3774(98)00116-4
64782|T||Landi,P., E. Frascaroli, and M.M. Giuliani|Genetic Variability for Resistance to Trifluralin in Zea mays|Weed Sci.47(4): 369-374|1999|10.1017/S0043174500091943
64783|T||Lange,R.M., P.S. Bains, and R.J. Howard|Efficacy of Fungicides for Control of Entomosporium Leaf and Berry Spot of Saskatoon|Plant Dis.82(10): 1137-1141|1998|10.1094/PDIS.1998.82.10.1137
64784|T||Langton,S.J., R.G. Harvey, and J.W. Albright|Efficacy of Clomazone Applied at Various Timings in Soybean (Glycine max)|Weed Technol.11(1): 105-109|1997|10.1017/S0890037X00041427
64785|T||Lee,B.K.H.|The Effect of Anionic and Nonionic Detergents on Soil Microfungi|Can. J. Bot.48:583-589|1970|10.1139/b70-080
64786|T||Lee,C.Y., H.H. Yap, and N.L. Chong|Sublethal Effects of Deltamethrin and Propoxur on Longevity and Reproduction of German Cockroaches, Blattella germanica|Entomol. Exp. Appl.89(2): 137-145|1998|10.1046/j.1570-7458.1998.00392.x
64787|T||Lee,I.P., and R.L. Dixon|Effects of Cadmium on Spermatogenesis Studied by Velocity Sedimentation Cell Separation and Serial Mating|J. Pharmacol. Exp. Ther.187(3): 641-652|1973|
64788|T||Lee,S., and T. Leustek|The Affect of Cadmium on Sulfate Assimilation Enzymes in Brassica juncea|Plant Sci.141(2): 201-207|1999|10.1016/S0168-9452(98)00231-3
64789|T||Lehoczky,E., E. Nadasy, P. Lukacs, and M. Dobozi|Influence of Different Pre-Emergent Herbicides on the Growth of Faba Bean (Vicia faba L.) Varieties (Einfluss Unterschiedlicher Vorauflaufherbizide auf das Wachstum von Bohnen (Vicia faba L.))|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)17:629-633|2000|
64790|T||Levene,B.C., M.D.K. Owen, and G.L. Tylka|Response of Soybean Cyst Nematodes and Soybeans (Glycine max) to Herbicides|Weed Sci.46(2): 264-270|1998|10.1017/S0043174500090512
64791|T||Li,K.C., D.C. Powell, R.J. Aulerich, R.D. Walker, J.A. Render, R.K. Maes, and S.J. Bursian|Effects of Formalin on Bacterial Growth in Mink Feed, Feed Consumption and Reproductive Performance of Adult Mink, and Growth of Mink Kits|Vet. Hum. Toxicol.41(4): 225-232|1999|
64792|T||Li,X.F., J.F. Ma, S. Hiradate, and H. Matsumoto|Mucilage Strongly Binds Aluminum but Does not Prevent Roots from Aluminum Injury in Zea mays|Physiol. Plant. (Multiple Languages)108(2): 152-160|2000|10.1034/j.1399-3054.2000.108002152.x
64793|T||Liao,M.T., M.J. Hedley, D.J. Woolley, R.R. Brooks, and M.A. Nichols|Copper Uptake and Translocation in Chicory (Cichorium intybus L. cv. Grasslands Puna) and Tomato (Lycopersicon esculentum Mill. cv. Rondy) Plants Grown in NFT System.  I.  Copper Uptake and Distribution in Plants|Plant Soil221(2): 135-142|2000|10.1023/A:1004731415931
64794|T||Liapis,H., G. Vogler, and G.F. Steinhardt|North American Opossum Didelphis virginiana as a Fetal Nephrotoxicity Model: Histologic and Ultrastructural Assessment of Uranyl Nitrate (UN)-Induced Damage|Microsc. Res. Tech.39:285-296|1997|10.1002/(SICI)1097-0029(19971101)39:3<285::AID-JEMT7>3.0.CO;2-J
64795|T||Licudine,J.A., G.T. McQuate, R.T. Cunningham, N.J. Liquido, and Q.X. Li|Efficacy and Residues of Phloxine B and Uranine for the Suppression of Mediterranean Fruit Fly in Coffee Fields|Pest Manag. Sci.58:38-44|2001|10.1002/ps.418
64796|T||Lindgren,C.J., T.S. Gabor, and H.R. Murkin|Impact of Triclopyr Amine on Galerucella calmariensis L. (Coleoptera: Chrysomelidae) and a Step Toward Integrated Management of Purple Loosestrife Lythrum salicaria L.|Biol. Control12(1): 14-19|1998|10.1006/bcon.1997.0607
64797|T||Lisitsyn,E.M.|Intravarietal Level of Aluminum Resistance in Cereal Crops|J. Plant Nutr.23(6): 793-804|2000|10.1080/01904160009382060
64798|T||Little,K.M., and N.S. Eccles|Control of Eucalyptus grandis Cut-Stumps of Single-Stem Origin|S. Afr. For. J.187:45-49|2000|10.1080/10295925.2000.9631255
64799|T||Liu,A., R.J. Jones, G.L. Malzer, and G.M. Rehm|Effect of Zinc Ammonia Acetate on Germination and Early Seedling Growth of Three Maize Genotypes|J. Plant Nutr.20(11): 1551-1566|1997|10.1080/01904169709365356
64800|T||Liu,D., W. Jiang, C. Liu, C. Xin, and W. Hou|Uptake and Accumulation of Lead by Roots, Hypocotyls and Shoots of Indian Mustard [Brassica juncea (L.)]|Bioresour. Technol.71(3): 273-277|2000|10.1016/S0960-8524(99)00082-6
64801|T||Liu,D., W. Jiang, L. Zhang, and L. Li|Effects of Boron Ions on Root Growth and Cell Division of Broadbean (Vicia faba L.)|Isr. J. Plant Sci.48(1): 47-51|2000|10.1560/C74E-VYKD-FKYK-TQWK
64802|T||Liu,D.H., K. Adler, and U.W. Stephan|Iron-Containing Particles Accumulate in Organelles and Vacuoles of Leaf and Root Cells in the Nicotianamine-Free Tomato Mutant Chloronerva|Protoplasma (Multiple Languages)201(3-4): 213-220|1998|10.1007/BF01287417
64804|T||Liu,T.X., and P.A. Stansly|Insecticidal Activity of Surfactants and Oils Against Silverleaf Whitefly (Bemisia argentifolii) Nymphs (Homoptera:  Aleyrodidae) on Collards and Tomato|Pest Manag. Sci.56:861-866|2000|10.1002/1526-4998(200010)56:10<861::AID-PS217>3.0.CO;2-Y
64805|T||Liu,W., R.G. Todd, and E.J. Gerberg|Effect of Three Pyrethroids on Blood Feeding and Fecundity of Aedes aegypti|Am. Mosq. Control Assoc. J.2(3): 310-313|1986|
64806|T||Lloyd,B.D., and S.M. McQueen|An Assessment of the Probability of Secondary Poisoning of Forest Insectivores Following an Aerial 1080 Possum Control Operation|N. Z. J. Ecol.24(1): 47-56|2000|
64807|T||Lock,K., and C.R. Janssen|Test Designs to Assess the Influence of Soil Characteristics on the Toxicity of Copper and Lead to the Oligochaete Enchytraeus albidus|Ecotoxicology10(3): 137-144|2001|10.1023/A:1016633725412
64808|T||Chiapusio,G., A.M. Sanchez, M.J. Reigosa, L. Gonzalez, and F. Pellissier|Does the Knowledge of the Relationships of Primary and Secondary Effects Improve Allelopathy Research?|In: F.A.Macias, J.C.G.Galindo, J.M.G.Molinillo, and H.G.Cutler (Eds.), Recent Advances in Allelopathy, Volume 1, Univ.de Cadiz, Spain:57-62|1999|
64809|T||Loera-Gallardo,J., D.A. Wolfenbarger, and J.W.,Jr. Norman|Toxicity of Azinphosmethyl, Methyl Parathion, and Oxamyl Against the Boll Weevil (Coleoptera: Curculionidae) in Texas, Mexico, and Guatemala|J. Agric. Entomol.14(4): 355-361|1997|
64810|T||Losel,P.M., G. Penners, R.P.J. Potting, D. Ebbinghaus, A. Elbert, and J. Scherkenbeck|Laboratory and Field Experiments Towards the Development of an Attract and Kill Strategy for the Control of the Codling Moth, Cydia pomonella|Entomol. Exp. Appl.95(1): 39-46|2000|10.1046/j.1570-7458.2000.00639.x
64811|T||Lukacs,D., I. Beres, and G. Kazinczi|Herbicidal Control of Terrestrial Reed (Phragmites australis (Cav.) Trin ex Steudel)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)17:583-587|2000|
64812|T||Lunden,J.D., D.F. Mayer, C.A. Johansen, C.H. Shanks, and J.D. Eves|Effects of Chlorpyrifos Insecticide on Pollinators|Am. Bee J.126(6): 441-444|1986|
64813|T||Jansen,J.P.|A Three-Year Field Study on the Short-Term Effects of Insecticides Used to Control Cereal Aphids on Plant-Dwelling Aphid Predators in Winter Wheat|Pest Manag. Sci.56(6): 533-539|2000|10.1002/(SICI)1526-4998(200006)56:6<533::AID-PS165>3.0.CO;2-S
64815|T||Iannelli,M.A., F. Van Breusegem, M. Van Montagu, D. Inze, and A. Massacci|Tolerance to Low Temperature and Paraquat-Mediated Oxidative Stress in Two Maize Genotypes|J. Exp. Bot.50(333): 523-532|1999|10.1093/jxb/50.333.523
64816|T||Lycan,D.W., and S.E. Hart|Physiological Response of Soybean (Glycine max) and Two Weed Species to Thifensulfuron and Bentazon Combinations|Weed Sci.47(2): 143-148|1999|10.1017/S0043174500091542
64817|T||Lu,H., and V.J. Higgins|The Effect of Hydrogen Peroxide on the Viability of Tomato Cells and of the Fungal Pathogen Cladosporium fulvum|Physiol. Mol. Plant Pathol.54(5-6): 131-143|1999|10.1006/pmpp.1998.0195
64818|T||Lydon,J., and L. Darlington|Herbicide Residues in Leaves of Erythroxylum coca var. coca Plants Treated with Soil-Applied Tebuthiuron and Hexazinone|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(5): 581-594|1998|
64819|T||Lym,R.G.|Leafy Spurge (Euphorbia esula) Control with Glyphosate Plus 2,4-D|J. Range Manag.53(1): 68-72|2000|10.2307/4003394
64820|T||Barrett,P.B., and J.L. Harwood|Naphthalic Anhydride Prevents Inhibition of Fatty Acid Elongation by Thiocarbamates|Phytochemistry49(7): 1897-1903|1998|10.1016/S0031-9422(98)00377-X
64821|T||Mann,J.A., R. Harrington, N. Carter, and R.T. Plumb|Control of Aphids and Barley Yellow Dwarf Virus in Spring-Sown Cereals|Crop Prot.16(1): 81-87|1997|10.1016/S0261-2194(96)00068-3
64822|T||Afentouli,C.G., and I.G. Eleftherohorinos|Competition Between Wheat and Canarygrass Biotypes and Their Response to Herbicides|Weed Sci.47(1): 55-61|1999|10.1017/S0043174500090652
64824|T||Aleksandrowicz-Trzcinska,M.|The Effect of Fungicides on Mycorrhized and Non-Mycorrhized Seedlings of Scots Pine II. The Formation of Mycorrhizae|Folia For. Pol. Ser. A Lesnictwo(42): 15-25|2000|
64826|T||Richards,S.M., T.A. Anderson, M.J. Hooper, S.T. McMurry, S.B. Wall, H. Awata, M.A. Mayes, and R.J. Kendall|European Starling Nestling Response to Chlorpyrifos Exposure in a Corn Agroecosystem|Toxicol. Environ. Chem.75:215-234|2000|10.1080/02772240009358906
64827|T||Jan,F., and H. Matsumoto|Early Effects of Aluminium on Nutrient (K, Ca, and Mg) Status of Different Root Zones of Two Rice Cultivars|Toxicol. Environ. Chem.69(1/2): 43-48|1999|10.1080/02772249909358686
64828|T||Rengel,Z., and M.S. Wheal|Kinetic Parameters of Zn Uptake by Wheat are Affected by the Herbicide Chlorsulfuron|J. Exp. Bot.48(309): 935-941|1997|10.1093/jxb/48.4.935
64829|T||Laurie,S.H., N.P. Tancock, S.P. McGrath, and J.R. Sanders|Influence of Complexation on the Uptake by Plants of Iron, Manganese, Copper and Zinc.  I.  Effect of EDTA in a Multi-metal and Computer Simulation Study|J. Exp. Bot.42(237): 509-513|1991|10.1093/jxb/42.4.509
64830|T||Sild,E., H. Pleijel, and G. Sellden|Response of Subterranean Clover (Trifolium subterraneum) to Ozone in Relation to Plant Age and Light Conditions During Exposure|New Phytol.143(2): 315-321|1999|10.1046/j.1469-8137.1999.00457.x
64831|T||Garty,J., Y. Karary, and J. Harel|Effect of Low pH, Heavy Metals and Anions on Chlorophyll Degradation in the Lichen Ramalina duriaei (De Not.) Bagl.|Environ. Exp. Bot.32(3): 229-241|1992|10.1016/0098-8472(92)90006-N
64832|T||Peterkova,R., and L. Puzanova|Effect of Trivalent and Pentavalent Arsenic on Early Developmental Stages of the Chick Embryo|Folia Morphol. (Prague)24(1): 5-13|1976|
64833|T||Vaverkova,S., M. Holla, and J. Tekel|The Effect of Herbicides on the Qualitative Properties of Healing Plants. Part 2: Content and Composition of the Essential Oil from Salvia officinalis L. After Application of Afalon 50 WP (Zum Einfluss von Herbiziden au|Pharmazie50(2): 143-144|1995|
64835|T||Chiquoine,A.D., and V. Suntzeff|Sensitivity of Mammals to Cadmium Necrosis of the Testis|J. Reprod. Fertil.10:455-457|1965|10.1530/jrf.0.0100455
64837|T||Darwent,A.L., L.P. Lefkovitch, and P.F. Mills|Effect of Soil Temperature, Seeding Depth and Cultivar on Wheat Tolerance to Simulated Ethalfluralin Carryover (Effet de la Temperature du Sol, de la Profondeur de Semis et du Cultivar sur la Tolerance du ble aux Effets|Can. J. Plant Sci.77(1): 181-188|1997|10.4141/P96-069
64838|T||Gemel,J., B. Waters-Earhart, P.S. Sanders, W.R. Lower, and M.R. Ellersieck|Effect of Pentachlorophenate, Chlorpyrifos and Lead Chloride on Chlorophyll Fluorescence|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control32(2): 543-565|1997|
64839|T||Jones,G.D.G., and J.U. Connell|Studies of the Toxicity to Worker Honey-Bees (Apis mellifera L.) of Certain Chemicals Used in Plant Protection|Ann. Appl. Biol.41(2): 271-279|1954|10.1111/j.1744-7348.1954.tb01120.x
64841|T||Segre,M., S.M. Arena, E.H. Greeley, M.J. Melancon, D.A. Graham, and J.B.,Jr. French|Immunological and Physiological Effects of Chronic Exposure of Peromyscus leucopus to Aroclor 1254 at a Concentration Similar to that Found at Contaminated Sites|Toxicology174:163-172|2002|10.1016/S0300-483X(02)00039-2
64842|T||Moody,P.W., R.L. Aitken, and T. Dickson|Field Amelioration of Acidic Soils in South-East Queensland. III. Relationships of Maize Yield Response to Lime and Unamended Soil Properties|Aust. J. Agric. Res.49(4): 649-656|1998|10.1071/A97047
64843|T||Sherman,M., E. Ross, and M.T.Y. Chang|Acute and Subacute Toxicity of Several Insecticides to Chicks|Toxicol. Appl. Pharmacol.7(4): 606-608|1965|10.1016/0041-008X(65)90047-5
64844|T||Kondo,T., K. Hasegawa, H. Kurokawa, C. Kitagawa, R. Uchida, and M. Onishi|Absorption of Atmospheric Phenol by Various Tree Species and Their Tolerance to Phenol|Toxicol. Environ. Chem.69(1-2): 183-200|1999|10.1080/02772249909358700
64845|T||Guruge,K.S., S. Tanabe, M. Fukuda, S. Yamagishi, and R. Tatsukawa|Comparative Tissue Distribution of Butyltin Compounds in Common Cormorants (Phalacrocorax carbo) from Japan|Toxicol. Environ. Chem.58(1-4): 197-208|1997|10.1080/02772249709358409
64846|T||Pizl,V.|The Effect of the Herbicide Zeazin 50 on the Earthworm Infection by Monocystid Gregarines|Pedobiologia (Multiple Languages)28(6): 399-402|1985|10.1016/S0031-4056(23)06633-7
64847|T||Hao,S., W. Xiaorong, W. Qin, W. Huating, C. Yijun, and D.L. Caomi|The Effects of Chemical Species on Bioaccumulation of Rare Earth Elements in Rice Grown in Nutrient Solution|Toxicol. Environ. Chem.69(1-2): 75-85|1999|10.1080/02772249909358689
64848|T||Osvaldo-Juarez,A., and J.A. Guzman|Acute Toxicity of Mevinphos, Parathion and Phosphamidon to Toad Bufo arenarum (H)|Comun. Biol.6(3): 259-263|1988|
64851|T||Raut,A.K., and G. Kulshrestha|Biotransformation of Butachlor by Soil Fungi|Toxicol. Environ. Chem.61(1-4): 109-116|1997|10.1080/02772249709358477
64852|T||Swart,S.H., M.J. Wingfield, W.J. Swart, and G.C. Schutte|Chemical Control of Alternaria Brown Spot on Minneola tangelo in South Africa|Ann. Appl. Biol.133(1): 17-30|1998|10.1111/j.1744-7348.1998.tb05798.x
64853|T||Kurahashi,Y., S. Sakawa, H. Sakuma, K. Tanaka, G. Haenssler, and I. Yamaguchi|Effect of Carpropamid on Secondary Infection by Rice Blast Fungus|Pestic. Sci.55(1): 31-37|1999|10.1002/(SICI)1096-9063(199901)55:1<31::AID-PS865>3.0.CO;2-J
64855|T||Biddinger,D.J., and L.A. Hull|Sublethal Effects of Selected Insecticides on Growth and Reproduction of a Laboratory Susceptible Strain of Tufted Apple Bud Moth (Lepidoptera: Tortricidae)|J. Econ. Entomol.92(2): 314-324|1999|10.1093/jee/92.2.314
64856|T||Sicbaldi,F., G.A. Sacchi, M. Trevisan, and A.A.M. Del Re|Root Uptake and Xylem Translocation of Pesticides from Different Chemical Classes|Pestic. Sci.50(2): 111-119|1997|10.1002/(SICI)1096-9063(199706)50:2<111::AID-PS573>3.0.CO;2-3
64857|T||Gimenez-Espinosa,R., K.L. Plaisance, D.W. Plank, J.W. Gronwald, and R. De Prado|Propaquizafop Absorption, Translocation, Metabolism, and Effect on Acetyl-CoA Carboxylase Isoforms in Chickpea (Cicer arietinum L.)|Pestic. Biochem. Physiol.65(2): 140-150|1999|10.1006/pest.1999.2431
64858|T||Darwent,A.L., D. Cole, and N. Malik|Imazethapyr, Alone or with Other Herbicides for Weed Control During Alfalfa (Medicago sativa) Establishment|Weed Technol.11(2): 346-353|1997|10.1017/S0890037X00043050
64859|T||Samantaray,S., G.R. Rout, and P. Das|Manganese Toxicity in Echinochloa colona: Effects of Divalent Manganese on Growth and Development|Isr. J. Plant Sci.45(1): 9-12|1997|10.1080/07929978.1997.10676663
64860|T||Blinda,A., B. Koch, S. Ramanjulu, and K.J. Dietz|De Novo Synthesis and Accumulation of Apoplastic Proteins in Leaves of Heavy Metal-Exposed Barley Seedlings|Plant Cell Environ.20(8): 969-981|1997|10.1111/j.1365-3040.1997.tb00674.x
64861|T||Shaw,B.P., and N.P. Rout|Age-Dependent Responses of Phaseolus aureus Roxb. to Inorganic Salts of Mercury and Cadmium|Acta Physiol. Plant.20(1): 85-90|1998|10.1007/s11738-998-0048-7
64862|T||Silvestri,N., A. Ciurli, L. Gorreri, C. Sorce, and R. Lorenzi|Evaluation of the Use of Lenacil for Weed Control in Spinach (Spinacia oleracea L.)|Adv. Hortic. Sci.11(3): 115-119|1997|
64863|T||Hattenschwiler,S., and C. Korner|Biomass Allocation and Canopy Development in Spruce Model Ecosystems Under Elevated CO2 and Increased N Deposition|Oceanologia (Wroc.)113(1): 104-114|1998|
64864|T||Grout,T.G., G.I. Richards, and P.R. Stephen|Further Non-Target Effects of Citrus Pesticides on Euseius addoensis and Euseius citri (Acari: Phytoseiidae)|Exp. Appl. Acarol.21(3): 171-177|1997|10.1023/A:1018486602989
64865|T||Branquinho,C., D.H. Brown, C. Maguas, and F. Catarino|Lead (Pb) Uptake and Its Effects on Membrane Integrity and Chlorophyll Fluorescence in Different Lichen Species|Environ. Exp. Bot.37(2-3): 95-105|1997|10.1016/S0098-8472(96)01038-6
64866|T||Daglish,G.J., and C. Pulvirenti|Reduced Fecundity of Rhyzopertha dominica (F.) (Coleoptera: Bostrychidae) Following Exposure of Adults to Methoprene|J. Stored Prod. Res.34(2/3): 201-206|1998|10.1016/S0022-474X(97)00040-4
64868|T||El Banhawy,E.M., S.A.A. Amer, and S.A. Saber|Induction of a Malathion-Resistant Strain in the Common Predacious Mite Amblyseius cydnodactylon (Acari: Phytoseiidae)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)73(1): 22-24|2000|10.1046/j.1439-0280.2000.00022.x
64869|T||Ivany,J.A., D. Holmstrom, and H.T. Kunelius|Effect of Herbicides on Two Species of Clover Underseeded into Barley|Can. J. Plant Sci.80(4): 973-976|2000|10.4141/P00-015
64870|T||Berntson,G.M., and F.A. Bazzaz|Nitrogen Cycling in Microcosms of Yellow Birch Exposed to Elevated CO2:  Simultaneous Positive and Negative Below-Ground Feedbacks|Global Change Biol.3(3): 247-258|1997|10.1046/j.1365-2486.1997.00070.x
64871|T||Berntson,G.M., and F.A. Bazzaz|Regenerating Temperate Forest Mesocosms in Elevated CO2: Belowground Growth and Nitrogen Cycling|Oceanologia (Wroc.)113(1): 115-125|1998|
64872|T||Abado-Becognee,K., F. Fleurat-Lessard, E.E. Creppy, and D. Melcion|Effects of Fumonisin B1 on Growth and Metabolism of Larvae of the Yellow Mealworm, Tenebrio molitor|Entomol. Exp. Appl.86(2): 135-143|1998|10.1046/j.1570-7458.1998.00274.x
64873|T||Leesch,J.G., J.S. Tebbets, D.M. Obenland, P.V. Vail, and J.C. Tebbets|Dose-Morality and Large-Scale Studies for Controlling Codling Moth (Lepidoptera: Tortricidae) Eggs on 'd'Agen' Plums by Using Methyl Bromide|J. Econ. Entomol.92(4): 988-993|1999|10.1093/jee/92.4.988
64874|T||Royuela,M., A. Gonzalez, E.M. Gonzalez, C. Arrese-Igor, P.M. Aparicio-Tejo, and C. Gonzalez-Murua|Physiological Consequences of Continuous, Sublethal Imazethapyr Supply to Pea Plants|J. Plant Physiol.157(3): 345-354|2000|10.1016/S0176-1617(00)80057-7
64877|T||Johnson,L., L.A.D. Williams, and E.V. Roberts|An Insecticidal and Acaricidal Polysulfide Metabolite from the Roots of Petiveria alliacea|Pestic. Sci.50(3): 228-232|1997|10.1002/(SICI)1096-9063(199707)50:3<228::AID-PS575>3.0.CO;2-J
64878|T||Pratley,J., N. Urwin, R. Stanton, P. Baines, J. Broster, K. Cullis, D. Schafer, J. Bohn, and R. Krueger|Resistance to Glyphosate in Lolium rigidum. I. Bioevaluation|Weed Sci.47(4): 405-411|1999|10.1017/S0043174500091992
64879|T||Milnes,M.R., R.N. Roberts, and L.J.,Jr. Guillette|Effects of Incubation Temperature and Estrogen Exposure on Aromatase Activity in the Brain and Gonads of Embryonic Alligators|Environ. Health Perspect.110(suppl.3): 393-396|2002|10.1289/ehp.02110s3393
64880|T||Palanza,P., K.L. Howdeshell, S. Parmigiani, and F.S. Vom Saal|Exposure to a Low Dose of Bisphenol A During Fetal Life or in Adulthood Alters Maternal Behavior in Mice|Environ. Health Perspect.110(suppl.3): 415-422|2002|10.1289/ehp.02110s3415
64881|T||Farabollini,F., S. Porrini, D. Della Seta, F. Bianchi, and F. Dessi-Fulgheri|Effects of Perinatal Exposure to Bisphenol A on Sociosexual Behavior of Female and Male Rats|Environ. Health Perspect.110(suppl.3): 409-413|2002|10.1289/ehp.02110s3409
64882|T||Dessi-Fulgheri,F., S. Porrini, and F. Farabollini|Effects of Perinatal Exposure to Bisphenol A on Play Behavior of Female and Male Juvenile Rats|Environ. Health Perspect.110(suppl.3): 403-407|2002|
64883|T||Facciolo,R.M., R. Alo, M. Madeo, M. Canonaco, and F. Dessi-Fulgheri|Early Cerebral Activities of the Environmental Estrogen Bisphenol A Appear to Act via the Somatostatin Receptor Subtype sst2|Environ. Health Perspect.110(suppl.3): 397-402|2002|10.1289/ehp.02110s3397
64884|T||Carpenter,D.O., R.J. Hussain, D.F. Berger, J.P. Lombardo, and H.Y. Park|Electrophysiologic and Behavioral Effects of Perinatal and Acute Exposure of Rats to Lead and Polychlorinated Biphenyls|Environ. Health Perspect.110(suppl.3): 377-386|2002|10.1289/ehp.02110s3377
64885|T||Hays,L.E., C.D. Carpenter, and S.L. Petersen|Evidence that GABAergic Neurons in the Preoptic Area of the Rat Brain are Targets of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin During Development|Environ. Health Perspect.110(suppl.3): 369-376|2002|10.1289/ehp.02110s3369
64887|T||Stirling,A.M., K.G. Pegg, A.C. Hayward, and G.R. Stirling|Effect of Copper Fungicide on Colletotrichum gloeosporioides and Other Microorganisms on Avocado Leaves and Fruit|Aust. J. Agric. Res.50(8): 1459-1468|1999|10.1071/AR98110
64888|T||Gilderhus,P.A.|Observations on the Effects of Irrigation Water Containing 3-Trifluoromethyl-4-Nitrophenol (TFM) on Plants|Invest.Fish Control No.100, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:1-3|1990|
64890|T||Kennette,D., W. Hendershot, A. Tomlin, and .S. Sauve|Uptake of Trace Metals by the Earthworm Lumbricus terrestris L. in Urban Contaminated Soils|Appl. Soil Ecol.19(2): 191-198|2002|10.1016/S0929-1393(01)00181-0
64892|T||Sharples,K.R., T.R. Hawkes, G. Mitchell, L.S. Edwards, M.P. Langford, D.W. Langton, K.M. Rogers, J.K. Townson, and Y. W|A Novel Thiazolidinone Herbicide is a Potent Inhibitor of Glucose Incorporation into Cell Wall Material|Pestic. Sci.54(4): 368-376|1998|10.1002/(SICI)1096-9063(199812)54:4<368::AID-PS845>3.0.CO;2-6
64893|T||Huang,Y., S.X. Chen, and S.H. Ho|Bioactivities of Methyl Allyl Disulfide and Diallyl Trisulfide from Essential Oil of Garlic to Two Species of Stored-Product Pests, Sitophilus zeamais (Coleoptera: Curculionidae) and Tribolium castaneum (Coleoptera: Ten|J. Econ. Entomol.93(2): 537-543|2000|10.1603/0022-0493-93.2.537
64894|T||Guillet,G., J. Harmatha, T.G. Waddell, B.J.R. Philogene, and J.T. Arnason|Synergistic Insecticidal Mode of Action between Sesquiterpene Lactones and a Phototoxin, alpha -Terthienyl|Photochem. Photobiol.71(2): 111-115|2000|10.1562/0031-8655(2000)071<0111:SIPSIM>2.0.CO;2
64895|T||Siedlecka,A., P. Gardestrom, G. Samuelsson, L.A. Kleczkowski, and Z. Krupa|A Relationship Between Carbonic Anhydrase and Rubisco in Response to Moderate Cadmium Stress During Light Activation of Photosynthesis|Z. Naturforsch. Sect. C J. Biosci.54(9/10): 759-763|1999|10.1515/znc-1999-9-1023
64896|T||White,J.C., and B.D. Kottler|Citrate-Mediated Increase in the Uptake of Weathered 2,2-bis(p-Chlorophenyl)1,1-Dichloroethylene Residues by Plants|Environ. Toxicol. Chem.21(3): 550-556|2002|
64897|T||Metcalf,R.L., T.R. Fukuto, and R.B. March|Plant Metabolism of Dithio-Systox and Thimet|J. Econ. Entomol.50(3): 338-345|1957|10.1093/jee/50.3.338
64898|T||Armstrong,J.B., and W.S. Fletcher|Assessment of Mutagenic Damage Following Ethyl Methanesulfonate Mutagenesis in the Axolotl (Ambystoma mexicanum)|J. Exp. Zool.226:333-340|1983|10.1002/jez.1402260302
64899|T||Moon,D.H., L.M.M. Ottoboni, A.P. Souza, S.T. Sibov, M. Gaspar, and P. Arruda|Somaclonal-Variation-Induced Aluminum-Sensitive Mutant from an Aluminum-Inbred Maize Tolerant Line|Plant Cell Rep.16(10): 686-691|1997|10.1007/s002990050302
64900|T||Santiago,G.P., G. Otero-Colina, D.M. Sanchez, M.E.R. Guzman, and R. Vandame|Comparing Effects of Three Acaricides on Varroa jacobsoni (Acari:  Varroidae) and Apis mellifera (Hymenoptera:  Apidae) Using Two Application Techniques|Fla. Entomol.83(4): 468-476|2000|10.2307/3496722
64901|T||Stoynova,E., P. Petrov, and S. Semerdjieva|Some Effects of Chlorsulfuron on the Ultrastructure of Root and Leaf Cells in Pea Plants|J. Plant Growth Regul.16(1): 1-5|1997|10.1007/PL00006968
64902|T||Eleftheriou,E.P., and E. Bekiari|Ultrastructural Effects of the Herbicide Chlorpropham (CIPC) in Root Tip Cells of Wheat|Plant Soil226(1): 11-19|2000|10.1023/A:1026409027223
64903|T||Metcalf,R.L., T.R. Fukuto, C. Collins, K. Borck, J. Burk, H.T. Reynolds, and M.F. Osman|Metabolism of 2-Methyl-2-(Methylthio)-Propionaldehyde O-(Methylcarbamoyl)-Oxime in Plant and Insect|J. Agric. Food Chem.14(6): 579-584|1966|10.1021/jf60148a008
64909|T||Haque,A., W. Ebing, and I. Schuphan|Ecochemical Assessment of Environmental Chemicals Part 2:  Standard Supplementary Screening Procedure to Evaluate More Volatile and Less Persistent Chemicals in Plant Cell Cultures|Chemosphere13(2): 315-320|1984|10.1016/0045-6535(84)90138-3
64911|A||Kulikov,N.V., and L.N. Ozhegov|Accumulation of Co60 by Developing Eggs of Pike, Perch, and Whitefish|Sov. J. Ecol.6(4): 375-376|1975|
64912|A||Kulkarni,B.G., and V.B. Masurekar|Acute Toxicities of Some Petroleum Hydrocarbons to Crab, Scylla serrata (Forskal)|Geobios10(2): 63-67|1983|
64918|A||Chipman,W.A.|Uptake and Accumulation of Chromium-51 by the Clam, Tapes decussatus, in Relation to Physical and Chemical Form|In: International Atomic Energy Agency. Disposal of Radioactive Wastes into Seas, Oceans and Surface Waters. Vienna, Austria:571-582|1966|
64920|A||Corner,E.D.S.|The Poisoning of Maia squinado (Herbst) by Certain Compounds of Mercury|Biochem. Pharmacol.2:121-132|1959|10.1016/0006-2952(59)90079-6
64923|A||Pentreath,R.J.|The Roles of Food and Water in the Accumulation of Radionuclides by Marine Teleost and Elasmobranch Fish|I.A.E.A. Panel Proc.Ser.:421-436|1973|
64924|A||Hoy,T., T.E. Horsberg, and I. Nafstad|The Disposition of Ivermectin in Atlantic Salmon (Salmo salar)|Pharmacol. Toxicol.67:307-312|1990|10.1111/j.1600-0773.1990.tb00835.x
64925|A||Tarzwell,C.M.|Effects of DDT Mosquito Larviciding on Wildlife. V. Effects on Fishes of the Routine Manual and Airplane Application of DDT and Other Mosquito Larvicides|Public Health Rep65(8): 231-255|1950|
64926|A||Yan,G.A., and J.Y. Yu|Comparison of the Effects of Nitrogen Concentration on Nutrient Removal, Growth and Physiological Characteristics of Immobilized and Free Chlorella vulgaris:  I.  Growth and Nutrient Removal|Toxicol. Environ. Chem.58(1-4): 63-74|1997|10.1080/02772249709358398
64929|A||Brown,V.M., F.S.H. Abram, and L.J. Collins|The Acute Lethal Toxicity to Rainbow Trout of an LAS Surfactant and of Its Residues and Degradation Products|Tenside Surfactants Deterg.15(2): 57-59|1978|10.1515/tsd-1978-150201
64930|A||Kott,Y., G. Hershkovitz, A. Shemtob, and J.B. Sless|Algicidal Effect of Bromine and Chlorine on Chlorella pyrenoidosa|Appl. Microbiol.14(1): 8-11|1966|10.1128/am.14.1.8-11.1966
64931|A||Davies,A.G.|The Kinetics of and a Preliminary Model for the Uptake of Radio-Zinc by Phaeodactylum tricornutum in Culture|I.A.E.A. Panel Proc.Ser.:403-420|1973|
64932|A||Kulkarni,B.G., and V.B. Masurekar|Behavioural Responses of the Crab Scylla serrata (Forskal) Exposed to Naphthalene|J. Curr. Biosci.1(3): 131-133|1984|
64933|A||Kwan,K.H.M., and S. Smith|Accumulated Forms of Thallium and Cadmium in Lemna minor. I. Distribution in Aqueous Soluble and Insoluble Fractions|Chem. Spec. Bioavail.2:77-84|1990|10.1080/09542299.1990.11083127
64934|A||Kwan,K.H.M., and S. Smith|Accumulated Forms of Thallium and Cadmium in Lemna minor. II. Relationship Between Duration of Exposure and Metal-Protein Binding|Chem. Spec. Bioavail.3:97-103|1990|10.1080/09542299.1990.11771990
64935|A||Deshmukh,N.V., V.D. Deshmukh, and V.B. Masurekar|Naphthalene Toxicity to the Speckled Prawn, Metapenaeus monoceros (FAB):  Seasonal Variation|Geobios12(6): 263-265|1985|
64936|T||Sun,E.J., and F.Y. Wu|Along-Vein Necrosis as Indicator Symptom on Water Spinach Caused by Nickel in Water Culture|Bot. Bull. Acad. Sin. (Taipei)39(4): 255-259|1998|
64937|A||Napierska,D., M.T. Thebault, J. Pempkowiak, and E. Skorkowski|Comparison of Short-Term Cadmium Poisoning in the Shrimp Crangon crangon from the Baltic Sea and the Shrimp Palaemon serratus from the Atlantic Ocean with Cadmium Bioaccumulation and Malic Enzyme Activity in Abdomen Mus|Oceanologia (Wroc.)39(2): 137-146|1997|
64938|AT||Wan,M.T.K., and D.M. Wilson|"Impacts of ""Altosid"" Juvenile Hormone on Non-Target Organisms in an Aquatic Environment of Interior British Columbia"|Rep.No.EPS 5-PR-75-9, Pollution Abatement Branch, Environ.Prot.Serv., Vancouver, B.C.:46 p.|1975|
64939|A||Peres,F., M. Coste, F. Ribeyre, M. Ricard, and A. Boudou|Effects of Methylmercury and Inorganic Mercury on Periphytic Diatom Communities in Freshwater Indoor Microcosms|J. Appl. Phycol.9(3): 215-227|1997|10.1023/A:1007960506716
64941|A||Edwards,R.W., and V.M. Brown|Pollution and Fisheries:  A Progress Report|Water Pollut. Control66:63-78|1967|
64942|A||Newell,R.C., and B. Brown|Effects of Chemical Wastes on Marine Organisms (Einflusse Chemischer Abfalle auf Meeresorganismen)|Mar. Technol.2(5): 217-223|1971|
64948|A||Hu,S., and M. Wu|Cadmium Sequestration in the Marine Macroalga Kappaphycus alvarezii|Mol. Mar. Biol. Biotechnol.7(2): 97-104|1998|
64949|A||Jorgensen,E.H., H. Foshaug, P. Andersson, I.C. Burkow, and M. Jobling|Polychlorinated Biphenyl Toxicokinetics and P4501A Responses in Anadromous Arctic Charr During Winter Emaciation|Environ. Toxicol. Chem.21(8): 1745-1752|2002|10.1002/etc.5620210829
64950|A||Kolok,A.S., M.M. Hartman, and J. Sershan|The Physiology of Copper Tolerance in Fathead Minnows:  Insight from an Intraspecific, Correlative Analysis|Environ. Toxicol. Chem.21(8): 1730-1735|2002|10.1002/etc.5620210827
64951|A||Tuckey,D.M., D.M. Orcutt, and P.L. Hipkins|Inherent and Growth Stage-Related Differences in Growth and Lipid and Sterol Composition of Algal Species Sensitive and Tolerant to Sterol-Inhibiting Fungicides|Environ. Toxicol. Chem.21(8): 1715-1723|2002|
64952|A||Croke,S.J., and D.G. McDonald|The Further Development of Ionoregulatory Measures as Biomarkers of Sensitivity and Effect in Fish Species|Environ. Toxicol. Chem.21(8): 1683-1691|2002|10.1002/etc.5620210821
64953|A||Jumel,A., M.A. Coutellec, J.P. Cravedi, and L. Lagadic|Nonylphenol Polyethoxylate Adjuvant Mitigates the Reproductive Toxicity of Fomesafen on the Freshwater Snail Lymnaea stagnalis in Outdoor Experimental Ponds|Environ. Toxicol. Chem.21(9): 1876-1888|2002|10.1002/etc.5620210915
64954|A||Nacci,D.E., D. Champlin, L. Coiro, R. McKinney, and S. Jayaraman|Predicting the Occurrence of Genetic Adaptation to Dioxinlike Compounds in Populations of the Estuarine Fish Fundulus heteroclitus|Environ. Toxicol. Chem.21(7): 1525-1532|2002|10.1002/etc.5620210726
64955|AT||Anderson,T.D., and M.J. Lydy|Increased Toxicity to Invertebrates Associated with a Mixture of Atrazine and Organophosphate Insecticides|Environ. Toxicol. Chem.21(7): 1507-1514|2002|10.1002/etc.5620210724
64956|A||Sanderson,H., T.M. Boudreau, S.A. Mabury, W.J. Cheong, and K.R. Solomon|Ecological Impact and Environmental Fate of Perfluorooctane Sulfonate on the Zooplankton Community in Indoor Microcosms|Environ. Toxicol. Chem.21(7): 1490-1496|2002|10.1002/etc.5620210722
64957|A||Weltje,L., A.H. Brouwer, T.G. Verburg, H.T. Wolterbeek, and J.J.M. De Goeij|Accumulation and Elimination of Lanthanum by Duckweed (Lemna minor L.) as Influenced by Organism Growth and Lanthanum Sorption to Glass|Environ. Toxicol. Chem.21(7): 1483-1489|2002|10.1002/etc.5620210721
64958|A||Phillips,T.A., J. Wu, R.C. Summerfelt, and G.J. Atchison|Acute Toxicity and Cholinesterase Inhibition in Larval and Early Juvenile Walleye Exposed to Chlorpyrifos|Environ. Toxicol. Chem.21(7): 1469-1474|2002|10.1002/etc.5620210719
64959|A||Shim,W.J., J.K. Jeon, J.R. Oh, N.S. Kim, and S.H. Lee|Accumulation of Tributyltin in the Blood of Fish:  Its Application for Monitoring in the Marine Environment|Environ. Toxicol. Chem.21(7): 1451-1455|2002|10.1002/etc.5620210716
64960|A||Salice,C.J., and G. Roesijadi|Resistance to Cadmium and Parasite Infection are Inversely Related in Two Strains of a Freshwater Gastropod|Environ. Toxicol. Chem.21(7): 1398-1403|2002|10.1002/etc.5620210710
64961|A||Orvos,D.R., D.J. Versteeg, J. Inauen, M. Capdevielle, A. Rothenstein, and V. Cunningham|Aquatic Toxicity of Triclosan|Environ. Toxicol. Chem.21(7): 1338-1349|2002|10.1002/etc.5620210703
64963|A||Santana-Casiano,J.M., M. Gonzalez-Davila, L.M. Laglera, and J. Perez-Pena|Binding of Lead to P. tricornutum and T. weissflogii Cultures in Seawater|Toxicol. Environ. Chem.73(3-4): 191-206|1999|10.1080/02772249909358859
64964|A||Olmstead,A.W., and G.L. LeBlanc|Low Exposure Concentration Effects of Methoprene on Endocrine-Regulated Processes in the Crustacean Daphnia magna|Toxicol. Sci.62(2): 268-273|2001|10.1093/toxsci/62.2.268
64965|A||Smagghe,G., T.S. Dhadialla, and M. Lezzi|Comparative Toxicity and Ecdysone Receptor Affinity of Non-Steroidal Ecdysone Agonists and 20-Hydroxyecdysone in Chironomus tentans|Insect Biochem. Mol. Biol.32(2): 187-192|2002|10.1016/S0965-1748(01)00109-6
64966|A||Prasada Rao,D.G.V., and M.A.Q. Khan|Zebra  Mussels:  Enhancement of Copper Toxicity by High Temperature and Its Relationship with Respiration and Metabolism|Water Environ. Res.72(2): 175-178|2000|10.2175/106143000X137257
64968|T||Kaantee,E., and P. Kurkela|Comparative Effects of Barley Feed and Sodium Selenite on Selenium Levels in Hen Eggs and Tissues|J. Sci. Agric. Soc. Finland52:357-367|1980|
64981|T||Kaantee,E., P. Kurkela, and K. Jaakkola|Effects of Dietary Organic Selenium Content on Fowls, Chicks and Eggs|J. Sci. Agric. Soc. Finland54(2): 113-118|1982|
64984|T||Lundholm,C.E.|Relation Between Ca Metabolism and ATPase Activities in the Subcellular Fractions from Duck Eggshell Gland Mucosa After DDE Administration During Different Stages of Eggshell Formation|Comp. Biochem. Physiol. C Comp. Pharmacol.82(1): 1-16|1985|10.1016/0742-8413(85)90202-6
64985|T||Jonsson,H.T.,Jr., E.M.,Jr. Walker, W.B. Greene, M.D. Hughson, and G.R. Hennigar|Effects of Prolonged Exposure to Dietary DDT and PCB on Rat Liver Morphology|Arch. Environ. Contam. Toxicol.10(2): 171-183|1981|10.1007/BF01055619
64987|T||Panter,K.E., W.J. Hartley, L.F. James, H.F. Mayland, B.L. Stegelmeier, and P.O. Kechele|Comparative Toxicity of Selenium from Seleno-DL-Methionine, Sodium Selenate, and Astragalus bisulcatus in Pigs|Fundam. Appl. Toxicol.32(2): 217-223|1996|10.1006/faat.1996.0124
64988|T||Stoewsand,G.S., J.L. Anderson, L.H. Weinstein, J.F. Osmeloski, W.H. Gutenmann, and D.J. Lisk|Selenium in Tissues of Rats Fed Rutabagas Grown on Soil Covering a Coal Fly Ash Landfill|Bull. Environ. Contam. Toxicol.44(5): 681-685|1990|10.1007/BF01701788
64989|T||Hoffman,D.G., H.M. Worth, J.L. Emmerson, and R.C. Anderson|Stimulation of Hepatic Drug-Metabolizing Enzymes by Chlorophenothane (DDT); the Relationship to Liver Enlargement and Hepatotoxicity in the Rat|Toxicol. Appl. Pharmacol.16(1): 171-178|1970|10.1016/0041-008X(70)90173-0
64991|T||Ledoux,T.A., J.R. Lodge, R.W. Touchberry, and B. Magnus Francis|The Effects of Low Dietary Levels of DDT on Breeding Performance in Hybrid Mice|Arch. Environ. Contam. Toxicol.6(4): 435-446|1977|10.1007/BF02097783
64992|T||Loeffler,I.K., and R.E. Peterson|Interactive Effects of TCDD and p,p'-DDE on Male Reproductive Tract Development in In Utero and Lactationally Exposed Rats|Toxicol. Appl. Pharmacol.154(1): 28-39|1999|10.1006/taap.1998.8572
64993|T||Lundholm,C.E.|The Distribution of Calmodulin in the Mucosa of the Avian Oviduct and the Effect of p-p'-DDE on Some of Its Metabolic Parameters|Comp. Biochem. Physiol. C Comp. Pharmacol.96(2): 321-326|1990|10.1016/0742-8413(90)90015-2
64994|T||Ottoboni,A.|Effect of DDT on Reproduction in the Rat|Toxicol. Appl. Pharmacol.14(1): 74-81|1969|10.1016/0041-008X(69)90166-5
64996|T||Palanza,P., S. Parmigiani, H. Liu, and F.S. Vom Saal|Prenatal Exposure to Low Doses of the Estrogenic Chemicals Diethylstilbestrol and o,p'-DDT Alters Aggressive Behavior of Male and Female House Mice|Pharmacol. Biochem. Behav.64(4): 665-672|1999|10.1016/S0091-3057(99)00151-3
64997|T||Story,D.L., and R.A. Freedland|The Effect of o,p'-DDT Feeding and Food Deprivation on Plasma and Liver Amino Acids and Liver Serine Dehydratase in Rats|Toxicol. Appl. Pharmacol.50(2): 329-335|1979|10.1016/0041-008X(79)90159-5
64998|T||You,L., S.K. Chan, J.M. Bruce, S. Archibeque-Engle, M. Casanova, J.C. Corton, and H.D. Heck|Modulation of Testosterone-Metabolizing Hepatic Cytochrome P-450 Enzymes in Developing Sprague-Dawley Rats Following In Utero Exposure to p,p'-DDE|Toxicol. Appl. Pharmacol.158(2): 197-205|1999|10.1006/taap.1999.8694
64999|T||Redig,P.T., E.M. Lawler, S. Schwartz, J.L. Dunnette, B. Stephenson, and G.E. Duke|Effects of Chronic Exposure to Sublethal Concentrations of Lead Acetate on Heme Synthesis and Immune Function in Red-Tailed Hawks|Arch. Environ. Contam. Toxicol.21(1): 72-77|1991|10.1007/BF01055559
65000|T||Calvery,H.O., E.P. Laug, and H.J. Morris|The Chronic Effects on Dogs of Feeding Diets Containing Lead Acetate, Lead Arsenate, and Arsenic Trioxide in Varying Concentrations|J. Pharmacol. Exp. Ther.64:364-387|1938|
65001|T||Lessler,M.A., and G.L. Wright|Effects of Lead on the Growth of the Laboratory Rat|Prog. Biometeorol. Div. B. Prog. Anim. Biometeorol.1(2): 227-233|1976|
65002|T||Sharma,R.P., J.C. Street, J.L. Shupe, and D.R. Bourcier|Accumulation and Depletion of Cadmium and Lead in Tissues and Milk of Lactating Cows fed Small Amounts of These Metals|J. Dairy Sci.65:972-979|1982|10.3168/jds.S0022-0302(82)82298-4
65003|T||National Institute of Environmental Health Sciences|Lead Acetate Trihydrate:  Reproduction and Fertility Assessment in CD-1 Mice when Administered in Drinking Water|Final Rep., Environ.Health Res.and Test.Inc., Lexington, KY:283 p.|1985|
65138|A||Madsen,S.S.|Effect of Repetitive Cortisol and Thyroxine Injections on Chloride Cell Number and Na+/K+ -ATPase Activity in Gills of Freshwater Acclimated Rainbow Trout, Salmo gairdneri|Comp. Biochem. Physiol. A Comp. Physiol.95(1): 171-175|1990|10.1016/0300-9629(90)90027-P
65140|A||Miranda,C.L., M.C. Henderson, J.L. Wang, H.S. Chang, J.D. Hendricks, and D.R. Buhler|Differential Effects of 3,4,5,3',4',5'-Hexachlorobiphenyl (HCB) on Interrenal Steroidogenesis in Male and Female Rainbow Trout Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 153-157|1992|10.1016/0742-8413(92)90245-3
65142|A||Andersen,D.E., S.D. Reid, T.W. Moon, and S.F. Perry|Metabolic Effects Associated with Chronically Elevated Cortisol in Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.48(9): 1811-1817|1991|10.1139/f91-214
65143|A||Sokolowska-Mikolajczyk,M., M. Socha, T. Mikolajczyk, J. Chyb, and P. Epler|Seasonal Short-Term Effects of Naltrexone on LH Secretion in Male Carp (Cyprinus carpio L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 379-385|2002|10.1016/S1532-0456(02)00027-3
65144|A||Weber,L.P., S.L. Diamond, S.M. Bandiera, and D.M. Janz|Expression of HSP70 and CYP1A Protein in Ovary and Liver of Juvenile Rainbow Trout Exposed to beta-Naphthoflavone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 387-394|2002|10.1016/S1532-0456(02)00025-X
65145|A||Rurangwa,E., A. Biegniewska, E. Slominska, E.F. Skorkowski, and F. Ollevier|Effect of Tributyltin on Adenylate Content and Enzyme Activities of Teleost Sperm:  A Biochemical Approach to Study the Mechanisms of Toxicant Reduced Spermatozoa Motility|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 335-344|2002|10.1016/S1532-0456(02)00019-4
65146|A||Kang,I.J., H. Yokota, Y. Oshima, Y. Tsuruda, T. Yamaguchi, M. Maeda, N. Imada, H. Tadokoro, and T. Honjo|Effect of 17beta-Estradiol on the Reproduction of Japanese Medaka (Oryzias latipes)|Chemosphere47(1): 71-80|2002|10.1016/S0045-6535(01)00205-3
65148|A||Hirose,K.|Reproduction in Medaka, Oryzias latipes, Exposed to Sublethal Concentrations of gamma-Benzenehexachloride (BHC)|Bull. Tokai Reg. Fish. Res. Lab. (Multiple Languages)81:139-149|1975|
65150|A||Chavin,W., and B.N. Bouwman|Metabolism of Iodine and Thyroid Hormone Synthesis in the Goldfish, Carassius auratus L.|Gen. Comp. Endocrinol.5:493-503|1965|10.1016/0016-6480(65)90038-9
65151|A||Villeneuve,D.L., S.A. Villalobos, T.L. Keith, E.M. Snyder, S.D. Fitzgerald, and J.P. Giesy|Effects of Waterborne Exposure to 4-Nonylphenol on Plasma Sex Steroid and Vitellogenin Concentrations in Sexually Mature Male Carp (Cyprinus carpio)|Chemosphere47(1): 15-28|2002|10.1016/S0045-6535(01)00212-0
65152|A||Van den Belt,K., P.W. Wester, L.T.M. van der Ven, R. Verheyen, and H. Witters|Effects of Ethynylestradiol on the Reproductive Physiology in Zebrafish (Danio rerio): Time Dependency and Reversibility|Environ. Toxicol. Chem.21(4): 767-775|2002|10.1002/etc.5620210412
65153|A||Tanaka,J.N., and J.M. Grizzle|Effects of Nonylphenol on the Gonadal Differentiation of the Hermaphroditic Fish, Rivulus marmoratus|Aquat. Toxicol.57(3): 117-125|2002|10.1016/S0166-445X(01)00186-2
65154|A||Bayley,M., M. Junge, and E. Baatrup|Exposure of Juvenile Guppies to Three Antiandrogens Causes Demasculinization and a Reduced Sperm Count in Adult Males|Aquat. Toxicol.56(4): 227-239|2002|10.1016/S0166-445X(01)00210-7
65155|A||Pandey,A.K., and L. Shukla|Effect of Benzene Hexachloride - An Insecticide on the Testicular Histology in Tilapia mossambica|Geobios7(6): 251-253|1980|
65156|A||Laurent,P., and S.F. Perry|Effects of Cortisol on Gill Chloride Cell Morphology and Ionic Uptake in the Freshwater Trout, Salmo gairdneri|Cell Tissue Res.259:429-442|1990|10.1007/BF01740769
65157|A||Singh,H.|Interaction of Xenobiotics with Reproductive Endocrine Functions in a Protogynous Teleost, Monopterus albus|Mar. Environ. Res.28:285-289|1989|10.1016/0141-1136(89)90245-6
65159|A||Burzawa-Gerard,E., and A. Dumas-Vidal|Effects of 17beta-Estradiol and Carp Gonadotropin on Vitellogenesis in Normal and Hypophysectomized European Silver Female Eel (Anguilla anguilla L.) Employing a Homologous Radioimmunoassay for Vitellogenin|Gen. Comp. Endocrinol.84:264-276|1991|10.1016/0016-6480(91)90049-C
65160|A||Andersen,H.R., A.M. Andersson, S.F. Arnold, H. Autrup, M. Barfoed, N.A. Beresford, P. Bjerregaard, L.B. Christiansen, B|Comparison of Short-Term Estrogenicity Tests for Identification of Hormone-Disrupting Chemicals|Environ. Health Perspect.107(suppl.1): 89-108|1999|10.1289/ehp.99107s189
65161|A||Billard,R., and P. De Kinkelin|Sterilisation des Testicules de Guppies par des Doses non Letales de Parathion (Sterilization of the Testicles of Guppies by Means of Non-Lethal Doses of Parathion)|Ann. Hydrobiol.1:91-99|1970|
65179|T||Powell,H.C., R.R. Myers, and P.W. Lampert|Changes in Schwann Cells and Vessels in Lead Neuropathy|Am. J. Pathol.109(2): 193-205|1982|
65180|T||Davison,K.L.|Growth, Hemoglobin, Body Composition and Vitamin A of Sheep Fed Dieldrin|J. Anim. Sci.31(3): 567-575|1970|10.2527/jas1970.313567x
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65341|T||Gregory III,J.F., and G.T. Edds|Effect of Dietary Selenium on the Metabolism of Aflatoxin B1 in Turkeys|Food Chem. Toxicol.22(8): 637-642|1984|10.1016/0278-6915(84)90272-2
65342|T||Gronbaek,H., J. Frystyk, H. Orskov, and A. Flyvbjerg|Effect of Sodium Selenite on Growth, Insulin-Like Growth Factor-Binding Proteins and Insulin-Like Growth Factor-I in Rats|J. Endocrinol.145(1): 105-112|1995|10.1677/joe.0.1450105
65345|T||Hu,M.L., C. Chung, and J.E. Spallholz|Hematologic Data of Selenium-Deficient and Selenium-Supplemented Rats|J. Inorg. Biochem.22(3): 165-173|1984|10.1016/0162-0134(84)80025-2
65346|T||Ip,C.|Comparative Effects of Antioxidants on Enzymes Involved in Glutathione Metabolism|Life Sci.34(25): 2501-2506|1984|10.1016/0024-3205(84)90287-X
65347|T||Jaffe,W.G., and C. Mondragon|Effects of Ingestion of Organic Selenium in Adapted and Non-Adapted Rats|Br. J. Nutr.33(3): 387-397|1975|10.1079/BJN19750043
65348|T||Jamall,I.S., D. Haldar, and A.G. Wadewitz|Effects of Dietary Selenium on Lipid Peroxidation, Mitochondrial Function and Protein Profiles in the Heart of the Myopathic Syrian Golden Hamster (Bio 14.6)|Biochem. Biophys. Res. Commun.144(2): 815-820|1987|10.1016/S0006-291X(87)80037-2
65349|T||Jensen,L.S.|Effect of Monensin on Response of Chicks to Deficient and Toxic Levels of Dietary Selenium|Poult. Sci.65(6): 1163-1166|1986|10.3382/ps.0651163
65350|T||Kaur,R., and V.R. Parshad|Effects of Dietary Selenium on Differentiation, Morphology and Functions of Spermatozoa of the House Rat, Rattus rattus L.|Mutat. Res.309(1): 29-35|1994|10.1016/0027-5107(94)90039-6
65351|T||Jensen,L.S., D.B. Werho, and D.E. Leyden|Selenosis, Hepatic Selenium Accumulation, and Plasma Glutathione Peroxidase Activity in Chicks as Affected by a Factor in Linseed Meal|J. Nutr.107(3): 391-396|1977|10.1093/jn/107.3.391
65352|T||Kezhou,W., H.D. Stowe, A.M. House, K. Chou, and T. Thiel|Comparison of Cupric and Sulfate Ion Effects on Chronic Selenosis in Rats|J. Anim. Sci.64(5): 1467-1475|1987|10.2527/jas1987.6451467x
65353|T||Kiremidjian-Schumacher,L., M. Roy, H.I. Wishe, M.W. Cohen, and G. Stotzky|Regulation of Cellular Immune Responses by Selenium|Biol. Trace Elem. Res.33:23-35|1992|10.1007/BF02783989
65354|T||Kise,Y., M. Yamamura, M. Kogata, M. Nakagawa, S. Uetsuji, H. Takada, K. Hioki, and M. Yamamoto|Inhibition by Selenium of Intrahepatic Cholangiocarcinoma Induction in Syrian Golden Hamsters by N'-Nitrosobis(2-Oxopropyl)Amine|Nutr.Cancer16(2): 153-164|1991|10.1080/01635589109514152
65355|T||Lane,H.W., C.K. Tracey, and D. Medina|Growth, Reproduction Rates and Mammary Gland Selenium Concentration and Glutathione-Peroxidase Activity of BALB/c Female Mice fed Two Dietary Levels of Selenium|J. Nutr.114(2): 323-331|1984|10.1093/jn/114.2.323
65356|T||LeBoeuf,R.A., and W.G. Hoekstra|Adaptive Changes in Hepatic Glutathione Metabolism in Response to Excess Selenium in Rats|J. Nutr.113(4): 845-854|1983|10.1093/jn/113.4.845
65357|T||LeBoeuf,R.A., K.L. Zentner, and W.G. Hoekstra|Effect of Dietary Selenium Concentration and Duration of Selenium Feeding on Hepatic Glutathione Concentrations in Rats (42187)|Proc. Soc. Exp. Biol. Med.180(2): 348-352|1985|10.3181/00379727-180-42187
65358|T||Liu,J.Z., B.Z. Zhang, and J.A. Milner|Dietary Selenite Modifies Glutathione Metabolism and 7,12-Dimethylbenz(a)anthracene Conjugation in Rats|J. Nutr.124(2): 172-180|1994|10.1093/jn/124.2.172
65360|T||Mahan,D.C., and A.L. Moxon|Effect of Inorganic Selenium Supplementation on Selenosis in Postweaning Swine|J. Anim. Sci.58(5): 1216-1221|1984|10.2527/jas1984.5851216x
65361|T||Mandisodza,K.T., W.G. Pond, D.J. Lisk, D.E. Hogue, L. Krook, E.E. Cary, and W.H. Gutenmann|Tissue Retention of Se in Growing Pigs fed Fly Ash or White Sweet Clover Grown on Fly Ash|J. Anim. Sci.49(2): 535-542|1979|10.2527/jas1979.492535x
65363|T||Nebbia,C., C. Brando, E. Burdino, R. Rasero, F. Valenza, R. Arisio, and G. Ugazio|Effects of the Chronic Administration of Sodium Selenite on Rat Testes|Res. Commun. Chem. Pathol. Pharmacol.58(2): 183-197|1987|
65364|T||Ort,J.F., and J.D. Latshaw|The Toxic Level of Sodium Selenite in the Diet of Laying Chickens|J. Nutr.108(7): 1114-1120|1978|10.1093/jn/108.7.1114
65365|T||Palmer,I.S., A. Herr, and T. Nelson|Toxicity of Selenium in Brazil Nuts to Rats|J. Food Sci.47(5): 1595-1597|1982|10.1111/j.1365-2621.1982.tb04990.x
65366|T||Palmer,I.S., and O.E. Olson|Relative Toxicities of Selenite and Selenate in the Drinking Water of Rats|J. Nutr.104(3): 306-314|1974|10.1093/jn/104.3.306
65367|T||Parshad,R.K., and M. Sud|Effect of Selenium-Rich Wheat on Rat Spermatogenesis (Wirkung von Selen-Haltigem Weizen auf die Spermatogenese der Ratte)|Andrologia (Berl.)21(5): 486-489|1989|10.1111/j.1439-0272.1989.tb02457.x
65368|T||Rastogi,S.C., J. Clausen, and K.C. Srivastava|Selenium and Lead:  Mutual Detoxifying Effects|Toxicology6(3): 377-388|1976|10.1016/0300-483X(76)90041-X
65369|T||Reiter,R., and A. Wendel|Selenium and Drug Metabolism - III.  Relation of Glutathione-Peroxidase and Other Hepatic Enzyme Modulations to Dietary Supplements|Biochem. Pharmacol.34(13): 2287-2290|1985|10.1016/0006-2952(85)90783-X
65370|T||Ringdal,O., K.J. Andersen, and K. Julshamn|Subcellular Distribution of Selenium in the Liver from Rats Fed Selenium from Fish:  Selenocystine and Inorganic Selenite|Ann. Nutr. Metab.30(4): 241-249|1986|10.1159/000177200
65372|T||Salbe,A.D., and O.A. Levander|Comparative Toxicity and Tissue Retention of Selenium in Methionine-Deficient Rats fed Sodium Selenate or L-Selenomethionine|J. Nutr.120(2): 207-212|1990|10.1093/jn/120.2.207
65373|T||Salbe,A.D., and O.A. Levander|Effect of Various Dietary Factors on the Deposition of Selenium in the Hair and Nails of Rats|J. Nutr.120(2): 200-206|1990|10.1093/jn/120.2.200
65375|T||Scott,D.L., J. Kelleher, and M.S. Losowsky|The Influence of Dietary Selenium and Vitamin E on Glutathione Peroxidase and Glutathione in the Rat|Biochim. Biophys. Acta497(1): 218-224|1977|10.1016/0304-4165(77)90154-4
65376|T||Spallholz,J.E., J.L. Martin, M.L. Gerlach, and R.H. Heinzerling|Immunologic Responses of Mice Fed Diets Supplemented with Selenite Selenium (37391)|Proc. Soc. Exp. Biol. Med.143(3): 685-689|1973|10.3181/00379727-143-37391
65377|T||Thorlacius-Ussing,O.|Selenium-Induced Growth Retardation.  Histochemical and Endocrinological Studies on the Anterior Pituitaries of Selenium Treated Rats|Dan. Med. Bull.37(4): 347-358|1990|
65378|T||Thorlacius-Ussing,O., A. Flyvbjerg, and J. Esmann|Evidence that Selenium Induces Growth Retardation Through Reduced Growth Hormone and Somatomedin C Production|Endocrinology120(2): 659-663|1987|10.1210/endo-120-2-659
65379|T||Thorlacius-Ussing,O., A. Flyvbjerg, K.D. Jorgensen, and H. Orskov|Growth Hormone Restores Normal Growth in Selenium-Treated Rats Without Increase in Circulating Somatomedin C|Acta Endocrinol.117(1): 65-72|1988|
65380|T||Thorlacius-Ussing,O., A. Flyvbjerg, and H. Orskov|Growth in Young Rats After Termination of Sodium Selenite Exposure: Studies of Growth Hormone and Somatomedin C|Toxicology48(2): 167-176|1988|10.1016/0300-483X(88)90098-4
65381|T||Thorlacius-Ussing,O., and B.L. Rasmussen|Light and Electron Microscopical Visualization of Selenium in Adrenal Glands from Rats Exposed to Sodium Selenite|Exp. Mol. Pathol.45(1): 59-67|1986|10.1016/0014-4800(86)90006-7
65382|T||Turan,B., C. Balcik, and N. Akkas|Effect of Dietary Selenium and Vitamin E on the Biomechanical Properties of Rabbit Bones|Clin. Rheumatol.16(5): 441-449|1997|10.1007/BF02238935
65383|T||Vadhanavikit,S., and H.E. Ganther|Nutritional Availability and Chronic Toxicity of Selenocyanate in the Rat|J. Nutr.118(6): 718-722|1988|10.1093/jn/118.6.718
65384|T||Wahlstrom,R.C., T.B. Goehring, D.D. Johnson, G.W. Libal, O.E. Olson, I.S. Palmer, and R.C. Thaler|The Relationship of Hair Color to Selenium Content of Hair and Selenosis in Swine|Nutr. Rep. Int.29(1): 143-147|1984|
65386|T||Yeh,J.Y., M.A. Beilstein, J.S. Andrews, and P.D. Whanger|Tissue Distribution and Influence of Selenium Status on Levels of Selenoprotein W|FASEB J.9(5): 392-396|1995|10.1096/fasebj.9.5.7896009
65387|T||Yeh,J.Y., S.C. Vendeland, Q.P. Gu, J.A. Butler, B.R. Ou, and P.D. Whanger|Dietary Selenium Increases Selenoprotein W Levels in Rat Tissues|J. Nutr.127(11): 2165-2172|1997|10.1093/jn/127.11.2165
65388|T||Zhang,Z.H., M. Kimura, and Y. Itokawa|Inhibitory Effect of Selenium and Change of Glutathione Peroxidase Activity on Rat Glioma|Biol. Trace Elem. Res.55(1/2): 31-38|1996|10.1007/BF02784166
65389|T||Poley,W.E., A.L. Moxon, and K.W. Franke|Further Studies of the Effects of Selenium Poisoning on Hatchability|Poult. Sci.16(4): 219-225|1937|10.3382/ps.0160219
65390|T||Poley,W.E., and A.L. Moxon|Tolerance Levels of Seleniferous Grains in Laying Rations|Poult. Sci.17:72-76|1938|10.3382/ps.0170072
65391|T||Poley,W.E., W.O. Wilson, A.L. Moxon, and J.B. Taylor|The Effect of Selenized Grains on the Rate of Growth in Chicks|Poult. Sci.20:171-179|1941|10.3382/ps.0200171
65393|T||Sell,J.L., and F.G. Horani|Influence of Selenium on Toxicity and Metabolism of Methylmercury in Chicks and Quail|Nutr. Rep. Int.14(4): 439-447|1976|
65394|A||Trapido,M., Y. Veressinina, and R. Munter|A Study of the Toxicity of the Ozonation Products of Phenols and Chlorophenols by Daphnia magna Test|Proc. Estonian Acad. Sci.46(3): 130-139|1997|10.3176/chem.1997.3.06
65395|T||Levine,B.S., E.M. Furedi, D.E. Gordon, J.J. Barkley, and P.M. Lish|Toxic Interactions of the Munitions Compounds TNT and RDX in F344 Rats|Fundam. Appl. Toxicol.15:373-380|1990|10.1016/0272-0590(90)90062-O
65396|A||Sappington,L.C., F.L. Mayer, F.J. Dwyer, D.R. Buckler, J.R. Jones, and M.R. Ellersieck|Contaminant Sensitivity of Threatened and Endangered Fishes Compared to Standard Surrogate Species|Environ. Toxicol. Chem.20(12): 2869-2876|2001|10.1002/etc.5620201229
65397|T||Bednarz,C.W., and G.J. Gascho|Effects of 'Carpramid' on Nutrient Uptake and Lint Yield of Cotton|J. Plant Nutr.21(11): 2417-2427|1998|10.1080/01904169809365574
65398|T||Barrett,J., and P.J. Livesey|The Acetic Acid Component of Lead Acetate:  Its Effect on Rat Weight and Activity|Neurobehav. Toxicol. Teratol.4(1): 105-108|1982|
65399|T||Fitzhugh,O.G., A.A. Nelson, and M.L. Quaife|Chronic Oral Toxicity of Aldrin and Dieldrin in Rats and Dogs|Food Cosmet. Toxicol.2:551-562|1964|10.1016/S0015-6264(64)80354-0
65400|A||Kumari,M., and N.H.G. Dutt|Cadmium-Induced Histomorphological Changes in the Testis and Pituitary Gonadotrophic Hormone Secreting Cells of the Cyprinid Puntius sarana|Boll. Zool.58:71-76|1991|10.1080/11250009109355730
65401|A||Aditya,A.K., S. Chattopadhyay, and S. Mitra|Effect of Mercury and Methyl Parathion on the Ovaries of Labeo rohita (Ham)|J. Environ. Biol.23(1): 61-64|2002|
65402|A||Sindhe,V.R., M.U. Veeresh, and R.S. Kulkarni|Ovarian Changes in Response to Heavy Metal Exposure to the Fish, Notopterus notopterus (Pallas)|J. Environ. Biol.23(2): 137-141|2002|
65403|A||Koponen,P.S., and J.V.K. Kukkonen|Effects of Bisphenol A and Artificial UVB Radiation on the Early Development of Rana temporaria|J. Toxicol. Environ. Health Part A65(13): 947-959|2002|10.1080/00984100290071180
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65405|A||Meldahl,A.C., K. Nithipatikom, and J.J. Lech|Metabolism of Several 14C-Nonylphenol Isomers by Rainbow Trout (Oncorhynchus mykiss):  In Vivo and In Vitro Microsomal Metabolites|Xenobiotica26(11): 1167-1180|1996|10.3109/00498259609050261
65406|T||Gates,C.D., J.M. Sanchis, and L.B. Pack|Medical Division Report No. 105.  The Oral Toxicity of Hexavalent Chromium|Office of the Chief, Chem.Corps, Washington, DC:14 p.|1947|
65407|T||Kerkvliet,N.I., and J.A. Brauner|Mechanisms of 1,2,3,4,6,7,8-Heptachlorodibenzo-p-Dioxin (HpCDD)-Induced Humoral Immune Suppression:  Evidence of Primary Defect in T-Cell Regulation|Toxicol. Appl. Pharmacol.87:18-31|1987|10.1016/0041-008X(87)90080-9
65409|AT||Metcalf,R.L.|A Laboratory Model Ecosystem to Evaluate Compounds Producing Biological Magnification|In: W.J.Hayes,Jr. (Ed.), Essays in Toxicology, Academic Press, New York, NYVolume 5, Chapter 2:17-38|1974|
65411|A||Mayer,F.L.|Predicting Chronic Lethality of Chemicals to Fishes from Acute Toxicity Test Data|EPA/600/X-90/147, U.S.EPA, Gulf Breeze, FL:15 p.|1990|
65413|A||Labat,R., C. Roqueplo, J.M. Ricard, P. Lim, and M. Burgat|The Ecotoxicological Action of Some Metals (Cu,Zn,Pb,Cd) on Freshwater Fish in the River Lot (Actions Ecotoxicologiques de Certains Metaux (Cu- Zn- Pb- Cd) chez les Poissons Dulcaquicoles de la Riviere Lot)|Ann. Limnol. (Multiple Languages)13(2): 191-207|1977|10.1051/limn/1977008
65414|T||LaBrecque,G.C., H.G. Wilson, J.B. Gahan, and D.E. Weidhaas|Evaluation of Various Insecticides as Residual Sprays in Buildings Naturally Infested with Anopheles quadrimaculatus|Mosq. News31(2): 206-208|1971|
65415|A||Laegreid,M., J. Alstad, D. Klaveness, and H.M. Seip|Metal Speciation - Biological Response.  An Evaluation of the Assumed Close Connection Between Metal Speciation and Biological Response|In: C.J.M.Kramer and J.C.Duinker (Eds.), Complexation of Trace Metals in Natural Waters, Martinus Nijhoff /Dr.W.Junk Publ., The Hague, Netherlands:419-424|1984|
65416|A||Lake,J.L., P.F. Rogerson, and C.B. Norwood|A Polychlorinated Dibenzofuran and Related Compounds in an Estuarine Ecosystem|Environ. Sci. Technol.15(5): 549-553|1981|10.1021/es00087a003
65419|A||Landrum,P.F., and C.R. Stubblefield|Role of Respiration in the Accumulation of Organic Xenobiotics by the Amphipod Diporeia sp.|Environ. Toxicol. Chem.10(8): 1019-1028|1991|10.1002/etc.5620100806
65427|A||Laughlin,R.B.,Jr.|Quantitative Structure-Activity Studies of Di-and Triorganotin Compounds|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:189-206|1987|
65428|A||Lauhachinda,N., and W.H. Mason|65Zn Excretion as an Indirect Measurement of Q10 in the Isopod, Armadillidium vulgare (Latreille)|J. Ala. Acad. Sci.50(1): 27-34|1979|
65429|A||Law,A.T., and D.K. Button|Modulation of Affinity of a Marine Pseudomonad for Toluene and Benzene by Hydrocarbon Exposure|Appl. Environ. Microbiol.51(3): 469-476|1986|10.1128/aem.51.3.469-476.1986
65438|A||Lebsack,M.E., A.D. Anderson, K.F. Nelson, and D.S. Farrier|Sublethal Effects of an In Situ Oil Shale Retort Water on Rainbow Trout|Toxicol. Appl. Pharmacol.54:462-468|1980|10.1016/0041-008X(80)90173-8
65439|A||Lee,F.O., and T.C. Cheng|Incorporation of 59Fe in the Snail Biomphalaria glabrata Parasitized by Schistosoma mansoni|J. Parasitol.58(3): 481-488|1972|10.2307/3278193
65440|A||Lee,E.L., and J.C.,Jr. Buzzell|Measurement of Pesticide Toxicity by Fish Respiration Rate|In: Proc.24th Industrial Waste Conf., May 6-8, 1969, Part 1, Purdue Univ., Lafayette, IN:595-609|1969|
65449|A||Lewis,D.L., H.W. Holm, H.P. Kollig, and T.L. Hall|Transport and Fate of Diethyl Phthalate in Aquatic Ecosystems|Environ. Toxicol. Chem.3:223-231|1984|10.1002/etc.5620030205
65453|A||Ley III,H.L., M.L. Failla, and D.S. Cherry|Isolation and Characterization of Hepatic Metallothionein from Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. B Comp. Biochem.74(3): 507-513|1983|10.1016/0305-0491(83)90219-5
65455|A||Lichtenstein,E.P., and T.T. Liang|Effects of Simulated Rain on the Transport of Fonofos and Carbofuran from Agricultural Soils in a Three-Part Environmental Microcosm|J. Agric. Food Chem.35(2): 173-178|1987|10.1021/jf00074a002
65456|T||Lichtenstein,E.P.|Increase of Persistence and Toxicity of Parathion and Diazinon in Soils with Detergents|J. Econ. Entomol.59(4): 985-993|1966|10.1093/jee/59.4.985
65457|A||Lindquist,B., and D. Warshawsky|Stereospecificity in Algal Oxidation of the Carcinogen Benzo(a)pyrene|Experientia40:1-6|1984|10.1007/BF01959096
65460|A||Lindstrom,K.|Selenium and Algal Growth|In: Proceedings of the Third International Symposium on Industrial Uses of Selenium and Tellurium, Stockholm, Sweden:441-469|1984|
65463|T||Ling,G.N.|Thallium and Cesium in Muscle Cells Compete for the Adsorption Sites Normally Occupied by K+|Physiol. Chem. Phys.9:217-225|1977|
65464|A||Lio-Po,G.D., M.E.G. Sanvictores, M.C.L. Baticados, and C.R. Lavilla|In Vitro Effect of Fungicides on Hyphal Growth and Sporogenesis of Lagenidium spp. Isolated from Penaeus monodon Larvae and Scylla serrata Eggs|J. Fish Dis.5:97-112|1982|10.1111/j.1365-2761.1982.tb00463.x
65467|A||Liu,Y.F., R.H. Tang, Q.X. Zhang, J.Y. Shi, X.M. Li, Z.Q. Liu, and W. Zhao|Stimulation of Cell Growth of Tetrahymena pyriformis and Chlamydomonas reinhardtii by Trace Elements|Biol. Trace Elem. Res.9:89-99|1986|10.1007/BF02916518
65468|A||Lloyd,R., and D.J. Swift|Some Physiological Responses by Freshwater Fish to low Dissolved Oxygen, High Carbon Dioxide, Ammonia and Phenol with Particular Reference to Water Balance|Semin. Ser. Soc. Exp. Biol.2:47-69|1976|
65473|A||Lonning,S., E. Kjorsvik, and J. Davenport|The Hardening Process of the Egg Chorion of the Cod, Gadus morhua L., and Lumpsucker, Cyclopterus lumpus L.|J. Fish Biol.24:505-522|1984|10.1111/j.1095-8649.1984.tb04821.x
65477|A||Loyacano,H.A.,Jr., and R.M. Harrell|Toxicity of Formalin, Malachite Green, and Potassium Permanganate to the Glass Eel Stage of American Eel|Proc. World Maricult. Soc.8:605-610|1977|10.1111/j.1749-7345.1977.tb00148.x
65479|T||Mackiewicz,M., K.H. Deubert, H.B. Gunner, and B.M. Zuckerman|Study of Parathion Biodegradation Using Gnotobiotic Techniques|J. Agric. Food Chem.17(1): 129-130|1969|10.1021/jf60161a616
65480|A||Lu,P.Y., R.L. Metcalf, and E.M. Carlson|Environmental Fate of Five Radiolabeled Coal Conversion By-Products Evaluated in a Laboratory Model Ecosystem|Environ. Health Perspect.24:201-208|1978|
65481|A||Lu,P.Y., R.L. Metcalf, A.S. Hirwe, and J.W. Williams|Evaluation of Environmental Distribution and Fate of Hexachlorocyclopentadiene, Chlordene, Heptachlor, and Heptachlor Epoxide in a Laboratory Model Ecosystem|J. Agric. Food Chem.23(5): 967-973|1975|10.1021/jf60201a016
65494|A||El-Alfy,A., B. Larsen, and D. Schlenk|Effect of Cortisol and Urea on Flavin Monooxygenase Activity and Expression in Rainbow Trout, Oncorhynchus mykiss|Mar. Environ. Res.54(3-5): 275-278|2002|10.1016/S0141-1136(02)00183-6
65495|A||Madsen,L.L., B. Korsgaard, and P. Bjerregaard|4-Tert-Octylphenol and 17beta-Estradiol Applied by Feeding to Flounder Platichthys flesus:  Induction of Vitellogenin and Accumulation in Tissues|Mar. Environ. Res.54(3-5): 729-733|2002|10.1016/S0141-1136(02)00111-3
65496|A||Tollefsen,K.E., J.F.A. Meys, J. Frydenlund, and J. Stenersen|Environmental Estrogens Interact with and Modulate the Properties of Plasma Sex Steroid-Binding Proteins in Juvenile Atlantic Salmon (Salmo salar)|Mar. Environ. Res.54(3-5): 697-701|2002|10.1016/S0141-1136(02)00173-3
65497|A||Leanos-Castaneda,O., G. Van der Kraak, A. Lister, R. Sima-Alvarez, and G. Gold-Bouchot|o,p'-DDT Induction of Vitellogenesis and Its Inhibition by Tamoxifen in Nile Tilapia (Oreochromis niloticus)|Mar. Environ. Res.54(3-5): 703-707|2002|10.1016/S0141-1136(02)00168-X
65498|A||Korsgaard,B., T.K. Andreassen, and T.H. Rasmussen|Effects of an Environmental Estrogen, 17alpha-Ethinyl-Estradiol, on the Maternal-Fetal Trophic Relationship in the Eelpout Zoarces viviparus (L)|Mar. Environ. Res.54(3-5): 735-739|2002|10.1016/S0141-1136(02)00112-5
65499|A||Thibaut,R., G. Monod, and J.P. Cravedi|Residues of 14C-4n-Nonylphenol in Mosquitofish (Gambusia holbrooki) Oocytes and Embryos During Dietary Exposure of Mature Females to this Xenohormone|Mar. Environ. Res.54(3-5): 685-689|2002|10.1016/S0141-1136(02)00194-0
65500|A||Donaldson,E.M., and U.H.M. Fagerlund|Cortisol Secretion Rate in Gonadectomized Female Sockeye Salmon (Oncorhynchus nerka):  Effects of Estrogen and Cortisol Treatment|J. Fish. Res. Board Can.26:1789-1799|1969|10.1139/f69-163
65501|A||Verslycke,T., G.F. Vandenbergh, B. Versonnen, K. Arijs, and C.R. Janssen|Induction of Vitellogenesis in 17alpha-Ethinylestradiol-Exposed Rainbow Trout (Oncorhynchus mykiss):  A Method Comparison|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(4): 483-492|2002|10.1016/S1532-0456(02)00111-4
65502|A||Watanuki,H., T. Yamaguchi, and M. Sakai|Suppression in Function of Phagocytic Cells in Common Carp Cyprinus carpio L. Injected with Estradiol, Progesterone or 11-Ketotestosterone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(4): 407-413|2002|10.1016/S1532-0456(02)00100-X
65503|T||Kotonya,R., and N.E. Jensen|No Effect of Dieldrin on Progesterone Production in Gilts|Toxicology81:165-171|1993|10.1016/0300-483X(93)90009-H
65504|T||Schnorr,J.K.|Effect of Dieldrin on a Visual Discrimination Task|J. Arizona-Nevada Acad. Sci.10:131-134|1975|10.2307/40021794
65505|T||Shakoori,A.R., Y.G. Rasul, and S.S. Ali|Effect of Dieldrin Feeding for Six Months on Albino Rats - Biochemical and Histological Changes in Liver|Pak. J. Zool.14(2): 191-204|1982|
65506|T||Gray,L.E.,Jr., and R.J. Kavlock|An Extended Evaluation of an In Vivo Teratology Screen Utilizing Postnatal Growth and Viability in the Mouse|Teratog. Carcinog. Mutagen.4:403-426|1984|10.1002/tcm.1770040504
65507|T||Halverson,A.W.|Growth and Reproduction with Rats Fed Selenite-Se|Proc. S. D. Acad. Sci.53:167-177|1974|
65509|T||Wight,P.A.L., W.A. Dewar, and C.L. Saunderson|Zinc Toxicity in the Fowl:  Ultrastructural Pathology and Relationship to Selenium, Lead and Copper|Avian Pathol.15(1): 23-38|1986|10.1080/03079458608436263
65510|T||Schroeder,H.A., M. Kanisawa, D.V. Frost, and M. Mitchener|Germanium, Tin and Arsenic in Rats: Effects on Growth, Survival, Pathological Lesions and Life Span|J. Nutr.96:37-45|1968|10.1093/jn/96.1.37
65512|T||Schroeder,H.A.|Serum Cholesterol Levels in Rats Fed Thirteen Trace Elements|J. Nutr.94(4): 475-480|1968|10.1093/jn/94.4.475
65513|T||U.S. Environmental Protection Agency|Initial Submission:  Toxicity of RDX (Cyclotrimethylenetrinitramine) with Cover Letter Dated 10/15/92, Original Report Submitted 10/21/42|EPA/OTS Doc# 88-920009851, Dupont Chemical TSCA Data Submission, Haskell Lab.:10 p.|1992|
65514|T||Lish,P.M., B.S. Levine, E.M. Furedi, J.M. Sagartz, and V.S. Rac|Determination of the Chronic Mammalian Toxicological Effects of RDX|Final Rep.Phase VI, Vol.1, U.S.Army Med.Res.and Dev.Command, Ft.Detrick, Frederick, MD:368 p.|1984|
65515|T||Kaur,R., C.K. Dhanju, and K. Kaur|Effects of Dietary Selenium on Biochemical Composition of Rat Testis|Indian J. Exp. Biol.37:509-511|1999|
65517|T||Street,J.C.|DDT Antagonism to Dieldrin Storage in Adipose Tissue of Rats|Science146:1580-1581|1964|10.1126/science.146.3651.1580
65518|T||Genelly,R.E., and R.L. Rudd|Effects of DDT, Toxaphene, and Dieldrin on Pheasant Reproduction|Auk73:529-539|1956|10.2307/4081951
65519|T||Wassermann,D., and M. Wassermann|Adrenocortical Zona Fasciculata in Rats Receiving p,p'-DDT|Environ. Physiol. Biochem.3(6): 274-280|1973|
65520|T||Tinsley,I.J.|DDT Ingestion and Liver Glucose 6-Phosphate Dehydrogenase Activity-II|Biochem. Pharmacol.14(5): 847-851|1965|10.1016/0006-2952(65)90104-8
65521|T||Sullivan,J.P., and P.F. Scanlon|A Comparison Between Intubation and Food Addition as Routes of Oral Exposure for Northern Bobwhites to DDT Insecticide|J. Wildl. Dis.27(3): 435-440|1991|10.7589/0090-3558-27.3.435
65523|T||Palanza,P., F. Morellini, S. Parmigiani, and F.S. Vom Saal|Prenatal Exposure to Endocrine Disrupting Chemicals:  Effects on Behavioral Development|Neurosci. Biobehav. Rev.23(7): 1011-1027|1999|10.1016/S0149-7634(99)00033-0
65524|T||McIntosh,D.A.D., and J.C. Topham|A Comparison of Mouse and Rat Liver Enzymes and Their Response to Treatment with Various Compounds|Biochem. Pharmacol.21(7): 1025-1029|1972|10.1016/0006-2952(72)90407-8
65525|T||Martin,W.L., R.W. Rogers, H.W. Essig, H.W. Chambers, and L.B. Coons|Influence of Dietary Treatment on Rat Carcass DDT Residues and Toxicity Parameters|J. Anim. Sci.43(4): 786-791|1976|10.2527/jas1976.434786x
65526|T||Hart,M.M., J. Whang-Peng, S.M. Sieber, S. Fabro, and R.H. Adamson|Distribution and Effects of DDT in the Pregnant Rabbit|Xenobiotica2(6): 567-574|1972|10.3109/00498257209111084
65528|T||Cannon,M.S., and L.C. Holcomb|The Effect of DDT on Reproduction in Mice|Ohio J. Sci.68(1): 19-24|1968|
65529|T||Banerjee,B.D., S. Saha, T.K. Mohapatra, and A. Ray|Influence of Dietary Protein on DDT-Induced Immune Responsiveness in Rats|Indian J. Exp. Biol.33(10): 739-744|1995|
65530|T||Banerjee,B.D., A. Ray, and S.T. Pasha|A Comparative Evaluation of Immunotoxicity of DDT and Its Metabolites in Rats|Indian J. Exp. Biol.34(6): 517-522|1996|
65531|T||MacPhail,R.C., Q.D. Walker, and L.L. Cook|Neurotoxicology of Cyclotrimethylenetrinitramine (RDX)|Final Rep., Proj.Order 2813, U.S.Army Med.Res.and Dev.Command, Ft.Detrick, Frederick, MD:65 p.|1985|
65532|A||Neugebaur,K., F.J. Zieris, and W. Huber|Ecological Effects of Atrazine on Two Outdoor Artificial Freshwater Ecosystems|Z. Wasser-Abwasser-Forsch. (Multiple Languages)23(1): 11-17|1990|
65540|A||Nagabhushanam,R., and D.P. Vaidya|Effect of Chemical Agents on the Early Development of Eggs of the Vector Snail, Indoplanorbis exustus|Riv. Parassitol.42(2): 271-275|1981|
65541|A||Nagatani,H.H., and R. Haselkorn|Molybdenum Independence of Nitrogenase Component Synthesis in the Non-heterocystous Cyanobacterium Plectonema|J. Bacteriol.134(2): 597-605|1978|10.1128/jb.134.2.597-605.1978
65544|A||Nogrady,T., and J. Keshmirian|Rotifier Neuropharmacology-II. Synergistic Effect of Acetylcholine on Local Anesthetic Activity in Brachionus calyciflorus (Rotifera, Aschelminthes)|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 339-344|1986|10.1016/0742-8413(86)90133-7
65547|A||Norberg-King,T.J.|A Comparison of the Sensitivity of the Fathead Minnow (Pimephales promelas) Seven Day Subchronic Test to the Early Life Stage and Life Cycle Tests|ERL-Duluth Deliverable 7164A, U.S.EPA, Duluth, MN:89 p.|1987|
65548|T||Cheng,H.M., M. Eto, S. Kuwatsuka, and Y. Oshima|Studies on the Phenylphenol Derivatives with Biological Activity Part I.  Herbicidal Activity of Nitro-Substituted Phenylphenols|Agric. Biol. Chem.32(3): 345-352|1968|
65555|T||Fujita,M., E. Takabatake, and K. Tsuchiya|Effects of Maternal Exposure to Zinc and Cadmium on Metallothionein in Fetal Rat Liver|Arch. Environ. Contam. Toxicol.11(5): 645-649|1982|10.1007/BF01056374
65556|T||Chen,H.H., and M.H. Chan|Developmental Lead Exposure Differentially Alters the Susceptibility to Chemoconvulsants in Rats|Toxicology173:249-257|2002|10.1016/S0300-483X(02)00032-X
65557|A||Salerno,G.L.|Measurement of Enzymes Related to Sucrose Metabolism in Permeabilized Chlorella vulgaris Cells|Physiol. Plant. (Multiple Languages)64:259-264|1985|10.1111/j.1399-3054.1985.tb02346.x
65562|A||Rao,K.S.P., K.S. Prasad, and K.V.R. Rao|Sublethal Effect of Methyl Parathion on Tissue Proteolysis in the Freshwater Mussel, Lamellidens marginalis (Lamarck)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.46(2): 164-167|1980|
65565|A||Saroja-Subbaraj,G., and S. Bose|Detection and Characterization of Methyl Parathion-Resistant Chlorella protothecoides|Bull. Environ. Contam. Toxicol.31:369-376|1983|10.1007/BF01608713
65570|A||Satow,Y.|Effects of K+, Ba2+ and Ca2+ on the Excitable Membrane in Paramecium tetraurelia|Comp. Biochem. Physiol. A Comp. Physiol.71:29-40|1982|10.1016/0300-9629(82)90363-2
65575|A||Schenk,J.E., P.F.,Jr. Atkins, R.L. Weitzel, P.B. Simon, J.C. Posner, and W.J.,Jr. Weber|Effects of Outboard Marine Engine Exhaust on the Aquatic Environment|Prog. Water Technol.7(3/4): 733-741|1975|
65576|A||Shmal'gauzen,O.I.|Effect of Phenol on Development of the Prolarvae of Acipenserid Fish II.  The Digestive System|Sov.J.Dev.Biol.3:407-413|1972|
65577|A||Shmal'gauzen,O.I.|Effect of Phenol on Development of Prolarvae of Acipenserid Fish Report III.  Pigmentation of the Skin.  Structure of the Eyes|Sov.J.Dev.Biol.4(1): 28-35|1973|
65583|A||Schocken,M.J., and M.K. Speedie|Interaction of Higher Marine Fungi with the Herbicide Atrazine.  II.  Sorption of Atrazine to Four Species of Marine Fungi|Bull. Environ. Contam. Toxicol.29:101-106|1982|10.1007/BF01606096
65584|A||Schoeny,R., T. Cody, M. Radike, J. Caruso, J. Rogers, B. Smiddy, M. Trentman, and D. Warshawsky|Metabolism, Growth Effects and Mutagenicity of Plant Metabolites of Benzo(a)pyrene|Proc.8th Int.Symp.on Polycyclic Aromatic Hydrocarbons, Oct.1983, Columbus Battelle Labs, Columbus, OH:15 p.|1983|
65585|A||Schoeny,R., T. Cody, M. Radike, and D. Warshawsky|Mutagenicity of Algal Metabolites of Benzo(a)pyrene for Salmonella typhimurium|Environ. Mutagen.:1-30|1984|
65588|T||Ashton,F.M.|Effect of EPTC on Photosynthesis, Respiration, and Oxidative Phosphorylation|Weeds (Urbana)11:295-297|1963|10.2307/4040536
65589|T||Allen,S.E., and F. Skoog|Phytotoxicity of Imidazoline Derivatives and Related Compounds|Plant Physiol.26:611-624|1951|10.1104/pp.26.3.611
65590|T||Angerhofer,R.A., G. Davis, and L. Balezewski|Teratological Assessment of Trinitro-RDX in Rats|Report, Study No. 75-51-0573-86, U.S. Army Environmental Hygiene Agency, Aberdeen Proving Ground, MD:19 p.|1986|
65591|T||Schneider,N.R., S.L. Bradley, and M.E. Andersen|Toxicology of Cyclotrimethylenetrinitramine (RDX):  Distribution and Metabolism in the Rat and the Miniature Swine|Rep.No.AFRRI SR76-34, Armed Forces Radiobiol.Res.Inst., Bethesda, MD:28 p.|1976|
65592|T||Herman,Z.S., K. Kmieciak-Kolada, R. Szkilnik, R. Brus, K. Ludyga, R. Winter, J. Jonek, J. Konecki, J. Kusz, J. Bodziony|Chronic Toxicity of Lead and Cadmium.  I.  Changes in the Central Nervous System of the Parental Generation of Rats After Chronic intoxication with Lead and Cadmium|EPA-600/1-80-012, Slaska Akademia Medyczna, Katowice, Central Animal Farm of Silesian Med.Acad., Katowice, Poland:16 p.|1980|
65593|T||Hart,E.R.|Subacute Toxicity of RDX and TNT in Dogs|Off.of Naval Res.Contract No.N00014-73-C-162, Litton Bionetics Inc., Kensington, MD:196 p.|1974|
65594|A||Shukla,L., and A.K. Pandey|Effects of Three Insecticides on the Histoarchitecture of Pituitary Gland in Sarotherodon mossambicus|Uttar Pradesh J. Zool.4(2): 201-204|1984|
65598|A||Hyllner,S.J., D.O. Oppen-Berntsen, J.V. Helvik, B.T. Walther, and C. Haux|Oestradiol-17beta Induces the Major Vitelline Envelope Proteins in Both Sexes in Teleosts|J. Endocrinol.131:229-236|1991|10.1677/joe.0.1310229
65599|A||Larsson,D.G.J., S.J. Hyllner, and C. Haux|Induction of Vitelline Envelope Proteins by Estradiol-17beta in 10 Teleost Species|Gen. Comp. Endocrinol.96:445-450|1994|10.1006/gcen.1994.1201
65605|A||Singh,H.N., and A. Vaishampayan|Biological Effects of Rice-Field Herbicide Machete on Various Strains of the Nitrogen-Fixing Blue-Green Alga Nostoc muscorum|Environ. Exp. Bot.18:87-94|1978|10.1016/0098-8472(78)90002-3
65606|A||Singh,O., and R.A. Agarwal|Carbamate and Organophosphorus Pesticides Against Snails|Pesticides 18:30-33|1984|
65612|A||Slater,J.V.|Comparative Accumulation of Radioactive Zinc in Young Rainbow, Cutthroat and Brook Trout|Copeia2:158-161|1961|10.2307/1439991
65613|A||Slatyer,B., A. Daday, and G.D. Smith|The Effects of Acetaldehyde on Nitrogenase, Hydrogenase and Photosynthesis in the Cyanobacterium Anabaena cylindrica|Biochem. J. (Lond.)212:755-758|1983|10.1042/bj2120755
65624|A||Segner,H., and D. Lenz|Cytotoxicity Assays with the Rainbow Trout R1 Cell Line|Toxicol. In Vitro7(4): 537-540|1993|10.1016/0887-2333(93)90061-9
65628|A||Sethunathan,N., and I.C. MacRae|Some Effects of Diazinon on the Microflora of Submerged Soils|Plant Soil30(1): 109-112|1969|10.1007/BF01885267
65633|A||Oppen-Berntsen,D.O., S.J. Hyllner, C. Haux, J.V. Helvik, and B.T. Walther|Eggshell Zona Radiata-Proteins from Cod (Gadus morhua):  Extra-Ovarian Origin and Induction by Estradiol-17beta|Int. J. Dev. Biol.36:247-254|1992|
65634|A||Shapiro,J.|"Iron Available to Algae:  Preliminary Report on a New Approach to Its Estimation in Lake Water Through Use of the ""Ferrigram"""|In: H.L.Golterman and R.S.Clymo (Eds.), Chemical Environment in the Aquatic Habitat, Noord-Holland Uitgeversmaatchappi, Amsterdam:219-228|1967|
65635|A||Sharma,R.S., and P.K. Singh|Mineral Requirements of the Nitrogen-Fixing Blue-Green Alga Anabaenopsis raciborskii Wolosz|Z. Allg. Mikrobiol.24(6): 407-411|1984|
65640|A||Shrift,A.|Sulfur-Selenium Antagonism.  II.  Antimetabolite Action of Seleno-Methionine on the Growth of Chlorella vulgaris|Am. J. Bot.41:345-352|1954|
65644|T||Shvinka,N.E., and G. Caffier|Effect of Thallium Ions on the Gramicidin Induced Conductivity of the Muscle Fibre Membrane|Biofizika28(6): 1070-1074|1983|
65648|A||Rao,K.S.P., K.R.S. Sambasiva Rao, and K.V. Ramana Rao|Effect of Parathion on Tissue Ionic Changes in Fish, Channa punctatus (Bloch)|Geobios10:60-62|1983|
65649|A||Rao,K.S.P., and K.V.R. Rao|Toxicity of Methyl Parathion to the Fresh Water Teleost, Tilapia mossambica (Peters)|Comp. Physiol. Ecol.7(4): 271-274|1982|
65650|A||Rao,K.S.P., K.S. Prasad, and K.V.R. Rao|Methyl Parathion Impact on the Regulation of Phosphorylase Activity in Selected Tissues of the Snail, Pila globosa (Swainson)|Curr. Sci. (Bangalore)52(9): 416-418|1983|
65651|A||Rao,K.S.P., and K.V.R. Rao|Lipid Derivatives in the Tissues of the Freshwater Teleost, Saurotherodon mossambicus (alias Tilapia mossambica) (Peters) - Effect of Methyl Parathion|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.47(1): 53-57|1981|
65652|A||Rao,K.S.P., and K.V.R. Rao|Impact of Methyl Parathion Toxicity and Eserine Inhibition on Acetylcholinesterase Activity in Tissues of the Teleost (Tilapia mossambica) - a Correlative Study|Toxicol. Lett.22:351-356|1984|10.1016/0378-4274(84)90113-9
65655|T||Sima,P., and G. Gissel-Nielsen|Spraying of Crops with Selenium|Acta Agric. Scand.35:161-164|1985|10.1080/00015128509435771
65656|A||Simakhov,Y.G.|The Influence of Benzene Compounds on the Mitotic Activity of the Epithelium of the Eye Lens of Rainbow Trout, Salmo gairdneri|J. Ichthyol.22:135-140|1982|
65657|A||Simard,S., L. Proteau, G. Beaumont, and G. Grenier|Increase of Chloroplast Granum Stability, Induced by a Sublethal Concentration of Atrazine, in Lemna minor Fronds Grown on a Medium Partially Deficient in Calcium or Magnesium|Plant Physiol. Biochem.29(6): 631-638|1991|
65658|A||Simard,S., G. Grenier, and G. Beaumont|Morphometric Analysis of Ultrastructural Changes Induced by a Sublethal Concentration of Atrazine on Young Lemna minor Chloroplasts|Plant Physiol. Biochem.28(1): 49-55|1990|
65659|A||Cherry,D.S.|Static, Acute Toxicity of Total Recoverable, HCL-Reactive Ferrous, and BPA-Reactive Ferrous Iron to the Fathead Minnow (Pimephales promelas)|Virginia Polytechnic Institute and State University, Blacksburg, VA:34 p.|1983|
65660|A||Harvey,H.W.|Manganese and the Growth of Phytoplankton|J. Mar. Biol. Assoc. U.K.26(4): 562-579|1946|10.1017/S002531540001376X
65666|A||Cary,G.A., G.F. Doebbler, A. Spacie, and A.G. Vilkas|Acute and Chronic Toxicity of Di-2-Ethylhexyl Phthalate and Di-n-butyl Phthalate to Fish and Invertebrates|Contract No.68-01-0747, U.S.EPA, Washington, DC:86 p.|1976|
65675|A||Ringdal,O., and K. Julshamn|Effect of Selenite on the Uptake of Methylmercury in Cod (Gadus morhua)|Bull. Environ. Contam. Toxicol.35:335-344|1985|10.1007/BF01636519
65683|A||Roberts,L.W., D.R. Roberts, T.A. Miller, L.L. Nelson, and W.W. Young|Polymer Formulations of Mosquito Larvicides II.  Effects of a Polyethylene Formulation of Chlorpyrifos on Culex Populations Naturally Infesting Artificial Field Pools|Mosq. News33(2): 155-161|1973|
65684|A||Robillard,K.A., J.W. Gorsuch, G.R. Biddinger, P.Q. Duhaime, and K.H. Reinert|Early Life-Stage Toxicity of Phthalate Esters to Rainbow Trout (Oncorhynchus mykiss)|Poster Presentation Received Nov.1992 at SETAC:17 p.|1992|
65690|A||Rodriguez,D., and P. Alonso|Bioassay of Toxic Substances for Ciliated Protozoa|In: J.Aloaigbes (Ed.), Proc.2nd Int.Congr.on Analytical Techniques in Environmental Chemistry 2, Nov.1981, Barcelona, Spain, Pergamon Press, NY:157-162|1982|
65692|A||Romberg,G.P., and W.C. Renfro|Radioactivity in Juvenile Columbia River Salmon:  A Model to Distinguish Differences in Movement and Feeding Habits|Trans. Am. Fish. Soc.2:317-322|1973|10.1577/1548-8659(1973)102<317:RIJCRS>2.0.CO;2
65696|A||Rudd,J.W.M., and M.A. Turner|The English - Wabigoon River System: II.  Suppression of Mercury and Selenium Bioaccumulation by Suspended and Bottom Sediments|Can. J. Fish. Aquat. Sci.40:2218-2227|1983|10.1139/f83-258
65698|T||Rusznyak,I., L. Gyorgy, S. Ormai, and T. Millner|On Some Potassium-Like Qualities of the Thallium Ion|Experientia24(8): 809-810|1968|10.1007/BF02144884
65700|A||Sabourin,T.D., R.T. Faulk, J.J. Coyle, G.M. DeGraeve, L.T. Brooke, D.J. Call, S.L. Harting, L. Larson, C.A. Lindberg, T|Freshwater Aquatic Criteria Development and Toxicity Testing|In: Final Rep., Contract No.68-01-6986, Freshwater Aquatic Criteria Development and Toxicity Testing, U.S.EPA, Washington, DC:48-58|1986|
65702|A||Sabodash,V.M.|Survival Rate of Grass Carp Larvae After Exposure to Zinc Sulfate|Hydrobiol. J.10:77-80|1974|
65708|A||Sailer,D., D. Shellenberger, R.H. Crist, and K.M. Oberholser|Interactions of Protons and Metallic Ions with Algae|Proc. Pa. Acad. Sci.54:85-88|1980|
65710|T||Saini,M.L., and H.W. Dorough|Persistence of Malathion and Methyl Parathion when Applied as Ultra-Low-Volume and Emulsifiable Concentrate Sprays|J. Econ. Entomol.63(2): 405-408|1970|10.1093/jee/63.2.405
65711|A||Saito,H., J. Koyasu, and T. Shigeoka|Cytotoxicity of Anilines and Aldehydes to Goldfish GFS Cells and Relationships with 1-Octanol/Water Partition Coefficients|Chemosphere27(8): 1553-1560|1993|10.1016/0045-6535(93)90249-5
65712|A||Sakaguchi,T., A. Nakajima, and T. Horikoshi|Studies on the Accumulation of Heavy Metal Elements in Biological Systems XVIII.  Accumulation of Molybdenum by Green Microalgae|Eur. J. Appl. Microbiol. Biotechnol.12:84-89|1981|10.1007/BF01970039
65715|A||Salazar,M.H., and S.M. Salazar|The Effects of Sediment on the Survival of Mysids Exposed to Organotins|In: T.P.Patin (Ed.), Proc.11th U.S./Japan Experts Meet., Management of Bottom Sediments Containing Toxic Substances, Nov.4-6, 1985, Seattle, WA:176-192|1985|
65717|A||Salazar,S.M., and M.H. Salazar|Bioaccumulation of Tributyltin in Mussels|In:  Proc.3rd Int.Organotin Symp., Apr.17-20, 1990, Monaco:79-83|1990|
65718|A||Salazar,M.H., and S.M. Salazar|Utility of Mussel Growth in Assessing the Environmental Effects of Tributyltin|In: Proc.3rd Int.Organotin Symp., Apr.17-20, 1990, Monaco:132-136|1990|
65719|A||Salazar,M.H., and D.B. Chadwick|Using Real-Time Physical/Chemical Sensors and In-Situ Biological Indicators to Monitor Water Pollution|Water Pollution 91 Conf., Sept.3-5, 1991, Southampton, U.K.:18 p.|1991|
65722|A||Salazar,M.H., and S.M. Salazar|Mussels as Bioindicators of TBT:  The Environmental Significance of Monitoring and Predicting Biological Responses|Environ. Toxicol. Chem.:1-32|1992|
65723|A||Ma,J., R. Zheng, L. Xu, and S. Wang|Differential Sensitivity of Two Green Algae, Scenedesmus obliqnus and Chlorella pyrenoidosa, to 12 Pesticides|Ecotoxicol. Environ. Saf.52(1): 57-61|2002|10.1006/eesa.2002.2146
65724|A||Hyne,R.V., A.C. Hogan, F. Pablo, and A.C. Roach|Toxicity of Selenomethionine- and Seleno-Contaminated Sediment to the Amphipod Corophium sp.|Ecotoxicol. Environ. Saf.52(1): 30-37|2002|10.1006/eesa.2002.2157
65725|A||Chaton,P.F., P. Ravanel, M. Tissut, and J.C. Meyran|Toxicity and Bioaccumulation of Fipronil in the Nontarget Arthropodan Fauna Associated with Subalpine Mosquito Breeding Sites|Ecotoxicol. Environ. Saf.52(1): 8-12|2002|10.1006/eesa.2002.2166
65726|A||Galloway,T.S., N. Millward, M.A. Browne, and M.H. Depledge|Rapid Assessment of Organophosphorous/Carbamate Exposure in the Bivalve Mollusc Mytilus edulis Using Combined Esterase Activities as Biomarkers|Aquat. Toxicol.61(3-4): 169-180|2002|10.1016/S0166-445X(02)00051-6
65727|A||El-Alfy,A.T., E. Bernache, and D. Schlenk|Gender Differences in the Effect of Salinity on Aldicarb Uptake, Elimination, and In Vitro Metabolism in Japanese Medaka, Oryzias latipes|Aquat. Toxicol.61(3/4): 225-232|2002|10.1016/S0166-445X(02)00059-0
65728|T||Chu,K.W., and K.L. Chow|Synergistic Toxicity of Multiple Heavy Metals is Revealed by a Biological Assay Using a Nematode and Its Transgenic Derivative|Aquat. Toxicol.61(1/2): 53-64|2002|10.1016/S0166-445X(02)00017-6
65729|A||Hanson,M.L., P.K. Sibley, D.A. Ellis, S.A. Mabury, D.C.G. Muir, and K.R. Solomon|Evaluation of Monochloroacetic Acid (MCA) Degradation and Toxicity to Lemna gibba, Myriophyllum spicatum, and Myriophyllum sibiricum in Aquatic Microcosms|Aquat. Toxicol.61(3/4): 251-273|2002|10.1016/S0166-445X(02)00089-9
65730|A||Petushok,N., T. Gabryelak, D. Palecz, L. Zavodnik, I. Szollosi Varga, and K.A. Deer|Comparative Study of the Xenobiotic Metabolising System in the Digestive Gland of the Bivalve Molluscs in Different Aquatic Ecosystems and in Aquaria Experiments|Aquat. Toxicol.61(1-2): 65-72|2002|10.1016/S0166-445X(02)00030-9
65731|A||Interlandi,S.J.|Nutrient-Toxicant Interactions in Natural and Constructed Phytoplankton Communities:  Results of Experiments in Semi-Continuous and Batch Culture|Aquat. Toxicol.61(1-2): 35-51|2002|10.1016/S0166-445X(02)00016-4
65732|A||Broomhall,S.|The Effects of Endosulfan and Variable Water Temperature on Survivorship and Subsequent Vulnerability to Predation in Litoria citropa Tadpoles|Aquat. Toxicol.61(3-4): 243-250|2002|10.1016/S0166-445X(02)00061-9
65733|A||Bentivegna,C.S.|Advancing Monosaccharides as Biomarkers:  Part II.  Effects of Starvation and Cadmium in Chironomus riparius as Detected by Fluorophore-Assisted Carbohydrate-Electrophoresis|Aquat. Toxicol.61(1-2): 111-126|2002|10.1016/S0166-445X(02)00048-6
65734|A||Cheng,S.Y., and J.C. Chen|Study on the Oxyhemocyanin, Deoxyhemocyanin, Oxygen Affinity and Acid-Base Balance of Marsupenaeus japonicus Following Exposure to Combined Elevated Nitrite and Nitrate|Aquat. Toxicol.61(3/4): 181-193|2002|10.1016/S0166-445X(02)00053-X
65735|A||Barata,C., S.J. Markich, D.J. Baird, and A.M.V.M. Soares|The Relative Importance of Water and Food as Cadmium Sources to Daphnia magna Straus|Aquat. Toxicol.61(3-4): 143-154|2002|10.1016/S0166-445X(02)00052-8
65736|A||Bianchini,A., and C.M. Wood|Physiological Effects of Chronic Silver Exposure in Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 137-145|2002|10.1016/S1532-0456(02)00088-1
65737|A||Meyer,J.S., C.J. Boese, and S.A. Collyard|Whole-Body Accumulation of Copper Predicts Acute Toxicity to an Aquatic Oligochaete (Lumbriculus variegatus) as pH and Calcium are Varied|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 99-109|2002|10.1016/S1532-0456(02)00103-5
65738|A||McGeer,J.C., C. Szebedinszky, D.G. McDonald, and C.M. Wood|The Role of Dissolved Organic Carbon in Moderating the Bioavailability and Toxicity of Cu to Rainbow Trout During Chronic Waterborne Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1/2): 147-160|2002|10.1016/S1532-0456(02)00084-4
65739|A||MacDonald,A., L. Silk, M. Schwartz, and R.C. Playle|A Lead-Gill Binding Model to Predict Acute Lead Toxicity to Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 227-242|2002|10.1016/S1532-0456(02)00107-2
65740|A||Brauner,C.J., and C.M. Wood|Effect of Long-Term Silver Exposure on Survival and Ionoregulatory Development in Rainbow Trout (Oncorhynchus mykiss) Embryos and Larvae, in the Presence and Absence of Added Dissolved Organic Matter|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 161-173|2002|10.1016/S1532-0456(02)00144-8
65741|A||Gensemer,R.W., R.B. Naddy, W.A. Stubblefield, J.R. Hockett, R. Santore, and P. Paquin|Evaluating the Role of Ion Composition on the Toxicity of Copper to Ceriodaphnia dubia in very Hard Waters|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 87-97|2002|10.1016/S1532-0456(02)00086-8
65742|A||Bury,N.R., J. Shaw, C. Glover, and C. Hogstrand|Derivation of a Toxicity-Based Model to Predict how Water Chemistry Influences Silver Toxicity to Invertebrates|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 259-270|2002|10.1016/S1532-0456(02)00096-0
65743|A||Ward,T.J., and J.R. Kramer|Silver Speciation During Chronic Toxicity Tests with the Mysid, Americamysis bahia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 75-86|2002|10.1016/S1532-0456(02)00082-0
65745|A||Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen|Biotic Ligand Model Development Predicting Zn Toxicity to the Alga Pseudokirchneriella subcapitata:  Possibilities and Limitations|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(1-2): 207-218|2002|10.1016/S1532-0456(02)00077-7
65746|A||Rani,R., S.P. Trivedi, P. Singh, and R.K. Singh|Haematotoxic Effect of Linear Alkyl Benzene Sulphonate (LAS) in Fish, Heteropneustes fossilis|J. Environ. Biol.23(1): 101-103|2002|
65747|A||Liu,X.J., I.H. Ni, and W.X. Wang|Trophic Transfer of Heavy Metals from Freshwater Zooplankton Daphnia magna to Zebrafish Danio reiro|Water Res.36(18): 4563-4569|2002|10.1016/S0043-1354(02)00180-X
65748|A||Fernandez,N., and R. Beiras|Combined Toxicity of Dissolved Mercury with Copper, Lead and Cadmium on Embryogenesis and Early Larval Growth of the Paracentrotus lividus Sea-Urchin|Ecotoxicology10(5): 263-271|2001|10.1023/A:1016703116830
65749|A||Venturino,A., L. Gauna, R.M. Bergoc, and A.M. Pechen de D'Angelo|Toxicokinetics of Malathion in Larval Stages of the Toad Bufo arenarum (Hensel):  Effect of Exogenous Spermidine|Pestic. Biochem. Physiol.70(3): 142-150|2001|10.1006/pest.2001.2550
65750|A||Viant,M.R., J.H. Walton, and R.S. Tjeerdema|Comparative Sublethal Actions of 3-Trifluoromethyl-4-Nitrophenol in Marine Molluscs as Measured by In Vivo 31P NMR|Pestic. Biochem. Physiol.71(1): 40-47|2001|10.1006/pest.2001.2554
65751|A||Maejima,K., S. Kitoh, E. Uheda, and N. Shiomi|Response of 19 Azolla Strains to a High Concentration of Ammonium Ions|Plant Soil234(2): 247-252|2001|10.1023/A:1017912613526
65752|A||Lee,J.H., P.F. Landrum, and C.H. Koh|Toxicokinetics and Time-Dependent PAH Toxicity in the Amphipod Hyalella azteca|Environ. Sci. Technol.36(14): 3124-3130|2002|10.1021/es011201l
65753|A||Bury,N.R., and C. Hogstrand|Influence of Chloride and Metals on Silver Bioavailability to Atlantic Salmon (Salmo salar) and Rainbow Trout (Oncorhynchus mykiss) Yolk-Sac Fry|Environ. Sci. Technol.36(13): 2884-2888|2002|10.1021/es010302g
65754|A||Geiszinger,A.E., W. Goessler, and K.A. Francesconi|Biotransformation of Arsenate to the Tetramethylarsonium Ion in the Marine Polychaetes Nereis diversicolor and Nereis virens|Environ. Sci. Technol.36(13): 2905-2910|2002|10.1021/es015808d
65755|A||Elfwing,T., E. Blidberg, and M. Tedengren|Physiological Responses to Copper in Giant Clams:  A Comparison of Two Methods in Revealing Effects on Photosynthesis in Zooxanthellae|Mar. Environ. Res.54(2): 147-155|2002|10.1016/S0141-1136(02)00100-9
65756|A||Coelho,M.R., M.J. Bebianno, and W.J. Langston|Routes of TBT Uptake in the Clam Ruditapes decussatus.  I.  Water and Sediments as Vectors of TBT Uptake|Mar. Environ. Res.54(2): 179-192|2002|10.1016/S0141-1136(02)00104-6
65757|A||Coelho,M.R., M.J. Bebianno, and W.J. Langston|Routes of TBT Uptake in the Clam Ruditapes decussatus.  II.  Food as Vector of TBT Uptake|Mar. Environ. Res.54(2): 193-207|2002|10.1016/S0141-1136(02)00106-X
65758|A||Gowland,B.T.G., C.F. Moffat, R.M. Stagg, D.F. Houlihan, and I.M. Davies|Cypermethrin Induces Glutathione S-Transferase Activity in the Shore Crab, Carcinus maenas|Mar. Environ. Res.54(2): 169-177|2002|10.1016/S0141-1136(02)00105-8
65759|A||Ateeq,B., M.A. Farah, M.N. Ali, and W. Ahmad|Induction of Micronuclei and Erythrocyte Alterations in the Catfish Clarias batrachus by 2,4-Dichlorophenoxyacetic Acid and Butachlor|Mutat. Res.518(2): 135-144|2002|10.1016/S1383-5718(02)00075-X
65760|A||Barata,C., D.J. Baird, and A.M.V.M. Soares|Determining Genetic Variability in the Distribution of Sensitivities to Toxic Stress Among and Within Field Populations of Daphnia magna|Environ. Sci. Technol.36(14): 3045-3049|2002|10.1021/es0158556
65761|A||Bard,S.M., S.M. Bello, M.E. Hahn, and J.J. Stegeman|Expression of P-glycoprotein in Killifish (Fundulus heteroclitus) Exposed to Environmental Xenobiotics|Aquat. Toxicol.59:237-251|2002|10.1016/S0166-445X(01)00256-9
65762|A||Nipper,M., R.S. Carr, J.M. Biedenbach, R.L. Hooten, and K. Miller|Toxicological and Chemical Assessment of Ordnance Compounds in Marine Sediments and Porewaters|Mar. Pollut. Bull.44:789-806|2002|10.1016/S0025-326X(02)00063-2
65763|A||Weinstein,J.E.|Photoperiod Effects on the UV-Induced Toxicity of Fluoranthene to Freshwater Mussel Glochidia:  Absence of Repair During Dark Periods|Aquat. Toxicol.59:153-161|2002|10.1016/S0166-445X(01)00247-8
65764|A||Wilson,J.T., D.R. Dixon, and L.R.J. Dixon|Numerical Chromosomal Aberrations in the Early Life-History Stages of a Marine Tubeworm, Pomatoceros lamarckii (Polychaeta: Serpulidae)|Aquat. Toxicol.59:163-175|2002|10.1016/S0166-445X(01)00249-1
65766|A||Ralph,L., and M.R. Twiss|Comparative Toxicity of Thallium(I), Thallium(III), and Cadmium(II) to the Unicellular Alga Chlorella Isolated from Lake Erie|Bull. Environ. Contam. Toxicol.68(2): 261-268|2002|
65767|A||Kim,S.D.|Determination of Copper Binding Affinity of Ceriodaphnia dubia Using Competition Bioassay Tests:  Environmental Significance|Bull. Environ. Contam. Toxicol.68(2): 245-252|2002|
65768|A||Ghosal,T.K., and A. Kaviraj|Combined Effects of Cadmium and Composted Manure to Aquatic Organisms|Chemosphere46(7): 1099-1105|2002|10.1016/S0045-6535(01)00162-X
65769|A||Cheng,S.Y., and J.C. Chen|Joint Action of Elevated Ambient Nitrite and Nitrate on Hemolymph Nitrogenous Compounds and Nitrogen Excretion of Tiger Shrimp Penaeus monodon|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 303-314|2002|10.1016/S1532-0456(02)00004-2
65770|A||Atchison,G.J.|The Dynamics of Lipids and DDT in Developing Brook Trout Eggs and Fry|J. Great Lakes Res.2(1): 13-19|1976|10.1016/S0380-1330(76)72270-6
65771|A||Okamoto,O.K., E. Pinto, L.R. Latorre, E.J.H. Bechara, and P. Colepicolo|Antioxidant Modulation in Response to Metal-Induced Oxidative Stress in Algal Chloroplasts|Arch. Environ. Contam. Toxicol.40(1): 18-24|2001|10.1007/s002440010144
65772|A||Borcherding,J., and J. Wolf|The Influence of Suspended Particles on the Acute Toxicity of 2-Chloro-4-Nitro-Aniline, Cadmium, and Pentachlorophenol on the Valve Movement Response of the Zebra Mussel (Dreissena polymorpha)|Arch. Environ. Contam. Toxicol.40(4): 497-504|2001|10.1007/s002440010202
65773|A||Werner,I., L.A. Deanovic, D.E. Hinton, J.D. Henderson, G.H. De Oliveira, B.W. Wilson, W. Krueger, W.W. Wallender, M.N. |Toxicity of Stormwater Runoff After Dormant Spray Application of Diazinon and Esfenvalerate (Asana) in a French Prune Orchard, Glenn County, California, USA|Bull. Environ. Contam. Toxicol.68(1): 29-36|2002|10.1007/s00128-001-0215-7
65775|A||Baines,S.B., N.S. Fisher, and R. Stewart|Assimilation and Retention of Selenium and Other Trace Elements from Crustacean Food by Juvenile Striped Bass (Morone saxatilis)|Limnol. Oceanogr.47(3): 646-655|2002|10.4319/lo.2002.47.3.0646
65776|A||Cornelisen,C.D., and F.I.M. Thomas|Ammonium Uptake by Seagrass Epiphytes:  Isolation of the Effects of Water Velocity Using an Isotope Label|Limnol. Oceanogr.47(4): 1223-1229|2002|10.4319/lo.2002.47.4.1223
65777|A||Grover,R., J.F. Maguer, S. Reynaud-Vaganay, and C. Ferrier-Pages|Uptake of Ammonium by the Scleractinian Coral Stylophora pistillata:  Effect of Feeding, Light, and Ammonium Concentrations|Limnol. Oceanogr.47(3): 782-790|2002|10.4319/lo.2002.47.3.0782
65778|A||Herkovits,J., L. Corro, C. Perez-Coll, and O. Dominguez|Fluid Motion Effect on Metal Toxicity in Bufo arenarum Embryos|Bull. Environ. Contam. Toxicol.68(4): 549-554|2002|10.1007/s001280289
65779|A||Ernst,W., P. Jackman, K. Doe, F. Page, G. Julien, K. Mackay, and T. Sutherland|Dispersion and Toxicity to Non-target Aquatic Organisms of Pesticides Used to Treat Sea Lice on Salmon in Net Pen Enclosures|Mar. Pollut. Bull.42(6): 433-444|2001|10.1016/S0025-326X(00)00177-6
65780|A||De Stasio,E.A., and S. Dorman|Optimization of ENU Mutagenesis of Caenorhabditis elegans|Mutat. Res.495(1-2): 81-88|2001|10.1016/S1383-5718(01)00198-X
65781|A||Coteur,G., B. Danis, S.W. Fowler, J.L. Teyssie, P. Dubois, and M. Warnau|Effects of PCBs on Reactive Oxygen Species (ROS) Production by the Immune Cells of Paracentrotus lividus (Echinodermata)|Mar. Pollut. Bull.42(8): 667-672|2001|10.1016/S0025-326X(01)00063-7
65782|A||Ching,E.W.K., W.H.L. Siu, P.K.S. Lam, L. Xu, Y. Zhang, B.J. Richardson, and R.S.S. Wu|DNA Adduct Formation and DNA Strand Breaks in Green-lipped Mussels (Perna viridis) Exposed to Benzo(a)pyrene:  Dose- and Time-Dependent Relationships|Mar. Pollut. Bull.42(7): 603-610|2001|10.1016/S0025-326X(00)00209-5
65783|A||Dahllof,I., S. Agrenius, H. Blanck, P. Hall, K. Magnusson, and S. Molander|The Effect of TBT on the Structure of a Marine Sediment Community - a Boxcosm Study|Mar. Pollut. Bull.42(8): 689-695|2001|10.1016/S0025-326X(00)00219-8
65784|A||Micic,M., N. Bihari, Z. Jaksic, W.E.G. Mueller, and R. Batel|DNA Damage and Apoptosis in the Mussel Mytilus galloprovincialis|Mar. Environ. Res.53(3): 243-262|2002|10.1016/S0141-1136(01)00112-X
65785|A||Straus,D.L., D. Schlenk, and J.E. Chambers|Hepatic Microsomal Desulfuration and Dearylation of Chlorpyrifos and Parathion in Fingerling Channel Catfish:  Lack of Effect from Aroclor 1254|Aquat. Toxicol.50(1-2): 141-149|2000|10.1016/S0166-445X(99)00088-0
65786|A||Leung,K.M.Y., and R.W. Furness|Survival, Growth, Metallothionein and Glycogen Levels of Nucella lapillus (L.) Exposed to Sub-chronic Cadmium Stress:  The Influence of Nutritional State and Prey Type|Mar. Environ. Res.52(2): 173-194|2001|10.1016/S0141-1136(00)00271-3
65787|A||Tao,S., A. Long, F. Xu, and R.W. Dawson|Copper Speciation in the Gill Microenvironment of Carp (Cyprinus carpio) at Various Levels of pH|Ecotoxicol. Environ. Saf.52(3): 221-226|2002|10.1006/eesa.2002.2193
65788|A||Hagger,J.A., A.S. Fisher, S.J. Hill, M.H. Depledge, and A.N. Jha|Genotoxic, Cytotoxic and Ontogenetic Effects of Tri-n-Butyltin on the Marine Worm, Platynereis dumerilii (Polychaeta: Nereidae)|Aquat. Toxicol.57(4): 243-255|2002|10.1016/S0166-445X(01)00200-4
65789|A||Tessier,L., J.L. Boisvert, L.B.M. Vought, and J.O. LaCoursiere|Anomalies on Capture Nets of Hydropsyche slossonae Larvae (Trichoptera; Hydropsychidae), a Potential Indicator of Chronic Toxicity of Malathion (Organophosphate Insecticide)|Aquat. Toxicol.50(1-2): 125-139|2000|10.1016/S0166-445X(99)00089-2
65790|A||Zakhartsev,M.V., V.P. Chelomin, and N.N. Belcheva|The Adaptation of Mussels Crenomytilus grayanus to Cadmium Accumulation Result in Alterations in Organization of Microsomal Enzyme-Membrane Complex (Non-specific Phosphatase)|Aquat. Toxicol.50(1-2): 39-49|2000|10.1016/S0166-445X(99)00097-1
65791|A||Chen,J.C., and S.Y. Cheng|Recovery of Penaeus monodon from Functional Anaemia After Exposure to Sublethal Concentration of Nitrite at Different pH Levels|Aquat. Toxicol.50(1-2): 73-83|2000|10.1016/S0166-445X(99)00093-4
65792|A||Chen,J.M., and J.C. Chen|Study on the Free Amino Acid Levels in the Hemolymph, Gill, Hepatopancreas and Muscle of Penaeus monodon Exposed to Elevated Ambient Ammonia|Aquat. Toxicol.50(1-2): 27-37|2000|10.1016/S0166-445X(99)00095-8
65793|A||Paris-Palacios,S., S. Biagianti-Risbourg, and G. Vernet|Biochemical and (Ultra)Structural Hepatic Perturbations of Brachydanio rerio (Teleostei, Cyprinidae) Exposed to Two Sublethal Concentrations of Copper Sulfate|Aquat. Toxicol.50(1/2): 109-124|2000|10.1016/S0166-445X(99)00090-9
65794|A||Watts,M.M., D. Pascoe, and K. Carroll|Population Responses of the Freshwater Amphipod Gammarus pulex (L.) to an Environmental Estrogen, 17alpha-Ethinylestradiol|Environ. Toxicol. Chem.21(2): 445-450|2002|
65795|T||Foster,T.S.|Effect of Some Pesticides on the Adrenal Glands in the Rat|Can. J. Biochem.46:1115-1120|1968|10.1139/o68-166
65796|T||Kanisawa,M., and H.A. Schroeder|Life Term Studies on the Effects of Arsenic, Germanium, Tin, and Vanadium on Spontaneous Tumors in Mice|Cancer Res.27:1192-1195|1967|
65797|T||Schroeder,H.A., M. Mitchener, J.J. Balassa, M. Kanisawa, and A.P. Nason|Zirconium, Niobium, Antimony and Fluorine in Mice: Effects on Growth, Survival and Tissue Levels|J. Nutr.95:95-101|1968|10.1093/jn/95.1.95
65800|A||Smith,S., and M.K.H. Kwan|Use of Aquatic Macrophytes as a Bioassay Method to Assess Relative Toxicity, Uptake Kinetics and Accumulated Forms of Trace Metals|Hydrobiologia (Multiple Languages)188-189:345-351|1989|10.1007/BF00027799
65801|A||Smith-Sonneborn,J., R.A. Palizzi, E.A. McCann, and G.L. Fisher|Bioassay of Genotoxic Effects of Environmental Particles in a Feeding Ciliate|Environ. Health Perspect.51:205-210|1983|10.1289/ehp.8351205
65803|A||Soeder,C.J., and G. Engelmann|Nickel Requirement in Chlorella emersonii|Arch. Microbiol.137:85-87|1984|10.1007/BF00425813
65804|A||Solbakken,J.E., and K.H. Palmork|Distribution of Radioactivity in the Chondrichthyes Squalus acanthias and the Osteichthyes Salmo gairdneri Following Intragastric Administration of (9-14C)Phenanthrene|Bull. Environ. Contam. Toxicol.25:902-908|1980|10.1007/BF01985628
65807|A||Pena-Llopis,S., M.D. Ferrando, and J.B. Pena|Impaired Glutathione Redox Status is Associated with Decreased Survival in Two Organophosphate-Poisoned Marine Bivalves|Chemosphere47(5): 485-497|2002|10.1016/S0045-6535(01)00323-X
65808|A||Rausina,G.A., D.C.L. Wong, W.R. Arnold, E.R. Mancini, and A.E. Steen|Toxicity of Methyl tert-Butyl Ether to Marine Organisms:  Ambient Water Quality Criteria Calculation|Chemosphere47(5): 525-534|2002|10.1016/S0045-6535(01)00311-3
65809|A||Karntanut,W., and D. Pascoe|The Toxicity of Copper, Cadmium and Zinc to Four Different Hydra (Cnidaria:  Hydrozoa)|Chemosphere47(10): 1059-1064|2002|10.1016/S0045-6535(02)00050-4
65810|A||Tolls,J., and J. Van Dijk|Bioconcentration of n-Dodecane and Its Highly Branched Isomer 2,2,4,6,6-Pentamethylheptane in Fathead Minnows|Chemosphere47(10): 1049-1057|2002|10.1016/S0045-6535(02)00013-9
65811|A||Davis,S.M., K.D. Drake, and K.J. Maier|Toxicity of Boron to the Duckweed, Spirodella polyrrhiza|Chemosphere48(6): 615-620|2002|10.1016/S0045-6535(02)00024-3
65812|A||Varo,I., J.C. Navarro, F. Amat, and L. Guilhermino|Characterisation of Cholinesterases and Evaluation of the Inhibitory Potential of Chlorpyrifos and Dichlorvos to Artemia salina and Artemia parthenogenetica|Chemosphere48(6): 563-569|2002|10.1016/S0045-6535(02)00075-9
65813|A||Perez-Legaspi,I.A., and R. Rico-Martinez|Acute Toxicity Tests on Three Species of the Genus Lecane (Rotifera:  Monogononta)|Hydrobiologia (Multiple Languages)446-447:375-381|2001|10.1023/A:1017531712808
65814|A||Melaas,C.L., K.D. Zimmer, M.G. Butler, and M.A. Hanson|Effects of Rotenone on Aquatic Invertebrate Communities in Prairie Wetlands|Hydrobiologia (Multiple Languages)459(1-3): 177-186|2001|10.1023/A:1012514124430
65815|A||Ptashynski,M.D., and J.F. Klaverkamp|Accumulation and Distribution of Dietary Nickel in Lake Whitefish (Coregonus clupeaformis)|Aquat. Toxicol.58(3/4): 249-264|2002|10.1016/S0166-445X(01)00231-4
65816|A||Ptashynski,M.D., R.M. Pedlar, R.E. Evans, C.L. Baron, and J.F. Klaverkamp|Toxicology of Dietary Nickel in Lake Whitefish (Coregonus clupeaformis)|Aquat. Toxicol.58(3-4): 229-247|2002|10.1016/S0166-445X(01)00239-9
65817|A||Wicks,B.J., R. Joensen, Q. Tang, and D.J. Randall|Swimming and Ammonia Toxicity in Salmonids:  The Effect of Sub Lethal Ammonia Exposure on the Swimming Performance of Coho Salmon and the Acute Toxicity of Ammonia in Swimming and Resting Rainbow Trout|Aquat. Toxicol.59(1/2): 55-69|2002|10.1016/S0166-445X(01)00236-3
65818|A||Wicks,B.J., and D.J. Randall|The Effect of Feeding and Fasting on Ammonia Toxicity in Juvenile Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.59(1/2): 71-82|2002|10.1016/S0166-445X(01)00237-5
65819|A||Heinonen,J., J. Honkanen, J.V.K. Kukkonen, and I.J. Holopainen|Bisphenol A Accumulation in the Freshwater Clam Pisidium amnicum at Low Temperatures|Arch. Environ. Contam. Toxicol.43(1): 50-55|2002|10.1007/s00244-002-1146-y
65820|A||Huggett,D.B., B.W. Brooks, B. Peterson, C.M. Foran, and D. Schlenk|Toxicity of Select beta Adrenergic Receptor-Blocking Pharmaceuticals (B-Blockers) on Aquatic Organisms|Arch. Environ. Contam. Toxicol.43(2): 229-235|2002|10.1007/s00244-002-1182-7
65821|A||Murray-Gulde,C.L., J.E. Heatley, A.L. Schwartzman, and J.H.,Jr. Rodgers|Algicidal Effectiveness of Clearigate, Cutrine-Plus, and Copper Sulfate and Margins of Safety Associated with Their Use|Arch. Environ. Contam. Toxicol.43(1): 19-27|2002|10.1007/s00244-002-1135-1
65822|A||Morley,N.J., M. Crane, and J.W. Lewis|Toxicity of Cadmium and Zinc Mixtures to Diplostomum spathaceum (Trematoda: Diplostomidae) Cercarial Survival|Arch. Environ. Contam. Toxicol.43(1): 28-33|2002|10.1007/s00244-002-1244-x
65823|A||Oliveira Ribeiro,C.A., M. Schatzmann, H.C. Silva de Assis, P.H. Silva, E. Pelletier, and F.M. Akaishi|Evaluation of Tributyltin Subchronic Effects in Tropical Freshwater Fish (Astyanax bimaculatus, Linneaus, 1758)|Ecotoxicol. Environ. Saf.51(3): 161-167|2002|10.1006/eesa.2001.2121
65824|A||Chinni,S., R.N. Khan, and P.R. Yallapragada|Acute Toxicity of Lead on Tolerance, Oxygen Consumption, Ammonia-N Excretion, and Metal Accumulation in Penaeus indicus Postlarvae|Ecotoxicol. Environ. Saf.51(2): 79-84|2002|10.1006/eesa.2000.2019
65825|A||Rose,R.M., M.St.J. Warne, and R.P. Lim|Food Concentration Affects the Life History Response of Ceriodaphnia cf. dubia to Chemicals with Different Mechanisms of Action|Ecotoxicol. Environ. Saf.51(2): 106-114|2002|10.1006/eesa.2001.2137
65826|A||Rajagopal,S., G. Van der Velde, and H.A. Jenner|Does Status of Attachment Influence Survival Time of Zebra Mussel, Dreissena polymorpha, Exposed to Chlorination?|Environ. Toxicol. Chem.21(2): 342-346|2002|10.1002/etc.5620210216
65827|A||Chowdhury,M.J., and R. Blust|Bioavailability of Waterborne Strontium to the Common Carp, Cyprinus carpio, in Complexing Environments|Aquat. Toxicol.58(3-4): 215-227|2002|10.1016/S0166-445X(01)00230-2
65828|A||Lorenzo,J.I., O. Nieto, and R. Beiras|Effect of Humic Acids on Speciation and Toxicity of Copper to Paracentrotus lividus Larvae in Seawater|Aquat. Toxicol.58(1/2): 27-41|2002|10.1016/S0166-445X(01)00219-3
65829|A||Lotufo,G.R., and P.F. Landrum|The Influence of Sediment and Feeding on the Elimination of Polycyclic Aromatic Hydrocarbons in the Freshwater Amphipod, Diporeia spp.|Aquat. Toxicol.58(3-4): 137-149|2002|10.1016/S0166-445X(01)00222-3
65830|A||Hansen,J.A., J. Lipton, P.G. Welsh, J. Morris, D. Cacela, and M.J. Suedkamp|Relationship Between Exposure Duration, Tissue Residues, Growth, and Mortality in Rainbow Trout (Oncorhynchus mykiss) Juveniles Sub-chronically Exposed to Copper|Aquat. Toxicol.58(3/4): 175-188|2002|10.1016/S0166-445X(01)00234-X
65831|A||Hansen,J.A., P.G. Welsh, J. Lipton, and M.J. Suedkamp|The Effects of Long-Term Cadmium Exposure on the Growth and Survival of Juvenile Bull Trout (Salvelinus confluentus)|Aquat. Toxicol.58(3-4): 165-174|2002|10.1016/S0166-445X(01)00233-8
65832|A||Rangsayatorn,N., E.S. Upatham, M. Kruatrachue, P. Pokethitiyook, and G.R. Lanza|Phytoremediation Potential of Spirulina (Arthrospira) platensis:  Biosorption and Toxicity Studies of Cadmium|Environ. Pollut.119(1): 45-53|2002|10.1016/S0269-7491(01)00324-4
65833|A||Christensen,M., O. Andersen, and G.T. Banta|Metabolism of Pyrene by the Polychaetes Nereis diversicolor and Arenicola marina|Aquat. Toxicol.58(1-2): 15-25|2002|10.1016/S0166-445X(01)00217-X
65834|A||Muyssen,B.T.A., and C.R. Janssen|Tolerance and Acclimation to Zinc of Ceriodaphnia dubia|Environ. Pollut.117(2): 301-306|2002|10.1016/S0269-7491(01)00182-8
65835|A||Guerra-Rivas,G., C.M. Gomez-Gutierrez, and F.J. Marquez-Rocha|Effect of Polycyclic Aromatic Hydrocarbons on the Pallial Fluid Buffering Capacity of the Marine Mussel, Mytilus galloprovincialis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(2): 171-179|2002|10.1016/S1532-0456(02)00061-3
65836|A||Osano,O., W. Admiraal, H.J.C. Klamer, D. Pastor, and E.A.J. Bleeker|Comparative Toxic and Genotoxic Effects of Chloroacetanilides, Formamidines and Their Degradation Products on Vibrio fischeri and Chironomus riparius|Environ. Pollut.119(2): 195-202|2002|10.1016/S0269-7491(01)00334-7
65837|A||Fraysse,B., J.P. Baudin, J. Garnier-Laplace, C. Adam, and A. Boudou|Effects of Cd and Zn Waterborne Exposure on the Uptake and Depuration of 57Co, 110mAg and 134Cs by the Asiatic Clam (Corbicula fluminea) and the Zebra Mussel (Dreissena polymorpha) - Whole Organism Study|Environ. Pollut.118(3): 297-306|2002|10.1016/S0269-7491(01)00305-0
65838|A||Sancho,E., J.J. Ceron, and M.D. Ferrando|Cholinesterase Activity and Hematological Parameters as Biomarkers of Sublethal Molinate Exposure in Anguilla anguilla|Ecotoxicol. Environ. Saf.46(1): 81-86|2000|10.1006/eesa.1999.1888
65839|A||Park,J.S., S. Chung, I.S. Park, Y. Kim, C.H. Koh, and I.S. Lee|Purification and Characterization of Metallothionein-Like Cadmium Binding Protein from Asian Periwinkle Littorina brevicula|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(4): 425-431|2002|10.1016/S1532-0456(02)00029-7
65840|T||Suseela,M.R., S. Sinha, S. Singh, and R. Saxena|Accumulation of Chromium and Scanning Electron Microscopic Studies in Scirpus lacustris L. Treated with Metal and Tannery Effluent|Bull. Environ. Contam. Toxicol.68(4): 540-548|2002|10.1007/s001280288
65841|A||Tripathi,P.K., and A. Singh|Toxic Effects of Dimethoate and Carbaryl Pesticides on Carbohydrate Metabolism of Freshwater Snail Lymnaea acuminata|Bull. Environ. Contam. Toxicol.68(4): 606-611|2002|10.1007/s001280297
65842|A||Burton,D.T., S.D. Turley, T.R. Shedd, and E.P. Burrows|Toxicity of Diisopropyl Methylphosphonate (DIMP) to Aquatic Organisms|Bull. Environ. Contam. Toxicol.68(2): 282-289|2002|10.1007/s001280250
65843|A||Yan,X., S. Guoxing, and D. Yu|Effect of N,N-Dimethyl Formamide Used as Organic Solvent on Two Species of Green Algae Chlorella|Bull. Environ. Contam. Toxicol.68(4): 592-599|2002|10.1007/s001280295
65844|A||Yin,L., Y. Zhou, X. Fan, and R. Lu|Induction of Phytochelatins in Lemna aequinoctialis in Response to Cadmium Exposure|Bull. Environ. Contam. Toxicol.68(4): 561-568|2002|10.1007/s001280291
65845|A||Srivastav,A.K., S.K. Srivastava, D. Mishra, S. Srivastav, and S.K. Srivastav|Ultimobranchial Gland of Freshwater Catfish, Heteropneustes fossilis in Response to Deltamethrin Treatment|Bull. Environ. Contam. Toxicol.68(4): 584-591|2002|10.1007/s001280294
65846|A||Biswas,B., and A. Kaviraj|Size Dependent Tolerance of Indian Cat Fish Heteropneustes fossilis (Bloch) to Toxicity of Cadmium and Composted Vegetation|Bull. Environ. Contam. Toxicol.68(1): 37-42|2002|10.1007/s00128-001-0216-6
65847|A||Cengiz,E.I., and E. Unlu|Histopathological Changes in the Gills of Mosquitofish, Gambusia affinis Exposed to Endosulfan|Bull. Environ. Contam. Toxicol.68(2): 290-296|2002|
65848|A||Sampaio,L.A., W. Wasielesky, and K. Campos Miranda-Filho|Effect of Salinity on Acute Toxicity of Ammonia and Nitrite to Juvenile Mugil platanus|Bull. Environ. Contam. Toxicol.68(5): 668-674|2002|10.1007/s001280306
65849|A||Hall,M.J., and M.T. Brown|Copper and Manganese Influence the Uptake of Cadmium in Marine Macroalgae|Bull. Environ. Contam. Toxicol.68(1): 49-55|2002|10.1007/s00128-001-0218-4
65850|A||Sabater,C., A. Cuesta, and R. Carrasco|Effects of Bensulfuron-Methyl and Cinosulfuron on Growth of Four Freshwater Species of Phytoplankton|Chemosphere46(7): 953-960|2002|10.1016/S0045-6535(01)00179-5
65851|A||Pietrock,M., D.J. Marcogliese, and J.D. McLaughlin|Effects of Cadmium upon Longevity of Diplostomum sp. (Trematoda: Diplostomidae) Cercariae|Chemosphere47(1): 29-33|2002|10.1016/S0045-6535(01)00283-1
65852|A||Okamura,H., T. Watanabe, I. Aoyama, and M. Hasobe|Toxicity Evaluation of New Antifouling Compounds Using Suspension-Cultured Fish Cells|Chemosphere46(7): 945-951|2002|10.1016/S0045-6535(01)00204-1
65853|A||Peng,H., B.W. Brooks, R. Chan, O. Chyan, and T.W. La Point|Response of Ceriodaphnia dubia to Ionic Silver:  Discrepancies Among Model Predictions, Measured Concentrations and Mortality|Chemosphere46(7): 1141-1146|2002|10.1016/S0045-6535(01)00137-0
65854|A||Gerritsen,A.|The Influence of Body Size, Life Stage and Sex on the Toxicity of Alkylphenols to Daphnia magna|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:109 p.|1997|
65855|A||Uno,S., H. Shiraishi, S. Hatakeyama, A. Otsuki, and J. Koyama|Accumulative Characteristics of Pesticide Residues in Organs of Bivalves (Anodonta woodiana and Corbicula leana) Under Natural Conditions|Arch. Environ. Contam. Toxicol.40(1): 35-47|2001|10.1007/s002440010146
65856|A||Cerqueira,C.C.C., and M.N. Fernandes|Gill Tissue Recovery After Copper Exposure and Blood Parameter Responses in the Tropical Fish Prochilodus scrofa|Ecotoxicol. Environ. Saf.52(2): 83-91|2002|10.1006/eesa.2002.2164
65857|A||Reyes,J.G.G., L. Dalla-Venezia, and M.G.L. Alvarez|Effect of Some Organophosphorus Pesticides on Oxygen Consumption of Shrimp, Litopenaeus vannamei|Ecotoxicol. Environ. Saf.52(2): 134-136|2002|10.1006/eesa.2001.2129
65858|A||Selck,H., B. Riemann, K. Christoffersen, V.E. Forbes, K. Gustavson, B.W. Hansen, J.A. Jacobsen, O.K. Kusk, and S. Peter|Comparing Sensitivity of Ecotoxicological Effect Endpoints Between Laboratory and Field|Ecotoxicol. Environ. Saf.52(2): 97-112|2002|10.1006/eesa.2002.2172
65859|A||Yen,J.H., K.H. Lin, and Y.S. Wang|Acute Lethal Toxicity of Environmental Pollutants to Aquatic Organisms|Ecotoxicol. Environ. Saf.52(2): 113-116|2002|10.1006/eesa.2002.2167
65860|A||Callaghan,A., T.C. Fisher, A. Grosso, G.J. Holloway, and M. Crane|Effect of Temperature and Pirimiphos Methyl on Biochemical Biomarkers in Chironomus riparius Meigen|Ecotoxicol. Environ. Saf.52(2): 128-133|2002|10.1006/eesa.2002.2160
65861|A||Pollino,C.A., and D.A. Holdway|Toxicity Testing of Crude Oil and Related Compounds Using Early Life Stages of the Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis)|Ecotoxicol. Environ. Saf.52(3): 180-189|2002|10.1006/eesa.2002.2190
65862|A||Belanger,S.E., J.W. Bowling, D.M. Lee, E.M. LeBlanc, K.M. Kerr, D.C. McAvoy, S.C. Christman, and D.H. Davidson|Integration of Aquatic Fate and Ecological Responses to Linear Alkyl Benzene Sulfonate (LAS) in Model Stream Ecosystems|Ecotoxicol. Environ. Saf.52(2): 150-171|2002|10.1006/eesa.2002.2179
65863|A||Chinni,S., and P.R. Yallapragada|Energy Levels of Penaeus indicus Postlarvae on Exposure to Lead|Ecotoxicol. Environ. Saf.52(3): 173-179|2002|10.1006/eesa.2002.2171
65864|A||Gravato,C., and M.A. Santos|Juvenile Sea Bass Liver Biotransformation Induction and Erythrocytic Genotoxic Responses to Resin Acids|Ecotoxicol. Environ. Saf.52(3): 238-247|2002|10.1006/eesa.2002.2161
65865|A||Crump,D., D. Lean, and V.L. Trudeau|Octylphenol and UV-B Radiation Alter Larval Development and Hypothalamic Gene Expression in the Leopard Frog (Rana pipiens)|Environ. Health Perspect.110(3): 277-284|2002|10.1289/ehp.02110277
65866|A||Greulich,K., E. Hoque, and S. Pflugmacher|Uptake, Metabolism, and Effects on Detoxication Enzymes of Isoproturon in Spawn and Tadpoles of Amphibians|Ecotoxicol. Environ. Saf.52(3): 256-266|2002|10.1006/eesa.2002.2182
65867|A||Oruc,E.O., N. Uner, and L. Tamer|Comparison of Na+K+-ATPase Activities and Malondialdehyde Contents in Liver Tissue for Three Fish Species Exposed to Azinphosmethyl|Bull. Environ. Contam. Toxicol.69(2): 271-277|2002|10.1007/s00128-002-0057-y
65868|A||Thompson,S.L., F.C.R. Manning, and S.M. McColl|Comparison of the Toxicity of Chromium III and Chromium VI to Cyanobacteria|Bull. Environ. Contam. Toxicol.69(2): 286-293|2002|10.1007/s00128-002-0059-9
65869|A||Kuz'Mina,V.V., I.L. Golovanova, and E. Kovalenko|Separate and Combined Effects of Cadmium, Temperature, and pH on Digestive Enzymes in Three Freshwater Teleosts|Bull. Environ. Contam. Toxicol.69(2): 302-308|2002|10.1007/s00128-002-0061-2
65870|A||Singh,R.P., N. Gupta, S. Singh, A. Singh, R. Suman, and K. Annie|Toxicity of Ionic and Nonionic Surfactants to Six Macrobes Found in Agra, India|Bull. Environ. Contam. Toxicol.69(2): 265-270|2002|10.1007/s00128-002-0056-z
65871|A||Carriquiriborde,P., and A. Ronco|Sensitivity of the Neotropical Teleost Odonthestes bonariensis (Pisces, Atherinidae) to Chromium(VI), Copper(II), and Cadmium(II)|Bull. Environ. Contam. Toxicol.69(2): 294-301|2002|10.1007/s00128-002-0060-3
65872|A||Osano,O., A.A. Oladimeji, M.H.S. Kraak, and W. Admiraal|Teratogenic Effects of Amitraz, 2,4-Dimethylaniline, and Paraquat on Developing Frog (Xenopus) Embryos|Arch. Environ. Contam. Toxicol.43(1): 42-49|2002|10.1007/s00244-002-1132-4
65873|A||Lefcort,H., M.Q. Aguon, K.A. Bond, K.R. Chapman, R. Chaquette, J. Clark, P. Kornachuk, B.Z. Lang, and J.C. Martin|Indirect Effects of Heavy Metals on Parasites may Cause Shifts in Snail Species Compositions|Arch. Environ. Contam. Toxicol.43(1): 34-41|2002|10.1007/s00244-002-1173-8
65874|A||Kukkonen,J.V.K.|Lethal Body Residue of Chlorophenols and Mixtures of Chlorophenols in Benthic Organisms|Arch. Environ. Contam. Toxicol.43(2): 214-220|2002|10.1007/s00244-002-1174-7
65875|A||Fairchild,J.F., and L.C. Sappington|Fate and Effects of the Triazinone Herbicide Metribuzin in Experimental Pond Mesocosms|Arch. Environ. Contam. Toxicol.43(2): 198-202|2002|10.1007/s00244-002-1208-1
65876|A||Daglish,R.W., and B.F. Nowak|Rainbow Trout Gills are a Sensitive Biomarker of Short-Term Exposure to Waterborne Copper|Arch. Environ. Contam. Toxicol.43(1): 98-102|2002|10.1007/s00244-002-1184-5
65877|A||Cheng,S.Y., and J.C. Chen|Accumulations of Nitrite and Nitrate in the Tissues of Penaeus monodon Exposed to a Combined Environment of Elevated Nitrite and Nitrate|Arch. Environ. Contam. Toxicol.43(1): 64-74|2002|10.1007/s00244-001-0056-8
65878|A||Ma,H., S.D. Kim, H.E. Allen, and D.K. Cha|Effect of Copper Binding by Suspended Particulate Matter on Toxicity|Environ. Toxicol. Chem.21(4): 710-714|2002|10.1002/etc.5620210404
65879|A||Kuhn,A., W.R.,Jr. Munns, J. Serbst, P. Edwards, M.G. Cantwell, T. Gleason, M.C. Pelletier, and W. Berry|Evaluating the Ecological Significance of Laboratory Response Data to Predict Population-Level Effects for the Estruarine Amphipod Ampelisca abdita|Environ. Toxicol. Chem.21(4): 865-874|2002|
65880|A||Novelli,A.A., E. Argese, D. Tagliapietra, C. Bettiol, and A.V. Ghirardini|Toxicity of Tributyltin and Triphenyltin to Early Life-Stages of Paracentrotus lividus (Echinodermata:  Echinoidea)|Environ. Toxicol. Chem.21(4): 859-864|2002|
65881|A||LaBreche,T.M.C., A.M. Dietrich, D.L. Gallagher, and N. Shepherd|Copper Toxicity to Larval Mercenaria mercenaria (Hard Clam)|Environ. Toxicol. Chem.21(4): 760-766|2002|10.1002/etc.5620210411
65882|A||Franklin,N.M., J.L. Stauber, S.C. Apte, and R.P. Lim|Effect of Initial Cell Density on the Bioavailability and Toxicity of Copper in Microalgal Bioassays|Environ. Toxicol. Chem.21(4): 742-751|2002|10.1002/etc.5620210409
65883|A||Perez-Legaspi,I.A., R. Rico-Martinez, and A. Pineda-Rosas|Toxicity Testing Using Esterase Inhibition as a Biomarker in Three Species of the Genus Lecane (Rotifera)|Environ. Toxicol. Chem.21(4): 776-782|2002|10.1002/etc.5620210413
65884|A||Chevre,N., K. Becker-Van Slooten, J. Tarradellas, A.R. Brazzale, R. Behra, and H. Guettinger|Effects of Dinoseb on the Life Cycle of Daphnia magna:  Modeling Survival Time and a Proposal for an Alternative to the No-Observed-Effect Concentration|Environ. Toxicol. Chem.21(4): 828-833|2002|
65885|A||Rehage,J.S., S.G. Lynn, J.I. Hammond, B.D. Palmer, and A. Sih|Effects of Larval Exposure to Triphenyltin on the Survival, Growth, and Behavior of Larval and Juvenile Ambystoma barbouri Salamanders|Environ. Toxicol. Chem.21(4): 807-815|2002|10.1002/etc.5620210417
65886|A||Seo,J.S., K.H. Liu, K.H. Chung, J.S. Shin, and J.H. Kim|Bioconcentration and Depuration of Pyribenzoxim in Common Carp (Cyprinus carpio)|Bull. Environ. Contam. Toxicol.68(5): 617-622|2002|10.1007/s001280299
65887|A||Brewer,S.K., E.E. Little, A.J. DeLonay, S.L. Beauvais, S.B. Jones, and M.R. Ellersieck|Behavioral Dysfunctions Correlate to Altered Physiology in Rainbow Trout (Oncorynchus mykiss) Exposed to Cholinesterase-Inhibiting Chemicals|Arch. Environ. Contam. Toxicol.40(1): 70-76|2001|10.1007/s002440010149
65888|A||Keppler,C.J., and A.H. Ringwood|Effects of Metal Exposures on Juvenile Clams, Mercenaria mercenaria|Bull. Environ. Contam. Toxicol.68(1): 43-48|2002|10.1007/s00128-001-0217-5
65889|T||Raman,N., V. Srinivasan, and M. Ravi|Effect of Chromium on the Axenic Growth and Phosphatase Activity of Ectomycorrhizal Fungi, Laccaria laccata and Suillus bovinus|Bull. Environ. Contam. Toxicol.68(4): 569-575|2002|10.1007/s001280292
65890|A||Okay,O.S., V. Tufekci, and P. Donkin|Acute and Chronic Toxicity of Pyrene to the Unicellular Marine Alga Phaeodactylum tricornutum|Bull. Environ. Contam. Toxicol.68(4): 600-605|2002|10.1007/s001280296
65891|A||Juneau,P., A. El Berdey, and R. Popovic|PAM Fluorometry in the Determination of the Sensitivity of Chlorella vulgaris, Selenastrum capricornutum, and Chlamydomonas reinhardtii to Copper|Arch. Environ. Contam. Toxicol.42(2): 155-164|2002|10.1007/s00244-001-0027-0
65892|A||Li,W., D. Yin, A. Zhang, and L. Wang|Toxicity of Chloroanilines and Effects on Superoxide Dismutase Activities in Serum of Crucian Carp (Carassius auratus)|Bull. Environ. Contam. Toxicol.68(5): 630-636|2002|10.1007/s001280301
65893|A||Beg,M.U., P.G. Jacob, K. Al-Matrouk, K.R. Beg, M. Al-Bahloul, and T. Saeed|Benzo-a-pyrene Residues in Liver and in Bile of Fish Following Oral Exposure|Bull. Environ. Contam. Toxicol.68(3): 436-443|2002|10.1007/s001280273
65894|A||Rice,T.M., J.T. Oris, and D.H. Taylor|Effects on Growth and Changes in Organ Distribution of Bullfrog Larvae Exposed to Lead Throughout Metamorphosis|Bull. Environ. Contam. Toxicol.68(1): 8-17|2002|10.1007/s00128-001-0212-x
65895|A||Sampath,K., I.J.J. Kennedy, and R. James|Pesticide Impact on Excretory Physiology of the Common Frog, Rana tigrina (Daud) Tadpoles|Bull. Environ. Contam. Toxicol.68(5): 652-659|2002|10.1007/s001280304
65896|A||Fernandez,C., C. Alonso, P. Garcia, J.V. Tarazona, and G. Carbonell|Toxicity of Linear Alkyl Benzenes (LABs) to the Aquatic Crustacean Daphnia magna Through Waterborne and Food Chain Exposures|Bull. Environ. Contam. Toxicol.68(5): 637-643|2002|10.1007/s001280302
65897|A||Pedlar,R.M., and J.F. Klaverkamp|Accumulation and Distribution of Dietary Arsenic in Lake Whitefish (Coregonus clupeaformis)|Aquat. Toxicol.57(3): 153-166|2002|10.1016/S0166-445X(01)00197-7
65898|A||Adam,C., B. Fraysse, J. Garnier-Laplace, J.P. Baudin, and A. Boudou|Impact of Cadmium and Zinc Prior Exposure on 110mSilver, 58+60Cobalt and 137Cesium Uptake by Two Freshwater Bivalves During a Brief Field Experiment|Bull. Environ. Contam. Toxicol.68(3): 428-435|2002|
65899|A||Roex,E.W.M., M.C.T. Van Langen, and C.A.M. Van Gestel|Acute Toxicity of Two Compounds with Different Modes of Action to the Zebrafish, Danio rerio|Bull. Environ. Contam. Toxicol.68(2): 269-274|2002|
65900|A||Huertas,M., E. Gisbert, A. Rodriguez, L. Cardona, P. Williot, and F. Castello-Orvay|Acute Exposure of Siberian Sturgeon (Acipenser baeri, Brandt) Yearlings to Nitrite:  Median-Lethal Concentration (LC50) Determination, Haematological Changes and Nitrite Accumulation in Selected Tissues|Aquat. Toxicol.57(4): 257-266|2002|10.1016/S0166-445X(01)00207-7
65901|A||Andres,S., J.M. Laporte, and R.P. Mason|Mercury Accumulation and Flux Across the Gills and the Intestine of the Blue Crab (Callinectes sapidus)|Aquat. Toxicol.56(4): 303-320|2002|10.1016/S0166-445X(01)00228-4
65902|A||Pruski,A.M., and D.R. Dixon|Effects of Cadmium on Nuclear Integrity and DNA Repair Efficiency in the Gill Cells of Mytilus edulis L|Aquat. Toxicol.57(3): 127-137|2002|10.1016/S0166-445X(01)00192-8
65903|A||Kreutzweiser,D.P., R.C. Back, T.M. Sutton, D.G. Thompson, and T.A. Scarr|Community-Level Disruptions Among Zooplankton of Pond Mesocosms Treated with a Neem (Azadirachtin) Insecticide|Aquat. Toxicol.56(4): 257-273|2002|10.1016/S0166-445X(01)00216-8
65904|A||Zeni,C., M.R. Bovolenta, and A. Stagni|Occurrence of Echinocytosis in Circulating RBC of Black Bullhead, Ictalurus melas (Rafinesque), Following Exposure to an Anionic Detergent at Sublethal Concentrations|Aquat. Toxicol.57(4): 217-224|2002|10.1016/S0166-445X(01)00203-X
65905|A||Nacci,D.E., M. Kohan, M. Pelletier, and E. George|Effects of Benzo(a)pyrene Exposure on a Fish Population Resistant to the Toxic Effects of Dioxin-Like Compounds|Aquat. Toxicol.57(4): 203-215|2002|10.1016/S0166-445X(01)00196-5
65906|A||Carlson,E.A., Y. Li, and J.T. Zelikoff|Exposure of Japanese Medaka (Oryzias latipes) to Benzo(a)pyrene Suppresses Immune Function and Host Resistance Against Bacterial Challenge|Aquat. Toxicol.56(4): 289-301|2002|10.1016/S0166-445X(01)00223-5
65907|A||Mouneyrac,C., J.C. Amiard, C. Amiard-Triquet, A. Cottier, P.S. Rainbow, and B.D. Smith|Partitioning of Accumulated Trace Metals in the Talitrid Amphipod Crustacean Orchestia gammarellus:  A Cautionary Tale on the Use of Metallothionein-like Proteins as Biomarkers|Aquat. Toxicol.57(4): 225-242|2002|10.1016/S0166-445X(01)00201-6
65908|A||Pedlar,R.M., M.D. Ptashynski, R. Evans, and J.F. Klaverkamp|Toxicological Effects of Dietary Arsenic Exposure in Lake Whitefish (Coregonus clupeaformis)|Aquat. Toxicol.57(3): 167-189|2002|10.1016/S0166-445X(01)00198-9
65909|A||Viant,M.R., J.H. Walton, P.L. TenBrook, and R.S. Tjeerdema|Sublethal Actions of Copper in Abalone (Haliotis rufescens) as Characterized by In Vivo 31P NMR|Aquat. Toxicol.57(3): 139-151|2002|10.1016/S0166-445X(01)00195-3
65910|A||Franklin,N.M., M.S. Adams, J.L. Stauber, and R.P. Lim|Development of an Improved Rapid Enzyme Inhibition Bioassay with Marine and Freshwater Microalgae Using Flow Cytometry|Arch. Environ. Contam. Toxicol.40(4): 469-480|2001|10.1007/s002440010199
65912|A||Ross,K.E., and J.R. Bidwell|A 48-h Larval Development Toxicity Test Using the Marine Polychaete Galeolaria caespitosa Lamarck (Fam. Serpulidae)|Arch. Environ. Contam. Toxicol.40(4): 489-496|2001|10.1007/s002440010201
65913|A||Tao,S., A. Long, R.W. Dawson, F. Xu, B. Li, J. Cao, and J. Fang|Copper Speciation and Accumulation in the Gill Microenvironment of Carp (Cyprinus carpio) in the Presence of Kaolin Particles|Arch. Environ. Contam. Toxicol.42(3): 325-331|2002|10.1007/s00244-001-0022-5
65914|A||Geret,F., and R.P. Cosson|Induction of Specific Isoforms of Metallothionein in Mussel Tissues After Exposure to Cadmium or Mercury|Arch. Environ. Contam. Toxicol.42(1): 36-42|2002|10.1007/s002440010289
65915|A||DeLorenzo,M.E., L.A. Taylor, S.A. Lund, P.L. Pennington, E.D. Strozier, and M.H. Fulton|Toxicity and Bioconcentration Potential of the Agricultural Pesticide Endosulfan in Phytoplankton and Zooplankton|Arch. Environ. Contam. Toxicol.42(2): 173-181|2002|10.1007/s00244-001-0008-3
65916|A||Spencer,H.B., W.R. Hussein, and P.B. Tchounwou|Effects of Tetrachloroethylene on the Viability and Development of Embryos of the Japanese Medaka, Oryzias latipes|Arch. Environ. Contam. Toxicol.42(4): 463-469|2002|10.1007/s00244-001-0050-1
65917|A||Medina,M., C. Barata, T. Telfer, and D.J. Baird|Age- and Sex-Related Variation in Sensitivity to the Pyrethroid Cypermethrin in the Marine Copepod Acartia tonsa Dana|Arch. Environ. Contam. Toxicol.42(1): 17-22|2002|10.1007/s002440010286
65918|A||Andersson,P.L., A.H. Berg, R. Bjerselius, L. Norrgren, H. Olsen, P.E. Olsson, S. Orn, and M. Tysklind|Bioaccumulation of Selected PCBs in Zebrafish, Three-Spined Stickleback, and Arctic Char After Three Different Routes of Exposure|Arch. Environ. Contam. Toxicol.40(4): 519-530|2001|10.1007/s002440010205
65919|A||Nguyen,L.T.H., and C.R. Janssen|Embryo-Larval Toxicity Tests with the African Catfish (Clarias gariepinus):  Comparative Sensitivity of Endpoints|Arch. Environ. Contam. Toxicol.42(2): 256-262|2002|10.1007/s00244-001-0007-4
65920|A||Qun-Fang,Z., J. Gui-Bin, and L. Ji-Yan|Effects of Sublethal Levels of Tributyltin Chloride in a New Toxicity Test Organism:  The Chinese Rare Minnow (Gobiocypris rarus)|Arch. Environ. Contam. Toxicol.42(3): 332-337|2002|10.1007/s00244-001-0014-5
65921|A||Varo,I., R. Serrano, E. Pitarch, F. Amat, F.J. Lopez, and J.C. Navarro|Bioaccumulation of Chlorpyrifos Through an Experimental Food Chain:  Study of Protein HSP70 as Biomarker of Sublethal Stress in Fish|Arch. Environ. Contam. Toxicol.42(2): 229-235|2002|10.1007/s00244-001-0013-6
65922|A||Solt,L., H. Paschinger, and E. Broda|Energy Dependent Uptake of Thallium by Chlorella (Die Energieabhangige Aufnahme von Thallium durch Chlorella)|Planta (Multiple Languages)101:242-250|1971|10.1007/BF00386831
65925|A||Zapata-Perez,O., G. Gold-Bouchot, A. Ortega, T. Lopez, and A. Albores|Effect of Pyrene on Hepatic Cytochrome P450 1A (CYP1A) Expression in Nile Tilapia (Oreochromis niloticus)|Arch. Environ. Contam. Toxicol.42(4): 477-485|2002|10.1007/s00244-001-0018-1
65927|A||Trubetskova,I., and W. Lampert|The Juvenile Growth Rate of Daphnia:  A Short-Term Alternative to Measuring the per Capita Rate of Increase in Ecotoxicology?|Arch. Environ. Contam. Toxicol.42(2): 193-198|2002|10.1007/s00244-001-0010-9
65928|A||Kobayashi,N., and H. Okamura|Effects of New Antifouling Compounds on the Development of Sea Urchin|Mar. Pollut. Bull.44:748-751|2002|10.1016/S0025-326X(02)00052-8
65930|A||Laudien,J., D. Schiedek, T. Brey, H.O. Portner, and W.E. Arntz|Survivorship of Juvenile Surf Clams Donax serra (Bivalvia, Donacidae) Exposed to Severe Hypoxia and Hydrogen Sulphide|J. Exp. Mar. Biol. Ecol.271:9-23|2002|10.1016/S0022-0981(02)00030-8
65931|A||Owen,R., A. Knap, M. Toaspern, and K. Carbery|Inhibition of Coral Photosynthesis by the Antifouling Herbicide Irgarol 1051|Mar. Pollut. Bull.44:623-632|2002|10.1016/S0025-326X(01)00303-4
65932|A||Pacheco,M., and M.A. Santos|Naphthalene and beta-Naphthoflavone Effects on Anguilla anguilla L. Hepatic Metabolism and Erythrocytic Nuclear Abnormalities|Environ. Int.28:285-293|2002|10.1016/S0160-4120(02)00037-5
65933|A||Rioboo,C., O. Gonzalez, C. Herrero, and A. Cid|Physiological Response of Freshwater Microalga (Chlorella vulgaris) to Triazine and Phenylurea Herbicides|Aquat. Toxicol.59:225-235|2002|10.1016/S0166-445X(01)00255-7
65935|A||Mangas-Ramirez,E., S.S.S. Sarma, and S. Nandini|Combined Effects of Algal (Chlorella vulgaris) Density and Ammonia Concentration on the Population Dynamics of Ceriodaphnia dubia and Moina macrocopa (Cladocera)|Ecotoxicol. Environ. Saf.51(3): 216-222|2002|10.1006/eesa.2001.2128
65936|A||Rosety-Rodriguez,M., F.J. Ordonez, M. Rosety, J.M. Rosety, I. Rosety, A. Ribelles, and C. Carrasco|Morpho-histochemical Changes in the Gills of Turbot, Scophthalmus maximus L., Induced by Sodium Dodecyl Sulfate|Ecotoxicol. Environ. Saf.51(3): 223-228|2002|10.1006/eesa.2001.2148
65937|A||Bertram,B.O.B., and R.C. Playle|Effects of Feeding on Waterborne Silver Uptake and Depuration in Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.59(2): 350-360|2002|10.1139/f02-004
65938|A||Ma,J., L. Xu, S. Wang, R. Zheng, S. Jin, S. Huang, and Y. Huang|Toxicity of 40 Herbicides to the Green Alga Chlorella vulgaris|Ecotoxicol. Environ. Saf.51(2): 128-132|2002|10.1006/eesa.2001.2113
65939|A||Galvez,F., G.D. Mayer, C.M. Wood, and C. Hogstrand|The Distribution Kinetics of Waterborne Silver-110m in Juvenile Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 367-378|2002|10.1016/S1532-0456(02)00022-4
65940|A||Lange,A., O. Ausseil, and H. Segner|Alterations of Tissue Glutathione Levels and Metallothionein mRNA in Rainbow Trout During Single and Combined Exposure to Cadmium and Zinc|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(3): 231-243|2002|10.1016/S1532-0456(02)00010-8
65941|A||Spangenberg,D.B.|Effect of Petroleum-Related Pollutants on Aurelia Growth and Development|Final Prog.Rep.DOE/EV/05593-3, Sep.12, 1977-Aug.31, 1982, Eastern Virginia Med.Schl., Norfolk, VA:26 p.|1983|
65942|A||Guha,B., and A.R. Khuda-Bukhsh|Efficacy of Vitamin-C (L-Ascorbic Acid) in Reducing Genotoxicity in Fish (Oreochromis mossambicus) Induced by Ethyl Methane Sulphonate|Chemosphere47(1): 49-56|2002|10.1016/S0045-6535(01)00308-3
65943|A||Chan,M.K., R. Othman, D. Zubir, and S. Salmijah|Induction of a Putative Metallothionein Gene in the Blood Cockle, Anadara granosa, Exposed to Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(2): 123-132|2002|10.1016/S1532-0456(01)00293-9
65944|A||Specht,W.L., D.S. Cherry, R.A. Lechleitner, and J.,Jr. Cairns|Structural, Functional, and Recovery Responses of Stream Invertebrates to Fly Ash Effluent|Can. J. Fish. Aquat. Sci.41(6): 884-896|1984|10.1139/f84-105
65945|A||Ma,J.|Differential Sensitivity to 30 Herbicides Among Populations of Two Green Algae Scenedesmus obliquus and Chlorella pyrenoidosa|Bull. Environ. Contam. Toxicol.68(2): 275-281|2002|
65947|T||Spurr,H.W.,Jr., and A.A. Sousa|Potential Interactions of Aldicarb and Its Metabolites on Nontarget Organisms in the Environment|J. Environ. Qual.3(2): 130-133|1974|10.2134/jeq1974.00472425000300020008x
65951|A||Stary,J., K. Kratzer, and J. Prasilova|The Cumulation of Alkali Earths and Alkali Metals on Alga|Int. J. Environ. Anal. Chem.14:161-167|1983|10.1080/03067318308071616
65953|T||Starzyk,J., E. Slowakiewicz, and K. Siuda|Investigations on the Action of Furfural on Some Pathogenic Protozoans|Acta Biol. Crac., Ser. Zool.12(1-2): 1-16|1969|
65957|A||Tadokoro,H., and Y. Tomita|The Relationship Between Bioaccumulation and Lipid Content of Fish|In: K.L.E.Kaiser (Ed.), QSAR in Environmental Toxicology, Dordrecht, Holland:363-373|1987|
65958|A||Taylor,G.J., A.A. Crowder, and R. Rodden|Formation and Morphology of an Iron Plaque on the Roots of Typha latifolia L. Grown in Solution Culture|Am. J. Bot.71(5): 666-675|1984|10.1002/j.1537-2197.1984.tb14173.x
65959|A||Takahashi,M., and N. Fukazawa|"A Mechanism of ""Red-Tide"" Formation II.  Effect of Selective Nutrient Stimulation on the Growth of Different Phytoplankton Species in Natural Water"|Mar. Biol.70:267-273|1982|10.1007/BF00396845
65963|A||Tanaka,O., W. Horikawa, H. Nishimura, and Y. Nasu|Flower Induction by Suppression of Nitrate Assimilation in Lemna paucicostata 6746|Plant Cell Physiol.27(1): 127-133|1986|
65965|A||Targett,N.M., S.S. Bishop, O.J. McConnell, and J.A. Yoder|Antifouling Agents Against the Benthic Marine Diatom, Navicula salinicola.  Homarine from the Gorgonians Leptogorgia virgulata and L. setacea and Analogs|J. Chem. Ecol.9(7): 817-829|1983|10.1007/BF00987807
65968|T||Taylor,G.J., and A.A. Crowder|Uptake and Accumulation of Copper, Nickel, and Iron by Typha latifolia Grown in Solution Culture|Can. J. Bot.61(7): 1825-1830|1983|10.1139/b83-193
65969|T||Taylor,G.J., and A.A. Crowder|Copper and Nickel Tolerance in Typha latifolia Clones from Contaminated and Uncontaminated Environments|Can. J. Bot.62:1304-1308|1984|10.1139/b84-176
65971|A||Thomas,W.H., S.S. Rossi, and D.L.R. Seibert|Effects of Some Representative Petroleum Refinery Effluent Compounds on Photosynthesis and Growth of Natural Marine Phytoplankton Assemblages: Part 1 - Cresols|Mar. Environ. Res.4:203-215|1981|10.1016/0141-1136(81)90035-0
65976|A||Thursby,G.B.|Nutritional Requirements of the Submerged Angiosperm Ruppia maritima in Algae-Free Culture|Mar. Ecol. Prog. Ser.16:45-50|1984|10.3354/meps016045
65977|A||Till,J.E.|The Effect of Chronic Exposure to 238Pu(IV) Citrate on the Embryonic Development of Carp and Fathead Minnow Eggs|Health Phys.34:333-343|1978|10.1097/00004032-197804000-00003
65980|A||Tiwari,D.N., and A.K. Pandey|2,4-D Resistant Mutant Strains of Anacystis nidulans & Filament Formation|Indian J. Exp. Biol.19:988-990|1981|
65981|A||Tiwari,D.N., A.K. Pandey, and A.K. Misra|Toxicity of 2,4-Dichlorophenoxy Acetic Acid on Growth and Nitrogen Fixation of Blue-Green Alga Anabaena cylindrica|Pesticides 18:16-18|1984|
65982|A||Tiwari,D.N., A.K. Pandey, and A.K. Mishra|Action of 2,4-Dichlorophenoxyacetic Acid and Rifampicin on Heterocyst Differentiation in the Blue-Green Alga, Nostoc linckia|J. Biosci.3(1): 33-39|1981|10.1007/BF02703345
65983|A||Tiwari,D.N., and A.K. Pandey|Bio-Detoxification of Different Groups of Herbicides by Blue-Green Alga Nostoc calcicola|Indian J. Microbiol.21:163-164|1981|
65984|A||Tokuda,H.|Influence of an Aqueous Extract of a Mineral Oil on Phototaxis of Gametes and Zoospores and on Germination of Zygotes of Ulva pertusa (Ulvaceae, Chlorophyta)|Hydrobiologia (Multiple Languages)116/117:433-437|1984|10.1007/BF00027716
65986|A||Tomita,H., and N. Matsuda|Deformity of Vertebrae Induced by Lathyrogenic Agents and Phenylthiourea in the Medaka (Oryzias latipes)|Embryologia5(4): 413-422|1961|10.1111/j.1440-169X.1961.tb00107.x
65988|A||Topcuoglu,S.|The Loss (In Field and Under Laboratory Conditions) of 65Zn by the Postlarval Rudd, Scardinius erythrophthalmus L.|Chemosphere4:177-179|1979|10.1016/0045-6535(79)90067-5
66018|A||Steelman,C.D., B.R. Craven, and E.J. Villavaso|Control of Southern House Mosquito Larvae in Louisiana Papermill Log Ponds|J. Econ. Entomol.62(5): 1152-1154|1969|10.1093/jee/62.5.1152
66020|A||Stegeman,J.J., A.V. Klotz, B.R. Woodin, and A.M. Pajor|Induction of Hepatic Cytochrome P-450 in Fish and the Indication of Environmental Induction in Scup (Stenotomus chrysops)|Aquat. Toxicol.1:197-212|1981|10.1016/0166-445X(81)90015-1
66021|A||Stegeman,J.J.|Temperature Influence on Basal Activity and Induction of Mixed Function Oxygenase Activity in Fundulus heteroclitus|J. Fish. Res. Board Can.36:1400-1405|1979|10.1139/f79-200
66022|A||Stegeman,J.J., A.M. Pajor, and P. Thomas|Influence of Estradiol and Testosterone on Cytochrome P-450 and Monooxygenase Activity in Immature Brook Trout, Salvelinus fontinalis|Biochem. Pharmacol.31(24): 3979-3989|1982|10.1016/0006-2952(82)90644-X
66023|A||Stehly,G.R., P.F. Landrum, M.G. Henry, and C. Klemm|Toxicokinetics of PAHs in Hexagenia|Environ. Toxicol. Chem.9:167-174|1990|10.1002/etc.5620090206
66024|A||Stekoll,M.S., L.E. Clement, and D.G. Shaw|Sublethal Effects of Chronic Oil Exposure on the Intertidal Clam Macoma balthica|Mar. Biol.57(1): 51-60|1980|10.1007/BF00420967
66026|A||Stensby,D.G., and J.M. Harkin|Chemical Nature and Toxicity of Chlorophenol Derivatives Related to Pulp Bleaching|Technical Report WIS WRC 77-10, Water Resources Center, University of Wisconsin, Madison, WI:119 p.|1977|
66027|A||Storebakken,T., E. Austreng, and K. Steenberg|A Method for Determination of Feed Intake in Salmonids Using Radioactive Isotopes|Aquaculture24(1/2): 133-142|1981|10.1016/0044-8486(81)90050-8
66029|A||Storch,T.A., and V.L. Dunham|Iron-Mediated Changes in the Growth of Lake Erie Phytoplankton and Axenic Algal Cultures|J. Phycol.22:109-117|1986|
66032|A||Stratton,G.W., and C.T. Corke|The Effect of Nickel on the Growth, Photosynthesis, and Nitrogenase Activity of Anabaena inaequalis|Can. J. Microbiol.25:1094-1099|1979|10.1139/m79-167
66035|A||Suzuki,Y., M. Nakahara, R. Nakamura, and T. Ueda|Roles of Food and Sea Water in the Accumulation of Radionuclides by Marine Fish|Nippon Suisan Gakkaishi (Multiple Languages)45(11): 1409-1416|1979|10.2331/suisan.45.1409
66038|T||Suzuki,K.T., and R. Kawamura|Metallothionein Present or Induced in the Three Species of Frogs Bombina orientalis, Bufo bufo japonicus and Hyla arborea japonica|Comp. Biochem. Physiol. C Comp. Pharmacol.79(2): 255-260|1984|10.1016/0742-8413(84)90195-6
66039|T||Suzuki,K.T., H. Akitomi, and R. Kawamura|Cadmium, Copper and Zinc-Binding Protein (Metallothionein) in the Liver of the Water Lizard Triturus pyrrhogaster|Toxicol. Lett.21:179-184|1984|10.1016/0378-4274(84)90203-0
66045|A||Sydnes,L.K., T.H. Hemmingsen, S. Skare, S.H. Hansen, I.B. Falk-Petersen, S. Lonning, and K. Ostgaard|Seasonal Variations in Weathering and Toxicity of Crude Oil on Seawater Under Arctic Conditions|Environ. Sci. Technol.19(11): 1076-1080|1985|10.1021/es00141a009
66046|AT||Szeto,S., and K.M.S. Sundaram|Residues of Chlorpyrifos-Methyl in Balsam Fir Foliage, Forest Litter, Soil, Stream Water, Sediment and Fish Tissue After Double Aerial Applications of Reldan|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(6): 743-766|1981|
66047|A||North,W.J.|Trace Metals in Giant Kelp, Macrocystis|Am. J. Bot.67(7): 1097-1101|1980|10.1002/j.1537-2197.1980.tb07742.x
66049|A||Lemke,A.E.|Round Robin Testing of the Midge (Tanytarsus): Acute and Chronic Toxicity Tests of 2,4,6-Trichlorophenol and Acenaphthene|Final Rep., Contract No.68-03-3081, U.S.EPA, Duluth, MN:66 p.|1982|
66050|AT||Noshiro,M., and T. Omura|Microsomal Monooxygenase System in Frog Livers|Comp. Biochem. Physiol. B Comp. Biochem.77(4): 761-767|1984|10.1016/0305-0491(84)90310-9
66056|A||Oettmeier,W., U. Hilp, W. Draber, C. Fedtke, and R.R. Schmidt|Structure-Activity Relationships of Triazinone Herbicides on Resistant Weeds and Resistant Chlamydomonas reinhardtii|Pestic. Sci.33:399-409|1991|10.1002/ps.2780330402
66065|T||Oishi,S., and K. Hiraga|Testicular Atrophy Induced by Phthalic Acid Esters:  Effect on Testosterone and Zinc Concentrations|Toxicol. Appl. Pharmacol.53(1): 35-41|1980|10.1016/0041-008X(80)90378-6
66067|A||Olah,J., and J. Farkas|Effect of Temperature, pH, Antibiotics, Formalin and Malachite Green on the Growth and Survival of Saprolegnia and Achlya Parasitic on Fish|Aquaculture13:273-288|1978|10.1016/0044-8486(78)90009-1
66068|A||Oldham,M.L., E.E. Lusk, and D.J. Womeldorf|Evaluation of Several Insecticides for the Control of Larval Aedes sierrensis (Ludlow)|Mosq. News37(2): 218-221|1977|
66072|A||Opperhuizen,A., and R.C.A.M. Stokkel|Influence of Contaminated Particles on the Bioaccumulation of Hydrophobic Organic Micropollutants in Fish|Environ. Pollut.51:165-177|1988|10.1016/0269-7491(88)90259-X
66085|A||Neilson,A.H., A.S. Allard, S. Reiland, M. Remberger, A. Tarnholm, T. Viktor, and L. Landner|Tri- and Tetra-Chloroveratrole, Metabolites Produced by Bacterial O-Methylation of Tri- and Tetra-Chloroguaiacol:  An Assessment of Their Bioconcentration Potential and Their Effects on Fish Reproduction|Can. J. Fish. Aquat. Sci.41:1502-1512|1984|10.1139/f84-185
66086|A||Nelson,J.H., N.E. Pennington, and M.V. Meisch|Use of a Controlled-Release Material for Control of Ricefield Mosquitoes|Ark. Farm Res.25(3): 9-|1976|
66089|T||Neukomm,S., and M. Luder-Huguenin|Investigations on the Neoplasic Power of Chemical Compounds in Newt.  I.  Derivatives of Fluorene, Fluorenacenes and Fluorenaphenes|Oncologia13:294-303|1960|10.1159/000224056
66097|T||Nigam,H.C.|Vomiting Response in the Indian Frogs Rana tigrina (Daud) and Rana cyanophlyctis (Boulenger)|Curr. Sci. (Bangalore)46(22): 791-792|1977|
66102|A||Ostgaard,K., I. Eide, and A. Jensen|Exposure of Phytoplankton to Ekofisk Crude Oil|Mar. Environ. Res.11:183-200|1984|10.1016/0141-1136(84)90045-X
66106|A||Oteifa,B.A., A.H. Mousa, A.A. Abou-El-Hassan, A.M. Mohamed, and M.A. El-Emam|Effect of Certain Insecticides in the Control of the Fresh Water Snails, Biomphalaria alexandrina and Bulinus truncatus|Egypt. J. Bilharz.2(2): 221-242|1975|
66116|A||Parker,J.I., K.A. Stanlaw, J.S. Marshall, and C.W. Kennedy|Sorption and Sedimentation of Zn and Cd by Seston in Southern Lake Michigan|J. Great Lakes Res.8(3): 520-531|1982|10.1016/S0380-1330(82)71990-2
66117|A||Parker,L.M., D.J. Lauren, J.B. Cooke, and D.E. Hinton|Metabolism of Endogenous and Xenobiotic Aldehydes by Rainbow Trout (Oncorhynchus mykiss) Liver Fractions|Aquat. Toxicol.18:1-12|1990|10.1016/0166-445X(90)90031-J
66119|A||Parkhurst,M.A., G. Whelan, Y. Onishi, and A.R. Olsen|Simulation of the Migration, Fate, and Effects of Diazinon in Two Monticello Stream Channels|Battelle Pacific Northwest Labs., Richland, WA:112 p.|1981|
66120|A||Lopez Greco,L.S., J. Bolanos, E.M. Rodriguez, and G. Hernandez|Survival and Molting of the Pea Crab Larvae Tunicotheres moseri Rathbun 1918 (Brachyura, Pinnotheridae) Exposed to Copper|Arch. Environ. Contam. Toxicol.40(4): 505-510|2001|10.1007/s002440010203
66121|T||Figuls,M., C. Castane, and R. Gabarra|Residual Toxicity of Some Insecticides on the Predatory Bugs Dicyphus tamaninii and Macrolophus caliginosus|Biocontrol44(1): 89-98|1999|10.1023/A:1009923709456
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66272|T||Piasek,M., and K. Kostial|Exposure to Lead and Blood Pressure in Adult and Perinatally Exposed Rats|Environ. Geochem. Health12(suppl.): 239-245|1990|
66274|T||Cerklewski,F.L.|Reduction in Neonatal Lead Exposure by Supplemental Dietary Iron During Gestation and Lactation in the Rat|J. Nutr.110(7): 1453-1457|1980|10.1093/jn/110.7.1453
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66277|T||Mitra,A.K., R.P. Purkayastha, N.B. Chatterjee, and B. Bhattacharyya|Uptake and Tissue Distribution of Cadmium in Albino Rat After Oral Exposure to Cadmium-Contaminated Edible Mushroom and Its Effect on Blood|Curr. Sci. (Bangalore)68(10): 1050-1053|1995|
66278|T||Koo,S.I., and S.L. Winslow|A Selective Elevation in Low-Density Lipoprotein Cholesterol by 5 ppm of Dietary Cadmium|Nutr. Rep. Int.27(1): 131-136|1983|
66280|A||Hill,M., C. Stabile, L.K. Steffen, and A. Hill|Toxic Effects of Endocrine Disrupters on Freshwater Sponges:  Common Developmental Abnormalities|Environ. Pollut.117(2): 295-300|2002|10.1016/S0269-7491(01)00183-X
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66282|A||Carnevali,M.D.C., S. Galassi, F. Bonasoro, M. Patruno, and M.C. Thorndyke|Regenerative Response and Endocrine Disrupters in Crinoid Echinoderms:  Arm Regeneration in Antedon mediterranea After Experimental Exposure to Polychlorinated Biphenyls|J. Exp. Biol.204(5): 835-842|2001|10.1242/jeb.204.5.835
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66284|A||Tatarazako,N., Y. Takao, K. Kishi, N. Onikura, K. Arizono, and T. Iguchi|Styrene Dimers and Trimers Affect Reproduction of Daphnid (Ceriodaphnia dubia)|Chemosphere48(6): 597-601|2002|10.1016/S0045-6535(02)00119-4
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66292|T||Lundholm,C.E., and M. Bartonek|Effects of p,p'-DDE and Some Other Chlorinated Hydrocarbons on the Formation of Prostaglandins by the Avian Eggshell Gland Mucosa|Arch. Toxicol.66(6): 387-391|1992|10.1007/BF02035127
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66296|A||Larsen,D.K., I. Wagner, K. Gustavson, V.E. Forbes, and T. Lund|Long-Term Effect of Sea-Nine on Natural Coastal Phytoplankton Communities Assessed by Pollution Induced Community Tolerance|Aquat. Toxicol.62(1): 35-44|2003|10.1016/S0166-445X(02)00065-6
66297|A||Rees,C.B., S.D. McCormick, J.P. Vanden Heuvel, and W. Li|Quantitative PCR Analysis of CYP1A Induction in Atlantic Salmon (Salmo salar)|Aquat. Toxicol.62(1): 67-78|2003|10.1016/S0166-445X(02)00062-0
66298|A||Affonso,E.G., V.L.P. Polez, C.F. Correa, A.F. Mazon, M.R.R. Araujo, G. Moraes, and F.T. Rantin|Blood Parameters and Metabolites in the Teleost Fish Colossoma macropomum Exposed to Sulfide or Hypoxia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(3): 375-382|2002|10.1016/S1532-0456(02)00127-8
66299|A||Reid,S.D.|Physiological Impact of Acute Molybdenum Exposure in Juvenile Kokanee Salmon (Oncorhynchus nerka)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(3): 355-367|2002|10.1016/S1532-0456(02)00121-7
66300|A||Page,G.I., and S.J. Davies|Astaxanthin and Canthaxanthin do not Induce Liver or Kidney Xenobiotic-Metabolizing Enzymes in Rainbow Trout (Oncorhynchus mykiss Walbaum)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(3): 443-451|2002|10.1016/S1532-0456(02)00168-0
66301|A||Stephensen,E., J. Sturve, and L. Forlin|Effects of Redox Cycling Compounds on Glutathione Content and Activity of Glutathione-Related Enzymes in Rainbow Trout Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(3): 435-442|2002|10.1016/S1532-0456(02)00129-1
66302|A||Kwak,I.S., T.S. Chon, H.M. Kang, N.I. Chung, J.S. Kim, S.C. Koh, S.K. Lee, and Y.S. Kim|Pattern Recognition of the Movement Tracks of Medaka (Oryzias latipes) in Response to Sub-lethal Treatments of an Insecticide by Using Artificial Neural Networks|Environ. Pollut.120(3): 671-681|2002|10.1016/S0269-7491(02)00183-5
66303|A||Gowland,B., L. Webster, R. Fryer, I. Davies, C. Moffat, and R. Stagg|Uptake and Effects of the Cypermethrin-Containing Sea Lice Treatment Excis in the Marine Mussel, Mytilus edulis|Environ. Pollut.120(3): 805-811|2002|10.1016/S0269-7491(02)00176-8
66304|A||Talarico,L.|Fine Structure and X-Ray Microanalysis of a Red Macrophyte Cultured Under Cadmium Stress|Environ. Pollut.120(3): 813-821|2002|10.1016/S0269-7491(02)00156-2
66305|A||Einicker-Lamas,M., G.A. Mezian, T.B. Fernandes, F.L.S. Silva, F. Guerra, K. Miranda, M. Attias, and M.M. Oliveira|Euglena gracilis as a Model for the Study of Cu2+ and Zn2+ Toxicity and Accumulation in Eukaryotic Cells|Environ. Pollut.120(3): 779-786|2002|10.1016/S0269-7491(02)00170-7
66306|A||Serra,E.L., C.C. Medalha, R.O. Bueno, and R. Mattioli|The Role of Chlorpheniramine in Inhibitory Avoidance in Danio rerio|J. Fish Biol.60(5): 1342-1345|2002|
66307|A||Pinckney,J.L., E.B. Ornolfsdottir, and S.E. Lumsden|Estuarine Phytoplankton Group-Specific Responses to Sublethal Concentrations of the Agricultural Herbicide, Atrazine|Mar. Pollut. Bull.44(10): 1109-1116|2002|10.1016/S0025-326X(02)00165-0
66308|A||Granmo,A., R. Ekelund, J.A. Sneli, M. Berggren, and J. Svavarsson|Effects of Antifouling Paint Components (TBTO, Copper and Triazine) on the Early Development of Embryos in Cod (Gadus morhua L.)|Mar. Pollut. Bull.44(10): 1142-1148|2002|10.1016/S0025-326X(02)00170-4
66309|A||Olivier,F., M. Ridd, and D. Klumpp|The Use of Transplanted Cultured Tropical Oysters (Saccostrea commercialis) to Monitor Cd Levels in North Queensland Coastal Waters (Australia)|Mar. Pollut. Bull.44(10): 1051-1062|2002|10.1016/S0025-326X(02)00157-1
66310|A||Boisson,F., O. Cotret, and S.W. Fowler|Transfer and Distribution of Lead in the Asteroid Asterias rubens Following Ingestion of Contaminated Food:  A Radiotracer Study|Mar. Pollut. Bull.44(10): 1003-1009|2002|10.1016/S0025-326X(02)00138-8
66311|A||Owen,R., L. Buxton, S. Sarkis, M. Toaspern, A. Knap, and M. Depledge|An Evaluation of Hemolymph Cholinesterase Activities in the Tropical Scallop, Euvola (Pecten) ziczac, for the Rapid Assessment of Pesticide Exposure|Mar. Pollut. Bull.44(10): 1010-1017|2002|10.1016/S0025-326X(02)00139-X
66312|A||Bergey,L., J.S. Weis, and P. Weis|Mercury Uptake by the Estuarine Species Palaemonetes pugio and Fundulus heteroclitus Compared with Their Parasites, Probopyrus pandalicola and Eustrongylides sp.|Mar. Pollut. Bull.44(10): 1046-1050|2002|10.1016/S0025-326X(02)00154-6
66313|T||Sroka,J., Z. Madeja, M. Michalik, S. Przestalski, and W. Korohoda|Folic Acid, Ascorbic Acid and Sodium Selenite Restore the Motility of Dictyostelium discoideum Inhibited by Triethyllead|Toxicology180(3): 275-292|2002|10.1016/S0300-483X(02)00419-5
66314|A||Seguin,F., F. Le Bihan, C. Leboulanger, and A. Berard|A Risk Assessment of Pollution:  Induction of Atrazine Tolerance in Phytoplankton Communities in Freshwater Outdoor Mesocosms, Using Chlorophyll Fluorescence as an Endpoint|Water Res.36(13): 3227-3236|2002|10.1016/S0043-1354(02)00013-1
66317|A||Sidharthan,M., K.S. Young, L.H. Woul, P.K. Soon, and H.W. Shin|TBT Toxicity on the Marine Microalga Nannochloropsis oculata|Mar. Pollut. Bull.45(1-12): 177-180|2002|10.1016/S0025-326X(01)00283-1
66318|A||Macinnis-Ng,C.M.O., and P.J. Ralph|Towards a more Ecologically Relevant Assessment of the Impact of Heavy Metals on the Photosynthesis of the Seagrass, Zostera capricorni|Mar. Pollut. Bull.45(1-12): 100-106|2002|10.1016/S0025-326X(01)00300-9
66319|A||Worboys,M.A., K.M.Y. Leung, E.P.M. Grist, and M. Crane|Time Should be Considered in Developmental Ecotoxicity Test|Mar. Pollut. Bull.45(1-13): 92-99|2002|10.1016/S0025-326X(02)00116-9
66320|A||Gregory,M.A., D.J. Marshall, R.C. George, A. Anandraj, and T.P. McClurg|Correlations Between Metal Uptake in the Soft Tissue of Perna perna and Gill Filament Pathology After Exposure to Mercury|Mar. Pollut. Bull.45(1-12): 114-125|2002|10.1016/S0025-326X(01)00325-3
66321|A||Cheung,S.G., K.K. Tai, C.K. Leung, and Y.M. Siu|Effects of Heavy Metals on the Survival and Feeding Behaviour of the Sandy Shore Scavenging Gastropod Nassarius festivus (Powys)|Mar. Pollut. Bull.45(1-12): 107-113|2002|10.1016/S0025-326X(01)00324-1
66322|A||Roast,S.D., J. Widdows, and M.B. Jones|Behavioural Responses of Estuarine Mysids to Hypoxia and Disruption by Cadmium|Mar. Environ. Res.54(3-5): 319-323|2002|10.1016/S0141-1136(02)00134-4
66323|A||Wassenberg,D.M., E.E. Swails, and R.T. Di Giulio|Effects of Single and Combined Exposures to Benzo(a)pyrene and 3,3',4,4',5-Pentachlorobiphenyl on EROD Activity and Development in Fundulus heteroclitus|Mar. Environ. Res.54(3-5): 279-283|2002|10.1016/S0141-1136(02)00182-4
66324|A||Meiller,J.C., and B.P. Bradley|Zinc Concentration Effect at the Organismal, Cellular and Subcellular Levels in the Eastern Oyster|Mar. Environ. Res.54(3-5): 401-404|2002|10.1016/S0141-1136(02)00165-4
66325|A||Serafim,M.A., R.M. Co., M.J. Bebianno, and W.J. Langston|Effect of Temperature and Size on Metallothionein Synthesis in the Gill of Mytilus galloprovincialis Exposed to Cadmium|Mar. Environ. Res.54(3-5): 361-365|2002|10.1016/S0141-1136(02)00121-6
66326|A||Correia,A.D., D.R. Livingstone, and M.H. Costa|Effects of Water-Borne Copper on Metallothionein and Lipid Peroxidation in the Marine Amphipod Gammarus locusta|Mar. Environ. Res.54(3-5): 357-360|2002|10.1016/S0141-1136(02)00114-9
66327|A||Durand,F., L.D. Peters, and D.R. Livingstone|Effect of Intertidal Compared to Subtidal Exposure on the Uptake, Loss and Oxidative Toxicity of Water-Born Benzo(a)pyrene in the Mantle and Whole Tissues of the Mussel, Mytilus edulis L|Mar. Environ. Res.54(3-5): 271-274|2002|10.1016/S0141-1136(02)00199-X
66328|A||Arzuaga,X., and A. Elskus|Evidence for Resistance to Benzo(a)pyrene and 3,4,3',4'-Tetrachlorobiphenyl in a Chronically Polluted Fundulus heteroclitus Population|Mar. Environ. Res.54(3-5): 247-251|2002|10.1016/S0141-1136(02)00184-8
66329|A||Alves,S.R.C., P.C. Severino, D.P. Ibbotson, A.Z. Da Silva, F.R.A.S. Lopes, L.A. Saenz, and A.C.D. Bainy|Effects of Furadan in the Brown Mussel Perna perna and in the Mangrove Oyster Crassostrea rhizophorae|Mar. Environ. Res.54(3-5): 241-245|2002|10.1016/S0141-1136(02)00138-1
66330|A||Geret,F., A. Serafim, L. Barreira, and M.J. Bebianno|Response of Antioxidant Systems to Copper in the Gills of the Clam Ruditapes decussatus|Mar. Environ. Res.54(3-5): 413-417|2002|10.1016/S0141-1136(02)00164-2
66331|A||Fillmann,G., G.M. Watson, E. Francioni, J.W. Readman, and M.H. Depledge|A Non-Destructive Assessment of the Exposure of Crabs to PAH Using ELISA Analyses of Their Urine and Haemolymph|Mar. Environ. Res.54(3-5): 823-828|2002|10.1016/S0141-1136(02)00109-5
66332|A||Werner,I., J. Geist, M. Okihiro, P. Rosenkranz, and D.E. Hinton|Effects of Dietary Exposure to the Pyrethroid Pesticide Esfenvalerate on Medaka (Oryzias latipes)|Mar. Environ. Res.54(3-5): 609-614|2002|10.1016/S0141-1136(02)00151-4
66333|A||Cravedi,J.P., and E. Perdu-Durand|The Phthalate Diesters DEHP and DBP do not Induce Lauric Acid Hydroxylase Activity in Rainbow Trout|Mar. Environ. Res.54(3-5): 787-791|2002|10.1016/S0141-1136(02)00196-4
66334|A||Fourcy,D., A. Jumel, M. Heydorff, and L. Lagadic|Esterases as Biomarkers in Nereis (Hediste) diversicolor Exposed to Temephos and Bacillus thuringiensis var. israelensis Used for Mosquito Control in Coastal Wetlands of Morbihan (Brittany, France)|Mar. Environ. Res.54(3-5): 755-759|2002|10.1016/S0141-1136(02)00153-8
66335|A||Telli-Karakoc,F., P.J. Ruddock, D.J. Bird, A. Hewer, A. Van Schanke, D.H. Phillips, and L.D. Peters|Correlative Changes in Metabolism and DNA Damage in Turbot (Scophthalmus maximus) Exposed to Benzo(a)pyrene|Mar. Environ. Res.54(3-5): 511-515|2002|10.1016/S0141-1136(02)00192-7
66336|A||Camus,L., M.B. Jones, J.F. Borseth, B.E. Grosvik, F. Regoli, and M.H. Depledge|Total Oxyradical Scavenging Capacity and Cell Membrane Stability of Haemocytes of the Arctic Scallop, Chlamys islandicus, Following Benzo(a)pyrene Exposure|Mar. Environ. Res.54(3-5): 425-430|2002|10.1016/S0141-1136(02)00140-X
66337|A||Large,A.T., J.P. Shaw, L.D. Peters, A.D. McIntosh, L. Webster, A. Mally, and J.K. Chipman|Different Levels of Mussel (Mytilus edulis) DNA Strand Breaks Following Chronic Field and Acute Laboratory Exposure to Polycyclic Aromatic Hydrocarbons|Mar. Environ. Res.54(3-5): 493-497|2002|10.1016/S0141-1136(02)00139-3
66338|A||Lyons,B.P., C.K. Pascoe, and I.R.B. McFadzen|Phototoxicity of Pyrene and Benzo(a)pyrene to Embryo-Larval Stages of the Pacific Oyster Crassostrea gigas|Mar. Environ. Res.54(3-5): 627-631|2002|10.1016/S0141-1136(02)00124-1
66339|A||Horiguchi,T., M. Kojima, M. Kaya, T. Matsuo, H. Shiraishi, M. Morita, and Y. Adachi|Tributyltin and Triphenyltin Induce Spermatogenesis in Ovary of Female Abalone, Haliotis gigantea|Mar. Environ. Res.54(3-5): 679-684|2002|10.1016/S0141-1136(02)00185-X
66340|A||Teh,S.J., X. Deng, F.C. Teh, and S.O. Hung|Selenium-Induced Teratogenicity in Sacramento Splittail (Pogonichthys macrolepidotus)|Mar. Environ. Res.54(3-5): 605-608|2002|10.1016/S0141-1136(02)00152-6
66341|A||Duffy,J.E., E. Carlson, Y. Li, C. Prophete, and J.T. Zelikoff|Impact of Polychlorinated Biphenyls (PCBs) on the Immune Function of Fish:  Age as a Variable in Determining Adverse Outcome|Mar. Environ. Res.54(3-5): 559-563|2002|10.1016/S0141-1136(02)00176-9
66342|A||Carlson,E.A., Y. Li, and J.T. Zelikoff|The Japanese Medaka (Oryzias latipes) Model:  Applicability for Investigating the Immunosuppressive Effects of the Aquatic Pollutant Benzo(a)pyrene (BaP)|Mar. Environ. Res.54(3-5): 565-568|2002|10.1016/S0141-1136(02)00175-7
66343|A||Tugiyono, and M.M. Gagnon|Metabolic Disturbances in Fish Exposed to Sodium Pentachlorophenate (NaPCP) and 3,3',4,4',5-Pentachlorobiphenyl (PCB126), Individually or Combined|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(4): 425-435|2002|10.1016/S1532-0456(02)00091-1
66344|A||Anandraj,A., D.J. Marshall, M.A. Gregory, and T.P. McClurg|Metal Accumulation, Filtration and O2 Uptake Rates in the Mussel Perna perna (Mollusca: Bivalvia) Exposed to Hg2+, Cu2+, and Zn2+|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(3): 355-363|2002|10.1016/S1532-0456(02)00081-9
66345|A||Kilemade,M., M. Lyons-Alcantara, T. Rose, R. Fitzgerald, and C. Mothersill|Rainbow Trout Primary Epidermal Cell Proliferation as an Indicator of Aquatic Toxicity: An In Vitro/In Vivo Exposure Comparison|Aquat. Toxicol.60(1/2): 43-59|2002|10.1016/S0166-445X(01)00269-7
66346|A||Charles,A.L., S.J. Markich, J.L. Stauber, and L.F. De Filippis|The Effect of Water Hardness on the Toxicity of Uranium to a Tropical Freshwater Alga (Chlorella sp.)|Aquat. Toxicol.60(1/2): 61-73|2002|10.1016/S0166-445X(01)00260-0
66347|A||Barata,C., S.J. Markich, D.J. Baird, G. Taylor, and A.M.V.M. Soares|Genetic Variability in Sublethal Tolerance to Mixtures of Cadmium and Zinc in Clones of Daphnia magna Straus|Aquat. Toxicol.60(1-2): 85-99|2002|10.1016/S0166-445X(01)00275-2
66349|A||Yan,H., and G. Pan|Toxicity and Bioaccumulation of Copper in Three Green Microalgal Species|Chemosphere49(5): 471-476|2002|10.1016/S0045-6535(02)00285-0
66350|A||Polat,H., F.U. Erkoc, R. Viran, and O. Kocak|Investigation of Acute Toxicity of beta-Cypermethrin on Guppies Poecilia reticulata|Chemosphere49(1): 39-44|2002|10.1016/S0045-6535(02)00171-6
66352|A||Silvestre,F., G. Trausch, L. Spano, and P. Devos|Effects of Atrazine on Osmoregulation in the Chinese Mitten Crab, Eriocheir sinensis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(3): 385-390|2002|10.1016/S1532-0456(02)00090-X
66353|A||Sacan,M.T., I.A. Balcioglu, and C. Ercan|Laboratory Bioaccumulation of Copper, Lead and Selenium in the Marine Alga Dunaliella tertiolecta Metal Pair Situation|Toxicol. Environ. Chem.76(1/2): 17-27|2000|10.1080/02772240009358912
66354|A||Evans,R.D., G.C. Balch, H.E. Evans, and P.M. Welbourn|Simultaneous Measurement of Uptake and Elimination of Cadmium by Caddisfly (Trichoptera:  Hydropsychidae) Larvae Using Stable Isotope Tracers|Environ. Toxicol. Chem.21(5): 1032-1039|2002|10.1002/etc.5620210520
66355|A||Boutet,I., A. Tanguy, M. Auffret, R. Riso, and D. Moraga|Immunochemical Quantification of Metallothioneins in Marine Mollusks:  Characterization of a Metal Exposure Bioindicator|Environ. Toxicol. Chem.21(5): 1009-1014|2002|10.1002/etc.5620210517
66356|A||Hansen,H.J.M., M. Grosell, U. Jacobsen, J.C. Jorgensen, C. Hogstrand, and C.M. Wood|Precautions in the Use of 110MAg as a Tracer of Silver Metabolism in Ecotoxicology:  Preferential Bioconcentration of 109Cd by Trout Gills After 110MAg Exposure|Environ. Toxicol. Chem.21(5): 1004-1008|2002|10.1002/etc.5620210516
66357|A||Barata,C., D.J. Baird, S.E. Mitchell, and A.M.V.M. Soares|Among- and Within-Population Variability in Tolerance to Cadmium Stress in Natural Populations of Daphnia magna:  Implications for Ecological Risk Assessment|Environ. Toxicol. Chem.21(5): 1058-1064|2002|
66358|A||Lurling,M., and W. Beekman|Extractable Substances (Anionic Surfactants) from Membrane Filters Induce Morphological Changes in the Green Alga Scenedesmus obliquus (Chlorophyceae)|Environ. Toxicol. Chem.21(6): 1213-1218|2002|10.1002/etc.5620210614
66359|A||Merlin,G., M. Vuillod, T. Lissolo, and B. Clement|Fate and Bioaccumulation of Isoproturon in Outdoor Aquatic Microcosms|Environ. Toxicol. Chem.21(6): 1236-1242|2002|10.1002/etc.5620210617
66360|A||Sloman,K.A., D.W. Baker, C.M. Wood, and G. McDonald|Social Interactions Affect Physiological Consequences of Sublethal Copper Exposure in Rainbow Trout, Oncorhynchus mykiss|Environ. Toxicol. Chem.21(6): 1255-1263|2002|10.1002/etc.5620210620
66361|A||Perez,L., M.T. Garcia, I. Ribosa, M.P. Vinardell, A. Manresa, and M.R. Infante|Biological Properties of Arginine-Based Gemini Cationic Surfactants|Environ. Toxicol. Chem.21(6): 1279-1285|2002|
66362|A||Bianchini,A., K.C. Bowles, C.J. Brauner, J.W. Gorsuch, J.R. Kramer, and C.M. Wood|Evaluation of the Effect of Reactive Sulfide on the Acute Toxicity of Silver (I) to Daphnia magna.  Part 2:  Toxicity Results|Environ. Toxicol. Chem.21(6): 1294-1300|2002|10.1002/etc.5620210626
66363|A||Heijerick,D.G., K.A.C. De Schamphelaere, and C.R. Janssen|Predicting Acute Zinc Toxicity for Daphnia magna as a Function of Key Water Chemistry Characteristics:  Development and Validation of a Biotic Ligand Model|Environ. Toxicol. Chem.21(6): 1309-1315|2002|10.1002/etc.5620210628
66364|A||Isosaari,P., T. Vartiainen, A. Hallikainen, and K. Ruohonen|Feeding Trial on Rainbow Trout:  Comparison of dry Fish Feed and Baltic Herring as a Source of PCDD/Fs and PCBs|Chemosphere48:795-804|2002|10.1016/S0045-6535(02)00128-5
66365|A||Fitzsimmons,P.N., J.D. Fernandez, A.D. Hoffman, B.C. Butterworth, and J.W. Nichols|Branchial Elimination of Superhydrophobic Organic Compounds by Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.55:23-34|2001|10.1016/S0166-445X(01)00174-6
66366|A||Hahn,T., and R. Schulz|Ecdysteroid Synthesis and Imaginal Disc Development in the Midge Chironomus riparius as Biomarkers for Endocrine Effects of Tributyltin|Environ. Toxicol. Chem.21(5): 1052-1057|2002|10.1002/etc.5620210522
66367|A||Bianchini,A., M. Grosell, S.M. Gregory, and C.M. Wood|Acute Silver Toxicity in Aquatic Animals is a Function of Sodium Uptake Rate|Environ. Sci. Technol.36(8): 1763-1766|2002|10.1021/es011028t
66368|A||Hammerschmidt,C.R., M.B. Sandheinrich, J.G. Wiener, and R.G. Rada|Effects of Dietary Methylmercury on Reproduction of Fathead Minnows|Environ. Sci. Technol.36(5): 877-883|2002|10.1021/es011120p
66369|A||Wiegman,S., J.A.G. Termeer, T. Verheul, M.H.S. Kraak, P. De Voogt, R.W.P.M. Laane, and W. Admiraal|UV Absorbance Dependent Toxicity of Acridine to the Marine Diatom Phaeodactylum tricornutum|Environ. Sci. Technol.36(5): 908-913|2002|10.1021/es010149q
66370|A||Wirth,E.F., S.A. Lund, M.H. Fulton, and G.I. Scott|Reproductive Alterations in Adult Grass Shrimp, Palaemonetes pugio, Following Sublethal, Chronic Endosulfan Exposure|Aquat. Toxicol.59:93-99|2002|10.1016/S0166-445X(01)00241-7
66371|A||Sarabia,R., J. Del Ramo, I. Varo, J. Diaz-Mayans, and A. Torreblanca|Comparing the Acute Response to Cadmium Toxicity of Nauplii from Different Populations of Artemia|Environ. Toxicol. Chem.21(2): 437-444|2002|10.1002/etc.5620210229
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66373|T||Sampath,K., and P. Elango|Lipid Metabolism in Common Frog (Rana tigrina) Exposed to Carbaryl|J. Environ. Biol.18(1): 23-26|1997|
66374|A||McWilliam,R.A., and D.J. Baird|Postexposure Feeding Depression:  A new Toxicity Endpoint for Use in Laboratory Studies with Daphnia magna|Environ. Toxicol. Chem.21(6): 1198-1205|2002|10.1002/etc.5620210612
66375|A||Naddy,R.B., W.A. Stubblefield, J.R. May, S.A. Tucker, and J.R. Hockett|The Effect of Calcium and Magnesium Ratios on the Toxicity of Copper to Five Aquatic Species in Freshwater|Environ. Toxicol. Chem.21(2): 347-352|2002|10.1002/etc.5620210217
66376|A||Osano,O., W. Admiraal, and D. Otieno|Developmental Disorders in Embryos of the Frog Xenopus laevis Induced by Chloroacetanilide Herbicides and Their Degradation Products|Environ. Toxicol. Chem.21(2): 375-379|2002|10.1002/etc.5620210221
66377|A||Goleman,W.L., L.J. Urquidi, T.A. Anderson, E.E. Smith, R.J. Kendall, and J.A. Carr|Environmentally Relevant Concentrations of Ammonium Perchlorate Inhibit Development and Metamorphosis in Xenopus laevis|Environ. Toxicol. Chem.21(2): 424-430|2002|10.1002/etc.5620210227
66378|A||Van der Geest,H.G., W.J. Soppe, G.D. Greve, A. Kroon, and M.H.S. Kraak|Combined Effects of Lowered Oxygen and Toxicants (Copper and Diazinon) on the Mayfly Ephoron virgo|Environ. Toxicol. Chem.21(2): 431-436|2002|10.1002/etc.5620210228
66379|A||Wang,W.X., and A.T.S. Chow|Benzo(a)pyrene Absorption and Exposure Pathways in the Green Mussel Perna viridis|Environ. Toxicol. Chem.21(2): 451-458|2002|10.1002/etc.5620210231
66380|A||Abraham,K.M., and T. Radhakrishnan|Study on the Gill of Field Crab, Paratelphusa hydrodromus (Herbst.) Exposed to Nickel|J. Environ. Biol.23(2): 151-155|2002|
66381|A||Tripathi,G., S. Harsh, and P. Verma|Fenvalerate-Induced Macromolecular Changes in the Catfish, Clarias batrachus|J. Environ. Biol.23(2): 143-146|2002|
66382|A||Vincent,S., T. Ambrose, and M. Selvanayagam|Impact of Cadmium on Food Utilization of the Indian Major Carp, Catla catla (Ham)|J. Environ. Biol.23(2): 209-212|2002|
66383|A||Rajagopal,S., G. Van der Velde, and H.A. Jenner|Effects of Low-Level Chlorination on Zebra Mussel, Dreissena polymorpha|Water Res.36(12): 3029-3034|2002|10.1016/S0043-1354(01)00516-4
66384|A||Yamuna,A., P. Saravana Bhavan, and P. Geraldine|Effects of Hg and Cu on Hemocytes-Mediated Functions in the Prawn, Macrobrachium malcolmsonii|J. Environ. Biol.23(1): 7-13|2002|
66385|A||Tilak,K.S., S.J. Lakshmi, and T.A. Susan|The Toxicity of Ammonia, Nitrite and Nitrate to the Fish, Catla catla (Hamilton)|J. Environ. Biol.23(2): 147-149|2002|
66386|A||Hansen,J.A., P.G. Welsh, J. Lipton, and D. Cacela|Effects of Copper Exposure on Growth and Survival of Juvenile Bull Trout|Trans. Am. Fish. Soc.131(4): 690-697|2002|10.1577/1548-8659(2002)131<0690:EOCEOG>2.0.CO;2
66387|A||Maldonado,M.T., M.P. Hughes, E.L. Rue, and M.L. Wells|The Effect of Fe and Cu on Growth and Domoic Acid Production by Pseudo-nitzschia multiseries and Pseudo-nitzschia australis|Limnol. Oceanogr.47(2): 515-526|2002|10.4319/lo.2002.47.2.0515
66388|A||Shofer,S.L., and R.S. Tjeerdema|Sublethal Effects of Pentachlorophenol in Abalone (Haliotis rufescens) Veliger Larvae as Measured by 31P-NMR|Ecotoxicol. Environ. Saf.51(3): 155-160|2002|10.1006/eesa.2002.2141
66389|A||Gravato,C., and M.A. Santos|Juvenile Sea Bass Liver P450, EROD Induction, and Erythrocytic Genotoxic Responses to PAH and PAH-like Compounds|Ecotoxicol. Environ. Saf.51(2): 115-127|2002|10.1006/eesa.2001.2133
66390|A||Rawat,D.K., V.S. Bais, and N.C. Agrawal|A Correlative Study on Liver Glycogen and Endosulfan Toxicity in Heteropneustes fossilis (Bloch.)|J. Environ. Biol.23(2): 205-207|2002|
66391|A||Shukla,V., P. Rathi, and K.V. Sastry|Effect of Cadmium Individually and in Combination with Other Metals on the Nutritive Value of Fresh Water Fish, Channa punctatus|J. Environ. Biol.23(2): 105-110|2002|
66392|A||Bhavan,P.S., and P. Geraldine|Carbaryl-Induced Alterations in Biochemical Metabolism of the Prawn, Macrobrachium malcolmsonii|J. Environ. Biol.23(2): 157-162|2002|
66393|A||El-Zahr,C.R., Q. Zhang, J.D. Hendricks, and L.R. Curtis|Temperature-Modulated Carcinogenicity of 7,12-Dimethylbenz(a)anthracene in Rainbow Trout|J. Toxicol. Environ. Health Part A65(11): 787-802|2002|10.1080/00984100290071072
66394|A||Barnes,D.M., D.B. Sykes, and D.S. Miller|Mercuric Chloride Acting Through Mg Stimulates Protein Synthesis in Xenopus Oocytes|J. Toxicol. Environ. Health Part A65(8): 617-629|2002|10.1080/152873902317349763
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66396|A||Burton,J.E., I.R. Dorociak, T.E. Schwedler, and C.D. Rice|Circulating Lysozyme and Hepatic CYP1A Activities During a Chronic Dietary Exposure to Tributyltin (TBT) and 3,3',4,4',5-Pentachlorobiphenyl (PCB-126) Mixtures in Channel Catfish, Ictalurus punctatus|J. Toxicol. Environ. Health Part A65(8): 589-602|2002|10.1080/152873902317349745
66397|A||Jyothi,B., and G. Narayan|Effect of Pesticides Carbaryl and Phorate on Serum Cholesterol Level in Fish, Clarias batrachus (Linn.)|J. Environ. Biol.22(3): 233-235|2001|
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66399|A||Kennedy,I.J.J., and K. Sampath|Short-Term and Long-Term Survival Studies in Rana tigrina Tadpoles with Reference to Methyl Parathion Toxicity|J. Environ. Biol.22(4): 267-271|2001|
66400|A||Shin,H.W., and C.M. Smith|Antifouling Activity of Six Nontoxic Chemicals on Spore Attachment of Ulva fasciata|J. Environ. Biol.22(3): 145-151|2001|
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66403|A||Suseela,M.R.|Effect of Butachlor on Growth and Nitrogen Fixation by Anabaena sphaerica|J. Environ. Biol.22(3): 201-203|2001|
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66495|A||Schultz,M.E., and R.J. Schultz|Diethylnitrosamine-Induced Hepatic Tumors in Wild vs. Inbred Strains of a Viviparous Fish|J. Hered.73:43-48|1982|10.1093/oxfordjournals.jhered.a109573
66496|A||Meganathan,R., and P.A. Castric|The Effect of Inorganic Phosphate on Cyanogenesis by Pseudomonas aeruginosa|Arch. Microbiol.114:51-54|1977|10.1007/BF00429629
66497|A||Southgate,B.A., F.T.K. Pentelow, and R. Bassindale|The Toxicity to Trout of Potassium Cyanide and p-Cresol in Water Containing Different Concentrations of Dissolved Oxygen|Biochem. J. (Lond.)27:983-985|1933|10.1042/bj0270983
66498|A||Palmer,R., H. Rodger, E. Drinan, C. Dwyer, and P.R. Smith|Preliminary Trials on the Efficacy of Ivermectin Against Parasitic Copepods of Atlantic Salmon|Bull. Eur. Assoc. Fish Pathol.7(2): 47-54|1987|
66499|A||Dearden,J.C., M.T.D. Cronin, T.W. Schultz, and D.T. Lin|QSAR Study of the Toxicity of Nitrobenzenes to Tetrahymena pyriformis|Quant. Struct.-Act. Relatsh.14:427-432|1995|10.1002/qsar.19950140503
66500|A||Amcoff,P., H. Borjeson, R. Eriksson, and L. Norrgren|Effects of Thiamine Treatments on Survival of M74-Affected Feral Baltic Salmon|In: G.McDonald, J.Fitzsimons, and D.C.Honeyfield (Eds.), Early Life Stage Mortality Syndrome in Fishes of the Great Lakes and Baltic Sea, Symp.21, Am.Fish.Soc., Bethesda, MD21:31-40|1998|
66501|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Silver at ERL, Narragansett|Memo to J.H.Gentile, U.S.EPA, Narragansett, RI:6 p.|1981|
66502|A||Uner,N., E. Ozcan Oruc, M. Canli, and Y. Sevgiler|Effects of Cypermethrin on Antioxidant Enzyme Activities and Lipid Peroxidation in Liver and Kidney of the Freshwater Fish, Oreochromis niloticus and Cyprinus carpio (L.)|Bull. Environ. Contam. Toxicol.67(5): 657-664|2001|10.1007/s00128-001-0174-z
66504|A||Fidalgo,J.P., A. Cid, E. Torres, A. Sukenik, and C. Herrero|Effects of Nitrogen Source and Growth Phase on Proximate Biochemical Composition, Lipid Classes and Fatty Acid Profile of the Marine Microalga Isochrysis galbana|Aquaculture166(1-2): 105-116|1998|10.1016/S0044-8486(98)00278-6
66505|A||Laughlin,R.B.,Jr., and J.M. Neff|Ontogeny of Respiratory and Growth Responses of Larval Mud Crabs Rhithropanopeus harrisii Exposed to Different Temperatures, Salinities and Naphthalene Concentrations|Mar. Ecol. Prog. Ser.5(3): 319-332|1981|10.3354/meps005319
66506|A||Snawder,J.E., and J.E. Chambers|Toxic and Developmental Effects of Organophosphorus Insecticides in Embryos of the South African Clawed Frog|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(3): 205-218|1989|
66507|A||Kapur,K., K. Kamaldeep, and H.S. Toor|The Effect of Fenitrothion on Reproduction of a Teleost Fish, Cyprinus carpio communis Linn:  A Biochemical Study|Bull. Environ. Contam. Toxicol.20(4): 438-442|1978|10.1007/BF01683544
66508|A||Bidwell,J.R., and A.G. Heath|An In Situ Study of Rock Bass (Ambloplites rupestris) Physiology: Effect of Season and Mercury Contamination|Hydrobiologia (Multiple Languages)264(3): 137-152|1993|10.1007/BF00007284
66509|A||Ingebrigtsen,K., H. Hektoen, T. Andersson, A. Bergman, and I. Brandt|Species-Specific Accumulation of the Polychlorinated Biphenyl (PCB) 2,3,3',4,4'-Pentachlorobiphenyl in Fish Brain: A Comparison Between Cod (Gadus morhua) and Rainbow Trout (Oncorhynchus mykiss)|Pharmacol. Toxicol.67(4): 344-345|1990|10.1111/j.1600-0773.1990.tb00842.x
66511|A||Toth,L., M. Juhasz, T. Varga, A. Csikkel-Szolnoki, and J. Nemcsok|Some Effect of CuSO4 on Carp|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(3): 627-635|1996|
66518|T||Borzelleca,J.F., L.W. Condie, and J.R. Hayes|Toxicological Evaluation of Selected Chlorinated Phenols|EPA-600/D-84-234, U.S.EPA, Cincinnati, OH:22 p.|1984|
66520|T||Patterson,J.M., and S.E. Nokes|Incorporation of Chlorothalonil Persistence on Processing Tomato into TOM-CAST|Agric. Syst.64(3): 171-187|2000|10.1016/S0308-521X(00)00021-4
66521|T||Muller,T., T. Maurer, and R. Kubiak|Volatilization and Metabolism of Pesticides Under Simulated Outdoor Conditions|Environ. Monit. Assess.44(1-3): 541-547|1997|10.1023/A:1005727511574
66524|T||Sawan,Z.M., B.R. Gregg, and S.E. Yousef|Influence of Nitrogen Fertilisation and Foliar-Applied Plant Growth Retardants and Zinc on Cotton Seed Yield, Viability and Seedling Vigour|Seed Sci. Technol.26(2): 393-404|1998|
66525|T||Grymes,C.F., J.L. Griffin, B.R. Leonard, D.L. Jordan, and D.J. Boethel|Influence of Weeds on Insecticide Deposition and Soybean Looper (Pseudoplusia includens) Management|Weed Sci.47(3): 321-326|1999|10.1017/S0043174500091840
66526|T||Iglesias,J., J. Castillejo, and R. Castro|Mini-Plot Field Experiments on Slug Control Using Biological and Chemical Control Agents|Ann. Appl. Biol.139(3): 285-292|2001|10.1111/j.1744-7348.2001.tb00141.x
66527|T||Yau,S.K.|Interactions of Boron-Toxicity, Drought, and Genotypes on Barley Root Growth, Yield, and Other Agronomic Characters|Aust. J. Agric. Res.53:347-354|2002|10.1071/AR00154
66529|T||Sarret,G., J. Vangronsveld, A. Manceau, M. Musso, J. D'Haen, J.J. Menthonnex, and J.L. Hazemann|Accumulation Forms of Zn and Pb in Phaseolus vulgaris in the Presence and Absence of EDTA|Environ. Sci. Technol.35(13): 2854-2859|2001|10.1021/es000219d
66530|T||Sheals,J.G.|Soil Population Studies.  I. - The Effects of Cultivation and Treatment with Insecticides|Bull. Entomol. Res.47:803-822|1956|10.1017/S0007485300047039
66532|T||Hanna,A.D., E. Judenko, and W. Heatherington|Systemic Insecticides for the Control of Insects Transmitting Swollen-Shoot Virus Disease of Cacao in the Gold Coast|Bull. Entomol. Res.46:669-710|1955|10.1017/S0007485300039602
66533|T||Munzuroglu,O., and H. Geckil|Effects of Metals on Seed Germination, Root Elongation, and Coleoptile and Hypocotyl Growth in Triticum aestivum and Cucumis sativus|Arch. Environ. Contam. Toxicol.43(2): 203-213|2002|10.1007/s00244-002-1116-4
66535|T||Maboeta,M.S., S.A. Reinecke, and A.J. Reinecke|The Relation Between Lysosomal Biomarker and Population Responses in a Field Population of Microchaetus sp. (Oligochaeta) Exposed to the Fungicide Copper Oxychloride|Ecotoxicol. Environ. Saf.52(3): 280-287|2002|10.1006/eesa.2002.2180
66536|T||Jovtchev,G., M. Menke, and I. Schubert|The Comet Assay Detects Adaptation to MNU-Induced DNA Damage in Barley|Mutat. Res.493(1-2): 95-100|2001|10.1016/S1383-5718(01)00166-8
66537|T||Mitani,S., S. Araki, Y. Takii, T. Ohshima, N. Matsuo, and H. Miyoshi|The Biochemical Mode of Action of the Novel Selective Fungicide Cyazofamid: Specific Inhibition of Mitochrondrial Complex III in Phythium spinosum|Pestic. Biochem. Physiol.71(2): 107-115|2001|10.1006/pest.2001.2569
66538|T||Wool,D., J.H. Brower, and N. Kamin-Belsky|Reduction of Malathion Resistance in Caged Almond Moth, Cadra cautella (Walker) (Lepidoptera: Pyralidae), Populations by the Introduction of Susceptible Males|J. Stored Prod. Res.28(1): 59-65|1992|10.1016/0022-474X(92)90030-T
66539|T||Michaelides,P.K., and D.J. Wright|Activity of Soil Insecticides on Eggs of Diabrotica undecimpunctata howardi:  Effects on Embryological Development and Influence of Egg Age|Pestic. Sci.49(1): 1-8|1997|10.1002/(SICI)1096-9063(199701)49:1<1::AID-PS469>3.0.CO;2-3
66540|T||Michaelides,P.K., and D.J. Wright|Insecticide Penetration and Symptomology Studies on Larvae of Diabrotica undecimpunctata howardi (Barber)|Pestic. Sci.49(4): 353-361|1997|10.1002/(SICI)1096-9063(199704)49:4<353::AID-PS539>3.0.CO;2-8
66541|T||McCaffery,A.R., D.J. Head, T. Jianguo, A.A. Dubbeldam, V.R. Subramaniam, and A. Callaghan|Nerve Insensitivity Resistance to Pyrethroids in Heliothine Lepidoptera|Pestic. Sci.51(3): 315-320|1997|10.1002/(SICI)1096-9063(199711)51:3<315::AID-PS627>3.0.CO;2-#
66542|T||Horowitz,A.R., and I. Ishaaya|Susceptibility of the Sweetpotato Whitefly (Homoptera:  Aleyrodidae) to Buprofezin During the Cotton Season|J. Econ. Entomol.85(2): 318-324|1992|10.1093/jee/85.2.318
66543|T||Dettbarn,W.D.|Pesticide Induced Muscle Necrosis:  Mechanisms and Prevention|Fundam. Appl. Toxicol.4(2, Pt. 2): S18 - S26|1984|10.1016/0272-0590(84)90134-9
66544|T||Gunn,A., and J.W. Sadd|The Effect of Ivermectin on the Survival, Behaviour and Cocoon Production of the Earthworm Eisenia fetida|Pedobiologia (Multiple Languages)38:327-333|1994|10.1016/S0031-4056(24)00135-5
66545|T||Kim,Y.J., H.S. Lee, S.W. Lee, G.H. Kim, and Y.J. Ahn|Toxicity of Tebufenpyrad to Tetranychus urticae (Acari: Tetranychidae) and Amblyseius womersleyi (Acari: Phytoseiidae) Under Laboratory and Field Conditions|J. Econ. Entomol.92(1): 187-192|1999|10.1093/jee/92.1.187
66550|T||Calderone,N.W., and M.E. Nasr|Evaluation of a Formic Acid Formulation for the Fall Control of Varroa jacobsoni (Acari: Varroidae) in Colonies of the Honey Bee Apis mellifera (Hymenoptera: Apidae) in a Temperate Climate|J. Econ. Entomol.92(3): 526-533|1999|10.1093/jee/92.3.526
66551|T||Calderone,N.W.|Evaluation of Formic Acid and a Thymol-Based Blend of Natural Products for the Fall Control of Varroa jacobsoni (Acari: Varroidae) in Colonies of Apis mellifera (Hymenoptera: Apidae)|J. Econ. Entomol.92(2): 253-260|1999|10.1093/jee/92.2.253
66552|T||Chowdhury,S.R., and T.K. Smith|Effects of Dietary 1,4-Diaminobutane (Putrescine) on Eggshell Quality and Laying Performance of Hens Laying Thin-Shelled Eggs|Poult. Sci.80:1702-1709|2001|10.1093/ps/80.12.1702
66553|T||Mitani,S., S. Araki, T. Yamaguchi, Y. Takii, T. Ohshima, and N. Matsuo|Antifungal Activity of the Novel Fungicide Cyazofamid Against Phytophthora infestans and Other Plant Pathogenic Fungi In Vitro|Pestic. Biochem. Physiol.70(2): 92-99|2001|10.1006/pest.2001.2541
66554|T||Mitani,S., S. Araki, T. Yamaguchi, Y. Takii, T. Ohshima, and N. Matsuo|Biological Properties of the Novel Fungicide Cyazofamid Against Phytophthora infestans on Tomato and Pseudoperonospora cubensis on Cucumber|Pest Manag. Sci.58(2): 139-145|2001|10.1002/ps.430
66555|T||Mostert,M.A., A.S. Schoeman, and M. Van der Merwe|The Relative Toxicities of Insecticides to Earthworms of the Pheretima Group (Oligochaeta)|Pest Manag. Sci.58(5): 446-450|2002|10.1002/ps.473
66556|T||Edelson,J.V., J. Duthie, and W. Roberts|Toxicity of Biorational Insecticides:  Activity Against the Green Peach Aphid, Myzus persicae (Sulzer)|Pest Manag. Sci.58(3): 255-260|2002|10.1002/ps.444
66557|T||Hwang,I.T., K.H. Lee, S.H. Park, B.H. Lee, K.S. Hong, S.S. Han, and K.Y. Cho|Resistance to Acetolactate Synthase Inhibitors in a Biotype of Monochoria vaginalis Discovered in Korea|Pestic. Biochem. Physiol.71(2): 69-76|2001|10.1006/pest.2001.2565
66558|T||Rafalimanana,H., L. Kaiser, and J.M. Delpuech|Stimulating Effects of the Insecticide Chlorpyrifos on Host Searching and Infestation Efficacy of a Parasitoid Wasp|Pest Manag. Sci.58(4): 321-328|2002|10.1002/ps.454
66559|T||Kaufman,P.E., J.G. Scott, and D.A. Rutz|Monitoring Insecticide Resistance in House Flies (Diptera:  Muscidae) from New York Dairies|Pest Manag. Sci.57(6): 514-521|2001|10.1002/ps.319
66560|T||Kaufman,P.E., and D.A. Rutz|Susceptibility of House Flies (Diptera: Muscidae) Exposed to Commercial Insecticides on Painted and Unpainted Plywood Panels|Pest Manag. Sci.58(2): 174-178|2001|10.1002/ps.436
66561|T||Kinraide,T.B., and B.K. Sweeney|Buffered, Phosphate-Containing Media Suitable for Aluminum Toxicity Studies|Plant Soil235(1): 75-83|2001|10.1023/A:1011941729727
66562|T||Bartakova,I., M. Kummerova, M. Mandl, and M. Pospisil|Phytotoxicity of Iron in Relation to Its Solubility Conditions and the Effect of Ionic Strength|Plant Soil235(1): 45-51|2001|10.1023/A:1011854031273
66563|T||Gaume,A., F. Machler, and E. Frossard|Aluminum Resistance in Two Cultivars of Zea mays L.:  Root Exudation of Organic Acids and Influence of Phosphorus Nutrition|Plant Soil234(1): 73-81|2001|10.1023/A:1010535132296
66564|T||Nauen,R., N. Stumpf, A. Elbert, C.P.W. Zebitz, and W. Kraus|Acaricide Toxicity and Resistance in Larvae of Different Strains of Tetranychus urticae and Panonychus ulmi (Acari: Tetranychidae)|Pest Manag. Sci.57(3): 253-261|2001|10.1002/ps.280
66565|T||Whiting,S.N., J.R. Leake, S.P. McGrath, and A.J.M. Baker|Zinc Accumulation by Thlaspi caerulescens from Soils with Different Zn Availability:  A Pot Study|Plant Soil236(1): 11-18|2001|10.1023/A:1011950210261
66566|T||Buczkowski,G., and C. Schal|Emetophagy: Fipronil-Induced Regurgitation of Bait and Its Dissemination from German Cockroach Adults to Nymphs|Pestic. Biochem. Physiol.71(3): 147-155|2001|10.1006/pest.2001.2572
66567|T||Durham,E.W., M.E. Scharf, and B.D. Siegfried|Toxicity and Neurophysiological Effects of Fipronil and Its Oxidative Sulfone Metabolite on European Corn Borer Larvae (Lepidoptera:  Crambidae)|Pestic. Biochem. Physiol.71(2): 97-106|2001|10.1006/pest.2001.2564
66568|T||Tillman,P.G., G.G. Hammes, M. Sacher, M. Connair, E.A. Brady, and K.D. Wing|Toxicity of a Formulation of the Insecticide Indoxacarb to the Tarnished Plant Bug, Lygus lineolaris (Hemiptera: Miridae), and the Big-Eyed Bug, Geocoris punctipes (Hemiptera: Lygaeidae)|Pest Manag. Sci.58(1): 92-100|2001|10.1002/ps.426
66569|T||Renault,S., C. Croser, J.A. Franklin, and J.J. Zwiazek|Effects of NaCl and Na2SO4 on Red-Osier Dogwood (Cornus stolonifera Michx) Seedlings|Plant Soil233(2): 261-268|2001|10.1023/A:1010512021353
66570|T||Liu,N., and X. Yue|Genetics of Pyrethroid Resistance in a Strain (ALHF) of House Flies (Diptera: Muscidae)|Pestic. Biochem. Physiol.70(3): 151-158|2001|10.1006/pest.2001.2547
66571|T||Wu,Y.X., and A. Von Tiedemann|Physiological Effects of Azoxystrobin and Epoxiconazole on Senescence and the Oxidative Status of Wheat|Pestic. Biochem. Physiol.71(1): 1-10|2001|10.1006/pest.2001.2561
66572|T||Conway,K.E., N.E. Maness, and J.E. Motes|Integration of Biological and Chemical Controls for Rhizoctonia Aerial Blight and Root Rot of Rosemary|Plant Dis.81(7): 795-798|1997|10.1094/PDIS.1997.81.7.795
66573|T||An,Y.J., D.H. Kampbell, and M.E. McGill|Toxicity of Methyl tert-Butyl Ether to Plants (Avena sativa, Zea mays, Triticum aestivum, and Lactuca sativa)|Environ. Toxicol. Chem.21(8): 1679-1682|2002|
66574|T||Jonsson,C.J., B.O. Lund, and I. Brandt|Adrenocorticolytic DDT-Metabolites:  Studies in Mink, Mustela vison and Otter, Lutra lutra|Ecotoxicology2:41-53|1993|10.1007/BF00058213
66575|T||Chah,C.C., W.M. Britton, and L.S. Jensen|Effects of Dietary Lead on Broiler Performance and Development of Perosis and Hypertension|Poult. Sci.55(5): 2017-2018|1976|
66576|T||Yourman,L.F., and S.N. Jeffers|Resistance to Benzimidazole and Dicarboximide Fungicides in Greenhouse Isolates of Botrytis cinerea|Plant Dis.83(6): 569-575|1999|10.1094/PDIS.1999.83.6.569
66577|T||Shim,M.Y., J.L. Starr, N.P. Keller, K.E. Woodard, and T.A.,Jr. Lee|Distribution of Isolates of Sclerotium rolfsii Tolerant to Pentachloronitrobenzene in Texas Peanut Fields|Plant Dis.82(1): 103-106|1998|10.1094/PDIS.1998.82.1.103
66578|T||Nauen,R., U. Ebbinghaus, and K. Tietjen|Ligands of the Nicotinic Acetylcholine Receptor as Insecticides|Pestic. Sci.55(5): 608-610|1999|10.1002/(SICI)1096-9063(199905)55:5<608::AID-PS967>3.0.CO;2-Y
66579|T||Burgess,R.C., M. Gluck, G. Brisson, and D.H. Laughland|Effect of Dietary Penicillin on Liver Vitamin A and Serum Carotenoids in the Chick|Arch. Biochem. Biophys.33:339-340|1951|10.1016/0003-9861(51)90114-2
66580|T||Ojanpera,K., E. Patsikka, and T. Ylaranta|Effects of Low Ozone Exposure of Spring Wheat on Net CO2 Uptake, Rubisco, Leaf Senescence and Grain Filling|New Phytol.138(3): 451-460|1998|10.1046/j.1469-8137.1998.00120.x
66581|T||Kogan,M., S.G. Turnipseed, M. Shepard, E.B. De Oliveira, and A. Borgo|Pilot Insect Pest Management Program for Soybean in Southern Brazil|J. Econ. Entomol.70(5): 659-663|1977|10.1093/jee/70.5.659
66582|T||Miles,A.K., C.E. Grue, G.W. Pendleton, and J.H.,Jr. Soares|Effects of Dietary Aluminum, Calcium, and Phosphorus on Egg and Bone of European Starlings|Arch. Environ. Contam. Toxicol.24(2): 206-212|1993|10.1007/BF01141350
66583|T||Nieminen,P., A.M. Mustonen, P. Lindstrom-Seppa, J. Asikainen, H. Mussalo-Rauhamaa, and J.V.K. Kukkonen|Phytosterols Act as Endocrine and Metabolic Disruptors in the European Polecat (Mustela putorius)|Toxicol. Appl. Pharmacol.178(1): 22-28|2002|10.1006/taap.2001.9315
66584|T||Samantary,S.|Biochemical Responses of Cr-Tolerant and Cr-Sensitive Mung Bean Cultivars Grown on Varying Levels of Chromium|Chemosphere47(10): 1065-1072|2002|10.1016/S0045-6535(02)00091-7
66585|T||Singh,K.|Effect of 2,4-D and Simazine on Total Bacteria, Fungi, Azotobacter, Ammonification and Nitrification Under Field Conditions|Pesticides 6:14-17|1971|
66586|T||Gerendas,J., Z. Zhu, and B. Sattelmacher|Influence of N and Ni Supply on Nitrogen Metabolism and Urease Activity in Rice (Oryza sativa L.)|J. Exp. Bot.49(326): 1545-1554|1998|10.1093/jxb/49.326.1545
66588|T||Gupta,M., A. Cuypers, J. Vangronsveld, and H. Clijsters|Copper Affects the Enzymes of the Ascorbate-Glutathione Cycle and Its Related Metabolites in the Roots of Phaseolus vulgaris|Physiol. Plant. (Multiple Languages)106(3): 262-267|1999|10.1034/j.1399-3054.1999.106302.x
66589|T||Greselin,E., and F. Herr|Further Toxicity Studies with Antimycin, a Fish Eradicant|J. Agric. Food Chem.22(6): 996-998|1974|10.1021/jf60196a033
66590|T||Grey,T.L., D.C. Bridges, and D.S. NeSmith|Tolerance of Cucurbits to the Herbicides Clomazone, Ethalfluralin and Pendimethalin.  II.  Watermelon|Hortscience35(4): 637-641|2000|10.21273/HORTSCI.35.4.637
66592|T||Guglielmone,A.A., M.E. Castelli, M.M. Volpogni, P.D. Medus, J.R. Martins, V.H. Suarez, O.S. Anziani, and A.J. Mangold|Toxicity of Cypermethrin and Diazinon to Haematobia irritans (Diptera:  Muscidae) in Its American Southern Range|Vet. Parasitol.101(1): 67-73|2001|10.1016/S0304-4017(01)00490-3
66593|T||Gupta,A., and B. Singh|Dissipation of Fenvalerate Residues in Cauliflower|Bull. Environ. Contam. Toxicol.66(1): 24-28|2001|10.1007/s001280000200
66594|T||Greene,D.W., and W.J. Lord|Further Investigations on the Effects of Ethephon on Red Color and Quality of Apples|New Engl. Fruit Meet., Proc. Annu. Meet. Mass. Fruit Growers' Assoc.80:79-84|1974|
66595|T||Green,J.M.|Optimizing Alcohol Ethoxylate Surfactant Activity at Low Doses|Weed Technol.13:737-740|1999|10.1017/S0890037X00042159
66596|T||Green,J.M., and J.F. Ulrich|Response of Corn (Zea mays L.) Inbreds and Hybrids to Sulfonylurea Herbicides|Weed Sci.41:508-516|1993|10.1017/S0043174500052267
66597|T||Green,J.M., and J.F. Ulrich|Response of Maize (Zea mays) Inbreds and Hybrids to Rimsulfuron|Pestic. Sci.40:187-191|1994|10.1002/ps.2780400304
66599|T||Gould,E., and E.O. Hamstead|The Toxicity of Cumulative Spray Residues in Soil|J. Econ. Entomol.44(5): 713-717|1951|10.1093/jee/44.5.713
66600|T||Goodwin,R.H., and C. Taves|The Effect of Coumarin Derivatives on the Growth of Avena Roots|Am. J. Bot.37:224-231|1950|10.1002/j.1537-2197.1950.tb12186.x
66602|T||Goldstein,J.A., and P. Linko|Differential Induction of Two 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Inducible Forms of Cytochrome P-450 in Extrahepatic Versus Hepatic Tissues|Mol. Pharmacol.25:185-191|1984|
66603|T||Gilreath,J.P., C.A. Chase, and S.J. Locascio|Influence of Sublethal Glyphosate Rates on Leaf Mineral Concentration of Tomato|Hortscience35(6): 1078-1082|2000|10.21273/HORTSCI.35.6.1078
66604|T||Godbold,D.L., and G. Jentschke|Aluminium Accumulation in Root Cell Walls Coincides with Inhibition of Root Growth but Not with Inhibition of Magnesium Uptake in Norway Spruce|Physiol. Plant. (Multiple Languages)102(4): 553-560|1998|10.1034/j.1399-3054.1998.1020410.x
66605|T||Gilmore,A.M., and H. Yamasaki|9-Aminoacridine and Dibucaine Exhibit Competitive Interactions and Complicated Inhibitory Effects that Interfere with Measurements of deltapH and Xanthophyll Cycle-Dependent Photosystem II Energy Dissipation|Photosynth. Res. (Dordr., Online)57(2): 159-174|1998|10.1023/A:1006065931183
66606|T||Gill,E.L., C.J. Feare, D.P. Cowan, S.M. Fox, J.D. Bishop, S.D. Langton, R.W. Watkins, and J.E. Gurney|Cinnamamide Modifies Foraging Behaviors of Free-Living Birds|J. Wildl. Manag.62(3): 872-884|1998|10.2307/3802538
66608|T||Gill,E.L., M.B. Serra, S.B. Canavelli, C.J. Feare, M.E. Zaccagnini, A.K. Nadian, M.L. Heffernan, and R.W. Watkins|Cinnamamide Prevents Captive Chestnut-Capped Blackbirds (Agelaius ruficapillus) from Eating Rice|Int. J. Pest Manag.40(2): 195-198|1994|10.1080/09670879409371881
66609|T||Foerster,L.A.|Toxity and Persistence of Hexaflumuron to the Velvetbean Caterpillar Anticarsia gemmatalis Hubner, 1818 (Lepidoptera: Noctuidae) in Soybeans|An. Soc. Entomol. Bras.21(3): 391-400|1992|10.37486/0301-8059.v21i3.803
66610|A||Georghiou,G.P., V. Ariaratnam, M.E. Pasternak, and C.S. Lin|Organophosphorus Multiresistance in Culex pipiens quinquefasciatus in California|J. Econ. Entomol.68(4): 461-467|1975|10.1093/jee/68.4.461
66611|T||Gardea-Torresdey,J.L., S. Arteaga, K.J. Tiemann, R. Chianelli, N. Pingitore, and W. Mackay|Absorption of Copper(II) by Creosote Bush (Larrea tridentata): Use of Atomic and X-Ray Absorption Spectroscopy|Environ. Toxicol. Chem.20(11): 2572-2579|2001|
66612|T||Gemrich II,E.G., and D.M. Goldsberry|Laboratory Bioassay to Assess Toxicity of Insecticides to Diabrotica Larvae|J. Econ. Entomol.75(2): 220-222|1982|10.1093/jee/75.2.220
66613|T||Gautam,R.C., and R.B.L. Bhardwaj|Stimulatory and Qualitative Effect of Simazine on Resistant as well as Susceptible Crops|Indian J. Weed Sci.7(1): 34-41|1975|
66614|T||Gardea-Torresdey,J.L., I. Cano-Aguilera, R. Webb, and F. Gutierrez-Corona|Enhanced Copper Adsorption and Morphological Alterations of Cells of Copper-Stressed Mucor rouxii|Environ. Toxicol. Chem.16(3): 435-441|1997|
66615|T||Gao,J.R., and K.Y. Zhu|Comparative Toxicity of Selected Organophosphate Insecticides Against Resistant and Susceptible Clones of the Greenbug, Schizaphis graminum (Homoptera:  Aphididae)|J. Agric. Food Chem.48(10): 4717-4722|2000|10.1021/jf000548p
66616|T||French,N., E.P. Lichtenstein, and G. Thorne|Effects of Some Chlorinated Hydrocarbon Insecticides on Nematode Populations in Soils|J. Econ. Entomol.52(5): 861-865|1959|10.1093/jee/52.5.861
66618|T||Frantzios,G., B. Galatis, and P. Apostolakos|Aluminium Effects on Microtubule Organization in Dividing Root-Tip Cells of Triticum turgidum.  II.  Cytokinetic Cells|J. Plant Res.114(2): 157-170|2001|10.1007/PL00013979
66619|T||Frantzios,G., B. Galatis, and P. Apostolakos|Aluminium Effects on Microtubule Organization in Dividing Root-Tip Cells of Triticum turgidum. I. Mitotic Cells|New Phytol.,New Phytol.145(2): 211-224|2000|
66620|T||Frances,S.P., T.A. Klein, D.W. Hildebrandt, R. Burge, C. Noigamol, N. Eikarat, B. Sripongsai, and R.A. Wirtz|Laboratory and Field Evaluation of DEET, CIC-4, and AI3-37220 Against Anopheles dirus (Diptera: Culicidae) in Thailand|J. Med. Entomol.33(4): 511-515|1996|10.1093/jmedent/33.4.511
66622|T||Fernie,K.J., G.R. Bortolotti, J.E. Smits, J. Wilson, K.G. Drouillard, and D.M. Bird|Changes in Egg Composition of American Kestrels Exposed to Dietary Polychlorinated Biphenyls|J. Toxicol. Environ. Health Part A60(4): 291-303|2000|10.1080/00984100050027833
66623|T||Frances,S.P., and N. Khlaimanee|Laboratory Tests of Arthropod Repellents Against Leptotrombidium deliense - Noninfected and Infected with Rickettsia tsutsugamushi - and Noninfected L. fletcheri (Acari: Trombiculidae)|J. Med. Entomol.33(2): 232-235|1996|10.1093/jmedent/33.2.232
66624|T||Fox,C.J.S.|Effects of Several Chlorinated Hydrocarbon Insecticides on the Springtails and Mites of Grassland Soil|J. Econ. Entomol.60(1): 77-79|1967|10.1093/jee/60.1.77
66625|T||Forsyth,F.R.|Inhibition by Nickel of the Respiration and Development of Established Infections on Thatcher Wheat Caused by Puccinia recondita Rob ex Desm.|Can. J. Bot.40:415-423|1962|10.1139/b62-042
66626|A||Fort,D.J., E.L. Stover, J.A. Bantle, J.N. Dumont, and R.A. Finch|Evaluation of a Reproductive Toxicity Assay Using Xenopus laevis:  Boric Acid, Cadmium and Ethylene Glycol Monomethyl Ether|J. Appl. Toxicol.21:41-52|2001|10.1002/jat.731
66627|T||Fodor,F., E. Cseh, A. Varga, and G. Zaray|Lead Uptake, Distribution, and Remobilization in Cucumber|J. Plant Nutr.21(7): 1363-1373|1998|10.1080/01904169809365489
66628|T||Fitter,A.H., and R. Nichols|The Use of Benomyl to Control Infection by Vesicular-Arbuscular Mycorrhizal Fungi|New Phytol.110(2): 201-206|1988|10.1111/j.1469-8137.1988.tb00253.x
66629|T||Fischer,E., A. Toth, and S. Farkas|Deltamethrin, Effects on Volume Control, and Water Balance in Eisenia fetida Sav. (Annelida, Lumbricidae)|Bull. Environ. Contam. Toxicol.66(2): 269-276|2001|10.1007/s001280000234
66630|T||Fisher,S.A., G.R. Bortolotti, K.J. Fernie, J.E. Smits, T.A. Marchant, K.G. Drouillard, and D.M. Bird|Courtship Behavior of Captive American Kestrels (Falco sparverius) Exposed to Polychlorinated Biphenyls|Arch. Environ. Contam. Toxicol.41(2): 215-220|2001|10.1007/s002440010240
66631|T||Dawson,W.A.J.M., and G.L. Bateman|Fungal Communities on Roots of Wheat and Barley and Effects of Seed Treatments Containing Fluquinconazole Applied to Control Take-All|Plant Pathol.50:75-82|2001|10.1046/j.1365-3059.2001.00538.x
66632|T||Fieldes,M.A.|Heritable Effects of 5-Azacytidine Treatments on the Growth and Development of Flax (Linum usitatissimum) Genotrophs and Genotypes|Genome37:1-11|1993|10.1139/g94-001
66633|T||Fattah,Q.A., and D.J. Wort|Metabolic Responses of Bush Bean Plants to Naphthenate Application|Can. J. Bot.48:861-866|1970|10.1139/b70-120
66634|T||Evans,C.E., J.I. Wear, B.F. Hajek, and J.T.,Jr. Cope|The Relationship of Soil Zinc Removed by Three Extractants to Zinc Uptake by Corn and Sorghum in Medium- to Fine-Textured Soils|Commun. Soil Sci. Plant Anal.5(2): 105-113|1974|10.1080/00103627409366486
66635|T||Fabian,M., and H. Petersen|Short-Term Effects of the Insecticide Dimethoate on Activity and Spatial Distribution of a Soil Inhabiting Collembolan Folsomia fimetaria Linne (Collembola:  Isotomidae)|Pedobiologia (Multiple Languages)38(4): 289-302|1994|10.1016/S0031-4056(24)00132-X
66636|T||Sridevi,D., and S. Dhingra|Susceptibility of Tribolium castaneum (Herbst) Adults to Non-Pyrethroid Insecticides|J. Entomol. Res.23(3): 201-207|1999|
66637|T||Newman,L.A., X. Wang, I.A. Muiznieks, G. Ekuan, M. Ruszaj, R. Cortellucci, D. Domroes, G. Karscig, T. Newman, R.S. Cram|Remediation of Trichloroethylene in an Artificial Aquifer with Trees: A Controlled Field Study|Environ. Sci. Technol.33(13): 2257-2265|1999|10.1021/es981217k
66638|T||Ruprecht,R.W., and F.W. Morse|The Cause of the Injurious Effect of Sulfate of Ammonia when Used as a Fertilizer|Bull. Mass. Agric. Exp. Stn.176:119-134|1917|
66640|T||Robert,L.L., I. Schneider, and R.A. Wirtz|DEET and Permethrin as Protectants Against Malaria-Infected and Uninfected Anopheles stephensi Mosquitoes|Am. Mosq. Control Assoc. J.7(2): 304-306|1991|
66642|T||Tewari,R.K., A.S. Srivastava, Y.K. Mathur, and K.D. Upadhyaya|Bioassay of Different Insecticides and Pyrethroids Against the Adults of Sugarcane Leafhopper Pyrilla perpusilla Walker|Indian J. Entomol.52(3): 358-363|1990|
66643|T||Twal,W.O., and M.H. Zile|Retinoic Acid Reverses Ethanol-Induced Cardiovascular Abnormalities in Quail Embryos|Alcohol. Clin. Exp. Res.21(6): 1137-1143|1997|10.1111/j.1530-0277.1997.tb04264.x
66645|T||Tassoni,A., M. Van Buuren, M. Franceschetti, S. Fornale, and N. Bagni|Polyamine Content and Metabolism in Arabidopsis thaliana and Effect of Spermidine on Plant Development|Plant Physiol. Biochem.38(5): 383-393|2000|10.1016/S0981-9428(00)00757-9
66646|T||Koch,M.S., and I.A. Mendelssohn|Sulphide as a Soil Phytotoxin:  Differential Responses in Two Marsh Species|J. Ecol.77(2): 565-578|1989|10.2307/2260770
66647|T||Sommer,A.L.|Studies Concerning the Essential Nature of Aluminum and Silicon for Plant Growth|In:  Studies Concerning the Essential Nature of Aluminum and Silicon for Plant Growth, Univ. of Calif. Press, Berkeley, CA5:57-81|1926|
66649|T||Olesen,J.E., L.N. Jorgensen, and J.V. Mortensen|Irrigation Strategy, Nitrogen Application and Fungicide Control in Winter Wheat on a Sandy Soil. II. Radiation Interception and Conversion|J. Agric. Sci.134(1): 13-23|2000|10.1017/S0021859699007285
66650|T||Yamanaka,Y., M. Moritomo, K. Fujii, T. Tanaka, Y. Fukuda, and K. Nishimura|Quantitative Structure-Fungicidal Activity Relationships of N-(4-Difluoromethoxybenzyl)-Pyrimidin-4-Amines Against Wheat and Barley Fungi|Pestic. Sci.55(9): 896-902|1999|
66651|T||Yau,S.K., M. Nachit, and J. Ryan|Variation in Growth, Development, and Yield of Durum Wheat in Response to High Soil Boron. II. Differences Between Genotypes|Aust. J. Agric. Res.48(7): 951-957|1997|10.1071/A96145
66652|T||Mortensen,L.M.|Foliar Injuries Caused by Ozone in Betula pubescens Ehrh. and Phleum pratense L. as Influenced by Climatic Conditions Before and During O3 Exposure|Acta Agric. Scand. Sect. B49(1): 44-49|1999|
66653|T||Munkvold,G.P., C.A. Martinson, J.M. Shriver, and P.M. Dixon|Probabilities for Profitable Fungicide Use Against Gray Leaf Spot in Hybrid Maize|Phytopathology91(5): 477-484|2001|10.1094/PHYTO.2001.91.5.477
66654|T||Sabaitis,C.P., B.K.J. Leong, D.A. Rop, and C.S. Aaron|Validation of Intratracheal Instillation as an Alternative for Aerosol Inhalation Toxicity Testing|J. Appl. Toxicol.19(2): 133-140|1999|10.1002/(SICI)1099-1263(199903/04)19:2<133::AID-JAT549>3.0.CO;2-9
66655|T||Tsuji,G., T. Takeda, I. Furusawa, O. Horino, and Y. Kubo|Carpropamid, an Anti-Rice Blast Fungicide, Inhibits Scytalone Dehydratase Activity and Appressorial Penetration in Colletotrichum lagenarium|Pestic. Biochem. Physiol.57(3): 211-219|1997|10.1006/pest.1997.2272
66656|T||Scagel,C.F., and C.P. Andersen|Seasonal Changes in Root and Soil Respiration of Ozone-Exposed Ponderosa Pine (Pinus ponderosa) Grown in Different Substrates|New Phytol.136:627-643|1997|10.1046/j.1469-8137.1997.00779.x
66657|T||Steenbjerg,F., I. Larsen, I. Jensen, and S. Bille|The Effect of Nitrogen and Simazine on the Dry-Matter Yield and Amino Acid Content of Oats and on the Absorption and Utilization of Various Plant Nutrients|Plant Soil36:475-496|1972|10.1007/BF01373499
66658|T||Yamanaka,Y., M. Moritomo, K. Fujii, T. Tanaka, Y. Fukuda, and K. Nishimura|Synthesis of Benzylaminopyrimidines and Their Fungicidal Activities Against Wheat Brown Rust and Barley Powdery Mildew|Pestic. Sci.54(3): 223-229|1998|10.1002/(SICI)1096-9063(1998110)54:3<223::AID-PS814>3.0.CO;2-R
66659|T||Xue,S., J. Gan, S.R. Yates, and J.O. Becker|Nematode Response to Methyl Bromide and 1,3-Dichloropropene Soil Fumigation at Different Temperatures|Pest Manag. Sci.56:737-742|2000|10.1002/1526-4998(200009)56:9<737::AID-PS192>3.0.CO;2-G
66660|T||Onderoglu,S., S. Sozer, K. Mine Erbil, R. Ortac, and F. Lermioglu|The Evaluation of Long-Term Effects of Cinnamon Bark and Olive Leaf on Toxicity Induced by Streptozotocin Administration to Rats|J. Pharm. Pharmacol.51(11): 1305-1312|1999|10.1211/0022357991776886
66661|T||Larsen,P.B., C.Y. Tai, L.V. Kochian, and S.H. Howell|Arabidopsis Mutants with Increased Sensitivity to Aluminum|Plant Physiol.110:743-751|1996|10.1104/pp.110.3.743
66663|T||Takai,K., T. Soejima, T. Suzuki, and K. Kawazu|Emamectin Benzoate as a Candidate for a Trunk-Injection Agent Against the Pine Wood Nematode, Bursaphelenchus xylophilus|Pest Manag. Sci.56:937-941|2000|10.1002/1526-4998(200010)56:10<937::AID-PS213>3.0.CO;2-B
66664|T||Wahid,A., E. Milne, S.R.A. Shamsi, M.R. Ashmore, and F.M. Marshall|Effects of Oxidants on Soybean Growth and Yield in the Pakistan Punjab|Environ. Pollut.113(3): 271-280|2001|10.1016/S0269-7491(00)00190-1
66665|T||Silverman,J., and D. Liang|Effect of Fipronil on Bait Formulation-Based Aversion in the German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.92(4): 886-889|1999|10.1093/jee/92.4.886
66666|T||Ragland,J.L., and N.T. Coleman|The Effect of Soil Solution Aluminum and Calcium on Root Growth|Proc. Soil Sci. Soc. Am.23:355-357|1959|10.2136/sssaj1959.03615995002300050016x
66667|T||Yee,W.L., and N.C. Toscano|Laboratory Evaluations of Synthetic and Natural Insecticides on Beet Armyworm (Lepidoptera:  Noctuidae) Damage and Survival on Lettuce|J. Econ. Entomol.91(1): 56-63|1998|10.1093/jee/91.1.56
66668|T||Thackray,D.J., R.A.C. Jones, A.M. Bwye, and B.A. Coutts|Further Studies on the Effects of Insecticides on Aphid Vector Numbers and Spread of Cucumber Mosaic Virus in Narrow-Leafed Lupins (Lupinus angustifolius)|Crop Prot.19(2): 121-139|2000|10.1016/S0261-2194(99)00093-9
66669|T||Yermiyahu,U., D.K. Brauer, and T.B. Kinraide|Sorption of Aluminum to Plasma Membrane Vesicles Isolated from Roots of Scout 66 and Atlas 66 Cultivars of Wheat|Plant Physiol.115(3): 1119-1125|1997|10.1104/pp.115.3.1119
66670|T||Nemat Alla,M.M., and N.M. Hassan|Efficacy of Exogenous GA3 and Herbicide Safeners in Protection of Zea mays from Metolachlor Toxicity|Plant Physiol. Biochem.36(11): 809-815|1998|10.1016/S0981-9428(99)80018-7
66671|T||Young,D.H., S.L. Spiewak, and R.A. Slawecki|Laboratory Studies to Assess the Risk of Development of Resistance to Zoxamide|Pest Manag. Sci.57:1081-1087|2001|10.1002/ps.399
66672|T||Spiess,L.D., B.B. Lippincott, and J.A. Lippincott|Effect of Hormones and Vitamin B12 on Gametophore Development in the Moss Pylaisiella selwynii|Am. J. Bot.60(7): 708-716|1973|10.1002/j.1537-2197.1973.tb05977.x
66673|T||Yun,M.S., I.S. Shim, and K. Usui|Involvement of Cytochrome P-450 Enzyme Activity in the Selectivity and Safening Action of Pyrazosulfuron-Ethyl|Pest Manag. Sci.57:283-288|2001|10.1002/ps.298
66674|T||Sanogo,S., X.B. Yang, and H. Scherm|Effects of Herbicides on Fusarium solani f. sp. glycines and Development of Sudden Death Syndrome in Glyphosate-Tolerant Soybean|Phytopathology90(1): 57-66|2000|10.1094/PHYTO.2000.90.1.57
66675|T||Ryckman,R.E., C.T. Ames, and C.C. Lindt|A Comparison of Aldrin, Dieldrin, Heptachlor and DDT for Control of Plague Vectors on the California Ground Squirrel|J. Econ. Entomol.46(4): 598-601|1953|10.1093/jee/46.4.598
66676|AT||Standley,L.J., and T.L. Bott|Trifluoroacetate, an Atmospheric Breakdown Product of Hydrofluorocarbon Refrigerants: Biomolecular Fate in Aquatic Organisms|Environ. Sci. Technol.32(4): 469-475|1998|10.1021/es970161b
66677|T||Torsethaugen,G., E.J. Pell, and S.M. Assmann|Ozone Inhibits Guard Cell K+ Channels Implicated in Stomatal Opening|Proc. Natl. Acad. Sci. U.S.A.96(23): 13577-13582|1999|10.1073/pnas.96.23.13577
66678|T||Krause,G.H.M., and F.E. Hockel|Long-Term Effects of Ozone on Fagus sylvatica L. - An Open-Top Chamber Exposure Study|Water Air Soil Pollut.85:1337-1342|1995|10.1007/BF00477167
66679|T||Muller,R., M. Serek, E.C. Sisler, and A.S. Andersen|Poststorage Quality and Rooting Ability of Epipremnum pinnatum Cuttings After Treatment with Ethylene Action Inhibitors|J. Hortic. Sci.72(3): 445-452|1997|10.1080/14620316.1997.11515532
66680|T||Yuan,J., and H.W. Chambers|Toxicology and Biochemistry of Two Aliesterase Inhibitors as Synergists of Four Organophosphorus Insecticides in Boll Weevils (Coleoptera:  Curculionidae)|Pestic. Biochem. Physiol.54(3): 210-219|1996|10.1006/pest.1996.0025
66681|T||O'Neill,J.J.M., and D.T. Mitchell|Effects of Benomyl and Captan on Growth and Mycorrhizal Colonization of Sitka-Spruce (Picea sitchensis) and Ash (Fraxinus excelsior) in Irish Nursery Soil|For. Pathol.30(3): 165-174|2000|10.1046/j.1439-0329.2000.00200.x
66682|T||Wang,H., P.A. Gurusinghe, and B.W. Falk|Systemic Insecticides and Plant Age Affect Beet Curly Top Virus Transmission to Selected Host Plants|Plant Dis.83(4): 351-355|1999|10.1094/PDIS.1999.83.4.351
66683|T||Ypema,H.L., M. Ypema, and W.D. Gubler|Sensitivity of Uncinula necator to Benomyl, Triadimefon, Myclobutanil, and Fenarimol in California|Plant Dis.81(3): 293-297|1997|10.1094/PDIS.1997.81.3.293
66684|T||Xiao,L.Z., and S. Ichikawa|Mutagenic Interactions Between X-rays and Two Promutagens, o-Phenylenediamine and N-Nitrosodimethylamine, in the Stamen Hairs of Tradescantia Clone BNL 4430|Mutat. Res.413(2): 177-186|1998|10.1016/S1383-5718(98)00030-8
66685|T||Singh,R.D., and B.N. Chatterjee|Effect of Nitrogen, Variety, Spacing and CCC on Grain Yield and Duration of the Green Surface in Wheat (Triticum aestivum L.)|Indian J. Agric. Sci.43(11): 992-997|1973|
66686|T||Sheets,J.J., L.L. Karr, and J.E. Dripps|Kinetics of Uptake, Clearance, Transfer, and Metabolism of Hexaflumuron by Eastern Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.93(3): 871-877|2000|10.1603/0022-0493-93.3.871
66687|T||Norsworthy,J.K., R.E. Talbert, and R.E. Hoagland|Chlorophyll Fluorescence for Rapid Detection of Propanil-Resistant Barnyardgrass (Echinochloa crus-galli)|Weed Sci.46(2): 163-169|1998|10.1017/S0043174500090366
66688|T||Kohli,K.K., R.M. Philpot, P.W. Albro, and J.D. McKinney|Induction of Different Species of Cytochrome P-450 by Coplanar and Noncoplanar Isomers of Hexachlorobiphenyl|Life Sci.26:945-952|1980|10.1016/0024-3205(80)90115-0
66689|T||Langdon,C.J., T.G. Piearce, A.A. Meharg, and K.T. Semple|Resistance to Copper Toxicity in Populations of the Earthworms Lumbricus rubellus and Dendrodrilus rubidus from Contaminated Mine Wastes|Environ. Toxicol. Chem.20(10): 2336-2341|2001|10.1002/etc.5620201028
66690|T||Turcsanyi,E., T. Lyons, M. Plochl, and J. Barnes|Does Ascorbate in the Mesophyll Cell Walls Form the First Line of Defence Against Ozone? 1.  Testing the Concept Using Broad Bean (Vicia faba L.)|J. Exp. Bot.51(346): 901-910|2000|
66691|A||Andersen,H.R., L. Wollenberger, B. Halling-Sorensen, and K.O. Kusk|Development of Copepod Nauplii to Copepodites - a Parameter for Chronic Toxicity Including Endocrine Disruption|Environ. Toxicol. Chem.20(12): 2821-2829|2001|10.1002/etc.5620201222
66692|A||Medesani,D.A., L.S. Lopez-Greco, and E.M. Rodriguez|Effects of Cadmium and Copper on Hormonal Regulation of Glycemia by the Eyestalks in the Crab Chasmagnathus granulata|Bull. Environ. Contam. Toxicol.66(1): 71-76|2001|10.1007/s001280000207
66693|A||Gagne,F., C. Blaise, B. Lachance, G.I. Sunahara, and H. Sabik|Evidence of Coprostanol Estrogenicity to the Freshwater Mussel Elliptio complanata|Environ. Pollut.115(1): 97-106|2001|10.1016/S0269-7491(01)00089-6
66697|T||Ward,J.M.J., M.D. Laing, and D.C. Nowell|Chemical Control of Maize Grey Leaf Spot|Crop Prot.16(3): 265-271|1997|10.1016/S0261-2194(96)00097-X
66698|T||Scopes,N.E.A., and E.P. Lichtenstein|The Use of Folsomia fimetaria and Drosophila melanogaster as Test Insects for the Detection of Insecticide Residues|J. Econ. Entomol.60(6): 1539-1541|1967|10.1093/jee/60.6.1539
66699|T||Richter,J., A. Biliwa, and S. Henning-Helbig|Efficacy of Dust Formulated Insecticides in Traditional Maize Stores in West Africa|J. Stored Prod. Res.34(2/3): 181-187|1998|10.1016/S0022-474X(97)00042-8
66700|T||Srivastava,L.P., R.P. Singh, and R.B. Raizada|Phototoxicity of Quinalphos Under Sunlight In Vitro and In Vivo|Food Chem. Toxicol.37(2-3): 177-181|1999|10.1016/S0278-6915(98)00116-1
66701|T||Zhu,Y.L., E.A.H. Pilon-Smits, L. Jouanin, and N. Terry|Overexpression of Glutathione Synthetase in Indian Mustard Enhances Cadmium Accumulation and Tolerance|Plant Physiol.119(1): 73-79|1999|10.1104/pp.119.1.73
66703|T||Tapia,L.S., T.T. Bauman, R.G. Harvey, J.J. Kells, G. Kapusta, M.M. Loux, W.E. Lueschen, M.D.K. Owen, L.H. Hageman, and |Postemergence Herbicide Application Timing Effects on Annual Grass Control and Corn (Zea mays) Grain Yield|Weed Sci.45(1): 138-143|1997|10.1017/S0043174500092596
66704|T||Harker,K.N., and W.H. Vanden Born|Glyphosate or Sethoxydim for Quackgrass (Elytrigia repens) Control in Two Tillage Regimes|Weed Sci.45(6): 812-823|1997|10.1017/S0043174500089013
66705|A||Hardersen,S., S.D. Wratten, and C.M. Frampton|Does Carbaryl Increase Fluctuating Asymmetry in Damselflies Under Field Conditions? A Mesocosm Experiment with Xanthocnemis zealandica (Odonata:  Zygoptera)|J. Appl. Ecol.36(4): 534-543|1999|10.1046/j.1365-2664.1999.00417.x
66706|T||Norsworthy,J.K., L.R. Oliver, and L.C. Purcell|Diurnal Leaf Movement Effects on Spray Interception and Glyphosate Efficacy|Weed Technol.13(3): 466-470|1999|10.1017/S0890037X00046042
66707|T||Maymo,A.C., A. Cervera, M.D. Garcera, and R. Martinez|Sequiterpene-Related Compounds as Endocrine Disrupters in Oncopeltus fasciatus, and Potential Reduced Glutathione Synthesis Modifiers|Sci. Total Environ.233(1-3): 163-166|1999|10.1016/S0048-9697(99)00222-3
66708|T||Rusness,D.G., J.K. Huwe, and G.L. Lamoureux|Quinclorac Ester Toxicity and Metabolism in Leafy Spurge (Euphorbia esula) Soil Systems: Effects of Foliar vs Soil Applications|Pestic. Biochem. Physiol.61(2): 115-133|1998|10.1006/pest.1998.2357
66709|T||Wilson,T.G., and J.W. Cain|Resistance to the Insecticides Lufenuron and Propoxur in Natural Populations of Drosophila melanogaster (Diptera: Drosophilidae)|J. Econ. Entomol.90(5): 1131-1136|1997|10.1093/jee/90.5.1131
66710|T||Weintraub,P.G.|Effects of Cyromazine and Abamectin on the Leafminer, Liriomyza huidobrensis and Its Parasitoid, Diglyphus isaea in Celery|Ann. Appl. Biol.135(3): 547-554|1999|10.1111/j.1744-7348.1999.tb00886.x
66711|T||Washington,W.S., O. Villalta, and M. Appleby|Control of Pear Scab with Hydrated Lime Alone or in Schedules with Other Fungicide Sprays|Crop Prot.17(7): 569-580|1998|10.1016/S0261-2194(98)00051-9
66712|T||Utkhede,R.S., and E.J. Hogue|Effect of Herbicides, Plastic Mulch, and Hand-Weeding on Development of Phytophthora Crown and Root Rot of Apple Trees|Can. J. Plant Pathol.20(1): 81-86|1998|10.1080/07060669809500448
66713|T||Maddison,J., T. Lyons, M. Plochl, and J. Barnes|Hydroponically Cultivated Radish fed L-Galactono-1,4-Lactone Exhibit Increased Tolerance to Ozone|Planta (Multiple Languages):1-19|2001|
66714|T||Lux,H.B., and J.R. Cumming|Effect of Aluminum on the Growth and Nutrition of Tulip-Poplar Seedlings|Can. J. For. Res.29(12): 2003-2007|1999|10.1139/x99-172
66715|T||Zhao,F.J., E. Lombi, T. Breedon, and S.P. McGrath|Zinc Hyperaccumulation and Cellular Distribution in Arabidopsis halleri|Plant Cell Environ.23(5): 507-514|2000|10.1046/j.1365-3040.2000.00569.x
66716|T||Zhang,T., and J.G. Hampton|Does Fungicide Seed Treatment Affect Bulk Conductivity Test Results?|Seed Sci. Technol.27(3): 1041-1045|1999|
66717|T||Lopez-Martinez,N., G. Marshall, and R. De Prado|Resistance of Barnyardgrass (Echinochloa crus-galli) to Atrazine and Quinclorac|Pestic. Sci.51(2): 171-175|1997|10.1002/(SICI)1096-9063(199710)51:2<171::AID-PS612>3.0.CO;2-7
66718|T||Legaspi,J.C., J.V. French, and B.C.,Jr. Legaspi|Toxicity of Novel and Conventional Insecticides to Selected Beneficial Insects|Subtrop. Plant Sci.52:23-32|2000|
66719|T||Yasoshima,M., and B. Takano|Bradybaena similaris (Ferrusac) Shell as a Biomonitor of Copper, Cadmium, and Zinc|Bull. Environ. Contam. Toxicol.66(2): 239-248|2001|
66720|T||Wilcut,J.W., D.L. Jordan, W.K. Vencill, and J.S. Richburg III|Weed Management in Cotton (Gossypium hirsutum) with Soil-Applied and Post-Directed Herbicides|Weed Technol.11(2): 221-226|1997|10.1017/S0890037X00042871
66721|T||Oliver,A.D.|Control Studies of the Forest Tent Caterpillar, Malacosoma disstria, in Louisiana|J. Econ. Entomol.57(1): 157-160|1964|10.1093/jee/57.1.157
66722|T||Oguz,H., and V. Kurtoglu|Effect of Clinoptilolite on Performance of Broiler Chickens During Experimental Aflatoxicosis|Br. Poult. Sci.41:512-517|2000|10.1080/713654953
66724|T||Lustinec,J., J. Krekule, and V. Pokorna|Respiratory Pathways in Gibberellin-Treated Wheat. The Effect of Fluoride on the Respiration Rate|Biol. Plant. (Praha)2(3): 223-226|1960|10.1007/BF02920651
66725|T||Misra,H.P., and P. Bhatia|Laboratory Selection of Tribolium castaneum (Herbst) for Resistance to Fenvalerate|J. Entomol. Res.21(3): 223-228|1997|
66726|T||Milani,N.|Activity of Oxalic and Citric Acids on the Mite Varroa destructor in Laboratory Assays|Apidologie32:127-138|2001|10.1051/apido:2001118
66727|T||Miller,T.E., N. Iqbal, S.M. Reader, A. Mahmood, K.A. Cant, and I.P. King|A Cytogenetic Approach to the Improvement of Aluminium Tolerance in Wheat|New Phytol.137(1): 93-98|1997|10.1046/j.1469-8137.1997.00821.x
66728|T||Million,J.B., J.E. Barrett, T.A. Nell, and D.G. Clark|Inhibiting Growth of Flowering Crops with Ancymidol and Paclobutrazol in Subirrigation Water|Hortscience34(6): 1103-1105|1999|10.21273/HORTSCI.34.6.1103
66729|T||Minucci,S., S. Fasano, C. Marmorino, P. Chieffi, and R. Pierantoni|Ethane 1,2-Dimethane Sulfonate Effects on the Testis of the Lizard, Podarcis s. sicula Raf: Morphological and Hormonal Changes|Gen. Comp. Endocrinol.97(3): 273-282|1995|10.1006/gcen.1995.1027
66730|T||McCarthy,I., M.C. Romero-Puertas, J.M. Palma, L.M. Sandalio, F.J. Corpas, M. Gomez, and L.A. Del Rio|Cadmium Induces Senescence Symptoms in Leaf Peroxisomes of Pea Plants|Plant Cell Environ.24:1065-1073|2001|10.1046/j.1365-3040.2001.00750.x
66731|T||McGary,S., P.F.P. Henry, and M.A. Ottinger|Impact of Vinclozolin on Reproductive Behavior and Endocrinology in Japanese Quail (Coturnix coturnix japonica)|Environ. Toxicol. Chem.20(11): 2487-2493|2001|10.1002/etc.5620201114
66732|T||Maurer,S., and R. Matyssek|Nutrition and the Ozone Sensitivity of Birch (Betula pendula) II.  Carbon Balance, Water-Use Efficiency and Nutritional Status of the Whole Plant|Trees12:11-20|1997|10.1007/PL00009692
66733|T||Matouskova,M., J. Naus, and M. Flasarova|A Long-Term Response of Chlorophyll Fluorescence Induction to One-Shot Application of Cyanazine on Barley Plants and Its Relation to Crop Yield|Photosynthetica (Praha)37(2): 281-294|1999|10.1023/A:1007116323860
66734|T||Mattia,C.J., C.P. LeBel, and S.C. Bondy|Effects of Toluene and Its Metabolites on Cerebral Reactive Oxygen Species Generation|Biochem. Pharmacol.42(4): 879-882|1991|10.1016/0006-2952(91)90048-A
66735|T||Martinez,S.S., and H.F. Van Emden|Growth Disruption, Abnormalities and Mortality of Spodoptera littoralis (Boisduval) (Lepidoptera:  Noctuidae) Caused by Azadirachtin|Neotrop. Entomol. (Multiple Languages)30(1): 113-125|2001|10.1590/S1519-566X2001000100017
66736|T||Miller,B.R., and R.G. Lym|Using the Rosette Technique for Canada Thistle (Cirsium arvense) Control in Row Crops|Weed Technol.12(4): 699-706|1998|10.1017/S0890037X00044572
66737|T||Mandal,A., J. Chakrabarti, and P. Lahiri|Tissue Residues of Lindane in Domestic Duck (Anas platyrhynchos domesticus) Following Its Repeated Oral Application|Indian J. Exp. Biol.26:56-57|1988|
66738|T||Marin,A.R., P.H. Masscheleyn, and W.H.,Jr. Patrick|The Influence of Chemical Form and Concentration of Arsenic on Rice Growth and Tissue Arsenic Concentration|Plant Soil139:175-183|1992|10.1007/BF00009308
66740|T||Wilcut,J.W., S.D. Askew, W.A. Bailey, J.F. Spears, and T.G. Isleib|Virginia Market-Type Peanut (Arachis hypogaea) Cultivar Tolerance and Yield Response to Flumioxazin Preemergence|Weed Technol.15(1): 137-140|2001|10.1614/0890-037X(2001)015[0137:VMTPAH]2.0.CO;2
66741|T||Metcalf,R.L., T.R. Fukuto, C. Collins, K. Borck, S.A. El-Aziz, R. Munoz, and C.C. Cassil|Metabolism of 2,2-Dimethyl-2,3-Dihydrobenzofuranyl-7 N-Methylcarbamate (Furadan) in Plants, Insects, and Mammals|J. Agric. Food Chem.16:300-311|1968|10.1021/jf60156a033
66743|T||Smagghe,G., and D. Degheele|Comparative Toxicity and Tolerance for the Ecdysteroid Mimic Tebufenozide in a Laboratory and Field Strain of Cotton Leafworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.90(2): 278-282|1997|10.1093/jee/90.2.278
66744|T||Smirle,M.J., C. Vincent, C.L. Zurowski, and B. Rancourt|Azinphosmethyl Resistance in the Obliquebanded Leafroller, Choristoneura rosaceana:  Reversion in the Absence of Selection and Relationship to Detoxication Enzyme Activity|Pestic. Biochem. Physiol.61(3): 183-189|1998|10.1006/pest.1998.2358
66745|T||Smith,K.E., and R. Wall|Effects of Targets Impregnated with the Chitin Synthesis Inhibitor Triflumuron on the Blowfly Lucilia sericata|Entomol. Exp. Appl.87(1): 85-92|1998|10.1046/j.1570-7458.1998.00308.x
66747|T||Pijls,C.F.N., and M.W. Shaw|Weak Selection by Field Sprays for Flutriafol Resistance in Septoria tritici|Plant Pathol.46(2): 247-263|1997|10.1046/j.1365-3059.1997.d01-227.x
66748|T||Makioka,A., M. Kumagai, H. Ohtomo, S. Kobayashi, and T. Takeuchi|Effect of Dinitroaniline Herbicides on the Growth of Entamoeba histolytica|J. Parasitol.86(3): 607-610|2000|10.1645/0022-3395(2000)086[0607:EODHOT]2.0.CO;2
66749|T||Falkengren-Grerup,U., J. Brunet, and M.E. Quist|Sensitivity of Plants to Acidic Soils Exemplified by the Forest Grass Bromus benekenii|Water Air Soil Pollut.85(3): 1233-1238|1995|10.1007/BF00477150
66750|T||Fan,S., and T.J. Blake|Comparison of Polyethylene Glycol 3350 Induced Osmotic Stress and Soil Drying for Drought Simulation in Three Woody Species|Trees11(6): 342-348|1997|10.1007/s004680050094
66751|T||Yau,S.K.|Terminal Drought and Subsoil Boron on Barley Root Growth and Water Use - An Examination of Possible Interactions|Commun. Soil Sci. Plant Anal.32(3-4): 379-387|2001|10.1081/CSS-100103014
66753|T||Yamamoto,J.T., and G.M. Santolo|Body Condition Effects in American Kestrels Fed Selenomethionine|J. Wildl. Dis.36(4): 646-652|2000|10.7589/0090-3558-36.4.646
66754|T||Haseeb,M., H. Amano, and H. Nemoto|Pesticidal Effects on Mortality and Parasitism Rates of Diadegma semiclausum, a Parasitoid of the Diamondback Moth|Biocontrol45(2): 165-178|2000|10.1023/A:1009930603601
66755|T||Guertal,E.A., A.O. Abaye, B.M. Lippert, G.J. Gascho, and G.S. Miner|Boron Uptake and Concentration in Cotton and Soybean as Affected by Boron Source|Commun. Soil Sci. Plant Anal.29(19-20): 3007-3014|1998|10.1080/00103629809370172
66756|T||Kahiluoto,H., E. Ketoja, and M. Vestberg|Creation of a Non-Mycorrhizal Control for a Bioassay of AM Effectiveness. 1. Comparison of Methods|Mycorrhiza9(5): 241-258|2000|10.1007/PL00009989
66757|T||Kahiluoto,H., and M. Vestberg|Creation of a Non-Mycorrhizal Control for a Bioassay of AM Effectiveness. 2. Benomyl Application and Soil Sampling Time|Mycorrhiza9(5): 259-270|2000|10.1007/PL00009990
66758|T||Franc,M., and M.C. Cadiergues|Antifeeding Effect of Several Insecticidal Formulations Against Ctenocephalides felis on Cats|Parasite5(1): 83-86|1998|10.1051/parasite/1998051083
66759|T||Franc,M., and M.C. Cadiergues|Susceptibility of the Cat Flea, Ctenocephalides felis (Siphonaptera : Pulicidae) to Four Pyrethroids|Parasite4(1): 91-93|1997|10.1051/parasite/1997041091
66760|T||Szmigielska,A.M., and J.J. Schoenau|Analysis of Imazethapyr in Agricultural Soils by Ion Exchange Membranes and a Canola Bioassay|Commun. Soil Sci. Plant Anal.30(13-14): 1831-1846|1999|10.1080/00103629909370335
66761|T||Darvas,B., and A. Andersen|Effects of Cyromazine and Dimethoate on Chromatomyia fuscula (Zett.) (Dipt., Agromyzidae) and Its Hymenopterous Parasitoids|Acta Phytopathol. Entomol. Hung.34(3): 231-239|1999|
66762|T||Kurepa,J., J. Smalle, M. Van Montagu, and D. Inze|Polyamines and Paraquat Toxicity in Arabidopsis thaliana|Plant Cell Physiol.39(9): 987-992|1998|10.1093/oxfordjournals.pcp.a029463
66763|T||You,W., and A.V. Barker|Herbicidal Actions of Root-Applied Glufosinate Ammonium on Tomato Plants|J. Am. Soc. Hortic. Sci.127(2): 200-204|2002|10.21273/JASHS.127.2.200
66764|T||Cox,M.S., and J.L. Kovar|Soil Arsenic Effects on Canola Seedling Growth and Ion Uptake|Commun. Soil Sci. Plant Anal.32(1/2): 107-117|2001|10.1081/CSS-100102996
66765|T||Michalska,M., and H. Asp|Influence of Lead and Cadmium on Growth, Heavy Metal Uptake, and Nutrient Concentration of Three Lettuce Cultivars Grown in Hydroponic Culture|Commun. Soil Sci. Plant Anal.32(3-4): 571-583|2001|10.1081/CSS-100103029
66766|T||Branquinho,C., D.H. Brown, and F. Catarino|The Cellular Location of Cu in Lichens and Its Effects on Membrane Integrity and Chlorophyll Fluorescence|Environ. Exp. Bot.38(2): 165-179|1997|10.1016/S0098-8472(97)00015-4
66767|T||Savoure,A., D. Thorin, M. Davey, X.J. Hua, S. Mauro, M. Van Montagu, D. Inze, and N. Verbruggen|NaCl and CuSO4 Treatments Trigger Distinct Oxidative Defence Mechanisms in Nicotiana plumbaginifolia L.|Plant Cell Environ.22(4): 387-396|1999|10.1046/j.1365-3040.1999.00404.x
66768|T||O'Neill,T.M., D. Pye, and T. Locke|The Effect of Fungicides, Irrigation and Plant Density on the Development of Peronospora sparsa, the Cause of Downy Mildew in Rose and Blackberry|Ann. Appl. Biol.140(2): 207-214|2002|10.1111/j.1744-7348.2002.tb00174.x
66769|T||Hwang,S.F., B.D. Gossen, K.F. Chang, G.D. Turnbull, and R.J. Howard|Effect of Seed Damage and Metalaxyl Seed Treatment on Pythium Seedling Blight and Seed Yield of Field Pea|Can. J. Plant Sci.81:509-517|2001|10.4141/P00-155
66770|T||Kurepa,J., J. Smalle, M. Van Montagu, and D. Inze|Effects of Sucrose Supply on Growth and Paraquat Tolerance of the Late-Flowering gi-3 Mutant|Plant Growth Regul.26(2): 91-96|1998|10.1023/A:1006043914056
66771|T||Weyers,A., J. Rombke, T. Moser, and H.T. Ratte|Statistical Results and Implications of the Enchytraeid Reproduction Ringtest|Environ. Sci. Technol.36(10): 2116-2121|2002|10.1021/es000259h
66772|T||Fageria,N.K.|Adequate and Toxic Levels of Copper and Manganese in Upland Rice, Common Bean, Corn, Soybean, and Wheat Grown on an Oxisol|Commun. Soil Sci. Plant Anal.32(9-10): 1659-1676|2001|10.1081/CSS-100104220
66773|T||Darnell,R.L., and G.W. Stutte|Nitrate Concentration Effects on NO3-N Uptake and Reduction, Growth, and Fruit Yield in Strawberry|J. Am. Soc. Hortic. Sci.125(5): 560-563|2001|10.21273/JASHS.126.5.560
66774|T||Jorge,R.A., M. Menossi, and P. Arruda|Probing the Role of Calmodulin in Al Toxicity in Maize|Phytochemistry58(3): 415-422|2001|10.1016/S0031-9422(01)00258-8
66775|T||Reade,J.P.H., and A.H. Cobb|New, Quick Tests for Herbicide Resistance in Black-Grass (Alopecurus myosuroides Huds) Based on Increased Glutathione S-Transferase Activity and Abundance|Pest Manag. Sci.58:26-32|2001|10.1002/ps.411
66777|T||Burgess,P.S., and F.R. Pember|"""Active"" Aluminum as a Factor Detrimental to Crop Production in Many Acid Soils"|Rhode Island Agric. Exp. Stn.194:44 p.|1923|
66778|A||Wang,X., Y. Dong, L. Wang, and S. Han|Acute Toxicity of Substituted Phenols to Rana japonica Tadpoles and Mechanism-Based Quantitative Structure-Activity Relationship (QSAR) Study|Chemosphere44(3): 447-455|2001|10.1016/S0045-6535(00)00198-3
66779|T||Akin,D.S., and D.R. Shaw|Purple Nutsedge (Cyperus rotundus) and Yellow Nutsedge (Cyperus esculentus) Control in Glyphosate-Tolerant Soybean (Glycine max)|Weed Technol.15(3): 564-570|2001|10.1614/0890-037X(2001)015[0564:PNCRAY]2.0.CO;2
66780|T||Al-Deeb,M.A., G.E. Wilde, and K.Y. Zhu|Effect of Insecticides Used in Corn, Sorghum, and Alfalfa on the Predator Orius insidiosus (Hemiptera: Anthocoridae)|J. Econ. Entomol.94(6): 1353-1360|2001|10.1603/0022-0493-94.6.1353
66781|T||Allen,J.R., W.G. Johnson, R.J. Smeda, W.J. Wiebold, and R.E. Massey|Management of Acetolactate Synthase (ALS)-Resistant Common Sunflower (Helianthus annuus L.) in Soybean (Glycine max)|Weed Technol.15(3): 571-575|2001|10.1614/0890-037X(2001)015[0571:MOASAR]2.0.CO;2
66784|T||Aly,R., Y. Goldwasser, H. Eizenberg, J. Hershenhorn, S. Golan, and Y. Kleifeld|Broomrape (Orobanche cumana) Control in Sunflower (Helianthus annuus) with Imazapic|Weed Technol.15(2): 306-309|2001|10.1614/0890-037X(2001)015[0306:BOCCIS]2.0.CO;2
66786|T||Andersson,L., E. Nikolaidis, B. Brunstrom, A. Bergman, and L. Dencker|Effects of Polychlorinated Biphenyls with Ah Receptor Affinity on Lymphoid Development in the Thymus and the Bursa of Fabricius of Chick Embryos In Ovo and in Mouse Thymus Anlagen In Vitro|Toxicol. Appl. Pharmacol.107(1): 183-188|1991|10.1016/0041-008X(91)90342-C
66787|T||Arthur,F.H.|Susceptibility of Last Instar Red Flour Beetles and Confused Flour Beetles (Coleoptera: Tenebrionidae) to Hydroprene|J. Econ. Entomol.94(3): 772-779|2001|10.1603/0022-0493-94.3.772
66788|T||Bailey,W.A., H.P. Wilson, and T.E. Hines|Influence of Cultivation and Herbicide Programs on Weed Control and Net Returns in Potato (Solanum tuberosum)|Weed Technol.15(4): 654-659|2001|10.1614/0890-037X(2001)015[0654:IOCAHP]2.0.CO;2
66789|T||Baranski,B.|Effect of Prenatal Exposure to Cadmium on Avoidance Acquisition in Rats|Med. Pr.34(5-6): 381-383|1983|
66790|T||Barnes,M.A., T.F. Peeper, F.M. Epplin, and E.G.,Jr. Krenzer|Effects of Herbicides on Italian Ryegrass (Lolium multiflorum), Forage Production, and Economic Returns from Dual-Purpose Winter Wheat (Triticum aestivum)|Weed Technol.15(2): 264-270|2001|10.1614/0890-037X(2001)015[0264:EOHOIR]2.0.CO;2
66791|T||Begonia,M.F.T., G.B. Begonia, A. Butler, M. Burrell, O. Ighoavodha, and B. Crudup|Chelate-Assisted Phytoextraction of Lead from a Contaminated Soil Using Wheat (Triticum aestivum L.)|Bull. Environ. Contam. Toxicol.68(5): 705-711|2002|10.1007/s001280311
66792|T||Bennett,S.H.|Preliminary Experiments with Systemic Insecticides|Ann. Appl. Biol.36:160-163|1949|
66795|T||Beriault,J.N., G.P. Horsman, and M.D. Devine|Phloem Transport of D,L-Glufosinate and Acetyl-L-Glufosinate in Glufosinate-Resistant and -Susceptible Brassica napus|Plant Physiol.121(2): 619-628|1999|10.1104/pp.121.2.619
66796|AT||Bhagat,R.M., S.I. Bhuiyan, K. Moody, and L.E. Estorninos|Effect of Water, Tillage and Herbicide on Ecology of Weed Communities in Intensive Wet-Seeded Rice System|Crop Prot.18(5): 293-303|1999|10.1016/S0261-2194(99)00024-1
66797|T||Bigot,J., and J. Boucaud|Effects of Synthetic Plant Growth Retardants and Abscisic Acid on Root Functions of Brassica rapa Plants Exposed to Low Root-Zone Temperature|New Phytol.139(2): 255-265|1998|10.1046/j.1469-8137.1998.00201.x
66798|T||Bindhu,S.J., and A.K. Bera|Impact of Cadmium Toxicity on Leaf Area, Stomatal Frequency, Stomatal Index and Pigment Content in Mungbean Seedlings|J. Environ. Biol.22(4): 307-309|2001|
66799|T||Blankespoor,C.L., R.L. Reimink, and H.D. Blankespoor|Efficacy of Praziquantel in Treating Natural Schistosome Infections in Common Mergansers|J. Parasitol.87(2): 424-426|2001|10.1645/0022-3395(2001)087[0424:EOPITN]2.0.CO;2
66800|T||Blackshaw,R.E., G. Semach, X. Li, J.T. O'Donovan, and K.N. Harker|An Integrated Weed Management Approach to Managing Foxtail Barley (Hordeum jubatum) in Conservation Tillage Systems|Weed Technol.13(2): 347-353|1999|10.1017/S0890037X00041841
66801|T||Blair-Kerth,L.K., P.A. Dotray, J.W. Keeling, J.R. Gannaway, M.J. Oliver, and J.E. Quisenberry|Tolerance of Transformed Cotton to Glufosinate|Weed Sci.49:375-380|2001|10.1614/0043-1745(2001)049[0375:TOTCTG]2.0.CO;2
66802|T||Bradley,K.W., and E.S.,Jr. Hagood|Identification of a Johnsongrass (Sorghum halepense) Biotype Resistant to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in Virginia|Weed Technol.15(4): 623-627|2001|10.1614/0890-037X(2001)015[0623:IOAJSH]2.0.CO;2
66803|T||Brecke,B.J., J.B. Unruh, and J.A. Dusky|Torpedograss (Panicum repens) Control with Quinclorac in Bermudagrass (Cynodon dactylon x C.transvaalensis) Turf|Weed Technol.15(4): 732-736|2001|10.1614/0890-037X(2001)015[0732:TPRCWQ]2.0.CO;2
66804|T||Bryan,T.E., R.P. Gildersleeve, and R.P. Wiard|Exposure of Japanese Quail Embryos to o,p'-DDT has Long-Term Effects on Reproductive Behaviors, Hematology, and Feather Morphology|Teratology39:525-535|1989|10.1002/tera.1420390603
66805|T||Bulger,W.H., R.M. Muccitelli, and D. Kupfer|Studies on the In Vivo and In Vitro Estrogenic Activities of Methoxychlor and Its Metabolites.  Role of Hepatic Mono-oxygenase in Methoxychlor Activation|Biochem. Pharmacol.27(20): 2417-2423|1978|10.1016/0006-2952(78)90354-4
66806|T||Castro-Hermida,J.A., Y. Gonzalez-Losada, F. Freire-Santos, M. Gonzalez-Warleta, M. Mezo-Menendez, and E. Ares-Mazas|Efficacy of beta-Cyclodextrin Against Experimental Cryptosporidiosis in Neonatal Lambs|J. Parasitol.88(1): 185-187|2002|
66807|T||Chachalis,D., K.N. Reddy, C.D. Elmore, and M.L. Steele|Herbicide Efficacy, Leaf Structure, and Spray Droplet Contact Angle Among Ipomoea Species and Smallflower Morningglory|Weed Sci.49(5): 628-634|2001|10.1614/0043-1745(2001)049[0628:HELSAS]2.0.CO;2
66808|T||Chandra,S.V., R.C. Murthy, and M.M. Ali|Cadmium-Induced Behavioral Changes in Growing Rats|Ind. Health23:159-162|1985|10.2486/indhealth.23.159
66809|T||Cho,Y.S., M. Panigel, and R. Wegmann|Effects of Cadmium on Succinate Dehydrogenase and Ultrastructure of the Cellular Constituents of the Rat Placental Labyrinth|Cell. Mol. Biol.34(1): 97-106|1988|
66811|T||Cobb,G.P., F.D. Harper, and C.P. Weisskopf|Nonlethal Method for Forensic Evaluation of Aldicarb Exposure in Wildlife|Arch. Environ. Contam. Toxicol.40(1): 77-88|2001|10.1007/s002440010150
66812|T||Coetzer,E., and K. Al-Khatib|Photosynthetic Inhibition and Ammonium Accumulation in Palmer Amaranth After Glufosinate Application|Weed Sci.49:454-459|2001|10.1614/0043-1745(2001)049[0454:PIAAAI]2.0.CO;2
66813|T||Dauwe,T., L. Bervoets, R. Blust, and M. Eens|Tissue Levels of Lead in Experimentally Exposed Zebra Finches (Taeniopygia guttata) with Particular Attention on the Use of Feathers as Biomonitors|Arch. Environ. Contam. Toxicol.42(1): 88-92|2002|10.1007/s002440010295
66814|T||Dean,C.E., B.M. Hargis, and P.S. Hargis|Effects of Zinc Toxicity on Thyroid Function and Histology in Broiler Chicks|Toxicol. Lett.57(3): 309-318|1991|10.1016/0378-4274(91)90205-K
66815|T||Debnath,A., A.C. Das, and D. Mukherjee|Persistence and Effect of Butachlor and Basalin on the Activities of Phosphate Solubilizing Microorganisms in Wetland Rice Soil|Bull. Environ. Contam. Toxicol.68(5): 766-770|2002|10.1007/s001280319
66817|T||De Waal,E.J., H.J. Schuurman, J.G. Loeber, H. Van Loveren, and J.G. Vos|Alterations in the Cortical Thymic Epithelium of Rats After In Vivo Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD):  An (Immuno)Histological Study|Toxicol. Appl. Pharmacol.115(1): 80-88|1992|10.1016/0041-008X(92)90370-8
66819|T||Dong,B., W.L. Sang, X. Jiang, J.M. Zhou, F.X. Kong, W. Hu, and L.S. Wang|Effects of Aluminum on Physiological Metabolism and Antioxidant System of Wheat (Triticum aestivum L.)|Chemosphere47(1): 87-92|2002|10.1016/S0045-6535(01)00210-7
66820|T||Draper,R.P., and J.A. Timbrell|Comparison of Urinary Creatine with Other Biomarkers for Detection of Cadmium-Induced Testicular Damage|Biomarkers (Lond.)3(4-5): 335-346|1998|10.1080/135475098231147
66821|T||Edens,F.W., and J.W. Laskey|Serum Chemistries of Coturnix coturnix japonica Given Dietary Manganese Oxide (Mn3O4)|Comp. Biochem. Physiol. C Comp. Pharmacol.97(1): 139-142|1990|10.1016/0742-8413(90)90184-B
66822|T||Esbenshade,W.R., W.S. Curran, G.W. Roth, N.L. Hartwig, and M.D. Orzolek|Effect of Row Spacing and Herbicides on Burcucumber (Sicyos angulatus) Control in Herbicide-Resistant Corn (Zea mays)|Weed Technol.15(2): 348-354|2001|10.1614/0890-037X(2001)015[0348:EORSAH]2.0.CO;2
66823|T||Escorial,M.C., H. Sixto, J.M. Garcia-Baudin, and M.C. Chueca|A Rapid Method to Determine Cereal Plant Response to Glyphosate|Weed Technol.15(4): 697-702|2001|10.1614/0890-037X(2001)015[0697:ARMTDC]2.0.CO;2
66824|T||Ezell,A.W., and L. Nelson|Weed Control and Crop Tolerance After Preemergent and Postemergent Applications of Sulfometuron in Oak (Quercus spp.) Plantations|Weed Technol.15(3): 585-589|2001|10.1614/0890-037X(2001)015[0585:WCACTA]2.0.CO;2
66825|T||Fair,J.M., and R.E. Ricklefs|Physiological, Growth, and Immune Responses of Japanese Quail Chicks to the Multiple Stressors of Immunological Challenge and Lead Shot|Arch. Environ. Contam. Toxicol.42(1): 77-87|2002|10.1007/s002440010294
66826|T||Fauci,M., D.F. Bezdicek, D. Caldwell, and R. Finch|Development of Plant Bioassay to Detect Herbicide Contamination of Compost at or Below Practical Analytical Detection Limits|Bull. Environ. Contam. Toxicol.68(1): 79-85|2002|10.1007/s00128-001-0222-8
66827|T||Fausey,J.C., and K.A. Renner|Incorporating CGA-248757 and Flumiclorac into Annual Weed Control Programs for Corn (Zea mays) and Soybean (Glycine max)|Weed Technol.15(1): 148-154|2001|10.1614/0890-037X(2001)015[0148:ICAFIA]2.0.CO;2
66829|T||Fernie,K.J., J.E. Smits, G.R. Bortolotti, and D.M. Bird|In Ovo Exposure to Polychlorinated Biphenyls:  Reproductive Effects on Second-Generation American Kestrels|Arch. Environ. Contam. Toxicol.40(4): 544-550|2001|10.1007/s002440010208
66831|T||Fiskesjo,G.|The Allium Test - An Alternative in Environmental Studies: The Relative Toxicity of Metal Ions|Mutat. Res.197:243-260|1988|10.1016/0027-5107(88)90096-6
66832|T||Flower,K.C.|Clomazone for Control of Grasses in Flue-Cured Tobacco (Nicotiana tabacum) Seedbeds|Weed Technol.15(4): 617-622|2001|10.1614/0890-037X(2001)015[0617:CFCOGI]2.0.CO;2
66833|T||Garcia,F., J. Sanchez, and J. Planas|Iron Mobilization in Estrogenized Male Quail|Comp. Biochem. Physiol. A Comp. Physiol.78(3): 571-574|1984|10.1016/0300-9629(84)90598-X
66834|T||Garcia-Mari,F., and A. Soto|Monitoring Butocarboxim Resistance of the Woolly Whitefly (Homoptera: Aleyrodidae) in Citrus from Valencia, Spain|J. Econ. Entomol.94(6): 1558-1563|2001|10.1603/0022-0493-94.6.1558
66835|T||Gatzke,H.D.|The Influence of Lead on the Protein Metabolism of the Brain|Anat. Anz.148:309-322|1980|
66836|T||Geier,P.W., and P.W. Stahlman|Grain Sorghum (Sorghum bicolor) and Sunflower (Helianthus annuus) Response to MKH 6561 and MON 37500 Residues in Soil|Weed Technol.15(4): 767-770|2001|10.1614/0890-037X(2001)015[0767:GSSBAS]2.0.CO;2
66837|T||Gilani,S.H., and Y. Alibhai|Teratogenicity of Metals to Chick Embryos|J. Toxicol. Environ. Health30(1): 23-31|1990|10.1080/15287399009531407
66839|T||Godowicz,B.|Cadmium Accumulation in Tissues, Organ Weights, and Foetal Mortality in Females from Two Inbred Mice Strains Treated with Cadmium Chloride|Folia Biol. (Krakow)34(3): 329-336|1986|
66840|T||Godowicz,B., and D. Kakol|Histopathological Effect of Cadmium on the Testes of Mice from the KE Inbred Strain|Folia Biol. (Krakow)36(3-4): 159-166|1988|
66842|T||Gopal,M., I. Mukherjee, and S. Chander|Behaviour of beta-Cyfluthrin and Imidacloprid in Mustard Crop:  Alternative Insecticide for Aphid Control|Bull. Environ. Contam. Toxicol.68(3): 406-411|2002|
66843|T||Gouveia,M.A.|The Testes in Cadmium intoxication:  Morphological and Vascular Aspects (Die Hoden bei Cadmium-intoxikation:  Morphologische and Vaskulare Aspekte)|Andrologia (Berl.)20(3): 225-231|1988|10.1111/j.1439-0272.1988.tb01061.x
66844|T||Groten,J.P., E.J. Sinkeldam, J.B. Luten, and P.J. Van Bladeren|Comparison of the Toxicity of Inorganic and Liver-Incorporated Cadmium:  A 4-wk Feeding Study in Rats|Food Chem. Toxicol.28(6): 435-441|1990|10.1016/0278-6915(90)90090-A
66845|T||Gupta,P., A. Kar, P.K. Maiti, and S.S. Chaurasia|Chronic Cadmium Administration Alters Circulating Thyroid Hormone Concentrations and the Status of Reproductive Organs in Male Mouse|Fresenius Environ. Bull.4:333-335|1995|
66846|T||Gur,E., T. Waner, O. Barushka-Eizik, and U. Oron|Effect of Cadmium on Bone Repair in Young Rats|J. Toxicol. Environ. Health45(3): 249-260|1995|10.1080/15287399509531994
66847|T||Grichar,W.J., R.G. Lemon, K.D. Brewer, and B.W. Minton|S-Metolachlor Compared with Metolachlor on Yellow Nutsedge (Cyperus esculentus) and Peanut (Arachis hypogaea)|Weed Technol.15(1): 107-111|2001|10.1614/0890-037X(2001)015[0107:SMCWMO]2.0.CO;2
66848|T||Haarmann,T., M. Spivak, D. Weaver, B. Weaver, and T. Glenn|Effects of Fluvalinate and Coumaphos on Queen Honey Bees (Hymenoptera: Apidae) in Two Commercial Queen Rearing Operations|J. Econ. Entomol.95(1): 28-35|2002|10.1603/0022-0493-95.1.28
66849|T||Hamill,A.S., and J. Zhang|Quackgrass Control with Glyphosate and SC-0024 in Corn and Soybean|Can. J. Plant Sci.75:293-299|1995|10.4141/cjps95-051
66850|T||Hanson,B.D., and D.C. Thill|Effects of Imazethapyr and Pendimethalin on Lentil (Lens culinaris), Pea (Pisum sativum), and a Subsequent Winter Wheat (Triticum aestivum) Crop|Weed Technol.15(1): 190-194|2001|10.1614/0890-037X(2001)015[0190:EOIAPO]2.0.CO;2
66851|T||Hanson,M.L., P.K. Sibley, D.A. Ellis, N.A. Fineberg, S.A. Mabury, K.R. Solomon, and D.C. Muir|Trichloroacetic Acid Fate and Toxicity to the Macrophytes Myriophyllum spicatum and Myriophyllum sibiricum Under Field Conditions|Aquat. Toxicol.56(4): 241-255|2002|10.1016/S0166-445X(01)00211-9
66853|T||Hashem,A., H.S. Dhammu, S.B. Powles, D.G. Bowran, T.J. Piper, and A.H. Cheam|Triazine Resistance in Biotype of Wild Radish (Raphanus raphanistrum) in Australia|Weed Technol.15(4): 636-641|2001|10.1614/0890-037X(2001)015[0636:TRIABO]2.0.CO;2
66854|T||Hill,C.H.|Dietary Vanadium and the Oxidative State of Hepatic and Renal Pyridine Nucleotides|Comp. Biochem. Physiol. A Comp. Physiol.102(1): 139-140|1992|10.1016/0300-9629(92)90025-L
66856|T||Hirota,M.|Influences of Cadmium on the Bone Salt Metabolism|Gifu Daigaku Igakubu Kiyo 19(1): 82-115|1971|
66857|T||Hoshishima,K., S. Shimai, and K. Kano|The Combined Administration of Certain Metals in Trace Dose upon the Postnatal Development of Behavior in Mice|Dev. Toxicol. Environ. Sci.11:529-532|1983|
66859|T||Ishii,N., N. Moriguchi, H. Nakajima, S.I. Tanaka, and F. Amemiya|Nickel Sulfate-Specific Suppressor T Cells Induced by Nickel Sulfate in Drinking Water|J. Dermatol. Sci.6:159-164|1993|10.1016/0923-1811(93)90007-C
66860|T||Ivanov,A.G., and M.N. Angelov|Photosynthesis Response to Triacontanol Correlates with Increased Dynamics of Mesophyll Protoplast and Chloroplast Membranes|Plant Growth Regul.21(2): 145-152|1997|10.1023/A:1005790121111
66861|T||James,R.R., and G.W. Elzen|Antagonism Between Beauveria bassiana and Imidacloprid when Combined for Bemisia argentifolii (Homoptera: Aleyrodidae) Control|J. Econ. Entomol.94(2): 357-361|2001|10.1603/0022-0493-94.2.357
66862|T||Jauert,P., T.E. Schumacher, A. Boe, and R.N. Reese|Rhizosphere Acidification and Cadmium Uptake by Strawberry Clover|J. Environ. Qual.31(2): 627-633|2002|10.2134/jeq2002.6270
66863|T||Jjemba,P.K.|The Effect of Chloroquine, Quinacrine, and Metronidazole on both Soybean Plants and Soil Microbiota|Chemosphere46(7): 1019-1025|2002|10.1016/S0045-6535(01)00139-4
66865|T||Joo,J.H., C.V. Eberlein, M.J. Morra, and M.J. Guttieri|Imazamethabenz Persistence in a Wheat (Triticum aestivum) - Potato (Solanum tuberosum) Rotation|Weed Technol.15(2): 208-215|2001|10.1614/0890-037X(2001)015[0208:IPIAWT]2.0.CO;2
66866|T||Kasahara,T., K. Iwasaki, and M. Sato|Ingestive Responses to Some Heavy Metal Salts in Mice and Inhibition of Taste Nerve Responses by Metals|Chem. Senses12(2): 295-305|1987|10.1093/chemse/12.2.295
66867|T||Keino,H.|Scanning Electron Microscopic Observations of the Neural Folds in Embryos from Cadmium-Treated Mice|Mie Med. J.24(3): 279-296|1985|
66869|T||Kranthi,K.R., D. Russell, R. Wanjari, M. Kherde, S. Munje, N. Lavhe, and N. Armes|In-Season Changes in Resistance to Insecticides in Helicoverpa armigera (Lepidoptera: Noctuidae) in India|J. Econ. Entomol.95(1): 134-142|2002|10.1603/0022-0493-95.1.134
66870|T||Krausz,R.F., and B.G. Young|Response of Double-Crop Glyphosate-Resistant Soybean (Glycine max) to Broadleaf Herbicides|Weed Technol.15(2): 300-305|2001|10.1614/0890-037X(2001)015[0300:RODCGR]2.0.CO;2
66871|T||Krausz,R.F., and B.G. Young|Response of Glyphosate-Resistant Soybean (Glycine max) to Trimethylsulfonium and Isopropylamine Salts of Glyphosate|Weed Technol.15(4): 745-749|2001|10.1614/0890-037X(2001)015[0745:ROGRSG]2.0.CO;2
66872|T||Kostial,K., D. Kello, M. Blanusa, T. Maljkovic, and I. Rabar|Influence of Some Factors on Cadmium Pharmacokinetics and Toxicity|Environ. Health Perspect.28:89-95|1979|10.1289/ehp.792889
66873|T||Krausz,R.F., B.G. Young, G. Kapusta, and J.L. Matthews|Influence of Weed Competition and Herbicides on Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.15(3): 530-534|2001|10.1614/0890-037X(2001)015[0530:IOWCAH]2.0.CO;2
66874|T||Kummerova,M., L. Slovak, J. Mazankova, and I. Holoubek|The Effect of Fluoranthene on the Germination of Plants|Toxicol. Environ. Chem.60(1-4): 235-244|1997|10.1080/02772249709358467
66876|T||Lighthart,B., H. Bond, and M. Ricard|Trace Element Research Using Coniferous Forest Soil/Litter Microcosms|EPA-600/3-77-091, U.S.EPA, Corvallis, OR:89 p.|1977|
66877|T||Lock,K., K.A.C. De Schamphelaere, and C.R. Janssen|The Effect of Lindane on Terrestrial Invertebrates|Arch. Environ. Contam. Toxicol.42(2): 217-221|2002|10.1007/s00244-001-0009-2
66878|T||Lock,K., and C.R. Janssen|Ecotoxicity of Chromium (III) to Eisenia fetida, Enchytraeus albidus, and Folsomia candida|Ecotoxicol. Environ. Saf.51(3): 203-205|2002|10.1006/eesa.2001.2122
66879|T||Lock,K., and C.R. Janssen|Toxicity of Arsenate to the Compostworm Eisenia fetida, the Potworm Enchytraeus albidus and the Springtail Folsomia candida|Bull. Environ. Contam. Toxicol.68(5): 760-765|2002|10.1007/s001280320
66880|T||Lundholm,C.E.|Comparison of the Effect of DDE on the Ca Metabolism of the Eggshell Gland and Its Subcellular Fractions of the Duck and the Domestic Fowl|Acta Pharmacol. Toxicol.54(5): 400-407|1984|10.1111/j.1600-0773.1984.tb01949.x
66881|T||Mach,J.J., S.E. Hygnstrom, and R.M. Poche|Laboratory Efficacy Study of Six Concentrations of Warfarin Bait for Black-Tailed Prairie Dogs|Int. Biodeterior. Biodegrad.49:157-162|2002|10.1016/S0964-8305(01)00116-0
66882|T||Majgier,G.|Impact of Cadmium Chloride upon the Morphology of Testicles and Prostates in Rats|Acta Biol. Crac., Ser. Zool.24:1-8|1982|
66883|T||Malik,J.K., and A.K. Srivastava|Studies on the Interaction Between Manganese and Fenitrothion in Rats|Toxicol. Lett.36(3): 221-226|1987|10.1016/0378-4274(87)90189-5
66884|T||Malone,C.P., R.J. Miller, and D.E. Koeppe|Root Growth in Corn and Soybeans:  Effects of Cadmium and Lead on Lateral Root Initiation|Can. J. Bot.56:277-281|1978|10.1139/b78-034
66885|T||Masson,J.A., and E.P. Webster|Use of Imazethapyr in Water-Seeded Imidazolinone-Tolerant Rice (Oryza sativa)|Weed Technol.15(1): 103-106|2001|10.1614/0890-037X(2001)015[0103:UOIIWS]2.0.CO;2
66886|T||Masson,J.A., E.P. Webster, and B.J. Williams|Flood Depth, Application Timing, and Imazethapyr Activity in Imidazolinone-Tolerant Rice (Oryza sativa)|Weed Technol.15(2): 315-319|2001|10.1614/0890-037X(2001)015[0315:FDATAI]2.0.CO;2
66887|T||McLean,H.S., J.S. Richburg III, J.W. Wilcut, and A.E. Smith|Influence of Norflurazon Placement on Yellow Nutsedge (Cyperus esculentus)|Weed Technol.15(2): 327-331|2001|10.1614/0890-037X(2001)015[0327:IONPOY]2.0.CO;2
66888|T||Metzger,M.E., and M.K. Rust|Laboratory Evaluation of Fipronil and Imidacloprid Topical Insecticides for Control of the Plague Vector Oropsylla montana (Siphonaptera:  Ceratophyllidae) on California Ground Squirrels (Rodentia:  Sciuridae)|J. Med. Entomol.39(1): 152-161|2002|10.1603/0022-2585-39.1.152
66889|T||Miller,T.W., S.L. Shinn, and D.C. Thill|Cross-Resistance in and Chemical Control of Auxinic Herbicide-Resistant Yellow Starthistle (Centaurea solstitialis)|Weed Technol.15(2): 293-299|2001|10.1614/0890-037X(2001)015[0293:CRIACC]2.0.CO;2
66890|T||Minta,M., B. Biernacki, and B. Wlodarczyk|Effect of Cadmium on the Prenatal Development of Hamsters and Rats|Bull. Vet. Inst. Pulawy40:31-39|1996|
66891|AT||Miyazaki,A., T. Amano, H. Saito, and Y. Nakano|Acute Toxicity of Chlorophenols to Earthworms Using a Simple Paper Contact Method and Comparison with Toxicities to Fresh Water Organisms|Chemosphere47(1): 65-69|2002|10.1016/S0045-6535(01)00286-7
66892|T||Mohamed,A.H.|Cytogenetic Effects of Hydrogen Fluoride Treatment in Tomato Plants|J. Air Pollut. Control Assoc.18(6): 395-398|1968|10.1080/00022470.1968.10469145
66893|T||Moreno,D.S., H. Celedonio, R.L. Mangan, J.L. Zavala, and P. Montoya|Field Evaluation of a Phototoxic Dye, Phloxine B, Against Three Species of Fruit Flies (Diptera: Tephritidae)|J. Econ. Entomol.94(6): 1419-1427|2001|10.1603/0022-0493-94.6.1419
66894|T||Nagy,F.|Cadmium-Induced Alterations in the Siberian Hamster Epididymis|Arch. Androl.15:91-104|1985|10.3109/01485018508986897
66895|T||Nalyanya,G., D. Liang, R.J.,Jr. Kopanic, and C. Schal|Attractiveness of Insecticide Baits for Cockroach Control (Dictyoptera: Blattellidae):  Laboratory and Field Studies|J. Econ. Entomol.94(3): 686-693|2001|10.1603/0022-0493-94.3.686
66896|T||Nandula,V.K., and C.G. Messersmith|Resistance to BAY MKH 6562 in Wild Oat (Avena fatua)|Weed Technol.15(2): 343-347|2001|10.1614/0890-037X(2001)015[0343:RTBMIW]2.0.CO;2
66897|T||Nasruddin,A., and D.R. Smitley|Relationship of Frankliniella occidentalis (Thysanoptera:  Thripidae) Population Density and Feeding Injury to the Frequency of Insecticide Applications to Gloxinia|J. Econ. Entomol.84(6): 1812-1817|1991|10.1093/jee/84.6.1812
66898|T||Naveen,P.K., C.R. Ananthasubramaniam, and P.A. Devasia|Effects of Feeding Arsenicals on Growth in Poultry|Kerala J. Vet. Sci.8(1): 31-36|1977|
66899|T||Nayak,B.N., M. Ray, T.V.N. Persaud, and M. Nigli|Embryotoxicity and In Vivo Cytogenetic Changes Following Maternal Exposure to Cadmium Chloride in Mice|Exp. Pathol.  (Jena)36(2): 75-80|1989|10.1016/S0232-1513(89)80118-5
66900|T||Nijs,I., and I. Impens|An Analysis of the Balance Between Root and Shoot Activity in Lolium perenne cv. Melvina. Effects of CO2 Concentration and Air Temperature|New Phytol.135(1): 81-91|1997|10.1046/j.1469-8137.1997.00616.x
66901|T||Nishimura,N., H. Oshima, and M. Nakano|Urinary Trehalase as an Early Indicator of Cadmium-Induced Renal Tubular Damage in Rabbit|Arch. Toxicol.59(4): 255-260|1986|10.1007/BF00290547
66902|T||Norstrom,R.J., T.P. Clark, D.A. Jeffrey, H.T. Won, and A.P. Gilman|Dynamics of Organochlorine Compounds in Herring Gulls (Larus argentatus):  I.  Distribution and Clearance of (14C)DDE in Free-Living Herring Gulls (Larus argentatus)|Environ. Toxicol. Chem.5(1): 41-48|1986|
66903|T||Norsworthy,J.K., N.R. Burgos, and L.R. Oliver|Differences in Weed Tolerance to Glyphosate Involve Different Mechanisms|Weed Technol.15(4): 725-731|2001|10.1614/0890-037X(2001)015[0725:DIWTTG]2.0.CO;2
66905|T||Om,A.S., K.W. Chung, and H.S. Chung|Effect of Cadmium Accumulation on Renal Tissues in Broilers|Bull. Environ. Contam. Toxicol.68(2): 297-301|2002|10.1007/s001280252
66906|T||O'Sullivan,J., and P. Sikkema|Sweet Corn (Zea mays) Cultivar Sensitivity to CGA 152005 Postemergence|Weed Technol.15(2): 204-207|2001|10.1614/0890-037X(2001)015[0204:SCZMCS]2.0.CO;2
66907|T||O'Sullivan,J., R.J. Thomas, and P. Sikkema|Sweet Corn (Zea mays) Cultivar Sensitivity to RPA 201772|Weed Technol.15(2): 332-336|2001|10.1614/0890-037X(2001)015[0332:SCZMCS]2.0.CO;2
66908|T||Paksy,K., B. Varga, and P. Lazar|Effect of Cadmium on Female Fertility, Pregnancy and Postnatal Development in the Rat|Acta Physiol. Hung.84(2): 119-130|1996|
66909|T||Palmer,W.E., K.M. Puckett, J.R.,Jr. Anderson, and P.T. Bromley|Effects of Foliar Insecticides on Survival of Northern Bobwhite Quail Chicks|J. Wildl. Manag.62(4): 1565-1573|1998|10.2307/3802023
66910|T||Park,I.K., H.S. Lee, S.G. Lee, J.D. Park, and Y.J. Ahn|Antifeeding Activity of Isoquinoline Alkaloids Identified in Coptis japonica Roots Against Hyphantria cunea (Lepidoptera: Arctiidae) and Agelastica coerulea (Coleoptera: Galerucinae)|J. Econ. Entomol.93(2): 331-335|2000|10.1603/0022-0493-93.2.331
66911|T||Pittendrigh,B.R., H. Laskowski, G. O'Shea, A. Larsen, and R. Wolfe|Carbohydrate-Based Mosquito Control:  A Field Test of the Concept|Environ. Entomol.30(2): 388-393|2001|10.1603/0046-225X-30.2.388
66912|T||Pline,W.A., A.J. Price, J.W. Wilcut, K.L. Edmisten, and R. Wells|Absorption and Translocation of Glyphosate in Glyphosate-Resistant Cotton as Influenced by Application Method and Growth Stage|Weed Sci.49:460-467|2001|10.1614/0043-1745(2001)049[0460:AATOGI]2.0.CO;2
66914|T||Rainbolt,C.R., D.C. Thill, and D.A. Ball|Response of Rotational Crops to BAY MKH 6561|Weed Technol.15(2): 365-374|2001|10.1614/0890-037X(2001)015[0365:RORCTB]2.0.CO;2
66915|T||Rao,J.L.N., B.B. Reddy, and V.R. Rao|Rhizosphere Soil Nitrogenase (C2H2 Reduction) as Influenced by the Nitrogen Management in Intermediate Deep Water Rice|J. Agric. Sci.101:547-551|1983|10.1017/S0021859600038569
66916|T||Read,D.C., and K.E. Lelacheur|Note on the Effectiveness of Insecticides Applied to Mineral Soils of Various Levels of Acidity, with and Without Lime Applications at Time of Seeding, in Controlling Root Maggots Attacking Rutabagas|Can. J. Plant Sci.40:578-579|1960|10.4141/cjps60-080
66917|T||Reed,J.P., and W.R. Halliday|Establishment of Cry9C Susceptibility Baselines for European Corn Borer and Southwestern Corn Borer (Lepidoptera: Crambidae)|J. Econ. Entomol.94(2): 397-402|2001|10.1603/0022-0493-94.2.397
66918|T||Renner,K.A., O. Schabenberger, and J.J. Kells|Effect of Tillage and Application Method on Corn (Zea mays) Response to Imidazolinone Residues in Soil|Weed Technol.12(2): 281-285|1998|10.1017/S0890037X00043827
66919|T||Renner,K.A., S.M. Swinton, and J.J. Kells|Adaptation and Evaluation of the WEEDSIM Weed Management Model for Michigan|Weed Sci.47(3): 338-348|1999|10.1017/S0043174500091876
66920|T||Reuveni,R., G. Dor, M. Raviv, M. Reuveni, and S. Tuzun|Systemic Resistance Against Sphaerotheca fuliginea in Cucumber Plants Exposed to Phosphate in Hydroponics System, and Its Control by Foliar Spray of Mono-potassium Phosphate|Crop Prot.19(5): 355-361|2000|10.1016/S0261-2194(00)00029-6
66921|T||Reuveni,R., G. Dor, and M. Reuveni|Local and Systemic Control of Powdery Mildew (Leveillula taurica) on Pepper Plants by Foliar Spray of Mono-potassium Phosphate|Crop Prot.17(9): 703-709|1998|10.1016/S0261-2194(98)00077-5
66923|T||Rexilius,L., and J. Siebers|Investigations to Determine the Comparability of Residue Data on the Example of Oilseed Rape and Linseed After the Application of Four Pesticides|Agribiol. Res.50(2): 107-114|1997|
66924|T||Reynolds,C.M., D.C. Wolf, T.J. Gentry, L.B. Perry, C.S. Pidgeon, B.A. Koenen, H.B. Rogers, and C.A. Beyrouty|Plant Enhancement of Indigenous Soil Micro-Organisms: A Low-Cost Treatment of Contaminated Soils|Polar Rec.35(192): 33-40|1999|10.1017/S0032247400026310
66925|T||Rice,P.J., and J.R. Coats|Insecticidal Properties of Several Monoterpenoids to the House Fly (Diptera: Muscidae), Red Flour Beetle (Coleoptera: Tenebrionidae), and Southern Corn Rootworm (Coleoptera: Chrysomelidae)|J. Econ. Entomol.87(5): 1172-1179|1994|10.1093/jee/87.5.1172
66926|T||Richards,K.D., E.J. Schott, Y.K. Sharma, K.R. Davis, and R.C. Gardner|Aluminum Induces Oxidative Stress Genes in Arabidopsis thaliana|Plant Physiol.116(1): 409-418|1998|10.1104/pp.116.1.409
66927|T||Riches,C.R., J.S. Knights, L. Chaves, J.C. Caseley, and B.E. Valverde|The Role of Pendimethalin in the Integrated Management of Propanil-Resistant Echinochloa colona in Central America|Pestic. Sci.51(3): 341-346|1997|10.1002/(SICI)1096-9063(199711)51:3<341::AID-PS640>3.0.CO;2-D
66928|T||Richman,D.L., P.G. Koehler, and R.J. Brenner|Effect of Temperature and the Synergist Piperonyl Butoxide on Imidacloprid Toxicity to the Cat Flea (Siphonaptera: Pulicidae)|J. Econ. Entomol.92(5): 1120-1124|1999|10.1093/jee/92.5.1120
66929|T||Riechers,D.E., A. Kleinhofs, G.P. Irzyk, and S.S. Jones|Chromosomal Location and Expression of a Herbicide Safener-Regulated Glutathione S-Transferase Gene in Triticum aestivum and Linkage Relations in Hordeum vulgare|Genome41(3): 368-372|1998|10.1139/g98-062
66930|T||Ries,S.K., O. Moreno, W.F. Meggitt, C.J. Schweizer, and S.A. Ashkar|Wheat Seed Protein:  Chemical Influence on and Relationship to Subsequent Growth and Yield in Michigan and Mexico|Agron. J.62:746-748|1970|10.2134/agronj1970.00021962006200060018x
66931|T||Rinella,M.J., J.J. Kells, and R.W. Ward|Response of `Wakefield' Winter Wheat (Triticum aestivum) to Dicamba|Weed Technol.15(3): 523-529|2002|10.1614/0890-037X(2001)015[0523:ROWWWT]2.0.CO;2
66932|T||Ritter,R.L., and H. Menbere|Weed Management Systems Utilizing Glufosinate-Resistant Corn (Zea mays) and Soybean (Glycine max)|Weed Technol.15(1): 89-94|2001|10.1614/0890-037X(2001)015[0089:WMSUGR]2.0.CO;2
66933|T||Robinson,J.S., A.C. Albert, and D.A. Morris|Differential Effects of Brefeldin A and Cycloheximide on the Activity of Auxin Efflux Carriers in Cucurbita pepo L.|J. Plant Physiol.155(6): 678-684|1999|10.1016/S0176-1617(99)80082-0
66934|A||Rodriguez,M.M., J. Bisset, D.M. De Fernandez, L. Lauzan, and A. Soca|Detection of Insecticide Resistance in Aedes aegypti (Diptera:  Culicidae) from Cuba and Venezuela|J. Med. Entomol.38(5): 623-628|2001|10.1603/0022-2585-38.5.623
66935|T||Rodriguez,L.M., J.A. Ottea, and T.E. Reagan|Selection, Egg Viability, and Fecundity of the Sugarcane Borer (Lepidoptera: Crambidae) with Tebufenozide|J. Econ. Entomol.94(6): 1553-1557|2001|10.1603/0022-0493-94.6.1553
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66939|T||Schreiner,R.P., K.L. Ivors, and J.N. Pinkerton|Soil Solarization Reduces Arbuscular Mycorrhizal Fungi as a Consequence of Weed Suppression|Mycorrhiza11:273-277|2001|10.1007/s005720100131
66941|T||Shanker,K., and M.M. Srivastava|Uptake and Translocation of Selenium by Maize (Zea mays) from Its Environmentally Important Forms|J. Environ. Biol.22(3): 225-228|2001|
66942|T||Shukla,G.S., and S.V. Chandra|Cadmium Toxicity and Bioantioxidants:  Status of Vitamin E and Ascorbic Acid of Selected Organs in Rat|J. Appl. Toxicol.9(2): 119-122|1989|10.1002/jat.2550090209
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66949|T||Shukla,G.S., T. Hussain, R.S. Srivastava, and S.V. Chandra|Glutathione Peroxidase and Catalase in Liver, Kidney, Testis and Brain Regions of Rats Following Cadmium Exposure and Subsequent Withdrawal|Ind. Health27(2): 59-69|1989|10.2486/indhealth.27.59
66950|T||Shukla,U.C., P.C. Joshi, and P. Kakkar|Synergistic Action of Ultraviolet-B Radiation and Cadmium on the Growth of Wheat Seedlings|Ecotoxicol. Environ. Saf.51(2): 90-96|2002|10.1006/eesa.2001.2136
66951|T||Silva,I.R., T.J. Smyth, D.F. Moxley, T.E. Carter, N.S. Allen, and T.W. Rufty|Aluminum Accumulation at Nuclei of Cells in the Root Tip. Fluorescence Detection Using Lumogallion and Confocal Laser Scanning Microscopy|Plant Physiol.123(2): 543-552|2000|10.1104/pp.123.2.543
66952|T||Simmen,U., and U. Gisi|Uptake of 14C-SAN 789 F and  14C-Cyproconazole into Germinating Wheat Following Seed Treatment at Different Soil Matric Potentials|Soil Biol. Biochem.30(4): 517-522|1998|10.1016/S0038-0717(97)00140-5
66953|T||Simmons,A.M., and D.M. Jackson|Evaluation of Foliar-Applied Insecticides on Abundance of Parasitoids of Bemisia argentifolii (Homoptera: Aleyrodidae) in Vegetables|J. Entomol. Sci.35(1): 1-8|2000|10.18474/0749-8004-35.1.1
66954|T||Singh,G., and D. Wright|Effects of Herbicides on Nodulation, Symbiotic Nitrogen Fixation, Growth and Yield of Pea (Pisum sativum)|J. Agric. Sci.133(1): 21-30|1999|10.1017/S0021859699006735
66955|T||Sinha,S., and M. Gopal|Evaluating the Safety of beta-Cyfluthrin Insecticide for Usage in Eggplant (Solanum melongena L.) Crop|Bull. Environ. Contam. Toxicol.68(3): 400-405|2002|
66957|T||Skorzynska-Polit,E., and T. Baszynski|Differences in Sensitivity of the Photosynthetic Apparatus in Cd-Stressed Runner Bean Plants in Relation to Their Age|Plant Sci.128(1): 11-21|1997|10.1016/S0168-9452(97)00126-X
66958|T||Skorzynska-Polit,E., and T. Baszynski|Does Cd2+ Use Ca2+ Channels to Penetrate into Chloroplasts ? - A Preliminary Study|Acta Physiol. Plant.22(2): 171-178|2000|10.1007/s11738-000-0073-7
66959|T||Slovin,J.P.|Phytotoxic Conjugates of Indole-3-Acetic Acid: Potential Agents for Biochemical Selection of Mutants in Conjugate Hydrolysis|Plant Growth Regul.21(3): 215-221|1997|10.1023/A:1005873123184
66960|T||Smagghe,G., M. Auda, K. Van Laecke, and D. Degheele|Significance of Penetration and Metabolism on Topical Toxicity of Diflubenzuron in Spodoptera littoralis and Spodoptera exigua|Entomol. Exp. Appl.82(3): 255-260|1997|10.1046/j.1570-7458.1997.00138.x
66961|T||Smit,C.E., A.J. Schouten, P.J. Van den Brink, M.L.P. Van Esbroek, and L. Posthuma|Effects of Zinc Contamination on a Natural Nematode Community in Outdoor Soil Mesocosms|Arch. Environ. Contam. Toxicol.42(2): 205-216|2002|10.1007/s00244-001-0029-y
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66963|T||Smits,J.E.G., and G.R. Bortolotti|Antibody-Mediated Immunotoxicity in American Kestrels (Falco sparverius) Exposed to Polychlorinated Biphenyls|J. Toxicol. Environ. Health Part A62(4): 217-226|2001|10.1080/009841001459388
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66968|T||Sprague,C.L., E.W. Stoller, L.M. Wax, and M.J. Horak|Palmer Amaranth (Amaranthus palmeri) and Common Waterhemp (Amaranthus rudis) Resistance to Selected ALS-Inhibiting Herbicides|Weed Sci.45(2): 192-197|1997|10.1017/S0043174500092705
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66970|T||Strey,O.F., P.D. Teel, and M.T. Longnecker|Effects of Pyriproxyfen on Off-Host Water-Balance and Survival of Adult Lone Star Ticks (Acari: Ixodidae)|J. Med. Entomol.38(4): 589-595|2001|10.1603/0022-2585-38.4.589
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66973|T||Tanji,A.|Response of Ripgut Brome (Bromus rigidus) and Foxtail Brome (Bromus rubens) to MON 37500|Weed Technol.15(4): 642-646|2001|10.1614/0890-037X(2001)015[0642:RORBBR]2.0.CO;2
66974|T||Taylor-Lovell,S., L.M. Wax, and R. Nelson|Phytotoxic Response and Yield of Soybean (Glycine max) Varieties Treated with Sulfentrazone or Flumioxazin|Weed Technol.15(1): 95-102|2001|10.1614/0890-037X(2001)015[0095:PRAYOS]2.0.CO;2
66975|T||Tipping,P.W.|Canada Thistle (Cirsium arvense) Control with Hexazinone in Crown Vetch (Coronilla varia)|Weed Technol.15(3): 559-563|2001|10.1614/0890-037X(2001)015[0559:CTCACW]2.0.CO;2
66976|T||Tonks,D.J., and C.V. Eberlein|Postemergence Weed Control with Rimsulfuron and Various Adjuvants in Potato (Solanum tuberosum)|Weed Technol.15(4): 613-616|2001|10.1614/0890-037X(2001)015[0613:PWCWRA]2.0.CO;2
66977|T||Toscano,N.C., N. Prabhaker, S.J. Castle, and T.J. Henneberry|Inter-Regional Differences in Baseline Toxicity of Bemisia argentifolii (Homoptera: Aleyrodidae) to the Two Insect Growth Regulators, Buprofezin and Pyriproxyfen|J. Econ. Entomol.94(6): 1538-1546|2001|10.1603/0022-0493-94.6.1538
66978|T||Trudeau,V.L., S. Chiu, S.W. Kennedy, and R.J. Brooks|Octylphenol (OP) Alters the Expression of Members of the Amyloid Protein Family in the Hypothalamus of the Snapping Turtle, Chelydra serpentina serpentina|Environ. Health Perspect.110(3): 269-275|2002|10.1289/ehp.02110269
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66980|T||VanGessell,M.J., A.O. Ayeni, and B.A. Majek|Glyphosate in Double-Crop No-Till Glyphosate-Resistant Soybean:  Role of Preplant Applications and Residual Herbicides|Weed Technol.15(4): 703-713|2001|10.1614/0890-037X(2001)015[0703:GIDCNT]2.0.CO;2
66981|T||VanGessel,M.J., A.O. Ayeni, and B.A. Majek|Glyphosate in Full-Season No-Till Glyphosate-Resistant Soybean:  Role of Preplant Applications and Residual Herbicides|Weed Technol.15(4): 714-724|2001|10.1614/0890-037X(2001)015[0714:GIFSNT]2.0.CO;2
66982|T||Van Ginkel,J.H., A. Gorissen, and J.A. Van Veen|Carbon and Nitrogen Allocation in Lolium perenne in Response to Elevated Atmospheric CO2 with Emphasis on Soil Carbon Dynamics|Plant Soil188(2): 299-308|1997|10.1023/A:1004233920896
66983|T||Van Iersel,M.W., R.D. Oetting, D.B. Hall, and J.G. Kang|Application Technique and Irrigation Method Affect Imidacloprid Control of Silverleaf Whiteflies (Homoptera: Aleyrodidae) on Poinsettias|J. Econ. Entomol.94(3): 666-672|2001|10.1603/0022-0493-94.3.666
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66989|T||Victor,S.R., F.R. Crisostomo, F.C. Bueno, F.C. Pagnocca, J.B. Fernandes, A.G. Correa, O.C. Bueno, M.J.A. Hebling, M.,Jr|Toxicity of Synthetic Piperonyl Compounds to Leaf-Cutting Ants and Their Symbiotic Fungus|Pest Manag. Sci.57:603-608|2001|10.1002/ps.333
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66994|T||Waldstein,D.E., and W.H. Reissig|Apple Damage, Pest Phenology, and Factors Influencing the Efficacy of Tebufenozide for Control of Obliquebanded Leafroller (Lepidoptera: Tortricidae)|J. Econ. Entomol.94(3): 673-679|2001|10.1603/0022-0493-94.3.673
66995|T||Walsh,M.J., R.D. Duane, and S.B. Powles|high Frequency of Chlorsulfuron-Resistant Wild Radish (Raphanus raphanistrum) Populations Across the Western Australian Wheatbelt|Weed Technol.15(2): 199-203|2001|10.1614/0890-037X(2001)015[0199:HFOCRW]2.0.CO;2
66996|T||Wang,C.Y.|Effect of Glyphosate on Aromatic Amino Acid Metabolism in Purple Nutsedge (Cyperus rotundus)|Weed Technol.15(4): 628-635|2001|10.1614/0890-037X(2001)015[0628:EOGOAA]2.0.CO;2
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67003|T||Zawierucha,J.E., and D. Penner|Adjuvant Efficacy with Quinclorac in Canola (Brassica napus) and Turfgrass|Weed Technol.15(2): 220-223|2001|10.1614/0890-037X(2001)015[0220:AEWQIC]2.0.CO;2
67004|T||Zawierucha,J.E., and D. Penner|The Relationship of Goosegrass (Eleusine indica) Stage of Growth to Quinclorac Tolerance|Weed Technol.15(2): 216-219|2001|10.1614/0890-037X(2001)015[0216:TROGEI]2.0.CO;2
67005|T||Zhang,W., E.P. Webster, and H.M. Selim|Effect of Soil Moisture on Efficacy of Imazethapyr in Greenhouse|Weed Technol.15(2): 355-359|2001|10.1614/0890-037X(2001)015[0355:EOSMOE]2.0.CO;2
67025|A||Hornung,M.W., E.W. Zabel, and R.E. Peterson|Additive Interactions Between Pairs of Polybrominated Dibenzo-p-Dioxin, Dibenzofuran, and Biphenyl Congeners in a Rainbow Trout Early Life Stage Mortality Bioassay|Toxicol. Appl. Pharmacol.140:345-355|1996|10.1006/taap.1996.0230
67030|A||Slaveykova,V.I., and K.J. Wilkinson|Physicochemical Aspects of Lead Bioaccumulation by Chlorella vulgaris|Environ. Sci. Technol.36(5): 969-975|2002|10.1021/es0101577
67033|A||Van Weers,A.W.|Uptake of Cobalt-60 from Sea Water and from Labelled Food by the Common Shrimp Crangon crangon (L.)|Proceedings of an International Symposium on the Impacts of Nuclear Releases into the Aquatic Environment:349-361|1975|
67038|A||Wade,D.C.|Definitive Evaluation of Wheeler Reservoir Sediments Toxicity Using Juvenile Freshwater Mussels (Anodonta imbecillis Say)|TVA/WR 92/25, Tennesee Valley Authority, Water Resources Division:27 p.|1992|
67039|A||WindWard Environmental|Derivation of Acute and Chronic Criteria for Lead and Zinc|In: B.J.Cassady (Ed.), Development of Site-Specific Water Quality Criteria for the South Fork Coeur d'Alene River, Idaho:46 p.|2002|
67041|A||Inui,Y., and M. Yokote|Gluconeogenesis in the Eel - IV.  Gluconeogenesis in the Hydrocortisone-Administered Eel|Nippon Suisan Gakkaishi (Multiple Languages)41(9): 973-981|1975|10.2331/suisan.41.973
67042|A||Niimi,A.J., and B.G. Oliver|Biological Half-Lives of Polychlorinated Biphenyl (PCB) Congeners in Whole Fish and Muscle of Rainbow Trout (Salmo gairdneri)|Can. J. Fish. Aquat. Sci.40(9): 1388-1394|1983|10.1139/f83-160
67043|A||Burggraaf,S., A.G. Langdon, A.L. Wilkins, and D.S. Roper|Accumulation and Depuration of Resin Acids and Fichtelite by the Freshwater Mussel Hyridella menziesi|Environ. Toxicol. Chem.15(3): 369-375|1996|10.1002/etc.5620150322
67044|A||Borgmann,U., and W.P. Norwood|Toxicity and Accumulation of Zinc and Copper in Hyalella azteca Exposed to Metal-Spiked Sediments|Can. J. Fish. Aquat. Sci.54:1046-1054|1997|
67050|T||Barrett,J., and P.J. Livesey|Lead Induced Alterations in Maternal Behavior and Offspring Development in the Rat|Neurobehav. Toxicol. Teratol.5:557-563|1983|
67052|T||Esbenshade,W.R., W.S. Curran, G.W. Roth, N.L. Hartwig, and M.D. Orzolek|Effect of Tillage, Row Spacing, and Herbicide on the Emergence and Control of Burcucumber (Sicyos angulatus) in Soybean (Glycine max)|Weed Technol.15(2): 229-235|2001|10.1614/0890-037X(2001)015[0229:EOTRSA]2.0.CO;2
67053|T||Fennimore,S.A., R.F. Smith, and M.E.,Jr. McGiffen|Weed Management in Fresh Market Spinach (Spinacia oleracea) with S-Metolachlor|Weed Technol.15(3): 511-516|2001|10.1614/0890-037X(2001)015[0511:WMIFMS]2.0.CO;2
67054|T||Fausey,J.C., and K.A. Renner|Broadleaf Weed Control in Corn (Zea mays) and Soybean (Glycine max) with CGA-248757 and Flumiclorac Alone and in Tank Mixtures|Weed Technol.15(3): 399-407|2001|10.1614/0890-037X(2001)015[0399:BWCICZ]2.0.CO;2
67055|T||Boutsalis,P.|Syngenta Quick-Test:  A Rapid Whole-Plant Test for Herbicide Resistance|Weed Technol.15(2): 257-263|2001|10.1614/0890-037X(2001)015[0257:SQTARW]2.0.CO;2
67056|T||Sanders,J.C., C.D. Monks, M.G. Patterson, D.P. Delaney, D.P. Moore, and L.W. Wells|Effectiveness of Ammonium Thiosulfate to Enhance Weed Control and Reduce Cotton (Gossypium hirsutum) Injury|Weed Technol.15(2): 236-241|2001|10.1614/0890-037X(2001)015[0236:EOATTE]2.0.CO;2
67057|T||Damalas,C.A., and I.G. Eleftherohorinos|Dicamba and Atrazine Antagonism on Sulfonylurea Herbicides Used for Johnsongrass (Sorghum halepense) Control in Corn (Zea mays)|Weed Technol.15(1): 62-67|2001|10.1614/0890-037X(2001)015[0062:DAAAOS]2.0.CO;2
67058|T||Kirkland,K.J., E.N. Johnson, and F.C. Stevenson|Control of Wild Oat (Avena fatua) in Wheat with MKH 6562|Weed Technol.15(1): 48-55|2001|10.1614/0890-037X(2001)015[0048:COWOAF]2.0.CO;2
67059|T||Moyer,J.R., and W.M. Hamman|Factors Affecting the Toxicity of MON 37500 Residues to Following Crops|Weed Technol.15(1): 42-47|2001|10.1614/0890-037X(2001)015[0042:FATTOM]2.0.CO;2
67060|T||Prostko,E.P., W.C. Johnson III, and B.G.,Jr. Mullinix|Annual Grass Control with Preplant Incorporated and Preemergence Applications of Ethalfluralin and Pendimethalin in Peanut (Arachis hypogaea)|Weed Technol.15(1): 36-41|2001|10.1614/0890-037X(2001)015[0036:AGCWPI]2.0.CO;2
67061|T||Cavero,J., J. Aibar, M. Gutierrez, S. Fernandez-Cavada, J.M. Sopena, A. Pardo, M.L. Suso, and C. Zaragoza|Tolerance of Direct-Seeded Paprika Pepper (Capsicum annuum) to Clomazone Applied Preemergence|Weed Technol.15(1): 30-35|2001|10.1614/0890-037X(2001)015[0030:TODSPP]2.0.CO;2
67062|T||Dotray,P.A., T.A. Baughman, J.W. Keeling, W.J. Grichar, and R.G. Lemon|Effect of Imazapic Application Timing on Texas Peanut (Arachis hypogaea)|Weed Technol.15(1): 26-29|2001|10.1614/0890-037X(2001)015[0026:EOIATO]2.0.CO;2
67063|T||Edenfield,M.W., D.L. Colvin, B.J. Brecke, D.G. Shilling, and H.H. McLean|Weed Management in Peanut (Arachis hypogaea) with Pyridate and SAN 582 Systems|Weed Technol.15(1): 13-18|2001|10.1614/0890-037X(2001)015[0013:WMIPAH]2.0.CO;2
67064|T||Markle,D.M., and R.G. Lym|Leafy Spurge (Euphorbia esula) Control and Herbage Production with Imazapic|Weed Technol.15(3): 474-480|2001|10.1614/0890-037X(2001)015[0474:LSEECA]2.0.CO;2
67065|T||Boydston,R.A.|Volunteer Potato (Solanum tuberosum) Control with Herbicides and Cultivation in Field Corn (Zea mays)|Weed Technol.15(3): 461-466|2001|10.1614/0890-037X(2001)015[0461:VPSTCW]2.0.CO;2
67066|T||Arregui,M.C., D. Sanchez, and R. Scotta|Weed Control in Established Alfalfa (Medicago sativa) with Postemergence Herbicides|Weed Technol.15(3): 424-428|2001|10.1614/0890-037X(2001)015[0424:WCIEAM]2.0.CO;2
67067|T||Edenfield,M.W., D.L. Colvin, B.J. Brecke, D.G. Shilling, and H.H. McLean|Effect of Pyridate Formulation and Adjuvants on Broadleaf Weed Control in Peanut (Arachis hypogaea)|Weed Technol.15(3): 419-423|2001|10.1614/0890-037X(2001)015[0419:EOPFAA]2.0.CO;2
67068|T||Carlsten,A., R. Ekholm, L.E. Ericson, and O. Poupa|Ultrastructural and Functional Aspects of Frog Heart Lesions After Isoproterenol|Acta Pathol. Microbiol Immunol. Scand. A 85(2): 251-262|1977|10.1111/j.1699-0463.1977.tb00424.x
67069|T||Folker-Hansen,P., P.H. Krogh, and M. Holmstrup|Effect of Dimethoate on Body Growth of Representatives of the Soil Living Mesofauna|Ecotoxicol. Environ. Saf.33:207-216|1996|10.1006/eesa.1996.0027
67070|T||Wildung,R.E., T.R. Garland, and D.A. Cataldo|Accumulation of Technetium by Planys|Health Phys.32:314-317|1977|
67073|T||Steiner,K.C., L.H. McCormick, and D.S. Canavera|Differential Response of Paper Birch Provenances to Aluminum in Solution Culture|Can. J. For. Res.10:25-29|1980|10.1139/x80-005
67074|T||Thornton,F.C., M. Schaedle, and D.J. Raynal|Effect of Aluminum on the Growth of Sugar Maple in Solution Culture|Can. J. For. Res.16:892-896|1986|10.1139/x86-159
67075|T||Pavan,M.A., and F.T. Bingham|Toxicity of Aluminum to Coffee Seedlings Grown in Nutrient Solution|Soil Sci. Soc. Am. J.45:993-997|1982|10.2136/sssaj1982.03615995004600050021x
67076|T||Fitzhugh,O.G., A.A. Nelson, and J.P. Frawley|The Chronic Toxicities of Technical Benzene Hexachloride and Its alpha, beta, and gamma Isomers|J. Pharmacol. Exp. Ther.100:59-66|1950|
67077|AT||Karunaratne,S.H.P.P.|Insecticide Cross-Resistance Spectra and Underlying Resistance Mechanisms of Sri Lankan Anopheline Vectors of Malaria|Southeast Asian J. Trop. Med. Public Health30(3): 460-469|1999|
67078|T||Brunstrom,B., A. Bergman, B.M. Backlin, B.O. Lund, and J. Orberg|Effects of Long-Term Exposure to PCB and PCB Methylsulfones on Reproduction in the Mink|Organohalog. Compd.20:471-480|1994|
67079|T||Ivany,J.A., and J.B. Sanderson|Response of Potato (Solanum tuberosum) Cultivars to Glufosinate-Ammonium and Diquat Used as Desiccants|Weed Technol.15(3): 505-510|2001|10.1614/0890-037X(2001)015[0505:ROPSTC]2.0.CO;2
67080|T||Hartzler,R.G., and B.A. Battles|Reduced Fitness of Velvetleaf (Abutilon theophrasti) Surviving Glyphosate|Weed Technol.15(3): 492-496|2001|10.1614/0890-037X(2001)015[0492:RFOVAT]2.0.CO;2
67081|T||Laurent,C., C. Feidt, N. Grova, D. Mpassi, E. Lichtfouse, F. Laurent, and G. Rychen|Portal Absorption of 14C After Ingestion of Spiked Milk with 14C-Phenanthrene, 14C-Benzo(a)pyrene or 14C-TCDD in Growing Pigs|Chemosphere48(8): 843-848|2002|10.1016/S0045-6535(02)00145-5
67082|T||Warren,J.R., F. Graham, and G. Gale|Dominance of an Actinomycete in a Soil Microflora After 2,4-D Treatment of Plants|Phytopathology41:1037-1039|1951|
67083|T||Reinecke,S.A., B. Helling, and A.J. Reinecke|Lysosomal Response of Earthworm (Eisenia fetida) Coelomocytes to the Fungicide Copper Oxychloride and Relation to Life-Cycle Parameters|Environ. Toxicol. Chem.21(5): 1026-1031|2002|
67084|T||Talent,L.G., J.N. Dumont, J.A. Bantle, D.M. Janz, and S.G. Talent|Evaluation of Western Fence Lizards (Sceloporus occidentalis) and Eastern Fence Lizards (Sceloporus undulatus) as Laboratory Reptile Models for Toxicological Investigations|Environ. Toxicol. Chem.21(5): 899-905|2002|
67087|T||Jessup,D.C., and L.D. Shott|Lead Acetate, 22 Month Chronic Toxicity Study - Rats|Rep.No.API-EA7102-1, Hazleton Lab.Inc., Falls Church, VA:141 p.|1969|
67088|T||De Sousa,C.N.A.|Classification of Brazilian Wheat Cultivars for Aluminium Toxicity in Acid Soils|Plant Breed.117(3): 217-221|1998|10.1111/j.1439-0523.1998.tb01929.x
67089|T||Ledoux,D.R., P.R. Henry, C.B. Ammerman, and R.D. Miles|Effect of Dietary Copper on Tissue Mineral Composition as an Estimate of Copper Bioavailability in Broiler Chicks|Nutr. Rep. Int.39(6): 1117-1126|1989|
67091|T||Rashid,A., J.T. O'Donovan, A.A. Khan, M.P. Sharma, and H. Van Nguyen|Response of Triallate-Resistant and -Susceptible Wild Oat (Avena fatua) Populations to Difenzoquat and EPTC in a Seedling Bioassay|Weed Technol.11(3): 527-531|1997|10.1017/S0890037X0004536X
67092|T||Wells,J.M., and D.H. Brown|Cadmium Tolerance in a Metal-Contaminated Population of the Grassland Moss Rhytidiadelphus squarrosus|Ann. Bot.75:21-29|1995|10.1016/S0305-7364(05)80005-8
67093|T||Weischer,C.H., W. Kordel, and D. Hochrainer|Effects of NiCl2 and NiO in Wistar Rats After Oral Uptake and Inhalation Exposure Respectively (Der Einfluss von NiCl2 und NiO auf Wistar-Ratten nach Oraler bzw. Inhalativer Exposition)|Zentbl. Bakteriol. Abt 1 Orig. B Hyg. Krankenhhyg. Betrhyg. Praev. Med.171:336-351|1980|
67094|T||Wegulo,S.N., C.A. Martinson, J.M. Rivera-Canales, and F.W.,Jr. Nutter|Model for Economic Analysis of Fungicide Usage in Hybrid Corn Seed Production|Plant Dis.81(4): 415-422|1997|10.1094/PDIS.1997.81.4.415
67095|T||Waterer,D.R.|Effect of Soil Mulches and Herbicides on Production Economics of Warm Season Vegetable Crops in a Cool Climate|HortTechnology10(1): 154-159|2000|10.21273/HORTTECH.10.1.154
67096|T||Nicholas,D.J.D.|Some Effects of Metals in Excess on Crop Plants Grown in Soil Culture.  III.  Effects of Cobalt, Nickel and Zinc on Growth, Metal and Chlorophyll Contents of Tomato|Annual Report of the Long Ashton Agricultural and Horticultural Research Station, Bristol, UK:87-102|1951|
67097|T||Scott,G.H., S.D. Askew, and J.W. Wilcut|Economic Evaluation of Diclosulam and Flumioxazin Systems in Peanut (Arachis hypogaea)|Weed Technol.15(2): 360-364|2001|10.1614/0890-037X(2001)015[0360:EEODAF]2.0.CO;2
67098|T||Paulsgrove,M.D., and J.W. Wilcut|Weed Management with Pyrithiobac Preemergence in Bromoxynil-Resistant Cotton|Weed Sci.49:567-570|2001|10.1614/0043-1745(2001)049[0567:WMWPPI]2.0.CO;2
67099|T||Lindigkeit,R., A. Biller, M. Buch, H.M. Schiebel, M. Boppre, and T. Hartmann|The Two Faces of Pyrrolizidine Alkaloids: The Role of the Tertiary Amine and Its N-Oxide in Chemical Defense of Insects with Acquired Plant Alkaloids|Eur. J. Biochem.245(3): 626-636|1997|10.1111/j.1432-1033.1997.00626.x
67100|T||Nishimura,K., T. Tada, R. Shimizu, and A. Ohoka|Effects of Alkyl Groups Attached to the Carbamoyl Nitrogen Atom of an N-Arylcarbamoylpyrazoline on Insecticidal Activity|Pestic. Sci.55(4): 446-451|1999|10.1002/(SICI)1096-9063(199904)55:4<446::AID-PS928>3.0.CO;2-V
67101|T||Van Iersel,M.W., and B. Bugbee|Dibutylurea Reduces Photosynthesis, Growth, and Flowering of Petunia and Impatiens|J. Am. Soc. Hortic. Sci.122(4): 536-541|1997|10.21273/JASHS.122.4.536
67102|T||Blom,P.E., S.J. Fleischer, and Z. Smilowitz|Spatial and Temporal Dynamics of Colorado Potato Beetle (Coleoptera: Chrysomelidae) in Fields with Perimeter and Spatially Targeted Insecticides|Environ. Entomol.31(1): 149-159|2002|10.1603/0046-225X-31.1.149
67103|T||Shrestha,A., I. Rajcan, K. Chandler, and C.J. Swanton|An Integrated Weed Management Strategy for Glufosinate-Resistant Corn (Zea mays)|Weed Technol.15(3): 517-522|2001|10.1614/0890-037X(2001)015[0517:AIWMSF]2.0.CO;2
67104|T||Reuveni,M., D. Oppenheim, and R. Reuveni|Integrated Control of Powdery Mildew on Apple Trees by Foliar Sprays of Mono-potassium Phosphate Fertilizer and Sterol Inhibiting Fungicides|Crop Prot.17(7): 563-568|1998|10.1016/S0261-2194(98)00050-7
67105|T||Wedding,R.T.|Plant Physiological Aspects of the Use of Systemic Insecticides|J. Agric. Food Chem.1(13): 832-834|1953|10.1021/jf60013a004
67106|T||Forster,W.A.|Toxic Effects of Heavy Metals on Crop Plants Grown in Soil Culture|Ann. Appl. Biol.41(4): 637-651|1954|10.1111/j.1744-7348.1954.tb01160.x
67107|T||Lindquist,D.A., and D.L. Bull|Fate of 3-Hydroxy-N-Methyl-cis-Crotonamide Dimethyl Phosphate in Cotton Plants|J. Agric. Food Chem.15(2): 267-272|1967|10.1021/jf60150a030
67108|T||Hamers,T., and P.H. Krogh|Predator-Prey Relationships in a Two-Species Toxicity Test System|Ecotoxicol. Environ. Saf.37(3): 203-212|1997|10.1006/eesa.1997.1557
67109|T||Rice,P.M., and J.C. Toney|Exotic Weed Control Treatments for Conservation of Fescue Grassland in Montana|Biol. Conserv.85(1/2): 83-95|1998|10.1016/S0006-3207(97)00138-9
67110|T||Crooke,W.M.|Further Aspects of the Relationship Between Nickel Toxicity and Iron Supply|Ann. Appl. Biol.43(3): 465-476|1955|10.1111/j.1744-7348.1955.tb02495.x
67111|T||Crooke,W.M., and A.H. Knight|The Relationship Between Nickel-Toxicity Symptoms and the Absorption of Iron and Nickel|Ann. Appl. Biol.43(3): 454-464|1955|10.1111/j.1744-7348.1955.tb02494.x
67112|T||Garrido,I., F. Espinosa, M.A. Paredes, and M.C. Alvarez-Tinaut|Net Simultaneous Hydrogen and Potassium Ion Flux Kinetics in Sterile Aeroponic Sunflower Seedling Roots: Effects of Potassium Ion Supply, Valinomycin, and Dicyclohexylcarbodiimide|J. Plant Nutr.21(1): 115-137|1998|10.1080/01904169809365387
67113|T||Boland,G.J.|Stability Analysis for Evaluating the Influence of Environment on Chemical and Biological Control of White Mold (Sclerotinia sclerotiorum) of Bean|Biol. Control9(1): 7-14|1997|10.1006/bcon.1997.0515
67114|T||Bert,V., M.R. Macnair, P. De Laguerie, P. Saumitou-Laprade, and D. Petit|Zinc Tolerance and Accumulation in Metallicolous and Nonmetallicolous Populations of Arabidopsis halleri (Brassicaceae)|New Phytol.146(2): 225-233|2000|10.1046/j.1469-8137.2000.00634.x
67115|T||Smagghe,G., T.S. Dhadialla, S. Derycke, L. Tirry, and D. Degheele|Action of the Ecdysteroid Agonist Tebufenozide in Susceptible and Artificially Selected Beet Armyworm|Pestic. Sci.54(1): 27-34|1998|10.1002/(SICI)1096-9063(199809)54:1<27::AID-PS772>3.0.CO;2-N
67116|T||Bernays,E.A., and R.F. Chapman|A Neurophysiological Study of Sensitivity to a Feeding Deterrent in Two Sister Species of Heliothis with Different Diet Breadths|J. Insect Physiol.46(6): 905-912|2000|10.1016/S0022-1910(99)00197-3
67117|T||Smith,J.L., and M.K. Rust|Vapor Activity of Insecticides Used for Subterranean Termite (Isoptera: Rhinotermitidae) Control|J. Econ. Entomol.84(1): 181-184|1991|10.1093/jee/84.1.181
67118|T||Smith,M.D., D.C. Hartnett, and C.W. Rice|Effects of Long-Term Fungicide Applications on Microbial Properties in Tallgrass Prairie Soil|Soil Biol. Biochem.32(7): 935-946|2000|10.1016/S0038-0717(99)00223-0
67120|T||Ruiz-Lozano,J.M., and R. Azcon|Effect of Calcium Application on the Tolerance of Mycorrhizal Lettuce Plants to Polyethylene Glycol-Induced Water Stress|Symbiosis23(1): 9-22|1997|
67121|T||Siopes,T.|Transient Hypothyroidism Reinitiates Egg Laying in Turkey Breeder Hens:  Termination of Photorefractoriness by Propylthiouracil|Poult. Sci.76:1776-1782|1997|10.1093/ps/76.12.1776
67122|T||Skarlou,V., C. Nobeli, J. Anoussis, C. Haidouti, and E. Papanicolaou|Transfer Factors of 134Cs for Olive and Orange Trees Grown on Different Soils|J. Environ. Radioact.45(2): 139-147|1999|10.1016/S0265-931X(98)00098-8
67123|T||Haas,A.R.C., and J.N. Brusca|Effects of Chromium on Citrus and Avocado Grown in Nutrient Solutions|Calif. Agric.15(2): 10-11|1961|
67124|T||Reddy,K.N.|Broadleaf Weed Control in Ultra Narrow Row Bromoxynil-Resistant Cotton (Gossypium hirsutum)|Weed Technol.15(3): 497-504|2001|10.1614/0890-037X(2001)015[0497:BWCIUN]2.0.CO;2
67125|T||Grichar,W.J., B.A. Besler, and K.D. Brewer|Citronmelon (Citrullus lanatus var. citroides) Control in Texas Peanut (Arachis hypogaea) Using Postemergence Herbicides|Weed Technol.15(3): 481-484|2001|10.1614/0890-037X(2001)015[0481:CCLVCC]2.0.CO;2
67126|T||Tanacs,L., G. Szabo, I. Csatlos, and J. Matuz|Study of Fungicide Residues in the Grain of Fungicide-Treated Wheats II.  Propiconazole- and Bromuconazole-Based Fungicides|Cereal Res. Commun.25(4): 1001-1006|1997|10.1007/BF03543908
67127|T||Tanacs,L., J. Matuz, I. Csatlos, and L. Gero|Study of Fungicide Residues in the Grain of Fungicide-Treated Wheats III. Flusilazole, Carbendazime, Tebuconazole and Triadimefon-Based Fungicides|Cereal Res. Commun.26(3): 329-336|1998|10.1007/BF03543507
67128|T||Conner,A.J., and M.C. Christey|A Seed Treatment for Eliminating Non-Hybrid Plants when Using Atrazine Resistance as a Genetic Marker for Hybrid Seed Production|Ann. Bot.80(4): 561-564|1997|10.1006/anbo.1997.0464
67130|T||Wearing,C.H.|Cross-Resistance Between Azinphos-Methyl and Tebufenozide in the Greenheaded Leafroller, Planotortrix octo|Pestic. Sci.54(3): 203-211|1998|10.1002/(SICI)1096-9063(1998110)54:3<203::AID-PS809>3.0.CO;2-J
67131|T||Weckx,J.E.J., and H.M.M. Clijsters|Zn Phytotoxicity Induces Oxidative Stress in Primary Leaves of Phaseolus vulgaris|Plant Physiol. Biochem.35(5): 405-410|1997|
67133|A||Khan,I.A., S. Mathews, K. Okuzawa, H. Kagawa, and P. Thomas|Alterations in the GnRH-LH System in Relation to Gonadal Stage and Aroclor 1254 Exposure in Atlantic Croaker|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.129:251-259|2001|10.1016/S1096-4959(01)00318-9
67134|A||De la Higuera,M., and P. Cardenas|Hormonal Effects on Gluconeogenesis from (U-14C)Glutamate in Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. B Comp. Biochem.85(3): 517-521|1986|10.1016/0305-0491(86)90040-4
67135|A||Whiting,S.J., and A.J. Wiggs|Effect of Nutritional Factors and Cortisol on Tyrosine Aminotransferase Activity in Liver of Brook Trout, Salvelinus fontinalis Mitchill|Comp. Biochem. Physiol. B Comp. Biochem.58:189-193|1977|10.1016/0305-0491(77)90108-0
67136|A||Swallow,R.L., and W.R. Fleming|The Effect of Oxaloacetate, ACTH and Cortisol on the Liver Glycogen Levels of Tilapia mossambica|Comp. Biochem. Physiol.36:93-98|1970|10.1016/0010-406X(70)90654-7
67137|A||Oshima,Y., I.J. Kang, M. Kobayashi, K. Nakayama, N. Imada, and T. Honjo|Suppression of Sexual Behavior in Male Japanese Medaka (Oryzias latipes) Exposed to 17beta-Estradiol|Chemosphere50(3): 429-436|2003|10.1016/S0045-6535(02)00494-0
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67367|T||Rode,M.W., and M. Runge|Combined Effects of Aluminium and Nitrogen Forms on Root Growth of Ten Ecologically Distinct Plant Species|In: B.L.McMichael and H.Persson (Eds.), Plant Roots and Their Environment, Development in Agricultural and Managed-Forest Ecology, Elsevier Science Publ., Amsterdam24:263-272|1991|
67368|T||Dong,D., I. Thornton, and M.H. Ramsey|Influence of Soil-Extractable Aluminium and pH on the Uptake of Aluminium from Soil into the Soybean Plant (Glycine max)|Environ. Geochem. Health15(2/3): 105-111|1993|10.1007/BF02627828
67369|T||Griffiths,D.C.|The Effects of Insecticides on the Biting Behaviour of Wireworms (Agriotes spp.)|Entomol. Exp. Appl.10:171-180|1967|10.1111/j.1570-7458.1967.tb00056.x
67371|T||Sheppard,M.I., T.T. Vandergraaf, D.H. Thibault, and J.A.K. Reid|Technetium and Uranium: Sorption by and Plant Uptake from Peat and Sand|Health Phys.44(6): 635-643|1983|10.1097/00004032-198306000-00004
67372|T||Barrow,N.J., and B.R. Whelan|Comparing the Effects of pH on the Sorption of Metals by Soil and by Goethite, and on Uptake by Plants|Eur. J. Soil Sci.49(4): 683-692|1998|10.1046/j.1365-2389.1998.4940683.x
67373|T||Stiborova,M., R. Hromadkova, and S. Leblova|Effect of Ions of Heavy Metals on the Photosynthetic Characteristics of Maize (Zea mays L.)|Biologia (Bratisl.)41(12): 1221-1228|1986|
67374|A||Pasteur,N., G.P. Georghiou, and A. Iseki|Variation in Organophosphate Resistance and Esterase Activity in Culex quinquefasciatus Say from California|Genet. Sel. Evol.16(3): 271-283|1984|10.1186/1297-9686-16-3-271
67375|T||Sheppard,S.C., W.G. Evenden, and A.J. Anderson|Multiple Assays of Uranium Toxicity in Soil|Environ. Toxicol. Water Qual.7(3): 275-294|1992|10.1002/tox.2530070307
67376|T||Oka,I.N., and D. Pimentel|Corn Susceptibility to Corn Leaf Aphids and Common Corn Smut After Herbicide Treatment|Environ. Entomol.3(6): 911-915|1974|10.1093/ee/3.6.911
67377|T||Ankersmit,G.W., J.T. Locher, H.H.W. Velthuis, and K.W.R. Zwart|Effect of Insecticides, Acaricides and Fungicides on Mormoniella vitripennis Walker (Hym. Pteromalidae)|Entomophaga7(3): 251-255|1962|10.1007/BF02374364
67378|T||Mohanna,C., and Y. Nys|Effect of Dietary Zinc Content and Sources on the Growth, Body Zinc Deposition and Retention, Zinc Excretion and Immune Response in Chickens|Br. Poult. Sci.40(1): 108-114|1999|10.1080/00071669987926
67379|T||Sato,K.|Relation Between Injected Dose of Dichlorvos and Carbaryl and Lethal Time Against Developing Larvae of Spodoptera litura (Fab.) (Lepidoptera:  Noctuidae)|Appl. Entomol. Zool.20(2): 232-234|1985|10.1303/aez.20.232
67380|T||Goring,C.A.I., J.D. Griffith, F.C. O'Melia, H.H. Scott, and C.R. Youngson|The Effect of Tordon on Microorganisms and Soil Biological Processes|Down Earth22(4): 14-17|1967|
67383|T||Knutson,H., A.M. Kadoum, T.L. Hopkins, G.F. Swoyer, and T.L. Harvey|Insecticide Usage and Residues in a Newly Developed Great Plains Irrigation District|Pestic. Monit. J.5(1): 17-26|1971|
67388|T||Hany,J., H. Lilienthal, A. Sarasin, A. Roth-Harer, A. Fastabend, L. Dunemann, W. Lichtensteiger, and G. Winneke|Developmental Exposure of Rats to a Reconstituted PCB Mixture or Aroclor 1254:  Effects on Organ Weights, Aromatase Activity, Sex Hormone Levels, and Sweet Preference Behavior|Toxicol. Appl. Pharmacol.158:231-243|1999|10.1006/taap.1999.8710
67389|T||DeVito,M.J., X. Ma, J.G. Babish, M. Menache, and L.S. Birnbaum|Dose-Response Relationships in Mice Following Subchronic Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  CYP1A1, CYP1A2, Estrogen Receptor, and Protein Tyrosine Phosphorylation|Toxicol. Appl. Pharmacol.124:82-90|1994|10.1006/taap.1994.1011
67390|T||Bjerke,D.L., T.J. Brown, N.J. MacLusky, R.B. Hochberg, and R.E. Peterson|Partial Demasculinization and Feminization of Sex Behavior in Male Rats by In Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin is not Associated with Alterations in Estrogen Receptor Binding or Volu|Toxicol. Appl. Pharmacol.127:258-267|1994|10.1006/taap.1994.1160
67391|T||Cassidy,R.A., C.V. Vorhees, D.J. Minnema, and L. Hastings|The Effects of Chlordane Exposure During Pre- and Postnatal Periods at Environmentally Relevant Levels on Sex Steroid-Mediated Behaviors and Functions in the Rat|Toxicol. Appl. Pharmacol.126:326-337|1994|10.1006/taap.1994.1123
67392|T||Richard-Mercier,N., M. Dorizzi, G. Desvages, M. Girondot, and C. Pieau|Endocrine Sex Reversal of Gonads by the Aromatase Inhibitor Letrozole (CGS 20267) in Emys orbicularis, a Turtle with Temperature-Dependent Sex Determination|Gen. Comp. Endocrinol.100(3): 314-326|1995|10.1006/gcen.1995.1162
67393|T||DeVito,M.J., T. Thomas, E. Martin, T.H. Umbreit, and M.A. Gallo|Antiestrogenic Action of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Tissue-Specific Regulation of Estrogen Receptor in CD1 Mice|Toxicol. Appl. Pharmacol.113(2): 284-292|1992|10.1016/0041-008X(92)90126-D
67394|T||Chaudhuri,B.D., and D.N.R. Chaudhuri|Effects of Arsenicals on Alkaline Phosphatase Activity in the Midgut of Periplaneta americana (L.)|Folia Biol. (Prague)21(4): 425-427|1973|
67395|T||Haidouti,C.|Inactivation of Mercury in Contaminated Soils Using Natural Zeolites|Sci. Total Environ.208(1/2): 105-109|1997|10.1016/S0048-9697(97)00284-2
67396|T||Foy,C.D., R.G. Orellana, J.W. Schwartz, and A.L. Fleming|Responses of Sunflower Genotypes to Aluminum in Acid Soil and Nutrient Solution|Agron. J.66:293-296|1974|10.2134/agronj1974.00021962006600020031x
67397|T||Fowles,J.R., A. Fairbrother, K.A. Trust, and N.I. Kerkvliet|Effects of Aroclor 1254 on the Thyroid Gland, Immune Function, and Hepatic Cytochrome P450 Activity in Mallards|Environ. Res.75(2): 119-129|1997|10.1006/enrs.1997.3776
67399|T||Floate,K.D., and A.S. Fox|Flies Under Stress:  A Test of Fluctuating Asymmetry as a Biomonitor of Environmental Quality|Ecol. Appl.10(5): 1541-1550|2000|10.1890/1051-0761(2000)010[1541:FUSATO]2.0.CO;2
67401|T||Franco,E., S. Alessandrelli, J. Masojidek, A. Margonelli, and M.T. Giardi|Modulation of D1 Protein Turnover Under Cadmium and Heat Stresses Monitored by [35S]Methionine Incorporation|Plant Sci.144(2): 53-61|1999|10.1016/S0168-9452(99)00040-0
67403|T||Fields,M.L., and D.D. Hemphill|Effect of Zytron and Its Degradation Products on Soil Microorganisms|Appl. Microbiol.14(5): 724-731|1966|10.1128/am.14.5.724-731.1966
67404|T||Foy,C.D., A.L. Fleming, and W.H. Armiger|Aluminum Tolerance of Soybean Varieties in Relation to Calcium Nutrition|Agron. J.61:505-511|1969|10.2134/agronj1969.00021962006100040007x
67405|T||Entry,J.A., and L.S. Watrud|Potential Remediation of 137Cs and 90Sr Contaminated Soil by Accumulation in Alamo Switchgrass|Water Air Soil Pollut.104(3-4): 339-352|1998|10.1023/A:1004994123880
67406|T||Entry,J.A., P.T. Rygiewicz, and W.H. Emmingham|90Sr Uptake by Pinus ponderosa and Pinus radiata Seedlings Inoculated with Ectomycorrhizal Fungi|Environ. Pollut.86:201-206|1994|10.1016/0269-7491(94)90191-0
67408|T||Entry,J.A., L.S. Watrud, and M. Reeves|Accumulation of 137Cs and 90Sr from Contaminated Soil by Three Grass Species Inoculated with Mycorrhizal Fungi|Environ. Pollut.104:449-457|1999|10.1016/S0269-7491(98)00163-8
67409|T||De Souza,M.P., C.M. Lytle, M.M. Mulholland, M.L. Otte, and N. Terry|Selenium Assimilation and Volatilization from Dimethylselenoniopropionate by Indian Mustard|Plant Physiol.122(4): 1281-1288|2000|10.1104/pp.122.4.1281
67410|T||Entry,J.A.|Influence of Nitrogen on Atrazine and 2,4 Dichlorophenoxyacetic Acid Mineralization in Blackwater and Redwater Forested Wetland Soils|Biol. Fertil. Soils29(4): 348-353|1999|10.1007/s003740050564
67411|T||Ginocchio,R., P.H. Rodriguez, R. Badilla-Ohlbaum, H.E. Allen, and G.E. Lagos|Effect of Soil Copper Content and pH on Copper Uptake of Selected Vegetables Grown Under Controlled Conditions|Environ. Toxicol. Chem.21(8): 1736-1744|2002|10.1002/etc.5620210828
67412|T||Embree,C.G., D.S. Nichols, J.M. DeLong, and R.K. Prange|Certain Chemical Thinning Treatments Advance Maturity of Paulared Apple|Can. J. Plant Sci.81:499-501|2001|10.4141/P00-111
67413|T||Calatayud,A., and E. Barreno|Chlorophyll a Fluorescence, Antioxidant Enzymes and Lipid Peroxidation in Tomato in Response to Ozone and Benomyl|Environ. Pollut.115(2): 283-289|2001|10.1016/S0269-7491(01)00101-4
67414|A||Wagner,V.E.|Evaluation of Five Percent Methoxychlor Granules as a Preseason Larvicide|Mosq. News30(2): 170-174|1970|
67415|A||Walach,M.R., and S.J. Pirt|The Growth and Adhesion to Glass of Algal (Chlorella) Cells:  The Effects of Iron and Other Mineral Nutrients|Appl. Microbiol. Biotechnol.24:468-470|1986|10.1007/BF00250325
67417|A||Walker,C.R.|Ecological Implications of Pesticides Used in or near Aquatic Environments|Proceedings of the Technical Sessions, Annual Meeting of the Institute of Environmental Sciences18:235-237|1972|
67418|A||Walker,J.B.|Inorganic Micronutrient Requirements of Chlorella.  I.  Requirements for Calcium (or Strontium), Copper, and Molybdenum|Arch. Biochem. Biophys.46:1-11|1953|10.1016/0003-9861(53)90163-5
67420|A||Wallen,D.G., and L.D. Cartier|Molybdenum Dependence, Nitrate Uptake and Photosynthesis of Freshwater Plankton Algae|J. Phycol.11:345-349|1975|10.1111/j.1529-8817.1975.tb02794.x
67422|A||Wang,W.|The Acute Effects of Iron and EDTA on Oxygen Production by Algal Communities|Environ. Int.9:307-312|1983|10.1016/0160-4120(83)90090-9
67423|A||Wang,W.|Acclimation and Response of Algal Communities from Different Sources to Zinc Toxicity|Water Air Soil Pollut.28:335-349|1986|10.1007/BF00583499
67429|A||Wedding,R.T., and L.C. Erickson|The Role of pH in the Permeability of Chlorella to 2,4-D|Plant Physiol.32(6): 503-512|1957|10.1104/pp.32.6.503
67432|T||Weiss,U.M., P. Moza, I. Scheunert, A. Haque, and F. Korte|Fate of Pentachlorophenol-14C in Rice Plants Under Controlled Conditions|J. Agric. Food Chem.30(6): 1186-1190|1982|10.1021/jf00114a046
67436|A||Whitelam,G.C., and G.A. Codd|Photoinhibition of Photosynthesis and In Vivo Chlorophyll Fluorescence in the Green Alga Ankistrodesmus braunii|Plant Cell Physiol.25(3): 465-471|1984|
67442|A||Wong,S.L., and J.L. Beaver|Algal Bioassays to Determine Toxicity of Metal Mixtures|Hydrobiologia (Multiple Languages)74:199-208|1980|10.1007/BF00008753
67444|A||Whitney,E.W., R.D. Estes, R.O. Smitherman, and E.O. Gangstad|Effects of Silvex on Aquatic Biota|Hyacinth Control J.12:20-25|1974|
67447|A||Watanabe,K., and A. Takimoto|Effects of Some Metabolic Inhibitors on Flowering of Lemna gibba G3, a Long-Day Duckweed|Plant Cell Physiol.18:1369-1372|1977|10.1093/oxfordjournals.pcp.a075560
67448|A||Warshawsky,D., T. Cody, M. Radike, B.A. Smiddy, and B. Nagel|Toxicity and Metabolism of Benzo(a)pyrene in the Green Alga Selenastrum capricornutum|In: M.Cooke and A.Dennis (Eds.), Metabolism of B(A)P by Green Algae, Battelle Press, Columbus, OH:1235-1245|1983|
67449|A||Wong,M.P., and F.R. Engelhardt|Effects of Petroleum Hydrocarbons on Branchial Adenosine Triphosphatases (ATPases) in Fresh and Salt Water Acclimated Rainbow Trout (Salmo gairdneri)|In: P.J.Rand (Ed.), Proc.4th Annu.Meet.of the Int.Soc.of Petroleum Ind.Biol., Land and Water Issues Related to Energy Development, Sept.22-25, 1981, Ann Arbor Sci.Publ., Woburn, MA:281-296|1981|
67451|A||Wang,W.|Effect of Iron and Zinc Interaction on Algal Communities|ASTM Spec. Tech. Publ.:187-201|1985|
67453|T||Wilson,H.G., D.E. Weidhaas, and G.C. LaBrecque|Toxicity of Insecticide Residues to Anopheles quadrimaculatus and Effects on Resting Behavior|Mosq. News33(4): 539-542|1973|
67454|T||Wilson,H.G., G.C. LaBrecque, D.E. Weidhaas, and J.B. Gahan|Comparison of Susceptible and DDT-Resistant Mosquito Colonies to Insecticides|Mosq. News32(2): 215-218|1972|
67455|A||Wilson,R.P., P.R. Bowser, and W.E. Poe|Dietary Vitamin E Requirement of Fingerling Channel Catfish|J. Nutr.114:2053-2058|1984|10.1093/jn/114.11.2053
67457|A||Wiener,J.G., and J.P.,Jr. Giesy|Concentrations of Cd, Cu, Mn, Pb, and Zn in Fishes in a Highly Organic Softwater Pond|J. Fish. Res. Board Can.36:270-279|1979|10.1139/f79-042
67459|A||Wilbrink,M., E.J. Groot, R. Jansen, Y. De Vries, and N.P.E. Vermeulen|Occurrence of a Cytochrome P-450-Containing Mixed-Function Oxidase System in the Pond Snail, Lymnaea stagnalis|Xenobiotica21(2): 223-233|1991|10.3109/00498259109039464
67460|AT||Williams,D.E., and D.R. Buhler|Comparative Properties of Purified Cytochrome P-448 from beta-Naphthoflavone Treated Rats and Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 25-32|1983|10.1016/0742-8413(83)90006-3
67461|AT||Wilder,W.H., and C.H. Schaefer|Organophosphorus Resistance Levels in Adults and Larvae of the Pasture Mosquito, Aedes nigromaculis (Ludlow) in the San Joaquin Valley of California|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.37:64-67|1969|
67462|A||Williams,D.E., R.T. Okita, D.R. Buhler, and B.S.S. Masters|Regiospecific Hydroxylation of Lauric Acid at the (omega-1) Position by Hepatic and Kidney Microsomal Cytochromes P-450 from Rainbow Trout|Arch. Biochem. Biophys.231(2): 503-510|1984|10.1016/0003-9861(84)90414-4
67465|T||Wolf,D.C., and J.P. Martin|Microbial Decomposition of Ring-14C Atrazine, Cyanuric Acid, and 2-Chloro-4,6-Diamino-s-Triazine|J. Environ. Qual.4(1): 134-139|1975|10.2134/jeq1975.00472425000400010032x
67466|T||Winkelmann,D.A., and S.J. Klaine|Degradation and Bound Residue Formation of Four Atrazine Metabolites, Deethylatrazine, Deisopropylatrazine, Dealkylatrazine and Hydroxyatrazine, in a Western Tennessee Soil|Environ. Toxicol. Chem.10:347-354|1991|10.1002/etc.5620100307
67468|A||Winner,R.A., C.D. Steelman, and P.E. Schilling|Effects of Selected Insecticides on Romanomermis culicivorax, a Mermithid Nematode Parasite of Mosquito Larvae|Mosq. News38(4): 546-552|1978|
67469|AT||Winterlin,W.L., K. Moilanen, and W.E. Burgoyne|Residues of DURSBAN Insecticide Following Mosquito Control Applications|Down Earth:34-37|1968|
67472|A||De With,N.D., and R.C. Van der Schors|On the Interrelations of the Na+ - and Cl- -Influxes in the Pulmonate Freshwater Snail Lymnaea stagnalis|J. Comp. Physiol.148:131-135|1982|10.1007/BF00688896
67478|A||Venturino,A., R.M. Bergoc, and A.M. Pechen|Kinetic Models of Lipophilic Compound Uptake and Bioelimination in Amphibians During the Aquatic Stages|J. Biol. Syst.6(1): 85-94|1998|10.1142/S0218339098000108
67479|A||Van Steveninck,R.F.M., M.E. Van Steveninck, A.J. Wells, and D.R. Fernando|Zinc Tolerance and the Binding of Zinc as Zinc Phytate in Lemna minor.  X-Ray Microanalytical Evidence|J. Plant Physiol.137:140-146|1990|10.1016/S0176-1617(11)80070-2
67481|A||Kennedy,C.J., K.A. Gill, and P.J. Walsh|Thermal Modulation of Benzo(a)pyrene Metabolism by the Gulf Toadfish, Opsanus beta|Aquat. Toxicol.15:331-344|1989|10.1016/0166-445X(89)90045-3
67482|A||Deneer,J.W., C.J. Van Leeuwen, W. Seinen, J.L. Maas-Diepeveen, and J.L.M. Hermens|QSAR Study of the Toxicity of Nitrobenzene Derivatives Towards Daphnia magna, Chlorella pyrenoidosa and Photobacterium phosphoreum|Aquat. Toxicol.15:83-98|1989|10.1016/0166-445X(89)90007-6
67483|AT||Plapp,F.W.,Jr., G.A. Chapman, and J.W. Morgan|DDT Resistance in Culex tarsalis Coquillett:  Cross Resistance to Related Compounds and Metabolic Fate of a C14-Labeled DDT Analog|J. Econ. Entomol.58:1064-1069|1965|10.1093/jee/58.6.1064
67484|T||Ye,Z.H., A.J.M. Baker, M.H. Wong, and A.J. Willis|Zinc, Lead and Cadmium Tolerance, Uptake and Accumulation by Typha latifolia|New Phytol.136(3): 469-480|1997|10.1046/j.1469-8137.1997.00759.x
67485|T||Arnold,W.R., P.W. Santelmann, and J.Q. Lynd|Picloram and 2,4-D Effects with Aspergillus niger Proliferation|Weeds (Urbana)14:89-90|1966|10.2307/4041132
67486|A||Lorke,D.|New Studies on Cadmium Toxicology|In: Proceedings of the First International Cadmium Conference, Metals Bulletin Ltd., London:175-180|1978|
67487|A||Fargasova,A.|Comparative Acute Toxicity of Cu2+, Cu+, Mn2+, Mo6+, Ni2+ and V5+ to Chironomus plumosus Larvae and Tubifex tubifex Worms|Biologia (Bratisl.)53(3): 315-319|1998|
67488|A||Waugh,G.D.|Observations on the Effects of Chlorine on the Larvae of Oysters (Ostrea edulis (L.)) and Barnacles (Elminius modestus (Darwin))|Ann. Appl. Biol.54:423-440|1964|10.1111/j.1744-7348.1964.tb01206.x
67489|A||Warren,L.M.|Acute Toxicity of Inorganic Mercury to Capitella|Mar. Pollut. Bull.7:69-70|1976|10.1016/0025-326X(76)90015-1
67490|A||Marchetti,R.|The Toxicity of Nonyl Phenol Ethoxylate to the Developmental Stages of the Rainbow Trout, Salmo gairdnerii Richardson|Ann. Appl. Biol.55(3): 425-430|1965|10.1111/j.1744-7348.1965.tb07955.x
67491|A||Das,M., and P.H. Needham|Effect of Time and Temperature on Toxicity of Insecticides to Insects. I. Tests of DDT on Larvae of Aedes aegypti L.|Ann. Appl. Biol.49:32-38|1961|10.1111/j.1744-7348.1961.tb03589.x
67493|A||Peter,R., H. Welsh, and P. Denny|The Translocation of Lead and Copper in Two Submerged Aquatic Angiosperm Species|J. Exp. Bot.30:339-345|1979|10.1093/jxb/30.2.339
67494|A||Ullmann,W.W., R.W. Schaefer, and W.W. Sanderson|Arsenic Accumulation by Fish in Lakes Treated with Sodium Arsenite|J. Water Pollut. Control Fed.33:416-418|1961|
67495|A||Nyberg,H.|Growth and ATP Levels in Porphyridium purpureum (Rhodophyceae, Bangiales) Cultured in the Presence of Surfactants|Br. Phycol. J.24(1): 91-98|1989|10.1080/00071618900650081
67496|A||Snyder,C.D., and A.C. Hendricks|Genetic Responses of Isonychia bicolor (Ephemeroptera:  Isonychiidae) to Chronic Mercury Pollution|J. North Am. Benthol. Soc.16(3): 651-663|1997|10.2307/1468151
67497|A||Schulz,R., S.K.C. Peall, C. Hugo, and V. Krause|Concentration, Load and Toxicity of Spraydrift-Borne Azinphos-Methyl at the Inlet and Outlet of a Constructed Wetland|Ecol. Eng.18(2): 239-245|2001|10.1016/S0925-8574(01)00073-8
67498|A||Pechenik,J.A., T. Gleason, D. Daniels, and D. Champlin|Influence of Larval Exposure to Salinity and Cadmium Stress on Juvenile Performance of Two Marine Invertebrates (Capitella sp. I and Crepidula fornicata)|J. Exp. Mar. Biol. Ecol.264(1): 101-114|2001|10.1016/S0022-0981(01)00313-6
67500|A||Reid,R.J., Z. Rengel, and F.A. Smith|Membrane Fluxes and Comparative Toxicities of Aluminium, Scandium and Gallium|J. Exp. Bot.47(305): 1881-1888|1996|10.1093/jxb/47.12.1881
67503|A||Ueda,T., Y. Suzuki, R. Nakamura, and M. Nakahara|Accumulation of Co by Several Species of Marine Bivalves|Nippon Suisan Gakkaishi (Multiple Languages)48(7): 993-997|1982|10.2331/suisan.48.993
67506|A||Upatham,E.S., M. Koura, M.D. Ahmed, and A.H. Awad|Laboratory Trials of Controlled-Release Molluscicides on Bulinus (Ph.) abyssinicus, the Intermediate Host of Schistosoma haematobium in Somalia|In: R.Baker (Ed.), Controlled Release of Bioactive Materials, Academic Press, NY:461-469|1980|
67507|A||Upatham,E.S., M. Koura, M.A. Dagal, A.H. Awad, and M.D. Ahmed|Focal Control of Schistosoma haematobium-Transmitting Snails, Bulinus (Ph.) abyssinicus, Using Controlled Release Tri-n-Butyltin Fluoride and Copper Sulphate|In: R.Baker (Ed.), Controlled Release of Bioactive Materials, Academic Press, NY:449-459|1980|
67508|A||Urasa,F.M., and S.E. Wendelaar Bonga|Effects of Calcium and Phosphate on the Corpuscles of Stannius of the Teleost Fish, Oreochromis mossambicus|Cell Tissue Res.249:681-690|1987|10.1007/BF00217340
67511|A||Vaishampayan,A.|Mo-V Interactions During N2- and NO3--Metabolism in N2-Fixing Blue-Green Alga Nostoc muscorum|Experimentia39:358-360|1983|
67516|A||Van Rensen,J.J.S.|Lipid Peroxidation and Chlorophyll Destruction Caused by Diquat During Photosynthesis in Scenedesmus|Physiol. Plant. (Multiple Languages)33(1): 42-46|1975|10.1111/j.1399-3054.1975.tb03762.x
67518|A||Vaughan,D., P.C. DeKock, and B.G. Ord|The Nature and Localization of Superoxide Dismutase in Fronds of Lemna gibba L. and the Effect of Copper and Zinc Deficiency on Its Activity|Physiol. Plant. (Multiple Languages)54:253-257|1982|10.1111/j.1399-3054.1982.tb00256.x
67519|A||Vega,J.M., J. Herrera, P.J. Aparicio, A. Paneque, and M. Losada|Role of Molybdenum in Nitrate Reduction by Chlorella|Plant Physiol.48:294-299|1971|10.1104/pp.48.3.294
67521|A||Venkataramanan,S., and S. Kannaiyan|Influence of Butachlor on the Growth and Ammonia Assimilating Enzymes of Azolla|Curr. Sci. (Bangalore)53(10): 548-549|1984|
67522|A||Verma,S.R., M. Jain, and R.C. Dalela|In Vivo Removal of a Few Heavy Metals in Certain Tissues of the Fish Notopterus notopterus|Environ. Res.26(2): 328-334|1981|10.1016/0013-9351(81)90207-3
67523|A||Verma,S.R., V. Kumar, and R.C. Dalela|Studies on the Accumulation and Elimination of Three Pesticides in the Gonads of Notopterus notopterus and Colisa fasciatus|Indian J. Environ. Health23(4): 275-281|1981|
67528|A||Vinot,H., and J.P. Larpent|Water Pollution by Uranium Ore Treatment Works|Hydrobiologia (Multiple Languages)112:125-129|1984|10.1007/BF00006916
67529|A||Vondrka,K.|Efficacy of Antiparasitic Baths Against Fish Lice, Employing Variously Hard Water|Acta Vet. Brno41:113-116|1972|
67532|A||Woock,S.E., and P.B.,Jr. Summers|Selenium Monitoring in Hyco Reservoir (NC) Waters (1977-1981) and Biota (1977-1980)|In: Proceedings from a Workshop, The Effects of Trace Elements on Aquatic Ecosystems, Raleigh, NC:6-1 - 6-27|1984|
67534|A||Wood,K.G.|Trace Element Pollution in Streams of Northwestern USA|Verh. Int. Ver. Theor. Angew. Limnol.19:1641-1645|1975|
67535|A||Woodhead,A.D., and A. Bornbusch|The Pattern of Distribution of Dimethylbenz(a)anthracene in the Amazon Molly, Poecilia formosa (Girard), After Intraperitoneal Injection|J. Fish Biol.22:241-248|1983|10.1111/j.1095-8649.1983.tb04744.x
67537|A||Wrench,J.J.|Uptake and Metabolism of Selenium by Oysters|Mar. Sci. Commun.5(1): 47-59|1979|
67542|A||Xiankong,Z., F.R. Tabita, and C. Van Baalen|Nickel Control of Hydrogen Production and Uptake in Anabaena spp. Strains CA and 1F|J. Gen. Microbiol.130:1815-1818|1984|
67548|A||Yamamoto,Y., M. Sato, and S. Ikeda|Biochemical Studies on L-Ascorbic Acid in Aquatic Animals - VIII Purification and Properties of Dehydro-L-Ascorbic Acid Reductase from Carp Hepatopancreas|Nippon Suisan Gakkaishi (Multiple Languages)43(1): 59-67|1977|10.2331/suisan.43.59
67555|A||Zachleder,V., S. Abarzua, and E. Wittenburg|Effects of 3,4-Benzopyrene on the Course of Cell Cycle Events in the Chlorococcal Alga Scenedesmus quadricauda|Planta (Multiple Languages)157:432-440|1983|10.1007/BF00397200
67563|A||Zitko,V., L.E. Burridge, M. Woodside, and H. Akagi|Low Contamination of Fish by Hydrocarbons from the Uniacke G-72 (Shell Oil, Vinland) Wellsite Blowout in February 1984|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1305:1-43|1984|
67564|A||Zmarzly,D.L., and R.A. Lewin|Cation Requirements for Autotomy or Retention of Flagella by the Marine Alga Tetraselmis subcordiformis (Wille) Hazen (Prasinophyceae, Chlorophyta)|Phycologia25(4): 575-579|1986|10.2216/i0031-8884-25-4-575.1
67565|A||Zuckerman,B.M., K. Deubert, M. Mackiewicz, and H. Gunner|Studies on the Biodegradation of Parathion|Plant Soil33:273-281|1970|10.1007/BF01378220
67566|A||Passino-Reader,D.R.|Rainbow Trout Larvae Compared with Daphnia pulex Response in Contaminant Bioassays. Copy of a Research Information Bulletin (RIB).  Draft (Personal Communication)|October 19 Letter to R.Spehar, U.S.EPA, Duluth, MN:5 p.|1993|
67567|T||Parrella,M.P., K.L. Robb, and P. Morishita|Response of Liriomyza trifolii (Diptera: Agromyzidae) Larvae to Insecticides, with Notes About Efficacy Testing|J. Econ. Entomol.75:1104-1108|1982|10.1093/jee/75.6.1104
67577|A||Peck,R.K., and F. Duborgel|Effects of Cations on Phagocytosis in the Ciliate Pseudomicrothorax dubius|J.Protozool.32(3): 501-508|1985|10.1111/j.1550-7408.1985.tb04050.x
67580|A||Pelletier,E.|Modification of the Bioaccumulation of Selenium by Mytilus edulis in the Presence of Organic and Inorganic Mercury (Modification de la Bioaccumulation du Selenium chez Mytilus edulis en Presence du Mercure Organique et |Can. J. Fish. Aquat. Sci.43(1): 203-210|1986|10.1139/f86-023
67584|A||Perry,A.S., A. Gasith, and Y. Mozel|Pesticide Residues in Fish and Aquatic Invertebrates|Arch. Toxicol.Suppl.6:199-204|1983|10.1007/978-3-642-69083-9_35
67585|AT||Perry,J.A.|Pesticide and PCB Residues in the Upper Snake River Ecosystem, Southeastern Idaho, Following the Collapse of the Teton Dam 1976|Arch. Environ. Contam. Toxicol.8:139-159|1979|10.1007/BF01056320
67592|A||Pettibone,G.W., and J.J. Cooney|Toxicity of Methyltins to Microbial Populations in Estuarine Sediments|J. Ind. Microbiol.2:373-378|1988|10.1007/BF01569576
67599|A||Pignatello,J.J., M.M. Martinson, J.G. Steiert, R.E. Carlson, and R.L. Crawford|Biodegradation and Photolysis of Pentachlorophenol in Artificial Freshwater Streams|Appl. Environ. Microbiol.46(5): 1024-1031|1983|10.1128/aem.46.5.1024-1031.1983
67603|A||Plakas,S.M., G.R. Stehly, and L. Khoo|Pharmacokinetics and Excretion of Phenol Red in the Channel Catfish|Xenobiotica22(5): 551-557|1992|10.3109/00498259209053118
67608|A||Polls,I., B. Greenberg, and C. Lue-Hing|Control of Nuisance Midges in a Channel Receiving Treated Municipal Sewage|Mosq. News35(4): 533-537|1975|
67610|A||Pommery,J., M. Imbenotte, and F. Erb|Relation Entre Toxicite et Formes Libres de Quelques Metaux Traces|Environ. Pollut. Ser. B Chem. Phys.9:127-136|1985|10.1016/0143-148X(85)90028-X
67611|A||Meyer,F.P.|A Potential Control for Leeches|Prog. Fish-Cult.31(3): 160-163|1969|10.1577/1548-8640(1969)31[160:APCFL]2.0.CO;2
67617|A||Kaur,K., and H.S. Toor|Role of Abiotic Factors in the Embryonic Development of Scale Carp|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.46(1): 136-148|1980|
67618|A||Soeder,C.J., R. Liersch, and U. Trultzsch|Differential Action of Captan on the Growth of Some Strains of Chlorella and Scenedesmus (Unterschiedliche Wirkung von Captan auf das Wachstum Einiger Stamme von Chlorella und Scenedesmus)|Arch. Microbiol.67:166-172|1969|
67626|A||Wrench,J.J.|Selenium Metabolism in the Marine Phytoplankters Tetraselmis tetrathele and Dunaliella minuta|Mar. Biol.49(3): 231-236|1978|10.1007/BF00391135
67627|A||Wejnar,R., and S. Tais|Untersuchungen zum Einfluss des Nitrofens auf Wachstum und Pigmentgehalt von Lemna gibba L.|Beitr. Biol. Pflanz. (Non-English)58:427-434|1983|
67628|A||Wejnar,R., and D. Michel|Untersuchungen zum Einfluss des Nitrofens auf die Chloroplastenstruktur von Lemna gibba L.|Beitr. Biol. Pflanz. (Non-English)58:435-441|1983|
67634|A||Gonzalez-Davila,M., J.M. Santana-Casiano, J. Perez-Pena, and F.J. Millero|Binding of Cu(II) to the Surface and Exudates of the Alga Dunaliella tertiolecta in Seawater|Environ. Sci. Technol.29(2): 289-301|1995|10.1021/es00002a004
67635|A||Braune,W., D.P. Hader, and C. Hagen|Copper Toxicity in the Green Alga Haematococcus lacustris: Flagellates Become Blind by Copper (II) Ions|Cytobios77(308): 29-39|1994|
67637|A||Beers,J.R., G.L. Stewart, and K.D. Hoskins|Dynamics of Micro-Zooplankton Populations Treated with Copper: Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 66-79|1977|
67639|T||Kazimirova,M., M. Slovak, and A. Manova|Host-Parasitoid Relationship of Ceratitis capitata (Diptera: Tephritidae) and Coptera occidentalis (Hymenoptera:  Proctotrupoidea:  Diapriidae) Under Host Heavy Metal Stress|Eur. J. Entomol.94(3): 409-420|1997|
67641|A||Waddy,S.L., L.E. Burridge, M.N. Hamilton, and S.M. Mercer|Preliminary Results on the Response of the American Lobster to Emamectin Benzoate, the Active Ingredient in Slice|Annual Meeting of the Aquaculture Association of Canada:56-59|2001|
67642|AT||Capel,I.D., M.R. French, P. Millburn, R.L. Smith, and R.T. Williams|The Fate of [14C]Phenol in Various Species|Xenobiotica2(1): 25-34|1972|10.3109/00498257209036231
67644|A||Kersting,K., and H. Van der Honing|Effect of the Herbicide Dichlobenil on the Feeding and Filtering Rate of Daphnia magna|Verh. Int. Ver. Theor. Angew. Limnol.21:1135-1140|1981|
67645|A||Yu,C.C., G.M. Booth, D.J. Hansen, and J.R. Larsen|Fate of Bux Insecticide in a Model Ecosystem|Environ. Entomol.3(6): 975-977|1974|10.1093/ee/3.6.975
67646|A||Hamelink,J.L., R.C. Waybrant, and P.R. Yant|Mechanisms of Bioaccumulation of Mercury and Chlorinated Hydrocarbon Pesticides by Fish in Lentic Ecosystems|In: I.H.Suffet (Ed.), Fate of Pollutants in the Air and Water Environments Part 2.Chemical and Biological Fate of Pollutants in the Environment, John Wiley & Sons, NY:261-282|1977|
67649|A||Leonard,E.N., V.R. Mattson, and G.T. Ankley|Horizon-Specific Oxidation of Acid Volatile Sulfide in Relation to the Toxicity of Cadmium Spiked into a Freshwater Sediment|Arch. Environ. Contam. Toxicol.28(1): 78-84|1995|10.1007/BF00213972
67651|A||Scholz,N.|Significance of the Taurine-Glycine Ratio as an Indicator of Stress|Bull. Environ. Contam. Toxicol.38(1): 15-21|1987|10.1007/BF01606551
67654|A||Viarengo,A., E. Ponzano, F. Dondero, and R. Fabbri|A Simple Spectrophotometric Method for Metallothionein Evaluation in Marine Organisms:  An Application to Mediterranean and Antarctic Molluscs|Mar. Environ. Res.44(1): 69-84|1997|10.1016/S0141-1136(96)00103-1
67655|A||Schroder,H.C., F.A. Badria, S.N. Ayyad, R. Batel, M. Wiens, H.M.A. Hassanein, B. Kurelec, and W.E.G. Mueller|Inhibitory Effects of Extracts from the Marine Alga Caulerpa taxifolia and of Toxin from Caulerpa racemosa on Multixenobiotic Resistance in the Marine Sponge Geodia cydonium|Environ. Toxicol. Pharmacol.5(2): 119-126|1998|10.1016/S1382-6689(97)10067-9
67656|A||Ringwood,A.H., D.E. Conners, and A. DiNovo|The Effects of Copper Exposures on Cellular Responses in Oysters|Mar. Environ. Res.46(1-5): 591-595|1998|10.1016/S0141-1136(97)00084-6
67657|A||Hiyama,Y., and J.M. Khan|On the Concentration Factors of Radioactive I, Co, Fe and Ru in Marine Organisms|Rec. Oceanogr. Works Jpn.7(2): 79-106|1964|
67658|A||Lam,K.L., P.W. Ko, J.K.Y. Wong, and K.M. Chan|Metal Toxicity and Metallothionein Gene Expression Studies in Common Carp and Tilapia|Mar. Environ. Res.46(1-5): 563-566|1998|10.1016/S0141-1136(98)00008-7
67659|A||Lee,R., and Y. Oshima|Effects of Selected Pesticides, Metals and Organometallics on Development of Blue Crab (Callinectes sapidus) Embryos|Mar. Environ. Res.46(1-5): 479-482|1998|10.1016/S0141-1136(97)00072-X
67660|A||Gupta,A., and G.S. Singhal|Inhibition of PS II Activity by Copper and Its Effect on Spectral Properties on Intact Cells in Anacystis nidulans|Environ. Exp. Bot.35(4): 435-439|1995|10.1016/0098-8472(95)00038-0
67661|A||Mangi,J.I., and G.J. Schumacher|Physiological Significance of Copper-Slime Interactions in Mesotaenium (Zygnematales; Chlorophyta)|Am. Midl. Nat.102(1): 134-139|1979|10.2307/2425074
67662|A||Den Besten,P.J., P.T. Bosma, H.J. Herwig, D.I. Zandee, and P.A. Voogt|Effects of Cadmium on Metal Composition and Adenylate Energy Charge in the Sea Star Asterias rubens L|Arch. Environ. Contam. Toxicol.21(1): 112-117|1991|10.1007/BF01055565
67663|A||Swartzman,G.L., F.B. Taub, J. Meador, C. Huang, and A. Kindig|Modeling the Effect of Algal Biomass on Multispecies Aquatic Microcosms Response to Copper Toxicity|Aquat. Toxicol.17(2): 93-118|1990|10.1016/0166-445X(90)90025-K
67666|A||Carr,R.L., D.L. Straus, and J.E. Chambers|Inhibition and Aging of Channel Catfish Brain Acetylcholinesterase Following Exposure to Two Phosphorothionate Insecticides and Their Active Metabolites|J. Toxicol. Environ. Health45(3): 325-336|1995|10.1080/15287399509531999
67667|A||Kobbia,I.A., E.F. Shabana, Z. Khalil, and F.T. Zaki|Growth Criteria of Two Common Cyanobacteria Isolated from Egyptian Flooded Soil, as Influenced by Some Pesticides|Water Air Soil Pollut.60(1/2): 107-116|1991|10.1007/BF00293969
67669|A||Rowe,C.L.|Elevated Standard Metabolic Rate in a Freshwater Shrimp (Palaemonetes paludosus) Exposed to Trace Element-Rich Coal Combustion Waste|Comp. Biochem. Physiol. A Mol. Integr. Physiol.121(4): 299-304|1998|10.1016/S1095-6433(98)10141-1
67670|A||Viarengo,A., R. Accomando, I. Ferrando, F. Beltrame, M. Fato, and G. Marcenaro|Heavy Metal Effects on Cytosolic Free Ca2+ Level in the Marine Protozoan Euplotes crassus Evaluated by Confocal Laser Scanning Microscopy|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.113(2): 161-168|1996|
67671|A||Sunda,W.G., and S.A. Huntsman|Interactive Effects of External Manganese, the Toxic Metals Copper and Zinc, and Light in Controlling Cellular Manganese and Growth in a Coastal Diatom|Limnol. Oceanogr.43(7): 1467-1475|1998|10.4319/lo.1998.43.7.1467
67672|A||Vinogradov,G.A., F. Stay, P.P. Umorin, A.S. Mavrin, A.K. Klerman, E.I. Koreneva, S.A. Kurbatova, I.O. Solntseva, and G.|The Effect of Heavy Metals and Chlorpyrifos, Separately and in Combination, on a Continuous Flow Mesocosm Aquatic System|In: EPA-600/R-96/090, Proc.USA-Russia Symp.on the Problems of Aquatic Toxicology, Biotesting and Water Quality Management, Jul.21-23, 1992, Borok, Jaroslavl Oblast, Ecosyst.Res.Div., Athens, GA:148-161|1996|
67673|A||Gordon,N.R., D. Crockett, and M. Fluet|The Growth of Phytoplankton in the Presence of Heavy Metals|In: Div.Environ.Chem., Preprints of Extended Abstr.38(2): 43-45|1998|
67674|A||Hardersen,S., and S.D. Wratten|The Sensitivity of the Nymphs of Two New Zealand Damselfly Species (Odonata:  Zygoptera) to Azinphos-Methyl and Carbaryl|Australas. J. Ecotoxicol.2(2): 55-60|1996|
67676|T||National Cancer Institute|Bioassay of Chlorothalonil for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:94 p.|1978|
67677|A||Qiao,P., and A.P. Farrell|Influence of Dissolved Humic Acid on Hydrophobic Chemical Uptake in Juvenile Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(4): 575-585|2002|10.1016/S1532-0456(02)00178-3
67678|A||Waddy,S.L., L.E. Burridge, K. Haya, M.N. Hamilton, and S.M. Mercer|Response of Preovigerous Lobster to Azamethiphos Varies with Concentration, Number of Exposures, and Time of Year (La Reponse du Homard Americain Preoeuvre a l'Azamethiphos Varie avec la Concentration, le Nombre d'Expos|Annual Meeting of the Aquaculture Association of Canada:60-63|2001|
67679|A||Camilleri,C., S.J. Markich, B.N. Noller, C.J. Turley, G. Parker, and R.A. Van Dam|Silica Reduces the Toxicity of Aluminium to a Tropical Freshwater Fish (Mogurnda mogurnda)|Chemosphere50(3): 355-364|2003|10.1016/S0045-6535(02)00286-2
67680|A||Lei,A.P., Y.S. Wong, and N.F.Y. Tam|Pyrene-Induced Changes of Glutathione-S-Transferase Activities in Different Microalgal Species|Chemosphere50(3): 293-301|2003|10.1016/S0045-6535(02)00499-X
67681|A||Devillers,J., A. Chezeau, V. Poulsen, and E. Thybaud|Effects of Ethylene Glycol Ethers on the Reproduction of Ceriodaphnia dubia|Chemosphere50(3): 373-376|2003|10.1016/S0045-6535(02)00400-9
67682|A||Schlenk,D., K.B. Davis, and B.R. Griffin|Relationship Between Expression of Hepatic Metallothionein and Sublethal Stress in Channel Catfish Following Acute Exposure to Copper Sulphate|Aquaculture177(1-4): 367-379|1999|10.1016/S0044-8486(99)00099-X
67683|A||Michels,E., M. Leynen, C. Cousyn, L. De Meester, and F. Ollevier|Phototactic Behavior of Daphnia as a Tool in the Continuous Monitoring of Water Quality:  Experiments with a Positively Phototactic Daphnia magna Clone|Water Res.33(2): 401-408|1999|10.1016/S0043-1354(98)00213-9
67684|A||Piontek,M.|Use of the Planarian Dugesia tigrina Girard in Studies of Acute Intoxication|Pol. Arch. Hydrobiol.46(1): 41-48|1999|
67685|A||Solomon,S.S., S.N. Li, and D.F. Fang|In Vivo Inhibition and Recovery of Brain Acetylcholinesterase in Topmouth Gudgeon (Pseudorasobora parva) Following Exposure to Fenitrothion|J. Zhejiang Univ., Sci. A1(4): 448-455|2000|10.1631/jzus.2000.0448
67686|A||Katoh,F., and T. Kaneko|Effects of Environmental Ca2+ Levels on Branchial Chloride Cell Morphology in Freshwater-Adapted Killifish Fundulus heteroclitus|Fish. Sci.68(2): 347-355|2002|10.1046/j.1444-2906.2002.00432.x
67687|A||Landrum,P.F., S.W. Fisher, H. Hwang, and J. Hickey|Hazard Evaluation of Ten Organophosphorus Insecticides Against the Midge, Chironomus riparius via QSAR|SAR QSAR Environ.Res.10(5): 423-450|1999|10.1080/10629369908039110
67688|A||Forbes,V.E., V. Moller, R.A. Browne, and M.H. Depledge|The Influence of Reproductive Mode and Its Genetic Consequences on the Responses of Populations to Toxicants:  A Case Study|In: V.E.Forbes (Ed.), Genetics and Ecotoxicology, Chapter 10, Taylor & Francis, Washington, DC:187-206|1999|
67689|A||Gledhill,M., M. Nimmo, S.J. Hill, and M.T. Brown|The Release of Copper-Complexing Ligands by the Brown Alga Fucus vesiculosus (Phaeophyceae) in Response to Increasing Total Copper Levels|J. Phycol.35(3): 501-509|1999|10.1046/j.1529-8817.1999.3530501.x
67691|A||Beaumont,M.W., E.W. Taylor, and P.J. Butler|The Resting Membrane Potential of White Muscle from Brown Trout  (Salmo trutta) Exposed to Copper in Soft, Acidic Water|J. Exp. Biol.203(14): 2229-2236|2000|10.1242/jeb.203.14.2229
67692|A||Dang,Z., R.A.C. Lock, G. Flik, and S.E. Wendelaar Bonga|Na+/K+-ATPase Immunoreactivity in Branchial Chloride Cells of Oreochromis mossambicus Exposed to Copper|J. Exp. Biol.203(2): 379-387|2000|10.1242/jeb.203.2.379
67693|A||Leal,M.F.C., M.T.S.D. Vasconcelos, and C.M.G. Van den Berg|Copper-Induced Release of Complexing Ligands Similar to Thiols by Emiliania huxleyi in Seawater Cultures|Limnol. Oceanogr.44(7): 1750-1762|1999|10.4319/lo.1999.44.7.1750
67694|A||Marchan,S., M.S. Davies, S. Fleming, and H.D. Jones|Effects of Copper and Zinc on the Heart Rate of the Limpet Patella vulgata L.|Comp. Biochem. Physiol. A Mol. Integr. Physiol.123(1): 89-93|1999|10.1016/S1095-6433(99)00043-4
67695|A||Moura,G., L. Vilarinho, and J. Machado|The Action of Cd, Cu, Cr, Zn, and Pb on Fluid Composition of Anodonta cygnea (L.):  Organic Components|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.127(1): 105-112|2000|10.1016/S0305-0491(00)00241-8
67696|A||Lee,R.F., S.A. Steinert, K. Nakayama, and Y. Oshima|Use of DNA Strand Damage (Comet Assay) and Embryo Hatching Effects to Assess Contaminant Exposure in Blue Crab (Callinectes sapidus) Embryos|ASTM Spec. Tech. Publ.8:341-349|1999|
67697|A||Richards,J.G., and R.C. Playle|Protective Effects of Calcium Against the Physiological Effects of Exposure to a Combination of Cadmium and Copper in Rainbow Trout (Oncorhynchus mykiss)|Can. J. Zool.77(7): 1035-1047|1999|10.1139/z99-070
67698|A||Shyong,W.J., and H.C. Chen|Acute Toxicity of Copper, Cadmium, and Mercury to the Freshwater Fish Varicorhinus barbatus and Zacco barbata|Dongwu Xuekan11(1): 33-45|2000|
67699|A||Maestrini,P., T. Giordani, E. Polizzi, L. Natali, B.E. Maserti, E. Balestri, and A. Cavallini|Mercury-Induced DNA Variations in the Genome of Posidonia oceanica Delile|Caryologia (Multiple Languages)55(1): 47-53|2002|10.1080/00087114.2002.10589257
67700|AT||Ronco,A., C. Sobrero, V. Grassi, L. Kaminski, L. Massolo, and L. Mina|WaterTox Bioassay Intercalibration Network: Results from Argentina|Environ. Toxicol.15(4): 287-296|2000|10.1002/1522-7278(2000)15:4<287::AID-TOX4>3.0.CO;2-9
67701|A||Bartsch,M.R., W.G. Cope, and R.G. Rada|Effects of Cadmium-Spiked Sediment on Cadmium Accumulation and Bioturbation by Nymphs of the Burrowing Mayfly Hexagenia bilineata|Water Air Soil Pollut.109(1-4): 277-292|1999|10.1023/A:1005089601201
67702|A||Hwang,D.F., and Y.H. Lu|Influence of Environmental and Nutritional Factors on Growth, Toxicity, and Toxin Profile of Dinoflagellate Alexandrium minutum|Toxicon38(11): 1491-1503|2000|10.1016/S0041-0101(00)00080-5
67703|A||Almli,B., E. Egaas, A. Christiansen, O.M. Eklo, O. Lode, and T. Kallqvist|Effects of Three Fungicides Alone and in Combination on Glutathione S-Transferase Activity (GST) and Cytochrome P-450 (CYP 1A1) in the Liver and Gill of Brown Trout (Salmo trutta)|Mar. Environ. Res.54(3-5): 237-240|2002|10.1016/S0141-1136(02)00157-5
67704|A||Nigro,M., G. Frenzilli, V. Scarcelli, S. Gorbi, and F. Regoli|Induction of DNA Strand Breakage and Apoptosis in the Eel Anguilla anguilla|Mar. Environ. Res.54(3-5): 517-520|2002|10.1016/S0141-1136(02)00178-2
67705|A||Meyer,J.S., R.C. Santore, J.P. Bobbitt, L.D. Debrey, C.J. Boese, P.R. Paquin, H.E. Allen, H.L. Bergman, and D.M. DiToro|Binding of Nickel and Copper to Fish Gills Predicts Toxicity when Water Hardness Varies, but Free-Ion Activity Does Not|Environ. Sci. Technol.33(6): 913-916|1999|10.1021/es980715q
67707|A||Gale,S.A., S.V. Smith, R.P. Lim, R.A. Jeffree, and P. Petocz|Insights into the Mechanisms of Copper Tolerance of a Population of Black-Banded Rainbowfish (Melanotaenia nigrans) (Richardson) Exposed to Mine Leachate, Using 64/67Cu|Aquat. Toxicol.62(2): 135-153|2003|10.1016/S0166-445X(02)00081-4
67708|A||Pawlik-Skowronska,B.|When Adapted to high Zinc Concentrations the Periphytic Green Alga Stigeoclonium tenue Produces high Amounts of Novel Phytochelatin-Related Peptides|Aquat. Toxicol.62(2): 155-163|2003|10.1016/S0166-445X(02)00080-2
67709|A||Skarpheoinsdottir,H., G. Ericson, L. Dalla Zuanna, and M. Gilek|Tissue Differences, Dose-Response Relationship and Persistence of DNA Adducts in Blue Mussels (Mytilus edulis L.) Exposed to Benzo(a)pyrene|Aquat. Toxicol.62(2): 165-177|2003|10.1016/S0166-445X(02)00102-9
67710|A||Wong,D.C.L., D. Whittle, L. Maltby, and P. Warren|Multivariate Analyses of Invertebrate Community Responses to a C12-15AE-3S Anionic Surfactant in Stream Mesocosms|Aquat. Toxicol.62(2): 105-117|2003|10.1016/S0166-445X(02)00067-X
67712|A||Thophon,S., M. Kruatrachue, E.S. Upatham, P. Pokethitiyook, S. Sahaphong, and S. Jaritkhuan|Histopathological Alterations of White Seabass, Lates calcarifer, in Acute and Subchronic Cadmium Exposure|Environ. Pollut.121(3): 307-320|2003|10.1016/S0269-7491(02)00270-1
67713|T||Robinson,B., C. Duwig, N. Bolan, M. Kannathasan, and A. Saravanan|Uptake of Arsenic by New Zealand Watercress (Lepidium sativum)|Sci. Total Environ.301(1-3): 67-73|2003|10.1016/S0048-9697(02)00294-2
67714|A||Kallqvist,T., and A. Svenson|Assessment of Ammonia Toxicity in Tests with the Microalga, Nephroselmis pyriformis, Chlorophyta|Water Res.37(3): 477-484|2003|10.1016/S0043-1354(02)00361-5
67715|A||Rajagopal,S., G. Van der Velde, M. Van der Gaag, and H.A. Jenner|How Effective is Intermittent Chlorination to Control Adult Mussel Fouling in Cooling Water Systems?|Water Res.37(2): 329-338|2003|10.1016/S0043-1354(02)00270-1
67716|A||Bond,P.R., M.T. Brown, R.M. Moate, M. Gledhill, S.J. Hill, and M. Nimmo|Arrested Development in Fucus spiralis (Phaeophyceae) Germlings Exposed to Copper|Eur. J. Phycol.34(5): 513-521|1999|10.1080/09541449910001718871
67718|AT||Hofstra,D.E., and J.S. Clayton|Evaluation of Selected Herbicides for the Control of Exotic Submerged Weeds in New Zealand:  I.  The Use of Endothall, Triclopyr and Dichlobenil|J. Aquat. Plant Manag.39:20-24|2001|
67719|A||Mason,A.Z., and M.R. Borja|A Study of Cu Turnover in Proteins of the Visceral Complex of Littorina littorea by Stable Isotopic Analysis Using Coupled HPLC-ICP-MS|Mar. Environ. Res.54(3-5): 351-355|2002|10.1016/S0141-1136(02)00171-X
67720|A||Gimeno,S., H. Komen, P.W.M. Venderbosch, and T. Bowmer|Disruption of Sexual Differentiation in Genetic Male Common Carp (Cyprinus carpio) Exposed to an Alkylphenol During Different Life Stages|Environ. Sci. Technol.31(10): 2884-2890|1997|10.1021/es970215h
67721|A||Christiansen,L.B., K.L. Pedersen, B. Korsgaard, and P. Bjerregaard|Estrogenicity of Xenobiotics in Rainbow Trout (Oncorhynchus mykiss) Using In Vivo Synthesis of Vitellogenin as a Biomarker|Mar. Environ. Res.46(1-5): 137-140|1998|10.1016/S0141-1136(97)00047-0
67722|A||Christiansen,T., B. Korsgaard, and A. Jespersen|Induction of Vitellogenin Synthesis by Nonylphenol and 17beta-Estradiol and Effects on the Testicular Structure in the Eelpout Zoarces viviparus|Mar. Environ. Res.46(1-5): 141-144|1998|10.1016/S0141-1136(97)00046-9
67723|A||Khan,I.A., and P. Thomas|Estradiol-17beta and o,p'-DDT Stimulate Gonadotropin Release in Atlantic Croaker|Mar. Environ. Res.46(1-5): 149-152|1998|10.1016/S0141-1136(97)00060-3
67724|A||Kang,I.J., H. Yokota, Y. Oshima, Y. Tsuruda, T. Oe, N. Imada, H. Tadokoro, and T. Honjo|Effects of Bisphenol A on the Reproduction of Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.21(11): 2394-2400|2002|10.1002/etc.5620211119
67725|A||Schoenfuss,H.L., J.T. Levitt, G. Van der Kraak, and P.W. Sorensen|Ten-Week Exposure to Treated Sewage Discharge has Relatively Minor, Variable Effects on Reproductive Behavior and Sperm Production in Goldfish|Environ. Toxicol. Chem.21(10): 2185-2190|2002|
67726|A||Jaser,W., G.F. Severin, U. Jutting, I. Juttner, K.W. Schramm, and A. Kettrup|Effects of 17alpha-Ethinylestradiol on the Reproduction of the Cladoceran Species Ceriodaphnia reticulata and Sida crystallina|Environ. Int.28(7): 633-638|2003|10.1016/S0160-4120(02)00101-0
67727|A||Moore,A., and N. Lower|The Impact of Two Pesticides on Olfactory-Mediated Endocrine Function in Mature Male Atlantic Salmon (Salmo salar L.) Parr|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.129(2/3): 269-276|2001|10.1016/S1096-4959(01)00321-9
67728|A||Davis,K.B., P. Torrance, N.C. Parker, and M.A. Suttle|Growth, Body Composition and Hepatic Tyrosine Aminotransferase Activity in Cortisol-fed Channel Catfish, Ictalurus punctatus Rafinesque|J. Fish Biol.27(2): 177-184|1985|10.1111/j.1095-8649.1985.tb04019.x
67729|A||Norris,D.O., J.A. Carr, C.H. Summers, and R. Featherston|Interactions of Androgens and Estradiol on Sex Accessory Ducts of Larval Tiger Salamanders, Ambystoma tigrinum|Gen. Comp. Endocrinol.106:348-355|1997|10.1006/gcen.1997.6877
67730|A||Magliulo,L., M.P. Schreibman, J. Cepriano, and J. Ling|"Endocrine Disruption Caused by Two Common Pollutants at ""Acceptable"" Concentrations"|Neurotoxicol. Teratol.24(1): 71-79|2002|10.1016/S0892-0362(01)00190-8
67731|A||Kashiwada,S., H. Ishikawa, N. Miyamoto, Y. Ohnishi, and Y. Magara|Fish Test for Endocrine-Disruption and Estimation of Water Quality of Japanese Rivers|Water Res.36(8): 2161-2166|2002|10.1016/S0043-1354(01)00406-7
67732|A||Tremblay,L., and G. Van der Kraak|Comparison Between the Effects of the Phytosterol beta-Sitosterol and Pulp and Paper Mill Effluents on Sexually Immature Rainbow Trout|Environ. Toxicol. Chem.18(2): 329-336|1999|
67733|A||Barton,B.A., C.B. Schreck, and L.D. Barton|Effects of Chronic Cortisol Administration and Daily Acute Stress on Growth, Physiological Conditions, and Stress Responses in Juvenile Rainbow Trout|Dis. Aquat. Org.2:173-185|1987|10.3354/dao002173
67734|A||Bradley,J.T., and J.M. Grizzle|Vitellogenin Induction by Estradiol in Channel Catfish, Ictalurus punctatus|Gen. Comp. Endocrinol.73:28-39|1989|10.1016/0016-6480(89)90052-X
67735|A||Elliott,J.A.K., N.R. Bromage, and C. Whitehead|Effects of Oestradiol-17beta on Serum Calcium and Vitellogenin Levels in Rainbow Trout|J. Endocrinol.83(1): 54P - 55P|1979|
67736|A||Clare,A.S., D. Rittschof, and J.D.,Jr. Costlow|Effects of the Nonsteroidal Ecdysone Mimic RH 5849 on Larval Crustaceans|J. Exp. Zool.262:436-440|1992|10.1002/jez.1402620410
67737|A||Brown,S.B., D.L. MacLatchy, T.J. Hara, and J.G. Eales|Effects of Cortisol on Aspects of 3,5,3'-Triido-L-Thyronine Metabolism in Rainbow Trout (Oncorhynchus mykiss)|Gen. Comp. Endocrinol.81:207-216|1991|10.1016/0016-6480(91)90005-Q
67738|A||Kishida,M., T.R. Anderson, and J.L. Specker|Induction by beta-Estradiol of Vitellogenin in Striped Bass (Morone saxatilis):  Characterization and Quantification in Plasma and Mucus|Gen. Comp. Endocrinol.88:29-39|1992|10.1016/0016-6480(92)90191-L
67739|A||Flammarion,P., F. Brion, M. Babut, J. Garric, B. Migeon, P. Noury, E. Thybaud, C.R. Tyler, and X. Palazzi|Induction of Fish Vitellogenin and Alterations in Testicular Structure:  Preliminary Results of Estrogenic Effects in Chub (Leuciscus cephalus)|Ecotoxicology9:127-135|2000|10.1023/A:1008984616206
67740|A||Hori,S.H., T. Kodama, and K. Tanahashi|Induction of Vitellogenin Synthesis in Goldfish by Massive Doses of Androgens|Gen. Comp. Endocrinol.37:306-320|1979|10.1016/0016-6480(79)90004-2
67741|A||Leatherland,J.F.|Thyroid Response to Ovine Thyrotropin Challenge in Cortisol- and Dexamethasone-Treated Rainbow Trout, Salmo gairdneri|Comp. Biochem. Physiol. A Comp. Physiol.86(2): 383-387|1987|10.1016/0300-9629(87)90347-1
67742|A||Brick,M., U. Deutsch, and P. Fioroni|Cellular Effects of Tributyltin (TBT) on the Penis Epithelium Cells of Prosobranchs (Hinia reticulata and Ocinebrina aciculata)|Helgol. Wiss. Meeresunters.50(3): 319-325|1996|10.1007/BF02367106
67743|AT||Chan,S.K., and P.P. Cohen|A Comparative Study of the Effect of Hydrocortisone Injection on Tyrosine Transaminase Activity of Different Vertebrates|Arch. Biochem. Biophys.104:335-337|1964|10.1016/S0003-9861(64)80023-0
67744|A||Katchamart,S., C.L. Miranda, M.C. Henderson, C.B. Pereira, and D.R. Buhler|Effect of Xenoestrogen Exposure on the Expression of Cytochrome P450 Isoforms in Rainbow Trout Liver|Environ. Toxicol. Chem.21(11): 2445-2451|2002|10.1002/etc.5620211125
67745|A||Lattier,D.L., T.V. Reddy, D.A. Gordon, J.M. Lazorchak, M.E. Smith, D.E. Williams, B. Wiechman, R.W. Flick, A.L. Miracle|17alpha-Ethynylestradiol-Induced Vitellogenin Gene Transcription Quantified in Livers of Adult Males, Larvae, and Gills of Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.21(11): 2385-2393|2002|
67746|A||Islinger,M., D. Willimski, A. Volkl, and T. Braunbeck|Effects of 17alpha-Ethinylestradiol on the Expression of Three Estrogen-Responsive Genes and Cellular Ultrastructure of Liver and Testes in Male Zebrafish|Aquat. Toxicol.62(2): 85-103|2003|10.1016/S0166-445X(02)00049-8
67747|A||Robinson,C.D., E. Brown, J.A. Craft, I.M. Davies, C.F. Moffat, D. Pirie, F. Robertson, R.M. Stagg, and S. Struthers|Effects of Sewage Effluent and Ethynyl Oestradiol upon Molecular Markers of Oestrogenic Exposure, Maturation and Reproductive Success in the Sand Goby (Pomatoschistus minutus, Pallas)|Aquat. Toxicol.62(2): 119-134|2003|10.1016/S0166-445X(02)00079-6
67748|A||Ilan,Z., and Z. Yaron|Interference of o,p' DDD with Interrenal Function and Cortisol Metabolism in Sarotherodon aureus (Steindachner)|J. Fish Biol.22(6): 657-669|1983|10.1111/j.1095-8649.1983.tb04225.x
67749|A||Afonso,L.O.B., G.K. Iwama, J. Smith, and E.M. Donaldson|Effects of the Aromatase Inhibitor Fadrozole on Plasma Sex Steroid Secretion and Ovulation Rate in Female Coho Salmon, Oncorhynchus kisutch, Close to Final Maturation|Gen. Comp. Endocrinol.113:221-229|1999|10.1006/gcen.1998.7198
67750|A||Piferrer,F., I.J. Baker, and E.M. Donaldson|Effects of Natural, Synthetic, Aromatizable and Nonaromatizable Androgens in Inducing Male Sex Differentiation in Genotypic Female Chinook Salmon (Oncorhynchus tshawytscha)|Gen. Comp. Endocrinol.91:59-65|1993|10.1006/gcen.1993.1104
67751|A||MacLatchy,D., L. Peters, J. Nickle, and G. Van der Kraak|Exposure to beta-Sitosterol Alters the Endocrine Status of Goldfish Differently than 17beta-Estradiol|Environ. Toxicol. Chem.16(9): 1895-1904|1997|
67752|A||Katsiadaki,I., A.P. Scott, and I. Mayer|The Potential of the Three-Spined Stickleback (Gasterosteus aculeatus L.) as a Combined Biomarker for Oestrogens and Androgens in European Waters|Mar. Environ. Res.54(3-5): 725-728|2002|10.1016/S0141-1136(02)00110-1
67753|A||Davis,K.B., J. Morrison, and J.I. Galvez|Reproductive Characteristics of Adult Channel Catfish Treated with Trenbolone Acetate During the Phenocritical Period of Sex Differentiation|Aquaculture189:351-360|2000|10.1016/S0044-8486(00)00378-1
67754|AT||Zayed,A.B., A.A. Mostafa, M.Z. Osman, and N.A. Kotb|Susceptibility of Culex pipiens Complex Mosquito to Some Insecticides in Egypt|Azhar Bull. Sci.8(1): 223-228|1997|
67755|A||Sersen,F., K. Kral'ova, and M. Blahova|Photosynthesis of Chlorella vulgaris as Affected by Diaqua(4-Chloro-2-Methylphenoxyacetato)Copper(II) Complex|Biol. Plant. (Praha)38(1): 71-75|1996|10.1007/BF02879638
67756|A||Fung,Y.S., C.C.W. Wong, and J.Q. Deng|Application of Carbon Fibre Ultramicroelectrode for Studying the Impact of Environmental Pollutants on Frog's Egg|Electrochim. Acta42(20-22): 3257-3264|1997|10.1016/S0013-4686(97)00176-X
67757|A||Nystrom,M., F. Moberg, and M. Tedengren|Natural and Anthropogenic Disturbance on Reef Corals in the Inner Gulf of Thailand:  Physiological Effects of Reduced Salinity, Copper, and Siltation|Proc. Int. Coral Reef Symp.2:1893-1898|1997|
67758|A||Gupta,S.L.|Interactive Effects of Nitrogen and Copper on Growth of Cyanobacterium Microcystis|Bull. Environ. Contam. Toxicol.42(2): 270-275|1989|10.1007/BF01699410
67759|A||Gaberscik,A., M. Bricelj, and M. Sisko|Different Approaches to Evaluation of the Copper Toxicity in Algae Monoraphidium contortum Kom.-Legn.|Acta Pharm. (Zagreb)45(2, suppl. 1): 363-367|1995|
67760|A||Yoo,S., S. Pae, and S.H. Kim|A New Method of Algal Assay Using Dialysis Culture|Acta Ocean. Taiwanica24:65-75|1989|
67761|A||Totaro,E.A.|Histogenesis of Neuronal Lipofuscin as a Response to Copper Pollution:  Study of the Electric Lobe of Torpedo m.|Arch. Biol.96(4): 453-461|1985|
67762|A||Chu,K.Y.|Effects of Environmental Factors on the Molluscicidal Activities of Slow-Release Hexabutyldistannoxane and Copper Sulfate|Bull. W. H. O.54(4): 417-420|1976|
67764|A||Bhatnagar,M.C., and M. Tyagi|Toxicity of Durmet and Mortal to a Freshwater Teleost Clarias batrachus (Linn.)|Proc. Acad. Environ. Biol.3(2): 177-180|1994|
67765|A||Rijstenbil,J.W., and J.A. Wijnholds|HPLC Analysis of Nonprotein Thiols in Planktonic Diatoms:  Pool Size, Redox State and Response to Copper and Cadmium Exposure|Mar. Biol.127(1): 45-54|1996|10.1007/BF00993642
67767|A||Steinert,S.A., and G.V. Pickwell|Quantitative Determination of Lysozyme in the Hemolymph of Mytilus edulis by the Enzyme-Linked Immunosorbent Assay (ELISA)|Mar. Environ. Res.14(1-4): 229-243|1984|10.1016/0141-1136(84)90080-1
67768|A||Guven,K., C. Ozbay, E. Unlu, and A. Satar|Acute Lethal Toxicity and Accumulation of Copper in Gammarus pulex (L.) (Amphipoda)|Turk. J. Biol. (Turk Biol. Derg. )23(4): 513-521|1999|
67769|A||Gupta,A.B., and A. Arora|The Interrelation of Toxic Doses of Copper and Potassium Content of Oscillatoria rubescens|Beitr. Biol. Pflanz. (Non-English)53(3): 421-428|1977|
67770|A||Crist,R.H., J.R. Martin, D. Carr, J.R. Watson, H.J. Clarke, and D.R. Crist|Interaction of Metals and Protons with Algae.  4.  Ion Exchange vs Adsorption Models and a Reassessment of Scatchard Plots; Ion-Exchange Rates and Equilibria Compared with Calcium Alginate|Environ. Sci. Technol.28(11): 1859-1866|1994|10.1021/es00060a016
67771|A||Burgeot,T., E. His, and F. Galgani|The Micronucleus Assay in Crassostrea gigas for the Detection of Seawater Genotoxicity|Mutat. Res.342(3/4): 125-140|1995|10.1016/0165-1218(95)90022-5
67772|A||De Vera,M.P., and G.N. Pocsidio|Potential Protective Effect of Calcium Carbonate as Liming Agent Against Copper Toxicity in the African Tilapia Oreochromis mossambicus|Sci. Total Environ.214(1-3): 193-202|1998|10.1016/S0048-9697(98)00065-5
67773|A||Fodorpataki,L., and M. Trifu|Influence of Heavy Metals on Photosynthetic Parameters Under Different Light Conditions in Cultures of Scenedesmus acutus M.|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:529-532|1995|
67774|A||Vosyliene,M.Z.|The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout Oncorhynchus mykiss  2.  Studies of Hematological Parameters|Ekologija1:3-6|1996|
67775|A||Vosyliene,M.Z., and L. Petrauskiene|The Effect of Long-Term Exposure to Copper on Physiological Parameters of Rainbow Trout  (Oncorhynchus mykiss) 1.  Studies of Morphological Parameters|Ekologija3:23-26|1995|
67776|A||Kral'ova,K., F. Sersen, and M. Melnik|Inhibition of Photosynthesis in Chlorella vulgaris by Cu(II) Complexes with Biologically Active Ligands|J. Trace Microprobe Tech.16(4): 491-500|1998|
67777|A||Foster,S., M. Thomas, and W. Korth|Laboratory-Derived Acute Toxicity of Selected Pesticides to Ceriodaphnia dubia|Australas. J. Ecotoxicol.4(1): 53-59|1998|
67778|T||Bui,L.M., M.W. Taubeneck, J.F. Commisso, J.Y. Uriu-Hare, W.D. Faber, and C.L. Keen|Altered Zinc Metabolism Contributes to the Developmental Toxicity of 2-Ethylhexanoic Acid, 2-Ethylhexanol and Valproic Acid|Toxicology126:9-21|1998|10.1016/S0300-483X(97)00171-6
67779|T||Agarwal,D.K., S. Eustis, J.C. Lamb IV, C.W. Jameson, and W.M. Kluwe|Influence of Dietary Zinc on Di(2-ethylhexyl)Phthalate-Induced Testicular Atrophy and Zinc Depletion in Adult Rats|Toxicol. Appl. Pharmacol.84:12-24|1986|10.1016/0041-008X(86)90412-6
67780|T||Thorlacius-Ussing,O., and G. Danscher|Selenium in the Anterior Pituitary of Rats Exposed to Sodium Selenite:  Light and Electron Microscopic Localization|Toxicol. Appl. Pharmacol.81(1): 67-74|1985|10.1016/0041-008X(85)90121-8
67782|T||Novelli,E.L.B., E.P. Vieira, N.L. Rodrigues, and B.O. Ribas|Risk Assessment of Cadmium Toxicity on Hepatic and Renal Tissues of Rats|Environ. Res.79:102-105|1998|10.1006/enrs.1998.3865
67783|T||Perry,H.M.,Jr., M.W. Erlanger, and E.F. Perry|Inhibition of Cadmium-Induced Hypertension in Rats|Sci. Total Environ.14:153-166|1980|10.1016/0048-9697(80)90071-6
67784|T||Resurreccion,A.V.A., J.M. Doster, M. Wang, and W.O. Caster|The Effect of Copper and Protein on Iron Metabolism in Rats fed a Cereal Diet|Sci. Total Environ.20:49-56|1981|10.1016/0048-9697(81)90035-8
67785|T||Steibert,E., B. Krol, B. Sowa, K. Gralewska, M. Kaminski, O. Kaminska, and E. Kusz|Cadmium-Induced Changes in the Histoenzymatic Activity in Liver, Kidney and Duodenum of Pregnant Rats|Toxicol. Lett.20:127-132|1984|10.1016/0378-4274(84)90136-X
67786|T||Sugawara,C., and N. Sugawara|Decrease and Recovery of Serum Zinc and Bone Growth of Rats with Chronic Ingestion of 25 ppm and 50 ppm Cadmium|Toxicol. Lett.15:95-103|1983|10.1016/0378-4274(83)90200-X
67787|T||Carmignani,M., and P. Boscolo|Cardiovascular Responsiveness to Physiological Agonists of Male Rats made Hypertensive by Long-Term Exposure to Cadmium|Sci. Total Environ.34:19-33|1984|10.1016/0048-9697(84)90038-X
67788|T||Han,S., W. Li, U. Jamil, K. Dargan, M. Orefice, F.W. Kemp, and J.D. Bogden|Effects of Weight Loss and Exercise on the Distribution of Lead and Essential Trace Elements in Rats with Prior Lead Exposure|Environ. Health Perspect.107(8): 657-662|1999|10.1289/ehp.99107657
67789|T||Boscolo,P., M. Carmignani, G. Carelli, V.N. Finelli, and G. Giuliano|Zinc and Copper in Tissues of Rats with Blood Hypertension Induced by Long-Term Lead Exposure|Toxicol. Lett.63:135-139|1992|10.1016/0378-4274(92)90004-4
67790|T||Han,S., X. Qiao, F.W. Kemp, and J.D. Bogden|Lead Exposure at an Early Age Substantially Increases Lead Retention in the Rat|Environ. Health Perspect.105(4): 412-417|1997|10.1289/ehp.97105412
67791|T||Fulton,B., and E.H. Jeffery|Absorption and Retention of Aluminum from Drinking Water 1.  Effect of Citric and Ascorbic Acids on Aluminum Tissue Levels in Rabbits|Fundam. Appl. Toxicol.14:788-796|1990|10.1016/0272-0590(90)90303-2
67792|T||Yamaguchi,M., and K. Takahashi|Calcitonin Inhibits the Increase in Bone Acid Phosphatase Activity by High Dose of Zinc in Rats|Toxicol. Lett.19:155-158|1983|10.1016/0378-4274(83)90276-X
67793|T||Yamaguchi,M., K. Takahashi, and S. Okada|Zinc-Induced Hypocalcemia and Bone Resorption in Rats|Toxicol. Appl. Pharmacol.67:224-228|1983|10.1016/0041-008X(83)90228-4
67796|T||Nolen,G.A., L.F. Patrick, and T.A. Dierckman|A Percutaneous Teratology Study of Zinc Pyrithione in Rabbits|Toxicol. Appl. Pharmacol.31:430-433|1975|10.1016/0041-008X(75)90265-3
67797|T||Guven,K., E. Deveci, O. Akba, A. Onen, and D. De Pomerai|The Accumulation and Histological Effects of Organometallic Fungicides Propineb and Maneb in the Kidneys of Fetus and Female Rats During Pregnancy|Toxicol. Lett.99:91-98|1998|10.1016/S0378-4274(98)00128-3
67799|T||Miller,C.R., S.Y. Zhu, W. Victery, and R.A. Goyer|Partitioning of Renal Zinc Between Metallothionein and Ethylenediaminetetraacetic Acid (EDTA) After Treatment of Rats with Ca(Na)2EDTA|Toxicol. Appl. Pharmacol.84:584-592|1986|10.1016/0041-008X(86)90264-4
67800|T||Michael,W.R., and J.M. Wakim|Effect of Trisodium Nitrilotriacetate (Na3NTA) on the Metabolism of Selected Metal Ions|Toxicol. Appl. Pharmacol.24:519-529|1973|10.1016/0041-008X(73)90213-5
67801|T||Michael,W.R., and J.M. Wakim|Calcium and Zinc Metabolism in the Presence of Na3NTA|Toxicol. Appl. Pharmacol.22(2): 297-|1972|
67802|T||LoPachin,R.M.|Redefining Toxic Distal Axonopathies|Toxicol. Lett.112-113:23-33|2000|10.1016/S0378-4274(99)00249-0
67804|T||King,L.M., M.B. Anderson, S.C. Sikka, and W.J. George|Murine Strain Differences and the Effects of Zinc on Cadmium Concentrations in Tissues After Acute Cadmium Exposure|Arch. Toxicol.72:650-655|1998|10.1007/s002040050556
67806|T||Khera,K.S., and B.G. Shah|Failure of Zinc Acetate to Reduce Ethylenethiourea-Induced Fetal Anomalies in Rats|Toxicol. Appl. Pharmacol.48:229-235|1979|10.1016/0041-008X(79)90028-0
67809|T||Goering,P.L., and C.D. Klaassen|Zinc-Induced Tolerance to Cadmium Hepatotoxicity|Toxicol. Appl. Pharmacol.74:299-307|1984|10.1016/0041-008X(84)90282-5
67811|T||Foster,P.M.D., J.R. Foster, M.W. Cook, L.V. Thomas, and S.D. Gangolli|Changes in Ultrastructure and Cytochemical Localization of Zinc in Rat Testis Following the Administration of Di-n-Pentyl Phthalate|Toxicol. Appl. Pharmacol.63:120-132|1982|10.1016/0041-008X(82)90031-X
67812|T||Foster,P.M.D., L.V. Thomas, M.W. Cook, and D.G. Walters|Effect of Di-n-Pentyl Phthalate Treatment on Testicular Steroidogenic Enzymes and Cytochrome P-450 in the Rat|Toxicol. Lett.15:265-271|1983|10.1016/0378-4274(83)90226-6
67814|T||Cooke,J.A., S.M. Andrews, and M.S. Johnson|The Accumulation of Lead, Zinc, Cadmium and Fluoride in the Wood Mouse (Apodemus sylvaticus L.)|Water Air Soil Pollut.51:55-63|1990|10.1007/BF00211503
67815|T||Brownie,C.F., C. Brownie, D. Noden, L. Krook, M. Haluska, and A.L. Aronson|Teratogenic Effect of Calcium Edetate (CaEDTA) in Rats and the Protective Effect of Zinc|Toxicol. Appl. Pharmacol.82:426-443|1986|10.1016/0041-008X(86)90278-4
67816|T||Bjorklund,H., B. Lind, M. Piscator, B. Hoffer, and L. Olson|Lead, Zinc, and Copper Levels in Intraocular Brain Tissue Grafts, Brain, and Blood of Lead-Exposed Rats|Toxicol. Appl. Pharmacol.60:424-430|1981|10.1016/0041-008X(81)90327-6
67817|T||Bell,J.U.|Induction of Hepatic Metallothionein in the Immature Rat Following Administration of Cadmium|Toxicol. Appl. Pharmacol.54:148-155|1980|10.1016/0041-008X(80)90015-0
67818|T||Oishi,S., and K. Hiraga|Testicular Atrophy Induced by Di-2-Ethylhexyl Phthalate: Effect of Zinc Supplement|Toxicol. Appl. Pharmacol.70:43-48|1983|10.1016/0041-008X(83)90177-1
67820|A||Weiss,C.M.|Organic Pesticides and Water Pollution|Publ. Works95:84-87|1964|
67825|A||Nandini,S., V. Deshmukh, V.D. Desmvkh, and V.B. Masukekar|Effect of Petroleum Hydrocarbons on the Speckled Prawn Metapenaeus Monoceros (Fabricius)|In: R.K.Trivedy and P.K.Goel (Eds.), Current Pollution Researches in India, Environmental Publications, Karad, India:239-243|1985|
67826|A||Kuhn,R., and J.H. Canton|Comparative Hydrobiological-Toxicological Results in Micro- and Macroorganisms of Biological Spectra (Vergleichende Hydrobiologisch-Toxikologische Befunde an Mikro- und Makroorganismen Biologischer Spektren)|In:  K.Aurand and J.Spaander (Eds.), Reinhaltung des Wassers, Verlag, Berlin, GER:58-68|1979|
67828|A||Joyner,T.|Exchange of Zinc with Environmental Solutions by the Brown Bullhead|Trans. Am. Fish. Soc.90:444-448|1961|10.1577/1548-8659(1961)90[444:EOZWES]2.0.CO;2
67830|A||N.C.Div.of Water Quality|Investigation of the Effects and Uses of Biocides and Related Compounds in North Carolina|Report 83-09, North Carolina Department of Environment and Natural Resources, Water Quality Section, Raleigh, NC:60 p.|1983|
67840|A||Timofeeva,S.S., D.I. Stom, and V.V. Butorov|Assimilation of Benzene and Phenols by Homogenates of the Characeous Alga Nitella sp.|Plant Physiol.(Fiziol.Rast.)27(1): 165-170|1980|
67845|A||Sleigh,M.A.|Metachronism and Frequency of Beat in the Peristomial Cilia of Stentor|Exp. Biol.33:15-28|1955|10.1242/jeb.33.1.15
67851|A||Merna,J.W., and P. Queener|Results of Short-Term Exposure of Stream Organisms to Methoxychlor|Fish.Res.Rep.No.1852, Nov.17, 1977, Mich.Dep.Nat.Resour.Fish.Div., Lansing, MI:18 p.|1977|
67855|T||Lock,K., and C.R. Janssen|Cadmium Toxicity for Terrestrial Invertebrates: Taking Soil Parameters Affecting Bioavailability into Account|Ecotoxicology10(5): 315-322|2001|10.1023/A:1016767519556
67856|T||Rajendran,S., and N. Gunasekaran|The Response of Phosphine-Resistant Lesser Grain Borer Rhyzopertha dominica and Rice Weevil Sitophilus oryzae in Mixed-Age Cultures to Varying Concentrations of Phosphine|Pest Manag. Sci.58(3): 277-281|2002|10.1002/ps.446
67857|T||Martin,T., G.O. Ochou, F. Hala-N'Klo, J.M. Vassal, and M. Vaissayre|Pyrethroid Resistance in the Cotton Bollworm, Helicoverpa armigera (Hubner), in West Africa|Pest Manag. Sci.56(6): 549-554|2000|10.1002/(SICI)1526-4998(200006)56:6<549::AID-PS160>3.0.CO;2-Y
67858|T||Jurkowska,H., A. Rogoz, and T. Wojciechowicz|The Effect of a Dose of Lithium on the Content of Mineral Components in Plants|Pol. J. Soil Sci.27(2): 145-149|1994|
67859|T||Muscarella,D.E., J.F. Keown, and S.E. Bloom|Evaluation of the Genotoxic and Embryotoxic Potential of Chlorpyrifos and Its Metabolites In Vivo and In Vitro|Environ. Mutagen.6(1): 13-23|1984|10.1002/em.2860060103
67860|T||Maksymiec,W., and T. Baszynski|Different Susceptibility of Runner Bean Plants to Excess Copper as a Function of the Growth Stages of Primary Leaves|J. Plant Physiol.149(1-2): 217-221|1996|10.1016/S0176-1617(96)80198-2
67861|T||Pazurkiewicz-Kocot,K., and W. Galas|Effect of Lead on the Accumulation of Some Metals in Leaves of Zea mays L.|Curr. Top. Biophys.21(1): 50-53|1997|
67862|T||Wlostowski,T., A. Krasowska, and B. Godlewska-Zylkiewicz|Dietary Cadmium Decreases Lipid Peroxidation in the Liver and Kidneys of the Bank Vole (Clethrionomys glareolus)|J. Trace Elem. Med. Biol.14(2): 76-80|2000|10.1016/S0946-672X(00)80033-4
67863|T||Hegedus,A., S. Erdei, and G. Horvath|Comparative Studies of H2O2 Detoxifying Enzymes in Green and Greening Barley Seedlings Under Cadmium Stress|Plant Sci.160:1085-1093|2001|10.1016/S0168-9452(01)00330-2
67864|T||Kakela,R., S. Kinnunen, A. Kakela, H. Hyvarinen, and J. Asikainen|Fatty Acids, Lipids, and Cytochrome P-450 Monooxygenase in Hepatic Microsomes of Minks Fed Fish-Based Diets and Exposed to Aroclor 1242|J. Toxicol. Environ. Health Part A64(5): 427-446|2001|10.1080/152873901753170759
67865|T||Nieminen,P., H. Hyvarinen, R. Kakela, and J. Asikainen|Plasma Leptin and Thyroxine of Mink (Mustela vison) vary with Gender, Diet and Subchronic Exposure to PCBs|Comp. Biochem. Physiol. A Mol. Integr. Physiol.127:515-522|2000|10.1016/S1095-6433(00)00280-4
67866|T||Noji,M., M. Saito, M. Nakamura, M. Aono, H. Saji, and K. Saito|Cysteine Synthase Overexpression in Tobacco Confers Tolerance to Sulfur-Containing Environmental Pollutants|Plant Physiol.126:973-980|2001|10.1104/pp.126.3.973
67867|T||Bassi,R., and S.S. Sharma|Proline Accumulation in Wheat Seedlings Exposed to Zinc and Copper|Phytochemistry33(6): 1339-1342|1993|10.1016/0031-9422(93)85086-7
67868|T||Agrawal,M., and M. Verma|Amelioration of Sulphur Dioxide Phytotoxicity in Wheat Cultivars by Modifying NPK Nutrients|J. Environ. Manag.49(2): 231-244|1997|10.1006/jema.1995.0091
67869|T||Smith,V.P., M.E. Selkirk, and K. Gounaris|Brugia malayi:  Resistance of Cuticular Lipids to Oxidant-Induced Damage and Detection of alpha-Tocopherol in the Neutral Lipid Fraction|Exp. Parasitol.88(2): 103-110|1998|10.1006/expr.1998.4209
67870|T||Baker,R.G.E.|The Influence of Copper and Zinc on Shoot Length and Dry Weight of Sphagnum palustre and Sphagnum cuspidatum in Aqueous Cultures|J. Hattori Bot. Lab.72:89-96|1992|
67872|T||Angelov,M.N., and K.C. Gaidardjieva|Protein and RNA Synthesis in Pea Leaves After Co2+ or Cu2+-Treatment of Pea Plants|C. R. Acad. Bulg. Sci.44(9): 111-113|1991|
67873|T||Bhardwaj,C.L., D.R. Thakur, and R.S. Jamwal|Effect of Fungicide Spray and Staking on Diseases and Disorders of Tomato (Lycopersicon esculentum)|Indian J. Agric. Sci.65(2): 148-151|1995|
67874|T||Adkins,E.K.|Effect of Embryonic Treatment with Estradiol or Testosterone on Sexual Differentiation of the Quail Brain:  Critical Period and Dose-Response Relationships|Neuroendocrinology29(3): 178-185|1979|10.1159/000122920
67875|T||Adkins,E.K.|Embryonic Exposure to an Antiestrogen Masculinizes Behavior of Female Quail|Physiol. Behav.17:357-359|1976|10.1016/0031-9384(76)90088-3
67876|T||Barth,D., J.A. Hair, B.N. Kunkle, W.K. Langholff, M. Lowenstein, S. Rehbein, L.L. Smith, J.S. Eagleson, and E. Kutzer|Efficacy of Eprinomectin Against Mange Mites in Cattle|Am. J. Vet. Res.58(11): 1257-1259|1997|10.2460/ajvr.1997.58.11.1257
67877|T||Baszynski,T., A. Tukendorf, M. Ruszkowska, E. Skorzynska, and W. Maksymiec|Characteristics of the Photosynthetic Apparatus of Copper Non-Tolerant Spinach Exposed to Excess Copper|J. Plant Physiol.132(6): 708-713|1988|10.1016/S0176-1617(88)80233-5
67878|T||Ayaz,F.A., and A. Kadioglu|The Effect of Heavy Metals on the Isoenzymes of Amylase and Peroxidase During Germination of Lentil (Lens esculenta L.) Seeds|Turk. J. Bot.20(6): 503-506|1996|10.55730/1300-008X.2605
67879|T||Lidgate,H.J.|Earthworm Control with Chlordane|J. Sports Turf Res. Inst.42:5-8|1966|
67880|T||Stefani,A., I. Arduini, and A. Onnis|Juncus acutus:  Germination and Initial Growth in Presence of Heavy Metals|Ann. Bot. Fenn.28(1): 37-43|1991|
67881|T||Oleksyn,J., P. Karolewski, and L. Rachwal|Susceptibility of European Pinus sylvestris L. Populations to Sulfur Dioxide, Nitrogen Dioxide, Sulfur Dioxide + Nitrogen Dioxide and Hydrogen Fluoride Under Laboratory and Field Conditions|Acta Soc. Bot. Pol.57(1): 107-115|1988|10.5586/asbp.1988.010
67882|T||Karataglis,S.S.|Combined Tolerance to Copper, Zinc and Lead by Populations of Agrostis tenuis|Oikos38(2): 234-241|1982|
67883|T||Rao,B.V., B.G.S. Rao, and C.B.S.R. Sharma|Cytological Effects of Herbicides and Insecticides on Allium cepa Root Meristems|Cytologia53(2): 255-261|1988|10.1508/cytologia.53.255
67884|T||Bellows,T.S.,Jr., and J.G. Morse|Residual Toxicity Following Dilute or Low-Volume Applications of Insecticides Used for Control of California Red Scale (Homoptera: Diaspididae) to Four Beneficial Species in a Citrus Agroecosystem|J. Econ. Entomol.81(3): 892-898|1988|10.1093/jee/81.3.892
67885|T||O'Halloran,K., L.H. Booth, S. Hodge, S. Thomsen, and S.D. Wratten|Biomarker Responses of the Earthworm Aporrectodea caliginosa to Organophosphates: Hierarchical Tests|Pedobiologia (Multiple Languages)43(6): 646-651|1999|10.1016/S0031-4056(24)00593-6
67886|T||El Mehalawy,A.A.|Effect of Copper, Silver and Mercury Salts on Some Physiological Activities of Certain Soil Fungi|Egypt. J. Microbiol.33(4): 611-625|1998|
67888|T||Gwozdz,E.A., R. Przymusinski, R. Rucinska, and J. Deckert|Plant Cell Responses to Heavy Metals: Molecular and Physiological Aspects|Acta Physiol. Plant.19(4): 459-465|1997|10.1007/s11738-997-0042-5
67889|T||Burzynski,M., and J. Buczek|Interaction Between Cadmium and Molybdenum Affecting the Chlorophyll Content and Accumulation of Some Heavy Metals in the Second Leaf of Cucumis sativus L.|Acta Physiol. Plant.11(2): 137-145|1989|
67890|T||Dahm,H., and E. Strzelczyk|Effect of Heavy Metals on Enzymes Production by Hebeloma crustuliniforme|Acta Myol.31(2): 181-189|1996|10.5586/am.1996.018
67891|T||Tukendorf,A.|The Role of Glutathione in Detoxification of Cadmium and Excess Copper in Spinach Plants|Acta Physiol. Plant.15(3): 175-183|1993|
67892|A||Varalaxmi,B., and Vidyavati |Response of Pithophora oedogonia (Mont) Wittr. to Heavy Metals|Adv. Plant Sci.12(1): 263-266|1999|
67894|A||Dubale,M.S., and P. Shah|Toxic Effect of Cadmium Nitrate on the Liver of Channa punctatus|Experientia35(5): 643-644|1979|10.1007/BF01960373
67895|T||Sharma,G.D., R.R. Mishra, and W.R. Lyngdoh|Influence of Copper and Formalin on the Mycorrhiza of the Pine (Pinus kesiya Royle ex Gordon)|Acta Myol.21(1): 91-100|1985|10.5586/am.1985.008
67896|T||Nagoor,S.|Physiological and Biochemical Responses of Cereal Seedlings to Graded Levels of Heavy Metals. H. Effects on Protein Metabolism in Maize Seedlings|Adv. Plant Sci.12(11): 425-433|1999|
67898|T||Ward,G.M., and J.G. Nagy|Molybdenum and Copper in Colorado Forages, Molybdenum Toxicity in Deer, and Copper Supplementation in Cattle|In: G.M.Ward and J.G.Nagy (Eds.), Molybdenum in the Environment, Chapter 7, The Biology of Molybdenum, Marcel Dekker, NY1:97-113|1976|
67899|T||Prabhakaran,S.K., and S.T. Kamble|Biochemical Characterization and Purification of Esterases from Three Strains of German Cockroach, Blattella germanica (Dictyoptera: Blattellidae)|Arch. Insect Biochem. Physiol.31(1): 73-86|1996|10.1002/(SICI)1520-6327(1996)31:1<73::AID-ARCH5>3.0.CO;2-Y
67900|T||Park,N.J., and S.T. Kamble|Comparison of Esterases Between Life Stages and Sexes of Resistant and Susceptible Strains of German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.91(5): 1051-1057|1998|10.1093/jee/91.5.1051
67903|T||Oros,G., T. Cserhati, and J. Szejtli|Cyclodextrins Decrease the Phytotoxicity of Nonionic Tensides|Acta Agron. Hung.38(3-4): 211-217|1989|
67904|T||Van Swinderen,B., D.R. Shook, R.H. Ebert, V.A. Cherkasova, T.E. Johnson, R.J. Shmookler Reis, and C.M. Crowder|Quantitative Trait Loci Controlling Halothane Sensitivity in Caenorhabditis elegans|Proc. Natl. Acad. Sci. U.S.A.94(15): 8232-8237|1997|10.1073/pnas.94.15.8232
67905|T||Weil,R.R., C.D. Foy, and C.A. Coradetti|Influence of Soil Moisture Regimes on Subsequent Soil Manganese Availability and Toxicity in Two Cotton Genotypes|Agron. J.89(1): 1-8|1997|10.2134/agronj1997.00021962008900010001x
67906|T||Lodewyckx,C., S. Taghavi, D. Van der Lelie, J. Vangronsveld, H. Clijsters, and M. Mergeay|The Effect of Heavy Metal Resistant Endophytic Bacteria in Uptake of Heavy Metals by Their Host Plant|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)64(5a): 159-161|1999|
67907|T||Das,K.D., and G. Ghosh|Uptake of Sulphur from Different Sources by Green Gram|J. Nucl. Agric. Biol.26(4): 211-218|1997|
67908|T||Rodale,J.I.|Do Chemical Fertilizers Kill Earthworms?|Org. Garden.12(2): 12-17|1948|
67909|T||Asmah,A.E.|Effect of Phosphorus Source and Rate of Application on VAM Fungal Infection and Growth of Maize (Zea mays L.)|Mycorrhiza5(3): 223-228|1995|10.1007/BF00203342
67910|T||Tam,P.C.F.|Heavy Metal Tolerance by Ectomycorrhizal Fungi and Metal Amelioration by Pisolithus tinctorius|Mycorrhiza5(3): 181-187|1995|10.1007/BF00203335
67911|T||Hewitt,S., M. Rowland, N. Muhammad, M. Kamal, and E. Kemp|Pyrethroid-Sprayed Tents for Malaria Control:  An Entomological Evaluation in Pakistan|Med. Vet. Entomol.9(4): 344-352|1995|10.1111/j.1365-2915.1995.tb00002.x
67912|T||Kelsey,J.M., and E.Z. Arlidge|Effects of Isobenzan on Soil Fauna and Soil Structure|N. Z. J. Agric. Res.11:245-260|1968|10.1080/00288233.1968.10431424
67913|T||Miller,V.L., G.E. Bearse, Y. Kimura, and E. Csonka|Strain Differences in Mercury Retention by Chicks|Proc. Soc. Exp. Biol. Med.100:301-303|1959|10.3181/00379727-100-24607
67914|T||Miller,M.D., and D.S. Mikkelsen|1969 Rice Seed Protein Studies|Rice J.73:38 - 39, 42|1970|
67915|T||Malone,C.R.|Responses of Soil Microorganisms to Non-Selective Vegetation Control in a Fescue Meadow|Soil Biol. Biochem.3:127-131|1971|10.1016/0038-0717(71)90005-8
67916|T||Milani,N., and M. Iob|Plastic Strips Containing Organophosphorous Acaricides to Control Varroa jacobsoni: A Preliminary Experiment|Am. Bee J.138(8): 612-615|1998|
67918|T||Blattner,R., P.J. Gerard, and M. Spindler-Barth|Synthesis and Biological Activity of Allosamidin and Allosamidin Analogues|Pestic. Sci.50(4): 312-318|1997|10.1002/(SICI)1096-9063(199708)50:4<312::AID-PS594>3.0.CO;2-O
67919|T||Szlendak,E., C. Conyers, J. Muggleton, and B.B. Thind|Pirimiphos-Methyl Resistance in Two Stored Product Mites, Acarus siro and Acarus farris, as Detected by Impregnated Paper Bioassay and Esterase Activity Assays|Exp. Appl. Acarol.24(1): 45-54|2000|10.1023/A:1006329317495
67920|T||Van de Vrie,M.|The Influence of Spray Chemicals on Predatory- and Phytophagous Mites on Apple Trees in Laboratory- and Field Trials in the Netherlands|Entomophaga7(3): 243-250|1962|10.1007/BF02374363
67921|T||Trimble,R.M., and B. Solymar|Modified Summer Programme Using Border Sprays for Managing Codling Moth, Cydia pomonella (L.) and Apple Maggot, Rhagoletis pomonella (Walsh) in Ontario Apple Orchards|Crop Prot.16(1): 73-79|1997|10.1016/S0261-2194(96)00062-2
67922|T||Schuler,T.H., D. Martinez-Torres, A.J. Thompson, I. Denholm, A.L. Devonshire, I.R. Duce, and M.S. Williamson|Toxicological, Electrophysiological, and Molecular Characterisation of Knockdown Resistance to Pyrethroid Insecticides in the Diamondback Moth, Plutella xylostella (L.)|Pestic. Biochem. Physiol.59(3): 169-182|1998|10.1006/pest.1998.2320
67923|T||Scheffrahn,R.H., N.Y. Su, J. Krecek, A. Van Liempt, B. Maharajh, and G.S. Wheeler|Prevention of Colony Foundation by Cryptotermes brevis and Remedial Control of Drywood Termites (Isoptera:  Kalotermitidae) with Selected Chemical Treatments|J. Econ. Entomol.91(6): 1387-1396|1998|10.1093/jee/91.6.1387
67925|T||Loeppky,R.N., A. Fuchs, C. Janzowski, C. Humberd, P. Goelzer, H. Schneider, and G. Eisenbrand|Probing the Mechanism of the Carcinogenic Activation of N-Nitrosodiethanolamine with Deuterium Isotope Effects:  In Vivo Induction of DNA Single-Strand Breaks and Related In Vitro Assays|Chem. Res. Toxicol.11(12): 1556-1566|1998|10.1021/tx9801716
67926|T||Zhao,Z., W.J. Crossland, J.S. Kulkarni, T.D. Wakade, and A.R. Wakade|2'-Deoxyadenosine Causes Cell Death in Embryonic Chicken Sympathetic Ganglia and Brain|Cell Tissue Res.296(2): 281-291|1999|10.1007/s004410051289
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67930|T||Cheng,T., R.M. Bodden, R.J. Puhl, and W.R. Bauriedel|Absorption, Distribution, and Metabolism of [14C]Chlorpyrifos Applied Dermally to Goats|J. Agric. Food Chem.37(4): 1108-1111|1989|10.1021/jf00088a065
67931|T||Martin,P.G., B.B. Hitchcock, and J.F. King|Interactions of Cd, Zn, Cu and Fe in the Anemic Rat|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:201-210|1977|
67934|T||Gogal,R.M.,Jr., M.S. Johnson, C.T. Larsen, M.R. Prater, R.B. Duncan, D.L. Ward, R.B. Lee, C.J. Salice, B. Jortner, and |Dietary Oral Exposure to 1,3,5-Trinitro-1,3,5-Triazine in the Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.22(2): 381-387|2003|
67937|A||Opperhuizen,A., and S.M. Schrap|Uptake Efficiencies of Two Polychlorobiphenyls in Fish After Dietary Exposure to Five Different Concentrations|Chemosphere17(2): 253-262|1988|10.1016/0045-6535(88)90218-4
67938|A||Pawlisz,A.V., and R.H. Peters|A Test of the Equipotency of Internal Burdens of Nine Narcotic Chemicals Using Daphnia magna|Environ. Sci. Technol.27(13): 2801-2806|1993|10.1021/es00049a020
67940|A||Wang,Y., and R.D. Evans|Influence of Calcium Concentrations on Cadmium Uptake by the Freshwater Mussel Elliptio complanata|Can. J. Fish. Aquat. Sci.50:2591-2596|1993|10.1139/f93-283
67942|A||Pascoe,D., T.J. Kedwards, S.J. Maund, E. Muthi, and E.J. Taylor|Laboratory and Field Evaluation of a Behavioural Bioassay - The Gammarus pulex (L.) Precopula Separation (GaPPS) Test|Water Res.28(2): 369-372|1994|10.1016/0043-1354(94)90274-7
67943|T||D'Agostino,R., F.C. Olson, E.J. Massaro, B.A. Lown, and J.B. Morganti|Alterations of Growth and Behavioral Parameters of Offspring of Female Mice Exposed to Cerium (Citrate) or Platinum (Hexachloroplatinate) During Pregnancy of Lactation|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:257-263|1977|
67944|T||Ohanian,E.V., G. Schaechtelin, F.C. Brown, and J. Iwai|Acute Effects of Intra-Arterial Injections of Cadmium, Mercury and Zinc on Blood Pressure and Cardiovascular Reactivity in Dahl Rats|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:272-279|1977|
67945|T||Peabody,R.A., S. Wallach, R.L. Verch, and M.L. Lifschitz|Effect of Thyroxin and Growth Hormone Replacement on Vanadium Metabolism in Hypophysectomized Rats|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:297-304|1977|
67946|T||Zeng,L., and W.V. Baird|Genetic Basis of Dinitroaniline Herbicide Resistance in a Highly Resistant Biotype of Goosegrass (Eleusine indica)|J. Hered.88(5): 427-432|1997|10.1093/oxfordjournals.jhered.a023130
67947|T||Zieslin,N., and Y. Mor|Plant Management of Greenhouse Roses.  Formation of Renewal Canes|Sci. Hortic.15:67-75|1981|10.1016/0304-4238(81)90063-7
67948|T||David,W.A.L., and W.N. Aldridge|The Insecticidal Material in Leaves of Plants Growing in Soil Treated with Parathion|Ann. Appl. Biol.45(2): 332-346|1957|10.1111/j.1744-7348.1957.tb00475.x
67949|T||Zeng,L., and W.V. Baird|"Inheritance of Resistance to Anti-Microtubule Dinitroaniline Herbicides in an ""Intermediate"" Resistant Biotype of Eleusine indica (Poaceae)"|Am. J. Bot.86(7): 940-947|1999|10.2307/2656610
67950|T||Conn,J.S., and C.W. Knight|An Evaluation of Herbicides for Broadleaf-Weed Control in Rapeseed. Efficacy, Phytotoxicity, and Soil Persistence Studies|Bull. Alaska Agric. Exp. Stn.62:22 p.|1984|
67951|T||Mihucz,V.G., E. Tatar, A. Varga, G. Zaray, and E. Cseh|Application of Total-Reflection X-Ray Fluorescence Spectrometry and High-Performance Liquid Chromatography for the Chemical Characterization of Xylem Saps of Nickel Contaminated Cucumber Plants|Spectrochim. Acta, B At. Spectrosc.56:2235-2246|2001|10.1016/S0584-8547(01)00345-7
67952|T||Mihucz,V.G., E. Tatar, B. Kmethy, G. Zaray, and E. Cseh|Investigation of the Transported Heavy Metal Ions in Xylem Sap of Cucumber Plants by Size Exclusion Chromatography and Atomic Absorption Spectrometry|J. Inorg. Biochem.81:81-87|2000|10.1016/S0162-0134(00)00091-X
67953|T||Szmigielska,A.M., J.J. Schoenau, and K. Greer|Comparison of Chemical Extraction and Bioassay for Measurement of Metsulfuron in Soil|Weed Sci.46(4): 487-493|1998|10.1017/S0043174500090949
67954|T||Yourman,L.F., S.N. Jeffers, and R.A. Dean|Phenotype Instability in Botrytis cinerea in the Absence of Benzimidazole and Dicarboximide Fungicides|Phytopathology91(3): 307-315|2001|10.1094/PHYTO.2001.91.3.307
67955|T||Yourman,L.F., S.N. Jeffers, and R.A. Dean|Genetic Analysis of Isolates of Botrytis cinerea Sensitive and Resistant to Benzimidazole and Dicarboximide Fungicides|Phytopathology90(8): 851-859|2000|10.1094/PHYTO.2000.90.8.851
67956|T||Young,J.A., D.E. Palmquist, and R.R. Blank|The Ecology and Control of Perennial Pepperweed (Lepidium latifolium L.)|Weed Technol.12(2): 402-405|1998|10.1017/S0890037X00044006
67957|T||Madsen,K.H., and J.C. Streibig|Simulating Weed Management in Glyphosate-Tolerant Crops:  Greenhouse and Field Studies|Pest Manag. Sci.56:340-344|2000|10.1002/(SICI)1526-4998(200004)56:4<340::AID-PS124>3.0.CO;2-8
67958|T||Whiting,S.N., J.R. Leake, S.P. McGrath, and A.J.M. Baker|Hyperaccumulation of Zn by Thlaspi caerulescens can Ameliorate Zn Toxicity in the Rhizosphere of Cocropped Thlaspi arvense|Environ. Sci. Technol.35(15): 3237-3241|2001|10.1021/es010644m
67959|T||White,N.D.G., D.S. Jayas, and C.J. Demianyk|Degradation and Biological Impact of Chlorpyrifos-Methyl on Stored Wheat and Pirimiphos-Methyl on Stored Maize in Western Canada|J. Stored Prod. Res.33(2): 125-135|1997|10.1016/S0022-474X(96)00049-5
67960|T||Sarwar,M., J.A. Kirkegaard, P.T.W. Wong, and J.M. Desmarchelier|Biofumigation Potential of Brassicas  III. In Vitro Toxicity of Isothiocyanates to Soil-Borne Fungal Pathogens|Plant Soil201(1): 103-112|1998|10.1023/A:1004381129991
67961|T||Salt,D.E., I.J. Pickering, R.C. Prince, D. Gleba, S. Dushenkov, R.D. Smith, and I. Raskin|Metal Accumulation by Aquacultured Seedlings of Indian Mustard|Environ. Sci. Technol.31(6): 1636-1644|1997|10.1021/es960802n
67963|T||Schroder,T.W., and T. Basedow|Aphid Attack, Predators, Infections by Beet Yellowing Viruses and Yields in Fields of Sugar Beets with Different Insecticidal Soil and Seed Treatments (Blattlausbefall, Pradatoren, Infektionen mit Vergilbungsviren und E|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)106(6): 638-646|1999|
67965|T||Straw,N.A., N.J. Fielding, and A. Waters|Phytotoxicity of Insecticides Used to Control Aphids on Sitka Spruce, Picea sitchensis (Bong.) Carr.|Crop Prot.15(5): 451-459|1996|10.1016/0261-2194(96)00006-3
67966|T||Lorini,I., and D.J. Galley|Effect of the Synergists Piperonyl Butoxide and DEF in Deltamethrin Resistance on Strains of Rhyzopertha dominica (F.) (Coleoptera:  Bostrychidae)|An. Soc. Entomol. Bras.29(4): 749-755|2000|10.1590/S0301-80592000000400015
67967|T||Nordlund,D.A., W.J. Lewis, H.R.,Jr. Gross, and E.A. Harrell|Description and Evaluation of a Method for Field Application of Heliothis zea Eggs and Kairomones for Trichogramma|Environ. Entomol.3(6): 981-984|1974|10.1093/ee/3.6.981
67968|T||Del Fosse,E.S., and E.U.,Jr. Balsbaugh|Effects of ULV Organophosphates on Horn Flies and Face Flies of Cattle, and on the Bovine Coprocoenosis|Environ. Entomol.3(6): 919-922|1974|10.1093/ee/3.6.919
67969|T||White,N.D.G., and R.N. Sinha|Effect of Chlorpyrifos-Methyl on Oat Ecosystems in Farm Granaries|J. Econ. Entomol.83(3): 1128-1134|1990|10.1093/jee/83.3.1128
67970|T||Reichard,S.L., R.M. Sulc, L.H. Rhodes, and M.M. Loux|Effects of Herbicides on Sclerotinia Crown and Stem Rot of Alfalfa|Plant Dis.81(7): 787-790|1997|10.1094/PDIS.1997.81.7.787
67971|AT||Qiao,C.L., Z.Q. Sun, and J.E. Liu|New Esterase Enzymes Involved in Organophosphate Resistance in Culex pipiens (Diptera:  Culicidae) from Guang Zhou, China|J. Med. Entomol.36(6): 666-670|1999|10.1093/jmedent/36.6.666
67972|T||Bizily,S.P., C.L. Rugh, A.O. Summers, and R.B. Meagher|Phytoremediation of Methylmercury Pollution: merB Expression in Arabidopsis thaliana Confers Resistance to Organomercurials|Proc. Natl. Acad. Sci. U.S.A.96(12): 6808-6813|1999|10.1073/pnas.96.12.6808
67973|T||Williams,P.L., G.L. Anderson, J.L. Johnstone, A.D. Nunn, M.F. Tweedle, and P. Wedeking|Caenorhabditis elegans as an Alternative Animal Species|J. Toxicol. Environ. Health Part A61(8): 641-647|2000|10.1080/00984100050195125
67974|T||Robinson,M.F., J. Heath, and T.A. Mansfield|Disturbances in Stomatal Behaviour Caused by Air Pollutants|J. Exp. Bot.49(Spec.Issue): 461-469|1998|10.1093/jxb/49.Special_Issue.461
67975|T||Schat,H., S.S. Sharma, and R. Vooijs|Heavy Metal-Induced Accumulation of Free Proline in a Metal-Tolerant and a Nontolerant Ecotype of Silene vulgaris|Physiol. Plant. (Multiple Languages)101(3): 477-482|1997|10.1111/j.1399-3054.1997.tb01026.x
67976|T||Maksymiec,W., and T. Baszynski|The Effect of Ca2+ on Photosynthetic Activity and Assimilate Distribution in Cu2+ Stressed Bean Plants|In: G.Garab (Ed.), Proc.11th Int.Congr.on Photosynthesis: Mechanisms and Effects, Volume 4, Aug.17-22, 1998, Budapest, Hungary, Kluwer Acad.Publ., Dordrecht, Netherlands:2669-2672|1998|
67977|T||Patsikka,E., E.M. Aro, M. Hakala, and E. Tyystjarvi|Effect of Excess Copper on Photoinhibition of PSII|In: Proc. Int. Congr. Photosynth. , Kluwer Acad. Publ. , Dordrecht, Netherlands4:2657-2660|1998|
67978|T||Uygun,N., C. Sengonca, M.R. Ulusoy, and U. Kersting|Toxicity of Some Pesticides to Eretmocerus debachi (Hymenoptera: Aphelinidae), an Important Parasitoid of Parabemisia myricae (Homoptera: Aleyrodidae)|Bull. Entomol. Res.84(1): 119-122|1994|10.1017/S0007485300032296
67979|T||Petrovic,N., and I. Arsenijevic-Maksimovic|Effect of Different Lead Concentrations on Accumulation and Distribution of Essential Mineral Elements in Sunflower (Helianthus annus L.)|J. Sci. Agric. Res.57(204): 21-32|1996|
67980|T||Mertens,J., J. Vangronsveld, D. Van der Straeten, and M. Van Poucke|Effects of Copper and Zinc on the Ethylene Production of Arabidopsis thaliana|In: A.K.Kanellis, C.Chang, H.Klee, A.B.Bleecker, J.C.Pech, and D.Grierson (Eds.), Biology and Biotechnology of the Plant Hormone Ethylene II, Kluwer Acad.Publ., Dordrecht, Netherlands:333-338|1999|
67981|T||Nowakowski,W., and J. Nowakowska|Silicon and Copper Interaction in the Growth of Spring Wheat Seedlings|Biol. Plant. (Praha)39(3): 463-466|1997|10.1023/A:1001009100026
67982|T||Mansour,S.A.|Is it Possible to Use the Honey Bee Adult as a Bioindicator for the Detection of Pesticide Residues in Plants?|Acta Biol. Hung.38(1): 69-76|1987|
67983|T||Mansour,S.A., and M.K. Al-Jalili|Determination of Residues of Some Insecticides in Clover Flowers:  A Bioassay Method Using Honeybee Adults|J. Apic. Res.24(3): 195-198|1985|10.1080/00218839.1985.11100672
67984|T||James,D.G., and M. Rayner|Toxicity of Viticultural Pesticides to the Predatory Mites Amblyseius victoriensis and Typhlodromus doreenae|Plant Prot. Q.10(3): 99-102|1995|
67985|A||Tas,J.W., A. Keizer, and A. Opperhuizen|Bioaccumulation and Lethal Body Burden of Four Triorganotin Compounds (Dissertation)|In: Fate and Effects of Triorganotins in the Aqueous Environment, Chapter 6, Univ.of Utrecht, Utrecht, Netherlands:117-132|1993|
67988|A||Yamamoto,I., K. Nishimura, T. Suzuki, K. Takagi, H. Yamada, K. Kondo, and M. Murayama|Accumulation, Transformation, and Elimination of bis(Tri-n-Butyltin) Oxide in Red Sea Bream, Pagrus major, Under Laboratory Conditions|J. Agric. Food Chem.45:1437-1446|1997|10.1021/jf960556z
67989|A||Davies,I.M., M.J.C. Harding, S.K. Bailey, A.M. Shanks, and R. Lange|Sublethal Effects of Tributyltin Oxide on the Dogwhelk Nucella lapillus|Mar. Ecol. Prog. Ser.158:191-204|1997|10.3354/meps158191
67990|A||Lotufo,G.R., P.F. Landrum, and M.L. Gedeon|Toxicity and Bioaccumulation of DDT in Freshwater Amphipods in Exposures to Spiked Sediments|Environ. Toxicol. Chem.20(4): 810-825|2001|10.1002/etc.5620200417
67991|A||Moffitt,C.M., and Y. Kiryu|Toxicity, Teratogenesis, and Efficacy of Injectable Erythromycin (Erythro-200) Administered Repeatedly to Adult Spring Chinook Salmon|J. Aquat. Anim. Health11(1): 1-9|1999|10.1577/1548-8667(1999)011<0001:TTAEOI>2.0.CO;2
67992|A||Legierse,K.C.H.M., H.J.M. Verhaar, W.H.J. Vaes, J.H.M. De Bruijn, and J.L.M. Hermens|Analysis of the Time-Dependent Acute Aquatic Toxicity of Organophosphorus Pesticides:  The Critical Target Occupation Model|Environ. Sci. Technol.33(6): 917-925|1999|10.1021/es9805066
67993|A||Haukenes,A.H., and C.M. Moffitt|Concentrations of Erythromycin in Maturing Chinook Salmon After Intraperitoneal Injection of One of Two Drug Formulations|J. Aquat. Anim. Health11:61-67|1999|10.1577/1548-8667(1999)011<0061:COEIMC>2.0.CO;2
67994|A||Brown,S.B., P.D. Delorme, R.E. Evans, W.L. Lockhart, D.C.G. Muir, and F.J. Ward|Biochemical and Histological Responses in Rainbow Trout (Oncorhynchus mykiss) Exposed to 2,3,4,7,8-Pentachlorodibenzofuran|Environ. Toxicol. Chem.17(5): 915-921|1998|
67995|A||Fonds,M., E. Casal, D. Schweizer, J.P. Boon, and H.W. Van der Veer|Effects of PCB Contamination on the Reproduction of the DAB Limanda limanda L. Under Laboratory Conditions|Neth. J. Sea Res.34(1-3): 71-79|1995|10.1016/0077-7579(95)90015-2
67996|A||Jessen-Eller,K., and J.F. Crivello|Changes in Metallothionein mRNA and Protein After Sublethal Exposure to Arsenite and Cadmium Chloride in Juvenile Winter Flounder|Environ. Toxicol. Chem.17(5): 891-896|1998|10.1002/etc.5620170517
67997|A||Munger,C., and L. Hare|Relative Importance of Water and Food as Cadmium Sources to an Aquatic Insect (Chaoborus punctipennis):  Implications for Predicting Cd Bioaccumulation in Nature|Environ. Sci. Technol.31:891-895|1997|10.1021/es9606440
67999|A||Ponce,R.A., and N.S. Bloom|Effect of pH on the Bioaccumulation of Low Level, Dissolved Methylmercury by Rainbow Trout (Oncorhynchus mykiss)|Water Air Soil Pollut.56:631-640|1991|10.1007/BF00342305
68001|A||Driscoll,S.B.K., L.C. Schaffner, and R.M. Dickhut|Toxicokinetics of Fluoranthene to the Amphipod, Leptocheirus plumulosus, in Water-Only and Sediment Exposures|Mar. Environ. Res.45(3): 269-284|1998|10.1016/S0141-1136(97)00132-3
68002|A||Exley,C., A.J. Wicks, R.B. Hubert, and J.D. Birchall|Kinetic Constraints in Acute Aluminium Toxicity in the Rainbow Trout (Oncorhynchus mykiss)|J. Theor. Biol.179:25-31|1996|10.1006/jtbi.1996.0044
68003|A||Gleeson,R.A., and P.L. Zubkoff|The Determination of Hemolymph Volume in the Blue Crab, Callinectes sapidus, Utilizing 14C-Thiocyanate|Comp. Biochem. Physiol. A Comp. Physiol.56:411-413|1977|10.1016/0300-9629(77)90258-4
68004|A||James,R., and K. Sampath|Effect of the Ion-Exchanging Agent, Zeolite, on Reduction of Cadmium Toxicity:  An Experimental Study on Growth and Elemental Uptake in Heteropneustes fossilis (Bloch)|J. Aquacult. Trop.14(1): 65-74|1999|
68005|A||Rice,T.M.|The Effects of Food Deprivation, Cold Temperatures, and Metamorphosis on the Accumulation and Distribution of Lead in Larval Bullfrogs (Rana catesbeiana)|Ph.D.Thesis, Miami University, Oxford, OH:115 p.|1998|
68006|A||Kane Driscoll,S., and P.F. Landrum|A Comparison of Equilibrium Partitioning and Critical Body Residue Approaches for Predicting Toxicity of Sediment-Associated Fluoranthene to Freshwater Amphipods|Environ. Toxicol. Chem.16(10): 2179-2186|1997|
68007|A||Delorme,P.D., S.B. Brown, D.C.G. Muir, R.E. Evans, W.L. Lockhart, and F.J. Ward|Reproductive Success in Rainbow Trout Following Parental Transfer of 2,3,4,7,8-Pentachlorodibenzofuran|Environ. Toxicol. Chem.17(5): 922-927|1998|
68008|A||Kane Driscoll,S., P.F. Landrum, and E. Tigue|Accumulation and Toxicokinetics of Fluoranthene in Water-Only Exposures with Freshwater Amphipods|Environ. Toxicol. Chem.16(4): 754-761|1997|
68009|A||De Wolf,W., W. Seinen, A. Opperhuizen, and J.L.M. Hermens|Bioconcentration and Lethal Body Burden of 2,3,4,5-Tetrachloroaniline in Guppy, Poecilia reticulata [Dissertation]|In: Influence of Biotransformation on the Bioaccumulation of Chemicals in Fish, Chapter 5, Utrecht, Netherlands:93-106|1962|
68015|T||Lu,J., and G.F.,Jr. Combs|Effect of Excess Dietary Zinc on Pancreatic Exocrine Function in the Chick|J. Nutr.118:681-689|1988|10.1093/jn/118.6.681
68016|T||O'Neil-Cutting,M.A., A. Bomford, and H.N. Munro|Effect of Excess Dietary Zinc on Tissue Storage of Iron in Rats|J. Nutr.111:1969-1979|1981|10.1093/jn/111.11.1969
68017|T||Ott,E.A., W.H. Smith, R.B. Harrington, M. Stob, H.E. Parker, and W.M. Beeson|Zinc Toxicity in Ruminants.  III.  Physiological Changes in Tissues and Alterations in Rumen Metabolism in Lambs|J. Anim. Sci.25:424-431|1966|10.2527/jas1966.252424x
68018|T||Jones,A.M., and J.A. Bailey|Effect of Silver from Cloud Seeding on Cecal Flora of Rabbits|Water Air Soil Pollut.3:353-363|1974|10.1007/BF00226466
68019|T||Miller,W.J., H.E. Amos, R.P. Gentry, D.M. Blackmon, R.M. Durrance, C.T. Crowe, A.S. Fielding, and M.W. Neathery|Long-Term Feeding of High Zinc Sulfate Diets to Lactating and Gestating Dairy Cows|J. Dairy Sci.72:1499-1508|1989|10.3168/jds.S0022-0302(89)79260-2
68020|T||Pal,N., and B. Pal|Zinc Feeding and Conception in the Rats|Int. J. Vitam. Nutr. Res.57:437-440|1987|
68021|T||Ansari,M.S., W.J. Miller, M.W. Neathery, J.W. Lassiter, R.P. Gentry, and R.L. Kincaid|Zinc Metabolism and Homeostasis in Rats Fed a Wide Range of High Dietary Zinc Levels|Proc. Soc. Exp. Biol. Med.152:192-194|1976|10.3181/00379727-152-39358
68022|T||Pond,W.G., and M.H. Wallace|Effect of Gestation-Lactation Diet Calcium and Zinc Levels and of Parenteral Vitamins A, D and E During Gestation on Ewe Body Weight and on Lamb Weight and Survival|J. Anim. Sci.63:1019-1025|1986|10.2527/jas1986.6341019x
68023|T||Evenson,D.P., R.J. Emerick, L.K. Jost, H. Kayongo-Male, and S.R. Stewart|Zinc-Silicon Interactions Influencing Sperm Chromatin Integrity and Testicular Cell Development in the Rat as Measured by Flow Cytometry|J. Anim. Sci.71:955-962|1993|10.2527/1993.714955x
68024|T||Ott,E.A., W.H. Smith, R.B. Harrington, H.E. Parker, and W.M. Beeson|Zinc Toxicity in Ruminants.  IV.  Physiological Changes in Tissues of Beef Cattle|J. Anim. Sci.25:432-438|1966|10.2527/jas1966.252432x
68025|T||Ott,E.A., W.H. Smith, R.B. Harrington, and W.M. Beeson|Zinc Toxicity in Ruminants.  I.  Effect of High Levels of Dietary Zinc on Gains, Feed Consumption and Feed Efficiency of Lambs|J. Anim. Sci.25:414-418|1966|10.2527/jas1966.252414x
68026|T||Ott,E.A., W.H. Smith, R.B. Harrington, and W.M. Beeson|Zinc Toxicity in Ruminants.  II.  Effect of high Levels of Dietary Zinc on Gains, Feed Consumption and Feed Efficiency of beef Cattle|J. Anim. Sci.25:419-423|1966|10.2527/jas1966.252419x
68027|T||Miller,W.J., D.M. Blackmon, R.P. Gentry, and F.M. Pate|Effects of High but Nontoxic Levels of Zinc in Practical Diets on 65Zn and Zinc Metabolism in Holstein Calves|J. Nutr.100:893-902|1970|10.1093/jn/100.8.893
68028|T||Miller,W.J., C.M. Clifton, P.R. Fowler, and H.F. Perkins|Influence of high Levels of Dietary Zinc on Zinc in Milk, Performance and Biochemistry of Lactating Cows|J. Dairy Sci.48:450-453|1965|10.3168/jds.S0022-0302(65)88251-0
68029|T||Davies,N.T., H.S. Soliman, W. Corrigall, and A. Flett|The Susceptibility of Suckling Lambs to Zinc Toxicity|Br. J. Nutr.38:153-156|1977|10.1079/BJN19770073
68030|T||Cox,D.H., and O.M. Hale|Liver Iron Depletion Without Copper Loss in Swine Fed Excess Zinc|J. Nutr.77:225-228|1962|10.1093/jn/77.3.225
68031|T||Brink,M.F., D.E. Becker, S.W. Terrill, and A.H. Jensen|Zinc Toxicity in the Weanling Pig|J. Anim. Sci.18:836-842|1959|10.2527/jas1959.182836x
68032|T||Hamilton,R.P., M.R.S. Fox, B.E.,Jr. Fry, A.O.L. Jones, and R.M. Jacobs|Zinc Interference with Copper, Iron and Manganese in Young Japanese Quail|J. Food Sci.44:738-744|1979|10.1111/j.1365-2621.1979.tb08488.x
68033|T||Bafundo,K.W., D.H. Baker, and P.R. Fitzgerald|The Iron-Zinc Interrelationship in the Chick as Influenced by Eimeria acervulina Infection|J. Nutr.114:1306-1312|1984|10.1093/jn/114.7.1306
68034|T||Stahl,J.L., J.L. Greger, and M.E. Cook|Breeding-Hen and Progeny Performance when Hens are Fed Excessive Dietary Zinc|Poult. Sci.69:259-263|1990|10.3382/ps.0690259
68036|T||Schlicker,S.A., and D.H. Cox|Maternal Dietary Zinc, and Development and Zinc, Iron, and Copper Content of the Rat Fetus|J. Nutr.95:287-294|1968|10.1093/jn/95.2.287
68037|T||Sugawara,N., and C. Sugawara|Comparative Study of Effect of Acute Administration of Cadmium and Silver on Ceruloplasmin and Metallothionein:  Involvement of Disposition of Copper, Iron, and Zinc|Environ. Res.35:507-515|1984|10.1016/0013-9351(84)90157-9
68038|T||Watanabe,T., and M. Osaki|Influence of Aluminum and Phosphorus on Growth and Xylem Sap Composition in Melastoma malabathricum L.|Plant Soil237:63-70|2001|10.1023/A:1013395814958
68040|T||Blamey,F.P.C., D.C. Edmeades, and D.M. Wheeler|Role of Root Cation-Exchange Capacity in Differential Aluminum Tolerance of Lotus Species|J. Plant Nutr.13(6): 729-744|1990|10.1080/01904169009364112
68041|T||Adkins,E.K., and B. Nock|Behavioural Responses to Sex Steroids of Gonadectomized and Sexually Regressed Quail|J. Endocrinol.68:49-55|1976|10.1677/joe.0.0680049
68042|T||Adkins,E.K., and E.E. Pniewski|Control of Reproductive Behavior by Sex Steroids in Male Quail|J. Comp. Physiol. Psychol.92(6): 1169-1178|1978|10.1037/h0077523
68043|T||Adkins,E.K.|Effects of Diverse Androgens on the Sexual Behavior and Morphology of Castrated Male Quail|Horm. Behav.8:201-207|1977|10.1016/0018-506X(77)90037-X
68045|T||Adkins,E.K., and B.L. Nock|The Effects of the Antiestrogen CI-628 on Sexual Behavior Activated by Androgen or Estrogen in Quail|Horm. Behav.7:417-429|1976|10.1016/0018-506X(76)90013-1
68046|T||Chaffin,C.L., R.E. Peterson, and R.J. Hutz|In Utero and Lactational Exposure of Female Holtzman Rats to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Modulation of the Estrogen Signal|Biol. Reprod.55:62-67|1996|10.1095/biolreprod55.1.62
68047|T||Bergeron,J.M., and D. Crews|Effects of Estrogenic Compounds in Reptiles:  Turtles|In: R.J.Kendall (Ed.), Proc.from a Conf.on Endocrine Disruption in Wildlife, Principles and Processes for Evaluating Endocrine Disruption in Wildlife, Chapter 12, Mar.1996, Kiawah Isl., S.C., SETAC Press, Pensacola, FL:291-300|1998|
68048|T||Cagen,S.Z., J.M.,Jr. Waechter, S.S. Dimond, W.J. Breslin, J.H. Butala, F.W. Jekat, R.L. Joiner, R.N. Shiotsuka, G.E. Ve|Normal Reproductive Organ Development in Wistar Rats Exposed to Bisphenol A in the Drinking Water|Regul. Toxicol. Pharmacol.30:130-139|1999|10.1006/rtph.1999.1340
68049|A||Ho,S.M., D. Danko, and I.P. Callard|Effect of Exogenous Estradiol-17beta on Plasma Vitellogenin Levels in Male and Female Chrysemys and Its Modulation by Testosterone and Progesterone|Gen. Comp. Endocrinol.43:413-421|1981|10.1016/0016-6480(81)90224-0
68050|T||Khan,M.A., C.A. Davis, G.L. Foley, M.A. Friedman, and L.G. Hansen|Changes in Thyroid Gland Morphology After Acute Acrylamide Exposure|Toxicol. Sci.47(2): 151-157|1999|10.1093/toxsci/47.2.151
68051|T||Laws,S.C., S.A. Carey, J.M. Ferrell, G.J. Bodman, and R.L. Cooper|Estrogenic Activity of Octylphenol, Nonylphenol, Bisphenol A and Methoxychlor in Rats|Toxicol. Sci.54:154-167|2000|10.1093/toxsci/54.1.154
68052|T||Dai,D., Y. Cao, G. Falls, P.E. Levi, E. Hodgson, and R.L. Rose|Modulation of Mouse P450 Isoforms CYP1A2, CYP2B10, CYP2E1, and CYP3A by the Environmental Chemicals Mirex, 2,2-bis(p-Chlorophenyl)-1,1-Dichloroethylene, Vinclozolin, and Flutamide|Pestic. Biochem. Physiol.70(3): 127-141|2001|10.1006/pest.2001.2551
68053|T||Moorman,W.J., K.L. Cheever, S.R. Skaggs, J.C. Clark, T.W. Turner, K.L. Marlow, and S.M. Schrader|Male Adolescent Exposure to Endrocrine-Disrupting Pesticides:  Vinclozolin Exposure in Peripubertal Rabbits|Andrologia (Berl.)32:285-293|2000|10.1046/j.1439-0272.2000.00400.x
68054|T||Cook,J.C., L. Johnson, J.C. O'Connor, L.B. Biegel, C.H. Krams, S.R. Frame, and M.E. Hurtt|Effects of Dietary 17beta-Estradiol Exposure on Serum Hormone Concentrations and Testicular Parameters in Male Crl:CD BR Rats|Toxicol. Sci.44(2): 155-168|1998|
68055|T||Kay,A.M., I. Icekson, and H.R. Lindner|Stimulation by Estrogens of Ornithine and S-Adenosylmethionine Decarboxylases in the Immature Rat Uterus|Biochim. Biophys. Acta252:150-159|1971|10.1016/0304-4165(71)90103-6
68056|T||Andrews,P., A. Freyberger, E. Hartmann, R. Eiben, I. Loof, U. Schmidt, M. Temerowski, A. Folkerts, B. Stahl, and M. Kay|Sensitive Detection of the Endocrine Effects of the Estrogen Analogue Ethinylestradiol Using a Modified Enhanced Subacute Rat Study Protocol (OECD Test Guideline No. 407)|Arch. Toxicol.76(4): 194-202|2002|10.1007/s00204-002-0337-7
68057|T||Yamasaki,K., M. Sawaki, S. Noda, N. Imatanaka, and M. Takatsuki|Subacute Oral Toxicity Study of Ethynylestradiol and Bisphenol A, Based on the Draft Protocol for the 'Enhanced OECD Test Guideline No. 407|Arch. Toxicol.76(2): 65-74|2002|10.1007/s00204-001-0319-1
68058|T||Okazaki,K., T. Imazawa, H. Nakamura, F. Furukawa, A. Nishikawa, and M. Hirose|A Repeated 28-Day Oral Dose Toxicity Study of 17alpha-Methyltestosterone in Rats, Based on the 'Enhanced OECD Test Guideline 407' for Screening the Endocrine-Disrupting Chemicals|Arch. Toxicol.75(11-12): 635-642|2002|10.1007/s00204-001-0292-8
68059|T||Soontornchat,S., M.H. Li, P.S. Cooke, and L.G. Hansen|Toxicokinetic and Toxicodynamic Influences on Endocrine Disruption by Polychlorinated Biphenyls|Environ. Health Perspect.102(6-7): 568-571|1994|10.1289/ehp.94102568
68060|T||Mizuyachi,K., D.S. Son, K.K. Rozman, and P.F. Terranova|Alteration in Ovarian Gene Expression in Response to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Reduction of Cyclooxygenase-2 in the Blockage of Ovulation|Reprod. Toxicol.16(3): 299-307|2002|10.1016/S0890-6238(02)00024-2
68061|T||Navarra,P., and P. Preziosi|Disruptions of the Hypothalamo-Pituitary-Adrenal Axis Increase Anticancer Drug Lethality in the Rat|Toxicol. Lett.91(3): 219-227|1997|10.1016/S0378-4274(97)00025-8
68062|T||Shimamura,M., K. Kodaira, H. Kenichi, Y. Ishimoto, H. Tamura, and T. Iguchi|Comparison of Antiandrogenic Activities of Vinclozolin and D,L-Camphorquinone in Androgen Receptor Gene Transcription Assay In Vitro and Mouse In Utero Exposure Assay In Vivo|Toxicology174(2): 97-107|2002|10.1016/S0300-483X(02)00044-6
68063|T||Staub,C., V.B. Hardy, R.E. Chapin, M.W. Harris, and L. Johnson|The Hidden Effect of Estrogenic/Antiandrogenic Methoxychlor on Spermatogenesis|Toxicol. Appl. Pharmacol.180(2): 129-135|2002|10.1006/taap.2002.9369
68064|T||Guo,T.L., K.L.,Jr. White, R.D. Brown, K.B. Delclos, R.R. Newbold, C. Weis, D.R. Germolec, and J.A. McCay|Genistein Modulates Splenic Natural Killer Cell Activity, Antibody-Forming Cell Response, and Phenotypic Marker Expression in F0 and F1 Generations of Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.181:219-227|2002|10.1006/taap.2002.9418
68065|T||Ashby,J., and P.A. Lefevre|The Weanling Male Rat as an Assay for Endocrine Disruption:  Preliminary Observations|Regul. Toxicol. Pharmacol.26(3): 330-337|1997|10.1006/rtph.1997.1177
68066|T||Ashby,J., W. Owens, R. Deghenghi, and J. Odum|Concept Evaluation:  An Assay for Receptor-Mediated and Biochemical Antiestrogens Using Pubertal Rats|Regul. Toxicol. Pharmacol.35(3): 393-397|2002|10.1006/rtph.2002.1557
68067|T||Kunimatsu,T., T. Yamada, K. Ose, O. Sunami, Y. Kamita, Y. Okuno, T. Seki, and I. Nakatsuka|Lack of (Anti-) Androgenic or Estrogenic Effects of Three Pyrethroids (Esfenvalerate, Fenvalerate, and Permethrin) in the Hershberger and Uterotrophic Assays|Regul. Toxicol. Pharmacol.35(2): 227-237|2002|10.1006/rtph.2001.1527
68068|T||Foy,C.D., E.H. Lee, and S.B. Wilding|Differential Aluminum Tolerances of Two Barley Cultivars Related to Organic Acids in Their Roots|J. Plant Nutr.10(9-16): 1089-1101|1987|10.1080/01904168709363637
68069|T||Danielsson,B.R.G., and L. Dencker|Effects of Cadmium on the Placental Uptake and Transport to the Fetus of Nutrients|Biol. Res. Pregnancy Perinatol.5(3): 93-101|1984|
68072|T||Vimmerstedt,J.P., and T.N. Glover|Boron Toxicity to Sycamore of Minesoil Mixed with Sewage Sludge Containing Glass Fibers|Soil Sci. Soc. Am. J.48:389-393|1984|10.2136/sssaj1984.03615995004800020033x
68073|T||Lindsay,S.W., J.A. Ewald, Y. Samung, C. Apiwathnasorn, and F. Nosten|Thanaka (Limonia acidissima) and Deet (di-Methyl Benzamide) Mixture as a Mosquito Repellent for Use by Karen Women|Med. Vet. Entomol.12(3): 295-301|1998|10.1046/j.1365-2915.1998.00115.x
68074|T||Ezell,A.W., and A.L.,Jr. Catchot|Competition Control for Hardwood Plantation Establishment|Gen.Tech.Rep.No.SRS-20, Southern Research Station (SRS), USDA For.Serv.:42-43|1998|
68077|T||Franchina,J.J., C. Moon, and S. Peters|Effects of Toxin Magnitude on Taste Aversion and Taste-Potentiated Aversion to Visual Cues in Chicks (Gallus domesticus)|Physiol. Behav.62(3): 605-609|1997|10.1016/S0031-9384(97)00172-8
68078|T||Frey,J.E., H. Muller-Scharer, B. Frey, and D. Frei|Complex Relation Between Triazine-Susceptible Phenotype and Genotype in the Weed Senecio vulgaris may be Caused by Chloroplast DNA Polymorphism|Theor. Appl. Genet.99(3-4): 578-586|1999|10.1007/s001220051271
68079|T||Fullmer,C.S.|Lead-Calcium Interactions:  Involvement of 1,25-Dihydroxyvitamin D|Environ. Res.72(1): 45-55|1997|10.1006/enrs.1996.3689
68080|T||Fulton,R.M., H.L. Thacker, W.M. Reed, and D.B. DeNicola|Effect of Cytoxan-Induced Heteropenia on the Response of Specific-Pathogen-Free Chickens to Infectious Bronchitis|Avian Dis.41(3): 511-518|1997|10.2307/1592139
68082|T||Dowd,P.F., J.P. Duvick, and T. Rood|Comparative Toxicity of Allelochemicals and Their Enzymatic Oxidation Products to Maize Fungal Pathogens, Emphasizing Fusarium graminearum|Nat.Toxins5(5): 180-185|1997|10.1002/19970505NT2
68084|T||Pack,M.R.|Response of Tomato Fruiting to Hydrogen Fluoride as Influenced by Calcium Nutrition|J. Air Pollut. Control Assoc.16(10): 541-544|1966|10.1080/00022470.1966.10468515
68093|T||Hossain,S.M., and A.G. Bertechini|Effect of Varying Manganese and Available Phosphorus Levels in the Diet on Egg Production and Eggshell Quality of Layers|Anim. Feed Sci. Technol.71:303-308|1998|10.1016/S0377-8401(97)00153-3
68098|A||Madsen,S.S., A.B. Mathiesen, and B. Korsgaard|Effects of 17beta-Estradiol and 4-Nonylphenol on Smoltification and Vitellogenesis in Atlantic Salmon (Salmo salar)|Fish Physiol. Biochem.17:303-312|1997|10.1023/A:1007754123787
68099|A||Gill,T.S., and S.S. Khanna|Effect of Cortisol Administration upon a Freshwater Teleost, Channa punctatus (Bloch)|Zool. Beitr.25:191-198|1975|
68100|T||Doncheva,S., B. Nikolov, and V. Ogneva|Effect of Copper Excess on the Morphology of the Nucleus in Maize Root Meristem Cells|Physiol. Plant. (Multiple Languages)96(1): 118-122|1996|10.1111/j.1399-3054.1996.tb00191.x
68101|T||Shaw,J.|Effect of Environmental Pretreatment on Tolerance to Copper and Zinc in the Moss Funaria hygrometrica|Am. J. Bot.74(10): 1466-1475|1987|10.1002/j.1537-2197.1987.tb12138.x
68102|T||Searcy,K.B., and D.L. Mulcahy|Pollen Selection and the Gametophytic Expression of Metal Tolerance in Silene dioica (Caryophyllaceae) and Mimulus guttatus  (Scrophulariaceae)|Am. J. Bot.72(11): 1700-1706|1985|10.1002/j.1537-2197.1985.tb08441.x
68103|T||Sisler,H.D., and C.E. Cox|Effects of Tetramethylthiuram Disulfide on Metabolism of Fusarium roseum|Am. J. Bot.41:338-345|1954|10.1002/j.1537-2197.1954.tb14346.x
68104|T||Lidon,F.C., and F.S. Henriques|Effects of Copper on Protein and Biomass Yields of Rice Plants|Acta Bot. Hung.37(1-4): 373-382|1992|
68105|T||Fabian,G., and M. Dezsi-Devay|Ecophysiological Studies of the Relationship Between Heavy Metal Toxicity and Nitrogen Nutrition in the Early Development Stage of Winter Wheat|Acta Bot. Hung.33(3-4): 219-234|1987|
68106|T||Karolewski,P., and N.I. Shevyakova|Effect of Sulphite Ions on the Proline and Polyamine Content in the Bean Phaseolus vulgaris|Acta Soc. Bot. Pol.59(1-4): 55-64|1990|10.5586/asbp.1990.005
68107|T||Lidon,F.C., and F.S. Henriques|Subcellular Localisation of Copper and Partial Isolation of Copper Proteins in Roots from Rice Plants Exposed to Excess Copper|Aust. J. Plant Physiol.21(4): 427-436|1994|
68108|T||Jovtchev,G., and M. Stergios|"Combined Application of ""Mixed"" Conditioning Procedures Simultaneously Triggers Two Independent Protective Functions Against Induction of Chromatid Aberrations by Maleic Hydrazide in Hordeum vulgare"|C. R. Acad. Bulg. Sci.52(3/4): 103-106|1999|
68109|T||Denys,S., G. Echevarria, E. Leclerc-Cessac, S. Massoura, and J.L. Morel|Assessment of Plant Uptake of Radioactive Nickel from Soils|J. Environ. Radioact.62(2): 195-205|2002|10.1016/S0265-931X(01)00163-1
68110|T||Arnebrant,K., E. Baath, and A. Nordgren|Copper Tolerance of Microfungi Isolated from Polluted and Unpolluted Forest Soil|Mycologia79(6): 890-895|1987|10.1080/00275514.1987.12025478
68111|T||Biddappa,C.C., H.H. Khan, O.P. Joshi, and P. Manikandan|Effect of Root Feeding of Heavy Metals on the Leaf Concentration of P, K, Ca and Mg in Coconut (Cocos nucifera L.)|Plant Soil101(2): 295-297|1987|10.1007/BF02370659
68113|T||Ayaz,F.A., and A. Kadioglu|Effects of Heavy Metals (Zn, Cd, Cu, Hg) on the Soluble Protein Bands of Germinating Lens esculenta L. Seeds|Turk. J. Bot.21(2): 85-88|1997|10.55730/1300-008X.2582
68114|T||Amalin,D.M., J.E. Pena, S.J. Yu, and R. McSorley|Selective Toxicity of Some Pesticides to Hibana velox (Araneae: Anyphaenidae), a Predator of Citrus Leafminer|Fla. Entomol.83(3): 254-262|2000|10.2307/3496343
68115|T||Archambault,D.J., and K. Winterhalder|Metal Tolerance in Agrostis scabra from the Sudbury, Ontario, Area|Can. J. Bot.73(5): 766-775|1995|10.1139/b95-084
68116|T||Chowdhury,S.R., and T.K. Smith|Effects of Dietary 1,4-Diaminobutane (Putrescine) on Eggshell Quality and Laying Performance of Older Hens|Poult. Sci.80:1208-1214|2001|10.1093/ps/80.8.1208
68117|T||Harris,G.S.|Note on Control of Earthworms in Greenkeeping|N. Z. J. Sci. Technol. Sect. B31(3): 40-|1949|
68118|T||Westwood,M.N., L.P. Batjer, and H.D. Billingsley|Effects of Several Organic Spray Materials on the Fruit Growth and Foliage Efficiency of Apple and Pear|Proc. Am. Soc. Hortic. Sci.76:59-67|1960|
68119|T||Collins,D.A., and T.J. Binns|Efficacy of Surface Dust Treatments of Pirimiphos-Methyl and Etrimfos when Applied to Commercially Stored Wheat and Barley|Pestic. Sci.47(1): 61-67|1996|10.1002/(SICI)1096-9063(199605)47:1<61::AID-PS393>3.0.CO;2-M
68120|T||Wilson,K., A. Gunn, and J.M. Cherrett|The Application of a Rhizotron to Study the Subterranean Effects of Pesticides|Pedobiologia (Multiple Languages)39(2): 132-143|1995|10.1016/S0031-4056(24)00172-0
68121|T||Srivastava,A., K.C. Gupta, and G. Singh|Dissipation of Tralkoxydim Herbicide from Wheat Crop and Soil Under Sub-tropical Conditions|Pestic. Sci.43(1): 53-55|1995|10.1002/ps.2780430108
68122|T||McCaskey,T.A., A.R. Stemp, B.J. Liska, and W.J. Stadelman|Residues in Egg Yolks and raw and Cooked Tissues from Laying Hens Administered Selected Chlorinated Hydrocarbon Insecticides|Poult. Sci.47:564-569|1968|10.3382/ps.0470564
68123|T||O'Donnell,M.J.|The Toxicities of Four Insecticides to Tribolium confusum Duv. in Two Sets of Conditions of Temperature and Humidity|J. Stored Prod. Res.16(2): 71-74|1980|10.1016/0022-474X(80)90040-5
68124|T||Begum,S., I. Scheunert, A. Haque, W. Klein, and F. Korte|Conversion of [14C]Pentachloronitrobenzene in Onions|Pestic. Biochem. Physiol.11(1-3): 189-200|1979|10.1016/0048-3575(79)90058-0
68125|T||Flick,D.F., R.G. O'Dell, and V.A. Childs|Studies of the Chick Edema Disease.  3.  Similarity of Symptoms Produced by Feeding Chlorinated Biphenyl|Poult. Sci.44:1460-1464|1965|10.3382/ps.0441460
68126|T||Konno,T., E. Hodgson, and W.C. Dauterman|Studies on Methyl Parathion Resistance in Heliothis virescens|Pestic. Biochem. Physiol.33(2): 189-199|1989|10.1016/0048-3575(89)90009-6
68127|T||El Saidy,M.F., M. Auda, and D. Degheele|Detoxification Mechanisms of Diflubenzuron and Teflubenzuron in the Larvae of Spodoptera littoralis (Boisd.)|Pestic. Biochem. Physiol.35(3): 211-222|1989|10.1016/0048-3575(89)90082-5
68128|T||Weed,R.M., S.E.A. McCallan, and L.P. Miller|Factors Associated with the Fungitoxicity of Ferbam and Nabam|Contrib. Boyce Thompson Inst.17(5): 299-315|1953|
68129|T||Ellis III,H.V., C.B. Hong, C.C. Lee, J.C. Dacre, and J.P. Glennon|Subchronic and Chronic Toxicity Studies of 2,4-Dinitrotoluene.  Part I.  Beagle Dogs|J. Am. Coll. Toxicol.4(4): 233-242|1985|10.3109/10915818509078676
68130|T||Rudolf,K., and L. Vapa|Effect of Zn, Cd and Pb on Mineral Elements Concentration and Accumulation in Wheat (Triticum aestivum L.)|Zb. Matice Srp. Prir. Nauke87:45-51|1994|
68131|T||Hoy,M.A., and F.E. Cave|Toxicity of Pesticides Used on Walnuts to a Wild and Azinphosmethyl-Resistant Strain of Trioxys pallidus (Hymenoptera: Aphidiidae)|J. Econ. Entomol.82(6): 1585-1592|1989|10.1093/jee/82.6.1585
68132|T||Heimbach,U.|Testing Effects of Pesticides on Adult Carabid Beetles in Semi-Field and Field Experiments|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:175-181|1998|
68133|T||Alva,A.K., B. Huang, and S. Paramasivam|Soil pH Affects Copper Fractionation and Phytotoxicity|Soil Sci. Soc. Am. J.64(3): 955-962|2000|10.2136/sssaj2000.643955x
68134|T||Kazimirova,M., and M. Slovak|Effects of Heavy Metals and Fluorine on Phagocytosis and Phenoloxidase Activity in Mamestra brassicae (Lepidoptera: Noctuidae)|Eur. J. Entomol.93(3): 467-473|1996|
68135|T||Slovak,M., and M. Kazimirova|Copper-Induced Changes of the Storage Protein Levels in Mamestra brassicae (Lepidoptera, Noctuidae)|Biologia (Bratisl.)52(2): 351-354|1997|
68136|T||Huckova,A., M. Kazimirova, and M. Slovak|Heavy Metal-Affected Changes in Haemolymph Histamine Concentration in the Cabbage Moth, Mamestra brassicae (Lepidoptera, Noctuidae)|Biologia (Bratisl.)51(5): 571-574|1996|
68137|AT||Grossmann,K., and G. Retzlaff|Bioregulatory Effects of the Fungicidal Strobilurin Kresoxim-Methyl in Wheat (Triticum aestivum)|Pestic. Sci.50(1): 11-20|1997|10.1002/(SICI)1096-9063(199705)50:1<11::AID-PS556>3.0.CO;2-8
68139|T||Grossmann,K., and J. Kwiatkowski|The Mechanism of Quinclorac Selectivity in Grasses|Pestic. Biochem. Physiol.66(2): 83-91|2000|10.1006/pest.1999.2461
68140|T||Grossmann,K., and H. Schiffer|Protoporphyrinogen Oxidase-Inhibiting Activity of the New, Wheat-Selective Isoindoldione Herbicide, Cinidon-Ethyl|Pestic. Sci.55(7): 687-695|1999|10.1002/(SICI)1096-9063(199907)55:7<687::AID-PS18>3.0.CO;2-L
68141|T||Grossmann,K., and F. Scheltrup|Studies on the Mechanism of Selectivity of the Auxin Herbicide Quinmerac|Pestic. Sci.52(2): 111-118|1998|10.1002/(SICI)1096-9063(199802)52:2<111::AID-PS695>3.0.CO;2-#
68143|T||Mersie,W., and M. Singh|Effects of Phenolic Acids and Ragweed Parthenium (Parthenium hysterophorus) Extracts on Tomato (Lycopersicon esculentum) Growth and Nutrient and Chlorophyll Content|Weed Sci.36(3): 278-281|1988|10.1017/S0043174500074865
68144|T||Schroeder,J.|Wild Radish (Raphanus raphanistrum) Control in Soft Red Winter Wheat (Triticum aestivum)|Weed Sci.37:112-116|1989|10.1017/S0043174500055946
68145|T||Hartzler,R.G., R.S. Fawcett, and H.G. Taber|Effects of Trifluralin on Corn (Zea mays) Growth and Nutrient Content|Weed Sci.38(6): 468-470|1990|10.1017/S0043174500051316
68146|AT||Fryauff,D.J., M.A. Shoukry, H.A. Hanafi, Y.M. Choi, K.E. Kamel, and C.E. Schreck|Contact Toxicity of Permethrin-Impregnated Military Uniforms to Culex pipiens (Diptera:  Culicidae) and Phlebotomus papatasi (Diptera:  Psychodidae):  Effects of Laundering and Time of Exposure|Am. Mosq. Control Assoc. J.12(1): 84-90|1996|
68147|T||Ohazurike,N.C.|Effect of Some Fungicides on Extracellular Enzymes of Sclerotium rolfsii sacc.|Nahrung40(3): 150-153|1996|10.1002/food.19960400312
68148|T||Misra,J., V. Pandey, and N. Singh|Effects of Some Heavy Metals on Root Growth of Germinating Seeds of Vicia faba|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(10): 2229-2234|1994|
68149|T||Mitchell,G.A., and F.M. Bourland|Effects of Trifluralin and Pendimethalin on Cotton Emergence and Seedling Characteristics|Proc. Beltwide Cotton Conf.:64-66|1986|
68150|T||Schneider,K., J. Oltmanns, T. Radenberg, T. Schneider, and D. Pauly-Mundegar|Uptake of Nitroaromatic Compounds in Plants.  Implications for Risk Assessment of Ammunition Sites|Environ. Sci. Pollut. Res.3(3): 135-138|1996|10.1007/BF02985519
68151|T||Schread,J.C.|Habits and Control of the Oriental Earthworm|Conn. Agric. Exp. Stn. Bull. (New Haven)556:5-15|1952|
68152|T||Muramoto,S., H. Nishizaki, and I. Aoyama|The Critical Levels and the Maximum Metal Uptake for Wheat and Rice Plants when Applying Metal Oxides to Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(2): 273-280|1990|
68154|T||Neely,D., and W.R.,Jr. Crowley|Toxicity of Soil-Applied Herbicides to Shade Trees|Hortscience9(2): 147-149|1974|10.21273/HORTSCI.9.2.147
68155|T||Freeman,S., Z. Shalev, and J. Katan|Survival in Soil of Colletotrichum acutatum and C. gloeosporioides Pathogenic on Strawberry|Plant Dis.86(9): 965-970|2002|10.1094/PDIS.2002.86.9.965
68156|T||Eno,C.F.|The Effect of Simazine and Atrazine on Certain of the Soil Microflora and Their Metabolic Processes|Proc. Soil Crop Sci. Soc. Fla.22:49-56|1962|
68157|T||Christopher,J.T., C. Preston, and S.B. Powles|Malathion Antagonizes Metabolism-Based Chlorsulfuron Resistance in Lolium rigidum|Pestic. Biochem. Physiol.49:172-182|1994|10.1006/pest.1994.1045
68158|T||Amorim,M.J.B., J.P. Sousa, A.J.A. Nogueira, and A.M.V.M. Soares|Bioaccumulation and Elimination of 14C-Lindane by Enchytraeus albidus in Artificial (OECD) and a Natural Soil|Chemosphere49(3): 323-329|2002|10.1016/S0045-6535(02)00322-3
68159|T||Conder,J.M., L.D. Seals, and R.P. Lanno|Method for Determining Toxicologically Relevant Cadmium Residues in the Earthworm Eisenia fetida|Chemosphere49(1): 1-7|2002|10.1016/S0045-6535(02)00192-3
68160|T||Asai,K., K. Takagi, M. Shimokawa, T. Sue, A. Hibi, T. Hiruta, S. Fujihiro, H. Nagasaka, S. Hisamatsu, and S. Sonoki|Phytoaccumulation of Coplanar PCBs by Arabidopsis thaliana|Environ. Pollut.120(3): 509-511|2002|10.1016/S0269-7491(02)00311-1
68161|T||Adriaens,E., and J.P. Remon|Evaluation of an Alternative Mucosal Irritation Test Using Slugs|Toxicol. Appl. Pharmacol.182(2): 169-175|2002|10.1006/taap.2002.9444
68162|T||Bansal,R.L., and V.K. Nayyar|Yield and Micronutrient Nutrition in Wheat as Influenced by high Levels of Zinc in Soil|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India:636-641|1998|
68163|T||Stouthamer,R., and F. Mak|Influence of Antibiotics on the Offspring Production of the Wolbachia-Infected Parthenogenetic Parasitoid Encarsia formosa|J. Invertebr. Pathol.80(1): 41-45|2002|10.1016/S0022-2011(02)00034-4
68164|T||Bundy,J.G., E.M. Lenz, D. Osborn, J.M. Weeks, J.C. Lindon, and J.K. Nicholson|Metabolism of 4-Fluoroaniline and 4-Fluoro-Biphenyl in the Earthworm Eisenia veneta Characterized by High-Resolution NMR Spectroscopy with Directly Coupled HPLC-NMR and HPLC-MS|Xenobiotica32(6): 479-490|2002|10.1080/00498250210124156
68165|T||Haubruge,E., M. Amichot, A. Cuany, J.B. Berge, and L. Arnaud|Purification and Characterization of a Carboxylesterase Involved in Malathion-Specific Resistance from Tribolium castaneum (Coleoptera: Tenebrionidae)|Insect Biochem. Mol. Biol.32(9): 1181-1190|2002|10.1016/S0965-1748(02)00054-1
68169|T||Kanno,J., H. Kato, T. Iwata, and T. Inoue|Phytoestrogen-Low Diet for Endocrine Disruptor Studies|J. Agric. Food Chem.50(13): 3883-3885|2002|10.1021/jf020235p
68172|A||Shimasaki,Y., T. Kitano, Y. Oshima, S. Inoue, N. Imada, and T. Honjo|Tributyltin Causes Masculinization in Fish|Environ. Toxicol. Chem.22(1): 141-144|2003|10.1002/etc.5620220118
68173|A||Jha,A.N., J.A. Hagger, and S.J. Hill|Tributyltin Induces Cytogenetic Damage in the Early Life Stages of the Marine Mussel, Mytilus edulis|Environ. Mol. Mutagen.35(4): 343-350|2000|10.1002/1098-2280(2000)35:4<343::AID-EM9>3.0.CO;2-5
68174|A||Versonnen,B.J., K. Arijs, T. Verslycke, W. Lema, and C.R. Janssen|In Vitro and In Vivo Estrogenicity and Toxicity of o-, m-, and p-Dichlorobenzene|Environ. Toxicol. Chem.22(2): 329-335|2003|
68175|A||Carr,J.A., A. Gentles, E.E. Smith, W.L. Goleman, L.J. Urquidi, K. Thuett, R.J. Kendall, J.P. Giesy, T.S. Gross, K.R. So|Response of Larval Xenopus laevis to Atrazine:  Assessment of Growth, Metamorphosis, and Gonadal and Laryngeal Morphology|Environ. Toxicol. Chem.22(2): 396-405|2003|10.1002/etc.5620220222
68177|A||Khan,I.A., and P. Thomas|Disruption of Neuroendocrine Control of Luteinizing Hormone Secretion by Aroclor 1254 Involves Inhibition of Hypothalamic Tryptophan Hydroxylase Activity|Biol. Reprod.64(3): 955-964|2001|10.1095/biolreprod64.3.955
68178|A||Blaise,C., F. Gagne, J. Pellerin, and P.D. Hansen|Determination of Vitellogenin-Like Properties in Mya arenaria Hemolymph (Saguenay Fjord, Canada): A Potential Biomarker for Endocrine Disruption|Environ. Toxicol.14(5): 455-465|1999|10.1002/(SICI)1522-7278(199912)14:5<455::AID-TOX2>3.0.CO;2-8
68179|A||Kungolos,A., S. Hadjispyrou, P. Samaras, M. Petala, V. Tsiridis, K. Aravossis, and G.P. Sakellaropoulos|Assessment of Toxicity and Bioaccumulation of Organotin Compounds|In: Proceedings of the 7th International Conference on Environmental Science and Technology, Syros, Greece:499-505|2001|
68180|A||Karels,A.A., S. Manning, T.H. Brouwer, and M. Brouwer|Reproductive Effects of Estrogenic and Antiestrogenic Chemicals on Sheepshead Minnows (Cyprinodon variegatus)|Environ. Toxicol. Chem.22(4): 855-865|2003|10.1002/etc.5620220425
68181|A||Palace,V.P., R.E. Evans, K. Wautier, C. Baron, L. Vandenbyllardt, W. Vandersteen, and K. Kidd|Induction of Vitellogenin and Histological Effects in Wild Fathead Minnows from a Lake Experimentally Treated with the Synthetic Estrogen, Ethynylestradiol|Water Qual. Res. J. Can.37(3): 637-650|2002|10.2166/wqrj.2002.042
68182|A||Breitholtz,M., and B.E. Bengtsson|Oestrogens have no Hormonal Effect on the Development and Reproduction of the Harpacticoid Copepod Nitocra spinipes|Mar. Pollut. Bull.42(10): 879-886|2001|10.1016/S0025-326X(01)00046-7
68183|A||Doyle,C.J., and R.P. Lim|The Effect of 17beta-Estradiol on the Gonopodial Development and Sexual Activity of Gambusia holbrooki|Environ. Toxicol. Chem.21(12): 2719-2724|2002|
68184|A||van der Ven,L.T.M., P.W. Wester, and J.G. Vos|Histopathology as a Tool for the Evaluation of Endocrine Disruption in Zebrafish (Danio rerio)|Environ. Toxicol. Chem.22(4): 908-913|2003|10.1002/etc.5620220431
68185|A||Salice,C.J., and T.J. Miller|Population-Level Responses to Long-Term Cadmium Exposure in Two Strains of the Freshwater Gastropod Biomphalaria glabrata:  Results from a Life-Table Response Experiment|Environ. Toxicol. Chem.22(3): 678-688|2003|
68186|A||Hopkins,W.A., C.P. Tatara, H.A. Brant, and C.H. Jagoe|Relationships Between Mercury Body Concentrations, Standard Metabolic Rate, and Body Mass in Eastern Mosquitofish (Gambusia holbrooki) from Three Experimental Populations|Environ. Toxicol. Chem.22(3): 586-590|2003|10.1002/etc.5620220317
68187|A||Sullivan,K.B., and K.M. Spence|Effects of Sublethal Concentrations of Atrazine and Nitrate on Metamorphosis of the African Clawed Frog|Environ. Toxicol. Chem.22(3): 627-635|2003|10.1002/etc.5620220323
68188|A||Hassler,C.S., and K.J. Wilkinson|Failure of the Biotic Ligand and Free-Ion Activity Models to Explain Zinc Bioaccumulation by Chlorella kesslerii|Environ. Toxicol. Chem.22(3): 620-626|2003|
68189|A||Milani,D., T.B. Reynoldson, U. Borgmann, and J. Kolasa|The Relative Sensitivity of Four Benthic Invertebrates to Metals in Spiked-Sediment Exposures and Application to Contaminated Field Sediment|Environ. Toxicol. Chem.22(4): 845-854|2003|
68190|A||Tran,D., P. Ciret, A. Ciutat, G. Durrieu, and J.C. Massabuau|Estimation of Potential and Limits of Bivalve Closure Response to Detect Contaminants:  Application to Cadmium|Environ. Toxicol. Chem.22(4): 914-920|2003|10.1002/etc.5620220432
68191|A||Woodburn,K.B., S.C. Hansen, G.A. Roth, and K. Strauss|The Bioconcentration and Metabolism of Chlorpyrifos by the Eastern Oyster, Crassostrea virginica|Environ. Toxicol. Chem.22(2): 276-284|2003|10.1002/etc.5620220207
68192|A||Goedkoop,W., and M. Peterson|The Fate, Distribution, and Toxicity of Lindane in Tests with Chironomus riparius:  Effects of Bioturbation and Sediment Organic Matter Content|Environ. Toxicol. Chem.22(1): 67-74|2003|10.1002/etc.5620220109
68193|A||Heinonen,J., O.P. Penttinen, I.J. Holopainen, and J.V.K. Kukkonen|Sublethal Energetic Responses by Pisidium amnicum (Bivalvia) Exposed to Pentachlorophenol at Two Temperatures|Environ. Toxicol. Chem.22(2): 433-438|2003|10.1002/etc.5620220226
68194|A||Bouilly,K., A. Leitao, H. McCombie, and S. Lapegue|Impact of Atrazine on Aneuploidy in Pacific Oysters, Crassostrea gigas|Environ. Toxicol. Chem.22(1): 219-223|2003|10.1002/etc.5620220129
68195|A||Kamunde,C.N., G.G. Pyle, D.G. McDonald, and C.M. Wood|Influence of Dietary Sodium on Waterborne Copper Toxicity in Rainbow Trout, Oncorhynchus mykiss|Environ. Toxicol. Chem.22(2): 342-350|2003|10.1002/etc.5620220215
68196|A||James,S.M., and E.E. Little|The Effects of Chronic Cadmium Exposure on American Toad (Bufo americanus) Tadpoles|Environ. Toxicol. Chem.22(2): 377-380|2003|10.1002/etc.5620220219
68197|A||Denton,D.L., C.E. Wheelock, S.A. Murray, L.A. Deanovic, B.D. Hammock, and D.E. Hinton|Joint Acute Toxicity of Esfenvalerate and Diazinon to Larval Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.22(2): 336-341|2003|10.1002/etc.5620220214
68198|A||Fisher,M.A., A.M. Jelaso, A. Predenkiewicz, L. Schuster, J. Means, and C.F. Ide|Exposure to the Polychlorinated Biphenyl Mixture Aroclor 1254 Alters Melanocyte and Tail Muscle Morphology in Developing Xenopus laevis Tadpoles|Environ. Toxicol. Chem.22(2): 321-328|2003|10.1002/etc.5620220212
68199|A||Xie,L., and P.L. Klerks|Responses to Selection for Cadmium Resistance in the Least Killifish, Heterandria formosa|Environ. Toxicol. Chem.22(2): 313-320|2003|10.1002/etc.5620220211
68200|A||Powell,D.B., R.C.,Jr. Palm, A. Skillman, and K. Godtfredsen|Immunocompetence of Juvenile Chinook Salmon Against Listonella anguillarum Following Dietary Exposure to Aroclor 1254|Environ. Toxicol. Chem.22(2): 285-295|2003|10.1002/etc.5620220208
68201|A||Monetti,C., D. Vigetti, M. Prati, E. Sabbioni, G. Bernardini, and R. Gornati|Gene Expression in Xenopus Embryos After Methylmercury Exposure: A Search for Molecular Biomarkers|Environ. Toxicol. Chem.21(12): 2731-2736|2002|10.1002/etc.5620211229
68202|A||Kral'ova,K., K. Kissova, and O. Svajlenova|Effects of Carboxylatocopper(II) Complexes on Photosynthesizing Organisms|Chem. Inz. Ekol. (Multiple Languages)7(10): 1076-1083|2000|
68203|T||Wagner,P.A., W.G. Hoekstra, and H.E. Ganther|Alleviation of Silver Toxicity by Selenite in the Rat in Relation to Tissue Glutathione Peroxidase (38697)|Proc. Soc. Exp. Biol. Med.148:1106-1110|1975|10.3181/00379727-148-38697
68204|A||Fowlkes,M.D., J.L. Michael, T.L. Crisman, and J.P. Prenger|Effects of the Herbicide Imazapyr on Benthic Macroinvertebrates in a Logged Pond Cypress Dome|Environ. Toxicol. Chem.22(4): 900-907|2003|10.1002/etc.5620220430
68205|A||Haller,W.T., and R.K. Stocker|Toxicity of 19 Adjuvants to Juvenile Lepomis macrochirus (Bluegill Sunfish)|Environ. Toxicol. Chem.22(3): 615-619|2003|10.1002/etc.5620220321
68206|A||Wiegman,S., C. Barranguet, E. Spijkerman, M.H.S. Kraak, and W. Admiraal|The Role of Ultraviolet-Adaptation of a Marine Diatom in Photoenhanced Toxicity of Acridine|Environ. Toxicol. Chem.22(3): 591-598|2003|
68207|A||Cancilla,D.A., J.C. Baird, S.W. Geis, and S.R. Corsi|Studies of the Environmental Fate and Effect of Aircraft Deicing Fluids:  Detection of 5-Methyl-1H-Benzotriazole in the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.22(1): 134-140|2003|
68209|A||Hwang,H., S.W. Fisher, K. Kim, P.F. Landrum, R.J. Larson, and D.J. Versteeg|Assessing the Toxicity of Dodecylbenzene Sulfonate to the Midge Chironomus riparius Using Body Residues as the Dose Metric|Environ. Toxicol. Chem.22(2): 302-312|2003|10.1002/etc.5620220210
68210|A||Metcalfe-Smith,J.L., K.E. Holtze, G.R. Sirota, J.J. Reid, and S.R. De Solla|Toxicity of Aqueous and Sediment-Associated Fluoride to Freshwater Organisms|Environ. Toxicol. Chem.22(1): 161-166|2003|
68211|A||Biever,R.C., J.R. Hoberg, B. Jacobson, E. Dionne, M. Sulaiman, and P. McCahon|ICON Rice Seed Treatment Toxicity to Crayfish (Procambarus clarkii) in Experimental Rice Paddies|Environ. Toxicol. Chem.22(1): 167-174|2003|10.1002/etc.5620220122
68212|A||Choi,J., T. Caquet, and H. Roche|Multilevel Effects of Sublethal Fenitrothion Exposure in Chironomus riparius Mg. (Diptera, Chironomidae) Larvae|Environ. Toxicol. Chem.21(12): 2725-2730|2002|10.1002/etc.5620211228
68213|A||Lizotte,R.E.,Jr., P.B. Dorn, R.W.,Jr. Steinriede, D.C.L. Wong, and J.H.,Jr. Rodgers|Ecological Effects of an Anionic C12-15 AE-3S Alkylethoxysulfate Surfactant in Outdoor Stream Mesocosms|Environ. Toxicol. Chem.21(12): 2742-2751|2002|
68215|A||Khare,P., and P.S. Bisen|Mitigating Effect of Physico-Chemical Factors on Ni2+ Hg2+ and Cu2+ Toxicity in Cylindrospermum IU 942|Environ. Technol.12(4): 297-301|1991|10.1080/09593339109385009
68216|A||Lewis,S., S. May, M.E. Donkin, and M.H. Depledge|The Influence of Copper and Heatshock on the Physiology and Cellular Stress Response of Enteromorpha intestinalis|Mar. Environ. Res.46(1-5): 421-424|1998|10.1016/S0141-1136(97)00073-1
68217|A||Guida,V.G., D.W. Engel, and W.G. Sunda|The Effect of Cupric Ion on Embryonic Development in the Purple Sea Urchin, Arbacia punctulata|In: L.L.Ciaccio and A.C.Cristini (Eds.), Water Conference, a Conference held at Ramapo College of New Jersey, May 1 and 2, 1980:202-219|1984|
68218|A||Tatara,C.P., M. Mulvey, and M.C. Newman|Genetic and Demographic Responses of Mercury-Exposed Mosquitofish (Gambusia holbrooki) Populations:  Temporal Stability and Reproductive Components of Fitness|Environ. Toxicol. Chem.21(10): 2191-2197|2002|
68219|A||Hunt,J.W., B.S. Anderson, B.M. Phillips, R.S. Tjeerdema, H.M. Puckett, M. Stephenson, D.W. Tucker, and D. Watson|Acute and Chronic Toxicity of Nickel to Marine Organisms:  Implications for Water Quality Criteria|Environ. Toxicol. Chem.21(11): 2423-2430|2002|10.1002/etc.5620211122
68220|A||Franklin,N.M., J.L. Stauber, R.P. Lim, and P. Petocz|Toxicity of Metal Mixtures to a Tropical Freshwater Alga (Chlorella sp.):  The Effect of Interactions Between Copper, Cadmium, and Zinc on Metal Cell Binding and Uptake|Environ. Toxicol. Chem.21(11): 2412-2422|2002|10.1002/etc.5620211121
68221|A||Ferrat,L., A. Bingert, M. Romeo, M. Gnassia-Barelli, and C. Pergent-Martini|Mercury Uptake and Enzymatic Response of Posidonia oceanica After an Experimental Exposure to Organic and Inorganic Forms|Environ. Toxicol. Chem.21(11): 2365-2371|2002|10.1002/etc.5620211115
68222|A||Sandahl,J.F., and J.J. Jenkins|Pacific Steelhead (Oncorhynchus mykiss) Exposed to Chlorpyrifos:  Benchmark Concentration Estimates for Acetylcholinesterase Inhibition|Environ. Toxicol. Chem.21(11): 2452-2458|2002|10.1002/etc.5620211126
68223|A||Barranguet,C., M. Plans, E. Van der Grinten, J.J. Sinke, and W. Admiraal|Development of Photosynthetic Biofilms Affected by Dissolved and Sorbed Copper in a Eutrophic River|Environ. Toxicol. Chem.21(9): 1955-1965|2002|10.1002/etc.5620210925
68224|A||Mauri,M., R. Simonini, and E. Baraldi|Demographic Responses of the Polychaete Dinophilus gyrociliatus to Chromium Exposure|Environ. Toxicol. Chem.21(9): 1903-1907|2002|10.1002/etc.5620210918
68226|A||Hawkins,S.A., S.M. Billiard, S.P. Tabash, R.S. Brown, and P.V. Hodson|Altering Cytochrome P4501A Activity Affects Polycyclic Aromatic Hydrocarbon Metabolism and Toxicity in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.21(9): 1845-1853|2002|10.1002/etc.5620210912
68227|A||Richards,S.M., and R.J. Kendall|Biochemical Effects of Chlorpyrifos on Two Developmental Stages of Xenopus laevis|Environ. Toxicol. Chem.21(9): 1826-1835|2002|10.1002/etc.5620210910
68228|A||Geracitano,L., J.M. Monserrat, and A. Bianchini|Physiological and Antioxidant Enzyme Responses to Acute and Chronic Exposure of Laeonereis acuta (Polychaeta, Nereididae) to Copper|J. Exp. Mar. Biol. Ecol.277:145-156|2002|10.1016/S0022-0981(02)00306-4
68229|A||Bielmyer,G.K., R.A. Bell, and S.J. Klaine|Effects of Ligand-Bound Silver on Ceriodaphnia dubia|Environ. Toxicol. Chem.21(10): 2204-2208|2002|
68230|A||Kamunde,C., and C.M. Wood|The Influence of Ration Size on Copper Homeostasis During Sublethal Dietary Copper Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.62(3): 235-254|2003|10.1016/S0166-445X(02)00101-7
68231|AT||Papadimitriou,E., and N.S. Loumbourdis|Exposure of the Frog Rana ridibunda to Copper:  Impact on Two Biomarkers, Lipid Peroxidation, and Glutathione|Bull. Environ. Contam. Toxicol.69(6): 885-891|2002|10.1007/s00128-002-0142-2
68232|A||Lee,L.H., B.K. Lustigman, and S.R. Murray|Combined Effect of Mercuric Chloride and Selenium Dioxide on the Growth of the Cyanobacteria, Anacystis nidulans|Bull. Environ. Contam. Toxicol.69(6): 900-907|2002|10.1007/s00128-002-0144-0
68233|A||Rodriguez-Ariza,A., M.J. Rodriguez-Ortega, J.L. Marenco, O. Amezcua, J. Alhama, and J. Lopez-Barea|Uptake and Clearance of PCB Congeners in Chamaelea gallina:  Response of Oxidative Stress Biomarkers|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(1): 57-67|2003|10.1016/S1532-0456(02)00207-7
68234|A||Pacheco,M., and M.A. Santos|Biotransformation, Genotoxic, and Histopathological Effects of Environmental Contaminants in European Eel (Anguilla anguilla L.)|Ecotoxicol. Environ. Saf.53(3): 331-347|2002|10.1016/S0147-6513(02)00017-9
68235|A||Frankart,C., P. Eullaffroy, and G. Vernet|Photosynthetic Responses of Lemna minor Exposed to Xenobiotics, Copper, and Their Combinations|Ecotoxicol. Environ. Saf.53(3): 439-445|2002|10.1016/S0147-6513(02)00003-9
68236|A||Desouky,M.M., J.J. Powell, R. Jugdaohsingh, K.N. White, and C.R. McCrohan|Influence of Oligomeric Silicic and Humic Acids on Aluminum Accumulation in a Freshwater Grazing Invertebrate|Ecotoxicol. Environ. Saf.53(3): 382-387|2002|10.1016/S0147-6513(02)00015-5
68237|A||Brix,K.V., R.D. Cardwell, and W.J. Adams|Chronic Toxicity of Arsenic to the Great Salt Lake Brine Shrimp, Artemia franciscana|Ecotoxicol. Environ. Saf.54(2): 169-175|2003|10.1016/S0147-6513(02)00054-4
68238|A||Blasius,B.J., and R.W. Merritt|Field and Laboratory Investigations on the Effects of Road Salt (NaCl) on Stream Macroinvertebrate Communities|Environ. Pollut.120(2): 219-231|2002|10.1016/S0269-7491(02)00142-2
68239|A||Robinson,K.A., D.J. Baird, and F.J. Wrona|Surface Metal Adsorption on Zooplankton Carapaces:  Implications for Exposure and Effects in Consumer Organisms|Environ. Pollut.122(2): 159-167|2003|10.1016/S0269-7491(02)00302-0
68240|A||Blechinger,S.R., J.T.,Jr. Warren, J.Y. Kuwada, and P.H. Krone|Developmental Toxicology of Cadmium in Living Embryos of a Stable Transgenic Zebrafish Line|Environ. Health Perspect.110(10): 1041-1046|2002|10.1289/ehp.021101041
68241|A||Wilcoxen,S.E., P.G. Meier, and P.F. Landrum|The Toxicity of Fluoranthene to Hyalella azteca in Sediment and Water-Only Exposures Under Varying Light Spectra|Ecotoxicol. Environ. Saf.54(1): 105-117|2003|10.1016/S0147-6513(02)00028-3
68242|A||Farah,M.A., B. Ateeq, M.N. Ali, and W. Ahmad|Evaluation of Genotoxicity of PCP and 2,4-D by Micronucleus Test in Freshwater Fish Channa punctatus|Ecotoxicol. Environ. Saf.54(1): 25-29|2003|10.1016/S0147-6513(02)00037-4
68243|A||Ahmad,I., M. Pacheco, and M.A. Santos|Naphthalene-Induced Differential Tissue Damage Association with Circulating Fish Phagocyte Induction|Ecotoxicol. Environ. Saf.54(1): 7-15|2003|10.1016/S0147-6513(02)00036-2
68244|A||Dirilgen,N., and F. Dogan|Speciation of Chromium in the Presence of Copper and Zinc and Their Combined Toxicity|Ecotoxicol. Environ. Saf.53(3): 397-403|2002|10.1016/S0147-6513(02)00033-7
68245|A||Vardhanan,Y.S., and T. Radhakrishnan|Acute Toxicity Evaluation of Copper, Arsenic and HCH to Paddy Field Crab, Paratelphusa hydrodromus (Herb.)|J. Environ. Biol.23(4): 387-392|2002|
68246|A||Gupta,N., and A. Dua|Mercury Induced Architectural Alterations in the Gill Surface of a Fresh Water Fish, Channa punctatus|J. Environ. Biol.23(4): 383-386|2002|
68247|A||Rajagopal,S., V.P. Venugopalan, G. Van der Velde, and H.A. Jenner|Tolerance of Five Species of Tropical Marine Mussels to Continuous Chlorination|Mar. Environ. Res.55(4): 277-291|2003|10.1016/S0141-1136(02)00272-6
68248|A||Tilak,K.S., K. Veeraiah, and S.J. Lakshmi|Studies of Some Biochemical Changes in the Tissues of Catla catla (Hamilton), Labeo rohita (Hamilton) and Cirrhinus mrigala (Hamilton) Exposed to NH3-N, NO2-N and NO3-N|J. Environ. Biol.23(4): 377-381|2002|
68249|A||Desai,H.S., B. Nanda, and J. Panigrahi|Toxicological Effects on Some Biochemical Parameters of Fresh Water Fish Channa punctatus (Bloch.) Under the Stress of Nickel|J. Environ. Biol.23(3): 275-277|2002|
68250|A||Ramaneswari,K., and L.M. Rao|Feed Utilisation and Growth in Juveniles of Labeo rohita Under the Stress of Endosulfan|J. Environ. Biol.23(3): 259-263|2002|
68251|A||Ribeiro,C.A.O., L. Belger, E. Pelletier, and C. Rouleau|Histopathological Evidence of Inorganic Mercury and Methyl Mercury Toxicity in the Arctic Charr (Salvelinus alpinus)|Environ. Res.90(3): 217-225|2002|10.1016/S0013-9351(02)00025-7
68252|A||Roex,E.W.M., E. De Vries, and C.A.M. Van Gestel|Sensitivity of the Zebrafish (Danio rerio) Early Life Stage Test for Compounds with Different Modes of Action|Environ. Pollut.120(2): 355-362|2002|10.1016/S0269-7491(02)00118-5
68253|A||Sanderson,H., T.M. Boudreau, S.A. Mabury, and K.R. Solomon|Impact of Perfluorooctanoic Acid on the Structure of the Zooplankton Community in Indoor Microcosms|Aquat. Toxicol.62(3): 227-234|2003|10.1016/S0166-445X(02)00100-5
68254|A||Gonzalez-Doncel,M., E. De la Pena, C. Barrueco, and D.E. Hinton|Stage Sensitivity of Medaka (Oryzias latipes) Eggs and Embryos to Permethrin|Aquat. Toxicol.62(3): 255-268|2003|10.1016/S0166-445X(02)00090-5
68255|A||Palanivelu,V., K. Vijayavel, S.E. Balasubramanian, and M.P. Balasubramanian|Influence of Pesticide-Fertilizer Combination on Food Intake, Growth, and Conversion Efficiencies of Oreochromis mossambicus|Bull. Environ. Contam. Toxicol.69(6): 908-913|2002|10.1007/s00128-002-0145-z
68256|A||Fanta,E., F.S.A. Rios, S. Romao, A.C.C. Vianna, and S. Freiberger|Histopathology of the Fish Corydoras paleatus Contaminated with Sublethal Levels of Organophosphorus in Water and Food|Ecotoxicol. Environ. Saf.54(2): 119-130|2003|10.1016/S0147-6513(02)00044-1
68257|A||Das,B.K., and S.C. Mukherjee|Toxicity of Cypermethrin in Labeo rohita Fingerlings:  Biochemical, Enzymatic and Haematological Consequences|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(1): 109-121|2003|10.1016/S1532-0456(02)00219-3
68258|A||Baer,K.N., R.L. Boeri, T.J. Ward, and D.W. Dixon|Aquatic Toxicity Evaluation of para-Methylstyrene|Ecotoxicol. Environ. Saf.53(3): 432-438|2002|10.1016/S0147-6513(02)00035-0
68259|A||Crane,M., W. Sildanchandra, R. Kheir, and A. Callaghan|Relationship Between Biomarker Activity and Developmental Endpoints in Chironomus riparius Meigen Exposed to an Organophosphate Insecticide|Ecotoxicol. Environ. Saf.53(3): 361-369|2002|10.1016/S0147-6513(02)00038-6
68260|A||Nalecz-Jawecki,G., E. Grabinska-Sota, and P. Narkiewicz|The Toxicity of Cationic Surfactants in Four Bioassays|Ecotoxicol. Environ. Saf.54(1): 87-91|2003|10.1016/S0147-6513(02)00025-8
68261|A||Carvalho,F.D., I. Machado, M.S. Martinez, A. Soares, and L. Guilhermino|Use of Atropine-Treated Daphnia magna Survival for Detection of Environmental Contamination by Acetylcholinesterase Inhibitors|Ecotoxicol. Environ. Saf.53(1): 43-46|2003|10.1016/S0147-6513(02)00018-0
68262|A||Fisher,T., M. Crane, and A. Callaghan|Induction of Cytochrome P-450 Activity in Individual Chironomus riparius Meigen Larvae Exposed to Xenobiotics|Ecotoxicol. Environ. Saf.54(1): 1-6|2003|10.1016/S0147-6513(02)00031-3
68263|A||Hymel,M.K., D.M. Baltz, E.J. Chesney, M.A. Tarr, and A.S. Kolok|Swimming Performance of Juvenile Florida Pompano Exposed to Ethylene Glycol|Trans. Am. Fish. Soc.131(6): 1152-1163|2002|10.1577/1548-8659(2002)131<1152:SPOJFP>2.0.CO;2
68264|A||Loteste,A., J. Cazenave, and M.J. Parma de Croux|Recovery of Plasmatic Cholinesterase Activity in a Neotropical Fish Prochilodus lineatus (Pisces, Curimatidae) Exposed to Organophosphorous Pesticides|J. Environ. Biol.23(3): 225-229|2002|
68265|A||Kuhne,W.W., C.A. Caldwell, W.R. Gould, P.R. Fresquez, and S. Finger|Effects of Depleted Uranium on the Health and Survival of Ceriodaphnia dubia and Hyalella azteca|Environ. Toxicol. Chem.21(10): 2198-2203|2002|10.1002/etc.5620211025
68266|A||Tsai,S.J., and J.C. Chen|Acute Toxicity of Nitrate on Penaeus monodon Juveniles at Different Salinity Levels|Aquaculture213:163-170|2002|10.1016/S0044-8486(02)00023-6
68267|A||Pillard,D.A., D.L. DuFresne, and M.C. Mickley|Development and Validation of Models Predicting the Toxicity of Major Seawater Ions to the Mysid Shrimp, Americamysis bahia|Environ. Toxicol. Chem.21(10): 2131-2137|2002|10.1002/etc.5620211016
68268|A||Schulz,R., G. Thiere, and J.M. Dabrowski|A Combined Microcosm and Field Approach to Evaluate the Aquatic Toxicity of Azinphosmethyl to Stream Communities|Environ. Toxicol. Chem.21(10): 2172-2178|2002|10.1002/etc.5620211021
68269|A||Tuan,N.A., J.M. Grizzle, R.T. Lovell, B.B. Manning, and G.E. Rottinghaus|Growth and Hepatic Lesions of Nile Tilapia (Oreochromis niloticus) fed Diets Containing Aflatoxin B1|Aquaculture212(1-4): 311-319|2002|10.1016/S0044-8486(02)00021-2
68270|A||Vielma,J., J. Koskela, and K. Ruohonen|Growth, Bone Mineralization, and Heat and Low Oxygen Tolerance in European Whitefish (Coregonus lavaretus L.) fed with Graded Levels of Phosphorus|Aquaculture212:321-333|2002|10.1016/S0044-8486(02)00039-X
68271|A||Vandenbergh,G.F., D. Adriaens, T. Verslycke, and C.R. Janssen|Effects of 17alpha-Ethinylestradiol on Sexual Development of the Amphipod Hyalella azteca|Ecotoxicol. Environ. Saf.54(2): 216-222|2003|10.1016/S0147-6513(02)00030-1
68272|A||Kinnberg,K., B. Korsgaard, and P. Bjerregaard|Effects of Octylphenol and 17beta-Estradiol on the Gonads of Guppies (Poecilia reticulata) Exposed as Adults via the Water or as Embryos via the Mother|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(1): 45-55|2003|10.1016/S1532-0456(02)00206-5
68273|A||Watts,M.M., D. Pascoe, and K. Carroll|Exposure to 17alpha-Ethinylestradiol and Bisphenol A - Effects on Larval Moulting and Mouthpart Structure of Chironomus riparius|Ecotoxicol. Environ. Saf.54(2): 207-215|2003|10.1016/S0147-6513(02)00029-5
68274|A||Kinnberg,K., and G. Toft|Effects of Estrogenic and Antiandrogenic Compounds on the Testis Structure of the Adult Guppy (Poecilia reticulata)|Ecotoxicol. Environ. Saf.54(1): 16-24|2003|10.1016/S0147-6513(02)00010-6
68275|A||Pickford,D.B., and I.D. Morris|Inhibition of Gonadotropin-Induced Oviposition and Ovarian Steroidogenesis in the African Clawed Frog (Xenopus laevis) by the Pesticide Methoxychlor|Aquat. Toxicol.62(3): 179-194|2003|10.1016/S0166-445X(02)00082-6
68276|A||Galvez,J.I., J.R. Morrison, and R.P. Phelps|Efficacy of Trenbolone Acetate in Sex Inversion of the Blue Tilapia Oreochromis aureus|J. World Aquac. Soc.27(4): 483-486|1996|10.1111/j.1749-7345.1996.tb00633.x
68277|A||Dimitriou,P., J. Castritsi-Catharios, and H. Miliou|Acute Toxicity Effects of Tributyltin Chloride and Triphenyltin Chloride on Gilthead Seabream, Sparus aurata L., Embryos|Ecotoxicol. Environ. Saf.54(1): 30-35|2003|10.1016/S0147-6513(02)00008-8
68278|A||Crump,D., K. Werry, N. Veldhoen, G. Van Aggelen, and C.C. Helbing|Exposure to the Herbicide Acetochlor Alters Thyroid Hormone-Dependent Gene Expression and Metamorphosis in Xenopus laevis|Environ. Health Perspect.110(12): 1199-1206|2002|10.1289/ehp.021101199
68279|T||Hoss,S., I. Juttner, W. Traunspurger, G. Pfister, K.W. Schramm, and C.E.W. Steinberg|Enhanced Growth and Reproduction of Caenorhabditis elegans (Nematoda) in the Presence of 4-Nonylphenol|Environ. Pollut.120(2): 169-172|2002|10.1016/S0269-7491(02)00161-6
68280|A||Barnekow,D.E., N.D. Premkumar, S. Stewart, and A.W. Hamburg|Uniformly 14C-Ring-Labeled 2,4-Dichlorophenoxyacetic Acid:  A Metabolism Study in Bluegill Sunfish, Lepomis macrochirus|J. Agric. Food Chem.49(6): 2853-2859|2001|10.1021/jf001294a
68281|A||Gao,J., A.W. Garrison, C. Hoehamer, C.S. Mazur, and N.L. Wolfe|Uptake and Phytotransformation of Organophosphorus Pesticides by Axenically Cultivated Aquatic Plants|J. Agric. Food Chem.48(12): 6114-6120|2000|10.1021/jf9904968
68283|A||Blaise,C., S. Trottier, F. Gagne, C. Lallement, and P.D. Hansen|Immunocompetence of Bivalve Hemocytes as Evaluated by a Miniaturized Phagocytosis Assay|Environ. Toxicol.17(3): 160-169|2002|10.1002/tox.10047
68284|AT||Fisher,P.J., M.W. Marriott, J.I. Mitchell, and H.M. Lappin-Scott|Some Physiological Effects of the Herbicides (+-)-MCPP and 2,4-D on Four Aquatic Hyphomycetes and One Terrestrial Fungus|Bot. J. Scotl.52(2): 213-225|2000|10.1080/13594860009441755
68286|AT||Nelson,L.S., A.B. Stewart, and K.D. Getsinger|Fluridone Effects on Fanwort and Water Marigold|J. Aquat. Plant Manag.40(2): 58-63|2002|
68287|A||Baer,K.N., K. Olivier, and C.N. Pope|Influence of Temperature and Dissolved Oxygen on the Acute Toxicity of Profenofos to Fathead Minnows (Pimephales promelas)|Drug Chem. Toxicol.25(3): 231-245|2002|10.1081/DCT-120005886
68288|A||Poovey,A.G., J.G. Skogerboe, and C.S. Owens|Spring Treatments of Diquat and Endothall for Curlyleaf Pondweed Control|J. Aquat. Plant Manag.40(2): 63-67|2002|
68289|A||Singh,K., and D.K. Singh|Toxicity to the Snail Limnaea acuminata of Plant-Derived Molluscicides in Combination with Synergists|Pest Manag. Sci.56(10): 889-898|2000|10.1002/1526-4998(200010)56:10<889::AID-PS221>3.0.CO;2-0
68290|A||Tolls,J., R. Samperi, and A. Di Corcia|Bioaccumulation of LAS in Feral Fish Studied by a Novel LC-MS/MS Method|Environ. Sci. Technol.37(2): 314-320|2003|10.1021/es020082m
68291|A||Jyothi,B., and G. Narayan|Pesticide Induced Alterations of Non-Protein Nitrogenous Constituents in the Serum of a Fresh Water Cat Fish, Clarias batrachus (Linn.)|Indian J. Exp. Biol.38(10): 1058-1061|2000|
68293|A||Stone,J., W.J. Roy, I.H. Sutherland, H.W. Ferguson, C. Sommerville, and R. Endris|Safety and Efficacy of Emamectin Benzoate Administered In-Feed to Atlantic Salmon, Salmo salar L., Smolts in Freshwater, as a Preventative Treatment Against Infestations of Sea Lice, Lepeophtheirus salmonis (Kroyer)|Aquaculture210(1-4): 21-34|2002|10.1016/S0044-8486(01)00822-5
68294|A||Kiryu,Y., and C.M. Moffitt|Models of Comparative Acute Toxicity of Injectable Erythromycin in Four Salmonid Species|Aquaculture211(1-4): 29-41|2002|10.1016/S0044-8486(01)00889-4
68295|A||Fernandez-Vega,C., E. Sancho, M.D. Ferrando, and E. Andreu|Thiobencarb-Induced Changes in Acetylcholinesterase Activity of the Fish Anguilla anguilla|Pestic. Biochem. Physiol.72(1): 55-63|2002|10.1006/pest.2001.2581
68301|T||Watmough,S.A., and T.C. Hutchinson|Relationship Between Soil Metal Contamination and Metal Resistance of Callus Established from Mature Red Maple|Can. J. For. Res.28(7): 1073-1077|1998|10.1139/x98-116
68304|A||Woodling,J., S. Brinkman, and S. Albeke|Acute and Chronic Toxicity of Zinc to the Mottled Sculpin Cottus bairdi|Environ. Toxicol. Chem.21(9): 1922-1926|2002|10.1002/etc.5620210920
68306|A||Lazar,D.A.|The Influence of the Isoproturon Herbicide on Some Physiological Processes in Chlorella vulgaris Beijerinck|Rom. Agric. Res.(9-10): 63-66|1998|
68307|A||Piontek,M.|Application of Dugesia tigrina Girard in Toxicological Studies of Aquatic Environments|Pol. Arch. Hydrobiol.45(4): 565-572|1998|
68308|A||His,E., R. Beiras, F. Quiniou, A.C.S. Parr, M.J. Smith, M.J. Cowling, and T. Hodgkiess|The Non-Toxic Effects of a Novel Antifouling Material on Oyster Culture|Water Res.30(11): 2822-2825|1996|10.1016/S0043-1354(96)00167-4
68309|A||Lu,Y., and Z. Wang|Bioconcentration of Trace Organochlorine Pesticides by the Rainbow Trout|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(4): 529-539|2002|
68310|A||Talikina,M.G., Y.G. Izyumov, and Y.V. Chebotareva|The Response of a Developing Young Roach Rutilus rutilus Fry and Cytogenetic Anomalies in Embryonic, Germ, and Somatic Cells after Treatment of Mature Spermatozoa with Toxicants|J. Ichthyol.41(9): 796-802|2001|
68311|A||Hinchhalal,D.|Long Term Effects of Poly Aromatic Hydrocarbon (Naphthalene) on Cat Fish Heteropneustes fossilis|J. Ecobiol.12(1): 37-43|2000|
68312|A||Li,X., Y. Liu, F. Deng, C. Wang, and S. Qu|Microcalorimetric Study of the Toxic Effect of Sodium Selenite on the Mitochondria Metabolism of Carassius auratus Liver|Biol. Trace Elem. Res.77(3): 261-271|2000|10.1385/BTER:77:3:261
68313|A||Lee,H.S., and B. Volesky|Interference of Aluminum in Copper Biosorption by an Algal Biosorbent|Water Qual. Res. J. Can.34(3): 519-533|1999|10.2166/wqrj.1999.025
68314|A||Elfwing,T., P. Plantman, M. Tedengren, and E. Wijnbladh|Responses to Temperature, Heavy Metal and Sediment Stress by the Giant Clam Tridacna squamosa|Mar. Freshw. Behav. Physiol.34:239-248|2001|10.1080/10236240109379077
68315|A||Piontek,M.|Use of a Planarian Dugesia tigrinia Girard in the Studies of Acute Toxicity of Organic Substances|Pol. Arch. Hydrobiol.46(3-4): 331-338|1999|
68316|A||Fodorpataki,L., A.L. Marton, and T.L. Csorba|Stress-Physiological Investigation of Algal Cell Cultures in Polluted Media|Contributii Bot.36:101-108|2001|
68317|A||Gao,J., A.W. Garrison, C. Hoehamer, C.S. Mazur, and N.L. Wolfe|Uptake and Phytotransformation of o,p'-DDT and p,p'-DDT by Axenically Cultivated Aquatic Plants|J. Agric. Food Chem.48(12): 6121-6127|2000|10.1021/jf990956x
68318|AT||Arkhipchuk,V.V., and N.N. Garanko|A Novel Nucleolar Biomarker in Plant and Animal Cells for Assessment of Substance Cytotoxicity|Environ. Toxicol.17(3): 187-194|2002|
68319|A||Gustavson,K., S. Petersen, B. Pedersen, F. Stuer-Lauridsen, S. Pedersen, and S.A. Wangberg|Pollution-Induced Community Tolerance (PICT) in Coastal Phytoplankton Communities Exposure to Copper|Hydrobiologia (Multiple Languages)416:125-138|1999|10.1023/A:1003811419842
68320|A||Lee,C.L., T.C. Wang, C.K. Lin, and H.K. Mok|Heavy Metals Removal by a Promising Locally Available Aquatic Plant, Najas graminea Del., in Taiwan|Water Sci. Technol.39(10-11): 177-181|1999|10.2166/wst.1999.0651
68321|A||Gutleb,A.C., J. Appelman, M.C. Bronkhorst, J.H.J. Van den Berg, A. Spenkelink, A. Brouwer, and A.J. Murk|Delayed Effects of Pre- and Early-Life Time Exposure to Polychlorinated Biphenyls on Tadpoles of Two Amphibian Species (Xenopus laevis and Rana temporaria)|Environ. Toxicol. Pharmacol.8(1): 1-14|1999|10.1016/S1382-6689(99)00023-X
68322|A||Marc,J., C. Maguer, R. Belle, and O. Mulner-Lorillon|Sharp Dose- and Time-Dependent Toxicity of Mercuric Chloride at the Cellular Level in Sea Urchin Embryos|Arch. Toxicol.76(7): 388-391|2002|10.1007/s00204-002-0368-0
68323|A||Buchwalter,D.B., J.J. Jenkins, and L.R. Curtis|Respiratory Strategy is a Major Determinant of [3H]Water and [14C]Chlorpyrifos Uptake in Aquatic Insects|Can. J. Fish. Aquat. Sci.59(8): 1315-1322|2002|10.1139/f02-107
68324|A||Leung,K.M.Y., J. Svavarsson, M. Crane, and D. Morritt|Influence of Static and Fluctuating Salinity on Cadmium Uptake and Metallothionein Expression by the Dogwhelk Nucella lapillus (L.)|J. Exp. Mar. Biol. Ecol.274(2): 175-189|2002|10.1016/S0022-0981(02)00209-5
68326|A||Kiesecker,J.M.|Synergism Between Trematode Infection and Pesticide Exposure: A Link to Amphibian Limb Deformities in Nature?|Proc. Natl. Acad. Sci. U.S.A.99(15): 9900-9904|2002|10.1073/pnas.152098899
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68328|A||Petrauskiene,L.|Changes of Agonistic Behaviour in Rainbow Trout Oncorhynchus mykiss Exposed to Copper|Ekologija4:3-7|1995|
68329|A||Cheng,T.C.|In Vivo Effects of Heavy Metals on Cellular Defense Mechanisms of Crassostrea virginica:  Total and Differential Cell Counts|J. Invertebr. Pathol.51(3): 207-214|1988|10.1016/0022-2011(88)90027-4
68330|A||Dawson,M.A.|Blood Chemistry of the Windowpane Flounder Scophthalmus aquosus in Long Island Sound:  Geographical, Seasonal, and Experimental Variations|Fish. Bull.88(3): 429-437|1990|
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68335|A||Crespo,S., C. Sampera, and J. Balasch|Trace Metal and Electrolyte Levels in Organs of the Dogfish Scyliorhinus canicula L. Following Zinc Treatment|Rev. Esp. Fisiol.38(1): 111-112|1982|
68336|T||Cox,R.M.|The Sensitivity of Pollen from Various Coniferous and Broad-Leaved Trees to Combinations of Acidity and Trace Metals|New Phytol.109(2): 193-201|1988|10.1111/j.1469-8137.1988.tb03708.x
68337|A||Mallick,N., and L.C. Rai|Metal Induced Inhibition of Photosynthesis, Photosynthetic Electron Transport Chain and ATP Content of Anabaena doliolum and Chlorella vulgaris:  Interaction with Exogenous ATP|Biomed. Environ. Sci.5(3): 241-250|1992|
68338|A||Bassi,R., and S.S. Sharma|Changes in Proline Content Accompanying the Uptake of Zinc and Copper by Lemna minor|Ann. Bot.72(2): 151-154|1993|10.1006/anbo.1993.1093
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68346|A||Carbonell,G., M. Cebrian, and J.V. Tarazona|Copper Concentrations and Calcium, Iron, and Zinc-Copper Ratios in Rainbow Trout, Oncorhynchus mykiss, Tissues After an Intraperitoneally Lethal Dose of Copper Sulfate|Investig. Agrar. Prod. Sanid. Anim.7(2): 135-144|1992|
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68350|A||Kozarac,Z., M. Plavsic, B. Cosovic, and D. Vilicic|Interaction of Cadmium and Copper with Surface-Active Organic Matter and Complexing Ligands Released by Marine Phytoplankton|Mar. Chem.26(4): 313-330|1989|10.1016/0304-4203(89)90037-6
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68357|A||Devi,V.U.|Bio-Accumulation and Metabolic Effects of Zinc on Marine Fouling Dreissinid Bivalve, Mytilopsis sallei (Recluz)|Water Air Soil Pollut.81(3/4): 295-304|1995|10.1007/BF01104016
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68366|A||Gensemer,R.W.|The Effects of pH and Aluminum on the Growth of the Acidophilic Diatom Asterionella ralfsii var. americana|Limnol. Oceanogr.36(1): 123-131|1991|10.4319/lo.1991.36.1.0123
68367|A||Nelson,S.M., and S.G. Campbell|Integrated Assessment of Metals Contamination in a Lotic System Using Water Chemistry, Transplanted Bryophytes, and Macroinvertebrates|J. Freshw. Ecol.10(4): 409-420|1995|10.1080/02705060.1995.9663464
68368|A||Xue,H.B., and L. Sigg|Binding of Cu(II) to Algae in a Metal Buffer|Water Res.24(9): 1129-1136|1990|10.1016/0043-1354(90)90176-7
68369|A||Nor,Y.M.|Phenol Removal by Eichhornia crassipes in the Presence of Trace Metals|Water Res.28(5): 1161-1166|1994|10.1016/0043-1354(94)90203-8
68370|A||Hummel,H., C. Amiard-Triquet, G. Bachelet, M. Desprez, J. Marchand, B. Sylvand, J.C. Amiard, H. Rybarczyk, R.H. Bogaard|Free Amino Acids as a Biochemical Indicator of Stress in the Estuarine Bivalve Macoma balthica|Sci. Total Environ.188(2-3): 233-241|1996|10.1016/0048-9697(96)05177-7
68371|A||Baker,R.T.M., R.D. Handy, S.J. Davies, and J.C. Snook|Chronic Dietary Exposure to Copper Affects Growth, Tissue Lipid Peroxidation, and Metal Composition of the Grey Mullet, Chelon labrosus|Mar. Environ. Res.45(4-5): 357-365|1998|10.1016/S0141-1136(98)00098-1
68389|T||Davis,K.B.,Jr.|The Effects of Lethal and Sublethal Doses of DDT on the Learning Ability, Group Behavior, and Liver Glycogen Storage in the Bobwhite, Colinus virginianus (Linnaeus)|M.S. Thesis, University of Arkansas, Fayetteville, AR:|1963|
68390|T||Stickel,L.F., and W.H. Stickel|Distribution of DDT Residues in Tissues of Birds in Relation to Mortality, Body Condition, and Time|In: W.B.Deichmann (Ed.), Pesticides Symposia, Halos and Assoc., Miami, FL:57-65|1970|
68392|T||Hoffman,D.J., M.J. Melancon, P.N. Klein, C.P. Rice, J.D. Eisemann, R.K. Hines, J.W. Spann, and G.W. Pendleton|Developmental Toxicity of PCB 126 (3,3',4,4',5-Pentachlorobiphenyl) in Nestling American Kestrels (Falco sparverius)|Fundam. Appl. Toxicol.34(2): 188-200|1996|10.1006/faat.1996.0189
68394|T||De Vos,S., J. Maervoet, P. Schepens, and R. De Schrijver|Polychlorinated Biphenyls in Broiler Diets:  Their Digestibility and Incorporation in Body Tissues|Chemosphere51(1): 7-11|2003|10.1016/S0045-6535(02)00788-9
68408|T||Umoru,P.A., and W. Powell|Sub-lethal Effects of the Insecticides Pirimicarb and Dimethoate on the Aphid Parasitoid Diaeretiella rapae (Hymenoptera:  Braconidae) when Attacking and Developing in Insecticide-Resistant Hosts|Biocontrol Sci. Technol.12(5): 605-614|2002|10.1080/0958315021000016261
68409|T||Saayman-Du Toit,A.E.J.|Phytotoxicity Resulting from a Combination of a Pre-Emergence Herbicide and a Pesticide Seed Dressing in Maize (Zea mays L.)|S. Afr. J. Plant Soil19(3): 156-158|2002|10.1080/02571862.2002.10634456
68410|T||Loureiro,S., J.P. Sousa, A.J.A. Nogueira, and A.M.V.M. Soares|Assimilation Efficiency and Toxicokinetics of 14C-Lindane in the Terrestrial Isopod Porcellionides pruinosus:  The Role of Isopods in Degradation of Persistent Soil Pollutants|Ecotoxicology11(6): 481-490|2002|10.1023/A:1021013519330
68411|T||Claver,M.A., B. Ravichandran, M.M. Khan, and D.P. Ambrose|Impact of Cypermethrin on the Functional Response, Predatory and Mating Behaviour of a Non-target Potential Biological Control Agent Acanthaspis pedestris (Stal) (Het., Reduviidae)|J. Appl. Entomol.127(1): 18-22|2003|10.1046/j.1439-0418.2003.00654.x
68412|T||Wang,F., and F. Sehnal|Effects of the Imidazole Derivative KK-42 on the Females and Embryos of Schistocerca gregaria|Entomol. Sci.4(4): 387-392|2001|
68413|T||Del Rio,M., R. Font, D. Velez, C. Almela, R. Montoro, and A. De Haro|Uptake and Distribution of Arsenic in Amaranthus blitoides Growing on Contaminated Soils|Fresenius Environ. Bull.11(9): 589-593|2002|
68414|T||Pekar,S.|Susceptibility of the Spider Theridion impressum to 17 Pesticides|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)75(2): 51-55|2002|10.1046/j.1439-0280.2002.02016.x
68417|T||Liu,B., and C. Sengonca|Investigations on Side-Effects of the Mixed Biocide GCSC-BtA on Different Predators of Plutella xylostella (L.) (Lep., Plutellidae) in Southeastern China|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)75(3): 57-61|2002|10.1034/j.1399-5448.2002.02015.x
68418|T||Elzen,G.W.|Evaluation of Beet Armyworm (Lepidoptera:  Noctuidae) Tolerance to Insecticides and Response to IGR's|Southwest. Entomol.21(2): 127-133|1996|
68419|T||Hardee,D.D., P.J. O'Brien, G.W. Elzen, and G.L. Snodgrass|Emergence and Survival of the Parasitoid Lysiphlebus testaceipes from Aphis gossypii Exposed to Aphicides|Southwest. Entomol.15(2): 211-216|1990|
68420|T||Rust,M.K., and J.L. Smith|Toxicity and Repellency of Components in Formulated Termiticides Against Western Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.86(4): 1131-1135|1993|10.1093/jee/86.4.1131
68421|T||Sekita,N.|Toxicity of Pesticides Commonly Used in Japanese Apple Orchards to the Predatory Mite Typhlodromus pyri Scheuten (Acari: Phytoseiidae) from New Zealand|Appl. Entomol. Zool.21(1): 173-175|1986|10.1303/aez.21.173
68422|T||Ahrens,W.H.|Enhancement of Soybean (Glycine max) Injury and Weed Control by Thifensulfuron-Insecticide Mixtures|Weed Technol.4(3): 524-528|1990|10.1017/S0890037X00025902
68424|T||Jensen,J., P.H. Krogh, and L.E. Sverdrup|Effects of the Antibacterial Agents Tiamulin, Olanquindox and Metronidazole and the Anthelmintic Ivermectin on the Soil Invertebrate Species Folsomia fimetaria (Collembola) and Enchytraeus crypticus (Enchytraeidae)|Chemosphere50(3): 437-443|2003|10.1016/S0045-6535(02)00336-3
68427|T||Karthikeyan,P.K., and R. Jayakumar|Residues of Chlormequat Chloride in Cotton Lint, Cotton Seed and Cotton Seed Oil|Pestic. Res. J.12(2): 251-253|2000|
68429|T||Zhu,C.C., G. Yamada, and M. Blum|Retinoic Acid Teratogenicity:  The Role of Goosecoid and BMP-4|Cell. Mol. Biol.45(5): 617-629|1999|
68430|T||Vohr,H.W., J. Pauluhn, and H.J. Ahr|Respiratory Hypersensitivity to Trimellitic Anhydride in Brown Norway Rats:  Evidence for Different Activation Pattern of Immune Cells Following Topical and Respiratory Induction|Arch. Toxicol.76(9): 538-544|2002|10.1007/s00204-002-0374-2
68431|T||Chung,M.K., J.C. Kim, and S.S. Han|Developmental Toxicity of Flupyrazofos, a New Organophosphorus Insecticide, in Rats|Food Chem. Toxicol.40(5): 723-729|2002|10.1016/S0278-6915(01)00127-2
68442|T||Eklund,G., K. Petersson Grawe, and A. Oskarsson|Bioavailability of Cadmium from Infant Diets in Newborn Rats|Arch. Toxicol.75(9): 522-530|2001|10.1007/s00204-001-0280-z
68444|T||Fahmy,M.A., H.M. Shoman, and E.E.S. Hassan|The Protective Role of Thiola and Soybean Seeds Against the Genotoxicity Induced by Potassium Dichromate in Mice|Mutat. Res.517(1-2): 1-12|2002|10.1016/S1383-5718(02)00013-X
68446|T||Hellwig,J., C. Gembardt, and S. Jasti|Tetrahydrofuran:  Two-Generation Reproduction Toxicity in Wistar Rats by Continuous Administration in the Drinking Water|Food Chem. Toxicol.40(10): 1515-1523|2002|10.1016/S0278-6915(02)00089-3
68447|T||Lee,K.J., and H.G. Jeong|Protective Effect of Platycodi radix on Carbon Tetrachloride-Induced Hepatotoxicity|Food Chem. Toxicol.40(4): 517-525|2002|10.1016/S0278-6915(01)00104-1
68449|T||McIntyre,B.S., N.J. Barlow, and P.M.D. Foster|Male Rats Exposed to Linuron In Utero Exhibit Permanent Changes in Anogenital Distance, Nipple Retention, and Epididymal Malformations that Result in Subsequent Testicular Atrophy|Toxicol. Sci.65(1): 62-70|2002|10.1093/toxsci/65.1.62
68451|T||Mellert,W., K. Deckardt, C. Gembardt, S. Schulte, B. Van Ravenzwaay, and R.S. Slesinski|Thirteen-Week Oral Toxicity Study of Synthetic Lycopene Products in Rats|Food Chem. Toxicol.40(11): 1581-1588|2002|10.1016/S0278-6915(02)00113-8
68453|T||Muralidhara,S., R. Ramanathan, S.M. Mehta, L.H. Lash, D. Acosta, and J.V. Bruckner|Acute, Subacute, and Subchronic Oral Toxicity Studies of 1,1-Dichloroethane in Rats:  Application to Risk Evaluation|Toxicol. Sci.64(1): 135-145|2001|10.1093/toxsci/64.1.135
68455|T||Ohyama,W., M. Gonda, H. Miyajima, K. Kondo, T. Noguchi, J. Yoshida, S. Hatakeyama, E. Watabe, Y. Ueno, M. Hayashi, and |Collaborative Validation Study of the In Vivo Micronucleus Test Using Mouse Colonic Epithelial Cells|Mutat. Res.518(1): 39-45|2002|10.1016/S1383-5718(02)00061-X
68457|T||Omura,M., R. Ogata, K. Kubo, Y. Shimasaki, S. Aou, Y. Oshima, A. Tanaka, M. Hirata, Y. Makita, and N. Inoue|Two-Generation Reproductive Toxicity Study of Tributyltin Chloride in Male Rats|Toxicol. Sci.64(1): 224-232|2001|10.1093/toxsci/64.2.224
68496|A||Kosakowska,A., and L. Falkowski|The Effect of Siderophores and Copper on the Rate of Photosynthesis in Unicellular Algae|Stud. Mater. Oceanol.67:7-13|1994|
68497|A||Latala,A., and W. Surosz|The Effect of Salinity on Toxic Influence of Heavy Metals Towards Planktonic Green Algae|Biologia (Bratisl.)53(4): 547-555|1998|
68498|A||Guanzon,N.G.,Jr., H. Nakahara, and K. Nishimura|Accumulation of Copper, Zinc, Cadmium, and Their Combinations by Three Freshwater Microalgae|Fish. Sci.61(1): 149-156|1995|10.2331/fishsci.61.149
68501|A||Weeks,J.M.|Effects of Dietary Copper and Zinc Concentrations on Feeding Rates of Two Species of Talitrid Amphipods (Crustacea)|Bull. Environ. Contam. Toxicol.50(6): 883-890|1993|10.1007/BF00209954
68502|A||Novikov,M.A., A.G. Dmitriyeva, A.V. Ryazanova, and V.A. Veselovskiy|Toxicity of CuCl2 to Scenedesmus quadricauda as Indicated by Fluorescence Characteristics|Gidrobiol. Z. (Non-English)25(4): 75-79|1990|
68503|A||Ting,Y.P., F. Lawson, and I.G. Prince|Uptake of Cadmium and Zinc by the Alga Chlorella vulgaris:  II.  Multi-Ion Situation|Biotechnol. Bioeng.37(5): 445-455|1991|10.1002/bit.260370506
68504|A||Trueman,E.R., and H.B. Akberali|Responses of an Estuarine Bivalve, Scrobicularia plana (Tellinacea) to Stress|Malacologia21(1/2): 15-21|1981|
68509|A||Chavin,W., and C.A. Cukrowski|Effects of Iodine-131 on Thyroid and Pituitary of the Goldfish (Carassius auratus L.)|Radiat. Res.34:170-199|1968|10.2307/3572465
68510|A||Carragher,J.F., J.P. Sumpter, T.G. Pottinger, and A.D. Pickering|The Deleterious Effects of Cortisol Implantation on Reproductive Function in Two Species of Trout, Salmo trutta L. and Salmo gairdneri Richardson|Gen. Comp. Endocrinol.76:310-321|1989|10.1016/0016-6480(89)90163-9
68511|A||Veldhoen,N., and C.C. Helbing|Detection of Environmental Endocrine-Disruptor Effects on Gene Expression in Live Rana catesbeiana Tadpoles Using a Tail Fin Biopsy Technique|Environ. Toxicol. Chem.20(12): 2704-2708|2001|
68512|A||Dewez,D., M. Marchand, P. Eullaffroy, and R. Popovic|Evaluation of the Effects of Diuron and Its Derivatives on Lemna gibba Using a Fluorescence Toxicity Index|Environ. Toxicol.17(5): 493-501|2002|10.1002/tox.10084
68513|A||Wang,J., S. Grisle, and D. Schlenk|Effects of Salinity on Aldicarb Toxicity in Juvenile Rainbow Trout (Oncorhynchus mykiss) and Striped Bass (Morone saxatilis x chrysops)|Toxicol. Sci.64(2): 200-207|2001|10.1093/toxsci/64.2.200
68514|A||Martin,G., E. Goh, and A.W. Neff|Evaluation of the Developmental Toxicity of Crocetin on Xenopus|Food Chem. Toxicol.40(7): 959-964|2002|10.1016/S0278-6915(02)00040-6
68515|A||Wolf,M.C., and P.A. Moore|Effects of the Herbicide Metolachlor on the Perception of Chemical Stimuli by Orconectes rusticus|J. North Am. Benthol. Soc.21(3): 457-467|2002|10.2307/1468482
68516|A||Henson,K.L., G. Stauffer, and E.P. Gallagher|Induction of Glutathione S-Transferase Activity and Protein Expression in Brown Bullhead (Ameiurus nebulosus) Liver by Ethoxyquin|Toxicol. Sci.62(1): 54-60|2001|10.1093/toxsci/62.1.54
68517|A||Mercy,T.V.A., J.R. Nair, and B.M. Kurup|An Evaluation of a Six Day Cyprinid Embryo-Larval Test for Estimating Maximum Allowable Toxicant Concentration of Pesticide Under Tropical Conditions|Asian Fish. Sci.13(4): 307-315|2000|
68518|A||Afonso,L.O.B., G.K. Iwama, J. Smith, and E.M. Donaldson|Effects of the Aromatase Inhibitor Fadrozole on Reproductive Steroids and Spermiation in Male Coho Salmon (Oncorhynchus kisutch) During Sexual Maturation|Aquaculture188:175-187|2000|10.1016/S0044-8486(00)00335-5
68519|A||Mostafa,F.I.Y., and C.S. Helling|Isoproturon Degradation as Affected by the Growth of Two Algal Species at Different Concentrations and pH Values|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 709-727|2001|
68520|A||Barata,C., D.J. Baird, and A.M.V.M. Soares|Demographic Responses of a Tropical Cladoceran to Cadmium:  Effects of Food Supply and Density|Ecol. Appl.12(2): 552-564|2002|10.1890/1051-0761(2002)012[0552:DROATC]2.0.CO;2
68521|A||Inza,B., C. Rouleau, H. Tjalve, F. Ribeyre, P.G.C. Campbell, E. Pelletier, and A. Boudou|Fine-Scale Tissue Distribution of Cadmium, Inorganic Mercury, and Methylmercury in Nymphs of the Burrowing Mayfly Hexagenia rigida Studied by Whole-Body Autoradiography|Environ. Res.85(3): 265-271|2001|10.1006/enrs.2000.4228
68524|A||James,R., K. Sampath, and P. Selvamani|Effect of Ion-Exchanging Agent, Zeolite on Removal of Copper in Water and Improvement of Growth in Oreochromis mossambicus (Peters)|Asian Fish. Sci.13(4): 317-325|2000|10.33997/j.afs.2000.13.4.003
68525|A||Heimann,K., J.M. Matuszewski, and P.L. Klerks|Effects of Metals and Organic Contaminants on the Recovery of Bioluminescence in the Marine Dinoflagellate Pyrocystis lunula (Dinophyceae)|J. Phycol.38(3): 482-492|2002|10.1046/j.1529-8817.2002.t01-1-01236.x
68533|T||Rubin,E., and A. Ramaswami|The Potential for Phytoremediation of MTBE|Water Res.35(5): 1348-1353|2001|10.1016/S0043-1354(00)00555-8
68534|T||Hoppe,H.H.|Differential Effect of Diclofop-Methyl on Fatty Acid Biosynthesis in Leaves of Sensitive and Tolerant Plant Species|Pestic. Biochem. Physiol.23:297-308|1985|10.1016/0048-3575(85)90090-2
68536|A||Croot,P.L., B. Karlson, J.T. Van Elteren, and J.J. Kroon|Uptake and Efflux of 64Cu by the Marine Cyanobacterium Synechococcus (WH7803)|Limnol. Oceanogr.48(1): 179-188|2003|10.4319/lo.2003.48.1.0179
68538|A||Mal,T.K., P. Adorjan, and A.L. Corbett|Effect of Copper on Growth of an Aquatic Macrophyte, Elodea canadensis|Environ. Pollut.120(2): 307-311|2002|10.1016/S0269-7491(02)00146-X
68539|A||Simon,E.W., and G.E. Blackman|The Significance of Hydrogen-Ion Concentration in the Study of Toxicity|In: Adaptation of Bacteria to Resist Drug Action3:235-265|1949|
68543|A||Alabaster,J.S.|Estimating the Effect of Herbicides on Fish|In: Proceedings of the European Weed Research Council, Second International Symposium on Aquatic Weeds. EWRS, The Netherlands:3 p.|1967|
68545|A||Siems,D.|Prediction of the Chronic Toxicity of Arsenic to the Fathead Minnow (Pimephales promelas Rafinesque) as Determined Through Embryo-Larval Tests|U.S.EPA, Duluth, MN:22 p.|1979|
68546|T||Naishtein,S.Y., and E.V. Lisovskaya|Maximum Permissible Concentration of Hexachlorocyclopentadiene in Water Bodies (Predel'no Dopustimaya Kontsentratsiya Geksakhlortsiklopentadiena v vode Vodemov)|Gig. Sanit. (Multiple Languages)30(2): 177-181|1965|
68547|A||Hnath,J.G.|Di-n-Butyl Tin Oxide as a Vermifuge on Eubothrium crassum (Bloch, 1779) in Rainbow Trout|Prog. Fish-Cult.32:47-50|1970|10.1577/1548-8640(1970)32[47:DTOAAV]2.0.CO;2
68549|A||Scammell,M.S., G.E. Batley, and C.I. Brockbank|A Field Study of the Impact on Oysters of Tributyltin Introduction and Removal in a Pristine Lake|Arch. Environ. Contam. Toxicol.20(2): 276-281|1991|10.1007/BF01055916
68550|A||Scadding,S.R.|Effects of Tributyltin Oxide on the Skeletal Structures of Developing and Regenerating Limbs of the Axolotl Larvae, Ambystoma mexicanum|Bull. Environ. Contam. Toxicol.45(4): 574-581|1990|10.1007/BF01700631
68553|T||Kavadia,V.S., R.C. Srivastava, and H.C.L. Gupta|Laboratory Evaluation of Insecticides Against Psalis pennatula F. (Lymantriidae:  Lepidoptera)|Indian J. Entomol.32(3): 285-288|1970|
68557|AT||Qadri,S.S.H., H. Sultana, and F. Anjum|Selective Toxicity of Organophophorous and Carbamate Pesticides to Honey Bee and Freshwater Fish|Int. Pest Control24(5): 124-126|1982|
68558|A||Roderer,G.|Biological Effects of Inorganic and Organic Compounds of Mercury, Lead, Tin, and Arsenic|In: Proc. Univ. Mo. Annu. Conf. Trace Subst. Environ. Health16:137-144|1982|
68559|A||Jones,G.E., D.F. Carroll, and W. Wills|Susceptibility of Pennsylvania Mosquito Larvae to Abate, Dursban and Baytex|Proc. Annu. Meet. N. J. Mosq. Exterm. Assoc.:161-164|1976|
68565|A||Shubat,P.J., S.H. Poirier, M.L. Knuth, D.E. Hammermeister, A.R. Lima, L.T. Brooke, D.J. Call, and T.A. Felhaber|Acute Toxicities of Nine Chlorinated Organic Compounds to Selected Freshwater Organisms|Center for Lake Superior Environmental Studies, University of Wisconsin-Superior, Superior, WI:1-18|1992|
68588|A||Walker,K.E.|Organotin Contact Studies|In: R.L.Goulding (Ed.), Proc.-Int.Controlled Release Pestic.Symp., Oregon State Univ., Corvallis, OR:124-131|1977|
68589|A||Santos,A.T.,Jr., M.J. Santos, B.L. Blas, and E.A. Banez|Field Trials Using Slow Release Rubber Molluscicide Formulations, MT-1E (BioMet SRM) and CBL-9B|In: R.L.Goulding (Ed.), Proc.-Int.Controlled Release Pestic.Symp., Oregon State Univ., Corvallis, OR:114-123|1977|
68590|A||Quick,T., and N.F. Cardarelli|Environmental Impact of Controlled Release Molluscicides and Their Degradation Products:  A Preliminary Report|ACS Symp. Ser.53:90-104|1977|
68591|T||Bloomquist,J.R., G.T. Payne, L. Kinne, J. Lyga, D. Leong, and R.A. Nicholson|Toxicity and Mode of Action of Benzhydrolpiperidines and Related Compounds in Insects|Pestic. Biochem. Physiol.73(1): 18-26|2002|10.1016/S0048-3575(02)00011-1
68593|T||Prabhakaran,S.K., and S.T. Kamble|Effects of Azadirachtin on Different Strains of German Cockroach (Dictyoptera: Blattellidae)|Environ. Entomol.25(1): 130-134|1996|10.1093/ee/25.1.130
68594|T||Christian,M.S., R.G. York, A.M. Hoberman, L.C. Fisher, and W.R. Brown|Oral (Drinking Water) Two-Generation Reproductive Toxicity Study of Bromodichloromethane (BDCM) in Rats|Int. J. Toxicol.21(2): 115-146|2002|10.1080/10915810252866097
68595|T||Wiles,J.A., and G.K. Frampton|A Field Bioassay Approach to Assess the Toxicity of Insecticide Residues on Soil to Collembola|Pestic. Sci.47(3): 273-285|1996|10.1002/(SICI)1096-9063(199607)47:3<273::AID-PS418>3.0.CO;2-8
68596|T||Jackson,D.M., and J.J.,Jr. Lam|Jalysus wickhami (Hemiptera: Berytidae): Toxicity of Pesticides Applied to the Soil or in the Transplant Water of Flue-Cured Tobacco|J. Econ. Entomol.82(3): 913-918|1989|10.1093/jee/82.3.913
68597|T||Schaub,L., S. Sardy, and G. Capkun|Natural Variation in Baseline Data:  When do we Call a New Sample 'Resistant'?|Pest Manag. Sci.58(9): 959-963|2002|10.1002/ps.561
68598|T||Khangura,R.K., and M.J. Barbetti|Efficacy of Impact to Manage Blackleg (Leptosphaeria maculans) in Canola|Aust. J. Agric. Res.53:311-321|2002|10.1071/AR01010
68599|T||DeRose,H.R.|Crabgrass Inhibition with O-Isopropyl N-(3-Chlorophenyl) Carbamate|Agron. J.43:139-142|1951|10.2134/agronj1951.00021962004300030008x
68600|T||Webster,G.R.B., C.F. Shaykewich, S. Kanhai, and G.J. Reimer|Availability of the Herbicide Trifluralin for Control of Wild Oats as Influenced by Soil Characteristics in Four Manitoba Soils|Can. J. Soil Sci.58:397-404|1978|10.4141/cjss78-047
68601|T||Chapin,R.E., M.W. Harris, B.J. Davis, S.M. Ward, R.E. Wilson, M.A. Mauney, A.C. Lockhart, R.J. Smialowicz, V.C. Moser, |The Effects of Perinatal/Juvenile Methoxychlor Exposure on Adult Rat Nervous, Immune, and Reproductive System Function|Fundam. Appl. Toxicol.40:138-157|1997|10.1006/faat.1997.2381
68602|T||Dutta,B.K., and E. Bremner|Trace Elements as Plant Chemotherapeutants to Control Verticillium Wilt (Spurenelemente als Pflanzenchemotherapeutika zur Bekampfung von Verticillium-Welke)|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)88(7): 405-412|1981|
68603|T||Rogers,V.V., M. Wickstrom, K. Liber, and M.D. MacKinnon|Acute and Subchronic Mammalian Toxicity of Naphthenic Acids from Oil Sands Tailings|Toxicol. Sci.66(2): 347-355|2002|10.1093/toxsci/66.2.347
68604|T||Bruni,J.E., and J. Vriend|Effect of D,L-alpha-Aminoadipate on the Mediobasal Hypothalamus and Endocrine Function in the Rat|Acta Neuropathol.64(2): 129-138|1984|10.1007/BF00695576
68605|T||Bossard,R.L., M.W. Dryden, and A.B. Broce|Insecticide Susceptibilities of Cat Fleas (Siphonaptera: Pulicidae) from Several Regions of the United States|J. Med. Entomol.39(5): 742-746|2002|10.1603/0022-2585-39.5.742
68606|T||Khan,A.A., and S.W.A. Rizvi|Laboratory Evaluation of Bromethalin Against Lesser Bandicoot Rat, Bandicota bengalensis|Turk. J. Zool.24(3): 333-335|2000|
68607|T||Kim,S.S., and S.S. Yoo|Comparative Toxicity of Some Acaricides to the Predatory Mite, Phytoseiulus persimilis and the Twospotted Spider Mite, Tetranychus urticae|Biocontrol47(5): 563-573|2002|10.1023/A:1016585607728
68608|T||Qiu,X.H., W. Li, and X.F. Leng|Cytochrome P450 Monooxygenases in the Cotton Bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae): In Vivo Effects of Deltamethrin Exposure|J. Agric. Urban Entomol.18(4): 217-225|2001|
68609|T||Salerno,G., S. Colazza, and E. Conti|Sub-Lethal Effects of Deltamethrin on Walking Behaviour and Response to Host Kairomone of the Egg Parasitoid Trissolcus basalis|Pest Manag. Sci.58(7): 663-668|2002|10.1002/ps.492
68610|T||Georgiev,G., and L. Iliev|Interaction Between Chlorsulfuron and Phenylurea Cytokinin 4-PU-30 on Resistant and Susceptible Plants|Plant Prot. Sci.36(3): 107-111|2000|10.17221/9633-PPS
68611|T||Delgarde,S., and C. Rouland-Lefevre|Efficacy of Actara 25WG on Three Species of Brazilian Termite (Isoptera, Nasutitermitinae) Crop Pests|Sociobiology40(3): 699-710|2002|
68612|T||Singh,S.R., K.F.A. Walters, and G.R. Port|Behaviour of the Adult Seven Spot Ladybird, Coccinella septempunctata (Coleoptera:  Coccinellidae), in Response to Dimethoate Residue on Bean Plants in the Laboratory|Bull. Entomol. Res.91(3): 221-226|2001|10.1079/BER200187
68613|T||Pollmeier,M., G. Pengo, P. Jeannin, and M. Soll|Evaluation of the Efficacy of Fipronil Formulations in the Treatment and Control of Biting Lice, Trichodectes canis (De Geer, 1778) on Dogs|Vet. Parasitol.107(1-2): 127-136|2002|10.1016/S0304-4017(02)00090-0
68614|T||York,R.G., K.H. Denny, D.E. Moody, and M.E. Alburges|Developmental Toxicity of Levo-alpha-Acetylmethadol (LAAM) in Tolerant Rats|Int. J. Toxicol.21(2): 147-159|2002|10.1080/10915810252866105
68615|T||You,L., M. Sar, E.J. Bartolucci, B.S. McIntyre, and R. Sriperumbudur|Modulation of Mammary Gland Development in Prepubertal Male Rats Exposed to Genistein and Methoxychlor|Toxicol. Sci.66(2): 216-225|2002|10.1093/toxsci/66.2.216
68616|T||Hasan,H.A.H., and M.A. Abdel-Sater|Responses of Mycoflora and Sorghum to Pre-Planting Soil Incorporation with Linuron Herbicide|Rostl. Vyroba (Multiple Languages)46(9): 417-422|2000|
68617|A||Nikolenko,A.G., and D.V. Amirkhanov|Comparative Hazardousness of Various Types of Insecticides to Soil Algae|Eurasian Soil Sci.25(8): 103-110|1993|
68618|T||Lisker,N.|Improving Wheat Seedling Emergence by Seed-Protectant Fungicides|Crop Prot.9(6): 439-445|1990|10.1016/0261-2194(90)90134-S
68619|T||Jay,C.N., and J.V. Cross|Effects of Insect Growth Regulators on Vine Weevil (Otiorhynchus sulcatus) Egg Production and Viability|Br. Crop Prot. Conf. Pests Dis.:351-356|2000|
68620|T||Johnsen,T.N.Jr.|Tebuthiuron Effects on Elemental Nutrients in Blue Grama (Bouteloua gracilis) Forage|Weed Technol.5:194-197|1991|10.1017/S0890037X00033509
68621|T||Kumar,K., and D.P. Singh|Effect of Different Fungicides on the Germination and Seedling Growth of Mustard|Pesticides 20(12): 45-46|1986|
68622|AT||Knuteson,S.L., T. Whitwell, and S.J. Klaine|Influence of Plant Age and Size on Simazine Toxicity and Uptake|J. Environ. Qual.31(6): 2096-2103|2002|10.2134/jeq2002.2096
68623|T||Ellis,J.M., J.L. Griffin, S.D. Linscombe, and E.P. Webster|Crop Response to Simulated Drift of Roundup Ultra and Liberty Herbicides|La. Agric.43(3): 18-19|2000|
68624|T||Kong,F., and M. Zhang|Effects of Copper, Manganese and pH on the Growth and Several Enzyme Activities of Mycorrhizal Fungus Cenococcum geophilum Fr.|J. Environ. Sci.8(4): 419-425|1996|
68625|T||Cooper,R.L., T.E. Stoker, J.M. Goldman, M.B. Parrish, and L. Tyrey|Effect of Atrazine on Ovarian Function in the Rat|Reprod. Toxicol.10(4): 257-264|1996|10.1016/0890-6238(96)00054-8
68626|T||Gregory,N.G., G.M.B. Orbell, and D.R.K. Harding|Poisoning with 3-Nitropropionic Acid in Possums (Trichosurus vulpecula)|N. Z. Vet. J.48(3): 85-87|2000|10.1080/00480169.2000.36166
68627|T||Davies,M.S.|Effects of Toxic Concentrations of Metals on Root Growth and Development|In: D.Atkinson (Ed.), Spec.Publ.No.10 of the Br.Ecol.Soc., Plant Root Growth: An Ecological Perspective, Blackwell Sci.Publ., Oxford, England:211-228|1991|
68628|T||Goss,V., and W.D. Marshall|Synergistic Antifungal Interactions of Zinc or Copper with Anilazine|Pestic. Sci.16(2): 163-171|1985|10.1002/ps.2780160210
68629|T||Dela Cruz,M.S., R.C. Joshi, and E.C. Martin|Potential Effects of Commercial Molluscicides Used in Controlling Golden Apple Snails on the Native Snail Vivipara costata (Quoy & Gaimard)|Philipp. Entomol.14(2): 149-157|2000|
68630|T||Garcia,P.C., R.M. Rivero, L.R. Lopez-Lefebre, E. Sanchez, J.M. Ruiz, and L. Romero|Direct Action of the Biocide Carbendazim on Phenolic Metabolism in Tobacco Plants|J. Agric. Food Chem.49(1): 131-137|2001|10.1021/jf000850y
68631|T||Ross,M.H.|Evolution of Behavioral Resistance in German Cockroaches (Dictyoptera: Blattellidae) Selected with a Toxic Bait|J. Econ. Entomol.90(6): 1482-1485|1997|10.1093/jee/90.6.1482
68632|T||Poon,R., J. Nakai, A. Yagminas, F. Benoit, D. Moir, I. Chu, and V.E. Valli|Subchronic Toxicity of Chloral Hydrate on Rats: A Drinking Water Study|J. Appl. Toxicol.22(4): 227-236|2002|10.1002/jat.843
68633|T||Jonker,D., B.A.R. Lina, and G. Kozianowski|13-Week Oral Toxicity Study with Isomaltulose (Palatinose) in Rats|Food Chem. Toxicol.40(10): 1383-1389|2002|10.1016/S0278-6915(02)00106-0
68634|T||Feldhake,C.M., and K.D. Ritchey|Flue Gas Desulfurization Gypsum Improves Orchardgrass Root Density and Water Extraction in an Acid Subsoil|Plant Soil178(2): 273-281|1996|10.1007/BF00011593
68635|T||Delgarde,S., and C. Rouland-Lefevre|Effects of Fipronil on Odontotermes nilensis Emerson (Termitidae - Macrotermitinae), Pest of Sugarcanes in Chad|Sociobiology37(3B): 539-550|2001|
68636|T||Milani,N., and G. Della Vedova|Decline in the Proportion of Mites Resistant to Fluvalinate in a Population of Varroa Destructor not Treated with Pyrethroids|Apidologie33(4): 417-422|2002|10.1051/apido:2002028
68637|T||Chandler,L.D., and J.R. Ruberson|Toxicity of Four Common Insecticides to Field-Collected Beet Armyworm Larvae|Southwest. Entomol.21(2): 189-203|1996|
68638|T||Lee,K.M., and C.Y. Lee|Prevalence of Insecticide Resistance in Field-Collected Populations of the German Cockroach, Blattella germanica (Linnaeus) (Dictyoptera: Blattellidae) in Peninsular Malaysia|Eisei Dobutsu53(4): 219-225|2002|10.7601/mez.53.219
68639|T||Lee,C.Y.|Control of Insecticide-Resistant German Cockroaches, Blattella germanica (L.) (Dictyoptera: Blattellidae) in Food-Outlets with Hydramethylnon-Based Bait Stations|Trop. Biomed.15:45-51|1998|
68640|T||Lee,L.C., and C.Y. Lee|Characterization of Pyrethroid and Carbamate Resistance in a Malaysian Field Collected Strain of the German Cockroach, Blattella germanica (L.) (Dictyoptera: Blattellidae)|Trop. Biomed.15(2): 1-9|1998|
68642|T||McIntyre,B.S., N.J. Barlow, D.G. Wallace, S.C. Maness, K.W. Gaido, and P.M.D. Foster|Effects of In Utero Exposure to Linuron on Androgen-Dependent Reproductive Development in the Male Crl:CD(SD)BR Rat|Toxicol. Appl. Pharmacol.167(2): 87-99|2000|10.1006/taap.2000.8998
68643|T||Cook,R.J., M.J. Hims, and T.B. Vaughan|Effects of Fungicide Spray Timing on Winter Wheat Disease Control|Plant Pathol.48(1): 33-50|1999|10.1046/j.1365-3059.1999.00319.x
68644|T||Burnett,G.F.|The Effects of Irrigation, Cultivation and Some Insecticides on the Soil Arthropods of an East African Dry Grassland|J. Appl. Ecol.5:141-157|1968|10.2307/2401279
68645|T||Mukherjee,I., and M. Gopal|Environmental Behaviour and Translocation of Imidacloprid in Eggplant, Cabbage and Mustard|Pest Manag. Sci.56(10): 932-936|2000|10.1002/1526-4998(200010)56:10<932::AID-PS210>3.0.CO;2-P
68646|T||Tinwell,H., J. Haseman, P.A. Lefevre, N. Wallis, and J. Ashby|Normal Sexual Development of Two Strains of Rat Exposed In Utero to Low Doses of Bisphenol A|Toxicol. Sci.68(2): 339-348|2002|10.1093/toxsci/68.2.339
68649|A||Schultz,T.W., G.D. Sinks, and L.A. Miller|Population Growth Impairment of Sulfur-Containing Compounds to Tetrahymena pyriformis|Environ. Toxicol.16(6): 543-549|2001|10.1002/tox.10015
68651|T||Yoon,J.M., B.T. Oh, C.L. Just, and J.L. Schnoor|Uptake and Leaching of Octahydro-1,3,5,7-Tetranitro-1,3,5,7-Tetrazocine by Hybrid Poplar Trees|Environ. Sci. Technol.36(21): 4649-4655|2002|10.1021/es020673c
68653|T||Hurst,C.H., M.J. DeVito, and L.S. Birnbaum|Tissue Disposition of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Maternal and Developing Long-Evans Rats Following Subchronic Exposure|Toxicol. Sci.57(2): 275-283|2000|10.1093/toxsci/57.2.275
68654|T||Brown,D.H., and J.M. Wells|Physiological Effects of Heavy Metals on the Moss Rhytidiadelphus squarrosus|Ann. Bot.66(6): 641-647|1990|10.1093/oxfordjournals.aob.a088078
68655|T||Lavchieva-Nacheva,G., and P. Atanasova|Influence of Buprofezin on the Survival of the Pea Aphid Acyrthosiphon pisum Harris (Homoptera, Aphididae) and Its Parasitoid Aphidius ervi Hal. (Hymenoptera, Aphidiidae)|Acta Zool. Bulg.50(2/3): 115-119|1998|
68656|T||Kwartirnikov,M.A., G.V. Lavchieva-Nacheva, and V.I. Lavchiev|The Effect of Lead Intoxication on the Survival and Behaviour of Leptinotarsa decemlineata Say (Coleoptera:  Chrysomelidae)|Acta Zool. Bulg.51(2-3): 103-108|1999|
68657|T||Wang,Y.X., P. Wu, Y.R. Wu, and X.L. Yan|Molecular Marker Analysis of Manganese Toxicity Tolerance in Rice Under Greenhouse Conditions|Plant Soil238(2): 227-233|2002|10.1023/A:1014487428033
68658|T||Pedersen,O.C.|An Insecticide Bioassay for Myzus persicae Validated by Probit Analysis and Esterase Measurement|In: L.Rasmussen (Ed.), Ecol.Bull.No.36.Ecotoxicology, Proc.3rd Oikos Conf., Nov.30-Dec.2, 1982, Copenhagen, Denmark, Publ.House of the Swedish Research Councils, Stockholm, Sweden36:50-56|1984|
68659|T||Larsen,B.R.|Effects of Simulated Acid Rain and (+-)-2-(2,4-Dichlorophenoxy) Propanoic Acid on Selected Crops|Ecotoxicol. Environ. Saf.10:228-238|1985|10.1016/0147-6513(85)90070-3
68660|T||Gonzalez-Gutierrez,J., M.D. Osuna, and R. De Prado|Behaviour of Glyphosate in Conium maculatum Control|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)65(2a): 157-160|2000|
68662|T||Slovak,M., M. Kazimirova, J. Gallo, and A. Huckova|Heavy Metals and Fluorine Influence on Arylphorin Synthesis in the Cabbage Moth (Mamestra brassicae, Lepidoptera, Noctuidae)|Biologia (Bratisl.)50(5): 501-506|1995|
68663|T||Heimbach,U., B. Baier, M. Barth, S. Blumel, I. Geuijen, B. Jackel, C. Maus, K.M. Nienstedt, S. Schmitzer, P. Stabler, A|First Ring Test Results of a Laboratory Method to Evaluate Effects of Plant Protection Products on Larvae of Poecilus cupreus (Coleoptera:  Carabidae)|IOBC-WPRS Bull.25(11): 19-26|2002|
68664|T||Heimbach,U.|Testing the Effects of Plant Protection Products on Larvae of the Carabid Beetle Poecilus cupreus (Coleoptera, Carabidae) in the Laboratory, Method and Results|IOBC-WPRS Bull.21(6): 21-28|1998|
68665|T||Heimbach,U., A. Wehling, M.P. Candolfi, M. Coulson, M. Mead-Briggs, J. Rombke, S. Schmitzer, R. Schmuck, A. Ufer, J.A. |Testing Side Effects of Pesticides on Spiders (Pardosa spp.) in the Laboratory|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:107-113|1998|
68666|T||Heimbach,U., P. Dohmen, K.L. Barrett, K. Brown, P.J. Kennedy, R. Kleiner, J. Rombke, S. Schmitzer, R. Schmuck, A. Ufer,|A Method for Testing Effects of Plant Protection Products on the Carabid Beetle Poecilus cupreus (Coleoptera, Carabidae) Under Laboratory and Semi-field Conditions|In: M.P.Candolfi, S.Blumel, R.Forster, F.M.Bakker, C.Grimm, S.A.Hassan, U.Heimbach, et al.(Eds.), Guidelines to Evaluate Side-Effects of Plant Protection Products to Non-target Arthropods, IOBC, BART, and EPPO Joint Initiative:87-106|2000|
68667|T||Lee,C.Y., H.H. Yap, and N.L. Chong|Insecticide Toxicity on the Adult German Cockroach, Blattella germanica (L.) (Dictyoptera: Blattellidae)|Malays. J. Sci.17A:1-9|1996|
68668|T||Delgarde,S., and C. Rouland-Lefevre|Evaluation of the Effects of Thiamethoxam on Three Species of African Termite (Isoptera: Termitidae) Crop Pests|J. Econ. Entomol.95(3): 531-536|2002|10.1603/0022-0493-95.3.531
68669|T||Meyer,J.A., and G.P. Georghiou|Effect of Permethrin on House Fly Resistance|Calif. Agric.42(4): 10-12|1988|
68670|T||Kiriyama,K., and K. Nishimura|Structural Effects of Dinotefuran and Analogues in Insecticidal and Neural Activities|Pest Manag. Sci.58(7): 669-676|2002|10.1002/ps.493
68671|T||Whisson,D.A., and T.P. Salmon|Effect of Diphacinone on Blood Coagulation in Spermophilus beecheyi as a Basis for Determining Optimal Timing of Field Bait Applications|Pest Manag. Sci.58(7): 736-738|2002|10.1002/ps.516
68672|T||Schat,H., R. Vooijs, and E. Kuiper|Identical Major Gene Loci for Heavy Metal Tolerances that have Independently Evolved in Different Local Populations and Subspecies of Silene vulgaris|Evolution50(5): 1888-1895|1996|10.2307/2410747
68673|T||Lee,C.Y., H.H. Yap, N.L. Chong, and R.S.T. Lee|Insecticide Resistance and Synergism in Field Collected German Cockroaches (Dictyoptera:  Blattellidae) in Peninsular Malaysia|Bull. Entomol. Res.86(6): 675-682|1996|10.1017/S0007485300039195
68674|T||Schat,H., and R. Vooijs|Multiple Tolerance and Co-Tolerance to Heavy Metals in Silene vulgaris:  A Co-Segregation Analysis|New Phytol.136(3): 489-496|1997|10.1046/j.1469-8137.1997.00756.x
68675|T||Yoshida,M.|Effects of Heavy Metal Ions on EDTA-Sensitive Cell Contacts of Dictyostelium discoideum|Bull. Inst. Comp. Agric. Sci. Kinki Univ.8:75-79|2000|
68676|T||Grover,I.S., and P. Kaur|Mutagenic Effects of Some Organophosphorus Pesticides in Barley|J. Plant Sci. Res.2(1-4): 43-52|1986|
68677|T||Sorteberg,A.|The Effect of Some Heavy Metals on Oats in a Pot Experiment with Three Different Soil Types|J. Sci. Agric. Soc. Finland3:277-288|1974|
68678|T||Saco,D., S. Martin, and M. Alvarez|Nitrogen Metabolism in Nicotiana rustica L. Grown with Molybdenum. I. Vegetative Development|Commun. Soil Sci. Plant Anal.26(11-12): 1719-1732|1995|10.1080/00103629509369404
68679|T||Carr,S.J., and G.S.P. Ritchie|Interacting Effects of Topsoil Water and Nitrogen Supply on Subsoil Aluminium Toxicity|Commun. Soil Sci. Plant Anal.25(19/20): 3335-3355|1994|
68680|T||Wallace,A., E.M. Romney, J.W. Cha, and F.M. Chaudhry|Lithium Toxicity in Plants|Commun. Soil Sci. Plant Anal.8(9): 773-780|1977|10.1080/00103627709366772
68681|T||Rutledge,L.C., R.K. Gupta, Z.A. Mehr, M.D. Buescher, and W.G. Reifenrath|Evaluation of Controlled-Release Mosquito Repellent Formulations|Am. Mosq. Control Assoc. J.12(1): 39-44|1996|
68683|T||Jain,A., H.R. Dhingra, N. Mehta, and M.S. Sangwan|Effect of Fungicides on In Vitro Pollen Germination and Tube Growth in Brassica juncea|Indian Phytopathol.53(3): 329-330|2000|
68684|T||Okazaki,H.|Formation of Methyl Pentachlorophenyl Sulfoxide and Sulfone from Pentachloronitrobenzene in Soil and Plants|J. Pestic. Sci. (Multiple Languages)4(3): 355-360|1979|10.1584/jpestics.4.355
68686|T||Corseuil,H.X., and F.N. Moreno|Phytoremediation Potential of Willow Trees for Aquifers Contaminated with Ethanol-Blended Gasoline|Water Res.35(12): 3013-3017|2001|10.1016/S0043-1354(00)00588-1
68687|T||Gadd,G.M., and L. De Rome|Biosorption of Copper by Fungal Melanin|Appl. Microbiol. Biotechnol.29(6): 610-617|1988|10.1007/BF00260993
68688|T||Saeki,Y., A. Yasukouchi, Y. Nagatomo, and H. Takaki|Distinctive Expression of a Zinc-Binding Protein in Rice Callus Grown in Medium with high Zinc Concentration|Soil Sci. Plant Nutr.46(1): 209-216|2000|10.1080/00380768.2000.10408776
68689|T||Shaw,P.W., S.J. Bradley, and J.T.S. Walker|The Impact of Early Season Insecticides in an Integrated Fruit Production Programme on Apple|Proc. N. Z. Plant Prot. Conf.50:283-287|1997|10.30843/nzpp.1997.50.11345
68690|T||Alva,A.K., and E.Q. Chen|Hydrogen Ion Inhibition of Copper Uptake by Citrus Seedlings|In: R.A.Date, et al.(Eds.), Plant Soil Interactions at Low pH, Kluwer Acad.Publ., Netherlands:631-634|1995|
68691|T||Hassan,E.|Chlorpyrifos Toxicity to Aphytis lingnanensis Compere (Hymenoptera:  Aphelinidae) a Parasitoid of California Red Scale, Aonidiella aurantii (Mask.) in Citrus|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)104(1): 102-104|1997|
68692|T||Boss,W.R., and E. Witschi|The Permanent Effects of Early Stilbestrol Injections on the Sex Organs of the Herring Gull (Larus argentatus)|J. Exp. Zool.105:61-77|1947|10.1002/jez.1401050104
68693|T||Martin,J.P., G.K. Helmkamp, and J.O. Ervin|Effect of Bromide from a Soil Fumigant and from CaBr2 on Growth and Chemical Composition of Citrus Plants|Proc. Soil Sci. Soc. Am.20:209-212|1956|10.2136/sssaj1956.03615995002000020018x
68694|T||Prokipcak,B., and D.P. Ormrod|Visible Injury and Growth Responses of Tomato and Soybean to Combinations of Nickel, Copper and Ozone|Water Air Soil Pollut.27(3/4): 329-340|1986|10.1007/BF00649415
68695|T||Hadar,Y., A. Banin, and I. Chet|Increased Inhibitory Effect of Cation as a Clay-Complex on Fungi|Water Air Soil Pollut.22(4): 441-446|1984|10.1007/BF00282614
68696|T||Seegal,R.F., K.O. Brosch, and R.J. Okoniewski|Effects of In Utero and Lactational Exposure of the Laboratory Rat to 2,4,2',4'- and 3,4,3',4'-Tetrachlorobiphenyl on Dopamine Function|Toxicol. Appl. Pharmacol.146(1): 95-103|1997|10.1006/taap.1997.8226
68697|T||Gray,L.E.,Jr., J.S. Ostby, J.M. Ferrell, E.R. Sigmon, and J.M. Goldman|Methoxychlor Induces Estrogen-Like Alterations of Behavior and the Reproductive Tract in the Female Rat and Hamster:  Effects on Sex Behavior, Running Wheel Activity, and Uterine Morphology|Toxicol. Appl. Pharmacol.96(3): 525-540|1988|10.1016/0041-008X(88)90012-9
68699|T||Pusztai,T.|The Influence of Cu2+ and pH on the Mutagenic Effect of Ethylenimine and on Chromosome Aberrations in Barley|Acta Bot. Hung.33(3-4): 235-237|1987|
68700|T||Crawford,L.A., I.D. Hodkinson, and N.W. Lepp|The Effects of Elevated Host-Plant Cadmium and Copper on the Performance of the Aphid Aphis fabae (Homoptera: Aphididae)|J. Appl. Ecol.32(3): 528-535|1995|10.2307/2404650
68701|T||Tottman,D.R., F.G.H. Lupton, R.H. Oliver, and S.R. Preston|Tolerance of Several Wild Oat Herbicides by a Range of Winter Wheat Varieties|Ann. Appl. Biol.100(2): 365-373|1982|10.1111/j.1744-7348.1982.tb01950.x
68703|T||Arle,H.F.|The Effect of Aromatic Solvents and Other Aquatic Herbicides on Crop Plants and Animals|West. Weed Control Conf.12:58-60|1950|
68704|T||Thakre,D.S.K., and S.N. Saksena|Preliminary Studies on the Effect of Soil Application of Chlorinated Insecticides on Amino Acid Makeup of Wheat (Triticum vulgare)|Mysore J. Agric. Sci.6(4): 466-470|1972|
68705|T||Pekar,S.|Short-Term Effect of Liquid Fertilizer (UAN) on Beneficial Arthropods (Aranea, Opilionida, Carabidae, Staphylinidae) in Winter Wheat|Ochr. Rostl. (Multiple Languages)33(1): 17-24|1997|
68706|T||Clijsters,H., F. Van Assche, and L. Gora|Physiological Responses of Higher Plants to Soil Contamination with Metals|Tasks Veg. Sci.22:32-39|1991|10.1007/978-94-009-0599-3_4
68707|T||Clayton,C.N., and D.E. Ellis|Benzene Hexachloride Fails to Control the Rootknot Nematode|Plant Dis. Rep.31(12): 487-489|1947|
68708|T||Bennet,R.J.|The Use of Hematoxylin in Screening Perennial Ryegrass (Lolium perenne) for Aluminium Tolerance|S. Afr. J. Plant Soil12(2): 65-72|1995|10.1080/02571862.1995.10634339
68709|T||Wallace,A., R.T. Mueller, and R.A. Wood|Selenate Toxicity Effects on Bush Beans Grown in Solution Culture|J. Plant Nutr.2(1/2): 107-109|1980|10.1080/01904168009362746
68710|T||Migula,P., M. Kedziorski, M. Makonieczny, and A. Kafel|Combined and Separate Effects of Heavy Metals on Energy Budget and Metal Balances in Acheta domesticus|Uttar Pradesh J. Zool.9(2): 140-149|1989|
68711|T||Martensson,A.M.|Effects of Agrochemicals and Heavy Metals on Fast-Growing Rhizobia and Their Symbiosis with Small-Seeded Legumes|Soil Biol. Biochem.24(5): 435-445|1992|10.1016/0038-0717(92)90206-D
68713|A||Blackman,G.G., and J.A.F. Bakker|Resistance of the Sheep Blowfly, Lucilia cuprina to Insecticides in the Republic of South Africa|J. S. Afr. Vet. Assoc.46:337-339|1975|
68714|T||Rogovine,V.V., V.M. Mushtakova, and V.A. Fomina|Estimation of Xenobiotic Effects on the Peroxidase-Dependent Plant Immunity as a Means of Ecological Control|Water Qual. Res. J. Can.32(4): 829-837|1997|10.2166/wqrj.1997.045
68715|T||Soderquist,C.J., and D.G. Crosby|Dissipation of 4-Chloro-2-Methylphenoxyacetic Acid (MCPA) in a Rice Field|Pestic. Sci.6:17-33|1975|10.1002/ps.2780060104
68716|T||Beeson,R.C.,Jr., and R. Newton|Shoot and Root Responses of Eighteen Southeastern Woody Landscape Species Grown in Cupric Hydroxide-Treated Containers|J. Environ. Hortic.10(4): 214-217|1992|10.24266/0738-2898-10.4.214
68717|T||Fox,C.J.S., D. Chisholm, and D.K.R. Stewart|Effect of Consecutive Treatments of Aldrin and Heptachlor on Residues in Rutabagas and Carrots and on Certain Soil, Arthropods and Yield|Can. J. Plant Sci.44:149-156|1964|10.4141/cjps64-027
68718|T||Edwards,C.A., and J.R. Lofty|Nematicides and the Soil Fauna|Proc. Br. Insectic. Fungic. Conf.1:158-166|1971|
68719|T||Su,C., and L.J. Evans|Soil Solution Chemistry and Alfalfa Response to CaCO3 and MgCO3 on an Acidic Gleysol|Can. J. Soil Sci.76(1): 41-47|1996|10.4141/cjss96-007
68721|T||Newton,H.P., and S.J. Toth|Response of Crop Plants to I and Br|Soil Sci.73:127-134|1952|10.1097/00010694-195202000-00005
68722|T||Mutikainen,P., and A. Ojala|Simulated Herbivory and Air Pollution: Growth and Reproduction of an Evergreen Dwarf Shrub, Empetrum nigrum|Acta Oecol. Oecol. Appl. (Multiple Languages)14(6): 771-780|1993|
68723|T||Jones,K.M., S.A. Bound, M.J. Oakford, and D. Wilson|A Strategy for Reducing Russet in Red Fuji Apples While Maintaining Control of Black Spot (Venturia inaequalis)|Aust. J. Exp. Agric.34(1): 127-130|1994|10.1071/EA9940127
68724|T||Lodhi,A., N.N. Malik, and F. Azam|Growth and Nitrogen Nutrition of Rice (Oryza sativa L.) in Soil Treated with N-Serve and a Nitrification Inhibiting Insecticide|Pak. J. Bot.28(1): 75-83|1996|
68725|T||Lange,A.H.|Phytotoxicity of Eight Herbicides as Foliar Sprays and Peach and Plum Rootstock|Res. Prog. Rep. West. Soc. Weed Sci.51:404-|1968|
68726|T||Galli,U., H. Schuepp, and C. Brunold|Thiols in Cadmium- and Copper-Treated Maize (Zea mays L.)|Planta (Multiple Languages)198(1): 139-143|1996|10.1007/BF00197596
68728|T||Sawidis,T., and H.D. Reiss|Effects of Heavy Metals on Pollen Tube Growth and Ultrastructure|Protoplasma (Multiple Languages)185(3/4): 113-122|1995|10.1007/BF01272851
68729|T||Overcash,R.M., J.B. Weber, and M.L. Miles|Behavior of Organic Priority Pollutants in the Terrestrial System: Di-n-Butyl Phthalate Ester, Toluene, and 2,4-Dinitrophenol|Water Resources Research Institute of the University of North Carolina, Raleigh, NC:93 p.|1982|
68730|T||Lilienthal,H., A. Weinand-Harer, H. Winterhoff, and G. Winneke|Effects of Maternal Exposure to 3,3',4,4'-Tetrachlorobiphenyl or Propylthiouracil in Rats Trained to Discriminate Apomorphine from Saline|Toxicol. Appl. Pharmacol.146:162-169|1997|10.1006/taap.1997.8245
68731|T||Gray,L.E.,Jr., C. Wolf, P. Mann, and J.S. Ostby|In Utero Exposure to Low Doses of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Alters Reproductive Development of Female Long Evans Hooded Rat Offspring|Toxicol. Appl. Pharmacol.146:237-244|1997|10.1006/taap.1997.8222
68732|T||Morse,D.C., E. Klasson Wehler, W. Wesseling, J.H. Koeman, and A. Brouwer|Alterations in Rat Brain Thyroid Hormone Status Following Pre- and Postnatal Exposure to Polychlorinated Biphenyls (Aroclor 1254)|Toxicol. Appl. Pharmacol.136(2): 269-279|1996|10.1006/taap.1996.0034
68733|T||Cummings,A.M., J.L. Metcalf, and L. Birnbaum|Promotion of Endometriosis by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rats and Mice:  Time-Dose Dependence and Species Comparison|Toxicol. Appl. Pharmacol.138:131-139|1996|10.1006/taap.1996.0106
68734|T||Bjerke,D.L., and R.E. Peterson|Reproductive Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Male Rats:  Different Effects of In Utero Versus Lactational Exposure|Toxicol. Appl. Pharmacol.127:241-249|1994|10.1006/taap.1994.1158
68735|T||Gray,L.E.,Jr., J.S. Ostby, and W.R. Kelce|A Dose-Response Analysis of the Reproductive Effects of a Single Gestational Dose of 2,3,7,8- Tetrachlorodibenzo-p-Dioxin in Male Long Evans Hooded Rat Offspring|Toxicol. Appl. Pharmacol.146:11-20|1997|10.1006/taap.1997.8223
68736|T||Herr,D.W., E.S. Goldey, and K.M. Crofton|Developmental Exposure to Aroclor 1254 Produces Low-Frequency Alterations in Adult Rat Brainstem Auditory Evoked Responses|Fundam. Appl. Toxicol.33:120-128|1996|10.1006/faat.1996.0149
68738|T||Morse,D.C., P.J. Van Bladeren, E. Klasson Wehler, and A. Brouwer|Beta-Naphthoflavone- and Self-Induced Metabolism of 3,3',4,4'-Tetrachlorobiphenyl in Hepatic Microsomes of the Male, Pregnant Female and Foetal Rat|Xenobiotica25(3): 245-260|1995|10.3109/00498259509061849
68739|T||Ross,D.C., J.W. Crim, M.R. Brown, G.A. Herzog, and A.O. Lea|Toxic and Antifeeding Actions of Melittin in the Corn Earworm, Heliothis zea (Boddie):  Comparisons to Bee Venom and the Insecticides Chlorpyriphos and Cyromazine|Toxicon25(3): 307-313|1987|10.1016/0041-0101(87)90259-5
68740|T||Hurst,C.H., M.J. DeVito, R.W. Setzer, and L.S. Birnbaum|Acute Administration of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Pregnant Long Evans Rats:  Association of Measured Tissue Concentrations with Developmental Effects|Toxicol. Sci.53(2): 411-420|2000|10.1093/toxsci/53.2.411
68741|T||Klotz,J.H., C. Amrhein, S. McDaniel, M.K. Rust, and D.A. Reierson|Assimilation and Toxicity of Boron in the Argentine Ant (Hymenoptera:  Formicidae)|J. Entomol. Sci.37(2): 193-199|2002|10.18474/0749-8004-37.2.193
68742|T||Chaffin,C.L., and R.J. Hutz|Regulation of the Aromatic Hydrocarbon Receptor (AHR) by In-Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|J. Reprod. Dev.43(1): 47-51|1997|10.1262/jrd.43.47
68743|T||Langhof,M., A. Gathmann, H.M. Poehling, and R. Meyhofer|Impact of Insecticide Drift on Aphids and Their Parasitoids:  Residual Toxicity, Persistence and Recolonisation|Agric. Ecosyst. Environ.94(3): 265-274|2003|10.1016/S0167-8809(02)00040-3
68744|T||Lidon,F.C., and F.S. Henriques|Limiting Step on Photosynthesis of Rice Plants Treated with Varying Copper Levels|J. Plant Physiol.138(1): 115-118|1991|10.1016/S0176-1617(11)80741-8
68745|T||James,D.G., and T.S. Price|Fecundity in Twospotted Spider Mite (Acari: Tetranychidae) is Increased by Direct and Systemic Exposure to Imidacloprid|J. Econ. Entomol.95(4): 729-732|2002|10.1603/0022-0493-95.4.729
68746|T||Paschke,M.W., and E.F. Redente|Copper Toxicity Thresholds for Important Restoration Grass Species of the Western United States|Environ. Toxicol. Chem.21(12): 2692-2697|2002|10.1897/1551-5028(2002)021<2692:CTTFIR>2.0.CO;2
68747|T||Millam,J.R., C.B. Craig-Veit, M.E. Batchelder, M.R. Viant, T.M. Herbeck, and L.W. Woods|An Avian Bioassay for Environmental Estrogens:  The Growth Response of Zebra Finch (Taeniopygia guttata) Chick Oviduct to Oral Estrogens|Environ. Toxicol. Chem.21(12): 2663-2668|2002|10.1002/etc.5620211219
68748|A||Hayes,T., K. Haston, M. Tsui, A. Hoang, C. Haeffele, and A. Vonk|Feminization of Male Frogs in the Wild. Water-Borne Herbicide Threatens Amphibian Populations in Parts of the United States|Nature419(6910): 895-896|2002|10.1038/419895a
68749|T||Colpaert,J.V., and J.A. Van Assche|Heavy Metal Tolerance in Some Ectomycorrhizal Fungi|Funct. Ecol.1(4): 415-421|1987|10.2307/2389799
68750|T||Galati,E.M., L. Iauk, S. Ragusa, R. Barbera, and R. De Pasquale|Effects of Copper on the Growth and Active Principle Content of Datura metel|Int. J. Crude Drug Res.27(2): 113-117|1989|10.3109/13880208909053948
68751|T||Irigaray,F.J.S.C., V. Marco-Mancebon, and I. Perez-Moreno|The Entomopathogenic Fungus Beauveria bassiana and Its Compatibility with Triflumuron:  Effects on the Twospotted Spider Mite Tetranychus urticae|Biol. Control26(2): 168-173|2003|10.1016/S1049-9644(02)00123-8
68752|T||Gruhn,C.M., and O.K.,Jr. Miller|Effect of Copper on Tyrosinase Activity and Polyamine Content of Some Ectomycorrhizal Fungi|Mycol. Res.95(3): 268-272|1991|10.1016/S0953-7562(09)81231-8
68753|T||Hooley,P., and D.S. Shaw|Inheritance of Sensitivity to Heavy Metals in Phytophthora drechsleri|Trans. Br. Mycol. Soc.85(4): 677-681|1985|10.1016/S0007-1536(85)80263-1
68754|T||Hogan,G.D., and W.E. Rauser|Tolerance and Toxicity of Cobalt, Copper, Nickel and Zinc in Clones of Agrostis gigantea|New Phytol.83(3): 665-670|1979|10.1111/j.1469-8137.1979.tb02298.x
68755|T||Hochstein,J.R., J.A. Render, S.J. Bursian, and R.J. Aulerich|Chronic Toxicity of Dietary 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Mink|Vet. Hum. Toxicol.43(3): 134-139|2001|
68756|T||Karataglis,S.S.|Zinc and Copper Effects on Metal-Tolerant and Non-Tolerant Clones of Agrostis tenuis (Poaceae)|Plant Syst. Evol.134(3-4): 173-182|1980|10.1007/BF00986797
68757|T||Block,W.D., O.H. Buchanan, and R.H. Freyberg|Metabolism, Toxicity and Manner of Action of Gold Compounds in the Treatment of Arthritis  II.  A Comparative Study of the Distribution and Excretion of Gold Following Intramuscular Injection of Five Different Gold Comp|J. Pharmacol. Exp. Ther.73:200-204|1974|
68758|T||Gadallah,M.A.A., and A.E. El-Enany|Role of Kinetin in Alleviation of Copper and Zinc Toxicity in Lupinus termis Plants|Plant Growth Regul.29(3): 151-160|1999|10.1023/A:1006245628188
68759|T||Kremer,H., H. Lilienthal, J. Hany, A. Roth-Harer, and G. Winneke|Sex-Dependent Effects of Maternal PCB Exposure on the Electroretinogram in Adult Rats|Neurotoxicol. Teratol.21(1): 13-19|1999|10.1016/S0892-0362(98)00030-0
68760|T||Davies,N.A., M.E. Hodson, and S. Black|Changes in Toxicity and Bioavailability of Lead in Contaminated Soils to the Earthworm Eisenia fetida (Savigny 1826) After Bone Meal Amendments to the Soil|Environ. Toxicol. Chem.21(12): 2685-2691|2002|10.1002/etc.5620211222
68761|T||Landberg,T., and M. Greger|Influence of Selenium on Uptake and Toxicity of Copper and Cadmium in Pea (Pisum sativum) and Wheat (Triticum aestivum)|Physiol. Plant. (Multiple Languages)90(4): 637-644|1994|10.1111/j.1399-3054.1994.tb02518.x
68762|T||Lasseigne,F.T., T.J. Smalley, H.A. Mills, and W.P. Miller|Aluminum Tolerance, Mineral Nutrition, and Growth of 'Helleri' Holly in Solution Culture|J. Plant Nutr.19(12): 1551-1567|1996|10.1080/01904169609365221
68763|T||Chapman,R.K., and T.C. Allen|Stimulation and Suppression of Some Vegetable Plants by DDT|J. Econ. Entomol.41(4): 616-623|1948|10.1093/jee/41.4.616
68764|T||Corey,R.A.|Laboratory Tests with Bidrin Insecticide|J. Econ. Entomol.58:112-114|1965|10.1093/jee/58.1.112
68765|T||Hamner,C.L.|Effects of Platinum Chloride on Bean and Tomato|Bot. Gaz.104:161-166|1942|10.1086/335117
68766|T||Francis,P.C., and R.L. Petersen|Assessment of Toxicity of Heavy Metal Ion Combinations on Spore Germination and Protonemal Growth of Polytrichum commune|Bryologist92(1): 60-67|1989|10.2307/3244017
68768|T||Gorsuch,J.W., M. Ritter, and E.R. Anderson|Comparative Toxicities of Six Heavy Metals Using Root Elongation and Shoot Growth in Three Plant Species|ASTM Spec. Tech. Publ.3:377-392|1995|
68769|T||Dugova,O.|Effect of Copper on Biomass of Soil Micromycetes|Biologia (Bratisl.)51(6): 651-653|1996|
68770|T||Utkhede,R.S., and E.M. Smith|Evaluation of Biological and Chemical Treatments for Control of Crown Gall on Young Apple Trees in the Kootenay Valley of British Columbia|J. Phytopathol. (Berl.)137(4): 265-271|1993|10.1111/j.1439-0434.1993.tb01347.x
68771|T||Homer,F.A., R.S. Morrison, R.R. Brooks, J. Clemens, and R.D. Reeves|Comparative Studies of Nickel, Cobalt, and Copper Uptake by Some Nickel Hyperaccumulators of the Genus Alyssum|Plant Soil138(2): 195-205|1991|10.1007/BF00012246
68772|T||Lyanguzova,I.V.|Effects of Nickel and Copper on Bilberry Seed Germination and Seedling Development|Russ. J. Plant Physiol.46(3): 431-432|1999|
68774|AT||Pica-Granados,Y., G.D. Trujillo, and H.S. Hernandez|Bioassay Standardization for Water Quality Monitoring in Mexico|Environ. Toxicol.15(4): 322-330|2000|10.1002/1522-7278(2000)15:4<322::AID-TOX8>3.0.CO;2-F
68775|T||Lidon,F.C., and F.S. Henriques|Copper Toxicity in Rice:  Diagnostic Criteria and Effect on Tissue Mn and Fe|Soil Sci.154(2): 130-135|1992|10.1097/00010694-199208000-00006
68776|T||Chiu,C.Y., F.S. Hsiu, S.S. Chen, and C.H. Chou|Reduced Toxicity of Cu and Zn to Mangrove Seedlings (Kandelia candel (L.) Druce.) in Saline Environments|Bot. Bull. Acad. Sin. (Taipei)36(1): 19-24|1995|
68777|T||Galli,U., H. Schuepp, and C. Brunold|Thiols of Cu-Treated Maize Plants Inoculated with the Arbuscular-Mycorrhizal Fungus Glomus intraradices|Physiol. Plant. (Multiple Languages)94(2): 247-253|1995|10.1111/j.1399-3054.1995.tb05308.x
68778|A||Ensminger,M.P., and F.D. Hess|Photosynthesis Involvement in the Mechanism of Action of Diphenyl Ether Herbicides|Plant Physiol.78(1): 46-50|1985|10.1104/pp.78.1.46
68779|T||Geebelen,W., J. Vangronsveld, D.C. Adriano, R. Carleer, and H. Clijsters|Amendment-Induced Immobilization of Lead in a Lead-Spiked Soil:  Evidence from Phytotoxicity Studies|Water Air Soil Pollut.140(1-4): 261-277|2002|10.1023/A:1020147901365
68780|T||Pandolfini,T., R. Gabbrielli, and M. Ciscato|Nickel Toxicity in Two Durum Wheat Cultivars Differing in Drought Sensitivity|J. Plant Nutr.19(12): 1611-1627|1996|10.1080/01904169609365225
68781|T||Kwon,J.H., and Y.J. Ahn|Acaricidal Activity of Butylidenephthalide Identified in Cnidium officinale Rhizome Against Dermatophagoides farinae and Dermatophagoides pteronyssinus (Acari: Pyroglyphidae)|J. Agric. Food Chem.50(16): 4479-4483|2002|10.1021/jf020293a
68782|T||Zhu,F.X., M. Wang, and Z.H. Tang|Differences in Susceptibility to Insecticides Between Adults and Larvae of Housefly, Musca domestica (L.)|Entomol. Sin.9(2): 23-27|2002|
68783|T||Cheng,S., F. Ren, W. Grosse, and Z. Wu|Effects of Cadmium on Chlorophyll Content, Photochemical Efficiency, and Photosynthetic Intensity of Canna indica Linn.|Int. J. Phytoremediat.4(3): 239-246|2002|10.1080/15226510208500085
68784|T||Ye,Z.H., A.J.M. Baker, M.H. Wong, and A.J. Willis|Copper Tolerance, Uptake and Accumulation by Phragmites australis|Chemosphere50(6): 795-800|2003|10.1016/S0045-6535(02)00221-7
68785|T||Chen,Y.X., Y.F. He, Y. Yang, Y.L. Yu, S.J. Zheng, G.M. Tian, Y.M. Luo, and M.H. Wong|Effect of Cadmium on Nodulation and N2-Fixation of Soybean in Contaminated Soils|Chemosphere50(6): 781-787|2003|10.1016/S0045-6535(02)00219-9
68786|T||Chen,Y.X., Y.F. He, Y.M. Luo, Y.L. Yu, Q. Lin, and M.H. Wong|Physiological Mechanism of Plant Roots Exposed to Cadmium|Chemosphere50(6): 789-793|2003|10.1016/S0045-6535(02)00220-5
68787|T||Simms,L.C., C.E. Mullins, and M.J. Wilson|Seed Dressings to Control Slug Damage in Oilseed Rape|Pest Manag. Sci.58(7): 687-694|2002|10.1002/ps.514
68788|T||Molas,J.|Cytogenetic Toxicity Effects of Inorganic Nickel and Organic Ni(II) Complexes on Brassica oleracea L. Root Meristem|J. Appl. Genet.42(3): 257-268|2001|
68789|T||Molas,J.|Changes in Morphological and Anatomical Structure of Cabbage (Brassica oleracea L.) Outer Leaves and in Ultrastructure of Their Chloroplasts Caused by an In Vitro Excess of Nickel|Photosynthetica (Praha)34(4): 513-522|1997|10.1023/A:1006805327340
68790|T||Jones,M.D., and T.C. Hutchinson|The Effects of Nickel and Copper on the Axenic Growth of Ectomycorrhizal Fungi|Can. J. Bot.66(1): 119-124|1988|10.1139/b88-018
68791|T||Harrington,C.F., D.J. Roberts, and G. Nickless|The Effect of Cadmium, Zinc, and Copper on the Growth, Tolerance Index, Metal Uptake, and Production of Malic Acid in Two Strains of the Grass Festuca rubra|Can. J. Bot.74(11): 1742-1752|1996|10.1139/b96-211
68792|T||Whanger,P.D., and J.T. Deagen|Rat Liver Metallothionein Interactions of Silver, Zinc, and Cadmium|Biol. Trace Elem. Res.4(2-3): 199-210|1982|10.1007/BF02783259
68794|T||Lu,J., and G.F.,Jr. Combs|Excess Dietary Zinc Decreases Tissue alpha-Tocopherol in Chicks|J. Nutr.118(11): 1349-1359|1988|10.1093/jn/118.11.1349
68795|T||Blalock,T.L., and C.H. Hill|Studies on the Role of Iron in Zinc Toxicity in Chicks|Biol. Trace Elem. Res.17:17-29|1988|10.1007/BF02795444
68796|T||Baker,D.H., and K.M. Halpin|Zinc Antagonizing Effects of Fish Meal, Wheat Bran and a Corn-Soybean Meal Mixture when Added to a Phytate- and Fiber-Free Casein-Dextrose Diet|Nutr. Res.8(2): 213-218|1988|10.1016/S0271-5317(88)80025-3
68797|T||Henry,P.R., C.B. Ammerman, and R.D. Miles|Effect of Dietary Zinc on Tissue Mineral Concentration as a Measure of Zinc Bioavailability in Chicks|Nutr. Rep. Int.35(1): 15-23|1987|
68798|T||Jackson,N., S.W. Gibson, and M.H. Stevenson|Effects of Short- and Long-Term Feeding of Zinc Oxide-Supplemented Diets on the Mature, Female Domestic Fowl with Special Reference to Tissue Mineral Content|Br. J. Nutr.55(2): 333-349|1986|10.1079/BJN19860040
68799|T||Southern,L.L., and D.H. Baker|Zinc Toxicity, Zinc Deficiency and Zinc-Copper Interrelationship in Eimeria acervulina-Infected Chicks|J. Nutr.113(3): 688-696|1983|10.1093/jn/113.3.688
68800|T||Hamilton,R.P., M.R.S. Fox, S.H. Tao, and B.E.,Jr. Fry|Zinc-Induced Anemia in Young Japanese Quail Ameliorated by Supplemental Copper and Iron|Nutr. Res.1(6): 589-599|1981|10.1016/S0271-5317(81)80089-9
68801|T||Rama,R., and J. Planas|Effects of Dietary Zinc on Iron Metabolism in Chickens|Biol. Trace Elem. Res.3(4): 287-299|1981|
68803|T||Oh,S.H., H. Nakaue, J.T. Deagen, P.D. Whanger, and G.H. Arscott|Accumulation and Depletion of Zinc in Chick Tissue Metallothioneins|J. Nutr.109(10): 1720-1729|1979|10.1093/jn/109.10.1720
68804|T||Van Vleet,J.F.|Protection by Various Nutritional Supplements Against Lesions of Selenium-Vitamin E Deficiency Induced in Ducklings Fed Tellurium or Silver|Am. J. Vet. Res.38(9): 1393-1398|1977|
68805|T||Kidd,M.T., M.A. Qureshi, P.R. Ferket, and L.N. Thomas|Dietary Zinc-Methionine Enhances Mononuclear-phagocytic Function in Young Turkeys:  Zinc-Methionine, Immunity, and Salmonella|Biol. Trace Elem. Res.42(3): 217-229|1994|10.1007/BF02911519
68806|T||Harland,B.F., M.R.S. Fox, and B.E.,Jr. Fry|Protection Against Zinc Deficiency by Prior Excess Dietary Zinc in Young Japanese Quail|J. Nutr.105(12): 1509-1518|1975|10.1093/jn/105.12.1509
68807|T||Kazacos,E.A., and J.F. Van Vleet|Sequential Ultrastructural Changes of the Pancreas in Zinc Toxicosis in Ducklings|Am. J. Pathol.134(3): 581-595|1989|
68808|T||Fleet,J.C., M.A. Qureshi, R.R. Dietert, and C.C. McCormick|Tissue-Specific Accumulation of Metallothionein in Chickens as Influenced by the Route of Zinc Administration|J. Nutr.118(2): 176-182|1988|10.1093/jn/118.2.176
68809|T||Lu,J., G.F.,Jr. Combs, and J.C. Fleet|Time-Course Studies of Pancreatic Exocrine Damage Induced by Excess Dietary Zinc in the Chick|J. Nutr.120(4): 389-397|1990|10.1093/jn/120.4.389
68810|T||O'Dell,B.L., C.E. Burpo, and J.E. Savage|Evaluation of Zinc Availability in Foodstuffs of Plant and Animal Origin|J. Nutr.102(5): 653-660|1972|10.1093/jn/102.5.653
68811|T||Reimann,E.M., M.L. Sunde, and W.G. Hoekstra|Effect of Zinc, Certain Related Dietary Factors and Age on the Histamine Content of Chick Tissues|J. Nutr.101(12): 1623-1630|1971|10.1093/jn/101.12.1623
68812|T||Subramanian,P., S. Sivabalan, V.P. Menon, and K. Vasudevan|Influence of Chronic Zinc Supplementation on Biochemical Variables and Circadian Rhythms in Wistar Rats|Nutr. Res.20(3): 413-425|2000|10.1016/S0271-5317(00)00134-2
68813|T||Barone,A., O. Ebesh, R.G. Harper, and R.A. Wapnir|Placental Copper Transport in Rats:  Effects of Elevated Dietary Zinc on Fetal Copper, Iron and Metallothionein|J. Nutr.128(6): 1037-1041|1998|10.1093/jn/128.6.1037
68814|T||Amemiya,K., C.L. Keen, and L.S. Hurley|6-Mercaptopurine-Induced Alterations in Mineral Metabolism and Teratogenesis in the Rat|Teratology34(3): 321-334|1986|10.1002/tera.1420340312
68815|T||Coppen,D.E., and N.T. Davies|Studies on the Effects of Dietary Zinc Dose on 65Zn Absorption In Vivo and on the Effects of Zn Status on 65Zn Absorption and Body Loss in Young Rats|Br. J. Nutr.57(1): 35-44|1987|10.1079/BJN19870007
68816|T||House,W.A., D.R. Van Campen, and R.M. Welch|Dietary Methionine Status and Its Relation to the Bioavailability to Rats of Zinc in Corn Kernels with Varying Methionine Content|Nutr. Res.17(1): 65-76|1997|10.1016/S0271-5317(96)00233-3
68817|T||Panemangalore,M., and F.N. Bebe|Effect of High Dietary Zinc on Plasma Ceruloplasmin and Erythrocyte Superoxide Dismutase Activities in Copper-Depleted and Repleted Rats|Biol. Trace Elem. Res.55(1-2): 111-126|1996|10.1007/BF02784173
68818|T||House,W.A., D.R. Van Campen, and R.M. Welch|Influence of Dietary Sulfur-Containing Amino Acids on the Bioavailability to Rats of Zinc in Corn Kernels|Nutr. Res.16(2): 225-235|1996|10.1016/0271-5317(96)00007-3
68819|T||Singh,B., D. Dhawan, P.C. Mangal, B. Chand, N. Singh, and P.N. Trehan|Combined Action of Lead and Lithium on Essential and ssential Elements in Rat Blood|Biol. Trace Elem. Res.46(1-2): 15-28|1994|10.1007/BF02790065
68820|T||Shrader,R.E., K.S. Hirsch, J. Levin, and L.S. Hurley|Attenuating Effect of Zinc on Abnormal Placental Morphology in 6-Mercaptopurine Treated Rats|Teratology17(3): 315-326|1978|10.1002/tera.1420170310
68821|T||Hirsch,K.S., and L.S. Hurley|Relationship of Dietary Zinc to 6-Mercaptopurine Teratogenesis and DNA Metabolism in the Rat|Teratology17(3): 303-314|1978|10.1002/tera.1420170309
68822|T||Chmielnicka,J., and M. Nasiadek|Tissue Distribution and Urinary Excretion of Essential Elements in Rats Orally Exposed to Aluminum Chloride|Biol. Trace Elem. Res.31(2): 131-138|1991|10.1007/BF02990421
68823|T||Van Vleet,J.F.|Induction of Lesions of Selenium-Vitamin E Deficiency in Pigs Fed Silver|Am. J. Vet. Res.37(12): 1415-1420|1976|
68824|T||Whanger,P.D., and P.H. Weswig|Effect of Some Copper Antagonists on Induction of Ceruloplasmin in the Rat|J. Nutr.100:341-348|1970|10.1093/jn/100.3.341
68826|T||Hara,T., Y. Sonoda, and I. Iwai|Growth Response of Cabbage Plants to Transition Elements Under Water Culture Conditions.  I.  Titanium, Vanadium, Chromium, Manganese, and Iron|Soil Sci. Plant Nutr.22(3): 307-315|1976|10.1080/00380768.1976.10432993
68827|T||Georgiev,G., B. Atanasov, K. Kalmuckov, E. Alexandrova, and A. Uzunova|Assimilates and Nutrients Partitioning and Efficiency of Nitrogen Fixation of Black Locust (Robinia pseudoacacia L.) Grown on the Excess of Cu in Soil|Bulg. J. Plant Physiol.22(3-4): 40-55|1996|
68828|T||Gilbertson,M.K., G.D. Haffner, K.G. Drouillard, A. Albert, and B. Dixon|Immunosuppression in the Northern Leopard Frog (Rana pipiens) Induced by Pesticide Exposure|Environ. Toxicol. Chem.22(1): 101-110|2003|10.1002/etc.5620220113
68829|T||Bolan,N., D. Adriano, S. Mani, and A. Khan|Adsorption, Complexation, and Phytoavailability of Copper as Influenced by Organic Manure|Environ. Toxicol. Chem.22(2): 450-456|2003|10.1002/etc.5620220228
68830|T||Ouzounidou,G., M. Moustakas, and R.J. Strasser|Sites of Action of Copper in the Photosynthetic Apparatus of Maize Leaves:  Kinetic Analysis of Chlorophyll Fluorescence, Oxygen Evolution, Absorption Changes and Thermal Dissipation as Monitored by Photoacoustic Signal|Aust. J. Plant Physiol.24:81-90|1997|
68831|A||Nystrom,M., I. Nordemar, and M. Tedengren|Simultaneous and Sequential Stress from Increased Temperature and Copper on the Metabolism of the Hermatypic Coral Porites cylindrica|Mar. Biol.138:1225-1231|2001|10.1007/s002270100549
68832|A||Alutoin,S., J. Boberg, M. Nystrom, and M. Tedengren|Effects of the Multiple Stressors Copper and Reduced Salinity on the Metabolism of the Hermatypic Coral Porites lutea|Mar. Environ. Res.52:289-299|2001|10.1016/S0141-1136(01)00105-2
68833|T||Tkaczuk,C., R. Mietkiewski, and E. Krolak|The Effect of Metal Ions on the Growth of Selected Entomopathogenic Fungi|Insect Pathogens Insect Parasitic Nematodes, IOBC (Intl. Org. Biol. Control) Bull.21(4): 151-154|1998|
68834|T||Leong,D., J.R. Bloomquist, J. Bempong, J.A. Dybas, L.P. Kinne, J.W. Lyga, F.L. Marek, and R.A. Nicholson|Insecticidal Arylalklylbenzhydrolpiperidines:  Novel Inhibitors of Voltage-Sensitive Sodium and Calcium Channels in Mammalian Brain|Pest Manag. Sci.57:889-895|2001|10.1002/ps.352
68835|T||Ferguson,S.A., K.M. Flynn, K.B. Delclos, and R.R. Newbold|Maternal and Offspring Toxicity but Few Sexually Dimorphic Behavioral Alterations Result from Nonylphenol Exposure|Neurotoxicol. Teratol.22(4): 583-591|2000|10.1016/S0892-0362(00)00071-4
68836|T||Lidon,F.C., and F.S. Henriques|Effects of Copper on the Nitrate to Ammonia Reduction Mechanism in Rice Plants|Photosynthetica (Praha)26(3): 371-380|1992|
68837|T||Jones,D., and A. Muehlchen|Effects of the Potentially Toxic Metals, Aluminium, Zinc and Copper on Ectomycorrhizal Fungi|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(5): 949-966|1994|
68838|T||Hashem,A.R.|Effect of Copper on the Growth of Aspergillus niger, Penicillium chrysogenum and Rhizopus stolonifer|Trans. Mycol. Soc. Jpn.30(1): 111-119|1989|
68839|T||Graham,J.H., L.W. Timmer, and D. Fardelmann|Toxicity of Fungicidal Copper in Soil to Citrus Seedlings and Vesicular-Arbuscular Mycorrhizal Fungi|Phytopathology76(1): 66-70|1986|10.1094/Phyto-76-66
68840|T||Crawford,T.W.,Jr., J.L. Stroehlein, and R.O. Kuehl|Manganese and Rates of Growth and Mineral Accumulation in Cucumber|J. Am. Soc. Hortic. Sci.114(2): 300-306|1989|10.21273/JASHS.114.2.300
68841|T||El-Shourbagy,M.N., A. Wallace, and W.L. Berry|Some Interacting Effects of Sodium Chloride, Excess Copper, Low Phosphorus, and Polyethylene Glycol on Barley|Soil Sci.147(6): 432-435|1989|10.1097/00010694-198906000-00011
68842|T||Barrachina,A.C., F.B. Carbonell, and J.M. Beneyto|Effect of Arsenite on the Concentrations of Micronutrients in Tomato Plants Grown in Hydroponic Culture|J. Plant Nutr.17(11): 1887-1903|1994|10.1080/01904169409364853
68843|T||Maeda,T., and Y. Yoshimura|Effects of Diethylstilbestrol Administration on Sperm Motility and Reproductive Function in Male Japanese Quail (Coturnix japonica)|J. Poult. Sci.39(1): 27-33|2002|10.2141/jpsa.39.27
68844|T||Payne,P.A., M.W. Dryden, V. Smith, and R.K. Ridley|Effect of 0.29% w/w Fipronil Spray on Adult Flea Mortality and Egg Production of Three Different Cat Flea, Ctenocephalides felis (Bouche), Strains Infesting Cats|Vet. Parasitol.102(4): 331-340|2001|10.1016/S0304-4017(01)00537-4
68845|A||Fairchild,J.F., A.L. Allert, J.S. Riddle, and D.R. Gladwin|Efficacy of Glyphosate and Five Surfactants for Controlling Giant Salvinia|J. Aquat. Plant Manag.40(2): 53-58|2002|
68846|T||Fernie,K., J. Smits, and G. Bortolotti|Developmental Toxicity of In Ovo Exposure to Polychlorinated Biphenyls:  I.  Immediate and Subsequent Effects on First-Generation Nestling American Kestrels (Falco sparverius)|Environ. Toxicol. Chem.22(3): 554-560|2003|
68847|T||Rosa,E.V.C., C. Valgas, M.M. Souza-Sierra, A.X.R. Correa, and C.M. Radetski|Biomass Growth, Micronucleus Induction, and Antioxidant Stress Enzyme Responses in Vicia faba Exposed to Cadmium in Solution|Environ. Toxicol. Chem.22(3): 645-649|2003|10.1002/etc.5620220325
68848|T||Hayes,T.B.|Histological Examination of the Effects of Corticosterone in Larvae of the Western Toad, Bufo boreas (Anura:  Bufonidae), and the Oriental Fire-Bellied Toad, Bombina orientalis (Anura:  Discoglossidae)|J. Morph.226:297-307|1995|10.1002/jmor.1052260306
68849|A||Pyatt,F.B., M.R. Metcalfe, and A.J. Pyatt|Copper Bioaccumulation by the Freshwater Snail Lymnaea peregra:  A Toxicological Marker of Environmental and Human Health?|Environ. Toxicol. Chem.22(3): 561-564|2003|10.1002/etc.5620220314
68850|A||Becker,A.M., S. Heise, and W. Ahlf|Effects of Phenanthrene on Lemna minor in a Sediment-Water System and the Impacts of UVB|Ecotoxicology11(5): 343-348|2002|10.1023/A:1020505321645
68851|A||Dal Jensen,S., S. Panutrakul, and N. Nyholm|Toxicity of Lead and Cadmium to Tropical Marine Phytoplankton|Phuket Mar. Biol. Ctr. Res. Bull.63:45-52|2000|
68856|A||Modassir,Y.|Effect of Salinity on the Toxicity of Mercury in Mangrove Clam, Polymesoda erosa (Lightfoot 1786)|Asian Fish. Sci.13(4): 335-341|2000|10.33997/j.afs.2000.13.4.005
68874|T||Bruce,R.C., L.A. Warrell, D.G. Edwards, and L.C. Bell|Effects of Aluminium and Calcium in the Soil Solution of Acid Soils on Root Elongation of Glycine max cv. Forrest|Aust. J. Agric. Res.38(3): 319-338|1988|10.1071/AR9880319
68876|T||Ostby,J., E. Monosson, W.R. Kelce, and L.E.,Jr. Gray|Environmental Antiandrogens:  Low Doses of the Fungicide Vinclozolin Alter Sexual Differentiation of the Male Rat|Toxicol. Ind. Health15:48-64|1999|10.1177/074823379901500106
68877|T||Heckman,W.R., B.R. Kane, R.E. Pakyz, and M.J. Cosentino|The Effect of Ketoconazole on Endocrine and Reproductive Parameters in Male Mice and Rats|J. Androl.13(3): 191-198|1992|10.1002/j.1939-4640.1992.tb00298.x
68878|T||Fleming,A., and D. Crews|Estradiol and Incubation Temperature Modulate Regulation of Steroidogenic Factor 1 in the Developing Gonad of the Red-Eared Slider Turtle|Endocrinology142(4): 1403-1411|2001|10.1210/endo.142.4.8043
68880|T||Gurney,M.E., and M. Konishi|Hormone-Induced Sexual Differentiation of Brain and Behavior in Zebra Finches|Science208:1380-1383|1980|10.1126/science.208.4450.1380
68881|T||Flynn,K.M., K.B. Delclos, R.R. Newbold, and S.A. Ferguson|Behavioral Responses of Rats Exposed to Long-Term Dietary Vinclozolin|J. Agric. Food Chem.49(3): 1658-1665|2001|10.1021/jf0008893
68882|T||Imajima,T., T. Shono, O. Zakaria, and S. Suita|Prenatal Phthalate Causes Cryptorchidism Postnatally by Inducing Transabdominal Ascent of the Testis in Fetal Rats|J. Pediatr. Surg.32(1): 18-21|1997|10.1016/S0022-3468(97)90083-X
68883|T||Stoker,T.E., C.L. Robinette, B.H. Britt, S.C. Laws, and R.L. Cooper|Prepubertal Exposure to Compounds that Increase Prolactin Secretion in the Male Rat:  Effects on the Adult Prostate|Biol. Reprod.61:1636-1643|1999|10.1095/biolreprod61.6.1636
68884|T||Ilvesniemi,H.|The Combined Effect of Mineral Nutrition and Soluble Aluminium on Pinus sylvestris and Picea abies Seedlings|For. Ecol. Manag.51(1-3): 227-238|1992|10.1016/0378-1127(92)90488-U
68885|T||Shaw,A.J.|Intraclonal Variation in Morphology, Growth Rate, and Copper Tolerance in the Moss, Funaria hygrometrica|Evolution44(2): 441-447|1990|10.2307/2409421
68886|T||Poplawski,J., B. Lozowicka, A.T. Dubis, B. Lachowska, Z. Winiecki, and J. Nawrot|Feeding-Deterrent Activity of alpha-Asarone Isomers Against Some Stored Coleoptera|Pest Manag. Sci.56(6): 560-564|2000|10.1002/(SICI)1526-4998(200006)56:6<560::AID-PS171>3.0.CO;2-X
68887|T||Wiemeyer,S.N., E.F. Hill, J.W. Carpenter, and A.J. Krynitsky|Acute Oral Toxicity of Sodium Cyanide in Birds|J. Wildl. Dis.22(4): 538-546|1986|10.7589/0090-3558-22.4.538
68888|T||Michaud,J.P.|Relative Toxicity of Six Insecticides to Cycloneda sanguinea and Harmonia axyridis (Coleoptera: Coccinellidae)|J. Entomol. Sci.37(1): 83-93|2002|10.18474/0749-8004-37.1.83
68889|T||Le Leu,R.K., Y. Hu, and G.P. Young|Effects of Resistant Starch and Nonstarch Polysaccharides on Colonic Luminal Environment and Genotoxin-Induced Apoptosis in the Rat|Carcinogenesis23(5): 713-719|2002|10.1093/carcin/23.5.713
68890|T||Morard,P.|Modelization of the Relationship Between Copper Contents and Biomass Production in Durum Wheat|J. Plant Nutr.9(1): 43-55|1986|10.1080/01904168609363422
68892|T||Davison,K.L., and J.L. Sell|Dieldrin and p,p'-DDT Effects on Some Microsomal Enzymes of Livers of Chickens and Mallard Ducks|J. Agric. Food Chem.20(6): 1198-1205|1972|10.1021/jf60184a043
68893|T||Schwarzbach,S.E., D.M. Fry, B.E. Rosson, and D.M. Bird|Metabolism and Storage of p,p' Dicofol in American Kestrels (Falco sparverius) with Comparisons to Ring Neck Doves (Streptopelia risoria)|Arch. Environ. Contam. Toxicol.20(2): 206-210|1991|10.1007/BF01055905
68894|T||Elliott,J.E., S.W. Kennedy, D. Jeffrey, and L. Shutt|Polychlorinated Biphenyl (PCB) Effects on Hepatic Mixed Function Oxidases and Porphyria in Birds-II.  American Kestrel|Comp. Biochem. Physiol. C Comp. Pharmacol.99(1-2): 141-145|1991|10.1016/0742-8413(91)90090-G
68895|T||Brehmer,P.M., and R.K. Anderson|Effects of Urban Pesticide Applications on Nesting Success of Songbirds|Bull. Environ. Contam. Toxicol.48(3): 352-359|1992|10.1007/BF00195632
68896|T||Capdevielle,M.C., and C.G. Scanes|Effect of Dietary Acid or Aluminum on Growth and Growth-Related Hormones in Mallard Ducklings (Anas platyrhynchos)|Arch. Environ. Contam. Toxicol.29(4): 462-468|1995|10.1007/BF00208375
68897|T||Gilday,D., G.D. Bellward, J.T. Sanderson, D.M. Janz, and A.B. Rifkind|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induces Hepatic Cytochrome P450-Dependent Arachidonic Acid Epoxygenation in Diverse Avian Orders:  Regioisomer Selectivity and Immunochemical Comparison of the TCDD-Induced P45|Toxicol. Appl. Pharmacol.150(1): 106-116|1998|10.1006/taap.1997.8360
68904|A||Lee,B.G., and N.S. Fisher|Degradation and Elemental Release Rates from Phytoplankton Debris and Their Geochemical Implications|Limnol. Oceanogr.37(7): 1345-1360|1992|10.4319/lo.1992.37.7.1345
68905|A||Salte,R., T. Asgard, and K. Liestol|"Vitamin E and Selenium Prophylaxis Against ""Hitra Disease"" in Farmed Atlantic Salmon - A Survival Study"|Aquaculture75(1-2): 45-55|1988|10.1016/0044-8486(88)90020-8
68907|A||Triebskorn,R.|Effects of Tinorganic Compounds on the Neuronal System and the Behaviour of Fish|In: UBA Texte, Workshop: Effects of Endocrine Disrupters in the Environment on Neuronal Development and Behaviour, -Curr.Knowledge, Assessment, Gaps, Feb.17-18, 1997, Berlin50:91-101|1998|
68908|A||Bech,M.|Acute Toxicity of Tributyltin to the Larvae of Thais bitubercularis (Lamarck, 1822)|Spec.Publ.Phuket Mar.Biol.Cent.21(1): 133-138|2000|
68909|A||Wong,D., and L. Oliveira|Effects of Selenite and Selenate Toxicity on the Ultrastructure and Physiology of Three Species of Marine Microalgae|Can. J. Fish. Aquat. Sci.48:1201-1211|1991|10.1139/f91-145
68910|A||Wong,D., and L. Oliveira|Effects of Selenite and Selenate on the Growth and Motility of Seven Species of Marine Microalgae|Can. J. Fish. Aquat. Sci.48:1193-1200|1991|10.1139/f91-144
68911|A||Vandermeulen,J.H., and A. Foda|Cycling of Selenite and Selenate in Marine Phytoplankton|Mar. Biol.98(1): 115-123|1988|10.1007/BF00392666
68917|AT||Weinberger,P., and R. Greenhalgh|Some Adjuvant Effects on the Fate of Fenitrothion and Aminocarb|Environ. Toxicol. Chem.3:325-334|1984|10.1002/etc.5620030214
68918|A||Ren,L., D. Lattier, and J.J. Lech|Estrogenic Activity in Rainbow Trout Determined with a New cDNA Probe for Vitellogenesis, pSG5Vg1.1|Bull. Environ. Contam. Toxicol.56:287-294|1996|10.1007/s001289900043
68919|A||Patoczka,J., and G.W. Pulliam|Biodegradation and Secondary Effluent Toxicity of Ethoxylated Surfactants|Water Res.24(8): 965-972|1990|10.1016/0043-1354(90)90118-P
68920|T||Soto,A.M., H. Justicia, J.W. Wray, and C. Sonnenschein|"P-Nonyl-Phenol:  An Estrogenic Xenobiotic Released from ""Modified"" Polystyrene"|Environ. Health Perspect.92:167-173|1991|10.1289/ehp.9192167
68921|A||Mulsow,S., P.F. Landrum, and J.A. Robbins|Biological Mixing Responses to Sublethal Concentrations of DDT in Sediments by Heteromastus filiformis Using a 137Cs Marker Layer Technique|Mar. Ecol. Prog. Ser.239:181-191|2002|10.3354/meps239181
68922|A||Barranguet,C., M. Jonker, J. Sinke, and W. Admiraal|Effects of Acute Copper Contamination on Photosynthesis and Biomass of Periphyton Determined with Pulse Amplitude Modulated Fluorescence|Verh. Int. Ver. Theor. Angew. Limnol.27(5): 3195-3198|2000|
68924|A||Laporte,J.M., J.P. Truchot, N. Mesmer-Dudons, and A. Boudou|Bioaccumulation of Inorganic and Methylated Mercury by the Gills of the Shore Crab Carcinus maenas: Transepithelial Fluxes and Histochemical Localization|Mar. Ecol. Prog. Ser.231:215-228|2002|10.3354/meps231215
68925|A||Buss,D.S., A.R. McCaffery, and A. Callaghan|Evidence for p-Glycoprotein Modification of Insecticide Toxicity in Mosquitoes of the Culex pipiens Complex|Med. Vet. Entomol.16(2): 218-222|2002|10.1046/j.1365-2915.2002.00365.x
68926|A||Hartati,R., and J. Suprijanto|Quantitative and Qualitative Studies on Bioaccumulation of Lead (Pb) in Cockle Anadara infla ta Reeve|Spec.Publ.Phuket Mar.Biol.Cent.21(1): 143-146|2000|
68927|A||Brewer,S.K., and G.J. Atchison|The Effects of Chlorpyrifos on Cholinesterase Activity and Foraging Behavior in the Dragonfly, Anax junius (Odonata)|Hydrobiologia (Multiple Languages)394:201-208|1999|10.1023/A:1003682112025
68928|A||Nguyen,L.T.H., and C.R. Janssen|Comparative Sensitivity of Embryo-Larval Toxicity Assays with African Catfish (Clarias gariepinus) and Zebra Fish (Danio rerio)|Environ. Toxicol.16(6): 566-571|2001|10.1002/tox.10018
68929|A||Dias,N., A. Nicolau, G.S. Carvalho, M. Mota, and N. Lima|Miniaturization and Application of the MTT Assay to Evaluate Metabolic Activity of Protozoa in the Presence of Toxicants|J. Basic Microbiol.39(2): 103-108|1999|10.1002/(SICI)1521-4028(199905)39:2<103::AID-JOBM103>3.0.CO;2-D
68930|A||Yin,D., H. Jin, L. Yu, and S. Hu|Deriving Freshwater Quality Criteria for 2,4-Dichlorophenol for Protection of Aquatic Life in China|Environ. Pollut.122(2): 217-222|2003|10.1016/S0269-7491(02)00292-0
68931|A||Nicholson,S.|Cardiac and Lysosomal Responses to Periodic Copper in the Mussel Perna viridis (Bivalvia: Mytilidae)|Mar. Pollut. Bull.38(12): 1157-1162|1999|10.1016/S0025-326X(99)00148-4
68932|A||Mehta,S.K., and J.P. Gaur|Heavy-Metal-Induced Proline Accumulation and Its Role in Ameliorating Metal Toxicity in Chlorella vulgaris|New Phytol.143(2): 253-259|1999|10.1046/j.1469-8137.1999.00447.x
68933|A||Mokhtar,M.B., A.B. Awaluddin, and S.C. Koh|Acute Toxicity and Accumulation of Lead in Post-Larva of Tiger Prawns, Penaeus monodon, Malaysia|Fresenius Environ. Bull.11(3): 127-131|2002|
68934|A||Severin,G.F., G. Welzl, G. Pfister, I. Juttner, K.W. Schramm, and A. Kettrup|A Microcosm Study to Investigate the Effects of Nonylphenol on the Zooplankton Community|Organohalog. Compd.49:426-429|2000|
68935|A||Brown,D.H.|The Effect of Kuwait Crude Oil and a Solvent Emulsifier on the Metabolism of the Marine Lichen Lichina pygmaea|Mar. Biol.12(4): 309-315|1972|10.1007/BF00366331
68936|T||Khan,S., M.A. Qureshi, and J. Singh|Influence of Heavy Metal-Humic Acid Complexes on the Growth and Nutrient Concentration of Wheat (Triticum aestivum) Plant|Indian J. Environ. Health38(4): 269-273|1996|
68967|T||Mathur,S.P., M.P. Levesque, and S.S. Singh|The Effects of Using Copper for Mitigating Histosol Subsidence on:  4.  The Yield and Nutrition of Flooded Rice Grown on Histosols, Mineral Sublayers, and Their Mixtures|Soil Sci.140(2): 133-142|1985|10.1097/00010694-198508000-00009
68968|T||Gissel-Nielsen,G.|Foliar Application and Pre-sowing Treatment of Cereals with Selenite|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)1:97-105|1975|10.1002/jpln.19751380112
68969|T||Miller,E.K., and W.E. Dyer|Phytoremediation of Pentachlorophenol in the Crested Wheatgrass (Agropyron cristatum x desertorum) Rhizosphere|Int. J. Phytoremediat.4(3): 223-238|2002|10.1080/15226510208500084
68970|T||Asteraki,E.J., C.B. Hanks, and R.O. Clements|The Impact of Two Insecticides on Predatory Ground Beetles (Carabidae) in Newly-Sown Grass|Ann. Appl. Biol.120(1): 25-39|1992|10.1111/j.1744-7348.1992.tb03400.x
68971|A||Zhang,W., and V. Majidi|Monitoring the Cellular Response of Stichococcus bacillaris to Exposure of Several Different Metals Using In Vivo 31P NMR and Other Spectroscopic Techniques|Environ. Sci. Technol.28(9): 1577-1581|1994|10.1021/es00058a007
68972|T||Scharf,M.E., J.J. Neal, and G.W. Bennett|Changes of Insecticide Resistance Levels and Detoxication Enzymes Following Insecticide Selection in the German Cockroach, Blattella germanica (L.)|Pestic. Biochem. Physiol.59(2): 67-79|1998|10.1006/pest.1997.2311
68973|T||Yu,S.J.|Selectivity of Insecticides to the Spined Soldier Bug (Heteroptera:  Pentatomidae) and Its Lepidopterous Prey|J. Econ. Entomol.81(1): 119-122|1988|10.1093/jee/81.1.119
68975|T||MacPhee,A.W., D. Chisholm, and C.R. MacEachern|The Persistence of Certain Pesticides in the Soil and Their Effect on Crop Yields|Can. J. Soil Sci.40:59-62|1960|10.4141/cjss60-007
68976|T||Azpiazu,M.N., F. Romero, and J.M. Diaz|Metal Distribution and Interaction in Plant Cultures on Artificial Soil|Water Air Soil Pollut.28(1-2): 1-26|1986|10.1007/BF00184067
68977|T||Holding,A.J., and J.F. Lowe|Some Effects of Acidity and Heavy Metals on the Rhizobium-Leguminous Plant Association|Plant Soil(Spec.Volume):153-166|1971|10.1007/BF02661848
68978|T||Gettier,S.W., D.C. Martens, and S.J. Donohue|The Effects on Corn and on a Rhodic Paleudult Soil of 17 Annual Cu and Zn Sulfate Additions|Water Air Soil Pollut.43(1/2): 1-10|1989|10.1007/BF00175578
68979|A||Mendelssohn,I.A., K.L. McKee, and T. Kong|A Comparison of Physiological Indicators of Sublethal Cadmium Stress in Wetland Plants|Environ. Exp. Bot.46(3): 263-275|2001|10.1016/S0098-8472(01)00106-X
68980|T||Depta,B., A. Koscielniak, and A. Rozen|Food Selection as a Mechanism of Heavy Metal Resistance in Earthworms|Pedobiologia (Multiple Languages)43(6): 608-614|1999|10.1016/S0031-4056(24)00587-0
68981|T||Dijkshoorn,W., L.W. Van Broekhoven, and J.E.M. Lampe|Phytotoxicity of Zinc, Nickel, Cadmium, Lead, Copper and Chromium in Three Pasture Plant Species Supplied with Graduated Amounts from the Soil|Neth. J. Agric. Sci.27(3): 241-253|1979|10.18174/njas.v27i3.17057
68982|T||Karataglis,S., L. Symeonidis, and M. Moustakas|Effect of Toxic Metals on the Multiple Forms of Esterases of Triticum aestivum cv. Vergina|J. Agron. Crop Sci.160(2): 106-112|1988|10.1111/j.1439-037X.1988.tb00303.x
68983|A||Kowalewska,G., L. Falkowski, S.K. Hoffmann, and L.S. Szczepaniak|Replacement of Magnesium by Copper (II) in the Chlorophyll Porphyrin Ring of Planktonic Algae|Acta Physiol. Plant.9(2): 43-52|1987|
68984|T||Mudry,T., M. Haight, and J. Pasternak|The Effects of Some Heavy Metals on the Kinetics of Pharyngeal Pumping in Panagrellus silusiae|Nematologica28(1): 12-20|1982|10.1163/187529282X00475
68985|T||Pandey,N., and C.P. Sharma|Effect of Varying Copper Levels on Safflower|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.69(1): 67-73|1999|
68986|T||Simola,L.K.|Growth and Ultrastructure of Sphagnum fimbriatum Cultured with Arsenate, Fluoride, Mercury and Copper Ions|J. Hattori Bot. Lab.43:365-377|1977|
68987|T||Narwal,R.P., M. Singh, and D.J. Dahiya|Effect of Cadmium on Plant Growth and Heavy Metals Content of Corn (Zea mays L.)|Crop Res. (Hisar)3(1): 13-20|1990|
68988|T||Mani,M., and T.S. Thontadarya|Studies on the Safety of Different Pesticides to the Grape Mealybug Natural Enemies, Anagyrus dactylopii (How.) and Scymnus coccivora Ayyar|Indian J. Plant Prot.16(2): 205-210|1988|
68989|T||Lewis,B.C., S. Hudgins, A. Lewis, K. Schorr, R. Sommer, R.E. Peterson, J.A. Flaws, and P.A. Furth|In Utero and Lactational Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Impairs Mammary Gland Differentiation but does not Block the Response to Exogenous Estrogen in the Postpubertal Female Rat|Toxicol. Sci.62(1): 46-53|2001|10.1093/toxsci/62.1.46
68990|T||Whysner,J., and C.X. Wang|Hepatocellular Iron Accumulation and Increased Cell Proliferation in Polychlorinated Biphenyl-Exposed Sprague-Dawley Rats and the Development of Hepatocarcinogenesis|Toxicol. Sci.62(1): 36-45|2001|10.1093/toxsci/62.1.36
68992|T||Fletcher,N., A. Hanberg, and H. Hakansson|Hepatic Vitamin A Depletion is a Sensitive Marker of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Exposure in Four Rodent Species|Toxicol. Sci.62(1): 166-175|2001|10.1093/toxsci/62.1.166
68993|T||Bryant,P.L., J.E. Schmid, S.E. Fenton, A.R. Buckalew, and B.D. Abbott|Teratogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Mice Lacking the Expression of EGF and/or TGF-alpha|Toxicol. Sci.62(1): 103-114|2001|10.1093/toxsci/62.1.103
68994|T||Luebke,R.W., C.B. Copeland, M. Daniels, A.L. Lambert, and M.I. Gilmour|Suppression of Allergic Immune Responses to House Dust Mite (HDM) in Rats Exposed to 2,3,7,8-TCDD|Toxicol. Sci.62(1): 71-79|2001|10.1093/toxsci/62.1.71
68995|T||Gueye,P.N., S.W. Borron, P. Risede, C. Monier, F. Buneaux, M. Debray, and F.J. Baud|Lack of Effect of Single high Doses of Buprenorphine on Arterial Blood Gases in the Rat|Toxicol. Sci.62(1): 148-154|2001|10.1093/toxsci/62.1.148
68996|T||Latendresse,J.R., R.R. Newbold, C.C. Weis, and K.B. Delclos|Polycystic Kidney Disease Induced in F1 Sprague-Dawley Rats Fed para-Nonylphenol in a Soy-Free, Casein-Containing Diet|Toxicol. Sci.62(1): 140-147|2001|10.1093/toxsci/62.1.140
68997|T||Pottenger,L.H., E.W. Carney, and M.J. Bartels|Dose-Dependent Nonlinear Pharmacokinetics of Ethylene Glycol Metabolites in Pregnant (GD 10) and Nonpregnant Sprague-Dawley Rats Following Oral Administration of Ethylene Glycol|Toxicol. Sci.62(1): 10-19|2001|10.1093/toxsci/62.1.10
68999|T||Marks,C.A., C. Hackman, F. Busana, and F. Gigliotti|Assuring that 1080 Toxicosis in the Red Fox (Vulpes vulpes) is Humane:  Fluoroacetic Acid (1080) and Drug Combinations|Wildl. Res.27(5): 483-494|2000|10.1071/WR99022
69000|T||Henderson,R.J., and C.T. Eason|Acute Toxicity of Cholecalciferol and Gliftor Baits to the European Rabbit, Oryctolagus cuniculus|Wildl. Res.27(3): 297-300|2000|10.1071/WR99048
69001|T||Panwar,R.S., R.S. Balyan, and R.S. Malik|Evaluation of Glufosinate for Control of Weeds in Cotton|Indian J. Weed Sci.32(1/2): 94-95|2000|
69002|T||Pahwa,S.K., and K. Bajaj|Effect of Pre-Emergence Herbicides on the Activity of Ribonuclease and Deoxyribonuclease Enzyme During Germination in Pigeonpea and Carpetweed|Indian J. Weed Sci.32(1/2): 21-24|2000|
69003|T||Neubauer,R., and Z. Avizohar-Hershenson|Effect of the Herbicide, Trifluralin, on Rhizoctonia Disease in Cotton|Phytopathology63:651-652|1973|10.1094/Phyto-63-651
69004|T||Kano,M., F. Ishikawa, S. Matsubara, H. Kikuchi-Hayakawa, and Y. Shimakawa|Soymilk Products Affect Ethanol Absorption and Metabolism in Rats During Acute and Chronic Ethanol Intake|J. Nutr.132(2): 238-244|2002|10.1093/jn/132.2.238
69005|T||Lu,N., J.H. Edwards, R.H. Walker, and J.S. Bannon|Newsprint and Nitrogen Source Interaction on Corn Growth and Grain Yield|In: K.L.Campbell, W.D.Graham, and A.B.Bottcher (Eds.), Proc.2nd Conf.on Environmentally Sound Agriculture, Apr.20-22, 1994, Orlando, FL:431-438|1994|
69006|T||Oncsik,M.B., K. Eged, Z. Kis, and B. Kanyar|A Validation Study for the Transport of 134Cs to Strawberry|J. Environ. Radioact.61(3): 319-329|2002|10.1016/S0265-931X(01)00142-4
69007|T||Wegulo,S.N., J.M. Rivera-Canales, C.A. Martinson, and F.W.,Jr. Nutter|Efficacy of Fungicide Treatments for Control of Common Rust and Northern Leaf Spot in Hybrid Corn Seed Production|Plant Dis.82(5): 547-554|1998|10.1094/PDIS.1998.82.5.547
69008|T||Stall,W.M., and T.A. Bewick|Sweet Corn Cultivars Respond Differentially to the Herbicide Nicosulfuron|Hortscience27(2): 131-133|1992|10.21273/HORTSCI.27.2.131
69009|T||Lee,J.H., L.R. Hossner, M.,Jr. Attrep, and K.S. Kung|Comparative Uptake of Plutonium from Soils by Brassica juncea and Helianthus annuus|Environ. Pollut.120(2): 173-182|2002|10.1016/S0269-7491(02)00167-7
69010|T||Ouyang,Y.|Phytoremediation: Modeling Plant Uptake and Contaminant Transport in the Soil-Plant-Atmosphere Continuum|J. Hydrol. (Amst.)266(1/2): 66-82|2002|10.1016/S0022-1694(02)00116-6
69011|T||Monosson,E., W.R. Kelce, C. Lambright, J. Ostby, and L.E.,Jr. Gray|Peripubertal Exposure to the Antiandrogenic Fungicide, Vinclozolin, Delays Puberty, Inhibits the Development of Androgen-Dependent Tissues, and Alters Androgen Receptor Function in the Male Rat|Toxicol. Ind. Health15:65-79|1999|10.1177/074823379901500107
69014|A||WindWard Environmental|Results of 2001 Toxicity Testing|In: B.J.Cassady (Ed.), Development of Site-Specific Water Quality Criteria for the South Fork Coeur d'Alene River, Idaho:23 p.|2001|
69015|A||WindWard Environmental|Results of 2000 Toxicity Testing|In: B.J.Cassady (Ed.), Development of Site-Specific Water Quality Criteria for the Segment of the South Fork Coeur d'Alene River from Daisy Gulch to Wallace, Idaho:56 p.|2001|
69016|A||WindWard Environmental|Results of 1999 Toxicity Testing|In: B.J.Cassady (Ed.), Development of Site-Specific Water Quality Criteria for the Segment of the South Fork Coeur d'Alene River from Wallace to Daisy Gulch, Idaho:64 p.|2000|
69017|A||EVS Environmental Consultants Inc.|Technical Memorandum:  Results of 1998 Fish Collection Effort and Toxicity Testing|In: B.J.Cassady (Ed.), Development of Site-Specific Water Quality Criteria for the South Fork Coeur d'Alene River, Idaho:40 p.|1998|
69018|A||EVS Environmental Consultants Inc.|Technical Memorandum - Results of 1997 Acute and Chronic Toxicity Tests|In: B.J.Cassady (Ed.), Preliminary Draft, Development of Site-Specific Water Quality Criteria, Environment Consultants, Seattle, WA:76 p.|1997|
69019|A||EVS Environmental Consultants Inc.|Technical Memorandum - Results of Range-Finding Tests|In: B.J.Cassady (Ed.), Preliminary Draft, Development of Site-Specific Water Quality Criteria, Environment Consultants, Seattle, WA:38 p.|1996|
69020|A||ENSR International|Application of the Biotic Ligand Model (BLM):  Copper at Selected Locations in the Taunton River Basin in Massachusetts|ENSR Corporation Document 8734-324-100. Massachusetts Department of Environment Protection, Westford, MA:943 p.|2002|
69060|T||Aoyagi,S., K.M. Hiney, and D.H. Baker|Estimates of Zinc and Iron Bioavailability in Pork Liver and the Effect of Sex of Pig on the Bioavailability of Copper in Pork Liver Fed to Male and Female Chicks|J. Anim. Sci.73:793-798|1995|10.2527/1995.733793x
69061|T||Apgar,G.A., and E.T. Kornegay|Mineral Balance of Finishing Pigs Fed Copper Sulfate or a Copper-Lysine Complex at Growth-Stimulating Levels|J. Anim. Sci.74:1594-1600|1996|10.2527/1996.7471594x
69062|T||Apgar,G.A., E.T. Kornegay, M.D. Lindemann, and D.R. Notter|Evaluation of Copper Sulfate and a Copper Lysine Complex as Growth Promoters for Weanling Swine|J. Anim. Sci.73:2640-2646|1995|10.2527/1995.7392640x
69063|T||Arthington,J.D., L.R. Corah, J.E. Minton, T.H. Elsasser, and F. Blecha|Supplemental Dietary Chromium does not Influence ACTH, Cortisol, or Immune Responses in Young Calves Inoculated with Bovine Herpesvirus-1|J. Anim. Sci.75:217-223|1997|10.2527/1997.751217x
69064|T||Bailey,J.D., R.P. Ansotegui, J.A. Paterson, C.K. Swenson, and A.B. Johnson|Effects of Supplementing Combinations of Inorganic and Complexed Copper on Performance and Liver Mineral Status of Beef Heifers Consuming Antagonists|J. Anim. Sci.79:2926-2934|2001|10.2527/2001.79112926x
69065|T||Bruckdorfer,K.R., I.H. Khan, and J. Yudkin|The Effect of Chromium on the Hyperlipaemic Action of Sucrose|Nutr. Metab.13:36-43|1971|10.1159/000175316
69066|T||Cromwell,G.L., M.D. Lindemann, H.J. Monegue, D.D. Hall, and D.E.,Jr. Orr|Tribasic Copper Chloride and Copper Sulfate as Copper Sources for Weanling Pigs|J. Anim. Sci.76:118-123|1998|10.2527/1998.761118x
69067|T||Engle,T.E., and J.W. Spears|Dietary Copper Effects on Lipid Metabolism, Performance, and Ruminal Fermentation in Finishing Steers|J. Anim. Sci.78:2452-2458|2000|10.2527/2000.7892452x
69068|T||Engle,T.E., and J.W. Spears|Effects of Dietary Copper Concentration and Source on Performance and Copper Status of Growing and Finishing Steers|J. Anim. Sci.78:2446-2451|2000|10.2527/2000.7892446x
69069|T||Engle,T.E., and J.W. Spears|Performance, Carcass Characteristics, and Lipid Metabolism in Growing and Finishing Simmental Steers fed Varying Concentrations of Copper|J. Anim. Sci.79:2920-2925|2001|10.2527/2001.79112920x
69070|T||Engle,T.E., J.W. Spears, L. Xi, and F.W. Edens|Dietary Copper Effects on Lipid Metabolism and Circulating Catecholamine Concentrations in Finishing Steers|J. Anim. Sci.78:2737-2744|2000|10.2527/2000.78102737x
69071|T||Engle,T.E., J.W. Spears, T.A. Armstrong, C.L. Wright, and J. Odle|Effects of Dietary Copper Source and Concentration on Carcass Characteristics and Lipid and Cholesterol Metabolism in Growing and Finishing Steers|J. Anim. Sci.78:1053-1059|2000|10.2527/2000.7841053x
69072|T||Engle,T.E., J.W. Spears, V. Fellner, and J. Odle|Effects of Soybean Oil and Dietary Copper on Ruminal and Tissue Lipid Metabolism in Finishing Steers|J. Anim. Sci.78:2713-2721|2000|10.2527/2000.78102713x
69073|T||Enjalbert,F., P. Lebreton, O. Salat, and F. Schelcher|Effects of Pre- or Postpartum Selenium Supplementation on Selenium Status in Beef Cows and Their Calves|J. Anim. Sci.77(1): 223-229|1999|10.2527/1999.771223x
69074|T||Gribble,R.E.,Jr.|Blood Chemistry Rhythm Entrainment in Mice:  An Analysis of Effects from Chromium Poisoning|Int. J. Chronobiol.2:313-319|1974|
69075|T||Gunter,S.A., P.A. Beck, and J.M. Phillips|Effects of Supplementary Selenium Source on the Performance and Blood Measurements in Beef Cows and Their Calves|J. Anim. Sci.81:856-864|2003|10.2527/2003.814856x
69076|T||Guo,R., P.R. Henry, R.A. Holwerda, J. Cao, R.C. Littell, R.D. Miles, and C.B. Ammerman|Chemical Characteristics and Relative Bioavailability of Supplemental Organic Copper Sources for Poultry|J. Anim. Sci.79:1132-1141|2001|10.2527/2001.7951132x
69077|T||Hatfield,P.G., C.K. Swenson, R.W. Kott, R.P. Ansotegui, N.J. Roth, and B.L. Robinson|Zinc and Copper Status in Ewes Supplemented with Sulfate- and Amino Acid-Complexed Forms of Zinc and Copper|J. Anim. Sci.79:261-266|2001|10.2527/2001.791261x
69078|T||Kegley,E.B., and J.W. Spears|Immune Response, Glucose Metabolism, and Performance of Stressed Feeder Calves Fed Inorganic or Organic Chromium|J. Anim. Sci.73:2721-2726|1995|10.2527/1995.7392721x
69079|T||Kim,Y.Y., and D.C. Mahan|Comparative Effects of High Dietary Levels of Organic and Inorganic Selenium on Selenium Toxicity of Growing-Finishing Pigs|J. Anim. Sci.79:942-948|2001|10.2527/2001.794942x
69080|T||Kim,Y.Y., and D.C. Mahan|Effect of Dietary Selenium Source, Level, and Pig Hair Color on Various Selenium Indices|J. Anim. Sci.79:949-955|2001|10.2527/2001.794949x
69081|T||Kim,Y.Y., and D.C. Mahan|Prolonged Feeding of High Dietary Levels of Organic and Inorganic Selenium to Gilts from 25 kg Body Weight Through One Parity|J. Anim. Sci.79:956-966|2001|10.2527/2001.794956x
69082|T||Ko,Y.G., I.K. Han, J.K. Ha, and S.K. Kim|Effects of Copper and Sulfur Sources on the Performance of Broiler Chicks|Korean J. Anim. Sci.27(10): 651-654|1985|
69083|T||Lee,S.H., T.E. Engle, and K.L. Hossner|Effects of Dietary Copper on the Expression of Lipogenic Genes and Metabolic Hormones in Steers|J. Anim. Sci.80:1999-2005|2002|10.2527/2002.8071999x
69084|T||Luo,X.G., and C.R. Dove|Effect of Dietary Copper and Fat on Nutrient Utilization, Digestive Enzyme Activities, and Tissue Mineral Levels in Weanling Pigs|J. Anim. Sci.74:1888-1896|1996|10.2527/1996.7481888x
69085|T||Mahan,D.C.|Effect of Organic and Inorganic Selenium Sources and Levels on Sow Colostrum and Milk Selenium Content|J. Anim. Sci.78:100-105|2000|10.2527/2000.781100x
69086|T||Mahan,D.C., and N.A. Parrett|Evaluating the Efficacy of Selenium-Enriched Yeast and Sodium Selenite on Tissue Selenium Retention and Serum Glutathione Peroxidase Activity in Grower and Finisher Swine|J. Anim. Sci.74:2967-2974|1996|10.2527/1996.74122967x
69087|T||Marin-Guzman,J., D.C. Mahan, Y.K. Chung, J.L. Pate, and W.F. Pope|Effects of Dietary Selenium and Vitamin E on Boar Performance and Tissue Responses, Semen Quality, and Subsequent Fertilization Rates in Mature Gilts|J. Anim. Sci.75:2994-3003|1997|10.2527/1997.75112994x
69088|T||Marin-Guzman,J., D.C. Mahan, and J.L. Pate|Effect of Dietary Selenium and Vitamin E on Spermatogenic Development in Boars|J. Anim. Sci.78:1537-1543|2000|10.2527/2000.7861537x
69089|T||Matuk,Y., M. Ghosh, and C. McCulloch|Distribution of Silver in the Eyes and Plasma Proteins of the Albino Rat|Can. J. Ophthamol.16:145-150|1981|
69090|T||Maurice,D.V., and L.S. Jensen|Reduction of Hepatic Lipid Deposition in Laying Hens by Dietary Selenium-Yeast Interaction|Poult. Sci.58:1548-1556|1979|10.3382/ps.0581548
69091|T||Mooney,K.W., and G.L. Cromwell|Efficacy of Chromium Picolinate and Chromium Chloride as Potential Carcass Modifiers in Swine|J. Anim. Sci.75:2661-2671|1997|10.2527/1997.75102661x
69092|T||Moonsie-Shageer,S., and D.N. Mowat|Effect of Level of Supplemental Chromium on Performance, Serum Constituents, and Immune Status of Stressed Feeder Calves|J. Anim. Sci.71:232-238|1993|10.2527/1993.711232x
69093|T||Muehlenbein,E.L., D.R. Brink, G.H. Deutscher, M.P. Carlson, and A.B. Johnson|Effects of Inorganic and Organic Copper Supplemented to First-Calf Cows on Cow Reproduction and Calf Health and Performance|J. Anim. Sci.79:1650-1659|2001|10.2527/2001.7971650x
69094|T||O'Grady,M.N., F.J. Monahan, R.J. Fallon, and P. Allen|Effects of Dietary Supplementation with Vitamin E and Organic Selenium on the Oxidative Stability of Beef|J. Anim. Sci.79:2827-2834|2001|10.2527/2001.79112827x
69096|T||Ortman,K., and B. Pehrson|Effect of Selenate as a Feed Supplement to Dairy Cows in Comparison to Selenite and Selenium Yeast|J. Anim. Sci.77:3365-3370|1999|10.2527/1999.77123365x
69097|T||Pechova,A., A. Podhorsky, E. Lokajova, L. Pavlata, and J. Illek|Metabolic Effects of Chromium Supplementation in Dairy Cows in the Peripartal Period|Acta Vet. Brno71:9-18|2002|10.2754/avb200271010009
69098|T||Pehrson,B., K. Ortman, N. Madjid, and U. Trafikowska|The Influence of Dietary Selenium as Selenium Yeast or Sodium Selenite on the Concentration of Selenium in the Milk of Suckler Cows and on the Selenium Status of Their Calves|J. Anim. Sci.77:3371-3376|1999|10.2527/1999.77123371x
69099|T||Pribyl,T., V. Schreiber, and J. Jahodova|Inhibition of Rat Serum Polyphenoloxidase Activity by Silver Ions Abolished by Administration of Copper Ions|Folia Biol. (Prague)26(1): 47-52|1980|
69100|T||Samsell,L.J., and J.W. Spears|Chromium Supplementation Effects on Blood Constituents in Lambs Fed High or Low Fiber Diets|Nutr. Res.9:889-899|1989|10.1016/S0271-5317(89)80034-X
69101|T||Sandoval,M., P.R. Henry, C.B. Ammerman, R.D. Miles, and R.C. Littell|Relative Bioavailability of Supplemental Inorganic Zinc Sources for Chicks|J. Anim. Sci.75:3195-3205|1997|10.2527/1997.75123195x
69102|T||Sandoval,M., P.R. Henry, R.C. Littell, R.D. Miles, G.D. Butcher, and C.B. Ammerman|Effect of Dietary Zinc Source and Method of Oral Administration on Performance and Tissue Trace Mineral Concentration of Broiler Chicks|J. Anim. Sci.77:1788-1799|1999|10.2527/1999.7771788x
69103|T||Sauveur,B., and J.L. Thapon|Effects of Dietary Maize Solubles and Minerals on Albumen Quality of Fresh and Stored Brown-Shelled Eggs|Anim. Feed Sci. Technol.8:177-189|1983|10.1016/0377-8401(83)90082-2
69104|T||Van Heugten,E., and J.W. Spears|Immune Response and Growth of Stressed Weanling Pigs Fed Diets Supplemented with Organic or Inorganic Forms of Chromium|J. Anim. Sci.75:409-416|1997|10.2527/1997.752409x
69106|A||U.S. Department of the Army|1969 Study with Kuron|U.S.EPA-OPP Registration Standard:|1969|
69107|A||McCann,J.A.|Sanocide Seed Protectant|Unpublished Rep., Test No.122, I.D.No.63993, Test Period Oct.20-22, 1968, Anim.Biol.Lab., Beltsville, MD:10 p.|1968|
69108|A||Mastri|Nalco D-2303 Study (PC Code 064210)|U.S.EPA-OPP Registration Standard:|1968|
69165|T||Sandoval,M., P.R. Henry, X.G. Luo, R.C. Littell, R.D. Miles, and C.B. Ammerman|Performance and Tissue Zinc and Metallothionein Accumulation in Chicks Fed a High Dietary Level of Zinc|Poult. Sci.77:1354-1363|1998|10.1093/ps/77.9.1354
69166|T||Hegazy,S.M., and Y. Adachi|Comparison of the Effects of Dietary Selenium, Zinc, and Selenium and Zinc Supplementation on Growth and Immune Response Between Chick Groups that Were Inoculated with Salmonella and Aflatoxin or Salmonella|Poult. Sci.79:331-335|2000|10.1093/ps/79.3.331
69167|T||Alodan,M.A., and M.M. Mashaly|Effect of Induced Molting in Laying Hens on Production and Immune Parameters|Poult. Sci.78:171-177|1999|10.1093/ps/78.2.171
69173|A||Henderson,R.S.|Effects of Organotin Antifouling Paint Leachates on Pearl Harbor Organisms:  A Site Specific Flowthrough Bioassay|In: Oceans 86, IEEE Publishing Services, New York, NY:1226-1233|1986|
69175|A||Vodicnik,M.J., and J.J. Lech|The Effect of Sex Steroids and Pregnenolone-16alpha-Carbonitrile on the Hepatic Microsomal Monooxygenase System of Rainbow Trout (Salmo gairdneri)|J. Steroid Biochem.18:323-328|1983|10.1016/0022-4731(83)90110-3
69176|A||Kobayashi,M., K. Aida, and N.E. Stacey|Induction of Testis Development by Implantation of 11-Ketotestosterone in Female Goldfish|Zool. Sci.8(2): 389-393|1991|
69177|A||Gibbs,P.E.|Oviduct Malformation as a Sterilising Effect of Tributyltin (TBT)-Induced Imposex in Ocenebra erinacea (Gastropoda:  Muricidae)|J. Molluscan Stud.62:403-413|1996|10.1093/mollus/62.4.403
69178|T||Okuno,Y., and K. Miyata|Effects of an Endocrine Disruptor on Male Reproductive Organs|J. Toxicol. Pathol.14(1): 79-82|2001|10.1293/tox.14.79
69185|A||Jobling,S., and J.P. Sumpter|Detergent Components in Sewage Effluent are Weakly Oestrogenic to Fish: An In Vitro Study Using Rainbow Trout (Oncorhynchus mykiss) Hepatocytes|Aquat. Toxicol.27:361-372|1993|10.1016/0166-445X(93)90064-8
69200|T||Ura,K., T. Kai, S. Sakata, T. Iguchi, and K. Arizono|Aquatic Acute Toxicity Testing Using the Nematode Caenorhabditis elegans|J. Health Sci.48(6): 583-586|2002|10.1248/jhs.48.583
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69310|T||Markkola,A.M., U. Ahonen-Jonnarth, M. Roitto, R. Strommer, and M. Hyvarinen|Shift in Ectomycorrhizal Community Composition in Scots Pine (Pinus sylvestris L.) Seedling Roots as a Response to Nickel Deposition and Removal of Lichen Cover|Environ. Pollut.120(3): 797-803|2002|10.1016/S0269-7491(02)00168-9
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69313|T||Vieira,R.F., C.M.M.S. Silva, A.H.N. Maia, E.F. Fay, and K.C. Coelho|An Appraisal of Five Methods for the Measurement of the Fungal Population in Soil Treated with Chlorothalonil|Pest Manag. Sci.56(5): 431-440|2000|10.1002/(SICI)1526-4998(200005)56:5<431::AID-PS157>3.0.CO;2-U
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69315|T||Cox,R.M.|Sensitivity of Forest Plant Reproduction to Long-Range Transported Air Pollutants:  The Effects of Wet Deposited Acidity and Copper on Reproduction of Populus tremuloides|New Phytol.110(1): 33-38|1988|10.1111/j.1469-8137.1988.tb00234.x
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69318|T||Nath,B.S.|Changes in Carbohydrate Metabolism in Hemolymph and Fat Body of the Silkworm, Bombyx mori L., Exposed to Organophosphorus Insecticides|Pestic. Biochem. Physiol.68(3): 127-137|2000|10.1006/pest.2000.2509
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69330|T||Crawford,L.A., N.W. Lepp, and I.D. Hodkinson|Accumulation and Egestion of Dietary Copper and Cadmium by the Grasshopper Locusta migratoria R & F (Orthoptera:  Acrididae)|Environ. Pollut.92(3): 241-246|1996|10.1016/0269-7491(96)00004-8
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69358|A||Varghese,G., P.S. Naik, and M. Katdare|Physiological Modulations in Cardiac Rhythms of Crab Barytelphusa cunicularis (Westwood) Induced by Heavy Metals|Indian J. Exp. Biol.28(12): 1187-1190|1990|
69359|A||Wahbeh,M.I., and M.B. Zughul|Toxicity and Accumulation of Cadmium, Copper and Zinc in Two Bivalve Species from Aqaba, Jordan|Dirasat Ser. B Pure Appl. Sci.22(6): 1573-1590|1995|
69360|T||Gerard,S., M.C. Fabre, and M. Descamps|Cadmium Kinetics in Lithobius forficatus (L.) During Experimental Contamination and Decontamination (La Cinetique du Cadmium chez Lithobius forficatus (L.) au Cours d'une Experience de Contamination et de Decontaminatio|Mem. Mus. Natl. Hist. Nat.169:391-394|1996|
69361|T||Deole,S.A., S.N. Bodhade, L.B. Mahajan, V.Y. Deotale, and B.K. Sharnagat|Residual Toxicity of Some Pesticides Used in Cotton Pest Management Against a Chrysopid, (C. carnea)|J. Soils Crops10(2): 279-281|2000|
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69374|T||Mansour,S.A., and M.K. Al-Jalili|Pesticides and Beneficial Organisms:  I - The Response of Two Honey Bee Races to Certain Insecticides|Pesticides 19:39-40|1985|
69375|T||Cadogan,B.L., R.D. Scharbach, R.E. Krause, and K.R. Knowles|Evaluation of Tebufenozide Carry-Over and Residual Effects on Spruce Budworm (Lepidoptera:  Tortricidae)|J. Econ. Entomol.95(3): 578-586|2002|10.1603/0022-0493-95.3.578
69376|T||Levot,G.W., and N. Sales|Susceptibility to Ivermectin of Larvae of Australian Sheep Blowfly, Lucilia cuprina (Wiedemann) (Diptera:  Calliphoridae)|Aust. J. Entomol.41(1): 75-78|2002|10.1046/j.1440-6055.2002.00255.x
69377|T||Zhao,J.Z., Y.X. Li, H.L. Collins, L. Gusukuma-Minuto, R.F.L. Mau, G.D. Thompson, and A.M. Shelton|Monitoring and Characterization of Diamondback Moth (Lepidoptera:  Plutellidae) Resistance to Spinosad|J. Econ. Entomol.95(2): 430-436|2002|10.1603/0022-0493-95.2.430
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69379|T||Kohra,S., K. Kuwahara, Y. Takao, Y. Ishibashi, H.C. Lee, K. Arizono, and N. Tominaga|Effect of Bisphenol A on the Feeding Behavior of Caenorhabditis elegans|J. Health Sci.48(1): 93-95|2002|10.1248/jhs.48.93
69380|T||Benesch,J.A., and M.S. Gustin|Uptake of Trifluoroacetate by Pinus ponderosa via Atmospheric Pathway|Atmos. Environ.36(7): 1233-1235|2002|10.1016/S1352-2310(01)00562-3
69381|T||Mori,K., T. Okumoto, N. Kawahara, and Y. Ozoe|Interaction of Dinotefuran and Its Analogues with Nicotinic Acetylcholine Receptors of Cockroach Nerve Cords|Pest Manag. Sci.58(2): 190-196|2001|10.1002/ps.437
69382|T||Spurgeon,D.W., J.R. Raulston, and M. Marquette|Toxicity of Ingested Photoactive Dyes to Adults of the Boll Weevil (Coleoptera:  Curculionidae)|Southwest. Entomol.27(2): 165-176|2002|
69384|T||Sogawa,N., K. Onodera, C.A. Sogawa, Y. Mukubo, H. Fukuoka, N. Oda, and H. Furuta|Bisphenol A Enhances Cadmium Toxicity Through Estrogen Receptor|Methods Find. Exp. Clin. Pharmacol.23(7): 395-399|2001|10.1358/mf.2001.23.7.662127
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69393|T||Reddy,A.S., and T.A. Rao|Effect of Insecticides and Plant Hormones on Growth and Yield of Cotton|Pesticides 15(5): 27-28|1981|
69394|T||Hill,K.A., L.W. Lion, and B.A. Ahner|Reduced Cd Accumulation in Zea mays:  A Protective Role for Phytosiderophores?|Environ. Sci. Technol.36(24): 5363-5368|2002|10.1021/es020695z
69395|T||Brun,L.A., J. Le Corff, and J. Maillet|Effects of Elevated Soil Copper on Phenology, Growth and Reproduction of Five Ruderal Plant Species|Environ. Pollut.122(3): 361-368|2003|10.1016/S0269-7491(02)00312-3
69396|T||Shu,W.S., Z.H. Ye, C.Y. Lan, Z.Q. Zhang, and M.H. Wong|Lead, Zinc and Copper Accumulation and Tolerance in Populations of Paspalum distichum and Cynodon dactylon|Environ. Pollut.120(2): 445-453|2002|10.1016/S0269-7491(02)00110-0
69397|T||Uveges,J.L., A.L. Corbett, and T.K. Mal|Effects of Lead Contamination on the Growth of Lythrum salicaria (Purple Loosestrife)|Environ. Pollut.120(2): 319-323|2002|10.1016/S0269-7491(02)00144-6
69398|T||Siekierska,E., and D. Urbanska-Jasik|Cadmium Effect on the Ovarian Structure in Earthworm Dendrobaena veneta (Rosa)|Environ. Pollut.120(2): 289-297|2002|10.1016/S0269-7491(02)00152-5
69399|T||Beeby,A., L. Richmond, and F. Herpe|Lead Reduces Shell Mass in Juvenile Garden Snails (Helix aspersa)|Environ. Pollut.120(2): 283-288|2002|10.1016/S0269-7491(02)00151-3
69400|T||Coeurdassier,M., A. Gomot-De Vaufleury, C. Lovy, and P.M. Badot|Is the Cadmium Uptake from Soil Important in Bioaccumulation and Toxic Effects for Snails?|Ecotoxicol. Environ. Saf.53(3): 425-431|2002|10.1016/S0147-6513(02)00004-0
69401|T||Wlostowski,T., A. Krasowska, and E. Bonda|An Iron-Rich Diet Protects the Liver and Kidneys Against Cadmium-Induced Injury in the Bank Vole (Clethrionomys glareolus)|Ecotoxicol. Environ. Saf.54(2): 194-198|2003|10.1016/S0147-6513(02)00053-2
69402|T||Dodard,S.G., A.Y. Renoux, J. Powlowski, and G.I. Sunahara|Lethal and Subchronic Effects of 2,4,6-Trinitrotoluene (TNT) on Enchytraeus albidus in Spiked Artificial Soil|Ecotoxicol. Environ. Saf.54(2): 131-138|2003|10.1016/S0147-6513(02)00046-5
69403|T||Boily,M.H., A. Ndayibagira, and P.A. Spear|Retinoid Metabolism (LRAT, REH) in the Yolk-Sac Membrane of Japanese Quail Eggs and Effects of Mono-ortho-PCBs|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(1): 11-23|2003|10.1016/S1532-0456(02)00146-1
69404|T||Zakrzewska,M., D. Bialonska, and K. Sawicka-Kapusta|Cadmium Accumulation in Fetus and Placenta of Bank Voles (Clethrionomys glareolus, Schreber 1780)|Bull. Environ. Contam. Toxicol.69(6): 829-834|2002|10.1007/s00128-002-0134-2
69405|T||Pereira,G.J.G., S.M.G. Molina, P.J. Lea, and R.A. Azevedo|Activity of Antioxidant Enzymes in Response to Cadmium in Crotalaria juncea|Plant Soil239(1): 123-132|2002|10.1023/A:1014951524286
69406|T||Stasinakis,P., V. Katsares, and P. Mavragani-Tsipidou|Organophosphate Resistance and Allelic Frequencies of Esterases in the Olive Fruit Fly Bactrocera oleae (Diptera: Tephritidae)|J. Agric. Urban Entomol.18(3): 157-168|2001|
69407|T||Panwar,B.S., K.S. Ahmed, and S.B. Mittal|Phytoremediation of Nickel-Contaminated Soils by Brassica Species|Environ. Dev. Sustain.4(1): 1-6|2002|10.1023/A:1016337132370
69408|T||Mazariego-Arana,M.A., E. Ramirez-San Juan, R. Alejandre-Aguilar, and B. Nogueda-Torres|Activity and Residual Effect of Two Formulations of Lambdacyhalothrin Sprayed on Palm Leaves to Rhodnius prolixus|Mem. Inst. Oswaldo Cruz97(3): 353-357|2002|10.1590/S0074-02762002000300014
69409|T||Al-Obaid,A.M., and A.R. Hashem|Effect of Heavy Metals on Growth of Some Fungi Isolated from Industrial Yanbu City, Saudi Arabia|Geobios (Jodhpur)23(2): 107-111|1996|
69410|T||Hashem,A.R.|Effect of Heavy Metal Ions on the Mycelial Growth of Some Fungi Isolated from the Soil of Al-Jubail Industrial City, Saudi Arabia|J. King Saud Univ. Sci.9(Science 2): 119-124|1997|
69411|T||Guerrero,F.D., M.W.,Jr. Alison, D.M. Kammlah, and L.D. Foil|Use of the Polymerase Chain Reaction to Investigate the Dynamics of Pyrethroid Resistance in Haematobia irritans irritans (Diptera: Muscidae)|J. Med. Entomol.39(5): 747-754|2002|10.1603/0022-2585-39.5.747
69412|T||Guerrero,F.D., A.Y. Li, and R. Hernandez|Molecular Diagnosis of Pyrethroid Resistance in Mexican Strains of Boophilus microplus (Acari:  Ixodidae)|J. Med. Entomol.39(5): 770-776|2002|10.1603/0022-2585-39.5.770
69414|T||Lal,O.P., R.K. Palta, and Y.N.S. Srivastava|Impact of Imidacloprid and Carbofuran on Earthworm Castings in Okra Field|Ann. Plant Prot. Sci.9(1): 137-138|2001|
69415|T||Devkota,B., and G.H. Schmidt|Effect of Mercury (Hg2+) on the Life Span and Development of Eyprepocnemis plorans (Charp.) (Orthopteroidea, Caelifera, Acrididae)|Boll. Lab. Entomol. Agrar. Filippo Silvestri Portici55:113-125|1999|
69416|A||Arnegard,M.E., P.V. McCormick, and J.,Jr. Cairns|Effects of Copper on Periphyton Communities Assessed In Situ Using Chemical-Diffusing Substrates|Hydrobiologia (Multiple Languages)385:163-170|1998|10.1023/A:1003516011628
69417|T||De Freitas,A.S., and R.J. Norstrom|Turnover and Metabolism of Polychlorinated Biphenyls in Relation to Their Chemical Structure and the Movement of Lipids in the Pigeon|Can. J. Physiol. Pharmacol.52:1080-1094|1974|10.1139/y74-142
69418|T||Van de Vrie,M.|The Effect of Some Pesticides on the Predatory Bugs Anthocoris nemorum L. and Orius spec. and on the Woolly Aphid Parasite Aphelinus mali Hald.|Entomophaga3:95-101|1967|
69419|T||Rosen,D.|Effect of Commercial Pesticides on the Fecundity and Survival of Aphytis holoxanthus (Hymenoptera:  Aphelinidae)|Isr. J. Agric. Res.17:47-52|1967|
69420|T||Bhandal,I.S., and H. Kaur|Heavy Metal Inhibition of Nitrate Uptake and In Vivo Nitrate Reductase in Roots of Wheat (Triticum aestivum L.)|Indian J. Plant Physiol.35(3): 281-284|1992|
69421|T||Ferro,E.A., A.R. De Arias, M.E. Ferreira, L.C. Simancas, L.S. Rios, and J.M. Rosner|Residual Effect of Lambdacyhalothrin on Triatoma infestans|Mem. Inst. Oswaldo Cruz90(3): 415-419|1995|10.1590/S0074-02761995000300019
69422|T||Glasgow,L.L.|Studies on the Effect of the Imported Fire Ant Control Program on Wildlife in Louisiana|Proc. Southeast. Assoc. Game Fish Comm.:250-255|1958|
69423|T||Getzin,L.W., and C.H.,Jr. Shanks|Persistence, Degradation, and Bioactivity of Phorate and Its Oxidative Analogues in Soil|J. Econ. Entomol.63(1): 52-58|1970|10.1093/jee/63.1.52
69424|T||Durham,S.K., and A. Brouwer|3,4,3',4'-Tetrachlorobiphenyl Distribution and Induced Effects in the Rat Adrenal Gland:  Localization in the Zona Fasiculata|Lab. Invest.62(2): 232-239|1990|
69425|T||Kapoor,A., T. Viraraghavan, and D.R. Cullimore|Removal of Heavy Metals Using the Fungus Aspergillus niger|Bioresour. Technol.70(1): 95-104|1999|10.1016/S0960-8524(98)00192-8
69426|T||Welfare,K., A.R. Yeo, and T.J. Flowers|Effects of Salinity and Ozone, Individually and in Combination, on the Growth and Ion Contents of Two Chickpea (Cicer arietinum L.) Varieties|Environ. Pollut.120(2): 397-403|2002|10.1016/S0269-7491(02)00109-4
69427|T||Sawidis,T.|Accumulation and Effects of Heavy Metals in Lilium Pollen|Acta Hortic.437:153-158|1997|10.17660/ActaHortic.1997.437.14
69428|T||Roy,S.B., and A.K. Bera|Individual and Combined Effect of Mercury and Manganese on Phenol and Proline Content in Leaf and Stem of Mungbean Seedlings|J. Environ. Biol.23(4): 433-435|2002|
69429|T||Roy,S.B., and A.K. Bera|Amelioration of Mercurial Toxicity by Manganese. I. A Case Study in Mung Bean Seedling|J. Environ. Biol.23(3): 321-323|2002|
69430|T||Sinha,S., S. Mukherji, and J. Dutta|Effect of Manganese Toxicity on Pigment Content, Hill Activity and Photosynthetic Rate of Vigna radiata L. Wilczek Seedlings|J. Environ. Biol.23(3): 253-257|2002|
69431|T||Howe,R., R.L. Evans, and S.W. Ketteridge|Copper-Binding Proteins in Ectomycorrhizal Fungi|New Phytol.135(1): 123-131|1997|10.1046/j.1469-8137.1997.00622.x
69432|T||Saleh,A.A.H., S.A. El-Meleigy, F.A. Ebad, M.A. Helmy, G. Jentschke, and D.L. Godbold|Base Cations Ameliorate Zn Toxicity but not Cu Toxicity in Sugar Beet (Beta vulgaris)|J. Plant Nutr. Soil Sci.162(3): 275-279|1999|10.1002/(SICI)1522-2624(199906)162:3<275::AID-JPLN275>3.0.CO;2-Z
69433|T||Takao,T., W. Nanamiya, H.P. Nazarloo, K. Asaba, and K. Hashimoto|Possible Reproductive Toxicity of Styrene in Peripubertal Male Mice|Endocr. J.47(3): 343-347|2000|10.1507/endocrj.47.343
69435|T||Hirose,M., A. Nishikawa, M. Shibutani, and K. Mitsumori|Environmental Agents, Endocrine Disrupting Chemicals and Rat Thyroid Carcinogenesis|J. Toxicol. Pathol.14(1): 71-77|2001|10.1293/tox.14.71
69436|T||Guillette,L.J.,Jr., D.O. Norris, and M.F. Norman|Response of Amphibian (Ambystoma tigrinum) Oviduct to Arginine Vasotocin Acetylcholine In Vitro:  Influence of Steroid Hormone Pretreatment In Vivo|Comp. Biochem. Physiol. C Comp. Pharmacol.80(1): 151-154|1985|10.1016/0742-8413(85)90147-1
69438|T||Ashby,J.|Testing for Endocrine Disruption Post-EDSTAC:  Extrapolation of Low Dose Rodent Effects to Humans|Toxicol. Lett.120(1-3): 233-242|2001|10.1016/S0378-4274(01)00299-5
69439|T||Jewess,P.J., M.W. Kerr, and D.P. Whitaker|Inhibition of Glycollate Oxidase from Pea Leaves|FEBS Lett.53(3): 292-296|1975|10.1016/0014-5793(75)80039-1
69440|T||Ostby,J., W.R. Kelce, C. Lambright, C.J. Wolf, P. Mann, and L.E.,Jr. Gray|The Fungicide Procymidone Alters Sexual Differentiation in the Male Rat by Acting as an Androgen-Receptor Antagonist In Vivo and In Vitro|Toxicol. Ind. Health15:80-93|1999|10.1177/074823379901500108
69442|T||Ellis,J.M., J.L. Griffin, and C.A. Jones|Effect of Carrier Volume on Corn (Zea mays) and Soybean (Glycine max) Response to Simulated Drift of Glyphosate and Glufosinate|Weed Technol.16:587-592|2002|10.1614/0890-037X(2002)016[0587:EOCVOC]2.0.CO;2
69443|T||Ellis,J.M., and J.L. Griffin|Soybean (Glycine max) and Cotton (Gossypium hirsutum) Response to Simulated Drift of Glyphosate and Glufosinate|Weed Technol.16:580-586|2002|10.1614/0890-037X(2002)016[0580:SGMACG]2.0.CO;2
69444|T||Levan,A.|Cytological Reactions Induced by Inorganic Salt Solutions|Nature156(3973): 751-752|1945|10.1038/156751a0
69445|T||Amer,S.M., A.A.S. Ibrahim, and K.M. El-Sherbeny|Induction of Chromosomal Aberrations and Sister Chromatid Exchange In Vivo and In Vitro by the Insecticide Cypermethrin|J. Appl. Toxicol.13(5): 341-345|1993|10.1002/jat.2550130508
69446|A||Grabowski,J., P. Baker, and P. Scully|Toxicity Measurements Using Fluorogenic Compounds|Proc. SPIE2503:78-88|1995|10.1117/12.221086
69454|A||Horne,A.J.|Selenium Detoxification in Wetlands by Permanent Flooding:  I.  Effects on a Macroalga, an Epiphytic Herbivore, and an Invertebrate Predator in the Long-Term Mesocosm Experiment at Kesterson Reservoir, California|Water Air Soil Pollut.57/58:43-52|1991|10.1007/BF00282867
69456|A||Braddon-Galloway,S., and J.E. Balthrop|Se-Dependent GSH-Peroxidase Isolated from Black Sea Bass (Centropristis striata)|Comp. Biochem. Physiol. C Comp. Pharmacol.82(2): 297-300|1985|10.1016/0742-8413(85)90166-5
69460|T||Heinz,G.H., and M.A. Fitzgerald|Reproduction of Mallards Following Overwinter Exposure to Selenium|Environ. Pollut.81(2): 117-122|1993|10.1016/0269-7491(93)90075-Y
69465|A||Fan,T.W.M., A.N. Lane, and R.M. Higashi|Selenium Biotransformations by a Euryhaline Microalga Isolated from a Saline Evaporation Pond|Environ. Sci. Technol.31:569-576|1997|10.1021/es960471e
69466|T||Stickel,L.F., and R.G. Heath|Wildlife Studies, Patuxent Wildlife Research Center|In: Fish and Wildl Serv.Circ.226, Effects of Pesticides on Fish and Wildlife, 1964 Research Findings of the Fish and Wildlife Service, Washington, D.C.:30 p.|1965|
69467|A||Riedel,G.F., D.P. Ferrier, and J.G. Sanders|Uptake of Selenium by Freshwater Phytoplankton|Water Air Soil Pollut.57/58:23-30|1991|10.1007/BF00282865
69468|A||Luoma,S.N., C. Johns, N.S. Fisher, N.A. Steinberg, R.S. Oremland, and J.R. Reinfelder|Determination of Selenium Bioavailability to a Benthic Bivalve from Particulate and Solute Pathways|Environ. Sci. Technol.26(3): 485-491|1992|10.1021/es00027a005
69469|A||Goss,L.B., J.M. Jackson, H.B. Flora, B.G. Isom, C. Gooch, S.A. Murray, C.G. Burton, and W.S. Bain|Control Studies on Corbicula for Steam-Electric Generating Plants|In: J.C.Britton (Ed.), Proc.1st Int.Corbicula Symp., Oct.13-15, 1977, Texas Christian Univ., Ft.Worth, TX:139-151|1979|
69471|A||Phipps,G.L.|Diazinon Acute Tests for Criteria Development|April 29th Memo to R.Spehar, U.S.EPA, Duluth, MN:2 p.|1988|
69472|A||Shacklock,P.F., and G.B. Croft|Effect of Grazers on Chondrus crispus in Culture|Aquaculture22:331-342|1981|10.1016/0044-8486(81)90159-9
69473|A||Soderberg,R.W., and J.W. Meade|The Effects of Ionic Strength on Un-Ionized Ammonia Concentration|Prog. Fish-Cult.53(2): 118-120|1991|10.1577/1548-8640(1991)053<0118:TEOISO>2.3.CO;2
69474|A||Nimmo,D.W.R., D. Link, L.P. Parrish, G.J. Rodriguez, W. Wuerthele, and P.H. Davies|Comparison of On-Site and Laboratory Toxicity Tests:  Derivation of Site-Specific Criteria for Un-Ionized Ammonia in a Colorado Transitional Stream|Environ. Toxicol. Chem.8(12): 1177-1189|1989|
69475|A||Goudreau,S.E., R.J. Neves, and R.J. Sheehan|Effects of Wastewater Treatment Plant Effluents on Freshwater Mollusks in the Upper Clinch River, Virginia, USA|Hydrobiologia (Multiple Languages)252:211-230|1993|10.1007/BF00005471
69476|A||Fujiya,M.|Use of Electrophoretic Serum Separation in Fish Studies|J. Water Pollut. Control Fed.33(3): 250-257|1961|
69481|T||Lagnaoui,A., and E.B. Radcliffe|Potato Fungicides Interfere with Entomopathogenic Fungi Impacting Population Dynamics of Green Peach Aphid|Am. J. Potato Res.75(1): 19-25|1998|10.1007/BF02883513
69542|A||Swallow,K.C., and J.C. Westall|Potentiometric Determination of Copper Complexation by Phytoplankton Exudates|Limnol. Oceanogr.23(3): 538-542|1978|10.4319/lo.1978.23.3.0538
69543|A||Wagemann,R., and J. Barica|Speciation and Rate of Loss of Copper from Lakewater with Implications to Toxicity|Water Res.13(6): 515-523|1979|10.1016/0043-1354(79)90047-2
69544|A||Willford,W.A.|Toxicity of Dimethyl Sulfoxide (DMSO) to Fish|Invest.Fish Control No.20, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:3-8|1967|
69545|A||Gilderhus,P.A., V.K. Dawson, and J.L. Allen|Deposition and Persistence of Rotenone in Shallow Ponds During Cold and Warm Seasons|Invest.Fish Control No.95, Fish Wildl.Serv., Bur.Sport Fish.Wildl., U.S.D.I., Washington, D.C.:1-7|1988|
69546|A||Dawson,V.K., and L.L. Marking|Toxicity of Mixtures of Quinaldine Sulfate and MS-222 to Fish|Invest.Fish Control No.53, Fish Wildl.Serv., Bur.Sport Fish.Wildl., USDI, Washington, DC:1-11|1974|
69548|T||Marking,L.L.|Oral Toxicity of Rotenone to Mammals|Invest. Fish Control94:5 p.|1988|
69549|A||Mzimela,H.M., V. Wepener, and D.P. Cyrus|The Sublethal Effects of Copper and Lead on the Haematology and Acid-Base Balance of the Groovy Mullet, Liza dumerili|Afr. J. Aquat. Sci.27(1): 39-46|2002|10.2989/16085914.2002.9626573
69550|A||Loumbourdis,N.S., and A.K. Vogiatzis|Impact of Cadmium on Liver Pigmentary System of the Frog Rana ridibunda|Ecotoxicol. Environ. Saf.53(1): 52-58|2002|10.1006/eesa.2002.2153
69551|A||Cervino,J.M., R.L. Hayes, M. Honovich, T.J. Goreau, S. Jones, and P.J. Rubec|Changes in Zooxanthellae Density, Morphology, and Mitotic Index in Hermatypic Corals and Anemones Exposed to Cyanide|Mar. Pollut. Bull.46(5): 573-586|2003|10.1016/S0025-326X(03)00071-7
69552|A||Gold,C., A. Feurtet-Mazel, M. Coste, and A. Boudou|Effects of Cadmium Stress on Periphytic Diatom Communities in Indoor Artificial Streams|Freshw. Biol.48(2): 316-328|2003|10.1046/j.1365-2427.2003.00980.x
69553|A||Lu,Y., and Z. Wang|Accumulation of Organochlorinated Pesticides by Triolein-Containing Semipermeable Membrane Device (Triolein-SPMD) and Rainbow Trout|Water Res.37(10): 2419-2425|2003|10.1016/S0043-1354(03)00003-4
69554|A||Eisentraeger,A., W. Dott, J. Klein, and S. Hahn|Comparative Studies on Algal Toxicity Testing Using Fluorometric Microplate and Erlenmeyer Flask Growth-Inhibition Assays|Ecotoxicol. Environ. Saf.54(3): 346-354|2003|10.1016/S0147-6513(02)00099-4
69555|A||Saka,M.|Examination of an Amphibian-Based Assay Using the Larvae of Xenopus laevis and Ambystoma mexicanum|Ecotoxicol. Environ. Saf.55(1): 38-45|2003|10.1016/S0147-6513(02)00009-X
69556|A||Mallick,N., and F.H. Mohn|Use of Chlorophyll Fluorescence in Metal-Stress Research:  A Case Study with the Green Microalga Scenedesmus|Ecotoxicol. Environ. Saf.55(1): 64-69|2003|10.1016/S0147-6513(02)00122-7
69557|A||Campana,O., C. Sarasquete, and J. Blasco|Effect of Lead on ALA-D Activity, Metallothionein Levels, and Lipid Peroxidation in Blood, Kidney, and Liver of the Toadfish Halobatrachus didactylus|Ecotoxicol. Environ. Saf.55(1): 116-125|2003|10.1016/S0147-6513(02)00093-3
69558|A||Elia,A.C., R. Galarini, M.I. Taticchi, A.J.M. Dorr, and L. Mantilacci|Antioxidant Responses and Bioaccumulation in Ictalurus melas Under Mercury Exposure|Ecotoxicol. Environ. Saf.55(2): 162-167|2003|10.1016/S0147-6513(02)00123-9
69559|A||Grippo,M.A., and A.G. Heath|The Effect of Mercury on the Feeding Behavior of Fathead Minnows (Pimephales promelas)|Ecotoxicol. Environ. Saf.55(2): 187-198|2003|10.1016/S0147-6513(02)00071-4
69561|A||Sarma,S.S.S., E. Mangas-Ramirez, and S. Nandini|Effect of Ammonia Toxicity on the Competition Among Three Species of Cladocerans (Crustacea:  Cladocera)|Ecotoxicol. Environ. Saf.55(2): 227-235|2003|10.1016/S0147-6513(02)00120-3
69562|A||Othman,M.S., and D. Pascoe|Reduced Recruitment in Hyalella azteca (Saussure, 1858) Exposed to Copper|Ecotoxicol. Environ. Saf.53(1): 59-64|2002|10.1006/eesa.2002.2174
69563|A||Vuorinen,P.J., M. Keinanen, S. Peuranen, and C. Tigerstedt|Reproduction, Blood and Plasma Parameters and Gill Histology of Vendace (Coregonus albula L.) in Long-Term Exposure to Acidity and Aluminum|Ecotoxicol. Environ. Saf.54(3): 255-276|2003|10.1016/S0147-6513(02)00078-7
69564|A||Morley,N.J., M. Crane, and J.W. Lewis|Toxicity of Cadmium and Zinc to Encystment of Notocotylus attenuatus (Trematoda:  Notocotylidae) Cercariae|Ecotoxicol. Environ. Saf.53(1): 129-133|2002|10.1006/eesa.2002.2198
69565|A||Orchard,S.J., D.A. Holdway, C. Barata, and R.A. Van Dam|A Rapid Response Toxicity Test Based on the Feeding Rate of the Tropical Cladoceran Moinodaphnia macleayi|Ecotoxicol. Environ. Saf.53(1): 12-19|2002|10.1006/eesa.2002.2163
69566|A||Rathore,R.S., and B.S. Khangarot|Effects of Temperature on the Sensitivity of Sludge Worm Tubifex tubifex Muller to Selected Heavy Metals|Ecotoxicol. Environ. Saf.53(1): 27-36|2002|10.1006/eesa.2001.2100
69567|A||Acey,R.A., S. Bailey, P. Healy, C. Jo, T.F. Unger, and R.A. Hudson|A Butyrylcholinesterase in the Early Development of the Brine Shrimp (Artemia salina) Larvae: A Target for Phthalate Ester Embryotoxicity?|Biochem. Biophys. Res. Commun.299(4): 659-662|2002|10.1016/S0006-291X(02)02716-X
69568|A||Lease,H.M., J.A. Hansen, H.L. Bergman, and J.S. Meyer|Structural Changes in Gills of Lost River Suckers Exposed to Elevated pH and Ammonia Concentrations|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(4): 491-500|2003|10.1016/S1532-0456(03)00044-9
69569|A||Barque,J.P., A. Abahamid, J.P. Flinois, P. Beaune, and J. Bonaly|Constitutive Overexpression of Immunoidentical Forms of PCP-Induced Euglena gracilis CYP-450|Biochem. Biophys. Res. Commun.298(2): 277-281|2002|10.1016/S0006-291X(02)02439-7
69570|A||Gonzalez-Doncel,M., M. Larrea, S. Sanchez-Fortun, and D.E. Hinton|Influence of Water Hardening of the Chorion on Cadmium Accumulation in Medaka (Oryzias latipes) Eggs|Chemosphere52(1): 75-83|2003|10.1016/S0045-6535(03)00227-3
69571|A||Nalecz-Jawecki,G., and J. Sawicki|Influence of pH on the Toxicity of Nitrophenols to Microtox and Spirotox Tests|Chemosphere52(1): 249-252|2003|10.1016/S0045-6535(02)00865-2
69572|T||Selvi,M., A. Gul, and M. Yilmaz|Investigation of Acute Toxicity of Cadmium Chloride (CdCl2.H2O) Metal Salt and Behavioral Changes It Causes on Water Frog (Rana ridibunda Pallas, 1771)|Chemosphere52(1): 259-263|2003|10.1016/S0045-6535(03)00262-5
69573|A||Bustamante,P., J.L. Teyssie, S.W. Fowler, O. Cotret, B. Danis, P. Miramand, and M. Warnau|Biokinetics of Zinc and Cadmium Accumulation and Depuration at Different Stages in the Life Cycle of the Cuttlefish Sepia officinalis|Mar. Ecol. Prog. Ser.231:167-177|2002|10.3354/meps231167
69574|A||Ahrens,M.J., J. Hertz, E.M. Lamoureux, G.R. Lopez, A.E. McElroy, and B.J. Brownawell|The Role of Digestive Surfactants in Determining Bioavailability of Sediment-Bound Hydrophobic Organic Contaminants to 2 Deposit-Feeding Polychaetes|Mar. Ecol. Prog. Ser.212:145-157|2001|10.3354/meps212145
69575|A||Manusadzianas,L., G. Maksimov, J. Darginaviciene, S. Jurkoniene, K. Sadauskas, and R. Vitkus|Response of the Charophyte Nitellopsis obtusa to Heavy Metals at the Cellular, Cell Membrane, and Enzyme Levels|Environ. Toxicol.17(3): 275-283|2002|10.1002/tox.10058
69576|T||Howdeshell,K.L., and F.S. Vom Saal|Developmental Exposure to Bisphenol A:  Interaction with Endogenous Estradiol During Pregnancy in Mice|Am. Zool.40:429-437|2000|
69578|A||Wasson,K.M., B.A. Gower, and S.A. Watts|Responses of Ovaries and Testes of Lytechinus variegatus (Echinodermata:  Echinoidea) to Dietary Administration of Estradiol, Progesterone and Testosterone|Mar. Biol.137:245-255|2000|10.1007/s002270000360
69579|A||Bakoulia,P., P. Marcouli, and J. Iliopoulou-Georgudaki|Acute Toxicity of TBT and IRGAROL in Artemia salina|Int. J. Toxicol.21(3): 231-233|2002|10.1080/10915810290096360
69580|T||Hanioka,N., H. Jinno, T. Tanaka-Kagawa, T. Nishimura, and M. Ando|Changes in Rat Liver Cytochrome P450 Enzymes by Atrazine and Simazine Treatment|Xenobiotica28(7): 683-698|1998|10.1080/004982598239263
69582|A||Francois,D.L., and G.G.C. Robinson|Indices of Triazine Toxicity in Chlamydomonas geitleri Ettl|Aquat. Toxicol.16(3): 205-228|1990|10.1016/0166-445X(90)90038-Q
69584|A||Abdel-Hamid,M.I.|Development and Application of a Simple Procedure for Toxicity Testing Using Immobilized Algae|Water Sci. Technol.33(6): 129-138|1996|10.2166/wst.1996.0089
69585|T||Agrawal,G.K., R. Rakwal, N.S. Jwa, and V.P. Agrawal|Effects of Signaling Molecules, Protein Phosphatase Inhibitors and Blast Pathogen (Magnaporthe grisea) on the mRNA Level of a Rice (Oryza sativa L.) Phospholipid Hydroperoxide Glutathione Peroxidase (OsPHGPX) Gene in Se|Gene283:227-236|2002|10.1016/S0378-1119(01)00854-X
69586|A||Bahig,M.E., A. Kraus, W. Klein, and F. Korte|Metabolism of Pentachloronitrobenzene-14C (Quintozene) in Fish|Chemosphere10(3): 319-322|1981|10.1016/0045-6535(81)90032-1
69587|T||Connor,K., J. Howell, I. Chen, H. Liu, K. Berhane, C. Sciarretta, S. Safe, and T. Zacharewski|Failure of Chloro-s-Triazine-Derived Compounds to Induce Estrogen Receptor-Mediated Responses In Vivo and In Vitro|Fundam. Appl. Toxicol.30(1): 93-101|1996|10.1006/faat.1996.0046
69588|A||Dabydeen,S., and J.R.C. Leavitt|Absorption and Effect of Simazine and Atrazine on Elodea canadensis|Bull. Environ. Contam. Toxicol.26(3): 381-385|1981|10.1007/BF01622106
69589|T||Garcinuno,R.M., P. Fernandez-Hernando, and C. Camara|Evaluation of Pesticide Uptake by Lupinus Seeds|Water Res.37:3481-3489|2003|10.1016/S0043-1354(03)00210-0
69591|T||Jordan,R.L., F. Sperling, H.H. Klein, and J.F. Borzelleca|A Study of the Potential Teratogenic Effects of Pentachloronitrobenzene in Rats|Toxicol. Appl. Pharmacol.33(2): 222-230|1975|10.1016/0041-008X(75)90089-7
69592|T||Kamal,M., I. Scheunert, and F. Korte|Mass Balance of 14C-Pentachloronitrobenzene and Metabolites in a Closed, Aerated Soil-Plant or Soil-System|Bull. Environ. Contam. Toxicol.31(5): 559-565|1983|10.1007/BF01605475
69594|T||Kim,K.R., E.W. Son, S. Hee-Um, B.O. Kim, D.K. Rhee, and S. Pyo|Immune Alterations in Mice Exposed to the Herbicide Simazine|J. Toxicol. Environ. Health Part A66(12): 1159-1173|2003|10.1080/15287390306358
69595|T||Kligerman,A.D., C.L. Doerr, A.H. Tennant, and B. Peng|Cytogenetic Studies of Three Triazine Herbicides II.  In Vivo Micronucleus Studies in Mouse Bone Marrow|Mutat. Res.471:107-112|2000|10.1016/S1383-5718(00)00124-8
69599|T||Lamoureux,G.L., and D.G. Rusness|Pentachloronitrobenzene Metabolism in Peanut. 1. Mass Spectral Characterization of Seven Glutathione-Related Conjugates Produced In Vivo or In Vitro|J. Agric. Food Chem.28(6): 1057-1070|1980|10.1021/jf60232a080
69600|T||Lievremont,D., F. Seigle-Murandi, and J.L. Benoit-Guyod|Effects of Culture Parameters on Pentachloronitrobenzene Removal by Sporothrix cyanescens|Chemosphere32(2): 361-375|1996|10.1016/0045-6535(95)00347-9
69603|A||Murphy,S.E., A. Drotar, and R. Fall|Biotransformation of the Fungicide Pentachloronitrobenzene by Tetrahymena thermophila|Chemosphere11(1): 33-39|1982|10.1016/0045-6535(82)90086-8
69605|T||Preston,C., F.J. Tardif, J.T. Christopher, and S.B. Powles|Multiple Resistance to Dissimilar Herbicide Chemistries in a Biotype of Lolium rigidum Due to Enhanced Activity of Several Herbicide Degrading Enzymes|Pestic. Biochem. Physiol.54:123-134|1996|10.1006/pest.1996.0016
69606|T||Pringle,J.C.,Jr., L.W.J. Anderson, and R.W. Raines|Residues in Crops Irrigated with Water Containing Simazine|J. Agric. Food Chem.26(5): 1143-1147|1978|10.1021/jf60219a037
69607|A||Reinert,K.H., J.H.,Jr. Rodgers, M.L. Hinman, and T.J. Leslie|Compartmentalization and Persistence of Endothall in Experimental Pools|Ecotoxicol. Environ. Saf.10(1): 86-96|1985|10.1016/0147-6513(85)90010-7
69608|T||Ruckdeschel,G., and G. Renner|Effects of Pentachlorophenol and Some of Its Known and Possible Metabolites on Fungi|Appl. Environ. Microbiol.51(6): 1370-1372|1986|10.1128/aem.51.6.1370-1372.1986
69609|T||Rusness,D.G., and G.L. Lamoureux|Pentachloronitrobenzene Metabolism in Peanut.  2.  Characterization of Chloroform-Soluble Metabolites Produced In Vivo|J. Agric. Food Chem.28:1070-1077|1980|10.1021/jf60232a004
69610|T||Sternberg,M., A. Danin, and I. Noy-Meir|Effects of Clearing and Herbicide Treatments on Coniferous Seedling Establishment and Growth in Newly Planted Mediterranean Forests|For. Ecol. Manag.148:179-184|2001|10.1016/S0378-1127(00)00528-4
69611|T||Stevens,J.T., C.B. Breckenridge, L.T. Wetzel, J.H. Gillis, L.G. Luempert III, and J.C. Eldridge|Hypothesis for Mammary Tumorigenesis in Sprague-Dawley Rats Exposed to Certain Triazine Herbicides|J. Toxicol. Environ. Health43(2): 139-153|1994|10.1080/15287399409531911
69613|T||Tennant,A.H., B. Peng, and A.D. Kligerman|Genotoxicity Studies of Three Triazine Herbicides:  In Vivo Studies Using the Alkaline Single Cell Gel (SCG) Assay|Mutat. Res.493:1-10|2001|10.1016/S1383-5718(01)00145-0
69614|T||Tennant,M.K., D.S. Hill, J.C. Eldridge, L.T. Wetzel, C.B. Breckenridge, and J.T. Stevens|Chloro-s-Triazine Antagonism of Estrogen Action:  Limited Interaction with Estrogen Receptor Binding|J. Toxicol. Environ. Health43(2): 197-211|1994|10.1080/15287399409531915
69615|T||Tennant,M.K., D.S. Hill, J.C. Eldridge, L.T. Wetzel, C.B. Breckenridge, and J.T. Stevens|Possible Antiestrogenic Properties of Chloro-s-Triazines in Rat Uterus|J. Toxicol. Environ. Health43(2): 183-196|1994|10.1080/15287399409531914
69621|A||MacDonald,G.E., R. Querns, D.G. Shilling, S.K. McDonald, and T.A. Bewick|Activity of Endothall on Hydrilla|J. Aquat. Plant Manag.40:68-71|2002|
69624|T||Hall,J.K., M. Pawlus, and E.R. Higgins|Losses of Atrazine in Runoff Water and Soil Sediment|J. Environ. Qual.1(2): 172-176|1972|10.2134/jeq1972.00472425000100020015x
69626|A||Taub,F.B., and A.M. Dollar|A Chlorella-Daphnia Food-Chain Study: The Design of a Compatible Chemically Defined Culture Medium|Limnol. Oceanogr.9(1): 61-74|1964|10.4319/lo.1964.9.1.0061
69627|A||Kemp,W.M., W.R. Boynton, J.C. Stevenson, J.C. Means, R.R. Twilley, and T.W. Jones|Submerged Aquatic Vegetation in Upper Chesapeake Bay:  Studies Related to Possible Causes of the Recent Decline in Abundance|Final Rep., U.S.EPA, Annapolis, MD:202 p.|1984|
69628|A||Hannan,P.J.|A Novel Detection Scheme for Herbicidal Residues|Environ. Toxicol. Chem.14(5): 775-780|1995|10.1002/etc.5620140506
69629|A||Hoberg,J.R.|Atrazine Technical - Toxicity to the Duckweed Lemna gibba G3|Final SLI Rep.No.91-1-3613, Springborn Lab.Inc., Environ.Sci.Div., Wareham, MA:48 p.|1991|
69630|A||Hoberg,J.R.|Atrazine Technical - Toxicity to the Freshwater Green Alga, (Selenastrum capricornutum)|Final SLI Rep.No.93-4-4751, Springborn Lab.Inc., Environ.Sci.Div., Wareham, MA:63 p.|1993|
69631|A||Hoberg,J.R.|Atrazine Technical - Toxicity to the Freshwater Green Alga Selenastrum capricornutum|Final SLI Rep.No.91-1-3600, Springborn Lab.Inc., Environ.Sci.Div., Wareham, MA:50 p.|1991|
69651|A||Zdybiewska,M., and K. Kluczycka|Comparative Studies on the Determination of Toxicity of Some Pesticides|Pol. Arch. Hydrobiol.21(1): 179-190|1974|
69652|T||McCarthy,E.M., T.E. Shellenberger, and D.M. Coulson|Effects of Pesticides on Animals and Human Beings|SRI Int.11:1-31|1962|
69653|T||Teasdale,J.R., and A.A. Abdul-Baki|Comparison of Mixtures vs. Monocultures of Cover Crops for Fresh-Market Tomato Production with and Without Herbicide|Hortscience33(7): 1163-1166|1998|10.21273/HORTSCI.33.7.1163
69654|T||Smagghe,G., M. Loeb, and L. Tirry|In Vitro and In Vivo Effects of a Fat Body Extract on Spodoptera littoralis|In Vitro Cell. Dev. Biol., Anim.37:90-92|2001|10.1290/1071-2690(2001)037<0090:IVAIVE>2.0.CO;2
69655|T||Tanaka,K., S. Endo, and H. Kazano|Toxicity of Insecticides to Predators of Rice Planthoppers: Spiders, the Mirid Bug and the Dryinid Wasp|Appl. Entomol. Zool.35(1): 177-187|2000|10.1303/aez.2000.177
69656|T||Walters,D.R., and A. McPherson|Effect of the Synthetic Putrescine Analogue (E)-1,4-Diaminobut-2-Ene on Uptake of Methionine, Polymines, and Sugars in Pyrenophora avenae|Pestic. Biochem. Physiol.57(1): 63-67|1997|10.1006/pest.1997.2263
69657|T||Calba,H., and B. Jaillard|Effect of Aluminium on Ion Uptake and H+ Release by Maize|New Phytol.137(4): 607-616|1997|10.1046/j.1469-8137.1997.00858.x
69658|T||Danielsson,B.R.G., E. Hassoun, and L. Dencker|Embryotoxicity of Chromium:  Distribution in Pregnant Mice and Effects on Embryonic Cells In Vitro|Arch. Toxicol.51:233-245|1982|10.1007/BF00348855
69659|T||Rodriguez,E., A. Pena, A.J. Sanchez Raya, and M. Campos|Evaluation of the Effect on Arthropod Populations by Using Deltamethrin to Control Phloeotribus scarabaeoides Bern. (Coleoptera:  Scolytidae) in Olive Orchards|Chemosphere52(1): 127-134|2003|10.1016/S0045-6535(03)00184-X
69660|T||Lee,P.C., S.C. Patra, C.T. Stelloh, W. Lee, and M. Struve|Interaction of Nonylphenol and Hepatic CYP1A in Rats|Biochem. Pharmacol.52(6): 885-889|1996|10.1016/0006-2952(96)00409-1
69661|T||Alston,D.A., B. Tandler, B. Gentles, and E.E. Smith|Testicular Histopathology in Deer Mice (Peromyscus maniculatus) Following Exposure to Polychlorinated Biphenyl|Chemosphere52(1): 283-285|2003|10.1016/S0045-6535(03)00034-1
69663|T||Scheifler,R., A. Gomot-De Vaufleury, and P.M. Badot|Transfer of Cadmium from Plant Leaves and Vegetable Flour to the Snail Helix aspersa:  Bioaccumulation and Effects|Ecotoxicol. Environ. Saf.53(1): 148-153|2002|10.1006/eesa.2002.2216
69664|T||Rao,J.V., Y.S. Pavan, and S.S. Madhavendra|Toxic Effects of Chlorpyrifos on Morphology and Acetylcholinesterase Activity in the Earthworm, Eisenia foetida|Ecotoxicol. Environ. Saf.54(3): 296-301|2003|10.1016/S0147-6513(02)00013-1
69665|T||Reinecke,A.J., and S.A. Reinecke|The Influence of Exposure History to Lead on the Lysosomal Response in Eisenia fetida (Oligochaeta)|Ecotoxicol. Environ. Saf.55(1): 30-37|2003|10.1016/S0147-6513(02)00086-6
69666|T||Hatvani,N., and I. Mecs|Effects of Certain Heavy Metals on the Growth, Dye Decolorization, and Enzyme Activity of Lentinula edodes|Ecotoxicol. Environ. Saf.55(2): 199-203|2003|10.1016/S0147-6513(02)00133-1
69667|T||Ernst,E.|Testicular Toxicity Following Short-Term Exposure to Tri- and Hexavalent Chromium:  An Experimental Study in the Rat|Toxicol. Lett.51:269-275|1990|10.1016/0378-4274(90)90069-X
69668|T||Stoker,T.E., C.L. Robinette, and R.L. Cooper|Perinatal Exposure to Estrogenic Compounds and the Subsequent Effects on the Prostate of the Adult Rat:  Evaluation of Inflammation in the Ventral and Lateral Lobes|Reprod. Toxicol.13(6): 463-472|1999|10.1016/S0890-6238(99)00049-0
69669|T||Matsumoto,H.|Biochemical Mechanism of the Toxicity of Aluminium and the Sequestration of Aluminium in Plant Cells|In: R.J.Wright, V.C.Baligar, and R.P.Murrmann (Eds.), Plant-Soil Interactions at Low pH, Kluwer Academic Publishers, Dordrecht, Netherlands:825-838|1991|
69670|T||Nickless,G., D.J. Roberts, and K.V. Kahokola|The Effect of Copper on Lolium perenne Seedlings|Chemosphere19(12): 1971-1979|1989|10.1016/0045-6535(89)90020-9
69671|T||Washington,W.S.|Susceptibility of Rubus Species and Cultivars to Blackberry Leaf Rust (Phragmidium violaceum) and Its Control by Fungicides|J. Phytopathol. (Berl.)118(3): 265-275|1987|10.1111/j.1439-0434.1987.tb00455.x
69672|T||Shukla,A.K., B.K. Tiwari, and R.R. Mishra|Effect of Benomyl, Copper Oxychloride and Mancozeb on Rhizosphere Microflora of Potato|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.53(3): 273-278|1987|
69673|T||Russelle,M.P., and R.L. McGraw|Nutrient Stress in Birdsfoot Trefoil|Can. J. Plant Sci.66(4): 933-944|1986|10.4141/cjps86-115
69674|T||Neogy,M., J. Datta, A.K. Roy, and S. Mukherji|Studies on Phytotoxic Effect of Aluminium on Growth and Some Morphological Parameters of Vigna radiata L. Wilczek|J. Environ. Biol.23(4): 411-416|2002|
69675|T||Maury,A.N., R.K. Gupta, and A.K. Gupta|Effect of Heavy Metal Pollutants on Seed Germination of Four Pasture Plants of U.P.|Indian J. Environ. Health29(2): 134-139|1986|
69676|T||Heungens,A., and E. Van Daele|Toxicity of Insecticides and Nematicides on Soil Mites and Collembola in Pine Litter Substrate|Meded. Fac. Landbouwwet. Rijksuniv. Gent44(1): 379-393|1979|
69677|T||El-Ghamery,A.A., M.A. El-Kholy, and M.A. Abou El-Yousser|Evaluation of Cytological Effects of Zn2+ in Relation to Germination and Root Growth of Nigella sativa L. and Triticum aestivum L.|Mutat. Res.537(1): 29-41|2003|10.1016/S1383-5718(03)00052-4
69678|T||Iyer,P., D. Gammon, J. Gee, and K. Pfeifer|Characterization of Maternal Influence on Teratogenicity:  An Assessment of Developmental Toxicity Studies for the Herbicide Cyanazine|Regul. Toxicol. Pharmacol.29(1): 88-95|1999|10.1006/rtph.1998.1276
69679|T||Marty,M.S., T.L. Neeper-Bradley, D.A. Neptun, and E.W. Carney|Developmental Toxicity of Diethanolamine Applied Cutaneously to CD Rats and New Zealand White Rabbits|Regul. Toxicol. Pharmacol.30(3): 169-181|1999|10.1006/rtph.1999.1308
69681|T||Wolfe,G.W.|Final Report on the Reproductive Toxicity of Potassium Dichromate (Hexavalent) (CAS No. 7778-50-9) Administered in Diet to SD Rats|NTP Rep.No.RACB95001, Natl.Toxicol.Prog., Research Triangle Park, NC:177 p.|1996|
69682|T||Vekaria,M.V., and G.M. Patel|Bioefficacy of Botanicals and Certain Chemical Insecticides and Their Combinations Against the Mustard Aphid, Lipaphis erysimi|Indian J. Entomol.62(2): 150-158|2000|
69683|T||Voss,M.|Effects of Methylparaben on the Development and Chemosensitivity of the Blow Fly Protophormia terraenovae Rob.-Desv. (Diptera: Calliphoridae)|Can. J. Zool.78(4): 680-683|2000|10.1139/z99-260
69684|T||Cheney,C.D., S.B. Vander Wall, and R.J. Poehlmann|Effects of Strychnine on the Behavior of Great Horned Owls and Red-Tailed Hawks|J. Raptor Res.21(3): 103-110|1987|
69685|T||Sechser,B., B. Reber, and F. Bourgeois|Pymetrozine: Selectivity Spectrum to Beneficial Arthropods and Fitness for Integrated Pest Management|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)75(3): 72-77|2002|10.1034/j.1399-5448.2002.02021.x
69686|T||Kasai,M., M. Sasaki, Y. Yamamoto, and H. Matsumoto|Aluminum Stress Increases K+ Efflux and Activities of ATP- and PP1-Dependent H+ Pumps of Tonoplast-Enriched Membrane Vesicles from Barley Roots|Plant Cell Physiol.33(7): 1035-1039|1992|
69687|T||Wolfe,G.W.|Final Report on the Reproductive Toxicity of Potassium Dichromate (Hexavalent) (CAS No. 7778-50-9) Administered in Diet to BALB/C Mice|NTP Rep.No.RACB95002, Natl.Toxicol.Prog., Research Triangle Park, NC:181 p.|1997|
69688|T||Wolfe,G.W.|Final Report on the Reproductive Toxicity of Potassium Dichromate (CAS No. 7778-50-9) Administered in Diet to BALB/C Mice|NTP Rep.No.RACB94014, Natl.Toxicol.Prog., Research Triangle Park, NC:455 p.|1997|
69689|T||Tu,C.M.|Effect of Some Technical and Formulated Insecticides on Microbial Activities in Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(5-6): 557-573|1991|
69690|T||Soliman,S.A., N.S. Ahmed, K.S. El-Gendy, A.S. El-Bakary, and A.H. El-Sebae|Delayed Neurotoxicity in the Wild Mallard Duckling Caused by Organophosphorus Insecticides Cyanofenphos and Leptophos|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(5): 401-411|1986|
69691|A||Dresser,T.H., E.R. Rivera, F.J. Hoffmann, and R.A. Finch|Teratogenic Assessment of Four Solvents Using the Frog Embryo Teratogenesis Assay - Xenopus (FETAX)|J. Appl. Toxicol.12(1): 49-56|1992|10.1002/jat.2550120111
69692|T||Teviotdale,B.L., G.S. Sibbett, and D.H. Harper|Several Copper Fungicides Control Olive Leaf Spot|Calif. Agric.43(5): 30-31|1989|
69693|T||Schultz,C.L., and T.C. Hutchinson|Evidence Against a Key Role for Metallothionein-Like Protein in the Copper Tolerance Mechanism of Deschampsia cespitosa (L.) Beauv.|New Phytol.110(2): 163-171|1988|10.1111/j.1469-8137.1988.tb00249.x
69694|T||Verkleij,J.A.C., and J.E. Prast|Cadmium Tolerance and Co-tolerance in Silene vulgaris (Moench.) Garcke [=S. cucubalus (L.) Wib.]|New Phytol.111(4): 637-645|1989|10.1111/j.1469-8137.1989.tb02358.x
69695|T||Yang,Y.J., and B.Y. Lee|Effect of Heavy Metal Treatments on the Growth and Uptake in Hydroponically Cultured Lettuce|J. Korean Soc. Hortic. Sci. (Multiple Languages)31(1): 37-41|1990|
69696|AT||Savage,K.E., B. Truelove, and A.F. Wiese|Herbicide Movement from Application Sites and Effects on Non-Target Species (A Summary of Regional Research Accomplishments in the Southern United States)|MAFES Res. Highl.:16 p.|1978|
69698|T||Robinson,I.M.|Effects of Some Organotin Compounds on Tissue Amine Levels in Rats|Food Cosmet. Toxicol.7:47-52|1969|10.1016/S0015-6264(69)80264-6
69699|T||McLachlan,J.A., R.R. Newbold, H.C. Shah, M.D. Hogan, and R.L. Dixon|Reduced Fertility in Female Mice Exposed Transplacentally to Diethylstilbestrol (DES)|Fertil. Steril.38(3): 364-371|1982|10.1016/S0015-0282(16)46520-9
69701|T||Wilson,J.B.|The Cost of Heavy-Metal Tolerance: An Example|Evolution42(2): 408-413|1988|10.2307/2409246
69702|T||Alverson,J., and A.C. Cohen|Effect of Antifungal Agents on Biological Fitness of Lygus hesperus (Heteroptera: Miridae)|J. Econ. Entomol.95(2): 256-260|2002|10.1603/0022-0493-95.2.256
69703|T||Parida,B.K., I.M. Chhibba, and V.K. Nayyar|Influence of Nickel-Contaminated Soils on Fenugreek (Trigonella corniculata L.) Growth and Mineral Composition|Sci. Hortic.98(2): 113-119|2003|10.1016/S0304-4238(02)00208-X
69704|T||Sokolov,I.M.|How Does Insecticidal Control of Grasshoppers Affect Non-Target Arthropods?|In: J.A.Lockwood, et al.(Eds.), Grasshoppers and Grassland Health, Kluwer Acad.Publ., Netherlands:181-192|2000|
69705|T||Prince,S.W., P. Senthilkumar, and V. Subburam|Mulberry-Silkworm Food Chain - a Templet to Assess Heavy Metal Mobility in Terrestrial Ecosystems|Environ. Monit. Assess.69(3): 231-238|2001|10.1023/A:1010715606097
69706|T||Krtkova,A., and V. Tichy|Pathophysiology of Plant Intoxications.  I.  Heavy-Metal Cations and Sodium Humate Interaction in Lettuce Elongation|Scr. Fac. Sci. Nat. Univ. Purkynianae Brun.15(7): 347-354|1985|
69707|T||Li,Z., and C. Liu|A New Fungicide-HDE and Its Application in Controlling Wilt Disease of Cucurbits|Pestic. Sci.28(4): 413-418|1990|10.1002/ps.2780280407
69708|T||Maury,A.N., and K.P. Verma|Seed Germination of Eleusine coracana L. Subjected to Stress from Heavy Metals|Geobios (Jodhpur)24(4): 291-292|1997|
69709|T||Lai,O., C. Belloli, G. Crescenzo, V. Carofiglio, P. Ormas, O. Marangi, and P. Cagnardi|Depletion and Bioavailability of Imidocarb Residues in Sheep and Goat Tissues|Vet. Hum. Toxicol.44(2): 79-83|2002|
69710|T||Sood,S., A. Rana, and S.V.S. Chauhan|Effect of Nickel Chloride on Morphological and Anatomical Changes in Root and Shoot of Cicer arietinum L.|J. Environ. Pollut.8(3): 239-244|2001|
69711|T||Bouvier,J.C., T. Boivin, D. Beslay, and B. Sauphanor|Age-Dependent Response to Insecticides and Enzymatic Variation in Susceptible and Resistant Codling Moth Larvae|Arch. Insect Biochem. Physiol.51(2): 55-66|2002|10.1002/arch.10052
69712|T||Krewer,G., J.D. Dutcher, and C.J. Chang|Imidacloprid Insecticide Slows Development of Pierce's Disease in Bunch Grapes|J. Entomol. Sci.37(1): 101-112|2002|10.18474/0749-8004-37.1.101
69713|T||Van den Meiracker,K.G., P.A. Zungoli, E.P. Benson, and W.C.,Jr. Bridges|Hexaflumuron-Induced Mortality in Reticulitermes flavipes and Coptotermes formosanus at Constant and Fluctuating Temperatures (Isoptera: Rhinotermitidae)|Sociobiology39(1): 1-14|2002|
69714|T||Vieira,A., L. Oliveira, and P. Garcia|Effects of Conventional Pesticides on the Preimaginal Developmental Stages and on Adults of Trichogramma cordubensis (Hymenoptera:  Trichogrammatidae)|Biocontrol Sci. Technol.11(4): 527-534|2001|10.1080/09583150120067553
69715|T||Van de Veire,M., G. Sterk, M. Van der Staaij, P.M.J. Ramakers, and L. Tirry|Sequential Testing Scheme for the Assessment of the Side-Effects of Plant Protection Products on the Predatory Bug Orius laevigatus|Biocontrol47(1): 101-113|2002|10.1023/A:1014473023912
69716|T||Grabinska-Sota,E., E. Wisniowska, and J. Kalka|Toxicity of Selected Synthetic Auxines - 2,4-D and MCPA Derivatives to Broad-Leaved and Cereal Plants|Crop Prot.22(2): 355-360|2003|10.1016/S0261-2194(02)00178-3
69717|T||Rodriguez,L.M., T.E. Reagan, and J.A. Ottea|Susceptibility of Diatraea saccharalis (Lepidoptera:  Crambidae) to Tebufenozide|J. Econ. Entomol.94(6): 1464-1470|2001|10.1603/0022-0493-94.6.1464
69718|T||Herzog,G.A., R.M. McPherson, D.C. Jones, and R.J. Ottens|Baseline Susceptibility of Tobacco Hornworms (Lepidoptera: Sphingidae) to Acephate, Methomyl and Spinosad in Georgia|J. Entomol. Sci.37(1): 94-100|2002|10.18474/0749-8004-37.1.94
69719|T||Liang,G.M., W. Chen, and T.X. Liu|Effects of Three Neem-Based Insecticides on Diamondback Moth (Lepidoptera:  Plutellidae)|Crop Prot.22(2): 333-340|2003|10.1016/S0261-2194(02)00175-8
69720|T||Badawy,H.M.A., and S.A. El Arnaouty|Direct and Indirect Effects of Some Insecticides on Chrysoperla carnea (Stephens) s.l. (Neuroptera: Chrysopidae)|J. Neuropterol.2:67-74|1999|
69721|T||Gels,J.A., D.W. Held, and D.A. Potter|Hazards of Insecticides to the Bumble Bees Bombus impatiens (Hymenoptera:  Apidae) Foraging on Flowering White Clover in Turf|J. Econ. Entomol.95(4): 722-728|2002|10.1603/0022-0493-95.4.722
69722|T||Weathersbee III,A.A., and Y.Q. Tang|Effect of Neem Seed Extract on Feeding, Growth, Survival, and Reproduction of Diaprepes abbreviatus (Coleoptera:  Curculionidae)|J. Econ. Entomol.95(4): 661-667|2002|10.1603/0022-0493-95.4.661
69723|T||Verma,S., and R.S. Dubey|Lead Toxicity Induces Lipid Peroxidation and Alters the Activities of Antioxidant Enzymes in Growing Rice Plants|Plant Sci.164(4): 645-655|2003|10.1016/S0168-9452(03)00022-0
69724|T||Perveen,F.|Effects of Sublethal Dose of Chlorfluazuron on Testicular Development and Spermatogenesis in the Common Cutworm, Spodoptera litura|Physiol. Entomol.25(4): 315-323|2000|10.1046/j.1365-3032.2000.00198.x
69725|T||Pathak,K.A., and A.N. Jha|Toxicity of Some Insecticides Against Adults of Sitophilus oryzae, Sitophilus sp. and Sitotroga cerealella|Indian J. Entomol.61(4): 320-325|1999|
69726|T||Tuubel,E., and T. Toom|The Influence of Pesticides on Ground Beetle Fauna on Cereals|Trans. Estonian Agric. Univ.:214-216|2000|
69727|T||Shivashankar,T., R.S. Annadurai, M. Srinivas, G. Preethi, T.B. Sharada, R. Paramashivappa, A.S. Rao, K.S. Prabhu, C.S. |Control of Coconut Black-Headed Caterpillar (Opisina arenosella Walker) by Systemic Application of 'Soluneem' - a New Water-Soluble Neem Insecticide Formulation|Curr. Sci. (Bangalore)78(2): 176-179|2000|
69728|T||Ivany,J.A., H.G. Nass, and J.B. Sanderson|Effect of Time of Application of Herbicides on Yield of Three Winter Wheat Cultivars|Can. J. Plant Sci.70:605-609|1990|10.4141/cjps90-076
69729|T||Zimmerman,P.W., and W. Crocker|Plant Injury Caused by Vapors of Mercury and Compounds of Mercury|Contrib. Boyce Thompson Inst.6:167-187|1934|
69730|T||Tsay,C.C., L.W. Wang, and Y.R. Chen|Plant in Response to Copper Toxicity|Taiwania40(2): 173-181|1995|
69731|T||Singh,A., and O.N. Srivastava|Effect of Pesticides on the Growth of Azolla pinnata R. Brown|Indian J. Ecol.11(1): 12-14|1984|
69732|T||Rousos,P.A., H.C. Harrison, and K.L. Steffen|Physiological Responses of Cabbage to Incipient Copper Toxicity|J. Am. Soc. Hortic. Sci.114(1): 149-152|1989|10.21273/JASHS.114.1.149
69733|T||Pankotai,M.G., and P. Fodor|The Copper Level Dependence in Vegetable Crops at Pesticide Treatment|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(3): 621-626|1996|
69734|T||Whitney,W.K.|Laboratory Tests with Dursban and Other Insecticides in Soil|J. Econ. Entomol.60(1): 68-74|1967|10.1093/jee/60.1.68
69735|T||Robinson,N.J., and D.A. Thurman|Involvement of a Metallothionein-Like Copper Complex in the Mechanism of Copper Tolerance in Mimulus guttatus|Proc. R. Soc. Lond. Ser. B Biol. Sci.227(1249): 493-501|1986|
69736|T||Meisner,J., K.R.S. Ascher, and C. Eizick|Effect of the Commercial Phagostimulants Coax and Gustol on the Toxicity of Cypermethrin and Deltamethrin Against Spodoptera littoralis (Lepidoptera:  Noctuidae)|J. Econ. Entomol.77(5): 1123-1126|1984|10.1093/jee/77.5.1123
69737|T||Lal,N., and R. Yadav|Effect of Endosulfan on Activity and Extracellular Production of Phosphatase by Aspergillus fumigatus|Indian J. Agric. Sci.70(9): 627-629|2000|
69738|T||Gonzalez-Coloma,A., F. Valencia, N. Martin, J.J. Hoffmann, L. Hutter, J.A. Marco, and M. Reina|Silphinene Sesquiterpenes as Model Insect Antifeedants|J. Chem. Ecol.28(1): 117-130|2002|10.1023/A:1013566919874
69739|T||Green,P.W.C., M.S.J. Simmonds, and W.M. Blaney|Toxicity and Behavioural Effects of Diet-Borne Alkaloids on Larvae of the Black Blowfly, Phormia regina|Med. Vet. Entomol.16(2): 157-160|2002|10.1046/j.1365-2915.2002.00358.x
69740|A||Suwanchaichinda,C., and L.B. Brattsten|Induction of Microsomal Cytochrome P450s by Tire-Leachate Compounds, Habitat Components of Aedes albopictus Mosquito Larvae|Arch. Insect Biochem. Physiol.49(2): 71-79|2002|10.1002/arch.10009
69742|T||Mori,K., and T. Gotoh|Effects of Pesticides on the Spider Mite Predators, Scolothrips takahashii (Thysanoptera: Thripidae) and Stethorus japonicus (Coleoptera: Coccinellidae)|Int. J. Acarol.27(4): 299-302|2001|10.1080/01647950108684270
69743|T||Levot,G.W., J.T. Rothwell, and N. Sales|Baseline Laboratory Bioassay Data for Spinosad Against Populations of Australian Sheep Blowfly, Lucilia cuprina (Wiedemann) (Diptera:  Calliphoridae)|Aust. J. Entomol.41(1): 79-81|2002|10.1046/j.1440-6055.2002.00254.x
69744|T||Valles,S.M., and W.D. Woodson|Group Effects on Insecticide Toxicity in Workers of the Formosan Subterranean Termite, Coptotermes formosanus Shiraki|Pest Manag. Sci.58(8): 769-774|2002|10.1002/ps.528
69745|T||Ainge,G.D., S.D. Lorimer, P.J. Gerard, and L.D. Ruf|Insecticidal Activity of Huperzine A from the New Zealand Clubmoss, Lycopodium varium|J. Agric. Food Chem.50(3): 491-494|2002|10.1021/jf0106087
69746|T||Nauen,R., N. Stumpf, and A. Elbert|Toxicological and Mechanistic Studies on Neonicotinoid Cross Resistance in Q-Type Bemisia tabaci (Hemiptera:  Aleyrodidae)|Pest Manag. Sci.58(9): 868-875|2002|10.1002/ps.557
69747|T||Schaub,L., G. Garnier, and B. Bloesch|An Extended Laboratory Method Maximizing Plant Contact Time to Study the Side-Effects of Pesticides on Plant-Dwelling Predators|J. Appl. Entomol.126(4): 155-158|2002|10.1046/j.1439-0418.2002.00612.x
69749|T||Jewess,P.J., K. Chamberlain, A.B. Boogaard, A.L. Devonshire, and B.P.S. Khambay|Insecticidal 2-Hydroxy-3-Alkyl-1,4-Naphthoquinones:  Correlation of Inhibition of Ubiquinol Cytochrome C Oxidoreductase (Complex III) with Insecticidal Activity|Pest Manag. Sci.58(3): 243-247|2002|10.1002/ps.445
69750|T||Massas,I., V. Skarlou, and C. Haidouti|Plant Uptake of 134Cs in Relation to Soil Properties and Time|J. Environ. Radioact.59(3): 245-255|2002|10.1016/S0265-931X(01)00077-7
69752|T||Von Elling,K., C. Borgemeister, M. Setamou, and H.M. Poehling|The Effect of NeemAzal-T/S, a Commercial Neem Product, on Different Developmental Stages of the Common Greenhouse Whitefly Trialeurodes vaporariorum Westwood (Hom., Aleyrodidae)|J. Appl. Entomol.126(1): 40-45|2002|10.1046/j.1439-0418.2002.00601.x
69756|T||Madhavi,B., C.S. Anand, A. Bharathi, and H. Polasa|Biotoxic Effects of Pesticides on Symbiotic Properties of Rhizobial Sps.|Bull. Environ. Contam. Toxicol.52(1): 87-94|1994|10.1007/BF00197362
69758|A||Faust,M., R. Altenburger, W. Boedeker, and L.H. Grimme|Algal Toxicity of Binary Combinations of Pesticides|Bull. Environ. Contam. Toxicol.53(1): 134-141|1994|10.1007/BF00205150
69759|T||Hoellinger,H., M. Sonnier, J. Pichon, A. Lecorsier, C.T. Do, and H.N. Nguyen|In Vivo Covalent Binding of Cismethrin and Bioresmethrin to Hepatic Proteins|Toxicol. Lett.19(1-2): 179-187|1983|10.1016/0378-4274(83)90280-1
69760|T||Burnet,M.W.M., B.R. Loveys, J.A.M. Holtum, and S.B. Powles|Increased Detoxification is a Mechanism of Simazine Resistance in Lolium rigidum|Pestic. Biochem. Physiol.46(3): 207-218|1993|10.1006/pest.1993.1052
69761|T||Meisch,M.V., D.A. Dame, R.L. Groves, and R.D. Nunez|Assessment of Anopheles quadrimaculatus Response to Permethrin and Resmethrin by Topical Application|Am. Mosq. Control Assoc. J.10(3): 437-439|1994|
69762|T||Efird,P.K., A.D. Inman, A.A. Weathersbee III, and M.V. Meisch|Efficacy of Various Ground-Applied Pyrethroids Against Adult Anopheles quadrimaculatus in the Rice Growing Region of Arkansas|Am. Mosq. Control Assoc. J.8(1): 77-79|1992|
69763|T||Linley,J.R., and S. Jordan|Effects of Ultra-Low Volume and Thermal Fog Malathion, Scourge and Naled Applied Against Caged Adult Culicoides furens and Culex quinquefasciatus in Open and Vegetated Terrain|Am. Mosq. Control Assoc. J.8(1): 69-76|1992|
69764|T||Floore,T.G., C.B.,Jr. Rathburn, A.H.,Jr. Boike, J.S. Coughlin, and M.J. Greer|Comparison of the Synthetic Pyrethroids Esbiothrin and Bioresmethrin with Scourge and Cythion Against Adult Mosquitoes in a Laboratory Wind Tunnel|Am. Mosq. Control Assoc. J.8(1): 58-60|1992|
69765|T||Efird,P.K., A.D. Inman, D.A. Dame, and M.V. Meisch|Efficacy of Various Ground-Applied Cold Aerosol Adulticides Against Anopheles quadrimaculatus|Am. Mosq. Control Assoc. J.7(2): 207-209|1991|
69766|T||Groves,R.L., J.C. McAllistar, C.L. Meek, and M.V. Meisch|Evaluation of Aerial and Ground-Applied Adulticides Against Mosquito Species in Arkansas and Louisiana|Am. Mosq. Control Assoc. J.10(3): 407-412|1994|
69767|T||Eliason,D.A., E.G. Campos, C.G. Moore, and P. Reiter|Apparent Influence of the Stage of Blood Meal Digestion on the Efficacy of Ground Applied ULV Aerosols for the Control of Urban Culex Mosquitoes.  II.  Laboratory Evidence|Am. Mosq. Control Assoc. J.6(3): 371-375|1990|
69768|T||Reiter,P., D.A. Eliason, D.B. Francy, C.G. Moore, and E.G. Campos|Apparent Influence of the Stage of Blood Meal Digestion on the Efficacy of Ground Applied ULV Aerosols for the Control of Urban Culex Mosquitoes.  I.  Field Evidence|Am. Mosq. Control Assoc. J.6(3): 366-370|1990|
69770|T||Weathersbee III,A.A., D.A. Dame, A. Inman, C.P. Polk, J.W. Jones, P. Efird, and M.V. Meisch|Susceptibility of Riceland Anopheles quadrimaculatus to Baytex and Scourge Ground ULV Applications|Am. Mosq. Control Assoc. J.5(4): 606-607|1989|
69771|T||Khoo,B.K., D.J. Sutherland, D. Sprenger, D. Dickerson, and H. Nguyen|Susceptibility Status of Aedes albopictus to Three Topically Applied Adulticides|Am. Mosq. Control Assoc. J.4(3): 310-313|1988|
69772|T||Knepper,R.G.|Efficacy of a ULV Insecticide Mixture (HAN-Malathion-Resmethrin) Against Caged Culex Mosquitoes|Am. Mosq. Control Assoc. J.4(4): 561-562|1988|
69773|T||Weathersbee III,A.A., M.V. Meisch, C.A. Sandoski, M.F. Finch, D.A. Dame, J.K. Olson, and A. Inman|Combination Ground and Aerial Adulticide Applications Against Mosquitoes in an Arkansas Riceland Community|Am. Mosq. Control Assoc. J.2(4): 456-460|1986|
69774|T||Ueda,K., L.C. Gaughan, and J.E. Casida|Metabolism of (+)-trans- and (+)-cis-Resmethrin in Rats|J. Agric. Food Chem.23(1): 106-115|1975|10.1021/jf60197a022
69776|T||Rose,G.P., and A.J. Dewar|Intoxication with Four Synthetic Pyrethroids Fails to Show any Correlation Between Neuromuscular Dysfunction and Neurobiochemical Abnormalities in Rats|Arch. Toxicol.53(4): 297-316|1983|10.1007/BF00294995
69777|AT||Mason,C.F., G.J.C. Underwood, N.R. Baker, P.A. Davey, I. Davidson, A. Hanlon, S.P. Long, K. Oxborough, D.M. Paterson, a|The Role of Herbicides in the Erosion of Salt Marshes in Eastern England|Environ. Pollut.122(1): 41-49|2003|10.1016/S0269-7491(02)00284-1
69778|AT||Robert,L.L., and J.K. Olson|Effects of Sublethal Dosages of Insecticides on Culex quinquefasciatus|Am. Mosq. Control Assoc. J.5(2): 239-246|1989|
69781|A||Bantle,J.A., R.A. Finch, D.T. Burton, D.J. Fort, D.A. Dawson, G. Linder, J.R. Rayburn, M. Hull, M. Kumsher-King, A.M. G|FETAX Interlaboratory Validation Study:  Phase III - Part 1 Testing|J. Appl. Toxicol.16(6): 517-528|1996|10.1002/(SICI)1099-1263(199611)16:6<517::AID-JAT385>3.0.CO;2-R
69782|A||Singh,D.P., P. Khare, and P.S. Bisen|Effect of Ni2+, Hg2+ and Cu2+ on Growth, Oxygen Evolution and Photosynthetic Electron Transport in Cylindrospermum IU 942|J. Plant Physiol.134(4): 406-412|1989|10.1016/S0176-1617(89)80003-3
69783|A||Satyakala,G., and K. Jamil|Response of Chloroplast-Enzymes of Eichhornia crassipes to Cu and Cr|Indian Bot. Contactor10(2): 69-74|1993|
69784|A||Seeliger,U., and L.D. Lacerda|Uptake and Release of Copper and Mercury by the Alga Ceramium brasiliense Joly (Rhodophyta, Ceramiales)|Braz. J. Bot.9(1): 63-68|1986|
69785|A||Leland,H.V., and E. Kent|Effects of Copper on Microfaunal Species Composition in a Sierra Nevada, California Stream|Verh. Int. Ver. Theor. Angew. Limnol.21:819-829|1981|
69788|A||Lombardi,A.T., A.A.H. Vieira, and L.A. Sartori|Mucilaginous Capsule Adsorption and Intracellular Uptake of Copper by Kirchneriella aperta (Chlorococcales)|J. Phycol.38(2): 332-337|2002|10.1046/j.1529-8817.2002.00126.x
69789|A||Pistocchi,R., A.M. Mormile, F. Guerrini, G. Isani, and L. Boni|Increased Production of Extra- and Intracellular Metal-Ligands in Phytoplankton Exposed to Copper and Cadmium|J. Appl. Phycol.12(3-5): 469-477|2000|10.1023/A:1008162812651
69790|A||Labonne,M., D.B. Othman, and J.M. Luck|Use of Non-radioactive, Mono-isotopic Metal Tracer for Studying Metal (Zn, Cd, Pb) Accumulation in the Mussel Mytilus galloprovincialis|Appl. Geochem.17(10): 1351-1360|2002|10.1016/S0883-2927(02)00025-2
69791|A||Krishna,G., and N. Gupta|Effect of Heavy Metals and Fungal Toxins on the Chromosomal Structure of Carp|J. Ecophysiol. Occup. Health2(1-2): 65-72|2002|
69792|A||Wang,W.X.|Cd and Se Aqueous Uptake and Exposure of Green Mussels Perna viridis: Influences of Seston Quantity|Mar. Ecol. Prog. Ser.226:211-221|2002|10.3354/meps226211
69793|A||Cochlan,W.P., D.A. Bronk, and K.H. Coale|Trace Metals and Nitrogenous Nutrition of Antarctic Phytoplankton:  Experimental Observations in the Ross Sea|Deep-Sea Res. Part I Oceanogr. Res. Pap.49(16): 3365-3390|2002|
69794|A||Tedengren,M., B. Olsson, B. Bradley, and L. Zhou|Heavy Metal Uptake, Physiological Response and Survival of the Blue Mussel (Mytilus edulis) from Marine and Brackish Waters in Relation to the Induction of Heat-Shock Protein 70|Hydrobiologia (Multiple Languages)393:261-269|1999|10.1023/A:1003583509218
69795|A||Satoh,M., Y. Hirachi, A. Yoshioka, M. Kobayashi, and Y. Oyama|Determination of Cellular Levels of Nonprotein Thiols in Phytoplankton and Their Correlations with Susceptibility to Mercury|J. Phycol.38(5): 983-990|2002|10.1046/j.1529-8817.2002.t01-1-01223.x
69797|A||Smith,J.G.|Water Quality Criteria for Nitroglycerin|Final Rep.No.ORNL-6180, U.S.Army Med.Res.and Dev.Command, Oak Ridge Natl.Lab., Oak Ridge, TN:115 p.|1986|
69798|A||Bantle,J.A., D.T. Burton, D.A. Dawson, J.N. Dumont, R.A. Finch, D.J. Fort, G. Linder, J.R. Rayburn, D. Buchwalter, M.A.|Initial Interlaboratory Validation Study of FETAX:  Phase I Testing|J. Appl. Toxicol.14(3): 213-223|1994|10.1002/jat.2550140312
69799|A||Dawson,D.A., and J.A. Bantle|Development of a Reconstituted Water Medium and Preliminary Validation of the Frog Embryo Teratogenesis Assay - Xenopus (FETAX)|J. Appl. Toxicol.7(4): 237-244|1987|10.1002/jat.2550070403
69800|A||Fletcher,G.L., R.J. Hoyle, and D.A. Horne|The Relative Toxicities of Yellow Phosphorus Production Wastes to Seawater-Maintained Fish|J. Fish. Res. Board Can.:155-172|1972|
69801|A||Teeter,J.W.|The Influence of Sodium Chloride on the Growth and Reproduction of the Sago Pondweed (Potamogeton pectinatus L.)|M.S.Thesis, Utah State University, Logan, UT:73 p.|1963|
69802|A||Irvine,J., and E.B.C. Jones|The Effect of a Copper-Chrome-Arsenate Preservative and Its Constituents on the Growth of Aquatic Microorganisms|J. Inst. Wood Sci.7(1): 20-24|1975|
69804|A||Nakamura,Y., K. Sawai, and M. Watanabe|Growth Inhibition of a Red Tide Flagellate, Chattonella antiqua by Copper|J. Oceanogr.42(6): 481-486|1987|10.1007/BF02110198
69805|A||Zulkifli,M., A.W. Tejada, and E.D. Magallona|The Fate of BPMC and Chlorpyrifos in Some Components of Paddy Rice a Ecosystem|Philipp. Entomol.6(5/6): 555-565|1983|
69808|A||Hoagland,K.D., S.A. Matteen, J. Tang, and B.D. Siegfried|Relative Toxicity of the Herbicide Atrazine and Its Metabolites to Freshwater Diatoms|In: J.John (Ed.), Proc.15th Int.Diatom Symp., Sept.28-Oct.2, 1998, Perth, Australia:135-141|2002|
69809|A||Lidon,F.C., and F.S. Henriques|Effects of Excess Copper on the Photosynthetic Pigments in Rice Plants|Bot. Bull. Acad. Sin. (Taipei)33(1): 141-149|1992|
69810|T||Suresh,K., and C. Subramanyam|Polyphenols are Involved in Copper Binding to Cell Walls of Neurospora crassa|J. Inorg. Biochem.69(4): 209-215|1998|10.1016/S0162-0134(97)10001-0
69811|A||Jezierska,B., and I. Slominska|The Effect of Copper on Common Carp (Cyprinus carpio L.) During Embryonic and Postembryonic Development|Pol. Arch. Hydrobiol.44(1/2): 261-272|1997|
69812|A||Liehr,S.K., H.J. Chen, and S.H. Lin|Metals Removal by Algal Biofilms|Water Sci. Technol.30(11): 59-68|1994|10.2166/wst.1994.0546
69813|A||Cheng,T.C., and J.T. Sullivan|The Effect of Copper on the Heart-Rate of Biomphalaria glabrata (Mollusca:  Pulmonata)|Comp. Gen. Pharmacol.4(13): 37-41|1973|10.1016/0010-4035(73)90018-9
69814|A||Fargasova,A.|Accumulation and Toxic Effects of Cu2+, Cu+, Mn2+, VO43-, Ni2+ and MoO42- and Their Associations:  Influence on Respiratory Rate and Chlorophyll a Content of the Green Alga Scenedesmus quadricauda|J. Trace Microprobe Tech.16(4): 481-490|1998|
69815|A||Kok,L.T., and M.D. Pathak|Toxicity of Lindane Used for Asiatic Rice Borer Control to Three Species of Fish|J. Econ. Entomol.59(3): 659-663|1966|10.1093/jee/59.3.659
69816|A||Thomas,W.H., O. Holm-Hansen, D.L.R. Seibert, F. Azam, R. Hodson, and M. Takahashi|Effects of Copper on Phytoplankton Standing Crop and Productivity: Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 34-43|1977|
69817|A||Moffitt,C.M., and Y. Kiryu|Acute and Chronic Toxicity Following Parenteral Application of Erythromycin to Maturing Spring Chinook Salmon held at Two Water Temperatures|J. Aquat. Anim. Health13(1): 8-19|2001|10.1577/1548-8667(2001)013<0008:AACTFP>2.0.CO;2
69818|A||Kohra,S., N. Tominaga, Y. Takao, M. Nagae, Y. Ishibashi, K. Ueda, and K. Arizono|A Rapid Respiratory Toxicity Test Using Caenorhabditis elegans with an Oxygen Electrode System|J. Health Sci.48(3): 269-272|2002|10.1248/jhs.48.269
69819|A||Haley,M.V., C.W. Kurnas, and J.A.,Sr. Ware|Toxicity of a Biodegraded Chemical Warfare Agent (Mustard) to Aquatic Organisms|ECBC-TR-002, Edgewood Chem.Biol.Ctr., Aberdeen Proving Ground, MD:20 p.|2000|
69820|A||Kannupandi,T., K. Pasupathi, and P. Soundarapandian|Acute Toxicity Bioassay of Endosulfan, HCH, Copper and Zinc on Larva of Mangrove Crab Macrophthalmus erato (De Man)|J. Mar. Biol. Assoc. India42(1-2): 173-177|2000|
69821|A||Nalecz-Jawecki,G., E. Kucharczyk, and J. Sawicki|The Sensitivity of Protozoan Spirostomum ambiguum to Selected Pesticides|Fresenius Environ. Bull.11(2): 98-101|2002|
69822|A||Shalabi,S.I.Y., A.A. Kamel, and M.H.S. El-Azawi|Some Biochemical and Histopathological Changes in Plasma and Tissues of Clarias lazera After Exposure to Copper Sulphate Application in a Rice Farm in Sharkia Governorate|Vet. Med. J. Giza48(1): 117-134|2000|
69823|A||Hummel,H., J.C. Amiard, C. Amiard-Triquet, R.H. Bogaards, A.J. Lohr, and G. Coutaud|A Comparison of the Ecophysiological Response on Copper in Baltic Clams from Different Populations in Europe|Vie Milieu51(4): 195-204|2001|
69824|A||Pathiratne,A., and P. Athauda|Toxicity of Chlorpyrifos and Dimethoate to Fingerlings of the Nile Tilapia, Oreochromis niloticus:  Cholinesterase Inhibition|Sri Lanka J. Aquat. Sci.3:77-84|1998|
69825|AT||Schieferstein,G.J., W.G. Sheldon, and S.A. Cantrell|Subchronic Toxicity Study of 1,4-Dithiane|NCTR Tech.Rep.for Exp.No.491, Natl.Ctr.for Toxicol.Res., Jefferson, AR:60 p.|1987|
69826|A||Bonacci,S., I. Corsi, R. Chiea, F. Regoli, and S. Focardi|Induction of EROD Activity in European Eel (Anguilla anguilla) Experimentally Exposed to Benzo(a)pyrene and beta-Naphthoflavone|Environ. Int.29(4): 467-473|2003|10.1016/S0160-4120(03)00005-9
69827|A||Forsythe II,B.L., G.P. Cobb, T.W. La Point, and S.J. Klaine|The Bioconcentration and Bioaccumulation of Silver in an Experimental Freshwater Ecosystem|Proc. 4th Argentum Int. Conf. on the Transport, Fate, and Effects of Silver in the Environment, Aug. 25-28, Madison, WI:185-189|1996|
69828|A||Moreno-Garrido,I., G.A. Codd, G.M. Gadd, and L.M. Lubian|Cu and Zn Accumulation by Calcium Alginate Immobilized Marine Microalgal Cells of Nannochloropsis gaditana (Eustigmatophyceae) (Acumulacion de Cu y Zn por Celulas Microalgales Marinas de Nannochloropsis gaditana (Eustig|Cienc. Mar.28(1): 107-119|2002|10.7773/cm.v28i1.203
69829|A||Joshi,R.R., and S.K. Gupta|Biotoxicity of Tributyltin Acrylate Polymers|Toxic. Assess.5:389-393|1990|10.1002/tox.2540050406
69830|A||Sarojini,R., B. Indira, and R. Nagabhushanam|Effect of Antifouling Organometallic Compounds on the Brain of Mature Female Prawn Caridina weberi|J. Adv. Zool.12(2): 93-99|1991|
69831|A||Sarojini,R., P.S. Reddy, and R. Nagabhushanam|Acute and Chronic Tributyltin Induced Alterations in Digestive Enzymes of the Prawn, Caridina rajadhari|Uttar Pradesh J. Zool.12(1): 20-24|1992|
69832|A||Laughlin,R.B.,Jr., P. Pendoley, and R.G. Gustafson|Sublethal Effects of Tributyltin on the Hard Shell Clam, Mercenaria mercenaria|In: Oceans 87, IEEE Publishing Services, New York, NY:1494-1498|1987|
69833|A||Schulte-Oehlmann,U., M. Tillmann, B. Markert, J. Oehlmann, B. Watermann, and S. Scherf|Effects of Endocrine Disruptors on Prosobranch Snails (Mollusca:  Gastropoda) in the Laboratory.  Part II:  Triphenyltin as a Xeno-Androgen|Ecotoxicology9(6): 399-412|2000|10.1023/A:1008924602089
69834|A||Oehlmann,J., U. Schulte-Oehlmann, M. Tillmann, and B. Markert|Effects of Endocrine Disruptors on Prosobranch Snails (Mollusca: Gastropoda) in the Laboratory. Part I: Bisphenol A and Octylphenol as Xeno-Estrogens|Ecotoxicology9(6): 383-397|2000|10.1023/A:1008972518019
69835|A||Tillmann,M., U. Schulte-Oehlmann, M. Duft, B. Markert, and J. Oehlmann|Effects of Endocrine Disruptors on Prosobranch Snails (Mollusca:  Gastropod) in the Laboratory.  Part III:  Cyproterone Acetate and Vinclozolin as Antiandrogens|Ecotoxicology10(6): 373-388|2001|10.1023/A:1012279231373
69836|A||Segner,H., J.M. Navas, C. Schafers, and A. Wenzel|Potencies of Estrogenic Compounds in In Vitro Screening Assays and in Life Cycle Tests with Zebrafish In Vivo|Ecotoxicol. Environ. Saf.54(3): 315-322|2003|10.1016/S0147-6513(02)00040-4
69837|A||Chang,C.F., S.C. Lan, and B.S. Pan|Feed Administration of Estradiol-17beta Stimulates Female Differentiation in Juvenile Grey Mullet Mugil cephalus|Zool. Stud.34(4): 257-264|1995|
69838|A||Gormley,K.L., and K.L. Teather|Developmental, Behavioral, and Reproductive Effects Experienced by Japanese Medaka (Oryzias latipes) in Response to Short-Term Exposure to Endosulfan|Ecotoxicol. Environ. Saf.54(3): 330-338|2003|10.1016/S0147-6513(02)00005-2
69839|A||Becerra-Huencho,R.M.|The Effect of Organotin and Copper Sulfate on the Late Development and Presettlement Behavior of the Hard Clam Mercenaria mercenaria|M.S.Thesis, University of Maryland, College Park, MD:85 p.|1984|
69840|A||Stark,J.D.|Population-Level Effects of the Neem Insecticide, Neemix, on Daphnia pulex|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(4): 457-465|2001|
69841|A||Beketov,M.A.|Ammonia Toxicity to Larvae of Erythromma najas (Hansemann), Lestes sponsa (Hansemann) and Sympetrum flaveolum (Linnaeus) (Zygoptera:  Coenagrionidae, Lestidae; Anisoptera:  Libellulidae)|Odonatologica31(3): 297-304|2002|
69842|A||Nakano,E., L.C. Watanabe, F.P. Ohlweiler, C.A. De Braganca Pereira, and T. Kawano|Establishment of the Dominant Lethal Test in the Freshwater Mollusk Biomphalaria glabrata (Say, 1818)|Mutat. Res.536(1-2): 145-154|2003|10.1016/S1383-5718(03)00042-1
69843|A||Buschini,A., P. Carboni, A. Martino, P. Poli, and C. Rossi|Effects of Temperature on Baseline and Genotoxicant-Induced DNA Damage in Haemocytes of Dreissena polymorpha|Mutat. Res.537(1): 81-92|2003|10.1016/S1383-5718(03)00050-0
69844|A||Viran,R., F.U. Erkoc, H. Polat, and O. Kocak|Investigation of Acute Toxicity of Deltamethrin on Guppies (Poecilia reticulata)|Ecotoxicol. Environ. Saf.55(1): 82-85|2003|10.1016/S0147-6513(02)00096-9
69845|A||Hanson,M.L., P.K. Sibley, S.A. Mabury, D.C.G. Muir, and K.R. Solomon|Field Level Evaluation and Risk Assessment of the Toxicity of Dichloroacetic Acid to the Aquatic Macrophytes Lemna gibba, Myriophyllum spicatum, and Myriophyllum sibiricum|Ecotoxicol. Environ. Saf.55(1): 46-63|2003|10.1016/S0147-6513(02)00094-5
69846|A||Maria,V.L., A.C. Correia, and M.A. Santos|Anguilla anguilla L. Biochemical and Genotoxic Responses to Benzo(a)pyrene|Ecotoxicol. Environ. Saf.53(1): 86-92|2002|10.1006/eesa.2002.2205
69847|A||Maria,V.L., A.C. Correia, and M.A. Santos|Benzo(a)pyrene and beta-Naphthoflavone Mutagenic Activation by European Eel (Anguilla anguilla L.) S9 Liver Fraction|Ecotoxicol. Environ. Saf.53(1): 81-85|2002|10.1006/eesa.2001.2204
69848|A||Yin,D., S. Hu, H. Jin, and L. Yu|Deriving Freshwater Quality Criteria for 2,4,6-Trichlorophenol for Protection of Aquatic Life in China|Chemosphere52(1): 67-73|2003|10.1016/S0045-6535(03)00273-X
69849|A||Brooks,B.W., P.K. Turner, J.K. Stanley, J.J. Weston, E.A. Glidewell, C.M. Foran, M. Slattery, T.W. La Point, and D.B. H|Waterborne and Sediment Toxicity of Fluoxetine to Select Organisms|Chemosphere52(1): 135-142|2003|10.1016/S0045-6535(03)00103-6
69850|A||Sarikaya,R., and M. Yilmaz|Investigation of Acute Toxicity and the Effect of 2,4-D (2,4-Dichlorophenoxyacetic Acid) Herbicide on the Behavior of the Common Carp (Cyprinus carpio L., 1758; Pisces, Cyprinidae)|Chemosphere52(1): 195-201|2003|10.1016/S0045-6535(03)00106-1
69851|A||Kuhajek,J.M., and D. Schlenk|Effects of Brominated Phenol, Lanosol, on Cytochrome P-450 and Glutathoine Transferase Activities in Haliotis rufescens and Katharina tunicata|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(4): 473-479|2003|10.1016/S1532-0456(03)00040-1
69852|A||Monteiro,A., I. Moreira, and E. Sousa|Effect of Prior Common Reed (Phragmites australis) Cutting on Herbicide Efficacy|Hydrobiologia (Multiple Languages)415:305-308|1999|10.1023/A:1003825217542
69853|A||Zhao,X., W.X. Wang, K.N. Yu, and P.K.S. Lam|Biomagnification of Radiocesium in a Marine Piscivorous Fish|Mar. Ecol. Prog. Ser.222:227-237|2001|10.3354/meps222227
69854|A||Calha,I.M., C. Machado, and F. Rocha|Resistance of Alisma plantago aquatica to Sulfonylurea Herbicides in Portuguese Rice Fields|Hydrobiologia (Multiple Languages)415:289-293|1999|10.1023/A:1003880527091
69855|T||Moreira,I., A. Monteiro, and E. Sousa|Chemical Control of Common Reed (Phragmites australis) by Foliar Herbicides Under Different Spray Conditions|Hydrobiologia (Multiple Languages)415:299-304|1999|10.1023/A:1003832611162
69856|A||Sarma,S.S.S., S. Nandini, J.L. Gama-Flores, and M.A. Fernandez-Araiza|Population Growth of Euchlanis dilatata (Rotifera):  Combined Effects of Methyl Parathion and food (Chlorella vulgaris)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(1): 43-54|2001|
69857|A||Britson,C.A., and S.T. Threlkeld|Interactive Effects of Anthropogenic, Environmental, and Biotic Stressors on Multiple Endpoints in Hyla chrysoscelis|J. Iowa Acad. Sci.107(3): 61-66|2000|
69858|A||Moreno-Garrido,I., M. Hampel, L.M. Lubian, and J. Blasco|Marine Microalgae Toxicity Test for Linear Alkylbenzene Sulfonate (LAS) and Alkylphenol Ethoxylate (APEO)|Fresenius' J. Anal. Chem.371(4): 474-478|2001|10.1007/s002160101016
69859|A||Elfwing,T., and M. Tedengren|Effects of Copper and Reduced Salinity on Grazing Activity and Macroalgae Production:  A Short-Term Study on a Mollusc Grazer, Trochus maculatus, and Two Species of Macroalgae in the Inner Gulf of Thailand|Mar. Biol.140(5): 913-919|2002|10.1007/s00227-001-0763-8
69860|A||Stauber,J.L., R.J. Benning, L.T. Hales, R. Eriksen, and B. Nowak|Copper Bioavailability and Amelioration of Toxicity in Macquarie Harbour, Tasmania, Australia|Mar. Freshw. Res.51(1): 1-10|2000|10.1071/MF99010
69861|A||Sode,K., R. Oonari, and M. Oozeki|Induction of a Temperate Marine Cyanophage by Heavy Metal|J. Mar. Biotechnol.5(2/3): 178-180|1997|
69862|A||Kosakowska,A., K. Pazdro, J. Pempkowiak, and L. Falkowski|Influence of Organic Compounds on the Toxicity of Copper and Cadmium to Algae Cells|In: H.Theede and W.Schramm (Eds.), The Baltic Sea Environment: History - Eutrophication - Recruitment - Ecotoxicology, Proc.10th Symp.of the Baltic Mar.Biologists, Sept.29-Oct.3, 1987, Inst.fur Meereskunde an der Univ.Kiel, Kiel, W.Germany6:432-438|1988|
69864|A||Teisseire,H., M. Couderchet, and G. Vernet|Toxicity of Copper, Folpet and Their Combination on Duckweed (Lemna minor L.)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)62(2a): 243-249|1997|
69865|A||Poskuta,J.W.|Toxicity of Heavy Metals to Growth, Photosynthesis and Respiration of Chlorella pyrenoidosa Cells Grown Either in Air or 1% CO2|Photosynthetica (Praha)25(2): 181-188|1991|
69867|A||Rai,P.K., N. Mallick, and L.C. Rai|Physiological and Biochemical Studies on an Acid-Tolerant Chlorella vulgaris Under Copper Stress|J. Gen. Appl. Microbiol.39(6): 529-540|1993|10.2323/jgam.39.529
69869|A||Fort,D.J., B.L. James, and J.A. Bantle|Evaluation of the Developmental Toxicity of Five Compounds with the Frog Embryo Teratogenesis Assay:  Xenopus (FETAX) and a Metabolic Activation System|J. Appl. Toxicol.9(6): 377-388|1989|10.1002/jat.2550090603
69872|T||Qureshi,J.A., D.A. Thurman, K. Hardwick, and H.A. Collin|Uptake and Accumulation of Zinc, Lead and Copper in Zinc and Lead Tolerant Anthoxanthum odoratum L.|New Phytol.100(3): 429-434|1985|10.1111/j.1469-8137.1985.tb02791.x
69875|A||Sithanand,T., and S.S.M. Das|Studies on the Toxicity of Copper, Zinc and Copper-Zinc Mixture on Cirrhina mrigala (Hamilton)|Uttar Pradesh J. Zool.13(1): 52-54|1993|
69877|T||Scribner,S.L., T.R. Benzing, S. Sun, and S.A. Boyd|Desorption and Bioavailability of Aged Simazine Residues in Soil from a Continuous Corn Field|J. Environ. Qual.21(1): 115-120|1992|10.2134/jeq1992.00472425002100010017x
69878|T||Tesfai,K., and M.A.B. Mallik|Effect of Fungicide Application on Soybean-Rhizobia Symbiosis and Isolation of Fungicide-Resistant Strains of Rhizobia japonicum|Bull. Environ. Contam. Toxicol.36(6): 819-826|1986|10.1007/BF01623589
69879|A||Schrader,K.K., M.Q. De Regt, P.D. Tidwell, C.S. Tucker, and S.O. Duke|Compounds with Selective Toxicity Towards the Off-Flavor Metabolite-Producing Cyanobacterium Oscillatoria cf. chalybea|Aquaculture163(1-2): 85-99|1998|10.1016/S0044-8486(98)00223-3
69881|A||Vighi,M.|Lead Uptake and Release in an Experimental Trophic Chain|Ecotoxicol. Environ. Saf.5:177-191|1981|10.1016/0147-6513(81)90033-6
69894|T||Schmuck,R., T. Stadler, and H.W. Schmidt|Field Relevance of a Synergistic Effect Observed in the Laboratory Between an EBI Fungicide and a Chloronicotinyl Insecticide in the Honeybee (Apis mellifera L, Hymenoptera)|Environ. Toxicol. Chem.59(3): 279-286|2003|
69895|T||Mitani,S., K. Sugimoto, H. Hayashi, Y. Takii, T. Ohshima, and N. Matsuo|Effects of Cyazofamid Against Plasmodiophora brassicae Woronin on Chinese Cabbage|Pest Manag. Sci.59(3): 287-293|2003|10.1002/ps.627
69896|T||Torres,J.B., C.S.A. Silva-Torres, and R. Barros|Relative Effects of the Insecticide Thiamethoxam on the Predator Podisus nigrispinus and the Tobacco Whitefly Bemisia tabaci in Nectaried and Nectariless Cotton|Pest Manag. Sci.59(3): 315-323|2003|10.1002/ps.640
69897|T||Rodriguez,E., M. Campos, A.J.S. Raya, and A. Pena|Effect of the Combined Treatment of Insecticides and an Attractant for the Control of Phloeotribus scarabaeoides, a Pest of Olea europea|Pest Manag. Sci.59(3): 339-346|2003|10.1002/ps.643
69898|T||Luff,M.L., R.O. Clements, and J.S. Bale|An Integrated Approach to Assessing Effects of Some Pesticides in Grassland|Br. Crop Prot. Conf. Pests Dis.:143-152|1990|
69941|T||Sneh,B., and J. Stack|Selective Medium for Isolation of Mycoleptodiscus terrestris from Soil Sediments of Aquatic Environments|Appl. Environ. Microbiol.56(11): 3273-3277|1990|10.1128/aem.56.11.3273-3277.1990
69943|T||Rubin,B., D. Penner, and A.W. Saettler|Induction of Isoflavonoid Production in Phaseolus vulgaris L. Leaves by Ozone, Sulfur Dioxide and Herbicide Stress|Environ. Toxicol. Chem.2(3): 295-306|1983|
69944|T||Eldridge,J.C., M.K. Tennant, L.T. Wetzel, C.B. Breckenridge, and J.T. Stevens|Factors Affecting Mammary Tumor Incidence in Chlorotriazine-Treated Female Rats:  Hormonal Properties, Dosage, and Animal Strain|Environ. Health Perspect.102(suppl. 11): 29-36|1994|10.1289/ehp.94102s1129
69947|T||Christopher,R.J., G.W. Ivie, R.C. Beier, and W.L. Jenkins|Metabolism of cis- and trans-Resmethrin in Laying Hens|J. Agric. Food Chem.37(3): 800-808|1989|10.1021/jf00087a051
69949|T||Matsuzawa,M., M.J. Graziano, and J.E. Casida|Endothal and Cantharidin Analogues: Relation of Structure to Herbicidal Activity and Mammalian Toxicity|J. Agric. Food Chem.35(5): 823-829|1987|10.1021/jf00077a045
69950|T||Lucas,P., and M. Renou|Electrophysiological Study of the Effects of Deltamethrin, Bioresmethrin, and DDT on the Activity of Pheromone Receptor Neurones in Two Moth Species|Pestic. Biochem. Physiol.43(2): 103-115|1992|10.1016/0048-3575(92)90024-T
69952|T||Sneh,B., and D.A. Katz|Behaviour of Phytophthora citrophthora and P. nicotianae var. in Soil, and Differences in Their Tolerance to Antimicrobial Components of Selective Media Used for Isolation of Phytophthora spp.|J. Phytopathol.122(3): 208-221|1988|10.1111/j.1439-0434.1988.tb01010.x
69953|T||Wokocha,R.C., and A.C. Ebenebe|Chemical Control of Basal Stem Rot Disease of Tomato (Lycopersicon esculentum Mill.) in Northern Nigeria|J. Phytopathol.116(1): 74-80|1986|10.1111/j.1439-0434.1986.tb00896.x
69955|A||Clark,J.M., S.J. Edman, S.R. Nagy, A. Canhoto, F. Hecht, and J. Van Houten|Action of DDT and Pyrethroids on Calcium Channels in Paramecium tetraurelia|ACS Symp. Ser.591:173-190|1995|10.1021/bk-1995-0591.ch011
69956|T||Indra,V., and E.L. Chong|Field Trials on the Effectiveness of Bioresmethrin Reslin 10/10 (R) on Aedes aegypti|Med. J. Malaysia37(4): 381-383|1982|
69957|T||Rozek,M.|The Effect of the S-Triazine Herbicides Gesatop 50 and Gesagard 50 on Oogenesis of Pterostichus cupreus L., Pterostichus melanarius Ill. and Agonum dorsale Pnt. (Coleoptera:  Carabidae)|Folia Biol. (Krakow)26(3): 171-179|1978|
69958|T||Webb,R.E., F.F. Smith, W.N. Sullivan, M.S. Schechter, A.L. Boswell, and A. Ewing|Resmethrin:  Evaluation Against Some Common Greenhouse Pests|J. Econ. Entomol.67(2): 295-|1974|10.1093/jee/67.2.295
69959|T||Golenda,C.F., and A.J. Forgash|Fenvalerate Cross-Resistance in a Resmethrin-Selected Strain of the House Fly (Diptera: Muscidae)|J. Econ. Entomol.78(1): 19-24|1985|10.1093/jee/78.1.19
69960|T||Golenda,C.F., and A.J. Forgash|Toxicity of Three Isomeric Mixtures of Resmethrin to Resistant and Susceptible House Flies (Diptera:  Muscidae)|J. Econ. Entomol.77(5): 1105-1109|1984|10.1093/jee/77.5.1105
69961|T||Atkinson,T.H., R.W. Wadleigh, P.G. Koehler, and R.S. Patterson|Pyrethroid Resistance and Synergism in a Field Strain of the German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.84(4): 1247-1250|1991|10.1093/jee/84.4.1247
69964|T||Schulze,T.L., and E.J. Hansens|Synergism of Resmethrin in the House Fly|J. Econ. Entomol.68(6): 807-809|1975|10.1093/jee/68.6.807
69965|T||Sandoski,C.A., W.B. Kottkamp, W.C. Yearian, and M.V. Meisch|Efficacy of Resmethrin Alone and in Combination with Piperonyl Butoxide Against Native Riceland Anopheles quadrimaculatus (Diptera:  Culicidae)|J. Econ. Entomol.76(3): 646-648|1983|10.1093/jee/76.3.646
69966|T||Agrawal,G.K., R. Rakwal, N.S. Jwa, K.S. Han, and V.P. Agrawal|Molecular Cloning and mRNA Expression Analysis of the First Rice Jasmonate Biosynthetic Pathway Gene Allene Oxide Synthase|Plant Physiol. Biochem.40(9): 771-782|2002|10.1016/S0981-9428(02)01429-8
69967|T||Darmency,H., J. Landry, and J. Mosse|Biochemical Data on Blackgrass Prolamines and Their Importance for Taxonomic Purposes|Biochem. Syst. Ecol.9(2/3): 171-174|1981|10.1016/0305-1978(81)90036-3
69968|T||Lipecki,J.|Capsella bursa+pastoris (L.) Med. - Another Weed Resistant to Simazine?|Acta Soc. Bot. Pol.57(1): 187-189|1988|10.5586/asbp.1988.018
69969|T||Sumner,D.R., J.A. Lewis, and R.D. Gitaitis|Chemical and Biological Control of Rhizoctonia solani AG-4 in Snap Bean Double-Cropped with Corn|Crop Prot.11(2): 121-126|1992|10.1016/0261-2194(92)90093-K
69970|T||Daglish,G.J., M. Eelkema, and L.M. Harrison|Control of Sitophilus oryzae (L.) (Coleoptera: Curculionidae) in Paddy Rice Using Chlorpyrifos-Methyl or Fenitrothion in Combination with Several Other Protectants|J. Stored Prod. Res.32(3): 247-253|1996|10.1016/S0022-474X(96)00013-6
69971|T||Barcay,S.J., B.M. Schneider, and G.W. Bennett|Influence of Insecticide Treatment on German Cockroach (Dictyoptera:  Blattellidae) Movement and Dispersal Within Apartments|J. Econ. Entomol.83(1): 142-147|1990|10.1093/jee/83.1.142
69972|T||Wadleigh,R.W., P.G. Koehler, H.K. Preisler, R.S. Patterson, and J.L. Robertson|Effect of Temperature on the Toxicities of Ten Pyrethroids to German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.84(5): 1433-1436|1991|10.1093/jee/84.5.1433
69973|T||Lemke,L.A., P.G. Koehler, and R.S. Patterson|Susceptibility of the Cat Flea (Siphonaptera:  Pulicidae) to Pyrethroids|J. Econ. Entomol.82(3): 839-841|1989|10.1093/jee/82.3.839
69976|T||Kristensen,M., A.G. Spencer, and J.B. Jespersen|The Status and Development of Insecticide Resistance in Danish Populations of the Housefly Musca domestica L|Pest Manag. Sci.57(1): 82-89|2001|10.1002/1526-4998(200101)57:1<82::AID-PS251>3.0.CO;2-8
69978|T||Pattinson,G.S., D.I. Warton, R. Misman, and P.A. McGee|The Fungicides Terrazole and Terraclor and the Nematicide Fenamiphos have Little Effect on Root Colonisation by Glomus mosseae and Growth of Cotton Seedlings|Mycorrhiza7(3): 155-159|1997|10.1007/s005720050175
69979|T||Thorvilson,H.G., S.A.,Jr. Phillips, and A.A. Sorensen|An Innovative Thermo-Fumigation Technique for Control of Red Imported Fire Ants (Hymenoptera Formicidae)|J. Agric. Entomol.6(1): 31-36|1989|
69980|T||Rumsey,T.S., T.H. Elsasser, and S. Kahl|Performance and Digestibilities of Beef Cattle Fed Diets Supplemented with Either Soybean Meal or Roasted Soybeans and Implanted with Synovex|J. Anim. Sci.77(7): 1631-1637|1999|10.2527/1999.7771631x
69981|T||Rumsey,T.S., and A.C. Hammond|Effects of Intake Level on Metabolic Response to Estrogenic Growth Promoters in Beef Steers|J. Anim. Sci.68(12): 4310-4318|1990|10.2527/1990.68124310x
69982|T||DeVries,D.H., and G.P. Georghiou|A Wide Spectrum of Resistance to Pyrethroid Insecticides in Musca domestica|Experientia36(2): 226-227|1980|10.1007/BF01953747
69983|T||Khan,J.K., H. Montaseri, M. Poglod, H.Z. Bu, Z. Zuo, S.M. Salama, M. Daneshtalab, and R.G. Micetich|Interspecies Comparison of Pharmacokinetics of the Novel Triazole Antifungal Agent SYN-2869 and Its Derivatives|Antimicrob. Agents Chemother.44(4): 910-915|2000|10.1128/AAC.44.4.910-915.2000
69984|T||Mougin,C., C. Laugero, M. Asther, and V. Chaplain|Biotransformation of s-Triazine Herbicides and Related Degradation Products in Liquid Cultures by the White Rot Fungus Phanerochaete chrysosporium|Pestic. Sci.49(2): 169-177|1997|10.1002/(SICI)1096-9063(199702)49:2<169::AID-PS520>3.0.CO;2-0
69985|T||Csinos,A.S.|Activity of Tolclofos-Methyl (Rizolex) on Sclerotium rolfsii and Rhizoctonia solani in Peanut|Peanut Sci.12(1): 32-35|1985|10.3146/pnut.12.1.0008
69987|T||DeKergommeaux,D.J., W.F. Grant, and S.S. Sandhu|Clastogenic and Physiological Response of Chromosomes to Nine Pesticides in the Vicia faba In Vivo Root Tip Assay System|Mutat. Res.124(1): 69-84|1983|10.1016/0165-1218(83)90186-6
69988|T||Muller,W.F., I. Scheunert, K. Rozman, W. Kogel, D. Freitag, E. Richter, F. Coulston, and F. Korte|Comparative Metabolism of Hexachlorobenzene and Pentachloronitrobenzene in Plants, Rats, and Rhesus Monkeys|Ecotoxicol. Environ. Saf.2(3-4): 437-445|1978|10.1016/S0147-6513(78)80017-7
69990|T||Whitmore,L.F., J.F. Hughes, N. Harrison, M. Abela, and P. O'Rourke|Enhanced Efficiency of Electrostatically Charged Insecticide Aerosols|Pest Manag. Sci.57(5): 432-436|2001|10.1002/ps.292
69991|T||Sutton,P., C. Richards, L. Buren, and L. Glasgow|Activity of Mesotrione on Resistant Weeds in Maize|Pest Manag. Sci.58(9): 981-984|2002|10.1002/ps.554
69992|T||Thomas,R.S., D.L. Gustafson, W.A. Pott, M.E. Long, S.A. Benjamin, and R.S.H. Yang|Evidence for Hepatocarcinogenic Activity of Pentachlorobenzene with Intralobular Variation in Foci Incidence|Carcinogenesis19(10): 1855-1862|1998|10.1093/carcin/19.10.1855
69994|T||Renner,K.A.|Canada Thistle (Cirsium arvense) Control in Sugar Beet with Clopyralid|Weed Technol.5(2): 392-395|1991|10.1017/S0890037X00028293
69995|A||Schrader,K.K., M.Q. De Regt, C.S. Tucker, and S.O. Duke|A Rapid Bioassay for Selective Algicides|Weed Technol.11(4): 767-774|1997|10.1017/S0890037X00043414
69997|AT||Selim,S.A., S.W. O'Neal, M.A. Ross, and C.A. Lembi|Bioassay of Photosynthetic Inhibitors in Water and Aqueous Soil Extracts with Eurasian Watermilfoil (Myriophyllum spicatum)|Weed Sci.37(6): 810-814|1989|10.1017/S004317450007288X
69999|T||Renner,G.|Toxicities of Combinations of Pentachloronitrobenzene with Mercuric Chloride or Cadmium Chloride, and Hexachlorobenzene with Mercuric Chloride Administered to Rats|Xenobiotica10(7/8): 551-556|1980|10.3109/00498258009033789
70000|T||Murnik,M.R., and C.L. Nash|Mutagenicity of the Triazine Herbicides Atrazine, Cyanazine, and Simazine in Drosophila melanogaster|J. Toxicol. Environ. Health3(4): 691-697|1977|10.1080/15287397709529603
70004|A||Drotar,A.M., and R. Fall|Characterization of a Xenobiotic Thiol Methyltransferase and Its Role in Detoxication in Tetrahymena thermophila|Pestic. Biochem. Physiol.25(3): 396-406|1986|10.1016/0048-3575(86)90014-3
70006|T||Horowitz,M.|Herbicidal Treatments for Control of Papaver somniferum L.|Bull. Narc.32(1): 33-43|1980|
70007|T||James,D.G.|An Evaluation of Chemical and Physical Treatments to Prevent Fuller's Rose Weevil Oviposition on Citrus Fruit|Plant Prot. Q.6(2): 79-81|1991|
70008|T||Moerkerk,M.R.|Chemical Control of Bedstraw (Galium tricornutum Dandy) in Wheat, Barley, Field Peas, Chickpeas and Faba Beans in Southern Australia|Plant Prot. Q.14(1): 24-29|1999|
70009|T||Ahrens,J.F.|Control of Yellow Nutsedge in Nursery Plantings|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:223-227|1979|
70010|T||Wale,S.J.|A Comparison of Fungicides for the Control of Typhula Snow Rot in Winter Barley|Tests Agrochem. Cultiv.7:42-43|1986|
70011|T||Gangawane,L.V., and R.S. Saler|A Comparative Study of Tolerance of Fungicides by Rhizoctonia bataticola and Other Microfungi in the Rhizosphere of Groundnut|Pesticides 22(3): 27-37|1988|
70012|T||Patil,M.R., S.V. Waghe, P.D. Wangikar, and N.N. Khune|Chemical Control of Wilt of Betelvine|Pesticides 20(9): 28-29|2004|
70013|T||Chattannavar,S.N., S. Kulkarni, and R.K. Hegde|Bioassay of Non-Systemic Fungicides Against the Wheat Pathogen, Drechslera sativus (Pam., King and Bakke)|Pesticides 19(8): 27-31|1985|
70014|T||Singh,N., and S. Gangopadhyay|Control of White Rot of Seed Cauliflower|Pesticides 18(12): 23-24|1985|
70015|T||Rettich,F.|Residual Toxicity of Wall-Sprayed Organophosphates, Carbamates and Pyrethroids to Mosquito Culex pipiens molestus Forskal|J. Hyg. Epidemiol. Microbiol. Immunol.24(1): 110-117|1980|
70016|T||Tweedy,B.G., and C. Loeppky|The Use of 14C-Labeled Glucose, Glucuronate, and Acetate to Study the Effect of Atrazine, Simazine, and Fluometuron on Glucose Catabolism in Selected Plant Pathogenic Fungi|Phytopathology58(11): 1522-1531|1968|
70017|T||Singh,A., and S.K. Malhotra|Chemical Control of Web Blight of Winged Bean|Crop Res. (Hisar)6(3): 563-565|1993|
70019|T||Kano,R., C.K. Lok, A. Hayashi, and S. Shinonaga|Resistant Level of Houseflies to Seven Kinds of Synthetic Insecticides and Effect of Synergists to the Malathion Resistant Strain in Singapore|Bull. Tokyo Med. Dent. Univ.25(3): 143-146|1978|
70020|T||Hayashi,A., M. Yajima, and R. Kano|Susceptibility of the Danish Housefly, Musca domestica Linne to Pyrethroid|Bull. Tokyo Med. Dent. Univ.31(2): 111-113|1984|
70021|T||Hayashi,A., S. Shinonaga, J. Hii, and R. Kano|Levels of Resistance to Six Synthetic Insecticides in the Borneo Housefly|Bull. Tokyo Med. Dent. Univ.26(1): 1-3|1979|
70022|T||El-Abyad,M.S., and A.M. Abou-Taleb|Effects of the Herbicides Simazine and Bromophenoxim on the Microflora of Two Soil Types in Egypt|Zentbl. Mikrobiol.140(8): 607-619|1985|10.1016/S0232-4393(85)80071-8
70024|T||Benson,D.M.|Improved Enumeration of Trichoderma spp. on Dilution Plates of Selective Media Containing a Nonionic Surfactant|Can. J. Microbiol.30(9): 1193-1195|1984|10.1139/m84-188
70025|T||Dewey,S.A., D.O. Chilcote, and A.P. Appleby|A Hot-Wire Technique for Girdling Stems and Petioles of Herbaceous Plants|Agron. J.79(3): 587-590|1987|10.2134/agronj1987.00021962007900030037x
70026|T||Duah-Yentumi,S., and D.B. Johnson|Changes in Soil Microflora in Response to Repeated Applications of Some Pesticides|Soil Biol. Biochem.18(6): 629-635|1986|10.1016/0038-0717(86)90086-6
70027|T||Isakeit,T., and J.L. Lockwood|Lethal Effect of Atrazine and Other Triazine Herbicides on Ungerminated Conidia of Cochliobolus sativus in Soil|Soil Biol. Biochem.21(6): 809-817|1989|10.1016/0038-0717(89)90175-2
70028|T||Kassaby,F.Y., and G. Hepworth|Phytophthora cinnamomi: Effects of Herbicides on Radial Growth, Sporangial Production, Inoculum Potential and Root Disease in Pinus radiata|Soil Biol. Biochem.19(4): 437-441|1987|10.1016/0038-0717(87)90035-6
70029|T||Rumsey,T.S., T.H. Elsasser, S. Kahl, and M.B. Solomon|The Effect of Roasted Soybeans in the Diet of Feedlot Steers and Synovex-S Ear Implants on Carcass Characteristics and Estimated Composition|J. Anim. Sci.77(7): 1726-1734|1999|10.2527/1999.7771726x
70030|T||Mohamed,A.K.A., J.P. Pratt, and F.R.S. Nelson|Compatability of Metarhizium anisopliae var. anisopliae with Chemical Pesticides|Mycopathologia99(2): 99-105|1987|10.1007/BF00436913
70032|T||Tetreault,G.E., A.E. Zayed, H.A. Hanafi, G.M. Beavers, and B.C. Zeichner|Susceptibility of Sand Flies to Selected Insecticides in North Africa and the Middle East|Am. Mosq. Control Assoc. J.17(1): 23-27|2001|
70033|A||Vedrine,C., J.C. Leclerc, C. Durrieu, and C. Tran-Minh|Optical Whole-Cell Biosensor Using Chlorella vulgaris Designed for Monitoring Herbicides|Biosens. Bioelectron.18(4): 457-463|2003|10.1016/S0956-5663(02)00157-4
70034|T||Purves,D.C., I.J. Garrod, and A.D. Dayan|A Comparison of Spongiosis Induced in the Brain by Hexachlorophene, Cuprizone and Triethyl Tin in the Sprague-Dawley Rat|Hum. Exp. Toxicol.10(6): 439-444|1991|10.1177/096032719101000613
70036|T||Andrews,T.L.|Resmethrin Residues in Foliage After Aerial Application|Pestic. Monit. J.8(1): 50-52|1974|
70038|T||Helmeczi,B., J. Katai, and M. Bessenyei|Effect of Herbicides on Growth of Some Microscopic Soil Fungus Species|Acta Microbiol. Hung.35(4): 429-432|1988|
70039|T||Sames IV,W.J., R.,Jr. Bueno, J. Hayes, and J.K. Olson|Insecticide Susceptibility of Aedes aegypti and Aedes albopictus in the Lower Rio Grande Valley of Texas and Mexico|Am. Mosq. Control Assoc. J.12(3): 487-490|1996|
70040|T||Taylor,D., Y. Chinzei, K. Ito, N. Higuchi, and K. Ando|Stimulation of Vitellogenesis by Pyrethroids in Mated and Virgin Female Adults, Male Adults, and Fourth Instar Females of Ornithodoros moubata (Acari:  Argasidae)|J. Med. Entomol.28(3): 322-329|1991|10.1093/jmedent/28.3.322
70041|T||Reisen,W.K., G. Yoshimura, W.C. Reeves, M.M. Milby, and R.P. Meyer|The Impact of Aerial Applications of Ultra-Low Volume Adulticides on Culex tarsalis Populations (Diptera:  Culicidae) in Kern County, California, USA, 1982|J. Med. Entomol.21(5): 573-585|1984|10.1093/jmedent/21.5.573
70042|T||Ham,C.M., M.V. Meisch, and C.L. Meek|Efficacy of Dibrom, Trumpet, and Scourge Against Four Mosquito Species in Louisiana|Am. Mosq. Control Assoc. J.15(4): 433-436|1999|
70043|T||Groves,R.L., D.A. Dame, C.L. Meek, and M.V. Meisch|Efficacy of Three Synthetic Pyrethroids Against Three Mosquito Species in Arkansas and Louisiana|Am. Mosq. Control Assoc. J.13(2): 184-188|1997|
70044|T||Sukontason,K., J.K. Olson, W.K. Hartberg, and R.E. Duhrkopf|Organophosphate and Pyrethroid Susceptibilities of Culex salinarius Adults from Texas and New Jersey|Am. Mosq. Control Assoc. J.14(4): 477-480|1998|
70046|T||Graillot,C., and H. Hoellinger|Binding of Two Pyrethroid Isomers, Cismethrin and Bioresmethrin, to Liver Proteins|Toxicol. Appl. Pharmacol.66(3): 313-318|1982|10.1016/0041-008X(82)90297-6
70047|T||Robert,L.L., and J.K. Olson|Susceptibility of Female Aedes albopictus from Texas to Commonly Used Adulticides|Am. Mosq. Control Assoc. J.5(2): 251-253|1989|
70057|T||Kritzman,G.|A Chemi-Thermal Treatment for Control of Seedborne Bacterial Pathogens of Tomato|Parasitica21(2): 101-109|1993|
70058|T||Brown,J.R., D.C. Williams, T.A. Gwinn, S.H. Presley, and G.M. Beavers|Indoor Low-Volume Spray Trials:  Handheld Equipment Evaluation|Am. Mosq. Control Assoc. J.18(3): 232-235|2002|
70059|T||Ries,S.K., H. Chmiel, D.R. Dilley, and P. Filner|The Increase in Nitrate Reductase Activity and Protein Content of Plants Treated with Simazine|Proc. Natl. Acad. Sci. U.S.A.58(2): 526-532|1967|10.1073/pnas.58.2.526
70060|T||Lyr,H., and G. Casperson|Anomalous Cell Wall Synthesis in Mucor mucedo (L.) Fres. Induced by Some Fungicides and Other Compounds Related to the Problem of Dimorphism|Z. Allg. Mikrobiol.22(4): 245-254|1982|
70064|A||Roberts,M.H.,Jr., R.J. Huggett, M.E. Bender, H. Slone, and P.F. DeLisle|Tributyltin Bioconcentration from Solution and Suspended Sediments by Oysters, with a Comparison with Uptake in Field Experiment|In: M.A.Champ and P.F.Seligman (Eds.), Organotin: Environmental Fate and Effects, Chapman and Hall, London:357-368|1996|
70069|A||Henderson,R.S., and S.M. Salazar|Flowthrough Bioassay Studies on the Effects of Antifouling TBT Leachates|In: M.A.Champ and P.F.Seligman (Eds.), Organotin: Environmental Fate and Effects, Chapman and Hall, London:281-303|1996|
70071|A||His,E.|Embryogenesis and Larval Development in Crassostrea gigas:  Experimental Data and Field Observations on the Effect of Tributyltin Compounds|In: M.A.Champ and P.F.Seligman (Eds.), Organotin: Environmental Fate and Effects, Chapman and Hall, London:239-258|1996|
70073|T||Al-Kherb,S.M.|Anastomosis Groups, Pathogenicity, and Sensitivity of Rhizoctonia soloni Isolates from Potato for Some Fungicides in the Kingdom of Saudi Arabia|Dirasat Agric. Sci.23(3): 208-213|1996|
70075|T||Singh,G.J.P., and B. Singh|Cellular Lesions in the Central Nervous System of Periplaneta americana Following Insecticide Treatment In Vitro and In Vivo.  I.  Nerve Cell Bodies and the Neuropile|Neurobehav. Toxicol. Teratol.6(3): 201-213|1984|
70076|T||Singh,G.J.P., and B. Singh|Cellular Lesions in the Central Nervous System of Periplaneta americana Following Insecticide Treatment In Vitro and In Vivo.  II.  Glial Cells|Neurobehav. Toxicol. Teratol.6(3): 215-222|1984|
70077|A||Arsalane,W., G. Paresys, J.C. Duval, C. Wilhelm, R. Conrad, and C. Buchel|A New Fluorometric Device to Measure the In Vivo Chlorophyll a Fluorescence Yield in Microalgae and Its Use as a Herbicide Monitor|Eur. J. Phycol.28(4): 247-252|1993|10.1080/09670269300650361
70079|T||Lievremont,D., F. Seigle-Murandi, J.L. Benoit-Guyod, and R. Steiman|Biotransformation and Biosorption of Pentachloronitrobenzene by Fungal Mycelia|Mycol. Res.100(8): 948-954|1996|10.1016/S0953-7562(96)80047-5
70080|T||Webb,D.P., and P.A. Chapman|An Evaluation of Two Regimes of Application of a Synthetic Pyrethroid Aerosol for the Control of Multi-resistant Houseflies on a UK Pig Farm|Int. Pest Control33(1): 10-13|1991|
70081|T||Decheva,G., and E.N. Karanov|Synthesis and Physiological Activity Certain Chloralphenylbiguanides|Dokl. Bolg. Akad. Nauk29(10): 1527-1530|1976|
70083|A||Rovesti,L., and K.V. Deseo|Compatibility of Chemical Pesticides with the Entomopathogenic Nematodes, Steinernema carpocapsae Weiser and S. feltiae Filipjev (Nematoda: Steinernematidae)|Nematologica36(2): 237-245|1990|10.1163/002925990X00202
70084|T||Meisner,J., N. Lifshitz, and K.R.S. Ascher|Antifeedant Properties of Herbicides Against Spodoptera littoralis Larvae (Lepidoptera: Noctuidae), with Special Reference to Pronamide|J. Econ. Entomol.80(4): 724-727|1987|10.1093/jee/80.4.724
70085|T||Ranells,N.N., and M.G. Wagger|Crimson Clover Reseeding Potential as Affected by s-Triazine Herbicides|J. Prod. Agric.6(1): 90-93|1993|10.2134/jpa1993.0090
70088|T||De Prado,R., C. Dominguez, and M. Tena|Characterization of Triazine-Resistant Biotypes of Common Lambsquarters (Chenopodium album), Hairy Fleabane (Conyza bonaeriensis), and Yellow Foxtail (Setaria glauca) Found in Spain|Weed Sci.37(1): 1-4|1989|10.1017/S0043174500055752
70089|T||Garcia de Arevalo,R.C., C.A. Lusarreta, C.B. Neyra, M.A. Sanchez, and P.J.H. Algarra|Chemical Control of Annual Weeds in Field Beans (Vicia faba) in Central Spain|Weed Sci.40(1): 96-100|1992|10.1017/S0043174500057027
70090|T||Ritter,R.L., L.M. Kaufman, T.J. Monaco, W.P. Novitzky, and D.E. Moreland|Characterization of Triazine-Resistant Giant Foxtail (Setaria faberi) and Its Control in No-Tillage Corn (Zea mays)|Weed Sci.37(4): 591-595|1989|10.1017/S0043174500072453
70094|T||White,A.W.C., R. Martin, D.C. Stewart, and J.C. Wickham|Assessing the Performance Against Houseflies of Indoor Aerosol Space Sprays.  Part I.  Factors Examined During Tests with Houseflies in Free Flight|Pestic. Sci.34(2): 153-162|1992|10.1002/ps.2780340210
70095|T||Desmarchelier,J., M. Bengston, R. Davies, B. Elder, R. Hart, R. Henning, W. Murray, E. Ridley, E. Ripp, C. Sierakowski,|Assessment of the Grain Protectants Chlorpyrifos-Methyl plus Bioresmethrin, Fenitrothion plus (1R)-Phenothrin, Methacrifos and Pirimiphos-Methyl plus Carbaryl Under Practical Conditions in Australia|Pestic. Sci.20(4): 271-288|1987|10.1002/ps.2780200404
70098|T||Burnet,M.W.M., O.B. Hildebrand, J.A.M. Holtum, and S.B. Powles|Amitrole, Triazine, Substituted Urea, and Metribuzin Resistance in a Biotype of Rigid Ryegrass (Lolium rigidum)|Weed Sci.39(3): 317-323|1991|10.1017/S0043174500072994
70099|T||Byers,R.E., J.A. Barden, R.F. Polomski, R.W. Young, and D.H. Carbaugh|Apple Thinning by Photosynthetic Inhibition|J. Am. Soc. Hortic. Sci.115(1): 14-19|1990|10.21273/JASHS.115.1.14
70101|T||El-Herrawie,M.A., and M.M. El-Sayed|Effect of Different Pesticidal Formulations on the Toxicity to Male Mice|Bull. Entomol. Soc. Egypt13:157-160|1983|
70102|A||Henning,P.A., and R.E. Lee|Effects of Selected Herbicides and Plant Hormones on Prototheca wickerhamii|J. Med. Microbiol.9(1): 23-27|1976|10.1099/00222615-9-1-23
70103|T||Meeta,M., P.S. Bedi, and K. Kumar|Chemical Control of Grey Mould of Gram Caused by Botrytis cinerea in Punjab|J. Res. Punjab Agric. Univ.23(3): 435-438|1986|
70104|T||Kataria,H.R., and S. Sunder|A Comparison of In Vitro and In Vivo Effects of Clay Minerals, Humic Acid and Micronutrients on the Activity of Fungicides Against Rhizoctonia solani|Plant Soil111(1): 95-104|1988|10.1007/BF02182042
70105|T||Warui,C.M.|A Laboratory Evaluation of Pyrethrins and Bioallethrin in Vaporising Mats for Mosquito Control|Pyrethrum Post18(4): 131-139|1992|
70106|T||Brenneman,T.B., A.P. Murphy, and A.S. Csinos|Activity of Tebuconazole on Sclerotium rolfsii and Rhizoctonia solani, Two Soilborne Pathogens of Peanut|Plant Dis.75(7): 744-747|1991|10.1094/PD-75-0744
70108|T||Gupta,J.H., and B. Prasad|Chemical Control of Die-Back Disease of Loquat Caused by Cytospora eriobotryae|Prog. Hortic.19(1/2): 113-114|1987|
70109|T||Chauhan,M.S., and J.C. Duhan|Chemical Control of Stem and Root Rot of Pea by Seed Treatments|Indian J. Mycol. Plant Pathol.17(3): 359-360|1987|
70110|T||Agrawal,A.K., G. Singh, and D.P. Misra|Changes in Galactolipid Content of Maize Chloroplasts as Influenced by Growth and Some Herbicides|Int. J. Trop. Agric.2(3): 227-232|1984|
70111|T||Sandhu,K.S., T. Singh, H.S. Gill, and I.S. Thind|Bioefficacy of Some Herbicides for Weed Control in Sorghum Grown for Fodder and Grain|J. Res. Punjab Agric. Univ.24(3): 376-381|1987|
70112|T||Shalaby,A.A., A.A. Mostafa, and K.A.M. Allam|Field Studies on the Susceptibility of Housefly to Certain Insecticides in Nine Egyptian Governorates|J. Egypt. Soc. Parasitol.32(1): 91-97|2002|
70113|T||Jame,Y.W., A.J. Cessna, V.O. Biederbeck, R. Grover, A.E. Smith, and H.C. Korven|Herbicide Residues and Yield Effects from Repeated Flood-Irrigations of Alfalfa with Water Containing Monuron or Simazine|Can. J. Plant Sci.79(4): 639-645|1999|10.4141/P98-106
70114|A||Khare,L.K.|Effect of Four Commercial Herbicides on Some Aquatic Weeds|Geobios6(2): 75-77|1979|
70115|A||Weston,L.H., and P.K. Robinson|Detection and Quantification of Triazine Herbicides Using Algal Cell Fluorescence|Biotechnol. Tech.5(5): 327-330|1991|10.1007/BF00185008
70119|A||Vitturi,R., C. Mansueto, E. Catalano, L. Pellerito, and M.A. Girasolo|Spermatocyte Chromosome Alterations in Truncatella subcylindrica (L., 1767) (Mollusca, Mesogastropoda) Following Exposure to Dibutyltin(IV) and Tributyltin(IV) Chlorides|Appl. Organomet. Chem.6:525-532|1992|10.1002/aoc.590060609
70120|A||Osada,M., T. Nomura, and K. Mori|Acute Toxicity and Accumulation of Tributyltin Oxide in the Japanese Oyster, Crassostrea gigas|Suisan Zoshoku (Non-English)41(4): 439-443|1993|
70122|T||Lee,C.K., H.S. Kang, B.I. June, B.J. Lee, D.H. Moon, and S.G. Kang|Effects of Polychlorinated Biphenyls on the Expression of KAP3 Gene Involved in the 'Critical Period' of Rat Brain Sexual Differentiation|Korean J. Biol. Sci.5(4): 327-331|2001|10.1080/12265071.2001.9647623
70124|T||Betts,J.J., S.P. James, and W.V. Thorpe|The Metabolism of Pentachloronitrobenzene and 2:3:4:6-Tetrachloronitrobenzene and the Formation of Mercapturic Acids in the Rabbit|Biochem. J. (Lond.)61:611-617|1955|10.1042/bj0610611
70125|T||Yoke,O.P., and K.I. Sudderuddin|Toxicological Studies of Four Insecticides Against Musca domestica L.|Southeast Asian J. Trop. Med. Public Health6(4): 525-531|1975|
70128|T||Chastagner,G.A., J.M. Staley, and K. Riley|Control of Sclerotium rolfsii on Bulbous Iris and Lilies with In-Furrow Fungicide Applications|Acta Hortic.266:457-468|1990|10.17660/ActaHortic.1990.266.61
70129|T||Nachmias,A., and J. Krikun|Etiology and Control of Powdery Scab of Potato in a Semi-Arid Region of Israel|Phytoparasitica16(1): 33-38|1988|10.1007/BF02979574
70130|T||Ehteshamul-Haque,S., S. Parveen, I. Izhar, and A. Ghaffar|Effect of Pesticides on the Efficacy of Biocontrol Agents in the Control of Root Rot and Root Knot Disease Complex of Okra|Pak. J. Nematol.13(2): 129-135|1995|
70131|T||Nishimoto,R.K.|Evaluation of Pre-Emergence Herbicides for Establishing Coffee|Trop. Pest Manag.38(3): 298-301|1992|10.1080/09670879209371712
70132|T||Ahmed,I., M. Bashir, B. Khan, M. Hatim, and M.I. Sultani|Effect of Seed Dressing Fungicides on Yield and Yield Components of Wheat|Pak. J. Agric. Res.8(4): 361-365|1987|
70133|T||Sharma,G.P., R.C. Sobti, and R. Gill|Effect of Halogenated Fungicides, Hexachloronitrobenzene (HCB) and Pentachloronitrobenzene (PCNB) on the Genome of Mice|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.59(2): 169-175|1989|
70134|T||Wong,P.T.W., and L.A. Tesoriero|Evaluation of Fungicides for the Control of Kikuyu Yellows (Verrucalvus flavofaciens)|Plant Prot. Q.5(1): 76-77|1990|
70135|T||Peshney,N.L., and S.H. Gade|Compatibility and Persistence of Fungicides with Monocrotophos and Urea on Chilli|PKV Res. J.15(1): 9-14|1991|
70136|T||Heath,M.C., J.H. Clarke, and S.E. Ogilvy|Effect of Herbicide Applications on Broad-Leaved Weeds and Yield of Spring Field Beans|Tests Agrochem. Cultiv.13:38-39|1992|
70137|T||Magarey,R.D., K. Clarke, D.G. Madge, and G.A. Buchanan|Comparative Efficacy of Trunk Treatments for Control of Fuller's Rose Weevil, Asynonychus cervinus (Boheman) (Coleoptera:  Curculionidae), on Citrus|Plant Prot. Q.7(1): 7-9|1992|
70139|A||Nehring,D.|The Toxic Effect of Urea Solutions Containing Urease on Various Fish Species (Die Giftwirkung unreasehaltiger Harnstofflosungen auf verschiedene Fischarten)|Z. Fisch. Hilfswiss.11(7/8): 539-547|1962|
70141|T||Spiridonov,Y.Y., and G.S. Spiridonova|Effect of Long-Term Use of Sym-Triazines on the Biological Activity of the Soil|Sov. Soil Sci.5:162-171|1973|
70142|A||Gill,S.S.|Larvicidal Activity of Synthetic Pyrethroids Against Aedes albopictus (Skuse)|Southeast Asian J. Trop. Med. Public Health8(4): 510-514|1977|
70144|T||Walker,G.E.|Root Rot of Grapevine Rootlings in South Australia Caused by Rhizoctonia solani|Aust. Plant Pathol.21(2): 58-60|1992|10.1071/APP9920058
70145|T||Korekar,V.B., C.U. Patil, and R.B. Somani|Efficacy of Different Fungicides, V. Chilli Damping Off|PKV Res. J.16(1): 124-125|1992|
70146|T||Morgan,N.O., W.N. Sullivan, and M.S. Schechter|Micronized Resmethrin Dust for Control of Flies in Dairy Barns|J. Econ. Entomol.66(6): 1281-1282|1973|10.1093/jee/66.6.1281
70147|T||Suryawanshi,B.M.|Efficiency of Some Weedicides in Controlling of Parthenium|PKV Res. J.16(1): 105-107|1992|
70148|T||U.S.Department of Health and Human Services|Toxicology and Carcinogenesis Studies of Pentachloronitrobenzene (CAS No. 82-68-8) in B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.325:113 p.|1987|
70149|T||Swentzel,K.C., R.A. Angerhofer, and E.A. Haight|Toxicological Evaluation of Pyrethroid Insecticide (5-Benzyl-3-Furyl) Methyl-2,2-Dimethyl-3-(2-Methylpropenyl) Cyclopropanecarboxylate (Resmethrin)|Final Rep.No.51-0830-77, U.S.Army Environ.Hyg.Agency, Aberdeen Proving Ground, MD:54 p.|1977|
70176|T||Karunakar,R.K., K. Satyaprasad, and S. Pande|Competitive Saprophytic Ability of the Sorghum Stalk Rot Pathogens in Fungicide Amended Soils|Indian J. Mycol. Plant Pathol.24(3): 186-189|1994|
70177|T||Sarpe,N., M. Iancu, and C. Roibu|Development of Various Strategies to Control both Annual and Perennial Weed Species in Apple Orchards on Sandy Soils|Br. Crop Prot. Conf. Weeds:947-952|1995|
70178|T||Hippalgaonkar,K.V.|Effect of Simazine on Protein Content of Trigonella|Indian Bot. Rep.4(2): 219-|1985|
70179|T||Clay,D.V., and T.M. West|The Response of Traizine Resistant and Susceptible Biotypes of Erigeron canadensis to 23 Herbicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3b): 1195-1206|1987|
70180|T||Kalyan,D.S., B.S. Daulta, and M.K. Rana|Effect of Weed Control Measures on Weed Count, Yield and Fruit Quality in Guava cv. L-49|Indian J. Agric. Res.28(1): 65-68|1994|
70182|T||Pozuelo,J.M., M. Fernandez-Pascual, M.M. Lucas, and M.R. De Felipe|Effect of Eight Herbicides from Five Different Chemical Groups on Nitrogen Fixation and Grain Yield in Lupinus albus L. Grown in Semi-Arid Zones|Weed Res. (Multiple Languages)29(6): 419-425|1989|10.1111/j.1365-3180.1989.tb01313.x
70184|AT||Skogerboe,J.G., and K.D. Getsinger|Endothall Species Selectivity Evaluation: Northern Latitude Aquatic Plant Community|J. Aquat. Plant Manag.40:1-5|2002|
70186|T||Kalyan,D.S., B.S. Daulta, and R.K. Malik|Weed Control in Pearl Mandarin|Agric. Sci. Dig.13(1): 13-16|1993|
70187|T||Harika,A.S., and D.S. Bains|Studies on Weed Control in Maize Fodder|Agric. Sci. Dig.5(1): 13-16|1985|
70190|T||Middleton,K.J., and J.R. Tatnell|Substitution of Dichlofluanid for Captan in Peanut Seed Dressing|Australas. Plant Pathol.18(4): 98-100|1989|10.1071/APP9890098
70191|T||Crystal,M.M., and A.B. DeMilo|Susceptibility of Laboratory-Reared Northern Fowl Mites, Ornithonyssus sylviarum (Acari:  Macronyssidae), to Selected Acaricides|Exp. Appl. Acarol.4(4): 353-358|1988|10.1007/BF01275166
70192|T||Jauhri,K.S., D.K. Agarwal, and V. Iswaran|Effect of Seed Dressing Fungicides on Soybean Inoculated with Rhizobium japonicum in Charcoal Rot Infested Soil|Indian J. Agric. Res.17(1/2): 105-108|1983|
70193|T||Collins,P.J., and D. Wilson|Efficacy of Current and Potential Grain Protectant Insecticides Against a Fenitrothion-Resistant Strain of the Sawtoothed Grain Beetle, Oryzaephilus surinamensis L.|Pestic. Sci.20(2): 93-104|1987|10.1002/ps.2780200203
70194|T||Glendinning,P.J.|Evaluation of Soil Residual Herbicides on Hops|Tests Agrochem. Cultiv.13:50-51|1992|
70198|T||Smith,M.T., and D.D. Hardee|Influence of Fungicides on Development of an Entomopathogenic Fungus (Zygomycetes: Neozygitaceae) in the Cotton Aphid (Homoptera: Aphididae)|Environ. Entomol.25(3): 677-687|1996|10.1093/ee/25.3.677
70203|T||Hayashi,A., S. Shinonaga, R. Kano, C. Hooi, and I. Singh|Resistant Level of Houseflies to Six Kinds of Synthetic Insecticides in Malaysia|Bull. Tokyo Med. Dent. Univ.25(2): 83-86|1978|
70206|A||Guasch,H., N. Ivorra, V. Lehmann, M. Paulsson, M. Real, and S. Sabater|Community Composition and Sensitivity of Periphyton to Atrazine in Flowing Waters:  The Role of Environmental Factors|J. Appl. Phycol.10(2): 203-213|1998|10.1023/A:1008035212208
70207|A||Hayes,T.B., A. Collins, M. Lee, M. Mendoza, N. Noriega, A.A. Stuart, and A. Vonk|Hermaphroditic, Demasculinized Frogs After Exposure to the Herbicide Atrazine at Low Ecologically Relevant Doses|Proc. Natl. Acad. Sci. U.S.A.99(8): 5476-5480|2002|10.1073/pnas.082121499
70208|T||Crain,D.A., I.D. Spiteri, and L.J.,Jr. Guillette|The Functional and Structural Observations of the Neonatal Reproductive System of Alligators Exposed In Ovo to Atrazine, 2,4-D, or Estradiol|Toxicol. Ind. Health15(1-2): 180-185|1999|10.1191/074823399678846565
70210|A||Moore,A., and C.P. Waring|Mechanistic Effects of a Triazine Pesticide on Reproductive Endocrine Function in Mature Male Atlantic Salmon (Salmo salar L.) Parr.|Pestic. Biochem. Physiol.62:41-50|1998|10.1006/pest.1998.2366
70211|T||Cheng,Y., and Q.X. Zhou|Ecological Toxicity of Reactive X-3B Red Dye and Cadmium Acting on Wheat (Triticum aestivum)|J. Environ. Sci. (China)14(1): 136-140|2002|
70212|T||Wentworth,B.C., B.G. Hendricks, and J. Sturtevant|Sterility Induced in Japanese Quail by Spray Treatment of Eggs with Mestranol|J. Wildl. Manag.32(4): 879-887|1968|10.2307/3799565
70213|T||Delpuech,J.M., and J. Meyet|Reduction in the Sex Ratio of the Progeny of a Parasitoid Wasp (Trichogramma brassicae) Surviving the Insecticide Chlorpyrifos|Arch. Environ. Contam. Toxicol.45(2): 203-208|2003|10.1007/s00244-002-0146-2
70214|T||Heinz,G.H., and D.J. Hoffman|Embryotoxic Thresholds of Mercury:  Estimates from Individual Mallard Eggs|Arch. Environ. Contam. Toxicol.44(2): 257-264|2003|10.1007/s00244-002-2021-6
70215|A||Van Wyk,J.H., E.J. Pool, and A.J. Leslie|The Effects of Anti-Androgenic and Estrogenic Disrupting Contaminants on Breeding Gland (Nuptial Pad) Morphology, Plasma Testosterone Levels, and Plasma Vitellogenin Levels in Male Xenopus laevis (African Clawed Frog)|Arch. Environ. Contam. Toxicol.44(2): 247-256|2003|10.1007/s00244-002-1161-z
70216|T||Zhong,H., M. Latham, P.G. Hester, R.L. Frommer, and C. Brock|Impact of Naled on Honey Bee Apis mellifera L. Survival and Productivity:  Aerial ULV Application Using a Flat-Fan Nozzle System|Arch. Environ. Contam. Toxicol.45(2): 216-220|2003|10.1007/s00244-002-0185-8
70217|T||Holtze,M.S., F. Ekelund, L.D. Rasmussen, C.S. Jacobsen, and K. Johnsen|Prey-Predator Dynamics in Communities of Culturable Soil Bacteria and Protozoa:  Differential Effects of Mercury|Soil Biol. Biochem.35(9): 1175-1181|2003|10.1016/S0038-0717(03)00178-0
70219|T||Peveling,R., and S.A. Demba|Toxicity and Pathogenicity of Metarhizium anisopliae var. acridum (Deuteromycotina, Hyphomycetes) and Fipronil to the Fringe-Toed Lizard Acanthodactylus dumerili (Squamata:  Lacertidae)|Environ. Toxicol. Chem.22(7): 1437-1447|2003|
70220|T||Smith,D.I., and J.A. Lockwood|Horizontal and Trophic Transfer of Diflubenzuron and Fipronil Among Grasshoppers (Melanoplus sanguinipes) and Between Grasshoppers and Darkling Beetles (Tenebrionidae)|Arch. Environ. Contam. Toxicol.44(3): 377-382|2003|10.1007/s00244-002-1271-7
70221|T||Nair,G.A., A.I. Mohamed, and M.H. Haeba|Laboratory Studies on the LD(50) of the Woodlouse, Porcellio scaber Latreille (Isopoda, Oniscidea) Exposed to Chlorpyrifos (Dursban)|Afr. J. Ecol.40(4): 393-395|2002|10.1046/j.0141-6707.2002.00389.x
70222|T||Rufyikiri,G., Y. Thiry, and S. Declerck|Contribution of Hyphae and Roots to Uranium Uptake and Translocation by Arbuscular Mycorrhizal Carrot Roots Under Root-Organ Culture Conditions|New Phytol.158(2): 391-399|2003|10.1046/j.1469-8137.2003.00747.x
70223|T||Ruf,M., and I. Brunner|Vitality of Tree Fine Roots:  Reevaluation of the Tetrazolium Test|Tree Physiol.23(4): 257-263|2003|10.1093/treephys/23.4.257
70224|T||O'Connor,J.C., S.R. Frame, and G.S. Ladics|Evaluation of a 15-Day Screening Assay Using Intact Male Rats for Identifying Steroid Biosynthesis Inhibitors and Thyroid Modulators|Toxicol. Sci.69(1): 79-91|2002|10.1093/toxsci/69.1.79
70225|T||Gent,D.H., H.F. Schwartz, and S.J. Nissen|Effect of Commercial Adjuvants on Vegetable Crop Fungicide Coverage, Absorption, and Efficacy|Environ. Toxicol. Chem.87(5): 591-597|2003|
70226|T||Al-Najar,H., R. Schulz, and V. Romheld|Plant Availability of Thallium in the Rhizosphere of Hyperaccumulator Plants: A Key Factor for Assessment of Phytoextraction|Plant Soil249(1): 97-105|2003|10.1023/A:1022544809828
70227|T||Janmaat,A.F., W.J. De Kogel, and E.J. Woltering|Enhanced Fumigant Toxicity of p-Cymene Against Frankliniella occidentalis by Simultaneous Application of Elevated Levels of Carbon Dioxide|Pest Manag. Sci.58(2): 167-173|2001|10.1002/ps.432
70228|T||Kaya,C., and D. Higgs|Relationship Between Water Use and Urea Application in Salt-Stressed Pepper Plants|J. Plant Nutr.26(1): 19-30|2003|10.1081/PLN-120016495
70229|T||Rivelli,A.R., R.A. James, R. Munns, and A.G. Condon|Effect of Salinity on Water Relations and Growth of Wheat Genotypes with Contrasting Sodium Uptake|Funct. Plant Biol.29:1065-1074|2002|10.1071/PP01154
70230|T||St.John,R.A., N.E. Christians, and H.G. Taber|Supplemental Calcium Applications to Creeping Bentgrass Established on Calcareous Sand|Crop Sci.43(3): 967-972|2003|10.2135/cropsci2003.9670
70232|T||Van de Veire,M., M. Klein, and L. Tirry|Residual Activity of Abamectin and Spinosad Against the Predatory Bug Orius laevigatus|Phytoparasitica30(5): 525-528|2002|10.1007/BF02979758
70233|T||Collings,L.V., A.M. Blair, A.P. Gay, C.J. Dyer, and N. Mackay|The Effect of Weather Factors on the Performance of Herbicides to Control Alopecurus myosuroides in Winter Wheat|Weed Res. (Multiple Languages)43(2): 146-153|2003|10.1046/j.1365-3180.2003.00327.x
70234|T||Keskin,N., A. Ozkirim, N. Diril, and E. Oksuzoglu|Detection of Mutagenic Activities of Various Pesticides in Neurospora crassa|Bull. Environ. Contam. Toxicol.70(1): 22-33|2003|10.1007/s00128-002-0151-1
70235|T||Smith,P.N., R.L. Lochmiller, C.W.,Jr. Qualls, J.W. Lish, and S.T. McMurry|Lymphoproliferative Responses of Splenocytes from Wild Cotton Rats (Sigmodon hispidus) Following Acute Exposure to Aroclor 1254|Bull. Environ. Contam. Toxicol.70(1): 97-105|2003|10.1007/s00128-002-0161-z
70236|T||Mukherjee,I., M. Gopal, and S.C. Chatterjee|Persistence and Effectiveness of Iprodione Against Alternaria Blight in Mustard|Bull. Environ. Contam. Toxicol.70(3): 586-591|2003|10.1007/s00128-003-0025-1
70237|T||Dell'Omo,G., M.G. Pleskacheva, D.P. Wolfer, H.P. Lipp, and R.F. Shore|Comparative Effects of Exposure to an Organophosphate Pesticide on Locomotor Activity of Laboratory Mice and Five Species of Wild Rodents|Bull. Environ. Contam. Toxicol.70(1): 138-145|2003|10.1007/s00128-002-0167-6
70238|T||Tittlemier,S.A., J.A. Duffe, A.D. Dallaire, D.M. Bird, and R.J. Nordstrom|Reproductive and Morphological Effects of Halogenated Dimethyl Bipyrroles on Captive American Kestrels (Falco sparverius)|Environ. Toxicol. Chem.22(7): 1497-1506|2003|10.1002/etc.5620220711
70239|T||Barber,I., K.A. Tarrant, and H.M. Thompson|Exposure of Small Mammals, in Particular the Wood Mouse Apodemus sylvaticus, to Pesticide Seed Treatments|Environ. Toxicol. Chem.22(5): 1134-1139|2003|10.1002/etc.5620220523
70240|T||Friesen,K.J., R. Suri, and W.R. Kaufman|Effects of the Avermectin, MK-243, on Ovary Development and Salivary Gland Degeneration in the Ixodid Tick, Amblyomma hebraeum|Pestic. Biochem. Physiol.76(3): 82-90|2003|10.1016/S0048-3575(03)00070-1
70241|T||Palmer-Jones,T., I.W. Forster, and L.J.S. Line|Effect on Honey Bees of Toxaphene and Strobane Applied to White Clover Pasture|N. Z. J. Agric. Res.1:694-706|1958|10.1080/00288233.1958.10431578
70242|T||Oertli,J.J., O.R. Lunt, and V.B. Youngner|Boron Toxicity in Several Turfgrass Species|Agron. J.53:262-265|1961|10.2134/agronj1961.00021962005300040017x
70244|T||Mansour,F.|Effect of Pesticides on Spiders Occurring on Apple and Citrus in Israel|Phytoparasitica15(1): 43-50|1987|10.1007/BF02980518
70245|T||Atkins,E.L.|Rice Field Mosquito Control Studies with Low Volume Dursban Sprays in Colusa County, California.  V.  Effects Upon Honey Bees|Mosq. News32(4): 538-541|1972|
70246|T||Shore,L.S., Y. Kapulnik, B. Ben-Dor, Y. Fridman, S. Wininger, and M. Shemesh|Effects of Estrone and 17beta-Estradiol on Vegetative Growth of Medicago sativa|Physiol. Plant. (Multiple Languages)84:217-222|1992|10.1111/j.1399-3054.1992.tb04656.x
70247|T||Evans,W.H., N.F. Cardarelli, and D.J. Smith|Accumulation and Excretion of (1-14C) bis(Tri-n-Butyltin) Oxide in Mice|J. Toxicol. Environ. Health5:871-877|1979|10.1080/15287397909529796
70248|T||Quin,B.F., R.R. Brooks, and P.F. Reay|The Accumulation of Tungsten by Nothofagus menziesit|Plant Soil36:699-703|1972|10.1007/BF01348530
70249|T||Mori,T.|Effect of Postpubertal Oestrogen Injections on Mitotic Activity of Vaginal and Uterine Epithelial Cells in Mice Treated Neonatally with Oestrogen|J. Endocrinol.64:133-140|1975|10.1677/joe.0.0640133
70251|T||John,M.K., H.H. Chuah, and C.J. Van Laerhoven|Boron Response and Toxicity as Affected by Soil Properties and Rates of Boron|Soil Sci.124(1): 34-39|1977|10.1097/00010694-197707000-00006
70252|T||Stone,E.L., and G. Baird|Boron Level and Boron Toxicity in Red and White Pine|J. For.54:11-12|1956|
70253|T||Whitsett,J.M., E.W. Irvin, F.W. Edens, and J.P. Thaxton|Demasculinization of Male Japanese Quail by Prenatal Estrogen Treatment|Horm. Behav.8:254-263|1977|10.1016/0018-506X(77)90042-3
70254|T||Robson,A.D., and K. Snowball|Response of Narrow-Leafed Lupins to Cobalt Application in Relation to Cobalt Concentration in Seed|Aust. J. Exp. Agric.27:657-660|1987|10.1071/EA9870657
70255|T||Yamamoto,H., K. Tatsuyama, and T. Uchiwa|Fungal Flora of Soil Polluted with Copper|Soil Biol. Biochem.17(6): 785-790|1985|10.1016/0038-0717(85)90133-6
70256|T||Matocha,J.E., and S. Mostaghimi|Effects of Carbon Dioxide and Iron Enrichment of a Calcareous Soil on Fe-Chlorosis, Root and Shoot Development of Grain Sorghum|J. Plant Nutr.11(6-11): 1503-1515|1988|10.1080/01904168809363906
70257|T||Wallace,A., and G.A. Wallace|Some Effects of ZincEDTA and ManganeseEDTA on Nemaguard Peach Seedlings Grown in a Glasshouse|J. Plant Nutr.6(6): 465-471|1983|10.1080/01904168309363111
70258|T||Palmer-Jones,T., F.A. Bartrum, I.W. Forster, and D.L. Harrison|Effect on Honey Bees of DDT Plus Superphosphate Applied as a Dust to White Clover Pasture|N. Z. J. Sci. Technol.36:177-192|1954|
70259|T||Somashekar,R.K., M.D. Kulashekaran, and M.S. Prabhu|Toxicity of Heavy Metals to Some Fungi|Int. J. Environ. Stud.21(3/4): 277-280|1983|10.1080/00207238308710086
70260|T||Takkar,P.N., R.L. Bansal, S.P. Singh, and V.K. Nayyar|Response of Pearl Millet Cultivars to Zinc Under Field Conditions|Int. J. Trop. Agric.6(3-4): 247-251|1988|
70261|T||Monks,D.W., M.A. Halcomb, and E.L. Ashburn|Survey and Control of Musk Thistle (Carduus nutans) in Tennessee Field Nurseries|Weed Technol.5(1): 218-220|1991|10.1017/S0890037X0003356X
70262|T||Haywood,J.D.|Loblolly Pine (Pinus taeda) Response to Weed Control in Central Louisiana|Weed Technol.2(4): 490-494|1988|10.1017/S0890037X00032322
70263|T||Starke,R.J., and K.A. Renner|Velvetleaf (Abutilon theophrasti) and Sugarbeet (Beta vulgaris) Response to Triflusulfuron and Desmedipham plus Phenmedipham|Weed Technol.10(1): 121-126|1996|10.1017/S0890037X00045814
70265|T||Delorme,R., A. Berthier, and D. Auge|The Toxicity of Two Pyrethroids to Encarsia formosa and Its Host Trialeurodes vaporariorum; Prospecting for a Resistant Strain of the Parasite|Pestic. Sci.16(4): 332-336|1985|10.1002/ps.2780160405
70266|T||Kadir,H.A., M.B. Zakaria, A.A. Kechil, and M.S. Azirun|Toxicity and Electrophysiological Effects of Spilanthes acmella Murr. Extracts on Periplaneta americana L.|Pestic. Sci.25(4): 329-336|1989|10.1002/ps.2780250402
70267|T||Sandhu,K.S., S.P. Mehra, and H.S. Gill|Studies on Weed Control in Winter Maize (Zea mays L.) Through Herbicides|J. Res. Punjab Agric. Univ.23(4): 549-556|1986|
70268|T||Mehra,S.P., L.S. Brar, and K.K. Sharma|Weed Management in Spring Planted Sugarcane|J. Res. Punjab Agric. Univ.32(1): 11-18|1995|
70270|T||Gupta,A., and D. Singh|Viability of Fungicide Treated Seeds of Mungbean and Cowpea in Storage|Seed Res.18(1): 70-76|1990|
70271|T||Greger,M., and S. Lindberg|Effects of Cd2+ and EDTA on Young Sugar Beets (Beta vulgaris).  I.  Cd2+ Uptake and Sugar Accumulation|Physiol. Plant. (Multiple Languages)66(1): 69-74|1986|10.1111/j.1399-3054.1986.tb01235.x
70272|T||Sedberry,J.E.,Jr., F.J. Peterson, F.E. Wilson, D.B. Mengel, P.E. Schilling, and R.H. Brupbacher|Influence of Soil Reaction on Application of Zinc on Yields and Zinc Contents of Rice Plants|Commun. Soil Sci. Plant Anal.11(3): 283-295|1980|10.1080/00103628009367036
70273|T||Palmer-Jones,T., I.W. Forster, and G.L. Jeffery|Effect on Honey Bees of DDT and Thiodan Applied from the Air as Sprays to Chou Moellier|N. Z. J. Agric. Res.2:481-487|1959|10.1080/00288233.1959.10418032
70274|T||Lichtenstein,E.P., T.W. Fuhremann, N.E.A. Scopes, and R.F. Skrentny|Translocation of Insecticides from Soils into Pea Plants.  Effects of the Detergent LAS on Translocation and Plant Growth|J. Agric. Food Chem.15(5): 864-869|1967|10.1021/jf60153a038
70275|T||Kung,M.P., P.A. Nickerson, F.M. Sansone, J.R. Olson, P.J. Kostyniak, M.A. Adolf, P.J. Lein, and J.A. Roth|Effect of Short-Term Exposure to Hexachlorophene on Rat Brain Cell Specific Marker Enzymes|Fundam. Appl. Toxicol.11(3): 519-527|1988|10.1016/0272-0590(88)90116-9
70277|T||Kakiichi,N., A. Kitamikado, T. Sasamori, Y. Tanaka, Y. Ishiwata, A. Sakurai, K. Shimizu, and S.I. Kamata|Toxicity of Several Insecticides Against Ciliate Colpoda aspera|Anim. Sci. Technol.67(10): 844-850|1996|
70278|T||Samsoe-Petersen,L.|Laboratory Method for Testing Side-Effects of Pesticides on the Rove Beetle Aleochara bilineata - Adults|Entomophaga32(1): 73-81|1987|10.1007/BF02390933
70279|T||DeFrank,J., and V.A. Easton-Smith|Evaluation of Pre-Emergence Herbicides on Four Proteaceous Species|Trop. Agric.67(4): 360-362|1990|
70280|T||Stark,P.M., C.A. Sandoski, M.D. Andis, C.L. Meek, and M.V. Meisch|ULV and LV Applications of Resmethrin and Synergized Resmethrin Against Riceland Mosquitoes|Southwest. Entomol.10(1): 26-31|1985|
70281|T||Awadalla,O.A., and I.M. El-Refaie|Effect of Herbicides on the Toxicity of Fungicides Against Rhizoctonia solani Causing Damping-Off of Cotton|J. Phytopathol.140(3): 187-192|1994|10.1111/j.1439-0434.1994.tb04807.x
70282|T||Singh,A., K. Singh, and D.V. Singh|Suitability of Organic Mulch (Distillation Waste) and Herbicides for Weed Management in Perennial Aromatic Grasses|Trop. Pest Manag.37(2): 162-165|1991|10.1080/09670879109371567
70283|T||Heer,W.F.|Wheat Emergence and Yield as Related to Cultivar and Seed Treatment|Trans. Kans. Acad. Sci.101(3/4): 82-88|1998|10.2307/3627954
70284|T||Knott,C.M.|Tolerance of Autumn-Sown Determinate Lupins (Lupinus albus) to Herbicides|Tests Agrochem. Cultiv.17:52-53|1996|
70285|T||Ely,C.B., R.E. Frans, T.L. Lavy, R.E. Talbert, and J.D. Mattice|Determining Diuron, Simazine, and Methiocarb Residues in Highbush Blueberries (Vaccinium corymbosum)|Hortscience28(1): 33-35|1993|10.21273/HORTSCI.28.1.33
70286|T||Llano Gonzalez,A.|Effects of Fungicides on Soilborne Diseases on Common Beans (Phaseolus vulgaris L.) in Nicaragua|Swed. J. Agric. Res.17(2): 69-75|1987|
70287|T||Clay,D.V.|The Tolerance of New Strawberry Cultivars to Three Herbicides|Tests Agrochem. Cultiv.11:78-79|1990|
70288|T||Parvathi,K., K. Venkateswarlu, and A.S. Rao|Toxicity of Soil-Applied Fungicides and Gypsum to the Vesicular - Arbuscular Mycorrhizal Fungus Glomus mosseae in Groundnut|Can. J. Bot.63(9): 1673-1675|1985|10.1139/b85-232
70289|T||Tewari,J.D., and R.M. Rai|Studies on the Efficacy of Some Pre-Emergence Herbicides on the Weed Control in Apple Nursery|Indian J. Agric. Res.17(4): 209-212|1983|
70290|T||Kung,M.P., P.A. Nickerson, F.M. Sansone, J.R. Olson, P.J. Kostyniak, M.A. Adolf, and J.A. Roth|Effect of Chronic Exposure to Hexachlorophene on Rat Brain Cell Specific Marker Enzymes|Neurotoxicology10(2): 201-210|1989|
70291|T||Maini,P.|Residues of the Algicide Endothal in Water, Soil and Rice, After Paddy Field Applications|Pestic. Sci.34(1): 45-52|1992|10.1002/ps.2780340107
70292|A||Sarkar,S.K.|Toxicity of Simazine, Diammonium Phosphate and Rockphosphate to Fish, Snail and Worm at Various Water Temperatures|Geobios24(2-3): 142-145|1997|
70293|T||Schroeder,H.A., and J.J. Balassa|Arsenic, Germanium, Tin and Vanadium in Mice:  Effects on Growth, Survival and Tissue Levels|J. Nutr.92:245-252|1967|10.1093/jn/92.2.245
70295|T||Harrington,K.C., and A. Rahman|Tolerance to Herbicides of Ground Cover Species for New Zealand Orchards|Plant Prot. Q.13(3): 111-115|1998|
70296|T||Hagan,A.K., J.R. Weeks, and K. Bowen|Effect of Placement and Rate of PCNB and PCNB + Ethoprop on the Control of Southern Stem Rot of Peanut|Peanut Sci.18(2): 94-97|1991|10.3146/i0095-3679-18-2-8
70297|T||Hagan,A.K., J.R. Weeks, and K. Bowen|Effects of Application Timing and Method on Control of Southern Stem Rot of Peanut with Foliar-Applied Fungicides|Peanut Sci.18(1): 47-50|1991|10.3146/i0095-3679-18-1-13
70298|T||De Prado,R., R. Scalla, and P. Gaillardon|Differential Toxicity of Simazine and Diuron to Torilis arvensis and Lolium rigidum|Weed Res. (Multiple Languages)30(3): 213-221|1990|10.1111/j.1365-3180.1990.tb01705.x
70299|A||Holst,R.W., J.H. Yopp, and G. Kapusta|Effect of Several Pesticides on the Growth and Nitrogen Assimilation of the Azolla-anabaena Symbiosis|Weed Sci.30(1): 54-58|1982|10.1017/S0043174500026163
70300|T||Benson,D.M.|Control of Rhizoctonia Stem Rot of Poinsettia During Propagation with Fungicides that Prevent Colonization of Rooting Cubes by Rhizoctonia solani|Plant Dis.75(4): 394-398|1991|10.1094/PD-75-0394
70301|T||Burpee,L.L., A.E. Mueller, and D.J. Hannusch|Control of Typhula Blight and Pink Snow Mold of Creeping Bentgrass and Residual Suppression of Dollarspot by Triadimefon and Propiconazole|Plant Dis.74(9): 687-689|1990|10.1094/PD-74-0687
70302|T||Curran,W.S., E.L. Werner, and N.L. Hartwig|Effectiveness of Herbicides and Tillage on Quackgrass (Elytrigia repens) Control in Corn (Zea mays)|Weed Technol.8(2): 324-330|1994|10.1017/S0890037X00038859
70304|T||Saleh,H.M., and R.A. Sikora|Effect of Quintozen, Benomyl and Carbendazim on the Interaction Between the Endomycorrhizal Fungus Glomus fasciculatum and the Root-Knot Nematode Meloidogyne incognita on Cotton|Nematologica34(4): 432-442|1988|10.1163/002825988X00396
70305|T||Verma,R.K., and R.A. Singh|Evaluation of Fungicides and Antibiotics Against Claviceps Oryzae-sativae, the Incitant of False Smut of Rice|Pesticides 21(10): 40-42|1987|
70306|T||Upadhyaya,G., and A.N. Roy|Efficacy of Certain Chemicals in the Control of Species of Fusarium in Stored Ashgaurd|Pesticides 21(5): 25-27|1987|
70307|T||Jauhri,K.S., and D.K. Agarwal|Effect of Seed Dressing Fungicides on Soybean Inoculated with Rhizobium japonicum in Charcoal Rot Infested Soil|Pesticides 18(8): 47-49|1984|
70309|T||Farkas,R., and L. Pap|Susceptibility of Hydrotaea aenescens (Wiedemann) (Diptera:  Muscidae) to Selected Insecticides and Its Importance in Integrated Fly Management|Parasitol. Res.82(2): 170-173|1996|10.1007/s004360050089
70310|T||Mock,I.T., and R.L. Amor|Use of Simazine and Trifluralin for Weed Control in Lupins in the Victorian Mallee|Plant Prot. Q.1(2): 76-78|1985|
70311|T||Panetta,F.D., D.J. Gilbey, and M.F. D'Antuono|Survival and Fecundity of Wild Radish (Raphanus raphanistrum L.) Plants in Relation to Cropping, Time of Emergence and Chemical Control|Aust. J. Agric. Res.39(3): 385-397|1988|10.1071/AR9880385
70313|T||Brown,J.J.|Toxicity of Herbicides Thiobencarb and Endothall When Fed to Laboratory-Reared Trichoplusia ni (Lepidoptora: Noctuidae)|Pestic. Biochem. Physiol.27(1): 97-100|1987|10.1016/0048-3575(87)90100-3
70314|T||Csinos,A.S.|Targeting Fungicides for Control of Southern Stem Rot on Peanut|Plant Dis.73(9): 723-726|1989|10.1094/PD-73-0723
70315|T||Johnson III,W.C., D.L. Colvin, and B.G.,Jr. Mullinix|Phytotoxicity of Endothall on Peanut (Arachis hypogaea):  Formulation, Rate, and Time of Application|Weed Technol.8(4): 738-743|1994|10.1017/S0890037X0002861X
70316|T||Doohan,D.J., T.J. Monaco, and T.J. Sheets|Management of Field Violet (Viola arvensis) in Strawberries (Fragaria x anassa)|Weed Technol.7(1): 185-189|1993|10.1017/S0890037X00037106
70317|T||Singh,M., and W. Mersie|Metalaxyl Toxicity to Citrus with or Without Herbicides|Weed Technol.7(2): 511-514|1993|10.1017/S0890037X00027962
70321|T||Debaeke,P., and A. Hilaire|Production of Rainfed and Irrigated Crops Under Different Crop Rotations and Input Levels in Southwestern France|Can. J. Plant Sci.77(4): 539-548|1997|10.4141/P96-089
70322|T||Majek,B.A., and W.V.,Jr. Welker|Toxicity of Residual Herbicides to Peaches (Prunus persica) and the Interaction with Soil Mounding|Weed Technol.4(1): 105-108|1990|10.1017/S0890037X00025070
70323|T||Murphy,T.R., and B.J. Johnson|Tolerance of Putting Green Turfgrasses to Simazine in Irrigation Water|Weed Technol.6(2): 328-332|1992|10.1017/S0890037X00034813
70324|T||Sundberg,S.E., J.J. Ellington, J.J. Evans, D.A. Keys, and J.W. Fisher|Accumulation of Perchlorate in Tobacco Plants:  Development of a Plant Kinetic Model|J. Environ. Monit.5(3): 505-512|2003|10.1039/b300570d
70325|T||Huang,B., S. Kuo, and R. Bembenek|Cadmium Uptake by Cucumber from Soil Amended with Phosphorus Fertilizers|J. Am. Soc. Hortic. Sci.128(4): 615-620|2003|10.21273/JASHS.128.4.0615
70326|T||Bowen,J.E.|Kinetics of Zinc Uptake by Two Rice Cultivars|Plant Soil94:99-107|1986|10.1007/BF02380592
70327|T||Faber,B.A., R.J. Zasoski, R.G. Burau, and K. Uriu|Zinc Uptake by Corn as Affected by Vesicular-Arbuscular mycorrhizae|Plant Soil129:121-130|1990|10.1007/BF00032404
70328|T||Smith,P.F.|Heavy-Metal Accumulation by Citrus Roots|Bot. Gaz.114:426-436|1953|10.1086/335786
70329|T||Palma,J.M., J. Yanez, M. Gomez, and L.A. Del Rio|Copper-Binding Proteins and Copper Tolerance in Pisum Sativum L.: Characterization of Low-Molecular-Weight Metalloproteins from Plants with Different Sensitivity to Copper|Planta (Multiple Languages)181(4): 487-495|1990|10.1007/BF00193001
70330|T||Price,C.G., and P.W. Abrahams|Copper Tolerance in a Population of Silene vulgaris ssp. maritima (A. and D. Love) at Dolfrwynog Bog near Dolgellau, North Wales|Environ. Geochem. Health16(1): 27-30|1994|10.1007/BF00149590
70331|T||Palma,J.M., M. Gomez, J. Yanez, and L.A. Del Rio|Increased Levels of Peroxisomal Active Oxygen-Related Enzymes in Copper-Tolerant Pea Plants|Plant Physiol.85(2): 570-574|1987|10.1104/pp.85.2.570
70332|T||Klingaman,T.E., C.A. King, and L.R. Oliver|Effect of Application Rate, Weed Species, and Weed Stage of Growth on Imazethapyr Activity|Weed Sci.40:227-232|1992|10.1017/S0043174500057271
70333|T||Johnson,M.D., D.L. Wyse, and W.E. Lueschen|The Influence of Herbicide Formulation on Weed Control in Four Tillage Systems|Weed Sci.37(2): 239-249|1989|10.1017/S004317450007185X
70334|T||Sundaram,A., K.M.S. Sundaram, R. Nott, J. Curry, and L. Sloane|Persistence of Bacillus thuringiensis Deposits in Oak Foliage, After Aerial Application of Foray 48B Using Rotary and Pressure Atomizers|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(1): 71-105|1997|
70335|T||Ratnasooriya,W.D., and R. Balasuriya|Antigestational Effects of Hexavalent Chromium in the Rat|Med. Sci. Res.20(10): 383-384|1992|
70336|T||Chacko,C.I., and J.L. Lockwood|Accumulation of DDT and Dieldrin by Microorganisms|Can. J. Microbiol.13(8): 1123-1126|1967|10.1139/m67-153
70337|T||Carpenter,C.P., C.S. Weil, P.E. Palm, M.W. Woodside, J.H. Nair III, and H.F.,Jr. Smyth|Mammalian Toxicity of 1-Naphthyl-N-Methylcarbamate (Sevin Insecticide)|J. Agric. Food Chem.9(1): 30-39|1961|10.1021/jf60113a009
70338|T||Murphy,R.J., and J.F. Levy|Production of Copper Oxalate by Some Copper Tolerant Fungi|Trans. Br. Mycol. Soc.81(1): 165-168|1983|10.1016/S0007-1536(83)80223-X
70339|T||Ostrowski,J., and R.J. Hance|The Influence of the Method of Application of Prometon to the Soil on Its Toxicity to White Mustard (Sinapis alba L.)|Weed Res. (Multiple Languages)13:355-358|1973|10.1111/j.1365-3180.1973.tb01286.x
70340|T||Reagan,T.E., G. Coburn, and S.D. Hensley|Effects of Mirex on the Arthropod Fauna of a Louisiana Sugarcane Field|Environ. Entomol.1(5): 588-591|1972|10.1093/ee/1.5.588
70341|T||Atwal,O.S.|Fatty Changes and Hepatic Cell Excretion in Avian Liver:  An Electron Microscopical Study of Kepone Toxicity|J. Comp. Pathol.83(1): 115-124|1973|10.1016/0021-9975(73)90034-0
70342|T||Broadley,R.H.|Toxicity of Insecticides to Coccinella repanda Thunberg and Harmonia octomaculata (Fabricius) (Coleoptera:  Coccinellidae)|Qld. J. Agric. Anim. Sci.40(2): 125-127|1983|
70343|T||Boyes,W.K., E. Hunter, C. Gary, K. Jensen, and R.L. Peiffer|Topical Exposure of the Eyes to the Organophosphorus Insecticide Malathion:  Lack of Visual Effects|J. Appl. Toxicol.19(6): 473-483|1999|10.1002/(SICI)1099-1263(199911/12)19:6<473::AID-JAT602>3.0.CO;2-A
70344|T||Mazayev,V.T., A.A. Korolev, and I.N. Skhachkhova|Experimental Investigation of the Toxic Effect of Tetraethyltin and Dichlorodibutyltin on the Animal Organism|J. Hyg. Epidemiol. Microbiol. Immunol.15:115-120|1971|
70345|T||Hickey,J.J., and L.B. Hunt|Initial Songbird Mortality Following a Dutch Elm Disease Control Program|J. Wildl. Manag.24(3): 259-265|1960|10.2307/3797512
70346|T||Henderson,R.J., C.M. Frampton, D.R. Morgan, and G.J. Hickling|The Efficacy of Baits Containing 1080 for Control of Brushtail Possums|J. Wildl. Manag.63(4): 1138-1151|1999|10.2307/3802832
70347|T||Sullivan,T.P.|Influence of Forest Herbicide on Deer Mouse and Oregon Vole Population Dynamics|J. Wildl. Manag.54(4): 566-576|1990|10.2307/3809350
70348|T||Wright,B.S.|Woodcock Reproduction in DDT-Sprayed Areas of New Brunswick|J. Wildl. Manag.24(4): 419-420|1960|10.2307/3796523
70349|T||Robidoux,P.Y., G. Bardai, L. Paquet, G. Ampleman, S. Thiboutot, J. Hawari, and G.I. Sunahara|Phytotoxicity of 2,4,6-Trinitrotoluene (TNT) and Octahydro-1,3,5,7-Tetranitro-1,3,5,7-Tetrazocine (HMX) in Spiked Artificial and Natural Forest Soils|Arch. Environ. Contam. Toxicol.44(2): 198-209|2003|10.1007/s00244-002-2018-1
70350|T||Hendrickx,F., J.P. Maelfait, and F. Langenbick|Absence of Cadmium Excretion and high Assimilation Result in Cadmium Biomagnification in a Wolf Spider|Ecotoxicol. Environ. Saf.55(3): 287-292|2003|10.1016/S0147-6513(02)00129-X
70351|T||Atkins,E.L., and D. Kellum|Comparative Morphogenic and Toxicity Studies on the Effect of Pesticides on Honeybee Brood|J. Apic. Res.25(4): 242-255|1986|10.1080/00218839.1986.11100725
70352|T||Muyonga,K.C., M.S. DeFelice, and B.D. Sims|Weed Control with Reduced Rates of Four Soil Applied Soybean Herbicides|Weed Sci.44:148-155|1996|10.1017/S0043174500093693
70353|T||Johnson,M.S., S.D. Holladay, K.S. Lippenholz, J.L. Jenkins, and W.C. McCain|Effects of 2,4,6-Trinitrotoluene in a Holistic Environmental Exposure Regime on a Terrestrial Salamander, Ambystoma tigrinum|Toxicol. Pathol.28(2): 334-341|2000|10.1177/019262330002800214
70354|T||Symeonidis,L., T. McNeilly, and A.D. Bradshaw|Interpopulation Variation in Tolerance to Cadmium, Copper, Lead, Nickel and Zinc in Nine Populations of Agrostis capillaris L.|New Phytol.101(2): 317-324|1985|10.1111/j.1469-8137.1985.tb02838.x
70355|T||Lichtenstein,E.P., W.F. Millington, and G.T. Cowley|Effect of Various Insecticides on Growth and Respiration of Plants|J. Agric. Food Chem.10(3): 251-256|1962|10.1021/jf60121a024
70356|T||Terriere,L.C., G.H. Arscott, and U. Kiigemagi|The Endrin Content of Eggs and Body Tissue of Poultry Receiving Endrin in Their Daily Diet|J. Agric. Food Chem.7(7): 502-504|1959|10.1021/jf60101a008
70357|T||Nicoletti,G., E. Domalewska, and R. Borland|Fungitoxicity of Oxine and Copper Oxinate: Activity Spectrum, Development of Resistance and Synergy|Mycol. Res.103(9): 1073-1084|1999|10.1017/S0953756298008235
70358|T||Nicoletti,G., E. Domalewska, and R. Borland|Fungitoxicity of Oxine and Copper Oxinate: Effects of pH, Metals and Chelating Agents on Activity|Mycol. Res.103(9): 1085-1097|1999|10.1017/S0953756298008247
70359|T||Goldsworthy,M.C.|Effect of Technical DDT, Incorporated in Quartz Sand and Soils, on the Growth of Peach Trees|Plant Dis. Rep.32(10): 437-441|1948|
70360|A||Pandey,S., R.K. Asthana, A.M. Kayastha, N. Singh, and S.P. Singh|Metal Uptake and Thiol Production in Spirodela polyrhiza (L.) SP20|J. Plant Physiol.154(5/6): 634-640|1999|10.1016/S0176-1617(99)80238-7
70361|T||Searcy,K.B., and D.L. Mulcahy|The Parallel Expression of Metal Tolerance in Pollen and Sporophytes of Silene dioica (L.) Clairv., S. alba (Mill.) Krause and Mimulus guttatus DC|Theor. Appl. Genet.69(5/6): 597-602|1985|10.1007/BF00251110
70362|T||Palmer-Jones,T., and I.W. Forster|Effect on Honey Bees of DDT Applied from Air as a Spray to Lucerne:  Notes on Lucerne Pollination|N. Z. J. Agric. Res.1:627-632|1958|10.1080/00288233.1958.10431570
70363|T||Maryanski,M., P. Kramarz, R. Laskowski, and M. Niklinska|Decreased Energetic Reserves, Morphological Changes and Accumulation of Metals in Carabid Beetles (Poecilus cupreus L.) Exposed to Zinc- or Cadmium-Contaminated Food|Ecotoxicology11(2): 127-139|2002|10.1023/A:1014425113481
70364|T||MacFarlane,G.R.|Chlorophyll a Fluorescence as a Potential Biomarker of Zinc Stress in the Grey Mangrove, Avicennia marina (Forsk.) Vierh.|Bull. Environ. Contam. Toxicol.70(1): 90-96|2003|10.1007/s00128-002-0160-0
70365|T||Lunackova,L., E. Masarovicova, K. Kral'ova, and V. Stresko|Response of Fast Growing Woody Plants from Family Salicaceae to Cadmium Treatment|Bull. Environ. Contam. Toxicol.70(3): 576-585|2003|10.1007/s00128-003-0024-2
70366|T||Peralta-Videa,J.R., J.L. Gardea-Torresdey, J. Walton, W.P. Mackay, and M. Duarte-Gardea|Effects of Zinc upon Tolerance and Heavy Metal Uptake in Alfalfa Plants (Medicago sativa)|Bull. Environ. Contam. Toxicol.70(5): 1036-1044|2003|10.1007/s00128-003-0087-0
70367|T||Marcano,L., I. Carruyo, A. Del Campo, and X. Montiel|Effect of Cadmium on the Nucleoli of Meristematic Cells of Onion Allium cepa L:  An Ultrastructural Study|Environ. Res.88(1): 30-35|2002|10.1006/enrs.2001.4316
70368|T||Berkelaar,E., and B.A. Hale|Accumulation of Cadmium by Durum Wheat Roots:  Bases for Citrate-Mediated Exceptions to the Free Ion Model|Environ. Toxicol. Chem.22(5): 1155-1161|2003|
70369|T||Sterenborg,I., N.A. Vork, S.K. Verkade, C.A.M. Van Gestel, and N.M. Van Straalen|Dietary Zinc Reduces Uptake but not Metallothionein Binding and Elimination of Cadmium in the Springtail, Orchesella cincta|Environ. Toxicol. Chem.22(5): 1167-1171|2003|10.1002/etc.5620220528
70370|T||Aldrich,M.V., J.L. Gardea-Torresdey, J.R. Peralta-Videa, and J.G. Parsons|Uptake and Reduction of Cr(VI) to Cr(III) by Mesquite (Prosopis spp.): Chromate-Plant Interaction in Hydroponics and Solid Media Studied Using XAS|Environ. Sci. Technol.37(9): 1859-1864|2003|10.1021/es0208916
70371|T||Chen,T., C. Wei, Z. Huang, Q. Huang, Q. Lu, and Z. Fan|Arsenic Hyperaccumulator Pteris vittata L. and Its Arsenic Accumulation|Chin. Sci. Bull.47(11): 902-905|2002|10.1360/02tb9202
70372|T||Heim,A., I. Brunner, E. Frossard, and J. Luster|Aluminum Effects on Picea abies at Low Solution Concentrations|Soil Sci. Soc. Am. J.67(3): 895-898|2003|
70373|T||Coolong,T.W., and W.M. Randle|Zinc Concentration in Hydroponic Solution Culture Influences Zinc and Sulfur Accumulation in Brassica rapa L.|J. Plant Nutr.26(5): 949-959|2003|10.1081/PLN-120020067
70374|T||Backor,M., D. Fahselt, R.D. Davidson, and C.T. Wu|Effects of Copper on Wild and Tolerant Strains of the Lichen Photobiont Trebouxia erici (Chlorophyta) and Possible Tolerance Mechanisms|Arch. Environ. Contam. Toxicol.45(2): 159-167|2003|10.1007/s00244-002-0134-6
70375|T||Spurgeon,D.J., C. Svendsen, J.M. Weeks, P.K. Hankard, H.E. Stubberud, and J.E. Kammenga|Quantifying Copper and Cadmium Impacts on Intrinsic Rate of Population Increase in the Terrestrial Oligochaete Lumbricus rubellus|Environ. Toxicol. Chem.22(7): 1465-1472|2003|10.1002/etc.5620220707
70376|T||Zidar,P., D. Drobne, J. Strus, and A. Blejec|Intake and Assimilation of Zinc, Copper, and Cadmium in the Terrestrial Isopod Porcellio scaber Latr. (Crustacea, Isopoda)|Bull. Environ. Contam. Toxicol.70(5): 1028-1035|2003|10.1007/s00128-003-0086-1
70377|T||Burger,J., and M. Gochfeld|Lead in Young Herring Gulls:  Paradoxical Effects of Exercise on Tissue Concentrations|J. Toxicol. Environ. Health Part A66(2): 181-197|2003|10.1080/15287390306405
70378|T||DeWitt,J.B.|Effects of Chlorinated Hydrocarbon Insecticides upon Quail and Pheasants|J. Agric. Food Chem.3(8): 672-676|1955|10.1021/jf60054a003
70379|T||Burger,J., and M. Gochfeld|Lead and Behavioral Development:  Parental Compensation for Behaviorally Impaired Chicks|Pharmacol. Biochem. Behav.55(3): 339-349|1996|10.1016/S0091-3057(96)00103-7
70380|T||Burger,J., and M. Gochfeld|Lead and Behavioral Development in Young Herring Gulls: Effects of Timing of Exposure on Individual Recognition|Fundam. Appl. Toxicol.21:187-195|1993|10.1006/faat.1993.1088
70381|T||Golden,N.H., B.A. Rattner, J.B. Cohen, D.J. Hoffman, E. Russek-Cohen, and M.A. Ottinger|Lead Accumulation in Feathers of Nestling Black-Crowned Night Herons (Nycticorax nycticorax) Experimentally Treated in the Field|Environ. Toxicol. Chem.22(7): 1517-1524|2003|
70382|T||Boyd,W.A., and P.L. Williams|Availability of Metals to the Nematode Caenorhabditis elegans:  Toxicity Based on Total Concentrations in Soil and Extracted Fractions|Environ. Toxicol. Chem.22(5): 1100-1106|2003|10.1002/etc.5620220518
70383|T||Kopsell,D.A., D.E. Kopsell, and W.M. Randle|Seed Germination Response of Rapid-Cycling Brassica oleracea Grown Under Increasing Sodium Selenate|J. Plant Nutr.26(7): 1355-1366|2003|10.1081/PLN-120021047
70384|T||Robinson,B.H., E. Lombi, F.J. Zhao, and S.P. McGrath|Uptake and Distribution of Nickel and Other Metals in the Hyperaccumulator Berkheya coddii|New Phytol.158(2): 279-285|2003|10.1046/j.1469-8137.2003.00743.x
70385|T||Fecht-Christoffers,M.M., P. Maier, and W.J. Horst|Apoplastic Peroxidases and Ascorbate are Involved in Manganese Toxicity and Tolerance of Vigna unguiculata|Physiol. Plant. (Multiple Languages)117(2): 237-244|2003|10.1034/j.1399-3054.2003.00022.x
70386|T||Znidarsic,N., J. Strus, and D. Drobne|Ultrastructural Alterations of the Hepatopancreas in Porcellio scaber Under Stress|Environ. Toxicol. Pharmacol.13(3): 161-174|2003|10.1016/S1382-6689(02)00158-8
70387|T||Hassan,S.A., F. Bigler, H. Bogenschutz, E. Boller, J. Brun, P. Chiverton, P. Edwards, F. Mansour, E. Naton, P.A. Oomen,|"Results of the Fourth Joint Pesticide Testing Programme Carried Out by the IOBC/WPRS-Working Group ""Pesticides and Beneficial Organisms"""|J. Appl. Entomol.105(4): 321-329|1988|10.1111/j.1439-0418.1988.tb00194.x
70388|T||Hughes,M.R., D.C. Bennett, D.A. Gray, P.J. Sharp, A.M. Scheuhammer, and J.E. Elliott|Effects of Cadmium Ingestion on Plasma and Osmoregulatory Hormone Concentrations in Male and Female Pekin Ducks|J. Toxicol. Environ. Health Part A66(6): 565-579|2003|10.1080/15287390306354
70389|T||Sparling,D.W.|Conditioned Aversion of Aluminum Sulfate in Black Ducks|Environ. Toxicol. Chem.9(4): 479-483|1990|10.1002/etc.5620090410
70392|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Pentachloroanisole in F344/N Rats and B6C3F1 Mice (Gavage Studies)|Natl. Toxicol. Program Tech. Rep. Ser.414:283 p.|1993|
70393|T||Rocheleau,S., M. Martel, G. Bardai, M. Sarrazin, S. Dodard, L. Paquet, A. Corriveau, J. Hawari, P. Gong, G.I. Sunahara,|Toxicity of Nitro-Heterocyclic and Nitroaromatic Energetic Materials to Terrestrial Plants in a Natural Sandy Loam Soil|Rep.No.ECBC-TR-351, Biotechnol.Res.Inst., NRCC, Canada:108 p.|2005|
70395|A||Marten,G.G., W. Che, and E.S. Bordes|Compatibility of Cyclopoid Copepods with Mosquito Insecticides|Am. Mosq. Control Assoc. J.9(2): 150-154|1993|
70397|T||Tsuji,R., N. Isobe, and H. Kawasaki|Effect of Pyrethroids on Pentobarbital-Induced Sleeping Time in Relation to the Chemical Structure|Toxicology106(1-3): 131-137|1996|10.1016/0300-483X(95)03174-E
70400|T||Bauske,E.M., and H.W. Kirby|Effects of Dinitroaniline Herbicides, Carboxin-Pentachloronitrobenzene Seed Treatment, and Rhizoctonia Disease on Soybean|Plant Dis.76(3): 236-239|1992|10.1094/PD-76-0236
70401|T||Radke,V.L., and C.R. Grau|Effects of Herbicides on Carpogenic Germination of Sclerotinia sclerotiorum|Plant Dis.70(1): 19-23|1986|10.1094/PD-70-19
70402|T||Hoffmann,J.A., and D.V. Sisson|Evaluation of Bitertanol and Thiabendazole Seed Treatment and PCNB Soil Treatment for Control of Dwarf Bunt of Wheat|Plant Dis.71(9): 839-841|1987|10.1094/PD-71-0839
70403|T||Barnes,J.S., A.S. Csinos, and J.E. Hook|Effects of Fungicides, Cultivars, Irrigation, and Environment on Rhizoctonia Limb Rot of Peanut|Plant Dis.74(9): 671-676|1990|10.1094/PD-74-0671
70404|T||Moyer,J.R., R. Hironaka, G.C. Kozub, and P. Bergen|Effect of Herbicide Treatments on Dandelion, Alfalfa and Sainfoin Yields and Quality|Can. J. Plant Sci.70(4): 1105-1113|1990|10.4141/cjps90-133
70405|T||Bustamam,M., and H.D. Sisler|Effect of Pentachloronitrobenzene, Pentachloroaniline, and Albinism on Epidermal Penetration by Appressoria of Pyricularia|Pestic. Biochem. Physiol.28(1): 29-37|1987|10.1016/0048-3575(87)90110-6
70406|T||Brust,G.E.|Direct and Indirect Effects of Four Herbicides on the Activity of Carabid Beetles (Coleoptera:  Carabidae)|Pestic. Sci.30(3): 309-320|1990|10.1002/ps.2780300308
70407|T||Arthur,F.H.|Control of Lesser Grain Borer (Coleoptera:  Bostrichidae) with Chlorpyrifos-Methyl, Bioresmethrin, and Resmethrin:  Effect of Chlorpyrifos-Methyl Resistance and Environmental Degradation|J. Econ. Entomol.85(4): 1471-1475|1992|10.1093/jee/85.4.1471
70408|T||Sames IV,W.J., W.T. Wilson, J.W.,Jr. Smith, and H.D. Petersen|Effective Destruction of Honey Bee Colonies|Southwest. Entomol.16(1): 19-24|1991|
70409|T||Tzanakakis,M.E., and D.A. Prophetou-Athanassiadou|Inhibition of Larval Growth of the Olive Fruit Fly by Topical Application of Fungicides, Bactericides, and Adjuvants to Olive Fruit|In: A.P.Economopoulos (Ed.), Second International Symposium on Fruit Flies, Crete, Greece:505-510|1987|
70411|T||Elango,F.|Control of Pre- and Post-Emergence Damping-Off of Potato Seedlings Caused by Rhizoctonia solani in Peru|Ann. Appl. Biol.109(2): 279-286|1986|10.1111/j.1744-7348.1986.tb05319.x
70413|T||Conway,K.E., S. Tomasino, and P.L. Claypool|Evaluations of Biological and Chemical Controls for Southern Blight of Apple Rootstock in Oklahoma Nurseries|Proc. Okla. Acad. Sci.76:9-15|1996|
70414|T||Tewari,A.N., K.S. Rathi, J.P. Singh, R.A. Pandey, and S.K. Singh|Studies on Weed Control in Potato|Indian J. Agron.33(2): 121-124|1988|
70416|T||Creager,R.A.|Control of Young Mediterranean Saltwort (Salsola vermiculata) with Postemergence Herbicides|Weed Technol.4(2): 376-379|1990|10.1017/S0890037X00025574
70417|A||Arukwe,A., B.M. Nilsen, K. Berg, and A. Goksoyr|Immunohistochemical Analysis of the Vitellogenin Response in the Liver of Atlantic Salmon Exposed to Environmental Oestrogens|Biomarkers (Lond.)4(5): 373-380|1999|10.1080/135475099230750
70421|A||Mayer,F.L.,Jr.|Pesticides as Pollutants|In: B.G.Liptak (Ed.), Environmental Engineer's Handbook, Chilton Book Co., Radnor, PA:405-418|1974|
70422|T||Usoroh,N.J., and A.O. Akin-Taylor|Evaluation of Herbicides for Weed Control in Pepper (Capsicum annuum)|Tests Agrochem. Cultiv.10:116-117|1989|
70423|T||Phillips,A.J.L.|Evaluation of Fungicides for Suppression of Sclerotial Germination in Sclerotinia sclerotiorum|Tests Agrochem. Cultiv.8:82-83|1987|
70424|T||Bowerman,P.|Efficacy and Tolerance of Newly Planted Trees to Herbicides|Tests Agrochem. Cultiv.15:74-75|1994|
70425|T||Lee,J., and L. Norbury|Effects of Herbicide Treatments on Infection of Oil Seed Rape with Light Leaf Spot|Tests Agrochem. Cultiv.12:50-51|1991|
70426|T||Phillips,A.J.L.|Evaluation of Tolclofos-Methyl and Some Other Fungicidal Seed Treatments Against Rhizoctonia Diseases of Beans|Tests Agrochem. Cultiv.11:40-41|1990|
70427|T||Cotterill,P.J., D.J. Ballinger, and J.F. Kollmorgen|Use of Three Screening Techniques for the Evaluation of Fungicides to Control Rhizoctonia Root Rot of Wheat|Ann. Appl. Biol.115(2): 229-235|1989|10.1111/j.1744-7348.1989.tb03381.x
70428|T||Wehtje,G., C. Gilliam, T. Whitwell, C. Pounders, and W. Webster|Weed Control in Field-Grown Boxwood and Photinia|Hortscience21(3): 445-448|1986|10.21273/HORTSCI.21.3.445
70429|T||Phogat,B.S., V.M. Bhan, J. Singh, and R.S. Dhawan|Effects of Different Herbicides on Weeds and Tuber Yield in Potato|Indian J. Agron.36(1): 131-132|1991|
70430|T||Devonald,V.G.|The Effect of Spot Treatments and Sward Removal on the Establishment of Beech (Fagus sylvatica L.)|J. Environ. Manag.23(2): 119-123|1986|
70431|T||Dubey,R.C.|Effect of Pesticides on Saprophytic Survival of Macrophomina phaseolina in Soybean Stems in Soil|Acta Bot. Indica19(1): 36-40|1991|
70433|T||El-Ghar,G.E.S.A.|Effects of Herbicides on Consumption, Growth and Food Utilization by Cotton Leafworm Spodoptera littoralis (Boisd.) Larvae|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)67(7): 143-146|1994|10.1007/BF01905773
70434|T||El-Shal,S.A., E.S. El-Banna, and M.A. Fathi|Effect of Some Pre-emergence Herbicides on Weed Control and Growth of MM106 Apple Rootstock in Nursery|Egypt. J. Hortic.20(2): 293-306|1993|
70436|T||Granger,R.L., S. Khanizadeh, M. Meheriuk, L.S. Berard, and Y. Dalpe|Effects of Simazine on the Mycorrhizal Population in Soil Beneath an Apple Tree Canopy|Fruit Var. J.49(2): 90-93|1995|
70437|T||Fry,J.D., P.H. Dernoeden, and J.J. Murray|Establishment and Rooting of Zoysiagrass (Zoysia japonica) as Affected by Preemergence Herbicides|Weed Sci.34(3): 413-418|1986|10.1017/S0043174500067096
70438|T||Scarponi,L., and P. Perucci|Effect of Some s-Triazine Herbicides on Phosphatases from Corn (Zea mays) Roots|Weed Sci.34(6): 807-810|1986|10.1017/S0043174500067928
70439|T||Randhawa,S.K., H.S. Gill, and K.S. Sandhu|Studies on Soil Persistence of Atrazine and Simazine Applied to Maize|J. Res. Punjab Agric. Univ.26(3): 379-380|1989|
70441|T||Talbert,R.E., R.A. Wichert, V.F. Carey III, D.H. Johnson, D.F. Ruff, and N.R. Burgos|Field Evaluation of Herbicides on Small Fruit, Vegetable and Ornamental Crops, 1992|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.429:29 p.|1993|
70442|T||Mathur,S., B.B.L. Thakore, and R.B. Singh|Effect of Different Fungicides on Ginger Rhizome Rot Pathogen Effect on Germination and Rotting of Rhizomes|Indian J. Mycol. Plant Pathol.14(2): 155-157|1984|
70443|T||Randhawa,H.S., and K.S. Aulakh|Comparative Evaluation of Performance of Sixteen Fungi-Toxicants as Seed Dressers for the Control of Seed-Borne Fungi of Raya (Brassica juncea Coss)|J. Res. Punjab Agric. Univ.19(4): 343-350|1982|
70444|T||Culbreath,A.K., T.B. Brenneman, F.M. Shokes, A.S. Csinos, and H.S. McLean|Tank-Mix Applications of Cyproconazole and Chlorothalonil for Control of Foliar and Soilborne Diseases of Peanut|Plant Dis.76(12): 1241-1245|1992|10.1094/PD-76-1241
70445|T||Capo-Arteaga,M., and M. Newton|"Survival and Growth of Five Species of Pinus Seedlings After Different Approaches to Competition Control:  ""Bridging"" Studies Between Oregon and Mexico"|New For. 5(3): 219-238|1991|10.1007/BF00028113
70446|T||Kuboyama,N., K. Koizumi, S.T. Ohki, and K. Wakabayashi|Synthesis and Herbicidal Activity of 2-Benzylamino-4-Methyl-6-Trifluoromethyl-1,3,5-Triazine Derivatives|J. Pestic. Sci. (Multiple Languages)23(3): 268-274|1998|10.1584/jpestics.23.268
70447|T||Moustafa-Mahmoud,S.M., D.R. Sumner, M.M. Ragab, and M.M. Ragab|Interaction of Fungicides, Herbicides, and Planting Date with Seedling Disease of Cotton Caused by Rhizoctonia solani AG-4|Plant Dis.77(1): 79-86|1993|10.1094/PD-77-0079
70448|T||Sharma,S.R.|Evaluation of Different Fungicides Against Ashy Stem Blight (Macrophomina phaseolina) of French Bean|Indian J. Plant Prot.16(2): 285-287|1988|
70449|T||Suseelendra,D., and R.K. Hegde|Efficacy of Some Fungicides Against Fusarium moniliforme and Macrophomina phaseolina|Indian J. Plant Prot.14(1): 87-89|1986|
70450|T||Damicone,J.P., W.J. Manning, and D.N. Ferro|Influence of Management Practices on Severity of Stem and Crown Rot, Incidence of Asparagus Miner, and Yield of Asparagus Grown from Transplants|Plant Dis.71(1): 81-84|1987|10.1094/PD-71-0081
70451|T||Damicone,J.P., and K.E. Jackson|Factors Affecting Chemical Control of Southern Blight of Peanut in Oklahoma|Plant Dis.78(5): 482-486|1994|10.1094/PD-78-0482
70452|T||Ristaino,J.B., J.A. Lewis, and R.D. Lumsden|Influence of Isolates of Gliocladium virens and Delivery Systems on Biological Control of Southern Blight on Carrot and Tomato in the Field|Plant Dis.78(2): 153-156|1994|10.1094/PD-78-0153
70453|A||Sprecher,S.L., K.D. Getsinger, and A.B. Stewart|Selective Effects of Aquatic Herbicides on Sago Pondweed|J. Aquat. Plant Manag.36:64-68|1998|
70454|T||Colbaugh,P.F., S.P. Metz, and J.A. Reinert|Influence of Sanitation Treatments on Growth and Survival of Chrysanthemum morifolium cv. Surf|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)63(3b): 1017-1022|1998|
70456|T||Shama,S., M. Amer, and J. Poppe|Evaluation of Various Fungicides on Stem Rot of Cantaloupe Cause by Sclerotinia sclerotiorum|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)58(3b): 1501-1506|1993|
70457|T||Prasad,B.K.|Impact of Fungicidal Storage on the Frequency of Seedborne Mycoflora and Seed Germination of Coriander|Indian J. Mycol. Plant Pathol.16(2): 213-214|1986|
70460|T||Habtu,F.F., and L. Samsoe-Petersen|Semi-Field Method for Testing Side Effects of Pesticides on Adults of the Parasitic Wasp Encarsia formosa (Gahan) (Hym., Aphelinidae)|J. Appl. Entomol.104(5): 473-479|1987|10.1111/j.1439-0418.1987.tb00548.x
70462|T||Dear,B.S., D.J. Conlan, M.F. Richards, and N.E. Coombes|Influence of Cultivar and Season on the Response of Trifolium subterraneum to Simazine|Aust. J. Exp. Agric.32(8): 1095-1103|1992|10.1071/EA9921095
70464|A||Sanders,J.G., and G.R. Abbe|Silver Transport and Impact in Estuarine and Marine Systems|ASTM Spec. Tech. Publ.11:5-18|1989|
70465|A||Department of Scientific and Industrial Research|Water Pollution Research 1955|Rep.of the Water Pollut.Res.Board, Water Pollut.Res.Lab., H.M.Stationary Office, London:81 p.|1956|
70480|T||Jadhav,N.S., D.K. Shelke, and R.H. Phosle|Studies on Availability and Uptake of Nitrogen and Phosphorus as Influenced by Different Methods of Weed Control in Hybrid Sorghum (Sorghum bicolor) CSH-1 in Marathwada Condition|Pesticides 19(6): 42-43|1985|
70481|T||Willoughby,I., D. Clay, and F. Dixon|The Effect of Pre-Emergent Herbicides on Germination and Early Growth of Broadleaved Species Used for Direct Seeding|Forestry76(1): 83-94|2003|10.1093/forestry/76.1.83
70482|T||Kassaby,F.Y.|Interaction of Four Herbicides with Phytophthora cinnamomi|Aust. Plant Pathol.14(2): 21-22|1985|10.1071/APP9850021
70483|T||Lopes,C.A., and J.B.C. Silva|Management Measures to Control Foot Rot of Sweet Potato Caused by Plenodomus destruens|Int. J. Pest Manag.39(1): 72-74|1993|10.1080/09670879309371763
70485|T||Caldiz,D.O., and J. Beltrano|Control of the Epiphytic Weeds Tillandsia recurvata and T. aeranthos with Simazine|For. Ecol. Manag.28(2): 153-159|1989|10.1016/0378-1127(89)90067-4
70486|T||Kitchin,K.T., J.L. Brown, and A.P. Kulkarni|Predicting Rodent Carcinogenicity of Halogenated Hydrocarbons by In Vivo Biochemical Parameters|Teratog. Carcinog. Mutagen.13(4): 167-184|1993|10.1002/tcm.1770130403
70487|T||Singh,R.K., and R.S. Dwivedi|Laboratory Evaluation of Some Pesticides Against Sclerotium rolfsii Sacc. a Foot-Rot Pathogen of Barley (Hordeum vulgare L.)|Pesticides 22(3): 20-23|1988|
70488|T||Kavlock,R.J., R.D.,Jr. Short, and N. Chernoff|Further Evaluation of an In Vivo Teratology Screen|Teratog. Carcinog. Mutagen.7(1): 7-16|1987|10.1002/tcm.1770070104
70489|T||Kulkarni,S., S.N. Chattannavar, and R.K. Hedge|Laboratory Evaluation of Fungicides Against Foot Rot of Wheat Caused by Sclerotium rolfsii Sacc.|Pesticides 20(9): 27,31 -|1986|
70490|T||Sharma,M.P., M. Gupta, and A.N. Roy|Physico-Chemical Control of Rhizome Rot of Turmeric|Pesticides 21(4): 33-38|1987|
70492|T||Sanderson,J.P., and R.T. Roush|Monitoring Insecticide Resistance in Greenhouse Whitefly (Homoptera:  Aleyrodidae) with Yellow Sticky Cards|J. Econ. Entomol.85(3): 634-641|1992|10.1093/jee/85.3.634
70493|T||Singh,S., S.N. Mukherjee, and S. Chandra|Effect of Fungicide Treatment of Soil on Mycorrhizal Development in Pines|Indian For.113(10): 681-683|1987|
70494|T||Sharman,K.V.|Herbicides for Container-Grown Rain Forest Species|Hortscience28(4): 303-305|1993|10.21273/HORTSCI.28.4.303
70495|T||Singh,G.J.P.|Hemolymph Carbohydrate and Lipid Mobilization in Locusta migratoria in Relation to the Progress of Poisoning Following Bioresmethrin Treatment|Pestic. Biochem. Physiol.25(2): 264-269|1986|10.1016/0048-3575(86)90053-2
70496|T||Cohen,E., A. Gamliel, and J. Katan|Glutathione and Glutathione-S-Transferase in Fungi:  Effect of Pentachloronitrobenzene and 1-Chloro-2,4-Dinitrobenzene; Purification and Characterization of the Transferase from Fusarium|Pestic. Biochem. Physiol.26(1): 1-9|1986|10.1016/0048-3575(86)90056-8
70497|T||Yueh,L.Y., and D.L. Hensley|Pesticide Effect on Acetylene Reduction and Nodulation by Soybean and Lima Bean|J. Am. Soc. Hortic. Sci.118(1): 73-76|1993|10.21273/JASHS.118.1.73
70498|T||Gill,H.S., L.S. Brar, and U.S. Walla|Comparative Bioefficacy of New Brand Formulations of Atrazine and Simazine for Weed Control in Maize|J. Res. Punjab Agric. Univ.24(2): 209-214|1987|
70499|T||Ingham,E.R., and D.C. Coleman|Effects of Streptomycin, Cycloheximide, Fungizone, Captan, Carbofuran, Cygon, and PCNB on Soil Microorganisms|Microb. Ecol.10(4): 345-358|1984|10.1007/BF02015559
70500|T||Meagher,R.L.,Jr., and J.R. Meyer|Influence of Ground Cover and Herbicide Treatments on Tetranychus urticae Populations in Peach Orchards|Exp. Appl. Acarol.9(3/4): 149-158|1990|10.1007/BF01193424
70501|T||Halliday,W.R., N.O. Morgan, and R.L. Kirkpatrick|Evaluation of Insecticides for Control of Stored-Product Pests in Transport Vehicles|J. Entomol. Sci.22(3): 224-236|1987|10.18474/0749-8004-22.3.224
70502|T||Bhutani,V.P., S. Bhan, and S.K. Chopra|The Influence of Herbicides on the Soil Microflora in a Plum Orchard|Sci. Hortic.23(2): 191-194|1984|10.1016/0304-4238(84)90023-2
70503|T||Collins,P.J., and D. Wilson|Insecticide Resistance in the Major Coleopterous Pests of Stored Grain in Southern Queensland Australia|Qld. J. Agric. Anim. Sci.43(2): 107-114|1986|
70504|T||Sharma,C.B.S.R., A.A. Rao, K.V. Murty, and D.S.S. Raju|Induced Variation in Chiasma Frequency in Barley in Response to Atrazine & Simazine Treatments|Indian J. Exp. Biol.20:97-98|1982|
70505|T||Arnold,G.W., J.W. Weeldenberg, and J. Leone|Herbicide Control of Exotic Annual Plant Species in Acacia acuminata-Eucalyptus loxephleba Woodland in South-Western Australia and Effects on Native Ground Flora|Plant Prot. Q.13(1): 39-43|1998|
70506|T||Ranney,C.D.|Multiple Cottonseed Treatments: Effects on Germination, Seedling Growth, and Survival|Crop Sci.12(3): 346-350|1972|10.2135/cropsci1972.0011183X001200030026x
70507|T||Prasse,I.|Indications of Structural Changes in the Communities of Microarthropods of the Soil in an Agro-Ecosystem After Applying Herbicides|Agric. Ecosyst. Environ.13(3/4): 205-215|1985|10.1016/0167-8809(85)90012-X
70508|T||Thomidis,T., and Z. Michailidis|Preliminary Evaluation of Nine Fungicides for Control of Phytophthora cactorum and P. citrophthora Associated with Crown Rot in Peach Trees|Phytoparasitica30(1): 52-60|2002|10.1007/BF02983970
70510|T||Leach,S.S., and C.W. Murdoch|Evaluation of Thiabendazole and Pentachloronitrobenzene for Control of the Rhizoctonia Disease Complex on White Potato (Solanum tuberosum L.)|Am. Potato J.62(9): 459-470|1985|10.1007/BF02854519
70511|T||Wokocha,R.C.|Integrated Control of Sclerotium rolfsii Infection of Tomato in the Nigerian Savanna: Effect of Trichoderma viride and Some Fungicides|Crop Prot.9(3): 231-234|1990|10.1016/0261-2194(90)90168-7
70512|T||Etheridge,J.V., and G.L. Bateman|Fungicidal Control of Foliar Diseases of White Lupin (Lupinus albus)|Crop Prot.18(5): 349-354|1999|10.1016/S0261-2194(99)00031-9
70513|T||Cohen,E., and S. Teomi|Enzymes Associated with Defence Against Toxic Oxygen Species in PCNB-Tolerant and Sensitive Soil Fungi|J. Phytopathol.135(3): 251-261|1992|10.1111/j.1439-0434.1992.tb01273.x
70514|T||Nishimoto,R.K., and C.L. Murdoch|Smutgrass (Sporobolus indicus) Control in Bermudagrass (Cynodon dactylon) Turf with Triazine-MSMA Applications|Weed Technol.8(4): 836-839|1994|10.1017/S0890037X00028773
70516|T||Dmowska,E., and J. Kozlowska|The Effect of Pyrethroids on Mortality and Reproduction Rate of Certain Species of Saprobiotic Nematodes|Pol. Ecol. Stud.15(1-2): 41-46|1989|
70517|T||Hurkova,J.|Response of OP-Resistant Tetranychus urticae (Acarina) to Pyrethroids|Vestn. Cesk. Spol. Zool.48(2): 102-106|1984|
70518|T||Bulloch,B.T., and A.N. Gilchrist|Effects of Some Herbicide Regimes on the First Season's Growth of Alders (Alnus spp.)|N. Z. J. Crop Hortic. Sci.17(1): 35-39|1989|10.1080/01140671.1989.10428007
70519|T||Dickens,R., S.S. Sharpe, and D.L. Turner|Herbicide Effects on Tensile Strength and Rooting of Zoysiagrass Sod|J. Prod. Agric.2(4): 369-373|1989|10.2134/jpa1989.0369
70520|T||Kowalczyk-Rozek,M., and K. Slizynski|The Effect of Some Herbicides on the Imagines of Pterostichus cupreus L. and Pterostichus vulgaris L. (Coleoptera:  Carabidae)|Folia Biol. (Krakow)25(2): 237-243|1977|
70521|T||Kaps,M.L., and M.B. Odneal|Split and Tank-Mix Preemergence Application of Herbicide for Controlling Weeds in Grapes|Hortscience29(6): 619-620|1994|10.21273/HORTSCI.29.6.619
70522|T||Bound,S.A., and K.M. Jones|Investigating the Efficacy of Endothal as a Chemical Thinner of Red 'Delicious' Apple|J. Hortic. Sci.72(2): 171-177|1997|10.1080/14620316.1997.11515503
70523|T||Daglish,G.J., E.A. Hall, M.J. Zorzetto, T.M. Lambkin, and J.M. Erbacher|Evaluation of Protectants for Control of Acanthoscelides obtectus (Say) (Coleoptera:  Bruchidae) in Navybeans (Phaseolus vulgaris (L.))|J. Stored Prod. Res.29(3): 215-219|1993|10.1016/0022-474X(93)90003-M
70526|T||Swietlik,D.|Preemergence Weed Control with Prodiamine Herbicide in Young Citrus Orchards|J. Rio Grande Val. Hortic. Soc.40:31-38|1987|
70527|T||Kim,D.G., and R.D. Riggs|Effects of Some Pesticides on the Growth of ARF18 and Its Pathogenicity to Heterodera glycines|J. Nematol.30(2): 201-205|1998|
70528|T||Giltrap,N.J., and J.F. Roebuck|Evaluation of Pre- and Post-Emergence Herbicides for Broad-Leaved Weed Control in Combining Peas|Br. Crop Prot. Conf. Weeds:835-840|1989|
70529|T||Brisbane,P.G., J.R. Harris, and R. Moen|Inhibition of Fungi from Wheat Roots by Pseudomonas fluorescens 2-79 and Fungicides|Soil Biol. Biochem.21(8): 1019-1025|1989|10.1016/0038-0717(89)90039-4
70530|T||Burris,E., A.M. Pavloff, B.R. Leonard, J.B. Graves, and G. Church|Evaluation of Two Procedures for Monitoring Populations of Early Season Insect Pests (Thysanoptera: Thripidae and Homoptera: Aphididae) in Cotton Under Selected Management Strategies|J. Econ. Entomol.83(3): 1064-1068|1990|10.1093/jee/83.3.1064
70531|T||Gangawane,L.V., and R.S. Saler|Some Physiological Aspects of Aspergillus flavus Isolates Resistant and Sensitive to Fungicides|Indian Bot. Rep.7(1/2): 61-64|1988|
70532|T||Patil,B.N., Y.C. Panchal, and V.S. Patil|Efficiency of Chemical and Cultural Methods of Weed Control in Rabi Sorghum Under Irrigated Conditions|Mysore J. Agric. Sci.17(3): 230-234|1983|
70534|T||Sharma,R.K., and K.S. Sandhu|Residual Effect of Simazine and Atrazine Applied to Maize and Potato on Succeeding Bread Wheat Crop|J. Res. Punjab Agric. Univ.22(2): 213-219|1985|
70536|T||Benezet,H.J., M.R. Bowen, C.W. Helms, and B.B. Huffman|Toxicity of Selected Insecticides to Lasioderma serricorne (F.) (Coleoptera: Anobiidae) by Three Methods of Exposure|J. Stored Prod. Res.22(2): 93-96|1986|10.1016/0022-474X(86)90025-1
70540|T||Kennedy,G.L.,Jr., D.W. Arnold, M.L. Keplinger, and J.C. Calandra|Investigation of Hexachlorophene for Dominant Lethal Effects in the Mouse|Toxicology5(2): 159-162|1975|10.1016/0300-483X(75)90112-2
70541|T||Carling,D.E., D.J. Helm, and R.H. Leiner|In Vitro Sensitivity of Rhizoctonia solani and Other Multinucleate and Binucleate Rhizoctonia to Selected Fungicides|Plant Dis.74(11): 860-863|1990|10.1094/PD-74-0860
70542|T||MacKenzie,K.E., and M.L. Winston|The Effects of Sublethal Exposure to Diazinon, Carbaryl and Resmethrin on Longevity and Foraging in Apis mellifera L.|Apidologie20(1): 29-40|1989|10.1051/apido:19890104
70543|A||Westerdahl,H.E.|Effects of Hydout and Aquathol K on Hydrilla in Gatun Lake, Panama|J. Aquat. Plant Manag.21:17-21|1983|
70544|T||Dejonckheere,W., W. Steurbaut, and R.H. Kips|Residues of Quintozene, Hexachlorobenzene, Dichloran and Pentachloroaniline in Soil and Lettuce|Bull. Environ. Contam. Toxicol.13(6): 720-729|1975|10.1007/BF01721943
70545|A||Snow,J.R.|Simazine as an Algicide for Bass Ponds|Prog. Fish-Cult.25(1): 34-36|1963|10.1577/1548-8659(1963)25[34:SAAAFB]2.0.CO;2
70547|T||Hillocks,R.J., R. Chinodya, and R. Gunner|Evaluation of Seed Dressing and In-Furrow Treatments with Fungicides for Control of Seedling Disease in Cotton Caused by Rhizoctonia solani|Crop Prot.7(5): 309-313|1988|10.1016/0261-2194(88)90077-4
70548|T||Costa,J., and A.P. Appleby|Effects of Ammonium Sulphate on Leaf Growth Inhibition by Glyphosate in Cyperus esculentus L.|Crop Prot.5(5): 314-318|1986|10.1016/0261-2194(86)90109-2
70549|T||Christopher,R.J., C.E. Munger, and G.W. Ivie|Distribution and Depletion of [14C]Resmethrin Isomers Administered Orally to Laying Hens|Pestic. Sci.16(4): 378-382|1985|10.1002/ps.2780160412
70550|T||Rumsey,T.S., T.H. Elsasser, S. Kahl, W.M. Moseley, and M.B. Solomon|Effects of Synovex-S and Recombinant Bovine Growth Hormone (Somavubove) on Growth Responses of Steers:  I.  Performance and Composition of Gain|J. Anim. Sci.74(12): 2917-2928|1996|10.2527/1996.74122917x
70551|T||Hogue,E.J., and G.H. Neilsen|Effects of Excessive Annual Applications of Terbacil, Diuron, Simazine and Dichlobenil on Vigor, Yield, and Cation Nutrition of Young Apple Trees|Can. J. Plant Sci.68(3): 843-850|1988|10.4141/cjps88-101
70553|T||Saly,A.|Evaluation of Herbicide Influence on the Edaphon in Vineyards by Means of Free-Living Nematodes|Pol. Ecol. Stud.15(1/2): 47-54|1989|
70554|T||Labuschagne,N., and J.M. Kotze|Control of Groundnut Blackhull and Its Causal Fungus Chalara elegans with Fungicides|Plant Pathol.45(3): 540-546|1996|10.1046/j.1365-3059.1996.d01-137.x
70555|T||Mineyev,V.G., and Y.K. Rempe|Environmental-Biological Assessment of Chemicals Application on Various Soil Types|Eurasian Soil Sci.28(10): 344-359|1996|
70556|T||Dwivedi,R.S., and R.C. Dubey|Effect of Fungicides on Survival of Macrophomina phaseolina in Soil and in Soybean Stem in Soil|Int. J. Trop. Plant Dis.5(2): 147-152|1987|
70558|T||Wichman,J.R., and W.R. Byrnes|Inherent Tolerance of Black Walnut and Tulip Poplar Seedlings to Soil-Applied Herbicides|Purdue Univ. Agric. Exp. Stn.878:6 p.|1971|
70559|T||Roslycky,E.B.|Physiological and Other Changes in Soil Microflora Induced by Prolonged Herbicide Treatments|Phyton (Buenos Aires)47(1/2): 73-82|1987|
70560|T||Unestam,T., L. Beyer-Ericson, and M. Strand|Involvement of Cylindrocarpon destructans in Root Death of Pinus sylvestris Seedlings: Pathogenic Behaviour and Predisposing Factors|Scand. J. For. Res.4(4): 521-535|1989|10.1080/02827588909382585
70561|T||Anilkumar,T.B., and K.T.P. Gowda|Saprophytic Activity of Quintozene Resistant Isolate of Sclerotium rolfsii in Soil|J. Soil Biol. Ecol.4(1): 1-5|1984|
70562|T||Dejonckheere,W., W. Steurbaut, and R.H. Kips|The Fate of Quintozene (PCNB) on Lettuce|Meded. Fac. Landbouwwet. Rijksuniv. Gent40(2, Pt. 2): 1033-1038|1975|
70563|T||Ahmad,S., and M. Aslam|Relative Efficacy of Different Fungicides in Controlling Stalk Rot of Maize|Pak. J. Agric. Res.8(3): 274-277|1987|
70564|T||Norcini,J.G., J.H. Aldrich, and J.M. McDowell|Control of Florida Betony (Stachys floridana Shuttlew.) Emerging from Tubers|J. Environ. Hortic.13(2): 89-91|1995|10.24266/0738-2898-13.2.89
70565|T||Felker,P., and C.E. Russell|Effects of Herbicides and Cultivation on the Growth of Opuntia in Plantations|J. Hortic. Sci.63(1): 149-155|1988|10.1080/14620316.1988.11515840
70566|T||Reeder,J.A., C.H. Gilliam, G.R. Wehtje, D.B. South, and G.J. Keever|Evaluation of Selected Herbicides on Field-Grown Woody Ornamentals|J. Environ. Hortic.12(4): 236-240|1994|10.24266/0738-2898-12.4.236
70568|T||Pandey,S., and V.P. Agnihotri|Efficacy of Fungitoxicants in Controlling Damping-Off of Sugar-Beet Seedling Caused by Pythium ultimum|Indian J. Plant Pathol.3(1): 83-88|1985|
70573|T||Herbert,D.A.,Jr.|Selected Liquid and Granular Treatments for Control of Southern Corn Rootworm Injury in Peanut, 1994|Arthropod Manag. Tests20:222-|1995|
70574|A||Wilkins,R.M., and R.J. Metcalfe|Toxicity of Soil Applied Herbicides to Brine Shrimp Larvae (Artemia salina) and Synergism with Other Pesticides|Br. Crop Prot. Conf. Weeds1:163-168|1993|
70577|T||Clay,D.V., and W. Abernethy|The Response of Strawberry Cultivars to Mixtures of Phenmedipham with Other Herbicides and with Mineral Oils|Br. Crop Prot. Conf. Weeds1:265-272|1976|
70578|T||Sibony,M., A. Michel, H.U. Haas, B. Rubin, and K. Hurle|Sulfometuron-Resistant Amaranthus retroflexus:  Cross-Resistance and Molecular Basis for Resistance to Acetolactate Synthase-Inhibiting Herbicides|Weed Res. (Multiple Languages)41(6): 509-522|2001|10.1046/j.1365-3180.2001.00254.x
70579|T||Bashir,M., and M.B. Ilyas|Evaluation of Fungicides Against Ascochyta Gram Blight|Pak. J. Bot.18(1): 147-151|1986|
70580|T||Sahab,A.F., A.R. Osman, N.K. Soleman, and M.S. Mikhail|Studies on Root-Rot of Lupin in Egypt and Its Control|Egypt. J. Phytopathol.17(1): 23-35|1985|
70581|T||Bajan,C., A. Fedorko, and K. Kmitowa|Reactions of Entomopathogenic Fungi to Pesticides|Pol. Ecol. Stud.21(1): 69-88|1995|
70582|T||Srivastava,L.S., and R. Dayal|Studies on Rhizosphere Mycoflora of Abelmoschus esculentus L. Moench IX. Influence of Seed Treatment on Rhizoplane Mycoflora|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.58(2): 303-306|1988|
70583|T||Rahman,A., and P.T. Holland|Persistence and Mobility of Simazine in Some New Zealand Soils|N. Z. J. Exp. Agric.13(1): 59-66|1985|10.1080/03015521.1985.10426059
70587|T||Hemingway,J., R.G. Boddington, J. Harris, and S.J. Dunbar|Mechanisms of Insecticide Resistance in Aedes aegypti (L.) (Diptera:  Culicidae) from Puerto Rico|Bull. Entomol. Res.79(1): 123-130|1989|10.1017/S0007485300018630
70588|T||Smith,A.E.|Herbicides for Killing Tall Fescue (Festuca arundinacea) Infected with Fescue Endophyte (Acremonium coenophialum)|Weed Technol.3(3): 485-489|1989|10.1017/S0890037X00032620
70589|T||Gallitano,L.B., and W.A. Skroch|Herbicide Efficacy for Production of Container Ornamentals|Weed Technol.7(1): 103-111|1993|10.1017/S0890037X00036952
70591|T||Chopra,S.L., K.S. Nandra, and S. Kumari|Persistence of Some Pesticides in Groundnut Plant (Arachis hypogaea L.)|J. Res. Punjab Agric. Univ.10(2): 199-202|1973|
70593|T||Foy,C.L., S.B. Harrison, and H.L. Witt|Herbicide Effects on Weed Control and Shoot Growth of Young Apple (Malus sylvestris) and Peach (Prunus persica) Trees|Weed Technol.8(4): 840-848|1994|10.1017/S0890037X00028785
70594|T||Collins,P.J.|Resistance to Grain Protectants in Field Populations of the Sawtoothed Grain Beetle in Southern Queensland|Aust. J. Exp. Agric.25(3): 683-686|1985|10.1071/EA9850683
70595|T||Leys,A.R., B. Plater, and W.J. Lill|Response of Vulpia (Vulpia bromoides (L.) S. F. Gray and V. myuros (L.) C. C. Gmelin) and Subterranean Clover to Rate and Time of Application of Simazine|Aust. J. Exp. Agric.31(6): 785-791|1991|10.1071/EA9910785
70596|T||Leys,A.R., and B. Plater|Simazine Mixtures for Control of Annual Grasses in Pastures|Aust. J. Exp. Agric.33(3): 319-326|1993|10.1071/EA9930319
70611|T||Espaillat,J.R., E.C. French, D.L. Colvin, S.H. West, and C.W. Meister|Phytotoxicity Screening of Four Post-Emergence Applied Herbicides on Seven Herbs|Proc. Soil Crop Sci. Soc. Fla.52:33-39|1993|
70612|T||Pietrantonio,P.V., G. Gibson, S. Nawrocki, F. Carrier, and W.P.,Jr. Knight|Insecticide Resistance Status, Esterase Activity, and Electromorphs from Mosquito Populations of Culex quinquefasciatus Say (Diptera:  Culicidae), in Houston (Harris County), Texas|J. Vector Ecol.25(1): 74-89|2000|
70614|A||Roth,M., R.H. Richards, and C. Sommerville|Preliminary Studies on the Efficacy of Two Pyrethroid Compounds, Resmethrin and Lambda-cyhalothrin for the Treatment of Sea Lice (Lepeophtheirus salmonis) Infestations of Farmed Atlantic Salmon (Salmo salar)|In: G.A.Boxhall and D.Defaye (Eds.), Workshop on Sea Lice held at the 1st Eur.Crustacean Conf., Aquaculture and Fisheries Support: Pathogens of Wild and Farmed Fish: Sea Lice, Sept.3-4, 1992, Paris, France, Ellis Horwood, New York, NY:275-289|1993|
70615|T||Brown,D.H., C.J. Standell, and J.E. Miller|Effects of Agricultural Chemicals on Lichens|Cryptogam. Bot.5(3): 220-223|1995|
70616|T||Nayak,M.K., P.J. Collins, and S.R. Reid|Efficacy of Grain Protectants and Phosphine Against Liposcelis bostrychophila, L. entomophila, and L. paeta (Psocoptera:  Liposcelidae)|J. Econ. Entomol.91(5): 1208-1212|1998|10.1093/jee/91.5.1208
70617|T||Harrison,R.D., and W.A. Gardner|Fungistasis of Beauveria bassiana by Selected Herbicides in Soil|J. Entomol. Sci.27(3): 233-238|1992|10.18474/0749-8004-27.3.233
70618|T||Odeyemi,O., A. Salami, and E.O. Ugoji|Effect of Common Pesticides Used in Nigeria on Soil Microbial Population|Indian J. Agric. Sci.58(8): 624-628|1988|
70619|T||Fisher,J.T., and R.W. Neumann|Cultivation and Weed Control for Aspen Seedling Establishment in the Southern Rocky Mountains|Can. J. For. Res.17(1): 47-50|1987|10.1139/x87-009
70620|T||Lamont,G.P., and L.J. Spohr|Evaluation of Oxadiazon and Simazine for Weed Control and Phytotoxicity in Container-Grown Ornamental Plants|Sci. Hortic.34(1/2): 93-99|1988|10.1016/0304-4238(88)90079-9
70621|T||Domagala,T.|Use of Aphidius matricariae in Integrated Control of Myzus persicae on Capsicum in Glasshouses|Bull. OEPP/EPPO22(3): 449-453|1992|10.1111/j.1365-2338.1992.tb00525.x
70622|T||Chabani,A.W., and M. Grindle|Isolation, Characterization and Genetic Analysis of Mutants of Aspergillus nidulans Resistant to the Herbicide Dichlobenil|Mycol. Res.94(4): 523-528|1990|10.1016/S0953-7562(10)80015-2
70623|T||Kataria,H.R., and S. Sunder|Fungicidal Control of Rhizoctonia solani in Relation to Soil Texture, Organic Matter and Clay Minerals|Ann. Appl. Biol.110(1): 43-52|1987|10.1111/j.1744-7348.1987.tb03231.x
70624|T||Wichman,J.R., and W.R. Byrnes|Uptake, Distribution, and Degradation of Simazine by Black Walnut and Yellowpoplar Seedlings|Weed Sci.23(6): 448-453|1975|10.1017/S0043174500064997
70625|T||Elliott,M., N.F. Janes, J.H. Stevenson, and J.H.H. Walters|Insecticidal Activity of the Pyrethrins and Related Compounds.  Part XIV:  Selectivity of Pyrethroid Insecticides Between Ephestia kuhniella and Its Parasite Venturia canescens|Pestic. Sci.14(4): 423-426|1983|10.1002/ps.2780140412
70626|T||Miyamoto,J., T. Nishida, and K. Ueda|Metabolic Fate of Resmethrin, 5-Benzyl-3-Furylmethyl dl-trans-Chrysanthemate in the Rat|Pestic. Biochem. Physiol.1(3-4): 293-306|1971|10.1016/0048-3575(71)90161-1
70627|T||Verschoyle,R.D., and J.M. Barnes|Toxicity of Natural and Synthetic Pyrethrins to Rats|Pestic. Biochem. Physiol.2(3): 308-311|1972|10.1016/0048-3575(72)90034-X
70628|T||Samson,P.R., and R.J. Parker|Laboratory Studies on Protectants for Control of Coleoptera in Maize|J. Stored Prod. Res.25(1): 49-55|1989|10.1016/0022-474X(89)90008-8
70629|T||Samson,P.R., R.J. Parker, and A.L. Jones|Laboratory Studies on Protectants for Control of Sitophilus oryzae (Coleoptera:  Curculionidae) and  Rhyzopertha dominica (Coleoptera:  Bostrichidae) in Paddy Rice|J. Stored Prod. Res.25(1): 39-48|1989|10.1016/0022-474X(89)90007-6
70631|T||Murthy,B.R., P.S.S. Rao, and K.V. Mallaiah|Evaluation of Fungicides Against Cercospora gossypina (CKE.) ATK. Pathogenic to Cotton|Indian J. Bot.14(2): 159-163|1986|
70632|T||Hislop,R.G., and R.J. Prokopy|Integrated Management of Phytophagous Mites in Massachusetts (U.S.A.) Apple Orchards.  2.  Influence of Pesticides on the Predator Amblyseius fallacis (Acarina:  Phytoseiidae) Under Laboratory and Field Conditions|Prot. Ecol.3(2): 157-172|1981|
70633|A||Ryazanova,A.V., T.S. Krasotina, Y.B. Bystryakova, I.V. Devayeva, and I.V. Rumyantzev|Toxicity of Some Soil Structors and Agrochemicals|Eurasian Soil Sci.28(12): 305-308|1996|
70635|T||Malcolm,C.A., and R.J. Wood|Location of a Gene Conferring Resistance to Knockdown by Permethrin and Bioresmethrin in Adults of the BKPM3 Strain of Aedes aegypti|Genetica ('S-Gravenhage)59(3): 233-237|1982|
70636|T||Kapur,S., W. Belfield, and N.H.S. Gibson|The Effects of Fungicides on Soil Fungi with Special Reference to Nematophagous Species|Pedobiologia (Multiple Languages)21(3): 172-181|1981|10.1016/S0031-4056(23)03580-1
70637|T||Avrahami,M., and D.A. White|Rapid Elimination of Pentachloronitrobenzene and Metabolite from Sheep Fat|N. Z. J. Exp. Agric.4(3): 299-302|1976|10.1080/03015521.1976.10425888
70638|T||Escande,A.R., and E. Echandi|Protection of Potato from Rhizoctonia Canker with Binucleate Rhizoctonia Fungi|Plant Pathol.40(2): 197-202|1991|10.1111/j.1365-3059.1991.tb02367.x
70639|T||Liu,F., and N. O'Connell|Movement of Simazine in Runoff Water and Weed Control from Citrus Orchard as Affected by Reduced Rate of Herbicide Application|Bioresour. Technol.86(3): 253-258|2003|10.1016/S0960-8524(02)00164-5
70640|T||Garrett,H.J., and J.H. Orson|Depth and Date of Emergence Volunteer of Oilseed Rape (Brassica napus L.) and Its Control with Herbicides Used in Peas, Beans, Potatoes and Sugar Beet|Br. Crop Prot. Conf. Weeds7:811-816|1989|
70641|T||Webster,A.D., and J.E. Spencer|New Strategies for the Chemical Thinning of Apple (Malus domestica Borkh.) Cultivars Queen Cox and Royal Gala|J. Hortic. Sci. Biotechnol.74(3): 337-346|1999|10.1080/14620316.1999.11511118
70642|T||Lawrie,J., and D.V. Clay|Tolerance of Forestry and Biomass Broad-Leaved Tree Species to Soil-Acting Herbicides|Br. Crop Prot. Conf. Weeds:347-354|1989|
70647|T||Franke,M.D., T.B. Brenneman, K.L. Stevenson, and G.B. Padgett|Sensitivity of Isolates of Sclerotium rolfsii from Peanut in Georgia to Selected Fungicides|Plant Dis.82(5): 578-583|1998|10.1094/PDIS.1998.82.5.578
70648|T||Saavedra,M., and C. Natera|Tolerance of Almond to Herbicides|Tests Agrochem. Cultiv.14:82-83|1993|
70649|T||Somda,Z.C., S.C. Phatak, and H.A. Mills|Nitrapyrin, Terrazole, Atrazine and Simazine Influence on Denitrification and Corn Growth|J. Plant Nutr.13(9): 1195-1208|1990|10.1080/01904169009364144
70650|T||Randhawa,H.S., and H.L. Sharma|Seed Treatment with Fungicides to Control Cochliobolus sativus on Wheat|Pesticides 20(3): 12-14|1986|
70651|T||Casale,W.L., and L.P. Hart|Influence of Four Herbicides on Carpogenic Germination and Apothecium Development of Sclerotinia sclerotiorum|Phytopathology76(10): 980-984|1986|10.1094/Phyto-76-980
70652|T||Kawamura,K., T. Takeuchi, and S. Kobayashi|Inhibition of Respiratory Activities of Giardia lamblia by Halogenated Bisphenols|Jpn. J. Parasitol.35(3): 261-263|1986|
70653|T||Shemanchuk,J.A.|Repellent Action of Permethrin, Cypermethrin and Resmethrin Against Black Flies (Simulium spp.) Attacking Cattle|Pestic. Sci.12(4): 412-416|1981|10.1002/ps.2780120407
70654|T||Bodmer,M., G.S. Cheng, and H. Schuepp|Monitoring of Vesicular-Arbuscular Mycorrhiza in Field Plots Treated with Selected Fungicides|In: V.Gianinazzi-Pearson and S.Gianinazzi (Eds.), Physiological and Genetical Aspects of Mycorrhizae, CRNS-INRA, Dijon, France:701-706|1986|
70655|T||Bound,S.A.|The Influence of Endothal and 6-Benzyladenine on Crop Load and Fruit Quality of Red 'Delicious' Apple|J. Hortic. Sci. Biotechnol.76(6): 691-699|2001|10.1080/14620316.2001.11511433
70656|T||Adams,P.B., and J.A.L. Wong|The Effect of Chemical Pesticides on the Infection of Sclerotia of Sclerotinia minor by the Biocontrol Agent Sporidesmium sclerotivorum|Phytopathology81(10): 1340-1343|1991|10.1094/Phyto-81-1340
70657|A||Sisneros,D., M. Lichtwardt, and T. Greene|Low-Dose Metering of Endothall for Aquatic Plant Control in Flowing Water|J. Aquat. Plant Manag.36:69-72|1998|
70658|A||Patnaik,S., and M. Rout|Toxicity of Some Herbicides to Fishes|J. Inl. Fish. Soc. India18(2): 48-51|1986|
70659|T||Cohen,E., and T. Joseph|Phagodeterrent Response of the Bulb Mite Rhizoglyphus robini to Various Pyrethroids and Some of Their Cleavage Products|Pestic. Sci.35(2): 125-129|1992|10.1002/ps.2780350205
70662|T||Somda,Z.C., H.A. Mills, and S.C. Phatak|Nitrapyrin, Terrazole, Atrazine, and Simazine Influence on Nitrification and Corn Growth|J. Plant Nutr.13(9): 1179-1193|1990|10.1080/01904169009364143
70663|T||Meredith,F.I., G.W. Langdale, G.K. Searcy, and S.A. Hollander|Effect of Foliar Applied Simazine and Ammonium Nitrate on the Elemental Content of Cowpea Seeds|J. Food Sci.50(1): 93-95|1985|10.1111/j.1365-2621.1985.tb13284.x
70666|T||Bansal,R.K., and B.S. Siradhana|Effect of Fungicidal Drenching on the Survival of Pearl Millet Ergot Pathogen (Claviceps fusiformis Loveless) in Soil|Pesticides 22(11): 50-51|1988|
70667|T||Costantini,A., and M. Podberscek|Control of Setaria sphacelata var. sericea in Afforestation of Pasture Country with Pinus caribaea var. hondurensis|Plant Prot. Q.2(3): 112-114|1987|
70668|T||Csinos,A.S.|Control of Southern Stem Rot and Rhizoctonia Limb Rot of Peanut with Flutolanil|Peanut Sci.14(2): 55-58|1987|10.3146/i0095-3679-14-2-1
70669|T||Gilreath,J.P., and B.K. Harbaugh|Chemical Weed Control in Caladiums|Hortscience20(6): 1056-1058|1985|10.21273/HORTSCI.20.6.1056
70670|T||Chowdhury,N., T.K. Dey, and A.L. Khan|Effect of Soil Textures on the Growth of Sclerotium rolfsii Sacc. Causing Foot Rot of Wheat and Its Response to Fungicides In-Vitro|Bangladesh J. Bot.21(2): 201-204|1992|
70671|T||Venkatasubbaiah,P., M.S.C. Prabhu, H.S. Shetty, and K.M. Safeeulla|Effect of Hot Water and Chemical Seed Treatment on Seed Mycoflora in Koo-Babul|Bangladesh J. Bot.13(2): 121-129|1984|
70673|T||Lisker,N., and A. Meiri|Control of Rhizoctonia solani Damping-Off in Cotton by Seed Treatment with Fungicides|Crop Prot.11(2): 155-159|1992|10.1016/0261-2194(92)90099-Q
70674|T||Herron,G.A.|Resistance to Grain Protectants and Phosphine in Coleopterous Pests of Grain Stored on Farms in New South Wales|J. Aust. Entomol. Soc.29(3): 183-189|1990|10.1111/j.1440-6055.1990.tb00345.x
70675|T||Wang,H., and R.M. Davis|Susceptibility of Selected Cotton Cultivars to Seedling Disease Pathogens and Benefits of Chemical Seed Treatments|Plant Dis.81(9): 1085-1088|1997|10.1094/PDIS.1997.81.9.1085
70681|T||Ansari,N.A., M.W. Khan, and A. Muheet|Evaluation of Some Fungicides for Seed Treatment and Foliar Application in Management of Damping-Off of Seedlings and Blight of Rapeseed Caused by Alternaria brassicae|Mycopathologia110(3): 163-167|1990|10.1007/BF00437541
70684|T||Challa,P.|Chemical Weed Control in Grape (Vitis vinifera L.) Nurseries|Pesticides 21(11): 27-29|1987|
70685|T||Brooks,J.E., P.J. Savarie, and R.L. Bruggers|The Toxicity of Commercial Insecticide Aerosol Formulations to Brown Tree Snakes|Snake28(1/2): 23-27|1998|
70686|T||Casabe,N., F. Melgar, E.J. Wood, and E.N. Zerba|Insecticidal Activity of Pyrethroids Against Triatoma infestans|Insect Sci. Appl.9(2): 233-236|1988|
70687|T||El-Sebae,A.H., E.E. Enan, A.S. Daoud, and M.I. Zeid|Selective Toxicity of Synthetic Pyrethroids and Some Synergists to Mice and Cotton Leafworm in Relation to Some Biochemical Enzyme Activities|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(3A): 939-950|1985|
70688|T||White,D.E., and M. Newton|Herbaceous Weed Control in Young Conifer Plantations with Formulations of Nitrogen and Simazine|Can. J. For. Res.20(11): 1685-1689|1990|10.1139/x90-224
70689|T||Seymour,M.|Response of Narrow-Leafed Lupin (Lupinus angustifolius L.) to Foliar Application of Growth Regulators in Western Australia|Aust. J. Exp. Agric.36(4): 473-478|1996|10.1071/EA9960473
70690|T||Boydston,R.A.|Seedling Volunteer Asparagus, Asparagus officinalis, Control with Herbicides|Weed Technol.2(3): 294-298|1988|10.1017/S0890037X00030621
70691|T||Sharma,R.K., and K.S. Sandhu|Residual Effect of Simazine and Atrazine Applied to Two Successive Fodder Maize Crops on Berseem|J. Res. Punjab Agric. Univ.22(4): 612-616|1985|
70692|T||De Felipe,M.R., M. Fernandez-Pascual, and J.M. Pozuelo|Effects of the Herbicides Lindex and Simazine on Chloroplast and Nodule Development, Nodule Activity, and Grain Yield in Lupinus albus L.|Plant Soil101(1): 99-106|1987|10.1007/BF02371036
70693|T||Bartoli,C.G., J. Beltrano, L.V. Fernandez, and D.O. Caldiz|Control of the Epiphytic Weeds Tillandsia recurvata and Tillandsia aeranthos with Different Herbicides|For. Ecol. Manag.59(3/4): 289-294|1993|10.1016/0378-1127(93)90008-B
70694|T||Setyowati,N., L.A. Weston, and R.E. McNiel|Evaluation of Selected Preemergence Herbicides in Field-Grown Landscape Crops in Kentucky|J. Environ. Hortic.13(4): 196-202|1995|10.24266/0738-2898-13.4.196
70695|T||Abe,T., R. Shimizu, H. Iwamura, and T. Kameya|Flower Induction by Atrazine Analogues in Seedlings of Asparagus officinalis|Physiol. Plant. (Multiple Languages)70(2): 228-230|1987|10.1111/j.1399-3054.1987.tb06136.x
70696|T||Gilliam,C.H., G. Wehtje, J.E. Eason, T.V. Hicks, and D.C. Fare|Weed Control with Gallery and Other Herbicides in Field-Grown Nursery Crops|J. Environ. Hortic.7(2): 69-72|1989|10.24266/0738-2898-7.2.69
70697|T||Neal,J.C., and A.F. Senesac|Summer Annual and Winter Annual Weed Control in Field Soil and Soilless Media with Gallery (Isoxaben)|J. Environ. Hortic.8(3): 124-127|1990|10.24266/0738-2898-8.3.124
70698|T||Kataria,H.R., and S. Sunder|Effect of Micronutrients on the Efficacy of Fungicides Against Rhizoctonia solani on Cowpea Seedlings|Pestic. Sci.16(5): 453-456|1985|10.1002/ps.2780160502
70699|T||Tu,C.M.|Effect of Selected Herbicides on Activities of Microorganisms in Soils|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(6): 1201-1214|1996|
70700|T||Hagan,A.K., J.R. Weeks, and J.A. McGuire|Comparison of Soil Insecticides Alone and in Combination with PCNB for Suppression of Southern Stem Rot of Peanut|Peanut Sci.15(1): 35-38|1988|10.3146/i0095-3679-15-1-10
70701|T||Hagan,A.K., J.R. Weeks, and R.B. Reed|Southern Stem Rot Suppression on Peanut with the Insecticide Chlorpyrifos|Peanut Sci.13(1): 36-37|1986|10.3146/i0095-3679-13-1-11
70702|T||Fykse,H.|Resistance of Strawberry to Photosynthetic Inhibitors as a Basis for Ranking of Cultivars|Norw. J. Agric. Sci.1(1): 25-34|1987|
70703|T||Sanyal,D., B. Sarkar, and S.K. Mitra|Herbicidal Weed Control in Banana|Pesticides 23(6): 29-33|1989|
70704|T||Khurana,S.C., Y.S. Malik, and M.L. Pandita|Herbicidal Control of Weeds in Potato c.v. Kufri Badshah|Pesticides 20(11): 55-56|1986|
70705|T||Santakumari,M., and G. Padmavathamma|Influence of Triazine and Urea Herbicides on Etiolated Seedlings of Some Crop Plants|Pesticides 19(6): 38-41|1985|
70706|T||Shew,B.B., M.K. Beute, and J.E. Bailey|Potential for Improved Control of Southern Stem Rot of Peanut with Resistance and Fungicides|Peanut Sci.12(1): 4-7|1985|10.3146/pnut.12.1.0002
70708|T||Buczek,J., J. Borkowski, and I. Jarzynska|The Dependence of Nitrate Reductase Activity on the Level of Soluble Sugars in Wheat and Cucumber Roots Growing in the Presence of Simazine, in Light or in Darkness|Acta Soc. Bot. Pol.55(4): 589-600|1986|10.5586/asbp.1986.048
70709|T||Barnes,J.S., A.S. Csinos, and W.D. Branch|Sensitivity of Rhizoctonia solani Isolates to Fungicides and Evaluation of Peanut Cultivars to Rhizoctonia Limb Rot|Peanut Sci.17(2): 62-65|1990|10.3146/i0095-3679-17-2-4
70716|A||Sarkar,S.K.|Effects of the Herbicide Simazine on Fish and Aquatic Ecosystem|Geobios21(4): 227-232|1994|
70732|T||Fourie,J.C.|Herbigation in a Vineyard Through a Microjet Irrigation System|S. Afr. J. Enol. Vitic.9(1): 37-42|1988|
70733|T||Atlavinyte,O., J. Daciulyte, and A. Lugauskas|The Effect of Lumbricidae on Plant Humification and Soil Organism Biocenoses Under Application of Pesticides|Ecol. Bull.25:222-228|1977|
70734|T||Gangopadhyay,S., and R.K. Grover|Efficiency of Fungitoxicants on the Control of Root Rot of Cowpea Caused by Mixed Inocula of Rhizoctonia solani, R. bataticola and Fusarium solani|Indian J. Mycol. Plant Pathol.14(1): 57-68|1984|
70735|T||Ganguli,S., K.A.I. Siddiqui, and A.K. Banerjee|Effect of Antifungal Agents on In Vitro Growth of Rhizobia & on the Formation of Root Nodules in Excised Root Cultures of Phaseolus mungo|Indian J. Exp. Biol.13(6): 588-590|1975|
70736|T||Burnet,M.W.M., Q. Hart, J.A.M. Holtum, and S.B. Powles|Resistance to Nine Herbicide Classes in a Population of Rigid Ryegrass (Lolium rigidum)|Weed Sci.42(3): 369-377|1994|10.1017/S0043174500076645
70737|A||Sumida,S., and M. Ueda|Studies of Pesticide Effects on Chlorella Metabolism.  I.  Effect of Herbicides on Complex Lipid Biosynthesis|Plant Cell Physiol.14(4): 781-785|1973|
70738|T||Malone,R.P., and P.J. Dix|Mutagenesis and Triazine Herbicide Effects in Strawberry Shoot Cultures|J. Exp. Bot.41(225): 463-469|1990|10.1093/jxb/41.4.463
70739|A||Fleming,W.J., M.S. Ailstock, and J.J. Momot|Net Photosynthesis and Respiration of Sago Pondweed (Potamogeton pectinatus) Exposed to Herbicides|ASTM Spec. Tech. Publ.3:303-317|1995|
70740|T||Jarzynska,I., and J. Buczek|Influence of Simazine on Nitrate Uptake and Nitrate Reductase Activity in Triticum aestivum (L.) and Cucumis sativus (L.) Seedlings|Acta Soc. Bot. Pol.53(2): 247-256|1984|10.5586/asbp.1984.023
70741|T||Turner,D.L., S.S. Sharpe, and R. Dickens|Herbicide Effects on Tensile Strength and Rooting of Centipedegrass Sod|Hortscience25(5): 541-544|1990|10.21273/HORTSCI.25.5.541
70742|T||Kaps,M.L., and M.B. Odneal|Fall-Applied Preemergent Herbicides in a Missouri Vineyard do not Control Annual Weeds the Following Season|Hortscience26(10): 1292-1293|1991|10.21273/HORTSCI.26.10.1292
70743|T||Stamps,R.H., and R.T. Poole|Herbicide Effects During Leatherleaf Fern Bed Establishment|Hortscience22(2): 261-264|1987|10.21273/HORTSCI.22.2.261
70744|T||Bengston,M., L.M. Cooper, R.A.H. Davies, J.M. Desmarchelier, R.H. Hart, and M.P. Phillips|Grain Protectants for the Control of Malathion-Resistant Insects in Stored Sorghum|Pestic. Sci.14(4): 385-398|1983|10.1002/ps.2780140407
70745|T||Huang,H.C., and R.E. Blackshaw|Influence of Herbicides on the Carpogenic Germination of Sclerotinia sclerotiorum Sclerotia|Bot. Bull. Acad. Sin. (Taipei)36(1): 59-64|1995|
70746|T||De Prado,R., C. Dominguez, and M. Tena|Triazine Resistance in Biotypes of Solanum nigrum and Four Amaranthus Species Found in Spain|Weed Res. (Multiple Languages)33(1): 17-24|1993|10.1111/j.1365-3180.1993.tb01913.x
70747|T||Garcia-Baudin,J.M., A.R. Lansac, L. Ayerbe, J.L. Tenorio, and E. Cadahia|Use of Substituted Urea Herbicides for Weed Control in Euphorbia lathyris L., a Potential Fuel-Producing Crop|Weed Res. (Multiple Languages)25(5): 319-322|1985|10.1111/j.1365-3180.1985.tb00651.x
70748|T||Norcini,J.G., J.H. Aldrich, and F.G. Martin|Preemergent Control of Common Vetch (Vicia sativa L.) and Black Medic (Medicago lupulina L.)|J. Environ. Hortic.15(3): 149-152|1997|10.24266/0738-2898-15.3.149
70749|T||Jacobson,J.A., and J.E. Klett|Response of Dianthus barbatus L. to Preemergence Herbicides|J. Environ. Hortic.6(3): 101-104|1988|10.24266/0738-2898-6.3.101
70750|T||Hanula,J.L.|Seasonal Abundance and Control of the Rhododendron Gall Midge, Clinodiplosis rhododendri (Felt), in Container Grown Rhododendron catawbiense Michaux|J. Environ. Hortic.9(2): 68-71|1991|10.24266/0738-2898-9.2.68
70751|T||Neal,J.C., and A.F. Senesac|Preemergent Weed Control in Container and Field Grown Woody Nursery Crops with Gallery|J. Environ. Hortic.8(3): 103-107|1990|10.24266/0738-2898-8.3.103
70752|T||Baker,E.A., A.L. Hayes, and R.C. Butler|Physicochemical Properties of Agrochemicals: Their Effects on Foliar Penetration|Pestic. Sci.34(2): 167-182|1992|10.1002/ps.2780340212
70753|T||Johnson,B.J.|Tank-Mixed Postemergence Herbicides for Postemergence Goosegrass Control in Bermudagrass Turf|J. Environ. Hortic.15(1): 33-36|1997|10.24266/0738-2898-15.1.33
70754|T||Prasad,B.K.|Performance of Fungicides in Storage of Coriander Seed at High Humidities RH|Seed Res.16(1): 123-125|1988|
70755|T||Campbell,M.H.|Distribution, Ecology and Control of Cassinia arcuata (Sifton Bush) in New South Wales|Aust. J. Exp. Agric.30(2): 215-220|1990|10.1071/EA9900215
70756|T||Cholakis,J.M., L.C.K. Wong, and C.C. Lee|Study of the Chemical and Behavioral Toxicology of Substitute Chemicals in Microtine Rodents|EPA-600/3-78-082, U.S.EPA, Corvallis, OR:54 p.|1978|
70757|A||Oskam,G., and L. Van Breemen|Management of Biesbosch Reservoirs for Quality Control with Special Reference to Eutrophication|In: D.W.Sutcliffe and J.G.Jones (Eds.), Eutrophication: Research and Application to Water Supply. Ambleside, UK:197-213|1992|
70758|AT||Francis,B.M., and R.L. Metcalf|Screening of Pesticides and Other Toxic Chemicals for Potential Adverse Environmental Effects in Illinois|Project No. 90.020, Institute for Environmental Studies and Department of Entomology, Urbana-Champaign, IL:52 p.|1981|
70759|T||Talbert,R.E., R.A. Wichert, V.F. Carey III, D.H. Johnson, D.F. Ruff, and J.A. Kendig|Field Evaluation of Herbicides on Small Fruit, Vegetable and Ornamental Crops 1991|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.417:58 p.|1992|
70769|T||Conte,E., A. Leandri, G. Imbroglini, and M. Galli|Residues of Herbicides Applied to Broad Bean|Meded. Fac. Landbouwwet. Rijksuniv. Gent54(2a): 171-179|1989|
70770|T||Azuma,T., M. Niiro, and H. Motobu|Removal of Pesticides from Wastewater at Golf Courses Using Plants (Removal by Mung Beans; Phaseolus radiatus L)|Bio-Med. Mater. Eng.4(2): 127-137|1994|10.3233/BME-1994-4208
70771|A||Steward,K.K., and T.K. Van|Comparative Studies of Monoecious and Dioecious Hydrilla (Hydrilla verticillata) Biotypes|Weed Sci.35(2): 204-210|1987|10.1017/S0043174500079066
70772|T||Kuznia,R.A., R.A. Meronuck, and E.L. Stewart|Effect of Seed Treatments on Stand Establishment, Root Necrosis, and Yield of Lupinus albus|Plant Dis.77(9): 892-895|1993|10.1094/PD-77-0892
70773|T||Venkatasubbaiah,P., and K.M. Safeeulla|Effect of Fungicidal Treatments on Coffee Seed Germination|Pesticides 21(3): 35-36|1987|
70774|T||Brenneman,T.B., P.M. Phipps, and R.J. Stipes|Control of Sclerotinia Blight of Peanut: Sensitivity and Resistance of Sclerotinia minor to Vinclozolin, Iprodione, Dicloran, and PCNB|Plant Dis.71(1): 87-90|1987|10.1094/PD-71-0087
70775|A||Shearer,J.F.|The Potential Role of an Endophytic Fungus in the Decline of Stressed Eurasian Watermilfoil|J. Aquat. Plant Manag.40(2): 76-78|2002|
70776|T||Collins,P.J., T.M. Lambkin, B.W. Bridgeman, and C. Pulvirenti|Resistance to Grain-Protectant Insecticides in Coleopterous Pests of Stored Cereals in Queensland, Australia|J. Econ. Entomol.86(2): 239-245|1993|10.1093/jee/86.2.239
70777|T||Schreiner,R.P., and G.J. Bethlenfalvay|Mycorrhizae, Biocides, and Biocontrol. 4. Response of a Mixed Culture of Arbuscular Mycorrhizal Fungi and Host Plant to Three Fungicides|Biol. Fertil. Soils23(2): 189-195|1996|10.1007/BF00336062
70778|T||Soh,C.T., K.T. Lee, K.M. Cho, Y.K. Ahn, S.J. Kim, P.R. Chung, K.I. Im, and H.K. Min|Resistance of Free-Living Stages of Soil-Transmitted Parasites to Pesticides|Yonsei Rep. Trop. Med.6(1): 3-13|1975|
70779|T||Novo,R.J., C.A. Darre, and G. Zumelzu|Weed Control in Aloysia polystachya with Pre and Post Emergence Herbicides|J. Med. Aromat. Plant Sci.20(3): 679-682|1998|
70780|T||Park,Y.H., J.P. Stack, and C.M. Kenerley|Selective Isolation and Enumeration of Gliocladium virens and G. roseum from Soil|Plant Dis.76(3): 230-235|1992|10.1094/PD-76-0230
70781|T||Ahn,Y.S., G.Y. Chemeris, V.S. Turusov, and P. Bannasch|Enzymic Pattern of Preneoplastic and Neoplastic Lesions Induced in the Kidney of CBA Mice by 1,2-Dimethylhydrazine|Toxicol. Pathol.22(4): 415-422|1994|10.1177/019262339402200407
70782|T||Goff,W.D., and R.W. Miller|Laboratory and Field Testing of Fungicides Against Mycosphaerella caryigena|Appl. Agric. Res.5(2): 134-141|1990|
70783|T||Auer,M.S., and J.M. Spiers|Preemergence Herbicides for First Year Rabbiteye Blueberry Plantings|J. Miss. Acad. Sci.31:47-52|1986|
70784|T||Lourens,A.F., A.H. Lange, and F.J. Calitz|Phytotoxicity of Pre-Emergence Herbicides to Peach Seedlings (Prunus persica)|S. Afr. J. Plant Soil6(2): 97-102|1989|10.1080/02571862.1989.10634490
70785|T||Chapman,P.A.|The Resistance to Eighteen Toxicants of a Strain of Musca domestica L. Collected from a Farm in England|Pestic. Sci.16(3): 271-276|1985|10.1002/ps.2780160310
70786|T||Lawrence,L.J., K.W. Gee, and H.I. Yamamura|Interactions of Pyrethroid Insecticides with Chloride Ionophore-Associated Binding Sites|Neurotoxicology6(2): 87-98|1985|
70787|T||Wilson,G.J.|Kiwifruit Seedling Tolerance to Soil Applied Herbicides|Proc. N. Z. Weed Pest Control Conf.:53-57|1982|10.30843/nzpp.1982.35.10560
70788|T||Vizantinopoulos,S.|Influence of the Cationic Surfactant Ethylan TT-15 on the Phytotoxicity of Glyphosate Formulations|Zizaniology2(3): 183-189|1990|
70789|T||Arthur,F.H.|Residual Efficacy of Chlorpyrifos-Methyl + Bioresmethrin and Chlorpyrifos-Methyl + Resmethrin for Controlling Lesser Grain Borers (Coleoptera:  Bostrichidae), Rice Weevils (Coleoptera:  Curculionidae), and Red Flour Bee|J. Econ. Entomol.85(2): 570-575|1992|10.1093/jee/85.2.570
70790|T||Gardner,W.A., and G.K. Storey|Sensitivity of Beauveria bassiana to Selected Herbicides|J. Econ. Entomol.78(6): 1275-1279|1985|10.1093/jee/78.6.1275
70791|T||Pap,L., and R. Farkas|Monitoring of Resistance of Insecticides in House Fly (Musca domestica) Populations in Hungary|Pestic. Sci.40(4): 245-258|1994|10.1002/ps.2780400402
70792|T||Smith,F.D.T., P.M. Phipps, R.J. Stipes, and T.B. Brenneman|Significance of Insensitivity of Sclerotinia minor to Iprodione in Control of Sclerotinia Blight of Peanut|Plant Dis.79(5): 517-523|1995|10.1094/PD-79-0517
70793|T||Floore,T.G.|Laboratory Wind Tunnel Tests of Nine Insecticides Against Adult Culicoides Species (Diptera: Ceratopogonidae)|Fla. Entomol.68(4): 678-682|1985|10.2307/3494873
70794|T||Mallik,M.A.B., and K. Tesfai|Pesticidal Effect on Soybean-Rhizobia Symbiosis|Plant Soil85(1): 33-41|1985|10.1007/BF02197798
70795|T||Mandhare,V.K., and P.L. Patil|Varietal Screening and Efficacy of Fungicides Against Fusarium Wilt of Brinjal|J. Maharashtra Agric. Univ.18(1): 34-36|1993|
70797|T||Mosallam,S.S.|The House Fly Population and Susceptibility to Insecticides in Alexandria|J. Egypt. Soc. Parasitol.16(2): 733-738|1986|
70798|T||Yousef,H.A., and S.H. Shaurub|Effect of Bioresmethrin on Mitochondrial Ultrastructure and Oxidative Phosphorylation in the Flight Muscles of Chrysomya albiceps (Wied.) (Diptera:  Calliphoridae)|J. Egypt. Soc. Parasitol.28(3): 645-654|1998|
70802|T||Bruns,V.F., J.M. Hodgson, and H.F. Arle|Response of Several Crops to Six Herbicides in Irrigation Water|U.S.Dep.of Agric., Tech.Bull.No.1461:29 p.|1972|
70803|T||Vos,J.G., E.I. Krajnc, P.K. Beekhof, and M.J. Van Logten|Methods for Testing Immune Effects of Toxic Chemicals:  Evaluation of the Immunotoxicity of Various Pesticides in the Rat|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:497-504|1983|
70808|T||Kumar,K., and P. Patnaik|Effect of Fungicidal Treatment of Alternaria alternata Infected Pigeonpea Seeds on Germination|Pesticides 20(3): 17-18|1986|
70809|T||Gill,H.S., U.S. Walia, and I.S. Thind|Chemical Weed Control in Sorghum ('Jowar') Fodder|J. Res. Punjab Agric. Univ.24(1): 15-18|1987|
70810|T||Randhawa,S.K., H.S. Gill, and K.S. Sandhu|Effects of Herbicides on Protein Content in Grain of Winter Maize (Zea mays L.)|J. Res. Punjab Agric. Univ.25(1): 35-36|1988|
70811|T||Daelemans,A., and M. Ngouajio|Evaluation of Weed Control Methods in Corn (Zea mays L.) in Cameroon|Meded. Fac. Landbouwwet. Rijksuniv. Gent57(3b): 1129-1134|1992|
70812|T||Gill,H.S., K.S. Sandhu, S.P. Mehra, and T. Singh|Residual Effect of Simazine and Atrazine Applied to Maize on Succeeding Field and Vegetable Crops|J. Res. Punjab Agric. Univ.25(2): 175-180|1988|
70813|T||Dash,S.K., and A. Narain|Efficacy of Selected Fungicides on Seed-Borne Fungi and on Percentage of Germination of Diseased Seeds of Crops|Crop Res. (Hisar)11(2): 207-211|1996|
70820|T||Gupta,A., D. Singh, and V.K. Maheshwari|Storability of Fungicide Treated Sorghum Seeds Under Ambient Conditions|Agric. Sci. Dig.14(2): 99-102|1994|
70822|T||Smit,C.J.|Tolerance of Grape Vines to Herbicides|In: 2nd Proc.Natl.Weeds Conf.S.Afr., A.A.Balkema, Cape Town, S.Africa:117-124|1977|
70823|T||Rajendra,W., G.V. Prasad, and K. Indira|Deviations in Hepatic Animo Acid Profiles of Mouse Following Hexachlorophene Administration|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(4): 409-426|1988|
70825|T||Keyser,H.A., and J.H.S. Ferreira|Chemical and Biological Control of Sclerotium rolfsii in Grapevine Nurseries|S. Afr. J. Enol. Vitic.9(1): 43-44|1988|
70826|T||Fourie,J.C.|Herbigation in a Vineyard:  Persistence of Four Pre-Emergence Herbicides in a Sandy Loam Soil|S. Afr. J. Enol. Vitic.13(2): 64-70|1992|
70827|T||Benezet,H.J., C.W. Helms, M.R. Rodgers, and B.B. Huffman|Toxicity of a New Synthetic Pyrethroid, Tralomethrin, to the Cigarette Beetle|Tob. Sci.33:43-45|1989|
70828|T||Manabe,K., and M. Itoh|Soil Conservation and Chemical Weed Management in Hillside Orchard|Tech. Bull. Fac. Agric. Kagawa Univ.46(2): 163-168|1994|
70829|T||Ahrens,J.F.|Phytotoxicity of Selected Industrial Use Herbicides in Root Zones of Ornamental Plants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:256-258|1985|
70830|T||Zettler,J.L.|Pesticide Resistance in Tribolium castaneum and T. confusum (Coleoptera:  Tenebrionidae) from Flour Mills in the United States|J. Econ. Entomol.84(3): 763-767|1991|10.1093/jee/84.3.763
70831|T||Finnegan,J.K., P.S. Larson, R.B.,Jr. Smith, H.B. Haag, and G.R. Hennigar|Acute and Chronic Toxicity Studies on Pentachloronitrobenzene|Arch. Int. Pharmacodyn. Ther.114(1): 38-52|1958|
70832|T||Ahmad,Q., and A. Mohammad|Screening of Fungicides Against Sesamum Wilt|Pesticides 23(11): 28-29|1989|
70834|T||Kim,H.S., Y.H. Chung, C.H. Chung, and J.Y. Lee|The Trial on Herbicide Treatment for Soiling Corn at Alpine Area|Res. Rep. Rural Dev. Adm. (Suweon) - Livest.31(2): 48-53|1989|
70835|T||Collins,P.J., E.R. Sinclair, C.J. Howitt, and R.L. Haddrell|Dispersion of Grain Beetles (Coleoptera) in Grain Partially Treated with Insecticide|J. Econ. Entomol.81(6): 1810-1815|1988|10.1093/jee/81.6.1810
70836|A||Gaunt,P.S.|Extraction and Analysis of Triazines in Fish Tissues Following a Toxic Exposure; Environmental Factors Affecting Atrazine Toxicity in Fish|Ph.D.Thesis, Louisiana State University, Baton Rouge, LA:211 p.|1996|
70837|T||Bhaskaran,R.|Effect of Brassicol on Auxin Production by Rhizosphere Microflora of Cotton|Sci. Cult.39(8): 352-354|1973|
70838|A||Gordienko,S.A., I. Kuznetsova, and J. Vorisek|The Effect of Soluble Complexes of Humic Acid and Herbicides on Chlorella Cells|In: J.Szegi (Ed.), Proc.9th Int.Symp.on Soil Biology and Conservation of the Biosphere, Volumes 1-2, Aug.27-30, 1985, Sopron, Hungary, Akad.Kiado, Budapest, Hungary:199-209|1987|
70843|A||Sutton,D.L.|The Effects of 2-Chloro-4,6-bis(Ethylamino)-s-Triazine (Simazine) on Certain Aquatic Plants|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:68 p.|1965|
70844|T||NCI Working Group|Bioassay of Pentachloronitrobenzene for Possible Carcinogenicity|Tech.Rep.Ser.No.61, Natl.Cancer Inst., Bethesda, MD:46 p.|1978|
70845|T||Stickel,L.|Wildlife Studies, Patuxent Wildlife Research Center|In: Pestic.-Wildl.Stud., 1963: A Review of Fish and Wildlife Investigations During the Calendar Year, U.S.Fish and Wildl.Serv., Circ.No.199:77-115|1964|
70847|T||Strider,D.L.|Activity of Pyrethroid Insecticides Against Powdery Mildew Fungi|Plant Dis. Rep.60:512-514|1976|
70848|T||Nemec,S., and D. Tucker|Effects of Herbicides on Endomycorrhizal Fungi in Florida Citrus (Citrus spp.) Soils|Weed Sci.31(4): 427-431|1983|10.1017/S0043174500069320
70849|T||Trudgill,D.L.|Effects of Soil Treatment for the Control of Pratylenchus penetrans (Nematoda) on the Growth and Yield of Raspberry (Rubus idaeus) in Eastern Scotland|Crop Res. 26(2): 89-109|1986|
70850|T||Menge,J.A., E.L.V. Johnson, and V. Minassian|Effect of Heat Treatment and Three Pesticides upon the Growth and Reproduction of the Mycorrhizal Fungus Glomus fasciculatus|New Phytol.82:473-480|1979|10.1111/j.1469-8137.1979.tb02674.x
70851|T||Eleiwa,M.E., and M.I. Naguib|Effect of Chromium on the Carbohydrate of Datura stramonium Leaves|Bull. Fac. Sci. Cairo Univ.55(2): 261-271|1987|
70853|T||Yoder,K.S., and E.J. Klos|Effects of Selected Herbicides on Ascospore Discharge of Venturia inaequalis|Can. J. Plant Sci.62:509-511|1982|10.4141/cjps82-073
70854|T||Robinson,A.G.|Effects of Amitrole, Zytron and Other Herbicides or Plant Growth Regulators on the Pea Aphid, Acyrthosiphon pisum (Harris), Caged on Broad Bean, Vicia faba L.|Can. J. Plant Sci.41:413-417|1961|10.4141/cjps61-055
70855|A||Nakagawa,H., and K. Saeki|Effects of Tri-n-Butyltin Chloride on Growth of Five Species of Marine Phytoplankton|Sci. Bull. Fac. Agric. Kyushu Univ.46(3-4): 231-236|1992|
70860|T||Agrawal,G.K., R. Rakwal, and N.S. Jwa|Cloning and Characterization of a Jasmonate Inducible Rice (Oryza sativa L.) Peroxidase Gene, OsPOX, Against Global Signaling Molecules and Certain Inhibitors of Kinase-Signaling Cascade(s)|Plant Sci.162(1): 49-58|2002|10.1016/S0168-9452(01)00534-9
70861|T||Hazarika,J.N.|Control of Wilt of Solanum khasianum Caused by Fusarium oxysporum|J. Res. Assam Agric. Univ.6(1): 62-64|1985|
70862|T||El-Nawawy,A.S., A.A. Zein, M.A. Ashri, A. Tag El-Din, E.A. Kadous, S. El-Deeb, and F. Mineesy|The Phytotoxidal Effects of Certain Herbicides on Young Citrus Seedlings|Meded. Fac. Landbouwwet. Rijksuniv. Gent42(2): 949-955|1977|
70863|T||Beynon,K.I., G. Stoydin, and A.N. Wright|A Comparison of the Breakdown of the Triazine Herbicides Cyanazine, Atrazine and Simazine in Soils and in Maize|Pestic. Biochem. Physiol.2:153-161|1972|10.1016/0048-3575(72)90018-1
70864|T||Somda,Z.C., H.A. Mills, and S.C. Phatak|Effects of Nitrapyrin, Terrazole, and Simazine on Soil Nitrogen Transformation and Corn Growth|Commun. Soil Sci. Plant Anal.20(19/20): 2177-2199|1989|10.1080/00103628909368209
70865|T||Derr,J.F.|Wildflower Tolerance to Metolachlor and Metolachlor Combined with Other Broadleaf Herbicides|Hortscience28(10): 1023-1026|1993|10.21273/HORTSCI.28.10.1023
70867|T||Dwivedi,S.K., and R.S. Dwivedi|Population Dynamics of Guava (Psidium guajava L.) Wilt Pathogens in Pesticides Treated Soil|Int. J. Trop. Plant Dis.12(2): 187-195|1994|
70872|A||Relyea,R.A., and N. Mills|Predator-Induced Stress Makes the Pesticide Carbaryl More Deadly to Gray Treefrog Tadpoles (Hyla versicolor)|Proc. Natl. Acad. Sci. U.S.A.98(5): 2491-2496|2001|10.1073/pnas.031076198
70899|T||Haverty,M.I., and J.R. Wood|Residual Toxicity of Eleven Insecticide Formulations to the Mountain Pine Cone Beetle, Conophthorus monticolae Hopkins|J. Ga. Entomol. Soc.16(1): 77-83|1981|
70901|T||Van Himme,M., and R. Bulcke|Control of Triazine-Resistant Dicotyledonous Weeds in Nurseries|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(3b): 1261-1278|1988|
70902|A||Carter,J.G.|Effects of the Herbicide Simazine upon Production in a Two Member Aquatic Food Chain|Ph.D.Thesis, Utah State University, Logan, UT:213 p.|1981|
70903|T||Akinyemiju,O.A.|Differential Effects of Simazine and Diuron on Survival, Growth and Physiology of Populus Clones|Ph.D. Thesis, Michigan State University, East Lansing, MI:112 p.|1981|
70904|T||Dunn,J.S.|Study of the Toxicology and Pharmacokinetics of Pentachloronitrobenzene (PCNB) in Poultry|Ph.D.Thesis, University of Georgia, Athens, GA:141 p.|1977|
70905|T||Backman,P.A., and E.M. Clark|Effect of Carbofuran and Other Pesticides on Vesicular-Arbuscular Mycorrhizae in Peanuts|Nematropica7(1): 13-17|1977|
70906|T||Edge,V.E., and M. Casimir|Toxicity of Insecticides to Adult Australian Plague Locust, Chortoicetes terminifera (Orthoptera: Acrididae)|J. Aust. Entomol. Soc.14:321-326|1975|10.1111/j.1440-6055.1975.tb02046.x
70907|T||Gill,H.S., I.S. Thind, and U.S. Walia|Chemical Weed Control in Pearl Millet for Fodder|Pesticides 19(6): 47-48|1985|
70908|T||Haskins,J.R., R.H. Grothaus, R. Batchelor, W.N. Sullivan, and M.S. Schechter|Effectiveness of Three Synthetic Pyrethroids Against Mosquitoes|Mosq. News34(4): 385-388|1974|
70909|T||Schwab,S.M., E.L.V. Johnson, and J.A. Menge|Influence of Simazine on Formation of Vesicular-Arbuscular Mycorrhizae in Chenopodium quinona Wild.|Plant Soil64:283-297|1982|10.1007/BF02184263
70912|A||EVS Environmental Consultants Inc.|Site-Specific Toxicity Testing Methods for the South Fork Coeur d'Alene River - Results and Recommendations|EVS Project No.2/654-02, Environment Consultants, Seattle, WA:45 p.|1996|
70914|T||Dosdall,L.M., R.C. Yang, and P.M. Conway|Do Applications of Sulfur or Sulfate Influence Infestations of Root Maggots (Delia spp.) (Diptera:  Anthomyiidae) in Canola?|Can. J. Plant Sci.82(3): 599-610|2002|10.4141/P01-081
70915|T||Redfield,E.B., and J.J. Zwiazek|Drought Tolerance Characteristics of Black Spruce (Picea mariana) Seedlings in Relation to Sodium Sulfate and Sodium Chloride Injury|Can. J. Bot.80(7): 773-778|2002|10.1139/b02-061
70916|T||Sanderson,K.R., and M.R. Carter|Effect of Gypsum and Elemental Sulphur on Calcium and Sulphur Content of Rutabagas in Podzolic Soils|Can. J. Plant Sci.82(4): 785-788|2002|10.4141/P01-155
70917|T||Gopal,R., B.K. Dube, P. Sinha, and C. Chatterjee|Cobalt Toxicity Effects on Growth and Metabolism of Tomato|Commun. Soil Sci. Plant Anal.34(5-6): 619-628|2003|10.1081/CSS-120018963
70918|T||Trehan,S.P., and R.C. Sharma|Root-Shoot Ratio as Indicator of Zinc Uptake Efficiency of Different Potato Cultivars|Commun. Soil Sci. Plant Anal.34(7-8): 919-932|2003|10.1081/CSS-120019099
70919|T||Altinok,S., S. Sozudogru-Ok, and H. Halilova|Effect of Iodine Treatments on Forage Yields of Alfalfa|Commun. Soil Sci. Plant Anal.34(1-2): 55-64|2003|10.1081/CSS-120017415
70920|T||Nelson,K.A., K.A. Renner, and R. Hammerschmidt|Cultivar and Herbicide Selection Affects Soybean Development and the Incidence of Sclerotinia Stem Rot|Agron. J.94(6): 1270-1281|2002|10.2134/agronj2002.1270
70921|T||Shang,Z.R., and J.K.C. Leung|110m Ag Root and Foliar Uptake in Vegetables and Its Migration in Soil|J. Environ. Radioact.65(3): 297-307|2003|10.1016/S0265-931X(02)00104-2
70922|T||Fargasova,A.|Determination of Metal Interactions on Root Growth of Sinapis alba Seedlings|Biol. Plant. (Praha)42(4): 637-640|1999|10.1023/A:1002608324204
70923|T||Abedin,M.J., J. Cotter-Howells, and A.A. Meharg|Arsenic Uptake and Accumulation in Rice (Oryza sativa L.) Irrigated with Contaminated Water|Plant Soil240(2): 311-319|2002|10.1023/A:1015792723288
70924|T||Ben-Gal,A., and U. Shani|Yield, Transpiration and Growth of Tomatoes Under Combined Excess Boron and Salinity Stress|Plant Soil247(2): 211-221|2002|10.1023/A:1021556808595
70925|T||Arao,T., N. Ae, M. Sugiyama, and M. Takahashi|Genotypic Differences in Cadmium Uptake and Distribution in Soybeans|Plant Soil251(2): 247-253|2003|10.1023/A:1023079819086
70926|T||Ishaaya,I., S. Kontsedalov, and A.R. Horowitz|Emamectin, a Novel Insecticide for Controlling Field Crop Pests|Pest Manag. Sci.58(11): 1091-1095|2002|10.1002/ps.535
70927|T||Zeldin,E.L., T.P. Jury, R.A. Serres, and B.H. McCown|Tolerance to the Herbicide Glufosinate in Transgenic Cranberry (Vaccinium macrocarpon Ait.) and Enhancement of Tolerance in Progeny|J. Am. Soc. Hortic. Sci.127(4): 502-507|2002|10.21273/JASHS.127.4.502
70928|T||Herschbach,C., B. Pilch, M. Tausz, H. Rennenberg, and D. Grill|Sulphate Uptake and Xylem Loading of Young Pea (Pisum sativum L.) Seedlings|Plant Soil242(2): 227-233|2002|10.1023/A:1016205905244
70929|T||Li,X.F., J.F. Ma, and H. Matsumoto|Aluminum-Induced Secretion of Both Citrate and Malate in Rye|Plant Soil242(2): 235-243|2002|10.1023/A:1016257906153
70930|T||Hasenstein,K.H., M.L. Evans, C.L. Stinemetz, R. Moore, W.M. Fondren, E.C. Koon, M.A. Higby, and A.J.M. Smucker|Comparative Effectiveness of Metal Ions in Inducing Curvature of Primary Roots of Zea mays|Plant Physiol.86(3): 885-889|1988|10.1104/pp.86.3.885
70931|T||Carrier,P., A. Baryla, and M. Havaux|Cadmium Distribution and Microlocalization in Oilseed Rape (Brassica napus) After Long-Term Growth on Cadmium-Contaminated Soil|Planta (Multiple Languages)216(6): 939-950|2003|10.1007/s00425-002-0947-6
70932|T||Silber,A., J. Ben-Jaacov, A. Ackerman, A. Bar-Tal, I. Levkovitch, T. Matsevitz-Yosef, D. Swartzberg, J. Riov, and D. Gr|Interrelationship Between Phosphorus Toxicity and Sugar Metabolism in Verticordia plumosa L.|Plant Soil245(2): 249-260|2002|10.1023/A:1020432512980
70933|T||Shukla,U.C., and P. Kakkar|Effect of Dual Stress of Ultraviolet-B Radiation and Cadmium on Nutrient Uptake of Wheat Seedlings|Commun. Soil Sci. Plant Anal.33(11-12): 1737-1749|2002|10.1081/CSS-120004819
70934|T||Singh,H.P., D.R. Batish, S. Kaur, H. Ramezani, and R.K. Kohli|Comparative Phytotoxicity of Four Monoterpenes Against Cassia occidentalis|Ann. Appl. Biol.141(2): 111-116|2002|10.1111/j.1744-7348.2002.tb00202.x
70935|T||Kenbaev,B., and B. Sade|Response of Field-Grown Barley Cultivars Grown on Zinc-Deficient Soil to Zinc Application|Commun. Soil Sci. Plant Anal.33(3-4): 533-544|2002|10.1081/CSS-120002762
70936|T||Valle,G., L.R. McDowell, D.L. Prichard, P.J. Chenoweth, D.L. Wright, F.G. Martin, W.E. Kunkle, and N.S. Wilkinson|Selenium Concentration of Fescue and Bahiagrasses After Applying a Selenium Fertilizer|Commun. Soil Sci. Plant Anal.33(9/10): 1461-1472|2002|10.1081/CSS-120004294
70937|T||Kaya,C., D. Higgs, F. Ince, B.M. Amador, A. Cakir, and E. Sakar|Ameliorative Effects of Potassium Phosphate on Salt-Stressed Pepper and Cucumber|Plant Sci.26(4): 807-820|2003|
70938|T||Karamanos,R.E., T.B. Goh, and T.A. Stonehouse|Canola Response to Boron in Canadian Prairie Soils|Can. J. Plant Sci.83(2): 249-259|2003|10.4141/P02-095
70939|T||May,W.E., H.A. Loeppky, D.C. Murrell, C.D. Myhre, and J.J. Soroka|Preharvest Glyphosate in Alfalfa for Seed Production:  Effect on Alfalfa Seed Yield and Quality|Can. J. Plant Sci.83(1): 189-197|2003|10.4141/P01-196
70941|T||Lo,T.Y., and S.M. Chen|Effect of Chemical Treatment on Carotene and Acid Contents of Tomatoes|J. Chin. Chem. Soc.11(1): 95-98|1944|
70942|T||Fila,K., Z. Adamski, and K. Ziemnicki|Exposure to Fenitrothion Causes Malfunctions of Spodoptera exigua Hubn. (Lep., Noctuidae) Eggs|J. Appl. Entomol.126(2-3): 114-118|2002|10.1046/j.1439-0418.2002.00623.x
70943|T||Reinecke,A.J., B. Helling, K. Louw, J. Fourie, and S.A. Reinecke|The Impact of Different Herbicides and Cover Crops on Soil Biological Activity in Vineyards in the Western Cape, South Africa|Pedobiologia (Multiple Languages)46(5): 475-484|2002|10.1078/0031-4056-00153
70944|T||Li,G.Q., H.C. Huang, and S.N. Acharya|Sensitivity of Ulocladium atrum, Coniothyrium minitans, and Sclerotinia sclerotiorum to Benomyl and Vinclozolin|Can. J. Bot.80(8): 892-898|2002|10.1139/b02-077
70945|T||Jensen,K.I.N., and E.G. Specht|Response of Lowbush Blueberry (Vaccinium angustifolium) to Hexazinone Applied Early in the Fruiting Year|Can. J. Plant Sci.82(4): 781-783|2002|10.4141/P01-188
70946|T||Johnson,E.N., K.J. Kirkland, and F.C. Stevenson|Timing of Pre-Seeding Glyphosate Application in Direct-Seeding Systems|Can. J. Plant Sci.82(3): 611-615|2002|10.4141/P01-151
70947|T||Sanderson,K.R., J.B. Sanderson, and U.C. Gupta|Boron for Brown-Heart Control on Two Rutabaga Cultivars|Can. J. Plant Sci.82(3): 561-565|2002|10.4141/P01-055
70948|T||Zand,E., H.J. Beckie, C.D. Myhre, and H.A. Loeppky|Response of Two Canada Thistle (Cirsium arvense) Varieties to Herbicides|Can. J. Plant Sci.82(3): 625-628|2002|10.4141/P01-168
70949|T||Xue,A.G., J. Charest, C.G. Davidson, D.W. McAndrew, D.J. Bing, and T.D. Warkentin|Response of Field Pea Cultivars to Chlorothalonil in the Control of Mycosphaerella Blight|Can. J. Plant Sci.83(2): 313-318|2003|10.4141/P02-046
70950|T||May,W.E., C.D. Myhre, H.A. Loeppky, D.C. Murrell, and J.J. Soroka|Preharvest Glyphosate in Alfalfa for Seed Production:  Control of Canada Thistle|Can. J. Plant Sci.83(1): 199-204|2003|10.4141/P01-197
70951|T||Dear,B.S., G.A. Sandral, D. Spencer, M.R.I. Khan, and T.J.V. Higgins|The Tolerance of Three Transgenic Subterranean Clover (Trifolium subterraneum L.) Lines with the bxn Gene to Herbicides Containing Bromoxynil|Aust. J. Agric. Res.54(2): 203-210|2003|10.1071/AR02134
70952|T||Zhang,X.K., and Z. Rengel|Soil Solution Composition in Association with the Toxicity of Banded Di-ammonium Phosphate to Wheat and Amelioration by CaCO3|Aust. J. Agric. Res.54(2): 183-191|2003|10.1071/AR02062
70953|T||Tang,S., Z. Chen, H. Li, and J. Zheng|Uptake of 134Cs in the Shoots of Amaranthus tricolor and Amaranthus cruentus|Environ. Pollut.125(3): 305-312|2003|10.1016/S0269-7491(03)00124-6
70954|T||Albers,P.H., D.J. Hoffman, D.M. Buscemi, and M.J. Melancon|Effects of the Mosquito Larvicide GB-1111 on Red-Winged Blackbird Embryos|Environ. Pollut.125(3): 447-451|2003|10.1016/S0269-7491(03)00077-0
70955|T||Singh,R.P., R.D. Tripathi, S. Dabas, S.M.H. Rizvi, M.B. Ali, S.K. Sinha, D.K. Gupta, S. Mishra, and U.N. Rai|Effect of Lead on Growth and Nitrate Assimilation of Vigna radiata (L.) Wilczek Seedlings in a Salt Affected Environment|Chemosphere52(7): 1245-1250|2003|10.1016/S0045-6535(03)00318-7
70956|T||Migliore,L., S. Cozzolino, and M. Fiori|Phytotoxicity to and Uptake of Enrofloxacin in Crop Plants|Chemosphere52(7): 1233-1244|2003|10.1016/S0045-6535(03)00272-8
70957|T||Medina,P., F. Budia, P.D. Estal, and E. Vinuela|Effects of Three Modern Insecticides, Pyriproxyfen, Spinosad and Tebufenozide, on Survival and Reproduction of Chrysoperla carnea Adults|Ann. Appl. Biol.142(1): 55-61|2003|10.1111/j.1744-7348.2003.tb00229.x
70958|T||Stoncius,D., and J.R. Lazutka|Spontaneous and Benzo(a)pyrene-Induced Micronuclei in the Embryos of the Black-Headed Gull (Larus ridibundus L.)|Mutat. Res.538(1-2): 31-39|2003|10.1016/S1383-5718(03)00092-5
70959|T||Greenslade,P., and G.T. Vaughan|A Comparison of Collembola Species for Toxicity Testing of Australian Soils|Pedobiologia (Multiple Languages)47(2): 171-179|2003|10.1078/0031-4056-00180
70960|T||Warncke,D.D., T.C. Reid, and M.K. Hausbeck|Sodium Chloride and Lime Effects on Soil Cations and  Elemental Composition of Asparagus Fern|Commun. Soil Sci. Plant Anal.33(15-18): 3075-3084|2002|10.1081/CSS-120014507
70961|T||Reed,R.L., M.A. Sanderson, V.G. Allen, and R.E. Zartman|Cadmium Application and pH Effects on Growth and Cadmium Accumulation in Switchgrass|Commun. Soil Sci. Plant Anal.33(7-8): 1187-1203|2002|10.1081/CSS-120003881
70962|T||Abreu,M.M., F. Calouro, and M.L.V. Fernandes|Application of Chromium to Soils at Different Rates and Oxidation States.  II.  Influence on Uptake of Selected Nutrients by Radish|Commun. Soil Sci. Plant Anal.33(13-14): 2269-2277|2002|10.1081/CSS-120005761
70963|T||Fernandes,M.L.V., F. Calouro, and M.M. Abreu|Application of Chromium to Soils at Different Rates and Oxidation States. I.  Effect on dry Matter Yield and Chromium Uptake by Radish|Commun. Soil Sci. Plant Anal.33(13-14): 2259-2268|2002|10.1081/CSS-120005760
70964|T||Gori,P., S. Schiff, G. Santandrea, and A. Bennici|Response of In Vitro Cultures of Nicotiana tabacum L. to Copper Stress and Selection of Plants from Cu-Tolerant Callus|Plant Cell Tissue Organ Cult.53(3): 161-169|1998|10.1023/A:1006048031956
70965|T||Diaz,G.J.|Evaluation of the Efficacy of a Feed Additive to Ameliorate the Toxic Effects of 4,15-Diacetoxiscirpenol in Growing Chicks|Poult. Sci.81(10): 1492-1495|2002|10.1093/ps/81.10.1492
70966|T||Ahmad,M., R.M. Hollingworth, and J.C. Wise|Broad-Spectrum Insecticide Resistance in Obliquebanded Leafroller Choristoneura rosaceana (Lepidoptera: Tortricidae) from Michigan|Pest Manag. Sci.58(8): 834-838|2002|10.1002/ps.531
70967|T||Wanner,K.W., B.V. Helson, and B.J. Harris|Laboratory Evaluation of Two Novel Strategies to Control First-Instar Gypsy Moth Larvae with Spinosad Applied to Tree Trunks|Pest Manag. Sci.58(8): 817-824|2002|10.1002/ps.530
70968|T||Foster,S.P., I. Denholm, and A.L. Devonshire|Field-Simulator Studies of Insecticide Resistance to Dimethylcarbamates and Pyrethroids Conferred by Metabolic- and Target Site-Based Mechanisms in Peach-Potato Aphids, Myzus persicae (Hemiptera:  Aphididae)|Pest Manag. Sci.58(8): 811-816|2002|10.1002/ps.541
70969|T||Durham,E.W., B.D. Siegfried, and M.E. Scharf|In Vivo and In Vitro Metabolism of Fipronil by Larvae of the European Corn Borer Ostrinia nubilalis|Pest Manag. Sci.58(8): 799-804|2002|10.1002/ps.523
70970|T||Espinosa,P.J., P. Bielza, J. Contreras, and A. Lacasa|Insecticide Resistance in Field Populations of Frankliniella occidentalis (Pergande) in Murcia (South-East Spain)|Pest Manag. Sci.58(9): 967-971|2002|10.1002/ps.572
70971|T||Espinosa,P.J., P. Bielza, J. Contreras, and A. Lacasa|Field and Laboratory Selection of Frankliniella occidentalis (Pergande) for Resistance to Insecticides|Pest Manag. Sci.58(9): 920-927|2002|10.1002/ps.573
70972|T||Wierenga,J.M., D.L. Warkentin, C.A. Staetz, D.L. Pitts, and J.A. Dybas|Insecticidal Activity of N-Arylalkylbenzhydrolpiperidines|Pest Manag. Sci.58(12): 1266-1272|2002|10.1002/ps.598
70973|T||Sappington,T.W.|Efficacy of the Organic-Certified Insecticide Diatect II Against the Boll Weevil (Anthonomus grandis) in Cotton|Pest Manag. Sci.58(10): 1038-1042|2002|10.1002/ps.585
70974|T||Hooper,J.L., J.M. Desmarchelier, Y. Ren, and S.E. Allen|Toxicity of Cyanogen to Insects of Stored Grain|Pest Manag. Sci.59(3): 353-357|2003|10.1002/ps.648
70975|T||Toews,M.D., and B. Subramanyam|Contribution of Contact Toxicity and Wheat Condition to Mortality of Stored-Product Insects Exposed to Spinosad|Pest Manag. Sci.59(5): 538-544|2003|10.1002/ps.660
70976|T||Turner,A.S., J.S. Bale, and R.O. Clements|The Effect of a Range of Pesticides on Non-Target Organisms in the Grassland Environment|Crop Prot. North. Britain:290-295|1987|
70977|T||Rolston,L.H., P. Rouse, and V. Hall|Effect of Insecticidal Seed Treatments on Rice|J. Kans. Entomol. Soc.33(3): 119-123|1960|
70978|T||Clarkson,D.T.|Aluminium Tolerance in Species Within the Genus Agrostis|J. Ecol.54:167-178|1966|10.2307/2257665
70979|T||Harris,C.R., and H.J. Svec|Laboratory Studies on the Contact Toxicity of Some Insecticides to Honeybees|Pestic. Prog.8(2): 25-28|1970|
70980|T||Sturtz,N., A.M. Evangelista De Duffard, and R. Duffard|Detection of 2,4-Dichlorophenoxyacetic Acid (2,4-D) Residues in Neonates Breast-fed by 2,4-D Exposed Dams|Neurotoxicology21(1/2): 147-154|2000|
70981|T||Wibbels,T., and D. Crews|Specificity of Steroid Hormone-Induced Sex Determination in a Turtle|J. Endocrinol.133:121-129|1992|10.1677/joe.0.1330121
70982|T||Behari,J., S.V. Chandra, and S.K. Tandon|Comparative Toxicity of Trivalent and Hexavalent Chromium to Rabbits.  III.  Biochemical and Histological Changes in Testicular Tissue|Acta Biol. Med. Ger. (Multiple Languages)37(3): 463-468|1978|
70983|T||Lo,T.Y., and S.M. Chen|The Effect of Chemical Treatment on Ascorbic Acid Content of Vegetables|In: Proc. Inst. Food Tech.:154-157|1945|
70985|T||Dogar,M.A., and T. Van Hai|Effect of P,N and HCO3 Levels in the Nutrient Solution on Rate of Zn Absorption by Rice Roots and Zn Content in Plants|Z. Pflanzenphysiol. (Multiple Languages)98:203-212|1980|10.1016/S0044-328X(80)80270-4
70986|T||Ernst,E., and J.P. Bonde|Sex Hormones and Epididymal Sperm Parameters in Rats Following Sub-chronic Treatment with Hexavalent Chromium|Hum. Exp. Toxicol.11:255-258|1992|10.1177/096032719201100403
70987|T||Hall,C., V. Edgington, and C.M. Switzer|Effects of Chlorsulfuron or 2,4-D upon Dichlofop-Methyl Efficacy in Oat (Avena sativa)|Weed Sci.30:672-676|1982|10.1017/S0043174500041400
70988|T||Johnson,W.G., J.S. Dilbeck, M.S. DeFelice, and J.A. Kendig|Weed Control with Reduced Rates of Chlorimuron plus Metribuzin and Imazethapyr in No-Till Narrow-Row Soybean (Glycine max)|Weed Technol.12:32-36|1998|10.1017/S0890037X00042536
70990|T||Eadie,A.G., C.J. Swanton, J.E. Shaw, and G.W. Anderson|Banded Herbicide Applications and Cultivation in a Modified No-Till Corn (Zea mays) System|Weed Technol.6(3): 535-542|1992|10.1017/S0890037X00035752
70991|T||Devlin,D.L., J.H. Long, and L.D. Maddux|Using Reduced Rates of Postemergence Herbicides in Soybeans (Glycine max)|Weed Technol.5(4): 834-840|1991|10.1017/S0890037X00033947
70992|T||Salisbury,C.D., J.M. Chandler, and M.G. Merkle|Ammonium Sulfate Enhancement of Glyphosate and SC-0224 Control of Johnsongrass (Sorghum halepense)|Weed Technol.5:18-21|1991|10.1017/S0890037X00033182
70993|T||Daglish,G.J., P.J. Collins, H. Pavic, and R.A. Kopittke|Effects of Time and Concentration on Mortality of Phosphine-Resistant Sitophilus oryzae (L) Fumigated with Phosphine|Pest Manag. Sci.58(10): 1015-1021|2002|10.1002/ps.532
70994|T||Kruger,E., and E. Sucoff|Aluminium and the Hydraulic Conductivity of Quercus rubra L. Root Systems|J. Exp. Bot.40(215): 659-665|1989|10.1093/jxb/40.6.659
70995|T||Takashima,Y., M. Tsutsumi, Y. Sasaki, T. Tsujiuchi, O. Kusuoka, and Y. Konishi|Lack of Effects of Bisphenol A in Maternal Rats or Treatment on Response of Their Offspring to N-Nitrosobis (2-Hydroxypropyl)Amine|J. Toxicol. Pathol.14(2): 87-98|2001|10.1293/tox.14.87
70996|T||Gellert,R.J., C.A. Wallace, E.M. Wiesmeier, and R.M. Shuman|Topical Exposure of Neonates to Hexachlorophene:  Long-Standing Effects on Mating Behavior and Prostatic Development in Rats|Toxicol. Appl. Pharmacol.43(2): 339-349|1978|10.1016/0041-008X(78)90013-3
70997|T||Khan,S.U., and P.B. Marriage|Residues of Atrazine and Its Metabolites in an Orchard Soil and Their Uptake by Oat Plants|J. Agric. Food Chem.25(6): 1408-1413|1977|10.1021/jf60214a020
70998|T||Walker,T.F., J.H. Bott, and B.C. Bond|Cimetidine does not Demasculizine Male Rat Offspring Exposed In Utero|Fundam. Appl. Toxicol.8(2): 118-197|1987|10.1016/0272-0590(87)90117-5
70999|T||Bacci,E., D. Calamari, C. Gaggi, and M. Vighi|Bioconcentration of Organic Chemical Vapors in Plant Leaves:  Experimental Measurements and Correlation|Environ. Sci. Technol.24(6): 885-889|1990|10.1021/es00076a015
71000|T||Jones,V.P., and M.P. Parrella|The Sublethal Effects of Selected Insecticides on Life Table Parameters of Panonychus citri (Acari:  Tetranychidae)|Can. Entomol.116(7): 1033-1040|1984|10.4039/Ent1161033-7
71001|T||Hagley,E.A.C., and C.M. Simpson|Effect of Insecticides on Predators of the Pear Psylla, Psylla pyricola (Hemiptera:  Psyllidae), in Ontario|Can. Entomol.115(10): 1409-1414|1983|10.4039/Ent1151409-10
71002|T||Pipe,A.E., and D.R. Cullimore|Influence of Five Phenylurea Herbicides on the Diatom Hantzschia in a Sandy Loam Soil|Bull. Environ. Contam. Toxicol.33(4): 439-443|1984|10.1007/BF01625567
71003|T||Schlede,E., U. Mischke, W. Diener, and D. Kayser|The International Validation Study of the Acute Toxic Class Method (Oral)|Arch. Toxicol.69(10): 659-670|1995|10.1007/s002040050229
71004|T||Lindstrom,K., J. Polkunen, and P. Kansanen|Effect of Dinoseb on Nitrogen Fixation of Red Clover (Trifolium pratense)|Soil Biol. Biochem.17(6): 865-869|1985|10.1016/0038-0717(85)90148-8
71005|T||Wegener,K.E., R. Aldag, and B. Meyer|Soil Algae:  Effects of Herbicides on Growth and C2H2 Reduction (Nitrogenase) Activity|Soil Biol. Biochem.17(5): 641-644|1985|10.1016/0038-0717(85)90041-0
71007|T||Breazeale,F.W., and N.D. Camper|Bacterial, Fungal, and Actinomycete Populations in Soils Receiving Repeated Applications of 2,4-Dichlorophenoxyacetic Acid and Trifluralin|Appl. Microbiol.19(2): 379-380|1970|10.1128/am.19.2.379-380.1970
71008|T||Bain,D.C.|Effect of Various Herbicides on Some Soil Fungi in Culture|Plant Dis. Rep.45(10): 814-817|1961|
71009|T||Bethlenfalvay,G.J., R.F. Norris, and D.A. Phillips|Effect of Bentazon, a Hill Reaction Inhibitor, on Symbiotic Nitrogen-Fixing Capability and Apparent Photosynthesis|Plant Physiol.63:213-215|1979|10.1104/pp.63.1.213
71010|T||Mount,G.A., N.W. Pierce, K.F. Baldwin, and F. Washington|Control of Aedes taeniorhynchus at Crescent Beach, Florida, with Aerosols of Propoxur (Baygon Mos) and Naled (Dibrom 14)|Mosq. News38(1): 54-56|1978|
71011|T||Cervelli,S., C. Ciardi, and A. Perna|Effect of Atrazine on Soil Transformations of Nitrogen and Uptake by Corn|J. Environ. Qual.11(1): 82-86|1982|10.2134/jeq1982.00472425001100010020x
71012|T||Cross,D.L., H.L. King, and D.L. Haynes|The Effects of DDT in the Diet of Japanese Quail|Mich. Agric. Exp. Stn. Q. Bull.44:688-696|1962|
71013|T||Day,D.D., W.N. Beyer, D.J. Hoffman, A. Morton, L. Sileo, D.J. Audet, and M.A. Ottinger|Toxicity of Lead-Contaminated Sediment to Mute Swans|Arch. Environ. Contam. Toxicol.44(4): 510-522|2003|10.1007/s00244-002-1140-4
71014|T||Mateo,R., W.N. Beyer, J.W. Spann, D.J. Hoffman, and A. Ramis|Relationship Between Oxidative Stress, Pathology, and Behavioral Signs of Lead Poisoning in Mallards|J. Toxicol. Environ. Health Part A66(14): 1371-1389|2003|10.1080/15287390306390
71015|T||Leland,J.E., D.E. Mullins, and D.F. Berry|Evaluating Environmental Hazards of Land Applying Composted Diazinon Using Earthworm Bioassays|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 821-834|2001|
71016|A||Singh,R.K., R.L. Singh, and B. Sharma|Acute Toxicity of Carbofuran to a Freshwater Teleost, Clarias batrachus|Bull. Environ. Contam. Toxicol.70(6): 1259-1263|2003|10.1007/s00128-003-0118-x
71017|T||Syrett,P., and D.R. Penman|Studies of Insecticide Toxicity to Lucerne Aphids and Their Predators|N. Z. J. Agric. Res.23:575-580|1980|10.1080/00288233.1980.10417885
71018|T||Iftner,D.C., and F.R. Hall|Effects of Fenvalerate and Permethrin on Tetranychus urticae Koch (Acari:  Tetranychidae) Dispersal Behavior|Environ. Entomol.12(6): 1782-1786|1983|10.1093/ee/12.6.1782
71019|T||Agnello,A.M., J.R.,Jr. Bradley, and J.W. Van Duyn|Plant-Mediated Effects of Postemergence Herbicides on Epilachna varivestis (Coleoptera:  Coccinellidae)|Environ. Entomol.15:216-220|1986|10.1093/ee/15.1.216
71020|T||AliNiazee,M.T., and J.E. Cranham|Effect of Four Synthetic Pyrethroids on a Predatory Mite, Typhlodromus pyri, and Its Prey, Panonychus ulmi, on Apples in Southeast England|Environ. Entomol.9:436-439|1980|10.1093/ee/9.4.436
71021|T||Stoyer,T.L., and L.T. Kok|Insect/Plant Interactions in Integrating Trichosirocalus horridus (Coleoptera:  Curculionidae) and 2,4-Dichlorophenoxyactic Acid for Carduus Thistle Control|Environ. Entomol.16(4): 864-868|1987|10.1093/ee/16.4.864
71022|T||Story,J.M., K.W. Boggs, and W.R. Good|Optimal Timing of 2,4-D Applications for Compatibility with Urophora affinis and U. quadrifasciata (Diptera:  Tephritidae) for Control of Spotted Knapweed|Environ. Entomol.17(5): 911-914|1988|10.1093/ee/17.5.911
71023|T||Gray,L.E.,Jr., J.M. Ferrell, and J.S. Ostby|Alteration of Behavioral Sex Differentiation by Exposure to Estrogenic Compounds During a Critical Neonatal Period:  Effects of Zearalenone, Methoxychlor, and Estradiol in Hamsters|Toxicol. Appl. Pharmacol.80(1): 127-136|1985|10.1016/0041-008X(85)90107-3
71024|T||Cummings,J.G., M. Eidelman, V. Turner, D. Reed, K.T. Zee, and R.E. Cook|Residues in Poultry Tissues from Low Level Feeding of Five Chlorinated Hydrocarbon Insecticides to Hens|J. AOAC Int.50(2): 418-425|1967|10.1093/jaoac/50.2.418
71025|T||Yule,W.N., E.V. Parups, and I. Hoffman|Toxicology of Plant-Translocated Maleic Hydrazide.  Lack of Effects on Insect Reproduction|J. Agric. Food Chem.14(4): 407-409|1966|10.1021/jf60146a021
71026|T||Vathy,I.U., A.M. Etgen, and R.J. Barfield|Effects of Prenatal Exposure to Morphine on the Development of Sexual Behavior in Rats|Pharmacol. Biochem. Behav.22:227-232|1985|10.1016/0091-3057(85)90382-X
71027|T||Penman,D.R., and R.B. Chapman|Woolly Apple Aphid Outbreak Following Use of Fenvalerate in Apples in Canterbury, New Zealand|J. Econ. Entomol.73(1): 49-51|1980|10.1093/jee/73.1.49
71028|T||Robinson,A.G.|Effect of Maleic Hydrazide and Other Plant Growth Regulators on the Pea Aphid, Acyrthosiphon pisum (Harris), Caged on Broad Bean, Vicia faba L.|Can. Entomol.92:494-499|1960|10.4039/Ent92494-7
71029|T||Carruthers,R.I., G.H. Whitfield, and D.L. Haynes|Pesticide-Induced Mortality of Natural Enemies of the Onion Maggot, Delia antiqua (Dip.: Anthomyiidae)|Entomophaga30(2): 151-161|1985|10.1007/BF02372248
71030|T||Trumble,J.T., and L.T. Kok|Impact of 2,4-D on Ceuthorhynchidius horridus (Coleoptera:  Curculionidae) and Their Compatibility for Integrated Control of Caruus Thistles|Weed Res. (Multiple Languages)20:73-75|1980|10.1111/j.1365-3180.1980.tb00046.x
71031|T||Easterbrook,M.A.|Effects of Pesticides on the Apple Rust Mite Aculus schlechtendali (Nal.) (Eriophyidae)|J. Hortic. Sci.59(1): 51-55|1984|10.1080/00221589.1984.11515168
71032|T||Ocampo,J.A., and D.S. Hayman|Effects of Pesticides on Mycorrhiza in Field-Grown Barley, Maize and Potatoes|Trans. Br. Mycol. Soc.74(2): 413-416|1980|10.1016/S0007-1536(80)80173-2
71033|T||McCaffrey,J.P., and R.H. Callihan|Compatibility of Picloram and 2,4-D with Urophora affinis and U. quadrifasciata (Diptera: Tephritidae) for Spotted Knapweed Control|Environ. Entomol.17(5): 785-788|1988|10.1093/ee/17.5.785
71034|T||Colinas,C., E. Ingham, and R. Molina|Population Responses of Target and Non-Target Forest Soil Organisms to Selected Biocides|Soil Biol. Biochem.26(1): 41-47|1994|10.1016/0038-0717(94)90193-7
71035|T||McKee,M.J., and C.O. Knowles|Effects of Pyrethroids on Respiration in the Twospotted Spider Mite (Acari:  Tetranychidae)|J. Econ. Entomol.77:1376-1380|1984|10.1093/jee/77.6.1376
71036|T||Iftner,D.C., and F.R. Hall|The Effects of Fenvalerate and Permethrin Residues on Tetranychus urticae Koch Fecundity and Rate of Development|J. Agric. Entomol.1(3): 191-200|1984|
71037|T||De Filippis,L.F., and C.K. Pallaghy|Localization of Zinc and Mercury in Plant Cells|Micron6:111-120|1975|
71038|T||Adams,J.B., and M.E. Drew|Grain Aphids in New Brunswick.  IV.  Effects of Malathion and 2,4-D Amine on Aphid Populations and on Yields of Oats and Barley|Can. J. Zool.47:423-426|1969|10.1139/z69-077
71039|T||Nemec,S.|Effects of 11 Fungicides on Endomycorrhizal Development in Sour Orange|Can. J. Bot.58:522-526|1980|10.1139/b80-063
71040|T||Benton,A.H.|Effects on Wildlife of DDT Used for Control of Dutch Elm Disease|J. Wildl. Manag.15:20-27|1951|10.2307/3796765
71041|T||Mueller,T.C., and R.M. Hayes|Effect of Thiazopyr on Soybean Growth and Dissipation in Soil|Weed Sci.44:694-697|1996|10.1017/S0043174500094558
71042|T||Ahluwalia,B.S., S.U. Rajguru, and G.H. Nolan|The Effect of delta9-Tetrahydrocannabinol In Utero Exposure on Rat Offspring Fertility and Ventral Prostrate Gland Morphology|J. Androl.6:386-391|1985|10.1002/j.1939-4640.1985.tb03300.x
71043|T||Henry,E.C., and R.K. Miller|The Antiestrogen LY117018 is Estrogenic in the Fetal Rat|Teratology34:59-63|1986|10.1002/tera.1420340108
71045|T||Kallio,S., and R.E. Wilkinson|The Effects of Some Herbicides on Nitrogenase Activity and Carbon Fixation in Two Subarctic Lichens|Bot. Gaz.138(4): 468-473|1977|10.1086/336951
71046|T||Nowakowski,Z.|Effects of the Two Synthetic Pyrethroids on European Mite (Panonychus ulmi Koch)|Fruit Sci. Rep. (Skierniewice)9(1): 29-38|1982|
71047|T||Vaissayre,M.|Chemical Control of the Mite Polyphagotarsonemus latus (Banks) in Cotton Fields|Coton Fibres Trop.41:38-43|1986|
71048|T||Goodman,V.H.|2,4-D Injury to Cotton|Miss. Agric. For. Exp. Stn. (MAFES):11 p.|1953|
71049|T||Wong,S.W., and R.B. Chapman|Toxicity of Synthetic Pyrethroid Insecticides to Predaceous Phytoseiid Mites and Their Prey|Aust. J. Agric. Res.30:497-501|1979|10.1071/AR9790497
71050|T||Groth,D.E., and C.A. Martinson|Increased Endomycorrhizal Infection of Maize and Soybeans After Soil Treatment and Metalaxyl|Plant Dis.67:1377-1378|1983|10.1094/PD-67-1377
71051|T||Eshel,Y., and J. Katan|Effect of Dinitroanilines on Solanaceous Vegetables and Soil Fungi|Weed Sci.20(3): 243-246|1972|10.1017/S0043174500035517
71052|T||Huckaba,R.M., and H.D. Coble|Effect of Herbicides on Soybean Thrips (Sericothrips variablis) in Soybeans (Glycine max)|Weed Technol.4:475-477|1990|10.1017/S0890037X00025793
71053|T||Gupta,C., B.H. Shapiro, and S.J. Yaffe|Reproductive Dysfunction in Male Rats Following Prenatal Exposure to Phenobarbital|Pediatr. Pharmacol.1:55-62|1980|
71054|T||Parker,M.B., and C.C. Dowler|Effect of Nitrogen with Trifluralin and Vernolate on Soybeans|Weed Sci.24(1): 131-133|1976|10.1017/S0043174500065541
71055|T||Ekelund,F., R. Ronn, and S. Christensen|The Effect of Three Different Pesticides on Soil Protozoan Activity|Pestic. Sci.42:71-78|1994|10.1002/ps.2780420202
71056|T||Iftner,D.C., F.R. Hall, and M.M. Sturm|Effects of Residues of Fenvalerate and Permethrin on the Feeding Behaviour of Tetranychus urticae (Koch)|Pestic. Sci.17(3): 242-248|1986|10.1002/ps.2780170307
71057|T||Nolan,J., W.J. Roulston, and R.H. Wharton|Resistance to Synthetic Pyrethroids in a DDT-Resistant Strain of Boophilus microplus|Pestic. Sci.8:484-486|1977|10.1002/ps.2780080508
71058|T||Gerson,U., and A. Aronowitz|Spider Mite Webbing.  Part IV:  The Effect of Acaricides on Spinning by the Carmine Spider Mite Tetranychus cinnabarinus (Boisduval)|Pestic. Sci.12:211-214|1981|10.1002/ps.2780120214
71059|T||Cummings,J.G., K.T. Zee, V. Turner, F. Quinn, and R.E. Cook|Residues in Eggs from Low Level Feeding of Five Chlorinated Hydrocarbon Insecticides to Hens|J. AOAC Int.49(2): 354-364|1966|10.1093/jaoac/49.2.354
71060|A||Overmyer,J.P., K.L. Armbrust, and R. Noblet|Susceptibility of Black Fly Larvae (Diptera: Simuliidae) to Lawn-Care Insecticides Individually and as Mixtures|Environ. Toxicol. Chem.22(7): 1582-1588|2003|
71061|T||Lee,W.Y., W.A. Iannucci-Berger, B.D. Eitzer, J.C. White, and M.J.I. Mattina|Plant Uptake and Translocation of Air-Borne Chlordane and Comparison with the Soil-to-Plant Route|Chemosphere53(2): 111-121|2003|10.1016/S0045-6535(03)00353-9
71062|T||Das,A.C., A. Chakravarty, P. Sukul, and D. Mukherjee|Effect of HCH and Fenvalerate on Growth and Distribution of Microorganisms in Relation to Persistence of the Insecticides in the Rhizosphere Soils of Wetland Rice|Bull. Environ. Contam. Toxicol.70(5): 1059-1064|2003|10.1007/s00128-003-0090-5
71063|A||Overmyer,J.P., and R. Noblet|Influences of a Laboratory Diet and Natural Seston on the Bioavailability of Carbaryl, Chlorpyrifos, and Malathion to Black Fly Larvae (Diptera:  Simuliidae) in an Acute Toxicity Test|Arch. Environ. Contam. Toxicol.45(2): 209-215|2003|10.1007/s00244-003-0202-6
71064|T||Bleavins,M.R., R.J. Aulerich, and R.K. Ringer|Hexachlorobenzene-Induced Effects on the Lymphocyte Blastogenic Response to Concanavalin A in the Mink and European Ferret|Environ. Toxicol. Chem.2(4): 411-418|1983|
71065|T||Crum,J.A., S.J. Bursian, R.J. Aulerich, D. Polin, and W.E. Braselton|The Reproductive Effects of Dietary Heptachlor in Mink (Mustela vision)|Arch. Environ. Contam. Toxicol.24(2): 156-164|1993|10.1007/BF01141342
71066|T||Borgeest,C., D. Symonds, L.P. Mayer, P.B. Hoyer, and J.A. Flaws|Methoxychlor may Cause Ovarian Follicular Atresia and Proliferation of the Ovarian Epithelium in the Mouse|Toxicol. Sci.68(2): 473-478|2002|10.1093/toxsci/68.2.473
71067|T||Holene,E., I. Nafstad, J.U. Skaare, A. Bernhoft, P. Engen, and T. Sagvolden|Behavioral Effects of Pre- and Postnatal Exposure to Individual Polychlorinated Biphenyl Congeners in Rats|Environ. Toxicol. Chem.14(6): 967-976|1995|
71068|T||Kakela,A., R. Kakela, H. Hyvarinen, and P. Nieminen|Effects of Aroclor 1242 and Different Fish-Based Diets on Vitamins A1 (Retinol) and A2 (3,4-Didehydroretinol), and Their Fatty Acyl Esters in Mink Plasma|Environ. Res.91(2): 104-112|2003|10.1016/S0013-9351(02)00014-2
71069|T||Paton,N.D., A.H. Cantor, A.J. Pescatore, M.J. Ford, and C.A. Smith|The Effect of Dietary Selenium Source and Level on the Uptake of Selenium by Developing Chick Embryos|Poult. Sci.81(10): 1548-1554|2002|10.1093/ps/81.10.1548
71070|T||Palmer-Jones,T.|Laboratory Methods for Measuring the Toxicity of Pesticides to Honey Bees|N. Z. J. Agric. Res.1:290-300|1958|
71071|T||Quinn,M.A., R.L. Kepner, D.D. Walgenbach, R.A. Bohls, P.D. Pooler, R.N. Foster, K.C. Reuter, and J.L. Swain|Immediate and 2nd-Year Effects of Insecticide Spray and Bait Treatments on Populations of Rangeland Grasshoppers|Can. Entomol.121(7): 589-602|1989|10.4039/Ent121589-7
71073|T||Forsyth,F.R., and B. Peturson|Chemical Control of Cereal Rusts.  IV.  The Influence of Nickel Compounds on Wheat, Oat, and Sunflower Rusts in the Greenhouse|Phytopathology49:1-3|1959|
71074|T||Semel,M.|Control of the Corn Earworm Attacking Sweet Corn|J. Econ. Entomol.52(6): 1111-1114|1959|10.1093/jee/52.6.1111
71075|T||Wadhi,S.R.|Tolerance of Peach Saplings to Insecticidal Applications|Indian J. Entomol.23:137-141|1961|
71076|T||Agarwala,S.C., and A. Kumar|The Effect of Heavy Metal and Bicarbonate Excess on Sunflower Plants Grown in Sand Culture, with Special Reference to Catalase and Peroxidase|J. Indian Bot. Soc.41:77-92|1962|
71077|T||Tittle,F.L., J.S. Goudey, and M.S. Spencer|Effects of 2,4-Dichlorophenoxyacetic Acid on Endogenous Cyanide, beta-Cyanoalanine Synthase Activity, and Ethylene Evolution in Seedlings of Soybean and Barley|J. Plant Physiol.94:1143-1148|1990|10.1104/pp.94.3.1143
71078|T||Welch,R.M., and T.A. LaRue|Physiological Characteristics of Fe Accumulation in the 'Bronze' Mutant of Pisum sativum L., cv 'Sparkle' E107 (brz brz)|Plant Physiol.93:723-729|1990|10.1104/pp.93.2.723
71079|T||Krishnaswami,S.|Studies on the Insecticidal and Adverse Effects of D.D.T. and B.H.C. on Vegetables|Indian J. Entomol.16:271-281|1954|
71081|T||Sethunathan,N., S. Caballa, and M.D. Pathak|Absorption and Translocation of Diazinon by Rice Plants from Submerged Soils and Paddy Water and the Persistence of Residues in Plant Tissues|J. Econ. Entomol.64(3): 571-576|1971|10.1093/jee/64.3.571
71082|T||McDonald,L.L., and H.B. Gillenwater|Relative Toxicity of Bay 77488 and Dursban Against Stored-Product Insects|J. Econ. Entomol.60(5): 1195-1196|1967|10.1093/jee/60.5.1195
71083|T||Olney,C.E., W.E. Donaldson, and T.W. Kerr|Methoxychlor in Eggs and Chicken Tissues|J. Econ. Entomol.55(4): 477-479|1962|10.1093/jee/55.4.477
71084|T||Rodriguez,J.G., H.H. Chen, and W.T.,Jr. Smith|Effects of Soil Insecticides on Apple Trees and Resulting Effect on Mite Nutrition|J. Econ. Entomol.53(4): 487-490|1960|10.1093/jee/53.4.487
71085|T||Weigel,C.A., and G. Gilpin|Yield and Quality of Mushrooms from Beds Treated with Lindane|J. Econ. Entomol.53(4): 558-560|1960|10.1093/jee/53.4.558
71086|T||Hacskaylo,J., and A.L. Scales|Some Effects of Guthion Alone and in Combination with DDT and of a Dieldrin-DDT Mixture on Growth and Fruiting of the Cotton Plant|J. Econ. Entomol.52(3): 396-398|1959|10.1093/jee/52.3.396
71087|T||Shaw,F.R.|The Effects of Field Applications of Some of the Newer Pesticides on Honey Bees|J. Econ. Entomol.52(4): 549-550|1959|10.1093/jee/52.4.549
71088|T||Everly,R.T., and K.T. Payne|Effect of Pre-Seeding Insecticide Treatments of the Seed Bed on Red Clover Stands and Forage Yields|J. Econ. Entomol.52(6): 1145-1154|1959|10.1093/jee/52.6.1145
71089|T||Waites,R.E., and C.H. Van Middelem|Residue Studies of DDT and Malathion on Turnip Tops, Collards, Snap Beans and Lettuce|J. Econ. Entomol.51(3): 306-308|1958|10.1093/jee/51.3.306
71090|T||Mehlman,M.A., R.B. Tobin, B. Friend, and C.R. Mackerer|The Effects of a Polychlorinated Biphenyl Mixture (Aroclor 1254) on Liver Gluconeogenic Enzymes of Normal and Alloxan-Diabetic Rats|Toxicology5(1): 89-95|1975|10.1016/0300-483X(75)90073-6
71091|T||Apostol,K.G., J.J. Zwiazek, and M.D. MacKinnon|NaCl and Na2SO4 Alter Responses of Jack Pine (Pinus banksiana) Seedlings to Boron|Plant Soil240(2): 321-329|2002|10.1023/A:1015753128876
71092|T||Ashwell,C.M., and J.P. McMurtry|Hypoglycemia and Reduced Feed Intake in Broiler Chickens Treated with Metformin|Poult. Sci.82(1): 106-110|2003|10.1093/ps/82.1.106
71093|T||Nambiar,E.K.S.|Uptake of Zn65 Iron dry Soil by Plants|Plant Soil44:267-271|1976|10.1007/BF00016978
71094|T||Burger,J., T. Shukla, T. Benson, and M. Gochfeld|Lead Levels in Exposed Herring Gulls: Differences in the Field and Laboratory|Toxicol. Ind. Health13(2/3): 193-202|1997|10.1177/074823379701300206
71095|T||Rai,A.K., and V. Rai|Effect of NaCl on Growth, Nitrate Uptake and Reduction and Nitrogenase Activity of Azolla pinnata-Anabaena azollae|Plant Sci.164(1): 61-69|2003|10.1016/S0168-9452(02)00335-7
71096|T||Gouamene-Lamine,C.N., K.S. Yoon, and J.M. Clark|Differential Susceptibility to Abamectin and Two Bioactive Avermectin Analogs in Abamectin-Resistant and -Susceptible Strains of Colorado Potato Beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae)|Pestic. Biochem. Physiol.76(1): 15-23|2003|10.1016/S0048-3575(03)00053-1
71098|T||Ottesen,P.|The Mortality of Oedaleus senegalensis (Orthoptera) and Other Invertebrates in Mali Using Reduced Dosages of Fenitrothion|Rep.Univ.of Oslo, Inst.of Biol., Blidern,Norway:22 p.|1987|
71099|T||Free,E.E., and S.F. Trelease|The Effects of Certain Mineral Poisons on Young Wheat Plants in Three-Salt Nutrient Solutions|John Hopkins Univ. Circ.293:199-201|1917|
71100|T||Martinez-Toledo,M.V., V. Salmeron, and J. Gonzalez-Lopez|Effect of the Insecticides Methylpyrimifos and Chlorpyrifos on Soil Microflora in an Agricultural Loam|Plant Soil147(1): 25-30|1992|10.1007/BF00009367
71101|T||Alam,S., S. Kamei, and S. Kawai|Amelioration of Manganese Toxicity in Young Rice Seedlings with Potassium|J. Plant Nutr.26(6): 1301-1314|2003|10.1081/PLN-120020372
71102|T||Pathak,A.N., H. Shankar, and K.S. Awasthi|Effect of Some Pesticides on Available Nutrients and Soil Microflora|J. Indian Soc. Soil Sci.9:197-200|1961|
71103|T||Murray,D.S., W.L. Rieck, and J.Q. Lynd|Utilisation of Methylthio-s-Triazine for Growth of Soil Fungi|Appl. Microbiol.19:11-13|1970|10.1128/am.19.1.11-13.1970
71104|T||Hull,L.A., E.H. Beers, and R.L.,Jr. Meagher|Impact of Selective Use of the Synthetic Pyrethroid Fenvalerate on Apple Pests and Natural Enemies in Large-Orchard Trials|J. Econ. Entomol.78(1): 163-168|1985|10.1093/jee/78.1.163
71105|T||McDonald,S.|Oral Toxicity of 23 Insecticides to Grasshoppers in the Laboratory and the Influence of Species, Pretreatment, and Geographical Distribution|J. Econ. Entomol.60(3): 844-849|1967|10.1093/jee/60.3.844
71106|T||Lindgren,D.L., L.E. Vincent, and H.E. Krohne|Relative Effectiveness of Ten Fumigants to Adults of Eight Species of Stored-Product Insects|J. Econ. Entomol.47(5): 923-926|1954|10.1093/jee/47.5.923
71107|T||Hanna,R.L., and J.C. Gaines|Insecticidal Control of Grasshoppers|J. Econ. Entomol.45(1): 139-|1952|10.1093/jee/45.1.139
71108|T||Holmes,N.D., D.S. Smith, S. McDonald, G.E. Swailes, and L.K. Peterson|Evaluation of Three Alternative Insecticides for Control of Grasshoppers in Alberta|J. Econ. Entomol.58(1): 77-79|1965|10.1093/jee/58.1.77
71109|T||Gaines,J.C., and H.A. Dean|Comparison of Sprays and Dusts for Grasshopper Control|J. Econ. Entomol.42:956-959|1949|10.1093/jee/42.6.956
71110|T||Jaussan,V., T. Lemarchand-Beraud, and F. Gomez|Modifications of the Gonadal Function in the Adult Rat After Fetal Exposure to Spironolactone|Biol. Reprod.32(5): 1051-1061|1985|10.1095/biolreprod32.5.1051
71111|T||Olson,L.J., and R.D. Hinsdill|Influence of Feeding Chlorocholine Chloride and Glyphosine on Selected Immune Parameters in Deer Mice, Peromyscus maniculatus|Toxicology30(2): 103-114|1984|10.1016/0300-483X(84)90121-5
71113|T||Dodd,J.C., and P. Jeffries|Effect of Fungicides on Three Vesicular arbuscular Mycorrhizal Fungi Associated with Winter Wheat (Triticum aestivum L.)|Biol. Fertil. Soils7:120-128|1989|10.1007/BF00292569
71114|T||Pizzi,W.J., J.E. Barnhart, and D.J. Fanslow|Monosodium Glutamate Administration to the Newborn Reduces Reproductive Ability in Female and Male Mice|Science196:452-454|1977|10.1126/science.557837
71115|T||Meleney,W.P., and I.H. Roberts|Trials with Eight Acaricides Against Psoroptes ovis the Sheep Scabies Mite|In: J.G.Rodriguez (Ed.), Recent Advances in Acarology, Volume II, Academic, NY:95-101|1979|
71116|T||Singh,S.K., and R.S. Pandey|Effect of Sub-Chronic Endosulfan Exposures on Plasma Gonadrotrophins, Testosterone, Testicular Testosterone and Enzymes of Androgen Biosynthesis in Rat|Indian J. Exp. Biol.28:953-956|1990|
71119|T||Brown,L.C., G.W. Cathey, and C. Lincoln|Growth and Development of Cotton as Affected by Toxaphene - DDT, Methyl Parathion, and Calcium Arsenate|J. Econ. Entomol.55(3): 298-301|1962|10.1093/jee/55.3.298
71120|T||Todorov,M.T., and V.G. Golemansky|Effect of Pesticides Fundasol, Fuzamicin and Lavendotricin on the Growth of Laboratory Cultures of Protozoa|Acta Zool. Bulg.45:20-25|1992|
71121|T||Anand,S., and D.H. Van Thiel|Prenatal and Neonatal Exposure to Cimetidine Results in Gonadal and Sexual Dysfunction in Adult Males|Science218(4571): 493-494|1982|10.1126/science.7123252
71122|T||Dalterio,S., F. Badr, A. Bartke, and D. Mayfield|Cannabinoids in Male Mice:  Effects on Fertility and Spermatogenesis|Science216:315-316|1982|10.1126/science.6801767
71123|T||Dalterio,S., and A. Bartke|Perinatal Exposure to Cannabinoids Alters Male Reproductive Functions in Mice|Science205:1420-1422|1979|10.1126/science.472762
71124|T||Clark,J.H., and S. McCormack|Clomid or Nafoxidine Administered to Neonatal Rats Causes Reproductive Tract Abnormalities|Science197:164-165|1977|10.1126/science.877546
71125|T||Abdallah,M.D.|The Effect of Sublethal Dosages of DDT, Parathion and Dieldrin on Oviposition of the Colorado Potato Beetle, Leptinotarsa decemlineata Say|Bull. Entomol. Soc. Egypt2:211-217|1968|
71126|T||Hetrick,B.A.D., and G.W.T. Wilson|Effects of Mycorrhizal Fungus Species and Metalaxyl Application on Microbial Suppression of Mycorrhizal Symbiosis|Mycologia83(1): 97-102|1991|10.1080/00275514.1991.12025982
71127|T||Viswanathan,R., I. Scheunert, J. Kohli, W. Klein, and F. Korte|Long-Term Studies on the Fate of 3,4-Dichloroaniline-14C in a Plant-Soil-System Under Outdoor Conditions|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes13(3): 243-259|1978|
71129|T||McKee,M.J., and C.O. Knowles|Pharmacokinetics of Pyrethroids in Twospotted Spider Mites|Pestic. Biochem. Physiol.24:326-335|1985|10.1016/0048-3575(85)90143-9
71130|T||Bakke,J.L., N. Lawrence, J. Bennett, S. Robinson, and C.Y. Bowers|Late Endocrine Effects of Administering Monosodium Glutamate to Neonatal Rats|Neuroendocrinology26:220-228|1978|10.1159/000122829
71131|T||Clemens,L.G., T.V. Popham, and P.H. Ruppert|Neonatal Treatment of Hamsters with Barbiturate Alters Adult Sexual Behavior|Dev. Psychobiol.12(1): 49-59|1979|10.1002/dev.420120106
71133|T||Chakravarty,S., and P. Lahiri|Effect of Lindane on Eggshell Characteristics and Calcium Level in the Domestic Duck|Toxicology42(2-3): 245-258|1986|10.1016/0300-483X(86)90013-2
71134|T||Chakravarty,S., A. Mandal, and P. Lahiri|Effect of Lindane on Clutch Size and Level of Egg Yolk Protein in Domestic Duck|Toxicology39(1): 93-103|1986|10.1016/0300-483X(86)90162-9
71135|T||Hull,E.M.|Effects of Neonatal Exposure to Progesterone on Sexual Behavior of Male and Female Rats|Physiol. Behav.26:401-405|1981|10.1016/0031-9384(81)90166-9
71136|T||Dahlof,L.G., E. Hard, and K. Larsson|Sexual Differentiation of Offspring of Mothers Treated with Cortisone During Pregnancy|Physiol. Behav.21:673-674|1978|10.1016/0031-9384(78)90149-X
71137|T||Gilroy,A.F., and I.L. Ward|Effects of Perinatal Andostenedione on Sexual Behavior Differentiation in Male Rats|Behav. Biol.23:243-248|1978|10.1016/S0091-6773(78)91894-1
71138|T||Zaranyika,M.F., and P. Mugari|Uptake of Endosulphan and Lindane by Crickets (Orthoptera) Spiders (Arachnida), Grasshoppers (Orthoptera) and Beetles (Coleoptera), Following Application of the Pesticides for the Control of Soya Bean and Maize Pests Re|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(3): 485-494|1996|
71139|T||Metting,B., and W. Rayburn|The Effects of the Pre-Emergence Herbicide di-Allate and the Post-Emergence Herbicide MCPA on the Growth of Some Soil Algae|Phycologia18(3): 269-272|1979|10.2216/i0031-8884-18-3-269.1
71141|T||El-Ibrashy,M.T.|The Herbicide Eptam 6-E:  A Selective Female Chemosterilant for the Egyptian Cotton Leafworm, Spodoptera littoralis|Experientia27:808-809|1971|10.1007/BF02136878
71142|T||Chamness,G.C., G.A. Bannayan, L.A.,Jr. Landry, P.J. Sheridan, and W.L. McGuire|Abnormal Reproductive Development in Rats After Neonatally Administered Antiestrogen (Tamoxifen)|Biol. Reprod.21:1087-1090|1979|10.1095/biolreprod21.5.1087
71143|T||Kapetanakis,E.G., T.M. Warman, and J.E. Cranham|Effects of Permethrin Sprays on the Mite Fauna of Apple Orchards|Ann. Appl. Biol.108:21-32|1986|10.1111/j.1744-7348.1986.tb01962.x
71144|T||De Bertoldi,M., M. Giovannetti, M. Griselli, and A. Rambelli|Effects of Soil Applications of Benomyl and Captan on the Growth of Onions and the Occurrence of Endophytic Mycorrhizas and Rhizosphere Microbes|Ann. Appl. Biol.86:111-115|1977|10.1111/j.1744-7348.1977.tb01820.x
71145|T||Zeman,P., and J. Zelezny|The Susceptibility of the Poultry Red Mite, Dermanyssus gallinae (De Geer, 1778), to Some Acaricides Under Laboratory Conditions|Exp. Appl. Acarol.1:17-22|1985|10.1007/BF01262196
71146|T||Penman,D.R., and R.B. Chapman|Fenvalerate-Induced Distributional Imbalances of Two-Spotted Spider Mite on Bean Plants|Entomol. Exp. Appl.33:71-78|1983|10.1111/j.1570-7458.1983.tb03235.x
71147|T||Penman,D.R., R.B. Chapman, and K.E. Jesson|Effects of Fenvalerate and Azinphosmethyl on Two-Spotted Spider Mite and Phytoseiid Mites|Entomol. Exp. Appl.30:91-97|1981|10.1111/j.1570-7458.1981.tb03589.x
71148|T||Mellanby,K., R.A. French, and J. Riches|Herbicide Spray and Frit Fly Attack on Oats|Entomol. Exp. Appl.2:319-320|1959|10.1111/j.1570-7458.1959.tb00446.x
71149|T||Bird,G.W., J.R. Rich, and S.U. Glover|Increased Endomycorrhizae of Cotton Roots in Soil Treated with Nematicides|Phytopathology64:48-51|1974|10.1094/Phyto-64-48
71150|T||Lamperti,A.A., and D.M. Baldwin|Pituitary Responsiveness to LHRH Stimulation in Hamsters Treated Neonatally with Monosodium Glutamate|Neuroendocrinology34:169-174|1982|10.1159/000123296
71152|T||Herron,G., and J. Rophail|The Stability of Tebufenpyrad Resistance in Two-Spotted Spider Mite (Acari: Tetranychidae) Under Laboratory Conditions|Exp. Appl. Acarol.26(3-4): 253-256|2002|10.1023/A:1021186625123
71153|T||Perfus-Barbeoch,L., N. Leonhardt, A. Vavasseur, and C. Forestier|Heavy Metal Toxicity:  Cadmium Permeates Through Calcium Channels and Disturbs the Plant Water Status|Plant J.32(4): 539-548|2002|10.1046/j.1365-313X.2002.01442.x
71154|T||Castagnoli,M., G. Angeli, M. Liguori, D. Forti, and S. Simoni|Side Effects of Botanical Insecticides on Predatory Mite Amblyseius andersoni (Chant)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)75(5): 122-127|2002|10.1046/j.1472-8206.2002.02035.x
71155|T||Zsoldos,F., A. Vashegyi, A. Pecsvaradi, and L. Bona|Influence of Silicon on Aluminium Toxicity in Common and Durum Wheats|Agronomie (Multiple Languages)23(4): 349-354|2003|10.1051/agro:2003008
71156|T||Declerck,S., H.D. De Boulois, C. Bivort, and B. Delvaux|Extraradical Mycelium of the Arbuscular Mycorrhizal Fungus Glomus lamellosum Can Take up, Accumulate and Translocate Radiocaesium Under Root-Organ Culture Conditions|Environ. Microbiol.5(6): 510-516|2003|10.1046/j.1462-2920.2003.00445.x
71157|T||Ziogas,B.N., A.N. Markoglou, and A.A. Malandrakis|Studies on the Inherent Resistance Risk to Fenhexamid in Botrytis cinerea|Eur. J. Plant Pathol.109(4): 311-317|2003|10.1023/A:1023522213675
71158|T||Landjeva,S., M. Merakchijska-Nikolova, and G. Ganeva|Copper Toxicity Tolerance in Aegilops and Haynaldia Seedlings|Biol. Plant. (Praha)46(3): 479-480|2003|10.1023/A:1024371412689
71159|T||Baldrian,P., and J. Gabriel|Effect of Heavy Metals on the Growth of Selected Wood-Rotting Basidiomycetes|Folia Microbiol. (Prague)42(5): 521-523|1997|10.1007/BF02826566
71160|T||Eason,C.T., C. Svendsen, K. O'Halloran, and J.M. Weeks|An Assessment of the Lysosomal Neutral Red Retention Test and Immune Function Assay in Earthworms (Eisenia andrei) Following Exposure to Chlorpyrifos, Benzo-a-Pyrene (BaP), and Contaminated Soil|Pedobiologia (Multiple Languages)43(6): 641-645|1999|10.1016/S0031-4056(24)00592-4
71161|T||Boscolo,P.R.S., M. Menossi, and R.A. Jorge|Aluminum-Induced Oxidative Stress in Maize|Phytochemistry62(2): 181-189|2003|10.1016/S0031-9422(02)00491-0
71162|T||Booth,L.H., V. Heppelthwaite, and C.T. Eason|Cholinesterase and Glutathione S-Transferase in the Earthworm Aporrectodea caliginosa as Biomarkers of Organophosphate Exposure|Proc. N. Z. Plant Prot. Conf.51:138-142|1998|10.30843/nzpp.1998.51.11675
71163|T||Cook,C.M., A. Kostidou, E. Vardaka, and T. Lanaras|Effects of Copper on the Growth, Photosynthesis and Nutrient Concentrations of Phaseolus Plants|Photosynthetica (Praha)34(2): 179-193|1997|10.1023/A:1006832321946
71165|T||Botella,M.A., V. Martinez, J. Pardines, and A. Cerda|Salinity Induced Potassium Deficiency in Maize Plants|J. Plant Physiol.150(1-2): 200-205|1997|10.1016/S0176-1617(97)80203-9
71167|T||Murch,S.J., K. Haq, H.P. Vasantha Rupasinghe, and P.K. Saxena|Nickel Contamination Affects Growth and Secondary Metabolite Composition of St. John's Wort (Hypericum perforatum L.)|Environ. Exp. Bot.49(3): 251-257|2003|10.1016/S0098-8472(02)00090-4
71168|T||Bruwer,I.J., and A.S. Schoeman|Residual Toxicity of Four Citrus Insecticides in South Africa to the Scale Predator Chilocorus nigritus (Coleoptera:  Coccinellidae)|J. Econ. Entomol.81(4): 1178-1180|1988|10.1093/jee/81.4.1178
71169|T||Lieberman,F.V., G.E. Bohart, G.F. Knowlton, and W.P. Nye|Additional Studies on the Effect of Field Applications of Insecticides on Honey Bees|J. Econ. Entomol.47(2): 316-320|1954|10.1093/jee/47.2.316
71170|T||Ingram,J.W., E.K. Bynum, and L.J. Charpentier|Effect of 2,4-D on Sugarcane Borer|J. Econ. Entomol.40(5): 745-746|1947|10.1093/jee/40.5.745
71171|T||Johansen,C.A., M.D. Coffey, and J.A. Quist|Effect of Insecticide Treatments to Alfalfa on Honey Bees, Including Insecticidal Residue and Honey Flavor Analysis|J. Econ. Entomol.50(6): 721-723|1957|10.1093/jee/50.6.721
71172|T||Anderson,T.E., and D.W. Roberts|Compatibility of Beauveria bassiana Isolates with Insecticide Formulations Used in Colorado Potato Beetle (Coleoptera: Chrysomelidae) Control|J. Econ. Entomol.76(6): 1437-1441|1983|10.1093/jee/76.6.1437
71173|T||Pointis,G., M.T. Latreille, M.O. Richard, P.D. D'Athis, and L. Cedard|Effect of Maternal Progesterone Exposure on Fetal Testosterone in Mice|Biol. Neonate45:203-208|1984|10.1159/000242005
71174|T||Tapanainen,J., J. Penttinen, and I. Huhtaniemi|Effect of Progesterone Treatment on the Development and Function of Neonatal Rat Adrenals and Testes|Biol. Neonate36:290-297|1979|10.1159/000241242
71175|T||MacCuaig,R.D.|The Toxicity of Some Insecticidal Sprays to Adult Locusts|Bull. Entomol. Res.53:597-608|1963|10.1017/S0007485300048343
71176|T||Burger,J., and M. Gochfeld|Lead and Behavioral Development:  Effects of Varying Dosage and Schedule on Survival and Performance of Young Common Terns (Sterna hirundo)|J. Toxicol. Environ. Health24:173-182|1988|10.1080/15287398809531151
71177|T||Wu,F., G. Zhang, and P. Dominy|Four Barley Genotypes Respond Differently to Cadmium:  Lipid Peroxidation and Activities of Antioxidant Capacity|Environ. Exp. Bot.50(1): 67-78|2003|10.1016/S0098-8472(02)00113-2
71178|T||Rockett,J.C., R.J. Kavlock, C.R. Lambright, L.G. Parks, J.E. Schmid, V.S. Wilson, C. Wood, and D.J. Dix|DNA Arrays to Monitor Gene Expression in Rat Blood and Uterus Following 17beta-Estradiol Exposure:  Biomonitoring Environmental Effects Using Surrogate Tissues|Toxicol. Sci.69(1): 49-59|2002|10.1093/toxsci/69.1.49
71179|T||Cabral,J.P.|Copper Toxicity to Five Parmelia Lichens In Vitro|Environ. Exp. Bot.49(3): 237-250|2003|10.1016/S0098-8472(02)00087-4
71180|T||Mohan,M., and G.T. Gujar|Local Variation in Susceptibility of the Diamondback Moth, Plutella xylostella (Linnaeus) to Insecticides and Role of Detoxification Enzymes|Crop Prot.22(3): 495-504|2003|10.1016/S0261-2194(02)00201-6
71181|T||Parimi,S., L.J. Meinke, T.M. Nowatzki, L.D. Chandler, B.W. French, and B.D. Siegfried|Toxicity of Insecticide-Bait Mixtures to Insecticide Resistant and Susceptible Western Corn Rootworms (Coleoptera:  Chrysomelidae)|Crop Prot.22(5): 781-786|2003|10.1016/S0261-2194(03)00047-4
71182|T||Moyer,J.R., S.N. Acharya, Z. Mir, and R.C. Doram|Weed Management in Irrigated Fenugreek Grown for Forage in Rotation with Other Annual Crops|Can. J. Plant Sci.83(1): 181-188|2003|10.4141/P02-030
71183|T||Kramarz,P., and J.D. Stark|Population Level Effects of Cadmium and the Insecticide Imidacloprid to the Parasitoid, Aphidius ervi After Exposure Through Its Host, the Pea Aphid, Acyrthosiphon pisum (Harris)|Biol. Control27(3): 310-314|2003|10.1016/S1049-9644(03)00020-3
71184|T||Karabal,E., M. Yucel, and H.A. Oktem|Antioxidant Responses of Tolerant and Sensitive Barley Cultivars to Boron Toxicity|Plant Sci.164(6): 925-933|2003|10.1016/S0168-9452(03)00067-0
71185|T||Komori,T., S. Yamada, P.N. Myers, and H. Imaseki|Biphasic Response to Elevated Levels of NaCl in Nicotiana occidentalis Subspecies obliqua Burbidge|Plant Sci.165(1): 159-165|2003|10.1016/S0168-9452(03)00154-7
71186|T||Sgherri,C., E. Cosi, and F. Navari-Izzo|Phenols and Antioxidative Status of Raphanus sativus Grown in Copper Excess|Physiol. Plant. (Multiple Languages)118(1): 21-28|2003|10.1034/j.1399-3054.2003.00068.x
71187|T||Quartacci,M.F., E. Cosi, S. Meneguzzo, C. Sgherri, and F. Navari-Izzo|Uptake and Translocation of Copper in Brassicaceae|J. Plant Nutr.26(5): 1065-1083|2003|10.1081/PLN-120020076
71188|T||Strnad,M., and L. Kohout|A Simple Brassinolide Analogue 2alpha, 3alpha-Dihydroxy-17beta-(3-Methyl-Butyryloxy)-7-oxa-B-homo-5alpha-Androstan-6-One Which Induces Bean Second Internode Splitting|Plant Growth Regul.40(1): 39-47|2003|10.1023/A:1023091918892
71189|T||Pazurkiewicz-Kocot,K., W. Galas, and A. Kita|The Effect of Selenium on the Accumulation of Some Metals in Zea mays L. Plants Treated with Indole-3-Acetic Acid|Cell. Mol. Biol. Lett.8(1): 97-103|2003|
71190|T||Cumming,J.R., and J. Ning|Arbuscular Mycorrhizal Fungi Enhance Aluminium Resistance of Broomsedge (Andropogon virginicus L.)|J. Exp. Bot.54(386): 1447-1459|2003|10.1093/jxb/erg149
71191|T||Woodard,T.L., R.J. Thomas, and B. Xing|Potential for Phytoextraction of Cobalt by Tomato|Commun. Soil Sci. Plant Anal.34(5-6): 645-654|2003|10.1081/CSS-120018965
71192|T||Belai,I., and G. Fekete|Effects of Anti-Ecdysteroid Quaternary Derivatives of Azole Analogues of Metyrapone on the Post-Embryonic Development of the Red Cotton Bug (Dysdercus cingulatus F)|Pest Manag. Sci.59(4): 401-409|2003|10.1002/ps.646
71193|A||Pedersen,K.H., S.N. Pedersen, K.L. Pedersen, B. Korsgaard, and P. Bjerregaard|Estrogenic Effect of Dietary 4-tert-Octylphenol in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.62(4): 295-303|2003|10.1016/S0166-445X(02)00107-8
71194|A||Lalah,J.O., K.W. Schramm, G.F. Severin, D. Lenoir, B. Henkelmann, A. Behechti, K. Guenther, and A. Kettrup|In Vivo Metabolism and Organ Distribution of a Branched 14C-Nonylphenol Isomer in Pond Snails, Lymnaea stagnalis L.|Aquat. Toxicol.62(4): 305-319|2003|10.1016/S0166-445X(02)00106-6
71195|A||Werner,J., K. Wautier, R.E. Evans, C.L. Baron, K. Kidd, and V. Palace|Waterborne Ethynylestradiol Induces Vitellogenin and Alters Metallothionein Expression in Lake Trout (Salvelinus namaycush)|Aquat. Toxicol.62(4): 321-328|2003|10.1016/S0166-445X(02)00104-2
71196|A||Grzyb,K., M. Rychlowski, A. Biegniewska, and E.F. Skorkowski|Quantitative Determination of Creatine Kinase Release from Herring (Clupea harengus) Spermatozoa Induced by Tributyltin|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(2): 207-213|2003|10.1016/S1532-0456(02)00254-5
71197|A||Ikeda,K., and H. Yamada|Changes in Dietary Bioaccumulation of Tributyltin Chloride (TBTCl) in Red Sea Bream (Pagrus major) with the Concentration in Feed|Water Res.37(7): 1497-1504|2003|10.1016/S0043-1354(02)00521-3
71198|A||Carlson,D.B., L.R. Curtis, and D.E. Williams|Salmonid Sexual Development is not Consistently Altered by Embryonic Exposure to Endocrine-Active Chemicals|Environ. Health Perspect.108(3): 249-255|2000|10.1289/ehp.00108249
71199|A||Evanson,M., and G.J. Van der Kraak|Stimulatory Effects of Selected PAHs on Testosterone Production in Goldfish and Rainbow Trout and Possible Mechanisms of Action|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(2): 249-258|2001|10.1016/S1532-0456(01)00246-0
71201|A||Pillai,M.C., C.A. Vines, A.H. Wikramanayake, and G.N. Cherr|Polycyclic Aromatic Hydrocarbons Disrupt Axial Development in Sea Urchin Embryos Through a beta-Catenin Dependent Pathway|Toxicology186(1-2): 93-108|2003|10.1016/S0300-483X(02)00695-9
71202|A||Watanabe,M., K. Henmi, K. Ogawa, and T. Suzuki|Cadmium-Dependent Generation of Reactive Oxygen Species and Mitochondrial DNA Breaks in Photosynthetic and Non-photosynthetic Strains of Euglena gracilis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(2): 227-234|2003|10.1016/S1532-0456(02)00253-3
71203|A||Landrum,P.F., G.R. Lotufo, D.C. Gossiaux, M.L. Gedeon, and J.H. Lee|Bioaccumulation and Critical Body Residue of PAHs in the Amphipod, Diporeia spp.:  Additional Evidence to Support Toxicity Additivity for PAH Mixtures|Chemosphere51(6): 481-489|2003|10.1016/S0045-6535(02)00863-9
71204|A||Solem,L.E., R.C. Kolanczyk, and J.M. McKim III|An In Vivo Microdialysis Method for the Qualitative Analysis of Hepatic Phase I Metabolites of Phenol in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.62(4): 337-347|2003|10.1016/S0166-445X(02)00109-1
71205|A||Chan,P.K., and S.H. Cheng|Fractal Analysis of Vascular Complexity in Cadmium-Treated Zebrafish Embryos|Aquat. Toxicol.63(1): 83-87|2003|10.1016/S0166-445X(02)00203-5
71206|A||Glover,C.N., and C. Hogstrand|Effects of Dissolved Metals and Other Hydrominerals on In Vivo Intestinal Zinc Uptake in Freshwater Rainbow Trout|Aquat. Toxicol.62(4): 281-293|2003|10.1016/S0166-445X(02)00108-X
71207|A||Pane,E.F., J.G. Richards, and C.M. Wood|Acute Waterborne Nickel Toxicity in the Rainbow Trout (Oncorhynchus mykiss) Occurs by a Respiratory Rather than Ionoregulatory Mechanism|Aquat. Toxicol.63(1): 65-82|2003|10.1016/S0166-445X(02)00131-5
71208|A||Brown,R.J., S.D. Rundle, T.H. Hutchinson, T.D. Williams, and M.B. Jones|A Copepod Life-Cycle Test and Growth Model for Interpreting the Effects of Lindane|Aquat. Toxicol.63(1): 1-11|2003|10.1016/S0166-445X(02)00120-0
71209|A||Pawlik-Skowronska,B.|Resistance, Accumulation and Allocation of Zinc in Two Ecotypes of the Green Alga Stigeoclonium tenue Kutz. Coming from Habitats of Different Heavy Metal Concentrations|Aquat. Bot.75(3): 189-198|2003|10.1016/S0304-3770(02)00175-4
71210|A||Michailova,P., J. Ilkova, and K.N. White|Functional and Structural Rearrangements of Salivary Gland Polytene Chromosomes of Chironomus riparius Mg. (Diptera, Chironomidae) in Response to Freshly Neutralized Aluminium|Environ. Pollut.123(2): 193-207|2003|10.1016/S0269-7491(02)00405-0
71211|T||Campbell,J.|Herbicide Tolerance in Apples|Agric. Gaz. N. S. W.85(5): 14-16|1974|
71212|T||Vanninen,I., and H. Hokkanen|Effect of Pesticides on Four Species of Entomopathogenic Fungi In Vitro|Ann. Agric. Fenn.27(4): 345-353|1988|
71213|T||Abeles,A.L., and F.B. Abeles|Biochemical Pathway of Stress-Induced Ethylene|Plant Physiol.50(4): 496-498|1972|10.1104/pp.50.4.496
71214|T||Phetpradap,L., and J.G. Hampton|Herbicide Evaluation in China Aster Grown for Seed|Proc. N. Z. Weed Pest Control Conf.:300-303|1991|10.30843/nzpp.1991.44.10846
71215|T||Kumar,S., S.K. Pahwa, K. Promila, and H.R. Sharma|Effect of Simazine and Prometryne on the Growth and Nodulation of Chickpea (Cicer arietinum L.)|J. Agric. Sci.97(3): 663-668|1981|10.1017/S0021859600037023
71216|T||Rolston,M.P., and W.J. Archie|Herbicide Tolerance of Established Tall Fescue and Phalaris Seed Crops|Proc. N. Z. Weed Pest Control Conf.43:134-137|1990|10.30843/nzpp.1990.43.10920
71217|T||Rock,G.C., and D.R. Yeargan|Toxicity of Apple Orchard Herbicides and Growth-Regulating Chemicals to Neoseiulus fallacis and Twospotted Spider Mite|J. Econ. Entomol.66(6): 1342-1343|1973|10.1093/jee/66.6.1342a
71218|A||Grabinska-Sota,E., and J. Kalka|An Assessment of the Toxicity of Pyridinium Chlorides and Their Biodegradation Intermediates|Environ. Int.28(8): 687-690|2003|10.1016/S0160-4120(02)00112-5
71219|A||Pascoe,D., W. Karntanut, and C.T. Muller|Do Pharmaceuticals Affect Freshwater Invertebrates? A Study with the Cnidarian Hydra vulgaris|Chemosphere51(6): 521-528|2003|10.1016/S0045-6535(02)00860-3
71220|A||Baser,S., F. Erkoc, M. Selvi, and O. Kocak|Investigation of Acute Toxicity of Permethrin on Guppies Poecilia reticulata|Chemosphere51(6): 469-474|2003|10.1016/S0045-6535(03)00033-X
71221|A||Yakata,N., Y. Sudo, Y. Yakabe, H. Tadokoro, H. Fukui, K. Sanechika, and M. Ikeda|Unique Bioconcentration Characteristics of new Aryl Fluoroalkyl Ethers in Common Carp (Cyprinus carpio)|Chemosphere51(2): 153-161|2003|10.1016/S0045-6535(02)00706-3
71222|A||Hoff,P.T., W. Van Dongen, E.L. Esmans, R. Blust, and W.M. De Coen|Evaluation of the Toxicological Effects of Perfluorooctane Sulfonic Acid in the Common Carp (Cyprinus carpio)|Aquat. Toxicol.62(4): 349-359|2003|10.1016/S0166-445X(02)00145-5
71223|A||TenBrook,P.L., S.M. Kendall, M.R. Viant, and R.S. Tjeerdema|Toxicokinetics and Biotransformation of p-Nitrophenol in Red Abalone (Haliotis rufescens)|Aquat. Toxicol.62(4): 329-336|2003|10.1016/S0166-445X(02)00103-0
71224|A||Faust,M., R. Altenburger, T. Backhaus, H. Blanck, W. Boedeker, P. Gramatica, V. Hamer, M. Scholze, M. Vighi, and L.H. G|Joint Algal Toxicity of 16 Dissimilarly Acting Chemicals is Predictable by the Concept of Independent Action|Aquat. Toxicol.63(1): 43-63|2003|10.1016/S0166-445X(02)00133-9
71225|A||Sevatdal,S., and T.E. Horsberg|Determination of Reduced Sensitivity in Sea Lice (Lepeophtheirus salmonis Kroyer) Against the Pyrethroid Deltamethrin Using Bioassays and Probit Modelling|Aquaculture218(1-4): 21-31|2003|10.1016/S0044-8486(02)00339-3
71226|A||Czeczuga,B., and M. Gierasimow|Influence of Certain Pesticides on Microorganisms.  Influence of DDT on the Synthesis of the Particular Amino Acids in Chlorella vulgaris and Anabaena cylindrica|Bull. Acad. Pol. Sci. Ser. Sci. Biol.21(11): 751-757|1973|
71227|A||Reeve,M.R., J.C. Gamble, and M.A. Walter|Experimental Observations on the Effects of Copper on Copepods and Other Zooplankton: Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 92-104|1977|
71228|A||Saadi,A., M. Guerbet, and J. Garnier|Influence of Diethyldithiocarbamate on Cadmium and Copper Toxicity to Freshwater Macrophyte Spirodela polyrhiza|Water SA28(1): 107-110|2002|10.4314/wsa.v28i1.4874
71229|A||Jelaso,A.M., E. Lehigh-Shirey, A. Predenkiewicz, J. Means, and C.F. Ide|Aroclor 1254 Alters Morphology, Survival, and Gene Expression in Xenopus laevis Tadpoles|Environ. Mol. Mutagen.40(1): 24-35|2002|10.1002/em.10089
71230|A||Dunlap,K.D., M.L. McAnelly, and H.H. Zakon|Estrogen Modifies an Electrocommunication Signal by Altering the Electrocyte Sodium Current in an Electric Fish, Sternopygus|J. Neurosci.17(8): 2869-2875|1997|10.1523/JNEUROSCI.17-08-02869.1997
71231|A||Blazquez,M., S. Zanuy, M. Carrillo, and F. Piferrer|Structural and Functional Effects of Early Exposure to Estradiol-17beta and 17alpha-Ethynylestradiol on the Gonads of the Gonochoristic Teleost Dicentrarchus labrax|Fish Physiol. Biochem.18:37-47|1998|10.1023/A:1007736110663
71232|A||Van der Schalie,W.H.|The Toxicity of Guanidine Nitrate to Freshwater Aquatic Organisms|Tech.Rep.No.8504, U.S.Army Med.Bioeng.Res.and Dev.Lab., Frederick, MD:35 p.|1985|
71233|A||Bailey,H.C., R.J. Spanggord, H.S. Javitz, and D.H.W. Liu|Toxicity of TNT Wastewaters to Aquatic Organisms.  Volume IV.  Chronic Toxicity of 2,4-Dinitrotoluene and Condensate Water|Final Rep., U.S.Army Med.Res.and Dev.Command, SRI International, Menlo Park, CA:80 p.|1984|
71234|A||Querat,B., A. Hardy, and Y.A. Fontaine|Regulation of the Type-II Gonadotrophin alpha and beta Subunit mRNAs by Oestradiol and Testosterone in the European Eel|J. Mol. Endocrinol.7:81-86|1991|10.1677/jme.0.0070081
71235|A||Piferrer,F., S. Zanuy, M. Carrillo, I.I. Solar, R.H. Devlin, and E.M. Donaldson|Brief Treatment with an Aromatase Inhibitor During Sex Differentiation Causes Chromosomally Female Salmon to Develop as Normal, Functional Males|J. Exp. Zool.270:255-262|1994|10.1002/jez.1402700304
71236|AT||Power,R.S., H.E. David, M.H.A.Z. Mutwakil, K. Fletcher, C. Daniells, M.A. Nowell, J.L. Dennis, A. Martinelli, R. Wisema|Stress-Inducible Transgenic Nematodes as Biomonitors of Soil and Water Pollution|J. Biosci.23(4): 513-526|1998|10.1007/BF02936145
71237|A||Christiansen,T., B. Korsgaard, and A. Jespersen|Effects of Nonylphenol and 17 beta-Oestradiol on Vitellogenin Synthesis, Testicular Structure and Cytology in Male Eelpout Zoarces viviparus|J. Exp. Biol.201:179-192|1998|10.1242/jeb.201.2.179
71238|A||Anderson,M.J., H. Olsen, F. Matsumura, and D.E. Hinton|In Vivo Modulation of 17beta-Estradiol-Induced Vitellogenin Synthesis and Estrogen Receptor in Rainbow Trout (Oncorhynchus mykiss) Liver Cells by beta-Naphthoflavone|Toxicol. Appl. Pharmacol.137:210-218|1996|10.1006/taap.1996.0074
71239|A||Andersen,L., H. Holbech, A. Gessbo, L. Norrgren, and G.I. Petersen|Effects of Exposure to 17alpha-Ethinylestradiol During Early Development on Sexual Differentiation and Induction of Vitellogenin in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(3): 365-374|2003|10.1016/S1532-0456(03)00006-1
71240|A||Forlin,L., and C. Haux|Increased Excretion in the Bile of 17beta-[3H]Estradiol-Derived Radioactivity in Rainbow Trout Treated with beta-Naphthoflavone|Aquat. Toxicol.6(3): 197-208|1985|10.1016/0166-445X(85)90004-9
71241|T||Uthman,A., S. Rezaie, M. Dockal, J. Ban, J. Soltz-Szots, and E. Tschachler|Fluconazole Downregulates Metallothionein Expression and Increases Copper Cytotoxicity in Microsporum canis|Biochem. Biophys. Res. Commun.299(5): 688-692|2002|10.1016/S0006-291X(02)02724-9
71242|T||Mitich,L.W., M.L. Feyler, and T.E. Kearney|Chemical Control of Weeds in Grain Lupine|Proc. West. Soc. Weed Sci.42:226-232|1989|
71246|T||Chaudhury,S.K., G.N. Saha, D.K. Nath, and D.C. Bandyopadhyay|Effect of Carbofuran, Disulfoton, Benomyl and Brassicol on Nodulation of Mung|Sci. Cult.43:416-417|1977|
71257|T||Bowers,W.S., and F. Ortego|Evaluation of Juvenoid Insect Growth Regulators on Schistocerca americana|Insect Sci. Appl.12(1-3): 71-75|1991|
71271|T||Welshons,W.V., S.C. Nagel, K.A. Thayer, B.M. Judy, and F.S. Vom Saal|Low-Dose Bioactivity of Xenoestrogens in Animals:  Fetal Exposure to Low Doses of Methoxychlor and Other Xenoestrogens Increases Adult Prostate Size in Mice|Toxicol. Ind. Health15:12-25|1999|10.1191/074823399678846745
71272|T||Casto,J.M., and G.F. Ball|Early Administration of 17beta-Estradiol Partially Masculinizes Song Control Regions and alpha2-Adrenergic Receptor Distribution in European Starlings (Sturnus vulgaris)|Horm. Behav.30:387-406|1996|10.1006/hbeh.1996.0044
71273|T||Williams,T.D.|Parental and First Generation Effects of Exogenous 17beta-Estradiol on Reproductive Performance of Female Zebra Finches (Taeniopygia guttata)|Horm. Behav.35:135-143|1999|10.1006/hbeh.1998.1506
71275|T||Stoker,T.E., S.C. Laws, D.L. Guidici, and R.L. Cooper|The Effect of Atrazine on Puberty in Male Wistar Rats:  An Evaluation in the Protocol for the Assessment of Pubertal Development and Thyroid Function|Toxicol. Sci.58(1): 50-59|2000|10.1093/toxsci/58.1.50
71276|T||Zhou,T., D.G. Ross, M.J. DeVito, and K.M. Crofton|Effects of Short-Term In Vivo Exposure to Polybrominated Diphenyl Ethers on Thyroid Hormones and Hepatic Enzyme Activities in Weanling Rats|Toxicol. Sci.61(1): 76-82|2001|10.1093/toxsci/61.1.76
71277|T||Stoker,T.E., C.L. Robinette, and R.L. Cooper|Maternal Exposure to Atrazine During Lactation Suppresses Suckling-Induced Prolactin Release and Results in Prostatitis in the Adult Offspring|Toxicol. Sci.52(1): 68-79|1999|10.1093/toxsci/52.1.68
71278|T||Eroschenko,V.P., T.J. Johnson, and A.W. Rourke|Estradiol and Pesticide Methoxychlor do not Exhibit Additivity or Synergism in the Reproductive Tract of Adult Ovariectomized Mice|J. Toxicol. Environ. Health Part A60:407-421|2000|10.1080/00984100050033485
71280|T||Lenz,E.M., J.C. Lindon, J.K. Nicholson, J.M. Weeks, and D. Osborn|19F NMR Spectroscopic Investigation into the Absorption and Metabolism of 3-Trifluoromethylaniline in Eisenia veneta|Ecotoxicol. Environ. Saf.54(2): 157-168|2003|10.1016/S0147-6513(02)00049-0
71281|T||Zhu,Y.G., Y.Z. Huang, Y. Hu, and Y.X. Liu|Iodine Uptake by Spinach (Spinacia oleracea L.) Plants Grown in Solution Culture: Effects of Iodine Species and Solution Concentrations|Environ. Int.29(1): 33-37|2003|10.1016/S0160-4120(02)00129-0
71282|T||Katoh,Y., M. Maekawa, and Y. Sano|Mutagenicity of O-Diazoacetyl-L-Serine (Azaserine) and 6-Diazo-5-Oxo-L-Norleucine (DON) in a Soybean Test System|Mutat. Res.342(1-2): 37-41|1995|10.1016/0165-1218(95)90088-8
71283|T||Goudey-Perriere,F., F. Lemonnier, C. Perriere, F.Z. Dahmani, and Z. Wimmer|Is the Carbamate Juvenoid W-328 an Insect Growth Regulator for the Cockroach Blaberus craniifer Br. (Insecta, Dictyoptera)?|Pestic. Biochem. Physiol.75(1-2): 47-59|2003|10.1016/S0048-3575(03)00012-9
71284|T||Lehning,E.J., C.D. Balaban, J.F. Ross, and R.M. LoPachin|Acrylamide Neuropathy II. Spatiotemporal Characteristics of Nerve Cell Damage in Brainstem and Spinal Cord|Neurotoxicology24(1): 109-123|2003|10.1016/S0161-813X(02)00192-4
71285|T||Sakemi,K., R. Ito, T. Umemura, Y. Ohno, and M. Tsuda|Comparative Toxicokinetic/Toxicodynamic Study of Rubber Antioxidants, 2-Mercaptobenzimidazole and Its Methyl Substituted Derivatives, by Repeated Oral Administration in Rats|Arch. Toxicol.76(12): 682-691|2002|10.1007/s00204-002-0392-0
71286|T||El-Nahhal,Y.|Persistence, Mobility, Efficacy and Activity of Chloroacetanilide Herbicide Formulation Under Greenhouse and Field Experiments|Environ. Pollut.124(1): 33-38|2003|10.1016/S0269-7491(02)00431-1
71287|T||Guenzi,W.D., W.E. Beard, R.A. Bowman, and S.R. Olsen|Plant Uptake and Growth Responses from p-Chlorophenyl Methyl Sulfide, -Sulfoxide, and -Sulfone in Soil|J. Environ. Qual.10(4): 532-536|1981|10.2134/jeq1981.00472425001000040023x
71288|AT||Kuk,Y.I., O.D. Kwon, H.I. Jung, N.R. Burgos, and J.O. Guh|Cross-Resistance Pattern and Alternative Herbicides for Rotala indica Resistant to Imazosulfuron in Korea|Pestic. Biochem. Physiol.74(3): 129-138|2002|10.1016/S0048-3575(02)00155-4
71289|T||Kawahigashi,H., S. Hirose, E. Hayashi, H. Ohkawa, and Y. Ohkawa|Phytotoxicity and Metabolism of Ethofumesate in Transgenic Rice Plants Expressing the Human CYP2B6 Gene|Pestic. Biochem. Physiol.74(3): 139-147|2002|10.1016/S0048-3575(02)00153-0
71290|T||Jung,S.|Expression Level of Specific Isozymes of Maize Catalase Mutants Influences Other Antioxidants on Norflurazon-Induced Oxidative Stress|Pestic. Biochem. Physiol.75(1/2): 9-17|2003|10.1016/S0048-3575(03)00017-8
71291|T||Shim,S.I., B.M. Lee, E.I. Ryu, and B.H. Kang|Response of Leaf Acetolactate Synthase from Different Leaf Positions and Seedling Ages to Sulfonylurea Herbicide|Pestic. Biochem. Physiol.75(1-2): 39-46|2003|10.1016/S0048-3575(03)00016-6
71292|T||Tresch,S., and K. Grossmann|Quinclorac does not Inhibit Cellulose (Cell Wall) Biosynthesis in Sensitive Barnyard Grass and Maize Roots|Pestic. Biochem. Physiol.75(3): 73-78|2003|10.1016/S0048-3575(03)00013-0
71293|T||Smirle,M.J., D.T. Lowery, and C.L. Zurowski|Resistance and Cross-Resistance to Four Insecticides in Populations of Obliquebanded Leafroller (Lepidoptera:  Tortricidae)|J. Econ. Entomol.95(4): 820-825|2002|10.1603/0022-0493-95.4.820
71294|T||Fang,L., B. Subramanyam, and F.H. Arthur|Effectiveness of Spinosad on Four Classes of Wheat Against Five Stored-Product Insects|J. Econ. Entomol.95(3): 640-650|2002|10.1603/0022-0493-95.3.640
71295|T||Chakrabarti,N., and S. Mukherji|Effect of Phytohormone Pretreatment on Metabolic Changes in Vigna radiata Under Salt Stress|J. Environ. Biol.23(3): 295-300|2002|
71296|T||Jones,R.E., K.S. Howell, and R.K. Ringer|Effect of an Environmental Contaminant, Diisopropyl Methylphosphonate, on the Blood Pressure of the Mallard|Biomed. Environ. Sci.5:314-320|1992|
71297|T||Bowen,C., H.A. Melouk, K.E. Jackson, and M.E. Payton|Effect of a Select Group of Seed Protectant Fungicides on Growth of Sclerotinia minor In Vitro and Its Recovery from Infested Peanut Seed|Plant Dis.84(11): 1217-1220|2000|10.1094/PDIS.2000.84.11.1217
71298|T||Cox,K.D., and H. Scherm|Effect of Desiccants and Herbicides on Germination of Pseudosclerotia and Development of Apothecia of Monilinia vaccinii-corymbosi|Plant Dis.85(4): 436-441|2001|10.1094/PDIS.2001.85.4.436
71299|T||Deshmukh,V.A., and J.G. Shrikhande|Effect of Some Herbicides on Soil Microflora|J. Indian Soc. Soil Sci.22(4): 300-303|1974|
71300|T||James,T.K., and J.M. Follett|Herbicides for Weed Control in the Root Crops Ullucus tuberosus and Amorphophallus konjac|N. Z. Plant Prot.53:289-292|2000|10.30843/nzpp.2000.53.3710
71301|T||Wang,C.C., and J.S. Tsay|Accumulative Residual Effect and Toxicity of Some Persistent Herbicides in Multiple Cropping Areas|Guoli Taiwan Daxue14(1): 1-13|1973|
71302|T||Muthukrishnan,P., and S. Subramanian|A Note on the Residual Effect of Herbicides Applied to Maize|Madras Agric. J.67(10): 676-677|1980|
71304|T||Holt,H.A., S.H. Wickham, and J.R. Wichman|Forest Nursery Weed Control Results|Proc. Northeast. Weed Control Conf.30:175-177|1975|
71305|T||Paromienskaja,L.N.|Influence of Triazines on Rhizobium lupini and Their Relation with Plants|Rocz. Glebozn. (Multiple Languages)26(2): 131-135|1975|
71306|T||Quinlan,R.J., and A.G. Gatehouse|Characteristics and Implications of Knockdown of the Tsetse Fly Glossina morsitans morsitans Westw. by Deltamethrin|Pestic. Sci.12(4): 439-442|1981|10.1002/ps.2780120411
71307|T||Singh,G.J.P., and I. Orchard|Action of Bioresmethrin on the Corpus Cardiacum of Locusta migratoria|Pestic. Sci.14(3): 229-234|1983|10.1002/ps.2780140304
71308|T||Shipman,R.D., and T.J. Prunty|Effects of Herbicide Residues on Germination and Early Survival of Red Oak Acorns|Proc. Annu. Meet. Northeast. Weed Sci. Soc.42:86-91|1988|
71310|T||Mitchell,R.B., R.J. Abernethy, and J.A. McGimpsey|Herbicide Tolerance of Transplanted Dalmatian Sage and Oregano|Proc. N. Z. Plant Prot. Conf.48:327-330|1995|10.30843/nzpp.1995.48.11523
71311|T||Mukhopadhyay,S.K.|Effects of Herbicides and Insecticides Alone and Their Combinations on Soil Microflora|Indian J. Weed Sci.12(1): 53-60|1980|
71312|T||Scarponi,L., P. Perucci, and C. Marucchini|Effect of Alachlor, Metolachlor, Atrazine and Simazine Residues on Some Enzyme Activities of Maize Tissues|Agrochimica33(6): 403-411|1989|
71313|T||Crump,D.H., and B.R. Kerry|Effects of Some Agrochemicals on the Growth of Two Nematophagous Fungi, Verticillium chlamydosporium and Cylindrocarpon destructans|Nematologica32(3): 363-366|1986|10.1163/187529286X00453
71314|A||Tucker,C.S., and C.E. Boyd|Effects of Simazine Treatment on Channel Catfish and Bluegill Production in Ponds|Aquaculture15(4): 345-352|1978|10.1016/0044-8486(78)90080-7
71316|T||Chamber,M.A., and F.J. Montes|Effects of Some Seeds Disinfectants and Methods of Rhizobial Inoculation on Soybeans (Glycine max L. Merrill)|Plant Soil66(3): 353-360|1982|10.1007/BF02183801
71317|T||Nene,Y.L., and S.C. Saxena|Influence of Storing Fungicide-Treated Wheat Seed on Germination|Pesticides 5(11): 14-15|1971|
71318|T||Sharma,P.B., M.S. Saimbhi, and B.N. Sharma|Influence of Herbicides on the Chemical Composition of Radish (Raphanus sativus L.) Roots|Qual. Plant. Plant Foods Hum. Nutr.25(3/4): 375-379|1976|10.1007/BF02590312
71319|T||Edwards,C.A.|Effects of Herbicides on Soil and Surface-Inhabiting Invertebrates|Br. Crop Prot. Conf. Weeds1:133-138|1993|
71321|T||Wardlow,L.R., F.A.B. Ludlam, and R.P. Hammon|A Comparison of the Effectiveness of Insecticides Against Glasshouse Whitefly (Trialeurodes vaporariorum)|Ann. Appl. Biol.81:433-435|1975|10.1111/j.1744-7348.1975.tb01662.x
71323|T||Shirsat,A.M., and U.V. Kale|Effect of Fungicidal Seed Treatment on Germination and Seedling Vigour of Chickpea (Cicer arietinum L.)|Trop. Grain Legume Bull.16:29-32|1979|
71324|A||Sarojini,R., R. Nagabhushanam, and M. Fingerman|A Possible Neurotransmitter-Neuroendocrine Mechanism in Naphthalene-Induced Atresia of the Ovary of the Red Swamp Crayfish, Procambarus clarkii|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.108(1): 33-38|1994|
71325|A||Ellis,J., E. Higgins, S. Pruss, and J. Norton|Management of Aquatic Vegetation with Simazine|Proc. Annu. Meet. Northeast. Weed Sci. Soc.30:86-91|1976|
71326|A||Van,T.K.|Integrated Control of Waterhyacinth with Neochetina and Paclobutrazol|J. Aquat. Plant Manag.26:59-61|1988|
71327|A||Bisen,P.S., and S. Shanthy|Characterization of a DCMU-Resistant Mutant of the Filamentous, Diazotrophic Cyanobacterium Anabaena doliolum|J. Plant Physiol.142:557-563|1993|10.1016/S0176-1617(11)80398-6
71328|A||Palaniappan,P.L.R.M., G. Jagadeesan, N. Krishnakumar, and P. Venkatachalam|Spectroscopic Analysis of the Accumulation of Mercury and the Influence of EDTA in Fresh Water Fish, Labeo rohita (Ham.)|J. Curr. Sci.2(1): 11-14|2002|
71329|A||Quaglio,F., J. Malvisi, M. Maxia, C. Morolli, G. Della Rocca, and A. Di Salvo|Toxicity of the Synthetic Pyrethroid Ciflutrin to the Red Swamp Crayfish (Procambarus clarkii)|Freshw. Crayfish13:431-436|2001|
71330|A||Chou,H.Y., T.Y. Peng, S.J. Chang, Y.L. Hsu, and J.L. Wu|Effect of Heavy Metal Stressors and Salinity Shock on the Susceptibility of Grouper (Epinephelus sp.) to Infectious Pancreatic Necrosis Virus|Virus Res.63(1-2): 121-129|1999|10.1016/S0168-1702(99)00065-9
71331|A||Dang,Z., R.A.C. Lock, G. Flik, and S.E. Wendelaar Bonga|Metallothionein Response in Gills of Oreochromis mossambicus Exposed to Copper in Fresh Water|Am. J. Physiol., Regul. Integr. Comp. Physiol.277(1, Pt. 2): R320 - R331|1999|10.1152/ajpregu.1999.277.1.R320
71332|A||St.Jean,S.D., E. Pelletier, and S.C. Courtenay|Hemocyte Functions and Bacterial Clearance Affected In Vivo by TBT and DBT in the Blue Mussel Mytilus edulis|Mar. Ecol. Prog. Ser.236:163-178|2002|10.3354/meps236163
71333|A||Sures,B., and R. Siddall|Pomphorhynchus laevis (Palaeacanthocephala) in the Intestine of Chub (Leuciscus cephalus) as an Indicator of Metal Pollution|Int. J. Parasitol.33(1): 65-70|2003|10.1016/S0020-7519(02)00249-7
71334|A||Lovell,C.R., N.T. Eriksen, A.J. Lewitus, and Y.P. Chen|Resistance of the Marine Diatom Thalassiosira sp. to Toxicity of Phenolic Compounds|Mar. Ecol. Prog. Ser.229:11-18|2002|10.3354/meps229011
71335|A||Wibe,A.E., A. Billing, G. Rosenqvist, and B.M. Jenssen|Butyl Benzyl Phthalate Affects Shoaling Behavior and Bottom-Dwelling Behavior in Threespine Stickleback|Environ. Res.89(2): 180-187|2002|10.1006/enrs.2002.4360
71336|A||Fournie,J.W., and W.E. Hawkins|Exocrine Pancreatic Carcinogenesis in the Guppy Poecilia reticulata|Dis. Aquat. Org.52(3): 191-198|2002|10.3354/dao052191
71337|A||Nemcsok,J., and I. Benedeczky|Pesticide Metabolism and the Adverse Effects of Metabolites on Fishes|In: P.W.Hochachka and T.P.Mommsen (Eds.), Biochemistry and Molecular Biology of Fishes, Chapter 16, Elsevier Sci.Publ., Amsterdam, Netherlands5:313-348|1995|
71338|A||Robert,R., and E. His|The Effects of Tributyltin Acetate on the Eggs and Larvae of the Two Commercially Important Molluscs Crassostrea gigas (Thurberg) and Mytilus galloprovincialis (Link) (Action de l'Acetate de Tributyle-etain sur les Oeuf|Int.Counc.Explor.Sea, Maricult.Committee F:42:16 p.|1981|
71339|A||Muschamp,J.W., and P.P. Fong|Effects of the Serotonin Receptor Ligand Methiothepin on Reproductive Behavior of the Freshwater Snail Biomphalaria glabrata:  Reduction of Egg Laying and Induction of Penile Erection|J. Exp. Zool.289:202-207|2001|10.1002/1097-010X(20010215)289:3<202::AID-JEZ7>3.0.CO;2-B
71340|A||Redding,J.M., R. Patino, and C.B. Shreck|Cortisol Effects on Plasma Electrolytes and Thyroid Hormones During Smoltification in Coho Salmon Oncorhynchus kisutch|Gen. Comp. Endocrinol.81:373-382|1991|10.1016/0016-6480(91)90164-2
71341|T||Mishra,D., and M. Kar|Effect of Benzimidazole and Nickel Ions in the Control of Oryza sativa Leaf Senescence by Red and Far-Red Light|Phytochemistry12:1521-1522|1973|10.1016/0031-9422(73)80360-7
71342|T||Misawa,N., S. Yamano, H. Linden, M.R. De Felipe, M. Lucas, H. Ikenaga, and G. Sandmann|Functional Expression of the Erwinia uredovora Carotenoid Biosynthesis Gene crtl in Transgenic Plants Showing an Increase of beta-Carotene Biosynthesis Activity and Resistance to the Bleaching Herbicide Norflurazon|Plant J.4(5): 833-840|1993|10.1046/j.1365-313X.1993.04050833.x
71343|T||Chamberlain,K., G.G. Briggs, R.H. Bromilow, A.A. Evans, and C.Q. Fang|The Influence of Physico-Chemical Properties of Pesticides on Uptake and Translocation Following Foliar Application|Asp. Appl. Biol.14:293-304|1987|
71344|T||Misawa,N., K. Masamoto, T. Hori, T. Ohtani, P. Boger, and G. Sandmann|Expression of an Erwinia Phytoene Desaturase Gene not only Confers Multiple Resistance to Herbicides Interfering with Carotenoid Biosynthesis but also Alters Xanthophyll Metabolism in Transgenic Plants|Plant J.6(4): 481-489|1994|10.1046/j.1365-313X.1994.6040481.x
71345|T||Newbold,R.R., B.C. Bullock, and J.A. McLachlan|Uterine Adenocarcinoma in Mice Following Developmental Treatment with Estrogens: A Model for Hormonal Carcinogenesis|Cancer Res.50:7677-7681|1990|
71346|T||Innes,J.R.M., B.M. Ulland, M.G. Valerio, L. Petrucelli, L. Fishbein, E.R. Hart, A.J. Pallotta, R.R. Bates, H.L. Falk, J|Bioassay of Pesticides and Industrial Chemicals for Tumorigenicity in Mice: A Preliminary Note|J. Natl. Cancer Inst.42:1101-1114|1969|
71347|T||Wardlow,L.R., F.A.B. Ludlam, and N. French|Insecticide Resistance in Glasshouse Whitefly|Nature239(5368): 164-165|1972|10.1038/239164a0
71348|T||Blickenstaff,C.C., and F.E. Skoog|Insecticides Tested Versus Grasshoppers:  Correlations Between Results of Ground and Aerial Applications|J. Econ. Entomol.67(1): 127-129|1974|10.1093/jee/67.1.127
71349|T||Sheehan,D.M., E. Willingham, D. Gaylor, J.M. Bergeron, and D. Crews|No Threshold Dose for Estradiol-Induced Sex Reversal of Turtle Embryos:  How Little is too Much?|Environ. Health Perspect.107(2): 155-159|1999|10.1289/ehp.99107155
71350|T||Jain,K.K., J.P. Tewari, and C.R. Bisen|Effect of Herbicides on Control of Phalaris minor and Yield of Safflower|Indian J. Weed Sci.17(1): 43-46|1985|
71351|T||Pandey,J., and S.J. Singh|Effect of Herbicides on Phalaris minor, Avena fatua and Yield of Wheat|Indian J. Weed Sci.16(3): 190-193|1984|
71352|T||Gould,C.J., R.L. Goss, and V.L. Miller|Effect of Fungicides and Other Materials on Control of Ophiobolus Patch Disease on Bentgrass|J. Sports Turf Res. Inst.42(11): 41-48|1966|
71353|T||Cellier,K.M., and C.G. Stephens|Effect of Weed Control and Fertilizer Placement on the Establishment and Early Growth of Pinus radiata in Southern Australia|Aust.For.Res.10:361-369|1980|
71355|T||Taylor,R.N.|Insecticide Resistance in Houseflies from the Middle East and North Africa with Notes on the Use of Various Bioassay Techniques|Pestic. Sci.13:415-425|1982|10.1002/ps.2780130412
71356|A||St.Jean,S.D., E. Pelletier, and S.C. Courtenay|Very Low Levels of Waterborne Butyltins Modulate Hemocyte Function in the Blue Mussel Mytilus edulis|Mar. Ecol. Prog. Ser.236:155-161|2002|10.3354/meps236155
71357|T||Platt,D.S., and B.L. Cockrill|Biochemical Changes in Rat Liver in Response to Treatment with Drugs and Other Agents - I. Effects of Anticonvulsant, Anti-Inflammatory, Hypocholestrolaemic and Adrenergic beta-Blocking Agents|Biochem. Pharmacol.18:429-444|1969|10.1016/0006-2952(69)90220-2
71358|T||Elliott,M.L.|Comparison of Rhizoctonia zeae Isolates from Florida and Ohio Turfgrasses|Hortscience34(2): 298-300|1999|10.21273/HORTSCI.34.2.298
71359|A||Hofstra,D.E., J.S. Clayton, and K.D. Getsinger|Evaluation of Selected Herbicides for the Control of Exotic Submerged Weeds in New Zealand:  II.  The Effects of Turbidity on Diquat and Endothall Efficacy|J. Aquat. Plant Manag.39:25-27|2001|
71360|T||Rettich,F.|Contact Toxicity of Some Organophosphates, Carbamates and Pyrethroids to Hibernating Females of Culex pipiens pipiens|Acta Entomol. Bohemoslov.79(2): 123-126|1982|
71361|A||Pennington,T.G., J.G. Skogerboe, and K.D. Getsinger|Herbicide/Copper Combinations for Improved Control of Hydrilla verticillata|J. Aquat. Plant Manag.39:56-58|2001|
71362|T||Stover,E., M. Fargione, R. Risio, and X. Yang|Crop Load Reduction and Fruit Size Following Multi-Step Thinning of 'Empire' Apple|Hortscience37(1): 130-133|2002|10.21273/HORTSCI.37.1.130
71363|T||Vos,J.G., and E.I. Krajnc|Immunotoxicity of Pesticides|Dev. Toxicol. Environ. Sci.11:229-240|1983|
71364|AT||Lamoureux,G.L., and D.G. Rusness|Catabolism of Glutathione Conjugates of Pesticides in Higher Plants|ACS Symp. Ser.158:133-164|1981|10.1021/bk-1981-0158.ch009
71365|T||Badr,A.|Cytogenetic Activities of a Triazine Herbicide in Root Tips of Allium cepa and Vicia faba|Mutat. Res.117(1-2): 173-182|1983|10.1016/0165-1218(83)90165-9
71366|AT||Zimmerman,R.J., and W.S. Cranshaw|Compatibility of Three Entomogenous Nematodes (Rhabditida) in Aqueous Solutions of Pesticides Used in Turfgrass Maintenance|J. Econ. Entomol.83(1): 97-100|1990|10.1093/jee/83.1.97
71367|T||Kelly,S.T., G.E. Coats, and D.S. Luthe|Mode of Resistance of Triazine-Resistant Annual Bluegrass (Poa annua)|Weed Technol.13(4): 747-752|1999|10.1017/S0890037X00042172
71368|T||Singh Tanwar,R.D., and R.S. Mehrotra|Effect of Brassicol, Benlate, Ceresan, Difolatan, and Thiram on Rhizosphere Microflora of Cicer arietinum L. (Chick Pea)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.55(2): 36-41|1985|
71369|T||Sharpe,S.S., R. Dickens, and D.L. Turner|Herbicide Effects on Tensile Strength and Rooting of Bermudagrass (Cynodon dactylon) Sod|Weed Technol.3(2): 353-357|1989|10.1017/S0890037X00031948
71370|T||Denholm,I., A.W. Farnham, K. O'Dell, and R.M. Sawicki|Factors Affecting Resistance to Insecticides in House-Flies, Musca domestica L. (Diptera:  Muscidae).  I.  Long-Term Control with Bioresmethrin of Flies with Strong Pyrethroid-Resistance Potential|Bull. Entomol. Res.73(3): 481-489|1983|10.1017/S000748530000910X
71371|T||Shafiqur Rahman,A.S.M., and R.M. Wilkins|Environmental Interactions of Pesticides:  Synergism of Methomyl by Simazine Against the House Fly, Musca domestica L.|Entomon26(1): 91-95|2001|
71372|T||Minton,E.B.|Effects of Fungicide and Insecticide Seed Treatments on Germination, Stand, and Development of Cotton Seedlings|Crop Sci.12(2): 189-190|1972|10.2135/cropsci1972.0011183X001200020010x
71373|T||Williams,M.W., S.A. Bound, J. Hughes, and S. Tustin|Endothall:  A Blossom Thinner for Apples|HortTechnology5(3): 257-259|1995|10.21273/HORTTECH.5.3.257
71374|T||Fallahi,E.|Applications of Endothalic Acid, Pelargonic Acid, and Hydrogen Cyanamide for Blossom Thinning in Apple and Peach|HortTechnology7(4): 395-399|1997|10.21273/HORTTECH.7.4.395
71375|T||Johnson,B.J.|Effect of Activated Charcoal on Herbicide Injury During Establishment of Centipedegrass|Agron. J.68(5): 802-805|1976|10.2134/agronj1976.00021962006800050029x
71376|A||Gaunt,P., and S.A. Barker|Matrix Solid Phase Dispersion Extraction of Triazines from Catfish Tissues; Examination of the Effects of Temperature and Dissolved Oxygen on the Toxicity of Atrazine|Int. J. Environ. Pollut.13(1-6): 284-312|2000|10.1504/IJEP.2000.002320
71377|T||El-Giahmi,A.A., T.H. Nicolson, and M.J. Daft|Effects of Fungal Toxicants on Mycorrhizal Maize|Trans. Br. Mycol. Soc.67(1): 172-173|1976|10.1016/S0007-1536(76)80034-4
71378|A||Gebefugi,I., J.P. Lay, and F. Korte|Influence of Environmental Chemicals in the Aquatic Environment|NBS Special Publication740:31-39|1988|
71379|A||Netherland,M.D., J.D. Skogerboe, C.S. Owens, and J.D. Madsen|Influence of Water Temperature on the Efficacy of Diquat and Endothall Versus Curlyleaf Pondweed|J. Aquat. Plant Manag.38:25-32|2000|
71380|T||Konstantinovic,B., and M. Meseldzija|Determination of Resistant Biotypes of Amaranthus retroflexus L. on Triazines|Meded. Fac. Landbouwwet. Rijksuniv. Gent66(2b): 769-774|2001|
71381|A||Nelson,L.S., J.G. Skogerboe, and K.D. Getsinger|Herbicide Evaluation Against Giant Salvinia|J. Aquat. Plant Manag.39:48-53|2001|
71382|T||De Nardo,E.A.B., and P.S. Grewal|Compatibility of Steinernema feltiae (Nematoda: Steinernematidae) with Pesticides and Plant Growth Regulators Used in Glasshouse Plant Production|Biocontrol Sci. Technol.13(4): 441-448|2003|10.1080/0958315031000124495
71385|T||Chadwick,P.R.|The Activity of Some Pyrethroids Against Periplaneta americana and Blattella germanica|Pestic. Sci.10:32-38|1979|10.1002/ps.2780100105
71387|T||Dittrich,V., D. Gisin, and I. Studer|Chlordimeform Tested for Synergism with 2 Pyrethroids and Monocrotophos in Resistant and Sensitive Strains of the Noctuid Spodoptera littoralis (Boisd.) (Lep., Noctuidae)|Z. Angew. Entomol. (Multiple Languages)92(5): 499-504|1981|10.1111/j.1439-0418.1981.tb01702.x
71388|T||De Prado,R., N. Lopez-Martinez, and J. Gonzalez-Gutierrez|Identification of Two Mechanisms of Atrazine Resistance in Setaria faberi and Setaria viridis Biotypes|Pestic. Biochem. Physiol.67(2): 114-124|2000|10.1006/pest.2000.2484
71389|T||Staphorst,J.L., and B.W. Strijdom|Effects on Rhizobia of Fungicides Applied to Legume Seed|Phytophylactica8(2): 47-54|1976|
71390|T||Walker,A., and P.A. Brown|Crop Responses to Low Doses of Herbicides in the Soil|Br. Crop Prot. Conf. Weeds15(2): 609-616|1980|
71392|T||Indyk,F.|The Effect of Herbicides on the Effectivity of Hen Hatching|Zool. Pol.36(1-4): 33-61|1993|
71393|T||Attia,F.I., and T. Frecker|Cross-Resistance Spectrum and Synergism Studies in Organophosphorus-Resistant Strains of Oryzaephilus surinamensis (L.) (Coleoptera:  Cucugidae) in Australia|J. Econ. Entomol.77(6): 1367-1370|1984|10.1093/jee/77.6.1367
71394|T||Simmon,V.F., A.D. Mitchell, and T.A. Jorgenson|Evaluation of Selected Pesticides as Chemical Mutagens: In Vitro and In Vivo Studies|EPA-600/1-77-028, U.S.EPA, Research Triangle Park, NC:238 p.|1977|
71395|T||De Vries,D.H., and G.P. Georghiou|Decreased Nerve Sensitivity and Decreased Cuticular Penetration as Mechanisms of Resistance to Pyrethroids in a (1R)-trans-Permethrin-Selected Strain of the House Fly|Pestic. Biochem. Physiol.15(3): 234-241|1981|10.1016/0048-3575(81)90005-5
71397|T||Somashekar,R.K., and K.P. Sreenath|Comparative Toxicity of Heavy Metals to Some Fungi|Geobios (Jodhpur)15(4): 157-160|1988|
71398|T||Sarhan,A.R.T., and T.K. Jalal|The Effect of Some Heavy Metals on Leaf Spot Disease Expression in Barley Plants|J. Univ. Kuwait Sci.16(1): 129-134|1989|
71399|T||Nectoux,M., M. Bounias, and D. Popeskovic|Toxicology of Cupric Salts on Honeybees IV-Gluconate and Sulfate Action on Hemolymph Trehalose Activity In Vivo and In Vitro|J. Biochem. Toxicol.10(2): 79-86|1995|10.1002/jbt.2570100204
71400|T||Riceman,D.S., and G.B. Jones|Distribution of Zinc and Copper in Subterranean Clover (Trifolium subterraneum L.) Grown in Culture Solutions Supplied with Graduated Amounts of Zinc|Aust. J. Agric. Res.9:73-122|1958|10.1071/AR9580073
71401|T||Stiborova,M., M. Ditrichova, and A. Brezinova|Effect of Heavy Metal Ions on Growth and Biochemical Characteristics of Photosynthesis of Barley and Maize Seedlings|Biol. Plant. (Praha)29(6): 453-467|1987|10.1007/BF02882221
71402|T||Culvenor,R.A., R.N. Oram, and C. Fazekas de St Groth|Variation in Tolerance in Phalaris aquatica L. and a Related Species to Aluminium in Nutrient Solution and Soil|Aust. J. Agric. Res.37(4): 383-395|1986|10.1071/AR9860383
71403|T||Karel,A.K., and S.C. Saxena|Investigation on the Acute Toxic Effect of Chlordane on the Serum Proteins of Meriones hurrianae Jerdon|Arch. Int. Physiol. Biochim.83(2): 287-292|1975|10.3109/13813457509081873
71404|T||Riceman,D.S., and G.B. Jones|Distribution of Zinc in Subterranean Clover (Trifolium subterraneum L.) Grown to Maturity in a Culture Solution Containing Zinc Labelled with the Radioactive Isotope 65Zn|Aust. J. Agric. Res.9:730-744|1958|10.1071/AR9580730
71405|T||Shi,J., J. Guo, and H. Chen|Dynamics of 95Zr in the Rice/Water/Soil System|Appl. Radiat. Isot.56(5): 735-740|2002|10.1016/S0969-8043(01)00257-3
71406|T||Patsikka,E., E.M. Aro, and E. Tyystjarvi|Increase in the Quantum Yield of Photoinhibition Contributes to Copper Toxicity In Vivo|Plant Physiol. (Rockville)117(2): 619-627|1998|10.1104/pp.117.2.619
71407|T||White,J.C., M.J.I. Mattina, W.Y. Lee, B.D. Eitzer, and W. Iannucci-Berger|Role of Organic Acids in Enhancing the Desorption and Uptake of Weathered p,p'-DDE by Cucurbita pepo|Environ. Pollut.124(1): 71-80|2003|10.1016/S0269-7491(02)00409-8
71408|T||Vijver,M., T. Jager, L. Posthuma, and W. Peijnenburg|Metal Uptake from Soils and Soil-Sediment Mixtures by Larvae of Tenebrio molitor (L.) (Coleoptera)|Ecotoxicol. Environ. Saf.54(3): 277-289|2003|10.1016/S0147-6513(02)00027-1
71409|T||Ribeiro,B.M., R.N.C. Guedes, E.E. Oliveira, and J.P. Santos|Insecticide Resistance and Synergism in Brazilian Populations of Sitophilus zeamais (Coleoptera: Curculionidae)|J. Stored Prod. Res.39(1): 21-31|2003|10.1016/S0022-474X(02)00014-0
71410|AT||Nikkila,A., A. Halme, and J.V.K. Kukkonen|Toxicokinetics, Toxicity and Lethal Body Residues of Two Chlorophenols in the Oligochaete Worm, Lumbriculus variegatus, in Different Sediments|Chemosphere51(1): 35-46|2003|10.1016/S0045-6535(02)00791-9
71411|AT||Wang,S.Q., D.M. Zhou, Y.J. Wang, and H.M. Chen|Effect of o-Phenylenediamine on Cu Adsorption and Desorption in Red Soil and Its Uptake by Paddy Rice (Oryza sativa)|Chemosphere51(2): 77-83|2003|10.1016/S0045-6535(02)00816-0
71412|T||Kafel,A., K. Bednarska, M. Augustyniak, I. Witas, and E. Szulinska|Activity of Glutathione S-Transferase in Spodoptera exigua Larvae Exposed to Cadmium and Zinc in Two Subsequent Generations|Environ. Int.28(8): 683-686|2003|10.1016/S0160-4120(02)00111-3
71413|T||Mozdzer,T.J., P. Kramarz, A. Piskiewicz, and M. Niklinska|Effects of Cadmium and Zinc on Larval Growth and Survival in the Ground Beetle, Pterostichus oblongopunctatus|Environ. Int.28(8): 737-742|2003|10.1016/S0160-4120(02)00107-1
71414|T||Jin,L., and A.F. Preston|Phytotoxicity Effects of Two Wood Preservatives, CCA and ACQ:  Literature Review and Results of Laboratory Tests|Proc. Annu. Meet. Am. Wood-Preservers' Assoc.89:282-291|1993|
71415|T||Nirula,K.K., and K.N. Chhibber|Field Trials with Some Insecticides for the Control of Sweet Potato Weevil|Curr. Sci. (Bangalore)29(12): 489-|1960|
71416|T||Watson,A.P., R.I. Van Hook, and D.E. Reichle|Toxicity of Organic and Inorganic Arsenicals to an Insect Herbivore|Environ. Sci. Technol.10(4): 356-359|1976|10.1021/es60115a001
71417|T||Mola,L., M.A. Sabatini, B. Fratello, and R. Bertolani|Effects of Atrazine on Two Species of Collembola (Onychiuridae) in Laboratory Tests|Pedobiologia (Multiple Languages)30:145-149|1987|10.1016/S0031-4056(23)00365-7
71418|T||Gao,X., D.S. Son, P.F. Terranova, and K.K. Rozman|Toxic Equivalency Factors of Polychlorinated Dibenzo-p-Dioxins in an Ovulation Model:  Validation of the Toxic Equivalency Concept for One Aspect of Endocrine Disruption|Toxicol. Appl. Pharmacol.157(2): 107-116|1999|10.1006/taap.1999.8649
71419|T||Padilla-Banks,E., W.N. Jefferson, and R.R. Newbold|The Immature Mouse is a Suitable Model for Detection of Estrogenicity in the Uterotrophic Bioassay|Environ. Health Perspect.109(8): 821-826|2001|10.1289/ehp.01109821
71420|T||Okazaki,K., S. Okazaki, S. Nishimura, H. Nakamura, Y. Kitamura, K. Hatayama, A. Nakamura, T. Tsuda, T. Katsumata, A. Ni|A Repeated 28-Day Oral Dose Toxicity Study of Methoxychlor in Rats, Based on the 'Enhanced OECD Test Guideline 407' for Screening Endocrine-Disrupting Chemicals|Arch. Toxicol.75(9): 513-521|2001|10.1007/s002040100273
71421|T||Sanderson,J.B., and U.C. Gupta|Copper and Zinc Nutrition of Russet Burbank Potatoes Grown on Prince Edward Island|Can. J. Plant Sci.70(1): 357-362|1990|10.4141/cjps90-042
71422|T||Yakovlev,A.S., S.I. Reshetnikov, Y.A. Goryachenkova, and Y.P. Gavrilova|Effect of Copper Oxide and Solutions of Sulfuric Acid on Properties of Sod-Podzolic Soils (Model Experiment)|Eurasian Soil Sci.24(7): 94-104|1992|
71423|T||Yang,X., V.C. Baligar, D.C. Martens, and R.B. Clark|Cadmium Effects on Influx and Transport of Mineral Nutrients in Plant Species|J. Plant Nutr.19(3-4): 643-656|1996|10.1080/01904169609365148
71424|T||Lopez-Llorca,L.V., I. Fernandez-Chocomeli, and E. Ferrandis|Effect of Heavy Metals on Growth, Isolation and Proteolytic Activity of the Nematophagous Fungus Verticillium suchlasporium|Rev. Iberoam. Micol.13:93-96|1996|
71425|T||Nishizono,H., H. Minemura, S. Suzuki, and F. Ishii|An Inducible Copper-Thiolate Complex in the Fern, Athyrium yokoscense:  Involvement in Copper-Tolerance of the Fern|Plant Cell Physiol.29(8): 1345-1351|1988|
71426|A||Pal,R., and P. Chatterjee|Cytological Effects of Two Common Algicides on the Mitotic Cell Division in Antheridial Filaments of Chara Species|Cytologia54(1): 173-178|1989|10.1508/cytologia.54.173
71427|T||Metcalf,R.L., and T.R. Fukuto|The Comparative Toxicity of DDT and Analogues to Susceptible and Resistant Houseflies and Mosquitos|Bull. W. H. O.38:633-647|1968|
71428|T||Ramani,S., and S. Kannan|An Examination of Zinc Uptake Patterns by Cultivars of Sorghum and Maize:  Differences Amongst Hybrids and Their Parents|J. Plant Nutr.8(12): 1199-1210|1985|10.1080/01904168509363418
71429|T||Turner,A.P., and N.M. Dickinson|Survival of Acer pseudoplatanus L. (Sycamore) Seedlings on Metalliferous Soils|New Phytol.123(3): 509-521|1993|10.1111/j.1469-8137.1993.tb03763.x
71430|T||Gregory,D.A., D.L. Johnson, B.H. Thompson, and K.W. Richards|Laboratory Evaluation of the Effects of Carbaryl and Chlorpyrifos Bran Baits and Sprays Used in Grasshopper Control, on Alfalfa Leafcutting Bees (Megachile rotundata (F.))|J. Agric. Entomol.9(2): 109-115|1992|
71432|T||March,G.J., J.A. Ornaghi, J.E. Beviacqua, J. Giuggia, A. Rago, and S.L. Lenardon|Systemic Insecticides for Control of Delphacodes kuscheli and the Mal de Rio Cuarto Virus on Maize|Int. J. Pest Manag.48(2): 127-132|2002|10.1080/09670870110100695
71433|T||Mosleh,Y.Y., S. Paris-Palacios, M. Couderchet, and G. Vernet|Effects of the Herbicide Isoproturon on Survival, Growth Rate, and Protein Content of Mature Earthworms (Lumbricus terrestris L..) and Its Fate in the Soil|Appl. Soil Ecol.23(1): 69-77|2003|10.1016/S0929-1393(02)00161-0
71434|T||Howard,L.L., R. Papendick, I.H. Stalis, J.L. Allen, M. Sutherland-Smith, J.R. Zuba, D.L. Ward, and B.A. Rideout|Fenbendazole and Albendazole Toxicity in Pigeons and Doves|J. Avian Med. Surg.16(3): 203-210|2002|10.1647/1082-6742(2002)016[0203:FAATIP]2.0.CO;2
71435|T||Simon,L., T.J. Smalley, J.B.,Jr. Jones, and F.T. Lasseigne|Aluminum Toxicity in Tomato. Part 1. Growth and Mineral Nutrition|J. Plant Nutr.17(2-3): 293-306|1994|10.1080/01904169409364728
71436|T||Moreno,J., N. Hawlitzky, and R. Jimenez|Morphological Abnormalities Induced by Fenoxycarb on the Ectoparasitic Larval Stage of Phanerotoma (Phanerotoma) ocularis Kohl (Hym., Braconidae)|J. Appl. Entomol.116(4): 406-411|1993|10.1111/j.1439-0418.1993.tb01214.x
71437|T||Schroder,R.F.W., M.M. Athanas, and M.J. Camp|The Effect of Simulated Solar Radiation on Western Corn Rootworm (Coleoptera: Chrysomelidae) Adults fed D & C Red # 28, a Photoactive Xanthene Dye|J. Entomol. Sci.37(3): 254-258|2002|10.18474/0749-8004-37.3.254
71438|T||Waller,D.P., A. Martin, B.H. Vickery, and L.J.D. Zaneveld|The Effect of Ketoconazole on Fertility of Male Rats|Contraception41(4): 411-417|1990|10.1016/0010-7824(90)90040-3
71440|T||Uzunova,A.N., and V. Velikova|Influence of Cu2+ on the Photosynthesis and the Structure of the Photosynthetic Apparatus in Pea (Pisum sativum Z., var Ran)|C. R. Acad. Bulg. Sci.48(5): 107-110|1995|
71441|A||Sela,M., E. Tel-Or, E. Fritz, and A. Huttermann|Localization and Toxic Effects of Cadmium, Copper, and Uranium in Azolla|Plant Physiol.88(1): 30-36|1988|10.1104/pp.88.1.30
71442|T||Shaw,J., J. Antonovics, and L.E. Anderson|Inter- and Intraspecific Variation of Mosses in Tolerance to Copper and Zinc|Evolution41(6): 1312-1325|1987|
71443|T||Ullah,S.M., and M.H. Gerzabek|Influence of Fulvic and Humic Acids on Cu- and V-Toxicity to Zea mays (L.)|Bodenkultur42(2): 123-134|1991|
71444|T||Revellin,C., P. Leterme, and G. Catroux|Effect of Some Fungicide Seed Treatments on the Survival of Bradyrhizobium japonicum and on the Nodulation and Yield of Soybean (Glycine max. (L) Merr.)|Biol. Fertil. Soils16(3): 211-214|1993|10.1007/BF00361410
71445|T||Simic,B., J. Kniewald, and Z. Kniewald|Effects of Atrazine on Reproductive Performance in the Rat|J. Appl. Toxicol.14(6): 401-404|1994|10.1002/jat.2550140603
71446|T||Wheeler,D.M., and M.B. Dodd|Effect of Aluminium on Yield and Plant Chemical Concentrations of Some Temperate Legumes|Plant Soil173(1): 133-145|1995|10.1007/BF00155525
71447|T||Howard,W.E., S.D. Palmateer, and R.E. Marsh|Differential Toxicity and Taste Aversion to Strychnine of Three Subspecies of the California Ground Squirrel (Spermophilus beecheyi)|In: L.R.Davis and R.E.Marsh (Eds.), Proc.14th Vertebr.Pest Conf., Univ.of Calif., Davis, CA:107-112|1990|
71448|T||Shaw,A.J.|Metal Tolerances and Cotolerances in the Moss Funaria hygrometrica|Can. J. Bot.68(10): 2275-2282|1990|10.1139/b90-290
71449|T||Williams III,L., L.D. Price, and V. Manrique|Toxicity of Field-Weathered Insecticide Residues to Anaphes iole (Hymenoptera:  Mymaridae), an Egg Parasitoid of Lygus lineolaris (Heteroptera:  Miridae), and Implications for Inundative Biological Control in Cotton|Biol. Control26(3): 217-223|2003|10.1016/S1049-9644(02)00157-3
71450|T||Yu,G.Y., G.P. Wang, and C.Q. He|Comparison of Physiological Responses to Oxidative and Heavy Metal Stress in Seedlings of Rice Paddy, Oryza sativa L.|J. Environ. Sci.12(4): 458-462|2000|
71451|T||Srinivasan,G., and P.C.S. Babu|Toxicity of Certain Insecticides to Predatory Green Lacewing, Chrysoperla carnea Stephens (Neuroptera: Chrysopidae)|J. Biol. Control14(1): 5-7|2000|
71452|T||Pandit,G.K., P.M. Bhattacharya, S. Chaudhuri, S. Pal, and A.K. Das|Phytotoxicity of Photoproducts of Pendimethalin to Rice Seedlings|Pestic. Res. J.12(2): 242-244|2000|
71453|T||Malcova,R., M. Vosatka, and M. Gryndler|Effects of Inoculation with Glomus intraradices on Lead Uptake by Zea mays L. and Agrostis capillaris L.|Appl. Soil Ecol.23(1): 55-67|2003|10.1016/S0929-1393(02)00160-9
71454|T||Weissenburg,M., and M. Zimmer|Balancing Nutritional Requirements for Copper in the Common Woodlouse, Porcellio scaber (Isopoda:  Oniscidea)|Appl. Soil Ecol.23(1): 1-11|2003|10.1016/S0929-1393(03)00019-2
71455|T||Jalali,B.L.|Effects of Soil Fungitoxicants on the Development of VA-Mycorrhiza and Phosphate Uptake in Wheat|In: B.Schippers and W.Gams (Eds.), Soil-Borne Plant Pathogens, Academic Press, New York, NY:526-530|1979|
71456|T||Inoue,Y.|Termiticidal Activities of Synthetic Pyrethroids|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY:113-118|1983|
71457|T||Funaki,E., and N. Motoyama|Cross Resistance to Various Insecticides of the Housefly Selected with a Pyrethroid|J. Pestic. Sci. (Multiple Languages)11:219-222|1986|10.1584/jpestics.11.219
71458|A||Ma,J., F. Lin, S. Wang, and L. Xu|Toxicity of 21 Herbicides to the Green Alga Scenedesmus quadricauda|Bull. Environ. Contam. Toxicol.71(3): 594-601|2003|10.1007/s00128-003-8521-x
71459|T||Lydy,M.J., and S.L. Linck|Assessing the Impact of Triazine Herbicides on Organophosphate Insecticide Toxicity to the Earthworm Eisenia fetida|Arch. Environ. Contam. Toxicol.45(3): 343-349|2003|10.1007/s00244-002-0218-y
71461|T||Marsden,S.J., and H.R. Bird|Effects of DDT on Growing Turkeys|Poult. Sci.26(1): 3-6|1947|10.3382/ps.0260003
71462|T||Rubin,M., H.R. Bird, N. Green, and R.H. Carter|Toxicity of DDT to Laying Hens|Poult. Sci.26:410-413|1947|10.3382/ps.0260410
71463|T||Denny,H.J., and D.A. Wilkins|Zinc Tolerance in Betula spp.  IV.  The Mechanism of Ectomycorrhizal Amelioration of Zinc Toxicity|New Phytol.106:545-553|1987|
71464|T||Goyal,R., and M.R.D. Seaward|Metal Uptake in Terricolous Lichens III. Translocation in the Thallus of Peltigera canina|New Phytol.90:85-98|1982|10.1111/j.1469-8137.1982.tb03244.x
71466|T||Funderburk,J.E., L.B. Braxton, and R.E. Lynch|Nontarget Effects of Soil-Applied Chlorpyrifos on Defoliating Pests and Arthropod Predators in Peanut|Peanut Sci.17:113-117|1990|10.3146/i0095-3679-17-2-16
71467|T||Wu,L., and J. Antonovics|Zinc and Copper Uptake by Agrostis stolonifera, Tolerant to Both Zinc and Copper|New Phytol.75:231-237|1975|10.1111/j.1469-8137.1975.tb01391.x
71468|T||Beckett,R.P., and D.H. Brown|The Relationship Between Cadmium Uptake and Heavy Metal Tolerance in the Lichen Genus Peltigera|New Phytol.97:301-311|1984|10.1111/j.1469-8137.1984.tb04134.x
71469|T||Hughes,W.A.|Growth Stimulation of Cabbage by Dieldrin|Plant Pathol.9:149-150|1960|10.1111/j.1365-3059.1960.tb01177.x
71470|T||Berry,R.A.|The Manurial Properties of Lead Nitrate|J. Agric. Sci.14:59-65|1923|
71471|T||Cox,J.A., and H.K. Fleming|Effects of Certain Sprays on Growth and Yield of Concord Grapes|Pa. Agric. Exp. Stn. Bull.652:1-17|1959|
71474|T||Ritchie,D.C., A.S. Harestad, and R. Archibald|Glyphosate Treatment and Deer Mice in Clearcut and Forest|Northwest Sci.61(3): 199-202|1987|
71475|T||Yendol,W.G., and G.E. Gould|The Effect of Insecticidal Soil Drenches on the Gorwth of Young Cabbage and Muskmelon Plants|J. Econ. Entomol.51(4): 534-538|1958|10.1093/jee/51.4.534
71476|T||Ruppel,R.F., and Y.M. Yun|Ground-Applied Insecticides Against the Cereal Leaf Beetle|J. Econ. Entomol.58(1): 41-46|1965|10.1093/jee/58.1.41
71477|T||Hagley,E.A.C.|Effect of Insecticides on the Growth of Vegetable Seedlings|J. Econ. Entomol.58(4): 777-778|1965|10.1093/jee/58.4.777a
71478|T||Hetrick,L.A.|Ten Years of Testing Organic Insecticides as Soil Poisons Against the Eastern Subterranean Termite|J. Econ. Entomol.50(3): 316-317|1957|10.1093/jee/50.3.316
71479|T||Gyrisco,G.G., and R.H. Burrage|Effects of Soil Treatments with Insecticides on Plant Growth and Fruit Quality of Strawberries|J. Econ. Entomol.47(5): 859-863|1954|10.1093/jee/47.5.859
71480|T||Simkover,H.G., and R.D. Shenefelt|Phytotoxicity of Some Insecticides to Coniferous Seedlings with Particular Reference to Benzene Hexachloride|J. Econ. Entomol.45(1): 11-15|1952|10.1093/jee/45.1.11
71481|T||Simkover,H.G., and R.D. Shenefelt|Effect of Benzene Hexachloride and Chlordane on Certain Soil Organisms|J. Econ. Entomol.44(3): 426-427|1951|10.1093/jee/44.3.426
71482|T||Kunz,S.E., and R.D. Radeleff|Evaluation of the Hazard of Chlorpyrifos Soil Treatments on Turkeys|J. Econ. Entomol.65(4): 1208-1209|1972|10.1093/jee/65.4.1208
71483|T||Mack,T.P.|Effects of Five Granular Insecticides on the Abundance of Selected Arthropod Pests and Predators in Peanut Fields|J. Econ. Entomol.85(6): 2459-2466|1992|10.1093/jee/85.6.2459
71484|T||Potter,D.A., M.C. Buxton, C.T. Redmond, C.G. Patterson, and A.J. Powell|Toxicity of Pesticides to Earthworms (Oligochaeta:  Lumbricidae) and Effect on Thatch Degradation in Kentucky Bluegrass Turf|J. Econ. Entomol.83(6): 2362-2369|1990|10.1093/jee/83.6.2362
71487|T||Crews,D., A.R. Cantu, T. Rhen, and R. Vohra|The Relative Effectiveness of Estrone, Estradiol-17beta, and Estriol in Sex Reversal in the Red-Eared Slider (Trachemys scripta), a Turtle with Temperature-Dependent Sex Determination|Gen. Comp. Endocrinol.102:317-326|1996|10.1006/gcen.1996.0075
71488|T||Grober,M.S., G.M. Winterstein, A.A. Ghazanfar, and V.P. Eroschenko|The Effects of Estradiol on Gonadotropin-Releasing Hormone Neurons in the Developing Mouse Brain|Gen. Comp. Endocrinol.112:356-363|1998|10.1006/gcen.1998.7134
71489|T||Gigliotti,C., and L. Allievi|Differential Effects of the Herbicides Bensulfuron and Cinosulfuron on Soil Microorganisms|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 775-782|2001|
71490|T||Hoy,J.B., and P.J. Shea|Effects of Lindane, Chlorpyrifos, and Carbaryl on a California Pine Forest Soil Arthropod Community|Environ. Entomol.10:732-740|1981|10.1093/ee/10.5.732
71491|T||Pang,X., D.H. Wang, X.Y. Xing, A. Peng, F.S. Zhang, and C.J. Li|Effect of La3+ on the Activities of Antioxidant Enzymes in Wheat Seedlings Under Lead Stress in Solution Culture|Chemosphere47(10): 1033-1039|2002|10.1016/S0045-6535(02)00022-X
71492|T||Yi,H., and Z. Meng|Genotoxicity of Hydrated Sulfur Dioxide on Root Tips of Allium sativum and Vicia faba|Mutat. Res.537(1): 109-114|2003|10.1016/S1383-5718(03)00054-8
71493|T||Weissenhorn,I., and C. Leyval|Spore Germination of Arbuscular Mycorrhizal Fungi in Soils Differing in Heavy Metal Content and Other Parameters|Eur. J. Soil Sci.32(4): 165-172|1996|
71495|A||Liu,J.L., and P.Z. Lang|Effect of Monotoxicity and Mixtoxicity of Nitroaromatics to the Green Algae, Scenedesmus obliquus|J. Environ. Sci.12(3): 367-368|2000|
71496|A||Rajamannar,K., and L. Manohar|Reduced Respiratory Enzyme Activity Under Pesticide Toxic Stress in the Fish, Labeo rohita|J. Ecobiol.12(2): 135-144|2000|
71497|A||Teisseire,H., and V. Guy|Copper-Induced Changes in Antioxidant Enzymes Activities in Fronds of Duckweed (Lemna minor)|Plant Sci.153(1): 65-72|2000|10.1016/S0168-9452(99)00257-5
71498|A||Straus,D.L.|The Acute Toxicity of Copper to Blue Tilapia in Dilutions of Settled Pond Water|Aquaculture219(1-4): 233-240|2003|10.1016/S0044-8486(02)00350-2
71499|A||Colombo,A., P. Bonfanti, F. Orsi, and M. Camatini|Differential Modulation of Cytochrome P-450 1A and P-Glycoprotein Expression by Aryl Hydrocarbon Receptor Agonists and Thyroid Hormone in Xenopus laevis Liver and Intestine|Aquat. Toxicol.63(2): 173-186|2003|10.1016/S0166-445X(02)00178-9
71500|A||Sklenar,K.S., and A.J. Horne|Horizontal Distribution of Geosmin in a Reservoir Before and After Copper Treatment|Water Sci. Technol.40(6): 229-237|1999|10.2166/wst.1999.0303
71501|A||Wang,A.L., W.N. Wang, Y. Wang, L.X. Shang, Y. Liu, and R.Y. Sun|Effect of Dietary Vitamin C Supplementation on the Oxygen Consumption, Ammonia-N Excretion and Na+/K+ ATPase of Macrobrachium nipponense Exposed to Ambient Ammonia|Aquaculture220(1-4): 833-841|2003|10.1016/S0044-8486(02)00536-7
71502|A||Cabrita,E., O. Chereguini, M. Luna, P. De Paz, and M.P. Herraez|Effect of Different Treatments on the Chorion Permeability to DMSO of Turbot Embryos (Scophthalmus maximus)|Aquaculture221(1-4): 593-604|2003|10.1016/S0044-8486(03)00073-5
71503|A||Morris,D.J., A. Adams, P. Smith, and R.H. Richards|Effects of Oral Treatment with TNP-470 on Rainbow Trout (Oncorhynchus mykiss) Infected with Tetracapsuloides bryosalmonae (Malacosporea), the Causative Agent of Proliferative Kidney Disease|Aquaculture221(1-4): 51-64|2003|10.1016/S0044-8486(03)00024-3
71504|A||Willis,K.J., and N. Ling|The Toxicity of Emamectin Benzoate, an Aquaculture Pesticide, to Planktonic Marine Copepods|Aquaculture221(1-4): 289-297|2003|10.1016/S0044-8486(03)00066-8
71505|A||Breitholtz,M., L. Wollenberger, and L. Dinan|Effects of Four Synthetic Musks on the Life Cycle of the Harpacticoid Copepod Nitocra spinipes|Aquat. Toxicol.63(2): 103-118|2003|10.1016/S0166-445X(02)00159-5
71506|A||Hakkinen,J., E. Vehniainen, and A. Oikari|Histopathological Responses of Newly Hatched Larvae of Whitefish (Coregonus lavaretus s.l.) to UV-B Induced Toxicity of Retene|Aquat. Toxicol.63(2): 159-171|2003|10.1016/S0166-445X(02)00173-X
71507|A||Perschbacher,P.W., G.M. Ludwig, and N. Slaton|Effects of Common Aerially Applied Rice Herbicides on the Plankton Communities of Aquaculture Ponds|Aquaculture214(1-4): 241-246|2002|10.1016/S0044-8486(02)00396-4
71508|A||Kolanczyk,R.C., P.N. Fitzsimmons, J.M.,Sr. McKim, R.J. Erickson, and P.K. Schmieder|Effects of Anesthesia (Tricaine Methanesulfonate, MS222) on Liver Biotransformation in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.64(2): 177-184|2003|10.1016/S0166-445X(03)00051-1
71509|A||Degitz,S.J., E.J. Durhan, J.E. Tietge, P.A. Kosian, G.W. Holcombe, and G.T. Ankley|Developmental Toxicity of Methoprene and Several Degradation Products in Xenopus laevis|Aquat. Toxicol.64(1): 97-105|2003|10.1016/S0166-445X(03)00022-5
71510|A||Bantle,J.A., D.J. Fort, J.R. Rayburn, D.J. DeYoung, and S.J. Bush|Further Validation of FETAX:  Evaluation of the Developmental Toxicity of Five Known Mammalian Teratogens and Non-teratogens|Drug Chem. Toxicol.13(4): 267-282|1990|10.3109/01480549009032286
71512|A||Sela,M., J. Garty, and E. Tel-Or|The Accumulation and the Effect of Heavy Metals on the Water Fern Azolla filiculoides|New Phytol.112(1): 7-12|1989|10.1111/j.1469-8137.1989.tb00302.x
71513|A||Tyagi,R., and B.D. Kaushik|Pure Copper Metal as an Algicide|Indian J. Plant Physiol.1(4): 281-283|1996|
71514|A||Salanki,J.|Biphasic and Combined Effects of Heavy Metals on the Periodic Valve Movements of the Freshwater Bivalve, Anodonta cygnea|In: M.Munawar, O.Hanninen, S.Roy, N.Manawar, L.Karenlampi, and D.Brown (Eds.), Ecovision World Monograph Series: 7th Int.Symp.: Bioindicators of Environmental Health, Sept.28-Oct.2, 1992, SPB Acad.Publ., Amsterdam, Netherlands:97-104|1995|
71515|A||Devi,S.R., and M.N.V. Prasad|Copper Toxicity in Ceratophyllum demersum L. (Coontail), a Free Floating Macrophyte:  Response of Antioxidant Enzymes and Antioxidants|Plant Sci.138(2): 157-165|1998|10.1016/S0168-9452(98)00161-7
71516|A||Piccinni,E., P. Irato, O. Coppellotti, and L. Guidolin|Biochemical and Ultrastructural Data on Tetrahymena pyriformis Treated with Copper and Cadmium|J. Cell Sci.88(3): 283-294|1987|10.1242/jcs.88.3.283
71517|A||Fort,D.J., J.R. Rayburn, D.J. DeYoung, and J.A. Bantle|Assessing the Efficacy of an Aroclor 1254-Induced Exogenous Metabolic Activation System for FETAX|Drug Chem. Toxicol.14(1/2): 143-160|1991|10.3109/01480549109017873
71518|A||Tam,N.F.Y., Y.S. Wong, and C.G. Simspon|Repeated Removal of Copper by Alginate Beads and the Enhancement by Microalgae|Biotechnol. Tech.12(3): 187-190|1998|10.1023/A:1008861122108
71519|A||Velzeboer,R., M. Drikas, C. Donati, M. Burch, and D. Steffensen|Release of Geosmin by Anabaena circinalis Following Treatment with Aluminium Sulphate|Water Sci. Technol.31(11): 187-194|1995|10.2166/wst.1995.0434
71520|A||Sze,P.W.C., and S.Y. Lee|The Potential Role of Mucus in the Depuration of Copper from the Mussels Perna viridis (L.) and Septifer virgatus (Wiegmann)|Mar. Pollut. Bull.31(4-12): 390-393|1995|10.1016/0025-326X(95)00140-I
71521|A||Rao,S.V.R.|Effect of Metal Chelation on the Toxicity of Some Environmentally Hazardous Trace Metals to Daphnia magna|Int. J. Environ. Stud.26(1-2): 87-90|1985|10.1080/00207238508710246
71522|A||McCrary,J.E., and M.G. Heagler|The Use of a Simultaneous Multiple Species Acute Toxicity Test to Compare the Relative Sensitivities of Aquatic Organisms to Mercury|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control32(1): 73-81|1997|
71523|A||Thomas,T.E., and M.G. Robinson|The Physiological Effects of the Leachates from a Self-Polishing Organotin Antifouling Paint on Marine Diatoms|Mar. Environ. Res.18(3): 215-229|1986|10.1016/0141-1136(86)90034-6
71524|T||Aberg,E.|Effect of Triazine Herbicides on the Production of Plant Proteins|Vaxtodling30:5-41|1976|
71525|T||Callahan,L.M., J.R. Overton, and W.L. Sanders|Initial and Residual Herbicide Control of Crabgrass (Digitaria spp.) in Bermudagrass (Cynodon dactylon) Turf|Weed Sci.31(5): 619-622|1983|10.1017/S0043174500070077
71526|T||Ashour,W.A., A.A. Morsy, M.D.H. Ali, and M.M.M. Diab|Effect of Some Cultural Practices and Fungicides on Basal Bulb Rot of Onion|Agric. Res. Rev.51:153-162|1971|
71527|T||Nishizawa,Y.|Development of New Synthetic Pyrethroids|Bull. W. H. O.44:325-336|1971|
71528|T||Mohanty,S.R., K. Bharati, B.T.S. Moorthy, B. Ramakrishnan, V.R. Rao, N. Sethunathan, and T.K. Adhya|Effect of the Herbicide Butachlor on Methane Emission and Ebullition Flux from a Direct-Seeded Flooded Rice Field|Biol. Fertil. Soils33(3): 175-180|2001|10.1007/s003740000301
71529|T||Suarez,D.L., C.M. Grieve, and J.A. Poss|Irrigation Method Affects Selenium Accumulation in Forage Brassica Species|J. Plant Nutr.26(1): 191-201|2003|10.1081/PLN-120016504
71530|T||Laskowski,R.|Why Short-Term Bioassays are not Meaningful - Effects of a Pesticide (Imidacloprid) and a Metal (Cadmium) on Pea Aphids (Acyrthosiphon pisum Harris)|Ecotoxicology10(3): 177-183|2001|10.1023/A:1016698012209
71531|T||Sato,M.E., A. Raga, L.C. Ceravolo, M.F. De souza Filho, A.C. Rossi, and G.J. De Moraes|Effect of Insecticides and Fungicides on the Interaction Between Members of the Mite Families Phytoseiidae and Stigmaeidae on Citrus|Exp. Appl. Acarol.25(10/11): 809-818|2001|10.1023/A:1020483515516
71533|T||Smiley,R.W., and M.M. Craven|Fusarium Species in Soil, Thatch and Crowns of Poa pratensis Turfgrass Treated with Fungicides|Soil Biol. Biochem.11:355-363|1979|10.1016/0038-0717(79)90048-8
71534|T||Lin,J., W. Jiang, and D. Liu|Accumulation of Copper by Roots, Hypocotyls, Cotyledons and Leaves of Sunflower (Helianthus annuus L.)|Bioresour. Technol.86(2): 151-155|2003|10.1016/S0960-8524(02)00152-9
71535|T||Swaileh,K., R. Hussein, and N. Halaweh|Metal Accumulation from Contaminated Food and Its Effect on Growth of Juvenile Landsnails Helix engaddensis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(2): 151-159|2002|
71536|T||Dube,B.K., P. Sinha, and C. Chatterjee|Changes in Spinach (Spinacea oleracea L.) Metabolism by Excess Cadmium|Nat. Environ. Pollut. Technol.1(2): 225-229|2002|
71537|T||Yang,X., L.L. Buschman, K.Y. Zhu, and D.C. Margolies|Susceptibility and Detoxifying Enzyme Activity in Two Spider Mite Species (Acari:  Tetranychidae) After Selection with Three Insecticides|J. Econ. Entomol.95(2): 399-406|2002|10.1603/0022-0493-95.2.399
71538|T||Zurayk,R., B. Sukkariyah, R. Baalbaki, and D. Abi Ghanem|Ni Phytoaccumulation in Mentha aquatica L. and Mentha sylvestris L.|Water Air Soil Pollut.139(1-4): 355-364|2002|10.1023/A:1015840601761
71539|T||Halldin,K., L. Holm, Y. Ridderstrale, and B. Brunstrom|Reproductive Impairment in Japanese Quail (Coturnix japonica) After In Ovo Exposure to o,p'-DDT|Arch. Toxicol.77(2): 116-122|2003|10.1007/s00204-002-0417-8
71540|T||Hseu,Z.Y., S.F. Cheng, and C.C. Pong|Using Natural Soils as Immobilizing Agents to Reduce the Transfer of Chromium, Copper and Zinc from Contaminated Soil to Cabbage|J. Chin. Inst. Environ. Eng.12(2): 151-156|2002|
71541|T||Yang,X.E., X.X. Long, W.Z. Ni, Z.Q. Ye, Z.L. He, P.J. Stoffella, and D.V. Calvert|Assessing Copper Thresholds for Phytotoxicity and Potential Dietary Toxicity in Selected Vegetable Crops|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(6): 625-635|2002|
71542|T||Sures,B., K. Grube, and H. Taraschewski|Experimental Studies on the Lead Accumulation in the Cestode Hymenolepis diminuta and Its Final Host, Rattus norvegicus|Ecotoxicology11(5): 365-368|2002|10.1023/A:1020561406624
71543|T||Burridge,M.J., T.F. Peter, S.A. Allan, and S.M. Mahan|Evaluation of Safety and Efficacy of Acaricides for Control of the African Tortoise Tick (Amblyomma marmoreum) on Leopard Tortoises (Geochelone pardalis)|J. Zoo Wildl. Med.33(1): 52-57|2002|10.1638/1042-7260(2002)033[0052:EOSAEO]2.0.CO;2
71544|T||Tham,L.X., S. Matsuhashi, and T. Kume|Responses of Ganoderma lucidum to Heavy Metals|Mycoscience40(2): 209-213|1999|10.1007/BF02464301
71545|T||Przymusinski,R., and E.A. Gwozdz|Heavy Metal-Induced Polypeptides in Lupin Roots are Similar to Pathogenesis-Related Proteins|J. Plant Physiol.154(5-6): 703-708|1999|10.1016/S0176-1617(99)80248-X
71546|T||Xue,M., and Q. Li|Studies on Selective Toxicity of Six Insecticides Between Green Peach Aphid and Ladybirds|Entomol. Sin.9(2): 17-22|2002|
71547|T||Mendez,N.|Preliminary Observations on the Effect of Cadmium on Larval Development of Capitella sp. B from Barcelona|Bull. Mar. Sci.70(3): 899-908|2002|
71548|T||Cheng,S.B., S. Kuchiiwa, A. Kawachi, H.Z. Gao, A. Gohshi, T. Kozako, T. Kuchiiwa, and S. Nakagawa|Up-Regulation of Methionine-Enkephalin-Like Immunoreactivity by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Treatment in the Forebrain of the Long-Evans Rat|J. Chem. Neuroanat.25(2): 73-82|2003|10.1016/S0891-0618(02)00103-5
71550|T||Fair,J.M., and O.B. Myers|The Ecological and Physiological Costs of Lead Shot and Immunological Challenge to Developing Western Bluebirds|Ecotoxicology11(3): 199-208|2002|10.1023/A:1015474832239
71551|T||Tiwari,L.D.|Toxicity of Chlorfluazuron to Fifth Instar Hoppers of Schistorcerca gregaria|Indian J. Entomol.62(2): 211-213|2000|
71552|T||Ali,M.A., M.D. Ellis, J.R. Coats, and J. Grodnitzky|Laboratory Evaluation of 17 Monoterpenoids and Field Evaluation of Two Monoterpenoids and Two Registered Acaricides for the Control of Varroa destructor Anderson & Trueman (Acari: Varroidae)|Am. Bee J.142(1): 50-53|2002|
71554|T||Fitches,E., C. Ilett, A.M.R. Gatehouse, L.N. Gatehouse, R. Greene, J.P. Edwards, and J.A. Gatehouse|The Effects of Phaseolus vulgaris Erythro- and Leucoagglutinating Isolectins (PHA-E and PHA-L) Delivered via Artificial Diet and Transgenic Plants on the Growth and Development of Tomato Moth (Lacanobia oleracea) Larvae|J. Insect Physiol.47(12): 1389-1398|2001|10.1016/S0022-1910(01)00129-9
71555|T||Tipping,P.W., and T.D. Center|Evaluating Acephate for Insecticide Exclusion of Oxyops vitiosa (Coleoptera: Curculionidae) from Melaleuca quinquenervia|Fla. Entomol.85(3): 458-463|2002|10.1653/0015-4040(2002)085[0458:EAFIEO]2.0.CO;2
71556|T||Stahl,R.S., T.W. Custer, P.A. Pochop, and J.J. Johnston|Improved Method for Quantifying the Avicide 3-Chloro-p-Toluidine Hydrochloride in Bird Tissues Using a Deuterated Surrogate/GC/MS Method|J. Agric. Food Chem.50(4): 732-738|2002|10.1021/jf011003d
71558|T||James,D.G.|Selectivity of the Acaricide, Bifenazate, and Aphicide, Pymetrozine, to Spider Mite Predators in Washington Hops|Int. J. Acarol.28(2): 175-179|2002|10.1080/01647950208684292
71559|T||Da Silva,J.J., and J. Mendes|Effect of Diflubenzuron on Immature Stages of Haematobia irritans (L.) (Diptera:  Muscidae) in Uberlandia, State of Minas Gerais, Brazil|Mem. Inst. Oswaldo Cruz97(5): 679-682|2002|10.1590/S0074-02762002000500017
71560|T||Wang,K.Y., T.X. Liu, C.H. Yu, X.Y. Jiang, and M.Q. Yi|Resistance of Aphis gossypii (Homoptera: Aphididae) to Fenvalerate and Imidacloprid and Activities of Detoxification Enzymes on Cotton and Cucumber|J. Econ. Entomol.95(2): 407-413|2002|10.1603/0022-0493-95.2.407
71561|T||Saenz-de-Cabezon,F.J., I. Perez-Moreno, and V. Marco|Effects of Triflumuron on the Two-Spotted Spider Mite, Tetranychus urticae (Acari: Tetranichydae)|Exp. Appl. Acarol.26(1/2): 71-78|2002|10.1023/A:1020985605115
71562|T||Liu,T.X., A.N.Jr. Sparks, W. Chen, G.M. Liang, and C. Brister|Toxicity, Persistence, and Efficacy of Indoxacarb on Cabbage Looper (Lepidoptera: Noctuidae) on Cabbage|J. Econ. Entomol.95(2): 360-367|2002|10.1603/0022-0493-95.2.360
71563|T||Liu,T.X., and T.Y. Chen|Effects of the Insect Growth Regulator Fenoxycarb on Immature Chrysoperla rufilabris (Neuroptera: Chrysopidae)|Fla. Entomol.84(4): 628-633|2001|10.2307/3496394
71564|A||Mo,J.C., T.C. Yang, J.A. Cheng, and X.G. Song|Lethal and Sublethal Effects of Acetamiprid on the Larvae of Culex pipiens pallens|Entomol. Sin.9(3): 45-49|2002|
71565|T||Marcar,N.E., R.S. Criddle, J. Guo, and Y. Zohar|Analysis of Respiratory Metabolism Correlates well with the Response of Eucalyptus camaldulensis Seedlings to NaCl and High pH|Funct. Plant Biol.29(8): 925-932|2002|10.1071/PP01170
71567|T||Tedeschi,R., A. Alma, and L. Tavella|Side-Effects of Three Neem (Azadirachta indica A. Juss) Products on the Predator Macrolophus caliginosus Wagner (Het., Miridae)|J. Appl. Entomol.125(7): 397-402|2001|10.1046/j.1439-0418.2001.00563.x
71568|T||Ismail,B.S., and B.A. Azlizan|Persistence and Bioactivity of Metsulfuron-Methyl in Three Soils|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(4): 345-353|2002|
71569|T||Afonne,O.J., O.E. Orisakwe, C.E. Dioka, E. Obi, T. Ezejiofor, L. Asomugha, and U. Ukoha|Effects of Rinbacin Extract on Rat Kidney|Biol. Pharm. Bull.25(8): 1022-1025|2002|10.1248/bpb.25.1022
71570|T||Abou-Donia,M.B., A.M. Dechkovskaia, L.B. Goldstein, S.L. Bullman, and W.A. Khan|Sensorimotor Deficit and Cholinergic Changes Following Coexposure with Pyridostigmine Bromide and Sarin in Rats|Toxicol. Sci.66(1): 148-158|2002|10.1093/toxsci/66.1.148
71572|T||Mason,P.G., M.A. Erlandson, R.H. Elliott, and B.J. Harris|Potential Impact of Spinosad on Parasitoids of Mamestra configurata (Lepidoptera: Noctuidae)|Can. Entomol.134(1): 59-68|2002|10.4039/Ent13459-1
71573|T||Arthur,F.H., and A.K. Dowdy|Impact of High Temperatures on Efficacy of Cyfluthrin and Hydroprene Applied to Concrete to Control Tribolium castaneum (Herbst)|J. Stored Prod. Res.39(2): 193-204|2003|10.1016/S0022-474X(01)00053-4
71574|T||Odum,J., P.A. Lefevre, H. Tinwell, J.P. Van Miller, R.L. Joiner, R.E. Chapin, N.T. Wallis, and J. Ashby|Comparison of the Developmental and Reproductive Toxicity of Diethylstilbestrol Administered to Rats In Utero, Lactationally, Preweaning, or Postweaning|Toxicol. Sci.68(1): 147-163|2002|10.1093/toxsci/68.1.147
71575|T||De Lacerda,C.F., J. Cambraia, M.A. Oliva, H.A. Ruiz, and J.T. Prisco|Solute Accumulation and Distribution During Shoot and Leaf Development in Two Sorghum Genotypes Under Salt Stress|Environ. Exp. Bot.49(2): 107-120|2003|10.1016/S0098-8472(02)00064-3
71576|T||Marsh,R.E., R.H. Schmidt, and W.E. Howard|Secondary Hazards to Coyotes of Ground Squirrels Poisoned with 1080 or Strychnine|Wildl. Soc. Bull.15(3): 380-385|1987|
71577|T||Burns,R.J.|Effect of Lithium Chloride in Coyote Pup Diet|Behav. Neural Biol.30:350-356|1980|10.1016/S0163-1047(80)91246-7
71578|T||Shenefelt,R.E.|Morphogenesis of Malformations in Hamsters Caused by Retinoic Acid:  Relation to Dose and Stage at Treatment|Teratology5:103-118|1972|10.1002/tera.1420050115
71579|T||Simpson,H.B., and D.S. Vicario|Early Estrogen Treatment Alone Causes Female Zebra Finches to Produce Learned, Male-like Vocalizations|J. Neurobiol.22(7): 755-776|1991|10.1002/neu.480220710
71580|T||Simpson,H.B., and D.S. Vicario|Early Estrogen Treatment of Female Zebra Finches Masculinizes the Brain Pathway for Learned Vocalization|J. Neurobiol.22(7): 777-793|1991|10.1002/neu.480220711
71581|T||Eastland,W.G., and S.L. Beasom|Potential Secondary Hazards of Compound 1080 to Three Mammalian Scavengers|Wildl. Soc. Bull.14:232-233|1986|
71582|T||Nasr,N.T., A.M. Bodghadadi, K.A.M. Allam, A.I. El-Adawi, and M.I. Soliman|Effect of Ivermectin on Survival and Fecundity of Culex pipiens the Vector of Wuchereria bancrofti in Egypt|J. Egypt. Soc. Parasitol.26(1): 161-168|1996|
71583|T||Wolfenbarger,D.A., D.G. Riley, and B. Cartwright|Can Response Levels to any Insecticide be Maintained by a Population of Beet Armyworm?|Proc. Beltwide Cotton Conf.2:1024-1028|1997|
71584|T||Ouzounidou,G., M. Moustakas, and R. Lannoye|Chlorophyll Fluorescence and Photoacoustic Characteristics in Relationship to Changes in Chlorophyll and Ca2+ Content of a Cu-Tolerant Silene compacta Ecotype Under Cu Treatment|Physiol. Plant. (Multiple Languages)93(3): 551-557|1995|10.1111/j.1399-3054.1995.tb06857.x
71586|T||Hammond,B.F., and P.G. Martin|Calcium-Cadmium Effects on Bone Density and Strength of the Femur from Multiparous Rats|Nutr. Res.Suppl.I:511-514|1985|
71587|T||Massarco,E.J., G.D. Miller, and T.F. Massaro|Lead and Essential Element Interactions in the Neonatal Rat|Nutr. Res.Suppl.I:520-526|1985|
71588|T||Mykkanen,H.M., and M.L. Mutanen|Selenium-Heavy Metal Interactions During the Intestinal Absorption of Sodium Selenite (Se-75) in Chicks|Nutr. Res.Suppl.I:539-542|1985|
71589|T||Hurley,L.S., N. Reinstein, B. Lonnerdal, and C.L. Keen|Interaction Between Dietary Zinc and Copper During Pregnancy in the Rat|Nutr. Res.Suppl.I:543-545|1985|
71591|T||Ma,W.C.|Biomonitoring of Soil Pollution:  Ecotoxicological Studies of the Effect of Soil-Borne Heavy Metals on Lumbricid Earthworms|Annu.Rep.1982,Res.Inst.Nature Manag., Arnham, Netherlands:83-87|1983|
71592|T||Spidso,T.K., and M. Staurnes|Effects of Aluminium on Capercaillie Tetrao urogallus Chicks|Trans. Congr. Int. Union Game Biol.20:500-505|1991|
71593|T||Purkayastha,R.P., and A.K. Mitra|Metal Uptake by Mycelia During Submerged Growth and by Sporocarps of an Edible Fungus Volvariella volvacea|Indian J. Exp. Biol.30(12): 1184-1187|1992|
71594|T||Nuorteva,P., and E. Hasanen|Transfer of Mercury from Fishes to Sarcosaprophagous Flies|Ann. Zool. Fennici9(1): 23-27|1972|
71595|T||Ranta,H., S. Neuvonen, and T. Virtanen|Effects of Sulphuric Acid and Heavy-Metal Deposition on Frequency of Asymptomatic Infections of Gremmeniella abietina in Scots-Pine Seedlings|Eur. J. For. Pathol.25(1): 5-12|1995|10.1111/j.1439-0329.1995.tb01066.x
71596|T||Tiagi,Y.D., and F. Banu|Copper Toxicity and Temperature Interaction in Vigna radiata|Indian Bot. Contactor9(4): 155-158|1992|
71597|T||Chikosi,S.F., D. McMaster, and A.H.G. Love|An Improved Model of the Perfused Rat Intestine for the Study of Zinc Absorption|Nutr. Res.Suppl.1:255-258|1985|
71598|T||Lonnerdal,B., L. Davidson, and C.L. Keen|Effect of Varying Dietary Iron and Zinc Levels on Tissue Concentrations in the Rat|Nutr. Res.:277-280|1985|
71599|T||McMaster,D., A.S. Ewing, C. Erwin, D.L. McBriar, and A.H.G. Love|The Infleunce of Dietary Vitamins on Zinc Uptake from the Lumen of the Perfused Rat Gut|Nutr. Res.Suppl.I:267-270|1985|
71602|A||Gagnaire,B., T. Renault, K. Bouilly, S. Lapegue, and H. Thomas-Guyon|Study of Atrazine Effects on Pacific Oyster, Crassostrea gigas, Haemocytes|Curr. Pharm. Des.8:99-110|2003|
71603|A||Forster,B., P.B. Heifetz, A. Lardans, J.E. Boynton, and N.W. Gillham|Herbicide Resistance and Growth of D1 Ala251 Mutants in Chlamydomonas|Z. Naturforsch. Sect. C J. Biosci.52(9/10): 654-664|1997|10.1515/znc-1997-9-1013
71604|A||Jop,K.M.|(Atrazine Technical) - Acute Toxicity to Fathead Minnows (Pimephales promelas) Under Static Renewal Conditions|Final SLI Rep.No.91-2-3666, Springborn Lab.Inc., Wareham, MA:4-49|1991|
71605|T||Weber,M.B., H. Schat, and W.M. Ten Bookum-Van der Maarel|The Effect of Copper Toxicity on the Contents of Nitrogen Compounds in Silene vulgaris (Moench) Garcke|Plant Soil133(1): 101-109|1991|10.1007/BF00011904
71606|A||Jop,K.M.|Atrazine Technical - Acute Toxicity to (Ceriodaphnia dubia) Under Static Conditions|Final SLI Rep.No.91-1-3629, Springborn Lab.Inc., Wareham, MA:4-46|1991|
71607|A||Joseph,K.V., and K.J. Rao|Aldrin Toxicity on Amphibian Neuronal, Hepatic and Muscular Tissue Oxidative Enzymes|Biochem. Int.22(1): 173-177|1990|
71608|A||Machado,M.W.|Atrazine Technical - Acute Toxicity to Sheepshead Minnow (Cyprinodon variegatus) Under Flow-Through Conditions|Final SLI Rep.No.94-7-5384, Springborn Lab.Inc., Wareham, MA:4-36|1994|
71609|T||Miller,M.S., and K.G. Doxtader|Atrazine Impacts on Shortgrass Prairie Microcosms|J. Range Manag.48:298-306|1995|10.2307/4002481
71610|T||Plenderleith,R.W., and L.C. Bell|Tolerance of Twelve Tropical Grasses to High Soil Concentrations of Copper|Trop. Grassl.24(2): 103-110|1990|
71611|T||Schutte,G.C., K.V. Beeton, and J.M. Kotze|Rind Stippling on Valencia Oranges by Copper Fungicides Used for Control of Citrus Black Spot in South Africa|Plant Dis.81(8): 851-854|1997|10.1094/PDIS.1997.81.8.851
71612|A||Poleksic,V., V. Karan, Z. Dulic, I. Elezovic, and N. Neskovic|Herbicides Toxicity to Fish: Histopathological Effects|Pesticides 12:257-268|1997|
71613|AT||Ruth,B.|Chlorophyll Fluorescence Induction Kinetics as a Tool to Determine the Herbicide Effect on Algae and Leaves|SPIE3107:195-206|1997|
71614|T||Johnston,J.J., L.A. Windberg, C.A. Furcolow, R.M. Engeman, and M. Roetto|Chlorinated Benzenes as Physiological Markers for Coyotes|J. Wildl. Manag.62(1): 410-421|1998|10.2307/3802307
71615|A||Zagorc-Koncan,J.|Effects of Atrazine and Alachlor on Self-Purification Processes in Receiving Streams|Water Sci. Technol.33(6): 181-187|1996|10.2166/wst.1996.0095
71616|T||Jones,J.L., and R.G. Leslie|Effects of Boron, Copper, and Zinc on Yield and Quality of Flue-Cured Tobacco|Tob. Sci.30:98-103|1986|
71617|T||Revellin,C., B. De Canson, and G. Catroux|Effect of a Mixture of Chlorpyrifos and Lindane on the Symbiosis of Bradyrhizobium japonicum and Soybean (Glycine max. (L.) Merril)|Pestic. Sci.36(1): 69-74|1992|10.1002/ps.2780360111
71618|T||Lee,C.C., J.V. Dilley, J.R. Hodgson, D.O. Helton, W.J. Wiegand, D.N. Roberts, B.S. Anderson, L.M. Halfpap, L.D. Kurtz, |Mammalian Toxicity of Munition Compounds:  Phase I.  Acute Oral Toxicity, Primary Skin and Eye Irritation, Dermal Sensitization, and Disposition and Metabolism|Rep.No.1, Environ.Prot.Res.Div., U.S.Army Med.Res.and Dev.Command, Washington, DC:101 p.|1975|
71619|A||Blackburn,R.A.|The Effects of Single and Joint Toxicity of Atrazine and Alachlor on Three Non-Target Aquatic Organisms|M.S.Thesis, University of Kansas, Lawrence, KS:163 p.|1985|
71620|A||Machado,M.W.|Atrazine Technical - Acute Toxicity to Mysid Shrimp (Mysidopsis bahia) Under Flow-Through Conditions|Final SLI Rep.No.94-7-5392, Springborn Lab.Inc., Wareham, MA:4-72|1994|
71667|A||Cengiz,M., M.R. Ozen, and R. Atay|Destruction and Accumulation of Copper and Zinc in Various Organ of the Common Carp, Cyprinus carpio|Int. J. Chem.9(2): 75-84|1999|
71668|A||Gustavson,K., F. Mohlenberg, and L. Schluter|Effects of Exposure Duration of Herbicides on Natural Stream Periphyton Communities and Recovery|Arch. Environ. Contam. Toxicol.45(1): 48-58|2003|10.1007/s00244-002-0079-9
71669|A||Gabbianelli,R., G. Lupidi, M. Villarini, and G. Falcioni|DNA Damage Induced by Copper on Erythrocytes of Gilthead Sea Bream Sparus aurata and Mollusk Scapharca inaequivalvis|Arch. Environ. Contam. Toxicol.45(3): 350-356|2003|10.1007/s00244-003-2171-1
71670|A||Collen,J., E. Pinto, M. Pedersen, and P. Colepicolo|Induction of Oxidative Stress in the Red Macroalga Gracilaria tenuistipitata by Pollutant Metals|Arch. Environ. Contam. Toxicol.45(3): 337-342|2003|10.1007/s00244-003-0196-0
71671|A||Schulz,R., M.T. Moore, E.R. Bennett, C.D. Milam, J.L. Bouldin, J.L. Farris, S.,Jr. Smith, and C.M. Cooper|Acute Toxicity of Methyl-Parathion in Wetland Mesocosms:  Assessing the Influence of Aquatic Plants Using Laboratory Testing with Hyalella azteca|Arch. Environ. Contam. Toxicol.45(3): 331-336|2003|10.1007/s00244-003-2170-2
71672|A||Merino-Garcia,D., K. Ole Kusk, and E.R. Christensen|Joint Toxicity of Similarly and Dissimilarly Acting Chemicals to Daphnia magna at Different Response Levels|Arch. Environ. Contam. Toxicol.45(3): 289-296|2003|10.1007/s00244-003-2179-6
71673|A||Coeurdassier,M., A. De Vaufleury, and P.M. Badot|Bioconcentration of Cadmium and Toxic Effects on Life-History Traits of Pond Snails (Lymnaea palustris and Lymnaea stagnalis) in Laboratory Bioassays|Arch. Environ. Contam. Toxicol.45(1): 102-109|2003|10.1007/s00244-002-0152-4
71674|A||Harmon,S.M., W.L. Specht, and G.T. Chandler|A Comparison of the Daphnids Ceriodaphnia dubia and Daphnia ambigua for Their Utilization in Routine Toxicity Testing in the Southeastern United States|Arch. Environ. Contam. Toxicol.45(1): 79-85|2003|10.1007/s00244-002-0116-8
71675|A||Kszos,L.A., S.S. Talmage, G.W. Morris, B.K. Konetsky, and T. Rottero|Derivation of Aquatic Screening Benchmarks for 1,2-Dibromoethane|Arch. Environ. Contam. Toxicol.45(1): 66-71|2003|10.1007/s00244-002-0151-5
71676|A||Leitao,M.A., K.H.M. Cardozo, E. Pinto, and P. Colepicolo|PCB-Induced Oxidative Stress in the Unicellular Marine Dinoflagellate Lingulodinium polyedrum|Arch. Environ. Contam. Toxicol.45(1): 59-65|2003|10.1007/s00244-002-0208-5
71677|A||Karakoc,M., and S. Dincer|Effect of Temperatures on Zinc Accumulation in the Gill, Liver, and Kidney of Oreochromis niloticus (L. 1758)|Bull. Environ. Contam. Toxicol.71(5): 1077-1083|2003|10.1007/s00128-003-8666-7
71678|A||Schultz,T.W., and J.T. Burgan|pH-Stress and Toxicity of Nitrophenols to Tetrahymena pyriformis|Bull. Environ. Contam. Toxicol.71(5): 1069-1076|2003|10.1007/s00128-003-9013-8
71679|A||Okamura,H., T. Nishida, Y. Ono, and W.J. Shim|Phytotoxic Effects of Antifouling Compounds on Nontarget Plant Species|Bull. Environ. Contam. Toxicol.71(5): 881-886|2003|10.1007/s00128-003-8803-3
71680|A||Xi,Y.L., and H.Y. Hu|Effect of Thiophanate-Methyl on the Reproduction and Survival of the Freshwater Rotifer Brachionus calyciflorus Pallas|Bull. Environ. Contam. Toxicol.71(4): 722-728|2003|10.1007/s00128-003-0192-0
71681|A||Zeng,Q., B. Liao, Y. Luo, C. Liu, and H. Tang|Inclusion Effects of Highly Water-Soluble Cyclodextrins on the Solubility, Photodegradation, and Acute Toxicity of Methyl Parathion|Bull. Environ. Contam. Toxicol.71(4): 668-674|2003|10.1007/s00128-003-0185-z
71682|A||Kuang,Q.J., W.Y. Zhao, and S.P. Cheng|Toxicity of Dibutyl Phthalate to Algae|Bull. Environ. Contam. Toxicol.71(3): 602-608|2003|10.1007/s00128-003-8559-9
71683|A||Sbrilli,G., E. Calamati, S. Boccalini, B. Bimbi, and F. Pistolesi|Effects of Nutrients and Salinity on the Algal Assay Using Pseudokirchneriella subcapitata (Korshikov) Hindak|Bull. Environ. Contam. Toxicol.71(3): 609-616|2003|10.1007/s00128-003-8633-3
71684|A||Junghans,M., T. Backhaus, M. Faust, M. Scholze, and L.H. Grimme|Toxicity of Sulfonylurea Herbicides to the Green Alga Scenedesmus vacuolatus:  Predictability of Combination Effects|Bull. Environ. Contam. Toxicol.71(3): 585-593|2003|10.1007/s00128-003-8949-z
71685|A||Kruatrachue,M., N. Rangsayatorn, P. Pokethitiyook, E.S. Upatham, and S. Singhakaew|Histopathological Changes in the Gastrointestinal Tract of Fish, Puntius gonionotus, fed on Dietary Cadmium|Bull. Environ. Contam. Toxicol.71(3): 561-569|2003|10.1007/s00128-003-8795-z
71686|A||Tripathi,P.K., and A. Singh|Toxic Effects of Dimethoate and Carbaryl Pesticides on Reproduction and Related Enzymes of the Freshwater Snail Lymnaea acuminata|Bull. Environ. Contam. Toxicol.71(3): 535-542|2003|10.1007/s00128-003-8873-2
71687|A||Amin,O.A., L.I. Comoglio, and E.M. Rodriguez|Toxicity of Cadmium, Lead, and Zinc to Larval Stages of Lithodes santolla (Decapoda, Anomura)|Bull. Environ. Contam. Toxicol.71(3): 527-534|2003|10.1007/s00128-003-8611-9
71688|A||Lehtonen,K.K., and S. Leinio|Effects of Exposure to Copper and Malathion on Metallothionein Levels and Acetylcholinesterase Activity of the Mussel Mytilus edulis and the Clam Macoma balthica from the Northern Baltic Sea|Bull. Environ. Contam. Toxicol.71(3): 489-496|2003|10.1007/s00128-003-8853-6
71689|A||Rayburn,J.R., and R.K. Aladdin|Developmental Toxicity of Copper, Chromium, and Aluminum Using the Shrimp Embryo Teratogenesis Assay:  Palaemonid with Artificial Seawater|Bull. Environ. Contam. Toxicol.71(3): 481-488|2003|10.1007/s00128-003-8741-0
71690|A||Veronica,W., and P.A. Collins|Effects of Cypermethrin on the Freshwater Crab Trichodactylus borellianus (Crustacea:  Decapoda:  Braquiura)|Bull. Environ. Contam. Toxicol.71(1): 106-113|2003|10.1007/s00128-003-0152-8
71691|A||Garcia,E., and R. Salazar|Cadmium-Binding Peptide in Whole Cells of Acetabularia calyculus|Bull. Environ. Contam. Toxicol.71(1): 98-105|2003|10.1007/s00128-003-0136-8
71692|A||Frias-Espericueta,M.G., D. Voltolina, and J.I. Osuna-Lopez|Acute Toxicity of Copper, Zinc, Iron, and Manganese and of the Mixtures Copper-Zinc and Iron-Manganese to Whiteleg Shrimp Litopenaeus vannamei Postlarvae|Bull. Environ. Contam. Toxicol.71(1): 68-74|2003|10.1007/s00128-003-0132-z
71693|A||Saglio,P., S. Bretaud, E. Rivot, and K.H. Olsen|Chemobehavioral Changes Induced by Short-Term Exposures to Prochloraz, Nicosulfuron, and Carbofuran in Goldfish|Arch. Environ. Contam. Toxicol.45(4): 515-524|2003|10.1007/s00244-003-2223-6
71694|A||Alexopoulos,E., C.R. McCrohan, J.J. Powell, R. Jugdaohsingh, and K.N. White|Bioavailability and Toxicity of Freshly Neutralized Aluminium to the Freshwater Crayfish Pacifastacus leniusculus|Arch. Environ. Contam. Toxicol.45(4): 509-514|2003|10.1007/s00244-003-0228-9
71695|A||Markich,S.J., P.L. Brown, R.A. Jeffree, and R.P. Lim|The Effects of pH and Dissolved Organic Carbon on the Toxicity of Cadmium and Copper to a Freshwater Bivalve:  Further Support for the Extended Free Ion Activity Model|Arch. Environ. Contam. Toxicol.45(4): 479-491|2003|10.1007/s00244-003-2175-x
71696|A||Vidal,D.E., and A.J. Horne|Mercury Toxicity in the Aquatic Oligochaete Sparganophilus pearsei II:  Autotomy as a Novel Form of Protection|Arch. Environ. Contam. Toxicol.45(4): 462-467|2003|10.1007/s00244-003-2119-5
71697|A||Geoffroy,L., D. Dewez, G. Vernet, and R. Popovic|Oxyfluorfen Toxic Effect on S. obliquus Evaluated by Different Photosynthetic and Enzymatic Biomarkers|Arch. Environ. Contam. Toxicol.45(4): 445-452|2003|10.1007/s00244-003-2217-4
71698|A||Borges,G., P. Mendonca, N. Joaquim, J. Coucelo, and M. Aureliano|Acute Effects of Vanadate Oligomers on Heart, Kidney, and Liver Histology in the Lusitanian Toadfish (Halobatrachus didactylus)|Arch. Environ. Contam. Toxicol.45(3): 415-422|2003|10.1007/s00244-003-2155-1
71699|A||McCarthy,J.F., L.W. Burrus, and V.R. Tolbert|Bioaccumulation of Benzo(a)pyrene from Sediment by Fathead Minnows:  Effects of Organic Content, Resuspension and Metabolism|Arch. Environ. Contam. Toxicol.45(3): 364-370|2003|10.1007/s00244-003-2148-0
71700|A||Wu,S.M., K.J. Jong, and S.Y. Kuo|Effects of Copper Sulfate on Ion Balance and Growth in Tilapia Larvae (Oreochromis mossambicus)|Arch. Environ. Contam. Toxicol.45(3): 357-363|2003|
71701|A||Heugens,E.H.W., T. Jager, R. Creyghton, M.H.S. Kraak, A.J. Hendriks, N.M. Van Straalen, and W. Admiraal|Temperature-Dependent Effects of Cadmium on Daphnia magna:  Accumulation Versus Sensitivity|Environ. Sci. Technol.37(10): 2145-2151|2003|10.1021/es0264347
71702|A||Wilson,B.A., V.H. Smith, F.,Jr. DeNoyelles, and C.K. Larive|Effects of Three Pharmaceutical and Personal Care Products on Natural Freshwater Algal Assemblages|Environ. Sci. Technol.37(9): 1713-1719|2003|10.1021/es0259741
71703|A||Cho,E.A., A.J. Bailer, and J.T. Oris|Effect of Methyl tert-Butyl Ether on the Bioconcentration and Photoinduced Toxicity of Fluoranthene in Fathead Minnow Larvae (Pimephales promelas)|Environ. Sci. Technol.37(7): 1306-1310|2003|10.1021/es0207551
71704|A||Slaveykova,V.I., K.J. Wilkinson, A. Ceresa, and E. Pretsch|Role of Fulvic Acid on Lead Bioaccumulation by Chlorella kesslerii|Environ. Sci. Technol.37(6): 1114-1121|2003|10.1021/es025993a
71705|A||Shi,D., G. Blackmore, and W.X. Wang|Effects of Aqueous and Dietary Preexposure and Resulting Body Burden on Silver Biokinetics in the Green Mussel Perna viridis|Environ. Sci. Technol.37(5): 936-943|2003|10.1021/es025929t
71706|A||Leung,K.M.Y., H. Ibrahim, R.E. Dewhurst, N.J. Morley, M. Crane, and J.W. Lewis|Concentrations of Metallothionein-Like Proteins and Heavy Metals in the Freshwater Snail Lymnaea stagnalis Exposed to Different Levels of Waterborne Cadmium|Bull. Environ. Contam. Toxicol.71(5): 1084-1090|2003|10.1007/s00128-003-8856-3
71707|A||Pane,E.F., C. Smith, J.C. McGeer, and C.M. Wood|Mechanisms of Acute and Chronic Waterborne Nickel Toxicity in the Freshwater Cladoceran, Daphnia magna|Environ. Sci. Technol.37(19): 4382-4389|2003|10.1021/es034317l
71708|A||Wei,L., J.R. Donat, G. Fones, and B.A. Ahner|Interactions Between Cd, Cu, and Zn Influence Particulate Phytochelatin Concentrations in Marine Phytoplankton:  Laboratory Results and Preliminary Field Data|Environ. Sci. Technol.37(16): 3609-3618|2003|10.1021/es0340026
71709|A||Shaw-Allen,P., M. Elliott, and C.H. Jagoe|A Microscaled Mercury Saturation Assay for Metallothionein in Fish|Environ. Toxicol. Chem.22(9): 2005-2012|2003|10.1897/02-390
71710|A||Fan,C.W., and J.R. Reinfelder|Phenanthrene Accumulation Kinetics in Marine Diatoms|Environ. Sci. Technol.37(15): 3405-3412|2003|10.1021/es026367g
71711|A||Simpson,S.L., M.G.E. Roland, J.L. Stauber, and G.E. Batley|Effect of Declining Toxicant Concentrations on Algal Bioassay Endpoints|Environ. Toxicol. Chem.22(9): 2073-2079|2003|10.1897/02-418
71712|A||Printes,L.B., and A. Callaghan|Intraclonal Variability in Daphnia Acetylcholinesterase Activity:  The Implications for Its Applicability as a Biomarker|Environ. Toxicol. Chem.22(9): 2042-2047|2003|10.1897/02-424
71713|A||Vidal,D.E., and A.J. Horne|Inheritance of Mercury Tolerance in the Aquatic Oligochaete Tubifex tubifex|Environ. Toxicol. Chem.22(9): 2130-2135|2003|10.1897/02-407
71714|A||Regoli,F., G.W. Winston, S. Gorbi, G. Frenzilli, M. Nigro, I. Corsi, and S. Focardi|Integrating Enzymatic Responses to Organic Chemical Exposure with Total Oxyradical Absorbing Capacity and DNA Damage in the European Eel Anguilla anguilla|Environ. Toxicol. Chem.22(9): 2120-2129|2003|10.1897/02-378
71715|A||Bejarano,A.C., A. Widenfalk, A.W. Decho, and G.T. Chandler|Bioavailability of the Organophosphorus Insecticide Chlorpyrifos to the Suspension-Feeding Bivalve, Mercenaria mercenaria, Following Exposure to Dissolved and Particulate Matter|Environ. Toxicol. Chem.22(9): 2100-2105|2003|10.1897/02-293
71716|A||Perez-Legaspi,I.A., and R. Rico-Martinez|Phospholipase A2 Activity in Three Species of Littoral Freshwater Rotifers Exposed to Several Toxicants|Environ. Toxicol. Chem.22(10): 2349-2353|2003|10.1897/02-393
71717|A||Baldwin,D.H., J.F. Sandahl, J.S. Labenia, and N.L. Scholz|Sublethal Effects of Copper on Coho Salmon:  Impacts on Nonoverlapping Receptor Pathways in the Peripheral Olfactory Nervous System|Environ. Toxicol. Chem.22(10): 2266-2274|2003|10.1897/02-428
71718|A||Arenzon,A., R.F. Pinto, P. Colombo, and M.T. Raya-Rodriguez|Assessment of the Freshwater Annual Fish Cynopoecilus melanotaenia as a Toxicity Test Organism Using Three Reference Substances|Environ. Toxicol. Chem.22(9): 2188-2190|2003|10.1897/02-292
71719|A||Taylor,L.N., C.M. Wood, and D.G. McDonald|An Evaluation of Sodium Loss and Gill Metal Binding Properties in Rainbow Trout and Yellow Perch to Explain Species Differences in Copper Tolerance|Environ. Toxicol. Chem.22(9): 2159-2166|2003|10.1897/02-256
71720|A||Teh,S.J., C. Wong, V. Furtula, and F.C. Teh|Lethal and Sublethal Toxicity of Didecyldimethylammonium Chloride in Early Life Stages of White Sturgeon, Acipenser transmontanus|Environ. Toxicol. Chem.22(9): 2152-2158|2003|10.1897/02-285
71721|A||Selck,H., A. Palmqvist, and V.E. Forbes|Biotransformation of Dissolved and Sediment-Bound Fluoranthene in the Polychaete, Capitella sp. I|Environ. Toxicol. Chem.22(10): 2364-2374|2003|10.1897/02-272
71722|A||Selck,H., A. Palmqvist, and V.E. Forbes|Uptake, Depuration, and Toxicity of Dissolved and Sediment-Bound Fluoranthene in the Polychaete, Capitella sp. I|Environ. Toxicol. Chem.22(10): 2354-2363|2003|10.1897/02-271
71723|A||Rohr,J.R., A.A. Elskus, B.S. Shepherd, P.H. Crowley, T.M. McCarthy, J.H. Niedzwiecki, T. Sager, A. Sih, and B.D. Palmer|Lethal and Sublethal Effects of Atrazine, Carbaryl, Endosulfan, and Octylphenol on the Streamside Salamander (Ambystoma barbouri)|Environ. Toxicol. Chem.22(10): 2385-2392|2003|10.1897/02-528
71724|A||Geis,S.W., K. Fleming, A. Mager, and L. Reynolds|Modifications to the Fathead Minnow (Pimephales promelas) Chronic Test Method to Remove Mortality due to Pathogenic Organisms|Environ. Toxicol. Chem.22(10): 2400-2404|2003|10.1897/02-375
71725|A||De Schamphelaere,K.A.C., F.M. Vasconcelos, D.G. Heijerick, F.M.G. Tack, K. Delbeke, H.E. Allen, and C.R. Janssen|Development and Field Validation of a Predictive Copper Toxicity Model for the Green Alga Pseudokirchneriella subcapitata|Environ. Toxicol. Chem.22(10): 2454-2465|2003|10.1897/02-499
71726|A||Mummert,A.K., R.J. Neves, T.J. Newcomb, and D.S. Cherry|Sensitivity of Juvenile Freshwater Mussels (Lampsilis fasciola, Villosa iris) to Total and Un-ionized Ammonia|Environ. Toxicol. Chem.22(11): 2545-2553|2003|10.1897/02-341
71727|A||Newton,T.J., J.W. Allran, J.A. O'Donnell, M.R. Bartsch, and W.B. Richardson|Effects of Ammonia on Juvenile Unionid Mussels (Lampsilis cardium) in Laboratory Sediment Toxicity Tests|Environ. Toxicol. Chem.22(10): 2554-2560|2003|10.1897/02-342
71729|A||Augspurger,T., A.E. Keller, M.C. Black, W.G. Cope, and F.J. Dwyer|Water Quality Guidance for Protection of Freshwater Mussels (Unionidae) from Ammonia Exposure|Environ. Toxicol. Chem.22(11): 2569-2575|2003|10.1897/02-339
71730|A||Edginton,A.N., G.R. Stephenson, P.M. Sheridan, D.G. Thompson, and H.J. Boermans|Effect of pH and Release on Two Life Stages of Four Anuran Amphibians|Environ. Toxicol. Chem.22(11): 2673-2678|2003|10.1897/02-484
71731|A||Boone,M.D., and C.M. Bridges|Effects of Carbaryl on Green Frog (Rana clamitans) Tadpoles: Timing of Exposure Versus Multiple Exposures|Environ. Toxicol. Chem.22(11): 2695-2702|2003|10.1897/02-401
71732|A||Buchwalter,D.B., J.J. Jenkins, and L.R. Curtis|Temperature Influences on Water Permeability and Chlorpyrifos Uptake in Aquatic Insects with Differing Respiratory Strategies|Environ. Toxicol. Chem.22(11): 2806-2812|2003|10.1897/02-350
71733|A||Burke,J., R.D. Handy, and S.D. Roast|Effect of Low Salinity on Cadmium Accumulation and Calcium Homeostasis in the Shore Crab (Carcinus maenas) at Fixed Free Cd2+ Concentrations|Environ. Toxicol. Chem.22(11): 2761-2767|2003|10.1897/02-410
71734|A||VanGenderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine|Influence of Dissolved Organic Matter Source on Silver Toxicity to Pimephales promelas|Environ. Toxicol. Chem.22(11): 2746-2751|2003|10.1897/02-501
71735|A||Boudreau,T.M., C.J. Wilson, W.J. Cheong, P.K. Sibley, S.A. Mabury, D.C.G. Muir, and K.R. Solomon|Response of the Zooplankton Community and Environmental Fate of Perfluorooctane Sulfonic Acid in Aquatic Microcosms|Environ. Toxicol. Chem.22(11): 2739-2745|2003|10.1897/02-394
71736|A||Olapade,O.A., and L.G. Leff|The Effect of Toluene on the Microbial Community of a River in Northeastern Ohio|J. Freshw. Ecol.18(3): 465-478|2003|10.1080/02705060.2003.9663983
71737|A||Stewart,G.M., and N.S. Fisher|Bioaccumulation of Polonium-210 in Marine Copepods|Limnol. Oceanogr.48(5): 2011-2019|2003|10.4319/lo.2003.48.5.2011
71738|A||Atamanalp,M., T. Yanik, H.I. Haliloglu, and M.S. Aras|Alterations in the Hematological Parameters of Rainbow Trout, Oncorhynchus mykiss, Exposed to Cypermethrin|Isr. J. Aquacult. Bamidgeh54(3): 99-103|2002|
71739|A||Brown,M.T., and J.E. Newman|Physiological Responses of Gracilariopsis longissima (S.G. Gmelin) Steentoft, L.M. Irvine and Farnham (Rhodophyceae) to Sub-lethal Copper Concentrations|Aquat. Toxicol.64(2): 201-213|2003|10.1016/S0166-445X(03)00054-7
71740|T||Tukendorf,A., S. Lyszcz, and T. Baszynski|Copper Binding Proteins in Spinach Tolerant to Excess Copper|J. Plant Physiol.115(5): 351-360|1984|10.1016/S0176-1617(84)80034-6
71741|T||Tukendorf,A., and T. Baszynski|Partial Purification and Characterization of Copper-Binding Protein from Roots of Avena sativa Grown on Excess Copper|J. Plant Physiol.120(1): 57-63|1985|10.1016/S0176-1617(85)80122-X
71742|T||Mejborn,H.|Endogenous Zinc Excretion in Relation to Various Levels of Dietary Zinc Intake in the Mink (Mustela vison)|J. Nutr.120:862-868|1990|10.1093/jn/120.8.862
71743|T||Robinson,N.J., and D.A. Thurman|Isolation of a Copper Complex and Its Rate of Appearance in Roots of Mimulus guttatus|Planta (Multiple Languages)169(2): 192-197|1986|10.1007/BF00392313
71744|T||Munthali,D.C.|Biological Efficiency of Small Dicofol Droplets Against Tetranychus urticae (Koch) Eggs, Larvae and Protonymphs|Crop Prot.3(3): 327-334|1984|10.1016/0261-2194(84)90038-3
71745|T||Sampson,M., D. Clarkson, and D.D. Davies|DNA Synthesis in Aluminium-Treated Roots of Barley|Science148:1476-1477|1965|10.1126/science.148.3676.1476
71746|T||Ouzounidou,G., E.P. Eleftheriou, and S. Karataglis|Ecophysical and Ultrastructural Effects of Copper in Thlaspi ochroleucum (Cruciferae)|Can. J. Bot.70(5): 947-957|1992|10.1139/b92-119
71747|T||Muthuchelian,K., S.M.V. Rani, and K. Paliwal|Differential Action of Cu2+ and Cd2+ on Chlorophyll Biosynthesis and Nitrate Reductase Activity in Vigna sinensis L. (Savi)|Indian J. Plant Physiol.31(2): 169-173|1988|
71748|T||Shukla,U.C., and H. Raj|Influence of Genetic Variability on Zinc Response in Wheat|Proc. Soil Sci. Soc. Am.38:477-479|1974|10.2136/sssaj1974.03615995003800030028x
71749|T||Jacquet,P., and J.P. Draye|Toxicity of Chromium Salts to Cultured Mouse Embryos|Toxicol. Lett.12:53-57|1982|10.1016/0378-4274(82)90198-9
71750|T||Darnerud,P.O., T. Sinjari, and C.J. Jonsson|Foetal Uptake of Coplanar Polychlorinated Biphenyl (PCB) Congeners in Mice|Pharmacol. Toxicol.78(3): 187-192|1996|10.1111/j.1600-0773.1996.tb00202.x
71751|T||Stark,J.D.|Comparison of the Impact of a Neem Seed-Kernel Extract Formulation, `Margosan-O' and Chlorpyrifos on Non-Target Invertebrates Inhabiting Turf Grass|Pestic. Sci.36:293-299|1992|10.1002/ps.2780360317
71752|T||Johnson,B.J.|Difference in Tolerance of Bermudagrass and Zoysiagrass Cultivars to Herbicides|In: J.B.Beard (Ed.), Proceedings of the 3rd International Turfgrass Research Conference, Munich, Germany, International Turfgrass Society, Madison, WI:217-225|1977|
71753|T||Rebeiz,C.A., A. Montazer-Zouhoor, H.J. Hopen, and S.M. Wu|Photodynamic Herbicides:  1. Concept and Phenomenology|Enzyme Microb. Technol.6:390-401|1984|10.1016/0141-0229(84)90012-7
71754|T||Neumann,S., E. Grimm, and F. Jacob|Transport of Xenobiotics in Higher Plants I.  Structural Prerequisites for Translocation in the Phloem|Biochem. Physiol. Pflanzen (Multiple Languages)180:257-268|1985|10.1016/S0015-3796(85)80001-9
71755|T||Weinman,C.J., and G.C. Decker|Chlorinated Hydrocarbon Insecticides Used Alone and in Combinations for Grasshopper Control|J. Econ. Entomol.42(1): 135-142|1949|10.1093/jee/42.1.135
71756|T||Farlow,R.A., and H.N. Pitre|Bioactivity of the Postemergent Herbicides Acifluorfen and Bentazon on Geocoris punctipes (Say) (Hemiptera:  Lygaeidae)|J. Econ. Entomol.76:200-203|1983|10.1093/jee/76.1.200
71757|T||Connin,R.V., and L.C. Kuitert|Control of the American Grasshopper with Organic Insecticides in Florida|J. Econ. Entomol.45:684-687|1952|10.1093/jee/45.4.684
71758|T||Brown,A.W.A., and H. Hurtig|Organic Insecticides for the Lesser Migratory Locust|J. Econ. Entomol.40(2): 276-277|1947|10.1093/jee/40.2.276
71759|T||Sheppard,D.C., and N.C. Hinkle|Pyrethroid Resistance in Horn Flies:  The Problem, Causes, and Possible Solutions|J. Agric. Entomol.2(4): 317-324|1985|
71760|T||Morze,J.|Chemical Control of Gleichenia polypodioides Fern and Bracken|S. Afr. For. J.108:43-44|1979|10.1080/00382167.1979.9630494
71761|T||Kunz,S.E., and C.D. Schmidt|The Pyrethroid Resistance Problem in the Horn Fly|J. Agric. Entomol.2(4): 358-363|1985|
71763|T||Goodall,J.M., R.P. Denny, and H.M. Dicks|"The Effects of Five Herbicides on Pinus patula Saplings when Applied ""Over-the-Top"" for Woody Weed Control"|S. Afr. For. J.157:38-46|1991|10.1080/00382167.1991.9629098
71764|T||Gronwald,J.W., R.N. Andersen, and C. Yee|Atrazine Resistance in Velvetleaf (Abutilon theophrasti) Due to Enhanced Atrazine Detoxification|Pestic. Biochem. Physiol.34:149-163|1989|10.1016/0048-3575(89)90153-3
71765|T||Skoog,F.E., F.T. Cowan, and R.V. Connin|Laboratory and Field Tests of New Insecticides for Grasshopper Control|J. Econ. Entomol.54:170-174|1961|10.1093/jee/54.1.170
71766|T||De Cal,A., and P. Melgarejo|Impact of Pesticides on Non-Target Fungi of Peach Twigs|Br. Crop Prot. Conf. Pests Dis.2:733-738|1988|
71767|T||Hughes,P.B.|Organophosphorus Resistance in the Sheep Blowfly, Lucilia cuprina (Wiedemann) (Diptera:  Calliphoridae):  A Genetic Study Incorporating Synergists|Bull. Entomol. Res.72(4): 573-582|1982|10.1017/S0007485300008609
71768|T||Edwards,C.A.|The Use of Key Indicator Processes for Assessment of the Effects of Pesticides on Soil Ecosystems|Br. Crop Prot. Conf. Pests Dis.2:739-746|1988|
71770|T||Thomas,M., and S.C. Vyas|Nodulation and Yield of Chickpea Treated with Fungicides at Sowing|Int. Chickpea Newsl.11:37-38|1984|
71771|A||Bean,B., and A. Harris|Selective Inhibition of Flagellar Activity in Chlamydomonas by Nickel|J.Protozool.26(2): 235-240|1979|10.1111/j.1550-7408.1979.tb02769.x
71772|A||Sicko-Goad,L., and E.F. Stoermer|A Morphometric Study of Lead and Copper Effects on Diatoma tenue var. elongatum (Bacillariophyta)|J. Phycol.15:316-321|1979|
71773|A||Nagabhushanam,R., G. Gyananath, and R. Sarojini|Toxicity of Three Organophosphate Compounds and Their Effect on the Gonad of Freshwater Prawn, Macrobrachium lamerrii|Indian J. Comp. Anim. Physiol.1(1): 71-75|1983|
71774|A||Bakthavathsalam,R., and Y.S. Reddy|Changes in the Content of Glycogen and Its Metabolites During Acute Exposure of Anabas testudineus (Bloch) to Furadan|J. Biosci.4(1): 19-24|1982|10.1007/BF02702577
71776|A||Norland,S., M. Heldal, T. Lien, and G. Knutsen|Different Toxic Responses of the Green Algae Chlamydomonas reinhardti and Dunaliella bioculata|In: Environment and Quality of Life, Principles for the Interpretation of the Results of Testing Procedures in Ecotoxicology, EUR 7549, 342, Comm.Eur.Commun., Luxembourge, Belgium:342-350|1982|
71777|A||Goulding,K.H., N.V. Badami, and R.J.W. Cremlyn|The Algaecidal Activity of Some Substituted 1,3-Diphenylureas, 1-Phenyl-3-(2-Pyridyl)Ureas and the Corresponding Thioureas|Pestic. Sci.9:213-218|1978|10.1002/ps.2780090305
71778|AT||Loeppky,C., and B.G. Tweedy|Effects of Selected Herbicides upon Growth of Soil Algae|Weed Sci.17:110-113|1969|10.1017/S0043174500031040
71780|A||Raizada,M.N., and A. Gupta|Toxic Effects of RH-2161 (a Systemic Fungicide) on Total Erythrocyte Counts (RBC) and Haemoglobin Content (HB) of Trichogaster fasciatus|Comp. Physiol. Ecol.7(1): 29-30|1982|
71781|A||Chatterjee,S., N.B. Jash, and S. Bhattacharya|In Vivo and In Vitro Activation of Peroxidase in the Head Kidney of Channa punctatus (Bloch) by Sublethal Doses of Carbofuran|Comp. Physiol. Ecol.7(2): 129-131|1982|
71782|A||Zingmark,R.G., and T.G. Miller|The Effects of Mercury on the Photosynthesis and Growth of Estuarine and Oceanic Phytoplankton|In: F.J.Vernberg (Ed.), Physiological Ecology of Estuarine Organisms, University of South Carolina Press, Columbia, SC:45-57|1975|
71783|A||Shabana,E.F.|Use of Batch Assays to Assess the Toxicity of Atrazine to Some Selected Cyanobacteria  I.  Influence of Atrazine on the Growth, Pigmentation and Carbohydrate Contents of Aulosira fertilissima, Anabaena oryzae, Nostoc mu|J. Basic Microbiol.27(2): 113-119|1987|10.1002/jobm.3620270214
71784|A||Merwani,D.|Toxic Effect of Fernoxone (Weedicide) on Survival Percentage and Gulf Rate of Punctius ticto (Ham.)|J. Sci. Res.4(1): 23-24|1982|
71785|A||Wright,A.D., and A.S. Bourne|Effect of 2,4-D on the Quality of Water Hyacinth as Food for Insects|Plant Prot. Q.5(4): 139-141|1990|
71786|A||Urbach,W., G. Lurz, H. Hartmeyer, and D. Urbach|Induction of Reversible Tolerance of Algal Cells to Various Herbicides.  I.  Inhibition of Photosynthesis by Phenol Herbicides and Dibromothylmoquinone, Its Reversal and Development of Insensitivity to Different Herbici|Z. Naturforsch. Sect. C J. Biosci.34:951-956|1979|10.1515/znc-1979-1114
71787|A||Urbach,D., M. Suchanka, and W. Urbach|Effect of Substituted Pyridazinone Herbicides and of Difunone (EMD-IT 5914) on Carotenoid Biosynthesis in Green Algae|Z. Naturforsch. Sect. C J. Biosci.31:652-655|1976|10.1515/znc-1976-11-1204
71788|A||Singh,S.P., and A.K. Pandey|Cadmium Toxicity in a Cyanobacterium:  Effect of Modifying Factors|Environ. Exp. Bot.21(2): 257-266|1981|10.1016/0098-8472(81)90033-2
71789|A||Heisig-Gunkel,G., and G. Gunkel|Distribution of a Herbicide (Atrazine, s-Triazine) in Daphnia pulicaria: A New Approach to Determination|Arch. Hydrobiol.59(4): 359-376|1982|
71790|A||Babu,G.R., and P.V. Rao|Heavy Metal Ion Toxicity in the Freshwater Gastropod Snail Host, Lymnaea luteola|Indian J. Physiol. Pharmacol.26:141-146|1982|
71791|A||Wright,S.J.L., A.F. Stainthorpe, and J.D. Downs|Interactions of the Herbicide Propanil and a Metabolite, 3,4-Dichloroanaline, with Blue-Green Algae|Acta. Phytopathol. Acad. Sci. Hung.12(1/2): 51-60|1977|
71792|A||Daniel,G.F., and A.H.L. Chamberlain|Copper Immobilization in Fouling Diatoms|Bot. Mar.24:229-243|1981|10.1515/botm.1981.24.4.229
71793|A||Hicks,R.E., and S.Y. Newell|The Growth of Bacteria and the Fungus Phaeosphaeria typharum (Desm.) Holm (Eumycota: Asomycotina) in Salt-Marsh Microcosms in the Presence and Absence of Mercury|J. Exp. Mar. Biol. Ecol.78(1/2): 143-155|1984|10.1016/0022-0981(84)90075-3
71794|A||Jensen,T.E., J.W. Rachlin, V. Jani, and B. Warkentine|An X-Ray Energy Dispersive Study of Cellular Compartmentalization of Lead and Zinc in Chlorella saccharophila (Chlorophyta), Navicula incerta and Nitzschia closterium (Bacillariophyta)|Environ. Exp. Bot.22(3): 319-328|1982|10.1016/0098-8472(82)90024-7
71795|A||Massalski,A., V.M. Laube, and D.J. Kushner|Effects of Cadmium and Copper on the Ultrastructure of Ankistrodesmus braunii and Anabaena 7120|Microb. Ecol.7:183-193|1981|10.1007/BF02032499
71796|A||Nakano,Y., K. Okamoto, S. Toda, and K. Fuwa|Toxic Effects of Cadmium on Euglena gracilis Grown in Zinc Deficient and Zinc Sufficient Media|Agric. Biol. Chem.42(5): 901-907|1978|
71797|A||Christoffersen,K., B.W. Hansen, L.S. Johansson, and E. Krog|Influence of LAS on Marine Calanoid Copepod Population Dynamics and Potential Reproduction|Aquat. Toxicol.63(4): 405-416|2003|10.1016/S0166-445X(02)00200-X
71798|A||Singh,S.P., and V. Yadava|Cadmium Induced Inhibition of Nitrate Uptake in Anacystis nidulans: Interaction with Other Divalent Cations|J. Gen. Appl. Microbiol.29:297-304|1983|10.2323/jgam.29.297
71799|A||Chitra,T., M.M. Reddy, and J.V.R. Rao|Ionic Variations in Tissues of Channa punctatus Bloch on Exposure to NAF|Fluoride16:60-63|1983|
71800|A||Bentley-Mowat,J.A., and S.M. Reid|Survival of Marine Phytoplankton in high Concentrations of Heavy Metals, and Uptake of Copper|J. Exp. Mar. Biol. Ecol.26:249-264|1977|10.1016/0022-0981(77)90085-5
71801|A||Flament,S., S. Kuntz, A. Chesnel, I. Grillier-Vuissoz, C. Tankozic, M. Penrad-Mobayed, G. Auque, P. Shirali, H. Schroed|Effect of Cadmium on Gonadogenesis and Metamorphosis in Pleurodeles waltl (Urodele Amphibian)|Aquat. Toxicol.64(2): 143-153|2003|10.1016/S0166-445X(03)00042-0
71802|A||Shabana,E.F.|Use of Batch Assays to Assess the Toxicity of Atrazine to Some Selected Cyanobacteria. II. Effect of Atrazine on Heterocyst Frequency, Nitrogen and Phosphorus Metabolism of Four Heterocystous Cyanobacteria|J. Basic Microbiol.27(4): 215-223|1987|10.1002/jobm.3620270412
71803|A||Desouky,M.M., C.R. McCrohan, R. Jugdaohsingh, J.J. Powell, and K.N. White|Effect of Orthosilicic Acid on the Accumulation of Trace Metals by the Pond Snail Lymnaea stagnalis|Aquat. Toxicol.64(1): 63-71|2003|10.1016/S0166-445X(03)00027-4
71804|A||Sancho,E., M.D. Ferrando, A. Ten, and E. Andreu-Moliner|Bioconcentration and Excretion of Fenitrothion in the Brain of the Eel (Anguilla anguilla)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(6): 901-914|1997|
71805|A||Friberg-Jensen,U., L. Wendt-Rasch, P. Woin, and K. Christoffersen|Effects of the Pyrethroid Insecticide, Cypermethrin, on a Freshwater Community Studied Under Field Conditions. I. Direct and Indirect Effects on Abundance Measures of Organisms at Different Trophic Levels|Aquat. Toxicol.63(4): 357-371|2003|10.1016/S0166-445X(02)00201-1
71806|A||Guasch,H., W. Admiraal, and S. Sabater|Contrasting Effects of Organic and Inorganic Toxicants on Freshwater Periphyton|Aquat. Toxicol.64(2): 165-175|2003|10.1016/S0166-445X(03)00043-2
71807|A||Weinberger,P., D. Sher, and R. Greenhalgh|Interaction Between Co-Solvents and Algae in the Residue Dynamics of Fenitrothion|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes18(2): 269-281|1983|
71808|A||Hill,R.L.,Jr., and D.M. Janz|Developmental Estrogenic Exposure in Zebrafish (Danio rerio): I.  Effects on Sex Ratio and Breeding Success|Aquat. Toxicol.63(4): 417-429|2003|10.1016/S0166-445X(02)00207-2
71809|A||Schulz,R., M.T. Moore, E.R. Bennett, J.L. Farris, S.,Jr. Smith, and C.M. Cooper|Methyl Parathion Toxicity in Vegetated and Nonvegetated Wetland Mesocosms|Environ. Toxicol. Chem.22(6): 1262-1268|2003|10.1002/etc.5620220611
71810|A||Naddy,R.B., G.R. Stern, and R.W. Gensemer|Effect of Culture Water Hardness on the Sensitivity of Ceriodaphnia dubia to Copper Toxicity|Environ. Toxicol. Chem.22(6): 1269-1271|2003|10.1002/etc.5620220612
71811|A||Purdom,C.E., P.A. Hardiman, V.J. Bye, N.C. Eno, C.R. Tyler, and J.P. Sumpter|Estrogenic Effects of Effluents from Sewage Treatment Works|Chem. Ecol.8:275-285|1994|10.1080/02757549408038554
71812|A||Sillanpaa,M., K. Pirkanniemi, and P. Dhondup|The Acute Toxicity of Gluconic Acid, beta-Alaninediacetic Acid, Diethylenetriaminepentakismethylenephosphonic Acid, and Nitrilotriacetic Acid Determined by Daphnia magna, Raphidocelis subcapitata, and Photobacterium pho|Arch. Environ. Contam. Toxicol.44(3): 332-335|2003|10.1007/s00244-002-1220-5
71813|A||Schultz,I.R., A. Skillman, J.M. Nicolas, D.G. Cyr, and J.J. Nagler|Short-Term Exposure to 17alpha-Ethynylestradiol Decreases the Fertility of Sexually Maturing Male Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.22(6): 1272-1280|2003|
71814|A||Center,T.D., K.K. Steward, and M.C. Bruner|Control of Water Hyacinth (Eichhornia crassipes) with Neochetina eichhorniae (Coleoptera:  Curculionidae) and a Growth Retardant|Weed Sci.30:453-457|1982|10.1017/S0043174500040960
71815|A||Wu,R.S.S., C.A. Pollino, D.W.T. Au, G.J. Zheng, B.B.H. Yuen, and P.K.S. Lam|Evaluation of Biomarkers of Exposure and Effect in Juvenile Areolated Grouper (Epinephelus areolatus) on Foodborne Exposure to Benzo(a)pyrene|Environ. Toxicol. Chem.22(7): 1568-1573|2003|10.1002/etc.5620220720
71816|A||Singh,R.K., B.D. Singh, and H.N. Singh|Inhibition of Photosystem II of Nitrogen-Fixing Blue-Green Alga Nostoc linckia by the Rice-Field Herbicide Benthiocarb|Z. Allg. Mikrobiol.23(7): 435-441|1983|
71817|A||Novelli,A.A., C. Losso, P.F. Ghetti, and A.V. Ghirardini|Toxicity of Heavy Metals Using Sperm Cell and Embryo Toxicity Bioassays with Paracentrotus lividus (Echinodermata: Echinoidea): Comparisons with Exposure Concentrations in the Lagoon of Venice, Italy|Environ. Toxicol. Chem.22(6): 1295-1301|2003|10.1002/etc.5620220616
71818|A||Patino,R., M.R. Wainscott, E.I. Cruz-Li, S. Balakrishnan, C. McMurry, V.S. Blazer, and T.A. Anderson|Effects of Ammonium Perchlorate on the Reproductive Performance and Thyroid Follicle Histology of Zebrafish|Environ. Toxicol. Chem.22(5): 1115-1121|2003|10.1002/etc.5620220520
71819|A||Irving,E.C., D.J. Baird, and J.M. Culp|Ecotoxicological Responses of the Mayfly Baetis tricaudatus to Dietary and Waterborne Cadmium:  Implications for Toxicity Testing|Environ. Toxicol. Chem.22(5): 1058-1064|2003|10.1002/etc.5620220513
71820|A||Bianchini,A., and C.M. Wood|Mechanism of Acute Silver Toxicity in Daphnia magna|Environ. Toxicol. Chem.22(6): 1361-1367|2003|10.1002/etc.5620220624
71821|A||Ankley,G.T., K.M. Jensen, E.A. Makynen, M.D. Kahl, J.J. Korte, M.W. Hornung, T.R. Henry, J.S. Denny, R.L. Leino, V.S. W|Effects of the Androgenic Growth Promoter 17-beta-Trenbolone on Fecundity and Reproductive Endocrinology of the Fathead Minnow|Environ. Toxicol. Chem.22(6): 1350-1360|2003|10.1002/etc.5620220623
71822|A||Artola-Garicano,E., T.L. Sinnige, I. Van Holsteijn, W.H.J. Vaes, and J.L.M. Hermens| (Chironomus riparius and Lumbriculus variegatus)|Environ. Toxicol. Chem.22(5): 1086-1092|2003|10.1002/etc.5620220516
71823|A||Lalah,J.O., A. Behechti, G.F. Severin, D. Lenoir, K. Gunther, A. Kettrup, and K.W. Schramm|The Bioaccumulation and Fate of a Branched 14C-p-Nonylphenol Isomer in Lymnaea stagnalis L.|Environ. Toxicol. Chem.22(7): 1428-1436|2003|
71824|A||Webber,H.M., and T.A. Haines|Mercury Effects on Predator Avoidance Behavior of a Forage Fish, Golden Shiner (Notemigonus crysoleucas)|Environ. Toxicol. Chem.22(7): 1556-1561|2003|10.1002/etc.5620220718
71825|A||Zeng,E.Y., S.M. Bay, D. Greenstein, C. Vista, C. Yu, and K. Ritter|Toxic Effects of Polychlorinated Biphenyl Bioaccumulation in Sea Urchins Exposed to Contaminated Sediments|Environ. Toxicol. Chem.22(5): 1065-1074|2003|
71827|A||Stratton,G.W.|Interaction Effects of Mercury-Pesticide Combinations Towards a Cyanobacterium|Bull. Environ. Contam. Toxicol.34(5): 676-683|1985|10.1007/BF01609792
71828|A||De Boeck,G., B. De Wachter, A. Vlaeminck, and R. Blust|Effect of Cortisol Treatment and/or Sublethal Copper Exposure on Copper Uptake and Heat Shock Protein Levels in Common Carp, Cyprinus carpio|Environ. Toxicol. Chem.22(5): 1122-1126|2003|10.1002/etc.5620220521
71829|A||Seki,M., H. Yokota, H. Matsubara, M. Maeda, H. Tadokoro, and K. Kobayashi|Fish Full Life-Cycle Testing for the Weak Estrogen 4-tert-Pentylphenol on Medaka (Oryzias latipes)|Environ. Toxicol. Chem.22(7): 1487-1496|2003|
71830|A||Thomas-Jones,E., N. Walkley, C. Morris, P. Kille, J. Cryer, I. Weeks, and J.S. Woodhead|Quantitative Measurement of Fathead Minnow Vitellogenin mRNA Using Hybridization Protection Assays|Environ. Toxicol. Chem.22(5): 992-995|2003|10.1002/etc.5620220506
71831|A||Amla,D.V., and P.N. Saxena|Effect of Panacide on Growth, Macromolecule Synthesis & Photosynthetic Pigments in the Green Alga Scenedesmus obliquus|Indian J. Exp. Biol.18:315-316|1980|
71832|A||Kostyaev,V.Y.|Effect of Some Heavy Metals on Cyanobacteria|Mikrobiologia (Mosc.) (Non-English)49:665-667|1981|
71833|A||Hanson,M.L., H. Sanderson, and K.R. Solomon|Variation, Replication, and Power Analysis of Myriophyllum spp. Microcosm Toxicity Data|Environ. Toxicol. Chem.22(6): 1318-1329|2003|10.1002/etc.5620220619
71834|A||Herczeg,T., E. Lehoczki, I. Rojik, I. Vass, T. Farkas, and L. Szalay|Stimulatory Effects of Pyridazinone Herbicides on Chlorella|Plant Sci. Lett.19:285-294|1980|10.1016/0304-4211(80)90083-8
71835|A||Gourlay,C., M.H. Tusseau-Vuillemin, J. Garric, and J.M. Mouchel|Effect of Dissolved Organic Matter of Various Origins and Biodegradabilities on the Bioaccumulation of Polycyclic Aromatic Hydrocarbons in Daphnia magna|Environ. Toxicol. Chem.22(6): 1288-1294|2003|10.1002/etc.5620220615
71836|A||Sicko-Goad,L., and D. Lazinsky|Synergistic Effects of Phosphorus Nutrient Status and Lead Exposure in Three Algae|Micron Microsc. Acta14(3): 261-262|1983|10.1016/0047-7206(83)90060-2
71837|A||Weinstein,J.E., D.M. Sanger, and A.F. Holland|Bioaccumulation and Toxicity of Fluoranthene in the Estuarine Oligochaete Monopylephorus rubroniveus|Ecotoxicol. Environ. Saf.55(3): 278-286|2003|10.1016/S0147-6513(02)00080-5
71838|A||Shukla,S.P., T.A. Kumar, D.N. Tiwari, B.P. Mishra, and G.S. Gupta|Assessment of the Effect of the Toxicity of a Textile Dye on Nostoc muscorum ISU, a Diazotrophic Cyanobacterium|Environ. Pollut.84:23-25|1994|10.1016/0269-7491(94)90066-3
71839|A||Graff,L., P. Isnard, P. Cellier, J. Bastide, J.P. Cambon, J.F. Narbonne, H. Budzinski, and P. Vasseur|Toxicity of Chemicals to Microalgae in River and in Standard Waters|Environ. Toxicol. Chem.22(6): 1368-1379|2003|10.1002/etc.5620220625
71840|A||Sikka,H.C., and D. Pramer|Physiological Effects of Fluometuron on Some Unicellular Algae|Weed Sci.16:296-299|1968|10.1017/S0043174500047184
71841|A||Flavin,M., and C. Slaughter|Microtubule Assembly and Function in Chlamydomonas:  Inhibition of Growth and Flagellar Regeneration by Antitubulins and Other Drugs and Isolation of Resistant Mutants|J. Bacteriol.118(1): 59-69|1974|10.1128/jb.118.1.59-69.1974
71842|A||Raftos,D., and A. Hutchinson|Effects of Common Estuarine Pollutants on the Immune Reactions of Tunicates|Biol. Bull.192(1): 62-72|1997|10.2307/1542576
71843|A||Rai,P.K., N. Mallick, and L.C. Rai|Effect of Cu and Ni on Growth, Mineral Uptake, Photosynthesis and Enzyme Activities of Chlorella vulgaris at Different pH Values|Biomed. Environ. Sci.7(1): 56-67|1994|
71844|A||Wong,M.H., and D.C.H. Pak|Removal of Cu and Ni by Free and Immobilized Microalgae|Biomed. Environ. Sci.5(2): 99-108|1992|
71845|A||Haag,K.H., M.S. Glenn, and J.C. Jordan|Selective Patterns of Herbicide Application for Improved Biological Control of Waterhyacinth|J. Aquat. Plant Manag.26:17-19|1988|
71846|A||Kashyap,A.K., and K.D. Pandey|Inhibitory Effects of Rice-Field Herbicide Machete on Anabaena doliolum Bharadwaja and Protection by Nitrogen Sources|Z. Pflanzenphysiol. (Multiple Languages)107:339-345|1982|10.1016/S0044-328X(82)80200-6
71847|A||Stary,J., K. Kratzer, and J. Prasilova|The Cumulation of Methylmercury and Phenylmercury Species on Alga|J. Indian Chem. Soc.59:1329-1330|1982|
71848|A||Gardner,M.J., E. Dixon, I. Sims, and P. Whitehouse|Importance of Speciation in Aquatic Toxicity Tests with Aluminum|Bull. Environ. Contam. Toxicol.68(2): 195-200|2002|10.1007/s001280238
71849|A||Lorenzon,S., M. Francese, V.J. Smith, and E.A. Ferrero|Heavy Metals Affect the Circulating Haemocyte Number in the Shrimp Palaemon elegans|Fish Shellfish Immunol.11(6): 459-472|2001|10.1006/fsim.2000.0321
71850|A||Cripe,G.M., C.L.,Jr. McKenney, M.D. Hoglund, and P.S. Harris|Effects of Fenoxycarb Exposure on Complete Larval Development of the Xanthid Crab, Rhithropanopeus harrisii|Environ. Pollut.125(2): 295-299|2003|10.1016/S0269-7491(02)00414-1
71851|A||Topping,G., and H.L. Windom|Biological Transport of Copper at Loch Ewe and Saanich Inlet: Controlled Ecosystem Pollution Experiment|Bull. Mar. Sci.27(1): 135-141|1977|
71852|A||Kumar,M., S.P. Trivedi, I. Banerjee, and A. Soni|Influence of Anionic Surfactant, Linear Alkyl Benzene Sulphonate on Ovarian Phosphatase Activity in Heteropneustes fossilis (Bloch)|Himalayan J. Environ. Zool.14(1): 53-58|2000|
71853|A||Ferrari,B., N. Paxeus, R. Lo Giudice, A. Pollio, and J. Garric|Ecotoxicological Impact of Pharmaceuticals Found in Treated Wastewaters: Study of Carbamazepine, Clofibric Acid, and Diclofenac|Ecotoxicol. Environ. Saf.55(3): 359-370|2003|10.1016/S0147-6513(02)00082-9
71854|A||Thake,B., L. Herfort, M. Randone, and G. Hill|Susceptibility of the Invasive Seaweed Caulerpa taxifolia to Ionic Aluminium|Bot. Mar.46(1): 17-23|2003|10.1515/BOT.2003.004
71855|A||Shackleton,A.L., D.S. Schoeman, and B.K. Newman|Bioassays for Coastal Water Quality:  An Assessment Using the Larval Development of Haliotis midae L|Water SA28(4): 457-461|2002|10.4314/wsa.v28i4.4919
71856|A||Jimenez,A., E. Cano, and M.E. Ocete|Mortality and Survival of Procambarus clarkii Girard, 1852 upon Exposure to Different Insecticide Products|Bull. Environ. Contam. Toxicol.70(1): 131-137|2003|10.1007/s00128-002-0166-7
71857|A||Mann,R.M., and J.R. Bidwell|The Toxicity of Glyphosate and Several Glyphosate Formulations to Four Species of Southwestern Australian Frogs|Arch. Environ. Contam. Toxicol.36(2): 193-199|1999|10.1007/s002449900460
71858|A||Seki,M., H. Yokota, M. Maeda, H. Tadokoro, and K. Kobayashi|Effects of 4-Nonylphenol and 4-tert-Octylphenol on Sex Differentiation and Vitellogenin Induction in Medaka (Oryzias latipes)|Environ. Toxicol. Chem.22(7): 1507-1516|2003|
71859|A||Castro,B.B., L. Guilhermino, and R. Ribeiro|In Situ Bioassay Chambers and Procedures for Assessment of Sediment Toxicity with Chironomus riparius|Environ. Pollut.125:325-335|2003|10.1016/S0269-7491(03)00120-9
71860|A||Everett,K.D.E., and H.W. Dickerson|Ichthyophthirius multifiliis and Tetrahymena thermophila Tolerate Glyphosate but not a Commercial Herbicidal Formulation|Bull. Environ. Contam. Toxicol.70(4): 731-738|2003|10.1007/s00128-003-0044-y
71861|A||Erben,R., I. Maguire, J. Lajtner, M. Barcot, and Z. Pisl|Effect of Some Monocyclic Aromatic Hydrocarbons on Freshwater Invertebrates|Bull. Environ. Contam. Toxicol.70(1): 124-130|2003|10.1007/s00128-002-0165-8
71862|A||Gravato,C., and M.A. Santos|Genotoxicity Biomarkers' Association with B(a)P Biotransformation in Dicentrarchus labrax L.|Ecotoxicol. Environ. Saf.55(3): 352-358|2003|10.1016/S0147-6513(02)00070-2
71863|A||Keinanen,M., C. Tigerstedt, P. Kalax, and P.J. Vuorinen|Fertilization and Embryonic Development of Whitefish (Coregonus lavaretus lavaretus) in Acidic Low-Ionic-Strength Water with Aluminum|Ecotoxicol. Environ. Saf.55(3): 314-329|2003|10.1016/S0147-6513(02)00128-8
71864|A||Zhang,L., R. Gibble, and K.N. Baer|The Effects of 4-Nonylphenol and Ethanol on Acute Toxicity, Embryo Development, and Reproduction in Daphnia magna|Ecotoxicol. Environ. Saf.55(3): 330-337|2003|10.1016/S0147-6513(02)00081-7
71865|A||Sepic,E., M. Bricelj, and H. Leskovsek|Toxicity of Fluoranthene and Its Biodegradation Metabolites to Aquatic Organisms|Chemosphere52(7): 1125-1133|2003|10.1016/S0045-6535(03)00321-7
71866|A||Broomhall,S., and R. Shine|Effects of the Insecticide Endosulfan and Presence of Congeneric Tadpoles on Australian Treefrog (Litoria freycineti) Tadpoles|Arch. Environ. Contam. Toxicol.45(2): 221-226|2003|10.1007/s00244-003-0172-8
71867|A||Richards,S.M., and R.J. Kendall|Physical Effects of Chlorpyrifos on Two Stages of Xenopus laevis|J. Toxicol. Environ. Health Part A66(1): 75-91|2003|10.1080/15287390306461
71868|A||Brinkworth,L.C., P.V. Hodson, S. Tabash, and P. Lee|CYP1A Induction and Blue Sac Disease in Early Developmental Stages of Rainbow Trout (Oncorhynchus mykiss) Exposed to Retene|J. Toxicol. Environ. Health Part A66(7): 627-646|2003|10.1080/15287390309353771
71869|A||Mansilla-Rivera,I., and J.O. Nriagu|Copper Complexation and Toxicity to Phytoplankton in the Huron River, a Lake Erie Tributary|J. Great Lakes Res.29(1): 105-115|2003|10.1016/S0380-1330(03)70419-5
71871|A||Stupak,M.E., M.T. Garcia, and M.C. Perez|Non-Toxic Alternative Compounds for Marine Antifouling Paints|Int. Biodeterior. Biodegrad.52(1): 49-52|2003|10.1016/S0964-8305(03)00035-0
71872|A||Couderchet,M., and G. Vernet|Pigments as Biomarkers of Exposure to the Vineyard Herbicide Flazasulfuron in Freshwater Algae|Ecotoxicol. Environ. Saf.55(3): 271-277|2003|10.1016/S0147-6513(02)00064-7
71873|A||Shim,W.J., J.K. Jeon, S.H. Hong, N.S. Kim, U.H. Yim, J.R. Oh, and Y.B. Shin|Accumulation of Tributyltin in Olive Flounder, Paralichthys olivaceus:  Its Effect on Hepatic Cytochrome P450|Arch. Environ. Contam. Toxicol.44(3): 390-397|2003|10.1007/s00244-002-2054-x
71874|A||Chan,S.M., W.X. Wang, and I.H. Ni|The Uptake of Cd, Cr, and Zn by the Macroalga Enteromorpha crinita and Subsequent Transfer to the Marine Herbivorous Rabbitfish, Siganus canaliculatus|Arch. Environ. Contam. Toxicol.44(3): 298-306|2003|10.1007/s00244-002-2077-3
71875|A||Boudreau,T.M., P.K. Sibley, S.A. Mabury, D.G.C. Muir, and K.R. Solomon|Laboratory Evaluation of the Toxicity of Perfluorooctane Sulfonate (PFOS) on Selenastrum capricornutum, Chlorella vulgaris, Lemna gibba, Daphnia magna, and Daphnia pulicaria|Arch. Environ. Contam. Toxicol.44(3): 307-313|2003|10.1007/s00244-002-2102-6
71876|A||Fajer-Avila,E.J., I. Abdo-De la Parra, G. Aguilar-Zarate, R. Contreras-Arce, J. Zaldivar-Ramirez, and M. Betancourt-Loz|Toxicity of Formalin to Bullseye Puffer Fish (Sphoeroides annulatus Jenyns, 1843) and Its Effectiveness to Control Ectoparasites|Aquaculture223(1-4): 41-50|2003|10.1016/S0044-8486(03)00166-2
71877|A||Hagen,N.T.|KCl Induced Paralysis Facilitates Detachment of Hatchery Reared Juvenile Green Sea Urchins, Strongylocentrotus droebachiensis|Aquaculture216(1): 155-164|2003|10.1016/S0044-8486(02)00510-0
71878|A||Foss,A., T. Vollen, and V. Oiestad|Growth and Oxygen Consumption in Normal and O2 Supersaturated Water, and Interactive Effects of O2 Saturation and Ammonia on Growth in Spotted Wolffish (Anarhichas minor Olafsen)|Aquaculture224(1-4): 105-116|2003|10.1016/S0044-8486(03)00209-6
71879|A||Yap,C.K., A. Ismail, S.G. Tan, and I.A. Rahim|Can the Shell of the Green-Lipped Mussel Perna viridis from the West Coast of Peninsular Malaysia be a Potential Biomonitoring Material for Cd, Pb and Zn?|Estuar. Coast. Shelf Sci.57(4): 623-630|2003|10.1016/S0272-7714(02)00401-8
71880|A||MacLatchy,D.L., S.C. Courtenay, C.D. Rice, and G.J. Van der Kraak|Development of a Short-Term Reproductive Endocrine Bioassay Using Steroid Hormone and Vitellogenin End Points in the Estuarine Mummichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.22(5): 996-1008|2003|
71881|A||Bridges,C.M., and R.D. Semlitsch|Variation in Pesticide Tolerance of Tadpoles Among and Within Species of Ranidae and Patterns of Amphibian Decline|Conserv. Biol.14(5): 1490-1499|2000|10.1046/j.1523-1739.2000.99343.x
71882|A||Nicholson,S.|Lysosomal Membrane Stability, Phagocytosis and Tolerance to Emersion in the Mussel Perna viridis (Bivalvia: Mytilidae) Following Exposure to Acute, Sublethal, Copper|Chemosphere52(7): 1147-1151|2003|10.1016/S0045-6535(03)00328-X
71883|A||West,L.J.A., K. Li, B.M. Greenberg, G. Mierle, and R.E.H. Smith|Combined Effects of Copper and Ultraviolet Radiation on a Microscopic Green Alga in Natural Soft Lake Waters of Varying Dissolved Organic Carbon Content|Aquat. Toxicol.64(1): 39-52|2003|10.1016/S0166-445X(03)00024-9
71884|A||Phillips,T.A., R.C. Summerfelt, J. Wu, and D.A. Laird|Toxicity of Chlorpyrifos Adsorbed on Humic Colloids to Larval Walleye (Stizostedion vitreum)|Arch. Environ. Contam. Toxicol.45(2): 258-263|2003|10.1007/s00244-002-0066-1
71885|A||Herbrandson,C., S.P. Bradbury, and D.L. Swackhamer|Influence of Suspended Solids on Acute Toxicity of Carbofuran to Daphnia magna:  I.  Interactive Effects|Aquat. Toxicol.63(4): 333-342|2003|10.1016/S0166-445X(02)00206-0
71886|A||Wendt-Rasch,L., U. Friberg-Jensen, P. Woin, and K. Christoffersen|Effects of the Pyrethroid Insecticide Cypermethrin on a Freshwater Community Studied Under Field Conditions.  II.  Direct and Indirect Effects on the Species Composition|Aquat. Toxicol.63(4): 373-389|2003|10.1016/S0166-445X(02)00202-3
71887|A||Herbrandson,C., S.P. Bradbury, and D.L. Swackhamer|Influence of Suspended Solids on Acute Toxicity of Carbofuran to Daphnia magna:  II.  An Evaluation of Potential Interactive Mechanisms|Aquat. Toxicol.63(4): 343-355|2003|10.1016/S0166-445X(02)00205-9
71888|A||Banks,K.E., S.H. Wood, C. Matthews, and K.A. Thuesen|Joint Acute Toxicity of Diazinon and Copper to Ceriodaphnia dubia|Environ. Toxicol. Chem.22(7): 1562-1567|2003|10.1002/etc.5620220719
71889|A||Jenkins,F., J. Smith, B. Rajanna, U. Shameem, K. Umadevi, V. Sandhya, and R. Madhavi|Effect of Sub-lethal Concentrations of Endosulfan on Hematological and Serum Biochemical Parameters in the Carp Cyprinus carpio|Bull. Environ. Contam. Toxicol.70(5): 993-997|2003|10.1007/s00128-003-0080-7
71890|A||Tripathi,P.K., and A. Singh|Toxic Effects of Dimethoate and Carbaryl Pesticides on Protein Metabolism of the Freshwater Snail Lymnaea acuminata|Bull. Environ. Contam. Toxicol.70(1): 146-152|2003|10.1007/s00128-002-0168-5
71891|A||Dutta,H.M., and H.J.M. Meijer|Sublethal Effects of Diazinon on the Structure of the Testis of Bluegill, Lepomis macrochirus:  A Microscopic Analysis|Environ. Pollut.125(3): 355-360|2003|10.1016/S0269-7491(03)00123-4
71892|A||Wright,D.A., and W.H. Roosenburg|Trimethyltin Toxicity to Larval Uca pugilator:  Effects of Temperature and Salinity|Arch. Environ. Contam. Toxicol.11(4): 491-495|1982|10.1007/BF01056077
71893|A||Klobucar,G.I.V., J. Lajtner, and R. Erben|Increase in Number and Size of Kidney Concretions as a Result of PCP Exposure in the Freshwater Snail Planorbarius corneus (Gastropoda, Pulmonata)|Dis. Aquat. Org.44(2): 149-154|2001|10.3354/dao044149
71894|A||Hammock,D., C.C. Huang, G. Mort, and J.H. Swinehart|The Effect of Humic Acid on the Uptake of Mercury(II), Cadmium(II), and Zinc(II) by Chinook Salmon (Oncorhynchus tshawytscha) Eggs|Arch. Environ. Contam. Toxicol.44(1): 83-88|2003|10.1007/s00244-002-1261-9
71895|A||Versteeg,D.J., and J.M. Rawlings|Bioconcentration and Toxicity of Dodecylbenzene Sulfonate (C12LAS) to Aquatic Organisms Exposed in Experimental Streams|Arch. Environ. Contam. Toxicol.44(2): 237-246|2003|10.1007/s00244-002-2017-2
71896|A||Dobrovoljc,K., Z. Jeran, and B. Bulog|Uptake and Elimination of Cadmium in Rana dalmatina (Anura, Amphibia) Tadpoles|Bull. Environ. Contam. Toxicol.70(1): 78-84|2003|10.1007/s00128-002-0158-7
71897|A||Nuutinen,S., P.F. Landrum, L.J. Schuler, J.V.K. Kukkonen, and M.J. Lydy|Toxicokinetics of Organic Contaminants in Hyalella azteca|Arch. Environ. Contam. Toxicol.44(4): 467-475|2003|10.1007/s00244-002-2127-x
71898|A||Neuberger-Cywiak,L., Y. Achituv, and E.M. Garcia|Effects of Zinc and Cadmium on the Burrowing Behavior, LC50, and LT50 on Donax trunculus Linnaeus (Bivalvia-Donacidae)|Bull. Environ. Contam. Toxicol.70(4): 713-722|2003|10.1007/s00128-003-0042-0
71899|A||Rai,U.N., R.D. Tripathi, P. Vajpayee, N. Pandey, M.B. Ali, and D.K. Gupta|Cadmium Accumulation and Its Phytotoxicity in Potamogeton pectinatus L. (Potamogetonaceae)|Bull. Environ. Contam. Toxicol.70(3): 566-575|2003|10.1007/s00128-003-0023-3
71900|A||Gibble,R., and K.N. Baer|Effects of 4-Nonylphenol on Sexual Maturation in Daphnia magna|Bull. Environ. Contam. Toxicol.70(2): 315-321|2003|10.1007/s00128-002-0193-4
71901|A||Sinha,S., K. Bhatt, K. Pandey, S. Singh, and R. Saxena|Interactive Metal Accumulation and Its Toxic Effects Under Repeated Exposure in Submerged Plant Najas indica Cham|Bull. Environ. Contam. Toxicol.70(4): 696-704|2003|10.1007/s00128-003-0040-2
71902|A||Singh,S., P. Datta, and R. Patel|Survival and Growth of Diazotrophic Cyanobacterial Isolates Exposed to Rice-Field Herbicides|Bull. Environ. Contam. Toxicol.70(5): 1052-1058|2003|10.1007/s00128-003-0089-y
71903|A||Owen,R., A. Knap, N. Ostrander, and K. Carbery|Comparative Acute Toxicity of Herbicides to Photosynthesis of Coral Zooxanthellae|Bull. Environ. Contam. Toxicol.70(3): 541-548|2003|10.1007/s00128-003-0020-6
71904|A||Vutukuru,S.S.|Chromium Induced Alterations in Some Biochemical Profiles of the Indian Major Carp, Labeo rohita (Hamilton)|Bull. Environ. Contam. Toxicol.70(1): 118-123|2003|10.1007/s00128-002-0164-9
71905|A||Virk,S., and A. Sharma|Alterations in the Biochemical Constituents of Muscles of Cirrhinus mrigala Following Exposure to and Withdrawal from Metals|Bull. Environ. Contam. Toxicol.70(1): 106-111|2003|10.1007/s00128-002-0162-y
71906|A||Sharma,S., S. Pathak, and K.P. Sharma|Toxicity of the Azo Dye Methyl Red to the Organisms in Microcosms, with Special Reference to the Guppy (Poecilia reticulata Peters)|Bull. Environ. Contam. Toxicol.70(4): 753-760|2003|10.1007/s00128-003-0047-8
71907|A||Rao,J.V., C.H.S. Rani, K. Pathakoti, R.N. Rao, and S.S. Madhavendra|Toxicity of Chlorpyrifos to the Fish Oreochromis mossambicus|Bull. Environ. Contam. Toxicol.70(5): 985-992|2003|10.1007/s00128-003-0079-0
71908|A||Datta,M., and A. Kaviraj|Acute Toxicity of the Synthetic Pyrethroid Deltamethrin to Freshwater Catfish Clarias gariepinus|Bull. Environ. Contam. Toxicol.70(2): 296-299|2003|10.1007/s00128-002-0190-7
71909|A||Placencia,J., A. Rudolph, G. Cabrera, G. Cardenas, and C. Parra|Toxicity Assays of a Compound with Insecticide Properties:  Chitosan Diethyl Phosphate|Bull. Environ. Contam. Toxicol.70(1): 153-160|2003|10.1007/s00128-002-0169-4
71910|A||Riveros,A., M. Zuniga, and A. Larrain|Copper Metallothionein-Like Proteins as Exposure Biomarker in Native and Transplanted Intertidal Populations of the Mussel Perumytilus purpuratus from San Jorge Bay, Antofagasta, Chile|Bull. Environ. Contam. Toxicol.70(2): 233-241|2003|10.1007/s00128-002-0182-7
71911|A||Shan,Z., L. Wang, D. Cai, R. Gong, Z. Zhu, and F. Yu|Impact of Fipronil on Crustacean Aquatic Organisms in a Paddy Field-Fishpond Ecosystem|Bull. Environ. Contam. Toxicol.70(4): 746-752|2003|10.1007/s00128-003-0046-9
71912|A||Khangarot,B.S.|Mercury-Induced Morphological Changes in the Respiratory Surface of an Asian Freshwater Catfish, Saccobranchus fossilis|Bull. Environ. Contam. Toxicol.70(4): 705-712|2003|10.1007/s00128-003-0041-1
71913|A||Pro,J., J.A. Ortiz, S. Boleas, C. Fernandez, G. Carbonell, and J.V. Tarazona|Effect Assessment of Antimicrobial Pharmaceuticals on the Aquatic Plant Lemna minor|Bull. Environ. Contam. Toxicol.70(2): 290-295|2003|10.1007/s00128-002-0208-1
71914|A||Zupan,I., and M. Kalafatic|Histological Effects of Low Atrazine Concentration on Zebra Mussel (Dreissena polymorpha Pallas)|Bull. Environ. Contam. Toxicol.70(4): 688-695|2003|10.1007/s00128-003-0039-8
71915|A||Bass,E.L.|Effects of Ethylene and Propylene Glycol on Development and Hatching Success in the Medaka, Oryzias latipes|Bull. Environ. Contam. Toxicol.70(3): 600-605|2003|10.1007/s00128-003-0027-z
71916|A||Viljoen,A., G.J. Steyn, J.H.J. Van Vuren, and P.W. Wade|Zinc Effects on the Embryos and Larvae of the Sharptooth Catfish, Clarias gariepinus (Burchell, 1822)|Bull. Environ. Contam. Toxicol.70(5): 1022-1027|2003|10.1007/s00128-003-0085-2
71917|A||Diamantino,T.C., E. Almeida, A.M.V.M. Soares, and L. Guilhermino|Characterization of Cholinesterases from Daphnia magna Straus and Their Inhibition by Zinc|Bull. Environ. Contam. Toxicol.71(2): 219-225|2003|10.1007/s00128-003-0153-7
71918|A||Weber,L.P., R.L.,Jr. Hill, and D.M. Janz|Developmental Estrogenic Exposure in Zebrafish (Danio rerio):  II.  Histological Evaluation of Gametogenesis and Organ Toxicity|Aquat. Toxicol.63(4): 431-446|2003|10.1016/S0166-445X(02)00208-4
71919|A||Aragao,M.A., and E.V. Pereira|Sensitivity of Ceriodaphnia dubia of Different Ages to Sodium Chloride|Bull. Environ. Contam. Toxicol.70(6): 1247-1250|2003|10.1007/s00128-003-0116-z
71920|A||Alonso,A., and J.A. Camargo|Short-Term Toxicity of Ammonia, Nitrite, and Nitrate to the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca)|Bull. Environ. Contam. Toxicol.70(5): 1006-1012|2003|10.1007/s00128-003-0082-5
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71923|A||Breitholtz,M., and L. Wollenberger|Effects of Three PBDEs on Development, Reproduction and Population Growth Rate of the Harpacticoid Copepod Nitocra spinipes|Aquat. Toxicol.64(1): 85-96|2003|10.1016/S0166-445X(03)00025-0
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71929|A||Hughes,J.S., and A.G. Vilkas|Toxicity of N,N-Dimethylformamide Used as a Solvent in Toxicity Tests with the Green Alga, Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.31(1): 98-104|1983|10.1007/BF01608773
71930|A||Stratton,G.W.|Interaction Effects of Permethrin and Atrazine Combinations Towards Several Nontarget Microorganisms|Bull. Environ. Contam. Toxicol.31(3): 297-303|1983|10.1007/BF01608702
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71933|A||Storozhuk,N.G., and B.P. Smirnov|Effect of Mercury on the Respiration Rate of Larval Pink Salmon, Oncorhynchus gorbuscha|J. Ichthyol.22(5): 168-171|1982|
71934|A||Hartwell,S.I., D.M. Jordahl, J.E. Evans, and E.B. May|Toxicity of Aircraft De-icer and Anti-icer Solutions to Aquatic Organisms|Environ. Toxicol. Chem.14(8): 1375-1386|1995|
71935|A||Zhong,H., J. Dukes, M. Greer, P. Hester, M. Shirley, and B. Anderson|Ground Deposition Impact of Aerially Applied Fenthion on the Fiddler Crabs, Uca pugilator|Am. Mosq. Control Assoc. J.19(1): 47-52|2003|
71936|A||Nayar,J.K., A. Ali, and M. Zaim|Effectiveness and Residual Activity Comparison of Granular Formulations of Insect Growth Regulators Pyriproxyfen and s-Methoprene Against Florida Mosquitoes in Laboratory and Outdoor Conditions|Am. Mosq. Control Assoc. J.18(3): 196-201|2002|
71937|A||Mitchelmore,C.L., A.H. Ringwood, and V.M. Weis|Differential Accumulation of Cadmium and Changes in Glutathione Levels as a Function of Symbiotic State in the Sea Anemone Anthopleura elegantissima|J. Exp. Mar. Biol. Ecol.284(1-2): 71-85|2003|10.1016/S0022-0981(02)00489-6
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71940|A||Vidal,D.E., and A.J. Horne|Mercury Toxicity in the Aquatic Oligochaete Sparganophilus pearsei: I. Variation in Resistance Among Populations|Arch. Environ. Contam. Toxicol.45(2): 184-189|2003|10.1007/s00244-003-0119-0
71941|A||Daday,A., and G.D. Smith|The Effects of Nickel on the Hydrogen Metabolism of the Cyanobacterium Anabaena cylindrica|FEMS Microbiol. Lett.20:327-330|1983|10.1111/j.1574-6968.1983.tb00141.x
71942|A||Gilderhus,P.A., and R.M. Burress|Selective Control of Common Carp:  Ineffectiveness of 2-(Digeranylamino)-Ethanol (GD-174) in Pond Trials|N. Am. J. Fish. Manag.3(1): 61-66|1983|10.1577/1548-8659(1983)3<61:SCOCC>2.0.CO;2
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71947|A||Nussey,G., J.H.J. Van Vuren, and H.H. Du Preez|Effect of Copper on the Haematology and Osmoregulation of the Mozambique Tilapia, Oreochromis mossambicus (Cichlidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(3): 369-380|1995|10.1016/0300-9629(95)00041-5
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71950|A||Bassim,K.M., and P.W. Sammarco|Effects of Temperature and Ammonium on Larval Development and Survivorship in a Scleractinian Coral (Diploria strigosa)|Mar. Biol.142(2): 241-252|2003|10.1007/s00227-002-0953-z
71951|A||Xu,Y., and W.X. Wang|Exposure and Potential Food Chain Transfer Factor of Cd, Se and Zn in Marine Fish Lutjanus argentimaculatus|Mar. Ecol. Prog. Ser.238:173-186|2002|10.3354/meps238173
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71955|A||Jezierska,B., and P. Sarnowski|The Effect of Mercury, Copper and Cadmium During Single and Combined Exposure on Oxygen Consumption of Oncorhynchus mykiss Wal. and Cyprinus carpio L. Larvae|Arch. Pol. Fish. 10(1): 15-22|2002|
71956|A||Kutlu,M., A. Duzen, C. Baycu, and A. Ozata|A Transmission Electron Microscope Investigation of the Effect of Lead Acetate on the Hepatopancreatic Ceca of Gammarus pulex|Environ. Toxicol. Pharmacol.12(3): 181-187|2002|10.1016/S1382-6689(02)00036-4
71957|A||Nagasaka,S., N.K. Nishizawa, T. Negishi, K. Satake, S. Mori, and E. Yoshimura|Novel Iron-Storage Particles may Play a Role in Aluminum Tolerance of Cyanidium caldarium|Planta (Multiple Languages)215(3): 399-404|2002|10.1007/s00425-002-0764-y
71958|A||Lopez Greco,L.S., E.M. Rodriguez, G. Hernandez, and J. Bolanos|Effects of Copper on Hatching of Larvae and Prezoea Survival of Petrolisthes galathinus (Porcellanidae):  Assays with Ovigerous Females and Isolated Eggs|Environ. Res.90(1): 40-46|2002|10.1006/enrs.2002.4378
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71961|A||Cornel,A.J., M.A. Stanich, R.D. McAbee, and F.S. Mulligan III|High Level Methoprene Resistance in the Mosquito Ochlerotatus nigromaculis (Ludlow) in Central California|Pest Manag. Sci.58(8): 791-798|2002|10.1002/ps.521
71962|A||Staub,G.C., and M. Fingerman|A Mechanism of Action for the Inhibition of Black Pigment Dispersion in the Fiddler Crab, Uca pugilator, by Naphthalene|Comp. Biochem. Physiol. C Comp. Pharmacol.79(2): 447-453|1984|10.1016/0742-8413(84)90229-9
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71964|A||Davies,J., J.L. Honegger, F.G. Tencalla, G. Meregalli, P. Brain, J.R. Newman, and H.F. Pitchford|Herbicide Risk Assessment for Non-Target Aquatic Plants: Sulfosulfuron - A Case Study|Pest Manag. Sci.59(2): 231-237|2003|10.1002/ps.625
71965|A||Hanumante,M.M., S.W. Fingerman, and M. Fingerman|Antagonism of the Inhibitory Effect of the Polychlorinated Biphenyl Preparation, Aroclor 1242, on Color Changes of the Fiddler Crab, Uca pugilator, by Norepinephrine and Drugs Affecting Noradrenergic Neurotransmission|Bull. Environ. Contam. Toxicol.26(4): 479-484|1981|10.1007/BF01622123
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71967|A||Soto,E., G. Oyarce, B. Inzunza, and E. Bay-Schmith|Acute Toxicity of Organic and Inorganic Compounds on the Freshwater Cyclopoid Copepod Eucyclops neumani neumani (Pesta, 1927)|Bull. Environ. Contam. Toxicol.70(5): 1017-1021|2003|10.1007/s00128-003-0084-3
71968|A||Halpern,M., A. Gasith, and M. Broza|Does the Tube of a Benthic Chironomid Larva Play a Role in Protecting Its Dweller Against Chemical Toxicants?|Hydrobiologia (Multiple Languages)470(1-3): 49-55|2002|10.1023/A:1015665027535
71969|A||Lajmanovich,R.C., M.T. Sandoval, and P.M. Peltzer|Induction of Mortality and Malformation in Scinax nasicus Tadpoles Exposed to Glyphosate Formulations|Bull. Environ. Contam. Toxicol.70(3): 612-618|2003|10.1007/s00128-003-0029-x
71970|A||Steinert,S.A., and G.V. Pickwell|Multiple Forms of Lysozyme in Copper Stressed Mussels (Mytilus edulis)|Mar. Environ. Res.17(2-4): 211-214|1985|10.1016/0141-1136(85)90088-1
71971|A||Rathburn,C.B.,Jr., E.J. Beidler, G. Dodd, and A. Alfferty|Aerial Applications of a Sand Formulation of Methoprene for the Control of Salt-Marsh Mosquito Larvae|Mosq. News39(1): 76-80|1979|
71972|A||Fales,J.H., P.J. Spangler, O.F. Bodenstein, G.D.,Jr. Mills, and C.G.,Jr. Durbin|Laboratory and Field Evaluations of Abate Against a Backswimmer, Notonecta undulata Say (Hemiptera:  Notonectidae)|Mosq. News28(1): 77-81|1968|
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71978|A||Wu,J.T., and H. Lorenzen|Effect of Copper on Photosynthesis in Synchronous Chlorella Cells|Bot. Bull. Acad. Sin. (Taipei)25:125-132|1984|
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71982|A||Rajagopal,S., V.P. Venugopalan, G. Van der Velde, and H.A. Jenner|Response of Fouling Brown Mussel, Perna perna (L.), to Chlorine|Arch. Environ. Contam. Toxicol.44(3): 369-376|2003|10.1007/s00244-002-2098-y
71983|A||Phillips,B.M., P.A. Nicely, J.W. Hunt, B.S. Anderson, R.S. Tjeerdema, S.E. Palmer, F.H. Palmer, and H.M. Puckett|Toxicity of Cadmium-Copper-Nickel-Zinc Mixtures to Larval Purple Sea Urchins (Strongylocentrotus purpuratus)|Bull. Environ. Contam. Toxicol.70(3): 592-599|2003|10.1007/s00128-003-0026-0
71984|A||Luo,Y.C., Q.R. Zeng, G. Wu, Z.K. Luan, R.B. Yang, and B.H. Liao|Effect of beta-Cyclodextrin Compounds on the Solubilization of Three Selected Pesticides and Their Toxicity with Methyl Parathion to Rana tigrina Tadpoles|Bull. Environ. Contam. Toxicol.70(5): 998-1005|2003|10.1007/s00128-003-0081-6
71985|A||Khan,S., and D. Nugegoda|Australian Freshwater Crayfish Cherax destructor Accumulates and Depurates Nickel|Bull. Environ. Contam. Toxicol.70(2): 308-314|2003|10.1007/s00128-002-0192-5
71986|A||Key,P.B., K.W. Chung, A.D. Opatkiewicz, E.F. Wirth, and M.H. Fulton|Toxicity of the Insecticides Fipronil and Endosulfan to Selected Life Stages of the Grass Shrimp (Palaemonetes pugio)|Bull. Environ. Contam. Toxicol.70(3): 533-540|2003|10.1007/s00128-003-0019-z
71987|A||Khangarot,B.S., and R.S. Rathore|Effects of Copper on Respiration, Reproduction, and Some Biochemical Parameters of Water Flea Daphnia magna Straus|Bull. Environ. Contam. Toxicol.70(1): 112-117|2003|10.1007/s00128-002-0163-x
71988|A||Tsui,M.T.K., and L.M. Chu|Aquatic Toxicity of Glyphosate-Based Formulations:  Comparison Between Different Organisms and the Effects of Environmental Factors|Chemosphere52(7): 1189-1197|2003|10.1016/S0045-6535(03)00306-0
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71998|AT||Mei,B., J.D. Puryear, and R.J. Newton|Assessment of Cr Tolerance and Accumulation in Selected Plant Species|Plant Soil247(2): 223-231|2002|10.1023/A:1021509115343
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72000|T||Foster,S.P., I. Denholm, and R. Thompson|Bioassay and Field-Simulator Studies of the Efficacy of Pymetrozine Against Peach-Potato Aphids, Myzus persicae (Hemiptera: Aphididae), Possessing Different Mechanisms of Insecticide Resistance|Pest Manag. Sci.58(8): 805-810|2002|10.1002/ps.529
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72006|T||Lloyd,J.H., and W.N. Yule|Investigation on the Use of Light Spraying Aircraft Against Hoppers|Anti-Locust Bull.35:24-35|1959|
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72008|T||Reidl,H., and S.A. Hoying|Impact of Fenvalerate and Diflubenzuron on Target and Nontarget Arthropod Species on Bartlett Pears in Northern California|J. Econ. Entomol.73(1): 117-122|1980|10.1093/jee/73.1.117
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72010|T||Caron,D.M.|Effects of Some ULV Mosquito Abatement Insecticides on Honey Bees|J. Econ. Entomol.72:148-151|1979|10.1093/jee/72.1.148
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72018|T||Mukherjee,S.N., and R. Ramachandran|Effects of Azadirachtin on the Feeding, Growth and Development of Triboleum castaneum (Herbst) (Col., Tenebrionidae)|J. Appl. Entomol.107:145-149|1989|10.1111/j.1439-0418.1989.tb00242.x
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72021|T||Rao,B.H.K., and S.K. Prasad|Effect of Some Herbicides on Reniform Nematode, Rotylenchulus reniformis Infesting Tomato|Indian J. Entomol.31(4): 370-372|1969|
72022|T||El-Bayomy,A.A., I.W. Smoak, and S. Branch|Embryotoxicity of the Pesticide Mirex In Vitro|Teratog. Carcinog. Mutagen.22(4): 239-249|2002|10.1002/tcm.10016
72036|T||Simmonds,M.S.J., J.D. Manlove, W.M. Blaney, and B.P.S. Khambay|Effects of Selected Botanical Insecticides on the Behaviour and Mortality of the Glasshouse Whitefly Trialeurodes vaporariorum and the Parasitoid Encarsia formosa|Entomol. Exp. Appl.102(1): 39-47|2002|10.1046/j.1570-7458.2002.00923.x
72037|T||Borgohain,M., L.P. Upadhaya, and N. Deori|Herbicide Control of Weeds in Wheat|Pesticides 19(6): 18-19|1985|
72038|T||Sharaf,N.S., and T.F. Allawi|Studies on Whiteflies on Tomato in the Jordan Valley.  III.  Laboratory and Field Experiments on the Control of Whitefly (Bemisia tabaci Genn., Homoptera:  Aleyrodidae) Populations with Organophosphorus Insecticides and|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)87(3): 176-184|1980|
72039|T||McKinlay,K.S., and R.H. Burrage|Laboratory and Field Experiments on the Toxicity of Various Insecticides to Grasshoppers, Melanoplus sanguinipes and Camnula ellucida (Orthoptera:  Acrididae)|Can. Entomol.107:543-546|1975|10.4039/Ent107543-5
72040|T||Henrick,C.A., B.A. Garcia, G.B. Staal, D.C. Cerf, R.J. Anderson, K. Gill, H.R. Chinn, J.N. Labovitz, M.M. Leippe, S.L. |2-Anilino-3-Methylbutyrates and 2-(Isoindolin-2-yl)-3-Methylbutyrates, Two Novel Groups of Synthetic Pyrethroid Esters not Containing a Cyclopropane Ring|Pestic. Sci.11:224-241|1980|10.1002/ps.2780110216
72041|T||Jeffcoat,B., and W.N. Harries|Selectivity and Mode of Action of Flamprop-Isopropyl, Isopropyl (+-)-2-[N-(3-Chloro-4-Fluorophenyl)Benzamido]Propionate, in the Control of Avena fatua in Barley|Pestic. Sci.6:283-296|1975|10.1002/ps.2780060310
72042|T||Fisher,D.J., J.A. Pickard, and C.M. McKenzie|Uptake of the Systemic Fungicide Triadimefon by Clover and Its Effect on Symbiotic Nitrogen Fixation|Pestic. Sci.10:75-82|1979|10.1002/ps.2780100110
72043|T||Campanhola,C., B.F. McCutchen, E.H. Baehrecke, and F.W.,Jr. Plapp|Biological Constraints Associated with Resistance to Pyrethroids in the Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.84(5): 1404-1411|1991|10.1093/jee/84.5.1404
72044|T||Hinks,C.F.|The Influence of Temperature on the Efficacy of Three Pyrethroid Insecticides Against the Grasshopper, Melanoplus sanguinipes (Fab.)(Orthoptera:  Acrididae), Under Laboratory Conditions|Can. Entomol.117:1007-1012|1985|10.4039/Ent1171007-8
72045|T||Cohen,H., A.R. Horowitz, D. Nestel, and D. Rosen|Susceptibility of the Woolly Apple Aphid Parasitoid, Aphelinus mali (Hym.: Aphelinidae), to Common Pesticides Used in Apple Orchards in Israel|Entomophaga41(2): 225-233|1996|10.1007/BF02764248
72046|T||Skinner,J.A., J.P. Parkman, and M.D. Studer|Evaluation of Honey Bee Miticides, Including Temporal and Thermal Effects on Formic Acid Gel Vapours, in the Central South-Eastern USA|J. Apic. Res.40(3/4): 81-89|2001|10.1080/00218839.2001.11101055
72047|T||Zhang,L., and X. Yan|Effect of Cadmium on Root Exudes of Wheat (Triticum aestivm L.) Under Different Cultures Media|Bull. Environ. Contam. Toxicol.71(4): 698-705|2003|10.1007/s00128-003-0189-8
72048|T||Liao,B.H., H.Y. Liu, S.Q. Lu, K.F. Wang, A. Probst, and J.L. Probst|Combined Toxic Effects of Cadmium and Acid Rain on Vicia faba L.|Bull. Environ. Contam. Toxicol.71(5): 998-1004|2003|10.1007/s00128-003-0225-8
72049|T||Punzo,F.|Effects of Carbaryl-Treated Bait on Maternal Behavior and Sprint Performance in the Meadow Jumping Mouse, Zapus hudsonius|Bull. Environ. Contam. Toxicol.71(1): 37-41|2003|10.1007/s00128-003-0127-9
72050|T||Tang,S., L. Xi, J. Zheng, and H. Li|Response to Elevated CO2 of Indian Mustard and Sunflower Growing on Copper Contaminated Soil|Bull. Environ. Contam. Toxicol.71(5): 988-997|2003|10.1007/s00128-003-0224-9
72051|T||Begonia,M.T., G.B. Begonia, A.D. Butler, U. Griffin, and C. Young|Chemically-Enhanced Phytoextraction of Cadmium-Contaminated Soils Using Wheat (Triticum aestivum L.)|Bull. Environ. Contam. Toxicol.71(3): 648-654|2003|10.1007/s00128-003-8876-z
72052|T||Liu,W., Q.X. Zhou, P.J. Li, T.H. Sun, Y.S. Yang, and X.Z. Xiong|1,2,4-Trichlorobenzene Induction of Chromosomal Aberrations and Cell Division of Root-Tip Cells in Vicia faba Seedlings|Bull. Environ. Contam. Toxicol.71(4): 689-697|2003|10.1007/s00128-003-0188-9
72053|T||Cape,J.N., N.M. Reeves, P. Schroder, and M.R. Heal|Long-Term Exposure of Sitka Spruce Seedlings to Trichloroacetic Acid|Environ. Sci. Technol.37(13): 2953-2957|2003|10.1021/es034094z
72054|T||Langdon,C.J., T.G. Piearce, A.A. Meharg, and K.T. Semple|Inherited Resistance to Arsenate Toxicity in Two Populations of Lumbricus rubellus|Environ. Toxicol. Chem.22(10): 2344-2348|2003|10.1897/02-554
72055|T||Booth,L., F. Palasz, C. Darling, R. Lanno, and M. Wickstrom|The Effect of Lead-Contaminated Soil from Canadian Prairie Skeet Ranges on the Neutral Red Retention Assay and Fecundity in the Earthworm Eisenia fetida|Environ. Toxicol. Chem.22(10): 2446-2453|2003|10.1897/02-582
72056|T||Fernie,K., G. Bortolotti, K. Drouillard, J. Smits, and T. Marchant|Developmental Toxicity of In Ovo Exposure to Polychlorinated Biphenyls:  II.  Effects of Maternal or Paternal Exposure on Second-Generation Nestling American Kestrels|Environ. Toxicol. Chem.22(11): 2688-2694|2003|10.1897/02-551
72057|T||Boyd,W.A., and P.L. Williams|Comparison of the Sensitivity of Three Nematode Species to Copper and Their Utility in Aquatic and Soil Toxicity Tests|Environ. Toxicol. Chem.22(11): 2768-2774|2003|10.1897/02-573
72058|T||Weng,L., T.M. Lexmond, A. Wolthoorn, E.J.M. Temminghoff, and W.H. Van Riemsdijk|Phytotoxicity and Bioavailability of Nickel:  Chemical Speciation and Bioaccumulation|Environ. Toxicol. Chem.22(9): 2180-2187|2003|10.1897/02-116
72059|T||Santos,S.A.P., J.P. Sousa, M. Frost, and A.M.V.M. Soares|Time-Dependent Toxicokinetics of [14C]Lindane in the Terrestrial Isopod Porcellionides pruinosus|Environ. Toxicol. Chem.22(10): 2221-2227|2003|10.1897/02-458
72060|T||Mumtaz,M.M., and R.E. Menzer|Comparative Metabolism and Fate of Fenvalerate in Japanese Quail (Coturnix coturnix japonica) and Rats (Rattus norvegicus)|J. Agric. Food Chem.34(6): 929-936|1986|10.1021/jf00072a001
72061|T||Nieminen,P., A.M. Mustonen, J. Asikainen, J.V.K. Kukkonen, P. Lindstrom-Seppa, and V. Karkkainen|Effects of Phytosterols on the Endocrinology and Metabolism of the Female Raccoon Dog (Nyctereutes procyonoides)|J. Toxicol. Environ. Health Part A66(15): 1475-1488|2003|10.1080/15287390306412
72062|T||Fernie,K., G. Bortolotti, and J. Smits|Reproductive Abnormalities, Teratogenicity, and Developmental Problems in American Kestrels (Falco sparverius) Exposed to Polychlorinated Biphenyls|J. Toxicol. Environ. Health Part A66(22): 2089-2103|2003|10.1080/15287390390211270
72063|T||Keith,J.O., R.M. Hansen, and A.L. Ward|Effect of 2,4-D on Abundance and Foods of Pocket Gophers|J. Wildl. Manag.23:137-145|1959|10.2307/3797634
72064|T||Chang,C.F., and P.B. Hamilton|Impaired Phagocytosis by Heterophils from Chickens During Aflatoxicosis|Toxicol. Appl. Pharmacol.48:459-466|1979|10.1016/0041-008X(79)90429-0
72065|T||Yuyama,T., P.B. Sweetser, R.C. Ackerson, and S. Takeda|Safening of DPX-F5384 on Rice by Combination with Thiocarbamate Herbicides|Weed Res. (Multiple Languages)31(2): 164-170|1986|
72066|T||Boerboom,C.M., and D.L. Wyse|Influence of Glyphosate Concentration on Glyphosate Absorption and Translocation in Canada Thistle (Cirsium arvense)|Weed Sci.36(3): 291-295|1988|10.1017/S0043174500074890
72067|T||Fuerst,E.P., C.J. Arntzen, K. Pfister, and D. Penner|Herbicide Cross-Resistance in Triazine-Resistant Biotypes of Four Species|Weed Sci.34(3): 344-353|1986|10.1017/S0043174500066960
72068|T||Wicks,G.A.|Early Application of Herbicides for No-Till Sorghum (Sorghum bicolor) in Wheat (Triticum aestivum) Stubble|Weed Sci.33:713-716|1985|10.1017/S0043174500083144
72069|T||Whitwell,T., G. Wehtje, R.H. Walker, and J.A. McGuire|Johnsongrass (Sorghum halepense) Control in Soybeans (Glycine max) with Postemergence Grass Herbicides Applied Alone and in Mixtures|Weed Sci.33(5): 673-678|1985|10.1017/S0043174500083077
72070|T||Johnson,B.J.|Tolerance of Bermudagrass (Cynodon dactylon) Putting Greens to Herbicide Treatments|Weed Sci.31(3): 415-418|1983|10.1017/S0043174500069277
72071|T||Agnello,A.M., J.W. Van Duyn, and J.R.,Jr. Bradley|Influence of Postemergence Herbicides on Populations of Bean Leaf Beetle, Cerotoma trifurcata (Coleoptera:  Chrysomelidae) and Corn Earworm, Heliothis zea (Lepidoptera: Noctuidae), in Soybeans|J. Econ. Entomol.79(1): 261-265|1986|10.1093/jee/79.1.261
72072|T||Brempong-Yeboah,C.Y., T. Saito, T. Miyata, and Y. Tsubaki|Topical Toxicity of Some Pyrethroids|J. Pestic. Sci. (Multiple Languages)7:47-51|1982|10.1584/jpestics.7.47
72073|T||Perry,R.N., and J. Beane|Effects of Certain Herbicides on the In Vitro Hatch of Globodera rostochiensis and Heterodera schachtii|Rev. Nematol.12(2): 191-196|1989|
72074|T||Beane,J., and R. Perry|The Influence of Certain Herbicides in Pelletted Form on the Hatch and Invasion of Globodera rostochiensis, G. pallida and Heterodera schachtii|Rev. Nematol.13(3): 275-281|1990|
72075|T||Gourd,T.R., D.P. Schmitt, and K.R. Barker|Differential Sensitivity of Meloidogyne spp. and Heterodera glycines to Selected Nematicides|J. Nematol.25(4S): 746-751|1993|
72076|T||Wong,A.T.S., G.L. Tylka, and R.G. Hartzler|Effects of Eight Herbicides on In Vitro Hatching of Heterodera glycines|J. Nematol.25(4): 578-584|1993|
72077|T||Smith,F.F., A.K. Ota, and A.L. Boswell|Insecticides for Control of the Greenhouse Whitefly|J. Econ. Entomol.63(2): 522-527|1970|10.1093/jee/63.2.522
72078|T||Mansooji,A.M., J.A. Holtum, P. Boutsalis, J.M. Matthews, and S.B. Powles|Resistance to Aryloxyphenoxypropionate Herbicides in Two Wild Oat Species (Avena fatua and Avena sterilis ssp. ludoviciana)|Weed Sci.40(4): 599-605|1992|10.1017/S0043174500058185
72079|T||Whitney,W.K., and K. Wettstein|AC 222,705, a New Pyrethroid Insecticide:  Performance Against Crop Pests|Proc. Br. Crop Prot. Conf. Pests Dis.10:387-394|1979|
72092|A||Moore,A., A.P. Scott, N. Lower, I. Katsiadaki, and L. Greenwood|The Effects of 4-Nonylphenol and Atrazine on Atlantic Salmon (Salmo salar L.) Smolts|Aquaculture222(1-4): 253-263|2003|10.1016/S0044-8486(03)00126-1
72093|A||Robertson,J.C., and D.B. Kelley|Thyroid Hormone Controls the Onset of Androgen Sensitivity in the Developing Larynx of Xenopus laevis|Dev. Biol.176:108-123|1996|10.1006/dbio.1996.9990
72094|A||Bevan,C.L., D.M. Porter, A. Prasad, M.J. Howard, and L.P. Henderson|Environmental Estrogens Alter Early Development in Xenopus laevis|Environ. Health Perspect.111(4): 488-496|2003|10.1289/ehp.5500
72097|A||McNamara,P.C.|(Atrazine Technical) - Acute Toxicity to the Marine Copepod (Acartia tonsa) Under Flow-Through Conditions|Rep.No.91-2-3662, Springborn Lab.Inc., Wareham, MA:4-57|1991|
72098|A||Ho,O.K., C.L. Ming, and C.K. Lok|Current Insecticidal Susceptibility Status of Mosquitoes in Singapore|Southeast Asian J. Trop. Med. Public Health12(2): 222-227|1981|
72099|T||Benezet,H.J., B.B. Huffman, and C.W. Helms|Comparative Toxicity of Selected Insecticides to the Cigarette Beetle at Different Temperatures|Tob. Sci.32:41-43|1988|
72100|T||Wheeler,T.A., J.R. Gannaway, H.W. Kaufman, J.K. Dever, J.C. Mertley, and J.W. Keeling|Influence of Tillage, Seed Quality, and Fungicide Seed Treatments on Cotton Emergence and Yield|J. Prod. Agric.10(3): 394-400|1997|10.2134/jpa1997.0394
72102|T||Collmann,G.L., and J.N. All|Biological Impact of Contact Insecticides and Insect Growth Regulators on Isolated Stages of the Greenhouse Whitefly (Homoptera:  Aleyrodidae)|J. Econ. Entomol.75(5): 863-867|1982|10.1093/jee/75.5.863
72107|T||Gupta,K., S.K. Pahwa, J. Parkash, and D.S. Wagle|Effect of Herbicides on Nitrogen and Sugars in Bengal Gram and Raya at Different Stages of Growth|Life Sci. Adv.1(3): 239-244|1982|
72108|T||Kelly,S.T.|Identification and Assessment of Simazine Resistance in Annual Bluegrass (Poa annua L.)|Ph.D. Thesis, Mississippi State University, Starkville, MS:41 p.|1998|
72114|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Boric Acid (CAS No.10043-35-3) in B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.324:126 p.|1987|
72115|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Furan (CAS No.110-00-9) in F344/N Rats and B6C3F1 Mice (Gavage Studies)|NIH Publ.No.93-2857, U.S.Dep.of Health and Hum.Serv., Public Health Serv., Washington, DC:287 p.|1993|
72125|T||Greene,D.W., K.I. Hauschild, and J. Krupa|Effect of Blossom Thinners on Fruit Set and Fruit Size of Peaches|HortTechnology11(2): 179-183|2001|10.21273/HORTTECH.11.2.179
72126|A||Winner,R.W., and T.C. Whitford|The Interactive Effects of a Cadmium Stress, a Selenium Deficiency and Water Temperature on the Survival and Reproduction of Daphnia magna Straus|Aquat. Toxicol.10(4): 217-224|1987|10.1016/0166-445X(87)90013-0
72127|A||Ranjit Singh,A.J.A., R. Sornaraj, and P. Dhasarathan|Bacteriological Indicators in Fish Exposed to Pesticides|Bull. Environ. Contam. Toxicol.70(1): 85-89|2003|10.1007/s00128-002-0159-6
72129|T||Thompson,C.R., G. Kats, P. Dawson, and D. Doyle|Development of a Protocol for Testing Effects of Toxic Substances on Plants|EPA-600/3-81-006, U.S.EPA, Corvallis, OR:37 p.|1981|
72138|T||Roditakis,N.E.|Effectiveness of Buprofezin, Flufenoxuron, Ethofenprox and Mixtrues of Quinomethionate with Pyrethroids on Greenhouse Whitefly Trialeurodes vaporariorum (Homoptera:  Aleyrodidae)|In: J.E.Casida (Ed.), Proc.of an Int.Conf., Pesticides and Alternatives: Innovative Chemical and Biological Approaches to Pest Control, Orthodox Acad.of Crete Kolymbari, Sept.4-8, 1989, Crete, Greece, Elsevier Sci.Publ., Amsterdam:235-247|1990|
72139|T||Wolf-Roskosch,F., and I. Schuphan|A Model for Testing the Food Chain Toxicity of Low-Level Concentrations of Pesticides in Host-Parasitoid-Systems|In: J.E.Casida (Ed.), Proc.of an Int.Conf., Pesticides and Alternatives: Innovative Chemical and Biological Approaches to Pest Control, Orthodox Acad.of Crete Kolymbari, Sept.4-8, 1989, Crete, Greece, Elsevier Sci.Publ., Amsterdam:183-194|1990|
72159|T||Andersen,A.S.|The Duration of Effectiveness of Activity of Systemic Fungicides in Wheat Seedlings Against Stem Rust|M.S.Thesis, University of Minnesota, Minneapolis, MN:79 p.|1960|
72160|T||Bernard,R.F.|Field and Laboratory Studies on the Effects of DDT on Birds|Ph.D. Thesis, Michigan State University, East Lansing, MI:88 p.|1962|
72161|T||Keith,J.O.|Synergistic Effects of DDE and Food Stress on Reproduction in Brown Pelicans and Ringdoves|Ph.D. Thesis, The Ohio State University, Columbus, OH:185 p.|1978|
72162|T||Yorks,A.L.|Effects of Polychlorinated Biphenyls (PCBs) on Reproduction, Physiological Processes, and Biomarkers in Tree Swallows (Tachycineta bicolor)|Ph.D Thesis, University of Maryland, Baltimore, MD:280 p.|1999|
72167|T||Little,K.M.|Acacia mearnsii Sensitivity to the Application of Pre-Emergent Herbicides Applied at Planting|S. Afr. For. J.193:15-23|2002|10.1080/20702620.2002.10433514
72168|T||Songur,S.H., and D. Kolankaya|Effects of Pentachloronitrobenzene on Somite Development and Fibronectin Distribution in Chick Embryos|Pesticides 16(1): 27-34|2001|
72169|T||Engel,R.E., C.R. Funk, and D.A. Kinney|Effect of Varied Rates of Atrazine and Simazine on the Establishment of Several Zoysia Strains|Agron. J.60:261-262|1968|10.2134/agronj1968.00021962006000030005x
72173|T||Gworek,B.|The Effect of Zeolites on Copper Uptake by Plants Growing in Contaminated Soils|J. Inclus. Phenom. Mol. Recog. Chem.15(1): 1-7|1993|10.1007/BF00706469
72179|A||Sancho,E., M. Sanchez, M.D. Ferrando, and E. Andreu-Moliner|Comparative Study of the Toxicity of Molinate for Freshwater Organisms|Bull. Environ. Contam. Toxicol.70(4): 723-730|2003|10.1007/s00128-003-0043-z
72202|T||Holan,G., W.M.P. Johnson, D.F. O'Keefe, K. Rihs, D.R.J. Smith, C.T. Virgona, R. Walser, and J.M. Haslam|New Aryl-Polyfluorocyclobutane Insecticides. Chemical and Biological Studies|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY1:119-124|1983|
72203|T||Kennedy,G.G., and M.B. Dimock|2-Tridecanone:  A Natural Toxicant in a Wild Tomato Responsible for Insect Resistance|In: N.Takahashi, H.Yoshioka, and T.Misato (Eds.), Natural Products, Proceedings of the 5th International Congress of Pesticide Chemistry, Kyoto, Japan, 29 August - 4 September 1982, Pergamon Press, NY:123-128|1983|
72204|T||Litchfield,M.H.|Characterisation of the Principal Mammalian Toxicological and Biological Actions of Synthetic Pyrethroids|In: N.Takahashi, H.Yoshioka, and T.Misato (Eds.), Natural Products, Proceedings of the 5th International Congress of Pesticide Chemistry, Kyoto, Japan, 29 August - 4 September 1982, Pergamon Press, NY:207-211|1983|
72205|T||Sato,K.|Biological Properties of Kasugamycin|In: N.Takahashi, H.Yoshioka, and T.Misato (Eds.), Natural Products, Proceedings of the 5th International Congress of Pesticide Chemistry, Kyoto, Japan, 29 August - 4 September 1982, Pergamon Press, NY2:293-299|1983|
72206|T||Harris,C.R., S.A. Turnbull, and D.G.R. McLeod|Contact Toxicity of Twenty-One Insecticides to Adults of the Carrot Rust Fly (Diptera:  Psilidae)|Can. Entomol.117(8): 1025-1027|1985|10.4039/Ent1171025-8
72207|T||Ikeda,K., H. Kanno, and M. Yasui|Synthesis and Biological Activity of 1,3,5-Thiadiazine Derivatives|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY:141-144|1983|
72208|T||Crisp,C.E., and J.E. Larson|Effect of Ring Substituents in Phloem Transport and Metabolism of Phenoxyacetic Acid and Six Analogues in Soybean (Glycine max)|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY:213-222|1983|
72210|T||Johnen,B.G., E.A. Drew, and D.L. Castle|Studies on the Effect of Pesticides on Symbiotic Nitrogen Fixation|In: B.Schippers and W.Gams (Eds.), Soil-Borne Plant Pathogens, Academic Press, New York, NY:513-523|1979|
72211|T||Altman,J., H.W. Dehne, and F. Schonbeck|Effects of Several Carbamate Herbicides on Sugar Beet|In: B.Schippers and W.Gams (Eds.), Soil-Borne Plant Pathogens, Academic Press, New York, NY:507-512|1979|
72212|T||Tada,M., Y. Matsumoto, T. Mitsui, C. Nobusawa, and J.I. Fukami|Inhibition of Chitin Synthesis by 1-(3,5-Dichloro-2,4-Difluorophenyl)-3-(2,6-Difluorobenzoyl)Urea (CME-134) in the Cabbage Armyworm, Mamestra brassicae L.|J. Pestic. Sci. (Multiple Languages)11:189-195|1986|10.1584/jpestics.11.189
72213|T||Furuzawa,K., N. Mikami, H. Yamada, and J. Miyamoto|Metabolism of the Pyrethroid Insecticide Cypermethrin in Cabbages|J. Pestic. Sci. (Multiple Languages)11(2): 253-260|1986|10.1584/jpestics.11.253
72214|T||Sato,K., Y. Kato, S.I. Maki, O. Matano, and S. Goto|Metabolic Fate of Plant Guazatine Residues in Male Rats|J. Pestic. Sci. (Multiple Languages)11:267-270|1986|10.1584/jpestics.11.267
72215|T||Miyamoto,Y., T. Nishimura, K. Matsumoto, and T. Watanabe|Synthesis and Rice Blast Controlling Activity of Thiosemicarbazones and 1-Thiocarbamoyl-2H-Pyrazolin-5-Ones|J. Pestic. Sci. (Multiple Languages)11:205-212|1986|10.1584/jpestics.11.205
72216|AT||Oyamada,M., T. Tanaka, Y. Takasawa, and T. Takematsu|Metabolic Fate of the Herbicide Naproanilide in Rice Plants (Oryza sativa L.) and Sagittaria pygmaea Miq.|J. Pestic. Sci. (Multiple Languages)11:197-203|1986|10.1584/jpestics.11.197
72217|A||Kremer,B.P., and J.W. Markham|Primary Metabolic Effects of Cadmium in the Brown Alga, Laminaria saccharina|Z. Pflanzenphysiol. (Multiple Languages)108:125-130|1982|10.1016/S0044-328X(82)80063-9
72218|A||Atamanalp,M., and T. Yanik|Alterations in Hematological Parameters of Rainbow Trout (Oncorhynchus mykiss) Exposed to Mancozeb|Turk. J. Vet. Anim. Sci.27:1213-1217|2003|
72220|A||Palaniappan,P.L.R.M., G. Jagadeesan, P. Venkatachalam, and N.K. Kumar|Spectroscopic Study of Accumulation of Copper and the Influence of EDTA on Freshwater Fingerlings Labeo rohita (Ham.)|Asian J. Microbiol. Biotechnol. Environ. Sci.5(2): 173-175|2003|
72221|A||Zhong,C.G., S.H. Chen, X.K. Zhao, and S.G. Jiang|Accumulation of 14C-DDT and 14C-Fenvalerate in a Marine Crab, Sesarma plicata|Redai Haiyang (Multiple Languages)17(suppl.): 65-70|1998|
72222|A||Chen,S.H., Y.F. Peng, and C.G. Zhong|Absorption and Desorption of DDT and Fenvalerate by the Alga Platymonas subcordiformis|Redai Haiyang (Multiple Languages)17(suppl.): 71-74|1998|
72223|A||Chen,S.H., C.G. Zhong, Y.X. Li, X.K. Zhao, and Y.Q. Zhang|Accumulation of Some Fission Products by Marine Organisms I.  Accumulation and Distribution of 134Cs in the Clam Sinonovacula constricta|Redai Haiyang (Multiple Languages)17(suppl.): 81-87|1998|
72224|A||Chen,S.H., C.G. Zhong, Y.X. Li, X.K. Zhao, and Y.Q. Zhang|Accumulation of Some Fission Produts by Marine Organisms II.  Accumulation and Distribution of 90Sr in the Clam Sinonovacula constricta|Redai Haiyang (Multiple Languages)17(suppl.): 88-94|1998|
72225|A||Zhao,X.K., C.G. Zhong, S.H. Chen, and Y.Q. Zhang|Accumulation and Metabolism of 14C-Chlorotouron in Meretrix meretrix and Sinonovacula constricta|Redai Haiyang (Multiple Languages)17(suppl.): 59-64|1998|
72226|A||Zhong,C.G., J.X. Liu, S.H. Chen, X.K. Zhao, and Y.Y. Yan|Accumulation and Elimination of 14C-BHC, 14C-Chlorpyrifos and 14C-Chlordimeform in Some Marine Bivalves|Redai Haiyang (Multiple Languages)17(suppl.): 52-58|1998|
72227|A||Zhong,C.G., S.H. Chen, X.K. Zhao, and S.G. Jiang|The Uptake and Metabolism of 14C-DDT in a Marine Shrimp, Penaeus monodon|Redai Haiyang (Multiple Languages)17(suppl.): 30-35|1998|
72228|A||Zhong,C.G., J. Shi, S.H. Chen, X.K. Zhao, and S.G. Jiang|Accumulation of 14C-Chlorpyrifos, 14C-Lindane and 14C-Butachlor in Paphia undulata|Redai Haiyang (Multiple Languages)17(suppl.): 36-43|1998|
72229|A||Zhong,C.G., S.H. Chen, F.P. Carvalho, and X.K. Zhao|Bioavailability of Sediment Absorbed 14C-DDT to Fish and Bivalves|Redai Haiyang (Multiple Languages)17(suppl.): 44-51|1998|
72230|A||Zhong,C.G., F.P. Carvalho, Y.Q. Zhang, S.H. Chen, and X.K. Zhao|Accumulation and Metabolism of 14C-Parathion, 14C-Chlorpyrifos and 14C-Butachlor in Marine Tilapia oreochromise sp.|Redai Haiyang (Multiple Languages)17(suppl.): 12-29|1998|
72231|T||Liu,S.S., Y.X. Li, and Z.H. Tang|Host Resistance to an Insecticide Favors Selection of Resistance in the Parasitoid, Cotesia plutellae (Hymenoptera:  Braconidae)|Biol. Control28(1): 137-143|2003|10.1016/S1049-9644(03)00057-4
72232|T||Leung,J.K.C., and Z.R. Shang|Uptake of 137Cs and 90Sr in Rice Plants|Health Phys.84(2): 170-179|2003|10.1097/00004032-200302000-00004
72233|T||Darriet,P., P. Bouchilloux, C. Poupot, Y. Bugaret, M. Clerjeau, P. Sauris, B. Medina, and D. Dubourdieui|Effects of Copper Fungicide Spraying on Volatile Thiols of the Varietal Aroma of Sauvignon Blanc, Cabernet Sauvignon and Merlot Wines|Vitis (Multiple Languages)40(2): 93-99|2001|
72236|T||Cihangir,N., and N. Saglam|Removal of Cadmium by Pleurotus sajor-caju Basidiomycetes|Acta Biotechnol.19(2): 171-177|1999|10.1002/abio.370190212
72245|T||Chen,T., Z. Huang, Y. Huang, H. Xie, and X. Liao|Cellular Distribution of Arsenic and Other Elements in Hyperaccumulator Pteris nervosa and Their Relations to Arsenic Accumulation|Chin. Sci. Bull.48(15): 1586-1591|2003|
72246|T||Kubo,K., O. Arai, M. Omura, R. Watanabe, R. Ogata, and S. Aou|Low Dose Effects of Bisphenol A on Sexual Differentiation of the Brain and Behavior in Rats|Neurosci. Res.45:345-356|2003|10.1016/S0168-0102(02)00251-1
72248|A||Rajasekharan Nair,J., T.V.A. Mercy, and R.M. George|Individual and Combined Acute Lethal Toxicity of Monocrotophos and 2,4-D on the Juveniles of Etroplus suratensis (Bloch) (Pisces:  Cichlidae)|Fish. Technol.37(2): 116-120|2000|
72249|A||Daum,K.A., L.W. Newland, J.C. Britton, L. Champagne, and J. Hagen|Responses of Corbicula to Potassium|In: J.C.Britton (Ed.), Proc.1st Int.Corbicula Symp., Oct.13-15, 1977, A Texas Christian Univ.Res.Found.Publ., Ft.Worth, TX:215-225|1979|
72250|A||Ramani,M.B., T.V. Anna Mercy, and J. Rajasekharan Nair|Lethal and Sublethal Toxicity of Monocrotophos, an Organophosphate Pesticide on the Juveniles of Rohu - Labeo rohita (Ham.) Under Tropical Conditions|J. Aquacult. Trop.17(3): 193-207|2002|
72252|T||Osuna,M.D., and R. De Prado|Conyza albida:  A New Biotype with ALS Inhibitor Resistance|Weed Res. (Multiple Languages)43(3): 221-226|2003|10.1046/j.1365-3180.2003.00337.x
72253|T||Walker,A.|Effects from Simulated Rainfall on Shoot-Zone Uptake of Herbicides|Weed Res. (Multiple Languages)16(6): 369-373|1976|10.1111/j.1365-3180.1976.tb00428.x
72254|T||Paradi,E., and M. Lovenyak|Studies on Genetical Effect of Pesticides in Drosophila melanogaster|Acta Biol. Acad. Sci. Hung.32(2): 119-121|1981|
72255|T||O'Connor,J.C., D.R. Plowchalk, C.S. Van Pelt, L.G. Davis, and J.C. Cook|Role of Prolactin in Chloro-s-Triazine Rat Mammary Tumorigenesis|Drug Chem. Toxicol.23(4): 575-601|2000|10.1081/DCT-100101972
72256|T||Schreiner,R.P., and G.J. Bethlenfalvay|Mycorrhizae, Biocides, and Biocontrol 3. Effects of Three Different Fungicides on Developmental Stages of Three AM Fungi|Biol. Fertil. Soils24(1): 18-26|1997|10.1007/BF01420215
72257|T||Gonzalez-Gutierrez,J., and R.A. De Prado|Phytotoxicity of Different Glyphosate Formulations in Simazine-Resistant and -Susceptible Lolium rigidum Biotypes|Meded. Fac. Landbouwwet. Rijksuniv. Gent63(2a): 303-308|1998|
72258|T||Tao,K.L., A.A. Khan, G.E. Harman, and C.J. Eckenrode|Practical Significance of the Application of Chemicals in Organic Solvents to Dry Seeds|J. Am. Soc. Hortic. Sci.99(3): 217-220|1974|10.21273/JASHS.99.3.217
72259|T||Shone,M.G.T., and A.V. Wood|Factors Responsible for the Tolerance of Blackcurrants to Simazine|Weed Res. (Multiple Languages)12:337-347|1972|10.1111/j.1365-3180.1972.tb01228.x
72260|T||Robinson,D.W., and J.C. Kelly|Further Information on the Tolerance of Woody Ornamentals to Simazine|Br. Crop Prot. Conf. Weeds1:333-339|1976|
72261|T||Ryan,G.F.|Resistance of Common Groundsel to Simazine and Atrazine|Weed Sci.18:614-616|1970|10.1017/S0043174500034330
72262|A||Netherland,M.D., W.R. Green, and K.D. Getsinger|Endothall Concentration and Exposure Time Relationships for the Control of Eurasian Watermilfoil and Hydrilla|J. Aquat. Plant Manag.29:61-67|1991|
72264|T||Shatla,M.N., and J.B. Sinclair|Effect of Pentachloronitrobenzene on Rhizoctonia solani Under Field Conditions|Plant Dis. Rep.49(1): 21-23|1965|
72265|T||Fedorko,A., M. Kamionek, J. Kozlowska, and E. Mianowska|The Effects of Some Insecticides on Nematodes of Different Ecological Groups|Pol. Ecol. Stud.3(2): 79-88|1977|
72266|T||Finney,S.B.|Cellular Response of Two Turfgrass Cultivars to Selected Herbicides|M.S.Thesis, University of Tennessee, Knoxville, TN:81 p.|1991|
72267|T||Harper,C.A.|Root Histology of Two Turfgrass Cultivars in Response to Selected Herbicides|M.S.Thesis, University of Tennessee, Knoxville, TN:100 p.|1982|
72268|T||Muchovej,J.J., and O.D. Dhingra|Benzene and Ethanol for Treatment of Soybean Seeds with Systemic Fungicides|Seed Sci. Technol.7:449-454|1979|
72269|T||Ryan,G.F., R.N. Rosenthal, and R.L. Berger|Napropamide and Oryzalin Effect on Simazine Tolerance of Four Ornamental Species|Weed Sci.29(3): 329-332|1981|10.1017/S0043174500062056
72270|T||Lawrence,L.J., and J.E. Casida|Pyrethroid Toxicology: Mouse Intracerebral Structure-Toxicity Relationships|Pestic. Biochem. Physiol.18:9-14|1982|10.1016/0048-3575(82)90082-7
72271|T||Elad,Y., J. Katan, and I. Chet|Physical, Biological, and Chemical Control Integrated for Soilborne Diseases in Potatoes|Phytopathology70(5): 418-422|1980|10.1094/Phyto-70-418
72272|T||Nesheim,O.N., and M.B. Linn|Deleterious Effect of Certain Fungitoxicants on the Formation of Mycorrhizae on Corn by Endogone fasciculata and on Corn Root Development|Phytopathology59:297-300|1969|
72273|T||Rhodes,L.H., and P.O. Larsen|Effects of Fungicides on Mycorrhizal Development of Creeping Bentgrass|Plant Dis.65:145-147|1981|10.1094/PD-65-145
72274|T||Elsaid,H.M., and J.B. Sinclair|Adapted Tolerance to Organic Fungicides by Isolates of Rhizoctonia solani from Seedling Cotton|Phytopathology54:518-522|1964|
72276|T||Halisky,P.M., C.R. Funk, and P.L. Babinski|Chemical Control of Stripe Smut in 'Merion' Kentucky Bluegrass|Plant Dis. Rep.53(4): 286-288|1969|
72277|T||Metcalfe,P.B., and J.F. Brown|Evaluation of Nine Fungicides in Controlling Flag Smut of Wheat|Plant Dis. Rep.53(8): 631-633|1969|
72278|T||Line,R.F.|Chemical Control of Flag Smut of Wheat|Plant Dis. Rep.56(7): 636-640|1972|
72279|T||Locke,S.B.|Experimental Control of Onion White Rot by Means of Soil Chemicals|Plant Dis. Rep.52(4): 272-276|1968|
72280|T||Sinclair,J.B., D.C. Neal, E.K. Chandler, D.M. Johns, L.W. Sloane, and D. Walters|Field Screening of Various Fungicides for Control of Cotton Seedling Damping-Off|Plant Dis. Rep.42(12): 1372-1375|1958|
72281|T||Rahimian,M.K., and Z. Banihashemi|Synergistic Effect of Ethazole and Pentachloronitrobenzene on Inhibition of Growth and Reproduction of Pythium aphanidermatum|Plant Dis.66(1): 26-27|1982|10.1094/PD-66-26
72282|T||Garren,K.H.|Effectiveness of Non-Dirting Cultivation and Soil-Surface Applications of PCNB in Controlling Peanut Stem Rot in Virginia|Plant Dis. Rep.43(7): 750-752|1959|
72283|T||Barnes,G.L., and R.S. Zerkel|Effectiveness of Mixtures of Pyridinethiol Derivatives and PCNB (Terraclor) for Control of a Complex of Soil Fungi|Plant Dis. Rep.45(6): 426-431|1961|
72284|T||Davis,J.R., M.D. Groskopp, and R.H. Callihan|Seed and Soil Treatments for Control of Rhizoctonia on Stems and Stolons of Potato|Plant Dis. Rep.55(6): 550-554|1971|
72285|T||Smith,E.M.|Tolerance of Greenspire Littleleaf Linden to Herbicides|Res. Circ. - Ohio Agric. Res. Dev. Ctr.253:35-36|1980|
72286|T||Beute,M.K., D.M. Porter, and B.A. Hadley|Sclerotinia Blight of Peanut in North Carolina and Virginia and Its Chemical Control|Plant Dis. Rep.59(9): 697-701|1975|
72287|T||Maier,C.R.|In-the-Furrow Application of Soil Fungicides for Control of Cotton Seedling Diseases|Plant Dis. Rep.45(4): 276-280|1961|
72289|A||Haller,W.T., and D.L. Sutton|Factors Affecting the Uptake of Endothall-14C by Hydrilla|Weed Sci.21(5): 446-448|1973|10.1017/S0043174500027466
72291|T||Gray,A.J., T.A. Connors, H. Hoellinger, and N.H. Nam|The Relationship Between the Pharmacokinetics of Intravenous Cismethrin and Bioresmethrin and Their Mammalian Toxicity|Pestic. Biochem. Physiol.13(3): 281-293|1980|10.1016/0048-3575(80)90127-3
72292|T||Lhoste,J., and F. Rauch|RU-15525, a New Pyrethroid with a very Strong Knockdown Effect|Pestic. Sci.7:247-250|1976|10.1002/ps.2780070307
72293|T||Erickson,H.T.|Potato Scab Control on Organic Soils.  I.  Initial Response to PCNB|Am. Potato J.37:18-22|1960|10.1007/BF02855587
72294|T||Smith,G.S., and L.M. Callahan|The Response of Kentucky Bluegrass to Soil Residues of Preemergence Herbicides|Weed Sci.17:13-15|1969|10.1017/S0043174500030782
72295|T||Hopkins,D.L., and G.W. Elmstrom|Chemical Control of Watermelon Damping-Off and Seedling Wilt|Plant Dis. Rep.58(2): 114-117|1974|
72296|T||Papavizas,G.C., and J.A. Lewis|Effect of Seed Treatment with Fungicides on Bean Root Rots|Plant Dis. Rep.59(1): 24-28|1975|
72297|T||Sreenivasa,M.N., and D.J. Bagyaraj|Use of Pesticides for Mass Production of Vesicular-Arbuscular Mycorrhizal Inoculum|Plant Soil119:127-132|1989|10.1007/BF02370276
72298|T||Salgare,S.A.|Alteration of Resting Period of Pollen of Successive Flowers of Apocynaceae by Herbicides (Acrolein, Simazine, Nitrofen)|Adv. Plant Sci.1(1): 82-86|1988|
72299|T||Hutton,K.E., and P.F. Kable|Evaluation of Fungicides for Control of Peach Brown Rot in New South Wales|Plant Dis. Rep.54(9): 776-780|1970|
72300|T||Marrs,R.H., A.J. Frost, R.A. Plant, and P. Lunnis|Effects of Herbicides on Vegetation|In: A.S.Cooke (Ed.), The Environmental Effects of Pesticides Drift, English Nature, Peterborough:28-38|1993|
72301|T||Forcella,F.|Herbicide Resistant Crops:  Yield Penalties and Weed Thresholds for Oilseed Rape (Brassica napus L.)|Weed Res. (Multiple Languages)27:31-34|1987|10.1111/j.1365-3180.1987.tb00733.x
72302|T||Parvathi,K., K. Venkateswarlu, and A.S. Rao|Effects of Pesticides on Development of Glomus mosseae in Groundnut|Trans. Br. Mycol. Soc.84(1): 29-33|1985|10.1016/S0007-1536(85)80216-3
72303|T||Byrde,R.J.W., G.M. Clarke, and C.W. Harper|Spraying Experiments Against Apple Mildew and Scab at Long Ashton, 1964|Annu. Rep., University of Bristol, Agric. Hortic. Res. Stn., Bristol, England:127-134|1965|
72304|T||Schumann,G.L., B.B. Clarke, L.V. Rowley, and L.L. Burpee|Use of Environmental Parameters and Immunoassays to Predict Rhizoctonia Blight and Schedule Fungicide Applications on Creeping Bentgrass|Crop Prot.13:211-218|1994|10.1016/0261-2194(94)90080-9
72305|T||Christians,N.E.|Preemergence Herbicide Effects on Four Kentucky Bluegrass Cultivars|Hortscience17(6): 911-912|1982|10.21273/HORTSCI.17.6.911
72307|T||Johnson,B.J.|Tolerance of Bentgrass to Dates and Frequency of Preemergence Herbicide Treatments|Agron. J.79:992-996|1987|10.2134/agronj1987.00021962007900060008x
72309|T||Stewart,E.L., and F.L. Pfleger|Influence of Fungicides on Extant Glomus Species in Association with Field-Grown Peas|Trans. Br. Mycol. Soc.69:318-319|1977|10.1016/S0007-1536(77)80054-5
72310|T||Tammen,J., D.P. Muse, and J.H. Haas|Control of Pythium Root Diseases with Soil Fungicides|Plant Dis. Rep.45(11): 858-863|1961|
72311|T||Sharma,S.R.|Effect of Fungicidal Sprays on Purple Blotch and Bulb Yield of Onion|Indian Phytopathol.39(1): 78-82|1986|
72312|T||Powell,W.M., F.F.,Jr. Hendrix, and D.H. Marx|Chemical Control of Feeder Root Necrosis of Pecans Caused by Pythium Species and Nematodes|Plant Dis. Rep.52(7): 577-578|1968|
72313|T||Rawlins,S.C., and A. Mansingh|Patterns of Resistance to Various Acaricides in Some Jamaican Populations of Boophilus microplus|J. Econ. Entomol.71:956-960|1978|10.1093/jee/71.6.956
72314|T||O'Bannon,J.H., and S. Nemec|Influence of Soil Pesticides on Vesicular-Arbuscular Mycorrhizae in a Citrus Soil (Influencia de Pesticidas del Suelo Sobre las Micorrizas Vesiculo-Arbusculares en Terrenos de Citricos)|Nematropica8(2): 56-61|1978|
72315|T||Thomas,M., and S.C. Vyas|Effect of Fungicide Seed Treatment on Pigeonpea Nodulation|Int. Pigeonpea Newsl.4:62-63|1985|
72316|T||Beckman,K.M., and J.E. Parsons|Fungicidal Control of Sclerotinia Wilt in Green Beans|Plant Dis. Rep.49(4): 357-358|1965|
72317|T||Martin,W.J.|Evaluation of Fungicides for Effectiveness Against the Sweetpotato Black Rot Fungus, Ceratoscystis fimbriata|Plant Dis. Rep.55(6): 523-526|1971|
72318|T||Johnson,B.J.|Tolerance of Five Bermudagrass Cultivars to Herbicide Treatment|In: Ga.Agric.Res.Rep., Univ.of Georgia, Athens, GA:3-19|1978|
72320|T||Shaw,R.D., G.E. Thompson, and J.A.F. Baker|Resistance to Cholinesterase-Inhibitors in the Blue Tick, Boophilus decoloratus, in South Africa|Vet. Rec.81:548-549|1967|
72321|T||Chandler,K.J., and J.P. Erbacher|Susceptibility of Canegrubs to the Insecticide Chlorpyrifos|Proc. Conf. Aust. Soc. Sugar Cane Technol.19:118-126|1997|
72322|T||Nolan,J., and P.E. Bird|Co-Toxicity of Synthetic Pyrethroids and Organophosphorus Compounds Against the Cattle Tick (Boophilus microplus)|J. Aust. Entomol. Soc.16(3): 252-|1977|10.1111/j.1440-6055.1977.tb00095.x
72323|T||Cation,D.|Some Fungicide Trials on Tree Fruits in 1958|Mich. Agric. Exp. Stn. Q. Bull.41(3): 685-698|1959|
72325|T||Grewal,J.S., D. Vir, and P.C. Joshi|Efficacy of Different Fungicides. V. Field Trials for the Control of Hill Bunt of Wheat Caused by Tilletia foetida (Wallr.) Liro|Indian Phytopathol.15:287-289|1962|
72326|T||Grover,R.K., and R.D. Bansal|Seed-Borne Nature of Colletotrichum capsici in Chilli Seeds and Its Control by Seed Dressing Fungicides|Indian Phytopathol.23(4): 664-668|1970|
72327|T||Shukla,D.S., and A.P. Misra|Effect of Soil Application of Fungicides in Inactivation of Sclerotia on Ozonium texanum var. parasiticum and Incidence of Gram Wilt|Indian Phytopathol.25:378-386|1972|
72328|T||Gammon,D.W., M.A. Brown, and J.E. Casida|Two Classes of Pyrethroid Action in the Cockroach|Pestic. Biochem. Physiol.15(2): 181-191|1981|10.1016/0048-3575(81)90084-5
72329|T||Sharma,O.P., A. Tiwari, and S.N. Kulkarni|Effect of Seed Treatment with Systemic and Non-Systemic Fungicides on the Control of Seedling Blight of Mung (Phaseolus aureus) Caused by (Rhizoctonia solani)|Indian Phytopathol.28:114-115|1975|
72330|T||Salgare,S.A.|Inhibitory Effect of Herbicides (Acrolein, Simazine, Nitrofen) on Pollen Germination of Successive Flowers of Apocynaceae|Bioved1(2): 189-194|1991|
72331|T||Farnham,A.W.|Changes in Cross-Resistance Patterns of Houseflies Selected with Natural Pyrethrins or Resmethrin (5-Benzyl-3-Furylmethyl (+ -)-cis-trans-Chrysanthemate)|Pestic. Sci.2:138-143|1971|10.1002/ps.2780020402
72332|T||Dodd,J.C., and P. Jeffries|Effects of Herbicides on Three Vesicular-Arbuscular Fungi Associated with Winter Wheat (Triticum aestivum L.)|Biol. Fertil. Soils7:113-119|1989|10.1007/BF00292568
72333|T||Mohanty,N.N., and S.C. Dash|Efficacy of Different Fungicides and an Antibiotic on Control of Blast of Rice|Indian Phytopathol.24:509-513|1971|
72334|T||Singh,G., J.S. Chohan, and K.S. Sandhu|Fungicidal Control of Rice Blast|Indian Phytopathol.28:422-423|1975|
72336|T||Martin,J.P., D.G. Aldrich, W.S. Murphy, and G.R. Bradford|Effect of Soil Fumigation on Growth and Chemical Composition of Citrus Plants|Soil Sci.75:137-151|1953|10.1097/00010694-195302000-00006
72337|T||Mathur,R.L., B. Masih, and H.C. Sankhla|Evaluation of Fungicides Against Powdery Mildew Disease of Cumin (Cuminum cyminum) Caused by Erysiphe polygoni|Indian Phytopathol.24:796-798|1971|
72338|T||Gupta,R.B.L., G. Singh, R.R. Singh, and J.S. Solanki|Efficacy of Different Fungicides Against Powdery Mildew of Moong|Indian Phytopathol.28:164-166|1975|
72339|T||Bachman,G., C. Wilson, and T. Whitwell|Tolerance of Containerized Landscape Plants to the Postemergence Herbicides Stinger, Manage and Basagran|J. Environ. Hortic.13(3): 129-132|1995|10.24266/0738-2898-13.3.129
72340|T||Hurt,R.T., and W.K. Vencill|Evaluation of Three Imidazolinone Herbicides for Control of Yellow and Purple Nutsedge in Woody and Herbaceous Landscape Plants|J. Environ. Hortic.12(3): 131-134|1994|10.24266/0738-2898-12.3.131
72341|T||Lal,S., G.K. Sood, S.C. Saxena, and H.S. Tripathi|Field Evaluation of Some Systemic and Nonsystemic Fungicides for the Control of Brown Stripe Downy Mildew of Maize|Pesticides 10(7): 28-30|1976|
72342|T||Boatman,N., D. Paget, D.S. Hayman, and B. Mosse|Effects of Systemic Fungicides on Vesicular-Arbuscular Mycorrhizal Infection and Plant Phosphate Uptake|Trans. Br. Mycol. Soc.70(3): 443-450|1978|10.1016/S0007-1536(78)80144-2
72343|T||Sokhi,S.S., H.S. Sohi, and O. Prakash|Systemic and Non-Systemic Fungicides for Control of Powdery Mildew on Bottlegourd|Pesticides 9(1): 19-20|1975|
72344|T||Singh,R.R., and J.S. Solanki|Field Evaluation of Fungicides for the Control of Pea Powdery Mildew|Pesticides 9(4): 30-31|1975|
72345|T||Lemerle,D., A.R. Leys, R.B. Hinkley, J.A. Fisher, and B. Cullis|Tolerances of Wheat Cultivars to Post-Emergence Wild Oat Herbicides|Aust. J. Exp. Agric.25:677-682|1985|10.1071/EA9850677
72346|T||Grover,R.K.|Effect of Some Fungicides on Pectolytic Enzyme Activities of Sclerotinia sclerotiorum and Botrytis allii|Phytopathology54:130-133|1964|
72347|T||Mukhopadyay,A.N., J.P. Upadhyay, and V. Pal|Fungicidal Control of Cercospora Lead Spot of Sugarbeet|Pesticides 8(12): 42A - 42B|1974|
72348|T||Sahni,M.L., and R. Singh|Control of Powdery Mildew of Peas by the Use of Foliar Spray Fungicides|Pesticides 4(9): 17-18|1970|
72349|T||Sohi,H.S., and T.S. Sridhar|Efficacy of Different Fungicides Against Powdery Mildew Disease of Pea|Pesticides :23-|1971|
72350|T||Schaller,C.C., and G. KenKnight|Fungicides Reduce the Incidence of Stem-End Blight of Carya illinoensis|Plant Dis. Rep.56(4): 276-281|1972|
72351|T||Latham,A.J.|Efficacy of Selected Fungicides for Control of Downy Spot on Pecans in Alabama|Plant Dis. Rep.54(8): 725-727|1970|
72352|T||Manning,W.J., and M. Glickman|Effectiveness of Several Systemic and Nonsystemic Fungicides in the Prevention of Botrytis Blight of Geranium Cutting and Stock Plants|Plant Dis. Rep.53(6): 412-415|1969|
72353|T||Dernoeden,P.H.|Phytotoxic Effects of Some Herbicides Applied to Bentgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.41:224-228|1987|
72354|T||Keil,H.L., and R.A. Wilson|Evaluation of Fungicides for Control of Powdery Mildew, as well as Other Diseases, of Apple|Plant Dis. Rep.44(4): 253-255|1960|
72355|T||Burchill,R.T., and M.E. Cook|The Control of Scab and Powdery Mildew of Apple with a Reduced Number of Sprays|Plant Pathol.24(4): 194-198|1975|10.1111/j.1365-3059.1975.tb01893.x
72357|T||Atilano,R.A., and S.D. Van Gundy|Effects of Some Systemic, Nonfumigant and Fumigant Nematicides on Grape Mycorrhizal Fungi and Citrus Nematode|Plant Dis. Rep.63(9): 729-733|1979|
72358|T||Grover,R.K., and J.D. Moore|Toximetric Studies of Fungicides Against the Brown Rot Organisms, Sclerotinia fructicola and S. laxa|Phytopathology52:876-880|1962|
72359|T||Johnson,B.J.|Multiple Herbicide Treatments for Grassy Weed Control in Turf|Weed Sci.26(6): 650-653|1978|10.1017/S0043174500064754
72360|T||Hurto,K.A., and A.J. Turgeon|Influence of Thatch on Preemergence Herbicide Activity in Kentucky Bluegrass (Poa pratensis) Turf|Weed Sci.27(2): 141-146|1979|10.1017/S0043174500043691
72361|T||Johnson,B.J.|Frequency of Herbicide Treatments for Summer and Winter Weed Control in Turfgrasses|Weed Sci.30(1): 116-124|1982|10.1017/S0043174500026291
72362|T||Ocampo,J.A., and J.M. Barea|Effect of Carbamate Herbicides on VA Mycorrhizal Infection and Plant Growth|Plant Soil85:375-383|1985|10.1007/BF02220192
72363|T||Shaner,D.L., and P.A. Robson|Absorption, Translocation, Metabolism of AC 252 214 in Soybean (Glycine max), Common Cocklebur (Xanthium strumarium), and Velvetleaf (Abutilon theophrasti)|Weed Sci.33:469-471|1985|10.1017/S0043174500082679
72364|T||Nandihalli,U.B., and L.E. Bendixen|Absorption, Translocation, and Toxicity of Foliar-Applied Imazquin in Yellow and Purple Nutsedge (Cyperus esculentus and C. rotundus)|Weed Sci.36:313-317|1988|10.1017/S0043174500074932
72365|T||Wilcut,J.W., G.R. Wehtje, M.G. Patterson, and T.A. Cole|Absorption, Translocation, and Metabolism of Foliar-Applied Imazaquin in Soybeans (Glycine max), Peanuts (Arachis hypogaea), and Associated Weeds|Weed Sci.36:5-8|1988|10.1017/S0043174500074361
72366|T||Van Oorschot,J.L.P.|Some Effects of Diquat and Simetone on CO2-Uptake and Transpiration of Phaseolus vulgaris|Proc. Br. Weed Control Conf.:321-324|1964|
72367|T||Byrde,R.J.W., and R.W. Marsh|Spraying Experiments Against Apple and Pear Scab at Long Ashton, 1951|Annual Report of the Long Ashton Agricultural and Horticultural Research Station, Bristol, UK:122-128|1951|
72368|T||Venkataramiah,G.H.|Assay of Fungicides for the Control of Brown Eye Spot Disease of Arabica Coffee Seedlings|Pesticides 5:16-18|1971|
72369|T||Grover,R.K., and J.D. Moore|Adaptation of Sclerotinia fructicola and Sclerotinia laxa to Higher Concentrations of Fungicides|Phytopathology51:399-401|1961|
72371|T||Connolly,A.K., S.C. Price, J.C. Connelly, and R.H. Hinton|Early Changes in Bile Duct Lining Cells and Hepatocytes in Rats Treated with alpha-Naphthylisothiocyanate|Toxicol. Appl. Pharmacol.93(2): 208-219|1988|10.1016/0041-008X(88)90121-4
72372|T||Jones,M.K., W.P. Weisenburger, I.G. Sipes, and D.H. Russell|Circadian Alterations in Prolactin, Corticosterone, and Thyroid Hormone Levels and Down-Regulation of Prolactin Receptor Activity by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.87(2): 337-350|1987|10.1016/0041-008X(87)90295-X
72376|T||Fletcher,H.P., W.J. Akbar, R.W. Peoples, and G.R. Spratto|Effect of Acute Soman on Selected Endocrine Parameters and Blood Glucose in Rats|Fundam. Appl. Toxicol.11(4): 580-586|1988|10.1016/0272-0590(88)90122-4
72377|T||Hall,J.R., E.E. Deal, and A.J. Powell|Seven Years of Smooth Crabgrass Control in Turfgrass with Registered and Experimental Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:399-405|1974|
72379|T||Shaner,D.L.|Absorption and Translocation of Imazapyr in Imperata cylindrica (L.) Raeuschel and Effects on Growth and Water Usage|Trop. Pest Manag.34(4): 388-392|1988|10.1080/09670878809371283
72380|T||Fullerton,T.M., A.M. Davis, and R.E. Frans|The Effect of Selected Preemergence Herbicides and Fertilizer Levels on the Establishment of Several Turfgrasses|Proc. South. Weed Conf.20:69-74|1967|
72381|T||Breuninger,J.M., and R.E. Schmidt|Post-Dormancy Growth of Bermudagrass as Influenced by Low Temperatures and Selected Preemergence Herbicides|Agron. J.73:945-949|1981|10.2134/agronj1981.00021962007300060009x
72383|T||Masih,B., H.C. Sankhla, and R.L. Mathur|Control of Powdery Mildew of Fenugreek (Trigonella foenumgraceum L.) with Fungicides|Rajasthan J. Agric. Sci.1:18-20|1970|
72384|T||Ennis,B.W., and J. Davies|Reproductive Tract Abnormalities in Rats Treated Neonatally with DES|Am. J. Anat.164:145-154|1982|10.1002/aja.1001640205
72385|T||Jones,A.L., and W.J. MacLean|Cherry Leaf Spot Control with Selected Chemicals|Res. Rep. Mich. Agric. Exp. Stn.244:3-8|1974|
72386|T||Jalali,B.L., and K.H. Domsch|Effect of Systemic Fungitoxicants on the Development of Endotrophic Mycorrhiza|In: F.E.Sanders, B.Mosse, and P.B.H.Tinker (Eds.), Endomycorrhizas, Acad.Press, NY:619-626|1975|
72387|T||Tucker,D.P.H., and C.A. Anderson|Correction of Citrus Seedling Stunting on Fumigated Soils by Phosphate Application|Annu. Meet. Fla. State Hortic. Soc.85:10-12|1972|
72388|T||Bogert,J.M.|Cellular Response of Two Turfgrass Cultivars to Selected Herbicides|M.S.Thesis, University of Tennessee, Knoxville, TN:100 p.|1988|
72389|T||Fukami,J.I., and N. Izawa|Mode of Action of Glutamate Agonists and Related Insecticides on the Muscle Contraction and Nerve-Muscle Junction of Insects|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:71-84|1984|
72390|T||Spokes,J.R., and R.M. MacDonald|Effects of Pesticides on VA Mycorrhiza|Rothamsted Exp. Stn. Rep.:236-237|1979|
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72508|T||Maboeta,M.S., S.A. Reinecke, and A.J. Reinecke|Linking Lysosomal Biomarker and Population Responses in a Field Population of Aporrectodea caliginosa (Oligochaeta) Exposed to the Fungicide Copper Oxychloride|Ecotoxicol. Environ. Saf.56(3): 411-418|2003|10.1016/S0147-6513(02)00087-8
72509|T||Schaefer,M.|Assessing 2,4,6-Trinitrotoluene (TNT)-Contaminated Soil Using Three Different Earthworm Test Methods|Ecotoxicol. Environ. Saf.57(1): 74-80|2004|10.1016/j.ecoenv.2003.08.005
72510|T||Madhukar,B.V., K. Ebner, F. Matsumura, D.W. Bombick, D.W. Brewster, and T. Kawamoto|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Causes an Increase in Protein Kinases Associated with Epidermal Growth Factor Receptor in the Hepatic Plasma Membrane|J. Biochem. Toxicol.3:261-277|1988|10.1002/jbt.2570030405
72516|T||Matin,M.A., and K. Husain|Cerebral Glucose and Glycogen Metabolism in Diazinon-Treated Animals|J. Biochem. Toxicol.2:265-270|1987|10.1002/jbt.2570020310
72518|T||Chinn,C., A.E. Lund, and G.K.W. Yim|The Central Actions of Lidocaine and a Pesticide, Chlordimeform|Neuropharmacology16:867-871|1977|10.1016/0028-3908(77)90150-2
72523|T||Lund,A.E., R.M. Hollingworth, and L.L. Murdock|Formamidine Pesticides:  A Novel Mechanism of Action in Lepidopterous Larvae|In: H.Geissbuhler, G.T.Brooks and P.C.Kearney (Eds.), Advances in Pesticide Science, Pergamon Press, London, UK3:465-469|1979|
72526|T||Fowler,B.A., G.E.R. Hook, and G.W. Lucier|Tetrachlorodibenzo-p-Dioxin Induction of Renal Microsomal Enzyme Systems:  Ultrastructural Effects on Pars Recta (S3) Proximal Tubule Cells of the Rat Kidney|J. Pharmacol. Exp. Ther.203(3): 712-721|1977|
72528|T||Mathur,R.L., G. Singh, and R.B.L. Gupta|Field Evaluation of Fungicides for the Control of Powdery Mildew of Pea|Indian J. Mycol. Plant Pathol.1:95-98|1971|
72529|T||Gupta,D.K.|Fungicidal Control of Tikka Disease of Groundnut in Manipur|Indian J. Mycol. Plant Pathol.15(1): 99-101|1985|
72530|AT||Godin,P.J., J.H. Stevenson, and R.M. Sawicki|The Insecticidal Activity of Jasmolin II and Its Isolation from Pyrethrum (Chrysanthemum cinerariaefolium Vis.)|J. Econ. Entomol.58:548-549|1965|10.1093/jee/58.3.548
72531|A||Dosdat,A., J. Person-Le Ruyet, D. Coves, G. Dutto, E. Gasset, A. Le Roux, and G. Lemarie|Effect of Chronic Exposure to Ammonia on Growth, Food Utilisation and Metabolism of the European Sea Bass (Dicentrarchus labrax)|Aquat. Living Resour.16(6): 509-520|2003|10.1016/j.aquliv.2003.08.001
72532|A||Dominguez,M.J., F. Gutierrez, R. Leon, C. Vilchez, J.M. Vega, and J. Vigara|Cadmium Increases the Activity Levels of Glutamate Dehydrogenase and Cysteine Synthase in Chlamydomonas reinhardtii|Plant Physiol. Biochem.41(9): 828-832|2003|10.1016/S0981-9428(03)00114-1
72533|A||Scholz,N.|Ecotoxicity and Biodegradation of Phthalate Monoesters|Chemosphere53(8): 921-926|2003|10.1016/S0045-6535(03)00668-4
72534|A||Cho,Y.C., R.C. Frohnhoefer, and G.Y. Rhee|Bioconcentration and Redeposition of Polychlorinated Biphenyls by Zebra Mussels (Dreissena polymorpha) in the Hudson River|Water Res.38(3): 769-777|2004|10.1016/j.watres.2003.10.046
72535|A||Martins,R.J.E., R. Pardo, and R.A.R. Boaventura|Cadmium(II) and Zinc(II) Adsorption by the Aquatic Moss Fontinalis antipyretica:  Effect of Temperature, pH and Water Hardness|Water Res.38(3): 693-699|2004|10.1016/j.watres.2003.10.013
72536|A||Bellas,J., R. Beiras, and E. Vazquez|A Standardisation of Ciona intestinalis (Chordata, Ascidiacea) Embryo-Larval Bioassay for Ecotoxicological Studies|Water Res.37(19): 4613-4622|2003|10.1016/S0043-1354(03)00396-8
72537|A||Hernando,M.D., M. Ejerhoon, A.R. Fernandez-Alba, and Y. Chisti|Combined Toxicity Effects of MTBE and Pesticides Measured with Vibrio fischeri and Daphnia magna Bioassays|Water Res.37(17): 4091-4098|2003|10.1016/S0043-1354(03)00348-8
72538|A||Inui,M., T. Adachi, S. Takenaka, H. Inui, M. Nakazawa, M. Ueda, H. Watanabe, C. Mori, T. Iguchi, and K. Miyatake|Effect of UV Screens and Preservatives on Vitellogenin and Chloriogenin Production in Male Medaka (Oryzias latipes)|Toxicology194(1-2): 43-50|2003|10.1016/S0300-483X(03)00340-8
72539|A||Padros,J., E. Pelletier, and C.O. Ribeiro|Metabolic Interactions Between Low Doses of Benzo(a)pyrene and Tributyltin in Arctic Charr (Salvelinus alpinus):  A Long-Term In Vivo Study|Toxicol. Appl. Pharmacol.192(1): 45-55|2003|10.1016/S0041-008X(02)00042-X
72540|A||Sevgiler,Y., E.O. Oruc, and N. Uner|Evaluation of Etoxazole Toxicity in the Liver of Oreochromis niloticus|Pestic. Biochem. Physiol.78(1): 1-8|2004|10.1016/j.pestbp.2003.09.004
72541|A||Guha,B., and A.R. Khuda-Bukhsh|Ameliorating Effect of beta-Carotene on Ethylmethane Sulphonate-Induced Genotoxicity in the Fish Oreochromis mossambicus|Mutat. Res.542(1-2): 1-13|2003|10.1016/j.mrgentox.2003.07.012
72542|A||Liu,Z., S.W. Kullman, D.C. Bencic, M. Torten, and D.E. Hinton|Ras Oncogene Mutations in Diethylnitrosamine-Induced Hepatic Tumors in Medaka (Oryzias latipes), a Teleost Fish|Mutat. Res.539(1-2): 43-53|2003|10.1016/S1383-5718(03)00133-5
72543|A||Bjerknes,V., I. Fyllingen, L. Holtet, H.C. Teien, B.O. Rosseland, and F. Kroglund|Aluminum in Acidic River Water Causes Mortality of Farmed Atlantic Salmon (Salmo salar L.) in Norwegian Fjords|Mar. Chem.83(3-4): 169-174|2003|10.1016/S0304-4203(03)00110-5
72544|A||Nicholson,S.|Cardiac and Branchial Physiology Associated with Copper Accumulation and Detoxication in the Mytilid Mussel Perna viridis (L.)|J. Exp. Mar. Biol. Ecol.295(2): 157-171|2003|10.1016/S0022-0981(03)00292-2
72545|A||Perez-Coll,C.S., and J. Herkovits|Lethal and Teratogenic Effects of Naringenin Evaluated by Means of an Amphibian Embryo Toxicity Test (AMPHITOX)|Food Chem. Toxicol.42(2): 299-306|2004|10.1016/j.fct.2003.09.004
72546|A||Goh,E.H., and A.W. Neff|Effects of Fluoride on Xenopus Embryo Development|Food Chem. Toxicol.41(11): 1501-1508|2003|10.1016/S0278-6915(03)00166-2
72547|A||Cheung,C.C.C., W.H.L. Siu, B.J. Richardson, S.B. De Luca-Abbott, and P.K.S. Lam|Antioxidant Responses to Benzo(a)pyrene and Aroclor 1254 Exposure in the Green-lipped Mussel, Perna viridis|Environ. Pollut.128(3): 393-403|2004|10.1016/j.envpol.2003.09.010
72548|A||Zimmermann,S., U. Baumann, H. Taraschewski, and B. Sures|Accumulation and Distribution of Platinum and Rhodium in the European Eel Anguilla anguilla Following Aqueous Exposure to Metal Salts|Environ. Pollut.127(2): 195-202|2004|10.1016/j.envpol.2003.08.006
72549|A||Kim,S.G., J.H. Jee, and J.C. Kang|Cadmium Accumulation and Elimination in Tissues of Juvenile Olive Flounder, Paralichthys olivaceus After Sub-chronic Cadmium Exposure|Environ. Pollut.127(1): 117-123|2004|10.1016/S0269-7491(03)00254-9
72550|A||De la Sienra,E., M.A. Armienta, and M.E. Gonsebatt|Potassium Dichromate Increases the Micronucleus Frequency in the Crayfish Procambarus clarkii|Environ. Pollut.126(3): 367-370|2003|10.1016/S0269-7491(03)00249-5
72551|A||Teles,M., V.L. Maria, M. Pacheco, and M.A. Santos|Anguilla anguilla L. Plasma Cortisol, Lactate and Glucose Responses to Abietic Acid, Dehydroabietic Acid and Retene|Environ. Int.29(7): 995-1000|2003|10.1016/S0160-4120(03)00093-X
72552|A||Mishra,R., and S.P. Shukla|Endosulfan Effects on Muscle Malate Dehydrogenase of the Freshwater Catfish Clarias batrachus|Ecotoxicol. Environ. Saf.56(3): 425-433|2003|10.1016/S0147-6513(03)00006-X
72553|AT||Davison,G.P., R. Restrepo, G. Martinez, F. Coll, and O.S. Leon|Effects of a Brassinosteroid Analogue to Mosquito Larvae|Ecotoxicol. Environ. Saf.56(3): 419-424|2003|10.1016/S0147-6513(03)00075-7
72554|A||Guecheva,T.N., B. Erdtmann, M.S. Benfato, and J.A.P. Henriques|Stress Protein Response and Catalase Activity in Freshwater Planarian Dugesia (Girardia) schubarti Exposed to Copper|Ecotoxicol. Environ. Saf.56(3): 351-357|2003|10.1016/S0147-6513(02)00065-9
72555|A||Hose,G.C., R.P. Lim, R.V. Hyne, and F. Pablo|Short-Term Exposure to Aqueous Endosulfan Affects Macroinvertebrate Assemblages|Ecotoxicol. Environ. Saf.56(2): 282-294|2003|10.1016/S0147-6513(03)00008-3
72556|A||Van den Belt,K., R. Verheyen, and H. Witters|Comparison of Vitellogenin Responses in Zebrafish and Rainbow Trout Following Exposure to Environmental Estrogens|Ecotoxicol. Environ. Saf.56(2): 271-281|2003|10.1016/S0147-6513(03)00004-6
72557|A||Tochimoto,H., T. Maki, M. Afzal, and S. Tanabe|Accumulation of Trace Metals in Aquatic Insect Stenopsyche marmorata Navas Transferred in Streams|Ecotoxicol. Environ. Saf.56(2): 256-264|2003|10.1016/S0147-6513(02)00100-8
72558|A||Li,W.M., D.Q. Yin, Y. Zhou, S.Q. Hu, and L.S. Wang|3,4-Dichloroaniline-Induced Oxidative Stress in Liver of Crucian Carp (Carassius auratus)|Ecotoxicol. Environ. Saf.56(2): 251-255|2003|10.1016/S0147-6513(02)00117-3
72559|A||Toft,G., and E. Baatrup|Altered Sexual Characteristics in Guppies (Poecilia reticulata) Exposed to 17beta-Estradiol and 4-tert-Octylphenol During Sexual Development|Ecotoxicol. Environ. Saf.56(2): 228-237|2003|10.1016/S0147-6513(02)00138-0
72560|A||Basha,P.S., and A.U. Rani|Cadmium-Induced Antioxidant Defense Mechanism in Freshwater Teleost Oreochromis mossambicus (Tilapia)|Ecotoxicol. Environ. Saf.56(2): 218-221|2003|10.1016/S0147-6513(03)00028-9
72561|A||Tilton,S.C., C.M. Foran, and W.H. Benson|Effects of Cadmium on the Reproductive Axis of Japanese Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(3): 265-276|2004|10.1016/j.cca.2003.09.009
72562|A||Bossuyt,B.T.A., and C.R. Janssen|Acclimation of Daphnia magna to Environmentally Realistic Copper Concentrations|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(3): 253-264|2003|10.1016/j.cca.2003.09.007
72563|A||Jonsson,M., A. Abrahamson, B. Brunstrom, I. Brandt, K. Ingebrigtsen, and E.H. Jorgensen|EROD Activity in Gill Filaments of Anadromous and Marine Fish as a Biomarker of Dioxin-Like Pollutants|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(3): 235-243|2003|10.1016/j.cca.2003.09.005
72564|A||Zou,E., and R. Bonvillain|Effects of 9-cis- and All-trans-Retinoic Acids on Blood Glucose Homeostasis in the Fiddler Crab, Uca pugilator|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(3): 199-204|2003|10.1016/j.cca.2003.09.003
72565|A||Sloman,K.A., T.P. Morgan, D.G. McDonald, and C.M. Wood|Socially-Induced Changes in Sodium Regulation Affect the Uptake of Water-Borne Copper and Silver in the Rainbow Trout, Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.135(4): 393-403|2003|10.1016/S1532-0456(03)00139-X
72566|A||DellaGreca,M., A. Fiorentino, M. Isidori, M. Lavorgna, L. Previtera, M. Rubino, and F. Temussi|Toxicity of Prednisolone, Dexamethasone and Their Photochemical Derivatives on Aquatic Organisms|Chemosphere54(5): 629-637|2004|10.1016/j.chemosphere.2003.09.008
72567|A||Yorulmazlar,E., and A. Gul|Investigation of Acute Toxicity of Cadmium Sulfate (CdSO4.H2O) and Behavioral Changes of Grass Carp (Ctenopharyngodon idellus Val., 1844)|Chemosphere53(8): 1005-1010|2003|10.1016/S0045-6535(03)00577-0
72568|A||Koukal,B., C. Gueguen, M. Pardos, and J. Dominik|Influence of Humic Substances on the Toxic Effects of Cadmium and Zinc to the Green Alga Pseudokirchneriella subcapitata|Chemosphere53(8): 953-961|2003|10.1016/S0045-6535(03)00720-3
72569|A||Gueguen,C., B. Koukal, J. Dominik, and M. Pardos|Competition Between Alga (Pseudokirchneriella subcapitata), Humic Substances and EDTA for Cd and Zn Control in the Algal Assay Procedure (AAP) Medium|Chemosphere53(8): 927-934|2003|10.1016/S0045-6535(03)00719-7
72570|A||Datta,M., and A. Kaviraj|Ascorbic Acid Supplementation of Diet for Reduction of Deltamethrin Induced Stress in Freshwater Catfish Clarias gariepinus|Chemosphere53(8): 883-888|2003|10.1016/S0045-6535(03)00557-5
72571|A||Yang,J.L., and H.C. Chen|Effects of Gallium on Common Carp (Cyprinus carpio): Acute Test, Serum Biochemistry, and Erythrocyte Morphology|Chemosphere53(8): 877-882|2003|10.1016/S0045-6535(03)00657-X
72572|A||Villarroel,M.J., E. Sancho, M.D. Ferrando, and E. Andreu|Acute, Chronic and Sublethal Effects of the Herbicide Propanil on Daphnia magna|Chemosphere53(8): 857-864|2003|10.1016/S0045-6535(03)00546-0
72573|A||Shailaja,M.S., and C. D'Silva|Evaluation of Impact of PAH on a Tropical Fish, Oreochromis mossambicus Using Multiple Biomarkers|Chemosphere53(8): 835-841|2003|10.1016/S0045-6535(03)00667-2
72574|A||Tatarazako,N., S. Oda, H. Watanabe, M. Morita, and T. Iguchi|Juvenile Hormone Agonists Affect the Occurrence of Male Daphnia|Chemosphere53(8): 827-833|2003|10.1016/S0045-6535(03)00761-6
72576|A||Pickford,D.B., M.J. Hetheridge, J.E. Caunter, A.T. Hall, and T.H. Hutchinson|Assessing Chronic Toxicity of Bisphenol A to Larvae of the African Clawed Frog (Xenopus laevis) in a Flow-Through Exposure System|Chemosphere53(3): 223-235|2003|10.1016/S0045-6535(03)00308-4
72577|A||Berntssen,M.H.G., A. Aatland, and R.D. Handy|Chronic Dietary Mercury Exposure Causes Oxidative Stress, Brain Lesions, and Altered Behaviour in Atlantic Salmon (Salmo salar) Parr|Aquat. Toxicol.65(1): 55-72|2003|10.1016/S0166-445X(03)00104-8
72578|A||Begum,G.|Carbofuran Insecticide Induced Biochemical Alterations in Liver and Muscle Tissues of the Fish Clarias batrachus (Linn) and Recovery Response|Aquat. Toxicol.66(1): 83-92|2004|10.1016/j.aquatox.2003.08.002
72579|A||Xie,L., and P.L. Klerks|Changes in Cadmium Accumulation as a Mechanism for Cadmium Resistance in the Least Killifish Heterandria formosa|Aquat. Toxicol.66(1): 73-81|2004|10.1016/j.aquatox.2003.08.003
72580|A||Morgan,T.P., M. Grosell, R.C. Playle, and C.M. Wood|The Time Course of Silver Accumulation in Rainbow Trout During Static Exposure to Silver Nitrate:  Physiological Regulation or an Artifact of the Exposure Conditions?|Aquat. Toxicol.66(1): 55-72|2004|10.1016/j.aquatox.2003.07.003
72581|A||Bekri,K., and E. Pelletier|Trophic Transfer and In Vivo Immunotoxicological Effects of Tributyltin (TBT) in Polar Seastar Leptasterias polaris|Aquat. Toxicol.66(1): 39-53|2004|10.1016/j.aquatox.2003.07.001
72582|A||Zodrow,J.M., J.J. Stegeman, and R.L. Tanguay|Histological Analysis of Acute Toxicity of 2,3,7,8-Tetrachorodibenzo-p-Dioxin (TCDD) in Zebrafish|Aquat. Toxicol.66(1): 25-38|2004|10.1016/j.aquatox.2003.07.002
72583|A||Hornung,M.W., K.M. Jensen, J.J. Korte, M.D. Kahl, E.J. Durhan, J.S. Denny, T.R. Henry, and G.T. Ankley|Mechanistic Basis for Estrogenic Effects in Fathead Minnow (Pimephales promelas) Following Exposure to the Androgen 17alpha-Methyltestosterone:  Conversion of 17alpha-Methyltestosterone to 17alpha-Methylestradiol|Aquat. Toxicol.66(1): 15-23|2004|10.1016/j.aquatox.2003.06.004
72584|A||Untersteiner,H., J. Kahapka, and H. Kaiser|Behavioural Response of the Cladoceran Daphnia magna Straus to Sublethal Copper Stress - Validation by Image Analysis|Aquat. Toxicol.65(4): 435-442|2003|10.1016/S0166-445X(03)00157-7
72585|A||De Boeck,G., T.T.H. Ngo, K. Van Campenhout, and R. Blust|Differential Metallothionein Induction Patterns in Three Freshwater Fish During Sublethal Copper Exposure|Aquat. Toxicol.65(4): 413-424|2003|10.1016/S0166-445X(03)00178-4
72586|A||Orn,S., H. Holbech, T.H. Madsen, L. Norrgren, and G.I. Petersen|Gonad Development and Vitellogenin Production in Zebrafish (Danio rerio) Exposed to Ethinylestradiol and Methyltestosterone|Aquat. Toxicol.65(4): 397-411|2003|10.1016/S0166-445X(03)00177-2
72587|A||Pena-Llopis,S., M.D. Ferrando, and J.B. Pena|Fish Tolerance to Organophosphate-Induced Oxidative Stress is Dependent on the Glutathione Metabolism and Enhanced by N-Acetylcysteine|Aquat. Toxicol.65(4): 337-360|2003|10.1016/S0166-445X(03)00148-6
72588|A||Tran,D., E. Fournier, G. Durrieu, and J.C. Massabuau|Copper Detection in the Asiatic Clam Corbicula fluminea:  Optimum Valve Closure Response|Aquat. Toxicol.65(3): 317-327|2003|10.1016/S0166-445X(03)00156-5
72589|A||McAllister,B.G., and D.E. Kime|Early Life Exposure to Environmental Levels of the Aromatase Inhibitor Tributyltin Causes Masculinisation and Irreversible Sperm Damage in Zebrafish (Danio rerio)|Aquat. Toxicol.65(3): 309-316|2003|10.1016/S0166-445X(03)00154-1
72590|A||Chu,F.L.E., P. Soudant, and R.C. Hale|Relationship Between PCB Accumulation and Reproductive Output in Conditioned Oysters Crassostrea virginica fed a Contaminated Algal Diet|Aquat. Toxicol.65(3): 293-307|2003|10.1016/S0166-445X(03)00152-8
72591|A||Pickford,K.A., R.E. Thomas-Jones, B. Wheals, C.R. Tyler, and J.P. Sumpter|Route of Exposure Affects the Oestrogenic Response of Fish to 4-tert-Nonylphenol|Aquat. Toxicol.65(3): 267-279|2003|10.1016/S0166-445X(03)00149-8
72592|A||Sloman,K.A., G.R. Scott, Z. Diao, C. Rouleau, C.M. Wood, and D.G. McDonald|Cadmium Affects the Social Behaviour of Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.65(2): 171-185|2003|10.1016/S0166-445X(03)00122-X
72593|A||Clason,B., S. Duquesne, M. Liess, R. Schulz, and G.P. Zauke|Bioaccumulation of Trace Metals in the Antarctic Amphipod Paramoera walkeri (Stebbing, 1906):  Comparison of Two-Compartment and Hyperbolic Toxicokinetic Models|Aquat. Toxicol.65(2): 117-140|2003|10.1016/S0166-445X(03)00120-6
72594|A||Mauri,M., E. Baraldi, and R. Simonini|Effects of Zinc Exposure on the Polychaete Dinophilus gyrociliatus:  A Life-Table Response Experiment|Aquat. Toxicol.65(1): 93-100|2003|10.1016/S0166-445X(03)00109-7
72595|A||Luckenbach,T., H. Ferling, M. Gernhofer, H.R. Kohler, R.D. Negele, E. Pfefferle, and R. Triebskorn|Developmental and Subcellular Effects of Chronic Exposure to Sub-Lethal Concentrations of Ammonia, PAH and PCP Mixtures in Brown Trout (Salmo trutta f. fario L.) Early Life Stages|Aquat. Toxicol.65(1): 39-54|2003|10.1016/S0166-445X(03)00107-3
72596|A||Wootton,E.C., E.A. Dyrynda, R.K. Pipe, and N.A. Ratcliffe|Comparisons of PAH-Induced Immunomodulation in Three Bivalve Molluscs|Aquat. Toxicol.65(1): 13-25|2003|10.1016/S0166-445X(03)00098-5
72597|A||Lemarie,G., A. Dosdat, D. Coves, G. Dutto, E. Gasset, and J. Person-Le Ruyet|Effect of Chronic Ammonia Exposure on Growth of European Seabass (Dicentrarchus labrax) Juveniles|Aquaculture229(1-4): 479-491|2004|10.1016/S0044-8486(03)00392-2
72598|A||Beiras,R., and M. Albentosa|Inhibition of Embryo Development of the Commercial Bivalves Ruditapes decussatus and Mytilus galloprovincialis by Trace Metals; Implications for the Implementation of Seawater Quality Criteria|Aquaculture230(1-4): 205-213|2004|10.1016/S0044-8486(03)00432-0
72599|A||Foss,A., T.H. Evensen, T. Vollen, and V. Oiestad|Effects of Chronic Ammonia Exposure on Growth and Food Conversion Efficiency in Juvenile Spotted Wolffish|Aquaculture228(1-4): 215-224|2003|10.1016/S0044-8486(03)00276-X
72600|A||Tripathi,B.N., S.K. Mehta, and J.P. Gaur|Differential Sensitivity of Anabaena doliolum to Cu and Zn in Batch and Semicontinuous Cultures|Ecotoxicol. Environ. Saf.56(2): 311-318|2003|10.1016/S0147-6513(02)00164-1
72601|A||Masola,B., M. Chibi, Y.S. Naik, E. Kandare, and M.F. Zaranyika|Activities of Glutamate Dehydrogenase and Aspartate and Alanine Aminotransferases in Freshwater Snails Helisoma duryi and Lymnaea natalensis Exposed to Copper|Biomarkers (Lond.)8(1): 33-42|2003|10.1080/13547500210166757
72602|A||Bozhkov,A.I.|Three Dose-Dependent Stages of the Effect of Copper Ions on Functional Activity of Biological Systems|Biochemistry (Wash.)62(2): 149-157|1997|
72603|A||Bjerregaard,P., B. Korsgaard, L.B. Christiansen, K.L. Pedersen, L.J. Christensen, S.N. Pedersen, and P. Horn|Monitoring and Risk Assessment for Endocrine Disruptors in the Aquatic Environment:  A Biomarker Approach|Arch. Toxicol.Suppl.20:97-107|1998|10.1007/978-3-642-46856-8_9
72605|T||Jones,R.K., J.W. Heuberger, and J.D. Bates|Apple Scab III. Effect of Serial Applications of Fungicides on Leaf Lesions on Previously Unsprayed Trees -  Inhibition of Conidial Germination, Removal (Suppression) of the Organism, and Subsequent Development of Late |Plant Dis. Rep.47(5): 420-424|1963|
72606|T||Smith,T.F., A.J. Noack, and S.M. Cosh|The Effect of Some Herbicides on Vesicular-Arbuscular Endophyte Abundance in the Soil and on Infection of Host Roots|Pestic. Sci.12:91-97|1981|10.1002/ps.2780120114
72607|T||Sieverding,E., and D.E. Leihner|Effect of Herbicides on Population Dynamics of VA-Mycorrhiza with Cassava|Angew. Bot. (Multiple Languages)58:283-294|1984|
72608|T||Luguru,S.M., D.S. Banda, and R.G. Pegram|Susceptibility of Ticks to Acaricides in Zambia|Trop. Anim. Health Prod.16:21-26|1984|10.1007/BF02248923
72609|T||Klos,E.J., and E. Rebman|Cherry Leaf Spot Control and Physiological Effects by New and Standard Fungicides|Q. Bull. Mich. Agric. Exp. Stn.40:646-652|1958|
72610|A||Greulich,K., and S. Pflugmacher|Differences in Susceptibility of Various Life Stages of Amphibians to Pesticide Exposure|Aquat. Toxicol.65(3): 329-336|2003|10.1016/S0166-445X(03)00153-X
72611|T||Feng,P.C.C., T. Chiu, and R.D. Sammons|Glyphosate Efficacy is Contributed by Its Tissue Concentration and Sensitivity in Velvetleaf (Abutilon theophrasti)|Pestic. Biochem. Physiol.77(3): 83-91|2003|10.1016/j.pestbp.2003.08.005
72612|T||Saladin,G., C. Magne, and C. Clement|Physiological Stress Responses of Vitis vinifera L. to the Fungicides Fludioxonil and Pyrimethanil|Pestic. Biochem. Physiol.77(3): 125-137|2003|10.1016/j.pestbp.2003.07.003
72613|T||Saladin,G., C. Magne, and C. Clement|Stress Reactions in Vitis vinifera L. Following Soil Application of the Herbicide Flumioxazin|Chemosphere53(3): 199-206|2003|10.1016/S0045-6535(03)00515-0
72614|A||Ramesh,A., and S.T. Maheswari|Dissipation of Alachlor in Cotton Plant, Soil and Water and Its Bioaccumulation in Fish|Chemosphere54(5): 647-652|2004|10.1016/j.chemosphere.2003.08.008
72615|A||Maycock,D.S., M.M. Prenner, R. Kheir, S. Morris, A. Callaghan, P. Whitehouse, D. Morritt, and M. Crane|Incorporation of In Situ and Biomarker Assays in Higher-Tier Assessment of the Aquatic Toxicity of Insecticides|Water Res.37(17): 4180-4190|2003|10.1016/S0043-1354(03)00337-3
72616|T||Filkowski,J., J. Besplug, P. Burke, I. Kovalchuk, and O. Kovalchuk|Genotoxicity of 2,4-D and Dicamba Revealed by Transgenic Arabidopsis thaliana Plants Harboring Recombination and Point Mutation Markers|Mutat. Res.542(1/2): 23-32|2003|10.1016/j.mrgentox.2003.07.008
72617|A||Kim,W.S., S.J. Yoon, and D.B. Yang|Effects of Chlorpyrifos on the Endogenous Rhythm of the Manila Clam, Ruditapes philippinarum (Bivalvia:  Veneridae)|Mar. Pollut. Bull.48(1/2): 182-187|2004|10.1016/j.marpolbul.2003.09.005
72618|A||Antunes,S.C., B.B. Castro, and F. Goncalves|Effect of Food Level on the Acute and Chronic Responses of Daphnids to Lindane|Environ. Pollut.127(3): 367-375|2004|10.1016/j.envpol.2003.08.015
72619|A||Russo,J., and L. Lagadic|Effects of Environmental Concentrations of Atrazine on Hemocyte Density and Phagocytic Activity in the Pond Snail Lymnaea stagnalis (Gastropoda, Pulmonata)|Environ. Pollut.127(2): 303-311|2004|10.1016/S0269-7491(03)00269-0
72620|A||Sancho,E., C. Fernandez-Vega, M.D. Ferrando, and E. Andreu-Moliner|Eel ATPase Activity as Biomarker of Thiobencarb Exposure|Ecotoxicol. Environ. Saf.56(3): 434-441|2003|10.1016/S0147-6513(03)00077-0
72621|A||Maenpaa,K.A., A.J. Sormunen, and J.V.K. Kukkonen|Bioaccumulation and Toxicity of Sediment Associated Herbicides (Ioxynil, Pendimethalin, and Bentazone) in Lumbriculus variegatus (Oligochaeta) and Chironomus riparius (Insecta)|Ecotoxicol. Environ. Saf.56(3): 398-410|2003|10.1016/S0147-6513(03)00010-1
72622|A||Stark,J.D., and R.I. Vargas|Demographic Changes in Daphnia pulex (Leydig) After Exposure to the Insecticides Spinosad and Diazinon|Ecotoxicol. Environ. Saf.56(3): 334-338|2003|10.1016/S0147-6513(02)00074-X
72623|A||Sherrard,R.M., C.L. Murray-Gulde, J.H.,Jr. Rodgers, and Y.T. Shah|Comparative Toxicity of Chlorothalonil: Ceriodaphnia dubia and Pimephales promelas|Ecotoxicol. Environ. Saf.56(3): 327-333|2003|10.1016/S0147-6513(02)00073-8
72624|A||Sayeed,I., S. Parvez, S. Pandey, B. Bin-Hafeez, R. Haque, and S. Raisuddin|Oxidative Stress Biomarkers of Exposure to Deltamethrin in Freshwater Fish, Channa punctatus Bloch|Ecotoxicol. Environ. Saf.56(2): 295-301|2003|10.1016/S0147-6513(03)00009-5
72625|A||Waring,C.P., and A. Moore|The Effect of Atrazine on Atlantic Salmon (Salmo salar) Smolts in Fresh Water and After Sea Water Transfer|Aquat. Toxicol.66(1): 93-104|2004|10.1016/j.aquatox.2003.09.001
72626|A||Berard,A., U. Dorigo, I. Mercier, K. Becker-Van Slooten, D. Grandjean, and C. Leboulanger|Comparison of the Ecotoxicological Impact of the Triazines Irgarol 1051 and Atrazine on Microalgal Cultures and Natural Microalgal Communities in Lake Geneva|Chemosphere53(8): 935-944|2003|10.1016/S0045-6535(03)00674-X
72627|T||Chadwick,P.R., M. Martin, and J. Marin|Use of Thermal Fogs of Bioresmethrin and Cismethrin for Control of Periplaneta americana (Insecta:  Blattidae) in Sewers|J. Med. Entomol.13(4-5): 625-626|1977|10.1093/jmedent/13.4-5.625
72628|AT||Price,A.|The Use of an Amine Salt of Endothall in Irrigation Canals|J. Aquat. Plant Manag.8(1): 32-33|1969|
72629|T||Kappelman,A.J.,Jr.|Fungicidal Control of Disease in Cotton|Plant Dis. Rep.53(2): 161-163|1969|
72630|T||Mondy,N.I.|Pentachloronitrobenzene Effect on Enzymatic Activity and Phenolic Content of Potatoes|Am. Potato J.43:147-153|1966|10.1007/BF02861641
72631|A||Cheikh,H.B., Z.B. Ali-Haouas, M. Marquine, and N. Pasteur|Resistance to Organophosphorus and Pyrethroid Insecticides in Culex pipiens (Diptera:  Culicidae) from Tunisia|J. Med. Entomol.35(3): 251-260|1998|10.1093/jmedent/35.3.251
72632|T||Stewart,A.M., and K.L. Edmisten|Effect of Planting Date, Starter Fertilizer, and Fungicide Interaction on Cotton|J. Plant Nutr.20(9): 1225-1230|1997|10.1080/01904169709365329
72633|T||Vaverkova,S., and M. Felklova|The Detection and Determination of Sinbar and Simazine 50 WP Residuals in the Peppermint|Acta Fac. Pharm. Univ. Comen.41:163-172|1987|
72634|T||Smith,G.S., and L.M. Callahan|Herbicidal Phytotoxicity to Emerald Zoysia During Establishment|Weed Sci.6:312-315|1968|10.1017/S0043174500047238
72635|T||Clay,D.V., and J. Lawrie|The Effect of Foliar and Soil-Active Herbicides on Blackcurrants|Br. Crop Prot. Conf. Weeds2:641-648|1987|
72636|T||Martin,J.P., W.J. Farmer, and J.O. Ervin|Influence of Steam Treatment and Fumigation of Soil on Growth and Elemental Composition of Avocado Seedlings|Proc. Soil Sci. Soc. Am.37:56-60|1973|10.2136/sssaj1973.03615995003700010021x
72637|T||Shaw,R.D., M. Cook, and R.E.,Jr. Carson|Developments in the Resistance Status of the Southern Cattle Tick to Organophosphorus and Carbamate Insecticides|J. Econ. Entomol.61(6): 1590-1594|1968|10.1093/jee/61.6.1590
72638|T||Martin,J.P., R.C. Baines, and A.L. Page|Observations on the Occasional Temporary Growth Inhibition of Citrus Seedlings Following Heat or Fumigation Treatment of Soil|Soil Sci.95:175-185|1963|10.1097/00010694-196303000-00003
72639|T||Karr,G.W.,Jr., R.T. Gudauskas, and R. Dickens|Effects of Three Herbicides on Selected Pathogens and Diseases of Turfgrasses|Phytopathology69(3): 279-282|1979|10.1094/Phyto-69-279
72640|T||Rebeiz,C.A., A. Montazer-Zouhoor, J.M. Mayasich, B.C. Tripathy, S.M. Wu, and C.C. Rebeiz|Photodynamic Herbicides. Recent Developments and Molecular Basis of Selectivity|Crit. Rev. Plant  Sci.6(4): 385-436|1988|10.1080/07352688809382256
72641|T||Lourens,J.H.M., and D.M. Lyaruu|Susceptibility of Some East African Strains of Rhipicephalus appendiculatus to Cholinesterase Inhibiting Acaricides|PANS (Pest Artic. News Summ.)25(2): 135-142|1979|
72643|T||Medd,R.W., M.G. McMillan, and A.S. Cook|Spray-Topping of Wild Oats (Avena spp.) in Wheat with Selective Herbicides|Plant Prot. Q.7(2): 62-65|1992|
72644|T||Clark,N.G., and A.F. Hams|Antifungal Activity of Substituted Nitroanilines and Related Compounds|J. Sci. Food Agric.12:751-757|1961|10.1002/jsfa.2740121105
72645|T||French,N., and W.R. Wilson|Influence of Crop Rotation, Weed Control and Nematicides on Spraing in Potatoes|Plant Pathol.25:167-172|1976|10.1111/j.1365-3059.1976.tb01952.x
72646|T||Patil,M.B., B.R. Jadhav, and M.S. Rane|Fungicidal Control of Groundnut Rust|Indian J. Mycol. Plant Pathol.13(2): 225-226|1983|
72647|T||Nemec,S., and J.H. O'Bannon|Response of Citrus aurantium to Glomus etunicatus and G. mosseae After Soil Treatment with Selected Fumigants|Plant Soil53:351-359|1979|10.1007/BF02277869
72648|T||Chakrabarti,R., and R.P. Purkayastha|Heavy Metals Uptake and Disease Susceptibility of Maize|Indian Phytopathol.52(4): 381-384|1999|
72649|T||El-Kassas,H.I.|Lead, Cadmium and Nickel Released from Different Fertilizers and Their Implication on Fennel Plants Grown in Sandy Soils|Egypt. J. Soil Sci.39(3): 337-349|1999|
72650|T||Macek,T., M. Mackova, D. Pavlikova, J. Szakova, J. Truksa, A. Singh-Cundy, P. Kotrba, N. Yancey, and W.H. Scouten|Accumulation of Cadmium by Transgenic Tobacco|Acta Biotechnol.22(1-2): 101-106|2002|10.1002/1521-3846(200205)22:1/2<101::AID-ABIO101>3.0.CO;2-N
72651|T||Skogley,C.R., and J.A. Jagschitz|The Effect of Various Preemergence Crabgrass Herbicides on Turfgrass Seed and Seedlings|Proc. Northeast. Weed Control Conf.18:523-529|1964|
72652|T||Wiktelius,S., P.A. Chiverton, H. Meguenni, M. Bennaceur, F. Ghezal, E.D.N. Umeh, R.I. Egwuatu, E. Minja, R. Makusi, E. |Effects of Insecticides on Non-Target Organisms in African Agroecosystems: A Case for Establishing Regional Testing Programs|Agric. Ecosyst. Environ.75(1/2): 121-131|1999|10.1016/S0167-8809(99)00076-6
72653|T||Weckx,J.E.J., and H.M.M. Clijsters|Oxidative Damage and Defense Mechanisms in Primary Leaves of Phaseolus vulgaris as a Result of Root Assimilation of Toxic Amounts of Copper|Physiol. Plant. (Multiple Languages)96(3): 506-512|1996|10.1111/j.1399-3054.1996.tb00465.x
72654|T||Baron,M., J. Rahoutei, J.J. Lazaro, and I. Garcia-Luque|PSII Response to Biotic and Abiotic Stress|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:897-900|1995|
72656|T||Kay,I.R.|Toxicity of Insecticides to Coccinella repanda Thunberg (Coleoptera:  Coccinellidae)|J. Aust. Entomol. Soc.18:233-234|1979|10.1111/j.1440-6055.1979.tb00845.x
72657|T||El-Wakil,H.B., and A.M. Attia|Effect of Selected Insecticides on Terrestrial Snails Eobania vermiculata (Muller) and Theba pisana (Muller) with Respect to Some Morphological Changes in Egypt|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(1): 47-60|1999|
72658|T||Donald,W.W., and T. Prato|Efficacy and Economics of Herbicides for Canada Thistle (Cirsium arvense) Control in No-Till Spring Wheat (Triticum aestivum)|Weed Sci.40(2): 233-240|1992|10.1017/S0043174500057283
72659|T||Meyers,S.M., B.T. Marden, R.S. Bennett, and R. Bentley|Comparative Response of Nestling European Starlings and Red-Winged Blackbirds to an Oral Administration of Either Dimethoate or Chlorpyrifos|J. Wildl. Dis.28(3): 400-406|1992|10.7589/0090-3558-28.3.400
72660|T||Pohl,L.R., W.R. Porter, W.F. Trager, M.J. Fasco, and J.W. Fenton II|Stereochemical Biotransformation of Warfarin as a Probe of the Homogeneity and Mechanism of Microsomal Hydroxylases|Biochem. Pharmacol.26:109-114|1977|10.1016/0006-2952(77)90380-X
72661|T||Ruddick,J.A., and K.S. Khera|Pattern of Anomalies Following Single Oral Doses of Ethylenethiourea to Pregnant Rats|Teratology12:277-282|1975|10.1002/tera.1420120309
72662|T||Pratt,S.J., and R. Reuss|Scrubbing Carbon Dioxide Prevents Overestimation of Insect Mortality in Long-Duration Static Phosphine Toxicity Assays|J. Stored Prod. Res.40(2): 233-239|2004|10.1016/S0022-474X(02)00099-1
72663|T||Forsyth,F.R., and C.E. Broadwell|Control of Cercospora Leaf Spot of Sugar Beets with Protective Fungicides|J. Am. Soc. Sugar Beet Technol.12(2): 91-92|1962|10.5274/jsbr.12.2.91
72664|T||Coyier,D.L.|Control of Powdery Mildew on Apples with Various Fungicides as Influenced by Seasonal Temperature|Plant Dis. Rep.55(3): 263-266|1971|
72665|T||Conway,K.E., J.E. Motes, B. Bostian, C.G. Fisher, and P.L. Claypool|Cercospora Blight Development on Asparagus Fern and Effects of Fungicides on Disease Severity and Yield|Plant Dis.71(3): 254-258|1987|10.1094/PD-71-0254
72666|T||Smyth,K.A., A.G. Parker, J.L. Yen, and J.A. McKenzie|Selection of Dieldrin-Resistant Strains of Lucilia cuprina (Diptera:  Calliphoridae) After Ethyl Methanesulfonate Mutagenesis of a Susceptible Strain|J. Econ. Entomol.85(2): 352-358|1992|10.1093/jee/85.2.352
72667|T||Patel,J.G., and A.J. Patel|Efficacy of Systemic and Non-systemic Fungicides on the Control of Downy Mildew of Muskmelon|Indian J. Mycol. Plant Pathol.10:87-|1980|
72668|T||Sohi,H.S., and S.S. Sokhi|Control of Powdery Mildew (Erysiphe polygoni) and Rust (Uromyces fabae) of Peas|Pesticides 8(6): 29-30|1974|
72669|T||Gupta,G.K.|Role of On-Season, Post-Harvest and Pre-leaf Fall Sprays in the Control of Apple Scab (Venturia inaequalis)|Indian J. Mycol. Plant Pathol.9(2): 141-149|1979|
72670|T||Lewin,H.D., S. Natarajan, and K. Govindarajan|Effect of Soil Cum Foliar Application of Fungicides for the Control of 'Tikka' Disease (Cercospora personata) of Groundnut|Indian J. Mycol. Plant Pathol.2:103-107|1972|
72671|T||Verma,M.L., and A.R. Upadhyay|Incidence and Chemical Control of Blast Disease of Rice Caused by Piricularia oryzae Cav. in Madhya Pradesh:  India|Pesticides 7:20,23|1973|
72672|T||Singh,A., and S.C. Saxena|Chemical Control of Powdery Mildew of Wheat|Indian J. Mycol. Plant Pathol.3:202-203|1973|
72673|T||Singh,R.R., and J.S. Solanki|Fungicidal Control of Powdery Mildew of Brassica juncea|Indian J. Mycol. Plant Pathol.4:210-211|1974|
72674|T||Sen,B., and I.J. Kapoor|Field Trials of Systemic and Non-systemic Fungicides Against Powdery Mildew of Cucurbits - I|Pesticides 8(4): 43-46|1974|
72675|T||Sahni,M.L.|Alternaria Leaf Blight of Roses, and Its Control Through Fungicidal Sprays|Indian J. Mycol. Plant Pathol.3:150-152|1973|
72677|T||Zhu,J., Z. Feng, and J. Chen|Studies on the Distribution and Fate of [gamma-3H] Hexachlorocyclohexane in Rats|Pestic. Biochem. Physiol.25:414-419|1986|10.1016/0048-3575(86)90016-7
72678|T||Robinson,K.M., and J.D. Yarbrough|Liver Response to Oral Administration of Mirex in Rats|Pestic. Biochem. Physiol.8:65-72|1978|10.1016/0048-3575(78)90093-7
72679|T||Gauna,H.F., and R. Orias|Effect of Parathion on Water Intake in the Rat|Pestic. Biochem. Physiol.29:43-54|1987|10.1016/0048-3575(87)90083-6
72680|T||Lopez-Aparicio,P., N. Del Hoyo, and M.A. Perez-Albarsanz|Lindane Distribution and Phospholipid Alterations in Rat Tissues After Administration of Lindane-Containing Diet|Pestic. Biochem. Physiol.3:109-119|1988|10.1016/0048-3575(88)90013-2
72681|T||Huang,Y., S.H. Ho, H.C. Lee, and Y.L. Yap|Insecticidal Properties of Eugenol, Isoeugenol and Methyleugenol and Their Effects on Nutrition of Sitophilus zeamais Motsch. (Coleoptera:  Curculionidae) and Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae)|J. Stored Prod. Res.38(5): 403-412|2002|10.1016/S0022-474X(01)00042-X
72682|T||Kim,H.S., J.H. Shin, H.J. Moon, I.H. Kang, T.S. Kim, I.Y. Kim, J.H. Seok, M.Y. Pyo, and S.Y. Han|Comparative Estrogenic Effects of p-Nonylphenol by 3-Day Uterotrophic Assay and Female Pubertal Onset Assay|Reprod. Toxicol.16(3): 259-268|2002|10.1016/S0890-6238(02)00028-X
72683|T||Rebollo,C.D.E., N. Taira, S. Ura, and J.C. Williams|Larvicidal Effects of Several Chemicals on Strongyloides Infective Larvae|Vet. Parasitol.118(1/2): 165-168|2003|10.1016/j.vetpar.2003.08.009
72684|T||Krizek,D.T., and R.M. Mirecki|Evidence for Phytotoxic Effects of Cellulose Acetate in UV Exclusion Studies|Environ. Exp. Bot.51(1): 33-43|2004|10.1016/S0098-8472(03)00058-3
72687|T||Costlow,R.D., and J.M. Manson|The Heart and Diaphragm:  Target Organs in the Neonatal Death Induced by Nitrofen (2,4-Dichlorophenyl-p-Nitrophenyl Ether)|Toxicology20:209-227|1981|10.1016/0300-483X(81)90052-4
72688|T||Kavlock,R.J., and J.A. Gray|Morphometric, Biochemical, and Physiological Assessment of Perinatally Induced Renal Dysfunction|J. Toxicol. Environ. Health11:1-13|1983|10.1080/15287398309530316
72689|T||Conger,R.M., and R.J. Portier|Phytoremediation Experimentation with the Herbicide Bentazon|Remediation (N.Y.)7(2): 19-37|1997|
72690|T||Wilson,C., and T. Whitwell|Tolerance of Nineteen Species of Container Grown Landscape Plants to Postemergence Applications of Basagran|J. Environ. Hortic.11(2): 86-89|1993|10.24266/0738-2898-11.2.86
72691|T||Lourens,J.H.M.|Genetic Basis for Organochlorine Resistance in Amblyomma variegatum and Information on the Susceptibility on A. lepidum to Organochlorine Acaricides|J. Econ. Entomol.72:790-793|1979|10.1093/jee/72.5.790
72692|T||Van Himme,M., and R. Bulcke|Possibilities of Growing Replacing Spring Crops After Failure of Agricultural Spring Crops Treated with Persistent Herbicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(3b): 1141-1155|1990|
72693|A||Drevnick,P.E., and M.B. Sandheinrich|Effects of Dietary Methylmercury on Reproductive Endocrinology of Fathead Minnows|Environ. Sci. Technol.37(19): 4390-4396|2003|10.1021/es034252m
72696|A||Serrano,R., F.J. Lopez, F. Hernandez, and J.B. Pena|Bioconcentration of Chlorpyrifos, Chlorfenvinphos, and Methidathion in Mytilus galloprovincialis|Bull. Environ. Contam. Toxicol.59(6): 968-975|1997|10.1007/s001289900577
72702|T||Baligar,V.C., and M.D. Smedley|Responses of Forage Grasses to Aluminum in Solution Culture|J. Plant Nutr.12(6): 783-796|1989|10.1080/01904168909363991
72705|T||Juska,F.V., A.A. Hanson, and A.W. Hovin|Phytotoxicity of Preemergence Herbicides|Calif. Turfgrass Cult.21(1): 3-6|1971|
72706|T||Hide,G.A., and P.J. Read|Effects of Rotation Length, Fungicide Treatment of Seed Tubers and Nematicide on Diseases and the Quality of Potato Tubers|Ann. Appl. Biol.119:77-87|1991|10.1111/j.1744-7348.1991.tb04845.x
72707|T||Goss,R.L.|Preemergence Control of Annual Bluegrass (Poa annua L.)|Golf Course Rep.33:24-30|1965|
72708|T||Bingham,S.W., and R.L. Shaver|Effectiveness of Herbicide Programs for Annual Bluegrass (Poa annua) Control in Bermudagrass (Cynodon dactylon)|Weed Sci.27(4): 367-370|1979|10.1017/S0043174500044210
72709|T||Lourens,J.H.M., and R.J. Tatchell|Studies on Acaricide Resistance in Rhipicephalus evertsi evertsi Neumann (Acarina:  Ixodidae) in East Africa.  Identification and Inheritance of a Resistance Factor to Organochlorines|Bull. Entomol. Res.69:235-242|1979|10.1017/S0007485300017703
72710|T||Callahan,L.M., and J.W.,Jr. High|Herbicide Effects on Bermudagrass Lawn Recovery and Crabgrass Control During Spring Root Decline in the North-South Transition Zone|J. Am. Soc. Hortic. Sci.115(4): 597-601|1990|10.21273/JASHS.115.4.597
72712|T||Alexander,S.A., and F.H. Lewis|Reduction of Apple Scab Fungus Inoculum with Fungicides|Plant Dis. Rep.59(11): 890-894|1975|
72713|T||Gullino,M.L., M.L. Romano, and A. Garibaldi|Identification and Response to Fungicides of Colletotrichum gloeosporioides, Incitant of Strawberry Black Rot in Italy|Plant Dis.69(7): 608-609|1985|
72714|T||Jeffrey,K.K., P.E. Lipps, and L.J. Herr|Seed-Treatment Fungicides for Control of Seedborne Alternaria helianthi on Sunflower|Plant Dis.69(2): 124-126|1985|10.1094/PD-69-124
72715|T||Mukhopadhyay,A.N., and R.P. Thakur|Systemic Activity of Triphenyltin Chloride in Sugarbeet Seedlings|Plant Dis. Rep.56(9): 776-778|1972|
72718|T||Wellman,R.H., and S.E.A. McCallan|Glyoxalidine Derivatives as Foliage Fungicides.  I.  Laboratory Studies|Contrib. Boyce Thompson Inst.14:151-160|1946|
72719|T||Calhoun,F.J., W.W. Tolson, and J.J. Schrogie|Effects of Various Drugs on the Uterotropic Response to Mestranol and Norethynodrel in the Rat|Proc. Soc. Exp. Biol. Med.136:47-50|1971|10.3181/00379727-136-35189
72723|T||Schuder,I., G. Port, and J. Bennison|Barriers, Repellents and Antifeedants for Slug and Snail Control|Crop Prot.22(8): 1033-1038|2003|10.1016/S0261-2194(03)00120-0
72724|T||Auger,P., R. Bonafos, S. Guichou, and S. Kreiter|Resistance to Fenazaquin and Tebufenpyrad in Panonychus ulmi Koch (Acari:  Tetranychidae) Populations from South of France Apple Orchards|Crop Prot.22(8): 1039-1044|2003|10.1016/S0261-2194(03)00136-4
72725|A||Villalobos,S.A., D.M. Papoulias, S.D. Pastva, A.L. Blankenship, J. Meadows, D.E. Tillitt, and J.P. Giesy|Toxicity of o,p'-DDE to Medaka d-rR Strain After a One-Time Embryonic Exposure by In Ovo Nanoinjection: An Early Through Juvenile Life Cycle Assessment|Chemosphere53(8): 819-826|2003|10.1016/S0045-6535(03)00583-6
72734|A||Christin,M.S., L. Menard, A.D. Gendron, S. Ruby, D. Cyr, D.J. Marcogliese, L. Rollins-Smith, and M. Fournier|Effects of Agricultural Pesticides on the Immune System of Xenopus laevis and Rana pipiens|Aquat. Toxicol.67:33-43|2004|10.1016/j.aquatox.2003.11.007
72735|A||Hayes,T., K. Haston, M. Tsui, A. Hoang, C. Haeffele, and A. Vonk|Atrazine-Induced Hermaphroditism at 0.1 ppb in American Leopard Frogs (Rana pipiens): Laboratory and Field Evidence|Environ. Health Perspect.111(4): 568-575|2003|10.1289/ehp.5932
72736|T||Sterk,G., S.A. Hassan, M. Baillod, F. Bakker, F. Bigler, S. Blumel, H. Bogenschutz, E. Boller, B. Bromand, J. Brun, J.N|Results of the Seventh Joint Pesticide Testing Programme Carried out by the IOBC/WPRS-Working Group 'Pesticides and Beneficial Organisms'|Biocontrol44:99-117|1999|10.1023/A:1009959009802
72739|A||Pozarycki,S.V.|Sublethal Effects of Estuarine Carbaryl Applications on Juvenile English Sole (Pleuronectes vetulus)|Ph.D.Thesis, Oregon State University, Corvallis, OR60:105 p.|1999|
72740|A||Naddy,R.B.|Assessing the Toxicity of the Organophosphorus Insecticide Chlorpyrifos to a Freshwater Invertebrate, Daphnia magna (Crustacea:  Cladocera)|Ph.D. Thesis, Clemson University, Clemson, SC:101 p.|1996|
72741|A||Key,P.B.|The Lethal and Sublethal Effects of Malathion, Azinphosmethyl and Chlorpyrifos Exposure on the Grass Shrimp, Palaemonetes pugio, with Emphasis on Larval Life Cycle Pulse Exposures|Ph.D.Thesis, University of South Carolina, Columbia, SC:124 p.|1995|
72742|AT||Ogg,A.G.,Jr.|The Physiological Effects and Fate of Dichlobenil (2,6-Dichlorobenzonitrile) in an Aquatic Environment|Ph.D.Thesis, Oregon State University, Corvallis, OR:75 p.|1971|
72743|A||Straus,D.L.|Chlorpyrifos and Parathion Effects on Enzyme Activities in Fingerling Channel Catfish, Ictalurus punctatus:  Interactions with DEF (S,S,S-Tributyl Phosphorotrithiolate) and Aroclor 1254|Ph.D. Thesis, Mississippi State University, MS:74 p.|1994|
72744|A||Shereif,M.M.|Acute and Chronic Effects of Chlorpyrifos on Tilapia zillii|Ph.D. Thesis, Michigan State University, East Lansing, MI:114 p.|1989|
72745|A||Nollenberger,E.L.|Toxicant-Induced Changes in Brain, Gill, Liver, and Kidney of Brook Trout Exposed to Carbaryl, Atrazine, 2,4-Dichlorophenoxyacetic Acid, and Parathion: A Cytochemical Study|Ph.D Thesis, Pennsylvania State University, University Park, PA:213 p.|1981|
72746|A||Steevens,J.A.|Chemical Mixture Interactions:  Toxicity of Chlorpyrifos, Dieldrin, and Methyl Mercury to the Amphipod Hyalella azteca|Ph.D Thesis, University of Mississippi, University, MS:183 p.|1999|
72749|T||Sedlacek,J.D., R.J. Barney, P.A. Weston, and B.D. Price|Efficacy of Malathion Against Coleopteran Populations in Newly-Harvested Versus Year-Old Stored Corn|J. Entomol. Sci.33(3): 282-291|1998|10.18474/0749-8004-33.3.282
72750|T||McPherson,R.M., M.P. Seagraves, R.J. Ottens, and C.S. Bundy|Leaf Dip Bioassay to Determine Susceptibility of Tobacco Hornworm (Lepidoptera: Sphingidae) to Acephate, Methomyl and Spinosad|J. Entomol. Sci.38(2): 262-268|2003|10.18474/0749-8004-38.2.262
72751|A||Pal,B., D.K. Mohapatra, R. Das, and R.C. Mohanty|Effect of Chlorpyrifos on Scenedesmus bijugatus|Pollut. Res.18(4): 479-482|1999|
72752|A||Azmi,M.A., I. Ahmad, S.N.H. Naqvi, K. Akthar, M.F. Khan, M.Z. Khan, R. Tabassum, and S. Jahan|Toxicological Effects of DDT, Malathion and Cyfluthrin Against Larvae of Aedes aegypti by WHO Method|Proc. Pak. Congr. Zool.17:225-232|1997|
72753|A||Murugadass,S., E. Jaykumar, and M. Krishnan|Toxicity of Fenthion and Chlorpyrifos on the Predatory Behaviour of Ranatra filliformis (Hemiptera:  Nepidae)|Pollut. Res.7(1/2): 71-76|1988|
72754|A||Hulsen,K., and M. Hofte|The Microbial Degradation of nM-/microM Concentrations of Linuron Estimated by a Lemna minor Bioassay|Proc.of a Symp.on Pesticide Behaviour in Soils and Water, Organized by the Br.Crop Prot.Counc., Nov.13-15, 2001, No.78, Brighton, UK:157-162|2001|
72755|A||Srivastava,S.K., R. Jaiswal, and A.K. Srivastav|Acute Toxicity of Chlorpyrifos to a Freshwater Catfish Heteropneustes fossilis|J. Adv. Zool.16(2): 92-95|1995|
72756|T||Porter,W.P., S.M. Green, N.L. Debbink, and I. Carlson|Groundwater Pesticides: Interactive Effects of Low Concentrations of Carbamates Aldicarb and Methomyl and the Triazine Metribuzin on Thyroxine and Somatotropin Levels in White Rats|J. Toxicol. Environ. Health40(1): 15-34|1993|10.1080/15287399309531773
72757|T||Breslin,W.J., M.S. Marty, U. Vedula, A.B. Liberacki, and B.L. Yano|Developmental Toxicity of Spinosad Administered by Gavage to CD Rats and New Zealand White Rabbits|Food Chem. Toxicol.38(12): 1103-1112|2000|10.1016/S0278-6915(00)00108-3
72758|T||Ahmad,M., and A.R. McCaffery|Penetration and Metabolism of trans-Cypermethrin in a Susceptible and a Pyrethroid-Resistant Strain of Helicoverpa armigera|Pestic. Biochem. Physiol.65(1): 6-14|1999|10.1006/pest.1999.2420
72759|T||Lee,S.H., J.B. Dunn, J.M. Clark, and D.M. Soderlund|Molecular Analysis of kdr-Like Resistance in a Permethrin-Resistant Strain of Colorado Potato Beetle|Pestic. Biochem. Physiol.63(2): 63-75|1999|10.1006/pest.1999.2395
72760|T||Rossini,L., C. Frova, M.E. Pe, L. Mizzi, and M.S. Gorla|Alachlor Regulation of Maize Glutathione S-Transferase Genes|Pestic. Biochem. Physiol.60(3): 205-211|1998|10.1006/pest.1998.2338
72761|A||Khare,A., and S. Singh|Impact of Malathion on Protein Content in the Freshwater Fish Clarias batrachus|J. Ecotoxicol. Environ. Monit.12(2): 129-132|2002|
72762|T||Harrison,H.F., M.W. Farnham, and J.K. Peterson|Differential Response of Collard and Kale Cultivars to Preemergence Application of Metolachlor|Crop Prot.17(4): 293-297|1998|10.1016/S0261-2194(98)00010-6
72763|A||Steevens,J.A., and W.H. Benson|Toxicological Interactions of Chlorpyrifos and Methyl Mercury in the Amphipod, Hyalella azteca|Toxicol. Sci.52(2): 168-177|1999|10.1093/toxsci/52.2.168
72764|A||Carder,J.P., and K.D. Hoagland|Combined Effects of Alachlor and Atrazine on Benthic Algal Communities in Artificial Streams|Environ. Toxicol. Chem.17(7): 1415-1420|1998|10.1002/etc.5620170727
72765|A||Todd,N.E., and M. Van Leeuwen|Effects of Sevin (Carbaryl Insecticide) on Early Life Stages of Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.53(2): 267-272|2002|10.1006/eesa.2002.2231
72766|A||Raberg,S., M. Nystrom, M. Eros, and P. Plantman|Impact of the Herbicides 2,4-D and Diuron on the Metabolism of the Coral Porites cylindrica|Mar. Environ. Res.56(4): 503-514|2003|10.1016/S0141-1136(03)00039-4
72767|T||Bues,R., L. Boudinhon, J.F. Toubon, and F. Faivre d'Arcier|Geographic and Seasonal Variability of Resistance to Insecticides in Cacopsylla pyri L. (Hom., Psyllidae)|J. Appl. Entomol.123(5): 289-297|1999|10.1046/j.1439-0418.1999.00350.x
72768|T||Tomaszewski,J., K. Zwierz, B. Musiatowicz, and C. Jezyna|Liver Histology in Chronic Metribuzin Poisoning of the Guinea-Pig|Acta Biol. Hung.37(2): 121-128|1986|
72769|T||Fayez,K.A.|Action of Photosynthetic Diuron Herbicide on Cell Organelles and Biochemical Constituents of the Leaves of Two Soybean Cultivars|Pestic. Biochem. Physiol.66(2): 105-115|2000|10.1006/pest.1999.2459
72770|A||Teisseire,H., and G. Vernet|"Is the ""Diuron Effect"" due to a Herbicide Strengthening of Antioxidative Defenses of Lemna minor?"|Pestic. Biochem. Physiol.66(3): 153-160|2000|10.1006/pest.1999.2463
72772|T||Itoh,M., and K. Manabe|Effect of Leaching of a Soil-Applied Herbicide, Diuron, on Its Phytotoxicity in Grape and Peach|J. Jpn. Soc. Hortic. Sci.66(2): 221-228|1997|10.2503/jjshs.66.221
72773|T||Choi,J.S., H.J. Lee, I.T. Hwang, J.Y. Pyon, and K.Y. Cho|Differential Susceptibilities of Wheat and Barley to Diphenyl Ether Herbicide Oxyfluorfen|Pestic. Biochem. Physiol.65(1): 62-72|1999|10.1006/pest.1999.2429
72774|A||Khan,W.A., M.A. Azmi, I. Ahmad, S.N.H. Naqvi, and R. Tabassum|Toxicity of Cypermethrin (Pyrethroid) as Compared to Match (IGR) on the Late 3rd Instar Larvae of Culex fatigans (Wild Strain)|Proc. Pak. Congr. Zool.18:45-48|1998|
72775|T||Quraishi,S.A., M.A. Azmi, K.S. Akhtar, S. Rizwan, S.N.H. Naqvi, and I. Ahmad|Effect of Cypermethrin (Pyrethroid) on Amylase Activity and Total Soluble Protein Content of Callosobruchus analis|Proc. Pak. Congr. Zool.20:237-241|2000|
72776|T||Chauhan,L.K.S., P.N. Saxena, V. Sundararaman, and S.K. Gupta|Diuron-Induced Cytological and Ultrastructural Alterations in the Root Meristem Cells of Allium cepa|Pestic. Biochem. Physiol.62(3): 152-163|1998|10.1006/pest.1998.2379
72777|T||Singh,P., S. Prakash, and H.L. Grover|Effect of 2,4-D on the Nitrate Assimilation Process in Cowpea Shoot|Pestic. Biochem. Physiol.61(1): 15-20|1998|10.1006/pest.1998.2337
72778|T||Ahmad,I., S.N.H. Naqvi, T. Alam, M.A. Azmi, and R. Tabassum|Toxicity of Cypermethrin and Acorus calamus Extract on Sitophilus oryzae|Proc. Pak. Congr. Zool.18:31-36|1998|
72779|T||Rizwan,S., I. Ahmad, K. Akhtar, S.A. Quraishi, S.N.H. Naqvi, and M.A. Azmi|Toxicological Studies on Cypermethrin and Cyfluthrin Against Sitophilus oryzae and Their Effects on Phosphomonoesterases|Proc. Pak. Congr. Zool.20:109-115|2000|
72780|T||Ahmad,I., S. Hassan, K. Akhtar, M.F. Khan, and M.A. Azmi|Comparative Toxicity of Fenpropathrin and Fipronil Against Callosobruchus analis (L.), Parc Strain, and Their Effects on Acid Phosphatase Enzyme|Proc. Pak. Congr. Zool.20:123-128|2000|
72781|T||Khan,M.F., S. Gul, I. Ahmad, M.A. Azmi, S.N.H. Naqvi, and K. Akhtar|Determination of Toxicity of Fenpropathrin and Citronella Oil Against Red Flour Beetle, Tribolium castaneum and Their Effects on Cholinesterase Enzyme|Proc. Pak. Congr. Zool.20:231-235|2000|
72782|T||Head,G., C.W. Hoy, and F.R. Hall|Genetics of Response to Permethrin in Unexposed Diamondback Moth (Lepidoptera: Plutellidae) Populations|Ann. Entomol. Soc. Am.91(2): 217-221|1998|10.1093/aesa/91.2.217
72783|T||Gardner,D.S., N.E. Christians, and B.R. Bingaman|Pendimethalin and Corn Gluten Meal Combinations to Control Turf Weeds|Crop Sci.37(6): 1875-1877|1997|10.2135/cropsci1997.0011183X003700060035x
72784|T||Glover,D.G., and W.T.,Jr. Schapaugh|Screening of Soybean for Pendimethalin Herbicide Induced Stem Damage|Crop Sci.37(2): 358-360|1997|10.2135/cropsci1997.0011183X003700020008x
72785|A||Fernandez-Vega,C., E. Sancho, D. Ferrando, and E. Andreu|Physiological Effects of Thiobencarb Stress in the Eel (Anguilla anguilla)|J. Pestic. Sci. (Multiple Languages)27(1): 31-38|2002|10.1584/jpestics.27.31
72786|AT||Jinfu,W.|Resistance to Deltamethrin in Culex pipiens pallens (Diptera:  Culicidae) from Zhejiang, China|J. Med. Entomol.36(3): 389-393|1999|10.1093/jmedent/36.3.389
72787|A||Gomez,L., E. Duran, A. Gazquez, S. Martinez, J. Masot, and V. Roncero|Lesions Induced by 2,4-D and Chlorpyrifos in Tench (Tinca tinca L.):  Implication in Toxicity Studies|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(1): 43-51|2002|
72788|T||Huffaker,R.C., M.D. Miller, K.G. Baghott, F.L. Smith, and C.W. Schaller|Effects of Field Application of 2,4-D and Iron Supplements on Yield and Protein Content of Wheat and Barley and Yield of Beans|Crop Sci.7:17-19|1967|10.2135/cropsci1967.0011183X000700010006x
72789|T||Farooqui,M.A., A.V. Rao, T. Jayasree, and A. Sadanandam|Induction of Atrazine Resistance and Somatic Embryogenesis in Solanum melongena|Theor. Appl. Genet.95(4): 702-705|1997|10.1007/s001220050615
72790|A||De Aguiar,L.H., and G. Moraes|Hepatic Alanine and Aspartic Amino Transferases of the Freshwater Teleost Brycon cephalus (Matrincha) Exposed to the Organophosphorous Methyl Parathion (Folidol 600)|In: C.Kennedy and D.MacKinley (Eds.), Fish Response to Toxic Environments, Symposium Proceedings, July 27-30, 1998, Towson University, Baltimore, MD:145-152|1999|
72791|T||Washington,J.R., J. Cruz, F. Lopez, and M. Fajardo|Infection Studies of Mycosphaerella fijiensis on Banana and the Control of Black Sigatoka with Chlorothalonil|Plant Dis.82(11): 1185-1190|1998|10.1094/PDIS.1998.82.11.1185
72792|T||Washington,J.R., J. Cruz, and M. Fajardo|Detection of Chlorothalonil in Dew Water Following Aerial Spray Application and Its Role in the Control of Black Sigatoka in Banana|Plant Dis.82(11): 1191-1198|1998|10.1094/PDIS.1998.82.11.1191
72793|A||Bringolf,R.B., J.B. Belden, and R.C. Summerfelt|Effects of Atrazine on Fathead Minnow in a Short-Term Reproduction Assay|Environ. Toxicol. Chem.23(4): 1019-1025|2004|10.1897/03-180
72794|A||Chen,C.Y., K.M. Hathaway, and C.L. Folt|Multiple Stress Effects of Vision Herbicide, pH, and Food on Zooplankton and Larval Amphibian Species from Forest Wetlands|Environ. Toxicol. Chem.23(4): 823-831|2004|10.1897/03-108
72795|A||Edginton,A.N., P.M. Sheridan, G.R. Stephenson, D.G. Thompson, and H.J. Boermans|Comparative Effects of pH and Vision Herbicide on Two Life Stages of Four Anuran Amphibian Species|Environ. Toxicol. Chem.23(4): 815-822|2004|10.1897/03-115
72796|A||Michel,A., R.D. Johnson, S.O. Duke, and B.E. Scheffler|Dose-Response Relationships Between Herbicides with Different Modes of Action and Growth of Lemna paucicostata:  An Improved Ecotoxicological Method|Environ. Toxicol. Chem.23(4): 1074-1079|2004|10.1897/03-256
72797|A||Thompson,D.G., B.F. Wojtaszek, B. Staznik, D.T. Chartrand, and G.R. Stephenson|Chemical and Biomonitoring to Assess Potential Acute Effects of Vision Herbicide on Native Amphibian Larvae in Forest Wetlands|Environ. Toxicol. Chem.23(4): 843-849|2004|10.1897/02-280
72798|A||Relyea,R.A.|Synergistic Impacts of Malathion and Predatory Stress on Six Species of North American Tadpoles|Environ. Toxicol. Chem.23(4): 1080-1084|2004|10.1897/03-259
72800|A||Hassanein,H.M.A.|Toxicological Effects of the Herbicide Oxyfluorfen on Acetylcholinesterase in Two Fish Species:  Oreochromis niloticus and Gambusia affinis|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(4): 521-527|2002|
72801|T||Hamill,A.S., and J. Zhang|Herbicide Reduction in Metribuzin-Based Weed Control Programs in Corn|Can. J. Plant Sci.75(4): 927-933|1995|10.4141/cjps95-156
72804|A||Buchwalter,D.B., J.F. Sandahl, J.J. Jenkins, and L.R. Curtis|Roles of Uptake, Biotransformation, and Target Site Sensitivity in Determining the Differential Toxicity of Chlorpyrifos to Second to Fourth Instar Chironomous riparius (Meigen)|Aquat. Toxicol.66(2): 149-157|2004|10.1016/j.aquatox.2003.08.004
72805|A||Barata,C., A. Solayan, and C. Porte|Role of B-Esterases in Assessing Toxicity of Organophosphorus (Chlorpyrifos, Malathion) and Carbamate (Carbofuran) Pesticides to Daphnia magna|Aquat. Toxicol.66(2): 125-139|2004|10.1016/j.aquatox.2003.07.004
72807|T||Kim,M.S., C.M. Schumann, and N.B. Klopfenstein|Effects of Thidiazuron and Benzyladenine on Axillary Shoot Proliferation of Three Green Ash (Fraxinus pennsylvanica Marsh.) Clones|Plant Cell Tissue Organ Cult.48(1): 45-52|1997|10.1023/A:1005856720650
72808|T||Moldenke,A.F., R.E. Berry, J.C. Miller, and J.G. Wernz|Toxicity of Acephate to Larvae of Gypsy Moth as a Function of Host Plant and Bioassay Method|Entomol. Exp. Appl.84(2): 157-163|1997|10.1046/j.1570-7458.1997.00210.x
72810|T||Alzogaray,R.A., M.I. Picollo, and E.N. Zerba|Independent and Joint Action of cis- and trans-Permethrin in Triatoma infestans (Hemiptera: Reduviidae)|Arch. Insect Biochem. Physiol.37(3): 225-230|1998|10.1002/(SICI)1520-6327(1998)37:3<225::AID-ARCH5>3.0.CO;2-R
72811|T||Saleem,M.A., A.R. Shakoori, and D. Mantle|Macromolecular and Enzymatic Abnormalities Induced by a Synthetic Pyrethroid, Ripcord (Cypermethrin), in Adult Beetles of a Stored Grain Pest, Tribolium castaneum (Herbst.) (Coleoptera: Tenebrionidae)|Arch. Insect Biochem. Physiol.39(4): 144-154|1998|10.1002/(SICI)1520-6327(1998)39:4<144::AID-ARCH2>3.0.CO;2-6
72812|T||Sanderson,J.B., J.A. MacLeod, and J. Kimpinski|Glyphosate Application and Timing of Tillage of Red Clover Affects Potato Response to N, Soil N Profile, and Root and Soil Nematodes|Can. J. Soil Sci.79(1): 65-72|1999|10.4141/S98-028
72813|A||Rodrigues,E.L., and E. Fanta|Liver Histopathology of the Fish Brachydanio rerio Hamilton-Buchman after Acute Exposure to Sublethal Levels of the Organophosphate Dimethoate 500|Rev. Bras. Zool.15(2): 441-450|1998|10.1590/S0101-81751998000200014
72815|T||Ladonni,H.|Permethrin Resistance Ratios Compared by Two Methods of Testing Nymphs of the German Cockroach, Blattella germanica|Med. Vet. Entomol.14(2): 213-216|2000|10.1046/j.1365-2915.2000.00233.x
72816|T||Sandler,H.A., and C.J. DeMoranville|Influence of Cranberry Soil Surface Characteristics on the Activity of Dichlobenil|Hortscience34(6): 1048-1050|1999|10.21273/HORTSCI.34.6.1048
72817|T||Kansouh,A.S.H., and T.L. Hopkins|Diazinon Absorption, Translocation, and Metabolism in Bean Plants|J. Agric. Food Chem.16:446-450|1968|10.1021/jf60157a021
72818|A||Mebrahtu,Y.B., J. Norem, and M. Taylor|Inheritance of Larval Resistance to Permethrin in Aedes aegypti and Association with Sex Ratio Distortion and Life History Variation|Am. J. Trop. Med. Hyg.56(4): 456-465|1997|10.4269/ajtmh.1997.56.456
72819|T||Niekamp,J.W., W.G. Johnson, and R.J. Smeda|Broadleaf Weed Control with Sulfentrazone and Flumioxazin in No-Tillage Soybean (Glycine max)|Weed Technol.13(2): 233-238|1999|10.1017/S0890037X0004166X
72820|T||Chauhan,L.K.S., P.N. Saxena, and S.K. Gupta|Cytogenetic Effects of Cypermethrin and Fenvalerate on the Root Meristem Cells of Allium cepa|Environ. Exp. Bot.42(3): 181-189|1999|10.1016/S0098-8472(99)00033-7
72821|T||Last,D.I., and D.J. Llewellyn|A Detoxification Gene in Transgenic Nicotiana tabacum Confers 2,4-D Tolerance|Weed Sci.47(4): 401-404|1999|10.1017/S0043174500091980
72822|T||Abo-El-Seoud,M.A., and M. Frost|Biochemical Changes in Wheat Plants as Affected by Residues of Dimethoate and Pirimicarb|Environ. Manag. Health9(5): 188-193|1998|10.1108/09566169810240481
72823|T||Van Oorschot,J.L.P.|Tolerance of Carrots to Some Herbicides Inhibiting Photosynthesis|Meded. - Inst. Biol. Scheikd. Onderz. Landbouwgewassen, Wageningen 16:683-694|1964|
72824|A||Silkina,N.I., V.R. Mikryakov, and A.N. Zharikova|Modification of Parameters of Lipid Metabolism in Carp Cyprinus carpio in the Presence of Carbophos|J. Ichthyol.42(5): 406-411|2002|
72825|T||Abou-Donia,M.B., K.R. Wilmarth, K.F. Jensen, F.W. Oehme, and T.L. Kurt|Neurotoxicity Resulting from Coexposure to Pyridostigmine Bromide, DEET, and Permethrin:  Implications of Gulf War Chemical Exposures|J. Toxicol. Environ. Health48(1): 35-56|1996|10.1080/009841096161456
72826|A||Karen,D.J., R. Draughn, M. Fulton, and P. Ross|Bone Strength and Acetylcholinesterase Inhibition as Endpoints in Chlorpyrifos Toxicity to Fundulus heteroclitus|Pestic. Biochem. Physiol.60(3): 167-175|1998|10.1006/pest.1998.2345
72827|A||Brillantes,S., V. Tanasomwang, S. Thongrod, and N. Dachanantawitaya|Oxytetracycline Residues in Giant Freshwater Prawn (Macrobrachium rosenbergii)|J. Agric. Food Chem.49(10): 4995-4999|2001|10.1021/jf010451i
72828|AT||Snel,J.F.H., J.H. Vos, R. Gylstra, and T.C.M. Brock|Inhibition of Photosystem II (PSII) Electron Transport as a Convenient Endpoint to Assess Stress of the Herbicide Linuron on Freshwater Plants|Aquat. Ecol.32(2): 113-123|1998|10.1023/A:1009971930626
72830|T||Awadallah,S.M.|Teratogenic Effects of Cypermethrin and Chlorpyrifos on Chick Embryo|Alex. Sci. Exch.18(3): 287-296|1997|
72831|A||De Silva,P.M.C.S., and L.A. Samayawardhena|Low Concentrations of Lorsban in Water Result in Far Reaching Behavioral and Histological Effects in Early Life Stages in Guppy|Ecotoxicol. Environ. Saf.53(2): 248-254|2002|10.1006/eesa.2002.2209
72833|T||Ellis,N.K.|2,4-D Finds a Place in Potato Production|Down Earth4:14-15|1949|
72834|T||McLeod,P., F.J. Diaz, and D.T. Johnson|Toxicity, Persistence, and Efficacy of Spinosad, Chlorfenapyr, and Thiamethoxam on Eggplant when Applied Against the Eggplant Flea Beetle (Coleoptera: Chrysomelidae)|J. Econ. Entomol.95(2): 331-335|2002|10.1603/0022-0493-95.2.331
72835|T||Moulton,J.K., D.A. Pepper, R.K. Jansson, and T.J. Dennehy|Pro-Active Management of Beet Armyworm (Lepidoptera:  Noctuidae) Resistance to Tebufenozide and Methoxyfenozide:  Baseline Monitoring, Risk Assessment, and Isolation of Resistance|J. Econ. Entomol.95(2): 414-424|2002|10.1603/0022-0493-95.2.414
72836|T||Shukla,Y., and P. Taneja|Mutagenic Potential of Cypermethrin in Mouse Dominant Lethal Assay|J. Environ. Pathol. Toxicol. Oncol.21(3): 259-265|2002|
72837|T||Ester,A., H. De Putter, and J.G.P.M. Van Bilsen|Filmcoating the Seed of Cabbage (Brassica oleracea L. convar. capitata L.) and Cauliflower (Brassica oleracea L. var. botrytis L.) with Imidacloprid and Spinosad to Control Insect Pests|Crop Prot.22(5): 761-768|2003|10.1016/S0261-2194(03)00042-5
72838|T||Mujica,M.T., S. Fracchia, J.A. Ocampo, and A. Godeas|Influence of the Herbicides Chlorsulfuron and Glyphosate on Mycorrhizal Soybean Intercropped with the Weeds Brassica campestris or Sorghum halepensis|Symbiosis27(1): 73-81|1999|
72839|A||Singh,K., A. Singh, and D.K. Singh|The Use of Piperonyl Butoxide and MGK-264 Improve the Efficacy of Some Plant-Derived Molluscicides|Pestic. Sci.54(2): 145-149|1998|10.1002/(SICI)1096-9063(1998100)54:2<145::AID-PS789>3.0.CO;2-3
72840|T||Harrewijn,P., and H. Kayser|Pymetrozine, a Fast-Acting and Selective Inhibitor of Aphid Feeding.  In-Situ Studies with Electronic Monitoring of Feeding Behaviour|Pestic. Sci.49(2): 130-140|1997|10.1002/(SICI)1096-9063(199702)49:2<130::AID-PS509>3.0.CO;2-U
72841|T||Li,X., Y. Wang, Q. Zhang, G. Yu, D. Zhang, Y. Yang, Z. Zhang, J. Zhang, S. Luo, C. Chen, and S. Ding|Insecticide Resistance in Field Strains of Pectinophora gossypiella (Saunders) in China and Effect of Synergists on Deltamethrin and Parathion-Methyl Activity|Pestic. Sci.50(3): 183-186|1997|10.1002/(SICI)1096-9063(199707)50:3<183::AID-PS578>3.0.CO;2-Z
72842|A||Hegazi,M.A.M.|Brain Acetylcholinesterase Inhibition in Juvenile Catfish (Clarias lazera) Induced by Chronic Dursban Intoxication|Delta J. Sci.13(1): 455-468|1989|
72843|A||Hegazi,M.A.M., I.K. El-Shourbagy, and K.M. Abdel-Ghaffar|Chronic Dursban Effects on Carbohydrate Metabolism in Juvenile Catfish Clarias lazera|Delta J. Sci.13(1): 510-523|1989|
72844|T||Morrison,M.L., and E.C. Meslow|Effects of the Herbicide Glyphosate on Bird Community Structure, Western Oregon|For. Sci.30(1): 95-106|1984|
72845|T||Boyden,R., V.R. Potter, and C.A. Elvehjem|Effect of Feeding High Levels of Copper to Albino Rats|J. Nutr.15:397-402|1938|10.1093/jn/15.4.397
72846|T||Ivan,M., and C.M. Grieve|Effects of Zinc, Copper, and Manganese Supplementation of High-Concentrate Ration on Gastrointestinal Absorption of Copper and Manganese in Holstein Calves|J. Dairy Sci.59:1764-1768|1976|10.3168/jds.S0022-0302(76)84435-9
72847|T||Laskey,J.W., G.L. Rehnberg, J.F. Hein, and S.D. Carter|Effects of Chronic Manganese (Mn3O4) Exposure on Selected Reproductive Parameters in Rats|J. Toxicol. Environ. Health9:677-687|1982|10.1080/15287398209530195
72848|T||Summers,J.D., and E.T.,Jr. Moran|Interaction of Dietary Vanadium, Calcium and Phosphorus for the Growing Chicken|Poult. Sci.51:1760-1761|1972|10.3382/ps.0511760
72849|T||Hathcock,J.N., C.H. Hill, and G. Matron|Vanadium Toxicity and Distribution in Chicks and Rats|J. Nutr.82:106-110|1964|10.1093/jn/82.1.106
72850|T||Bressman,R.B., R.D. Miles, C.W. Comer, H.R. Wilson, and G.D. Butcher|Effect of Dietary Supplementation of Vanadium in Commercial Egg-Type Laying Hens|Poult. Sci.11:46-53|2002|
72851|T||Gipp,W.F., W.G. Pond, J. Tasker, D. Van Campen, L. Krook, and W.J. Visek|Influence of Level of Dietary Copper on Weight Gain, Hematology and Liver Copper and Iron Storage of Young Pigs|J. Nutr.103:713-719|1973|10.1093/jn/103.5.713
72852|T||Gipp,W.F., W.G. Pond, and E.F.,Jr. Walker|Influence of Diet Composition and Mode of Copper Administration on the Response of Growing-Finishing Swine to Supplemental Copper|J. Anim. Sci.36(1): 91-99|1973|10.2527/jas1973.36191x
72853|T||Gipp,W.F., W.G. Pond, F.A. Kallfelz, J.B. Tasker, D.R. Van Campen, L. Krook, and W.J. Visek|Effect of Dietary Copper, Iron and Ascorbic Acid Levels on Hematology, Blood and Tissue Copper, Iron and Zinc Concentrations and 64Cu and 59Fe Metabolism in Young Pigs|J. Nutr.104:532-541|1974|10.1093/jn/104.5.532
72854|T||Ritchie,H.D., R.W. Luecke, B.V. Baltzer, E.R. Miller, D.E. Ullrey, and J.A. Hoefer|Copper and Zinc Interrelationships in the Pig|J. Nutr.79:117-123|1963|10.1093/jn/79.2.117
72856|T||Joardar,M., and A. Sharma|Comparison of Clastogenicity of Inorganic Mn Administered in Cationic and Anionic Forms In Vivo|Mutat. Res.240:159-163|1990|10.1016/0165-1218(90)90055-7
72857|T||Chandra,S.V., and G.S. Shukla|Manganese Encephalopathy in Growing Rats|Environ. Res.15:28-37|1978|10.1016/0013-9351(78)90075-0
72858|T||Carter,S.D., J.F. Hein, G.L. Rehnberg, and J.W. Laskey|Chronic Manganese Oxide Ingestion in Rats:  Hematological Effects|J. Toxicol. Environ. Health6:207-216|1980|10.1080/15287398009529843
72859|T||Rehnberg,G.L., J.F. Hein, S.D. Carter, and J.W. Laskey|Chronic Manganese Oxide Administration to Preweanling Rats:  Manganese Accumulation and Distribution|J. Toxicol. Environ. Health6:217-226|1980|10.1080/15287398009529844
72862|T||Fain,P., J. Dennis, and F.G. Harbraugh|The Effect of Added Manganese in Feed on Various Mineral Components of Cattle Blood|Am. J. Vet. Res.13:348-350|1952|
72863|T||Grummer,R.H., O.G. Bentley, P.H. Phillips, and G. Bohstedt|The Role of Manganese in Growth, Reproduction, and Lactation of Swine|J. Anim. Sci.9:170-175|1950|10.2527/jas1950.92170x
72864|T||Leibholz,J.M., V.C. Speer, and V.W. Hays|Effect of Dietary Manganese on Baby Pig Performance and Tissue Manganese Levels|J. Anim. Sci.21:772-776|1962|10.2527/jas1962.214772x
72865|T||Reid,J.T., K.O. Pfau, R.L. Salsbury, C.B. Bender, and G.M. Ward|Mineral Metabolism Studies in Dairy Cattle.  I.  The Effect of Manganese and Other Trace Elements on the Metabolism of Calcium and Phosphorus During Early Lactation|J. Nutr.34:661-676|1947|10.1093/jn/34.6.661
72866|T||Watson,L.T., C.B. Ammerman, J.P. Feaster, and C.E. Roessler|Influence of Manganese Intake on Metabolism of Manganese and Other Minerals in Sheep|J. Anim. Sci.36(1): 131-136|1973|10.2527/jas1973.361131x
72867|T||Guerra,M.C., C. Renzulli, A. Antelli, L. Pozzetti, M. Paolini, and E. Speroni|Effects of Trivalent Chromium on Hepatic CYP-Linked Monooxygenases in Laying Hens|J. Appl. Toxicol.22(3): 161-165|2002|10.1002/jat.853
72868|T||Taylor,M.N., D.C. Joyce, A.H. Wearing, and D.H. Simons|Evaluation of Pyrimethanil (Scala) for the Control of Botrytis cinerea on Harvested Geraldton Waxflower|Aust. J. Exp. Agric.39(5): 639-641|1999|10.1071/EA98142
72870|A||Tembhre,M., and S. Kumar|Effect of Acute and Chronic Exposure to Sublethal Dose of Dimethoate in the Gut of Cyprinus carpio|J. Ecotoxicol. Environ. Monit.4(3): 205-210|1994|
72872|T||Mittal,P.K., T. Adak, O.P. Singh, K. Raghavendra, and S.K. Subbarao|Reduced Susceptibility to Deltamethrin in Anopheles culicifacies sensu lato, in Ramnathapuram District, Tamil Nadu - Selection of a Pyrethroid-Resistant Strain|Curr. Sci. (Bangalore)82(2): 185-188|2002|
72873|T||Alexander,B., C. Jaramillo, M.C. Usma, B.L. Quesada, H. Cadena, W. Roa, and B.L. Travi|An Attempt to Control Phlebotomine Sand Flies (Diptera:  Psychodidae) by Residual Spraying with Deltamethrin in a Colombian Village|Mem. Inst. Oswaldo Cruz90(3): 421-424|1995|10.1590/S0074-02761995000300020
72874|T||Yang,Z.H., and J.W. Du|Effects of Sublethal Deltamethrin on the Chemical Communication System and PBAN Activity of Asian Corn Borer, Ostrinia furnacalis (Guenee)|J. Chem. Ecol.29(7): 1611-1619|2003|10.1023/A:1024222830332
72875|T||Antonious,G.F.|Analysis and Fate of Acephate and Its Metabolite, Methamidophos, in Pepper and Cucumber|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(3): 377-399|1995|
72877|T||Jordan,D.L., A.C. York, J.L. Griffin, P.A. Clay, P.R. Vidrine, and D.B. Reynolds|Influence of Application Variables on Efficacy of Glyphosate|Weed Technol.11(2): 354-362|1997|10.1017/S0890037X00043062
72878|T||Harrison,H.F.,Jr., and M.W. Farnham|Differential Tolerance of Broccoli (Brassica oleracea) Cultivars to Preemergence Application of Oxyfluorfen|Weed Technol.12(1): 14-18|1998|10.1017/S0890037X00042494
72879|T||Schmenk,R., and J.J. Kells|Effect of Soil-Applied Atrazine and Pendimethalin on Velvetleaf (Abutilon theophrasti) Competitiveness in Corn|Weed Technol.12(1): 47-52|1998|10.1017/S0890037X00042561
72880|T||Hart,S.E., and G.K. Roskamp|Soybean (Glycine max) Response to Thifensulfuron and Bentazon Combinations|Weed Technol.12(1): 179-184|1998|10.1017/S0890037X00042767
72881|T||Jaglan,R.S., and P. Sircar|Effect of Carbon-Chain of Solvents on the Toxicity of Cypermethrin Emulsion Formulation Against Larvae of Spodoptera litura (Fab.)|Ann. Biol.19(1): 81-83|2003|
72882|T||Stiborova,M., M. Doubravova, A. Brezinova, and A. Friedrich|Effect of Heavy Metal Ions on Growth and Biochemical Characteristics of Photosynthesis of Barley (Hordeum vulgare L.)|Photosynthetica (Praha)20(4): 418-425|1986|
72883|T||Juliet,S., A.K. Chakraborty, K.M. Koley, T.K. Mandal, and A. Bhattacharyya|Toxico-Kinetics, Recovery Efficiency and Microsomal Changes Following Administration of Deltamethrin to Black Bengal Goats|Pest Manag. Sci.57(3): 311-319|2001|10.1002/ps.268
72884|T||Villarroya,M., M.C. Escorial, J.M. Garcia-Baudin, and M.C. Chueca|Inheritance of Tolerance to Metribuzin in Durum Wheat|Weed Res. (Multiple Languages)40(3): 293-300|2000|10.1046/j.1365-3180.2000.00188.x
72885|T||Ayyappath,R., J.F. Witkowski, and L.G. Higley|Ovipositional Responses of Two Species of Spider Mites (Acari:  Tetranychidae) to Sublethal Concentrations of Permethrin and Methyl Parathion on Corn|Environ. Entomol.26(3): 489-496|1997|10.1093/ee/26.3.489
72886|T||Davey,R.B., and J.E. George|In Vitro and In Vivo Evaluations of a Strain of Boophilus microplus (Acari:  Ixodidae) Selected for Resistance to Permethrin|J. Med. Entomol.35(6): 1013-1019|1998|10.1093/jmedent/35.6.1013
72887|T||Vulule,J.M., R.F. Beach, F.K. Atieli, J.C. McAllister, W.G. Brogdon, J.M. Roberts, R.W. Mwangi, and W.A. Hawley|Elevated Oxidase and Esterase Levels Associated with Permethrin Tolerance in Anopheles gambiae from Kenyan Villages Using Permethrin-Impregnated Nets|Med. Vet. Entomol.13(3): 239-244|1999|10.1046/j.1365-2915.1999.00177.x
72888|T||Gonzini,L.C., S.E. Hart, and L.M. Wax|Herbicide Combinations for Weed Management in Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.13(2): 354-360|1999|10.1017/S0890037X00041853
72889|T||Bellinder,R.R., R.W. Wallace, and G.L. Jordan|English Pea (Pisum sativum) Tolerance to Paraquat and Paraquat Plus Bentazon|Weed Technol.11(1): 39-44|1997|10.1017/S0890037X00041312
72890|T||Novosel,K.M., K.A. Renner, J.J. Kells, and E. Spandl|Metolachlor Efficacy as Influenced by Three Acetolactate Synthase-Inhibiting Herbicides|Weed Technol.12(2): 248-253|1998|10.1017/S0890037X00043761
72891|T||Singh,B.K., and D.L. Shaner|Rapid Determination of Glyphosate Injury to Plants and Identification of Glyphosate-Resistant Plants|Weed Technol.12(3): 527-530|1998|10.1017/S0890037X00044250
72892|T||Lodhi,A., and F. Azam|Yield and Nitrogen Uptake of Wheat (Triticum aestivum L.) as Affected by Nitrapyrin and a Nitrification Inhibiting Insecticide|Cereal Res. Commun.26(3): 305-312|1998|10.1007/BF03543504
72893|T||Ou,L.T., J.M. Davidson, and D.F. Rothwell|Response of Soil Microflora to high 2,4-D Applications|Soil Biol. Biochem.10(5): 443-445|1978|10.1016/0038-0717(78)90074-3
72894|T||Bedford,I.D., A. Kelly, G.K. Banks, D. Fuog, and P.G. Markham|The Effect of Pymetrozine, a Feeding Inhibitor of Homoptera, in Preventing Transmission of Cauliflower Mosaic Caulimovirus by the Aphid Species Myzus persicae (Sulzer)|Ann. Appl. Biol.132(3): 453-462|1998|10.1111/j.1744-7348.1998.tb05221.x
72895|T||Abo-El-Seoud,M.A., and A.M. Shams-El-Din|Ascending and Descending Translocation of 14C-Malathion in Plant-Soil Ecosystem|Int. J. Environ. Stud.49(3-4): 219-226|1996|10.1080/00207239608711026
72896|A||Annune,P.A., and S.U. Ajike|Acute Toxicity and Gill Morphology of Oreochromis niloticus (Trewavas) Exposed to Rogor|J. Aquat. Sci.14:1-4|1999|10.4314/jas.v14i1.19965
72897|T||Pszczolkowski,M.A., and M. Dobrowolski|Circadian Dynamics of Locomotor Activity and Deltamethrin Susceptibility in the Pine Weevil, Hylobius abietis|Phytoparasitica27(1): 19-25|1999|10.1007/BF02980723
72898|T||Pszczolkowski,M.A., and J.J. Brown|Prospects of Monosodium Glutamate Use for Enhancement of Spinosad Toxicity Against Codling Moth Neonates|Phytoparasitica30(3): 243-252|2002|10.1007/BF03039993
72899|T||Bandoni,D J.|The Effect of Isopropyl Alcohol Content as a Surfactant on the Volatilization of the Pesticide Chlorpyrifos|FRI Bull.193:120-125|1996|
72900|A||Saka,M.|Acute Toxicity Tests on Japanese Amphibian Larvae Using Thiobencarb, a Component of Rice Paddy Herbicides|Herpetol. J.9(2): 73-81|1999|
72901|T||Wood,E., S.A. De Licastro, N. Casabe, M.I. Picollo, R. Alzogaray, and E.N. Zerba|A New Tactic for Triatoma infestans Control: Fabrics Impregnated with beta-Cypermethrin|Rev. Panam. Salud Publica6(1): 1-7|1999|
72902|T||Stiborova,M., M. Doubravova, and S. Leblova|A Comparative Study of the Effect of Heavy Metal Ions on Ribulose-1,5-Bisphosphate Carboxylase and Phosphenolpyruvate Carboxylase|Biochem. Physiol. Pflanzen (Multiple Languages)181(6): 373-379|1986|10.1016/S0015-3796(86)80022-1
72903|T||Bleeke,M.S., M.T. Smith, and J.E. Casida|Metabolism and Toxicity of Metribuzin in Mouse Liver|Pestic. Biochem. Physiol.23:123-130|1985|10.1016/0048-3575(85)90086-0
72904|T||Shakoori,A.R., M.A. Saleem, and D. Mantle|Some Macromolecular Abnormalities Induced by a Sublethal Dose of Cymbush 10EC in Adult Beetles of Tribolium castaneum|Pak. J. Zool.30(2): 83-90|1998|
72905|A||Gomez,L., J. Masot, F. Soler, S. Martinez, E. Duran, and V. Roncero|Histopathological Lesions in Tench, Tinca tinca (L.), Kidney Following Exposure to Chlorpyrifos|Pol. Arch. Hydrobiol.45(3): 371-382|1998|
72906|A||Udoidiong,O.M., and P.J. Johnson|Age-Specific Responses of Egeria radiata Lamarck (Lamellibranchia, Donacidae) to Cadmium, Lead and Lindane in Static Bioassay|Arch. Fish. Mar. Res.47(1): 31-45|1999|
72907|T||Ghaffar,A., and P.C. Jepson|Effect of Sublethal Doses of Cypermethrin and Deltamethrin on the Growth and Development of Spodoptera littoralis|Pak. J. Zool.29(1): 81-86|1997|
72908|T||Wehtje,G., and R.H. Walker|Interaction of Glyphosate and 2,4-DB for the Control of Selected Morningglory (Ipomoea spp.) Species|Weed Technol.11(1): 152-156|1997|10.1017/S0890037X00041506
72909|A||Komenda,J.|Photosystem 2 Photoinactivation and Repair in the Scenedesmus Cells Treated with Herbicides DCMU and BNT and Exposed to high Irradiance|Photosynthetica (Praha)35(3): 477-480|1998|10.1023/A:1006984906965
72910|T||Salama,A.K.|Translocation and Metabolism of Oxamyl and Carbofuran in Tomato Plants Grown in Greenhouses|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(5): 569-579|1998|
72911|T||Lich,J.M., K.A. Renner, and D. Penner|Interaction of Glyphosate with Postemergence Soybean (Glycine max) Herbicides|Weed Sci.45(1): 12-21|1997|10.1017/S0043174500092420
72912|T||Byford,R.L., M.E. Craig, S.M. DeRouen, M.D. Kimball, D.G. Morrison, W.E. Wyatt, and L.D. Foil|Influence of Permethrin, Diazinon and Ivermectin Treatments on Insecticide Resistance in the Horn Fly (Diptera:  Muscidae)|Int. J. Parasitol.29(1): 125-135|1999|10.1016/S0020-7519(98)00196-9
72913|T||Dixit,B.S., J.K. Johri, and R. Banerji|Dichlorvos and Dimethoate Residues in Betelvine (Piper betle) Foliage|Indian J. Agric. Sci.68(1): 21-22|1998|
72914|T||Adkins,S.W., D. Wills, M. Boersma, S.R. Walker, G. Robinson, R.J. McLeod, and J.P. Einam|Weeds Resistant to Chlorsulfuron and Atrazine from the North-East Grain Region of Australia|Weed Res. (Multiple Languages)37(5): 343-349|1997|10.1046/j.1365-3180.1997.d01-56.x
72915|T||Hietanen,E., K. Linnainmaa, and H. Vainio|Effects of Phenoxyherbicides and Glyphosate on the Hepatic and Intestinal Biotransformation Activities in the Rat|Acta Pharmacol. Toxicol.53(2): 103-112|1983|10.1111/j.1600-0773.1983.tb01876.x
72916|T||Culpepper,A.S., A.C. York, K.M. Jennings, and R.B. Batts|Interaction of Bromoxynil and Postemergence Graminicides on Large Crabgrass (Digitaria sanguinalis)|Weed Technol.12(3): 554-559|1998|10.1017/S0890037X00044304
72917|T||Furutsu,M., Y.I. Koyama, M. Kusakabe, and S. Takahashi|Preventive Effect of the Extract of Du-Zhong (Tochu) Leaf and Ginseng Root on Acute Toxicity of Chlorpyrifos|Eisei Kagaku (Multiple Languages)43(2): 92-100|1997|
72918|T||Lukwa,N., and V. Manokore|Biological Activity of Permethrin, Phenothrin/Allerthrin and d-Phenothrin on Periplaneta americana and Blattella germanica Cockroaches|East Afr. Med. J.74(4): 252-254|1997|
72920|T||Hansen,R.W., and E. Osgood|Differential Effects of Temperature, when Spraying with Sevin-4-Oil, on Pollinators and Fruit-Set in a Spruce-Fir Forest|In: Environ.Monit.Rep.from the 1982 Maine Cooperative Spruce Budworm Suppression Proj., Maine For.Serv., Dep.of Conserv., Augusta, ME:21-58|1983|
72921|T||Knuckles,M.E., F. Inyang, and A. Ramesh|Acute and Subchronic Oral Toxicities of Benzo(a)pyrene in F-344 Rats|Toxicol. Sci.61:382-388|2001|10.1093/toxsci/61.2.382
72922|T||De Jong,W.H., E.D. Kroese, J.G. Vos, and H. Van Loveren|Detection of Immunotoxicity of Benzo(a)pyrene in a Subacute Toxicity Study After Oral Exposure in Rats|Toxicol. Sci.50:214-220|1999|10.1093/toxsci/50.2.214
72923|T||Culpepper,A.S., and A.C. York|Weed Management in No-Tillage Bromoxynil-Tolerant Cotton (Gossypium hirsutum)|Weed Technol.11(2): 335-345|1997|10.1017/S0890037X00043049
72926|T||Azmi,M.A., R. Tabassum, A. Irshad, S.N.H. Naqvi, and I. Ahmad|Effect of Cyfluthrin and Bakayan Berry (Melia azedarach) Extract on Nucleic Acids of Halys dentatus F.|Proc. Pak. Congr. Zool.17:263-270|1997|
72927|T||Dayan,F.E., S.O. Duke, J.D. Weete, and H.G. Hancock|Selectivity and Mode of Action of Carfentrazone-Ethyl, a Novel Phenyl Triazolinone Herbicide|Pestic. Sci.51(1): 65-73|1997|10.1002/(SICI)1096-9063(199709)51:1<65::AID-PS598>3.0.CO;2-9
72928|T||Ahmad,I., R. Tabassum, M. Naseem, M.A. Azmi, and S.N.H. Naqvi|Effect of Cypermethrin and RB-a (NEEM Extract) on Toxicity and Nucleic Acid Content of Halys dentatus|Proc. Pak. Congr. Zool.17:45-51|1997|
72929|T||Rouchaud,J., F. Gustin, F. Van de Steene, C. Pelerents, L. Vanparys, J. Gillet, F. Benoit, and N. Ceustermans|Transport of the Insecticides Chlorpyrifos, Chlorfenvinphos, Carbofuran, Carbosulfan, and Furathiocarb from Soil into the Foliage of Cauliflower and Brussels Sprouts Plants Grown in the Field|Toxicol. Environ. Chem.30(1/2): 79-94|1991|10.1080/02772249109357644
72930|T||Bell,J.R., A.J. Haughton, N.D. Boatman, and A. Wilcox|Do Incremental Increases of the Herbicide Glyphosate have Indirect Consequences for Spider Communities?|J. Arachnol.30(2): 288-297|2002|10.1636/0161-8202(2002)030[0288:DIIOTH]2.0.CO;2
72931|A||Kalita,M.C.|Effect of Malathion on Growth, Chlorophyll Biosynthesis and Total Nitrogen Accumulation of Azolla-Anabaena Symbionts|J. Ecotoxicol. Environ. Monit.7(1): 59-63|1997|
72935|A||Pyle,G.G., S.M. Swanson, and D.M. Lehmkuhl|The Influence of Water Hardness, pH, and Suspended Solids on Nickel Toxicity to Larval Fathead Minnows (Pimephales promelas)|Water Air Soil Pollut.133(1-4): 215-226|2002|10.1023/A:1012973728628
72936|A||Lakshmi,P.S., and Y.P. Rao|Evaluation of Cadmium Toxicity on Survival, Accumulation and Depuration in an Intertidal Gastropod, Turbo intercostalis|Water Air Soil Pollut.134(1-4): 229-238|2002|10.1023/A:1014199321206
72938|A||Adam,C., J. Garnier-Laplace, and J.P. Baudin|Bioaccumulation of 110M Ag, 60Co, 137Cs and 54Mn by the Freshwater Crustacean Daphnia magna from Dietary Sources (Scenedesmus obliquus and Cyclotella meneghiana)|Water Air Soil Pollut.136(1-4): 125-146|2002|10.1023/A:1015283527888
72939|T||Dan,T.V., S. Krishnaraj, and P.K. Saxena|Cadmium and Nickel Uptake and Accumulation in Scented Geranium (Pelargonium sp. 'Frensham')|Water Air Soil Pollut.137(1-4): 355-364|2002|10.1023/A:1015590007901
72940|T||Athar,R., and M. Ahmad|Heavy Metal Toxicity:  Effect on Plant Growth and Metal Uptake by Wheat, and on Free Living Azotobacter|Water Air Soil Pollut.138(1-4): 165-180|2002|10.1023/A:1015594815016
72941|T||Miyazawa,M., S.M.N. Giminez, M.J.S. Yabe, E.L. Oliveira, and M.Y. Kamogawa|Absorption and Toxicity of Copper and Zinc in Bean Plants Cultivated in Soil Treated with Chicken Manure|Water Air Soil Pollut.138(1-4): 211-222|2002|10.1023/A:1015555116292
72942|A||Luna-Andrade,A., R. Aguilar-Duran, S. Nandini, and S.S.S. Sarma|Combined Effects of Copper and Microalgal (Tetraselmis suecica) Concentrations on the Population Growth of Brachionus plicatilis Muller (Rotifera)|Water Air Soil Pollut.141(1-4): 143-153|2002|10.1023/A:1021346512560
72944|A||Elumalai,M., C. Antunes, and L. Guilhermino|Effects of Single Metals and Their Mixtures on Selected Enzymes of Carcinus maenas|Water Air Soil Pollut.141(1-4): 273-280|2002|10.1023/A:1021352212089
72945|A||Rathore,R.S., and B.S. Khangarot|Effects of Water Hardness and Metal Concentration on a Freshwater Tubifex tubifex Muller|Water Air Soil Pollut.142(1-4): 341-356|2003|10.1023/A:1022016021081
72946|T||Kim,C.G., S.A. Power, and J.N.B. Bell|Effects of Cadmium and Soil Type on Mineral Nutrition and Carbon Partitioning in Seedlings of Pinus sylvestris|Water Air Soil Pollut.145(1-4): 253-266|2003|10.1023/A:1023610711837
72947|T||Huang,B., S. Kuo, and R. Bembenek|Cadmium Uptake by Lettuce from Soil Amended with Phosphorus and Trace Element Fertilizers|Water Air Soil Pollut.147(1-4): 109-127|2003|10.1023/A:1024558228180
72948|A||Ru,S., X. Wei, M. Jiang, and Y. Li|In Vivo and In Vitro Inhibitions of Red Drum (Sciaenops ocellatus) Brain Acetylcholinesterase and Liver Carboxylesterase by Monocrotophos at Sublethal Concentrations|Water Air Soil Pollut.149(1-4): 17-25|2003|10.1023/A:1025607702964
72949|A||Pant,A.|Toxicity and Uptake of Mercurials in a Cyanobacterium|Environmentalist20(4): 295-300|2000|10.1023/A:1006709412085
72951|T||Ekundayo,E.O.|Effect of Common Pesticides Used in the Niger Delta Basin of Southern Nigeria on Soil Microbial Populations|Environ. Monit. Assess.89(1): 35-41|2003|10.1023/A:1025881908298
72952|A||Sinha,S., R. Saxena, and S. Singh|Comparative Studies on Accumulation of Cr from Metal Solution and Tannery Effluent Under Repeated Metal Exposure by Aquatic Plants:  Its Toxic Effects|Environ. Monit. Assess.80(1): 17-31|2002|10.1023/A:1020357427074
72953|A||Casini,S., M.C. Fossi, G. Mori, and A. Bjornstad|Vitellogenin Induction in Cyprinus carpio Treated with 17beta-Estradiol and 4-Nonylphenol|Environ. Monit. Assess.75(3): 235-239|2002|10.1023/A:1014848100515
72954|A||Ismail,M., S.M. Phang, S.L. Tong, and M.T. Brown|A Modified Toxicity Testing Method Using Tropical Marine Microalgae|Environ. Monit. Assess.75(2): 145-154|2002|10.1023/A:1014483713719
72955|A||Begum,G., and S. Vijayaraghavan|Carbofuran Toxicity on Total Lipids and Free Fatty Acids in Air Breathing Fish During Exposure and Cessation of Exposure - In Vivo|Environ. Monit. Assess.70(3): 233-239|2001|10.1023/A:1010775224753
72956|T||Shin,K.H., and K.W. Kim|Ecotoxicity Monitoring of Hydrocarbon-Contaminated Soil Using Earthworm (Eisenia foetida)|Environ. Monit. Assess.70(1-2): 93-103|2001|10.1023/A:1010685331222
72957|A||Kim,S.D., M.B. Gu, H.E. Allen, and D.K. Cha|Physicochemical Factors Affecting the Sensitivity of Ceriodaphnia dubia to Copper|Environ. Monit. Assess.70(1-2): 105-116|2001|10.1023/A:1010689432130
72959|A||Misra,V., S.D. Pandey, and P.N. Viswanathan|Effect of Humic Acid on the Bioavailability of gamma-Hexachlorocyclohexane in Marsilea minuta (L.)|Environ. Monit. Assess.61(2): 229-235|2000|10.1023/A:1006171206492
72960|A||Sridevi,B., and S.L.N. Reddy|Effect of Trivalent and Hexavalent Chromium on Carbohydrate Metabolism of a Freshwater Field Crab, Barytelphusa guerini|Environ. Monit. Assess.61(2): 291-300|2000|10.1023/A:1006198127933
72961|A||Tong,Z.|Study on Fish and Amphibian Embryo-Larval Toxicity Test|Environ. Monit. Assess.55(3): 363-369|1999|10.1023/A:1005906214267
72962|T||Boulton,I.C., J.A. Cooke, and M.S. Johnson|Lesion Scoring in Field Vole Teeth:  Application to the Biological Monitoring of Environmental Fluoride Contamination|Environ. Monit. Assess.55(3): 409-422|1999|10.1023/A:1005987016084
72963|T||Moser,T., H.J. Schallnass, S.E. Jones, C.A.M. Van Gestel, J.E. Koolhaas, J.M.L. Rodrigues, and J. Rombke|Ring-Testing and Field-Validation of a Terrestrial Model Ecosystem (TME) - An Instrument for Testing Potentially Harmful Substances: Effects of Carbendazim on Nematodes|Ecotoxicology13(1/2): 61-74|2004|10.1023/B:ECTX.0000012405.90160.21
72964|T||Koolhaas,J.E., C.A.M. Van Gestel, J. Rombke, A.M.V.M. Soares, and S.E. Jones|Ring-Testing and Field-Validation of a Terrestrial Model Ecosystem (TME) - An Instrument for Testing Potentially Harmful Substances: Effects of Carbendazim on Soil Microarthropod Communities|Ecotoxicology13(1/2): 75-88|2004|10.1023/B:ECTX.0000012406.93004.03
72965|T||Moser,T., C.A.M. Van Gestel, S.E. Jones, J.E. Koolhaas, J.M.L. Rodrigues, and J. Rombke|Ring-Testing and Field-Validation of a Terrestrial Model Ecosystem (TME) - An Instrument for Testing Potentially Harmful Substances: Effects of Carbendazim on Enchytraeids|Ecotoxicology13(1/2): 89-103|2004|10.1023/B:ECTX.0000012407.42358.3e
72966|T||Rombke,J., C.A.M. Van Gestel, S.E. Jones, J.E. Koolhaas, J.M.L. Rodrigues, and T. Moser|Ring-Testing and Field-Validation of a Terrestrial Model Ecosystem (TME) - An Instrument for Testing Potentially Harmful Substances: Effects of Carbendazim on Earthworms|Ecotoxicology13(1/2): 105-118|2004|10.1023/B:ECTX.0000012408.58017.08
72967|T||Forster,B., C.A.M. Van Gestel, J.E. Koolhaas, G. Nentwig, J.M.L. Rodrigues, J. Paulo Sousa, S.E. Jones, and T. Knacker|Ring-Testing and Field-Validation of a Terrestrial Model Ecosystem (TME) - An Instrument for Testing Potentially Harmful Substances: Effects of Carbendazim on Organic Matter Breakdown and Soil Fauna Feeding Activity|Ecotoxicology13(1/2): 129-141|2004|10.1023/B:ECTX.0000012410.99020.97
72968|T||Burrows,L.A., and C.A. Edwards|The Use of Integrated Soil Microcosms to Assess the Impact of Carbendazim on Soil Ecosystems|Ecotoxicology13(1/2): 143-161|2004|10.1023/B:ECTX.0000012411.14680.21
72969|A||Larkin,P., T. Sabo-Attwood, J. Kelso, and N.D. Denslow|Analysis of Gene Expression Profiles in Largemouth Bass Exposed to 17-beta-Estradiol and to Anthropogenic Contaminants that Behave as Estrogens|Ecotoxicology12(6): 463-468|2003|10.1023/B:ECTX.0000003031.05390.b5
72970|A||Hoyt,P.R., M.J. Doktycz, K.L. Beattie, and M.S.,Jr. Greeley|DNA Microarrays Detect 4-Nonylphenol-Induced Alterations in Gene Expression During Zebrafish Early Development|Ecotoxicology12(6): 469-474|2003|10.1023/B:ECTX.0000003032.14044.c8
72971|A||Shrader,E.A., T.R. Henry, M.S.,Jr. Greeley, and B.P. Bradley|Proteomics in Zebrafish Exposed to Endocrine Disrupting Chemicals|Ecotoxicology12(6): 485-488|2003|10.1023/B:ECTX.0000003034.69538.eb
72972|T||Vickerman,D.B., and J.T. Trumble|Biotransfer of Selenium:  Effects on an Insect Predator, Podisus maculiventris|Ecotoxicology12(6): 497-504|2003|10.1023/B:ECTX.0000003036.81351.31
72973|A||Bhunia,F., N.C. Saha, and A. Kaviraj|Effects of Aniline - An Aromatic Amine to Some Freshwater Organisms|Ecotoxicology12(5): 397-404|2003|10.1023/A:1026104205847
72975|T||Boily,M.H., A. Ndayibagira, and P.A. Spear|Retinoids, LRAT and REH Activities in Eggs of Japanese Quail Following Maternal and In Ovo Exposures to 3,3',4,4'-Tetrachlorobiphenyl|Ecotoxicology12(1-4): 9-21|2003|10.1023/A:1022572425466
72976|T||Kenow,K.P., S. Gutreuter, R.K. Hines, M.W. Meyer, F. Fournier, and W.H. Karasov|Effects of Methyl Mercury Exposure on the Growth of Juvenile Common Loons|Ecotoxicology12(1-4): 171-182|2003|10.1023/A:1022598525891
72977|T||Love,O.P., L.J. Shutt, J.S. Silfies, G.R. Bortolotti, J.E.G. Smits, and D.M. Bird|Effects of Dietary PCB Exposure on Adrenocortical Function in Captive American Kestrels (Falco sparverius)|Ecotoxicology12(1-4): 199-208|2003|10.1023/A:1022502826800
72978|A||Duffy,J.E., E.A. Carlson, Y. Li, C. Prophete, and J.T. Zelikoff|Age-Related Differences in the Sensitivity of the Fish Immune Response to a Coplanar PCB|Ecotoxicology12(1-4): 251-259|2003|10.1023/A:1022511028617
72980|A||Van Aerle,R., N. Pounds, T.H. Hutchinson, S. Maddix, and C.R. Tyler|Window of Sensitivity for the Estrogenic Effects of Ethinylestradiol in Early Life-stages of Fathead Minnow, Pimephales promelas|Ecotoxicology11(6): 423-434|2002|10.1023/A:1021053217513
72981|A||Hansen,L.J., J.A. Whitehead, and S.L. Anderson|Solar UV Radiation Enhances the Toxicity of Arsenic in Ceriodaphnia dubia|Ecotoxicology11(4): 279-287|2002|10.1023/A:1016304422221
72983|A||Sarma,S.S.S., T. Ramirez-Perez, S. Nandini, and I. Penalosa-Castro|Combined Effects of Food Concentration and the Herbicide 2,4-Dichlorophenoxyacetic Acid on the Population Dynamics of Brachionus patulus (Rotifera)|Ecotoxicology10(2): 91-99|2001|10.1023/A:1008997908784
72984|T||Schuld,M., and R. Schmuck|Effects of Thiacloprid, a New Chloronicotinyl Insecticide, on the Egg Parasitoid Trichogramma cacoeciae|Ecotoxicology9(3): 197-205|2000|10.1023/A:1008994705074
72985|A||Cabral,J.A., S. Avila, and J.C. Marques|Acute and Sublethal Effects of Non-ionic Surfactant, Genapol OXD-080, on Mosquitofish Gambusia holbrooki (Girard)|Ecotoxicology8(4): 245-252|1999|10.1023/A:1008975013964
72986|A||Tao,S., T. Liang, C. Liu, and S. Xu|Uptake of Copper by Neon Tetras (Paracheirodon innesi) in the Presence and Absence of Particulate and Humic Matter|Ecotoxicology8(4): 269-275|1999|10.1023/A:1008977131711
72987|A||Klerks,P.L.|Acclimation to Contaminants by the Grass Shrimp Palaemonetes pugio:  Individual Contaminants vs. Mixtures|Ecotoxicology8(4): 277-286|1999|10.1023/A:1008929215781
72988|A||Bloxham,M.J., P.J. Worsfold, and M.H. Depledge|Integrated Biological and Chemical Monitoring:  In Situ Physiological Responses of Freshwater Crayfish to Fluctuations in Environmental Ammonia Concentrations|Ecotoxicology8(3): 225-237|1999|10.1023/A:1026400532305
72989|A||Xu,L., G.J. Zheng, P.K.S. Lam, and B.J. Richardson|Relationship Between Tissue Concentrations of Polycyclic Aromatic Hydrocarbons and DNA Adducts in Green-lipped Mussels (Perna viridis)|Ecotoxicology8(2): 73-82|1999|10.1023/A:1008910617843
72990|A||Fargasova,A.|The Green Alga Scenedesmus quadricauda - a Subject for the Study of Inhibitory Effects of Cd, Cu, Zn, Pb and Fe|Biologia (Bratisl.)54(3): 303-308|1999|
72992|A||Das,V.K., N.N. Singh, S. Das, V. Kumar, and P.N. Viswanathan|Linear Alkyl Benzene Sulphonate Induced Alterations in the Kidney of Cyprinus carpio|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.66(2): 151-153|1996|
72993|A||Mallick,N., F.H. Mohn, C.J. Soeder, and J.U. Grobbelaar|Ameliorative Role of Nitric Oxide on H2O2 Toxicity to a Chlorophycean Alga Scenedesmus obliquus|J. Gen. Appl. Microbiol.48(1): 1-7|2002|10.2323/jgam.48.1
72995|A||Yildirim,M., C. Lim, P.J. Wan, and P.H. Klesius|Growth Performance and Immune Response of Channel Catfish (Ictalurus puctatus) fed Diets Containing Graded Levels of Gossypol-Acetic Acid|Aquaculture219(1-4): 751-768|2003|10.1016/S0044-8486(03)00062-0
72996|A||Macinnis-Ng,C.M.O., and P.J. Ralph|Short-Term Response and Recovery of Zostera capricorni Photosynthesis After Herbicide Exposure|Aquat. Bot.76(1): 1-15|2003|10.1016/S0304-3770(03)00014-7
72997|A||Baudrimont,M., S. Andres, G. Durrieu, and A. Boudou|The Key Role of Metallothioneins in the Bivalve Corbicula fluminea During the Depuration Phase, After In Situ Exposure to Cd and Zn|Aquat. Toxicol.63(2): 89-102|2003|10.1016/S0166-445X(02)00134-0
72998|A||Moncaut,N., F.L. Nostro, and M.C. Maggese|Vitellogenin Detection in Surface Mucus of the South American Cichlid Fish Cichlasoma dimerus (Heckel, 1840) Induced by Estradiol-17beta.  Effects on Liver and Gonads|Aquat. Toxicol.63(2): 127-137|2003|10.1016/S0166-445X(02)00175-3
72999|A||Hogstrand,C., M. Grosell, C.M. Wood, and H. Hansen|Internal Redistribution of Radiolabelled Silver Among Tissues of Rainbow Trout (Oncorhynchus mykiss) and European Eel (Anguilla anguilla):  The Influence of Silver Speciation|Aquat. Toxicol.63(2): 139-157|2003|10.1016/S0166-445X(02)00174-1
73000|A||Sloman,K.A., D.W. Baker, C.G. Ho, D.G. McDonald, and C.M. Wood|The Effects of Trace Metal Exposure on Agonistic Encounters in Juvenile Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.63(2): 187-196|2003|10.1016/S0166-445X(02)00176-5
73001|A||Morris,J.M., S.A. Collyard, and J.S. Meyer|Effects of Chronic Copper Exposure on the Nutritional Composition of Hyalella azteca|Aquat. Toxicol.63(2): 197-206|2003|10.1016/S0166-445X(02)00177-7
73002|A||Ma,M., W. Zhu, Z. Wang, and G.J. Witkamp|Accumulation, Assimilation and Growth Inhibition of Copper on Freshwater Alga (Scenedesmus subspicatus 86.81 SAG) in the Presence of EDTA and Fulvic Acid|Aquat. Toxicol.63(3): 221-228|2003|10.1016/S0166-445X(02)00179-0
73003|A||Wendt-Rasch,L., P. Pirzadeh, and P. Woin|Effects of Metsulfuron Methyl and Cypermethrin Exposure on Freshwater Model Ecosystems|Aquat. Toxicol.63(3): 243-256|2003|10.1016/S0166-445X(02)00183-2
73004|A||Cao,Z., R.L. Tanguay, D. McKenzie, R.E. Peterson, and J.M. Aiken|Identification of a Putative Calcium-Binding Protein as a Dioxin-Responsive Gene in Zebrafish and Rainbow Trout|Aquat. Toxicol.63(3): 271-282|2003|10.1016/S0166-445X(02)00184-4
73005|A||Real,M., I. Munoz, H. Guasch, E. Navarro, and S. Sabater|The Effect of Copper Exposure on a Simple Aquatic Food Chain|Aquat. Toxicol.63(3): 283-291|2003|10.1016/S0166-445X(02)00187-X
73006|A||Teraoka,H., W. Dong, Y. Tsujimoto, H. Iwasa, D. Endoh, N. Ueno, J.J. Stegeman, R.E. Peterson, and T. Hiraga|Induction of Cytochrome P450 1A is Required for Circulation Failure and Edema by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Zebrafish|Biochem. Biophys. Res. Commun.304(2): 223-228|2003|10.1016/S0006-291X(03)00576-X
73007|A||Bridges,C.M., and M.D. Boone|The Interactive Effects of UV-B and Insecticide Exposure on Tadpole Survival, Growth and Development|Biol. Conserv.113(1): 49-54|2003|10.1016/S0006-3207(02)00348-8
73008|A||Geter,D.R., J.W. Fournie, M.H. Brouwer, A.B. DeAngelo, and W.E. Hawkins|p-Nitrophenol and Glutathione Response in Medaka (Oryzias latipes) Exposed to MX, a Drinking Water Carcinogen|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(3): 353-364|2003|10.1016/S1532-0456(03)00003-6
73010|A||Nakari,T., and K. Erkomaa|Effects of Phytosterols on Zebrafish Reproduction in Multigeneration Test|Environ. Pollut.123(2): 267-273|2003|10.1016/S0269-7491(02)00377-9
73011|A||Dutta,H.M., and D.A. Arends|Effects of Endosulfan on Brain Acetylcholinesterase Activity in Juvenile Bluegill Sunfish|Environ. Res.91(3): 157-162|2003|10.1016/S0013-9351(02)00062-2
73012|A||Varo,I., J.C. Navarro, F. Amat, and L. Guilhermino|Effect of Dichlorvos on Cholinesterase Activity of the European Sea Bass (Dicentrarchus labrax)|Pestic. Biochem. Physiol.75(3): 61-72|2003|10.1016/S0048-3575(03)00019-1
73014|A||Sunila,I., and R. Lindstrom|Effects of Copper and Cadmium on the Shell Morphology, Length Growth and Survival of the Mussel Mytilus edulis L.|In: 3rd Finnish-Swedish Semin.on the Gulf of Bothnia, Aug.20-21, 1984, Pori, Finland, Vesientutkimuslaitoksen Julk68:211-214|1986|
73015|A||Sarim,F.M., and Q. Ali|Effect of Copper Sulphate on the Growth of Cladophora glomerata (Chlorophyta)|Pak. J. Bot.18(2): 359-360|1986|
73016|A||Watling,H.|The Effects of Metals on Mollusc Filtering Rates|Trans. R. Soc. S. Afr.44(3): 441-451|1981|10.1080/00359198109520587
73017|A||Manning,B.B., R.M. Ulloa, M.H. Li, E.H. Robinson, and G.E. Rottinghaus|Ochratoxin A fed to Channel Catfish (Ictalurus punctatus) Causes Reduced Growth and Lesions of Hepatopancreatic Tissue|Aquaculture219(1-4): 739-750|2003|10.1016/S0044-8486(03)00033-4
73020|A||Javaid,M.Y.|Some Factors Affecting the Temperature Selection of Three Species of Salmonids|Ph.D.Thesis, Carleton University, Ottawa, Ontario:210 p.|1967|
73021|A||Verslycke,T., J. Vercauteren, C. Devos, L. Moens, P. Sandra, and C.R. Janssen|Cellular Energy Allocation in the Estuarine Mysid Shrimp Neomysis integer (Crustacea: Mysidacea) Following Tributyltin Exposure|J. Exp. Mar. Biol. Ecol.288(2): 167-179|2003|10.1016/S0022-0981(03)00006-6
73022|A||Matozzo,V., M. Deppieri, V. Moschino, and M.G. Marin|Evaluation of 4-Nonylphenol Toxicity in the Clam Tapes philippinarum|Environ. Res.91(3): 179-185|2003|10.1016/S0013-9351(02)00052-X
73023|T||Durairaj,C., P.C.S. Babu, and M.S. Venugopal|Toxicity of Insecticides on Rice Gall-Midge (Orseolia oryzae) and Its Parasitoid (Platygaster oryzae)|Indian J. Agric. Sci.59(10): 683-684|1989|
73024|T||Griga,M.|Direct Somatic Embryogenesis from Shoot Apical Meristems of Pea, and Thidiazuron-Induced high Conversion Rate of Somatic Embryos|Biol. Plant. (Praha)41(4): 481-495|1998|10.1023/A:1001834213437
73025|T||Karataglis,S.|Estimation of the Toxicity of Different Metals, Using as Criterion the Degree of Root Elongation in Triticum aestivum Seedlings|Phyton (Horn) (Multiple Languages)26(2): 209-217|1987|
73026|T||Hicks,T.V., G.R. Wehtje, and T.L. Grey|The Interaction of Pyridate and 2,4-DB in Peanut (Arachis hypogaea), Florida Beggarweed (Desmodium tortuosum), and Sicklepod (Senna obtusifolia)|Weed Sci.46(3): 284-288|1998|10.1017/S0043174500089426
73027|T||Palatnik,J.F., E.M. Valle, and N. Carrillo|Oxidative Stress Causes Ferredoxin-NADP + Reductase Solubilization from the Thylakoid Membranes in Methyl Viologen-Treated Plants|Plant Physiol.115(4): 1721-1727|1997|10.1104/pp.115.4.1721
73028|T||Sharma,C.P., S.S. Bisht, and S.C. Agarwala|Effect of Excess Supply of Heavy Metals on the Absorption and Translocation of Iron (59Fe) in Barley|J. Nucl. Agric. Biol.7:12-14|1978|
73029|T||Dewey,J.E., and B.L. Parker|Increase in Toxicity to Drosophila melanogaster of Phorate-Treated Soils|J. Econ. Entomol.58(3): 491-497|1965|10.1093/jee/58.3.491
73030|T||Harvey,R.G., E.J. Penaliggon, and P. Gautier|Prospective Study Comparing Fipronil with Dichlorvos/Fenitrothion and Methoprene/Pyrethrins in Control of Flea Bite Hypersensitivity in Cats|Vet. Rec.141(24): 628-629|1997|
73031|T||Majumder,S., A.K. Chakraborty, A. Bhattacharyya, T.K. Mandal, and D.K. Basak|Effect of Short Term Dermal Toxicity of Fenvalerate on Residue, Cell Architecture and Biochemical Profiles in Broiler Chicks|Indian J. Exp. Biol.35(2): 162-167|1997|
73032|T||Masuh,H., E. Seccacini, S.A. De Licastro, and E. Zerba|A New Aqueous Suspension Concentrate Formulation of cis-Permethrin and Its Insecticidal Activity|Pest Manag. Sci.56(12): 1073-1076|2000|10.1002/1526-4998(200012)56:12<1073::AID-PS257>3.0.CO;2-I
73033|T||Gozdzik-Zolnierkiewicz,T., and B. Moszynski|VIII Nerve in Experimental Lead Poisoning|Acta Oto-Laryngol.68(1): 85-89|1969|10.3109/00016486909121546
73035|T||Liebross,R.H., and K.E. Wetterhahn|In Vivo Formation of Chromium (V) in Chick Embryo Red Blood Cells|Chem. Res. Toxicol.3(5): 401-403|1990|10.1021/tx00017a002
73036|T||Scharf,M.E., L.J. Meinke, B.D. Siegfried, R.J. Wright, and L.D. Chandler|Carbaryl Susceptibility, Diagnostic Concentration Determination and Synergism for U.S. Populations of Western Corn Rootworm (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.92(1): 33-39|1999|10.1093/jee/92.1.33
73037|T||Yemets,A.I., O.P. Kundel'chuk, A.P. Smertenko, V.G. Solodushko, V.A. Rudas, Y.Y. Gleba, and Y.B. Blume|Transfer of Amiprophosmethyl Resistance from a Nicotiana plumbaginifolia Mutant by Somatic Hybridisation|Theor. Appl. Genet.100(6): 847-857|2000|10.1007/s001220051361
73038|T||Adams,D.F., J.W. Hendrix, and H.G. Applegate|Relationship Among Exposure Periods, Foliar Burn, and Fluorine Content of Plants Exposed to Hydrogen Fluoride|J. Agric. Food Chem.5(2): 108-116|1957|10.1021/jf60072a002
73039|T||Sweeney,J.P., V.J. Chapman, and P.A. Hepner|Effect of Pentachloronitrobenzene on Quality of Potatoes|Am. Potato J.45:383-393|1968|10.1007/BF02849717
73041|T||Russell,D.H., A.R. Buckley, G.N. Shah, I.G. Sipes, D.E. Blask, and B. Benson|Hypothalamic Site of Action 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicol. Appl. Pharmacol.94(3): 496-502|1988|10.1016/0041-008X(88)90290-6
73042|T||Saitoh,M., T. Umemura, Y. Kawasaki, J. Momma, Y. Matsushima, K. Sakemi, K. Isama, S. Kitajima, Y. Ogawa, R. Hasegawa, T|Toxicity Study of a Rubber Antioxidant, Mixture of 2-Mercaptomethylbenzimidazoles, by Repeated Oral Administration to Rats|Food Chem. Toxicol.37(7): 777-787|1999|10.1016/S0278-6915(99)00058-7
73043|T||Kollmer,W.E.|The Influence of Cd on the Metabolism of Glucorticoid Hormone in the Rat|Nutr. Res.Suppl.I:634-637|1985|
73044|T||Peereboom-Stegeman,J.H.J.C., H. Van Veen, and E. Jongstra-Spaapen|Ultrastructural Changes in the Basal Lamina of Small Blood Vessels in the Reproductive Tract of Rats After Long-Term Cadmium Exposure|Nutr. Res.Suppl.I:614-617|1985|
73046|T||Chiba,M., and M. Kikuchi|The In Vivo and In Vitro Effects of Manganese and Zinc on the Activity of Erythrocyte delta-Aminolevulinic Acid Dehydratase|Nutr. Res.Suppl.I:568-571|1985|
73047|T||Hill,C.H.|Interaction of Vanadate with Chloride in the Chick|Nutr. Res.Suppl.I:555-559|1985|
73049|T||Haywood,S., M. Loughran, and R.M. Batt|Changes in Intracellular Copper in Liver and Kidney of Rat During the Development of Copper Tolerance|Nutr. Res.Suppl.I:678-682|1985|
73050|T||Danscher,G., B. Moller-Madsen, J. Rungby, and O. Thorlacius-Ussing|Visualization of Selenium in Sodium Selenite Intoxicated Rats|Nutr. Res.Suppl.I:659-661|1985|
73051|T||Blalock,T.L., and C.H. Hill|Studies on the Effects of Iron Deficiency on the Toxicities of Cadmium, Cobalt, Nickel and Vanadium|Nutr. Res.Suppl.I:648-654|1985|
73052|T||Wiebe,J.P., K.J. Barr, and K.D. Buckingham|The Action of Lead on the Testis at the Onset of Puberty:  Cellular and Molecular Mechanisms|Nutr. Res.Suppl.I:642-647|1985|
73053|T||Alaoui,L., J.C. McClain, and M.B. Essatara|Some Aspects of Biotin and Zinc Interactions:  Effects on Growth and Feed Efficiency in the Rat|Nutr. Res.Suppl. I:203-208|1985|
73054|T||Karouani,R., M.B. Essatara, C.J. McClain, and M. Ettalibi|Some Aspects of Zinc and Phytate Interactions:  Their Effects on Growth and Phytase Activity in the Gut of Rodents|Nutr. Res.Suppl.I:238-243|1985|
73055|T||Gruden,N.|Development of Regulatory Mechanism for Iron Absorption in Suckling Rats|Nutr. Res.Suppl.I:150-152|1985|
73056|T||Amir,D., and E. Ben-David|The Pattern of Structural Changes Induced in Bull Spermatozoa by Oral or Injected Ethylene Dibromide (EDB)|Ann. Biol. Anim. Biochim. Biophys.13(2): 165-170|1973|10.1051/rnd:19730202
73057|T||Slaski,J.J., D.J. Archambault, and X. Li|Physiological Tests to Measure Impacts of Gaseous Polycyclic Aromatic Hydrocarbons (PAHs) on Cultivated Plants|Commun. Soil Sci. Plant Anal.33(15-18): 3227-3239|2002|10.1081/CSS-120014518
73058|T||Welvaert,W., and G. De Prest|Fungicides for the Control of Cylindrocladium scoparium Morgan on Rhododendron simsii Planch.|BCPC Monogr. - Br. Crop Prot. Counc.31:499-502|1985|
73060|T||Cooke,L.R.|Protection of Apple Trees from Nectria galligena Canker by PP969|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:469-472|1985|
73061|T||Wade,M., D.P. Highwood, C.L. Dunn, J.M. Moncorge, and G. Perugia|Field Evaluation of Post-Harvest Treatment to Vines: A New Concept in Plasmopara Control|BCPC Monogr. - Br. Crop Prot. Counc.31:455-458|1985|
73063|T||Dunn,C.L., and S.P. Klein|Post-Harvest Treatment of Vines: A New Concept in Plasmopara Control|BCPC Monogr. - Br. Crop Prot. Counc.31:407-410|1985|
73064|T||Priestley,R.H., D.W. Parry, and C. Knight|Yield Responses from Fungicide Treatment of Cereal, Oilseed Rape and Perennial Ryegrass Trials in England and Wales|BCPC Monogr. - Br. Crop Prot. Counc.31:383-387|1985|
73065|T||Mercer,R.T., and T.W. Cox|A Fenpropimorph/Iprodione Formulation for Broad Spectrum Disease Control in Wheat and Barley|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:379-382|1985|
73066|T||Levy,Y.|Fungicidal Control of the Northern Leaf Blight of Corn|BCPC Monogr. - Br. Crop Prot. Counc.31:375-378|1985|
73067|T||Gooding,M.J., and W.P. Davies|Fungicide Interactions with Foliar Diseases of Winter Barley|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:363-366|1985|
73068|T||Jones,D.G., N.D. Paveley, and M.A. Glover|Cultivar/Fungicide Interactions in the Resistance of Wheat to Septoria nodorum|BCPC Monogr. - Br. Crop Prot. Counc.31:355-358|1985|
73069|T||Clark,M.R.M.|Barley Leaf Stripe - Mercury Resistance|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:351-354|1985|
73070|T||Summers,R.W.|Problems in Predicting the Development of Fungicide Resistance|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:337-340|1985|
73071|T||Grabski,C., and U. Gisi|Mixtures of Fungicides with Synergistic Interactions for Protection Against Phenylamide Resistance in Phytophthora|BCPC Monogr. - Br. Crop Prot. Counc.31:315-318|1985|
73072|T||Crute,I.R., J.M. Norwood, and P.L. Gordon|Resistance to Phenylamide Fungicides in Lettuce and Brassica Downy Mildew|BCPC Monogr. - Br. Crop Prot. Counc.31:9-15|1985|
73073|T||Khan,A.J., and A. Ravise|Stimulation of Defence Reactions in Citrus by Fosetyl Al and Fungal Elicitors Against Phytophthora spp.|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:281-284|1985|
73074|T||Gilmour,J., J. MacFarlane, and I.W. Dawes|Bioassay Determination of Triadimenol and Fenpropimorph|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:245-248|1985|
73075|T||Homma,Y., Y. Arimoto, K. Tomono, and M. Kawai|Mode of Action on Fungal Growth of Copper Compound Based on Cu2+ Ion|BCPC Monogr. - Br. Crop Prot. Counc.2:215-218|1985|
73077|T||Hashimoto,S., S. Sano, and Y. Morishima|Ergosterol Biosynthesis Inhibition and Morphological Changes in the Sporidia of Ustilago maydis Treated with Triflumizole|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:277-280|1985|
73078|T||Van Wambeke,E., A. Vanachter, and C. Van Assche|Fungicidal Treatments with Azides|In: I.M.Smith (Ed.), Monogr. No.31, Fungicides for Crop Protection: 100 Years of Progress, Vol. 2 Poster Paps., Proc.of the Bordeaux Mixture Centenary Meet., Sept. 5-7, 1985, Bordeaux, France, BCPC Publ., Croydon, England:253-256|1985|
73079|T||Hoddinott,J.|The Influence of Aluminum on the Uptake and Release of Sucrose by Bean Leaf Tissue|In: J.Conshaw, W.J.Lucas, and R.T.Giaquinta (Eds.), Phloem Transport, Chapter 4, Alan R.Liss Inc., NY:23-26|1986|
73080|T||Honegger,J.L., J.M. Brooks, E.J. Anderson, and C.A. Porter|Glyphosate Transport in Plants|In: J.Conshaw, W.J.Lucas, and R.T.Giaquinta (Eds.), Phloem Transport, Chapter 80, Alan R.Liss Inc., NY:609-618|1986|
73082|T||Evenson,D.P., F.C. Janca, and L.K. Jost|Effects of the Fungicide Methyl-Benzimidazol-2-yl Carbamate (MBC) on Mouse Germ Cells as Determined by Flow Cytometry|J. Toxicol. Environ. Health20:387-399|1987|10.1080/15287398709530992
73083|T||Everett,D.J., C.J. Perry, K.A. Scott, B.W. Martin, and M.K. Terry|Estrogenic Potencies of Resorcyclic Acid Lactones and 17beta-Estradiol in Female Rats|J. Toxicol. Environ. Health20:435-443|1987|10.1080/15287398709530995
73084|T||Maines,M.D., M. Qato, and C. Carranza|Alteration of Heme and Cytochrome Metabolism in the Brain by Metal Ions|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:241-256|1984|
73085|A||Karrow,N.A., H.J. Boermans, D.G. Dixon, A. Hontella, K.R. Solomon, J.J. Whyte, and N.C. Bols|Characterizing the Immunotoxicity of Creosote to Rainbow Trout (Oncorhynchus mykiss):  A Microcosm Study|Aquat. Toxicol.45:223-239|1999|10.1016/S0166-445X(98)00108-8
73086|A||Cheikh,H.B., and N. Pasteur|Resistance to Temephos, an Organophosphorous Insecticide in Culex pipiens from Tunisia, North Africa|Am. Mosq. Control Assoc. J.9(3): 335-337|1993|
73087|T||Hassan,S.A., F. Bigler, H. Bogenschutz, E. Boller, J. Brun, J.N.M. Calis, P. Chiverton, J. Coremans-Pelseneer, C. Duso,|"Results of the Fifth Joint Pesticide Testing Programme Carried Out by the IOBC/WPRS-Working Group ""Pesticides and Beneficial Organisms"""|Entomophaga36(1): 55-67|1991|10.1007/BF02374636
73088|T||Duso,C., P. Camporese, and L.P.S. Van der Geest|Toxicity of a Number of Pesticides to Strains of Typhlodromus pyri and Amblyseius andersoni (Acari: Phytoseiidae)|Entomophaga37(3): 363-372|1992|10.1007/BF02373110
73089|T||Schmuck,R., M. Candolfi, R. Kleiner, P. Klepka, S. Nengel, and A. Waltersdorfer|Two-Step Test System Using the Plant-Dwelling Non-Target Insect Coccinella septempunctata to Generate Data for Registration of Pesticides|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:114-122|1998|
73090|T||Sumner,D.R., and P.L. Raymer|Effect of Fungicides on Foliage and Pod Diseases in Canola|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:6-9|1998|
73091|T||Sumner,D.R., and N.A. Minton|Seedling Diseases and Nematodes in Canola Following Peanut|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:3-6|1998|
73092|T||Phillips,D.V., and W.D. Spradlin|Control of Sclerotinia Rot of Canola with Fungicides|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:9-13|1998|
73093|T||Phillips,D.V., and W.D. Spradlin|Fungicides for Control of Blackleg of Canola|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:13-18|1998|
73094|T||Buntin,G.D.|Comparison of Foliar-Applied Insecticides for Aphid Control in Rosette and Flowering Canola|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:18-24|1998|
73095|T||Buntin,G.D.|Aphid Control in Winter Canola Using Soil Insecticides|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:24-25|1998|
73096|T||Bridges,D.C., and P.L. Raymer|Response of Canola Cultivars and Wild Radish to Atrazine|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:34-36|1998|
73097|T||Buntin,G.D.|Evaluation of Insecticides for Control of the Cabbage Seedpod Weevil in Canola|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:25-29|1998|
73098|T||Bridges,D.C.|Differential Tolerance of Wild Radish and Canola to Herbicides|Ga. Agric. Exp. Stn. Res. Bull.435:32-33|1998|
73099|T||Bridges,D.C., and P.L. Raymer|Preharvest and Combine Seed Losses in Canola:  Effect of Chemical Harvest Aids and Swathing|Ga. Agric. Exp. Stn. Res. Bull.435:36-41|1998|
73100|T||Bridges,D.C., and T.R. Murphy|Canola Tolerance to Residues from Spring-Applied Herbicides|In: G.D.Buntin (Ed.), Research Bulletin No. 435, Assessment of Crop Protectants for Use in Canola, Athens, GA:29-32|1998|
73101|T||Yoshimura,H., S. Yoshihara, N. Ozawa, and M. Miki|Possible Correlation Between Induction Modes of Hepatic Enzymes by PCBs and Their Toxicity in Rats|In: W.J.Nicholson and J.A.Moore (Eds.), Health Effects of Halogenated Aromatic Hydrocarbons, Vol. 320, Ann. N.Y. Acad. Sci., NY320:179-192|1979|
73102|T||Moore,J.A., E.E. McConnell, D.W. Dalgard, and M.W. Harris|Comparative Toxicity of Three Halogenated Dibenzofurans in Guinea Pigs, Mice, and Rhesus Monkeys|Ann. N. Y. Acad. Sci.320:151-163|1979|10.1111/j.1749-6632.1979.tb56598.x
73103|T||Luster,M.I., R.E. Faith, and G. Clark|Laboratory Studies on the Immune Effects of Halogenated Aromatics|In: W.J.Nicholson and J.A.Moore (Eds.), Health Effects of Halogenated Aromatic Hydrocarbons, Volume 320, Pt.VII: Immunologic Abnormalities, Ann.N.Y.Acad.Sci., NY:473-486|1979|
73104|T||Sharma,R.P., and P.J. Gehring|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Splenic Lymphocyte Transformation in Mice After Single and Repeated Exposures|In: W.J.Nicholson and J.A.Moore (Eds.), Health Effects of Halogenated Aromatic Hydrocarbons, Vol. 320, Ann. N.Y. Acad. Sci., NY:487-496|1979|
73107|T||Faith,R.E., and M.I. Luster|Investigations on the Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Parameters of Various Immune Functions|In: W.J.Nicholson and J.A.Moore (Eds.), Health Effects of Halogenated Aromatic Hydrocarbons, Vol. 320, Ann. N.Y. Acad. Sci., NY:564-571|1979|
73108|A||Mitchelmore,C.L., J.A. Schwarz, and V.M. Weis|Development of Symbiosis-Specific Genes as Biomarkers for the Early Detection of Cnidarian-Algal Symbiosis Breakdown|Mar. Environ. Res.54:345-349|2002|10.1016/S0141-1136(02)00201-5
73110|T||Benes,V., and V. Cerna|Contribution to the Toxicological Evaluation of Fenitrothion (0,0-Dimethyl-0-/3-Methyl-4-Nitrophenyl/Thiophosphate) and Its Residues|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:219-222|1970|
73113|T||Worth,H.M.|The Toxicologic Evaluation of Benefin and Trifluralin|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:263-267|1970|
73118|T||Schultz,M.E.|Scorpion III:  A Broad-Spectrum Postemergence Herbicide for Broadleaf Weed Control in Corn|Down Earth52(2): 26-33|1997|
73119|T||Dorich,R.A., and M.E. Schultz|Firstrate Herbicide:  A New Broadleaf Herbicide for Soybeans|Down Earth52(2): 1-10|1997|
73120|T||Breuninger,J.M., R.J. Keese, C.E. Jentes, J.V. Handly, R.B. Cooper, and M.P. Tolley|Conserve SC:  A New Product for the Turfgrass and Ornamental Industry|Down Earth53(2): 1-5|1998|
73121|T||Richardson,J.M., J.C. Palumbo, D.L. Kerns, K. Umeda, and E.T. Natwick|Control of Desert Vegetable Pests with Success Naturalyte Insect Control|Down Earth53(2): 6-12|1998|
73122|T||Blewett,T.C., and R.B. Cooper|Control of the Red Imported Fire Ant with Spinosad|Down Earth53(2): 27-31|1998|
73123|T||Kirk,I.W., J.F. Esquivel, D.J. Porteous, and W.H. Hendrix III|Aerial Application of Tracer to Control Bollworm/Budworm in Cotton|Down Earth53(2): 13-17|1998|
73124|T||Swaileh,K.M., and A. Ezzughayyar|Effects of Dietary Cd and Cu on Feeding and Growth Rates of the Landsnail Helix engaddensis|Ecotoxicol. Environ. Saf.47:253-260|2000|10.1006/eesa.2000.1961
73125|T||Sahin,K., and N. Sahin|Effects of Chromium Picolinate and Ascorbic Acid Dietary Supplementation on Nitrogen and Mineral Excretion of Laying Hens Reared in a Low Ambient Temperature (7~C)|Acta Vet. Brno71:183-189|2002|10.2754/avb200271020183
73126|T||Askham,L.R., and R.M. Poche|Biodeterioration of Chlorophacinone in Voles, Hawks and an Owl|Mammalia56(1): 145-150|1992|10.1515/mamm.1992.56.1.145
73127|T||Wassermann,D., and M. Wassermann|Immunologic Reaction to Xenobiotics:  Giant Cell Findings in Spleen and Lymph Nodes|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:273-275|1970|
73130|T||Liu,B., and C. Sengonca|Conjugation of delta-Endotoxin from Bacillus thuringiensis with Abamectin of Streptomyces avermitilis as a New Type of Biocide, GCSC-BtA, for Control of Agricultural Insect Pests|J. Pest Sci.76:44-49|2003|10.1046/j.1439-0280.2003.03010.x
73131|T||Maury,A.N., and U. Rani|Iron and Zinc Toxicity on Seed Germination and Seedling Growth of Turnip (Brassica rapa Willd.) Counteracted by Calcium|Geobios30(1): 61-64|2003|
73132|T||Romancier,R.M.|Combining Fire and Chemicals for the Control of Rhododendron Thickets|Research Note SE-149, Southeastern Forest Experiment Station, U. S. Department of Agriculture - Forest Service, Asheville, NC:1-7|1971|
73133|A||Svobodova,Z., V. Luskova, J. Drastichova, M. Svoboda, and V. Zlabek|Effect of Deltamethrin on Haematological Indices of Common Carp (Cyprinus carpio L.)|Acta Vet. Brno72:79-85|2003|10.2754/avb200372010079
73134|T||Michelakis,S.E.|A New Approach to Whitefly Control in Crete - Greece|In: J.E.Casida (Ed.), Proc.of an Int.Conf., Pesticides and Alternatives: Innovative Chemical and Biological Approaches to Pest Control , Sept.4-8, 1989, Orthodox Acad.of Crete Kolymbari, Crete, Greece, Elsevier Sci.Publ., Amsterdam, Netherlands:229-234|1990|
73135|T||Matsumura,F., and K. Tanaka|Molecular Basis of Neuroexcitatory Actions of Cyclodiene-Type Insecticides|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:225-240|1984|
73136|T||Abou-Donia,M.B., S.E. Patton, and D.M. Lapadula|Possible Role of Endogenous Protein Phosphorylation in Organophosphorus Compound-induced Delayed Neurotoxicology|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:265-283|1984|
73137|T||Hoffer,B., L. Olson, H. Bjorklund, A. Henschen, and M. Palmer|Some Toxic Effects of Lead and Other Metals in the Nervous System:  In Oculo Experimental Models|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:141-152|1984|
73138|T||Fox,D.A.|Psychophysically and Electrophysiologically Determined Spatial Vison Deficits in Developmentally Lead-Exposed Rats have a Cholinergic Component|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:123-140|1984|
73139|T||Bierkamper,G.G., and D.J.P. Bassett|Is Triethyltin-Induced Muscular Dysfunction a Result of Mitochondrial Compromise?|In: T.Narahashi (Ed.), Cellular and Molecular Neurotoxicology, Raven Press, NY:109-121|1984|
73140|T||Blumel,S., B. Baier, F. Bakker, U. Bienert, M. Candolfi, S. Hennig-Gizewski, C. Kuhner, B. Jackel, F. Louis, A. Ufer, a|Current Status of a Ring-Tested Method to Determine Pesticide Effects on the Predatory Mite Typhlodromus pyri (Scheuten) (Acarina:  Phytoseiidae) in the Laboratory|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:89-97|1998|
73141|T||Brown,K.|Field Studies with Pesticides and Non-Target Arthropods in Orchards|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:139-147|1998|
73142|T||Sechser,B., and B. Reber|Using a Sequential Testing Scheme Under Laboratory and Field Conditions with the Bumble Bee Bombus terrestris to Evaluate the Safety of Different Groups of Insecticides|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:166-174|1998|
73143|T||Mead-Briggs,M.|The Value of Large-Scale Field Trials for Determining the Effects of Pesticides on the Non-Target Arthropod Fauna of Cereal Crops|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:182-190|1998|
73144|T||Symington,C.A., and P.A. Horne|Relative Toxicity of Pesticides to Pest and Beneficial Insects in Potato Crops in Victoria, Australia|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:279-286|1998|
73145|T||Duso,C.|Comparison Between Field and Laboratory Testing Methods to Evaluate the Pesticide Side-Effects on the Predatory Mites Amblyseius andersoni and Typhlodromus pyri|IOBC-WPRS Bull.17(10): 7-19|1994|
73146|A||Thursby,G.B., and W.J. Berry|Acute Toxicity of Diazinon to Saltwater Animals|Letter to J.Scott and D.J.Hansen, Univ.of Rhode Island, Kingston, RI:10 p.|1988|
73147|T||Oaks,J.L., M. Gilbert, M.Z. Virani, R.T. Watson, C.U. Meteyer, B.A. Rideout, H.L. Shivaprasad, S. Ahmed, M.J.I. Chaudhr|Diclofenac Residues as the Cause of Vulture Population Decline in Pakistan|Nature427(6975): 630-633|2004|10.1038/nature02317
73149|T||Metzger,J.A., and D.G. Pfeiffer|Topical Toxicity of Pesticides Used in Virginia Vineyards to the Predatory Mite, Neoseiulus fallacis (Garman)|Environ. Toxicol. Chem.37(4): 329-337|2002|
73150|A||Chandra,S., R.N. Ram, and I.J. Singh|Toxic Effect of Carbofuran on Certain Hematological Parameters in Yearlings of Cyprinus carpio|Aquaculture2(2): 137-140|2001|
73151|T||De Vries,D.J., R.B. Sewell, and P.M. Beart|Effects of Copper on Dopaminergic Function in the Rat Corpus Striatum|Exp. Neurol.91:546-558|1986|10.1016/0014-4886(86)90051-8
73153|T||Dohmen,G.P.|Testing Side-Effects of Pesticides on Carabid Beetles:  A Standardized Method for Testing Ground-Dwelling Predators in the Laboratory for Registration Purposes|In: P.T.Haskell and P.McEwen (Eds.), Ecotoxicology: Pesticides and Beneficial Organisms, Chapman & Hall, London:98-106|1998|
73155|AT||Metcalf,R.L.|Model Ecosystems for Environmental Studies of Estrogens|In: J.A.McLachlan (Ed.), Proc.of the Symp.on Estrogens in the Environment, Sept.10-12, 1979, Raleigh, NC, Elsevier North Nolland Inc., New York, NY:203-211|1980|
73156|T||Bal,H.S.|Effect of Methoxychlor on Reproductive Systems of the Rat|Proc. Soc. Exp. Biol. Med.176:187-196|1984|10.3181/00379727-176-41861
73158|T||Brooks,S.C., L. Horn, B.A. Pack, J. Rozhin, E. Hansen, and R. Goldberg|Estrogen Metabolism and Function In Vivo and In Vitro|In: J.A.McLachlan (Ed.), Proc.of the Symp.on Estrogens in the Environment, Sept.10-12, 1979, Raleigh, NC, Elsevier North Nolland Inc., New York, NY:147-167|1980|
73159|T||Poland,A., and E. Glover|A Model for the Mechanism of Action of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|In: J.A.McLachlan (Ed.), Proc.of the Symp.on Estrogens in the Environment, Sept.10-12, 1979, Raleigh, NC, Elsevier North Nolland Inc., New York, NY:327-343|1980|
73161|T||Staal,G.B., C.A. Henrick, D.L. Grant, D.W. Moss, M.C. Johnston, R.R. Rudolph, and W.A. Donahue|Cockroach Control with Juvenoids|ACS Symp. Ser.276:201-218|1985|10.1021/bk-1985-0276.ch013
73162|T||Hansard II,S.L., C.B. Ammerman, and P.R. Henry|Vanadium Metabolism in Sheep.  II.  Effect of Dietary Vanadium on Performance, Vanadium Excretion and Bone Deposition in Sheep|J. Anim. Sci.55(2): 350-356|1982|10.2527/jas1982.552350x
73163|T||Hansard II,S.L., C.B. Ammerman, P.R. Henry, and B.W. Patterson|Vanadium Metabolism in Sheep.  III.  Influence of Dietary Vanadium on Kinetics of 48V Administered Orally or Intravenously and Comparison of Compartmental and Graphical Models|J. Anim. Sci.62:804-812|1986|10.2527/jas1986.623804x
73164|T||Platonow,N., and H.K. Abbey|Toxicity of Vanadium in Calves|Vet. Rec.:292-293|1968|
73165|T||Myres,A.W., and J.P. Bowland|Effects of Environmental Temperature and Dietary Copper on Growth and Lipid Metabolism in Pigs.  I.  Growth, Carcass Quality, and Tissue Copper Levels|Can. J. Anim. Sci.53:115-120|1973|10.4141/cjas73-017
73167|T||Rana,S.V.S., and A. Kumar|Enzyme Modification in Rat Kidney after Individual and Combined Treatments with Molybdenum and Copper|Ind. Health17:11-19|1979|10.2486/indhealth.17.11
73168|T||Irie,M.|Effect of Dietary Supplementation of Copper and Kapok Meal on Fat Characteristics of Pigs|Asian-Australas. J. Anim. Sci.3(1): 33-38|1990|10.5713/ajas.1990.33
73169|T||Komulainen,H.|Monoamine Uptake in Brain Synaptosomes After Administration of Copper to Rats|Acta Pharmacol. Toxicol.53:33-38|1983|10.1111/j.1600-0773.1983.tb01864.x
73170|T||Keen,C.L., B.F. Feldman, J. Knight, S. O'Neill, F. Ferrell, and L.S. Hurley|The Influence of High Concentrations of Dietary Copper on Vitamin K-Dependent Coagulation Factors|Proc. Soc. Exp. Biol. Med.170:471-475|1982|10.3181/00379727-170-41461
73171|T||Amer,M.A., G.J. St.Laurent, and G.J. Brisson|Supplemental Copper and Selenium for Calves:  Effects upon Ceruloplasmin Activity and Liver Copper Concentration|Can. J. Physiol. Pharmacol.51:649-653|1973|10.1139/y73-098
73172|T||Kadirvel,R., and P. Korhandaraman|The Need for Inorganic Sulphate in Grower and Layer Mashes of White Leghorn Birds|Cheiron7(1): 34-39|1978|
73173|T||Murthy,G.P., R.R. Bhavana, and S. Leelavathi|Effect of Different Soaking Periods of Dimethoate 30% EC. on Early Seedling Growth Chlorophyll Pigment and Percent Phytotoxicity on Germinating Seeds of Greengram Varl PS-116|Asian J. Microbiol. Biotechnol. Environ. Sci.5(1): 67-69|2003|
73181|T||Borchert,R., J.D. McChesney, and D. Watson|Wound Healing in Potato Tuber Tissue|Plant Physiol.53(2): 187-191|1974|10.1104/pp.53.2.187
73192|A||Sumida,S., and M. Ueda|Chlorella as a Model System to Study Herbicidal Mode of Action and Its Application to a New Herbicide, O-Ethyl-O-(3-Methyl-6-Nitrophenyl)-N-sec-Butyl Phosphorothioamidate (S-2846)|ACS Symp. Ser.2:156-168|1974|10.1021/bk-1974-0002.ch013
73198|T||Shellenberger,T.E., B.J. Gough, and L.A. Escuriex|The Comparative Toxicity of Organophosphate Pesticides in Wildlife|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:205-210|1970|
73204|T||Deichmann,W.B.|Retention of Dieldrin in Blood, Liver and Fat of Rats fed Dieldrin for Six Months|In: W.B.Deichmann, et.al.(Eds.), Pesticides Symposia.  Inter-American Conferences on Toxicology and Occupational Medicine, University of Miami, Miami, FL:159-161|1970|
73210|T||Myres,A.W., and J.P. Bowland|Effects of Environmental Temperature and Dietary Copper on Growth and Lipid Metabolism in Pigs.  III.  Concentration and Composition of Plasma Free Fatty Acids|Can. J. Anim. Sci.53:127-132|1973|10.4141/cjas73-019
73212|T||Gange,A.C., and V.K. Brown|Effects of Insecticide Application on Weed and Pasture Plant Communities|Br. Crop Prot. Conf. Weeds:901-910|1991|
73214|A||Shamaan,N.A., S. Desa, I. Omar, M. Kusnan, and H. Omar|Freshwater Algae as a Biological Marker II.  Suitability of Chlorella vulgaris as a Test Organism for the Toxicity of Photosystem II Herbicides Using Chlorophyll Fluorescence|Malays. J. Biochem. Mol. Biol.5:14-17|2000|
73215|A||Korte,F.|Behavior and Ecological Effects of 14-C Labelled Organochlorine Compounds in a Small Pond|Report EUR 6388, Environmental Research Program:205-210|1980|
73227|T||Badejo,M.A., J.L. Olaifa, and N.M. Van Straalen|Effect of Galex on the Collembola Fauna of Cowpea Plots in Nigeria|Pedobiologia (Multiple Languages)41(6): 514-520|1997|10.1016/S0031-4056(24)00321-4
73228|T||Yenne,S.P., and K.K. Hatzios|Influence of Oxime Ether Safeners and Metolachlor on Acetate Incorporation into Lipids and on Acetyl-CoA Carboxylase of Grain Sorghum|Pestic. Biochem. Physiol.35(2): 146-154|1989|10.1016/0048-3575(89)90112-0
73229|T||Wilkinson,R.E.|Consequences of Metolachlor Induced Inhibition of Gibberellin Biosynthesis in Sorghum Seedlings|Pestic. Biochem. Physiol.32(1): 25-37|1988|10.1016/0048-3575(88)90118-6
73230|T||Beste,C.E., and J.R. Frank|Influence of Metolachlor on Ilex crenata Thunb. for Control of Yellow Nutsedge|J. Environ. Hortic.8(2): 58-60|1990|10.24266/0738-2898-8.2.58
73231|T||Frank,J.R., and C.E. Beste|Growth Inhibition of Ericaceous Plants from Metolachlor|J. Environ. Hortic.8(4): 173-176|1990|10.24266/0738-2898-8.4.173
73232|T||Eyherabide,J.J.|Evaluation of  Pre-emergent Herbicides for Weed Control in No Tillage Soybeans|Ann. Appl. Biol.128(suppl.): 64-65|1996|10.1111/j.1744-7348.1996.tb07911.x
73233|T||Hatton,P.J., D. Dixon, D.J. Cole, and R. Edwards|Glutathione Transferase Acitivities and Herbicide Selectivity in Maize and Associated Weed Species|Pestic. Sci.46(3): 267-275|1996|10.1002/(SICI)1096-9063(199603)46:3<267::AID-PS347>3.0.CO;2-N
73234|T||Dowler,C.C., O.D.,Jr. Dailey, and B.G.,Jr. Mullinix|Polymeric Microcapsules of Alachlor and Metolachlor:  Preparation and Evaluation of Controlled-Release Properties|J. Agric. Food Chem.47(7): 2908-2913|1999|10.1021/jf981269t
73235|T||Wehtje,G., J.W. Wilcut, T.V. Hicks, and J. McGuire|Relative Tolerance of Peanuts to Alachlor and Metolachlor|Peanut Sci.15(2): 53-56|1988|10.3146/i0095-3679-15-2-3
73236|T||Talbert,R.E., M.J. Tierney, V.F. Carey III, and M.J. Kitt|Field Evaluation of Herbicides on Small Fruit, Vegetable and Ornamental Crops, 1993|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.440:60 p.|1994|
73237|T||Taiwo,L.B., and B.A. Oso|The Influence of Some Pesticides on Soil Microbial Flora in Relation to Changes in Nutrient Level, Rock Phosphate Solubilization and P Release Under Laboratory Conditions|Agric. Ecosyst. Environ.65(1): 59-68|1997|10.1016/S0167-8809(97)00044-3
73238|T||Cohen,R., B. Blaier, and J. Katan|Chloroacetamide Herbicides Reduce Incidence of Fusarium Wilt in Melons|Crop Prot.11(2): 181-185|1992|10.1016/0261-2194(92)90103-C
73239|T||Wilcut,J.W., F.R.,Jr. Walls, and D.N. Horton|Imazethapyr for Broadleaf Weed Control in Peanuts (Arachis hypogaea)|Peanut Sci.18(1): 26-30|1991|10.3146/i0095-3679-18-1-9
73240|T||O'Makinwa,R.O., and O.A. Akinyemiju|Control of Euphorbia heterophylla L. in Cowpea with Herbicides and Herbicide Mixtures|Crop Prot.9(3): 218-224|1990|10.1016/0261-2194(90)90166-5
73241|T||Kurmvanshi,S.M., T.R. Sahu, and R.S. Sharma|Effect of Chemical Weed Control on Crop and Weed Biomass, Productivity Index and Weed Competition Index in Soybean Ecosystem|Crop Res. (Hisar)9(3): 390-393|1995|
73242|T||Gabr,M.A., M.A. Shakeeb, F. Fahmy, and H. Abbas|Influence of Metolachlor on Growth and Some Biochemical Activities in Tomato (Lycopersicon esculentum L.) Seedlings|Egypt. J. Bot.31(1-3): 121-132|1988|
73243|T||Van Biljon,J.J., and P.C. Nel|Effect of Temperature and Soil Moisture on the Selectivity of Metolachlor in Maize|Appl. Plant Sci.2(1): 1-5|1988|
73244|T||Govedarica,M., and N. Mrkovacki|Effect of Different Herbicides on the Frequency of Microorganisms Under Soybean|Mikrobiologija30(1): 37-45|1993|
73245|T||Ramakrishna,A., C.K. Ong, and S.L.N. Reddy|Integrated Weed Management for Rainfed Groundnut|J. Plant Prot. Trop.8(2): 111-119|1991|
73246|T||Gilreath,J.P., J.W. Noling, and B.M. Santos|Methyl Bromide Alternatives for Bell Pepper (Capsicum annuum) and Cucumber (Cucumis sativus) Rotations|Crop Prot.23(4): 347-351|2004|10.1016/j.cropro.2003.09.006
73247|T||Hoyt,G.D.|Applying Butylate- and EPTC-Impregnated Fertilizer to a Cover Crop for Week Control in No-Till Corn, Zea mays, L.|Crop Prot.14(1): 75-79|1995|10.1016/0261-2194(95)91115-V
73248|T||Olowe,T., S.O. Dina, A.O. Oladiran, and B.A. Olunuga|The Control of Weed, Pest and Disease Complexes in Cowpea (Vigna unguiculata (L.) Walp.) by the Application of Pesticides Singly and in Combination|Crop Prot.6(4): 222-225|1987|10.1016/0261-2194(87)90042-1
73249|T||Warren,S.L., and W.A. Skroch|Evaluation of Six Herbicides for Potential Use in Tree Seed Beds|J. Environ. Hortic.9(3): 160-163|1991|10.24266/0738-2898-9.3.160
73250|T||Skroch,W.A., C.J. Catanzaro, and M.H. Yonce|Response of Nine Herbaceous Flowering Perennials to Selected Herbicides|J. Environ. Hortic.8(1): 26-28|1990|10.24266/0738-2898-8.1.26
73251|T||Hood,L.R., and J.E. Klett|Preemergent Weed Control in Container-Grown Herbaceous and Woody Plants|J. Environ. Hortic.10(1): 8-11|1992|10.24266/0738-2898-10.1.8
73252|T||Staats,D., and J.E. Klett|Evaluation of Weed Control and Phytotoxicity of Preemergence Herbicides Applied to Container-Grown Herbaceous and Woody Plants|J. Environ. Hortic.11(2): 78-81|1993|10.24266/0738-2898-11.2.78
73253|T||Derr,J.F., and B.L. Appleton|Weed Control with Landscape Fabrics|J. Environ. Hortic.7(4): 129-133|1989|10.24266/0738-2898-7.4.129
73254|T||Whitwell,T., and J. Kelly|Effects of Preemergence Herbicides on Hosta and Daylily|J. Environ. Hortic.7(1): 29-31|1989|10.24266/0738-2898-7.1.29
73255|T||Fleming,A.A., P.A. Banks, and J.G. Legg|Differential Response of Maize Inbreds to Bentazon and Other Herbicides|Can. J. Plant Sci.68(2): 501-508|1988|10.4141/cjps88-060
73256|T||Reddy,K.N., and M. Singh|Response of Citrus (Citrus spp.) Rootstock Seedlings to Soil-Applied Herbicides|J. Environ. Hortic.11(1): 39-40|1993|10.24266/0738-2898-11.1.39
73257|T||Friesen,G.H., and D.A. Wall|Tolerance of Lentil (Lens culinaris Medik.) to Herbicides|Can. J. Plant Sci.66(1): 131-140|1986|10.4141/cjps86-017
73258|T||Tiwari,J.P., and S.P. Kurchania|Chemical Control of Weeds in Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.63(5): 272-275|1993|
73259|T||Gangwar,K.S., K.P. Niranjan, and O.P. Singh|Weed Management in Sorghum (Sorghum bicolor) + Pigeonpea (Cajanus cajan) Intercropping System in Dryland|Indian J. Agric. Sci.61(10): 757-759|1991|
73260|T||Mueller-Warrant,G.W., W.C. Young III, and M.E. Mellbye|Influence of Residue Removal Method and Herbicides on Perennial Ryegrass Seed Production: II. Crop Tolerance|Agron. J.86(4): 684-690|1994|10.2134/agronj1994.00021962008600040018x
73261|T||Tu,C.M.|Effect of Some Herbicides on Activities of Microorganisms and Enzymes in Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(6): 695-709|1992|
73262|T||Heuer,B., N. Brates, and S. Saltzman|Growth and Herbicide Accumulation in Cucumber Plants Exposed to Residual Concentrations of Metolachlor in Their Nutrient Media|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(2): 209-217|1991|
73263|T||Kalmowitz,K., T. Whitwell, E. Zehr, and J. Toler|Pesticides and Weeds Influence Phytophthora cinnamoni Presence and Growth in Container-Grown Azaleas|Hortscience26(11): 1428-|1991|10.21273/HORTSCI.26.11.1428
73264|T||Teasdale,J.R.|Avoidance of Herbicide Injury by Placement Between Rows of Polyethylene Mulch|Hortscience20(5): 871-872|1985|10.21273/HORTSCI.20.5.871
73265|T||Dusky,J.A.|Preemergence Herbicides for Radishes Grown on Organic Soils|Hortscience21(1): 74-76|1986|10.21273/HORTSCI.21.1.74
73266|T||Gilreath,J.P.|Chemical Weed Control in Gypsophila|Hortscience22(3): 446-448|1987|10.21273/HORTSCI.22.3.446
73267|T||Endres,C.S., and D.E. Longer|Herbicide Selectivity Among Grain and Weedy Amaranthus Species|Agron. J.79(5): 824-826|1987|10.2134/agronj1987.00021962007900050014x
73268|T||Akinyemiju,O.A., and T.N.C. Echendu|Influence of Different Tillage Methods and Pre-emergence Herbicides on Weed Control in Cowpea (Vigna unguiculata (L.) Walp.)|Crop Prot.6(5): 289-294|1987|10.1016/0261-2194(87)90057-3
73269|T||Fisher,D.J., and A.L. Hayes|A Comparison of the Biochemical and Physiological Effects of the Systemic Fungicide Cyprofuram with Those of the Related Compounds Metalaxyl and Metolachlor|Crop Prot.4(4): 501-510|1985|10.1016/0261-2194(85)90056-0
73270|T||Jablonkai,I., and F. Dutka|Structure Alkylating Reactivity and Phytoxicity Relationships of Chloroacetamides|Br. Crop Prot. Conf. Weeds2:455-462|1989|
73271|T||Davison,K.L., G.L. Larsen, and V.J. Feil|Comparative Metabolism and Elimination of Acetanilide Compounds by Rat|Xenobiotica24(10): 1003-1012|1994|10.3109/00498259409043297
73272|T||Farago,S., K. Kreuz, and C. Brunold|Decreased Glutathione Levels Enhance the Susceptibility of Maize Seedlings to Metolachlor|Pestic. Biochem. Physiol.47(3): 199-205|1993|10.1006/pest.1993.1079
73273|T||Hatton,P.J., D.J. Cole, and R. Edwards|Influence of Plant age on Glutathione Levels and Glutathione Transferases Involved in Herbicide Detoxification in corn (Zea mays L.) and Giant Foxtail (Setaria faberi Herrm)|Pestic. Biochem. Physiol.54(3): 199-209|1996|10.1006/pest.1996.0024
73274|T||Ji,W., and K.K. Hatzios|Pretreatment with Bleaching Herbicides Alleviates the Light-Induced Inhibition of Maize 3-Hydroxy-3-Methylglutaryl-Coenzyme A Reductase Activity|Pestic. Biochem. Physiol.42(1): 54-63|1992|10.1016/0048-3575(92)90073-9
73275|T||Berzsenyi,Z., B. Gyorffy, T. Arendas, P. Bonis, and D.Q. Lap|Studies on the Phytotoxicity of Herbicides in Maize (Zea mays L.) as Affected by Temperature and Antidotes|Acta Agron. Hung.45(4): 443-448|1997|
73276|A||Leach,G.J., and M.H. Taylor|The Effects of Cortisol Treatment on Carbohydrate and Protein Metabolism in Fundulus heteroclitus|Gen. Comp. Endocrinol.48:76-83|1982|10.1016/0016-6480(82)90039-9
73277|A||Pottinger,T.G., and A.D. Pickering|The Effect of Cortisol Administration on Hepatic and Plasma Estradiol-Binding Capacity in Immature Female Rainbow Trout (Oncorhynchus mykiss)|Gen. Comp. Endocrinol.80:264-273|1990|10.1016/0016-6480(90)90171-H
73278|A||Freeman,H.C., and D.R. Idler|Effects of Corticosteroids on Liver Transaminases in Two Salmonids, the Rainbow Trout (Salmo gairdnerii) and the Brook Trout (Salvelinus fontinalis)|Gen. Comp. Endocrinol.20:69-75|1973|10.1016/0016-6480(73)90131-7
73279|A||Pickford,G.E., P.K.T. Pang, E. Weinstein, J. Torretti, E. Hendler, and F.H. Epstein|The Response of the Hypophysectomized Cyprinodont, Fundulus heteroclitus, to Replacement Therapy with Cortisol:  Effects on Blood Serum and Sodium-Potassium Activiated Adenosine Triphosphatase in the Gills, Kidney, and |Gen. Comp. Endocrinol.14:524-534|1970|10.1016/0016-6480(70)90036-5
73280|A||Chan,D.K.O., and N.Y.S. Woo|Effect of Cortisol on the Metabolism of the Eel, Anguilla japonica|Gen. Comp. Endocrinol.35:205-215|1978|10.1016/0016-6480(78)90064-3
73281|A||Fagerlund,U.H.M., and E.M. Donaldson|The Effect of Androgens on the Distribution and Secretion of Cortisol in Gonadectomized Male Sockeye Salmon (Oncorhynchus nerka)|Gen. Comp. Endocrinol.12:438-448|1969|10.1016/0016-6480(69)90160-9
73282|A||Madsen,L.L., B. Korsgaard, and P. Bjerregaard|Estrogenic Effects in Flounder Platichthys flesus Orally Exposed to 4-tert-Octylphenol|Aquat. Toxicol.64(4): 393-405|2003|10.1016/S0166-445X(03)00106-1
73283|A||Pait,A.S., and J.O. Nelson|Vitellogenesis in Male Fundulus heteroclitus (Killifish) Induced by Selected Estrogenic Compounds|Aquat. Toxicol.64(3): 331-342|2003|10.1016/S0166-445X(03)00060-2
73284|A||Lindholst,C., P.M. Wynne, P. Marriott, S.N. Pedersen, and P. Bjerregaard|Metabolism of Bisphenol A in Zebrafish (Danio rerio) and Rainbow Trout (Oncorhynchus mykiss) in Relation to Estrogenic Response|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.135(2): 169-177|2003|10.1016/S1532-0456(03)00088-7
73285|A||Uguz,C., M. Iscan, A. Erguven, B. Isgor, and I. Togan|The Bioaccumulation of Nonyphenol and Its Adverse Effect on the Liver of Rainbow Trout (Onchorynchus mykiss)|Environ. Res.92(3): 262-270|2003|10.1016/S0013-9351(03)00033-1
73286|A||Van den Belt,K., P. Berckmans, C. Vangenechten, R. Verheyen, and H. Witters|Comparative Study on the In Vitro/In Vivo Estrogenic Potencies of 17beta-Estradiol, Estrone, 17alpha-Ethynylestradiol and Nonylphenol|Aquat. Toxicol.66(2): 183-195|2004|10.1016/j.aquatox.2003.09.004
73287|A||Arsenault,J.T.M., W.L. Fairchild, D.L. MacLatchy, L. Burridge, K. Haya, and S.B. Brown|Effects of Water-Borne 4-Nonylphenol and 17beta-Estradiol Exposures During Parr-Smolt Transformation on Growth and Plasma IGF-I of Atlantic Salmon (Salmo salar L.)|Aquat. Toxicol.66(3): 255-265|2004|10.1016/j.aquatox.2003.09.005
73288|A||Willingham,E.|Endocrine-Disrupting Compounds and Mixtures:  Unexpected Dose-Response|Arch. Environ. Contam. Toxicol.46(2): 265-269|2004|10.1007/s00244-003-2110-1
73289|A||Oka,T., N. Adati, T. Shinkai, K. Sakuma, T. Nishimura, and K. Kurose|Bisphenol A Induces Apoptosis in Central Neural Cells During Early Development of Xenopus laevis|Biochem. Biophys. Res. Commun.312(4): 877-882|2003|10.1016/j.bbrc.2003.10.199
73290|A||Honkanen,J.O., I.J. Holopainen, and J.V.K. Kukkonen|Bisphenol A Induces Yolk-Sac Oedema and Other Adverse Effects in Landlocked Salmon (Salmo salar m. sebago) Yolk-Sac Fry|Chemosphere55(2): 187-196|2004|10.1016/j.chemosphere.2003.10.028
73291|A||Bjerregaard,P., D.N. Andersen, K.L. Pedersen, S.N. Pedersen, and B. Korsgaard|Estrogenic Effect of Propylparaben (Propylhydroxybenzoate) in Rainbow Trout Oncorhynchus mykiss After Exposure via Food and Water|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(4): 309-317|2003|10.1016/j.cca.2003.10.004
73292|A||Thomas-Jones,E., K. Thorpe, N. Harrison, G. Thomas, C. Morris, T. Hutchinson, S. Woodhead, and C. Tyler|Dynamics of Estrogen Biomarker Responses in Rainbow Trout Exposed to 17beta-Estradiol and 17alpha-Ethinylestradiol|Environ. Toxicol. Chem.22(12): 3001-3008|2003|10.1897/03-31
73293|A||Marcial,H.S., A. Hagiwara, and T.W. Snell|Estrogenic Compounds Affect Development of Harpacticoid Copepod Tigriopus japonicus|Environ. Toxicol. Chem.22(12): 3025-3030|2003|10.1897/02-622
73294|A||Contractor,R.G., C.M. Foran, S. Li, and K.L. Willett|Evidence of Gender- and Tissue-Specific Promoter Methylation and the Potential for Ethinylestradiol-Induced Changes in Japanese Medaka (Oryzias latipes) Estrogen Receptor and Aromatase Genes|J. Toxicol. Environ. Health Part A67(1): 1-22|2004|10.1080/15287390490253633
73295|A||Boudreau,M., S.C. Courtenay, D.L. MacLatchy, C.H. Berube, J.L. Parrott, and G.J. Van der Kraak|Utility of Morphological Abnormalities During Early-Life Development of the Estuarine Mummichog, Fundulus heteroclitus, as an Indicator of Estrogenic and Antiestrogenic Endocrine Disruption|Environ. Toxicol. Chem.23(2): 415-425|2004|10.1897/03-50
73296|A||Hakkinen,J., E. Vehniainen, and A. Oikari|high Sensitivity of Northern Pike Larvae to UV-B but no UV-Photoinduced Toxicity of Retene|Aquat. Toxicol.66(4): 393-404|2004|10.1016/j.aquatox.2003.11.001
73297|A||Spano,L., C.R. Tyler, R. Van Aerle, P. Devos, S.N.M. Mandiki, F. Silvestre, J.P. Thome, and P. Kestemont|Effects of Atrazine on Sex Steroid Dynamics, Plasma Vitellogenin Concentration and Gonad Development in Adult Goldfish (Carassius auratus)|Aquat. Toxicol.66(4): 369-379|2004|10.1016/j.aquatox.2003.10.009
73298|A||Peterson,J.S.K., and L.J. Bain|Differential Gene Expression in Anthracene-Exposed Mummichogs (Fundulus heteroclitus)|Aquat. Toxicol.66(4): 345-355|2004|10.1016/j.aquatox.2003.10.005
73299|A||Chesworth,J.C., M.E. Donkin, and M.T. Brown|The Interactive Effects of the Antifouling Herbicides Irgarol 1051 and Diuron on the Seagrass Zostera marina (L.)|Aquat. Toxicol.66(3): 293-305|2004|10.1016/j.aquatox.2003.10.002
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73309|A||Pesando,D., S. Robert, P. Huitorel, E. Gutknecht, L. Pereira, J.P. Girard, and B. Ciapa|Effects of Methoxychlor, Dieldrin and Lindane on Sea Urchin Fertilization and Early Development|Aquat. Toxicol.66(3): 225-239|2004|10.1016/j.aquatox.2003.09.007
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73311|A||Cleuvers,M., and A. Weyers|Algal Growth Inhibition Test:  Does Shading of Coloured Substances Really Matter?|Water Res.37(11): 2718-2722|2003|10.1016/S0043-1354(03)00060-5
73312|A||Au,D.W.T., O.V. Yurchenko, and A.A. Reunov|Sublethal Effects of Phenol on Spermatogenesis in Sea Urchins (Anthocidaris crassispina)|Environ. Res.93(1): 92-98|2003|10.1016/S0013-9351(02)00094-4
73313|A||Tao,S., A. Long, B. Pan, F. Xu, and R. Dawson|Uptake of Copper Complexed to EDTA, Diaminoethane, Oxalic Acid, or Tartaric Acid by Neon Tetras (Paracheirodon innesi)|Ecotoxicol. Environ. Saf.53(2): 317-322|2002|10.1006/eesa.2002.2224
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73317|A||Reyes,J.G.G., N.R. Leyva, O.A. Millan, and G.A. Lazcano|Effects of Pesticides on DNA and Protein of Shrimp Larvae Litopenaeus stylirostris of the California Gulf|Ecotoxicol. Environ. Saf.53(2): 191-195|2002|10.1006/eesa.2002.2156
73318|A||Teles,M., M. Pacheco, and M.A. Santos|Anguilla anguilla L. Liver Ethoxyresorufin O-Deethylation, Glutathione S-Transferase, Erythrocytic Nuclear Abnormalities, and Endocrine Responses to Naphthalene and beta-Naphthoflavone|Ecotoxicol. Environ. Saf.55(1): 98-107|2003|10.1016/S0147-6513(02)00134-3
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73320|A||Riggio,M., S. Filosa, E. Parisi, and R. Scudiero|Changes in Zinc, Copper and Metallothionein Contents During Oocyte Growth and Early Development of the Teleost Danio rerio (Zebrafish)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.135(2): 191-196|2003|10.1016/S1532-0456(03)00107-8
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73322|A||Roex,E.W.M., R. Keijzers, and C.A.M. Van Gestel|Acetylcholinesterase Inhibition and Increased Food Consumption Rate in the Zebrafish, Danio rerio, After Chronic Exposure to Parathion|Aquat. Toxicol.64(4): 451-460|2003|10.1016/S0166-445X(03)00100-0
73324|A||Lin,Y.C., and J.C. Chen|Acute Toxicity of Nitrite on Litopenaeus vannamei (Boone) Juveniles at Different Salinity Levels|Aquaculture224(1-4): 193-201|2003|10.1016/S0044-8486(03)00220-5
73325|A||Sinha,S., and K. Pandey|Nickel Induced Toxic Effects and Bioaccumulation in the Submerged Plant, Hydrilla verticillata (L.F.) Royle Under Repeated Metal Exposure|Bull. Environ. Contam. Toxicol.71(6): 1175-1183|2003|10.1007/s00128-003-8896-8
73326|A||Zuniga,M., P. Vallejos, A. Larrain, and E. Bay-Schmith|Toxicity of Copper on Four Chilean Marine Mussels|Bull. Environ. Contam. Toxicol.71(6): 1167-1174|2003|10.1007/s00128-003-8248-8
73327|A||Carlsson,G., and L. Norrgren|Synthetic Musk Toxicity to Early Life Stages of Zebrafish (Danio rerio)|Arch. Environ. Contam. Toxicol.46(1): 102-105|2004|10.1007/s00244-003-2288-2
73328|A||Bellas,J., R. Beiras, and E. Vazquez|Sublethal Effects of Trace Metals (Cd,Cr,Cu,Hg) on Embryogenesis and Larval Settlement of the Ascidian Ciona intestinalis|Arch. Environ. Contam. Toxicol.46(1): 61-66|2004|10.1007/s00244-003-0238-7
73329|A||Lopes,I., D.J. Baird, and R. Ribeiro|Genetic Determination of Tolerance to Lethal and Sublethal Copper Concentrations in Field Populations of Daphnia longispina|Arch. Environ. Contam. Toxicol.46(1): 43-51|2004|10.1007/s00244-003-2143-5
73330|A||Hwang,H., S.W. Fisher, K. Kim, and P.F. Landrum|Comparison of the Toxicity Using Body Residues of DDE and Select PCB Congeners to the Midge, Chironomus riparius, in Partial-Life Cycle Tests|Arch. Environ. Contam. Toxicol.46(1): 32-42|2004|10.1007/s00244-003-2220-9
73331|A||De Guise,S., J. Maratea, and C. Perkins|Malathion Immunotoxicity in the American Lobster (Homarus americanus) upon Experimental Exposure|Aquat. Toxicol.66(4): 419-425|2004|10.1016/j.aquatox.2003.11.005
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73334|T||Nair,S.G., B.M. Patil, and A.P. Karunakar|Effect of Chemical Weed Control on Growth and Yield of Irrigated Mustard (Brassica juncea L.)|Crop Res. (Hisar)17(1): 116-117|1999|
73335|A||Vehniainen,E.R., J. Hakkinen, and A. Oikari|Photoinduced Lethal and Sublethal Toxicity of Retene, a Polycyclic Aromatic Hyrocarbon Derived from Resin Acid, to Coregonid Larvae|Environ. Toxicol. Chem.22(12): 2995-3000|2003|10.1897/02-569
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73337|A||Palmqvist,A., H. Selck, L.J. Rasmussen, and V.E. Forbes|Biotransformation and Genotoxicity of Fluoranthene in the Deposit-Feeding Polychaete Capitella sp. I|Environ. Toxicol. Chem.22(12): 2977-2985|2003|10.1897/02-474
73338|A||Klosterhaus,S.L., L.M. DiPinto, and G.T. Chandler|A Comparative Assessment of Azinphosmethyl Bioaccumulation and Toxicity in Two Estuarine Meiobenthic Harpacticoid Copepods|Environ. Toxicol. Chem.22(12): 2960-2968|2003|10.1897/02-411
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73340|A||Weinstein,J.E.|Influence of Salinity on the Bioaccumulation and Photoinduced Toxicity of Fluoranthene to an Estuarine Shrimp and Oligochaete|Environ. Toxicol. Chem.22(12): 2932-2939|2003|10.1897/02-531
73341|A||Leppanen,M.T., P.F. Landrum, J.V.K. Kukkonen, M.S. Greenberg, G.A.,Jr. Burton, S.D. Robinson, and D.C. Gossiaux|Investigating the Role of Desorption on the Bioavailbility of Sediment-Associated 3,4,3',4'-Tetrachlorobiphenyl in Benthic Invertebrates|Environ. Toxicol. Chem.22(12): 2861-2871|2003|10.1897/02-541
73342|A||Tsui,M.T.K., and W.X. Wang|Uptake and Elimination Routes of Inorganic Mercury and Methylmercury in Daphnia magna|Environ. Sci. Technol.38(3): 808-816|2004|10.1021/es034638x
73343|A||Widmeyer,J.R., E.D. Crozier, M.M. Moore, A. Jurgensen, and L.I. Bendell-Young|Role of Leptothrix discophora in Mediating Metal Uptake in the Filter-Feeding Bivalve Mytilus trossulus (Edulis)|Environ. Sci. Technol.38(3): 769-774|2004|10.1021/es0347437
73344|A||Redeker,E.S., and R. Blust|Accumulation and Toxicity of Cadmium in the Aquatic Oligochaete Tubifex tubifex:  A Kinetic Modeling Approach|Environ. Sci. Technol.38(2): 537-543|2004|10.1021/es0343858
73345|T||Van Heerden,H.G., L.L. Hoffmann-Grobler, and B.E. Eisenberg|Effect of Isopropalin and Metolachlor on Flue-Cured Tobacco Transplants|Appl. Plant Sci.5(1): 18-20|1991|
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73347|A||Stapleton,H.M., M. Alaee, R.J. Letcher, and J.E. Baker|Debromination of the Flame Retardant Decabromodiphenyl Ether by Juvenile Carp (Cyprinus carpio) Following Dietary Exposure|Environ. Sci. Technol.38(1): 112-119|2004|10.1021/es034746j
73348|A||Stauber,J.L., and T.M. Florence|Reversibility of Copper-Thiol Binding in Nitzschia closterium and Chlorella pyrenoidosa|Aquat. Toxicol.8(4): 223-229|1986|10.1016/0166-445X(86)90074-3
73349|T||Gabr,M.A., M.A. Shakeeb, F.A. Fahmy, and H. Abbas|Influence of Metolachlor Foliar Spray on the Nitrogen Components, Nucleic Acid Content and Enzyme Activities in Transplanted Tomato Plants (Lycopersicon esculentum L.)|Egypt. J. Bot.32(1-2): 11-20|1989|
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73354|A||Curran,C.A., J.M. Grassley, and C.E. Grue|Toxicity of R-11 Surfactant to Juvenile Rainbow Trout:  Does Size Matter?|Bull. Environ. Contam. Toxicol.72(2): 401-408|2004|10.1007/s00128-003-0264-1
73355|A||Heng,L.Y., K. Jusoh, C.H.M. Ling, and M. Idris|Toxicity of Single and Combinations of Lead and Cadmium to the Cyanobacteria Anabaena flos-aquae|Bull. Environ. Contam. Toxicol.72(2): 373-379|2004|10.1007/s00128-003-8923-9
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73357|T||Gabr,M.A., M.A. Shakeeb, F.A. Fahmy, and H. Abbas|Influence of Metolachlor Foliar Spray on Growth, Carbohydrate Content, Pigmentation and Photosynthetic Activity in Transplanted Tomato Plants (Lycopersicon esculentum L.)|Egypt. J. Bot.32(1-2): 1-9|1989|
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73360|T||Sayed,F.A., S.G. Mohamed, and F.F. Abd Elaleem|Growth and Nitrogen Metabolism of Rhizoctonia solani as Affected by Some Herbicides and a Fungicide|Egypt. J. Microbiol.25(2): 269-276|1990|
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73363|T||Velu,G.|Effect of Herbicides and Cultivars on the Ecophysiological Characteristics and Grain Yield of Greengram|Int. J. Trop. Agric.16(1-4): 147-155|1998|
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73365|A||Cogun,H.Y., T.A. Yuzereroglu, and F. Kargin|Accumulation of Copper and Cadmium in Small and Large Nile Tilapia Oreochromis niloticus|Bull. Environ. Contam. Toxicol.71(6): 1265-1271|2003|10.1007/s00128-003-8523-8
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73370|T||O'Makinwa,R.O., and O.A. Akinyemiju|The Influence of Some Herbicides on the Control of Euphorbia heterophylla L. in Cowpea|Malays. Agric. J.54(2): 68-80|1988|
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73372|A||Wibe,A.E., E. Fjeld, G. Rosenqvist, and B.M. Jenssen|Postexposure Effects of DDE and Butylbenzylphthalate on Feeding Behavior in Threespine Stickleback|Ecotoxicol. Environ. Saf.57(2): 213-219|2004|10.1016/S0147-6513(03)00005-8
73373|A||El-Merhibi,A., A. Kumar, and T. Smeaton|Role of Piperonyl Butoxide in the Toxicity of Chlorpyrifos to Ceriodaphnia dubia and Xenopus laevis|Ecotoxicol. Environ. Saf.57(2): 202-212|2004|10.1016/S0147-6513(03)00082-4
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73375|A||Manzo,S.|Sea Urchin Embryotoxicity Test:  Proposal for a Simplified Bioassay|Ecotoxicol. Environ. Saf.57(2): 123-128|2004|10.1016/j.ecoenv.2003.10.007
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73378|A||Clowes,L.A., and K.A. Francesconi|Uptake and Elimination of Arsenobetaine by the Mussel Mytilus edulis is Related to Salinity|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(1): 35-42|2004|10.1016/j.cca.2003.11.003
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73380|A||Losso,C., A.A. Novelli, M. Picone, A.V. Ghirardini, P.F. Ghetti, D. Rudello, and P. Ugo|Sulfide as a Confounding Factor in Toxicity Tests with the Sea Urchin Paracentrotus lividus:  Comparisons with Chemical Analysis Data|Environ. Toxicol. Chem.23(2): 396-401|2004|10.1897/03-178
73381|A||Mann,R.M., M. Grosell, A. Bianchini, and C.M. Wood|Biologically Incorporated Dietary Silver has no Ionoregulatory Effects in American Red Crayfish (Procambarus clarkii)|Environ. Toxicol. Chem.23(2): 388-395|2004|10.1897/02-572
73382|A||Gosselin,A., and L. Hare|Effect of Sedimentary Cadmium on the Behavior of a Burrowing Mayfly (Ephemeroptera, Hexagenia limbata)|Environ. Toxicol. Chem.23(2): 383-387|2004|10.1897/03-32
73383|A||Brain,R.A., D.J. Johnson, S.M. Richards, H. Sanderson, P.K. Sibley, and K.R. Solomon|Effects of 25 Pharmaceutical Compounds to Lemna gibba Using a Seven-Day Static-Renewal Test|Environ. Toxicol. Chem.23(2): 371-382|2004|10.1897/02-576
73384|A||Patton,L.E., M.L. Shuler, and L.W. Lion|Development of a Model Microbial Predator-Prey System Suitable for Studies of the Behavior of Toxic Trace Metals|Environ. Toxicol. Chem.23(2): 292-297|2004|10.1897/03-76
73385|A||Peake,E.B., J.C. Locke, L.L. Tierney, and A.S. Kolok|Copper Tolerance in Fathead Minnows:  II.  Maternal Transfer|Environ. Toxicol. Chem.23(1): 208-211|2004|10.1897/02-610
73386|A||Kolok,A.S., E.B. Peake, L.L. Tierney, S.A. Roark, R.B. Noble, K. See, and S.I. Guttman|Copper Tolerance in Fathead Minnows:  I.  The Role of Genetic and Nongenetic Factors|Environ. Toxicol. Chem.23(1): 200-207|2004|10.1897/02-609
73387|A||Xie,L., and P.L. Klerks|Metallothionein-Like Protein in the Least Killifish Heterandria formosa and Its Role in Cadmium Resistance|Environ. Toxicol. Chem.23(1): 173-177|2004|10.1897/02-652
73388|A||Chandler,G.T., T.L. Cary, D.C. Volz, S.S. Walse, J.L. Ferry, and S.L. Klosterhaus|Fipronil Effects on Estuarine Copepod (Amphiascus tenuiremis) Development, Fertility, and Reproduction: A Rapid Life-Cycle Assay in 96-Well Microplate Format|Environ. Toxicol. Chem.23(1): 117-124|2004|10.1897/03-124
73389|A||Gomes,R.L., H.E. Deacon, K.M. Lai, J.W. Birkett, M.D. Scrimshaw, and J.N. Lester|An Assessment of the Bioaccumulation of Estrone in Daphnia magna|Environ. Toxicol. Chem.23(1): 105-108|2004|10.1897/02-613
73390|A||Hoang,T.C., J.R. Tomasso, and S.J. Klaine|Influence of Water Quality and Age on Nickel Toxicity to Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.23(1): 86-92|2004|10.1897/03-11
73391|A||Hooper,H.L., R.M. Sibly, S.J. Maund, and T.H. Hutchinson|The Joint Effects of Larval Density and 14C-Cypermethrin on the Life History and Population Growth Rate of the Midge Chironomus riparius|J. Appl. Ecol.40(6): 1049-1059|2003|10.1111/j.1365-2664.2003.00858.x
73392|A||Bartlett,A.J., U. Borgmann, D.G. Dixon, S.P. Batchelor, and R.J. Maguire|Tributyltin Uptake and Depuration in Hyalella azteca:  Implications for Experimental Design|Environ. Toxicol. Chem.23(2): 426-434|2004|10.1897/03-87
73393|A||Volz,D.C., and G.T. Chandler|An Enzyme-Linked Immunosorbent Assay for Lipovitellin Quantification in Copepods:  A Screening Tool for Endocrine Toxicity|Environ. Toxicol. Chem.23(2): 298-305|2004|10.1897/03-200
73394|A||Meems,N., C.E.W. Steinberg, and C. Wiegand|Direct and Interacting Toxicological Effects on the Waterflea (Daphnia magna) by Natural Organic Matter, Synthetic Humic Substances and Cypermethrin|Sci. Total Environ.319(1-3): 123-136|2004|10.1016/S0048-9697(03)00445-5
73395|A||Roling,J.A., L.J. Bain, and W.S. Baldwin|Differential Gene Expression in Mummichogs (Fundulus heteroclitus) Following Treatment with Pyrene:  Comparison to a Creosote Contaminated Site|Mar. Environ. Res.57(5): 377-395|2004|10.1016/j.marenvres.2003.11.001
73396|A||Selck,H., and V.E. Forbes|The Relative Importance of Water and Diet for Uptake and Subcellular Distribution of Cadmium in the Deposit-Feeding Polychaete, Capitella sp. I|Mar. Environ. Res.57(4): 261-279|2004|10.1016/j.marenvres.2003.08.001
73397|A||Geter,D.R., R.N. Winn, J.W. Fournie, M.B. Norris, A.B. DeAngelo, and W.E. Hawkins|MX [3-Chloro-4-(Dichloromethyl)-5-Hydroxy-2[5H]-Furanone], a Drinking-Water Carcinogen, does not Induce Mutations in the Liver of cll Transgenic Medaka (Oryzias latipes)|J. Toxicol. Environ. Health Part A67(5): 373-383|2004|10.1080/15287390490273587
73398|A||Marwood,C.A., R.E.H. Smith, M.N. Charlton, K.R. Solomon, and B.M. Greenberg|Photoinduced Toxicity to Lake Erie Phytoplankton Assemblages from Intact and Photomodified Polycyclic Aromatic Hydrocarbons|J. Great Lakes Res.29(4): 558-565|2003|10.1016/S0380-1330(03)70459-6
73399|A||Pennington,P.L., M.E. DeLorenzo, J.C. Lawton, E.D. Strozier, M.H. Fulton, and G.I. Scott|Modular Estuarine Mesocosm Validation:  Ecotoxicological Assessment of Direct Effects with the Model Compound Endosulfan|J. Exp. Mar. Biol. Ecol.298(2): 369-387|2004|10.1016/S0022-0981(03)00365-4
73400|A||Broomhall,S.D.|Egg Temperature Modifies Predator Avoidance and the Effects of the Insecticide Endosulfan on Tadpoles of an Australian Frog|J. Appl. Ecol.41(1): 105-113|2004|10.1111/j.1365-2664.2004.00883.x
73401|A||Slijkerman,D.M.E., D.J. Baird, A. Conrad, R.G. Jak, and N.M. Van Straalen|Assessing Structural and Functional Plankton Responses to Carbendazim Toxicity|Environ. Toxicol. Chem.23(2): 455-462|2004|10.1897/03-12
73402|A||Long,K.E., E.J. Van Genderen, and S.J. Klaine|The Effects of Low Hardness and pH on Copper Toxicity to Daphnia magna - Short Communication|Environ. Toxicol. Chem.23(1): 72-75|2004|10.1897/02-486
73403|A||Lee,J.S., B.G. Lee, S.N. Luoma, and H. Yoo|Importance of Equilibration Time in the Partitioning and Toxicity of Zinc in Spiked Sediment Bioassays|Environ. Toxicol. Chem.23(1): 65-71|2004|10.1897/03-176
73404|A||Hose,G.C., R.V. Hyne, and R.P. Lim|Toxicity of Endosulfan to Atalophlebia spp. (Ephemeroptera) in the Laboratory, Mesocosm, and Field|Environ. Toxicol. Chem.22(12): 3062-3068|2003|10.1897/02-637
73405|A||Williams,J., C. Roderick, and R. Alexander|Sublethal Effects of Orimulsion-400 on Eggs and Larvae of Atlantic Herring (Clupea harengus L.)|Environ. Toxicol. Chem.22(12): 3044-3048|2003|10.1897/02-404
73406|A||Stark,J.D., and W.K. Walthall|Agricultural Adjuvants:  Acute Mortality and Effects on Population Growth Rate of Daphnia pulex After Chronic Exposure|Environ. Toxicol. Chem.22(12): 3056-3061|2003|10.1897/02-504
73407|A||Cedergreen,N., J.C. Streibig, and N.H. Spliid|Sensitivity of Aquatic Plants to the Herbicide Metsulfuron-Methyl|Ecotoxicol. Environ. Saf.57(2): 153-161|2004|10.1016/S0147-6513(02)00145-8
73408|A||Southerland,H.A., and A.J. Lewitus|Physiological Responses of Estuarine Phytoplankton to Ultraviolet Light-Induced Fluoranthene Toxicity|J. Exp. Mar. Biol. Ecol.298(2): 303-322|2004|10.1016/S0022-0981(03)00364-2
73409|T||McLeod,K.W., and T.G. Ciravolo|Sensitivity of Water Tupelo (Nyssa aquatica) and Bald Cypress (Taxodium distichum) Seedlings to Managanese Enrichment Under Water-Saturated Conditions|Environ. Toxicol. Chem.22(12): 2948-2951|2003|10.1897/02-457
73410|A||Sano,L.L., R.A. Moll, A.M. Krueger, and P.F. Landrum|Assessing the Potential Efficacy of Glutaraldehyde for Biocide Treatment of Un-ballasted Transoceanic Vessels|J. Great Lakes Res.29(4): 545-557|2003|10.1016/S0380-1330(03)70458-4
73412|T||Wu,J., H. Omokawa, and K.K. Hatzios|Glutathione S-Transferase Activity in Unsafened and Fenclorim-Safened Rice (Oryza sativa)|Pestic. Biochem. Physiol.54(3): 220-229|1996|10.1006/pest.1996.0026
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73415|T||Rotteveel,A.J.W., and H. Naber|Spot-Treatments for Yellow Nutsedge (Cyperus esculentus) Control|Meded. Fac. Landbouwwet. Rijksuniv. Gent59(3b): 1261-1264|1994|
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73417|T||Wilkinson,R.E., R.R. Duncan, S.A. Meredith, and K.K. Hatzios|Growth and Physiological Responses of Sorghum Cultivars Exposed to Excess H+ and the Herbicide Metolachlor|Can. J. Bot.71(4): 533-540|1993|10.1139/b93-059
73418|T||Al-Khatib,K., C. Libbey, and S. Kadir|Broadleaf Weed Control and Cabbage Seed Yield Following Herbicide Application|Hortscience30(6): 1211-1214|1995|10.21273/HORTSCI.30.6.1211
73420|T||Dixon,D.P., R. Edwards, and D.J. Cole|Regulation of Maize Glutathione Transferases During Development and Their Induction by Xenobiotics|Br. Crop Prot. Conf. Weeds:759-764|1997|
73422|T||Grisolia,C.K., and I. Ferrari|In Vitro and In Vivo Studies Demonstrate Non-Mutagenicity of the Herbicide Metolachlor|Braz. J. Genet.20(3): 411-414|1997|10.1590/S0100-84551997000300009
73423|T||Heuer,B.|Physiological Response of Cucumber Seedlings to Residual Concentration of Metolachlor in their Nutrient Solution|Acta Physiol. Plant.13(2): 95-98|1991|
73424|T||Talbert,R.E., L.R. Oliver, R.E. Frans, R.A. Wichert, V.F. Carey, D.H. Johnson, and D.F. Ruff|Field Screening of New Chemicals for Herbicidal Activity, 1992|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.426:22 p.|1993|
73425|T||Hugo,K.J., J.J. Van Biljon, and J.V.D.W. Jooste|Residual Effect of Various Herbicides on Japanese Millet|Appl. Plant Sci.4(2): 58-61|1990|
73426|A||Junghans,M., T. Backhaus, M. Faust, M. Scholze, and L.H. Grimme|Predictability of Combined Effects of Eight Chloroacetanilide Herbicides on Algal Reproduction|Pest Manag. Sci.59(10): 1101-1110|2003|10.1002/ps.735
73427|A||Brix,K.V., F.P. Sweeney, and R.D. Cardwell|Procedures for Conducting Acute Toxicity Tests Using the Echinoderm Sperm Cell Test to Determine the Acute Toxicity of bis(Tributyltin) Oxide|Lab.Proj.No.55-1807-05 (02A), Elf Atochem North America Inc., Philadelphia, PA:20 p.|1994|
73428|T||Charles,G.W.|Herbicide Strategies for Reducing Nutgrass (Cyperus rotundus L.) Density in Cotton (Gossypium hirsutum L.)|Aust. J. Exp. Agric.37(2): 231-241|1997|10.1071/EA96030
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73443|A||Singh,S., and D.N. Sadhu|Toxicity and Behaviour of Rogor (Dimethoate) Exposed Channa punctatus (Bloch)|J. Environ. Pollut.8(4): 377-378|2001|
73446|A||DiSalvo,L.H., H.E. Guard, B. Gray, and J.A. Lego|Toxicity of Ordnance Wastes in Aquatic Environments|NBRL Proj.No.EC 21_76, Naval Biomed.Res.Lab., Naval Supply Ctr., Oakland, CA:20 p.|1976|
73454|T||Orth,A.B., A. Sfarra, E.J. Pell, and M. Tien|An Investigation into the Role of Lipid Peroxidation in the Mode of Action of Aromatic Hydrocarbon and Dicarboximide Fungicides|Pestic. Biochem. Physiol.44(2): 91-100|1992|10.1016/0048-3575(92)90106-A
73459|A||Bailey,H.C., R.J. Spanggord, H.S. Javitz, and D.H.W. Liu|Toxicity of TNT Wastewaters to Aquatic Organisms.  Final Report.  Volume III.  Chronic Toxicity of LAP Wastewater and 2,4,6-Trinitrotoluene|Contract No.DAMD 17-75-c-5056, SRI Int., Menlo Park, CA:76 p.|1984|
73460|A||Bentley,R.E., D.C. Surprenant, and S.R. Petrocelli|Determination of the Toxicity to Aquatic Organisms of HMX and Related Wastewater Constituents: Part 3. Toxicity of HMX, TAX and SEX to Aquatic Organisms|Contract No.DAMD17-80-C-0011, Springborn Bionomics, Wareham, MA:95 p.|1984|
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73462|A||Hartley,W.R.|Evaluation of Selected Subacute Effects of the Nitrotoluene Group of Munitions Compounds on Fish and Potential Use in Aquatic Toxicity Evaluations|Contract No.DAMD17-80-C-0020, Tulane Univ.Sch.of Public Health and Trop.Med., New Orleans, LA:208 p.|1981|
73463|A||Markich,S.J.|Influence of Body Size and Gender on Valve Movement Responses of a Freshwater Bivalve to Uranium|Environ. Toxicol.18:126-136|2003|10.1002/tox.10109
73464|A||Riethmuller,N., S.J. Markich, R.A. Van Dam, and D. Parry|Effects of Water Hardness and Alkalinity on the Toxicity of Uranium to a Tropical Freshwater Hydra (Hydra viridissima)|Biomarkers (Lond.)6(1): 45-51|2001|10.1080/135475001452788
73465|A||Ferrari,A., A. Venturino, and A.M. Pechen de D'Angelo|Time Course of Brain Cholinesterase Inhibition and Recovery Following Acute and Subacute Azinphosmethyl, Parathion and Carbaryl Exposure in the Goldfish (Carassius auratus)|Ecotoxicol. Environ. Saf.57(3): 420-425|2004|10.1016/S0147-6513(02)00069-6
73466|A||Agell,G., X. Turon, S. De Caralt, S. Lopez-Legentil, and M.J. Uriz|Molecular and Organism Biomarkers of Copper Pollution in the Ascidian Pseudodistoma crucigaster|Mar. Pollut. Bull.48(7-8): 759-767|2004|10.1016/j.marpolbul.2003.11.001
73467|A||Djomo,J.E., A. Dauta, V. Ferrier, J.F. Narbonne, A. Monkiedje, T. Njine, and P. Garrigues|Toxic Effects of Some Major Polyaromatic Hydrocarbons Found in Crude Oil and Aquatic Sediments on Scenedesmus subspicatus|Water Res.38(7): 1817-1821|2004|10.1016/j.watres.2003.10.023
73468|A||Vijayavel,K., R.D. Gomathi, K. Durgabhavani, and M.P. Balasubramanian|Sublethal Effect of Naphthalene on Lipid Peroxidation and Antioxidant Status in the Edible Marine Crab Scylla serrata|Mar. Pollut. Bull.48(5-6): 429-433|2004|10.1016/j.marpolbul.2003.08.017
73469|A||Matozzo,V., L. Ballarin, and M.G. Marin|Exposure of the Clam Tapes philippinarum to 4-Nonylphenol: Changes in Anti-Oxidant Enzyme Activities and Re-Burrowing Capability|Mar. Pollut. Bull.48(5/6): 563-571|2004|10.1016/j.marpolbul.2004.01.011
73470|A||Tom,M., N. Chen, M. Segev, B. Herut, and B. Rinkevich|Quantifying Fish Metallothionein Transcript by Real Time PCR for Its Utilization as an Environmental Biomarker|Mar. Pollut. Bull.48(7-8): 705-710|2004|10.1016/j.marpolbul.2003.10.013
73471|A||Geracitano,L.A., R. Bocchetti, J.M. Monserrat, F. Regoli, and A. Bianchini|Oxidative Stress Responses in Two Populations of Laeonereis acuta (Polychaeta, Nereididae) After Acute and Chronic Exposure to Copper|Mar. Environ. Res.58(1): 1-17|2004|10.1016/j.marenvres.2003.09.001
73472|A||Kim,S.G., and J.C. Kang|Effect of Dietary Copper Exposure on Accumulation, Growth and Hematological Parameters of the Juvenile Rockfish, Sebastes schlegeli|Mar. Environ. Res.58(1): 65-82|2004|10.1016/j.marenvres.2003.12.004
73473|A||Robinson,C.D., E. Brown, J.A. Craft, I.M. Davies, and C.F. Moffat|Effects of Prolonged Exposure to 4-tert-Octylphenol on Toxicity and Indices of Oestrogenic Exposure in the Sand Goby (Pomatoschistus minutus, Pallas)|Mar. Environ. Res.58(1): 19-38|2004|10.1016/j.marenvres.2003.12.001
73474|A||Pan,J.F., and W.X. Wang|Influences of Dissolved and Colloidal Organic Carbon on the Uptake of Ag, Cd, and Cr by the Marine Mussel Perna viridis|Environ. Pollut.129(3): 467-477|2004|10.1016/j.envpol.2003.11.015
73475|A||Yu,R.Q., and W.X. Wang|Biokinetics of Cadmium, Selenium, and Zinc in Freshwater Alga Scenedesmus obliquus Under Different Phosphorus and Nitrogen Conditions and Metal Transfer to Daphnia magna|Environ. Pollut.129(3): 443-456|2004|10.1016/j.envpol.2003.11.013
73476|A||Carattino,M.D., S. Peralta, C. Perez-Coll, F. Naab, A. Burlon, A.J. Kreiner, A.F. Preller, and T.M. Fonovich de Schroed|Effects of Long-Term Exposure to Cu2+ and Cd2+ on the Pentose Phosphate Pathway Dehydrogenase Activities in the Ovary of Adult Bufo arenarum:  Possible Role as Biomarker for Cu2+ Toxicity|Ecotoxicol. Environ. Saf.57(3): 311-318|2004|10.1016/S0147-6513(03)00081-2
73477|A||Pawlowski,S., R. Van Aerle, C.R. Tyler, and T. Braunbeck|Effects of 17alpha-Ethinylestradiol in a Fathead Minnow (Pimephales promelas) Gonadal Recrudescence Assay|Ecotoxicol. Environ. Saf.57(3): 330-345|2004|10.1016/j.ecoenv.2003.07.019
73478|A||Geret,F., and M.J. Bebianno|Does Zinc Produce Reactive Oxygen Species in Ruditapes decussatus?|Ecotoxicol. Environ. Saf.57(3): 399-409|2004|10.1016/j.ecoenv.2003.07.002
73479|A||Dayeh,V.R., S.L. Chow, K. Schirmer, D.H. Lynn, and N.C. Bols|Evaluating the Toxicity of Triton X-100 to Protozoan, Fish, and Mammalian Cells Using Fluorescent Dyes as Indicators of Cell Viability|Ecotoxicol. Environ. Saf.57(3): 375-382|2004|10.1016/S0147-6513(03)00083-6
73480|A||Machella,N., F. Regoli, A. Cambria, and R.M. Santella|Application of an Immunoperoxidase Staining Method for Detection of 7,8-Dihydro-8-Oxodeoxyguanosine as a Biomarker of Chemical-Induced Oxidative Stress in Marine Organisms|Aquat. Toxicol.67(1): 23-32|2004|10.1016/j.aquatox.2003.11.008
73481|A||Rickwood,C.J., and T.S. Galloway|Acetylcholinesterase Inhibition as a Biomarker of Adverse Effect:  A Study of Mytilus edulis Exposed to the Priority Pollutant Chlorfenvinphos|Aquat. Toxicol.67(1): 45-56|2004|10.1016/j.aquatox.2003.11.004
73482|A||Hornung,M.W., P.M. Cook, K.M. Flynn, D.B. Lothenbach, R.D. Johnson, and J.W. Nichols|Use of Multi-Photon Laser-Scanning Microscopy to Describe the Distribution of Xenobiotic Chemicals in Fish Early Life Stages|Aquat. Toxicol.67(1): 1-11|2004|10.1016/j.aquatox.2003.11.009
73483|A||Baldisserotto,B., C. Kamunde, A. Matsuo, and C.M. Wood|A Protective Effect of Dietary Calcium Against Acute Waterborne Cadmium Uptake in Rainbow Trout|Aquat. Toxicol.67(1): 57-73|2004|10.1016/j.aquatox.2003.12.004
73484|A||Ishibashi,H., N. Matsumura, M. Hirano, M. Matsuoka, H. Shiratsuchi, Y. Ishibashi, Y. Takao, and K. Arizono|Effects of Triclosan on the Early Life Stages and Reproduction of Medaka Oryzias latipes and Induction of Hepatic Vitellogenin|Aquat. Toxicol.67(2): 167-179|2004|10.1016/j.aquatox.2003.12.005
73485|A||Brown,S.B., R.E. Evans, L. Vandenbyllardt, K.W. Finnson, V.P. Palace, A.S. Kane, A.Y. Yarechewski, and D.C.G. Muir|Altered Thyroid Status in Lake Trout (Salvelinus namaycush) Exposed to Co-Planar 3,3',4,4',5-Pentachlorobiphenyl|Aquat. Toxicol.67(1): 75-85|2004|10.1016/j.aquatox.2003.12.002
73486|A||Chapman,L.M., J.A. Roling, L.K. Bingham, M.R. Herald, and W.S. Baldwin|Construction of a Subtractive Library from Hexavalent Chromium Treated Winter Flounder (Pseudopleuronectes americanus) Reveals Alterations in Non-selenium Glutathione Peroxidases|Aquat. Toxicol.67(2): 181-194|2004|10.1016/j.aquatox.2003.12.006
73488|A||Otitoloju,A.A., and K.N. Don-Pedro|Integrated Laboratory and Field Assessments of Heavy Metals Accumulation in Edible Periwinkle, Tympanotonus fuscatus var radula (L.)|Ecotoxicol. Environ. Saf.57(3): 354-362|2004|10.1016/j.ecoenv.2003.09.002
73489|A||Fenske,M., and H. Segner|Aromatase Modulation Alters Gonadal Differentiation in Developing Zebrafish (Danio rerio)|Aquat. Toxicol.67(2): 105-126|2004|10.1016/j.aquatox.2003.10.008
73490|A||Knapen,D., L. Bervoets, E. Verheyen, and R. Blust|Resistance to Water Pollution in Natural Gudgeon (Gobio gobio) Populations may be due to Genetic Adaptation|Aquat. Toxicol.67(2): 155-165|2004|10.1016/j.aquatox.2003.12.001
73493|A||Reddy,P.S., R. Nagabhushanam, and R. Sarojini|Retardation of Moulting in the Prawn, Caridina rajadhari, Exposed to Tributyltin Oxide (TBTO)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.62(3): 353-356|1992|
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73497|A||Harding,M.J.C., S.K. Bailey, and I.M. Davies|Effects of TBT on the Reproductive Success of the Dogwhelk, Nucella lapillus|Napier Univ.of Edinburgh and The Scottish Off.Agric., Environ.& Fish Dep., Aberdeen, Scotland:75 p.|1996|
73498|A||Analytical Bio-Chemistry Laboratories Inc.|Dynamic 14-Day Acute Toxicity of Octylphenol to Rainbow Trout (Salmo gairdneri)|Rep.No.31911, Analytical Bio-Chemistry Lab., Columbia, MO:14 p.|1984|
73499|T||Golub,M.S., B. Han, C.L. Keen, and M.E. Gershwin|Effect of Dietary Aluminum Excess and Manganese Deficiency on Neurobehavioral Endpoints in Adult Mice|Toxicol. Appl. Pharmacol.112(1): 154-160|1992|10.1016/0041-008X(92)90291-Y
73500|T||Srivastava,S.P., M. Das, M. Mushtaq, S.V. Chandra, and P.K. Seth|Hepatic Effects of Orally Administered Styrene in Rats|J. Appl. Toxicol.2(4): 219-222|1982|10.1002/jat.2550020411
73501|T||Selzer,M., A. Wegener, and O. Hockwin|Regional Enzyme Profiles in Rabbit Lenses with Early Stages of Naphthalene Cataract|Lens Eye Toxic. Res.8(4): 415-430|1991|
73502|T||Yamauchi,T., S. Komura, and K. Yagi|Serum Lipid Peroxide Levels of Albino Rats Administered Naphthalene|Biochem. Int.13(1): 1-6|1986|
73503|T||Orzalesi,N., L. Migliavacca, and S. Miglior|Subretinal Neovascularization After Naphthalene Damage to the Rabbit Retina|Investig.Ophthalmol.Vis.Sci.35(2): 696-705|1994|
73504|T||Ramesh,A., F. Inyang, D.B. Hood, and M.E. Knuckles|Aryl Hydrocarbon Hydroxylase Activity in F-344 Rats Subchronically Exposed to Benzo(a)pyrene and Fluoranthene Through Diet|J. Biochem. Mol. Toxicol.14(3): 155-161|2000|10.1002/(SICI)1099-0461(2000)14:3<155::AID-JBT5>3.0.CO;2-3
73505|T||Rao,G.S., and K.P. Pandya|Biochemical Changes Induced by Naphthalene After Oral Administration in Albino Rats|Toxicol. Lett.8:311-315|1981|10.1016/0378-4274(81)90119-3
73506|T||Germansky,M., and I.S. Jamall|Organ-Specific Effects of Naphthalene on Tissue Peroxidation, Glutathione Peroxidases and Superoxide Dismutase in the Rat|Arch. Toxicol.61:480-483|1988|10.1007/BF00293694
73507|T||Das,M., K. Garg, G.B. Singh, and S.K. Khanna|Attenuation of Benzanthrone Toxicity by Ascorbic Acid in Guinea Pigs|Fundam. Appl. Toxicol.22:447-456|1994|10.1006/faat.1994.1050
73508|T||Navarro,H.A., C.J. Price, M.C. Marr, C.B. Myers, J.J. Heindel, and B.A. Schwetz|Final Report on the Developmental Toxicity of Naphthalene (CAS No. 91-20-3 ) in New Zealand White Rabbits|Report TER91021, National Toxicology Program, Research Triangle Park, NC:131 p.|1992|
73513|A||Seligman,P.F., A.O. Valkirs, and R.F. Lee|Degradation of Tributyltin in San Diego Bay, California, Waters|Environ. Sci. Technol.20:1229-1235|1986|10.1021/es00154a006
73514|A||Salazar,M.H.|Use and Misuse of Mussels in Natural Resource Damage Assessment|In: Proc. MTS 92, Global Ocean Resour., Vol. 1, Oct. 19-21, 1992, Mar. Technol. Soc., Washington, D.C.:19-21|1992|
73515|A||Batley,G.E., M.S. Scammell, and C.I. Brockbank|The Impact of the Banning of Tributyltin-Based Antifouling Paints on the Sydney Rock Oyster, Saccostrea commercialis|Sci. Total Environ.122:301-314|1992|10.1016/0048-9697(92)90048-W
73527|T||Gacheru,E.N., G.M. Kamau, H.M. Saha, G.D. Odhiambo, and M.K. O'Neill|Effect of Land Preparation and Weeding on Maize (Zea mays) Grain Yields in the Coastal Region of Kenya|Int. J. Pest Manag.39(1): 57-60|1993|10.1080/09670879309371759
73529|T||Davies,F.T.,Jr., and S.A. Duray|Effect of Preemergent Herbicide Application on Rooting and Subsequent Liner Growth of Selected Nursery Crops|J. Environ. Hortic.10(3): 181-186|1992|10.24266/0738-2898-10.3.181
73530|T||Rodrigues,G.S., D. Pimentel, and L.H. Weinstein|In Situ Assessment of Pesticide Genotoxicity in an Integrated Pest Management Program:  II.  Maize Waxy Mutation Assay|Mutat. Res.412(3): 245-250|1998|10.1016/S1383-5718(97)00194-0
73531|T||Rodrigues,G.S., D. Pimentel, and L.H. Weinstein|In Situ Assessment of Pesticide Genotoxicity in an Integrated Pest Management Program I - Tradescantia Micronucleus Assay|Mutat. Res.412(3): 235-244|1998|10.1016/S1383-5718(97)00193-9
73532|T||Pothuluri,J.V., F.E. Evans, D.R. Doerge, M.I. Churchwell, and C.E. Cerniglia|Metabolism of Metolachlor by the Fungus Cunninghamella elegans|Arch. Environ. Contam. Toxicol.32(2): 117-125|1997|10.1007/s002449900163
73533|T||Duncan,R.R., R.E. Dominy, and W.S. Hardcastle|An Effective Technique for Safening Small Quantities of Sorghum Breeder Seed|Cereal Res. Commun.13(2-3): 265-268|1985|
73534|T||Sanyal,D., and G. Kulshrestha|Metabolism of Metolachlor by Fungal Cultures|J. Agric. Food Chem.50(3): 499-505|2002|10.1021/jf010850d
73535|T||Odderskaer,P., and H. Sell|Survival of Great Tit (Parus major) Nestlings in Hedgerows Exposed to a Fungicide and an Insecticide: A Field Experiment|Agric. Ecosyst. Environ.45(3/4): 181-193|1993|10.1016/0167-8809(93)90069-2
73536|T||Bedmar,F.|Evaluation of Different Pre-Emergence Herbicides in Sunflower|Tests Agrochem. Cultiv.11:62-63|1990|
73537|T||Adejonwo,K.O., D.M. Mamtso, and S.T.O. Lagoke|Evaluation of Pre- and Directed Post-Emergence Herbicide Mixtures for Weed Control in Okra|Tests Agrochem. Cultiv.8:92-93|1987|
73538|T||Mshana,D.E., and F.A. Myaka|Evaluation of Weed Control Treatments Against Weeds in Cotton|Tests Agrochem. Cultiv.11:54-55|1990|
73539|T||Nemat Alla,M.M.|Glutathione Regulation of Glutathione S-Transferase and Peroxidase Activity in Herbicide-Treated Zea mays|Plant Physiol. Biochem.33(2): 185-192|1995|
73540|T||Kucey,R.M.N., P. Chaiwanakupt, T. Arayangkool, P. Snitwongse, C. Siripaibool, P. Wadisirisuk, and N. Boonkerd|Nitrogen Fixation (15N Dilution) with Soybeans Under Thai Field Conditions. II. Effect of Herbicides and Water Application Schedule|Plant Soil108(1): 87-92|1988|10.1007/BF02370103
73541|T||Adigun,J.A., S.T.O. Lagoke, and S.K. Karikari|Chemical Weed Control in Irrigated Sweet Pepper (Capsicum annuum L.)|Trop. Pest Manag.37(2): 155-158|1991|10.1080/09670879109371565
73542|T||Eyherabide,J.J.|Evaluation of Pre-Emergence Applications of Fomesafen and Acetochlor Against Weeds in Soybeans|Tests Agrochem. Cultiv.13:56-57|1992|
73543|T||Farenhorst,A., A.D. Tomlin, and B.T. Bowman|Impact of Herbicide Application Rates and Crop Residue Type on Earthworm Weights|Bull. Environ. Contam. Toxicol.70(3): 477-484|2003|10.1007/s00128-003-0011-7
73544|T||Mulder,T.A., and J.D. Doll|Reduced Input Corn Weed Control: The Effects of Planting Date:, Early Season Weed Control, and Row-Crop Cultivator Selection|J. Prod. Agric.7(2): 256-260|1994|10.2134/jpa1994.0256
73545|T||Krausz,R.F., G. Kapusta, and J.L. Matthews|Evaluation of Band vs. Broadcast Herbicide Applications in Corn and Soybean|J. Prod. Agric.8(3): 380-384|1995|10.2134/jpa1995.0380
73546|A||Fuma,S., N. Ishii, H. Takeda, K. Miyamoto, K. Yanagisawa, Y. Ichimasa, M. Saito, Z. Kawabata, and G.G. Polikarpov|Ecological Effects of Various Toxic Agents on the Aquatic Microcosm in Comparison with Acute Ionizing Radiation|J. Environ. Radioact.67(1): 1-14|2003|10.1016/S0265-931X(02)00143-1
73547|A||Ferrer,L.D., J.S. Andrade, E.T. Contardi, R.O. Asteasuain, and J.E. Marcovecchio|Copper and Zinc Concentrations in Bahia Blanca Estuary (Argentina), and Their Acute Lethal Effects on Larvae of the Crab Chasmagnathus granulata|Chem. Spec. Bioavail.15(1): 7-14|2003|10.3184/095422903782775271
73548|A||Papalopulu,N., J.D.W. Clarke, L. Bradley, D. Wilkinson, R. Krumlauf, and N. Holder|Retinoic Acid Causes Abnormal Development and Segmental Patterning of the Anteroid Hindbrain in Xenopus Embryos|Development113:1145-1158|1991|10.1242/dev.113.4.1145
73550|A||Bervoets,L., G. Meregalli, W. De Cooman, B. Goddeeris, and R. Blust|Caged Midge Larvae (Chironomus riparius) for the Assessment of Metal Bioaccumulation from Sediments In Situ|Environ. Toxicol. Chem.23(2): 443-454|2004|10.1897/03-1
73551|A||Quabius,E.S., P.H.M. Balm, and S.E. Wendelaar Bonga|Interrenal Stress Responsiveness of Tilapia (Oreochromis mossambicus) is Impaired by Dietary Exposure to PCB 126|Gen. Comp. Endocrinol.108:472-482|1997|10.1006/gcen.1997.7003
73552|T||Gray,L.E.,Jr., R.J. Kavlock, N. Chernoff, J. Ferrell, J. McLamb, and J. Ostby|Prenatal Exposure to the Herbicide 2,4-Dichlorophenyl-p-Nitrophenyl Ether Destroys the Rodent Harderian Gland|Science215(15): 293-294|1982|10.1126/science.7053576
73553|T||Mehendale,H.M., P.R. Chen, L. Fishbein, and H.B. Matthews|Effect of Mirex on the Activities of Various Rat Hepatic Mixed-function Oxidases|Arch. Environ. Contam. Toxicol.1(3): 245-254|1973|10.1007/BF01985747
73554|T||Nielsen,D.G., and C.P. Balderston|Evaluation of Insecticides for Preventing Reproduction of Pales and Northern Pine Weevils in Pine Stumps|J. Econ. Entomol.68(2): 205-206|1975|10.1093/jee/68.2.205
73555|T||Rossi,G., A. Figliolia, S. Socciarelli, and B. Pennelli|Capability of Brassica napus to Accumulate Cadmium, Zinc and Copper from Soil|Acta Biotechnol.22(1/2): 133-140|2002|10.1002/1521-3846(200205)22:1/2<133::AID-ABIO133>3.0.CO;2-3
73556|T||Bruckner,J.V., K.L. Khanna, and H.H. Cornish|Effect of Prolonged Ingestion of Polychlorinated Biphenyls on the Rat|Food Cosmet. Toxicol.12:323-330|1974|10.1016/0015-6264(74)90004-2
73559|T||Kodama,H., T. Ubuka, T. Koyama, K. Yamaguchi, Y. Hosokawa, and S. Sakakibara|Effect of Naphthalene Feeding on the Cysteine Metabolism in Rabbits|Physiol. Chem. Phys.6:107-112|1974|
73561|T||Huggins,C.B., H. Yoshida, and C.C. Bird|Hormone-Dependent Stem-Cell Rat Leukemia Evoked by a Series of Feedings of 7,12-Dimethylbenz(a)anthracene|J. Natl. Cancer Inst.52(4): 1301-1305|1974|10.1093/jnci/52.4.1301
73562|T||Tao,R.V., Y. Takahashi, and P.F. Kador|Effect of Aldose Reductase Inhibitors on Naphthalene Cataract Formation in the Rat|Investig.Ophthalmol.Vis.Sci.32(5): 1630-1637|1991|
73565|T||Rathbun,W.B., A.M. Holleschau, D.L. Murray, A. Buchanan, S. Sawaguchi, and R.V. Tao|Glutathione Synthesis and Glutathione Redox Pathways in Naphthalene Cataract of the Rat|Curr. Eye Res.9(1): 45-53|1990|10.3109/02713689009000054
73566|T||Shopp,G.M., K.L.,Jr. White, M.P. Holsapple, D.W. Barnes, S.S. Duke, A.C. Anderson, L.W.,Jr. Condie, J.R. Hayes, and J.F|Naphthalene Toxicity in CD-1 Mice:  General Toxicology and Immunotoxicology|Fundam. Appl. Toxicol.4:406-419|1984|10.1016/0272-0590(84)90198-2
73567|T||Drinkwater,T.W.|Bioassays to Compare the Systemic Activity of Three Neonicotinoids for Control of Heteronychus arator Fabricius (Coleoptera: Scarabaeidae) in Maize|Crop Prot.22(7): 989-993|2003|10.1016/S0261-2194(03)00116-9
73568|T||Zanuncio,T.V., J.E. Serrao, J.C. Zanuncio, and R.N.C. Guedes|Permethrin-Induced Hormesis on the Predator Supputius cincticeps (Stal, 1860) (Heteroptera:  Pentatomidae)|Crop Prot.22(7): 941-947|2003|10.1016/S0261-2194(03)00094-2
73575|A||Fernandez-Alba,A.R., D. Hernando, A. Aguera, J. Caceres, and S. Malato|Toxicity Assays:  A Way for Evaluating AOPs Efficiency|Water Res.36(17): 4255-4262|2002|10.1016/S0043-1354(02)00165-3
73576|A||Heath,A.G., J.J.,Jr. Cech, L. Brink, P. Moberg, and J.G. Zinkl|Physiological Responses of Fathead Minnow Larvae to Rice Pesticides|Ecotoxicol. Environ. Saf.37(3): 280-288|1997|10.1006/eesa.1997.1563
73577|T||Fischer,A.J., D.E. Bayer, M.D. Carriere, C.M. Ateh, and K.O. Yim|Mechanisms of Resistance to Bispyribac-Sodium in an Echinochloa phyllopogon Accession|Pestic. Biochem. Physiol.68(3): 156-165|2000|10.1006/pest.2000.2511
73578|T||Othman,M.A., G.F. Antonious, M.M. Khattab, A. Abdel-All, and A.E. Khamis|Residues of Dimethoate and Methomyl on Tomato and Cabbage in Relation to Their Effect on Quality-Related Properties|Environ. Toxicol. Chem.6(12): 947-952|1987|
73580|A||Rouleau,C., E. Pelletier, and H. Tjalve|Short-Term Bioconcentration and Distribution of Methylmercury, Tributyltin and Corresponding Inorganic Species in the Starfish Leptasterias polaris|Appl. Organomet. Chem.9:327-334|1995|10.1002/aoc.590090406
73582|A||Nimrod,A.C., and W.H. Benson|Xenobiotic Interaction with and Alteration of Channel Catfish Estrogen Receptor|Toxicol. Appl. Pharmacol.147:381-390|1997|10.1006/taap.1997.8296
73584|A||Kopf,W.|The Action of Endocrine Substances in Biological Tests with Aquatic Organisms (Wirkung Endodriner Stoffee in Biotests mit Waserorganismen)|Munch.Beitr.Abwasser-, Fisch.- Flussbiol.:13 p.|1997|
73585|A||Ward,T.J., and R.L. Boeri|Toxicity of Nonylphenol to the Tadpole Rana catesbiana (Bullfrog)|EnviroSystems Study No.8981-CMA, EnviroSystems Div., Hampton, NH:78 p.|1992|
73586|A||Weinberger,P., and M. Rea|Nonylphenol:  A Perturbant Additive|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)990:370-377|1981|
73587|A||Weinberger,P., and S. Iyengar|Effects of Aminocarb, Fuel Oil 585 and Nonylphenol on the Growth and Development of Lemna minor L.|In: H.I.Shuval (Ed.), Proceedings of an International Meeting of the Israel Ecological Society at the Hebrew University of Jerusalem:595-607|1983|
73588|A||Kinnberg,K., B. Korsgaard, P. Bjerregaard, and A. Jespersen|Effects of Nonylphenol and 17beta-Estradiol on Vitellogenin Synthesis and Testis Morphology in Male Platyfish Xiphophorus maculatus|J. Exp. Biol.203(Pt. 2): 171-181|2000|10.1242/jeb.203.2.171
73589|AT||Holmes,S.B., and P.D. Kingsbury|The Environmental Impact of Nonyl Phenol and the Matacil Formulation Part 1:  Aquatic Ecosystems|Information Report FPM-X-35. Canadian Forestry Service, Forest Pest Management Institute, Sault Ste. Marie, Ontario:52 p.|1980|
73590|T||Gayen,A.K., and C.O. Knowles|Penetration and Fate of Methomyl and Its Oxime Metabolite in Insects and Twospotted Spider Mites|Arch. Environ. Contam. Toxicol.10(1): 55-67|1981|10.1007/BF01057575
73591|T||Fossi,M.C., C. Leonzio, A. Massi, L. Lari, and S. Casini|Serum Esterase Inhibition in Birds: A Nondestructive Biomarker to Assess Organophosphorus and Carbamate Contamination|Arch. Environ. Contam. Toxicol.23(1): 99-104|1992|10.1007/BF00226001
73592|T||Dekundy,A., P. Blaszczak, R. Kaminski, and W.A. Turski|On the Interactions Between Antimuscarinic Atropine and NMDA Receptor Antagonists in Anticholinesterase-Treated Mice|Arch. Toxicol.74(11): 702-708|2001|10.1007/s002040000189
73593|T||Hart,B.W., and M.D. Faiman|Inhibition of Rat Liver Low Km Aldehyde Dehydrogenase by Thiocarbamate Herbicides.  Occupational Implications|Biochem. Pharmacol.49(2): 157-163|1995|10.1016/S0006-2952(94)00491-9
73594|T||Trimble,R.M., and D.J. Pree|Relative Toxicity of Six Insecticides to Male and Female Pholetesor ornigis (Weed) (Hymenoptera: Braconidae), a Parasite of the Spotted Tentiform Leafminer, Phyllonorycter blancardella (Fabr.) (Lepidoptera: Gracillariid|Can. Entomol.119(2): 153-157|1987|10.4039/Ent119153-2
73595|T||Helson,B.V., P. De Groot, J.J. Turgeon, and E.G. Kettela|Toxicity of Insecticides to First-Instar Larvae of the Spruce Budmoth, Zeiraphera canadensis Mut. and Free. (Lepidoptera:  Tortricidae):  Laboratory and Field Studies|Can. Entomol.121(1): 81-91|1989|10.4039/Ent12181-1
73596|T||Zimmerman,L.J., H.S. Valentine, K. Amarnath, and W.M. Valentine|Identification of a S-Hexahydro-1H-Azepine-1-Carbonyl Adduct Produced by Molinate on Rat Hemoglobin beta(2) and beta(3) Chains In Vivo|Chem. Res. Toxicol.15(2): 209-217|2002|10.1021/tx015564a
73597|T||Fayez,V., and M.R.E. Bahig|Short Term Toxicity of Methomyl in Rats|Chemosphere23(3): 375-381|1991|10.1016/0045-6535(91)90191-F
73599|T||Yu,S.J.|Insecticide Resistance in the Fall Armyworm, Spodoptera frugiperda (J. E. Smith)|Pestic. Biochem. Physiol.39(1): 84-91|1991|10.1016/0048-3575(91)90216-9
73600|T||Shi,M.A., J.Z. Yuan, J. Wu, P.J. Zhuang, X.F. Wu, and Z.H. Tang|Kinetic Analysis of Acetylcholinesterase in a Propoxur-Resistant Strain of Housefly (Musca domestica) from Shanghai, China|Pestic. Biochem. Physiol.72(2): 72-82|2002|10.1006/pest.2001.2584
73601|T||Mingjing,Q., H. Zhaojun, X. Xinjun, and Y. Iina|Triazophos Resistance Mechanisms in the Rice Stem Borer (Chilo suppressalis Walker)|Pestic. Biochem. Physiol.77(3): 99-105|2003|10.1016/j.pestbp.2003.09.003
73602|T||Suramana,T., R. Sindhuphak, N. Dusitsin, T. Posayanonda, and P. Sinhaseni|Shift in FTIR Spectrum Patterns in Methomyl-Exposed Rat Spleen Cells|Sci. Total Environ.270(1-3): 103-108|2001|10.1016/S0048-9697(00)00790-7
73603|T||Ellis,M.K., A.G. Richardson, J.R. Foster, F.M. Smith, P.S. Widdowson, M.J. Farnworth, R.B. Moore, M.R. Pitts, and G.A. |The Reproductive Toxicity of Molinate and Metabolites to the Male Rat:  Effects on Testosterone and Sperm Morphology|Toxicol. Appl. Pharmacol.151(1): 22-32|1998|10.1006/taap.1998.8371
73604|T||Yang,D., F. He, and T. Li|Repetitive Nerve Stimulation and Stimulation Single Fiber Electromyography Studies in Rats Intoxicated with Single or Mixed Insecticides|Toxicology161(1-2): 111-116|2001|10.1016/S0300-483X(01)00339-0
73605|T||Gunning,R.V., G.D. Moores, and A.L. Devonshire|Insensitive Acetylcholinesterase and Resistance to Thiodicarb in Australian Helicoverpa armigera Hubner (Lepidoptera:  Noctuidae)|Pestic. Biochem. Physiol.55(1): 21-28|1996|10.1006/pest.1996.0031
73606|T||Inderjit, C. Asakawa, and H. Kakuta|Phytotoxicity and Fate of 1,1,2-Trichloroethylene a Laboratory Study|J. Chem. Ecol.29(6): 1329-1335|2003|10.1023/A:1024205201720
73607|T||Brunet,R., and A. Cyr|The Impact of Dimethoate on Rhythms of Three Granivorous Bird Species|Agric. Ecosyst. Environ.41:327-336|1992|10.1016/0167-8809(92)90119-V
73608|A||Satyakala,G., and K. Jamil|Studies on the Effect of Heavy Metal Pollution on Pistia statiotes L. (Water Lettuce)|Indian J. Environ. Health39(1): 1-7|1997|
73609|A||Kochetov,Y.V., and B.N. Tarusov|Ultraweak Chemiluminescence of the Leaves of Aquatic Plants on Exposure to the Salts of Heavy Metals|Biophysics (Oxf.)20(3): 551-554|1975|
73612|A||Chandre,F., F. Darriet, J.M.C. Doannio, F. Riviere, N. Pasteur, and P. Guillet|Distribution of Organophosphate and Carbamate Resistance in Culex pipiens quinquefasciatus (Diptera:  Culicidae) in West Africa|J. Med. Entomol.34(6): 664-671|1997|10.1093/jmedent/34.6.664
73613|T||Rao,J.V., K. Pathakoti, and A.P. Rao|Comparative Toxicity of Tetra Ethyl Lead and Lead Oxide to Earthworms, Eisenia fetida (Savigny)|Environ. Res.92(3): 271-276|2003|10.1016/S0013-9351(02)00091-9
73614|T||Siekierska,E.|Cadmium Effect on the Structure of Supra- and Subpharyngeal Ganglia and the Neurosecretory Processes in Earthworm Dendrobaena veneta (Rosa)|Environ. Pollut.126(1): 21-28|2003|10.1016/S0269-7491(03)00172-6
73615|T||Kramarz,P., and A. Kafel|The Respiration Rate of the Beet Armyworm Pupae (Spodoptera exigua) After Multi-Generation Intoxication with Cadmium and Zinc|Environ. Pollut.126(1): 1-3|2003|10.1016/S0269-7491(03)00183-0
73616|T||Vyjayanthi,N., and M.V.V. Subramanyam|Effect of Fenvalerate-20EC on Sericigenous Insects:  II.  Digestive Enzymes in the Nutritive Physiology of Silkworm, Bombyx mori L.|Ecotoxicol. Environ. Saf.53(2): 212-220|2002|10.1006/eesa.2002.2229
73617|T||Vyjayanthi,N., and M.V.V. Subramanyam|Effect of Fenvalerate-20EC on Sericigenous Insects:  I.  Food Utilization in the Late-Age Larva of the Silkworm, Bombyx mori L.|Ecotoxicol. Environ. Saf.53(2): 206-211|2002|10.1006/eesa.2002.2228
73618|T||Xiong,Z.T., Y.H. Li, and B. Xu|Nutrition Influence on Copper Accumulation by Brassica pekinensis Rupr.|Ecotoxicol. Environ. Saf.53(2): 200-205|2002|10.1006/eesa.2001.2126
73619|T||Liu,J.G., J.S. Liang, K.Q. Li, Z.J. Zhang, B.Y. Yu, X.L. Lu, J.C. Yang, and Q.S. Zhu|Correlations Between Cadmium and Mineral Nutrients in Absorption and Accumulation in Various Genotypes of Rice Under Cadmium Stress|Chemosphere52(9): 1467-1473|2003|10.1016/S0045-6535(03)00484-3
73620|T||Decourtye,A., C. Armengaud, M. Renou, J. Devillers, S. Cluzeau, M. Gauthier, and M.H. Pham-Delegue|Imidacloprid Impairs Memory and Brain Metabolism in the Honeybee (Apis mellifera L.)|Pestic. Biochem. Physiol.78(2): 83-92|2004|10.1016/j.pestbp.2003.10.001
73621|T||Jonker,M.J., R.A.J.C. Sweijen, and J.E. Kammenga|Toxicity of Simple Mixtures to the Nematode Caenorhabditis elegans in Relation to Soil Sorption|Environ. Toxicol. Chem.23(2): 480-488|2004|10.1897/03-29
73622|T||Heinz,G.H., and D.J. Hoffman|Mercury Accumulation and Loss in Mallard Eggs|Environ. Toxicol. Chem.23(1): 222-224|2004|10.1897/03-111
73623|T||Bongers,M., B. Rusch, and C.A.M. Van Gestel|The Effect of Counterion and Percolation on the Toxicity of Lead for the Springtail Folsomia candida in Soil|Environ. Toxicol. Chem.23(1): 195-199|2004|10.1897/02-508
73624|T||Bain,D., W.A. Buttemer, L. Astheimer, K. Fildes, and M.J. Hooper|Effects of Sublethal Fenitrothion Ingestion on Cholinesterase Inhibition, Standard Metabolism, Thermal Preference, and Prey-Capture Ability in the Australian Central Bearded Dragon  (Pogona vitticeps, Agamidae)|Environ. Toxicol. Chem.23(1): 109-116|2004|10.1897/02-555
73625|A||Lu,X., D.D. Reible, and J.W. Fleeger|Bioavailability and Assimilation of Sediment-Associated Benzo(a)pyrene by Ilyodrilus templetoni (Oligochaeta)|Environ. Toxicol. Chem.23(1): 57-64|2004|10.1897/03-39
73627|T||Boyd,W.A., R.D. Cole, G.L. Anderson, and P.L. Williams|The Effects of Metals and Food Availability on the Behavior of Caenorhabditis elegans|Environ. Toxicol. Chem.22(12): 3049-3055|2003|10.1897/02-565
73628|T||Stevens,D.P., M.J. McLaughlin, and T. Heinrich|Determining Toxicity of Lead and Zinc Runoff in Soils:  Salinity Effects on Metal Partitioning and on Phytotoxicity|Environ. Toxicol. Chem.22(12): 3017-3024|2003|10.1897/02-290
73629|T||Marcano,L., I. Carruyo, A. Del Campo, and X. Montiel|Cytotoxicity and Mode of Action of Maleic Hydrazide in Root Tips of Allium cepa L.|Environ. Res.94(2): 221-226|2004|10.1016/S0013-9351(03)00121-X
73630|T||Cai,Y., J. Su, and L.Q. Ma|Low Molecular Weight Thiols in Arsenic Hyperaccumulator Pteris vittata upon Exposure to Arsenic and Other Trace Elements|Environ. Pollut.129(1): 69-78|2004|10.1016/j.envpol.2003.09.020
73631|T||Herbert,I.N., C. Svendsen, P.K. Hankard, and D.J. Spurgeon|Comparison of Instantaneous Rate of Population Increase Critical-Effect Estimates in Folsomia candida Exposed to Four Toxicants|Ecotoxicol. Environ. Saf.57(2): 175-183|2004|10.1016/S0147-6513(03)00033-2
73632|T||Sjursen,H., and M. Holmstrup|Cold and Drought Stress in Combination with Pyrene Exposures:  Studies with Protaphorura armata (Collembola:  Onychiuridae)|Ecotoxicol. Environ. Saf.57(2): 145-152|2004|10.1016/S0147-6513(02)00144-6
73633|T||Burger,J., and M. Gochfeld|Effects of Lead and Exercise on Endurance and Learning in Young Herring Gulls|Ecotoxicol. Environ. Saf.57(2): 136-144|2004|10.1016/S0147-6513(03)00035-6
73634|T||Gajbhiye,V.T., S. Gupta, and R.K. Gupta|Persistence of Imidacloprid in/on Cabbage and Cauliflower|Bull. Environ. Contam. Toxicol.72(2): 283-288|2004|10.1007/s00128-003-9103-7
73635|T||Baker,L.M., C.T. Larsen, N. Sriranganathan, D.E. Jones, M.S. Johnson, and R.M.,Jr. Gogal|Effects of Energetic Compounds on the Northern Bobwhite Quail and Biotransformation Applications of the Intestinal Flora|Bull. Environ. Contam. Toxicol.72(1): 1-6|2004|10.1007/s00128-003-0233-8
73636|T||Arrieta,M.A., L. Bruzzone, C. Apartin, C.E. Rosenberg, N.E. Fink, and A. Salibian|Biosensors of Inorganic Lead Exposure and Effect in an Adult Amphibian|Arch. Environ. Contam. Toxicol.46(2): 224-230|2004|10.1007/s00244-003-2221-8
73637|A||Edginton,A.N., P.M. Sheridan, H.J. Boermans, D.G. Thompson, J.D. Holt, and G.R. Stephenson|A Comparison of Two Factorial Designs, a Complete 3X3 Factorial and a Central Composite Rotatable Design, for Use in Binomial Response Experiments in Aquatic Toxicology|Arch. Environ. Contam. Toxicol.46(2): 216-223|2004|10.1007/s00244-003-2176-9
73638|T||Reinecke,S.A., and A.J. Reinecke|The Comet Assay as Biomarker of Heavy Metal Genotoxicity in Earthworms|Arch. Environ. Contam. Toxicol.46(2): 208-215|2004|10.1007/s00244-003-2253-0
73639|T||Berard,A., F. Rimet, Y. Capowiez, and C. Leboulanger|Procedures for Determining the Pesticide Sensitivity of Indigenous Soil Algae:  A Possible Bionidicator of Soil Contamination?|Arch. Environ. Contam. Toxicol.46(1): 24-31|2004|10.1007/s00244-003-2147-1
73640|T||Wu,F.B., G.P. Zhang, and J.S. Yu|Genotypic Differences in Effect of Cd on Photosynthesis and Chlorophyll Fluorescence of Barley (Hordeum vulgare L.)|Bull. Environ. Contam. Toxicol.71(6): 1272-1281|2003|10.1007/s00128-003-8718-z
73641|T||Liang,J., and Q. Zhou|Single and Binary-Combined Toxicity of Methamidophos, Acetochlor and Copper Acting on Earthworms Eisenia foetida|Bull. Environ. Contam. Toxicol.71(6): 1158-1166|2003|10.1007/s00128-003-0228-5
73642|T||Booth,L.H., S.L. Bithell, S.D. Wratten, and V.J. Heppelthwaite|Vineyard Pesticides and Their Effects on Invertebrate Biomarkers and Bioindicator Species in New Zealand|Bull. Environ. Contam. Toxicol.71(6): 1131-1138|2003|10.1007/s00128-003-8879-9
73643|T||Abu-Bakar,A., S. Satarug, G.C. Marks, M.A. Lang, and M.R. Moore|Acute Cadmium Chloride Administration Induces Hepatic and Renal CYP2A5 mRNA, Protein and Activity in the Mouse:  Involvement of Transcription Factor NRF2|Toxicol. Lett.148(3): 199-210|2004|10.1016/j.toxlet.2003.10.029
73644|T||Pecze,L., A. Papp, and L. Nagymajtenyi|Changes in the Spontaneous and Stimulus-Evoked Activity in the Somatosensory Cortex of Rats on Acute Manganese Administration|Toxicol. Lett.148(1-2): 125-131|2004|10.1016/j.toxlet.2003.12.057
73645|T||Xue,Y., Y. Hieda, Y. Saito, T. Nomura, J. Fujihara, K. Takayama, K. Kimura, and H. Takeshita|Distribution and Disposition of Benzalkonium Chloride Following Various Routes of Administration in Rats|Toxicol. Lett.148(1-2): 113-123|2004|10.1016/j.toxlet.2003.12.068
73646|T||Petersson Grawe,K., J. Pickova, P.C. Dutta, and A. Oskarsson|Fatty Acid Alterations in Liver and Milk of Cadmium Exposed Rats and in Brain of Their Suckling Offspring|Toxicol. Lett.148(1-2): 73-82|2004|10.1016/j.toxlet.2003.12.012
73647|T||Akoume,M.Y., B. Tuchweber, G.L. Plaa, and I.M. Yousef|The Role of MDR2 in Manganese-Bilirubin Induced Cholestasis in Mice|Toxicol. Lett.148(1-2): 41-51|2004|10.1016/j.toxlet.2003.12.010
73648|T||Richardson,J.R., and G.W. Miller|Acute Exposure to Aroclor 1016 or 1260 Differentially Affects Dopamine Transporter and Vesicular Monoamine Transporter 2 Levels|Toxicol. Lett.148(1-2): 29-40|2004|10.1016/j.toxlet.2003.12.006
73649|T||Valencia,C., P. Cornejo, P. Romanque, G. Tapia, P. Varela, L.A. Videla, and V. Fernandez|Effects of Acute Lindane Intoxication and Thyroid Hormone Administration in Relation to Nuclear Factor-kappaB Activation, Tumor Necrosis Factor-alpha Expression, and Kupffer Cell Function in the Rat|Toxicol. Lett.148(1-2): 21-28|2004|10.1016/j.toxlet.2003.12.003
73650|T||Elmets,C.A., N. Yusuf, S. Hamza, N. Iranikakh, J. Smith, A.L. Volk, H. Skelton, and K. Smith|Topical Application of Dimethylbenz[a]anthracene Results in the Generation of Multiple Melanocytic Nevi in C3H/HeN Mice|Toxicol. Appl. Pharmacol.195(3): 355-360|2004|10.1016/j.taap.2003.09.029
73651|T||Walker,D.B., W.C. Williams, C.B. Copeland, and R.J. Smialowicz|Persistent Suppression of Contact Hypersensitivity, and Altered T-Cell Parameters in F344 Rats Exposed Perinatally to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicology197(1): 57-66|2004|10.1016/j.tox.2003.12.012
73652|T||Smialowicz,R.J., D.E. Burgin, W.C. Williams, J.J. Diliberto, R.W. Setzer, and L.S. Birnbaum|CYP1A2 is not Required for 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Immunosuppression|Toxicology197(1): 15-22|2004|10.1016/j.tox.2003.11.016
73653|T||Kana,R., M. Spundova, P. Ilik, D. Lazar, K. Klem, P. Tomek, J. Naus, and O. Prasil|Effect of Herbicide Clomazone on Photosynthetic Processes in Primary Barley (Hordeum vulgare L.) Leaves|Pestic. Biochem. Physiol.78(3): 161-170|2004|10.1016/j.pestbp.2003.12.002
73654|T||Tellier,F., A. Carlin-Sinclair, R. Fritz, J.C. Cherton, and P. Leroux|Activity and Metabolism of Cyano-Oxime Derivatives in Various Strains of Botrytis cinerea|Pestic. Biochem. Physiol.78(3): 151-160|2004|10.1016/j.pestbp.2004.01.001
73655|T||Kumar,S.|Changes in Rat Brain Regions Serotoninergic System Following Acephate Poisoning|Pestic. Biochem. Physiol.78(3): 140-150|2004|10.1016/j.pestbp.2003.11.001
73656|T||Decourtye,A., J. Devillers, S. Cluzeau, M. Charreton, and M.H. Pham-Delegue|Effects of Imidacloprid and Deltamethrin on Associative Learning in Honeybees Under Semi-Field and Laboratory Conditions|Ecotoxicol. Environ. Saf.57(3): 410-419|2004|10.1016/j.ecoenv.2003.08.001
73657|T||Institoris,L., A. Papp, O. Siroki, and B.D. Banerjee|Comparative Investigation of Behavioral, Neurotoxicological, and Immunotoxicological Indices in Detection of Subacute Combined Exposure with Methyl Parathion and Propoxur in Rats|Ecotoxicol. Environ. Saf.57(3): 270-277|2004|10.1016/S0147-6513(03)00101-5
73658|T||Lyche,J.L., J.U. Skaare, H.J.S. Larsen, and E. Ropstad|Levels of PCB 126 and PCB 153 in Plasma and Tissues in Goats Exposed During Gestation and Lactation|Chemosphere55(4): 621-629|2004|10.1016/j.chemosphere.2003.11.024
73659|T||Isomura,H., K. Fujie, K. Shibata, N. Inoue, T. Iizuka, G. Takebe, K. Takahashi, J. Nishihira, H. Izumi, and W. Sakamoto|Bone Metabolism and Oxidative Stress in Postmenopausal Rats with Iron Overload|Toxicology197(2): 93-100|2004|10.1016/j.tox.2003.12.006
73660|T||Nagy,P., G. Bakonyi, T. Bongers, I. Kadar, M. Fabian, and I. Kiss|Effects of Microelements on Soil Nematode Assemblages Seven Years After Contaminating an Agricultural Field|Sci. Total Environ.320(2-3): 131-143|2004|10.1016/j.scitotenv.2003.08.006
73661|T||Fellows,R.J., Z. Wang, and C.C. Ainsworth|Europium Uptake and Partitioning in Oat (Avena sativa) Roots as Studied by Laser-Induced Fluorescence Spectroscopy and Confocal Microscopy Profiling Technique|Environ. Sci. Technol.37(22): 5247-5253|2003|10.1021/es0343609
73662|T||Ohhira,S., M. Watanabe, and H. Matsui|Identification of Principal Cytochrome P-450 in Triphenyltin Metabolism in Rats|Toxicol. Lett.148(1-2): 141-148|2004|10.1016/j.toxlet.2004.01.002
73664|T||Taira,M.C., M.B. Mazzetti, S.M. Lelli, and L.C. San Martin de Viale|Glycogen Metabolism and Glucose Transport in Experimental Porphyria|Toxicology197(2): 165-175|2004|10.1016/j.tox.2003.12.014
73665|A||Martin-Robichaud,D.J., R.H. Peterson, T.J. Benfey, and L.W. Crim|Direct Feminization of Lumpfish (Cyclopterus lumpus L.) Using 17-beta-Oestradiol-Enriched Artemia as Food|Aquaculture123:137-151|1994|10.1016/0044-8486(94)90126-0
73666|AT||Arfsten,D.P., D.T. Burton, D.J. Fisher, J. Callahan, C.L. Wilson, K.R. Still, and B.J. Spargo|Assessment of the Aquatic and Terrestrial Toxicity of Five Biodegradable Polymers|Environ. Res.94(2): 198-210|2004|10.1016/S0013-9351(03)00087-2
73667|A||Maine,M.A., N.L. Sune, and S.C. Lagger|Chromium Bioaccumulation:  Comparison of the Capacity of Two Floating Aquatic Macrophytes|Water Res.38(6): 1494-1501|2004|10.1016/j.watres.2003.12.025
73668|A||Dwyer,F.J., L.C. Sappington, D.R. Buckler, and S.B. Jones|Use of Surrogate Species in Assessing Contaminant Risk to Endangered and Threatened Fishes|EPA/600/R-96/029, U.S.EPA, Washington, DC:78 p.|1995|
73669|T||Das,M., P.K. Seth, and H. Mukhtar|Effect of Certain Neurotoxins and Mixed Function Oxidase Modifiers on Glutathione-Transferase Activity of Rat Brain|Res. Commun. Chem. Pathol. Pharmacol.33(2): 377-380|1981|
73670|T||Bell,J.G., C.L. Keen, and B. Lonnerdal|Higher Retention of Manganese in Suckling than in Adult Rats is not due to Maturational Differences in Manganese Uptake by Rat Small Intestine|J. Toxicol. Environ. Health26(4): 387-398|1989|10.1080/15287398909531263
73671|T||Cahill,D.F., M.S. Bercegeay, R.C. Haggerty, J.E. Gerding, and L.E. Gray|Age Related Retention and Distribution of Ingested Mn3O4 in the Rat|Toxicol. Appl. Pharmacol.53(1): 83-91|1980|10.1016/0041-008X(80)90384-1
73672|T||Dikshith,T.S.S., and S.V. Chandra|Cytological Studies in Albino Rats After Oral Administration of Manganese Chloride|Bull. Environ. Contam. Toxicol.19(6): 741-746|1978|10.1007/BF01685867
73673|T||Eriksson,H., S. Lenngren, and E. Heilbronn|Effect of Long-Term Administration of Manganese on Biogenic Amine Levels in Discrete Striatal Regions of Rat Brain|Arch. Toxicol.59(6): 426-431|1987|10.1007/BF00316209
73674|T||Friel,J.K., R.F. Borgman, and R.K. Chandra|Effect of Chronic Cadmium Administration on Liver and Kidney Concentrations of Zinc, Copper, Iron, Manganese, and Chromium|Bull. Environ. Contam. Toxicol.38(4): 588-593|1987|10.1007/BF01608590
73675|T||Gruden,N., and S. Matausic|Some Factors Influencing Cadmium-Manganese Interaction in Adult Rats|Bull. Environ. Contam. Toxicol.43(1): 101-106|1989|10.1007/BF01702244
73676|T||Hanzlik,R.P., R. Stitt, and G.J. Traiger|Toxic Effects of Methylcyclopentadienyl Manganese Tricarbonyl (MMT) in Rats:  Role of Metabolism|Toxicol. Appl. Pharmacol.56(3): 353-360|1980|10.1016/0041-008X(80)90068-X
73677|T||Hietanen,E., J. Kilpio, and H. Savolainen|Neurochemical and Biotransformational Enzyme Responses to Manganese Exposure in Rats|Arch. Environ. Contam. Toxicol.10(3): 339-345|1981|10.1007/BF01055635
73678|T||Laskey,J.W., G.L. Rehnberg, J.F. Hein, S.C. Laws, and F.W. Edens|Assessment of the Male Reproductive System in the Preweanling Rat Following Mn3O4 Exposure|J. Toxicol. Environ. Health15(2): 339-350|1985|10.1080/15287398509530660
73679|T||Leung,T.K.C., J.C.K. Lai, and L. Lim|The Effects of Chronic Manganese Feeding on the Activity of Monoamine Oxidase in Various Organs of the Developing Rat|Comp. Biochem. Physiol. C Comp. Pharmacol.71(2): 223-228|1982|10.1016/0306-4492(82)90041-7
73680|T||Mullins,G.L., D.C. Martens, W.P. Miller, E.T. Kornegay, and D.L. Hallock|Copper Availability, Form, and Mobility in Soils from Three Annual Copper-Enriched Hog Manure Applications|J. Environ. Qual.11(2): 316-320|1982|10.2134/jeq1982.00472425001100020033x
73681|T||An,P., and X. Langqiu|The Effects of Humic Acid on the Chemical and Biological Properties of Selenium in the Environment|Sci. Total Environ.64(1/2): 89-98|1987|10.1016/0048-9697(87)90124-0
73682|T||Rana,S.V.S., R. Prakash, A. Kumar, and C.B. Sharma|A Study of Glycogen in the Liver of Metal-fed Rats|Toxicol. Lett.29(1): 1-4|1985|10.1016/0378-4274(85)90191-2
73683|T||Singh,M.|Effect of Fluoride on Tissue Manganese Levels in the Mouse|Sci. Total Environ.22(3): 285-288|1982|10.1016/0048-9697(82)90071-7
73684|T||Suzuki,H., O. Wada, K. Inoue, H. Tosaka, and T. Ono|Role of Brain Lysosomes in the Development of Manganese Toxicity in Mice|Toxicol. Appl. Pharmacol.71(3): 422-429|1983|10.1016/0041-008X(83)90030-3
73686|T||Wassermann,D., and M. Wassermann|The Ultrastructure of the Liver Cell in Subacute Manganese Administration|Environ. Res.14(3): 379-390|1977|10.1016/0013-9351(77)90046-9
73687|T||Zidenberg-Cherr,S., and C.L. Keen|Influence of Dietary Manganese and Vitamin E on Adriamycin Toxicity in Mice|Toxicol. Lett.30(1): 79-87|1986|10.1016/0378-4274(86)90182-7
73688|T||Gilreath,J.P., and B.M. Santos|Herbicide Dose and Incorporation Depth in Combination with 1,3-Dichloropropene Plus Chloropicrin for Cyperus rotundus Control in Tomato and Pepper|Crop Prot.23(3): 205-210|2004|10.1016/j.cropro.2003.08.015
73691|T||Horowitz,A.R., N.C. Toscano, R.R. Youngman, and T.A. Miller|Synergistic Activity of Binary Mixtures of Insecticides on Tobacco Budworm (Lepidoptera:  Noctuidae) Eggs|J. Econ. Entomol.80(2): 333-337|1987|10.1093/jee/80.2.333
73692|T||Kuehnle,A.R., and E.D. Earle|Evaluation of In Vitro Selection Regimes for a Mitochondrial Trait (Methomyl Resistance) in cms-T Maize|Plant Cell Tissue Organ Cult.28(2): 129-137|1992|10.1007/BF00055507
73693|T||Ghidiu,G.M., and J.T. Andaloro|The Relationship Between Fall Armyworm (Lepidoptera:  Noctuidae) Instar and Susceptibility to Insecticides Applied to Sweet Corn|Fla. Entomol.76(4): 549-555|1993|10.2307/3495784
73694|T||Marenco,R.J., R.E. Foster, and C.A. Sanchez|Residual Activity of Methomyl and Thiodicarb Against Fall Armyworm in Sweet Corn in Southern Florida|Fla. Entomol.74(1): 69-74|1991|10.2307/3495241
73695|T||Bala,A.E.A., R. Delorme, A. Kollmann, L. Kerhoas, J. Einhorn, P.H. Ducrot, and D. Auge|Insecticidal Activity of Daphnane Diterpenes from Lasiosiphon kraussianus (Meisn) (Thymelaeaceae) Roots|Pestic. Sci.55(7): 745-750|1999|10.1002/(SICI)1096-9063(199907)55:7<745::AID-PS15>3.0.CO;2-0
73696|T||Grafton-Cardwell,E.E., and M.A. Hoy|Intraspecific Variability in Response to Pesticides in the Common Green Lacewing, Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae)|Hilgardia53(6): 1-32|1985|10.3733/hilg.v53n06p032
73697|T||Hemavathy,K.C., and N.B. Krishnamurthy|Mutagenicity Studies in Drosophila melanogaster with Lannate 20|Mutat. Res.191(1): 41-43|1987|
73698|T||Marletto,F., A. Patetta, and A. Manino|Laboratory Assessment of Pesticide Toxicity to Bumblebees|Bull. Insectol.56(1): 155-158|2003|
73699|T||Pitre,H.N.|Relationship of Fall Armyworm (Lepidoptera:  Noctuidae) from Florida, Honduras, Jamaica, and Mississippi:  Susceptibility to Insecticides with Reference to Migration|Fla. Entomol.71(1): 56-61|1988|10.2307/3494893
73700|T||De Cal,A., and P. Melgarejo|Interactions of Pesticides and Mycoflora of Peach Twigs|Mycol. Res.96(12): 1105-1113|1992|10.1016/S0953-7562(09)80122-6
73701|T||Trumble,J.T., W.J. Moar, J.R. Babu, and R. Dybas|Laboratory Bioassays of the Acute and Antifeedant Effects of Avermectin B1 and a Related Analogue on Spodoptera exigua (Hubner)|J. Agric. Entomol.4(1): 21-28|1987|
73702|T||Ottens,R.J., J.W. Todd, G.A. Herzog, and M.H. Bass|Toxicity of Selected Insecticides to Laboratory and Field Colonies of the Soybean Looper|J. Agric. Entomol.1(4): 367-370|1984|
73703|T||DuRant,J.A., and R.F. Moore|Ovo-Larvicidal Activity of Selected Insecticide Treatments Against Heliothis spp. on Cotton|J. Agric. Entomol.6(4): 227-232|1989|
73704|T||Wier,A.T., D.J. Boethel, B.R. Leonard, and E. Burris|Laboratory Toxicity and Field Efficacy of AC 303,630 (Pirate) Against Beet Armyworm, Spodoptera exigua (Hubner), Larvae|J. Agric. Entomol.11(4): 311-320|1994|
73705|T||Price,J.F., and J.B. Kring|Response of Twospotted Spider Mite, Tetranychus urticae Koch, and Fruit Yield to New Miticides and Their Use Patterns in Strawberries|J. Agric. Entomol.8(2): 83-91|1991|
73706|T||Idris,A.B., and E. Grafius|Pesticides Affect Immature Stages on Diadegma insulare (Hymenoptera: Ichneumonidae) and Its Host, the Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.86(4): 1203-1212|1993|10.1093/jee/86.4.1203
73707|T||Horowitz,A.R., I.M. Seligman, G. Forer, D. Bar, and I. Ishaaya|Preventive Insecticide Resistance Strategy in Helicoverpa (Heliothis ) armigera (Lepidoptera:  Noctuidae) in Israeli Cotton|J. Econ. Entomol.86(2): 205-212|1993|10.1093/jee/86.2.205
73708|T||Chamberlin,J.R., and J.N. All|Grain Sorghum Response to Fall Armyworm and Corn Earworm Infestation|J. Econ. Entomol.84(2): 619-624|1991|10.1093/jee/84.2.619
73709|T||Weissling,T.J., and L.J. Meinke|Potential of Starch Encapsulated Semiochemical-Insecticide Formulations for Adult Corn Rootworm (Coleoptera:  Chrysomelidae) Control|J. Econ. Entomol.84(2): 601-609|1991|10.1093/jee/84.2.601
73710|T||Rathman,R.J., M.W. Johnson, J.A. Rosenheim, B.E. Tabashnik, and M. Purcell|Sexual Differences in Insecticide Susceptibility and Synergism with Piperonyl Butoxide in the Leafminer Parasitoid Diglyphus begini (Hymenoptera:  Eulophidae)|J. Econ. Entomol.85(1): 15-20|1992|10.1093/jee/85.1.15
73711|T||Immaraju,J.A., T.D. Paine, J.A. Bethke, K.L. Robb, and J.P. Newman|Western Flower Thrips (Thysanoptera:  Thripidae) Resistance to Insecticides in Coastal California Greenhouses|J. Econ. Entomol.85(1): 9-14|1992|10.1093/jee/85.1.9
73712|T||Knight,A.L., and L.A. Hull|Linking Insecticide Bioassays with Residue Analyses to Evaluate Control of Platynota idaeusalis (Lepidoptera:  Tortricidae) Neonates on Apple:  Single Spray|J. Econ. Entomol.85(3): 926-931|1992|10.1093/jee/85.3.926
73713|T||Agnello,A.M., S.M. Spangler, W.H. Reissig, D.S. Lawson, and R.W. Weires|Seasonal Development and Management Strategies for Comstock Mealybug (Homoptera:  Pseudococcidae) in New York Pear Orchards|J. Econ. Entomol.85(1): 212-225|1992|10.1093/jee/85.1.212
73714|T||Bonilla,E.|Increased GABA Content in Caudate Nucleus of Rats After Chronic Manganese Chloride Administration|J. Neurochem.31:551-552|1978|10.1111/j.1471-4159.1978.tb02672.x
73715|T||Chandra,S.V., and G.S. Shukla|Concentrations of Striatal Catecholamines in Rats Given Manganese Chloride Through Drinking Water|J. Neurochem.36(2): 683-687|1981|10.1111/j.1471-4159.1981.tb01642.x
73716|T||Deskin,R., S.J. Bursian, and F.W. Edens|Neurochemical Alterations Induced by Manganese Chloride in Neonatal Rats|Neurotoxicology2:65-73|1980|
73718|T||Leung,T.K.C., J.C.K. Lai, M. Tricklebank, A.N. Davison, and L. Lim|Chronic Manganese Treatment of Rats Alters Synaptosomal Uptake of Dopamine and the Behavioural Response to Amphetamine Administration|J. Neurochem.39:1496-1499|1982|10.1111/j.1471-4159.1982.tb12599.x
73719|T||Bonilla,E.|Chronic Manganese Intake Induces Changes in the Motor Activity of Rats|Exp. Neurol.84:696-700|1984|10.1016/0014-4886(84)90216-4
73720|T||Seth,P.K., R. Husain, M. Mushtaq, and S.V. Chandra|Effect of Manganese on Neonatal Rat:  Manganese Concentration and Enzymatic Alterations in Brain|Acta Pharmacol. Toxicol.40:553-560|1977|10.1111/j.1600-0773.1977.tb02110.x
73721|T||Weigand,E., M. Kirchgessner, and U. Helbig|True Absorption and Endogenous Fecal Excretion of Manganese in Relation to Its Dietary Supply in Growing Rats|Biol. Trace Elem. Res.10:265-279|1986|10.1007/BF02802395
73722|T||Komura,J., and M. Sakamoto|Effects of Manganese Forms on Biogenic Amines in the Brain and Behavioral Alterations in the Mouse:  Long-Term Oral Administration of Several Manganese Compounds|Environ. Res.57:34-44|1992|10.1016/S0013-9351(05)80017-9
73723|T||Chan,A.W.K., M.J. Minski, L. Lim, and J.C.K. Lai|Changes in Brain Regional Manganese and Magnesium Levels During Postnatal Development:  Modulations by Chronic Manganese Administration|Metab. Brain Dis.7(1): 21-33|1992|10.1007/BF01000438
73724|T||Gaillard,E., P. Laurant, S. Robin, and A. Berthelot|Effects of Long Term high Manganese Intake on Magnesium Metabolism in Rats|Magnes. Res.9(2): 119-122|1996|
73725|T||Verschuuren,H.G., R. Kroes, E.M. Den Tonkelaar, G.J. Van Esch, and P.W. Helleman|Short-Term Toxicity of 1-Naphthaleneacetic Acid in Rats|Toxicology5:371-378|1976|10.1016/0300-483X(76)90055-X
73726|T||Navarro,H.A., C.J. Price, M.C. Marr, C.B. Myers, and J.J. Heindel|Developmental Toxicity of Naphthalene (CAS No.91-20-3) in Sprague-Dawley (CD) Rats on Gestational Days 6 Through 15. Final Study Report and Appendix|Natl.Toxicol.Prog., Natl.Inst.of Environ.Health Sci., Research Triangle Park, NC:113 p.|1991|
73727|T||Navarro,H.A., C.J. Price, M.C. Marr, C.B. Myers, J.J. Heindel, and B.A. Schwetz|Final Report on the Developmental Toxicity of Naphthalene (CAS No. 91-20-3) in Sprague-Dawley CD Rats on Gestational Days 6 Through 15.  Laboratory Supplement|Res.Triangle Inst., Res.Triangle Park, NC:92 p.|1991|
73733|T||Breaux,E.J., J.E. Patanella, and E.F. Sanders|Chloroacetanilide Herbicide Selectivity: Analysis of Glutathione and Homoglutathione in Tolerant, Susceptible, and Safened Seedlings|J. Agric. Food Chem.35(4): 474-478|1987|10.1021/jf00076a009
73735|T||Crossan,C.K., C.H. Gilliam, D.J. Eakes, G.J. Keever, G.R. Wehtje, and W.A.,Jr. Dozier|Weed Control with Herbicide-Coated or -Blended Fertilizer in 'August Beauty' Gardenia|J. Environ. Hortic.14(1): 5-8|1996|10.24266/0738-2898-14.1.5
73736|T||Calkins,J.B., B.T. Swanson, and D.L. Newman|Weed Control Strategies for Field Grown Herbaceous Perennials|J. Environ. Hortic.14(4): 221-227|1996|10.24266/0738-2898-14.4.221
73737|T||Catanzaro,C.J., W.A. Skroch, and P.H. Henry|Rooting Performance of Hardwood Stem Cuttings from Herbicide-Treated Nursery Stock Plants|J. Environ. Hortic.11(3): 128-130|1993|10.24266/0738-2898-11.3.128
73738|T||Hatzios,K.K.|Interactions of Tebuthiuron with Chloroacetanilide Herbicides on Corn (Zea mays L.) Seedlings Safened or Unsafened with the Antidote R-25788|Zizaniology1(3): 153-158|1984|
73739|T||Johnson,D.H., J.D. Beaty, D.K. Horton, R.E. Talbert, C.B. Guy, J.D. Mattice, T.L. Lavy, and R.J.,Jr. Smith|Effects of Rotational Crop Herbicides on Rice (Oryza sativa)|Weed Sci.43(4): 648-654|1995|10.1017/S0043174500081777
73740|T||Wilcut,J.W., F.R.,Jr. Walls, and D.N. Horton|Weed Control, Yield, and Net Returns Using Imazethapyr in Peanuts (Arachis hypogaea L.)|Weed Sci.39(2): 238-242|1991|10.1017/S004317450007154X
73742|T||Bellinder,R.R., and D.T. Warholic|Evaluation of Acetanilide Injury and Its Potential for Yield Reduction in Cabbage, Brassica oleracea L.|Weed Technol.2(3): 350-354|1988|10.1017/S0890037X00030724
73743|T||Frans,R., M. McClelland, D. Jordan, and F. Carey|Herbicide Trials on Field Crops 1990|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.413:88 p.|1991|
73744|T||Talbert,R.E., D.H. Johnson, R.A. Wichert, and J.A. Kendig|Field Evaluations of Herbicides on Small Fruit and Vegetable Crops, 1987|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.364:25 p.|1987|
73745|T||Talbert,R.E., M.J. Tierney, N.R. Burgos, T.A. Strebe, J.K. Curless, and J. Miesner|Field Evaluation of Herbicides on Small Fruit, Vegetable and Ornamental Crops, 1995|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.452:38 p.|1996|
73746|T||Ackley,J.A., H.P. Wilson, and T.E. Hines|Weed Management Programs in Potato (Solanum tuberosum) with Rimsulfuron|Weed Technol.10(2): 354-358|1996|10.1017/S0890037X00040082
73747|T||Nastasi,P., and R.J.,Jr. Smith|Red Rice (Oryza sativa) Control in Soybeans (Glycine max)|Weed Technol.3(2): 389-392|1989|10.1017/S0890037X00032012
73748|T||Smith,R.J.,Jr.|Cropping and Herbicide Systems for Red Rice (Oryza sativa) Control|Weed Technol.3(2): 414-419|1989|10.1017/S0890037X00032061
73749|T||Johnson,D.H., and R.E. Talbert|Imazethapyr and Imazaquin Control Puncturevine (Tribulus terrestris) but Carry over to Spinach (Spinacia oleracea)|Weed Technol.7(1): 79-83|1993|10.1017/S0890037X00036915
73750|T||Penner,D., R.H. Leep, F.C. Roggenbuck, and J.R. Lempke|Herbicide Efficacy and Tolerance in Sweet White Lupin|Weed Technol.7(1): 42-46|1993|10.1017/S0890037X00036848
73751|T||Lanfranconi,L.E., R.R. Bellinder, and R.W. Wallace|Grain Rye Residues and Weed Control Strategies in Reduced Tillage Potatoes|Weed Technol.7(1): 23-28|1993|10.1017/S0890037X00036800
73752|T||Yenish,J.P., A.D. Worsham, and A.C. York|Cover Crops for Herbicide Replacement in No-Tillage Corn (Zea mays)|Weed Technol.10(4): 815-821|1996|10.1017/S0890037X00040859
73753|T||Russin,J.S., C.H. Carter, and J.L. Griffin|Effects of Grain Sorghum (Sorghum bicolor) Herbicides on Charcoal Rot Fungus|Weed Technol.9(2): 343-351|1995|10.1017/S0890037X00023459
73754|T||Wicks,G.A., G.W. Mahnken, and G.E. Hanson|Weed Control and Crop Injury in Ecofallow Corn (Zea mays) Using Imazethapyr|Weed Technol.11(4): 748-754|1997|10.1017/S0890037X00043384
73755|T||Henderson,C.W.L., and M.J. Webber|Phytotoxicity to Transplanted Lettuce (Lactuca sativa) of Three Pre-Emergence Herbicides:  Metolachlor, Pendimethalin, and Propachlor|Aust. J. Exp. Agric.33(3): 373-380|1993|10.1071/EA9930373
73756|T||Van Biljon,J.J., K.J. Hugo, C.J. Van der Merwe, and L.J. Van Wyk|Pre-Emergence Weed Control with Metolachlor/Flumetsulam Mixtures|S. Afr. J. Plant Soil16(2): 92-95|1999|10.1080/02571862.1999.10634853
73757|T||Simarmata,M., and D. Penner|Protection from Primisulfuron Injury to Corn (Zea mays) and Sorghum (Sorghum bicolor) with Herbicide Safeners|Weed Technol.7(1): 174-179|1993|10.1017/S0890037X00037088
73758|T||Thakare,P.D., B.M. Patil, S.U. Kakade, and A.P. Karunakar|Effect of Chemical Weed Control on Growth and Yield of Soybean|PKV Res. J.22(2): 205-206|1998|
73759|T||Ball,D.A., and S.D. Miller|Weed Seed Population Response to Tillage and Herbicide Use in Three Irrigated Cropping Sequences|Weed Sci.38(6): 511-517|1990|10.1017/S0043174500051390
73760|T||Diawara,M.M., and P.A. Banks|Weed Control in Barley (Hordeum vulgare) - No-Till Grain Sorghum (Sorghum bicolor) Production|Weed Sci.38(1): 50-53|1990|10.1017/S0043174500056101
73761|T||Greenfield,P.L.|The Influence of Method of Inoculation and Certain Herbicides on Nodulation and Seed Yield of Soybeans|S. Afr. J. Plant Soil8(3): 119-122|1990|10.1080/02571862.1991.10634817
73762|T||W.R.Landis Associates Inc.|A Dietary LC50 Study in the Bobwhite with Naphthalene (Final Report)|EPA/OTS Doc.#86-870000551, Wildlife Int.Ltd.Proj.No.190-105, St.Michaels, MD:12 p.|1985|
73763|T||Van Rensburg,E., L.P. Van Dyk, and G.H. De Swardt|Role of Temperature and Water Potential on the Activity of Some Acetanilide Herbicides on Three Phaseolus Taxa|S. Afr. J. Plant Soil7(2): 113-116|1990|10.1080/02571862.1990.10634549
73764|T||Velu,G.|Effect of Herbicides on Crop-Weed Competition for Nutrients in Greengram|Indian J. Agric. Res.29(4): 193-202|1995|
73765|T||Griffin,T.S., L.E. Moser, and A.R. Martin|Influence of Antidotes on Forage Grass Seedling Response to Metolachlor and Butylate|Weed Sci.36(2): 202-206|1988|10.1017/S0043174500074713
73766|T||Gilreath,J.P.|Preemergence Weed Control in Gladiolus Cormels|Weed Sci.34(6): 957-960|1986|10.1017/S004317450006817X
73767|T||Frans,R.E., M.R. McClelland, D.K. Horton, B.R.,Jr. Corbin, and R.E. Talbert|Crop and Herbicide Rotations for Johnsongrass (Sorghum halepense) Control|Weed Sci.39(4): 660-666|1991|10.1017/S0043174500088536
73768|T||Lagoke,S.T.O., K.O. Adejonwo, and A.O. Idris|Evaluation of Residual Soil Herbicides Effective Against Grass Weeds in Mixed Okra/Pepper Crops|Tests Agrochem. Cultiv.8:96-97|1987|
73769|T||Obermeier,M.R., and G. Kapusta|Postemergence Broadleaf Weed Control in Corn (Zea mays) with CGA-152005|Weed Technol.10(4): 689-698|1996|10.1017/S0890037X00040665
73772|T||Van Rensburg,E., and L.P. Van Dyk|The Persistence in Soil and Phytotoxicity on dry Beans of Alachlor and Metolachlor as Affected by Climatic Factors|S. Afr. J. Plant Soil3(3): 95-98|1986|10.1080/02571862.1986.10634200
73774|T||Wilcut,J.W., J.S. Richburg III, G. Wiley, F.R.,Jr. Walls, S.R. Jones, and M.J. Iverson|Imidazolinone Herbicide Systems for Peanut (Arachis hypogaea L.)|Peanut Sci.21(1): 23-28|1994|10.3146/i0095-3679-21-1-7
73775|T||Richburg III,J.S., J.W. Wilcut, D.L. Colvin, and G.R. Wiley|Weed Management in Southeastern Peanut (Arachis hypogaea) with AC 263,222|Weed Technol.10(1): 145-152|1996|10.1017/S0890037X00045851
73776|T||Hawton,D., I.D.G. Johnson, D.S. Loch, G.L. Harvey, J.M.T. Marley, W.H.L. Hazard, J. Bibo, and S.R. Walker|A Guide to the Susceptibility of Some Tropical Crop and Pasture Weeds and the Tolerance of Some Crop Legumes to Several Herbicides|Trop. Pest Manag.36(2): 147-150|1990|10.1080/09670879009371460
73777|T||Behera,B., G.S. Singh, P.C. Pradhan, and P.C. Senapati|Weed Management in Runnerbean (Phaseolus coccineus) + Maize (Zea mays) Intercropping Under Rainfed Conditions|Indian J. Agric. Sci.68(10): 697-698|1998|
73778|T||Arnold,R.N., E.J. Gregory, and D. Smeal|Effects of Herbicides on Weeds in Field Corn Grown on Coarse-Textured Soils|Appl. Agric. Res.3(1): 21-23|1988|
73779|T||Wicks,G.A., G.W. Mahnken, and G.E. Hanson|Weed Control in Ecofallow Corn (Zea mays) with Clomazone|Weed Technol.10(3): 495-501|1996|10.1017/S0890037X0004032X
73780|T||Cottingham,C.K., and K.K. Hatzios|Basis of Differential Tolerance of Two Corn Hybrids (Zea mays) to Metolachlor|Weed Sci.40(3): 359-363|1992|10.1017/S0043174500051742
73781|T||Boldt,L.D., and M. Barrett|Factors in Alachlor and Metolachlor Injury to Corn (Zea mays) Seedlings|Weed Technol.3(2): 303-306|1989|10.1017/S0890037X00031845
73782|T||Kord,M., and A. Khalil|The Effect of Some Herbicides on Wheat|Phytologia61(7): 434-440|1987|
73783|T||Farago,S., and C. Brunold|Regulation of Assimilatory Sulfate Reduction by Herbicide Safeners in Zea mays L.|Plant Physiol.94(4): 1808-1812|1990|10.1104/pp.94.4.1808
73784|T||Cottingham,C.K., and K.K. Hatzios|Influence of the Safener Benoxacor on the Metabolism of Metolachlor in Corn|Z. Naturforsch. Sect. C J. Biosci.46(9/10): 846-849|1991|10.1515/znc-1991-9-1020
73785|T||Matocha,J.E.|Effect of Seed Coating Protectants on Iron Deficiency Chlorosis and Sorghum Plant Growth|J. Plant Nutr.15(10): 2007-2013|1992|10.1080/01904169209364454
73786|T||Ramakrishna,A., C.K. Ong, and S.L.N. Reddy|Studies on Integrated Weed Management in Sorghum|Trop. Pest Manag.37(2): 159-161|1991|10.1080/09670879109371566
73787|T||Ibrahim,A.F., S.A. Shaban, and E.A. El-Metwally|Effect of Some Herbicides on Oil Seed Rape (Brassica napus L.) and Associated Weeds|J. Agron. Crop Sci.158(4): 236-240|1987|10.1111/j.1439-037X.1987.tb00268.x
73788|T||Das,N., S. Ray, S.N. Jena, and P.K. Mohanty|Effect of Certain Herbicides on Weeds and Population of Root-Knot Nematode (Meloidogyne incognita) in Mustard|Crop Res. (Hisar)16(2): 156-158|1998|
73789|T||Bennett,M.A., and S.F. Gorski|Response of Sweet Corn (Zea mays) Endosperm Mutants to Chloracetamide and Thiocarbamate Herbicides|Weed Technol.3(3): 475-478|1989|10.1017/S0890037X00032607
73790|T||Bellinder,R.R., D. Wilcox-Lee, A. Senesac, and D.T. Warholic|Response of Early-Maturing Cabbage Brassica oleracea var capitata to Metolachlor|Weed Technol.3(3): 463-466|1989|10.1017/S0890037X00032577
73791|T||Wilson,H.P., T.E. Hines, K.K. Hatzios, and J.P. Doub|Efficacy Comparisons of Alachlor and Metolachlor Formulations in the Field|Weed Technol.2(1): 24-27|1988|10.1017/S0890037X00030013
73792|T||Mishra,J.S., and V.M. Bhan|Chemical Control of Carrot Grass (Parthenium hysterophorus) and Associated Weeds in Soybean (Glycine max)|Indian J. Agric. Sci.66(9): 518-521|1996|
73793|T||Intodia,S.K., L.R. Yadav, and O.P. Tomar|Effect of Herbicides on Weed-Control Efficiency and Yield in Maize (Zea mays)-Soybean (Glycine max) Intercropping System|Indian J. Agric. Sci.66(12): 730-731|1996|
73794|T||Mueller-Warrant,G.W., W.C. Young III, and M.E. Mellbye|Influence of Residue Removal Method and Herbicides on Perennial Ryegrass Seed Production: I. Weed Control|Agron. J.86(4): 677-684|1994|10.2134/agronj1994.00021962008600040017x
73795|T||Murthy,G.M.A., and J.V.N. Gowda|Evaluation of Herbicides for Weed Control in Tuberose (Polianthes tuberosa Linn.) cv. Double|Crop Res. (Hisar)6(1): 176-178|1993|
73796|T||Lawal,A.O.|Effect of Herbicides on Growth and Dry-Matter Yield of Grass Legume Mixed Swards|Indian J. Agric. Sci.68(6): 323-325|1998|
73797|T||Prasad,K., A. Quayum, and A. Rafey|Weed Control in Cropping Sequence Based on Single and Mixed Crops|Indian J. Agric. Sci.65(8): 562-565|1995|
73798|T||Singh,R., R.P. Jangir, and B.L. Poonia|Evaluation of Herbicides for Control of Weeds in Chilli (Capsicum annuum)|Indian J. Agric. Sci.65(10): 723-726|1995|
73799|T||Jat,L.N., V. Nepalia, and R.N. Kumawat|Effect of Weed Management and Sulphur Fertilization on the Productivity of Soybean (Glycine max)|Indian J. Agric. Sci.69(7): 521-522|1999|
73800|T||Nayak,B.S., J.C. Prusty, and S.K. Mohanty|Effect of Herbicides on Bacteria, Fungi and Actinomycetes in Sesame (Sesamum indicum) Soil|Indian J. Agric. Sci.64(12): 888-890|1994|
73801|T||McMullan,P.M., and R.E. Blackshaw|Postemergence Green Foxtail (Setaria viridis) Control in Corn (Zea mays) in Western Canada|Weed Technol.9(1): 37-43|1995|10.1017/S0890037X00022910
73802|T||Bryson,C.T., and E.M.,Jr. Croom|Herbicide Inputs for a New Agronomic Crop, Annual Wormwood (Artemisia annua)|Weed Technol.5(1): 117-124|1991|10.1017/S0890037X00033376
73803|T||Heatherly,L.G., and C.D. Elmore|Grass Weed Control for Soybean (Glycine max) on Clay Soil|Weed Technol.5(1): 103-107|1991|10.1017/S0890037X00033340
73804|T||Kunkel,D.L., R.R. Bellinder, and J.C. Steffens|Safeners Reduce Corn (Zea mays) Chloroacetanilide and Dicamba Injury Under Different Soil Temperatures|Weed Technol.10(1): 115-120|1996|10.1017/S0890037X00045802
73805|T||Hermann,O.|Experimentation with Chloroacetamides in the Weed Control of Sugar Beet in Belgium|Meded. Fac. Landbouwwet. Rijksuniv. Gent63(3a): 769-778|1998|
73806|T||Derr,J.F., R.S. Chandran, and W.D. Ward|Preemergence and Postemergence Yellow Nutsedge (Cyperus esculentus) Control with MON 12000 in Nursery Crops|Weed Technol.10(1): 95-99|1996|10.1017/S0890037X00045772
73807|T||Glenn,S., W.H. Phillips II, and P. Kalnay|Long-Term Control of Perennial Broadleaf Weeds and Triazine-Resistant Common Lambsquarters (Chenopodium album) in No-Till Corn (Zea mays)|Weed Technol.11(3): 436-443|1997|10.1017/S0890037X0004522X
73808|T||Glaze,N.C.|Weed Control in Direct-Seeded Tomato, Lycopersicon esculentum, for Transplants|Weed Technol.2(3): 333-337|1988|10.1017/S0890037X00030694
73809|T||Mersie,W., T. Mebrahtu, and M. Rangappa|Ozone-Metolachlor Interactions on Corn (Zea mays), Bean (Phaseolus vulgaris), and Soybean (Glycine max)|Weed Technol.3(4): 650-653|1989|10.1017/S0890037X00032978
73810|T||Myers,M.G., and R.G. Harvey|Triazine-Resistant Common Lambsquarters (Chenopodium album L.) Control in Field Corn (Zea mays L.)|Weed Technol.7(4): 884-889|1993|10.1017/S0890037X00037933
73811|T||Braverman,M.P., T.L. Lavy, and R.E. Talbert|Effects of Metolachlor Residues on Rice (Oryza sativa)|Weed Sci.33(6): 819-824|1985|10.1017/S0043174500083429
73812|T||Bonilla,E., and A.L.N. Prasad|Effects of Chronic Manganese Intake on the Levels of Biogenic Amines in Rat Brain Regions|Neurobehav. Toxicol. Teratol.6(5): 341-344|1984|
73813|T||Bonilla,E., and M. Diez-Ewald|Effect of L-Dopa on Brain Concentration of Dopamine and Homovanillic Acid in Rats After Chronic Manganese Chloride Administration|J. Neurochem.22:297-299|1974|10.1111/j.1471-4159.1974.tb11593.x
73814|T||Kimura,M., N. Yagi, and Y. Itokawa|Effect of Subacute Manganese Feeding on Serotonin Metabolism in the Rat|J. Toxicol. Environ. Health4:701-707|1978|10.1080/15287397809529692
73815|T||Ketchersid,M.L., F.W. Plapp, and M.G. Merkle|Sorghum (Sorghum bicolor) Seed Safeners as Insecticide Synergists|Weed Sci.33(6): 774-778|1985|10.1017/S0043174500083338
73816|T||Sarhan,M.J., H. Roels, R. Lauwerys, H. Reyners, and E. Gianfelici de Reyners|Influence of Manganese on the Gastrointestinal Absorption of Cadmium in Rats|J. Appl. Toxicol.6(5): 313-316|1986|10.1002/jat.2550060503
73817|T||Wallace,R.W., and R.R. Bellinder|Low-Rate Applications of Herbicides in Conventional and Reduced Tillage Potatoes (Solanum tuberosum)|Weed Technol.4(3): 509-513|1990|10.1017/S0890037X00025872
73818|T||Komura,J., and M. Sakamoto|Subcellular and Gel Chromatographic Distribution of Manganese in the Mouse Brain:  Relation to the Chemical Form of Chronically-Ingested Manganese|Toxicol. Lett.66:287-294|1993|10.1016/0378-4274(93)90010-U
73819|T||Kunkel,D.L., J.C. Steffens, and R.R. Bellinder|Effect of Temperature and Safeners on Glutathione Levels and Glutathione S-Transferase Activity in Maize|Z. Naturforsch. Sect. C J. Biosci.46(9/10): 856-860|1991|10.1515/znc-1991-9-1022
73820|T||Gray,L.E.,Jr., and J.W. Laskey|Multivariate Analysis of the Effects of Manganese on the Reproductive Physiology and Behavior of the Male House Mouse|J. Toxicol. Environ. Health6:861-867|1980|10.1080/15287398009529904
73821|T||Bosveld,A.T.C., P.A.F. De Bie, and J. Weggemans|Effect of Polycyclic Aromatic Hydrocarbons on Hepatic EROD Induction in Experimentally Dosed and Environmentally Exposed Shrews (Crocidura russula /Sorex araneus)|Organohalog. Compd.29:94-97|1996|
73822|T||Yamauchi,A., H. Yamazaki, and Y. Kakiuchi|Changes in the Composition of Glutathione Transferase Subunits in Rat Liver After Oral Administration of Benzo(a)pyrene|Toxicol. Environ. Chem.33:111-119|1991|10.1080/02772249109357753
73823|T||Avery,M.L., J.S. Humphrey, and D.G. Decker|Feeding Deterrence of Anthraquinone, Anthracene, and Anthrone to Rice-Eating Birds|J. Wildl. Manag.61(4): 1359-1365|1997|10.2307/3802138
73824|T||Berger,T., M.G. Miller, and C.M. Horner|In Vitro Fertilization After In Vivo Treatment of Rats with Three Reproductive Toxicants|Reprod. Toxicol.14(1): 45-53|2000|10.1016/S0890-6238(99)00062-3
73825|T||Hsieh,Y.N., L.F. Liu, and Y.S. Wang|Uptake, Translocation and Metabolism of the Herbicide Molinate in Tobacco and Rice|Pestic. Sci.53(2): 149-154|1998|10.1002/(SICI)1096-9063(199806)53:2<149::AID-PS758>3.0.CO;2-Z
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73936|T||Aliyu,L., and S.T.O. Lagoke|Evaluation of Herbicides for Weed Control in Solanum aethiopicum L. (Scarlet Eggplant) at Samaru, Nigeria|Crop Prot.14(6): 479-481|1995|10.1016/0261-2194(95)00020-M
73937|T||Masters,R.A.|Establishment of Big Bluestem and Sand Bluestem Cultivars with Metolachlor and Atrazine|Agron. J.87(3): 592-596|1995|10.2134/agronj1995.00021962008700030033x
73938|T||Jennings,K.M., A.C. York, R.B. Batts, and A.S. Culpepper|Sicklepod (Senna obtusifolia) and Entireleaf Morningglory (Ipomoea hederacea var. integriuscula) Management in Soybean (Glycine max) with Flumetsulam|Weed Technol.11(2): 227-234|1997|10.1017/S0890037X00042883
73939|T||Ghosheh,H.Z., and J.M. Chandler|Johnsongrass (Sorghum halepense) Control Systems for Field Corn (Zea mays) Utilizing Crop Rotation and Herbicides|Weed Technol.12(4): 623-630|1998|10.1017/S0890037X0004447X
73940|T||Wicks,G.A., W.L. Felton, R.D. Murison, G.E. Hanson, and P.G. Nash|Efficiency of an Optically Controlled Sprayer for Controlling Weeds in Fallow|Weed Technol.12(4): 638-645|1998|10.1017/S0890037X00044493
73941|T||Djurkic,M., M. Knezevic, and Z. Ostojic|Effect of Rimsulfuron Application on Weeds in Maize Inbred Lines in Croatia|Cereal Res. Commun.25(2): 203-209|1997|10.1007/BF03543458
73942|T||Gorski,S.F.|Slow-Release Delivery System for Herbicides in Container-Grown Stock|Weed Technol.7(4): 894-899|1993|10.1017/S0890037X00037957
73943|T||Jordan,D.L., J.W. Wilcut, and L.D. Fortner|Utility of Clomazone for Annual Grass and Broadleaf Weed Control in Peanut (Arachis hypogaea)|Weed Technol.8(1): 23-27|1994|10.1017/S0890037X00039142
73944|T||Ivany,J.A., and K.V. McCully|Evaluation of Herbicides for Sweet White Lupin (Lupinus albus)|Weed Technol.8(4): 819-823|1994|10.1017/S0890037X00028748
73946|T||Wicks,G.A., A.R. Martin, A.E. Haack, and G.W. Mahnken|Control of Triazine-Resistant Kochia (Kochia scoparia) in Sorghum (Sorghum bicolor)|Weed Technol.8(4): 748-753|1994|10.1017/S0890037X00028633
73947|T||Osborne,B.T., D.R. Shaw, and R.L. Ratliff|Response of Selected Soybean (Glycine max) Cultivars to Dimethenamid and Metolachlor in Hydroponic Conditions|Weed Sci.9(1): 178-181|1995|
73948|T||Teasdale,J.R.|Influence of Narrow Row/High Population Corn (Zea mays) on Weed Control and Light Transmittance|Weed Technol.9(1): 113-118|1995|10.1017/S0890037X00023046
73949|T||Kwon,C.S., and D. Penner|The Interaction of Insecticides with Herbicide Activity|Weed Technol.9(1): 119-124|1995|10.1017/S0890037X00023058
73950|T||Acharya,U.R., M. Mishra, I. Mishra, and R.R. Tripathy|Potential Role of Vitamins in Chromium Induced Spermatogenesis in Swiss Mice|Environ. Toxicol. Pharmacol.15(2-3): 53-59|2004|10.1016/j.etap.2003.08.010
73952|T||Bowman,J.E., and J.B. Sinclair|Effect of Herbicides on Rhizoctonia Seedling Disease of Soybeans in Glasshouse Experiments|J. Phytopathol.124(1-4): 267-274|1989|10.1111/j.1439-0434.1989.tb04923.x
73953|T||Maheswarappa,H.P., and H.V. Nanjappa|Relative Efficacy of Herbicides in Controlling the Weeds Infesting Pigeonpea (Cajanus cajan)|Indian J. Agron.39(4): 662-664|1994|
73954|T||Shivakumar,H.R., N.C. Prathibha, and T.V. Muniyappa|Effect of Chemical Weed Control on Nutrient Uptake by Common Mulberry (Morus australis) and Associated Weeds|Indian J. Agron.39(2): 277-281|1994|
73955|T||Thakur,D.R.|Weed Management in Intercropping Systems Based on Maize (Zea mays) Under Rainfed Mid-Hill Conditions|Indian J. Agron.39(2): 203-206|1994|
73956|T||Sharma,R.K., K.S. Bangar, G. Kanere, O.P. Singh, G.L. Thakur, and S.R. Sharma|Effect of Weed Control on Yield of Soybean (Glycine max)|Indian J. Agron.37(2): 372-373|1992|
73957|T||Cummins,I., S. Moss, D.J. Cole, and R. Edwards|Glutathione Transferases in Herbicide-Resistant and Herbicide-Susceptible Black-Grass (Alopecurus myosuroides)|Pestic. Sci.51(3): 244-250|1997|10.1002/(SICI)1096-9063(199711)51:3<244::AID-PS643>3.0.CO;2-2
73958|T||Gogoi,A.K., A.K. Pathak, J. Deka, and H. Kalita|Pre-emergence Herbicides for Weed Control in Potato (Solanum tubersum)|Indian J. Agron.36(Suppl.): 313-314|1991|
73959|T||Rowe,L., and D. Penner|Factors Affecting Chloroacetanilide Injury to Corn (Zea mays)|Weed Sci.4(4): 904-906|1990|
73960|T||Glaze,N.C., and M.R. Hall|Cultivation and Herbicides for Weed Control in Sweet Potato (Ipomoea batatas)|Weed Technol.4(3): 518-523|1990|10.1017/S0890037X00025896
73961|T||Keeling,J.W., D.A. Bender, and J.R. Abernathy|Yellow Nutsedge (Cyperus esculentus) Management in Transplanted Onions (Allium cepa)|Weed Technol.4(1): 68-70|1990|10.1017/S0890037X00025008
73962|T||Frans,R., M. McClelland, C. Smith, and D. Jordan|Herbicide Trials on Field Crops, 1992|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.427:63 p.|1993|
73963|T||Webber III,C.L.|The Influence of Metolachlor and Trifluralin on Kenaf (Hibiscus cannabinus L.) Yield Components|Ind. Crops Prod.1(1): 17-20|1992|10.1016/0926-6690(92)90040-3
73964|T||Callan,E.J., and C.W. Kennedy|Tolerance of Stokes Aster to Selected Herbicides|Ind. Crops Prod.4(4): 285-290|1995|10.1016/0926-6690(95)00043-7
73965|T||Ikuenobe,C.E., J.U. Chokor, and A.E. Isenmila|Influence of Method of Land Preparation on Weed Regeneration in Cowpea (Vigna unguiculata L. Walp.)|Soil Tillage Res.31(4): 375-383|1994|10.1016/0167-1987(94)90043-4
73966|T||Wilkinson,R.E., and R.R. Duncan|Interactions of Metolachlor and Excess Hydrogen (H+) Influences on Sorghum (Sorghum bicolor) Cultivar Roots|Weed Sci.16(6): 1099-1107|1993|
73967|T||Repasi,J., A. Hulesch, G. Suvegh, and F. Dutka|Reduction of Chloroacetanilide Herbicide Injury to Herbicide Injury to Corn (Zea mays) with Some Structurally new Dichloroacetamide Derivatives Used as Safeners|Pestic. Sci.45(3): 283-285|1995|10.1002/ps.2780450313
73968|T||Singh,V.K., R.P. Bajpai, R.K. Mishra, and K.K. Purohit|Chemical Weed Control in Rainfed Soybean (Glycine max)|Indian J. Agron.36(Suppl.): 292-294|1991|
73969|T||Gogoi,A.K., H. Kalita, A.K. Pathak, and J. Deka|Chemical Control of Weeds in Field Pea (Pisum sativum)|Indian J. Agron.36(Suppl.): 287-288|1991|
73970|T||Sharma,V., D.R. Thakur, and J.J. Sharma|Effect of Metolachlor and Its Combination with Atrazine on Weed Control in Maize (Zea mays)|Indian J. Agron.43(4): 677-680|1998|
73971|T||Rout,D., and M.R. Satapathy|Chemical Weed Control in Rainfed Maize (Zea mays)|Indian J. Agron.41(1): 51-53|1996|
73972|T||Rout,D., and M.R. Satapathy|Chemical Weed Control in Rainfed Cotton (Gossypium hirsutum)|Indian J. Agron.43(2): 348-350|1998|
73973|T||Gora,D.R., N.L. Meena, P.L. Shivran, and D.R. Shivran|Dry-Matter Accumulation and Nitrogen Uptake in Cumin (Cuminum cyminum) as Affected by Weed Control and Time of N Application|Indian J. Agron.41(4): 666-667|1996|
73974|T||Berzsenyi,Z., and B. Gyorffy|Comparative Study of the Phytotoxicity of Acetanilide Herbicides on Maize (Zea mays L.) as Affected by Temperature and Antidotes|Acta Agron. Hung.38(3/4): 371-384|1989|
73975|T||Schmid,W., H.A. Mbamba, S.S. Njau, and J.D. Likango|Efficacy of Herbicides for Weed Control in Conventional and Minimum Tillage Soyabeans in Zambia|Appl. Plant Sci.10(1): 16-20|1996|
73976|T||Gogoi,A.K., H. Kalita, A.K. Pathak, and J. Deka|Integrated Weed Management in Soybean (Glycine max)|Indian J. Agron.36(3): 453-454|1991|
73977|T||Schroeder,J.|Pepper (Capsicum annuum) Cultivar Response to Metolachlor in Three New Mexico Soils|Weed Technol.6(2): 366-373|1992|10.1017/S0890037X00034886
73978|T||Singh,M., and A.S. Chandel|Effect of Weed-Control Method on Soybean (Glycine max)|Indian J. Agron.40(1): 55-58|1995|
73979|T||Fuerst,E.P., and J.W. Gronwald|Induction of Rapid Metabolism of Metolachlorin Sorhum (Sorghum bicolor) Shoots by CGA-92194 and Other Antidotes|Weed Sci.34(3): 354-361|1986|10.1017/S0043174500066972
73980|T||Buhler,D.D., J.D. Doll, R.T. Proost, and M.R. Visocky|Integrating Mechanical Weeding with Reduced Herbicide Use in Conservation Tillage Corn Production Systems|Agron. J.87(3): 507-512|1995|10.2134/agronj1995.00021962008700030018x
73981|T||Prosch,S.D., and J.B. Weber|Trifluranlin-Substitued Amide Herbicide Interactions|Agron. J.80(4): 567-570|1988|10.2134/agronj1988.00021962008000040005x
73982|T||Saayman,A.E.J.|Control of Cyperus esculentus and Other Weeds in Maize with Servian|Appl. Plant Sci.10(2): 48-51|1996|
73983|T||Gogoi,A.K., H. Kalita, A.K. Pathak, and J. Deka|Weed Management in Blackgram (Phaseolus mungo)|Indian J. Agron.36(4): 601-602|1991|
73985|T||Pleasant,J.M., R.E. McCollum, and H.D. Coble|Weed Population Dynamics and Weed Control in the Peruvian Amazon|Agron. J.82(1): 102-112|1990|10.2134/agronj1990.00021962008200010024x
73986|T||Kurtz,M.E.|The Influence of Preemergence Applied Herbicides on Kenaf Stand, Height, and Yield|Ind. Crops Prod.5(4): 265-271|1996|10.1016/S0926-6690(96)00014-3
73987|T||Roseberg,R.J.|Herbicide Tolerance by Vernonia Grown in the Temperate Zone|Ind. Crops Prod.6(2): 89-96|1997|10.1016/S0926-6690(97)00167-2
73988|T||Mueller-Warrant,G.W., W.C. Young III, and M.E. Mellbye|Residue Removal Method and Herbicides for Tall Fescue Seed Production: II. Crop Tolerance|Agron. J.87(3): 558-562|1995|10.2134/agronj1995.00021962008700030027x
73989|T||Renner,K.A., and G.E. Powell|Response of Navy Bean (Phaseolus vulgaris) and Wheat (Triticum aestivum) Grown in Rotation to Clomazone, Imazethapyr, Bentazon, and Acifluorfen|Weed Sci.40(1): 127-133|1992|10.1017/S0043174500057088
73990|T||Osborne,B.T., D.R. Shaw, and R.L. Ratliff|Soybean (Glycine max) Cultivar Tolerance to SAN 582H and Metolachlor as Influenced by Soil Moisture|Weed Sci.43(2): 288-292|1995|10.1017/S0043174500081194
73991|T||Buhler,D.D., and V.L. Werling|Weed Control from Imazaquin and Metolachlor in No-Till Soybeans (Glycine max)|Weed Sci.37(3): 392-399|1989|10.1017/S0043174500072118
73992|T||Gaillardon,P., S. Simon, and R. Scalla|Influence of Depth of Sowing, Herbicide Incorporation and Temperature on Metolachlor and EPTC Toxicity to Corn (Zea mays L.)|Agronomie (Multiple Languages)8(7): 585-590|1988|10.1051/agro:19880703
73993|T||Moseley,C.M., and E.S.,Jr. Hagood|Reducing Herbicide Inputs when Establishing No-Till Soybeans (Glycine max)|Weed Technol.4(1): 14-19|1990|10.1017/S0890037X00024891
73994|T||Molin,W.T., R.A. Khan, R.B. Barinbaum, and D.M. Kopec|Green Kyllinga (Kyllinga brevifolia): Germination and Herbicidal Control|Weed Sci.45(4): 546-550|1997|10.1017/S0043174500088792
73995|T||Caviness,D.M., R.E. Talbert, and G.L. Klingaman|Chemigation and Spray Application of Herbicides on Container-Grown Ornamentals|Weed Technol.2(4): 418-422|1988|10.1017/S0890037X0003219X
73996|T||Scott,R.C., D.R. Shaw, W.B. O'Neal, and T.D. Klingaman|Spray Adjuvant, Formulation and Environmental Effects on Synergism from Post-Applied Tank Mixtures of SAN 582H with Fluazifop-P, Imazethapyr, and Sethoxydim|Weed Technol.12(3): 463-469|1998|10.1017/S0890037X00044158
73997|T||Hagood,E.S.,Jr.|Control of Triazine-Resistant Smooth Pigweed (Amaranthus hybridus) and Common Lambsquarters (Chenopodium album) in No-Till Corn (Zea mays)|Weed Technol.3(1): 136-142|1989|10.1017/S0890037X00031481
73998|T||Griffin,J.L., and J.F. Robinson|Metolachlor and Alachlor Persistence in Rice (Oryza sativa) Following Soybean (Glycine max)|Weed Technol.3(1): 82-85|1989|10.1017/S0890037X00031365
73999|T||Birschbach,E.D., M.G. Myers, and R.G. Harvey|Triazine-Resistant Smooth Pigweed (Amaranthus hybridus) Control in Field Corn (Zea mays L.)|Weed Technol.7(2): 431-436|1993|10.1017/S0890037X00027846
74000|T||Ali,A., M.A. Malik, M.S. Sharar, A.H. Saqib, and M. Tahir|Effect of Pre-Plant Incorporated and Post-Emergence Herbicides on Growth and Yield of Sunflower (Helianthus annuus L.)|Pak. J. Sci. Ind. Res.39(9-12): 192-194|1996|
74001|T||Morgan,W.C., and A.S. Morgans|Potential Use of Activated Carbon as a Protectant Against Pre-Emergence Herbicides in Direct-Seeded Processing Tomatoes|Weed Res. (Multiple Languages)32(2): 87-94|1992|10.1111/j.1365-3180.1992.tb01865.x
74002|T||Westra,P., R.G. Wilson, and R.L. Zimdahl|Wild-Proso Millet (Panicum miliaceum) Control in Central Great Plains Irrigated Corn (Zea mays)|Weed Technol.4(2): 409-414|1990|10.1017/S0890037X0002563X
74003|T||Fedtke,C.|Physiological Activity Spectra of Existing Graminicides and the New Herbicide 2-(2-Benzothiazolyl-oxy)-N-Methyl-N-Phenylactamide (Mefenacet)|Weed Res. (Multiple Languages)27(3): 221-228|1987|10.1111/j.1365-3180.1987.tb00757.x
74004|T||Rowe,L., J.J. Kells, and D. Penner|Efficacy and Mode of Action of CGA-154281, a Protectant for Corn (Zea mays) from Metolachlor Injury|Weed Sci.39(1): 78-82|1991|10.1017/S004317450005791X
74005|T||Viger,P.R., C.V. Eberlein, E.P. Fuerst, and J.W. Gronwald|Effects of CGA-154281 and Temperature on Metolachlor Absorption and Metabolism, Glutathione Content, and Glutathione-S-Transferase Activity in Corn (Zea mays)|Weed Sci.39(3): 324-328|1991|10.1017/S0043174500073008
74006|T||Cottingham,C.K., K.K. Hatzios, and S.A. Meredith|Comparative Responses of Selected Corn (Zea mays L.) Hybrids to EPTC and Metolachlor|Weed Sci.33(2): 161-170|1993|
74007|T||McCarty,L.B., D.W. Porter, D.L. Colvin, D.G. Shilling, and D.W. Hall|Controlling Two Sprangletop (Leptochloa spp.) Species with Preemergence Herbicides|Weed Technol.9(1): 29-33|1994|10.1017/S0890037X00022892
74008|T||Richburg III,J.S., J.W. Wilcut, and E.F. Eastin|Weed Management in Peanut (Arachis hypogaea) with Imazethapyr and Metolachlor|Weed Sci.9(4): 807-812|1995|
74009|T||Viger,P.R., C.V. Eberlein, and E.P. Fuerst|Influence of Available Soil Water Content, Temperature, and CGA-154281 on Metolachlor Injury to Corn|Weed Sci.39(2): 227-231|1991|10.1017/S0043174500071526
74010|T||Rowe,L., E. Rossman, and D. Penner|Differential Response of Corn Hybrids and Inbreds to Metolachlor|Weed Sci.38(6): 563-566|1990|10.1017/S0043174500051493
74011|T||Grichar,W.J.|Yellow Nutsedge (Cyperus esculentus) Control in Peanuts (Arachis hypogaea)|Weed Technol.6(1): 108-112|1992|10.1017/S0890037X00034382
74012|T||Wilson,J.S., and C.L. Foy|Weed Control in No-Tillage and Conventional Corn (Zea mays) with ICIA-0051 and SC-0774|Weed Technol.4(4): 731-738|1990|10.1017/S0890037X00026300
74013|T||Bruce,J.A., and J.J. Kells|Horseweed (Conyza canadensis) Control in No-Tillage Soybeans (Glycine max) with Preplant and Preemergence Herbicides|Weed Technol.4(3): 642-647|1990|10.1017/S0890037X00026130
74014|T||Owen,M.D.K., R.G. Hartzler, and J. Lux|Woolly Cupgrass (Eriochloa villosa) Control in Corn (Zea mays) with Chloroacetamide Herbicides|Weed Technol.7(4): 925-929|1993|10.1017/S0890037X0003801X
74015|T||Kapusta,G., R.F. Krausz, and J.L. Matthews|MON 13200 Early Preplant Controls Giant Foxtail (Setaria faberi) Season-Long in No-Till Soybean (Glycine max)|Weed Technol.7(4): 872-878|1993|10.1017/S0890037X0003791X
74016|T||Petersen,B.B., P.J. Shea, and G.A. Wicks|Acetanilide Activity and Dissipation as Influenced by Forumulation and Wheat Stubble|Weed Sci.36(2): 243-249|1988|10.1017/S0043174500074786
74017|T||Doub,J.P., H.P. Wilson, T.E. Hines, and K.K. Hatzios|Consecutive Annual Applications of Alachlor and Metolachlor to Continuous No-Till Corn (Zea mays)|Weed Sci.36(3): 340-344|1988|10.1017/S0043174500074981
74018|T||Doub,J.P., H.P. Wilson, and K.K. Hatzios|Comparative Efficacy of Two Formulations of Alachlor and Metolachlor|Weed Sci.36(2): 221-226|1988|10.1017/S0043174500074749
74019|T||Dean,J.V., J.W. Gronwald, and C.V. Eberlein|Induction of Glutathione S-Transferase Isozymes in Sorghum by Herbicide Antidotes|Plant Physiol.92(2): 467-473|1990|10.1104/pp.92.2.467
74020|T||Omokaro,D.N., and C.O. Ajakaiye|Effects of Soil Applied Herbicides on Leaf Nitrate Reductase and Crude Protein in the Leaf and Seed of Two Cowpea Cultivars|Plant Soil116(2): 141-146|1989|10.1007/BF02214539
74039|T||Burden,B.J., and D.M. Norris|"Role of the Isoflavonoid Coumestrol in the Constitutive Antixenosic Properties of ""Davis"" Soybeans Against an Oligophagous Insect, the Mexican Bean Beetle"|J. Chem. Ecol.18(7): 1069-1081|1992|10.1007/BF00980063
74040|AT||Rao,D.R., R. Reuben, M.S. Venugopal, B.A. Nagasampagi, and H. Schmutterer|Evaluation of Neem, Azadirachta indica, with and Without Water Management, for the Control of Culicine Mosquito Larvae in Rice-Fields|Med. Vet. Entomol.6(4): 318-324|1992|10.1111/j.1365-2915.1992.tb00627.x
74041|T||Fischer,D.C., M. Kogan, and J. Paxton|Deterrency of Mexican Bean Beetle (Coleoptera:  Coccinellidae) Feeding by Free Phenolic Acids|J. Entomol. Sci.25(2): 230-238|1990|10.18474/0749-8004-25.2.230
74042|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Effect of Sulfonylurea Herbicides on Field Corn Following an Application of Granular Insecticide at Planting, 1995|Arthropod Manag. Tests22:226-|1997|10.1093/amt/22.1.226
74043|T||Foy,C.L., and H.L. Witt|Seed Protectants Safen Sorghum (Sorghum bicolor) Against Chloroacetamide Herbicide Injury|Weed Technol.4(4): 886-891|1990|10.1017/S0890037X00026592
74044|T||Kord,M., and T. Hathout|Effects of Metolachlor and Alachlor on Permeability and Lipid Synthesis in Some Plants|Phytologia67(1): 50-60|1989|
74045|T||Griffin,J.L., and T.J. Harger|Red Rice (Oryza sativa) Control Options in Soybeans (Glycine max)|Weed Technol.4(1): 35-38|1990|10.1017/S0890037X00024933
74046|T||Poprawski,T.J., and I. Majchrowicz|Effects of Herbicides on In Vitro Vegetative Growth and Sporulation of Entomopathogenic Fungi|Crop Prot.14(1): 81-87|1995|10.1016/0261-2194(95)91116-W
74047|T||Ritter,R.L., and L.M. Kaufman|Giant Foxtail (Setaria faberi) Control in Full-Season No-Till Soybeans (Glycine max)|Weed Technol.3(1): 151-154|1989|10.1017/S0890037X00031511
74048|T||Gaynor,J.D., D.C. MacTavish, and A.S. Hamill|A GC/MSD Method for the Analysis of Metolachlor in Cabbage, Broccoli, and Tomato|Commun. Soil Sci. Plant Anal.23(13-14): 1548-1558|1992|10.1080/00103629209368686
74049|T||Omokaro,D.N., and C.O. Ajakaiye|Direct Contact Effects of Pendimethalin and Metolachlor on the Anatomy of Cowpea (Vigna unguiculata)|Niger. J. Bot.8:17-24|1995|
74050|T||Dreikorn,B.A., G.P. Jourdan, and H.R. Hall|Influence of Atropisomerism on the Fungicidal Activity of a Series of Thioalkylphenylalines|ACS Symp. Ser.443:575-588|1991|10.1021/bk-1991-0443.ch046
74051|T||Wright,J.P.|Use of Membrane Potential Measurements to Study Mode of Action of Diclofop-Methyl|Weed Sci.42(2): 285-292|1994|10.1017/S0043174500080401
74052|T||Wicks,G.A., D.A. Crutchfield, and O.C. Burnside|Influence of Wheat (Triticum aestivum) Straw Mulch and Metolachlor on Corn (Zea mays) Growth and Yield|Weed Sci.42(1): 141-147|1994|10.1017/S0043174500084307
74053|T||Wieczorek,P., D. Miliszkiewicz, B. Lejczak, M. Soroka, and P. Kafarski|Plant-Growth-Regulating N-(Phosphonoacetyl)Amines|Pestic. Sci.40(1): 57-62|1994|10.1002/ps.2780400110
74054|T||Schuh,J.F., and R.G. Harvey|Carbamothioate and Chloroacetamide Herbicides for Woolly Cupgrass (Eriochloa villosa) Control in Corn (Zea mays)|Weed Technol.5(2): 331-336|1991|10.1017/S0890037X00028190
74055|A||Couderchet,M., J. Schmalfuss, and P. Boger|A Specific and Sensitive Assay to Quantify the Herbicidal Activity of Chloroacetamides|Pestic. Sci.52(4): 381-387|1998|10.1002/(SICI)1096-9063(199804)52:4<381::AID-PS735>3.0.CO;2-8
74056|T||Buhler,D.D., and T.C. Daniel|Influence of Tillage Systems on Giant Foxtail, Setaria faberi and Velvetleaf, Abutilon theophrasti, Density and Control in Corn, Zea mays|Weed Sci.36(5): 642-647|1988|10.1017/S004317450007555X
74057|T||Edwards,R., and W.J. Owen|Comparison of Glutathione S-Tranferases of Zea mays Responsible for Herbicide Detoxification in Plants and Suspension-Cultured Cells|Planta (Multiple Languages)169(2): 208-215|1986|10.1007/BF00392316
74058|T||Wilkinson,R.D., and R.R. Duncan|Calcium (45Ca2+) Uptake in GP-10 Sorghum Root Tips as Influenced by Hydrogen Ion (H+) Concentration and Hours of Exposure to H+-ATPase Inhibitors|J. Plant Nutr.16(4): 643-652|1993|10.1080/01904169309364563
74059|T||Lanie,A.J., J.L. Griffin, D.B. Reynolds, and P.R. Vidrine|Influence of Residual Herbicides on Rate of Paraquat and Glyphosate in Stale Seedbed Soybean (Glycine max)|Weed Technol.7(4): 960-965|1993|10.1017/S0890037X00038082
74060|T||Arnold,R.N., M.W. Murray, E.J. Gregory, and D. Smeal|Weed Control in Pinto Beans (Phaseolus vulgaris) with Imazethapyr Combinations|Weed Technol.7(2): 361-364|1993|10.1017/S0890037X00027731
74061|T||Heatherly,L.G., C.D. Elmore, and S.R. Spurlock|Effect of Irrigation and Weed Control Treatment on Yield and Net Return from Soybean (Glycine max)|Weed Technol.8(1): 69-76|1994|10.1017/S0890037X00039221
74062|T||Murray,M.W., R.N. Arnold, E.J. Gregory, and D. Smeal|Early Broadleaf Weed Control in Potato (Solanum tuberosum) with Herbicides|Weed Technol.8(1): 165-167|1994|10.1017/S0890037X00039385
74063|T||Kreuz,K., J. Gaudin, and E. Ebert|Effects of the Safeners CGA 154281, Oxabetrinil and Fenclorim on Uptake and Degradation of Metolachlor in Corn (Zea mays L.) Seedlings|Weed Sci.29(6): 399-405|1989|
74064|T||Culpepper,A.S., and A.C. York|Weed Management in Glufosinate-Resistant Corn (Zea mays)|Weed Technol.13(2): 324-333|1999|10.1017/S0890037X00041816
74065|T||Blumhorst,M.R., J.B. Weber, and L.R. Swain|Efficacy of Selected Herbicides as Influenced by Soil Properties|Weed Technol.4(2): 279-283|1990|10.1017/S0890037X00025392
74066|T||Garcia-Torres,L., F. Lopez-Granados, and M. Castejon-Munoz|Pre-emergence Herbicides for the Control of Broomrape (Orobanche cernua Loefl.) in Sunflower (Helianthus annus L.)|Weed Res. (Multiple Languages)34(6): 395-402|1994|10.1111/j.1365-3180.1994.tb02035.x
74067|T||Sato,S.I., H. Takizawa, and N. Inui|A Comparison of Micronucleus Induction in 3 Mouse Strains with Representative Clastogens|Toxicol. Lett.52(2): 215-220|1990|10.1016/0378-4274(90)90156-G
74068|AT||Liu,K.J., J. Jiang, X. Shi, H. Gabrys, T. Walczak, and H.M. Swartz|Low-Frequency EPR Study of Chromium(V) Formation from Chromium(VI) in Living Plants|Biochem. Biophys. Res. Commun.206(3): 829-834|1995|10.1006/bbrc.1995.1118
74069|T||Yu,W., M.A. Sipowicz, D.C. Haines, L. Birely, B.A. Diwan, C.W. Riggs, K.S. Kasprzak, and L.M. Anderson|Preconception Urethane or Chromium(III) Treatment of Male Mice:  Multiple Neoplastic and Non-neoplastic Changes in Offspring|Toxicol. Appl. Pharmacol.158(2): 161-176|1999|10.1006/taap.1999.8692
74070|T||Ueno,S., T. Kashimoto, N. Susa, Y. Furukawa, M. Ishii, K. Yokoi, M. Yasuno, Y.F. Sasaki, J.I. Ueda, Y. Nishimura, and M|Detection of Dichromate (VI)-Induced DNA Strand Breaks and Formation of Paramagnetic Chromium in Multiple Mouse Organs|Toxicol. Appl. Pharmacol.170(1): 56-62|2001|10.1006/taap.2000.9081
74071|T||Ueno,S., N. Susa, Y. Furukawa, and M. Sugiyama|Formation of Paramagnetic Chromium in Liver of Mice Treated with Dichromate (VI)|Toxicol. Appl. Pharmacol.135(2): 165-171|1995|10.1006/taap.1995.1219
74072|T||Thomann,R.V., C.A. Snyder, and K.S. Squibb|Development of a Pharmacokinetic Model for Chromium in the Rat Following Subchronic Exposure:  I. The Importance of Incorporating Long-Term Storage Compartment|Toxicol. Appl. Pharmacol.128(2): 189-198|1994|10.1006/taap.1994.1197
74073|T||Pier,S.M., M.A. Gallo, T.H. Umbreit, T.H. Connor, D. Gray, and F.A. Cappelleri|Silica Encapsulation Reduces Bioavailability|Environ. Toxicol. Chem.10(10): 1247-1253|1991|10.1002/etc.5620101003
74074|T||Rout,G.R., S. Samantaray, and P. Das|Effects of Chromium and Nickel on Germination and Growth in Tolerant and Non-tolerant Populations of Echinochloa colona (L.) Link|Chemosphere40(8): 855-859|2000|10.1016/S0045-6535(99)00303-3
74075|A||Lazinsky,D., and L. Sicko-Goad|Morphometric Analysis of Phosphate and Chromium Interactions in Cyclotella meneghiniana|Aquat. Toxicol.16(2): 127-140|1990|10.1016/0166-445X(90)90082-Z
74077|A||Roditi,H.A., and N.S. Fisher|Rates and Routes of Trace Element Uptake in Zebra Mussels|Limnol. Oceanogr.44(7): 1730-1749|1999|10.4319/lo.1999.44.7.1730
74080|A||Tripathi,R.D., and P. Chandra|Chromium Uptake by Spirodela polyrrhiza (L.) Schleiden in Relation to Metal Chelators and pH|Bull. Environ. Contam. Toxicol.47(5): 764-769|1991|10.1007/BF01701147
74081|T||Premuzic,E.T., M. Lin, H.L. Zhu, and A.M. Gremme|Selectivity in Metal Uptake by Stationary Phase Microbial Populations|Arch. Environ. Contam. Toxicol.20(2): 234-240|1991|10.1007/BF01055909
74082|A||Shiau,S.Y., and S.M. Shy|Dietary Chromic Oxide Inclusion Level Required to Maximize Glucose Utilization in Hybrid Tilapia, Oreochromis niloticus x O. aureus|Aquaculture161(1-4): 357-364|1998|10.1016/S0044-8486(97)00283-4
74083|A||Pan,Q., S. Liu, Y.G. Tan, and Y.Z. Bi|The Effect of Chromium Picolinate on Growth and Carbohydrate Utilization in Tilapia, Oreochromis niloticus x Oreochromis aureus|Aquaculture225(1-4): 421-429|2003|10.1016/S0044-8486(03)00306-5
74084|T||Sharma,D.C., C.P. Sharma, and R.D. Tripathi|Phytotoxic Lesions of Chromium in Maize|Chemosphere51(1): 63-68|2003|10.1016/S0045-6535(01)00325-3
74085|T||Lubben,S., and D. Sauerbeck|The Uptake and Distibution of Heavy Metals by Spring Wheat|Water Air Soil Pollut.57-58:239-247|1991|10.1007/BF00282887
74086|A||Kim,S.D., K.S. Park, and M.B. Gu|Toxicity of Hexavalent Chromium to Daphnia magna:  Influence of Reduction Reaction by Ferrous Iron|J. Hazard. Mater.93(2): 155-164|2002|10.1016/S0304-3894(02)00057-2
74092|A||Buckman,A.H., S.B. Brown, P.F. Hoekstra, K.R. Solomon, and A.T. Fisk|Toxicokinetics of Three Polychlorinated Biphenyl Technical Mixtures in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.23(7): 1725-1736|2004|10.1897/03-336
74094|T||Walker,M.K., R.S. Pollenz, and S.M. Smith|Expression of the Aryl Hydrocarbon Receptor (AhR) and AhR Nuclear Translocator During Chick Cardiogenesis is Consistent with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Heart Defects|Toxicol. Appl. Pharmacol.143(2): 407-419|1997|10.1006/taap.1996.8068
74095|T||Grasman,K.A., and L.L. Whitacre|Effects of PCB 126 on Thymocyte Surface Marker Expression and Immune Organ Development in Chicken Embryos|J. Toxicol. Environ. Health Part A62(3): 191-206|2001|10.1080/009841001458307
74096|T||Powell,D.C., R.J. Aulerich, K.L. Stromborg, and S.J. Bursian|Effect of 3,3',4,4'-Tetrachlorobiphenyl, 2,3,3',4,4',5-Pentachlorobiphenyl, and 3,3',4,4',5-Pentachlorobiphenyl on the Developing Chicken Embryo when Injected Prior to Incubation|J. Toxicol. Environ. Health49(3): 319-338|1996|10.1080/00984108.1996.11667604
74097|T||Gannon,M., D. Gilday, and A.B. Rifkind|TCDD Induced CYP1A4 and CYP1A5 in Chick Liver and Kidney and only CYP1A4, and Enzyme Lacking Arachidonic Acid Epoxygenase Activity, in Myocardium and Vascular Endothelium|Toxicol. Appl. Pharmacol.164(1): 24-37|2000|10.1006/taap.1999.8864
74098|T||Fox,L.L., and K.A. Grasman|Effects of PCB 126 on Primary Immune Organ Development in Chicken Embryos|J. Toxicol. Environ. Health Part A58(4): 233-244|1999|10.1080/009841099157313
74099|A||Pedersen,M.G., W.K. Hershberger, P.K. Zachariah, and M.R. Juchau|Hepatic Biotransformation of Environmental Xenobiotics in Six Strains of Rainbow Trout (Salmo gairdneri)|J. Fish. Res. Board Can.33:666-675|1976|10.1139/f76-082
74100|A||Isosaari,P., H. Kiviranta, O. Lie, A.K. Lundebye, G. Ritchie, and T. Vartiainen|Accumulation and Distribution of Polychlorinated Dibenzo-p-Dioxin, Dibenzofuran, and Polychlorinated Biphenyl Congeners in Atlantic Salmon (Salmo salar)|Environ. Toxicol. Chem.23(7): 1672-1679|2004|10.1897/03-367
74101|T||Mably,T.A., D.L. Bjerke, R.W. Moore, A. Gendron-Fitzpatrick, and R.E. Peterson|In Utero and Lactational Exposure of Male Rats to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  3.  Effects on Spermatogenesis and Reproductive Capability|Toxicol. Appl. Pharmacol.114(1): 118-126|1992|10.1016/0041-008X(92)90103-Y
74102|T||Walker,M.K., and T.F. Catron|Characterization of Cardiotoxicity Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Related Chemicals During Early Chick Embryo Development|Toxicol. Appl. Pharmacol.167(3): 210-221|2000|10.1006/taap.2000.8992
74103|T||Anderson,J.R., and E.A. Drew|"Effects of Pure Paraquat Dichloride, ""Gramoxone W"" and Formulation Additives on Soil Microbiological Activities.  2.  Effects on Respiration, Organic Matter Mineralization, and Nitrification in Laboratory-Treated Soil"|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.131:136-147|1976|10.1016/S0044-4057(76)80081-0
74105|T||Babcock,J.M., and L.K. Tanigoshi|Resistance Levels of Typhlodromus occidentalis (Acari: Phytoseiidae) from Washington Apple Orchards to Ten Pesticides|Exp. Appl. Acarol.4(2): 151-157|1988|10.1007/BF01193872
74106|T||Eulitz,E.G.|Initial Experiments in the Control of False Wireworm (Tenebrionidae) on Tobacco Transplants|Phytophylactica18(3): 115-119|1986|
74107|T||Barson,G.|Response of Insecticide-Resistant and Susceptible Houseflies (Musca domestica) to a Commercial Granular Bait Formulation Containing Methomyl|Med. Vet. Entomol.3(1): 29-34|1989|10.1111/j.1365-2915.1989.tb00471.x
74108|T||Hogmire,H.W., M.W. Brown, and V.L. Crim|Toxicity of Slide Dip Application of Five Insecticides to Apple Aphid and Spirea Aphid (Homoptera:  Aphididae)|J. Entomol. Sci.25(1): 10-15|1990|10.18474/0749-8004-25.1.10
74109|T||Rinkleff,J.H., W.D. Hutchison, C.D. Campbell, P.C. Bolin, and D.W. Bartels|Insecticide Toxicity in European Corn Borer (Lepidoptera: Pyralidae):  Ovicidal Activity and Residual Mortality to Neonates|J. Econ. Entomol.88(2): 246-253|1995|10.1093/jee/88.2.246
74110|T||Lasota,J.A., and L.T. Kok|Residual Effects of Methomyl, Permethrin, and Fenvalerate on Pteromalus puparum (Hymenoptera: Pteromalidae) Adult Parasites|J. Econ. Entomol.79(3): 651-653|1986|10.1093/jee/79.3.651
74111|T||Ignoffo,C.M., and R.T. Roush|Susceptibility of Permethrin- and Methomyl-Resistant Strains of Heliothis virescens (Lepidoptera: Noctuidae) to Representative Species of Entomopathogens|J. Econ. Entomol.79(2): 334-337|1986|10.1093/jee/79.2.334
74112|T||Hayden,J.P., and A.J. Howitt|Ovicidal Activity of Insecticides on the Spotted Tentiform Leafminer (Lepidoptera: Gracillariidae)|J. Econ. Entomol.79(1): 258-260|1986|10.1093/jee/79.1.258
74113|T||David,P.J., and R.L. Horsburgh|Ovicidal Activity of Methomyl on Eggs of Pest and Beneficial Insects and Mites Associated with Apples in Virginia|J. Econ. Entomol.78(2): 432-436|1985|10.1093/jee/78.2.432
74114|T||Scott,J.G., and G.P. Georghiou|Rapid Development of High-Level Permethrin Resistance in a Field-Collected Strain of the House Fly (Diptera:  Muscidae) Under Laboratory Selection|J. Econ. Entomol.78(2): 316-319|1985|10.1093/jee/78.2.316
74115|T||Leonard,B.R., D.J. Boethel, A.N.Jr. Sparks, M.B. Layton, J.S. Mink, A.M. Pavloff, E. Burris, and J.B. Graves|Variations in Response of Soybean Looper (Lepidoptera:  Noctuidae) to Selected Insecticides in Louisiana|J. Econ. Entomol.83(1): 27-34|1990|10.1093/jee/83.1.27
74116|T||Tanigoshi,L.K., and J.M. Babcock|Insecticide Efficacy for Control of Lygus Bugs (Heteroptera:  Miridae) on White Lupin, Lupinus albus L.|J. Econ. Entomol.82(1): 281-284|1989|10.1093/jee/82.1.281
74117|T||Knight,A.L., and L.A. Hull|Response of Tufted Apple Bud Moth (Lepidoptera:  Tortricidae) Neonates to Selected Insecticides|J. Econ. Entomol.82(4): 1027-1032|1989|10.1093/jee/82.4.1027
74118|T||Rose,R.L., T.C. Sparks, and C.M. Smith|Insecticide Toxicity to the Soybean Looper and the Velvetbean Caterpillar (Lepidoptera:  Noctuidae) as Influenced by Feeding on Resistant Soybean (PI 227687) Leaves and Coumestrol|J. Econ. Entomol.81(5): 1288-1294|1988|10.1093/jee/81.5.1288
74119|T||Leonard,B.R., J.B. Graves, T.C. Sparks, and A.M. Pavloff|Variation in Resistance of Field Populations of Tobacco Budworm and Bollworm (Lepidoptera:  Noctuidae) to Selected Insecticides|J. Econ. Entomol.81(6): 1521-1528|1988|10.1093/jee/81.6.1521
74120|T||Salama,H.S., and S.M. Moawed|Joint Action of Nuclear Polyhedrosis Virus and Chemical Insecticides Against the Black Cutworm, Agrotis ipsilon (Hufn.)|Acta Biol. Hung.39(1): 99-107|1988|
74121|T||Lasota,J.A., A.M. Shelton, J.A. Bolognese, and R.A. Dybas|Toxicity of Avermectins to Diamondback Moth (Lepidoptera:  Plutellidae) Populations:  Implications for Susceptibility Monitoring|J. Econ. Entomol.89(1): 33-38|1996|10.1093/jee/89.1.33
74122|T||Kok,L.T., J.A. Lasota, T.J. McAvoy, and R.A. Dybas|"Residual Foliar Toxicity of 4""-Epi-Methylamino-4""-Deoxyavermectin B1 Hydrochloride (MK-243) and Selected Commercial Insecticides to Adult Hymenopterous Parasites, Pteromalus puparum (Hymenoptera: Pteromalidae) and Cotes"|J. Econ. Entomol.89(1): 63-67|1996|10.1093/jee/89.1.63
74123|T||Kanga,L.H.B., and F.W.,Jr. Plapp|Target-Site Insensitivity as the Mechanism of Resistance to Organophosphorus, Carbamate, and Cyclodiene Insecticides in Tobacco Budworm Adults|J. Econ. Entomol.88(5): 1150-1157|1995|10.1093/jee/88.5.1150
74124|T||McCutchen,B.F., K. Hoover, H.K. Preisler, M.D. Betana, R. Herrmann, J.L. Robertson, and B.D. Hammock|Interactions of Recombinant and Wild-Type Baculoviruses with Classical Insecticides and Pyrethroid-Resistant Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.90(5): 1170-1180|1997|10.1093/jee/90.5.1170
74125|T||Aldosari,S.A., T.F. Watson, S. Sivasupramaniam, and A.A. Osman|Susceptibility of Field Populations of Beet Armyworm (Lepidoptera:  Noctuidae) to Cyfluthrin, Methomyl, and Profenofos, and Selection for Resistance to Cyfluthrin|J. Econ. Entomol.89(6): 1359-1363|1996|10.1093/jee/89.6.1359
74126|T||Thomas,J.D., and D.J. Boethel|Synergism of Insecticides in Tests with Resistant Soybean Looper Larvae (Lepidoptera:  Noctuidae) in the Laboratory and Field|J. Econ. Entomol.87(6): 1416-1422|1994|10.1093/jee/87.6.1416
74127|T||Hollingsworth,R.G., B.E. Tabashnik, D.E. Ullman, M.W. Johnson, and R. Messing|Resistance of Aphis gossypii (Homoptera:  Aphididae) to Insecticides in Hawaii:  Spatial Patterns and Relation to Insecticide Use|J. Econ. Entomol.87(2): 293-300|1994|10.1093/jee/87.2.293
74128|T||Rathman,R.J., M.W. Johnson, B.E. Tabashnik, and K.M. Spollen|Variation in Susceptibility to Insecticides in the Leafminer Parasitoid Ganaspidium utilis (Hymenoptera:  Eucoilidae)|J. Econ. Entomol.88(3): 475-479|1995|10.1093/jee/88.3.475
74129|T||Shlosberg,A., M. Bellaiche, V. Hanji, and E. Ershov|New Treatment Regimens in Organophosphate (Diazinon) and Carbamate (Methomyl) Insecticide-Induced Toxicosis in Fowl|Vet. Hum. Toxicol.39(6): 347-350|1997|
74130|T||Tsatsakis,A.M., M.I. Tutudaki, M.N. Tzatzarakis, K. Psaroudakis, G.P. Dolapsakis, and M.N. Michalodimitrakis|Pesticide Deposition in Hair:  Preliminary Results of a Model Study of Methomyl Incorporation into Rabbit Hair|Vet. Hum. Toxicol.40(4): 200-203|1998|
74131|T||Abo El-Ghar,G.E.S., and A.E.G.M. El-Sayed|Long-Term Effects of Insecticides on Diaeretiella rapae (M'Intosh), a Parasite of the Cabbage Aphid|Pestic. Sci.36(2): 109-114|1992|10.1002/ps.2780360205
74132|T||Tsagkarakou,A., N. Pasteur, A. Cuany, C. Chevillon, and M. Navajas|Mechanisms of Resistance to Organophosphates in Tetranychus urticae (Acari:  Tetranychidae) from Greece|Insect Biochem. Mol. Biol.32(4): 417-424|2002|10.1016/S0965-1748(01)00118-7
74133|T||Elzen,G.W., P.J. O'Brien, and J.E. Powell|Toxic and Behavioral Effects of Selected Insecticides on the Heliothis Parasitoid Microplitis croceipes|Entomophaga34(1): 87-94|1989|10.1007/BF02372591
74134|T||Knight,A.L., and L.A. Hull|Linking Insecticide Bioassays with Residue Analyses to Evaluate Control of Platynota idaeusalis (Lepidoptera:  Tortricidae) Neonates on Apple:  Seasonal Spray Program|J. Econ. Entomol.85(3): 932-938|1992|10.1093/jee/85.3.932
74135|T||Sances,F.V., L.K. Gaston, R. Campos, M. Dusch, and N.C. Toscano|Multiple Insecticide Treatments Affect Harvest Residues of Lettuce|J. Econ. Entomol.86(6): 1781-1785|1993|10.1093/jee/86.6.1781
74136|T||Pree,D.J., D.B. Marshall, and D.E. Archibald|Resistance to Methomyl in Populations of the Spotted Tentiform Leafminer (Lepidoptera:  Gracillariidae) from Southern Ontario|J. Econ. Entomol.83(2): 320-324|1990|10.1093/jee/83.2.320
74137|T||Konno,T., and O. Kajihara|Synergism of Pirimicarb and Organophosphorus Insecticides Against the Resistant Rice Stem Borer, Chilo suppressalis Walker (Lepidoptera:  Pyralidae)|Appl. Entomol. Zool.20(4): 403-410|1985|10.1303/aez.20.403
74138|T||Noppun,V., T. Miyata, and T. Saito|Laboratory Selection for Resistance with Phenthoate and Fenvalerate in the Diamond-Back Moth, Plutella xylostella L. (Lepidoptera: Yponomeutidae)|Crop Prot.5(5): 323-327|1986|10.1016/0261-2194(86)90111-0
74139|T||Maniania,N.K., S. Ekesi, B. Lohr, and F. Mwangi|Prospects for Biological Control of the Western Flower Thrips, Frankliniella occidentalis, with the Entomopathogenic Fungus, Metarhizium anisopliae, on Chrysanthemum|Mycopathologia155(4): 229-235|2001|10.1023/A:1021177626246
74140|T||Radwan,M.A., H.B. El-Wakil, and K.A. Osman|Toxicity and Biochemical Impact of Certain Oxime Carbamate Pesticides Against Terrestrial Snail, Theba pisana (Muller)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(6): 759-773|1992|
74141|T||Kuehnle,A.R., and E.D. Earle|In Vitro Selection for Methomyl Resistance in CMS-T Maize|Theor. Appl. Genet.78(5): 672-682|1989|10.1007/BF00262563
74143|T||Salama,H.S., M.R. Saleh, S. Moawed, and A. Shams El-Din|Spray and Dust Applications of Bacillus thuringiensis Berliner and Lannate Against Spodoptera littoralis (Boisd.) (Lep., Noctuidae) on Soybean Plants in Egypt|J. Appl. Entomol.109(2): 194-199|1990|10.1111/j.1439-0418.1990.tb00037.x
74144|T||Trumble,J.T.|Integrated Pest Management of Liriomyza trifolii:  Influence of Avermectin, Cyromazine, and Methomyl on Leafminer Ecology in Celery|Agric. Ecosyst. Environ.12(3): 181-188|1985|10.1016/0167-8809(85)90109-4
74145|T||Khalil,S.K., M.A. Shah, and M. Naeem|Laboratory Studies on the Compatibility of the Entomopathogenic Fungus Verticillium lecanii with Certain Pesticides|Agric. Ecosyst. Environ.13(3/4): 329-334|1985|10.1016/0167-8809(85)90021-0
74146|T||Brandenburg,R.L.|Interaction of Alfalfa Plant Height and Insecticide Carrier Application Rates on Beneficial Arthropod Populations|Agric. Ecosyst. Environ.13(2): 159-166|1985|10.1016/0167-8809(85)90058-1
74147|T||Lenzi,G., F. Caporale, and S. Roffeni Tiraferri|Results of Trials with Methomyl for the Control of Prays oleae (Bern.)|In: R.Cavalloro and A.Crovetti (Eds.), Commission of the European Communities, International Organization for Biological Control, Paris, France:257-258|1985|
74148|T||Omer,A.D., M.W. Johnson, B.E. Tabashnik, H.S. Costa, and D.E. Ullman|Sweetpotato Whitefly Resistance to Insecticides in Hawaii:  Intra-island Variation is Related to Insecticide Use|Entomol. Exp. Appl.67(2): 173-182|1993|10.1111/j.1570-7458.1993.tb01666.x
74149|T||Jalaluddin,M., and M. Mohanasundaram|Residual Toxicity of Four Insecticides Recommended for Control of Coconut Coccids on the Parasitoid Fauna of Opisina arenosella Wlk.|Entomon14(3-4): 199-202|1989|
74150|T||Gencsoylu,I., W. Liu, K.A. Usmani, and C.O. Knowles|Toxicological Studies of the Carbamates Methomyl and Bendiocarb in the Bulb Mite Rhizoglyphus echinopus (Acari:  Acaridae)|Exp. Appl. Acarol.22(3): 157-166|1998|10.1023/A:1006054012500
74151|T||Schuster,D.J.|Life-Stage Specific Toxicity of Insecticides to Parasitoids of Liriomyza trifolii (Burgess) (Diptera: Agromyzidae)|Int. J. Pest Manag.40(2): 191-194|1994|10.1080/09670879409371880
74152|T||Bhanukiran,Y., P.A. Rao, and K.T. Rao|Management of Spodoptera litura (Fabricius) on Groundnut with Combinations of Insecticides and Eco-friendly Chemicals|J. Entomol. Res.21(1): 71-74|1997|
74153|T||El-Sayed,E.I., A.H. Mohanna, and M.M. Abedl-Sattar|Patterns of Cross-Resistance in Endrin and Methomyl Selected Strains of the Egyptian Cotton Leafworm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt13:17-24|1983|
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74157|T||Hebert,C.D., M.W. Harris, M.R. Elwell, and L.S. Birnbaum|Relative Toxicity and Tumor-Promoting Ability of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD), 2,3,4,7,8-Pentachlorodibenzofuran (PCDF), and 1,2,3,4,7,8-Hexachlorodibenzofuran (HCDF) in Hairless Mice|Toxicol. Appl. Pharmacol.102(2): 362-377|1990|10.1016/0041-008X(90)90033-Q
74158|T||Chu,I., D.C. Villeneuve, A. Yagminas, P. Lecavalier, H. Hakansson, U.G. Ahlborg, V.E. Valli, S.W. Kennedy, A. Bergman, |Toxicity of PCB 77 (3,3',4,4'-Tetrachlorobiphenyl) and PCB 118 (2,3',4,4',5-Pentachlorobiphenyl) in the Rat Following Subchronic Dietary Exposure|Fundam. Appl. Toxicol.26(2): 282-292|1995|10.1006/faat.1995.1099
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74166|T||Zhao,F., K. Mayura, N. Harper, S.H. Safe, and T.D. Phillips|Inhibition of 3,3',4,4',5-Pentachlorobipheyl-Induced Fetal Cleft Palate and Immunotoxicity in C547BL/6 Mice by 2,2',4,4',5,5'-Hexachlorobiphenyl|Chemosphere34(5-7): 1605-1613|1997|10.1016/S0045-6535(97)00456-6
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74170|T||Pree,D.J., K.J. Whitty, L.A. Bittner, and M.K. Pogoda|Mechanisms of Resistance to Organophosphorus Insecticides in Populations of the Obliquebanded Leafroller Choristoneura rosaceana (Harris) (Lepidoptera: Tortricidae) from Southern Ontario|Pest Manag. Sci.59(1): 79-84|2002|10.1002/ps.608
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74173|T||Nielsen,S.L.|Postharvest Sprayings with 2 Systemic Pesticides Against the Black Currant Gall Mite (Cecidophyopsis ribis Westw.) on Black Currant (Ribes nigrum )|Tidsskr. Planteavl (Multiple Languages)90(4): 385-388|1986|
74174|T||Martin,S.H., G.W. Elzen, J.B. Graves, S. Micinski, B.R. Leonard, and E. Burris|Toxicological Responses of Tobacco Budworm (Lepidoptera:  Noctuidae) from Louisiana, Mississippi, and Texas to Selected Insecticides|J. Econ. Entomol.88(3): 505-511|1995|10.1093/jee/88.3.505
74175|T||Wei,L.Y., J.S. Chao, and C.C. Hong|Assessment of the Ability of Propoxur, Methomyl, and Aldicarb, Three Carbamate Insecticides, to Induce Micronuclei In Vitro in Cultured Chinese Hamster Ovary Cells and In Vivo in BALB/c Mice|Environ. Mol. Mutagen.29(4): 386-393|1997|10.1002/(SICI)1098-2280(1997)29:4<386::AID-EM7>3.0.CO;2-8
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74177|T||Vythilingam,I., J. Jeffery, P. Oothuman, A.R. Abdul Razak, and A. Sulaiman|Cockroaches from Urban Human Dwellings:  Isolation of Bacterial Pathogens and Control|Southeast Asian J. Trop. Med. Public Health28(1): 218-222|1997|
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74179|T||Van Birgelen,A.P.J.M., J. Van der Kolk, H. Poiger, M. Van den Berg, and A. Brouwer|Interactive Effects of 2,2',4,4',5,5'-Hexachlorobiphenyl and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Thyroid Hormone, Vitamin A, and Vitamin K Metabolism in the Rat|Chemosphere25(7-10): 1239-1244|1992|10.1016/0045-6535(92)90136-F
74180|T||Haake,J.M., S. Safe, K. Mayura, and T.D. Phillips|Aroclor 1254 as an Antagonist of the Teratogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Lett.38(3): 299-306|1987|10.1016/0378-4274(87)90012-9
74181|T||Safe,S., R. Bannister, D. Davis, J.M. Haake, T. Zacharewski, K. Mayura, and T.D. Phillips|Aroclor 1254 as a 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Antagonist in Mice|Chemosphere18(1-6): 709-714|1989|10.1016/0045-6535(89)90186-0
74182|T||Silkworth,J.B., D.S. Cutler, P.W. O'Keefe, and T. Lipinskas|Potentiation and Antagonism of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Effects in a Complex Environmental Mixture|Toxicol. Appl. Pharmacol.119(2): 236-247|1993|10.1006/taap.1993.1065
74183|T||Wilker,C., L. Johnson, and S. Safe|Effects of Developmental Exposure to Indole-3-Carbinol or 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Reproductive Potential of Male Rat Offspring|Toxicol. Appl. Pharmacol.141(1): 68-75|1996|10.1016/S0041-008X(96)80010-X
74184|T||Van der Kolk,J., A.P.J.M. Van Birgelen, H. Poiger, and C. Schlatter|Interactions of 2,2',4,4',5,5'-Hexachlorobiphenyl and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in a Subchronic Feeding Study in the Rat|Chemosphere25(12): 2023-2027|1992|10.1016/0045-6535(92)90040-X
74185|T||De Jongh,J., M. DeVito, R. Nieboer, L. Birnbaum, and M. Van den Berg|Induction of Cytochrome P450 Isoenzymes After Toxicokinetic Interactions Between 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 2,2',4,4',5,5'-Hexachlorobiphenyl in the Liver of the Mouse|Fundam. Appl. Toxicol.25(2): 264-270|1995|10.1006/faat.1995.1062
74187|T||Viluksela,M., B.U. Stahl, and K.K. Rozman|Subchronic (13-Week) Toxicity of Heptachlorodibenzo-p-Dioxin in Male Sprague-Dawley Rats|Chemosphere29(9-11): 2381-2393|1994|10.1016/0045-6535(94)90407-3
74188|T||DeVito,M.J., and L.S. Birnbaum|The Importance of Pharmacokinetics in Determining the Relative Potency of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 2,3,7,8-Tetrachlorodibenzofuran|Fundam. Appl. Toxicol.24(1): 145-148|1995|10.1006/faat.1995.1016
74189|T||Harper,N., K. Connor, M. Steinberg, and S. Safe|Immunosuppressive Activity of Polychlorinated Biphenyl Mixtures and Congeners:  Nonadditive (Antagonistic) Interactions|Fundam. Appl. Toxicol.27(1): 131-139|1995|10.1006/faat.1995.1116
74190|T||Dickerson,R., L. Howie, D. Davis, and S. Safe|The Structure-Dependent Effects of Heptachlorodibenzofuran Isomers in Male C57BL/6 Mice:  Immunotoxicity and Monooxygenase Enzyme Induction|Fundam. Appl. Toxicol.15(2): 298-307|1990|10.1016/0272-0590(90)90056-P
74191|T||Hakansson,H., E. Manzoor, C. Trossvik, U.G. Ahlborg, I. Chu, and D. Villenueve|Effect on Tissue Vitamin A Levels in the Rat Following Subchronic Exposure to Four Individual PCB Congeners (IUPAC 77, 118, 126, and 153)|Chemosphere29(9-11): 2309-2313|1994|10.1016/0045-6535(94)90399-9
74192|T||Sargent,L., Y.P. Dragan, C. Erickson, C.J. Laufer, and H.C. Pitot|Study of the Separate and Combined Effects of the Non-planar 2,5,2',5'- and the Planar 3,4,3',4'-Tetrachlorobiphenyl in Liver and Lymphocytes In Vivo|Carcinogenesis12(5): 793-800|1991|10.1093/carcin/12.5.793
74193|T||Morrissey,R.E., M.W. Harris, J.J. Diliberto, and L.S. Birnbaum|Limited PCB Antagonism of TCDD-Induced Malformations in Mice|Toxicol. Lett.60(1): 19-25|1992|10.1016/0378-4274(92)90043-J
74194|T||Voorman,R., and S.D. Aust|Specific Binding of Polyhalogenated Aromatic Hydrocarbon Inducers of Cytochrome P-450d to the Cytochrome and Inhibition of Its Estradiol 2-Hydroxylase Activity|Toxicol. Appl. Pharmacol.90(1): 69-78|1987|10.1016/0041-008X(87)90307-3
74195|T||Connor,K., S. Safe, C.R. Jefcoate, and M. Larsen|Structure-Dependent Induction of CYP2B by Polychlorinated Biphenyl Congeners in Female Sprague-Dawley Rats|Biochem. Pharmacol.50(11): 1913-1920|1995|10.1016/0006-2952(95)02087-X
74196|T||Birnbaum,L.S., M.W. Harris, E.R. Barnhart, and R.E. Morrissey|Teratogenicity of Three Polychlorinated Dibenzofurans in C57BL/6N Mice|Toxicol. Appl. Pharmacol.90(2): 206-216|1987|10.1016/0041-008X(87)90328-0
74197|T||Bannister,R., and S. Safe|The Effects of Receptor Antagonists on the AHH Induction Activity of 2,3,7,8-TCDD in C57BL/6 and DBA/2 Mice:  1,3,6,8-Tetrachlorodibenzofuran|Chemosphere16(8-9): 1739-1742|1987|10.1016/0045-6535(87)90160-3
74198|T||Ravetta,D., A. Vilela, D. Wassner, and N. Ciano|Tolerance of Grindelia chiloensis (Asteraceae) to Pre- and Postemergence Herbicides|Ind. Crops Prod.15(3): 207-211|2002|10.1016/S0926-6690(01)00115-7
74199|A||Mersch,J., M.N. Beauvais, and P. Nagel|Induction of Micronuclei in Haemocytes and Gill Cells of Zebra Mussels, Dreissena polymorpha, Exposed to Clastogens|Mutat. Res.371(1/2): 47-55|1996|10.1016/S0165-1218(96)90093-2
74200|A||Windham,L., J.S. Weis, and P. Weis|Uptake and Distribution of Metals in Two Dominant Salt Marsh Macrophytes, Spartina alterniflora (Cordgrass) and Phragmites australis (Common Reed)|Estuar. Coast. Shelf Sci.56(1): 63-72|2003|10.1016/S0272-7714(02)00121-X
74201|T||Sumathi,S., and B.S. Manju|Uptake of Reactive Textile Dyes by Aspergillus foetidus|Enzyme Microb. Technol.27(6): 347-355|2000|10.1016/S0141-0229(00)00234-9
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74207|A||Bovee,E.C.|Effects of Selected Chemicals on Movement, Growth and Survival of Certain Aquatic Animal Life|Kansas Water Resources Research Institute, University of Kansas, Lawrence, KS:64 p.|1976|
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74214|T||Besplug,J., J. Filkowski, P. Burke, I. Kovalchuk, and O. Kovalchuk|Atrazine Induces Homologous Recombination but not Point Mutation in the Transgenic Plant-Based Biomonitoring Assay|Arch. Environ. Contam. Toxicol.46(3): 296-300|2004|10.1007/s00244-003-3075-9
74215|T||Odendaal,J.P., and A.J. Reinecke|Effect of Metal Mixtures (Cd and Zn) on Body Weight in Terrestrial Isopods|Arch. Environ. Contam. Toxicol.46(3): 377-384|2004|10.1007/s00244-003-2303-7
74216|T||James,S.M., E.E. Little, and R.D. Semlitsch|Effects of Multiple Routes of Cadmium Exposure on the Hibernation Success of the American Toad (Bufo americanus)|Arch. Environ. Contam. Toxicol.46(4): 518-527|2004|10.1007/s00244-003-3005-x
74217|T||Niemann,L., B. Selzsam, W. Haider, C. Gericke, and I. Chahoud|Effects of Vinclozolin on Spermatogenesis and Reproductive Success in the Japanese Quail (Coturnix coturnix japonica)|Arch. Environ. Contam. Toxicol.46(4): 528-533|2004|10.1007/s00244-003-2285-5
74218|A||Crichton,C.A., A.U. Conrad, and D.J. Baird|Assessing Stream Grazer Response to Stress:  A Post-Exposure Feeding Bioassay Using the Freshwater Snail Lymnaea peregra (Muller)|Bull. Environ. Contam. Toxicol.72(3): 564-570|2004|10.1007/s00128-004-0281-8
74219|A||Camargo,J.A.|Effects of Body Size and Sodium Chloride on the Tolerance of Net-Spinning Caddisfly Larvae to Fluoride Toxicity|Bull. Environ. Contam. Toxicol.72(3): 579-585|2004|10.1007/s00128-004-0283-6
74220|A||Singh,S.K., P.K. Tripathi, R.P. Yadav, D. Singh, and A. Singh|Toxicity of Malathion and Carbaryl Pesticides: Effects on Some Biochemical Profiles of the Freshwater Fish Colisa fasciatus|Bull. Environ. Contam. Toxicol.72(3): 592-599|2004|10.1007/s00128-004-0285-4
74221|A||Ingham,R.R., D.A. Gesualdi, C.R. Toth, and E.D. Clotfelter|Effects of Genistein on Growth and Development of Aquatic Vertebrates|Bull. Environ. Contam. Toxicol.72(3): 625-631|2004|10.1007/s00128-004-0289-0
74222|A||Barcarolli,I.F., and C.B.R. Martinez|Effects of Aluminum in Acidic Water on Hematological and Physiological Parameters of the Neotropical Fish Leporinus macrocephalus (Anostomidae)|Bull. Environ. Contam. Toxicol.72(3): 639-646|2004|10.1007/s00128-004-0291-6
74223|A||Smith,B.C., C.A. Curran, K.W. Brown, J.L. Cabarrus, J.B. Gown, J.K. McIntyre, E.E. Moreland, V.L. Wong, J.M. Grassley, |Toxicity of Four Surfactants to Juvenile Rainbow Trout:  Implications for Use over Water|Bull. Environ. Contam. Toxicol.72(3): 647-654|2004|10.1007/s00128-004-0292-5
74224|A||Redick,M.S., and T.W. La Point|Effects of Sublethal Copper Exposure on Behavior and Growth of Rana pipiens Tadpoles|Bull. Environ. Contam. Toxicol.72(4): 706-710|2004|10.1007/s00128-004-0302-7
74225|A||Garcia,G.G., S. Nandini, and S.S.S. Sarma|Effect of Cadmium on the Population Dynamics of Moina macrocopa and Macrothrix triserialis (Cladocera)|Bull. Environ. Contam. Toxicol.72(4): 717-724|2004|10.1007/s00128-004-0304-5
74226|A||Drastichova,J., Z. Svobodova, V. Luskova, and J. Machova|Effect of Cadmium on Hematological Indices of Common Carp (Cyprinus carpio L.)|Bull. Environ. Contam. Toxicol.72(4): 725-732|2004|
74227|A||Drastichova,J., Z. Svobodova, V. Luskova, O. Celechovska, and P. Kalab|Effect of Cadmium on Blood Plasma Biochemistry in Carp (Cyprinus carpio L.)|Bull. Environ. Contam. Toxicol.72(4): 733-740|2004|10.1007/s00128-004-0306-3
74228|A||Pratap,H.B., and S.E. Wendelaar Bonga|Mineral Composition and Cadmium Accumulation in Oreochromis mossambicus Exposed to Waterborne Cadmium|Bull. Environ. Contam. Toxicol.72(4): 741-749|2004|10.1007/s00128-004-0307-2
74229|A||Kutlu,M., and F. Susuz|Effects of Lead as an Environmental Pollutant on EROD Enzyme in Gammarus pulex (L.) (Crustacea:  Amphipoda)|Bull. Environ. Contam. Toxicol.72(4): 750-755|2004|10.1007/s00128-001-0308-1
74230|A||Bulus Rossini,G.D., and A.E. Ronco|Sensitivity of Cichlasoma facetum (Cichlidae, Pisces) to Metals|Bull. Environ. Contam. Toxicol.72(4): 763-768|2004|10.1007/s00128-004-0310-7
74231|A||Zhou,P.J., H. Shen, J. Lin, L.R. Song, Y.D. Liu, and Z.B. Wu|Kinetic Studies on the Effects of Organophosphorus Pesticides on the Growth of Microcystis aeruginosa and Uptake of the Phosphorus Forms|Bull. Environ. Contam. Toxicol.72(4): 791-797|2004|
74232|A||Gonzalez-Barreiro,O., C. Rioboo, A. Cid, and C. Herrero|Atrazine-Induced Chlorosis in Synechococcus elongatus Cells|Arch. Environ. Contam. Toxicol.46(3): 301-307|2004|10.1007/s00244-003-2149-z
74233|A||Phyu,Y.L., M. St.J.Warne, and R.P. Lim|Toxicity of Atrazine and Molinate to the Cladoceran Daphnia carinata and the Effect of River Water and Bottom Sediment on Their Bioavailability|Arch. Environ. Contam. Toxicol.46(3): 308-315|2004|10.1007/s00244-003-2313-5
74234|A||Tsui,M.T.K., and L.M. Chu|Comparative Toxicity of Glyphosate-Based Herbicides:  Aqueous and Sediment Porewater Exposures|Arch. Environ. Contam. Toxicol.46(3): 316-323|2004|10.1007/s00244-003-2307-3
74235|A||Schroer,A.F.W., J.D.M. Belgers, T.C.M. Brock, A.M. Matser, S.J. Maund, and P.J. Van den Brink|Comparison of Laboratory Single Species and Field Population-Level Effects of the Pyrethroid Insecticide lambda-Cyhalothrin on Freshwater Invertebrates|Arch. Environ. Contam. Toxicol.46(3): 324-335|2004|10.1007/s00244-003-2315-3
74236|A||Conners,D.E., and M.C. Black|Evaluation of Lethality and Genotoxicity in the Freshwater Mussel Utterbackia imbecillis (Bivalvia:  Unionidae) Exposed Singly and in Combination to Chemicals Used in Lawn Care|Arch. Environ. Contam. Toxicol.46(3): 362-371|2004|10.1007/s00244-003-3003-z
74237|A||Lefcort,H., D.P. Abbott, D.A. Cleary, E. Howell, N.C. Keller, and M.M. Smith|Aquatic Snails from Mining Sites have Evolved to Detect and Avoid Heavy Metals|Arch. Environ. Contam. Toxicol.46(4): 478-484|2004|10.1007/s00244-003-3029-2
74238|A||Foran,C.M., J. Weston, M. Slattery, B.W. Brooks, and D.B. Huggett|Reproductive Assessment of Japanese Medaka (Oryzias latipes) Following a Four-Week Fluoxetine (SSRI) Exposure|Arch. Environ. Contam. Toxicol.46(4): 511-517|2004|10.1007/s00244-003-3042-5
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74241|T||DeBaun,J.R., D.L. Bova, C.K. Tseng, and J.J. Menn|Metabolism of (Ring-14C) Ordram (Molinate) in the Rat.  2.  Urinary Metabolite Identification|J. Agric. Food Chem.26(5): 1098-1104|1978|10.1021/jf60219a007
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74244|T||Lee,H.L., O. Abimbola, and K.I. Singh|Determination of Insecticide Susceptibility in Culex quinquefasciatus Say Adults by Rapid Enzyme Microassays|Southeast Asian J. Trop. Med. Public Health23(3): 458-463|1992|
74245|A||Voronova,L.D., and I.G. Pushkar|Evaluating the Impacts of Agricultural Pesticides and Herbicides on Aquatic Biota|In: P.M.Mehrle,Jr., R.H.Gray, and R.L.Kendall (Eds.), Toxic Substances in the Aquatic Environment: An International Aspect, Int.Symp.held in Conjunct.of the 112th Annu.Meet.of the Am.Fish.Soc., Sept.24, 1982, Hilton Head, SC, Am.Fish.Soc., Bethesda, MD:23|1985|
74247|T||Sulaiman,S., M.A. Karim, B. Omar, and S. Omar|Field Evaluation of Alphacypermethrin and lambda-Cyhalothrin Against Aedes aegypti and Aedes albopictus in Malaysia|Am. Mosq. Control Assoc. J.11(1): 54-58|1995|
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74251|T||Kaya,B., R. Marcos, A. Yanikoglu, and A. Creus|Evaluation of the Genotoxicity of Four Herbicides in the Wing Spot Test of Drosophila melanogaster Using Two Different Strains|Mutat. Res.557(1): 53-62|2004|10.1016/j.mrgentox.2003.09.010
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74255|A||Zemkov,G.V., and D.L. Teplyy|Microstructural Changes in the Brain of Juvenille Beluga, Huso huso (Acipenseridae), from Jalan Poisoning|J. Ichthyol.23(6): 133-139|1983|
74256|T||Ho,T.M., and M.K. Fauziah|Laboratory Evaluation of Two Commercial Repellants Against Leptotrombidium fletcheri (Acari:  Trombiculidae)|Southeast Asian J. Trop. Med. Public Health24(1): 165-169|1993|
74257|T||Nazni,W.A., M.P. Ursula, H.L. Lee, and I. Sa'diyah|Susceptibility of Musca domestica L. (Diptera:  Muscidae) from Various Breeding Sites to Commonly Used Insecticides|J. Vector Ecol.23(2): 54-60|1999|
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74259|T||Zarida,H., W.N. Wan Zurinah, J. Zanariah, L.K.C. Michael, and B.A.K. Khalid|Effect of Ovariectomy and Sex Hormones Replacement on Tumour Marker Enzymes Under Administration of Chemical Carcinogens in the Rat|Exp. Toxicol. Pathol.46(1): 31-36|1994|10.1016/S0940-2993(11)80010-2
74260|T||Longstaff,M., and R. Hill|The Influence of Manganese in Association with Other Dietary Components on Certain Shell Characteristics|Br. Poult. Sci.12:169-178|1971|10.1080/00071667108415867
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74266|T||Chanda,S.V., and N.G. Parmar|Effects of Chromium on Hypocotyl Elongation, Wall Components, and Peroxidase Activity of Phaseolus vulgaris Seedlings|N. Z. J. Crop Hortic. Sci.31(2): 115-124|2003|10.1080/01140671.2003.9514244
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74268|T||Corradi,M.G., M. Levi, R. Musetti, and M.A. Favali|The Effect of Cr (VI) on Different Inbred Lines of Zea mays:  I.  Nuclei and Cell Cycle in the Root Tip Tissue|Protoplasma (Multiple Languages)162(1): 12-19|1991|10.1007/BF01403896
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74272|T||Zavadil,J.|Evaluating the Suitability of Water for Irrigation by Acute Toxicity Tests with White Mustard|Sci. Agric. Bohemoslov.20(1): 1-8|1988|
74273|A||Olguin,E.J., E. Hernandez, and I. Ramos|The Effect of both Different Light Conditions and the pH Value on the Capacity of Salvinia minima Baker for Removing Cadmium, Lead and Chromium|Acta Biotechnol.22(1-2): 121-131|2002|10.1002/1521-3846(200205)22:1/2<121::AID-ABIO121>3.0.CO;2-F
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74277|T||Schmidt,O., and U. Moreth-Kebernik|Breeding and Toxicant Tolerance of the Dry Rot Fungus Serpula lacrymans (Kreuzungs - und Hemmstofftoleranzversuche bei dem Hausschwamm Serpula Lacrymans)|Mycol. Helv.3(3): 303-314|1989|
74278|T||Ikarashi,Y., J. Momma, T. Tsuchiya, and A. Nakamura|Evaluation of Skin Sensitization Potential of Nickel, Chromium, Titanium and Zirconium Salts Using Guinea-Pigs and Mice|Biomaterials17(21): 2103-2108|1996|10.1016/0142-9612(96)00038-5
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74280|T||Kalimuthu,K., and K.K. Lakshmanan|Effect of Heavy Metals on Eucalyptus Pollen|Acta Bot. Indica19(2): 296-298|1991|
74281|T||Bhagat,R.M., S.I. Bhuiyan, and K. Moody|Water, Tillage and Weed Management Options for Wet Seeded Rice in the Philippines|Soil Tillage Res.52(1-2): 51-58|1999|10.1016/S0167-1987(99)00057-4
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74298|T||Anjum,F., A.R. Shakoori, and J.W. Gorrod|Effect of Hexavalent Chromium on Drug-Metabolizing Enzymes in Male Domesticated Rabbits|J. Environ. Pathol. Toxicol. Oncol.15(1): 41-50|1996|
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74314|T||Visalakshmi,V., P.A. Rao, and P.V. Krishnayya|Efficacy of Chitin Inhibitor and Bacillus thuringiensis Ber. Used Either Alone or in Combination with Certain Insecticides Against Spodoptera litura Fab. Infesting Sunflower|J. Entomol. Res.24(4): 369-373|2000|
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74323|T||Man,A., and E.S. Lim|Chemical Weed Control in Direct Seeded Rice:  The Evaluation of Selected Herbicides for Phytotoxicity to the Rice Plant|Pertanika9(1): 23-33|1986|
74324|T||Zimmerman,L.J., H.L. Valentine, and W.M. Valentine|Characterization of S-(N,N-Dialkylaminocarbonyl)Cysteine Adducts and Enzyme Inhibition Produced by Thiocarbamate Herbicides in the Rat|Chem. Res. Toxicol.17(2): 258-267|2004|10.1021/tx034209c
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74330|T||Lee,H.L., M.S. Khadri, and Y.F. Chiang|Preliminary Field Evaluation of the Combined Adulticidal, Larvicidal, and Wall Residual Activity of ULV-Applied Bifenthrin Against Mosquitoes|J. Vector Ecol.22(2): 146-149|1997|
74331|T||Ho,T.M., and S. Ismail|Efficacy of Three Pyrethroids Against Leptotrombidium fletcheri (Acari:  Trombiculidae) Infected and Noninfected with Scrub Typhus|J. Med. Entomol.28(6): 776-779|1991|10.1093/jmedent/28.6.776
74332|T||Lee,H.L.|Field Evaluation of an Ultra-Low-Volume Aerosol Generator Against Aedes Mosquitoes|Mosq. Borne Dis. Bull.8(4): 127-130|1991|
74333|T||Kamarudin,K.A., C.H. Lee, and J.A. Munir|Wood-Rat (Rattus tiomanicus Miller) Population Build-Up in a Cocoa-Coconut Plantation After Field-Poisoning|MARDI Res. J.19(2): 239-249|1991|
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74340|T||Saleh,F.|Metabolic Effects of the Carbamate Insecticide (Methomyl) on Rats.  II - Changes in Serum Cholinesterase and Transaminases Following Treatment of the Insecticide|Egypt. J. Physiol. Sci.14(1-2): 55-64|1990|
74341|T||Saleh,F.|Metabolic Effects of the Carbamate Insecticide (Methomyl) on Rats. III - Changes in Some Blood Biochemical Indices in the Rats Poisoned with the Insecticide|Egypt. J. Physiol. Sci.14(1-2): 65-74|1990|
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74347|T||Bracy,O.L., R.S. Doyle, M. Kennedy, S.M. McNally, J.D. Weed, and B.M. Thorne|Effects of Methomyl and Ethanol on Behavior in the Sprague-Dawley Rat|Pharmacol. Biochem. Behav.10(1): 21-25|1979|10.1016/0091-3057(79)90163-1
74348|T||El-Medany,A., G. El-Medany, and A.E. Rahmy|Evaluation of the Effect of Methomyl Insecticide on the Testicular Function in Normal Albino Rats. (Hormonal, Histological and Histochemical Study)|J. Med. Res. Inst.14(3): 165-187|1993|
74349|T||Raju,R.A., and K.A. Reddy|Comparison of Application Methods for Chemical Weed Control in Rice|Plant Prot. Q.7(1): 26-27|1992|
74350|T||Jacobson,R.M., and M. Thriugnanam|New Selective Systemic Aphicides|ACS Symp. Ser.26:322-339|1990|
74351|T||Gibson,K.D., J.E. Hill, T.C. Foin, B.P. Caton, and A.J. Fischer|Water-Seeded Rice Cultivars Differ in Ability to Interfere with Watergrass|Agron. J.93(2): 326-332|2001|10.2134/agronj2001.932326x
74356|T||Eya,B.K., and T.R. Fukuto|Formamidine-S-Carbamates:  A New Procarbamate Analogue with Improved Ovicidal and Acaricidal Activities|J. Agric. Food Chem.34(6): 947-952|1986|10.1021/jf00072a004
74357|T||Dutton,F.E., E.G. Gemrich II, B.L. Lee, S.J. Nelson, P.H. Parham, and W.J. Seaman|Insecticidal Phosphorinanylaminothio Derivatives of the Carbamate Methomyl|J. Agric. Food Chem.29(6): 1114-1118|1981|10.1021/jf00108a003
74358|T||Harvey,J.,Jr., and R.W. Reiser|Metabolism of Methomyl in Tobacco, Corn, and Cabbage|J. Agric. Food Chem.21(5): 775-783|1973|10.1021/jf60189a005
74359|T||Kiigemagi,U., and M.L. Deinzer|Dislodgeable and Total Residues of Methomyl on Mint Foliage|Bull. Environ. Contam. Toxicol.22(4/5): 517-521|1979|10.1007/BF02026980
74360|T||Niazi,F.R., S.P. Raychaudhuri, and K. Mahmood|Effect of Seed Dressing Sunnhemp for the Prevention of Tobacco Mosaic Virus Infection|Trop. Pest Manag.28(3): 238-241|1982|10.1080/09670878209370716
74362|T||Shaaban,A.M., M.S. El-Zemaity, A.M.K. Sobeiha, and A.M. Amin|Chemical Degradation and Bioeffectiveness of Methomyl and Pyridaphenthion on and in Lettuce and Bean Leaves|Ann. Agric. Sci.31(2): 1479-1493|1986|
74363|T||Saafan,S.E., and I.Y. Mostafa|Effect of Combined Treatment of Methomyl and Lindane on the Activities of Auxins and Gibberellins in Zea mays Plants|Egypt. J. Physiol. Sci.19(1/2): 229-239|1995|
74364|T||Garcia,M.D.G., J.L.M. Vidal, M.M. Galera, C.R. Torreblanca, and C. Gonzalez|Determination and Degradation of Methomyl in Tomatoes and Green Beans Grown in Greenhouses|J. AOAC Int.80(3): 633-638|1997|10.1093/jaoac/80.3.633
74365|A||Weeks,J.M., and P.S. Rainbow|Interspecific Comparisons of Relative Assimilation Efficiencies for Zinc and Cadmium in an Ecological Series of Talitrid Amphipods (Crustacea)|Oceanologia (Wroc.)97(2): 228-235|1994|
74370|T||Andersen,P.C., R.F. Mizell, W.J. French, and J.H. Aldrich|Effect of Multiple Applications of Pesticides on Leaf Gas Exchange of Peach|Hortscience21(3): 508-510|1986|10.21273/HORTSCI.21.3.508
74371|T||McNamara,D.G., and R.S. Pitcher|The Control of Arabis Mosaic Virus in Hops by Soil Fumigation and Fallowing|Agro-Ecosystems1:123-129|1974|10.1016/0304-3746(74)90020-1
74372|T||Toriba,M., S. Senbo, and Y. Kosuge|New Dermal Toxicants and Methods of Application for Venomous Snakes|In: G.H.Rodda, Y.Sawai, D.Chiszar, and H.Tanaka (Eds.), Problem Snake Management: The Habu and the Brown Treesnake, Cornell Univ.Press, Ithaca, NY33:411-416|1999|
74373|T||Haga,T., Y. Tsujii, K. Hayashi, N. Kimura, N. Sakashita, and K.I. Fujikawa|Trifluoromethylpyridines as Building Blocks for New Agrochemicals.  Discovery of a New Turf Herbicide|ACS Symp. Ser.:107-120|1990|
74374|T||Fodor,A., P. Deak, and I. Kiss|Competition Between Juvenile Hormone Antagonist Precocene II and Juvenile Hormone Analog: Methoprene in the Nematode Caenorhabditis elegans|Gen. Comp. Endocrinol.46(1): 99-109|1982|10.1016/0016-6480(82)90168-X
74377|T||Srinivasan,G., and P. Pothiraj|Effect of Herbicide Mixtures in Transplanted Rice|Int. Rice Res. Newsl.14(4): 38-39|1989|
74379|T||Al-Baggou,B.K., and F.K. Mohammad|Antagonism of Methomyl-Induced Toxicosis by Diphenhydramine in Rats|Environ. Toxicol. Pharmacol.7(2): 119-125|1999|10.1016/S1382-6689(99)00002-2
74380|T||Thein,N., P. Moller, H. Amtoft, U. Vogel, B. Korsholm, H. Autrup, and H. Wallin|A Strong Genotoxic Effect in Mouse Skin of a Single Painting of Coal Tar in Hairless Mice and in MutaMouse|Mutat. Res.468(2): 117-124|2000|10.1016/S1383-5718(00)00050-4
74381|A||Stapleton,H.M., R.J. Letcher, J. Li, and J.E. Baker|Dietary Accumulation and Metabolism of Polybrominated Diphenyl Ethers by Juvenile Carp (Cyprinus carpio)|Environ. Toxicol. Chem.23(8): 1939-1946|2004|10.1897/03-462
74382|T||Salminen,J., M. Liiri, and J. Haimi|Responses of Microbial Activity and Decomposer Organisms to Contamination in Microcosms Containing Coniferous Forest Soil|Ecotoxicol. Environ. Saf.53(1): 93-103|2002|10.1006/eesa.2001.2215
74383|T||Russell,J.S., R.S. Halbrook, A. Woolf, J.B.,Jr. French, and M.J. Melancon|Blarina brevicauda as a Biological Monitor of Polychlorinated Biphenyls:  Evaluation of Hepatic Cytochrome P450 Induction|Environ. Toxicol. Chem.23(8): 1867-1873|2004|10.1897/03-329
74384|T||Tsuruda,L.S., M.W. Lame, and A.D. Jones|Formation of Epoxide and Quinone Protein Adducts in B6C3F1 Mice Treated with Naphthalene, Sulfate Conjugate of 1,4-Dihydroxynaphthalene and 1,4-Naphthoquinone|Arch. Toxicol.69(6): 362-367|1995|10.1007/s002040050185
74385|T||Hughes,N.C., W. Pfau, A. Hewer, J. Jacob, G. Grimmer, and D.H. Phillips|Covalent Binding of Polycyclic Aromatic Hydrocarbon Components of Coal Tar to DNA in Mouse Skin|Carcinogenesis14(1): 135-144|1993|10.1093/carcin/14.1.135
74386|T||Weyand,E.H., Y. Wu, S. Patel, B.B. Taylor, and D.M. Mauro|Urinary Excretion and DNA Binding of Coal Tar Components in B6C3F1 Mice Following Ingestion|Chem. Res. Toxicol.4(4): 466-473|1991|10.1021/tx00022a011
74387|T||Goldstein,L.S., E.H. Weyand, S. Safe, M. Steinberg, S.J. Culp, D.W. Gaylor, F.A. Beland, and L.V. Rodriguez|Tumors and DNA Adducts in Mice Exposed to Benzo(a)pyrene and Coal Tars:  Implications for Risk Assessment|Environ. Health Perspect.106(suppl.6): 1325-1330|1998|10.1289/ehp.98106s61325
74388|T||Joner,E.J., D. Hirmann, O.H.J. Szolar, D. Todorovic, C. Leyval, and A.P. Loibner|Priming Effects on PAH Degradation and Ecotoxicity During a Phytoremediation Experiment|Environ. Pollut.128(3): 429-435|2004|10.1016/j.envpol.2003.09.005
74390|T||Koganti,A., R. Singh, B.L. Ma, and E.H. Weyand|Comparative Analysis of PAH:DNA Adducts Formed in Lung of Mice Exposed to neat Coal Tar and Soils Contaminated with Coal Tar|Environ. Sci. Technol.35(13): 2704-2709|2001|10.1021/es001532i
74391|T||Warshawsky,D., W. Barkley, and E. Bingham|Factors Affecting Carcinogenic Potential of Mixtures|Fundam. Appl. Toxicol.20(3): 376-382|1993|10.1006/faat.1993.1048
74393|T||Bordelon,N.R., K.C. Donnelly, L.C. King, D.C. Wolf, W.R. Reeves, and S.E. George|Bioavailability of the Genotoxic Components in Coal Tar Contaminated Soils in Fischer 344 Rats|Toxicol. Sci.56(1): 37-48|2000|10.1093/toxsci/56.1.37
74394|T||Mukhtar,H., C.M. Link, E. Cherniack, D.M. Kushner, and D.R. Bickers|Effect of Topical Application of Defined Constituents of Coal Tar on Skin and Liver Aryl Hydrocarbon Hydroxylase and 7-Ethoxycoumarin Deethylase Activities|Toxicol. Appl. Pharmacol.64(3): 541-549|1982|10.1016/0041-008X(82)90251-4
74395|T||Reeves,W.R., T.J. McDonald, N.R. Bordelon, S.E. George, and K.C. Donnelly|Impacts of Aging on In Vivo and In Vitro Measurements of Soil-Bound Polycyclic Aromatic Hydrocarbon Availability|Environ. Sci. Technol.35(8): 1637-1643|2001|10.1021/es0017110
74398|T||Balusamy,M., P. Pothiraj, V.S. Shanmugasundaram, and D. Purushothaman|Comparative Weed Control Efficiency of Molinate Formulations and Its Economics in Transplanted Rice|Pesticides 22(4): 13-16|1988|
74399|T||Balusamy,M., and P. Pothiraj|Chemical Control of Echinochloa spp. in Transplanted Rice|Pesticides 23(7): 31-35|1989|
74400|T||Singh,A.K., R.D. Singh, P.A. Sarkar, B. Ray, and A.K. Ghosh|Molinate Formulations for Weed Control in Transplanted Rice|Pesticides 20(5): 24-26|1986|
74401|T||Krishnasamy,S.M., P. Pothiraj, S. Palaniappan, and M.M. Sheriff|Cucumber Bio-assay Studies on the Residual Effect of Herbicides Applied to Rice|Indian J. Agron.33(4): 450-451|1988|
74402|A||Cohen,C., A. Stiller, and M.R. Miller|Characterization of Cytochrome P4501A Induction in Medaka (Oryzias latipes) by Samples Generated from the Extraction and Processing of Coal|Arch. Environ. Contam. Toxicol.27(3): 400-405|1994|10.1007/BF00213177
74403|A||Padma,T.V., R.C. Hale, M.H. Roberts, and R.N. Lipcius|Toxicity of Creosote Water-Soluble Fractions Generated from Contaminated Sediments to the Bay Mysid|Ecotoxicol. Environ. Saf.42(2): 171-176|1998|10.1006/eesa.1998.1738
74404|A||Chew,S.F., and Y.K. Ip|Cyanide Detoxification in the Mudskipper, Boleophthalmus boddaerti|J. Exp. Zool.261:1-8|1992|10.1002/jez.1402610102
74406|A||Lasut,M.T.|Effects of Salinity-Cyanide Interaction on the Mortality of Abalone Haliotis varia (Haliotidae:  Gastropoda)|Spec. Publ. - Phuket Mar. Biol. Cent. 19(1): 165-168|1999|
74407|A||Pablo,F., R.T. Buckney, and R.P. Lim|Toxicity of Cyanide and Iron-Cyanide Complexes to Australian Bass Macquaria novemaculeata and Black Bream Acanthopagrus butcheri|Australas. J. Ecotoxicol.2(2): 75-84|1996|
74408|A||Sangli,A.B., and V.V. Kanabur|Lethal Toxicity of Cyanide and Formalin to a Freshwater Fish Gambusia affinis|Environ. Ecol.18(2): 362-364|2000|
74412|A||Marwood,C.A., K.T.J. Bestari, R.W. Gensemer, K.R. Solomon, and B.M. Greenberg|Creosote Toxicity to Photosynthesis and Plant Growth in Aquatic Microcosms|Environ. Toxicol. Chem.22(5): 1075-1085|2003|10.1002/etc.5620220515
74413|A||Padma,T.V., R.C. Hale, and M.H.,Jr. Roberts|Toxicity of Water-Soluble Fractions Derived from Whole Creosote and Creosote-Contaminated Sediments|Environ. Toxicol. Chem.17(8): 1606-1610|1998|
74422|A||Sved,D.W., and M.H.,Jr. Roberts|A Novel Use for the Continuous-Flow Serial Diluter:  Aquatic Toxicity Testing of Contaminated Sediments in Suspension|Water Res.29(4): 1169-1177|1995|10.1016/0043-1354(94)00223-T
74423|A||Karrow,N.A., N.C. Bols, J.J. Whyte, K.R. Solomon, D.G. Dixon, and H.J. Boermans|Effects of Creosote Exposure on Rainbow Trout Pronephros Phagocyte Activity and the Percentage of Lymphoid B Cells|J. Toxicol. Environ. Health Part A63(5): 363-381|2001|10.1080/15287390152103661
74424|T||Muntan,L.|Weed Control in Paddy Rice with Bensulfuron Methyl + Molinate Mixtures in Spain and Portugal|Br. Crop Prot. Conf. Weeds:689-694|1989|
74425|T||Szejtli,J.|Cyclodextrins in Pesticides|Starch Staerke37(11): 382-386|1985|10.1002/star.19850371106
74426|T||Barta,I.C., and F. Dutka|Effects of Thiocarbamate Herbicides and Dichlormid Antidote of Cuticular Transpiration of Corn|Cereal Res. Commun.17(2): 135-140|1989|
74427|T||Ho,T.M., and S. Ismail|Laboratory Investigation of the Comparative Toxicities of Three Pyrethroid Insecticides to Musca domestica (Diptera:  Muscidae) and Macrocheles muscaedomesticae (Acarina:  Macrochelidae)|Trop. Biomed.5(2): 103-106|1988|
74428|T||Komives,A.V., T. Komives, and F. Dutka|Effect of Thiocarbamate Herbicides on the Activity of Glutathione S-Transferase in Maize|Cereal Res. Commun.13(2-3): 253-257|1985|
74429|A||Hyotylainen,T., and A. Oikari|The Toxicity and Concentrations of PAHs in Creosote-Contaminated Lake Sediment|Chemosphere38(5): 1135-1144|1999|10.1016/S0045-6535(98)00362-2
74430|A||Kocan,R.M., M.B. Matta, and S.M. Salazar|Toxicity of Weathered Coal Tar for Shortnose Sturgeon (Acipenser brevirostrum) Embryos and Larvae|Arch. Environ. Contam. Toxicol.31(2): 161-165|1996|10.1007/BF00212360
74431|A||DeLeon,I.R., J.B. Ferrario, and C.J. Byrne|Bioaccumulation of Polynuclear Aromatic Hydrocarbons by the Clam, Rangia cuneata, in the Vicinity of a Creosote Spill|Bull. Environ. Contam. Toxicol.41(6): 872-879|1988|10.1007/BF02021049
74432|A||Schoor,W.P., D.E. Williams, and N. Takahashi|The Induction of Cytochrome P-450-IA1 in Juvenile Fish by Creosote-Contaminated Sediment|Arch. Environ. Contam. Toxicol.20(4): 497-504|1991|10.1007/BF01065838
74433|A||Ericson,G., B. Liewenborg, E. Lindesjoo, C. Naf, and L. Balk|DNA Adducts in Perch (Perca fluviatilis) from a Creosote Contaminated Site in the River Angermanalven, Sweden|Aquat. Toxicol.45(2-3): 181-193|1999|10.1016/S0166-445X(98)00100-3
74434|A||Tadokoro,H., M. Maeda, Y. Kawashima, M. Kitano, D.F. Hwang, and T. Yoshida|Aquatic Toxicity Testing for Multicomponent Compounds with Special Reference to Preparation of Test Solution|Ecotoxicol. Environ. Saf.21(1): 57-67|1991|10.1016/0147-6513(91)90008-D
74436|T||Lijinsky,W., and D. Schmahl|Carcinogenicity of N-Nitroso Derivatives of N-Methylcarbamate Insecticides in Rats|Ecotoxicol. Environ. Saf.2(3-4): 413-419|1978|10.1016/S0147-6513(78)80014-1
74437|A||Hyotylainen,T., A. Karels, and A. Oikari|Assessment of Bioavailability and Effects of Chemicals due to Remediation Actions with Caging Mussels (Anodonta anatina) at a Creosote-Contaminated Lake Sediment Site|Water Res.36(18): 4497-4504|2002|10.1016/S0043-1354(02)00156-2
74438|T||Richter,D.L., J.I. Warner, and A.L. Stephens|A Comparison of Mycorrhizal and Saprotrophic Fungus Tolerance to Creosote In Vitro|Int. Biodeterior. Biodegrad.51(3): 195-202|2003|10.1016/S0964-8305(02)00169-5
74439|T||Gaylor,D.W., S.J. Culp, L.S. Goldstein, and F.A. Beland|Cancer Risk Estimation for Mixtures of Coal Tars and Benzo(a)pyrene|Risk Anal.20(1): 81-85|2000|10.1111/0272-4332.00008
74442|T||Vythilingam,I., G.L. Chiang, S. Mahadevan, K.L. Eng, S.T. Chan, and K.I. Singh|Studies on the Effect of Lambdacyhalothrin on Anopheles maculatus Theobald and Its Response to Residual Spraying at Jeram Kedah, Negeri Sembilan, Malaysia|Southeast Asian J. Trop. Med. Public Health24(1): 138-142|1993|
74445|A||Meyer,J.N., D.E. Nacci, and R.T. Di Giulio|Cytochrome P4501A (CYP1A) in Killifish (Fundulus heteroclitus):  Heritability of Altered Expression and Relationship to Survival in Contaminated Sediments|Toxicol. Sci.68(1): 69-81|2002|10.1093/toxsci/68.1.69
74446|A||Ericson,G., B. Liewenborg, C. Naf, and L. Balk|DNA Adducts in Perch, Perca fluviatilis, from a Creosote Contaminated Site and in Perch Exposed to an Organic Solvent Extract of Creosote Contaminated Sediment|Mar. Environ. Res.46(1-5): 341-344|1998|10.1016/S0141-1136(97)00050-0
74447|A||Carls,M.G., and S. Korn|Sensitivity of Arctic Marine Amphipods and Fish to Petroleum Hydrocarbons|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1368:11-26|1985|
74448|A||Sibley,P.K., M.L. Harris, K.T. Bestari, T.A. Steele, R.D. Robinson, R.W. Gensemer, K.E. Day, and K.R. Solomon|Response of Phytoplankton Communities to Liquid Creosote in Freshwater Microcosms|Environ. Toxicol. Chem.20(12): 2785-2793|2001|10.1002/etc.5620201218
74449|A||McClain,J.S., J.T. Oris, G.A.,Jr. Burton, and D. Lattier|Laboratory and Field Validation of Multiple Molecular Biomarkers of Contaminant Exposure in Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.22(2): 361-370|2003|10.1002/etc.5620220217
74450|T||Rasmussen,G., and R.A. Olsen|Sorption and Biological Removal of Creosote-Contaminants from Groundwater in Soil/Sand Vegetated with Orchard Grass (Dactylis glomerata)|Adv. Environ. Res.8(3-4): 313-327|2004|10.1016/S1093-0191(02)00105-3
74451|A||Meyer,J., and R. Di Giulio|Patterns of Heritability of Decreased EROD Activity and Resistance to PCB 126-Induced Teratogenesis in Laboratory-Reared Offspring of Killifish (Fundulus heteroclitus) from a Creosote-Contaminated Site in the Elizabeth |Mar. Environ. Res.54(3-5): 621-626|2002|10.1016/S0141-1136(02)00170-8
74454|A||Lee,H.L.|Esterases Activity and Temephos Susceptibility in Aedes aegypti (L.) Larvae|Mosq. Borne Dis. Bull.8(3): 91-94|1991|
74455|A||Nazni,W.A., H.L. Lee, and I. Sa'diyah|Rate of Resistance Development in Wild Culex quinquefasciatus (Say) Selected by Malathion and Permethrin|Southeast Asian J. Trop. Med. Public Health29(4): 849-855|1998|
74456|T||Salama,H.S., M.S. Foda, F.N. Zaki, and S. Moawad|Potency of Combinations of Bacillus thuringiensis and Chemical Insecticides on Spodoptera littoralis (Lepidoptera:  Noctuidae)|J. Econ. Entomol.77(4): 885-890|1984|10.1093/jee/77.4.885
74457|T||Samaan,H., M. Sadek, A. El-Garawany, and O. Habib|Comparative Acute and Short-Term Chronic Toxicity Studies of Some Insecticides in Rats|J. Drug Res. Egypt18(1-2): 145-152|1989|
74459|A||Troxel,C.M., D.R. Buhler, J.D. Hendricks, and G.S. Bailey|CYP1A Induction by beta-Naphthoflavone,Aroclor 1254, and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Its Influence on Aflatoxin B1 Metabolism and DNA Adduction in Zebrafish (Danio Rerio)|Toxicol. Appl. Pharmacol.146(1): 69-78|1997|10.1006/taap.1997.8219
74460|A||Van der Weiden,M.E.J., M. Celander, W. Seinen, M. Van den Berg, A. Goksoyr, and L. Forlin|Induction of Cytochrome P450 1A in Fish Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin or Chemically Contaminated Sediment|Environ. Toxicol. Chem.12(6): 989-999|1993|
74461|T||Bosveld,A.T.C., M. Van den Berg, and R. Theelen|Assessment of the EROD Inducing Potency of Eleven 2,3,7,8-Substituted PCDD/Fs and Three Coplanar PCBs in the Chick Embryo|Chemosphere25:911-916|1992|10.1016/0045-6535(92)90084-5
74462|T||Matsumura,F., E. Enan, D.Y. Dunlap, K.E. Pinkerton, and J. Peake|Altered In Vivo Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in C-SRC Deficient Mice|Biochem. Pharmacol.53:1397-1404|1997|10.1016/S0006-2952(97)00036-1
74464|A||Parrott,J.L., P.V. Hodson, and D.G. Dixon|Rainbow Trout Hepatic Mixed-Function Oxygenase Induction by Polychlorinated Dibenzo-p-Dioxins (PCDDs) as a Function of Time and Tissue Concentration|J. Toxicol. Environ. Health46(3): 301-316|1995|10.1080/15287399509532037
74465|T||Powell,D.C., R.J. Aulerich, J.C. Meadows, D.E. Tillitt, K.L. Stromborg, T.J. Kubiak, J.P. Giesy, and S.J. Bursian|Organochlorine Contaminants in Double-Crested Cormorants from Green Bay, Wisconsin:  II. Effects of an Extract Derived from Cormorant Eggs on the Chicken Embryo|Arch. Environ. Contam. Toxicol.32(3): 316-322|1997|10.1007/s002449900191
74466|A||Cooper,K.R., and C.M. Chen|Toxic Interaction of 2,3,7,8-TCDD, 2,3,7,8-TCDF, 1,2,3,7,8-PeCDD, and 1,2,3,4,7,8-HeCDD:  On the Japanese Medaka (Oryzias latipes)|Chemosphere36(1): 189-202|1998|10.1016/S0045-6535(97)10034-0
74467|T||Howie,L., R. Dickerson, D. Davis, and S. Safe|Immunosuppressive and Monooxygenase Induction Activities of Polychlorinated Diphenyl Ether Congeners in C57BL/6N Mice: Quantitative Structure-Activity Relationships|Toxicol. Appl. Pharmacol.105(2): 254-263|1990|10.1016/0041-008X(90)90187-Y
74468|T||Saghir,S.A., and L.G. Hansen|Toxicities of 2,2',4,4'- and 3,3',4,4'-Tetrachlorobiphenyls to House Flies at Different Ages and Enzyme Levels|Arch. Environ. Contam. Toxicol.28(4): 436-442|1995|10.1007/BF00211625
74469|A||Smith,V.J., and P.A. Johnston|Differential Haemotoxic Effect of PCB Congeners in the Common Shrimp, Crangon crangon|Comp. Biochem. Physiol. C Comp. Pharmacol.101(3): 641-649|1992|10.1016/0742-8413(92)90099-S
74470|T||Tehseen,W.M., L.G. Hansen, and D.J. Schaeffer|Polychlorinated Biphenyl (PCB) Congener Effects on the Longevity of the Housefly|Bull. Environ. Contam. Toxicol.48(1): 101-107|1992|10.1007/BF00197490
74471|T||Nolte,D.L., and J.P. Barnett|A Repellent to Reduce Mouse Damage to Longleaf Pine Seed|Int. Biodeterior. Biodegrad.45:169-174|2000|10.1016/S0964-8305(00)00060-3
74477|T||Dalvi,P.S., T. Wilder-Kofie, B. Mares, R.R. Dalvi, and L.H. Billups|Toxicologic Implications of the Metabolism of Thiram, Dimethyldithiocarbamate and Carbon Disulfide Mediated by Hepatic Cytochrome P450 Isozymes in Rats|Pestic. Biochem. Physiol.74(2): 85-90|2003|10.1016/S0048-3575(02)00149-9
74478|AT||Grisolia,C.K.|A Comparison Between Mouse and Fish Micronucleus Test Using Cyclophosphamide, Mitomycin C and Various Pesticides|Mutat. Res.518(2): 145-150|2002|10.1016/S1383-5718(02)00086-4
74479|A||Yamaoka,Y., O. Takimura, and H. Fuse|Effects of Various Elements on Arsenic Accumulation of the Alga Dunaliella salina|Appl. Organomet. Chem.8(3): 229-235|1994|10.1002/aoc.590080312
74480|A||Singh,J.B., S.M. Prasad, L.C. Rai, and H.D. Kumar|Response of the Cyanobacterium Nostoc muscorum to Chromium and Lead:  The Effect on Phosphorus Metabolism|J. Gen. Appl. Microbiol.39(6): 559-570|1993|10.2323/jgam.39.559
74481|T||Liu,D., W. Jiang, and M. Li|Effects of Trivalent and Hexavalent Chromium on Root Growth an Cell Division of Allium cepa|Hereditas117(1): 23-29|1992|10.1111/j.1601-5223.1992.tb00003.x
74483|A||Appenroth,K.J., M. Bischoff, H. Gabrys, J. Stoeckel, H.M. Swartz, T. Walczak, and K. Winnefeld|Kinetics of Chromium(V) Formation and Reduction in Fronds of the Duckweed Spirodela polyrhiza -- a Low Frequency EPR Study|J. Inorg. Biochem.78(3): 235-242|2000|10.1016/S0162-0134(00)00018-0
74484|A||Nair,N.U., and K. Ravindran|Studies on Chemosensory Induced Surface Modifications on the Control of Biofouling Dynamics|In: M.F.Thompson (Ed.), Recent Developments in Biofouling Control, Indo-United States Conf., Jul.12-16, 1992, Bangalore, India, A.A.Galkema, Rotterdam, Netherlands:313-319|1994|
74485|T||Shanker,A.K., M. Djanaguiraman, R. Sudhagar, C.N. Chandrashekar, and G. Pathmanabhan|Differential Antioxidative Response of Ascorbate Glutathione Pathway Enzymes and Metabolites to Chromium Speciation Stress in Green Gram (Vigna radiata (L.) R.Wilczek. cv CO 4) Roots|Plant Sci.166(4): 1035-1043|2004|10.1016/j.plantsci.2003.12.015
74486|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.E. Kolakowski, C.W. Kurnas, and G. Sunahara|Toxicity of Nitro-Heterocyclic and Nitroaromatic Energetic Materials to Enchytraeid Worm Enchytraeus crypticus in a Natural Sandy Loam Soil|Technical Report No.ECBC-TR-344, Biotechnology Research Institute National Research Council, Montreal, Quebec, Canada:48 p.|2004|
74487|A||Prasad,S.M., J.B. Singh, L.C. Rai, and H.D. Kumar|Metal-Induced Inhibition of Photosynthetic Electron Transport Chain of the Cyanobacterium Nostoc muscorum|FEMS (Fed. Eur. Microbiol. Soc. ) Microbiol. Ecol.82(1): 95-100|1991|10.1111/j.1574-6968.1991.tb04846.x
74488|A||Chassard-Bouchaud,C., M. Hubert, F. Escaig, and R.L. Inglebert|Cellular and Subcellular Localization of Chromium in the Crab Liocarcinus puber (Brachyrhyncha) by Transmission Electron Microscopy, Secondary Ion Mass Spectrometry and Electron Microprobe Analysis|BioMetals8(3): 246-256|1995|
74489|A||Horcsik,Z.T., and A. Balogh|Intracellular Distribution of Chromium and Toxicity on Growth in Chlorella pyrenoidosa|Acta Biol. Szeged.46(3-4): 57-58|2002|
74490|A||Reddy,T.N., N.V. Reddy, C. Padmaja, and P.U.M. Reddy|Ascorbic Acid Status in Certain Selective Tissues of a Fresh Water Fish Anabas testudineus During Exposure and Recovery to Chromium Toxicity|J. Ecotoxicol. Environ. Monit.8(4): 225-228|1998|
74491|T||Hayashi,M., S. Sutou, H. Shimada, S. Sato, Y.F. Sasaki, and A. Wakata|Difference Between Intraperitoneal and Oral Gavage Application in the Micronucleus Test:  The 3rd Collaborative Study by CSGMT/JEMS.MMS|Mutat. Res.223(4): 329-344|1989|10.1016/0165-1218(89)90081-5
74492|T||De Marco,A., S. Paglialunga, M. Rizzoni, A. Testa, and S. Trinca|Induction of Micronuclei in Vicia faba Root Tips Treated with Heavy Metals (Cadmium and Chromium) in the Presence of NTA|Mutat. Res.206(3): 311-315|1988|10.1016/0165-1218(88)90116-4
74493|T||Forbes,C.D., J.M. Fernandez, L.D. Bunting, L.L. Southern, D.L.,Jr. Thompson, L.R. Gentry, and A.M. Chapa|Growth and Metabolic Characteristics of Suffolk and Gulf Coast Native Yearling Ewes Supplemented with Chromium Tripicolinate|Small Ruminant Res.28(2): 149-160|1998|10.1016/S0921-4488(97)00078-3
74494|A||Bassi,M., M.G. Corradi, and A. Ricci|Effects of Chromium (VI) on Two Freshwater Plants, Lemna minor and Pistia stratiotes:  2.  Biochemical and Physiological Observations|Cytobios62(249): 101-109|1990|
74495|T||Acharya,S., K. Mehta, S. Krishnan, and C.V. Rao|A Subtoxic Interactive Toxicity Study of Ethanol and Chromium in Male Wistar Rats|Alcohol23(2): 99-108|2001|10.1016/S0741-8329(00)00139-7
74496|T||Zhou,Q., and T. Sun|Effects of Chromium (VI) on Extractability and Plant Uptake of Fluorine in Agricultural Soils of Zhejiang Province, China|Water Air Soil Pollut.133(1-4): 145-160|2002|10.1023/A:1012948131082
74497|A||Theegala,C.S., C. Robertson, P.E. Carriere, and A.A. Suleiman|Phytoremediation Potential and Toxicity of Barium to Three Freshwater Microalgae: Scenedesmus subspicatus, Selenastrum capricornutum, and Nannochloropsis sp.|Pract. Period. Hazard. Toxic Radioact. Waste Manag.5(4): 194-202|2001|10.1061/(ASCE)1090-025X(2001)5:4(194)
74498|T||Hepburn,D.D.D., and J.B. Vincent|Tissue and Subcellular Distribution of Chromium Picolinate with Time After Entering the Bloodstream|J. Inorg. Biochem.94(1-2): 86-93|2003|10.1016/S0162-0134(02)00623-2
74499|T||Igarashi,M., and H. Shimada|An Improved Method for the Mouse Liver Micronucleus Test|Mutat. Res.391(1-2): 49-55|1997|10.1016/S0165-1218(97)00031-1
74500|T||Lokesha,S., and R.K. Somashekar|Effect of Heavy Metals on the Growth of Some Fungi: A Preliminary Assay|Indian J. Environ. Health33(1): 123-125|1991|
74502|T||Yawets,A., A. Alter, and U. Oron|Biochemical and Histological Anomalies in the Rat Hepatic Tissue Following Administration of Bichromate and Nickel in Ionized Form|Toxicology33(2): 145-155|1984|10.1016/0300-483X(84)90069-6
74503|T||Yamaguchi,M., and R. Yamaguchi|Action of Zinc on Bone Metabolism in Rats:  Increases in Alkaline Phosphatase Activity and DNA Content|Biochem. Pharmacol.35(5): 773-777|1986|10.1016/0006-2952(86)90245-5
74504|A||Tsvetnenko,Y.B., A.J. Black, and L.H. Evans|Development of Marine Sediment Reworker Tests with Western Australian Species for Toxicity Assessment of Drilling Mud|Environ. Toxicol.15(5): 540-548|2000|10.1002/1522-7278(2000)15:5<540::AID-TOX26>3.0.CO;2-A
74505|A||Natale,G.S., N.G. Basso, and A.E. Ronco|Effect of Cr(VI) on Early Life Stages of Three Species of Hylid Frogs (Amphibia, Anura) from South America|Environ. Toxicol.15(5): 509-512|2000|10.1002/1522-7278(2000)15:5<509::AID-TOX21>3.0.CO;2-S
74506|T||Piva,A., E. Meola, P.P. Gatta, G. Biagi, G. Castellani, A.L. Mordenti, J.B. Luchansky, S. Silva, and A. Mordenti|The Effect of Dietary Supplementation with Trivalent Chromium on Production Performance of Laying Hens and the Chromium Content in the Yolk|Anim. Feed Sci. Technol.106(1-4): 149-163|2003|10.1016/S0377-8401(03)00006-3
74507|T||Collaborative Study Group for the Micronucleus Test,the Mammalian Mutagenesis Study Group of the Environmental Mutagen |Single Versus Multiple Dosing in the Micronucleus Test:  The Summary of the Fourth Collaborative Study by CSGMT/JEMS.MMS|Mutat. Res.234(3-4): 205-222|1990|10.1016/0165-1161(90)90017-I
74508|T||Mannering,G.J., J.A. Shoeman, and D.W. Shoeman|Effects of Colupulone, a Component of Hops and Brewers Yeast, and Chromium on Glucose Tolerance and Hepatic Cytochrome P450 in Nondiabetic and Spontaneously Diabetic Mice|Biochem. Biophys. Res. Commun.200(3): 1455-1462|1994|10.1006/bbrc.1994.1614
74509|T||Atterwill,C.K., S. Kennedy, C.A. Jones, D.M. Lee, S. Davies, and A. Poole|Comparison of the Toxicity of Orally Administered L-Triiodothyronine (T3) in Rat and Cynomolgus Monkey|Toxicology52(1): 89-105|1988|10.1016/0300-483X(88)90239-9
74511|T||Witmer,C.M., H.S. Park, and S.I. Shupack|Mutagenicity and Disposition of Chromium|Sci. Total Environ.86(1-2): 131-148|1989|10.1016/0048-9697(89)90200-3
74512|T||Sharma,D.C., C. Chatterjee, and C.P. Sharma|Chromium Accumulation and Its Effects on Wheat (Triticum aestivum L. cv. HD 2204) Metabolism|Plant Sci.111(2): 145-151|1995|10.1016/0168-9452(95)04230-R
74513|T||Geetha,S., M.S. Ram, S.S. Mongia, V. Singh, G. Ilavazhagan, and R.C. Sawhney|Evaluation of Antioxidant Activity of Leaf Extract of Seabuckthorn (Hippophae rhamnoides L.) on Chromium(VI) Induced Oxidative Stress in Albino Rats|J. Ethnopharmacol.87(2-3): 247-251|2003|10.1016/S0378-8741(03)00154-5
74514|T||Sakurai,H., K. Takechi, H. Tsuboi, and H. Yasui|ESR Characterization and Metallokinetic Analysis of Cr(V) in the Blood of Rats Given Carcinogen Chromate(VI) Compounds|J. Inorg. Biochem.76(1): 71-80|1999|10.1016/S0162-0134(99)00110-5
74515|T||Micera,G., and A. Dessi|Chromium Adsorption by Plant Roots and Formation of Long-Lived Cr(V) Species:  An Ecological Hazard?|J. Inorg. Biochem.34(3): 157-166|1988|10.1016/0162-0134(88)85026-8
74516|T||Yamamoto,A., O. Wada, and T. Ono|Distribution and Chromium-Binding Capacity of a Low-Molecular-Weight, Chromium-Binding Substance in Mice|J. Inorg. Biochem.22(2): 91-102|1984|10.1016/0162-0134(84)80018-5
74517|T||Sahin,K., N. Sahin, and O. Kucuk|Effects of Chromium, and Ascorbic Acid Supplementation on Growth, Carcass Traits, Serum Metabolites, and Antioxidant Status of Broiler Chickens Reared at a High Ambient Temperature (32C)|Nutr. Res.23(2): 225-238|2003|10.1016/S0271-5317(02)00513-4
74518|T||Morris,G.S., K.A. Guidry, M. Hegsted, and D.L. Hasten|Effects of Dietary Chromium Supplementation on Cardiac Mass, Metabolic Enzymes, and Contractile Proteins|Nutr. Res.15(7): 1045-1052|1995|10.1016/0271-5317(95)00066-R
74519|A||Walsh,A.R., and J. O'Halloran|The Toxicity of Leather Tannery Effluent to a Population of the Blue Mussel Mytilus edulis (L.)|Ecotoxicology6(3): 137-152|1997|10.1023/A:1018614408367
74520|A||Gunthorpe,L., M. Nottage, D. Palmer, and R. Wu|The Development of a Fertilisation Inhibition Assay Using Gametes of the Brown Alga Hormosira banksii|Australas. J. Ecotoxicol.1(1): 25-31|1995|
74521|A||Naguib,M.I., W. Hofner, I.A. Kobbia, and Z.K. Ibrahim|Use of Laboratory Cultures of Some Algae to Predict Heavy Metal Toxicity II.  Studies on the Activities of Malate and Glutamate in Chlorella fusca and Spirulina maxima as Affected by Some Heavy Metals|Egypt. J. Microbiol.22(2): 227-234|1987|
74523|T||Morris,G.S., D.L. Hasten, M. Hegsted, and K.L. Guidry|Chromium Picolinate Supplementation Improves Cardiac Metabolism, but not Myosin Isoenzyme Distribution in the Diabetic Heart|J. Nutr. Biochem.7(11): 617-622|1996|10.1016/S0955-2863(96)00121-0
74524|T||Iqbal,M.Z., S. Saeeda, and M. Shafiq|Effects of Chromium on an Important Arid Tree (Caesalpinia pulcherrima) of Karachi City, Pakistan|Ekologia (Bratisl.)20(4): 414-422|2001|
74525|T||Liu,D.H., W.S. Jiang, and M.X. Li|Effects of Cr3+ on Root Growth and Cell Division of Allium cepa|Chin. J. Bot.5(1): 34-40|1993|
74527|A||Ali,S.S., A. Hussain, and A.R. Shakoori|Haematological Effects of Hexavalent Chromium in Fresh Water Teleost, Oreochromis mossambicus|J. Ecotoxicol. Environ. Monit.10(1): 3-10|2000|
74528|T||Singh,P.P., and A.Y. Junnarkar|Behavioural and Toxic Profile of Some Essential Trace Metal Salts in Mice and Rats|Indian J. Pharmacol.23(3): 153-159|1991|
74529|A||Singh,A.K., and L.C. Rai|Cr and Hg Toxicity Assessed In Situ Using the Structural and Functional Characteristics of Algal Communities|Environ. Toxicol. Water Qual.6(1): 97-107|1991|10.1002/tox.2530060109
74530|T||Daniel,G.F., and T. Nilsson|Studies on Preservative Tolerant Phialophora Species|Int.Biodeterior.24(4-5): 327-335|1988|10.1016/0265-3036(88)90018-8
74532|A||Qiu,J.W., P.Y. Qian, and W.X. Wang|Contribution of Dietary Bacteria to Metal Accumulation in the Slipper Limpet|Aquat. Microb. Ecol.25(2): 151-161|2001|10.3354/ame025151
74533|T||Mathur,K.C., R.K. Srivastava, and K. Chaudhary|Effect of Cadmium and Chromium Metals on Germination and Early Growth Performance of Allium cepa Seeds|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(2): 191-196|1987|
74534|T||Collett,O.|Effectiveness of a Copper-Chrome-Arsenate Formulation as a Growth and Cellulase Inhibitor of the Brown-Rot Fungus Gloeophyllum trabeum|Mater. Org.23(3): 225-237|1988|
74535|T||Connell,S.L., and S.H. Al-Hamdani|Selected Physiological Responses of Kudzu to Different Chromium Concentrations|Can. J. Plant Sci.81(1): 53-58|2001|10.4141/P00-029
74536|T||Martin,P.A., and K.R. Solomon|Acute Carbofuran Exposure and Cold Stress:  Interactive Effects in Mallard Ducklings|Pestic. Biochem. Physiol.40(2): 117-127|1991|10.1016/0048-3575(91)90106-V
74537|T||Gupta,R.C., J.T. Goad, and W.L. Kadel|Energy Related Metabolic Alterations in Diaphragm Muscle Resulting from Acute Methomyl Toxicity|Neurotoxicology15(2): 321-330|1994|
74538|T||Dashiell,O.L., and G.L.,Jr. Kennedy|The Effects of Fasting on the Acute Oral Toxicity of Nine Chemicals in the Rat|J. Appl. Toxicol.4(6): 320-325|1984|10.1002/jat.2550040608
74539|T||Antal,M., M. Bedo, G. Constantinovits, K. Nagy, and J. Szepvolgyi|Studies on the Interaction of Methomyl and Ethanol in Rats|Food Cosmet. Toxicol.17(4): 333-338|1979|10.1016/0015-6264(79)90325-0
74540|A||Fernandez-Alba,A.R., L.H. Guil, G.D. Lopez, and Y. Chisti|Toxicity of Pesticides in Wastewater:  A Comparative Assessment of Rapid Bioassays|Anal. Chim. Acta426(2): 289-301|2001|10.1016/S0003-2670(00)00874-6
74541|A||Jarrard,H.E., K.R. Delaney, and C.J. Kennedy|Impacts of Carbamate Pesticides on Olfactory Neurophysiology and Cholinesterase Activity in Coho Salmon (Oncorhynchus kisutch)|Aquat. Toxicol.69(2): 133-148|2004|10.1016/j.aquatox.2004.05.001
74542|A||Megharaj,M., K. Venkateswarlu, and A.S. Rao|Effects of Carbofuran and Carbaryl on the Growth of a Green Alga and Two Cyanobacteria Isolated from a Rice Soil|Agric. Ecosyst. Environ.25(4): 329-336|1989|10.1016/0167-8809(89)90129-1
74543|T||Johnson,M.W., S.C. Welter, N.C. Toscano, Y. Iwata, and I.P. Ting|Lettuce Yield Reduction Correlated with Methyl Parathion Use|J. Econ. Entomol.76(6): 1390-1394|1983|10.1093/jee/76.6.1390
74544|T||Das,A.C., and D. Mukherjee|Insecticidal Effects on Soil Microorganisms and Their Biochemical Processes Related to Soil Fertility|World J. Microbiol. Biotechnol.14(6): 903-909|1998|10.1023/A:1008820908917
74545|T||Cole,D.F., and A.G. Dexter|Effect of Multiple Pesticide Treatments on Sugar Beet Yield and Quality|J. Am. Soc. Sugar Beet Technol.23(3/4): 109-115|1986|10.5274/jsbr.23.3.109
74546|T||Otabbong,E.|Chemistry of Cr in Some Swedish Soils:  V.  Interaction Between CrO3 and Si(OH)4 and Its Impact on Cr Toxicity and Elemental Contents in Ryegrass (Lolium perenne)|Plant Soil123(1): 89-93|1990|10.1007/BF00009930
74547|T||Al-Hakkak,Z.S., and A.F. Hussain|Comparative Toxicity of Trivalent and Hexavalent Chromium Compounds in Fig Moth Ephestia cautella (Walker)|Indian J. Exp. Biol.28(4): 387-389|1990|
74548|T||Issekutz,A.C., P. Megyeri, and T.B. Issekutz|Role for Macrophage Products in Endotoxin-Induced Polymorphonuclear Leukocyte Accumulation During Inflammation|Lab. Invest.56(1): 49-59|1987|
74549|A||Gatta,P.P., K.D. Thompson, R. Smullen, A. Piva, S. Testi, and A. Adams|Dietary Organic Chromium Supplementation and Its Effect on the Immune Response of Rainbow Trout (Oncorhynchus mykiss)|Fish Shellfish Immunol.11(5): 371-382|2001|10.1006/fsim.2000.0323
74552|T||Wetterhahn,K.E., and J.W. Hamilton|Molecular Basis of Hexavalent Chromium Carcinogenicity:  Effect on Gene Expression|Sci. Total Environ.86(1/2): 113-129|1989|10.1016/0048-9697(89)90199-X
74555|T||Bagchi,D., P.J. Vuchetich, M. Bagchi, E.A. Hassoun, M.X. Tran, L. Tang, and S.J. Stohs|Induction of Oxidative Stress by Chronic Administration of Sodium Dichromate [Chromium VI] and Cadmium Chloride [Cadmium II] to Rats|Free Radic. Biol. Med.22(3): 471-478|1997|10.1016/S0891-5849(96)00352-8
74556|T||Davies,F.T.,Jr., J.D. Puryear, R.J. Newton, J.N. Egilla, and J.A. Saraiva Grossi|Mycorrhizal Fungi Enhance Accumulation and Tolerance of Chromium in Sunflower (Helianthus annuus)|J. Plant Physiol.158(6): 777-786|2001|10.1078/0176-1617-00311
74557|T||Barton,L.L., G.V. Johnson, A.G. O'Nan, and B.M. Wagener|Inhibition of Ferric Chelate Reductase in Alfalfa Roots by Cobalt, Nickel, Chromium, and Copper|J. Plant Nutr.23(11-12): 1833-1845|2000|10.1080/01904160009382146
74558|A||Qazi,J.I., and U. Ashraf|Biotechnological Implication of Flagellate Protozoans in Cleaning Industrial Effluents Containing Heavy Metal Cr+6|Bull. Dep. Zool. Univ. Panjab15:123-135|2000|
74559|T||Shahandeh,H., and L.R. Hossner|Plant Screening for Chromium Phytoremediation|Int. J. Phytoremediat.2(1): 31-51|2000|10.1080/15226510008500029
74560|T||Low,K.S., C.K. Lee, and S.G. Tan|Sorption of Trivalent Chromium from Tannery Waste by Moss|Environ. Technol.18(4): 449-454|1997|10.1080/09593331808616559
74561|T||Sanita di Toppi,L., F. Fossati, R. Musetti, I. Mikerezi, and M.A. Favali|Effects of Hexavalent Chromium on Maize, Tomato, and Cauliflower Plants|J. Plant Nutr.25(4): 701-717|2002|10.1081/PLN-120002953
74562|A||Dive,D., L. Gabriel, O. Hanssens, and A. Benga-Bengomme|Studies on Interactions Between Components of Electroplating Industry Wastes:  Influence of Nickel and Calcium on Interactions Between Cadmium, Copper, Chromium and Zinc|Sci. Total Environ.87-88:355-364|1989|10.1016/0048-9697(89)90248-9
74563|T||Swanson,K.C., D.L. Harmon, K.A. Jacques, B.T. Larson, C.J. Richards, D.W. Bohnert, and S.J. Paton|Efficacy of Chromium-Yeast Supplementation for Growing Beef Steers|Anim. Feed Sci. Technol.86(1-2): 95-105|2000|10.1016/S0377-8401(00)00142-5
74564|T||Talcott,P.A., J.H. Exon, and L.D. Koller|Alteration of Natural Killer Cell-Mediated Cytotoxicity in Rats Treated with Selenium, Diethylnitrosamine and Ethylnitrosourea|Cancer Lett.23(3): 313-322|1984|10.1016/0304-3835(84)90099-5
74565|T||Davies,F.T.,Jr., J.D. Puryear, R.J. Newton, J.N. Egilla, and J.A. Saraiva Grossi|Mycorrhizal Fungi Increase Chromium Uptake by Sunflower Plants:  Influence on Tissue Mineral Concentration, Growth, and Gas Exchange|J. Plant Nutr.25(11): 2389-2407|2002|10.1081/PLN-120014702
74566|T||Schmidt,W.|Influence of Chromium(III) on Root-Associated Fe(III) Reductase in Plantago lanceolata L.|J. Exp. Bot.47(299): 805-810|1996|10.1093/jxb/47.6.805
74567|T||Pillichshammer,M., T. Pumpel, R. Poder, K. Eller, J. Klima, and F. Schinner|Biosorption of Chromium to Fungi|BioMetals8(2): 117-121|1995|
74568|T||Zurayk,R.A., N.F. Khoury, S.N. Talhouk, and R.Z. Baalbaki|Salinity-Heavy Metal Interactions in Four Salt-Tolerant Plant Species|J. Plant Nutr.24(11): 1773-1786|2001|10.1081/PLN-100107311
74569|T||Stoughton,R.B., P. DeQuoy, and J.F. Walter|Crude Coal Tar plus near Ultraviolet Light Suppresses DNA Synthesis in Epidermis|Arch.Dermatol.114(1): 43-45|1978|10.1001/archderm.1978.01640130007001
74570|T||Baud-Grasset,S., F. Baud-Grasset, J.M. Bifulco, J.R. Meier, and T.H. Ma|Reduction of Genotoxicity of a Creosote-Contaminated Soil After Fungal Treatment Determined by the Tradescantia-micronucleus Test|Mutat. Res.303(2): 77-82|1993|
74571|T||Mukhtar,H., and D.R. Bickers|Evidence that Coal Tar is a Mixed Inducer of Microsomal Drug-Metabolizing Enzymes|Toxicol. Lett.11(3/4): 221-228|1982|10.1016/0378-4274(82)90153-9
74572|A||Gensemer,R.W., L. Ren, K.E. Day, K.R. Solomon, and B.M. Greenberg|Fluorescence Induction as a Biomarker of Creosote Phototoxicity to the Aquatic Macrophyte Lemna gibba|ASTM Spec. Tech. Publ.1306:163-176|1999|
74573|T||Evelo,C.T., J. Atema, J.H. Copius-Peereboom, P.H. Fijneman, J.C. Pertijs, and R.P. Bos|Liver Damage After Coal-Tar Treatment does not Prevent Induction of Glutathione S-Transferases in Rat Liver|Arch. Toxicol.13(Suppl.): 112-116|1989|10.1007/978-3-642-74117-3_13
74574|T||Farage-Elawar,M.|Effects of In Ovo Injection of Carbamates on Chick Embryo Hatchability, Esterase Enzyme Activity and Locomotion of Chicks|J. Appl. Toxicol.10(3): 197-201|1990|10.1002/jat.2550100310
74575|T||Mateiile,T., and C. Netscher|Control of Meloidogyne incognita on Cucumber by Small Quantities of Systemic Nematicides Applied at Seedling Stage|Trop. Pest Manag.35(1): 107-|1989|10.1080/09670878909371332
74576|T||Palumbo,G., S. Bacchi, M.F. Coppolino, and G.C. Pantaleoni|Neurochemical and Behavioural Effects of Chronic Aldicarb Administration in Rats|Pharmacol. Toxicol.89(5): 249-254|2001|10.1111/j.1600-0773.2001.890505.x
74577|T||Kiran,R., M. Bansal, and R.C. Bansal|Effect of Carbamates on Some Enzymes of Rat Liver and Kidney|Pesticides 22(3): 8-10|1988|
74578|T||Lewis,G.C.|Response of Perennial Ryegrass and White Clover to Cytozyme, Benomyl + Captan and Carbofuran Applied at Sowing|Tests Agrochem. Cultiv.8:126-127|1987|
74579|T||Ellis,S.A., R.O. Clements, and J.S. Bale|The Effect of Aldicarb on Italian Ryegrass (Lolium multiflorum) Seeds and Seedlings|Tests Agrochem. Cultiv.7:122-123|1986|
74580|T||Clements,R.O., B.R. Bentley, and P.J. Murray|Differential Reaction of Newly-Sown Ryegrass (Lolium spp.) Cultivars to Insecticide Treatments|Tests Agrochem. Cultiv.13:78-79|1992|
74581|T||York,A.C., D.L. Jordan, and R.E. Frans|Insecticides Modify Cotton (Gossypium hirsutum) Response to Clomazone|Weed Technol.5(4): 729-735|1991|10.1017/S0890037X00033765
74582|T||Boag,B.|Effect of Pesticides on Longidorus elongatus and the Yield of Swedes|Tests Agrochem. Cultiv.6:32-33|1985|
74583|T||Reddy,A.A.|A Root Zone Liquid Urea Applicator for Wetland Rice|Int. Rice Res. Newsl.14(5): 33-34|1989|
74584|T||Bickers,D.R., D. Wroblewski, Tapu-Dutta-Choudhury, and H. Mukhtar|Induction of Neonatal Rat Skin and Liver Aryl Hydrocarbon Hydroxylase by Coal Tar and Its Constituents|J. Invest. Dermatol.78(3): 227-229|1982|10.1111/1523-1747.ep12506525
74585|T||Wootton,M.A., R.J. Kremer, and A.J. Keaster|Effects of Carbofuran and the Corn Rhizosphere on Growth of Soil Microorganisms|Bull. Environ. Contam. Toxicol.50(1): 49-56|1993|10.1007/BF00196540
74586|AT||Quisenberry,S.S., G.B. Trahan, A.M. Heagler, B. McManus, and J.F. Robinson|Effect of Water Management as a Control Strategy for Rice Water Weevil (Coleoptera:  Curculionidae)|J. Econ. Entomol.85(3): 1007-1014|1992|10.1093/jee/85.3.1007
74587|T||Somers,J.D., A.A. Khan, Y. Kumar, and M.W. Barrett|Effects of Simulated Field Spraying of Carbofuran, Carbaryl and Dimethoate on Pheasant and Partridge Chicks|Bull. Environ. Contam. Toxicol.46(1): 113-119|1991|10.1007/BF01688263
74588|T||Thomas,P.T., H.V. Ratajczak, W.C. Eisenberg, M. Furedi-Machacek, K.V. Ketels, and P.W. Barbera|Evaluation of Host Resistance and Immunity in Mice Exposed to the Carbamate Pesticide Aldicarb|Fundam. Appl. Toxicol.9(1): 82-89|1987|10.1016/0272-0590(87)90156-4
74589|A||El-Alfy,A.T., and D. Schlenk|Effect of 17beta-Estradiol and Testosterone on the Expression of Flavin-Containing Monooxygenase and the Toxicity of Aldicarb to Japanese medaka, Oryzias latipes|Toxicol. Sci.68(2): 381-388|2002|10.1093/toxsci/68.2.381
74590|T||Rajamani,S., I.C. Pasalu, R.C. Dani, and J.P. Kulshreshtha|Evaluation of Insecticides and Plant Products for the Control of Insect Pests of Rainfed Upland Rice|Indian J. Plant Prot.15(1): 43-50|1987|
74591|A||Sinha,P.K., S. Pal, and S.B. Triar|An Effective Molluscicide for Grazer Snails of Blue Green Algae|Pesticides 20(2): 44-45|1986|
74592|T||Loera,G.J., and F.A. Diaz|Effect of Insecticides on Okra, Squash and Southern Pea Seeds|Subtrop. Plant Sci.48:25-28|1996|
74593|T||Reddy,V.R., K.R. Reddy, and Z. Wang|Temperature and Aldicarb Effects on Cotton Root Growth and Development|Biotronics26:1-11|1997|
74594|T||Ramamoorthy,K., M. Kannathasan, and D. Kalavathi|Studies on Seed Residues Following Carbofuran Application in Sorghum (Sorghum bicolor (L.) Moench) with Reference to Viability|J. Agron. Crop Sci.166(5): 353-358|1991|10.1111/j.1439-037X.1991.tb00925.x
74595|T||Sauls,J.W.|The Effect of Aldicarb on Growth of Young Citrus Trees|Subtrop. Plant Sci.46:6-8|1994|
74596|T||Klein,B.G., W.C. McCain, and M. Ehrich|Morphometric Analysis of Rat Trigeminal Ganglion Cells and Their Vibrissa Follicle Nerve Axons Following Multiple Low-Dose Exposure to the Carbamate Insecticide Aldicarb|J. Am. Coll. Toxicol.10(5): 555-568|1991|10.3109/10915819109078652
74597|T||Rajagopalan,N., C. Bhaskar, V.S. Bankar, V.B. Pokharkar, P.G. Shukla, A. Regupathy, and K.C. Khilar|Starch Urea Formaldehyde Matrix Encapsulation of Solid Agrochemicals:  III.  Studies and Bioefficacy Trials on Double Encapsulation|Pestic. Sci.45(2): 123-131|1995|10.1002/ps.2780450206
74598|T||Rodriguez,L.V., H.A. Dunsford, M. Steinberg, K.K. Chaloupka, L. Zhu, S. Safe, J.E. Womack, and L.S. Goldstein|Carcinogenicity of Benzo(a)pyrene and Manufactured Gas Plant Residues in Infant Mice|Carcinogenesis18(1): 127-135|1997|10.1093/carcin/18.1.127
74599|T||Culp,S.J., A.R. Warbritton, B.A. Smith, E.E. Li, and F.A. Beland|DNA Adduct Measurements, Cell Proliferation and Tumor Mutation Induction in Relation to Tumor Formation in B6C3F1 Mice Fed Coal Tar or Benzo(a)pyrene|Carcinogenesis21(7): 1433-1440|2000|
74601|A||Tonogai,Y., Y. Ito, M. Iwaida, M. Tati, Y. Ose, and M. Hori|Studies on the Toxicity of Coal-Tar Dyes  III.  Reason of Acute Toxicity to Fish Caused by Coal-Tar Dyes and Their Industrial Effluents|J. Toxicol. Sci.5(1): 23-33|1980|10.2131/jts.5.23
74602|A||Mothershead II,R.F., and R.C. Hale|Influence of Ecdysis on the Accumulation of Polycyclic Aromatic Hydrocarbons in Field Exposed Blue Crabs (Callinectes sapidus)|Mar. Environ. Res.33(2): 145-156|1992|10.1016/0141-1136(92)90138-C
74603|A||Sved,D.W., P.A. Van Veld, and M.H.,Jr. Roberts|Hepatic EROD Activity in Spot, Leiostomus xanthurus, Exposed to Creosote-Contaminated Sediments|Mar. Environ. Res.34(1-4): 189-193|1992|10.1016/0141-1136(92)90106-V
74604|A||Chapman,J.C., N.A.L. Johnston, P.F. Nelson, R. Meenatchi Sunderam, and G.B. Thompson|Acute Toxicity of the Water-Soluble Fraction of Coal Tar to the Tiger Prawn, Penaeus monodon|Oil Chem. Pollut.6(4): 279-287|1990|10.1016/S0269-8579(05)80004-8
74605|A||Arunkumar,R.I., P. Rajasekaran, and R.D. Michael|Differential Effect of Chromium Compounds on the Immune Response of the African Mouth Breeder Oreochromis mossambicus (Peters)|Fish Shellfish Immunol.10(8): 667-676|2000|10.1006/fsim.2000.0281
74606|T||Asmatullah, S.N. Qureshi, and A.R. Shakoori|Hexavalent Chromium-Induced Congenital Abnormalities in Chick Embryos|J. Appl. Toxicol.18(3): 167-171|1998|10.1002/(SICI)1099-1263(199805/06)18:3<167::AID-JAT492>3.0.CO;2-8
74607|T||Chang,X., B.A. Mallard, and D.N. Mowat|Effects of Chromium on Health Status, Blood Neutrophil phagocytosis and In Vitro Lymphocyte Blastogenesis of Dairy Cows|Vet. Immunol. Immunopathol.52(1/2): 37-52|1996|10.1016/0165-2427(95)05539-8
74608|T||Burton,J.L., B.J. Nonnecke, T.H. Elsasser, B.A. Mallard, W.Z. Yang, and D.N. Mowat|Immunomodulatory Activity of Blood Serum from Chromium-Supplemented Periparturient Dairy Cows|Vet. Immunol. Immunopathol.49(1/2): 29-38|1995|10.1016/0165-2427(95)05452-C
74609|T||Karataglis,S., M. Moustakas, and L. Symeonidis|Effect of Heavy Metals on Isoperoxidases of Wheat|Biol. Plant. (Praha)33(1): 3-9|1991|10.1007/BF02873778
74610|T||Olvera,O., S. Zimmering, C. Arceo, J. Guzman, and M.E. De la Rosa|Evidence for the Protective Effect of Ascorbic Acid (Vitamin C) in Treatment with gamma-Rays and Chromium (VI) Oxide (CrO3) in Somatic Cells of Drosophila|Mutat. Res.346(1): 19-21|1995|
74611|T||Sarkar,D., A. Sharma, and G. Talukder|Differential Protection of Chlorophyllin Against Clastogenic Effects of Chromium and Chlordane in Mouse Bone Marrow In Vivo|Mutat. Res.301(1): 33-38|1993|
74612|T||Saxena,D.K., R.C. Murthy, B. Lal, R.S. Srivastava, and S.V. Chandra|Effect of Hexavalent Chromium on Testicular Maturation in the Rat|Reprod. Toxicol.4(3): 223-228|1990|10.1016/0890-6238(90)90062-Z
74613|T||Wiegand,H.J., H. Ottenwalder, and H.M. Bolt|Recent Advances in Biological Monitoring of Hexavalent Chromium Compounds|Sci. Total Environ.71(3): 309-315|1988|10.1016/0048-9697(88)90202-1
74614|T||Loch,J., Z. Gyori, and I. Vago|Examining the Cr Uptake of Italian Ryegrass from Inorganic Compounds and Sewage-Sludge in Pot Experiments|Sci. Total Environ.Suppl:347-355|1993|10.1016/S0048-9697(05)80035-X
74616|A||Garnham,G.W., and M. Green|Chromate (VI) Uptake by and Interactions with Cyanobacteria|J. Ind. Microbiol.14(3-4): 247-251|1995|10.1007/BF01569935
74617|A||Susplugas,S., A. Srivastava, and R.J. Strasser|Changes in the Photosynthetic Activities During Several Stages of Vegetative Growth of Spirodela polyrhiza:  Effect of Chromate|J. Plant Physiol.157(5): 503-512|2000|10.1016/S0176-1617(00)80105-4
74618|A||Wong,P.K., and L. Chang|Effects of Bi- and Trimetallic Combinations of Heavy Metal Ions on Inorganic Nitrogen and Phosphorus Uptake in Chlorella|Microbios71(286): 65-74|1992|
74619|A||Joshi,S.N., and H.S. Patil|Effect of Water Temperature, pH and Hardness on the Toxicity of Chromium Trioxide to Female Frog, Rana cyanophlyctis|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.58(6): 347-350|1992|
74620|T||Sano,H., Y. Kato, A. Takebayashi, and A. Shiga|Effects of Supplemental Chromium and Isolation Stress on Tissue Responsiveness and Sensitivity to Insulin in Sheep|Small Ruminant Res.33(3): 239-246|1999|10.1016/S0921-4488(99)00026-7
74621|T||Alcedo,J.A., M. Misra, J.W. Hamilton, and K.E. Wetterhahn|The Genotoxic Carcinogen Chromium(VI) Alters the Metal-Inducible Expression but not the Basal Expression of the Metallothionein Gene In Vivo|Carcinogenesis15(5): 1089-1092|1994|10.1093/carcin/15.5.1089
74622|T||Murthy,R.C., D.K. Saxena, S.K. Gupta, and S.V. Chandra|Ultrastructural Observations in Testicular Tissue of Chromium-Treated Rats|Reprod. Toxicol.5(5): 443-447|1991|10.1016/0890-6238(91)90008-4
74623|A||Dubey,S.K., and L.C. Rai|Heavy Metal Toxicity in a N2-Fixing Cyanobacterium, Anabaena doliolum:  Regulation of Toxicity by Certain Environmental Factors|Biomed. Environ. Sci.3(2): 240-249|1990|
74624|T||Sai Ram,M., B. Anju, T. Pauline, A.K. Dipti Prasad, A.K. Kain, S.S. Mongia, S.K. Sharma, B. Singh, R. Singh, G. Ilavazh|Effect of Kombucha Tea on Chromate(VI)-Induced Oxidative Stress in Albino Rats|J. Ethnopharmacol.71(1/2): 235-240|2000|10.1016/S0378-8741(00)00161-6
74625|T||Hojo,Y., and Y. Satomi|In Vivo Nephrotoxicity Induced in Mice by Chromium(VI):  Involvement of Glutathione and Chromium(V)|Biol. Trace Elem. Res.31(1): 21-32|1991|10.1007/BF02990356
74626|T||Cifone,M.G., E. Alesse, R. Di Eugenio, T. Napolitano, S. Morrone, R. Paolini, G. Santoni, and A. Santoni|In Vivo Cadmium Treatment Alters Natural Killer Activity and Large Granular Lymphocyte Number in the Rat|Immunopharmacology (N. Y.)18(3): 149-156|1989|10.1016/0162-3109(89)90012-X
74627|A||Haskell Laboratory|Initial Submission:  Chromic Acid, Dipotassium Salt:  24-Hour LC50 to Daphnia magna with Cover Letter Dated 050892 and Attachments|EPA/OTS Doc.#88-920002792:14 p.|1992|
74628|T||Stafford,E.A., and C.A. Edwards|Comparison of Heavy Metal Uptake by Eisenia foetida with that of Other Common Earthworms|EPA/OTS Doc.#40-85135038:78 p.|1985|
74629|T||Christian,R.T., C.S. Clark, T.E. Cody, S. Witherup, P.S. Gartside, V.J. Elita, P.M. Eller, R. Lingg, G.P. Coooper, and |The Development of a Test for the Potability of Water Treated by Direct Reuse System (Contract No. DADA-17-73-C-3013) (Final Report)|EPA/OTS Doc.#40-8069226:172 p.|1980|
74630|T||Ciba-Geigy Corp.|Initial Submission:  90-Day Subacute Oral Toxicity Study with Primrose Chrome Yellow in Albino Rats with Cover Letter Dated 101992|Ciba-Geigy Corporation, Greensboro, NC:71 p.|1992|
74632|T||Randerath,E., G.D. Zhou, K.C. Donnelly, S.H. Safe, and K. Randerath|DNA Damage Induced in Mouse Tissues by Organic Wood Preserving Waste Extracts as Assayed by 32P-Postlabeling|Arch. Toxicol.70(11): 683-695|1996|10.1007/s002040050329
74633|T||Pandya,H.V., A.H. Shah, and M.S. Purohit|Assessment of Partitioned Growth-Stage Yield Loss due to Insect Pests of Rice (Oryza sativa)|Indian J. Agric. Sci.59(4): 272-273|1989|
74635|AT||Bernhardt,J.L.|Screening Insecticides for Control of Rice Water Weevil|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.:88-94|1996|
74636|T||Wadhwa,V., P.P. Bakhre, and R. Sharma|Cholinesterase Inhibition in Female Streptopelia decaocto Following Exposure to Furadan SP 50|J. Environ. Biol.10(3): 273-282|1989|
74637|T||Vijayan,N., C.B. Manomohan, K.V. Valsala, and A. Rajan|Effect of Subtoxic Levels of Carbofuran on the Immune System of Ducks|J. Vet. Anim. Sci.21(1): 99-104|1990|
74638|T||Sundararaju,P., and P.K. Koshy|Control of Radopholus similis on Arecanut Seedlings with Aldicarb, Aldicarb Sulfone, Carbofuran and Fensulfothion|Indian J. Nematol.16(1): 4-7|1986|
74639|T||Thapar,H.S., and K. Uniyal|Effect of Pesticides on the Growth of Ectomycorrhizal Fungi In-Vitro|Indian For.116(10): 791-794|1990|
74640|T||Varshney,U., and R.S. Rana|Studies on the Effect of Phorate, Disyston and Carbofuran on Soil Microflora of Tarai Soil|Pesticides 21(4): 39-41|1987|
74641|A||Tagatz,M.E., G.R. Plaia, C.H. Deans, and E.M. Lores|Toxicity of Creosote-Contaminated Sediment to Field- and Laboratory-Colonized Estuarine Benthic Communities|Environ. Toxicol. Chem.2(4): 441-450|1983|
74642|A||Borthwick,P.W., and J.M.,Jr. Patrick|Use of Aquatic Toxicology and Quantitative Chemistry to Estimate Environmental Deactivation of Marine-Grade Creosote in Seawater|Environ. Toxicol. Chem.1(4): 281-288|1982|
74643|A||McLeese,D.W., and C.D. Metcalfe|Toxicity of Creosote to Larval and Adult Lobsters and Crangon and Its Accumulation in Lobster Hepatopancreas|Bull. Environ. Contam. Toxicol.22(6): 796-799|1979|10.1007/BF02027027
74645|T||Sridar,R., A. Regupathy, and K. Ranganathan|Mycotonic Effect of Carbofuran on Trichoderma viride|J. Biol. Control9(1): 65-66|1995|
74646|T||Sridar,R., and A. Regupathy|Effect of Carbofuran on the Biocontrol Agent Trichoderma viride|Indian J. Plant Prot.25(2): 133-134|1997|
74647|T||Yadav,J.L., Y.P. Madan, and J.P. Chaudhary|Effect of Insecticidal Treatments on Length, Girth and Number of Internodes in Sugarcane|Agric. Sci. Dig.11(2): 91-94|1991|
74648|T||Yassin,M.Y., and A. Ismail|Effect of Some Oilseed Cakes as Soil Amendments and Aldicarb on Cowpea Plants Infected with Rotylenchulus reniformis Lin. and Ol. in Relation to Soil Type|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)67(8): 176-178|1994|10.1007/BF01905541
74649|T||Stout,W.L., R.A. Byers, K.T. Leath, C.C. Bahler, and L.D. Hoffman|Effects of Weed and Invertebrate Control on Alfalfa Establishment in Oat Stubble|J. Prod. Agric.5(3): 349-352|1992|10.2134/jpa1992.0349
74650|T||Verma,K.K., and D.C. Gupta|Studies on Effect of Nitrogen Phosphorus and Potassium Fertilizers Singly and in Combination with Pesticides on Cowpa (Vigna unguiculata (L.) Walp) Infected with Meloidogyne javanica|Indian J. Nematol.16(1): 51-55|1986|
74651|T||Smith,R.J.,Jr., and K. Khodayari|Herbicide Treatments for Control of Weeds in Dry-Seeded Rice (Oryza sativa)|Weed Sci.33(5): 686-692|1985|10.1017/S0043174500083090
74652|AT||Hill,J.E., S.R. Roberts, D.E. Bayer, and J.F. Williams|Crop Response and Weed Control from New Herbicide Combinations in Water-Seeded Rice (Oryza sativa)|Weed Technol.4(4): 838-842|1990|10.1017/S0890037X00026506
74654|T||Emmett,E.A., E.M. Bingham, and W. Barkley|A Carcinogenic Bioassay of Certain Roofing Materials|Am. J. Ind. Med.2(1): 59-64|1981|10.1002/ajim.4700020110
74655|T||Mukhtar,H., P. Asokan, M. Das, R.M. Santella, and D.R. Bickers|Benzo(a)pyrene Diol Epoxide-I-DNA Adduct Formation in the Epidermis and Lung of SENCAR Mice Following Topical Application of Crude Coal Tar|Cancer Lett.33(3): 287-294|1986|10.1016/0304-3835(86)90068-6
74656|T||Kligman,A.M., and L.H. Kligman|Carcinogens Show Comedogenic Activity:  A Potential Animal Screen for Tumorigenic Substances|Cancer Lett.87(2): 171-178|1994|10.1016/0304-3835(94)90219-4
74657|T||Steurbaut,W., A. Heungens, G. Melkebeke, R. Verstraeten, and W. Dejonckheere|The Fate of Oxamyl and Aldicarb in Azalea Leaves After Different Application Methods in Greenhouses|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(2a): 205-210|1986|
74658|T||Weidemann,G.|Ecological Risk Assessment and the Regulation of Chemicals.  II.  Consequences of Effect Analysis in Terrestrial Ecosystems|Sci. Total Environ.Suppl:1669-1677|1993|10.1016/S0048-9697(05)80168-8
74659|T||Srivastava,S.K., and O.P. Singh|Influence of Granular Insecticides on the Rhizosphere mycoflora of Soybean (Glycine max (L.) Merrill)|Agric. Sci. Dig.11(2): 103-106|1991|
74660|T||Kathpal,T.S., G. Singh, G.S. Yadav, R.S. Jaglan, and Y.S. Malik|Aldicarb Residues in Soil and Their Translocation into Potato (Solanum tuberosum) Tubers|Indian J. Agric. Sci.58(11): 868-870|1988|
74661|A||Agrawal,S.C., and U. Misra|Vegetative Survival, Akinete and Zoosporangium Formation and Germination in Some Selected Algae as Affected by Nutrients, pH, Metals, and Pesticides|Folia Microbiol. (Prague)47(5): 527-534|2002|10.1007/BF02818793
74662|T||Vyas,R.V., D.N. Yadav, and R.J. Patel|Compatibility of Beauveria brongniartii with Some Pesticides Used in Groundnut Pest Management|Ann. Biol.6(1): 21-26|1990|
74663|T||EPA/OTS|Initial Submission:  Letter from U.S.EPA Reporting Results of Acute Studies with a Methomyl R&D Proprietary Mixture, Dated 8/3/1999 (Sanitized)|EPA/OTS Doc #88990000241S:2 p.|1999|
74665|T||Peters,T.L., R.M. Fulton, K.D. Roberson, and M.W. Orth|Effect of Antibiotics on In Vitro and In Vivo Avian Cartilage Degradation|Avian Dis.46(1): 75-86|2002|10.1637/0005-2086(2002)046[0075:EOAOIV]2.0.CO;2
74666|A||Vythilingam,I., and P. Panart|A Field Trial on the Comparative Effectiveness of Malathion and Resigen by ULV Application on Aedes aegypti|Southeast Asian J. Trop. Med. Public Health22(1): 102-107|1991|
74668|AT||Azmi,M., and A.I. Anwar|Quinclorac and Bensulfuron - Potential Herbicides for Direct-Seeded Rice|MARDI Res. J.17(2): 208-217|1989|
74669|T||Kinoshita,T., and K. Mori|Somaclonal Selection of Physiological Mutants and Several Problems Related to Rice Cell Breeding|J. Appl. Genet.39(1): 9-35|1998|
74670|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Cyanide at ERL, Narragansett|Memo to D.Hansen, U.S.EPA, Narragansett, RI:1 p.|1985|
74671|T||Saloga,J., J. Knop, and G. Kolde|Ultrastructural Cytochemical Visualization of Chromium in the Skin of Sensitized Guinea Pigs|Arch. Dermatol. Res.280(4): 214-219|1988|10.1007/BF00513960
74672|A||Walch,M., M. Ewell, R.M. Weiner, and J.T. Kovach|Concentration of Metal Pollutants in Bacterial Biofilms and Inhibition of Oyster Settlement and Metamorphosis|Chesapeake Bay Research and Monitoring Division, University of Maryland, College Park, MD:80 p.|1997|
74673|T||Poschenrieder,C., B. Gunse, and J. Barcelo|Chromium-Induced Inhibition of Ethylene Evolution in Bean (Phaseolus vulgaris) Leaves|Physiol. Plant. (Multiple Languages)89(2): 404-408|1993|10.1111/j.1399-3054.1993.tb00173.x
74674|T||Lee,D.A., A. Chen, and J.I. Schroeder|ARS1, an Arabidopsis Mutant Exhibiting Increased Tolerance to Arsenate and Increased Phosphate Uptake|Plant J.35(5): 637-646|2003|10.1046/j.1365-313X.2003.01835.x
74687|T||Chadwick,R.W., S.E. George, M.J. Kohan, R.W. Williams, J.C. Allison, D.L. Talley, Y.O. Hayes, and J. Chang|Potentiation of 2,6-Dinitrotoluene Genotoxicity in Fischer 344 Rats by Pretreatment with Coal Tar Creosote|J. Toxicol. Environ. Health44(3): 319-336|1995|10.1080/15287399509531962
74688|T||Cizmas,L., G.D. Zhou, S.H. Safe, T.J. McDonald, L. Zhu, and K.C. Donnelly|Comparative In Vitro and In Vivo Genotoxicities of 7H-Benzo(c)Fluorene, Manufactured Gas Plant Residue (MGP), and MGP Fractions|Environ. Mol. Mutagen.43(3): 159-168|2004|10.1002/em.20011
74689|T||Salam,M.A., and S. Subramanian|Nitrogen-Insecticide Synergism on Growth and Yield of Lowland Rice in Three Seasons|Trop. Agric.66(4): 297-304|1989|
74690|A||Morgan,D.R., N.P. Tugwell, and J.L. Bernhardt|Early Rice Field Drainage for Control of Rice Water Weevil (Coleoptera:  Curculionidae) and Evaluation of an Action Threshold Based upon Leaf-Feeding Scars of Adults|J. Econ. Entomol.82(6): 1757-1759|1989|10.1093/jee/82.6.1757
74691|T||Sundararaju,P., and P.K. Koshy|Effect of Different Nematicides and Neem Oil Cake in the Control of Radopholus similis in Yellow Leaf Disease Affected Arecanut Palms|Indian J. Nematol.16(1): 44-47|1986|
74692|T||Wanjala,B.W.|Investigations into Control of Nematodes and Fungal Diseases in Pyrethrum Fields in Kenya|Pyrethrum Post18(3): 94-99|1991|
74693|T||Zaman,M., and Karimullah |Evaluation of Granular Systemic Pesticides Against the Major Sucking Pests of Jute in Peshawar|Pak. J. Agric. Res.8(1): 61-66|1987|
74694|T||Barney,R.J., J.C. Parr, and B.C. Pass|Carbofuran Effects on Alfalfa Establishment Under No-Tillage Conditions|Trans. Kans. Acad. Sci.49(3/4): 80-84|1988|
74695|T||Rahman,M.L., A.H. Mondol, and S.A. Miah|Nematicides for Control of Rice Ufra Disease|Bangladesh J. Bot.21(1): 11-17|1992|
74696|T||Smith,G.S., T.L. Niblack, and H.C. Minor|Response of Soybean Cultivars to Aldicarb in Heterodera glycines-Infested Soils in Missouri|J. Nematol.23(suppl.4): 693-698|1991|
74698|T||Sutter,G.R., J.R. Fisher, N.C. Elliott, and T.F. Branson|Effect of Insecticide Treatments on Root Lodging and Yields of Maize in Controlled Infestations of Western Corn Rootworms (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.83(6): 2414-2420|1990|10.1093/jee/83.6.2414
74699|T||Thomas,P.T., and H.V. Ratajczak|Assessment of Carbamate Pesticide Immunotoxicity|Toxicol. Ind. Health4(3): 381-390|1988|10.1177/074823378800400310
74700|T||Ali,M.I., and M.A. Karim|Biological Efficacy of Some Chemical Insecticides Against the Cotton Jassid, Amrasca devastans (Dist.)|Bangladesh J. Zool.21(1): 161-167|1993|
74701|T||Vrain,T.C., and J.C.W. Keng|Application of Nonvolatile Nematicides Through a Trickle Irrigation System to Control Pratylenchus penetrans in Raspberries|Can. J. Plant Pathol.8(1): 97-101|1986|10.1080/07060668609501849
74702|T||Jordan,D.L., R.E. Frans, and M.R. McClelland|DPX-PE350 does not Interact with Early-Season Insecticides in Cotton (Gossypium hirsutum)|Weed Technol.7(1): 92-96|1993|10.1017/S0890037X00036939
74703|T||Fleet,J.C., K.A. Golemboski, R.R. Dietert, G.K. Andrews, and C.C. McCormick|Induction of Hepatic Metallothionein by Intraperitoneal Metal Injection:  An Associated Inflammatory Response|Am. J. Physiol. Gasterointest. Liver Physiol.258(6 Pt. 1): G926 - G933|1990|
74704|AT||FMC Corp.|Health Effect Studies on Various Aryl Phosphates|EPA/OTS Doc.#40-7942485:1548 p.|2000|
74705|T||Weyand,E.H., Y.C. Chen, Y. Wu, A. Koganti, H.A. Dunsford, and L.V. Rodriguez|Differences in the Tumorigenic Activity of a Pure Hydrocarbon and a Complex Mixture Following Ingestion:  Benzo(a)pyrene vs Manufactured Gas Plant Residue|Chem. Res. Toxicol.8(7): 949-954|1995|10.1021/tx00049a008
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74710|T||Trudgill,D.L.|Effects of Rates of a Nematicide and of Fertiliser on the Growth and Yield of Cultivars of Potato Which Differ in Their Tolerance of Damage by Potato Cyst Nematodes (Globodera rostochiensis and G. pallida)|Plant Soil104(2): 235-244|1987|10.1007/BF02372537
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74713|A||Ismail,B.S., T.C. Siew, and I. Mushrifah|Effect of Molinate and Carbofuran on Nitrogen Fixation by Azolla pinnata|Microbios82(331): 127-134|1995|
74714|T||Hamid,A.|Nitrogen and Carbofuran Effects on the Growth and Yield Performance of Mungbean (Vigna radiata (L.) Wilczek)|J. Agron. Crop Sci.16(1): 11-16|1988|10.1111/j.1439-037X.1988.tb00637.x
74715|T||Sundaram,R., and B. Velayutham|Relative Efficacy of Some Insecticides and Neem Cake in the Control of Rotylenchulus reniformis and Helicotylenchus dihystera Affecting Garden Bean|Indian J. Nematol.18(2): 329-331|1988|
74716|A||Barnes,J.E.|Molinate (S-Ethyl Hexahydro-1H-Azepine-1-Carbothioate) Controls Red Rice (Oryza sativa) in the Burdekin Valley of North Queensland|Aust. J. Exp. Agric.30(6): 841-843|1990|10.1071/EA9900841
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74718|T||Stenersen,J., E. Brekke, and F. Engelstad|Earthworms for Toxicity Testing; Species Differences in Response Towards Cholinesterase Inhibiting Insecticides|Soil Biol. Biochem.24(12): 1761-1764|1992|10.1016/0038-0717(92)90184-Y
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74721|T||Biswas,J.C., and A. Hamid|Influence of Carbofuran on Growth and Yield Mungbean|Bangladesh J. Bot.21(2): 255-257|1992|
74722|T||Kuk,Y.I., K.H. Kim, O.D. Kwon, D.J. Lee, N.R. Burgos, S. Jung, and J.O. Guh|Cross-Resistance Pattern and Alternative Herbicides for Cyperus difformis Resistant to Sulfonylurea Herbicides in Korea|Pest Manag. Sci.60(1): 85-94|2003|10.1002/ps.786
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74727|T||Reddy,M.V., V.P.K. Kumar, V.R. Reddy, P. Balashouri, D.F. Yule, A.L. Cogle, and L.S. Jangawad|Earthworm Biomass Response to Soil Management in Semi-Arid Tropical Alfisol Agroecosystems|Biol. Fertil. Soils19(4): 317-321|1995|10.1007/BF00336101
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74731|T||Arizona Chemical Co.|Initial Submission:  Letter from Attys of Arizona Chem Co. to U.S.EPA Regarding 17 Health and Ecotoxicity Studies of Various Chemicals, with Attachments and Dated 110299 (Sanitized)|Arizona Chemical Co., Panama City, FL:10 p.|1999|
74734|T||Zhang,Y., S. Lambiase, M. Fasola, C. Gandini, A. Grigolo, and U. Laudani|Mortality and Tissue Damage by Heavy Metal Contamination in the German Cockroach, Blattella germanica (Blattaria, Blattellidae)|Ital. J. Zool.68(2): 137-145|2001|10.1080/11250000109356398
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74746|AT||Guy,C.B.,Jr., R.S. Helms, and J.D. Beaty|Rice Cultivar Response to Rice Herbicides and Simulated Rice Herbicide Drift to Sensitive Crops|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.439:43-50|1994|
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74751|A||Thursby,G.B., W.J. Berry, and D. Champlin|Flow-Through Acute and Chronic Tests with Acenaphthene Using Mysidopsis bahia|Sept.19 Letter to D.J.Hansen, U.S.EPA, Narragansett, RI:5 p.|1989|
74752|A||Kuhn,A., and S. Lussier|Phenanthrene Results of Acute and Chronic Tests (Flow-Thru) with Mysidopsis bahia|Letter to D.Hansen, U.S.EPA, Narragansett, RI:3 p.|1989|
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74755|T||Ahotupa,M., and E. Mantyla|Adipose Tissue Content as a Modifier of the Tissue Distribution, Biological Effects, and Excretion of a Hexachlorobiphenyl in C57BL/6J and DBA/JBOMf Mice|Mol. Pharmacol.24(3): 464-470|1983|
74756|T||Duthie-Holt,M.A., J.H. Borden, and L.J. Rankin|Translocation and Efficacy of a Neem-Based Insecticide in Lodgepole Pine Using Ips pini (Coleoptera:  Scolytidae) as an Indicator Species|J. Econ. Entomol.92(1): 180-186|1999|10.1093/jee/92.1.180
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74759|A||Union Carbide Corp.|Initial Submission:  R/D Report Concerning Bluegill Toxicity Study with Temik Sulfoxide and Temik Sulfone with Cover Letter Dated 09/03/92|EPA/OTS Doc.#88-920009384:10 p.|1992|
74760|T||Overby,L.H., S. Nishio, A. Weir, G.T. Carver, C.G. Plopper, and R.M. Philpot|Distribution of Cytochrome P450 1A1 and NADPH-Cytochrome P450 Reductase in Lungs of Rabbits Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Ultrastructural Immunolocalization and In Situ Hybridization|Mol. Pharmacol.41:1039-1046|1992|
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74763|T||Sweeney,G.D., K.G. Jones, F.M. Cole, D. Basford, and F. Krestynski|Iron Deficiency Prevents Liver Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Science204:332-335|1979|10.1126/science.432648
74764|T||Toth,K., S. Somfai-Relle, J. Sugar, and J. Bence|Carcinogenicity Testing of Herbicide 2,4,5-Trichlorophenoxyethanol Containing Dioxin and of Pure Dioxin in Swiss Mice|Nature278(5): 548-549|1979|10.1038/278548a0
74765|T||Hakansson,H., L. Johansson, E. Manzoor, and U.G. Ahlborg|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Hepatic 7-Ethoxyresorufin O-Deethylase Activity in Four Rodent Species|Eur. J. Pharmacol.270:279-284|1994|
74766|T||Donahue,D.A., E.J. Dougherty, and L.A. Meserve|Influence of a Combination of Two Tetrachlorobiphenyl Congeners (PCB 47; PCB 77) on Thyroid Status, Choline Acetyltrasferase (ChAT) Activity, and Short- and Long-Term Memory in 30-Day-Old Sprague-Dawley Rats|Toxicology203:99-107|2004|10.1016/j.tox.2004.06.011
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74769|T||Mochizuki,S., Y. Watanabe, K. Kato, and A. Yoshida|Effects of Ethanol and Polychlorinated Biphenyls in Combination on Ascorbic Acid Metabolism, Liver Drug-Metabolizing Enzymes, and Lipid Metabolism in Rats|Biosci. Biotechnol. Biochem.56(12): 2037-2040|1992|10.1271/bbb.56.2037
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74773|T||Li,M.H., P.C. Hsu, and Y.L. Guo|Hepatic Enzyme Induction and Acute Endocrine Effects of 2,2',3,3',4,6'-Hexachlorobiphenyl and 2,2',3,4',5',6-Hexachlorobiphenyl in Prepubertal Female Rats|Arch. Environ. Contam. Toxicol.41:381-385|2001|10.1007/s002440010263
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74776|T||Annas,A., B. Brunstrom, and E.B. Brittebo|CYP1A-Dependent Activation of Xenobiotics in Endothelial Linings of the Chlorioallantoic Membrane (CAM) in Birds|Arch. Toxicol.74:335-342|2000|10.1007/s002040000128
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74781|T||Ahotupa,M., E. Hietanen, E. Mantyla, and H. Vainio|Effects of Polychlorinated Paraffins on Hepatic, Renal and Intestinal Biotransformation Rates in Comparison to the Effects of Polychlorinated Biphenyls and Naphthalenes|J. Appl. Toxicol.2(1): 47-53|1982|10.1002/jat.2550020111
74782|T||Sterner,R.T., D.A. Goldade, and R.E. Mauldin|Zinc Phosphide Residues in Gray-Tailed Voles (Microtus canicaudus) fed Fixed Particles of a 2% Grain Bait|Int. Biodeterior. Biodegrad.42(2-3): 109-113|1998|10.1016/S0964-8305(98)00013-4
74790|T||Kuriyama,S.N., and I. Chahoud|In Utero Exposure to Low-Dose 2,3',4,4',5-Pentachlorobiphenyl (PCB 118) Impairs Male Fertility and Alters Neurobehavior in Rat Offspring|Toxicology202:185-197|2004|10.1016/j.tox.2004.05.006
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74796|T||Weber,L.W.D., M. Lebofsky, B.U. Stahl, S. Smith, and K.K. Rozman|Correlation Between Toxicity and Effects on Intermediary Metabolism in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Treated Male C57BL/6J and DBA/2J Mice|Toxicol. Appl. Pharmacol.131:155-162|1995|10.1006/taap.1995.1057
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74805|T||Kupfer,D., C. Mani, C.A. Lee, and A.B. Rifkind|Induction of Tamoxifen-4-Hydroxylation by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD), beta-Naphthoflavone (betaNF), and Phenobarbital (PB) in Avian Liver:  Identification of P450 TCDDAA as Catalyst of 4-Hydroxylation In|Cancer Res.54:3140-3144|1994|
74806|T||Mantyla,E., and M. Ahotupa|Polychlorinated Biphenyls and Naphthalenes:  Lond-Lasting Induction of Oxidative Stress in the Rat|Chemosphere27(1-3): 383-390|1993|10.1016/0045-6535(93)90316-W
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74808|T||Paroli,L., C. Lee, and A.B. Rifkind|Identification of Hepatocytes as the Major Locus of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced CYP1-Related P450s, TCDDAA and TCDDAHH, in Chick Embryo Liver|Drug Metab. Dispos.22(6): 962-968|1994|
74809|T||Sparrow,B.R., C.S. Thompson, B.W. Ryu, D.P. Selevonchick, and H.W. Schaup|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induced Alterations of Pyruvate Carboxylase Levels and Lactate Dehydrogenase Isozyme Shifts in C57BL/6J Male Mice|J. Biochem. Toxicol.9(6): 329-335|1994|10.1002/jbt.2570090608
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74813|T||Waalkes,M.P., J. Liu, K.S. Kasprzak, and B.A. Diwan|Minimal Influence of Metallothionein Over-Expression on Nickel Carcinogenesis in Mice|Toxicol. Lett.153:357-364|2004|10.1016/j.toxlet.2004.06.003
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74817|T||Priddel,D., N. Carlile, and R. Wheeler|Eradication of European Rabbits (Oryctolagus cuniculus) from Cabbage Tree Island, NSW, Australia, to Protect the Breeding Habitat of Gould's Petrel (Pterodroma leucoptera leucoptera)|Biol. Conserv.94(1): 115-125|2000|10.1016/S0006-3207(99)00155-X
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74834|T||Siddiqui,M.A., M.F. Azam, and S.K. Saxena|Evaluation of Root Dip Treatments with Nematicides on Development of Root Gall and Yield (Meloidogyne incognita) in Tomato and Aubergine|Tests Agrochem. Cultiv.19:8-9|1998|
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74848|T||Nandihalli,B.S., and T.S. Thontadarya|Studies on the Residues of Different Insecticides-cum-Acaricides Used in the Control of Chilli (Capsicum annuum L.) Leaf-Curl|Pesticides 20(8): 48-50|1986|
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74853|T||Gupta,A., and V. Singh|Persistence of Aldicarb Residues in Groundnut Grown in Sandy Loam Soil|Pesticides 21(12): 23-24|1987|
74855|T||Duffard,R., G.M. De Moro, and A.M.E. De Duffard|Hatching and Lipid Composition of Chick Brain from Eggs Treated with 2,4-Dichlorophenoxyacetic Butyl Ester|Toxicology24:305-311|1982|10.1016/0300-483X(82)90012-9
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74870|T||Morgan,R.H., and M.L.,Jr. McCormack|Simazine Enhances Balsam Fir Growth but Contributes to Deer Damage|Tree Plant. Notes24:11-13|1973|
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74877|T||Schop,R.N., M.H. Hardy, and M.T. Goldberg|Comparison of the Activity of Topically Applied Pesticides and the Herbicide 2,4-D in Two Short-Term In Vivo Assays of Genotoxicity in the Mouse|Fundam. Appl. Toxicol.15(4): 666-675|1990|10.1016/0272-0590(90)90183-K
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74883|T||Jokanovic,M., and M. Maksimovic|A Comparison of Trimedoxime, Obidoxime, Pralidoxime and HI-6 in the Treatment of Oral Organophosphorus Insecticide Poisoning in the Rat|Arch. Toxicol.70(2): 119-123|1995|10.1007/BF02733672
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74885|T||Radvanyi,A., P. Kroeger, D.G. Busby, and G.G. Shaw|Responses of Quail, Pheasants, and Sparrows to One Oral Dose of Dimethoate and to Consumption of Dimethoate Treated Bran Baits|Bull. Environ. Contam. Toxicol.36(4): 616-621|1986|10.1007/BF01623559
74886|T||Harris,C.R., and S.A. Turnbull|Contact Toxicity of Some Pyrethroid Insecticides, Alone and in Combination with Piperonyl Butoxide, to Insecticide-Susceptible and Pyrethroid-Resistant Strains of the Colorado Potato Beetle (Coleoptera:  Chrysomelidae)|Can. Entomol.118(11): 1173-1176|1986|10.4039/Ent1181173-11
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74888|T||Tanaka,T.|Effects of Piperonyl Butoxide on F1 Generation Mice|Toxicol. Lett.60(1): 83-90|1992|10.1016/0378-4274(92)90050-T
74889|T||Tanaka,T., T. Fujitani, O. Takahashi, and S. Oishi|Developmental Toxicity Evaluation of Piperonyl Butoxide in CD-1 Mice|Toxicol. Lett.71(2): 123-129|1994|10.1016/0378-4274(94)90172-4
74890|T||Ahammad-Sahib,K.I., R.M. Hollingworth, M.E. Whalon, P.M. Ioannidis, and E.J. Grafius|Polysubstrate Monooxygenases and Other Xenobiotic-Metabolizing Enzymes in Susceptible and Resistant Colorado Potato Beetle|Pestic. Biochem. Physiol.49(1): 1-12|1994|10.1006/pest.1994.1029
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74892|T||Kinsler,S., P.E. Levi, and E. Hodgson|Relative Contributions of the Cytochrome P450 and Flavin-Containing Monooxygenases to the Microsomal Oxidation of Phorate Following Treatment of Mice with Phenobarbital, Hydrocortisone, Acetone, and Piperonyl Butoxide|Pestic. Biochem. Physiol.37(2): 174-181|1990|10.1016/0048-3575(90)90123-J
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75000|A||Palm,R.C.,Jr., D.B. Powell, A. Skillman, and K. Godtfredsen|Immunocompetence of Juvenile Chinook Salmon Against Listonella anguillarum Following Dietary Exposure to Polycyclic Aromatic Hydrocarbons|Environ. Toxicol. Chem.22(12): 2986-2994|2003|10.1897/02-561
75002|T||De Roode,D.F., P.J. Vuorinen, and A.T.C. Bosveld|Effects of Furazolidone, PCB77, PCB126, Aroclor 1248, Paraquat and p,p'-DDE on Transketolase Activity in Embryonal Chicken Brain|Toxicology173(3): 203-210|2002|10.1016/S0300-483X(02)00009-4
75003|T||Muto,T., N. Imano, K. Nakaaki, H. Takahashi, H. Hano, S. Wakui, and M. Furusato|Estrous Cyclicity and Ovarian Follicles in Female Rats After Prenatal Exposure to 3,3',4,4',5-Pentachlorobiphenyl|Toxicol. Lett.143(3): 271-277|2003|10.1016/S0378-4274(03)00175-9
75004|T||Lipponen,A., S. Lensu, J. Tuomisto, A. Yamatodani, J. Tarhanen, and L. Tuomisto|The Role of the Chorda Tympani Nerve and Histaminergic System in TCDD Toxicity|Inflamm. Res.53(suppl. 1): S59 - S60|2004|
75005|T||Yoon,B.I., Y. Hirabayashi, T. Kaneko, Y. Kodama, J. Kanno, J. Yodoi, D.Y. Kim, and T. Inoue|Transgene Expression of Thioredoxin (TRX/ADF) Protects Against 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Hematotoxicity|Arch. Environ. Contam. Toxicol.41(2): 232-236|2001|10.1007/s002440010242
75006|T||Granberg,A.L., B. Brunstrom, and I. Brandt|Cytochrome P450-Dependent Binding of 7,12-Dimethylbenz(a)anthracene (DMBA) and Benzo(a)pyrene (B(a)P) in Murine Heart, Lung, and Liver Endothelial Cells|Arch. Toxicol.74(10): 593-601|2000|10.1007/s002040000171
75007|T||Hussain,R.J., J. Gyori, A.P. DeCaprio, and D.O. Carpenter|In Vivo and In Vitro Exposure to PCB 153 Reduces Long-Term Potentiation|Environ. Health Perspect.108(9): 827-831|2000|10.1289/ehp.00108827
75008|T||Huang,P., A. Rannug, E. Ahlbom, H. Hakansson, and S. Ceccatelli|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Expression of Cytochrome P450 1A1, the Aryl Hydrocarbon Receptor, and the Aryl Hydrocarbon Receptor Nuclear Translocator in Rat Brain and Pituitary|Toxicol. Appl. Pharmacol.169(2): 159-167|2000|10.1006/taap.2000.9064
75009|T||Van der Plas,S.A., H. Sundberg, H. Van den Berg, G. Scheu, P. Wester, S. Jensen, A. Bergman, J. De Boer, J.H. Koeman, a|Contribution of Planar (0-1 Ortho) and Nonplanar (2-4 Ortho) Fractions of Aroclor 1260 to the Induction of Altered Hepatic Foci in Female Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.169(3): 255-268|2000|10.1006/taap.2000.9058
75010|T||Nilsson,C.B., P. Hoegberg, C. Trossvik, V. Azais-Braesco, W.S. Blaner, G. Fex, E.H. Harrison, H. Nau, C.K. Schmidt, A.M|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Increases Serum and Kidney Retinoic Acid Levels and Kidney Retinol Esterification in the Rat|Toxicol. Appl. Pharmacol.169(2): 121-131|2000|10.1006/taap.2000.9059
75011|T||Lind,P.M., J. Orberg, U.B. Edlund, L. Sjoblom, and L. Lind|The Dioxin-Like Pollutant PCB 126 (3,3',4,4',5-Pentachlorobiphenyl) Affects Risk Factors for Cardiovascular Disease in Female Rats|Toxicol. Lett.150(3): 293-299|2004|10.1016/j.toxlet.2004.02.008
75012|T||Theobald,H.M., B.L. Roman, T.M. Lin, S. Ohtani, S.W. Chen, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Inhibits Luminal Cell Differentiation and Androgen Responsiveness of the Ventral Prostate Without Inhibiting Prostatic 5alpha-Dihydrotestosterone Formation or Testicular Androgen Prod|Toxicol. Sci.58(2): 324-338|2000|10.1093/toxsci/58.2.324
75013|T||Dudley,A.C., M.M. Peden-Adams, J. EuDaly, R.S. Pollenz, and D.E. Keil|An Aryl Hydrocarbon Receptor Independent Mechanism of JP-8 Jet Fuel Immunotoxicity in Ah-Responsive and Ah-Nonresponsive Mice|Toxicol. Sci.59(2): 251-259|2001|10.1093/toxsci/59.2.251
75014|T||Abbott,B.D., A.R. Buckalew, M.J. DeVito, D. Ross, P.L. Bryant, and J.E. Schmid|EGF and TGF-alpha Expression Influence the Developmental Toxicity of TCDD:  Dose Response and AhR Phenotype in EGF, TGF-alpha, and EGF + TGF-alpha Knockout Mice|Toxicol. Sci.71(1): 84-95|2003|10.1093/toxsci/71.1.84
75015|T||Luebke,R.W., C.B. Copeland, L.R. Bishop, M.J. Daniels, and M.I. Gilmour|Mortality in Dioxin-Exposed Mice Infected with Influenza:  Mitochondrial Toxicity (Reye's-like Syndrome) Versus Enhanced Inflammation as the Mode of Action|Toxicol. Sci.69(1): 109-116|2002|10.1093/toxsci/69.1.109
75016|T||Nishimura,N., Y. Miyabara, M. Sato, J. Yonemoto, and C. Tohyama|Immunohistochemical Localization of Thyroid Stimulating Hormone Induced by a Low Oral Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Female Sprague-Dawley Rats|Toxicology171(2-3): 73-82|2002|10.1016/S0300-483X(01)00559-5
75017|T||Nohara,K., H. Fujimaki, S.I. Tsukumo, K. Inouye, H. Sone, and C. Tohyama|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on T Cell-Derived Cytokine Production in Ovalbumin (OVA)-Immunized C57B1/6 Mice|Toxicology172(1): 49-58|2002|10.1016/S0300-483X(01)00582-0
75018|T||Johnson,C.W., W.C. Williams, C.B. Copeland, M.J. DeVito, and R.J. Smialowicz|Sensitivity of the SRBC PFC Assay Versus ELISA for Detection of Immunosuppression by TCDD and TCDD-Like Congeners|Toxicology156(1): 1-11|2000|10.1016/S0300-483X(00)00330-9
75019|T||Nohara,K., H. Fujimaki, S.I. Tsukumo, H. Ushio, Y. Miyabara, M. Kijima, C. Tohyama, and J. Yonemoto|The Effects of Perinatal Exposure to Low Doses of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Immune Organs in Rats|Toxicology154(1-3): 123-133|2000|10.1016/S0300-483X(00)00323-1
75020|T||Camacho,I.A., M.R. Hassuneh, M. Nagarkatti, and P.S. Nagarkatti|Enhanced Activation-Induced Cell Death as a Mechanism of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Immunotoxicity in Peripheral T Cells|Toxicology165(1): 51-63|2001|10.1016/S0300-483X(01)00391-2
75021|T||Dunlap,D.Y., I. Ikeda, H. Nagashima, C.F.A. Vogel, and F. Matsumura|Effects of SRC-Deficiency on the Expression of In Vivo Toxicity of TCDD in a Strain of c-SRC Knockout Mice Procured Through Six Generations of Backcrossings to C57BL/6 Mice|Toxicology172(2): 125-141|2002|10.1016/S0300-483X(02)00006-9
75022|T||Muto,T., S. Wakui, N. Imano, K. Nakaaki, H. Takahashi, H. Hano, M. Furusato, and T. Masaoka|Mammary Gland Differentiation in Female Rats After Prenatal Exposure to 3,3',4,4',5-Pentachlorobiphenyl|Toxicology177(2-3): 197-205|2002|10.1016/S0300-483X(02)00224-X
75024|T||Varnagy,L., P. Budai, S. Fejes, E. Molnar, and T. Fancsi|Teratogenicity Testing of Dimethoate Containing Insecticide Formulation (BI 58 EC) in Chicken Embryos|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.66(2b): 879-883|2001|
75025|T||Varnagy,L., P. Budai, E. Molnar, I. Fuzesi, and T. Fancsi|Teratogenicity Testing of BI 58 EC (38% Dimethoate) in Chicken Embryos with Special Respect to Degradation of the Active Ingredient|Acta Vet. Hung.49(3): 355-361|2001|
75026|T||Srivastava,M.K., and R.B. Raizada|Developmental Effect of Technical Dimethoate in Rats:  Maternal and Fetal Toxicity Evaluation|Indian J. Exp. Biol.34(4): 329-333|1996|
75027|T||Reddy,P.N., G.D. Raj, and S.C. Dhar|Toxicity of Dimethoate on Urinary Hydroxyproline in Rats|Indian J. Exp. Biol.30(6): 541-542|1992|
75028|T||Desi,I., L. Nagymajtenyi, and H. Schulz|EEG Changes Caused by Dimethoate Treatment in Three Generations of Rats|Neurotoxicology15(3): 731-734|1994|
75029|T||Nagymajtenyi,L., I. Desi, and H. Schulz|Changes of Brain Evoked Potentials Caused by Dimethoate Treatment in Three Generations of Rats|Neurotoxicology15(3): 741-744|1994|
75030|T||Singh,S.D., and B.S. Paul|Influence of Dimethoate (O,O-Dimethyl S-(N-Methyl Carbamoyl Methyl Phosphorodithioate) on Body Enzymes in Dermal Subacute Toxicity Studies in Bubalus bubalis Species|Pesticides 21(12): 34-37|1987|
75031|T||Pappas,C.J., and N.V. Kyriakidis|A Comparison of Dimethoate Degradation in Lemons and Mandarins on the Trees with Two GC Systems|Food Chem.80(1): 23-28|2003|10.1016/S0308-8146(02)00230-3
75032|T||Singh,R.M., and A. Sharma|Assessment of Cytotoxic Effect of Pesticides on Zea mays|Geobios18(5/6): 228-231|1991|
75034|A||Gadhia,M., and M.S. Dubale|Dimethoate Induced Histopathological Changes in the Kidney of Heteropneustes fossilis|J. Anim. Morphol. Physiol.36(2): 195-200|1989|
75035|A||Awasthi,M., and P. Gadhia|Histopathological Changes Induced by Dimethoate in the Alimentary Canal of Heteropneustes fossilis|Z. Angew. Zool. (Multiple Languages)70(3): 265-270|1983|
75036|A||Janakiram,K., and Y.M. Jayaraj|Effect of Some Insecticides on the Growth of Algae|Geobios24(2-3): 171-172|1997|
75037|T||Dambska,M., D. Maslinska, and R. Pluta|The Effect of Some Exogenous Factors on the Formation of Intranuclear Membranaceus Inclusions in the Nerve Cells|Acta Neurobiol. Exp.52(1): 37-40|1992|
75041|A||Mazanti,L.E.|The Effects of Atrazine, Metolachlor and Chlorpyrifos on the Growth and Survival of Larval Frogs Under Laboratory and Field Conditions|Ph.D.Thesis, University of Maryland, College Park, MD:146 p.|1999|
75042|A||Das,M.K., and S.P. Adhikary|Toxicity of Three Pesticides to Several Rice-Field Cynobacteria|Trop. Agric.73(2): 155-157|1996|
75043|A||Shabana,E.F., Z. Khalil, I.A. Kobbia, and F.T. Zaki|Amino Acid Content and Transaminases Activities in Anabaena oryzae and Nostoc muscorum as Affected by Some Pesticides|Egypt. J. Physiol. Sci.15(1/2): 21-30|1991|
75044|T||Rawal,R.D., and H.S. Sohi|Studies on the Control of Leaf Spot Disease of Cowpea Caused by Septoria vignicola|Pesticides 20(4): 40-43|1986|
75045|T||Byrd,J.D.,Jr., and A.C. York|Interactions of Carbaryl and Dimethoate with Sethoxydim|Weed Technol.2(4): 433-436|1988|10.1017/S0890037X0003222X
75046|T||Patel,M.G., J.R. Patel, and P.K. Borad|Comparative Efficacy and Economics of Various Insecticides Against Aphid, Lipaphis erysimi (Kalt) on Mustard in Gujarat|Indian J. Plant Prot.23(2): 217-218|1995|
75047|T||Desi,I., M. Nehez, O. Siroki, and L. Nagymajtenyi|Small Subchronic Doses of the Pesticide Dimethoate and/or Cadmium and Lead Treatment Causes Disturbances in the Chromosomes of Young Rats|Cent. Eur. J. Publ. Health8:59-60|2000|
75048|T||Budai,P., S. Fejes, L. Varnagy, I.M. Somlyay, and I. Takacs|Teratogenicity Test of Dimethoate Containing Insecticide Formulation and Heavy Elements (Cu, Cd) in Chicken Embryos After Administration as Single Compounds or in Combination|Meded. Fac. Landbouwwet. Rijksuniv. Gent66(2b): 885-889|2001|
75049|T||Budai,P., S. Fejes, L. Varnagy, R. Szabo, and M. Keseru|Embryonic Toxicity of a Dimethoate Containing Insecticide Formulation and Cu-Sulphate in Chicken After Individual or Combined Administration|Meded. Fac. Landbouwwet. Rijksuniv. Gent67(2): 99-103|2002|
75051|A||Kobbia,I.A., Z. Khalil, E.F. Shabana, and F.T. Zaki|Potency of Nitrogen Fixation, Nitrogenase and Nitrate Reductase Activities in Anabaena oryzae and Nostoc muscorum, as Influenced by Some Pesticides|Egypt. J. Physiol. Sci.15(1/2): 9-20|1991|
75052|T||Miyagawa,M., H. Takasawa, A. Sugiyama, Y. Inoue, T. Murata, Y. Uno, and K. Yoshikawa|The In Vivo-In Vitro Replicative DNA Synthesis (RDS) Test with Hepatocytes Prepared from Male B6C3F1 Mice as an Early Prediction Assay for Putative Nongenotoxic (Ames-Negative) Mouse Hepatocarcinogens|Mutat. Res.343(2/3): 157-183|1995|10.1016/0165-1218(95)90082-9
75053|T||Akay,M.T., G. Ozmen, and E.A. Elcuman|Effects of Combinations of Endosulfan, Dimethoate and Carbaryl on Immune and Hematological Parameters of Rats|Vet. Hum. Toxicol.41(5): 296-299|1999|
75054|T||Desi,I., L. Nagymajtenyi, A. Papp, and H. Schulz|Experimental Model Studies of Pesticide Exposure|Neurotoxicology19(4-5): 611-616|1998|
75055|T||Nagymajtenyi,L., H. Schulz, A. Papp, and I. Desi|Developmental Neurotoxicology Effects of Lead and Dimethoate in Animal Experiments|Neurotoxicology19(4/5): 617-622|1998|
75056|T||Patel,B.K., N.B. Rote, and N.W. Mehta|Comparative Efficacy of Some Insecticides Against Sucking Pests of Hybrid-4 Cotton|Indian J. Plant Prot.12(2): 139-141|1984|
75057|T||Umechuruba,C.I., and E.O. Nwachukwu|Efficacy of Certain Fungicides Against Seed-Borne Fungi of African Yam Bean (Sphenostylis stenocarpa (Hochst ex. A. Rich) Harms) Seeds|Int. J. Pest Manag.40(2): 126-131|1994|10.1080/09670879409371869
75058|T||Uno,Y., H. Takasawa, M. Miyagawa, Y. Inoue, T. Murata, and K. Yoshikawa|An In Vivo-In Vitro Replicative DNA Synthesis (RDS) Test Using Rat Hepatocytes as an Early Prediction Assay for Nongenotoxic Hepatocarcinogens Screening of 22 Known Positive and 25 Noncarcinogens|Mutat. Res.320(3): 189-205|1994|10.1016/0165-1218(94)90046-9
75059|A||Pakzad,U., and E. Schlosser|Effect of Pesticides on a Vampire Amoeba (Wirkung von Pflanzenschutzmittein auf eine Vampiramobe)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)105(1): 100-103|1998|
75060|A||Brooks,B.W., J.K. Stanley, J.C. White, P.K. Turner, K.B. Wu, and T.W. La Point|Laboratory and Field Responses to Cadmium:  An Experimental Study in Effluent-Dominated Stream Mesocosms|Environ. Toxicol. Chem.23(4): 1057-1064|2004|10.1897/03-199
75061|T||Marco,A., M. Lopez-Vicente, and V. Perez-Mellado|Arsenic Uptake by Reptile Flexible-Shelled Eggs from Contaminated Nest Substrates and Toxic Effect on Embryos|Bull. Environ. Contam. Toxicol.72(5): 983-990|2004|10.1007/s00128-004-0340-1
75062|T||Scott-Fordsmand,J.J., D. Stevens, and M. McLaughlin|Do Earthworms Mobilize Fixed Zinc from Ingested Soil?|Environ. Sci. Technol.38(11): 3036-3039|2004|10.1021/es030702z
75065|T||Dallinger,R., M. Chabicovsky, and B. Berger|Isoform-Specific Quantification of Metallothionein in the Terrestrial Gastropod Helix pomatia I.  Molecular, Biochemical, and Methodical Background|Environ. Toxicol. Chem.23(4): 890-901|2004|10.1897/03-100
75066|T||Dallinger,R., M. Chabicovsky, B. Lagg, R. Schipflinger, H.G. Weirich, and B. Berger|Isoform-Specific Quantification of Metallothionein in the Terrestrial Gastropod Helix pomatia.  II.  A Differential Biomarker Approach Under Laboratory and Field Conditions|Environ. Toxicol. Chem.23(4): 902-910|2004|10.1897/03-101
75067|A||Drinovec,L., D. Drobne, I. Jerman, and A. Zrimec|Delayed Fluorescence of Lemna minor:  A Biomarker of the Effects of Copper, Cadmium, and Zinc|Bull. Environ. Contam. Toxicol.72(5): 896-902|2004|10.1007/s00128-004-0328-x
75068|A||Coeurdassier,M., A. De Vaufleury, R. Scheifler, E. Morhain, and P.M. Badot|Effects of Cadmium on the Survival of Three Life-Stages of the Freshwater Pulmonate Lymnaea stagnalis (Mollusca:  Gastropoda)|Bull. Environ. Contam. Toxicol.72(5): 1083-1090|2004|10.1007/s00128-004-0354-8
75069|A||Meylan,S., R. Behra, and L. Sigg|Influence of Metal Speciation in Natural Freshwater on Bioaccumulation of Copper and Zinc in Periphyton:  A Microcosm Study|Environ. Sci. Technol.38(11): 3104-3111|2004|10.1021/es034993n
75070|A||Morgan,T.P., and C.M. Wood|A Relationship Between Gill Silver Accumulation and Acute Silver Toxicity in the Freshwater Rainbow Trout:  Support for the Acute Silver Biotic Ligand Model|Environ. Toxicol. Chem.23(5): 1261-1267|2004|10.1897/03-181
75071|T||Fisher,M.T., M. Nagarkatti, and P.S. Nagarkatti|Combined Screening of Thymocytes Using Apoptosis-Specific cDNA Array and Promoter Analysis Yields Novel Gene Targets Mediating TCDD-Induced Toxicity|Toxicol. Sci.78(1): 116-124|2004|10.1093/toxsci/kfh058
75072|T||Holladay,S.D., L. Sharova, B.J. Smith, R.M.,Jr. Gogal, D.L. Ward, and B.L. Blaylock|Nonspecific Stimulation of the Maternal Immune System.  I.  Effects on Teratogen-Induced Fetal Malformations|Teratology62(6): 413-419|2000|10.1002/1096-9926(200012)62:6<413::AID-TERA8>3.0.CO;2-B
75073|T||Mori,Y., A. Koide, K. Fuwa, and Y. Kobayashi|N-Benzylimidazole for Preparation of S9 Fraction with Multi-Induction of Metabolizing Enzymes in Short-Term Genotoxicity Assays|Mutagenesis16(6): 479-486|2001|10.1093/mutage/16.6.479
75074|T||Connell,B.J., A. Singh, and I. Chu|Toxicity of PCB 28 in the Rat Liver:  A Quantitative Ultrastructural Study|J. Submicrosc. Cytol. Pathol.33(1-2): 41-46|2001|
75075|T||Bowers,W.J., J.S. Nakai, I. Chu, M.G. Wade, D. Moir, A. Yagminas, S. Gill, O. Pulido, and R. Meuller|Early Developmental Neurotoxicity of a PCB/Organochlorine Mixture in Rodents After Gestational and Lactational Exposure|Toxicol. Sci.77(1): 51-62|2004|10.1093/toxsci/kfg248
75076|T||Amin,S., R.W. Moore, R.E. Peterson, and S.L. Schantz|Gestational and Lactational Exposure to TCDD or Coplanar PCBs Alters Adult Expression of Saccharin Preference Behavior in Female Rats|Neurotoxicol. Teratol.22(5): 675-682|2000|10.1016/S0892-0362(00)00094-5
75077|T||Bunger,M.K., S.M. Moran, E. Glover, T.L. Thomae, G.P. Lahvis, B.C. Lin, and C.A. Bradfield|Resistance to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Toxicity and Abnormal Liver Development in Mice Carrying a Mutation in the Nuclear Localization Sequence of the Aryl Hydrocarbon Receptor|J. Biol. Chem.278(20): 17767-17774|2003|10.1074/jbc.M209594200
75078|A||Mann,R.M., M.J. Ernste, R.A. Bell, J.R. Kramer, and C.M. Wood|Evaluation of the Protective Effects of Reactive Sulfide on the Acute Toxicity of Silver to Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.23(5): 1204-1210|2004|10.1897/03-325
75079|T||Walker,I., A. Singh, and I. Chu|Stereology of PCB 128-Induced Ultrastructural Alterations in the Rat Liver|J. Submicrosc. Cytol. Pathol.32(2): 153-157|2000|
75080|T||Tritscher,A.M., J. Mahler, C.J. Portier, G.W. Lucier, and N.J. Walker|Induction of Lung Lesions in Female Rats Following Chronic Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Pathol.28(6): 761-769|2000|10.1177/019262330002800601
75081|A||Pane,E.F., J.C. McGeer, and C.M. Wood|Effects of Chronic Waterborne Nickel Exposure on Two Successive Generations of Daphnia magna|Environ. Toxicol. Chem.23(4): 1051-1056|2004|10.1897/03-208
75082|T||Ishii,Y., H. Kato, M. Hatsumura, T. Ishida, N. Ariyoshi, H. Yamada, and K. Oguri|Role of the Dioxin-Like Toxic Compound Coplanar Polychlorinated Biphenyl, 3,3',4,4',5-Pentachlorobiphenyl in Reducing Hepatic Alcohol Dehydrogenase Levels in Rats In Vivo|J. Health Sci.47(6): 575-578|2001|10.1248/jhs.47.575
75083|A||Lavolpe,M., L. Lopez Greco, D. Kesselman, and E. Rodriguez|Differential Toxicity of Copper, Zinc, and Lead During the Embryonic Development of Chasmagnathus granulatus (Brachyura, Varunidae)|Environ. Toxicol. Chem.23(4): 960-967|2004|10.1897/02-645
75084|A||Lee,D.Y., C. Fortin, and P.G.C. Campbell|Influence of Chloride on Silver Uptake by Two Green Algae, Pseudokirchneriella subcapitata and Chlorella pyrenoidosa|Environ. Toxicol. Chem.23(4): 1012-1018|2004|10.1897/03-145
75085|A||Hunter,K., and G. Pyle|Morphological Responses of Daphnia pulex to Chaoborus americanus Kairomone in the Presence and Absence of Metals|Environ. Toxicol. Chem.23(5): 1311-1316|2004|10.1897/03-369
75086|A||De Schamphelaere,K.A.C., F.M. Vasconcelos, F.M.G. Tack, H.E. Allen, and C.R. Janssen|Effect of Dissolved Organic Matter Source on Acute Copper Toxicity to Daphnia magna|Environ. Toxicol. Chem.23(5): 1248-1255|2004|10.1897/03-184
75087|A||De Schamphelaere,K.A.C., and C.R. Janssen|Effects of Dissolved Organic Carbon Concentration and Source, pH, and Water Hardness on Chronic Toxicity of Copper to Daphnia magna|Environ. Toxicol. Chem.23(5): 1115-1122|2004|10.1897/02-593
75088|A||Inoue,S., Y. Oshima, K. Nagai, T. Yamamoto, J. Go, N. Kai, and T. Honjo|Effect of Maternal Exposure to Tributyltin on Reproduction of the Pearl Oyster (Pinctada fucata martensii)|Environ. Toxicol. Chem.23(5): 1276-1281|2004|10.1897/03-265
75089|A||Alonso,A., and J.A. Camargo|Toxic Effects of Unionized Ammonia on Survival and Feeding Activity of the Freshwater Amphipod Eulimnogammarus toletanus (Gammaridae, Crustacea)|Bull. Environ. Contam. Toxicol.72(5): 1052-1058|2004|10.1007/s00128-004-0350-z
75090|A||Takasusuki,J., M.R.R. Araujo, and M.N. Fernandes|Effect of Water pH on Copper Toxicity in the Neotropical Fish, Prochilodus scrofa (Prochilodondidae)|Bull. Environ. Contam. Toxicol.72(5): 1075-1082|2004|10.1007/s00128-004-0353-9
75091|T||Robidoux,P.Y., G.I. Sunahara, K. Savard, Y. Berthelot, S. Dodard, M. Martel, P. Gong, and J. Hawari|Acute and Chronic Toxicity of the New Explosive CL-20 to the Earthworm (Eisenia andrei) Exposed to Amended Natural Soils|Environ. Toxicol. Chem.23(4): 1026-1034|2004|10.1897/03-308
75092|T||McNabb,F.M.A., C.T. Larsen, and P.S. Pooler|Ammonium Perchlorate Effects on Thyroid Function and Growth in Bobwhite Quail Chicks|Environ. Toxicol. Chem.23(4): 997-1003|2004|10.1897/03-362
75093|A||Cao,T., L. Ni, and P. Xie|Acute Biochemical Responses of a Submersed Macrophyte, Potamogeton crispus L. to High Ammonium in an Aquarium Experiment|J. Freshw. Ecol.19(2): 279-284|2004|10.1080/02705060.2004.9664542
75094|A||Guasch,H., E. Navarro, A. Serra, and S. Sabater|Phosphate Limitation Influences the Sensitivity to Copper in Periphytic Algae|Freshw. Biol.49(4): 463-473|2004|10.1111/j.1365-2427.2004.01196.x
75095|A||Twiss,M.R., B.S. Twining, and N.S. Fisher|Bioconcentration of Inorganic and Organic Thallium by Freshwater Phytoplankton|Environ. Toxicol. Chem.23(4): 968-973|2004|10.1897/02-643
75096|A||Hoss,S., W. Traunspurger, G.F. Severin, I. Juttner, G. Pfister, and K.W. Schramm|Influence of 4-Nonylphenol on the Structure of Nematode Communities in Freshwater Microcosms|Environ. Toxicol. Chem.23(5): 1268-1275|2004|10.1897/03-226
75097|A||Grosell,M., and C.M. Wood|Branchial Versus Intestinal Silver Toxicity and Uptake in the Marine Teleost Parophrys vetulus|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.171(7): 585-594|2001|10.1007/s003600100209
75098|A||Hegelund,T., K. Ottosson, M. Radinger, P. Tomberg, and M.C. Celander|Effects of the Antifungal Imidazole Ketoconazole on CYP1A and CYP3A in Rainbow Trout and Killifish|Environ. Toxicol. Chem.23(5): 1326-1334|2004|10.1897/03-155
75099|A||Fournier,E., D. Tran, F. Denison, J. Massabuau, and J. Garnier-Laplace|Valve Closure Response to Uranium Exposure for a Freshwater Bivalve (Corbicula fluminea): Quantification of the Influence of pH|Environ. Toxicol. Chem.23(5): 1108-1114|2004|10.1897/02-604
75100|T||Nichenametla,S.N., E.H. South, and J.H. Exon|Interaction of Conjugated Linoleic Acid, Sphingomyelin, and Butyrate on Formation of Colonic Aberrant Crypt Foci and Immune Functions in Rats|J. Toxicol. Environ. Health Part A67(6): 469-482|2004|10.1080/15287390490276494
75101|T||Mericle,K.A., B.S. Kaphalia, and G.A.S. Ansari|Modulation of Fatty Acid Methyl Esters in Rats Pretreated with Tri-o-Tolyl Phosphate|J. Toxicol. Environ. Health Part A67(7): 583-593|2004|10.1080/15287390490425551
75102|T||Chen,S., K.A. Golemboski, M. Piepenbrink, and R.R. Dietert|Developmental Immunotoxicity of Lead in the Rat:  Influence of Maternal Diet|J. Toxicol. Environ. Health Part A67(6): 495-511|2004|10.1080/15287390490276520
75103|A||Specker,J.L., and M.K. Chandlee|Methodology for Estradiol Treatment in Marine Larval and Juvenile Fish:  Uptake and Clearance in Summer Flounder|Aquaculture217(1-4): 663-672|2003|10.1016/S0044-8486(02)00424-6
75104|A||Liu,H.Y., B.H. Liao, P.H. Zhou, and P.Z. Yu|Toxicity of Linear Alkylbenzene Sulfonate and Alkylethoxylate to Aquatic Plants|Bull. Environ. Contam. Toxicol.72(4): 866-872|2004|10.1007/s00128-004-0324-1
75105|A||Smith,G.R., D.A. Vaala, H.A. Dingfelder, and K.G. Temple|Effects of Nitrite on Bullfrog (Rana catesbeiana) Tadpoles from Central Ohio, USA|Bull. Environ. Contam. Toxicol.72(5): 1012-1016|2004|10.1007/s00128-004-0344-x
75106|A||Kashian,D.R., and S.I. Dodson|Effects of Vertebrate Hormones on Development and Sex Determination in Daphnia magna|Environ. Toxicol. Chem.23(5): 1282-1288|2004|10.1897/03-372
75107|A||Lopez,J.L., F.S. Garcia Einschlag, C.V. Rives, L.S. Villata, and A.L. Capparelli|Physicochemical and Toxicological Studies on 4-Chloro-3,5-Dinitrobenzoic Acid in Aqueous Solutions|Environ. Toxicol. Chem.23(5): 1129-1135|2004|10.1897/03-73
75108|A||Verslycke,T., S. Poelmans, K. De Wasch, H.F. De Brabander, and C.R. Janssen|Testosterone and Energy Metabolism in the Estuarine Mysid neomysis Integer (Crustacea:  Mysidacea) Following Exposure to Endocrine Disruptors|Environ. Toxicol. Chem.23(5): 1289-1296|2004|10.1897/03-338
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75111|T||Bai,K.M., and M.K. Krishnakumari|Acute Oral Toxicity of Warfarin to Poultry, Gallus domesticus: A Non-Target Species|Bull. Environ. Contam. Toxicol.37(4): 544-549|1986|10.1007/BF01607802
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75125|T||Chandra,K., S. Reddy, and G.C. Joshi|Effect of Insecticides and Plant Growth Regulators on Plant Growth, Incidence Yield in Brinjal (Solanum melongena L.)|J. Res. APAU (Andhra Pradesh Agric. Univ.)18(2): 141-145|1990|
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75128|T||Kniewald,J., M. Peruzovic, T. Gojmerac, K. Milkovic, and Z. Kniewald|Indirect Influence of S-Triazines on Rat Gonadotropic Mechanism at Early Postnatal Period|J. Steroid Biochem.27(4-6): 1095-1100|1987|10.1016/0022-4731(87)90195-6
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75132|T||Subramaniyan,S.|Evaluation of Insecticides as Seed Soaking Treatment for the Control of Meloidogyne incognita in Bhendi and Cowpea|Int. J. Trop. Plant Dis.14(2): 203-207|1996|
75133|T||Kitchin,K.T., J.L. Brown, and A.P. Kulkarni|Predicting Rodent Carcinogenicity of Ames Test False Positives by In Vivo Biochemical Parameters|Mutat. Res.290(2): 155-164|1993|10.1016/0027-5107(93)90155-9
75134|T||Hoda,Q., and S.P. Sinha|Vitamin C-Mediated Minimisation of Rogor-Induced Genotoxicity|Mutat. Res.299(1): 29-36|1993|10.1016/0165-1218(93)90116-U
75135|T||Kanakasabai,R., and K. Saravanan|Field Evaluation of Anticoagulant Rodenticides, Bromadiolone and Difethialone in Sugarcane Fields of Cauvery Delta|Indian J. Exp. Biol.37(1): 56-60|1999|
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75208|T||Public Health Service|Initial Submission:  Roofing Asphalts, Pitch and UVL Carcinogenesis in Mice with Cover Letter Dated 050892 and Attachments|Shell Oil Company, Washington, DC:|1992|
75217|AT||Fernandez-Alba,A.R., M.D.H. Guil, G.D. Lopez, and Y. Chisti|Comparative Evaluation of the Effects of Pesticides in Acute Toxicity Luminescence Bioassays|Anal. Chim. Acta451(2): 195-202|2002|10.1016/S0003-2670(01)01422-2
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75226|T||Union Carbide Corp.|Aldicarb Oxime (all) Results of Feeding in the Diet of Rats for 7 Days|EPA/OTS Doc.#FYI-OTS-0885-0443:|1985|
75235|T||Griffin,J.L., L. Walker, R.F. Shore, and J.K. Nicholson|High-Resolution Magic Angle Spinning 1H-NMR Spectroscopy Studies on the Renal Biochemistry in the Bank Vole (Clethrionomys glareolus) and the Effects of Arsenic (As3+) Toxicity|Xenobiotica31(6): 377-385|2001|10.1080/00498250110055938
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75280|T||Bhardwaj,G., J.N. Srivastava, and S.V.S. Chauhan|Effect of Some Insecticide on In Vitro Pollen Germination in Lablab purpureus (L.) Sweet|Geobios (Jodhpur)16(4): 153-157|1989|
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75318|T||Waalkes,M.P., S. Rehm, and D.E. Devor|The Effects of Continuous Testosterone Exposure on Spontaneous and Cadmium-Induced Tumors in the Male Fischer (F344/NCr) Rat:  Loss of Testicular Response|Toxicol. Appl. Pharmacol.142(1): 40-46|1997|10.1006/taap.1996.8005
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75322|T||Diwan,B.A., K.S. Kasprzak, and J.M. Rice|Transplacental Carcinogenic Effects of Nickel(II) Acetate in the Renal Cortex, Renal Pelvis and Adenohypophysis in F344/NCr Rats|Carcinogenesis13(8): 1351-1357|1992|10.1093/carcin/13.8.1351
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75328|T||Thakkar,V.M., G.M. Talati, and H.N. Vyas|Impact of Certain Insecticides on Pod Development and Oil Content of Groundnut|Pesticides 18(11): 6-7|1984|
75329|T||Singh,K., K.D. Upadhyay, A.S. Srivastava, and S.V. Singh|Persistence and Residual Toxicity of Field Weathered Deposits of Some Modern Insecticides on Okra|Pesticides 21(1): 40-42|1987|
75330|T||Chandra,R., S. Prasad, S. Srivastava, and M.K.J. Siddiqui|Acute Interactive Effects of Lindane and Dimethoate on Cerebral and Peripheral Tissues in Rats|Toxicol. Environ. Chem.82(1-2): 23-31|2001|10.1080/713746658
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75332|T||Summers,D., and D.S. Ruth|Effect of Diatomaceous Earth, Malathion, Dimethoate and Permethrin on Leptoglossus occidentalis (Hemiptera:  Coreidae):  A Pest of Conifer Seed|J. Entomol. Soc. B. C.84:33-38|1987|
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75342|T||Byers,R.E., and D.H. Carbaugh|Efficacy of Diphacinone for Control of Orchard Voles|Hortscience22(1): 46-48|1987|10.21273/HORTSCI.22.1.46
75343|T||Brown,K.P., N. Alterio, and H. Moller|Secondary Poisoning of Stoats (Mustela erminea) at Low Mouse (Mus musculus) Abundance in a New Zealand Nothofagus Forest|Wildl. Res.25(4): 419-426|1998|10.1071/WR97069
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75351|T||Jyani,D.B., N.C. Patel, R.C. Jhala, and J.R. Patel|Bioefficacy of Neem and Synthetic Insecticides on Serpentine Leafminer (Liriomyza trifolii) (Diptera:  Agromyzidae) Infesting Pea (Pisum sativum)|Indian J. Agric. Sci.65(5): 373-376|1995|
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75358|T||Peter,C., and B.V. David|Chemical Control of Two Major Insect Pests of Rice in Tamilnadu|Pesticides 22(1): 17-19|1988|10.1002/ps.2780220103
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75371|T||Harris,D.C.|Orchard Trials on the Control of Apple Collar Rot|J. Hortic. Sci.62(4): 441-447|1987|10.1080/14620316.1987.11515804
75372|A||Wood,C.M., M.D. McDonald, P. Walker, M. Grosell, J.F. Barimo, R.C. Playle, and P.J. Walsh|Bioavailability of Silver and Its Relationship to Ionoregulation and Silver Speciation Across a Range of Salinities in the Gulf Toadfish (Opsanus beta)|Aquat. Toxicol.70:137-157|2004|10.1016/j.aquatox.2004.08.002
75373|T||Bohlmann,H., A. Vignutelli, B. Hilpert, O. Miersch, C. Wasternack, and K. Apel|Wounding and Chemicals Induce Expression of the Arabidopsis thaliana Gene Thi2.1, Encoding a Fungal Defense Thionin, via the Octadecanoid Pathway|FEBS Lett.437(3): 281-286|1998|10.1016/S0014-5793(98)01251-4
75374|T||Langdon,C.J., T.G. Piearce, S. Black, and K.T. Semple|Resistance to Arsenic-Toxicity in a Population of the Earthworm Lumbricus rubellus|Soil Biol. Biochem.31(14): 1963-1967|1999|10.1016/S0038-0717(99)00118-2
75378|T||Fox,J.G., J.A. MacGregor, Z. Shen, X. Li, R. Lewis, and C.A. Dangler|Comparison of Methods of Identifying Helicobacter hepaticus in B6C3F1 Mice Used in a Carcinogenesis Bioassay|J. Clin. Microbiol.36(5): 1382-1387|1998|10.1128/JCM.36.5.1382-1387.1998
75379|A||Mouneyrac,C., O. Mastain, J.C. Amiard, C. Amiard-Triquet, P. Beaunier, A.Y. Jeantet, B.D. Smith, and P.S. Rainbow|Trace-Metal Detoxification and Tolerance of the Estuarine Worm Hediste diversicolor Chronically Exposed in Their Environment|Mar. Biol.143(4): 731-744|2003|10.1007/s00227-003-1124-6
75380|A||Pugliese,A.M., G. Bini, M. De Pirro, G. Pepeu, and G. Chelazzi|Effect of Cholinergic Antagonists on the Bradycardic Response of Limpets to Copper|Mar. Biol.144(5): 955-960|2004|10.1007/s00227-003-1253-y
75381|A||Baden,S.P., C.L.J. Hakansson, and J.I. Spicer|Between-Individual Variation in Haemocyanin Concentrations in the Norway Lobster Nephrops norvegicus Following Exposure to Hypoxia and Manganese|Mar. Biol.143(2): 267-273|2003|10.1007/s00227-003-1082-z
75382|A||Butterworth,K.G., M.K. Grieshaber, and A.C. Taylor|Behavioural and Physiological Responses of the Norway Lobster, Nephrops norvegicus (Crustacea:  Decapoda), to Sulphide Exposure|Mar. Biol.144(6): 1087-1095|2004|10.1007/s00227-003-1276-4
75383|A||Leong,S.C.Y., and S. Taguchi|Response of the Dinoflagellate Alexandrium tamarense to a Range of Nitrogen Sources and Concentrations:  Growth Rate, Chemical Carbon and Nitrogen, and Pigments|Hydrobiologia (Multiple Languages)515(1-3): 215-224|2004|10.1023/B:HYDR.0000027331.49819.a4
75384|A||Jimenez,C., and F.X. Niell|Influence of high Salinity and Nitrogen Limitation on Package Effect and C/N Ratio in Dunaliella viridis|Hydrobiologia (Multiple Languages)492(1-3): 201-206|2003|10.1023/A:1024859819172
75385|A||Yap,C.K., A. Ismail, S.G. Tan, and H. Omar|Accumulation, Depuration and Distribution of Cadmium and Zinc in the Green-Lipped Mussel Perna viridis (Linnaeus) Under Laboratory Conditions|Hydrobiologia (Multiple Languages)498(1-3): 151-160|2003|10.1023/A:1026221930811
75386|A||Xu,H.J., W. Song, and A. Warren|An Investigation of the Tolerance to Ammonia of the Marine Ciliate Euplotes vannus (Protozoa, Ciliophora)|Hydrobiologia (Multiple Languages)519(1-3): 189-195|2004|10.1023/B:HYDR.0000026505.91684.ab
75387|A||Ostroumov,S.A.|Studying Effects of Some Surfactants and Detergents on Filter-Feeding Bivalves|Hydrobiologia (Multiple Languages)500(1-3): 341-344|2003|10.1023/A:1024604904065
75388|A||Pilkaityte,R., A. Schoor, and H. Schubert|Response of Phytoplankton Communities to Salinity Changes - a Mesocosm Approach|Hydrobiologia (Multiple Languages)513(1-3): 27-38|2004|10.1023/B:hydr.0000018162.50270.54
75389|A||Jorgensen,M., B.E. Grosvik, K. Hamre, and A. Goksoyr|Induction of Heme Oxygenase in Fish by Heavy Metals, Phenylhydrazine and high Lipid Diets|Mar. Environ. Res.46(1-5): 559-561|1998|10.1016/S0141-1136(98)00021-X
75390|A||Cavas,T., and S. Ergene-Gozukara|Evaluation of the Genotoxic Potential of lambda-Cyhalothrin Using Nuclear and Nucleolar Biomarkers on Fish Cells|Mutat. Res.534(1/2): 93-99|2003|10.1016/S1383-5718(02)00246-2
75391|A||Twining,J.R., J.M. Ferris, and S.J. Markich|Bioaccumulation of 137Cs and 85Sr by an Australian Sub-tropical Freshwater Teleost (Bidyanus bidyanus)|Sci. Total Environ.192(3): 245-257|1996|10.1016/S0048-9697(96)05314-4
75392|A||Coloso,R.M., K. King, J.W. Fletcher, P. Weis, A. Werner, and R.P. Ferraris|Dietary P Regulates Phosphate Transporter Expression, Phosphatase Activity, and Effluent P Partitioning in Trout Culture|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.173(6): 519-530|2003|10.1007/s00360-003-0360-x
75393|T||Byers,R.E., and D.H. Carbaugh|Efficacy of Rodenticides for Control of Orchard Voles|J. Am. Soc. Hortic. Sci.112(2): 267-272|1987|10.21273/JASHS.112.2.267
75394|T||Chawla,R.|Determination of Bromadiolone Toxicity Against Three Rodent Species|J. Anim. Morphol. Physiol.43(1): 125-127|1996|
75395|T||Parshad,V.R.|Comparative Evaluation of Three Second Generation Single-Dose Anticoagulant Rodenticides in Short Feeding Trials Against Three Rodent Species|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.52(4): 481-484|1986|
75396|T||Price,P.A., J.R. Buckley, and M.K. Williamson|The Amino Bisphosphonate Ibandronate Prevents Vitamin D Toxicity and Inhibits Vitamin D-Induced Calcification of Arteries, Cartilage, Lungs and Kidneys in Rats|J. Nutr.131(11): 2910-2915|2001|10.1093/jn/131.11.2910
75397|T||Winn,M.J., S. Cholerton, and B.K. Park|An Investigation of the Pharmacological Response to Vitamin K1 in the Rabbit|Br. J. Pharmacol.94(4): 1077-1084|1988|10.1111/j.1476-5381.1988.tb11625.x
75398|T||Kniewald,J., V. Osredecki, T. Gojmerac, V. Zechner, and Z. Kniewald|Effect of s-Triazine Compounds on Testosterone Metabolism in the Rat Prostate|J. Appl. Toxicol.15(3): 215-218|1995|10.1002/jat.2550150312
75400|T||Garg,S.K., H. Singh, H. Ram, and S.S. Chandna|Aldicarb (Temik) and Carbofuran (Furadan) Granules as Rodenticides|Agric. Sci. Dig.4(2): 99-101|1984|
75401|T||Apa,A.D., D.W. Uresk, and R.L. Linder|Impacts of Black-Tailed Prairie Dog Rodenticides on Nontarget Passerines|Great Basin Nat.51(4): 301-309|1991|
75402|T||Forschler,B.T., J.N. All, and W.A. Gardner|Steinernema feltiae Activity and Infectivity in Response to Herbicide Exposure in Aqueous and Soil Environments|J. Invertebr. Pathol.55(3): 375-379|1990|10.1016/0022-2011(90)90080-P
75403|A||Dunkel,F.V., and D.C. Richards|Effect of an Azadirachtin Formulation on Six Nontarget Aquatic Macroinvertebrates|Environ. Entomol.27(3): 667-674|1998|10.1093/ee/27.3.667
75404|T||Kasim,A.B., and H.M.,Jr. Edwards|Evaluation of Cholecalciferol Sources Using Broiler Chick Bioassays|Poult. Sci.79(11): 1617-1622|2000|10.1093/ps/79.11.1617
75405|T||Reddy,V.R., and P.V. Rao|Utilization of Differently Processed Undecorticated Neem-Cake in Broiler Chicks|Indian J. Anim. Sci.58(7): 840-842|1988|
75406|T||Armstrong,D.P., and J.G. Ewen|Estimating Impacts of Poison Operations Using Mark-Recapture Analysis and Population Viability Analysis:  An Example with New Zealand Robins (Petroica australis)|N. Z. J. Ecol.25(1): 29-38|2001|
75407|T||Armstrong,D.P., J.K. Perrott, and I. Castro|Estimating Impacts of Poison Operations Using Mark-Recapture Analysis:  Hihi (Notiomystis cincta) on Mokoia Island|N. Z. J. Ecol.25(2): 49-54|2001|
75408|T||Sheikher,C., and S.D. Jain|Rodents in Cauliflower and Cabbage: Population, Damage and Control|Int. J. Pest Manag.43(1): 63-69|1997|10.1080/096708797229004
75409|T||Lopez,J.D.,Jr., and P.D. Lingren|Feeding Response of Adult Helicoverpa zea (Lepidoptera:  Noctuidae) to Commercial Phagostimulants|J. Econ. Entomol.87(6): 1653-1658|1994|10.1093/jee/87.6.1653
75410|T||Pain,D.J., M.D. Brooke, J.K. Finnie, and A. Jackson|Effects of Brodifacoum on the Land Crab of Ascension Island|J. Wildl. Manag.64(2): 380-387|2000|10.2307/3803236
75411|T||Robertson,H.A., and R.M. Colbourne|Survival of Little Spotted Kiwi Exposed to the Rodenticide Brodifacoum|J. Wildl. Manag.65(1): 29-34|2001|10.2307/3803273
75412|T||Murphy,E.C., B.K. Clapperton, P.M.F. Bradfield, and H.J. Speed|Effects of Rat-Poisoning Operations on Abundance and Diet of Mustelids in New Zealand Podocarp Forests|N. Z. J. Zool.25(4): 315-328|1998|10.1080/03014223.1998.9518161
75413|T||Murphy,E.C., B.K. Clapperton, P.M.F. Bradfield, and H.J. Speed|Brodifacoum Residues in Target and Non-target Animals Following Large-Scale Poison Operations in New Zealand Podocarp-Hardwood Forests|N. Z. J. Zool.25(3): 307-314|1998|10.1080/03014223.1998.9518160
75414|T||Moran,S.|Toxicity of Brodifacoum to the Rock Hyrax, Procavia capensis|Phytoparasitica14(2): 143-145|1986|10.1007/BF02980900
75415|T||Volf,O., and B. Steinhauer|Fungicidal Activity of Neemleaf Extracts|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)62(3B): 1027-1033|1997|
75416|T||Apa,A.D., D.W. Uresk, and R.L. Linder|Black-Tailed Prairie Dog Populations One Year After Treatment with Rodenticides|Great Basin Nat.50(2): 107-113|1990|
75417|T||Ahmad,M.S., and S. Munir|Comparative Evaluation of Three Anticoagulants Brodifacoum, Bromadialone and Flucoumafen Against Indian Gerbil, Tatera indica|Pak. J. Zool.22(4): 421-426|1990|
75419|T||Choquenot,D., B. Kay, and B. Lukins|An Evaluation of Warfarin for the Control of Feral Pigs|J. Wildl. Manag.54(2): 353-359|1990|10.2307/3809054
75420|T||Cincotta,R.P., D.W. Uresk, and R.M. Hansen|Demography of Black-Tailed Prairie Dog Populations Reoccupying Sites Treated with Rodenticide|Great Basin Nat.47(2): 339-343|1987|
75421|T||Pervez,A., S.M. Ahmed, S. Ahmad, and S.W. Ali Rizvi|The Significance of Additives to Enhance Poison Bait Acceptance Against Rodents Damaging Paddy in Lower Sindh, Pakistan|Pak. J. Zool.31(3): 207-210|1999|
75422|T||Helson,B.V., D.B. Lyons, K.W. Wanner, and T.A. Scarr|Control of Conifer Defoliators with Neem-Based Systemic Bioinsecticides Using a Novel Injection Device|Can. Entomol.133(5): 729-744|2001|10.4039/Ent133729-5
75423|T||Atiri,G.I., M.F. Ivbijaro, and A.D. Oladele|Effects of Natural and Synthetic Chemicals on the Incidence and Severity of Okra Mosaic Virus in Okra|Trop. Agric.68(2): 178-180|1991|
75424|T||Swihart,R.K., and M.R. Conover|Responses of Woodchucks to Potential Garden Crop Repellents|J. Wildl. Manag.55(1): 177-181|1991|10.2307/3809256
75426|T||Edwards,H.M.,Jr.|Studies on the Efficacy of Cholecalciferol and Derivatives for Stimulating Phytate Utilization in Broilers|Poult. Sci.81(7): 1026-1031|2002|10.1093/ps/81.7.1026
75427|T||Jin,S., J.L. Sell, and J.S. Haynes|Effect of Dietary Vitamin K1 on Selected Plasma Characteristics and Bone Ash in Young Turkeys fed Diets Adequate or Deficient in Vitamin D3|Poult. Sci.80(5): 607-614|2001|10.1093/ps/80.5.607
75429|T||Malhi,C.S., and V.R. Parshad|Comparative Efficacy of Three Rodenticides with Different Baiting Methods in Wheat and Rice Crops|Int. Pest Control37(2): 55-57|1995|
75430|T||Shafi,M.M., S.M. Ahmed, A. Pervez, and S. Ahmad|The Influence of Some Additives on Poison Bait Acceptance in Short-Tailed Mole Rat, Nesokia indica|Int. J. Trop. Agric.10(1): 59-63|1992|
75431|T||Boermans,H.J., I. Johnstone, W.D. Black, and M. Murphy|Clinical Signs, Laboratory Changes and Toxicokinetics of Brodifacoum in the Horse|Can. J. Vet. Res.55(1): 21-27|1991|
75432|T||Gowda,S.K., R.C. Katiyar, A.K. Sharma, and V.R.B. Sastry|Blood Biochemical Profile and Histopathology of Vital Organs in Rabbits fed on Processed Neem (Azadirachta indica) Kernel Meal Incorporated Diets|Asian-Australas. J. Anim. Sci.9(4): 471-476|1996|10.5713/ajas.1996.471
75433|T||Khan,A.A., and M. Ahmad|Field Efficacy of the Second Generation Anticoagulants, Zinc Phosphide and Bromethalin Against Meriones hurrianae Jerdon|Indian J. Plant Prot.19(1): 43-48|1991|
75434|T||Chopra,G., N. Ahmad, and V.R. Parshad|Laboratory Evaluation of Brodifacoum (Talon rodenticide) Against Predominant Murid Species of Punjab|Pesticides 21(5): 16-17|1987|
75435|T||Veltmann,J.R.,Jr., E. Ross, and S.E. Olbrich|The Physiological Effects of Feeding Warfarin to Poultry|Poult. Sci.60(12): 2603-2611|1981|10.3382/ps.0602603
75436|T||Khokhar,A.R., A. Pervez, S.W.A. Rizvi, and S. Ismail|Rodent Infestation and Its Control in a Plantation Forest at Pasni, Balochistan|Pak. J. Zool.31(1): 65-69|1999|
75437|T||Ngazizah, A.G. Idris, M. Shamsiah, M.K. Nasir, and H. Radzi|The Palatability of Three Type Anticoagulant Rodenticides to Rice Field Rats (Rattus argentiventer)|Malays. Agric. J.54(4): 195-199|1993|
75438|T||Leirs,H., K.S. Larsen, and J. Lodal|Palatability and Toxicity of Fipronil as a Systemic Insecticide in a Bromadiolone Rodenticide Bait for Rat and Flea Control|Med. Vet. Entomol.15(3): 299-303|2001|10.1046/j.0269-283x.2001.00302.x
75439|T||Fraigui,O., D. Lamnaouer, M.Y.A. Faouzi, Y. Cherrah, and M. Tijjane|Acute and Chronic Toxicity of Fessoukh, the Resinous Gum of Ferula communis L, Compared to Warfarin|Vet. Hum. Toxicol.43(6): 327-330|2001|
75440|T||Bachmann,K.A., and T.J. Sullivan|Dispositional and Pharmacodynamic Characteristics of Brodifacoum in Warfarin-Sensitive Rats|Pharmacology27(5): 281-288|1983|10.1159/000137881
75441|T||Parshad,V.R., N. Ahmad, and G. Chopra|Effects of Ecological Factors on the Performance of Rodenticides in Sugar Cane|Proc. Indian Acad. Sci. Anim. Sci.95(6): 729-737|1987|10.1007/BF03179489
75442|T||Mathur,R.P., and I. Prakash|Reduction in Population of Indian Desert Rodents with Anticoagulant Rodenticides|Proc. Indian Acad. Sci. Anim. Sci.93(6): 585-589|1984|10.1007/BF03186308
75443|T||Chawla,R.|Comparison of Sustained and Weekly Baiting in Field Rodents of Jaipur Region|J. Bombay Nat. Hist. Soc.93(2): 287-288|1996|
75444|T||Food and Drug Research Laboratories|Acute Dermal Toxicity Study in Rabbits of Aldicarb Oxime with Cover Letter Dated 081985|EPA/OTS Doc.#FYI-OTS-0885-0443:9 p.|1985|
75445|A||Verslycke,T., M. Vangheluwe, D. Heijerick, K. De Schamphelaere, P. Van Sprang, and C.R. Janssen|The Toxicity of Metal Mixtures to the Estuarine Mysid Neomysis integer (Crustacea:  Mysidacea) Under Changing Salinity|Aquat. Toxicol.64(3): 307-315|2003|10.1016/S0166-445X(03)00061-4
75446|A||Parker,D.L., L.C. Rai, N. Mallick, P.K. Rai, and H.D. Kumar|Effects of Cellular Metabolism and Viability on Metal Ion Accumulation by Cultured Biomass from a Bloom of the Cyanobacterium Microcystis aeruginosa|Appl. Environ. Microbiol.64(4): 1545-1547|1998|10.1128/AEM.64.4.1545-1547.1998
75447|A||Soltan,M.E., and M.N. Rashed|Laboratory Study on the Survival of Water Hyacinth Under Several Conditions of Heavy Metal Concentrations|Adv. Environ. Res.7(2): 321-334|2003|10.1016/S1093-0191(02)00002-3
75448|A||Yap,C.K., A. Ismail, S.G. Tan, and A.R. Ismail|Assessment of Different Soft Tissues of the Green-Lipped Mussel Perna viridis (Linnaeus) as Biomonitoring Agents of Pb:  Field and Laboratory Studies|Water Air Soil Pollut.153(1-4): 253-268|2004|10.1023/B:WATE.0000019946.84885.94
75449|T||Yang,Y.H., H.J. Gu, W.Y. Fan, and B.A. Abdullahi|Effects of Boron on Aluminum Toxicity on Seedlings of Two Soybean Cultivars|Water Air Soil Pollut.154(1-4): 239-248|2004|10.1023/B:WATE.0000022969.30022.6e
75450|T||Kim,C.G., S.A. Power, and J.N.B. Bell|Response of Pinus sylvestris Seedlings to Cadmium and Mycorrhizal Colonisation|Water Air Soil Pollut.155(1-4): 189-203|2004|10.1023/B:WATE.0000026527.34649.3c
75451|A||Gallon,C., C. Munger, S. Premont, and P.G.C. Campbell|Hydroponic Study of Aluminum Accumulation by Aquatic Plants:  Effects of Fluoride and pH|Water Air Soil Pollut.153(1-4): 135-155|2004|10.1023/B:WATE.0000019943.67578.ed
75453|T||McLeod,R.W., C.C. Steel, and J.A. Kirkegaard|Effects of Some Crop Management Practices on Reproduction of Meloidogyne javanica on Brassica napus|Nematology4(3): 381-386|2002|10.1163/156854102760199213
75454|T||El-Toukhy,M.A., S.A. Ebied, A.A. Hassan, and S.M. El-Sewedy|In Vivo Studies on the Effect of Some Insecticides on the Hepatic Activities of L-Tryptophan 2,3-Dioxygenase and Pyridoxal Phosphokinase of Male Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(3): 265-276|1989|
75455|T||Hassan,A.A.M., S.M. El-Sewedy, Y. Minatogawa, and R. Kido|Effects of Some Insecticides on Several Enzymes of Tryptophan Metabolism in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(3): 333-346|1990|
75456|T||Aly,N.M., and K.S. El-Gendy|Effect of Dimethoate on the Immune System of Female Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(1): 77-86|2000|
75457|T||Siddiqui,M.K.J., F. Anjum, M. Mahboob, and S.S.H. Quadri|Effects of DDT and Piperonyl Butoxide on the Metabolic Alterations in Pigeon (Columba livia )|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(2): 115-124|1986|
75458|T||Malhi,C.S., and C. Sheikher|Efficacy of Bromodiolone Against Rattus rattus gangutrianus (Hinton) and Bandicota bengalensis (Wardi)|Indian J. Plant Prot.13(2): 115-116|1985|
75460|T||Smith II,L.M., and A.G. Appel|Toxicity, Repellence, and Effects of Starvation Compared Among Insecticidal Baits in the Laboratory for Control of American and Smokybrown Cockroaches (Dictyoptera:  Blattidae)|J. Econ. Entomol.89(2): 402-410|1996|10.1093/jee/89.2.402
75461|T||Sterner,R.T., C.A. Ramey, W.D. Edge, T. Manning, J.O. Wolff, and K.A. Fagerstone|Efficacy of Zinc Phosphide Baits to Control Voles in Alfalfa - an Enclosure Study|Crop Prot.15(8): 727-734|1996|10.1016/S0261-2194(96)00047-6
75462|T||Tkadlec,E., and R. Gattermann|Circadian Changes in Susceptibility of Voles and Golden Hamsters to Acute Rodenticides|J. Interdiscip. Cycle Res.24(3): 153-161|1993|10.1080/09291019309360208
75463|T||Byers,R.E., and D.H. Carbaugh|Vole Population Shifts Related to Rodenticide Usage|Hortscience24(5): 783-785|1989|10.21273/HORTSCI.24.5.783
75464|T||Moran,S.|Toxicity of the Anticoagulant Rodenticide Difethialone to Microtus guentheri and Meriones tristrami|Crop Prot.12(7): 501-504|1993|10.1016/0261-2194(93)90090-6
75465|T||Proulx,G.|Evaluation of Strychnine and Zinc Phosphide Baits to Control Northern Pocket Gophers (Thomomys talpoides) in Alfalfa Fields in Alberta, Canada|Crop Prot.17(2): 135-138|1998|10.1016/S0261-2194(97)00111-7
75466|T||Dubey,O.P., A.K. Awasthi, and R.K. Patel|Damage of Wheat (Triticum aestivum) Tillers by Field Rats (Bandicota bengalensis, Rattus rattus, Millardia meltada) and Their Control with Rodenticide Baits|Indian J. Agric. Sci.63(2): 127-129|1993|
75467|AT||Empson,R.A., and C.M. Miskelly|The Risks, Costs and Benefits of Using Brodifacoum to Eradicate Rats from Kapiti Island, New Zealand|N. Z. J. Ecol.23(2): 241-254|1999|
75468|T||Robertson,H.A., R.M. Colbourne, P.J. Graham, P.J. Miller, and R.J. Pierce|Survival of Brown Kiwi (Apteryx mantelli) Exposed to Brodifacoum Poison in Northland, New Zealand|N. Z. J. Ecol.23(2): 225-231|1999|
75469|T||Moran,S.|Toxicity of Sodium Fluoroacetate and Zinc Phosphide Wheat Grain Baits to Microtus guentheri and Meriones tristrami|Bull. OEPP/EPPO21(1): 73-80|1991|10.1111/j.1365-2338.1991.tb00456.x
75471|T||Koehler,A.E., M.E. Tobin, and R.T. Sugihara|Exploration of Lauric Acid as a Potentiator for Enhancing Warfarin Toxicity to Rats|Int. Biodeterior. Biodegrad.36(1-2): 73-87|1995|10.1016/0964-8305(95)00098-4
75472|T||Soni,B.K., and I. Prakash|Evalution of Brodifacoum for the Control of Rattus meltada and Golunda ellioti|Indian J. Plant Prot.12(1): 19-23|1984|
75473|T||Quy,R.J., D.P. Cowan, P. Haynes, I.R. Inglis, and T. Swinney|The Influence of Stored Food on the Effectiveness of Farm Rat Control|Br. Crop Prot. Conf. Pests Dis.:291-300|1992|
75474|T||Byers,R.E., and D.H. Carbaugh|Rodenticides for the Control of Pine and Meadow Voles in Orchards|J. Environ. Hortic.9(3): 167-172|1991|10.24266/0738-2898-9.3.167
75475|T||Shafi,M.M., S. Ahmad, S.M. Ahmed, and A. Pervez|Taste Additives Improve Poison Bait Acceptance in Indian Gerbil, Tatera indica|J. Plant Prot. Trop.8(2): 77-83|1991|
75476|T||Ahmad,N., C. Sheikher, and S.S. Guraya|Evaluation of Weather-Proof Baits for the Control of Field Rodents in Rainy Season|Indian J. Agric. Sci.58(4): 297-298|1988|
75477|T||Ramesh,P.|Two Baiting Methods for Nesokia indica Gray, Their Relative Efficacy and Economics|Indian J. Plant Prot.15(2): 174-175|1987|
75478|T||Boyd,M.R., and J.S. Dutcher|Renal Toxicity due to Reactive Metabolites Formed In Situ in the Kidney:  Investigations with 4-Ipomeanol in the Mouse|J. Pharmacol. Exp. Ther.216(3): 640-646|1981|
75479|T||Saxena,Y., and D. Kumar|Comparative Efficacy of Single and Multiple Dose Anticoagulants Against Meriones hurrianae and Swiss Albino Mice|Z. Angew. Zool. (Multiple Languages)74(4): 439-442|1987|
75480|T||Christopher,M.J., M. Balasubramanyam, and K.R. Purushotham|Toxicity of Three Anticoagulant Rodenticides to Male Hybrid Leghorns|Z. Angew. Zool. (Multiple Languages)71(3): 275-281|1984|
75481|T||Poche,R.M., and M.Y. Mian|Effectiveness of Four Rodenticides in Deepwater Rice|Z. Angew. Zool. (Multiple Languages)73(1): 37-48|1986|
75482|T||Askham,L.R.|Effectiveness of Two Anticoagulant Rodenticides (Chlorophacinone and Bromadiolone) for Columbian Ground Squirrel (Spermophilus columbianus) Control in Eastern Washington|Crop Prot.4(3): 365-371|1985|10.1016/0261-2194(85)90040-7
75483|T||Jalamkar,M.R., and S.V. Sarode|Effectiveness of Bromadiolone Against Rats in Gram Crop|J. Entomol. Res.9(1): 109-110|1985|
75484|T||Sabhlok,V.P., S.C. Pasahan, P. Kumar, and R.K. Singal|Evaluation of Different Rodenticidal Baits Against Rodent Population in Cucumber (Cucumis sativus) Crop Fields|Indian J. Exp. Biol.35(6): 670-672|1997|
75485|T||Moran,S., and S. Sofer|The Toxicity of Difenacoum and Difethialone to the Rock Hyrax, Procavia capensis|Pestic. Sci.44(3): 305-307|1995|10.1002/ps.2780440315
75486|T||Woody,B.J., M.J. Murphy, A.C. Ray, and R.A. Green|Coagulopathic Effects and Therapy of Brodifacoum Toxicosis in Dogs|J. Vet. Intern. Med.6(1): 23-28|1992|10.1111/j.1939-1676.1992.tb00981.x
75487|T||Pelz,H.J., and H. Gemmeke|Methods to Control the Two Forms of Arvicola terrestris in Orchards in the Federal Republic of Germany|Bull. OEPP/EPPO18(3): 435-439|1988|10.1111/j.1365-2338.1988.tb00396.x
75488|T||Hart,J.A.D., B.P. Haynes, and B. Kevin Park|A Study of Factors Which Determine the Pharmacological Response to Vitamin K in Coumarin Anticoagulated Rabbits|Biochem. Pharmacol.33(19): 3013-3019|1984|10.1016/0006-2952(84)90602-6
75489|T||Park,B.K., J.B. Leck, A.C. Wilson, M.J. Serlin, and A.M. Breckenridge|A Study of the Effect of Anticoagulants on [3H] Vitamin K1 Metabolism and Prothrombin Complex Activity in the Rabbit|Biochem. Pharmacol.28(8): 1323-1329|1979|10.1016/0006-2952(79)90433-7
75490|T||Coeurdassier,M., A. Gomot-De Vaufleury, M. Saint-Denis, D. Ribera, J.F. Narbonne, and P.M. Badot|Effects of Dimethoate on Snail B-Esterase and Growth as a Function of Dose, Time and Exposure Route in a Laboratory Bioassay|Biomarkers (Lond.)7(2): 138-150|2002|10.1080/13547500110099672
75491|T||Maekawa,A., H. Onodera, K. Furuta, H. Tanigawa, T. Ogiu, and Y. Hayashi|Lack of Evidence of Carcinogenicity of Technical-Grade Piperonyl Butoxide in F344 Rats:  Selective Induction of Ileocaecal Ulcers|Food Chem. Toxicol.23(7): 675-682|1985|10.1016/0278-6915(85)90156-5
75493|T||Mani,M., and S. Nagarkatti|Response of the Parasitoid, Eucelatoria bryani Sabrosky (Diptera: Tachinidae) to Different Pesticides|Entomon13(1): 25-28|1988|
75494|T||Reddy,P.N., G.D. Raj, and S.C. Dhar|Toxicological Effects of an Organophosphorus Pesticide (Dimethoate) on Urinary Collagen Metabolites in Normal and High Protein Diets Fed Female Albino Rats|Life Sci.49(18): 1309-1318|1991|10.1016/0024-3205(91)90195-H
75495|T||Graves,J.B., D.W. Long, and B.R. Leonard|Efficacy of Selected Bacillus thuringiensis Formulations Against Bollworm and Tobacco Budworm, 1991|Insectic. Acaric. Tests17:225-|1992|10.1093/iat/17.1.225
75496|T||Gaillardon,P., F. Cabanne, R. Scalla, and F. Durst|Effect of Mixed Function Oxidase Inhibitors on the Toxicity of Chlortoluron and Isoproturon to Wheat|Weed Res. (Multiple Languages)25(6): 397-402|1985|10.1111/j.1365-3180.1985.tb00661.x
75497|T||Mizutani,T., K. Satoh, H. Nomura, and K. Nakanishi|Hepatotoxicity of Eugenol in Mice Depleted of Glutathione by Treatment with DL-Buthionine Sulfoximine|Res. Commun. Chem. Pathol. Pharmacol.71(2): 219-230|1991|
75498|T||Munshi,S.K., A. Kumari, S. Sanadi, D.R.C. Bakhetia, and P.S. Sukhija|Influence of Systemic Insecticides on Lipid Biosynthesis in Seeds of Indian Mustard (Brassica juncea L.)|Plant Sci.53(3): 201-208|1987|10.1016/0168-9452(87)90155-5
75499|T||Parshad,V.R.|Comparative Palatability of Ready-to-Use and Freshly Prepared Cereal Bait Forumulations of Three Second Generation Anticoagulant Rodenticides to Four Species of South Asian Rodent Pests|Int. Pest Control36(4): 100-103|1994|
75500|T||Yamagishi,N., H. Dohmae, A. Shirato, J. Sato, R. Sato, and Y. Naito|"Effects of Oral Administration of ""Rumen-Bypass"" Vitamin D3 on Vitamin D and Calcium Metabolism in Periparturient Cows"|J. Vet. Med. Sci.62(4): 403-408|2000|10.1292/jvms.62.403
75501|A||Poopathi,S., T.R. Mani, D.R. Rao, and L. Kabilan|Evaluation of Synergistic Interaction Between Bacillus sphaericus and a Neem-Based Biopesticide on BSPH-Susceptible Culex quinquefasciatus Say Larvae|Insect Sci. Appl.22(4): 303-306|2002|
75502|T||Arora,K.K., R. Pahwa, S. Lal, J.L. Srivastava, and A. Kumar|Rodent Control in Commercial Grain Warehouses in India|Pesticides 21(5): 12-13|1987|
75503|T||Melkebeke,G., R. Verstraeten, W. Steurbaut, and W. Dejonckheere|The Influence of Different Vinclozolin Formulations on the Residue Content of Lettuce|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(3A): 877-884|1985|
75504|T||Mount,M.E., and P.H. Kass|Diagnostic Importance of Vitamin K-1 and Its Epoxide Measured in Serum of Dogs Exposed to an Anticoagulant Rodenticide|Am. J. Vet. Res.50(10): 1704-1709|1989|
75505|T||Gray,A., C.V. Eadsforth, A.J. Dutton, and J.A. Vaughan|Toxicity of Second Generation Rodenticides to Barn Owls|Br. Crop Prot. Conf. Pests Dis.:781-786|1992|
75506|T||Sheikher,C., and P. Sood|Acceptance and Bioefficacy of Difethialone as Rodenticide and Its Suitability in the Fields|Indian J. Agric. Sci.70(5): 312-316|2000|
75507|T||Kumar,P., S.C. Pasahan, V.P. Sabhlok, and R.K. Singal|Efficacy and Economics of Rodenticides for Rodent Management in Watermelon (Citrullus lanatus) Fields|Indian J. Agric. Sci.67(11): 528-530|1997|
75508|A||Goktepe,I., R. Portier, and M. Ahmedna|Ecological Risk Assessment of Neem-Based Pesticides|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(2): 311-320|2004|
75509|T||Vanwetswinkel,G., and G. Sterk|A New Method for the Control of Water Vole Arvicola terrestris L. Mammalia rodentia in Orchards|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(3B): 1319-1324|1986|
75510|T||Griffin,K.A., C.B. Johnson, R.K. Breger, and R.B. Franklin|Effects of Inducers and Inhibitors of Cytochrome P-450-Linked Monooxygenases on the Toxicity, In Vitro Metabolism and In Vivo Irreversible Binding of 2-Methylnaphthalene in Mice|J. Pharmacol. Exp. Ther.221(3): 517-524|1982|
75511|T||Tune,B.M., C.H. Kuo, J.B. Hook, C.Y. Hsu, and D. Fravert|Effects of Piperonyl Butoxide on Cephalosporin Nephrotoxicity in the Rabbit.  An Effect on Cephaloridine Transport|J. Pharmacol. Exp. Ther.224(3): 520-524|1983|
75513|T||Griffin,K.A., C.B. Johnson, R.K. Breger, and R.B. Franklin|Pulmonary Toxicity of 2-Methylnaphthalene:  Lack of a Relationship Between Toxicity, Dihydrodiol Formation and Irreversible Binding to Cellular Macromolecules in DBA/2J Mice|Toxicology26(3-4): 213-230|1983|10.1016/0300-483X(83)90083-5
75514|T||O'Brien,P.H., and B.S. Lukins|Comparative Dose-Response Relationships and Acceptability of Warfarin, Brodifacoum and Phosphorus to Feral Pigs|Aust. Wildl. Res.17(2): 101-112|1990|10.1071/WR9900101
75515|T||Crosbie,S.F., F.J. Laas, M.E.R. Godfrey, J.M. Williams, and D.S. Moore|A Field Assessment of the Anticoagulant Brodifacoum Against Rabbits, Oryctolagus cuniculus|Aust. Wildl. Res.13(2): 189-195|1986|10.1071/WR9860189
75516|T||Parshad,V.R., N. Ahmad, and G. Chopra|Laboratory and Field Evaluation of Brodifacoum for Rodent Control|Int.Biodeterior.21(2): 107-112|1985|
75517|T||Balasubramanyam,M., and K.R. Purushotham|Comparative Effect of Three Rodenticides Warfarin, Bromadiolone and Brodifacoum on the Indian Field Mouse, Mus booduga Gray|Int.Biodeterior.23(5): 307-314|1987|10.1016/0265-3036(87)90012-1
75518|T||Takahashi,O., S. Oishi, M. Yoneyama, T. Tanaka, and T. Fujitani|Mouse Liver Nodules Induced by Piperonyl Butoxide, a Mixed-Function Oxidase Inducer|Toxicol. Pathol.26(2): 301-303|1998|10.1177/019262339802600219
75531|T||Joy,P.P., E.K. Syriac, N.P. Nair, and C.A. Joseph|Evaluation of Herbicides for Transplanted Rice (TPR) in Kerala, India|Int. Rice Res. Newsl.17(2): 29-|1992|
75532|T||Merson,M.H., and R.E. Byers|Weathering and the Field Efficacy of Pelletized Rodenticide Baits in Orchards|Crop Prot.4(4): 511-519|1985|10.1016/0261-2194(85)90057-2
75533|T||Tkadlec,E.|Optimum Concentration of Zinc Phosphide in Rodenticidal Baits Against the Common Vole (Microtus arvalis)|Folia Zool.39(3): 227-236|1990|
75534|T||Byers,R.E., and D.H. Carbaugh|Bait Shyness of Pine Voles to Zinc Phosphide and Anticoagulants Stored with Pesticides|Hortscience22(2): 239-241|1987|10.21273/HORTSCI.22.2.239
75535|T||Mirzahosseini,S., C. Karabelyos, O. Dobozy, and G. Csaba|Changes in Sexual Behavior of Adult Male and Female Rats Neonatally Treated with Vitamin D3|Hum. Exp. Toxicol.15(7): 573-576|1996|10.1177/096032719601500704
75536|A||Singh,K., A. Singh, and D.K. Singh|Molluscicidal Activity of Neem (Azadirachta indica A. Juss)|J. Ethnopharmacol.52(1): 35-40|1996|10.1016/0378-8741(96)01383-9
75537|T||Shakoori,A.R., S. Majeed, and A. Iftikhar|Effect of Synthetic Pyrethroids on the Growth of Bacillus thuringiensis Kurstaki (Strain HD1) and Its Toxicity to Dipterous Fly, Zaprionus indiana|Pak. J. Zool.23(3): 239-249|1991|
75538|T||Singh,R., and Y. Saxena|The Phenomenon of Bait Shyness in Black Rat, Rattus rattus rufescens (Gray)|Pak. J. Zool.23(1): 65-68|1991|
75541|T||Tuyttens,F.A.M., and J.J.J.M. Stuyck|Effectiveness and Efficiency of Chlorophacinone Poisoning for the Control of Muskrat (Ondatra zibethicus) Populations|N. Z. J. Zool.29(1): 33-40|2002|10.1080/03014223.2002.9518287
75542|T||Shumake,S.A., A.A. Hakim, and S.E. Gaddis|Carbon Disulfide Effects on Pre-Baited vs. Non-Pre-Baited Rats Exposed to Low Dosage Zinc Phosphide Rodenticide Bait|Crop Prot.21(7): 545-550|2002|10.1016/S0261-2194(01)00144-2
75543|T||Deisch,M.S., D.W. Uresk, and R.L. Linder|Effects of Prairie Dog Rodenticides on Deer Mice in Western South Dakota|Great Basin Nat.50(4): 347-353|1990|
75544|T||Lund,M., and A.M. Rasmussen|Secondary Poisoning Hazards to Stone Martens (Martes foina) fed Bromadiolone-Poisoned Mice|Nord. Vetmed.38(4): 241-243|1986|
75545|T||Karmakar,R., S. Banik, and M. Chatterjee|Inhibitory Effect of Vitamin D3 on 3'Methyl-4-Dimethyl-Amino-Azobenzene-Induced Rat Hepatocarcinogenesis:  A Study on Antioxidant Defense Enzymes|J. Exp. Ther. Oncol.2(4): 193-199|2002|10.1046/j.1359-4117.2002.01032.x
75546|T||Parshad,V.R., N. Ahmad, and G. Chopra|Deterioration of Poultry Farm Environment by Commensal Rodents and Their Control|Int.Biodeterior.23(1): 29-46|1987|10.1016/0265-3036(87)90040-6
75547|T||Forkert,P.G., V. Stringer, and W.J. Racz|Effects of Administration of Metabolic Inducers and Inhibitors on Pulmonary Toxicity and Covalent Binding by 1,1-Dichloroethylene in CD-1 Mice|Exp. Mol. Pathol.45(1): 44-58|1986|10.1016/0014-4800(86)90005-5
75557|T||Stovold,G.E., R.J. Mailer, and A. Francis|Seed-Borne Levels, Chemical Seed Treatment and Effects on Seed Quality Following a Severe Outbreak of Alternaria brassicae on Rapeseed in New South Wales|Plant Prot. Q.2(3): 128-131|1987|
75558|T||Degraeve,N., and J. Moutschen|Genotoxicity of an Organophosphorus Insecticide, Dimethoate, in the Mouse|Mutat. Res.119(3-4): 331-337|1983|
75559|T||Mizutani,T., M. Murakami, M. Shirai, M. Tanaka, and K. Nakanishi|Metabolism-Dependent Hepatotoxicity of Methimazole in Mice Depleted of Glutathione|J. Appl. Toxicol.19(3): 193-198|1999|10.1002/(SICI)1099-1263(199905/06)19:3<193::AID-JAT553>3.0.CO;2-9
75560|T||El-Banhawy,M.A., M.A. El-Ganzuri, and M.M. El-Akkad|Morphological Changes of the Golgi Apparatus of the Nerve and Intestinal Cells of the Earthworm Allolobophora caliginosa Living on Insecticides-Contaminated Soil|Pak. J. Zool.18(1): 1-7|1986|
75561|T||Sivaprakasam,C., and G. Durairaj|Evaluation of Bromadiolone in Irrigated Ricefields|Int. Rice Res. Newsl.17(2): 29-30|1992|
75562|T||Sarode,S.V., S.R. Bhonde, and S.M.H. Quadri|Bromadiolone - a Potent Chemical for Rodent Control in the Field and Houses|J. Entomol. Res.8(2): 148-150|1984|
75563|T||Bhatnagar,R.K., R.K. Palta, J.K. Bhandari, and P.N. Saxena|Responses in Nesokia indica Gray to Zinc Phosphide Baits|J. Entomol. Res.15(2): 149-150|1991|
75564|T||Taylor,A.R., and R.H. Chow|A Microelectrochemical Technique to Measure Trans-plasma Membrane Electron Transport in Plant Tissue and Cells In Vivo|Plant Cell Environ.24(7): 749-754|2001|10.1046/j.0016-8025.2001.00714.x
75565|T||Spaulding,S.R., R.B.L. VanLier, and M.E. Tarrant|Toxicity and Efficacy of Bromethalin|Ann. Zool. Fennici173:171-172|1985|
75566|T||Ogilvie,S.C., R.J. Pierce, G.R.G. Wright, L.H. Booth, and C.T. Eason|Brodifacoum Residue Analysis in Water, Soil, Invertebrates, and Birds After Rat Eradication on Lady Alice Island|N. Z. J. Ecol.21(2): 195-197|1997|
75567|A||Hanumanthaiah,R., B. Thankavel, K. Day, M. Gregory, and P. Jagadeeswaran|Developmental Expression of Vitamin K-Dependent gamma-Carboxylase Activity in Zebrafish Embryos: Effect of Warfarin|Blood Cells Mol. Dis.27(6): 992-999|2001|10.1006/bcmd.2001.0472
75569|T||Eason,C.T., L. Milne, M. Potts, G. Morriss, G.R.G. Wright, and O.R.W. Sutherland|Secondary and Tertiary Poisoning Risks Associated with Brodifacoum|N. Z. J. Ecol.23(2): 219-224|1999|
75570|T||Meenken,D., K. Wright, and A. Couchman|Brodifacoum Residues in Possums (Trichosurus vulpecula) After Baiting with Brodifacoum Cereal Bait|N. Z. J. Ecol.23(2): 215-217|1999|
75571|T||Attalla,M.N.|Effect of Beechwood Creosote and Chloramine on Periapical Tissue of Dogs|J. Can. Dent. Assoc.34(4): 190-195|1968|
75574|T||Gillies,C.A., and R.J. Pierce|Secondary Poisoning of Mammalian Predators During Possum and Rodent Control Operations at Trounson Kauri Park, Northland, New Zealand|N. Z. J. Ecol.23(2): 183-192|1999|
75592|T||Hatch,R.C., A.V. Jain, R. Weiss, and J.D. Clark|Toxicologic Study of Carboxyatractyloside (Active Principle in Cocklebur-Xanthium strumarium ) in Rats Treated with Enzyme Inducers and Inhibitors and Glutathione Precursor and Depletor|Am. J. Vet. Res.43(1): 111-116|1982|
75594|T||Kwon,C.S., and D. Penner|The Effect of Piperonyl Butoxide and Adjuvants on Sulfonylurea Herbicide Activity|Weed Technol.10(1): 127-133|1996|10.1017/S0890037X00045826
75595|T||Kwon,C.S., J.J. Kells, and D. Penner|Combined Effects of Acetolactate Synthase-Inhibiting Herbicides with Terbufos and Piperonyl Butoxide on Corn (Zea mays) and Soybean (Glycine max)|Weed Technol.9(4): 696-702|1995|10.1017/S0890037X00024076
75597|T||Baliga,R., Z. Zhang, M. Baliga, N. Ueda, and S.V. Shah|Role of Cytochrome P-450 as a Source of Catalytic Iron in Cisplatin-Induced Nephrotoxicity|Kidney Int.54(5): 1562-1569|1998|10.1046/j.1523-1755.1998.00161.x
75598|T||Rankin,G.O., D.J. Yang, C.D. Richmond, V.J. Teets, R.T. Wang, and P.I. Brown|Effect of Microsomal Enzyme Activity Modulation on N-(3,5-Dichlorophenyl)Succinimide-Induced Nephrotoxicity|Toxicology45(3): 269-289|1987|10.1016/0300-483X(87)90018-7
75599|T||Finnell,R.H., G.D. Bennett, G.G. Mather, B. Wlodarczyk, M. Bajpai, and R.H. Levy|Effect of Stiripentol Dose on Phenytoin-Induced Teratogenesis in a Mouse Model|Reprod. Toxicol.13(2): 85-91|1999|10.1016/S0890-6238(98)00067-7
75600|T||Veronesi,B.|Effect of Metabolic Inhibition with Piperonyl Butoxide on Rodent Sensitivity to Tri-Ortho-Cresyl Phosphate|Exp. Neurol.85(3): 651-660|1984|10.1016/0014-4886(84)90037-2
75601|T||Witschi,H.P.|Separation of Early Diffuse Alveolar Cell Proliferation from Enhanced Tumor Development in Mouse Lung|Cancer Res.46(6): 2675-2679|1986|
75603|T||Babu,B.S., and G.P. Gupta|Effect of Systemic Insecticides on the Population of Soil Arthropods in Cotton Field|J. Soil Biol. Ecol.6(1): 32-41|1986|
75604|T||Shafi,M.M., S. Ahmad, A. Pervez, and S.M. Ahmed|Taste Enhancers Improve Poison Bait Acceptance in Field Rodents Damaging Wheat Crop|Trop. Pest Manag.38(2): 214-217|1992|10.1080/09670879209371687
75605|T||Morgan,D.R., G. Morriss, and G.J. Hickling|Induced 1080 Bait-Shyness in Captive Brushtail Possums and Implications for Management|Wildl. Res.23(2): 207-211|1996|10.1071/WR9960207
75606|T||Ahmad,N., C. Sheikher, and S.S. Guraya|Rodenticidal Baitings in Wheat Fields of the Garhwal Himalayas|Trop. Pest Manag.35(3): 282-285|1989|10.1080/09670878909371381
75607|AT||Rao,D.R., R. Reuben, and B.A. Nagasampagi|Development of Combined Use of Neem (Azadirachta indica) and Water Management for the Control of Culicine Mosquitoes in Rice Fields|Med. Vet. Entomol.9(1): 25-33|1995|10.1111/j.1365-2915.1995.tb00113.x
75608|A||Su,T., and M.S. Mulla|Antifeedancy of Neem Products Containing Azadirachtin Against Culex tarsalis and Culex quinquefasciatus (Diptera:  Culicidae)|J. Vector Ecol.23(2): 114-122|1998|
75609|T||Lund,M.|Comparative Effect of the Three Rodenticides Warfarin, Difenacoum and Brodifacoum on Eight Rodent Species in Short Feeding Periods|J. Hyg.87(1): 101-107|1981|10.1017/S002217240006928X
75610|T||Bradfield,A.A.G., and J.E. Gill|Laboratory Trials of Five Rodenticides for the Control of Mesocricetus auratus Waterhouse|J. Hyg.93(2): 389-394|1984|10.1017/S0022172400064950
75611|A||Azmi,M.A., S.N.H. Naqvi, I. Ahmad, R. Tabassum, and B. Anbreen|Toxicity of Neem Leaves Extract (NLX) Compared with Malathion (57 E.C.) Against Late 3rd Instar Larvae of Culex fatigans (Wild Strain) by WHO Method|Turk. J. Zool.22(3): 213-218|1998|
75612|AT||Bhuvaneshwari,K., S. Douressamy, V. Balasubramani, A. Regupathy, and S. Jayaraj|Effect of Neem Products on Natural Enemies and Other Non-Target Organisms|In:  S.C.Goel (Ed.), Insect and Environment, Biological Control of Insect Pests, Muzaffarnagar, India:173-176|1994|
75613|A||Diannelidis,B.E., and S.G. Delivopoulos|The Effects of Zinc, Copper and Cadmium on the Fine Structure of Ceramium ciliatum (Rhodophyceae, Ceramiales)|Mar. Environ. Res.44(2): 127-134|1997|10.1016/S0141-1136(96)00106-7
75614|A||Ciarelli,S., W.A.P.M.A. Vonck, and N.M. Van Straalen|Reproducibility of Spiked-Sediment Bioassays Using the Marine Benthic Amphipod, Corophium volutator|Mar. Environ. Res.43(4): 329-343|1997|10.1016/S0141-1136(96)00095-5
75615|A||Vasconcelos,M.T.S.D., and M.F.C. Leal|Antagonistic Interactions of Pb and Cd on Cu Uptake, Growth Inhibition and Chelator Release in the Marine Algae Emiliania huxleyi|Mar. Chem.75(1-2): 123-139|2001|10.1016/S0304-4203(01)00029-9
75616|A||Downs,C.A., J.E. Fauth, and C.M. Woodley|Assessing the Health of Grass Shrimp (Palaeomonetes pugio) Exposed to Natural and Anthropogenic Stressors:  A Molecular Biomarker System|Mar. Biotechnol.3(4): 380-397|2001|10.1007/s10126-001-0008-3
75617|A||Scott,G.R., K.A. Sloman, C. Rouleau, and C.M. Wood|Cadmium Disrupts Behavioural and Physiological Responses to Alarm Substance in Juvenile Rainbow Trout (Oncorhynchus mykiss)|J. Exp. Biol.206(11): 1779-1790|2003|10.1242/jeb.00353
75618|A||Verbost,P.M., J. Van Rooij, G. Flik, R.A.C. Lock, and S.E. Wendelaar Bonga|The Movement of Cadmium Through Freshwater Trout Branchial Epithelium and Its Interference with Calcium Transport|J. Exp. Biol.145:185-197|1989|10.1242/jeb.145.1.185
75619|A||Bertrand,M., B. Schoefs, P. Siffel, K. Rohacek, and I. Molnar|Cadmium Inhibits Epoxidation of Diatoxanthin to Diadinoxanthin in the Xanthophyll Cycle of the Marine Diatom Phaeodactylum tricornutum|FEBS Lett.508(1): 153-156|2001|10.1016/S0014-5793(01)03050-2
75620|A||Burgos,M.G., and P.S. Rainbow|Uptake, Accumulation and Excretion by Corophium volutator (Crustacea:  Amphipoda) of Zinc, Cadmium and Cobalt Added to Sewage Sludge|Estuar. Coast. Shelf Sci.47(5): 603-620|1998|10.1006/ecss.1998.0380
75621|A||Tran,D., A. Boudou, and J.C. Massabuau|Relationship Between Feeding-Induced Ventilatory Activity and Bioaccumulation of Dissolved and Algal-Bound Cadmium in the Asiatic Clam Corbicula fluminea|Environ. Toxicol. Chem.21(2): 327-333|2002|
75622|A||Ivorra,N., S. Bremer, H. Guasch, M.H.S. Kraak, and W. Admiraal|Differences in the Sensitivity of Benthic Microalgae to Zn and Cd Regarding Biofilm Development and Exposure History|Environ. Toxicol. Chem.19(5): 1332-1339|2000|10.1002/etc.5620190516
75623|A||Blackmore,G., and W.X. Wang|Uptake and Efflux of Cd and Zn by the Green Mussel Perna viridis After Metal Preexposure|Environ. Sci. Technol.36(5): 989-995|2002|10.1021/es0155534
75624|A||Wang,W.X., and L. Guo|Influences of Natural Colloids on Metal Bioavailability to Two Marine Bivalves|Environ. Sci. Technol.34(21): 4571-4576|2000|10.1021/es000933v
75625|A||Sunda,W.G., and S.A. Huntsman|Control of Cd Concentrations in a Coastal Diatom by Interactions Among Free Ionic Cd, Zn, and Mn in Seawater|Environ. Sci. Technol.32(19): 2961-2968|1998|10.1021/es980271y
75626|A||Muyssen,B.T.A., and C.R. Janssen|Multi-generation Cadmium Acclimation and Tolerance in Daphnia magna Straus|Environ. Pollut.130(3): 309-316|2004|10.1016/j.envpol.2004.01.003
75627|A||Baker,C.F., and J.C. Montgomery|Sensory Deficits Induced by Cadmium in Banded Kokopu, Galaxias fasciatus, Juveniles|Environ. Biol. Fishes62(4): 455-464|2001|10.1023/A:1012290912326
75628|T||Yargicoglu,P., A. Agar, Y. Oguz, V.N. Izgut-Uysal, U.K. Senturk, and G. Oner|The Effect of Developmental Exposure to Cadmium (Cd) on Visual Evoked Potentials (VEPs) and Lipid Peroxidation|Neurotoxicol. Teratol.19(3): 213-219|1997|10.1016/S0892-0362(97)00016-0
75629|T||Classen,W., P. Gretener, M. Rauch, E. Weber, and G.J. Krinke|Susceptibility of Various Areas of the Nervous System of Hens to TOCP-Induced Delayed Neuropathy|Neurotoxicology17(3-4): 597-604|1996|
75630|A||Morelli,E., and G. Scarano|Synthesis and Stability of Phytochelatins Induced by Cadmium and Lead in the Marine Diatom Phaeodactylum tricornutum|Mar. Environ. Res.52(4): 383-395|2001|10.1016/S0141-1136(01)00093-9
75631|A||Nair,P.S., and W.E. Robinson|Cadmium Speciation and Transport in the Blood of the Bivalve Mytilus edulis|Mar. Environ. Res.50(1-5): 99-102|2000|10.1016/S0141-1136(00)00097-0
75632|T||Tao,R.V., A.M. Holleschau, and W.B. Rathbun|Naphthalene-Induced Cataract in the Rat II.  Contrasting Effects of Two Aldose Reductase Inhibitors on Glutathione and Glutathione Redox Enzymes|Ophthalmic Res.23:272-283|1991|10.1159/000267123
75633|A||Bradley,B.P., B. Olsson, D.C. Brown, and M. Tedengren|HSP70 Levels in Physiologically Stressed Baltic Sea Mussels|Mar. Environ. Res.46(1-5): 397-400|1998|10.1016/S0141-1136(97)00044-5
75634|T||Balasubramanyam,M., G.P. Maddaiah, and K.R. Purushotham|Laboratory Evalution of Anticoagulant Wax Blocks to Control Indian Field-Mouse (Mus booduga)|Indian J. Agric. Sci.58(4): 330-332|1988|
75635|T||Stejskal,V., Z. Kucerova, and J. Zuska|Rodent Bait Containing Brodifacoum as a Developmental Medium for a Population of Ptinus tectus (Coleoptera, Ptinidae) Yielding Teratological Individuals|Ochr. Rostl. (Multiple Languages)30(1): 11-13|1994|
75650|A||Vasconcelos,M.T.S.D., and M.F.C. Leal|Influence of N-2-Hydroxyethylpiperazine-N'-2-Ethanesulfonic Acid pH Buffer on the Biological Response of Marine Algae|Environ. Toxicol. Chem.21(2): 404-412|2002|
75651|T||Gill,J.E., and R. Redfern|Laboratory Tests of Seven Rodenticides for the Control of Meriones shawi|J. Hyg.91(2): 351-357|1983|10.1017/S002217240006037X
75652|T||Alterio,N., K. Brown, and H. Moller|Secondary Poisoning of Mustelids in a New Zealand Nothofagus Forest|J. Zool. (Lond.)243(4): 863-869|1997|10.1111/j.1469-7998.1997.tb01986.x
75653|T||Ahmad,N., and V.R. Parshad|Evaluation of Rodenticidal Baits in Fields of Sugarcane (Saccharum officinarum)|Indian J. Agric. Sci.61(4): 281-284|1991|
75654|T||Parshad,V.R., and J.K. Kochar|Potential of Three Rodenticides to Induce Conditioned Aversion to Their Baits in the Indian Mole Rat, Bandicota bengalensis|Appl. Anim. Behav. Sci.45(3/4): 267-276|1995|10.1016/0168-1591(95)99372-G
75655|T||Shrivastava,V.K., and A.G. Sathyanesan|Cadmium Chloride-Induced Changes in Hypothalamic 5-Hydroxytryptamine, Noradrenaline and Dopamine Levels in the Indian Palm Squirrel, Funambulus pennanti (Wroughton)|Toxicol. Lett.41(2): 93-96|1988|10.1016/0378-4274(88)90082-3
75656|T||Bennett,D.C., M.R. Hughes, J.E. Elliott, A.M. Scheuhammer, and J.E. Smits|Effect of Cadmium on Pekin Duck Total Body Water, Water Flux, Renal Filtration, and Salt Gland Function|J. Toxicol. Environ. Health Part A59(1): 43-56|2000|10.1080/009841000157069
75657|T||Knudson,J.A., T. Meikle, and T.H. DeLuca|Ecosystem Restoration:  Role of Mycorrhizal Fungi and Phosphorus in the Arsenic Tolerance of Basin Wildrye|J. Environ. Qual.32(6): 2001-2006|2003|10.2134/jeq2003.2001
75658|A||Au,D.W.T., M.W.L. Chiang, and R.S.S. Wu|Effects of Cadmium and Phenol on Motility and Ultrastructure of Sea Urchin and Mussel Spermatozoa|Arch. Environ. Contam. Toxicol.38(4): 455-463|2000|10.1007/s002449910060
75659|A||Van Anholt,R.D., F.A.T. Spanings, A.H. Knol, J.A. Van der Velden, and S.E. Wendelaar Bonga|Effects of Iron Sulfate Dosage on the Water Flea (Daphnia magna Straus) and Early Development of Carp (Cyprinus carpio L.)|Arch. Environ. Contam. Toxicol.42(2): 182-192|2002|10.1007/s00244-001-0001-X
75660|A||Etxeberria,M., I. Sastre, M.P. Cajaraville, and I. Marigomez|Digestive Lysosome Enlargement Induced by Experimental Exposure to Metals (Cu, Cd, and Zn) in Mussels Collected from a Zinc-Polluted Site|Arch. Environ. Contam. Toxicol.27(3): 338-345|1994|10.1007/BF00213169
75661|A||Del Ramo,J., A. Pastor, A. Torreblanca, J. Medina, and J. Diaz-Mayans|Cadmium-Binding Proteins in Midgut Gland of Freshwater Crayfish Procambarus clarkii|Bull. Environ. Contam. Toxicol.42(2): 241-246|1989|10.1007/BF01699406
75662|T||Ortel,J.|Effects of Metals on the Total Lipid Content in the Gypsy Moth (Lymantria dispar, Lymantriidae, Lepid.) and Its Hemolymph|Bull. Environ. Contam. Toxicol.55(2): 216-221|1995|10.1007/BF00203012
75663|T||Shrivastava,V.K., and A.G. Sathyanesan|Effect of Cadmium Chloride on Thyroid Activity of the Female Indian Palm Squirrel, Funambulus pennanti (Wroughton)|Bull. Environ. Contam. Toxicol.40(2): 268-272|1988|10.1007/BF01881050
75664|T||Johnson,M.S.|Consumer-Producer Relationships for Trace Metals in Chorthippus brunneus (Thunberg.)|Bull. Environ. Contam. Toxicol.37(2): 234-238|1986|10.1007/BF01607755
75666|A||Wang,W.X., and R.C.H. Dei|Metal Uptake in a Coastal Diatom Influenced by Major Nutrients (N, P, and Si)|Water Res.35(1): 315-321|2001|10.1016/S0043-1354(00)00256-6
75667|A||Shin,H.W., M. Sidharthan, and K.S. Young|Forest Fire Ash Impact on Micro- and Macroalgae in the Receiving Waters of the East Coast of South Korea|Mar. Pollut. Bull.45(1-12): 203-209|2002|10.1016/S0025-326X(02)00156-X
75668|A||Soazig,L., and L. Marc|Potential Use of the Levels of the mRNA of a Specific Metallothionein Isoform (MT-20) in Mussel (Mytilus edulis) as a Biomarker of Cadmium Contamination|Mar. Pollut. Bull.46(11): 1450-1455|2003|10.1016/S0025-326X(03)00283-2
75669|A||Auffret,M., N. Mujdzic, C. Corporeau, and D. Moraga|Xenobiotic-Induced Immunomodulation in the European Flat Oyster, Ostrea edulis|Mar. Environ. Res.54(3-5): 585-589|2002|10.1016/S0141-1136(02)00120-4
75670|A||Burgos,M.G., and P.S. Rainbow|Availability of Cadmium and Zinc from Sewage Sludge to the Flounder, Platichthys flesus, via a Marine Food Chain|Mar. Environ. Res.51(5): 417-439|2001|10.1016/S0141-1136(00)00249-X
75671|T||Balasubramanyam,M., M.J. Christopher, and K.R. Purushotham|Laboratory Trials of Three Anticoagulant Rodenticides for Use Against the Indian Field Mouse, Mus booduga Gray|J. Hyg.93(3): 575-578|1984|10.1017/S0022172400065153
75672|T||BASF Corp.|Initial Submission:  Teratology Study of 2-(N-Ethoxybutrmidoyl)-5-(2-ethoxythiopropyl)-3-hydroxy-2-Cyclohexen-1-One in Rabbits with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003069:51 p.|1992|
75673|T||Lappetelainen,R.L., K. Savolainen, and P. Maenpaa|Vitamin D Metabolites in Avian Plasma After a Single, Large Dose of Vitamin D3|Biochem. Pharmacol.33(9): 1560-1562|1984|10.1016/0006-2952(84)90429-5
75674|T||NISSO Institute for Life Science|Supplement:  Teratogenicity Study of 2-(N-Ethoxybutyrimidoyl)-5-(2-Ethylthiopropyl)-3-Hydroxy-2-Cyclohexen-1-One in Rats with Attachment|EPA/OTS Doc.#89-920000261:29 p.|1992|
75675|T||Bio-Medical Research Laboratories Co.Ltd.|Initial Submission:  Acute Toxicity Study with 2-(N-Ethoxybutrimidyl)-5-(2-Ethylthiopropyhl)-3-Hydroxy-2-Cyclohexen-1-One in Mice with Cover Letter Dated 052692|EPA/OTS Doc.#88-920002976:53 p.|1992|
75676|T||Winn,M.J., and D.D. Ku|Investigation of the Interrelationship Between Coagulation and Thrombin-Induced EDRF-Dependent Relaxation in Dog Coronary Artery|Thromb. Res.60(5): 405-414|1990|10.1016/0049-3848(90)90223-Y
75677|T||Oloumi-Sadeghi,H., L.R. Zavaleta, W.O. Lamp, E.J. Armbrust, and G. Kapusta|Interactions of the Potato Leafhopper (Homoptera:  Cicadellidae) with Weeds in an Alfalfa Ecosystem|Environ. Entomol.16(5): 1175-1180|1987|10.1093/ee/16.5.1175
75678|A||Tao,S., C. Liu, R. Dawson, A. Long, and F. Xu|Uptake of Cadmium Adsorbed on Particulates by Gills of Goldfish ( Carassius auratus )|Ecotoxicol. Environ. Saf.47(3): 306-313|2000|10.1006/eesa.2000.1990
75679|A||Michels,E., S. Semsari, C. Bin, and L. De Meester|Effect of Sublethal Doses of Cadmium on the Phototactic Behavior of Daphnia magna|Ecotoxicol. Environ. Saf.47(3): 261-265|2000|10.1006/eesa.2000.1962
75680|A||McNicol,R.E., M.L. Begout-Anras, and E. Scherer|Influence of Light Preferences on the Avoidance Responses of Lake Whitefish, Coregonus clupeaformis, to Cadmium|Environ. Biol. Fishes55(3): 295-306|1999|10.1023/A:1007599520324
75681|A||Chelomin,V.P., and N.N. Belcheva|Alterations of Microsomal Lipid Synthesis in Gill Cells of Bivalve Mollusc Mizuhopecten yessoensis in Response to Cadmium Accumulation|Comp. Biochem. Physiol. C Comp. Pharmacol.99(1-2): 1-5|1991|10.1016/0742-8413(91)90065-2
75682|A||Wolf,G., P. Scheunders, and M. Selens|Evaluation of the Swimming Activity of Daphnia magna by Image Analysis After Administration of Sublethal Cadmium Concentrations|Comp. Biochem. Physiol. A Mol. Integr. Physiol.120(1): 99-105|1998|10.1016/S1095-6433(98)10016-8
75683|A||White,S.L., and P.S. Rainbow|A Preliminary Study of Cu-, Cd- and Zn-Binding Components in the Hepatopancreas of Palaemon elegans (Crustacea:  Decapoda)|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 111-116|1986|10.1016/0742-8413(86)90021-6
75684|A||Bigelow,L.K., and D.C. Lasenby|Particle Size Selection in Cadmium Uptake by the Opossum Shrimp, Mysis relicta|Bull. Environ. Contam. Toxicol.47(5): 790-796|1991|10.1007/BF01701151
75685|T||Prakash,P., P.G. Kumar, M. Laloraya, T. Javeri, and M.S. Parihar|Superoxide Anion Radical Production as a Cadmium-Mediated Mechanism of Toxicity in Avian Thyroid:  An Electron Spin Resonance Study by Spin Trapping|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118(1): 89-95|1997|
75687|A||Lehmann,V., G.M.J. Tubbing, and W. Admiraal|Induced Metal Tolerance in Microbenthic Communities from Three Lowland Rivers with Different Metal Loads|Arch. Environ. Contam. Toxicol.36(4): 384-391|1999|10.1007/PL00006610
75688|T||Thomas,P., K.N. Baer, and R.B. White|Isolation and Partial Characterization of Metallothionein in the Liver of the Red-Eared Turtle (Trachemys scripta) Following Intraperitoneal Administration of Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(2): 221-226|1994|
75689|A||Woodall,C., and N. MacLean|Response of Xenopus laevis to Cadmium Administration|Comp. Biochem. Physiol. C Comp. Pharmacol.101(1): 109-115|1992|10.1016/0742-8413(92)90207-N
75690|T||Kohler,H.R., B. Rahman, S. Graff, M. Berkus, and R. Triebskorn|Expression of the Stress-70 Protein Family (HSP70) Due to Heavy Metal Contamination in the Slug, Deroceras reticulatum:  An Approach to Monitor Sublethal Stress Conditions|Chemosphere33(7): 1327-1340|1996|10.1016/0045-6535(96)00270-6
75691|T||Flos,R., J. Bas, and J. Hidalgo|Metallothionein in the Liver of the Small Lizard Podarcis muralis|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 93-98|1986|10.1016/0742-8413(86)90018-6
75692|T||Lindqvist,L., and M. Block|Excretion of Cadmium and Zinc During Moulting in the Grasshopper Omocestus viridulus (Orthoptera)|Environ. Toxicol. Chem.13(10): 1669-1672|1994|10.1002/etc.5620131017
75693|A||Jana,B.B., and S. Das|Potential of Freshwater Mussel (Lamellidens marginalis) for Cadmium Clearance in a Model System|Ecol. Eng.8(3): 179-193|1997|10.1016/S0925-8574(97)00259-0
75694|T||Moe,S.J., N.C. Stenseth, and R.H. Smith|Density-Dependent Compensation in Blowfly Populations give Indirectly Positive Effects of a Toxicant|Ecology83(6): 1597-1603|2002|10.1890/0012-9658(2002)083[1597:DDCIBP]2.0.CO;2
75695|A||Sinha,S., and C. Mandal|Microheterogeneity of C-Reactive Protein in the Sera of Fish Labeo rohita Induced by Metal Pollutants|Biochem. Biophys. Res. Commun.226(3): 681-687|1996|10.1006/bbrc.1996.1414
75696|A||Chan,P.K., and S.H. Cheng|Cadmium-Induced Ectopic Apoptosis in Zebrafish Embryos|Arch. Toxicol.77(2): 69-79|2003|10.1007/s00204-002-0411-1
75700|A||Reyes,R., R. Salazar, and E. Garcia|Incorporation of Cadmium by Acetabularia calyculus|Bull. Environ. Contam. Toxicol.67(5): 749-755|2001|
75701|T||Brown,C.J., R.A. Eaton, S.M. Cragg, P. Goulletquer, A. Nicolaidou, M.J. Bebianno, J. Icely, G. Daniel, T. Nilsson, A.J.|Assessment of Effects of Chromated Copper Arsenate (CCA)-Treated Timber on Nontarget Epibiota by Investigation of Fouling Community Development at Seven European Sites|Arch. Environ. Contam. Toxicol.45(1): 37-47|2003|10.1007/s00244-002-0178-7
75702|T||Nascarella,M.A., J.G.,Jr. Stoffolano, E.J. Stanek III, P.T. Kostecki, and E.J. Calabrese|Hormesis and Stage Specific Toxicity Induced by Cadmium in an Insect Model, the Queen Blowfly, Phormia regina Meig.|Environ. Pollut.124(2): 257-262|2003|10.1016/S0269-7491(02)00479-7
75703|T||Lock,K., and C.R. Janssen|Mixture Toxicity of Zinc, Cadmium, Copper, and Lead to the Potworm Enchytraeus albidus|Ecotoxicol. Environ. Saf.52(1): 1-7|2002|10.1006/eesa.2002.2155
75704|T||Babczynska,A., and P. Migula|Cadmium-Fenitrothion Interaction in the Spider Pardosa lugubris and the Fruit Fly Drosophila melanogaster|Bull. Environ. Contam. Toxicol.69(4): 586-592|2002|10.1007/s00128-002-0101-y
75706|A||Lintongan,P.B., F.A. Carino, and G.C. Rivero|Photosynthetic Protein from Chlorella vulgaris Strain Bt-09 may be Responsible for the Coping Mechanism Against Cadmium Toxicity|Bull. Environ. Contam. Toxicol.72(6): 1232-1239|2004|10.1007/s00128-004-0375-3
75707|A||Eimers,M.C., R.D. Evans, and P.M. Welbourn|Partitioning and Bioaccumulation of Cadmium in Artificial Sediment Systems:  Application of a Stable Isotope Tracer Technique|Chemosphere46(4): 543-551|2002|10.1016/S0045-6535(01)00156-4
75709|T||Gill,J.E., and R. Redfern|Laboratory Trials of Seven Rodenticides for Use Against the Cotton Rat (Sigmodon hispidus)|J. Hyg.85(3): 443-450|1980|10.1017/S0022172400063518
75710|T||Lam,Y.M.|Evaluation of Four Rodenticidal Dust for the Control of Rattus argentiventer in Rice Fields|MARDI Res. J.18(2): 185-189|1990|
75711|T||Malhi,C.S., G. Chopra, and V.R. Parshad|Poison Baiting of Rodents in Wheat Triticum aestivum|Indian J. Agric. Sci.56(8): 609-611|1986|
75712|T||Sterner,Ray T., and C.A. Ramey|An Index Technique to Monitor Broadcast Calibration and Bait Pick up, plus Rodent and Avian Sign Under Arid Conditions|Pest Manag. Sci.58(4): 385-391|2002|10.1002/ps.468
75714|T||Balasubramanyam,M., and K.R. Purushotham|The Susceptibility of the Indian Field Mouse Mus booduga Gray to Anticoagulant Rodenticidal Baits|Pestic. Sci.23(3): 208-214|1988|10.1002/ps.2780230303
75716|A||Sinniah,B., D. Sinniah, and J. Ibrahim|Effect of Neem Oil and Mosquito Larvae|Mosq. Borne Dis. Bull.11(3): 90-93|1994|
75717|T||Gill,J.E., and R. Redfern|Laboratory Tests of Seven Rodenticides for the Control of Mastomys natalensis|J. Hyg.83(2): 345-352|1979|10.1017/S0022172400026139
75718|T||Newton,I., I. Wyllie, A. Gray, and C.V. Eadsforth|The Toxicity of the Rodenticide Flocoumafen to Barn Owls and Its Elimination via Pellets|Pestic. Sci.41(3): 187-193|1994|10.1002/ps.2780410304
75719|T||Gray,A., C.V. Eadsforth, A.J. Dutton, and J.A. Vaughan|The Toxicity of Three Second-Generation Rodenticides to Barn Owls|Pestic. Sci.42(3): 179-184|1994|10.1002/ps.2780420307
75720|T||Sheikher,C., and S.D. Jain|Mode of Application and Performance of Rodenticides in Vegetable Crops|Indian J. Agric. Sci.66(7): 437-440|1996|
75724|A||Errecalde,O., and P.G.C. Campbell|Cadmium and Zinc Bioavailability to Selenastrum capricornutum (Chlorophyceae):  Accidental Metal Uptake and Toxicity in the Presence of Citrate|J. Phycol.36(3): 473-483|2000|10.1046/j.1529-8817.2000.99103.x
75725|A||Lemaire,S., E. Keryer, M. Stein, I. Schepens, E. Issakidis-Bourguet, C. Gerard-Hirne, M. Miginiac-Maslow, and J.P. Jacq|Heavy-Metal Regulation of Thioredoxin Gene Expression in Chlamydomonas reinhardtii|Plant Physiol.120(3): 773-778|1999|10.1104/pp.120.3.773
75726|T||Bio-Medical Research Laboratories Co.Ltd.|Initial Submission:  Report on the Study of the Acute Oral Toxicity of BAS 9052 O H in the Rat with Cover Letter Dated 052692|Bio-Medical Research Laboratories, La Jolla, CA:19 p.|1992|
75728|T||EPA/OTS|Initial Submission:  Acute Toxicity of 2-(N-Ethoxybutrimidoyl)-5-(2-Ethylthiopropyl)-3-Hydroxy-2-Cyclohexen-1-One in Rats with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003022:126 p.|1992|
75729|T||Nisso Inst. for Life Science|Supplement:  Acute Oral Toxicity of 2-(N-Ethoxybutyrimidoyl)-5-(2-Ethylthiopropyl)-2-Hydroxy-2-Cyclohexen-1-One in Rats with Attachment|EPA/OTS Doc.#89-920000254:51 p.|1992|
75734|A||Meinelt,T., R.C. Playle, M. Pietrock, B.K. Burnison, A. Wienke, and C.E.W. Steinberg|Interaction of Cadmium Toxicity in Embryos and Larvae of Zebrafish (Danio rerio) with Calcium and Humic Substances|Aquat. Toxicol.54(3-4): 205-215|2001|10.1016/S0166-445X(01)00145-X
75735|A||Pawlik-Skowronska,B.|Phytochelatin Production in Freshwater Algae Stigeoclonium in Response to Heavy Metals Contained in Mining Water; Effects of Some Environmental Factors|Aquat. Toxicol.52(3-4): 241-249|2001|10.1016/S0166-445X(00)00144-2
75736|A||Klaverkamp,J.F., K. Wautier, and C.L. Baron|A Modified Mercury Saturation Assay for Measuring Metallothionein|Aquat. Toxicol.50(1-2): 13-25|2000|10.1016/S0166-445X(99)00098-3
75737|T||Schrenk,D., A. Buchmann, K. Dietz, H.P. Lipp, H. Brunner, H. Sirma, P. Munzel, H. Hagenmaier, R. Gebhardt, and K.W. Boc|Promotion of Preneoplastic Foci in Rat Liver with 2,3,7,8-Terachlorodibenzo-p-Dioxin, 1,2,3,4,6,7,8-Heptachlorodibenzo-p-Dioxin and a Defined Mixture of 49 Polychlorinated Dibenzo-p-Dioxins|Carcinogenesis15(3): 509-515|1994|10.1093/carcin/15.3.509
75738|A||Andersson,T., M. Pesonen, and C. Johansson|Differential Induction of Cytochrome P-450-Dependent Monooxygenase, Epoxide Hydrolase, Glutathione Transferase and UDP Glucuronosyl Transferase Activities in the Liver of the Rainbow Trout by beta-Naphthoflavone or Clop|Biochem. Pharmacol.34(18): 3309-3314|1985|10.1016/0006-2952(85)90351-X
75739|A||Binder,R.L., and J.J. Stegeman|Basal Levels and Induction of Hepatic Aryl Hydrocarbon Hydroxylase Activity During the Embryonic Period of Development in Brook Trout|Biochem. Pharmacol.32(7): 1324-1327|1983|10.1016/0006-2952(83)90292-7
75740|T||Pohjanvirta,R., M. Unkila, J. Linden, J.T. Tuomisto, and J. Tuomisto|Toxic Equivalency Factors do not Predict the Acute Toxicities of Dioxins in Rats|Eur. J. Pharmacol.293:341-353|1995|10.1016/0926-6917(95)90054-3
75741|AT||Murk,A., D. Morse, J. Boon, and A. Brouwer|In Vitro Metabolism of 3,3',4,4'-Tetrachlorobiphenyl in Relation to Ethoxyresorufin-O-Deethylase Activity in Liver Microsomes of Some Wildlife Species and Rat|Eur. J. Pharmacol.270:253-261|1994|
75742|T||Hemming,H., S. Flodstrom, L. Warngard, A. Bergman, T. Kronevi, I. Nordgren, and U.G. Ahlborg|Relative Tumour Promoting Activity of Three Polychlorinated Biphenyls in Rat Liver|Eur. J. Pharmacol.248(2): 163-174|1993|
75744|A||Otto,D.M.E., C.K. Sen, N. Hidiroglou, R. Madere, and T.W. Moon|Role of Exogenous Glutathione in Teleost Fish and Its Effects on Antioxidant Defense Responses in Rainbow Trout Exposed to 3,3',4,4'-Tetrachlorobiphenyl|Fish Physiol. Biochem.16:449-457|1997|10.1023/A:1007765609695
75745|T||Diliberto,J.J., M.J. DeVito, D.G. Ross, and L.S. Birnbaum|Subchronic Exposure of [3H]- 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Female B6C3F1 Mice:  Relationship of Steady-State Levels to Disposition and Metabolism|Toxicol. Sci.61(2): 241-255|2001|10.1093/toxsci/61.2.241
75746|T||Geller,A.M., W.M. Oshiro, N. Haykal-Coates, P.R.S. Kodavanti, and P.J. Bushnell|Gender-Dependent Behavioral and Sensory Effects of a Commercial Mixture of Polychlorinated Biphenyls (Aroclor 1254) in Rats|Toxicol. Sci.59(2): 268-277|2001|10.1093/toxsci/59.2.268
75747|T||Yang,D., Y. Li, X. Yuan, L. Matoney, and B. Yan|Regulation of Rat Carboxylesterase Expression by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD):  A Dose-Dependent Decrease in mRNA Levels but a Biphasic Change in Protein Levels and Activity|Toxicol. Sci.64(1): 20-27|2001|10.1093/toxsci/64.1.20
75748|T||Widholm,J.J., G.B. Clarkson, B.J. Strupp, K.M. Crofton, R.F. Seegal, and S.L. Schantz|Spatial Reversal Learning in Aroclor 1254-Exposed Rats:  Sex-Specific Deficits in Associative Ability and Inhibitory Control|Toxicol. Appl. Pharmacol.174(2): 188-198|2001|10.1006/taap.2001.9199
75749|T||Kattainen,H., J. Tuukkanen, U. Simanainen, J.T. Tuomisto, O. Kovero, P.L. Lukinmaa, S. Alaluusua, J. Tuomisto, and M. V|In Utero/Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure Impairs Molar Tooth Development in Rats|Toxicol. Appl. Pharmacol.174(3): 216-224|2001|10.1006/taap.2001.9216
75750|T||Franc,M.A., R. Pohjanvirta, J. Tuomisto, and A.B. Okey|Persistent, Low-Dose 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure:  Effect on Aryl Hydrocarbon Receptor Expression in a Dioxin-Resistance Model|Toxicol. Appl. Pharmacol.175(1): 43-53|2001|10.1006/taap.2001.9222
75751|T||Gao,X., K. Mizuyachi, P.F. Terranova, and K.K. Rozman|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Decreases Responsiveness of the Hypothalamus to Estradiol as a Feedback Inducer of Preovulatory Gonadotropin Secretion in the Immature Gonadotropin-Primed Rat|Toxicol. Appl. Pharmacol.170(3): 181-190|2001|10.1006/taap.2000.9099
75752|T||Golor,G., K. Yamashita, W. Korner, H. Hagenmaier, and D. Neubert|Kinetics and Inductive Potency of 1,2,3,4,6,7,8-Heptachlorodibenzo-p-Dioxin (H7CDD) in Rats|Life Sci.69(5): 493-508|2001|10.1016/S0024-3205(01)01145-6
75754|T||Chu,I., P. Lecavalier, H. Hakansson, A. Yagminas, V.E. Valli, P. Poon, and M. Feeley|Mixture Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Polychlorinated Biphenyl Congeners in Rats|Chemosphere43(4-7): 807-814|2001|10.1016/S0045-6535(00)00437-9
75755|T||Aozasa,O., S. Ohta, T. Nakao, H. Miyata, and T. Nomura|Enhancement in Fecal Excretion of Dioxin Isomer in Mice by Several Dietary Fibers|Chemosphere45(2): 195-200|2001|10.1016/S0045-6535(00)00557-9
75756|T||Gerstenberger,S.L., and V. Tripoli|Developmental Landmarks in Offspring of Rats Exposed Singly and in Combination to Aroclor 1016 and Levothyroxine|Bull. Environ. Contam. Toxicol.67(2): 155-162|2001|10.1007/s001280105
75757|T||Hakk,H., G.L. Larsen, and V.J. Feil|Metabolism of (14C)1,2,7,8-Tetrachlorodibenzo-p-Dioxin in a Ruminating Holstein Calf|Xenobiotica31(7): 443-455|2001|10.1080/00498250110057387
75759|T||Larsson,C., and A. Bergman|PCB Methyl Sulphones in Rat Liver After Exposure to PCB (Clophen A50):  Analysis and Radiosynthesis of Selected Methylsulphonyl-PCBs|Xenobiotica31(2): 85-97|2001|10.1080/00498250110038658
75760|T||Morita,K., M. Ogata, and T. Hasegawa|Chlorophyll Derived from Chlorella Inhibits Dioxin Absorption from the Gastrointestinal Tract and Accelerates Dioxin Excretion in Rats|Environ. Health Perspect.109(3): 289-294|2001|10.1289/ehp.01109289
75761|T||Hakk,H., G. Larsen, and V. Feil|Tissue Distribution, Excretion, and Metabolism of 1,2,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|Chemosphere42(8): 975-983|2001|10.1016/S0045-6535(00)00131-4
75762|T||Rauch,N., and R. Nauen|Spirodiclofen Resistance Risk Assessment in Tetranychus urticae (Acari:  Tetranychidae):  A Biochemical Approach|Pestic. Biochem. Physiol.74(2): 91-101|2003|10.1016/S0048-3575(02)00150-5
75764|T||Gozzo,F., A. Carelli, R. Carzaniga, G. Farina, A. Arnoldi, D. Lamb, and S.L. Kelly|Stereoselective Interaction of Tetraconazole with 14alpha-Demethylase in Fungi|Pestic. Biochem. Physiol.53(1): 10-22|1995|10.1006/pest.1995.1050
75765|T||Carzaniga,R., A. Carelli, G. Farina, A. Arnoldi, and F. Gozzo|Comparative Antifungal Effect and Mode of Action of Tetraconazole on Ustilago maydis|Pestic. Biochem. Physiol.40(3): 274-283|1991|10.1016/0048-3575(91)90099-8
75766|T||Arts,J.H.E., H. Muijser, M.J. Appel, C. Frieke Kuper, J.G.M. Bessems, and R.A. Woutersen|Subacute (28-Day) Toxicity of Furfural in Fischer 344 Rats:  A Comparison of the Oral and Inhalation Route|Food Chem. Toxicol.42(9): 1389-1399|2004|10.1016/j.fct.2004.03.014
75767|T||Godfrey,V.B., L.J. Chen, R.J. Griffin, E.H. Lebetkin, and L.T. Burka|Distribution and Metabolism of (5-Hydroxymethyl)Furfural in Male F344 Rats and B6C3F1 Mice After Oral Administration|J. Toxicol. Environ. Health Part A57(3): 199-210|1999|10.1080/009841099157764
75768|T||Arnoldi,A., R. Carzaniga, G. Morini, L. Merlini, and G. Farina|Synthesis, Fungicidal Activity, and QSAR of a Series of 2-Dichlorophenyl-3-Triazolylpropyl Ethers|J. Agric. Food Chem.48(6): 2547-2555|2000|10.1021/jf9906432
75769|A||Wang,G.X., H. Watanabe, A. Uchino, and K. Itoh|Response of a Sulfonylurea (SU)-Resistant Biotype of Limnophila sessiliflora to Selected SU and Alternative Herbicides|Pestic. Biochem. Physiol.68(2): 59-66|2000|10.1006/pest.2000.2504
75770|T||Malhi,C.S.|Prevention of Bird Damage at the Sowing and Sprouting Stages of a Sunflower Crop|Int. Pest Control39(4): 127-128|1997|
75771|T||Emerson,M.R., S. Biswas, and S.M. LeVine|Cuprizone and Piperonyl Butoxide, Proposed Inhibitors of T-Cell Function, Attenuate Experimental Allergic Encephalomyelitis in SJL Mice|J. Neuroimmunol.119(2): 205-213|2001|10.1016/S0165-5728(01)00394-0
75772|T||Afifi,N.A., A. Ramadan, M.I. Abd El-Aziz, and E.E. Saki|Influence of Dimethoate on Testicular and Epididymal Organs, Testosterone Plasma Level and Their Tissue Residues in Rats|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)98(11): 419-420,422-423|1991|
75773|T||Sinha,S.N.|Control of Helicoverpa armigera Hb. Infesting Chickpea: Field Efficacy of Neem Products and Insect Growth Regulators|Indian J. Plant Prot.21(1): 80-84|1993|
75774|T||Rai,H.S., R.C. Tiwari, and R.N. Shrivastava|Comparative Efficacy of Insecticides Against Creontiades sp., a Pest of Niger in Madhya Pradesh|Geobios22(4): 187-190|1995|
75775|T||Butler,W.H., K.L. Gabriel, T.G. Osimitz, and F.J. Preiss|Oncogenicity Studies of Piperonyl Butoxide in Rats and Mice|Hum. Exp. Toxicol.17(6): 323-330|1998|10.1177/096032719801700607
75776|A||Tomar,V., and A.K. Pandey|Insecticidal Toxicity and Melanophores in Bufo melanostictus (Schneider) Tadpoles:  A Comparative Study|Z. Mikrosk.-Anat. Forsch. (Leipz.)100(3): 391-396|1986|
75777|T||El-Banhawy,M.A., M.A. El-Ganzuri, and M.M. El-Akkad|Histochemical Studies on Polysaccharides and Lipids of the Gut Epithelial Cells of the Earthworm Allolobophora caliginosa Living on Soil Contaminated with Insecticides|Biologia (Bratisl.)30(2): 173-182|1984|
75778|T||Dhingra,S., and P. Sarup|Detection of Resistance in the Blister Beetle, Mylabris pustulata Thunb. to Various Insecticides Evaluated During the Last Quarter Century|J. Entomol. Res.16(3): 231-235|1992|
75779|T||Pier,A.C., E.L. Belden, J.A. Ellis, E.W. Nelson, and L.R. Maki|Effects of Cyclopiazonic Acid and Aflatoxin Singly and in Combined on Selected Clinical, Pathologically and Immunologically Responses of Guinea Pigs|Mycopathologia105(3): 135-142|1989|10.1007/BF00437245
75780|A||Ashrafi,S.H., R.A. Roohi, A.H. Qureshi, and S.N.H. Naqvi|Joint Action of Petkolin in Comparison and in Combination with Organophosphorous Insecticides for the Control of Mosquito Larvae|Pak. J. Zool.6(1/2): 157-161|1974|
75781|A||Panda,S.S., P.K. Mohapatra, and R.C. Mohanty|Comparative Toxicity of Two Organophosphorus Insecticides on Membrane Integrity of Chlorella vulgaris.  I.  Effect on Membrane Permeability|Microbiol. Res.153(4): 363-368|1999|10.1016/S0944-5013(99)80051-2
75782|T||Vijayalakshmi,M., and A.S. Rao|Effects of Six Insecticides and One Fungicide on the Development of VAM Fungi in Peanut (Arachis hypogaea L.) |Zentbl. Mikrobiol.148(1): 60-65|1993|10.1016/S0232-4393(11)80081-8
75783|T||Moran,S.|Toxicity of Cholecalciferol Pelleted Baits to the Field Rodents Microtus guentheri and Meriones tristrami|Crop Prot.15(3): 247-248|1996|10.1016/0261-2194(95)00104-2
75784|T||Cortet,J., D. Gillon, R. Joffre, J.M. Ourcival, and N. Poinsot-Balaguer|Effects of Pesticides on Organic Matter Recycling and Microarthropods in a Maize Field:  Use and Discussion of the Litterbag Methodology|Eur. J. Soil Sci.38(3-4): 261-265|2002|
75785|T||Hasan,H.A.H.|Mode of Action of Pesticides on Aflatoxin Biosynthesis and Oxidase System Activity|Microbiol. Res.154(1): 95-102|1999|10.1016/S0944-5013(99)80041-X
75786|T||Mitsumori,K., K. Takegawa, T. Shimo, H. Onodera, K. Yasuhara, and M. Takahashi|Morphometric and Immunohistochemical Studies on Atrophic Changes in Lympho-Hematopoietic Organs of Rats Treated with Piperonyl Butoxide or Subjected to Dietary Restriction|Arch. Toxicol.70(12): 809-814|1996|10.1007/s002040050343
75787|A||Zettergren,L.D., C.A. Conrad, D.H. Petering, D.N. Weber, and M.S. Goodrich|Immunochemical and Immunohistochemical Studies of Cadmium Associated Proteins in Rana Tadpoles|Toxicol. Lett.59(1-3): 221-228|1991|10.1016/0378-4274(91)90075-H
75788|A||Petersen,K., E. Kristensen, and P. Bjerregaard|Influence of Bioturbating Animals on Flux of Cadmium into Estuarine Sediment|Mar. Environ. Res.45(4-5): 403-415|1998|10.1016/S0141-1136(98)00102-0
75789|A||Singh,N., R.K. Asthana, A.M. Kayastha, S. Pandey, A.K. Chaudhary, and S.P. Singh|Thiol and Exopolysaccharide Production in a Cyanobacterium Under Heavy Metal Stress|Process Biochem.35(1-2): 63-68|1999|10.1016/S0032-9592(99)00033-3
75790|T||Pinto,A.P., A.M. Mota, A. De Varennes, and F.C. Pinto|Influence of Organic Matter on the Uptake of Cadmium, Zinc, Copper and Iron by Sorghum Plants|Sci. Total Environ.326(1-3): 239-247|2004|10.1016/j.scitotenv.2004.01.004
75791|A||Macinnis-Ng,C.M.O., and P.J. Ralph|Variations in Sensitivity to Copper and Zinc Among Three Isolated Populations of the Seagrass, Zostera capricorni|J. Exp. Mar. Biol. Ecol.302(1): 63-83|2004|10.1016/j.jembe.2003.10.002
75793|A||Gingrich,D.J., D.N. Weber, C.F. Shaw, J.S. Garvey, and D.H. Petering|Characterization of a Highly Negative and Labile Binding Protein Induced in Euglena gracilis by Cadmium|Environ. Health Perspect.65:77-85|1986|
75794|A||Yilmaz,M., A. Gul, and E. Karakose|Investigation of Acute Toxicity and the Effect of Cadmium Chloride (CdCl2.H2O) Metal Salt on Behavior of the Guppy (Poecilia reticulata)|Chemosphere56(4): 375-380|2004|10.1016/j.chemosphere.2003.11.067
75796|A||Torricelli,E., G. Gorbi, B. Pawlik-Skowronska, L.S. Di Toppi, and M.G. Corradi|Cadmium Tolerance, Cysteine and Thiol Peptide Levels in Wild Type and Chromium-Tolerant Strains of Scenedesmus acutus  (Chlorophyceae)|Aquat. Toxicol.68(4): 315-323|2004|10.1016/j.aquatox.2004.03.020
75797|T||Liu,W.J., Y.G. Zhu, F.A. Smith, and S.E. Smith|Do Phosphorus Nutrition and Iron Plaque Alter Arsenate (As) Uptake by Rice Seedlings in Hydroponic Culture?|New Phytol.162(2): 481-488|2004|10.1111/j.1469-8137.2004.01035.x
75800|T||Cohen,S.M., L.L. Arnold, E. Uzvolgyi, M. Cano, M. St.John, S. Yamamoto, X. Lu, and X.C. Le|Possible Role of Dimethylarsinous Acid in Dimethylarsinic Acid-Induced Urothelial Toxicity and Regeneration in the Rat|Chem. Res. Toxicol.15(9): 1150-1157|2002|10.1021/tx020026z
75801|A||Klumpp,D.W., and P.J. Peterson|Chemical Characteristics of Arsenic in a Marine Food Chain|Mar. Biol.62:297-305|1981|10.1007/BF00397696
75803|T||Nauen,R., T. Bretschneider, A. Elbert, R. Fischer, and R. Tiemann|Spirodiclofen and Spiromesifen|Pestic. Outlook14(6): 243-246|2003|10.1039/b314855f
75804|T||Guthrie,F., I. Denholm, G.J. Devine, and R. Nauen|Biological Evaluation of Spiromesifen Against Bemisia tabaci and an Assessment of Resistance Risks|In: Proc BCPC Int.Congr.- Crop Science & Technology, Nov.10-12, 2003, Glasgow, U.K.2:795-800|2003|
75805|T||Nauen,R., T. Bretschneider, E. Brueck, A. Elbert, U. Reckmann, U. Wachendorff, and R. Tiemann|BSN 2060:  A Novel Compound for Whitefly and Spider Mite Control|Br. Crop Prot. Conf. Pests Dis.1:39-44|2002|
75806|T||Liu,T.X.|Toxicity and Efficacy of Spiromesifen, a Tetronic Acid Insecticide, Against Sweetpotato Whitefly (Homoptera: Aleyrodidae) on Melons and Collards|Crop Prot.23(6): 505-513|2004|10.1016/j.cropro.2003.10.006
75807|T||Lokhande,R.K., N.G.V. Rao, and P. Mohan|Efficacy of Some Common Insecticides on Flowers and Fruit Setting on Chilli (Capsicum annuum) Crop|Adv. Plant Sci.8(2): 371-378|1995|
75808|A||McNicol,R.E., E. Scherer, and J.H. Gee|Shoaling Enhances Cadmium Avoidance by Lake Whitefish, Coregonus clupeaformis|Environ. Biol. Fishes47(2): 311-319|1996|10.1007/BF00000503
75809|T||Sambongi,Y., T. Nagae, Y. Liu, T. Yoshimizu, K. Takeda, Y. Wada, and M. Futai|Sensing of Cadmium and Copper Ions by Externally Exposed ADL, ASE, and ASH Neurons Elicits Avoidance Response in Caenorhabditis elegans|Neuroreport10(4): 753-757|1999|10.1097/00001756-199903170-00017
75810|A||Nanda,P.|Haematological Changes in the Common Indian Cat Fish Heteropneustes fossilis Under Nickel Stress|J. Ecobiol.9(4): 243-246|1997|
75811|A||Poonguzhali,T.V., and V.N.R. Rao|Effect of Organic Acids on Metal Toxicity in Algae|Phykos38(1/2): 127-133|1999|
75813|T||Eckerlin,R.H., L. Krook, G.A. Maylin, and D. Carmichael|Toxic Effects of Food-Borne Fluoride in Silver Foxes|Cornell Vet.76(4): 395-402|1986|
75814|AT||MacFarlane,G.R., and M.D. Burchett|Photosynthetic Pigments and Peroxidase Activity as Indicators of Heavy Metal Stress in the Grey Mangrove, Avicennia marina (Forsk.) Vierh|Mar. Pollut. Bull.42(3): 233-240|2001|10.1016/S0025-326X(00)00147-8
75815|T||Onianwa,P.C., S.O. Ajayi, O. Osibanjo, and A. Egunyomi|Sorption and Retention of Pb, Cu and Cd Ions in Three Species of Mosses Used for Air Pollution Studies in Nigeria|Environ. Pollut. Ser. B Chem. Phys.11(3): 231-238|1986|10.1016/0143-148X(86)90026-1
75816|A||Otitoloju,A.A.|Evaluation of the Joint-Action Toxicity of Binary Mixtures of Heavy Metals Against the Mangrove Periwinkle Tympanotonus fuscatus var radula (L.)|Ecotoxicol. Environ. Saf.53(3): 404-415|2002|10.1016/S0147-6513(02)00032-5
75817|A||Liao,C.M., M.C. Lin, J.S. Chen, and J.W. Chen|Linking Biokinetics and Consumer-Resource Dynamics of Zinc Accumulation in Pond Abalone Haliotis diversicolor supertexta|Water Res.36(20): 5102-5112|2002|10.1016/S0043-1354(02)00230-0
75818|A||Martins,R.J.E., and R.A.R. Boaventura|Uptake and Release of Zinc by Aquatic Bryophytes (Fontinalis antipyretica L. ex. Hedw.)|Water Res.36(20): 5005-5012|2002|10.1016/S0043-1354(02)00233-6
75819|A||Windham,L., J.S. Weis, and P. Weis|Lead Uptake, Distribution, and Effects in Two Dominant Salt Marsh Macrophytes, Spartina alterniflora (Cordgrass) and Phragmites australis (Common Reed)|Mar. Pollut. Bull.42(10): 811-816|2001|10.1016/S0025-326X(00)00224-1
75820|A||Kuwabara,J.S., J.A. Davis, and C.C.Y. Chang|Algal Growth Response to Particle-Bound Orthophosphate and Zinc|Limnol. Oceanogr.31(3): 503-511|1986|10.4319/lo.1986.31.3.0503
75821|A||Manley,A.R., L.D. Gruffydd, and P.C. Almada-Villela|The Effect of Copper and Zinc on the Shell Growth of Mytilus edulis Measured by a Laser Diffraction Technique|J. Mar. Biol. Assoc. U.K.64(2): 417-427|1984|10.1017/S0025315400030095
75822|A||Thompson,E.D., G.D. Mayer, P.J. Walsh, and C. Hogstrand|Sexual Maturation and Reproductive Zinc Physiology in the Female Squirrelfish|J. Exp. Biol.205(21): 3367-3376|2002|10.1242/jeb.205.21.3367
75823|A||Omar,H.H.|Bioremoval of Zinc Ions by Scenedesmus obliquus and Scenedesmus quadricauda and Its Effect on Growth and Metabolism|Int. Biodeterior. Biodegrad.50(2): 95-100|2002|10.1016/S0964-8305(02)00048-3
75824|A||Carballeira,A., M.D. Vazquez, and J. Lopez|Biomonitoring of Sporadic Acidification of Rivers on the Basis of Release of Preloaded Cadmium from the Aquatic Bryophyte Fontinalis antipyretica Hedw.|Environ. Pollut.111(1): 95-106|2001|10.1016/S0269-7491(99)00331-0
75825|A||Sen,G., M.K. Behera, and P.N. Patel|Toxicity of Zinc to the Fish Channa punctatus (Bloch) with Behavioral, Morphological and Skeletal Abnormalities|Environ. Ecol.9(4): 1023-1027|1991|
75826|A||Maltby,L., C. Naylor, and P. Calow|Effect of Stress on a Freshwater Benthic Detritivore:  Scope for Growth in Gammarus pulex|Ecotoxicol. Environ. Saf.19(3): 285-291|1990|10.1016/0147-6513(90)90030-9
75827|A||Sharma,S.S., and J.P. Gaur|Potential of Lemna polyrrhiza for Removal of Heavy Metals|Ecol. Eng.4(1): 37-43|1995|10.1016/0925-8574(94)00047-9
75828|A||Kruatrachue,M., W. Jarupan, Y.P. Chitramvong, P. Pokethitiyook, E.S. Upatham, and K. Parkpoomkamol|Combined Effects of Lead and Humic Acid on Growth and Lead Uptake of Duckweed, Lemna minor|Bull. Environ. Contam. Toxicol.69(5): 655-661|2002|10.1007/s00128-002-0111-9
75829|A||Liao,C.M., and M.C. Lin|Toxicokinetics and Acute Toxicity of Waterborne Zinc in Abalone (Haliotis diversicolor supertexta Lischke)|Bull. Environ. Contam. Toxicol.66(5): 597-602|2001|
75830|A||Mersch,J., F. Guerold, P. Rousselle, and J.C. Pihan|Transplanted Aquatic Mosses for Monitoring Trace Metal Mobilization in Acidified Streams of the Vosges Mountains, France|Bull. Environ. Contam. Toxicol.51(2): 255-259|1993|10.1007/BF00198889
75831|T||MacFarlane,G.R., and M.D. Burchett|Cellular Distribution of Copper, Lead and Zinc in the Grey Mangrove, Avicennia marina (Forsk.) Vierh|Aquat. Bot.68(1): 45-59|2000|10.1016/S0304-3770(00)00105-4
75832|T||Moretti,M., M. Saracchi, and G. Farina|Morphological, Physiological and Genetic Diversity Within a Small Population of Cercospora beticola Sacc.|Ann. Microbiol.54(2): 129-150|2004|
75833|A||Pape,R., R. Kissmehl, R. Glas-Albrecht, and H. Plattner|Effects of Anti-Microtubule Agents on Paramecium Cell Culture Growth|Eur. J. Protistol.27(3): 283-289|1991|10.1016/S0932-4739(11)80066-0
75834|T||Alam,M., and W.J. Schmidt|L-DOPA Reverses the Hypokinetic Behaviour and Rigidity in Rotenone-Treated Rats|Behav. Brain Res.153(2): 439-446|2004|10.1016/j.bbr.2003.12.021
75835|T||Bourdot,G.W., G.A. Hurrell, and D.J. Saville|Herbicide Cross-Resistance in Ranunculus acris L. subsp. acris|N. Z. J. Agric. Res.37(2): 255-262|1994|10.1080/00288233.1994.9513062
75836|T||Piquet,M.A., V. Nogueira, A. Devin, B. Sibille, C. Filippi, E. Fontaine, M. Roulet, M. Rigoulet, and X.M. Leverve|Chronic Ethanol Ingestion Increases Efficiency of Oxidative Phosphorylation in Rat Liver Mitochondria|FEBS Lett.468(2-3): 239-242|2000|10.1016/S0014-5793(00)01225-4
75837|T||Gaskin,R.E., and G.W. Woon|Antagonistic Effects of 2,4-D, MCPA and MCPB on Uptake and Translocation of Haloxyfop-Ethoxyethyl in Oat (Avena sativa L.)|Weed Res. (Multiple Languages)34(6): 437-444|1994|10.1111/j.1365-3180.1994.tb02040.x
75838|T||Byford,W.J., and J. Prince|Experiments on the Effect of Hormone Weedkillers on Sugar Beet|J. Agric. Sci.86(Pt.1): 135-139|1976|10.1017/S0021859600065072
75839|T||Hasegawa,R., and N. Ito|Liver Medium-Term Bioassay in Rats for Screening of Carcinogens and Modifying Factors in Hepatocarcinogenesis|Food Chem. Toxicol.30(11): 979-992|1992|10.1016/0278-6915(92)90184-M
75840|T||Sasaki,Y.F., S. Kawaguchi, A. Kamaya, M. Ohshita, K. Kabasawa, K. Iwama, K. Taniguchi, and S. Tsuda|The Comet Assay with 8 Mouse Organs: Results with 39 Currently Used Food Additives|Mutat. Res.519(1/2): 103-119|2002|10.1016/S1383-5718(02)00128-6
75841|T||Santiago,M., L. Granero, A. Machado, and J. Cano|Complex I Inhibitor Effect on the Nigral and Striatal Release of Dopamine in the Presence and Absence of Nomifensine|Eur. J. Pharmacol.280(3): 251-256|1995|10.1016/0014-2999(95)00202-V
75842|T||Greenman,D.L., W.T. Allaben, G.T. Burger, and R.L. Kodell|Bioassay for Carcinogenicity of Rotenone in Female Wistar Rats|Fundam. Appl. Toxicol.20(3): 383-390|1993|10.1006/faat.1993.1049
75843|T||Ling,Z., Q.A. Chang, C.W. Tong, S.E. Leurgans, J.W. Lipton, and P.M. Carvey|Rotenone Potentiates Dopamine Neuron Loss in Animals Exposed to Lipopolysaccharide Prenatally|Exp. Neurol.190(2): 373-383|2004|10.1016/j.expneurol.2004.08.006
75844|T||He,Y., S.Z. Imam, Z.D. Dong, J. Jankovic, S.F. Ali, S.H. Appel, and W. Le|Role of Nitric Oxide in Rotenone-Induced Nigro-Striatal Injury|J. Neurochem.86(6): 1338-1345|2003|10.1046/j.1471-4159.2003.01938.x
75845|A||Walker,J.U., and J.L. Ram|Effects of Deionized Water on Sensitivity of Zebra Mussels (Dreissena polymorpha) to Toxic Chemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 353-358|1994|
75846|T||Wachendorff,U., R. Nauen, H.J. Schnorbach, N. Rauch, and A. Elbert|The Biological Profile of Spirodiclofen (Envidor) - A new Selective Tetronic Acid Acaricide|Pflanzenschutz-Nachr. Bayer (English Ed.)55(2-3): 149-176|2002|
75847|A||Devi,K.S., and J.M. Everaarts|Uptake of Cadmium and Copper in Bivalve Molluscs and Shrimp Exposed to Low Concentrations|NIOZ-Rapp.No.1990-8, Netherlands Inst.for Sea Res., Texel, Netherlands:23 p.|1991|
75848|A||Ahluwalia,A.S., and M. Kaur|Nickel Toxicity on Growth and Heterocyst Formation in a Nitrogen-Fixing Blue-Green Alga|Phykos28(1-2): 196-200|1989|
75849|A||Ros,R., D.T. Cooke, C. Martinez-Cortina, and I. Picazo|Nickel and Cadmium-Related Changes in Growth, Plasma Membrane Lipid Composition, ATPase Hydrolytic Activity and Proton-Pumping of Rice (Oryza sativa L. cv. Bahia) Shoots|J. Exp. Bot.43(256): 1475-1481|1992|10.1093/jxb/43.11.1475
75850|A||Kaur,M., A.S. Ahluwalia, and S. Chaudhary|Effect of Bimetallic Combinations of Heavy Metals on Growth and Development of a Cyanobacterium Anabaena doliolum|Phykos41(1-2): 27-34|2002|
75851|A||Issa,A.A., and M.S. Adam|Influence of Selenium on Toxicity of Some Heavy Metals in the Green Alga Scenedesmus obliquus|Acta Microbiol. Pol.48(3): 283-289|1999|
75852|A||Xylander,M., and H. Augsten|Different Sensitivities of Some Lemnaceae to Nickel [Unterschiedliche Sensitivitat Ciniger Lemnaceen Gegenuber Nickel]|Beitr. Biol. Pflanz. (Non-English)67(1): 89-99|1992|
75853|T||Popay,A.I., D.K. Edmonds, L.A. Lyttle, and H.T. Phung|Chemical Control of Giant Buttercup (Ranunculus acris L.)|N. Z. J. Agric. Res.32(2): 299-303|1989|10.1080/00288233.1989.10423465
75854|T||Wedgwood,R.B.|Control of Berry Production of Potato Plants|J. Agric. Sci.110(1): 39-46|1988|10.1017/S0021859600079661
75855|T||Lawson,H.M., and J.S. Wiseman|Tolerance of Potato Seedlings to a Range of Cereal Herbicides|Tests Agrochem. Cultiv.10:118-119|1989|
75856|T||Hawton,D., and I.D.G. Johnson|Weed Control in Peanuts in North Queensland|Aust. J. Exp. Agric. Anim. Husb.21(109): 218-222|1981|10.1071/EA9810218
75857|T||Guak,S., M. Beulah, N.E. Looney, and L.H. Fuchigami|Thinning 'Fuji' Apple Blossoms with Synthetic Auxins (MCPB-Ethyl or NAA) and Ethephon with or Without Postbloom Thinning with Carbaryl|J. Am. Soc. Hortic. Sci.127(2): 165-170|2002|10.21273/JASHS.127.2.165
75858|T||Ferrante,R.J., J.B. Schulz, N.W. Kowall, and M.F. Beal|Systemic Administration of Rotenone Produces Selective Damage in the Striatum and Globus pallidus, but not in the Substantia nigra|Brain Res.753(1): 157-162|1997|10.1016/S0006-8993(97)00008-5
75859|T||Standeven,A.M., A.T. Johnson, M. Escobar, and R.A.S. Chandraratna|Specific Antagonist of Retinoid Toxicity in Mice|Toxicol. Appl. Pharmacol.138(1): 169-175|1996|10.1006/taap.1996.0110
75860|T||Sass,J.O., J. Hartmann, I. Chahoud, B. Shroot, and H. Nau|Transplacental Pharmacokinetics of a Synthetic Retinoid Which is not Bound by Mouse Embryonic Cellular Retinoic Acid-Binding Protein|Toxicol. Lett.75(1-3): 159-168|1995|10.1016/0378-4274(94)03175-7
75861|T||Ivnitsky,J.J., T.V. Schaefer, V.N. Malakhovsky, and V.L. Rejniuk|Intermediates of Krebs Cycle Correct the Depression of the Whole Body Oxygen Consumption and Lethal Cooling in Barbiturate Poisoning in Rat|Toxicology202(3): 165-172|2004|10.1016/j.tox.2004.05.005
75862|T||Koitabashi,M., Y. Kajitani, and K. Hirashima|Antifungal Substances Produced by Fungal Strain KYU-W63 from Wheat Leaf and Its Taxonomic Position|J. Gen. Plant Pathol.70(2): 124-130|2004|10.1007/s10327-003-0095-2
75863|T||Mayer,A., H. Anke, and O. Sterner|Screening of Higher Fungi for the Production of Nematicidal Compounds Using Meloidogyne incognita (Kofoid & White) Chitwood as Test Organism|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.61(3a): 839-847|1996|
75864|T||Clay,D.V.|Effects of Eight Herbicides on Potentilla anserina and Rorippa sylvestris|Tests Agrochem. Cultiv.8:118-119|1987|
75865|A||Fletcher,W.W., R.C. Kirkwood, and D. Smith|Investigations on the Effect of Certain Herbicides on the Growth of Selected Species of Micro-Algae|Meded. Fac. Landbouwwet. Rijksuniv. Gent35:855-867|1970|
75866|T||Kirkwood,R.C., M.M. Robertson, and J.E. Smith|Differential Uptake and Movement as Factors Influencing the Activity of Selected Phenoxyacetic and Phenoxybutyric Herbicides|SCI Monogr.No.29:287-302|1968|
75867|T||Stanley,L.A., D.R. Blackburn, S. Devereaux, J. Foley, P.G. Lord, R.R. Maronpot, T.C. Orton, and M.W. Anderson|Ras Mutations in Methylclofenapate-Induced B6C3F1 and C57BL/10J Mouse Liver Tumours|Carcinogenesis15(6): 1125-1131|1994|10.1093/carcin/15.6.1125
75868|T||Rumbeiha,W.K., W.E. Braselton, R.F. Nachreiner, and K.R. Refsal|The Postmortem Diagnosis of Cholecalciferol Toxicosis:  A Novel Approach and Differentiation from Ethylene Glycol Toxicosis|J. Vet. Diagn. Invest.12(5): 426-432|2000|10.1177/104063870001200506
75869|T||Tryfonidou,M.A., J.J. Stevenhagen, G.J.C.M. Van den Bemd, M.A. Oosterlaken-Dijksterhuis, H.F. DeLuca, J.A. Mol, W.E. Va|Moderate Cholecalciferol Supplementation Depresses Intestinal Calcium Absorption in Growing Dogs|J. Nutr.132(9): 2644-2650|2002|10.1093/jn/132.9.2644
75870|T||Gunther,R., L.J. Felice, R.K. Nelson, and A.M. Franson|Toxicity of a Vitamin D3 Rodenticide to Dogs|J. Am. Vet. Med. Assoc.193(2): 211-214|1988|
75871|A||Naess,T.|Tolerance of Marine Calanoid Resting Eggs:  Effects of Freezing, Desiccation and Rotenone Exposure - A Field and Laboratory Study|Mar. Biol.111(3): 455-459|1991|10.1007/BF01319418
75872|T||Corsini,E., A. Bruccoleri, M. Marinovich, and C.L. Galli|Endogenous Interleukin-1alpha is Associated with Skin Irritation Induced by Tributyltin|Toxicol. Appl. Pharmacol.138(2): 268-274|1996|10.1006/taap.1996.0125
75873|T||Spencer,F., and L.T. Sing|Reproductive Responses to Rotenone During Decidualized Pseudogestation and Gestation in Rats|Bull. Environ. Contam. Toxicol.28(3): 360-368|1982|10.1007/BF01608522
75874|T||Jakubas,W.J., P.S. Shah, J.R. Mason, and D.M. Norman|Avian Repellency of Coniferyl and Cinnamyl Derivatives|Ecol. Appl.2(2): 147-156|1992|10.2307/1941771
75875|T||Thiffault,C., J.W. Langston, and D.A. Di Monte|Increased Striatal Dopamine Turnover Following Acute Administration of Rotenone to Mice|Brain Res.885(2): 283-288|2000|10.1016/S0006-8993(00)02960-7
75876|A||Boogaard,M.A., T.D. Bills, J.H. Selgeby, and D.A. Johnson|Evaluation of Piscicides for Control of Ruffe|N. Am. J. Fish. Manag.16(3): 600-607|1996|10.1577/1548-8675(1996)016<0600:EOPFCO>2.3.CO;2
75877|T||Wojdyla,A.T.|Azoles in the Control of Puccinia horiana on Chrysanthemum|J. Plant Prot. Res.42(3): 261-270|2002|
75878|T||Bostanian,N.J., M. Trudeau, and J. Lasnier|Management of the Two-Spotted Spider Mite, Tetranychus urticae [Acari:  Tetranychidae] in Eggplant Fields|Phytoprotection (Multiple Languages)84(1): 1-8|2003|10.7202/007439ar
75879|T||Cimanowski,J., and W. Goszczynski|The Influence of Fungicides on the Sporulation of Apple Powdery Mildew (Podosphaera leucotricha (Ell. et Ev.) Salm.) and Gooseberry American Mildew (Sphaerotheca mors uvae (Schw.) Berk. et Curtis)|Fruit Sci. Rep. (Skierniewice)19(2): 89-93|1992|
75880|T||De Maeyer,L., H.W. Schmidt, and D. Peeters|Envidor - A New Acaricide for IPM in Pomefruit Orchards|Pflanzenschutz-Nachr. Bayer (English Ed.)55(2/3): 211-236|2002|
75881|T||Selim,S., K.L. Gabriel, and F.J. Preiss|Absorption, Metabolism, and Excretion of 2,3:4,5-bis(2-Butylene) Tetrahydro-2 Furaldehyde (MGK R11) in the Rat|J. Toxicol. Cutan. Ocul. Toxicol.14(3): 133-149|1995|10.3109/15569529509037542
75886|T||Chowdhury,A.B.M.N.U., P.C. Jepson, P.E. Howse, and M.G. Ford|Leaf Surfaces and the Bioavailability of Pesticide Residues|Pest Manag. Sci.57(5): 403-412|2001|10.1002/ps.311
75887|T||Steinhauer,B., and R. Haberle|Effects of Neem Oils on Powdery Mildew of Cucumber|In: H.Kleeberg (Ed.), Practice Oriented Results on Use and Production of Neem-Ingredients and Pheromones, Hohensolms, Germany:109-116|1994|
75888|T||Osuna,O., and G.T. Edds|Toxicology of Aflatoxin B1, Warfarin, and Cadmium in Young Pigs:  Clinical Chemistry and Blood Coagulation|Am. J. Vet. Res.43(8): 1387-1394|1982|
75889|T||Osuna,O., G.T. Edds, and C.F. Simpson|Toxicology of Aflatoxin B1, Warfarin, and Cadmium in Young Pigs:   Metal Residues and Pathology|Am. J. Vet. Res.43(8): 1395-1400|1982|
75890|T||Siddiqui,M.A., and M.M. Alam|Efficacy of Azadirachtin as Seed Treatment for the Control of the Reniform Nematode on Some Vegetables|Tests Agrochem. Cultiv.10:20-21|1989|
75891|A||Amorose,T.|Larvicidal Efficacy of Neem (Azadirachta indica Linn) Oil and Defatted Cake on Culex quinquefasciatus Say|Geobios22(4): 169-173|1995|
75892|T||Snow,J.L., D.H. Baker, and C.M. Parsons|Phytase, Citric Acid, and 1alpha-Hydroxycholecalciferol Improve Phytate Phosphorus Utilization in Chicks fed a Corn-Soybean Meal Diet|Poult. Sci.83(7): 1187-1192|2004|10.1093/ps/83.7.1187
75893|T||Jagdale,G.B., and P.S. Grewal|Identification of Alternatives for the Management of Foliar Nematodes in Floriculture|Pest Manag. Sci.58(5): 451-458|2002|10.1002/ps.472
75894|T||Sundaram,K.M.S.|Effect of Additives in the Neem Formulations on Deposition, Volatilization and Persistence of Azadirachtin in Spruce Foliage|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(4): 523-544|1997|
75895|T||Sundaram,K.M.S., A. Sundaram, J. Curry, and L. Sloane|Dissipation Kinetics of Azadirachtin in Some Forest Matrices and Its Systemic Translocation in Conifers for Spruce Budworm Control|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(5): 803-829|1997|
75896|T||Ester,A., and J.H. Nijenstein|Molluscicidal Seed Treatment of Barley, Wheat and Perennial Ryegrass to Control the Field Slug (Deroceras reticulatum)|Neth. J. Agric. Sci.44(3): 241-248|1996|10.18174/njas.v44i3.548
75897|T||Reiling,B.A., and D.D. Johnson|Effects of Implant Regimens (Trenbolone Acetate-Estradiol Administered Alone or in Combination With Zeranol) and Vitamin D3 on Fresh Beef Color and Quality|J. Anim. Sci.81(1): 135-142|2003|10.2527/2003.811135x
75898|T||Rider Sell,N., W.B. Mikel, Y.L. Xiong, and J.M. Behrends|Vitamin D3 Supplementation of Cull Cows:  Effects on Longissimus and Semitendinosus Muscle Tenderness|J. Anim. Sci.82(1): 225-230|2004|10.2527/2004.821225x
75899|T||Umarani,R., A. Bharathi, and T.V. Karivaratharaju|Effect of Seed Treatments on Storage Life of Casuarina equisetifolia|J. Trop. For. Sci.10(1): 18-23|1997|
75900|T||Kostyk,B.C., and K.W. Wanner|Control of Insect Damage to Black Spruce Seed Cones with Neem|North. J. Appl. For.14(1): 40-43|1997|10.1093/njaf/14.1.40
75901|T||Smith,C.M., H.F. DeLuca, Y. Tanaka, and K.R. Mahaffey|Effect of Lead Ingestion on Functions of Vitamin D and Its Metabolites|J. Nutr.111(8): 1321-1329|1981|10.1093/jn/111.8.1321
75902|T||Shuen,S.K., and J.A. Buswell|Effect of Lignin Derived Phenols and Their Methylated Derivatives on the Growth of Lentinus spp.|Lett. Appl. Microbiol.15(1): 12-14|1992|10.1111/j.1472-765X.1992.tb00711.x
75903|T||Shibata,M.A., M. Hirose, M. Kagawa, P. Boonyaphiphat, and N. Ito|Enhancing Effect of Concomitant L-Ascorbic Acid Administration on BHA-Induced Forestomach Carcinogenesis in Rats|Carcinogenesis14(2): 275-280|1993|10.1093/carcin/14.2.275
75904|T||Shimizu,A., Y. Nakamura, M. Harada, T. Ono, K. Sato, T. Inoue, and M. Kanisawa|Positive Foci of Glutathione S-Transferase Placental Form in the Liver of Rats Given Furfural by Oral Administration|Jpn. J. Cancer Res.80(7): 608-611|1989|10.1111/j.1349-7006.1989.tb01684.x
75905|T||Wang,X., N. Hauptmann, E. Taylor, M. Foreman, L.A. Khawli, and M.D. Maines|Neotrofin Increases heme Oxygenase-1 Selectively in Neurons|Brain Res.962(1-2): 1-14|2003|10.1016/S0006-8993(02)03670-3
75906|T||Menkissoglu-Spiroudi,U., N.J. Xanthopoulou, and P.M. Ioannidis|Dissipation of the Fungicide Tetraconazole from Field-Sprayed Sugar Beets|J. Agric. Food Chem.46(12): 5342-5346|1998|10.1021/jf980370v
75908|A||El-Sheekh,M.M.|Inhibition of Photosystem II in the Green Alga Scenedesmus obliquus by Nickel|Biochem. Physiol. Pflanzen (Multiple Languages)188(6): 363-372|1993|10.1016/S0015-3796(11)80139-3
75909|A||Soto,M., M.P. Cajaraville, and I. Marigomez|Tissue and Cell Distribution of Copper, Zinc and Cadmium in the Mussel, Mytilus galloprovincialis, Determined by Autometallography|Tissue Cell28(5): 557-568|1996|10.1016/S0040-8166(96)80058-9
75910|A||Sen,A.K., and M. Bhattacharyya|Studies of Uptake and Toxic Effects of Ni (II) on Salvinia natans|Water Air Soil Pollut.78(1-2): 141-152|1994|10.1007/BF00475673
75911|A||Matsunaga,T., H. Takeyama, T. Nakao, and A. Yamazawa|Screening of Marine Microalgae for Bioremediation of Cadmium-Polluted Seawater|J. Biotechnol.70(1-3): 33-38|1999|10.1016/S0168-1656(99)00055-3
75912|T||Moya,J.L., R. Ros, and I. Picazo|Heavy Metal-Hormone Interactions in Rice Plants:  Effects on Growth, Net Photosynthesis, and Carbohydrate Distribution|J. Plant Growth Regul.14(2): 61-67|1995|10.1007/BF00203115
75913|A||Happe,T., B. Mosler, and J.D. Naber|Induction, Localization and Metal Content of Hydrogenase in the Green Alga Chlamydomonas reinhardtii|Eur. J. Biochem.222(3): 769-774|1994|10.1111/j.1432-1033.1994.tb18923.x
75914|A||Griscom,S.B., N.S. Fisher, R.C. Aller, and B.G. Lee|Effects of Gut Chemistry in Marine Bivalves on the Assimilation of Metals from Ingested Sediment Particles|J. Mar. Res.60(1): 101-120|2002|10.1357/002224002762341267
75915|T||Moya,J.L., R. Ros, and I. Picazo|Influence of Cadmium and Nickel on Growth, Net Photosynthesis and Carbohydrate Distribution in Rice Plants|Photosynth. Res. (Dordr., Online)36(2): 75-80|1993|10.1007/BF00016271
75916|A||Jin,X., D.J. Kushner, and C. Nalewajko|Nickel Uptake and Release in Nickel-Resistant and -Sensitive Strains of Scenedesmus acutus f. alternans (Chlorophyceae)|Environ. Exp. Bot.36(4): 401-411|1996|10.1016/S0098-8472(96)01030-1
75917|A||McHugh,J.P., and J.G. Spanier|Isolation of Cadmium Sensitive Mutants in Chlamydomonas reinhardtii by Transformation/Insertional Mutagenesis|FEMS Microbiol. Lett.124(2): 239-244|1994|10.1111/j.1574-6968.1994.tb07290.x
75918|A||Plekhanov,S.E., and Y.K. Chemeris|Early Toxic Effects of Zinc, Cobalt, and Cadmium on Photosynthetic Activity of the Green Alga Chlorella pyrenoidosa Chick S-39|Biol. Bull.30(5): 506-511|2003|10.1023/A:1025806921291
75919|A||Sreedevi,P., B. Sivaramakrishan, A. Suresh, and K. Radhakrishanaiah|Effect of Nickel on Some Aspects of Protein Metabolism in Selected Organs of the Freshwater Mussel Lamellidens marginalis|Biomed. Environ. Sci.5(3): 208-220|1992|
75920|T||Ros,R., A. Morales, J. Segura, and I. Picazo|In Vivo and In Vitro Effects of Nickel and Cadmium on the Plasmalemma ATPase from Rice (Oryza sativa L.) Shoots and Roots|Plant Sci.83(1): 1-6|1992|10.1016/0168-9452(92)90055-Q
75921|A||Mosulen,S., M.J. Dominguez, J. Vigara, C. Vilchez, A. Guiraum, and J.M. Vega|Metal Toxicity in Chlamydomonas reinhardtii.  Effect on Sulfate and Nitrate Assimilation|Biomol. Eng.20(4-6): 199-203|2003|10.1016/S1389-0344(03)00053-4
75922|A||Mouabad,A., M.A. Fdil, A. Maarouf, and J.C. Pihan|Pumping Behaviour and Filtration Rate of the Freshwater Mussel Potomida littoralis as a Tool for Rapid Detection of Water Contamination|Aquat. Ecol.35(1): 51-60|2001|10.1023/A:1011499325045
75923|A||Danilov,R.A., and N.G.A. Ekelund|Effects of Cu2+, Ni2+, Pb2+, Zn2+ and Pentachlorophenol on Photosynthesis and Motility in Chlamydomonas reinhardtii in Short-Term Exposure Experiments|BMC Ecol.1:10 p.|2001|10.1186/1472-6785-1-1
75924|A||Van Aardt,W.J., and J. Booysen|Water Hardness and the Effects of Cd on Oxygen Consumption, Plasma Chlorides and Bioaccumulation in Tilapia sparrmanii|Water SA30(1): 57-64|2004|10.4314/wsa.v30i1.5027
75925|A||Chow,E.S.H., and S.H. Cheng|Cadmium Affects Muscle Type Development and Axon Growth in Zebrafish Embryonic Somitogenesis|Toxicol. Sci.73(1): 149-159|2003|10.1093/toxsci/kfg046
75926|A||Leung,K.M.Y., A.C. Taylor, and R.W. Furness|Temperature-Dependent Physiological Responses of the Dogwhelk Nucella lapillus to Cadmium Exposure|J. Mar. Biol. Assoc. U.K.80(4): 647-660|2000|10.1017/S0025315400002472
75930|T||Evans,J., N. Dobrowolski, and C. Wallace|Storage of Inoculated and Omethoate-Treated Medic Seed Reduces Effectiveness of Rhizobial inoculant|Aust. J. Exp. Agric.33(1): 49-51|1993|10.1071/EA9930049
75931|A||Dhar,R., H. Dawar, S. Garg, S.F. Basir, and G.P. Talwar|Effect of Volatiles from Neem and Other Natural Products on Gonotrophic Cycle and Oviposition of Anopheles stephensi and An. culicifacies (Diptera:  Culicidae)|J. Med. Entomol.33(2): 195-201|1996|10.1093/jmedent/33.2.195
75932|T||Kennedy,E.R.|The Impact of the Herbicides Glyphosate and 2,4-D on Moose Browse in Conifer Plantations in Northeastern Minnesota|M.S.Thesis, University of Minnesota, St.Paul, MN:37 p.|1986|
75934|T||Amin,T.M., J.A. Sirs, B.V. Allen, and C.M. Colles|Effects of Warfarin on Blood Rheology in Navicular Disease|Res. Vet. Sci.46(3): 308-312|1986|10.1016/S0034-5288(18)30540-X
75935|T||Maiti,P.K., and A. Kar|Dimethoate Inhibits Extrathyroidal 5'-Monodeiodination of Thyroxine to 3,3',5-Triiodothyronine in Mice:  The Possible Involvement of the Lipid Peroxidative Process|Toxicol. Lett.91(1): 1-6|1997|10.1016/S0378-4274(96)03865-9
75936|T||Agnello,A.M., J.R.,Jr. Bradley, and J.W. Van Duyn|Plant-Mediated Effects of Postemergence Herbicides on Pseudoplusia includens|J. Agric. Entomol.3(1): 61-65|1986|
75938|T||Coventry,E., and E.J. Allan|Microbiological and Chemical Analysis of Neem (Azadirachta indica) Extracts:  New Data on Antimicrobial Activity|Phytoparasitica29(5): 441-450|2001|10.1007/BF02981863
75939|T||Narasimhan,V., K. Rajappan, C. Ushamalini, and A.A. Kareem|Efficacy of New EC Formulations of Neem Oil and Pungam Oil for the Management of Sheath Rot Disease of Rice|Phytoparasitica26(4): 301-306|1998|10.1007/BF02981444
75941|T||Gowda,S.K., S.V.S. Verma, A.V. Elangovan, and S.D. Singh|Neem (Azadirachta indica) Kernel Meal in the Diet of White Leghorn Layers|Br. Poult. Sci.39(5): 648-652|1998|10.1080/00071669888520
75942|T||Saravanan,K., and R. Kanakasabai|Laboratory Studies on the Toxicity of Bromadiolone (0.005 %) Against Indian Mole Rat, Bandicota bengalensis (Gray)|J. Environ. Biol.19(4): 299-303|1998|
75943|T||Ali,M.A.|Effects of Cultural Practices on Reducing Field Infestation of Potato Tuber Moth (Phthorimaea operculella) and Greening of Tubers in the Sudan|J. Agric. Sci.121(2): 187-192|1993|10.1017/S0021859600077042
75944|T||Kurtoglu,V., F. Kurtoglu, and B. Coskun|Effects of Boron Supplementation of Adequate and Inadequate Vitamin D3-Containing Diet on Performance and Serum Biochemical Characters of Broiler Chickens|Res. Vet. Sci.71(3): 183-187|2001|10.1053/rvsc.2001.0517
75945|T||Doring,O., and S. Luthje|Inhibition of Trans-Membrane Hexacyanoferrate III Reductase Activity and Proton Secretion of Maize (Zea mays L.) Roots by Thenoyltrifluoroacetone|Protoplasma (Multiple Languages)217(1-3): 3-8|2001|10.1007/BF01289406
75946|T||Huckle,K.R., D.H. Hutson, C.J. Logan, B.J. Morrison, and P.A. Warburton|The Fate of the Rodenticide Flocoumafen in the Rat:  Retention and Elimination of a Single Oral Dose|Pestic. Sci.25(3): 297-312|1989|10.1002/ps.2780250310
75947|T||Whisson,D.A., and T.P. Salmon|Effect of the Timing of Applications and Amount of 0.01% Diphacinone Consumed on Mortality of California Ground Squirrels (Spermophilus beecheyi)|Crop Prot.21(10): 885-889|2002|10.1016/S0261-2194(02)00054-6
75948|T||Saxena,Y.|Toxicity of Wax Blocks Against Rodents in Laboratory and Field Conditions|J. Bombay Nat. Hist. Soc.93(1): 84-86|1996|
75949|T||Godfrey,M.E.R., F.J. Laas, and C.G. Rammell|Acute Toxicity of Brodifacoum to Sheep|N. Z. J. Exp. Agric.13(1): 23-25|1985|10.1080/03015521.1985.10426055
75950|T||Morin,M.F., N. Merlet, G. Naulleau, and M. Dore|Primary Toxicity of Bromadiolone on the Coypu|Bull. Environ. Contam. Toxicol.44(4): 595-601|1990|10.1007/BF01700882
75951|T||Lentza-Rizos,C., and A. Chitzanidis|Residues of Dicloran in Clingstone Peaches After Pre- and Postharvest Application|Bull. Environ. Contam. Toxicol.56(2): 231-239|1996|10.1007/s001289900035
75952|T||Parshad,V.R., and C.S. Malhi|Comparative Efficacy of Two Methods of Delivering an Anticoagulant Rodenticide to Three Species of South Asian Rodents|Int. Biodeterior. Biodegrad.36(1-2): 89-102|1995|10.1016/0964-8305(95)00106-9
75953|T||Hygnstrom,S.E., P.M. McDonald, and D.R. Virchow|Efficacy of Three Formulations of Zinc Phosphide for Managing Black-Tailed Prairie Dogs|Int. Biodeterior. Biodegrad.42(2-3): 147-152|1998|10.1016/S0964-8305(98)00015-8
75954|T||Cabras,P., A. Angioni, V.L. Garau, M. Melis, F.M. Pirisi, F. Cabitza, M. Cubeddu, and E. Minelli|Pesticide Residues in Artichokes:  Effect of Different Head Shape|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(6): 1189-1199|1996|
75955|T||Zalom,F., E. Cullen, D. Walsh, C. Tobia, and D. Larsen|Phytotoxicity of Narrow Range Oil and Sulfur, 1998|Arthropod Manag. Tests24:187-189|1999|
75956|T||Dundjerski,Z.|Outbreaks of Arvicola terrestris in Rice Fields in Yugoslavia|Bull. OEPP/EPPO18(3): 445-452|1988|10.1111/j.1365-2338.1988.tb00398.x
75958|T||Hadjidemetriou,D.G., Y. Iwata, and F.A. Gunther|Analysis and Dissipation of Dislodgable Residues of Acephate, Dimethoate and Formetanate Hydrochloride on Citrus Foliage|Pestic. Sci.16(3): 302-310|1985|10.1002/ps.2780160313
75959|T||Sharma,A., and R.K. Sarbhoy|Cytogenetical Assessment of Chromosomal Aberrations Induced by Dimethoate in Pisum|Acta Bot. Indica18(2): 306-308|1990|
75960|T||Goodwin,S., N. Ahmad, and G. Newell|Dimethoate Spray Residues in Strawberries|Pestic. Sci.16(2): 143-146|1985|10.1002/ps.2780160206
75961|T||Jackai,L.E.N.|The Legume Pod Borer Maruca testulalis, and Its Principal Host Plant, Vigna unguiculata (L.) Walp. - Use of Selective Insecticide Sprays as an Aid in the Identification of Useful Levels of Resistance|Crop Prot.14(4): 299-306|1995|10.1016/0261-2194(94)00021-Y
75962|T||Moretti,M., A. Arnoldi, A. D'Agostina, G. Farina, and F. Gozzo|Characterization of Field-Isolates and Derived DMI-Resistant Strains of Cercospora beticola|Mycol. Res.107(10): 1178-1188|2003|10.1017/S0953756203008396
75963|T||Gullino,M.L.|Strobilurins for the Control of Diseases of Vegetable and Ornamental Crops in Italy|Br. Crop Prot. Conf. Pests Dis.2:747-754|2000|
75964|T||Garavaglia,C., L. Mirenna, O. Puppin, and E. Spagni|M 14360, a New Broad-Spectrum and Versatile Antifungal Triazole|Br. Crop Prot. Conf. Pests Dis.1:49-56|1988|
75965|T||Kendall,S.J., D.W. Hollomon, and D.A. Stormonth|Towards the Rational Use of Triazole Mixtures for Cereal Disease Control|Br. Crop Prot. Conf. Pests Dis.:549-556|1994|
75966|T||Wojdyla,A.T.|Chemical Control of Rose Diseases V. Effectiveness of Fungicides in the Control of Powdery Mildew on Rose cv Mercedes in Greenhouse|J. Fruit Ornam. Plant Res.7(1): 47-54|1999|
75967|T||Van Leeuwen,T., V. Stillatus, and L.U.C. Tirry|Genetic Analysis and Cross-Resistance Spectrum of a Laboratory-Selected Chlorfenapyr Resistant Strain of Two-Spotted Spider Mite (Acari:  Tetranychidae)|Exp. Appl. Acarol.32(4): 249-261|2004|10.1023/B:APPA.0000023240.01937.6d
75968|T||Hardman,J.M., J.L. Franklin, D.L. Moreau, and N.J. Bostanian|An Index for Selective Toxicity of Miticides to Phytophagous Mites and Their Predators Based on Orchard Trials|Pest Manag. Sci.59(12): 1321-1332|2003|10.1002/ps.769
75969|T||Gilley,A., and R.A. Fletcher|Relative Efficacy of Paclobutrazol, Propiconazole and Tetraconazole as Stress Protectants in Wheat Seedlings|Plant Growth Regul.21(3): 169-175|1997|10.1023/A:1005804717016
75970|T||Shimizu,A., and M. Kanisawa|Experimental Studies on Hepatic Cirrhosis and Hepatocarcinogenesis I.  Production of Hepatic Cirrhosis by Furfural Administration|Acta Pathol. Jpn.36(7): 1027-1038|1986|10.1111/j.1440-1827.1986.tb00212.x
75971|T||Shimizu,A.|Experimental Studies on Hepatic Cirrhosis and Hepatocarcinogenesis II.  Influence of Cirrhotic Liver of 2-FAA Hepatocarcinogenesis in Rats|Acta Pathol. Jpn.36(7): 1039-1048|1986|10.1111/j.1440-1827.1986.tb00213.x
75972|T||Lake,B.G., A.J. Edwards, R.J. Price, B.J. Phillips, A.B. Renwick, J.A. Beamand, and T.B. Adams|Lack of Effect of Furfural on Unscheduled DNA Synthesis in the In Vivo Rat and Mouse Hepatocyte DNA Repair Assays and in Precision-Cut Human Liver Slices|Food Chem. Toxicol.39(10): 999-1011|2001|10.1016/S0278-6915(01)00050-3
75973|AT||Oka,Y.|Nematicidal Activity of Essential Oil Components Against the Root-Knot Nematode Meloidogyne javanica|Nematology3(2): 159-164|2001|10.1163/156854101750236286
75975|T||Rodriguez-Kabana,R., J.W. Kloepper, C.F. Weaver, and D.G. Robertson|Control of Plant Parasitic Nematodes with Furfural - a Naturally Occurring Fumigant|Nematropica23:63-73|1993|
75976|T||Bauske,E.M., R. Rodriguez-Kabana, V. Estaun, J.W. Kloepper, D.G. Robertson, C.F. Weaver, and P.S. King|Management of Meloidogyne incognita on Cotton by Use of Botanical Aromatic Compounds|Nematropica24(2): 143-150|1994|
75977|T||Nasr,I.N., and M.M. Al-Maz|Capillary Gas Chromatography Determination of Tetraconazole Fungicide on and in Sugar-Beet Plants and Its Stability Under Environmental Conditions|Alex. Sci. Exch.25(1): 145-154|2004|
75978|T||Ghosh,J., and B. Nandi|Preservation of High-Moisture Wheat by Some Antifungal Volatile Compounds and Palatability Tests with Rats|Acta Agric. Scand.35(3): 245-254|1985|10.1080/00015128509435780
75979|T||Wachendorff,U., E. Bruck, A. Elbert, R. Fischer, R. Nauen, N. Stumpf, and R. Tiemann|BAJ2740, a Novel Broad Spectrum Acaricide|Br. Crop Prot. Conf. Pests Dis.1:53-58|2000|
75980|T||Peterson,M.A., D.F. Biggs, and T.H. Aaron|Comparison of the Effects of Aspirin, Indomethacin and Tartrazine on Dynamic Pulmonary Compliance and Flow Resistance in the Guinea Pig|Proc. West. Pharmacol. Soc.23:121-124|1980|
75981|T||Parkash,M.K., and J. Caldwell|Metabolism and Excretion of (14C)Furfural in the Rat and Mouse|Food Chem. Toxicol.32(10): 887-895|1994|10.1016/0278-6915(94)90086-8
75982|T||Maffi,D., M. Bassi, A. Brambilla, and C.G. Conti|Possible Role of Chitosan in the Interaction Between Barley and Erysiphe graminis After Tetraconazole Treatment|Mycol. Res.102(5): 599-606|1998|10.1017/S0953756297005327
75983|T||Khalfallah,S., U. Menkissoglu-Spiroudi, and H.A. Constantinidou|Dissipation Study of the Fungicide Tetraconazole in Greenhouse-Grown Cucumbers|J. Agric. Food Chem.46(4): 1614-1617|1998|10.1021/jf9706540
75984|T||Standeven,A.M., M. Escobar, R.L. Beard, Y.D. Yuan, and R.A.S. Chandraratna|Mitogenic Effect of Retinoid X Receptor Agonists in Rat Liver|Biochem. Pharmacol.54(4): 517-524|1997|10.1016/S0006-2952(97)00209-8
75985|T||Kingston,A.E., K. Griffey, M.P. Johnson, M.J. Chamberlain, G. Kelly, R. Tomlinson, R.A. Wright, B.G. Johnson, D.D. Scho|Inhibition of Group I Metabotropic Glutamate Receptor Responses In Vivo in Rats by a New Generation of Carboxyphenylglycine-Like Amino Acid Antagonists|Neurosci. Lett.330(2): 127-130|2002|10.1016/S0304-3940(02)00751-6
75986|T||Magnusson,A.K., and R. Tham|Vestibulo-Oculomotor Behaviour in Rats Following a Transient Unilateral Vestibular Loss Induced by Lidocaine|Neuroscience120(4): 1105-1114|2003|10.1016/S0306-4522(03)00407-X
75987|T||Bui,B.V., A.J. Vingrys, J.W. Wellard, and M. Kalloniatis|Monocarboxylate Transport Inhibition Alters Retinal Function and Cellular Amino Acid Levels|Eur. J. Neurosci.20(6): 1525-1537|2004|10.1111/j.1460-9568.2004.03601.x
75988|T||Kuwabara,K., H. Jyoyama, J.H. Fleisch, and Y. Hori|Inhibition of Antigen-Induced Arthritis in Guinea Pigs by a Selective LTB4 Receptor Antagonist LY293111Na|Inflamm. Res.51(11): 541-550|2002|10.1007/PL00012425
75989|T||Rana,B.D.|Evaluation of Certain Stupefying Chemicals Against House Sparrow (Passer domesticus)|Pavo30(1-2): 61-66|1992|
75991|T||Shinozaki,M., E. Ueno, M. Fujinami, and K. Kasuya|Biochemistry of Short-Day and Long-Day Flowering in Pharbitis nil|J. Jpn. Soc. Hortic. Sci.67(6): 1134-1138|1998|10.2503/jjshs.67.1134
75992|T||Biggs,D.F., M.A. Peterson, and T.H. Aaron|Tartrazine Induced Airway Constriction in Anesthetized, Paralyzed Guinea-Pigs|Proc. West. Pharmacol. Soc.24:363-365|1981|
75993|T||Uraih,N., and S. Offonry|Inhibition of Aflatoxin Production in Groundnut with Benzoic Acid Derivatives and Possible Toxic Effects of Their Aromatic Residues|Microbios31(124): 93-102|1981|
75994|T||Jensen,P.K.|Split Application of Herbicides in Peas|Weed Res. (Multiple Languages)32(4): 295-302|1992|10.1111/j.1365-3180.1992.tb01889.x
75995|A||Takiguchi,N., T. Tajima, K. Asayama, T. Ikeda, A. Kuroda, J. Kato, and H. Ohtake|Behavioral Responses of the Ciliated Protozoan Paramecium caudatum to 2,4-Dichlorophenoxyacetic Acid and Its Analogues|J. Biosci. Bioeng.93(4): 416-420|2002|10.1016/S1389-1723(02)80077-9
75996|T||Aldridge,W.N., R.D. Verschoyle, and J.A. Peal|O,S,S-Trimethyl Phosphorodithioate and O,O,S-Triethyl Phosphorothioate:  Pharmacokinetics in Rats and Effect of Pretreatment with Compounds Affecting the Drug Processing Systems|Pestic. Biochem. Physiol.21(2): 265-274|1984|10.1016/0048-3575(84)90063-4
75997|T||Wing,K.D., A.H. Glickman, and J.E. Casida|Phosphorothiolate Pesticides and Related Compounds:  Oxidative Bioactivation and Aging of the Inhibited Acetylcholinesterase|Pestic. Biochem. Physiol.21(1): 22-30|1984|10.1016/0048-3575(84)90070-1
75998|T||McIlroy,J.C., and E.J. Gifford|The `Judas' Pig Technique:  A Method that Could Enhance Control Programmes Against Feral Pigs, Sus scrofa|Wildl. Res.24(4): 483-491|1997|10.1071/WR96109
75999|T||Higuchi,S.|Vole Control by Rodenticides in Afforested Land|Rev. Plant Prot. Res.14:169-186|1981|
76000|T||Sheikher,C., and S.D. Jain|Damage and Hoarding by Rodents and Their Control in Standing Wheat in Himachal Pradesh (India)|Trop. Pest Manag.37(3): 298-300|1991|10.1080/09670879109371603
76001|T||Rao,M.S., P.P. Reddy, and G. Chawla|Potential Use of Botanicals for the Development of Formulation of the Bio-control Fungus Verticillium lecanii (Zimm.) Viegas (Potentielle Verwendung von Pflanzlichen Ruckstanden fur die Entwicklung von Formulierungen fu|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)103(4): 436-439|1996|
76002|T||Rai,R.S., P. Lal, and P.K. Srivastava|Studies on Comparative Efficacy of Some Anticoagulants in the Laboratory and Field Conditions|Pesticides 21(7): 27-30|1987|
76003|T||Vats,R., and S.N. Nandal|Efficacy of Differently Prepared Leaf Extracts of Eucalyptus and Neem as Bare-Root-Dip Treatment of Tomato Seedlings Against Meloidogyne javanica|Crop Res. (Hisar)7(1): 125-128|1994|
76004|T||Srinivas,T., K.C. Rao, and C. Chattopadhayay|Effect of Botanicals and Chemicals on the Management of Blight (Alternaria alternata; Alternaria helianthi) of Sunflower (Helianthus annuus)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)104(5): 523-527|1997|
76005|T||Akhtar,M., and I. Mahmood|Control of Root-Knot Nematode Meloidogyne incognita in Tomato Plants by Seed Coating with Suneem and Neem Oil|J. Pestic. Sci. (Multiple Languages)22(1): 37-38|1997|10.1584/jpestics.22.37
76006|T||Pahwa,R.|Warfarin Toxicity Augmenters - Indomethacin and Atromid-S, Laboratory Studies in the Black Rat, in Rattus rattus Linn.|Z. Angew. Zool. (Multiple Languages)76(2): 189-194|1989|
76007|T||Steinhauer,B.|Fungicidal Activity of Commercial Neem Products|In: H.Kleeberg (Ed.), Practice Oriented Results on Use and Production of Neem-Ingredients and Pheromones, Hohensolms, Germany:105-108|1996|
76008|T||Antonious,G.F., C.M. Lee, and J.C. Snyder|Sustainable Soil Management Practices and Quality of Potato Grown on Erodible Lands|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(4): 435-444|2001|
76009|T||Harrington,D.D., and E.H. Page|Acute Vitamin D3 Toxicosis in Horses:  Case Reports and Experimental Studies of the Comparative Toxicity of Vitamins D2 and D3|J. Am. Vet. Med. Assoc.182(12): 1358-1369|1983|
76010|T||Sundaram,K.M.S.|Root Uptake, Translocation, Accumulation and Dissipation of the Botanical Insecticide, Azadirachtin, in Young Spruce Trees|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(6): 1289-1306|1996|
76012|T||Valles,S.M., and J.L. Capinera|Response of Larvae of the Southern Armyworm, Spodoptera eridania (Cramer) (Lepidoptera:  Noctuidae), to Selected Botanical Insecticides and Soap|J. Agric. Entomol.10(3): 145-153|1993|
76013|T||Zhu,C., P. Vourc'h, P.O. Fernagut, S.M. Fleming, S. Lacan, C.D. DiCarlo, R.L. Seaman, and M.F. Chesselet|Variable Effects of Chronic Subcutaneous Administration of Rotenone on Striatal Histology|J. Comp. Neurol.478(4): 418-426|2004|10.1002/cne.20305
76014|T||Abdo,K.M., S.L. Eustis, J. Haseman, J.E. Huff, A. Peters, and R. Persing|Toxicity and Carcinogenicity of Rotenone Given in the Feed to F344/N Rats and B6C3F1 Mice for up to Two Years|Drug Chem. Toxicol.11(3): 225-235|1988|10.3109/01480548809017879
76015|A||Tanaka,F., and M. Nishida|Inhibitory Effects of Aromatic Acids on Nitrogen Uptake and Transport in Rice (Oryza sativa L.) Plants Cultured on Hydroponics|Soil Sci. Plant Nutr.44(4): 691-694|1998|10.1080/00380768.1998.10414494
76016|A||Stefanidou,M., G. Alevisopoulos, A. Chatziioannou, and A. Koutselinis|Assessing Food Additive Toxicity Using a Cell Model|Vet. Hum. Toxicol.45(2): 103-105|2003|
76017|T||Maekawa,A., C. Matsuoka, H. Onodera, H. Tanigawa, K. Furuta, J. Kanno, J.J. Jang, Y. Hayashi, and T. Ogiu|Lack of Carcinogenicity of Tartrazine (FD and C Yellow No. 5) in the F344 Rat|Food Chem. Toxicol.25(12): 891-896|1987|10.1016/0278-6915(87)90281-X
76018|T||Borzelleca,J.F., K. Depukat, and J.B. Hallagan|Lifetime Toxicity/Carcinogenicity Studies of FD-and-C Blue No. 1 (Brilliant Blue FCF) in Rats and Mice|Food Chem. Toxicol.28(4): 221-234|1990|10.1016/0278-6915(90)90034-K
76019|T||Borzelleca,J.F., and J.B. Hallagan|A Chronic Toxicity/Carcinogenicity Study of FD & C Yellow No. 5 (Tartrazine) in Mice|Food Chem. Toxicol.26(3): 189-194|1988|10.1016/0278-6915(88)90118-4
76020|T||Borzelleca,J.F., and J.B. Hallagan|Chronic Toxicity/Carcinogenicity Studies of FD & C Yellow No. 5 (Tartrazine) in Rats|Food Chem. Toxicol.26(3): 179-187|1988|10.1016/0278-6915(88)90117-2
76021|T||Collins,T.F.X., T.N. Black, L.H. Brown, and P. Bulhack|Study of the Teratogenic Potential of FD and C Yellow No. 5 when Given by Gavage to Rats|Food Chem. Toxicol.28(12): 821-827|1990|10.1016/0278-6915(90)90055-R
76022|T||Collins,T.F.X., T.N. Black, M.W.,Jr. O'Donnell, and P. Bulhack|Study of the Teratogenic Potential of FD & C Yellow No. 5 when Given in Drinking-Water|Food Chem. Toxicol.30(4): 263-268|1992|10.1016/0278-6915(92)90002-3
76023|A||Bretaud,S., S. Lee, and S. Guo|Sensitivity of Zebrafish to Environmental Toxins Implicated in Parkinson's Disease|Neurotoxicol. Teratol.26(6): 857-864|2004|10.1016/j.ntt.2004.06.014
76024|T||Alam,M., and W.J. Schmidt|Rotenone Destroys Dopaminergic Neurons and Induces Parkinsonian Symptoms in Rats|Behav. Brain Res.136(1): 317-324|2002|10.1016/S0166-4328(02)00180-8
76025|A||Toxscan Inc.|Results of Provision E5F Spiked Metals Toxicity Testing 2 to 9 April 1991|"Prepared for Kinnetic Lab.Inc.for ""Site-Specific Water Quality Objectives for South San Francisco Bay"" Report by Larry Walker Assoc.and Kinnetic Lab.Under Subcontract to CH2M Hill:42 p."|1991|
76032|T||Boucher,J., R. Adams, and G. Nixon|Squash Vine Borer Control, 1992|Arthropod Manag. Tests19:144-|1994|
76033|T||Kaushik,P., and P. Khanna|Insecticidal Substances from In Vivo and In Vitro Tissue Culture of Abrus precatorius L.|Adv. Plant Sci.5(2): 464-469|1992|
76034|T||Tanaka,T., H. Kohno, K. Sakata, Y. Yamada, Y. Hirose, S. Sugie, and H. Mori|Modifying Effects of Dietary Capsaicin and Rotenone on 4-Nitroquinoline 1-Oxide-Induced Rat Tongue Carcinogenesis|Carcinogenesis23(8): 1361-1367|2002|10.1093/carcin/23.8.1361
76035|T||Antkiewicz-Michaluk,L., J. Wardas, J. Michaluk, I. Romaska, A. Bojarski, and J. Vetulani|Protective Effect of 1-Methyl-1,2,3,4-Tetrahydroisoquinoline Against Dopaminergic Neurodegeneration in the Extrapyramidal Structures Produced by Intracerebral Injection of Rotenone|Int. J. Neuropsychopharmacol.7(2): 155-163|2004|10.1017/S1461145703004036
76036|T||De Maeyer,L., D. Peeters, J.M. Wijsmuller, A. Cantoni, E. Brueck, and S. Heibges|Spirodiclofen:  A Broad-Spectrum Acaricide with Insecticidal Properties:  Efficacy on Psylla pyri and Scales Lepidosaphes ulmi and Quadraspidiotus perniciosus|Br. Crop Prot. Conf. Pests Dis.1:65-72|2002|
76037|T||Munoz,E.R., and B. Mazar Barnett|Meiotic Nondisjunction Induced by Furfural in Drosophila melanogaster Females|Environ. Mol. Mutagen.34(1): 61-63|1999|10.1002/(SICI)1098-2280(1999)34:1<61::AID-EM10>3.0.CO;2-F
76038|T||Rodriguez-Arnaiz,R., P.R. Morales, and S. Zimmering|Evaluation in Drosophila melanogaster of the Mutagenic Potential of Furfural in the mei-9a Test for Chromosome Loss in Germ-Line Cells and the Wing Spot Test for Mutational Activity in Somatic Cells|Mutat. Res.280(2): 75-80|1992|10.1016/0165-1218(92)90001-G
76039|T||Usta,M.F., T.J. Bivalacqua, I.T. Koksal, B. Toptas, S. Surmen, and W.J.G. Hellstrom|The Protective Effect of Aminoguanidine on Erectile Function in Diabetic Rats is not Related to the Timing of Treatment|BJU Int.94(3): 429-432|2004|10.1111/j.1464-410X.2004.04937.x
76040|T||Carelli,A., G. Farina, F. Gozzo, L. Merlini, and S.L. Kelly|Interaction of Tetraconazole and Its Enantiomers with Cytochrome P450 from Ustilago maydis|Pestic. Sci.35(2): 167-170|1992|10.1002/ps.2780350211
76041|T||Watanabe,K., M. Matsuda, S. Furuhashi, T. Kimura, T. Matsunaga, and I. Yamamoto|Skin Reaction Induced by Aldehydes for Food Flavoring Agents|J. Health Sci.47(3): 327-329|2001|10.1248/jhs.47.327
76042|T||Singh,S.K., and S. Chakravarty|Effect of Nitrofurazone on the Reproductive Organs in Adult Male Mice|Asian J. Androl.3(1): 39-44|2001|
76043|T||Philbrook,B.D., M. Kremer, K.H. Mueller, and R. Deege|BAY MKH 3586 - a New Herbicide for Broad Spectrum Weed Control in Corn (Maize) and Sugar Cane|Br. Crop Prot. Conf. Weeds1:29-34|1999|
76044|A||Inchausty,V.H., and R.A. Heckmann|Evaluation of Fish Diplostomatosis in Strawberry Reservoir Following Rotenone Application:  A Five-Year Study|Great Basin Nat.57(1): 44-49|1997|
76045|T||Datta,G., and T. Bera|The Effects of Clofazimine, Niclosamide & Amphotericin B, on Electron Transport of Leishmania donovani Promastigotes|Indian J. Med. Res.112:15-20|2000|
76046|T||Silbaugh,S.A., P.W. Stengel, S.L. Cockerham, L.L. Froelich, A.M. Bendele, S.M. Spaethe, M.J. Sofia, J.S. Sawyer, and W.|Pharmacologic Actions of the Second Generation Leukotriene B4 Receptor Antagonist LY29311:  In Vivo Pulmonary Studies|Naunyn-Schmiedeberg's Arch. Pharmacol.361(4): 397-404|2000|10.1007/s002109900211
76047|T||Chung,W.Y., J.M. Lee, W.Y. Lee, Y.J. Surh, and K.K. Park|Protective Effects of Hemin and Tetrakis(4-Benzoic Acid)Porphyrin on Bacterial Mutagenesis and Mouse Skin Carcinogenesis Induced by 7,12-Dimethylbenz[a]anthracene|Mutat. Res.472(1-2): 139-145|2000|10.1016/S1383-5718(00)00137-6
76048|T||Giri,A.K., S.K. Das, G. Talukder, and A. Sharma|Sister Chromatid Exchange and Chromosome Aberrations Induced by Curcumin and Tartrazine on Mammalian Cells In Vivo|Cytobios62(249): 111-117|1990|
76049|T||Tripathy,N.K., K.K. Patnaik, and M.J. Nabi|Genotoxicity of Tartrazine Studied in Two Somatic Assays of Drosophila melanogaster|Mutat. Res.224(4): 479-483|1989|10.1016/0165-1218(89)90073-6
76050|T||Sobotka,T.J., R.E. Brodie, and S.L. Spaid|Tartrazine and the Developing Nervous System of Rats|J. Toxicol. Environ. Health2(5): 1211-1220|1977|10.1080/15287397709529519
76051|T||Ershoff,B.H.|Effects of Diet on Growth and Survival of Rats Fed Toxic Levels of Tartrazine (FD & C Yellow No. 5) and Sunset Yellow FCF (FD & C Yellow No. 6)|J. Nutr.107(5): 822-828|1977|10.1093/jn/107.5.822
76052|T||Khera,K.S., C. Whalen, and G. Angers|Teratogenicity Study on Pyrethrum and Rotenone (Natural Origin) and Ronnel in Pregnant Rats|J. Toxicol. Environ. Health10(1): 111-119|1982|10.1080/15287398209530235
76053|T||Guadano,A., C. Gutierrez, E. De la Pena, D. Cortes, and A. Gonzalez-Coloma|Insecticidal and Mutagenic Evaluation of Two Annonaceous Acetogenins|J. Nat. Prod.63(6): 773-776|2000|10.1021/np990328+
76054|A||Waller,D.L., S.W. Fisher, and H. Dabrowska|Prevention of Zebra Mussel Infestation and Dispersal During Aquaculture Operations|Prog. Fish-Cult.58(2): 77-84|1996|10.1577/1548-8640(1996)058<0077:POZMIA>2.3.CO;2
76055|T||Gregorc,A., and J. Poklukar|Rotenone and Oxalic Acid as Alternative Acaricidal Treatments for Varroa destructor in Honeybee Colonies|Vet. Parasitol.111(4): 351-360|2003|10.1016/S0304-4017(02)00408-9
76056|T||Stone,H.B., and M.S. Sinesi|Testing of new Hypoxic Cell Sensitizers In Vivo|Radiat. Res.91(1): 186-198|1982|10.2307/3575826
76057|T||Bhuiyan,K.R., E. Hassan, and M.B. Isman|Growth Inhibitory and Lethal Effects of Some Botanical Insecticides and Potential Synergy by Dillapiol in Spodoptera litura (Fab.) (Lepidoptera:  Noctuidae)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)108(1): 82-88|2001|
76058|T||McDaniel,K.C., B.L. Wood, and L. Murray|Broom Snakeweed Control and Seed Damage After Herbicide Applications|J. Range Manag.55(6): 604-611|2002|10.2307/4004004
76059|T||Bayer Corp.|Initial Submission:  1st Amendment to Report No.26536, BAJ 2740, Subchronic Toxicity Study in CD-1 Mice (13-Week Feeding Study), with TSCA Health & Safety Study CVR Sht Dated 1/13/1999|EPA/OTS Doc.#88990000076:377 p.|1999|
76060|T||Eiben,R.|BAJ 2740 One-Generation Study in Wistar Rats, with TSCA Health & Safety Study CVR Sheet Dated 2/16/99|Bayer AG, Krefeld, Germany:172 p.|1999|
76061|T||Bayer Corp.|Initial Submission:  Subacute Dog Study of 3-(2,4-Dichlorophenyl)-2-oxo-1-Oxaspiro (4.5)-3-en-4-yl Ester,2,2-Dimethyl-Butano*, w/TSCA Health & Safety Study Cover Sheet Dated 06/16/99|Bayer AG, Wuppertal, Germany:4 p.|1999|
76062|T||Bayer Corp.|A Developmental Toxicity Study with MKH 3586 Technical in the Sprague-Dawley Rat, with TSCA Health & Safety Study Dated 07/20/99|EPA/OTS Doc.#88990000235:582 p.|1999|
76063|T||Holzum,D.|Support: MKH 3586, Additional Developmental Toxicity Study in Rabbits After Oral Administration, with TSCA Health & Safety Study Cover Sheet Dated 5/24/1999|EPA/OTS Doc.#88990000210, Bayer AG Study No.T6067139, Bayer Corp., Germany:385 p.|1999|
76064|T||Bayer Corp.|Technical Grade MKH 3586: A Chronic Toxicity Feeding Study in the Beagle Dog, with TSCA Health & Safety Study Cover Sheet Dated 09/03/99|EPA/OTS Doc.#88900000309, Study No.97-276-MU, Bayer Corporation, Stilwell, KS:1063 p.|1999|
76065|T||Bayer Corp.|Initial Submission: Technical Grade MKH 3586, a Combined Chronic Toxicity/Oncogenicity Testing Study in the Rat, with TSCA Health & Safety Study Cvr Sht Dated 111099|EPA/OTS Doc.#88000000032:4665 p.|1999|
76066|A||Vijayaraman,K., G. John, P. Sivakumar, and R.R. Mohamed|Accumulation and Depuration of Heavy Metals by Freshwater Prawn Macrobrachium malcolmsonii (Milne Edwards)|Indian J. Exp. Biol.36(11): 1120-1124|1998|
76067|A||Witeska,M., and I. Baka|The Effect of Long-Term Cadmium Exposure on Common Carp Blood|Fresenius Environ. Bull.11(12a): 1059-1065|2002|
76068|A||Bascik-Remisiewicz,A., and Z. Tukaj|Toxicity of Inorganic Cadmium Salts to the Microalga Scenedesmus armatus (Chlorophyta) with Respect to Medium Composition, pH and CO2 Concentration|Acta Physiol. Plant.24(1): 59-65|2002|10.1007/s11738-002-0022-8
76069|A||Kaur,K., and K. Bajwa|Effect of Zinc and Cadmium on Early Life Stages of Common Carp, Cyprinus carpio Linn.|Ann. Biol.3(2): 28-33|1987|
76070|A||Reddy,G.N., and M.N.V. Prasad|Cadmium Toxicity of Scenedesmus quadricauda:  Proteins and Protein Phosphorylation Changes|Biochem. Arch.10(3): 185-188|1994|
76071|A||Husaini,Y., L.C. Rai, and N. Mallick|Impact of Aluminium, Fluoride and Fluoroaluminate Complex on ATPase Activity of Nostoc linckia and Chlorella vulgaris|BioMetals9(3): 277-283|1996|10.1007/BF00817928
76072|A||Noraho,N., and J.P. Gaur|Effect of Cations, Including Heavy Metals, on Cadmium Uptake by Lemna polyrhiza L.|BioMetals8(2): 95-98|1995|
76073|T||Hilmy,A.M., N.A. El Domiaty, A.Y. Daabees, A.M. Awadallah, and E.M. Abu Taleb|Some Physiological and Haematological Anomalies in the Toads Following Administration of Cobalt and Nickel|J. Med. Res. Inst.11(3): 81-96|1990|
76074|A||Wang,Q., Y. Cui, and Y. Dong|Phytoremediation of Polluted Waters Potentials and Prospects of Wetland Plants|Acta Biotechnol.22(1-2): 199-208|2002|10.1002/1521-3846(200205)22:1/2<199::AID-ABIO199>3.0.CO;2-T
76075|A||Berntssen,M.H.G., A.K. Lundebye, and K. Hamre|Tissue Lipid Peroxidative Responses in Atlantic Salmon (Salmo salar L.) Parr Fed high Levels of Dietary Copper and Cadmium|Fish Physiol. Biochem.23(1): 35-48|2000|10.1023/A:1007894816114
76077|A||MacLean,N., C. Woodall, and F. Crossley|Injection of the Mouse MT-1 Gene into Rainbow Trout Eggs and Assay of Trout Fry for Resistance to Cadmium and Zinc Toxicity|In: J.H.R.Kagi and Y.Kojima (Eds.), Experientia Suppl., Volume 52, Metallothionein II, 2nd Int.Meet.on Metallothionein and Other Low Molecular Weight Metal-Binding Proteins, Aug.21-24, 1985, Zurich, Switzerland, Birkhaeuser Verlag, Basel, Switzerland:471-|1987|
76078|A||Lin,K.H., J.H. Yen, and Y.S. Wang|Accumulation and Elimination Kinetics of Herbicides Butachlor, Thiobencarb and Chlomethoxyfen by Aristichthys nobilis|Pestic. Sci.49(2): 178-184|1997|10.1002/(SICI)1096-9063(199702)49:2<178::AID-PS524>3.0.CO;2-N
76079|A||Van Cleef-Toedt,K.A., L.A.E. Kaplan, and J.F. Crivello|Metallothionein mRNA Expression in Spawning and Non-spawning Fundulus heteroclitus Following Acute Exposure to Starvation and Waterborne Cadmium|Fish Physiol. Biochem.22(4): 319-327|2000|10.1023/A:1007854106269
76080|A||Mullins,J.E., R.A. Fredrickson, I.C. Fuentealba, and R.J.F. Markham|Purification and Partial Characterization of a Cadmium-Binding Protein from the Liver of Rainbow Trout (Onchorynchus mykiss)|Can. J. Vet. Res.63(4): 225-229|1999|
76081|A||James,R., and K. Sampath|Effect of EDTA on Reduction of Cadmium Level in Water and Improvement of Haematological Parameters in Oreochromis mossambicus (Peters)|Acta Hydrobiol.41(1): 37-43|1999|
76082|A||Auclair,J.C., P. Couture, and C. Thellen|A Method to Distinguish Microbial Accumulation from Reduced Growth Rates in Perturbed Ecosystems|FEMS Microbiol. Ecol.62(2): 137-142|1989|10.1111/j.1574-6968.1989.tb03666.x
76083|A||Kaviraj,A., and T.K. Ghosal|Effects of Poultry Litter on the Chronic Toxicity of Cadmium to Common Carp (Cyprinus carpio)|Bioresour. Technol.60(3): 239-243|1997|10.1016/S0960-8524(97)00018-7
76084|A||Anthony,K., and B. Patel|Combined Effect of Salinity and Cadmium in the Presence of Other Metals (Zn & Cu) and GSH on Lysosomal Responses in an Arcid Blood Clam Anadara granosa|Indian J. Fish.47(4): 311-319|2000|
76085|A||Chen,B.L., Q. Huang, X.J. Lin, Q.Q. Shi, and S.G. Wu|Accumulation of Ag, Cd, Co, Cu, Hg, Ni and Pb in Pavlova viridis Tseng (Haptophyceae)|J. Appl. Phycol.10(4): 371-376|1998|10.1023/A:1008048410419
76086|T||Daabees,A.Y., A.M. Hilmy, N.A. El Domiaty, A.M. Awadallah, and E.M. Abu Taleb|Comparisons of Antidotal Efficacy of EDTA, 2,3,2 Tet or Cyclam upon Acute Toxicity, Distribution, Excretion and Some Blood Parameters of Cobalt and Nickel Poisoned Toads|J. Med. Res. Inst.11(3): 97-119|1990|
76087|T||Cervera,A., A.C. Maymo, R. Martinez-Pardo, and M.D. Garcera|Antioxidant Enzymes in Oncopeltus fasciatus (Heteroptera: Lygaeidae) Exposed to Cadmium|Environ. Entomol.32(4): 705-710|2003|10.1603/0046-225X-32.4.705
76088|A||Mallick,N., S. Pandey, and L.C. Rai|Involvement of a Cadmium-Induced Low Molecular Weight Protein in Regulating Cadmium Toxicity in the Diazotrophic Cyanobacterium Anabaena doliolum|BioMetals7(4): 299-304|1994|
76089|A||Mkandawire,M., Y.V. Lyubun, P.V. Kosterin, and E.G. Dudel|Toxicity of Arsenic Species to Lemna gibba L. and the Influence of Phosphate on Arsenic Bioavailability|Environ. Toxicol.19(1): 26-34|2004|10.1002/tox.10148
76090|A||Bury,N.R., and C.M. Wood|Mechanism of Branchial Apical Silver Uptake by Rainbow Trout is via the Proton-Coupled Na+ Channel|Am. J. Physiol., Regul. Integr. Comp. Physiol.277(5, Pt. 2): 1385-1391|1999|10.1152/ajpregu.1999.277.5.R1385
76091|A||Li,T., and Z. Xiong|A Novel Response of Wild-Type Duckweed (Lemna paucicostata Hegelm.) to Heavy Metals|Environ. Toxicol.19(2): 95-102|2004|10.1002/tox.20000
76092|A||Yap,C.K., A. Ismail, H. Omar, and S.G. Tan|Toxicities and Tolerances of Cd, Cu, Pb and Zn in a Primary Producer (Isochrysis galbana) and in a Primary Consumer (Perna viridis)|Environ. Int.29(8): 1097-1104|2004|10.1016/S0160-4120(03)00141-7
76093|A||Lam,P.K.S., K.T. Wo, and R.S.S. Wu|Effects of Cadmium on the Development and Swimming Behavior of Barnacle Larvae Balanus amphitrite Darwin|Environ. Toxicol.15(1): 8-13|2000|10.1002/(SICI)1522-7278(2000)15:1<8::AID-TOX2>3.0.CO;2-Z
76094|A||Akram,M., M.A. Hafeez, and G. Nabi|Histopathological Changes in the Kidney of a Freshwater Cyprinid Fish, Barilius vagra, Following Exposure to Cadmium|Pak. J. Zool.31(1): 77-80|1999|
76095|A||Geret,F., A. Jouan, V. Turpin, M.J. Bebianno, and R.P. Cosson|Influence of Metal Exposure on Metallothionein Synthesis and Lipid Peroxidation in Two Bivalve Mollusks:  The Oyster (Crassostrea gigas) and the Mussel (Mytilus edulis)|Aquat. Living Resour.15(1): 61-66|2002|10.1016/S0990-7440(01)01147-0
76096|A||Mukherjee,D., V. Kumar, and P. Chakraborti|Effect of Mercuric Chloride and Cadmium Chloride on Gonadal Function and Its Regulation in Sexually Mature Common Carp Cyprinus carpio|Biomed. Environ. Sci.7(1): 13-24|1994|
76097|A||El-Naggar,A.H.|Toxic Effects of Nickel on Photosystem II of Chlamydomonas reinhardtii|Cytobios93(373): 93-101|1998|
76098|A||Piccinni,E., P. Irato, and L. Guidolin|Cadmium-Thionein in Tetrahymena thermophila and Tetrahymena pyriformis|Eur. J. Protistol.26(2): 176-181|1990|10.1016/S0932-4739(11)80112-4
76099|A||James,R., K. Sampath, V. Sivakumar, and S. Manthiramoorthy|Individual and Combined Effects of Heavy Metals on Survival and Biochemistry of Oreochromis mossambicus|Indian J. Fish.38(1): 49-54|1991|
76100|A||Erten-Unal,M., B.G. Wixson, N. Gale, and J.L. Pitt|Evaluation of Toxicity, Bioavailability and Speciation of Lead, Zinc and Cadmium in Mine/Mill Wastewaters|Chem. Spec. Bioavail.10(2): 37-46|1998|10.3184/095422998782775826
76101|A||Radhakrishnan,M.V., S. Hemalatha, and V.I. Paul|Effect of Cadmium Chloride on the Melanophores of Channa striatus (Bloch)|Indian J. Fish.47(2): 135-141|2000|
76102|T||Janda,T., G. Szalai, Z. Antunovics, E. Horvath, and E. Paldi|Effect of Benzoic Acid and Aspirin on Chilling Tolerance and Photosynthesis in Young Maize Plants|Maydica45(1): 29-33|2000|
76103|T||Dotray,P.A., and C.B. McKenney|Established and Seeded Buffalograss Tolerance to Herbicides Applied Preemergence|Hortscience31(3): 393-395|1996|10.21273/HORTSCI.31.3.393
76104|T||Marini,R.P., R.E. Byers, and D.L. Sowers|Growth Regulators and Herbicides for Delaying Apple Fruit Abscission|Hortscience24(6): 957-959|1989|10.21273/HORTSCI.24.6.957
76106|A||Ng,T.Y.T., and W.X. Wang|Detoxification and Effects of Ag, Cd, and Zn Pre-Exposure on Metal Uptake Kinetics in the Clam Ruditapes philippinarum|Mar. Ecol. Prog. Ser.268:161-172|2004|10.3354/meps268161
76107|A||Beck,N.G., K.W. Bruland, and E.L. Rue|Short-Term Biogeochemical Influence of a Diatom Bloom on the Nutrient and Trace Metal Concentrations in South San Francisco Bay Microcosm Experiments|Estuaries25(6A): 1063-1076|2002|10.1007/BF02692204
76108|A||Ireland,M.P.|Interaction and Effects of Molybdenum Compounds on Growth and Mineral Content of Achatina fulica and Arion ater (Gastropoda:  Pulmonata)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.107(3): 441-446|1994|
76109|A||Markovich,D., and D. Knight|Renal Na-Si Cotransporter NaSi-1 is Inhibited by Heavy Metals|Am. J. Physiol., Renal Fluid Electrolyte Physiol.274(2, Pt. 2): F283 - F289|1998|10.1152/ajprenal.1998.274.2.F283
76110|A||Perez-Rama,M., J.A. Abalde, C.L. Herrero, and E.V. Torres|Cadmium Removal by Living Cells of the Marine Microalga Tetraselmis suecica|Bioresour. Technol.84(3): 265-270|2002|10.1016/S0960-8524(02)00045-7
76111|A||Skowronski,T.|Cadmium Sorption by the Green Microalga Stichococcus bacillaris in Media Containing Urea or Ammonium Sulfate as Nitrogen Sources:   The Effect of pH Changes|Acta Microbiol. Pol.36(1-2): 127-134|1987|
76112|A||Engelken,J., and A. Hildebrandt|cDNA Cloning and Cadmium-Induced Expression of Metallothionein mRNA in the Zebra Mussel Dreissena polymorpha|Biochem. Cell. Biol.77(3): 237-241|1999|10.1139/o99-026
76113|A||Carginale,V., R. Scudiero, C. Capasso, A. Capasso, P. Kille, G. Di Prisco, and E. Parisi|Cadmium-Induced Differential Accumulation of Metallothionein Isoforms in the Antarctic Icefish, Which Exhibits no Basal Metallothionein Protein but high Endogenous mRNA Levels|Biochem. J. (Lond.)332(2): 475-481|1998|10.1042/bj3320475
76114|A||Osman,M.E.H., A.H. El-Naggar, M.M. El-Sheekh, and E.E. El-Mazally|Differential Effects of Co2+ and Ni2+ on Protein Metabolism in Scenedesmus obliquus and Nitzschia perminuta|Environ. Toxicol. Pharmacol.16(3): 169-178|2004|10.1016/j.etap.2003.12.004
76115|T||Wang,J., F.J. Zhao, A.A. Meharg, A. Raab, J. Feldmann, and S.P. McGrath|Mechanisms of Arsenic Hyperaccumulation in Pteris vittata.  Uptake Kinetics, Interactions with Phosphate, and Arsenic Speciation|Plant Physiol.130(3): 1552-1561|2002|10.1104/pp.008185
76116|A||McDaniel,M., and T.W. Snell|Probability Distributions of Toxicant Sensitivity for Freshwater Rotifer Species|Environ. Toxicol.14(3): 361-366|1999|10.1002/(SICI)1522-7278(199907)14:3<361::AID-TOX10>3.0.CO;2-I
76117|A||Raspor,B., and J. Pavicic|Induction of Metallothionein-Like Proteins in the Digestive Gland of Mytilus galloprovincialis After a Chronic Exposure to the Mixture of Trace Heavy Metals|Chem. Spec. Bioavail.3(2): 39-46|1991|10.1080/09542299.1991.11083140
76118|A||Mazurek,U., A. Wilczok, D. Tyrawska, and B. Swiderska|The Development of Chlorella vulgaris Cells Exposed to Cadmium at Successive Stages of Their Life Cycle|Biol. Plant. (Praha)34(3-4): 319-323|1992|10.1007/BF02925891
76119|T||Backor,M., and P. Vaczi|Copper Tolerance in the Lichen Photobiont Trebouxia erici (Chlorophyta)|Environ. Exp. Bot.48(1): 11-20|2002|10.1016/S0098-8472(02)00004-7
76120|T||Ghosh,A.K., D. Ghosh, and N.M. Biswas|Histochemical Study on Adrenal delta5-3beta-Hydroxysteroid Dehydrogenase Activity in Cadmium Treated Toad (Bufo melanostictus)|Acta Physiol. Hung.79(1): 73-76|1992|
76121|A||Yamaoka,Y., O. Takimura, H. Fuse, K. Kamimura, and K. Murakami|Accumulation of Arsenic by Rhaphydophyceae Chattonella antiqua (Hada) Ono|Appl. Organomet. Chem.10(9): 721-726|1996|10.1002/(SICI)1099-0739(199611)10:9<721::AID-AOC546>3.0.CO;2-Y
76122|A||Rai,P.K., N. Mallick, and L.C. Rai|Effect of Nickel on Certain Physiological and Biochemical Behaviors of an Acid Tolerant Chlorella vulgaris|BioMetals7(2): 193-200|1994|
76123|A||Francesconi,K.A., D.A. Hunter, B. Bachmann, G. Raber, and W. Goessler|Uptake and Transformation of Arsenosugars in the Shrimp Crangon crangon|Appl. Organomet. Chem.13(10): 669-679|1999|10.1002/(SICI)1099-0739(199910)13:10<669::AID-AOC910>3.0.CO;2-E
76124|T||Zhou,Q., X. Wang, R. Liang, and Y. Wu|Effects of Cadmium and Mixed Heavy Metals on Rice Growth in Liaoning, China|Soil Sediment Contam.12(6): 851-864|2003|10.1080/10588330390254919
76125|A||Berntssen,M.H.G., R. Waagbo, H. Toften, and A.K. Lundebye|Effects of Dietary Cadmium on Calcium Homeostasis, Ca Mobilization and Bone Deformities in Atlantic Salmon (Salmo salar L.) Parr|Aquac. Nutr.9(3): 175-183|2003|10.1046/j.1365-2095.2003.00245.x
76126|AT||Castillo,G.C., I.C. Vila, and E. Neild|Ecotoxicity Assessment of Metals and Wastewater Using Multitrophic Assays|Environ. Toxicol.15(5): 370-375|2000|10.1002/1522-7278(2000)15:5<370::AID-TOX3>3.0.CO;2-S
76127|A||Williams,N.D., and D.A. Holdway|The Effects of Pulse-Exposed Cadmium and Zinc on Embryo Hatchability, Larval Development, and Survival of Australian Crimson Spotted Rainbow Fish (Melanotaenia fluviatilis)|Environ. Toxicol.15(3): 165-173|2000|10.1002/1522-7278(2000)15:3<165::AID-TOX3>3.0.CO;2-Q
76128|T||Holzum,B.|Initial Submission:  TSCA Health and Safety Study Cover Sheet Reporting Preliminary Data from Developmental Toxicity Study in Rabbits after Oral Administration of MKH 3586, Dated 4/6/1999|EPA/OTS Doc.#88990000134, Bayer AG Study No.T4061728, Bayer Corp., Germany:491 p.|1999|
76129|T||Bayer Corp.|Support:  Supplemental Submission, Study on Subchronic in CD-1 Mice (13-Week Feeding Study), with TSCA Health & Safety Study CVR Sht Dated 1/29/1999|EPA/OTS Doc.#89990000113, Bayer Corporation:240 p.|1999|
76130|T||Poupoulis,C., and L.S. Jensen|Effect of High Dietary Copper on Fatty Acid Composition of the Chick|Poult. Sci.55:122-129|1976|10.3382/ps.0550122
76131|T||Al Rasheed,N.M., M.I. Al Sayed, H.H. Al Zuhair, A.R.M. Al Obaid, and A.J. Fatani|Effects of Two Newly Synthesized Analogues of Lidocaine on Rat Arterial Blood Pressure and Heart Rate|Pharmacol. Res.43(4): 313-319|2001|10.1006/phrs.2000.0783
76132|T||Cho,M.H., and E.P. Spalding|An Anion Channel in Arabidopsis Hypocotyls Activated by Blue Light|Proc. Natl. Acad. Sci. U.S.A.93(15): 8134-8138|1996|10.1073/pnas.93.15.8134
76133|T||Boukachabia,A., N. Soltani-Mazouni, G. Smagghe, and N. Soltani|Comparative Effects of Some Ecdysteroid Agonists in Mealworms:  Ecdysteroid Amounts and Protein Analysis in Developing Ovaries Under In Vivo Conditions|Commun. Agric. Appl. Biol. Sci.68(4a): 307-312|2003|
76134|T||Politycka,B.|Free and Glucosylated Phenolics, Phenol beta-Glucosyltransferase Activity and Membrane Permeability in Cucumber Roots Affected by Derivatives of Cinnamic and Benzoic Acids|Acta Physiol. Plant.19(3): 311-317|1997|10.1007/s11738-997-0007-8
76135|T||Politycka,B.|Phenolics and the Activities of Phenylalanine Ammonia-lyase, Phenol-beta-Glucosyltransferase and  beta-Glucosidase in Cucumber Roots as Affected by Phenolic Allelochemicals|Acta Physiol. Plant.20(4): 405-410|1998|10.1007/s11738-998-0027-z
76136|T||Politycka,B.|Peroxidase Activity and Lipid Peroxidation in Roots of Cucumber Seedlings Influenced by Derivatives of Cinnamic and Benzoic Acids|Acta Physiol. Plant.18(4): 365-370|1996|
76138|T||Hoogesteijn,A.L., T.J. DeVoogd, F.W. Quimby, T. De Caprio, and G.V. Kollias|Reproductive Impairment in Zebra Finches (Taeniopygia guttata)|Environ. Toxicol. Chem.24(1): 219-223|2005|10.1897/03-632R.1
76139|A||Maule,A.G., E.H. Jorgensen, M.M. Vijayan, and J.E.A. Killie|Aroclor 1254 Exposure Reduces Disease Resistance and Innate Immune Responses in Fasted Arctic Charr|Environ. Toxicol. Chem.24(1): 117-124|2005|10.1897/03-700.1
76140|T||Clark,S.A., and H.K. Mahanty|Influence of Herbicides on Growth and Nodulation of White Clover, Trifolium repens|Soil Biol. Biochem.23(8): 725-730|1991|10.1016/0038-0717(91)90141-6
76141|A||Niimi,A.J., and B.G. Oliver|Biological Half-Lives of Chlorinated Dibenzo-p-Dioxins and Dibenzofurans in Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.5(1): 49-53|1986|
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76170|T||D'Souza,S.J.A., and D.F. Biggs|Aspirin, Indomethacin, and Tartrazine Increase Carotid-Sinus-Nerve Activity and Arterial Blood Pressure in Guinea Pigs|Pharmacology34(2-3): 96-103|1987|10.1159/000138258
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76172|T||Sivaguru,M., S. Pike, W. Gassmann, and T.I. Baskin|Aluminum Rapidly Depolymerizes Cortical Microtubules and Depolarizes the Plasma Membrane:  Evidence that These Responses are Mediated by a Glutamate Receptor|Plant Cell Physiol.44(7): 667-675|2003|10.1093/pcp/pcg094
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76174|T||Iba,M.M., and J. Fung|Pulmonary CYP1A1 and CYP1A2 Levels and Activities in Adult Male and Female Offspring of Rats Exposed During Gestation and Lactation to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Biochem. Pharmacol.62(5): 617-626|2001|10.1016/S0006-2952(01)00721-3
76175|T||Roby,K.F.|Alterations in Follicle Development, Steroidogenesis, and Gonadotropin Receptor Binding in a Model of Ovulatory Blockade|Endocrinology142(6): 2328-2335|2001|10.1210/endo.142.6.7993
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76177|T||Haavisto,T., K. Nurmela, R. Pohjanvirta, H. Huuskonen, F. El Gehani, and J. Paranko|Prenatal Testosterone and Luteinizing Hormone Levels in Male Rats Exposed During Pregnancy to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Diethylstilbestrol|Mol. Cell. Endocrinol.178(1-2): 169-179|2001|10.1016/S0303-7207(01)00425-7
76178|T||Ushinohama,K., D.S. Son, K.F. Roby, K.K. Rozman, and P.F. Terranova|Impaired Ovulation by 2,3,7,8 Tetrachlorodibenzo-p-Dioxin (TCDD) in Immature Rats Treated with Equine Chorionic Gonadotropin|Reprod. Toxicol.15(3): 275-280|2001|10.1016/S0890-6238(01)00128-9
76179|T||Dertinger,S.D., D.A. Nazarenko, A.E. Silverstone, and T.A. Gasiewicz|Aryl Hydrocarbon Receptor Signaling Plays a Significant Role in Mediating Benzo(a)pyrene- and Cigarette Smoke Condensate-Induced Cytogenetic Damage In Vivo|Carcinogenesis22(1): 171-177|2001|10.1093/carcin/22.1.171
76180|T||Roth-Harer,A., H. Lilienthal, M. Bubser, U. Kronthaler, W.R. Mundy, T.R. Ward, W. Schmidt, H. Winterhoff, and G. Winnek|Neurotransmitter Concentrations and Binding at Dopamine Receptors in Rats After Maternal Exposure to 3,4,3',4'-Tetrachlorobiphenyl:  The Role of Reduced Thyroid Hormone Concentrations|Environ. Toxicol. Pharmacol.9(3): 103-115|2001|10.1016/S1382-6689(00)00069-7
76181|T||Allen,D.E., and L.J. Leamy|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Affects Size and Shape, but not Asymmetry, of Mandibles in Mice|Ecotoxicology10(3): 167-176|2001|10.1023/A:1016693911300
76182|T||Aulerich,R.J., B. Yamini, and S.J. Bursian|Dietary Exposure to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) or 2,3,7,8-Tetrachlorodibenzo-p-Dixon (TCDD) does not Induce Proliferation of Squamous Epithelium or Osteolysis in the Jaws of Weanling Rats|Vet. Hum. Toxicol.43(3): 170-171|2001|
76183|T||Kono,Y., S. Okada, Y. Tazawa, S. Kanzaki, T. Mura, E. Ueta, E. Nanba, and Y. Otsuka|Effect of Lactational Exposure to 1,2,3,4-Tetrachlorodibenzo-p-Dioxin on Cytochrome P-450 1A1 mRNA in the Neonatal Rat Liver:  Quantitative Analysis by the Competitive RT-PCR Method|Pediatr. Int.43(5): 458-464|2001|10.1046/j.1442-200X.2001.01441.x
76184|T||Ishii,Y., H. Kato, M. Hatsumura, T. Ishida, N. Ariyoshi, H. Yamada, and K. Oguri|Effects of a Highly Toxic Coplanar Polychlorinated Biphenyl, 3,3',4,4',5-Pentachlorobiphenyl on Intermediary Metabolism:  Reduced Triose Phosphate Content in Rat Liver Cytosol|Fukuoka-Igaku-Zasshi (Multiple Languages)92(5): 190-200|2001|
76185|T||Waalkens-Berendsen,I.D.H., A. Smits van Prooije, C.A. Bouwman, and M. Van den Berg|Reproductive Effects in F1-Generation Rats Perinatally Exposed to PCB 126, PCB 118, PCB 153 and 2,3,4,7,8-PnCDF|Organohalog. Compd.29:190-195|1996|
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76187|T||Thornton,A.S., Y. Oda, G.R. Stuart, B.W. Glickman, and J.G. De Boer|Mutagenicity of TCDD in Big Blue Transgenic Rats|Mutat. Res.478(1-2): 45-50|2001|10.1016/S0027-5107(01)00105-1
76188|T||Luebke,R.W., C.B. Copeland, and D.L. Andrews|Aging and Resistance to Trichinella spiralis Infection Following Xenobiotic Exposure|In: R.J.Isfort and J.Lederberg (Eds.),Ann.NY Acad.Sci., Toxicology for the Next Millenium, New York,NY:221-229|2000|
76189|T||Ivnitski,I., R. Elmaoued, and M.K. Walker|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Inhibition of Coronary Development is Preceded by a Decrease in Myocyte Proliferation and an Increase in Cardiac Apoptosis|Teratology64(4): 201-212|2001|10.1002/tera.1065
76190|T||Kim,I.S.|Effects of Exposure of Lactating Female Rats to Polychlorinated Biphenyls (PCBs) on Testis Weight, Sperm Production and Sertoli Cell Numbers in the Adult Male Offspring|J. Vet. Med. Sci.63(1): 5-9|2001|10.1292/jvms.63.5
76191|T||Zaccaro,C., S. Sweitzer, S. Pipino, N. Gorman, P.R. Sinclair, J.F. Sinclair, D.W. Nebert, and F. De Matteis|Role of Cytochrome P450 1A2 in Bilirubin Degradation Studies in CYP1a2 (-/-) Mutant Mice|Biochem. Pharmacol.61(7): 843-849|2001|10.1016/S0006-2952(01)00568-8
76192|T||Berger,D.F., J.P. Lombardo, P.M. Jeffers, A.E. Hunt, B. Bush, A. Casey, and F. Quimby|Hyperactivity and Impulsiveness in Rats fed Diets Supplemented with Either Aroclor 1248 or PCB-Contaminated St. Lawrence River Fish|Behav. Brain Res.126(1-2): 1-11|2001|10.1016/S0166-4328(01)00244-3
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76195|T||Jamsa,T., M. Viluksela, J.T. Tuomisto, J. Tuomisto, and J. Tuukkanen|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Bone in Two Rat Strains with Different Aryl Hydrocarbon Receptor Structures|J. Bone Miner. Res.16(10): 1812-1820|2001|10.1359/jbmr.2001.16.10.1812
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76200|T||Yoon,B.I., Y. Hirabayashi, Y. Ogawa, J. Kanno, T. Inoue, and T. Kaneko|Hemopoietic Cell Kinetics After Intraperitoneal Single Injection of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Mice|Chemosphere43(4-7): 819-822|2001|10.1016/S0045-6535(00)00439-2
76201|T||Stanton,B.J., F. El-Sabeawy, Yang,X. Fang, E. Enan, and B.L. Lasley|Interaction of Estrogen and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Immature Male Chickens (Gallus domesticus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(1): 35-47|2001|10.1016/S1532-0456(01)00178-8
76202|T||Markowski,V.P., G. Zareba, S. Stern, C. Cox, and B. Weiss|Altered Operant Responding for Motor Reinforcement and the Determination of Benchmark Doses Following Perinatal Exposure to Low-Level 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Environ. Health Perspect.109(6): 621-627|2001|10.1289/ehp.01109621
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76205|T||Smith,A.G., B. Clothier, P. Carthew, N.L. Childs, P.R. Sinclair, D.W. Nebert, and T.P. Dalton|Protection of the CYP1a2(-/-) Null Mouse Against Uroporphyria and Hepatic Injury Following Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.173(2): 89-98|2001|10.1006/taap.2001.9167
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76208|T||Nazarenko,D.A., S.D. Dertinger, and T.A. Gasiewicz|In Vivo Antagonism of AhR-Mediated Gene Induction by 3'-Methoxy-4'-Nitroflavone in TCDD-Responsive lacZ Mice|Toxicol. Sci.61(2): 256-264|2001|10.1093/toxsci/61.2.256
76209|T||Waern,F.|Studies on Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans with Emphasis on Their Relative Potency and Interactions in the Rat|Ph.D.Thesis, Karolinska Inst., Stockholm, Sweden:66 p.|1995|
76210|A||Delorme,P.D.|The Effects of Toxaphene, Chlordane and 2,3,4,7,8-Pentachlorodibenzofuran on Lake Trout and White Sucker in an Ecosystem Experiment and the Distribution and Effects of 2,3,4,7,8- Pentachlorodibenzofuran on White Suckers|Ph.D Thesis, University of Manitoba, Canada:233 p.|1995|
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76220|T||Cho,H.G., H.K. Shin, Y.W. Shin, J.H. Lee, and K.W. Hong|Role of Nitric Oxide in the CBF Autoregulation During Acute Stage After Subarachnoid Haemorrhage in Rat Pial Artery|Fundam. Clin. Pharmacol.17(5): 563-573|2003|10.1046/j.1472-8206.2003.00185.x
76221|T||Ruuhola,T., and R. Julkunen-Titto|Trade-Off Between Synthesis of Salicylates and Growth of Micropropagated Salix pentandra|J. Chem. Ecol.29(7): 1565-1588|2003|10.1023/A:1024266612585
76222|T||Di Iorio,P., A. Virgilio, P. Giuliani, P. Ballerini, G. Vianale, P.J. Middlemiss, M.P. Rathbone, and R. Ciccarelli|AIT-082 is Neuroprotective Against Kainate-Induced Neuronal Injury in Rats|Exp. Neurol.169(2): 392-399|2001|10.1006/exnr.2001.7654
76223|T||Rossoni,G., B. Manfredi, P. Del Soldato, G. Polvani, and F. Berti|Nitric Oxide-Releasing Aspirin Inhibits Vasoconstriction in Perfused Tail Artery of Normotensive and Spontaneously Hypertensive Rats|Eur. J. Pharmacol.477(1): 59-68|2003|10.1016/j.ejphar.2003.08.004
76224|T||Berger,M.R., and G.F. Kolar|Comparative Carcinogenicity of Ring-Halogenated 3-Methyl-1-Phenyltriazenes and Their 3,3-Dimethyl Analogs at Equimolar Dose Levels in Male Sprague-Dawley Rats|J. Cancer Res. Clin. Oncol.111(2): 129-132|1986|10.1007/BF00400750
76225|T||Ohmori,K., H. Yamada, A. Yasuda, A. Yamamoto, N. Matsuura, and M. Kiniwa|Anti-hyperlipidemic Action of a Newly Synthesized Benzoic Acid Derivative, S-2E|Eur. J. Pharmacol.471(1): 69-76|2003|10.1016/S0014-2999(03)01793-X
76226|T||Mizoguchi,K., H. Maeta, A. Yamamoto, M. Oe, and H. Kosaka|Amelioration of Myocardial Global Ischemia/Reperfusion Injury with Volume-Regulatory Chloride Channel Inhibitors In Vivo|Transplantation73(8): 1185-1193|2002|10.1097/00007890-200204270-00002
76227|T||Matveyeva,N.P., D.S. Andreyuk, and I.P. Yermakov|Transport of Cl- Across the Plasma Membrane During Pollen Grain Germination in Tobacco|Biochemistry (Wash.)68(11): 1247-1251|2003|
76228|A||Besser,J.M., F.J. Dwyer, C.G. Ingersoll, and N. Wang|Early Life-Stage Toxicity of Copper to Endangered and Surrogate Fish Species|EPA/600/R-01/051, U.S.EPA, Washington, DC:22 p.|2001|
76229|T||Stansly,P.A., and B.M. Cawley|Control of Sweetpotato Whitefly, Tomato Pinworm, and American Serpentine Leafminer on Staked Tomato, Fall 1991|Insectic. Acaric. Tests18:184-|1993|10.1093/iat/18.1.184
76230|T||Whalen,J., and M. Spellman|Foliar Sprays on Late Planted Sweet Corn, 1992|Insectic. Acaric. Tests18:129-|1993|10.1093/iat/18.1.129
76231|T||Schuster,D.J.|Sweetpotato Whitefly and Geminivirus Control on Fresh Market Tomatoes in West-Central Florida, Spring 1992|Insectic. Acaric. Tests18:182-183|1993|10.1093/iat/18.1.182
76238|A||Erickson,R.J., D.A. Benoit, and V.R. Mattson|A Prototype Toxicity Factors Model for Site-Specific Copper Water Quality Criteria|U.S.EPA, Duluth, MN:36 p.|1996|
76239|A||U.S. Environmental Protection Agency|Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms|EPA/600/4-87/028, U.S.EPA, Cincinnati, OH:416 p.|1988|
76240|A||Lussier,S.M.|Results of Acute Toxicity Tests Conducted with Copper at ERL, Narragansett|U.S.EPA, Narragansett, RI:1 p.|1985|
76241|T||Zhang,J., and M.B. Kirkham|Lipid Peroxidation in Sorghum and Sunflower Seedlings as Affected by Ascorbic Acid, Benzoic Acid, and Propyl Gallate|J. Plant Physiol.149(5): 489-493|1996|10.1016/S0176-1617(96)80323-3
76242|T||Koller,W., and W.F. Wilcox|Interactive Effects of Dodine and the DMI Fungicide Fenarimol in the Control of Apple Scab|Plant Dis.84(8): 863-870|2000|10.1094/PDIS.2000.84.8.863
76243|T||Kupper,W., J. Spath, and T. Krober|Attractiveness of Chemicals to Glossina tachinoides Westwood (Diptera, Glossinidae) in Cote d'Ivoire|Trop. Pest Manag.37(4): 436-438|1991|10.1080/09670879109371631
76244|T||Proctor & Gamble Co.|Initial Submission:  Acute Oral Toxicity (LD50) Study of Sulfuric Acid in Rats with Attachments and Cover Letter Dated 080692|EPA/OTS Doc.#88-920004949:4 p.|1992|
76245|T||Fletcher,W.W., and J.E. Smith|The Growth of Bacteria, Fungi, and Algae in the Presence of 3:5 Dihalogeno-4-Hydroxybenzonitriles with Comparative Data for Substituted Aryloxyalkanecarboxylic Acids|Proc. Br. Weed Control Conf.:20-22|1964|
76246|T||Li,J., P. Fu, B.A. French, and S.W. French|The Effect of Rotenone on the Urinary Ethanol Cycle in Rats Fed Ethanol Intragastrically|Exp. Mol. Pathol.77(3): 210-213|2004|10.1016/j.yexmp.2004.08.005
76247|T||Eilbert,F., E. Thines, and H. Anke|Effects of Antifungal Compounds on Conidial Germination and on the Induction of Appressorium Formation of Magnaporthe grisea|Z. Naturforsch. Sect. C J. Biosci.54(11): 903-908|1999|10.1515/znc-1999-1108
76248|A||Prabha Devi, W. Solimabi, L. D'Souza, and S.Y. Kamat|Larvicidal Activity of Some Marine Macrophytes Against Artemia salina|Adv. Biosci.17(2): 75-84|1998|
76250|A||Long,K.E.|The Effect of Low Hardness and pH on Copper Toxicity to Daphnia magna|M.S. Thesis, Clemson University, Clemson, SC:75 p.|2000|
76251|A||Keller,A.E.|Personal Communication to U.S. EPA:  Water Quality and Toxicity Data for Unpublished Unionid Mussel Tests|Memo to R.Pepin and C.Roberts,U.S.EPA Region 5,Chicago, IL:14 p.|2000|
76252|A||Zuiderveen,J.A., and W.J. Birge|The Relationship Between Chronic Values in Toxicity Tests with Ceriodaphnia dubia|ASTM Spec. Tech. Publ.6:551-556|1997|
76253|A||PBS&J Environmental Toxicology Laboratory|Copper and Zinc Water-Effect Ratio Determinations with Simulated Downstream (Outfall 001 in Receiving Water) and Laboratory Synthetic Seawater. Project Summary 1998 and 1999|PBS&J Job.No.20026, Environ.Toxicol.Lab., Houston, TX:20 p.|1999|
76254|A||Science Applications International Corp.|Toxicity Testing to Support the New York/New Jersey Harbor Site-Specific Copper Criteria Study|Final Rep.to U.S.EPA, Off.of Wastewater Enforcement and Compliance (Contract No.68-C8-0066, Work Assignment C-4-94), Sci.Appl.Int.Corp., Narragansett, RI:176 p.|1993|
76255|A||Toxscan Inc.|Results of Provision E5F Spiked Metals Toxicity Testing 14 to 21 February 1991|"Prepared for Kinnetic Lab.Inc.for ""Site-Specific Water Quality Objectives for South San Francisco Bay"" Report by Larry Walker Assoc.and Kinnetic Lab.Under Subcontract to CH2M Hill:"|1991|
76256|A||CH2M HILL|Bioassay Report:  Acute Toxicity of Copper to Summer Flounder (Paralichthys dentatus)|Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:26 p.|1999|
76257|A||CH2M HILL|Bioassay Report:  Acute Toxicity of Copper to Blue Mussel (Mytilus edulis)|Final Report Prepared for U.S.Navy, CH2M Hill, Norfolk,VA:41 p.|1999|
76258|A||Toxscan Inc.|Results of Provision E5F Spiked Metals Toxicity Testing 27 February to 6 March 1991|"Prepared for Kinnetic Lab.Inc.for ""Site-Specific Water Quality Objectives for South San Francisco Bay"" Report by Larry Walker Assoc.and Kinnetic Lab.Under Subcontract to CH2M Hill:"|1991|
76259|T||Shell Oil Toxicol.Lab|Studies on the Percutaneous Toxicity of para-Tertiary Butyl Benzoic Acid (PTBBA) to Rats & Rabbits|Shell Oil Company, Houston, TX:32 p.|1982|
76260|T||Chaluvaraju,G., P. Basavaraju, N.P. Shetty, S.A. Deepak, K.N. Amruthesh, and H.S. Shetty|Effect of Some Phosphorous-Based Compounds on Control of Pearl Millet Downy Mildew Disease|Crop Prot.23(7): 595-600|2004|10.1016/j.cropro.2003.11.008
76262|T||Procter|Initial Submission:  Repeated Dermal Applications in Mice of FD&C Blue 1, FD&C Red 3, FD&C Yellow 5, D&C Red 19 with Cover Letter Dated 08/26/92|Hazelton Laboratories, Reston, VA:46 p.|1992|
76263|T||Morimoto,M., K. Matsuda, Y. Ohta, T. Ihara, and K. Komai|Evaluation of Calcium-Alginate Gel as an Artificial Diet Medium for Bioassays on Common Cutworms|J. Agric. Food Chem.52(15): 4737-4739|2004|10.1021/jf0497511
76264|T||Strandberg,B., M. Bruus Pedersen, and N. Elmegaard|Weed and Arthropod Populations in Conventional and Genetically Modified Herbicide Tolerant Fodder Beet Fields|Agric. Ecosyst. Environ.105(1/2): 243-253|2005|10.1016/j.agee.2004.03.005
76265|A||Li,X., X. Ping, S. Xiumei, W. Zhenbin, and X. Liqiang|Toxicity of Cypermethrin on Growth, Pigments, and Superoxide Dismutase of Scenedesmus obliquus|Ecotoxicol. Environ. Saf.60(2): 188-192|2005|10.1016/j.ecoenv.2004.01.012
76266|A||Mishra,D., S.K. Srivastav, and A.K. Srivastav|Effects of the Insecticide Cypermethrin on Plasma Calcium and Ultimobranchial Gland of a Teleost, Heteropneustes fossilis|Ecotoxicol. Environ. Saf.60(2): 193-197|2005|10.1016/j.ecoenv.2003.12.020
76267|A||Phyu,Y.L., M.S.J. Warne, and R.P. Lim|Toxicity and Bioavailability of Atrazine and Molinate to the Freshwater Shrimp (Paratya australiensis) Under Laboratory and Simulated Field Conditions|Ecotoxicol. Environ. Saf.60(2): 113-122|2005|10.1016/j.ecoenv.2004.07.006
76268|T||Shafeek,A., R.P. Jaya Prasanthi, G. Hariprasad Reddy, C.S. Chetty, and G. Rajarami Reddy|Alterations in Acetylcholinesterase and Electrical Activity in the Nervous System of Cockroach Exposed to the Neem Derivative, Azadirachtin|Ecotoxicol. Environ. Saf.59(2): 205-208|2004|10.1016/j.ecoenv.2003.07.016
76269|A||Sanchez,M., E. Andreu-Moliner, and M.D. Ferrando|Laboratory Investigation into the Development of Resistance of Daphnia magna to the Herbicide Molinate|Ecotoxicol. Environ. Saf.59(3): 316-323|2004|10.1016/j.ecoenv.2003.09.003
76270|A||Arufe,M.I., J. Arellano, M.J. Moreno, and C. Sarasquete|Comparative Toxic Effects of Formulated Simazine on Vibrio fischeri and Gilthead Seabream (Sparus aurata L.) Larvae|Chemosphere57(11): 1725-1732|2004|10.1016/j.chemosphere.2004.09.010
76271|T||Fonovich de Schroeder,T.M.|The Effect of Zn2+ on Glucose 6-Phosphate Dehydrogenase Activity from Bufo arenarum Toad Ovary and Alfalfa Plants|Ecotoxicol. Environ. Saf.60(2): 123-131|2005|10.1016/j.ecoenv.2004.07.008
76272|A||Rabitto,I.S., J.R.M. Alves Costa, H.C. Silva de Assis, E. Pelletier, F.M. Akaishi, A. Anjos, M.A.F. Randi, and C.A. Oli|Effects of Dietary Pb(II) and Tributyltin on Neotropical Fish, Hoplias malabaricus:  Histopathological and Biochemical Findings|Ecotoxicol. Environ. Saf.60(2): 147-156|2005|10.1016/j.ecoenv.2004.03.002
76273|A||Munshi,A.B., Y.Q. Su, S.J. Li, and L.Y. Hong|Effect of Cu, Cd and Cu:Cd Mixture on the Biochemical Composition of Two Penaeid Shrimp Postlarvae|Chin. J. Oceanol. Limnol.15(1): 46-51|1997|10.1007/BF02850582
76274|A||Singh,A.K., L. Sharma, and N. Mallick|Antioxidative Role of Nitric Oxide on Copper Toxicity to a Chlorophycean Alga, Chlorella|Ecotoxicol. Environ. Saf.59(2): 223-227|2004|10.1016/j.ecoenv.2003.10.009
76275|A||Chowdhury,M.J., E.F. Pane, and C.M. Wood|Physiological Effects of Dietary Cadmium Acclimation and Waterborne Cadmium Challenge in Rainbow Trout:  Respiratory, Ionoregulatory, and Stress Parameters|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 163-173|2004|10.1016/j.cca.2004.10.006
76276|A||Roberts,A.P., and J.T. Oris|Multiple Biomarker Response in Rainbow Trout During Exposure to Hexavalent Chromium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(2): 221-228|2004|10.1016/j.cca.2004.08.006
76277|A||Parry,H.E., and R.K. Pipe|Interactive Effects of Temperature and Copper on Immunocompetence and Disease Susceptibility in Mussels (Mytilus edulis)|Aquat. Toxicol.69(4): 311-325|2004|10.1016/j.aquatox.2004.06.003
76278|A||Tsui,M.T.K., and W.X. Wang|Temperature Influences on the Accumulation and Elimination of Mercury in a Freshwater Cladoceran, Daphnia magna|Aquat. Toxicol.70(3): 245-256|2004|10.1016/j.aquatox.2004.09.006
76279|A||Pena-Castro,J.M., F. Martinez-Jeronimo, F. Esparza-Garcia, and R.O. Canizares-Villanueva|Phenotypic Plasticity in Scenedesmus incrassatulus (Chlorophyceae) in Response to Heavy Metals Stress|Chemosphere57(11): 1629-1636|2004|10.1016/j.chemosphere.2004.06.041
76280|A||Wu,J.P., and H.C. Chen|Effects of Cadmium and Zinc on Oxygen Consumption, Ammonium Excretion, and Osmoregulation of White Shrimp (Litopenaeus vannamei)|Chemosphere57(11): 1591-1598|2004|10.1016/j.chemosphere.2004.07.033
76281|T||Shimada,H., Y. Takamure, A. Shimada, A. Yasutake, M.P. Waalkes, and Y. Imamura|Strain Differences of Cadmium-Induced Hepatotoxicity in Wistar-Imamichi and Fischer 344 Rats:  Involvement of Cadmium Accumulation|Toxicology203(1-3): 189-197|2004|10.1016/j.tox.2004.06.012
76282|T||Barazani,O., N. Dudai, U.R. Khadka, and A. Golan-Goldhirsh|Cadmium Accumulation in Allium schoenoprasum L. Grown in an Aqueous Medium|Chemosphere57(9): 1213-1218|2004|10.1016/j.chemosphere.2004.08.037
76283|T||Marchlewicz,M., T. Michalska, and B. Wiszniewska|Detection of Lead-Induced Oxidative Stress in the Rat Epididymis by Chemiluminescence|Chemosphere57(10): 1553-1562|2004|10.1016/j.chemosphere.2004.08.102
76284|T||Wu,F.B., F. Chen, K. Wei, and G.P. Zhang|Effect of Cadmium on Free Amino Acid, Glutathione and Ascorbic Acid Concentrations in Two Barley Genotypes (Hordeum vulgare L.) Differing in Cadmium Tolerance|Chemosphere57(6): 447-454|2004|10.1016/j.chemosphere.2004.06.042
76285|T||Spurgeon,D.J., S.R. Sturzenbaum, C. Svendsen, P.K. Hankard, A.J. Morgan, J.M. Weeks, and P. Kille|Toxicological, Cellular and Gene Expression Responses in Earthworms Exposed to Copper and Cadmium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 11-21|2004|10.1016/j.cca.2004.04.003
76286|T||Sauve,S., and M. Fournier|Age-Specific Immunocompetence of the Earthworm Eisenia andrei: Exposure to Methylmercury Chloride|Ecotoxicol. Environ. Saf.60(1): 67-72|2005|10.1016/j.ecoenv.2003.12.022
76287|T||Wang,M., and Q. Zhou|Single and Joint Toxicity of Chlorimuron-Ethyl, Cadmium, and Copper Acting on Wheat Triticum aestivum|Ecotoxicol. Environ. Saf.60(2): 169-175|2005|10.1016/j.ecoenv.2003.12.012
76288|T||James,S.M., E.E. Little, and R.D. Semlitsch|The Effect of Soil Composition and Hydration on the Bioavailability and Toxicity of Cadmium to Hibernating Juvenile American Toads (Bufo americanus)|Environ. Pollut.132(3): 523-532|2004|10.1016/j.envpol.2004.05.005
76289|T||Koster,M., L. Reijnders, N.R. Van Oost, and W.J.G.M. Peijnenburg|Comparison of the Method of Diffusive Gels in Thin Films with Conventional Extraction Techniques for Evaluating Zinc Accumulation in Plants and Isopods|Environ. Pollut.133(1): 103-116|2005|10.1016/j.envpol.2004.05.022
76290|T||Vazquez,A., and S. Pena de Ortiz|Lead (Pb+2) Impairs Long-Term Memory and Blocks Learning-Induced Increases in Hippocampal Protein Kinase C Activity|Toxicol. Appl. Pharmacol.200(1): 27-39|2004|10.1016/j.taap.2004.03.011
76291|T||Malstrom,S.E., D. Jekic-McMullen, L. Sambucetti, A. Ang, R. Reeves, A.F. Purchio, P.R. Contag, and D.B. West|In Vivo Bioluminescent Monitoring of Chemical Toxicity Using Heme Oxygenase-Luciferase Transgenic Mice|Toxicol. Appl. Pharmacol.200(3): 219-228|2004|10.1016/j.taap.2004.04.021
76295|T||Santos,F.W., T. Oro, G. Zeni, J.B.T. Rocha, P.C. Do Nascimento, and C.W. Nogueira|Cadmium Induced Testicular Damage and Its Response to Administration of Succimer and Diphenyl Diselenide in Mice|Toxicol. Lett.152(3): 255-263|2004|10.1016/j.toxlet.2004.05.009
76296|A||Shi,D., and W.X. Wang|Modification of Trace Metal Accumulation in the Green Mussel Perna viridis by Exposure to Ag, Cu, and Zn|Environ. Pollut.132(2): 265-277|2004|10.1016/j.envpol.2004.04.023
76297|T||Snyman,R.G., A.J. Reinecke, and S.A. Reinecke|Quantitative Changes in the Digestive Gland Cells of the Snail Helix aspersa After Exposure to the Fungicide Copper Oxychloride|Ecotoxicol. Environ. Saf.60(1): 47-52|2005|10.1016/j.ecoenv.2003.11.008
76298|A||Li,T.Y., and Z.T. Xiong|Cadmium-Induced Colony Disintegration of Duckweed (Lemna paucicostata Hegelm.) and as Biomarker of Phytotoxicity|Ecotoxicol. Environ. Saf.59(2): 174-179|2004|10.1016/j.ecoenv.2003.11.007
76299|A||Manzl,C., G. Krumschnabel, P.J. Schwarzbaum, and R. Dallinger|Acute Toxicity of Cadmium and Copper in Hepatopancreas Cells from the Roman Snail (Helix pomatia)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 45-52|2004|10.1016/j.cca.2004.04.008
76300|A||Adhikari,S.|Interference of Magnesium on Zinc Adsorption by Pond Sediment and on Zinc Accumulation in a Freshwater Teleost, Labeo rohita (Hamilton)|Ecotoxicol. Environ. Saf.59(2): 228-231|2004|10.1016/j.ecoenv.2004.03.010
76301|T||Folmer,V., F.W. Santos, L. Savegnago, V.B. Brito, C.W. Nogueira, and J.B.T. Rocha|High Sucrose Consumption Potentiates the Sub-Acute Cadmium Effect on Na+/K+-ATPase but not on delta-Aminolevulinate Dehydratase in Mice|Toxicol. Lett.153(3): 333-341|2004|10.1016/j.toxlet.2004.06.002
76302|T||Sharifi,A.M., R. Darabi, N. Akbarloo, B. Larijani, and A. Khoshbaten|Investigation of Circulatory and Tissue ACE Activity During Development of Lead-Induced Hypertension|Toxicol. Lett.153(2): 233-238|2004|10.1016/j.toxlet.2004.04.013
76303|T||Zhou,T., X. Jia, R.E. Chapin, R.R. Maronpot, M.W. Harris, J. Liu, M.P. Waalkes, and E.M. Eddy|Cadmium at a Non-toxic Dose Alters Gene Expression in Mouse Testes|Toxicol. Lett.154(3): 191-200|2004|10.1016/j.toxlet.2004.07.015
76305|T||Takaki,A., S. Jimi, M. Segawa, S. Hisano, S. Takebayashi, and H. Iwasaki|Long-Term Cadmium Exposure Accelerates Age-Related Mitochondrial Changes in Renal Epithelial Cells|Toxicology203(1-3): 145-154|2004|10.1016/j.tox.2004.06.005
76306|A||Williams,E.K., and J.A. Hall|Seasonal and Geographic Variability in Toxicant Sensitivity of Mytilus galloprovincialis Larvae|Australas. J. Ecotoxicol.5(1): 1-10|1999|
76307|A||James,R.|Effect of Zeolite on Reduction of Cadmium Level in Water and Improvement of Haematological Parameters in Oreochromis mossambicus (Peters)|Indian J. Fish.47(1): 29-35|2000|
76308|A||Raspor,B., and J. Pavicic|Complexing Properties of Metallothionein-Like Proteins|In: E.Merian and W.Haerdi (Eds.), Metal Compounds in Environment and Life, Volume 4, Interrelation Between Chemistry and Biology, Int.Assoc.of Environ.Anal.Chem., IACEC Workshop on Toxic Metal Compounds, 1991, Les Diablerets, Switzerland:201-206|1992|
76312|A||Thirumathal,K., A.A. Sivakumar, J. Chandrakantha, and K.P. Suseela|Effect of Heavy Metal (Cadmium borate) on the Biochemical Composition of Chironomus Larvae (Diptera:  Chironomidae)|Indian J. Environ. Ecoplann.6(2): 255-258|2002|
76313|AT||Gupta,S., and S.C. Agrawal|Vegetative Survival and Reproduction Under Submerged and Air-Exposed Conditions and Vegetative Survival as Affected by Salts, Pesticides, and Metals in Aerial Green Alga Trentepohlia aurea|Folia Microbiol. (Prague)49(1): 37-40|2004|10.1007/BF02931643
76314|A||Ting,Y.P., F. Lawson, and I.G. Prince|The Influence of Cadmium and Zinc on the Cell Size Distribution of the Alga Chlorella vulgaris|Chem. Eng. J.47(3): B23 - B34|1991|
76315|A||Pavillon,J.F., C. Douez, R. Menasria, J. Forget, J.C. Amiard, and R. Cosson|Impact of Dissolved and Particulate Organic Carbon on the Bioavailability of the Trace Metals Silver and Mercury for the Harpacticoid Copepod Tigriopus brevicornis|J. Rech. Oceanogr. (Non-English)27(1): 43-52|2002|
76316|A||Canli,M.|Effects of Mercury, Chromium and Nickel on Some Blood Parameters in the Carp Cyprinus carpio|Turk. J. Zool.19(4): 305-311|1995|
76317|A||Quinn,J.M., J. Kropat, and S. Merchant|Copper Response Element and Crr1-Dependent Ni2+ -Responsive Promoter for Induced, Reversible Gene Expression in Chlamydomonas reinhardtii|Eukaryotic Cell2(5): 995-1002|2003|10.1128/EC.2.5.995-1002.2003
76318|A||Mikryakov,V.R., T.B. Lapirova, M. Soltani, A.S. Mavrin, and G.A. Vinogradov|Influence of Sublethal Concentrations of Some Heavy Metal Salts (Hg, Cd and Cu) on the Contents of Lysozyme in Tissues of Sturgeon Fingerlings (Acipenser baeri)|Bull. Eur. Assoc. Fish Pathol.22(1): 15-20|2002|
76319|A||Harper-Arabie,R.M., E.F. Wirth, M.H. Fulton, G.I. Scott, and P.E. Ross|Protective Effects of Allozyme Genotype During Chemical Exposure in the Grass Shrimp, Palaemonetes pugio|Aquat. Toxicol.70(1): 41-54|2004|10.1016/j.aquatox.2004.07.004
76320|A||Amlund,H., and M.H.G. Berntssen|Arsenobetaine in Atlantic Salmon (Salmo salar L.):  Influence of Seawater Adaptation|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(4): 507-514|2004|10.1016/j.cca.2004.08.010
76321|A||Chander,G.P., N.V. Madhav, and Vidyavati |Response of Pithophora oedogonia to Cadmium|Acta Bot. Indica19(2): 240-242|1991|
76322|A||Przelecka,A., and D.D. Dai|Visualization of Binding Sites of Calcium and Its Analogue-Cadmium in Acanthamoeba Cells|Acta Protozool.27(2): 135-140|1988|
76323|A||Krajewska,M.|Number of Nuclei, Mitotic Activity and Cell Length in Cladophora sp. Thallus Treated with Cadmium and Chromium|Acta Soc. Bot. Pol.65(3-4): 249-256|1996|10.5586/asbp.1996.037
76324|A||Inthorn,D., N. Sidtitoon, S. Silapanuntakul, and A. Incharoensakdi|Sorption of Mercury, Cadmium and Lead by Microalgae|ScienceAsia28:253-261|2002|10.2306/scienceasia1513-1874.2002.28.253
76325|A||Morley,N.J., M. Crane, and J.W. Lewis|Effects of Cadmium and Zinc Toxicity on Orientation Behaviour of Echinoparyphium recurvatum (Digenea:  Echinostomatidae) Cercariae|Dis. Aquat. Org.56(1): 89-92|2003|10.3354/dao056089
76326|A||Kim,S.G., J.W. Kim, and J.C. Kang|Effect of Dietary Cadmium on Growth and Haematological Parameters of Juvenile Rockfish, Sebastes schlegeli (Hilgendorf)|Aquac. Res.35(1): 80-86|2004|10.1111/j.1365-2109.2004.00991.x
76327|T||Fausey,J.C.|Controlling Liverwort and Moss Now and in the Future|HortTechnology13(1): 35-38|2003|10.21273/HORTTECH.13.1.0035
76328|A||Sobecka,E., and M. Protasowicki|Changes in Contents of Zinc and Copper in Organs and Blood of Nickel-Exposed European Catfish, Silurus glanis L.|Acta Ichthyol. Piscat.32(1): 23-34|2002|10.3750/AIP2002.32.1.02
76329|A||Sobecka,E.|Changes in the Iron Level in the Organs and Tissues of Wels Catfish, Silurus glanis L. Caused by Nickel|Acta Ichthyol. Piscat.31(2): 127-143|2001|10.3750/AIP2001.31.2.10
76330|A||Aviles,C., H. Loza-Tavera, N. Terry, and R. Moreno-Sanchez|Mercury Pretreatment Selects an Enhanced Cadmium-Accumulating Phenotype in Euglena gracilis|Arch. Microbiol.180(1): 1-10|2003|10.1007/s00203-003-0547-2
76331|A||Galvez,F., and C.M. Wood|The Mechanisms and Costs of Physiological and Toxicological Acclimation to Waterborne Silver in Juvenile Rainbow Trout (Oncorhynchus mykiss)|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.172(7): 587-597|2002|10.1007/s00360-002-0287-7
76332|A||Jezierska,B., K. Lugowska, and M. Witeska|The Effect of Temperature and Heavy Metals on Heart Rate Changes in Common Carp Cyprinus carpio L. and Grass Carp Ctenopharyngodon idella (Val.) During Embryonic Development|Arch. Pol. Fish. 10(2): 153-165|2002|
76333|A||Boisson,F., M. Gnassia-Barelli, J. Chiaverini, and M. Romeo|Effect of Selenium on the Uptake of Cadmium by the Marine Microalga Hymenomonas (Cricosphaera) elongata|Mar. Environ. Res.28(1-4): 465-469|1989|10.1016/0141-1136(89)90285-7
76334|A||Sunderman,F.W.Jr., M.C. Plowman, and S.M. Hopfer|Embryotoxicity and Teratogenicity of Cadmium Chloride in Xenopus laevis, Assayed by the FETAX Procedure|Ann. Clin. Lab. Sci.21(6): 381-391|1991|
76335|T||Ghosh,P.K., A.K. Ghosh, and N.M. Biswas|Effect of Cadmium on 17-beta Hydroxysteroid Dehydrogenase in Toad Testis|Andrologia (Berl.)19(2): 143-147|1987|10.1111/j.1439-0272.1987.tb01873.x
76336|A||Olaveson,M.M., and C. Nalewajko|Effects of Acidity on the Growth of Two Euglena Species|Hydrobiologia (Multiple Languages)433(1-3): 39-56|2000|10.1023/A:1004006401516
76337|A||Atta,M.B., L.A. El-Sebaie, M.A. Noaman, and H.E. Kassab|The Effect of Cooking on the Content of Heavy Metals in Fish (Tilapia nilotica)|Food Chem.58(1-2): 1-4|1997|10.1016/0308-8146(95)00205-7
76338|A||Santos,C.A.Q., and G.C. Rivero|Cadmium-Induced Alterations in the Protein Profiles of Two Cyanobacterial Isolates, CdO-10 and Bol-32 (Chroococcus spp.)|Asia Life Sci.8(1): 59-70|1999|
76339|A||Bisova,K., J. Hendrychova, V. Cepak, and V. Zachleder|Cell Growth and Division Processes are Differentially Sensitive to Cadmium in Scenedesmus quadricauda|Folia Microbiol. (Prague)48(6): 805-816|2003|10.1007/BF02931518
76343|T||Gupta,P., and A. Kar|Role of Ascorbic Acid Cadmium-Induced Thyroid Dysfunction and Lipid Peroxidation|J. Appl. Toxicol.18(5): 317-320|1998|10.1002/(SICI)1099-1263(1998090)18:5<317::AID-JAT514>3.0.CO;2-U
76344|T||Montandon,R., J.E. Slosser, and L.E. Clark|Late-Season Termination Effects on Cotton Fruiting, Yield, and Boll Weevil (Coleoptera:  Curculionidae) Damage in Texas Dryland Cotton|J. Econ. Entomol.87(6): 1647-1652|1994|10.1093/jee/87.6.1647
76345|T||Wu,J., R. Zhang, and R.M. Lilley|Methylation of Arsenic In Vitro by Cell Extracts from Bentgrass (Agrostis tenuis):  Effect of Acute Exposure of Plants to Arsenate|Funct. Plant Biol.29(1): 73-80|2002|10.1071/PP01022
76347|T||Ali,G., P.S. Srivastava, and M. Iqbal|Effect of Cadmium and Copper on Growth of Bacopa monniera Regenerants|Biol. Plant. (Praha)41(4): 635-639|1998|10.1023/A:1001869122523
76348|T||Law,T.F., S. Lebel-Hardenack, and S.R. Grant|Silver Enhances Stamen Development in Female White Campion (Silene latifolia [Caryophyllaceae])|Am. J. Bot.89(6): 1014-1020|2002|10.3732/ajb.89.6.1014
76350|T||Akthar,N., K.S. Sastry, and P.M. Mohan|Biosorption of Silver Ions by Processed Aspergillus niger Biomass|Biotechnol. Lett.17(5): 551-556|1995|10.1007/BF00132027
76352|A||Matsuo,A.Y.O., R.C. Playle, A.L. Val, and C.M. Wood|Physiological Action of Dissolved Organic Matter in Rainbow Trout in the Presence and Absence of Copper:  Sodium Uptake Kinetics and Unidirectional Flux Rates in Hard and Softwater|Aquat. Toxicol.70(1): 63-81|2004|10.1016/j.aquatox.2004.07.005
76353|A||Ohji,M., T. Arai, and N. Miyazaki|Acute Toxicity of Tributyltin to the Caprellidea (Crustacea:  Amphipoda)|Mar. Environ. Res.59(3): 197-201|2005|10.1016/j.marenvres.2004.02.002
76354|A||Hernroth,B., S.P. Baden, K. Holm, T. Andre, and I. Soderhall|Manganese Induced Immune Suppression of the Lobster, Nephrops norvegicus|Aquat. Toxicol.70(3): 223-231|2004|10.1016/j.aquatox.2004.09.004
76355|A||De Schamphelaere,K.A.C., M. Canli, V. Van Lierde, I. Forrez, F. Vanhaecke, and C.R. Janssen|Reproductive Toxicity of Dietary Zinc to Daphnia magna|Aquat. Toxicol.70(3): 233-244|2004|10.1016/j.aquatox.2004.09.008
76356|A||De Boeck,G., W. Meeus, W. De Coen, and R. Blust|Tissue-Specific Cu Bioaccumulation Patterns and Differences in Sensitivity to Waterborne Cu in Three Freshwater Fish:  Rainbow Trout (Oncorhynchus mykiss), Common Carp (Cyprinus carpio), and Gibel Carp (Carassius auratu|Aquat. Toxicol.70(3): 179-188|2004|10.1016/j.aquatox.2004.07.001
76357|A||Plekhanov,S.Y., I.M. Al-Salman, and M.M. Telitchenko|Bioassay of Zinc, Cadmium, and Cobalt Based on Physiological Reaction of Charophyte Algal Cells|Hydrobiol. J.26(6): 50-55|1990|
76358|T||Nystrom,R.R.|Cytological Changes Occurring in the Liver of Coturnix Quail with an Acute Arsenic Exposure|Drug Chem. Toxicol.7(6): 587-594|1984|10.3109/01480548409042821
76360|T||Kornegay,E.T., D.J. Blodgett, G.G. Schurig, and M.D. Lindemann|Interactive Effects for Supplemental Biotin and Copper for Weanling Pigs|In: Va.Tech.Livestock Res.Rep.No.5, VPI, Blacksburg, VA:5-9|1986|
76361|T||Vohra,P., and F.H. Kratzer|Zinc, Copper and Manganese Toxicities in Turkey Poults and Their Alleviation by EDTA|Poult. Sci.47(3): 699-704|1968|10.3382/ps.0470699
76362|T||Pappas,B.A., D. Zhang, C.M. Davidson, T. Crowder, G.A.S. Park, and T. Fortin|Perinatal Manganese Exposure:  Behavioral, Neurochemical, and Histopathological Effects in the Rat|Neurotoxicol. Teratol.19(1): 17-25|1997|10.1016/S0892-0362(96)00185-7
76364|T||Woerpel,H.R., and S.L. Balloun|Effect of Iron and Magnesium on Manganese Metabolism|Poult. Sci.43:1134-1142|1964|10.3382/ps.0431134
76365|T||Omole,T.A.|Influence of Levels of Dietary Protein and Supplementary Copper on the Performance of Growing Rabbits|Br. Vet. J.133:593-599|1977|10.1016/S0007-1935(17)33939-8
76366|T||Rana,S.V.S., and A. Kumar|Enzymological Studies on the Liver of Rats Fed with Molybdenum and Copper|Toxicol. Lett.6:163-166|1980|10.1016/0378-4274(80)90185-X
76367|T||Komura,J., and M. Sakamoto|Short-Term Oral Administration of Several Manganese Compounds in Mice:  Physiological and Behavioral Alterations Caused by Different Forms of Manganese|Bull. Environ. Contam. Toxicol.46:921-928|1991|10.1007/BF01689739
76368|T||Desole,M.S., G. Esposito, R. Migheli, L. Fresu, S. Sircana, D. Zangani, M. Miele, and E. Miele|Cellular Defence Mechanisms in the Striatum of Young and Aged Rats Subchronically Exposed to Manganese|Neuropharmacology34(3): 289-295|1995|10.1016/0028-3908(94)00140-N
76371|T||Quaghebeur,M., and Z. Rengel|The Distribution of Arsenate and Arsenite in Shoots and Roots of Holcus lanatus is Influenced by Arsenic Tolerance and Arsenate and Phosphate Supply|Plant Physiol.132(3): 1600-1609|2003|10.1104/pp.103.021741
76374|T||Dasgupta,T., S.A. Hossain, A.A. Meharg, and A.H. Price|An Arsenate Tolerance Gene on Chromosome 6 of Rice|New Phytol.163(1): 45-49|2004|10.1111/j.1469-8137.2004.01109.x
76375|T||Meharg,A.A., and L. Jardine|Arsenite Transport into Paddy Rice (Oryza sativa) Roots|New Phytol.157(1): 39-44|2003|10.1046/j.1469-8137.2003.00655.x
76376|T||Sadka,A., B. Artzi, L. Cohen, E. Dahan, D. Hasdai, E. Tagari, and Y. Erner|Arsenite Reduces Acid Content in Citrus Fruit, Inhibits Activity of Citrate Synthase but Induces Its Gene Expression|J. Am. Soc. Hortic. Sci.125(3): 288-293|2000|10.21273/JASHS.125.3.288
76377|T||Peryea,F.J.|Phosphate Starter Fertilizer Temporarily Enhances Soil Arsenic Uptake by Apple Trees Grown Under Field Conditions|Hortscience33(5): 826-829|1998|10.21273/HORTSCI.33.5.826
76379|T||Uthus,E.O.|High Dietary Arsenic Exacerbates Copper Deprivation in Rats|J. Trace Elem. Exp. Med.14(1): 43-55|2001|10.1002/1520-670X(2001)14:1<43::AID-JTRA1007>3.0.CO;2-#
76381|A||Misra,V., S.D. Pandey, and P.N. Viswanathan|Environmental Significance of Humic Acid in the Sequestration of Metals|Chem. Ecol.13(2): 103-112|1996|10.1080/02757549608035523
76385|T||Steward,V.B., G. Braness, and S. Gill|Ornamental Pest Management Using Imidacloprid Applied with the Kioritz Soil Injector|J. Arboric.24(6): 344-346|1998|
76386|T||Papaconstantinou,A.D., K.M. Brown, B.T. Noren, T. McAlister, B.R. Fisher, and P.L. Goering|Mercury, Cadmium, and Arsenite Enhance Heat Shock Protein Synthesis in Chick Embryos Prior to Embryotoxicity|Birth Defects Res. B Dev. Reprod. Toxicol.68(6): 456-464|2003|10.1002/bdrb.10044
76391|T||Stevenson,M.H., J. Pearce, and N. Jackson|The Effects of Dietary Intake and of Dietary Concentration of Copper Sulphate on the Laying Domestic Fowl:  Effects on Laying Performance and Tissue Mineral Contents|Br. Poult. Sci.24:327-335|1983|10.1080/00071668308416747
76392|T||Sazzad,H.M., A.G. Bertechini, and P.T.C. Nobre|Egg Production, Tissue Deposition and Mineral Metabolism in Two Strains of Commercial Layers with Various Levels of Manganese in Diets|Anim. Feed Sci. Technol.46:271-275|1994|10.1016/0377-8401(94)90145-7
76393|T||Pimentel,J.L., J.L. Greger, M.E. Cook, and J.L. Stahl|Iron Metabolism in Chicks Fed Various Levels of Zinc and Copper|J. Nutr. Biochem.3:140-145|1992|10.1016/0955-2863(92)90107-T
76394|T||Scheideler,S.E.|Interaction of Dietary Calcium, Manganese, and Manganese Source (Mn Oxide or Mn Methionine Complex) on Chick Performance and Manganese Utilization|Biol. Trace Elem. Res.29:217-228|1991|10.1007/BF03032679
76395|T||Baker,D.H., and K.M. Halpin|Manganese and Iron Interrelationship in the Chick|Poult. Sci.70:146-152|1991|10.3382/ps.0700146
76396|T||Wedekind,K.J., and D.H. Baker|Manganese Utilization in Chicks as Affected by Excess Calcium and Phosphorus Ingestion|Poult. Sci.69:977-984|1990|10.3382/ps.0690977
76397|T||Fly,A.D., B.S. Oscar, A. Izquierdo, K.R. Lowry, and D.H. Baker|Manganese Bioavailability in a Mn-Methionine Chelate|Nutr. Res.9:901-910|1989|10.1016/S0271-5317(89)80035-1
76398|T||Henry,P.R., C.B. Ammerman, and R.D. Miles|Bioavailability of Manganese Monoxide and Manganese Dioxide for Broiler Chicks|Nutr. Rep. Int.36(2): 425-433|1987|
76399|T||Halpin,K.M., D.C. Chausow, and D.H. Baker|Efficiency of Manganese Absorption in Chicks fed Corn-Soy and Casein Diets|J. Nutr.116:1747-1751|1986|10.1093/jn/116.9.1747
76400|T||Southern,L.L., and D.H. Baker|Eimeria acervulina Infection in Chicks fed Deficient or Excess Levels of Manganese|J. Nutr.113:172-177|1983|10.1093/jn/113.1.172
76401|T||Black,J.R., C.B. Ammerman, P.R. Henry, and R.D. Miles|Tissue Manganese Uptake as a Measure of Manganese Bioavailability|Nutr. Rep. Int.29(4): 807-814|1984|
76402|T||Seth,P.C.C., and D.R. Clandinin|Effect of Including Rapeseed Meal in the Ration of Broiler-Type Chickens on the Incidence of Perosis and the Ineffectiveness of Supplemental Manganese|Poult. Sci.52:1158-1160|1973|10.3382/ps.0521158
76403|T||Reid,B.L., C.W. Weber, and S.I. Savage|Chelated Minerals in Poultry Nutrition:  Significant Increases in Bone Ash Manganese Shown with Use of Supplemental Chelated Trace Minerals|Feedstuffs45:38-40|1973|
76404|T||Gardiner,E.E.|Lack of Response to Added Dietary Manganese of Chicks fed Wheat-Soybean Meal or Corn-Soybean Meal Based Diets|Can. J. Anim. Sci.52:737-740|1972|10.4141/cjas72-087
76405|T||Settle,E.A., F.R. Mraz, C.R. Douglas, and J.K. Bletner|Effect of Diet and Manganese Level on Growth, Perosis and 54Mn Uptake in Chicks|J. Nutr.97(1): 141-146|1969|10.1093/jn/97.1.141
76406|T||Mathers,J.W., and R. Hill|Manganese in the Nutrition and Metabolism of the Pullet 2.  The Manganese Contents of the Tissues of Pullets Given Diets of High or Low Manganese Content|Br. J. Nutr.22:635-643|1968|10.1079/BJN19680074
76407|T||Hill,R., and J.W. Mathers|Manganese in the Nutrition and Metabolism of the Pullet 1. Shell Thickness and Manganese Content of Eggs from Birds Given a Diet of Low or High Manganese Content|Br. J. Nutr.22:625-633|1968|10.1079/BJN19680073
76408|T||Gabrashanska,M., S. Tepavitcharova, C. Balarew, M.M. Galvez-Morros, and P. Arambarri|The Effect of Excess Dietary Manganese on Uninfected and Ascaridia galli Infected Chicks|J. Helminthol.73:313-316|1999|10.1017/S0022149X99000517
76409|T||Hill,R.|Vitamin D and Manganese in the Nutrition of the Chick|Br. J. Nutr.21:507-512|1967|10.1079/BJN19670053
76410|T||Jenkins,K.J., and M. Hidiroglou|Tolerance of the Preruminant Calf for Excess Manganese or Zinc in Milk Replacer|J. Dairy Sci.74:1047-1053|1991|10.3168/jds.S0022-0302(91)78254-4
76411|T||Hastings,C.E.,Jr., and G.C. Llewellyn|Reduced Aflatoxicosis in Livers of Hamsters fed a Manganese Sulfate Supplement|Nutr.Cancer10:67-77|1987|10.1080/01635588709513941
76412|T||Svajgr,A.J., E.R.,Jr. Peo, and P.E.,Jr. Vipperman|Effects of Dietary Levels of Manganese and Magnesium on Performance of Growing-Finishing Swine Raised in Confinement and on Pasture|J. Anim. Sci.29(3): 439-443|1969|10.2527/jas1969.293439x
76413|T||Nachtman,J.P., R.E. Tubben, and R.L. Commissaris|Behavioral Effects of Chronic Manganese Administration in Rats:  Locomotor Activity Studies|Neurobehav. Toxicol. Teratol.8:711-715|1986|
76414|T||Kristensson,K., H. Eriksson, B. Lundh, L.O. Plantin, L. Wachtmeister, M. El Azazi, C. Morath, and E. Heilbronn|Effects of Manganese Chloride on the Rat Developing Nervous System|Acta Pharmacol. Toxicol.59:345-348|1986|10.1111/j.1600-0773.1986.tb00182.x
76415|T||Svensson,O., A. Hjerpe, F.P. Reinholt, and B. Engfeldt|The Effect of Manganese Ingestion, Phosphate Depletion, and Starvation on the Morphology of the Epiphyseal Growth Plate|Clin. Orthop. Relat. Res.197:286-294|1985|10.1097/00003086-198507000-00035
76416|T||Kontur,P.J., and L.D. Fechter|Brain Manganese, Catecholamine Turnover, and the Development of Startle in Rats Prenatally Exposed to Manganese|Teratology32(1): 1-11|1985|10.1002/tera.1420320102
76417|T||Magour,S., H. Maser, and I. Steffen|Effect of Daily Oral Intake of Manganese on Free Polysomal Protein Synthesis of Rat Brain|Acta Pharmacol. Toxicol.53:88-91|1983|10.1111/j.1600-0773.1983.tb01873.x
76418|T||Chandra,S.V.|Psychiatric Illness due to Manganese Poisoning|Acta Psychiat. Scand.67(suppl.303): 49-54|1983|10.1111/j.1600-0447.1983.tb00941.x
76419|T||Gruden,N.|Dietary Variations and Manganese Transduodenal Transport in Rats|Period. Biol.81(3): 567-570|1979|
76420|T||Chandra,S.V., G.S. Shukla, and D.K. Saxena|Manganese-Induced Behavioral Dysfunction and Its Neurochemical Mechanism in Growing Mice|J. Neurochem.33:1217-1221|1979|10.1111/j.1471-4159.1979.tb05267.x
76421|T||Ivan,M., and C.M. Grieve|Effects of Zinc, Copper, and Manganese Supplementation of High-Concentrate Ration on Digestibility, Growth, and Tissue Content of Holstein Calves|J. Dairy Sci.58(3): 410-415|1975|10.3168/jds.S0022-0302(75)84579-6
76422|T||Omar,E.M., E.R.M. Abou-Hussein, R.M. Ali, and O.M.E. Yousef|Manganese Requirement of Growing Fayoumi Chicks|Pak. J. Sci. Ind. Res.17(6): 211-214|1974|
76423|T||Grace,N.D.|Effect of high Dietary Mn Levels on the Growth Rate and the Level of Mineral Elements in the Plasma and Soft Tissues of Sheep|N. Z. J. Agric. Res.16:177-180|1973|10.1080/00288233.1973.10421132
76425|T||Abrams,E., J.W. Lassiter, W.J. Miller, M.W. Neathery, R.P. Gentry, and D.M. Blackmon|Effect of Normal and High Manganese Diets on the Role of Bile in Manganese Metabolism of Calves|J. Anim. Sci.45(5): 1108-1113|1977|10.2527/jas1977.4551108x
76426|T||Hidiroglou,M., S.K. Ho, and J.F. Standish|Effects of Dietary Manganese Levels on Reproductive Performance of Ewes and on Tissue Mineral Composition of Ewes and Day-Old Lambs|Can. J. Anim. Sci.58:35-41|1978|10.4141/cjas78-005
76427|T||Kincaid,R.L., W.J. Miller, R.P. Gentry, M.W. Neathery, and D.L. Hampton|Intracellular Distribution of Zinc and Zinc-65 in Calves Receiving High but Nontoxic Amounts of Zinc|J. Dairy Sci.59(3): 552-555|1976|10.3168/jds.S0022-0302(76)84239-7
76428|T||Ivan,M., and M. Hidiroglou|Effect of Dietary Manganese on Growth and Manganese Metabolism in Sheep|J. Dairy Sci.63:385-390|1980|10.3168/jds.S0022-0302(80)82944-4
76429|T||Bonilla,E.|L-Tyrosine Hydroxylase Activity in the Rat Brain After Chronic Oral Administration of Manganese Chloride|Neurobehav.Toxicol.2:37-41|1980|
76430|T||Hill,G.M., E.R. Miller, P.A. Whetter, and D.E. Ullrey|Concentration of Minerals in Tissues of Pigs from Dams Fed Different Levels of Dietary Zinc|J. Anim. Sci.57(1): 130-138|1983|10.2527/jas1983.571130x
76431|T||Ali,M.M., R.C. Murthy, D.K. Saxena, and S.V. Chandra|Effect of Low Protein Diet on Manganese Neurotoxicity:  II.  Brain GABA and Seizure Susceptibility|Neurobehav. Toxicol. Teratol.5:385-389|1983|
76432|T||Ho,S.Y., W.J. Miller, R.P. Gentry, M.W. Neathery, and D.M. Blackmon|Effects of High but Nontoxic Dietary Manganese and Iron on Their Metabolism by Calves|J. Dairy Sci.67:1489-1495|1984|10.3168/jds.S0022-0302(84)81466-6
76433|T||Black,J.R., C.B. Ammerman, P.R. Henry, and R.C. Littell|Influence of Dietary Manganese on Tissue Trace Mineral Accumulation and Depletion in Sheep|Can. J. Anim. Sci.65:653-658|1985|10.4141/cjas85-077
76434|T||Black,J.R., C.B. Ammerman, and P.R. Henry|Effects of High Dietary Manganese as Manganese Oxide or Manganese Carbonate in Sheep|J. Anim. Sci.60(3): 861-866|1985|10.2527/jas1985.603861x
76435|T||Black,J.R., C.B. Ammerman, and P.R. Henry|Effect of Quantity and Route of Administration of Manganese Monoxide on Feed Intake and Serum Manganese in Ruminants|J. Dairy Sci.68:433-436|1985|10.3168/jds.S0022-0302(85)80841-9
76436|T||DiCostanzo,A., J.C. Meiske, S.D. Plegge, D.L. Haggard, and K.M. Chaloner|Influence of Manganese, Copper and Zinc on Reproductive Performance of Beef Cows|Nutr. Rep. Int.34(2): 287-293|1986|
76437|T||Lee,D.Y., and P.E. Johnson|Factors Affecting Absorption and Excretion of 54Mn in Rats|J. Nutr.118(12): 1509-1516|1988|10.1093/jn/118.12.1509
76438|T||Kontur,P.J., and L.D. Fechter|Brain Regional Manganese Levels and Monoamine Metabolism in Manganese-Treated Neonatal Rats|Neurotoxicol. Teratol.10:295-303|1988|10.1016/0892-0362(88)90031-1
76439|T||Mitjans,M., and M.P. Vinardell|Hematological and Biochemical Parameters in the Rat Following Subchronic Oral Administration of Dodine (N-Dodecylguanidine Acetate)|Pestic. Biochem. Physiol.65(3): 151-159|1999|10.1006/pest.1999.2447
76440|T||Mitjans,M., and M.P. Vinardell|Effects of Dodine (n-Dodecylguanidine Acetate) Subchronic Treatment on Intestinal Morphology and Brush Border Enzymatic Activity in Rats|Pestic. Biochem. Physiol.62(2): 96-101|1998|10.1006/pest.1998.2370
76441|T||Iglesias,J., J. Castillejo, and R. Castro|The Effects of Repeated Applications of the Molluscicide Metaldehyde and the Biocontrol Nematode Phasmarhabditis hermaphrodita on Molluscs, Earthworms, Nematodes, Acarids and Collembolans:  A Two-Year Study in North-Wes|Pest Manag. Sci.59(11): 1217-1224|2003|10.1002/ps.758
76442|T||Iglesias,J., J. Castillejo, and R. Castro|Field Test Using the Nematode Phasmarhabditis Hermaphrodita for Biocontrol of Slugs in Spain|Biocontrol Sci. Technol.11(1): 93-98|2001|10.1080/09583150020029772
76443|T||Ogasawara,M., K. Takahashi, K. Yoneyama, Y. Takeuchi, and M. Konnai|Acetolactate Synthase Inhibiting Herbicides Promote Lateral Bud Sprouting in Cyperus serotinus Tubers|Zasso Kenkyu38(4): 253-258|1993|10.3719/weed.38.253
76444|T||Horsburgh,R.L., S.W. Kilmer, K.E. Cook II, M.K. Cook, J.R. Warren, and J.R. Dogger|Apple, Miticide Evaluations 1991|Insectic. Acaric. Tests17:10-12|1992|10.1093/iat/17.1.10
76445|T||Lewthwaite,S.L., and C.M. Triggs|Weed Control in Sweetpotatoes|Proc. N. Z. Plant Prot. Conf.53:262-268|2000|10.30843/nzpp.2000.53.3705
76446|T||Wiltshire,C.W., and D.M. Glen|Effects of Molluscicides on Slugs and Soil Arthropods in Winter Cereal Crops|BCPC Monogr. - Br. Crop Prot. Counc.41:399-406|1989|
76447|T||James,T.K., A. Rahman, and P. De Jong|Flazasulfuron for Control of Ragwort (Senecio jacobaea) in Pasture|Proc. N. Z. Plant Prot. Conf.50:477-481|1997|10.30843/nzpp.1997.50.11307
76448|T||Massie,M.R., E.M. Lapoczka, K.D. Boggs, K.E. Stine, and G.E. White|Exposure to the Metabolic Inhibitor Sodium Azide Induces Stress Protein Expression and Thermotolerance in the Nematode Caenorhabditis elegans|Cell Stress Chaperones8(1): 1-7|2003|10.1379/1466-1268(2003)8<1:ETTMIS>2.0.CO;2
76452|T||Solomon,M.G., and K.J.M. Hooker|Chemical Repellents for Reducing Pesticide Hazard to Honeybees in Apple Orchards|J. Apic. Res.28(4): 223-227|1989|10.1080/00218839.1989.11101188
76453|T||Mercer,P.C., and A. Ruddock|Evaluation of Full and Reduced Dosages of Fungicides on Yield of Spring Barley and Incidence of Mildew (Erysiphe graminis) in N.Ireland|Tests Agrochem. Cultiv.16:8-9|1995|
76454|T||Thakur,V.S., and G.K. Gupta|Persistence of Dodine Residue on Apple (Malus domestica) Fruits|Indian J. Agric. Sci.62(8): 566-569|1992|
76455|T||Gooding,M.J., W.P. Davies, P.S. Kettlewell, and T.J. Hocking|The Influence of Late-Season Fungicide Application and Disease on the Hagberg Falling Number of Grain from Breadmaking Varieties of Winter Wheat|Cereal Res. Commun.14(3): 245-250|1986|
76456|T||Karjalainen,R., and S. Karjalainen|Yield Reduction of Spring Wheat in Relation to Disease Development Caused by Septoria nodorum|J. Agric. Sci. Finl.62(3): 255-263|1990|
76458|T||Sparks,S.E., G.B. Quistad, L.M. Cole, and J.E. Casida|Metaldehyde Molluscicide Action in Mice: Distribution, Metabolism, and Possible Relation to GABAergic System|Pestic. Biochem. Physiol.55(3): 226-236|1996|10.1006/pest.1996.0052
76459|T||Booze,T.F., and F.W. Oehme|An Investigation of Metaldehyde and Acetaldehyde Toxicities in Dogs|Fundam. Appl. Toxicol.6(3): 440-446|1986|10.1016/0272-0590(86)90217-4
76460|T||Jonker,D., R.A. Woutersen, P.J. Van Bladeren, H.P. Til, and V.J. Feron|4-Week Oral Toxicity Study of a Combination of Eight Chemicals in Rats:  Comparison with the Toxicity of the Individual Compounds|Food Chem. Toxicol.28(9): 623-631|1990|10.1016/0278-6915(90)90170-R
76461|T||Doi,M., K. Aoe, S. Watabe, K. Inamoto, and H. Imanishi|Leaf Yellowing of Cut Standard Chrysanthemum (Dendranthema grandiflora kitamura) 'Shuho-no-Chikara' Induced by Ethylene and the Postharvest Increase in Ethylene Sensitivity|J. Jpn. Soc. Hortic. Sci.73(3): 229-234|2004|10.2503/jjshs.73.229
76462|T||Milus,E.A.|Effect of Foliar Fungicides on Disease Control, Yield and Test Weight of Soft Red Winter Wheat|Crop Prot.13(4): 291-295|1994|10.1016/0261-2194(94)90018-3
76463|T||Hardwick,N.V., J.E.E. Jenkins, B. Collins, and S.J. Groves|Powdery Mildew (Erysiphe graminis) on Winter Wheat:  Control with Fungicides and the Effects on Yield|Crop Prot.13(2): 93-98|1994|10.1016/0261-2194(94)90157-0
76464|T||Lewis,G.C., R.H. Lavender, and T.M. Martyn|The Effect of Propiconazole on Foliar Fungal Diseases, Herbage Yield and Quality of Perennial Ryegrass|Crop Prot.15(1): 91-95|1996|10.1016/0261-2194(95)00123-9
76465|T||Culbreath,A.K., T.B. Brenneman, and C.K. Kvien|Use of a Resistant Peanut Cultivar with Copper Fungicides and Reduced Fungicide Applications for Control of Late Leaf Spot|Crop Prot.11(4): 361-365|1992|10.1016/0261-2194(92)90064-C
76466|T||Loughman,R., and G.J. Thomas|Fungicide and Cultivar Control of Septoria Diseases of Wheat|Crop Prot.11(4): 349-354|1992|10.1016/0261-2194(92)90062-A
76467|T||Barbetti,M.J.|Efficacy of Fungicides for Control of Phoma Black Stem and Pseudopeziza Leaf Spot, and the Effects on Herbage and Seed Production, in Annual Medicago polymorpha var. brevispina|Plant Prot. Q.7(1): 21-22|1992|
76468|T||Masoodi,M.A., K.C. Bhagat, M.R. Sofi, and V.K. Koul|Toxicity of Some Fungicides to Adult Parasitoids Aphytis proclia Walker and Encarcia perniciosi Tower of San Jose Scale|J. Insect Sci.8(2): 154-156|1995|
76469|T||Grutzmacher,A.D., O. Zimmermann, A. Yousef, and S.A. Hassan|The Side-Effects of Pesticides Used in Integrated Production of Peaches in Brazil on the Egg Parasitoid Trichogramma cacoeciae Marchal (Hym., Trichogrammatidae)|J. Appl. Entomol.128(6): 377-383|2004|10.1111/j.1439-0418.2004.00800.x
76470|T||Masood,K.J., M.F. Rahman, J. Narsaiah, and M. Mustafa|Haematological and Biochemical Alterations in Rats Subjected to Dermal Application of Dodine|Indian J. Comp. Anim. Physiol.9(1): 27-31|1991|
76471|T||Scott,D.B., H.A. Van Niekerk, and T.G. Paxon|Effect of Propiconazole on Necrotrophic Fungi and Yield of Barley Genotypes Differing in Susceptibility to Rhynchosporium secalis|Crop Prot.11(3): 243-247|1992|10.1016/0261-2194(92)90044-6
76472|T||El-Abyad,M.S., M.A. Gabr, and A.M. Abu-Taleb|Metabolic Activities of the Sugar-Beet Pathogens Fusarium solani (Mart.) Sacc. and Sclerotium rolfsii Sacc. Under Pyramin Stress|Plant Soil132(1): 103-112|1991|10.1007/BF00011017
76477|A||Singh,D.P., N. Singh, and K. Verma|Photooxidative Damage to the Cyanobacterium Spirulina platensis Mediated by Singlet Oxygen|Curr. Microbiol.31(1): 44-48|1995|10.1007/BF00294633
76479|T||Sugar,D., and P.H. Westigard|Over-Tree Irrigation in Pear Orchards Influences Persistence of Foliar Residues of Four Pesticides|Hortscience28(10): 1020-1021|1993|10.21273/HORTSCI.28.10.1020
76480|T||Egaas,E.|Propiconazole and Dietary Components as Specific Inducers of Glutathione S-Transferases in Orthosia gothica|Pestic. Biochem. Physiol.53(1): 42-48|1995|10.1006/pest.1995.1053
76481|T||Juricek,M., T. Gichner, J. Kocisova, G.I. Yefremova, J. Veleminsky, J. Stanek, J. Moravcova, and J. Jary|Comparative Mutagenicity of 3 Azido-1,2-Propanediol and Sodium Azide in Various Pro- and Eu-karyote Systems|Mutat. Res.179(2): 175-182|1987|10.1016/0027-5107(87)90308-3
76482|T||Bozsik,A.|Effect of Chemicals on Aphidophagous Insects: Response of Adults of Common Green Lacewing Chrysoperla carnea to Pesticides|In: L.Polgar, et al.(Eds.), Behaviour and Impact of Aphidophaga, Godollo, Hungary, The Hague, Netherlands:297-304|1991|
76483|T||Martinez-Grueiro,M.M.|Acid Phosphatase Activity in Excretion/Secretion Products from Heligmosomoides polygyrus Adults:  An Indicator of the Physiological Status of the Worms|Parasitol. Res.88(10): 946-949|2002|10.1007/s00436-002-0678-4
76484|T||Welty,R.E.|Effect of Fungicides Applied Singly and in Combination on Seed Yield and Three Leaf Spot Diseases in Orchardgrass|Plant Dis.75(10): 1004-1008|1991|10.1094/PD-75-1004
76485|T||Smith,B.J.|Botrytis Blossom Blight of Southern Blueberries: Cultivar Susceptibility and Effect of Chemical Treatments|Plant Dis.82(8): 924-927|1998|10.1094/PDIS.1998.82.8.924
76486|T||Czembor,E.|Effect of Propiconazole (Tilt 250 EC) and Drechslera poae on Seed Yield of Kentucky Bluegrass|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)110(6): 560-567|2003|
76487|T||Conner,R.L., A.D. Kuzyk, and H. Su|Impact of Powdery Mildew on the Yield of Soft White Spring Wheat Cultivars|Can. J. Plant Sci.83(4): 725-728|2003|10.4141/P03-043
76488|T||Bailey,K.L., A.M. Johnston, H.R. Kutcher, B.D. Gossen, and R.A.A. Morrall|Managing Crop Losses from Foliar Diseases with Fungicides, Rotation, and Tillage in the Saskatchewan Parkland|Can. J. Plant Sci.80(1): 169-175|2000|10.4141/P99-069
76489|T||Nabati,D.A., R.E. Schmidt, and D.J. Parrish|Alleviation of Salinity Stress in Kentucky Bluegrass by Plant Growth Regulators and Iron|Crop Sci.34(1): 198-202|1994|10.2135/cropsci1994.0011183X003400010035x
76490|T||Sutton,J.C., and G. Roke|Interactive Effects of Foliar Diseases and Fungicide Sprays in Cultivars of Winter Wheat in Ontario|Can. Plant Dis. Surv.66(2): 37-42|1986|
76491|A||Coloso,R.M., I.G. Borlongan, and R.A. Blum|Use of Metaldehyde as a Molluscicide in Semi-commercial and Commercial Milkfish Ponds|Crop Prot.17(8): 669-674|1998|10.1016/S0261-2194(98)00071-4
76492|T||Welty,R.E., and M.D. Azevedo|Seed Yield Responses of Five Selections of Tall Fescue Susceptible or Resistant to Stem Rust with or Without Propiconazole|Plant Dis.80(6): 625-628|1996|10.1094/PD-80-0625
76493|T||Khan,A., and L.A. Spilde|The Influence of Propiconazole Fungicide Application on Hard Red Spring Wheat Cultivars|Pak. J. Bot.27(1): 179-186|1995|
76494|T||Bajet,N.B., B.L. Renfro, and J.M. Valdez Carrasco|Control of Tar Spot of Maize and Its Effect on Yield|Int. J. Pest Manag.40(2): 121-125|1994|10.1080/09670879409371868
76495|T||Lee,C.J., F.A. Manthey, R.S. Ellefson, R.D. Horsley, and P.B. Schwarz|Effects of the Fungicide Propiconazole on Agronomic and Quality Traits of Hulled and Hulless Barley|J. Prod. Agric.10(2): 320-322|1997|10.2134/jpa1997.0320
76496|T||Mathre,D.E., G.D. Kushnak, J.M. Martin, W.E. Grey, and R.H. Johnston|Effect of Residue Management on Barley Production in the Presence of Net Blotch Disease|J. Prod. Agric.10(2): 323-326|1997|10.2134/jpa1997.0323
76497|T||Guy,S.O., E.S. Oplinger, D.W. Wiersma, and C.R. Grau|Agronomic and Economic Responses of Winter Wheat to Foliar Fungicides|J. Prod. Agric.2(1): 68-73|1989|10.2134/jpa1989.0068
76498|T||Kelley,K.W.|Nitrogen and Foliar Fungicide Effects on Winter Wheats|J. Prod. Agric.6(1): 53-57|1993|10.2134/jpa1993.0053
76499|T||Sun,G., S.F. Thai, D.B. Tully, G.R. Lambert, A.K. Goetz, D.C. Wolf, D.J. Dix, and S. Nesnow|Propiconazole-Induced Cytochrome P450 Gene Expression and Enzymatic Activities in Rat and Mouse Liver|Toxicol. Lett.155(2): 277-287|2005|10.1016/j.toxlet.2004.10.006
76501|T||Haeuser-Hahn,I., U. Heinemann, P. Baur, and A. Suty-Heinze|HEC 5725 - Chemodynamic Behavior of a New Leaf Systemic Strobilurin Fungicide|Br. Crop Prot. Conf. Pests Dis.2:623-628|2002|
76502|T||Karjalainen,R.|Yield Reduction of Spring Barley in Relation to Disease Development Caused by Rhynchosporium secalis|J. Agric. Sci. Finl.62(3): 245-254|1990|
76503|T||Wood,B.W., J.A. Payne, and T.R. Gottwald|Inhibition of Photosynthesis in Pecan Leaves by Fungicides|Plant Dis.69(11): 997-998|1985|
76504|T||Wulster,G.J., T.J. Gianfagna, and B.B. Clarke|Comparative Effects of Ancymidol, Propiconazol, Triadimefon, and Mobay RSW0411 on Lily Height|Hortscience22(4): 601-602|1987|10.21273/HORTSCI.22.4.601
76505|T||Sutton,J.C.|Effectiveness of Fungicides for Managing Foliar Diseases and Promoting Yields of Ontario Winter Wheat|Phytoprotection (Multiple Languages)66(2): 141-152|1985|
76506|T||Reilly,C.C., and B.W. Wood|No Adverse Effect of Early Season Fungicide and Zinc Sprays on Leaf Area, Fruit Set, and Nut Quality of Pecan|Hortscience31(5): 808-810|1996|10.21273/HORTSCI.31.5.808
76507|T||Speiser,B., and C. Kistler|Field Tests with a Molluscicide Containing Iron Phosphate|Crop Prot.21(5): 389-394|2002|10.1016/S0261-2194(01)00120-X
76508|T||Kimpinski,J., and H.W. Johnston|Effects of Aldicarb and Fungicides on Pratylenchus penetrans Populations, Root Rot and Net Blotch Severity on Barley|Phytoprotection (Multiple Languages)76(1): 9-16|1995|10.7202/706080ar
76509|T||Morris,C.F., D.L. Ferguson, and G.M. Paulsen|Nitrogen Fertilizer Management with Foliar Fungicide and Growth Regulator for Hard Winter Wheat Production|Appl. Agric. Res.4(2): 135-140|1989|
76510|T||Coulter,R.M.A.|Effects of Varietal Disease Resistance and Fungicide Programmes on Disease and Yield of Four Modern Varieties of Rye|Plant Var.Seeds9(2): 87-94|1996|
76512|T||Van den Berg,C.G.J., and B.G. Rossnagel|Effect of Tilt on Severity of Spot-Type Net Blotch, Grain Yield and Yield Components in Barley|Can. J. Plant Sci.70(2): 473-480|1990|10.4141/cjps90-055
76513|T||Croll,S.D., N.A. Greene, R.M. Lindsay, and S.J. Wiegand|Sodium-Azide-Induced Learning Deficits in Rats:  Time Course and Corresponding Pathology|Psychobiology25(1): 34-47|1997|10.3758/BF03327025
76514|T||Marshall,D., and R.L. Sutton|Epidemiology of Stripe Rust, Virulence of Puccinia striiformis f. sp. hordei, and Yield Loss in Barley|Plant Dis.79(7): 732-737|1995|10.1094/PD-79-0732
76515|T||Berredo-Pinho,M., C.E. Peres-Sampaio, P.P.M. Chrispim, R. Belmont-Firpo, A.P. Lemos, A. Martiny, M.A. Vannier-Santos, a|A Mg-Dependent Ecto-ATPase in Leishmania amazonensis and Its Possible Role in Adenosine Acquisition and Virulence|Arch. Biochem. Biophys.391(1): 16-24|2001|10.1006/abbi.2001.2384
76516|T||Wang,Y., and C.V. Borlongan|Sodium Azide-Induced Neurotoxicity|In: P.R.Sanberg, H.Nishino, and C.V.Borlongan (Eds.), Contemporary Neurosci.Ser., Mitochondrial Inhibitors and Neurodegenerative Disorders, Humana Press Inc., Totowa, NJ:233-242|2000|
76517|A||Macor,M., L. Ebringer, and P. Siekel|Hyperthermia and Other Factors Increasing Sensitivity of Euglena to Mutagens and Carcinogens|Teratog. Carcinog. Mutagen.5(5): 329-337|1985|10.1002/tcm.1770050503
76518|T||Easterbrook,M.A., M.G. Solomon, J.E. Cranham, and E.F. Souter|Trials of an Integrated Pest Management Programme Based on Selective Pesticides in English Apple Orchards|Crop Prot.4(2): 215-230|1985|10.1016/0261-2194(85)90019-5
76519|T||Palmer,J.W., S.B. Davies, P.W. Shaw, and J.N. Wunsche|Growth and Fruit Quality of 'Braeburn' Apple (Malus domestica) Trees as Influenced by Fungicide Programmes Suitable for Organic Production|N. Z. J. Crop Hortic. Sci.31(2): 169-177|2003|10.1080/01140671.2003.9514249
76520|T||Dutzmann,S., A. Mauler-Machnik, F. Kerz-Mohlendick, J. Applegate, and U. Heinemann|HEC5725:  A Novel Leaf-Systemic Strobilurin Fungicide|Br. Crop Prot. Conf. Pests Dis.1:365-370|2002|
76521|T||Coulter,R.M.A.|Effect of Varietal Disease Resistance and Fungicide Programmes on Disease and Yield of Hybrid Rye Amando Compared with Two Popular Rye Varieties|Plant Var.Seeds9(2): 95-99|1996|
76522|T||LaFond,G.P.|Evaluation of Winter Wheat Management Practices Under Semi-Arid Conditions|Can. J. Plant Sci.72(1): 1-12|1992|10.4141/cjps92-001
76524|T||Elliott,M.L.|Effect of Demethylation Inhibiting Fungicides on 'Tifgreen' Bermudagrass Quality|HortTechnology9(2): 195-197|1999|10.21273/HORTTECH.9.2.195
76525|T||Buchs,W., U. Heimbach, and E. Czarnecki|Effects of Snail Baits on Non-Target Carabid Beetles|BCPC Monogr. - Br. Crop Prot. Counc.41:245-252|1989|
76526|T||Bieri,M., H. Schweizer, and K. Christensen|The Effect of Metaldehyde and Methiocarb Slug Pellets on Surface Dwelling Organisms in Grassland|BCPC Monogr. - Br. Crop Prot. Counc.41:391-392|1989|
76527|T||Halley,S., C.A. Bradley, J.R. Lukach, M. McMullen, J.J. Knodel, G.J. Endres, and T. Gregoire|Distribution and Severity of Pasmo on Flax in North Dakota and Evaluation of Fungicides and Cultivars for Management|Plant Dis.88(10): 1123-1126|2004|10.1094/PDIS.2004.88.10.1123
76528|T||Maheshwari,S.K., S.K. Gandhi, and P.C. Gupta|Effects of Fungicides on Yield and Incidence of Purple Blotch in Onion|Tests Agrochem. Cultiv.17:12-13|1996|
76529|T||Sana,T.R., V.H. Ferm, R.P.,Jr. Smith, R. Kruszyna, H. Kruszyna, and D.E. Wilcox|Embryotoxic Effects of Sodium Azide Infusions in the Syrian Hamster|Fundam. Appl. Toxicol.15(4): 754-759|1990|10.1016/0272-0590(90)90191-L
76530|T||Smith,R.P.,Jr., C.A. Louis, R. Kruszyna, and H. Kruszyna|Acute Neurotoxicity of Sodium Azide and Nitric Oxide|Fundam. Appl. Toxicol.17(1): 120-127|1991|10.1016/0272-0590(91)90244-X
76531|T||Berndt,J.D., N.L. Callaway, and F. Gonzalez-Lima|Effects of Chronic Sodium Azide on Brain and Muscle Cytochrome Oxidase Activity:  A Potential Model to Investigate Environmental Contributions to Neurodegenerative Diseases|J. Toxicol. Environ. Health Part A63(1): 67-77|2001|10.1080/152873901750128380
76532|T||Parmar,D., S. Yadav, M. Dayal, A. Johri, A. Dhawan, and P.K. Seth|Effect of Lindane on Hepatic and Brain Cytochrome P450s and Influence of P450 Modulation in Lindane Induced Neurotoxicity|Food Chem. Toxicol.41(8): 1077-1087|2003|10.1016/S0278-6915(03)00045-0
76533|T||Gonzalez-Cesar,E., and P. Ramos-Morales|Sodium Azide Induces Mitotic Recombination in Drosophila melanogaster Larvae|Mutat. Res.389(2-3): 157-165|1997|10.1016/S1383-5718(96)00142-8
76534|T||Sadiq,M.F., and W.M. Owais|Mutagenicity of Sodium Azide and Its Metabolite Azidoalanine in Drosophila melanogaster|Mutat. Res.469(2): 253-257|2000|10.1016/S1383-5718(00)00079-6
76535|T||Callaway,N.L., P.D. Riha, K.M. Wrubel, D. McCollum, and F. Gonzalez-Lima|Methylene Blue Restores Spatial Memory Retention Impaired by an Inhibitor of Cytochrome Oxidase in Rats|Neurosci. Lett.332(2): 83-86|2002|10.1016/S0304-3940(02)00827-3
76536|T||Vecsei,L., J. Tajti, P. Klivenyi, S. Pinter, and E. Karg|Sodium Azide Treatment Decreases Striatal and Cortical Concentrations of alpha-Tocopherol in Rats|J. Neural Transm.108(3): 273-278|2001|10.1007/s007020170072
76537|T||Hossain,S., I.H. Mian, and K. Tsuno|Efficacy of Three Nematicides and Two Oil Cakes for Control of Root-Knot Nematode (Meloidogyne incognita) on Potato Seedlings|J. Fac. Agric. Kyushu Univ.34(1-2): 115-121|1989|10.5109/23894
76538|T||Szabados,T., C. Dul, K. Majtenyi, J. Hargitai, Z. Penzes, and R. Urbanics|A Chronic Alzheimer's Model Evoked by Mitochondrial Poison Sodium Azide for Pharmacological Investigations|Behav. Brain Res.154(1): 31-40|2004|10.1016/j.bbr.2004.01.016
76539|T||El-Abyad,M.S., A.M. Abu-Taleb, and T. Abdel-Mawgood|Effect of the Herbicide Pyradur on Host Cell Wall Degradation by the Sugarbeet Pathogens Rhizoctonia solani and Sclerotium rolfsii|Can. J. Bot.74(9): 1407-1415|1996|10.1139/b96-170
76540|T||Peltonen,J., and R. Karjalainen|Effects of Fungicide Sprays on Foliar Diseases, Yield, and Quality of Spring Wheat in Finland|Can. J. Plant Sci.72(3): 955-963|1992|10.4141/cjps92-120
76541|T||Jedel,P.E., and J.H. Helm|Agronomic Response of Six-Row Barley Cultivars to Supplemental Fertilization and Late-Season Fungicide Treatments|Can. J. Plant Sci.72(4): 1121-1130|1992|10.4141/cjps92-137
76542|T||Ronis,M.J.J., M. Ingelman-Sundberg, and T.M. Badger|Induction, Suppression and Inhibition of Multiple Hepatic Cytochrome P450 Isozymes in the Male Rat and Bobwhite Quail (Colinus virginianus) by Ergosterol Biosynthesis Inhibiting Fungicides (EBIFs)|Biochem. Pharmacol.48(10): 1953-1965|1994|10.1016/0006-2952(94)90594-0
76543|T||Entz,M.H., C.G.J. Van den Berg, G.P. LaFond, E.H. Stobbe, B.G. Rossnagel, and H.M. Austenson|Effect of Late-Season Fungicide Application on Grain Yield and Seed Size Distribution in Wheat and Barley|Can. J. Plant Sci.70(3): 699-706|1990|10.4141/cjps90-086
76544|T||Duczek,L.J., and L.L. Jones-Flory|Effect of Timing of Propiconazole Application on Foliar Disease and Yield of Irrigated Spring Wheat in Saskatchewan from 1990 to 1992|Can. J. Plant Sci.74(1): 205-207|1994|10.4141/cjps94-041
76545|T||Yoshii,H.|Flazasulfuron (KATANA/CHIKARA), a New Herbicide for Use in Grapevines, Citrus, Olive, Sugarcane and Non-crop Land|Agrochem. Jpn.82:18-20|2003|
76548|T||An,Y.J.|Assessing Soil Ecotoxicity of Methyl tert-Butyl Ether Using Earthworm Bioassay; Closed Soil Microcosm Test for Volatile Organic Compounds|Environ. Pollut.134:181-186|2005|10.1016/j.envpol.2004.08.012
76549|T||De Peyster,A., K.J. MacLean, B.A. Stephens, L.D. Ahern, C.M. Westover, and D. Rozenshteyn|Subchronic Studies in Sprague-Dawley Rats to Investigate Mechanisms of MTBE-Induced Leydig Cell Cancer|Toxicol. Sci.72(1): 31-42|2003|10.1093/toxsci/kfg011
76550|T||Trust,K.A., A. Fairbrother, and M.J. Hooper|Effects of 7,12-Dimethylbenzo(a)anthracene on Immune Function and Mixed-Function Oxygenase Activity in the European Starling|Environ. Toxicol. Chem.13(5): 821-830|1994|
76551|T||Schisler,D.K., and E.W. Kienholz|Interactions of Dietary Zinc and Vitamin D in Laying Hens|Poult. Sci.46(4): 918-924|1967|10.3382/ps.0460918
76552|T||Offiong,S.A., and S.M. Abed|Fertility, Hatchability and Malformations in Guinea Fowl Embryos as Affected by Dietary Manganese|Br. Poult. Sci.21:371-375|1980|10.1080/00071668008416683
76553|T||Insko,W.M.,Jr., M. Lyons, and J.H. Martin|The Effect of Manganese, Zinc, Aluminum, and Iron Salts on the Incidence of Perosis in Chicks|Poult. Sci.17:264-269|1938|10.3382/ps.0170264
76554|T||Hackman,R.M., and L.S. Hurley|Interactions of Salicylate, Dietary Zinc, and Genetic Strain in Teratogenesis in Rats|Teratology30:225-236|1984|10.1002/tera.1420300210
76555|T||Bhoot,S.R., S.P.S. Bedi, S.A. Khan, and P.C. Sawhney|Effect of Manganese Supplementation on the Digestibility of Proximate Principles, Balances of Nutrients and Blood Constituents in Growing Cow Calves|Indian J. Anim. Sci.51(8): 752-755|1981|
76556|T||Greipsson,S.|Effect of Iron Plaque on Roots of Rice on Growth of Plants in Excess Zinc and Accumulation of Phosphorus in Plants in Excess Copper or Nickel|J. Plant Nutr.18(8): 1659-1665|1995|10.1080/01904169509365011
76558|T||Clausen,C.A., and F. Green|Oxalic Acid Overproduction by Copper-Tolerant Brown-Rot Basidiomycetes on Southern Yellow Pine Treated with Copper-Based Preservatives|Int. Biodeterior. Biodegrad.51(2): 139-144|2003|10.1016/S0964-8305(02)00098-7
76567|T||Johnson III,W.C., R.D. Wauchope, and B.G.,Jr. Mullinix|Response of Peanut to Low Rates of MSMA|Weed Sci.45(3): 430-433|1997|10.1017/S0043174500093115
76570|T||Fascineli,M.L., E.S. Hunter III, and W. De Grava Kempinas|Fetotoxicity Caused by the Interaction Between Zinc and Arsenic in Mice|Teratog. Carcinog. Mutagen.22(5): 315-327|2002|10.1002/tcm.10026
76573|T||Hashem,A.R.|Effect of Arsenic on the Growth of Cladosporium herbarum|Cryptogam. Bot.3(4): 307-309|1993|
76585|T||Tu,S., and L.Q. Ma|Comparison of Arsenic and Phosphate Uptake and Distribution in Arsenic Hyperaccumulating and Nonhyperaccumulating Fern|J. Plant Nutr.27(7): 1227-1242|2004|10.1081/PLN-120038545
76587|T||Gonzalez-Chavez,C., P.J. Harris, J. Dodd, and A.A. Meharg|Arbuscular Mycorrhizal fungi Confer Enhanced Arsenate Resistance on Holcus lanatus|New Phytol.155(1): 163-171|2002|10.1046/j.1469-8137.2002.00430.x
76588|T||Wioland,N., and N. Bonaventure|Photopic C-Wave in the Chicken ERG:  Sensitivity to Sodium Azide, Epinephrine Sodium Iodate, Barbiturates, and Other General Anesthetics|Doc. Ophthalmol.60(4): 407-412|1985|10.1007/BF00158931
76590|A||Miranda,G., A. Quiroz, and M. Salazar|Cadmium and Lead Removal from Water by the Duckweed.  Lemna gibba L. (Lemnaceae)|Hydrobiologia (Multiple Languages)10(1): 7-12|2000|
76591|T||Wang,J.T., J.H. Gould, V. Padmanabhan, and R.J. Newton|Analysis and Localization of the Water-Deficit Stress-Induced Gene (lp3)|J. Plant Growth Regul.21(4): 469-478|2003|10.1007/s00344-002-0128-7
76592|A||Pandey,S.K., A.N. Khan, A.K. Singh, T. Fatma, and M. Amin|Use of Cytoplasmic Streaming in Nitella for Monitoring Aquatic Pollution|Indian J. Exp. Biol.35(11): 1258-1260|1997|
76593|A||Carginale,V., C. Capasso, R. Scudiero, and E. Parisi|Identification of Cadmium-Sensitive Genes in the Antarctic Fish Chionodraco hamatus by Messenger RNA Differential Display|Gene299(1-2): 117-124|2002|10.1016/S0378-1119(02)01020-X
76594|T||Banga,M., G.M. Bogemann, C.W.P.M. Blom, and A.C.J. Voesenek|Flooding Resistance of Rumex Species Strongly Depends on Their Response to Ethylene:  Rapid Shoot Elongation or Foliar Senescence|Physiol. Plant. (Multiple Languages)99(3): 415-422|1997|10.1111/j.1399-3054.1997.tb00555.x
76595|T||Carnegie,S.F., A.M. Cameron, G.A. Hide, and S.M. Hall|The Occurrence of Thiabendazole-Resistant Isolates of Polyscytalum pustulans and Helminthosporium solani on Seed Potato Tubers in Relation to Fungicide Treatment and Storage|Plant Pathol.43(6): 961-971|1994|10.1111/j.1365-3059.1994.tb01645.x
76596|T||Pinese,B., A.T. Lisle, M.D. Ramsey, K.H. Halfpapp, and S. De Faveri|Control of Aphid-Borne Papaya Ringspot Potyvirus in Zucchini Marrow (Cucurbita pepo) with Reflective Mulches and Mineral Oil-Insecticide Sprays|Int. J. Pest Manag.40(1): 81-87|1994|10.1080/09670879409371859
76597|T||Rubio,M.I., I. Escrig, C. Martinez-Cortina, F.J. Lopez-Benet, and A. Sanz|Cadmium and Nickel Accumulation in Rice Plants.  Effects on Mineral Nutrition and Possible Interactions of Abscisic and Gibberellic Acids|Plant Growth Regul.14(2): 151-157|1994|10.1007/BF00025217
76598|T||Arora,S., R. Gupta, S. Machwe, and G. Sapra|Influence of Cadmium on Development of Surface Ciliary Structures in the Ciliate Stylonychia mytilus (Ciliophora, Oxytrichidae)|Eur. J. Protistol.35(3): 281-289|1999|10.1016/S0932-4739(99)80006-6
76599|T||Roitto,M., R. Strommer, U. Ahonen-Jonnarth, M. Hyvarinen, and A.M. Markkola|Does the Lichen Mat Alleviate the Effects of Wet Deposited Nickel on Soil Microorganisms and Scots Pine (Pinus sylvestris L.) Seedlings?|Plant Soil230(2): 267-277|2001|10.1023/A:1010341715997
76600|T||Abou Auda,M.M., L. Symeonidis, E. Hatzistavrou, and T. Yupsanis|Nucleolytic Activities and Appearance of a New DNase in Relation to Nickel and Manganese Accumulation in Alyssum murale|J. Plant Physiol.159(10): 1087-1095|2002|10.1078/0176-1617-00667
76601|A||Christie,N.T., M.W. Williams, and K.B. Jacobson|Genetic and Physiological Parameters Associated with Cadmium Toxicity in Drosophila melanogaster|Biochem. Genet.23(7-8): 571-584|1985|10.1007/BF00504291
76602|A||Panda,A.K.|Bio-Accumulation of Nickel and Zinc by Water Hyacinth and Water Lettuce|Indian J. Environ. Health38(1): 51-53|1996|
76603|T||Whalen,J., and M. Spellman|Control on Whorl Stage Corn, 1990|Insectic. Acaric. Tests16:82-|1991|
76604|T||Fallik,E., Y. Aharoni, S. Grinberg, A. Copel, and J.D. Klein|Postharvest Hydrogen Peroxide Treatment Inhibits Decay in Eggplant and Sweet Red Pepper|Crop Prot.13(6): 451-454|1994|10.1016/0261-2194(94)90094-9
76605|T||Raman,K.V., and M. Palacios|Chemical Control of Leafminer Fly Liriomyza huidobrensis in Potato|Tests Agrochem. Cultiv.7:22-23|1986|
76606|T||Aharoni,Y., A. Copel, and E. Fallik|The Use of Hydrogen Peroxide to Control Postharvest Decay on 'Galia' Melons|Ann. Appl. Biol.125(1): 189-193|1994|10.1111/j.1744-7348.1994.tb04960.x
76607|T||Carnegie,S.F., A.M. Cameron, D.A. Lindsay, E. Sharp, and I.M. Nevison|The Effect of Treating Seed Potato Tubers with Benzimidazole, Imidazole and Phenylpyrrole Fungicides on the Control of Rot and Skin Blemish Diseases|Ann. Appl. Biol.133(3): 343-363|1998|10.1111/j.1744-7348.1998.tb05835.x
76609|T||Whalen,J., and M. Spellman|Foliar Sprays on Late Planted Corn, 1990|Insectic. Acaric. Tests16:81-|1991|10.1093/iat/16.1.81
76610|T||Powell,C.A., and P.J. Stoffella|Influence of Endosulfan Sprays and Aluminum Mulch on Sweetpotato Whitefly Disorders of Zucchini Squash and Tomatoes|J. Prod. Agric.6(1): 118-121|1993|10.2134/jpa1993.0118
76611|T||Webb,D.R., and C.J. Eckenrode|Seed Maggot Control, 1990|Insectic. Acaric. Tests16:55-56|1991|10.1093/iat/16.1.55
76612|T||Whalen,J., and M. Spellman|Control on Sweet Corn, 1990|Insectic. Acaric. Tests16:82-|1991|
76613|T||Kasprzak,K.S., B.A. Diwan, and J.M. Rice|Iron Accelerates While Magnesium Inhibits Nickel-Induced Carcinogenesis in the Rat Kidney|Toxicology90(1-2): 129-140|1994|10.1016/0300-483X(94)90211-9
76614|T||Ping,G., L. Yanping, and L. Shigui|Effects of dp-B on ATPase Activity of Insect Plasma Membrane|Pestic. Biochem. Physiol.80(3): 157-162|2004|10.1016/j.pestbp.2004.07.003
76615|T||Carnegie,S.F., A.M. Cameron, and D.A. Lindsay|Control of Gangrene, dry Rot, Skin Spot and Silver Scurf on Stored Seed Potato Tubers by Imidazole and Phenylpyrrole Compounds|BCPC Monogr. - Br. Crop Prot. Counc.57:275-280|1994|
76616|T||Fidanza,M.A., and P.H. Dernoeden|Influence of Mowing Height, Nitrogen Source, and Iprodione on Brown Patch Severity in Perennial Ryegrass|Crop Sci.36(6): 1620-1630|1996|10.2135/cropsci1996.0011183X003600060035x
76617|A||Khalil,Z.|Interactions of Nickel, Lead and Calcium on Growth Criteria and Metabolic Aspects in Phormidium fragile|Egypt. J. Microbiol.29(3): 193-205|1994|
76619|T||Tanaka,D.,Jr., and S.J. Bursian|Degeneration Patterns in the Chicken Central Nervous System Induced by Ingestion of the Organophosphorus Delayed Neurotoxin Tri-Ortho-Tolyl Phosphate.  A Silver Impregnation Study|Brain Res.484(1-2): 240-256|1989|10.1016/0006-8993(89)90367-3
76620|T||Kasprzak,K.S., and J.M. Ward|Prevention of Nickel Subsulfide Carcinogenesis by Local Administration of Mycobacterium bovis Antigen in Male F344/NCr Rats|Toxicology67(1): 97-105|1991|10.1016/0300-483X(91)90167-Y
76621|T||Ohmori,T., K. Okada, R. Tabei, and T. Shibata|Effects of Tumor Induction, Growth, Metastasis and Histology of Concurrent Administration of Putrescine and Its Metabolizing Inhibitor alpha-Difluoromethylornithine in Nickel Tumorigenesis in Soft Tissue|Carcinogenesis15(4): 647-652|1994|10.1093/carcin/15.4.647
76622|T||Gong,J.M., D.A. Lee, and J.I. Schroeder|Long-Distance Root-to-Shoot Transport of Phytochelatins and Cadmium in Arabidopsis|Proc. Natl. Acad. Sci. U.S.A.100(17): 10118-10123|2003|10.1073/pnas.1734072100
76624|T||Von Frenckell-Insam,B.A.K., and T.C. Hutchinson|Nickel and Zinc Tolerance and Co-tolerance in Populations of Deschampsia cespitosa (L.) Beauv. Subject to Artificial Selection|New Phytol.125(3): 547-553|1993|10.1111/j.1469-8137.1993.tb03902.x
76628|T||Baatrup,E., and M. Bayley|Effects of the Pyrethroid Insecticide Cypermethrin on the Locomotor Activity of the Wolf Spider Pardosa amentata:  Quantitative Analysis Employing Computer-Automated Video Tracking|Ecotoxicol. Environ. Saf.26(2): 138-152|1993|10.1006/eesa.1993.1046
76629|T||Luty,S., J. Latuszynska, D. Obuchowska-Przebirowska, M. Tokarska, and A. Haratym-Maj|Subacute Toxicity of Orally Applied alpha-Cypermethrin in Swiss Mice|AAEM Ann. Agric. Environ. Med.7(1): 33-41|2000|
76630|T||Gupta,P.K.|Toxicity of Cypermethrin in Mice, Rats and Rabbits|J. Environ. Biol.11(3): 331-334|1990|
76631|T||Haratym-Maj,A.|Hematological Alternations After Pyrethroids Poisoning in Mice|AAEM Ann. Agric. Environ. Med.9(2): 199-206|2002|
76632|T||Geeta,K.Y., and K.R. Devi|Induction of Chromosomal Aberrations in Spermatogonial Cells of Mouse by Cypermethrin|Cell Chromosome Res.16(2-3): 86-88|1993|
76633|A||Dorucu,M., and A. Girgin|The Effect of Cypermethrin on Some Haematological Parameters of Cyprinus carpio|Aquac. Int.9(2): 183-187|2001|10.1023/A:1014297528028
76634|T||Hijzen,T.H., and J.L. Slangen|Effects of Type I and Type II Pyrethroids on the Startle Response in Rats|Toxicol. Lett.40(2): 141-152|1988|10.1016/0378-4274(88)90155-5
76635|T||Kumar,S., A.K. Gautam, K.R. Agarwal, B.A. Shah, and H.N. Saiyad|Demonstration of Sperm Head Shape Abnormality and Clastogenic Potential of Cypermethrin|J. Environ. Biol.25(2): 187-190|2004|
76636|T||Yousef,M.I., F.M. El-Demerdash, K.I. Kamel, and K.S. Al-Salhen|Changes in Some Hematological and Biochemical Indices of Rabbits Induced by Isoflavones and Cypermethrin|Toxicology189(3): 223-234|2003|10.1016/S0300-483X(03)00145-8
76637|T||Santoni,G., F. Cantalamessa, E. Spreghini, O. Sagretti, M. Staffolani, and M. Piccoli|Alterations of T Cell Distribution and Functions in Prenatally Cypermethrin-Exposed Rats:  Possible Involvement of Catecholamines|Toxicology138(3): 175-187|1999|10.1016/S0300-483X(99)00103-1
76638|T||Chauhan,L.K.S., D.K. Agarwal, and V. Sundararaman|In Vivo Induction of Sister Chromatid Exchange in Mouse Bone Marrow Following Oral Exposure to Commercial Formulations of alpha-Cyano Pyrethroids|Toxicol. Lett.93(2/3): 153-157|1997|10.1016/S0378-4274(97)00088-X
76639|T||Santoni,G., F. Cantalamessa, L. Mazzucca, S. Romagnoli, and M. Piccoli|Prenatal Exposure to Cypermethrin Modulates Rat NK Cell Cytotoxic Functions|Toxicology120(3): 231-242|1997|10.1016/S0300-483X(97)03662-7
76640|T||Santoni,G., F. Cantalamessa, R. Cavagna, S. Romagnoli, E. Spreghini, and M. Piccoli|Cypermethrin-Induced Alteration of Thymocyte Distribution and Functions in Prenatally-Exposed Rats|Toxicology125(1): 67-78|1998|10.1016/S0300-483X(97)00152-2
76641|T||Institoris,L., O. Siroki, U. Undeger, N. Basaran, and I. Desi|Immunotoxicological Investigation in Rats Dosed Repeatedly with Combinations of Cypermethrin, As(III), and Hg(II)|Toxicology172(1): 59-67|2002|10.1016/S0300-483X(01)00589-3
76642|T||Gabbianelli,R., G. Falcioni, C. Nasuti, and F. Cantalamessa|Cypermethrin-Induced Plasma Membrane Perturbation on Erythrocytes from Rats:  Reduction of Fluidity in the Hydrophobic Core and in Glutathione Peroxidase Activity|Toxicology175(1-3): 91-101|2002|10.1016/S0300-483X(02)00058-6
76643|T||Nasuti,C., F. Cantalamessa, G. Falcioni, and R. Gabbianelli|Different Effects of Type I and Type II Pyrethroids on Erythrocyte Plasma Membrane Properties and Enzymatic Activity in Rats|Toxicology191(2-3): 233-244|2003|10.1016/S0300-483X(03)00207-5
76644|T||Bhunya,S.P., and P.C. Pati|Genotoxic Effects of a Synthetic Pyrethroid Insecticide, Cypermethrin, in Mice In Vivo|Toxicol. Lett.41(3): 223-230|1988|10.1016/0378-4274(88)90058-6
76645|T||Kavanagh,T.|Control of Powdery Mildew (Sphaerotheca macularis) of Greenhouse Strawberries with Systemic Fungicides|Plant Dis. Rep.56(3): 235-237|1972|
76646|T||Everts,J.W., B.A. Kortenhoff, H. Hoogland, H.J. Vlug, R. Jocque, and J.H. Koeman|Effects of Non-Target Terrestrial Arthropods of Synthetic Pyrethroids Used for the Control of the Tsetse Fly (Glossina spp.) in Settlement Areas of the Southern Ivory Coast, Africa|Arch. Environ. Contam. Toxicol.14(6): 641-650|1985|10.1007/BF01055770
76647|T||Engelhard,A.W., and S.S. Woltz|Fusarium Wilt of Chrysanthemum:  Complete Control of Symptoms with an Integrated Fungicide-Lime-Nitrate Regime|Phytopathology63(10): 1256-1259|1973|10.1094/Phyto-63-1256
76648|T||Byrde,R.J.W., C.W. Harper, M.E. Holgate, and T. Hunter|Residual Effects of Fungicidal Spray Programmes on Apple Trees|Pestic. Sci.4(3): 327-333|1973|10.1002/ps.2780040309
76649|T||Elbetieha,A., S.I. Da'as, W. Khamas, and H. Darmani|Evaluation of the Toxic Potentials of Cypermethrin Pesticide on Some Reproductive and Fertility Parameters in the Male Rats|Arch. Environ. Contam. Toxicol.41(4): 522-528|2001|10.1007/s002440010280
76650|T||Ralley,W.E., T.D. Galloway, and G.H. Crow|Individual and Group Behaviour of Pastured Cattle in Response to Attack by Biting Flies|Can. J. Zool.71(4): 725-734|1993|10.1139/z93-096
76651|A||Chaudhary,T.R., and V.S. Lomte|Pesticidal Impact on Protein Metabolism in the Digestive Gland of the Snail Bellamya (Viviparus) bengalensis|Environ. Ecol.8(1): 189-191|1990|
76652|T||Goswami,N., and S.K. Chatterjee|Effect of Cypermethrin on Hematological Variables of Albino Mice|Environ. Ecol.11(3): 653-655|1993|
76653|T||Krechniak,J., and K. Wrzesniowska|Effects of Pyrethroid Insecticides on Hepatic Microsomal Enzymes in Rats|Environ. Res.55(2): 129-134|1991|10.1016/S0013-9351(05)80169-0
76654|T||Crofton,K.M., and L.W. Reiter|The Effects of Type I and II Pyrethroids on Motor Activity and the Acoustic Startle Response in the Rat|Fundam. Appl. Toxicol.10(4): 624-634|1988|10.1016/0272-0590(88)90189-3
76655|T||Espandiari,P., V.A. Thomas, H.P. Glauert, M. O'Brien, D. Noonan, and L.W. Robertson|The Herbicide Dicamba (2-Methoxy-3,6-Dichlorobenzoic Acid) is a Peroxisome Proliferator in Rats|Fundam. Appl. Toxicol.26(1): 85-90|1995|10.1006/faat.1995.1077
76656|T||Institoris,L., O. Siroki, U. Undeger, I. Desi, and L. Nagymajtenyi|Immunotoxicological Effects of Repeated Combined Exposure by Cypermethrin and the Heavy Metals Lead and Cadmium in Rats|Int. J. Immunopharmacol.21(11): 735-743|1999|10.1016/S0192-0561(99)00049-1
76657|T||Raviprakash,V., Y.P. Singh, and P.K. Gupta|Cumulative Effect of Cypermethrin on Brain Monoamine Levels in Mice|J. Environ. Biol.8(4): 357-359|1987|
76658|T||Ahmed,N., and P.K. Gupta|Reproduction (One Generation) Toxicity of Cypermethrin in Rats|J. Environ. Biol.9(2): 149-156|1988|
76659|T||Gupta,P.K.|Teratogenic Effects of Cypermethrin in Rats|J. Environ. Biol.11(2): 121-126|1990|
76660|T||Kale,M., N. Rathore, S. John, and D. Bhatnagar|Lipid Peroxidative Damage on Pyrethroid Exposure and Alterations in Antioxidant Status in Rat Erythrocytes:  A Possible Involvement of Reactive Oxygen Species|Toxicol. Lett.105(3): 197-205|1999|10.1016/S0378-4274(98)00399-3
76661|T||Aldana,L., E. Gonzalez de Mejia, A. Craigmill, V. Tsutsumi, J. Armendariz-Borunda, A. Panduro, and A.R. Rincon|Cypermethrin Increases apo A-1 and apo B mRNA but not Hyperlipidemia in Rats|Toxicol. Lett.95(1): 31-39|1998|10.1016/S0378-4274(98)00013-7
76663|T||Chugh,Y., A. Sankaranarayanan, and P.L. Sharma|Modulation of Cypermethrin- and Endosulfan-Induced Behavioral Changes in Drugs Acting on Central Neurotransmitter Systems in Mice|Asia Pac. J. Pharmacol.7(4): 251-255|1992|
76664|T||Ahmed,N., P.K. Gupta, and K.C. George|Subacute Toxicity of Cypermethrin in Rats|J. Environ. Biol.10(3): 309-317|1989|
76665|A||Jadhav,S., Y.B. Sontakke, and V.S. Lomte|Effect of Pesticides on Amylase Activity in Digestive Gland of Fresh Water Bivalve Corbicula striatella|Indian J. Comp. Anim. Physiol.13(1): 27-29|1995|
76666|A||Liu,W., J.J. Gan, S. Lee, and I. Werner|Isomer Selectivity in Aquatic Toxicity and Biodegradation of Cypermethrin|J. Agric. Food Chem.52(20): 6233-6238|2004|10.1021/jf0490910
76667|T||Orberg,J.|A Comparison Between Some Effects of Two Pure Chlorobiphenyls (2,4',5-Trichlorobiphenyl and 2,2'4,4',5,5'-Hexachlorobiphenyl) on the Hepatic Drug Metabolizing System in the Female Mouse|Acta Pharmacol. Toxicol.39:145-151|1976|10.1111/j.1600-0773.1976.tb03165.x
76668|T||Shukla,Y., A. Yadav, and A. Arora|Carcinogenic and Cocarcinogenic Potential of Cypermethrin on Mouse Skin|Cancer Lett.182(1): 33-41|2002|10.1016/S0304-3835(02)00077-0
76669|T||Grote,W., A. Schmoldt, and H.F. Benthe|Hepatic Porphyrin Synthesis in Rats After Pretreatment with Polychlorinated Biphenyls (PCBs)|Acta Pharmacol. Toxicol.36:215-224|1975|10.1111/j.1600-0773.1975.tb00789.x
76670|T||Nishimura,N., J. Yonemoto, Y. Miyabara, M. Sato, and C. Tohyama|Rat Thyroid Hyperplasia Induced by Gestational and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Endocrinology144(5): 2075-2083|2003|10.1210/en.2002-220737
76671|T||Cho,J.H., S.H. Jeong, and H.I. Yun|Changes of Urinary and Blood Porphyrin Profiles by Exposure to PCBs, Lead or Diazinon in Rats|Vet. Hum. Toxicol.45(4): 193-198|2003|
76672|T||Ozawa,N., S. Yoshihara, K. Kawano, Y. Okada, and H. Yoshimura|3,4,5,3',4'-Pentachlorobiphenyl as a Useful Inducer for Purification of Rat Liver Microsomal Cytochrome P448|Biochem. Biophys. Res. Commun.91(3): 1140-1147|1979|10.1016/0006-291X(79)91999-5
76673|T||Kohli,K.K., Linko.P., and J.A. Goldstein|Multiple Forms of Solubilized and Partially Resolved Cytochrome P-450 from Rats Induced by 2,3,5,2',3',5'- and 3,4,5,3',4',5'-Hexachlorobiphenyls|Biochem. Biophys. Res. Commun.100(1): 483-490|1981|10.1016/S0006-291X(81)80122-2
76675|A||McCarthy,I.D., L.A. Fuiman, and M.C. Alvarez|Aroclor 1254 Affects Growth and Survival Skills of Atlantic Croaker Micropogonias undulatus Larvae|Mar. Ecol. Prog. Ser.252:295-301|2003|10.3354/meps252295
76676|T||Kuriyama,S., A. Fidalgo-Neto, W. Mathar, R. Palavinskas, K. Friedrich, and I. Chahoud|Effect of Low Dose Mono-ortho 2,3',4,4',5 Pentachlorobiphenyl on Thyroid Hormone Status and EROD Activity in Rat Offspring: Consequences for Risk Assessment|Toxicology186(1-2): 11-20|2003|10.1016/S0300-483X(02)00602-9
76677|T||Cantalamessa,F., P. Barili, R. Cavagna, M. Sabbatini, G. Tenore, and F. Amenta|Influence of Neonatal Treatment with the Pyrethroid Insecticide Cypermethrin on the Development of Dopamine Receptors in the Rat Kidney|Mech. Ageing Dev.103(2): 165-178|1998|10.1016/S0047-6374(98)00039-6
76678|T||Andric,N.L., S.A. Andric, S.N. Zoric, T.S. Kostic, S.S. Stojilkovic, and R.Z. Kovacevic|Parallelism and Dissociation in the Actions of an Aroclor 1260-Based Transformer Fluid on Testicular Androgenesis and Antioxidant Enzymes|Toxicology194(1-2): 65-75|2003|10.1016/j.tox.2003.08.002
76679|T||Vorderstrasse,B.A., A.A. Bohn, and B.P. Lawrence|Examining the Relationship Between Impaired Host Resistance and Altered Immune Function in Mice Treated with TCDD|Toxicology188(1): 15-28|2003|10.1016/S0300-483X(02)00749-7
76680|T||Latchoumycandane,C., K.C. Chitra, and P.P. Mathur|The Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Antioxidant System in Mitochondrial and Microsomal Fractions of Rat Testis|Toxicology171(2-3): 127-135|2002|10.1016/S0300-483X(01)00563-7
76681|T||Zeytun,A., R.J. McKallip, M. Fisher, I. Camacho, M. Nagarkatti, and P.S. Nagarkatti|Analysis of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Gene Expression Profile In Vivo Using Pathway-Specific cDNA Arrays|Toxicology178(3): 241-260|2002|10.1016/S0300-483X(02)00230-5
76682|A||Sheng,X.M., L. Xiong, Z.B. Wu, H.F. Tang, T. Liu, and Y. Wang|Toxicity of Cypermethrin to Daphnia magna HB|J. Environ. Sci.16(5): 770-771|2004|
76683|T||Kern,P.A., R.B. Fishman, W. Song, A.D. Brown, and V. Fonseca|The Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Oxidative Enzymes in Adipocytes and Liver|Toxicology171(2-3): 117-125|2002|10.1016/S0300-483X(01)00564-9
76684|T||Fadhel,Z., Z. Lu, L.W. Robertson, and H.P. Glauert|Effect of 3,3',4,4'-Tetrachlorobiphenyl and 2,2',4,4',5,5'-Hexachlorobiphenyl on the Induction of Hepatic Lipid Peroxidation and Cytochrome P-450 Associated Enzyme Activities in Rats|Toxicology175(1-3): 15-25|2002|10.1016/S0300-483X(02)00086-0
76686|T||Viluksela,M., A. Raasmaja, M. Lebofsky, B.U. Stahl, and K.K. Rozman|Tissue-Specific Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on the Activity of 5'-Deiodinases I and II in Rats|Toxicol. Lett.147(2): 133-142|2004|10.1016/j.toxlet.2003.10.025
76687|T||Miettinen,H.M., H. Huuskonen, A.M. Partanen, P. Miettinen, J.T. Tuomisto, R. Pohjanvirta, and J. Tuomisto|Effects of Epidermal Growth Factor Receptor Deficiency and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Fetal Development in Mice|Toxicol. Lett.150(3): 285-291|2004|10.1016/j.toxlet.2004.02.009
76688|T||Kerkvliet,N.I., D.M. Shepherd, and L. Baecher-Steppan|T Lymphocytes are Direct, Aryl Hydrocarbon Receptor (AhR)-Dependent Targets of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD):  AhR Expression in both CD4+ and CD8+ T Cells is Necessary for Full Suppression of a Cytotoxic T|Toxicol. Appl. Pharmacol.185(2): 146-152|2002|10.1006/taap.2002.9537
76689|T||Kwon,Y.I., J.D. Yeon, S.M. Oh, and K.H. Chung|Protective Effects of Ursodeoxycholic Acid Against 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Testicular Damage in Mice|Toxicol. Appl. Pharmacol.194(3): 239-247|2004|10.1016/j.taap.2003.09.024
76690|A||Megharaj,M., K. Venkateswarlu, and A.S. Rao|Influence of Cypermethrin and Fenvalerate on a Green Alga and Three Cyanobacteria Isolated from Soil|Ecotoxicol. Environ. Saf.14(2): 142-146|1987|10.1016/0147-6513(87)90056-X
76691|T||Uno,S., T.P. Dalton, P.R. Sinclair, N. Gorman, B. Wang, A.G. Smith, M.L. Miller, H.G. Shertzer, and D.W. Nebert|Cyp1a1(-/-) Male Mice: Protection Against High-Dose TCDD-Induced Lethality and Wasting Syndrome, and Resistance to Intrahepatocyte Lipid Accumulation and Uroporphyria|Toxicol. Appl. Pharmacol.196(3): 410-421|2004|10.1016/j.taap.2004.01.014
76692|T||Mitchell,K.A., and B.P. Lawrence|T Cell Receptor Transgenic Mice Provide Novel Insights into Understanding Cellular Targets of TCDD:  Suppression of Antibody Production, but not the Response of CD8(+) T Cells, During Infection with Influenza Virus|Toxicol. Appl. Pharmacol.192(3): 275-286|2003|10.1016/S0041-008X(03)00297-7
76693|T||Kim,A.H., M.C. Kohn, A. Nyska, and N.J. Walker|Area Under the Curve as a Dose Metric for Promotional Responses Following 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure|Toxicol. Appl. Pharmacol.191(1): 12-21|2003|10.1016/S0041-008X(03)00225-4
76694|T||Huang,P., S. Ceccatelli, P. Hoegberg, T.J. Sten Shi, H. Hakansson, and A. Rannug|TCDD-Induced Expression of Ah Receptor Responsive Genes in the Pituitary and Brain of Cellular Retinol-Binding Protein (CRBP-I) Knockout Mice|Toxicol. Appl. Pharmacol.192(3): 262-274|2003|10.1016/S0041-008X(03)00296-5
76695|T||Patterson,R.M., R. Stachlewitz, and D. Germolec|Induction of Apoptosis by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Following Endotoxin Exposure|Toxicol. Appl. Pharmacol.190(2): 120-134|2003|10.1016/S0041-008X(03)00186-8
76696|A||Barata,C., M. Medina, T. Telfer, and D.J. Baird|Determining Demographic Effects of Cypermethrin in the Marine Copepod Acartia tonsa:  Stage-Specific Short Tests Versus Life-Table Tests|Arch. Environ. Contam. Toxicol.43(3): 373-378|2002|10.1007/s00244-002-1268-2
76697|T||Miettinen,H.M., S. Alaluusua, J. Tuomisto, and M. Viluksela|Effect of In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on Rat Molar Development:  The Role of Exposure Time|Toxicol. Appl. Pharmacol.184(1): 57-66|2002|10.1006/taap.2002.9490
76698|T||Ishimura,R., S. Ohsako, Y. Miyabara, M. Sakaue, T. Kawakami, Y. Aoki, J. Yonemoto, and C. Tohyama|Increased Glycogen Content and Glucose Transporter 3 mRNA Level in the Placenta of Holtzman Rats After Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.178(3): 161-171|2002|10.1006/taap.2001.9333
76699|T||Twaroski,T.P., M.L. O'Brien, N. Larmonier, H.P. Glauert, and L.W. Robertson|Polychlorinated Biphenyl-Induced Effects on Metabolic Enzymes, AP-1 Binding, Vitamin E, and Oxidative Stress in the Rat Liver|Toxicol. Appl. Pharmacol.171(2): 85-93|2001|10.1006/taap.2000.9114
76700|A||Mittal,P.K., T. Adak, and V.P. Sharma|Acute Toxicity of Certain Organochlorine, Organophosphorus, Synthetic Pyrethroid and Microbial Insecticides to the Mosquito Fish Gambusia affinis (Baird and Girard)|Indian J. Malariol.28(3): 167-170|1991|
76701|T||Shepherd,D.M., L.B. Steppan, O.R. Hedstrom, and N.I. Kerkvliet|Anti-CD40 Treatment of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Exposed C57Bl/6 Mice Induces Activation of Antigen Presenting Cells yet Fails to Overcome TCDD-Induced Suppression of Allograft Immunity|Toxicol. Appl. Pharmacol.170(1): 10-22|2001|10.1006/taap.2000.9080
76702|T||Lee,H.C., S.G. Hwang, Y.G. Lee, H.O. Sohn, D.W. Lee, S.Y. Hwang, Y.S. Kwak, J.J. Wee, W.H. Joo, Y.K. Cho, and J.Y. Moon|In Vivo Effects of Panax ginseng Extracts on the Cytochrome P450-Dependent Monooxygenase System in the Liver of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Exposed Guinea Pig|Life Sci.71(7): 759-769|2002|10.1016/S0024-3205(02)01742-3
76703|T||Katynski,A.L., M.M. Vijayan, S.W. Kennedy, and T.W. Moon|3,3',4,4',5-Pentachlorobiphenyl (PCB 126) Impacts Hepatic Lipid Peroxidation, Membrane Fluidity and beta-Adrenoceptor Kinetics in Chick Embryos|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(1): 81-93|2004|10.1016/j.cca.2003.11.004
76705|T||Qadri,S.S.H., K. Jabeen, M. Mahboob, and M. Mustafa|Haemotoxicity to Chicken (Gallus gallus domesticus ) by Technical and Formulation Grades of Some Phosphoric and Synthetic Pyrethroid Esters|J. Appl. Toxicol.7(6): 367-371|1987|10.1002/jat.2550070604
76706|T||Bruggeman,V., Q. Swennen, B. De Ketelaere, O. Onagbesan, K. Tona, and E. Decuypere|Embryonic Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Chickens:  Effects of Dose and Embryonic Stage on Hatchability and Growth|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(1): 17-28|2003|10.1016/S1532-0456(03)00168-6
76707|T||Chen,C.Y., J.T. Hamm, J.R. Hass, P.W. Albro, and L.S. Birnbaum|A Mixture of Polychlorinated Dibenzo-p-Dioxins (PCDDs), Dibenzofurans (PCDFs), and Non-ortho Polychlorinated Biphenyls (PCBs) Changed the Lipid Content of Pregnant Long Evans Rats|Chemosphere46(9-10): 1501-1504|2002|10.1016/S0045-6535(01)00271-5
76708|T||Zahalka,E.A., D.H. Ellis, E.S. Goldey, M.E. Stanton, and C. Lau|Perinatal Exposure to Polychlorinated Biphenyls Aroclor 1016 or 1254 did not Alter Brain Catecholamines nor Delayed Alternation Performance in Long-Evans Rats|Brain Res. Bull.55(4): 487-500|2001|10.1016/S0361-9230(01)00548-2
76709|T||Vorderstrasse,B.A., E.A. Dearstyne, and N.I. Kerkvliet|Influence of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Antigen-Presenting Activity of Dendritic Cells|Toxicol. Sci.72(1): 103-112|2003|10.1093/toxsci/kfg012
76710|T||Hamm,J.T., C.Y. Chen, and L.S. Birnbaum|A Mixture of Dioxins, Furans, and Non-ortho PCBs Based upon Consensus Toxic Equivalency Factors Produces Dioxin-Like Reproductive Effects|Toxicol. Sci.74(1): 182-191|2003|10.1093/toxsci/kfg107
76711|T||Desaulniers,D., K. Leingartner, B. Musicki, A. Yagminas, G.H. Xiao, J. Cole, L. Marro, M. Charbonneau, and B.K. Tsang|Effects of Postnatal Exposure to Mixtures of Non-ortho-PCBs, PCDDs, and PCDFs in Prepubertal Female Rats|Toxicol. Sci.75(2): 468-480|2003|10.1093/toxsci/kfg189
76712|T||Kato,Y., K. Haraguchi, T. Yamazaki, Y. Ito, S. Miyajima, K. Nemoto, N. Koga, R. Kimura, and M. Degawa|Effects of Polychlorinated Biphenyls, Kanechlor-500, on Serum Thyroid Hormone Levels in Rats and Mice|Toxicol. Sci.72(2): 235-241|2003|10.1093/toxsci/kfg025
76713|T||Khan,M.A., C.A. Lichtensteiger, O. Faroon, M. Mumtaz, D.J. Schaeffer, and L.G. Hansen|The Hypothalamo-Pituitary-Thyroid (HPT) Axis:  A Target of Nonpersistent ortho-Substituted PCB Congeners|Toxicol. Sci.65(1): 52-61|2002|10.1093/toxsci/65.1.52
76714|T||Korkalainen,M., J. Tuomisto, and R. Pohjanvirta|Primary Structure and Inducibility by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) of Aryl Hydrocarbon Receptor Repressor in a TCDD-Sensitive and a TCDD-Resistant Rat Strain|Biochem. Biophys. Res. Commun.315(1): 123-131|2004|10.1016/j.bbrc.2004.01.028
76715|T||Ko,K., H.M. Theobald, and R.E. Peterson|In Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the C57BL/6J Mouse Prostate:  Lobe-Specific Effects on Branching Morphogenesis|Toxicol. Sci.70(2): 227-237|2002|10.1093/toxsci/70.2.227
76716|T||Lin,T.M., U. Simanainen, R.W. Moore, and R.E. Peterson|Critical Windows of Vulnerability for Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Prostate and Seminal Vesicle Development in C57BL/6 Mice|Toxicol. Sci.69(1): 202-209|2002|10.1093/toxsci/69.1.202
76717|T||Lin,T.M., K. Ko, R.W. Moore, U. Simanainen, T.D. Oberley, and R.E. Peterson|Effects of Aryl Hydrocarbon Receptor Null Mutation and In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on Prostate and Seminal Vesicle Development in C57BL/6 Mice|Toxicol. Sci.68(2): 479-487|2002|10.1093/toxsci/68.2.479
76718|T||Ito,T., K. Inouye, H. Fujimaki, C. Tohyama, and K. Nohara|Mechanism of TCDD-Induced Suppression of Antibody Production:  Effect on T Cell-Derived Cytokine Production in the Primary Immune Reaction of Mice|Toxicol. Sci.70(1): 46-54|2002|10.1093/toxsci/70.1.46
76719|T||Dean,C.E.,Jr., S.A. Benjamin, L.S. Chubb, J.D. Tessari, and T.J. Keefe|Nonadditive Hepatic Tumor Promoting Effects by a Mixture of Two Structurally Different Polychlorinated Biphenyls in Female Rat Livers|Toxicol. Sci.66(1): 54-61|2002|10.1093/toxsci/66.1.54
76720|T||Buchanan,D.L., S. Ohsako, C. Tohyama, P.S. Cooke, and T. Iguchi|Dioxin Inhibition of Estrogen-Induced Mouse Uterine Epithelial Mitogenesis Involves Changes in Cyclin and Transforming Growth Factor-beta Expression|Toxicol. Sci.66(1): 62-68|2002|10.1093/toxsci/66.1.62
76721|T||Seegal,R.F., R.J. Okoniewski, K.O. Brosch, and J.C. Bemis|Polychlorinated Biphenyls Alter Extraneuronal but not Tissue Dopamine Concentrations in Adult Rat Striatum:  An In Vivo Microdialysis Study|Environ. Health Perspect.110(11): 1113-1117|2002|10.1289/ehp.021101113
76722|T||Aozasa,O., T. Tetsumi, S. Ohta, T. Nakao, H. Miyata, and T. Nomura|Fecal Excretion of Dioxin in Mice Enhanced by Intake of Dietary Fiber Bearing Chlorophyllin|Bull. Environ. Contam. Toxicol.70(2): 359-366|2003|10.1007/s00128-002-0199-y
76723|T||Schmidt,C.K., P. Hoegberg, N. Fletcher, C.B. Nilsson, C. Trossvik, H. Hakansson, and H. Nau|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Alters the Endogenous Metabolism of All-trans-Retinoic Acid in the Rat|Arch. Toxicol.77(7): 371-383|2003|10.1007/s00204-003-0457-8
76724|T||Latchoumycandane,C., K.C. Chitra, and P.P. Mathur|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induces Oxidative Stress in the Epididymis and Epididymal Sperm of Adult Rats|Arch. Toxicol.77(5): 280-284|2003|10.1007/s00204-003-0439-x
76725|T||Camacho,I.A., M. Nagarkatti, and P.S. Nagarkatti|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induces Fas-Dependent Activation-Induced Cell Death in Superantigen-Primed T Cells|Arch. Toxicol.76(10): 570-580|2002|10.1007/s00204-002-0390-2
76726|T||Lu,Z., B. Spear, E.Y. Lee, L.W. Roberston, and H.P. Glauert|Activation of Rat Hepatic Transcription Factor NF-kappaB by PCBs|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:419-420|2001|
76727|T||Tharappel,J.C., L.W. Robertson, E.Y. Lee, B.T. Spear, and H.P. Glauert|Effect of 2,2',4,4',5,5'-Hexachlorobiphenyl (PCB-153) and 3,3',4,4'-Tetrachlorobiphenyl (PCB-77) on NF-kappaB and AP-1 Activation, Altered Hepatic Foci Formation, Cell Proliferation, and Apoptosis in Rats|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:417-418|2001|
76728|T||Jagadeesan,V.|Aroclor-Induced Changes in the Activities of Drug Metabolizing Enzymes in Zinc Deficiency and Its Relevance to Nutritional Carcinogenesis|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, KY:405-409|2001|
76729|T||Espandiari,P., T.P. Twaroski, M. Festag, E.Y. Lee, H.P. Glauert, and L.W. Robertson|Effect of 4-Chlorobiphenyl as an Initiator of Rat Liver Carcinogenesis|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:399-401|2001|
76731|A||Gossiaux,D.C., P.F. Landrum, and S.W. Fisher|The Assimilation of Contaminants from Suspended Sediment and Algae by the Zebra Mussel, Dreissena polymorpha|Chemosphere36(15): 3181-3197|1998|10.1016/S0045-6535(98)00020-4
76732|T||Mukherjee,I., M. Gopal, and N.T. Yaduraju|HCH, Endosulfan, and Fluvalinate Residue Behavior in Pigeonpea (Cajanus cajan L. Millsp)|Bull. Environ. Contam. Toxicol.48(1): 163-170|1992|10.1007/BF00197500
76734|T||Vale,G.A., I.F. Grant, C.F. Dewhurst, and D. Aigreau|Biological and Chemical Assays of Pyrethroids in Cattle Dung|Bull. Entomol. Res.94(3): 273-282|2004|10.1079/BER2004300
76735|A||Saxena,K.K., and N. Seth|Toxic Effects of Cypermethrin on Certain Hematological Aspects of Fresh Water Fish Channa punctatus|Bull. Environ. Contam. Toxicol.69(3): 364-369|2002|10.1007/s00128-002-0071-0
76736|A||Smith,M.D., and E.M. Hill|Uptake and Metabolism of Technical Nonylphenol and Its Brominated Analogues in the Roach (Rutilus rutilus)|Aquat. Toxicol.69(4): 359-369|2004|10.1016/j.aquatox.2004.06.006
76737|A||Brain,R.A., D.J. Johnson, S.M. Richards, M.L. Hanson, H. Sanderson, M.W. Lam, C. Young, S.A. Mabury, P.K. Sibley, and K|Microcosm Evaluation of the Effects of an Eight Pharmaceutical Mixture to the Aquatic Macrophytes Lemna gibba and Myriophyllum sibiricum|Aquat. Toxicol.70(1): 23-40|2004|10.1016/j.aquatox.2004.06.011
76738|A||Bonfanti,P., A. Colombo, F. Orsi, I. Nizzetto, M. Andrioletti, R. Bacchetta, P. Mantecca, U. Fascio, G. Vailati, and C.|Comparative Teratogenicity of Chlorpyrifos and Malathion on Xenopus laevis Development|Aquat. Toxicol.70(3): 189-200|2004|10.1016/j.aquatox.2004.09.007
76739|A||Eguchi,K., H. Nagase, M. Ozawa, Y.S. Endoh, K. Goto, K. Hirata, K. Miyamoto, and H. Yoshimura|Evaluation of Antimicrobial Agents for Veterinary Use in the Ecotoxicity Test Using Microalgae|Chemosphere57(11): 1733-1738|2004|10.1016/j.chemosphere.2004.07.017
76740|A||Huang,D.J., S.Y. Wang, and H.C. Chen|Effects of the Endocrine Disrupter Chemicals Chlordane and Lindane on the Male Green Neon Shrimp (Neocaridina denticulata)|Chemosphere57(11): 1621-1627|2004|10.1016/j.chemosphere.2004.08.063
76741|A||Tripathi,G., and P. Verma|Fenvalerate-Induced Changes in a Catfish, Clarias batrachus:  Metabolic Enzymes, RNA and Protein|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 75-79|2004|10.1016/j.cca.2004.05.005
76742|A||Milnes,M.R., D. Allen, T.A. Bryan, C.D. Sedacca, and L.J.,Jr. Guillette|Developmental Effects of Embryonic Exposure to Toxaphene in the American Alligator (Alligator mississippiensis)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 81-87|2004|10.1016/j.cca.2004.05.006
76743|T||Pereg,D., N. Tampal, and L.W. Robertson|Covalent Binding of Benzo(a)pyrene, 4-Chlorobiphenyl and 3,3',4,4'-Tetrachlorobiphenyl to Hepatic Nuclear Macromolecules in Female Mice|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, KY:381-386|2001|
76744|T||Twaroski,T.P., M.L. O'Brien, and L.W. Robertson|Effects of PCB 77 (3,3',4,4'-Tetrachlorobiphenyl) on Glutathione Peroxidase Activity and Regulatory Mechanisms|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:317-319|2001|
76745|T||Andric,S.A., T.S. Kostic, S.M. Dragisic, S.S. Stojilkovic, and R.Z. Kovacevic|Acute In Vivo and In Vitro Effects of Aroclors on Rat Testicular Steroidogenesis|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:303-307|2001|
76746|T||Kaya,H., J. Hany, H. Lilienthal, A. Fastabend, and G. Winneke|Developmental Exposure to a Reconstituted Mixture of PCBs in Rats:  PCB Tissue Levels and Effects on Serum Concentrations of Sex Steroids and Vitamin D3 Metabolites, General and Sex Steroid-Dependent Behaviors|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in Environmental Toxicology and Health Effects, Univ.Press of Kentucky, KY:293-295|2001|
76747|T||Painter,J.T., K.D. Pinnella, J.D. Tessari, G.N. Cosma, and S.A. Benjamin|Hepatic Enzyme Induction and Estrogen Metabolism in PCB-Exposed Rats|In: L.W.Robertson and L.G.Hansen (Eds.), PCBs: Recent Advances in the Environmental Toxicology and Health Effects, Univ.Press of Kentucky, Lexington, KY:277-279|2001|
76748|T||Iben,C., J. Bohm, H. Tausch, J. Leibetseder, and W. Luf|Dioxin Residues in the Edible Tissue of Broiler Chicken|J. Anim. Physiol. Anim. Nutr.87(3-4): 142-148|2003|10.1046/j.1439-0396.2003.00427.x
76749|A||Rao,J.V.|Effects of Monocrotophos and Its Analogs in Acetylcholinesterase Activity's Inhibition and Its Pattern of Recovery on Euryhaline Fish, Oreochromis mossambicus|Ecotoxicol. Environ. Saf.59(2): 217-222|2004|10.1016/j.ecoenv.2003.09.015
76750|T||Watanabe,M., and T. Sugahara|Experimental Formation of Cleft Palate in Mice with Polychlorinated Biphenyls (PCB)|Toxicology19(53): 49-53|1981|10.1016/0300-483X(81)90064-0
76751|A||Arufe,M.I., J. Arellano, M.J. Moreno, and C. Sarasquete|Toxicity of a Commercial Herbicide Containing Terbutryn and Triasulfuron to Seabream (Sparus aurata L.) Larvae:  A Comparison with the Microtox Test|Ecotoxicol. Environ. Saf.59(2): 209-216|2004|10.1016/j.ecoenv.2003.12.010
76752|A||Banks,K.E., P.K. Turner, S.H. Wood, and C. Matthews|Increased Toxicity to Ceriodaphnia dubia in Mixtures of Atrazine and Diazinon at Environmentally Realistic Concentrations|Ecotoxicol. Environ. Saf.60(1): 28-36|2005|10.1016/j.ecoenv.2003.12.016
76753|A||Maxwell,L.B., and H.M. Dutta|Diazinon-Induced Endocrine Disruption in Bluegill Sunfish, Lepomis macrochirus|Ecotoxicol. Environ. Saf.60(1): 21-27|2005|10.1016/j.ecoenv.2003.12.015
76754|A||Khessiba,A., M. Romeo, and P. Aissa|Effects of Some Environmental Parameters on Catalase Activity Measured in the Mussel (Mytilus galloprovincialis) Exposed to Lindane|Environ. Pollut.133(2): 275-281|2005|10.1016/j.envpol.2004.05.035
76755|T||Smialowicz,R.J., J.E. Andrews, M.M. Riddle, R.R. Rogers, R.W. Luebke, and C.B. Copeland|Evaluation of the Immunotoxicity of Low Level PCB Exposure in the Rat|Toxicology56(2): 197-211|1989|10.1016/0300-483X(89)90133-9
76757|T||Nath,R.G., E. Randerath, and K. Randerath|Short-Term Effects of the Tumor Promoting Polychlorinated Biphenyl Mixture, Aroclor 1254, on I-Compounds in Liver, Kidney and Lung DNA of Male Sprague-Dawley Rats|Toxicology68(3): 275-289|1991|10.1016/0300-483X(91)90075-C
76758|T||Sawyer,T., D. Jones, K. Rosanoff, G. Mason, J. Piskorska-Pliszczynska, and S. Safe|The Biologic and Toxic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Chickens|Toxicology39(2): 197-206|1986|10.1016/0300-483X(86)90136-8
76760|T||Hassoun,E.A., M. Al-Ghafri, and A. Abushaban|The Role of Antioxidant Enzymes in TCDD-Induced Oxidative Stress in Various Brain Regions of Rats After Subchronic Exposure|Free Radic. Biol. Med.35(9): 1028-1036|2003|10.1016/S0891-5849(03)00458-1
76761|T||Morita,K., and T. Nakano|Seaweed Accelerates the Excretion of Dioxin Stored in Rats|J. Agric. Food Chem.50(4): 910-917|2002|10.1021/jf0111920
76762|AT||Bonnet,J.L., P. Guiraud, M. Dusser, M. Kadri, J. Laffosse, R. Steiman, and J. Bohatier|Assessment of Anthracene Toxicity Toward Environmental Eukaryotic Microorganisms:  Tetrahymena pyriformis and Selected Micromycetes|Ecotoxicol. Environ. Saf.60(1): 87-100|2005|10.1016/j.ecoenv.2003.10.001
76763|T||Allen,J.R., J.P. Van Miller, and D.H. Norback|Tissue Distribution, Excretion and Biological Effects of [14C]-Tetrachlorodibenzo-p-Dioxin in Rats|Food Cosmet. Toxicol.13(5): 501-505|1975|10.1016/0015-6264(75)90002-4
76764|T||Masuda,Y., R. Kagawa, H. Kuroki, S. Tokudome, and M. Kuratsune|Transfer of Various Polychlorinated Biphenyls to the Foetuses and Offspring of Mice|Food Cosmet. Toxicol.17(6): 623-627|1979|10.1016/0015-6264(79)90122-6
76765|T||Sparschu,G.L., F.L. Dunn, and V.K. Rowe|Study of the Teratogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|Food Cosmet. Toxicol.9(3): 405-412|1971|10.1016/0015-6264(71)90045-9
76766|T||Bannister,R., and S. Safe|Synergistic Interactions of 2,3,7,8-TCDD and 2,2',4,4',5,5'-Hexachlorobiphenyl in C57BL/6J and DBA/2J Mice: Role of the Ah Receptor|Toxicology44(1): 159-169|1987|10.1016/0300-483X(87)90146-6
76767|AT||Thompson,D.M., H.P. Young, F.W. Edens, A.W. Olmstead, G.A. LeBlanc, E. Hodgson, and R.M. Roe|Non-target Toxicology of a New Mosquito Larvicide, Trypsin Modulating Oostatic Factor|Pestic. Biochem. Physiol.80(3): 131-142|2004|10.1016/j.pestbp.2004.06.009
76768|T||Bannister,R., L. Biegel, D. Davis, B. Astroff, and S. Safe|6-Methyl-1,3,8-Trichlorodibenzofuran (MCDF) as a 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Antagonist in C57BL/6 Mice|Toxicology54(2): 139-150|1989|10.1016/0300-483X(89)90040-1
76769|T||Soar,C.J., C. Preston, J. Karotam, and S.B. Powles|Polyamines can Inhibit Paraquat Toxicity and Translocation in the Broadleaf Weed Arctotheca calendula|Pestic. Biochem. Physiol.80(2): 94-105|2004|10.1016/j.pestbp.2004.07.002
76770|T||Brouwer,A., A. Kukler, and K.J. Van den Berg|Alterations in Retinoid Concentrations in Several Extrahepatic Organs of Rats by 3,4,3',4'-Tetrachlorobiphenyl|Toxicology50(3): 317-330|1988|10.1016/0300-483X(88)90047-9
76771|T||Davis,D., and S. Safe|Immunosuppressive Activities of Polychlorinated Biphenyls in C57BL/6N Mice: Structure-Activity Relationships as Ah Receptor Agonists and Partial Antagonists|Toxicology63(1): 97-111|1990|10.1016/0300-483X(90)90072-O
76772|T||Hwang,I.T., K.S. Hong, J.S. Choi, H.R. Kim, D.J. Jeon, and K.Y. Cho|Protoporphyrinogen IX-Oxidizing Activities Involved in the Mode of Action of a New Compound N-[4-Chloro-2-Fluoro-5-{3-(2-Fluorophenyl)-5-Methyl-4,5-Dihydroisoxazol-5-yl-Methoxy}-Phenyl]-3,4,5,6-Tetrahydrophthalimide|Pestic. Biochem. Physiol.80(2): 123-130|2004|10.1016/j.pestbp.2004.06.006
76773|T||Eriksson,P., U. Lundkvist, and A. Fredriksson|Neonatal Exposure to 3,3',4,4'-Tetrachlorobiphenyl: Changes in Spontaneous Behaviour and Cholinergic Muscarinic Receptors in the Adult Mouse|Toxicology69(1): 27-34|1991|10.1016/0300-483X(91)90150-Y
76774|T||Eriksson,P.|Effects of 3,3',4,4'-Tetrachlorobiphenyl in the Brain of the Neonatal Mouse|Toxicology49(1): 43-48|1988|10.1016/0300-483X(88)90172-2
76775|T||Verdin,A., A. Lounes-Hadj Sahraoui, R. Newsam, G. Robinson, and R. Durand|Polycyclic Aromatic Hydrocarbons Storage by Fusarium solani in Intracellular Lipid Vesicles|Environ. Pollut.133(2): 283-291|2005|10.1016/j.envpol.2004.05.040
76776|T||Hansen,L.G., J.J.T.W.A. Strik, J.H. Koeman, and C.A. Kan|Biological Activity of Technical Aroclor 1254 Compared to Aroclor to 1254 Residues: Swine Fat Residues fed to Broiler Cockerels|Toxicology21(3): 203-212|1981|10.1016/0300-483X(81)90156-6
76777|T||Kaufmann,L., F. Schurmann, M. Yiallouros, P. Harrewijn, and H. Kayser|The Serotonergic System is Involved in Feeding Inhibition by Pymetrozine. Comparative Studies on a Locust (Locusta migratoria) and an Aphid (Myzus persicae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(4): 469-483|2004|10.1016/j.cca.2004.08.007
76779|T||Brown,P.J., S.M. Long, D.J. Spurgeon, C. Svendsen, and P.K. Hankard|Toxicological and Biochemical Responses of the Earthworm Lumbricus rubellus to Pyrene, a Non-Carcinogenic Polycyclic Aromatic Hydrocarbon|Chemosphere57(11): 1675-1681|2004|10.1016/j.chemosphere.2004.05.041
76780|T||Lundkvist,U.|Clinical and Reproductive Effecs of Clophen A50 (PCB) Administered During Gestation on Pregnant Guinea Pigs and Their Offspring|Toxicology61(3): 249-257|1990|10.1016/0300-483X(90)90175-G
76782|A||Yada,T., K. Muto, T. Azuma, and K. Ikuta|Effects of Prolactin and Growth Hormone on Plasma Levels of Lysozyme and Ceruloplasmin in Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 57-63|2004|10.1016/j.cca.2004.09.003
76783|T||Davis,C.R., D.E. Allen, and L.J. Leamy|2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Its Effect on Genes for Mandible Traits in Mice|Environ. Toxicol. Pharmacol.12(1): 43-53|2002|10.1016/S1382-6689(02)00015-7
76784|T||Ikeda,M., N. Inukai, T. Mitsui, H. Sone, J. Yonemoto, C. Tohyama, and T. Tomita|Changes in Fetal Brain Aromatase Activity Following In Utero 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure in Rats|Environ. Toxicol. Pharmacol.11(1): 1-7|2002|10.1016/S1382-6689(01)00094-1
76785|T||Alvares,A.P., T.H. Ueng, and J.L. Eiseman|Polychlorinated Biphenyls (PCBs) Inducible Monooxygenases in Rabbits and Mice:  Species and Organ Specificities|Life Sci.30(9): 747-751|1982|10.1016/0024-3205(82)90608-7
76786|T||Robertson,L.W., A. Parkinson, S. Bandiera, I. Lambert, J. Merrill, and S. Safe|PCBs and PBBs:  Biologic and Toxic Effects on C57BL/6J and DBA/2J Inbred Mice|Toxicology31(3-4): 191-206|1984|10.1016/0300-483X(84)90101-X
76787|T||Shimada,T., A. Sugie, T. Yamada, H. Kawazoe, M. Hashimoto, E. Azuma, T. Nakajima, K. Inoue, and Y. Oda|Dose-Response Studies on the Induction of Liver Cytochromes P4501A1 and 1B1 by Polycyclic Aromatic Hydrocarbons in Arylhydrocarbon-Responsive C57BL/6J Mice|Xenobiotica33(9): 957-971|2003|10.1080/0049825031000140896
76788|T||Vogel,C.F.A., Y. Zhao, P. Wong, N.F. Young, and F. Matsumura|The Use of c-src Knockout Mice for the Identification of the Main Toxic Signaling Pathway of TCDD to Induce Wasting Syndrome|J. Biochem. Mol. Toxicol.17(6): 305-315|2003|10.1002/jbt.10096
76789|T||Senft,A.P., T.P. Dalton, D.W. Nebert, M.B. Genter, A. Puga, R.J. Hutchinson, J.K. Kerzee, S. Uno, and H.G. Shertzer|Mitochondrial Reactive Oxygen Production is Dependent on the Aromatic Hydrocarbon Receptor|Free Radic. Biol. Med.33(9): 1268-1278|2002|10.1016/S0891-5849(02)01014-6
76790|A||Maack,G., and H. Segner|Life-Stage-Dependent Sensitivity of Zebrafish (Danio rerio) to Estrogen Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 47-55|2004|10.1016/j.cca.2004.09.004
76791|A||Rasmussen,T.H., and B. Korsgaard|Estrogenic Octylphenol Affects Seminal Fluid Production and Its Biochemical Composition of Eelpout (Zoarces viviparus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(3-4): 1-10|2004|
76792|A||Rewitz,K.F., C. Kjellerup, A. Jorgensen, C. Petersen, and O. Andersen|Identification of Two Nereis virens (Annelida: Polychaeta) Cytochromes P450 and Induction by Xenobiotics|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 89-96|2004|10.1016/j.cca.2004.05.007
76793|A||Damiens,G., E. His, M. Gnassia-Barelli, F. Quiniou, and M. Romeo|Evaluation of Biomarkers in Oyster Larvae in Natural and Polluted Conditions|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(2): 121-128|2004|10.1016/j.cca.2004.05.010
76794|A||Stokes,E.A., W. Lonergan, L.P. Weber, D.M. Janz, A.A. Poznanski, G.C. Balch, C.D. Metcalfe, and M.S. Grober|Decreased Apoptosis in the Forebrain of Adult Male Medaka (Oryzias latipes) After Aqueous Exposure to Ethinylestradiol|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(2): 163-167|2004|10.1016/j.cca.2004.06.006
76795|A||Das,P.C., S. Ayyappan, B.K. Das, and J.K. Jena|Nitrite Toxicity in Indian Major Carps:  Sublethal Effect on Selected Enzymes in Fingerlings of Catla catla, Labeo rohita and Cirrhinus mrigala|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 3-10|2004|10.1016/j.cca.2004.03.010
76796|A||Gagne,F., and C. Blaise|Shell Protein Characteristics and Vitellogenin-like Proteins in Brine Shrimp Artemia franciscana Exposed to Municipal Effluent and 20-Hydroxyecdysone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(4): 515-522|2004|10.1016/j.cca.2004.08.011
76797|A||Avilez,I.M., A.E. Altran, L.H. Aguiar, and G. Moraes|Hematological Responses of the Neotropical Teleost Matrinxa (Brycon cephalus) to Environmental Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 135-139|2004|10.1016/j.cca.2004.10.001
76798|A||Dupont,S., J. Mallefet, and C. Vanderlinden|Effect of beta-Adrenergic Antagonists on Bioluminescence Control in Three Species of Brittlestars (Echinodermata:  Ophiuroidea)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(1): 59-66|2004|10.1016/j.cca.2004.04.007
76799|A||Yildiz,H.Y., and A.C.K. Benli|Nitrite Toxicity to Crayfish, Astacus leptodactylus, the Effects of Sublethal Nitrite Exposure on Hemolymph Nitrite, Total Hemocyte Counts, and Hemolymph Glucose|Ecotoxicol. Environ. Saf.59(3): 370-375|2004|10.1016/j.ecoenv.2003.07.007
76800|A||Lappivaara,J., and S. Marttinen|Effects of Waterborne Iron Overload and Simulated Winter Conditions on Acute Physiological Stress Response of Whitefish, Coregonus lavaretus|Ecotoxicol. Environ. Saf.60(2): 157-168|2005|10.1016/j.ecoenv.2004.01.003
76801|A||Dobranskyte,A., R. Jugdaohsingh, E. Stuchlik, J.J. Powell, K.N. White, and C.R. McCrohan|Role of Exogenous and Endogenous Silicon in Ameliorating Behavioural Responses to Aluminium in a Freshwater Snail|Environ. Pollut.132(3): 427-433|2004|10.1016/j.envpol.2004.05.023
76802|A||Alstad,N.E.W., B.M. Kjelsberg, L.A. Vollestad, E. Lydersen, and A.B.S. Poleo|The Significance of Water Ionic Strength on Aluminium Toxicity in Brown Trout (Salmo trutta L.)|Environ. Pollut.133(2): 333-342|2005|10.1016/j.envpol.2004.05.030
76803|A||Nunes,B., F. Carvalho, and L. Guilhermino|Acute and Chronic Effects of Clofibrate and Clofibric Acid on the Enzymes Acetylcholinesterase, Lactate Dehydrogenase and Catalase of the Mosquitofish, Gambusia holbrooki|Chemosphere57(11): 1581-1589|2004|10.1016/j.chemosphere.2004.09.018
76804|A||Mochida,K., N. Ohkubo, T. Matsubara, K. Ito, A. Kakuno, and K. Fujii|Effects of Endocrine-Disrupting Chemicals on Expression of Ubiquitin C-Terminal Hydrolase mRNA in Testis and Brain of the Japanese Common Goby|Aquat. Toxicol.70(2): 123-136|2004|10.1016/j.aquatox.2004.08.001
76805|A||Panter,G.H., T.H. Hutchinson, K.S. Hurd, A. Sherren, R.D. Stanley, and C.R. Tyler|Successful Detection of (anti-)Androgenic and Aromatase Inhibitors in Pre-Spawning Adult Fathead Minnows (Pimephales promelas) Using Easily Measured Endpoints of Sexual Development|Aquat. Toxicol.70(1): 11-21|2004|10.1016/j.aquatox.2004.06.007
76806|T||Mahboob,M., M. Kaleem, and J. Siddiqui|Effects of a Novel Organophosphorus Pesticide (RPR-V) on Extra Hepatic Detoxifying Enzymes After Repeated Oral Doses in Rats|Toxicology202(3): 159-164|2004|10.1016/j.tox.2004.05.004
76808|T||Lee,J.K., J.A. Byun, S.H. Park, H.S. Kim, J.H. Park, J.H. Eom, and H.Y. Oh|Evaluation of the Potential Immunotoxicity of 3-Monochloro-1,2-Propanediol in Balb/c Mice:  I.  Effect on Antibody Forming Cell, Mitogen-Stimulated Lymphocyte Proliferation, Splenic Subset, and Natural Killer Cell Activ|Toxicology204(1): 1-11|2004|10.1016/j.tox.2004.04.005
76809|T||Hooth,M.J., R.A. Herbert, J.K. Haseman, D.P. Orzech, J.D. Johnson, and J.R. Bucher|Toxicology and Carcinogenesis Studies of Dipropylene Glycol in Rats and Mice|Toxicology204(2/3): 123-140|2004|10.1016/j.tox.2004.06.019
76810|T||Peinado,V., J.C. Gonzalez, and M.L. Leret|Effect of 17-beta-Estradiol on Dopamine, Serotonine and GABA Striatal Levels in 6-Hydroxydopamine-Treated Rats|Toxicology204(2-3): 155-160|2004|10.1016/j.tox.2004.06.021
76811|T||Shanthakumari,D., S. Srinivasalu, and S. Subramanian|Effect of Fluoride intoxication on Lipidperoxidation and Antioxidant Status in Experimental Rats|Toxicology204(2-3): 219-228|2004|10.1016/j.tox.2004.06.058
76812|T||Jarry,H., J. Christoffel, G. Rimoldi, L. Koch, and W. Wuttke|Multi-Organic Endocrine Disrupting Activity of the UV Screen Benzophenone 2 (BP2) in Ovariectomized Adult Rats After 5 Days Treatment|Toxicology205(1/2): 87-93|2004|10.1016/j.tox.2004.06.040
76813|T||Grote,K., B. Stahlschmidt, C.E. Talsness, C. Gericke, K.E. Appel, and I. Chahoud|Effects of Organotin Compounds on Pubertal Male Rats|Toxicology202(3): 145-158|2004|10.1016/j.tox.2004.05.003
76814|T||Reznikov,A.G., N.D. Nosenko, and L.V. Tarasenko|Early Postnatal Effects of Prenatal Exposure to Glucocorticoids on Testosterone Metabolism and Biogenic Monoamines in Discrete Neuroendocrine Regions of the Rat Brain|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(2): 169-175|2004|10.1016/j.cca.2004.06.005
76815|T||Piffer,R.C., and O.C.M. Pereira|Reproductive Aspects in Female Rats Exposed Prenatally to Hydrocortisone|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 11-16|2004|10.1016/j.cca.2004.08.017
76816|T||Schmutzler,C., I. Hamann, P.J. Hofmann, G. Kovacs, L. Stemmler, B. Mentrup, L. Schomburg, P. Ambrugger, A. Gruters, D. |Endocrine Active Compounds Affect Thyrotropin and Thyroid Hormone Levels in Serum as well as Endpoints of Thyroid Hormone Action in Liver, Heart and Kidney|Toxicology205(1-2): 95-102|2004|10.1016/j.tox.2004.06.041
76817|T||Liu,Z., C. Li, M. Li, D. Li, and K. Liu|The Subchronic Toxicity of Hydroxysafflor Yellow A of 90 Days Repeatedly Intraperitoneal Injections in Rats|Toxicology203(1-3): 139-143|2004|10.1016/j.tox.2004.06.007
76818|T||Schlecht,C., H. Klammer, H. Jarry, and W. Wuttke|Effects of Estradiol, Benzophenone-2 and Benzophenone-3 on the Expression Pattern of the Estrogen Receptors (ER) alpha and beta, the Estrogen Receptor-Related Receptor 1 (ERR1) and the Aryl Hydrocarbon Receptor (AhR) in|Toxicology205(1/2): 123-130|2004|10.1016/j.tox.2004.06.044
76819|T||Schlumpf,M., P. Schmid, S. Durrer, M. Conscience, K. Maerkel, M. Henseler, M. Gruetter, I. Herzog, S. Reolon, R. Ceccat|Endocrine Activity and Developmental Toxicity of Cosmetic UV Filters - an Update|Toxicology205(1-2): 113-122|2004|10.1016/j.tox.2004.06.043
76821|T||Fanucchi,M.V., K.C. Day, C.C. Clay, and C.G. Plopper|Increased Vulnerability of Neonatal Rats and Mice to 1-Nitronaphthalene-Induced Pulmonary Injury|Toxicol. Appl. Pharmacol.201(1): 53-65|2004|10.1016/j.taap.2004.05.002
76823|T||Lafferty,J.S., L.M. Kamendulis, J. Kaster, J. Jiang, and J.E. Klaunig|Subchronic Acrylamide Treatment Induces a Tissue-Specific Increase in DNA Synthesis in the Rat|Toxicol. Lett.154(1-2): 95-103|2004|10.1016/j.toxlet.2004.07.008
76825|T||Babu,R.J., A. Chatterjee, and M. Singh|Assessment of Skin Irritation and Molecular Responses in Rat Skin Exposed to Nonane, Dodecane and Tetradecane|Toxicol. Lett.153(2): 255-266|2004|10.1016/j.toxlet.2004.04.036
76826|T||Sharma,S., N. Khan, and S. Sultana|Modulatory Effect of Gentisic Acid on the Augmentation of Biochemical Events of Tumor Promotion Stage by Benzoyl Peroxide and Ultraviolet Radiation in Swiss Albino Mice|Toxicol. Lett.153(3): 293-302|2004|10.1016/j.toxlet.2004.04.048
76827|T||Byrne,F.J., and N.C. Toscano|Levels of Organophosphorus and Carbamate Insecticide Resistance Conferred by Insensitive Acetylcholinesterase in the Beet Armyworm, Spodoptera exigua (Hubner)|Proc. Beltwide Cotton Conf.2:1006-1008|2000|
76829|T||Penza,M., E. Bonetti, R. Villa, S. Ganzerla, R. Bergonzi, G. Biasiotto, L. Caimi, P. Apostoli, P. Ciana, A. Maggi, and |Whole Body Action of Xenoestrogens with Different Chemical Structures in Estrogen Reporter Male Mice|Toxicology205(1-2): 65-73|2004|10.1016/j.tox.2004.06.038
76830|T||Gabbianelli,R., C. Nasuti, G. Falcioni, and F. Cantalamessa|Lymphocyte DNA Damage in Rats Exposed to Pyrethroids:  Effect of Supplementation with Vitamins E and C|Toxicology203(1-3): 17-26|2004|10.1016/j.tox.2004.05.012
76831|T||Baligar,P.N., and B.B. Kaliwal|Carbofuran Induced Block of Compensatory Ovarian Growth in Hemicastrated Albino Mice|Toxicology204(2-3): 87-95|2004|10.1016/j.tox.2004.06.027
76833|T||Giuliani,M., D. Antuzzi, C. Lajolo, L. Mistura, and R. Ricci|Influence of beta-Carotene on Lysosomal Hydrolases and Their Natural Substrates in Major Salivary Glands of Hamsters Treated with 7,12-Dimethylbenzanthracene (DMBA)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(4): 445-452|2004|10.1016/j.cca.2004.07.007
76834|T||Barber,D.S., and R.M. LoPachin|Proteomic Analysis of Acrylamide-Protein Adduct Formation in Rat Brain Synaptosomes|Toxicol. Appl. Pharmacol.201(2): 120-136|2004|10.1016/j.taap.2004.05.008
76836|T||Ferioli,M.E., D. Berselli, and S. Caimi|Effect of Mitoguazone on Polyamine Oxidase Activity in Rat Liver|Toxicol. Appl. Pharmacol.201(2): 105-111|2004|10.1016/j.taap.2004.05.013
76839|A||Trudeau,V.L., R.E. Peter, and B.D. Sloley|Testosterone and Estradiol Potentiate the Serum Gonadotropin Response to Gonadotropin-Releasing Hormone in Goldfish|Biol. Reprod.44:951-960|1991|10.1095/biolreprod44.6.951
76840|A||Tyler,C.R., J.P. Sumpter, and N.R. Bromage|In Vivo Ovarian Uptake and Processing of Vitellogenin in the Rainbow Trout, Salmo gairdneri|J. Exp. Zool.246:171-179|1988|10.1002/jez.1402460209
76841|A||Van den Hurk,R., and G.A. Slof|A Morphological and Experimental Study of Gonadal Sex Differentiation in the Rainbow Trout, Salmo gairdneri|Cell Tissue Res.218:487-497|1981|10.1007/BF00210109
76842|A||Washburn,B.S., J.S. Krantz, E.H. Avery, and R.A. Freedland|Effects of Estrogen on Gluconeogenesis and Related Parameters in Male Rainbow Trout|Am. J. Physiol., Regul. Integr. Comp. Physiol.264:R720 - R725|1993|10.1152/ajpregu.1993.264.4.R720
76843|A||Sousa,J.V.|Nonylphenol-1.5EO - Chronic Toxicity to Mysids (Mysidopsis bahia) Under Flow-Through Conditions|SLI Rep.No.98-10-7497, Springborn Lab.Inc., Wareham, MA:37 p.|1999|
76845|T||Heck,J., D.S. MacKenzie, D. Rostal, K. Medler, and D. Owens|Estrogen Induction of Plasma Vitellogenin in the Kemp's Ridley Sea Turtle (Lepidochelys kempi)|Gen. Comp. Endocrinol.107:280-288|1997|10.1006/gcen.1997.6930
76846|T||Routledge,E.J., J. Parker, J. Odum, J. Ashby, and J.P. Sumpter|Some Alkyl Hydroxy Benzoate Preservatives (Parabens) are Estrogenic|Toxicol. Appl. Pharmacol.153:12-19|1998|10.1006/taap.1998.8544
76847|A||Routledge,E.J., D. Sheahan, C. Desbrow, G.C. Brighty, M. Waldock, and J.P. Sumpter|Identification of Estrogenic Chemicals in STW Effluent.  2.  In Vivo Responses in Trout and Roach|Environ. Sci. Technol.32:1559-1565|1998|10.1021/es970796a
76848|A||Gimeno,S., A. Gerritsen, T. Bowmer, and H. Komen|Feminization of Male Carp|Nature384:221-222|1996|10.1038/384221a0
76851|A||Chen,T.T.|Identification and Characterization of Estrogen-Responsive Gene Products in the Liver of Rainbow Trout|Cell Biol. Int.61:802-810|1983|
76857|T||Ahmad,G., and S. Zamenhof|Toxic Effects of Phencyclidine on Developing Chick Embryo Brain|Life Sci.41(11): 1409-1413|1987|10.1016/0024-3205(87)90616-3
76859|A||Huang,G.L., Y. Mao, J.V. Headley, and H.W. Sun|Temporal Changes in the Toxicity of Pentachlorophenol to Chlorella pyrenidosa Algae|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(5): 551-559|2003|
76860|A||Sharma,S., and S. Singh|Effect of Rogor Toxicity on Some Biochemical Parameters in the Fish Channa punctatus|Bionotes4(2): 42-43|2002|
76861|A||Markich,S.J., G.E. Batley, J.L. Stauber, N.J. Rogers, S.C. Apte, R.V. Hyne, K.C. Bowles, K.L. Wilde, and N.M. Creighton|Hardness Corrections for Copper are Inappropriate for Protecting Sensitive Freshwater Biota|Chemosphere60:1-8|2005|10.1016/j.chemosphere.2004.12.005
76862|A||Georgiades,E.T., D.A. Holdway, S.E. Brennan, J.S. Butty, and A. Temara|The Impact of Oil-Derived Products on the Behaviour and Biochemistry of the Eleven-Armed Asteroid Coscinasterias muricata (Echinodermata)|Mar. Environ. Res.55(3): 257-276|2003|10.1016/S0141-1136(02)00273-8
76863|A||Wolfe,M.F., H.E. Olsen, K.A. Gasuad, R.S. Tjeerdema, and M.L. Sowby|Induction of Heat Shock Protein (hsp)60 in Isochrysis galbana Exposed to Sublethal Preparations of Dispersant and Prudhoe Bay Crude Oil|Mar. Environ. Res.47(5): 473-489|1999|10.1016/S0141-1136(98)00132-9
76864|A||Reid,D.J., and G.R. MacFarlane|Potential Biomarkers of Crude Oil Exposure in the Gastropod Mollusc, Austrocochlea porcata:  Laboratory and Manipulative Field Studies|Environ. Pollut.126(2): 147-155|2003|10.1016/S0269-7491(03)00209-4
76865|A||McCoy,D.L., and K.M. Brown|Hydrocarbon Pollutants Alter Short-Term Recruitment in the Barnacle Balanus eburneus|Mar. Environ. Res.45(3): 209-224|1998|10.1016/S0141-1136(97)00029-9
76866|T||Dorn,P.B., T.E. Vipond, J.P. Salanitro, and H.L. Wisniewski|Assessment of the Acute Toxicity of Crude Oils in Soils Using Earthworms, Microtox Registered , and Plants|Chemosphere37(5): 845-860|1998|10.1016/S0045-6535(98)00089-7
76867|A||Neff,J.M., S. Ostazeski, W. Gardiner, and I. Stejskal|Effects of Weathering on the Toxicity of Three Offshore Australian Crude Oils and a Diesel Fuel to Marine Animals|Environ. Toxicol. Chem.19(7): 1809-1821|2000|10.1002/etc.5620190715
76868|T||Gong,P., B.M. Wilke, E. Strozzi, and S. Fleischmann|Evaluation and Refinement of a Continuous Seed Germination and Early Seedling Growth Test for the Use in the Ecotoxicological Assessment of Soils|Chemosphere44(3): 491-500|2001|10.1016/S0045-6535(00)00280-0
76869|A||Stromgren,T., M.V. Nielsen, and K. Ueland|Short-Term Effect of Microencapsulated Hydrocarbons on Shell Growth of Mytilus edulis|Mar. Biol.91(1): 33-39|1986|10.1007/BF00397568
76870|A||O'Clair,C.E., and S.D. Rice|Depression of Feeding and Growth Rates of the Seastar Evasterias troschelii During Long-Term Exposure to the Water-Soluble Fraction of Crude Oil|Mar. Biol.84(3): 331-340|1985|10.1007/BF00392503
76871|A||Cajaraville,M.P., J.A. Uranga, and E. Angulo|Comparative Effects of the Water Accommodated Fraction of Three Oils on Mussels - 3.  Quantitative Histochemistry of Enzymes Related to the Detoxication Metabolism|Comp. Biochem. Physiol. C Comp. Pharmacol.103(2): 369-377|1992|10.1016/0742-8413(92)90023-Z
76872|A||Patten,K.|Persistence and Non-Target Impact of Imazapyr Associated with Smooth Cordgrass Control in an Estuary|J. Aquat. Plant Manag.41:1-6|2003|
76873|T||Giri,S., A. Giri, G.D. Sharma, and S.B. Prasad|Induction of Sister Chromatid Exchanges by Cypermethrin and Carbosulfan in Bone Marrow Cells of Mice In Vivo|Mutagenesis18(1): 53-58|2003|10.1093/mutage/18.1.53
76874|T||Malaviya,M., R. Husain, and P.K. Seth|Perinatal Effects of Two Pyrethroid Insecticides on Brain Neurotransmitter Function in the Neonatal Rat|Vet. Hum. Toxicol.35(2): 119-122|1993|
76875|T||Garg,S.K., M.A.A. Shah, K.M. Garge, M.M. Farooqui, and M. Sabir|Biochemical and Physiological Alterations Following Short Term Exposure to Fluvalinate - a Synthetic Pyrethroid|Indian J. Pharmacol.29(4): 250-254|1997|
76876|T||Garg,S.K., S.K. Rastogi, V.K. Gupta, and C. Varshney|Toxicological Profile of Fluvalinate - a Synthetic Pyrethroid|Indian J. Pharmacol.24(3): 154-157|1992|
76877|T||Ansari,M.Z., A. Kumar, R.L. Prasad, A. Basu, B.N. Sahai, and A.P. Sinha|Clinico-biochemical Use of Serum Acetylcholine Esterase Following Treatment with Synthetic Pyrethroids, Cypermethrin and Fenvalerate, in Cattle and Buffalo Experimentally Infested with Boophilus microplus|Indian J. Exp. Biol.28(3): 241-244|1990|
76878|A||Willis,K.J., and N. Ling|Toxicity of the Aquaculture Pesticide Cypermethrin to Planktonic Marine Copepods|Aquac. Res.35(3): 263-270|2004|10.1111/j.1365-2109.2004.01008.x
76879|A||Pahl,B.C., and H.M. Opitz|The Effects of Cypermethrin (Excis) and Azamethiphos (Salmosan) on Lobster Homarus americanus H. Milne Edwards Larvae in a Laboratory Study|Aquac. Res.30(9): 655-665|1999|10.1046/j.1365-2109.1999.00372.x
76880|T||Fuller,B.W., M.A. Boetel, W.W. Chambers, and J.M. Jenson|Insecticidal Corn Rootworm Control Using Various Application Rates and Techniques, 1991|Insectic. Acaric. Tests18:198-200|1993|10.1093/iat/18.1.198
76881|T||Hakoi,K., R. Cabral, T. Hoshiya, R. Hasegawa, T. Shirai, and N. Ito|Analysis of Carcinogenic Activity of Some Pesticides in a Medium-Term Liver Bioassay in the Rat|Teratog. Carcinog. Mutagen.12(6): 269-276|1992|10.1002/tcm.1770120605
76882|T||Iyaniwura,T.T., and C.A. Okonkwo|The Acute Intraperitoneal Toxicity of Cypermethrin|Vet. Hum. Toxicol.46(2): 91-92|2004|
76883|T||Yawetz,A., Z. Zook-Rimon, and A. Dotan|Cholinesterase Profiles in Two Species of Wild Birds Exposed to Insecticide Sprays in Their Natural Habitat|Arch. Insect Biochem. Physiol.22(3-4): 501-509|1993|10.1002/arch.940220315
76884|T||Espandiari,P., G. Ludewig, H.P. Glauert, and L.W. Robertson|Activation of Hepatic NF-kappaB by the Herbicide Dicamba (2-Methoxy-3,6-Dichlorobenzoic Acid) in Female and Male Rats|J. Biochem. Mol. Toxicol.12(6): 339-344|1998|10.1002/(SICI)1099-0461(1998)12:6<339::AID-JBT3>3.0.CO;2-N
76886|T||Kapoor,R.K., S.S. Chauhan, N. Singh, and U.K. Misra|Induction of Hepatic Mixed-Function Oxidases by Permethrin and Cypermethrin in Chicks Fed Vitamin A-Deficient Diet|Pestic. Biochem. Physiol.32(3): 205-211|1988|10.1016/0048-3575(88)90102-2
76887|T||Kapoor,R.K., N. Singh, S.S. Chauhan, and U.K. Misra|Effect of Permethrin and Cypermethrin on Vitamin A Distribution to the Various Organs of Chicks Fed Vitamin A-Deficient Diet|Nutr. Rep. Int.39(5): 1061-1068|1989|
76888|T||Siroki,O., L. Institoris, E. Tatar, and I. Desi|Immunotoxicological Investigation of SCMF, a New Pyrethroid Pesticide in Mice|Hum. Exp. Toxicol.13(5): 337-343|1994|10.1177/096032719401300509
76889|T||Tulinska,J., J. Kubova, S. Janota, and S. Nyulassy|Investigation of Immunotoxicity of Supercypermethrin Forte in the Wistar Rat|Hum. Exp. Toxicol.14(5): 399-403|1995|10.1177/096032719501400502
76890|T||Racey,P.A., and S.M. Swift|The Residual Effects of Remedial Timber Treatments on Bats|Biol. Conserv.35(3): 205-214|1986|10.1016/0006-3207(86)90064-9
76892|T||Smith,M.O., I.L. Sherman, L.C. Miller, K.R. Robbins, and J.T. Halley|Relative Biological Availability of Manganese from Manganese Proteinate, Manganese Sulfate, and Manganese Monoxide in Broilers Reared at Elevated Temperatures|Poult. Sci.74:702-707|1995|10.3382/ps.0740702
76893|T||Lehning,E.J., C.D. Balaban, J.F. Ross, M.A. Reid, and R.M. LoPachin|Acrylamide Neuropathy I. Spatiotemporal Characteristics of Nerve Cell Damage in Rat Cerebellum|Neurotoxicology23(3): 397-414|2002|10.1016/S0161-813X(02)00083-9
76894|T||Tatum,L., P. Shankar, L.M. Boylan, and J.E. Spallholz|Effect of Dietary Copper on Selenium Toxicity in Fischer 344 Rats|Biol. Trace Elem. Res.77(3): 241-249|2000|10.1385/BTER:77:3:241
76895|T||Cempel,M., and K. Janicka|Distribution of Nickel, Zinc, and Copper in Rat Organs After Oral Administration of Nickel(II) Chloride|Biol. Trace Elem. Res.90(1-3): 215-226|2002|10.1385/BTER:90:1-3:215
76896|T||Zhang,S.S.Z., M.M. Noordin, S.O.A. Rahman, and M.J. Haron|Effects of Copper Overload on Hepatic Lipid Peroxidation and Antioxidant Defense in Rats|Vet. Hum. Toxicol.42(5): 261-264|2000|
76897|T||Fuentealba,I.C., J.E. Mullins, E.M. Aburto, J.C. Lau, and G.M. Cherian|Effect of Age and Sex on Liver Damage due to Excess Dietary Copper in Fischer 344 Rats|Clin. Toxicol.38(7): 709-717|2000|
76898|T||Chen,M.T., S.J. Yiin, J.Y. Sheu, and Y.L. Huang|Brain Lipid Peroxidation and Changes of Trace Metals in Rats Following Chronic Manganese Chloride Exposure|J. Toxicol. Environ. Health Part A65(3-4): 305-316|2002|10.1080/15287390252800882
76899|T||Jurczuk,M., M.M. Brzoska, J. Moniuszko-Jakoniuk, M. Galazyn-Sidorczuk, and E. Kulikowska-Karpinska|Antioxidant Enzymes Activity and Lipid Peroxidation in Liver and Kidney of Rats Exposed to Cadmium and Ethanol|Food Chem. Toxicol.42(2): 429-438|2004|10.1016/j.fct.2003.10.005
76900|T||Brzoska,M.M., J. Moniuszko-Jakoniuk, M. Jurczuk, M. Galazyn-Sidorczuk, and J. Rogalska|The Effect of Zinc Supply on Cadmium-Induced Changes in the Tibia of Rats|Food Chem. Toxicol.39(7): 729-737|2001|10.1016/S0278-6915(01)00007-2
76901|T||Pettersen,A.J., R.A. Andersen, and K.E. Zachariassen|Effects of Dietary Intake of Trace Metals on Tissue Contents of Sodium and Calcium in Mice (Mus musculus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(1): 53-60|2002|10.1016/S1532-0456(02)00044-3
76902|T||Peterson,R.P., L.S. Jensen, and P.C. Harrison|Effect of Silver-Induced Enlarged Hearts During the First Four Weeks of Life on Subsequent Performance of Turkeys|Avian Dis.17(4): 802-806|1973|10.2307/1589048
76903|T||Ozcelik,D., R. Ozaras, Z. Gurel, H. Uzun, and S. Aydin|Copper-Mediated Oxidative Stress in Rat Liver|Biol. Trace Elem. Res.96(1-3): 209-215|2003|10.1385/BTER:96:1-3:209
76904|T||Hutson,D.H., and C.J. Logan|The Metabolic Fate in Rats of the Pyrethroid Insecticide WL85871, a Mixture of Two Isomers of Cypermethrin|Pestic. Sci.17(5): 548-558|1986|10.1002/ps.2780170513
76905|T||Edwards,R., P. Millburn, and D.H. Hutson|Comparative Metabolism and Disposition of (14C-Benzyl) Cypermethrin in Quail, Rat and Mouse|Pestic. Sci.30(2): 159-181|1990|10.1002/ps.2780300205
76906|T||Salawu,O.A., T.T. Iyaniwura, and A.O. Adaudi|Effects of Anticonvulsants on Acute Cypermethrin Poisoning in Mice and Rats|Vet. Hum. Toxicol.42(5): 303-305|2000|
76907|T||Sharma,R.K., and R.P. Chawla|Residues of Cypermethrin in Chickpea Crop|J. Insect Sci.5(1): 103-104|1992|
76908|T||Chalmers,A.E., and M.P. Osborne|The Crayfish Stretch Receptor Organ:  A Useful Model System for Investigating the Effects of Neuroactive Substances.  I.  The Effect of DDT and Pyrethroids|Pestic. Biochem. Physiol.26(2): 128-138|1986|10.1016/0048-3575(86)90084-2
76909|T||Utkhede,R.S., and T.S.C. Li|Chemical and Biological Treatments for Control of Apple Replant Disease in British Columbia|Can. J. Plant Pathol.11(2): 143-147|1989|10.1080/07060668909501129
76911|T||Taylor,S.M., C.T. Elliott, and W.J. Blanchflower|A Comparison of Cypermethrin Distribution on Cattle Hair After Application of Impregnated Ear and Tail Tags|Pestic. Sci.21(1): 39-44|1987|10.1002/ps.2780210104
76912|T||Rao,G.V., and K.S.J. Rao|Modulation in Acetylcholinesterase of Rat Brain by Pyrethroids In Vivo and an In Vitro Kinetic Study|J. Neurochem.65(5): 2259-2266|1995|10.1046/j.1471-4159.1995.65052259.x
76913|T||Sankhla,R., and S.K. Sharma|Insecticides Residues in Chickpea|Oikoassay7(1-2): 17-18|1990|
76923|A||Powell,D.H.|Comparative Tolerance of Fingerling Black Crappie, White Crappie, and Largemouth Bass to Fintrol-5 at Two pH Levels|Proc. Southeast. Assoc. Game Fish Comm.27:448-454|1974|
76924|A||Svoboda,M., V. Luskova, J. Drastichova, and V. Zlabek|The Effect of Diazinon on Haematological Indices of Common Carp (Cyprinus carpio L.)|Acta Vet. Brno70:457-465|2001|10.2754/avb200170040457
76926|T||Zheng,X.B., and W.H. Ko|Continuing Variation in Colony Morphology and Fungicide Senstivity in Phytophthora cinnamomi Following Exposure to Chloroneb|Bot. Bull. Acad. Sin. (Taipei)38:177-182|1997|
76928|T||Vallentine,J.F., and D. Schwendiman|Spot Treatment for Gambel Oak Control|J. Range Manag.26(5): 382-383|1973|10.2307/3896864
76931|T||Wang,K.Y., T.X. Liu, X.Y. Jiang, and M.Q. Yi|Cross-Resistance of Aphis gossypii to Selected Insecticides on Cotton and Cucumber|Phytoparasitica29(5): 393-399|2001|10.1007/BF02981857
76932|T||Liu,T.X., A.N.Jr. Sparks, and T.Y. Chen|Toxicity Baselines and Efficacy of Selected Aphicides Against Turnip Aphid (Homoptera: Aphididae) on Cabbage|Southwest. Entomol.26(1): 15-21|2001|
76933|T||Liu,T.X., A.N.Jr. Sparks, and B. Yue|Toxicity and Efficacy of Triazamate Against Turnip Aphid (Homoptera: Aphididae) on Cabbage|J. Entomol. Sci.36(3): 244-250|2001|10.18474/0749-8004-36.3.244
76934|T||James,D.G.|Pesticide Susceptibility of Two Coccinellids (Stethorus punctum picipes and Harmonia axyridis) Important in Biological Control of Mites and Aphids in Washington Hops|Biocontrol Sci. Technol.13(2): 253-259|2003|10.1080/0958315021000073510
76935|T||Liu,T.X., and C.W. Meister|Managing Bemisia argentifolii on Spring Melons with Insect Growth Regulators, Entomopathogens and Imidacloprid in South Texas|Subtrop. Plant Sci.53:44-48|2001|
76936|T||Yang,X., K.Y. Zhu, L.L. Buschman, and D.C. Margolies|Comparative Susceptibility and Possible Detoxification Mechanisms for Selected Miticides in Banks Grass Mite and Two-Spotted Spider Mite (Acari: Tetranychidae)|Exp. Appl. Acarol.25:293-299|2001|10.1023/A:1017926920389
76940|AT||E.I. Du Pont De Nemours|Eye Irritation Test in Rabbits|Du Pont, Wilmington, DE:213 p.|1981|
76951|T||E.I. Du Pont De Nemours|Acute Skin Absorption Test on Rabbits - ALD|EPA/OTS Doc.#878221309:2 p.|1983|
76954|T||E.I. Du Pont De Nemours|Skin Absorption Subacute Tests with Dichloroaniline and Related Materials|EPA/OTS Doc.#87-8221311:78 p.|1979|
76972|T||Overmann,S.R., J. Kostas, L.R. Wilson, W. Shain, and B. Bush|Neurobehavioral and Somatic Effects of Perinatal PCB Exposure in Rats|Environ. Res.44(1): 56-70|1987|10.1016/S0013-9351(87)80086-5
76973|T||Brouwer,A., W.S. Blaner, A. Kukler, and K.J. Van den Berg|Study on the Mechanism of Interference of 3,4,3',4'-Tetrachlorobiphenyl with the Plasma Retinol-Binding Proteins in Rodents|Chem.-Biol. Interact.68(3-4): 203-217|1988|10.1016/0009-2797(88)90017-8
76974|T||Brezner,E., J. Terkel, and A.S. Perry|The Effect of Aroclor 1254 (PCB) on the Physiology of Reproduction in the Female Rat - I|Comp. Biochem. Physiol. C Comp. Pharmacol.77(1): 65-70|1984|10.1016/0742-8413(84)90131-2
76975|T||Van Miller,J.P., J.J. Lalich, and J.R. Allen|Increased Incidence of Neoplasms in Rats Exposed to Low Levels of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Chemosphere6(9): 537-544|1977|10.1016/0045-6535(77)90107-2
76976|T||Sawyer,T.W., A.D. Vatcher, and S. Safe|Comparative Aryl Hydrocarbon Hydroxylase Induction Activities of Commercial PCBs in Wistar Rats and Rat Hepatoma H-4-II-E Cells in Culture|Chemosphere13(7): 695-701|1984|10.1016/0045-6535(84)90173-5
76977|T||Poiger,H., N. Pluess, and C. Schlatter|Subchronic Toxicity of Some Chlorinated Dibenzofurans in Rats|Chemosphere18(1-6): 265-275|1989|10.1016/0045-6535(89)90130-6
76978|T||Borlakoglu,J.T., J.D. Edwards-Webb, R.R. Dils, J.P.G. Wilkins, and L.W. Robertson|Evidence for the Induction of Cytochrome P-452 in Rat Liver by Aroclor 1254, a Commercial Mixture of Polychlorinated Biphenyls|FEBS Lett.247(2): 327-329|1989|10.1016/0014-5793(89)81362-6
76979|T||Sager,D., D. Girard, and D. Nelson|Early Postnatal Exposure to PCBs: Sperm Function in Rats|Environ. Toxicol. Chem.10(6): 737-746|1991|10.1002/etc.5620100605
76980|T||Bernhoft,A., I. Nafstad, P. Engen, and J.U. Skaare|Effects of Pre- and Postnatal Exposure to 3,3',4,4',5-Penta-Chlorobiphenyl on Physical Development, Neurobehaviour and Xenobiotic Metabolizing Enzymes in Rats|Environ. Toxicol. Chem.13(10): 1589-1597|1994|
76981|T||Tilson,H.A., G.J. Davis, J.A. McLachlan, and G.W. Lucier|The Effects of Polychlorinated Biphenyls Given Prenatally on the Neurobehavioral Development of Mice|Environ. Res.18(2): 466-474|1979|10.1016/0013-9351(79)90122-1
76982|T||Sager,D.B., and D.M. Girard|Long-Term Effects on Reproductive Parameters in Female Rats After Translactational Exposure to PCBs|Environ. Res.66(1): 52-76|1994|10.1006/enrs.1994.1044
76983|T||Buchmann,A., S. Ziegler, A. Wolf, L.W. Robertson, S.K. Durham, and M. Schwarz|Effects of Polychlorinated Biphenyls in Rat Liver: Correlation Between Primary Subcellular Effects and Promoting Activity|Toxicol. Appl. Pharmacol.111(3): 454-468|1991|10.1016/0041-008X(91)90250-I
76984|T||Brouwer,A., K.J. Van den Berg, and A. Kukler|Time and Dose Responses of the Reduction in Retinoid Concentrations in C57BL/Rij and DNA/2 Mice Induced by 3,4,3',4'-Tetrachlorobiphenyl|Toxicol. Appl. Pharmacol.78(2): 180-189|1985|10.1016/0041-008X(85)90282-0
76985|T||Bookstaff,R.C., R.W. Moore, and R.E. Peterson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Increases the Potency of Androgens and Estrogens as Feedback Inhibitors of Luteinizing Hormone Secretion in Male Rats|Toxicol. Appl. Pharmacol.104(2): 212-224|1990|10.1016/0041-008X(90)90296-7
76986|T||Birnbaum,L.S., M.W. Harris, L.M. Stocking, A.M. Clark, and R.E. Morrissey|Retinoic Acid and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Selectively Enhance Teratogenesis in C57BL/6N Mice|Toxicol. Appl. Pharmacol.98(3): 487-500|1989|10.1016/0041-008X(89)90177-4
76987|T||Biocca,M., B.N. Gupta, K. Chae, J.D. McKinney, and J.A. Moore|Toxicity of Selected Symmetrical Hexachlorobiphenyl Isomers in the Mouse|Toxicol. Appl. Pharmacol.58(3): 461-474|1981|10.1016/0041-008X(81)90099-5
76988|T||Flodstrom,S., and U.G. Ahlborg|Relative Liver Tumor Promoting Activity of Some Polychlorinated Dibenzo-p-Dioxin-, Dibenzofuran- and Biphenyl-Congeners in Female Rats|Chemosphere25(1-2): 169-172|1992|10.1016/0045-6535(92)90505-L
76989|T||Morse,D.C., E.K. Wehler, M. Van de Pas, A.T.H.J. De Bie, P.J. Van Bladeren, and A. Brouwer|Metabolism and Biochemical Effects of 3,3',4,4'-Tetrachlorobiphenyl in Pregnant and Fetal Rats|Chem.-Biol. Interact.95(1-2): 41-56|1995|10.1016/0009-2797(94)03347-1
76990|T||Lundberg,K., K.O. Gronvik, T.J. Goldschmidt, L. Klareskog, and L. Dencker|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Alters Intrathymic T-Cell Development in Mice|Chem.-Biol. Interact.74(1-2): 179-193|1990|10.1016/0009-2797(90)90066-V
76991|T||Klasson Wehler,E., B. Brunstrom, U. Rannug, and A. Bergman|3,3',4,4'-Tetrachlorobiphenyl: Metabolism by the Chick Embryho In Ovo and Toxicity of Hydroxylated Metabolites|Chem.-Biol. Interact.73(1): 121-132|1990|10.1016/0009-2797(90)90112-Z
76992|T||Ecobichon,D.J., and A.M. Comeau|Comparative Effects of Commercial Aroclors on Rat Liver Enzyme Activities|Chem.-Biol. Interact.9(5): 341-350|1974|10.1016/0009-2797(74)90129-X
76993|T||Couture,L.A., M.W. Harris, and L.S. Birnbaum|Characteristics of the Peak Period of Sensitivity for the Induction of Hydronephrosis in C57BL/6N Mice Following Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Fundam. Appl. Toxicol.15(1): 142-150|1990|10.1016/0272-0590(90)90171-F
76994|T||Ward,J.M.|Proliferative Lesions of the Glandular Stomach and Liver in F344 Rats Fed Diets Containing Aroclor 1254|Environ. Health Perspect.60:89-95|1985|10.1289/ehp.856089
76995|T||Norback,D.H., and R.H. Weltman|Polychlorinated Biphenyl Induction of Hepatocellular Carcinoma in the Sprague-Dawley Rat|Environ. Health Perspect.60:97-105|1985|10.1289/ehp.856097
76996|T||Viluksela,M., T.V. Duong, B.U. Stahl, X. Li, J. Tuomisto, and K.K. Rozman|Toxicokinetics of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) In Two Substrains of Male Long-Evans Rats After Intravenous Injection|Fundam. Appl. Toxicol.31(2): 184-191|1996|10.1006/faat.1996.0090
76997|T||Pantaleoni,G.C., D. Fanini, A.M. Sponta, G. Palumbo, R. Giorgi, and P.M. Adams|Effects of Maternal Exposure to Polychlorobiphenyls (PCBs) on F1 Generation Behavior in the Rat|Fundam. Appl. Toxicol.11(3): 440-449|1988|10.1016/0272-0590(88)90108-X
76998|T||Marks,T.A., G.L. Kimmel, and R.E. Staples|Influence of Symmetrical Polychlorinated Biphenyl Isomers on Embryo and Fetal Development in Mice. II. Comparison of 4,4'-Dichlorobiphenyl, 3,3',4,4'-Tetrachlorobiphenyl, 3,3',5,5'-Tetrachlorobiphenyl, and 3,3',4,4'-Tet|Fundam. Appl. Toxicol.13(4): 681-693|1989|10.1016/0272-0590(89)90326-6
76999|T||Lilienthal,H., and G. Winneke|Sensitive Periods for Behavioral Toxicity of Polychlorinated Biphenyls:  Determination by Cross-Fostering in Rats|Fundam. Appl. Toxicol.17(2): 368-375|1991|10.1016/0272-0590(91)90226-T
77000|T||Lilienthal,H., M. Neuf, C. Munoz, and G. Winneke|Behavioral Effects of Pre- and Postnatal Exposure to a Mixture of Low Chlorinated PCBs in Rats|Fundam. Appl. Toxicol.15(3): 457-467|1990|10.1016/0272-0590(90)90032-F
77001|T||Harris,M., T. Zacharewski, and S. Safe|Comparative Potencies of Aroclors 1232, 1242, 1248, 1254 and 1260 in Male Wistar Rats - Assessment of the Toxic Equivalency Factor (TEF) Approach for Polychlorinated Biphenyls (PCBs)|Fundam. Appl. Toxicol.20(4): 456-463|1993|10.1006/faat.1993.1056
77002|T||Beebe,L., S.D. Fox, C.W. Riggs, S.S. Park, H.V. Gelboin, H.J. Issaq, and L.M. Anderson|Persistent Effects of a Single Dose of Aroclor 1254 on Cytochromes P450IAI and IIB1 in Mouse Lung|Toxicol. Appl. Pharmacol.114(1): 16-24|1992|10.1016/0041-008X(92)90091-6
77003|T||Vos,J.G., and L. Van Driel-Grootenhuis|PCB-Induced Suppression of the Humoral and Cell-Mediated Immunity in Guinea Pigs|Sci. Total Environ.1(3): 289-302|1972|10.1016/0048-9697(72)90024-1
77004|T||House,R., L.D. Lauer, M.J. Murray, P.T. Thomas, J.P. Ehrlich, G.R. Burleson, and J.H. Dean|Examination of Immune Parameters and Host Resistance Mechanisms in B6C3F1 Mice Following Adult Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Toxicol. Environ. Health31(3): 203-215|1990|10.1080/15287399009531449
77005|T||Huang,S., and G.G. Gibson|Differential Induction of Cytochromes P450 and Cytochrome P450-Dependent Arachidonic Acid Metabolism by 3,4,5,3',4'-Pentachlorobiphenyl in the Rat and the Guinea Pig|Toxicol. Appl. Pharmacol.108(1): 86-95|1991|10.1016/0041-008X(91)90271-F
77006|T||Dragnev,K.H., L.E. Beebe, C.R. Jones, S.D. Fox, P.E. Thomas, R.W. Nims, and R.A. Lubet|Subchronic Dietary Exposure to Aroclor 1254 in Rats:  Accumulation of PCBs in Liver, Blood, and Adipose Tissue and Its Relationship to Induction of Various Hepatic Drug-Metabolizing Enzymes|Toxicol. Appl. Pharmacol.125(1): 111-122|1994|10.1006/taap.1994.1055
77007|T||DeVito,M.J., M.G. Menache, J.J. Diliberto, D.G. Ross, and L.S. Birnbaum|Dose-Response Relationships for Induction of CYP1A1 and CYP1A2 Enzyme Activity in Liver, Lung, and Skin in Female Mice Following Subchronic Exposure to Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.167(3): 157-172|2000|10.1006/taap.2000.9010
77008|T||De Heer,C., A.P.J. Verlaan, A.H. Penninks, J.G. Vos, H.J. Schuurman, and H. Van Loveren|Time Course of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Thymic Atrophy in the Wistar Rat|Toxicol. Appl. Pharmacol.128(1): 97-104|1994|10.1006/taap.1994.1185
77009|T||Couture-Haws,L., M.W. Harris, M.M. McDonald, A.C. Lockhart, and L.S. Birnbaum|Hydronephrosis in Mice Exposed to TCDD-Contaminated Breast Milk:  Identification of the Peak Period of Sensitivity and Assessment of Potential Recovery|Toxicol. Appl. Pharmacol.107(3): 413-428|1991|10.1016/0041-008X(91)90305-X
77010|T||Cooke,P.S., Y.D. Zhao, and L.G. Hansen|Neonatal Polychlorinated Biphenyl Treatment Increases Adult Testis Size and Sperm Production in the Rat|Toxicol. Appl. Pharmacol.136(1): 112-117|1996|10.1006/taap.1996.0013
77011|T||Giavini,E., M. Prati, and C. Vismara|Rabbit Teratology Studies with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Environ. Res.27(1): 74-78|1982|10.1016/0013-9351(82)90058-5
77013|T||Schaeffer,E., H. Greim, and W. Goessner|Pathology of Chronic Polychlorinated Biphenyl (PCB) Feeding in Rats|Toxicol. Appl. Pharmacol.75(2): 278-288|1984|10.1016/0041-008X(84)90210-2
77014|T||Roman,B.L., and R.E. Peterson|In Utero and Lactational Exposure of the Male Rat to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Impairs Prostate Development.  1.  Effects on Gene Expression|Toxicol. Appl. Pharmacol.150(2): 240-253|1998|10.1006/taap.1997.8362
77015|T||Roman,B.L., R.S. Pollenz, and R.E. Peterson|Responsiveness of the Adult Male Rat Reproductive Tract to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure:  Ah Receptor and ARNT Expression, CYP1A1 Induction, and Ah Receptor Down-Regulation|Toxicol. Appl. Pharmacol.150(2): 228-239|1998|10.1006/taap.1998.8388
77016|T||Powers,R.H., L.C. Gilbert, and S.D. Aust|The Effect of 3,4,3',4'-Tetrachlorobiphenyl on Plasma Retinol and Hepatic Retinyl Palmitate Hydrolase Activity in Female Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.89(3): 370-377|1987|10.1016/0041-008X(87)90156-6
77017|T||Potter,C.L., R.W. Moore, S.L. Inhorn, T.C. Hagen, and R.E. Peterson|Thyroid Status and Thermogenesis in Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.84(1): 45-55|1986|10.1016/0041-008X(86)90415-1
77018|T||Morse,D.C., D. Groen, M. Veerman, C.J. Van Amerongen, H.B.W.M. Koeter, A.E. Smits van Prooije, T.J. Visser, J.H. Koeman|Interference of Polychlorinated Biphenyls in Hepatic and Brain Thyroid Hormone Metabolism in Fetal and Neonatal Rats|Toxicol. Appl. Pharmacol.122(1): 27-33|1993|10.1006/taap.1993.1168
77019|T||Morris,D.L., N.K. Snyder, V. Gokani, R.E. Blair, and M.P. Holsapple|Enhanced Suppression of Humoral Immunity in DBA/2 Mice Following Subchronic Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicol. Appl. Pharmacol.112(1): 128-132|1992|10.1016/0041-008X(92)90288-4
77020|T||Moore,R.W., C.L. Potter, H.M. Theobald, J.A. Robinson, and R.E. Peterson|Androgenic Deficiency in Male Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.79(1): 99-111|1985|10.1016/0041-008X(85)90372-2
77021|T||Sinjari,T., U. Tornwall, and P.O. Darnerud|Induction of 7-Ethoxyresorufin-O-Deethylase (EROD) Activity in Mice Foetuses by the PCB-Congener 3,3',4,4'-Tetrachlorobiphenyl|Xenobiotica23(2): 107-114|1993|10.3109/00498259309059366
77022|T||Jenke,H.S., G. Michel, S. Hornhardt, and J. Berndt|Protooncogene Expression in Rat Liver by Polychlorinated Biphenyls (PCB)|Xenobiotica21(7): 945-960|1991|10.3109/00498259109039534
77023|T||Lundberg,K., L. Dencker, and K.O. Gronvik|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Inhibits the Activation of Antigen-Specific T-Cells in Mice|Int. J. Immunopharmacol.14(4): 699-705|1992|10.1016/0192-0561(92)90133-6
77024|T||Christian,B.J., S.L. Inhorn, and R.E. Peterson|Relationship of the Wasting Syndrome to Lethality in Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.82(2): 239-255|1986|10.1016/0041-008X(86)90199-7
77025|T||Cheung,M.O., E.F. Gilbert, and R.E. Peterson|Cardiovascular Teratogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Chick Embryo|Toxicol. Appl. Pharmacol.61(2): 197-204|1981|10.1016/0041-008X(81)90409-9
77026|T||Chen,L.C., I. Berberian, B. Koch, M. Mercier, V. Azais-Braesco, H.P. Glauert, C.K. Chow, and L.W. Robertson|Polychlorinated and Polybrominated Biphenyl Congeners and Retinoid Levels in Rat Tissues: Structure-Activity Relationships|Toxicol. Appl. Pharmacol.114(1): 47-55|1992|10.1016/0041-008X(92)90095-A
77028|T||Mably,T.A., R.W. Moore, R.W. Goy, and R.E. Peterson|In Utero and Lactational Exposure of Male Rats to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin: 2. Effects on Sexual Behavior and the Regulation of Luteinizing Hormone Secretion in Adulthood|Toxicol. Appl. Pharmacol.114(1): 108-117|1992|10.1016/0041-008X(92)90102-X
77029|T||Mably,T.A., R.W. Moore, and R.E. Peterson|In Utero and Lactational Exposure of Male Rats to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin: 1. Effects on Androgenic Status|Toxicol. Appl. Pharmacol.114(1): 97-107|1992|10.1016/0041-008X(92)90101-W
77030|T||Lin,F.H., S.J. Stohs, L.S. Birnbaum, G. Clark, G.W. Lucier, and J.A. Goldstein|The Effects of 2,3,7,8-Tetrachlorodibgenzo-p-Dioxin (TCDD) on the Hepatic Estrogen and Glucocorticoid Receptors in Congenic Strains of Ah Responsive and Ah Nonresponsive C57BL/6J Mice|Toxicol. Appl. Pharmacol.108(1): 129-139|1991|10.1016/0041-008X(91)90276-K
77031|T||Inoue,K., A. Takanaka, K. Mizokami, K. Fujimori, M. Sunouchi, Y. Kasuya, and Y. Omori|Effects of Polychlorinated Biphenyls on the Monooxygenase Systems in Fetal Livers of Rats|Toxicol. Appl. Pharmacol.59(3): 540-547|1981|10.1016/0041-008X(81)90308-2
77032|T||Silkworth,J.B., L. Antrim, and L.S. Kaminsky|Correlations Between Polychlorinated Biphenyl Immunotoxicity, the Aromatic Hydrocarbon Locus, and Liver Microsomal Enzyme Induction in C57BL/6 and DBA/2 Mice|Toxicol. Appl. Pharmacol.75(1): 156-165|1984|10.1016/0041-008X(84)90086-3
77033|T||Grote,W., A. Schmoldt, and H.G. Dammann|The Metabolism of Foreign Compounds in Rats After Treatment with Polychlorinated Biphenyls (PCBs)|Biochem. Pharmacol.24(10): 1121-1125|1975|10.1016/0006-2952(75)90201-4
77034|A||Kraemer,L.D., and P.M. Schulte|Prior PCB Exposure Suppresses Hypoxia-Induced Up-Regulation of Glycolytic Enzymes in Fundulus heteroclitus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(1-3): 23-29|2004|10.1016/j.cca.2004.08.015
77035|A||Mariottini,M., I. Corsi, S. Bonacci, S. Focardi, and F. Regoli|PCB Muscle Content and Liver EROD Activity in the European Eel (Anguilla anguilla) Treated with Aroclor 1254|Chem. Ecol.19(2-3): 91-98|2003|10.1080/0275754031000119861
77036|T||Byrne,J.J., J.P. Carbone, and E.A. Hanson|Hypothyroidism and Abnormalities in the Kinetics of Thyroid Hormone Metabolism in Rats Treated Chronically with Polychlorinated Biphenyl and Polybrominated Biphenyl|Endocrinology121(2): 520-527|1987|10.1210/endo-121-2-520
77037|A||Nichols,J.W., P.N. Fitzsimmons, F.W. Whiteman, T.D. Dawson, L. Babeu, and J. Juenemann|A Physiologically Based Toxicokinetic Model for Dietary Uptake of Hydrophobic Organic Compounds by Fish:  I.  Feeding Studies with 2,2',5,5'-Tetrachlorobiphenyl|Toxicol. Sci.77(2): 206-218|2004|10.1093/toxsci/kfh033
77038|T||Render,J.A., S.J. Bursian, D.S. Rosenstein, and R.J. Aulerich|Squamous Epithelial Proliferation in the Jaws of Mink fed Diets Containing 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) or 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Vet. Hum. Toxicol.43(1): 22-26|2001|
77039|T||Parkinson,A., P.E. Thomas, D.E. Ryan, L.M. Reik, S.H. Safe, L.W. Robertson, and W. Levin|Differential Time Course of Induction of Rat Liver Microsomal Cytochrome P-450 Isozymes and Epoxide Hydrolase by Aroclor 1254|Arch. Biochem. Biophys.225(1): 203-215|1983|10.1016/0003-9861(83)90024-3
77040|T||Jokinen,M.P., N.J. Walker, A.E. Brix, D.M. Sells, J.K. Haseman, and A. Nyska|Increase in Cardiovascular Pathology in Female Sprague-Dawley Rats Following Chronic Treatment with 2,3,7,8-Tetrachlorodibenzo-p- Dioxin and 3,3',4,4',5-Pentachlorobiphenyl|Cardiovasc. Toxicol.3(4): 299-310|2003|10.1385/CT:3:4:299
77041|T||Ishizuka,M., J. Yonemoto, H. Zaha, C. Tohyama, and H. Sone|Perinatal Exposure to Low Doses of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Alters Sex-Dependent Expression of Hepatic CYP2C11|J. Biochem. Mol. Toxicol.17(5): 278-285|2003|10.1002/jbt.10090
77042|A||Webb,D., and M.M. Gagnon|MFO Induction Potential of Fish Species Native to the Swan-Canning Estuary, Western Australia|Environ. Toxicol.17(1): 87-92|2002|10.1002/tox.10030
77043|T||Fan,F., D. Wierda, and K.K. Rozman|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Humoral and Cell-Mediated Immunity in Sprague-Dawley Rats|Toxicology106(1-3): 221-228|1996|10.1016/0300-483X(95)03193-J
77044|T||Weber,H., M.W. Harris, J.K. Haseman, and S. Birnbaum|Teratogenic Potency of TCDD, TCDF and TCDD-TCDF Combinations in C57BL/6N Mice|Toxicol. Lett.26:159-167|1985|10.1016/0378-4274(85)90161-4
77045|T||Seegal,R.F., K.O. Brosch, and B. Bush|Polychlorinated Biphenyls Produce Regional Alterations of Dopamine Metabolism in Rat Brain|Toxicol. Lett.30(2): 197-202|1986|10.1016/0378-4274(86)90103-7
77046|T||D'Argy,R., E. Hassoun, and L. Dencker|Teratogenicity of TCDD and the Congeners 3,3',4,4'-Tetrachloroazoxybenzene in Sensitive and Non-Sensitive Mouse Strains|Toxicol. Lett.21(2): 197-202|1984|10.1016/0378-4274(84)90206-6
77047|T||Umbreit,T.H., E.J. Hesse, G.J. MacDonald, and M.A. Gallo|Effects of TCDD-Estradiol Interactions in Three Strains of Mice|Toxicol. Lett.40(1): 1-9|1988|10.1016/0378-4274(88)90177-4
77049|T||Gallo,M.A., E.J. Hesse, G.J. MacDonald, and T.H. Umbreit|Interactive Effects of Estradiol and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Hepatic Cytochrome P-450 and Mouse Uterus|Toxicol. Lett.32(1-2): 123-132|1986|10.1016/0378-4274(86)90058-5
77050|A||Jorgensen,E.H., O. Aas-Hansen, A.G. Maule, J.E.T. Strand, and M.M. Vijayan|PCB Impairs Smoltification and Seawater Performance in Anadromous Arctic Charr (Salvelinus alpinus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(2): 203-212|2004|10.1016/j.cca.2004.07.005
77051|A||Saha,S., and A. Kaviraj|Acute Toxicity of Synthetic Pyrethroid Cypermethrin to Freshwater Catfish Heteropneustes fossilis (Bloch)|Int. J. Toxicol.22(4): 325-328|2003|10.1080/10915810305122
77052|T||Hassouna,I., H. Wickert, I. El-Elaimy, M. Zimmermann, and T. Herdegen|Systemic Application of Pyrethroid Insecticides Evokes Differential Expression of c-Fos and c-Jun Proteins in Rat Brain|Neurotoxicology17(2): 415-432|1996|
77053|T||Chugh,Y., A. Sankaranarayanan, and P.L. Sharma|MK-801 Antagonizes the Lethal Action of Centrally and Peripherally Administered Cypermethrin in Mice and Rats|J. Pharm. Pharmacol.44(6): 521-523|1992|10.1111/j.2042-7158.1992.tb03659.x
77054|T||Curtis,J.E., and P.A. Horne|Effect of Chlorpyrifos and Cypermethrin Applications on Non-Target Invertebrates in a Conservation-Tillage Crop|J. Aust. Entomol. Soc.34(3): 229-231|1995|10.1111/j.1440-6055.1995.tb01327.x
77055|A||Piska,R.S., D. Swain, and S. Waghray|Toxic Effect of a Synthetic Pyrethroid Cypermethrin on the Brine Shrimp, Artemia L.|J. Indian Inst. Sci.68(1/2): 29-31|1988|
77056|T||Kale,M., N. Rathore, S. John, D. Bhatnagar, S.S. Nayyar, and V. Kothari|The Protective Effect of Vitamin E in Pyrethroid-Induced Oxidative Stress in Rat Tissues|J. Nutr. Environ. Med.9(4): 281-287|1999|10.1080/13590849961500
77057|T||Yousef,M.I., F.M. El-Demerdash, and K.S. Al-Salhen|Protective Role of Isoflavones Against the Toxic Effect of Cypermethrin on Semen Quality and Testosterone Levels of Rabbits|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(4): 463-478|2003|
77058|T||Giray,B., A. Gurbay, and F. Hincal|Cypermethrin-Induced Oxidative Stress in Rat Brain and Liver is Prevented by Vitamin E or Allopurinol|Toxicol. Lett.118(3): 139-146|2001|10.1016/S0378-4274(00)00277-0
77059|A||David,M., S.B. Mushigeri, R. Shivakumar, and G.H. Philip|Response of Cyprinus carpio (Linn) to Sublethal Concentration of Cypermethrin:  Alterations in Protein Metabolic Profiles|Chemosphere56(4): 347-352|2004|10.1016/j.chemosphere.2004.02.024
77060|A||Medina,M., C. Barata, T. Telfer, and D.J. Baird|Effects of Cypermethrin on Marine Plankton Communities:  A Simulated Field Study Using Mesocosms|Ecotoxicol. Environ. Saf.58(2): 236-245|2004|10.1016/j.ecoenv.2003.07.001
77061|A||Adhikari,S., B. Sarkar, A. Chatterjee, C.T. Mahapatra, and S. Ayyappan|Effects of Cypermethrin and Carbofuran on Certain Hematological Parameters and Prediction of Their Recovery in a Freshwater Teleost, Labeo rohita (Hamilton)|Ecotoxicol. Environ. Saf.58(2): 220-226|2004|10.1016/j.ecoenv.2003.12.003
77062|A||Verslycke,T., S.D. Roast, J. Widdows, M.B. Jones, and C.R. Janssen|Cellular Energy Allocation and Scope for Growth in the Estuarine Mysid Neomysis integer (Crustacea:  Mysidacea) Following Chlorpyrifos Exposure:  A Method Comparison|J. Exp. Mar. Biol. Ecol.306(1): 1-16|2004|10.1016/j.jembe.2003.12.022
77063|A||Medina,M., C. Barata, T. Telfer, and D.J. Baird|Assessing the Risks to Zooplankton Grazers of Continuous Versus Pulsed Cypermethrin Exposures from Marine Cage Aquaculture|Arch. Environ. Contam. Toxicol.47(1): 67-73|2004|10.1007/s00244-003-2236-1
77064|T||Varshneya,C., T. Singh, L.D. Sharma, H.S. Bahga, and S.K. Garg|Immunotoxic Responses of Cypermethrin, a Synthetic Pyrethroid Insecticide in Rats|Indian J. Physiol. Pharmacol.36(2): 123-126|1992|
77065|T||Maity,N.K., and J.S. Punia|Effect of Fluvalinate, a Synthetic Pyrethroid on Learning and Memory Traces in Rats|Indian J. Exp. Biol.29(2): 178-179|1991|
77066|T||Punia,J.S., and R.K. Roy|Neurophysiological Alterations Following Fluvalinate Administration in Mice|Indian J. Exp. Biol.30(4): 350-351|1992|
77067|T||Khurana,S.K., R.S. Chauhan, and S.K. Mahipal|Immunotoxic Effects of Cypermethrin and Endosulfan on Macrophage Functions of Broiler Chicks|Indian J. Anim. Sci.68(2): 105-106|1998|
77068|T||Bertelsen,M.G., and D.S. Tustin|Suppression of Flower Bud Formation in Light Cropping Trees of 'Pacific Rose' Apple Using Gibberellin Sprays|J. Hortic. Sci. Biotechnol.77(6): 753-757|2002|10.1080/14620316.2002.11511568
77069|T||Mukherjee,I., and M. Gopal|Dissipation of Fluvalinate and Characterisation of Its Degradation Products on Chickpea Crop by Mass Spectroscopy|Toxicol. Environ. Chem.54(1-4): 87-92|1996|10.1080/02772249609358299
77071|T||Baruah,A.A.L.H., R. Chauhan, and T.S. Kathpal|Residues of Some Synthetic Pyrethroids and Endosulfan in on Pigeon Pea, Cajanus cajan (L.) Millsp.|J. Entomol. Res.22(4): 299-302|1998|
77072|T||Forshaw,P.J., and D.E. Ray|The Effects of Two Pyrethroids, Cismethrin and Deltamethrin, on Skeletal Muscle and the Trigeminal Reflex System in the Rat|Pestic. Biochem. Physiol.25:143-151|1986|10.1016/0048-3575(86)90041-6
77073|A||Kamalaveni,K., V. Gopal, U. Sampson, and D. Aruna|Recycling and Utilization of Metabolic Wastes for Energy Production is an Index of Biochemical Adaptation of Fish Under Environmental Pollution Stress|Environ. Monit. Assess.86(3): 255-264|2003|10.1023/A:1024009505008
77074|T||Bansal,N., S.K. Sharma, A.K. Srivastava, and K.S. Roy|Histomorphological and Biochemical Studies in Experimental Fluvanilate Toxicity in Rabbits|Indian J. Anim. Sci.67(4): 278-280|1997|
77076|T||E.I. Du Pont De Nemours|Initial Submission:  Acute Oral Test (Final Report) with Cover Letter Dated 112691|Haskell Laboratory, Newark, DE:2 p.|1977|
77077|T||E.I. Du Pont De Nemours|Initial Submission:  Acute Oral Test (Final Report) with Cover Letter Dated 112691|EPA/OTS Doc.#88-920000421:4 p.|1977|
77078|T||E.I. Du Pont De Nemours|Initial Submission:  Acute Oral Test (Final Report) with Cover Letter Dated 112691|Haskell Laboratory, Newark, DE:3 p.|1977|
77081|A||Pathiratne,A.|Toxicity of Fenthion in Lebaycid to Tilapia, Oreochromis mossambicus (Peters):  Effects on Survival, Growth and Brain Acetylcholesterase Activity|J. Natl. Sci. Counc. Sri Lanka27(2): 79-91|1999|
77084|T||Morales,N.M., and H.B. Matthews|In Vivo Binding of 2,3,6,2',3',6'-Hexachlorobiphenyl and 2,4,5,2',4',5'-Hexachlorobiphenyl to Mouse Liver Macromolecules|Chem.-Biol. Interact.27(1): 99-110|1979|10.1016/0009-2797(79)90153-4
77086|T||Greenlee,W.F., and R.D. Irons|Modulation of Benzene-Induced Lymphocytopenia in the Rat by 2,4,5,2',4',5'-Hexachlorobiphenyl and 3,4,3',4'-Tetrachlorobiphenyl|Chem.-Biol. Interact.33:345-|1981|10.1016/0009-2797(81)90052-1
77087|T||Wu,Q., S. Ohsako, T. Baba, K. Miyamoto, and C. Tohyama|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Preimplantation Mouse Embryos|Toxicology174(2): 119-129|2002|10.1016/S0300-483X(02)00047-1
77088|T||Rao,C.V., and S.A. Banerji|Effect of Polychlorinated Biphenyls (Aroclor 1260) on Histology of Adrenal of Rats|J. Environ. Biol.14(1): 1-6|1993|
77089|T||Sinjari,T., E. Klasson-Wehler, L. Hovander, and P.O. Darnerud|Hydroxylated Polychlorinated Biphenyls:  Distribution in the Pregnant Mouse|Xenobiotica28(1): 31-40|1998|10.1080/004982598239731
77090|T||Darnerud,P.O., I. Brandt, E. Klasson-Wehler, A. Bergman, R. D'Argy, L. Dencker, and G.O. Sperber|3,3',4,4'-Tetrachloro(14C)biphenyl in Pregnant Mice:  Enrichment of Phenol and Methyl Sulphone Metabolites in Late Gestational Fetuses|Xenobiotica16(4): 295-306|1986|10.3109/00498258609043532
77091|T||Hurst,C.H., B.D. Abbott, M.J. DeVito, and L.S. Birnbaum|2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Pregnant Long Evans Rats:  Disposition to Maternal and Embryo/Fetal Tissues|Toxicol. Sci.45(2): 129-136|1998|
77092|A||Danis,B., S. Goriely, P. Dubois, S.W. Fowler, V. Flamand, and M. Warnau|Contrasting Effects of Coplanar Versus Non-coplanar PCB Congeners on Immunomodulation and CYP1A Levels (Determined Using an Adapted ELISA Method) in the Common Sea Star Asterias rubens L.|Aquat. Toxicol.69(4): 371-383|2004|10.1016/j.aquatox.2004.06.008
77093|A||Butler,R.A., M.L. Kelley, K.E. Olberding, G.R. Gardner, and R.J. Van Beneden|Aryl Hydrocarbon Receptor (AhR)-Independent Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Softshell Clam (Mya arenaria) Reproductive Tissue|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(3): 375-381|2004|10.1016/j.cca.2004.05.001
77094|A||Billiard,S.M., N.C. Bols, and P.V. Hodson|In Vitro and In Vivo Comparisons of Fish-Specific CYP1A Induction Relative Potency Factors for Selected Polycyclic Aromatic Hydrocarbons|Ecotoxicol. Environ. Saf.59(3): 292-299|2004|10.1016/j.ecoenv.2004.06.009
77095|A||Carlson,E.A., Y. Li, and J.T. Zelikoff|Benzo(a)pyrene-Induced Immunotoxicity in Japanese Medaka (Oryzias latipes):  Relationship Between Lymphoid CYP1A Activity and Humoral Immune Suppression|Toxicol. Appl. Pharmacol.201(1): 40-52|2004|10.1016/j.taap.2004.04.018
77096|T||Kasza,L., W.T. Collins, C.C. Capen, L.H. Garthoff, and L. Friedman|Comparative Toxicity of Polychlorinated Biphenyl and Polybrominated Biphenyl in the Rat Thyroid Gland: Light and Electron Microscopic Alterations After Subacute Dietary Exposure|J. Environ. Pathol. Toxicol.1:587-599|1978|
77099|T||Hennig,B., P. Meerarani, R. Slim, M. Toborek, A. Daugherty, A.E. Silverstone, and L.W. Robertson|Proinflammatory Properties of Coplanar PCBs:  In Vitro and In Vivo Evidence|Toxicol. Appl. Pharmacol.181(3): 174-183|2002|10.1006/taap.2002.9408
77100|T||Kakela,A., R. Kakela, and H. Hyvarinen|Importance of the Kidneys in Metabolism of Vitamins A1 and A2 and Their Fatty Acyl Esters in Mink Feeding on Fish-Based Diets and Exposed to Aroclor 1242|Toxicol. Appl. Pharmacol.187(2): 118-127|2003|10.1016/S0041-008X(02)00067-4
77101|T||Park,J.H., and S.W. Lee|Up-Regulated Expression of Genes Encoding Hrk and IL-3R beta Subunit by TCDD In Vivo and In Vitro|Toxicol. Lett.129(1-2): 1-11|2002|10.1016/S0378-4274(01)00470-2
77102|T||Khan,M.A., and L.G. Hansen|Ortho-substituted Polychlorinated Biphenyl (PCB) Congeners (95 or 101) Decrease Pituitary Response to Thyrotropin Releasing Hormone|Toxicol. Lett.144(2): 173-182|2003|10.1016/S0378-4274(03)00203-0
77103|T||Ishimura,R., S. Ohsako, T. Kawakami, M. Sakaue, Y. Aoki, and C. Tohyama|Altered Protein Profile and Possible Hypoxia in the Placenta of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Exposed Rats|Toxicol. Appl. Pharmacol.185(3): 197-206|2002|10.1006/taap.2002.9539
77104|A||Ortiz-Delgado,J.B., C. Sarasquete, A. Behrens, M.L. Gonzalez de Canales, and H. Segner|Expression, Cellular Distribution and Induction of Cytochrome P4501A (CYP1A) in Gilthead Seabream, Sparus aurata, Brain|Aquat. Toxicol.60(3-4): 269-283|2002|10.1016/S0166-445X(02)00006-1
77105|A||Verweij,F., K. Booij, K. Satumalay, N. Van der Molen, and R. Van der Oost|Assessment of Bioavailable PAH, PCB and OCP Concentrations in Water, Using Semipermeable Membrane Devices (SPMDs), Sediments and Caged Carp|Chemosphere54(11): 1675-1689|2004|10.1016/j.chemosphere.2003.10.002
77106|A||Hill,A., V. Howard, and A. Cossins|Characterization of TCDD-Induced Craniofacial Malformations and Retardation of Zebrafish Growth|J. Fish Biol.64(4): 911-922|2004|10.1111/j.1095-8649.2004.0352.x
77107|T||Heid,S.E., M.K. Walker, and H.I. Swanson|Correlation of Cardiotoxicity Mediated by Halogenated Aromatic Hydrocarbons to Aryl Hydrocarbon Receptor Activation|Toxicol. Sci.61(1): 187-196|2001|10.1093/toxsci/61.1.187
77108|T||Hassoun,E.A., H. Wang, A. Abushaban, and S.J. Stohs|Induction of Oxidative Stress in the Tissues of Rats After Chronic Exposure to TCDD, 2,3,4,7,8-Pentachlorodibenzofuran, and 3,3',4,4',5-Pentachlorobiphenyl|J. Toxicol. Environ. Health Part A65(12): 825-842|2002|10.1080/00984100290071054
77110|T||Kim,H.J., K.S. Jeong, S.J. Park, S.W. Cho, H.Y. Son, S.R. Kim, S.H. Kim, M.Y. An, and S.Y. Ryu|Effects of Benzo(a)pyrene, 2-Bromopropane, Phenol and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on IL-6 Production in Mice After Single or Repeated Exposure|In Vivo17(3): 269-275|2003|
77111|T||Hoegberg,P., C.K. Schmidt, H. Nau, A.C. Ross, R. Zolfaghari, N. Fletcher, C. Trossvik, C.B. Nilsson, and H. Hakansson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induces Lecithin:  Retinol Acyltransferase Transcription in the Rat Kidney|Chem.-Biol. Interact.145(1): 1-16|2003|10.1016/S0009-2797(02)00157-6
77112|T||Loertscher,J.A., T.M. Lin, R.E. Peterson, and B.L. Allen-Hoffmann|In Utero Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Causes Accelerated Terminal Differentiation in Fetal Mouse Skin|Toxicol. Sci.68(2): 465-472|2002|10.1093/toxsci/68.2.465
77113|T||Niittynen,M., J.T. Tuomisto, S. Auriola, R. Pohjanvirta, P. Syrjala, U. Simanainen, M. Viluksela, and J. Tuomisto|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Accumulation of Biliverdin and Hepatic Peliosis in Rats|Toxicol. Sci.71(1): 112-123|2002|10.1093/toxsci/71.1.112
77114|T||Nyska,A., M.P. Jokinen, A.E. Brix, D.M. Sells, M.E. Wyde, D. Orzech, J.K. Haseman, G. Flake, and N.J. Walker|Exocrine Pancreatic Pathology in Female Harlan Sprague-Dawley Rats After Chronic Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Dioxin-Like Compounds|Environ. Health Perspect.112(8): 903-909|2004|10.1289/ehp.6869
77115|T||Larsson,C., T. Ellerichmann, H. Huhnerfuss, and A. Bergman|Chiral PCB Methyl Sulfones in Rat Tissues After Exposure to Technical PCBs|Environ. Sci. Technol.36(13): 2833-2838|2002|10.1021/es025512n
77116|T||Fujimaki,H., K. Nohara, T. Kobayashi, K. Suzuki, K. Eguchi-Kasai, S. Tsukumo, M. Kijima, and C. Tohyama|Effect of a Single Oral Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Immune Function in Male NC/Nga Mice|Toxicol. Sci.66(1): 117-124|2002|10.1093/toxsci/66.1.117
77117|T||Wyde,M.E., T. Cambre, M. Lebetkin, S.R. Eldridge, and N.J. Walker|Promotion of Altered Hepatic foci by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 17beta-Estradiol in Male Sprague-Dawley Rats|Toxicol. Sci.68(2): 295-303|2002|10.1093/toxsci/68.2.295
77118|T||Hurst,C.H., B. Abbott, J.E. Schmid, and L.S. Birnbaum|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Disrupts Early Morphogenetic Events that Form the Lower Reproductive Tract in Female Rat Fetuses|Toxicol. Sci.65(1): 87-98|2002|10.1093/toxsci/65.1.87
77119|T||Allis,J.W., B.P. Anderson, G. Zhao, T.M. Ross, and R.A. Pegram|Evidence for the Involvement of CYP1A2 in the Metabolism of Bromodichloromethane in Rat Liver|Toxicology176(1-2): 25-37|2002|10.1016/S0300-483X(02)00088-4
77120|T||De Roode,D.F., and N.W. Van den Brink|Uptake of Injected PCBs from the Yolk by the Developing Chicken Embryo|Chemosphere48(2): 195-199|2002|10.1016/S0045-6535(02)00063-2
77121|T||Abdala,H., N. Alvarez, F. Delmas, C. Di Giorgio, J.M. Robert, G. Le Baut, and P. Le Pape|In Vitro and In Vivo Antileishmanial Activity of 2-Amino-4,6-Dimethylpyridine Derivatives Against Leishmania mexicana|Parasite9(4): 367-370|2002|10.1051/parasite/2002094367
77122|T||Rychen,G., C. Laurent, C. Feidt, N. Grova, P.E. Lafargue, A. Hachimi, and F. Laurent|Milk-Arterial Plasma Transfer of PCDDs and PCDFs in Pigs|J. Agric. Food Chem.50(6): 1695-1699|2002|10.1021/jf011217v
77123|T||Simanainen,U., J.T. Tuomisto, R. Pohjanvirta, P. Syrjala, J. Tuomisto, and M. Viluksela|Postnatal Development of Resistance to Short-Term High-Dose Toxic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in TCDD-Resistant and -Semiresistant Rats|Toxicol. Appl. Pharmacol.196(1): 11-19|2004|10.1016/j.taap.2003.11.025
77124|T||Nohara,K., H. Izumi, S. Tamura, R. Nagata, and C. Tohyama|Effect of Low-Dose 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Influenza A Virus-Induced Mortality in Mice|Toxicology170(1-2): 131-138|2002|10.1016/S0300-483X(01)00535-2
77125|T||Kaya,H., J. Hany, A. Fastabend, A. Roth-Harer, G. Winneke, and H. Lilienthal|Effects of Maternal Exposure to a Reconstituted Mixture of Polychlorinated Biphenyls on Sex-Dependent Behaviors and Steroid Hormone Concentrations in Rats:  Dose-Response Relationship|Toxicol. Appl. Pharmacol.178(2): 71-81|2002|10.1006/taap.2001.9318
77126|T||Vansell,N.R., and C.D. Klaassen|Increased Biliary Excretion of Thyroxine by Microsomal Enzyme Inducers|Toxicol. Appl. Pharmacol.176(3): 187-194|2001|10.1006/taap.2001.9278
77127|T||Gilbert,M.E.|Perinatal Exposure to Polychlorinated Biphenyls Alters Excitatory Synaptic Transmission and Short-Term Plasticity in the Hippocampus of the Adult Rat|Neurotoxicology24(6): 851-860|2003|10.1016/S0161-813X(03)00073-1
77128|T||Kakeyama,M., H. Sone, Y. Miyabara, and C. Tohyama|Perinatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Alters Activity-Dependent Expression of BDNF mRNA in the Neocortex and Male Rat Sexual Behavior in Adulthood|Neurotoxicology24(2): 207-217|2003|10.1016/S0161-813X(02)00214-0
77129|T||Lawrence,B.P., and B.A. Vorderstrasse|Activation of the Aryl Hydrocarbon Receptor Diminishes the Memory Response to Homotypic Influenza Virus Infection but does not Impair Host Resistance|Toxicol. Sci.79(2): 304-314|2004|10.1093/toxsci/kfh094
77130|T||Seegal,R.F., K.O. Brosch, and B. Bush|Regional Alterations in Serotonin Metabolism Induced by Oral Exposure of Rats to Polychlorinated Biphenyls|Neurotoxicology7(1): 155-166|1986|
77131|A||Ciereszko,W.|Accumulation Dynamics of PCBs in Selected Organs and Tissues of Carp (Cyprinus carpio L.)|Acta Ichthyol. Piscat.31(2): 105-117|2001|10.3750/AIP2001.31.2.08
77132|A||Ciereszko,W.|Dynamics of the PCBs Decline in Selected Organs of Carp (Cyprinus carpio L.) During Depuration in Clean Water|Acta Ichthyol. Piscat.31(2): 119-126|2001|10.3750/AIP2001.31.2.09
77133|T||Anbalagan,J., P. Kanagaraj, N. Srinivasan, M.M. Aruldhas, and J. Arunakaran|Effect of Polychlorinated Biphenyl, Aroclor 1254 on Rat Epididymis|Indian J. Med. Res.118:236-242|2003|
77134|T||Kakela,A., R. Kakela, H. Hyvarinen, and J. Asikainen|Vitamins A1 and A2 in Hepatic Tissue and Subcellular Fractions in Mink Feeding on Fish-Based Diets and Exposed to Aroclor 1242|Environ. Toxicol. Chem.21(2): 397-403|2002|
77136|T||Lin,T.M., K. Ko, R.W. Moore, D.L. Buchanan, P.S. Cooke, and R.E. Peterson|Role of the Aryl Hydrocarbon Receptor in the Development of Control and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Exposed Male Mice|J. Toxicol. Environ. Health Part A64(4): 327-342|2001|10.1080/152873901316981312
77137|A||Carvalho,P.S.M., D.B. Noltie, and D.E. Tillitt|Intra-Strain Dioxin Sensitivity and Morphometric Effects in Swim-Up Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(2): 133-142|2004|10.1016/j.cca.2003.12.005
77138|T||Wang,X.Q., J. Fang, A.A. Nunez, and L.G. Clemens|Developmental Exposure to Polychlorinated Biphenyls Affects Sexual Behavior of Rats|Physiol. Behav.75(5): 689-696|2002|10.1016/S0031-9384(02)00673-X
77139|T||Simanainen,U., J.T. Tuomisto, J. Tuomisto, and M. Viluksela|Dose-Response Analysis of Short-Term Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Three Differentially Susceptible Rat Lines|Toxicol. Appl. Pharmacol.187(2): 128-136|2003|10.1016/S0041-008X(02)00068-6
77140|T||Lasky,R.E., J.J. Widholm, K.M. Crofton, and S.L. Schantz|Perinatal Exposure to Aroclor 1254 Impairs Distortion Product Otoacoustic Emissions (DPOAEs) in Rats|Toxicol. Sci.68(2): 458-464|2002|10.1093/toxsci/68.2.458
77141|T||Fenton,S.E., J.T. Hamm, L.S. Birnbaum, and G.L. Youngblood|Persistent Abnormalities in the Rat Mammary Gland Following Gestational and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicol. Sci.67(1): 63-74|2002|10.1093/toxsci/67.1.63
77142|T||Ohsako,S., Y. Miyabara, M. Sakaue, R. Ishimura, M. Kakeyama, H. Izumi, J. Yonemoto, and C. Tohyama|Developmental Stage-Specific Effects of Perinatal 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on Reproductive Organs of Male Rat Offspring|Toxicol. Sci.66(2): 283-292|2002|10.1093/toxsci/66.2.283
77143|T||Hojo,R., S. Stern, G. Zareba, V.P. Markowski, C. Cox, J.T. Kost, and B. Weiss|Sexually Dimorphic Behavioral Responses to Prenatal Dioxin Exposure|Environ. Health Perspect.110(3): 247-254|2002|10.1289/ehp.02110247
77144|T||Meerts,I.A.T.M., Y. Assink, P.H. Cenijn, J.H.J. Van den Berg, B.M. Weijers, A. Bergman, J.H. Koeman, and A. Brouwer|Placental Transfer of a Hydroxylated Polychlorinated Biphenyl and Effects on Fetal and Maternal Thyroid Hormone Homeostasis in the Rat|Toxicol. Sci.68(2): 361-371|2002|10.1093/toxsci/68.2.361
77145|A||Khan,I.A., and P. Thomas|Vitamin E Co-Treatment Reduces Aroclor 1254-Induced Impairment of Reproductive Neuroendocrine Function in Atlantic Croaker|Mar. Environ. Res.58(2-5): 333-336|2004|10.1016/j.marenvres.2004.03.077
77146|A||Arzuaga,X., W. Calcano, and A. Elskus|The DNA De-Methylating Agent 5-Azacytidine does not Restore CYP1A Induction in PCB Resistant Newark Bay Killifish (Fundulus heteroclitus)|Mar. Environ. Res.58(2-5): 517-520|2004|10.1016/j.marenvres.2004.03.039
77147|T||Funseth,E., L. Wesslen, U. Lindh, G. Friman, and N.G. Ilback|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Trace Elements, Inflammation and Viral Clearance in the Myocardium During Coxsackievirus B3 Infection in Mice|Sci. Total Environ.284(1-3): 135-147|2002|10.1016/S0048-9697(01)00874-9
77148|T||Funseth,E., M. Pahlman, M.L. Eloranta, G. Friman, and N.G. Ilback|Effects of Coxsackievirus B3 Infection on the Acute-Phase Protein Metallothionein and on Cytochrome P-4501A1 Involved in the Detoxification Processes of TCDD in the Mouse|Sci. Total Environ.284(1-3): 37-47|2002|10.1016/S0048-9697(01)00864-6
77149|T||Markowski,V.P., C. Cox, R. Preston, and B. Weiss|Impaired Cued Delayed Alternation Behavior in Adult Rat Offspring Following Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Gestation Day 15|Neurotoxicol. Teratol.24(2): 209-218|2002|10.1016/S0892-0362(02)00186-1
77150|T||Kuchiiwa,S., S.B. Cheng, I. Nagatomo, Y. Akasaki, M. Uchida, M. Tominaga, W. Hashiguchi, and T. Kuchiiwa|In Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Decreases Serotonin-Immunoreactive Neurons in Raphe Nuclei of Male Mouse Offspring|Neurosci. Lett.317(2): 73-76|2002|10.1016/S0304-3940(01)02434-X
77151|T||Kanzawa,N., M. Kondo, T. Okushima, M. Yamaguchi, Y. Temmei, M. Honda, and T. Tsuchiya|Biochemical and Molecular Biological Analysis of Different Responses to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Chick Embryo Heart and Liver|Arch. Biochem. Biophys.427(1): 58-67|2004|10.1016/j.abb.2004.04.021
77152|T||Brunstrom,B., I. Kihlstrom, and U. Lundkvist|Studies of Foetal Death and Foetal Weight in Guinea Pigs Fed Polychlorinated Biphenyls (PCB)|Acta Pharmacol. Toxicol.50:100-103|1982|10.1111/j.1600-0773.1982.tb00948.x
77154|T||Robinson,S.W., B. Clothier, R.A. Akhtar, A.L. Yang, I. Latour, C. Van Ijperen, M.F.W. Festing, and A.G. Smith|Non-Ahr Gene Susceptibility Loci for Porphyria and Liver Injury Induced by the Interaction of 'Dioxin' with Iron Overload in Mice|Mol. Pharmacol.61(3): 674-681|2002|10.1124/mol.61.3.674
77155|A||Hill,A.J., S.M. Bello, A.L. Prasch, R.E. Peterson, and W. Heideman|Water Permeability and TCDD-Induced Edema in Zebrafish Early-Life Stages|Toxicol. Sci.78(1): 78-87|2004|10.1093/toxsci/kfh056
77156|T||Zareba,G., R. Hojo, K.M. Zareba, C. Watanabe, V.P. Markowski, R.B. Baggs, and B. Weiss|Sexually Dimorphic Alterations of Brain Cortical Dominance in Rats Prenatally Exposed to TCDD|J. Appl. Toxicol.22(2): 129-137|2002|10.1002/jat.839
77157|T||Simanainen,U., A. Adamsson, J.T. Tuomisto, H.M. Miettinen, J. Toppari, J. Tuomisto, and M. Viluksela|Adult 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Exposure and Effects on Male Reproductive Organs in Three Differentially TCDD-Susceptible Rat Lines|Toxicol. Sci.81(2): 401-407|2004|10.1093/toxsci/kfh212
77158|T||Petroff,B.K., X. Gao, K.K. Rozman, and P.F. Terranova|The Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Weight Gain and Hepatic Ethoxyresorufin-o-Deethylase (EROD) Induction vary with Ovarian Hormonal Status in the Immature Gonadotropin-Primed Rat Model|Reprod. Toxicol.15(3): 269-274|2001|10.1016/S0890-6238(01)00132-0
77159|T||Morita,K., and K. Tobiishi|Increasing Effect of Nori on the Fecal Excretion of Dioxin by Rats|Biosci. Biotechnol. Biochem.66(11): 2306-2313|2002|10.1271/bbb.66.2306
77160|T||Mally,A., and J.K. Chipman|Non-Genotoxic Carcinogens:  Early Effects on Gap Junctions, Cell Proliferation and Apoptosis in the Rat|Toxicology180(3): 233-248|2002|10.1016/S0300-483X(02)00393-1
77161|T||Stanton,B.J., S.M. Watkins, J.B. German, and B.L. Lasley|Effect of Estrogen and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Plasma Fatty Acids of Immature Male Chickens (Gallus domesticus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(2): 129-142|2002|10.1016/S1532-0456(02)00056-X
77162|T||Kakela,R., I. Jokinen, A. Kakela, and H. Hyvarinen|Effects of Gender, Diet, Exogenous Melatonin and Subchronic PCB Exposure on Plasma Immunoglobulin G in Mink|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.132(1): 67-74|2002|10.1016/S1532-0456(02)00047-9
77163|T||Wu,C.H., H.L. Chen, H.J. Su, C.C. Lee, K.T. Shen, W.L. Ho, S.Y. Ho, Y.S. Ho, and Y.J. Wang|The Topical Application of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Lacks Skin Tumor-Promoting Potency but Induces Hepatic Injury and Tumor Necrosis Factor-alpha Expression in ICR Male Mice|Food Chem. Toxicol.42(8): 1217-1225|2004|10.1016/j.fct.2004.02.022
77164|T||Hsu,P.C., Y.L. Guo, and M.H. Li|Effects of Acute Postnatal Exposure to 3,3',4,4'-Tetrachlorobiphenyl on Sperm Function and Hormone Levels in Adult Rats|Chemosphere54(5): 611-618|2004|10.1016/j.chemosphere.2003.09.006
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77382|T||Crofton,K.M., and D.C. Rice|Low-Frequency Hearing Loss Following Perinatal Exposure to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) in Rats|Neurotoxicol. Teratol.21(3): 299-301|1999|10.1016/S0892-0362(98)00065-8
77383|T||Pohjanvirta,R., M. Korkalainen, J. McGuire, U. Simanainen, R. Juvonen, J.T. Tuomisto, M. Unkila, M. Viluksela, J. Bergm|Comparison of Acute Toxicities of Indolo[3,2-b]Carbazole (ICZ) and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in TCDD-Sensitive Rats|Food Chem. Toxicol.40(7): 1023-1032|2002|10.1016/S0278-6915(02)00067-4
77384|T||Morris,D.L., H.G. Jeong, S.D. Jordan, N.E. Kaminski, and M.P. Holsapple|Characterization of the Effects of 2,3,7,8-Tetrachloredibenzo-p-Dioxin in B6C3F1 and DBA/2 Mice Following Single and Repeated Exposures|Arch. Toxicol.72(3): 157-168|1998|10.1007/s002040050482
77385|T||Takagi,Y., S. Aburada, T. Otake, and N. Ikegami|Effect of Polychlorinated Biphenyls (PCBs) Accumulated in the Dam's Body on Mouse Filial Immunocompetence|Arch. Environ. Contam. Toxicol.16(3): 375-381|1987|10.1007/BF01054956
77387|T||Lubet,R.A., R.W. Nims, L.E. Beebe, S.D. Fox, H.J. Issaq, and K. Mcbee|Induction of Hepatic CYP1A Activity as a Biomarker for Environmental Exposure to Aroclor 1254 in Feral Rodents|Arch. Environ. Contam. Toxicol.22(3): 339-344|1992|10.1007/BF00212096
77388|T||Spencer,F.|An Assessment of the Reproductive Toxic Potential of Aroclor 1254 in Female Sprague-Dawley Rats|Bull. Environ. Contam. Toxicol.28(3): 290-297|1982|10.1007/BF01608510
77389|T||Sager,D.B., W. Shih-Schroeder, and D. Girard|Effect of Early Postnatal Exposure to Polychlorinated Biphenyls (PCBs) on Fertility in Male Rats|Bull. Environ. Contam. Toxicol.38(6): 946-953|1987|10.1007/BF01609078
77390|T||Narbonne,J.F.|Effect of Age and Sex on Liver Response to Phenoclor DP6, a Polychlorinated Biphenyl, in the Rat|Bull. Environ. Contam. Toxicol.20(5): 662-667|1978|10.1007/BF01683581
77392|T||Cunningham,H.M., and D.T. Williams|Effect of Tetrachlorodibenzo-p-Dioxin on Growth Rate and the Synthesis of Lipids and Proteins in Rats|Bull. Environ. Contam. Toxicol.7(1): 45-51|1972|10.1007/BF01709175
77393|T||Courtney,K.D.|Mouse Teratology Studies with Chlorodibenzo-p-Dioxins|Bull. Environ. Contam. Toxicol.16(6): 674-681|1976|10.1007/BF01685572
77394|T||Schmoldt,A., E. Altenahr, W. Grote, H.G. Dammann, B. Sidau, and H.F. Benthe|Rat Liver Changes After Subchronic Exposition of Polychlorinated Biphenyls (PCB) of Low Chlorine Content|Arch. Toxicol.37(3): 203-217|1977|10.1007/BF00355489
77395|T||Ross,P.S., R.L. De Swart, H. Van der Vliet, L. Willemsen, A. De Klerk, G. Van Amerongen, J. Groen, A. Brouwer, I. Schip|Impaired Cellular Immune Response in Rats Exposed Perinatally to Baltic Sea Herring Oil or 2,3,7,8-TCDD|Arch. Toxicol.71(9): 563-574|1997|10.1007/s002040050428
77398|A||Davoren,M., and A.M. Fogarty|Ecotoxicological Evaluation of the Biocidal Agents Sodium o-Phenylphenol, Sodium o-Benzyl-p-Chlorophenol, and Sodium p-Tertiary Amylphenol|Ecotoxicol. Environ. Saf.60(2): 203-212|2005|10.1016/j.ecoenv.2004.04.004
77400|A||Jelaso,A.M., E. Lehigh-Shirey, J. Means, and C.F. Ide|Gene Expression Patterns Predict Exposure to PCBs in Developing Xenopus laevis Tadpoles|Environ. Mol. Mutagen.42(1): 1-10|2003|10.1002/em.10173
77401|T||Timsit,Y.E., F.S. Chia, A. Bhathena, and D.S. Riddick|Aromatic Hydrocarbon Receptor Expression and Function in Liver of Hypophysectomized Male Rats|Toxicol. Appl. Pharmacol.185(2): 136-145|2002|10.1006/taap.2002.9526
77403|AT||Hardy,M.L.|The Toxicology of the Three Commercial Polybrominated Diphenyl Oxide (Ether) Flame Retardants|Chemosphere46(5): 757-777|2002|10.1016/S0045-6535(01)00240-5
77406|A||Blanchette,B.N., and B.R. Singh|Induction of Glutathione-S-Transferase in the Northern Quahog Mercenaria mercenaria After Exposure to the Polychlorinated Biphenyl (PCB) Mixture Aroclor 1248|J. Protein Chem.21(8): 489-494|2002|10.1023/A:1022872619925
77409|T||Van den Berg,M., C. Heeremans, E. Veenhoven, and K. Olie|Transfer of Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans to Fetal and Neonatal Rats|Fundam. Appl. Toxicol.9(4): 635-644|1987|10.1016/0272-0590(87)90170-9
77410|A||Dixon,T.J., J.B. Taggart, and S.G. George|Application of Real Time PCR Determination to Assess Interanimal Variabilities in CYP1A Induction in the European Flounder (Platichthys flesus)|Mar. Environ. Res.54(3-5): 267-270|2002|10.1016/S0141-1136(02)00189-7
77411|T||Goldman,D., and A. Yawetz|The Interference of Aroclor 1254 with Progesterone Metabolism in Guinea Pig Adrenal and Testes Microsomes|J. Biochem. Toxicol.5(2): 99-107|1990|10.1002/jbt.2570050204
77412|A||Yamazaki,K., H. Teraoka, W. Dong, J.J. Stegeman, and T. Hiraga|cDNA Cloning and Expressions of Cytochrome P450 1A in Zebrafish Embryos|J. Vet. Med. Sci.64(9): 829-833|2002|10.1292/jvms.64.829
77413|T||Summer,C.L., J.P. Giesy, S.J. Bursian, J.A. Render, T.J. Kubiak, P.D. Jones, D.A. Verbrugge, and R.J. Aulerich|Effects Induced by Feeding Organochlorine-Contaminated Carp from Saginaw Bay, Lake Huron, to Laying White Leghorn Hens. II. Embryotoxic and Teratogenic Effects|J. Toxicol. Environ. Health49(4): 409-438|1996|
77414|T||Summer,C.L., J.P. Giesy, S.J. Bursian, J.A. Render, T.J. Kubiak, P.D. Jones, D.A. Verbrugge, and R.J. Aulerich|Effects Induced by Feeding Organochlorine-Contaminated Carp from Saginaw Bay, Lake Huron, to Laying White Leghorn Hens. I. Effects on Health of Adult Hens, Egg Production, and Fertility|J. Toxicol. Environ. Health49(4): 389-407|1996|10.1080/009841096160781
77415|T||Kluwe,W.M., and J.B. Hook|Comparative Induction of Xenobiotic Metabolism in Rodent Kidney, Testis and Liver by Commercial Mixtures of Polybrominated Biphenyls and Polychlorinated Biphenyls, Phenobarbital and 3-Methylcholanthrene: Absolute and Te|Toxicology20:259-273|1981|10.1016/0300-483X(81)90057-3
77416|T||Choi,J.Y., J.A. Oughton, and N.I. Kerkvliet|Functional Alterations in CD11b+Gr-1+ Cells in Mice Injected with Allogeneic Tumor Cells and Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Int. Immunopharmacol.3(4): 553-570|2003|10.1016/S1567-5769(03)00046-8
77417|T||Kurihara,H., H. Wariishi, and H. Tanaka|Chemical Stress-Responsive Genes from the Lignin-Degrading Fungus Phanerochaete chrysosporium Exposed to Dibenzo-p-Dioxin|FEMS Microbiol. Lett.212(2): 217-220|2002|10.1111/j.1574-6968.2002.tb11269.x
77418|T||Neff-LaFord,H.D., B.A. Vorderstrasse, and B.P. Lawrence|Fewer CTL, not Enhanced NK Cells, are Sufficient for Viral Clearance from the Lungs of Immunocompromised Mice|Cell. Immunol.226(1): 54-64|2003|10.1016/j.cellimm.2003.11.005
77419|A||Perez-Lopez,M., M.C. Novoa-Valinas, and M.J. Melgar-Riol|Glutathione S-Transferase Cytosolic Isoforms as Biomarkers of Polychlorinated Biphenyl (Arochlor-1254) Experimental Contamination in Rainbow Trout|Toxicol. Lett.136(2): 97-106|2002|10.1016/S0378-4274(02)00284-9
77420|A||Yu,K.N., P.K.S. Lam, C.C.C. Cheung, and C.W.Y. Yip|Mathematical Modeling of PCB Bioaccumulation in Perna viridis|Mar. Pollut. Bull.45(1-12): 332-338|2002|10.1016/S0025-326X(02)00099-1
77421|A||Auro,A., H. Sumano, L. Ocampo, and A. Barragan|Evaluation of the Carcinogenic Effects of Furazolidone and Its Metabolites in Two Fish Species|Pharm. J.4(1): 24-28|2004|
77422|T||Thornton,A.S., Y. Oda, G.R. Stuart, J. Holcroft, and J.G. De Boer|The Dioxin TCDD Protects Against Aflatoxin-Induced Mutation in Female Rats, but not in Male Rats|Mutat. Res.561(1-2): 147-152|2004|10.1016/j.mrgentox.2004.05.001
77423|T||Mayer,G., and P.V. Taberner|Effects of the Imidazoline Ligands Efaroxan and KU14R on Blood Glucose Homeostasis in the Mouse|Eur. J. Pharmacol.454(1): 95-102|2002|10.1016/S0014-2999(02)02473-1
77424|T||Slezak,B.P., J.T. Hamm, J. Reyna, C.H. Hurst, and L.S. Birnbaum|TCDD-Mediated Oxidative Stress in Male Rat Pups Following Perinatal Exposure|J. Biochem. Mol. Toxicol.16(2): 49-52|2002|10.1002/jbt.10024
77425|T||Petroff,B.K., C.R. Croutch, D.M. Hunter, M.E. Wierman, and X. Gao|2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) Stimulates Gonadotropin Secretion in the Immature Female Sprague-Dawley Rat Through a Pentobarbital- and Estradiol-Sensitive Mechanism but does not Alter Gonadotropin-Releasing|Biol. Reprod.68(6): 2100-2106|2003|10.1095/biolreprod.102.010439
77426|T||Petroff,B.K., and K.M. Mizinga|Pharmacokinetics of Ovarian Steroids in Sprague-Dawley Rats After Acute Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Reprod. Biol.3(2): 131-141|2003|
77427|A||Todd,S.J., R.B. Cain, and S. Schmidt|Biotransformation of Naphthalene and Diaryl Ethers by Green Microalgae|Biodegradation (Dordr.)13(4): 229-238|2002|10.1023/A:1021245404675
77428|T||Brix,A.E., M.P. Jokinen, N.J. Walker, D.M. Sells, and A. Nyska|Characterization of Bronchiolar Metaplasia of the Alveolar Epithelium in Female Sprague-Dawley Rats Exposed to 3,3',4,4',5-Pentachlorobiphenyl (PCB126)|Toxicol. Pathol.32(3): 333-337|2004|10.1080/01926230490431817
77429|T||Lubet,R.A., B.N. Lemaire, D. Avery, and R.E. Kouri|Induction of Immunotoxicity in Mice by Polyhalogenated Biphenyls|Arch. Toxicol.59(2): 71-77|1986|10.1007/BF00286726
77430|T||Brunn,H., E. Schmidt, M. Reinacher, D. Manz, and E. Eigenbrodt|Histology and Histochemistry of the Liver of Chickens After DENA Induced Hepatocarcinogenesis and Ingestion of Low Chlorinated Biphenyls|Arch. Toxicol.60(5): 337-342|1987|10.1007/BF00295752
77431|A||Jonsson,E.M., I. Brandt, and B. Brunstrom|Gill Filament-Based EROD Assay for Monitoring Waterborne Dioxin-Like Pollutants in Fish|Environ. Sci. Technol.36(15): 3340-3344|2002|10.1021/es015859a
77432|A||Gardinali,P.R., J.L. Sericano, and T.L. Wade|Uptake and Depuration of Toxic Halogenated Aromatic Hydrocarbons by the American Oyster (Crassostrea virginica):  A Field Study|Chemosphere54(1): 61-70|2004|10.1016/S0045-6535(03)00754-9
77433|T||Cheng,S.B., S. Kuchiiwa, X.Q. Ren, H.Z. Gao, T. Kuchiiwa, and S. Nakagawa|Dioxin Exposure Down-Regulates Nitric Oxide Synthase and NADPH-Diaphorase Activities in the Hypothalamus of Long-Evans Rat|Neurosci. Lett.345(1): 5-8|2003|10.1016/S0304-3940(03)00347-1
77434|A||Hill,A., C.V. Howard, U. Strahle, and A. Cossins|Neurodevelopmental Defects in Zebrafish (Danio rerio) at Environmentally Relevant Dioxin (TCDD) Concentrations|Toxicol. Sci.76(2): 392-399|2003|10.1093/toxsci/kfg241
77435|A||Siu,W.H.L., C.L.H. Hung, H.L. Wong, B.J. Richardson, and P.K.S. Lam|Exposure and Time Dependent DNA Strand Breakage in Hepatopancreas of Green-Lipped Mussels (Perna viridis) Exposed to Aroclor 1254, and Mixtures of B[a]P and Aroclor 1254|Mar. Pollut. Bull.46(10): 1285-1293|2003|10.1016/S0025-326X(03)00234-0
77436|A||Andreasen,E.A., J.M. Spitsbergen, R.L. Tanguay, J.J. Stegeman, W. Heideman, and R.E. Peterson|Tissue-Specific Expression of AHR2, ARNT2, and CYP1A in Zebrafish Embryos and Larvae:  Effects of Developmental Stage and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure|Toxicol. Sci.68(2): 403-419|2002|10.1093/toxsci/68.2.403
77437|T||Turner,J.C., and R.S. Green|The Effect of a Polychlorinated Biphenyl (Aroclor 1254) on Liver Microsomal Enzymes in the Male Rat|Bull. Environ. Contam. Toxicol.12(6): 669-671|1974|10.1007/BF01685911
77438|T||Narboone,J.F.|Effect of Polychlorinated Biphenyls (Phenoclor DP6) on In Vivo Protein and RNA Synthesis in Rat Liver|Bull. Environ. Contam. Toxicol.23(1-2): 36-43|1979|10.1007/BF01769913
77439|T||Hayes,M.A., E. Roberts, S.H. Safe, E. Farber, and R.G. Cameron|Influences of Different Polychlorinated Biphenyls on Cytocidal, Mitoinhibitory, and Nodule-Selecting Activities of N-2-Fluorenylacetamide in Rat Liver|J. Natl. Cancer Inst.76(4): 683-691|1986|10.1093/jnci/76.4.683
77440|A||Nichols,J.W., P.N. Fitzsimmons, and F.W. Whiteman|A Physiologically Based Toxicokinetic Model for Dietary Uptake of Hydrophobic Organic Compounds by Fish:  II.  Simulation of Chronic Exposure Scenarios|Toxicol. Sci.77(2): 219-229|2004|10.1093/toxsci/kfh032
77441|T||Chu,I., D.C. Villeneuve, A. Yagminas, P. Lecavalier, R. Poon, M. Feeley, S.W. Kennedy, R.F. Seegal, H. Hakansson, U.G. |Subchronic Toxicity of 3,3',4,4',5-Pentachlorobiphenyl in the Rat|Fundam. Appl. Toxicol.22(3): 457-468|1994|10.1006/faat.1994.1051
77442|T||Waern,F., E. Manzoor, U.G. Ahlborg, and H. Hakansson|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Lactating Rat on Maternal and Neonatal Vitamin A Status and Hepatic Enzyme Induction:  A Dose-Response Study|Chemosphere23(11-12): 1951-1956|1991|10.1016/0045-6535(91)90043-D
77443|T||Van Birgelen,A.P.J.M., D.G. Ross, M.J. DeVito, and L.S. Birnbaum|Interactive Effects Between 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 2,2',4,4',5,5'-Hexachlorobiphenyl in Female B6C3F1 Mice:  Tissue Distribution and Tissue-Specific Enzyme Induction|Fundam. Appl. Toxicol.34(1): 118-131|1996|10.1006/faat.1996.0182
77444|T||Davis,D., and S. Safe|Dose-Response Immunotoxicities of Commercial Polychlorinated Biphenyls (PCBs) and Their Interaction with 2,3,7,8-Tetrachloridibenzo-p-Dioxin|Toxicol. Lett.48(1): 35-43|1989|10.1016/0378-4274(89)90183-5
77447|T||Saghir,S.A., G.D. Koritz, and L.G. Hansen|Short-Term Distribution, Metabolism, and Excretion of 2,2',5-tri,2,2',4,4'-tetra-, and 3,3'4,4'-Tetrachlorobiphenyls in Prepubertal Rats|Arch. Environ. Contam. Toxicol.36:213-220|1999|10.1007/s002449900463
77448|A||Walker,C.R., R.M. Burress, and P.A. Gilderhus|Plastic Enclosures and Containers for Evaluating the Efficacy and Safety of Pesticides in Aquatic Environments|ASTM Spec. Tech. Publ.:149-160|1981|
77449|T||Spear,P.A., H. Garcin, and J.F. Narbonne|Increased Retinoic Acid Metabolism Following 3,3',4,4',5,5'-Hexabromobiphenyl Injection|Can. J. Physiol. Pharmacol.66:1181-1186|1988|10.1139/y88-194
77450|T||Kato,Y., K. Haraguchi, T. Shibahara, Y. Masuda, and R. Kimura|Reduction of Thyroid Hormone Levels by Methylsulfonyl Metabolites of Polychlorinated Biphenyl Congeners in Rats|Arch. Toxicol.72(8): 541-544|1998|10.1007/s002040050540
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77475|T||Quistad,G.B., L.E. Staiger, G.C. Jamieson, and D.A. Schooley|Fluvalinate Metabolism by Rats|J. Agric. Food Chem.31(3): 589-596|1983|10.1021/jf00117a030
77476|T||Jager,T., R.H.L.J. Fleuren, E.A. Hogendoorn, and G. De Korte|Elucidating the Routes of Exposure for Organic Chemicals in the Earthworm, Eisenia andrei (Oligochaeta)|Environ. Sci. Technol.37(15): 3399-3404|2003|10.1021/es0340578
77477|T||Desaulniers,D., K. Leingartner, M. Wade, E. Fintelman, A. Yagminas, and W.G. Foster|Effects of Acute Exposure to PCBs 126 and 153 on Anterior Pituitary and Thyroid Hormones and FSH Isoforms in Adult Sprague Dawley Male Rats|Toxicol. Sci.47(2): 158-169|1999|10.1093/toxsci/47.2.158
77478|T||Goldey,E.S., and K.M. Crofton|Thyroxine Replacement Attenuates Hypothyroxinemia, Hearing Loss, and Motor Deficits Following Developmental Exposure to Aroclor 1254 in Rats|Toxicol. Sci.45(1): 94-105|1998|
77479|T||Tampal,N., S. Myers, and L.W. Robertson|Binding of Polychlorinated Biphenyls/Metabolites to Hemoglobin|Toxicol. Lett.142(1/2): 53-60|2003|10.1016/S0378-4274(02)00484-8
77480|T||Vezina,C.M., N.J. Walker, and J.R. Olson|Subchronic Exposure to TCDD, PeCDF, PCB126, and PCB153:  Effect on Hepatic Gene Expression|Environ. Health Perspect.112(16): 1636-1644|2004|10.1289/txg.7253
77481|T||Genter,M.B., S. Apparaju, and P.B. Desai|Induction of Olfactory Mucosal and Liver Metabolism of Lidocaine by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biochem. Mol. Toxicol.16(3): 128-134|2002|10.1002/jbt.10032
77485|A||Yilmaz,M., A. Gul, and K. Erbasli|Acute Toxicity of alpha-Cypermethrin to Guppy (Poecilia reticulata, Pallas, 1859)|Chemosphere56(4): 381-385|2004|10.1016/j.chemosphere.2004.02.034
77486|T||Yarkov,D.|Changes in Some Integral Parameters in Chicken After Chronic Intoxication with Fastac 10ED (alpha-Cypermethrin)|J. Vet. Pharmacol. Ther.20(suppl. 1): 269-270|1997|
77487|A||Megharaj,M., K. Venkateswarlu, and A.S. Rao|Interaction Effects of Insecticide Combinations on the Growth of Scenedesmus bijugatus and Synechococcus elongatus|Plant Soil114(2): 159-163|1989|10.1007/BF02220794
77488|T||Rhodes,C., B.K. Jones, A. Croucher, D.H. Hutson, C.J. Logan, R. Hopkins, B.E. Hall, and J.A. Vickers|The Bioaccumulation and Biotransformation of cis, trans-Cypermethrin in the Rat|Pestic. Sci.15(5): 471-480|1984|10.1002/ps.2780150508
77489|T||Standell,C.J., and T.M. West|Response of Several Pasture Grass Species to Potential New Herbicides for Bracken Control|Br. Crop Prot. Conf. Weeds:903-908|1989|
77490|A||Singh,D., and A. Singh|Influence of Alphamethrin on Oxidative Metabolism of the Freshwater Fish Catla catla|Bull. Environ. Contam. Toxicol.73(1): 161-166|2004|10.1007/s00128-004-0408-y
77491|T||Manna,S., D. Bhattacharyya, T.K. Mandal, and S. Das|Repeated Dose Toxicity of alfa-Cypermethrin in Rats|J. Vet. Sci.5(3): 241-245|2004|10.4142/jvs.2004.5.3.241
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77494|T||Condes-Lara,M., A. Graff-Guerrero, and L. Vega-Riveroll|Effects of Cypermethrin on the Electroencephalographic Activity of the Rat:  A Model of Chemically Induced Seizures|Neurotoxicol. Teratol.21(3): 293-298|1999|10.1016/S0892-0362(98)00051-8
77495|A||Tripathi,P.K., and A. Singh|Toxic Effects of Cypermethrin and Alphamethrin on Reproduction and Oxidative Metabolism of the Freshwater Snail, Lymnaea acuminata|Ecotoxicol. Environ. Saf.58(2): 227-235|2004|10.1016/j.ecoenv.2003.12.006
77496|T||Schwartz,A., and D. Capatos|An Evaluation of Chemicals for the Toxicity to Brown Snail (Helix aspersa Muller) on Grapevines|S. Afr. J. Enol. Vitic.11(1): 55-58|1990|
77497|T||Ahmad,M.M., L. Sahar, F. Nasir, and R. Minhas|Pesticide-Induced Changes in Secretory Activity of the Thyroid Gland in Rats|Pak. J. Zool.32(4): 333-336|2000|
77498|A||Caliskan,M., B. Erkmen, and S.V. Yerli|The Effects of Zeta Cypermethrin on the Gills of Common Guppy Lebistes reticulatus|Environ. Toxicol. Pharmacol.14(3): 117-120|2003|10.1016/S1382-6689(03)00046-2
77499|T||Sorensen,T.S., and M. Holmstrup|A Comparative Analysis of the Toxicity of Eight Common Soil Contaminants and Their Effects on Drought Tolerance in the Collembolan Folsomia candida|Ecotoxicol. Environ. Saf.60(2): 132-139|2005|10.1016/j.ecoenv.2004.02.001
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77502|T||El-Toukhy,M.A., and R.S. Girgis|In Vivo and In Vitro Studies on the Effect of Larvin and Cypermethrin on Adenosine Triphosphatase Activity of Male Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(5): 599-619|1993|
77503|T||Hiromori,T., T. Nakanishi, S. Kawaguchi, H. Sako, T. Suzuki, and J. Miyamoto|Therapeutic Effects of Methocarbamol on Acute Intoxication by Pyrethroids in Rats|J. Pestic. Sci. (Multiple Languages)11(1): 9-14|1986|10.1584/jpestics.11.9
77504|T||Crissey,S.D., A.M. Ward, S.E. Block, and M.T. Maslanka|Hepatic Iron Accumulation over Time in European Starlings (Sturnus vulgaris) fed Two Levels of Iron|J. Zoo Wildl. Med.31(4): 491-496|2000|10.1638/1042-7260(2000)031[0491:HIAOTI]2.0.CO;2
77505|T||Cole,L.M., L.O. Ruzo, E.J. Wood, and J.E. Casida|Pyrethroid Metabolism:  Comparative Fate in Rats of Tralomethrin, Tralocythrin, Deltamethrin, and (1R,alphaS)-cis-Cypermethrin|J. Agric. Food Chem.30(4): 631-636|1982|10.1021/jf00112a003
77507|T||Moldenke,A.R., and W.G. Thies|Application of Chloropicrin to Control Laminated Root Rot:  Research Design and Seasonal Dynamics of Control Populations of Soil Arthropods|Environ. Entomol.25(5): 925-932|1996|10.1093/ee/25.5.925
77508|A||Yuan,L., E. Michels, and L. De Meester|Changes in Phototactic Behavior of Daphnia magna Clone C1 242 in Response to Copper, Cadmium and Pentachlorophenol|J. Environ. Sci.15(6): 841-847|2003|
77509|T||Gupta,A., R. Agarwal, and G.S. Shukla|Functional Impairment of Blood - Brain Barrier Following Pesticide Exposure During Early Development in Rats|Hum. Exp. Toxicol.18(3): 174-179|1999|
77510|T||Webster,T.M., A.S. Csinos, A.W. Johnson, C.C. Dowler, D.R. Sumner, and R.L. Fery|Methyl Bromide Alternatives in a Bell Pepper-Squash Rotation|Crop Prot.20(7): 605-614|2001|10.1016/S0261-2194(01)00030-8
77511|T||Csinos,A.S., D.R. Sumner, W.C. Johnson, A.W. Johnson, R.M. McPherson, and C.C. Dowler|Methyl Bromide Alternatives in Tobacco, Tomato and Pepper Transplant Production|Crop Prot.19(1): 39-49|2000|10.1016/S0261-2194(99)00086-1
77512|T||Gilreath,J.P., J.P. Jones, B.M. Santos, and A.J. Overman|Soil Fumigant Evaluations for Soilborne Pest and Cyperus rotundus Control in Fresh Market Tomato|Crop Prot.23(10): 889-893|2004|10.1016/j.cropro.2004.01.010
77513|T||Csinos,A.S., W.C. Johnson, A.W. Johnson, D.R. Sumner, R.M. McPherson, and R.D. Gitaitis|Alternative Fumigants for Methyl Bromide in Tobacco and Pepper Transplant Production|Crop Prot.16(6): 585-594|1997|10.1016/S0261-2194(97)00025-2
77514|T||Holb,I.J., P.F. De Jong, and B. Heijne|Efficacy and Phytotoxicity of Lime Sulphur in Organic Apple Production|Ann. Appl. Biol.142(2): 225-233|2003|10.1111/j.1744-7348.2003.tb00245.x
77515|A||Schuytema,G.S., A.V. Nebeker, J.A. Peterson, and W.L. Griffis|Effects of Pentachlorophenol-Contaminated Food Organisms on Toxicity and Bioaccumulation in the Frog Xenopus laevis|Arch. Environ. Contam. Toxicol.24(3): 359-364|1993|10.1007/BF01128734
77516|T||Kammenga,J.E., P.H.G. Van Koert, J.H. Koeman, and J. Bakker|Fitness Consequences of Toxic Stress Evaluated Within the Context of Phenotypic Plasticity|Ecol. Appl.7(2): 726-734|1997|10.1890/1051-0761(1997)007[0726:FCOTSE]2.0.CO;2
77517|AT||Repetto,G., A. Jos, M.J. Hazen, M.L. Molero, A. Del Peso, M. Salguero, P. Del Castillo, M.C. Rodriguez-Vicente, and M. |A Test Battery for the Ecotoxicological Evaluation of Pentachlorophenol|Toxicol. In Vitro15(4-5): 503-509|2001|10.1016/S0887-2333(01)00055-8
77519|T||Reeves,R., M. Thiruchelvam, E.K. Richfield, and D.A. Cory-Slechta|The Effect of Developmental Exposure to the Fungicide Triadimefon on Behavioral Sensitization to Triadimefon During Adulthood|Toxicol. Appl. Pharmacol.200(1): 54-63|2004|10.1016/j.taap.2004.03.020
77520|T||Umemura,T., K. Sai-Kato, A. Takagi, R. Hasegawa, and Y. Kurokawa|Oxidative DNA Damage and Cell Proliferation in the Livers of B6C3F1 Mice Exposed to Pentachlorophenol in Their Diet|Fundam. Appl. Toxicol.30(2): 285-289|1996|10.1006/faat.1996.0066
77521|T||Tu,J.C., and A.S. Hamill|Differential Effect of Two Groups of Herbicides, Dinitroaniline and Phenoxy, on Pea Root Rot|Br. Crop Prot. Conf. Pests Dis.3:1049-1053|1986|
77522|T||Babu,T.R., and K.M. Azam|Toxicity of Different Fungicides to Adult Cryptolaemus montrouzieri Mulsant (Coleoptera: Coccinellidae)|Crop Prot.6(3): 161-162|1987|10.1016/0261-2194(87)90005-6
77523|T||Kutywayo,V.|Chemical Alternatives for Soil Fumigation with Methyl Bromide on Tobacco Seedbeds in Nematode and Weed Control|Commun. Agric. Appl. Biol. Sci.68(4a): 115-122|2003|
77524|A||Ahmad,W., M.N. Ali, M.A. Farah, and B. Ateeq|Computerized Automated Morphometric Assay Including Frequency Estimation of Pentachlorophenol Induced Nuclear Anomalies (Micronucleus) in Catfish Heteropneustes fossilis|Chromosoma (Berl.)110(8): 570-574|2002|10.1007/s00412-001-0171-3
77525|A||Van der Schalie,W.H., T.R. Shedd, M.W. Widder, and L.M. Brennan|Response Characteristics of an Aquatic Biomonitor Used for Rapid Toxicity Detection|J. Appl. Toxicol.24(5): 387-394|2004|10.1002/jat.1028
77526|T||Locascio,S.J., J.P. Gilreath, D.W. Dickson, T.A. Kucharek, J.P. Jones, and J.W. Noling|Fumigant Alternatives to Methyl Bromide for Polyethylene-Mulched Tomato|Hortscience32(7): 1208-1211|1997|10.21273/HORTSCI.32.7.1208
77527|T||Gilreath,J.P., and B.M. Santos|Methyl Bromide Alternatives for Weed and Soilborne Disease Management in Tomato (Lycopersicon esculentum)|Crop Prot.23(12): 1193-1198|2004|10.1016/j.cropro.2004.03.020
77528|T||Haar,M.J., S.A. Fennimore, H.A. Ajwa, and C.Q. Winterbottom|Chloropicrin Effect on Weed Seed Viability|Crop Prot.22(1): 109-115|2003|10.1016/S0261-2194(02)00119-9
77529|T||Crofton,K.M., V.M. Boncek, and L.W. Reiter|Hyperactivity Induced by Triadimefon, a Triazole Fungicide|Fundam. Appl. Toxicol.10(3): 459-465|1988|10.1016/0272-0590(88)90292-8
77530|T||Chhabra,R.S., R.M. Maronpot, J.R. Bucher, J.K. Haseman, J.D. Toft, and M.R. Hejtmancik|Toxicology and Carcinogenesis Studies of Pentachlorophenol in Rats|Toxicol. Sci.48(1): 14-20|1999|10.1093/toxsci/48.1.14
77531|T||Holsapple,M.P., P.J. McNerney, and J.A. McCay|Effects of Pentachlorophenol on the In Vitro and In Vivo Antibody Response|J. Toxicol. Environ. Health20(3): 229-239|1987|10.1080/15287398709530977
77532|T||McConnell,E.E., J.E. Huff, M. Hejtmancik, A.C. Peters, and R. Persing|Toxicology and Carcinogenesis Studies of Two Grades of Pentachlorophenol in B6C3F1 Mice|Fundam. Appl. Toxicol.17(3): 519-532|1991|10.1016/0272-0590(91)90202-F
77534|A||Zhao,Y., and M.C. Newman|Shortcomings of the Laboratory-Derived Median Lethal Concentration for Predicting Mortality in Field Populations:  Exposure Duration and Latent Mortality|Environ. Toxicol. Chem.23(9): 2147-2153|2004|10.1897/03-557
77535|T||Sai-Kato,K., T. Umemura, A. Takagi, R. Hasegawa, A. Tanimura, and Y. Kurokawa|Pentachlorophenol-Induced Oxidative DNA Damage in Mouse Liver and Protective Effect of Antioxidants|Food Chem. Toxicol.33(10): 877-882|1995|10.1016/0278-6915(95)00056-8
77536|T||Reeves,R., M. Thiruchelvam, E.K. Richfield, and D.A. Cory-Slechta|Behavioral Sensitization and Long-Term Neurochemical Alterations Associated with the Fungicide Triadimefon|Pharmacol. Biochem. Behav.76(2): 315-326|2003|10.1016/j.pbb.2003.08.003
77537|T||Reeves,R., M. Thiruchelvam, R.B. Baggs, and D.A. Cory-Slechta|Interactions of Paraquat and Triadimefon: Behavioral and Neurochemical Effects|Neurotoxicology24(6): 839-850|2003|10.1016/S0161-813X(03)00057-3
77538|A||Pavlica,M., G.I.V. Klobucar, N. Vetma, R. Erben, and D. Papes|Detection of Micronuclei in Haemocytes of Zebra Mussel and Great Ramshorn Snail Exposed to Pentachlorophenol|Mutat. Res.465(1-2): 145-150|2000|10.1016/S1383-5718(99)00222-3
77539|T||Larson,K.D., and D.V. Shaw|Strawberry Nursery Soil Fumigation and Runner Plant Production|Hortscience30(2): 236-237|1995|10.21273/HORTSCI.30.2.236
77540|T||Blakley,B.R., M.J. Yole, P. Brousseau, H. Boermans, and M. Fournier|Effect of Pentachlorophenol on Immune Function|Toxicology125(2/3): 141-148|1998|10.1016/S0300-483X(97)00154-6
77541|T||Lin,P.H., S. Waidyanatha, G.M. Pollack, J.A. Swenberg, and S.M. Rappaport|Dose-Specific Production of Chlorinated Quinone and Semiquinone Adducts in Rodent Livers Following Administration of Pentachlorophenol|Toxicol. Sci.47(1): 126-133|1999|10.1093/toxsci/47.1.126
77542|A||Pils,D., and G. Schmetterer|Characterization of Three Bioenergetically Active Respiratory Terminal Oxidases in the Cyanobacterium Synechocystis sp. Strain PCC 6803|FEMS Microbiol. Lett.203(2): 217-222|2001|10.1111/j.1574-6968.2001.tb10844.x
77543|T||St.Omer,V.E.V., and F. Gadusek|The Acute Oral LD50 of Technical Pentachlorophenol in Developing Rats|Environ. Toxicol. Chem.6(2): 147-149|1987|
77544|T||Villena,F., G. Montoya, R. Klaasen, R. Fleckenstein, and M. Suwalsky|Morphological Changes on Nerves and Histopathological Effects on Liver and Kidney of Rats by Pentachlorophenol (PCP)|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 353-363|1992|10.1016/0742-8413(92)90287-H
77545|T||Tsai,C.H., P.H. Lin, S. Waidyanatha, and S.M. Rappaport|Fractionation of Protein Adducts in Rats and Mice Dosed with [14C]Pentachlorophenol|Arch. Toxicol.76(11): 628-633|2002|10.1007/s00204-002-0394-y
77546|T||Nadeau,D., S. Corneau, I. Plante, G. Morrow, and R.M. Tanguay|Evaluation for Hsp70 as a Biomarker of Effect of Pollutants on the Earthworm Lumbricus terrestris|Cell Stress Chaperones6(2): 153-163|2001|10.1379/1466-1268(2001)006<0153:EFHAAB>2.0.CO;2
77549|T||Mosleh,Y.Y., S.M.M. Ismail, M.T. Ahmed, and Y.M. Ahmed|Comparative Toxicity and Biochemical Responses of Certain Pesticides to the Mature Earthworm Aporrectodea caliginosa Under Laboratory Conditions|Environ. Toxicol.18(5): 338-346|2003|10.1002/tox.10134
77550|T||Tamang,R.K., G.J. Jha, M.K. Gupta, H.V.S. Chauhan, and B.K. Tiwary|In-Vivo Immunosuppression by Synthetic Pyrethroid Cypermethrin Pesticide in Mice and Goats|Vet. Immunol. Immunopathol.19(3-4): 299-306|1988|10.1016/0165-2427(88)90116-X
77551|T||Meland,M.|Thinning Apples and Pears in a Nordic Climate.  III.  The Effect of NAA, Ethephon and Lime Sulfur on Fruit Set, Yield and Return Bloom of Three Apple Cultivars|In: J.L.Guardiola (Ed.), Proc.8th Symp.on Plant Bioregulators in Fruit Production, Acta Hortic.463:517-525|1997|
77552|T||Grauslund,J.|Fruit Thinning VI.  Further Experiments on Chemical Thinning of the Apple Cultivar 'Summerred'|Tidsskr. Planteavl (Multiple Languages)92(3): 269-273|1988|
77553|T||Walker,Q.D., M.H. Lewis, K.M. Crofton, and R.B. Mailman|Triadimefon, a Triazole Fungicide, Induces Stereotyped Behavior and Alters Monoamine Metabolism in Rats|Toxicol. Appl. Pharmacol.102(3): 474-485|1990|10.1016/0041-008X(90)90043-T
77554|T||Khalil,I.A.|Biosynthetic Artefacts in Crop Plants by Systemic Fungicides|Agrochimica40(2-3): 123-131|1996|
77555|T||Fletcher,R.A., G. Hofstra, and J.G. Gao|Comparative Fungitoxic and Plant Growth Regulating Properties of Triazole Derivatives|Plant Cell Physiol.27(2): 367-371|1985|
77556|T||Feng,Z., and A. Guo|Amelioration of Chilling Stress by Triadimefon in Cucumber Seedlings|Plant Growth Regul.39(3): 277-283|2003|10.1023/A:1022881628305
77557|T||Overman,A.J., A.A. Csizinszky, J.P. Jones, and C.D. Stanley|Efficacy of Metam Sodium Applied via Drip Irrigation on Tomato|Proc. Soil Crop Sci. Soc. Fla.46:4-7|1987|
77558|T||Milward,A.F., and E.J. Skerrett|Studies in Phytotoxicity:  III.  Changes in the Levels of Some Keto-Acids in Plants Treated with a Phytotoxic Pesticide|Pestic. Sci.5(5): 561-566|1974|10.1002/ps.2780050509
77559|T||Rao,I.G., and D.K. Singh|Toxic Effect of Single and Binary Treatments of Synthetic and Plant-Derived Molluscicides Against Achatina fulica|J. Appl. Toxicol.22(3): 211-215|2002|10.1002/jat.850
77560|T||Chary,M.S., K. Ramasubbaiah, and V.S. Bhushan|Effect of Certain Modern Insecticides on the Yield of Groundnut|Indian J. Entomol.52(3): 478-481|1990|
77561|T||Adair,R.J., and R.H. Holtkamp|Development of a Pesticide Exclusion Technique for Assessing the Impact of Biological Control Agents for Chrysanthemoides monilifera|Biocontrol Sci. Technol.9(3): 383-390|1999|10.1080/09583159929640
77562|A||Sutter,K., K. Jung, and G.J. Krauss|Effects of Heavy Metals on the Nitrogen Metabolism of the Aquatic Moss Fontinalis antipyretica L. ex Hedw.:  A 15N Tracer Study|Environ. Sci. Pollut. Res.9(6): 417-421|2002|10.1007/BF02987592
77563|A||Nishikawa,K., and N. Tominaga|Isolation, Growth, Ultrastructure, and Metal Tolerance of the Green Alga, Chlamydomonas acidophila (Chlorophyta)|Biosci. Biotechnol. Biochem.65(12): 2650-2656|2001|10.1271/bbb.65.2650
77565|A||Chang,S.I.|Bioaccumulation and Geochemical Cycling of Copper and Silver in Marine Plankton|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:126 p.|2002|
77567|A||Chapman,G.A.|Metal Toxicity Tests|July 14, 1980 Memo to Quentin Pickering, Newtown Fish Toxicology Station:2 p.|1980|
77568|A||Brooke,L.T.|The Effects of Food and Test Solution Age on the Toxicity of Silver to Three Freshwater Organisms|Contract No.68-C1-0034, Work Assignment No.1-10, Environ.Health Lab, Univ.of Wisconsin-Superior, Superior, WI:19 p.|1993|
77569|T||Searle,C.M.S.|The Susceptibility of Pauridia peregrina Timb. (Hymenoptera: Encyrtidae) to Some Pesticide Formulations|J. Entomol. Soc. South. Afr.27(2): 239-249|1965|
77570|T||Nielsen,S.L.|Chemicals Tested in the Laboratory for the Control of Black Current Gall Mite (Cecidophyopsis ribis Westw.)|Tidsskr. Planteavl (Multiple Languages)91(1): 89-93|1987|
77571|T||McArtney,S., M. White, I. Latter, and J. Campbell|Individual and Combined Effects of Shading and Thinning Chemicals on Abscission and Dry-Matter Accumulation of 'Royal Gala' Apple Fruit|J. Hortic. Sci. Biotechnol.79(3): 441-448|2004|10.1080/14620316.2004.11511787
77572|T||Saxena,D.C., S. Abbas, and R.K. Sairam|Chemical Manipulation of Reproductive Efficiency of Chickpea (Cicer arietinnum L.) by Triadimefon in Relation to Changes in Ethylene|J. Agron. Crop Sci.185(1): 27-32|2000|10.1046/j.1439-037X.2000.00397.x
77573|T||Umemura,T., Y. Kodama, K. Kanki, M.J. Iatropoulos, A. Nishikawa, M. Hirose, and G.M. Williams|Pentachlorophenol (but not Phenobarbital) Promotes Intrahepatic Biliary Cysts Induced by Diethylnitrosamine to Cholangio Cystic Neoplasms in B6C3F1 Mice Possibly due to Oxidative Stress|Toxicol. Pathol.31(1): 10-13|2003|10.1080/01926230390173806
77574|T||El-Beih,N.M.|Total Lipids and Total Cholesterol in Plasma and Liver of Normal and Fungicides Treated Rats|Ann. Agric. Sci.34(1): 529-538|1989|
77575|T||El-Beih,N.M.|Effect of Some Fungicides on Body Weight Gain, Food Consumption, Weight of Certain Organs and Water Content of the Liver in Male Rats|Ann. Agric. Sci.34(1): 505-515|1989|
77576|T||El-Beih,N.M.|Effect of Fungicides on Plasma and Liver Phospholipids in Male Rats|Ann. Agric. Sci.34(1): 517-527|1989|
77577|T||Leibovitch,S., B.L. Ma, W.E. Maloba, and D.L. Smith|Spring Barley Responses to Row Spacing and Fungicide Triadimefon in Regions with a Short Crop-Growing Season|J. Agron. Crop Sci.169(3): 209-215|1992|10.1111/j.1439-037X.1992.tb01027.x
77578|T||Ikaiddi,M.U., H.C. Akunne, and K.F.A. Soliman|Behavioral and Neurochemical Effects of Acute and Repeated Administration of Triadimefon in the Male Rat|Neurotoxicology18(3): 771-780|1997|
77581|T||Edland,T.|Side-Effects of Fungicide and Insecticide Sprays on Phytoseiid Mites in Apple Orchards|Norw. J. Agric. Sci. Suppl.Suppl. 17:195-204|1994|
77582|T||Karikalan,L., S.N. Rajah, R. Gopi, B.M. Sujatha, and R. Panneerselvam|Induction of Salt Tolerants by Triadimefon in Pigeon Pea (Cajanus cajan L.) Millsp.|Indian J. Exp. Biol.37(8): 825-829|1999|
77583|T||Llewelyn,F.W.M.|"The ""Hardening"" Effect of Lime-Sulfur Sprays on Maiden Apple Trees"|Ann. Appl. Biol.55(3): 495-501|1965|10.1111/j.1744-7348.1965.tb07962.x
77584|T||Collins,N.E., and E.T.,Jr. Moran|Influence of Supplemental Manganese and Zinc on Live Performance and Carcass Quality of Diverse Broiler Strains|J. Appl. Poult. Res.8:228-235|1999|10.1093/japr/8.2.228
77585|T||Shavlovski,M.M., N.A. Chebotar, L.A. Konopistseva, E.T. Zakharova, A.M. Kachourin, V.B. Vassiliev, and V.S. Gaitskhoki|Embryotoxicity of Silver Ions is Diminished by Ceruloplasmin - Further Evidence for Its Role in the Transport of Copper|BioMetals8:122-128|1995|
77586|T||Mohamed,O.E., A.N. Attia, S.A. Awadalla, E.Y. Esmail, and M.M. Hady|Role of Some Microelements in Nutrition of Water Buffalo and Its Relation to Production III.  Effect of Manganese Supplementation|Vet. Med. J. Giza17(34): 102-110|1986|
77587|T||Hygnstrom,S.E., and K.C. VerCauteren|Cost-Effectiveness of Five Burrow Fumigants for Managing Black-Tailed Prairie Dogs|Int. Biodeterior. Biodegrad.45(3/4): 159-168|2000|10.1016/S0964-8305(00)00037-8
77588|T||Siddiqui,Z.S., and S. Ahmed|Effect of Systemic Fungicides on Seed Germination, Seedling Growth and Phenolic Content of Vigna radiata|Pak. J. Bot.28(2): 191-193|1996|
77590|T||Jacobsohn,R., Y. Kelman, R. Shaked, and L. Klein|Broomrape (Orobanche spp.) Control with Ethylene Dibromide and Chloropicrin|Weed Res. (Multiple Languages)28(3): 151-158|1988|10.1111/j.1365-3180.1988.tb01600.x
77591|T||Sairam,R.K., P.S. Deshmukh, and D.S. Shukla|Effect of Triadimefon and Kinetin on Moisture-Stress Tolerance in Wheat (Triticum aestivum)|Indian J. Agric. Sci.61(2): 102-106|1991|
77592|A||El-Dib,M.A., H.F. Abou-Waly, and A.M.H. El-Naby|Impact of Pentachlorophenol on Growth and Community Structure of Nile River Water Microalgae|Int. J. Environ. Health Res.10(3): 239-250|2000|10.1080/09603120050127185
77593|T||Hijzen,T.H., R. De Beun, and J.L. Slangen|Effects of Pyrethroids on the Acoustic Startle Reflex in the Rat|Toxicology49(2-3): 271-276|1988|10.1016/0300-483X(88)90008-X
77594|T||Dernoeden,P.H., L.R. Krusberg, and S. Sardanelli|Fungicide Effects on Acremonium Endophyte, Plant-Parasitic Nematodes, and Thatch in Kentucky Bluegrass and Perennial Ryegrass|Plant Dis.74(11): 879-881|1990|10.1094/PD-74-0879
77595|T||Harris,D.C.|A Comparison of Dazomet, Chloropicrin and Methyl Bromide as Soil Disinfestants for Strawberries|J. Hortic. Sci.66(1): 51-58|1991|10.1080/00221589.1991.11516124
77596|T||Tsai,C.H., P.H. Lin, M.A. Troester, and S.M. Rappaport|Formation and Removal of Pentachlorophenol-Derived Protein Adducts in Rodent Liver Under Acute, Multiple, and Chronic Dosing Regimens|Toxicol. Sci.73(1): 26-35|2003|10.1093/toxsci/kfg057
77598|T||Smith,J.E., and J.L. Shennan|The Effect of Substituted Phenoxyacetic and Phenoxybutyric Acids on the Growth and Respiration of Aspergillus niger|J. Gen. Microbiol.42(2): 293-300|1966|10.1099/00221287-42-2-293
77599|T||Milward,A.F., A.H.B. Deas, and E.J. Skerrett|Phytotoxicity.  II.  Changes in the Concentrations of Tricarboxylic Acid Cycle Intermediates Associated with Phytotoxic Effects on Leaves|Pestic. Sci.5(1): 11-15|1974|10.1002/ps.2780050104
77600|T||Somda,Z.C., S.C. Phatak, and H.A. Mills|Influence of Biocides on Tomato Nitrogen Uptake and Soil Nitrification and Denitrification|J. Plant Nutr.14(11): 1187-1199|1991|10.1080/01904169109364277
77601|T||Hare,M.D., M.P. Rolston, A.G. Foote, W.J. Archie, and G. Hagerty|Herbicide Tolerance of Grasslands Puna Chicory|Proc. N. Z. Plant Prot. Conf.46:282-287|1993|10.30843/nzpp.1993.46.11126
77602|T||Magu,S.P., and S. Bhowmik|Effect of 2-Methyl-4-Chlorophenoxybutyric Acid (MCPB) and Disyston on Legume-Rhizobium Symbiosis and Rhizosphere Microflora|Zentbl. Mikrobiol.139(8): 633-641|1984|10.1016/S0232-4393(84)80057-8
77603|T||Somda,Z.C., H.A. Mills, and S.C. Phatak|Growth and Elemental Composition of Tomato as Affected by Fungicides and Nitrogen Sources|J. Plant Nutr.13(9): 1167-1177|1990|10.1080/01904169009364142
77604|T||Webster,A.D.|Flower and Fruitlet Thinning of the Plum (Prunus domestica L.) cv Victoria|J. Hortic. Sci.55(1): 19-26|1980|10.1080/00221589.1980.11514896
77605|T||Lonsdale,J.H., and J.M. Kotze|Chemical Control of Mango Blossom Diseases and the Effect on Fruit Set and Yield|Plant Dis.77(6): 558-562|1993|10.1094/PD-77-0558
77606|T||Guak,S., M. Beulah, and N.E. Looney|Thinning of Fuji and Gala Apple with Lime Sulphur and Other Chemicals|Acta Hortic.636:339-346|2004|10.17660/ActaHortic.2004.636.41
77607|T||Lakshmi-Kumari,M., A. Biswas, K. Vijayalakshmi, H.S. Narayana, and N.S. Subba Rao|Effect of Certain Water-Soluble Herbicides on Legume-Rhizobium Symbiosis|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.40(5): 528-534|1974|
77608|T||Shipton,P.J.|Observations on the Phytotoxicity and Other Effects of Fungicides Used on Black Currants|Plant Pathol.18(3): 133-137|1969|10.1111/j.1365-3059.1969.tb00482.x
77609|T||Jenkins,J.E.E., S.C. Melville, and J.L. Jemmett|Effect of Fungicides on Leaf Diseases and on Yield in Spring Barley in South-West England|Plant Pathol.21(2): 49-58|1972|10.1111/j.1365-3059.1972.tb01723.x
77611|T||Johnson,J.W., R.D. Kriegel, and J.C. Wise|Grape, Season-Long Broad-Spectrum Control, 1995|Arthropod Manag. Tests21:63-64|1996|10.1093/amt/21.1.63a
77612|T||Fortnum,B.A., D.T. Gooden, R.E. Currin III, and S.B. Martin|Spring or Fall Fumigation for Control of Meloidogyne spp. on Tobacco|J. Nematol.22(4S): 645-650|1990|
77613|T||Asare-Boamah,N.K., and R.A. Fletcher|Protection of Bean Seedlings Against Heat and Chilling Injury by Triadimefon|Physiol. Plant. (Multiple Languages)67(3): 353-358|1986|10.1111/j.1399-3054.1986.tb05747.x
77614|T||Luoma,D.L., and W.G. Thies|Effects of Live Tree Fumigation on Nontarget Vegetation|Can. J. For. Res.24(12): 2384-2389|1994|10.1139/x94-307
77615|T||Bernard,B.K., and A.M. Hoberman|A Study of the Developmental Toxicity Potential of Pentachlorophenol in the Rat|Int. J. Toxicol.20(6): 353-362|2001|10.1080/109158101753333631
77616|T||Bernard,B.K., A.K. Ranpuria, and A.M. Hoberman|Developmental Toxicity Study of Pentachlorophenol in the Rabbit|Int. J. Toxicol.20(6): 345-352|2001|10.1080/109158101753333622
77617|T||Monteith,D.K.|Inhibition of Sulfotransferase Affecting Unscheduled DNA Synthesis Induced by 2-Acetylaminofluorene:  An In Vivo and In Vitro Comparison|Mutat. Res.282(4): 253-258|1992|
77618|T||Ringer,D.P., and T.R. Norton|Further Characterization of the Ability of Hepatocarcinogens to Lower Rat Liver Aryl Sulfotranferase Activity|Carcinogenesis8(11): 1749-1752|1987|10.1093/carcin/8.11.1749
77619|T||Moser,C.V., and R.C. MacPhail|Neurobehavioral Effects of Triadimefon, a Triazole Fungicide, in Male and Female Rats|Neurotoxicol. Teratol.11(3): 285-293|1989|10.1016/0892-0362(89)90071-8
77620|T||Chang,W.C., J.H. Jeng, C.C. Shieh, Y.C. Tsai, Y.S. Ho, H.R. Guo, H.I. Liu, C.C. Lee, S.Y. Ho, and Y.J. Wang|Skin Tumor-Promoting Potential and Systemic Effects of Pentachlorophenol and Its Major Metabolite Tetrachlorohydroquinone in CD-1 Mice|Mol. Carcinog.36(4): 161-170|2003|10.1002/mc.10113
77621|T||Melton,T.A., and N.T. Powell|Effects of Nematicides and Cultivars on Rotylenchulus reniformis and Flue-Cured Tobacco Yield|J. Nematol.23(4S): 712-716|1991|
77622|T||Reynolds,L.B., T.H.A. Olthof, and J.W. Potter|Effects of Fumigant Nematicides on Yield and Quality of Paste Tomatoes Grown in Southwestern Ontario|J. Nematol.24(4S): 656-661|1992|
77623|T||Lin,P.H., D.K. La, P.B. Upton, and J.A. Swenberg|Analysis of DNA Adducts in Rats Exposed to Pentachlorophenol|Carcinogenesis23(2): 365-369|2002|10.1093/carcin/23.2.365
77626|T||Weingartner,D.P., and J.R. Shumaker|Effects of Soil Fumigants and Aldicarb on Nematodes, Tuber Quality, and Yield in Potato|J. Nematol.22(4S): 767-774|1990|
77627|T||Zelenkova,J., and K. Hurka|Carabids (Col., Carabidae) in the Epigeon of Pest Management Apple Orchards in South Bohemia|Acta Soc. Zool. Bohemoslov.54(2): 133-145|1990|
77628|A||Mallick,N., F.H. Mohn, and C.J. Soeder|Evidence Supporting Nitrite-Dependent NO Release by the Green Microalga Scenedesmus obliquus|J. Plant Physiol.157(1): 40-46|2000|10.1016/S0176-1617(00)80133-9
77629|T||Goodell,B., J.P. Hosli, and B. Kropp|The Diffusion and Toxicity of the Fumigant Chloropicrin Injected in Sugar Maple and White Birch Trees|Can. J. For. Res.17(12): 1552-1556|1987|10.1139/x87-238
77630|T||Waidyanatha,S., P.H. Lin, and S.M. Rappaport|Characterization of Chlorinated Adducts of Hemoglobin and Albumin Following Administration of Pentachlorophenol to Rats|Chem. Res. Toxicol.9(3): 647-653|1996|10.1021/tx950172n
77631|T||MacLellan,K., A. Singh, I. Chu, and D.C. Villeneuve|Toxicity of 2,2',4,4',5,5'-Hexachlorobiphenyl in the Rat Liver:  An Electron Microscope Study|Histol. Histopathol.9(3): 461-468|1994|
77632|T||MacLellan,K., A. Singh, I. Chu, R. Poon, and D.C. Villeneuve|Subchronic Toxicity of Pentachlorobiphenyl Congeners n.126 or 118 in the Rat Liver.  An Electron Microscope Study|J. Submicrosc. Cytol. Pathol.26(2): 279-291|1994|
77633|T||Leece,B., M.A. Denomme, R. Towner, and S.M.A. Li|Polychlorinated Biphenyls:  Correlation Between In Vivo and In Vitro Quantitive Structure-Activity Relationships (QSARs)|J. Toxicol. Environ. Health16(3-4): 379-388|1985|10.1080/15287398509530748
77634|T||Keys,B., M. Hlavinka, G. Mason, and S. Safe|Modulation of Rat Hepatic Microsomal Testosterone Hydroxylases by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Related Toxic Isostereomers|Can. J. Physiol. Pharmacol.63(12): 1537-1542|1985|10.1139/y85-253
77636|T||Megharaj,M., I. Singleton, and N.C. McClure|Effect of Pentachlorophenol Pollution Towards Microalgae and Microbial Activities in Soil from a Former Timber Processing Facility|Bull. Environ. Contam. Toxicol.61(1): 108-115|1998|10.1007/s001289900736
77653|T||Keller,C.P., R. Stahlberg, L.S. Barkawi, and J.D. Cohen|Long-Term InhibitIon by Auxin of Leaf Blade Expansion in Bean and Arabidopsis|Plant Physiol.134(3): 1217-1226|2004|10.1104/pp.103.032300
77654|T||Esser,C., S. Steinwachs, C. Herder, M. Majora, and Z.W. Lai|Effects of a Single Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin, Given at Post-Puberty, in Senescent Mice|Toxicol. Lett.157:89-98|2005|10.1016/j.toxlet.2005.01.007
77655|T||Fisher,M.T., M. Nagarkatti, and P.S. Nagarkatti|Aryl Hydrocarbon Receptor-Dependent Induction of Loss of Mitochondrial Membrane Potential in Epididydimal Spermatozoa by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicol. Lett.157:99-107|2005|10.1016/j.toxlet.2005.01.008
77656|T||DeVito,M.J., J.J. Diliberto, D.G. Ross, M.G. Menache, and L.S. Birnbaum|Dose-Response Relationships for Polyhalogenated Dioxins and Dibenzofurans Following Subchronic Treatment in Mice|Toxicol. Appl. Pharmacol.147:267-280|1997|10.1006/taap.1997.8261
77657|T||Harper,N., M. Steinberg, J. Thomsen, and S. Safe|Halogenated Aromatic Hydrocarbon-Induced Suppression of the Plaque-Forming Cell Response in B6C3F1 Splenocytes Cultured with Allogenic Mouse Serum:  Ah Receptor Structure Activity Relationships|Toxicology99:199-206|1995|10.1016/0300-483X(95)03064-M
77658|T||Parkinson,A., S.H. Safe, L.W. Robertson, P.E. Thomas, D.E. Ryan, L.M. Reik, and W. Levin|Immunochemical Quantitation of Cytochrome P-450 Isozymes and Epoxide Hydrolase in Liver Microsomes from Polychlorinated or Polybrominated Biphenyl-Treated Rats|J. Biol. Chem.258(9): 5967-5976|1983|10.1016/S0021-9258(20)81991-7
77659|T||Van Birgelen,A.P.J.M., J. Van der Kolk, K.M. Fase, I. Bol, H. Poiger, A. Brouwer, and M. Van den Berg|Subchronic Dose-Response Study of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Female Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.132:1-13|1995|10.1006/taap.1995.1080
77660|T||Rempel,C.B., and R. Hall|Effects of Time and Rate of Application of Triazole Fungicides on Incidence and Severity of Blackleg and Growth and Yield of Canola|Can. J. Plant Sci.75(3): 737-743|1995|10.4141/cjps95-125
77661|A||Neeraja,P., D. Muthuraj, K.P.O. Reddy, and E.S. Latha|Time Modulated Changes in Protein Levels of Cyprinus carpio Fry on Ambient Ammonia Stress|Indian J. Comp. Anim. Physiol.13(1): 67-70|1995|
77662|A||Ankley,G.T., D.L. DeFoe, M.D. Kahl, K.M. Jensen, E.A. Makynen, A. Miracle, P. Hartig, L.E. Gray, M. Cardon, and V. Wils|Evaluation of the Model Anti-Androgen Flutamide for Assessing the Mechanistic Basis of Responses to an Androgen in the Fathead Minnow (Pimephales promelas)|Environ. Sci. Technol.38:6322-6327|2004|10.1021/es040022b
77664|A||Jensen,K.M., M.D. Kahl, E.A. Makynen, J.J. Korte, R.L. Leino, B.C. Butterworth, and G.T. Ankley|Characterization of Responses to the Antiandrogen Flutamide in a Short-Term Reproduction Assay with the Fathead Minnow|Aquat. Toxicol.70(2): 99-110|2004|10.1016/j.aquatox.2004.06.012
77665|A||Chowdhury,M.J., D.G. McDonald, and C.M. Wood|Gastrointestinal Uptake and Fate of Cadmium in Rainbow Trout Acclimated to Sublethal Dietary Cadmium|Aquat. Toxicol.69:149-163|2004|10.1016/j.aquatox.2004.05.002
77666|A||Ankley,G.T., D.W. Kuehl, M.D. Kahl, K.M. Jensen, B.C. Butterworth, and J.W. Nichols|Partial Life-Cycle Toxicity and Bioconcentration Modeling of Perfluorooctanesulfonate in the Northern Leopard Frog (Rana pipiens)|Environ. Toxicol. Chem.23(11): 2745-2755|2004|10.1897/03-667
77668|T||Cook,R.J., J.W. Sitton, and W.A. Haglund|Influence of Soil Treatments on Growth and Yield of Wheat and Implications for Control of Pythium Root Rot|Phytopathology77(8): 1192-1198|1987|10.1094/Phyto-77-1192
77669|T||Sairam,R.K., D.S. Shukla, and P.S. Deshmukh|Effect of Triazole-Triadimefon on Tolerance to Moisture Stress in Wheat (Triticum aestivum)|Indian J. Agric. Sci.65(7): 483-489|1995|
77670|T||Sailerova,E., and J.J. Zwiazek|Early Effects of Triadimefon on Water Relations, Sterol Composition and Plasma Membrane ATPase in White Spruce (Picea glauca) Seedlings|Physiol. Plant. (Multiple Languages)97(4): 747-753|1996|10.1111/j.1399-3054.1996.tb00540.x
77671|T||Khalil,I.A., E.I. Mercer, and Z.X. Wang|Effect of Triazole Fungicides on the Growth, Chloroplast Pigments and Sterol Biosynthesis of Maize (Zea mays L.)|Plant Sci.66(1): 21-28|1990|10.1016/0168-9452(90)90164-J
77672|T||Singh,G.R., S.R. Sharma, and T.B. Anilkumar|Effects of Biloxazol, Carbendazim, and Triadimefon on Nodulation and Nitrogen Fixation in Cowpea|Zentbl. Mikrobiol.141(1): 35-37|1986|10.1016/S0232-4393(86)80082-8
77673|T||Babu,T.H.|Effectiveness of Certain Chemicals and Fungicides on the Feeding Behaviour of House Sparrows|Pavo26(1/2): 17-24|1988|
77675|T||Wright,D., and L.G. Hughes|Effects of Fungicide Treatments and Variety on Development Grain Growth and Yield of Spring Barley|Ann. Appl. Biol.111(1): 89-102|1987|10.1111/j.1744-7348.1987.tb01436.x
77676|T||Surh,Y.J., A. Liem, E.C. Miller, and J.A. Miller|Age- and Sex-Related Differences in Activation of the Carcinogen 7-Hydroxymethyl-12-Methylbenz(a)Anthracene to an Electrophilic Sulfuric Acid Ester Metabolite in Rats. Possible Involvement of Hydroxysteroid Sulfotransfe|Biochem. Pharmacol.41(2): 213-221|1991|10.1016/0006-2952(91)90479-O
77677|T||White,K.L.,Jr., and A.C. Anderson|Suppression of Mouse Complement Activity by Contaminants of Technical Grade Pentachlorophenol|Agents Actions16(5): 387-392|1985|10.1007/BF01982877
77678|A||Schultz,T.W., G.D. Sinks, and A.P. Bearden-Lowit|Population Growth Kinetics and Bulk Membrane Lipid Alterations in Tetrahymena pyriformis:  Exposure to Pentachlorophenol|Cell Biol. Toxicol.18(4): 271-278|2002|10.1023/A:1016007128759
77679|T||Page-Dumroese,D.S., A.E. Harvey, M.F. Jurgensen, and M.J. Larsen|Ponderosa Pine Seedling Response to Planting-Site Soil Fumigation and Fungicide Application|Northwest Sci.70(2): 139-147|1996|
77680|T||Koenning,S.R., J.E. Bailey, D.P. Schmitt, and K.R. Barker|Management of Plant-Parasitic Nematodes on Peanut with Selected Nematicides in North Carolina|J. Nematol.30(4S): 643-650|1998|
77681|T||Potter,L.R., and D.I.H. Jones|The Effect of Three Fungicides on Yield and Quality of Perennial and Italian Ryegrass|Tests Agrochem. Cultiv.6:136-137|1985|
77682|T||Balasubramaniam,R., and R.E. Gaunt|The Effect of Fungicide Sprays on Root Development, Green Leaf Area and Yield of Wheat in the Absence of Disease|Plant Prot. Q.4(3): 95-97|1989|
77683|T||Radford,B.J., and G.B. Wildermuth|Effect of Sowing Depth, Seed Dressings, a Press Wheel, Cultivars and Trifluralin on the Establishment of Barley|Aust. J. Exp. Agric.27(4): 579-584|1987|10.1071/EA9870579
77684|AT||Vickerman,G.P., and N.W. Sotherton|Effects of Some Foliar Fungicides on the Chrysomelid Beetle Gastrophysa polygoni (L.)|Pestic. Sci.14(4): 405-411|1983|10.1002/ps.2780140409
77685|T||Wilson,M.V., C.A. Ingersoll, and W.G. Thies|Testing for Effects of Stump Fumigation with Chloropicrin on Vegetation in an Early Seral Douglas-Fir Stand|Can. J. For. Res.29(8): 1254-1258|1999|10.1139/x99-077
77686|T||Overton,S.V., L.D. Moore, D.M. Orcutt, K.S. Yoder, and S.A. Meredith|Influence of Sterol-Inhibiting Fungicides on the Free Sterol and Free Fatty Acid Composition of Red Delicious and Jonathan Apple Cultivars|J. Hortic. Sci.63(2): 183-191|1988|10.1080/14620316.1988.11515846
77687|T||Rajendiran,K., and M.P. Ramanujam|Alleviation of Ultraviolet-B Radiation-Induced Growth Inhibition of Green Gram by Triadimefon|Biol. Plant. (Praha)46(4): 621-624|2003|10.1023/A:1024840301092
77688|T||Bora,K.K., and S. Mathur|Physiological Studies on the Actions of Triadimefon in Desert Plants: II. Role on Transpiration in Groundnut|Biochem. Physiol. Pflanzen (Multiple Languages)187(5): 395-400|1991|10.1016/S0015-3796(11)80046-6
77689|T||Ferriss,R.S., R.E. Stuckey, M.L. Gleason, and M.R. Siegel|Effects of Seed Quality, Seed Treatment, Soil Source, and Initial Soil Moisture on Soybean Seedling Performance|Phytopathology77(2): 140-148|1987|10.1094/Phyto-77-140
77690|T||Thies,W.G., and E.E. Nelson|Survival of Douglas-Fir Injected with the Fumigants Chloropicrin Methylisothiocyanate or Vorlex|Northwest Sci.61(1): 60-64|1987|
77691|T||Gomaa,A.H., M.M. Khattab, and E.A. El-Rahman|Effect of Rooting Media and Auxin Treatments in Apple Rootstocks Stooling|Egypt. J. Hortic.16(1): 1-8|1989|
77693|A||Mehta,S.K., A. Singh, and J.P. Gaur|Kinetics of Adsorption and Uptake of Cu2+ by Chlorella vulgaris:  Influence of pH, Temperature, Culture Age, and Cations|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(3): 399-414|2002|
77694|T||Nieminen,T.M.|Effects of Soil Copper and Nickel on Survival and Growth of Scots Pine|J. Environ. Monit.6(11): 888-896|2004|10.1039/b405958c
77696|T||Panou-Filotheou,H., A.M. Bosabalidis, and S. Karataglis|Effects of Copper Toxicity on Leaves of Oregano (Origanum vulgare subsp. hirtum)|Ann. Bot.88(2): 207-214|2001|10.1006/anbo.2001.1441
77697|A||Schuwerack,P.M.M., J.W. Lewis, and P. Jones|The Potential Use of the South African River Crab, Potamonautes warreni, as a Bioindicator Species for Heavy Metal Contamination|Ecotoxicology10(3): 159-166|2001|10.1023/A:1016689810391
77698|T||Kuzovkina,Y.A., M. Knee, and M.F. Quigley|Cadmium and Copper Uptake and Translocation in Five Willow (Salix L.) Species|Int. J. Phytoremediat.6(3): 269-287|2004|10.1080/16226510490496726
77699|T||Quartacci,M.F., E. Cosi, and F. Navari-Izzo|Lipids and NADPH-Dependent Superoxide Production in Plasma Membrane Vesicles from Roots of Wheat Grown Under Copper Deficiency or Excess|J. Exp. Bot.52(354): 77-84|2001|
77700|A||Slominska,I., and B. Jezierska|The Effect of Heavy Metals on Postembryonic Development of Common Carp, Cyprinus carpio L.|Arch. Pol. Fish. 8(1): 119-128|2000|
77701|A||Morley,N.J., K.M.Y. Leung, D. Morritt, and M. Crane|Toxicity of Anti-Fouling Biocides to Parorchis acanthus (Digenea:  Philophthalmidae) Cercarial Encystment|Dis. Aquat. Org.54(1): 55-60|2003|10.3354/dao054055
77702|A||Mamboya,F.A., H.B. Pratap, M. Mtolera, and M. Bjork|The Effect of Copper on the Daily Growth Rate and Photosynthetic Efficiency of the Brown Macroalga Padina boergesenii|In: M.D.Richmond and J.Francis (Eds.), Marine Science Development in Tanzania and Eastern Africa, Proc.20th Anniv.Conf.on Advances in Marine Science in Tanzania, Jun.28-Jul.1, 1999, Zanzibar, Tanzania1:185-192|2001|
77703|A||Al-Hamdani,S.H., and S.L. Blair|Influence of Copper on Selected Physiological Responses in Salvinia minima and Its Potential Use in Copper Remediation|Am. Fern J.94(1): 47-56|2004|10.1640/0002-8444(2004)094[0047:IOCOSP]2.0.CO;2
77704|A||Tisler,T., and J. Zagorc-Koncan|Aquatic Toxicity of Selected Chemicals as a Basic Criterion for Environmental Classification|Arh. Hig. Rada Toksikol.54(3): 207-213|2003|
77705|T||Moran,S., Y. Gotlib, and B. Yaakov|Management of Land Snails in Cut Green Ornamentals by Copper Hydroxide Formulations|Crop Prot.23(7): 647-650|2004|10.1016/j.cropro.2003.11.004
77706|A||Nishikawa,K., Y. Yamakoshi, I. Uemura, and N. Tominaga|Ultrastructural Changes in Chlamydomonas acidophila (Chlorophyta) Induced by Heavy Metals and Polyphosphate Metabolism|FEMS Microbiol. Ecol.44(2): 253-259|2003|10.1016/S0168-6496(03)00049-7
77708|T||Ekelund,F., S. Olsson, and A. Johansen|Changes in the Succession and Diversity of Protozoan and Microbial Populations in Soil Spiked with a Range of Copper Concentrations|Soil Biol. Biochem.35(11): 1507-1516|2003|10.1016/S0038-0717(03)00249-9
77709|T||Ma,W.C.W.|Critical Body Residues (CBRs) for Ecotoxicological Soil Quality Assessment:  Copper in Earthworms|Soil Biol. Biochem.37(3): 561-568|2005|10.1016/j.soilbio.2004.09.002
77710|A||Chen,C.Y., G.A. Wooster, and P.R. Bowser|Comparative Blood Chemistry and Histopathology of Tilapia Infected with Vibrio vulnificus or Streptococcus iniae or Exposed to Carbon Tetrachloride, Gentamicin, or Copper Sulfate|Aquaculture239(1-4): 421-443|2004|10.1016/j.aquaculture.2004.05.033
77711|A||Burridge,L.E., and V. Zitko|Lethality of Copper Sulfate and Copper-Treated Nets to Juvenile Haddock, Melanogrammus aeglefinus L.|Bull. Environ. Contam. Toxicol.69(3): 378-383|2002|10.1007/s00128-002-0073-y
77712|A||Martin-Diaz,M.L., A. Villena-Lincoln, S. Bamber, J. Blasco, and T.A. DelValls|An Integrated Approach Using Bioaccumulation and Biomarker Measurements in Female Shore Crab, Carcinus maenas|Chemosphere58(5): 615-626|2005|10.1016/j.chemosphere.2004.08.072
77714|A||De Pirro,M., G. Chelazzi, F. Borghini, and S. Focardi|Variations in Cardiac Activity Following Acute Exposure to Copper in Three Co-occurring but Differently Zoned Mediterranean Limpets|Mar. Pollut. Bull.42(12): 1390-1396|2001|10.1016/S0025-326X(01)00169-2
77715|A||Virgilio,M., and M. Abbiati|Allozyme Genotypes and Tolerance to Copper Stress in Hediste diversicolor (Polychaeta:  Nereididae)|Mar. Pollut. Bull.49(11-12): 978-985|2004|10.1016/j.marpolbul.2004.06.027
77716|A||Shariff,M., P.A.H.L. Jayawardena, F.M. Yusoff, and R. Subasinghe|Immunological Parameters of Javanese Carp Puntius gonionotus (Bleeker) Exposed to Copper and Challenged with Aeromonas hydrophila|Fish Shellfish Immunol.11(4): 281-291|2001|10.1006/fsim.2000.0309
77717|A||Musibono,D.E., and J.A. Day|Active Uptake of Aluminium, Copper and Manganese by the Freshwater Amphipod Paramelita nigroculus in Acidic Waters|Hydrobiologia (Multiple Languages)437(1-3): 213-219|2000|10.1023/A:1026519311034
77718|T||Skorzynska-Polit,E., and Z. Krupa|The Activity of Lipoxygenase in Arabidopsis thaliana (L.) Heynh - a Preliminary Study|Cell. Mol. Biol. Lett.8(2): 279-284|2003|
77720|A||Hanikenne,M., R.F. Matagne, and R. Loppes|Pleiotropic Mutants Hypersensitive to Heavy Metals and to Oxidative Stress in Chlamydomonas reinhardtii|FEMS Microbiol. Lett.196(2): 107-111|2001|10.1111/j.1574-6968.2001.tb10549.x
77721|T||Jiang,L.Y., X.E. Yang, and Z.L. He|Growth Response and Phytoextraction of Copper at Different Levels in Soils by Elsholtzia splendens|Chemosphere55(9): 1179-1187|2004|10.1016/j.chemosphere.2004.01.026
77722|T||Lagido,C., J. Pettitt, A.J.R. Porter, G.I. Paton, and L.A. Glover|Development and Application of Bioluminescent Caenorhabditis elegans as Multicellular Eukaryotic Biosensors|FEBS Lett.493(1): 36-39|2001|10.1016/S0014-5793(01)02271-2
77723|T||Song,J., F.J. Zhao, Y.M. Luo, S.P. McGrath, and H. Zhang|Copper Uptake by Elsholtzia splendens and Silene vulgaris and Assessment of Copper Phytoavailability in Contaminated Soils|Environ. Pollut.128(3): 307-315|2004|10.1016/j.envpol.2003.09.019
77724|T||Santiago,L.J.M., R.P. Louro, and D.E. De Oliveira|Compartmentation of Phenolic Compounds and Phenylalanine Ammonia-Lyase in Leaves of Phyllanthus tenellus Roxb. and Their Induction by Copper Sulphate|Ann. Bot.86(5): 1023-1032|2000|10.1006/anbo.2000.1271
77725|A||Abbasi,A.R., S.E. Shackley, and P.E. King|Changes in the Epidermal Ultrastructure of Atlantic Herring (Clupea harengus) Yolk-Sac Larvae Exposed to Copper|Asian Fish. Sci.13(2): 161-168|2000|10.33997/j.afs.2000.13.2.007
77726|T||Skorzynska-Polit,E., M. Drazkiewicz, D. Wianowska, W. Maksymiec, A.L. Dawidowicz, and A. Tukiendorf|The Influence of Heavy Metal Stress on the Level of Some Flavonols in the Primary Leaves of Phaseolus coccineus|Acta Physiol. Plant.26(3): 247-254|2004|10.1007/s11738-004-0014-y
77727|A||Khare,S., and S. Singh|Histopathological Lesions Induced by Copper Sulphate and Lead Nitrate in the Gills of Freshwater Fish Nandus nandus|J. Ecotoxicol. Environ. Monit.12(2): 105-111|2002|
77728|T||Murthy,R.C., N. Migally, A. Doye, and J. Zambernard|Ultrastructural Changes in Rat Alveolar Macrophages Exposed to Oxides of Copper and Cadmium|J. Submicrosc. Cytol.14(2): 347-353|1982|
77729|T||Berglund,A.H., M.F. Quartacci, and C. Liljenberg|Changes in Plasma-Membrane Lipid Composition:  A Strategy for Acclimation to Copper Stress|Biochem. Soc. Trans.28(6): 905-907|2000|10.1042/bst0280905
77730|T||Van Birgelen,A.P.J.M., T.J. Visser, E. Kaptein, P.R.S. Kodavanti, E.C. Derr-Yellin, M.J. DeVito, and L.S. Birnbaum|Synergistic Effects on Thyroid Hormone Metabolism in Female Sprague Dawley Rats After Subchronic Exposure to Mixtures of PCDDs, PCDFs, and PCBs|Organohalog. Compd.34:370-375|1997|
77731|T||Chu,I., C. Villeneuve, A. Yagminas, P. Lecavalier, R. Poon, H. Hakansson, U.G. Ahlborg, V.E. Valli, S.W. Kennedy, A. Be|Toxicity of 2,4,4'-Trichlorobiphenyl in Rats Following 90-Day Dietary Exposure|J. Toxicol. Environ. Health49:301-318|1996|10.1080/00984108.1996.11667603
77732|A||Iwanowicz,L.R., D.T. Lerner, V.S. Blazer, and S.D. McCormick|Aqueous Exposure to Aroclor 1254 Modulates the Mitogenic Response of Atlantic Salmon Anterior Kidney T-Cells:  Indications of Short- and Long-Term Immunomodulation|Aquat. Toxicol.72(4): 305-314|2005|10.1016/j.aquatox.2005.01.006
77733|A||Sze,P.W.C., and S.Y. Lee|Effects of Chronic Copper Exposure on the Green Mussel Perna viridis|Mar. Biol.137(3): 379-392|2000|10.1007/s002270000350
77734|T||Jouili,H., and E. El Ferjani|Effect of Copper Excess on Superoxide Dismutase, Catalase, and Peroxidase Activities in Sunflower Seedlings (Helianthus annuus L.)|Acta Physiol. Plant.26(1): 29-35|2004|10.1007/s11738-004-0041-8
77735|T||Mazen,A.M.A.|Accumulation of Four Metals in Tissues of Corchorus olitorius and Possible Mechanisms of Their Tolerance|Biol. Plant. (Praha)48(2): 267-272|2004|10.1023/B:BIOP.0000033455.11107.97
77736|T||Tari,I., G. Szalai, Z. Lorincz, and A. Balint|Changes in Thiol Content in Roots of Wheat Cultivars Exposed to Copper Stress|Biol. Plant. (Praha)45(2): 255-260|2002|10.1023/A:1015105025080
77737|A||Ng,T.Y.T., and M.J. Keough|Delayed Effects of Larval Exposure to Cu in the Bryozoan Watersipora subtorquata|Mar. Ecol. Prog. Ser.257:77-85|2003|10.3354/meps257077
77738|T||Diaz,J., A. Bernal, F. Pomar, and F. Merino|Induction of Shikimate Dehydrogenase and Peroxidase in Pepper (Capsicum annuum L.) Seedlings in Response to Copper Stress and Its Relation to Lignification|Plant Sci.161(1): 179-188|2001|10.1016/S0168-9452(01)00410-1
77739|T||Alaoui-Sosse,B., P. Genet, F. Vinit-Dunand, M.L. Toussaint, D. Epron, and B. Pierre-Marie|Effect of Copper on Growth in Cucumber Plants (Cucumis sativus) and Its Relationships with Carbohydrate Accumulation and Changes in Ion Contents|Plant Sci.166(5): 1213-1218|2004|10.1016/j.plantsci.2003.12.032
77740|A||Boon-Niermeijer,E.K., A. Van den Berg, G. Wikman, and F.A.C. Wiegant|Phyto-adaptogens Protect Against Environmental Stress-Induced Death of Embryos from the Freshwater Snail Lymnaea stagnalis|Phytomedicine7(5): 389-399|2000|10.1016/S0944-7113(00)80060-4
77741|A||Mazon,A.F., E.A.S. Monteiro, G.H.D. Pinheiro, and M.N. Fernandes|Hematological and Physiological Changes Induced by Short-Term Exposure to Copper in the Freshwater Fish, Prochilodus scrofa|Braz. J. Biol.62(4A): 621-631|2002|10.1590/S1519-69842002000400010
77742|A||Nussey,G., J.H.J. Van Vuren, and H.H. Du Preez|The Effect of Copper and Zinc at Neutral and Acidic pH on the General Haematology and Osmoregulation of Oreochromis mossambicus|Afr. J. Aquat. Sci.27(1): 61-84|2002|10.2989/16085914.2002.9626575
77743|A||Kaiser,H., R. Chalmers, and L.K. Oellermann|The Relationship Between Copper-Related Damage and Population Growth of the Rock Anemone, Aiptasia spp.|J. Appl. Aquacult.14(1/2): 53-67|2003|10.1300/J028v14n01_04
77744|A||Isani,G., M. Monari, G. Andreani, M. Fabbri, and E. Carpene|Effect of Copper Exposure on the Antioxidant Enzymes in Bivalve Mollusc Scapharca inaequivalvis|Vet. Res. Commun.27(suppl. 1): 691-693|2003|10.1023/B:VERC.0000014249.21581.5d
77745|T||Sgherri,C., M.F. Quartacci, R. Izzo, and F. Navari-Izzo|Relation Between Lipoic Acid and Cell Redox Status in Wheat Grown in Excess Copper|Plant Physiol. Biochem.40(6-8): 591-597|2002|10.1016/S0981-9428(02)01421-3
77746|A||Arnold,G.L., M.W. Luckenbach, and M.A. Unger|Runoff from Tomato Cultivation in the Estuarine Environment:  Biological Effects of Farm Management Practices|J. Exp. Mar. Biol. Ecol.298(2): 323-346|2004|10.1016/S0022-0981(03)00366-6
77747|A||Burlando,B., M. Bonomo, F. Capri, G. Mancinelli, G. Pons, and A. Viarengo|Different Effects of Hg2+ and Cu2+ on Mussel (Mytilus galloprovincialis) Plasma Membrane Ca2+-ATPase: Hg2+ Induction of Protein Expression|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 201-207|2004|10.1016/j.cca.2004.11.001
77748|A||Elfwing,T., and M. Tedengren|Effects of Copper on the Metabolism of Three Species of Tropical Oysters, Saccostrea cucullata, Crassostrea lugubris and C. belcheri|Aquaculture204(1-2): 157-166|2002|10.1016/S0044-8486(01)00638-X
77749|A||Bat,L., S. Bilgin, A. Guendogdu, M. Akbulut, and M. Culha|Individual and Combined Effects of Copper and Lead on the Marine Shrimp, Palaemon adspersus Rathke, 1837 (Decapoda:  Palaemonidae)|Turk. J. Mar. Sci.7(2): 103-117|2001|
77750|T||Osteras,A.H., and M. Greger|Accumulation of, and Interactions Between, Calcium and Heavy Metals in Wood and Bark of Picea abies|J. Plant Nutr. Soil Sci.166(2): 246-253|2003|10.1002/jpln.200390036
77751|T||Karamanos,R.E., and T.B. Goh|Effect of Rate of Copper Application on Yield of Hard Red Spring Wheat|Commun. Soil Sci. Plant Anal.35(13/14): 2037-2047|2004|10.1081/LCSS-200026834
77752|T||Burke,J.M., J.E. Miller, D.D. Olcott, B.M. Olcott, and T.H. Terrill|Effect of Copper Oxide Wire Particles Dosage and Feed Supplement Level on Haemonchus contortus Infection in Lambs|Vet. Parasitol.123(3/4): 235-243|2004|10.1016/j.vetpar.2004.06.009
77753|T||Leon,A., J.S. Glenn, and T.B. Farver|Copper Oxide Wire Particles for the Treatment of Copper Deficiency in Sheep|Small Ruminant Res.35(1): 7-12|2000|10.1016/S0921-4488(99)00034-6
77754|T||Ortolani,E.L., C.H. Machado, and M.C.A. Sucupira|Assessment of Some Clinical and Laboratory Variables for Early Diagnosis of Cumulative Copper Poisoning in Sheep|Vet. Hum. Toxicol.45(6): 289-293|2003|
77755|A||Kamunde,C., C. Clayton, and C.M. Wood|Waterborne vs. Dietary Copper Uptake in Rainbow Trout and the Effects of Previous Waterborne Copper Exposure|Am. J. Physiol., Regul. Integr. Comp. Physiol.283(1): 69-78|2002|10.1152/ajpregu.00016.2002
77756|A||Langeland,K.A., O.N. Hill, T.J. Koschnick, and W.T. Haller|Evaluation of a New Formulation of Reward Landscape and Aquatic Herbicide for Control of Duckweed, Waterhyacinth, Waterlettuce, and Hydrilla|J. Aquat. Plant Manag.40(2): 51-53|2002|
77757|A||Kagalou,I., P. Beza, C. Perdikaris, and D. Petridis|Effects of Copper and Lead on Microalgae (Isochrysis galbana) Growth|Fresenius Environ. Bull.11(5): 233-236|2002|
77758|A||Millward,R.N., K.R. Carman, J.W. Fleeger, R.P. Gambrell, and R. Portier|Mixtures of Metals and Hydrocarbons Elicit Complex Responses by a Benthic Invertebrate Community|J. Exp. Mar. Biol. Ecol.310(1): 115-130|2004|10.1016/j.jembe.2004.04.004
77759|A||Cherry,D.S., J.H. Van Hassel, J.L. Farris, D.J. Soucek, and R.J. Neves|Site-Specific Derivation of the Acute Copper Criteria for the Clinch River, Virginia|Hum. Ecol. Risk Assess.8(3): 591-601|2002|10.1080/10807030290879844
77760|A||Lombardi,J.V., T.R. Perpetuo, C.M. Ferreira, J.G. Machado-Neto, and H.L.A. Marques|Acute Toxicity of the Fungicide Copper Oxychloride to Tadpoles of the Bullfrog Rana catesbeiana|Bull. Environ. Contam. Toxicol.69(3): 415-420|2002|10.1007/s00128-002-0078-6
77761|A||Cotter,M.A., D.L. Policz, G. Poch, and D.A. Dawson|Analysis of the Combined Osteolathyritic Effects of beta-Aminopropionitrile and Diethyldithiocarbamate on Xenopus Development|Toxicol. Sci.58(1): 144-152|2000|10.1093/toxsci/58.1.144
77762|A||Mitchell,A.J., and M.S. Hobbs|Effect of Citric Acid, Copper Sulfate Concentration, and Temperature on a Pond Shoreline Treatment for Control of the Marsh Rams-Horn Snail Planorbella trivolvis and the Potential Toxicity of the Treatment to Channel Ca|N. Am. J. Aquacult.65(4): 306-313|2003|10.1577/C02-057
77763|A||Manisseri,M.K., and N.R. Menon|Effect of Sublethal Copper on Growth Efficiency of the Shrimp, Metapenaeus dobsoni (Miers)|J. Mar. Biol. Assoc. India43(1/2): 81-90|2001|
77764|T||Parmar,P., and S. Daya|The Effect of Copper on (3H)-Tryptophan Metabolism in Organ Cultures of Rat Pineal Glands|Metab. Brain Dis.16(3-4): 199-205|2001|10.1023/A:1012545112031
77765|T||Botha,C.J., A.S. Shakespeare, R. Gehring, and D. Van der Merwe|Evaluation of a Commercially Available Molybdate Formulation and Zinc Oxide Boluses in Preventing Hepatic Copper Accumulation and thus Enzootic icterus in Sheep|J. S. Afr. Vet. Assoc.72(4): 183-188|2001|10.4102/jsava.v72i4.650
77766|A||Clement,B., and S. Zaid|A New Protocol to Measure the Effects of Toxicants on Daphnid-Algae Interactions|Chemosphere55(10): 1429-1438|2004|10.1016/j.chemosphere.2003.10.065
77767|A||Karntanut,W., and D. Pascoe|Effects of Removing Symbiotic Green Algae on the Response of Hydra viridissima (Pallas 1776) to Metals|Ecotoxicol. Environ. Saf.60(3): 301-305|2005|10.1016/j.ecoenv.2004.04.001
77768|A||De Haas,E.M., M.L. Paumen, A.A. Koelmans, and M.H.S. Kraak|Combined Effects of Copper and Food on the Midge Chironomus riparius in Whole-Sediment Bioassays|Environ. Pollut.127(1): 99-107|2004|10.1016/S0269-7491(03)00252-5
77769|A||Achard,M., M. Baudrimont, A. Boudou, and J.P. Bourdineaud|Induction of a Multixenobiotic Resistance Protein (MXR) in the Asiatic Clam Corbicula fluminea After Heavy Metals Exposure|Aquat. Toxicol.67(4): 347-357|2004|10.1016/j.aquatox.2004.01.014
77770|A||Craig,J.M., P.L. Klerks, K. Heimann, and J.L. Waits|Effects of Salinity, pH and Temperature on the Re-Establishment of Bioluminescence and Copper or SDS Toxicity in the Marine Dinoflagellate Pyrocystis lunula Using Bioluminescence as an Endpoint|Environ. Pollut.125(2): 267-275|2003|10.1016/S0269-7491(03)00059-9
77771|T||Saleha Banu,B., M. Ishaq, K. Danadevi, P. Padmavathi, and Y.R. Ahuja|DNA Damage in Leukocytes of Mice Treated with Copper Sulfate|Food Chem. Toxicol.42(12): 1931-1936|2004|10.1016/j.fct.2004.07.007
77772|A||Doyle,C.J., F. Pablo, R.P. Lim, and R.V. Hyne|Assessment of Metal Toxicity in Sediment Pore Water from Lake Macquarie, Australia|Arch. Environ. Contam. Toxicol.44(3): 343-350|2003|10.1007/s00244-002-2003-8
77773|A||Geracitano,L.A., C. Luquet, J.M. Monserrat, and A. Bianchini|Histological and Morphological Alterations Induced by Copper Exposure in Laeonereis acuta (Polychaeta, Nereididae)|Mar. Environ. Res.58(2-5): 263-267|2004|10.1016/j.marenvres.2004.03.069
77774|T||Bucher,A.S., and M.K. Schenk|Characterization of Phytoavailable Copper in Compost-Peat Substrates and Determination of a Toxicity Level|J. Am. Soc. Hortic. Sci.125(6): 765-770|2000|10.21273/JASHS.125.6.765
77775|A||Maleva,M.G., G.F. Nekrasova, and V.S. Bezel'|The Response of Hydrophytes to Environmental Pollution with Heavy Metals|Russ. J. Ecol.35(4): 230-235|2004|10.1023/B:RUSE.0000033791.94837.9e
77776|A||Maraldo,K., and I. Dahllof|Seasonal Variations in the Effect of Zinc Pyrithione and Copper Pyrithione on Pelagic Phytoplankton Communities|Aquat. Toxicol.69(2): 189-198|2004|10.1016/j.aquatox.2004.05.006
77777|A||Atli,G., and M. Canli|Natural Occurrence of Metallothionein-Like Proteins in the Liver of Fish Oreochromis niloticus and Effects of Cadmium, Lead, Copper, Zinc, and Iron Exposures on Their Profiles|Bull. Environ. Contam. Toxicol.70(3): 619-627|2003|10.1007/s00128-003-0030-4
77778|A||Prasad,B.B.|Effect of Copper and Zinc in the Gills of Channa marulius|J. Ecotoxicol. Environ. Monit.12(1): 35-40|2002|
77779|T||Wojcik,M., and A. Tukiendorf|Response of Wild Type of Arabidopsis thaliana to Copper Stress|Biol. Plant. (Praha)46(1): 79-84|2003|10.1023/A:1022314201466
77780|A||Uchimura,M., A. Rival, A. Nato, R. Sandeaux, J. Sandeaux, and J.C. Baccou|Potential Use of Cu2+, K+ and Na+ for the Destruction of Caulerpa taxifolia:  Differential Effects on Photosynthetic Parameters|J. Appl. Phycol.12(1): 15-23|2000|10.1023/A:1008108531280
77781|T||Rufyikiri,G., J.E. Dufey, R. Achard, and B. Delvaux|Cation Exchange Capacity and Aluminum-Calcium-Magnesium Binding in Roots of Bananas Cultivated in Soils and in Nutrient Solutions|Commun. Soil Sci. Plant Anal.33(5-6): 991-1009|2002|10.1081/CSS-120003079
77782|A||Yamuna,A., V. Kabila, and P. Geraldine|Expression of Heat Shock Protein 70 in Freshwater Prawn Macrobrachium malcolmsonii (H. Milne Edwards) Following Exposure to Hg and Cu|Indian J. Exp. Biol.38(9): 921-925|2000|
77783|A||Smolyakov,B.S., V.I. Belevantsev, M.V. Zhigula, A.A. Bobko, A.P. Ryzhikh, and Z.O. Badmaeva|In Situ Modeling of Pollution Caused by Cu, Cd, Pb, and Hg in a Freshwater Body|Water Resour.27(5): 543-548|2000|
77784|T||Fejes,S., P. Budai, L. Varnagy, T. Molnar, R. Szabo, and T. Fancsi|Toxicity of a Mancozeb Containing Fungicide Formulation and Cu-Sulphate to Chicken Embryos After Administration as Single Compounds or in Combination|Meded. Fac. Landbouwwet. Rijksuniv. Gent67(2): 105-109|2002|
77785|A||Perkins,E.J., J. Furey, and E. Davis|The Potential of Screening for Agents of Toxicity Using Gene Expression Fingerprinting in Chironomus tentans|Aquat. Ecosyst. Health Manag.7(3): 399-405|2004|10.1080/14634980490479705
77786|A||Garnacho,E., L.S. Peck, and P.A. Tyler|Variations Between Winter and Summer in the Toxicity of Copper to a Population of the Mysid Praunus flexuosus|Mar. Biol.137(4): 631-636|2000|10.1007/s002270000383
77787|A||Pagano,G., M. Iaccarino, A. De Biase, S. Meric, M. Warnau, R. Oral, and N.M. Trieff|Factors Affecting R6 Fungicide Toxicity on Sea Urchin Fertilization and Early Development: Roles of Exposure Routes and Mixture Components|Hum. Exp. Toxicol.20(8): 404-411|2001|10.1191/096032701682692982
77788|T||Johansson,L., C. Xydas, N. Messios, E. Stoltz, and M. Greger|Growth and Cu Accumulation by Plants Grown on Cu Containing Mine Tailings in Cyprus|Appl. Geochem.20(1): 101-107|2005|10.1016/j.apgeochem.2004.07.003
77789|T||El Hendy,H.A., M.I. Yousef, and N.I. Abo El-Naga|Effect of Dietary Zinc Deficiency on Hematological and Biochemical Parameters and Concentrations of Zinc, Copper, and Iron in Growing Rats|Toxicology167(2): 163-170|2001|10.1016/S0300-483X(01)00373-0
77790|T||Yang,M.S., K.P. Lai, K.Y. Cheng, and C.K.C. Wong|Changes in Endogenous Zn and Cu Distribution in Different Cytosolic Protein Fractions in Mouse Liver After Administration of a Single Sublethal Dose of CdCl2|Toxicology154(1-3): 103-111|2000|10.1016/S0300-483X(00)00320-6
77792|T||Bolan,N.S., M.A. Khan, J. Donaldson, D.C. Adriano, and C. Matthew|Distribution and Bioavailability of Copper in Farm Effluent|Sci. Total Environ.309(1-3): 225-236|2003|10.1016/S0048-9697(03)00052-4
77793|A||Lage,O.M., F. Sansonetty, J.E. O'Connor, and A.M. Parente|Flow Cytometric Analysis of Chronic and Acute Toxicity of Copper(II) on the Marine Dinoflagellate Amphidinium carterae|Cytometry44(3): 226-235|2001|10.1002/1097-0320(20010701)44:3<226::AID-CYTO1115>3.0.CO;2-9
77794|A||Cross,M.A., S.W.B. Irwin, and S.M. Fitzpatrick|Effects of Heavy Metal Pollution on Swimming and Longevity in Cercariae of Cryptocotyle lingua (Digenea:  Heterophyidae)|Parasitology123(5): 499-507|2001|10.1017/S0031182001008708
77795|T||Panou-Philotheou,H., M. Koukourikou-Petridou, A. Bosabalidis, and S. Karataglis|Relations of Endogenous and Applied Gibberellins to Growth and Accumulation of Essential Elements in Oregano Plants Grown in Copper Rich Soils|Adv. Hortic. Sci.16(2): 63-71|2002|
77796|T||Nian,H., Z. Yang, H. Huang, X. Yan, and H. Matsumoto|Citrate Secretion Induced by Aluminum Stress may not be a Key Mechanism Responsible for Differential Aluminum Tolerance of Some Soybean Genotypes|J. Plant Nutr.27(11): 2047-2066|2004|10.1081/PLN-200030112
77798|T||Reed,D.H., D.A. Briscoe, and R. Frankham|Inbreeding and Extinction:  The Effect of Environmental Stress and Lineage|Conserv. Genet.3(3): 301-307|2002|10.1023/A:1019948130263
77799|T||Prakash,O., and D.K. Vishwakarma|Inhibition of Urease from Seeds of Water-Melon (Citrullus vulgaris) by Heavy Metal Ions|J. Plant Biochem. Biotechnol.10(2): 147-149|2001|10.1007/BF03263125
77800|T||Chen,E.L., Y.A. Chen, L.M. Chen, and Z.H. Liu|Effect of Copper on Peroxidase Activity and Lignin Content in Raphanus sativus|Plant Physiol. Biochem.40(5): 439-444|2002|10.1016/S0981-9428(02)01392-X
77801|T||Patnaik,A.|Impact of Copper Application on Soil Metabolism, Energy Budget and Formation of Stable Aggregates by Anecic Earthworm in Tea Plantations|Indian J. Exp. Biol.40(2): 216-219|2002|
77802|A||Zidan,Z.H., F.M.A. Ragab, and K.H.A. Mohamed|Molluscicidal Activities of Certain Pesticide and Their Mixtures Against Biomphalaria alexandrina|J. Egypt. Soc. Parasitol.32(1): 285-296|2002|
77803|A||Lawrence,A., and C. Poulter|The Potential Role of the Estuarine Amphipod Gammarus duebeni in Sub-Lethal Ecotoxicology Testing|Water Sci. Technol.34(7-8): 93-100|1996|10.2166/wst.1996.0606
77804|A||James,R., K. Sampath, R. Jeyamary, and P. Selvamani|Effect of Zeolite (Sodium Aluminosilicate) on the Removal of Copper from Water and Fish and an Improvement of RNA:DNA Ratio in Oreochromis mossambicus (Peters)|Int. J. Ecohydrol. Hydrobiol.4(1): 57-65|2004|
77805|T||Li,T.C., T.Y. Feng, W.S. Chen, and Z.H. Liu|The Acute Effect of Copper on the Levels of Indole-3-Acetic Acid and Lignin in Peanut Roots|Aust. J. Plant Physiol.28(4): 329-334|2001|
77806|A||Adhikari,S.|Effect of Calcium and Magnesium Hardness on Acute Copper Toxicity to Indian Major Carp, Labeo rohita (Hamilton) and Catfish, Channa punctatus (Bloch)|Aquac. Res.34(12): 975-980|2003|10.1046/j.1365-2109.2003.00895.x
77807|T||Singh,M.N.|Mortality Response of Achatina fulica to Various Pesticides|J. Environ. Biol.9(2): 157-162|1988|
77808|T||Humann-Ziehank,E., M. Coenen, M. Ganter, and K. Bickhardt|Long-Term Observation of Subclinical Chronic Copper Poisoning in Two Sheep Breeds|J. Vet. Med. Ser. A48(7): 429-439|2001|10.1046/j.1439-0442.2001.00376.x
77809|T||Jiang,L.Y., X.E. Yang, Z.Q. Ye, and W.Y. Shi|Uptake, Distribution and Accumulation of Copper in Two Ecotypes of Elsholtzia|Pedosphere13(4): 359-366|2003|
77810|T||Moreno,D.A., G. Villora, J. Hernandez, N. Castilla, and L. Romero|Accumulation of Zn, Cd, Cu, and Pb in Chinese Cabbage as Influenced by Climatic Conditions Under Protected Cultivation|J. Agric. Food Chem.50(7): 1964-1969|2002|10.1021/jf011142v
77811|T||Dorton,K.L., T.E. Engle, D.W. Hamar, P.D. Siciliano, and R.S. Yemm|Effects of Copper Source and Concentration on Copper Status and Immune Function in Growing and Finishing Steers|Anim. Feed Sci. Technol.110(1-4): 31-44|2003|10.1016/j.anifeedsci.2003.07.002
77812|T||Jouili,H., and E. El Ferjani|Changes in Antioxidant and Lignifying Enzyme Activities in Sunflower Roots (Helianthus annuus L.) Stressed with Copper Excess|C. R. Biol. (Multiple Languages)326(7): 639-644|2003|10.1016/S1631-0691(03)00157-4
77813|T||Solaiman,S.G., M.A. Maloney, M.A. Qureshi, G. Davis, and G. D'Andrea|Effects of High Copper Supplements on Performance, Health, Plasma Copper and Enzymes in Goats|Small Ruminant Res.41(2): 127-139|2001|10.1016/S0921-4488(01)00213-9
77814|T||Haywood,S., T. Muller, A.M. Mackenzie, W. Muller, M.S. Tanner, P. Heinz-Erian, C.L. Williams, and M.J. Loughran|Copper-Induced Hepatotoxicosis with Hepatic Stellate Cell Activation and Severe Fibrosis in North Ronaldsay Lambs:  A Model for Non-wilsonian Hepatic Copper Toxicosis of Infants|J. Comp. Pathol.130(4): 266-277|2004|10.1016/j.jcpa.2003.11.005
77815|T||An,Y.J., Y.M. Kim, T.I. Kwon, and S.W. Jeong|Combined Effect of Copper, Cadmium, and Lead upon Cucumis sativus Growth and Bioaccumulation|Sci. Total Environ.326(1-3): 85-93|2004|10.1016/j.scitotenv.2004.01.002
77817|T||Sugawara,N., and C. Sugawara|Competition Between Copper and Silver in Fischer Rats with a Normal Copper Metabolism and in Long-Evans Cinnamon Rats with an Abnormal Copper Metabolism|Arch. Toxicol.74(4/5): 190-195|2000|10.1007/s002040000115
77818|A||Grosell,M., M.D. McDonald, C.M. Wood, and P.J. Walsh|Effects of Prolonged Copper Exposure in the Marine Gulf Toadfish (Opsanus beta):  I.  Hydromineral Balance and Plasma Nitrogenous Waste Products|Aquat. Toxicol.68(3): 249-262|2004|10.1016/j.aquatox.2004.03.006
77819|A||Grosell,M., M.D. McDonald, P.J. Walsh, and C.M. Wood|Effects of Prolonged Copper Exposure in the Marine Gulf Toadfish (Opsanus beta) II:  Copper Accumulation, Drinking Rate and Na+/K+-ATPase Activity in Osmoregulatory Tissues|Aquat. Toxicol.68(3): 263-275|2004|10.1016/j.aquatox.2004.03.007
77820|A||Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet|Humoral Immune Factors Modulated by Copper and Chitosan in Healthy or Parasitised Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda)|Aquat. Toxicol.68(4): 325-338|2004|10.1016/j.aquatox.2004.04.003
77821|A||Blidberg,E.|Effects of Copper and Decreased Salinity on Survival Rate and Development of Tridacna gigas Larvae|Mar. Environ. Res.58(2-5): 793-797|2004|10.1016/j.marenvres.2004.03.095
77822|A||Camus,L., P.E. Davies, J.I. Spicer, and M.B. Jones|Temperature-Dependent Physiological Response of Carcinus maenas Exposed to Copper|Mar. Environ. Res.58(2-5): 781-785|2004|10.1016/j.marenvres.2004.03.093
77823|A||Co.,R., A. Serafim, M.J. Bebianno, R. Cosson, B. Shillito, and A. Fiala-Medioni|Effect of Cadmium, Copper and Mercury on Antioxidant Enzyme Activities and Lipid Peroxidation in the Gills of the Hydrothermal Vent Mussel Bathymodiolus azoricus|Mar. Environ. Res.58(2-5): 377-381|2004|10.1016/j.marenvres.2004.03.083
77824|A||Bossuyt,B.T.A., and C.R. Janssen|Long-Term Acclimation of Pseudokirchneriella subcapitata (Korshikov) Hindak to Different Copper Concentrations:  Changes in Tolerance and Physiology|Aquat. Toxicol.68(1): 61-74|2004|10.1016/j.aquatox.2004.02.005
77825|A||De Oliveira-Filho,E.C., R.M. Lopes, and F.J.R. Paumgartten|Comparative Study on the Susceptibility of Freshwater Species to Copper-Based Pesticides|Chemosphere56(4): 369-374|2004|10.1016/j.chemosphere.2004.04.026
77826|T||Przymusinski,R., R. Rucinska, and E.A. Gwozdz|Increased Accumulation of Pathogenesis-Related Proteins in Response of Lupine Roots to Various Abiotic Stresses|Environ. Exp. Bot.52(1): 53-61|2004|10.1016/j.envexpbot.2004.01.006
77827|A||Dwyer,F.J., D.K. Hardesty, C.G. Ingersoll, J.L. Kunz, and D.W. Whites|Assessing Contaminant Sensitivity of American Shad, Atlantic Sturgeon and Shortnose Strugeon, Final Report - February 2000|Final Rep., U.S.Geol.Surv., Columbia Environ.Res.Ctr., Columbia, MO:30 p.|2000|
77828|A||Buhl,K.J.|The Relative Toxicity of Waterborne Inorganic Contaminants to the Rio Grande Silvery Minnow (Hybognathus amarus) and Fathead Minnow (Pimephales promelas) in a Water Quality Simulating that in the Rio Grande, New Mexico|Final Rep.to U.S.Fish and Wildl.Serv., Study No.2F33-9620003, U.S.Geol.Surv., Columbia Environ.Res.Ctr., Yankton Field Res.Stn., Yankton, SD:75 p.|2002|
77829|A||La Point,T.W., O.D. Zhavoronkova, and D.F. Pavlov|Impact of Permethrin on Zooplankton in high Latitude Experimental Ponds|EPA/600/R-96/090, Problems of Aquatic Toxicology, Biotesting and Water Quality Management, Proc.of USA-Russia Symp., Jul.21-23, 1992, Borok, Jaroslavl, Oblast, U.S.EPA, Ecosyst.Res.Div., Athens, GA:129-147|1996|
77830|A||Tavera-Mendoza,L., S. Ruby, P. Brousseau, M. Fournier, D. Cyr, and D. Marcogliese|Response of the Amphibian Tadpole Xenopus laevis to Atrazine During Sexual Differentiation of the Ovary|Environ. Toxicol. Chem.21(6): 1264-1267|2002|10.1002/etc.5620210621
77834|T||Zacharias,B., H. Ott, and W. Drochner|The Influence of Dietary Microbial Phytase and Copper on Copper Status in Growing Pigs|Anim. Feed Sci. Technol.106:139-148|2003|10.1016/S0377-8401(03)00007-5
77835|T||Kaya,S., M. Ortatatli, and S. Haliloglu|Feeding Diets Supplemented with Zinc and Vitamin A in Laying Hens:  Effects on Histopathological Findings and Tissue Mineral Contents|Res. Vet. Sci.73:251-257|2002|10.1016/S0034-5288(02)00095-4
77836|T||Lalmingthanga, and A.K. Shrivastav|Effect of Supplemental Manganese in Relation to Dietary Calcium Levels on the Performance of Growing Japanese Quail|Indian J. Poult. Sci.33(2): 166-172|1998|
77837|T||Spulkamy,M.T., F.E. Abdel-Salam, S.A. El-Gamalt, and A.A. Scoud|A Study on Manganese Supplement in Chick Diet|Agric. Res. Rev.54:63-69|1976|
77838|T||Korol,W., S. Wojcik, S. Matyka, and T.S. Hansen|Availability of Manganese from Different Manganese Oxides and Their Effect on Performance of Broiler Chickens|J. Anim. Feed Sci.5:273-279|1996|10.22358/jafs/69606/1996
77839|T||Shukla,P.K., A.K. Shrivastav, R.P. Singh, and S.P.S. Bedi|Effect of Dietary Supplementation of Manganese on Egg Production and Egg Quality of Japanese Quail Layer|Indian J. Poult. Sci.28(2): 116-119|1993|
77840|T||Kucharz,E., K. Olczyk, and A. Jendryczko|Perchloric Acid-Soluble Proteins and Protein-Bound Carbohydrates in the Blood Serum and Tissues of Rats Intoxicated with Manganese|Rev. Roum. Biochim.20(4): 261-263|1983|
77841|T||Liu,J.Z., and J.A. Milner|Age, Dietary Selenium and Quantity of 7,12-Dimethylbenz(a)anthracene Influence the In Vivo Occurrence of Rat Mammary DNA Adducts|J. Nutr.122:1361-1368|1992|10.1093/jn/122.7.1361
77842|T||Desai,I.D.|Beneficial and Ineffective Levels of Selenium for Growth and Muscular Dystrophy|Br. J. Nutr.22:645-650|1968|10.1079/BJN19680075
77843|T||Henry,P.R., M.G. Echevarria, C.B. Ammerman, and P.V. Rao|Estimation of the Relative Biological Availability of Inorganic Selenium Sources for Ruminants Using Tissue Uptake of Selenium|J. Anim. Sci.66:2306-2312|1988|10.2527/jas1988.6692306x
77844|T||Mahan,D.C., A.L. Moxon, and M. Hubbard|Efficacy of Inorganic Selenium Supplementation to Sow Diets on Resulting Carry-Over to Their Progeny|J. Anim. Sci.46(4): 738-746|1977|10.2527/jas1977.454738x
77845|T||Koistinaho,J., H. Alho, and A. Hervonen|Effect of Vitamin E and Selenium Supplement on the Aging Peripheral Neurons of the Male Sprague-Dawley Rat|Mech. Ageing Dev.51:63-72|1990|10.1016/0047-6374(90)90162-9
77846|T||Davies,M.H., B.A. Merrick, D.F. Birt, and R.C. Schnell|Differential Effects of Dietary Selenium on Hepatic and Renal Glutathione-Related Enzymes and on Hepatic Microsomal Drug Metabolism in the Rat|Drug-Nutr. Interact.5:169-179|1987|
77848|T||Yilmaz,O., S. Celik, M. Naziroglu, M. Cay, and N. Dilsiz|The Effects of Dietary Selenium and Vitamin E and Their Combination on the Fatty Acids of Erythrocytes, Bone Marrow and Spleen Tissue Lipids of Lambs|Cell Biochem. Funct.15:1-7|1997|10.1002/(SICI)1099-0844(199703)15:1<1::AID-CBF694>3.0.CO;2-Z
77849|T||Celik,S., O. Yilmaz, T. Asan, M. Naziroglu, M. Cay, and M. Aksakal|Influence of Dietary Selenium and Vitamin E on the Levels of Fatty Acids in Brain and Liver Tissues of Lambs|Cell Biochem. Funct.17:115-121|1999|10.1002/(SICI)1099-0844(199906)17:2<115::AID-CBF816>3.0.CO;2-1
77850|T||Simpson,D.M., R.J. Beynon, D.H.L. Robertson, M.J. Loughran, and S. Haywood|Copper-Associated Liver Disease:  A Proteomics Study of Copper Challenge in a Sheep Model|Proteomics4(2): 524-536|2004|10.1002/pmic.200300557
77851|T||Chiachun,T., C. Hong, and R. Haifun|The Effects of Selenium on Gestation, Fertility, and Offspring in Mice|Biol. Trace Elem. Res.30:227-231|1991|10.1007/BF02991417
77852|A||Brooks,S.J., and C.L. Mills|The Effect of Copper on Osmoregulation in the Freshwater Amphipod Gammarus pulex|Comp. Biochem. Physiol. A Mol. Integr. Physiol.135(4): 527-537|2003|10.1016/S1095-6433(03)00111-9
77853|A||Panfoli,I., B. Burlando, and A. Viarengo|Effects of Heavy Metals on Phospholipase C in Gill and Digestive Gland of the Marine Mussel Mytilus galloprovincialis Lam|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.127(3): 391-397|2000|10.1016/S0305-0491(00)00272-8
77854|A||Romani,R., C. Antognelli, F. Baldracchini, A. De Santis, G. Isani, E. Giovannini, and G. Rosi|Increased Acetylcholinesterase Activities in Specimens of Sparus auratus Exposed to Sublethal Copper Concentrations|Chem.-Biol. Interact.145(3): 321-329|2003|10.1016/S0009-2797(03)00058-9
77855|A||Vosloo,A., W.J. Van Aardt, and L.J. Mienie|Sublethal Effects of Copper on the Freshwater Crab Potamonautes warreni|Comp. Biochem. Physiol. A Mol. Integr. Physiol.133(3): 695-702|2002|10.1016/S1095-6433(02)00214-3
77856|A||Valdovinos,C., and M. Zuniga|Copper Acute Toxicity Tests with the Sand Crab Emerita analoga (Decapoda: Hippidae):  A Biomonitor of Heavy Metal Pollution in Chilean Coastal Seawater?|Bull. Environ. Contam. Toxicol.69(3): 393-400|2002|10.1007/s00128-002-0075-9
77857|A||Campbell,H.A., R.D. Handy, and D.W. Sims|Increased Metabolic Cost of Swimming and Consequent Alterations to Circadian Activity in Rainbow Trout (Oncorhynchus mykiss) Exposed to Dietary Copper|Can. J. Fish. Aquat. Sci.59(5): 768-777|2002|10.1139/f02-046
77858|A||Radford,J.L., A.E. Hutchinson, M. Burandt, and D.A. Raftos|Effects of Metal-Based Environmental Pollutants on Tunicate Hemocytes|J. Invertebr. Pathol.76(4): 242-248|2000|10.1006/jipa.2000.4979
77859|A||Milton,D.A., and S.R. Chenery|Sources and Uptake of Trace Metals in Otoliths of Juvenile Barramundi (Lates calcarifer)|J. Exp. Mar. Biol. Ecol.264(1): 47-65|2001|10.1016/S0022-0981(01)00301-X
77860|A||Guecheva,T., J.A.P. Henriques, and B. Erdtmann|Genotoxic Effects of Copper Sulphate in Freshwater Planarian In Vivo, Studied with the Single-Cell Gel Test (Comet Assay)|Mutat. Res.497(1-2): 19-27|2001|10.1016/S1383-5718(01)00244-3
77861|A||O'Gara,B.A., V.K. Bohannon, M.W. Teague, and M.B. Smeaton|Copper-Induced Changes in Locomotor Behaviors and Neuronal Physiology of the Freshwater Oligochaete, Lumbriculus variegatus|Aquat. Toxicol.69(1): 51-66|2004|10.1016/j.aquatox.2004.04.006
77862|T||Wolfe,G.W., and L. Kaiser|Sodium Selenate:  Short Term Reproductive and Developmental Toxicity Study when Administered to Sprague-Dawley Rats in the Drinking Water.  Volume 1|Report No.RDGT 94-011, U.S.Department of Health and Human Services, Research Triangle Park, NC:39 p.|1996|
77863|T||Attia,A.N., S.A. Awadalla, E.Y. Esmail, and M.M. Hady|Role of Some Microelements in Nutrition of Water Buffalo and Its Relation to Production II - Effect of Zinc Supplementation|Assiut Vet. Med. J.18(35): 91-100|1987|
77864|T||Johnson,J.M., and C. Kies|Manganese and Lipid Metabolism as Affected by Dietary Manganese and Fat|In: C.Kies (Ed.), Nutritional Bioavailbility of Manganese, Am. Chem. Soc., Washington, D.C.354:123-135|1987|
77865|T||Rogers,J.V., P.G. Gunasekar, C.M. Garrett, and J.N. McDougal|Dermal Exposure to m-Xylene Leads to Increasing Oxidative Species and Low Molecular Weight DNA Levels in Rat Skin|J. Biochem. Mol. Toxicol.15(4): 228-230|2001|10.1002/jbt.21
77866|T||Toll,E., P. Crespi, H. Greppin, and F.J. Castillo|Effect of Ozone and Sulphur Dioxide on Membrane Enzyme Activities of Pinus sylvestris Needles|Trees13(1): 13-18|1998|
77867|T||Tsukahara,H., T.T. Kozlowski, and J. Shanklin|Effects of Sulfur Dioxide on Growth of Two Age Classes of Chamaecyparis obtusa Seedlings|Nippon Rin Gakkai-Shi (Multiple Languages)68(9): 349-353|1986|
77869|T||Maas,F.M., L.J. De Kok, J.L. Peters, and P.J.C. Kuiper|A Comparative Study on the Effects of H2S and SO2 Fumigation on the Growth and Accumulation of Sulfate and Sulfhydryl Compounds in Trifolium pratense L., Glycine max Merr. and Phaseolus vulgaris L.|J. Exp. Bot.38(194): 1459-1469|1987|10.1093/jxb/38.9.1459
77870|T||Tsukahara,H., T.T. Kozlowski, and J. Shanklin|Tolerance of Pinus densiflora, Pinus thunbergii, and Larix leptolepis Seedlings to SO2|Plant Soil88(3): 385-397|1985|10.1007/BF02197495
77871|T||Lee,M.Y.|Effects of Na2SO3 on the Activities of Antioxidant Enzymes in Geranium Seedlings|Phytochemistry59(5): 493-499|2002|10.1016/S0031-9422(01)00478-2
77872|T||Preston,A.F., and C.M. Chittenden|Alkylammonium Compounds as Above-Ground Wood Preservatives|N. Z. J. For. Sci.12(1): 102-106|1982|
77873|T||Vanachter,A., M. Vangheel, C. Van Assche, and E. Van Wambeke|Screening of Some Alternative Disinfectants for General Sanitary Use in Intensive Horticulture|Meded. Fac. Landbouwwet. Rijksuniv. Gent56(3a): 979-987|1991|
77874|T||Butcher,J.A., A.F. Preston, and J. Drysdale|Potential of Unmodified and Copper-Modified Alkylammonium Compounds as Groundline Preservatives|N. Z. J. For. Sci.9(3): 348-358|1979|
77875|A||Boldrin,F., G. Santovito, P. Irato, and E. Piccinni|Metal Interaction and Regulation of Tetrahymena pigmentosa Metallothionein Genes|Protist153(3): 283-291|2002|10.1078/1434-4610-00105
77880|A||El-Sayed,N.K., S.A. Salem, A. Moursy, and B.M. Ibrahim|Acute and Chronic Toxicity of Some Aromatic Hydrocarbons on Tilapia zillii (Gerv.)|Bull. Natl. Inst. Oceanogr. Fish.21(2): 613-630|1995|
77881|A||Cataldo,D., D. Boltovskoy, and M. Pose|Toxicity of Chlorine and Three Nonoxidizing Molluscicides to the Pest Mussel Limnoperna fortunei|J. Am. Water Works Assoc.95(1): 66-78|2003|10.1002/j.1551-8833.2003.tb10270.x
77882|T||Balaguer,L., E. Manrique, and C. Ascaso|Predictability of the Combined Effects of Sulphur Dioxide and Nitrate on the Green-Algal Lichen Ramalina farinacea|Can. J. Bot.75(11): 1836-1842|1997|10.1139/b97-895
77883|T||Aminu-Kano,M., S. McNeill, and R.S. Hails|Pollutant, Plant and Pest Interactions:  The Grain Aphid Sitobion avenae (F.)|Agric. Ecosyst. Environ.33(3): 233-243|1991|10.1016/0167-8809(91)90004-H
77884|T||L'Hirondelle,S.J., P.A. Addison, and D.B. Huebert|Growth and Physiological Responses of Aspen and Jack Pine to Intermittent SO2 Fumigation Episodes|Can. J. Bot.64(11): 2421-2427|1986|10.1139/b86-322
77885|T||McLeod,A.R., T.M. Roberts, K. Alexander, and D.M. Cribb|The Yield of Winter Cereals Exposed to Sulfur Dioxide Under Field Conditions|Agric. Ecosyst. Environ.33(3): 193-213|1991|10.1016/0167-8809(91)90002-F
77886|T||Darrall,N.M.|Changes in Net Photosynthesis, Transpiration and Dark Respiration in Winter Barley Exposed to Elevated Levels of Sulfur Dioxide Using an Open-Air Fumigation System|Agric. Ecosyst. Environ.33(3): 309-324|1991|10.1016/0167-8809(91)90009-M
77888|T||Muller,M., G. Zellnig, M. Tausz, A. Wonisch, L. De Kok, G. Soja, and D. Grill|Structural Changes and Physiological Stres Responses of Spruce Trees to SO2 O3 and Elevated Levels of CO2|In: G.M.J.Mohren, K.Kramer, and S.Sabate (Eds.), Impacts of Global Change on Tree Physiology and Forest Physiology and Forest Ecosystems, Volume 52, Kluwer Acad.Publ., Dordrecht, Netherlands52:93-102|1997|
77889|T||Barrantes,O., E. Moliner, M. Plaza, and C. Gracia|Preliminary Results of an SO2 Experiment with Pinus halepensis Mill.  Seedlings in Open-Top Chambers|In: G.M.Mohren, J.K.Kramer, and S.Sabate (Eds.), Impacts of Global Change in Tree Physiology and Forest Physiology and Forest Ecosystems, Kluwer Acad.Publ., Dordrecht, Netherlands52:111-118|1997|
77890|T||Vermehren,B., A. Fangmeier, and H.J. Jager|Adaptation of Grasses to Long-Term Sulphur Dioxide Pollution|Angew. Bot. (Multiple Languages)68(3/4): 95-103|1994|
77891|T||De Gandarias,J.M., E. Echevarria, J. Irazusta, J. Gil, and L. Casis|Brain Aminopeptidase Activity After Subacute Xylene Exposure|Neurotoxicol. Teratol.15(1): 51-53|1993|10.1016/0892-0362(93)90045-P
77893|T||Marks,T.A., T.A. Ledoux, and J.A. Moore|Teratogenicity of a Commercial Xylene Mixture in the Mouse|J. Toxicol. Environ. Health9:97-105|1982|10.1080/15287398209530145
77897|A||Tatarazako,N., K. Yamamoto, and K. Iwasaki|Subacute Toxicity of Wood Preservatives, DDAC and BAAC, in Several Aquatic Organisms|J. Health Sci.48(4): 359-365|2002|10.1248/jhs.48.359
77899|T||Nandi,P.K., M. Agrawal, and D.N. Rao|SO2-Induced Enzymatic Changes and Ascorbic Acid Oxidation in Oryza sativa|Water Air Soil Pollut.21(1-4): 25-32|1984|10.1007/BF00163609
77900|T||Itami,T., M. Ema, H. Kawasaki, and S. Kanoh|Evaluation of Teratogenic Potential of Sodium Sulfite in Rats|Drug Chem. Toxicol.12(2): 123-135|1989|10.3109/01480548908999149
77901|T||Dix,J., J. Astill, and G. Whelan|Assessment of Methods of Destruction of Syphacia muris Eggs|Lab. Anim. (Lond.)38(1): 11-16|2004|10.1258/00236770460734344
77902|A||Rabinowitch,H.D., G.M. Rosen, and I. Fridovich|A Mimic of Superoxide Dismutase Activity Protects Chlorella sorokiniana Against the Toxicity of Sulfite|Free Radic. Biol. Med.6(1): 45-48|1989|10.1016/0891-5849(89)90158-5
77903|T||Temple,P.J.|Dose-Response of Urban Trees to Sulfur Dioxide|J. Air Pollut. Control Assoc.22:271-274|1972|10.1080/00022470.1972.10469638
77904|T||Willekens,H., W. Van Camp, M. Van Montagu, D. Inze, C. Langebartels, and H.,Jr. Sandermann|Ozone, Sulfur Dioxide, and Ultraviolet B have Similar Effects on Mrna Accumulation of Antioxidant Genes in Nicotiana plumbaginifolia L.|Plant Physiol.106(3): 1007-1014|1994|10.1104/pp.106.3.1007
77905|A||Rakwal,R., G.K. Agrawal, A. Kubo, M. Yonekura, S. Tamogami, H. Saji, and H. Iwahashi|Defense/Stress Responses Elicited in Rice Seedlings Exposed to the Gaseous Air Pollutant Sulfur Dioxide|Environ. Exp. Bot.49(3): 223-235|2003|10.1016/S0098-8472(02)00072-2
77906|A||Jwa,N.S., G.K. Agrawal, R. Rakwal, J.A. Kim, and V.P. Agrawal|Differential Regulation of an Early and Late Responsive Rice Endosperm Kinase mRNA in Seedling Leaves|Plant Physiol. Biochem.40(12): 1025-1031|2002|10.1016/S0981-9428(02)01467-5
77907|T||Grace,B., T.J. Gillespie, and K.J. Puckett|Sulfur Dioxide Threshold Concentration Values for Cladina rangiferina in the MacKenzie Valley Northwest-Territories Canada|Can. J. Bot.63(4): 806-812|1985|10.1139/b85-103
77908|T||Holopainen,J., E. Kainulainen, J. Oksanen, A. Wulff, and L. Karenlampi|Increased Infestation of Norway Spruce Saplings by the Aphid Cinara pilicornis Hartig as a Consequence of Exposure to Fluoride Nitrogen Compounds and SO2|Symp. Biol. Hung.39:477-478|1991|
77909|T||Berry,C.R.|Relative Sensitivity of Red, Jack and White Pine Seedlings to Ozone and Sulfur Dioxide|Phytopathology61:231-232|1971|10.1094/Phyto-61-231
77910|T||Costonis,A.C.|Effect of Ambient Sulfur Dioxide and Ozone on Eastern White Pine in a Rural Environment|Phytopathology61:717-720|1971|10.1094/Phyto-61-717
77911|T||Brennan,E., and I.A. Leone|The Response of Plants to Sulfur Dioxide or Ozone Polluted Air Supplied at Varying Flow Rates|Phytopathology58:1661-1664|1968|
77912|T||Day,B.J., and G.P. Carlson|Effect of p-Xylene Metabolites, p-Methylbenzyl Alcohol and 2,5-Dimethylphenol, on Rat Hepatic and Pulmonary Microsomal Metabolism|Res. Commun. Chem. Pathol. Pharmacol.76(1): 117-120|1992|
77913|T||Edwards,T.M., and N.S. Rickard|Inhibition of monoADP-Ribosylation Prevents Long-Term Memory Consolidation of a Single-Trial Passive Avoidance Task in the Day-Old Chick|Neurobiol. Learn. Mem.78(1): 192-198|2002|10.1006/nlme.2001.4043
77914|T||Singh,S.D., G.C. Mohanty, J.M. Kataria, and K.C. Verma|Humoral and Cellular Immune Response of Quail to Physical and Chemical Injuries|Indian J. Anim. Sci.64(11): 1115-1117|1994|
77915|T||Hedley,M., K. Tsunoda, and K. Nishimoto|Evaluation of Alkylammonium Compounds for Use as Low Toxicity Wood Preservatives in Japan|Wood Res.68:37-46|1982|
77916|T||Huang,J.C., K. Takatori, T. Ohta, J. Kosuge, A. Takahashi, and S. Kumagai|Comparison of Fungicidal Effects of Commercial Disinfectants at Concentrations Suggested for Practical Use|Biocontrol Sci.3(2): 105-108|1998|10.4265/bio.3.105
77917|T||Creffield,J.W.|Efficacy of Didecyldimethylammonium Chloride Against Subterranean Termites (Isoptera) in Australia|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)68(3): 60-63|1995|10.1007/BF01996734
77918|AT||Panigrahi,N.C., B.B. Mishra, and B.K. Mohanty|Effect of Sulphur Dioxide on Chlorophyll Content of Two Crop Plants|J. Environ. Biol.13(3): 201-205|1992|
77919|A||De Schamphelaere,K.A.C., V.I.R. Unamuno, F.M.G. Tack, J. Vanderdeelen, and C.R. Janssen|Reverse Osmosis Sampling does not Affect the Protective Effect of Dissolved Organic Matter on Copper and Zinc Toxicity to Freshwater Organisms|Chemosphere58(5): 653-658|2005|10.1016/j.chemosphere.2004.06.039
77920|T||Verschoyle,R.D., D. Dinsdale, and C.R. Wolf|Inhibition and Induction of Cytochrome P450 Isoenzymes in Rat Lung|J. Pharmacol. Exp. Ther.265(1): 386-391|1993|
77922|T||Kozlov,M.V., and A.V. Selikhovkin|No Effects of Sulphur Dioxide on Larval Performance of Epirrita autumnata (Lepidoptera:  Geometridae)|Environ. Entomol.26(2): 1361-1363|1997|10.1093/ee/26.6.1361
77923|T||Kong,F.X., W. Hu, S.Y. Chao, W.L. Sang, and L.S. Wang|Physiological Responses of the Lichen Xanthoparmelia mexicana to Oxidative Stress of SO2|Environ. Exp. Bot.42(3): 201-209|1999|10.1016/S0098-8472(99)00034-9
77924|T||Lee,E.H., R.C. Pausch, R.A. Rowland, C.L. Mulchi, and B.F.T. Rudorff|Responses of Field-Grown Soybean (cv. Essex) to Elevated SO2 Under Two Atmospheric CO2 Concentrations|Environ. Exp. Bot.37(2/3): 85-93|1997|10.1016/S0098-8472(96)01055-6
77925|A||Kjorsvik,E., L.J. Saethre, and S. Lonning|Effects of Short-Term Exposure to Xylenes on the Early Cleavage Stages of Cod Eggs (Gadus morhua L.)|Sarsia67(4): 299-308|1982|10.1080/00364827.1982.10421344
77926|T||Eason,G., R.A. Reinert, and J.E. Simon|Sulfur Dioxide-Enhanced Phytotoxicity of Ozone to Watermelon|J. Am. Soc. Hortic. Sci.121(4): 716-721|1996|10.21273/JASHS.121.4.716
77927|A||De Bisthoven,L.J., C. Huysmans, R. Vannevel, G. Goemans, and F. Ollevier|Field and Experimental Morphological Response of Chironomus larvae (Diptera, Nematocera) to Xylene and Toluene|Neth. J. Zool.47(2): 227-239|1997|
77930|T||Halder,C.A., C.E. Holdsworth, B.Y. Cockrell, and V.J. Piccirillo|Hydrocarbon Nephropathy in Male Rats:  Identification of the Nephrotoxic Components of Unleaded Gasoline|Toxicol. Ind. Health1(3): 67-87|1985|10.1177/074823378500100305
77931|T||Maekawa,A., Y. Matsushima, H. Onodera, M. Shibutani, H. Ogasawara, Y. Kodama, Y. Kurokawa, and Y. Hayashi|Long-Term Toxicity/Carcinogenicity of Musk Xylol in B6C3F1 Mice|Food Chem. Toxicol.28(8): 581-586|1990|10.1016/0278-6915(90)90159-K
77932|T||d'Azevedo,P.A., M. Tannhauser, S.L. Tannhauser, and H.M.T. Barros|Hematological Alterations in Rats from Xylene and Benzene|Vet. Hum. Toxicol.38(5): 340-344|1996|
77933|T||Anbazhagan,M., and K.A. Bhagwat|Influence of Fumigation of Sulphur Dioxide, Ammonia, Nitrogen Dioxide Alone and in Mixture on Growth of Rice (Oryza sativa)|Indian J. Agric. Sci.62(2): 106-109|1992|
77934|T||Preston,A.F., and D.D. Nicholas|Efficacy of a Series of Alkylammonium Compounds Against Wood Decay Fungi and Termites|Wood Fiber Sci.14(1): 37-42|1982|
77935|T||Roberts,B.R.|Some Physiological Considerations on Sulfur Dioxide Sensitivity in Drought-Stressed Seedlings of Sweetgum (Liquidambar styraciflua L.)|Sci. Hortic.41(1/2): 141-149|1989|10.1016/0304-4238(89)90058-7
77936|T||Kerstiens,G.|Cuticular Water Permeance of European Trees and Shrubs Grown in Polluted and Unpolluted Atmospheres, and Its Relation to Stomatal Response to Humidity in Beech (Fagus sylvatica L.)|New Phytol.129(3): 495-503|1995|10.1111/j.1469-8137.1995.tb04320.x
77937|T||Kainulainen,P., J.K. Holopainen, and J. Oksanen|Effects of SO2 on the Concentrations of Carbohydrates and Secondary Compounds in Scots Pine (Pinus sylvestris L.) and Norway Spruce (Picea abies (L.) Karst.) Seedlings|New Phytol.130(2): 231-238|1995|10.1111/j.1469-8137.1995.tb03044.x
77938|T||Rodt,S.A., H. Wiig, and R.K. Reed|Increased Negativity of Interstitial Fluid Pressure Contributes to Development of Oedema in Rat Skin Following Application of Xylene|Acta Physiol. Scand.140(4): 581-586|1990|10.1111/j.1748-1716.1990.tb09036.x
77939|T||Kropff,M.J., J. Mooi, J. Goudriaan, W. Smeets, A. Leemans, and C. Kliffen|The Effects of Long-Term Open-Air Fumigation with SO2 on a Field Crop of Broad Bean (Vicia faba L.):  II.  Effects on Growth Components, Leaf Area Development and Elemental Composition|New Phytol.113(3): 345-351|1989|10.1111/j.1469-8137.1989.tb02412.x
77940|T||Schultz,T.P., Q. Cheng, W.D. Boldin, T.F.,Jr. Hubbard, L. Jin, T.H. Fisher, and D.D. Nicholas|Comparison of the Fungicidal Activities of (E)-4-Hydroxylated Stilbenes and Related Bibenzyls|Phytochemistry30(9): 2939-2945|1991|10.1016/S0031-9422(00)98228-1
77941|T||Shanklin,J., and T.T. Kozlowski|Effect of Temperature Regime on Growth and Subsequent Responses of Sophora japonica Seedlings to Sulfur Dioxide|Plant Soil88(3): 399-405|1985|10.1007/BF02197496
77942|T||Tsukahara,H., T.T. Kozlowski, and J. Shanklin|Responses of Betula platyphylla var. japonica Seedlings to SO2|J. Yamagata Agric. For. Soc.44:5-12|1987|
77944|T||Sequeira,D.J., G.F. Cawley, C.S. Eyer, and W.L. Backes|Temporal Changes in P-450 2E1 Expression with Continued Ethylbenzene Exposure|Biochim. Biophys. Acta1207(2): 179-186|1994|10.1016/0167-4838(94)00070-0
77945|T||Bhattacharjee,D., T.K. Shetty, and K. Sundaram|Effects on the Spermatogonia of Mice Following Treatment with Sodium Bisulfite|J. Environ. Pathol. Toxicol.3(5-6): 189-193|1980|
77946|T||De Gandarias,J.M., E. Echevarria, E. Casis, L. Martinez-Millan, and L. Casis|Effects of Acute Xylene Exposure on the Enkephalinergic Neuromodulatory System in Rats|Ind. Health33(1): 1-6|1995|10.2486/indhealth.33.1
77947|T||McNary,T.J., D.G. Milchunas, J.W. Leetham, W.K. Lauenroth, and J.L. Dodd|Effect of Controlled Low Levels of SO2 on Grasshopper Densities on a Northern Mixed-Grass Prairie|J. Econ. Entomol.74(1): 91-93|1981|10.1093/jee/74.1.91
77948|T||Deltoro,V.I., C. Gimeno, A. Calatayud, and E. Barreno|Effects of SO2 Fumigations on Photosynthetic CO2 Gas Exchange, Chlorophyll a Fluorescence Emission and Antioxidant Enzymes in the Lichens Evernia prunastri and Ramalina farinacea|Physiol. Plant. (Multiple Languages)105(4): 648-654|1999|10.1034/j.1399-3054.1999.105408.x
77950|T||Rana,S.V.S., and S. Kumar|Liver Function in Rats Treated Individually and with a Combination of Xylene, Toluene and Methanol|Toxicol. Ind. Health9(3): 479-484|1993|10.1177/074823379300900306
77951|A||Keskinkan,O., M.Z.L. Goksu, A. Yuceer, M. Basibuyuk, and C.F. Forster|Heavy Metal Adsorption Characteristics of a Submerged Aquatic Plant (Myriophyllum spicatum)|Process Biochem.39(2): 179-183|2003|10.1016/S0032-9592(03)00045-1
77952|A||Hauri,J.F., and A.J. Horne|Reduction in Labile Copper in the 7-Day Ceriodaphnia dubia Toxicity Test due to the Interaction with Zooplankton Food|Chemosphere56(7): 717-723|2004|10.1016/j.chemosphere.2004.04.014
77953|T||Nursita,A.I., B. Singh, and E. Lees|The Effects of Cadmium, Copper, Lead, and Zinc on the Growth and Reproduction of Proisotoma minuta Tullberg (Collembola)|Ecotoxicol. Environ. Saf.60(3): 306-314|2005|10.1016/j.ecoenv.2004.05.001
77954|A||Dietrich,A.M., T.M.C. LaBreche, and N. Shepherd|A Flow-Through Chamber for Toxicity Testing of 80-200 um Organisms|Water Res.36(8): 2002-2010|2002|10.1016/S0043-1354(01)00408-0
77955|A||Croot,P.L., B. Karlson, J.T. Van Elteren, and J.J. Kroon|Uptake of 64Cu - Oxine by Marine Phytoplankton|Environ. Sci. Technol.33(20): 3615-3621|1999|10.1021/es9807901
77956|T||DuBois,J.W., A. Byrne, and J.E. Clark|Canadian Bluestain Fungi: Variation in Tolerance to Sapstain Control Biocides|For. Prod. J.50(1): 60-66|2000|
77957|T||Khan,M.R., and M.W. Khan|Effects of the Root-Knot Nematode, Meloidogyne incognita, on the Sensitivity of Tomato to Sulfur Dioxide and Ozone|Environ. Exp. Bot.38(2): 117-130|1997|10.1016/S0098-8472(96)01060-X
77958|T||Scarratt,W.K., T.J. Collins, and D.P. Sponenberg|Water Deprivation Sodium Chloride Intoxication in a Group of Feeder Lambs|J. Am. Vet. Med. Assoc.186(9): 977-978|1985|
77959|T||Ievinsh,G., G. Dreibante, and D. Kruzmane|Changes of 1-Aminocyclopropane-1-Carboxylic Acid Oxidase Activity in Stressed Pinus sylvestris Needles|Biol. Plant. (Praha)44(2): 233-237|2001|10.1023/A:1010299309157
77960|T||Cathey,H.M., and H.E. Heggestad|Effects of Growth Retardants and Fumigations with Ozone and Sulfur Dioxide on Growth and Flowering of Euphorbia pulcherrima Willd|J. Am. Soc. Hortic. Sci.98:3-7|1973|10.21273/JASHS.98.1.3
77961|A||Lee,J.S., D.K. Kim, J.P. Lee, S.C. Park, J.H. Koh, H.S. Cho, and S.W. Kim|Effects of SO2 and NO on Growth of Chlorella sp. KR-1|Bioresour. Technol.82(1-4): 1-4|2002|10.1016/S0960-8524(01)00158-4
77962|T||Kaiser,W., A. Dittrich, and U. Heber|Sulfate Concentrations in Norway Spruce Needles in Relation to Atmospheric SO2:  A Comparison of Trees from Various Forests in Germany with Trees Fumigated with SO2 in Growth Chambers|Tree Physiol.12(1): 1-13|1993|10.1093/treephys/12.1.1
77963|T||Falk,R.H., R. Guggenheim, and G. Schulke|Surfactant-Induced Phytotoxicity|Weed Technol.8(3): 519-525|1994|10.1017/S0890037X00039610
77964|T||Tankha,K., and R.K. Gupta|Effect of Water Deficit and Sulphur Dioxide on Total Soluble Proteins, Nitrate Reductase Activity and Free Proline Content in Sunflower Leaves|Biol. Plant. (Praha)34(3-4): 305-310|1992|10.1007/BF02925888
77965|T||Bates,J.W., P.J. McNee, and A.R. McLeod|Effects of Sulphur Dioxide and Ozone on Lichen Colonization of Conifers in the Liphook Forest Fumigation Project|New Phytol.132(4): 653-660|1996|10.1111/j.1469-8137.1996.tb01883.x
77966|T||Maltoni,C., B. Conti, G. Cotti, and F. Belpoggi|Experimental Studies on Benzene Carcinogenicity at the Bologna Institute of Oncology:  Current Results and Ongoing Research|Am. J. Ind. Med.7(5-6): 415-446|1985|10.1002/ajim.4700070508
77967|T||Ready,L.B., M.H. Plumer, R.H. Haschke, E. Austin, and S.M. Sumi|Neurotoxicity of Intrathecal Local Anesthetics in Rabbits|Anesthesiology63(4): 364-370|1985|10.1097/00000542-198510000-00004
77968|T||Kropff,M.J., J. Mooi, J. Goudriaan, W. Smeets, A. Leemans, C. Kliffen, and A.J.A. Van der Zalm|The Effects of Long-Term Open-Air Fumigation with SO2 on a Field Crop of Broad Bean (Vicia faba L.):  I.  Depression of Growth and Yield|New Phytol.113(3): 337-344|1989|10.1111/j.1469-8137.1989.tb02411.x
77969|T||Shaw,P., M.R. Holland, N.M. Darrall, and A.R. McLeod|The Occurrence of SO2-Related Foliar Symptoms on Scots Pine (Pinus sylvestris L.) in an Open-Air Forest Fumigation Experiment|New Phytol.123(1): 143-152|1993|10.1111/j.1469-8137.1993.tb04540.x
77970|T||Krause,C.R., and L.S. Dochinger|Sulfur Accumulation in Red Maple Leaves Exposed to Sulfur Dioxide|Phytopathology77(10): 1438-1441|1987|10.1094/Phyto-77-1438
77971|T||Cassens,D.L., and W.E. Eslyn|Fungicides to Prevent Sapstain and Mold on Hardwood Lumber|For. Prod. J.31(9): 39-42|1981|
77972|T||Iyadomi,M., Y. Higaki, M. Ichiba, M. Morimoto, and K. Tomokuni|Evaluation of Organic Solvent-Induced Inflammation Modulated by Neuropeptides in the Abdominal Skin of Hairless Rats|Ind. Health36(1): 40-51|1998|10.2486/indhealth.36.40
77973|T||Hall,J.G., and H.D. Sinnett|The Endolymphatic Perfusion of Lymph Nodes with Toxic Materials|Br. J. Exp. Pathol.70(3): 283-292|1989|
77974|T||Benzing,D.H., J. Arditti, L.P. Nyman, P.J. Temple, and J.P. Bennett|Effects of Ozone and Sulfur Dioxide on Four Epiphytic bromeliads|Environ. Exp. Bot.32(1): 25-32|1992|10.1016/0098-8472(92)90026-X
77975|T||Yadav,N.K., and S. Chand|Effect of Sulfur Dioxide Pollution on Bhabar Grass (Eulaliopsis binata (Retz) Hubbard)|Acta Bot. Indica18(1): 121-124|1990|
77976|T||Johnson,M.L., L. Berger, L. Philips, and R. Speare|Fungicidal Effects of Chemical Disinfectants, UV Light, Desiccation and Heat on the Amphibian Chytrid Batrachochytrium dendrobatidis|Dis. Aquat. Org.57(3): 255-260|2003|10.3354/dao057255
77977|T||Eastham,A.M., and D.P. Ormrod|Visible Injury and Growth Responses of Young Cuttings of Populus canadensis and P. nigra to Nitrogen Dioxide and Sulfur Dioxide|Can. J. For. Res.16(6): 1289-1292|1986|10.1139/x86-228
77978|T||Wonisch,A., M. Tausz, M. Muller, W. Weidner, L.J. De Kok, and D. Grill|Treatment of Young Spruce Shoots with SO2 AND H2S:  Effects on Fine Root Chromosomes in Relation to Changes in the Thiol Content and Redox State|Water Air Soil Pollut.116(1/2): 423-428|1999|10.1023/A:1005275629427
77979|T||Park,S.H., T.A. AuCoin, D.M. Silverman, and R.A. Schatz|Time-Dependent Effects of o-Xylene on Rat Lung and Liver Microsomal Membrane Structure and Function|J. Toxicol. Environ. Health43(4): 469-481|1994|10.1080/15287399409531935
77980|T||Julkunen-Tiitto,R., A. Lavola, and P. Kainulainen|Does SO2 Fumigation Change the Chemical Defense of Woody Plants:  The Effect of Short-Term SO2 Fumigation on the Metabolism of Deciduous Salix myrsinifolia Plants|Water Air Soil Pollut.83(3/4): 195-203|1995|10.1007/BF00477352
77982|T||Pathiratne,A., R.L. Puyear, and J.D. Brammer|A Comparative Study of the Effects of Benzene, Toluene, and Xylenes on Their In Vitro Metabolism and Drug-Metabolizing Enzymes in Rat Liver|Toxicol. Appl. Pharmacol.82(2): 272-280|1986|10.1016/0041-008X(86)90202-4
77984|T||Kozlov,M.V., E.L. Zvereva, and A.V. Selikhovkin|Decreased Performance of Melasoma lapponica (Coleoptera:  Chrysomelidae) Fumigated by Sulphur Dioxide:  Direct Toxicity Versus Host Plant Quality|Environ. Entomol.25(1): 143-146|1996|10.1093/ee/25.1.143
77985|T||Gate,I.M., S. McNeill, and M.R. Ashmore|Effects of Air Pollution on the Searching Behaviour of an Insect Parasitoid|In: Acid Reign 95, Proc.5th Int.Conf.on Acidic Deposition: Science and Policy, June 1995, Goteborg, Sweden, Water Air Soil Pollut.85(3): 1425-1430|1995|
77986|T||Zhang,S., G.F. Cawley, C.S. Eyer, and W.L. Backes|Altered Ethylbenzene-Mediated Hepatic CYP2E1 Expression in Growth Hormone-Deficient Dwarf Rats|Toxicol. Appl. Pharmacol.179(2): 74-82|2002|10.1006/taap.2002.9349
77987|T||Warrington,S.|Relationship Between SO2 Dose and Growth of the Pea aphid, (Acyrthosiphon pisum), on Peas|Environ. Pollut.43(2): 155-162|1987|10.1016/0269-7491(87)90073-X
77988|T||Warrington,S., and J.B. Whittaker|Interactions Between Sitka Spruce, the Green Spruce Aphid, Sulfur Dioxide Pollution and Drought|Environ. Pollut.65(4): 363-370|1990|10.1016/0269-7491(90)90127-X
77989|T||Sheu,B.H.|Effects of Sulfur Dioxide on Growth, Photosynthesis and Enzyme Activities of Chinese Guger-Tree Seedlings|Environ. Pollut.86(3): 349-354|1994|10.1016/0269-7491(94)90176-7
77990|T||Tung,G., W.D. McIlveen, and R.D. Jones|Synergistic Effect of Flyash and SO2 on Development of Cucumber (Cucumis sativus L.) Leaf Injury|Environ. Toxicol. Chem.14(10): 1701-1710|1995|10.1002/etc.5620141010
77991|T||Blanchard,K.T., and J.B. Morris|Effects of m-Xylene on Rat Nasal Cytochrome P450 Mixed Function Oxidase Activities|Toxicol. Lett.70(2): 253-259|1994|10.1016/0378-4274(94)90169-4
77992|AT||Hueck,H.J., D.M.M. Adema, and J.R. Wiegmann|Bacteriostatic, Fungistatic, and Algistatic Activity of Fatty Nitrogen Compounds|Appl. Microbiol.14(3): 308-319|1966|10.1128/am.14.3.308-319.1966
77994|T||Umbach,D.M., and D.D. Davis|Influence of Humidity and Temperature During Exposure on S02-Induced Leaf Necrosis of Virginia Pine and River Birch|Can. J. For. Res.17(10): 1213-1218|1987|10.1139/x87-187
77995|T||Meng,F.R., R.M. Cox, and P.A. Arp|Fumigating Mature Spruce Branches with SO2:  Effects on Net Photosynthesis and Stomatal Conductance|Can. J. For. Res.24(7): 1464-1471|1994|10.1139/x94-189
77996|T||Geburek,T., and F. Scholz|Response of Picea abies (L.) Karst. Provenances to Sulphur Dioxide and Aluminum:  A Pilot Study|Water Air Soil Pollut.62(3-4): 227-232|1992|10.1007/BF00480257
77997|T||Stuard,S.B., D. Caudill, and L.D. Lehman-McKeeman|Characterization of the Effects of Musk Ketone on Mouse Hepatic Cytochrome P450 Enzymes|Fundam. Appl. Toxicol.40(2): 264-271|1997|10.1006/faat.1997.2395
77998|T||Herr,D.W., and W.K. Boyes|A Comparison of the Acute Neuroactive Effects of Dichloromethane, 1,3-Dichloropropane, and 1,2-Dichlorobenzene on Rat Flash Evoked Potentials (FEPs)|Fundam. Appl. Toxicol.35(1): 31-48|1997|10.1006/faat.1996.2255
78002|A||Mottaleb,M.A., X. Zhao, L.R. Curtis, and G.W. Sovocool|Formation of Nitro Musk Adducts of Rainbow Trout Hemoglobin for Potential Use as Biomarkers of Exposure|Aquat. Toxicol.67(4): 315-324|2004|10.1016/j.aquatox.2004.01.004
78003|T||Peters,J.L., F.J. Castillo, and R.L. Heath|Alteration of Extracellular Enzymes in Pinto Bean Leaves upon Exposure to Air Pollutants, Ozone and Sulfur Dioxide|Plant Physiol.89:159-164|1989|10.1104/pp.89.1.159
78004|T||Singh,S.N., M. Yunus, K. Kulshreshtha, K. Srivastava, and K.J. Ahmad|Effect of Sulfur Dioxide on Growth and Development of Dahlia rosea Cav.|Bull. Environ. Contam. Toxicol.40(5): 743-751|1988|10.1007/BF01697525
78006|T||Kaneko,T., P.Y. Wang, and A. Sato|Relationship Between Blood/Air Partition Coefficients of Lipophilic Organic Solvents and Blood Triglyceride Levels|Toxicology143(2): 203-208|2000|10.1016/S0300-483X(99)00170-5
78007|T||Lehman-McKeeman,L.D., D. Caudill, J.D. Vassallo, R.E. Pearce, A. Madan, and A. Parkinson|Effects of Musk Xylene and Musk Ketone on Rat Hepatic Cytochrome P450 Enzymes|Toxicol. Lett.111(1-2): 105-115|1999|10.1016/S0378-4274(99)00172-1
78008|T||Suter-Eichenberger,R., U.A. Boelsterli, M. Conscience-Egli, W. Lichtensteiger, and M. Schlumpf|CYP 450 Enzyme Induction by Chronic Oral Musk Xylene in Adult and Developing Rats|Toxicol. Lett.111(1-2): 117-132|1999|10.1016/S0378-4274(99)00173-3
78009|T||Christian,M.S., R.M. Parker, A.M. Hoberman, R.M. Diener, and A.M. Api|Developmental Toxicity Studies of Four Fragrances in Rats|Toxicol. Lett.111(1-2): 169-174|1999|10.1016/S0378-4274(99)00178-2
78010|T||Meng,Z., N. Sang, and B. Zhang|Effects of Derivatives of Sulfur Dioxide on Micronuclei Formation in Mouse Bone Marrow Cells In Vivo|Bull. Environ. Contam. Toxicol.69(2): 257-264|2002|10.1007/s00128-002-0055-0
78011|T||Lehman-McKeeman,L.D., D.R. Johnson, and D. Caudill|Induction and Inhibition of Mouse Cytochrome P-450 2B Enzymes by Musk Xylene|Toxicol. Appl. Pharmacol.142(1): 169-177|1997|10.1006/taap.1996.7927
78012|T||Kumar,N., and G. Prakash|Effect of Sulphur Dioxide on Pigeon Pea (Cajanus cajan (L.) Millsp.) and Pea (Pisum sativum L.)|Acta Bot. Indica18(2): 247-251|1990|
78013|A||Keckes,S., B. Ozretic, and M. Krajnovic|Metabolism of Zn65 in Mussels (Mytilus galloprovincialis Lam.). Uptake of Zn65|Rapp.Commun.Int.Mer.Mediterr.Monaco19(5): 949-952|1969|
78014|T||Kalender,S., Y. Kalender, A. Ogutcu, M. Uzunhisarcikli, D. Durak, and F. Acikgoz|Endosulfan-Induced Cardiotoxicity and Free Radical Metabolism in Rats:  The Protective Effect of Vitamin E|Toxicology202(3): 227-235|2004|10.1016/j.tox.2004.05.010
78015|T||Benedetti,A.L., C.D.L. Vituri, A.G. Trentin, M.A.C. Domingues, and M. Alvarez-Silva|The Effects of Sub-Chronic Exposure of Wistar Rats to the Herbicide Glyphosate-Biocarb|Toxicol. Lett.153(2): 227-232|2004|10.1016/j.toxlet.2004.04.008
78017|T||Birkhoj,M., C. Nellemann, K. Jarfelt, H. Jacobsen, H.R. Andersen, M. Dalgaard, and A.M. Vinggaard|The Combined Antiandrogenic Effects of Five Commonly Used Pesticides|Toxicol. Appl. Pharmacol.201(1): 10-20|2004|10.1016/j.taap.2004.04.016
78018|T||Huang,Z., P. Shi, J. Dai, and J. Du|Protein Metabolism in Spodoptera litura (F.) is Influenced by the Botanical Insecticide Azadirachtin|Pestic. Biochem. Physiol.80(2): 85-93|2004|10.1016/j.pestbp.2004.07.001
78019|T||Yu,S.J.|Induction of Detoxification Enzymes by Triazine Herbicides in the Fall Armyworm, Spodoptera frugiperda (J.E. Smith)|Pestic. Biochem. Physiol.80(2): 113-122|2004|10.1016/j.pestbp.2004.06.005
78020|T||Shono,T., L. Zhang, and J.G. Scott|Indoxacarb Resistance in the House Fly, Musca domestica|Pestic. Biochem. Physiol.80(2): 106-112|2004|10.1016/j.pestbp.2004.06.004
78021|T||Amrani,L., K. Zerguine, J.P. Farine, G. Smagghe, and N. Soltani-Mazouni|Imidazole Derivative KK-42 Reduces Ecdysteroid Titers and Interferes with Reproductive Processes in Adult Females of Tenebrio molitor|Pestic. Biochem. Physiol.80(3): 163-172|2004|10.1016/j.pestbp.2004.07.004
78022|T||Hopkins,W.A., C.T. Winne, and S.E. DuRant|Differential Swimming Performance of Two Natricine Snakes Exposed to a Cholinesterase-Inhibiting Pesticide|Environ. Pollut.133(3): 531-540|2005|10.1016/j.envpol.2004.06.014
78023|T||Booth,G.M., S.R. Mortensen, M.W. Carter, and B.G. Schaalje|Hazard Evaluation for Northern Bobwhite Quail (Colinus virginianus) Exposed to Chlorpyrifos-Treated Turf and Seed|Ecotoxicol. Environ. Saf.60(2): 176-187|2005|10.1016/j.ecoenv.2004.01.011
78024|T||Rahman,M.F., and M.K.J. Siddiqui|Biochemical Effects of Vepacide (from Azadirachta indica) on Wistar Rats During Subchronic Exposure|Ecotoxicol. Environ. Saf.59(3): 332-339|2004|10.1016/j.ecoenv.2003.07.013
78025|T||Bunner,B.L., L.R. Boobar, L.J. Vorgetts, and F.H. Broski|Increased Toxicity of Malathion Diluted with Heavy Aromatic Naphtha on Adult Aedes taeniorhynchus|Am. Mosq. Control Assoc. J.3(1): 87-89|1987|
78026|T||Appenroth,D., S. Gambaryan, K.H. Friese, and H. Braunlich|Influence of Metyrapone and Phenobarbital on Sodium Dichromate Nephrotoxicity in Developing Rats|J. Appl. Toxicol.10(3): 227-232|1990|10.1002/jat.2550100314
78027|A||Chaudhary,B.R., and P.S. Sastry|Uptake of Heavy Metals by Unicellular Green Alga Closterium moniliferum (Bory) Ehrenb.|Phykos27(1-2): 140-145|1988|
78029|T||Stancheva,I., N. Kaloianova, and E. Atanasova|Effect of Copper and Arsenic on the Yield and Plastid Pigment Content of Rice Inoculated with Azospirilum brasilense|Pochvozn. Agrokhim. Ekol. (Multiple Languages)34(4/5): 140-144|1999|
78030|A||Knauer,K., and H. Hemond|Accumulation and Reduction of Arsenate by the Freshwater Green Alga Chlorella sp. (Chlorophyta)|J. Phycol.36(3): 506-509|2000|10.1046/j.1529-8817.2000.99056.x
78031|T||Schmidt,A.C., J. Mattusch, W. Reisser, and R. Wennrich|Uptake and Accumulation Behaviour of Angiosperms Irrigated with Solutions of Different Arsenic Species|Chemosphere56(3): 305-313|2004|10.1016/j.chemosphere.2004.02.031
78032|T||Abedin,J., M.S. Cresser, A.A. Meharg, J. Feldmann, and J. Cotter-Howells|Arsenic Accumulation and Metabolism in Rice (Oryza sativa L.)|Environ. Sci. Technol.36(5): 962-968|2002|10.1021/es0101678
78033|A||Lee,B.G., W.G. Wallace, and S.N. Luoma|Uptake and Loss Kinetics of Cd, Cr and Zn in the Bivalves Potamocorbula amurensis and Macoma balthica:  Effects of Size and Salinity|Mar. Ecol. Prog. Ser.175:177-189|1998|10.3354/meps175177
78035|A||Krishnani,K.K., I.S. Azad, M. Kailasam, A.R. Thirunavukkarasu, B.P. Gupta, K.O. Joseph, M. Muralidhar, and M. Abraham|Acute Toxicity of Some Heavy Metals to Lates calcarifer Fry with a Note on Its Histopathological Manifestations|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control38(4): 645-655|2003|
78036|A||Sultan,S., and T. Fatma|Phytotoxicity of Heavy Metals on Spirulina platensis|Phykos38(1-2): 87-92|1999|
78037|A||Kotsanis,N., J. Iliopoulou-Georgudaki, and K. Kapata-Zoumbos|Changes in Selected Haematological Parameters at Early Stages of the Rainbow Trout, Oncorhynchus mykiss, Subjected to Metal Toxicants: Arsenic, Cadmium and Mercury|J. Appl. Ichthyol.16(6): 276-278|2000|10.1046/j.1439-0426.2000.00163.x
78038|T||Kurokawa,Y., M. Matsushima, T. Imazawa, N. Takamura, M. Takahashi, and Y. Hayashi|Promoting Effect of Metal Compounds on Rat Renal Tumorigenesis|J. Am. Coll. Toxicol.4(6): 321-330|1985|10.3109/10915818509078695
78039|A||Moreno,J., and R.J. Spreitzer|C172S Substitution in the Chloroplast-Encoded Large Subunit Affects Stability and Stress-Induced Turnover of Ribulose-1,5-Bisphosphate Carboxylase/Oxygenase|J. Biol. Chem.274(38): 26789-26793|1999|10.1074/jbc.274.38.26789
78040|A||Liao,C.M., B.C. Chen, S. Singh, M.C. Lin, C.W. Liu, and B.C. Han|Acute Toxicity and Bioaccumulation of Arsenic in Tilapia (Oreochromis mossambicus) from a Blackfoot Disease Area in Taiwan|Environ. Toxicol.18(4): 252-259|2003|10.1002/tox.10122
78041|A||Liao,C.M., J.W. Tsai, M.P. Ling, H.M. Liang, Y.H. Chou, and P.T. Yang|Organ-Specific Toxicokinetics and Dose-Response of Arsenic in Tilapia Oreochromis mossambicus|Arch. Environ. Contam. Toxicol.47(4): 502-510|2004|10.1007/s00244-004-3105-2
78042|A||Lee,C.H., T.K. Ryu, M. Chang, and J.W. Choi|Effect of Silver, Cadmium, Chromium, Copper, and Zinc on the Fertilization of the Northern Pacific Asteroid, Asterias amurensis|Bull. Environ. Contam. Toxicol.73(4): 613-619|2004|10.1007/s00128-004-0472-3
78043|T||Tucker,F.B., K.X. Wang, J. Fang, and S.L. Lu|Effect of Chromium on Hemolymph Catalase Activity and Cocoon Quality of Two Mulberry Silkworm (Bombyx mori L.) Races|Bull. Environ. Contam. Toxicol.73(3): 443-447|2004|10.1007/s00128-004-0449-2
78044|T||Carbonell-Barrachina,A., F. Burlo-Carbonell, and J. Mataix-Beneyto|Effect of Sodium Arsenite on Arsenic Accumulation and Distribution in Leaves and Fruit of Vitis vinifera|J. Plant Nutr.20(2/3): 379-387|1997|10.1080/01904169709365258
78045|T||Carbonell-Barrachina,A.A., F. Burlo, E. Lopez, and J. Mataix|Tomato Plant Nutrition as Affected by Arsenite Concentration|J. Plant Nutr.21(2): 235-244|1998|10.1080/01904169809365398
78050|A||Khan,R.A., and J.W. Kiceniuk|Sublethal Effects of Crude Oil on a Cold-Water Marine Leech, Johanssonia arctica, Following Chronic Exposure|Bull. Environ. Contam. Toxicol.43(4): 590-596|1989|10.1007/BF01701940
78051|A||Van Baalen,C., and R. O'Donnell|Sensitivity of Two Psychrophilic Diatoms to Crude Oil and Fuel Oil|Mar. Environ. Res.12(1): 63-68|1984|10.1016/0141-1136(84)90062-X
78052|T||Leak,L.V., M. Potter, and W.J. Mayfield|Response of the Peritoneal Mesothelium to the Mineral Oil, Pristane|In: M.Potter (Ed.), Current Topics in Microbiology and Immunology, Volume 122, The Balb Mouse: Genetics and Immunology, Springer-Verlag New York Inc., Secaucus, NJ:221-233|1985|
78054|T||Peristianis,G.C.|Sebaceous Gland Suppression as a Short-Term Test of the Cutaneous Carcinogenic Activity of Mineral Oils|J. Appl. Toxicol.9(4): 245-254|1989|10.1002/jat.2550090408
78055|A||Al-Hasan,R., M. Khanafer, M. Eliyas, and S.S. Radwan|Hydrocarbon Accumulation by Picocyanobacteria from the Arabian Gulf|J. Appl. Microbiol.91(3): 533-540|2001|10.1046/j.1365-2672.2001.01414.x
78056|T||Chasey,K.L., and R.H. Mckee|Evaluation of the Dermal Carcinogenicity of Lubricant Base Oils by the Mouse Skin Painting Bioassay and Other Proposed Methods|J. Appl. Toxicol.13(1): 57-65|1993|10.1002/jat.2550130112
78057|T||Youssef,A.I., F.N. Nasr, S.S. Stefanos, S.S.A. Elkhair, W.A. Shehata, E. Agamy, A. Herz, and S.A. Hassan|The Side-Effects of Plant Protection Products Used in Olive Cultivation on the Hymenopterous Egg Parasitoid Trichogramma cacoeciae Marchal|J. Appl. Entomol.128(9/10): 593-599|2004|10.1111/j.1439-0418.2004.00892.x
78058|T||Biles,R.W., R.H. Mckee, S.C. Lewis, R.A. Scala, and L.R. DePass|Dermal Carcinogenic Activity of Petroleum-Derived Middle Distillate Fuels|Toxicology53(2-3): 301-314|1988|10.1016/0300-483X(88)90222-3
78059|T||Schmoger,M.E.V., M. Oven, and E. Grill|Detoxification of Arsenic by Phytochelatins in Plants|Plant Physiol.122(3): 798-801|2000|10.1104/pp.122.3.793
78060|T||Miteva,E.|Accumulation and Effect of Arsenic on Tomatoes|Commun. Soil Sci. Plant Anal.33(11/12): 1917-1926|2002|10.1081/CSS-120004832
78063|T||Abbott,O.J., H.R. Bird, and W.W. Cravens|Effects of Dietary Arsanilic Acid on Chicks|Poult. Sci.33:1245-1253|1954|10.3382/ps.0331245
78064|A||Semsari,S., H.A. Amar, Z. Badani, and B. Benayad|Study of the Inhibition of Certain Trophic Levels by the Presence of Metal Cations in Water|Desalination150(2): 177-188|2002|10.1016/S0011-9164(02)00942-6
78066|T||Evans,R.J., S.L. Bandemer, D.A. Libby, and A.C. Groschke|The Arsenic Content of Eggs from Hens Fed Arsanilic Acid|Poult. Sci.32(4): 743-744|1953|10.3382/ps.0320743
78067|T||Carlson,C.W., E. Guenthner, W. Kohlmeyer, and O.E. Olson|Some Effects of Selenium, Arsenicals, and Vitamin B12 on Chick Growth|Poult. Sci.33(4): 768-774|1954|10.3382/ps.0330768
78071|T||Chen,Y., K. Stoddard-Gilbert, and C. Blincoe|Chromium in the Gastrointestinal Tract of the Rat|J. Sci. Food Agric.47:33-41|1989|10.1002/jsfa.2740470105
78072|A||Das,D., D. Sarkar, and S. Bhattacharya|Lipid Peroxidative Damage by Arsenic Intoxication is Countered by Glutathione-Glutathione-S-Transferase System and Metallothionein in the Liver of Climbing Perch, Anabas testudineus|Biomed. Environ. Sci.11(2): 187-195|1998|
78073|A||Hunter,D.A., W. Goessler, and K.A. Francesconi|Uptake of Arsenate, Trimethylarsine Oxide, and Arsenobetaine by the Shrimp Crangon crangon|Mar. Biol.131(3): 543-552|1998|10.1007/s002270050346
78074|A||Kobayashi,I., S. Fujiwara, K. Shimogawara, T. Kaise, H. Usuda, and M. Tsuzuki|Insertional Mutagenesis in a Homologue of a pi Transporter Gene Confers Arsenate Resistance on Chlamydomonas|Plant Cell Physiol.44(6): 597-606|2003|10.1093/pcp/pcg081
78076|A||Suhendrayatna, A. Ohki, T. Kuroiwa, and S. Maeda|Arsenic Compounds in the Freshwater Green Microalga Chlorella vulgaris After Exposure to Arsenite|Appl. Organomet. Chem.13(2): 127-133|1999|10.1002/(SICI)1099-0739(199902)13:2<127::AID-AOC810>3.0.CO;2-K
78077|A||Sanders,J.G., and S.J. Cibik|Response of Chesapeake Bay Phytoplankton Communities to Low Levels of Toxic Substances|Mar. Pollut. Bull.19(9): 439-444|1988|10.1016/0025-326X(88)90399-2
78079|A||Goessler,W., J. Lintschinger, J. Szakova, P. Mader, J. Kopecky, J. Doucha, and K.J. Irgolic|Chlorella sp. and Arsenic Compounds: An Attempt to Prepare an Algal Reference Material for Arsenic Compounds|Appl. Organomet. Chem.11(1): 57-66|1997|10.1002/(SICI)1099-0739(199701)11:1<57::AID-AOC540>3.0.CO;2-J
78080|A||Rodriguez-Ortega,M.J., B.E. Grosvik, A. Rodriguez-Ariza, A. Goksoyr, and J. Lopez-Barea|Changes in Protein Expression Profiles in Bivalve Molluscs (Chamaelea gallina) Exposed to Four Model Environmental Pollutants|Proteomics3(8): 1535-1543|2003|10.1002/pmic.200300491
78082|A||Hecker,M., K.K. Coady, D.L. Villeneuve, M.B. Murphy, P.D. Jones, and J.P. Giesy|A Pilot Study of Response of Larval Rana clamitans to Atrazine Exposure:  Assessment of Metamorphosis and Gonadal and Laryngeal Morphology and Selected Hormones and Enzyme Activities|Interim Rep.MSU-03, Aquat.Toxicol.Lab., Mich.State Univ., Natl.Food Saf.and Toxicol.Ctr., E.Lansing, MI:79 p.|2003|
78086|A||Villeneuve,D.L., K. Coady, M. Hecker, M.B. Murphy, P.D. Jones, and J.P. Giesy|Methods Development for the Study of Mechanism of Action of Atrazine in Adult and Metamorphosing Xenopus laevis and Rana clamitans:  Aromatase Induction|Final Rep.MSU-01, Aquat.Toxicol.Lab., Mich.State Univ., Natl.Food Saf.and Toxicol.Ctr., E.Lansing, MI:111 p.|2003|
78088|A||Hecker,M., K.K. Coady, D.L. Villeneuve, M.B. Murphy, P.D. Jones, and J.P. Giesy|Response of Xenopus laevis to Atrazine Exposure:  Assessment of the Mechanism of Action of Atrazine|Interim Rep.MSU-04, Aquat.Toxicol.Lab., Mich.State Univ., Natl.Food Saf.and Toxicol.Ctr., E.Lansing, MI:143 p.|2003|
78089|A||Goleman,W.L., and J.A. Carr|Response of Larval Xenopus laevis to Atrazine Exposure:  Assessment of Metamorphosis and Gonadal and Laryngeal Morphology|Final Rep.TTU-01, Inst.of Environ.and Hum.Health, Texas Tech Univ., Texas Tech Univ.Health Sci.Ctr., Lubbock, TX:104 p.|2003|
78091|A||Du Preez,L., and K.R. Solomon|Exposure of Xenopus laevis Larvae to Different Concentrations of Atrazine in Semi-natural Microcosms|Final Rep.SA-01-D, Schl.of Environ.Sci.and Dev., Zool.Dep., Potchefstroom Univ.of CHE, Potchefstroom, South Africa:44 p.|2003|
78093|T||Scales,G.H.|Reproductive Performance of Merino Ewes Dosed with Selenium Prior to Mating|Proc. N. Z. Soc. Anim. Prod.34:103-113|1974|
78094|T||Mahan,D.C., A.L. Moxon, and J.H. Cline|Efficacy of Supplemental Selenium in Reproductive Diets on Sow and Progeny Serum and Tissue Selenium Values|J. Anim. Sci.40(4): 624-631|1975|10.2527/jas1975.404624x
78095|T||Young,L.G., J.H. Lumsden, A. Lun, J. Claxton, and D.E. Edmeades|Influence of Dietary Levels of Vitamin E and Selenium on Tissue and Blood Parameters in Pigs|Can. J. Comp. Med.40(1): 92-97|1976|
78096|A||Omoregie,E., and B.C. Ufodike|Effects of Water Soluble Fractions of Crude Oil on Growth of the Nile tilapia, Oreochromis niloticus (L.)|Bull. Environ. Contam. Toxicol.64(4): 601-605|2000|10.1007/s001280000045
78097|A||Rudolph,A., R. Yanez, and L. Troncoso|Effects of Exposure of Oncorhynchus mykiss to the Water-Accommodated Fraction of Petroleum Hydrocarbons|Bull. Environ. Contam. Toxicol.66(3): 400-406|2001|10.1007/s00128-001-0019-9
78099|A||Vignier,V., J.H. Vandermeulen, and A.J. Fraser|Growth and Food Conversion by Atlantic Salmon Parr During 40 Days' Exposure to Crude Oil|Trans. Am. Fish. Soc.121(3): 322-332|1992|10.1577/1548-8659(1992)121<0322:GAFCBA>2.3.CO;2
78100|T||Lee,J.H., J.H. Roh, D. Burks, D. Warshawsky, and G. Talaska|Skin Cleaning with Kerosene Facilitates Passage of Carcinogens to the Lungs of Animals Treated with Used Gasoline Engine Oil|Appl. Occup. Environ. Hyg.15(4): 362-369|2000|10.1080/104732200301485
78101|T||Nicetic,O., D.M. Watson, G.A.C. Beattie, A. Meats, and J. Zheng|Integrated Pest Management of Two-Spotted Mite Tetranychus urticae on Greenhouse Roses Using Petroleum Spray Oil and the Predatory Mite Phytoseiulus persimilis|Exp. Appl. Acarol.25(1): 37-53|2001|10.1023/A:1010668122693
78102|T||Di Martino,E., G. Lanza, and E. Di Martino Aleppo|The Influence of White Mineral Oil Treatments on Lemon Trees Three Year of Experiments|In: R.Cavalloro and E.Di Martino (Eds.), Integrated Pest Control in Citrus-Groves, Experts Meet., Mar.26-29, 1985, Acireale, Italy, A.A.Balkema, Rotterdam, Netherlands:433-446|1986|
78103|A||Ahsanullah,M., R.R.C. Edwards, D.G. Kay, and D.S. Negilski|Acute Toxicity to the Crab Paragrapsus quadridentatus (H. Milne Edwards), of Kuwait Light Crude Oil, BP/AB Dispersant, and an Oil-Dispersant Mixture|Aust. J. Mar. Freshw. Res.33(3): 459-464|1982|10.1071/MF9820459
78104|A||Antrim,L.D., R.M. Thom, W.W. Gardiner, V.I. Cullinan, D.K. Shreffler, and R.W. Bienert|Effects of Petroleum Products on Bull Kelp (Nereocystis luetkeana)|Mar. Biol.122(1): 23-31|1995|10.1007/BF00349274
78105|A||Rhodes,S., A. Farwell, L.M. Hewitt, M. MacKinnon, and D.G. Dixon|The Effects of Dimethylated and Alkylated Polycyclic Aromatic Hydrocarbons on the Embryonic Development of the Japanese Medaka|Ecotoxicol. Environ. Saf.60(3): 247-258|2005|10.1016/j.ecoenv.2004.08.002
78106|A||Bhattacharyya,S., P.L. Klerks, and J.A. Nyman|Toxicity to Freshwater Organisms from Oils and Oil Spill Chemical Treatments in Laboratory Microcosms|Environ. Pollut.122(2): 205-215|2003|10.1016/S0269-7491(02)00294-4
78107|T||Couillard,C.M., and F.A. Leighton|Sequential Study of the Pathology of Prudhoe Bay Crude Oil in Chicken Embryos|Ecotoxicol. Environ. Saf.19(1): 17-23|1990|10.1016/0147-6513(90)90074-F
78108|T||Couillard,C.M., and F.A. Leighton|Critical Period of Sensitivity to Petroleum Toxicity in the Chicken Embryo|Environ. Toxicol. Chem.10(2): 249-253|1991|10.1002/etc.5620100214
78109|T||Hughes,M.R., C. Kasserra, and B.R. Thomas|Effect of Externally Applied Bunker Fuel on Body Mass and Temperature, Plasma Concentration, and Water Flux of Glaucous-Winged Gulls, Larus glaucescens|Can. J. Zool.68(4): 716-721|1990|10.1139/z90-104
78110|T||Fry,D.M., J. Swenson, L.A. Addiego, C.R. Grau, and A. Kang|Reduced Reproduction of Wedge-Tailed Shearwaters Exposed to Weathered Santa Barbara Crude Oil|Arch. Environ. Contam. Toxicol.15(4): 453-463|1986|10.1007/BF01066414
78111|T||Mckee,R.H., W.A. Stubblefield, S.C. Lewis, R.A. Scala, G.S. Simon, and L.R. DePass|Evaluation of the Dermal Carcinogenic Potential of Tar Sands Bitumen-Derived Liquids|Fundam. Appl. Toxicol.7(2): 228-235|1986|10.1016/0272-0590(86)90152-1
78112|T||Couillard,C.M., and F.A. Leighton|The Toxicopathology of Prudhoe Bay Crude Oil in Chicken Embryos|Fundam. Appl. Toxicol.14(1): 30-39|1990|10.1016/0272-0590(90)90228-C
78113|A||Woodward,D.F., R.G. Riley, and C.E. Smith|Accumulation, Sublethal Effects and Safe Concentration of a Refined Oil as Evaluated with Cutthroat Trout|Arch. Environ. Contam. Toxicol.12(4): 455-464|1983|10.1007/BF01057589
78114|A||Ramusino,M.C., P. Dellavedova, and D. Zanzottera|Effects of Crude Dubai Oil on Salmo gairdneri Rich. and Carassius auratus L.|Bull. Environ. Contam. Toxicol.32(3): 368-376|1984|10.1007/BF01607511
78115|A||Folmar,L.C., D.R. Craddock, J.W. Blackwell, G. Joyce, and H.O. Hodgins|Effects of Petroleum Exposure on Predatory Behavior of Coho Salmon (Oncorhynchus kisutch )|Bull. Environ. Contam. Toxicol.27(4): 458-462|1981|10.1007/BF01611048
78116|A||Cada,G.F., and M. Kenna|Effectiveness of Hydrotreatment in Reducing the Toxicity of a Coal Liquefaction Product to Juvenile Channel Catfish|Bull. Environ. Contam. Toxicol.34(5): 746-753|1985|10.1007/BF01609802
78117|T||Couillard,C.M., and F.A. Leighton|Comparative Pathology of Prudhoe Bay Crude Oil and Inert Shell Sealants in Chicken Embryos|Fundam. Appl. Toxicol.13(1): 165-173|1989|10.1016/0272-0590(89)90316-3
78118|A||Prasad,M.S.|Toxicity of Crude Oil to the Metabolism of Freshwater Minor Carp, Puntius sophore|Bull. Environ. Contam. Toxicol.39(2): 188-193|1987|10.1007/BF01689405
78119|A||Stickle,W.B.,Jr., S.D. Rice, C. Villars, and W. Metcalf|Bioenergetics and Survival of the Marine Mussel, Mytilus edulis L., During Long-Term Exposure to the Water-Soluble Fraction of Cook Inlet Crude Oil|In: F.J.Vernberg, et al.(Eds.), Belle W.Baruch Lib.in Mar.Sci., Marine Pollution and Physiology: Recent Advances, Meeting, Nov.1-3, 1993, Mystic, CT, Univ.of South Carolina Press, Columbia, SC13:427-446|1985|
78120|T||Smith,J.H., M.G. Bird, S.C. Lewis, J.J. Freeman, G.K. Hogan, and R.A. Scala|Subchronic Feeding Study of Four White Mineral Oils in Dogs and Rats|Drug Chem. Toxicol.18(1): 83-103|1995|10.3109/01480549509017859
78121|A||Riebel,P.N., and J.A. Percy|Acute Toxicity of Petroleum Hydrocarbons to the Arctic Shallow-Water Mysid, Mysis oculata (Fabricius)|Sarsia75(3): 223-232|1990|10.1080/00364827.1990.10413451
78122|A||Reddin,A., and G.N. Prendeville|Effect of Oils on Cell Membrane Permeability in Fucus serratus and Laminaria digitata|Mar. Pollut. Bull.12(10): 339-342|1981|10.1016/0025-326X(81)90107-7
78123|T||Morikawa,Y., Y. Katsumoto, T. Okada, and F. Sasaki|Pulmonary Hypoplasia Induced by Liquid Paraffin Injection into Fetal Thoracic Cavity with Special Reference to Renal Development in Rats|J. Vet. Med. Sci.62(2): 135-140|2000|10.1292/jvms.62.135
78124|T||Fernandez,D.E., E.H. Beers, J.F. Brunner, M.E. Doerr, and J.E. Dunley|Mineral Oil Inhibition of White Apple Leafhopper (Homoptera:  Cicadellidae) Oviposition|J. Entomol. Sci.36(3): 237-243|2001|10.18474/0749-8004-36.3.237
78125|T||Beattie,G.A.C., Z.M. Liu, D.M. Watson, A.D. Clift, and L. Jiang|Evaluation of Petroleum Spray Oils and Polysaccharides for Control of Phyllocnistis citrella Stainton (Lepidoptera:  Gracillariidae)|J. Aust. Entomol. Soc.34(4): 349-353|1995|10.1111/j.1440-6055.1995.tb01353.x
78126|T||Lo,P.L.|Toxicity of Pesticides to Halmus chalybeus (Coleoptera:  Coccinellidae) and the Effect of Three Fungicides on Their Densities in a Citrus Orchard|N. Z. J. Crop Hortic. Sci.32(1): 69-76|2004|10.1080/01140671.2004.9514281
78127|T||Herron,G.A., G.A.C. Beattie, R.A. Parkes, and I. Barchia|Potter Spray Tower Bioassay of Selected Citrus Pests to Petroleum Spray Oil|J. Aust. Entomol. Soc.34(3): 255-263|1995|10.1111/j.1440-6055.1995.tb01334.x
78128|T||Hazzard,R.V., B.B. Schultz, E. Groden, E.D. Ngollo, and E. Seidlecki|Evaluation of Oils and Microbial Pathogens for Control of Lepidopteran Pests of Sweet Corn in New England|J. Econ. Entomol.96(6): 1653-1661|2003|10.1093/jee/96.6.1653
78129|T||Sudoi,V.|Effects of Insecticides on Mortality of Fried Egg Scale (Aspidiotus sp. Homoptera:  Diaspidae) on Tea|Tests Agrochem. Cultiv.12:26-27|1991|
78130|T||Rock,G.C., and K.W. Crabtree|Biological Activity of Petroleum and Cottonseed Oils Against Two Tetranychid Mite Species and Two Tortricid Insect Species Found on Apple|J. Agric. Entomol.4(3): 247-253|1987|
78131|T||Liu,T.X., and P.A. Stansly|Toxicity of Biorational Insecticides to Bemisia argentifolii (Homoptera:  Aleyrodidae) on Tomato Leaves|J. Econ. Entomol.88(3): 564-568|1995|10.1093/jee/88.3.564
78132|T||Liang,G., and T.X. Liu|Repellency of a Kaolin Particle Film, Surround, and a Mineral Oil, Sunspray Oil, to Silverleaf Whitefly (Homoptera:  Aleyrodidae) on Melon in the Laboratory|J. Econ. Entomol.95(2): 317-324|2002|10.1603/0022-0493-95.2.317
78133|T||Singh,K., V.K. Sharma, and P.S. Shant|Efficacy of Insecticide Soaked Cotton Plugs Against Caterpillar of Indarbela sp. (Lepidoptera:  Metarbelidae) Infesting Guava Trees|Pesticides 22(9): 19-20|1988|
78134|T||Rae,D.J., D.M. Watson, W.G. Liang, B.L. Tan, M. Li, M.D. Huang, Y. Ding, J.J. Xiong, D.P. Du, J. Tang, and G.A.C. Beatt|Comparison of Petroleum Spray Oils, Abamectin, Cartap, and Methomyl for Control of Citrus Leafminer (Lepidoptera:  Gracillariidae) in Southern China|J. Econ. Entomol.89(2): 493-500|1996|10.1093/jee/89.2.493
78135|A||Chen,C.Y., K.B. Sillett, C.L. Folt, S.L. Whittemore, and A. Barchowsky|Molecular and Demographic Measures of Arsenic Stress in Daphnia pulex|Hydrobiologia (Multiple Languages)401:229-238|1999|10.1023/A:1003738427354
78137|T||Priestly,J.|Observations on the Physiological Action of Chromium|J. Anat. Physiol.11:285-300|1877|
78139|T||Feuston,M.H., C.R. Mackerer, C.A. Schreiner, and C.E. Hamilton|Systemic Toxicity of Dermally Applied Crude Oils in Rats|J. Toxicol. Environ. Health51(4): 387-399|1997|10.1080/00984109708984032
78140|A||Payne,J.F., J. Kiceniuk, L.L. Fancey, U. Williams, G.L. Fletcher, A. Rahimtula, and B. Fowler|What is a Safe Level of Polycyclic Aromatic Hydrocarbons for Fish:  Subchronic Toxicity Study on Winter Flounder (Pseudopleuronectes americanus)|Can. J. Fish. Aquat. Sci.45(11): 1983-1993|1988|10.1139/f88-231
78141|A||Middaugh,D.P., P.J. Chapman, and M.E. Shelton|Responses of Embryonic and Larval Inland Silversides, Menidia beryllina, to a Water-Soluble Fraction Formed During Biodegradation of Artificially Weathered Alaska North Slope Crude Oil|Arch. Environ. Contam. Toxicol.31(3): 410-419|1996|10.1007/BF00212681
78142|T||Leighton,F.A., Y.Z. Lee, A.D. Rahimtula, P.J. O'Brien, and D.B. Peakall|Biochemical and Functional Disturbances in Red Blood Cells of Herring Gulls Ingesting Prudhoe Bay Crude Oil|Toxicol. Appl. Pharmacol.81(1): 25-31|1985|10.1016/0041-008X(85)90116-4
78143|AT||Lee,Y.Z., P.J. O' Brien, J.F. Payne, and A.D. Rahimtula|Toxicity of Petroleum Crude Oils and Their Effect on Xenobiotic Metabolizing Enzyme Activities in the Chicken Embryo In Ovo|Environ. Res.39(1): 153-163|1986|10.1016/S0013-9351(86)80017-2
78144|T||Lee,Y.Z., F.A. Leighton, D.B. Peakall, R.J. Norstrom, P.J. O'Brien, J.F. Payne, and A.D. Rahimtula|Effects of Ingestion of Hibernia and Prudhoe Bay Crude Oils on Hepatic and Renal Mixed Function Oxidase in Nestling Herring Gulls (Larus argentatus)|Environ. Res.36(1): 248-255|1985|10.1016/0013-9351(85)90022-2
78145|T||Gorsline,J., and W.N. Holmes|Adrenocortical Function and Hepatic Naphthalene Metabolism in Mallard Ducks (Anas platyrhynchos) Consuming Petroleum Distillates|Environ. Res.28(1): 139-146|1982|10.1016/0013-9351(82)90162-1
78147|T||Gorsline,J., and W.N. Holmes|Ingestion of Petroleum by Breeding Mallard Ducks:  Some Effects on Neonatal Progeny|Arch. Environ. Contam. Toxicol.11(2): 147-153|1982|10.1007/BF01054890
78148|A||Kiceniuk,J.W., R.A. Khan, M. Dawe, and U. Williams|Examination of Interaction of Trypanosome Infection and Crude Oil Exposure on Hematology of the Longhorn Sculpin (Myoxocephalus octodecemspinosus)|Bull. Environ. Contam. Toxicol.28(4): 435-438|1982|10.1007/BF01607707
78149|A||Dean,T.A., S.C. Jewett, D.R. Laur, and R.O. Smith|Injury to Epibenthic Invertebrates Resulting from the Exxon Valdez Oil Spill|In: S.D.Rice, R.B.Spies, D.A.Wolfe, and B.A.Wright (Eds.), Proc.of the Exxon Valdez Oil Spill Symp.held at Anchorage, Alaska, Feb.2-5, 1993, Am.Fish.Soc.Symp., Am.Fish.Soc., MD18:424-439|1996|
78150|A||Carls,M.G., L. Holland, M. Larsen, J.L. Lum, D.G. Mortensen, S.Y. Wang, and A.C. Wertheimer|Growth, Feeding, and Survival of Pink Salmon Fry Exposed to Food Contaminated with Crude Oil|Am. Fish. Soc. Symp.18:608-618|1996|
78151|T||Ben-David,M., L.K. Duffy, and R.T. Bowyer|Biomarker Responses in River Otters Experimentally Exposed to Oil Contamination|J. Wildl. Dis.37(3): 489-508|2001|10.7589/0090-3558-37.3.489
78152|T||Mazet,J.A., I.A. Gardner, D.A. Jessup, and L.J. Lowenstine|Effects of Petroleum on Mink Applied as a Model for Reproductive Success in Sea Otters|J. Wildl. Dis.37(4): 686-692|2001|10.7589/0090-3558-37.4.686
78153|A||Chakraborty,A., S. Bhattacharjee, and M. Chatterjee|Alterations in Enzymes in an Indian Catfish, Clarias batrachus (Linn.), Exposed to Vanadium|Bull. Environ. Contam. Toxicol.54(2): 281-288|1995|10.1007/BF00197442
78154|A||Kocan,R.M., J.E. Hose, E.D. Brown, and T.T. Baker|Pacific Herring (Clupea pallasi) Embryo Sensitivity to Prudhoe Bay Petroleum Hydrocarbons:  Laboratory Evaluation and In Situ Exposure at Oiled and Unoiled Sites in Prince William Sound|Can. J. Fish. Aquat. Sci.53(10): 2366-2375|1996|
78155|A||Marty,G.D., J.E. Hose, M.D. McGurk, E.D. Brown, and D.E. Hinton|Histopathology and Cytogenetic Evaluation of Pacific Herring Larvae Exposed to Petroleum Hydrocarbons in the Laboratory or in Prince William Sound, Alaska, After the Exxon Valdez Oil Spill|Can. J. Fish. Aquat. Sci.54(8): 1846-1857|1997|10.1139/f97-091
78156|A||Carls,M.G., G.D. Marty, T.R. Meyers, R.E. Thomas, and S.D. Rice|Expression of Viral Hemorrhagic Septicemia Virus in Prespawning Pacific Herring (Clupea pallasi) Exposed to Weathered Crude Oil|Can. J. Fish. Aquat. Sci.55(10): 2300-2309|1998|10.1139/f98-116
78157|A||Khan,R.A.|Effects of Chronic Exposure to Petroleum Hydrocarbons on Two Species of Marine Fish Infected with a Hemoprotozoan, Trypanosoma murmanensis|Can. J. Zool.65(11): 2703-2709|1987|10.1139/z87-410
78158|A||Kiceniuk,J.W., and R.A. Khan|Effect of Petroleum Hydrocarbons on Atlantic Cod, Gadus morhua, Following Chronic Exposure|Can. J. Zool.65(3): 490-494|1987|10.1139/z87-076
78160|A||Payne,J.F., and L.L. Fancey|Effect of Long Term Exposure to Petroleum on Mixed Function Oxygenases in Fish:  Further Support for Use of the Enzyme System in Biological Monitoring|Chemosphere11(2): 207-213|1982|10.1016/0045-6535(82)90168-0
78161|A||Brand,D.G., R. Fink, W. Bengeyfield, I.K. Birtwell, and C.D. McAllister|Salt Water-Acclimated Pink Salmon Fry (Oncorhynchus gorbuscha) Develop Stress-Related Visceral Lesions After 10-Day Exposure to Sublethal Concentrations of the Water-Soluble Fraction of North Slope Crude Oil|Toxicol. Pathol.29(5): 574-584|2001|10.1080/019262301317226384
78162|T||Zidan,Z.H., M.I. Abdel-Megeed, W.M. Watson, and A.K. Sobeiha|Ovicidal Activity of Certain Mineral Oils, Organic Insecticides and Their Mixtures Against the Cotton Leafworm, Spodoptera littoralis (Boisd.) (Lepidoptera:  Noctuidae)|Appl. Entomol. Zool.22(3): 241-247|1987|10.1303/aez.22.241
78163|T||Beattie,G.A.C., A.D. Clift, W.J. Allender, and L. Jiang|Efficacies of Low- to High-Volume (960-10 700 Liter/ha) Citrus Sprayers for Applying Petroleum Spray Oil to Control Chinese Wax Scale|Pestic. Sci.32(1): 47-56|1991|10.1002/ps.2780320106
78164|T||Firriolo,J.M., C.F. Morris, G.W. Trimmer, L.D. Twitty, J.H. Smith, and J.J. Freeman|Comparative 90-Day Feeding Study with Low-Viscosity White Mineral Oil in Fischer-344 and Sprague-Dawley-Derived CRL:CD Rats|Toxicol. Pathol.23(1): 26-33|1995|10.1177/019262339502300104
78165|T||Bickham,J.W., J.A. Mazet, J. Blake, M.J. Smolen, Y. Lou, and B.E. Ballachey|Flow Cytometric Determination of Genotoxic Effects of Exposure to Petroleum in Mink and Sea Otters|Ecotoxicology7(4): 191-199|1998|10.1023/A:1008930626834
78166|T||Kuroda,Y., J. Akaogi, D.C. Nacionales, S.C. Wasdo, N.J. Szabo, W.H. Reeves, and M. Satoh|Distinctive Patterns of Autoimmune Response Induced by Different Types of Mineral Oil|Toxicol. Sci.78(2): 222-228|2004|10.1093/toxsci/kfh063
78167|T||Nemni,R., R. Fazio, M. Corbo, C. Sacchi, S. Smirne, and N. Canal|Peripheral Neuropathy Associated with Experimental Plasma Cell Neoplasm in the Mouse|J. Neurol. Sci.77(2-3): 321-329|1987|10.1016/0022-510X(87)90131-6
78168|A||Carls,M.G., S.D. Rice, and J.E. Hose|Sensitivity of Fish Embryos to Weathered Crude Oil:  Part I.  Low-Level Exposure During Incubation Causes Malformations, Genetic Damage, and Mortality in Larval Pacific Herring (Clupea pallasi)|Environ. Toxicol. Chem.18(3): 481-493|1999|
78169|A||Kasymov,A.G., and V.M. Gasanov|Effect of Oils and Oil-Products on Crustaceans|Water Air Soil Pollut.36(1-2): 9-22|1987|10.1007/BF00450616
78171|A||Barron,M.G., M.G. Carls, J.W. Short, and S.D. Rice|Photoenhanced Toxicity of Aqueous Phase and Chemically Dispersed Weathered Alaska North Slope Crude Oil to Pacific Herring Eggs and Larvae|Environ. Toxicol. Chem.22(3): 650-660|2003|10.1002/etc.5620220326
78172|A||Thomas,R.E., S.D. Rice, M.M. Babcock, and A. Moles|Differences in Hydrocarbon Uptake and Mixed Function Oxidase Activity Between Juvenile and Spawning Adult Coho Salmon (Oncorhynchus kisutch) Exposed to Cook Inlet Crude Oil|Comp. Biochem. Physiol. C Comp. Pharmacol.93(1): 155-159|1989|10.1016/0742-8413(89)90026-1
78173|A||Keinanen,M., C. Tigerstedt, S. Peuranen, and P.J. Vuorinen|The Susceptibility of Early Developmental Phases of an Acid-Tolerant and Acid-Sensitive Fish Species to Acidity and Aluminum|Ecotoxicol. Environ. Saf.58(2): 160-172|2004|10.1016/j.ecoenv.2004.03.005
78174|A||Correa,M., R. Coler, C.M. Yin, and E. Kaufman|Oxygen Consumption and Ammonia Excretion in the Detritivore Caddisfly Limnephillus sp. Exposed to Low pH & Aluminum|Hydrobiologia (Multiple Languages)140(3): 237-241|1986|10.1007/BF00007438
78175|T||Capdevielle,M.C., R.V. Carsia, and C.G. Scanes|Effect of Acid or Aluminum on Growth and Adrenal Function in Young Chickens|Gen. Comp. Endocrinol.103(1): 54-59|1996|10.1006/gcen.1996.0093
78176|T||Min,K.S., F. Morishita, N. Tetsuchikawahara, and S. Onosaka|Induction of Hepatic and Renal Metallothionein Synthesis by Ferric Nitrilotriacetate in Mice: The Role of MT as an Antioxidant|Toxicol. Appl. Pharmacol.204(1): 9-17|2005|10.1016/j.taap.2004.08.014
78177|T||Mohanty,S., A.B. Das, P. Das, and P. Mohanty|Effect of a Low Dose of Aluminum on Mitotic and Meiotic Activity, 4C DNA Content, and Pollen Sterility in Rice, Oryza sativa L. cv. Lalat|Ecotoxicol. Environ. Saf.59(1): 70-75|2004|10.1016/j.ecoenv.2003.07.017
78178|T||Schuster,D.J.|Petroleum Oils for Management of the Sweetpotato Whitefly and Geminivirus on Fresh Market Tomatoes in West-Central Florida, Fall, 1990|Insectic. Acaric. Tests17:164-166|1992|10.1093/iat/17.1.164
78179|A||Riebell,P.N., and J.A. Percy|Acute Toxicity of Petroleum Hydrocarbons to the Arctic Littoral Mysid, Mysis oculata (Fabricius)|In: Proc. 12th Arctic and Marine Oil Spill Prog. Tech. Semin. , Environ. Can. :161-185|1989|
78180|T||Schuster,D.J.|Evaluation of Petroleum Oils for Management of the Sweetpotato Whitefly and Geminivirus on Fresh Market Tomatoes in West-Central Florida, Spring, 1990|Insectic. Acaric. Tests17:162-|1992|10.1093/iat/17.1.162
78181|T||Ziccardi,M.H., J.A.K. Mazet, I.A. Gardner, W.M. Boyce, and M.S. Denison|Validation of a Cell Culture Bioassay for Detection of Petroleum Exposure in Mink (Mustela vison) as a Model for Detection in Sea Otters (Enhydra lutris)|Am. J. Vet. Res.63(7): 963-968|2002|10.2460/ajvr.2002.63.963
78182|T||Lemke,L.A., and J.B. Kissam|Evaluation of Various Insecticides and Home Remedies for Control of Individual Red Imported Fire Ant Colonies|J. Entomol. Sci.22(3): 275-281|1987|10.18474/0749-8004-22.3.275
78183|T||Mazet,J.K., I.A. Gardner, D.A. Jessup, L.J. Lowenstine, and W.M. Boyce|Evaluation of Changes in Hematologic and Clinical Biochemical Values After Exposure to Petroleum Products in Mink (Mustela vison) as a Model for Assessment of Sea Otters (Enhydra lutris)|Am. J. Vet. Res.61(10): 1197-1203|2000|10.2460/ajvr.2000.61.1197
78184|T||Osman,M.S.|Petroleum Oils as a Component of Integrated Pest Management of Phytophagous Mites|Arab Gulf J. Sci. Res.15(1): 125-135|1997|
78185|T||Herron,G.A., G.A.C. Beattie, A. Kallianpur, and I. Barchia|A Potter Spray Tower Bioassay of Two Petroleum Spray Oils Against Adult Female Panonychus ulmi (Koch) and Tetranychus urticae Koch (Acari:  Tetranychidae)|Exp. Appl. Acarol.22(9): 553-558|1998|10.1023/A:1006033706589
78186|T||Herron,G., L. Jiang, and R. Spooner-Hart|A Laboratory-Based Method to Measure Relative Pesticide and Spray Oil Efficacy Against Broad Mite, Polyphagotarsonemus latus (Banks) (Acari:  Tarsonemidae)|Exp. Appl. Acarol.20(9): 495-502|1996|10.1007/BF00048282
78187|T||Khan,S., J.F. Payne, and A.D. Rahimtula|Mechanisms of Petroleum Hydrocarbon Toxicity:  Functional Changes in Rat Liver Mitochondria After Exposure to a Prudhoe Bay Crude Oil|Toxicol. Lett.32(1/2): 141-146|1986|10.1016/0378-4274(86)90060-3
78188|T||George,S.E., G.M. Nelson, M.J. Kohan, S.H. Warren, B.T. Eischen, and L.R. Brooks|Oral Treatment of Fischer 344 Rats with Weathered Crude Oil and a Dispersant Influences Intestinal Metabolism and Microbiota|J. Toxicol. Environ. Health Part A63(4): 297-316|2001|10.1080/15287390151143686
78189|A||Mikhaylova,M.V.|Effect of Water-Soluble Fraction of Ust-Balyk Petroleum on the Early Ontogeny of the Sterlet (Acipenser ruthenus)|Hydrobiol. J.27(6): 1-10|1991|
78190|A||Wheelock,C.E., T.A. Baumgartner, J.W. Newman, M.F. Wolfe, and R.S. Tjeerdema|Effect of Nutritional State on Hsp60 Levels in the Rotifer Brachionus plicatilis Following Toxicant Exposure|Aquat. Toxicol.61(1-2): 89-93|2002|10.1016/S0166-445X(02)00044-9
78191|A||Chen,M., and Z. Wu|Effects of Shengli Crude Oil on Embryos and Larvae of Marine Fish, Scallop and Shrimp|Collect. Ocean. Works20:94-101|1997|
78192|T||Lusimbo,W.S., and F.A. Leighton|Effects of Prudhoe Bay Crude Oil on Hatching Success and Associated Changes in Pipping Muscles in Embryos of Domestic Chickens (Gallus gallus)|J. Wildl. Dis.32(2): 209-215|1996|10.7589/0090-3558-32.2.209
78193|T||Adler,K.L., P.H. Peng, R.K. Peng, and K.C. Klasing|The Kinetics of Hemopexin and alpha1-Acid Clycoprotein Levels Induced by Injection of Inflammatory Agents in Chickens|Avian Dis.45(2): 289-296|2001|10.2307/1592967
78194|A||Gaur,J.P., and A.K. Singh|Growth, Photosynthesis and Nitrogen Fixation of Anabaena doliolum Exposed to Assam Crude Extract|Bull. Environ. Contam. Toxicol.44(3): 494-500|1990|10.1007/BF01701235
78195|A||Rogerson,A., J. Berger, and C.M. Grosso|Acute Toxicity of Ten Crude Oils on the Survival of the Rotifer Asplanchna sieboldi and Sublethal Effects on Rates of Prey Consumption and Neonate Production|Environ. Pollut. A.29(3): 179-188|1982|10.1016/0143-1471(82)90162-3
78196|T||Loury,D.J., T. Smith-Oliver, and B.E. Butterworth|Assessment of Unscheduled and Replicative DNA Synthesis in Rat Kidney Cells Exposed In Vitro or In Vivo to Unleaded Gasoline|Toxicol. Appl. Pharmacol.87(1): 127-140|1987|10.1016/0041-008X(87)90091-3
78197|T||Verkkala,E., P. Pfaffli, and H. Savolainen|Comparison of Local Neurotoxicity of Three White Spirit Formulation by Percutaneous Exposure of Rat Tail Nerve|Toxicol. Lett.21(3): 293-299|1984|10.1016/0378-4274(84)90086-9
78198|T||Nwokolo,E., and L.O.C. Ohale|Growth and Anatomical Characteristics of Pullet Chicks Fed Diets Contaminated with Crude Petroleum|Bull. Environ. Contam. Toxicol.37(3): 441-447|1986|10.1007/BF01607786
78199|T||Poon,R., I. Chu, D.C. Villeneuve, and V.E. Valli|Short-Term Toxicity of Bitumen Upgrading Products in the Rat Following Repeated Dermal Exposure|Fundam. Appl. Toxicol.23(2): 237-250|1994|10.1006/faat.1994.1102
78200|T||Przygoda,R.T., J.J. Freeman, S. Katz, and R.H. Mckee|Increased Frequency of Resistance to Terminal Differentiation in C3H Mouse Cells Produced by Genotoxic but not Nongenotoxic Carcinogens|Fundam. Appl. Toxicol.23(2): 261-267|1994|10.1006/faat.1994.1104
78201|T||Burnham,K., and M. Bey|Effects of Crude Oil and Ultraviolet Radiation on Immunity Within Mouse Skin|J. Toxicol. Environ. Health34(1): 83-93|1991|10.1080/15287399109531549
78202|T||Standeven,A.M., and T.L. Goldsworthy|Identification of Hepatic Mitogenic and Cytochrome P-450-Inducing Fractions of Unleaded Gasoline in B6C3F1 Mice|J. Toxicol. Environ. Health43(2): 213-224|1994|10.1080/15287399409531916
78203|A||Camus,L., M.B. Jones, J.F. Borseth, F. Regoli, and M.H. Depledge|Heart Rate, Respiration and Total Oxyradical Scavenging Capacity of the Arctic Spider Crab, Hyas araneus, Following Exposure to Polycyclic Aromatic Compounds via Sediment and Injection|Aquat. Toxicol.61(1-2): 1-13|2002|10.1016/S0166-445X(02)00013-9
78204|A||Hamdoun,A.M., F.J. Griffin, and G.N. Cherr|Tolerance to Biodegraded Crude Oil in Marine Invertebrate Embryos and Larvae is Associated with Expression of a Multixenobiotic Resistance Transporter|Aquat. Toxicol.61(1-2): 127-140|2002|10.1016/S0166-445X(02)00050-4
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78206|T||Banerjee,U., S. Mandal, and D.K. Choudhuri|Quantification of Acetylcholinesterase, Acid and Alkaline Phosphatases in the Central Nervous System of Schizodactylus monstrosus, D. (Schizodactylidae:  Orthoptera):  Effect of Topical Application of the Pyrethrum|Neurochem. Int.6(3): 383-386|1984|10.1016/0197-0186(84)90081-0
78207|A||Moles,A.|Sensitivity of Ten Aquatic Species to Long-Term Crude Oil Exposure|Bull. Environ. Contam. Toxicol.61(1): 102-107|1998|10.1007/s001289900735
78208|A||Gaur,J.P., and H.D. Kumar|Growth Response of Four Micro-Algae to Three Crude Oils and a Furnace Oil|Environ. Pollut. A.25(1): 77-85|1981|10.1016/0143-1471(81)90116-1
78209|T||Garg,B.D., M.J. Olson, L.C. Li, and A.K. Roy|Phagolysosomal Alterations Induced by Unleaded Gasoline in Epithelial Cells of the Proximal Convoluted Tubules of Male Rats:  Effect of Dose and Treatment Duration|J. Toxicol. Environ. Health26(1): 101-118|1989|10.1080/15287398909531236
78210|A||Kurelec,B., A. Garg, S. Krca, S. Britvic, D. Lucic, and R.C. Gupta|DNA Adducts in Carp Exposed to Artificial Diesel-2 Oil Slicks|Eur. J. Pharmacol.228(1): 51-56|1992|
78211|A||Davis,H.K., C.F. Moffat, and N.J. Shepherd|Experimental Tainting of Marine Fish by Three Chemically Dispersed Petroleum Products, with Comparisons to the Braer Oil Spill|Spill Sci. Technol. Bull.7(5-6): 257-278|2002|
78212|A||Hasselberg,L., S. Meier, and A. Svardal|Effects of Alkylphenols on Redox Status in First Spawning Atlantic Cod (Gadus morhua)|Aquat. Toxicol.69(1): 95-105|2004|10.1016/j.aquatox.2004.04.004
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78214|A||Berge,J.A., K.I. Johannessen, and L.O. Reiersen|Effects of the Water Soluble Fraction of North Sea Crude Oil on the Swimming Activity of the Sand Goby, Pomatoschistus minutus (Pallas)|J. Exp. Mar. Biol. Ecol.68(2): 159-167|1983|10.1016/0022-0981(83)90157-0
78215|A||Singh,A.K., and J.P. Gaur|Inhibition of NO3-, NH4+, and PO4(3-) Uptake in Anabaena doliolum Exposed to a Petroleum Oil|Ecotoxicol. Environ. Saf.21(2): 103-108|1991|10.1016/0147-6513(91)90013-F
78216|A||Sarojini,R., A.K. Khan, and R. Nagabhushanam|Effect of Petroleum Hydrocarbons (Petrol and Diesel) on the Physiology of the Crab, Barytelphusa cunicularis 1-Oxygen Consumption|J. Environ. Biol.10(4): 363-365|1989|
78217|A||Cowles,T.J., and J.F. Remillard|Effects of Exposure to Sublethal Concentrations of Crude Oil on the Copepod Centropages hamatus.  I.  Feeding and Egg Production|Mar. Biol.78(1): 45-51|1983|10.1007/BF00392970
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78435|T||Institoris,L., O. Siroki, U. Undeger, N. Basaran, and I. Desi|Immunotoxicological Investigation of Subacute Combined Exposure by Permethrin and the Heavy Metals Arsenic(III) and Mercury(II) in Rats|Int. Immunopharmacol.1(5): 925-933|2001|10.1016/S1567-5769(01)00029-7
78441|T||Sipowicz,M.A., L.M. Anderson, W.,Jr. Utermahlen, H.J. Issaq, and K.S. Kasprzak|Uptake and Tissue Distribution of Chromium(III) in Mice After a Single Intraperitoneal or Subcutaneous Administration|Toxicol. Lett.93(1): 9-14|1997|10.1016/S0378-4274(97)00064-7
78444|T||Tandon,S.K., D.K. Saxena, J.S. Gaur, and S.V. Chandra|Comparative Toxicity of Trivalent and Hexavalent Chromium:  Alterations in Blood and Liver|Environ. Res.15(1): 90-99|1978|10.1016/0013-9351(78)90082-8
78446|T||Choudhury,A.R., T. Das, and A. Sharma|Mustard Oil and Garlic Extract as Inhibitors of Sodium Arsenite-Induced Chromosomal Breaks In Vivo|Cancer Lett.121(1): 45-52|1997|10.1016/S0304-3835(97)00334-0
78458|T||Tu,C., and L.Q. Ma|Effects of Arsenic Concentrations and Forms on Arsenic Uptake by the Hyperaccumulator Ladder Brake|J. Environ. Qual.31(2): 641-647|2002|10.2134/jeq2002.6410
78461|T||Pickering,I.J., R.C. Prince, M.J. George, R.D. Smith, G.N. George, and D.E. Salt|Reduction and Coordination of Arsenic in Indian Mustard|Plant Physiol.122(4): 1171-1177|2000|10.1104/pp.122.4.1171
78467|T||Samways,M.J.|Combined Effect of Natural Enemies (Hymenoptera:  Aphelinidae and Coleoptera:  Coccinellidae) with Different Niche Breadths in Reducing high Populations of Red Scale, Aonidiella aurantii (Maskell) (Hemiptera:  Diaspidid|Bull. Entomol. Res.76(4): 671-683|1986|10.1017/S0007485300015169
78470|T||Walborg,E.F.,Jr., J. DiGiovanni, C.J. Conti, T.J. Slaga, J.J. Freeman, D.R. Steup, and C.M. Skisak|Short-Term Biomarkers of Tumor Promotion in Mouse Skin Treated with Petroleum Middle Distillates|Toxicol. Sci.45(2): 137-145|1998|
78471|T||Easley,J.R., J.M. Holland, L.C. Gipson, and M.J. Whitaker|Renal Toxicity of Middle Distillates of Shale Oil and Petroleum in Mice|Toxicol. Appl. Pharmacol.65(1): 84-91|1982|10.1016/0041-008X(82)90365-9
78472|A||Byrne,C.|Effects of the Water-Soluble Fractions of No. 2 Fuel Oil on the Cytokinesis of the Quahog Clam (Mercenaria mercenaria)|Bull. Environ. Contam. Toxicol.42(1): 81-86|1989|10.1007/BF01699207
78473|T||Keil,D.E., D.A. Warren, M.J. Jenny, J.G. EuDaly, J. Smythe, and M.M. Peden-Adams|Immunological Function in Mice Exposed to JP-8 Jet Fuel In Utero|Toxicol. Sci.76(2): 347-356|2003|10.1093/toxsci/kfg244
78474|A||Davison,W., C.E. Franklin, J.C. McKenzie, and P.W. Carey|The Effects of Chronic Exposure to the Water Soluble Fraction of Fuel Oil on an Antarctic Fish Pagothenia borchgrevinki|Comp. Biochem. Physiol. C Comp. Pharmacol.104(1): 67-70|1993|10.1016/0742-8413(93)90113-Y
78475|T||Schwartz,J.A., B.M. Aldridge, J.L. Stott, and F.C. Mohr|Immunophenotypic and Functional Effects of Bunker C Fuel Oil on the Immune System of American Mink (Mustela vison)|Vet. Immunol. Immunopathol.101(3-4): 179-190|2004|10.1016/j.vetimm.2004.04.015
78476|A||Marino-Balsa,J.C., P. Perez, P. Estevez-Blanco, L. Saco-Alvarez, E. Fernandez, and R. Beiras|Assessment of the Toxicity of Sediment and Seawater Polluted by the Prestige Fuel Spill Using Bioassays with Clams (Venerupis pullastra, Tappes decussatus and Venerupis rhomboideus) and the Microalga Skeletonema costatu|Cienc. Mar.29(1): 115-122|2003|10.7773/cm.v29i1.128
78477|A||El-Dib,M.A., H.F. Abou-Waly, and A.M.H. El-Naby|Impact of Fuel Oil on the Freshwater Alga Selenastrum capricornutum|Bull. Environ. Contam. Toxicol.59(3): 438-444|1997|10.1007/s001289900497
78478|A||Steadman,B.L., A.M. Farag, and H.L. Bergman|Exposure-Related Patterns of Biochemical Indicators in Rainbow Trout Exposed to No. 2 Fuel Oil|Environ. Toxicol. Chem.10(3): 365-374|1991|
78479|A||Steadman,B.L., W.A. Stubblefield, T.W. LaPoint, H.L. Bergman, and M.S. Kaiser|Decreased Survival of Rainbow Trout Exposed to No. 2 Fuel Oil Caused by Sublethal Preexposure|Environ. Toxicol. Chem.10(3): 355-363|1991|10.1002/etc.5620100308
78480|A||Oviatt,C., J. Frithsen, J. Gearing, and P. Gearing|Low Chronic Additions of No. 2 Fuel Oil: Chemical Behavior, Biological Impact and Recovery in a Simulated Estuarine Environment|Mar. Ecol. Prog. Ser.9(2): 121-136|1982|10.3354/meps009121
78481|A||Rudolph,A., R. Yanez, L. Troncoso, and R. Gonzalez|Stimulation of Enzymatic Defense Mechanisms and Appearance of Liver Damage in Juvenile Trout (Oncorhynchus mykiss) Exposed to Water-Accommodated Trace Petroleum Residues|Bull. Environ. Contam. Toxicol.68(5): 644-651|2002|10.1007/s001280303
78483|T||Mckee,R.H., and R.T. Plutnick|Carcinogenic Potential of Gasoline and Diesel Engine Oils|Fundam. Appl. Toxicol.13(3): 545-553|1989|10.1016/0272-0590(89)90291-1
78484|T||Ullrich,S.E., and H.J. Lyons|Mechanisms Involved in the Immunotoxicity Induced by Dermal Application of JP-8 Jet Fuel|Toxicol. Sci.58(2): 290-298|2000|10.1093/toxsci/58.2.290
78486|T||Xu,J.G., and R.L. Johnson|Nitrogen Dynamics in Soils with Different Hydrocarbon Contents Planted to Barley and Field Pea|Can. J. Soil Sci.77(3): 453-458|1997|10.4141/S96-046
78487|A||Gundersen,D.T., S.W. Kristanto, L.R. Curtis, S.N. Al-Yakoob, M.M. Metwally, and D. Al-Ajmi|Subacute Toxicity of the Water-Soluble Fractions of Kuwait Crude Oil and Partially Combusted Crude Oil on Menidia beryllina and Palaemonetes pugio|Arch. Environ. Contam. Toxicol.31(1): 1-8|1996|10.1007/BF00203901
78488|T||Kirk,J.L., J.N. Klironomos, H. Lee, and Jack T. Trevors|Phytotoxicity Assay to Assess Plant Species for Phytoremediation of Petroleum-Contaminated Soil|Bioremediat. J.6(1): 57-63|2002|10.1080/10889860290777477
78489|A||Middaugh,D.P., P.J. Chapman, M.E. Shelton, C.L.,Jr. McKenney, and L.A. Courtney|Effects of Fractions from Biodegraded Alaska North Slope Crude Oil on Embryonic Inland Silversides, Menidia beryllina|Arch. Environ. Contam. Toxicol.42(2): 236-243|2002|10.1007/s00244-001-0006-5
78490|A||Al-Yakoob,S.N., D. Gundersen, and L. Curtis|Effects of the Water-Soluble Fraction of Partially Combusted Crude Oil from Kuwait's Oil Fires (from Desert Storm) on Survival and Growth of the Marine Fish Menidia beryllina|Ecotoxicol. Environ. Saf.35(2): 142-149|1996|10.1006/eesa.1996.0093
78491|A||Little,E.E., L. Cleveland, R. Calfee, and M.G. Barron|Assessment of the Photoenhanced Toxicity of a Weathered Oil to the Tidewater Silverside|Environ. Toxicol. Chem.19(4): 926-932|2000|10.1002/etc.5620190420
78492|T||Palmer,I.S., R.L. Arnold, and C.W. Carlson|Toxicity of Various Selenium Derivatives to Chick Embryos|Poult. Sci.52:1841-1846|1973|10.3382/ps.0521841
78493|T||Stoeva,N., M. Berova, and Z. Zlatev|Physiological Response of Maize to Arsenic Contamination|Biol. Plant. (Praha)47(3): 449-452|2004|10.1023/B:BIOP.0000023893.12939.48
78495|A||Agrawal,V.P., K.A. Goel, and S.D. Sharma|Haematological Characteristics of Clarias batrachus Under the Metallic Stress of Hexavalent Chromium|Indian J. Fish.32(2): 272-275|1985|
78496|A||Turgut,C., and A. Fomin|The Ability of Myriophyllum aquaticum (Vell.) Verdcourt in the Uptake and the Translocation of Pesticides via Roots with a View to Using the Plants in Sediment Toxicity Testing|J. Appl. Bot.76(1/2): 62-65|2002|
78497|AT||Grossmann,K., R. Berghaus, and G. Retzlaff|Heterotrophic Plant Cell Suspension Cultures for Monitoring Biological Activity in Agrochemical Research.  Comparison with Screens Using Algae, Germinating Seeds and Whole Plants|Pestic. Sci.35(3): 283-289|1992|10.1002/ps.2780350314
78498|T||Su,Y.H., and Y.G. Zhu|Influence of Lead on Atrazine Uptake by Rice (Oryza sativa L.) Seedlings from Nutrient Solution|Environ. Sci. Pollut. Res.12(1): 21-27|2005|10.1065/espr2004.12.233
78499|A||Boutet,I., A. Tanguy, and D. Moraga|Molecular Identification and Expression of Two Non-P450 Enzymes, Monoamine Oxidase A and Flavin-Containing Monooxygenase 2, Involved in Phase I of Xenobiotic Biotransformation in the Pacific Oyster, Crassostrea gigas|Biochim. Biophys. Acta1679(1): 29-36|2004|10.1016/j.bbaexp.2004.04.001
78500|A||Wei,L.Y., and C.R. Vossbrinck|Degradation of Alachlor in Chironomid Larvae (Diptera:  Chironomidae)|J. Agric. Food Chem.40(9): 1695-1699|1992|10.1021/jf00021a043
78501|A||Couderchet,M., and P. Boger|Chloroacetamide-Induced Reduction of Fatty Acid Desaturation|Pestic. Biochem. Physiol.45(2): 91-97|1993|10.1006/pest.1993.1011
78502|AT||Couderchet,M., P.F. Bocion, R. Chollet, K. Seckinger, and P. Boger|Biological Activity of Two Stereoisomers of the N-Thienyl Chloroacetamide Herbicide Dimethenamid|Pestic. Sci.50(3): 221-227|1997|10.1002/(SICI)1096-9063(199707)50:3<221::AID-PS574>3.0.CO;2-T
78503|A||Wittmann,C., and B. Hock|Evaluation and Performance Characteristics of a Novel ELISA for the Quantitative Analysis of Atrazine in Water, Plants and Soil|Food Agric. Immunol.2(2): 65-74|1990|10.1080/09540109009354705
78507|T||Blair,L.M., and G.J. Taylor|The Nature of Interaction Between Aluminum and Manganese on Growth and Metal Accumulation in Triticum aestivum|Environ. Exp. Bot.37(1): 25-37|1997|10.1016/S0098-8472(96)01036-2
78508|T||Hauck,M., A. Paul, S. Gross, and M. Raubuch|Manganese Toxicity in Epiphytic Lichens:  Chlorophyll Degradation and Interaction with Iron and Phosphorus|Environ. Exp. Bot.49(2): 181-191|2003|10.1016/S0098-8472(02)00069-2
78510|T||Hussein,A.S., A.H. Cantor, and T.H. Johnson|Comparison of the Use of Dietary Aluminum with the Use of Feed Restriction for Force-Molting Laying Hens|Poult. Sci.68:891-896|1989|10.3382/ps.0680891
78517|T||Samantaray,S., S.S. Pani, G.R. Rout, and P. Das|Effect of Heavy Metals on Root Growth of Italian Millet (Setaria italica L.)|Fresenius Environ. Bull.7(5/6): 295-301|1998|
78518|T||Polak,L., and J.R. Frey|Studies on Contact Hypersensitivity to Chromium in the Guinea Pig.  Inhibition of the Migration of Macrophages by Chromium Salts|Int. Arch. Allergy Appl. Immunol.44(1): 51-61|1973|10.1159/000230917
78520|T||Thomine,S., R. Wang, J.M. Ward, N.M. Crawford, and J.I. Schroeder|Cadmium and Iron Transport by Members of a Plant Metal Transporter Family in Arabidopsis with Homology to Nramp Genes|Proc. Natl. Acad. Sci. U.S.A.97(9): 4991-4996|2000|10.1073/pnas.97.9.4991
78521|T||Diab,M., and R. Soremark|Radioautographic Observations on the Uptake and Distribution of Chromium-51 in Mice|Nucl. Med.11:419-427|1972|
78523|T||Venkata Ramana,V., and K. Sivarama Sastry|Chromium Toxicity in Neurospora crassa|J. Inorg. Biochem.56(2): 87-95|1994|10.1016/0162-0134(94)85040-2
78524|A||Rainbow,P.S., and W.X. Wang|Comparative Assimilation of Cd, Cr, Se, and Zn by the Barnacle Elminius modestus from Phytoplankton and Zooplankton Diets|Mar. Ecol. Prog. Ser.218:239-248|2001|10.3354/meps218239
78527|A||Bachmann,B., D.A. Hunter, and K.A. Francesconi|Accumulation and Fate of Ingested Tetramethylarsonium Ion in the Shrimp Crangon crangon|Appl. Organomet. Chem.13(10): 771-776|1999|10.1002/(SICI)1099-0739(199910)13:10<771::AID-AOC938>3.0.CO;2-8
78528|A||Takimura,O., H. Fuse, K. Murakami, K. Kamimura, and Y. Yamaoka|Uptake and Reduction of Arsenate by Dunaliella sp.|Appl. Organomet. Chem.10(9): 753-756|1996|10.1002/(SICI)1099-0739(199611)10:9<753::AID-AOC573>3.0.CO;2-V
78529|A||Benson,A.A.|Arsenic Depuration via the Tridacna Gill Membrane|Z. Naturforsch. Sect. C J. Biosci.45(7/8): 793-796|1990|10.1515/znc-1990-7-808
78531|T||Amrani,S., M. Rizki, A. Creus, and R. Marcos|Genotoxic Activity of Different Chromium Compounds in Larval Cells of Drosophila melanogaster, as Measured in the Wing Spot Test|Environ. Mol. Mutagen.34(1): 47-51|1999|10.1002/(SICI)1098-2280(1999)34:1<47::AID-EM7>3.0.CO;2-B
78532|T||Cikrt,M., and V. Bencko|Biliary Excretion and Distribution of 51Cr(III) and 51Cr(VI) in Rats|J. Hyg. Epidemiol. Microbiol. Immunol.23:241-246|1979|
78533|A||Huckle,J.W., A.P. Morby, J.S. Turner, and N.J. Robinson|Isolation of a Prokaryotic Metallothionein Locus and Analysis of Transcriptional Control by Trace Metal Ions|Mol. Microbiol.7(2): 177-187|1993|10.1111/j.1365-2958.1993.tb01109.x
78534|T||Simon,L., J. Csillag, and I. Szegvari|Impact of Picolinic Acid on the Chromium Accumulation in Fodder Radish and Komatsuna|Plant Soil254(2): 337-348|2003|10.1023/A:1025508310065
78535|A||Kuroiwa,T., I. Yoshihiko, A. Ohki, K. Naka, and S. Maeda|Tolerance, Bioaccumulation and Biotransformation of Arsenic in Freshwater Prawn (Macrobrachium rosenbergii)|Appl. Organomet. Chem.9(7): 517-523|1995|10.1002/aoc.590090704
78536|T||Mathur,A.K., and B.N. Gupta|Dermal Toxicity of Linear Alkylbenzene Sulfonate, Chromium, and Nickel in Guinea Pigs|J. Toxicol. Cutan. Ocul. Toxicol.17(4): 191-196|1998|10.3109/15569529809050156
78538|T||Li,W., P.K. Chien, and A. Furst|Evaluation of Three Antidotes on Arsenic Toxicity in the Common Earthworm (Lumbricus terrestris)|J. Appl. Toxicol.14(3): 181-183|1994|10.1002/jat.2550140306
78540|A||Boonyapookana,B., E.S. Upatham, M. Kruatrachue, P. Pokethitiyook, and S. Singhakaew|Phytoaccumulation and Phytotoxicity of Cadmium and Chromium in Duckweed Wolffia globosa|Int. J. Phytoremediat.4(2): 87-100|2002|10.1080/15226510208500075
78541|T||Athar,R., and M. Ahmad|Heavy Metal Toxicity in Legume-Microsymbiont System|J. Plant Nutr.25(2): 369-386|2002|10.1081/PLN-100108842
78543|A||Dambo,W.B.|Tolerance of the Periwinkles Pachymelania aurita (Muller) and Tympanotonus fuscatus (Linne) to Refined Oils|Environ. Pollut.79(3): 293-296|1993|10.1016/0269-7491(93)90103-U
78544|A||Cajaraville,M.P., J.A. Marigomez, and E. Angulo|Comparative Effects of the Water Accommodated Fraction of Three Oils on Mussels:  I.  Survival, Growth and Gonad Development.|Comp. Biochem. Physiol. C Comp. Pharmacol.102(1): 103-112|1992|10.1016/0742-8413(92)90051-8
78545|A||Cajaraville,M.P., J.A. Marigomez, and E. Angulo|Automated Measurement of Lysosomal Structure Alterations in Oocytes of Mussels Exposed to Petroleum Hydrocarbons|Arch. Environ. Contam. Toxicol.21(3): 395-400|1991|10.1007/BF01060362
78546|A||Akintonwa,A., and A.G. Ebere|Toxicity of Nigerian Crude Oil and Chemical Dispersants to Barbus sp. and Clarias sp.|Bull. Environ. Contam. Toxicol.45(5): 729-733|1990|10.1007/BF01700993
78547|A||Barron,M.G., T. Podrabsky, R.S. Ogle, J.E. Dugan, and R.W. Ricker|Sensitivity of the Mysid Mysidopsis bahia to a Weathered Oil|Bull. Environ. Contam. Toxicol.62(3): 266-271|1999|10.1007/s001289900869
78548|A||Barron,M.G., T. Podrabsky, R.S. Ogle, J.E. Dugan, and R.W. Ricker|Sensitivity of the Sand Crab Emerita analoga to a Weathered Oil|Bull. Environ. Contam. Toxicol.62(4): 469-475|1999|10.1007/s001289900899
78549|T||Pezeshki,S.R., R.D. DeLaune, and A. Jugsujinda|The Effects of Crude Oil and the Effectiveness of Cleaner Application Following Oiling on US Gulf of Mexico Coastal Marsh Plants|Environ. Pollut.112(3): 483-489|2001|10.1016/S0269-7491(00)00133-0
78550|T||Lin,Q., and I.A. Mendelssohn|The Combined Effects of Phytoremediation and Biostimulation in Enhancing Habitat Restoration and Oil Degradation of Petroleum Contaminated Wetlands|Ecol. Eng.10(3): 263-274|1998|10.1016/S0925-8574(98)00015-9
78551|A||Cajaraville,M.P., A. Orbea, I. Marigomez, and I. Cancio|Peroxisome Proliferation in the Digestive Epithelium of Mussels Exposed to the Water Accommodated Fraction of Three Oils|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(3): 233-242|1997|
78552|A||MacFarlane,G.R., D.J. Reid, and C.A. Esguerra|Sublethal Behavioral Effects of the Water Accommodated Fractions of Crude Oil to Gastropod Molluscs|Bull. Environ. Contam. Toxicol.72(5): 1025-1031|2004|10.1007/s00128-004-0346-8
78553|A||Lavarias,S., H. Heras, and R.J. Pollero|Toxicity, Uptake, and Release of the Water-Soluble Fraction of Crude Oil in Different Developing Stages of the Prawn Macrobrachium borellii|Arch. Environ. Contam. Toxicol.47(2): 215-222|2004|10.1007/s00244-004-3025-1
78554|A||Cleveland,L., E.E. Little, R.D. Calfee, and M.G. Barron|Photoenhanced Toxicity of Weathered Oil to Mysidopsis bahia|Aquat. Toxicol.49(1-2): 63-76|2000|10.1016/S0166-445X(99)00071-5
78555|A||Barron,M.G., T. Podrabsky, S. Ogle, and R.W. Ricker|Are Aromatic Hydrocarbons the Primary Determinant of Petroleum Toxicity to Aquatic Organisms?|Aquat. Toxicol.46(3-4): 253-268|1999|10.1016/S0166-445X(98)00127-1
78556|A||Hamoutene,D., J.F. Payne, A. Rahimtula, and K. Lee|Use of the Comet Assay to Assess DNA Damage in Hemocytes and Digestive Gland Cells of Mussels and Clams Exposed to Water Contaminated with Petroleum Hydrocarbons|Mar. Environ. Res.54(3-5): 471-474|2002|10.1016/S0141-1136(02)00162-9
78557|A||Macinnis-Ng,C.M.O., and P.J. Ralph|In Situ Impact of Petrochemicals on the Photosynthesis of the Seagrass Zostera capricorni|Mar. Pollut. Bull.46(11): 1395-1407|2003|10.1016/S0025-326X(03)00290-X
78558|A||Banks,P.D., and K.M. Brown|Hydrocarbon Effects on Fouling Assemblages:  The Importance of Taxonomic Differences, Seasonal, and Tidal Variation|Mar. Environ. Res.53(3): 311-326|2002|10.1016/S0141-1136(01)00124-6
78559|A||Ullrich,S.O.,Jr., and R.E. Millemann|Survival, Respiration, and Food Assimilation of Daphnia magna Exposed to Petroleum- and Coal-Derived Oils at Three Temperatures|Can. J. Fish. Aquat. Sci.40(1): 17-26|1983|10.1139/f83-004
78560|A||Cajaraville,M.P., J.A. Marigomez, G. Diez, and E. Angulo|Comparative Effects of the Water Accommodated Fraction of Three Oils on Mussels - 2.  Quantitative Alterations in the Structure of the Digestive Tubules|Comp. Biochem. Physiol. C Comp. Pharmacol.102C(1): 113-123|1992|
78561|T||Dowty,R.A., G.P. Shaffer, M.W. Hester, G.W. Childers, F.M. Campo, and M.C. Greene|Phytoremediation of Small-Scale Oil Spills in Fresh Marsh Environments:  A Mesocosm Simulation|Mar. Environ. Res.52(3): 195-211|2001|10.1016/S0141-1136(00)00268-3
78563|A||Cajaraville,M.P., I. Abascal, M. Etxeberria, and I. Marigomez|Lysosomes as Cellular Markers of Environmental Pollution:  Time- and Dose-Dependent Responses of the Digestive Lysosomal System of Mussels After Petroleum Hydrocarbon Exposure|Environ. Toxicol. Water Qual.10(1): 1-8|1995|10.1002/tox.2530100102
78564|T||McGrath,M.T., and N. Shishkoff|Evaluation of Biocompatible Products for Managing Cucurbit Powdery Mildew|Crop Prot.18(7): 471-478|1999|10.1016/S0261-2194(99)00048-4
78565|T||Ovuru,S.S., and D.N. Ezeasor|Morphological Alterations in Liver Tissues from Rabbits Exposed to Crude Oil Contaminated Diets|Bull. Environ. Contam. Toxicol.73(1): 132-138|2004|10.1007/s00128-004-0404-2
78566|T||Beckett,K.J., R.J. Aulerich, L.K. Duffy, J.S. Patterson, and S.J. Bursian|Effects of Dietary Exposure to Environmentally Relevant Concentrations of Weathered Prudhoe Bay Crude Oil in Ranch-Raised Mink ( Mustela vison)|Bull. Environ. Contam. Toxicol.69(4): 593-600|2002|10.1007/s00128-002-0102-x
78567|A||Negri,A.P., and A.J. Heyward|Inhibition of Fertilization and Larval Metamorphosis of the Coral Acropora millepora (Ehrenberg, 1834) by Petroleum Products|Mar. Pollut. Bull.41(7-12): 420-427|2000|10.1016/S0025-326X(00)00139-9
78568|A||Singer,M.M., S. George, I. Lee, S. Jacobson, L.L. Weetman, G. Blondina, R.S. Tjeerdema, D. Aurand, and M.L. Sowby|Effects of Dispersant Treatment on the Acute Aquatic Toxicity of Petroleum Hydrocarbons|Arch. Environ. Contam. Toxicol.34(2): 177-187|1998|10.1007/s002449900302
78569|A||Spies,R.B., J.S. Felton, and L. Dillard|Hepatic Mixed-Function Oxidases in California Flatfishes are Increased in Contaminated Environments and by Oil and PCB Ingestion|Mar. Biol.70(2): 117-127|1982|10.1007/BF00397675
78570|A||Payne,J.F., J. Kiceniuk, R. Misra, G. Fletcher, and R. Thompson|Sublethal Effects of Petroleum Hydrocarbons on Adult American Lobsters (Homarus americanus)|Can. J. Fish. Aquat. Sci.40(6): 705-717|1983|10.1139/f83-093
78572|A||Rowland,S., P. Donkin, E. Smith, and E. Wraige|"Aromatic Hydrocarbon ""Humps"" in the Marine Environment:  Unrecognized Toxins?"|Environ. Sci. Technol.35(13): 2640-2644|2001|10.1021/es0018264
78573|A||Suderman,B.L., and N.H. Marcus|The Effects of Orimulsion and Fuel Oil #6 on the Hatching Success of Copepod Resting Eggs in the Seabed of Tampa Bay, Florida|Environ. Pollut.120(3): 787-795|2002|10.1016/S0269-7491(02)00169-0
78574|A||Marigomez,I., and L. Baybay-Villacorta|Pollutant-Specific and General Lysosomal Responses in Digestive Cells of Mussels Exposed to Model Organic Chemicals|Aquat. Toxicol.64(3): 235-257|2003|10.1016/S0166-445X(03)00056-0
78575|A||Aarab,N., C. Minier, S. Lemaire, E. Unruh, P.D. Hansen, B.K. Larsen, O.K. Andersen, and J.F. Narbonne|Biochemical and Histological Responses in Mussel (Mytilus edulis) Exposed to North Sea Oil and to a Mixture of North Sea Oil and Alkylphenols|Mar. Environ. Res.58(2-5): 437-441|2004|10.1016/j.marenvres.2004.03.121
78576|A||Duesterloh,S., J.W. Short, and M.G. Barron|Photoenhanced Toxicity of Weathered Alaska North Slope Crude Oil to the Calanoid Copepods Calanus marshallae and Metridia okhotensis|Environ. Sci. Technol.36(18): 3953-3959|2002|10.1021/es020685y
78577|A||Zhadan,P.M., and M.A. Vaschenko|Effect of Diesel Fuel Hydrocarbons on Embryogenesis and 45Ca2+ Uptake by Unfertilized Eggs of Sea Urchin, Strongylocentrotus intermedius|Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 543-548|1993|10.1016/0742-8413(93)90099-7
78579|T||Schwartz,J.A., B.M. Aldridge, B.L. Lasley, P.W. Snyder, J.L. Stott, and F.C. Mohr|Chronic Fuel Oil Toxicity in American Mink (Mustela vison):  Systemic and Hematological Effects of Ingestion of a Low-Concentration of Bunker C Fuel Oil|Toxicol. Appl. Pharmacol.200(2): 146-158|2004|10.1016/j.taap.2004.04.004
78580|A||Piehler,M.F., V. Winkelmann, L.J. Twomey, N.S. Hall, C.A. Currin, and H.W. Paerl|Impacts of Diesel Fuel Exposure on the Microphytobenthic Community of an Intertidal Sand Flat|J. Exp. Mar. Biol. Ecol.297(2): 219-237|2003|10.1016/j.jembe.2003.07.006
78581|A||Wrabel,M.L., and P. Peckol|Effects of Bioremediation on Toxicity and Chemical Composition of No. 2 Fuel Oil:  Growth Responses of the Brown Alga Fucus vesiculosus|Mar. Pollut. Bull.40(2): 135-139|2000|10.1016/S0025-326X(99)00181-2
78582|A||Rayburn,J.R., P.S. Glas, S.S. Foss, and W.S. Fisher|Characterization of Grass Shrimp (Palaemonetes pugio) Embryo Toxicity Tests Using the Water Soluble Fraction of Number 2 Fuel Oil|Mar. Pollut. Bull.32(12): 860-866|1996|10.1016/S0025-326X(96)00046-X
78584|A||Baussant,T., S. Sanni, G. Jonsson, A. Skadsheim, and J.F. Borseth|Bioaccumulation of Polycyclic Aromatic Compounds:  1.  Bioconcentration in Two Marine Species and in Semipermeable Membrane Devices During Chronic Exposure to Dispersed Crude Oil|Environ. Toxicol. Chem.20(6): 1175-1184|2001|10.1002/etc.5620200606
78585|T||Ramos,G., D.X. Nghiem, J.P. Walterscheid, and S.E. Ullrich|Dermal Application of Jet Fuel Suppresses Secondary Immune Reactions|Toxicol. Appl. Pharmacol.180(2): 136-144|2002|10.1006/taap.2002.9380
78586|A||Leung,S.S., M.D. MacKinnon, and R.E.H. Smith|The Ecological Effects of Naphthenic Acids and Salts on Phytoplankton from the Athabasca Oil Sands Region|Aquat. Toxicol.62(1): 11-26|2003|10.1016/S0166-445X(02)00057-7
78587|A||Suderman,K., and D. Thistle|Spills of Fuel Oil #6 and Orimulsion can have Indistinguishable Effects on the Benthic Meiofauna|Mar. Pollut. Bull.46(1): 49-55|2003|10.1016/S0025-326X(02)00235-7
78588|A||Gilewicz,M., J.R. Guillaume, D. Carles, M. Leveau, and J.C. Bertrand|Effects of Petroleum Hydrocarbons on the Cytochrome P450 Content of the Mollusc Bivalve Mytilus galloprovincialis|Mar. Biol.80(2): 155-159|1984|10.1007/BF02180182
78589|T||Halacheva,L., and P. Nikolova|Changes in Free Adenosine tri-, di and Monophosphate Concentrations in the Brain of White Rats, Fed Normal and Rich in Proteins Diets in Experimental Manganese Treatment|Scr. Sci. Med. Annu. Sci. Pap.12(1): 173-176|1975|
78591|T||Amer,A.A., N.F. Abdel-Hakim, F.M. Attia, T.T. El-Gallad, and M.I. Omera|Studies on Dietary Manganese Requirements of Growing L.S.L. Chicks|J. Agric. Res.4:201-213|1985|
78592|T||Baker,D.H., and K.M. Halpin|Efficacy of a Manganese-Protein Chelate Compared with that of Manganese Sulfate for Chicks|Poult. Sci.66:1561-1563|1987|10.3382/ps.0661561
78593|T||Henry,P.R., C.B. Ammerman, and R.D. Miles|Influence of Virginiamycin and Dietary Manganese on Performance, Manganese Utilization, and Intestinal Tract Weight of Broilers|Poult. Sci.65:321-324|1986|10.3382/ps.0650321
78594|T||Halpin,K.M., and D.H. Baker|Manganese Utilization in the Chick:  Effects of Corn, Soybean Meal, Fish Meal, Wheat Bran, and Rice Bran on Tissue Uptake of Manganese|Poult. Sci.65:995-1003|1986|10.3382/ps.0650995
78599|T||Kozlowski,T.T., and J.J. Clausen|Influence of Various Herbicides on Needle Structure of Young Red Pines|In: University of Wisconsin Forestry Research Notes, College of Agriculture126:3 p.|1965|
78600|T||Gardner,G., J.R. Sanborn, and J.R. Goss|N-Alkylaryltriazine Herbicides: A Possible Link Between Triazines and Phenylureas|Weed Sci.35(6): 763-769|1987|10.1017/S0043174500079303
78601|T||Brown,S.M., J.M. Chandler, and J.E.,Jr. Morrison|Weed Control in a Conservation Tillage Rotation in the Texas Blacklands|Weed Sci.35(5): 695-699|1987|10.1017/S0043174500060823
78602|T||Ndahi,W.B., O.G. Russ, and L.J. Moshier|Pearl Millet Tolerance to Selected Herbicides|Trans. Kans. Acad. Sci.84(2): 105-108|1981|10.2307/3628101
78603|A||Poongothai,K., S. Shayin, and M.V. Usharani|Induction of Micronuclei in Fish by Polluted Water and Heavy Metals|Cytobios86(244): 17-22|1996|
78604|T||Ebbs,S., and L. Weinstein|Alteration of Selenium Transport and Volatilization in Barley (Hordeum vulgare) by Arsenic|J. Plant Physiol.158(9): 1231-1233|2001|10.1078/0176-1617-00440
78605|T||Santra,A., A. Maiti, S. Das, S. Lahiri, S.K. Charkaborty, and D.N.G. Mazumder|Hepatic Damage Caused by Chronic Arsenic Toxicity in Experimental Animals|J. Toxicol. Clin. Toxicol.38(4): 395-405|2000|10.1081/CLT-100100949
78606|T||Misra,M., J.A. Alcedo, and K.E. Wetterhahn|Two Pathways for Chromium(VI)-Induced DNA Damage in 14 Day Chick Embryos:  Cr-DNA Binding in Liver and 8-oxo-2'-Deoxyguanosine in Red Blood Cells|Carcinogenesis15(12): 2911-2917|1994|10.1093/carcin/15.12.2911
78608|T||Evan,A.P., and W.G.,Jr. Dail|The Effects of Sodium Chromate on the Proximal Tubules of the Rat Kidney.  Fine Structural Damage and Lysozymuria|Lab. Invest.30(6): 704-715|1974|
78611|T||Fitz,W.J., W.W. Wenzel, H. Zhang, J. Nurmi, K. Stipek, Z. Fischerova, P. Schweiger, G. Kollensperger, L.Q. Ma, and G. S|Rhizosphere Characteristics of the Arsenic Hyperaccumulator Pteris vittata L. and Monitoring of Phytoremoval Efficiency|Environ. Sci. Technol.37(21): 5008-5014|2003|10.1021/es0300214
78616|T||Hartley-Whitaker,J., G. Ainsworth, and A.A. Meharg|Copper- and Arsenate-Induced Oxidative Stress in Holcus lanatus L. Clones with Differential Sensitivity|Plant Cell Environ.24(7): 713-722|2001|10.1046/j.0016-8025.2001.00721.x
78619|A||Ragab,F.M.A., A.G. El-Sisi, and A.I.A. Maboud|The Molluscicidal Efficacy of Three Products Against Biomphalaria alexandrina and Lymnaea natalensis|J. Egypt. Soc. Parasitol.32(1): 307-316|2002|
78620|A||Farrington,J.W., B.W. Tripp, J.M. Teal, G. Mille, K. Tjessem, A.C. Davis, J.B. Livramento, N.A. Hayward, and N.M. Frew|Biogeochemistry of Aromatic Hydrocarbons in the Benthos of Microcosms|Toxicol. Environ. Chem.5(3-4): 331-346|1982|10.1080/02772248209356987
78621|T||Schutte,G.C., R.I. Mansfield, H. Smith, and K.V. Beeton|Application of Azoxystrobin for Control of Benomyl-Resistant Guignardia citricarpa on 'Valencia' Oranges in South Africa|Plant Dis.87(7): 784-788|2003|10.1094/PDIS.2003.87.7.784
78622|T||Ten Hoopen,G.M., J.L. Ortiz, M.E. Aguilar, and U. Krauss|Preservation Methodology for Rosellinia Species|Mycol. Res.108(Pt. 3): 274-282|2004|10.1017/S0953756204009712
78623|A||Cajaraville,M.P., I. Marigomez, and E. Angulo|Correlation Between Cellular and Organismic Responses to Oil-Induced Environmental Stress in Mussels|Sci. Total Environ.134(2): 1353-1371|1993|10.1016/S0048-9697(05)80142-1
78624|A||Sophia,A.J.A., and T. Balasubramanian|Uptake and Depuration of Petroleum Hydrocarbons by the Backwater Clam, Meretrix casta Chemnitz|Chem. Ecol.5(4): 249-262|1991|10.1080/02757549108035254
78625|A||Donde,S.S., R.R. Nayak, and K.B. Sawant|Accumulation and Depuration of Petroleum Hydrocarbons from WSFS of Bombay high Crude Oil by the Marine Bivalve Gafrarium divaricatum (Gmelin)|J. Mar. Biol. Assoc. India43(1-2): 197-201|2001|
78626|T||Chupakhina,G.N., and P.V. Maslennikov|Plant Adaptation to Oil Stress|Russ. J. Ecol.35(5): 290-295|2004|10.1023/B:RUSE.0000040681.75339.59
78627|A||Wilby,O.K., J.M. Tesh, and P.R. Shore|Application of the Hydra Regeneration Assay:  Assessment of the Potential Teratogenic Activity of Engine Exhaust Emissions|Toxicol. In Vitro4(4-5): 612-613|1990|10.1016/0887-2333(90)90126-E
78628|T||Picton,D.D., and K.E. Hummer|Control of Powdery Mildew on Leaves and Stems of Gooseberry|HortTechnology13(2): 365-367|2003|10.21273/HORTTECH.13.2.0365
78629|A||Vashchenko,M.A., P.M. Zhadan, and Z.S. Evtushenko|Changes in Protein Biosynthesis and Enzymatic Activity in Gonads and Offspring of Sea Urchins Exposed to Hydrocarbons|Sov. J. Mar. Biol.:212-216|1991|
78630|T||Elliott,M.L., and M. Prevatte|Comparison of Damage to 'Tifgreen' Bermudagrass by Petroleum and Vegetable Oil Hydraulic Fluids|HortTechnology5(1): 50-51|1995|10.21273/HORTTECH.5.1.50
78631|A||Galina,M.S.|Biochemical Changes in the Hemolymph of the Black Sea Mussel on Exposure to Toxic Agents|Hydrobiol. J.27(2): 64-68|1991|
78632|A||Shchekaturina,T.L.|"Transfer of Hydrocarbons Through the ""Mussel-Crab"" Food Chain"|Hydrobiol. J.18(4): 69-74|1982|
78633|T||Hix,R.L., C.D. Pless, D.E. Deyton, and C.E. Sams|Management of San Jose Scale on Apple with Soybean-Oil Dormant Sprays|Hortscience34(1): 106-108|1999|10.21273/HORTSCI.34.1.106
78634|A||Laughlin,R., and O. Linden|Oil Pollution and Baltic Mysids:  Acute and Chronic Effects of the Water Soluble Fractions of Light Fuel Oil on the Mysid Shrimp Neomysis integer|Mar. Ecol. Prog. Ser.12(1): 29-41|1983|10.3354/meps012029
78635|A||Dyrynda,E.A., R.J. Law, P.E.J. Dyrynda, C.A. Kelly, R.K. Pipe, K.L. Graham, and N.A. Ratcliffe|Modulations in Cell-Mediated Immunity of Mytilus edulis Following the 'Sea Empress' Oil Spill|J. Mar. Biol. Assoc. U.K.77(1): 281-284|1997|10.1017/S0025315400033993
78636|A||Papadopoulou,C., and M. Stamouli|Chromate Bioavailability to the Mollusc Venus verrucosa|Toxicol. Environ. Chem.20-21:249-254|1989|10.1080/02772248909357383
78637|T||Aracil,P., F. Burlo, Y. Lario, D. Martinez-Romero, D. Valero, and A.A. Carbonell-Barrachina|Total Arsenic Accumulation in Edible Pods and Seeds of Phaseolus vulgaris|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 849-861|2001|
78641|A||Singh,D.P., and K. Kshatriya|NaCl-Induced Oxidative Damage in the Cyanobacterium Anabaena doliolum|Curr. Microbiol.44(6): 411-417|2002|10.1007/s00284-001-0009-5
78642|A||Haskell Laboratory|Initial Submission:  96-Hour LC50 to Bluegill Sunfish with Lead, Tetraethyl with Cover Letter Dated 101592|EPA/OTS Doc.#88-920009973:13 p.|1992|
78643|A||Weisshaar,H., and P. Boger|Further Effects of Chloroacetamides and Evidence for Inhibition of Acetylation of DNA-Associated Protein|Pestic. Biochem. Physiol.39(1): 20-26|1991|10.1016/0048-3575(91)90209-5
78644|A||Freeman,J.L., and A.L. Rayburn|In Vivo Genotoxicity of Atrazine to Anuran Larvae|Mutat. Res.560(1): 69-78|2004|10.1016/j.mrgentox.2004.02.008
78645|A||Hinman,M.L., and S.J. Klaine|Uptake and Translocation of Selected Organic Pesticides by the Rooted Aquatic Plant Hydrilla verticillata Royle|Environ. Sci. Technol.26(3): 609-613|1992|10.1021/es00027a026
78647|A||Kazeto,Y., A.R. Place, and J.M. Trant|Effects of Endocrine Disrupting Chemicals on the Expression of CYP19 Genes in Zebrafish (Danio rerio) Juveniles|Aquat. Toxicol.69(1): 25-34|2004|10.1016/j.aquatox.2004.04.008
78648|A||Weiner,J.A., M.E. DeLorenzo, and M.H. Fulton|Relationship Between Uptake Capacity and Differential Toxicity of the Herbicide Atrazine in Selected Microalgal Species|Aquat. Toxicol.68(2): 121-128|2004|10.1016/j.aquatox.2004.03.004
78650|A||Gensemer,R.W.|Influence of Aluminum and pH on the Physiological Ecology and Cellular Morphology of the Acidophilic Diatom Asterionella ralfsii var. americana|Ph.D. Thesis, Michigan State University, East Lansing, MI:170 p.|1989|
78651|A||Jones,R.J., J. Muller, D. Haynes, and U. Schreiber|Effects of Herbicides Diuron and Atrazine on Corals of the Great Barrier Reef, Australia|Mar. Ecol. Prog. Ser.251:153-167|2003|10.3354/meps251153
78652|T||Hickey,W.J., D.J. Fuster, and R.T. Lamar|Transformation of Atrazine in Soil by Phanerochaete chrysosporium|Soil Biol. Biochem.26(12): 1665-1671|1994|10.1016/0038-0717(94)90319-0
78653|T||Latchanna,A., and C.S. Rani|Residual Effect of Atrazine Weedicide Used in Rabi Sorghum on Succeeding Mung Crop in Rotation|J. Environ. Biol.20(4): 303-305|1999|
78654|T||Khan,S.U., S. Kacew, and S.J. Molnar|Bioavailability in Rats of Bound 14C Residues from Corn Plants Treated with (14C) Atrazine|J. Agric. Food Chem.33(4): 712-717|1985|10.1021/jf00064a036
78655|T||Khan,S.U., P.B. Marriage, and A.S. Hamill|Effects of Atrazine Treatment of a Corn Field Using Different Application Methods, Times, and Additives on the Persistence of Residues in Soil and Their Uptake by Oat Plants|J. Agric. Food Chem.29(2): 216-219|1981|10.1021/jf00104a002
78656|T||Khan,S.U., and T.S. Foster|Residues of Atrazine (2-Chloro-4-Ethylamino-6-Isopropylamino-s-Triazine) and Its Metabolites in Chicken Tissues|J. Agric. Food Chem.24(4): 768-771|1976|10.1021/jf60206a029
78657|T||Ugazio,G., E. Burdino, M. Dacasto, A. Bosio, G. Van 't Klooster, and C. Nebbia|Induction of Hepatic Drug Metabolizing Enzymes and Interaction with Carbon Tetrachloride in Rats After a Single Oral Exposure to Atrazine|Toxicol. Lett.69(3): 279-288|1993|10.1016/0378-4274(93)90033-T
78658|T||Feese,H., and G. Wilde|Planting Time Applications of Systemic Insecticides on Grain Sorghum for Greenbug Control. Interactions with Herbicides and Effect on Predators (Hemiptera (Homoptera): Aphididae)|J. Kans. Entomol. Soc.48(3): 396-402|1975|
78659|T||Roloff,B.D., D.A. Belluck, and L.F. Meisner|Cytogenetic Studies of Herbicide Interactions In Vitro and In Vivo Using Atrazine and Linuron|Arch. Environ. Contam. Toxicol.22(3): 267-271|1992|10.1007/BF00212084
78660|T||Leslie,C., G.F. Reidy, and N.H. Stacey|Effect of Ofurace, Oxadixyl, and Alachlor on Xenobiotic Biotransformation in the Rat Liver|Arch. Environ. Contam. Toxicol.18(6): 876-880|1989|10.1007/BF01160303
78661|T||Hilton,H.W., N.S. Nomura, S.S. Kameda, and W.L. Yauger|Some Patterns of Herbicide and Growth Regulator Intake, Persistence, and Distribution in Sugarcane|Arch. Environ. Contam. Toxicol.4(4): 385-394|1976|10.1007/BF02221036
78663|T||Scheunert,I., and F. Korte|Interactions in the Fate of Chemicals in Terrestrial Systems|Ecotoxicol. Environ. Saf.9(3): 385-391|1985|10.1016/0147-6513(85)90057-0
78664|T||Wilson,A.G.E., D.C. Thake, W.E. Heydens, D.W. Brewster, and K.J. Hotz|Mode of Action of Thyroid Tumor Formation in the Male Long-Evans Rat Administered High Doses of Alachlor|Fundam. Appl. Toxicol.33(1): 16-23|1996|10.1006/faat.1996.0138
78665|T||Heydens,W.F., A.G.E. Wilson, L.J. Kraus, W.E. Hopkins II, and K.J. Hotz|Ethane Sulfonate Metabolite of Alachlor:  Assessment of Oncogenic Potential Based on Metabolic and Mechanistic Considerations|Toxicol. Sci.55(1): 36-43|2000|10.1093/toxsci/55.1.36
78666|T||Wetmore,B.A., A.D. Mitchell, S.A. Meyer, and M.B. Genter|Evidence for Site-Specific Bioactivation of Alachlor in the Olfactory Mucosa of the Long-Evans Rat|Toxicol. Sci.49(2): 202-212|1999|10.1093/toxsci/49.2.202
78667|A||Sajjaphan,K., N. Shapir, A.K. Judd, L.P. Wackett, and M.J. Sadowsky|Novel psbA1 Gene from a Naturally Occurring Atrazine-Resistant Cyanobacterial Isolate|Appl. Environ. Microbiol.68(3): 1358-1366|2002|10.1128/AEM.68.3.1358-1366.2002
78668|A||Nussey,G., J.H.J. Van Vuren, and H.H. Du Preez|The Effect of Copper and Zinc at Neutral and Acidic pH on the Blood Coagulation of Oreochromis mossambicus|Afr. J. Aquat. Sci.27(1): 47-60|2002|10.2989/16085914.2002.9626574
78669|AT||EPA/OTS|Assessments of the Feasibility and Evidence of Test Methods of Levels I and II of the Chemicals Act on Thiourea|EPA/OTS Doc.#FYI-OTS-0787-0551:213 p.|1987|
78671|T||National Toxicology Program (NTP)|Carcinogenesis Bioassay of Bisphenol A (CAS No. 80-05-7) in F344 Rats and B6C3F1 Mice (Feed Study)|Natl. Toxicol. Program Tech. Rep. Ser.:116 p.|1982|
78674|T||Appenroth,D., M. Friedrich, K.H. Friese, and H. Braunlich|Chromate Nephrotoxicity in Developing Rats.  Significance of Cr(VI) Reduction in Rat Kidney Tissue|J. Trace Elem. Electrolytes Health Dis.5(1): 53-57|1991|
78675|T||Sasaki,S., T.T. Kozlowski, and J.H. Torrie|Effect of Pretreatment of Pine Seeds with Herbicides on Seed Germination and Growth of Young Seedlings|Can. J. Bot.46(3): 255-262|1968|10.1139/b68-042
78676|T||Anderson,R.L., and B.W. Greb|Residual Herbicides for Weed Control in Proso Millet (Panicum miliaceum L.)|Crop Prot.6(1): 61-63|1987|10.1016/0261-2194(87)90030-5
78677|T||Kozlowski,T.T.|Effect of Soil Incorporation of Triazine Herbicides on Development of Young Red Pine Seedlings|In: University of Wisconsin Forestry Research Notes, College of Agriculture:5 p.|1964|
78679|T||Mason,R.W., I.R. Edwards, and L.C. Fisher|Fetotoxicity and Teratogenicity of Sodium Dichromate, Sodium Arsenate and Copper Sulphate in Rats|Proc. Univ. Otago Med. Schl.65(3): 59-60|1987|
78682|T||Eik-Nes,K.B., A.B.L. Marthinsen, R. Lofthus, and E. Haug|Corticosteroids and Lung Surfactant Levels in Adult Male Rats|J. Steroid Biochem.27(4-6): 1035-1041|1987|10.1016/0022-4731(87)90187-7
78684|T||Shariatpanahi,M., and A.C. Anderson|Distribution and Toxicity of Monosodium Methanearsonate Following Oral Administration of the Herbicide to Dairy Sheep and Goats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(4/5): 427-439|1984|
78685|T||Watkins,A.J., and M.R. Macnair|Genetics of Arsenic Tolerance in Agrostis capillaris L.|Heredity (Edinb.)66(1): 47-54|1991|10.1038/hdy.1991.6
78686|T||Kargacin,B., K.S. Squibb, S. Cosentino, A. Zhitkovich, and M.G.S. Costa|Comparison of the Uptake and Distribution of Chromate in Rats and Mice|Biol. Trace Elem. Res.36(3): 307-318|1993|10.1007/BF02783964
78687|T||Carbonell-Barrachina,A.A., F. Burlo-Carbonell, and J. Mataix-Beneyto|Effect of Sodium Arsenite and Sodium Chloride on Bean Plant Nutrition (Macronutrients)|J. Plant Nutr.20(11): 1617-1633|1997|10.1080/01904169709365361
78692|A||Sofyan,A.|Toxicity of Metals to Green Algae and Ceriodaphnia dubia:  The Importance of Water Column and Dietary Exposures|Ph.D.Thesis, University of Kentucky, Lexington, KY:161 p.|2004|
78694|T||Kozlowski,T.T., and S. Sasaki|Effects of Direct Contact of Pine Seeds or Young Seedlings with Commercial Formulations, Active Ingredients, or Inert Ingredients of Triazine Herbicides|Can. J. Plant Sci.48(1): 1-7|1968|10.4141/cjps68-001
78695|T||Gimenez-Espinosa,R., E. Romera, M. Tena, and R. De Prado|Fate of Atrazine in Treated and Pristine Accessions of Three Setaria Species|Pestic. Biochem. Physiol.56(3): 196-207|1996|10.1006/pest.1996.0073
78696|T||Currie,R.S., Y.Z. Li, and G.H. Liang|Cytological and Morphological Effects of Atrazine and Propazine Application on Grain Sorghum|Cytologia61(4): 359-363|1996|10.1508/cytologia.61.359
78697|T||Marks,G.C., and R. Cerra|Effects of Propazine and Chlorthal Dimethyl on Phytophthora cinnamomi Root Disease of Pinus radiata Seedlings and Associated Soil Microflora|Soil Biol. Biochem.23(2): 157-164|1991|10.1016/0038-0717(91)90129-8
78699|A||E.I. Du Pont De Nemours|U.S.EPA Status Report:  Tetraethyl Lead & Tetramethyl Lead Motor Fuel Antiknock Compounds with Cover Letter Dated 110179; Letter from E.I.Dupont de Nemours & Company to U.S.EPA Regarding Information on Tetraethyl Lead &|EPA/OTS Doc.#88-7800249:184 p.|1978|
78708|A||Krassoi,R., I. Anderson, and D. Everett|Larval Abnormalities in Doughboy Scallops Chlamys (Mimachlamys) asperrima L. in Response to Test Conditions and Six Reference Toxicants|Australas. J. Ecotoxicol.3(1): 65-74|1997|
78709|A||Tisler,T., and J. Zagorc-Koncan|Acute and Chronic Toxicity of Arsenic to Some Aquatic Organisms|Bull. Environ. Contam. Toxicol.69(3): 421-429|2002|10.1007/s00128-002-0079-5
78713|T||Wei,M., H. Wanibuchi, S. Yamamoto, W. Li, and S. Fukushima|Urinary Bladder Carcinogenicity of Dimethylarsinic Acid in Male F344 Rats|Carcinogenesis20(9): 1873-1876|1999|10.1093/carcin/20.9.1873
78715|T||Ratnasooriya,W.D., and R. Balasuriya|Effects of Trivalent Chromium on Gestation in Rat|Med. Sci. Res.20(13): 475-476|1992|
78720|T||Tu,S., and L.Q. Ma|Interactive Effects of pH, Arsenic and Phosphorus on Uptake of As and P and Growth of the Arsenic Hyperaccumulator Pteris vittata L. Under Hydroponic Conditions|Environ. Exp. Bot.50(3): 243-251|2003|10.1016/S0098-8472(03)00040-6
78721|T||Taubeneck,M.W., G.P. Daston, J.M. Rogers, and C.L. Keen|Altered Maternal Zinc Metabolism Following Exposure to Diverse Developmental Toxicants|Reprod. Toxicol.8(1): 25-40|1994|10.1016/0890-6238(94)90064-7
78731|T||Stevenson,M.H., S.W. Gibson, and N. Jackson|Withdrawal of Zinc Oxide-Containing Diets from Mature, Female Domestic Fowl:  Effects on Selected Tissue Mineral Contents|Br. Poult. Sci.28(3): 449-459|1987|10.1080/00071668708416979
78732|T||Gibson,S.W., M.H. Stevenson, and N. Jackson|Comparison of the Effects of Feeding Diets Supplemented with Zinc Oxide or Zinc Acetate on the Performance and Tissue Mineral Content of Mature Female Fowls|Br. Poult. Sci.27(3): 391-402|1986|10.1080/00071668608416895
78733|T||Cossack,Z.T., and C.J.A. Van den Hamer|Kinetics of Copper Absorption in Zinc-Overload States and Following the Withdrawal of Zinc Supplement:  The Role of Endogenous Zinc Status|J. Pediatr. Gastroenterol. Nutr.6:296-301|1987|
78734|T||Wong-Valle,J., C.B. Ammerman, P.R. Henry, P.V. Rao, and R.D. Miles|Bioavailability of Manganese from Feed Grade Manganese Oxides for Broiler Chicks|Poult. Sci.68:1368-1373|1989|10.3382/ps.0681368
78735|T||Southern,L.L., and D.H. Baker|Excess Manganese Ingestion in the Chick|Poult. Sci.62:642-646|1983|10.3382/ps.0620642
78736|T||Tran,C.D., R.N. Butler, G.S. Howarth, J.C. Philcox, A.M. Rofe, and P. Coyle|Regional Distribution and Localization of Zinc and Metallothionein in the Intestine of Rats Fed Diets Differing in Zinc Content|Scand. J. Gastroenterol.34:689-695|1999|10.1080/003655299750025895
78737|T||Reeves,P.G., and S.M.,Jr. Newman|Ultrastructural Changes in the Intestine of Rats Fed High-Zinc Diets|J. Trace Elem. Exp. Med.10:37-46|1997|10.1002/(SICI)1520-670X(1997)10:1<37::AID-JTRA5>3.0.CO;2-1
78738|T||Cerklewski,F.L.|Influence of Dietary Zinc on Lead Toxicity During Gestation and Lactation in the Female Rat|J. Nutr.109:1703-1709|1979|10.1093/jn/109.10.1703
78740|T||Lloris,J.M., J.V. Esplugues, B. Sarria, M.A. Calvo, M. Marti-Cabrera, E. Marti-Bonmati, and J. Esplugues|Effects of Zinc Sulphate on Gastric Mucosal Blood Flow and Gastric Emptying of the Rat|J. Pharm. Pharmacol.40:60-61|1988|10.1111/j.2042-7158.1988.tb05153.x
78741|T||Suomi,K., and T. Alaviuhkola|Responses to Organic and Inorganic Selenium in the Performance and Blood Selenium Content of Growing Pigs|Agric. Sci. Finl.1:211-214|1992|
78742|T||Dewar,W.A., P.A.L. Wight, R.A. Pearson, and M.J. Gentle|Toxic Effects of High Concentrations of Zinc Oxide in the Diet of the Chick and Laying Hen|Br. Poult. Sci.24:397-404|1983|10.1080/00071668308416754
78743|T||Henry,P.R., C.B. Ammerman, and R.D. Miles|Bioavailability of Manganese Sulfate and Manganese Monoxide in Chicks as Measured by Tissue Uptake of Manganese from Conventional Dietary Levels|Poult. Sci.65:983-986|1986|10.3382/ps.0650983
78744|T||Henry,P.R., C.B. Ammerman, and R.D. Miles|Relative Bioavailability of Manganese in a Manganese-Methionine Complex for Broiler Chicks|Poult. Sci.68:107-112|1989|10.3382/ps.0680107
78745|T||L'abbe,M.R., and P.W.F. Fischer|The Effects of Dietary Zinc on the Activity of Copper-Requiring Metalloenzymes in the Rat|J. Nutr.114:823-828|1984|10.1093/jn/114.5.823
78747|T||Jaw,S., and E.H. Jeffery|The Effect of Dietary Zinc Status on Biliary Metal Excretion of Rats|J. Nutr.118:1385-1390|1988|10.1093/jn/118.11.1385
78748|T||Silkworth,J.B., T. Lipinskas, and C.R. Stoner|Immunosuppressive Potential of Several Polycyclic Aromatic Hydrocarbons (PAHs) Found at a Superfund Site:  New Model Used to Evaluate Additive Interactions Between Benzo(a)Pyrene and TCDD|Toxicology105(2-3): 375-386|1995|10.1016/0300-483X(95)03235-8
78750|T||Ye,Z.H., A.J.M. Baker, M.H. Wong, and A.J. Willis|Copper and Nickel Uptake, Accumulation and Tolerance in Typha latifolia With and Without Iron Plaque on the Root Surface|New Phytol.136(3): 481-488|1997|10.1046/j.1469-8137.1997.00758.x
78751|T||Zaifnejad,M., R.B. Clark, and C.Y. Sullivan|Aluminum and Water Stress Effects on Growth and Proline of Sorghum|J. Plant Physiol.150(3): 338-344|1997|10.1016/S0176-1617(97)80130-7
78752|T||Balint,A.F., G. Kovacs, and J. Sutka|Copper Tolerance of Aegilops, Triticum, Secale and Triticale Seedlings and Copper and Iron Content in Their Shoots|Acta Biol. Szeged.46(3-4): 77-78|2002|
78753|T||Shainberg,O., B. Rubin, H.D. Rabinowitch, Y. Libal, and E. Tel-Or|Acclimation of Beans to Oxidative Stress by Treatment with Sublethal Iron Levels|J. Plant Physiol.157(1): 93-99|2000|10.1016/S0176-1617(00)80141-8
78754|T||Greipsson,S.|Effects of Iron Plaque on Roots of Rice on Growth and Metal Concentration of Seeds and Plant Tissues when Cultivated in Excess Copper|Commun. Soil Sci. Plant Anal.25(15/16): 2761-2769|1994|10.1080/00103629409369223
78755|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Selenium at ERL, Narragansett|Letter to D.Hansen, U.S.EPA, Narragansett, RI:4 p.|1985|
78757|T||Gray,J.A., N.E. Balke, and D.E. Stoltenberg|Increased Glutathione Conjugation of Atrazine Confers Resistance in a Wisconsin Velvetleaf (Abutilon theophrasti) Biotype|Pestic. Biochem. Physiol.55(3): 157-171|1996|10.1006/pest.1996.0045
78759|T||Waalkes,M.P., and C.D. Klaassen|Concentration of Metallothionein in Major Organs of Rats After Administration of Various Metals|Fundam. Appl. Toxicol.5(3): 473-477|1985|10.1016/0272-0590(85)90094-6
78761|T||Glynn,A.W., A. Sparen, L.G. Danielsson, B. Sundstrom, and L. Jorhem|Concentration-Dependent Absorption of Aluminum in Rats Exposed to Labile Aluminum in Drinking Water|J. Toxicol. Environ. Health56(7): 501-512|1999|10.1080/009841099157944
78762|T||Ecelbarger,C.A., G.G. MacNeil, and J.L. Greger|Tissue Aluminum Accumulation and Toxic Consequences in Rats Chronically Fed Aluminum with and Without Citrate|J. Agric. Food Chem.42(10): 2220-2224|1994|10.1021/jf00046a027
78763|T||Fritz,J.C., G.W. Pla, T. Roberts, J.W. Boehne, and E.L. Hove|Biological Availability in Animals of Iron from Common Dietary Sources|J. Agric. Food Chem.18(4): 647-651|1970|10.1021/jf60170a031
78765|T||Bernuzzi,V., D. Desor, and P.R. Lehr|Effects of Postnatal Aluminum Lactate Exposure on Neuromotor Maturation in the Rat|Bull. Environ. Contam. Toxicol.42(3): 451-455|1989|10.1007/BF01699975
78766|T||Gruden,N., and S. Munic|Effect of Iron upon Cadmium-Manganese and Cadmium-Iron Interaction|Bull. Environ. Contam. Toxicol.38(6): 969-974|1987|10.1007/BF01609082
78767|T||Golub,M.S., B. Han, and C.L. Keen|Iron and Manganese Uptake by Offspring of Lactating Mice Fed a high Aluminum Diet|Toxicology109(2-3): 111-118|1996|10.1016/0300-483X(96)03311-2
78768|T||Golub,M.S., B. Han, C.L. Keen, M.E. Gershwin, and R.P. Tarara|Behavioral Performance of Swiss Webster Mice Exposed to Excess Dietary Aluminum During Development or During Development and as Adults|Toxicol. Appl. Pharmacol.133(1): 64-72|1995|10.1006/taap.1995.1127
78769|T||Cherroret,G., B. Capolaghi, M.F. Hutin, D. Burnel, D. Desor, and P.R. Lehr|Effects of Postnatal Aluminum Exposure on Biological Parameters in the Rat Plasma|Toxicol. Lett.78(2): 119-125|1995|10.1016/0378-4274(95)03239-H
78770|T||Varner,J.A., K.F. Jensen, W. Horvath, and R.L. Isaacson|Chronic Administration of Aluminum-Fluoride or Sodium-Fluoride to Rats in Drinking Water:  Alterations in Neuronal and Cerebrovascular Integrity|Brain Res.784(1-2): 284-298|1998|10.1016/S0006-8993(97)01336-X
78772|T||Gupta,A., and G.S. Shukla|Effect of Chronic Aluminum Exposure on the Levels of Conjugated Dienes and Enzymatic Antioxidants in Hippocampus and Whole Brain of Rat|Bull. Environ. Contam. Toxicol.55(5): 716-722|1995|10.1007/BF00203758
78773|T||Golub,M.S., M.E. Gershwin, J.M. Donald, S. Negri, and C.L. Keen|Maternal and Developmental Toxicity of Chronic Aluminum Exposure in Mice|Fundam. Appl. Toxicol.8(3): 346-357|1987|10.1016/0272-0590(87)90084-4
78775|T||Karataglis,S.|Aluminum Toxicity in Avena-sativa cv. Kassandra and a Comparison with the Toxicity Caused by Some Other Metals|Phyton (Horn) (Multiple Languages)27(1): 1-14|1987|
78776|T||Yang,W.Q., and B.L. Goulart|Aluminum and Phosphorus Interactions in Mycorrhizal and Nonmycorrhizal Highbush Blueberry Plantlets|J. Am. Soc. Hortic. Sci.122(1): 24-30|1997|10.21273/JASHS.122.1.24
78777|T||Bagchi,D., M. Bagchi, E.A. Hassoun, and S.J. Stohs|In Vitro and In Vivo Generation of Reactive Oxygen Species, DNA Damage and Lactate Dehydrogenase Leakage by Selected Pesticides|Toxicology104(1-3): 129-140|1995|10.1016/0300-483X(95)03156-A
78778|T||Bagchi,D., M. Bagchi, L. Tang, and S.J. Stohs|Comparative In Vitro and In Vivo Protein Kinase C Activation by Selected Pesticides and Transition Metal Salts|Toxicol. Lett.91(1): 31-37|1997|10.1016/S0378-4274(97)03868-X
78779|T||Bui,L.M., C.L. Keen, and M.A. Dubick|Comparative Effects of 6-Week Nicotine Treatment on Blood Pressure and Components of the Antioxidant System in Male Spontaneously Hypertensive (SHR) and Normotensive Wistar Kyoto (WKY) Rats|Toxicology98(1-3): 57-65|1995|10.1016/0300-483X(95)91102-U
78780|T||Sugawara,C., N. Sugawara, H. Kiyosawa, and H. Miyake|Decrease of Serum Triglyceride in Normal Rats Fed with 2000 ppm Aluminum Diet for 67 Days  I.  Feeding Young Rats Sucrose, Lactose, Milk, Casein or Soy-Protein Diets with Addition of Aluminum Chloride|Fundam. Appl. Toxicol.10(4): 607-615|1988|10.1016/0272-0590(88)90187-X
78781|T||Han,J., and M.A. Dunn|Effect of Dietary Aluminum on Tissue Nonheme Iron and Ferritin Levels in the Chick|Toxicology142(2): 97-109|2000|10.1016/S0300-483X(99)00119-5
78782|T||Bell,A.M., and N.C. Duke|Effects of Photosystem II Inhibiting Herbicides on Mangroves - Preliminary Toxicology Trials|Mar. Pollut. Bull.51(1-4): 297-307|2005|10.1016/j.marpolbul.2004.10.051
78783|T||Bagchi,D., G. Bhattacharya, and S.J. Stohs|In Vitro and In Vivo Induction of Heat Shock (Stress) Protein (Hsp) Gene Expression by Selected Pesticides|Toxicology112(1): 57-68|1996|10.1016/0300-483X(96)03350-1
78784|T||Ahn,H.W., B. Fulton, D. Moxon, and E.H. Jeffery|Interactive Effects of Fluoride and Aluminum Uptake and Accumulation in Bones of Rabbits Administered both Agents in Their Drinking Water|J. Toxicol. Environ. Health44(3): 337-350|1995|10.1080/15287399509531963
78785|T||Laws,S.C., J.M. Ferrell, T.E. Stoker, and R.L. Cooper|Pubertal Development in Female Wistar Rats Following Exposure to Propazine and Atrazine Biotransformation By-Products, Diamino-S-Chlorotriazine and Hydroxyatrazine|Toxicol. Sci.76(1): 190-200|2003|10.1093/toxsci/kfg223
78786|T||Fuerst,E.P., T.M. Sterling, M.A. Norman, T.S. Prather, G.P. Irzyk, Y. Wu, N.K. Lownds, and R.H. Callihan|Physiological Characterization of Picloram Resistance in Yellow Starthistle|Pestic. Biochem. Physiol.56(2): 149-161|1996|10.1006/pest.1996.0069
78787|T||DePrado R., E. Romera, and J. Menendez|Atrazine Detoxification in Panicum dichotomiflorum and Target Site Polygonum lapathifolium|Pestic. Biochem. Physiol.52(1): 1-11|1995|10.1006/pest.1995.1025
78788|T||Scutaru,B., T. Giersch, C. Cozmei, and B. Hock|Immunoenzymatic Determination of Atrazine in Rat Tissue Samples|Toxicology127(1-3): 11-16|1998|10.1016/S0300-483X(98)00007-9
78791|A||Baldwin,W.S., J.A. Roling, S. Peterson, and L.M. Chapman|Effects of Nonylphenol on Hepatic Testosterone Metabolism and the Expression of Acute Phase Proteins in Winter Flounder (Pleuronectes americanus): Comparison to the Effects of Saint John's Wort|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 87-96|2005|10.1016/j.cca.2005.01.007
78792|T||Jenkins,K.J.|Effect of Copper Loading of Preruminant Calves on Intracellular Distribution of Hepatic Copper, Zinc, Iron, and Molybdenum|J. Dairy Sci.72:2346-2350|1989|10.3168/jds.S0022-0302(89)79367-X
78793|A||Forbis,A.D.|Uptake, Depuration, and Bioconcentration and Metabolite Characterization of 14C-Atrazine by Bluegill Sunfish (Lepomis macrochirus)|Final Rep.#34737,Analytical Bio-Chemistry Lab.,Columbia,MO:107 p.|1987|
78794|A||Dionne,E.|Chronic Toxicity to the Fathead Minnow (Pimephales promelas) During a Full Life-Cycle Exposure|Lab.Study #92-7-4324,CIBA-GEIGY Corp., Greensboro, NC:439 p.|1992|
78796|T||Isfaoun,A., F. Bureau, M. Mouly-Boudey, M. Drosdowsky, P. Arhan, and D. Bougle|Relationships Between Iron and Zinc Metabolism:  Predictive Value of Digestive Absorption on Tissue Storage|J. Trace Elem. Med. Biol.11(1): 23-27|1997|10.1016/S0946-672X(97)80005-3
78797|T||Ahn,H.W.|The Influence of the Interaction of Fluoride (F) and Aluminum (Al) on Bioavailability in Bacterial and Mammalian Systems|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:123 p.|1994|
78798|T||Jordan,S.A.|Hepatic Effects of Combined Heavy Metal Administration in the Pekin Duck (Anas platyrynchos)|Ph.D.Thesis, Univ.Guelph, Guelph, Ontario:208 p.|1990|
78799|T||Varner,J.A.|The Neurotoxicological Evaluation of the Chronic Administration of Aluminum-Fluoride and Sodium Fluoride in Drinking Water|Ph.D.Thesis, State University of New York at Binghamton, NY:177 p.|1995|
78801|T||Hamilton,R.D.P.|Interactions Among Zinc, Copper, Iron, Manganese, and Ascorbic Acid in the Japanese Quail|Ph.D.Thesis, George Washington University, Washington, DC:230 p.|1985|
78804|T||Tsunoda,M.|Aluminum Neurotoxicity:  Alterations of Neurotransmitters and Cytokines|Ph.D.Thesis, University of Georgia, Athens, GA:126 p.|1998|
78805|A||Thorhaug,A., J. Marcus, and F. Booker|Oil and Dispersed Oil on Subtropical and Tropical Seagrasses in Laboratory Studies|Mar. Pollut. Bull.17(8): 357-361|1986|10.1016/0025-326X(86)90248-1
78806|A||Baden,S.P.|Oxygen Consumption Rate of Shrimp Exposed to Crude Oil Extract|Mar. Pollut. Bull.13(7): 230-233|1982|10.1016/0025-326X(82)90344-7
78807|T||Hummer,K.E., and D.D. Picton|Oil Application Reduces Powdery Mildew Severity in Black and Red Currants|HortTechnology11(3): 445-446|2001|10.21273/HORTTECH.11.3.445
78808|A||Phatarpekar,P.V., and Z.A. Ansari|Comparative Toxicity of Water Soluble Fractions of Four Oils on the Growth of a Microalga|Bot. Mar.43(4): 367-375|2000|10.1515/BOT.2000.037
78809|T||Couillard,C.M., and F.A. Leighton|Avian Embryo Bioassay for the Toxicity of Petroleum Oils to Birds|In: Proc. of the Arctic and Mar. Oil Spill Prog. Tech. Semin. , Environ. Can.12:187-192|1989|
78810|T||Kallsen,C.E.|Petroleum Oils as Navel Orange Fruit Thinning Agents|HortTechnology11(2): 189-193|2001|10.21273/HORTTECH.11.2.189
78811|T||McGrath,M.T., and N. Shishkoff|Control of Cucurbit Powdery Mildew with JMS Stylet-Oil|Plant Dis.84(9): 989-993|2000|10.1094/PDIS.2000.84.9.989
78812|T||McGovern,R.J., A.E. Winston, R.E. Rouse, and A.W.,Jr. Welch|Reduction of Defoliation in Citrus Caused by Mycosphaerella citri with a Novel Biocompatible Fungicide|Plant Dis.87(2): 134-138|2003|10.1094/PDIS.2003.87.2.134
78813|T||Northover,J., and K.E. Schneider|Physical Modes of Action of Petroleum and Plant Oils on Powdery and Downy Mildews of Grapevines|Plant Dis.80(5): 544-550|1996|10.1094/PD-80-0544
78814|A||Dodge,R.E., S.C. Wyers, H.R. Frith, A.H. Knap, S.R. Smith, and T.D. Sleeter|The Effects of Oil and Oil Dispersants on the Skeletal Growth of the Hermatypic Coral Diploria strigosa|Coral Reefs3(4): 191-198|1984|10.1007/BF00288254
78815|A||Axiak,V., and J.J. George|Effects of Exposure to Petroleum Hydrocarbons on the Gill Functions and Ciliary Activities of a Marine Bivalve|Mar. Biol.94(2): 241-249|1987|10.1007/BF00392936
78816|AT||Clarke,P.J., and T.J. Ward|The Response of Southern Hemisphere Saltmarsh Plants and Gastropods to Experimental Contamination by Petroleum Hydrocarbons|J. Exp. Mar. Biol. Ecol.175(1): 43-57|1994|10.1016/0022-0981(94)90175-9
78817|A||Stephens,S.M., J.A. Brown, and S.C. Frankling|Stress Responses of Larval Turbot, Scophthalmus maximus L., Exposed to Sub-lethal Concentrations of Petroleum Hydrocarbons|Fish Physiol. Biochem.17(1-6): 433-439|1997|10.1023/A:1007799928020
78819|T||Ogboghodo,I.A., E.B. Erebor, I.O. Osemwota, and H.H. Isitekhale|The Effects of Application of Poultry Manure to Crude Oil Polluted Soils on Maize (Zea mays) Growth and Soil Properties|Environ. Monit. Assess.96(1-3): 153-161|2004|10.1023/B:EMAS.0000031724.22352.af
78820|A||Teas,H.J., E.O. Duerr, and J.R. Wilcox|Effects of South Louisiana Crude Oil and Dispersants on Rhizophora Mangroves|Mar. Pollut. Bull.18(3): 122-124|1987|10.1016/0025-326X(87)90132-9
78821|A||Mason,R.P.|Laboratory and Field Investigation of the Accumulation and Depuration of Petroleum Hydrocarbons by Black Mussels|In: J.Kuiper and W.J.Van den Brink (Eds.), Fate and Effects of Oil in Marine Ecosystem, Martinus Nijhoff Publ., Dordrecht, Netherlands:83-85|1987|
78822|A||Le Floch,S., J. Guyomarch, F. Merlin, J.F. Borseth, P. Le Corre, and K. Lee|Effects of Oil and Bioremediation on Mussel (Mytilus edulis L.) Growth in Mudflats|Environ. Technol.24(10): 1211-1219|2003|10.1080/09593330309385663
78823|T||Retzlaff,W.A., W.W. Barnett, L.E. Williams, and T.M. Dejong|Ozone Air Pollution Increases Petroleum Spray Oil Phytotoxicity|Hortscience29(2): 93-94|1994|10.21273/HORTSCI.29.2.93
78824|T||Chang,Y.S., and F.H. Sung|Effects of Gibberellic Acid and Dormancy-Breaking Chemicals on Flower Development of Rhododendron pulchrum Sweet and R. scabrum Don|Sci. Hortic.83(3-4): 331-337|2000|10.1016/S0304-4238(99)00111-9
78825|A||Axiak,V., J.J. George, and M.N. Moore|Petroleum Hydrocarbons in the Marine Bivalve Venus verrucosa:  Accumulation and Cellular Responses|Mar. Biol.97(2): 225-230|1998|10.1007/BF00391306
78827|T||Gupta,D.C., and K.K. Verma|Studies on Avoidable Losses in Mung Bean (Vigna radiata) due to Root-Knot Nematode, Meloidogyne javanica and Its Control Under Field Conditions|Indian J. Nematol.20(2): 148-151|1990|
78828|T||Misra,S.S., and H.O. Agrawal|Persistence of Phorate and Disulfoton Residues in Potatoes Grown in North-Western Hills|Indian J. Plant Prot.20(2): 138-143|1992|
78829|T||Koshy,P.K., P. Sundararaju, V.K. Sosamma, and K. Ravikumar|Efficacy of Four Systemic Nematicides Against Radopholus similis in Coconut Nursery|Indian J. Nematol.15(2): 148-151|1985|
78830|T||Awasthi,M.D.|Soil Retention and Plant Uptake of Soil Applied Granular Phorate and Carbaryl|Indian J. Plant Prot.18(2): 219-223|1990|
78831|T||Thakar,N.A., H.R. Patel, C.C. Patel, and M.S. Vora|Comparative Efficiency of Azolla and Namaticides in Management of Root-Knot Nematode in Tomato|Indian J. Nematol.18(1): 115-|1988|
78832|T||Bagle,B.G., and S. Verma|Bioefficacy and Persistence of Phorate and Monocrotophos on/in Soybean|Indian J. Plant Prot.18(2): 177-185|1990|
78833|T||Westerdahl,B.B., D. Giraud, S. Etter, L.J. Riddle, J.D. Radewald, C.A. Anderson, and J. Darso|Management Options for Pratylenchus penetrans in Easter Lily|J. Nematol.35(4): 443-449|2003|
78834|T||Prasad,D., D.K. Nagia, S. Kumar, R.P. Meena, and M.L. Saini|Chemical Control of Plant Parasitic Nematodes Associated with Soybeans|Pak. J. Nematol.11(1): 19-24|1993|
78835|T||Terry,L.I.|Effect of Early Season Insecticide Use and Square Removal on Fruiting Patterns and Fiber Quality of Cotton|J. Econ. Entomol.85(4): 1402-1412|1992|10.1093/jee/85.4.1402
78836|T||Buntin,G.D.|Hessian Fly (Diptera:  Cecidomyiidae) Injury and Loss of Winter Wheat Grain Yield and Quality|J. Econ. Entomol.92(5): 1190-1197|1999|10.1093/jee/92.5.1190
78839|T||Singh,V.K., and S.N. Mathur|Studies with Phorate, an Organophosphate Insecticide, on Growth, Nodulation and on Some Enzymes of Nitrogen Metabolism in Black Gram|Indian J. Plant Physiol.32(4): 314-319|1989|
78840|T||Singh,Y.P.|Bioefficacy and Residues of Phorate and Quinalphos in Upland Paddy at Medium high Altitude|Indian J. Plant Prot.21(1): 39-43|1993|
78842|T||Linardi,A., P.C. Panunto, E.S. Ferro, and S. Hyslop|Peptidase Activities in Rats Treated Chronically with N(omega)-Nitro-L-Arginine Methyl Ester (L-NAME)|Biochem. Pharmacol.68(2): 205-214|2004|10.1016/j.bcp.2004.03.016
78843|T||Noble,F., and B.P. Roques|Association of Aminopeptidase N and Endopeptidase 24.15 Inhibitors Potentiate Behavioral Effects Mediated by Nociceptin/Orphanin FQ in Mice|FEBS Lett.401(2-3): 227-229|1997|10.1016/S0014-5793(96)01476-7
78844|T||Melnick,R.L., M.C. Kohn, J.K. Dunnick, and J.R. Leininger|Regenerative Hyperplasia is not Required for Liver Tumor Induction in Female B6C3F1 Mice Exposed to Trihalomethanes|Toxicol. Appl. Pharmacol.148(1): 137-147|1998|10.1006/taap.1997.8302
78845|T||Schultz,I.R., J.L. Merdink, A. Gonzalez-Leon, and R.J. Bull|Comparative Toxicokinetics of Chlorinated and Brominated Haloacetates in F344 Rats|Toxicol. Appl. Pharmacol.158(2): 103-114|1999|10.1006/taap.1999.8698
78846|T||Edmonds,G.H.|The Performance of Phorate Against the Carrot Fly (Psila rosae (F.)) in Trials done During a 15 Year Period on Carrots in Mineral Soil|Crop Prot.15(4): 349-352|1996|10.1016/0261-2194(95)00146-8
78847|T||Vandana,S., and S. Zzaman|Phorate-Induced Enzymological Alterations in Mouse Olfactory Bulb|Brain Res. Bull.44(3): 247-252|1997|10.1016/S0361-9230(97)00116-0
78848|T||Fox,M.R.S., and B.E.,Jr. Fry|Cadmium Toxicity Decreased by Dietary Ascorbic Acid Supplements|Science169(3949): 989-991|1970|10.1126/science.169.3949.989
78850|A||Maharajan,A., and M. Vijayakumaran|Copper Toxicity in the Spiny Lobster, Panulirus homarus (Linnaeus)|In: Proceedings of the National Seminar on New Frontiers in Marine Bioscience Research:205-212|2004|
78851|T||Hermenegildo,C., R. Saez, C. Minoia, L. Manzo, and V. Felipo|Chronic Exposure to Aluminium Impairs the Glutamate-Nitric Oxide-Cyclic GMP Pathway in the Rat In Vivo|Neurochem. Int.34(3): 245-253|1999|10.1016/S0197-0186(99)00010-8
78852|T||Guo-Ross,S., E. Yang, and S.C. Bondy|Elevation of Cerebral Proteases After Systemic Administration of Aluminum|Neurochem. Int.33(3): 277-282|1998|10.1016/S0197-0186(98)00032-1
78853|T||Varner,J.A., C. Huie, W. Horvath, K.F. Jensen, and R.L. Isaacson|Chronic AlF3 Administration:  II.  Selected Histological Observations|Neurosci. Res. Commun.13(2): 99-104|1993|
78854|T||Triathou,L.C., J. Norton, O. Bugiani, and B. Ghetti|Ventral Root Axonopathy and Its Relation to the Neurofibrillary Degeneration of Lower Motor Neurons in Aluminum-Induced Encephalomyelopathy|Neuropathol.Appl.Neurobiol.11(6): 407-430|1985|10.1111/j.1365-2990.1985.tb00037.x
78855|T||Clayton,R.M., S.K.A. Sedowofia, J.M. Rankin, and A. Manning|Long-Term Effects of Aluminium on the Fetal Mouse Brain|Life Sci.51(25): 1921-1928|1992|10.1016/0024-3205(92)90108-2
78858|T||Lanza,G.M., K.W. Washburn, R.D. Wyatt, and H.M.,Jr. Edwards|Strain Variation in 59Fe Absorption During Aflatoxicosis|Poult. Sci.60(3): 500-504|1981|10.3382/ps.0600500
78859|T||Pimentel,J.L., M.E. Cook, and J.L. Greger|Research Note:  Bioavailability of Zinc-Methionine for Chicks|Poult. Sci.70(7): 1637-1639|1991|10.3382/ps.0701637
78861|T||Manning,R.O., R.D. Wyatt, and O.J. Fletcher|Effect of Cold Acclimation on the Broiler Chicks' Resistance to Dietary Aflatoxin|Poult. Sci.69(6): 915-921|1990|10.3382/ps.0690915
78862|T||Manning,R.O., R.D. Wyatt, H.L. Marks, and O.J. Fletcher|Effects of Dietary Aflatoxin in Aflatoxin-Resistant and Control Lines of Chickens|Poult. Sci.69(6): 922-928|1990|10.3382/ps.0690922
78863|T||Bondy,S.C., S.F. Ali, and S. Guo-Ross|Aluminum but not Iron Treatment Induces Pro-Oxidant Events in the Rat Brain|Mol. Chem. Neuropathol.34(2-3): 219-232|1998|10.1007/BF02815081
78864|T||Nebbia,C., M. Dacasto, L. Ceppa, and P. Roncada|Changes in the Activities of Hepatic Xenobiotic Metabolising Enzymes After the Administration of Clenbuterol to Female Broilers|Res. Vet. Sci.60(1): 33-36|1996|10.1016/S0034-5288(96)90127-7
78865|A||Dummermuth,A.L., U. Karsten, K.M. Fisch, G.M. Konig, and C. Wiencke|Responses of Marine Macroalgae to Hydrogen-Peroxide Stress|J. Exp. Mar. Biol. Ecol.289(1): 103-121|2003|10.1016/S0022-0981(03)00042-X
78866|T||Berlyne,G.M., R. Yagil, J.B. Ari, E. Knopf, G. Weinberger, and G.M. Danovitch|Aluminum Toxicity in Rats|Lancet (North Am. Ed.)1:564-567|1972|
78868|T||Whitehead,C.J., D.N. Prashad, and R.O. Blackburn|Cadmium-Induced Changes in Avian Renal Morphology|Experientia44(3): 193-198|1988|10.1007/BF01941704
78869|T||Pecoits-Filho,R.F.S., Z.J. Twardowski, Y.L. Kim, R. Khanna, H. Moore, and K.D. Nolph|The Absence of Toxicity in Intraperitoneal Iron Dextran Administration:  A Functional and Histological Analysis|Peritoneal Dialysis Int.18(1): 64-70|1998|10.1177/089686089801800108
78870|T||Zaki,K., S.M. Elwa, M.M. Mossaad, F.I. Nasr, and S.M. El Kholy|Changes of Some Electrolytes and Trace Elements in Serum and Atrial Tissue of Rat Under Different Doses of Sodium Chloride Intake|J. Med. Res. Inst.16(1): 34-46|1995|
78871|T||Baker,D.H., T.M. Parr, and N.R. Augspurger|Oral Iodine Toxicity in Chicks can be Reversed by Supplemental Bromine|J. Nutr.133(7): 2309-2312|2003|10.1093/jn/133.7.2309
78872|T||Somova,L.I., A. Missankov, and M.S. Khan|Chronic Aluminum Intoxication in Rats:  Dose-Dependent Morphological Changes|Methods Find. Exp. Clin. Pharmacol.19(9): 599-604|1997|
78873|T||Loeber,J.G., M.A.M. Franken, and F.X.R. Van Leeuwen|Effect of Sodium Bromide on Endocrine Parameters in the Rat as Studied by Immunocytochemistry and Radioimmunoassay|Food Chem. Toxicol.21(4): 391-404|1983|10.1016/0278-6915(83)90093-5
78874|T||Lu,L., M. Bergstrom, K.J. Fasth, and B. Langstrom|Synthesis of [76Br]Bromofluorodeoxyuridine and Its Validation with Regard to Uptake, DNA Incorporation, and Excretion Modulation in Rats|J. Nucl. Med.41(10): 1746-1752|2000|
78875|T||Nazer,I.K., A.B. Hallak, W.I. Abu-Gharbieh, and N.S. Saleh|Bromine Residues in the Soil and Fruits of Certain Crops After Soil Fumigation with Methyl Bromide|J. Radioanal. Chem.74(1): 113-116|1982|10.1007/BF02520364
78876|T||Copes,W.E., and F.F. Hendrix|Chemical Disinfestation of Greenhouse Growing Surface Materials Contaminated with Thielaviopsis basicola|Plant Dis.80(8): 885-886|1996|10.1094/PD-80-0885
78877|T||Babicky,A., S. Pavelka, and M. Vobecky|Biological Half-Lives of Bromide and Sodium in the Rat are Connected and Dependent on the Physiological State|Biol. Trace Elem. Res.103(1): 49-58|2005|10.1385/BTER:103:1:049
78878|T||Noetzel,D., and B. Holder|Control of Pyrethroid Resistant Colorado Potato Beetle, 1989|Insectic. Acaric. Tests17:133-|1992|
78879|T||Hansen,K., and H. Hubner|Effects of Bromide on Behaviour of Mice|Food Chem. Toxicol.21(4): 405-408|1983|10.1016/0278-6915(83)90094-7
78880|T||Lu,L., L. Samuelsson, M. Bergstrom, K. Sato, K.J. Fasth, and B. Langstrom|Rat Studies Comparing 11C-FMAU, 18F-FLT, and 76Br-BFU as Proliferation Markers|J. Nucl. Med.43(12): 1688-1698|2002|
78881|A||Giray,C., and G.M. King|Predator Deterrence and 2,4-Dibromophenol Conservation by the Enteropneusts Saccoglossus bromophenolosus and Protoglossus graveolens|Mar. Ecol. Prog. Ser.159:229-238|1997|10.3354/meps159229
78882|A||Denboh,T., M. Suzuki, Y. Mizuno, and T. Ichimura|Suppression of Laminaria sporelings by Allelochemicals from Coralline Red Algae|Bot. Mar.40(3): 249-256|1997|
78883|T||Bedi,S.P.S., and P.C. Sawhney|Effect of Zinc on the Haematology of Hariana Calves|Indian J. Anim. Sci.50(6): 476-479|1980|
78884|T||Roberson,R.H., and P.J. Schaible|The Tolerance of Growing Chicks for High Levels of Different Forms of Zinc|Poult. Sci.39:893-896|1960|10.3382/ps.0390893
78885|T||Ramakrishnan,A., and G.F. Mithuji|Effect of Added Zinc and Iodine on the Growth of Chicks|Indian J. Anim. Sci.41(10): 999-1002|1971|
78886|T||Gentle,M.J., W.A. Dewar, P.A.L. Wight, and K.M. Dick|The Effects of high Dietary Zinc on Food Intake in the Domestic Fowl|Appetite3(1): 53-60|1982|10.1016/S0195-6663(82)80036-6
78887|T||Groce,A.W., E.R. Miller, K.K. Keahey, D.E. Ullrey, and D.J. Ellis|Selenium Supplementation of Practical Diets for Growing-Finishing Swine|J. Anim. Sci.32(5): 905-911|2005|10.2527/jas1971.325905x
78888|T||Saxena,A.K., and K. Sarin|Pathological & Biochemical Changes in the Liver & Testes of the Desert Gerbil Meriones hurrianae (Jerdon):  Effect of a Single Intraperitoneal Injection of Phorate (Thimet)|Indian J. Exp. Biol.18(9): 1001-1004|1980|
78889|T||Kulkarni,K.A.|Effect of Granular Insecticides on Shootfly Control and Plant Growth|Mysore J. Agric. Sci.17(4): 357-359|1983|
78890|T||Deore,S.P., and R.S. Patil|Chemical Control Schedule for Brinjal Shoot and Fruit Borer|J. Maharashtra Agric. Univ.20(3): 416-419|1995|
78891|A||Bhale,K.B., S.S. Nimgare, and K.M. Kulkarni|Effects of Pollutants on Behaviour of the Crab Paratelphusa jacquemontii|J. Ecobiol.1(4): 299-307|1989|
78892|T||Kumar,K., and R.A. Agarwal|Effect of Systemic Granular Insecticides on Foliar Pests and Yield of Cotton|Indian J. Entomol.52(3): 364-372|1990|
78894|T||Singh,V.K.|Changes Induced by Phorate in the Nitrogen Metabolism of Black Gram|Adv. Plant Sci.4(1): 153-158|1991|
78895|T||Bagle,B.G., and S. Varma|Effect of Phorate on Nodulation and Growth Attributes in Soybean Var. DS-75-22-4|Indian J. Entomol.51(2): 154-158|1989|
78896|T||Kashyap,N.P., S.C. Verma, and D.C. Sharma|Studies on Persistence and Effect of Processing on Phorate Residues in Potato Tubers|J. Indian Potato Assoc.19(3-4): 187-190|1992|
78897|A||Ramesh,M.|Toxicity of Copper Sulphate on Some Haematological Parameters of a Freshwater Teleost Cyprinus carpio var. Communis|J. Indian Fish. Assoc.28:131-136|2001|
78898|A||Baden,S.P.|Impaired Osmoregulation in the Shrimp Palaemon adspersus Exposed to Crude Oil Extract|Mar. Pollut. Bull.13(6): 208-210|1982|10.1016/0025-326X(82)90173-4
78899|T||Frans,R.E., J.T. Richardson, and E.C. Gordon|Herbicide Field Evaluation Trials on Field Crops, 1976|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.249:33 p.|1977|
78900|T||Dhiman,J.S., K.S. Brar, G.S. Dhillon, M. Singh, and T.S. Dhillon|Chemical Control of Pea Stem Fly for the Management of Wilt and Aschochyta Blight|J. Insect Sci.6(2): 197-199|1993|
78901|T||Dethe,M.D., and D.S. Ajri|Phorate Residues in Rhizomes of Ginger Treated with Recommended Dose for the Control of Rhizome Fly|In: A.Regupathy, K.Rajukkannu, and S.Chelliah (Eds.), Pesticides and Environment, Natl.Semin., Aug.4-5, 1983, Dep.of Agric.Entomol.Ctr.for Plant Prot.Stud., Coimbatore, India:78-79|1984|
78902|T||Mathur,S.N., V.K. Singh, M. Mathur, and R.C. Srivastava|Studies with Phorate, an Organophosphate Insecticide, on Some Enzymes of Nitrogen Metabolism in Vigna mungo (L.) Hepper|Biol. Plant. (Praha)31(5): 363-369|1989|10.1007/BF02876353
78903|T||Prestidge,R.A., S. Van der Zijpp, and P. Gault|Effect of Argentine Stem Weevil on Vigour of 'Grasslands Roa' Tall Fescue Under Dairying in the Waikato|N. Z. J. Agric. Res.32(2): 291-297|1989|10.1080/00288233.1989.10423464
78904|T||Austin,E.W., and R.J. Bull|Effect of Pretreatment with Dichloroacetate or Trichloroacetate on the Metabolism of Bromodichloroacetate|J. Toxicol. Environ. Health52(4): 367-383|1997|10.1080/00984109708984071
78905|T||Szymanska,J.A.|Hepatotoxicity of Brominated Benzenes:  Relationship Between Chemical Structure and Hepatotoxic Effects in Acute Intoxication of Mice|Arch. Toxicol.72(2): 97-103|1998|
78906|T||Takehara,K., H. Kamaya, and I. Ueda|Inhibition of Firefly Luciferase by Alkane analogues|Biochim. Biophys. Acta1721(1-3): 124-129|2005|10.1016/j.bbagen.2004.10.009
78907|T||Clements,R.O., P.J. Murray, B.R. Bentley, and I.F. Henderson|Herbage Yield and Botanical Composition over 20 Years of a Predominantly Ryegrass Sward Treated Frequently with Phorate Pesticide and Three Rates of Nitrogen Fertilizer|J. Agric. Sci.115(1): 23-28|1990|10.1017/S0021859600073871
78908|T||Lord,K.A., M.A. May, and J.H. Stevenson|The Secretion of the Systemic Insecticides Dimethoate and Phorate into Nectar|Ann. Appl. Biol.61(1): 19-27|1968|10.1111/j.1744-7348.1968.tb04506.x
78909|T||Singh,K.B., S.B. Agrawal, and M. Agrawal|Effect of an Organophosphate Soil Systemic Insecticide Thimet-10G on Morphological Characteristics and Biomass of Vigna radiata (L.) Wilczek|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.63(2): 249-255|1993|
78910|T||Sud,K.C., B.C. Verma, S.S. Lal, and V.K. Chandla|Influence of Organophosphate Pesticides on Potato Nutrition in Shimla Hills|J. Indian Potato Assoc.25(1/2): 46-49|1998|
78911|T||EPA/OTS|Support:  Sodium Bromide - Developmental Toxicity (Embryofetal Toxicity and Teratogenic Potential) Study in Rats (Gavage Administration), with Cover Letter Dated 12/20/95|EPA/OTS Doc.#89960000024:107 p.|1996|
78912|A||Springborn Bionomics Inc.|Initial Submission:  Acute Toxicity of Bromine Chloride to Bluegill (Lepomis macrochirus) with Cover Letters Dated 011692 & 022192 (Sanitized)|EPA/OTS Doc.#88-920003835S:35 p.|1992|
78913|A||Malcolm Pirnie Inc.|Initial Submission:  The Acute Toxicity of Bromine Chloride to the Water Flea, Daphnia magna with Cover Letters Dated 011692 and 022192 (Sanitized)|Malcolm Pirnie Incorporated, Arlington, VA:21 p.|1992|
78914|A||Springborn Bionomics Inc.|Initial Submission:  Acute Toxicity of Bromine Chloride to Rainbow Trout (Salmo gairdneri) with Cover Sheet and Letters Dated 011692 & 022192 (Sanitized)|EPA/OTS Doc.#88-920003836S:35 p.|1992|
78915|T||Ameribrom Inc.|Initial Submission:  Letter from [] to U.S.EPA Submitting Results from Developmental Toxicity Study in Rats with Sodium Bromide Technical, Dated 09/22/95 (Sanitized)|Huntingdon Research Centre, Huntingdon, UK:3 p.|1995|
78917|T||Fielding,C.L., K.G. Magdesian, D.A. Elliott, A.L. Craigmill, W.D. Wilson, and G.P. Carlson|Pharmacokinetics and Clinical Utility of Sodium Bromide (NaBr) as an Estimator of Extracellular Fluid Volume in Horses|J. Vet. Intern. Med.17(2): 213-217|2003|10.1111/j.1939-1676.2003.tb02436.x
78920|T||Krasowska,A., and T. Wlostowski|The Effect of high Fluoride Intake on Tissue Trace Elements and Histology of Testicular Tubules in the Rat|Comp. Biochem. Physiol. C Comp. Pharmacol.103C(1): 31-34|1992|10.1016/0742-8413(92)90224-U
78921|T||Ye,Z.H., K.C. Cheung, and M.H. Wong|Cadmium and Nickel Adsorption and Uptake in Cattail as Affected by Iron and Manganese Plaque on the Root Surface|Commun. Soil Sci. Plant Anal.34(19-20): 2763-2778|2003|10.1081/CSS-120025202
78922|T||Lidon,F.C., H.G. Azinheira, and M.G. Barreiro|Aluminum Toxicity in Maize:  Biomass Production and Nutrient Uptake and Translocation|J. Plant Nutr.23(2): 151-160|2000|10.1080/01904160009382005
78923|T||Lidon,F.C., M.G. Barreiro, J.C. Ramalho, and J.A. Lauriano|Effects of Aluminum Toxicity on Nutrient Accumulation in Maize Shoots:  Implications on Photosynthesis|J. Plant Nutr.22(2): 397-416|1999|10.1080/01904169909365637
78924|T||Yang,Y.H., S.M. Chen, Z. Chen, H.Y. Zhang, H.G. Shen, Z.C. Hua, and N. Li|Silicon Effects on Aluminum Toxicity to Mungbean Seedling Growth|J. Plant Nutr.22(4-5): 693-700|1999|10.1080/01904169909365664
78925|T||Kaya,C., D. Higgs, and A. Burton|Foliar Application of Iron as a Remedy for Zinc Toxic Tomato Plants|J. Plant Nutr.22(12): 1829-1837|1999|10.1080/01904169909365759
78926|T||Lasseigne,F.T., T.J. Smalley, and H.A. Mills|Response of 'Helleri' Holly to Nitrogen Form and Aluminum in Solution Culture|J. Plant Nutr.20(1): 131-154|1997|10.1080/01904169709365239
78927|T||Ouzounidou,G., I. Ilias, H. Tranopoulou, and S. Karataglis|Amelioration of Copper Toxicity by Iron on Spinach Physiology|J. Plant Nutr.21(10): 2089-2101|1998|10.1080/01904169809365546
78928|T||Crooke,W.M., J.G. Hunter, and O. Vergnano|The Relationship Between Nickel Toxicity and Iron Supply|Ann. Appl. Biol.41(2): 311-324|1954|10.1111/j.1744-7348.1954.tb01124.x
78929|T||Suttle,N.F., and C.F. Mills|Studies of the Toxicity of Copper to Pigs. 1. Effects of Oral Supplements of Zinc and Iron Salts on the Development of Copper Toxicosis|Br. J. Nutr.20:135-148|1966|10.1079/BJN19660018
78931|T||Cancado,G.M.A., L.L. Loguercio, P.R. Martins, S.N. Parentoni, E. Paiva, A. Borem, and M.A. Lopes|Hematoxylin Staining as a Phenotypic Index for Aluminum Tolerance Selection in Tropical Maize (Zea mays L.)|Theor. Appl. Genet.99(5): 747-754|1999|10.1007/s001220051293
78932|T||Basu,U., A.G. Good, T. Aung, J.J. Slaski, A. Basu, K.G. Briggs, and G.J. Taylor|A 23-kDa, Root Exudate Polypeptide Co-Segregates with Aluminum Resistance in Triticum aestivum|Physiol. Plant. (Multiple Languages)106(1): 53-61|1999|10.1034/j.1399-3054.1999.106108.x
78933|T||Zhang,G., J.J. Slaski, D.J. Archambault, and G.J. Taylor|Alteration of Plasma Membrane Lipids in Aluminum-Resistant and Aluminum-Sensitive Wheat Genotypes in Response to Aluminum Stress|Physiol. Plant. (Multiple Languages)99(2): 302-308|1997|10.1111/j.1399-3054.1997.tb05416.x
78934|A||Takano,M., and T. Shimmen|Effects of Aluminum on Plasma Membrane as Revealed by Analysis of Alkaline Band Formation in Internodal Cells of Chara corallina|Cell Struct. Funct.24(3): 131-137|1999|10.1247/csf.24.131
78935|T||Schofield,R.M.S., J. Pallon, G. Fiskesjo, G. Karlsson, and K.G. Malmqvist|Aluminum and Calcium Distribution Patterns in Aluminum-Intoxicated Roots of Allium cepa do not Support the Calcium-Displacement Hypothesis and Indicate Signal-Mediated Inhibition of Root Growth|Planta (Multiple Languages)205(2): 175-180|1998|10.1007/s004250050309
78937|T||Zheng,S.J., C. Tang, Y. Arakawa, and Y. Masaoka|The Responses of Red Clover (Trifolium pratense L.) to Iron Deficiency:  A Root Fe(III) Chelate Reductase|Plant Sci.164(5): 679-687|2003|10.1016/S0168-9452(02)00422-3
78938|T||Pan,J.W., K. Zheng, D. Ye, H.L. Yi, Z.M. Jiang, C.T. Jing, W.H. Pan, and M.Y. Zhu|Aluminum-Induced Ultraweak Luminescence Changes and Sister-Chromatid Exchanges in Root Tip Cells of Barley|Plant Sci.167(6): 1391-1399|2004|10.1016/j.plantsci.2004.07.015
78939|T||Anke,M., A. Hennig, H.J. Schneider, H. Ludke, W. Von Gagern, and H. Schlegel|The Interrelations Between Cadmium, Zinc, Copper and Iron in Metabolism of Hens, Ruminants and Man|In: C.F.Mills (Ed.), Trace Element Metabolism in Animals, Livingston, Edinburgh:317-320|1970|
78940|T||Gooneratne,S.R., R.K. Chaplin, A.M. Trent, and D.A. Christensen|Effect of Tetrathiomolybdate Administration on the Excretion of Copper, Zinc, Iron and Molybdenum in Sheep Bile|Br. Vet. J.145(1): 62-72|1989|10.1016/0007-1935(89)90011-0
78942|T||Boccio,J.R., M.B. Zubillaga, R.A. Caro, A. Lysionek, C.A. Gotelli, M.J. Gotelli, and R. Weill|Bioavailability, Absorption Mechanism, and Toxicity of Microencapsulated Iron (I) Sulfate:  Studies in Mice|Biol. Trace Elem. Res.62(1-2): 65-74|1998|10.1007/BF02820022
78943|T||Guo,C.H., C.J. Huang, Y.L. Chiou, and G.S.W. Hsu|Alteration of Trace Element Distribution and Testis ACE Activity in Mice with High Peritoneal Aluminum|Biol. Trace Elem. Res.86(2): 145-157|2002|10.1385/BTER:86:2:145
78944|T||Deng,Z., C. Coudray, L. Gouzoux, A. Mazur, Y. Rayssiguier, and D. Pepin|Effects of Acute and Chronic Coingestion of AlCl3 with Citrate or Polyphenolic Acids on Tissue Retention and Distribution of Aluminum in Rats|Biol. Trace Elem. Res.76(3): 245-256|2000|10.1385/BTER:76:3:245
78945|T||McGuire,S.O., W.J. Miller, R.P. Gentry, M.W. Neathery, S.Y. Ho, and D.M. Blackmon|Influence of high Dietary Iron as Ferrous Carbonate and Ferrous Sulfate on Iron Metabolism in Young Calves|J. Dairy Sci.68:2621-2628|1985|10.3168/jds.S0022-0302(85)81146-2
78946|T||Capdevielle,M.C.|The Effects of Acid and Aluminum on Growth and Growth Related Endocrine Function in Domestic and Wild Birds|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:186 p.|1994|
78947|T||Pimentel,J.L.|Effect of Zinc, Copper, and Iron on Immunity and Hematological Responses of Chicks|Ph.D Thesis, University of Wisconsin, Madison, WI:191 p.|1991|
78948|T||Hatterman-Valenti,H., V.F. Lawson, and M.D.K. Owen|Interaction of Metribuzin and Phorate on 'Atlantic' and 'Norchip' Potato (Solanum tuberosum) Cultivars|Weed Technol.8(3): 461-464|1994|10.1017/S0890037X00039518
78949|T||Willson,H.R., and J.B. Eisley|Evaluation of Soil Insecticides on Continuous Corn in Ohio, 1995|Arthropod Manag. Tests21(1): 233-|1996|10.1093/amt/21.1.233
78950|T||El-Sayed,G.N., and C.O. Knowles|Synergism of Insecticide Activity to Heliothis zea (Boddie) (Lepidoptera:  Noctuidae) by Formanilides and Formamidines|J. Econ. Entomol.77(4): 872-875|1984|10.1093/jee/77.4.872
78952|T||Cueto,G.M., P.G. Audino, C.V. Vassena, M.I. Picollo, and E.N. Zerba|Toxic Effect of Aliphatic Alcohols Against Susceptible and Permethrin-Resistant Pediculus humanus capitis (Anoplura:  Pediculidae)|J. Med. Entomol.39(3): 457-460|2002|10.1603/0022-2585-39.3.457
78953|T||Scala,R.A., and E.G. Burtis|Acute Toxicity of a Homologous Series of Branched-Chain Primary Alcohols|Am. Ind. Hyg. Assoc. J.34(11): 493-499|1973|10.1080/0002889738506887
78954|T||Ray,S.D., and H.M. Mehendale|Potentiation of CCL4 and CHCL3 Hepatotoxicity and Lethality by Various Alcohols|Fundam. Appl. Toxicol.15(3): 429-440|1990|10.1016/0272-0590(90)90029-J
78955|T||Raw,K.A.|Responses of Winter Field Beans to Insecticides, Fungicides, Nitrogen and Sulphur|Tests Agrochem. Cultiv.13:64-65|1992|
78956|T||Herbert,D.A.,Jr.|Effects of Selected Seed, Foliar and In-Furrow Applied Insecticides and Planting Date on Thrips Injury, Plant Stand and Yield, 1996|Arthropod Manag. Tests22:282-283|1997|10.1093/amt/22.1.282
78958|T||Cormier,D., and P. Martel|Effects of Soil Insecticide Treatments on Northern Corn Rootworm, Diabrotica barberi (Coleoptera:  Chrysomelidae), Populations and on Corn Yield|Phytoprotection (Multiple Languages)78(2): 67-73|1997|10.7202/706121ar
78959|T||Mulder,P.G.Jr.|Effects of Insecticides on Thrips Populations, Peanut Injury, Growth, and Yield, 1996|Arthropod Manag. Tests23:254-255|1997|10.1093/amt/23.1.254a
78960|T||Mulder,P.G.Jr.|Effects of Insecticides on Thrips Populations, Peanut Injury, Growth and Yield, 1998|Arthropod Manag. Tests24:267-268|1999|
78961|T||Mulder,P.G.Jr.|Effects of Insecticides on Thrips Populations, Peanut Injury, Growth, and Yield, Chickasha, Oklahoma, 1996|Arthropod Manag. Tests23:255-256|1998|10.1093/amt/23.1.255
78962|T||Lee,J., and C.J.P. Upton|Relative Efficiency of Insecticide Treatments in Reducing Yield Loss from Sitona in Faba Beans|Tests Agrochem. Cultiv.13:6-7|1992|
78965|T||Daly,K.C., S. Chandra, M.L. Durtschi, and B.H. Smith|The Generalization of an Olfactory-Based Conditioned Response Reveals Unique but Overlapping Odour Representations in the Moth Manduca sexta|J. Exp. Biol.204:3085-3095|2001|10.1242/jeb.204.17.3085
78966|T||Ortiz,A., A. Quesada, and A. Sanchez|Potential for Use of Synthetic Sex Pheromone for Mating Disruption of the Olive Pyralid Moth, Euzophera pinguis|J. Chem. Ecol.30(5): 991-1000|2004|10.1023/B:JOEC.0000028463.43564.40
78967|T||Lin,S., B.F. Binder, and E.R. Hart|Chemical Ecology of Cottonwood Leaf Beetle Adult Feeding Preferences on Populus|J. Chem. Ecol.24(11): 1791-1802|1998|10.1023/A:1022303532306
78968|T||Watanabe,T., and I. Miyagawa|Effects of Long-Chain Fatty Alcohol on Peripheral Nerve Conduction and Bladder Function in Diabetic Rats|Life Sci.70(19): 2215-2224|2002|10.1016/S0024-3205(01)01536-3
78969|T||Saito,M., H. Suzuki, M. Yamada, and I. Miyagawa|Preventive Effect of Long-Chain Fatty Alcohol on Ischemia-Reperfusion Injury in the Rat Bladder|Eur. J. Pharmacol.454(1): 81-84|2002|10.1016/S0014-2999(02)02471-8
78970|AT||Dildy-Mayfield,J.E., S.J. Mihic, Y. Liu, R.A. Deitrich, and R.A. Harris|Actions of Long Chain Alcohols on GABAA and Glutamate Receptors:  Relation to In Vivo Effects|Br. J. Pharmacol.118(2): 378-384|1996|10.1111/j.1476-5381.1996.tb15413.x
78971|T||Sultana,M., P.P. Gupta, and T.J. Singh|Pathological Changes in Experimental Phorate Poisoning in Buffalo Calves|Indian J. Anim. Sci.57(5): 420-423|1987|
78972|T||Tu,C., and L.Q. Ma|Effects of Arsenate and Phosphate on Their Accumulation by an Arsenic-Hyperaccumulator Pteris vittata L.|Plant Soil249(2): 373-382|2003|10.1023/A:1022837217092
78973|T||Liau,D.F., C.R. Barrett, A.L.L. Bell, and S.F. Ryan|Functional Abnormalities of Lung Surfactant in Experimental Acute Alveolar Injury in the Dog|Am. Rev. Respir. Dis.136(2): 395-401|1987|10.1164/ajrccm/136.2.395
78974|T||Doctor,S.V., and D.A. Fox|Effects of Organotin Compounds on Maximal Electroshock Seizure (MES) Responsiveness in Mice. I.  Tri(n-Alkyl)Tin Compounds|J. Toxicol. Environ. Health10(1): 43-52|1982|10.1080/15287398209530229
78976|T||Saxena,A.K., and K. Sarin|Estimation of LD50 of Two Organophosphorous Insectides with Reference to Male Indian Desert Gerbil, Meriones hurrianae (Jerdon)|J. Anim. Morphol. Physiol.28(1-2): 234-235|1981|
78977|T||Saito,M., H. Suzuki, M. Yamada, K. Hikita, N. Kobayashi, Y. Kinoshita, D. Houri, I. Miyagawa, and K. Satoh|Effect of Cyclohexenonic Long-Chain Fatty Alcohol on Rat Overactive Bladder Induced by Bladder Neck Obstruction|Eur. J. Pharmacol.501(1-3): 143-149|2004|10.1016/j.ejphar.2004.08.005
78978|A||Munir,I., M. Nakazawa, K. Harano, R. Yamaji, H. Inui, K. Miyatake, and Y. Nakano|Occurrence of a Novel NADP(+)-Linked Alcohol Dehydrogenase in Euglena gracilis|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.132(3): 535-540|2002|10.1016/S1096-4959(02)00068-4
78979|T||Jewett,D.K., and L.B. Bjostad|Structure-Activity Study with Haloalkane Attractants of Western Corn Rootworm (Coleoptera: Chrysomelidae) Larvae Using a Behavioral Bioassay|J. Entomol. Sci.32(1): 91-105|1997|10.18474/0749-8004-32.1.91
78980|A||Moubax,I., N. Bontemps-Subielos, B. Banaigs, G. Combaut, P. Huitorel, J.P. Girard, and D. Pesando|Structure-Activity Relationship for Bromoindole Carbaldehydes:  Effects on the Sea Urchin Embryo Cell Cycle|Environ. Toxicol. Chem.20(3): 589-596|2001|10.1002/etc.5620200319
78981|T||Sultana,M., and T.J. Singh|Effect of DAM and Atropine on Phorate-Induced Toxicity in Buffalo Calves|Indian J. Anim. Sci.60(3): 290-294|1990|
78982|T||Venkatramesh,M., and V. Agnihothrudu|Effect of Phorate with and Without Amendments on Soil Microflora|Bull. Environ. Contam. Toxicol.41(4): 556-562|1988|10.1007/BF02021000
78983|T||Anderegg,B.N., and E.P. Lichtenstein|A Comparative Study of Water Transpiration and the Uptake and Metabolism of [14C]Phorate by C3 and C4 Plants|J. Agric. Food Chem.29(4): 733-738|1981|10.1021/jf00106a013
78984|T||Schulz,K.R., T.W. Fuhremann, and E.P. Lichtenstein|Interaction of Pesticide Chemicals.  Effect of Eptam and Its Antidote on the Uptake and Metabolism of (14C)Phorate in Corn Plants|J. Agric. Food Chem.24(2): 296-299|1976|10.1021/jf60204a026
78985|T||Finlayson,D.G., I.H. Williams, M.J. Brown, and C.J. Campbell|Distribution of Insecticide Residues in Carrots at Harvest|J. Agric. Food Chem.24(3): 606-608|1976|10.1021/jf60205a060
78986|A||Bidwell,J.R., D.S. Cherry, J.L. Farris, J.C. Petrille, and L.A. Lyons|Effects of Intermittent Halogenation on Settlement, Survival and Growth of the Zebra Mussel, Dreissena polymorpha|Hydrobiologia (Multiple Languages)394:53-62|1999|10.1023/A:1003553202996
78987|T||Childers,C.C., H. Aguilar, R. Villanueva, and M.M. Abou-Setta|Comparative Residual Toxicities of Pesticides to the Predator Euseius mesembrinus (Acari: Phytoseiidae) on Citrus in Florida|Fla. Entomol.84(3): 391-401|2001|10.2307/3496498
78988|T||Childers,C.C., R. Villanueva, H. Aguilar, R. Chewning, and J.P. Michaud|Comparative Residual Toxicities of Pesticides to the Predator Agistemus industani (Acari: Stigmaeidae) on Citrus in Florida|Exp. Appl. Acarol.25(6): 461-474|2001|10.1023/A:1011805820546
78989|A||Dautremepuits,C., S. Betoulle, and G. Vernet|Antioxidant Response Modulated by Copper in Healthy or Parasitized Carp (Cyprinus carpio L.) by Ptychobothrium sp. (Cestoda)|Biochim. Biophys. Acta1573(1): 4-8|2002|10.1016/S0304-4165(02)00328-8
78990|A||Babu,T.S., T.A. Akhtar, M.A. Lampi, S. Tripuranthakam, D.G. Dixon, and B.M. Greenberg|Similar Stress Responses are Elicited by Copper and Ultraviolet Radiation in the Aquatic Plant Lemna gibba:  Implication of Reactive Oxygen Species as Common Signals|Plant Cell Physiol.44(12): 1320-1329|2003|10.1093/pcp/pcg160
78992|A||Chang,S.I., and J.R. Reinfelder|Relative Importance of Dissolved Versus Trophic Bioaccumulation of Copper in Marine Copepods|Mar. Ecol. Prog. Ser.231:179-186|2002|10.3354/meps231179
78993|T||Liu,J., Z. Xiong, T. Li, and H. Huang|Bioaccumulation and Ecophysiological Responses to Copper Stress in Two Populations of Rumex dentatus L. from Cu Contaminated and Non-Contaminated Sites|Environ. Exp. Bot.52(1): 43-51|2004|10.1016/j.envexpbot.2004.01.005
78995|T||Brennan,R.F., and M.D.A. Bolland|Comparing Copper Requirements of Faba Bean, Chickpea, and Lentil with Spring Wheat|J. Plant Nutr.26(4): 883-899|2003|10.1081/PLN-120018572
78996|A||Toth,G., and H. Pavia|Lack of Phlorotannin Induction in the Brown Seaweed Ascophyllum nodosum in Response to Increased Copper Concentrations|Mar. Ecol. Prog. Ser.192:119-126|2000|10.3354/meps192119
78997|T||Lehmann,C., and F. Rebele|Evaluation of Heavy Metal Tolerance in Calamagrostis epigejos and Elymus repens Revealed Copper Tolerance in a Copper Smelter Population of C. epigejos|Environ. Exp. Bot.51(3): 199-213|2004|10.1016/j.envexpbot.2003.10.002
78998|T||Sato,S., M. Shimizu, T. Hosokawa, T. Saito, M. Okabe, T. Niioka, and M. Kurasaki|Distribution of Zinc-Binding Metallothionein in Cirrhotic Liver of Rats Administered Zinc|Pharmacol. Toxicol.87(6): 292-296|2000|10.1034/j.1600-0773.2000.pto870609.x
78999|A||Lapirova,T.B., V.R. Mikryakova, A.S. Mavrin, and G.A. Vinogradova|Effect of Sublethal Concentrations of Mercury, Cadmium, and Copper Salts on the Lysozyme Content in Fry of the Lena River Sturgeon  Acipenser baeri|J. Evol. Biochem. Physiol.36(1): 47-51|2000|10.1007/BF02890665
79000|A||Correia,A.D., M.H. Costa, K.P. Ryan, and J.A. Nott|Studies on Biomarkers of Copper Exposure and Toxicity in the Marine Amphipod Gammarus locusta (Crustacea):  I.  Copper-Containing Granules Within the Midgut Gland|J. Mar. Biol. Assoc. U.K.82(5): 827-834|2002|10.1017/S0025315402006197
79001|A||Garnacho,E., P.A. Tyler, and L.S. Peck|Reproduction, Seasonality, and Copper Toxicity in the Coastal Mysid Praunus flexuosus|J. Mar. Biol. Assoc. U.K.81(3): 433-440|2001|10.1017/S0025315401004064
79002|AT||Arkhipchuk,V.V., V.D. Romanenko, M.V. Malinovskaya, L.S. Kipnis, V.D. Solomatina, and Yu.G. Krot|Toxicity Assessment of Water Samples with a Set of Animal and Plant Bioassays: Experience of the Ukrainian Participation in the WaterTox Program|Environ. Toxicol.15(4): 277-286|2000|10.1002/1522-7278(2000)15:4<277::AID-TOX3>3.0.CO;2-D
79003|A||Ganesh,N., T.R.C. Gupta, R.J. Katti, and K.S. Udupa|Acute Toxicity of Copper on Three Life Stages of Common Carp, Cyprinus carpio var. Communis|Pollut. Res.19(1): 91-93|2000|
79004|T||Arnold,R.E., M.E. Hodson, S. Black, and N.A. Davies|The Influence of Mineral Solubility and Soil Solution Concentration on the Toxicity of Copper to Eisenia fetida Savigny|Pedobiologia (Multiple Languages)47(5/6): 622-632|2003|
79005|A||Perschbacher,P.W.|Temperature Effects on Acute Copper Toxicity to Juvenile Channel Catfish Ictalurus punctatus|Aquaculture243(1-4): 225-228|2005|10.1016/j.aquaculture.2004.10.006
79006|A||Correia,A.D., G. Lima, M.H. Costa, and D.R. Livingstone|Studies on Biomarkers of Copper Exposure and Toxicity in the Marine Amphipod Gammarus locusta (Crustacea):  I.  Induction of Metallothionein and Lipid Peroxidation|Biomarkers (Lond.)7(5): 422-437|2002|10.1080/135475002760413516
79008|T||Maritz,G.S., and S. Windvogel|Is Maternal Copper Supplementation During Alveolarization Protecting the Developing Rat Lung Against the Adverse Effects of Maternal Nicotine Exposure?  A Morphometric Study|Exp. Lung Res.29(4): 243-260|2003|10.1080/01902140303785
79009|T||Davis,C.D., and W.T. Johnson|Dietary Copper Affects Azoxymethane-Induced Intestinal Tumor Formation and Protein Kinase C Isozyme Protein and mRNA Expression in Colon of Rats|J. Nutr.132(5): 1018-1025|2002|10.1093/jn/132.5.1018
79010|T||Kossor,D.C., S. Han, F.W. Kemp, R.W. Slauter, D. Serota, D. Rajaskarian, N. Milner, A. Davidovich, and J.D. Bogden|Administration of the Oral Antibiotic Frenolicin-B Selectively Alters Copper Nutriture in Male Rats|J. Nutr.131(12): 3247-3250|2001|10.1093/jn/131.12.3247
79011|A||Lawrence,A.J., and C. Poulter|Impact of Copper, Pentachlorophenol and Benzo(a)pyrene on the Swimming Efficiency and Embryogenesis of the Amphipod Chaetogammarus marinus|Mar. Ecol. Prog. Ser.223:213-223|2001|10.3354/meps223213
79012|A||Papadimitriou,E.A., and N.S. Loumbourdis|Copper Kinetics and Hepatic Metallothionein Levels in the Frog Rana ridibunda, After Exposure to CuCl2|BioMetals16(2): 271-277|2003|10.1023/A:1020683404803
79013|T||Drazkiewicz,M., E. Skorzynska-Polit, and Z. Krupa|Copper-Induced Oxidative Stress and Antioxidant Defence in Arabidopsis thaliana|BioMetals17(4): 379-387|2004|10.1023/B:BIOM.0000029417.18154.22
79014|A||Panda,S.K., and M.H. Khan|Changes in Growth and Superoxide Dismutase Activity in Hydrilla verticillata L. Under Abiotic Stress|Braz. J. Plant Physiol.16(2): 115-118|2004|10.1590/S1677-04202004000200007
79015|T||Rawlings,J.M., J.R. Foster, and J.R. Heylings|Diquat-Induced Intestinal Secretion in the Anaesthetized Rat|Hum. Exp. Toxicol.11(6): 524-529|1992|10.1177/096032719201100614
79016|A||Toussaint,M.W., A.B. Rosencrance, L.M. Brennan, W.E. Dennis, J.R. Beaman, M.J. Wolfe, F.J. Hoffmann, and H.S.,Jr. Gardn|Chronic Toxicity of Bromodichloromethane to the Japanese Medaka (Oryzias latipes)|Toxicol. Pathol.29(6): 662-669|2001|10.1080/019262301753385997
79017|T||Vorhees,C.V., R.E. Butcher, V. Wootten, and R.L. Brunner|Behavioral and Reproductive Effects of Chronic Developmental Exposure to Brominated Vegetable Oil in Rats|Teratology28(3): 309-318|1983|10.1002/tera.1420280302
79018|A||Singh,K., and D.K. Singh|Effect of Azadirachta indica (Neem) on Biochemical Parameters in the Ovotestis of Lymnea acuminata|Malays. Appl. Biol.24(2): 7-11|1996|
79019|T||Stark,J.D.|Entomopathogenic Nematodes (Rhabditida:  Steinernematidae):  Toxicity of Neem|J. Econ. Entomol.89(1): 68-73|1996|10.1093/jee/89.1.68
79020|T||Datta,S., and D.B. Saxena|Pesticidal Properties of Parthenin (from Parthenium hysterophorus) and Related Compounds|Pest Manag. Sci.57(1): 95-101|2001|10.1002/1526-4998(200101)57:1<95::AID-PS248>3.0.CO;2-J
79022|T||Kaushal,K.K.|On the Effectiveness of 'Neem' Products Against the Cereal Cyst Nematode, Heterodera avenae|Indian J. Nematol.23(2): 218-219|1993|
79023|T||Fiume,F.|Therapeutical or Protective Effects of Two New Fungicides Against Powdery Mildew on Sweet Pepper and Their Physiological Implications|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(3B): 1141-1150|1997|
79024|T||Walker,J.T., R.D. Oetting, M. Johnston-Clark, and J.B. Melin|Evaluation of Newer Chemicals for Control of Foliar Nematode on Begonia|J. Environ. Hortic.15(1): 16-18|1997|10.24266/0738-2898-15.1.16
79025|T||Shah,N.K.|"Bio-Efficacy of ""Neem"" Products on Grasshopper Complex"|Range Manag. Agrofor.16(1): 101-104|1995|
79026|A||Logambal,S.M., and R.D. Michael|Immunostimulatory Effect of Azadirachtin in Oreochromis mossambicus (Peters)|Indian J. Exp. Biol.38(11): 1092-1096|2000|
79027|T||Parida,M.M., C. Upadhyay, G. Pandya, and A.M. Jana|Inhibitory Potential of Neem (Azadirachta indica Juss) Leaves on Dengue Virus Type-2 Replication|J. Ethnopharmacol.79(2): 273-278|2002|10.1016/S0378-8741(01)00395-6
79028|T||Zidar,P., D. Drobne, J. Strus, C.A.M. Van Gestel, and M. Donker|Food Selection as a Means of Cu Intake Reduction in the Terrestrial Isopod Porcellio scaber (Crustacea, Isopoda)|Appl. Soil Ecol.25(3): 257-265|2004|10.1016/j.apsoil.2003.09.005
79029|T||Davis,C.D., and W.T. Johnson|Dietary Copper and Dimethylhydrazine Affect Protein Kinase C Isozyme Protein and mRNA Expression and the Formation of Aberrant Crypts in Colon of Rats|Biofactors15(1): 11-26|2001|10.1002/biof.5520150102
79030|T||Yang,H., J.W.C. Wong, Z.M. Yang, and L.X. Zhou|Ability of Agrogyron elongatum to Accumulate the Single Metal of Cadmium, Copper, Nickel and Lead and Root Exudation of Organic Acids|J. Environ. Sci.13(3): 368-375|2001|
79031|T||Ait Ali,N., M.P. Bernal, and M. Ater|Tolerance and Bioaccumulation of Copper in Phragmites australis and Zea mays|Plant Soil239(1): 103-111|2002|10.1023/A:1014995321560
79032|T||Chai,T., Y. Zhang, and W. Zhao|Cloning of cDNA and Expression Analysis of a DnaJ-like Gene Under Heavy Metal Stress in Bean|Prog. Nat. Sci.10(3): 198-203|2000|
79033|T||Panou-Filotheou,H., and A.M. Bosabalidis|Root Structural Aspects Associated with Copper Toxicity in Oregano (Origanum vulgare subsp. hirtum)|Plant Sci.166(6): 1497-1504|2004|10.1016/j.plantsci.2004.01.026
79034|T||Dey,S., J. Arjun, M. Das, C.R. Bhattacharjee, and P.S. Dkhar|Effect of Prenatal Lead Toxicity on Surface Ultrastructural Features, Elemental Composition and Infrared Absorption Characteristics of the Skin of Albino Mice|Cytobios106(S2): 245-254|2001|
79035|T||Backor,M., D. Fahselt, and C.T. Wu|Free Proline Content is Positively Correlated with Copper Tolerance of the Lichen Photobiont Trebouxia erici (Chlorophyta)|Plant Sci.167(1): 151-157|2004|10.1016/j.plantsci.2004.03.012
79036|T||Idinger,J.|Laboratory Studies to Detect Effects of Selected Plant Protection Products on Folsomia candida (Collembola: Isotomidae)|J. Plant Dis. Prot.109(5): 512-529|2002|
79037|T||Rao,M.S., R.P. Tewari, and M. Pandey|Integrated Management of Mushroom Nematode (Aphelenchoides composticola)|Indian J. Agric. Sci.64(12): 878-881|1994|
79038|T||Hazarika,L.K., and K.C. Puzari|Field Efficacy of White Muscardine Fungus (Beauveria bassiana) on Rice Hispa (Dicladispa armigera)|Indian J. Agric. Sci.67(10): 463-465|1997|
79039|T||Sharma,B.K., and A.K. Basandrai|Effect of Biocontrol Agents, Fungicides and Plant Extracts on Sclerotial Viability of Sclerotinia sclerotiorum|Indian J. Agric. Sci.67(3): 132-133|1997|
79040|T||Karim,M.R.|Relative Efficacy of the Use of Rodenticides in the Paddy Fields at Mymensingh District|Bangladesh J. Zool.17(2): 179-187|1989|
79041|T||Ledwaba,M.F., and K.D. Roberson|Effectiveness of Twenty-Five-Hydroxycholecalciferol in the Prevention of Tibial Dyschondroplasia in Ross Cockerels Depends on Dietary Calcium Level|Poult. Sci.82(11): 1769-1777|2003|10.1093/ps/82.11.1769
79042|T||Shirley,R.B., A.J. Davis, M.M. Compton, and W.D. Berry|The Expression of Calbindin in Chicks that are Divergently Selected for Low or High Incidence of Tibial Dyschondroplasia|Poult. Sci.82(12): 1965-1973|2003|10.1093/ps/82.12.1965
79043|T||Novak,C., and S.E. Scheideler|Long-Term Effects of Feeding Flaxseed-Based Diets.  1.  Egg Production Parameters, Components, and Eggshell Quality in Two Strains of Laying Hens|Poult. Sci.80(10): 1480-1489|2001|10.1093/ps/80.10.1480
79044|T||Edwards,H.M.,Jr.|Effects of U.V. Irradiation of Very Young Chickens on Growth and Bone Development|Br. J. Nutr.90(1): 151-160|2003|10.1079/BJN2003860
79045|T||Henzell,R.F., R.A. Skinner, and R.O. Clements|Insecticides for Control of Adult Grass Grub, Costelytra zealandica (White) V. Screening and Behaviour of Insecticides in Soil Bioassays|N. Z. J. Agric. Res.26(1): 129-133|1983|10.1080/00288233.1983.10420962
79046|T||Atkinson,P.R.|Controlled-Release Insecticide Granules, Compared with Other Soil Insecticides, for use Against the Termite, Macrotermes natalensis Haviland, in the Establishment of Eucalyptus Plantations|Crop Prot.8(6): 387-396|1989|10.1016/0261-2194(89)90062-8
79047|T||Saxena,A.K., and K. Sarin|Histopathological and Biochemical Changes in the Liver and Testes of Desert Gerbil, After Repeated Exposures of Thimet (Phorate)|Toxicology18(2): 133-144|1980|10.1016/0300-483X(80)90076-1
79048|T||Saxena,A.K., and K. Sarin|Effect of Repeated Administration of Thimet (Phorate) on Testes of the Desert Gerbil Meriones hurrianae Jerdon:  Biochemical & Histopathological Studies|Indian J. Exp. Biol.17(9): 863-865|1979|
79049|T||Clements,R.O., B.R. Bentley, and C.A. Jackson|The Impact of Granular Formulations of Phorate, Terbufos, Carbofuran, Carbosulfan and Thiofanox on Newly Sown Italian Ryegrass (Lolium multiflorum)|Crop Prot.5(6): 389-394|1986|10.1016/0261-2194(86)90070-0
79050|T||Malhi,P.K., and I.S. Grover|Genotoxic Effects of Some Organophosphorus Pesticides II.  In Vivo Chromosomal Aberration Bioassay in Bone Marrow Cells in Rat|Mutat. Res.188(1): 45-51|1987|10.1016/0165-1218(87)90113-3
79051|T||Pandita,T.K.|Evaluation of Thimet 10-G for Mutagenicity by 4 Different Genetic Systems|Mutat. Res.171(2-3): 131-138|1986|10.1016/0165-1218(86)90045-5
79052|T||Gentile,J.M., G.J. Gentile, J. Bultman, R. Sechriest, E.D. Wagner, and M.J. Plewa|An Evaluation of the Genotoxic Properties of Insecticides Following Plant and Animal Activation|Mutat. Res.101(1): 19-29|1982|10.1016/0165-1218(82)90161-6
79054|T||Yoshida,M., and H. Hoshii|Effect of Alcohols, Aldehydes and Their Derivatives to Induce Nutritional Encephalomalacia in Starting Chicks|Agric. Biol. Chem.35(10): 1610-1616|1971|10.1080/00021369.1971.10860113
79055|T||Clements,R.O., and I.F. Henderson|An Assessment of Insidious Pest Damage to 26 Varieties of Seven Species of Herbage Legumes|Crop Prot.2(4): 491-495|1983|10.1016/0261-2194(83)90070-4
79056|T||Srinivasa,N., and S. Verma|Effect of Basal Application of Phorate on Root Nodulation, Rhizosphere Microflora, Growth and Yield in Green Gram|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India:424-429|1998|
79057|T||Trevathan,L.E., and J.T. Robbins|Yield of Sorghum and Soybean, Grown as Monocrops and in Rotation, as Affected by Insecticide and Nematicide Applications|Nematropica25(2): 125-134|1995|
79058|T||Mumtaz,M., N. Nasir, M. Osmani, and M. Baig|Monitoring of Disulfoton (Disyston) and Phorate (Thimet) Residues on Cotton Crop After Granular Application|Pak. J. Sci. Ind. Res.28(1): 42-44|1985|
79059|T||Das,A.C., A. Chakravarty, G. Sen, P. Sukul, and D. Mukherjee|A Comparative Study on the Dissipation and Microbial Metabolism of Organophosphate and Carbamate Insecticides in Orchaqualf and Fluvaquent Soils of West Bengal|Chemosphere58(5): 579-584|2005|10.1016/j.chemosphere.2004.07.007
79060|T||Leskovar,D.I., and A.K. Boales|Azadirachtin:  Potential Use for Controlling Lepidopterous Insects and Increasing Marketability of Cabbage|Hortscience31(3): 405-409|1996|10.21273/HORTSCI.31.3.405
79062|T||Letteron,P., G. Labbe, V. Descatoire, C. Degott, J. Loeper, M. Tinel, D. Larrey, and D. Pessayre|Metabolic Activation of the Antidepressant Tianeptine.  II.  In Vivo Covalent Binding and Toxicological Studies at Sublethal Doses|Biochem. Pharmacol.38(19): 3247-3251|1989|10.1016/0006-2952(89)90621-7
79063|T||Hagler,J.R., G.D. Waller, and B.E. Lewis|Mortality of Honeybees (Hymenoptera:  Apidae) Exposed to Permethrin and Combinations of Permethrin with Piperonyl Butoxide|J. Apic. Res.28(4): 208-211|1989|10.1080/00218839.1989.11101186
79064|T||Nauen,R., N. Stumpf, and A. Elbert|Efficacy of BAJ 2740, a New Acaricidal Tetronic Acid Derivative, Against Tetranychid Spider Mite Species Resistant to Conventional Acaricides|Br. Crop Prot. Conf. Pests Dis.1:453-458|2000|
79065|T||Gozzo,F., C. Garavaglia, and L. Mirenna|Enantiomers and Racemate of M 14 360: Investigation on Their Antifungal Activity|Tagungsber. Akad. Landwirtschaftswiss. DDR291:87-94|1990|
79066|T||Wetzstein,H.Y., E.A. Richardson, and Y. He|Alterations in Anatomy and Ultrastructure of Pecan Leaves Treated with Propiconazole During Shoot Expansion|J. Am. Soc. Hortic. Sci.127(1): 8-12|2002|10.21273/JASHS.127.1.8
79067|T||Popple,S.C.|Effect of Fungicide Treatment on Yield of a Herbage Seed Crop|Tests Agrochem. Cultiv.7:124-125|1986|
79069|T||Griffin,G.W., and G.S. Lessiter|Effects of Halo Spot and Fungicide Treatment on Yield of Spring Barley|Tests Agrochem. Cultiv.10:30-31|1989|
79072|T||Kelley,K.W.|Planting Date and Foliar Fungicide Effects on Yield Components and Grain Traits of Winter Wheat|Agron. J.93(2): 380-389|2001|10.2134/agronj2001.932380x
79073|T||Zhang,X., E.H. Ervin, and R.E. Schmidt|Seaweed Extract, Humic Acid, and Propiconazole Improve Tall Fescue Sod Heat Tolerance and Posttransplant Quality|Hortscience38(3): 440-443|2003|10.21273/HORTSCI.38.3.440
79074|T||Martin,R.A., and J.B. Sanderson|Yield of Barley in Response to Propiconazole|Can. J. Plant Pathol.10(1): 66-72|1988|10.1080/07060668809501767
79075|T||FitzGerald,M.J.T., J.C. Folan, and T.M. O'Brien|The Innervation of Hyperplastic Epidermis in the Mouse:  A Light Microscopic Study|J. Invest. Dermatol.64(3): 169-174|1975|10.1111/1523-1747.ep12533336
79076|T||Benavides,F., C.J. Conti, M. LaCava, M. Flores, E. Glasscock, G. Sternik, I.B. Gimenez-Conti, D.A. Johnston, H.A. Dunsf|Loss of Heterozygosity Analysis of Mouse Pulmonary Adenomas Induced by Coal Tar|Environ. Mol. Mutagen.41(4): 300-308|2003|10.1002/em.10155
79077|T||Rao,S.R., P.C.C. Feng, and D.E. Schafer|Enhancement of Thiazopyr Bioefficacy by Inhibitors of Monooxygenases|Pestic. Sci.45(3): 209-213|1995|10.1002/ps.2780450303
79078|T||Leroux,P., C. Lanen, and R. Fritz|Similarities in the Antifungal Activities of Fenpiclonil, Iprodione and Tolclofos-Methyl Against Botrytis cinerea and Fusarium nivale|Pestic. Sci.36(6): 255-261|1992|10.1002/ps.2780360312
79079|T||Jones,R.K.|Seedling Blight Development and Control in Spring Wheat Damaged by Fusarium graminearum Group 2|Plant Dis.83(11): 1013-1018|1999|10.1094/PDIS.1999.83.11.1013
79080|T||Parent,R.A., H.E. Caravello, M.S. Christian, and A.M. Hoberman|Developmental Toxicity of Acrolein in New Zealand White Rabbits|Fundam. Appl. Toxicol.20(2): 248-256|1993|10.1006/faat.1993.1033
79081|A||Tampieri,M.P., R. Galuppi, M.S. Carelle, F. Macchioni, P.L. Cioni, and I. Morelli|Effect of Selected Essential Oils and Pure Compounds on Saprolegnia parasitica|Pharm. Biol.41(8): 584-591|2003|10.1080/13880200390501839
79082|T||Chhibber,G., and S.H. Gilani|Acrolein and Embryogenesis:  An Experimental Study|Environ. Res.39(1): 44-49|1986|10.1016/S0013-9351(86)80006-8
79083|T||Parent,R.A., H.E. Caravello, and A.M. Hoberman|Reproductive Study of Acrolein on Two Generations of Rats|Fundam. Appl. Toxicol.19(2): 228-237|1992|10.1016/0272-0590(92)90156-C
79084|T||Green,M.A., and J.L.,Jr. Egle|The Effects of Acetaldehyde and Acrolein on Blood Pressure in Guanethidine-Pretreated Hypertensive Rats|Toxicol. Appl. Pharmacol.69(1): 29-36|1983|10.1016/0041-008X(83)90115-1
79085|T||Moorhouse,K.G., and J.E. Casida|Pesticides as Activators of Mouse Liver Microsomal Glutathione S-Transferase|Pestic. Biochem. Physiol.44(2): 83-90|1992|10.1016/0048-3575(92)90105-9
79086|T||Cooper,K.O., G. Witz, and C. Witmer|The Effects of alpha,beta-Unsaturated Aldehydes on Hepatic Thiols and Thiol-Containing Enzymes|Fundam. Appl. Toxicol.19(3): 343-349|1992|10.1016/0272-0590(92)90172-E
79087|T||Suett,D.L.|Insecticide Residues in Commercially-Grown Quick-Maturing Carrots|Food Addit. Contam.3(4): 371-376|1986|10.1080/02652038609373604
79089|T||Jones,P.A., B.H. Kantack, and M. Weis|Greenbug Control on Winter Wheat with Phorate in South Dakota|J. Econ. Entomol.64(5): 1338-1339|1971|10.1093/jee/64.5.1338
79090|T||Musick,G.J.|Efficacy of Phorate for Control of Slugs in Field Corn|J. Econ. Entomol.65(1): 220-222|1972|10.1093/jee/65.1.220
79091|T||Sutter,G.R., T.F. Branson, J.R. Fisher, N.C. Elliott, and J.J. Jackson|Effect of Insecticide Treatments on Root Damage Ratings of Maize in Controlled Infestations of Western Corn Rootworms (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.82(6): 1792-1798|1989|10.1093/jee/82.6.1792
79092|A||Raikar,R., J.M. Pandey, A.V. Afini, and S. Varadarajan|Studies on Biodegradability and Aquatic Toxicity of Different Surfactants|BTRA Scan30(1): 9-12|1999|
79093|T||Gershon,H., and L. Shanks|Antifungal Properties of n-Alkanols, alpha,omega-n-Alkanediols, and omega-Chloro-alpha-Alkanols|J. Pharm. Sci.69(4): 381-384|1980|10.1002/jps.2600690404
79094|A||Burch,M.D., P. Hobson, and C.W.K. Chow|Copper Sulphate - Does It Really Work?|Proc. Am. Water Works Assoc.:786-791|2002|
79095|T||Binder,B.F., and J.C. Robbins|Effect of Terpenoids and Related Compounds on the Oviposition Behavior of the European Corn Borer, Ostrinia nubilalis (Lepidoptera:  Pyralidae)|J. Agric. Food Chem.45(3): 980-984|1997|10.1021/jf960400z
79096|T||Suprapta,D.N., K. Arai, and H. Iwai|Effects of Volatile Compounds on Arthrospore Germination and Mycelial Growth of Geotrichum candidum Citrus Race|Mycoscience38(1): 31-35|1997|10.1007/BF02464966
79097|T||Shuto,Y., and H. Watanabe|Stimulating Effect of Ethanol on Oviposition of the Pine Wood Nematode, Bursaphelenchus xylophilus|Agric. Biol. Chem.52(11): 2927-2928|1988|
79098|T||Wakabayashi,T., K. Adachi, and J. Popinigis|Effects of Alkyl Alcohols and Related Chemicals on Rat Liver Structure and Function:  I.  Induction of Two Distinct Types of Megamitochondria|Acta Pathol. Jpn.41(6): 405-413|1991|10.1111/j.1440-1827.1991.tb03207.x
79099|T||Prottey,C., and T. Ferguson|Factors Which Determine the Skin Irritation Potential of Soaps and Detergents|J. Soc. Cosmet. Chem.26(1): 29-46|1975|
79101|T||Ernst,R., E.A. Ball, and J. Arditti|Biological Effects of Surfactants.  V.  Growth and Anthocyanin Production by Callus Cultures of Dimorphotheca|Am. J. Bot.69(8): 1340-1345|1982|10.1002/j.1537-2197.1982.tb13381.x
79102|T||Oguge,N., D. Ndung'u, and P. Okemo|Effects of Neem Plant (Azadirachta indica Juss, Meliaceae) Products on Maize Grain Consumption by Three Common Rodent Pests in Kenya|Belg. J. Zool.127(suppl. 1): 129-135|1997|
79103|T||Akhtar,M., and I. Mahmood|Evaluation of a Neem Based Product Against Root-Knot Nematode, Meloidogyne incognita|Tests Agrochem. Cultiv.16:6-7|1995|
79104|T||Vyas,R.V., J.J. Jani, and D.N. Yadav|Effect of Some Natural Pesticides on Entomogenous Muscardine Fungi|Indian J. Exp. Biol.30(5): 435-436|1992|
79105|T||Benchaoui,H.A., and Q.A. McKellar|Interaction Between Fenbendazole and Piperonyl Butoxide:  Pharmacokinetic and Pharmacodynamic Implications|J. Pharm. Pharmacol.48(7): 753-759|1996|10.1111/j.2042-7158.1996.tb03965.x
79106|T||Sundarababu,R.|Effect of Pesticides on Soil Organisms|Indian J. Environ. Health35(3): 227-231|1993|
79107|T||Sanchez,S., J. Small, D.G. Jones, and Q.A. McKellar|Plasma Achiral and Chiral Pharmacokinetic Behaviour of Intravenous Oxfendazole Co-Administered with Piperonyl Butoxide in Sheep|J. Vet. Pharmacol. Ther.25(1): 7-13|2002|10.1046/j.1365-2885.2002.00365.x
79108|T||Danielson,T.J., L.R. Golsteyn, and J.L. Elder|Pharmacokinetics of Intravenous Fenvalerate in Cattle Treated Topically with a Low Dose of Piperonyl Butoxide|Pestic. Sci.49(4): 313-318|1997|10.1002/(SICI)1096-9063(199704)49:4<313::AID-PS535>3.0.CO;2-W
79109|T||Gullino,M.L., and H.D. Sisler|Antagonism of Iprodione Toxicity to Botrytis cinerea by Mixed Function Oxidase Inhibitors|Pestic. Sci.17(2): 143-149|1986|10.1002/ps.2780170211
79110|T||Dalvi,R.R., and P.S. Dalvi|Differences in the Effects of Piperine and Piperonyl Butoxide on Hepatic Drug-Metabolizing Enzyme System in Rats|Drug Chem. Toxicol.14(1-2): 219-229|1991|10.3109/01480549109017878
79111|T||Gordon,W.P., A.C. Huitric, C.L. Seth, R.H. McClanahan, and S.D. Nelson|The Metabolism of the Abortifacient Terpene, (R)-(+)-Pulegone, to a Proximate Toxin, Menthofuran|Drug Metab. Dispos.15(5): 589-594|1987|
79112|T||Matthies,A., F. Walker, and H. Buchenauer|Interference of Selected Fungicides, Plant Growth Retardants as well as Piperonyl Butoxide and 1-Aminobenzotriazole in Trichothecene Production of Fusarium graminearum (Strain 4528) In Vitro|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)106(2): 198-212|1999|
79113|T||Mbaria,J.M., T.E. Maitho, and D.J. Muchiri|Median Lethal Doses, Clinical Signs and Post-Mortem Changes in Acute Pyrethrins Toxicity in Sheep and Rabbits|Pyrethrum Post19(1): 26-29|1993|
79114|T||Whitehead,C.C., H.A. McCormack, L. McTeir, and R.H. Fleming|High Vitamin D3 Requirements in Broilers for Bone Quality and Prevention of Tibial Dyschondroplasia and Interactions with Dietary Calcium, Available Phosphorus and Vitamin A|Br. Poult. Sci.45(3): 425-436|2004|10.1080/00071660410001730941
79115|T||Bar,A., V. Razaphkovsky, E. Vax, and I. Plavnik|Performance and Bone Development in Broiler Chickens Given 25-Hydroxycholecalciferol|Br. Poult. Sci.44(2): 224-233|2003|10.1080/0007166031000087029
79116|T||Keshavarz,K.|A Comparison Between Cholecalciferol and 25-OH-Cholecalciferol on Performance and Eggshell Quality of Hens Fed Different Levels of Calcium and Phosphorus|Poult. Sci.82(9): 1415-1422|2003|10.1093/ps/82.9.1415
79117|T||Huff,G.R., W.E. Huff, J.M. Balog, and N.C. Rath|The Effect of Vitamin D3 on Resistance to Stress-Related Infection in an Experimental Model of Turkey Osteomyelitis Complex|Poult. Sci.79(5): 672-679|2000|10.1093/ps/79.5.672
79118|T||Cruickshank,J.J., and J.S. Sim|Effects of Excess Vitamin D3 and Cage Density on the Incidence of Leg Abnormalities in Broiler Chickens|Avian Dis.31(2): 332-338|1987|10.2307/1590881
79119|T||Kohno,H., N. Yamaguchi, C. Ohdoi, S. Nakajima, S. Odashima, and T. Tanaka|Modifying Effect of Tuna Orbital Oil Rich in Docosahexaenoic Acid and Vitamin D3 on Azoxymethane-Induced Colonic Aberrant Crypt Foci in Rats|Oncol. Rep.7(5): 1069-1074|2000|
79120|T||Jolly,S.E., R.J. Henderson, C. Frampton, and C.T. Eason|Cholecalciferol Toxicity and Its Enhancement by Calcium Carbonate in the Common Brushtail Possum|Wildl. Res.22(5): 579-583|1995|10.1071/WR9950579
79121|T||Edwards,H.M.,Jr., R.B. Shirley, W.B. Escoe, and G.M. Pesti|Quantitative Evaluation of 1-alpha-Hydroxycholecalciferol as a Cholecalciferol Substitute for Broilers|Poult. Sci.81(5): 664-669|2002|10.1093/ps/81.5.664
79122|T||Hansen,K.K., M.M. Beck, S.E. Scheideler, and E.E. Blankenship|Exogenous Estrogen Boosts Circulating Estradiol Concentrations and Calcium Uptake by Duodenal Tissue in Heat-Stressed Hens|Poult. Sci.83(6): 895-900|2004|10.1093/ps/83.6.895
79123|T||Khan,A.|Effect of Neem Leaves and Carbofuran on Pratylenchus thornei Associated with Three Wheat Varieties|Pak. J. Sci. Ind. Res.35(11): 459-460|1992|
79125|T||Hashmi,R.Y., S. Shahzad, A.K. Khanzada, M. Aslam, and S.A.R. Kazmi|Studies on the Seed Mycoflora of Lentil and Its Control|Pak. J. Sci. Ind. Res.35(9): 345-347|1992|
79126|T||Siddiqui,M.A., and M.M. Alam|Seed Treatment with Azadirachtin for the Control of the Stunt Nematode Attacking Cabbage and Cauliflower|Tests Agrochem. Cultiv.10:4-5|1989|
79127|T||Moran,S.|The Toxicity of Brodifacoum Wheat Bait to the Field Rodents Microtus guentheri and Meriones tristrami|Pestic. Sci.38(4): 303-307|1993|10.1002/ps.2780380404
79128|T||Lee,C.H., K.A. Kamarudin, Y.P. Tan, and C.V. Rajapadman|A Case of Increased Tolerance of Rattus tiomanicus (Miller) to Brodifacoum and Bromadiolone|MARDI Res. J.18(2): 197-203|1990|
79129|T||Bar,A., D. Shinder, S. Yosefi, E. Vax, and I. Plavnik|Metabolism and Requirements for Calcium and Phosphorus in the Fast-Growing Chicken as Affected by Age|Br. J. Nutr.89(1): 51-60|2003|10.1079/BJN2002757
79130|T||Deobhankar,P.B.|Field Evaluation of Brodifacoum Against Rattus rattus and Bandicota bengalensis in Bombay|J. Commun. Dis.17(2): 151-161|1985|
79131|T||Jones,R.W., and R.A. Easter|Growth and Survival of Rats Fed Swine Diets Supplemented with Vitamin K and/or Warfarin|Can. J. Anim. Sci.66(1): 307-309|1986|10.4141/cjas86-033
79132|T||Sheafor,S.E., and C.G. Couto|Anticoagulant Rodenticide Toxicity in 21 Dogs|J. Am. Anim. Hosp. Assoc.35(1): 38-46|1999|10.5326/15473317-35-1-38
79133|T||Uresk,D.W., and G.L. Schenbeck|Effect of Zinc Phosphide Rodenticide on Prairie Dog Colony Expansion as Determined from Aerial Photography|Prairie Nat.19(1): 57-61|1987|
79134|T||Thijssen,H.H.W., C.A.T. Janssen, and J.J. Mosterd|Warfarin Resistance:  Biochemical Evaluation of a Warfarin-Resistant Wild Brown Rat|Biochem. Pharmacol.38(18): 3129-3132|1989|10.1016/0006-2952(89)90028-2
79135|T||Saunders,G., B. Kay, and B. Parker|Evaluation of a Warfarin Poisoning Programme for Feral Pigs (Sus scrofa)|Aust. Wildl. Res.17(5): 525-533|1990|10.1071/WR9900525
79136|T||Billing,J., and B. Harden|Control of Introduced Rattus rattus L. on Lord Howe Island. I. The Response of Mouse Populations to Warfarin Bait Used to Control Rats|Wildl. Res.27(6): 655-658|2000|10.1071/WR99012
79137|T||Pervez,A., S.M. Ahmad, S. Waqar, and A. Rizvi|Comparative Efficacy of Bromadiolone, Cholecalciferol and Zinc Phosphide Against Short-Tailed Mole Rat Nesokia indica in Captivity|Turk. J. Zool.22(2): 137-140|1998|
79138|T||Parshad,V.R., C.S. Malhi, N. Ahmad, and B. Gupta|Rodent Damage and Control in Peanut Fields in India|Peanut Sci.14(1): 4-6|1987|10.3146/i0095-3679-14-1-2
79139|A||Srivastav,A.K., P.R. Tiwari, S.K. Srivastav, and N. Suzuki|Responses of the Ultimobranchial Gland to Vitamin D3 Treatment in Freshwater Mud Eel, Amphipnous cuchia, Kept in Different Calcium Environments|Anat. Histol. Embryol.31(5): 257-261|2002|10.1046/j.1439-0264.2002.00364.x
79140|A||Thies,F., and L.H. Grimme|Effects of Cytochrome P450-Interacting Plant Growth Retardants, Fungicides and Related Compounds on Cell Development and Phase-I Biotransformation Capacity of Unicellular Photoautotrophic Green Algae|Pestic. Sci.47(4): 337-346|1996|10.1002/(SICI)1096-9063(199608)47:4<337::AID-PS414>3.0.CO;2-N
79141|T||Saravanan,K., R. Kanakasabai, and K. Thiyagesan|Field Evaluation of Difethialone, a New Second Generation Anticoagulant Rodenticide in the Rice Fields|Indian J. Exp. Biol.41(6): 655-658|2003|
79142|T||Tryfonidou,M.A., M.S. Holl, M.A. Oosterlaken-Dijksterhuis, M. Vastenburg, W.E. Van den Brom, and H.A.W. Hazewinkel|Growth Hormone Modulates Cholecalciferol Metabolism with Moderate Effects on Intestinal Mineral Absorption and Specific Effects on Bone Formation in Growing Dogs Raised on Balanced Food|Domest. Anim. Endocrinol.25(2): 155-174|2003|10.1016/S0739-7240(03)00054-7
79143|A||Johnston,E.L., J.A. Webb, and M.J. Keough|Pulse Disturbances to the Colonization of Hard-Substrates and In Situ Determination of Copper Using Diffusive Gradients in Thin-Films (DGT):  Quantifying Dose and Response in the Field|Biofouling19(5): 335-345|2003|10.1080/08927010310001612036
79144|A||Dias,N., and N. Lima|A Comparative Study Using a Fluorescence-Based and a Direct-Count Assay to Determine Cytotoxicity in Tetrahymena pyriformis|Res. Microbiol.153(5): 313-322|2002|10.1016/S0923-2508(02)01326-8
79145|T||Chattopadhyay,A., M. Sarkar, and N.M. Biswas|Effect of Copper Chloride on Adrenocortical Activities in Adult and Immature Male Rats|Environ. Toxicol. Pharmacol.11(2): 79-84|2002|10.1016/S1382-6689(01)00107-7
79147|T||Wisniewski,L., and N.M. Dickinson|Toxicity of Copper to Quercus robur (English Oak) Seedlings from a Copper-Rich Soil|Environ. Exp. Bot.50(1): 99-107|2003|10.1016/S0098-8472(03)00005-4
79148|A||Brown,A.C., and A.S. Gordon|Production of a Novel Copper-Binding Ligand by Marine Synechococcus (Cyanobacteria) in Response to Toxic Concentrations of Copper|Va. J. Sci.52(4): 259-272|2001|
79149|T||Galhardi,C.M., Y.S. Diniz, L.A. Faine, H.G. Rodrigues, R.C.M. Burneiko, B.O. Ribas, and E.L.B. Novelli|Toxicity of Copper Intake:  Lipid Profile, Oxidative Stress and Susceptibility to Renal Dysfunction|Food Chem. Toxicol.42(12): 2053-2060|2004|10.1016/j.fct.2004.07.020
79150|T||Salgare,S.A., and S. Singh|Monitoring of Heavy Metal (Copper Sulphate) Toxicity by Using Pollen as Indicators - Pollen of Catharanthus roseus - a Critical Review|Himalayan J. Environ. Zool.15(2): 137-140|2001|
79151|T||Do Thanh,X., S. Djebbar-Sid, S. Duchene, O. Benali-Baitich, G. Bouet, and M.A. Khan|Chronotoxicity of a Copper (II) Complex with a Linear Tetradentate Ligand in Mice|Biol. Rhythm Res.32(4): 423-429|2001|10.1076/brhm.32.4.423.1337
79152|T||Akhtar,M., and I. Mahmood|Evaluation of Nematicidal Properties of a Biopesticide Against Root-Knot Nematode Meloidogyne incognita|Tests Agrochem. Cultiv.(17): 104-105|1996|
79153|T||Naumann,K., and M.B. Isman|Toxicity of a Neem (Azadirachta indica A. Juss) Insecticide to Larval Honey Bees|Am. Bee J.136(7): 518-520|1996|
79154|T||Oloumi-Sadeghi,H., L.R. Zavaleta, G. Kapusta, W.O. Lamp, and E.J. Armbrust|Effects of Potato Leafhopper (Homoptera:  Cicadellidae) and Weed Control on Alfalfa Yield and Quality|J. Econ. Entomol.82(3): 923-931|1989|10.1093/jee/82.3.923
79155|T||Nevill,R.J., and L. Safranyik|Effects of Neem Seed Extract on the Growth of Fungal Associates of the Mountain Pine Beetle|J. Entomol. Soc. B. C.93:129-130|1996|
79156|T||Sundaram,K.M.S., R. Campbell, L. Sloane, and J. Studens|Uptake, Translocation, Persistence and Fate of Azadirachtin in Aspen Plants (Populus tremuloides Michx.) and Its Effect on Pestiferous Two-Spotted Spider Mite (Tetranychus urticae Koch)|Crop Prot.14(5): 415-421|1995|10.1016/0261-2194(95)00026-I
79157|T||Ogunwolu,E.O., and A.T. Odunlami|Suppression of Seed Bruchid (Callosobruchus maculatus F.) Development and Damage on Cowpea (Vigna unguiculata (L.) Walp.) with Zanthoxylum zanthoxyloides (Lam.) Waterm. (Rutaceae) Root Bark Powder when Compared to Neem |Crop Prot.15(7): 603-607|1996|10.1016/0261-2194(95)00088-7
79159|T||Way,M.O., and R.G. Wallace|Soybean Insect Pest Control, 1990|Insectic. Acaric. Tests17:275-277|1992|10.1093/iat/17.1.275
79160|T||Ruff,C.R., and B.L. Hughes|Bone Strength of Height-Restricted Broilers as Affected by Levels of Calcium, Phosphorus, and Manganese|Poult. Sci.64:1628-1636|1985|10.3382/ps.0641628
79161|T||De Rosa,G., C.L. Keen, R.M. Leach, and L.S. Hurley|Regulation of Superoxide Dismutase Activity by Dietary Manganese|J. Nutr.110:795-804|1980|10.1093/jn/110.4.795
79162|T||Mercer,P.C., and H.C. McGimpsey|The Effects of Propiconazole and Prochloraz on the Fungal Flora and Yields of White Clover in Northern Ireland|Tests Agrochem. Cultiv.7:108-109|1986|
79163|T||Anonymous|Response of Plasma Glutathione Peroxidase and Selenium to Graded Levels of Dietary Selenium in Growing Pigs|Acta Vet. Scand.Suppl.81:11-40|1985|
79164|T||Langlands,J.P., G.E. Donald, J.E. Bowles, and A.J. Smith|Selenium Supplements for Grazing Sheep 1. A Comparison Between Soluble Salts and Other Forms of Supplement|Anim. Feed Sci. Technol.28:1-13|1990|10.1016/0377-8401(90)90063-E
79165|T||Yilmaz,O., S. Celik, and N. Dilsiz|Influences of Intraperitoneally and Dietary Administered Vitamin E and Selenium on the Lipid Composition in Reproductive Organs of Male Animals|Biol. Chem.378:425-430|1997|10.1515/bchm.1997.378.5.425
79168|T||Ferguson,H.W., and A.G. Leaver|The Effects of Diets high in Zinc at Different Levels of Calcium and Vitamin D on the Rat Humerus and Incisor|Calcif. Tissue Res.8:265-275|1972|10.1007/BF02010146
79169|T||Paulsen,K., V.J. Adesso, and J.J. Porter|DDT:  Effects on Maternal Behavior|Bull. Psychol. Scol. d'Orient.5(2): 117-119|1975|
79170|T||Ibrahim,S.A.M., and R.M. Yousri|The Effect of Dietary Zinc, Season and Breed on Semen Quality and Body Weight in Goats|World Rev. Anim. Prod.27(1): 10-17|1992|
79172|T||Emmert,J.L., and D.H. Baker|Zinc Stores in Chickens Delay the Onset of Zinc Deficiency Symptoms|Poult. Sci.74:1011-1021|1995|10.3382/ps.0741011
79173|T||Makled,M.N., M.S. Khattab, and H.Y. El-Hammady|Influence of Feeding Zinc Additives on Chickens Blood Components of Immunological Properties|Egypt. J. Anim. Prod.13(1): 49-58|1973|10.21608/ejap.1973.149087
79174|T||Daniel,M., and D. Balnave|A Comparison of Methods of Inducing a Pause in Egg Production in Crossbred Layers|Aust. J. Agric. Res.31:1153-1161|1980|10.1071/AR9801153
79176|T||Stahl,J.L., M.E. Cook, and J.L. Greger|Zinc, Iron, and Copper Contents of Eggs from Hens Fed Varying Levels of Zinc|J. Food Compos. Anal.1:309-315|1988|10.1016/0889-1575(88)90030-0
79177|T||Zimmering,S., J.M. Mason, R. Valencia, and R.C. Woodruff|Chemical Mutagenesis Testing in Drosophila. II. Results of 20 Coded Compounds Tested for the National Toxicology Program|Environ. Mutagen.7(1): 87-100|1985|10.1002/em.2860070105
79179|T||Thangavelu,R., M.P. Sree, K. Satyanarayana, and A.P.K. Reddy|Effect of Different Neem Based Formulations on Rice Blast Disease|Indian J. Plant Prot.23(2): 156-158|1995|
79180|T||Goswami,B.K., and T.P. Devi|"Comparative Efficacy of Neem and Mahua Oilseed Cakes and a Clay Dust ""ABCD"" Against Root-Knot Nematode Infecting Pea"|Indian J. Plant Prot.21(2): 245-246|1993|
79181|T||Kathirvel,M., G. Balasubramanian, M. Gopalan, and C.V. Sivakumar|Effect of Seed Treatment with Botanicals and Chemicals for the Control of Root-Knot Nematode, Meloidogyne incognita Infesting Okra, Abelmoschus esculentus L.|Indian J. Plant Prot.20(2): 191-194|1992|
79183|T||Bottenberg,H., and B.B. Singh|Effect of Neem Leaf Extract Applied Using the 'Broom' Method, on Cowpea Pests and Yield|Int. J. Pest Manag.42(3): 207-209|1996|10.1080/09670879609371995
79185|T||Ganguli,R.N., R.N. Chaudhary, and J. Ganguli|Phytotoxicity of Sandovit Alone and in Combination with Neem Based Formulations to Maize Plants (Navin Composite Variety)|J. Entomol. Res.19(3): 239-242|1995|
79186|T||Osnaya-Gonzalez,M., B. Steinhauer, and E. Schlosser|Effect of Alternative Plant Protection Materials on Blackspot of Roses|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)62(3b): 1041-1048|1997|
79187|T||Sivaswamy,S.N., and B. Balachandran|Effect of Dimethoate on Wistar Rats|J. Ecobiol.2(4): 291-297|1990|
79188|T||Thomas,M.D., C.M. Frampton, K.W. Briden, and K.G. Hunt|Evaluation of Brodifacoum Baits for Maintenance Control of Possums in Small Forest Reserves|Proc. N. Z. Plant Prot. Conf.48:256-259|1995|10.30843/nzpp.1995.48.11553
79189|T||Danka,R.G., and C.H. Collison|Laboratory Evaluation of Dimethoate Repellence to Honey Bees|J. Appl. Entomol.104(2): 211-214|1987|10.1111/j.1439-0418.1987.tb00518.x
79190|T||Mahadevaswami,M.P., and B.B. Kaliwal|Evaluation of Dimethoate-Induced Implantation Delay and Nidation by Progesterone in Albino Mice|J. Basic Clin. Physiol. Pharmacol.14(1): 43-54|2003|10.1515/JBCPP.2003.14.1.43
79191|T||Panigrahi,A., and S.K. Raut|On the Safe Use of Pesticides in Controlling the Terrestrial Mollusc Pests|Mem. Inst. Oswaldo Cruz88(2): 293-298|1993|10.1590/S0074-02761993000200019
79192|T||Maiti,P.K., P. Gupta, S.S. Chaurasia, and A. Kar|Dimethoate Exposure Impairs Thyroid Function and Hepatic 5'-Monodeiodination of Thyroxine to 3,3',5-Triiodothyronine in Cockerel|Fresenius Environ. Bull.6(7-8): 378-382|1997|
79193|T||Hassan,A.A.M.|Effect of Intraperitoneal Sublethal Doses of Dimethoate on Rat Hepatic Gluconeogenesis|J. Med. Res. Inst.18(1): 117-123|1997|
79194|T||Mahadevaswami,M.P., and B.B. Kaliwal|Effect of Dimethoate Administration Schedules on Compensatory Ovarian Hypertrophy, Follicular Dynamics, and Estrous Cycle in Hemicastrated Mice|J. Basic Clin. Physiol. Pharmacol.13(3): 225-248|2002|10.1515/JBCPP.2002.13.3.225
79195|T||El-Toukhy,M.A., S.A. Ebied, S.Z. Abdel-Rahman, A.A. Saad, S.M. El-Zoghby, and G.A. Abdel-Tawab|Possible Toxicological Hazards of Some Insecticides on Kynurenine Metabolism in Mice|J. Med. Res. Inst.12(4): 187-199|1991|
79196|T||Hornung,E., E. Fischer, and S. Farkas|Isopod Reproduction as a Tool for Sublethal-Toxicity Tests|Isr. J. Zool.44(3/4): 445-450|1998|
79197|A||Mohapatra,P.K., and U. Schiewer|Dimethoate and Quinalphos Toxicity:  Pattern of Photosynthetic Pigment Degradation and Recovery in Synechocystis sp. PCC 6803|Algol. Stud.99:79-94|2000|
79198|T||Fiedler,L.|Assessment of Chronic Toxicity of Selected Insecticides to Honeybees|J. Apic. Res.26(2): 115-122|1987|10.1080/00218839.1987.11100747
79199|T||Danka,R.G., C.H. Collison, and L.A. Hull|Honey Bee (Hymenoptera:  Apidae) Foraging During Bloom in Dimethoate-Treated Apple Orchards|J. Econ. Entomol.78(5): 1042-1047|1985|10.1093/jee/78.5.1042
79200|A||Singh,K., and D.K. Singh|Effects of Neem (Azadirachta indica) on Fecundity, Hatchability and Survivability of Snails (Lymnaea acuminata)|Malays. Appl. Biol.24(1): 19-22|1995|
79201|T||West,A.J., and A.J. Mordue|The Influence of Azadirachtin on the Feeding Behaviour of Cereal Aphids and Slugs|Entomol. Exp. Appl.62(1): 75-79|1992|10.1111/j.1570-7458.1992.tb00644.x
79202|T||Pullen,M.P., E.I. Zehr, and G.E.,Jr. Carter|Influences of Certain Fungicides on Parasitism of the Nematode Criconemella xenoplax by the Fungus Hirsutella rhossiliensis|Phytopathology80(11): 1142-1146|1990|10.1094/Phyto-80-1142
79203|T||Akhtar,M.|Plant Growth and Nematode Dynamics in Response to Soil Amendments with Neem Products, Urea and Compost|Bioresour. Technol.69(2): 181-183|1999|10.1016/S0960-8524(98)00158-8
79204|T||Awasthy,K.S., O.P. Chaurasia, and S.P. Sinha|Prolonged Murine Genotoxic Effects of Crude Extracted from Neem|PTR. Phytother.Res.13(1): 81-83|1999|10.1002/(SICI)1099-1573(199902)13:1<81::AID-PTR385>3.0.CO;2-W
79206|T||Ogboghodo,I.A., E.K. Iruaga, I.O. Osemwota, and J.U. Chokor|An Assessment of the Effects of Crude Oil Pollution on Soil Properties, Germination and Growth of Maize (Zea mays) Using Two Crude Types - Forcados Light and Escravos Light|Environ. Monit. Assess.96(1-3): 143-152|2004|10.1023/B:EMAS.0000031723.62736.24
79207|T||Rentz,J.A., B. Chapman, P.J.J. Alvarez, and J.L. Schnoor|Stimulation of Hybrid Poplar Growth in Petroleum-Contaminated Soils Through Oxygen Addition and Soil Nutrient Amendments|Int. J. Phytoremediat.5(1): 57-72|2003|10.1080/16226510390856475
79213|T||Mizutani,T., Y. Irie, and K. Nakanishi|Styrene-Induced Hepatotoxicity in Mice Depleted of Glutathione|Res. Commun. Mol. Pathol. Pharmacol.86(3): 361-374|1994|
79214|T||Chua,H., Y.G. Zhao, Y.H. Kwang, Q.Y. Liu, and X.H. Liu|Accumulation of Environmental Residues of Rare Earth Elements in Sugarcane|Environ. Int.24(3): 287-291|1998|10.1016/S0160-4120(98)00007-5
79215|A||Mwangi,R.W., and H. Rembold|Growth-Inhibiting and Larvicidal Effects of Melia volkensii Extracts on Aedes aegypti Larvae|Entomol. Exp. Appl.46(2): 103-108|1988|10.1111/j.1570-7458.1988.tb01099.x
79216|T||Kumari,S., and I. Prakash|Relative Efficacy of Male and Female Conspecific Urine in Masking Shyness Behaviour in Indian Gerbil, Tatera indica|Proc. Indian Acad. Sci. Anim. Sci.93(5): 431-436|1984|10.1007/BF03186290
79217|T||Di Marco,S., L. Draghetti, P. Larignon, and A. Brunelli|"Control of Grapevine Wood Decay Fungi by a ""Syringe"" Injection Application Technique"|Symp. Proc. Br. Crop Prot. Counc.:595-602|1993|
79218|A||Bielefeldt,A.R., A.M. Riffel, A. Ramaswami, and T. Illangasekare|Assessing Multicomponent DNAPL Biostabilization Potential.  II:  Aroclor 1242|J. Environ. Eng.127(12): 1073-1079|2001|10.1061/(ASCE)0733-9372(2001)127:12(1073)
79219|T||Terry,M., M. Lanenga, J.L. McNaughton, and L.E. Stark|Safety of 25-Hydroxyvitamin D3 as a Source of Vitamin D3 in Layer Poultry Feed|Vet. Hum. Toxicol.41(5): 312-316|1999|
79220|T||Witmer,G.W., G.H. Matschke, and D.L. Campbell|Field Trials of Pocket Gopher Control with Cholecalciferol|Crop Prot.14(4): 307-309|1995|10.1016/0261-2194(94)00002-P
79221|T||Tryfonidou,M.A., M.S. Holl, J.J. Stevenhagen, C.J. Buurman, H.F. DeLuca, M.A. Oosterlaken-Dijksterhuis, W.E. Van den Br|Dietary 135-Fold Cholecalciferol Supplementation Severely Disturbs the Endochondral Ossification in Growing Dogs|Domest. Anim. Endocrinol.24(4): 265-285|2003|10.1016/S0739-7240(03)00018-3
79222|T||Smith,B.B., and R.J. Van Saun|Seasonal Changes in Serum Calcium, Phosphorus, and Vitamin D Concentrations in Llamas and Alpacas|Am. J. Vet. Res.62(8): 1187-1193|2001|10.2460/ajvr.2001.62.1187
79223|T||Rumbeiha,W.K., S.D. Fitzgerald, J.M. Kruger, W.E. Braselton, R. Nachreiner, J.B. Kaneene, and K.K. Frese|Use of Pamidronate Disodium to Reduce Cholecalciferol-Induced Toxicosis in Dogs|Am. J. Vet. Res.61(1): 9-13|2000|10.2460/ajvr.2000.61.9
79224|T||Radice,M., and P. Pesci|Effect of Triazole Fungicides on the Membrane Permeability and on FC-Induced H+-Extrusion in Higher Plants|Plant Sci.74(1): 81-88|1991|10.1016/0168-9452(91)90258-A
79225|A||Zhang,W., K. Mai, W. Xu, and H. Ma|Metabolic Responses to Dietary Cholecalciferol and Phosphorus in Abalone Haliotis discus hannai Ino|J. Exp. Zool. Part A. Ecol. Genet. Physiol.299(2): 110-117|2003|
79226|T||Toda,T., M. Ito, Y. Toda, T. Smith, and F. Kummerow|Angiotoxicity in Swine of a Moderate Excess of Dietary Vitamin D3|Food Chem. Toxicol.23(6): 585-592|1985|10.1016/0278-6915(85)90183-8
79227|T||Tryfonidou,M.A., M.A. Oosterlaken-Dijksterhuis, J.A. Mol, T.S.G.A.M. Van den Ingh, W.E. Van den Brom, and H.A.W. Hazewi|24-Hydroxylase:  Potential Key Regulator in Hypervitaminosis D3 in Growing Dogs|Am. J. Physiol. Endocrinol. Metab.284(3): E505 - E513|2003|10.1152/ajpendo.00236.2002
79228|T||Lam,Y.M.|Some Rodenticidal Properties of Cholecalciferol Against Rattus argentiventer|MARDI Res. J.20(1): 37-44|1992|
79229|T||Goff,W.D., R.L. Shumack, K.M. Tilt, and A.K. Hagan|Fungicide Sprays Affect Leaf Condition and Tree Appearance of Southern Magnolia|J. Arboric.22(5): 201-205|1996|
79230|T||He,Y., H.Y. Wetzstein, and B.A. Palevitz|The Effects of a Triazole Fungicide, Propiconazole, on Pollen Germination, Tube Growth and Cytoskeletal Distribution in Tradescantia virginiana|Sex. Plant Reprod.8(4): 210-216|1995|10.1007/BF00228939
79231|T||Fullmer,C.S.|Intestinal Lead and Calcium Absorption:  Effect of 1,25-Dihydroxycholecalciferol and Lead Status|Proc. Soc. Exp. Biol. Med.194(3): 258-264|1990|10.3181/00379727-194-43088
79232|T||Jang,H.I., and H.J. Lee|Flower Thinning in Pear Trees (Pyrus pyrifolia cv. Niitaka) by Multiple Sprays of Lime Sulfur Mixture|J. Korean Soc. Hortic. Sci. (Multiple Languages)39(4): 428-432|1998|
79233|T||Jang,H.I., J.W. Han, H.J. Lee, K.H. Hong, J.J. Choi, and K.Y. Kim|Evaluation of Lime Sulfur Mixture as a Flower Thinner for Pear Trees (Pyrus pyrifolia cv. Niitaka)|J. Korean Soc. Hortic. Sci. (Multiple Languages)39(4): 423-427|1998|
79234|T||Gascon-Barre,M., S. Vallieres, and P.M. Huet|Influence of Phenobarbital on the Hepatic Handling of [3H] Vitamin D3 in the Dog|Am. J. Physiol.251(5): 6627-6635|1986|
79235|T||Scanga,J.A., K.E. Belk, J.D. Tatum, and G.C. Smith|Supranutritional Oral Supplementation with Vitamin D3 and Calcium and the Effects on Beef Tenderness|J. Anim. Sci.79(4): 912-918|2001|10.2527/2001.794912x
79236|T||Karges,K., J.C. Brooks, D.R. Gill, J.E. Breazile, F.N. Owens, and J.B. Morgan|Effects of Supplemental Vitamin D3 on Feed Intake, Carcass Characteristics, Tenderness, and Muscle Properties of Beef Steers|J. Anim. Sci.79(11): 2844-2850|2001|10.2527/2001.79112844x
79237|T||Montgomery,J.L., M.A. Carr, C.R. Kerth, G.G. Hilton, B.P. Price, M.L. Galyean, R.L. Horst, and M.F. Miller|Effect of Vitamin D3 Supplementation Level on the Postmortem Tenderization of Beef from Steers|J. Anim. Sci.80(4): 971-981|2002|10.2527/2002.804971x
79238|T||Montgomery,J.L., F.C.,Jr. Parrish, D.C. Beitz, R.L. Horst, E.J. Huff-Lonergan, and A.H. Trenkle|The Use of Vitamin D3 to Improve Beef Tenderness|J. Anim. Sci.78(10): 2615-2621|2000|10.2527/2000.78102615x
79239|T||Sheikher,C., and S.D. Jain|Rodenticidal Efficacy of Cholecalciferol|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.61(1): 31-38|1995|
79240|T||Wiegand,B.R., J.C. Sparks, D.C. Beitz, F.C.,Jr. Parrish, R.L. Horst, A.H. Trenkle, and R.C. Ewan|Short-Term Feeding of Vitamin D3 Improves Color but does not Change Tenderness of Pork-Loin Chops|J. Anim. Sci.80(8): 2116-2121|2002|
79241|T||Waldron,M.R., B.J. Nonnecke, T. Nishida, R.L. Horst, and T.R. Overton|Effect of Lipopolysaccharide Infusion on Serum Macromineral and Vitamin D Concentrations in Dairy Cows|J. Dairy Sci.86(11): 3440-3446|2003|10.3168/jds.S0022-0302(03)73948-4
79242|T||Sih,T.R., J.G. Morris, and M.A. Hickman|Chronic Ingestion of High Concentrations of Cholecalciferol in Cats|Am. J. Vet. Res.62(9): 1500-1506|2001|10.2460/ajvr.2001.62.1500
79243|T||Wiegand,B.R., F.C.,Jr. Parrish, D.G. Morrical, and E. Huff-Lonergan|Feeding High Levels of Vitamin D3 does not Improve Tenderness of Callipyge Lamb Loin Chops|J. Anim. Sci.79(8): 2086-2091|2001|10.2527/2001.7982086x
79244|T||Foote,M.R., R.L. Horst, E.J. Huff-Lonergan, A.H. Trenkle, F.C.,Jr. Parrish, and D.C. Beitz|The Use of Vitamin D3 and Its Metabolites to Improve Beef Tenderness|J. Anim. Sci.82(1): 242-249|2004|10.2527/2004.821242x
79245|T||Khan,A., S.S. Shaukat, F. Qamar, A.H. Jaffry, and A.A. Hakro|Effect of Three Plant Extracts on Nematode Population and on Growth Parameters of Wheat (var. Pirsabak-85)|Sarhad J. Agric.10(4): 415-418|1994|
79246|T||Golub,M.S., and S.L. Germann|Aluminum Effects on Operant Performance and Food Motivation of Mice|Neurotoxicol. Teratol.20(4): 421-427|1998|10.1016/S0892-0362(97)00133-5
79247|T||Golub,M.S., and C.L. Keen|Effects of Dietary Aluminum on Pubertal Mice|Neurotoxicol. Teratol.21(5): 595-602|1999|10.1016/S0892-0362(99)00016-1
79248|T||Gonda,Z., A. Miklosi, and K. Lehotzky|The Effect of Social Learning on a Conditioned Avoidance Response of Rats Treated Prenatally with Aluminum Lactate|Neurotoxicol. Teratol.19(1): 59-63|1997|10.1016/S0892-0362(96)00133-X
79250|A||Streit,B.|Uptake, Accumulation, and Release of Organic Pesticides by Benthic Invertebrates. 3. Distribution of 14C-Atrazine and 14C-Lindane in an Experimental Three-Step Food Chain Microcosm|Arch. Hydrobiol.55(3-4): 373-400|1979|
79251|T||Colomina,M.T., D.J. Sanchez, J.L. Domingo, J.M. Llobet, and J. Corbella|Behavioral Effects of Aluminum in Mice:  Influence of Restraint Stress|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:707-711|1998|
79252|T||Budai,P., S. Fejes, L. Varnagy, I.M. Somlyay, and Z.K. Szabo|Teratogenicity Test of Dimethoate Containing Insecticide Formulation and Cd-Sulphate in Chicken Embryos After Administration as a Single Compound or in Combination|Commun. Agric. Appl. Biol. Sci.68(4, Pt. B): 795-798|2003|
79254|T||Rowe,F.P., and T. Swinney|The Efficacy of Two Permanent Poison-Baiting Measures Against Mus domesticus Living in Farm Buildings in the UK|Bull. OEPP/EPPO18(2): 229-235|1988|10.1111/j.1365-2338.1988.tb00370.x
79255|T||Youssef,N.N., and W.A. Brindley|Effectiveness of Botran and DPX965 as Growth Inhibitors of Ascosphaera aggregata (Ascosphaeraceae) in the Alfalfa Leafcutting Bee (Hymenoptera megachilidae)|J. Econ. Entomol.82(5): 1335-1338|1989|10.1093/jee/82.5.1335
79256|T||Stevenson,A.B.|Endosulfan and Other Insecticides for Control of the Leaf Form of the Grape:  Phylloxera in Ontario|J. Econ. Entomol.63(1): 125-128|1970|10.1093/jee/63.1.125
79258|T||Weaver,J.E.|Control of Cicada Killer with Individual Burrow Sprays, 1990|Insectic. Acaric. Tests17:336-|1992|
79259|T||Weaver,J.E.|Ant Control on a Golf Course, 1990|Insectic. Acaric. Tests17:335-|1992|
79260|T||Schuster,D.J.|Insecticides for Management of the Sweetpotato Whitefly on Fresh Market Tomatoes in West-Central Florida, Spring, 1990|Insectic. Acaric. Tests17:163-|1992|
79261|T||Noetzel,D., M. Ricard, and R. Hansen|Andalin Dosage Comparison, 1991|Insectic. Acaric. Tests17:133-134|1992|
79262|T||Brandenburg,R.L., and P.T. Hertl|Caterpillar Control on Peanuts, North Carolina, 1991|Insectic. Acaric. Tests17:241-242|1992|10.1093/iat/17.1.241a
79265|T||Wier,A.T., J.S. Mink, J.D. Thomas, and D.J. Boethel|Control of Southern Green Stink Bug on Soybean, 1991|Insectic. Acaric. Tests17:280-281|1992|10.1093/iat/17.1.280
79266|T||Andrusishina,I., and I. Dudko|Experimental Data About the Influence of Lead and Cadmium on Male Gametes|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:289-292|1998|
79267|T||Harris,J.P.|Spring Mole Cricket Control on Golf Courses in South Mississippi, 1991|Insectic. Acaric. Tests17:316-317|1992|10.1093/iat/17.1.316
79268|T||Lastra,M.D., M.A. Cabanas, S. Perez, R. Pastelin, and A.E. Aguilar|Zinc Action on Macrophages IL-1 and TNF-alfa Secretion and IL-1 Seric Concentrations in Mice Perinatal Stages|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:444-448|1998|
79270|T||Herbert,D.A.,Jr.|Selected Insecticides for Corn Earworm Control in Soybean in Virginia, 1991|Insectic. Acaric. Tests17:261-262|1992|10.1093/iat/17.1.261
79271|T||Wadkins,T., J. Benz, and W. Briner|Excessive Zinc Administration During Neural Tube Formation Effects Neuromuscular Development of the Rat|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:722-725|1998|
79272|T||Elzen,G.W.|Cotton Aphid Control, 1990|Insectic. Acaric. Tests17:221-222|1992|10.1093/iat/17.1.221a
79273|T||Skoczynska,A., R. Andrzejak, and B. Turczyn|Urinary Activity of Tubular Enzymes in Rats Poisoned Simultaneously with Lead and Cadmium|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:661-665|1998|
79274|T||Harris,F.A., and R.E.,Jr. Furr|Pyrethroid Aphicide Efficacy, 1990|Insectic. Acaric. Tests17:226-|1992|
79275|T||Bartels,D.W., and W.D. Hutchison|Insecticidal and Microbial Control of ECB in Minnesota Sweet Corn, 1992|Insectic. Acaric. Tests18:119-120|1993|10.1093/iat/18.1.119a
79276|T||Ohta,H., S. Asami, Y. Seki, and H. Yoshikawa|Effect of Oral Cadmium Administration on the Bone Mineral Density and Renal Function in Female Rats|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:655-660|1998|
79278|T||Bowman,J.S., and D.W. Barry|Control on Late Season Sweet Corn with Foliar Sprays, 1990|Insectic. Acaric. Tests17:101-|1992|
79279|T||Mateos,C.J., I. Meseguer, J.M. Laborda, A. Bernao, M.J. Gonzalez, M.C. Martinez Para, and M.V. Aguilar|Plasma Iron, Copper, Manganese and Zinc Levels in Wistar Rats Treated with Chromium Picolinate|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal:238-241|1998|
79280|T||Wier,A.T., J.S. Mink, J.D. Thomas, and D.J. Boethel|Control of Velvetbean Caterpillar on Soybean, 1991|Insectic. Acaric. Tests17:281-282|1992|10.1093/iat/17.1.281
79281|T||Weaver,J.E.|Allegheny Mound Ant Control, Hardy Co., West Virginia, 1991|Insectic. Acaric. Tests17:349-350|1992|10.1093/iat/17.1.349a
79282|T||Weaver,J.E.|Control of Cicada Killer with Area Sprays on a Golf Course, 1990|Insectic. Acaric. Tests17:335-336|1992|
79283|T||Karner,M., M. Kelley, and J. Goodson|Two Spotted Spider Mite Control, 1991|Insectic. Acaric. Tests17:228-229|1992|10.1093/iat/17.1.228a
79284|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle Control with Foliar Sprays, 1991|Insectic. Acaric. Tests17:143-|1992|
79285|T||Herbert,D.A.,Jr.|Corn Earworm Control in Peanut in Virginia, 1991|Insectic. Acaric. Tests17:249-250|1992|10.1093/iat/17.1.249
79286|A||Jooste,A.M., L.H. Du Preez, J.A. Carr, J.P. Giesy, T.S. Gross, R.J. Kendall, E.E. Smith, G.L. Van der Kraak, and K.R. S|Gonadal Development of Larval Male Xenopus laevis Exposed to Atrazine in Outdoor Microcosms|Environ. Sci. Technol.39:5255-5261|2005|10.1021/es048134q
79287|A||Hecker,M., J.W. Park, M.B. Murphy, P.D. Jones, K.R. Solomon, G. Van der Kraak, J.A. Carr, E.E. Smith, L. Du Preez, R.J.|Effects of Atrazine on CYP19 Gene Expression and Aromatase Activity in Testes and on Plasma Sex Steroid Concentrations of Male African Clawed Frogs (Xenopus laevis)|Toxicol. Sci.86(2): 273-280|2005|10.1093/toxsci/kfi203
79288|A||Hecker,M., W.J. Kim, J.W. Park, M.B. Murphy, D. Villeneuve, K.K. Coady, P.D. Jones, K.R. Solomon, G. Van der Kraak, J.A|Plasma Concentrations of Estradiol and Testosterone, Gonadal Aromatase Activity and Ultrastructure of the Testis in Xenopus laevis Exposed to Estradiol or Atrazine|Aquat. Toxicol.72(4): 383-396|2005|10.1016/j.aquatox.2005.01.008
79289|T||Scheifler,R., C. Schwartz, G. Echevarria, A. De Vaufleury, P.M. Badot, and J.L. Morel|"""Nonavailable"" Soil Cadmium is Bioavailable to Snails:  Evidence from Isotopic Dilution Experiments"|Environ. Sci. Technol.37:81-86|2003|10.1021/es025677w
79290|T||Noetzel,D., M. Ricard, and B. Holder|Control of Flea Beetle in Canola, Trial I, 1991|Insectic. Acaric. Tests17:191-|1992|
79297|T||Graham,T.W., M.C. Thurmond, M.S. Clegg, C.L. Keen, C.A. Holmberg, M.R. Slanker, and W.J. Goodger|An Epidemiologic Study of Mortality in Veal Calves Subsequent to an Episode of Zinc Toxicosis on a California Veal Calf Operation Using Zinc Sulfate-Supplemented Milk Replacer|J. Am. Vet. Med. Assoc.190(10): 1296-1301|1987|
79298|T||Llewellyn,G.C., E.A. Floyd, G.D. Hoke, L.B. Weekley, and T.D. Kimbrough|Influence of Dietary Aflatoxin, Zinc, and Copper on Bone Size, Organ Weight, and Body Weight in Hamsters and Rats|Bull. Environ. Contam. Toxicol.35:149-156|1985|10.1007/BF01636493
79299|T||Elsenhans,B., R. Beck, G. Strugala, and W. Forth|Oral Doses of Bismuth, Dietary Zinc Supply and Trace-Metal Levels in the Rat|In: M.Anke, D.Meissner, and C.F.Mills (Eds.), Proc.8th Int.Symp., Trace Elements in Man and Animals - TEMA 8:928-932|1993|
79300|T||Suso,F.A., and H.M.,Jr. Edwards|Influence of Various Chelating Agents on Absorption of 60Co, 59Fe, 54Mn and 65Zn by Chickens|Poult. Sci.47(5): 1417-1425|1968|10.3382/ps.0471417
79301|T||Mayer,D.F.|Bee Poisoning Hazard, 1995-1998|Arthropod Manag. Tests24:393-|1999|
79303|T||Aksoy,A., and T.W. Sullivan|Interrelationship of Dietary Vitamin D3 with Zinc and Iron in Young Turkeys|Poult. Sci.56(2): 491-498|1977|10.3382/ps.0560491
79304|T||Verheyen,G., J. Helsen, and E. Decuypere|Accumulation of Zinc in Egg Yolk, Ovarian Follicles and Organs After Forced Resting by high Dietary Zinc|Br. Poult. Sci.31:147-154|1990|10.1080/00071669008417240
79305|T||Stevenson,M.H., N. Jackson, and S.W. Gibson|Withdrawal of Zinc Oxide-Containing Diets from Mature, Female Domestic Fowl:  Effects on Laying Performance and the Weights of Selected Tissues|Br. Poult. Sci.28:437-447|1987|10.1080/00071668708416978
79306|T||Bartov,I., E. Wax, and S. Bornstein|Attempts to Achieve Low-Weight Broiler Breeder Hens by Severe Growth Depression During Various Periods up to 6 Weeks of Age and Food Allocation Below the Recommendations Thereafter|Br. Poult. Sci.35:573-584|1994|10.1080/00071669408417722
79307|T||Bik,D., M. Kondracki, and K. Niemczuk|Oral Selenium Supplementation and Its Effect on Triiodothyronine and Thyroxine Concentrations in Sheep|Bull. Vet. Inst. Pulawy42:161-165|1998|
79308|T||Aulerich,R.J., S.J. Bursian, R.H. Poppenga, W.E. Braselton, and T.P. Mullaney|Toleration of High Concentrations of Dietary Zinc by Mink|J. Vet. Diagn. Invest.3:232-237|1991|10.1177/104063879100300309
79309|T||Goodman,B.L., R.A.,Jr. Norton, and O.H. Diambra|Zinc Oxide to Induce Molt in Layers|Poult. Sci.65:2008-2014|1986|10.3382/ps.0652008
79310|T||Berry,W.D., and J. Brake|Postmolt Performance of Laying Hens Molted by high Dietary Zinc, Low Dietary Sodium, and Fasting:  Egg Production and Eggshell Quality|Poult. Sci.66:218-226|1987|10.3382/ps.0660218
79311|T||Pimentel,J.L., M.E. Cook, and J.L. Greger|Anemia Induced by Ingestion of Excess Zinc in Chicks:  Importance of Red Blood Cell Turnover?|J. Nutr. Biochem.3:146-150|1992|10.1016/0955-2863(92)90108-U
79312|T||Mengo,M., C. Lopez, C. D'Ocon, I. Frasquet, and V.A. De Armino|Studies on Different Zinc Acetate Doses and Their Relationships with Some Biochemical Parameters|Med. Sci. Res.19:171-172|1991|
79313|T||Aughey,E., L. Grant, B.L. Furman, and W.F. Dryden|The Effects of Oral Zinc Supplementation in the Mouse|J. Comp. Pathol.87:1-14|1977|10.1016/0021-9975(77)90074-3
79314|T||Saxena,R., R.S. Bedwal, and R.S. Mathur|Zinc Toxicity and Male Reproduction in Rats:  A Histological and Biochemical Study|Trace Elem. Med.6(3): 119-133|1989|
79315|T||Hunt,J.R., P.E. Johnson, and P.B. Swan|Effect of Dietary Zinc on 65-Zn Absorption and Turnover in Rats|Nutr. Res.9:161-171|1989|10.1016/S0271-5317(89)80003-X
79316|T||L'abbe,M.R., and P.W.F. Fischer|The Effects of High Dietary Zinc and Copper Deficiency on the Activity of Copper-Requiring Metalloenzymes in the Growing Rat|J. Nutr.114:813-822|1984|10.1093/jn/114.5.813
79317|T||Yamaguchi,M., A. Mochizuki, and S. Okada|Stimulatory Effect of Zinc on Bone Growth in Weanling Rats|J. Pharmacobio-Dyn.5:619-626|1982|10.1248/bpb1978.5.619
79319|T||Henry,P.R., R.C. Littell, and C.B. Ammerman|Effect of High Dietary Zinc Concentration and Length of Zinc Feeding on Feed Intake and Tissue Zinc Concentration in Sheep|Anim. Feed Sci. Technol.66:237-245|1997|10.1016/S0377-8401(96)01104-2
79320|T||Weigand,E., and M. Kirchgessner|Homeostatic Adjustments in Zinc Digestion to Widely Varying Dietary Zinc Intake|Nutr. Metab.22:101-112|1978|10.1159/000176203
79321|T||Urabe,K., and F. Hayakawa|Relationship Between Zinc and Cellulose Intakes in Growing Rats|Int. J. Vitam. Nutr. Res.60:159-167|1990|
79322|T||Schell,T.C., and E.T. Kornegay|Zinc Concentration in Tissues and Performance of Weanling Pigs Fed Pharmacological Levels of Zinc from ZnO, Zn-Methionine, Zn-Lysine, or ZnSO4|J. Anim. Sci.74:1584-1593|1996|10.2527/1996.7471584x
79323|T||Ogiso,T., K. Moriyama, S. Sasaki, Y. Ishimura, and A. Minato|Inhibitory Effect of High Dietary Zinc on Copper Absorption in Rats|Chem. Pharm. Bull.22(1): 55-60|1974|10.1248/cpb.22.55
79324|T||Huber,A.M., and S.N. Gershoff|Effects of Dietary Zinc and Calcium on the Retention and Distribution of Zinc in Rats fed Semipurified Diets|J. Nutr.100(8): 949-954|1970|10.1093/jn/100.8.949
79325|T||Eisemann,J.H., W.G. Pond, and M.L. Thonney|Effect of Dietary Zinc and Copper on Performance and Tissue Mineral and Cholesterol Concentrations in Swine|J. Anim. Sci.48(5): 1123-1128|1979|10.2527/jas1979.4851123x
79326|T||Katya-Katya,M., A. Ensminger, L. Mejean, and G. Debry|The Effect of Zinc Supplementation on Plasma Cholesterol Levels|Nutr. Res.4:633-638|1984|10.1016/S0271-5317(84)80036-6
79327|T||Hill,G.M., E.R. Miller, and H.D. Stowe|Effect of Dietary Zinc Levels on Health and Productivity of Gilts and Sows Through Two Parities|J. Anim. Sci.57(1): 114-122|1983|10.2527/jas1983.571114x
79328|T||Hill,G.M., and E.R. Miller|Effect of Dietary Zinc Levels on the Growth and Development of the Gilt|J. Anim. Sci.57(1): 106-113|1983|10.2527/jas1983.571106x
79329|T||Hill,G.M., E.R. Miller, and P.K. Ku|Effect of Dietary Zinc Levels on Mineral Concentration in Milk|J. Anim. Sci.57(1): 123-129|1983|10.2527/jas1983.571123x
79330|T||Evans,G.W., and E.C. Johnson|Zinc Concentration of Liver and Kidneys fron Rat Pups Nursing Dams Fed Supplemental Zinc Dipicolinate or Zinc Acetate|J. Nutr.110:2121-2124|1980|10.1093/jn/110.10.2121
79331|T||Pond,W.G., J.T. Yen, and L.H. Yen|Effect of Dietary Protein and Zinc Levels on Weight Gain and Plasma Traits in Weanling Pigs|Nutr. Rep. Int.31(2): 253-264|1985|
79332|T||Cerklewski,F.L., and J.W. Ridlington|Influence of Zinc and Iron on Dietary Fluoride Utilization in the Rat|J. Nutr.115:1162-1167|1985|10.1093/jn/115.9.1162
79333|T||Rosa,I.V., C.B. Ammerman, and P.R. Henry|Interrelationships of Dietary Copper, Zinc and Iron on Performance and Tissue Mineral Concentration in Sheep|Nutr. Rep. Int.34(5): 893-902|1986|
79334|T||Shankar,S., P.R. Sundaresan, and S. Mohla|Effect of Chronic Administration of Excess Dietary Vitamin A and Zinc on Lipid Metabolism in Rats|Int. J. Vitam. Nutr. Res.56:329-337|1986|
79336|T||Frimpong,N.A., and A.C. Magee|Effects of Dietary Copper and Zinc on Serum Lipid Parameters of Young Male Rats|Nutr. Rep. Int.35:551-558|1987|
79337|T||Mulder,P.G.Jr.|Effects of Insecticides on Thrips Populations, Peanut Injury, Growth and Yield, 1995  |Arthropod Manag. Tests22:284-285|1997|
79338|T||Pandita,T.K., and T.N. Khoshoo|Mutagenicity Testing of Thimet 10-G|Nucleus27(3): 168-171|1984|
79339|T||Ferhatoglu,Y., S. Avdiushko, and M. Barrett|The Basis for the Safening of Clomazone by Phorate Insecticide in Cotton and Inhibitors of Cytochrome P450s|Pestic. Biochem. Physiol.81(1): 59-70|2005|10.1016/j.pestbp.2004.09.002
79340|T||Brandenburg,R.L., and P.T. Hertl|Thrips Control in Peanuts, North Carolina, 1991|Insectic. Acaric. Tests17:244-|1992|10.1093/iat/17.1.244
79341|T||Noetzel,D., M. Ricard, L. Heuser, and B. Holder|Control of Pyrethroid Resistant Colorado Potato Beetle, 1990|Insectic. Acaric. Tests17:132-|1992|10.1093/iat/17.1.132
79342|T||Herbert,D.A.,Jr.|Planting Time Treatments for Control of Tobacco Thrips in Peanut, 1991|Insectic. Acaric. Tests17:248-249|1992|10.1093/iat/17.1.248
79343|T||Buschman,L.L., and K. El Houssaini|Evaluation of Insecticidal Control of Hessian Fly in Wheat, 1991|Insectic. Acaric. Tests17:309-310|1992|10.1093/iat/17.1.309
79344|T||Buntin,G.D.|Aphid Control in Winter Canola Using Soil Insecticides, 1990-1991|Insectic. Acaric. Tests17:186-187|1992|
79345|T||Roberts,P.M., J.N. All, and B.H. Tanner|Chemical Control of Tobacco Thrips in Cotton, 1991|Insectic. Acaric. Tests17:240-241|1992|10.1093/iat/17.1.240
79346|T||Norman,J.W.,Jr., and A.N.Jr. Sparks|Control of SPW in Cotton, 1991|Insectic. Acaric. Tests17:239-240|1992|10.1093/iat/17.1.239
79347|T||Noetzel,D., and H. Roman|Flea Beetle Control in Canola with Granular Insecticides, 1989|Insectic. Acaric. Tests17:190-|1992|10.1093/iat/17.1.190
79348|T||Noetzel,D., M. Ricard, and B. Sheets|Foliar Insect Control in Lupine, 1990|Insectic. Acaric. Tests17:347-|1992|
79349|T||Gaur,H.S., and S.D. Mishra|Integrated Control of Nematodes in Lentil with Aldicarb, Neem Cake and Seed Treatment with Thimet and Its Residual Effect on the Subsequent Mung Crop|Indian J. Entomol.51(3): 283-287|1989|
79350|T||Nath,V., and A.S. Srivastava|Relative Toxicity of Some Insecticides to the Final Instar Grubs of Holotrichia consanguinea Blanch.|Indian J. Entomol.42(4): 667-670|1980|
79351|T||Thakur,R.B., S.S. Mishra, and N.N. Sharma|Effect of Pesticides on N-Use Efficiency and Growth Dynamic in Rice|Indian J. Agron.33(2): 181-185|1988|
79352|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-74 (Sodium Aluminum Sulfate)|FDABF-GRAS-151, Food and Drug Res.Lab.Inc., East Orange, NJ:41 p.|1973|
79353|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-45 (Sodium Silicoaluminate)|FDABF-GRAS-129, Food and Drug Res.Lab.Inc., East Orange, NJ:56 p.|1973|
79354|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-41 (Hydrated Calcium Silicate)|FDABF-GRAS-148, Food and Drug Res.Lab.Inc., East Orange, NJ:15 p.|2005|
79355|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-44 (Caffeine)|Food and Drug Research Laboratory Inc., Rockville, MD:15 p.|2005|
79356|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-57 (Menthol Natural, Brazilian)|FDABF-GRAS-134, Food and Drug Res.Lab.Inc., East Orange, NJ:55 p.|2005|
79357|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-54 (Citric Acid)|Food and Drug Res.Lab.Inc., East Orange, NJ:57 p.|2005|
79358|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-26 (Oil of Mustard)|FDABF-GRAS-131, Food and Drug Res.Lab.Inc., East Orange, NJ:56 p.|2005|
79359|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-71 (Manganese Sulfate, Monohydrate)|FDABF-GRAS-132, Food and Drug Res.Lab.Inc., East Orange, NJ:57 p.|2005|
79360|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-38 (Methyl Paraben)|FDABF-GRAS-136, Food and Drug Res.Lab.Inc., East Orange, NJ:14 p.|2005|
79361|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-39 (Propyl Gallate)|FDABF-GRAS-135, Food and Drug Res.Lab.Inc., East Orange, NJ:14 p.|2005|
79362|T||Kincaid,R.L., W.J. Miller, L.S. Jensen, D.L. Hampton, M.W. Neathery, and R.P. Gentry|Effect of High Amounts of Dietary Zinc and Age upon Tissue Zinc in Young Chicks|Poult. Sci.55:1954-1957|1976|10.3382/ps.0551954
79363|T||Puchala,R., T. Sahlu, and J.J. Davis|Effects of Zinc-Methionine on Performance of Angora Goats|Small Ruminant Res.33:1-8|1999|10.1016/S0921-4488(98)00194-1
79365|T||Van der Schee,W., J.W. Garretsen, and R. Van der Berg|Effect of Zinc and Molybdenum Supplementation of the Feed Concentrate on the Storage of Copper in the Liver of Lambs|Vet. Q.2(2): 82-89|1980|10.1080/01652176.1980.9693763
79366|T||Van Ryssen,J.B.J.|The Effectiveness of Using Supplementary Zinc and Molybdenum to Reduce the Copper Content in the Liver of Hypercuprotic Sheep|J. S. Afr. Vet. Assoc.65(2): 59-63|1994|
79367|T||Smith,B.L.|Effect of High Concentrations of Zinc Sulphate in the Drinking Water of Grazing Yearling Dairy Cattle|N. Z. J. Agric. Res.23:175-178|1980|10.1080/00288233.1980.10430784
79371|T||Wylie,L.M., and P.M. Hocking|Effect of Dietary Zinc on Breast Feathering in Growing Turkeys|Br. Poult. Sci.38(suppl.): S42 - S43|1997|
79372|T||Guedes,R.N.C., N.M.P. Guedes, and M. Picanco|Vegetative Growth and Yield of Tomato (Lycopersicum esculentum Mill.) in Response to the Systemic Insecticide Phorate|An. Soc. Entomol. Bras.27(3): 443-449|1998|10.1590/S0301-80591998000300013
79373|T||Kelsey,J.W., A. Colino, and J.C. White|Effect of Species Differences, Pollutant Concentration, and Residence Time in Soil on the Bioaccumulation of 2,2-bis(p-Chlorophenyl)-1,1-Dichloroethylene by Three Earthworm Species|Environ. Toxicol. Chem.24(3): 703-708|2005|10.1897/04-293R.1
79374|T||Kramarz,P., M. Zwolak, and R. Laskowski|Effect of Interaction Between Density Dependence and Toxicant Exposure on Population Growth Rate of the Potworm Enchytraeus doerjesi|Environ. Toxicol. Chem.24(3): 537-540|2005|10.1897/04-263R.1
79375|T||Gill,H., T.D. Williams, C.A. Bishop, K.M. Cheng, and J.E. Elliott|Effects of Azinphos-Methyl on Cholinergic Responses and General Health in Zebra Finches (Taeniopygia guttata) After Previous Treatment with p,p'-DDE|Arch. Environ. Contam. Toxicol.48(1): 118-126|2004|10.1007/s00244-004-0229-8
79376|T||Han,X., Z. Tu, X. Wang, S. Shen, and Y. Hou|Nonylphenol Induced Apoptosis in Rat Testis Through the Fas/FasL Pathway|Bull. Environ. Contam. Toxicol.73(4): 620-627|2004|10.1007/s00128-004-0473-2
79378|T||Isanhart,J.P., F.M.A. McNabb, and P.N. Smith|Effects of Perchlorate Exposure on Resting Metabolism, Peak Metabolism, and Thyroid Function in the Prairie Vole (Microtus ochrogaster)|Environ. Toxicol. Chem.24(3): 678-684|2005|10.1897/04-306R.1
79379|T||Atterby,H., G.M. Kerins, and A.D. MacNicoll|Whole-Carcass Residues of the Rodenticide Difenacoum in Anticoagulant-Resistant and -Susceptible Rat Strains (Rattus norvegicus)|Environ. Toxicol. Chem.24(2): 318-323|2005|10.1897/04-022R.1
79380|T||Aysal,P., O. Tiryaki, and A.S. Tuncbilek|14C-Dimethoate Residues in Tomatoes and Tomato Products|Bull. Environ. Contam. Toxicol.73(2): 351-357|2004|10.1007/s00128-004-0435-8
79382|T||Bogan,B.W., K.E. Beardsley, W.R. Sullivan, T.D. Hayes, and B.K. Soni|Effect of Volatile Hydrocarbon Fractions on Mobility and Earthworm Uptake of Polycyclic Aromatic Hydrocarbons from Soils and Soil/Lampblack Mixtures|Environ. Toxicol. Chem.24(1): 181-189|2005|10.1897/04-150R.1
79383|T||Colin,M.E., J.M. Bonmatin, I. Moineau, C. Gaimon, S. Brun, and J.P. Vermandere|A Method to Quantify and Analyze the Foraging Activity of Honey Bees: Relevance to the Sublethal Effects Induced by Systemic Insecticides|Arch. Environ. Contam. Toxicol.47(3): 387-395|2004|10.1007/s00244-004-3052-y
79384|T||Currie,M., M.E. Hodson, R.E. Arnold, and C.J. Langdon|Single Versus Multiple Occupancy-Effects on Toxicity Parameters Measured on Eisenia fetida in Lead Nitrate-Treated Soil|Environ. Toxicol. Chem.24(1): 110-116|2005|10.1897/03-686.1
79385|T||Engenheiro,E.L., P.K. Hankard, J.P. Sousa, M.F. Lemos, J.M. Weeks, and A.M.V.M. Soares|Influence of Dimethoate on Acetylcholinesterase Activity and Locomotor Function in Terrestrial Isopods|Environ. Toxicol. Chem.24(3): 603-609|2005|10.1897/04-131R.1
79386|T||Fortunati,P., E. Lombi, R.E. Hamon, A.L. Nolan, and M.J. McLaughlin|Effect of Toxic Cations on Copper Rhizotoxicity in Wheat Seedlings|Environ. Toxicol. Chem.24(2): 372-378|2005|10.1897/03-069R.1
79387|T||Gee,J.M., C.B. Craig-Veit, and J.R. Millam|Posthatch Methoxychlor Exposure Adversely Affects Reproduction of Adult Zebra Finches, Taeniopygia guttata|Bull. Environ. Contam. Toxicol.73(4): 607-612|2004|10.1007/s00128-004-0471-4
79388|A||King,C.K., M.C. Dowse, S.L. Simpson, and D.F. Jolley|An Assessment of Five Australian Polychaetes and Bivalves for Use in Whole-Sediment Toxicity Tests:  Toxicity and Accumulation of Copper and Zinc from Water and Sediment|Arch. Environ. Contam. Toxicol.47(3): 314-323|2004|10.1007/s00244-004-3122-1
79389|A||Fuma,S., H. Takeda, Y. Takaku, S. Hisamatsu, and Z. Kawabata|Effects of Dysprosium on the Species-Defined Microbial Microcosm|Bull. Environ. Contam. Toxicol.74(2): 263-272|2005|10.1007/s00128-004-0579-6
79390|A||Edwards,P.A., and K. Simkiss|Dietary Influences on the Bioaccumulation of Pollutants by the Annelid, Lumbriculus variegatus:  Experiments Comparing Artificial Particles and Natural Sediments|Bull. Environ. Contam. Toxicol.74(2): 328-334|2005|10.1007/s00128-004-0588-5
79391|A||Dautremepuits,C., S. Betoulle, S. Paris-Palacios, and G. Vernet|Immunology-Related Perturbations Induced by Copper and Chitosan in Carp (Cyprinus carpio L.)|Arch. Environ. Contam. Toxicol.47(3): 370-378|2004|10.1007/s00244-004-3115-0
79392|A||Christl,T.J., P. Pennington, M. DeLorenzo, K.J.,Jr. Karnaky, and G.I. Scott|Effect of Multiple Atrazine Exposure Profiles on Hemocyte DNA Integrity in the Eastern Oyster (Crassostrea virignica)|Bull. Environ. Contam. Toxicol.73(2): 404-410|2004|10.1007/s00128-004-0443-8
79393|A||Cheng,S.Y., W.C. Lee, L.W. Shieh, and J.C. Chen|Increased Production and Excretion of Urea in the Kuruma Shrimp (Marsupenaeus japonicus) Exposed to Combined Environments of Increased Ammonia and Nitrite|Arch. Environ. Contam. Toxicol.47(3): 352-362|2004|10.1007/s00244-004-3190-2
79394|A||Burgess,R.M., M.M. Perron, M.G. Cantwell, K.T. Ho, J.R. Serbst, and M.C. Pelletier|Use of Zeolite for Removing Ammonia and Ammonia-Caused Toxicity in Marine Toxicity Identification Evaluations|Arch. Environ. Contam. Toxicol.47(4): 440-447|2004|10.1007/s00244-004-4003-3
79395|A||Amiard,J.C., H. Perrein-Ettajani, A. Gerard, J.P. Baud, and C. Amiard-Triquet|Influence of Ploidy and Metal-Metal Interactions on the Accumulation of Ag,Cd, and Cu in Oysters Crassostrea gigas Thunberg|Arch. Environ. Contam. Toxicol.48(1): 68-74|2005|10.1007/s00244-003-0180-8
79396|A||Lan,C.H., C.Y. Peng, and T.S. Lin|Acute Aquatic Toxicity of N-Methyl-2-Pyrrolidinone to Daphnia magna|Bull. Environ. Contam. Toxicol.73(2): 392-397|2004|10.1007/s00128-004-0441-x
79398|A||Moukrim,A., F. El Hamidi, A. Lagbouri, A. Kaaya, A. Zekhnini, A. Bouhaimi, and J.F. Narbonne|Study of Donax trunculus as a Sentinel Species for Environmental Monitoring of Sandy Beaches on Moroccan Coasts|Bull. Environ. Contam. Toxicol.73(4): 674-681|2004|10.1007/s00128-004-0479-9
79399|T||Gye,M.C.|Two-Dimensional Gel Electrophoresis Analysis of Liver Proteins Following Nonylphenol Treatment of Bombina orientalis Boulenger|Bull. Environ. Contam. Toxicol.73(2): 411-415|2004|10.1007/s00128-004-0444-7
79400|A||Gonzalez-Doncel,M., C. Fernandez-Torija, D.E. Hinton, and J.V. Tarazona|Stage-Specific Toxicity of Cypermethrin to Medaka (Oryzias latipes) Eggs and Embryos Using a Refined Methodology for an In Vitro Fertilization Bioassay|Arch. Environ. Contam. Toxicol.48(1): 87-98|2004|10.1007/s00244-003-0223-1
79401|A||McKenney,C.L.,Jr., G.M. Cripe, S.S. Foss, S.R. Tuberty, and M. Hoglund|Comparative Embryonic and Larval Developmental Responses of Estuarine Shrimp (Palaemonetes pugio) to the Juvenile Hormone Agonist Fenoxycarb|Arch. Environ. Contam. Toxicol.47(4): 463-470|2004|10.1007/s00244-002-0294-4
79402|A||Lydy,M.J., and K.R. Austin|Toxicity Assessment of Pesticide Mixtures Typical of the Sacramento-San Joaquin Delta Using Chironomus tentans|Arch. Environ. Contam. Toxicol.48(1): 49-55|2004|10.1007/s00244-004-0056-6
79403|A||Sun,L.W., M.M. Qu, Y.Q. Li, Y.L. Wu, Y.G. Chen, Z.M. Kong, and Z.T. Liu|Toxic Effects of Aminophenols on Aquatic Life Using the Zebrafish Embryo Test and the Comet Assay|Bull. Environ. Contam. Toxicol.73(4): 628-634|2004|10.1007/s00128-004-0474-1
79404|T||Stroomberg,G.J., F. Ariese, C.A.M. Van Gestel, B. Van Hattum, N.H. Velthorst, and N.M. Van Straalen|Pyrene Biotransformation and Kinetics in the Hepatopancreas of the Isopod Porcellio scaber|Arch. Environ. Contam. Toxicol.47(3): 324-331|2004|10.1007/s00244-004-3097-y
79405|A||Rauch,S., M. Paulsson, M. Wilewska, H. Blanck, and G.M. Morrison|Short-Term Toxicity and Binding of Platinum to Freshwater Periphyton Communities|Arch. Environ. Contam. Toxicol.47(3): 290-296|2004|10.1007/s00244-004-3197-8
79406|A||Xi,Y.L., and L.K. Feng|Effects of Thiophanate-Methyl and Glyphosate on Asexual and Sexual Reproduction in the Rotifer Brachionus calyciflorus Pallas|Bull. Environ. Contam. Toxicol.73(4): 644-651|2004|10.1007/s00128-004-0475-0
79407|A||Wu,J.P., and H.C. Chen|Effects of Cadmium and Zinc on the Growth, Food Consumption, and Nutritional Conditions of the White Shrimp, Litopenaeus vannamei (Boone)|Bull. Environ. Contam. Toxicol.74(2): 234-241|2005|10.1007/s00128-004-0575-x
79408|A||Woods,R., R. Davi, and W. Arnold|Toxicity of Vanadium to the Estuarine Mysid, Americamysis bahia (Molenock) (Formerly Mysidopsis bahia)|Bull. Environ. Contam. Toxicol.73(4): 635-643|2004|10.1007/s00128-004-0493-y
79409|A||Surosz,W., and K.A. Palinska|Effects of Heavy-Metal Stress on Cyanobacterium Anabaena flos-aquae|Arch. Environ. Contam. Toxicol.48(1): 40-48|2005|10.1007/s00244-004-0163-4
79410|A||Wang,B., C.Q. Liu, and Y. Wu|Effect of Heavy Metals on the Activity of External Carbonic Anhydrase of Microalga Chlamydomonas reinhardtii and Microalgae from Karst Lakes|Bull. Environ. Contam. Toxicol.74(2): 227-233|2005|10.1007/s00128-004-0574-y
79411|A||Zhou,J.M., Z.F. Qin, L. Cong, and X.B. Xu|Toxicity of PCBs (Aroclor-1221, 1254) to Embryos and Larvae of Xenopus laevis|Bull. Environ. Contam. Toxicol.73(2): 379-384|2004|10.1007/s00128-004-0439-4
79412|A||Kennedy,C.J., D. Higgs, and K. Tierney|Influence of Diet and Ration Level on Benzo[a]pyrene Metabolism and Excretion in Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.47(3): 379-386|2004|10.1007/s00244-004-3182-2
79413|A||Keller,A.E., and T. Augspurger|Toxicity of Fluoride to the Endangered Unionid Mussel, Alasmidonta raveneliana, and Surrogate Species|Bull. Environ. Contam. Toxicol.74(2): 242-249|2005|10.1007/s00128-004-0576-9
79414|T||Johnson,M.S., H.I. Paulus, C.J. Salice, R.T. Checkai, and M. Simini|Toxicologic and Histopathologic Response of the Terrestrial Salamander Plethodon cinereus to Soil Exposures of 1,3,5-Trinitrohexahydro-1,3,5-Triazine|Arch. Environ. Contam. Toxicol.47(4): 496-501|2004|10.1007/s00244-004-3242-7
79415|T||Sredzinska,K., A. Galicka, M.M. Brzoska, and A. Gindzienski|Effect of Cadmium on Glycosaminoglycans in the Bone of Rats|Bull. Environ. Contam. Toxicol.73(3): 437-442|2004|10.1007/s00128-004-0448-3
79416|A||Bunluesin,S., M. Kruatrachue, P. Pokethitiyook, G.R. Lanza, E.S. Upatham, and V. Soonthornsarathool|Plant Screening and Comparison of Ceratophyllum demersum and Hydrilla Verticillata for Cadmium Accumulation|Bull. Environ. Contam. Toxicol.73(3): 591-598|2004|10.1007/s00128-004-0469-y
79417|T||Shin,B.S., C.H. Kim, Y.S. Jun, D.H. Kim, B.M. Lee, C.H. Yoon, E.H. Park, K.C. Lee, S.Y. Han, K.L. Park, H.S. Kim, and S|Physiologically Based Pharmacokinetics of Bisphenol A|J. Toxicol. Environ. Health Part A67(23/24): 1971-1986|2004|10.1080/15287390490514615
79418|T||Lu,S.Y., J.W. Liao, M.L. Kuo, S.C. Wang, J.S. Hwang, and T.H. Ueng|Endocrine-Disrupting Activity in Carbendazim-Induced Reproductive and Developmental Toxicity in Rats|J. Toxicol. Environ. Health Part A67(19): 1501-1515|2004|10.1080/15287390490486833
79419|T||Kinser,S., Q. Jia, M. Li, A. Laughter, P.D. Cornwell, J.C. Corton, and J.J. Pestka|Gene Expression Profiling in Spleens of Deoxynivalenol-Exposed Mice:  Immediate Early Genes as Primary Targets|J. Toxicol. Environ. Health Part A67(18): 1423-1441|2004|10.1080/15287390490483827
79422|T||Kwack,S.J., S.S. Kim, Y.W. Choi, G.S. Rhee, R.D. Lee, J.H. Seok, S.Y. Chae, Y.H. Won, K.J. Lim, K.S. Choi, K.L. Park, a|Mechanism of Antifertility in Male Rats Treated with 3-Monochloro-1,2-Propanediol (3-MCPD)|J. Toxicol. Environ. Health Part A67(23-24): 2001-2011|2004|10.1080/15287390490514651
79423|T||Lee,R.D., G.S. Rhee, S.M. An, S.S. Kim, S.J. Kwack, J.H. Seok, S.Y. Chae, C.H. Park, H.J. Yoon, D.H. Cho, H.S. Kim, and|Differential Gene Profiles in Developing Embryo and Fetus After In Utero Exposure to Ethanol|J. Toxicol. Environ. Health Part A67(23-24): 2073-2084|2004|10.1080/15287390490515001
79424|T||Cruzan,G., G.P. Carlson, M. Turner, and W. Mellert|Ring-Oxidized Metabolites of Styrene Contribute to Styrene-Induced Clara-Cell Toxicity in Mice|J. Toxicol. Environ. Health Part A68(3): 229-237|2005|10.1080/15287390590890464
79425|T||Goff,K.F., B.E. Hull, and K.A. Grasman|Effects of PCB 126 on Primary Immune Organs and Thymocyte Apoptosis in Chicken Embryos|J. Toxicol. Environ. Health Part A68(6): 485-500|2005|10.1080/15287390590903720
79426|T||Douglas-Stroebel,E.K., G.L. Brewer, and D.J. Hoffman|Effects of Lead-Contaminated Sediment and Nutrition on Mallard Duckling Behavior and Growth|J. Toxicol. Environ. Health Part A68(2): 113-128|2005|10.1080/15287390590885839
79427|T||Murvoll,K.M., B.M. Jenssen, and J.U. Skaare|Effects of Pentabrominated Diphenyl Ether (PBDE-99) on Vitamin Status in Domestic Duck (Anas Platyrhynchos) Hatchlings|J. Toxicol. Environ. Health Part A68(7): 515-533|2005|10.1080/15287390590909652
79428|T||De la Rosa,P., J.B. Barnett, and R. Schafer|Characterization of Thymic Atrophy and the Mechanism of Thymocyte Depletion After In Vivo Exposure to a Mixture of Herbicides|J. Toxicol. Environ. Health Part A68(2): 81-98|2005|10.1080/15287390590886072
79430|T||Robidoux,P.Y., C. Svendsen, M. Sarrazin, S. Thiboutot, G. Ampleman, J. Hawari, J.M. Weeks, and G.I. Sunahara|Assessment of a 2,4,6-Trinitrotoluene-Contaminated Site Using Aporrectodea rosea and Eisenia andrei in Mesocosms|Arch. Environ. Contam. Toxicol.48(1): 56-67|2004|10.1007/s00244-004-0217-7
79431|T||Maervoet,J., V. Beck, S.A. Roelens, A. Covaci, S. Voorspoels, J.M.C. Geuns, V.M. Darras, and P. Schepens|Uptake and Tissue-Specific Distribution of Selected Polychlorinated Biphenyls in Developing Chicken Embryos|Environ. Toxicol. Chem.24(3): 597-602|2005|10.1897/04-266R.1
79432|T||Mattina,M.I., B.D. Eitzer, W. Iannucci-Berger, W.Y. Lee, and J.C. White|Plant Uptake and Translocation of Highly Weathered, Soil-Bound Technical Chlordane Residues:  Data from Field and Rhizotron Studies|Environ. Toxicol. Chem.23(11): 2756-2762|2004|10.1897/03-570
79433|T||Pauli,B.D., and S.W. Kennedy|Hepatic Porphyria Induced by the Herbicide Tralkoxydim in Small Mammals is Species-Specific|Environ. Toxicol. Chem.24(2): 450-456|2005|10.1897/03-536.1
79434|A||Caldwell,R.S.|Acute and Chronic Toxicity of Seawater Extracts of Alaskan Crude Oil to Zoeae of the Dungeness Crab, Cancer magister Dana|In: Contract No.NOAA 03-5-022-68, Environmental Assessment of the Alaskan Continental Shelf, Volume 8, Effects of Contaminants, Principal Investigators Reports for the Year Ending March, 1976:345-375|1976|
79435|A||Rice,S.D., and J.F. Karinen|Acute and Chronic Toxicity, Uptake and Depuration, and Sublethal Metabolic Response of Alaskan Marine Organisms to Petroleum Hydrocarbons|In: Annu.Rep., Environmental Assessment of the Alaskan Continental Shelf, Volume 8, Effects of Contaminants, Principal Investigators Reports for the Year Ending March, 1976:25-47|1976|
79436|T||Mathur,A., K. Wallenius, M. Abdulla, I. Ihse, A. Brun, A. Rausing, and S. Svensson|Role of Zinc and Copper in Experimental and Clinical Neoplasia|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:359-362|1977|
79437|T||Behne,D., P. Bratter, D. Gawlik, U. Rosick, and W. Wolters|75Se-Selenite Tracer Study in Rats During Pregnancy and Lactation and a Comparison with Selenium Metabolism|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:444-448|1977|
79438|T||Panic,B., N. Apostolov, and J. Knezevic|The Effect of Dietary Manganese on Egg Shell Quality and Manganese Concentrations in Some Tissues of Laying Hens|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:511-514|1977|
79439|T||Choudhury,H., L. Hastings, E. Menden, D. Brockman, G.P. Cooper, and H.G. Petering|Effects of Low Level Prenatal Cadmium Exposure on Trace Metal Body Burden and Behavior in Sprague-Dawley Rats|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:549-552|1977|
79440|T||Sasser,L.B., R.J. Chertok, M.F. Callaham, and G.E. Jarboe|The Effect of Ca and P on the Absorption of Cd|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:562-565|1977|
79442|T||Balaeva,M.S.|The Influence of Various Amounts of Tungsten on the Intensity of Oxygen Absorption in Guinea Pigs|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:617-619|1977|
79443|T||Ammerman,C.B., and S.L. Hansard III|Toxicity of Vanadium in Sheep|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:614-616|1977|
79444|T||Bell,M.C., J.A. Bacon, G.R. Bratton, and J.E. Wilkinson|Effects of Dietary Selenium and Lead on Selected Tissues of Chicks|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:604-607|1997|
79445|T||Levander,O.A., V.C. Morris, and R.J. Ferretti|Hematological Consequences of Lead Poisoning in Vitamin E-Deficient Rats|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:601-603|1977|
79447|T||Mahaffey,K.R., C.L. Stone, T.A. Banks, and G. Reed|Reduction in Tissue Storage of Lead in the Rat by Feeding Diets with Elevated Iron Concentration|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:584-588|1977|
79448|T||Herbert,D.A.,Jr.|Effects of Selected Seed, Foliar and In-Furrow Applied Insecticides on Thrips Injury, Plant Stand and Yield, 1996|Arthropod Manag. Tests22:281-|1997|10.1093/amt/22.1.281
79450|T||Pendlebury,W.W., D.P. Perl, A. Schwentker, T.M. Pingree, and P.R. Solomon|Aluminum-Induced Neurofibrillary Degeneration Disrupts Acquisition of the Rabbit's Classically Conditioned Nictitating Membrane Response|Behav. Neurosci.102(5): 615-620|1988|10.1037/0735-7044.102.5.615
79451|T||Bui,L.M., C.L. Keen, and M.A. Dubick|Influence of 12-Week Nicotine Treatment and Dietary Copper on Blood Pressure and Indices of the Antioxidant System in Male Spontaneous Hypertensive Rats|Biol. Trace Elem. Res.46(1-2): 67-78|1994|10.1007/BF02790068
79452|T||Seaborn,C.D., and F.H. Nielsen|Effects of Germanium and Silicon on Bone Mineralization|Biol. Trace Elem. Res.42(2): 151-164|1994|10.1007/BF02785386
79453|T||Flora,S.J.S., M. Dhawan, and S.K. Tandon|Effects of Combined Exposure to Aluminium and Ethanol on Aluminium Body Burden and Some Neuronal, Hepatic and Haematopoietic Biochemical Variables in the Rat|Hum. Exp. Toxicol.10(1): 45-48|1991|10.1177/096032719101000108
79454|T||Oster,M.H., J.M. Llobet, J.L. Domingo, J.B. German, and C.L. Keen|Vanadium Treatment of Diabetic Sprague-Dawley Rats Results in Tissue Vanadium Accumulation and Pro-oxidant Effects|Toxicology83(1-3): 115-130|1993|10.1016/0300-483X(93)90096-B
79455|T||Bonner,F.W., L.J. King, and D.V. Parke|The Influence of High Dietary Zinc on Tissue Disposition and Urinary Excretion of Cadmium, Zinc, Copper and Iron After Repeated Parenteral Administration of Cadmium to Rats|Toxicology19(3): 247-254|1981|10.1016/0300-483X(81)90134-7
79456|T||Cherroret,G., V. Bernuzzi, D. Desor, M.F. Hutin, D. Burnel, and P.R. Lehr|Effects of Postnatal Aluminum Exposure on Choline Acetyltransferase Activity and Learning Abilities in the Rat|Neurotoxicol. Teratol.14(4): 259-264|1992|10.1016/0892-0362(92)90005-U
79457|T||Golub,M.S., B. Han, C.L. Keen, and M.E. Gershwin|Auditory Startle in Swiss Webster Mice Fed Excess Aluminum in Diet|Neurotoxicol. Teratol.16(4): 423-425|1994|10.1016/0892-0362(94)90031-0
79458|T||Uriu-Hare,J.Y., J.S. Stern, and C.L. Keen|Influence of Maternal Dietary Zn Intake on Expression of Diabetes-Induced Teratogenicity in Rats|Diabetes38(10): 1282-1290|1989|10.2337/diab.38.10.1282
79459|T||Bernuzzi,V., D. Desor, and P.R. Lehr|Effects of Prenatal Aluminum Exposure on Neuromotor Maturation in the Rat|Neurobehav. Toxicol. Teratol.8(2): 115-119|1986|
79461|T||Harada,I., and H. Murata|The Absorption Characteristics of Nickel Chloride Applied to Alfalfa and Smooth Brome Grass|J. Rakuno Gakuen Univ. Nat. Sci.15(1-2): 139-146|1990|
79462|T||Vohra,P., and D.C. Bond|The Effect of Various Levels of Dietary EDTA on the Mineral Contents of Some Tissues of Coturnix coturnix japonica|Poult. Sci.49(2): 565-568|1970|10.3382/ps.0490565
79463|T||Kimmett,S.M., R.A. Whitney, and G.S. Marks|Isolation of N-Vinylprotoporphyrin IX After Hepatic Cytochrome P450 Inactivation by 3-[(Arylthio)ethyl]sydnone in Chick Embryos Pretreated with Phenobarbital, Glutethimide, Dexamethasone, and beta-Naphthoflavone: Differ|Mol. Pharmacol.49(4): 676-682|1996|
79464|T||Long,J.F., L.A. Nagode, O. Kindig, and L. Liss|Axonal Swellings of Purkinje Cells in Chickens Associated with high Intake of 1,25-(OH)2D3 and Elevated Dietary Aluminum Including X-Ray Micro Analysis|Neurotoxicology1(4): 111-120|1980|
79465|T||Strong,M.J., A.V. Wolff, I. Wakayama, and R.M. Garruto|Aluminum-Induced Chronic Myelopathy in Rabbits|Neurotoxicology12(1): 9-22|1991|
79466|T||Keshavarz,K., and C.C. McCormick|Effect of Sodium Aluminosilicate, Oyster Shell, and Their Combinations on Acid-Base Balance and Eggshell Quality|Poult. Sci.70(2): 313-325|1991|10.3382/ps.0700313
79467|T||Johnson,N.E., B.F. Harland, E. Ross, L. Gautz, and M.A. Dunn|Effects of Dietary Aluminum and Niacin on Chick Tibiae|Poult. Sci.71(7): 1188-1195|1992|10.3382/ps.0711188
79468|T||Julka,D., and K.D. Gill|Development of a Possible Peripheral Marker for Aluminium Neurotoxicity|Med. Sci. Res.23(5): 311-314|1995|
79469|T||Desigan,B., R. Katyal, and S. Ojha|Biochemical Changes in Rat Erythrocytes After Chronicoral Administration of Aluminium|Med. Sci. Res.23(10): 665-666|1995|
79470|T||Troncoso,J.C., N.H. Sternberger, L.A. Sternberger, P.N. Hoffman, and D.L. Price|Immunocytochemical Studies of Neurofilament Antigens in the Neurofibrillary Pathology Induced by Aluminum|Brain Res.364(2): 295-300|1986|10.1016/0006-8993(86)90842-5
79473|T||Lanza,G.M., K.W. Washburn, R.D. Wyatt, and H.M.,Jr. Edwards|Depressed 59Fe Absorption due to Dietary Aflatoxin|Poult. Sci.58(6): 1439-1444|1979|10.3382/ps.0581439
79474|T||Kirchgessner,M., R. Spoerl, and Ursula A. Schneider|Studies on the Superretention of Trace Elements (Cu, Zn, Mn, Ni, Fe) During Gravidity|In: M.Kirchgessner (Ed.), Trace Elem.Metab.Man Anim.Proc.3rd Int.Symp., Arbeitskreis Tierernaehrungsforschung Weinhenstaphan Inst.Ernaehrungsphysiol., Freising-Weihenstephan, Germany:440-443|1978|
79475|T||Djujic,I., M. Mandic, O. Jozanov-Stankov, M. Demajo, and M.M. Vrvic|Effects of Selenium-Enriched Yeast on Microelement Content in Rat Tissues|Naucni Skupovi - Srp.Akad.Nauka Umet.Od.Prir.-Mat.Nauka (Conference on Selenium, 1993)6:105-113|1995|
79476|T||Djujic,I., O. Jozanov-Stankov, M. Demajo, and M. Mandic|Effects of Ionizing Radiation and Selenium on Microelement Concentration|Naucni Skupovi - Srp.Akad.Nauka Umet.Od.Prir.-Mat.Nauka (Conference on Selenium, 1993)6:139-148|1995|
79477|T||Irving,H.J., M.A. Wear, H. Simmons, L.G. Tipton, J.B. Tipton, K.M. Maddox, W.M. Willingham, and J.R.J. Sorenson|An Examination of the Radioprotective and Radiorecovery Activities of Fe(III) (3,5-Diisopropylsalicylate)3 and Mn(III)2(II) (mu-3-O) (3,5-Diisopropylsalicylate)|Inflammopharmacology4(4): 309-321|1996|10.1007/BF02755784
79479|T||Sooncharernying,S., and H.M.,Jr. Edwards|Aluminum and Iron in Poultry Rations|In: Proc.1990, Georgia Nutr.Conf.for the Feed Ind., Atlantic Airport Hilton, Nov.13-15, Univ.of Georgia, Atlanta, GA:113-121|1990|
79480|T||Robel,E.J.|Egg Trace Mineral Levels and Reproductive Performance of Turkey Hens Fed Calcium Disodium Ethylenediaminetetraacetate|Nutr. Rep. Int.27(5): 1021-1027|1983|
79481|T||Bonner,F.W., L.J. King, and D.V. Parke|The Effect of Dietary Cadmium on Zinc, Copper and Iron Levels in the Bone of Rats|Toxicol. Lett.5(2): 105-108|1980|10.1016/0378-4274(80)90157-5
79482|T||Hore,S.K., S.K. Maiti, H.V.S. Chauhan, N. Gupta, and K.M. Koley|Effect of Long Term Exposure of Mancozeb on Clinico-Haemato-Biochemical and Pathological Changes in Rats|Indian Vet. J.74(1): 26-28|1997|
79483|T||Poulos,B.K., M. Perazzolo, V.M.Y. Lee, R. Rudelli, H.M. Wisniewski, and D. Soifer|Oral Aluminum Administration During Pregnancy and Lactation Produces Gastric and Renal Lesions in Rat Mothers and Delay in CNS Development of Their Pups|Mol. Chem. Neuropathol.29(1): 15-26|1996|10.1007/BF02815190
79487|T||McCormack,K.M., L.D. Ottosen, V.L. Sanger, S. Sprague, G.H. Mayor, and J.B. Hook|Effect of Prenatal Administration of Aluminum and Parathyroid Hormone on Fetal Development in the Rat|Proc. Soc. Exp. Biol. Med.161(1): 74-77|1979|10.3181/00379727-161-40493
79488|T||Cao,J., X.G. Luo, P.R. Henry, C.B. Ammerman, R.C. Littell, and R.D. Miles|Effect of Dietary Iron Concentration, Age, and Length of Iron Feeding on Feed Intake and Tissue Iron Concentration of Broiler Chicks for Use as a Bioassay of Supplemental Iron Sources|Poult. Sci.75(4): 495-504|1996|10.3382/ps.0750495
79490|T||Watkins,K.L., D.B. Vagnoni, and L.L. Southern|Effect of Dietary Sodium Zeolite A and Excess Calcium on Growth and Tibia Calcium and Phosphorus Concentration in Uninfected and Eimeria acervulina-Infected Chicks|Poult. Sci.68(9): 1236-1240|1989|10.3382/ps.0681236
79491|T||Pescatore,A.J., and J.M. Harter-Dennis|Effects of Ferrous Sulfate Consumption on the Performance of Broiler Chicks|Poult. Sci.68(8): 1063-1067|1989|10.3382/ps.0681063
79492|T||Hussein,A.S., A.H. Cantor, T.H. Johnson, and R.A. Yokel|Effect of Dietary Aluminum Sulfate on Calcium and Phosphorus Metabolism of Broiler Chicks|Poult. Sci.69(6): 985-991|1990|10.3382/ps.0690985
79493|T||Ballard,R., and H.M.,Jr. Edwards|Effects of Dietary Zeolite and Vitamin A on Tibial Dyschondroplasia in Chickens|Poult. Sci.67(1): 113-119|1988|10.3382/ps.0670113
79494|T||Roland,D.A.,Sr.|Further Studies of Effects of Sodium Aluminosilicate on Egg Shell Quality|Poult. Sci.67(4): 577-584|1988|10.3382/ps.0670577
79495|T||Hahn,P.H.B., and W. Guenter|Effect of Dietary Fluoride and Aluminum on Laying Hen Performance and Fluoride Concentration in Blood, Soft Tissue, Bone, and Egg|Poult. Sci.65(7): 1343-1349|1986|10.3382/ps.0651343
79496|T||Fox,M.C., D.R. Brown, and L.L. Southern|Effect of Dietary Buffer Additions on Gain, Efficiency, Duodenal pH, and Copper Concentration in Liver of Eimeria acervulina-Infected Chicks|Poult. Sci.66(3): 500-504|1987|10.3382/ps.0660500
79497|T||Roland,D.A.,Sr., S.M. Laurent, and H.D. Orloff|Shell Quality as Influenced by Zeolite with high Ion-Exchange Capability|Poult. Sci.64(6): 1177-1187|1985|10.3382/ps.0641177
79498|T||Kincaid,A.L., and M.K. Stoskopf|Passerine Dietary Iron Overload Syndrome|Zoo Biol.6(1): 79-88|1987|10.1002/zoo.1430060109
79499|T||Kornegay,E.T., H.R. Thomas, and H.S. Bartlett|Phosphorus in Swine.  III.  Influence of Dietary Calcium and Phosphorus Levels and Growth Rate on Mineral Content of Hair from Gilts and Barrows or Boars|J. Anim. Sci.52(5): 1060-1069|1981|10.2527/jas1981.5251060x
79500|T||Ribiere,C., I. Hininger, H. Rouach, and R. Nordmann|Effects of Chronic Ethanol Administration on Free Radical Defence in Rat Myocardium|Biochem. Pharmacol.44(8): 1495-1500|1992|10.1016/0006-2952(92)90463-S
79501|T||Wu,X., S. Kannan, V.M.S. Ramanujam, and M.F. Khan|Iron Release and Oxidative DNA Damage in Splenic Toxicity of Aniline|J. Toxicol. Environ. Health Part A68(8): 657-666|2005|10.1080/15287390590921757
79502|T||Srivastava,S., S. Mishra, S. Dwivedi, V.S. Baghel, S. Verma, P.K. Tandon, U.N. Rai, and R.D. Tripathi|Nickel Phytoremediation Potential of Broad Bean, Vicia faba L. and Its Biochemical Responses|Bull. Environ. Contam. Toxicol.74(4): 715-724|2005|10.1007/s00128-005-0641-z
79503|T||Belden,J.B., T.A. Phillips, B.W. Clark, and J.R. Coats|Toxicity of Pendimethalin to Nontarget Soil Organisms|Bull. Environ. Contam. Toxicol.74(4): 769-776|2005|10.1007/s00128-005-0648-5
79504|T||Pramanik,S.K., S. Dutta, J. Bhattacharyya, T. Saha, P.K. Dey, S. Das, and A. Bhattacharyya|Persistence of Profenofos Residue on Tea Under Northeast Indian Climatic Conditions|Bull. Environ. Contam. Toxicol.74(4): 645-651|2005|10.1007/s00128-005-0632-0
79505|T||Tan,J.K., F.X. Kong, H.S. Cao, Y. Yu, and X.B. Han|Effects of Acid Precipitation and Aluminum on Carbohydrate Metabolism in Mycorrhizae of Pinus massioniana|Bull. Environ. Contam. Toxicol.74(3): 614-622|2005|10.1007/s00128-005-0628-9
79506|T||Mukherjee,I., and M. Gopal|Evaluation of Fentrazamide for Weed Control and Estimation of Its Residues in Rice|Bull. Environ. Contam. Toxicol.74(4): 667-672|2005|10.1007/s00128-005-0635-x
79507|T||Vajpayee,P., U.N. Rai, M.B. Ali, R.D. Tripathi, A. Kumar, and S.N. Singh|Possible Involvement of Oxidative Stress in Copper Induced Inhibition of Nitrate Reductase Activity in Vallisneria spiralis L.|Bull. Environ. Contam. Toxicol.74(4): 745-754|2005|10.1007/s00128-005-0645-8
79508|T||Lin,A.J., Y.G. Zhu, Y.P. Tong, and C.N. Geng|Evaluation of Genotoxicity of Combined Pollution by Cadmium and Atrazine|Bull. Environ. Contam. Toxicol.74(3): 589-596|2005|10.1007/s00128-005-0624-0
79509|T||Koshakji,R.P., and A.R. Schulert|Biochemical Mechanisms of Salicylate Teratology in the Rat|Biochem. Pharmacol.22:407-416|1973|10.1016/0006-2952(73)90421-8
79510|T||Stevens,J.T., C.B. Breckenridge, L. Wetzel, A.K. Thakur, C. Liu, C. Werner, L.G. Luempert III, and J.C. Eldridge|A Risk Characterization for Atrazine:  Oncogenicity Profile|J. Toxicol. Environ. Health Part A56(2): 69-109|1999|10.1080/009841099158169
79511|T||Aladesanwa,R.D., A.R. Adenawoola, and O.G. Olowolafe|Effects of Atrazine Residue on the Growth and Development of Celosia (Celosia argentea) Under Screenhouse Conditions in Nigeria|Crop Prot.20(4): 321-324|2001|10.1016/S0261-2194(00)00159-9
79513|T||Watanabe,M., N. Mitani, N. Ishii, and K. Miki|A Mutation in a Cuticle Collagen Causes Hypersensitivity to the Endocrine Disrupting Chemical, Bisphenol A, in Caenorhabditis elegans|Mutat. Res.570(1): 71-80|2005|10.1016/j.mrfmmm.2004.10.005
79514|T||Centre Nicolas Grillet|Initial Submission:  Subchronic Oral Toxicity and Metabolism of Aluminum tris (Ethyl Phosphonate) in the Rat with Cover Letter Dated 09/08/92|EPA/OTS Doc.#88-920009362:|1992|
79515|T||Schmuck,R.|Effects of a Chronic Dietary Exposure of the Honeybee Apis mellifera (Hymenoptera: Apidae) to Imidacloprid|Arch. Environ. Contam. Toxicol.47(4): 471-478|2004|10.1007/s00244-004-3057-6
79516|T||Nielsen,F.H.|Studies on the Interaction Between Nickel and Iron During Intestinal Absorption|In: A.Manfred (Ed.), 4th Spurenelem Symp., Fredrich-Schiller Univ., Jena, Ger.Dem.Rep.:11-18|1983|
79517|T||Makled,M.N., A.M. El-Gammal, and A.A. Faltas|Dietary Oxytetracycline and Its Effect on Mineral Retention in Chicken Organism (with Four Tables)|Assiut Vet. Med. J.4(8): 193-201|1978|
79518|T||Gomez,M., J.L. Domingo, and J.M. Llobet|Developmental Toxicity Evaluation of Oral Aluminum in Rats:  Influence of Citrate|Neurotoxicol. Teratol.13(3): 323-328|1991|10.1016/0892-0362(91)90078-B
79520|T||Hewitt,C.D., D.J. Innes, M.M. Herman, J. Savory, and M.R. Wills|Hematological Changes After Long-Term Aluminum Administration to Normal Adult Rabbits|Ann. Clin. Lab. Sci.22(2): 85-94|1992|
79521|T||Wills,M.R., C.D. Hewitt, B.C. Sturgill, J. Savory, and M.M. Herman|Long-Term Oral or Intravenous Aluminum Administration in Rabbits.  I.  Renal and Hepatic Changes|Ann. Clin. Lab. Sci.23(1): 1-16|1993|
79522|T||Wills,M.R., C.D. Hewitt, J. Savory, and M.M. Herman|Long-Term Oral Aluminum Administration in Rabbits.  II.  Brain and Other Organs|Ann. Clin. Lab. Sci.23(1): 17-23|1993|
79523|T||Malini,R., K.G. Mukerji, and T.A. Venkitasubramanian|Effect of Aluminum and Nickel on Aflatoxin Production by Aspergillus flavus|Folia Microbiol. (Prague)29(2): 104-107|1984|10.1007/BF02872924
79524|T||Misawa,T., and S. Shigeta|Behavioral Effects of Repeated Aluminum Administration in the Rat|Tokai J. Exp. Clin. Med.17(5-6): 155-159|1992|
79526|T||Yano,I., M. Nishiyama, Y. Ozaki, W.W. Cheng, M. Yasui, and Y. Yase|Experimental Neurological and Behavioral Study of IDPN and Aluminum in Mice.  2nd Report:  Effects of IDPN and Aluminum on the Peripheral Nervous System|Wakayama Med.Rep.32(2): 53-60|1990|
79527|T||Soto-Blanco,B., and S.L. Gorniak|Prenatal Toxicity of Cyanide in Goats -- a Model for Teratological Studies in Ruminants|Theriogenology62(6): 1012-1026|2004|10.1016/j.theriogenology.2003.12.023
79529|T||Nielsen,F.H., K.E. Uhrich, T.R. Shuler, and E.O. Uthus|Influence of Vanadium Deprivation on Hematopoiesis and Other Biochemical Parameters in Iron-Deprived and Adequate Rats|In: A.Manfred (Ed.), 4th Spurenelem Symp., Friedrich-Schiller Univ., Jena, Ger.Dem.Rep.:127-134|1983|
79530|A||Ferguson,E.A.|Biochemistry and Physiology of Silver Toxicity to Rainbow Trout:  Effects on Ionoregulation, Smoltification, and Seawater Survival|Ph.D.Thesis, University of Kentucky, Lexington, KY:149 p.|1999|
79531|T||Roland,D.A.,Sr., and P.E. Dorr|Beneficial Effect of Synthetic Sodium Aluminosilicate on Feed Efficiency and Performance of Commercial Leghorns|Poult. Sci.68(9): 1241-1245|1989|10.3382/ps.0681241
79532|T||Roland,D.A.,Sr., D.G. Barnes, and S.M. Laurent|Influence of Sodium Aluminosilicate, Hydroxy-Sodalite, Carnegieite, Aluminum Sulfate, and Aluminum Phosphate on Performance of Commercial Leghorns|Poult. Sci.70(4): 805-811|1991|10.3382/ps.0700805
79533|T||Fethiere,R., R.D. Miles, and R.H. Harms|Influence of Synthetic Sodium Aluminosilicate on Laying Hens Fed Different Phosphorus Levels|Poult. Sci.69(12): 2195-2198|1990|10.3382/ps.0692195
79534|T||Rossi,A.F., R.D. Miles, and R.H. Harms|Influence of Aluminum on Phosphorus Availability in Laying Hen Diets|Poult. Sci.69(12): 2237-2240|1990|10.3382/ps.0692237
79535|T||Roland,D.A.,Sr.|The Relationship of Dietary Phosphorus and Sodium Aluminosilicate to the Performance of Commercial Leghorns|Poult. Sci.69(1): 105-112|1990|10.3382/ps.0690105
79536|T||Hussein,A.S., A.H. Cantor, T.H. Johnson, and R.A. Yokel|Relationship of Dietary Aluminum, Phosphorus, and Calcium to Phosphorus and Calcium Metabolism and Growth Performance of Broiler Chicks|Poult. Sci.69(6): 966-971|1990|10.3382/ps.0690966
79538|T||Lipstein,B., and S. Hurwitz|The Effect of Aluminum on the Phosphorus Availability in Algae-Containing Diets|Poult. Sci.61:951-954|1982|10.3382/ps.0610951
79539|T||Farrow,G., A.S. Glassman, P. Vohra, and F.H. Kratzer|Effect of high Fat and Iron Levels on the Growth and Mortality of Chickens|Poult. Sci.62(1): 85-90|1983|10.3382/ps.0620085
79540|T||Domingo,J.L., J.L. Paternain, J.M. Llobet, and J. Corbella|Effects of Oral Aluminum Administration on Perinatal and Postnatal Development in Rats|Res. Commun. Chem. Pathol. Pharmacol.57(1): 129-132|1987|
79541|T||Domingo,J.L., J.M. Llobet, M. Gomez, J.M. Tomas, and J. Corbella|Nutritional and Toxicological Effects of Short-Term Ingestion of Aluminum by the Rat|Res. Commun. Chem. Pathol. Pharmacol.56(3): 409-419|1987|
79542|T||Thorne,B.M., T. Donohoe, K.N. Lin, S. Lyon, D.M. Medeiros, and M.L. Weaver|Aluminum Ingestion and Behavior in the Long-Evans Rat|Physiol. Behav.36(1): 63-67|1986|10.1016/0031-9384(86)90074-0
79543|T||Esparza,J.L., M. Gomez, J.L. Domingo, and J. Corbella|Effects of Age and Chelation Therapy on Tissue Concentrations of Essential Elements in Aluminum-Loaded Rats|Trace Elem. Electrolytes17(2): 102-108|2000|
79544|T||Rabon,H.W.,Jr., D.A.,Sr. Roland, M. Bryant, D.G. Barnes, and S.M. Laurent|Influence of Sodium Zeolite A with and Without Pullet-Sized Limestone or Oyster Shell on Eggshell Quality|Poult. Sci.70(9): 1943-1947|1991|10.3382/ps.0701943
79545|T||Elliot,M.A., and H.M.,Jr. Edwards|Comparison of the Effects of Synthetic and Natural Zeolite on Laying Hen and Broiler Chicken Performance|Poult. Sci.70(10): 2115-2130|1991|10.3382/ps.0702115
79546|T||Elliot,M.A., and H.M.,Jr. Edwards|Some Effects of Dietary Aluminum and Silicon on Broiler Chickens|Poult. Sci.70(6): 1390-1402|1991|10.3382/ps.0701390
79547|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-56 (Propylene Glycol)|FDABF-GRAS-141, Food and Drug Res.Lab.Inc., East Orange, NJ:56 p.|2005|
79548|T||Johnson,G.V.W., A.L.,Jr. Watson, R. Lartius, E. Uemura, and R.S. Jope|Dietary Aluminum Selectively Decreases MAP-2 in Brains of Developing and Adult Rats|Neurotoxicology13(2): 463-474|1992|
79549|T||Solomon,P.R., T.M. Pingree, D. Baldwin, D. Koota, D.P. Perl, and W.W. Pendlebury|Disrupted Retention of the Classically Conditioned Nictitating Membrane Response in Rabbits with Aluminum-Induced Neurofibrillary Degeneration|Neurotoxicology9(2): 209-222|1988|
79550|T||Nicholls,D.M., G.M. Speares, S. Asina, and A.C.M. Miller|Brain mRNA from Infants of Aluminium-Exposed Lactating Rabbits|Int. J. Biochem. Cell Biol.27(4): 365-370|1995|10.1016/1357-2725(94)00091-O
79551|T||Magee,A.C., and S.C. Fu|Effect of the Total Cationic Environment on Trace Mineral Availability in Young Rats|Nutr. Rep. Int.19(5): 649-659|1979|
79552|T||Lai,J.C.K., A.W.K. Chan, T.K.C. Leung, M.J. Minski, and L. Lim|Neurochemical Changes in Rats Chronically Treated with a high Concentration of Manganese Chloride|Neurochem. Res.17(9): 841-847|1992|10.1007/BF00993259
79554|T||Commissaris,R.L., J.J. Cordon, S. Sprague, J. Keiser, G.H. Mayor, and R.H. Rech|Behavioral Changes in Rats After Chronic Aluminum and Parathyroid Hormone Administration|Neurobehav. Toxicol. Teratol.4(3): 403-410|1982|
79555|T||De Boni,U., A. Otvos, J.W. Scott, and D.R. Crapper|Neurofibrillary Degeneration Induced by Systemic Aluminum|Acta Neuropathol.35(4): 285-294|1976|
79556|T||Kirchgessner,M., A. Reichlmayr-Lais, and R. Maier|Ni Retention and Concentrations of Fe and Mn in Tissues Resulting from Different Ni Supply|In: Mills,C.F., Bremmer,I.,Chesters,J.K.(Eds.),Trace Elem.Man Anim.-TEMA, Proc.5th Int.Symp., Publisher: CAB, Farnham Royals, Slough, UK:147-151|1985|
79557|T||Sugawara,C., and N. Sugawara|Increases of Serum Phosphorus Concentration and Duodenal, Renal and Femur Alkaline Phosphatase (EC 3.1.3.1) Activities of Normal Rats Fed 2000 ppm Aluminum Diets|Toxicol. Lett.42(1): 39-46|1988|10.1016/0378-4274(88)90100-2
79559|T||Hackenberg,U.|Chronic Ingestion by Rats of Standard Diet Treated with Aluminum Phosphide|Toxicol. Appl. Pharmacol.23(1): 147-158|1972|10.1016/0041-008X(72)90214-1
79560|T||Connor,D.J., R.S. Jope, and L.E. Harrell|Chronic, Oral Aluminum Administration to Rats:  Cognition and Cholinergic Parameters|Pharmacol. Biochem. Behav.31(2): 467-474|1988|10.1016/0091-3057(88)90375-9
79562|T||Bernuzzi,V., D. Desor, and P.R. Lehr|Developmental Alterations in Offspring of Female Rats Orally Intoxicated by Aluminum Chloride or Lactate During Gestation|Teratology40(1): 21-27|1989|10.1002/tera.1420400104
79563|T||Clauberg,M., and J.G. Joshi|Effects of Prolonged Chronic Dietary Treatment with AlCl3 on Selected Metabolisms and Memory in Rats|Ann. N. Y. Acad. Sci.648:289-290|1992|10.1111/j.1749-6632.1992.tb24559.x
79564|T||Smith,I.M., R. Hill, and S.T. Licence|Enhancement of Survival in Acute Experimental Fowl Typhoid in Chicks by the Administration of Iron Dextran|Res. Vet. Sci.22(2): 151-157|1977|10.1016/S0034-5288(18)33279-X
79565|T||Smith,I.M., S.T. Licence, and R. Hill|Effect of Repeated Injections of Iron Dextran on the Haematological, Serological and Pathological Changes in Experimental Avian Tuberculosis|Res. Vet. Sci.25(3): 284-289|1978|10.1016/S0034-5288(18)32940-0
79566|T||Harry,E.G.|Increase in Resistance to Acute Experimental Coli-septicemia in Chicks Given High Levels of Ferrous Sulfate in the Diet|Res. Vet. Sci.27(2): 175-179|1979|10.1016/S0034-5288(18)32824-8
79567|T||Leighton,M.J., A. Bhabuta, and R. Hill|Comparison of the Retention in Chicks and Mice of 59Fe Given Orally as Chloride, Ethylene Diamine Tetra-acetate or Nitrilotriacetate and in Chicks Given Diets Composed of Conventional Ingredients or Semi-purified Nutrie|Res. Vet. Sci.49(2): 138-143|1990|10.1016/S0034-5288(18)31066-X
79568|T||Rennie,J.S., C.C. Whitehead, and A. Montanari|Effects of Dietary Borate and Aluminate on Riboflavin Metabolism in the Breeding Hen|Res. Vet. Sci.49(2): 253-255|1990|10.1016/S0034-5288(18)31089-0
79569|T||Szilagyi,M., J. Bokori, S. Fekete, F. Vetesi, M. Albert, and I. Kadar|Effects of Long-Term Aluminum Exposure on Certain Serum Constituents in Broiler Chickens|Eur. J. Clin. Chem. Clin. Biochem.32(6): 485-486|1994|
79570|T||Lien,T.F., Y.M. Horng, and K.H. Yang|Performance, Serum Characteristics, Carcase Traits and Lipid Metabolism of Broilers as Affected by Supplement of Chromium Picolinate|Br. Poult. Sci.40(3): 357-363|1999|10.1080/00071669987458
79571|T||Smith,I.M., R. Hill, and S.T. Licence|Increased Survival from Acute Salmonella gallinarum Infection in Chicks Given Diets with high Levels of Some Forms of Iron|Res. Vet. Sci.23(3): 263-268|1977|10.1016/S0034-5288(18)33115-1
79572|T||Hathcock,J.N., and M.M. Labadan|Toxicity of Mimosine and Leucaena leucocephala Extracts to Chicken Embryos|Nutr. Rep. Int.11(1): 63-69|1975|
79573|T||Muller,G., V. Bernuzzi, D. Desor, M.F. Hutin, D. Burnel, and P.R. Lehr|Developmental Alterations in Offspring of Female Rats Orally Intoxicated by Aluminum Lactate at Different Gestation Periods|Teratology42(3): 253-261|1990|10.1002/tera.1420420309
79574|T||Shah,B.G., and B. Belonje|Marginal or Excess Dietary Iron and Rat Tissue Trace Element Levels|Trace Elem. Med.8(3): 143-148|1991|
79577|T||Alsobayel,A.A., and N.A. Alkhateeb|Evaluation of High Dietary Aluminum as a Force Resting Agent in Laying Hens|Arab Gulf J. Sci. Res.10(3): 81-92|1992|
79578|T||Stevens,B.J., G.L. Willis, T.J. Humphery, R.C. Atkins, G.C. Smith, and D.L. Copolov|The Influence of Fluoride on Tissue Aluminium and Behaviour in the Rat|Proc. 2nd Int. Conf. , Chem. Toxicol. Clin. Chem. Met. , Montreal, Canada, July 19-23, 1983:365-368|1983|
79579|T||Julshamn,K., F. Utne, and O.R. Braekkan|Interactions of Cadmium with Copper, Zinc and Iron in Different Organs and Tissues of the Rat|Acta Pharmacol. Toxicol.41(5): 515-524|1977|10.1111/j.1600-0773.1977.tb02163.x
79580|T||Stein,G., V. Laske, A. Muller, W. Linss, K. Winnefeld, C. Fleck, and H. Braunlich|Effect of Aluminum on Rat Liver and Kidney Lysosomes|Trace Elem. Med.6(2): 75-81|1989|
79581|T||Petit,T.L., G.B. Biederman, P. Jonas, and J.C. LeBoutillier|Neurobehavioral Development Following Aluminum Administration in Infant Rabbits|Exp. Neurol.88(3): 640-651|1985|10.1016/0014-4886(85)90077-9
79582|T||Petit,T.L., G.B. Biederman, and P.A. McMullen|Neurofibrillary Degeneration, Dendritic Dying Back, and Learning-Memory Deficits After Aluminum Administration:  Implications for Brain Aging|Exp. Neurol.67(1): 152-162|1980|10.1016/0014-4886(80)90166-1
79585|T||Cranmer,J.M., M.F. Cranmer, and P.T. Goad|Prenatal Chlordane Exposure:  Effects on Plasma Corticosterone Concentrations over the Lifespan of Mice|Environ. Res.35(1): 204-210|1984|10.1016/0013-9351(84)90128-2
79587|T||Konishi,Y., K. Yagyu, H. Kinebuchi, N. Saito, T. Yamaguchi, and Y. Ohtsuki|Chronic Effect of Aluminium Ingestion on Bone in Calcium-Deficient Rats|Pharmacol. Toxicol.78(6): 429-434|1996|10.1111/j.1600-0773.1996.tb00231.x
79588|T||Bilkei-Gorzo,A.|Effect of Chronic Treatment with Aluminum Compound on Rat Brain Choline Acetyltransferase Activity|Pharmacol. Toxicol.74(6): 359-360|1994|10.1111/j.1600-0773.1994.tb01373.x
79589|T||Belles,M., M.L. Albina, D.J. Sanchez, and J.L. Domingo|Lack of Protective Effects of Dietary Silicon on Aluminium-Induced Maternal and Developmental Toxicity in Mice|Pharmacol. Toxicol.85(1): 1-6|1999|10.1111/j.1600-0773.1999.tb01055.x
79590|T||Dlugaszek,M., M.A. Fiejka, A. Graczyk, J.C. Aleksandrowicz, and M. Slowikowska|Effects of Various Aluminium Compounds Given Orally to Mice on Al Tissue Distribution and Tissue Concentrations of Essential Elements|Pharmacol. Toxicol.86(3): 135-139|2000|10.1034/j.1600-0773.2000.pto860308.x
79591|T||Colomina,M.T., M. Gomez, J.L. Domingo, and J. Corbella|Lack of Maternal and Developmental Toxicity in Mice Given high Doses of Aluminium Hydroxide and Ascorbic Acid During Gestation|Pharmacol. Toxicol.74(4-5): 236-239|1994|10.1111/j.1600-0773.1994.tb01104.x
79592|T||Jope,R.S., and G.V.W. Johnson|Neurotoxic Effects of Dietary Aluminium|Ciba Found. Symp.169:254-262|1992|
79593|T||Ivan,M., M. Ihnat, and M. Hidiroglou|Effects of Nitrilotriacetic Acid on Apparent Absorption and Duodenal Flow of Manganese, Iron, Zinc and Copper in Sheep|Can. J. Anim. Sci.59(2): 273-281|1979|10.4141/cjas79-033
79594|T||Brandt,A., and H. Mejborn|The Effect of Iron Supplementation on Mink Kits|Scientifur11(4): 331-338|1987|
79595|T||Carlisle,E.M., and M.J. Curran|Aluminum:  An Essential Element for the Chick|In: M.Anke, D.Meissner, C.F.Mills (Eds.), Trace Elelments in Man and Animals - TEMA 8:695-698|1993|
79596|T||Yen-Koo,H.C.|The Effect of Aluminum on Conditioned Avoidance Response (CAR) in Mice|Toxicol. Ind. Health8(1-2): 1-7|1992|10.1177/074823379200800101
79597|T||Golub,M.S., B. Han, C.L. Keen, and M.E. Gershwin|Developmental Patterns of Aluminum in Mouse Brain and Effects of Dietary Aluminum Excess on Manganese Deficiency|Toxicology81(1): 33-47|1993|10.1016/0300-483X(93)90154-K
79598|T||Cho,S., and J.G. Joshi|Effect of Long-Term Feeding of Aluminium Chloride on Hexokinase and Glucose-6-Phosphate Dehydrogenase in the Brain|Toxicology48(1): 61-69|1988|10.1016/0300-483X(88)90059-5
79599|T||Chmielnicka,J., M. Nasiadek, and E. Lewandowska-Zyndul|The Effect of Aluminum Chloride on Some Steps of Heme Biosynthesis in Rats After Oral Exposure|Biol. Trace Elem. Res.40(2): 127-136|1994|10.1007/BF02950786
79600|T||Rabe,A., M.H. Lee, J. Shek, and H.M. Wisniewski|Learning Deficit in Immature Rabbits with Aluminum-Induced Neurofibrillary Changes|Exp. Neurol.76(2): 441-446|1982|10.1016/0014-4886(82)90220-5
79601|T||Lipstein,B., and S. Bornstein|The Effect of Dietary Iron on Gossypol Derived from Cottonseed-Oil Soapstock.  Gossypol and Ferrous Sulfate in Chick Diets|Feedstuffs44(2): 31-32|1972|
79602|T||Featherston,W.R., T.J. Pockat, and J. Wallace|Radioactive Iron Absorption and Retention by Chicks Fed Different Levels of Dietary Iron|Poult. Sci.47(3): 946-950|1968|10.3382/ps.0470946
79604|T||Fritz,J.C., G.W. Pla, and J.W. Boehne|Influence of Chelating Agents on Utilization of Calcium, Iron and Manganese by the Chick|Poult. Sci.50(5): 1444-1450|1971|10.3382/ps.0501444
79605|T||Edwards,H.M.,Jr., and K.W. Washburn|59Fe Absorption by Chickens|Poult. Sci.47(1): 337-338|1968|10.3382/ps.0470337
79606|T||Storer,N.L., and T.S. Nelson|The Effect of Various Aluminum Compounds on Chick Performance|Poult. Sci.47(1): 244-247|1968|10.3382/ps.0470244
79607|T||Morck,T.A., and R.E. Austic|Iron Requirements of White Leghorn Hens|Poult. Sci.60(7): 1497-1503|1981|10.3382/ps.0601497
79608|T||Quarles,C.L., D.L. Sharkey, and D.J. Fagerberg|Evaluation of an Organic Iron Product (F4C-60) in Broiler Diets|Poult. Sci.59(3): 664-665|1980|10.3382/ps.0590664
79609|T||Smith,T.W.,Jr., J.R. Couch, R.L. Garrett, and C.R. Creger|The Effect of Sex, Dietary Energy, Meat Protein, Ascorbic Acid and Iron on Broiler Skin Collagen|Poult. Sci.56(4): 1216-1220|1977|10.3382/ps.0561216
79610|T||Cakir,A., T.W. Sullivan, and F.J. Struwe|Effect of Supplemental Aluminum on the Value of Fertilizer Phosphates in Turkey Diets|Poult. Sci.56(2): 544-549|1977|10.3382/ps.0560544
79611|T||Miski,A.M.A., and F.H. Kratzer|Effect of Dietary Ascorbic Acid on Iron Utilization in the Growing Chick|Poult. Sci.55(1): 454-456|1976|10.3382/ps.0550454
79612|T||McNaughton,J.L., B.C. Dilworth, and E.J. Day|Effect of Diet on Response to Iron Supplementation|Poult. Sci.53(4): 1640-1641|1974|10.3382/ps.0531325
79613|T||Donald,J.M., M.S. Golub, M.E. Gershwin, and C.L. Keen|Neurobehavioral Effects in Offspring of Mice Given Excess Aluminum in Diet During Gestation and Lactation|Neurotoxicol. Teratol.11(4): 345-351|1989|10.1016/0892-0362(89)90005-6
79615|A||De Filippis,L.F., R. Hampp, and H. Ziegler|The Effects of Sublethal Concentrations of Zinc, Cadmium and Mercury on Euglena. Growth and Pigments|Z. Pflanzenphysiol. (Multiple Languages)101:37-47|1981|10.1016/S0044-328X(81)80059-1
79616|T||Taneda,M.|Effect of Aluminum on Rat Brain.  Enhancement by Calcium Deficiency|Hokkaido Igaku Zasshi59(3): 312-337|1984|
79617|T||Johnson,C.D., and C.M. Weaver|Effect of Previous Diet on Iron Absorption from an Intrinsically Labeled Soy Flour Testmeal|Nutr. Rep. Int.28(5): 1129-1135|1983|
79618|T||Gruden,N., and M. Buben|Iron-59 and Manganese-54 Metabolism in Suckling Rats Pretreated with Iron-Fortified Milk|Nutr. Rep. Int.24(5): 943-950|1981|
79620|T||Reichlmayr-Lais,A.M., K.N. Stockl, and M. Kirchgessner|Effect of Dietary Lead Intake on Lead Retention in Adult Rats|J. Trace Elem. Electrolytes Health Dis.2(3): 153-155|1988|
79621|T||King,G.A., U. De Boni, and D.R. Crapper|Effect of Aluminum upon Conditioned Avoidance Response Acquisition in the Absence of Neurofibrillary Degeneration|Pharmacol. Biochem. Behav.3(6): 1003-1009|1975|10.1016/0091-3057(75)90008-8
79622|A||Sinniah,B., L. Ramphal, and J. Ibrahim|Field Trial of Decyl, Undecyl and Dodecyl Alcohols for the Control of Culicine Mosquito Larvae|Mosq. Borne Dis. Bull.11(4): 111-115|1994|
79623|T||Martin,A.K., G.C. Johnson, D.F. McCarthy, and R.B. Filson|Attempts to Control Lichens on Asbestos Cement Roofing|Int. Biodeterior. Biodegrad.30(4): 261-271|1992|10.1016/0964-8305(92)90032-J
79624|T||Parent,R.A., H.E. Caravello, and J.E. Long|Oncogenicity Study of Acrolein in Mice|J. Am. Coll. Toxicol.10(6): 647-659|1991|10.3109/10915819109078657
79625|T||Cohen,S.M., E.M. Garland, M. St.John, T. Okamura, and R.A. Smith|Acrolein Initiates Rat Urinary Bladder Carcinogenesis|Cancer Res.52(3): 3577-3581|1992|
79626|A||Leon,R., M. Martin, J. Vigara, C. Vilchez, and J.M. Vega|Microalgae Mediated Photoproduction of beta-Carotene in Aqueous-Organic Two Phase Systems|Biomol. Eng.20(4-6): 177-182|2003|10.1016/S1389-0344(03)00048-0
79627|A||Cline,R.E.|Lethal Effects of Aqueous Formulations Containing Fatty Amines or Acids Against Eggs and Larvae of Aedes aegypti|J. Econ. Entomol.65(1): 177-181|1972|10.1093/jee/65.1.177
79628|T||Kar,K., S.K. Bajpai, and B.N. Dhawan|Effect of Metal Complexes on Passive Cutaneous Anaphylactic Reaction (PCA) in Mice|Indian J. Exp. Biol.19(12): 1187-1189|1981|
79630|T||Vogel,E.W., and M.J.M. Nivard|Performance of 181 Chemicals in a Drosophila Assay Predominantly Monitoring Interchromosomal Mitotic Recombination|Mutagenesis8(1): 57-81|1993|10.1093/mutage/8.1.57
79631|T||Gruden,N.|The Influence of Iron on Manganese Metabolism in the First Three Weeks of Rat's Life|Nutr. Rep. Int.30(3): 553-557|1984|
79632|T||Yano,I., M. Nishiyama, Y. Ozaki, W.W. Zheng, M. Yasui, and Y. Yase|Experimental Neurological and Behavioral Study of IDPN and Aluminum in Mice.  First Report:  Effects of IDPN and Aluminum on the Central Nervous System of Mice|Wakayama Med.Rep.32(1): 1-9|1990|
79633|T||Price,J., and W.R. Humphries|Investigation of the Effect of Supplementary Zinc on Growth Rate of Beef Cattle on Farms in N. Scotland|J. Agric. Sci.95:135-139|1980|10.1017/S0021859600029361
79634|T||Elliott,R.J., and N. Walker|Effect of Dietary Zinc on the Growth Rate and on the Zinc and Pigment Contents of Blood and Muscle in the Pig|Ir. J. Agric. Res.7(1): 131-133|1968|
79635|T||Eltohamy,M.M., H. Takahara, and M. Okamoto|Effects of Dietary Zinc Levels on the Histological Changes Produced in White Leghorn Cockerels|J. Fac. Agric. Kyushu Univ.24(1): 11-20|1979|10.5109/23692
79636|T||Khanagwal,P., A.B. Mandal, and J.D. Ghosh|Effect of Dietary Calcium and Zinc Levels and Coccidial Infection on Carcass Traits in Broilers|Indian J. Poult. Sci.33(3): 289-296|1998|
79638|T||Hoyt,J.K., G.D. Potter, L.W. Greene, and J.G.,Jr. Anderson|Copper Balance in Miniature Horses Fed Varying Amounts of Zinc|J. Equine Vet. Sci.15(8): 357-359|1995|10.1016/S0737-0806(07)80547-8
79639|T||Tantcheva,L., T. Stoytchev, E. Mehandjieva, and L. Tivcheva|Liver and Kidney Monooxygenase Activity in Rats Subchronically Treated with Zn and Pb Salts and Their Combination|Methods Find. Exp. Clin. Pharmacol.15(10): 715-719|1993|
79640|T||Omole,T.A., and J.P. Bowland|Copper and Zinc Supplementation of Pig Diets Containing Soybean Meal or Rapeseed Meal (Brassica campestris cv. Span)|Can. J. Anim. Sci.54:363-372|1974|10.4141/cjas74-049
79641|T||Hoekstra,W.G., I. Bremner, and N.T. Davies|Effect of Zinc Status of Rats on the Synthesis and Degradation of Copper-Induced Thioneins|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:52-56|1978|
79642|T||Bremner,I., W.G. Hoekstra, N.T. Davies, and R.B. Williams|Renal Accumulation of (Copper,Zinc)-Thioneins in Physiological and Pathological States|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:44-51|1978|
79643|T||Abdulla,M., S. Svensson, A. Mathur, and K. Wallenius|Effect of Age and Diet on delta-Aminolevulinic Acid Dehydratase-A Zinc Dependent Enzyme|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:64-67|1978|
79644|T||Giroux,E., N.J. Prakash, P.J. Schechter, and J. Wagner|Zinc and Copper Metabolism in Rats Administered alpha-Mercapto-beta-Arylacrylic Acids|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:68-71|1978|
79645|T||Whanger,P.D., M.J. Tripp, R.S. Black, and P.H. Weswig|Distribution of Selenium and Glutathione Peroxidases in Ovine Tissue Cytosols|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:85-88|1978|
79646|T||Coker,O.E., and A.T. Diplock|The Influence of Dietary Vitamin E and Selenium on the Metabolism of Selenium by Rat Liver|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:89-92|1978|
79647|T||Weigand,E., and M. Kirchgessner|Homeostatic Adaptation of Zn Absorption and Endogenous Zn Excretion over a Wide Range of Dietary Zn Supply|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:106-109|1978|
79648|A||Cardin,J.A.|Acute Toxicity Data for Zinc and the Saltwater Fish, Fundulus heteroclitus, Menidia menidia and Pseudopleuronectes americanus|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:5 p.|1985|
79649|T||Schwarz,F.J., and M. Kirchgessner|Studies on the Regulation of the Intestinal Absorption of Zinc|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:110-115|1978|
79650|T||Elmes,M.E.|The Effect of Injected Zinc on the Paneth Cell Population of the Rat Small Intestine|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:122-125|1978|
79651|T||Strain,W.H., W.J. Pories, E. Michael, R.M. Peer, and S.A. Zaresky|Age and Sex Effects on Trace Element Absorption from the Alimentary Tract|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:132-135|1978|
79653|T||Binnerts,W.T.|Endogenous Copper Loss in Cows:  Its Origin Mainly in the Stomach System|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:136-139|1978|
79654|T||Skalicky,M., A. Kment, I. Haider, and J. Leibetseder|Effects of Low and High Copper Intake on Copper Metabolism in Pigs|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:163-167|1978|
79655|T||Miller,W.J., R.L. Kincaid, M.W. Neathery, R.P. Gentry, M.S. Ansari, and J.W. Lassiter|Zinc Metabolim in Calves, Cows, Rats and Chicks Fed high Dietary Zinc|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:175-178|1978|
79656|T||Godwin,K.O., E.J. Partick, and C.N. Fuss|Adverse Effects of Copper, and to a Lesser Extent Iron, when Administered to Selenium-Deficient Rats|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:185-187|1978|
79657|T||Sandstead,H.H., G. Fosmire, E. Halas, D. Strobel, and J. Duerre|Zinc:  Brain and Behavioral Development|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:203-206|1978|
79658|T||Tengrup,I., J. Ahonen, F. Rank, and B. Zederfeldt|The Effect of Zinc Supply on Granulation Tissue in Young and Old Rats|In: M.Kirchgessner (Ed.), Trace Element Metabolism in Man and Animals-3, Freising, Federal Republic of Germany:350-353|1978|
79659|A||Rees,C.B.|Cloning and Expression Analysis of Atlantic Salmon (Salmo salar) CYP1A|M.S. Thesis, Michigan State University, East Lansing, MI:55 p.|2002|
79660|T||Coburn,C.G., E.R. Gillard, and M.C. Curras-Collazo|Dietary Exposure to Aroclor 1254 Alters Central and Peripheral Vasopressin Release in Response to Dehydration in the Rat|Toxicol. Sci.84:149-156|2005|10.1093/toxsci/kfi046
79661|T||Sommer,R.J., A.J. Hume, J.M. Ciak, J.J. Van Nostrand, M. Friggens, and M.K. Walker|Early Developmental 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure Decreases Chick Embryo Heart Chronotropic Response to Isoproterenol but not to Agents Affecting Signals Downstream of the beta-Adrenergic Receptor|Toxicol. Sci.83:363-371|2005|10.1093/toxsci/kfi041
79662|T||Williamson,M.A., T.A. Gasiewicz, and L.A. Opanashuk|Aryl Hydrocarbon Receptor Expression and Activity in Cerebellar Granule Neuroblasts:  Implications for Development and Dioxin Neurotoxicity|Toxicol. Sci.83:340-348|2005|10.1093/toxsci/kfi031
79663|T||Yoshizawa,K., N.J. Walker, M.P. Jokinen, A.E. Brix, D.M. Sells, T. Marsh, M.E. Wyde, D. Orzech, J.K. Haseman, and A. Ny|Gingival Carcinogenicity in Female Harlan Sprague-Dawley Rats Following Two-Year Oral Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Dioxin-Like Compounds|Toxicol. Sci.83(1): 64-77|2005|10.1093/toxsci/kfi016
79665|T||Meerts,I.A.T.M., S. Hoving, J.H.J. Van den Berg, B.M. Weijers, H.J. Swarts, E.M. Van der Beek, A. Bergman, J.H. Koeman,|Effects of In Utero Exposure to 4Hydroxy-2,3,3',4',5-Pentachlorobiphenyl (4-OH-CB107) on Developmental Landmarks, Steroid Hormone Levels, and Female Estrous Cyclicity in Rats|Toxicol. Sci.82(1): 259-267|2004|10.1093/toxsci/kfh251
79666|T||Simanainen,U., T. Haavisto, J.T. Tuomisto, J. Paranko, J. Toppari, J. Tuomisto, R.E. Peterson, and M. Viluksela|Pattern of Male Reproductive System Effects After In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Exposure in Three Differentially TCDD-Sensitive Rat Lines|Toxicol. Sci.80(1): 101-108|2004|10.1093/toxsci/kfh142
79667|T||Lu,Z., E.Y. Lee, L.W. Robertson, H.P. Glauert, and B.T. Spear|Effect of 2,2',4,4',5,5'-Hexachlorobiphenyl (PCB-153) on Hepatocyte Proliferation and Apoptosis in Mice Deficient in the p50 Subunit of the Transcription Factor NF-kB|Toxicol. Sci.81(1): 35-42|2004|10.1093/toxsci/kfh193
79668|T||Wyde,M.E., A.P.J.M. Braen, M. Hejmancik, J.D. Johnson, J.D. Toft, J.C. Blake, S.D. Cooper, J. Mahler, M. Vallant, J.R. |Oral and Dermal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induces Cutaneous Papillomas and Squamous Cell Carcinomas in Female Hemizygous Tg.AC Transgenic Mice|Toxicol. Sci.82:34-45|2004|10.1093/toxsci/kfh233
79669|T||Vorderstrasse,B.A., S.E. Fenton, A.A. Bohn, J.A. Cundiff, and B.P. Lawrence|A Novel Effect of Dioxin:  Exposure During Pregnancy Severely Impairs Mammary Gland Differentiation|Toxicol. Sci.78(2): 248-257|2004|10.1093/toxsci/kfh062
79670|A||Prasch,A.L., W. Heideman, and R.E. Peterson|ARNT2 is not Required for TCDD Developmental Toxicity in Zebrafish|Toxicol. Sci.82:250-258|2004|10.1093/toxsci/kfh235
79671|T||Zhang,W., B. Moorthy, M. Chen, K. Muthiah, R. Coffee, A.F. Purchio, and D.B. West|A Cyp1a2-Luciferase Transgenic CD-1 Mouse Model:  Responses to Aryl Hydrocarbons Similar to the Humanized AhR Mice|Toxicol. Sci.82:297-307|2004|10.1093/toxsci/kfh260
79672|T||Funatake,C.J., E.A. Dearstyne, L.B. Steppan, D.M. Shepherd, E.S. Spanjaard, A. Marshak-Rothstein, and N.I. Kerkvliet|Early Consequences of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on the Activation and Survival of Antigen-Specific T Cells|Toxicol. Sci.82:129-142|2004|10.1093/toxsci/kfh245
79673|T||Kato,Y., S. Ikushiro, K. Haraguchi, T. Yamazaki, Y. Ito, H. Suzuki, R. Kimura, S. Yamada, T. Inoue, and M. Degawa|A Possible Mechanism for Decrease in Serum Thyroxine Level by Polychlorinated Biphenyls in Wistar and Gunn Rats|Toxicol. Sci.81:309-315|2004|10.1093/toxsci/kfh225
79674|T||Bilrha,H., R. Roy, E. Wagner, M. Belles-Isles, J.L. Bailey, and P. Ayotte|Effects of Gestational and Lactational Exposure to Organochlorine Compounds on Cellular, Humoral, and Innate Immunity in Swine|Toxicol. Sci.77(1): 41-50|2004|10.1093/toxsci/kfg240
79675|T||Desaulniers,D., G.H. Xiao, K. Leingartner, I. Chu, B. Musicki, and B.K. Tsang|Comparisons of Brain, Uterus, and Liver mRNA Expression for Cytochrome P450s, DNA Methyltrasnferase-1, and Catechol-O-Methyltransferase in Prepubertal Female Sprague-Dawley Rats Exposed to a Mixture of Aryl Hydrocarbon |Toxicol. Sci.86(1): 175-184|2005|10.1093/toxsci/kfi178
79676|A||Handley-Goldstone,H.M., M.W. Grow, and J.J. Stegeman|Cardiovascular Gene Expression Profiles of Dioxin Exposure in Zebrafish Embryos|Toxicol. Sci.85:683-693|2005|10.1093/toxsci/kfi116
79677|A||Volz,D.C., D.C. Bencic, D.E. Hinton, J.M. Law, and S.W. Kullman|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induces Organ-Specific Differential Gene Expression in Male Japanese Medaka (Oryzias latipes)|Toxicol. Sci.85:572-584|2005|10.1093/toxsci/kfi109
79678|T||Seegal,R.F., K.O. Brosch, and R.J. Okoniewski|Coplanar PCB Congeners Increase Uterine Weight and Frontal Cortical Dopamine in the Developing Rat:  Implications for Developmental Neurotoxicity|Toxicol. Sci.86(1): 125-131|2005|10.1093/toxsci/kfi174
79679|T||Nishimura,N., J. Yonemoto, H. Nishimura, S.I. Ikushiro, and C. Tohyama|Disruption of Thyroid Hormone Homeostasis at Weaning of Holtzman Rats by Lactational but not In Utero Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Sci.85:607-614|2005|10.1093/toxsci/kfi122
79680|T||Fritz,W.A., T.M. Lin, R.W. Moore, P.S. Cooke, and R.E. Peterson|In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure:  Effects on the Prostate and Its Response to Castration in Senescent C57BL/6J Mice|Toxicol. Sci.86(2): 387-395|2005|10.1093/toxsci/kfi189
79681|T||Yang,Y.M., D.Y. Huang, G.F. Liu, J.C. Zhong, K. Du, Y.F. Li, and X.H. Song|Inhibitory Effects of Vitamin A on TCDD-Induced Cytochrome P-450 1A1 Enzyme Activity and Expression|Toxicol. Sci.85:727-734|2005|10.1093/toxsci/kfi130
79682|T||Yoshizawa,K., T. Marsh, J.F. Foley, B. Cai, S. Peddada, N.J. Walker, and A. Nyska|Mechanisms of Exocrine Pancreatic Toxicity Induced by Oral Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Female Harlan Sprague-Dawley Rats|Toxicol. Sci.85:594-606|2005|10.1093/toxsci/kfi121
79683|T||Boverhof,D.R., L.D. Burgoon, C. Tashiro, B. Chittim, J.R. Harkema, D.B. Jump, and T.R. Zacharewski|Temporal and Dose-Dependent Hepatic Gene Expression Patterns in Mice Provide new Insights into TCDD-Mediated Hepatotoxicity|Toxicol. Sci.85:1048-1063|2005|10.1093/toxsci/kfi162
79684|T||Croutch,C.R., M. Lebofsky, K.W. Schramm, P.F. Terranova, and K.K. Rozman|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and 1,2,3,4,7,8-Hexachlorodibenzo-p-Dioxin (HxCDD) Alter Body Weight by Decreasing Insulin-Like Growth Factor I (IGF-I) Signaling|Toxicol. Sci.85:560-571|2005|10.1093/toxsci/kfi106
79685|T||Miettinen,H.M., P. Pulkkinen, T. Jamsa, J. Koistinen, U. Simanainen, J. Tuomisto, J. Tuukkanen, and M. Viluksela|Effects of In Utero and Lactational TCDD Exposure on Bone Development in Differentially Sensitive Rat Lines|Toxicol. Sci.85:1003-1012|2005|10.1093/toxsci/kfi136
79686|A||Papoulias,D.M.|The Effects of Endocrine Disrupting Chemicals on the Sexual Development of Fish|Ph.D. Thesis, University of Missouri, Columbia, MO:200 p.|2002|
79687|A||Taylor,T.L., J.F. Karinen, and H.M. Feder|Response of the Clam, Macoma balthica (Linnaeus), Exposed to Prudhoe Bay Crude Oil as Unmixed Oil, Water-Soluble Fraction, and Sediment-Adsorbed Fraction in the Laboratory|In: Environmental Assessment of the Alaskan Continental Shelf, Volume 8, Effects of Contaminants, Principal Investigators Rep.for the Year Ending March 1976:49-87|1976|
79689|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-30 (Oil of Clove)|FDABF-GRAS-130, Food and Drug Res.Lab.Inc., East Orange, NJ:55 p.|1973|
79690|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-58 (dl-alpha Tocopherolacetate)|FDABF-GRAS-128, Food and Drug Res.Lab.Inc., East Orange, NJ:55 p.|1973|
79691|T||Golub,M.S., C.L. Keen, and M.E. Gershwin|Neurodevelopmental Effect of Aluminum in Mice:  Fostering Studies|Neurotoxicol. Teratol.14(3): 177-182|1992|10.1016/0892-0362(92)90013-Z
79692|T||Creasy,D.M., L.M. Beech, T.J.B. Gray, and W.H. Butler|The Ultrastructural Effects of Di-n-Pentyl Phthalate on the Testis of the Mature Rat|Exp. Mol. Pathol.46(3): 357-371|1987|10.1016/0014-4800(87)90056-6
79693|T||Brody,J.R., and G.R. Cunha|Histologic, Morphometric and Immunocytochemical Analysis of Myometrial Development in Rats and Mice:  II.  Effects of DES on Development|Am. J. Anat.186(1): 21-42|1989|10.1002/aja.1001860103
79695|T||Hansen,L.G., B.M. Francis, R.L. Metcalf, and J.H. Reinders|Neurotoxicity of Diallate and Triallate when Administered Orally or Topically to Hens|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(1): 97-111|1985|
79696|T||Meydani,M., and J.N. Hathcock|Effect of Dietary Methionine on Methylmercury and Atrazine Toxicity|Drug-Nutr. Interact.2(4): 217-233|1984|
79697|T||Nakagawa,L.E., L.C. Luchini, M.R. Musumeci, and M. Matallo|Behavior of Atrazine in Soils of Tropical Zone Degradation, Mobility and Uptake of Atrazine Residues from Soils in a Crop Rotation System (Maize/Beans)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(2): 203-224|1996|
79698|T||Pereira,J.L., A.A. Da Silva, M.C. Picanco, E.C. De Barros, and A. Jakelaitis|Effects of Herbicide and Insecticide Interaction on Soil Entomofauna Under Maize Crop|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 45-54|2005|
79699|T||George,S.E., J.C. Allison, L.R. Brooks, B.T. Eischen, M.J. Kohan, S.H. Warren, and L.C. King|Modulation of 2,6-Dinitrotoluene Genotoxicity by Alachlor Treatment of Fischer 344 Rats|Environ. Mol. Mutagen.31(3): 274-281|1998|10.1002/(SICI)1098-2280(1998)31:3<274::AID-EM9>3.0.CO;2-K
79700|T||Ivany,J.A., J.M. Sadler, E.R. Kimball, and K.B. McRae|Atrazine Persistence and Residue Effects on Rotation Crops|Can. J. Plant Sci.65(2): 363-368|1985|10.4141/cjps85-051
79701|T||Mahalle,S.S., and J. Seth|Effect of Weedicides and Nitrogen Levels on Nitrogen Uptake and Yield of Sorghum (Sorghum bicolor)|Indian J. Agric. Sci.59(6): 395-397|1989|
79702|T||Mascher,R., E. Nagy, B. Lippmann, S. Hornlein, S. Fischer, W. Scheiding, A. Neagoe, and H. Bergmann|Improvement of Tolerance to Paraquat and Drought in Barley (Hordeum vulgare L.) by Exogenous 2-Aminoethanol: Effects on Superoxide Dismutase Activity and Chloroplast Ultrastructure|Plant Sci.168(3): 691-698|2005|10.1016/j.plantsci.2004.09.036
79703|T||Drazic,G., and N. Mihailovic|Modification of Cadmium Toxicity in Soybean Seedlings by Salicylic Acid|Plant Sci.168(2): 511-517|2005|10.1016/j.plantsci.2004.09.019
79704|T||Lepiece,D., J.F. Salembier, and A. Thompson|Primus (Florasulam 50 G/L), a New Triazolopyrimidine Sulfonanilide Herbicide to Control Broad-Leaved Weeds in Maize when Applied in Early Postemergence (1 to 6 Leaf Stage of Maize).  Preliminary Results|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)66(2b): 681-704|2001|
79705|T||He,Z., J. Li, H. Zhang, and M. Ma|Different Effects of Calcium and Lanthanum on the Expression of Phytochelatin Synthase Gene and Cadmium Absorption in Lactuca sativa|Plant Sci.168(2): 309-318|2005|10.1016/j.plantsci.2004.07.001
79708|T||Ganassi,S., L. Mola, A.M. Bonvicini Pagliai, and B. Fratello|Effects of Atrazine on Corn Aphids|Ital. J. Zool.63(1): 47-51|1996|10.1080/11250009609356106
79709|T||Qadir,S., M.I. Qureshi, S. Javed, and M.Z. Abdin|Genotypic Variation in Phytoremediation Potential of Brassica juncea Cultivars Exposed to Cd Stress|Plant Sci.167(5): 1171-1181|2004|10.1016/j.plantsci.2004.06.018
79710|T||Eberbach,P.L., and L.A. Douglas|Effect of Herbicide Residues in a Sandy Loam on the Growth, Nodulation and Nitrogenase Activity (C2H2/C2H4) of Trifolium subterraneum|Plant Soil131(1): 67-76|1991|10.1007/BF00010421
79711|T||Kniewald,J., P. Mildner, and Z. Kniewald|Effects of s-Triazine Herbicides on Hormone-Receptor Complex Formation, 5alpha-Reductase and 3alpha-Hydroxysteroid Dehydrogenase Activity at the Anterior Pituitary Level|J. Steroid Biochem.11(1C): 833-838|1979|10.1016/0022-4731(79)90018-9
79712|T||Fernandez-Pascual,M., C. De Lorenzo, J.M. Pozuelo, and M.R. De Felipe|Alterations Induced by Four Herbicides on Lupine Nodule Cortex Structure, Protein Metabolism and Some Senescence-Related Enzymes|J. Plant Physiol.140(4): 385-390|1992|10.1016/S0176-1617(11)80812-6
79713|T||Bean,B.W., G. Piccinni, and C.D. Salisbury|Wheat Cultivar Tolerance to Atrazine|J. Prod. Agric.12(4): 596-600|1999|10.2134/jpa1999.0597
79714|T||Ferrero,A., S. Togni, and M. Taccheo Barbina|Behaviour of Microencapsulated Alachlor in Soil and in Maize|Meded. Fac. Landbouwwet. Rijksuniv. Gent58(3A): 819-825|1993|
79715|T||Dupont,S., and S.U. Khan|Bound and Extractable 14C Residues in Canola (Brassica napus) Plants Treated with Radiolabelled Atrazine|Weed Res. (Multiple Languages)33(1): 9-16|1993|10.1111/j.1365-3180.1993.tb01912.x
79716|T||Rajagopal,A., G. Velu, and K.B. Ravi|Effect of the Atrazine Residue Management on Weeds in the Maize-Soybean Cropping System|Int. J. Trop. Agric.12(1): 67-70|1994|
79717|T||Sandhu,K.S., T. Singh, and H.S. Gill|Herbicidal Control of Weeds in Pearl-Millet for Grain|J. Res. Punjab Agric. Univ.25(1): 32-34|1988|
79718|T||Cooper,R.J., P.C. Bhowmik, and L.A. Spokas|Root and Rhizome Growth of Kentucky Bluegrass Following Application of Pendimethalin|Hortscience25(1): 84-86|1990|10.21273/HORTSCI.25.1.84
79719|T||Iguchi,T., N. Takasugi, H.A. Bern, and K.T. Mills|Frequent Occurrence of Polyovular Follicles in Ovaries of Mice Exposed Neonatally to Diethylstilbestrol|Teratology34:29-35|1986|10.1002/tera.1420340105
79720|T||Daughtrey,W.C., M.B. Newby-Schmidt, and S. Norton|Forebrain Damage in Chick Embryos Exposed to Carbon Monoxide|Teratology28:83-89|1983|10.1002/tera.1420280111
79721|T||Worobey,B.L., and J.B. Shields|Preliminary Studies on the Bioavailability and Disposition of Bioincurred Carrot Residues of [14C] Linuron and [14C] 3,4-Dichloroaniline in Rats|Food Addit. Contam.8(2): 193-200|1991|10.1080/02652039109373969
79722|T||Wrather,J.A., and A.H. Freytag|Selection of Atrazine Tolerant Soybean Calli and Expression of that Tolerance in Regenerated Plants|Plant Cell Rep.10(1): 44-47|1991|10.1007/BF00233031
79723|T||Sato,F., S. Takeda, and Y. Yamada|A Comparison of Effects of Several Herbicides on Photoautotrophic, Photomixotrophic and Heterotrophic Cultured Tobacco Cells and Seedlings|Plant Cell Rep.6(6): 401-404|1987|10.1007/BF00272768
79724|T||Gaynor,J.D., and A.S. Hamill|Timing of Atrazine Application for Control of Quackgrass (Agropyron repens)|Phytoprotection (Multiple Languages)74(2): 89-99|1993|10.7202/706039ar
79725|T||Meena,K., R.C. Gautam, K. Anand, and C.S. Pandey|Integrated Weed Management in Brahmi (Bacopa monnieri)|Indian J. Agric. Sci.74(7): 382-384|2004|
79727|T||Drescher,W., and H. Geusen-Pfister|Comparative Testing of the Oral Toxicity of Acephate, Dimethoate and Methomyl to Honeybees, Bumblebees and Syrphidae|Acta Hortic.288:133-138|1991|10.17660/ActaHortic.1991.288.16
79728|T||Newbold,R.R., and J.A. McLachlan|Vaginal Adenosis and Adenocarcinoma in Mice Exposed Prenatally or Neonatally to Diethylstilbestrol|Cancer Res.42(5): 2003-2011|1982|
79729|T||Newbold,R.R., B.C. Bullock, and J.A. McLachlan|Lesions of the Rete Testis in Mice Exposed Prenatally to Diethylstilbestrol|Cancer Res.45(10): 5145-5150|1985|
79730|T||Bacon,R.K., F.C. Collins, and T.L. Lavy|Evaluation of Wheat Cultivars for Seedling Tolerance to Atrazine|Field Crops Res.14:135-139|1986|10.1016/0378-4290(86)90052-3
79731|T||Marinari,S., L. Badalucco, V.C. De Toledo, and S. Grego|Effect of Composted Manure on Soil Fertility and Maize (Zea mays) Production:  Preliminary Results|Agrochimica40(5/6): 276-283|1996|
79732|T||Thakur,D.R., K.K. Singh, and R.C. Thakur|Effect of Weed and Fertilizer Management on Nutrient Uptake by Weeds and Maize (Zea mays L.) Under Rainfed Conditions|Indian J. Agron.35(4): 357-360|1990|
79733|T||Banaszkiewicz,T., J. Radecki, and H. Kozaczenko|Atrazine and Lead Content in Maize Seedlings (Zea mays L.) Treated by Herbicide and Lead Compounds|Acta Physiol. Plant.13(2): 91-94|1991|
79734|T||Balyan,R.S., and V.M. Bhan|Competing Ability of Maize, Pearlmillet, Mungbean and Cowpea with Carpetweed Under Different Weed Management Practices|Crop Res. (Hisar)2(2): 147-153|1989|
79736|T||Kock,M., D. Stajner, O. Gasic, and D. Schlee|Alachlor-Induced Changes of Superoxide Dismutase Activity in Seeds and Young Plants of Wheat (Triticum aestivum)|Biologia (Bratisl.)49(3): 365-370|1994|
79737|T||Freed,B.E., E.S. Oplinger, and D.D. Buhler|Velvetleaf Control for Solid-Seeded Soybean in Three Corn Residue Management Systems|Agron. J.79(1): 119-123|1987|10.2134/agronj1987.00021962007900010025x
79738|A||Huang,Y.P., V.L. Trudeau, and R.E. Peter|Evaluation of a Specific Gonadotropin-Releasing Hormone Binding Protein in the Serum of Goldfish:  A Study on the Influence of Sex, Season, GnRH Injection and Estradiol Treatment In Vivo|Gen. Comp. Endocrinol.84(1): 76-82|1991|10.1016/0016-6480(91)90066-F
79739|T||Erturk,H., and P.N. Walker|Effect of Atrazine on Algal Contamination and Sugarcane Shoots During Photoautotrophic Micropropagation|Trans ASAE (Am. Soc. Agric. Eng.)45(6): 189-191|2003|
79740|T||Dick,A.T.|Studies on the Assimilation and Storage of Copper in Crossbred Sheep|Aust. J. Agric. Res.5:511-544|1954|10.1071/AR9540511
79741|T||Dionigi,C.P., and E.T. Champagne|Copper-Containing Aquatic Herbicides Increase Geosmin Biosynthesis by Streptomyces tendae and Penicillium expansum|Weed Sci.43(2): 196-200|1995|10.1017/S0043174500081066
79742|T||Osman,M., and E.E. Aly Elwy|Effect of Aluminium, Cobalt and Lead Nitrate on Growth, Total Protein and Nucleic Acids in Verticillium agaricinum (Link) Corda|Bull. Fac. Sci. Cairo Univ.57(1): 241-251|1989|
79744|T||Cueto,G.M., E. Zerba, and M.I. Picollo|Biological Effect of 1-Dodecanol in Teneral and Post-Teneral Rhodnius prolixus and Triatoma infestans (Hemiptera:  Reduviidae)|Mem. Inst. Oswaldo Cruz100(1): 59-61|2005|10.1590/S0074-02762005000100012
79745|T||Sierra,L.M., A.R. Barros, M. Garcia, J.A. Ferreiro, and M.A. Comendador|Acrolein Genotoxicity in Drosophila melanogaster.  I.  Somatic and Germinal Mutagenesis Under Proficient Repair Conditions|Mutat. Res.260(3): 247-256|1991|10.1016/0165-1218(91)90033-I
79747|T||Parent,R.A., H.E. Caravello, M.F. Balmer, T.E. Shellenberger, and J.E. Long|One-Year Toxicity of Orally Administered Acrolein to the Beagle Dog|J. Appl. Toxicol.12(5): 311-316|1992|10.1002/jat.2550120504
79748|T||Carroll,J.F., N.O. Morgan, and J.D. Weber|Evaluation of Some Nonhalogenated Compounds as Fumigants Against Larvae of a Caribbean Fruit Fly|J. Econ. Entomol.75(1): 137-140|1982|10.1093/jee/75.1.137
79749|T||Leesch,J.G.|Fumigant Action of Acrolein on Stored-Product Insects|J. Econ. Entomol.88(2): 326-330|1995|10.1093/jee/88.2.326
79750|T||Parent,R.A., H.E. Caravello, and J.E. Long|Two-Year Toxicity and Carcinogenicity Study of Acrolein in Rats|J. Appl. Toxicol.12(2): 131-139|1992|10.1002/jat.2550120210
79751|T||Comendador,M.A., L.M. Sierra, and M. Gonzalez|Genetic Architecture of Tolerance to Acrolein in Drosophila melanogaster|Genet. Sel. Evol.21(4): 415-426|1989|10.1186/1297-9686-21-4-415
79752|T||Sierra,L.M., M.A. Comendador, and I. Aguirrezabalaga|Mechanisms of Resistance to Acrolein in Drosophila melanogaster|Genet. Sel. Evol.21(4): 427-436|1989|10.1186/1297-9686-21-4-427
79753|T||Mizumoto,N., M.E. Mummert, D. Shalhevet, and A. Takashima|Keratinocyte ATP Release Assay for Testing Skin-Irritating Potentials of Structurally Diverse Chemicals|J. Invest. Dermatol.121(5): 1066-1072|2003|10.1046/j.1523-1747.2003.12558.x
79754|T||Daly,K.C., G.A. Wright, and B.H. Smith|Molecular Features of Odorants Systematically Influence Slow Temporal Responses Across Clusters of Coordinated Antennal Lobe Units in the Moth Manduca sexta|J. Neurophysiol.92(1): 236-254|2004|10.1152/jn.01132.2003
79756|T||Iwata,Y., Y. Moriya, and T. Kobayashi|Percutaneous Absorption of Aliphatic Compounds|Cosmet. Toiletries102(2): 53-54|1987|
79758|T||Noetzel,D., M. Ricard, L. Heuser, and D. Rustad|Grasshopper Control in Conservation Reserve Program Land; Insecticide Comparisons, 1990|Insectic. Acaric. Tests17:178-|1992|10.1093/iat/17.1.178
79759|T||Noetzel,D., M. Ricard, and L. Heuser|Grasshopper Control in Conservation Reserve Program Land, 1991|Insectic. Acaric. Tests17:185-186|1992|
79760|T||Noetzel,D., M. Ricard, and L. Heuser|Grasshopper Control in Barley, 1991|Insectic. Acaric. Tests17:184-185|1992|10.1093/iat/17.1.184a
79761|T||Noetzel,D., M. Ricard, and H. Ford|Control of Banded Sunflower Moth, 1990|Insectic. Acaric. Tests17:289-|1992|
79762|T||Noetzel,D., and D. Putnam|Flea Beetle Control in Canola, Trial 4, 1991|Insectic. Acaric. Tests17:193-|1992|10.1093/iat/17.1.193
79763|T||Noetzel,D., and K. Kellesvig|Flea Beetle Control in Canola, Trial 3, 1991|Insectic. Acaric. Tests17:192-|1992|10.1093/iat/17.1.192
79764|T||Noetzel,D., and K. Kellesvig|Flea Beetle Control in Canola, Trial 2, 1991|Insectic. Acaric. Tests17:191-192|1992|
79765|T||Nielsen,D.G., and M.J. Dunlap|Taxus, Control of Black Vine Weevil Larvae, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:354-355|1992|
79766|T||McPherson,R.M., A.K. Culbreath, and A.S. Csinos|Controlling Tobacco Insect Pests with Transplant and Foliar Insecticide Treatments, 1991|Insectic. Acaric. Tests17:295-|1992|10.1093/iat/17.1.295
79767|T||Lagnaoui,A., and E.B. Radcliffe|Colorado Potato Beetle Control with Natural Product Insecticides, 1990|Insectic. Acaric. Tests17:127-|1992|10.1093/iat/17.1.127
79768|T||Lagnaoui,A., M.S. Connelly, C.A. Longtine, K.L. Flanders, E.B. Radcliffe, and R. Hansen|Control of Colorado Potato Beetle and Potato Leafhopper, 1991|Insectic. Acaric. Tests17:128-130|1992|10.1093/iat/17.1.128
79769|T||Karner,M., J. Goodson, L.D. Smith, and M. Kelley|Alfalfa Weevil Control, 1991|Insectic. Acaric. Tests17:176-177|1992|10.1093/iat/17.1.176a
79770|T||Journey,A.M., K.R. Ostlie, and L.J. Luedeman|Liquid Options for Corn Rootworm Control, 1991|Insectic. Acaric. Tests17:198-199|1992|10.1093/iat/17.1.198
79771|T||Johnson,D.W., J.H. Herbek, and L.W. Murdock|Conservation of Stand, 1991|Insectic. Acaric. Tests17:187-188|1992|10.1093/iat/17.1.187a
79772|T||Jarvi,K.J., and L. Howard|Clover Leaf Weevil Larval Control in Alfalfa, 1991|Insectic. Acaric. Tests17:176-|1992|10.1093/iat/17.1.176
79773|T||Hower,A.A., and S. Alexander|Potato Leafhopper Control, 1991|Insectic. Acaric. Tests17:174-175|1992|10.1093/iat/17.1.174
79774|T||Herbert,D.A.,Jr.|Experimental Foliar Treatments for Control of Tobacco Thrips in Peanut, 1991|Insectic. Acaric. Tests17:245-|1992|
79775|T||Harris,F.A., and R.E.,Jr. Furr|Early and Mid Season Systemic Insecticides, 1990|Insectic. Acaric. Tests17:226-227|1992|
79776|T||Buschman,L.L., and K. El Houssaini|Evaluation of Insecticidal Control of Hessian Fly and Sawfly in Wheat, 1990|Insectic. Acaric. Tests17:308-309|1992|10.1093/iat/17.1.308
79777|T||Doss,M., and R. Berberet|Early Season Insect Control in Alfalfa, 1991|Insectic. Acaric. Tests17:173-|1992|10.1093/iat/17.1.173
79778|T||Dick,G.L., P.E. Sloderbeck, L.G. Wildman, and S.C. Posler|Corn Borer Insecticide Efficacy Trial, 1991|Insectic. Acaric. Tests17:194-195|1992|10.1093/iat/17.1.194
79779|T||Campbell,C.D., and W.D. Hutchison|Sugarbeet Root Aphid Control in Southern Minnesota, 1991|Insectic. Acaric. Tests17:284-|1992|10.1093/iat/17.1.284
79780|T||Buschman,L.L., S. Lhaloui, and K. El Houssaini|Evaluation of Insecticidal Control of Hessian Fly in Wheat, 1989|Insectic. Acaric. Tests17:306-307|1992|10.1093/iat/17.1.306a
79781|T||Witkowski,J.F.|Control of European Corn Borer in Whorl Stage Corn, 1991|Insectic. Acaric. Tests17:220-|1992|10.1093/iat/17.1.220
79782|T||Bessin,R., and L.H. Townsend|Corn Rootworm Larval Control, 1991|Insectic. Acaric. Tests17:193-194|1992|10.1093/iat/17.1.193a
79783|T||Willson,H.R., and J.B. Eisley|Evaluation of Soil Insecticides on First Year and Continuous Corn in OH, 1991|Insectic. Acaric. Tests17:219-|1992|10.1093/iat/17.1.219
79784|A||Bernhardt,J.L.|Control of Rice Water Weevil with Carbofuran, 1991|Insectic. Acaric. Tests17:251-|1992|10.1093/iat/17.1.251
79785|T||Bishop,B., E. Grafius, P. Henry, K. Roragen, R. Maier, M. Stehr, and M. Linn|Colorado Potato Beetle Control, 1989|Insectic. Acaric. Tests17:122-124|1992|10.1093/iat/17.1.122
79786|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of Alfalfa Insects in Wisconsin, 1991|Insectic. Acaric. Tests17:184-|1992|10.1093/iat/17.1.184
79787|A||Way,M.O., R.G. Wallace, K. Smith, and R. Martin|Control of Rice Water Weevil with Nematodes, 1990|Insectic. Acaric. Tests17:254-256|1992|10.1093/iat/17.1.254
79788|A||Way,M.O., R.G. Wallace, and K. Smith|Evaluation of Two Species of Nematodes for Rice Water Weevil Control, 1989|Insectic. Acaric. Tests17:257-258|1992|10.1093/iat/17.1.257
79789|A||Way,M.O., and R.G. Wallace|Evaluation of Control of the RWW with the Nematode Steinernema carpocapsae, 1989|Insectic. Acaric. Tests17:256-257|1992|10.1093/iat/17.1.256
79790|AT||Way,M.O., and R.G. Wallace|Control of RWW with Carbofuran, 1991|Insectic. Acaric. Tests17:253-254|1992|10.1093/iat/17.1.253
79791|T||Walker,M., and J. Wedberg|First Generation European Corn Borer Control on Sweet Corn, 1991|Insectic. Acaric. Tests17:109-|1992|10.1093/iat/17.1.109a
79792|T||Vaadeland,J.R., C.A. Longtine, K.L. Flanders, A. Lagnaoui, and E.B. Radcliffe|Control of Colorado Potato Beetle, Potato Leafhopper, and Green Peach Aphid, 1991|Insectic. Acaric. Tests17:147-150|1992|10.1093/iat/17.1.147
79793|T||Stoltz,R.L., and N.A. Matteson|Sugarbeet Root Maggot Control, 1991|Insectic. Acaric. Tests17:285-|1992|10.1093/iat/17.1.285
79794|T||Southern,P.S., and M.M. Browne|Effect of Soil-Applied Insecticides and Insecticide Placement on Tobacco Flea Beetle and Tobacco Aphid in Flue-Cured Tobacco, 1991|Insectic. Acaric. Tests17:301-302|1992|10.1093/iat/17.1.301
79795|T||Shields,E.J., and P.S. Taylor|Alfalfa Weevil Control in Alfalfa, 1991|Insectic. Acaric. Tests17:182-183|1992|10.1093/iat/17.1.182
79796|T||Semtner,P.J., M.B. Reed, and W.B. Wilkinson|Tobacco Insect Control with Systemic Insecticides, 1991|Insectic. Acaric. Tests17:298-299|1992|
79797|T||Rethwisch,M.D., D. Tellez, and C.W. McDaniel|Control of Early Season Alfalfa Insects, 1991|Insectic. Acaric. Tests17:180-182|1992|10.1093/iat/17.1.180a
79798|T||Parr,J.C., and B.C. Pass|Potato Leafhopper Control, 1991|Insectic. Acaric. Tests17:180-|1992|10.1093/iat/17.1.180
79799|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1991|Insectic. Acaric. Tests17:179-180|1992|10.1093/iat/17.1.179
79800|T||Ostlie,K.R.|Insecticide Performance Against First-Generation European Corn Borer-Liquids vs Granules, 1991|Insectic. Acaric. Tests17:215-216|1992|10.1093/iat/17.1.215
79801|T||Oloumi-Sadeghi,H., K.L. Steffey, and M.E. Gray|Planting-Time Versus Cultivation-Time Soil Insecticides for Corn Rootworm Control in IL, 1991|Insectic. Acaric. Tests17:212-213|1992|10.1093/iat/17.1.212
79802|T||Oloumi-Sadeghi,H., M.E. Gray, and K.L. Steffey|Reduced Rates of Soil Insecticides for Corn Rootworm Control, 1987-1991|Insectic. Acaric. Tests17:213-214|1992|10.1093/iat/17.1.213
79803|T||Oleson,J.D., J.R. Rouse, P.J. Boeve, D.A. Baker, and J.J. Tollefson|Field Corn, Wireworm Larval Control, 1991|Insectic. Acaric. Tests17:206-207|1992|10.1093/iat/17.1.206
79804|T||Noetzel,D., and B. Sheets|Foliar Insect Control in Lupine, 1989|Insectic. Acaric. Tests17:347-348|1992|
79805|T||Noetzel,D., and B. Sheets|Foliar Insect Control in Lupin, 1991|Insectic. Acaric. Tests17:241-|1992|10.1093/iat/17.1.241
79806|T||Noetzel,D., and B. Sheets|Foliar Insect Control in Dry Navy Bean, 1991|Insectic. Acaric. Tests17:185-|1992|
79807|T||Noetzel,D., and H. Roman|Flea Beetle Control in Canola, 1989|Insectic. Acaric. Tests17:189-190|1992|
79808|T||Noetzel,D., and H. Roman|Counter Soil Systemic Plus Foliar Control of Flea Beetle, 1989|Insectic. Acaric. Tests17:189-|1992|
79810|T||Krishnamurty,G.V.G., R. Lal, and K. Nagarajan|Preliminary Studies on the Effect of Pesticides on Orobanche|Tob. Res.5(1): 89-92|1979|
79811|T||Preest,D.S.|Effectiveness of Methyl Bromide, Dazomet, and Metam in Eradicating Oxalis latifolia|Proc. N. Z. Weed Pest Control Conf.17:109-114|1964|10.30843/nzpp.1964.17.10303
79812|T||Van Achter,A., E. Van Wambeke, and C. Van Assche|Effectivity of Chemical Soil Fumigation and Vinclozolin or Iprodione Fungicide Treatment on Disease Control in Witloof Chicory Forcing Beds|Meded. Fac. Landbouwwet. Rijksuniv. Gent45(2): 221-226|1980|
79813|T||Iyer,J.G.|Effect of Craig Mylone Herbicide on the Growth of White Spruce Seedlings|Tree Plant. Notes66:4-6|1964|
79815|T||Thingstrup,I., G. Rubaek, E. Sibbesen, and I. Jakobsen|Flax (Linum usitatissimum L.) Depends on Arbuscular Mycorrhizal Fungi for Growth and P Uptake at Intermediate but not High Soil P Levels in the Field|Plant Soil203(1): 37-46|1998|10.1023/A:1004362310788
79816|T||Ebbels,D.L.|Effect of Fumigants on Fungi in Buried Wheat Straw|Trans. Br. Mycol. Soc.54(2): 227-232|1970|10.1016/S0007-1536(70)80035-3
79817|T||Hurrell,G.A., G.W. Bourdot, and R.M. Hunter|Effect of Three Soil Fumigants on the Viability of Buried Seeds of Chilean Needle Grass (Stipa neesiana)|Proc. N. Z. Plant Prot. Conf.47:80-83|1994|10.30843/nzpp.1994.47.11034
79818|T||Di Vito,M., G. Zaccheo, F. Catalano, and R. Campanelli|Effect of Soil Solarization and Low Doses of Fumigants on Control of the Root-Knot Nematode Meloidogyne incognita|Acta Hortic.532:171-173|2000|10.17660/ActaHortic.2000.532.21
79819|T||Rieger,M., G. Krewer, and P. Lewis|Solarization and Chemical Alternatives to Methyl Bromide for Preplant Soil Treatment of Strawberries|HortTechnology11(2): 258-264|2001|10.21273/HORTTECH.11.2.258
79820|T||Sinha,M., and M.C. Mukhopadhyaya|Control of Meloidogyne incognita, Fusarium oxysporum and Weeds in Brinjal (Solanum melongena) Consequent on Granular Application of Dazomet (Basamid-Granular)|Indian J. Nematol.23(1): 57-62|1993|
79821|T||Van der Gulik,J., and J.A. Springett|The Effect of Commonly Used Biocides on Slugs|Proc. N. Z. Weed Pest Control Conf.33:225-229|1980|10.30843/nzpp.1980.33.10667
79822|T||Tate,K.G., and L.H. Cheah|Ridge Fumigation for Control of Verticillium Wilt in Strawberries|Proc. N. Z. Weed Pest Control Conf.36:79-82|1983|10.30843/nzpp.1983.36.9625
79823|T||Jakobsen,I.|Effects of VA Mycorrhiza on Yield and Harvest Index of Field-Grown Pea|Plant Soil98(3): 407-415|1987|10.1007/BF02378361
79824|T||Arumugam,N., J. Thanislass, K. Ragunath, S. Niranjali Devaraj, and H. Devaraj|Acrolein-Induced Toxicity - Defective Mitochondrial Function as a Possible Mechanism|Arch. Environ. Contam. Toxicol.36(4): 373-376|1999|10.1007/PL00006608
79826|T||Tsakadze,N.L., S. Srivastava, S.O. Awe, A.S.O. Adeagbo, A. Bhatnagar, and S.E. D'Souza|Acrolein-Induced Vasomotor Responses of Rat Aorta|Am. J. Physiol. Heart Circ. Physiol.285(2): H727 - H734|2003|10.1152/ajpheart.00269.2003
79829|T||Porlingis,I.C., and M. Koukourikou-Petridou|Promotion of Adventitious Root Formation in Mung Bean Cuttings by Four Triazole Growth Retardants|J. Hortic. Sci.71(4): 573-579|1996|10.1080/14620316.1996.11515437
79830|T||Nalewaja,J., J. Palczynski, and F.A. Manthey|Imazethapyr Efficacy with Adjuvants and Environments|Weed Technol.4(4): 765-770|1990|10.1017/S0890037X00026361
79831|T||Nalewaja,J., and R. Matysiak|Optimizing Adjuvants to Overcome Glyphosate Antagonistic Salts|Weed Technol.7(2): 337-342|1993|10.1017/S0890037X0002769X
79832|A||Hiwatari,T., H. Maki, S. Izawa, K. Kohata, H. Koshikawa, and M. Watanabe|Susceptibility of the Hyalid Amphipod Hyale barbicornis to Water-Soluble Fractions of Fuel Oil and a Bioremediation-Amending Agent, Inipol EAP22|Pol. Arch. Hydrobiol.47(3-4): 651-656|2000|
79833|T||Phartyal,S.S., R.C. Thapliyal, J.S. Nayal, and G. Joshi|Seed Dormancy in Himalayan Maple (Acer caesium) II:  Bioassay of Inhibitors|Seed Sci. Technol.31(1): 13-20|2003|10.15258/sst.2003.31.1.02
79834|T||Elars Bioresearch Labs Inc.|Histopathologic Evaluation of Tissues & Organs from C3H/Hen Mice - Carcinogenic Potential of Petroleum Fuels:  An Annual Interim Report of Mice Dead During 0-12 Months|EPA/OTS Doc.#88-8200424:|1982|
79835|T||Springborn Institute for Bioresearch Inc.|28-Day Subchronic Dermal Toxicity Study in Rats with Cover Letter Dated 010885 & EPA Response Dated 030585|Springborn Bionomics Inc., Wareham, MA:|1985|
79836|T||Edlund,M.L., and T. Nilsson|Performance of Copper and Non-Copper Based Wood Preservatives in Terrestrial Microcosms|Holzforschung53(4): 369-375|1999|10.1515/HF.1999.061
79837|A||Great Lakes Environment Center|Toxicity Testing and Chemical Analysis of Selenium from Acute Toxicity Tests|Draft Final Report, Contract Number 68-C-98-134, U.S.EPA,Washington,D.C.:247 p.|1999|
79839|A||Great Lakes Environment Center|Final Report on Acute Toxicity of Selected Chemicals in Support of the Great Lakes Water Quality Guidance|Final Rep.,Gt.Lakes Environ.Ctr.,Traverse City,MI:35 p.|2005|
79842|T||Scott,A.S., and A.C. Magee|Permanency of Biological Changes in Young Rats Fed a High Zinc Diet|Nutr. Rep. Int.20(4): 549-559|1979|
79843|T||Chu,R.C., and D.H. Cox|Excessive Dietary Zinc During Lactation and Nutritive Value and Mineral Composition of Rat's Milk|Nutr. Rep. Int.2(4): 179-184|1970|
79844|T||Owen,A.A., E.R.,Jr. Peo, P.J. Cunningham, and B.D. Moser|Effect of EDTA on Utilization of Dietary Zinc by G-F Swine|J. Anim. Sci.37(2): 470-478|1973|10.2527/jas1973.372470x
79845|T||Chhabra,A., and S.P. Arora|Effect of Zn Deficiency on Serum Vitamin A Level, Tissue Enzymes and Histological Alterations in Goats|Livest. Prod. Sci.12:69-77|1985|10.1016/0301-6226(85)90041-7
79847|T||Field,R.A., G.L. Bennett, and R. Munday|Effect of Excess Zinc and Iron on Lamb Carcass Characteristics|N. Z. J. Agric. Res.28:349-355|1985|10.1080/00288233.1985.10430437
79848|T||Gaynor,P.J., M.J. Montgomery, and C.R. Holmes|Effect of Zinc Chloride or Zinc Sulfate Treatment of Protein Supplement on Milk Production|J. Dairy Sci.71:2175-2180|1988|10.3168/jds.S0022-0302(88)79790-8
79849|T||Strasia,C.A.|Vanadium: Essentiality and Toxicity in the Laboratory Rat|Ph.D.Thesis, Purdue University, West Lafayette, IN:49 p.|1971|
79852|T||Biswas,G., and R. Sanjeevi|Toxicity of Chromium to Chick Embryos:  An Evaluation of Alteration in Rate of Growth Through Computer Aided Regression Analysis|Leather Sci.31(11): 309-314|1984|
79853|T||Schuder,I., G. Port, and J. Bennison|The Dose-Dependent Responses of Deroceras panormitanum and Oxyloma pfeifferi to Potential Novel Molluscicides|Crop Prot.23(10): 945-953|2004|10.1016/j.cropro.2004.02.007
79854|A||Prange,J.A., and W.C. Dennison|Physiological Responses of Five Seagrass Species to Trace Metals|Mar. Pollut. Bull.41(7-12): 327-336|2000|10.1016/S0025-326X(00)00126-0
79855|A||Atienzar,F.A., V.V. Cheung, A.N. Jha, and M.H. Depledge|Fitness Parameters and DNA Effects are Sensitive Indicators of Copper-Induced Toxicity in Daphnia magna|Toxicol. Sci.59(2): 241-250|2001|10.1093/toxsci/59.2.241
79856|A||Lecoeur,S., B. Videmann, and P. Berny|Evaluation of Metallothionein as a Biomarker of Single and Combined Cd/Cu Exposure in Dreissena polymorpha|Environ. Res.94(2): 184-191|2004|10.1016/S0013-9351(03)00069-0
79857|A||Antognelli,C., R. Romani, F. Baldracchini, A. De Santis, G. Andreani, and V. Talesa|Different Activity of Glyoxalase System Enzymes in Specimens of Sparus auratus Exposed to Sublethal Copper Concentrations|Chem.-Biol. Interact.142(3): 297-305|2003|10.1016/S0009-2797(02)00124-2
79858|A||Medesani,D.A., L.S.L. Greco, and E.M. Rodriguez|Interference of Cadmium and Copper with the Endocrine Control of Ovarian Growth, in the Estuarine Crab Chasmagnathus granulata|Aquat. Toxicol.69(2): 165-174|2004|10.1016/j.aquatox.2004.05.003
79859|A||Dautremepuits,C., S. Paris-Palacios, S. Betoulle, and G. Vernet|Modulation in Hepatic and Head Kidney Parameters of Carp (Cyprinus carpio L.) Induced by Copper and Chitosan|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(4): 325-333|2004|10.1016/j.cca.2004.03.005
79860|A||Ciereszko,A., I. Babiak, and K. Dabrowski|Efficacy of Animal Anti-Fertility Compounds Against Sea Lamprey (Petromyzon marinus) Spermatozoa|Theriogenology61(6): 1039-1050|2004|10.1016/j.theriogenology.2003.05.002
79861|T||Misra,R., and N.C. Panigrahi|Effect of Sulphur Dioxide Fumigation on Catalase and NRA Variables in Rice Seedlings|Bionature13(1): 25-28|1993|
79862|T||Infante,J.M., R. Garcia-Laureano, and J. Merino|Morphological and Physiological Response of Two Populations of Quercus ilex L. to SO2 Fumigation|Phyton (Horn) (Multiple Languages)42(3): 73-81|2002|
79863|T||Roberts,A.E., C.P. LeBel, J.A. Stickney, D. Silverman, D.R. Brown, and R.A. Schatz|Changes in Rat Lung Microsomal Lipids After p-Xylene:  Relationship to Inhibition of Benzo(a)pyrene Metabolism|J. Toxicol. Environ. Health25(4): 479-494|1988|10.1080/15287398809531226
79864|A||Van Heerden,D., A. Vosloo, and M. Nikinmaa|Effects of Short-Term Copper Exposure on Gill Structure, Metallothionein and Hypoxia-Inducible Factor-1alpha (HIF-1alpha) Levels in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.69(3): 271-280|2004|10.1016/j.aquatox.2004.06.002
79865|T||Balaguer,L., and E. Manrique|Factors Which Determine Lichen Response to Chronic Fumigations with Sulphur Dioxide|Cryptogam. Bot.5(3): 215-219|1995|
79866|T||Vail,P.V., J.S. Tebbets, and J. Smilanick|Sulfur Dioxide Control of Omnivorous Leafroller in the Laboratory, 1991|Insectic. Acaric. Tests17:371-372|1992|10.1093/iat/17.1.371a
79867|A||Barroso,C.M., M.A. Reis-Henriques, M.S. Ferreira, and M.H. Moreira|The Effectiveness of Some Compounds Derived from Antifouling Paints in Promoting Imposex in Nassarius reticulatus|J. Mar. Biol. Assoc. U.K.82(2): 249-255|2002|10.1017/S0025315402005428
79868|T||Bharali,B., and J.W. Bates|Soil Cations Influence Bryophyte Susceptibility to Bisulfite|Ann. Bot.90(3): 337-343|2002|10.1093/aob/mcf192
79869|T||Taylor,G.E.,Jr., D.T. Tingey, and C.A. Gunderson|Photosynthesis, Carbon Allocation, and Growth of Sulfur Dioxide Ecotypes of Geranium carolinianum L.|Oecologia68(3): 350-357|1986|10.1007/BF01036738
79870|T||Looman,B.H.M., and A.J. Van Kuik|Chemical Control of Liverwort, Moss and Weeds in Container-Grown Nursery Stock|Meded. Fac. Landbouwwet. Rijksuniv. Gent58(3a): 837-843|1993|
79872|T||Khan,M.R., M.W. Khan, and M.J. Pasha|Effects of Sulfur Dioxide on the Development of Powdery Mildew of Cucumber|Environ. Exp. Bot.40(3): 265-273|1998|10.1016/S0098-8472(98)00043-4
79873|A||Peterson,L.K., J.M. D'Auria, B.A. McKeown, K. Moore, and M. Shum|Copper Levels in the Muscle and Liver Tissue of Farmed Chinook Salmon, Oncorhynchus tshawytscha|Aquaculture99(1-2): 105-115|1991|10.1016/0044-8486(91)90291-E
79874|A||Meffe,G.K.|Attempted Chemical Renovation of an Arizona Springbrook for Management of the Endangered Sonoran Topminnow|N. Am. J. Fish. Manag.3(3): 315-321|1983|10.1577/1548-8659(1983)3<315:ACROAA>2.0.CO;2
79875|T||Geisler,D.A., F.I. Johansson, A.S. Svensson, and A.G. Rasmusson|Antimycin A Treatment Decreases Respiratory Internal Rotenone-Insensitive NADH Oxidation Capacity in Potato Leaves|BMC Plant Biol.4(1): 1-10|2004|10.1186/1471-2229-4-8
79876|A||Tischner,R., E. Planchet, and W.M. Kaiser|Mitochondrial Electron Transport as a Source for Nitric Oxide in the Unicellular Green Alga Chlorella sorokiniana|FEBS Lett.576(1/2): 151-155|2004|10.1016/j.febslet.2004.09.004
79877|A||Blackstone,N.W.|Redox Signaling in the Growth and Development of Colonial Hydroids|J. Exp. Biol.206(4): 651-658|2003|10.1242/jeb.00138
79878|T||Kondoh,M., Y. Inoue, S. Atagi, N. Futakawa, M. Higashimoto, and M. Sato|Specific Induction of Metallothionein Synthesis by Mitochondrial Oxidative Stress|Life Sci.69(18): 2137-2146|2001|10.1016/S0024-3205(01)01294-2
79879|T||Graham,T.W., B.F. Feldman, T.B. Farver, F. Labavitch, S.L. O'Neill, M.C. Thurmond, C.L. Keen, and C.A. Holmberg|Zinc Toxicosis in Holstein Veal Calves and Its Relationship to Haematological Change and an Associated Thrombotic State|Comp. Haematol. Int.1:121-128|1991|10.1007/BF00515658
79880|T||Stepinska,M., I. Fabijanska, and J. Niemiec|Performance of Hens in the Second Egg Production Cycle After the Intermission Caused by Addition of Zinc to the Feed|Ann. Wars. Agric. Univ. SGGW-AR Hortic.21:71-75|1987|
79881|T||Mutafova-Yambolieva,V., D. Staneva-Stoytcheva, L. Lasova, and R. Radomirov|Effects of Subchronic Exposure of Rats to Lead or Zinc on alpha-Adrenoceptor-Mediated Contractile Responses in Isolated Vas Deferens|Acta Physiol. Pharmacol. Bulg.19:111-119|1993|
79882|T||Osorio,N.W., J.M. Alzate, and G.A. Ramirez|Coffee Seedling Growth as Affected by Mycorrhizal Inoculation and Organic Amendment|Commun. Soil Sci. Plant Anal.33(9/10): 1425-1434|2002|10.1081/CSS-120004291
79883|T||Lopez-Medina,J., J.M. Lopez-Aranda, J.J. Medina, L. Miranda, and F. Flores|Chemical and Non-chemical Alternatives to Methyl Bromide Fumigation of Soil for Strawberry Production|J. Hortic. Sci. Biotechnol.78(5): 597-604|2003|10.1080/14620316.2003.11511670
79884|T||Harris,D.C.|Control of Verticillium Wilt of Strawberry in Britain by Chemical Soil Disinfestation|J. Hortic. Sci.64(6): 683-686|1989|10.1080/14620316.1989.11516009
79885|T||Highley,T.L., and W.E. Eslyn|Evaluation of Fumigants for Control of Decay in Non-Pressure-Treated Southern Pine Timbers. I. Unwrapped Timbers|Holzforschung43(4): 225-230|1989|10.1515/hfsg.1989.43.4.225
79887|T||Williams,T.D., and J. Beane|Some Effects of Differently-Acting Nematicides on the Cereal Cyst-Nematode (Heterodera avenae) and on the Appearance of 'Scorch' in Spring Wheat on Light Loamy Sand|Ann. Appl. Biol.95(2): 225-234|1980|10.1111/j.1744-7348.1980.tb04742.x
79888|T||Nicol,J.M., and I. Ortiz-Monasterio|Effects of the Root-Lesion Nematode, Pratylenchus thornei, on Wheat Yields in Mexico|Nematology6(4): 485-493|2004|10.1163/1568541042665223
79889|T||Guile,C.T.|The Use of Dazomet for the Control of Potato Root Eelworm in a Lincolnshire Fen Soil|Plant Pathol.14(4): 179-187|1965|10.1111/j.1365-3059.1965.tb00308.x
79890|T||Alphey,T.J.W.|Subsurface Application of Liquid Fumigants to Arable Soils for the Control of Plant-Parasitic Nematodes|Hortic. Res.21(2): 169-180|1981|
79891|T||Johnson,P.W., J.M. Elliott, and C.F. Marks|Effect of Fumigant and Non-Fumigant Nematicides on Pratylenchus penetrans Populations and Yield and Quality of Flue-Cured Tobacco in Ontario|Tob. Int.184(11): 67-71|1982|
79892|T||Torres,H., C. Martin, and J. Henfling|Chemical Control of Pink Rot of Potato (Phytophthora erythroseptica Pethyb.)|Am. Potato J.62(7): 355-361|1985|10.1007/BF02855606
79893|T||Whitehead,A.G., J.E. Fraser, and E.M. French|Control of Potato Cyst-Nematode, Globodera pallida, on Tomatoes Grown Under Glass, by Applying Steam or Chemical Nematicides to the Soil|Ann. Appl. Biol.92(2): 275-278|1979|10.1111/j.1744-7348.1979.tb03874.x
79894|T||Fraedrich,S.W., and L.D. Dwinell|An Evaluation of Dazomet Incorporation Methods on Soilborne Organisms and Pine Seedling Production in Southern Nurseries|South. J. Appl. For.27(1): 41-51|2003|10.1093/sjaf/27.1.41
79895|T||Hide,G.A., D.C.M. Corbett, and K. Evans|Effects of Soil Treatments and Cultivars on 'Early Dying' Disease of Potatoes Caused by Globodera rostochiensis and Verticillium dahliae|Ann. Appl. Biol.104(2): 277-289|1984|10.1111/j.1744-7348.1984.tb05612.x
79896|T||Montgomerie,I.G., and D.M. Kennedy|The Effects of Dazomet, Fenaminosulf, and Soil Ridges on Red Core Disease of Strawberry|Ann. Appl. Biol.100(3): 443-455|1982|10.1111/j.1744-7348.1982.tb01411.x
79897|T||Juzwik,J., and D.J. Rugg|Seedling Mortality and Development of Root Rot in White Pine Seedlings in Two Bare-Root Nurseries|Can. J. Plant Pathol.18(4): 335-341|1996|10.1080/07060669609500585
79898|T||Plumb,R.T., J.F. Jenkyn, and E.W. Broom|The Effects of Pesticides on a Perennial Ryegrass Sward|Plant Pathol.27(4): 151-159|1978|10.1111/j.1365-3059.1978.tb01107.x
79899|T||Whitehead,A.G., D.J. Tite, J.E. Fraser, and E.M. French|Control of Potato Cyst-Nematode, Globodera rostochiensis, in a Three-Course Rotation|J. Agric. Sci.95(2): 293-304|1980|10.1017/S0021859600039319
79900|T||Barnard,A.J., and D. Hornby|The Effects of Dazomet and Nitrogen Fertilizer on Successive Crops of Maize (Zea mays L.) Grown for Either Grain or Forage|J. Agric. Sci.98(1): 7-15|1982|10.1017/S0021859600041046
79901|T||Thies,W.G., and R.F. Patton|Evaluation of Cylindrocladium Root Rot Control by Fumigation|For. Sci.17(3): 323-331|1971|
79902|T||Morgan,W.C., A.S. Morgans, W.E. Birkenhead, and B. Stevenson|Soil Fumigation for Control of Solanum nigrum L. in Direct-Seeded Processing Tomatoes|J. Hortic. Sci.62(2): 233-241|1987|10.1080/14620316.1987.11515774
79903|T||Branham,B.E., G.A. Hardebeck, J.W. Meyer, and Z.J. Reicher|Turfgrass Renovation Using Dazomet to Control the Poa annua L. Soil Seed Bank|Hortscience39(7): 1763-1767|2004|10.21273/HORTSCI.39.7.1763
79904|T||Critchley,B.R.|Effects of Three Soil Fumigants on Carabidae|Plant Pathol.21(4): 188-194|1972|10.1111/j.1365-3059.1972.tb01757.x
79905|T||Whitehead,A.G., and D.J. Tite|Control of Stem Nematode (Ditylenchus dipsaci) Attacking Onions by Aldicarb and Dazomet in Sandy Loam|Plant Pathol.21(2): 89-92|1972|10.1111/j.1365-3059.1972.tb01732.x
79906|T||Harris,D.C.|Control of Verticillium Wilt and Other Soil-Borne Diseases of Strawberry in Britain by Chemical Soil Disinfestation|J. Hortic. Sci.65(4): 401-408|1990|10.1080/00221589.1990.11516072
79907|T||Trudgill,D.L., and D.J.F. Brown|The Effect of Crop Rotation and Chemical Soil Treatment on the Growth of Raspberry (Rubus idaeus) in Soils with Replant Problems|J. Hortic. Sci.67(4): 541-546|1992|10.1080/00221589.1992.11516281
79908|T||Wininger,S., V. Gadkar, A. Gamliel, Y. Skutelsky, E. Rabinowich, H. Manor, and Y. Kapulnik|Response of Chive (Allium schoenoprasum) to AM Fungal Application Following Soil Solarization Under Field Conditions|Symbiosis35(1-3): 117-128|2003|
79909|T||Buczacki,S.T., and J.G. White|The Value of Soil Sterilants for the Control of Clubroot on a Field Scale|Plant Pathol.28(1): 36-39|1979|10.1111/j.1365-3059.1979.tb02616.x
79910|T||Brisbin,I.L.,Jr., G.C. White, and P.B. Bush|PCB Intake and the Growth of Waterfowl:  Multivariate Analyses Based on a Reparameterized Richards Sigmoid Model|Growth50:1-11|1986|
79913|T||Williams,T.D., and G.A. Salt|The Effects of Soil Sterilants on the Cereal Cyst-Nematode (Heterodera avenae), Take-all (Ophiobolus graminis Sacc.) and Yields of Spring Wheat and Barley|Ann. Appl. Biol.66(2): 329-338|1970|10.1111/j.1744-7348.1970.tb06440.x
79914|T||Fye,R.L., G.C. LaBrecque, A.B. Borkovec, and J.,Jr. Morgan|Compounds Affecting Fertility of Adult House Flies|J. Econ. Entomol.62(2): 522-524|1969|10.1093/jee/62.2.522
79915|T||Slykhuis,J.T., and T.S.C. Li|Responses of Apple Seedlings to Biocides and Phosphate Fertilizers in Orchard Soils in British Columbia|Can. J. Plant Pathol.7(3): 294-301|1985|10.1080/07060668509501694
79916|T||Stevens,T.S.|The Use of Chemical Fumigants and Potential Alternatives at Weyerhaeuser Mima Nursery|U.S.For.Serv.Gen.Tech.Rep.PNW389:144-149|1997|
79917|T||Giannakou,I.O., A. Sidiropoulos, and D. Prophetou-Athanasiadou|Chemical Alternatives to Methyl Bromide for the Control of Root-Knot Nematodes in Greenhouses|Pest Manag. Sci.58(3): 290-296|2002|10.1002/ps.453
79918|T||Whitehead,A.G., J.E. Fraser, E.M. French, and S.M. Wright|Chemical Control of Potato Cyst-Nematode, Heterodera pallida, on Tomatoes Grown Under Glass|Ann. Appl. Biol.80(1): 75-84|1975|10.1111/j.1744-7348.1975.tb01601.x
79919|T||Whitehead,A.G., D.J. Tite, J.E. Fraser, and E.M. French|Control of Potato Cyst-Nematode, Heterodera rostochiensis, in Sandy, Peaty, and Silt Loam Soils by Dazomet and Telone Applied in Different Ways|Ann. Appl. Biol.75(2): 257-265|1973|10.1111/j.1744-7348.1973.tb07306.x
79922|T||Ebbels,D.L.|Effects of Soil Fumigation on Soil Nitrogen and on Disease Incidence in Winter Wheat|Ann. Appl. Biol.67(2): 235-243|1971|10.1111/j.1744-7348.1971.tb02924.x
79923|T||Benlioglu,S., A. Yildiz, and T. Doken|Studies to Determine the Causal Agents of Soil-Borne Fungal Diseases of Strawberries in Aydin and to Control them by Soil Disinfestation|J. Phytopathol.152(8/9): 509-513|2004|10.1111/j.1439-0434.2004.00888.x
79924|T||Enebak,S., M.A. Palmer, and R.A. Blanchette|Managing Soilborne Pathogens of White Pine in a Forest Nursery|Plant Dis.74(3): 195-198|1990|10.1094/PD-74-0195
79925|T||Lager,J., and A.C. Wallenhammar|Crop Loss from Soil-Borne Pathogens in White Clover Stands Assessed by Chemical Treatments|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)110(2): 120-128|2003|
79926|T||Raymundo,S.A., J. Alcazar, and R. Salas|Effectiveness of Soil Solarization and Dazomet in Controlling Root-Knot Nematode and Weeds in Potato Fields|Philipp. Agric.69(1): 89-97|1986|
79927|T||Tiwari,S.P., I. Vadhera, and B.N. Shukla|Management of Meloidogyne incognita in Tomato Through Nursery Bed Treatment, Solarization and Neem Cake|Indian Phytopathol.55(2): 244-246|2002|
79928|T||Baxter,P.|Orchard Soil Management Trials.  3.  Effect of Soil Fumigation and Soil Management on Replanted Apple Trees|Aust. J. Exp. Agric. Anim. Husb.17(86): 510-514|1977|10.1071/EA9770510
79929|T||Porter,I.J., P.R. Merriman, and P.J. Keane|Soil Solarisation Combined with Low Rates of Soil Fumigants Controls Clubroot of Cauliflowers, Caused by Plasmodiophora brassicae Woron|Aust. J. Exp. Agric.31(6): 843-851|1991|10.1071/EA9910843
79930|T||El-Bassiouny,H.M.S., and S.A.R. Mohamed|Growth, Endogenous Phytohormones and Chemical Constituents of Vicia faba Yield Seeds in Response to the Stimulatory Bioregulator of Basamid|Egypt. J. Physiol. Sci.23(1/2): 229-246|1999|
79932|T||Eltohamy,M.M., H. Takahara, and M. Okumoto|Temporal Effects of high Dietary Zinc on the Histological Changes Produced in White Leghorn Cocks|J. Fac. Agric. Kyushu Univ.24(4): 189-199|1980|10.5109/23709
79934|T||Medina,J.J., L. Miranda, F. Romero, B. De los Santos, F. Montes, J.M. Vega, J.I. Paez, J. Bascon, and J.M. Lopez-Aranda|Six-Year Work on Alternatives to Methyl Bromide (MB) for Strawberry Production in Huelva (Spain)|Acta Hortic.649:251-254|2004|10.17660/ActaHortic.2004.649.47
79935|T||Patel,H.R., and B.N. Patel|Evaluation of Dazomet (Basamid G) Against Rove Beetles, Damping-off, Weeds and Nematodes in Bidi Tobacco Nursery|J. Mycol. Plant Pathol.28(2): 134-139|1998|
79936|T||Trudgill,D.L.|Control of Pratylenchus penetrans and Other Replanting Disorders in Raspberries with Dazomet|Br. Crop Prot. Conf. Pests Dis.1:211-214|1979|
79937|T||Dixon,G.R., and F. Wilson|Evaluation of Calcium Cyanamide for Control of Plasmodiophora brassicae (Clubroot)|Tests Agrochem. Cultiv.4:50-51|1983|
79938|T||Moffat,A.J.|Nursery Sterilization and Inoculation Regimes for Alder Production|Forestry67(4): 313-327|1994|10.1093/forestry/67.4.313
79939|T||Thompson,L.S., and C.B. Willis|Effect of Nematicides on Root Lesion Nematodes and Forage Legume Yields|Can. J. Plant Sci.50(5): 577-581|1970|10.4141/cjps70-107
79940|T||Bailey,K.L., L.J. Duczek, and D.A. Potts|Inoculation of Seeds with Bipolaris sorokiniana and Soil Fumigation Methods to Determine Wheat and Barley Tolerance and Yield Losses Caused by Common Root Rot|Can. J. Plant Sci.77(4): 691-698|1997|10.4141/P96-186
79941|T||Park,B.S., and P.J. Landschoot|Effect of Dazomet on Annual Bluegrass Emergence and Creeping Bentgrass Establishment in Turf Maintained as a Golf Course Fairway|Crop Sci.43(4): 1387-1394|2003|10.2135/cropsci2003.1387
79942|T||Pages,J., and J.L. Notteghem|Effects of Soil Treatment Practices on Pink Root Disease of Onion in the Senegalese Cultivation System|Int. J. Pest Manag.42(1): 29-34|1996|10.1080/09670879609371965
79943|T||Nath,V.|Relative Effectiveness of Some Chemical Insecticides Against White Grub Holotrichia consanguinea|Indian J. Plant Prot.8(1): 45-48|1980|
79944|T||Tu,C.M., C.F. Marks, P.W. Johnson, and J.M. Elliot|Effects of Nematicides on Populations of Soil Microflora and Pratylenchus penetrans, Soil Enzymes and Flue-Cured Tobacco|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(1): 95-111|1995|
79946|T||Benbrahim,K.F., and M. Ismaili|Interactions in the Symbiosis of Acacia saligna with Glomus mosseae and Rhizobium in a Fumigated and Unfumigated Soil|Arid Land Res. Manag.16(4): 365-376|2002|10.1080/15324980290000458
79947|T||Lopez-Aranda,J.M., J.J. Medina, L. Miranda, R. Bartual, V. Cebolla, F. Dominguez, and J. Lopez-Medina|The Spanish Project on Alternatives to Methyl Bromide (1): The Case of Strawberry in the Area of Huelva|Acta Hortic.567:427-430|2002|10.17660/ActaHortic.2002.567.88
79948|T||Whitehead,A.G.|Chemical Control of Potato Cyst-Nematode|Res. Rev.1(1): 17-23|1975|
79949|T||Bond,W., and J.G. White|Effect of Sheeting with Polyethylene on Weed Control with Three Soil Partial Sterilants|Tests Agrochem. Cultiv.4:114-115|1983|
79950|T||Melville,S.C., T.M. O'Neill, and G.W. Griffin|Control of Club Root by Soil Treatments|Br. Crop Prot. Conf. Pests Dis.(3): 1149-1153|1984|
79951|T||Scott,G.C., J.A. Pickett, M.C. Smith, C.M. Woodcock, P.G.W. Harris, R.P. Hammon, and H.D. Koetecha|Seed Treatments for Controlling Slugs in Winter Wheat|Br. Crop Prot. Conf. Pests Dis.1:133-138|1984|
79952|A||Union Carbide Corp.|Glutaraldehyde - Reduction of Fish Toxicity by Reaction with Sodium Bisulfite, with Cover Letter Dated 6/24/96|EPA/OTS Doc.#86960000551:16 p.|1996|
79953|T||Koller,L.D., J.H. Exon, and K.C. Norbury|Induction of Humoral Immunity to Protein Antigen Without Adjuvant in Rats Exposed to Immunosuppresive Chemicals|J. Toxicol. Environ. Health12(2/3): 173-181|1983|10.1080/15287398309530416
79954|T||McCormack,K.M., A. Abuelgasim, V.L. Sanger, and J.B. Hook|Postnatal Morphology and Functional Capactity of the Kidney Following Prenatal Treatment with Dinoseb in Rats|J. Toxicol. Environ. Health6:633-643|1980|10.1080/15287398009529881
79955|T||Ways,S.C., P.B. Blair, H.A. Bern, and M.O. Staskawicz|Immune Responsiveness of Adult Mice Exposed Neonatally to Diethylstilbestrol, Steroid Hormones, or Vitamin A|J. Environ. Pathol. Toxicol.3(5-6): 207-220|1980|
79957|T||Vannier,B., and J. Raynaud|Long-Term Effects of Prenatal Oestrogen Treatment on Genital Morphology and Reproductive Function in the Rat|J. Reprod. Fertil.59:43-49|1980|10.1530/jrf.0.0590043
79958|T||Einhellig,F.A.|Interactions Involving Allelopathy in Cropping Systems|Agron. J.88(6): 886-893|1996|10.2134/agronj1996.00021962003600060007x
79959|T||Ahonsi,M.O., D.K. Berner, A.M. Emechebe, and S.T. Lagoke|Effects of ALS-Inhibitor Herbicides, Crop Sequence, and Fertilization on Natural Soil Suppressiveness to Striga hermonthica|Agric. Ecosyst. Environ.104(3): 453-463|2004|10.1016/j.agee.2004.01.042
79960|T||Hanada,M., C. Yutani, and T. Miyaji|Induction of Hepatoma in Mice by Benzene Hexachloride|Gann64:511-513|1973|
79961|T||Preache,M.M., and J.E. Gibson|Effect of Food Deprivation, Phenobarbital, and SKF-525A on Teratogenicity Induced by 2-sec-Butyl-4,6-Dinitrophenol (Dinoseb) and on Disposition of [14C] Dinoseb in Mice|J. Toxicol. Environ. Health1:107-118|1975|10.1080/15287397509529311
79962|T||Carrow,R.N., and P.E. Rieke|Effect of Tricalcium Arsenate Formulations on Control of Annual Bluegrass (Poa annua L.)|Weed Sci.25(4): 364-367|1977|10.1017/S0043174500033646
79963|T||Johnson,B.J.|Transition from Overseeded Cool-Season Grass to Warm-Season Grass with Pronamide|Weed Sci.24(3): 309-311|1976|10.1017/S0043174500066029
79964|T||Nicolau,G.Y., and E. Socoliuc|Effects of Atrazine on Circadian RNA, DNA and Total Protein Rhythms in the Thyroid and Adrenal|Rev. Roum. Med. Endocrinol.18(3): 161-166|1980|
79965|T||Watanabe,T., T. Shimada, and A. Endo|Mutagenic Effects of Cadmium on the Oocyte Chromosomes of Mice|Jpn. J. Hyg. (Non-English)32(3): 472-481|1977|
79966|T||Roy,A.K., G. Talukder, and A. Sharma|Modifying Effects of Calcium on Aluminum Induced Toxicity in Mammalian Tissues In Vivo|Gegenbaurs Morphol. Jahrb.136(2): 155-161|1990|
79968|T||Butterworth,K.R., F.M.B. Carpanini, I.F. Gaunt, J. Hardy, I.S. Kiss, and S.D. Gangolli|Short-Term Toxicity of Dimethyl Sulfide in the Rat|Food Cosmet. Toxicol.13:15-22|1975|10.1016/0015-6264(75)90078-4
79969|T||Karaivazoglou,N.A., D.K. Papakosta, and S. Divanidis|Effect of Chloride in Irrigation Water and Form of Nitrogen Fertilizer on Virginia (Flue-Cured) Tobacco|Field Crops Res.92(1): 61-74|2005|10.1016/j.fcr.2004.09.006
79970|T||Moorman,T.B., and C.C. Dowler|Herbicide and Rotation Effects on Soil and Rhizosphere Microorganisms and Crop Yields|Agric. Ecosyst. Environ.35(4): 311-325|1991|10.1016/0167-8809(91)90081-8
79971|T||Ramesh,H.P., S. Viswanatha, and R.N. Tharanathan|Safety Evaluation of Formulations Containing Carboxymethyl Derivatives of Starch and Chitosan in Albino Rats|Carbohydr. Polym.58(4): 435-441|2004|10.1016/j.carbpol.2004.08.007
79973|T||Reuber,M.D.|Carcinomas, Sarcomas and Other Lesions in Osborne-Mendel Rats Ingesting Endrin|Exp. Cell Biol.46(3): 129-145|1978|
79974|T||Luster,M.I., G.A. Boorman, J.H. Dean, R.W. Luebke, and L.D. Lawson|The Effect of Adult Exposure to Diethylstilbestrol in the Mouse:  Alterations in Immunological Functions|J. Reticuloendothel. Soc.28(6): 561-569|1980|
79975|T||Dean,J.H., M.I. Luster, G.A. Boorman, R.W. Luebke, and L.D. Lauer|The Effect of Adult Exposure to Diethylstilbestrol in the Mouse:  Alterations in Tumor Susceptibility and Host Resistance Parameters|J. Reticuloendothel. Soc.28(6): 571-583|1980|
79977|A||Whyte,J.J.|Methodologies for Evaluating Planar Chlorinated Hydrocarbon (PCH) and Polycyclic Aromatic Hydrocarbon (PAH) Exposure and Bioconcentration in Fish|Ph.D.Thesis, University of Waterloo, Ontario, Canada:220 p.|1999|
79978|A||Munro,K.A.|Population-Level and Suborganismal Responses in Fish due to Chronic Creosote Exposure in Aquatic Microcosms|M.S.Thesis, Univ.of Guelph, Ontario,Canada:201 p.|2002|
79979|A||Fisheries Research Institute|Effects of Crude Oil on Chemoreception & Homing in Pacific Salmon with Cover Letter (Sequence D)|EPA/OTS Doc.#FYI-AX-0428-0161:6 p.|1982|
79980|A||Fisheries Research Institute|Draft Final Report for Effects of Crude Oil on Chemoreception & Homing in Pacific Salmon with Cover Letter (Sequence I)|EPA/OTS Doc.#FYI-AX-1083-0161:147 p.|1983|
79981|A||Fisheries Research Institute|Effects of Crude Oil on Chemoreception & Homing in Pacific Salmon with Cover Letter (Sequence E)|EPA/OTS Doc.#FYI-AX-0582-0161:10 p.|1982|
79982|A||Fisheries Research Institute|Effects of Crude Oil on Chemoreception & Homing in Pacific Salmon Final Report with Cover Letter (Sequence G)|EPA/OTS Doc.#FYI-AX-0682-0161:127 p.|1982|
79983|T||Wolfe,G.W.|Subchronic Toxicity in Rats with m-Xylene|Final Rep., Hazelton Lab.Am.Inc., Rockville, MD:456 p.|1988|
79984|T||Rautio,P., E. Kukkola, and S. Huttunen|Alterations in the Nutrient Status of Scots Pine Seedlings Grown in Copper- and Nickel-Treated Soil|J. Appl. Bot.78(1): 48-57|2004|
79985|A||Saha,M.K., and S.K. Konar|Chronic Sublethal Effects of Crude Petroleum on Fish|Environ. Ecol.4(3): 494-499|1986|
79986|T||Jiang,L.Y., X.E. Yang, W.Y. Shi, Z.Q. Ye, and Z.L. He|Copper Uptake and Tolerance in Two Contrasting Ecotypes of Elsholtzia argyi|J. Plant Nutr.27(12): 2067-2083|2004|10.1081/PLN-200034635
79987|A||Yeh,S.T., C.H. Liu, and J.C. Chen|Effect of Copper Sulfate on the Immune Response and Susceptibility to Vibrio alginolyticus in the White Shrimp Litopenaeus vannamei|Fish Shellfish Immunol.17(5): 437-446|2004|10.1016/j.fsi.2004.04.016
79988|T||Barik,K.C., and A.S. Chandel|Effect of Copper Levels on Growth, Grain Yield and Copper Uptake Different Varieties of Soybean (Glycine max)|Indian J. Agric. Sci.71(2): 118-120|2001|
79989|T||Lahiri,P., and S. Sircar|Suppression of Adrenocortical Function in Female Mice by Lindane (gamma-HCH)|Toxicology66(1): 75-79|1991|10.1016/0300-483X(91)90179-5
79992|T||Henderson,J.D., R.J. Higgins, J.C. Dacre, and B.W. Wilson|Neurotoxicity of Acute and Repeated Treatments of Tabun, Paraoxon, Diisopropyl Fluorophosphate and Isofenphos to the Hen|Toxicology72(2): 117-129|1992|10.1016/0300-483X(92)90106-O
79994|T||Patterson,G.T., R.C. Gupta, K.E. Misulis, and W.D. Dettbarn|Prevention of Diisopropylphosphorofluoridate (DFP)-Induced Skeletal Muscle Fiber Lesions in the Rat|Toxicology48(3): 237-244|1988|10.1016/0300-483X(88)90104-7
79995|T||Andrews,J.E., and L.E. Gray|The Effects of Lindane and Linuron on Calcium Metabolism, Bone Morphometry and the Kidney in Rats|Toxicology60(1-2): 99-107|1990|10.1016/0300-483X(90)90165-D
79997|T||DeKlerk,D.P., D.S. Coffey, L.L. Ewing, I.R. McDermott, W.G. Reiner, C.H. Robinson, W.W. Scott, J.D. Standberg, P. Talal|Comparison of Spontaneous and Experimentally Induced Canine Prostatic Hyperplasia|J. Clin. Invest.64:842-849|1979|10.1172/JCI109532
79999|T||Donna,A., P.G. Betta, F. Robutti, and D. Bellingeri|Carcinogenicity Testing of Atrazine:  Preliminary Report on a 13-Month Study on Male Swiss Albino Mice Treated by Intraperitoneal Administration|G. Ital. Med. Lav.8:119-121|1986|
80001|A||Tanguy,A., I. Boutet, F. Bonhomme, P. Boudry, and D. Moraga|Polymorphism of Metallothionein Genes in the Pacific Oyster Crassostrea gigas as a Biomarker of Response to Metal Exposure|Biomarkers (Lond.)7(6): 439-450|2002|10.1080/13547500210157531
80002|A||Lopes,I., D.J. Baird, and R. Ribeiro|Avoidance of Copper Contamination by Field Populations of Daphnia longispina|Environ. Toxicol. Chem.23(7): 1702-1708|2004|10.1897/03-231
80003|T||Vassilev,A., F.C. Lidon, M.D.C. Matos, J.C. Ramalho, and I. Yordanov|Photosynthetic Performance and Content of Some Nutrients in Cadmium- and Copper-Treated Barley Plants|J. Plant Nutr.25(11): 2343-2360|2002|10.1081/PLN-120014699
80004|A||Morley,N.J., K.M.Y. Leung, D. Morritt, and M. Crane|Toxicity of Anti-Fouling Biocides to Encysted Metacercariae of Echinoparyphium recurvatum (Digenea:  Echinostomatidae) and Their Snail Hosts|Chemosphere56(4): 353-358|2004|10.1016/j.chemosphere.2004.01.009
80005|A||Sobrero,M.C., J. Beltrano, and A.E. Ronco|Comparative Response of Lemnaceae Clones to Copper(II), Chromium(VI), and Cadmium(II) Toxicity|Bull. Environ. Contam. Toxicol.73(2): 416-423|2004|10.1007/s00128-004-0445-6
80006|A||Wong,C.K., and A.P. Pak|Acute and Subchronic Toxicity of the Heavy Metals Copper, Chromium, Nickel, and Zinc, Individually and in Mixture, to the Freshwater Copepod Mesocyclops pehpeiensis|Bull. Environ. Contam. Toxicol.73(1): 190-196|2004|10.1007/s00128-004-0412-2
80008|A||Handy,R.D.|Chronic Effects of Copper Exposure Versus Endocrine Toxicity:  Two Sides of the Same Toxicological Process?|Comp. Biochem. Physiol. A Mol. Integr. Physiol.135(1): 25-38|2003|10.1016/S1095-6433(03)00018-7
80009|A||Wang,Z., S. Huang, and Q. Liu|Use of Anodic Stripping Voltammetry in Predicting Toxicity of Copper in River Water|Environ. Toxicol. Chem.21(9): 1788-1795|2002|10.1002/etc.5620210905
80010|T||Van der Kooij,T.A.W., and L.J. De Kok|Variation in Response of Arabidopsis thaliana Lines to Atmospheric SO2 Exposure|Phyton (Horn) (Multiple Languages)40(3): 119-124|2000|
80011|A||Guasch,H., M. Paulsson, and S. Sabater|Effect of Copper on Algal Communities from Oligotrophic Calcareous Streams|J. Phycol.38(2): 241-248|2002|10.1046/j.1529-8817.2002.01114.x
80012|T||Hill,S.A., S.C. Miyasaka, and R.S. Yost|Taro Responses to Excess Copper in Solution Culture|Hortscience35(5): 863-867|2000|10.21273/HORTSCI.35.5.863
80013|T||Ratnasooriya,W.D., and R. Balasuriya|Effects on Reproduction in Male Rats Following Short-Term Exposure to Hexavalent Chromium|Med. Sci. Res.20(3): 111-113|1992|
80014|A||Saha,M.K., and S.K. Konar|Chronic Effects of Crude Petroleum on Aquatic Ecosystem|Environ. Ecol.4(3): 506-510|1986|
80015|A||Niyogi,S., S. Biswas, A. Mitra, and A.G. Datta|Induction of Antioxidant Enzymes in Barnacle Balanus balanoides as Biomarkers for Short Term Toxicity Tests|J. Ecotoxicol. Environ. Monit.10(1): 31-35|2000|
80016|T||Chaoui,A., and E. El Ferjani|Effects of Cadmium and Copper on Antioxidant Capacities, Lignification and Auxin Degradation in Leaves of Pea (Pisum sativum L.) Seedlings|C. R. Biol. (Multiple Languages)328(1): 23-31|2005|10.1016/j.crvi.2004.10.001
80017|A||Chen,J.C., and C.H. Lin|Toxicity of Copper Sulfate for Survival, Growth, Molting and Feeding of Juveniles of the Tiger Shrimp, Penaeus monodon|Aquaculture192(1): 55-65|2001|10.1016/S0044-8486(00)00442-7
80018|T||Barsyte,D., D.A. Lovejoy, and G.J. Lithgow|Longevity and Heavy Metal Resistance in daf-2 and Age-1 Long-Lived Mutants of Caenorhabditis elegans|FASEB J.15(3): 627-634|2001|10.1096/fj.99-0966com
80019|A||Kieu,N.D., E. Michels, and L. De Meester|Phototactic Behavior of Daphnia and the Continuous Monitoring of Water Quality:  Interference of Fish Kairomones and Food Quality|Environ. Toxicol. Chem.20(5): 1098-1103|2001|10.1002/etc.5620200522
80020|A||Beaumont,M.W., P.J. Butler, and E.W. Taylor|Exposure of Brown Trout Salmo trutta to a Sublethal Concentration of Copper in Soft Acidic Water:  Effects upon Gas Exchange and Ammonia Accumulation|J. Exp. Biol.206(1): 153-162|2003|10.1242/jeb.00060
80021|T||Santamaria,A., A. Flores-Escartin, J.C. Martinez, L. Osorio, S. Galvan-Arzate, J.P. Chaverri, P.D. Maldonado, O.N. Medi|Copper Blocks Quinolinic Acid Neurotoxicity in Rats:  Contribution of Antioxidant Systems|Free Radic. Biol. Med.35(4): 418-427|2003|10.1016/S0891-5849(03)00317-4
80023|T||Engle,T.E., V. Fellner, and J.W. Spears|Copper Status, Serum Cholesterol, and Milk Fatty Acid Profile in Holstein Cows Fed Varying Concentrations of Copper|J. Dairy Sci.84(10): 2308-2313|2001|10.3168/jds.S0022-0302(01)74678-4
80024|A||Valarmathi,S., and J. Azariah|Biochemical Changes in Tissues of Crab Sesarma quadratum (Decapoda) Exposed to CuCl2|Indian J. Mar. Sci.31(3): 246-248|2002|
80025|A||Curtis,T.M., R. Williamson, and M.H. Depledge|Simultaneous, Long-Term Monitoring of Valve and Cardiac Activity in the Blue Mussel Mytilus edulis Exposed to Copper|Mar. Biol.136(5): 837-846|2000|10.1007/s002270000297
80026|T||Zheljazkov,V.D., and P.R. Warman|Application of High Cu Compost to Swiss Chard and Basil|Sci. Total Environ.302(1-3): 13-26|2003|10.1016/S0048-9697(02)00390-X
80027|A||Nielsen,H.D., C. Brownlee, S.M. Coelho, and M.T. Brown|Inter-population Differences in Inherited Copper Tolerance Involve Photosynthetic Adaptation and Exclusion Mechanisms in Fucus serratus|New Phytol.160(1): 157-165|2003|10.1046/j.1469-8137.2003.00864.x
80028|T||Elars Bioresearch Laboratory Inc.|Chronic I Mouse Skin Painting Study|EPA/OTS Doc.#88-8300439:17 p.|1982|
80029|T||Tolgyesi,E., A.M. Schwartz, C.A. Rader, and R.E. Bry|Mothproofing with Ammonium Quats|Chem. Technol.:27-30|1971|
80030|T||O'Connor,C.S., N.W. Lepp, R. Edwards, and G. Sunderland|The Combined Use of Electrokinetic Remediation and Phytoremediation to Decontaminate Metal-Polluted Soils:  A Laboratory-Scale Feasibility Study|Environ. Monit. Assess.84(1/2): 141-158|2003|10.1023/A:1022851501118
80031|T||Debacker,V., A. Rutten, T. Jauniaux, C. Daemers, and J.M. Bouquegneau|Combined Effects of Experimental Heavy-Metal Contamination (Cu, Zn, and CH3Hg) and Starvation on Quail's Body Condition:  Parallelism with a Wild Common Guillemot (Uria aalge) Population Found Stranded at the Belgian Co|Biol. Trace Elem. Res.82(1-3): 87-107|2001|10.1385/BTER:82:1-3:087
80032|T||Shainberg,O., B. Rubin, H.D. Rabinowitch, and E. Tel-Or|Loading Beans with Sublethal Levels of Copper Enhances Conditioning to Oxidative Stress|J. Plant Physiol.158(11): 1415-1421|2001|10.1078/0176-1617-00626
80033|T||Thomas,J.C., M. Perron, and E.C. Davies|Genetic Responsiveness to Copper in the Ice Plant, Mesembryanthemum crystallinum|Plant Sci.167(2): 259-266|2004|10.1016/j.plantsci.2004.03.022
80034|T||Zheng,Y., L. Wang, and M.A. Dixon|Response to Copper Toxicity for Three Ornamental Crops in Solution Culture|Hortscience39(5): 1116-1120|2004|10.21273/HORTSCI.39.5.1116
80035|T||Ghosh,T.K., and S.K. Chatterjee|Effect of Sodium Bisulfite on Acid and Alkaline Phosphatase Activities of Mice Brain|Environ. Ecol.2(2): 91-93|1984|
80036|T||Arnold,R.E., C.J. Langdon, M.E. Hodson, and S. Black|Development of a Methodology to Investigate the Importance of Chemical Speciation on the Bioavailability of Contaminants to Eisenia andrei|Pedobiologia (Multiple Languages)47(5-6): 633-639|2003|
80038|A||Tandon,S.S., P.P. Srivastava, S.C. Mukherjee, and N. Saharan|Acute Toxicity of Synthetic Pyrethroids to Indian Major Carp, Catla catla L.|Bull. Environ. Contam. Toxicol.74(3): 610-613|2005|10.1007/s00128-005-0627-x
80039|A||Zaroni,L.P., D.M.S. Abessa, G.R. Lotufo, E.C.P.M. Sousa, and Y.A. Pinto|Toxicity Testing with Embryos of Marine Mussels:  Protocol Standardization for Perna perna (Linnaeus, 1758)|Bull. Environ. Contam. Toxicol.74(4): 793-800|2005|10.1007/s00128-005-0651-x
80040|A||Martins,N., I. Lopes, L. Guilhermino, M.J. Bebianno, and R. Ribeiro|Lack of Evidence for Metallothionein Role in Tolerance to Copper by Natural Populations of Daphnia longispina|Bull. Environ. Contam. Toxicol.74(4): 761-768|2005|10.1007/s00128-005-0647-6
80041|T||Kavlock,R.J., N. Chernoff, and E.H. Rogers|The Effect of Acute Maternal Toxicity on Fetal Development in the Mouse|Teratog. Carcinog. Mutagen.5:3-13|1985|10.1002/tcm.1770050103
80042|T||Taylor,B.A., H.J. HeinIger, and H. Meier|Genetic Analysis of Resistance to Cadmium-Induced Testicular Damage in Mice|Proc. Soc. Exp. Biol. Med.143:629-633|1973|10.3181/00379727-143-37380
80043|T||Cunningham,H.M., J.M. Brown, and A.E. Edie|Molybdenum Poisoning of Cattle in the Swan River Valley of Manitoba|Can. J. Agric. Sci.33:254-260|1953|
80046|T||Das,S.N., B.N. Paul, A.K. Saxena, and P.K. Ray|Effect of In Utero Exposure to Hexachlorocyclohexane on the Developing Immune System of Mice|Immunopharmacol. Immunotoxicol.12(2): 293-310|1990|10.3109/08923979009019674
80047|T||Meera,P., P.R. Rao, R. Shanker, and O. Tripathi|Immunomodulatory Effects of gamma-HCH (Lindane) in Mice|Immunopharmacol. Immunotoxicol.14(1/2): 261-282|1992|10.3109/08923979209009224
80048|T||Appel,R.J., and V.P. Eroschenko|Passage of Methoxychlor in Milk and Reproductive Organs of Nursing Female Mice; 1.  Light and Scanning Electron Microscopic Observations|Reprod. Toxicol.6(3): 223-231|1992|10.1016/0890-6238(92)90177-U
80052|T||McLean,J.R.F.|Control of Poa annua in Fine Turf Using Ethofumesate|Proc. N. Z. Weed Pest Control Conf.31:192-194|1978|10.30843/nzpp.1978.31.9367
80053|T||Adams,A.W., R.J. Emerick, and C.W. Carlson|Effects of Nitrate and Nitrite in the Drinking Water on Chicks, Poults and Laying Hens|Poult. Sci.45:1215-1222|1966|10.3382/ps.0451215
80055|T||Brawer,J.R., F. Naftolin, J. Martin, and C. Sonnenschein|Effects of a Single Injection of Estradiol Valerate on the Hypothalamic Arcuate Nucleus and on Reproductive Function in the Female Rat|Endocrinology103(2): 501-512|1978|10.1210/endo-103-2-501
80056|T||Cole,M.A., and A.J. Turgeon|Microbial Activity in Soil and Litter Underlying Bandane- and Calcium Arsenate-Treated Turfgrass|Soil Biol. Biochem.10:181-186|1978|10.1016/0038-0717(78)90094-9
80057|T||Pawlak,J.A., J.J. Kells, M. Barrett, and W.F. Meggitt|Effect of Atrazine Residue on Soybean Growth Under Three Tillage Systems and Various Herbicides|Weed Technol.1(2): 140-144|1987|10.1017/S0890037X0002933X
80058|T||Bruce,J.A., D. Penner, and J.J. Kells|Absorption and Activity of Nicosulfuron and Primisulfuron in Quackgrass (Elytrigia repens) as Affected by Adjuvants|Weed Sci.41(2): 218-224|1993|10.1017/S0043174500076098
80059|T||Moyer,J.R., and R.E. Blackshaw|Effect of Soil Moisture on Atrazine and Cyanazine Persistence and Injury to Subsequent Cereal Crops in Southern Alberta|Weed Technol.7(4): 988-994|1993|10.1017/S0890037X00038124
80060|T||Lee,W.O.|Control of Annual Bluegrass (Poa annua) in Perennial Ryegrass (Lolium perenne) Seed Fields|Weed Sci.29(4): 444-447|1981|10.1017/S0043174500039977
80061|T||SRI International|Initial Submission:  Letter Submitting Four Enclosed Studies on 2-Propenal with Attachments|EPA/OTS Doc.#88-920000355:151 p.|1991|
80063|T||Zhu,Y.C., G.L. Snodgrass, and M.S. Chen|Enhanced Esterase Gene Expression and Activity in a Malathion-Resistant Strain of the Tarnished Plant Bug, Lygus lineolaris|Insect Biochem. Mol. Biol.34(11): 1175-1186|2004|10.1016/j.ibmb.2004.07.008
80064|T||Abo-Elghar,G.E., P. Fujiyoshi, and F. Matsumura|Significance of the Sulfonylurea Receptor (SUR) as the Target of Diflubenzuron in Chitin Synthesis Inhibition in Drosophila melanogaster and Blattella germanica|Insect Biochem. Mol. Biol.34(8): 743-752|2004|10.1016/j.ibmb.2004.03.009
80065|T||Lazowski,E.J., and J.K. Hall|Triazine Herbicide Residues in Corn Production Systems:  Effects of Tillage, Application Rate and Liming on Persistence|Soil Tillage Res.21(1/2): 133-145|1991|10.1016/0167-1987(91)90011-L
80066|A||Union Carbide Corp.|Chronic Toxicity of Acrolein to Ceriodaphnia dubia with Cover Letter Dated 07/23/1997|EPA/OTS Doc.#86970000815:12 p.|1997|
80067|AT||Baker Performance Chemicals Inc.|Letter from Baker Performance Chemicals Inc. to U.S. EPA Submitting Enclosed List of Studies on 2-Propenal with Attachments|EPA/OTS Doc.#86-920000530:14 p.|1991|
80069|T||Galloway,B.A., and L.A. Weston|Influence of Cover Crop and Herbicide Treatment on Weed Control and Yield in No-Till Sweet Corn (Zea mays L.) and Pumpkin (Cucurbita maxima Duch.)|Weed Technol.10(2): 341-346|1996|10.1017/S0890037X00040069
80070|T||Boydston,R.A., and F.W. Slife|Alterations of Atrazine Uptake and Metabolism by Tridiphane in Giant Foxtail (Setaria faberi) and Corn (Zea mays)|Weed Sci.34(6): 850-858|1986|10.1017/S0043174500067990
80071|T||Nelson,S.D., and S.U. Khan|Uptake of Atrazine by Hyphae of Glomus Vesicular-Arbuscular Mycorrhizae and Root Systems of Corn (Zea mays L.)|Weed Sci.40(1): 161-170|1992|10.1017/S0043174500057131
80072|T||Adedipe,N.O., R.E. Barrett, and D.P. Ormrod|Phytotoxicity and Growth Responses of Ornamental Bedding Plants to Ozone and Sulfur Dioxide|J. Am. Soc. Hortic. Sci.97(3): 341-345|1972|10.21273/JASHS.97.3.341
80073|T||Salzman,F.P., and K.A. Renner|Response of Soybean to Combinations of Clomazone, Metribuzin, Linuron, Alachlor, and Atrazine|Weed Technol.6(4): 922-929|1992|10.1017/S0890037X00036484
80075|T||Browning,M., C. Dawson, S.R. Alm, J.H. Gorres, and J.A. Amador|Differential Effects of Butyric Acid on Nematodes from Four Trophic Groups|Appl. Soil Ecol.27(1): 47-54|2004|10.1016/j.apsoil.2004.03.005
80078|T||Carcinogenesis Program|Bioassay of Lindane for Possible Carcionogenicity|Natl.Cancer Inst.Tech.Rep.Ser.No.14,DHEW Pub.(NIH)77-814, Bethesda, MD:99 p.|1977|
80079|T||Iguchi,T., and N. Takasugi|Polyovular Follicles in the Ovary of Immature Mice Exposed Prenatally to Diethylstilbestrol|Anat. Embryol.175:53-55|1986|10.1007/BF00315455
80080|T||Butcher,J.A., A.F. Preston, and J. Drysdale|Initial Screening Trials of Some Quaternary Ammonium Compounds and Amine Salts as Wood Preservatives|For. Prod. J.27(7): 19-22|1977|
80081|T||Gries,C., M.J. Sanz, and T.H. Nash III|The Effect of SO2 Fumigation on CO2 Gas Exchange, Chlorophyll Fluorescence and Chlorophyll Degradation in Different Lichen Species from Western North America|Cryptogam. Bot.5(3): 239-246|1995|
80082|T||He,P., A. Radunz, K.P. Bader, and G.H. Schmid|A Quantitative Evaluation of the Lipid Composition of Leaves of Aleurites montana as a Consequence of Growth Under 0.3 ppm SO2 in the Atmosphere|Z. Naturforsch. Sect. C J. Biosci.52(5/6): 325-328|1997|10.1515/znc-1997-5-608
80083|T||Tsunoda,K., and K. Nishimoto|Effectiveness of Alkylammonium Compounds as Above-Ground Wood Preservatives|Mokuzai Gakkaishi33(7): 589-595|1987|
80084|T||Yang,M.J., X.E. Yang, and V. Romheld|Growth and Nutrient Composition of Elsholtzia splendens Nakai Under Copper Toxicity|J. Plant Nutr.25(7): 1359-1375|2002|10.1081/PLN-120005395
80085|T||Guschina,I.A., and J.L. Harwood|Effect of Copper and Lead on Lipid Metabolism in Bryophytes and Lichens|Biochem. Soc. Trans.28(6): 910-912|2000|10.1042/bst0280910
80086|A||Saha,M.K.|Toxicity of Petroleum Products to Plankton, Worm and Fish|Environ. Ecol.1(1): 61-62|1983|
80087|T||Chowdhury,S.D., I.K. Paik, H. Namkung, and H.S. Lim|Responses of Broiler Chickens to Organic Copper Fed in the Form of Copper-Methionine Chelate|Anim. Feed Sci. Technol.115(3-4): 281-293|2004|10.1016/j.anifeedsci.2004.03.009
80088|A||Morelli,E., and G. Scarano|Copper-Induced Changes of Non-Protein Thiols and Antioxidant Enzymes in the Marine Microalga Phaeodactylum tricornutum|Plant Sci.167(2): 289-296|2004|10.1016/j.plantsci.2004.04.001
80089|A||Dow Chemical Co.|Initial Submission:  Toxicity of Dowicide EC-7 to Freshwater Organisms (Final Report) with Cover Letter Dated 012092|EPA/OTS Doc.#88-920000682:14 p.|1992|
80090|A||Maheshwari,R.U., K. Elango, V. Gayathri, and N. Anand|Differential Response of Cyanobacteria to Copper|Phykos40(1-2): 155-161|2001|
80091|T||Neeper-Bradley,T.L., and B. Ballantyne|Two-Generation Reproduction Study by Dosing with Glutaraldehyde in the Drinking Water of CD Rats|J. Toxicol. Environ. Health Part A61(2): 107-129|2000|10.1080/00984100050120406
80093|A||Monsanto Co.|Initial Submission:  Acute Toxicity Study with Tetrahydro-3,5-Dimethyl-2H-1,3,5-Thiadiazine-2-Thione in Bluegill and Rainbow Trout with Cover Letter Dated 042392|EPA/OTS Doc.#88-920003390:5 p.|1992|
80094|A||Monsanto Co.|Initial Submission:  Acute Toxicity Study with Tetrahydro-3,5-Dimethyl-2H-1,3,5-Thiadiazine-2-Thione in Daphnia magna with Cover Letter Dated 042392|EPA/OTS Doc.#88-920003391:8 p.|1992|
80095|T||Trudgill,D.L.|The Effect of Nitrogen and of Controlling Pratylenchus penetrans with Nematicides on the Growth of Raspberry (Rubus idaeus L.)|Crop Res. 23(2): 103-112|1983|
80096|T||Verma,R.S., K.D. Upadhyaya, G. Singh, and R.C. Pandey|Efficacy of Some Chemicals Against Root-Knot Nematode (Meloidogyne javanica)|Pesticides 10(7): 44, 48|1976|
80097|T||Unruh,J.B., B.J. Brecke, J.A. Dusky, and J.S. Godbehere|Fumigant Alternatives for Methyl Bromide Prior to Turfgrass Establishment|Weed Technol.16(2): 379-387|2002|10.1614/0890-037X(2002)016[0379:FAFMBP]2.0.CO;2
80099|T||Konduri,G.G., and J. Mattei|Role of Oxidative Phosphorylation and ATP Release in Mediating Birth-Related Pulmonary Vasodilation in Fetal Lambs|Am. J. Physiol. Heart Circ. Physiol.283(4): H1600 - H1608|2002|10.1152/ajpheart.00245.2002
80101|T||Dwivedi,S.C., S. Ram, N. Prasad, and K. Dhari|Field Evaluation of Insecticides Against White Grub Holotrichia consanguinea Blanch (Melolonthidae:  Coleoptera)|Pesticides 10(9): 20-21|1976|
80104|T||Meisner,L.F., D.A. Belluck, and B.D. Roloff|Cytogenetic Effects of Alachlor and/or Atrazine In Vivo and In Vitro|Environ. Mol. Mutagen.19(1): 77-82|1992|10.1002/em.2850190110
80105|T||Anderson,R.L.|No-Till Proso Millet Production|Agron. J.82(3): 577-580|1990|10.2134/agronj1990.00021962008200030028x
80106|T||Nath,V., K. Dhari, and A.S. Srivastava|Effect of Insecticides on the Control of White Grub Holotrichia consanquinea Blanch.  (Coleoptera:  Melolonthidae) in Groundnut|Pesticides 18(9): 30-31|1984|
80108|AT||Hryniewiecka,L., and R. Krolikowska|Can the Alternative Respiratory Pathway in Acanthamoeba castellanii be Stimulated by Agents Controlling the Respiratory Pathways in a Culture|Bull. Soc. Amis Sci. Lett. Poznan Ser. D Sci. Biol.26:11-24|1988|
80109|A||Atteia,A., R. Van Lis, J. Ramirez, and D. Gonzalez-Halphen|Polytomella spp. Growth on Ethanol.  Extracellular pH Affects the Accumulation of Mitochondrial Cytochrome c550|Eur. J. Biochem.267(10): 2850-2858|2000|10.1046/j.1432-1327.2000.01288.x
80110|T||Iyer,J.G., and W.L. Trautmann|Effect of DMTT on the Growth of Monterey Pine at Different Contents of Soil Moisture|Weeds (Urbana)15(3): 282-284|1967|10.2307/4041225
80111|T||Suett,D.L.|Influence of Treatment of Soil with Carbofuran on the Subsequent Performance of Insecticides Against Cabbage Root Fly (Delia radicum) and Carrot Fly (Psila rosae)|Crop Prot.6(6): 371-378|1987|10.1016/0261-2194(87)90070-6
80112|T||Saisho,D., M. Nakazono, N. Tsutsumi, and A. Hirai|STP Synthesis Inhibitors as well as Respiratory Inhibitors Increase Steady-State Level of Alternative Oxidase mRNA in Arabidopsis thaliana|J. Plant Physiol.158(2): 241-245|2001|10.1078/0176-1617-00193
80113|A||Chen,Y.B., D.G. Durnford, M. Koblizek, and P.G. Falkowski|Plastid Regulation of Lhcb1 Transcription in the Chlorophyte Alga Dunaliella tertiolecta|Plant Physiol.136(3): 3737-3750|2004|10.1104/pp.104.038919
80114|T||Michejda,J.W., J. Schoneich, and L. Hryniewiecka|Activity of Catalase in Acanthamoeba castellanii Grown in Conditions Preferring the Activity of Cytochrome or Alternative Respiratory Pathways|Bull. Soc. Amis Sci. Lett. Poznan Ser. D Sci. Biol.26:25-36|1988|
80115|T||Tanton,L.L., C.E. Nargang, K.E. Kessler, Q. Li, and F.E. Nargang|Alternative Oxidase Expression in Neurospora crassa|Fungal Genet. Biol.39(2): 176-190|2003|10.1016/S1087-1845(03)00002-1
80116|T||Juarez,O., G. Guerra, F. Martinez, and J.P. Pardo|The Mitochondrial Respiratory Chain of Ustilago maydis|Biochim. Biophys. Acta1658(3): 244-251|2004|10.1016/j.bbabio.2004.06.005
80117|A||Wang,J., R. Benz, and U. Zimmermann|Effects of Light and Inhibitors of ATP-Synthesis on the Chloride Carrier of the Alga Valonia utricularis: Is the Carrier a Chloride Pump?|Biochim. Biophys. Acta1233(2): 185-197|1995|10.1016/0005-2736(94)00252-K
80119|A||Sano,L.L., A.M. Krueger, and P.F. Landrum|Chronic Toxicity of Glutaraldehyde:  Differential Sensitivity of Three Freshwater Organisms|Aquat. Toxicol.71(3): 283-296|2005|10.1016/j.aquatox.2004.12.001
80121|T||Swain,C., and G.B.N. Chainy|Effects of Aluminum Sulphate and Citric Acid Ingestion on Lipid Peroxidation and on Activities of Superoxide Dismutase and Catalase in Cerebral Hemisphere and Liver of Developing Young Chicks|Mol. Cell. Biochem.187(1-2): 163-172|1998|10.1023/A:1006831409769
80122|T||Ugazio,G., S. Bosia, E. Burdino, and F. Grignolo|Amelioration of Diabetes and Cataract by Na3VO4 plus U-83836E in Streptozotocin Treated Rats|Res. Commun. Mol. Pathol. Pharmacol.85(3): 313-328|1994|
80123|T||Bogden,J.D., S. Al-Rabiai, and S.H. Gilani|Effect of Chronic Ethanol Ingestion on the Metabolism of Copper, Iron, Manganese, Selenium, and Zinc in an Animal Model of Alcoholic Cardiomyopathy|J. Toxicol. Environ. Health14(2-3): 407-417|1984|10.1080/15287398409530589
80124|T||National Cancer Institute|Bioassay of Dieldrin for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:50 p.|1978|
80125|T||Demirevska-Kepova,K., L. Simova-Stoilova, Z. Stoyanova, R. Holzer, and U. Feller|Biochemical Changes in Barley Plants After Excessive Supply of Copper and Manganese|Environ. Exp. Bot.52(3): 253-266|2004|10.1016/j.envexpbot.2004.02.004
80126|T||Garbossa,G., G. Galvez, M.E. Castro, and A. Nesse|Oral Aluminum Administration to Rats with Normal Renal Function.  1.  Impairment of Erythropoiesis|Hum. Exp. Toxicol.17:312-317|1998|10.1177/096032719801700605
80127|T||Kumar,D., S.K. Kaushik, and R.C. Gautam|Effect of Soil-Moisture Conservation and Weed Control on the Nutrition and Seed Yield of Pearlmillet (Pennisetum glaucum) Under Rainfed Condition|Indian J. Agron.40(4): 604-608|1995|
80128|T||Bokori,J., S. Fekete, and G. Tolgyesi|Effect of Dietary Zinc Concentration on Weight Gain, Feed Utilization, and Organic Zn Levels in Broiler Chickens|Acta Agron. Acad. Sci. Hung.33(3-4): 353-362|1984|
80129|T||Darwish,A.M.|Effect of Different Levels of Iron, Protein, and Calcium on Growing Chicks Fed 25 per Cent Decorticated Cotton Seed Cake in Their Rations|Acta Agron. Acad. Sci. Hung.23(1-2): 151-160|1974|
80130|T||Panigrahi,S.|Effects of Treating Cottonseed Meal with a Solution of Ferrous Sulphate on Laying Hen Performance and Discolourations in Eggs|Anim. Feed Sci. Technol.38(2-3): 89-103|1992|10.1016/0377-8401(92)90095-N
80131|A||Oropesa-Jimenez,A.L., J.P. Garcia-Cambero, L. Gomez-Gordo, V. Roncero-Cordero, and F. Soler-Rodriquez|Gill Modifications in the Freshwater Fish Cyprinus carpio After Subchronic Exposure to Simazine|Bull. Environ. Contam. Toxicol.74(4): 785-792|2005|10.1007/s00128-005-0650-y
80132|T||Kumagai,H., R. Kawashima, and H. Yano|Effects of Excessive Amounts of Dietary Iron on Pregnant Rats:  Iron, Copper, Zinc, Manganese and Selenium Statuses in Mothers and Fetuses|Anim. Sci. Technol.64(8): 780-789|1993|
80133|T||Colomina,M.T., M. Gomez, J.L. Domingo, J.M. Llobet, and J. Corbella|Concurrent Ingestion of Lactate and Aluminum can Result in Developmental Toxicity in Mice|Res. Commun. Chem. Pathol. Pharmacol.77(1): 95-106|1992|
80134|T||Sugawara,N.|Effect of Dietary Cadmium on Serum and Liver Lipids in Mice in Relation to Interaction of Essential Metals, Zinc, Copper and Iron|J. Toxicol. Sci.9(1): 29-36|1984|10.2131/jts.9.29
80135|T||Suzuki,K.T., R. Ohnuki, K. Yaguchi, and Y.K. Yamada|Accumulation and Chemical Forms of Cadmium and Its Effect on Essential Metals in Rat Spleen and Pancreas|J. Toxicol. Environ. Health11(4-6): 727-737|1983|10.1080/15287398309530380
80136|T||Michaelson,I.A., and M.W. Sauerhoff|Effect of Chronically Ingested Inorganic Lead on Brain Levels of Fe, Zn, Cu, and Mn of 25 Day Old  Rat|Life Sci.13(5): 417-428|1973|10.1016/0024-3205(73)90033-7
80137|T||Trebuil,G.F., B. Courtois, and W. Herrera|Assessment of Upland Rice Rooting Depth:  Does the Herbicide Injection Technique Work?|J. Agron. Crop Sci.177(2): 85-93|1996|10.1111/j.1439-037X.1996.tb00596.x
80138|T||Vasudev,V., and N.B. Krishnamurthy|Dominant Lethals Induced by Cadmium Chloride in Drosophila melanogaster|Curr. Sci. (Bangalore)48(22): 1007-1008|1979|
80139|T||Dietrich,C.P., H.B. Nader, L. Toma, P. De Azambuja, and E.S. Garcia|A Relationship Between the Inhibition of Heparan Sulfate and Chondroitin Sulfate Synthesis and the Inhibition of Molting by Selenate in the Hemipteran Rhodnius prolixus|Biochem. Biophys. Res. Commun.146(2): 652-658|1987|10.1016/0006-291X(87)90578-X
80141|T||Branham,W.S., D.R. Zehr, and D.M. Sheehan|Differential Sensitivity of Rat Uterine Growth and Epithelium Hypertrophy to Estrogens and Antiestrogens|Proc. Soc. Exp. Biol. Med.203(3): 297-303|1993|10.3181/00379727-203-43602
80142|T||Newbold,R.R., B.T. Pentecost, S. Yamashita, K. Lum, J.V. Miller, P. Nelson, J. Blair, H. Kong, C. Teng, and J.A. McLach|Female Gene Expression in the Seminal Vesicle of Mice After Prenatal Exposure to Diethylstilbestrol|Endocrinology124(5): 2568-2576|1989|10.1210/endo-124-5-2568
80143|T||Golub,M.S., J.M. Donald, M.E. Gershwin, and C.L. Keen|Effects of Aluminum Ingestion on Spontaneous Motor Activity of Mice|Neurotoxicol. Teratol.11(3): 231-235|1989|10.1016/0892-0362(89)90064-0
80144|T||Khan,M., and A.R. Saghir|Residual Activity of Triazines and Some Other Herbicides in the Soil|Sarhad J. Agric.5(6): 591-595|1989|
80145|T||Smith,I.M., H. Mohammadi, S.T. Licence, and R. Hill|Prolongation of Survival in Experimental Avian Tuberculosis from Repeated Injections of Iron Dextran|Avian Pathol.7(2): 225-236|1978|10.1080/03079457808418275
80146|T||Cork,S.C., R.B. Marshall, and S.G. Fenwick|The Effect of Parenteral Iron Dextran, with or Without Desferrioxamine, on the Development of Experimental Pseudotuberculosis in the Domestic Chicken|Avian Pathol.27(4): 394-399|1998|10.1080/03079459808419357
80147|T||Ward,R.J., T. Smith, G.M. Henderson, and T.J. Peters|Investigation of the Aetiology of Haemosiderosis in the Starling (Sturnus vulgaris)|Avian Pathol.20(2): 225-232|1991|10.1080/03079459108418759
80148|T||Agrawal,S.B., G.S. Tomar, and K.M. Dubey|Effect of Atrazine Under Different Nitrogen Levels on Forage Yield of Sorghum (Sorghum bicolor (L.) Moench)|Crop Res. (Hisar)7(2): 190-192|1994|
80150|T||National Cancer Institute|Bioassay of Endrin for Possible Carcinogenicity|DHEW Publ.(NIH) No.79-812, Rep.No.NCI-CG-TR-12, Natl.Cancer Inst., Bethesda, MD:|1979|
80151|T||National Cancer Institute|Bioassay of Methoxychlor for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:83 p.|1978|
80152|T||National Cancer Institute|Bioassay of Toxaphene for Possible Carcinogenicity|DHEW Publ.(NIH) No.79-837, Natl.Cancer Inst., Bethesda, MD:|1979|
80154|A||Fliedner,A.|Daphnia magna; Prolonged Toxicity - Reproduction Test (OECD No.202)|Nonylphenol Rep.No.UBA-002/4-22, Fraunhofer - Inst.fur Umweltchem.und Okotoxikol., Schmallenberg - Grafschaft, Germany:46 p.|1993|
80155|T||Lange,J.H., F. Haarmann, J.L. Mago, J.R. Marchese, M.A. Rizzo, W.J. Yuskovic, J.M. Murnock, and T.M. Luteran|A Study of Root Elongation Using Tomato and Radish Seeds:  Evaluation of Growth, Temperature and pH, and Toxicity for Cacodylic Acid and Glutaraldehyde|Fresenius Environ. Bull.8(1-2): 37-44|1999|
80156|T||Steinberg,M., N. Harper, and S. Safe|Effects of Acute and Subchronic Oral Dosing on Immune Function and EROD Induction in C57BL/6 Female Mice:  Assessment of TEF Values|Organohalog. Compd.13(Dioxin '93): 357-360|1993|
80157|T||Werley,M.S., B. Ballantyne, D.A. Neptun, and P.E. Losco|Four-Week Repeated Skin Contact Study with Glutaraldehyde in Rats|J. Toxicol. Cutan. Ocul. Toxicol.15(2): 179-193|1996|10.3109/15569529609048872
80158|T||Watanabe,M., S. Honda, M. Hayashi, and T. Matsuda|Mutagenic Effects of Combinations of Chemical Carcinogens and Environmental Pollutants in Mice as Shown by the Micronucleus Test|Mutat. Res.97:43-48|1982|10.1016/0165-1161(82)90018-8
80160|T||Poland,A., and E. Glover|Genetic Expression of Aryl Hydrocarbon Hydroxylase by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Evidence for a Receptor Mutation in Genetically Non-responsive Mice|Mol. Pharmacol.11:389-398|1975|
80161|T||Harper,N., M. Steinberg, K. Connor, and S. Safe|Antagonism of 2,3,7,8-TCDD and 3,3',4,4',5-pentaCB Induced Immunotoxicity by 2,2',4,4',5,5'-HexaCB in B6C3F1 Mice|Organohalog. Compd.21(Dioxin '94): 25-28|1994|
80162|T||DeVos,S., and R. DeSchrijver|Polychlorinated Biphenyl Distribution and Faecal Excretion in Rats Fed Wheat Bran|Chemosphere61(3): 374-382|2005|10.1016/j.chemosphere.2005.02.086
80163|A||Ortiz-Delgado,J.B., H. Segner, and C. Sarasquete|Cellular Distribution and Induction of CYP1A Following Exposure of Gilthead Seabream, Sparus aurata, to Waterborne and Dietary Benzo(a)pyrene and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  An Immunohistochemical Approach|Aquat. Toxicol.75:144-161|2005|10.1016/j.aquatox.2005.07.010
80184|T||Reinke,L.A., J.S. Tupper, and D.J. Sweeny|7-Ethoxycoumarin O-Deethylation in Perfused Livers from Ethanol-Fed Rats:  Evidence for an Important Role of Mitochondrial Reducing Equivalents|Pharmacology34(2/3): 167-175|1987|10.1159/000138266
80185|T||Saisho,D., E. Nambara, S. Naito, N. Tsutsumi, A. Hirai, and M. Nakazono|Characterization of the Gene Family for Alternative Oxidase from Arabidopsis thaliana|Plant Mol. Biol.35(5): 585-596|1997|10.1023/A:1005818507743
80186|T||Dojcinovic,D., J. Krosting, A.J. Harris, D.J. Wagner, and D.M. Rhoads|Identification of a Region of the Arabidopsis AtAOX1a Promoter Necessary for Mitochondrial Retrograde Regulation of Expression|Plant Mol. Biol.58(2): 159-175|2005|10.1007/s11103-005-5390-1
80187|T||Quiles,M.J., and N.I. Lopez|Photoinhibition of Photosystems I and II Induced by Exposure to high Light Intensity During Oat Plant Growth:  Effects on the Chloroplast NADH Dehydrogenase Complex|Plant Sci.166(3): 815-823|2004|10.1016/j.plantsci.2003.11.025
80188|T||Homa,J., E. Olchawa, S.R. Sturzenbaum, A.J. Morgan, and B. Plytycz|Early-Phase Immunodetection of Metallothionein and Heat Shock Proteins in Extruded Earthworm Coelomocytes After Dermal Exposure to Metal Ions|Environ. Pollut.135(2): 275-280|2005|10.1016/j.envpol.2004.10.019
80189|T||Milatovic,D., R.C. Gupta, A. Dekundy, T.J. Montine, and W.D. Dettbarn|Carbofuran-Induced Oxidative Stress in Slow and Fast Skeletal Muscles:  Prevention by Memantine and Atropine|Toxicology208(1): 13-24|2005|10.1016/j.tox.2004.11.004
80190|T||Sharma,Y., S. Bashir, M. Irshad, S.D. Gupta, and T.D. Dogra|Effects of Acute Dimethoate Administration on Antioxidant Status of Liver and Brain of Experimental Rats|Toxicology206(1): 49-57|2005|10.1016/j.tox.2004.06.062
80191|T||Yang,D., Y. Niu, and F. He|Functional Changes of Nicotinic Acetylcholine Receptor in Muscle and Lymphocyte of Myasthenic Rats Following Acute Dimethoate Poisoning|Toxicology211(1-2): 149-155|2005|10.1016/j.tox.2005.03.013
80192|T||Quistad,G.B., K.J. Fisher, S.C. Owen, R. Klintenberg, and J.E. Casida|Platelet-Activating Factor Acetylhydrolase:  Selective Inhibition by Potent n-Alkyl Methylphosphonofluoridates|Toxicol. Appl. Pharmacol.205(2): 149-156|2005|10.1016/j.taap.2004.09.018
80193|T||Davidse,L.C., O.C.M. Gerritsma, and G.C.M. Velthuis|A Differential Basis of Antifungal Activity of Acylalanine Fungicides and Structurally Related Chloroacetanilide Herbicides in Phytophthora megasperma f. sp. medicaginis|Pestic. Biochem. Physiol.21(3): 301-308|1984|
80194|T||Mark-Savage,P., C.L. Keen, and L.S. Hurley|Reduction by Copper Supplementation of Teratogenic Effects of D-Penicillamine|J. Nutr.113(3): 501-510|1983|10.1093/jn/113.3.501
80195|A||Pery,A.R.R., A. Bethune, J. Gahou, R. Mons, and J. Garric|Body Residues:  A Key Variable to Analyze Toxicity Tests with Chironomus riparius Exposed to Copper-Spiked Sediments|Ecotoxicol. Environ. Saf.61(2): 160-167|2005|10.1016/j.ecoenv.2004.11.001
80196|T||Agunbiade,J.A., and G.M. Babatunde|Copper and Iron Supplementation in the Tropical Environment - Effects on Haematological Measurements, Organ Weights, Tissue Copper and Iron Levels in Layers|Niger. J. Anim. Prod.22(1): 49-55|1995|10.51791/njap.v22i1.2028
80199|A||Wang,C.G., Y.X. Chen, Y. Li, W. Wei, and Q. Yu|Effects of Low Dose Tributyltin on Activities of Hepatic Antioxidant and Phase II Enzymes in Sebastiscus marmoratus|Bull. Environ. Contam. Toxicol.74(1): 114-119|2005|10.1007/s00128-004-0556-0
80201|A||Papadimitriou,E., and N.S. Loumbourdis|Glycogen, Proteins, and Aminotransferase (GOT, GPT) Changes in the Frog Rana ridibunda Exposed to High Concentrations of Copper|Bull. Environ. Contam. Toxicol.74(1): 120-125|2005|10.1007/s00128-004-0557-z
80202|A||Yamaguchi,M., A. Yasutake, M. Nagano, and Y. Yasuda|Accumulation and Distribution of Methylmercury in Freshwater- and Seawater-Adapted Eels|Bull. Environ. Contam. Toxicol.73(3): 257-263|2004|
80203|A||Christensen,J.R., J.S. Richardson, C.A. Bishop, B. Pauli, and J. Elliott|Effects of Nonylphenol on Tail Resorption and Metamorphic Staging in Rana catesbeiana Tadpoles|J. Toxicol. Environ. Health Part A68(7): 557-572|2005|10.1080/15287390590909698
80204|A||Bayen,S., P. Giusti, H.K. Lee, P.J. Barlow, and J.P. Obard|Bioaccumulation of DDT Pesticide in Cultured Asian Seabass Following Dietary Exposure|J. Toxicol. Environ. Health Part A68(1): 51-65|2005|10.1080/15287390590524037
80205|T||Darekar,K.S., B.D. Patil, and N.G. Patil|Control of Grapevine Nematodes with Systemic Granular Nematicides and Their Effect on Yield|Indian J. Nematol.15(2): 249-250|1985|
80206|A||Ferreira,C.M., J.V. Lombardi, J.G. Machado-Neto, H.M. Bueno-Guimaraes, S.R.C. Soares, and P.H.N. Saldiva|Effects of Copper Oxychloride in Rana catesbeiana Tadpoles:  Toxicological and Bioaccumulative Aspects|Bull. Environ. Contam. Toxicol.73(3): 465-470|2004|10.1007/s00128-004-0452-7
80207|A||Green,C.C., S.E. Lochmann, and D.L. Straus|Acute Toxicity of Isopropyl Methylphosphonic Acid, a Breakdown Product of Sarin, to Eggs and Fry of Golden Shiner and Channel Catfish|J. Toxicol. Environ. Health Part A68(2): 141-149|2005|10.1080/15287390590885893
80208|A||Orosa,M., D. Franqueira, A. Cid, and J. Abalde|Analysis and Enhancement of Astaxanthin Accumulation in Haematococcus pluvialis|Bioresour. Technol.96(3): 373-378|2005|10.1016/j.biortech.2004.04.006
80209|A||Mishra,D., S. Srivastav, S.K. Srivastav, and A.K. Srivastav|Plasma Calcium and Inorganic Phosphate Levels of a Freshwater Catfish Heteropneustes fossilis in Response to Cypermethrin Treatment|J. Ecophysiol. Occup. Health1(1-2): 131-138|2001|
80210|T||Vipradas,K.C.|Effect of Certain Molluscicides on Respiration of a Prosobranch Snail Viviparous bengalensis|J. Ecotoxicol. Environ. Monit.7(4): 269-272|1997|
80211|T||Rani,S., and K.K. Dua|Cypermethrin Toxicity Induced Histological and Biochemical Changes in the Liver of Albino Rats (Rattus norvegicus)|J. Ecotoxicol. Environ. Monit.9(1): 41-46|1999|
80212|T||Jaworska,M., A. Gorczyca, J. Sepiol, and P. Tomasik|Metal-Metal Interactions in Biological Systems.  Synergism and Antagonism of Metal Ion Triads in Steinernema carpocapsae Entomopathogenic Nematodes|Chem. Inz. Ekol. (Multiple Languages)7(4): 313-326|2000|
80214|T||Neelima,P., and K.J. Reddy|Interaction of Copper and Cadmium with Seedling Growth and Biochemical Responses in Solanum melongena|Nat. Environ. Pollut. Technol.1(3): 285-290|2002|
80215|A||Canli,M.|Effects of Mercury, Chromium and Nickel on Glycogen Reserves and Protein Levels in Tissues of Cyprinus carpio|Turk. J. Zool.20(2): 161-168|1996|10.55730/1300-0179.3027
80216|T||Biswas,G.|Toxicity of Chromium to Chick Embryos:  Determination of Lethal Dose and Distribution of Chromium in the Chick Embryo|Leather Sci.32(1): 7-11|1985|
80217|A||Salih,K.Y.M., P.V. Bindya Bhargavan, and C.K. Haridevi|Rate of Filtration in Perna viridis (L.):  An Index of Stress|In: Proceedings of the National Seminar on New Frontiers in Marine Bioscience Research:151-159|2004|
80218|T||Greger,M., Y. Wang, and C. Neuschutz|Absence of Hg Transpiration by Shoot After Hg Uptake by Roots of Six Terrestrial Plant Species|Environ. Pollut.134(2): 201-208|2005|10.1016/j.envpol.2004.08.007
80219|T||Fitzgerald,J.|Laboratory Bioassays and Field Evaluation of Insecticides for the Control of Anthonomus rubi, Lygus rugulipennis and Chaetosiphon fragaefolii, and Effects on Beneficial Species, in UK Strawberry Production|Crop Prot.23(9): 801-809|2004|10.1016/j.cropro.2003.12.005
80220|T||Rao,J.V., and K. Pathakoti|Toxicity of Azodrin on the Morphology and Acetylcholinesterase Activity of the Earthworm Eisenia foetida|Environ. Res.96(3): 323-327|2004|10.1016/j.envres.2004.02.014
80222|T||Lay,M.M., and A.M. Niland|Biochemical Response of Inbred and Hybrid Corn (Zea mays L.) to R-25788 and Its Distribution with EPTC in Corn Seedlings|Pestic. Biochem. Physiol.23(1): 131-140|1985|10.1016/0048-3575(85)90087-2
80223|T||Elagoz,V., and W.J. Manning|Factors Affecting the Effects of EDU on Growth and Yield of Field-Grown Bush Beans (Phaseolus vulgaris L.), with Varying Degrees of Sensitivity to Ozone|Environ. Pollut.136(3): 385-395|2005|10.1016/j.envpol.2005.01.022
80224|T||Sonmez,O., and G.M. Pierzynski|Assessment of Zinc Phytoavailability by Diffusive Gradients in Thin Films|Environ. Toxicol. Chem.24(4): 934-941|2005|10.1897/04-350R.1
80225|T||El-Demerdash,F.M., M.I. Yousef, F.S. Kedwany, and H.H. Baghdadi|Cadmium-Induced Changes in Lipid Peroxidation, Blood Hematology, Biochemical Parameters and Semen Quality of Male Rats: Protective Role of Vitamin E and beta-Carotene|Food Chem. Toxicol.42(10): 1563-1571|2004|10.1016/j.fct.2004.05.001
80226|T||Ouanes,Z., I. Ayed-Boussema, T. Baati, E.E. Creppy, and H. Bacha|Zearalenone Induces Chromosome Aberrations in Mouse Bone Marrow:  Preventive Effect of 17beta-estradiol, Progesterone and Vitamin E|Mutat. Res.565(2): 139-149|2005|10.1016/j.mrgentox.2004.10.005
80227|T||Errampalli,D.|Effect of Fludioxonil on Germination and Growth of Penicillium expansum and Decay in Apple cvs. Empire and Gala|Crop Prot.23(9): 811-817|2004|10.1016/j.cropro.2003.12.010
80229|T||Li,A.Y., J.H. Pruett, R.B. Davey, and J.E. George|Toxicological and Biochemical Characterization of Coumaphos Resistance in the San Roman Strain of Boophilus microplus (Acari: Ixodidae)|Pestic. Biochem. Physiol.81(3): 145-153|2005|10.1016/j.pestbp.2004.12.002
80230|T||Pustylnyak,V.O., L.Y. Zakharova, O.N. Mikhailova, R.H. Rice, L.F. Gulyaeva, and V.V. Lyakhovich|In Vivo Effects of Protein Kinase and Phosphatase Inhibitors on CYP2B Induction in Rat Liver|Toxicology207(2): 315-322|2005|10.1016/j.tox.2004.10.003
80231|T||Magoc,L., J.L. Yen, A. Hill-Williams, J.A. McKenzie, P. Batterham, and P.J. Daborn|Cross-Resistance to Dicyclanil in Cyromazine-Resistant Mutants of Drosophila melanogaster and Lucilia cuprina|Pestic. Biochem. Physiol.81(2): 129-135|2005|10.1016/j.pestbp.2004.11.002
80232|T||Matthews,D.J., B.M. Moran, and M.L. Otte|Screening the Wetland Plant Species Alisma plantago-aquatica, Carex rostrata and Phalaris arundinacea for Innate Tolerance to Zinc and Comparison with Eriophorum angustifolium and Festuca rubra Merlin|Environ. Pollut.134(2): 343-351|2005|10.1016/j.envpol.2004.07.023
80233|T||Mellert,W., K. Deckardt, C. Gembardt, B. Hildebrand, and S. Schulte|Carcinogenicity and Chronic Toxicity of Copovidone (Kollidon VA 64) in Wistar Rats and Beagle Dogs|Food Chem. Toxicol.42(10): 1573-1587|2004|10.1016/j.fct.2004.05.003
80235|T||Parlakpinar,H., S. Tasdemir, A. Polat, A. Bay-Karabulut, N. Vardi, M. Ucar, and A. Acet|Protective Role of Caffeic Acid Phenethyl Ester (cape) on Gentamicin-Induced Acute Renal Toxicity in Rats|Toxicology207(2): 169-177|2005|10.1016/j.tox.2004.08.024
80236|T||Paschke,M.W., A. Valdecantos, and E.F. Redente|Manganese Toxicity Thresholds for Restoration Grass Species|Environ. Pollut.135(2): 313-322|2005|10.1016/j.envpol.2004.08.006
80237|T||Pavlikova,D., T. Macek, M. Mackova, J. Szakova, and J. Balik|Cadmium Tolerance and Accumulation in Transgenic Tobacco Plants with a Yeast Metallothionein Combined with a Polyhistidine Tail|Int. Biodeterior. Biodegrad.54(2-3): 233-237|2004|10.1016/j.ibiod.2004.03.008
80238|T||Molas,J., and S. Baran|Relationship Between the Chemical Form of Nickel Applied to the Soil and its Uptake and Toxicity to Barley Plants (Hordeum vulgare L.)|Geoderma (Amst.)122(2-4): 247-255|2004|10.1016/j.geoderma.2004.01.011
80239|T||NourEddine,D., S. Miloud, and A. Abdelkader|Effect of Lead Exposure on Dopaminergic Transmission in the Rat Brain|Toxicology207(3): 363-368|2005|10.1016/j.tox.2004.10.016
80240|T||Mittelstaedt,R.A., N. Mei, P.J. Webb, J.G. Shaddock, V.N. Dobrovolsky, L.J. McGarrity, S.M. Morris, T. Chen, F.A. Belan|Genotoxicity of Malachite Green and Leucomalachite Green in Female Big Blue B6C3F1 Mice|Mutat. Res.561(1-2): 127-138|2004|10.1016/j.mrgentox.2004.04.003
80243|T||Snoeijs,T., T. Dauwe, R. Pinxten, V.M. Darras, L. Arckens, and M. Eens|The Combined Effect of Lead Exposure and high or Low Dietary Calcium on Health and Immunocompetence in the Zebra Finch (Taeniopygia guttata)|Environ. Pollut.134(1): 123-132|2005|10.1016/j.envpol.2004.07.009
80244|T||Stangherlin,E.C., A.M. Favero, G. Zeni, J.B.T. Rocha, and C.W. Nogueira|Teratogenic Vulnerability of Wistar Rats to Diphenyl Ditelluride|Toxicology207(2): 231-239|2005|10.1016/j.tox.2004.09.017
80245|T||Shalan,M.G., M.S. Mostafa, M.M. Hassouna, S.E.H. El-Nabi, and A. El-Refaie|Amelioration of Lead Toxicity on Rat Liver with Vitamin C and Silymarin Supplements|Toxicology206(1): 1-15|2005|10.1016/j.tox.2004.07.006
80246|T||Sevelova,L., K. Kuca, and G. Krejcova-Kunesova|Antidotal Treatment of GF-Agent Intoxication in Mice with Bispyridinium Oximes|Toxicology207(1): 1-6|2005|10.1016/j.tox.2004.07.019
80247|T||Sapone,A., L. Pozzetti, D. Canistro, M. Broccoli, G. Bronzetti, G. Potenza, A. Affatato, G.L. Biagi, G. Cantelli-Forti,|CYP Superfamily Perturbation by Diflubenzuron or Acephate in Different Tissues of CD1 Mice|Food Chem. Toxicol.43(1): 173-183|2005|10.1016/j.fct.2004.09.007
80248|T||Shibutani,M., N. Masutomi, C. Uneyama, N. Abe, H. Takagi, K.Y. Lee, and M. Hirose|Down-Regulation of GAT-1 mRNA Expression in the Microdissected Hypothalamic Medial Preoptic Area of Rat Offspring Exposed Maternally to Ethinylestradiol|Toxicology208(1): 35-48|2005|10.1016/j.tox.2004.11.007
80250|T||Takemura,H., J. Ma, K. Sayama, Y. Terao, B.T. Zhu, and K. Shimoi|In Vitro and In Vivo Estrogenic Activity of Chlorinated Derivatives of Bisphenol A|Toxicology207(2): 215-221|2005|10.1016/j.tox.2004.09.015
80251|T||Sudisha,J., K.N. Amruthesh, S.A. Deepak, N.P. Shetty, B.R. Sarosh, and H.S. Shetty|Comparative Efficacy of Strobilurin Fungicides Against Downy Mildew Disease of Pearl Millet|Pestic. Biochem. Physiol.81(3): 188-197|2005|10.1016/j.pestbp.2004.08.001
80252|AT||Vanderherchen,M.B., M. Isherwood, D.M. Thompson, R.J. Linderman, and R.M. Roe|Toxicity of Novel Aromatic and Aliphatic Organic Acid and Ester Analogs of Trypsin Modulating Oostatic Factor to Larvae of the Northern House Mosquito, Culex pipiens Complex, and the Tobacco Hornworm, Manduca sexta|Pestic. Biochem. Physiol.81(2): 71-84|2005|10.1016/j.pestbp.2004.09.006
80253|T||Vinggaard,A.M., H. Jacobsen, S.B. Metzdorff, H.R. Andersen, and C. Nellemann|Antiandrogenic Effects in Short-Term In Vivo Studies of the Fungicide Fenarimol|Toxicology207(1): 21-34|2005|10.1016/j.tox.2004.08.009
80254|T||Turner,M., N.A. Mantick, and G.P. Carlson|Comparison of the Depletion of Glutathione in Mouse Liver and Lung Following Administration of Styrene and Its Metabolites Styrene Oxide and 4-Vinylphenol|Toxicology206(3): 383-388|2005|10.1016/j.tox.2004.07.013
80255|T||Yousef,M.I.|Protective Role of Ascorbic Acid to Enhance Reproductive Performance of Male Rabbits Treated with Stannous Chloride|Toxicology207(1): 81-89|2005|10.1016/j.tox.2004.08.017
80256|T||White,K.L.,Jr., D.R. Germolec, C.D. Booker, D.M. Hernendez, J.A. McCay, K.B. Delclos, R.R. Newbold, C. Weis, and T.L. G|Dietary Methoxychlor Exposure Modulates Splenic Natural Killer Cell Activity, Antibody-Forming Cell Response and Phenotypic Marker Expression in F0 and F1 Generations of Sprague Dawley Rats|Toxicology207(2): 271-281|2005|10.1016/j.tox.2004.09.011
80257|T||Brzoska,M.M., and J. Moniuszko-Jakoniuk|Effect of Chronic Exposure to Cadmium on the Mineral Status and Mechanical Properties of Lumbar Spine of Male Rats|Toxicol. Lett.157(2): 161-172|2005|10.1016/j.toxlet.2005.01.015
80258|T||Bollard,M.E., H.C. Keun, O. Beckonert, T.M.D. Ebbels, H. Antti, A.W. Nicholls, J.P. Shockcor, G.H. Cantor, G. Stevens, |Comparative Metabonomics of Differential Hydrazine Toxicity in the Rat and Mouse|Toxicol. Appl. Pharmacol.204(2): 135-151|2005|10.1016/j.taap.2004.06.031
80259|T||Ahn,D.W., J.M. Chung, J.Y. Kim, K.R. Kim, and Y.S. Park|Inhibition of Renal Na+/H+ Exchange in Cadmium-Intoxicated Rats|Toxicol. Appl. Pharmacol.204(1): 91-98|2005|10.1016/j.taap.2004.08.021
80260|T||Celik,A., B. Mazmanci, Y. Camlica, U. Comelekoglu, and A. Askin|Evaluation of Cytogenetic Effects of lambda-Cyhalothrin on Wistar Rat Bone Marrow by Gavage Administration|Ecotoxicol. Environ. Saf.61(1): 128-133|2005|10.1016/j.ecoenv.2004.07.009
80261|T||Borges,L.P., V.C. Borges, A.V. Moro, C.W. Nogueira, J.B.T. Rocha, and G. Zeni|Protective Effect of Diphenyl Diselenide on Acute Liver Damage Induced by 2-Nitropropane in Rats|Toxicology210(1): 1-8|2005|10.1016/j.tox.2005.01.002
80262|T||Varner,J.A., W.J. Horvath, C.W. Huie, H.R. Naslund, and R.L. Isaacson|Chronic Aluminum Fluoride Administration.  I.  Behavioral Observations|Behav. Neural Biol.61(3): 233-241|1994|10.1016/S0163-1047(05)80006-8
80263|T||Sorenson,J.R.J., L.S.F. Soderberg, L.W. Chang, W.M. Willingham, M.L. Baker, J.B. Barnett, H. Salari, and K. Bond|Copper-, Iron-, Manganese- and Zinc-3,5-Diisopropylsalicylate Complexes Increase Survival of gamma-Irradiated Mice|Eur. J. Med. Chem.28(3): 221-229|1993|10.1016/0223-5234(93)90137-4
80264|T||Zheng,Y.X., and Y.X. Liang|The Antagonistic Effects of L-dopa and Eserine on Al-Induced Neurobehavioral Deficits in Rats|Biomed. Environ. Sci.11(4): 321-330|1998|
80265|T||Scoggins,H.L., and H.A. Mills|Poinsettia Growth, Tissue Nutrient Concentration, and Nutrient Uptake as Influenced by Nitrogen Form and Stage of Growth|J. Plant Nutr.21(1): 191-198|1998|10.1080/01904169809365393
80266|T||Trapp,S., M. Matthies, I. Scheunert, and E.M. Topp|Modeling the Bioconcentration of Organic Chemicals in Plants|Environ. Sci. Technol.24(8): 1246-1252|1990|10.1021/es00078a013
80267|T||Yoshida,S., M.E. Gershwin, C.L. Keen, J.M. Donald, and M.S. Golub|The Influence of Aluminum on Resistance to Listeria monocytogenes in Swiss-Webster Mice|Int. Arch. Allergy Appl. Immunol.89(4): 404-409|1989|10.1159/000234983
80268|T||Genter,M.B., D.M. Burman, S. Vijayakumar, C.L. Ebert, and B.J. Aronow|Genomic Analysis of Alachlor-Induced Oncogenesis in Rat Olfactory Mucosa|Physiol. Genomics12(1): 35-45|2002|10.1152/physiolgenomics.00120.2002
80269|T||Galati,R., A. Federico, G. Cortese, and R. Zito|Determination of Serum Levels of 2,6 Diethylaniline in Laboratory Animal Treated with Alachlor|Anticancer Res.18(2A): 979-982|1998|
80270|T||Genter,M.B., D.M. Burman, M.W. Dingeldein, I. Clough, and B. Bolon|Evolution of Alachlor-Induced Nasal Neoplasms in the Long-Evans Rat|Toxicol. Pathol.28(6): 770-781|2000|10.1177/019262330002800602
80271|T||De Marco,A., P. Boccardi, C. De Simone, A. Piccolo, M. Raglione, A. Testa, and S. Trinca|Induction of Micronuclei in Vicia faba Root Tips Treated in Different Soils with the Herbicide Alachlor|Mutat. Res.241(1): 1-6|1990|10.1016/0165-1218(90)90103-9
80272|T||Cavas,M., D. Beltran, and J.F. Navarro|Behavioural Effects of Dimethyl Sulfoxide (DMSO): Changes in Sleep Architecture in Rats|Toxicol. Lett.157(3): 221-232|2005|10.1016/j.toxlet.2005.02.003
80273|T||Burdan,F.|Comparison of Developmental Toxicity of Selective and Non-selective Cyclooxygenase-2 Inhibitors in CRL:(WI)WUBR Wistar Rats - DFU and Piroxicam Study|Toxicology211(1-2): 12-25|2005|10.1016/j.tox.2005.02.005
80274|T||Pace,B.M., D.A. Lawrence, M.J. Behr, P.J. Parsons, and J.A. Dias|Neonatal Lead Exposure Changes Quality of Sperm and Number of Macrophages in Testes of BALB/c Mice|Toxicology210(2-3): 247-256|2005|10.1016/j.tox.2005.02.004
80275|T||Pillet,S., A.A. Rooney, J.M. Bouquegneau, D.G. Cyr, and M. Fournier|Sex-Specific Effects of Neonatal Exposures to Low Levels of Cadmium Through Maternal Milk on Development and Immune Functions of Juvenile and Adult Rats|Toxicology209(3): 289-301|2005|10.1016/j.tox.2004.12.007
80276|T||Pecze,L., A. Papp, L. Institoris, A. Szabo, and L. Nagymajtenyi|Acute and Subchronic Effects of Lead on the Central and Peripheral Nervous Systems in Rats in Combination with Alcohol|Ecotoxicol. Environ. Saf.61:139-144|2005|10.1016/j.ecoenv.2004.12.022
80277|T||Ishida,T., S. Kan-o, J. Mutoh, S. Takeda, Y. Ishii, I. Hashiguchi, A. Akamine, and H. Yamada|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Change in Intestinal Function and Pathology: Evidence for the Involvement of Arylhydrocarbon Receptor-Mediated Alteration of Glucose Transportation|Toxicol. Appl. Pharmacol.205(1): 89-97|2005|10.1016/j.taap.2004.09.014
80278|T||Ikeda,M., T. Mitsui, K. Setani, M. Tamura, M. Kakeyama, H. Sone, C. Tohyama, and T. Tomita|In Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rats Disrupts Brain Sexual Differentiation|Toxicol. Appl. Pharmacol.205(1): 98-105|2005|10.1016/j.taap.2004.09.010
80279|T||De Marco,M., R. Halpern, and H.M.T. Barros|Early Behavioral Effects of Lead Perinatal Exposure in Rat Pups|Toxicology211(1-2): 49-58|2005|10.1016/j.tox.2005.02.007
80280|T||Deepa,P.R., and P. Varalakshmi|Beneficial Cardio-Renovascular Effects of a Low-Molecular-Weight Heparin-Derivative on Adriamycin-Induced Glycosaminoglycanuria and Tissue Lipid Abnormalities|Toxicology211(1-2): 77-85|2005|10.1016/j.tox.2005.02.009
80281|T||Feng,P.C.C., and T. Chiu|Distribution of [14C]Glyphosate in Mature Glyphosate-Resistant Cotton from Application to a Single Leaf or Over-the-Top Spray|Pestic. Biochem. Physiol.82(1): 36-45|2005|10.1016/j.pestbp.2004.07.010
80282|T||Fang,S.H., Y.C. Hou, and P.D.L. Chao|Pharmacokinetic and Pharmacodynamic Interactions of Morin and Cyclosporin|Toxicol. Appl. Pharmacol.205(1): 65-70|2005|10.1016/j.taap.2004.09.006
80283|T||Xu,Y., X. Chen, and Y. Li|Ercc6l, a Gene of SNF2 Family, may Play a Role in the Teratogenic Action of Alcohol|Toxicol. Lett.157(3): 233-239|2005|10.1016/j.toxlet.2005.02.013
80284|T||Yu,Y.L., X.M. Wu, S.N. Li, H. Fang, Y.J. Tan, and J.Q. Yu|Bioavailability of Butachlor and Myclobutanil Residues in Soil to Earthworms|Chemosphere59(7): 961-967|2005|10.1016/j.chemosphere.2004.11.009
80285|T||Yamano,T., M. Shimizu, and T. Noda|Quantitative Comparison of the Results Obtained by the Multiple-Dose Guinea Pig Maximization Test and the Non-Radioactive Murine Local Lymph-Node Assay for Various Biocides|Toxicology211(1-2): 165-175|2005|10.1016/j.tox.2005.02.014
80286|T||Yamada,T., K. Sumida, K. Saito, S. Ueda, S. Yabushita, T. Sukata, S. Kawamura, Y. Okuno, and T. Seki|Functional Genomics may Allow Accurate Categorization of the Benzimidazole Fungicide Benomyl: Lack of Ability to Act via Steroid-Receptor-Mediated Mechanisms|Toxicol. Appl. Pharmacol.205(1): 11-30|2005|10.1016/j.taap.2004.09.002
80287|T||Sonoda,S., and H. Tsumuki|Studies on Glutathione S-Transferase Gene Involved in Chlorfluazuron Resistance of the Diamondback Moth, Plutella xylostella L. (Lepidoptera: Yponomeutidae)|Pestic. Biochem. Physiol.82(1): 94-101|2005|10.1016/j.pestbp.2005.01.003
80288|T||Wu,G., and T. Miyata|Susceptibilities to Methamidophos and Enzymatic Characteristics in 18 Species of Pest Insects and Their Natural Enemies in Crucifer Vegetable Crops|Pestic. Biochem. Physiol.82(1): 79-93|2005|10.1016/j.pestbp.2005.01.001
80289|T||Yabe,K., K. Goto, T. Jindo, M. Sekiguchi, and K. Furuhama|Structure-Phototoxicity Relationship in Balb/c Mice Treated with Fluoroquinolone Derivatives, Followed by Ultraviolet-A Irradiation|Toxicol. Lett.157(3): 203-210|2005|10.1016/j.toxlet.2005.02.006
80291|AT||Deng,F.|Effects of Glyphosate, Chlorsulfuron, and Methyl Jasmonate on Growth and Alkaloid Biosynthesis of Jimsonweed (Datura stramonium L.)|Pestic. Biochem. Physiol.82(1): 16-26|2005|10.1016/j.pestbp.2004.09.007
80292|T||Havarinasab,S., B. Haggqvist, E. Bjorn, K.M. Pollard, and P. Hultman|Immunosuppressive and Autoimmune Effects of Thimerosal in Mice|Toxicol. Appl. Pharmacol.204(2): 109-121|2005|10.1016/j.taap.2004.08.019
80293|T||Geis,R.B., P. Diel, G.H. Degen, and G. Vollmer|Effects of Genistein on the Expression of Hepatic Genes in Two Rat Strains (Sprague-Dawley and Wistar)|Toxicol. Lett.157(1): 21-29|2005|10.1016/j.toxlet.2005.01.001
80294|T||Flores,A.E., W. Albeldano-Vazquez, I.F. Salas, M.H. Badii, H.L. Becerra, G.P. Garcia, S.L. Fuentes, W.G. Brogdon, W.C. |Elevated alpha-Esterase Levels Associated with Permethrin Tolerance in Aedes aegypti (L.) from Baja California, Mexico|Pestic. Biochem. Physiol.82(1): 66-78|2005|10.1016/j.pestbp.2004.12.007
80295|T||Lo,P.S., and H.H. Chen|Immunohistochemical Localization of Toluene-Induced c-Fos Protein Expression in the Rat Brain|Toxicol. Lett.157(2): 151-160|2005|10.1016/j.toxlet.2005.01.014
80296|T||Liu,J., S. Karanth, and C. Pope|Dietary Modulation of Parathion-Induced Neurotoxicity in Adult and Juvenile Rats|Toxicology210(2-3): 135-145|2005|10.1016/j.tox.2005.01.014
80297|T||Mahgoub,A., A. El-Medany, A. Mustafa, M. Arafah, and M. Moursi|Azithromycin and Erythromycin Ameliorate the Extent of Colonic Damage Induced by Acetic Acid in Rats|Toxicol. Appl. Pharmacol.205(1): 43-52|2005|10.1016/j.taap.2004.09.012
80298|T||Papadopoulos,A.I., A. Anagnostis, and D. Lazarou|Effect of Insecticide Injection on Pyruvate Kinase of the Insect Tenebrio molitor (Coleopteran)|Pestic. Biochem. Physiol.82(2): 115-124|2005|10.1016/j.pestbp.2005.01.002
80299|T||Gilreath,J.P., and B.M. Santos|Efficacy of Methyl Bromide Alternatives on Purple Nutsedge (Cyperus rotundus) Control in Tomato and Pepper|Weed Technol.18(2): 341-345|2004|10.1614/WT-03-086R2
80300|A||Nawrocki,S.T., K.D. Drake, C.F. Watson, G.D. Foster, and K.J. Maier|Comparative Aquatic Toxicity Evaluation of 2-(Thiocyanomethylthio)benzothiazole and Selected Degradation Products Using Ceriodaphnia dubia|Arch. Environ. Contam. Toxicol.48(3): 344-350|2005|10.1007/s00244-004-0105-1
80301|AT||Kruzynski,G.M., I.K. Birtwell, G.L. Chew, G.E. Piercey, and S. Spohn|An Approach to Testing for Ecological Relevance Using Behavioral Toxicology|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:1154-1158|1991|
80302|A||Chew,G.L., G.M. Kruzynski, and I.K. Birtwell|Behavioral Assessment of Exposure of Juvenile Chinook Salmon Oncorhynchus tshawytscha to Sublethal Doses of a Toxicant|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1774:1159-1163|1991|
80303|T||Kato-Noguchi,H.|Evaluation of the Importance of Lactate for the Activation of Ethanolic Fermentation in Lettuce Roots in Anoxia|Physiol. Plant. (Multiple Languages)109(1): 28-33|2000|10.1034/j.1399-3054.2000.100105.x
80304|T||Kirimura,K., M. Yoda, H. Shimizu, S. Sugano, M. Mizuno, K. Kino, and S. Usami|Contribution of Cyanide-Insensitive Respiratory Pathway, Catalyzed by the Alternative Oxidase, to Citric Acid Production in Aspergillus niger|Biosci. Biotechnol. Biochem.64(10): 2034-2039|2000|10.1271/bbb.64.2034
80305|A||Casper-Lindley,C., and O. Bjorkman|Nigericin Insensitive Post-Illumination Reduction in Fluorescence Yield in Dunaliella tertiolecta (Chlorophyte)|Photosynth. Res. (Dordr., Online)50(3): 209-222|1996|10.1007/BF00033120
80309|T||Chundawat,R.S., and P.P. Sood|Vitamins Deficiency in Developing Chick During Chromium Intoxication and Protection Thereof|Toxicology211(1-2): 124-131|2005|10.1016/j.tox.2005.03.004
80313|T||Rai,V., P. Vajpayee, S.N. Singh, and S. Mehrotra|Effect of Chromium Accumulation on Photosynthetic Pigments, Oxidative Stress Defense System, Nitrate Reduction, Proline Level and Eugenol Content of Ocimum tenuiflorum L.|Plant Sci.167(5): 1159-1169|2004|10.1016/j.plantsci.2004.06.016
80314|T||Pouyatos,B., C.A. Gearhart, and L.D. Fechter|Acrylonitrile Potentiates Hearing Loss and Cochlear Damage Induced by Moderate Noise Exposure in Rats|Toxicol. Appl. Pharmacol.204(1): 46-56|2005|10.1016/j.taap.2004.08.015
80315|T||Pushpanjali, A.K. Pal, R.L. Prasad, A. Prasad, S.K. Singh, A. Kumar, and S.B. Jadhao|In Ovo Embryotoxicity of alpha-Endosulfan Adversely Influences Liver and Brain Metabolism and the Immune System in Chickens|Pestic. Biochem. Physiol.82(2): 103-114|2005|10.1016/j.pestbp.2004.09.004
80316|T||Lumaret,J.P., F. Errouissi, P. Galtier, and M. Alvinerie|Pour-on Formulation of Eprinomectin for Cattle: Fecal Elimination Profile and Effects on the Development of the Dung-Inhabiting Diptera Neomyia cornicina (L.) (Muscidae)|Environ. Toxicol. Chem.24(4): 797-801|2005|10.1897/03-583.1
80317|T||Mikhailova,O.N., E.A. Vasyunina, L.P. Ovchinnikova, L.F. Gulyaeva, O.A. Timofeeva, M.L. Filipenko, and V.I. Kaledin|o-Aminoazotoluene does Induce the Enzymes of Its Own Mutagenic Activation in Mouse Liver|Toxicology211(1-2): 132-138|2005|10.1016/j.tox.2005.03.006
80318|T||Sharma,D., and M.D. Awasthi|Uptake of Soil Applied Paclobutrazol in Mango (Mangifera indica L.) and Its Persistence in Fruit and Soil|Chemosphere60(2): 164-169|2005|10.1016/j.chemosphere.2004.12.069
80320|T||Reddy,A.M., S.G. Kumar, G. Jyothsnakumari, S. Thimmanaik, and C. Sudhakar|Lead-Induced Changes in Antioxidant Metabolism of Horsegram (Macrotyloma uniflorum (Lam.) Verdc.) and Bengalgram (Cicer arietinum L.)|Chemosphere60(1): 97-104|2005|10.1016/j.chemosphere.2004.11.092
80321|T||Talsness,C.E., M. Shakibaei, S.N. Kuriyama, S.W. Grande, A. Sterner-Kock, P. Schnitker, C. De Souza, K. Grote, and I. C|Ultrastructural Changes Observed in Rat Ovaries Following In Utero and Lactational Exposure to Low Doses of a Polybrominated Flame Retardant|Toxicol. Lett.157(3): 189-202|2005|10.1016/j.toxlet.2005.02.001
80322|T||Sun,Q., X.R. Wang, S.M. Ding, and X.F. Yuan|Effects of Exogenous Organic Chelators on Phytochelatins Production and Its Relationship with Cadmium Toxicity in Wheat (Triticum aestivum L.) Under Cadmium Stress|Chemosphere60(1): 22-31|2005|10.1016/j.chemosphere.2004.10.068
80323|T||Wang,X.F., and Q.X. Zhou|Ecotoxicological Effects of Cadmium on Three Ornamental Plants|Chemosphere60(1): 16-21|2005|10.1016/j.chemosphere.2004.12.031
80324|T||Veggi,L.M., F.A. Crocenzi, M.G. Roma, and A.D. Mottino|Dapsone Impairs the Bile Salt-Independent Fraction of Bile Flow in Rats:  Possible Involvement of Its N-hydroxylated Metabolite|Toxicology211(1-2): 97-106|2005|10.1016/j.tox.2005.03.002
80325|T||Van den Berg,F.A., K.A. Baken, J.P. Vermeulen, E.R. Gremmer, H. Van Steeg, and H. Van Loveren|Use of the Local Lymph Node Assay in Assessment of Immune Function|Toxicology211(1-2): 107-114|2005|10.1016/j.tox.2005.03.003
80326|T||Vaillant,N., F. Monnet, A. Hitmi, H. Sallanon, and A. Coudret|Comparative Study of Responses in Four Datura Species to a Zinc Stress|Chemosphere59(7): 1005-1013|2005|10.1016/j.chemosphere.2004.11.030
80327|T||Timchalk,C., T.S. Poet, M.N. Hinman, A.L. Busby, and A.A. Kousba|Pharmacokinetic and Pharmacodynamic Interaction for a Binary Mixture of Chlorpyrifos and Diazinon in the Rat|Toxicol. Appl. Pharmacol.205(1): 31-42|2005|10.1016/j.taap.2004.09.004
80328|T||Vila-Aiub,M.M., and C.M. Ghersa|Building up Resistance by Recurrently Exposing Target Plants to Sublethal Doses of Herbicide|Eur. J. Agron.22(2): 195-207|2005|10.1016/j.eja.2004.01.004
80329|T||Sattolo,S., C.A.F. Carvalho, and V.H.A. Cagnon|Influence of Hormonal Replacement on the Ventral Lobe of the Prostate of Rats (Rattus norvegicus albinus) Submitted to Chronic Ethanol Treatment|Tissue Cell36(6): 417-430|2004|10.1016/j.tice.2004.07.004
80330|T||Mencoboni,M., R. Lerza, G. Bogliolo, G. Flego, and I. Pannacciulli|Effect of Atrazine on Hemopoietic System|In Vivo6(1): 41-44|1992|
80331|T||Cranmer,J.M., J.D. Wilkins, D.J. Cannon, and L. Smith|Fetal-Placental-Maternal Uptake of Aluminum in Mice Following Gestational Exposure:  Effect of Dose and Route of Administration|Neurotoxicology7(2): 601-608|1986|
80332|T||Bolin,C.A.|Effects of Exogenous Iron on Escherichia coli septicemia of Turkeys|Am. J. Vet. Res.47(8): 1813-1816|1986|
80333|T||Murthy,R.C., D.K. Saxena, B. Lal, and S.V. Chandra|Chronic Cadmium-Ethanol Administration Alters Metal Distribution and Some Biochemicals in Rat Brain|Biochem. Int.19(1): 135-143|1989|
80334|T||Shoremi,O.I.A., and M.K.C. Sridhar|The Effect of Aluminium in Drinking Water on Young and Old Laying Chickens|Indian J. Anim. Sci.68(2): 172-174|1998|
80338|T||Pentecost,B.T., R.R. Newbold, C.T. Teng, and J.A. McLachlan|Prenatal Exposure of Male Mice to Diethylstilbestrol Alters the Expression of the Lactotransferrin Gene in Seminal Vesicles|Mol. Endocrinol.2:1243-1248|1988|10.1210/mend-2-12-1243
80339|T||Meera,P., O. Tripathi, K.K. Kamboj, and P.R. Rao|Role of Calcium in Biphasic Immunomodulation by gamma-HCH (Lindane) in Mice|Immunopharmacol. Immunotoxicol.15(1): 113-129|1993|10.3109/08923979309066937
80340|T||Dubick,M.A., and C.L. Keen|Alterations in Tissue Trace Element and Ascorbic Acid Metabolism in Phenytoin-Fed Rats and Mice|J. Nutr.115(11): 1481-1487|1985|10.1093/jn/115.11.1481
80341|T||Tao,S.H., B.E.,Jr. Fry, and M.R.S. Fox|Magnesium Stores and Anemia in Young Japanese Quail|J. Nutr.113(6): 1195-1203|1983|10.1093/jn/113.6.1195
80343|T||Yang,M.T., and S.P. Yang|Effect of Molybdenum Supplementation on Hepatic Trace Elements and Enzymes of Female Rats|J. Nutr.119(2): 221-227|1989|10.1093/jn/119.2.221
80344|T||Wen,J., S.N. McCarthy, F.M.J. Higgins, P.A. Morrissey, D.J. Buckley, and P.J.A. Sheehy|Effect of Dietary alpha-Tocopheryl Acetate on the Uptake and Distribution of alpha-Tocopherol in Turkey Tissues and Lipid Stability|Ir. J. Agric. Food Res.36(1): 65-74|1997|
80345|T||Dalgarno,A.C.|The Effect of Low Level Exposure to Dietary Cadmium, on Cadmium, Zinc, Copper and Iron Contents of Selected Tissues of Growing Lambs|J. Sci. Food Agric.31(10): 1043-1049|1980|10.1002/jsfa.2740311011
80346|T||Shrader,R.E., C.L. Keen, L.S. Hurley, and F.J. Zeman|Hematologic and Trace Element Alterations Following Chronic Maternal Ingestion of Propylthiourea.|Exp. Hematol. (N. Y. )10(1): 44-55|1982|
80347|T||Bokori,J., S. Fekete, I. Kadar, F. Vetesi, and M. Albert|Complex Study of the Physiological Role of Aluminium.  II.  Aluminium Tolerance Tests in Broiler Chickens|Acta Vet. Hung.41(3/4): 235-264|1993|
80348|T||Ravindranath,V., M.R. Boyd, and D.M. Jerina|Hepatotoxicity of Precocene I in Rats.  Role of Metabolic Activation In Vivo|Biochem. Pharmacol.36(4): 441-446|1987|10.1016/0006-2952(87)90348-0
80349|T||Golenda,C.F., and A.J. Forgash|The Distribution and Metabolism of Fenvalerate in Pyrethroid-Resistant and Susceptible House Flies|Pestic. Biochem. Physiol.33(1): 37-48|1989|10.1016/0048-3575(89)90074-6
80350|T||Koester,J.|Metabolism of Spirodiclofen (BAJ 2740) in Animals and Plants|Pflanzenschutz-Nachr.55(2/3): 237-254|2002|
80356|T||Cespedes,C.L., P. Torres, J.C. Marin, A. Arciniegas, A. Romo de Vivar, A.L. Perez-Castorena, and E. Aranda|Insect Growth Inhibition by Tocotrienols and Hydroquinones from Roldana barba-johannis|Phytochemistry65(13): 1963-1975|2004|10.1016/j.phytochem.2004.03.037
80357|T||Londershausen,M., W. Leicht, F. Lieb, H. Moeschler, and H. Weiss|Molecular Mode of Action of Annonins|Pestic. Sci.33(4): 427-438|1991|10.1002/ps.2780330405
80358|T||Yamano,T., M. Shimizu, and T. Noda|Allergenicity Evaluation of N-(1-Methylheptyl)-N'-Phenyl-p-Phenylenediamine and 2-(Thiocyanomethylthio)Benzothiazole by the Guinea Pig Maximization Test|J. Health Sci.47(4): 331-338|2001|10.1248/jhs.47.331
80359|A||Mezcua,M., M.D. Hernando, L. Piedra, A. Aguera, and A.R. Fernandez-Alba|Chromatography-Mass Spectrometry and Toxicity Evaluation of Selected Contaminants in Seawater|Chromatographia (Wiesb.)56(3/4): 199-206|2002|10.1007/BF02493212
80360|T||Abdou,Y.A., and A.S. Khadr|Systemic Control of Seedling and Pod Rot Disease of Peanuts (Arachis hypogaea)|Plant Dis. Rep.58(2): 176-179|1974|
80361|T||Ziogas,B.N., A.N. Markoglou, and A. Tzima|A Non-Mendelian Inheritance of Resistance to Strobilurin Fungicides in Ustilago maydis|Pest Manag. Sci.58(9): 908-916|2002|10.1002/ps.543
80362|T||Steinfeld,U., H. Sierotzki, S. Parisi, S. Poirey, and U. Gisi|Sensitivity of Mitochondrial Respiration to Different Inhibitors in Venturia inaequalis|Pest Manag. Sci.57(9): 787-796|2001|10.1002/ps.356
80363|T||Sierotzki,H., S. Parisi, U. Steinfeld, I. Tenzer, S. Poirey, and U. Gisi|Mode of Resistance to Respiration Inhibitors at the Cytochrome BC1 Enzyme Complex of Mycosphaerella fijiensis Field Isolates|Pest Manag. Sci.56(10): 833-841|2000|10.1002/1526-4998(200010)56:10<833::AID-PS200>3.0.CO;2-Q
80364|T||Coosemans,J.|Possibilities and Some Particular Requirements in Cut-Flower Soil Disinfestation|Agric. Environ.1(3): 243-250|1974|10.1016/0304-1131(74)90022-8
80366|T||Ranney,C.D., and W.H.,Jr. Heartley|Multiple Cottonseed Treatments:  Effect of Sequence of Application of Pesticides on Germination, Seedling Growth, and Survival|Crop Sci.12(6): 847-850|1972|10.2135/cropsci1972.0011183X001200060040x
80367|T||Ramesh Babu,T., S.H. Hussaini, and B. Satyanarayana|Effect of Pre-Storage Seed Treatments on Adult Mortality, Oviposition and Development of Callosobruchus chinensis L. (Bruchidae: Coleoptera), and the Viability of Mungbean (Vigna radiata (L.) Wilczek) in India|Trop. Pest Manag.35(4): 397-398|1989|10.1080/09670878909371414
80368|T||Grace,J.K.|Toxicity and Repellency of the Fungicide TCMTB to the Eastern Subterranean Termite (Isoptera:  Rhinotermitidae)|Proc. Entomol. Soc. Ont.119:83-86|1988|
80369|T||Vanhanen,R.|Experiments with Non-mercury Seed Dressings on Spring Cereals|Ann. Agric. Fenn.20(2): 89-101|1981|
80370|T||Mayfield,A.H.|Efficacies of Fungicides for Control of Stem Rust of Wheat|Aust. J. Exp. Agric.25(2): 440-443|1985|10.1071/EA9850440
80371|A||Silvestre,F., G. Trausch, and P. Devos|Hyper-Osmoregulatory Capacity of the Chinese Mitten Crab (Eriocheir sinensis) Exposed to Cadmium; Acclimation During Chronic Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 29-37|2005|10.1016/j.cca.2004.12.007
80372|A||Seebaugh,D.R., D. Goto, and W.G. Wallace|Bioenhancement of Cadmium Transfer Along a Multi-Level Food Chain|Mar. Environ. Res.59(5): 473-491|2005|10.1016/j.marenvres.2004.07.003
80373|A||Schwartz,M.L., P.J. Curtis, and R.C. Playle|Influence of Natural Organic Matter Source on Acute Copper, Lead, and Cadmium Toxicity to Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.23(12): 2889-2899|2004|10.1897/03-561.1
80374|A||Tilton,S.C., C.M. Foran, and W.H. Benson|Relationship Between Ethinylestradiol-Mediated Changes in Endocrine Function and Reproductive Impairment in Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.24(2): 352-359|2005|10.1897/04-016R.1
80377|A||Springman,K.R., G. Kurath, J.J. Anderson, and J.M. Emlen|Contaminants as Viral Cofactors:  Assessing Indirect Population Effects|Aquat. Toxicol.71(1): 13-23|2005|10.1016/j.aquatox.2004.10.006
80379|A||Sloman,K.A., O. Lepage, J.T. Rogers, C.M. Wood, and S. Winberg|Socially-Mediated Differences in Brain Monoamines in Rainbow Trout:  Effects of Trace Metal Contaminants|Aquat. Toxicol.71(3): 237-247|2005|10.1016/j.aquatox.2004.11.008
80380|T||Sinha,S., R. Saxena, and S. Singh|Chromium Induced Lipid Peroxidation in the Plants of Pistia stratiotes L.:  Role of Antioxidants and Antioxidant Enzymes|Chemosphere58(5): 595-604|2005|10.1016/j.chemosphere.2004.08.071
80382|T||Thompson,K.E., S.M. Bourguet, P.J. Christian, J.C. Benedict, I.G. Sipes, J.A. Flaws, and P.B. Hoyer|Differences Between Rats and Mice in the Involvement of the Aryl Hydrocarbon Receptor in 4-Vinylcyclohexene Diepoxide-Induced Ovarian Follicle Loss|Toxicol. Appl. Pharmacol.203(2): 114-123|2005|10.1016/j.taap.2004.07.010
80383|T||Lamberti,F.|Yield Responses in Relation to the Chemical Control of Root-Knot Nematodes in Southern Italy|Bull. OEPP/EPPO3(1): 55-66|1973|10.1111/j.1365-2338.1973.tb02292.x
80384|T||Takekoshi,H., G. Suzuki, H. Chubachi, and M. Nakano|Effect of Chlorella pyrenoidosa on Fecal Excretion and Liver Accumulation of Polychlorinated Dibenzo-p-Dioxin in Mice|Chemosphere59(2): 297-304|2005|10.1016/j.chemosphere.2004.11.026
80385|T||Igamberdiev,A.U., C. Seregelyes, N. Manac'h, and R.D. Hill|NADH-Dependent Metabolism of Nitric Oxide in Alfalfa Root Cultures Expressing Barley Hemoglobin|Planta (Multiple Languages)219(1): 95-102|2004|10.1007/s00425-003-1192-3
80386|T||Felle,H.H.|Control of Cytoplasmic pH Under Anoxic Conditions and Its Implication for Plasma Membrane Proton Transport in Medicago sativa Root Hairs|J. Exp. Bot.47(300): 967-973|1996|10.1093/jxb/47.7.967
80387|A||Pick,U.|The Respiratory Inhibitor Antimycin A Specifically Binds Fe(III) Ions and Mediates Utilization of Iron by the Halotolerant Alga Dunaliella salina (Chlorophyta)|BioMetals17(1): 79-86|2004|10.1023/A:1024480720962
80388|A||Soldo,D., R. Hari, L. Sigg, and R. Behra|Tolerance of Oocystis nephrocytioides to Copper:  Intracellular Distribution and Extracellular Complexation of Copper|Aquat. Toxicol.71(4): 307-317|2005|10.1016/j.aquatox.2004.11.011
80389|A||Tusseau-Vuillemin,M.H., R. Gilbin, E. Bakkaus, and J. Garric|Performance of Diffusion Gradient in Thin Films to Evaluate the Toxic Fraction of Copper to Daphnia magna|Environ. Toxicol. Chem.23(9): 2154-2161|2004|10.1897/03-202a
80390|T||Saish,D., M. Nakazono, K.H. Lee, N. Tsutsumi, S. Akita, and A. Hirai|The Gene for Alternative Oxidase-2 (AOX2) from Arabidopsis thaliana Consists of Five Exons Unlike Other AOX Genes and is Transcribed at an Early Stage During Germination|Genes Genet. Syst.76(2): 89-97|2001|10.1266/ggs.76.89
80391|T||Greenfield,A.J.|Weed Control Under Plastic Crop Covers|Br. Crop Prot. Conf. Weeds7(2): 735-743|1989|
80392|A||Versonnen,B.J., P. Roose, E.M. Monteyne, and C.R. Janssen|Estrogenic and Toxic Effects of Methoxychlor on Zebrafish (Danio rerio)|Environ. Toxicol. Chem.23(9): 2194-2201|2004|10.1897/03-228
80394|A||Van Genderen,E.J., A.C. Ryan, J.R. Tomasso, and S.J. Klaine|Evaluation of Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Soft Surface Waters|Environ. Toxicol. Chem.24(2): 408-414|2005|10.1897/03-494.1
80395|A||Unrine,J.M., C.H. Jagoe, W.A. Hopkins, and H.A. Brant|Adverse Effects of Ecologically Relevant Dietary Mercury Exposure in Southern Leopard Frog (Rana sphenocephala) Larvae|Environ. Toxicol. Chem.23(12): 2964-2970|2005|10.1897/03-696.1
80396|A||Unrine,J.M., and C.H. Jagoe|Dietary Mercury Exposure and Bioaccumulation in Southern Leopard Frog (Rana sphenocephala) Larvae|Environ. Toxicol. Chem.23(12): 2956-2963|2004|10.1897/03-695.1
80397|T||Vijayaraghavan,R., A. Kulkarni, S.C. Pant, P. Kumar, P.V. Rao, N. Gupta, A. Gautam, and K. Ganesan|Differential Toxicity of Sulfur Mustard Administered Through Percutaneous, Subcutaneous, and Oral Routes|Toxicol. Appl. Pharmacol.202(2): 180-188|2005|10.1016/j.taap.2004.06.020
80398|A||Xia,J.|Response of Growth, Photosynthesis and Photoinhibition of the Edible Cyanobacterium Nostoc sphaeroides Colonies to Thiobencarb Herbicide|Chemosphere59(4): 561-566|2005|10.1016/j.chemosphere.2004.12.014
80399|A||Liwarska-Bizukojc,E., K. Miksch, A. Malachowska-Jutsz, and J. Kalka|Acute Toxicity and Genotoxicity of Five Selected Anionic and Nonionic Surfactants|Chemosphere58(9): 1249-1253|2005|10.1016/j.chemosphere.2004.10.031
80400|A||Luo,Q., M. Ban, H. Ando, T. Kitahashi, R.K. Bhandari, S.D. McCormick, and A. Urano|Distinct Effects of 4-Nonylphenol and Estrogen-17beta on Expression of Estrogen Receptor alpha Gene in Smolting Sockeye Salmon|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 123-130|2005|10.1016/j.cca.2005.01.008
80401|T||Lafuente,A., A. Gonzalez-Carracedo, A. Romero, T. Cabaleiro, and A.I. Esquifino|Toxic Effects of Cadmium on the Regulatory Mechanism of Dopamine and Serotonin on Prolactin Secretion in Adult Male Rats|Toxicol. Lett.155(1): 87-96|2005|10.1016/j.toxlet.2004.08.011
80402|A||Lahnsteiner,F., B. Berger, F. Grubinger, and T. Weismann|The Effect of 4-Nonylphenol on Semen Quality, Viability of Gametes, Fertilization Success, and Embryo and Larvae Survival in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.71(4): 297-306|2005|10.1016/j.aquatox.2004.11.007
80404|A||Kamaya,Y., Y. Fukaya, and K. Suzuki|Acute Toxicity of Benzoic Acids to the Crustacean Daphnia magna|Chemosphere59(2): 255-261|2005|10.1016/j.chemosphere.2004.11.003
80407|A||Heckmann,L.H., and N. Friberg|Macroinvertebrate Community Response to Pulse Exposure with the Insecticide lambda-Cyhalothrin Using In-Stream Mesocosms|Environ. Toxicol. Chem.24(3): 582-590|2005|10.1897/04-117R.1
80408|A||Henry,T.B., J.W. Kwon, K.L. Armbrust, and M.C. Black|Acute and Chronic Toxicity of Five Selective Serotonin Reuptake Inhibitors in Ceriodaphnia dubia|Environ. Toxicol. Chem.23(9): 2229-2233|2004|10.1897/03-278
80409|A||Hyder,A.H., J.P. Overmyer, and R. Noblet|Influence of Developmental Stage on Susceptibilities and Sensitivities of Simulium vittatum IS-7 and Simulium vittatum IIIL-1 (Diptera:  Simuliidae) to Chlorpyrifos|Environ. Toxicol. Chem.23(12): 2856-2862|2004|10.1897/03-657.1
80410|A||Nakayama,K., Y. Oshima, K. Nagafuchi, T. Hano, Y. Shimasaki, and T. Honjo|Early-Life-Stage Toxicity in Offspring from Exposed Parent Medaka, Oryzias latipes, to Mixtures of Tributyltin and Polychlorinated Biphenyls|Environ. Toxicol. Chem.24(3): 591-596|2005|10.1897/04-157R.1
80411|A||Mu,X., C.V. Rider, G.S. Hwang, H. Hoy, and G.A. LeBlanc|Covert Signal Disruption:  Anti-Ecdysteroidal Activity of Bisphenol A Involves Cross Talk Between Signaling Pathways|Environ. Toxicol. Chem.24(1): 146-152|2005|10.1897/04-063R.1
80412|T||Murphy,M.G., M. Al-Khalidi, J.F.S. Crocker, S.H. Lee, P. O'Regan, and P.D. Acott|Two Formulations of the Industrial Surfactant, Toximul, Differentially Reduce Mouse Weight Gain and Hepatic Glycogen In Vivo During Early Development: Effects of Exposure to Influenza B Virus|Chemosphere59(2): 235-246|2005|10.1016/j.chemosphere.2004.11.084
80413|A||Norum,U., M. Bondgaard, T.V. Pedersen, and P. Bjerregaard|In Vivo and In Vitro Cadmium Accumulation During the Moult Cycle of the Male Shore Crab Carcinus maenas-Interaction with Calcium Metabolism|Aquat. Toxicol.72(1-2): 29-44|2005|10.1016/j.aquatox.2004.11.021
80414|A||Morley,N.J., M. Crane, and J.W. Lewis|Toxicity of Cadmium and Zinc Mixtures to Cercarial Tail Loss in Diplostomum spathaceum (Trematoda:  Diplostomidae)|Ecotoxicol. Environ. Saf.60(1): 53-60|2005|10.1016/j.ecoenv.2003.12.018
80415|A||Opitz,R., T. Braunbeck, C. Bogi, D.B. Pickford, G. Nentwig, J. Oehlmann, O. Tooi, I. Lutz, and W. Kloas|Description and Initial Evaluation of a Xenopus Metamorphosis Assay for Detection of Thyroid System-Disrupting Activities of Environmental Compounds|Environ. Toxicol. Chem.24(3): 653-664|2005|10.1897/04-214R.1
80416|A||Pane,E.F., C. Bucking, M. Patel, and C.M. Wood|Renal Function in the Freshwater Rainbow Trout (Oncorhynchus mykiss) Following Acute and Prolonged Exposure to Waterborne Nickel|Aquat. Toxicol.72(1-2): 119-133|2005|10.1016/j.aquatox.2004.11.020
80417|A||Nunez-Nogueira,G., and P.S. Rainbow|Cadmium Uptake and Accumulation by the Decapod Crustacean Penaeus indicus|Mar. Environ. Res.60(3): 339-354|2005|10.1016/j.marenvres.2004.12.001
80418|T||Novelli,M., S. Piaggi, and V. DeTata|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Impairment of Glucose-Stimulated Insulin Secretion in Isolated Rat Pancreatic Islets|Toxicol. Lett.156(2): 307-314|2005|10.1016/j.toxlet.2004.12.004
80419|A||Riddell,D.J., J.M. Culp, and D.J. Baird|Behavioral Responses to Sublethal Cadmium Exposure Within an Experimental Aquatic Food Web|Environ. Toxicol. Chem.24(2): 431-441|2005|10.1897/04-026R.1
80420|A||Rocha-Olivares,A., J.W. Fleeger, and D.W. Foltz|Differential Tolerance Among Cryptic Species:  A Potential Cause of Pollutant-Related Reductions in Genetic Diversity|Environ. Toxicol. Chem.23(9): 2132-2137|2004|10.1897/03-512
80421|A||Robinson,A.A., J.B. Belden, and M.J. Lydy|Toxicity of Fluoroquinolone Antibiotics to Aquatic Organisms|Environ. Toxicol. Chem.24(2): 423-430|2005|10.1897/04-210R.1
80422|A||Roepke,T.A., M.J. Snyder, and G.N. Cherr|Estradiol and Endocrine Disrupting Compounds Adversely Affect Development of Sea Urchin Embryos at Environmentally Relevant Concentrations|Aquat. Toxicol.71(2): 155-173|2005|10.1016/j.aquatox.2004.11.003
80423|A||Rollins-Smith,L.A., B.D. Hopkins, and L.K. Reinert|An Amphibian Model to Test the Effects of Xenobiotic Chemicals on Development of the Hematopoietic System|Environ. Toxicol. Chem.23(12): 2863-2867|2005|10.1897/03-530.1
80424|T||Ryokkynen,A., P. Nieminen, A.M. Mustonen, T. Pyykonen, J. Asikainen, S. Hanninen, J. Mononen, and J.V.K. Kukkonen|Phytoestrogens Alter the Reproductive Organ Development in the Mink (Mustela vison)|Toxicol. Appl. Pharmacol.202(2): 132-139|2005|10.1016/j.taap.2004.06.012
80425|T||Pina-Guzman,B., M.J. Solis-Heredia, and B. Quintanilla-Vega|Diazinon Alters Sperm Chromatin Structure in Mice by Phosphorylating Nuclear Protamines|Toxicol. Appl. Pharmacol.202(2): 189-198|2005|10.1016/j.taap.2004.06.028
80427|T||Pillai,A., and S. Gupta|Effect of Gestational and Lactational Exposure to Lead and/or Cadmium on Reproductive Performance and Hepatic Oestradiol Metabolising Enzymes|Toxicol. Lett.155(1): 179-186|2005|10.1016/j.toxlet.2004.09.015
80428|A||Ryan,A.C., E.J. Van Genderen, J.R. Tomasso, and S.J. Klaine|Influence of Natural Organic Matter Source on Copper Toxicity to Larval Fathead Minnows (Pimephales promelas):  Implications for the Biotic Ligand Model|Environ. Toxicol. Chem.23(6): 1567-1574|2004|10.1897/02-476
80429|A||Rosen,G., I. Rivera-Duarte, L. Kear-Padilla, and D.B. Chadwick|Use of Laboratory Toxicity Tests with Bivalve and Echinoderm Embryos to Evaluate the Bioavailability of Copper in San Diego Bay, California, USA|Environ. Toxicol. Chem.24(2): 415-422|2005|10.1897/04-079R1.1
80430|A||Schmitt-Jansen,M., and R. Altenburger|Predicting and Observing Responses of Algal Communities to Photosystem II-Herbicide Exposure Using Pollution-Induced Community Tolerance and Species-Sensitivity Distributions|Environ. Toxicol. Chem.24(2): 304-312|2005|10.1897/03-647.1
80431|A||Sandahl,J.F., D.H. Baldwin, J.J. Jenkins, and N.L. Scholz|Comparative Thresholds for Acetylcholinesterase Inhibition and Behavioral Impairment in Coho Salmon Exposed to Chlorpyrifos|Environ. Toxicol. Chem.24(1): 136-145|2005|10.1897/04-195R.1
80433|A||Shen,J., Q. Zhang, S. Ding, S. Zhang, and J.R. Coats|Bioconcentration and Elimination of Avermectin B1 in Sturgeon|Environ. Toxicol. Chem.24(2): 396-399|2005|10.1897/03-480.1
80434|T||Seifart,C., U. Clostermann, U. Seifart, B. Muller, C. Vogelmeier, Peter von Wichert, and H. Fehrenbach|Cell-Specific Modulation of Surfactant Proteins by Ambroxol Treatment|Toxicol. Appl. Pharmacol.203(1): 27-35|2005|10.1016/j.taap.2004.07.015
80435|A||Shi,H., Y. Sui, X. Wang, Y. Luo, and L. Ji|Hydroxyl Radical Production and Oxidative Damage Induced by Cadmium and Naphthalene in Liver of Carassius auratus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 115-121|2005|10.1016/j.cca.2005.01.009
80436|A||Silveira-Coffigny,R., A. Prieto-Trujillo, and F. Ascencio-Valle|Effects of Different Stressors in Haematological Variables in Cultured Oreochromis aureus S.|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 245-250|2004|10.1016/j.cca.2004.11.009
80437|T||Sidorova,Y.A., A.Y. Grishanova, and V.V. Lyakhovich|Rat Hepatic CYP1A1 and CYP1A2 Induction by Menadione|Toxicol. Lett.155(2): 253-258|2005|10.1016/j.toxlet.2004.10.001
80438|A||Silvestre,F., C. Duchene, G. Trausch, and P. Devos|Tissue-Specific Cadmium Accumulation and Metallothionein-Like Protein Levels During Acclimation Process in the Chinese Crab Eriocheir sinensis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 39-45|2005|10.1016/j.cca.2005.01.004
80439|A||Klinck,J., M. Dunbar, S. Brown, J. Nichols, A. Winter, C. Hughes, and R.C. Playle|Influence of Water Chemistry and Natural Organic Matter on Active and Passive Uptake of Inorganic Mercury by Gills of Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.72(1/2): 161-175|2005|10.1016/j.aquatox.2004.11.013
80440|T||Kuriwaki,J., M. Nishijo, R. Honda, K. Tawara, H. Nakagawa, E. Hori, and H. Nishijo|Effects of Cadmium Exposure During Pregnancy on Trace Elements in Fetal Rat Liver and Kidney|Toxicol. Lett.156(3): 369-376|2005|10.1016/j.toxlet.2004.12.009
80441|T||Liang,Y., J.W.C. Wong, and L. Wei|Silicon-Mediated Enhancement of Cadmium Tolerance in Maize (Zea mays L.) Grown in Cadmium Contaminated Soil|Chemosphere58(4): 475-483|2005|10.1016/j.chemosphere.2004.09.034
80442|T||Gokalp,O., B. Buyukvanli, E. Cicek, M.K. Ozer, A. Koyu, I. Altuntas, and H. Koylu|The Effects of Diazinon on Pancreatic Damage and Ameliorating Role of Vitamin E and Vitamin C|Pestic. Biochem. Physiol.81(2): 123-128|2005|10.1016/j.pestbp.2004.11.001
80443|T||Collombet,J.M., E. Four, D. Bernabe, C. Masqueliez, M.F. Burckhart, V. Baille, D. Baubichon, and G. Lallement|Soman Poisoning Increases Neural Progenitor Proliferation and Induces Long-Term Glial Activation in Mouse Brain|Toxicology208(3): 319-334|2005|10.1016/j.tox.2004.11.036
80444|A||Wollenberger,L., L. Dinan, and M. Breitholtz|Brominated Flame Retardants: Activities in a Crustacean Development Test and in an Ecdysteroid Screening Assay|Environ. Toxicol. Chem.24(2): 400-407|2005|10.1897/03-629.1
80445|A||Wheelock,C.E., J.L. Miller, M.J. Miller, S.J. Gee, G. Shan, and B.D. Hammock|Development of Toxicity Identification Evaluation Procedures for Pyrethroid Detection Using Esterase Activity|Environ. Toxicol. Chem.23(11): 2699-2708|2004|10.1897/03-544
80446|T||Wang,J., S. Kannan, H. Li, and M. Firoze Khan|Cytokine Gene Expression and Activation of NF-kappa in Aniline-Induced Splenic Toxicity|Toxicol. Appl. Pharmacol.203(1): 36-44|2005|10.1016/j.taap.2004.07.012
80447|A||Rendon-von Osten,J., A. Ortiz-Arana, L. Guilhermino, and A.M.V.M. Soares|In Vivo Evaluation of Three Biomarkers in the Mosquitofish (Gambusia yucatana) Exposed to Pesticides|Chemosphere58(5): 627-636|2005|10.1016/j.chemosphere.2004.08.065
80448|A||Zhong,X., Y. Xu, Y. Liang, T. Liao, and J. Wang|The Chinese Rare Minnow (Gobiocypris rarus) as an In Vivo Model for Endocrine Disruption in Freshwater Teleosts:  A Full Life-Cycle Test with Diethylstilbestrol|Aquat. Toxicol.71(1): 85-95|2005|10.1016/j.aquatox.2004.10.014
80449|T||Zhang,S., J. Fu, and Z. Zhou|Changes in the Brain Mitochondrial Proteome of Male Sprague-Dawley Rats Treated with Manganese Chloride|Toxicol. Appl. Pharmacol.202(1): 13-17|2005|10.1016/j.taap.2004.06.001
80450|A||Yokota,H., T. Abe, M. Nakai, H. Murakami, C. Eto, and Y. Yakabe|Effects of 4-tert-Pentylphenol on the gene Expression of P450 11beta-Hydroxylase in the Gonad of Medaka (Oryzias latipes)|Aquat. Toxicol.71(2): 121-132|2005|10.1016/j.aquatox.2004.10.017
80451|T||Yavuz,T., N. Delibas, B. Yildirim, I. Altuntas, O. Candir, A. Cora, N. Karahan, E. Ibrisim, and A. Kutsal|Vascular Wall Damage in Rats Induced by Organophosphorus Insecticide Methidathion|Toxicol. Lett.155(1): 59-64|2005|10.1016/j.toxlet.2004.08.012
80452|T||Yamasaki,K., S. Noda, T. Muroi, H. Mitoma, S. Takakura, and S. Sakamoto|Effects of In Utero and Lactational Exposure to Tamoxifen in SD Rats|Toxicol. Lett.156(2): 289-296|2005|10.1016/j.toxlet.2004.12.001
80453|A||Xie,L., and P.L. Klerks|Fitness Cost of Resistance to Cadmium in the Least Killifish (Heterandria formosa)|Environ. Toxicol. Chem.23(6): 1499-1503|2004|10.1897/03-96
80454|T||Fujitani,T., Y. Tada, and M. Yoneyama|Chlorpropham-Induced Splenotoxicity and Its Recovery in Rats|Food Chem. Toxicol.42(9): 1469-1477|2004|10.1016/j.fct.2004.04.008
80455|T||Gamer,A.O., E. Leibold, K. Deckardt, B. Kittel, W. Kaufmann, H.A. Tennekes, and B. Van Ravenzwaay|The Effects of Styrene on Lung Cells in Female Mice and Rats|Food Chem. Toxicol.42(10): 1655-1667|2004|10.1016/j.fct.2004.06.002
80456|T||Hopkins,W.A., B.P. Staub, J.A. Baionno, B.P. Jackson, and L.G. Talent|Transfer of Selenium from Prey to Predators in a Simulated Terrestrial Food Chain|Environ. Pollut.134(3): 447-456|2005|10.1016/j.envpol.2004.09.010
80457|T||Hopkins,J.E., D.J. Naisbitt, N. Humphreys, R.J. Dearman, I. Kimber, and B.K. Park|Exposure of Mice to the Nitroso Metabolite of Sulfamethoxazole Stimulates Interleukin 5 Production by CD4+ T-Cells|Toxicology206(2): 221-231|2005|10.1016/j.tox.2004.08.010
80458|T||Hussain,I., M.S. Piepenbrink, K.J. Fitch, J.A. Marsh, and R.R. Dietert|Developmental Immunotoxicity of Cyclosporin-A in Rats:  Age-Associated Differential Effects|Toxicology206(2): 273-284|2005|10.1016/j.tox.2004.08.019
80459|T||Inderjit, M. Saini, and H. Kaur|Experimental Complexities in Evaluating the Comparative Phytotoxicity of Chemicals with Different Modes of Action|Environ. Exp. Bot.53(1): 97-104|2005|10.1016/j.envexpbot.2004.03.004
80460|T||Jeong,S.H., B.Y. Kim, H.G. Kang, H.O. Ku, and J.H. Cho|Effects of Butylated Hydroxyanisole on the Development and Functions of Reproductive System in Rats|Toxicology208(1): 49-62|2005|10.1016/j.tox.2004.11.014
80461|T||Johnson,K.A., P.C. Baker, H.L. Kan, J.P. Maurissen, P.J. Spencer, and M.S. Marty|Diethylene Glycol Monobutyl Ether (DGBE):  Two- and Thirteen-Week Oral Toxicity Studies in Fischer 344 Rats|Food Chem. Toxicol.43(3): 467-481|2005|10.1016/j.fct.2004.12.003
80462|T||Karrow,N.A., J.A. McCay, R.D. Brown, D.L. Musgrove, T.L. Guo, D.R. Germolec, and K.L.,Jr. White|Oral Exposure to Atrazine Modulates Cell-Mediated Immune Function and Decreases Host Resistance to the B16F10 Tumor Model in Female B6C3F1 Mice|Toxicology209(1): 15-28|2005|10.1016/j.tox.2004.12.002
80464|T||Kim,H.Y., T. Yokozawa, T. Nakagawa, and S. Sasaki|Protective Effect of gamma-Aminobutyric Acid Against Glycerol-Induced Acute Renal Failure in Rats|Food Chem. Toxicol.42(12): 2009-2014|2004|10.1016/j.fct.2004.06.021
80465|T||Kim,H.J., D.J. Hawthorne, T. Peters, G.P. Dively, and J.M. Clark|Application of DNA-Based Genotyping Techniques for the Detection of kdr-like Pyrethroid Resistance in Field Populations of Colorado Potato Beetle|Pestic. Biochem. Physiol.81(2): 85-96|2005|10.1016/j.pestbp.2004.10.002
80466|T||Antosiewicz,D.M.|Study of Calcium-Dependent Lead-Tolerance on Plants Differing in Their Level of Ca-Deficiency Tolerance|Environ. Pollut.134(1): 23-34|2005|10.1016/j.envpol.2004.07.019
80467|T||Baek,J.H., J. Kim II, D.W. Lee, B.K. Chung, T. Miyata, and S.H. Lee|Identification and Characterization of ace1-Type Acetylcholinesterase Likely Associated with Organophosphate Resistance in Plutella xylostella|Pestic. Biochem. Physiol.81(3): 164-175|2005|10.1016/j.pestbp.2004.12.003
80469|T||Chang,H.R., D.A. Tsao, H.S. Yu, and C.K. Ho|The Change of beta-Adrenergic System After Cessation of Lead Exposure|Toxicology207(1): 73-80|2005|10.1016/j.tox.2004.08.018
80471|T||Beland,F.A., R.W. Benson, P.W. Mellick, R.M. Kovatch, D.W. Roberts, J.L. Fang, and D.R. Doerge|Effect of Ethanol on the Tumorigenicity of Urethane (Ethyl Carbamate) in B6C3F1 Mice|Food Chem. Toxicol.43(1): 1-19|2005|10.1016/j.fct.2004.07.018
80472|T||Biswas,S.J., S. Pathak, and A.R. Khuda-Bukhsh|Assessment of the Genotoxic and Cytotoxic Potential of an Anti-Epileptic Drug, Phenobarbital, in Mice:  A Time Course Study|Mutat. Res.563(1): 1-11|2004|10.1016/j.mrgentox.2004.05.016
80473|T||Breton,P., S. Bouvet, I. Delamanche, J. Buee, F.Goudey Perriere, and N. Pages|Electrocorticogram Disturbances Detected in Rats Exposed from Early Stages of Life to Residual Doses of Lindane|Pestic. Biochem. Physiol.81(2): 97-104|2005|10.1016/j.pestbp.2004.10.001
80474|T||Chander,V., and K. Chopra|Effect of Molsidomine and L-Arginine in Cyclosporine Nephrotoxicity:  Role of Nitric Oxide|Toxicology207(3): 463-474|2005|10.1016/j.tox.2004.10.018
80475|T||Brocardo,P.S., P. Pandolfo, R.N. Takahashi, A.L.S. Rodrigues, and A.L. Dafre|Antioxidant Defenses and Lipid Peroxidation in the Cerebral Cortex and Hippocampus Following Acute Exposure to Malathion and/or Zinc Chloride|Toxicology207(2): 283-291|2005|10.1016/j.tox.2004.09.012
80476|T||D'Souza,U.J.A., A. Zain, and S. Raju|Genotoxic and Cytotoxic Effects in the Bone Marrow of Rats Exposed to a Low Dose of Paraquat via the Dermal Route|Mutat. Res.581(1-2): 187-190|2005|10.1016/j.mrgentox.2004.10.019
80477|T||Bursch,W., M. Chabicovsky, U. Wastl, B. Grasl-Kraupp, K. Bukowska, H. Taper, and R. Schulte-Hermann|Apoptosis in Stages of Mouse Hepatocarcinogenesis:  Failure to Counterbalance Cell Proliferation and to Account for Strain Differences in Tumor Susceptibility|Toxicol. Sci.85(1): 515-529|2005|10.1093/toxsci/kfi129
80478|T||Perrien,D.S., E.C. Wahl, W.R. Hogue, U. Feige, J. Aronson, M.J.J. Ronis, T.M. Badger, and C.K.,Jr. Lumpkin|IL-1 and TNF Antagonists Prevent Inhibition of Fracture Healing by Ethanol in Rats|Toxicol. Sci.82(2): 656-660|2004|10.1093/toxsci/kfi002
80480|T||Doerge,D.R., G. Gamboa da Costa, L.P. McDaniel, M.I. Churchwell, N.C. Twaddle, and F.A. Beland|DNA Adducts Derived from Administration of Acrylamide and Glycidamide to Mice and Rats|Mutat. Res.580(1-2): 131-141|2005|10.1016/j.mrgentox.2004.10.013
80481|T||Tao,L., W. Wang, L. Li, P.M. Kramer, and M.A. Pereira|Effect of Dibromoacetic Acid on DNA Methylation, Glycogen Accumulation, and Peroxisome Proliferation in Mouse and Rat Liver|Toxicol. Sci.82(1): 62-69|2004|10.1093/toxsci/kfh266
80482|T||Dinelli,G., A. Bonetti, I. Marotti, M. Minelli, and P. Catizone|Possible Involvement of Herbicide Sequestration in the Resistance to Diclofop-Methyl in Italian Biotypes of Lolium spp.|Pestic. Biochem. Physiol.81(1): 1-12|2005|10.1016/j.pestbp.2004.07.009
80484|T||Pereira,M.A., W. Wang, P.M. Kramer, and L. Tao|Prevention by Methionine of Dichloroacetic Acid-Induced Liver Cancer and DNA Hypomethylation in Mice|Toxicol. Sci.77(2): 243-248|2004|10.1093/toxsci/kfh031
80485|T||Cristaldi,L.A., L.R. McDowell, C.D. Buergelt, P.A. Davis, N.S. Wilkinson, and F.G. Martin|Tolerance of Inorganic Selenium in Wether Sheep|Small Ruminant Res.56(1-3): 205-213|2005|10.1016/j.smallrumres.2004.06.001
80486|A||Kramer,K.J.M., R.G. Jak, B. Van Hattum, R.N. Hooftman, and J.J.G. Zwolsman|Copper Toxicity in Relation to Surface Water-Dissolved Organic Matter:  Biological Effects to Daphnia magna|Environ. Toxicol. Chem.23(12): 2971-2980|2004|10.1897/03-501.1
80487|A||Machella,N., F. Regoli, and R.M. Santella|Immunofluorescent Detection of 8-oxo-dG and PAH Bulky Adducts in Fish Liver and Mussel Digestive Gland|Aquat. Toxicol.71(4): 335-343|2005|10.1016/j.aquatox.2004.12.002
80488|T||Poon,R., M. Rigden, I. Chu, and V.E. Valli|Short-Term Oral Toxicity of Pentyl Ether, 1,4-Diethoxybutane, and 1,6-Dimethoxyhexane in Male Rats|Toxicol. Sci.77(1): 142-150|2004|10.1093/toxsci/kfg251
80489|A||Long,A., and W.X. Wang|Assimilation and Bioconcentration of Ag and Cd by the Marine Black Bream After Waterborne and Dietary Metal Exposure|Environ. Toxicol. Chem.24(3): 709-716|2005|10.1897/03-664.1
80490|T||Richards,V.E., B. Chau, M.R. White, and C.A. McQueen|Hepatic Gene Expression and Lipid Homeostasis in C57Bl/6 Mice Exposed to Hydrazine or Acetylhydrazine|Toxicol. Sci.82(1): 318-332|2004|10.1093/toxsci/kfh232
80492|A||Rouhani Rankouhi,T., J.T. Sanderson, I. Van Holsteijn, C. Van Leeuwen, A.D. Vethaak, and M. Van den Berg|Effects of Natural and Synthetic Estrogens and Various Environmental Contaminants on Vitellogenesis in Fish Primary Hepatocytes: Comparison of Bream (Abramis brama) and Carp (Cyprinus carpio)|Toxicol. Sci.81(1): 90-102|2004|10.1093/toxsci/kfh176
80493|T||Pu,X., L.S. Lee, R.E. Galinsky, and G.P. Carlson|Evaluation of a Rat Model Versus a Physiologically Based Extraction Test for Assessing Phenanthrene Bioavailability from Soils|Toxicol. Sci.79(1): 10-17|2004|10.1093/toxsci/kfh091
80494|A||Van Campenhout,K., H.G. Infante, F. Adams, and R. Blust|Induction and Binding of Cd, Cu, and Zn to Metallothionein in Carp (Cyprinus carpio) Using HPLC-ICP-TOFMS|Toxicol. Sci.80(2): 276-287|2004|10.1093/toxsci/kfh149
80495|T||Wang,J., X. Liu, R.H. Heflich, and T. Chen|Time Course of cII Gene Mutant Manifestation in the Liver, Spleen, and Bone Marrow of N-Ethyl-N-Nitrosourea-Treated Big Blue Transgenic Mice|Toxicol. Sci.82(1): 124-128|2004|10.1093/toxsci/kfh234
80497|T||Wolf,C.J., G.A. LeBlanc, and L.E.,Jr. Gray|Interactive Effects of Vinclozolin and Testosterone Propionate on Pregnancy and Sexual Differentiation of the Male and Female SD Rat|Toxicol. Sci.78(1): 135-143|2004|10.1093/toxsci/kfh018
80498|T||Yaksh,T.L., K.A. Horais, N. Tozier, M. Rathbun, P. Richter, S. Rossi, M. Grafe, C. Tong, C. Meschter, J.M. Cline, and J|Intrathecal Ketorolac in Dogs and Rats|Toxicol. Sci.80(2): 322-334|2004|10.1093/toxsci/kfh168
80499|T||Teo,S.K., K.H. Denny, D.I. Stirling, S.D. Thomas, S. Morseth, and A.M. Hoberman|Effects of Thalidomide on Developmental, Peri- and Postnatal Function in Female New Zealand White Rabbits and Offspring|Toxicol. Sci.81(2): 379-389|2004|10.1093/toxsci/kfh207
80500|T||Tonkin,E.G., H.L. Valentine, D.M. Milatovic, and W.M. Valentine|N,N-Diethyldithiocarbamate Produces Copper Accumulation, Lipid Peroxidation, and Myelin Injury in Rat Peripheral Nerve|Toxicol. Sci.81(1): 160-171|2004|10.1093/toxsci/kfh190
80501|T||Tyden,E., H. Tjalve, and P. Larsson|Metabolic Activation of 2,6-Xylidine in the Nasal Olfactory Mucosa and the Mucosa of the Upper Alimentary and Respiratory Tracts in Rats|Toxicol. Sci.81(2): 263-272|2004|10.1093/toxsci/kfh219
80502|T||Vanoirbeek,J.A.J., M. Tarkowski, J.L. Ceuppens, E.K. Verbeken, B. Nemery, and P.H.M. Hoet|Respiratory Response to Toluene Diisocyanate Depends on Prior Frequency and Concentration of Dermal Sensitization in Mice|Toxicol. Sci.80(2): 310-321|2004|10.1093/toxsci/kfh155
80504|T||Viberg,H., A. Fredriksson, and P. Eriksson|Investigations of Strain and/or Gender Differences in Developmental Neurotoxic Effects of Polybrominated Diphenyl Ethers in Mice|Toxicol. Sci.81(2): 344-353|2004|10.1093/toxsci/kfh215
80505|T||Tan,Z., M. Huang, A. Puga, and Y. Xia|A Critical Role For MAP Kinases in the Control of Ah Receptor Complex Activity|Toxicol. Sci.82(1): 80-87|2004|10.1093/toxsci/kfh228
80506|T||McMullin,T.S., M.E. Andersen, A. Nagahara, T.D. Lund, T. Pak, R.J. Handa, and W.H. Hanneman|Evidence that Atrazine and Diaminochlorotriazine Inhibit the Estrogen/Progesterone Induced Surge of Luteinizing Hormone in Female Sprague-Dawley Rats Without Changing Estrogen Receptor Action|Toxicol. Sci.79(2): 278-286|2004|10.1093/toxsci/kfh127
80508|T||Filipov,N.M., L.M. Pinchuk, B.L. Boyd, and P.L. Crittenden|Immunotoxic Effects of Short-Term Atrazine Exposure in Young Male C57BL/6 Mice|Toxicol. Sci.86(2): 324-332|2005|10.1093/toxsci/kfi188
80509|T||Fletcher,N., N. Giese, C. Schmidt, N. Stern, P.M. Lind, M. Viluksela, J.T. Tuomisto, J. Tuomisto, H. Nau, and H. Hakans|Altered Retinoid Metabolism in Female Long-Evans and Han/Wistar Rats following Long-Term 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Treatment|Toxicol. Sci.86(2): 264-272|2005|10.1093/toxsci/kfi183
80510|T||Foster,P.M.D., and M.W. Harris|Changes in Androgen-Mediated Reproductive Development in Male Rat Offspring Following Exposure to a Single Oral Dose of Flutamide at Different Gestational Ages|Toxicol. Sci.85(2): 1024-1032|2005|10.1093/toxsci/kfi159
80514|T||Chen,H.H., C.T. Wei, Y.R. Lin, T.H. Chien, and M.H. Chan|Neonatal Toluene Exposure Alters Agonist and Antagonist Sensitivity and NR2B Subunit Expression of NMDA Receptors in Cultured Cerebellar Granule Neurons|Toxicol. Sci.85(1): 666-674|2005|10.1093/toxsci/kfi100
80515|T||Carvajal,F., M.C. Sanchez-Amate, F. Sanchez-Santed, and I. Cubero|Neuroanatomical Targets of the Organophosphate Chlorpyrifos by c-fos Immunolabeling|Toxicol. Sci.84(2): 360-367|2005|10.1093/toxsci/kfi092
80516|T||Preache,M.M., and J.E. Gibson|Effects in Mice of high and Low Environmental Temperature on the Maternal and Fetal Toxicity of 2-Sec-Butyl-4,6-Dinitrophenol (Dinoseb) and on Disposition of [14C]-Dinoseb|Teratology12:147-156|1975|10.1002/tera.1420120207
80517|T||Dhankher,O.P., N.A. Shasti, B.P. Rosen, M. Fuhrmann, and R.B. Meagher|Increased Cadmium Tolerance and Accumulation by Plants Expressing Bacterial Arsenate Reductase|New Phytol.159(2): 431-441|2003|10.1046/j.1469-8137.2003.00827.x
80518|T||Burman,D.M., H.G. Shertzer, A.P. Senft, T.P. Dalton, and M.B. Genter|Antioxidant Perturbations in the Olfactory Mucosa of Alachlor-Treated Rats|Biochem. Pharmacol.66(9): 1707-1715|2003|10.1016/S0006-2952(03)00475-1
80519|T||Kniewald,J., M. Jakominic, A. Tomljenovic, B. Simic, P. Romac, D. Vranesic, and Z. Kniewald|Disorders of Male Rat Reproductive Tract Under the Influence of Atrazine|J. Appl. Toxicol.20(1): 61-68|2000|10.1002/(SICI)1099-1263(200001/02)20:1<61::AID-JAT628>3.0.CO;2-3
80520|T||Sairam,R.K., S.S. Prabhu, and P.S. Tomer|Effect of Atrazine and 2,4-D on Nitrate Reductase Activity and Growth of Sorghum|Indian J. Plant Physiol.31(2): 140-144|1988|
80521|T||Holford,I.C.R., B.M. Haigh, and I.G. Ferris|Atrazine Persistence and Phytotoxicity on Wheat as Affected by Nitrogen and Rotation-Induced Changes in Soil Properties|Aust. J. Agric. Res.40(6): 1143-1153|1989|10.1071/AR9891143
80522|T||Martinez-Ballesta,M.C., V. Martinez, and M. Carvajal|Osmotic Adjustment, Water Relations and Gas Exchange in Pepper Plants Grown Under NaCl or KCl|Environ. Exp. Bot.52(2): 161-174|2004|10.1016/j.envexpbot.2004.01.012
80523|T||Sahin,G., T. Taskin, K. Benli, and S. Duru|Impairment of Motor Coordination in Mice After Intake of Aluminium Hydroxide|J. Fac. Pharm. Gazi Univ.10(2): 153-161|1993|
80524|T||Lewis,W.M., and W.B. Gilbert|The Effect of Siduron on Crabgrass and Goosegrass Control on the Establishment of Five Warm-Season and Three Cool-Season Turfgrasses|Proc. South. Weed Conf.19:150-154|1966|
80525|T||Blaber,L.C., and J.P. Gallagher|The Facilitatory Effects of Catechol and Phenol at the Neuromuscular Junction of the Cat|Neuropharmacology10:153-159|1971|10.1016/0028-3908(71)90036-0
80527|T||Hodge,H.C., W.L. Downs, D.W. Smith, E.A. Maynard, J.W.,Jr. Clayton, and H.L. Pease|Oral Toxicity of Linuron (3,-(3,4-Dichlorophenyl)-1(Methoxy-1-Methylurea) in Rats and Dogs|Food Cosmet. Toxicol.6(2): 171-183|1968|10.1016/0015-6264(68)90199-5
80528|T||Prasad,K., and R.S. Singh|Influence of Weed-Control Measures on Weed Growth, Nutrient Uptake and Tuber Yield of Potato (Solanum tuberosum)|Indian J. Agric. Sci.65(1): 46-48|1995|
80529|T||Malan,C., J.H. Visser, and H.A. Van de Venter|In Vivo Atrazine Hydroxylation in Maize Plants Exposed to Five Different Temperature Regimes|S. Afr. J. Plant Soil3(3): 115-118|1986|10.1080/02571862.1986.10634204
80530|T||Rauser,W.E.|Phytochelatin-Based Complexes Bind Various Amounts of Cadmium in Maize Seedlings Depending on the Time of Exposure, the Concentration of Cadmium and the Tissue|New Phytol.158(2): 269-278|2003|10.1046/j.1469-8137.2003.00735.x
80531|T||Zsoldos,F., E. Haunold, and A. Vashegyi|The Effects of Phosphate Supply on Uptake of Potassium Ions, 2,4-D and Atrazine by Wheat and Maize|Physiol. Plant. (Multiple Languages)68(1): 154-158|1986|10.1111/j.1399-3054.1986.tb06611.x
80533|T||Jia,X., R.J. Emerick, and H. Kayongo-Male|The pH Dependence of Silicon-Iron Interaction in Rats|Biol. Trace Elem. Res.59(1-3): 113-122|1997|10.1007/BF02783236
80534|T||Sugawara,N., and C. Sugawara|The Effects of Aluminum Ingestion on Intestinal Cadmium Absorption, Lipid Peroxidation and Alkaline Phosphatase Activity|Toxicol. Lett.61(2/3): 225-232|1992|10.1016/0378-4274(92)90149-E
80537|A||Becker,K.B., M.J. Schneider, J.C. Davey, and V.A. Galton|The Type III 5-Deiodinase in Rana catesbeiana Tadpoles is Encoded by a Thyroid Hormone-Responsive Gene|Endocrinology136(10): 4424-4431|1995|10.1210/endo.136.10.7664662
80538|T||Gronvold,J., T.S. Svendsen, H.O. Kraglund, J. Bresciani, and J. Monrad|Effect of the Antiparasitic Drugs Fenbendazole and Ivermectin on the Soil Nematode Pristionchus maupasi|Vet. Parasitol.124(1/2): 91-99|2004|10.1016/j.vetpar.2004.06.003
80539|T||Pourreza,J., and K. Keshavarz|The Use of Cotton Seed Meal in Broilers Diet|Iran Agric. Res.1(2): 181-190|1982|
80540|T||Walker,S.R., J.M.T. Marley, G.R. Robinson, and P.A. Hargreaves|Initial Activity of Atrazine and Chlorsulfuron Residues is Greater in the Grey Clays than in the Black Earths of Southern Queensland|Aust. J. Exp. Agric.34(1): 67-73|1994|10.1071/EA9940067
80551|T||Spiers,J.M., and J.H. Braswell|Effects of Sulfur and Micronutrients on Growth and Elemental Leaf Content of Rabbiteye Blueberries|Acta Hortic.241:151-156|1989|10.17660/ActaHortic.1989.241.23
80552|T||Engberg,R.M., K. Jakobsen, C.F. Borsting, and H. Gjern|On the Utilization, Retention and Status of Vitamin E in Mink (Mustela vison) Under Dietary Oxidative Stress|J. Anim. Sci.69(2/3): 66-78|1993|
80553|T||Masek,J., J. Gilka, and H. Docekalova|A Note on an Effect of Sodium Monensinate Supplements on the Level of Some Chemical Elements in the Organs and Muscle of Feedlot Steers|Anim. Prod.40(3): 511-513|1985|
80554|T||National Cancer Institute|Bioassays of Aldrin and Dieldrin for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:184 p.|1978|
80555|A||Shabana,E.F., and S.A. El-Attar|Influence of Clay Minerals on Selenium Toxicity to Algae|Egypt. J. Microbiol.30(2): 275-286|1995|
80556|A||Sole Rovira,M., C. Fernandez-Diaz, J.P. Canavate, and J. Blasco|Effects on Metallothionein Levels and Other Stress Defenses in Senegal Sole Larvae Exposed to Cadmium|Bull. Environ. Contam. Toxicol.74(3): 597-603|2005|10.1007/s00128-005-0625-z
80557|T||Palmer,J.S.|Toxicity of 45 Organic Herbicides to Cattle, Sheep, and Chickens|Production Research Report No.137, Agricultural Research Service, Washington, DC:41 p.|1972|
80558|T||Chernoff,N., R.W. Setzer, D.B. Miller, M.B. Rosen, and J.M. Rogers|Effects of Chemically Induced Maternal Toxicity on Prenatal Development in the Rat|Teratology42(6): 651-658|1990|10.1002/tera.1420420610
80559|T||Cervera,A., A.C. Maymo, M. Sendra, R. Martinez-Pardo, and M.D. Garcera|Cadmium Effects on Development and Reproduction of Oncopeltus fasciatus (Heteroptera: Lygaeidae)|J. Insect Physiol.50(8): 737-749|2004|10.1016/j.jinsphys.2004.06.001
80560|T||Dernoeden,P.H., N.E. Christians, J.M. Krouse, and R.G. Roe|Creeping Bentgrass Rooting as Influenced by Dithiopyr|Agron. J.85:560-563|1993|10.2134/agronj1993.00021962008500030008x
80562|T||Datta,K.K., P.C. Gupta, and T.S.S. Dikshith|Effect of Chlordane on the Skin of Male Guinea Pigs|In: S.H.Zaida and C.Lucknow (Eds.), Environmental Pollution and Human Health, Industrial Toxicology Res.Ctr., India:608-611|1977|
80563|A||Bjornberg,A.A.|"Decontamination of Mercury from Swedish ""Black-Listed"" Lakes by Addition of Selenium"|In: S.C.Carapella,Jr. (Ed.), Proceedings of the 4th International Symposium on Uses of Selenium Tellurium, Darien, CT:357-360|1989|
80565|T||Schneider,M.I., G. Smagghe, S. Pineda, and E. Vinuela|Action of Insect Growth Regulator Insecticides and Spinosad on Life History Parameters and Absorption in Third-Instar Larvae of the Endoparasitoid Hyposoter didymator|Biol. Control31(2): 189-198|2004|10.1016/j.biocontrol.2004.04.013
80566|T||Misawa,T., and S. Shigeta|Effects of Prenatal Aluminum Treatment on Development and Behavior in the Rat|J. Toxicol. Sci.18(1): 43-48|1993|10.2131/jts.18.43
80568|T||Steinborn K., Rodbard S., and C. Williams|Phosphate Treatment of Alumina Gel Weakness in Young Chicks|J. Appl. Physiol.11(3): 435-438|1957|10.1152/jappl.1957.11.3.435
80569|T||Hoffman,D.J.|Physiological Effects of Hypoxia and Trypan Blue in 17-Day Chick Embryos|Teratology12:57-60|1975|10.1002/tera.1420120108
80570|T||Weng,W., and B.R. Pitt|Activation of Protein Kinase C Inhibits Extraction of Serotonin by Perfused Rat Lung In Situ|Am. J. Physiol., Lung Cell. Mol. Physiol.258(2): L289 - L293|1990|
80573|A||Deelstra,H., P. Van Dael, R. Van Cauwenbergh, and H. Robberecht|Interaction of Heavy Metals on the Availability of Selenium Compounds to Artemia salina|Analyst (Lond.)72:284-286|1989|
80577|T||Engberg,R.M., and C.F. Borsting|Inclusion of Oxidized Fish Oil in Mink Diets. 2. The Influence on Performance and Health Considering Histopathological, Clinical-Chemical, and Haematological Indices|J. Anim. Physiol. Anim. Nutr.72(2/3): 146-157|1994|10.1111/j.1439-0396.1994.tb00381.x
80578|A||Baker,R.T.M., and S.J. Davies|The Quantitative Requirement for alpha-Tocopherol by Juvenile African Catfish, Clarias gariepinus Burchell|Anim. Sci.65(1): 135-142|1997|10.1017/S1357729800016398
80579|A||Cowgill,U.M., and D.P. Milazzo|The Culturing and Testing of Two Species of Duckweed|ASTM Spec. Tech. Publ.12:379-391|1989|
80580|T||Zohouri,A., S.K. Tekeli, G. Turkemn, B. Soyturk, and T. Engizek|The Effect on Metabolism, Egg Production and Egg-Shell Quality of Dietary Aluminium in Laying Hens|Folia Vet.42(2): 95-99|1998|
80581|A||Caffrey,P.B.|The Effects of Zinc Deprivation on Selenium Requirements in Daphnids (Crustacea)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:161 p.|1989|
80582|T||Canadas,F., D. Cardona, E. Davila, and F. Sanchez-Santed|Long-Term Neurotoxicity of Chlorpyrifos:  Spatial Learning Impairment on Repeated Acquisition in a Water Maze|Toxicol. Sci.85(2): 944-951|2005|10.1093/toxsci/kfi143
80583|T||Bursch,W., U. Wastl, K. Hufnagl, and R. Schulte-Hermann|No Increase of Apoptosis in Regressing Mouse Liver After Withdrawal of Growth Stimuli or Food Restriction|Toxicol. Sci.85(1): 507-514|2005|10.1093/toxsci/kfi128
80584|T||Bowman,C.J., K.J. Turner, M. Sar, N.J. Barlow, K.W. Gaido, and P.M.D. Foster|Altered Gene Expression During Rat Wolffian Duct Development Following Di(n-Butyl) Phthalate Exposure|Toxicol. Sci.86(1): 161-174|2005|10.1093/toxsci/kfi172
80585|A||Antkiewicz,D.S., C.G. Burns, S.A. Carney, R.E. Peterson, and W. Heideman|Heart Malformation is an Early Response to TCDD in Embryonic Zebrafish|Toxicol. Sci.84(2): 368-377|2005|10.1093/toxsci/kfi073
80586|A||Ankley,G.T., K.M. Jensen, E.J. Durhan, E.A. Makynen, B.C. Butterworth, M.D. Kahl, D.L. Villeneuve, A. Linnum, L.E. Gray|Effects of Two Fungicides with Multiple Modes of Action on Reproductive Endocrine Function in the Fathead Minnow (Pimephales promelas)|Toxicol. Sci.86(2): 300-308|2005|10.1093/toxsci/kfi202
80587|A||Aluru,N., R. Renaud, J.F. Leatherland, and M.M. Vijayan|Ah Receptor-Mediated Impairment of Interrenal Steroidogenesis Involves StAR Protein and P450scc Gene Attenuation in Rainbow Trout|Toxicol. Sci.84(2): 260-269|2005|10.1093/toxsci/kfi077
80589|T||Gilbert,M.E., M.E. Kelly, T.E. Samsam, and J.H. Goodman|Chronic Developmental Lead Exposure Reduces Neurogenesis in Adult Rat Hippocampus but does not Impair Spatial Learning|Toxicol. Sci.86(2): 365-374|2005|10.1093/toxsci/kfi156
80590|T||Gao,J., F.T. Lauer, S. Dunaway, and S.W. Burchiel|Cytochrome P450 1B1 is Required for 7,12-Dimethylbenz(a)-Anthracene (DMBA) Induced Spleen Cell Immunotoxicity|Toxicol. Sci.86(1): 68-74|2005|10.1093/toxsci/kfi176
80592|T||Goyal,H.O., T.D. Braden, C.S. Williams, P. Dalvi, M. Mansour, and J.W. Williams|Estrogen-Induced Abnormal Accumulation of Fat Cells in the Rat Penis and Associated Loss of Fertility Depends upon Estrogen Exposure During Critical Period of Penile Development|Toxicol. Sci.87(1): 242-254|2005|10.1093/toxsci/kfi233
80594|T||Hayashi,M., T. Tamura, J. Kuroda, H. Ohnota, N. Shibata, M. Akahane, Y. Kashida, and K. Mitsumori|Different Inhibitory Effects in the Early and Late Phase of Treatment with KAT-681, a Liver-Selective Thyromimetic, on Rat Hepatocarcinogenesis Induced by 2-Acetylaminofluorene and Partial Hepatectomy After Diethylnitro|Toxicol. Sci.84(1): 22-28|2005|10.1093/toxsci/kfi044
80595|T||Hasumura,M., T. Imai, T. Takizawa, M. Ueda, J. Onose, and M. Hirose|Promotion of Thyroid Carcinogenesis by para-Aminobenzoic Acid in Rats Initiated with N-bis(2-hydroxypropyl)Nitrosamine|Toxicol. Sci.86(1): 61-67|2005|10.1093/toxsci/kfi173
80598|T||Jung,Y.W., E.J. Hong, K.C. Choi, and E.B. Jeung|Novel Progestogenic Activity of Environmental Endocrine Disruptors in the Upregulation of Calbindin-D9k in an Immature Mouse Model|Toxicol. Sci.83(1): 78-88|2005|10.1093/toxsci/kfi015
80600|T||Jakel,R.J., J.T. Kern, D.A. Johnson, and J.A. Johnson|Induction of the Protective Antioxidant Response Element Pathway by 6-Hydroxydopamine In Vivo and In Vitro|Toxicol. Sci.87(1): 176-186|2005|10.1093/toxsci/kfi241
80601|T||Ko,J.K.S., and C.H. Cho|The Diverse Actions of Nicotine and Different Extracted Fractions from Tobacco Smoke Against Hapten-Induced Colitis in Rats|Toxicol. Sci.87(1): 285-295|2005|10.1093/toxsci/kfi238
80604|T||Lee,G.S., H.J. Kim, Y.W. Jung, K.C. Choi, and E.B. Jeung|Estrogen Receptor alpha Pathway is Involved in the Regulation of Calbindin-D9k in the Uterus of Immature Rats|Toxicol. Sci.84(2): 270-277|2005|10.1093/toxsci/kfi072
80605|A||Kudo,Y., and K. Yamauchi|In Vitro and in Vivo Analysis of the Thyroid Disrupting Activities of Phenolic and Phenol Compounds in Xenopus laevis|Toxicol. Sci.84(1): 29-37|2005|10.1093/toxsci/kfi049
80606|A||Lee,S.K., and D.N.R. Veeramachaneni|Subchronic Exposure to Low Concentrations of Di-n-Butyl Phthalate Disrupts Spermatogenesis in Xenopus laevis Frogs|Toxicol. Sci.84(2): 394-407|2005|10.1093/toxsci/kfi087
80607|T||Lein,P.J., and A.D. Fryer|Organophosphorus Insecticides Induce Airway Hyperreactivity by Decreasing Neuronal M2 Muscarinic Receptor Function Independent of Acetylcholinesterase Inhibition|Toxicol. Sci.83(1): 166-176|2005|10.1093/toxsci/kfi001
80609|T||Moser,V.C., M. Casey, A. Hamm, W.H.,Jr. Carter, J.E. Simmons, and C. Gennings|Neurotoxicological and Statistical Analyses of a Mixture of Five Organophosphorus Pesticides Using a Ray Design|Toxicol. Sci.86(1): 101-115|2005|10.1093/toxsci/kfi163
80610|T||Nishikawa,A., T. Ikeda, H.Y. Son, K. Okazaki, T. Imazawa, T. Umemura, S. Kimura, and M. Hirose|Pronounced Synergistic Promotion of N-Bis(2-Hydroxypropyl)Nitrosamine-Initiated Thyroid Tumorigenesis in Rats Treated with Excess Soybean and Iodine-Deficient Diets|Toxicol. Sci.86(2): 258-263|2005|10.1093/toxsci/kfi206
80611|T||Naciff,J.M., K.A. Hess, G.J. Overmann, S.M. Torontali, G.J. Carr, J.P. Tiesman, L.M. Foertsch, B.D. Richardson, J.E. Ma|Gene Expression Changes Induced in the Testis by Transplacental Exposure to High and Low Doses of 17alpha-Ethynyl Estradiol, Genistein, or Bisphenol A|Toxicol. Sci.86(2): 396-416|2005|10.1093/toxsci/kfi198
80612|T||Pine,M., B. Lee, R. Dearth, J.K. Hiney, and W.L. Dees|Manganese Acts Centrally to Stimulate Luteinizing Hormone Secretion:  A Potential Influence on Female Pubertal Development|Toxicol. Sci.85(2): 880-885|2005|10.1093/toxsci/kfi134
80613|T||Pruett,S.B., Q. Zheng, C. Schwab, and R. Fan|Sodium Methyldithiocarbamate Inhibits MAP Kinase Activation Through Toll-Like Receptor 4, Alters Cytokine Production by Mouse Peritoneal Macrophages, and Suppresses Innate Immunity|Toxicol. Sci.87(1): 75-85|2005|10.1093/toxsci/kfi215
80614|T||Rayner,J.L., R.R. Enoch, and S.E. Fenton|Adverse Effects of Prenatal Exposure to Atrazine During a Critical Period of Mammary Gland Growth|Toxicol. Sci.87(1): 255-266|2005|10.1093/toxsci/kfi213
80615|T||Peeples,E.S., L.M. Schopfer, E.G. Duysen, R. Spaulding, T. Voelker, C.M. Thompson, and O. Lockridge|Albumin, a New Biomarker of Organophosphorus Toxicant Exposure, Identified by Mass Spectrometry|Toxicol. Sci.83(2): 303-312|2005|10.1093/toxsci/kfi023
80616|T||Richardson,J.R., and J.E. Chambers|Effects of Repeated Oral Postnatal Exposure to Chlorpyrifos on Cholinergic Neurochemistry in Developing Rats|Toxicol. Sci.84(2): 352-359|2005|10.1093/toxsci/kfi081
80617|T||Nierkens,S., M. Aalbers, M. Bol, F. Van Wijk, I. Hassing, and R. Pieters|Development of an Oral Exposure Mouse Model to Predict Drug-Induced Hypersensitivity Reactions by Using Reporter Antigens|Toxicol. Sci.83(2): 273-281|2005|10.1093/toxsci/kfi021
80618|T||Salazar,K.D., P. De la Rosa, J.B. Barnett, and R. Schafer|The Polysaccharide Antibody Response After Streptococcus pneumoniae Vaccination is Differentially Enhanced or Suppressed by 3,4-Dichloropropionanilide and 2,4-Dichlorophenoxyacetic Acid|Toxicol. Sci.87(1): 123-133|2005|10.1093/toxsci/kfi244
80619|T||Schori,H., E. Robenshtok, M. Schwartz, and A. Hourvitz|Post-Intoxication Vaccination for Protection of Neurons Against the Toxicity of Nerve Agents|Toxicol. Sci.87(1): 163-168|2005|10.1093/toxsci/kfi237
80620|T||Saghir,S.A., and I.R. Schultz|Toxicokinetics and Oral Bioavailability of Halogenated Acetic Acids Mixtures in Naive and GSTzeta-Depleted Rats|Toxicol. Sci.84(2): 214-224|2005|10.1093/toxsci/kfi070
80623|T||Sinha,A., K. Muthiah, W. Jiang, X. Couroucli, R. Barrios, and B. Moorthy|Attenuation of Hyperoxic Lung Injury by the CYP1A Inducer beta-Naphthoflavone|Toxicol. Sci.87(1): 204-212|2005|10.1093/toxsci/kfi226
80624|T||Shimo,T., N. Ashizawa, K. Matsumoto, T. Nakazawa, and O. Nagata|Simultaneous Treatment with Citrate Prevents Nephropathy Induced by FYX-051, a Xanthine Oxidoreductase Inhibitor, in Rats|Toxicol. Sci.87(1): 267-276|2005|10.1093/toxsci/kfi210
80625|T||Selvaraj,V., D. Bunick, C. Finnigan-Bunick, R.W. Johnson, H. Wang, L. Liu, and P.S. Cooke|Gene Expression Profiling of 17beta-Estradiol and Genistein Effects on Mouse Thymus|Toxicol. Sci.87(1): 97-112|2005|10.1093/toxsci/kfi219
80626|T||Sui,L., W.L. Anderson, and M.E. Gilbert|Impairment in Short-Term but Enhanced Long-Term Synaptic Potentiation and ERK Activation in Adult Hippocampal Area CA1 Following Developmental Thyroid Hormone Insufficiency|Toxicol. Sci.85(1): 647-656|2005|10.1093/toxsci/kfi095
80627|T||Stoker,T.E., S.D. Perreault, K. Bremser, R.S. Marshall, A. Murr, and R.L. Cooper|Acute Exposure to Molinate Alters Neuroendocrine Control of Ovulation in the Rat|Toxicol. Sci.84(1): 38-48|2005|10.1093/toxsci/kfi064
80628|T||Tong,V., X.W. Teng, T.K.H. Chang, and F.S. Abbott|Valproic Acid I:  Time Course of Lipid Peroxidation Biomarkers, Liver Toxicity, and Valproic Acid Metabolite Levels in Rats|Toxicol. Sci.86(2): 427-435|2005|10.1093/toxsci/kfi184
80629|T||Villanueva,S.S.M., M.L. Ruiz, M.G. Luquita, E.J. Sanchez Pozzi, V.A. Catania, and A.D. Mottino|Involvement of Mrp2 in Hepatic and Intestinal Disposition of Dinitrophenyl-S-Glutathione in Partially Hepatectomized Rats|Toxicol. Sci.84(1): 4-11|2005|10.1093/toxsci/kfi053
80631|T||Yan,J., and B.F. Hales|Activator Protein-1 (AP-1) DNA Binding Activity is Induced by Hydroxyurea in Organogenesis Stage Mouse Embryos|Toxicol. Sci.85(2): 1013-1023|2005|10.1093/toxsci/kfi148
80632|T||Wilhelms,K.W., S.A. Cutler, J.A. Proudman, L.L. Anderson, and C.G. Scanes|Atrazine and the Hypothalamo-Pituitary-Gonadal Axis in Sexually Maturing Precocial Birds:  Studies in Male Japanese Quail|Toxicol. Sci.86(1): 152-160|2005|10.1093/toxsci/kfi170
80635|T||Xu,D.X., Y.H. Chen, J.P. Wang, M.F. Sun, H. Wang, L.Z. Wei, and W. Wei|Perinatal Lipopolysaccharide Exposure Downregulates Pregnane X Receptor and Cyp3a11 Expression in Fetal Mouse Liver|Toxicol. Sci.87(1): 38-45|2005|10.1093/toxsci/kfi239
80636|T||Wong,H., L.D. Lehman-McKeeman, M.F. Grubb, S.J. Grossman, V.M. Bhaskaran, E.G. Solon, H.S.L. Shen, R.J. Gerson, B.D. Ca|Increased Hepatobiliary Clearance of Unconjugated Thyroxine Determines DMP 904-Induced Alterations in Thyroid Hormone Homeostasis in Rats|Toxicol. Sci.84(2): 232-242|2005|10.1093/toxsci/kfi094
80637|A||Degitz,S.J., G.W. Holcombe, K.M. Flynn, P.A. Kosian, J.J. Korte, and J.E. Tietge|Progress Towards Development of an Amphibian-Based Thyroid Screening Assay Using Xenopus laevis.  Organismal and Thyroidal Responses to the Model Compounds 6-Propylthiouracil, Methimazole, and Thyroxine|Toxicol. Sci.87(2): 353-364|2005|10.1093/toxsci/kfi246
80639|T||Bemis,J.C., D.A. Nazarenko, and T.A. Gasiewicz|Coplanar Polychlorinated Biphenyls Activate the Aryl Hydrocarbon Receptor in Developing Tissues of Two TCDD-Responsive lacZ Mouse Lines|Toxicol. Sci.87(2): 529-536|2005|10.1093/toxsci/kfi260
80640|T||Guo,T.L., W. Auttachoat, and R.P. Chi|Genistein Enhancement of Respiratory Allergen Trimellitic Anhydride-induced IgE Production by Adult B6C3F1 Mice Following In Utero and Postnatal Exposure|Toxicol. Sci.87(2): 399-408|2005|10.1093/toxsci/kfi268
80641|A||Heiden,T.K., R.J. Hutz, and M.J. Carvan III|Accumulation, Tissue Distribution, and Maternal Transfer of Dietary 2,3,7,8,-Tetrachlorodibenzo-p-Dioxin:  Impacts on Reproductive Success of Zebrafish|Toxicol. Sci.87(2): 497-507|2005|10.1093/toxsci/kfi201
80642|T||Virgolini,M.B., K. Chen, D.D. Weston, M.R. Bauter, and D.A. Cory-Slechta|Interactions of Chronic Lead Exposure and Intermittent Stress:  Consequences for Brain Catecholamine Systems and Associated Behaviors and HPA Axis Function|Toxicol. Sci.87(2): 469-482|2005|10.1093/toxsci/kfi269
80643|A||Xie,L., K. Thrippleton, M.A. Irwin, G.S. Siemering, A. Mekebri, D. Crane, K. Berry, and D. Schlenk|Evaluation of Estrogenic Activities of Aquatic Herbicides and Surfactants Using an Rainbow Trout Vitellogenin Assay|Toxicol. Sci.87(2): 391-398|2005|10.1093/toxsci/kfi249
80644|T||Tao,L., W. Wang, L. Li, P.K. Kramer, and M.A. Pereira|DNA Hypomethylation Induced by Drinking Water Disinfection By-Products in Mouse and Rat Kidney|Toxicol. Sci.87(2): 344-352|2005|10.1093/toxsci/kfi257
80645|T||Takizawa,T., T. Imai, J.I. Onose, M. Ueda, T. Tamura, K. Mitsumori, K. Izumi, and M. Hirose|Enhancement of Hepatocarcinogenesis by Kojic Acid in Rat Two-Stage Models After Initiation with N-bis(2-Hydroxypropyl)Nitrosamine or N-Diethylnitrosamine|Toxicol. Sci.81(1): 43-49|2004|10.1093/toxsci/kfh195
80646|T||Stott,W.T., B.J. Radtke, V.A. Linscombe, M.H. Mar, and S.H. Zeisel|Evaluation of the Potential of Triethanolamine to Alter Hepatic Choline Levels in Female B6C3F1 Mice|Toxicol. Sci.79(2): 242-247|2004|10.1093/toxsci/kfh115
80647|T||Srivastava,V., R.K. Dearth, J.K. Hiney, L.M. Ramirez, G.R. Bratton, and W.L. Dees|The Effects of Low-Level Pb on Steroidogenic Acute Regulatory Protein (StAR) in the Prepubertal Rat Ovary|Toxicol. Sci.77(1): 35-40|2004|10.1093/toxsci/kfg249
80649|T||Ankarberg,E., A. Fredriksson, and P. Eriksson|Increased Susceptibility to Adult Paraoxon Exposure in Mice Neonatally Exposed to Nicotine|Toxicol. Sci.82(2): 555-561|2004|10.1093/toxsci/kfh274
80650|T||Ashby,J., and J. Odum|Gene Expression Changes in the Immature Rat Uterus:  Effects of Uterotrophic and Sub-Uterotrophic Doses of Bisphenol A|Toxicol. Sci.82(2): 458-467|2004|10.1093/toxsci/kfh283
80651|A||Behra,M., C. Etard, X. Cousin, and U. Strahle|The Use of Zebrafish Mutants to Identify Secondary Target Effects of Acetylcholine Esterase Inhibitors|Toxicol. Sci.77(2): 325-333|2004|10.1093/toxsci/kfh020
80652|T||Betancourt,A.M., and R.L. Carr|The Effect of Chlorpyrifos and Chlorpyrifos-Oxon on Brain Cholinesterase, Muscarinic Receptor Binding, and Neurotrophin Levels in Rats Following Early Postnatal Exposure|Toxicol. Sci.77(1): 63-71|2004|10.1093/toxsci/kfh003
80653|T||Bodensteiner,K.J., H.R. Sawyer, C.L. Moeller, C.M. Kane, K.Y.F. Pau, G.R. Klinefelter, and D.N.R. Veeramachaneni|Chronic Exposure to Dibromoacetic Acid, a Water Disinfection Byproduct, Diminishes Primordial Follicle Populations in the Rabbit|Toxicol. Sci.80(1): 83-91|2004|10.1093/toxsci/kfh135
80654|T||Bielmeier,S.R., D.S. Best, and M.G. Narotsky|Serum Hormone Characterization and Exogeneous Hormone Rescue of Bromodichloromethane-Induced Pregnancy Loss in the F344 Rat|Toxicol. Sci.77(1): 101-108|2004|10.1093/toxsci/kfh017
80655|T||Brzoska,M.M., and J. Moniuszko-Jakoniuk|Low-Level Exposure to Cadmium During the Lifetime Increases the Risk of Osteoporosis and Fractures of the Lumbar Spine in the Elderly:  Studies on a Rat Model of Human Environmental Exposure|Toxicol. Sci.82(2): 468-477|2004|10.1093/toxsci/kfh275
80657|T||Colton,H.M., J.G. Falls, H. Ni, P. Kwanyuen, D. Creech, E. McNeil, W.M. Casey, G. Hamilton, and N.F. Cariello|Visualization and Quantitation of Peroxisomes Using Fluorescent Nanocrystals:  Treatment of Rats and Monkeys with Fibrates and Detection in the Liver|Toxicol. Sci.80(1): 183-192|2004|10.1093/toxsci/kfh144
80658|T||Crowell,J.A., P.J. Korytko, R.L. Morrissey, T.D. Booth, and B.S. Levine|Resveratrol-Associated Renal Toxicity|Toxicol. Sci.82(2): 614-619|2004|10.1093/toxsci/kfh263
80659|T||Cruzan,G., R.A. Corley, G.C. Hard, J.J.W.M. Mertens, K.E. McMartin, W.M. Snellings, R. Gingell, and J.A. Deyo|Subchronic Toxicity of Ethylene Glycol in Wistar and F-344 Rats Related to Metabolism and Clearance of Metabolites|Toxicol. Sci.81(2): 502-511|2004|10.1093/toxsci/kfh206
80663|T||Dunnick,J., J. Johnson, J. Horton, and A. Nyska|Bis(2-Chloroethoxy)Methane-Induced Mitochondrial and Myofibrillar Damage:  Short-Term Time-Course Study|Toxicol. Sci.81(1): 243-252|2004|10.1093/toxsci/kfh194
80664|T||Ellinger-Ziegelbauer,H., B. Stuart, B. Wahle, W. Bomann, and H.J. Ahr|Characteristic Expression Profiles Induced by Genotoxic Carcinogens in Rat Liver|Toxicol. Sci.77(1): 19-34|2004|10.1093/toxsci/kfh016
80667|AT||Fort,D.J., J.H. Thomas, R.L. Rogers, A. Noll, C.D. Spaulding, P.D. Guiney, and J.A. Weeks|Evaluation of the Developmental and Reproductive Toxicity of Methoxychlor Using an Anuran (Xenopus tropicalis) Chronic Exposure Model|Toxicol. Sci.81(2): 443-453|2004|10.1093/toxsci/kfh230
80668|AT||Fort,D.J., P.D. Guiney, J.A. Weeks, J.H. Thomas, R.L. Rogers, A.M. Noll, and C.D. Spaulding|Effect of Methoxychlor on Various Life Stages of Xenopus laevis|Toxicol. Sci.81(2): 454-466|2004|10.1093/toxsci/kfh243
80669|T||Fukushima,S., H. Wanibuchi, K. Morimura, S. Iwai, D. Nakae, H. Kishida, H. Tsuda, N. Uehara, K. Imaida, T. Shirai, M. T|Existence of a Threshold for Induction of Aberrant Crypt Foci in the Rat Colon with low Doses of 2-Amino-1-Methyl-6-Phenolimidazo[4,5-b]Pyridine|Toxicol. Sci.80(1): 109-114|2004|10.1093/toxsci/kfh104
80670|T||Fukuwatari,T., S. Ohsaki, S.I. Fukuoka, R. Sasaki, and K. Shibata|Phthalate Esters Enhance Quinolinate Production by Inhibiting alpha-Amino-beta-Carboxymuconate-varepsilon-Semialdehyde Decarboxylase (ACMSD), a Key Enzyme of the Tryptophan Pathway|Toxicol. Sci.81(2): 302-308|2004|10.1093/toxsci/kfh204
80672|T||Gonzalez,M.A., M.G. Roma, C.A. Bernal, M.L. Alvarez, and M.C. Carrillo|Biliary Secretory Function in Rats Chronically Intoxicated with Aluminum|Toxicol. Sci.79(1): 189-195|2004|10.1093/toxsci/kfh085
80674|T||Gupta,K.P., and J. Singh|Modulation of Carcinogen Metabolism and DNA Interaction by Calcium Glucarate in Mouse Skin|Toxicol. Sci.79(1): 47-55|2004|10.1093/toxsci/kfh098
80675|A||Haendel,M.A., F. Tilton, G.S. Bailey, and R.L. Tanguay|Developmental Toxicity of the Dithiocarbamate Pesticide Sodium Metam in Zebrafish|Toxicol. Sci.81(2): 390-400|2004|10.1093/toxsci/kfh202
80676|T||Heijne,W.H.M., A.L. Slitt, P.J. Van Bladeren, J.P. Groten, C.D. Klaassen, R.H. Stierum, and B. Van Ommen|Bromobenzene-Induced Hepatotoxicity at the Transcriptome Level|Toxicol. Sci.79(2): 411-422|2004|10.1093/toxsci/kfh128
80677|T||Hansen,E., Y. Even, and A.M. Geneviere|The alpha,beta,gamma,partial-Unsaturated Aldehyde 2-trans-4-trans-Decadienal Disturbs DNA Replication and Mitotic Events in Early Sea Urchin Embryos|Toxicol. Sci.81(1): 190-197|2004|10.1093/toxsci/kfh192
80678|T||Hoshi,M., K. Morimura, H. Wanibuchi, M. Wei, E. Okochi, T. Ushijima, K. Takaoka, and S. Fukushima|No-Observed Effect Levels for Carcinogenicity and for In Vivo Mutagenicity of a Genotoxic Carcinogen|Toxicol. Sci.81(2): 273-279|2004|10.1093/toxsci/kfh241
80682|T||Kang,J.K., D. Sul, S.Y. Nam, H.J. Kim, and E. Lee|Effects of Lead Exposure on the Expression of Phospholipid Hydroperoxidase Glutathione Peroxidase mRNA in the Rat Brain|Toxicol. Sci.82(1): 228-236|2004|10.1093/toxsci/kfh103
80683|T||Klinefelter,G.R., L.F. Strader, J.D. Suarez, N.L. Roberts, J.M. Goldman, and A.S. Murr|Continuous Exposure to Dibromoacetic Acid Delays Pubertal Development and Compromises Sperm Quality in the Rat|Toxicol. Sci.81(2): 419-429|2004|10.1093/toxsci/kfh217
80684|T||Keys,D.A., I.R. Schultz, D.A. Mahle, and J.W. Fisher|A Quantitative Description of Suicide Inhibition of Dichloroacetic Acid in Rats and Mice|Toxicol. Sci.82(2): 381-393|2004|10.1093/toxsci/kfh276
80685|T||Kaydos,E.H., J.D. Suarez, N.L. Roberts, K. Bobseine, R. Zucker, J. Laskey, and G.R. Klinefelter|Haloacid Induced Alterations in Fertility and the Sperm Biomarker SP22 in the Rat are Additive:  Validation of an ELISA|Toxicol. Sci.81(2): 430-442|2004|10.1093/toxsci/kfh218
80686|T||Lehmann,K.P., S. Phillips, M. Sar, P.M.D. Foster, and K.W. Gaido|Dose-Dependent Alterations in Gene Expression and Testosterone Synthesis in the Fetal Testes of Male Rats Exposed to Di(n-Butyl) Phthalate|Toxicol. Sci.81(1): 60-68|2004|10.1093/toxsci/kfh169
80687|T||Lee,G.S., K.C. Choi, H.J. Kim, and E.B. Jeung|Effect of Genistein as a Selective Estrogen Receptor Beta Agonist on the Expression of Calbindin-D9k in the Uterus of Immature Rats|Toxicol. Sci.82(2): 451-457|2004|10.1093/toxsci/kfh296
80688|T||Larsen,M.C., P.B. Brake, R.S. Pollenz, and C.R. Jefcoate|Linked Expression of Ah Receptor, ARNT, CYP1A1, and CYP1B1 in Rat Mammary Epithelia, in Vitro, is each Substantially Elevated by Specific Extracellular Matrix Interactions that Precede Branching Morphogenesis|Toxicol. Sci.82(1): 46-61|2004|10.1093/toxsci/kfh242
80689|T||Luyendyk,J.P., W.B. Mattes, L.D. Burgoon, T.R. Zacharewski, J.F. Maddox, G.N. Cosma, P.E. Ganey, and R.A. Roth|Gene Expression Analysis Points to Hemostasis in Livers of Rats Cotreated with Lipopolysaccharide and Ranitidine|Toxicol. Sci.80(1): 203-213|2004|10.1093/toxsci/kfh146
80691|T||Malstrom,S.E., O. Tornavaca, A. Meseguer, A.F. Purchio, and D.B. West|The Characterization and Hormonal Regulation of Kidney Androgen-Regulated Protein (Kap)-Luciferase Transgenic Mice|Toxicol. Sci.79(2): 266-277|2004|10.1093/toxsci/kfh125
80692|A||Marc,J., R. Belle, J. Morales, P. Cormier, and O. Mulner-Lorillon|Formulated Glyphosate Activates the DNA-Response Checkpoint of the Cell Cycle Leading to the Prevention of G2/M Transition|Toxicol. Sci.82(2): 436-442|2004|10.1093/toxsci/kfh281
80693|T||Martin,K.R., M.P. Jokinen, H.P. Honeycutt, A. Quinn, F.W. Kari, J.C. Barrett, and J.E. French|Tumor Profile of Novel p53 Heterozygous Tg.AC (v-Ha-ras) Bitransgenic Mice Treated with Benzo(a)pyrene and Fed Dietary N-acetyl-L-Cysteine (NAC)|Toxicol. Sci.81(2): 293-301|2004|10.1093/toxsci/kfh226
80694|T||Meerts,I.A.T.M., H. Lilienthal, S. Hoving, J.H.J. Van den Berg, B.M. Weijers, A. Bergman, J.H. Koeman, and A. Brouwer|Developmental Exposure to 4-Hydroxy-2,3,3',4',5-Pentachlorobiphenyl (4-OH-CB107):  Long-Term Effects on Brain Development, Behavior, and Brain Stem Auditory Evoked Potentials in Rats|Toxicol. Sci.82(1): 207-218|2004|10.1093/toxsci/kfh252
80695|T||McNabb,F.M.A., D.A. Jang, and C.T. Larsen|Does Thyroid Function in Developing Birds Adapt to Sustained Ammonium Perchlorate Exposure?|Toxicol. Sci.82(1): 106-113|2004|10.1093/toxsci/kfh247
80696|T||Milano,J., J. McKay, C. Dagenais, L. Foster-Brown, F. Pognan, R. Gadient, R.T. Jacobs, A. Zacco, B. Greenberg, and P.J.|Modulation of Notch Processing by gamma-Secretase Inhibitors Causes Intestinal Goblet Cell Metaplasia and Induction of Genes Known to Specify Gut Secretory Lineage Differentiation|Toxicol. Sci.82(1): 341-358|2004|10.1093/toxsci/kfh254
80697|T||Moser,V.C., P.M. Phillips, A.B. Levine, K.L. McDaniel, R.C. Sills, B.S. Jortner, and M.T. Butt|Neurotoxicity Produced by Dibromoacetic Acid in Drinking Water of Rats|Toxicol. Sci.79(1): 112-122|2004|10.1093/toxsci/kfh081
80698|T||Richardson,J.R., and J.E. Chambers|Neurochemical Effects of Repeated Gestational Exposure to Chlorpyrifos in Developing Rats|Toxicol. Sci.77(1): 83-90|2004|10.1093/toxsci/kfh014
80700|T||Scallet,A.C., L.C. Schmued, W.Jr. Slikker, N. Grunberg, P.J. Faustino, H. Davis, D. Lester, P.S. Pine, F. Sistare, and |Developmental Neurotoxicity of Ketamine:  Morphometric Confirmation, Exposure Parameters, and Multiple Fluorescent Labeling of Apoptotic Neurons|Toxicol. Sci.81(2): 364-370|2004|10.1093/toxsci/kfh224
80701|T||Scallet,A.C., R.L. Divine, R.R. Newbold, and K.B. Delclos|Increased Volume of the Calbindin D28k-Labeled Sexually Dimorphic Hypothalamus in Genistein and Nonylphenol-Treated Male Rats|Toxicol. Sci.82(2): 570-576|2004|10.1093/toxsci/kfh297
80702|T||Sprague,C.L., L.A. Phillips, K.M. Young, and A.A. Elfarra|Species and Tissue Differences in the Toxicity of 3-Butene-1,2-Diol in Male Sprague-Dawley Rats and B6C3F1 Mice|Toxicol. Sci.80(1): 3-13|2004|10.1093/toxsci/kfh156
80703|T||Sotonyi,P., B. Merkely, M. Hubay, J. Jaray, E. Zima, P. Soos, A. Kovacs, and I. Szentmariay|Comparative Study on Cardiotoxic Effect of Tinuvin 770:  A Light Stabilizer of Medical Plastics in Rat Model|Toxicol. Sci.77(2): 368-374|2004|10.1093/toxsci/kfh025
80704|T||Song,X., C. Pope, R. Murthy, J. Shaikh, B. Lal, and J.P. Bressler|Interactive Effects of Paraoxon and Pyridostigmine on Blood-Brain Barrier Integrity and Cholinergic Toxicity|Toxicol. Sci.78(2): 241-247|2004|10.1093/toxsci/kfh076
80705|T||Slikker III,W., N. Mei, and T. Chen|N-Ethyl-N-Nitrosourea (ENU) Increased Brain Mutations in Prenatal and Neonatal Mice but not in the Adults|Toxicol. Sci.81(1): 112-120|2004|10.1093/toxsci/kfh177
80706|A||Analytical Bio-Chemistry Laboratories Inc.|Initial Submission:  Acute Toxicity of Santowhite PC and Antimycin to Fathead Minnows with Cover Letter Dated 081492 CN|EPA/OTS Doc.#88-920007728:51 p.|1992|
80707|T||Itoh,T., J.H. Marijani, A.J. Keto, and T. Matsushita|Control of Anopheles Mosquitoes by Ultra-Low Volume Applications of d-Allethrin and d-Phenothrin in Combination with Larvicidings of Fenitrothion in Tanzania|Am. Mosq. Control Assoc. J.4(4): 563-564|1988|
80708|A||Sabaliunas,D., J. Lazutka, I. Sabaliuniene, and A. Soedergren|Use of Semipermeable Membrane Devices for Studying Effects of Organic Pollutants:  Comparison of Pesticide Uptake by Semipermeable Membrane Devices and Mussels|Environ. Toxicol. Chem.17(9): 1815-1824|1998|10.1002/etc.5620170922
80709|T||Sharma,V.P., B.N. Nagpal, and A. Srivastava|Effectiveness of Neem Oil Mats in Repelling Mosquitoes|Trans. R. Soc. Trop. Med. Hyg.87(6): 626-|1993|10.1016/0035-9203(93)90263-P
80710|AT||Hossain,M.M., T. Suzuki, I. Sato, T. Takewaki, K. Suzuki, and H. Kobayashi|The Modulatory Effect of Pyrethroids on Acetylcholine Release in the Hippocampus of Freely Moving Rats|Neurotoxicology25(5): 825-833|2004|10.1016/j.neuro.2004.01.002
80711|T||Levic,J., D. Matijevic, M. Stankovic-Halsberghe, and V. Pencic|Maize Seedling Protection Against Fusarium verticillioides (Sacc.) Nirenberg by Seed Fungicide Treatment|Zast. Bilja (Non-English)42(3): 207-218|1991|
80712|A||Amalraj,D.D., M. Kalyanasundaram, and P.K. Das|Evaluation of EMD Vaporizers and Bioallethrin Vaporizing Mats Against Mosquito Vectors|Southeast Asian J. Trop. Med. Public Health23(3): 474-478|1992|
80713|T||Mills,J.T., and H.A.H. Wallace|Differential Action of Fungicides upon Fungi Occurring on Wheat, Barley, Buckwheat, and Oil Seeds|Can. J. Plant Sci.52(3): 281-290|1972|10.4141/cjps72-045
80715|A||Takasawa,R., H. Etoh, A. Yagi, K. Sakata, and K. Ina|Nonylphenols as Promising Antifouling Agents Found by a Simple Bioassay Method Using the Blue Mussel, Mytilus edulis|Agric. Biol. Chem.54(6): 1607-1610|1990|
80716|T||Basu,S., D. Chaudhuri, and A.N. Chaudhuri|Influence of Calcium on the Toxic Effects of Dietary Aluminium|J. Food Sci. Technol.34(3): 264-266|1997|
80724|A||Rider,C.V., and G.A. LeBlanc|An Integrated Addition and Interaction Model for Assessing Toxicity of Chemical Mixtures|Toxicol. Sci.87(2): 520-528|2005|10.1093/toxsci/kfi247
80725|T||Ramamoorthy,K., M. Ramasamy, and K.S. Jehangir|Response of Rainfed Blackgram (Phaseolus mungo) to Foliar Nutrition of Potassium|Indian J. Agron.40(1): 114-115|1995|
80727|T||Petrikovics,I., D. Papahadjopoulos, K. Hong, T.C. Cheng, S.I. Baskin, J. Jiang, J.C. Jaszberenyi, B.A. Logue, M. Szilas|Comparing Therapeutic and Prophylactic Protection Against the Lethal Effect of Paraoxon|Toxicol. Sci.77(2): 258-262|2004|10.1093/toxsci/kfg185
80728|T||Yurino,H., S. Ishikawa, T. Sato, K. Akadegawa, T. Ito, S. Ueha, H. Inadera, and K. Matsushima|Endocrine Disruptors (Environmental Estrogens) Enhance Autoantibody Production by B1 Cells|Toxicol. Sci.81(1): 139-147|2004|10.1093/toxsci/kfh179
80729|T||Ludemann,L.R., B.R. Funke, and C.E. Goodpasture|Mold Control in Insect Rearing Media:  Survey of Agricultural Fungicides and Evaluation of the Use of Humectants|J. Econ. Entomol.72(4): 579-582|1979|10.1093/jee/72.4.579
80730|T||Fischer,L.J., and J.L. Weissinger|Development in the Newborn Rat of the Conjugation and De-conjugation Processes Involved in the Enterohepatic Circulation of Diethylstilboestrol|Xenobiotica2(4): 399-412|1972|10.3109/00498257209111067
80731|T||Arvy,M.P., M. Thiersault, and P. Doireau|Relationships Between Selenium, Micronutrients, Carbohydrates, and Alkaloid Accumulation in Catharanthus roseus Cells|J. Plant Nutr.18(8): 1535-1546|1995|10.1080/01904169509365002
80734|T||Dafalla,R., A.I. Yagi, and S.E.I. Adam|Experimental Aflatoxicosis in Hybro-Type Chicks:  Sequential Changes in Growth  and Serum Constituents and Histopathological Changes|Vet. Hum. Toxicol.29(3): 222-226|1987|
80735|T||Ittel,T.H., E. Gruber, A. Heinrichs, S. Handt, F. Hofstadter, and H.G. Sieberth|Effect of Fluoride on Aluminum-Induced Bone Disease in Rats with Renal Failure|Kidney Int.41(5): 1340-1348|1992|10.1038/ki.1992.198
80736|T||Jia,X., R.J. Emerick, and H. Kayongo-Male|Biochemical Interactions Among Silicon, Iron and Ascorbic Acid in the Rat|Biol. Trace Elem. Res.59(1-3): 123-132|1997|10.1007/BF02783237
80737|T||Palmer,J.S., and R.D. Radeleff|The Toxicity of Some Organic Herbicides to Cattle, Sheep, and Chickens|Production Research Report No.106, U.S. Department of Agriculture, Washington, DC:26 p.|1969|
80739|T||Samsam,T.E., D.L. Hunter, and P.J. Bushnell|Effects of Chronic Dietary and Repeated Acute Exposure to Chlorpyrifos on Learning and Sustained Attention in Rats|Toxicol. Sci.87(2): 460-468|2005|10.1093/toxsci/kfi264
80740|T||Stone,C., and J.A. Simpson|Effect of Six Chemicals on the Insects, Mites, Nematodes and Fungi Associated with Ips grandicollis (Eichhoff) (Coleoptera:  Scolytidae) in Northeastern New South Wales|J. Aust. Entomol. Soc.30(1): 21-28|1991|10.1111/j.1440-6055.1991.tb02187.x
80741|T||Bariola,L.A., D.L. Kittock, H.F. Arle, P.V. Vail, and T.J. Henneberry|Controlling Pink Bollworms: Effects of Chemical Termination of Cotton Fruiting on Populations of Diapausing Larvae|J. Econ. Entomol.69(5): 633-636|1976|10.1093/jee/69.5.633
80743|T||Pandu,S.R., S.V.R. Rao, M.N. Sarma, and J. Subbayya|Effectiveness of Non-mercurial Fungicides for the Control of Pineapple Disease of Sugarcane|Indian Phytopathol.39(2): 306-308|1986|
80745|T||Savitri,H., M.S. Reddy, and B.M. Reddy|Effect of Seed Treatment with Fungicides and Insecticides on Seed Borne Fungi, Storage Insect Pest, Seed Viability and Seedling Vigour of Groundnut|Seed Res.26(1): 62-72|1998|
80747|A||Fernandez-Alba,A.R., M.D. Hernando, L. Piedra, and Y. Chisti|Toxicity Evaluation of Single and Mixed Antifouling Biocides Measured with Acute Toxicity Bioassays|Anal. Chim. Acta456(2): 303-312|2002|10.1016/S0003-2670(02)00037-5
80748|T||Schultz,T., R.L. Gabrielson, and S. Olson|Control of Xanthomonas campestris pv. campestris in Crucifer Seed with Slurry Treatments of Calcium Hypochlorite|Plant Dis.70(11): 1027-1030|1986|10.1094/PD-70-1027
80749|T||Hedley,M.E., A.F. Preston, D.J. Cross, and J.A. Butcher|Screening of Selected Agricultural and Industrial Chemicals as Wood Preservatives|Int.Biodeterior.Bull.15(1): 9-18|1979|
80750|T||Salt,G.A.|Conifer Seedling Pathology. Effect of Formalin and Lime on Growth of Sitka Spruce at Wareham|Report on Forest Research for the Year Ended March 1972:150-152|1972|
80751|T||Nishimura,M., N. Obana, O. Yagasaki, and I. Yanagiya|Involvement of Adrenergic and Serotonergic Nervous Mechanisms in Allethrin-Induced Tremors in Mice|J. Toxicol. Sci.9(2): 131-142|1984|10.2131/jts.9.131
80752|T||Satoh,T.|Release of Liver Microsomal beta-Glucuronidase from Hepatocytes In Vitro and In Vivo by Organophosphates and Hepatotoxic Agents|J. Toxicol. Sci.16(suppl.1): 133-142|1991|10.2131/jts.16.SupplementI_133
80753|AT||Yap,H.H., Y.W. Lee, J. Zairi, K. Jahangir, and C.R. Adanan|Indoor Thermal Fogging Application of Pesguard FG 161, a Mixture of d-Tetramethrin and Cyphenothrin, Using Portable Sprayer Against Vector Mosquitoes in the Tropical Environment|Am. Mosq. Control Assoc. J.17(1): 28-32|2001|
80754|T||Pulido,M.L., and R.A. Bolton|Non-mercurial Seed Treatment for Cottonseed|PANS (Pest Artic. News Summ.)20(2): 251-254|1974|
80755|T||Pathak,U., S.K. Raza, A.S. Kulkarni, R. Vijayaraghvan, P. Kumar, and D.K. Jaiswal|Novel S-Substituted Aminoalkylamino Ethanethiols as Potential Antidotes Against Sulfur Mustard Toxicity|J. Med. Chem.47(15): 3817-3822|2004|10.1021/jm030099v
80756|T||Chibale,K., H. Haupt, H. Kendrick, V. Yardley, A. Saravanamuthu, A.H. Fairlamb, and S.L. Croft|Antiprotozoal and Cytotoxicity Evaluation of Sulfonamide and Urea Analogues of Quinacrine|Bioorg. Med. Chem. Lett.11(19): 2655-2657|2001|10.1016/S0960-894X(01)00528-5
80762|T||Abou-Ashour,A.M., and H.M.,Jr. Edwards|Effect of Dietary Sterculia-foetida Oil on the Migration of 59Fe Across the Egg Yolk Vitelline Membrane to Albumen in Stored Eggs|J. Nutr.100(11): 1347-1351|1970|10.1093/jn/100.11.1347
80763|T||Karunajeewa,H., S. Abu-Serewa, and P.A. Harris|Effects of an Induced Pause in Egg Production and Supplementation of the Diet with Iron on Egg Shell Colour, Quality and Performance of Brown Egg Layers|Br. Poult. Sci.30(2): 257-264|1989|10.1080/00071668908417146
80764|T||Wallner-Pendleton,E., D.P. Froman, and O. Hedstrom|Identification of Ferrous Sulfate Toxicity in a Commercial Broiler Flock|Avian Dis.30(2): 430-432|1986|10.2307/1590552
80765|A||Altenburger,R., H. Schmitt, and G. Schuurmann|Algal Toxicity of Nitrobenzenes:  Combined Effect Analysis as a Pharmacological Probe for Similar Modes of Interaction|Environ. Toxicol. Chem.24(2): 324-333|2005|10.1897/04-032R.1
80766|T||Hill,R., and I.M. Smith|The Retention and Distribution of 59Fe in Chicks with Fowl Typhoid Given Diets Containing Added Iron in Different Forms|In: J.M.Gawthorne, J.M.Howell, and C.L.White (Eds.), Trace Elem.Metab.Man Anim., Proc.Int.Symp., 4th Meet., 1981, Springer, Berlin, Fed.Rep.Ger.:234-236|1982|
80768|T||Zeljezic,D., and V. Garaj-Vrhovac|Genotoxicity Evaluation of Pesticide Formulations Containing Alachlor and Atrazine in Multiple Mouse Tissues (Blood, Kidney, Liver, Bone Marrow, Spleen) by Comet Assay|Neoplasma51(3): 198-203|2004|
80769|T||Stevens,P.J.G., and M.J. Bukovac|Studies on Octylphenoxy Surfactants.  Part 2:  Effects on Foliar Uptake and Translocation|Pestic. Sci.20(1): 37-52|1987|10.1002/ps.2780200104
80770|T||Chetty,K.N., K. Brown, J. Walker, and L. Woods|Effect of Chlordecone and Malnutrition on Immune Response in Rats|Life Sci.52(18): 175-180|1993|10.1016/0024-3205(93)90114-I
80771|T||Gopal,V.R., and S. Medakkar|Effect of Atrazine on Nutrient Uptake by Sorghum|Pesticides 23(5): 31-34|1989|
80772|T||Flocco,C.G., S.D. Lindblom, and E.A.H. Pilon Smits|Overexpression of Enzymes Involved in Glutathione Synthesis Enhances Tolerance to Organic Pollutants in Brassica juncea|Int. J. Phytoremediat.6(4): 289-304|2004|10.1080/16226510490888811
80774|T||Unkila,M., R. Pohjanvirta, E. MacDonald, J.T. Tuomisto, and J. Tuomisto|Dose Response and Time Course of Alterations in Tryptophan Metabolism by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the most TCDD-Susceptible and the most TCDD-Resistant Rat Strain:  Relationship with TCDD Lethality|Toxicol. Appl. Pharmacol.128(2): 280-292|1994|10.1006/taap.1994.1208
80775|T||Pohjanvirta,R., M. Unkila, and J. Tuomisto|Comparative Acute Lethality of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD), 1,2,3,7,8-Pentadibenzo-p-Dioxin and 1,2,3,4,7,8-Hexadibenzo-p-Dioxin in the most TCDD-Susceptible and the most TCDD-Resistant Rat Strain|Pharmacol. Toxicol.73(1): 52-56|1993|10.1111/j.1600-0773.1993.tb01958.x
80776|T||National Toxicology Program (NTP)|Carcinogenesis Bioassay of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (CAS No. 1746-01-6) in Osborne-Mendel Rats and B6C3F1 Mice (Gavage Study)|NTP, NIH Publ.No.82-1765, Bethesda, MD:211 p.|1982|
80777|A||Dean,K.E., R.M. Palachek, J.M. Noel, R. Warbritton, J. Aufderheide, and J. Wireman|Development of Freshwater Water-Quality Criteria for Perchlorate|Environ. Toxicol. Chem.23(6): 1441-1451|2004|10.1897/02-648
80778|A||Codi,S., C. Humphrey, D. Klumpp, and S. Delean|Barramundi as an Indicator Species for Environmental Monitoring in North Queensland, Australia:  Laboratory Versus Field Studies|Environ. Toxicol. Chem.23(11): 2737-2744|2004|10.1897/03-499
80779|A||Christensen,J.R., C.A. Bishop, J.S. Richardson, B. Pauli, and J. Elliott|Validation of an Amphibian Sperm Inhibition Toxicological Test Method Using Zinc|Environ. Toxicol. Chem.23(12): 2950-2955|2004|10.1897/03-573.1
80780|T||Cavalcante,W.L.G., M. Dal Pai-Silva, and M. Gallacci|Effects of Nandrolone Decanoate on the Neuromuscular Junction of Rats Submitted to Swimming|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 219-224|2004|10.1016/j.cca.2004.11.004
80781|A||Caldwell,G.S., C. Lewis, P.J.W. Olive, and M.G. Bentley|Exposure to 2,4-Decadienal Negatively Impacts upon Marine Invertebrate Larval Fitness|Mar. Environ. Res.59(5): 405-417|2005|10.1016/j.marenvres.2004.06.005
80782|A||Bury,N.R.|The Changes to Apical Silver Membrane Uptake, and Basolateral Membrane Silver Export in the Gills of Rainbow Trout (Oncorhynchus mykiss) on Exposure to Sublethal Silver Concentrations|Aquat. Toxicol.72(1-2): 135-145|2005|10.1016/j.aquatox.2004.11.014
80783|A||Bondgaard,M., and P. Bjerregaard|Association Between Cadmium and Calcium Uptake and Distribution During the Moult Cycle of Female Shore Crabs, Carcinus maenas: an In Vivo Study|Aquat. Toxicol.72(1-2): 17-28|2005|10.1016/j.aquatox.2004.11.017
80784|A||Nakayama,K., Y. Oshima, K. Hiramatsu, Y. Shimasaki, and T. Honjo|Effects of Polychlorinated Biphenyls on the Schooling Behavior of Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.24(10): 2588-2593|2005|10.1897/04-518R2.1
80785|A||Brix,K.V., J. Keithly, D.K. DeForest, and J. Laughlin|Acute and Chronic Toxicity of Nickel to Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.23(9): 2221-2228|2004|10.1897/03-38
80786|A||Qin,Z.F., J.M. Zhou, L. Cong, and X.B. Xu|Potential Ecotoxic Effects of Polychlorinated Biphenyls on Xenopus laevis|Environ. Toxicol. Chem.24(10): 2573-2578|2005|10.1897/05-160R.1
80787|A||Boudreau,M., S.C. Courtenay, D.L. MacLatchy, C.H. Berube, L.M. Hewitt, and G.J. Van der Kraak|Morphological Abnormalities During Early-Life Development of the Estuarine Mummichog, Fundulus heteroclitus, as an Indicator of Androgenic and Anti-Androgenic Endocrine Disruption|Aquat. Toxicol.71(4): 357-369|2005|10.1016/j.aquatox.2004.12.005
80788|A||Hano,T., Y. Oshima, T. Oe, M. Kinoshita, M. Tanaka, Y. Wakamatsu, K. Ozato, and T. Honjo|Quantitative Bio-imaging Analysis for Evaluation of Sexual Differentiation in Germ Cells of olvas-GFP/ST-II YI Medaka (Oryzias latipes) Nanoinjected In Ovo with Ethinylestradiol|Environ. Toxicol. Chem.24(1): 70-77|2005|10.1897/03-610.1
80789|A||Hahlbeck,E., I. Katsiadaki, I. Mayer, M. Adolfsson-Erici, J. James, and B.E. Bengtsson|The Juvenile Three-Spined Stickleback (Gasterosteus aculeatus L.) as a Model Organism for Endocrine Disruption II - Kidney Hypertrophy, Vitellogenin and Spiggin Induction|Aquat. Toxicol.70(4): 311-326|2004|10.1016/j.aquatox.2004.10.004
80790|A||Hahlbeck,E., R. Griffiths, and B.E. Bengtsson|The Juvenile Three-Spined Stickleback (Gasterosteus aculeatus L.) as a Model Organism for Endocrine Disruption:  I. Sexual Differentiation|Aquat. Toxicol.70(4): 287-310|2004|
80791|A||Ciutat,A., M. Gerino, N. Mesmer-Dudons, P. Anschutz, and A. Boudou|Cadmium Bioaccumulation in Tubificidae from the Overlying Water Source and Effects on Bioturbation|Ecotoxicol. Environ. Saf.60(3): 237-246|2005|10.1016/j.ecoenv.2004.08.005
80792|A||Glover,C.N., and C.M. Wood|Physiological Interactions of Silver and Humic Substances in Daphnia magna: Effects on Reproduction and Silver Accumulation Following an Acute Silver Challenge|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 273-280|2004|10.1016/j.cca.2004.12.005
80793|A||Clara Reboucas do Amaral,M., M. De freitas Rebelo, J. Paulo Machado Torres, and W. Christian Pfeiffer|Bioaccumulation and Depuration of Zn and Cd in Mangrove Oysters (Crassostrea rhizophorae, Guilding, 1828) Transplanted to and from a Contaminated Tropical Coastal Lagoon|Mar. Environ. Res.59(4): 277-285|2005|10.1016/j.marenvres.2004.05.004
80794|A||Ma,J., and J. Chen|How to Accurately Assay the Algal Toxicity of Pesticides with Low Water Solubility|Environ. Pollut.136(2): 267-273|2005|10.1016/j.envpol.2005.01.005
80795|T||Daniel,W.H.|Poa annua Control with Arsenic Materials|Golf Course Rep.23(1): 5-8|1955|
80796|A||Canesi,L., M. Betti, L.C. Lorusso, C. Ciacci, and G. Gallo|'In Vivo' Effects of Bisphenol A in Mytilus Hemocytes:  Modulation of Kinase-Mediated Signalling Pathways|Aquat. Toxicol.71(1): 73-84|2005|10.1016/j.aquatox.2004.10.011
80797|A||Das,S., and B.K. Sahu|Interaction of pH with Mercuric Chloride Toxicity to Penaeid Prawns from a Tropical Estuary, East Coast of India: Enhanced Toxicity at low pH|Chemosphere58(9): 1241-1248|2005|10.1016/j.chemosphere.2004.09.088
80798|A||Awasthi,M., and L.C. Rai|Toxicity of Nickel, Zinc, and Cadmium to Nitrate Uptake in Free and Immobilized Cells of Scenedesmus quadricauda|Ecotoxicol. Environ. Saf.61(2): 268-272|2005|10.1016/j.ecoenv.2004.12.018
80799|A||Siikavuopio,S.I., T. Dale, A. Foss, and A. Mortensen|Effects of Chronic Ammonia Exposure on Gonad Growth and Survival in Green Sea Urchin Strongylocentrotus droebachiensis|Aquaculture242(1-4): 313-320|2004|10.1016/j.aquaculture.2004.08.042
80800|A||Matozzo,V., and M.G. Marin|Can 4-Nonylphenol Induce Vitellogenin-Like Proteins in the Clam Tapes philippinarum?|Environ. Res.97(1): 43-49|2005|10.1016/j.envres.2004.03.002
80801|A||Jelaso,A.M., C. DeLong, J. Means, and C.F. Ide|Dietary Exposure to Aroclor 1254 Alters Gene Expression in Xenopus laevis Frogs|Environ. Res.98(1): 64-72|2005|10.1016/j.envres.2004.05.014
80802|A||Hallare,A.V., M. Schirling, T. Luckenbach, H.R. Kohler, and R. Triebskorn|Combined Effects of Temperature and Cadmium on Developmental Parameters and Biomarker Responses in Zebrafish (Danio rerio) Embryos|J. Therm. Biol.30(1): 7-17|2005|10.1016/j.jtherbio.2004.06.002
80803|A||Foss,A., S.I. Siikavuopio, B.S. Saether, and T.H. Evensen|Effect of Chronic Ammonia Exposure on Growth in Juvenile Atlantic Cod|Aquaculture237(1-4): 179-189|2004|10.1016/j.aquaculture.2004.03.013
80804|A||Das,P.C., S. Ayyappan, J.K. Jena, and B.K. Das|Nitrite Toxicity in Cirrhinus mrigala (Ham.): Acute Toxicity and Sub-lethal Effect on Selected Haematological Parameters|Aquaculture235(1-4): 633-644|2004|10.1016/j.aquaculture.2004.01.020
80805|A||Danis,B., O. Cotret, J.L. Teyssie, P. Bustamante, S.W. Fowler, and M. Warnau|Bioaccumulation of PCBs in the Sea Urchin Paracentrotus lividus: Seawater and Food Exposures to a 14C-Radiolabelled Congener (PCB#153)|Environ. Pollut.135(1): 11-16|2005|10.1016/j.envpol.2004.10.011
80806|A||Coman,G.J., M.J. Sellars, and D.T. Morehead|Toxicity of Ozone Generated from Different Combinations of Ozone Concentration (C) and Exposure Time (T):  A Comparison of the Relative Effect of C and T on Hatch Rates of Penaeus (Marsupenaeus) japonicus Embryos|Aquaculture244(1-4): 141-145|2005|10.1016/j.aquaculture.2004.11.041
80807|A||Chen,B.C., and C.M. Liao|Farmed Tilapia Oreochromis mossambicus Involved in Transport and Biouptake of Arsenic in Aquacultural Ecosystems|Aquaculture242(1-4): 365-380|2004|10.1016/j.aquaculture.2004.09.009
80808|A||Brown,M., C. Robinson, I.M. Davies, C.F. Moffat, J. Redshaw, and J.A. Craft|Temporal Changes in Gene Expression in the Liver of Male Plaice (Pleuronectes platessa) in Response to Exposure to Ethynyl Oestradiol Analysed by Macroarray and Real-Time PCR|Mutat. Res., Fundam. Mol. Mech. Mutagen.552(1/2): 35-49|2004|10.1016/j.mrfmmm.2004.06.002
80809|A||Devilla,R.A., M.T. Brown, M. Donkin, and J.W. Readman|The Effects of a PSII Inhibitor on Pytoplankton Community Structure as Assessed by HPLC Pigment Analyses, Microscopy and Flow Cytometry|Aquat. Toxicol.71(1): 25-38|2005|10.1016/j.aquatox.2004.10.002
80810|A||Stanley,J.K., B.W. Brooks, and T.W. LaPoint|A Comparison of Chronic Cadmium Effects on Hyalella azteca in Effluent-Dominated Stream Mesocosms to Similar Laboratory Exposures in Effluent and Reconstituted Hard Water|Environ. Toxicol. Chem.24(4): 902-908|2005|10.1897/04-042R.1
80811|A||Rasmussen,T.H., S.J. Teh, P. Bjerregaard, and B. Korsgaard|Anti-Estrogen Prevents Xenoestrogen-Induced Testicular Pathology of Eelpout (Zoarces viviparus)|Aquat. Toxicol.72(3): 177-194|2005|10.1016/j.aquatox.2004.12.003
80812|A||Maria,V.L., A.C. Correia, and M.A. Santos|Anguilla anguilla L. Liver EROD Induction and Genotoxic Responses After Retene Exposure|Ecotoxicol. Environ. Saf.61(2): 230-238|2005|10.1016/j.ecoenv.2004.10.011
80813|A||Menone,M.L., and S. Pflugmacher|Effects of 3-Chlorobiphenyl on Photosynthetic Oxygen Production, Glutathione Content and Detoxication Enzymes in the Aquatic Macrophyte Ceratophyllum demersum|Chemosphere60(1): 79-84|2005|10.1016/j.chemosphere.2004.11.094
80814|A||Meucci,V., and A. Arukwe|Detection of Vitellogenin and Zona Radiata Protein Expressions in Surface Mucus of Immature Juvenile Atlantic Salmon (Salmo salar) Exposed to Waterborne Nonylphenol|Aquat. Toxicol.73(1): 1-10|2005|10.1016/j.aquatox.2005.03.021
80815|A||Mimeault,C., A.J. Woodhouse, X.S. Miao, C.D. Metcalfe, T.W. Moon, and V.L. Trudeau|The Human Lipid Regulator, Gemfibrozil Bioconcentrates and Reduces Testosterone in the Goldfish, Carassius auratus|Aquat. Toxicol.73(1): 44-54|2005|10.1016/j.aquatox.2005.01.009
80816|A||Nunes,B., F. Carvalho, and L. Guilhermino|Acute Toxicity of Widely Used Pharmaceuticals in Aquatic Species: Gambusia holbrooki, Artemia parthenogenetica and Tetraselmis chuii|Ecotoxicol. Environ. Saf.61(3): 413-419|2005|10.1016/j.ecoenv.2004.08.010
80817|A||Morlon,H., C. Fortin, M. Floriani, C. Adam, J. Garnier-Laplace, and A. Boudou|Toxicity of Selenite in the Unicellular Green Alga Chlamydomonas reinhardtii: Comparison Between Effects at the Population and Sub-Cellular Level|Aquat. Toxicol.73(1): 65-78|2005|10.1016/j.aquatox.2005.02.007
80818|A||Muyssen,B.T.A., and C.R. Janssen|Importance of Acclimation to Environmentally Relevant Zinc Concentrations on the Sensitivity of Daphnia magna Toward Zinc|Environ. Toxicol. Chem.24(4): 895-901|2005|10.1897/04-112R.1
80819|A||Latala,A., P. Stepnowski, M. Nedzi, and W. Mrozik|Marine Toxicity Assessment of Imidazolium Ionic Liquids: Acute Effects on the Baltic Algae Oocystis submarina and Cyclotella meneghiniana|Aquat. Toxicol.73(1): 91-98|2005|10.1016/j.aquatox.2005.03.008
80820|A||Lan,C.H., T.S. Lin, and C.Y. Peng|Aquatic Toxicity of Nitrogen Mustard to Ceriodaphina dubia, Daphnia magna, and Pimephales promelas|Ecotoxicol. Environ. Saf.61(2): 273-279|2005|10.1016/j.ecoenv.2004.12.009
80821|A||Lan,C.H., and T.S. Lin|Acute Toxicity of Trivalent Thallium Compounds to Daphnia magna|Ecotoxicol. Environ. Saf.61(3): 432-435|2005|10.1016/j.ecoenv.2004.12.021
80822|A||Kamaya,Y., N. Tokita, and K. Suzuki|Effects of Dehydroabietic Acid and Abietic Acid on Survival, Reproduction, and Growth of the Crustacean Daphnia magna|Ecotoxicol. Environ. Saf.61(1): 83-88|2005|10.1016/j.ecoenv.2004.07.007
80823|A||Honkanen,J.O., A. Kostamo, and J.V.K. Kukkonen|Toxicity of a Phytosterol Mixture to Grayling (Thymallus thymallus) During Early Developmental Stages|Arch. Environ. Contam. Toxicol.48(3): 391-396|2005|10.1007/s00244-003-9238-x
80824|A||Aisemberg,J., D.E. Nahabedian, E.A. Wider, and N.R. Verrengia Guerrero|Comparative Study on Two Freshwater Invertebrates for Monitoring Environmental Lead Exposure|Toxicology210(1): 45-53|2005|10.1016/j.tox.2005.01.005
80825|A||Alslev,B., B. Korsgaard, and P. Bjerregaard|Estrogenicity of Butylparaben in Rainbow Trout Oncorhynchus mykiss Exposed via Food and Water|Aquat. Toxicol.72(4): 295-304|2005|10.1016/j.aquatox.2005.01.005
80826|A||Bianchini,A., C. Rouleau, and C.M. Wood|Silver Accumulation in Daphnia magna in the Presence of Reactive Sulfide|Aquat. Toxicol.72(4): 339-349|2005|10.1016/j.aquatox.2005.02.001
80827|A||Chowdhury,M.J., B. Baldisserotto, and C.M. Wood|Tissue-Specific Cadmium and Metallothionein Levels in Rainbow Trout Chronically Acclimated to Waterborne or Dietary Cadmium|Arch. Environ. Contam. Toxicol.48(3): 381-390|2005|10.1007/s00244-004-0068-2
80828|A||Correa,J.D.,Jr., M.R. Da Silva, A.C.B. Da Silva, S.M.A. De Lima, O. Malm, and S. Allodi|Tissue Distribution, Subcellular Localization and Endocrine Disruption Patterns Induced by Cr and Mn in the Crab Ucides cordatus|Aquat. Toxicol.73(2): 139-154|2005|10.1016/j.aquatox.2005.03.005
80829|A||Ek,H., G. Dave, J. Sturve, B.C. Almroth, E. Stephensen, L. Forlin, and G. Birgersson|Tentative Biomarkers for 2,4,6-Trinitrotoluene (TNT) in Fish (Oncorhynchus mykiss)|Aquat. Toxicol.72(3): 221-230|2005|10.1016/j.aquatox.2005.01.001
80830|A||Ciereszko,A., T.D. Wolfe, and K. Dabrowski|Analysis of DNA Damage in Sea Lamprey (Petromyzon marinus) Spermatozoa by UV, Hydrogen Peroxide, and the Toxicant Bisazir|Aquat. Toxicol.73(2): 128-138|2005|10.1016/j.aquatox.2005.03.003
80831|A||Doyle,C.J., and R.P. Lim|Sexual Behavior and Impregnation Success of Adult Male Mosquitofish Following Exposure to 17beta-Estradiol|Ecotoxicol. Environ. Saf.61(3): 392-397|2005|10.1016/j.ecoenv.2004.10.012
80832|A||Gravato,C., M. Oliveira, and M.A. Santos|Oxidative Stress and Genotoxic Responses to Resin Acids in Mediterranean mussels|Ecotoxicol. Environ. Saf.61(2): 221-229|2005|10.1016/j.ecoenv.2004.12.017
80833|AT||Hanson,M.L., P.K. Sibley, R.A. Brain, S.A. Mabury, and K.R. Solomon|Microcosm Evaluation of the Toxicity and Risk to Aquatic Macrophytes from Perfluorooctane Sulfonic Acid|Arch. Environ. Contam. Toxicol.48(3): 329-337|2005|10.1007/s00244-004-0043-y
80834|T||Nierkens,S., L. Nieuwenhuijsen, M. Thomas, and R. Pieters|Evaluation of the Use of Reporter Antigens in an Auricular Lymph Node Assay to Assess the Immunosensitizing Potential of Drugs|Toxicol. Sci.79:90-97|2004|10.1093/toxsci/kfh074
80835|A||Aydin,R., and K. Koprucu|Acute Toxicity of Diazinon on the Common Carp (Cyprinus carpio L.) Embryos and Larvae|Pestic. Biochem. Physiol.82(3): 220-225|2005|10.1016/j.pestbp.2005.03.001
80837|A||Landrum,P.F., J.A. Steevens, M. McElroy, D.C. Gossiaux, J.S. Lewis, and S.D. Robinson|Time-Dependent Toxicity of Dichlorodiphenyldichloroethylene to Hyalella azteca|Environ. Toxicol. Chem.24(1): 211-218|2005|10.1897/04-055R.1
80838|A||Leaner,J.J., and R.P. Mason|Methylmercury Uptake and Distribution Kinetics in Sheepshead Minnows, Cyprinodon variegatus, After Exposure to CH3Hg-Spiked Food|Environ. Toxicol. Chem.23(9): 2138-2146|2004|10.1897/03-258
80839|A||Lee,W.C., and J.C. Chen|Nitrogenous Excretion and Arginase Specific Activity of Kuruma Shrimp Marsupenaeus japonicus Exposed to Elevated Ambient Nitrite|J. Exp. Mar. Biol. Ecol.308(1): 103-111|2004|10.1016/j.jembe.2004.02.014
80841|T||Klaunig,J.E., and L.M. Kamendulis|Mode of Action of Butoxyethanol-Induced Mouse Liver Hemangiosarcomas and Hepatocellular Carcinomas|Toxicol. Lett.156(1): 107-115|2005|10.1016/j.toxlet.2003.08.012
80843|A||Kir,M., M. Kumlu, and O.T. Eroldogan|Effects of Temperature on Acute Toxicity of Ammonia to Penaeus Semisulcatus Juveniles|Aquaculture241(1-4): 479-489|2004|10.1016/j.aquaculture.2004.05.003
80844|T||Collombet,J.M., E. Four, M.F. Burckhart, C. Masqueliez, D. Bernabe, D. Baubichon, F. Herodin, and G. Lallement|Effect of Cytokine Treatment on the Neurogenesis Process in the Brain of Soman-Poisoned Mice|Toxicology210(1): 9-23|2005|10.1016/j.tox.2005.01.013
80845|T||Shah,B.G., K.D. Trick, and B. Belonje|Effects of Dietary Calcium on the Metabolism of Trace Elements in Male and Female Rats|J. Nutr. Biochem.1(11): 585-591|1990|10.1016/0955-2863(90)90048-P
80846|T||Chander,V., N. Tirkey, and K. Chopra|Resveratrol, a Polyphenolic Phytoalexin Protects Against Cyclosporine-Induced Nephrotoxicity Through Nitric Oxide Dependent Mechanism|Toxicology210(1): 55-64|2005|10.1016/j.tox.2005.01.011
80847|T||Williams,R.E., H. Major, E.A. Lock, E.M. Lenz, and I.D. Wilson|D-Serine-Induced Nephrotoxicity:  A HPLC-TOF/MS-Based Metabonomics Approach|Toxicology207(2): 179-190|2005|10.1016/j.tox.2004.08.023
80848|T||Williams,R.E., and E.A. Lock|Sodium Benzoate Attenuates D-Serine Induced Nephrotoxicity in the Rat|Toxicology207(1): 35-48|2005|10.1016/j.tox.2004.08.008
80849|T||Wycisk,K., E.J. Kim, J.I. Schroeder, and U. Kramer|Enhancing the First Enzymatic Step in the Histidine Biosynthesis Pathway Increases the Free Histidine Pool and Nickel Tolerance in Arabidopsis thaliana|FEBS Lett.578(1-2): 128-134|2004|10.1016/j.febslet.2004.10.086
80850|T||Moto,M., M. Okamura, T. Muto, Y. Kashida, N. Machida, and K. Mistumori|Molecular Pathological Analysis on the Mechanism of Liver Carcinogenesis in Dicyclanil-Treated Mice|Toxicology207(3): 419-436|2005|10.1016/j.tox.2004.10.011
80851|T||Lundy,P.M., I. Hill, P. Lecavalier, M.G. Hamilton, C. Vair, C. Davidson, K.L. Weatherby, and B.J. Berger|The Pharmacokinetics and Pharmacodynamics of Two HI-6 Salts in Swine and Efficacy in the Treatment of GF and Soman Poisoning|Toxicology208(3): 399-409|2005|10.1016/j.tox.2004.12.001
80852|T||Yamasaki,K., S. Noda, T. Muroi, H. Mitoma, S. Takakura, and S. Sakamoto|Effects of In Utero and Lactational Exposure to Flutamide in SD Rats:  Comparison of the Effects of Administration Periods|Toxicology209(1): 47-54|2005|10.1016/j.tox.2004.12.004
80854|T||Splittstoesser,W.E., and H.J. Hopen|Response of Bentgrass to Siduron|Weed Sci.15:82-83|1967|10.2307/4041075
80855|A||Bjerregaard,P., L. Bjorn, U. Norum, and K.L. Pedersen|Cadmium in the Shore Crab Carcinus maenas:  Seasonal Variation in Cadmium Content and Uptake and Elimination of Cadmium After Administration via Food|Aquat. Toxicol.72(1-2): 5-15|2005|10.1016/j.aquatox.2004.11.018
80856|A||Hense,B.A., G. Welzl, G.F. Severin, and K.W. Schramm|Nonylphenol Induced Changes in Trophic Web Structure of Plankton Analysed by Multivariate Statistical Approaches|Aquat. Toxicol.73(2): 190-209|2005|10.1016/j.aquatox.2005.03.010
80857|A||BakIrel,T., O. Keles, S. Karatas, M. Ozcan, G. Turkmen, and A. Candan|Effect of Linear Alkylbenzene Sulphonate (LAS) on Non-Specific Defence Mechanisms in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.71(2): 175-181|2005|10.1016/j.aquatox.2004.11.001
80858|A||Belanger,S.E., D.M. Lee, J.W. Bowling, and E.M. LeBlanc|Responses of Periphyton and Invertebrates to a Tetradecyl-Pentadecyl Sulfate Mixture in Stream Mesocosms|Environ. Toxicol. Chem.23(9): 2202-2213|2004|10.1897/04-49
80859|A||Bejarano,A.C., A.W. Decho, and G.T. Chandler|The Role of Various Dissolved Organic Matter Forms on Chlorpyrifos Bioavailability to the Estuarine Bivalve Mercenaria mercenaria|Mar. Environ. Res.60(1): 111-130|2005|10.1016/j.marenvres.2004.10.001
80860|A||Bianchini,A., R.C. Playle, C.M. Wood, and P.J. Walsh|Mechanism of Acute Silver Toxicity in Marine Invertebrates|Aquat. Toxicol.72(1-2): 67-82|2005|10.1016/j.aquatox.2004.11.012
80861|A||Bernot,R.J., M.A. Brueseke, M.A. Evans-White, and G.A. Lamberti|Acute and Chronic Toxicity of Imidazolium-Based Ionic Liquids on Daphnia Magna|Environ. Toxicol. Chem.24(1): 87-92|2005|10.1897/03-635.1
80862|A||Bartlett,A.J., U. Borgmann, D.G. Dixon, S.P. Batchelor, and R.J. Maguire|Accumulation of Tributyltin in Hyalella azteca as an Indicator of Chronic Toxicity:  Survival, Growth, and Reproduction|Environ. Toxicol. Chem.23(12): 2878-2888|2004|10.1897/03-521.1
80863|A||Belden,J.B., D.R. Ownby, G.R. Lotufo, and M.J. Lydy|Accumulation of Trinitrotoluene (TNT) in Aquatic Organisms:  Part 2 - Bioconcentration in Aquatic Invertebrates and Potential for Trophic Transfer to Channel Catfish (Ictalurus punctatus)|Chemosphere58(9): 1161-1168|2005|10.1016/j.chemosphere.2004.09.058
80864|A||Baldisserotto,B., M.J. Chowdhury, and C.M. Wood|Effects of Dietary Calcium and Cadmium on Cadmium Accumulation, Calcium and Cadmium Uptake from the Water, and Their Interactions in Juvenile Rainbow Trout|Aquat. Toxicol.72(1/2): 99-117|2005|10.1016/j.aquatox.2004.11.019
80865|A||Balch,G.C., K. Shami, P.J. Wilson, Y. Wakamatsu, and C.D. Metcalfe|Feminization of Female Leukophore-Free Strain of Japanese Medaka (Oryzias latipes) Exposed to 17beta-Estradiol|Environ. Toxicol. Chem.23(11): 2763-2768|2004|10.1897/03-633
80866|A||Altinok,I.|Toxicity and Therapeutic Effects of Chloramine-T for Treating Flavobacterium columnare Infection of Goldfish|Aquaculture239(1-4): 47-56|2004|10.1016/j.aquaculture.2004.05.035
80867|T||Abramsson-Zetterberg,L., and K. Svensson|Semicarbazide is not Genotoxic in the Flow Cytometry-Based Micronucleus Assay In Vivo|Toxicol. Lett.155(2): 211-217|2005|10.1016/j.toxlet.2004.09.019
80868|A||Affonso,E.G., V.L.P. Polez, C.F. Correa, A.F. Mazon, M.R.R. Araujo, G. Moraes, and F.T. Rantin|Physiological Responses to Sulfide Toxicity by the Air-Breathing Catfish, Hoplosternum littorale (Siluriformes, Callichthyidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 251-257|2004|10.1016/j.cca.2004.11.007
80869|A||Yamaguchi,A., H. Ishibashi, S. Kohra, K. Arizono, and N. Tominaga|Short-Term Effects of Endocrine-Disrupting Chemicals on the Expression of Estrogen-Responsive Genes in Male Medaka (Oryzias latipes)|Aquat. Toxicol.72(3): 239-249|2005|10.1016/j.aquatox.2004.12.011
80870|A||Wang,X., and W.X. Wang|Uptake, Absorption Efficiency and Elimination of DDT in Marine Phytoplankton, Copepods and Fish|Environ. Pollut.136(3): 453-464|2005|10.1016/j.envpol.2005.01.004
80871|A||Berry,W.J., W.S. Boothman, J.R. Serbst, and P.A. Edwards|Predicting the Toxicity of Chromium in Sediments|Environ. Toxicol. Chem.23(12): 2981-2992|2004|10.1897/03-599.1
80875|A||Gentile,J.H., and M. Johnson|Microalgal Toxicity Data for Cadmium Ambient Water Quality Criteria|Memo to John H.Gentile, U.S.EPA, Narragansett, RI:1 p.|1982|
80876|A||Ingersoll,C., and N. Kemble|Revised Description of Toxicity Data on Cadmium:  Chronic Water-Only Exposures with the Amphipod Hyalella azteca and the Midge Chironomus tentans|Memorandum.U.S.Department of the Interior, Columbia, MO (Memo to C.Roberts, U.S.Environmental Protection Agency, Health and Ecological Criteria Division):5 p.|2001|
80879|A||Demon,A., M. De Bruin, and H.T. Wolterbeek|The Influence of pH on Trace Element Uptake by an Alga (Scenedesmus pannonicus subsp. Berlin) and Fungus (Aureobasidium pullulans)|Environ. Monit. Assess.10(2): 165-173|1988|10.1007/BF00401781
80880|A||Demon,A., M. De Bruin, and H. Wolterbeek|The Influence of Pre-treatment, Temperature and Calcium Ions on Trace Element Uptake by an Alga (Scenedesmus pannonicus subsp.Berlin) and Fungus (Aureobasidium pullulans)|Environ. Monit. Assess.13(1): 21-33|1989|10.1007/BF00398733
80881|A||Lee,J.G., S.B. Roberts, and F.M.M. Morel|Cadmium:  A Nutrient for the Marine Diatom Thalassiosira weissflogii|Limnol. Oceanogr.40(6): 1056-1063|1995|10.4319/lo.1995.40.6.1056
80882|A||McCahon,C.P., A.J. Whiles, and D. Pascoe|The Toxicity of Cadmium to Different Larval Instars of the Trichopteran Larvae Agapetus fuscipes Curtis and the Importance of Life Cycle Information to the Design of Toxicity Tests|Hydrobiologia (Multiple Languages)185(2): 153-162|1989|10.1007/BF00010812
80883|A||Papathanassiou,E.|Cadmium Accumulation and Ultrastructural Alterations in Oogenesis of the Prawn Palaemon serratus (Pennant)|Bull. Environ. Contam. Toxicol.36(2): 192-198|1986|10.1007/BF01623494
80884|A||Wang,W.X., and N.S. Fisher|Assimilation of Trace Elements and Carbon by the Mussel Mytilus edulis:  Effects of Food Composition|Limnol. Oceanogr.41(2): 197-207|1996|10.4319/lo.1996.41.2.0197
80885|A||Pedersen,F., and G.I. Petersen|Variability of Species Sensitivity to Complex Mixtures|Water Sci. Technol.33(6): 109-119|1996|10.2166/wst.1996.0087
80886|T||Hornshaw,T.C., R.J. Aulerich, R.K. Ringer, and M.B. Martin|Mineral Concentrations in the Hair of Natural Dark and Pastel Mink (Mustela vison)|Scientifur9(3): 216-219|1985|
80887|T||Bhargava,J.N., J.P. Sharma, and Y.P. Sharma|Effect of Herbicides on the Nutrient Uptake by July Elberta Peach Trees|Prog. Hortic.19(3/4): 227-230|1987|
80888|T||Komsta-Szumska,E., and M. Czuba|The Fate of Cd, Cu, Ca, Zn, and Fe in Rat During the Recovery Period Following Cessation of Repeated Exposure to Cadmium|Biol. Trace Elem. Res.10(1): 47-63|1986|10.1007/BF02795318
80889|T||Torrente,M., M.T. Colomina, and J.L. Domingo|Behavioral Effects of Adult Rats Concurrently Exposed to high Doses of Oral Manganese and Restraint Stress|Toxicology211(1-2): 59-69|2005|10.1016/j.tox.2005.02.010
80890|T||Obeng-Ofori,D., and S. Amiteye|Efficacy of Mixing Vegetable Oils with Pirimiphos-Methyl Against the Maize Weevil, Sitophilus zeamais Motschulsky in Stored Maize|J. Stored Prod. Res.41(1): 57-66|2005|10.1016/j.jspr.2003.11.001
80891|T||Stroheker,T., N. Cabaton, G. Nourdin, J.F. Regnier, J.C. Lhuguenot, and M.C. Chagnon|Evaluation of Anti-androgenic Activity of di-(2-Ethylhexyl)Phthalate|Toxicology208(1): 115-121|2005|10.1016/j.tox.2004.11.013
80892|T||Voss,C., H. Zerban, P. Bannasch, and M.R. Berger|Lifelong Exposure to Di-(2-Ethylhexyl)-Phthalate Induces Tumors in Liver and Testes of Sprague-Dawley Rats|Toxicology206(3): 359-371|2005|10.1016/j.tox.2004.07.016
80894|A||Romeo,M., and M. Gnassia-Barelli|Metal Distribution in Different Tissues and in Subcellular Fractions of the Mediterranean Clam Ruditapes decussatus Treated with Cadmium, Copper, or Zinc|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(3): 457-463|1995|
80895|A||Roseman,E.F., E.L. Mills, M. Rutzke, W.H. Gutenmann, and D.J. Lisk|Absorption of Cadmium from Water by North American Zebra and Quagga Mussels (Bivalvia:  Dreissenidae)|Chemosphere28(4): 737-743|1994|10.1016/0045-6535(94)90227-5
80896|A||Skowronski,T., B. Pawlik, and M. Jakubowski|Reduction of Cadmium Toxicity to Green Microalga Stichococcus bacillaris by Manganese|Bull. Environ. Contam. Toxicol.41:915-920|1988|10.1007/BF02021055
80897|A||Walsh,R.S., and K.A. Hunter|Influence of Phosphorus Storage on the Uptake of Cadmium by the Marine Alga Macrocystis pyrifera|Limnol. Oceanogr.37(7): 1361-1369|1992|10.4319/lo.1992.37.7.1361
80898|A||Danis,B., P. Bustamante, O. Cotret, J.L. Teyssie, S.W. Fowler, and M. Warnau|Bioaccumulation of PCBs in the Cuttlefish Sepia officinalis from Seawater, Sediment and Food Pathways|Environ. Pollut.134(1): 113-122|2005|10.1016/j.envpol.2004.07.010
80899|T||Vartak,P.H., and R.N. Sharma|Vapour Toxicity & Repellence of Some Essential Oils & Terpenoids to Adults of Aedes aegypti (L) (Diptera:  Culicidae)|Indian J. Med. Res. Sect. A97:122-127|1993|
80904|T||Birley,M.H., C.M. Mutero, I.F. Turner, and P.R. Chadwick|The Effectiveness of Mosquito Coils Containing Esbiothrin Under Laboratory and Field Conditions|Ann. Trop. Med. Parasitol.81(2): 163-171|1987|10.1080/00034983.1987.11812108
80905|T||Ahlbom,J., A. Fredriksson, and P. Eriksson|Neonatal Exposure to a Type-L Pyrethroid (Bioallethrin) Induces Dose-Response Changes in Brain Muscarinic Receptors and Behaviour in Neonatal and Adult Mice|Brain Res.645(1-2): 318-324|1994|10.1016/0006-8993(94)91666-7
80906|T||Talts,U., A. Fredriksson, and P. Eriksson|Changes in Behavior and Muscarinic Receptor Density After Neonatal and Adult Exposure to Bioallethrin|Neurobiol.Aging19(6): 545-552|1998|10.1016/S0197-4580(98)00093-1
80907|T||Pauluhn,J., and G. Schmuck|Critical Analysis of Potential Body Temperature Confounders on Neurochemical Endpoints Caused by Direct Dosing and Maternal Separation in Neonatal Mice:  A Study of Bioallethrin and Deltamethrin Interactions with Temper|J. Appl. Toxicol.23(1): 9-18|2003|10.1002/jat.873
80908|A||Brooke,L.T.|Accumulation and Lethality for Two Freshwater Fishes (Fathead Minnow and Bluegill) to Nonylphenol|U.S. EPA Contract No.68-C1-0034, Work Assignment No. 2-15:49 p.|1994|
80909|A||Yap,H.H., H.T. Tan, A.M. Yahaya, R. Baba, P.Y. Loh, and N.L. Chong|Field Efficacy of Mosquito Coil Formulations Containing d-Allethrin and d-Transallethrin Against Indoor Mosquitos Especially Culex quinquefasciatus Say|Southeast Asian J. Trop. Med. Public Health21(4): 558-563|1990|
80910|T||Krishna,D., U.S. Murty, K. Sriram, K. Jamil, and P.J. Reddy|Vapour Toxicity of Aerosol Formulation, Allethrin on Culex quinquefasciatus (Diptera: Culicidae), Say & Musca domestica (Diptera: Muscidae) N|Indian J. Med. Res. Sect. A97(1): 212-214|1993|
80911|T||Ujihara,K., T. Mori, T. Iwasaki, M. Sugano, Y. Shono, and N. Matsuo|Metofluthrin:  A Potent New Synthetic Pyrethroid with high Vapor Activity Against Mosquitoes|Biosci. Biotechnol. Biochem.68(1): 170-174|2004|10.1271/bbb.68.170
80912|T||Talts,U., J.F. Talts, and P. Eriksson|Differential Expression of Muscarinic Subtype mRNAs After Exposure to Neurotoxic Pesticides|Neurobiol.Aging19(6): 553-559|1998|10.1016/S0197-4580(98)00095-5
80913|T||Tsunoda,K.|Laboratory Evaluation of Chemicals as Wood Preservatives  (1.)  2-(Thiocyanomethylthio)Benzothiazole (TCMTB)|Wood Res.77:28-34|1990|
80915|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Cadmium at ERL, Narragansett|Memo to D.J.Hansen, U.S.EPA, Narrangansett, RI:5 p.|1985|
80919|T||Rao,P.U.|Chemical Composition and Biological Evaluation of Debitterized and Defatted Neem (Azadirachta indica) Seed Kernel Cake|J. Am. Oil Chem. Soc.64(9): 1348-1351|1987|10.1007/BF02540795
80920|T||Jacobs,R.M., M.R.S. Fox, B.E.,Jr. Fry, and B.F. Harland|Effect of a Two-Day Exposure to Dietary Cadmium on the Concentration of Elements in Duodenal Tissue of Japanese Quail|In: W.G.Hoekstra (Ed.), Trace Elem.Metab.Anim.Proc.Int.Symp., 2nd .Univ.Park Press, Baltimore, Md.:684-686|1974|
80922|T||Beaver,D.L.|Avian Populations in Herbicide Treated Brush Fields|Auk93(3): 543-553|1976|
80923|T||Modak,R., T. Chakraborty, and G.C. De|Method of Weed Management on Weed Biomass, Yield of Blackgram (Phaseolus mungo) and Nitrogen Uptake|Indian J. Agron.40(1): 115-117|1995|
80924|T||Siewicki,T.C., J.S. Sydlowski, F.M. Van Dolah, and J.E.,Jr. Balthrop|Influence of Dietary Zinc and Cadmium on Iron Bioavailability in Mice and Rats:  Oyster Versus Salt Sources|J. Nutr.116(2): 281-289|1986|10.1093/jn/116.2.281
80925|T||McGrath,J.J., and J.V. Moffa|System to Evaluate the Influence of Chronic Exposure to CO on the Hatching Eggs of the White Leghorn Chicken|J. Air Pollut. Control Assoc.22(2): 123-|1972|10.1080/00022470.1972.10469617
80926|T||Gressel,J., R.H. Shimabukuro, and M.E. Duysen|N-Dealkylation of Atrazine and Simazine in Senecio vulgaris Biotypes:  A Major Degradation Pathway|Pestic. Biochem. Physiol.19(3): 361-370|1983|10.1016/0048-3575(83)90065-2
80927|T||Thoison,O., T. Sevenet, H.M. Niemeyer, and G.B. Russell|Insect Antifeedant Compounds from Nothofagus dombeyi and N. pumilio|Phytochemistry65(14): 2173-2176|2004|10.1016/j.phytochem.2004.04.002
80929|T||Bern,H.A., M. Edery, K.T. Mills, A.F. Kohrman, T. Mori, and L. Larson|Long-Term Alterations in Histology and Steroid Receptor Levels of the Genital Tract and Mammary Gland Following Neonatal Exposure of Female BALB/cCrgl Mice to Various Doses of Diethylstilbestrol|Cancer Res.47:4165-4172|1987|
80930|A||Hermanutz,R.O., K.N. Allen, N.E. Detenbeck, and C.E. Stephan|Exposure of Bluegills (Lepomis macrochirus) to Selenium in Outdoor Experimental Streams|U.S.EPA, Mid-Continent Ecol.Div., Duluth, MN:43 p.|1996|
80931|T||Jukes,A.M., and P.M. Goode|Observations on the Effect of Post-Emergence Application of Ethofumesate on the Shoot Growth of Poa annua and Lolium perenne Seedlings|Grass Forage Sci.36:231-235|1981|10.1111/j.1365-2494.1981.tb01560.x
80932|T||Bagchi,M., E.A. Hassoun, D. Bagchi, and S.J. Stohs|Production of Reactive Oxygen Species by Peritoneal Macrophages and Hepatic Mitochondria and Microsomes from Endrin-Treated Rats|Free Radic. Biol. Med.14(2): 149-155|1993|10.1016/0891-5849(93)90005-F
80933|T||McKee,I.F., and S.P. Long|Plant Growth Regulators Control Ozone Damage to Wheat Yield|New Phytol.152(1): 41-51|2001|10.1046/j.0028-646x.2001.00207.x
80934|T||Marriage,P.B., S.U. Khan, S.I. Warwick, and D.F. Tutte|Differential Nitrogen Response to Atrazine of Susceptible and Resistant Populations of Lamb's-Quarters (Chenopodium album L.)|Pestic. Biochem. Physiol.15(3): 294-299|1981|10.1016/0048-3575(81)90014-6
80935|A||Borgmann,U., Y. Couillard, P. Doyle, and D.G. Dixon|Toxicity of Sixty-Three Metals and Metalloids to Hyalella azteca at Two Levels of Water Hardness|Environ. Toxicol. Chem.24(3): 641-652|2005|10.1897/04-177R.1
80936|A||dos Santos Miron,D., M. Crestani, M. Rosa Shettinger, V. Maria Morsch, B. Baldisserotto, M. Angel Tierno, G. Moraes, an|Effects of the Herbicides Clomazone, Quinclorac, and Metsulfuron Methyl on Acetylcholinesterase Activity in the Silver Catfish (Rhamdia quelen) (Heptapteridae)|Ecotoxicol. Environ. Saf.61(3): 398-403|2005|10.1016/j.ecoenv.2004.12.019
80937|A||Christensen,B.T., T.L. Lauridsen, H.W. Ravn, and M. Bayley|A Comparison of Feeding Efficiency and Swimming Ability of Daphnia magna Exposed to Cypermethrin|Aquat. Toxicol.73(2): 210-220|2005|10.1016/j.aquatox.2005.03.011
80938|A||Chang,K.H., M. Sakamoto, and T. Hanazato|Impact of Pesticide Application on Zooplankton Communities with Different Densities of Invertebrate Predators: An Experimental Analysis Using Small-Scale Mesocosms|Aquat. Toxicol.72(4): 373-382|2005|10.1016/j.aquatox.2005.02.005
80939|A||Carreau,N.D., and G.G. Pyle|Effect of Copper Exposure During Embryonic Development on Chemosensory Function of Juvenile Fathead Minnows (Pimephales promelas)|Ecotoxicol. Environ. Saf.61(1): 1-6|2005|10.1016/j.ecoenv.2004.10.008
80940|A||Bossuyt,B.T.A., and C.R. Janssen|Copper Toxicity to Different Field-Collected Cladoceran Species:  Intra- and Inter-Species Sensitivity|Environ. Pollut.136(1): 145-154|2005|10.1016/j.envpol.2004.11.023
80941|A||Bossuyt,B.T.A., and C.R. Janssen|Copper Regulation and Homeostasis of Daphnia magna and Pseudokirchneriella subcapitata: Influence of Acclimation|Environ. Pollut.136(1): 135-144|2005|10.1016/j.envpol.2004.11.024
80942|A||Bossuyt,B.T.A., Y.R. Escobar, and C.R. Janssen|Multigeneration Acclimation of Daphnia magna Straus to Different Bioavailable Copper Concentrations|Ecotoxicol. Environ. Saf.61(3): 327-336|2005|10.1016/j.ecoenv.2005.03.004
80943|A||Bengtson Nash,S.M., P.A. Quayle, U. Schreiber, and J.F. Muller|The Selection of a Model Microalgal Species as Biomaterial for a Novel Aquatic Phytotoxicity Assay|Aquat. Toxicol.72(4): 315-326|2005|10.1016/j.aquatox.2005.02.004
80944|A||Barata,C., I. Varo, J.C. Navarro, S. Arun, and C. Porte|Antioxidant Enzyme Activities and Lipid Peroxidation in the Freshwater Cladoceran Daphnia magna Exposed to Redox Cycling Compounds|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 175-186|2005|10.1016/j.cca.2005.01.013
80945|A||Blanar,C.A., M.A. Curtis, and H.M. Chan|Growth, Nutritional Composition, and Hematology of Arctic Charr (Salvelinus alpinus) Exposed to Toxaphene and Tapeworm (Diphyllobothrium dendriticum) Larvae|Arch. Environ. Contam. Toxicol.48(3): 397-404|2005|10.1007/s00244-004-0064-6
80946|A||Dong,Q., J. Lin, and C. Huang|Effects of Cryoprotectant Toxicity on the Embryos and Larvae of Pacific White Shrimp Litopenaeus vannamei|Aquaculture242(1-4): 655-670|2004|10.1016/j.aquaculture.2004.08.040
80947|AT||Grisolia,C.K., M.R. Bilich, and L.M. Formigli|A Comparative Toxicologic and Genotoxic Study of the Herbicide Arsenal, Its Active Ingredient Imazapyr, and the Surfactant Nonylphenol Ethoxylate|Ecotoxicol. Environ. Saf.59(1): 123-126|2004|10.1016/j.ecoenv.2004.01.014
80948|A||Thangavel,P., M. Ramaswamy, K. Sumathiral, and K. Amutha|Individual and Combined Effects of Dimecron-Ziram on the Levels of Serum Prolactin and Selected Minerals of an Edible Freshwater Fish, Oreochromis mossambicus (Peters)|Pestic. Biochem. Physiol.81(1): 24-31|2005|10.1016/j.pestbp.2004.08.002
80949|A||Ferrari,A., O.L. Anguiano, J. Soleno, A. Venturino, and A.M. Pechen de D'Angelo|Different Susceptibility of Two Aquatic Vertebrates (Oncorhynchus mykiss and Bufo arenarum) to Azinphos Methyl and Carbaryl|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 239-243|2004|10.1016/j.cca.2004.11.006
80950|A||Forbes,V.E., and A. Cold|Effects of the Pyrethroid Esfenvalerate on Life-Cycle Traits and Population Dynamics of Chironomus riparius-Importance of Exposure Scenario|Environ. Toxicol. Chem.24(1): 78-86|2005|10.1897/03-547.1
80951|A||Forget-Leray,J., I. Landriau, C. Minier, and F. Leboulenger|Impact of Endocrine Toxicants on Survival, Development, and Reproduction of the Estuarine Copepod Eurytemora affinis (Poppe)|Ecotoxicol. Environ. Saf.60(3): 288-294|2005|10.1016/j.ecoenv.2004.06.008
80952|A||Gul,A.|Investigation of Acute Toxicity of Chlorpyrifos-Methyl on Nile tilapia (Oreochromis niloticus L.) Larvae|Chemosphere59(2): 163-166|2005|10.1016/j.chemosphere.2004.10.065
80953|A||Burridge,L.E., K. Haya, and S.L. Waddy|Seasonal Lethality of the Organophosphate Pesticide, Azamethiphos to Female American Lobster (Homarus americanus)|Ecotoxicol. Environ. Saf.60(3): 277-281|2005|10.1016/j.ecoenv.2004.06.004
80954|A||Cedergreen,N., L. Andersen, C.F. Olesen, H.H. Spliid, and J.C. Streibig|Does the Effect of Herbicide Pulse Exposure on Aquatic Plants Depend on KOW or Mode of Action?|Aquat. Toxicol.71(3): 261-271|2005|10.1016/j.aquatox.2004.11.010
80955|A||De Silva,P.M.C.S., and L.A. Samayawardhena|Effects of Chlorpyrifos on Reproductive Performances of Guppy (Poecilia reticulata)|Chemosphere58(9): 1293-1299|2005|10.1016/j.chemosphere.2004.10.030
80956|A||Garcia-Meza,J.V., C. Barrangue, and W. Admiraal|Biofilm Formation by Algae as a Mechanism for Surviving on Mine Tailings|Environ. Toxicol. Chem.24(3): 573-581|2005|10.1897/04-064R.1
80957|A||Franklin,N.M., J.L. Stauber, and R.P. Lim|Development of Multispecies Algal Bioassays Using Flow Cytometry|Environ. Toxicol. Chem.23(6): 1452-1462|2004|10.1897/03-250
80958|A||Lorenzo,J.I., R. Beiras, V.K. Mubiana, and R. Blust|Copper Uptake by Mytilus edulis in the Presence of Humic Acids|Environ. Toxicol. Chem.24(4): 973-980|2005|10.1897/04-216r.1
80959|A||Kolok,A.S., and D. L'Etoile-Lopes|Do Copper Tolerant Fathead Minnows Produce Copper Tolerant Adult Offspring?|Aquat. Toxicol.72(3): 231-238|2005|10.1016/j.aquatox.2004.12.010
80960|A||Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi|Production of Male Neonates in Four Cladoceran Species Exposed to a Juvenile Hormone Analog, Fenoxycarb|Chemosphere60(1): 74-78|2005|10.1016/j.chemosphere.2004.12.080
80961|A||Relyea,R.A.|The Lethal Impacts of Roundup and Predatory Stress on Six Species of North American Tadpoles|Arch. Environ. Contam. Toxicol.48(3): 351-357|2005|10.1007/s00244-004-0086-0
80962|A||Roque,A., S. Abad, M. Betancourt-Lozano, L.M. Garcia de la Parra, D. Baird, A.L. Guerra-Flores, and B. Gomez-Gil|Evaluation of the Susceptibility of the Cultured Shrimp Litopenaeus vannamei to Vibriosis when Orally Exposed to the Insecticide Methyl Parathion|Chemosphere60(1): 126-134|2005|10.1016/j.chemosphere.2005.01.008
80963|A||Selvakumar,S., P. Geraldine, S. Shanju, and T. Jayakumar|Stressor-Specific Induction of Heat Shock Protein 70 in the Freshwater Prawn Macrobrachium malcolmsonii (H. Milne Edwards) Exposed to the Pesticides Endosulfan and Carbaryl|Pestic. Biochem. Physiol.82(2): 125-132|2005|10.1016/j.pestbp.2005.02.003
80964|A||Selvi,M., R. Sarikaya, F. Erkoc, and O. Kocak|Investigation of Acute Toxicity of Chlorpyrifos-Methyl on Guppy Poecilia reticulata|Chemosphere60(1): 93-96|2005|10.1016/j.chemosphere.2004.11.093
80965|T||Spurgeon,D.J., C. Svendsen, L.J. Lister, P.K. Hankard, and P. Kille|Earthworm Responses to Cd and Cu Under Fluctuating Environmental Conditions:  A Comparison with Results from Laboratory Exposures|Environ. Pollut.136(3): 443-452|2005|10.1016/j.envpol.2005.01.013
80966|T||Kuriyama,T., X.L. Ju, S. Fusazaki, H. Hishinuma, T. Satou, K. Koike, T. Nikaido, and Y. Ozoe|Nematocidal Quassinoids and Bicyclophosphorothionates: A Possible Common Mode of Action on the GABA Receptor|Pestic. Biochem. Physiol.81(3): 176-187|2005|10.1016/j.pestbp.2004.11.008
80968|T||Li,Z.J., J.M. Xu, A. Muhammad, and G.R. Ma|Effect of Bound Residues of Metsulfuron-Methyl in Soil on Rice Growth|Chemosphere58(9): 1177-1183|2005|10.1016/j.chemosphere.2004.09.056
80969|A||Bengtsson,G., L.A. Hansson, and K. Montenegro|Reduced Grazing Rates in Daphnia pulex Caused by Contaminants: Implications for Trophic Cascades|Environ. Toxicol. Chem.23(11): 2641-2648|2004|10.1897/03-432
80970|A||Harrill,J.A., C.A. Meacham, T.J. Shafer, M.F. Hughes, and K.M. Crofton|Time and Concentration Dependent Accumulation of [3H]-Deltamethrin in Xenopus laevis Oocytes|Toxicol. Lett.157(1): 79-88|2005|10.1016/j.toxlet.2005.01.006
80972|T||Padilla,S., R.S. Marshall, D.L. Hunter, S. Oxendine, V.C. Moser, S.B. Southerland, and R.B. Mailman|Neurochemical Effects of Chronic Dietary and Repeated High-Level Acute Exposure to Chlorpyrifos in Rats|Toxicol. Sci.88(1): 161-171|2005|10.1093/toxsci/kfi274
80976|A||Beliles,R.P., and W.J.,Jr. Scott|Atrazine Safety Evaluations on Fish and Wildlife (Bobwhite Quail, Mallard Ducks, Rainbow Trout, Sunfish, and Goldfish)|Prepared by Woodard Res.Corp., Submitted by Geigy Chem.Co., Ardsley, NY (MRID No.00059214):9 p.|1965|
80977|A||Thursby,G.B., D. Champlin, and W. Berry|Acute Toxicity of Atrazine to Copepods|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:4 p.|1990|
80978|A||Thursby,G., and M. Tagliabue|Effect of Atrazine on Sexual Reproduction in the Kelp, Laminaria saccharina|Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:2 p.|1990|
80979|T||Crofton,K.M., E.S. Craft, J.M. Hedge, C. Gennings, J.E. Simmons, R.A. Carchman, W.H.,Jr. Carter, and M.J. DeVito|Thyroid-Hormone-Disrupting Chemicals:  Evidence for Dose-Dependent Additivity or Synergism|Environ. Health Perspect.113(11): 1549-1554|2005|10.1289/ehp.8195
80984|T||Rouach,H., C. Ribiere, P. Brissot, and R. Nordmann|Free Radical-Related Liver Mitochondrial Damage Following Experimental Chronic Iron Overload|Adv. Biosci.76:235-243|1988|
80986|T||Julka,D., R. Sandhir, and K.D. Gill|Altered Cholinergic Metabolism in Rat CNS Following Aluminum Exposure:  Implications on Learning Performance|J. Neurochem.65(5): 2157-2164|1995|10.1046/j.1471-4159.1995.65052157.x
80987|T||Prabowo,A., J.W. Spears, and L. Goode|Effects of Dietary Iron on Performance and Mineral Utilization in Lambs Fed a Forage-Based Diet|J. Anim. Sci.66(8): 2028-2035|1988|10.2527/jas1988.6682028x
80989|T||Sakurai,H., A. Tsuji, Y. Sano, N. Masuyama, H. Asano, K. Suzuki, and K. Nakajima|Dietary Copper (Cu)- and Age-Dependent Changes of Cu-Metallothionein in Relation to the Level of Nitric Oxide (NO) in the Liver of LEC (Long-Evans Cinnamon) Rats|J. Trace Elem. Exp. Med.10(2): 89-100|1997|10.1002/(SICI)1520-670X(1997)10:2<89::AID-JTRA6>3.0.CO;2-#
80990|T||Beck,S.L.|Assessment of Adult Skeletons to Detect Prenatal Exposure to 2,4,5-T or Trifluralin in Mice|Teratology23:33-55|1981|10.1002/tera.1420230107
80991|T||Wilson,B.W., J.D. Henderson, E. Chow, J. Schreider, M. Goldman, R. Culbertson, and J.C. Dacre|Toxicity of an Acute Dose of Agent VX and Other Organophosphorus Esters in the Chicken|J. Toxicol. Environ. Health23:103-113|1988|10.1080/15287398809531097
80994|T||Mazur,A.R., J.A. Jagschitz, and C.R. Skogley|Bioassays for Bensulide, DCPA, and Siduron in Turfgrass|Weed Sci.17:31-34|1969|10.1017/S0043174500030824
80995|T||Tjalve,H.|Fetal Uptake and Embryogenetic Effects of Aminotriazole in Mice|Arch. Toxicol.33:41-48|1974|10.1007/BF00297051
80996|T||Iguchi,T., Y. Fukazawa, Y. Uesugi, and N. Takasugi|Polyovular Follicles in Mouse Ovaries Exposed Neonatally to Diethylstilbestrol In Vivo and In Vitro|Biol. Reprod.43:478-484|1990|10.1095/biolreprod43.3.478
80997|T||Cooke,P.S., and V.P. Eroschenko|Inhibitory Effects of Technical Grade Methoxychlor on Development of Neonatal Male Mouse Reproductive Organs|Biol. Reprod.42(3): 585-596|1990|10.1095/biolreprod42.3.585
80998|T||Eroschenko,V.P., and P.S. Cooke|Morphological and Biochemical Alterations in Reproductive Tracts of Neonatal Female Mice Treated with the Pesticide Methoxychlor|Biol. Reprod.42(3): 573-583|1990|10.1095/biolreprod42.3.573
81000|T||Sanchez,J., F. Garcia, and J. Planas|Iron Content and Distribution in Japanese Quail|Q. J. Exp. Physiol.72(1): 21-29|1987|10.1113/expphysiol.1987.sp003052
81001|T||Lai,J.C.K., M.J. Minski, A.W.K. Chan, T.K.C. Leung, and L. Lim|Manganese Mineral Interactions in Brain|Neurotoxicology20(2-3): 433-444|1999|
81002|T||Edwards,R., and W.J. Owen|Regulation of Glutathione S-Transferases of Zea mays in Plants and Cell Cultures|Planta (Multiple Languages)175(1): 99-106|1988|10.1007/BF00402886
81003|T||Wilson,B.W., J.D. Henderson, T.P. Kellner, S.F. McEuen, L.C. Griffis, and J.C. Lai|Acetylcholinesterase and Neuropathy Target Esterase in Chickens Treated with Acephate|Neurotoxicology11:483-491|1990|
81004|T||Green,G.H., and H.J. Weeth|Response of Heifers Ingesting Boron in Water|J. Anim. Sci.46(4): 812-818|1977|10.2527/jas1977.454812x
81005|T||Jagschitz,J.A., and C.R. Skogley|Turfgrass Response to Dacthal and Nitrogen|Agron. J.57:35-38|1965|10.2134/agronj1965.00021962005700010012x
81007|A||Drotar,A., L.R. Fall, E.A. Mishalanie, J.E. Tavernier, and R. Fall|Enzymatic Methylation of Sulfide, Selenide, and Organic Thiols by Tetrahymena thermophila|Appl. Environ. Microbiol.53(9): 2111-2118|1987|10.1128/aem.53.9.2111-2118.1987
81008|T||Chen,N.S.C., A. Tsai, and I.A. Dyer|Effect of Chelating Agents on Chromium Absorption in Rats|J. Nutr.103:1182-1186|1973|10.1093/jn/103.8.1182
81009|T||Neidlinger,T.J., W.R. Furtick, and N.R. Goetze|Susceptiblility of Annual Bluegrass and Turfgrasses to Bensulide and Three Uracil Herbicides|Weed Sci.16:16-18|1968|10.1017/S0043174500030423
81010|T||Myles,T.G.|Evaluation of Barium Metaborate Monohydrate and 2-(Thiocyanomethylthio)-Benzothioazole as Potential Bait Toxicants or Feeding Inhibitors Against Subterranean Termites|Proc. Entomol. Soc. Ont.128:99-103|1997|
81011|T||Hidiroglou,M., S.K. Ho, C.J. Williams, and M. Ivan|Effects of Level of Dietary Sulfur on the Growth Performance and Blood Mineral Profile of Sheep Fed Urea-Supplemented Corn Silage|Int. J. Vitam. Nutr. Res.47(3): 284-291|1977|
81013|T||Tekauz,A., F.R. Harper, and J.G.N. Davidson|Effect of Date of Seeding and Seed Treatment Fungicides on Infection of Barley by Pyrenophora graminea|Can. J. Plant Pathol.7(4): 408-416|1985|10.1080/07060668509501670
81017|A||Ranga Rao,K., D.G. Doughtie, and P.J. Conklin|Physiological and Histopathological Evaluation of Dithiocarbamate Toxicity to the Grass Shrimp, Palaemonetes pugio|EPA-600/D-83-102:40 p.|1983|
81018|T||Fugmann,R.A., C. Aranyi, P.W. Barbera, J.N. Bradof, R.D. Gibbons, and J.D. Fenters|The Effect of Diethylstilbestrol as Measured by Host Resistance and Tumor Susceptibility Assays in Mice|J. Toxicol. Environ. Health11(4-6): 827-841|1983|10.1080/15287398309530387
81019|T||Singh,B.P., O.M. Prakash, and P.K. Singh|Dry-Matter Accumulation in Weeds and Qualitative Characters of Sesame (Sesamum indicum) as Influenced by Nitrogen Levels and Weed-Control Measures|Indian J. Agron.48(2): 120-123|2003|
81023|T||Adler,A.J., and J.F. Nelson|Aging and Chronic Estradiol Exposure Impair Estradiol-Induced Cornification but not Proliferation of Vaginal Epithelium in C57BL/6J Mice|Biol. Reprod.38:175-182|1988|10.1095/biolreprod38.1.175
81024|T||Cabral,J.R.P., R.K. Hall, S.A. Bronczyk, and P. Shubik|A Carcinogenicity Study of Pesticide Dieldrin in Hamsters|Cancer Lett.6(4/5): 241-246|1979|10.1016/S0304-3835(79)80040-3
81025|T||Faber,K.A., and C.L.,Jr. Hughes|The Effect of Neonatal Exposure to Diethylstilbestrol, Genistein, and Zearalenone on Pituitary Responsiveness and Sexually Dimorphic Nucleus Volume in the Castrated Adult Rat|Biol. Reprod.45(4): 649-653|1991|10.1095/biolreprod45.4.649
81026|T||Infurna,R., B. Levy, C. Meng, E. Yau, V. Traina, G. Rolofson, J. Stevens, and J. Barnett|Teratological Evaluations of Atrazine Technical, a Triazine Herbicide, in Rats and Rabbits|J. Toxicol. Environ. Health24:307-319|1988|10.1080/15287398809531164
81027|A||FMC Corp.|Bioassay Tests 7-OH Chemicals Appendix I|FMC Corporation, Philadelphia, PA:12 p.|2000|
81028|A||Atif,F., M. Ali, M. Kaur, H. Rehman, and S. Raisuddin|Modulatory Effect of Cadmium Injection on Endosulfan-Induced Oxidative Stress in the Freshwater Fish, Channa punctata Bloch|Bull. Environ. Contam. Toxicol.74(4): 777-784|2005|10.1007/s00128-005-0649-4
81029|T||Jones,D.R.|A Chemical Treatment for Maize Seed to Control the Germination of Teliospores of Ustilago maydis|Aust. J. Exp. Agric.26(2): 187-191|1986|10.1071/EA9860187
81031|T||Proctor and Gamble Co.|28-Day Subacute Percutaneous Toxicity with Cover Letter|EPA/OTS Doc.#878215029:15 p.|1985|
81032|T||Prasad,R., and D. Travnick|Evaluation of Fungicides for Control of Tree Diseases.  V. - Screening Against the Dutch Elm Disease Ceratocystis ulmi (Buism) C.  Moreau Under Laboratory and Field Conditions During 1976|Rep. No. CC-X-125, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:17 p.|1976|
81033|AT||Rhone-Poulenc|Initial Submission:  Letter Submitting Information to Miramine TO-DT and Miramine HPS-B|Rhone-Poulenc, Cranbury, NJ:2 p.|1992|
81034|T||Gettings,S.D., R.A. Lordo, P.I. Feder, and K.L. Hintze|A Comparison of Low Volume, Draize and In Vitro Eye Irritation Test Data.  III.  Surfactant-Based Formulations|Food Chem. Toxicol.36(3): 209-231|1998|10.1016/S0278-6915(97)00135-X
81035|T||Fleet,J.C., G.K. Andrews, and C.C. McCormick|Iron-Induced Metallothionein in Chick Liver:  A Rapid, Route-Dependent Effect Independent of Zinc Status|J. Nutr.120(10): 1214-1222|1990|10.1093/jn/120.10.1214
81036|T||Shu,W.S., Z.Q. Zhang, L.N. Huang, C.Y. Lan, and Z.H. Ye|Pb, Zn and Cu Tolerance and Accumulation in Populations of Paspalum distichum|Zhongshan Daxua Xuebao. Ziran Kexueban39(3): 82-86|2000|
81037|A||Jonczyk,E., G. Gilron, and B. Zajdlik|Sea Urchin Fertilization Assay:  An Evaluation of Assumptions Related to Sample Salinity Adjustment and Use of Natural and Synthetic Marine Waters for Testing|Environ. Toxicol. Chem.20(4): 804-809|2001|10.1002/etc.5620200416
81038|A||Demichelis,S.O., F.R. De la Torre, L. Ferrari, M.E. Garcia, and A. Salibian|Tadpoles Assay:  Its Application to a Water Toxicity Assessment of a Polluted Urban River|Environ. Monit. Assess.68(1): 63-73|2001|10.1023/A:1010786906823
81039|T||Hanko,E., K. Erne, H. Wanntorp, and K. Borg|Poisoning in Ferrets by Tissues of Alkyl Mercury-Fed Chickens|Acta Vet. Scand.11(2): 268-282|1970|10.1186/BF03547987
81040|T||Meeks,M.J., R.R. Landolt, W.V. Kessler, and G.S. Born|Effect of Vanadium on Metabolism of Glucose in the Rat|J. Pharm. Sci.60:482-483|1971|10.1002/jps.2600600336
81041|T||Wojcik,M., J. Vangronsveld, and A. Tukiendorf|Cadmium Tolerance in Thlaspi caerulescens:  I. Growth Parameters, Metal Accumulation and Phytochelatin Synthesis in Response to Cadmium|Environ. Exp. Bot.53(2): 151-161|2005|
81044|T||Ohtawa,M., M. Seko, and F. Takayama|Effect of Aluminum Ingestion on Lipid Peroxidation in Rats|Chem. Pharm. Bull.31(4): 1415-1418|1983|10.1248/cpb.31.1415
81045|T||Agarwal,S.K., L. Ayyash, C.S. Gourley, J. Levy, K. Faber, and C.L.,Jr. Hughes|Evaluation of the Developmental Neuroendocrine and Reproductive Toxicology of Aluminium|Food Chem. Toxicol.34(1): 49-53|1996|10.1016/0278-6915(95)00088-7
81046|T||Bilkei-Gorzo,A.|Neurotoxic Effect of Enteral Aluminium|Food Chem. Toxicol.31(5): 357-361|1993|10.1016/0278-6915(93)90191-Z
81047|T||Fraga,C.G., P.I. Oteiza, M.S. Golub, M.E. Gershwin, and C.L. Keen|Effects of Aluminum on Brain Lipid Peroxidation|Toxicol. Lett.51(2): 213-219|1990|10.1016/0378-4274(90)90212-5
81049|T||Kalamah,M.A., A.A. El Fiky, and H.S. Zeweil|Effect of Different Molting Programs on Productive and Some Physiological Parameters in Norfa and Fayoumi Hens|Egypt. J. Anim. Prod.32(2): 253-268|1995|10.21608/ejap.1995.117027
81050|T||Vahl,H.A., and A.T. Van 'T Klooster|Dietary Iron and Broiler Performance|Br. Poult. Sci.28(4): 567-576|1987|10.1080/00071668708416992
81051|T||Olver,M.D.|Effect of Feeding Clinoptilolite (Zeolite) to Three Strains of Laying Hens|Br. Poult. Sci.30(1): 115-121|1989|10.1080/00071668908417130
81052|T||Zaman,K., Z. Dabrowski, and H. Miszta|Effects of Aluminium on Erythroidal Cells in Bone Marrow in Rats|Folia Histochem. Cytobiol.28(1-2): 61-68|1990|
81053|T||Chandra,S.V., and G.S. Shukla|Effect of Manganese Administration on Morphology and Enzymes of Brain in Iron Deficient Rats|In: S.H.Zaidi (Ed.), Environ.Pollut.Hum.Health, Proc.1st Int.Symp., Ind.Toxicol.Res.Cent., Lucknow, India:772-783|1977|
81054|T||Arai,Y., C.Y. Chen, and Y. Nishizuka|Cancer Development in Male Reproductive Tract in Rats Given Diethylstilbestrol at Neonatal Age|Jpn. J. Cancer Res.69:861-862|1978|
81056|T||Newbold,R.R., B.C. Bullock, and J.A. McLachlan|Testicular Tumors in Mice Exposed In Utero to Diethylstilbestrol|J. Urol.138(6): 1446-1450|1987|10.1016/S0022-5347(17)43672-X
81057|T||Hicks,J.S., D.S. Hackett, and G.L. Sprague|Toxicity and Aluminium Concentration in Bone Following Dietary Administration of Two Sodium Aluminium Phosphate Formulations in Rats|Food Chem. Toxicol.25(7): 533-538|1987|10.1016/0278-6915(87)90205-5
81059|T||Thorne,B.M., A. Cook, T. Donohoe, S. Lyon, D.M. Medeiros, and C. Moutzoukis|Aluminum Toxicity and Behavior in the Weanling Long-Evans Rat|Bull. Psychol. Scol. d'Orient.25(2): 129-132|1987|
81061|T||Southern,L.L., and D.H. Baker|Iron Status of the Chick as Affected by Eimeria acervulina Infection and by Variable Iron Ingestion|J. Nutr.112(12): 2353-2362|1982|10.1093/jn/112.12.2353
81062|T||Osborn,R.G., G.D. Osweiler, and C.W. Foley|Effects of Zearalenone on Various Components of Rabbit Uterine Tubal Fluid|Am. J. Vet. Res.49(8): 1382-1386|1988|
81063|T||Muller,G., M.F. Hutin, D. Burnel, and P.R. Lehr|Aluminum Transfer Through Milk in Female Rats Intoxicated by Aluminum Chloride|Biol. Trace Elem. Res.34(1): 79-87|1992|10.1007/BF02783900
81064|T||Sahin,G., T. Taskin, K. Benli, and S. Duru|Impairment of Motor Coordination in Mice After Ingestion of Aluminum Chloride|Biol. Trace Elem. Res.50(1): 79-85|1995|10.1007/BF02789150
81065|T||Benabdeljelil,K., and L.S. Jensen|Effect of Diets Composition and Excess Iron on Laying Hen Performance and Egg Quality|Actes Inst. Agron. Vet.8(1-2): 5-12|1988|
81066|T||Minear,L.R.|Influence of Copper Sulfate and Mold Inhibitors on Broiler Performance|In:  Proceedings of the 4th Annual Texas Human Nutrition Conference, Texas A&M University, College Station, TX32:56-73|1977|
81067|T||Baligar,V.C., R.J. Wright, N.K. Fageria, and C.D. Foy|Differential Responses of Forage Legumes to Aluminum|J. Plant Nutr.11(5): 549-561|1988|10.1080/01904168809363822
81068|T||Lal,B., A. Gupta, R.C. Murthy, M.M. Ali, and S.V. Chandra|Aluminum Ingestion Alters Behavior and Some Neurochemicals in Rats|Indian J. Exp. Biol.31(1): 30-35|1993|
81069|T||Dow Chemical Co.|Topical Application of Various Solvents & Solutions to Evaluate Dermal Irritation with Cover Letters Dated 022387 & 021287|EPA/OTS Doc.#86870000226:14 p.|1987|
81071|T||Fairbrother,A., T.M. Yuill, and L.J. Olson|Effects of Three Plant Growth Regulators on the Immune Response of Young and Aged Deer Mice Peromyscus maniculatus|Arch. Environ. Contam. Toxicol.15(3): 265-275|1986|10.1007/BF01061103
81072|T||Sarangi,S.K., and H.C. Sharma|Influence of Mode of Iron Application and Growth-Regulators on Development, Yield Attributes and Yield of Upland Rice (Oryza sativa)|Indian J. Agric. Sci.74(12): 637-642|2004|
81073|T||Errando,C.L., C. Sifre, S. Moliner, J.C. Valia, O. Gimeno, A. Minguez, and P. Boils|Subarachnoid Ketamine in Swine - Pathological Findings After Repeated Doses:  Acute Toxicity Study|Reg. Anesth. Pain Med.24(2): 146-152|1999|
81074|T||Oetting,R.D., and J.G. Latimer|Effects of Soaps, Oils, and Plant Growth Regulators (PGRs) on Neoseiulus cucumeris (Oudemans) and PGRs on Orius insidiosus (Say)|J. Agric. Entomol.12(2/3): 101-109|1995|
81075|T||Fukuda,K., H. Matsushita, K. Takemoto, and T. Toya|Carcinogenicity of Benzotrichloride Administered to Mice by Gastric Intubation|Ind. Health31(3): 127-131|1993|10.2486/indhealth.31.127
81076|T||Dreyer,D.L., B.C. Campbell, and K.C. Jones|Effect of Bioregulator-Treated Sorghum on Greenbug Fecundity and Feeding Behavior:  Implications for Host-Plant Resistance|Phytochemistry23(8): 1593-1596|1984|10.1016/S0031-9422(00)83446-9
81077|T||Attah,P.K., and H.F. Van Emden|The Susceptibility to Malathion of Metopolophium dirhodum on Two Wheat Species at Two Growth Stages, and the Effect of Plant Growth Regulators on this Susceptibility|Insect Sci. Appl.14(1): 101-106|1993|
81078|T||Bhalla,O.P., and A.G. Robinson|Effects of Chemosterilants and Growth Regulators on the Pea Aphid Fed an Artificial Diet|J. Econ. Entomol.61(2): 552-555|1968|10.1093/jee/61.2.552
81079|T||Carlisle,D.B., P.E. Ellis, and D.J. Osborne|Effects of Plant Growth Regulators on Locusts and Cotton Stainer Bugs|J. Sci. Food Agric.20(7): 391-393|1969|10.1002/jsfa.2740200703
81080|T||Khatua,D.C., S. Bandyopadhyay, S. Maiti, D. Giri, and C. Sen|Effect of Fungicides on Seedling Health and Brown Spot of Paddy|Pesticides 12(8): 35-38|1978|
81081|T||Mispelon,M., K. Thakur, L. Chinn, R. Owen, and R. Nichols|A Nonpeptide Provides Insight into Mechanisms that Regulate Drosophila melanogaster Heart Contractions|Peptides24(10): 1599-1605|2003|10.1016/j.peptides.2003.10.011
81082|A||Somasundaram,B., P.E. King, and S. Shackley|The Effects of Zinc on Postfertilization Development in Eggs of Clupea harengus L.|Aquat. Toxicol.5(2): 167-178|1984|10.1016/0166-445X(84)90007-9
81083|T||Ishikawa,H., and T. Yamauchi|Analysis of Teratogenic Effects of Maternal Treatment with 2-Bromopropane in Mice|J. Occup. Health45:63-65|2003|10.1539/joh.45.63
81085|T||Piao,F., N. Ma, H. Yamamoto, T. Yamauchi, and K. Yokoyama|Effects of Prednisolone and Complex of Vitamin B1, B2, B6 and B12 on Organophosphorus Compound-Induced Delayed Neurotoxicity|J. Occup. Health46:359-364|2004|10.1539/joh.46.359
81087|T||Sano,Y., H. Satoh, M. Chiba, M. Okamoto, K. Serizawa, H. Nakashima, and K. Omae|Oral Toxicity of Bismuth in Rat:  Single and 28-Day Repeated Administration Studies|J. Occup. Health47:293-298|2005|10.1539/joh.47.293
81088|T||Teranishi,H., K. Takagawa, Y. Arai, K. Wakaki, Y. Sumi, and K. Takaya|Histological Staining of Cadmium with 2-(8-Quinolylazo)-4,5-Diphenylimidazole (QAI) in the Kidneys of Rats Periorally Exposed to Cadmium|J. Occup. Health44:60-62|2002|10.1539/joh.44.60
81089|T||Tong,J., and Z.L. Zhang|Toxicokinetics of Fenvalerate Mixed with Phoxim in Mice|J. Occup. Health44:103-104|2002|10.1539/joh.44.103
81090|T||Umeda,Y., H. Arito, H. Kano, M. Ohnishi, M. Matsumoto, K. Nagano, S. Yamamoto, and T. Matsushima|Two-Year Study of Carcinogenicity and Chronic Toxicity of Biphenyl in Rats|J. Occup. Health44(3): 176-183|2002|10.1539/joh.44.176
81091|T||Umeda,Y., M. Matsumoto, K. Yamazaki, M. Ohnishi, H. Arito, K. Nagano, S. Yamamoto, and T. Matsushima|Carcinogenicity and Chronic Toxicity in Mice and Rats Administered Vinyl Acetate Monomer in Drinking Water|J. Occup. Health46:87-99|2004|10.1539/joh.46.87
81092|T||Zhou,Z., X. Dai, X. Gu, Y. Sun, G. Zheng, and J. Zheng|Memantine Alleviates Toxicity Induced by Dichlorvos in Rats|J. Occup. Health47:96-101|2005|10.1539/joh.47.96
81093|A||Jorge,R.A.D.L.V.C., and G.S. Moreira|Use of Sodium Dodecyl Sulfate and Zinc Sulfate as Reference Substances for Toxicity Tests with the Mussel Perna perna (Linnaeus, 1758) (Mollusca:  Bivalvia)|Ecotoxicol. Environ. Saf.61(2): 280-285|2005|10.1016/j.ecoenv.2004.09.005
81094|A||Reynaud,S., and P. Deschaux|The Effects of 3-Methylcholanthrene on Lymphocyte Proliferation in the Common Carp (Cyprinus carpio L.)|Toxicology211(1-2): 156-164|2005|10.1016/j.tox.2005.02.015
81095|A||Pandey,S., R. Kumar, S. Sharma, N.S. Nagpure, S.K. Srivastava, and M.S. Verma|Acute Toxicity Bioassays of Mercuric Chloride and Malathion on Air-Breathing Fish Channa punctatus (Bloch)|Ecotoxicol. Environ. Saf.61(1): 114-120|2005|10.1016/j.ecoenv.2004.08.004
81096|T||Malarvizhi,K., and M.V. Usharani|Effect of Sodium Selenite on the Cytological Effects of Methyl Parathion in the Root Meristems of Allium cepa|J. Environ. Biol.15(3): 193-198|1994|
81097|T||Firling,C.E., G.L. Evans, G.K. Wakley, J. Sibonga, and R.T. Turner|Lack of an Effect of Sodium Zeolite A on Rat Tibia Histomorphometry|J. Bone Miner. Res.11(2): 254-263|1996|10.1002/jbmr.5650110215
81098|T||Elsenhans,B., K. Kolb, K. Schuemann, and W. Forth|The Longitudinal Distribution of Cadmium, Zinc, Copper, Iron, and Metallothionein in the Small-Intestinal Mucosa of Rats After Administration of Cadmium Chloride|Biol. Trace Elem. Res.41(1-2): 31-46|1994|10.1007/BF02917215
81099|T||Kihira,T., S. Yoshida, Y. Uebayashi, I. Wakayama, and Y. Yase|Experimental Model of Motor Neuron Disease:  Oral Aluminum Neurotoxicity|Biomed. Res. (Tokyo)15(1): 27-36|1994|10.2220/biomedres.15.27
81100|T||Bai,Y., and C.D. Hunt|Dietary Boron Enhances Efficacy of Cholecalciferol in Broiler Chicks|J. Trace Elem. Exp. Med.9(3): 117-132|1996|10.1002/(SICI)1520-670X(1996)9:3<117::AID-JTRA4>3.0.CO;2-P
81101|T||Dillaman,R.M.|Movement of Ferritin in the 2-Day-Old Chick Femur|Anat. Rec.209(4): 445-453|1984|10.1002/ar.1092090404
81102|T||Davies,N.T., and R. Nightingale|The Effects of Phytate on Intestinal Absorption and Secretion of Zinc, and Whole-Body Retention of Zn, Copper, Iron and Manganese in Rats|Br. J. Nutr.34(2): 243-258|1975|10.1017/S0007114575000293
81103|T||Ashraf,M., M. Shahbaz, and T. McNeilly|Phylogenetic Relationship of Salt Tolerance in Early Green Revolution CIMMYT Wheats|Environ. Exp. Bot.53(2): 173-184|2005|10.1016/j.envexpbot.2004.03.012
81104|T||Knowles,C.O., D.D. Errampalli, and G.N. El-Sayed|Comparative Toxicities of Selected Pesticides to Bulb Mite (Acari:  Acaridae) and Twospotted Spider Mite (Acari:  Tetranychidae)|J. Econ. Entomol.81(6): 1586-1591|1988|10.1093/jee/81.6.1586
81105|T||Haselton,A.T., J.G.,Jr. Stoffolano, R. Nichols, and C.M. Yin|Peptidergic Innervation of the Crop and the Effects of an Ingested Nonpeptidal Agonist on Longevity in Female Musca domestica (Diptera: Muscidae)|J. Med. Entomol.41(4): 684-690|2004|10.1603/0022-2585-41.4.684
81106|T||Woolhiser,M.R., B.B. Hayes, and B.J. Meade|A Combined Murine Local Lymph Node and Irritancy Assay to Predict Sensitization and Irritancy Potential of Chemicals|Toxicol. Methods8(4): 245-256|1998|10.1080/105172398242835
81107|T||Green,K., R.E. Johnson, J.M. Chapman, E. Nelson, and L. Cheeks|Surfactant Effects on the Rate of Rabbit Corneal Epithelial Healing|J. Toxicol. Cutan. Ocul. Toxicol.8(3): 253-269|1989|10.3109/15569528909062930
81108|T||Maurer,J.K., R.D. Parker, W.M. Petroll, G.J. Carr, H.D. Cavanagh, and J.V. Jester|Quantitative Measurement of Acute Corneal Injury in Rabbits with Surfactants of Different Type and Irritancy|Toxicol. Appl. Pharmacol.158(1): 61-70|1999|10.1006/taap.1999.8686
81109|T||Richard,S., and D.C. Davies|Comparison of Methyl Anthranilate and Denatonium Benzoate as Aversants for Learning in Chicks|Physiol. Behav.70(5): 521-525|2000|10.1016/S0031-9384(00)00298-5
81110|A||Wong,S.L., J.F. Wainwright, and J. Pimenta|Quantification of Total and Metal Toxicity in Wastewater Using Algal Bioassays|Aquat. Toxicol.31(1): 57-75|1995|10.1016/0166-445X(94)00081-Z
81111|T||Boughter,J.D.,Jr., S. Raghow, T.M. Nelson, and S.D. Munger|Inbred Mouse Strains C57BL/6J and DBA/2J vary in Sensitivity to a Subset of Bitter Stimuli|BMC Genet.6:36-48|2005|10.1186/1471-2156-6-36
81112|T||Groen,K., D.P. Pereboom-De Fauw, P. Besamusca, P.K. Beekhof, G.J. Speijers, and H.J. Derks|Bioavailability and Disposition of 3H-Solanine in Rat and Hamster|Xenobiotica23(9): 995-1005|1993|10.3109/00498259309057038
81113|T||Rycroft,A.N., and C. McLay|Disinfectants in the Control of Small Animal Ringworm due to Microsporum canis|Vet. Rec.129(11): 239-241|1991|10.1136/vr.129.11.239
81114|T||Schwarz,A., S. Grabbe, H. Riemann, Y. Aragane, M. Simon, S. Manon, S. Andrade, T.A. Luger, A. Zlotnik, and T. Schwarz|In Vivo Effects of Interleukin-10 on Contact Hypersensitivity and Delayed-Type Hypersensitivity Reactions|J. Invest. Dermatol.103(2): 211-216|1994|10.1111/1523-1747.ep12393073
81115|T||Nolte,D.L.|Efficacy of Selected Repellents to Deter Deer Browsing on Conifer Seedlings|Int. Biodeterior. Biodegrad.42(2-3): 101-107|1998|10.1016/S0964-8305(98)00008-0
81118|T||McCulley,J.P.|Ocular Hydrofluoric Acid Burns:  Animal Model, Mechanism of Injury and Therapy|Special Report 40, State Publication Code W-R-S-40, 41-76, Colorado Division of Wildlife, CO88:649-684|1990|
81119|T||Ahmad,S.M.|Gametophyte Regeneration of Riccia in Response to Cycocel, Gibberellic Acid and a Morphactin|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(2): 143-150|1987|
81120|T||Schmalstig,J.G., and H.J. McAuslane|Developmental Anatomy of Zucchini Leaves with Squash Silverleaf Disorder Caused by the Silverleaf Whitefly|J. Am. Soc. Hortic. Sci.126(5): 544-554|2001|10.21273/JASHS.126.5.544
81122|T||Berg,O.H., K. Lie, and S.K. Steinsvag|The Effects of Topical Nasal Steroids on Rat Respiratory Mucosa In Vivo, with Special Reference to Benzalkonium Chloride|Allergy52(6): 627-632|1997|10.1111/j.1398-9995.1997.tb01041.x
81123|T||El-On,J., G.P. Jacobs, E. Witztum, and C.L. Greenblatt|Development of Topical Treatment for Cutaneous leishmaniasis Caused by Leishmania Major in Experimental Animals|Antimicrob. Agents Chemother.26(5): 745-751|1984|10.1128/AAC.26.5.745
81124|T||Carter,K.C., J. Alexander, and A.J. Baillie|Studies on the Topical Treatment of Experimental Cutaneous leishmaniasis: The Therapeutic Effect of Methyl Benzethonium Chloride and the Aminoglycosides, Gentamicin and Paromomycin|Ann. Trop. Med. Parasitol.83(3): 233-239|1989|10.1080/00034983.1989.11812337
81126|T||Kataria,H.R., and P.R. Verma|Interactions of Fungicide and Insecticide Combinations Against Rhizoctonia Damping-Off and Root Rot in Canola|Ann. Appl. Biol.123:233-246|1993|10.1111/j.1744-7348.1993.tb04088.x
81127|T||Blinn,R.C.|Plant-Growth Regulant. Biochemical Behavior of 2-Chloroethyl Trimethylammonium Chloride in Wheat and in Rats|J. Agric. Food Chem.15(6): 984-988|1967|10.1021/jf60154a003
81128|T||El-Refai,A., M. Abd El-Hamid, and M.T. El-Ibrashy|Hormonal Action of Two Biologically Active Compounds in the Desert Locust|Entomol. Exp. Appl.17(3): 348-354|1974|10.1111/j.1570-7458.1974.tb00352.x
81129|T||El-On,J., A. Sulitzeanu, and L.F. Schnur|Leishmania major:  Resistance of Promastigotes to Paromomycin, and Susceptibility of Amastigotes to Paromomycin-Methylbenzethonium Chloride Ointment|Ann. Trop. Med. Parasitol.85(3): 323-328|1991|10.1080/00034983.1991.11812568
81130|A||Roegge,M.A., W.P. Rutledge, and W.C. Guest|Chemical Control of Zoothamnium sp. on Larval Macrobrachium acanthurus|Aquaculture12(2): 137-140|1977|10.1016/0044-8486(77)90180-6
81132|T||Wheeler,A.W., and K.A. Lord|Modified Toxicity of Paraquat on Barley and Wheat|Tests Agrochem. Cultiv.4:90-91|1983|
81133|T||Carlisle,D.B., P.E. Ellis, and L.J. McVeigh|(2-Chloroethyl)Trimethylammonium Chloride Inhibits Gametogenesis in Locusts|Nature220(5163): 189-190|1968|10.1038/220189a0
81134|T||Dawson,G.W., I.F. Henderson, A.P. Martin, and B.J. Pye|Physiochemical Barriers as Plant Protectants Against Slugs Gastropoda pulmonata|BCPC Symp. Proc.66:439-444|1996|
81135|AT||Rademacher,W., and J. Jung|Comparative Potency of Various Synthetic Plant Growth Retardants on the Elongation of Rice Seedlings|Z. Acker- Pflanzenbau. (Multiple Languages)150(5): 363-371|1981|
81136|T||Soomro,M.H., and N. Hague|Effect of Root-Knot Nematode and CCC Application on the Growth of Tomato|Pak. J. Nematol.9(1): 7-11|1991|
81142|T||Harvey,R.B., L.F. Kubena, M.H. Elissalde, and T.D. Phillips|Efficacy of Zeolitic Ore Compounds on the Toxicity of Aflatoxin to Growing Broiler Chickens|Avian Dis.37(1): 67-73|1993|10.2307/1591459
81143|T||Oneda,S., T. Takasaki, K. Kuriwaki, Y. Ohi, Y. Umekita, S. Hatanaka, T. Fujiyoshi, A. Yoshida, and H. Yoshida|Chronic Toxicity and Tumorigenicity Study of Aluminum Potassium Sulfate in B6C3F1 Mice|In Vivo8:271-278|1994|
81144|T||Morrissey,P.A., S. Brandon, D.J. Buckley, P.J.A. Sheehy, and M. Frigg|Tissue Content of alpha-Tocopherol and Oxidative Stability of Broilers Receiving Dietary alpha-Tocopheryl Acetate Supplement for Various Periods Pre-slaughter|Br. Poult. Sci.38(1): 84-88|1997|10.1080/00071669708417945
81145|T||Satao,R.N., R.V. Nalamwar, V.M. Solanke, and P.G. Ingole|Studies on Yield and Uptake of Nitrogen, Phosphorus and Potassium by Weeds and Sorghum as Influenced by Weed Control Treatments|PKV Res. J.17(2): 130-134|1993|
81146|T||Callahan,L.M., and E.R. McDonald|Effectiveness of Bensulide in Controlling Two Annual Bluegrass (Poa annua) Subspecies|Weed Technol.6:97-103|1992|10.1017/S0890037X00034369
81148|T||Bartov,I., and J. Kanner|Effect of High Levels of Dietary Iron, Iron Injection, and Dietary Vitamin E on the Oxidative Stability of Turkey Meat During Storage|Poult. Sci.75(8): 1039-1046|1996|10.3382/ps.0751039
81149|T||Malan,C., J.H. Visser, and H.A. Van de Venter|Atrazine Metabolism in Field-Grown Maize and the Effect of Atrazine Phytotoxicity on Yield|S. Afr. J. Plant Soil4(1): 7-11|1987|
81150|T||Spencer,F., and L.T. Sing|Reproductive Toxicity in Pseudopregnant and Pregnant Rats Following Postimplantational Exposure: Effects of the Herbicide Dinoseb|Pestic. Biochem. Physiol.18:150-157|1982|10.1016/0048-3575(82)90100-6
81151|T||Reinhardt,C.F., and P.C. Nel|Quantitative Bioassays for Monitoring the Dissipation of Atrazine in Soil|S. Afr. J. Plant Soil10(2): 58-62|1993|10.1080/02571862.1993.10634645
81152|T||Wood,R.J., P.E. Stake, J.H. Eiseman, R.L. Shippee, K.E. Wolski, and U. Koehn|Effects of Heat and Pressure Processing on the Relative Biological Value of Selected Dietary Supplemental Inorganic Iron Salts as Determined by Chick Hemoglobin Repletion Assay|J. Nutr.108(9): 1477-1484|1978|10.1093/jn/108.9.1477
81157|T||Yeh,H.J.|The Effect of Herbicide Residues on Sugarcane|Res. Rep. Taiwan Sugar Exp. Stn.114:17-26|1986|
81158|T||Huff,W.E., P.A.,Jr. Moore, J.M. Balog, G.R. Bayyari, and N.C. Rath|Evaluation of the Toxicity of Alum (Aluminum Sulfate) in Young Broiler Chickens|Poult. Sci.75(11): 1359-1364|1996|10.3382/ps.0751359
81159|T||Dunachie,J.F., and W.W. Fletcher|The Toxicity of Certain Herbicides to Hens' Eggs Assessed by the Egg-Injection Technique|Ann. Appl. Biol.66:515-520|1970|10.1111/j.1744-7348.1970.tb04631.x
81160|T||Maskina,M.S., and N.S. Randhawa|Effect of Organic Manures and Zinc Levels on the Availability of Zinc, Iron, Manganese and Copper to Wetland Rice|Indian J. Agric. Sci.53(1): 48-52|1983|
81161|T||Forsberg,J.L., and J.E. Appleby|New Chemicals Appear Promising for Gladiolus Disease Control|Ill. State Florists Assoc. Bull.312:4-7,10-11,14|1970|
81162|T||Forsberg,J.L., and R.S. Perry|Gladiolus Disease Control Test in 1971|Ill. State Florists Assoc. Bull.332:7-8,10|1972|
81163|A||Vanden Driessche,T.|Effects of Morphactins on Growth and Differentiation of Acetabularia|Protoplasma (Multiple Languages)81(4): 323-334|1974|10.1007/BF01281046
81164|T||Nicholas,D.D., and A.F. Preston|Evaluation of Alkyl Ammonium Compounds as Potential Wood Preservatives|Proc. Annu. Meet. Am. Wood-Preservers' Assoc.76:13-21|1980|
81165|T||Bertaccini,G., M. Impicciatore, and T. Vitali|Pharmacological Activities of Benzisothiazolone and Benzisoxazolone|Pharmacol. Res. Commun.3(4): 385-400|1971|10.1016/0031-6989(71)90011-7
81166|T||Ameen,M.U., N.N. Banu, M.I. Hossain, and T.U. Ahmed|Laboratory Evaluation of Some Smoke Producing Repellents Against Culex quinquefasciatus (Say) (Diptera:  Culicidae)|Bangladesh J. Zool.21(1): 1-10|1993|
81169|T||Rakalska,Z., and A. Dzierzawski|Effects of (2-Chloroethyl)-Trimethylammonium Chloride on the Electrocardiogram of the Rabbit|Zentbl. Vetmed. Reihe A18(5): 428-437|1971|10.1111/j.1439-0442.1971.tb00596.x
81170|T||Carpenter,C.P., C.S. Weil, U.C. Pozzani, and H.F.,Jr. Smyth|Comparative Acute and Subacute Toxicities of Allethrin and Pyrethrins|Arch. Ind. Hyg. Occup. Med.2(4): 420-432|1950|
81172|T||Fairbrother,A., T.M. Yuill, and L.J. Olson|Effects of Ingestion of Chlorocholine Chloride and Cyclophosphamide on Venezuelan Equine encephalitis Virus Infections in Deer Mice (Peromyscus maniculatus)|Toxicology31(1): 67-71|1984|10.1016/0300-483X(84)90156-2
81173|T||Spalding,J.W., J.E. French, R.R. Tice, M. Furedi-Machacek, J.K. Haseman, and R.W. Tennant|Development of a Transgenic Mouse Model for Carcinogenesis Bioassays:  Evaluation of Chemically Induced Skin Tumors in Tg.AC Mice|Toxicol. Sci.49(2): 241-254|1999|10.1093/toxsci/49.2.241
81174|T||Nolte,D.L., J.P. Farley, D.L. Campbell, G.M. Epple, and J.R. Mason|Potential Repellents to Prevent Mountain Beaver Damage|Crop Prot.12(8): 624-626|1993|10.1016/0261-2194(93)90127-5
81175|T||Stein,E.A., M. Washburn, C. Walczak, and A.S. Bloom|Effects of Pyrethroid Insecticides on Operant Responding Maintained by Food|Neurotoxicol. Teratol.9(1): 27-31|1987|10.1016/0892-0362(87)90066-3
81176|T||Eriksson,P., and A. Fredriksson|Neurotoxic Effects of Two Different Pyrethroids, Bioallethrin and Deltamethrin, on Immature and Adult Mice:  Changes in Behavioral and Muscarinic Receptor Variables|Toxicol. Appl. Pharmacol.108(1): 78-85|1991|10.1016/0041-008X(91)90270-O
81177|T||Eriksson,P., and A. Nordberg|Effects of Two Pyrethroids, Bioallethrin and Deltamethrin, on Subpopulations of Muscarinic and Nicotinic Receptors in the Neonatal Mouse Brain|Toxicol. Appl. Pharmacol.102(3): 456-463|1990|10.1016/0041-008X(90)90041-R
81178|T||Chauhan,M.S., N.N. Tripathi, J.C. Duhan, and K.S. Virk|Rhizoctonia Root Rot of Okra and Its Control|Pesticides 13(1): 24-25|1979|
81179|T||Maisey,J., and K. Miller|Assessment of the Ability of Mice Fed on Vitamin A Supplemented Diet to Respond to a Variety of Potential Contact Sensitizers|Contact Dermatitis15(1): 17-23|1986|10.1111/j.1600-0536.1986.tb01255.x
81180|A||Sutherland,E.E., and S.G. Berk|Survival of Protozoa in Cooling Tower Biocides|J. Ind. Microbiol.16(1): 73-78|1996|10.1007/BF01569925
81181|T||Abney,T.S., and L.D. Ploper|Growth Regulator Effects on Soybean Seed Maturation and Seedborne Fungi|Plant Dis.75(6): 585-589|1991|10.1094/PD-75-0585
81182|T||Rao,V.R., M. Jayakar, K.R. Sharma, and K.G. Mukerji|Effect of Foliar Spray of Morphactin on Fungi in the Root Zone of Capsicum annuum|Plant Soil37(1): 179-182|1972|10.1007/BF01578491
81183|T||Harman,G.E., A.A. Khan, and R.E. Drury|Morphactin Influences Sexual and Asexual Reproduction in Fungi|Can. J. Microbiol.17(11): 1477-1479|1971|10.1139/m71-236
81185|T||Tatsuyama,K.|Effects of Morphactins on the Mycelial Growth and Conidial Germination of Several Phytopathogenic Fungi|Trans. Mycol. Soc. Jpn.12(1): 29-34|1971|
81186|T||Sherchand,J.B., N. Thammapalerd, M. Riganti, S. Tharavanij, and B. Punpoowong|Monoclonal Antibody-Based Immunohistochemical Demonstration of Entamoeba histolytica in Liver Tissues of Experimentally Infected Hamster (Mesocricetus auratus)|Int. J. Parasitol.24(6): 909-916|1994|10.1016/0020-7519(94)90017-5
81187|A||Barker,J., M.R.W. Brown, P.J. Collier, I. Farrell, and P. Gilbert|Relationship Between Legionella pneumophila and Acanthamoeba polyphaga:  Physiological Status and Susceptibility to Chemical Inactivation|Appl. Environ. Microbiol.58(8): 2420-2425|1992|10.1128/aem.58.8.2420-2425.1992
81188|A||Milanova,E., and B.B. Sithole|Acute Toxicity to Fish and Solution Stability of Some Biocides Used in the Pulp and Paper Industry|Water Sci. Technol.35(2-3): 373-380|1997|10.2166/wst.1997.0561
81189|A||Bhatnagar,S.K., V.K. Singh, and A. Verma|Mutagenicity of Chlorflurenol in Tolypella (Division Charophyta)|Acta Bot. Indica17(2): 207-211|1989|
81190|T||Buchenauer,H., and F. Grossmann|Therapeutic Effects of Fluorene, Phenanthrene and Xanthene Derivatives on Fungal Diseases of Tomato|Nature227(5264): 1267-1268|1970|10.1038/2271267a0
81191|T||Gabara,B.|Effect of Morphactin (IT 3456) on Pollen Germination and Pollen Tube Growth in Four Species of Angiospermae|Acta Soc. Bot. Pol.51(2): 179-185|1982|10.5586/asbp.1982.016
81192|T||Saniewski,M.|The Effect of Ethrel and Morphactin on Bulblet Differentiation in Scooped out Hyacinth (Hyacinthus orientalis L.) Bulbs|Bull. Acad. Pol. Sci. Ser. Sci. Biol.25(2): 107-110|1977|
81193|T||Szabo,L.G., L. Holly, and B.I. Pozsar|Effect of Some Bioactive Compounds on Nitrogen Metabolism in the Mycelium of Agaricus bisporus Moll. et Schaff and Coprinus comatus Fr.|Acta Agron. Acad. Sci. Hung.21(1-2): 101-107|1972|
81195|T||Anderson,D.R., L.W. Harris, S.L. Bowersox, W.J. Lennox, and J.C. Anders|Efficacy of Injectable Anticholinergic Drugs Against Soman-Induced Convulsive/Subconvulsive Activity|Drug Chem. Toxicol.17(2): 139-148|1994|10.3109/01480549409014307
81196|A||Bailey,T.A.|Effects of Twenty-Five Compounds on Four Species of Aquatic Fungi (Saprolegniales) Pathogenic to Fish|Aquaculture38(2): 97-104|1984|10.1016/0044-8486(84)90222-9
81197|T||Ruddick,J.N.R.|The Influence of Staining Fungi on the Decay Resistance of Wood Treated with Alkyldimethylbenzylammonium Chloride|Mater. Org.21(2): 139-150|1986|
81198|T||Piernas,V., and J.P. Guiraud|Disinfection of Rice Seeds Prior to Sprouting|J. Food Sci.62(3): 611-615|1997|10.1111/j.1365-2621.1997.tb04443.x
81199|T||Msolla,P., W.E.O. Mmbuji, and A.A. Kasuku|Field Control of Bovine Parasitic Otitis|Trop. Anim. Health Prod.19(3): 179-183|1987|10.1007/BF02239717
81200|T||Shinjo,G., T. Yamaguchi, S. Tsuda, K. Yoshida, and Y. Okuno|A Study on the Insecticidal Activity of d-Tetramethrin|Eisei Dobutsu32(3): 221-228|1981|10.7601/mez.32.221
81201|AT||Senbo,S., S. Akik, H. Kawada, T. Ito, and Y. Abe|The Influence of Smoke Density on Knockdown Efficacy of Mosquito Coil Against Adults of Culex pipiens pallens|Eisei Dobutsu43(2): 71-76|1992|10.7601/mez.43.71
81202|T||Yamaguchi,T., G. Shinjo, S. Tsuda, K. Yoshida, E. Inaba, and Y. Okuno|"Insecticidal Activity of a New Synthetic Pyrethroid ""Terallethrin"""|Eisei Dobutsu32(1): 59-66|1981|10.7601/mez.32.59
81204|T||Sinha,A., R.S. Bedwal, and R.S. Mathur|Biochemical Study of Female Reproductive Organs in Swiss Albino Rats on a High Zinc Diet|Trace Elem. Med.6(2): 86-92|1989|
81205|T||Susaki,H., T. Matsui, K.Y. Ashida, S. Fujita, T. Nakajima, and H. Yano|Availability of a Zinc Amino Acid Chelate for Growing Pigs|Anim. Sci. J.70(3): 124-128|1999|
81206|T||Nagabhushana,V., and T.K. Das|Effect of Supplemental Zinc and Copper on the Growth Rate in Crossbred Heifer Calves|Mysore J. Agric. Sci.30:76-80|1996|
81207|T||Mandour,A., and M. Korshom|Lipids and Lipoprotein Patterns in Broiler Chickens Supplemented with High Dietary Zinc|Egypt. J. Biochem.10(2): 404-411|1992|
81208|T||Khanagwal,P., J.D. Ghosh, and A.B. Mandal|Effect of Different Dietary Zinc and Calcium Levels on the Performance of Broiler Chicks|Indian J. Anim. Nutr.13(3): 159-161|1996|
81209|T||Verma,S.V.S., and H.P. Shrivastava|A Note on the Effect of Zinc Supplementation in Diet on the Performance of Broilers|Avian Res.66(3): 95-97|1982|
81210|T||Mohamed,O.E., M.M. Hady, and M.M. Zaki|Role of Dietary Zinc on Immune Response of Broiler Chickens|Vet. Med. J. Giza38(2): 283-295|1990|
81212|T||Ogunmodede,B.K.|Dietary Zinc and Protein Utilization by Growing Chickens|Niger. J. Anim. Prod.1(2): 198-203|1974|10.51791/njap.v1i2.1967
81213|T||Bell,D.P., J.G. Gibson, A.M. McCarroll, and G.A. McClean|Embryotoxicity of Solanine and Aspirin in Mice|J. Reprod. Fertil.46(1): 257-259|1976|10.1530/jrf.0.0460257
81214|T||Kock,K., S.D. Morley, J.J. Mullins, and H. Schmale|Denatonium Bitter Tasting Among Transgenic Mice Expressing Rat von Ebner's Gland Protein|Physiol. Behav.56(6): 1173-1177|1994|10.1016/0031-9384(94)90362-X
81215|T||Ali,F.S., and A.A. Abdel-Moneim|Effect of Chemicals on Fungal alpha-Amylase Activity|Zentbl. Mikrobiol.144(8): 623-628|1989|10.1016/S0232-4393(89)80126-X
81217|T||Tanda,G., A. Ebbs, A.H. Newman, and J.L. Katz|Effects of 4'-Chloro-3 alpha-(Diphenylmethoxy)-Tropane on Mesostriatal, Mesocortical, and Mesolimbic Dopamine Transmission:   Comparison with Effects of Cocaine|J. Pharmacol. Exp. Ther.313(2): 613-620|2005|10.1124/jpet.104.080465
81218|T||Oliveira,J.S.M., M.A.S. Llorach-Velludo, and V.N. Sales-Neto|Megacolon in Rats|Digestion45(3): 166-171|1990|10.1159/000200239
81219|T||Lownds,N.K., and M.J. Bukovac|Surfactant-Induced Ethylene Production by Leaf Tissue|J. Am. Soc. Hortic. Sci.114(3): 449-454|1989|10.21273/JASHS.114.3.449
81221|T||Rohm and Haas Co.|Initial Submission: Two Acute Toxicity Reports of Triton CG-500 and Triton CG-400 in Rabbits with Cover Letter Dated 062692|EPA/OTS Doc.#88-920003978:12 p.|1992|
81222|T||Gultom,D., A. Songsang, and U. Ter Meulen|The Effect of Chlorocholine Chloride (CCC) Inclusion in the Diets of Growing Hens on Growth Rate, Oestrogen Levels and the Onset of Lay|J. Anim. Physiol. Anim. Nutr.85(1-2): 1-8|2001|10.1046/j.1439-0396.2001.00291.x
81223|A||Phyu,Y.L., M.S. Warne, and R.P. Lim|The Toxicity and Bioavailability of Atrazine and Molinate to Chironomus tepperi Larvae in Laboratory and River Water in the Presence and Absence of Sediment|Chemosphere58(9): 1231-1239|2005|10.1016/j.chemosphere.2004.10.035
81224|T||Proctor and Gamble Co.|Initial Submission:  Letter from Procter & Gamble Company to U.S.EPA Submitting Information on the Enclosed Ammonium Compounds & Alkylethoxylates Report with Attachments|EPA/OTS Doc.#88-920006818:21 p.|1992|
81225|T||Procter|Summary of Toxicology Experiments with Dioctyl Dimethyl Ammonium Chloride with Cover Letter Dated 050786|EPA/OTS Doc.#89-8680238:|1986|
81226|T||Thackaberry,E.A., B.A. Nunez, D. Ivnitski-Steele, M. Friggins, and M.K. Walker|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Murine Heart Development:  Alteration in Fetal and Postnatal Cardiac Growth, and Postnatal Cardiac Chronotropy|Toxicol. Sci.88(1): 242-249|2005|10.1093/toxsci/kfi302
81227|T||Thackaberry,E.A., Z. Jiang, C.D. Johnson, K.S. Ramos, and M.K. Walker|Toxicogenomic Profile of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Murine Fetal Heart:  Modulation of Cell Cycle and Extracellular Matrix Genes|Toxicol. Sci.88(1): 231-241|2005|10.1093/toxsci/kfi301
81230|T||Davis,S.F., C.A. Grover, C.A. Erickson, L.A. Miller, and J.A. Bowman|Analyzing Aversiveness of Denatonium Saccharide and Quinine in Rats|Percept. Mot. Skills64(3, Pt. 2): 1215-1222|1987|10.2466/pms.1987.64.3c.1215
81232|T||Nirmala,N.A., M.R. Rajasekarasetty, and N.H. Dutt|Effect of (2-Chloroethyl)-Trimethylammonium Chloride (Cycocel) on the Alkaline Phosphatase Activity in the Ovary of Acrida turrita (Acrididae orthoptera)|Z. Mikrosk.-Anat. Forsch. (Leipz.)87(4): 457-462|1973|
81233|A||Petrolite Corp.|Follow-Up Information from Petrolite Corporation to U.S.EPA Submitting Enclosed Data Concerning Oxydiethylene bis(Alkyl Dimethyl Ammonium Chloride) with Attachments|EPA/OTS Doc.#89-910000287:81 p.|1991|
81234|T||June,H.L., L.H. Hicks, M.J. Lewis, and S. Ross|Denatonium Saccharide as an Aversive Stimulus in a Conditioned Taste Aversion Paradigm|Percept. Mot. Skills71(3, Pt. 2): 1299-1307|1990|10.2466/pms.1990.71.3f.1299
81235|T||Campbell,C.A.M., M.A. Easterbrook, and A.J. Fisher|Effect of the Plant Growth Regulators Paclobutrazol and Chlormequat Chloride on Pear Psyllid (Cacopsylla pyricola (Foerster)) and Pear Rust Mite (Epitrimerus piri (Nal.))|J. Hortic. Sci.64(5): 561-564|1989|10.1080/14620316.1989.11515991
81236|T||Mansour,M.H., and N.Z. Dimetry|Effect of Three Plant Growth Regulators on the Immature Stages of the Cotton Leaf Worm Spodoptera littoralis (Boisd.) (Lep., Noctuidae)|Z. Angew. Entomol. (Multiple Languages)80(1): 88-93|1976|10.1111/j.1439-0418.1976.tb03304.x
81237|T||Dalvi,R.R.|Comparative Assessment of the Effect of Solanine Administered Orally and Intraperitoneally on Hepatic Dysfunction in Male Rats|Jpn. J. Vet. Sci.47(4): 657-659|1985|
81238|T||Procter|Four Toxicity Studies with Dimethyl Dioctyl Ammonium Chloride (Dated 081586-081887) with Cover Letter Dated 122887|Proctor and Gamble, Cincinnati, OH:128 p.|1987|
81239|T||Procter|Initial Submission:  A Segment II Teratology Study with UDL-1251and UDL-1252 in Rabbits with Cover Letter Dated 082592|EPA/OTS Doc.#88-920006483:1 p.|1992|
81240|T||Lonza Inc.|Acute Dermal Toxicity Study in Rabbits LD50 Test (EPA) on Dioctyl Dimethyl Ammonium Chloride with Cover Letter Dated 070987|Springborn Life Sciences, Springborn, OH:104 p.|1987|
81241|A||Vaccaro,E., V. Meucci, L. Intorre, G. Soldani, D. Di Bello, V. Longo, P.G. Gervasi, and C. Pretti|Effects of 17beta-Estradiol, 4-Nonylphenol and PCB 126 on the Estrogenic Activity and Phase 1 and 2 Biotransformation Enzymes in Male Sea Bass (Dicentrarchus labrax)|Aquat. Toxicol.75:293-305|2005|10.1016/j.aquatox.2005.08.009
81244|T||Beck,I.T., E. Pinter, R.D. McKenna, and H. Griff|The Selective Proteolytic Enzyme Inhibitory Action of Benzethonium Chloride|Can. J. Biochem. Physiol.38:25-32|1960|10.1139/y60-004
81245|T||Ema,M., H. Hara, M. Matsumoto, A. Hirose, and E. Kamata|Evaluation of Developmental Toxicity of 1-Butanol Given to Rats in Drinking Water Throughout Pregnancy|Food Chem. Toxicol.43(2): 325-331|2005|10.1016/j.fct.2004.11.003
81246|T||Mosleh,Y.Y., S. Paris-Palacios, M. Couderchet, S. Biagianti-Risbourg, and G. Vernet|Metallothionein Induction, Antioxidative Responses, Glycogen and Growth Changes in Tubifex tubifex (Oligochaete) Exposed to the Fungicide, Fenhexamid|Environ. Pollut.135(1): 73-82|2005|10.1016/j.envpol.2004.10.012
81248|A||Hamilton,S.J., K.M. Holley, K.J. Buhl, F.A. Bullard, L.K. Weston, and S.F. McDonald|Selenium Impacts on Razorback Sucker, Colorado River, Colorado: I. Adults|Ecotoxicol. Environ. Saf.61(1): 7-31|2005|10.1016/j.ecoenv.2004.07.002
81249|A||Hamilton,S.J., K.J. Buhl, F.A. Bullard, and S.F. McDonald|Reduced Growth and Survival of Larval Razorback Sucker Fed Selenium-Laden Zooplankton|Ecotoxicol. Environ. Saf.61(2): 190-208|2005|10.1016/j.ecoenv.2004.11.009
81250|T||Southon,S., A.J.A. Wright, and S.J. Fairweather-Tait|The Effect of Combined Dietary Iron, Calcium and Folic Acid Supplementation on Apparent 65Zn Absorption and Zinc Status in Pregnant Rats|Br. J. Nutr.62(2): 415-423|1989|10.1079/BJN19890042
81251|A||Congiu,A.M., S. Casu, and G. Ugazio|Toxicity of Selenium (Na2SeO3) and Mercury (HgCl2) on the Planarian Dugesia gonocephala|Res. Commun. Chem. Pathol. Pharmacol.66(1): 87-96|1989|
81252|T||Cork,S.C., M.R. Alley, and P.H.G. Stockdale|A Quantitative Assessment of Haemosiderosis in Wild and Captive Birds Using Image Analysis|Avian Pathol.24(2): 239-254|1995|10.1080/03079459508419066
81253|A||Biedlingmaier,S., and A. Schmidt|Sulfate Transport in Normal and S-Deprived Chlorella fusca|Z. Naturforsch. C Biosci.44(5/6): 495-503|1989|10.1515/znc-1989-5-625
81254|A||Carls,M.G., L.G. Holland, J.W. Short, R.A. Heintz, and S.D. Rice|Monitoring Polynuclear Aromatic Hydrocarbons in Aqueous Environments with Passive Low-Density Polyethylene Membrane Devices|Environ. Toxicol. Chem.23(6): 1416-1424|2004|10.1897/03-395
81255|A||Rymuszka,A., M. Studnicka, A.K. Siwicki, A. Sieroslawska, and A. Bownik|The Immunomodulatory Effects of the Dimer of Lysozyme (KLP-602) in Carp (Cyprinus carpio L)-In Vivo Study|Ecotoxicol. Environ. Saf.61(1): 121-127|2005|10.1016/j.ecoenv.2004.07.005
81256|A||Ravn,H.W., N. Cedergreen, and H. Lokke|Phytochemical Biomarkers in Eight Aquatic Plant Species Exposed to Metsulfuron-Methyl|Bull. Environ. Contam. Toxicol.74(3): 573-581|2005|10.1007/s00128-005-0622-2
81258|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.E. Kolakowski, and C.W. Kurnas|Weathering and Aging of 2,4,6-Trinitrotoluene in Soil Increases Toxicity to Potworm Enchytraeus crypticus|Environ. Toxicol. Chem.24(10): 2509-2518|2005|10.1897/04-513R.1
81263|T||Yunmbam,M.K., and J.F. Roberts|In Vivo Evaluation of Reuterin and Its Combinations with Suramin, Melarsoprol, DL-alpha-Difluoromethylornithine and Bleomycin in Mice Infected with Trypanosoma brucei brucei|Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 521-524|1993|10.1016/0742-8413(93)90095-3
81264|T||Amorim,M.J.B., J. Rombke, and A.M.V.M. Soares|Avoidance Behaviour of Enchytraeus albidus: Effects of Benomyl, Carbendazim, Phenmedipham and Different Soil Types|Chemosphere59(4): 501-510|2005|10.1016/j.chemosphere.2005.01.057
81265|A||Smolders,R., M. Baillieul, and R. Blust|Relationship Between the Energy Status of Daphnia magna and Its Sensitivity to Environmental Stress|Aquat. Toxicol.73(2): 155-170|2005|10.1016/j.aquatox.2005.03.006
81266|A||Bossuyt,B.T.A., B.T.A. Muyssen, and C.R. Janssen|Relevance of Generic and Site-Specific Species Sensitivity Distributions in the Current Risk Assessment Procedures for Copper and Zinc|Environ. Toxicol. Chem.24(2): 470-478|2005|10.1897/03-067R.1
81267|A||Cleuvers,M.|Initial Risk Assessment for Three beta-Blockers Found in the Aquatic Environment|Chemosphere59(2): 199-205|2005|10.1016/j.chemosphere.2004.11.090
81268|A||Kumblad,L., C. Bradshaw, and M. Gilek|Bioaccumulation of 51Cr, 63Ni and 14C in Baltic Sea Benthos|Environ. Pollut.134(1): 45-56|2005|10.1016/j.envpol.2004.07.017
81269|A||Elandalloussi,L.M., R.B. Leite, P.M. Rodrigues, R. Afonso, P.A. Nunes, and M.L. Cancela|Effect of Antiprotozoal Drugs on the Proliferation of the Bivalve Parasite Perkinsus olseni|Aquaculture243(1-4): 9-17|2005|10.1016/j.aquaculture.2004.09.038
81270|A||Davoren,M., and A.M. Fogarty|A Test Battery for the Ecotoxicological Evaluation of the agri-chemical Environ|Ecotoxicol. Environ. Saf.59(1): 116-122|2004|10.1016/j.ecoenv.2004.01.001
81272|A||Boenigk,J., A. Wiedlroither, and K. Pfandl|Heavy Metal Toxicity and Bioavailability of Dissolved Nutrients to a Bacterivorous Flagellate are Linked to Suspended Particle Physical Properties|Aquat. Toxicol.71(3): 249-259|2005|10.1016/j.aquatox.2004.11.009
81273|T||Aldridge,J.E., A. Meyer, F.J. Seidler, and T.A. Slotkin|Developmental Exposure to Terbutaline and Chlorpyrifos: Pharmacotherapy of Preterm Labor and an Environmental Neurotoxicant Converge on Serotonergic Systems in Neonatal Rat Brain Regions|Toxicol. Appl. Pharmacol.203(2): 132-144|2005|10.1016/j.taap.2004.08.002
81274|A||Tang,J.Y.M., D.M. Anderson, and D.W.T. Au|Hydrogen Peroxide is Not the Cause of Fish Kills Associated with Chattonella marina:  Cytological and Physiological Evidence|Aquat. Toxicol.72(4): 351-360|2005|10.1016/j.aquatox.2005.01.007
81275|A||Burton,G.A.,Jr., and J.F. Nordstrom|An In Situ Toxicity Identification Evaluation Method Part I:  Laboratory Validation|Environ. Toxicol. Chem.23(12): 2844-2850|2004|10.1897/03-409.1
81276|T||Seo,J., Y.G. Lee, S.D. Kim, C.J. Cha, J.H. Ahn, and H.G. Hur|Biodegradation of the Insecticide N,N-Diethyl-m-Toluamide by Fungi:  Identification and Toxicity of Metabolites|Arch. Environ. Contam. Toxicol.48(3): 323-328|2005|10.1007/s00244-004-0029-9
81277|A||Puangkaew,J., V. Kiron, S. Satoh, and T. Watanabe|Antioxidant Defense of Rainbow Trout (Oncorhynchus mykiss) in Relation to Dietary n-3 Highly Unsaturated Fatty Acids and Vitamin E Contents|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(2): 187-196|2005|10.1016/j.cca.2005.01.016
81278|A||Mielbrecht,E.E., M.F. Wolfe, R.S. Tjeerdema, and M.L. Sowby|Influence of a Dispersant on the Bioaccumulation of Phenanthrene by Topsmelt (Atherinops affinis)|Ecotoxicol. Environ. Saf.61(1): 44-52|2005|10.1016/j.ecoenv.2004.08.007
81279|A||Schrader,K.K., F.E. Dayan, and N.P.D. Nanayakkara|Generation of Reactive Oxygen Species by a Novel Anthraquinone Derivative in the Cyanobacterium Planktothrix perornata (Skuja)|Pestic. Biochem. Physiol.81(3): 198-207|2005|10.1016/j.pestbp.2004.11.004
81281|A||Cushing,C.E., and F.L. Rose|Cycling of Zinc-65 by Columbia River Periphyton in a Closed Lotic Microcosm|Limnol. Oceanogr.15:762-767|1970|10.4319/lo.1970.15.5.0762
81284|A||Shitanda,I., K. Takada, Y. Sakai, and T. Tatsuma|Compact Amperometric Algal Biosensors for the Evaluation of Water Toxicity|Anal. Chim. Acta530(2): 191-197|2005|10.1016/j.aca.2004.09.073
81288|A||Gacsi,M., I. Czegeny, G. Nagy, and G. Banfalvi|Survival of Fish upon Removal of Cyanide from Water|Environ. Res.97(3): 293-299|2005|10.1016/j.envres.2004.03.007
81289|T||Fuhrmann,H., H.P. Sallmann, and S. Molnar|In Vivo Lipid Peroxidation in Chickens as Measured by Pentane Production Rate|J. Clin. Biochem. Nutr6(3): 167-174|1989|10.3164/jcbn.6.167
81290|T||Thakur,D.R., and K.K. Singh|Weed and Fertilizer Management in Rainfed Maize (Zea mays) Under Mid-Hill Conditions of North-Western Himalayas|Indian J. Agric. Sci.60(4): 245-248|1990|
81291|A||Ferrando,M.D., E. Sancho, and E. Andreu-Moliner|Toxicity Studies of Tetradifon to Daphnia magna|Ecotoxicol. Environ. Restor.2(1): 14-18|1999|
81293|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.A. Speicher, and D.J. Barclift|Toxicity Benchmarks for Antimony, Barium and Beryllium Determined Using Reproduction Endpoints for Folsomia candida, Eisenia fetida, and Enchytraeus crypticus|Environ. Toxicol. Chem.25(3): 754-762|2006|10.1897/04-545R.1
81294|T||Ooe,H., T. Taira, S.M.M. Iguchi-Ariga, and H. Ariga|Induction of Reactive Oxygen Species by Bisphenol A and Abrogation of Bisphenol A-Induced Cell Injury by DJ-1|Toxicol. Sci.88(1): 114-126|2005|10.1093/toxsci/kfi278
81295|T||Richardson,J.R., Y. Quan, T.B. Sherer, J.T. Greenamyre, and G.W. Miller|Paraquat Neurotoxicity is Distinct from that of MPTP and Rotenone|Toxicol. Sci.88(1): 193-201|2005|10.1093/toxsci/kfi304
81296|T||Lund,A.K., S.L. Peterson, G.S. Timmins, and M.K. Walker|Endothelin-1-Mediated Increase in Reactive Oxygen Species and NADPH Oxidase Activity in Hearts of Aryl Hydrocarbon Receptor (AhR) Null Mice|Toxicol. Sci.88(1): 265-273|2005|10.1093/toxsci/kfi284
81297|T||Ahlbom,E., V. Gogvadeze, M. Chen, G. Celsi, and S. Ceccatelli|Prenatal Exposure to high Levels of Glucocorticoids Increases the Susceptibility of Cerebellar Granule Cells to Oxidative Stress-Induced Cell Death|Proc. Natl. Acad. Sci. U.S.A.97(26): 14726-14730|2000|10.1073/pnas.260501697
81299|T||Wilkinson,R.E., and R.R. Duncan|Metolachlor Movement Through Sorghum Seedling Root Plasma Membranes|Pestic. Biochem. Physiol.45(2): 98-104|1993|10.1006/pest.1993.1012
81304|T||Whitten,R.R.|Toxic and Repellent Sprays for the Control of Elm Bark Beetles|Circular 647, United States Department of Agriculture, Washington, DC:1-12|1942|
81306|A||Tietge,J.E., G.W. Holcombe, K.M. Flynn, P.A. Kosian, J.J. Korte, L.E. Anderson, D.C. Wolf, and S.J. Degitz|Metamorphic Inhibition of Xenopus laevis by Sodium Perchlorate:  Effects on Development and Thyroid Histology|Environ. Toxicol. Chem.24(4): 926-933|2005|10.1897/04-105R.1
81308|T||Nakatsugawa,T., S. Tsuda, and W.K. Sherman|Chromatographic Translobular Migration of Xenobiotics|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY:469-474|1983|
81309|T||Teramoto,S., M. Kaneda, R. Suzuki, H. Aoyama, H. Kobayashi, and Y. Shirasu|Assessment of Teratogenicity of Ethylenethiourea|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:479-484|1983|
81310|T||Richardson,R.J., and B.R. Dudek|Neurotoxic Esterase:  Characterization and Potential for a Predictive Screen for Exposure to Neuropathic Organophosphates|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY:491-495|1983|
81311|T||Kaloyanova,F., and M. Tasheva|Effect of Protein Malnutrition on the Toxicity of Pesticides|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:527-529|1983|
81312|A||Yoshida,T., T. Maruyama, H. Kojima, and H. Saito|Standardization of Test Procedures and Species in Ecotoxicity Assessments:  An Algal Test to Observe the Photosynthetic Activity of Porphyra sp. Using Radio Isotope Techniques|In: S.Matsunaka, D.H.Hutson, and S.D.Murphy (Eds.), Pesticide Chemistry, Human Welfare and the Environment, Mode of Action, Metabolism and Toxicology, Pergamon Press, NY:545-549|1983|
81314|T||Proctor & Gamble Co.|Initial Submission:  A Subchronic Oral Toxicity Study of UDL-1017 in Rats with Cover Letter Dated 081292|Hazelton Laboratories, Reston, VA:281 p.|1992|
81317|A||Rohm and Haas Co.|A Fish Exposure Study with RH-893:  The Accumulation, Distribution and Elimination of Residues with Cover Letter|EPA/OTS Doc.#86-870001841:4 p.|1987|
81318|T||Rohm and Haas Co.|Three Month Dietary Administration Dogs (Final Report) with Attachments|Hazelton Laboratories, Reston, VA:4 p.|1987|
81319|A||Bionomics Laboratories|Letter from Bionomics Incorporated to Rohm & Haas Co. Regarding Information on the Evaluation of the Acute Toxicity in Channel Catfish|EPA/OTS Doc.#86-870001874:3 p.|1987|
81320|T||E.I. Du Pont De Nemours|Initial Submission:  Approximate Lethal Dose Toxicity Study with Dinitrodiethyltoluene in Rats with Cover Letter Dated 061592 and Attachments|Haskell Laboratory, Newark, DE:8 p.|1992|
81321|T||Hazleton Laboratories|Acute Oral LD50 Determination in Rats with RH-893 (Final Report) (Sanitized)|EPA/OTS Doc.#86-870001858:8 p.|1987|
81322|T||Hazleton Laboratories|Teratology Study in Rabbits with RH-893 Technical (Final Report)|EPA/OTS Doc.#86-870001863:27 p.|1987|
81323|T||Wildlife International Ltd.|Eight Day Dietary LC50 - Bobwhite Quail (Final Report) with Attachments|EPA/OTS Doc.#86-870001886:23 p.|1987|
81324|T||Rohm and Haas Co.|Three Month Dietary Administration in Rats (Final Report) with Attachments|EPA/OTS Doc.#86-870001865:17 p.|1987|
81325|T||Franetovich,L.M., and T.F. Peeper|Quinclorac for Cheat (Bromus secalinus) Control in Winter Wheat (Triticum aestivum)|Weed Technol.9(1): 131-140|1995|10.1017/S0890037X00023071
81326|T||Hagiwara,A., M. Yamada, R. Hasegawa, S. Fukushima, and N. Ito|Lack of Enhancing Effects of Fenvalerate and Esfenvalerate on Induction of Preneoplastic Glutathione S-Transferase Placental Form Positive Liver Cell Foci in Rats|Cancer Lett.54(1/2): 67-73|1990|10.1016/0304-3835(90)90093-D
81327|T||Ito,S., C. Tateno, M. Tanaka, and A. Yoshitake|Effects of Fenvalerate and Esfenvalerate on Hepatic Gap Junctional Intercellular Communication in Rats|Cell Biol. Toxicol.9(2): 189-196|1993|10.1007/BF00757580
81328|A||Teh,S.J., G.H. Zhang, T. Kimball, and F.C. Teh|Lethal and Sublethal Effects of Esfenvalerate and Diazinon on Splittail Larvae|Am. Fish. Soc. Symp.39:243-253|2004|
81329|A||Wheelock,C.E., K.J. Eder, I. Werner, H. Huang, P.D. Jones, B.F. Brammell, A.A. Elskus, and B.D. Hammock|Individual Variability in Esterase Activity and CYP1A Levels in Chinook Salmon (Oncorhynchus tshawytscha) Exposed to Esfenvalerate and Chlorpyrifos|Aquat. Toxicol.74(2): 172-192|2005|10.1016/j.aquatox.2005.05.009
81330|A||Cold,A., and V.E. Forbes|Consequences of a Short Pulse of Pesticide Exposure for Survival and Reproduction of Gammarus pulex|Aquat. Toxicol.67(3): 287-299|2004|10.1016/j.aquatox.2004.01.015
81331|A||Clifford,M.A., K.J. Eder, I. Werner, and R.P. Hedrick|Synergistic Effects of Esfenvalerate and Infectious Hematopoietic Necrosis Virus on Juvenile Chinook Salmon Mortality|Environ. Toxicol. Chem.24(7): 1766-1772|2005|10.1897/04-463R.1
81332|T||Sudhakar,K., K.C. Punnaiah, and P.V. Krishnayya|Influence of Organic and Inorganic Fertilizers and Certain Insecticides on the Incidence of Shoot and Fruit Borer, Leucinodes orbonalis Guen. Infesting Brinjal|J. Entomol. Res.22(3): 283-286|1998|
81333|T||Akhtar,N., S.A. Kayani, M.M. Ahmad, and M. Shahab|Insecticide-Induced Changes in Secretory Activity of the Thyroid Gland in Rats|J. Appl. Toxicol.16(5): 397-400|1996|10.1002/(SICI)1099-1263(199609)16:5<397::AID-JAT362>3.0.CO;2-Y
81334|T||Gupta,G.P., K.N. Katiyar, and R.A. Agarwal|Efficacy of Newer Insecticides Against Bollworms in Cotton|Pesticides 21(6): 39-42|1987|
81335|T||Butler,W.H., S.H. Cohen, and R.A. Squire|Mesenchymal Tumors of the Mouse Urinary Bladder with Vascular and Smooth Muscle Differentiation|Toxicol. Pathol.25(3): 268-274|1997|10.1177/019262339702500304
81336|T||Castle,S.J., N.C. Toscano, N. Prabhaker, T.J. Henneberry, and J.C. Palumbo|Field Evaluation of Different Insecticide Use Strategies as Resistance Management and Control Tactics for Bemisia tabaci (Hemiptera: Aleyrodidae)|Bull. Entomol. Res.92(6): 449-460|2002|10.1079/BER2002194
81337|T||Sirohi,A., and Siyanand |Effect of Fenvalerate, Triazophos and FMC 54800 on Penetration and Reproduction of Meloidogyne incognita|Indian J. Nematol.24(1): 54-61|1994|
81338|A||Ye,W.H., Y.Z. Wen, W.P. Liu, and Z.Q. Wang|Effects of Bifenthrin on Daphnia magna During Chronic Toxicity Test and the Recovery Test|J. Environ. Sci.16(5): 843-846|2004|
81339|A||Liu,W., J. Gan, S. Lee, and I. Werner|Isomer Selectivity in Aquatic Toxicity and Biodegradation of Bifenthrin and Permethrin|Environ. Toxicol. Chem.24(8): 1861-1866|2005|10.1897/04-457R.1
81340|T||Van den Bossche,P., L. Munsimbwe, J. Mubanga, R. Jooste, and D. Lumamba|A Large-Scale Trial to Evaluate the Efficacy of a 1% Pour-on Formulation of Cyfluthrin (Cylence, Bayer) in Controlling Bovine Trypanosomosis in Eastern Zambia|Trop. Anim. Health Prod.36(1): 33-43|2004|10.1023/B:TROP.0000009519.18998.5b
81341|A||Heath,S., W.A. Bennett, J. Kennedy, and T.L. Beitinger|Heat and Cold Tolerance of the Fathead Minnow, Pimephales promelas, Exposed to the Synthetic Pyrethroid Cyfluthrin|Can. J. Fish. Aquat. Sci.51(2): 437-440|1994|10.1139/f94-045
81342|T||Tu,C.M.|Effect of Five Insecticides on Microbial and Enzymatic Activities in Sandy Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(3): 289-306|1995|
81343|A||Benli,A.C.K.|Investigation of Acute Toxicity of Cyfluthrin on Tilapia Fry (Oreochromis niloticus L. 1758)|Environ. Toxicol. Pharmacol.20(2): 279-282|2005|10.1016/j.etap.2005.01.009
81344|A||Ma,J.|Differential Sensitivity of Three Cyanobacterial and Five Green Algal Species to Organotins and Pyrethroids Pesticides|Sci. Total Environ.341(1-3): 109-117|2005|10.1016/j.scitotenv.2004.09.028
81346|T||Amalraj,D.D., N. Sivagnaname, P.S. Boopathidoss, and P.K. Das|Bioefficacy of Mosquito Mat, Coil and Dispenser Formulations Containing Allethrin Group of Synthetic Pyrethroids Against Mosquito Vectors|J. Commun. Dis.28(2): 85-93|1996|
81347|T||Hellman,B., M. Sjoquist, H. Anundi, and C. Edling|No Evidence for a Diuretic Effect of Benzisothiazolinone (BIT) in an Experimental Animal Model Employing Anaesthetised Rats|J. Occup. Health40(3): 198-202|1998|10.1539/joh.40.198
81348|T||Nakonieczny,M.|Functional Aspects of Cadmium and Selenium Interactions in Insect Digestive Tract. Enzyme Studies|Sci. Total Environ.134(1): 573-583|1993|10.1016/S0048-9697(05)80060-9
81349|T||Holton,J.L., C.C. Nolan, S.A. Burr, D.E. Ray, and J.B. Cavanagh|Increasing or Decreasing Nervous Activity Modulates the Severity of the Glio-vascular Lesions of 1,3-Dinitrobenzene in the Rat:  Effects of the Tremorgenic Pyrethroid, Bifenthrin, and of Anaesthesia|Acta Neuropathol.93(2): 159-165|1997|10.1007/s004010050597
81350|A||Smith,E., E. Wraige, P. Donkin, and S. Rowland|Hydrocarbon Humps in the Marine Environment:  Synthesis, Toxicity, and Aqueous Solubility of Monoaromatic Compounds|Environ. Toxicol. Chem.20(11): 2428-2432|2001|10.1002/etc.5620201105
81351|A||Paasivirta,J., H. Kaariainen, M. Lahtipera, J. Pellinen, and S. Sinkkonen|Oil residues in Baltic Sediment, Mussel and Fish.  II.  Study of the Finnish Archipelago 1979-1981|Chemosphere11(8): 811-821|1982|10.1016/0045-6535(82)90110-2
81352|T||Yu,S.J.|Beta-Glucosidase in Four Phytophagous Lepidoptera|Insect Biochem.19(1): 103-108|1989|10.1016/0020-1790(89)90015-2
81353|T||Baggaley,K.H., P.D. English, L.J.A. Jennings, B. Morgan, B. Nunn, and A.W.R. Tyrrell|Inhibitors of Blood Platelet Aggregation.  Effects of Some 1,2-Benzisothiazol-3-Ones on Platelet Responsiveness to Adenosine Diphosphate and Collagen|J. Med. Chem.28(11): 1661-1667|1985|10.1021/jm00149a021
81354|T||Mulrooney,J.E., and K.D. Howard|Effects of Air Deflectors on Insecticide Deposition and Efficacy in Cotton|Southwest. Entomol.25(2): 131-137|2000|
81355|A||Tan,K.H., Y.C. Wee, and K.K. Ho|Laboratory Evaluation of Biocides for the Control of Trentepohlia odorata|Int.Biodeterior.21(1): 5-10|1985|
81356|T||Hazleton Laboratories|Acute Oral in Rats, Acute Dermal in Rabbits, Acute Eye Irritation in Rabbits and Acute Inhalation Exposure in Rats (Final Report)|EPA/OTS Doc.#86-870001868:21 p.|1987|
81357|T||Medical College of Virginia|Preliminary Study in Which RH-893 was Added to the Diet of Mice with Attachments and Cover Letter Dated 090371|EPA/OTS Doc.#86-870001875:14 p.|1987|
81358|T||Hazleton Laboratories|Teratology Study in Rats (Final Report) with Attachments|EPA/OTS Doc.#86-870001876:23 p.|1987|
81359|T||Gulf South Research Institute|Acute Toxicological Evaluations of Fungicide with Wildlife (Final Report) with Attachments|EPA/OTS Doc.#86-870001877:13 p.|1987|
81360|T||Medical College of Virginia|Eighteen Month Study on the Carcinogenic Potential on RH-893 in Mice with Attachments|EPA/OTS Doc.#86-870001883:20 p.|1987|
81361|T||Rohm and Haas Co.|A Teratology Study in Rats with Skane M-8 HQ (Final Report) with Attachments|EPA/OTS Doc.#86-870001899:43 p.|1987|
81362|T||Rohm and Haas Co.|Skane M-8 Microbicide Acute Oral Toxicity Study in Male and Female Rats|EPA/OTS Doc.#86-870001896:17 p.|1987|
81363|T||Wildlife International Ltd.|Eight Day Dietary LC50 Mallard Duck (Final Report) with Attachments|EPA/OTS Doc.#86-870001887:20 p.|1987|
81364|T||Koch,R.L., E.C. Burkness, W.D. Hutchison, and T.L. Rabaey|Efficacy of Systemic Insecticide Seed Treatments for Protection of Early-Growth-Stage Snap Beans from Bean Leaf Beetle (Coleoptera: Chrysomelidae) Foliar Feeding|Crop Prot.24(8): 734-742|2005|10.1016/j.cropro.2004.12.010
81365|T||Cole,L.M., R.A. Nicholson, and J.E. Casida|Action of Phenylpyrazole Insecticides at the GABA-Gated Chloride Channel|Pestic. Biochem. Physiol.46(1): 47-54|1993|10.1006/pest.1993.1035
81366|T||De Bethizy,J.D., S.L. Longacre, R.B. Steigerwalt, F.W. Deckert, J.N. Moss, A.W. Hayes, J.M. Smith, and H.E. Scribner|Absorption and Disposition of 14C-Labelled Kathon Biocide, a Mixture of 5-Chloro-2-Methyl-4-Isothiazolin-3-One and 2-Methyl-4-Isothiazolin-3-One, Following Intravenous or Dermal Administration to Male Sprague-Dawley Rat|Food Chem. Toxicol.24(1): 43-49|1986|10.1016/0278-6915(86)90263-2
81368|A||Vanden Driessche,T.|Temporal Morphology and Cap Formation in Acetabularia.  II.  Effects of Morphactin and Auxin|Chronobiol. Int.1(2): 113-120|1984|10.3109/07420528409059128
81369|A||E.G. and G. Bionomics|Acute Toxicity of RH-893 Technical to the Water Flea (Daphnia magna) with Attachments|EPA/OTS Doc.#86-870001884:13 p.|1987|
81371|A||Bionomics Laboratories|Acute Toxicity of RH-893 to Five Species of Freshwater Fishes (Bioassay Report)|EPA/OTS Doc.#86-870001866:7 p.|1987|
81373|T||Dikshit,A.K., D.C. Pachauri, and T. Jindal|Maximum Residue Limit and Risk Assessment of beta-Cyfluthrin and Imidacloprid on Tomato (Lycopersicon esculentum Mill)|Bull. Environ. Contam. Toxicol.70(6): 1143-1150|2003|10.1007/s00128-003-0101-6
81374|A||Al-Makkawy,H.K., and M.D. Madbouly|Persistence and Accumulation of Some Organic Insecticides in Nile Water and Fish|Resour. Conserv. Recycl.27(1/2): 105-115|1999|10.1016/S0921-3449(98)00090-1
81375|T||Palumbo,J.C., and C.A. Sanchez|Imidacloprid does not Enhance Growth and Yield of Muskmelon in the Absence of Whitefly|Hortscience30(5): 997-999|1995|10.21273/HORTSCI.30.5.997
81376|T||Afifi,F.A., and A.S.L. El-Ballal|Physiological Homeostasis of Photosynthetic Pigments in Cotton Under Stress of Different Classes of Pesticides I.  Isoprenoid Balance|Egypt. J. Physiol. Sci.13(1/2): 153-162|1986|
81377|A||Liu,W., J. Gan, D. Schlenk, and W.A. Jury|Enantioselectivity in Environmental Safety of Current Chiral Insecticides|Proc. Natl. Acad. Sci. U.S.A.102(3): 701-706|2005|10.1073/pnas.0408847102
81378|T||Feuston,M.H., and C.R. Mackerer|Developmental Toxicity of Clarified Slurry Oil, Syntower Bottoms, and Distillate Aromatic Extract Administered as a Single Oral Dose to Pregnant Rats|J. Toxicol. Environ. Health49(1): 45-66|1996|10.1080/009841096160989
81379|T||Wildlife International Ltd.|Acute Oral LD50 - Bobwhite Quail (Final Report) with Attachments|EPA/OTS Doc.#86-870001885:27 p.|1987|
81380|A||Dwyer,F.J., F.L. Mayer, L.C. Sappington, D.R. Buckler, C.M. Bridges, I.E. Greer, D.K. Hardesty, C.E. Henke, C.G. Ingers|Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part I. Acute Toxicity of Five Chemicals|Arch. Environ. Contam. Toxicol.48(2): 143-154|2005|10.1007/s00244-003-3038-1
81381|A||Ellis-Tabanor,M., and E. Hyslop|Effect of Sublethal Concentrations of Endosulfan on Growth and Fecundity of Two Species of Snails|Bull. Environ. Contam. Toxicol.74(6): 1173-1178|2005|10.1007/s00128-005-0704-1
81382|T||Berlyn,G.P., S.S. Dhillon, and E.E. Koslow|Technetium: A Toxic Waste Product of the Nuclear Fuel Cycle: Effects on Soybean Growth and Development|Environ. Manag.4(2): 149-156|1980|10.1007/BF01866511
81383|A||Jennings,J.R., and P.S. Rainbow|Accumulation of Cadmium by Dunaliella tertiolecta Butcher|J. Plankton Res.1(1): 67-74|1979|10.1093/plankt/1.1.67
81384|A||Fukuhori,N., M. Kitano, and H. Kimura|Toxic Effects of Bisphenol A on Sexual and Asexual Reproduction in Hydra oligactis|Arch. Environ. Contam. Toxicol.48(4): 495-500|2005|10.1007/s00244-004-0032-1
81385|A||Gye,M.C., and D.H. Kim|Bisphenol A Induces Hepatic Vitellogenin mRNA in Male Bombina orientalis|Bull. Environ. Contam. Toxicol.75(1): 1-6|2005|10.1007/s00128-005-0710-3
81386|A||Hall,L.C., J.M. Rogers, M.S. Denison, and M.L. Johnson|Identification of the Herbicide Surflan and Its Active Ingredient Oryzalin, a Dinitrosulfonamide, as Xenoestrogens|Arch. Environ. Contam. Toxicol.48(2): 201-208|2005|10.1007/s00244-003-0164-8
81387|A||Harter,V.L., and R.A. Matthews|Acute and Chronic Toxicity Test Methods for Nematostella vectensis Stephenson|Bull. Environ. Contam. Toxicol.74(5): 830-836|2005|10.1007/s00128-005-0656-5
81388|A||Kang,H.S., .M.C. Gye, and M.K. Kim|Effects of Alachlor on Survival and Development of Bombina orientalis (Boulenger) Embryos|Bull. Environ. Contam. Toxicol.74(6): 1199-1206|2005|10.1007/s00128-005-0708-x
81389|A||Kutlu,M., C. Baycu, G. Aydogan, M. Tanatmis, and N. Aldirmaz|Histopathological Changes in the Hepatopancreas of Palaemonetes turcorum (Holthuis, 1961) (Crustacae, Decapoda), Exposed to Lead Acetate|Bull. Environ. Contam. Toxicol.74(6): 1118-1125|2005|10.1007/s00128-005-0697-9
81390|A||Kwak,I.S., and W. Lee|Endpoint for DEHP Exposure Assessment in Chironomus riparius|Bull. Environ. Contam. Toxicol.74(6): 1179-1185|2005|10.1007/s00128-005-0705-0
81391|A||Kwak,I.S., and W. Lee|Two-Dimensional Gel Electrophoresis Analysis of Proteins Following Tebufenozide Treatment of Chironomus riparius|Bull. Environ. Contam. Toxicol.74(6): 1159-1165|2005|10.1007/s00128-005-0702-3
81392|A||Overmyer,J.P., B.N. Mason, and K.L. Armbrust|Acute Toxicity of Imidacloprid and Fipronil to a Nontarget Aquatic Insect, Simulium vittatum Zetterstedt Cytospecies IS-7|Bull. Environ. Contam. Toxicol.74(5): 872-879|2005|10.1007/s00128-005-0662-7
81393|A||Phillips,B.M., P.A. Nicely, J.W. Hunt, B.S. Anderson, R.S. Tjeerdema, and F.H. Palmer|Tolerance of Five West Coast Marine Toxicity Test Organisms to Ammonia|Bull. Environ. Contam. Toxicol.75(1): 23-27|2005|10.1007/s00128-005-0713-0
81394|A||Paul,E.A., H.A. Simonin, and T.M. Tomajer|A Comparison of the Toxicity of Synergized and Technical Formulations of Permethrin, Sumithrin, and Resmethrin to Trout|Arch. Environ. Contam. Toxicol.48(2): 251-259|2005|10.1007/s00244-003-0110-9
81395|A||Paulino,A.T., J.A. Tessari, E.M. Nogami, E. Lenzi, and J. Nozaki|Lipid Increase Induced by Lead Accumulation in Tilapia Oreochromis niloticus|Bull. Environ. Contam. Toxicol.75(1): 42-49|2005|10.1007/s00128-005-0716-x
81396|A||Sakamoto,M., K.H. Chang, and T. Hanazato|Differential Sensitivity of a Predacious Cladoceran (Leptodora) and Its Prey (the Cladoceran Bosmina) to the Insecticide Carbaryl:  Results of Acute Toxicity Tests|Bull. Environ. Contam. Toxicol.75(1): 28-33|2005|10.1007/s00128-005-0714-z
81397|A||Song,Z.H., and G.L. Huang|Toxic Effects of Pentachlorophenol on Lemna minor|Bull. Environ. Contam. Toxicol.74(6): 1166-1172|2005|10.1007/s00128-005-0703-2
81398|A||Verma,Y.|Effect of Cadmium on Fin Regeneration in the Freshwater Fish, Oreochromis mossambicus|Bull. Environ. Contam. Toxicol.74(5): 837-844|2005|10.1007/s00128-005-0657-4
81399|A||Ueda,N., C. Partridge, J. Bolland, J. Hemming, T. Sherman, and A. Boettcher|Effects of an Environmental Estrogen on Male Gulf Pipefish, Syngnathus scovelli (Evermann and Kendall), a Male Brooding Teleost|Bull. Environ. Contam. Toxicol.74(6): 1207-1212|2005|10.1007/s00128-005-0709-9
81400|A||Vidal,D., S.M. Bay, and D. Schlenk|Effects of Dietary Selenomethionine on Larval Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.49(1): 71-75|2005|10.1007/s00244-004-0160-7
81401|A||Wandiga,S.O., B.T. Yebiyo, J.O. Lalah, and G.N. Kamau|Distribution, Fate, and Effects of 14C-DDT in Model Ecosystems Simulating Tropical Kenyan Freshwater Environments|Bull. Environ. Contam. Toxicol.74(5): 928-937|2005|10.1007/s00128-005-0670-7
81402|A||Yilmaz,M.|Acute Toxicity of Alpha-Cypermethrin on Tilapia (Oreochromis niloticus L.) Larvae|Bull. Environ. Contam. Toxicol.74(5): 880-885|2005|10.1007/s00128-005-0663-6
81403|A||Khoshmanesh,A., F. Lawson, and I.G. Prince|Cadmium Uptake by Unicellular Green Microalgae|Chem. Eng. J.62:81-88|1996|
81407|A||Khan,R.A., and J.F. Payne|Influence of a Crude Oil Dispersant, Corexit 9527, and Dispersed Oil on Capelin (Mallotus villosus), Atlantic Cod (Gadus morhua), Longhorn Sculpin (Myoxocephalus octodecemspinosus), and Cunner (Tautogolabrus adspersus)|Bull. Environ. Contam. Toxicol.75(1): 50-56|2005|10.1007/s00128-005-0717-9
81408|T||Khera,K.S., and J.A. Ruddick|Polychlorodibenzo-p-Dioxins:  Perinatal Effects and the Dominant Lethal Test in Wistar Rats|In: E.H.Blair (Ed.), Chlorodioxins-Origin and Fate, Advances in Chemistry Ser.No.120, Am.Chem.Soc., Washington, DC:70-84|1973|
81409|T||Kerkvliet,N.I., and J.A. Brauner|Flow Cytometric Analysis of Lymphocyte Subpopulations in the Spleen and Thymus of Mice Exposed to an Acute Immunosuppressive Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Environ. Res.52(2): 146-154|1990|10.1016/S0013-9351(05)80249-X
81410|T||Seo,B.W., B.E. Powers, J.J. Widholm, and S.L. Schantz|Radial Arm Maze Performance in Rats Following Gestational and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Neurotoxicol. Teratol.22(4): 511-519|2000|10.1016/S0892-0362(00)00070-2
81411|T||Backlin,B.M., A. Gessbo, M. Forsberg, A. Shokrai, B. Rozell, and W. Engstrom|Expression of the Insulin-Like Growth Factor II Gene in Polychlorinated Biphenyl Exposed Female Mink (Mustela vison) and Their Fetuses|Mol. Pathol.51(1): 43-47|1998|10.1136/mp.51.1.43
81412|T||Poland,A., and E. Glover|2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Segregation of Toxicity with the Ah Locus|Mol. Pharmacol.17(1): 86-94|1980|
81413|A||Duffy,J.E., Y. Li, and J.T. Zelikoff|PCB-Induced Hepatic CYP1A Induction is Associated with Innate Immune Dysfunction in a Feral Teleost Fish|Bull. Environ. Contam. Toxicol.74(1): 107-113|2005|10.1007/s00128-004-0555-1
81414|T||Greenlee,W.F., and A. Poland|Nuclear Uptake of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in C57BL/6J and DBA/2J Mice|J. Biol. Chem.254:9814-9821|1979|10.1016/S0021-9258(19)83589-5
81415|T||Yeowell,H.N., D.J. Waxman, A. Wadhera, and J.A. Goldstein|Suppression of the Constitutive, Male-Specific Rat Hepatic Cytochrome P-450 2c and Its mRNA by 3,4,5,3',4',5'-Hexachlorobiphenyl and 3-Methylcholanthrene|Mol. Pharmacol.32:340-347|1987|
81416|T||Ueng,T.H., and A.P. Alvares|Selective Loss of Pulmonary Cytochrome P-450I in Rabbits Pretreated with Polychlorinated Biphenyls|J. Biol. Chem.256(14): 7536-7542|1981|10.1016/S0021-9258(19)68995-7
81417|T||Ryan,D.E., P.E. Thomas, and W. Levin|Properties of Purified Liver Microsomal Cytochrome P450 from Rats Treated with the Polychlorinated Biphenyl Mixture Aroclor 1254|Mol. Pharmacol.13(3): 521-532|1977|
81418|T||Lund,J., I. Brandt, L. Poellinger, A. Bergman, E. Klasson-Wehler, and J.A. Gustafsson|Target Cells for the Polychlorinated Biphenyl Metabolite 4,4'-bis(methylsulfonyl)-2,2',5,5'-Tetrachlorobiphenyl: Characterization of high Affinity Binding in Rat and Mouse Lung Cytosol|Mol. Pharmacol.27:314-323|1985|
81419|T||Hardwick,J.P., P. Linko, and J.A. Goldstein|Dose Response for Induction of Two Cytochrome P-450 Isozymes and Their mRNAs by 3,4,5,3',4',5'-Hexachlorobiphenyl Indicating Coordinate Regulation in Rat Liver|Mol. Pharmacol.27:676-682|1985|
81420|T||Heimler,I., A.L. Trewin, C.L. Chaffin, R.G. Rawlins, and R.J. Hutz|Modulation of Ovarian Follicle Maturation and Effects on Apoptotic Cell Death in Holtzman Rats Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) In Utero and Lactationally|Reprod. Toxicol.12(1): 69-73|1998|10.1016/S0890-6238(97)00101-9
81421|T||Hamadeh,H.K., S. Jayadev, E.T. Gaillard, Q. Huang, R. Stoll, K. Blanchard, J. Chou, C.J. Tucker, J. Collins, R. Maronpo|Integration of Clinical and Gene Expression Endpoints to Explore Furan-Mediated Hepatotoxicity|Mutat. Res.549(1-2): 169-183|2004|10.1016/j.mrfmmm.2003.12.021
81422|A||Arukwe,A., F. Yadetie, R. Male, and A. Goksoyr|In Vivo Modulation of Nonylphenol-Induced Zonagenesis and Vitellogenesis by the Antiestrogen, 3,3',4,4'-Tetrachlorobiphenyl (PCB-77) in Juvenile Fish|Environ. Toxicol. Pharmacol.10(1/2): 5-15|2001|10.1016/S1382-6689(01)00063-1
81423|T||Astroff,B., T. Zacharewski, S. Safe, M.P. Arlotto, A. Parkinson, P. Thomas, and W. Levin|6-Methyl-1,3,8-Trichlorodibenzofuran as a 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Antagonist:  Inhibition of the Induction of Rat Cytochrome P-450 Isozymes and Related Monooxygenase Activities|Mol. Pharmacol.33:231-236|1988|
81426|T||Arshad,N., S. Mahmood, A. Murtaza, Z. Iqbal, and M. Arshad|Biflex Induced Haemato-immunomodulatory Changes in Mice (Mus musculus)|Bull. Dep. Zool. Univ. Panjab17:52-60|2002|
81427|T||Larink,O., and R. Sommer|Influence of Coated Seeds on Soil Organisms Tested with Bait Lamina|Eur. J. Soil Sci.38(3/4): 287-290|2002|
81428|T||Wright,C.D.P., P.J. Forshaw, and D.E. Ray|Classification of the Actions of Ten Pyrethroid Insecticides in the Rat, Using the Trigeminal Reflex and Skeletal Muscle as Test Systems|Pestic. Biochem. Physiol.30:79-86|1988|10.1016/0048-3575(88)90062-4
81429|A||Azmi,M.A., S.N.H. Naqvi, and K. Akhtar|Comparative Study of Toxicity of DDT, Malathion and Solfac Against Various Strains of Culex fatigans by WHO Method|Proc. Pak. Congr. Zool.13:359-366|1993|
81430|A||Beketov,M.A.|Comparative Sensitivity to the Insecticides Deltamethrin and Esfenvalerate of Some Aquatic Insect Larvae (Ephemeroptera and Odonata) and Daphnia magna|Russ. J. Ecol.35(3): 200-204|2004|10.1023/B:RUSE.0000025972.29638.46
81431|A||Drost,W., T. Backhaus, M. Vassilakaki, and L.H. Grimme|Mixture Toxicity of s-Triazines to Lemna minor Under Conditions of Simultaneous and Sequential Exposure|Fresenius Environ. Bull.12(6): 601-607|2003|
81432|T||Dillard,H.R., S.A. Johnston, A.C. Cobb, and G.H. Hamilton|An Assessment of Fungicide Benefits for the Control of Fungal Diseases of Processing Tomatoes in New York and New Jersey|Plant Dis.81(6): 677-681|1997|10.1094/PDIS.1997.81.6.677
81433|A||Shakoori,A.R., and S.S.R. Jafri|Toxic Effects of Bifenthrin on Blood Serum Proteins of Freshwater Fish, Tilapia mossambica|Pak. J. Zool.23(4): 372-374|1991|
81434|T||McFarlane,J.E., and G.O. Henneberry|Inhibition of the Growth of an Insect by Fatty Acids|J. Insect Physiol.11(9): 1247-1252|1965|10.1016/0022-1910(65)90117-4
81435|T||Shakoori,A.R., J. Alam, F. Aziz, and S.S. Ali|Biochemical Effects of Bifenthrin (Talstar) Administered Orally for One Month on the Blood and Liver of Rabbit|Proc. Pak. Congr. Zool.10:61-81|1990|
81436|T||Shakoori,A.R., F. Aziz, M. Sabir, F. Aslam, and J. Alam|Retarded Growth and Macromolecular Abnormalities in Chick Blood Following Oral Administration of a Synthetic Pyrethroid, Bifenthrin to Gallus domesticus|Proc. Pak. Congr. Zool.11:41-55|1991|
81437|A||Sedlacek,J., T. Kallquist, and E. Gjessing|The Effect of Aquatic Humus on Update and Toxicity of Cadmium, Barium, Zinc and Mercury to the Green Alga Selenastrum capricornutum|Norwegian Institute for Water Research, Oslo, Norway:72 p.|1982|
81438|T||Gray,L.E.,Jr., J.S. Ostby, C. Wolf, D.B. Miller, W.R. Kelce, C.J. Gordon, and L.S. Birnbaum|Functional Developmental Toxicity of Low Doses of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and a Dioxin-Like PCB (169) in Long Evans Rats and Syrian Hamsters:  Reproductive, Behavioral and Thermoregulatory Alterations|Organohalog. Compd.25:33-38|1995|
81439|T||Pohjanvirta,R., R. Juvonen, S. Karenlampi, H. Raunio, and J. Toumisto|Hepatic Ah-Receptor Levels and the Effect of 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) on Hepatic Microsomal Monooxygenase Activities in a TCDD-Susceptible and -Resistant Rat Strain|Toxicol. Appl. Pharmacol.92:131-140|1988|10.1016/0041-008X(88)90235-9
81440|T||Cheung,M.O., E.F. Gilbert, and R.E. Peterson|Cardiovascular Teratogenesis in Chick Embryos Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|In: M.A.Q.Khan and R.H.Stanton (Eds.), Toxicology of Halogenated Hydrocarbons, Health and Ecological Effects, Pergamon Press, Elmsford, NY:202-208|1981|
81441|T||Miele,M., B. Ledda, C. Falugi, and M. Mazzel|Methyleugenol and Eugenol Variation in Ocimum basilicum cv. Genovese Gigante Grown in Greenhouse and In Vitro|J. Biol. Res.77(4-6): 43-50|2001|
81442|T||Hauschildt,S., and R.W.E. Watts|Studies on the Effect of Xylitol on Oxalate Formation|Biochem. Pharmacol.25(1): 27-29|1976|10.1016/0006-2952(76)90168-4
81443|A||Piperidou,C.I., K.D. Soulti, and A.G. Ioannidou|PCBs Concentration in Trout and Dorado from Fisheries and Their Feed|Fresenius Environ. Bull.10(5): 455-459|2001|
81444|T||Abbott,B.D., K.S. Morgan, L.S. Birnbaum, and R.M. Pratt|TCDD Alters the Extracellular Matrix and Basal Lamina of the Fetal Mouse Kidney|Teratology35:335-344|1987|10.1002/tera.1420350308
81445|T||Khera,K.S.|Extraembryonic Tissue Changes Induced by 2,3,7,8-Tetrachloro-p-Dioxin and 2,3,4,7,8-Pentachlorodibenzofuran with a Note on Direction of Maternal Blood Flow in the Labyrinth of C57BL/6N Mice|Teratology45:611-627|1992|10.1002/tera.1420450606
81446|T||Jansen,H.T., P.S. Cooke, J. Porcelli, T.C. Liu, and L.G. Hansen|Estrogenic and Antiestrogenic Actions of PCBs in the Female Rat:  In Vitro and In Vivo Studies|Reprod. Toxicol.7:237-248|1993|10.1016/0890-6238(93)90230-5
81447|AT||Ritchie,S.A., S. Long, and B. Montgomery|Efficacy of Methyl Bromide Fumigation and Insecticidal Dips Against Aedes Eggs on Lucky Bamboo|Am. Mosq. Control Assoc. J.20(3): 283-285|2004|
81448|T||Asquith,A., and M. Kido|Native Hawaiian Insects Attracted to the Semiochemical Methyl Eugenol, Used for Male Annihilation of the Oriental Fruit Fly (Diptera: Tephritidae)|Environ. Entomol.23(6): 1397-1408|1994|10.1093/ee/23.6.1397
81449|T||Kurokawa,M., J. Brown, Y. Kagawa, and K. Shiraki|Cytokine-Regulatory Activity and Therapeutic Efficacy of Cinnamyl Derivatives in Endotoxin Shock|Eur. J. Pharmacol.474(2-3): 283-293|2003|10.1016/S0014-2999(03)02036-3
81450|T||Legal,L., B. Moulin, and J.M. Jallon|The Relation Between Structures and Toxicity of Oxygenated Aliphatic Compounds Homologous to the Insecticide Octanoic Acid and the Chemotaxis of Two Species of Drosophila|Pestic. Biochem. Physiol.65(2): 90-101|1999|10.1006/pest.1999.2430
81451|T||Johnson,J.D., M.J. Ryan, J.D. Toft II, S.W. Graves, M.R. Hejtmancik, M.L. Cunningham, R. Herbert, and K.M. Abdo|Two-Year Toxicity and Carcinogenicity Study of Methyleugenol in F344/N Rats and B6C3F1 Mice|J. Agric. Food Chem.48(8): 3620-3632|2000|10.1021/jf000364a
81452|T||Wagstaff,D.J., and C.R. Short|Induction of Hepatic Microsomal Hydroxylating Enzymes by Technical Piperonyl Butoxide and Some of Its Analogs|Toxicol. Appl. Pharmacol.19(1): 54-61|1971|10.1016/0041-008X(71)90189-X
81454|T||Ashby,J., H. Tinwell, J. Stevens, T. Pastoor, and C.B. Breckenridge|The Effects of Atrazine on the Sexual Maturation of Female Rats|Regul. Toxicol. Pharmacol.35(3): 468-473|2002|10.1006/rtph.2002.1571
81455|A||Boone,M.D., and S.M. James|Interactions of an Insecticide, Herbicide, and Natural Stressors in Amphibian Community Mesocosms|Ecol. Appl.13(3): 829-841|2003|10.1890/1051-0761(2003)013[0829:IOAIHA]2.0.CO;2
81456|A||Mitchell,C.A.|Growth of Halodule wrightii in Culture and the Effects of Cropping, Light, Salinity and Atrazine|Aquat. Bot.28(1): 25-37|1987|10.1016/0304-3770(87)90054-4
81457|A||Coady,K.K., M.B. Murphy, D.L. Villeneuve, M. Hecker, P.D. Jones, J.A. Carr, K.R. Solomon, E.E. Smith, G. Van der Kraak,|Effects of Atrazine on Metamorphosis, Growth, Laryngeal and Gonadal Development, Aromatase Activity, and Sex Steroid Concentrations in Xenopus laevis|Ecotoxicol. Environ. Saf.62(2): 160-173|2005|10.1016/j.ecoenv.2004.10.010
81458|A||Elia,A.C., W.T. Waller, and S.J. Norton|Biochemical Responses of Bluegill Sunfish (Lepomis macrochirus, Rafinesque) to Atrazine Induced Oxidative Stress|Bull. Environ. Contam. Toxicol.68(6): 809-816|2002|10.1007/s00128-002-0027-4
81459|A||Freeman,J.L., and A.L. Rayburn|Developmental Impact of Atrazine on Metamorphing Xenopus laevis as Revealed by Nuclear Analysis and Morphology|Environ. Toxicol. Chem.24(7): 1648-1653|2005|10.1897/04-338R.1
81460|A||Freeman,J.L., N. Beccue, and A.L. Rayburn|Differential Metamorphosis Alters the Endocrine Response in Anuran Larvae Exposed to T3 and Atrazine|Aquat. Toxicol.75(3): 263-276|2005|10.1016/j.aquatox.2005.08.012
81461|T||Friedmann,A.S.|Atrazine Inhibition of Testosterone Production in Rat Males Following Peripubertal Exposure|Reprod. Toxicol.16(3): 275-279|2002|10.1016/S0890-6238(02)00019-9
81462|A||Gerard,C., and V. Poullain|Variation in the Response of the Invasive Species Potamopyrgus antipodarum (Smith) to Natural (Cyanobacterial Toxin) and Anthropogenic (Herbicide Atrazine) Stressors|Environ. Pollut.138(2): 28-33|2005|10.1016/j.envpol.2005.02.028
81463|A||Del carmen Alvarez,M., and L.A. Fuiman|Environmental Levels of Atrazine and Its Degradation Products Impair Survival Skills and Growth of Red Drum Larvae|Aquat. Toxicol.74(3): 229-241|2005|10.1016/j.aquatox.2005.05.014
81464|T||DeVos,S., K. De Bosscher, B. Staels, E. Bauer, F. Roels, W.V. Berghe, G. Haegeman, R. Hooghe, and E.L. Hooghe-Peters|Inhibition of Cytokine Production by the Herbicide Atrazine.  Search for Nuclear Receptor Targets|Biochem. Pharmacol.65(2): 303-308|2003|10.1016/S0006-2952(02)01507-1
81465|T||Almeida,R.G., J.C. Florio, H.S. Spinosa, and M.M. Bernardi|Comparative Effects of Maternal Prenatal and Postnatal Exposures to Astemizole on Reproductive Parameters of Rats|Neurotoxicol. Teratol.24(2): 255-265|2002|10.1016/S0892-0362(02)00203-9
81466|A||Bultelle,F., M. Panchout, F. Leboulenger, and J.M. Danger|Identification of Differentially Expressed Genes in Dreissena polymorpha Exposed to Contaminants|Mar. Environ. Res.54(3-5): 385-389|2002|10.1016/S0141-1136(02)00159-9
81467|A||Hoagland,K.D., and R.W. Drenner|Freshwater Community Responses to Mixtures of Agricultural Pesticides:  Synergistic Effects of Atrazine and Bifenthrin|Texas Water Resour.Inst., Texas A&M Univ., College Station, TX:29 p.|1991|
81468|T||Nishikawa,Y., M. Okabe, K. Yoshimoto, G. Kurono, and F. Fukuoka|Chemical and Biochemical Studies on Carbohydrate Esters. II. Antitumor Activity of Saturated Fatty Acids and Their Ester Derivatives Against Ehrlich ascites Carcinoma|Chem. Pharm. Bull.24(3): 387-393|1976|10.1248/cpb.24.387
81469|T||Iwaoka,W.T., and E.G. Perkins|Nutritional Effects of the Cyclic Monomers of Methyl Linolenate in the Rat|Lipids11(4): 349-353|1976|10.1007/BF02544065
81470|T||Vereecke,M.|Response of Brussels Sprouts to Chemical Pinching with Fatty Alcohols and Methyl Esters of Fatty Acids|Hortscience10(4): 420-421|1975|10.21273/HORTSCI.10.4.420
81471|A||Mateo,P., F. Fernandez-Pinas, and I. Bonilla|O2-Induced Inactivation of Nitrogenase as a Mechanism for the Toxic Action of Cd2+ on Nostoc UAM 208|New Phytol.126(2): 267-272|1994|10.1111/j.1469-8137.1994.tb03945.x
81472|A||Kralj-Klobucar,N., and A. Stunja|Effects of Selenium, Lead and Magnesium on the Activity of Hydrolitic Enzymes in Kidneys of the Carp (Cyprinus carpio L.)|Period. Biol.96(4): 496-498|1994|
81473|T||Gupta,S.K., and V. Sundararaman|Carbaryl and Endosulphan Induced Alterations in the Intestinal alpha-Amylase Activity of Pheretima posthuma|Curr. Sci. (Bangalore)57(20): 1116-1118|1988|
81474|T||Hocking,K.S., C.W. Lee, J.S.S. Beesley, and H.T. Matechi|Aircraft Applications of Insecticides in East Africa. XVI.- Airspray Experiment with Endosulfan Against Glossina morsitans Westw., G. Swynnertoni Aust. and G. pallidipes Aust.|Bull. Entomol. Res.56:737-744|1966|10.1017/S0007485300056728
81475|T||Kedziorski,A., M. Nakonieczny, E. Swierczek, and E. Szulinska|Cadmium-Selenium Antagonism and Detoxifying Enzymes in Insects|Fresenius' J. Anal. Chem.354(5/6): 571-575|1996|10.1007/s0021663540571
81476|A||Khoshmanesh,A., F. Lawson, and I.G. Prince|Cell Surface Area as a Major Parameter in the Uptake of Cadmium by Unicellular Green Microalgae|Chem. Eng. J.65:13-19|1997|10.1016/S1385-8947(96)03091-4
81477|A||Rainbow,P.S., and W.H. Black|Effects of Changes in Salinity and Osmolality on the Rate of Uptake of Zinc by Three Crabs of Different Ecologies|Mar. Ecol. Prog. Ser.244:205-217|2002|10.3354/meps244205
81478|A||Nagel,K., and J. Voigt|Impaired Photosynthesis in a Cadmium-Tolerant Chlamydomonas Mutant Strain|Microbiol. Res.150(1): 105-110|1995|10.1016/S0944-5013(11)80042-X
81481|T||May,W.E., G.P. LaFond, E.N. Johnson, T. Hogg, A.M. Johnston, B. Nybo, N. Harker, and G. Clayton|An Assessment of the Concept of Early Time of Weed Removal in Field Pea Using Natural Weed Populations|Can. J. Plant Sci.83(2): 423-431|2003|10.4141/P02-081
81482|T||Butter,N.S., G. Singh, and A.K. Dhawan|Laboratory Evaluation of the Insect Growth Regulator Lufenuron Against Helicoverpa armigera on Cotton|Phytoparasitica31(2): 200-203|2003|10.1007/BF02980790
81484|A||Pinto,G., and R. Taddei|Evaluation of Toxic Effects of Heavy Metals on Unicellular Algae. V - Analysis of the Inhibition Manifesting Itself with an Increased Lag Phase|Boll. Soc. Nat. Napoli95:303-316|1986|
81485|T||Chiraz,C., G. Houda, and G.M. Habib|Nitrogen Metabolism in Tomato Plants Under Cadmium Stress|J. Plant Nutr.26(8): 1617-1634|2003|10.1081/PLN-120022372
81486|T||Blancaflor,E.B., G. Hou, and K.D. Chapman|Elevated Levels of N-Lauroylethanolamine, an Endogenous Constituent of Desiccated Seeds, Disrupt Normal Root Development in Arabidopsis thaliana Seedlings|Planta (Multiple Languages)217(2): 206-217|2003|10.1007/s00425-003-0985-8
81487|T||Quraishi,M.S.|Toxic and Teratogenic Effects of Esters of Saturated and Unsaturated Fatty Acids on House Fly Larvae (Diptera:  Muscidae)|Can. Entomol.104(10): 1505-1510|1972|10.4039/Ent1041505-10
81488|T||Tran Nguyen,N., P.K. Mohapatra, and K. Fujita|Leaf Necrosis is a Visual Symptom of the Shift from Growth Stimulation to Inhibition Effect of Al in Eucalyptus camaldulensis|Plant Sci.165(1): 147-157|2003|10.1016/S0168-9452(03)00153-5
81489|T||Chongo,G., L. Buchwaldt, B.D. Gossen, G.P. LaFond, W.E. May, E.N. Johnson, and T. Hogg|Foliar Fungicides to Manage Ascochyta Blight (Ascochyta rabiei) of Chickpea in Canada|Can. J. Plant Pathol.25(2): 135-142|2003|10.1080/07060660309507061
81490|T||Joiner,J.N., and C.A. Conover|Influence of Pruning and Growth-Retarding Compounds on Forcing Azaleas|Hortscience9(6): 541-542|1974|10.21273/HORTSCI.9.6.541
81491|T||Arffmann,E., and J. Glavind|Tumour-Promoting Activity of Fatty Acid Methyl Esters in Mice|Experientia27(12): 1465-1466|1971|10.1007/BF02154293
81492|AT||Krawczynska,W., N.N. Pivovarova, and A. Sobota|Effects of Cadmium on Growth, Ultrastructure and Content of Chemical Elements in Tetrahymena pyriformis and Acanthamoeba castellanii|Acta Protozool.28(3-4): 245-252|1989|
81493|T||Abe,Y.|Long-Chain Fatty Acids Containing an Ether Linkage.  I.  The Antibacterial and Fungicidal Activities of Some New b-Alkoxypropionic Acids and Their Methyl Esters|Lipids1(2): 141-145|1966|10.1007/BF02533007
81494|T||Johnson,R.R., and E.I. Whitehead|Growth and Selenium Content of Wheat Plants as Related to the Selenite Selenium Content of Soil|Proc. S. D. Acad. Sci.30:130-136|1951|
81495|T||Weitzel,G., A.M. Fretzdorff, and W. Stock|Syntheses and Hypoglycemic Activities of Ethyl Esters and Various Amides of w-Guanidino Fatty Acids with Medium Chain Length|Hoppe-Seyler's Z. Physiol. Chem.361(1): 41-50|1980|10.1515/bchm2.1980.361.1.41
81496|A||Mitchell,S.E., C.A. Caldwell, G. Gonzales, W.R. Gould, and R. Arimoto|Effects of Depleted Uranium on Survival, Growth, and Metamorphosis in the African Clawed Frog (Xenopus laevis)|J. Toxicol. Environ. Health Part A68(11/12): 951-965|2005|10.1080/15287390590912595
81497|A||Lee,S.K., G.A. Owens, and D.N.R. Veeramachaneni|Exposure to Low Concentrations of Di-n-Butyl Phthalate During Embryogenesis Reduces Survivability and Impairs Development of Xenopus laevis Frogs|J. Toxicol. Environ. Health Part A68(10): 763-772|2005|10.1080/15287390590930243
81498|T||Vom Saal,F.S., B.G. Timms, M.M. Montano, P. Palanza, K.A. Thayer, S.C. Nagel, M.D. Dhar, V.K. Ganjam, S. Parmigiani, an|Prostate Enlargement in Mice due to Fetal Exposure to Low Doses of Estradiol and Diethylstilbestrol and Opposite Effects at High Doses|Proc. Natl. Acad. Sci. U.S.A.94:2056-2061|1997|10.1073/pnas.94.5.2056
81499|A||Foltinova,P., and J. Gajdosova|Effect of Ascorbic Acid and Selenium on Bleaching Activity of Furadantine and Furazolidone in Euglena gracilis|Biologia (Bratisl.)48(3): 291-293|1993|
81501|A||Lane,T.W., and F.M.M. Morel|A Biological Function for Cadmium in Marine Diatoms|Proc. Natl. Acad. Sci. U.S.A.97(9): 4627-4631|2000|10.1073/pnas.090091397
81502|T||Ahlborg,U.G., F. Waern, E. Manzoor, and H. Hakansson|Effects of Combinations of PCDDs/PCDFs Given to Sprague-Dawley Rats|Chemosphere18(1-6): 283-289|1989|10.1016/0045-6535(89)90132-X
81503|T||Waern,F., A. Hanberg, E. Manzoor, and U.G. Ahlborg|TCDD and 2,3,7,8-PeCDF Temporal Interaction of Vitamin A Depletion and Hepatic Enzyme-Induction in the Rat|Chemosphere20(7-9): 1155-1160|1990|10.1016/0045-6535(90)90237-N
81504|T||Abbot,B.D., M.W. Harris, and L.S. Birnbaum|Comparisons of the Effects of TCDD and Hydrocortisone on Growth Factor Expression Provide Insight into Their Interaction in the Embryonic Mouse Palate|Teratology45:35-53|1992|10.1002/tera.1420450104
81510|T||Rosenberg,C.E., A. Salibian, and N.E. Fink|An Enzyme-Linked Immunosorbent Assay for Measuring Anti-sheep Red Blood Cells Antibodies in Lead-Exposed Toads|J. Pharmacol. Toxicol. Methods47(2): 121-128|2002|10.1016/S1056-8719(02)00216-2
81511|AT||Shinmachi,F., Y. Kumanda, A. Noguchi, and I. Hasegawa|Translocation and Accumulation of Cadmium in Cadmium-Tolerant Polygonum thunbergii|Soil Sci. Plant Nutr.49(3): 355-361|2003|10.1080/00380768.2003.10410020
81512|T||Dvorak,P., P. Tlustos, J. Szakova, J. Cerny, and J. Balik|Distribution of Soil Fractions of Zinc and Its Uptake by Potatoes, Maize, Wheat and Barley After Soil Amendment by Sludge and Inorganic Zn Salt|Plant Soil Environ.49(5): 203-212|2003|10.17221/4114-PSE
81513|T||Montagnese,C.M., F.A. Geneser, and J.R. Krebs|Histochemical Distribution of Zinc in the Brain of the Zebra Finch (Taenopygia guttata)|Anat. Embryol.188(2): 173-187|1993|10.1007/BF00186251
81514|A||Klusek,C.S., M. Heit, and S. Hodgkiss|Trace Element Concentrations in the Soft Tissue of Transplanted Freshwater Mussels Near a Coal-Fired Power Plant|In: R.F.Keefer and K.S.Sajwan (Eds.), Trace Elements in Coal and Coal Combustion Residues, Boca Raton, FL:59-95|1993|
81515|A||Ankley,G.T., D.W. Kuehl, M.D. Kahl, K.M. Jensen, A. Linnum, R.L. Leino, and D.A. Villeneuve|Reproductive and Developmental Toxicity and Bioconcentration of Perfluorooctanesulfonate in a Partial Life-Cycle Test with the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.24(9): 2316-2324|2005|10.1897/04-634R.1
81516|T||Hirsch,H.V.B., J. Mercer, H. Sambaziotis, M. Huber, D.T. Stark, T. Torno-Morley, K. Hollocher, H. Ghiradella, and D.M. |Behavioral Effects of Chronic Exposure to Low Levels of Lead in Drosophila melanogaster|Neurotoxicology24(3): 435-442|2003|10.1016/S0161-813X(03)00021-4
81518|T||Zayed,S.M.A.D., M. Farghaly, and S. El-Maghraby|Fate of 14C-Chlorpyrifos in Stored Soybeans and Its Toxicological Potential to Mice|Food Chem. Toxicol.41(6): 767-772|2003|10.1016/S0278-6915(03)00007-3
81519|T||Rowsey,P.J., B.L. Metzger, J. Carlson, and C.J. Gordon|Effects of Exercise Conditioning on Thermoregulatory Responses to Repeated Administration of Chlorpyrifos|Environ. Res.92(1): 27-34|2003|10.1016/S0013-9351(02)00096-8
81520|T||Nauen,R., U. Ebbinghaus-Kintscher, V.L. Salgado, and M. Kaussmann|Thiamethoxam is a Neonicotinoid Precursor Converted to Clothianidin in Insects and Plants|Pestic. Biochem. Physiol.76(2): 55-69|2003|10.1016/S0048-3575(03)00065-8
81521|T||Mobay Chemical Corp.|Initial Submission:  Multigeneration Study of Cyfluthrin in Rats with Cover Letter Dated 08/17/92|EPA/OTS Doc.#88-920008987:56 p.|1992|
81522|T||Miles Inc.|Initial Submission:  Letter from Miles Inc. Submitting Four Toxicity Studies with Cyfluthrin in Rats|Nihon Tokushu Noyaku, Seizo, Tokyo, Japan:34 p.|1992|
81523|T||Miles Inc.|Initial Submission:  Letter from Miles Inc. to U.S.EPA Submitting Information on 3-(2,2-Dichloroethenyl)-2,2-Dimethyl-Cyclopropane Carboxylate Enclosed Toxicity Studies with Attachment|EPA/OTS Doc.#88-920006696:117 p.|1992|
81524|T||E.I. Du Pont De Nemours|Initial Submission:  Letter from E.I.DuPont de Nemours & Co. to U.S.EPA Regarding Acute Oral Toxicity Studies of [] and Benzeneacetic Acid, *Mixture Dated 050494 (Sanitized)|EPA/OTS Doc.#88-940000258S:|1994|
81526|T||Kalka,J., K. Miksch, E. Grabinska-Sota, and A. Zbrog|The Effects of Pyrethroid Insecticides on Earthworms Eisenia fetida|Fresenius Environ. Bull.11(2): 114-117|2002|
81529|T||Kim,E.H., H.K. Kim, D.H. Choi, and Y.J. Ahn|Acaricidal Activity of Clove Bud Oil Compounds Against Tyrophagus putrescentiae (Acari:  Acaridae)|Appl. Entomol. Zool.38(2): 261-266|2003|10.1303/aez.2003.261
81530|T||Zucoloto,F.S.|Utilization of Carbohydrates by Nannotrigona (Scaptotrigona) postica|J. Apic. Res.18(1): 36-39|1979|10.1080/00218839.1979.11099940
81531|T||Loennroth,I., and S. Lange|Intake of Monosaccharides or Amino Acids Induces Pituitary Gland Synthesis of Proteins Regulating Intestinal Fluid Transport|Biochim. Biophys. Acta925(2): 117-123|1987|10.1016/0304-4165(87)90100-0
81532|T||Romolo,J.L., and G.M. Williams|Effect of Kayexalate and Sorbitol on Colon of Normal and Uremic Rats|Surg. Forum (Chic.)30:369-370|1979|
81534|T||Wee,S.L., and K.H. Tan|Allomonal and Hepatotoxic Effects Following Methyl Eugenol Consumption in Bactrocera papayae Male Against Gekko monarchus|J. Chem. Ecol.27(5): 953-964|2001|10.1023/A:1010387020135
81535|T||Bayer Ag. Institute of Toxicology|Initial Submission:  Acute Oral Toxicity of Cyfluthrin to Sheep with Cover Letter Dated 08/27/92|EPA/OTS Doc.#88-920009431:11 p.|1992|
81536|T||Bayer Aktiengesellschaft fuer Institut Toxikologie|Initial Submission:  Acute Toxicity Tests of 3-Phenoxy-4-Fluoro-Benzaldehyde with Cover Letter Dated 08/03/92|EPA/OTS Doc.#88-920009436:25 p.|1992|
81537|T||Shell Oil Co.|Initial Submission:  A Five Week Feeding Study of alpha Steric Isomer of Fenvalerate in Rats with Cover Letter Dated 032692|EPA/OTS Doc.#88-920001942:33 p.|1992|
81538|T||Shell Oil Co.|Initial Submission:  Toxicity of Insecticides:  Acute Oral Toxicity and Neuropathological Effects of SD 47443 in Rats (Final Report) with Cover Letter Dated 111291|EPA/OTS Doc.#88-920000283:16 p.|1991|
81539|T||Allen,D.G., G. Pearse, J.K. Haseman, and R.R. Maronpot|Prediction of Rodent Carcinogenesis:  An Evaluation of Prechronic Liver Lesions as Forecasters of Liver Tumors in NTP Carcinogenicity Studies|Toxicol. Pathol.32(4): 393-401|2004|10.1080/01926230490440934
81541|T||Abbott,D.M., and J.T. Bowman|A Test of the Mutagenic Effects of Sorbitol on Drosophila melanogaster|J. Food Sci.41(3): 572-574|1976|10.1111/j.1365-2621.1976.tb00672.x
81542|T||Miles Inc.|Initial Submission:  Neurotoxicity Studies of Cyfluthrin in Hens with Cover Letter Dated 08/27/92|EPA/OTS Doc.#88-920009430:8 p.|1992|
81543|T||Hori,M.|Repellency of Hinokitiol Against the Cigarette Beetle, Lasioderma serricorne (Fabricius) (Coleoptera:  Anobiidae)|Appl. Entomol. Zool.39(3): 521-526|2004|10.1303/aez.2004.521
81544|T||Yang,Y.C., S.H. Lee, W.J. Lee, D.H. Choi, and Y.J. Ahn|Ovicidal and Adulticidal Effects of Eugenia caryophyllata Bud and Leaf Oil Compounds on Pediculus capitis|J. Agric. Food Chem.51(17): 4884-4888|2003|10.1021/jf034225f
81545|T||E.I. Du Pont De Nemours|Support:  Letter from E.I.Dupont de Nemours & Co. to U.S.EPA Regarding Acute Toxicity Studies of [S-(R*,R*)]-Cyano(3-Phenoxyphenol)Methyl 4-Cchloro-* in Rats Dated 090294 (Sanitized)|EPA/OTS Doc.#89-940000280S:74 p.|1994|
81546|T||Du,J.W.|Current and Future Prospects for Insect Behavior-Modifying Chemicals in China|Agric. Chem. Biotechnol.43(4): 222-229|2000|
81551|T||MacKenzie,K.M., W.N. Hauck, A.G. Wheeler, and F.J.C. Roe|Three-Generation Reproduction Study of Rats Ingesting up to 10% Sorbitol in the Diet - and a Brief Review of the Toxicological Status of Sorbitol|Food Chem. Toxicol.24(3): 191-200|1986|10.1016/0278-6915(86)90228-0
81552|T||Potezny,N., J. McClure, A.M. Rofe, and R.A.J. Conyers|The Long-Term Effect of Dietary Administration of Refined Sugars and Sugar Alcohols on Plasma Biochemistry, Urine Biochemistry and Tissue Histology in Mice Given a Limited Degree of Dietary Self-Selection|Food Chem. Toxicol.24(5): 389-396|1986|10.1016/0278-6915(86)90203-6
81553|T||Abdo,K.M., M.L. Cunningham, M.L. Snell, R.A. Herbert, G.S. Travlos, S.R. Eldridge, and J.R. Bucher|14-Week Toxicity and Cell Proliferation of Methyleugenol Administered by Gavage to F344 Rats and B6C3F1 Mice|Food Chem. Toxicol.39(4): 303-316|2001|10.1016/S0278-6915(00)00143-5
81554|T||Stein,L.A., and J.B. Storey|Influence of Adjuvants on Foliar Absorption of Nitrogen and Phosphorus by Soybeans|J. Am. Soc. Hortic. Sci.111(6): 829-832|1986|10.21273/JASHS.111.6.829
81555|T||Sell,A.B., and E.A. Carlini|Anesthetic Action of Methyleugenol and Other Eugenol Derivatives|Pharmacology14(4): 367-377|1976|10.1159/000136617
81556|T||Purchase,R., G.P. Ford, D.M. Creasy, P.G. Brantom, and S.D. Gangolli|A 28-Day Feeding Study with Methyl Isoeugenol in Rats|Food Chem. Toxicol.30(6): 475-481|1992|10.1016/0278-6915(92)90098-6
81557|T||Walz,D.|Irritant Action due to Physico-chemical Parameters of Test Solutions|Food Chem. Toxicol.23(2): 299-302|1985|10.1016/0278-6915(85)90032-8
81566|T||Harr,J.R., J.H. Exon, P.D. Whanger, and P.H. Weswig|Effect of Dietary Selenium on N-2-Fluorenyl-Acetamide (FAA)-Induced Cancer in Vitamin E-Supplemented, Selenium-Depleted Rats|In: F.W.Oehme (Ed.), Toxicity of Heavy Metals in the Environment, Marcel Dekker, Inc., NY and Basel:437-443|1978|
81567|T||Harr,J.R., J.H. Exon, P.H. Weswig, and P.D. Whanger|The Relationship of Dietary Selenium Concentration, Chemical Cancer Induction, and Tissue Concentration of Selenium in Rats|In: F.W.Oehme (Ed.), Toxicity of Heavy Metals in the Environment, Marcel Dekker, Inc., NY and Basel:427-435|1978|
81568|T||Bastomsky,C.H.|Enhanced Thyroxine Metabolism and high Uptake Goiters in Rats After a Single Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Endocrinology101:292-296|1977|10.1210/endo-101-1-292
81569|T||Moore,R.W., J.A. Parsons, R.C. Bookstaff, and R.E. Peterson|Plasma Concentrations of Pituitary Hormones in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Treated Male Rats|J. Biochem. Toxicol.4(3): 165-172|1989|10.1002/jbt.2570040305
81570|T||Tritscher,A.M., G.C. Clark, C. Sewall, R.C. Sills, R. Maronpot, and G.W. Lucier|Persistence of TCDD-Induced Hepatic Cell Proliferation and Growth of Enzyme Altered Foci After Chronic Exposure Followed by Cessation of Treatment in DEN Initiated Female Rats|Carcinogenesis16(11): 2807-2811|1995|10.1093/carcin/16.11.2807
81571|T||Pohjanvirta,R., T. Vartiainen, A. Uusi-Rauva, J. Monkkonen, and J. Tuomisto|Tissue Distribution, Metabolism and Excretion of 14C-TCDD in a TCDD-Susceptible and a TCDD-Resistant Rat Strain|Pharmacol. Toxicol.66:93-100|1990|10.1111/j.1600-0773.1990.tb00712.x
81572|T||Hakansson,H., F. Waern, and U.G. Ahlborg|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Lactating Rat on Maternal and Neonatal Vitamin A Status|J. Nutr.117:580-586|1987|10.1093/jn/117.3.580
81573|T||Agrawal,A.K., H.A. Tilson, and S.C. Bondy|3,4,3',4'-Tetrachlorobiphenyl Given to Mice Prenatally Produces Long-Term Decreases in Striatal Dopamine and Receptor Binding Sites in the Caudate Nucleus|Toxicol. Lett.7:417-424|1981|10.1016/0378-4274(81)90087-4
81575|T||Tuey,D.B., and H.B. Matthews|Phamacokinetics of 3,3',5,5'-Tetrachlorobiphenyl in the Male Rat|Drug Metab. Dispos.5(5): 444-450|1977|
81576|T||Poland,A., and E. Glover|Chlorinated Dibenzo-p-Dioxins:  Potent Inducers of delta-Aminolevulinic Acid Synthetase and Aryl Hydrocarbon Hydroxylase.  II.  A Study of the Structure-Activity Relationship|Mol. Pharmacol.9:736-747|1973|
81578|T||Lutz,R.J., R.L. Dedrick, H.B. Matthews, T.E. Eling, and M.W. Anderson|A Preliminary Pharmacokinetic Model for Several Chlorinated Biphenyls in the Rat|Drug Metab. Dispos.5(4): 286-396|1977|
81581|T||Korhonen,A., K. Hemminki, and H. Vainio|Embryotoxic Effects of Phthalic Acid Derivatives, Phosphates and Aromatic Oils Used in the Manufacturing of Rubber on Three Day Chicken Embryos|Drug Chem. Toxicol.6(2): 191-207|1983|10.3109/01480548309016024
81582|T||Gianfagna,T.J., L. Logendra, E.F. Durner, and H.W. Janes|Improving Tomato Harvest Index by Controlling Crop Height and Side Shoot Production|Life Supp. Biosphere Sci.5(2): 255-261|1998|
81583|AT||Ostgaard,K., and A. Jensen|Acute Phytotoxicity of Oil-Based Drilling Muds|Oil Petrochem.Pollut.2(4): 281-291|1985|10.1016/S0143-7127(85)90261-3
81584|T||Su,N.Y., and R.H. Scheffrahn|Toxicity and Feeding Deterrency of a Dihaloalkyl Arylsulfone Biocide, A-9248, Against the Formosan Subterranean Termite (Isoptera:   Rhinotermitidae)|J. Econ. Entomol.81(3): 850-854|1988|10.1093/jee/81.3.850
81585|T||Su,N.Y., P.M. Ban, and R.H. Scheffrahn|Suppression of Foraging Populations of the Formosan Subterranean Termite (Isoptera:  Rhinotermitidae) by Field Applications of a Slow-Acting Toxicant Bait|J. Econ. Entomol.84(5): 1525-1531|1991|10.1093/jee/84.5.1525
81586|T||Jones,R.B., and M.J. Gentle|Olfaction and Behavioral Modification in Domestic Chicks (Gallus domesticus)|Physiol. Behav.34(6): 917-924|1985|10.1016/0031-9384(85)90014-9
81587|T||White,D.G., J. Toman, D.C. Burnette, and B.J. Jacobsen|The Effect of Postharvest Fungicide Application on Storage Fungi of Corn During Ambient Air Drying and Storage|Plant Dis.77(6): 562-568|1993|10.1094/PD-77-0562
81589|T||Shu,L.J., K.C. Sanderson, and J.C. Williams|Comparison of Several Chemical Pinching Agents on Greenhouse Forcing Azaleas, Rhododendron cv.|J. Am. Soc. Hortic. Sci.106(5): 557-561|1981|10.21273/JASHS.106.5.557
81590|T||Breece,J.R., T. Furuta, and H.Z. Hield|Pinching Azaleas Chemically|Calif. Agric.32(5): 23-|1978|
81591|T||Davis,E.L., D.M. Meyers, C.J. Dullum, and J.S. Feitelson|Nematicidal Activity of Fatty Acid Esters on Soybean Cyst and Root-Knot Nematodes|J. Nematol.29(4S): 677-684|1997|
81592|T||Life Science Research|Initial Submission: M&B 46030 - Combined Oncogenicity & Toxicity Study: 104-Wks Followed by 8-Wk Reversibility Period on Completion of 52-Wk Treatment w/Cover Letter Dated 102792|EPA/OTS 88-920010422:85 p.|1992|
81593|A||Wirth,E.F., P.L. Pennington, J.C. Lawton, M.E. DeLorenzo, D. Bearden, B. Shaddrix, S. Sivertsen, and M.H. Fulton|The Effects of the Contemporary-Use Insecticide (Fipronil) in an Estuarine Mesocosm|Environ. Pollut.131(3): 365-371|2004|10.1016/j.envpol.2004.03.012
81594|T||Szegedi,V., G. Bardos, L. Detari, A. Toth, I. Banczerowski-Pelyhe, and I. Vilagi|Transient Alterations in Neuronal and Behavioral Activity Following Bensultap and Fipronil Treatment in Rats|Toxicology214(1-2): 67-76|2005|10.1016/j.tox.2005.05.023
81595|T||Ohi,M., P.R. Dalsenter, A.J.M. Andrade, and A.J. Nascimento|Reproductive Adverse Effects of Fipronil in Wistar Rats|Toxicol. Lett.146(2): 121-127|2004|10.1016/j.toxlet.2003.08.008
81596|A||Stark,J.D., and R.I. Vargas|Toxicity and Hazard Assessment of Fipronil to Daphnia pulex|Ecotoxicol. Environ. Saf.62(1): 11-16|2005|10.1016/j.ecoenv.2005.02.011
81597|AT||Chandler,G.T., T.L. Cary, A.C. Bejarano, J. Pender, and J.L. Ferry|Population Consequences of Fipronil and Degradates to Copepods at Field Concentrations:  An Integration of Life Cycle Testing with Leslie Matrix Population Modeling|Environ. Sci. Technol.38(23): 6407-6414|2004|10.1021/es049654o
81598|A||Chaton,P.F., P. Ravanel, J.C. Meyran, and M. Tissut|The Toxicological Effects and Bioaccumulation of Fipronil in Larvae of the Mosquito Aedes aegypti in Aqueous Medium|Pestic. Biochem. Physiol.69(3): 183-188|2001|10.1006/pest.2000.2536
81599|T||Mimura,T., H. Tsujibo, M. Nishikawa, Y. Yamabe, and S. Aonuma|Effect of Normal C10:0-C20:0 Fatty Acids and Their Related Compounds on Gastric Secretion and Experimental Ulceration in Rats|J. Pharmacobio-Dyn.3(9): 435-443|1980|10.1248/bpb1978.3.435
81600|A||Konwick,B.J., A.T. Fisk, A.W. Garrison, J.K. Avants, and M.C. Black|Acute Enantioselective Toxicity of Fipronil and Its Desulfinyl Photoproduct to Ceriodaphnia dubia|Environ. Toxicol. Chem.24(9): 2350-2355|2005|10.1897/04-459R.1
81601|T||National Cancer Institute|Bioassay of Aroclor 1254 for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:62 p.|1978|
81602|T||Poland,A., and E. Glover|An Estimate of the In Vivo Covalent Binding of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Rat Liver Protein, Ribosomal RNA and DNA|Cancer Res.39:3341-3344|1979|
81604|T||Kawate,H., K. Sakumi, T. Tsuzuki, Y. Nakatsuru, T. Ishikawa, S. Takahashi, H. Takano, T. Noda, and M. Sekiguchi|Separation of Killing and Tumorigenic Effects of an Alkylating Agent in Mice Defective in Two of the DNA Repair Genes|Proc. Natl. Acad. Sci. U.S.A.95(9): 5116-5120|1998|10.1073/pnas.95.9.5116
81605|T||Gogue,G.J., and H.P. Rasmussen|Stem Girdling of Chrysanthemum Cultivars by Chemical Pinching Agents|J. Am. Soc. Hortic. Sci.99(4): 292-297|1974|10.21273/JASHS.99.4.292
81606|A||Bearden,A.P., G.D. Sinks, and T.W. Schultz|Population Growth Kinetics of Tetrahymena pyriformis Exposed to Selected Electrophiles|ASTM Spec. Tech. Publ.8:319-328|1999|
81607|A||Low,K.W., and Y.M. Sin|In Vivo and In Vitro Effects of Mercuric Chloride and Sodium Selenite on Some Non-Specific Immune Responses of Blue Gourami, Trichogaster trichopterus (Pallus)|Fish Shellfish Immunol.6(5): 351-362|1996|10.1006/fsim.1996.0035
81609|A||Stromgren,T.|The Effect of Zinc on the Increase in Length of Five Species of Intertidal Fucales|J. Exp. Mar. Biol. Ecol.40:95-102|1979|10.1016/0022-0981(79)90037-6
81610|T||Issa,A.A., R. Abdel-Basset, and M.S. Adam|Abolition of Heavy Metal Toxicity on Kirchneriella lunaris (Chlorophyta) by Calcium|Ann. Bot.75(2): 189-192|1995|10.1006/anbo.1995.1011
81611|T||Boominathan,R., and P.M. Doran|Cadmium Tolerance and Antioxidative Defenses in Hairy Roots of the Cadmium Hyperaccumulator, Thlaspi caerulescens|Biotechnol. Bioeng.83(2): 158-167|2003|10.1002/bit.10656
81612|T||Carton,B., G. Smagghe, and L. Tirry|Toxicity of Two Ecdysone Agonists, Halofenozide and Methoxyfenozide, Against the Multicoloured Asian Lady Beetle Harmonia axyridis (Col., Coccinellidae)|J. Appl. Entomol.127(4): 240-242|2003|10.1046/j.1439-0418.2003.00734.x
81613|T||Naumann,A., and W.J. Horst|Effect of Aluminium Supply on Aluminium Uptake, Translocation and Blueing of Hydrangea macrophylla (Thunb.) Ser. Cultivars in a Peat-Clay Substrate|J. Hortic. Sci. Biotechnol.78(4): 463-469|2003|10.1080/14620316.2003.11511651
81614|T||Dusek,Z., B. Novotna, L. Vodickova, I. Naprstkova, M. Dostal, and M. Vilhelmova|Effects of 1,2-Dibromoethane on Haematopoiesis in the Chick Embryo|Xenobiotica33(4): 443-458|2003|10.1080/0049825031000072478
81615|T||Castaner,M., F. Beitia, A. Garriod, and T. DelBusto|Laboratory Evalution of Fenothiocarb Applied to Nymphal Stages of Cales noacki Howard (Hym.:  Aphelinidae)|Ann. Appl. Biol.120(S): 134-135|1992|
81616|A||Trehan,K., and Maneesha |Cadmium Mediated Control of Nitrogenase Activity and Other Enzymes in a Nitrogen Fixing Cyanobacterium|Acta Microbiol. Hung.41(4): 441-449|1994|
81617|T||Field,W.N., J.M. Hitchen, and A.T. Rees|Esterase Activity in Strains of Aedes Aegypti (Diptera: Culicidae) Tolerant and Susceptible to the Organophosphate Insecticide Malathion|J. Med. Entomol.21(4): 412-418|1984|10.1093/jmedent/21.4.412
81618|T||Naveed,M.R., A. Khaliq, and M.I. Arif|Determination of LD50 of Some Insecticides Against Beet Armyworm, Spodoptera exigua (Hubner) (Noctuidae:  Lepidoptera) in Pakistan|Pak. J. Zool.34(3): 221-223|2002|
81619|A||DeLorenzo,M.E., and L. Serrano|Individual and Mixture Toxicity of Three Pesticides; Atrazine, Chlorpyrifos, and Chlorothalonil to the Marine Phytoplankton Species Dunaliella tertiolecta|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(5): 529-538|2003|
81620|AT||Furtig,K., A. Ruegsegger, C. Brunold, and R. Brandle|Sulphide Utilization and Injuries in Hypoxic Roots and Rhizomes of Common Reed (Phragmites australis)|Folia Geobot. Phytotaxon.31(1): 143-151|1996|10.1007/BF02804003
81621|A||Yokota,A., S. Shigeoka, T. Onishi, and S. Kitaoka|Selenium as Inducer of Glutathione Peroxidase in Low-CO2- Grown Chlamydomonas reinhardtii|Plant Physiol.86(3): 649-651|1988|10.1104/pp.86.3.649
81622|T||Brown,J.C., and T.E. Devine|Inheritance of Tolerance or Resistance to Manganese Toxicity in Soybeans|Agron. J.72:898-904|1980|10.2134/agronj1980.00021962007200060009x
81624|T||Wilson,D.S., P. Zhang, R. He, R. Ota, and S.T. Omaye|Comparative Distribution of Selenoproteins in Tissues of Female Rats and Mallard Ducks Injected with Selenium-75|Toxic Subst. Mechan.15(4): 343-356|1996|
81626|T||Hodges,C.C., G.J. De Boer, and J. Avalos|Uptake and Metabolism as Mechanisms of Selective Herbicidal Activity of the 1,2,4-Triazolo(1,5-a)Pyrimidines|Pestic. Sci.29(3): 365-378|1990|10.1002/ps.2780290311
81627|T||Magadza,C.H.D.|Field Observations on the Environmental Effect of Large-Scale Aerial Applications of Endosulfan in the Eradication of Glossina morsitans centralis Westw. in the Western Province of Zambia in 1968|Rhod. J. Agric. Res.16(2): 211-220|1978|
81628|A||Saka,M.|Developmental Toxicity of p,p'-Dichlorodiphenyltrichloroethane, 2,4,6-Trinitrotoluene, Their Metabolites, and Benzo(a)pyrene in Xenopus laevis Embryos|Environ. Toxicol. Chem.23(4): 1065-1073|2004|10.1897/03-272
81629|A||Jonsson,M.E., B. Brunstrom, K. Ingebrigtsen, and I. Brandt|Cell-Specific CYP1A Expression and Benzo(a)pyrene Adduct Formation in Gills of Rainbow Trout (Oncorhynchus mykiss) Following CYP1A Induction in the Laboratory and in the Field|Environ. Toxicol. Chem.23(4): 874-882|2004|10.1897/03-211
81630|A||Au,D.W.T., P. Chen, and C.A. Pollino|Cytological Changes in Association with Ethoxyresorufin O-Deethylase Induction in Fish upon Dietary Exposure to Benzo(a)pyrene|Environ. Toxicol. Chem.23(4): 1043-1050|2004|10.1897/03-106
81631|A||Cesar,A., L. Marin-Guirao, R. Vita, and A. Marin|Sensitivity of Mediterranean Amphipods and Sea Urchins to Reference Toxicants (Sensibilidad de Anfipodos y erizos del Mar Mediterraneo a Sustancias Toxicas de Referencia)|Cienc. Mar.28(4): 407-417|2002|10.7773/cm.v28i4.234
81632|A||Coppellotti,O.|Effects of Cadmium on Uronema marinum (Ciliophora,Scuticociliatida) from Antarctica|Acta Protozool.33:159-167|1994|
81633|T||Bovey,R.W., J.A. Dahlberg, S.A. Senseman, F.R. Miller, and P. Madera-Torres|Desiccation and Germination of Grain Sorghum as Affected by Glufosinate|Agron. J.91(3): 373-376|1999|10.2134/agronj1999.00021962009100030004x
81634|A||Collard,J.M., and R.F. Matagne|Cd2+ Resistance in Wild-Type and Mutant Strains of Chlamydomonas reinhardtii|Environ. Exp. Bot.34(2): 235-244|1994|10.1016/0098-8472(94)90044-2
81635|A||Castille,F.L.,Jr., and A.L. Lawrence|The Effects of EDTA (Ethylenedinitrotetraacetic acid) on the Survival and Development of Shrimp nauplii (Penaeus stylirostris Stimpson) and the Interactions of EDTA with the Toxicities of Cadmium, Calcium, and Phenol|J. World Aquac. Soc.12(2): 292-304|1981|
81636|A||Gothe,L., H. Soderberg, E. Sjolander, and H.O. Nohrstedt|Effects on Water Chemistry, Benthic Invertebrates and Brown Trout Following Forest Fertilization in Central Sweden|Scand. J. For. Res.8(1): 81-93|1993|10.1080/02827589309382757
81637|T||Armstrong,R.A., J. Anderson, J.D. Cowburn, J. Cox, and J.A. Blair|Aluminium Administered in Drinking Water but not in the Diet Influences Biopterin Metabolism in the Rodent|Biol. Chem. Hoppe-Seyler373(10): 1075-1078|1992|
81638|A||Reinfelder,J.R., and N.S. Fisher|Retention of Elements Absorbed by Juvenile Fish (Menidia menidia, Menidia beryllina) from Zooplankton Prey|Limnol. Oceanogr.39(8): 1783-1789|1994|10.4319/lo.1994.39.8.1783
81639|T||Adams,J.B., and M.E. Drew|Grain Aphids in New Brunswick.  III.  Aphid Populations in Herbicide-Treated Oat Fields|Can. J. Zool.43:789-794|1965|10.1139/z65-082
81640|A||Takeda,T., Y. Nakano, and S. Shigeoka|Effects of Selenite, CO2 and Illumination on the Induction of Selenium-Dependent Glutathione Peroxidase in Chlamydomonas reinhardtii|Plant Sci.94(1/2): 81-88|1993|10.1016/0168-9452(93)90009-O
81641|T||Bozsik,A.|Effect of Some Zoocides on Chrysoperla carnea Adults (Planipennia, Chrysopidae) in the Laboratory|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)68(3): 58-59|1995|10.1007/BF01996733
81642|A||Manoharan,A.C., and V. Prabakaran|Acute Toxicity and Genotoxic Effect of Chromium and Selenium on the Common Loach, Lepidocephalichthyes thermalis (Bleeker)|Geobios21(1): 44-46|1994|
81643|A||Shigeoka,S., T. Takeda, T. Hanaoka, A. Yokota, S. Kitaoka, and Y. Iizuka|Properties of Selenium-Induced Glutathione Peroxidase in Low-CO2-Grown Chlamydomonas reinhardtii|In: M.Baltscheffsky (Ed.), Current Research in Photosynthesis, Dordrecht, Netherlands4:615-618|1990|
81644|A||Srivastava,A.K., and A.K. Srivastava|Histopathological Changes in the Liver Associated with Selenium Exposure in the Freshwater Indian Catfish Heteropneustes fossilis|J. Adv. Zool.16(1): 30-33|1995|
81645|T||Chinoy,N.J., and S. Bhattacharya|Effects of Chronic Administration of Aluminum Chloride on Reproductive Functions of Testis and Some Accessory Sex Organs of Male Mice|Indian J. Environ. Toxicol.7(1): 12-15|1997|
81646|A||Pavicic,J.|Interaction of Cd and Zn in Relation to Oxygen Consumption in Early Stages of Marine Bivalve Molluscs|J. Etud. Pollut. Mar.:627-634|1980|
81648|T||Abo-El-Seoud,M.A., A.M. Shams El-Din, L.N. Danial, and S.M. Ahmed|Residues and Persistence of Some Organophosphorus Insecticides Applied to Cabbage Plants|Food Chem.54(2): 137-140|1995|10.1016/0308-8146(94)00152-U
81649|A||Rady,A.A., N. Saber, H.M. Kotkat, B. Matkovics, and A.M. Nour|Metals Effect on Fish Tissues. I. Effects of Chronic Mercury and Selenium Treatment on Young Tilapia Tissue Enzymes and Lipid Peroxidation|Acta Biol. 38(1-4): 3-9|1992|
81650|A||Hostettmann.,K., H. Kizu, and T. Tomimori|Molluscicidal Properties of Various Saponins|Planta Med.44(1): 34-35|1982|10.1055/s-2007-971396
81651|A||Wolfenberger,V.A.|Influence of Environmental Factors on Oxygen Consumption of Clibanarius vittatus (Striped Hermit Crab)|Texas J. Sci.39(1): 37-48|1987|
81652|AT||Buckner,C.H.|The Biological Side-Effects of Fenitrothion in Forest Ecosystems|Rep. - Chem. Control Res. Inst.:29 p.|1974|
81653|T||Braverman,Y., A. Chizov-Ginzburg, I. Yeruham, O. Kolsky, and A. Saran|Control Experiments with Yellow Jacket Wasps (Hymenoptera: Vespidae) Injuring Cattle in Israel|J. Econ. Entomol.91(2): 486-491|1998|10.1093/jee/91.2.486
81654|T||Kinraide,T.B., P.R. Ryan, and L.V. Kochian|Interactive effects of Al3+, H+, and other cations on root elongation considered in terms of cell-surface electrical potential|J. Plant Physiol.99(4): 1461-1468|1992|10.1104/pp.99.4.1461
81655|T||Ali,R.M., and H.M. Abbas|Response of Salt Stressed Barley Seedlings to Phenylurea|Plant Soil Environ.49(4): 158-162|2003|10.17221/4107-PSE
81656|T||Erickson,A.E., and G. Pincus|Insensitivity of Fowl Testes to Cadmium|J. Reprod. Fertil.7:379-382|1964|10.1530/jrf.0.0070379
81657|T||Morgulis,M.S.F.A., and J. Palermo-Neto|Effects of In Ovo and Acute Diazepam Treatments on Peripheral Benzodiazepine Receptors and Cutaneous Basophil Hypersensitivity in Chickens|Vet. Hum. Toxicol.44(6): 328-330|2002|
81658|T||Yildrim,E., and C.W. Hoy|"Interaction Between Cyromazine and the Entomopathogenic Nematode Heterorhabditis bacteriophora Poinar ""GPS11"" for Control of Onion Maggot, Delia antiqua (Meigen)"|Crop Prot.22(7): 923-927|2003|10.1016/S0261-2194(03)00091-7
81659|A||Dalla Venezia,L., V.U. Fossato, and S. Scarfi|Characteristics of Suspensions of PCB Aroclor 1254 and Corexit 7664 and Their Short- and Long-Term Effects on Tisbe bulbisetosa|Journees Etud. Pollut.:613-620|1980|
81660|A||Saleh,H.H.|Absorption of 45CaCl2, 203HgCl2 and 14C-Labelled DDT by Tilapia zillii Gerv. in Fresh and Salt Water|Journees Etud. Pollut.:621-626|1980|
81661|T||Chinoy,N.J., and S. Bhattacharya|Effects of a Single Dose of Aluminium Chloride on Some Reproductive Organs and Fertility in Male Mice|Indian J. Environ. Toxicol.6(1): 10-13|1996|
81662|T||Narotsky,M.G., D.S. Best, D.L. Guidici, and R.L. Cooper|Strain Comparisons of Atrazine-Induced Pregnancy Loss in the Rat|Reprod. Toxicol.15(1): 61-69|2001|10.1016/S0890-6238(00)00111-8
81663|T||Rayner,J.L., C. Wood, and S.E. Fenton|Exposure Parameters Necessary for Delayed Puberty and Mammary Gland Development in Long-Evans Rats Exposed In Utero to Atrazine|Toxicol. Appl. Pharmacol.195(1): 23-34|2004|10.1016/j.taap.2003.11.005
81664|A||Rohr,J.R., and B.D. Palmer|Aquatic Herbicide Exposure Increases Salamander Desiccation Risk Eight Months Later in a Terrestrial Environment|Environ. Toxicol. Chem.24(5): 1253-1258|2005|10.1897/04-448R.1
81665|A||Schuler,L.J., A.J. Trimble, J.B. Belden, and M.J. Lydy|Joint Toxicity of Triazine Herbicides and Organophosphate Insecticides to the Midge Chironomus tentans|Arch. Environ. Contam. Toxicol.49(2): 173-177|2005|10.1007/s00244-004-0224-8
81666|T||Matthews,H.B., and M.W. Anderson|The Distribution and Excretion of 2,4,5,2',5'-Pentachlorobiphenyl in the Rat|Drug Metab. Dispos.3(3): 211-219|1975|
81667|T||Son,H.Y., A. Nishikawa, K. Okazaki, K.Y. Lee, T. Imazawa, and M. Hirose|Lack of Modifying Effects of Atrazine and/or Tamoxifen on Thyroid Carcinogenesis in Rats Pretreated with N-bis(2-Hydroxypropyl)Nitrosamine (DHPN)|Food Chem. Toxicol.41(12): 1811-1816|2003|10.1016/S0278-6915(03)00234-5
81668|T||Bakke,J.E., J.D. Larson, and C.E. Price|Metabolism of Atrazine and 2-Hydroxyatrazine by the Rat|J. Agric. Food Chem.20(3): 603-607|1972|10.1021/jf60181a064
81669|A||Zou,E., and R. Bonvillain|Chitinase Activity in the Epidermis of the Fiddler Crab, Uca pugilator, as an In Vivo Screen for Molt-Interfering Xenobiotics|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 225-230|2004|10.1016/j.cca.2004.11.003
81670|T||Tanaka,T., H. Kohno, R. Suzuki, and S. Sugie|Lack of Modifying Effects of an Estrogenic Compound Atrazine on 7,12-Dimethylbenz(a)anthracene-Induced Ovarian Carcinogenesis in Rats|Cancer Lett.210(2): 129-137|2004|10.1016/j.canlet.2004.01.025
81671|T||Grant,D.L., D.C. Villeneuve, K.A. Mccully, and W.E. Phillips|Placental Transfer of Polychlorinated Biphenyls in the Rabbit|Environ. Physiol.1:61-66|1971|
81672|A||Del carmen Alvarez,M.|Significance of Environmentally Realistic Levels of Selected Contaminants to Ecological Performance of Fish Larvae:  Effects of Atrazine, Malathion, and Methylmercury|Ph.D.Thesis, University of Texas, Austin, TX:141 p.|2005|
81673|T||Astroff,B., C. Rowlands, R. Dickerson, and S. Safe|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Inhibition of 17beta-Estradiol-Induced Increases in Rat Uterine Growth Factor Receptor Binding Activity and Gene Expression|Mol. Cell. Endocrinol.72:247-252|1990|10.1016/0303-7207(90)90149-3
81674|A||Kish,P.A.|Effects of Roundup, Glean, Aatrex, and Their Active Ingredients (Glyphosate, Chlorsulfuron, and Atrazine) on Periphyton Communities Studied by Using Matlock Periphytometer and Bottle Tests|Ph.D.Thesis, Oklahoma State Univ., Stillwater, OK:166 p.|2004|
81675|T||Holcomb,M., and S. Safe|Inhibition of 7,12-Dimethylbenzanthracene-Induced Rat Mammary Tumor Growth by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Cancer Lett.82(1): 43-47|1994|10.1016/0304-3835(94)90144-9
81676|T||Baars,A.J., M. Jensen, and D.D. Breimer|The Influence of Phenobarbital, 3-Methylcholanthrene and 2,3,7,8-Tetrachlorodibenzo-p-dioxin on Glutathione S-transferase Activity of Rat Liver Cytosol|Biochem. Pharmacol.27:2487-2494|1978|10.1016/0006-2952(78)90314-3
81678|T||Hait,G.N., and A.K. Sinha|Biochemical Changes Associated with Induction of Resistance in Rice Seedlings to Helminthosporium oryzae by Seed Treatment with Chemicals|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)94(4): 360-368|1987|
81679|T||Punzo,F., and C. Farmer|Effect of Lead Exposure on Spatial Learning and Running Speed in the Short-Tailed Opossum, Monodelphis domestica (Didelphidae)|J. Environ. Biol.25(1): 11-18|2004|
81680|T||Ruske,R.E., M.J. Gooding, and S.A. Jones|The Effects of Adding Picoxystrobin, Azoxystrobin and Nitrogen to a Triazole Programme on Disease Control, Flag Leaf Senescence, Yield and Grain Quality of Winter Wheat|Crop Prot.22(7): 975-987|2003|10.1016/S0261-2194(03)00113-3
81681|A||Siwicki,A.K., D.P. Anderson, and G.L. Rumsey|Dietary Intake of Immunostimulants by Rainbow Trout Affects Non-Specific Immunity and Protection Against Furunculosis|Vet. Immunol. Immunopathol.41(1/2): 125-139|1994|10.1016/0165-2427(94)90062-0
81682|T||Galperin,M., S. Graf, and D. Kenigsbuch|Seed Treatment Prevents Vertical Transmission of Fusarium moniliforme, Making a Significant Contribution to Disease Control|Phytoparasitica31(4): 344-352|2003|10.1007/BF02979805
81683|T||Lewis,J.C., and W.L. Powers|Antagonistic Action of Chlorides on the Toxicity of Iodides to Corn|Plant Physiol.16(2): 393-398|1941|10.1104/pp.16.2.393
81684|T||Heiss,S., A. Wachter, J. Bogs, C. Cobbett, and T. Rausch|Phytochelatin Synthase (PCS) Protein is Induced in Brassica juncea Leaves After Prolonged Cd Exposure|J. Exp. Bot.54(389): 1833-1839|2003|10.1093/jxb/erg205
81685|A||Weimin,Y., G.E. Batley, and M. Ahsanullah|Metal Bioavailability to the Soldier Crab Mictyris longicarpus|Sci. Total Environ.141(1-3): 27-44|1994|10.1016/0048-9697(94)90015-9
81686|T||Wittig,R., H.J. Ballach, and A. Kuhn|Exposure of the Roots of Populus nigra L. cv. Loenen to PAHs and Its Effect on Growth and Water Balance|Environ. Sci. Pollut. Res.10(4): 235-244|2003|10.1065/espr2003.04.150.1
81687|A||Person-Le Ruyet,J., A. Lamers, A. Le Roux, A. Severe, G. Boeuf, and N. Mayer-Gostan|Long-Term Ammonia Exposure of Turbot:  Effects on Plasma Parameters|J. Fish Biol.62(4): 879-894|2003|10.1046/j.1095-8649.2003.00073.x
81688|A||Tudor,M.|Influence of Lead on delta-Aminolevulinic Acid Dehydratase Activity in Blood of Scyliorhinus canicula (L.)|J. Etude Pollut.:757-760|1980|
81690|T||Desaulniers,D., K. Leingartner, B. Musicki, J. Cole, M. Li, M. Charbonneau, and B.K. Tsang|Lack of Effects of Postnatal Exposure to a Mixture of Aryl Hydrocarbon-Receptor Agonists on the Development of Methylnitrosourea-Induced Mammary Tumors in Sprague-Dawley Rats|J. Toxicol. Environ. Health Part A67(18): 1457-1476|2004|10.1080/15287390490483818
81691|T||Ruangwises,S., L.L. Bestervelt, D.W. Piper, C.J. Nolan, and W.N. Piper|Human Chorionic Gonadotropin Treatment Prevents Depressed 17alpha-Hydrolase/C17-20 Lyase Activities and Serum Testosterone Concentrations in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Treated Rats|Biol. Reprod.45:143-150|1991|10.1095/biolreprod45.1.143
81692|AT||Schlezinger,J.J., R.D. White, and J.J. Stegeman|Oxidative Inactivation of Cytochrome P-450 1A (CYP1A) Stimulated by 3,3',4,4'-Tetrachlorobiphenyl: Production of Reactive Oxygen by Vertebrate CYP1As|Mol. Pharmacol.56(3): 588-597|1999|10.1124/mol.56.3.588
81693|A||Dennett,J.A., J.L. Bernhardt, and M.V. Meisch|Effects of Fipronil and lambda-Cyhalothrin Against Larval Anopheles quadrimaculatus and Nontarget Aquatic Mosquito Predators in Arkansas Small Rice Plots|Am. Mosq. Control Assoc. J.19(2): 172-174|2003|
81694|T||Frick,E.L., and R.T. Burchill|Eradication of Apple Powdery Mildew from Infected Buds|Plant Dis. Rep.56(9): 770-772|1972|
81696|A||Aajoud,A., P. Ravanel, and M. Tissut|Fipronil Metabolism and Dissipation in a Simplified Aquatic Ecosystem|J. Agric. Food Chem.51(5): 1347-1352|2003|10.1021/jf025843j
81697|T||Arffmann,E.J.L., K.S. Rasmussen, and F.N. Hansen|Effect of Some Fatty Acid Methyl Esters on Gastrointestinal Carcinogenesis by N-Methyl-N-Nitro-N-Nitrosoguanidine in Rats|J. Natl. Cancer Inst.67(5): 1071-1075|1981|
81698|T||Ohkawa,M., and Y. Nishikawa|Plant Growth Inhibitory Activity of Fatty Acids and the Related Compounds by the Avena Coleoptile Test|Plant Sci.53(1): 35-38|1987|10.1016/0168-9452(87)90175-0
81699|T||Rhone-Poulenc|Initial Submission:  Pre-Development Evaluation Study in the Female Rat w/5-Amino-1-[2,6-Dichloro-4-(Trifluoromethyl)Phenyl]-4-[(Trifluoromethyl)Sulf* w/Cover Letter Dated 102792|Rhone-Poulenc, Research Triangle Park, NC:45 p.|1992|
81700|T||Rhone-Poulenc|Initial Submission:  Acute Oral Toxicity Study in Rats (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920000996S:25 p.|1992|
81706|A||Stephensen,E., M. Adolfsson-Erici, M. Hulander, J. Parkkonen, and L. Forlin|Rubber Additives Induce Oxidative Stress in Rainbow Trout|Aquat. Toxicol.75(2): 136-143|2005|10.1016/j.aquatox.2005.07.008
81707|T||Rhone-Poulenc|Initial Submission: Acute Oral Toxicity Study in Rats (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920000995S:24 p.|1992|
81709|T||EPA/OTS|Initial Submission:  Acute Oral Toxicity Study in Rats (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920000998S:26 p.|1992|
81710|T||Life Science Research|Initial Submission:  Maximum Tolerated Dose Study by Oral (Capsule) Administered to Beagle Dogs w/5-Amino-1-[2,6-Dichloro-4-(Trifluoromethyl)Phenyl]* w/Cover Letter Dated 102792|Rhone-Poulenc, Cranbury, NJ:79 p.|1992|
81711|T||Mayer,D.F., J.D. Lunden, G. Kovacs, and E.R. Miliczky|Field Evaluation of Non-Pesticide Chemicals as Honey Bee Repellents|In: L.P.Elzunces, C.Elissier, & G.B.Lewis (Eds.), Hazards of Pesticides to Bees, Institute National de la Recherche Agronomique, Paris, France:159-168|2001|
81712|T||Ema,M., T. Itami, and H. Kawasaki|Teratological Assessment of Diiodomethyl p-Tolyl Sulfone in Rats|Toxicol. Lett.62(1): 45-52|1992|10.1016/0378-4274(92)90077-W
81713|T||McFarlane,J.E.|Fatty Acids, Methyl Esters and Insect Growth|Comp. Biochem. Physiol.24(2): 377-384|1968|10.1016/0010-406X(68)90989-4
81714|T||Plich,H., and E.S. Hegazi|Induction of Feathers in Apple Trees in the First Year of Growth in the Nursery|Fruit Sci. Rep. (Skierniewice)4(2): 11-21|1977|
81716|A||Ishaque,A.B., P.B. Tchounwou, B.A. Wilson, and T. Washington|Developmental Arrest in Japanese medaka (Oryzias latipes) Embryos Exposed to Sublethal Concentrations of Atrazine and Arsenic Trioxide|J. Environ. Biol.25(1): 1-6|2004|
81717|T||Reichert,K., and R. Menzel|Expression Profiling of Five Different Xenobiotics Using a Caenorhabditis elegans Whole Genome Microarray|Chemosphere61(2): 229-237|2005|10.1016/j.chemosphere.2005.01.077
81719|T||Menzel,R., M. Rodel, J. Kulas, and C.E.W. Steinberg|CYP35:  Xenobiotically Induced Gene Expression in the Nematode Caenorhabditis elegans|Arch. Biochem. Biophys.438(1): 93-102|2005|10.1016/j.abb.2005.03.020
81720|T||Menzel,R., T. Bogaert, and R. Achazi|A Systematic Gene Expression Screen of Caenorhabditis elegans Cytochrome P450 Genes Reveals CYP35 as Strongly Xenobiotic Inducible|Arch. Biochem. Biophys.395(2): 158-168|2001|10.1006/abbi.2001.2568
81731|T||Lytle,T.F., and J.S. Lytle|Growth Inhibition as Indicator of Stress Because of Atrazine Following Multiple Toxicant Exposure of the Freshwater Macrophyte, Juncus effusus L.|Environ. Toxicol. Chem.24(5): 1198-1203|2005|10.1897/04-007R.1
81732|T||Gojmerac,T., J. Pleadin, M. Zuric, R. Rajkovic-Janje, and M. Korsic|Serum Luteinizing Hormone Response to Administration of Gonadotropin-Releasing Hormone to Atrazine-Treated Gilts|Vet. Hum. Toxicol.46(5): 245-247|2004|
81733|T||Busey,P., T.K. Broschat, and D.L. Johnston|Injury to Landscape and Vegetable Plants by Volatile Turf Herbicides|HortTechnology13(4): 650-653|2003|10.21273/HORTTECH.13.4.0650
81734|T||Sharma,H.C., D.J. Sullivan, M.M. Sharma, and S.V.R. Shetty|Influence of Weeding Regimes and Pearl Millet Genotypes on Parasitism of the Oriental Armyworm, Mythimna separata|Biocontrol49(6): 689-699|2004|10.1007/s10526-004-5276-1
81735|T||Bolle,P., S. Mastrangelo, P. Tucci, and M.G. Evandri|Clastogenicity of Atrazine Assessed with the Allium cepa Test|Environ. Mol. Mutagen.43(2): 137-141|2004|10.1002/em.20007
81736|T||Pace,E., L. Pompili, A. Margonelli, P. Giardi, and M.T. Giardi|Pulse-Chase Experiments with [35S]Methionine Show D1 Reaction II Protein Turnover in Variously Herbicide Tolerant Species|Pestic. Biochem. Physiol.69(2): 92-99|2001|10.1006/pest.2000.2517
81737|A||Gotvajn,A.Z., J. Zagorc-Koncan, and T. Tisler|Estimation of Environmental Impact of Some of the Most Often Occurring Pesticides in Slovenian Surface and Underground Water|Water Sci. Technol.44(7): 87-90|2001|10.2166/wst.2001.0396
81738|T||Ugazio,G., A. Bosio, C. Nebbia, and M.G. Soffietti|Age-and Sex-Related Effects on Hepatic Drug Metabolism in Rats Chronically Exposed to Dietary Atrazine|Res. Commun. Chem. Pathol. Pharmacol.73(2): 231-243|1991|
81739|A||DeLorenzo,M.E., M. Leatherbury, J.A. Weiner, A.J. Lewitus, and M.H. Fulton|Physiological Factors Contributing to the Species-Specific Sensitivity of Four Estuarine Microalgal Species Exposed to the Herbicide Atrazine|Aquat. Ecosyst. Health Manag.7(1): 137-146|2004|10.1080/14634980490281551
81740|T||Liang,G.H.L., K.C. Feltner, and O.G. Russ|Meiotic and Morphological of Grain sorghum to Atrazine, 2,4-D, Oil and Their Combinations|Weed Sci.17:8-12|1969|10.1017/S0043174500030770
81741|A||Losso,C., E. His, P.F. Ghetti, and A.V. Ghirardini|Sensitivity of Embryotoxicity Test with Mytilus galloprovincialis (LMK) Towards Some Compounds of Environmental Interest (Copper and Pesticides)|Environ. Technol.25(7): 841-846|2004|10.1080/09593330.2004.9619376
81742|T||Trentacoste,S.V., A.S. Friedmann, R.T. Youker, C.B. Breckenridge, and B.R. Zirkin|Atrazine Effects on Testosterone Levels and Androgen-Dependent Reproductive Organs in Peripubertal Male Rats|J. Androl.22(1): 142-148|2001|10.1002/j.1939-4640.2001.tb02164.x
81743|T||Kandori,H., S. Suzuki, M. Asamoto, T. Murasaki, T. Mingxi, K. Ogawa, and T. Shirai|Influence of Atrazine Administration and Reduction of Calorie Intake on Prostate Carcinogenesis in Probasin/SV40 T Antigen Transgenic Rats|Cancer Sci.96(4): 221-226|2005|10.1111/j.1349-7006.2005.00041.x
81744|T||Ueda,M., T. Imai, T. Takizawa, H. Onodera, K. Mitsumori, T. Matsui, and M. Hirose|Possible Enhancing Effects of Atrazine on Growth of 7,12-Dimethylbenz(a)anthracene-Induced Mammary Tumors in Ovariectomized Sprague-Dawley Rats|Cancer Sci.96(1): 19-25|2005|10.1111/j.1349-7006.2005.00008.x
81745|A||Londono,D.K., B.D. Siegfried, and M.J. Lydy|Atrazine Induction of a Family 4 Cytochrome P450 Gene in Chironomus tentans (Diptera: Chironomidae)|Chemosphere56(7): 701-706|2004|10.1016/j.chemosphere.2003.12.001
81746|T||Santa Maria,C., M.G. Vilas, F.G. Muriana, and A. Relimpio|Subacute Atrazine Treatment Effects on Rat Renal Functions|Bull. Environ. Contam. Toxicol.36(3): 325-331|1986|10.1007/BF01623515
81747|A||Mayasich,J.M., E.P. Karlander, and D.E.,Jr. Terlizzi|Growth Responses of Nannochloris oculata Droop and Phaeodactylum tricornutum Bohlin to the Herbicide Atrazine as Influenced by Light Intensity and Temperature|Aquat. Toxicol.8:175-184|1986|10.1016/0166-445X(86)90063-9
81748|AT||Rohr,J.R., A.A. Elskus, B.S. Shepherd, P.H. Crowley, T.M. McCarthy, J.H. Niedzwiecki, T. Sager, A. Sih, and B.D. Palmer|Multiple Stressors and Salamanders:  Effects of an Herbicide, Food Limitation, and Hydroperiod|Ecol. Appl.14(4): 1028-1040|2004|10.1890/03-5087
81749|T||Rooney,A.A., R.A. Matulka, and R.W. Luebke|Developmental Atrazine Exposure Suppresses Immune Function in Male, but not Female Sprague-Dawley Rats|Toxicol. Sci.76(2): 366-375|2003|10.1093/toxsci/kfg250
81750|T||Babic-Gojmerac,T., Z. Kniewald, and J. Kniewald|Testosterone Metabolism in Neuroendocrine Organs in Male Rats Under Atrazine and Deethylatrazine Influence|J. Steroid Biochem.33(1): 141-146|1989|10.1016/0022-4731(89)90369-5
81751|AT||Fort,D.J., R.L. Rogers, J.H. Thomas, B.O. Buzzard, A.M. Noll, and C.D. Spaulding|Comparative Sensitivity of Xenopus tropicalis and Xenopus laevis as Test Species for the FETAX Model|J. Appl. Toxicol.24(6): 443-457|2004|10.1002/jat.997
81753|A||Dorigo,U., and C. Leboulanger|A Pulse-Amplitude Modulated Fluorescence-Based Method for Assessing the Effects of Photosystem II Herbicides on Freshwater Periphyton|J. Appl. Phycol.13(6): 509-515|2001|10.1023/A:1012598816581
81754|T||Park,E.K., and E.M. Lees|Application of an Artificial Sea Salt Solution to Determine Acute Toxicity of Herbicides to Proisotoma minuta (Collembola)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(4): 595-604|2005|
81755|T||Szabo,R., M. Keseru, S. Fejes, P. Budai, E. Juhasz, and A. Pongracz|Toxicity of a Dichlorvos Containing Insecticide Formulation and an Atrazine Containing Herbicide Formulation in Chicken Embryos After Individual Administration|Commun. Agric. Appl. Biol. Sci.69(4): 811-814|2004|
81756|A||Bouilly,K., H. McCombie, A. Leitao, and S. Lapegue|Persistence of Atrazine Impact on Aneuploidy in Pacific Oysters, Crassostrea gigas|Mar. Biol.145(4): 699-705|2004|
81757|A||Bouilly,K., A. Leitao, R. Chaves, H. Guedes-Pinto, P. Boudry, and S. Lapegue|Endonuclease Banding Reveals that Atrazine-Induced Aneuploidy Resembles Spontaneous Chromosome Loss in Crassostrea gigas|Genome48(1): 177-180|2005|10.1139/g04-087
81758|A||Tanguy,A., I. Boutet, and D. Moraga|Molecular Characterization of the Glutamine Synthetase Gene in the Pacific Oyster Crassostrea gigas:  Expression Study in Response to Xenobiotic Exposure and Developmental Stage|Biochim. Biophys. Acta1681(2-3): 116-125|2005|10.1016/j.bbaexp.2004.10.010
81769|T||Liu,Z., M. Wu, Z. Deng, Q. Wang, H. Chen, J. Zhang, M. Launois, and Z. Zheng|Action Mode, Persistence and Control Value of Fipronil for Rice Grasshoppers Oxya (Orthoptera:  Cantantopidae)|Entomol. Sin.6(1): 62-70|1999|
81770|A||Masuda,M., H. Odake, K. Miura, and K. Oba|Effects of 2-Sulfonatofatty Acid Methyl Ester (alpha-SFMe) on Aquatic Organisms and Activated Sludge|Yukagaku43(7): 551-555|1994|
81772|T||Downs,A.M.R., K.A. Stafford, and G.C. Coles|Susceptibility of British Head Lice, Pediculus capitis, to Imidacloprid and Fipronil|Med. Vet. Entomol.14(1): 105-107|2000|10.1046/j.1365-2915.2000.00216.x
81773|T||Wynn,J.E., M.L. Caldwell, J.R. Robinson, R.L. Beamer, and C.T. Bauguess|Synthesis and Bioevaluation of a Series of Fatty Acid Esters of p-[N,N-bis(2-Chloroethyl)Amino]Phenol|J. Pharm. Sci.71(7): 772-776|1982|10.1002/jps.2600710713
81776|T||Marrs,R.H., C.T. Williams, A.J. Frost, and R.A. Plant|Assessment of the Effects of Herbicide Spray Drift on a Range of Plant Species of Conservation Interest|Environ. Pollut.59(1): 71-86|1989|10.1016/0269-7491(89)90022-5
81777|T||Gough,B.J., and T.E. Shellenberger|In Vivo Inhibition of Rabbit Whole Blood Cholinesterase with Organophosphate Inhibitors and Reactivation with Oximes|Drug Chem. Toxicol.1(1): 25-43|1977|10.3109/01480547709034425
81778|T||Brooks,D.R., S.J. Clark, J.N. Perry, D.A. Bohan, G.T. Champion, L.G. Firbank, A.J. Haughton, C. Hawes, M.S. Heard, and |Invertebrate Biodiversity in Maize Following Withdrawal of Triazine Herbicides|Proc. R. Soc. Lond. Ser. B Biol. Sci.272(1571): 1497-1502|2005|
81779|T||Islam,M.O., M. Hara, and J. Miyake|Induction of P-Glycoprotein, Glutathione-S-Transferase and Cytochrome P450 in Rat Liver by Atrazine|Environ. Toxicol. Pharmacol.12(1): 1-6|2002|10.1016/S1382-6689(01)00121-1
81780|T||Foster,T.S., H.V. Morley, R. Purkayastha, R. Greenhalgh, and J.R. Hunt|Residues in Eggs and Tissues of Hens Fed a Ration Containing Low Levels of Pesticides with and Without Charcoal|J. Econ. Entomol.65(4): 982-988|1972|10.1093/jee/65.4.982
81781|A||Boutet,I., A. Tanguy, and D. Moraga|Characterisation and Expression of Four mRNA Sequences Encoding Glutathione S-Transferases pi, mu, omega and sigma Classes in the Pacific Oyster (Crassostrea gigas) Exposed to Hydrocarbons and Pesticides|Mar. Biol.146(1): 53-64|2004|10.1007/s00227-004-1423-6
81782|A||Jop,K.M.|(Atrazine Technical) - Acute Toxicity to Fathead Minnows (Pimephales promelas) Under Static Conditions|SLI Rep.No.91-1-3630, Springborn Lab.Inc., Environ.Sci.Div., Wareham, MA:46 p.|1991|
81783|T||Bharpoda,T.M., D.B. Sisodiya, and J.R. Patel|Effectiveness of Indoxacarb 15% sc in Controlling Insect-Pests of 'H 6' Upland Cotton (Gossypium hirsutum)|Indian J. Agric. Sci.73(4): 203-205|2003|
81784|T||Taware,S.P., P. Varghese, G.B. Halvankar, and V.M. Raut|Chemical Control of Leaf-Miner (Aproaerema modicella) of Soybean (Glycine max)|Indian J. Agric. Sci.73(2): 124-125|2003|
81786|T||Martin,N.A., P.J. Workman, and R.C. Butler|Insecticide Resistance in Onion Thrips (Thrips tabaci) (Thysanoptera:  Thripidae)|N. Z. J. Crop Hortic. Sci.31(2): 99-106|2003|10.1080/01140671.2003.9514242
81787|T||Frances,S.P., K. Watson, and B.G. Constable|Comparative Toxicity of Permethrin- and Bifenthrin-Treated Cloth Fabric for Anopheles farauti and Aedes aegypti|Am. Mosq. Control Assoc. J.19(3): 275-278|2003|
81788|T||Smirle,M.J., D.T. Lowery, and C.L. Zurowski|Susceptibility of Leafrollers (Lepidoptera:  Tortricidae) from Organic and Conventional Orchards to Azinphosmethyl, Spinosad, and Bacillus thuringiensis|J. Econ. Entomol.96(3): 879-884|2003|10.1603/0022-0493-96.3.879
81789|A||Lindhjem,P.A., and M.G. Bennet-Chambers|Bioaccumulation and Acute Toxicity of Zinc in Marron, Cherax tenuimanus (Smith) (Decapoda:  Parastacidae)|In: G.J.Whisson and B.Knott, Proc.13th Symp.of the Int.Assoc.of Astacology:424-430|2002|
81790|T||Khajeh-Hosseini,M., A.A. Powell, and I.J. Bingham|The Interaction Between Salinity Stress and Seed Vigour During Germination of Soyabean Seeds|Seed Sci. Technol.31(3): 715-725|2003|10.15258/sst.2003.31.3.20
81791|A||Van Look,K.J.W., and D.E. Kime|Automated Sperm Morphology Analysis in Fishes: The Effect of Mercury on Goldfish Sperm|J. Fish Biol.63(4): 1020-1033|2003|10.1046/j.1095-8649.2003.00226.x
81792|A||Peyghan,R., and G. Azary Takamy|Histopathological, Serum Enzyme, Cholesterol and Urea Changes in Experimental Acute Toxicity of Ammonia in Common Carp Cyprinus carpio and Use of Natural Zeolite for Prevention|Aquac. Int.10(4): 317-325|2002|10.1023/A:1022408529458
81793|A||Dussault,E.B., R.C. Playle, D.G. Dixon, and R.S. McKinley|Effects of Sublethal, Acidic Aluminum Exposure on Blood Ions and Metabolites, Cardiac Output, Heart Rate, and Stroke Volume of Rainbow Trout, Oncorhynchus mykiss|Fish Physiol. Biochem.25(4): 347-357|2001|10.1023/A:1023295413119
81794|A||Tabata,A., N. Miyamoto, Y. Ohnishi, M. Itoh, T. Yamada, T. Kamei, and Y. Magara|The Effect of Chlorination of Estrogenic Chemicals on the Level of Serum Vitellogenin of Japanese Medaka (Oryzias latipes)|Water Sci. Technol.47(9): 51-57|2003|10.2166/wst.2003.0490
81795|A||Nowak,B.F., and M.J. Kingsford|Exposure to Thiodan Results in Lipofuscin Accumulation in Hepatocytes of the Freshwater Catfish Tandanus tandanus|Dis. Aquat. Org.56(2): 135-143|2003|10.3354/dao056135
81797|A||Williams,M.L., C.G. Palmer, and A.K. Gordon|Riverine Macroinvertebrate Responses to Chlorine and Chlorinated Sewage Effluents - Acute Chlorine Tolerances of Baetis harrisoni (Ephemeroptera) from Two Rivers in KwaZulu-Natal, South Africa|Water SA29(4): 483-488|2003|
81798|A||Aravind,P., and M.N.V. Prasad|Zinc Protects Chloroplasts and Associated Photochemical Functions in Cadmium Exposed Ceratophyllum demersum L., a Freshwater Macrophyte|Plant Sci.166(5): 1321-1327|2004|10.1016/j.plantsci.2004.01.011
81799|T||Mostowy,J.M.|"Review of ""Acute Oral Toxicity Study of Product PE-110 in Sprague-Dawley Rats"" Study #8791D"|TSCA Health & Safety Study:1-2|2003|
81800|T||Arai,F., H. Yamauchi, K. Chiba, and K. Yoshida|Excretion of Triethyllead, Diethyllead and Inorganic Lead in Rabbits After Injection of Triethyl Neopentoxy Lead|Ind. Health36(4): 331-336|1998|10.2486/indhealth.36.331
81801|A||Brouwer,M., D.W. Engel, J. Bonaventura, and G.A. Johnson|In Vivo Magnetic Resonance Imaging of the Blue Crab, Callinectes sapidus:  Effect of Cadmium Accumulation in Tissues on Proton Relaxation Properties|J. Exp. Zool.263:32-40|1992|10.1002/jez.1402630105
81802|A||Munda,I.M.|Temperature Dependence of Zinc Uptake in Fucus virsoides (Don.) J.Ag. and Enteromorpha prolifera (O.F.Mull.) J.Ag.from the Adriatic Sea|Bot. Mar.22:149-152|1979|
81803|A||Peck,R.K.|The Trace Element Selenium Induces Trichocyst Formation in the Ciliated Protozoan Pseudomicrothorax dubius|Eur. J. Cell Biol.41(2): 174-181|1986|
81805|T||Chang,H., Y.J. Wang, L.W. Chang, and P. Lin|A Histochemical and Pathological Study on the Interrelationship Between TCDD-Induced AhR Expression, AhR Activation, and Hepatotoxicity in Mice|J. Toxicol. Environ. Health Part A68(17-18): 1567-1579|2005|
81806|T||Morvai,V., E. Szakmary, and G. Ungvary|The Effects of Carbon Disulfide and Ethanol on the Circulatory System of Rats|J. Toxicol. Environ. Health Part A68(10): 797-809|2005|10.1080/15287390590930144
81807|T||Wilfong,E.R., and R.D. Dey|The Release of Nerve Growth Factor from the Nasal Mucosa Following Toluene Diisocyanate|J. Toxicol. Environ. Health Part A68(15): 1337-1348|2005|10.1080/15287390590953590
81808|T||Arfsten,D.P., M. Bekkedal, E.R. Wilfong, J. Rossi III, K.A. Grasman, L.B. Healey, J.M. Rutkiewicz, E.W. Johnson, A.R. T|Study of the Reproductive Effects in Rats Surgically Implanted with Depleted Urtanium for up to 90 Days|J. Toxicol. Environ. Health Part A68(11-12): 967-997|2005|10.1080/15287390590912603
81809|AT||Swift,M.C.|Stream Ecosystem Response to, and Recovery from, Experimental Exposure to Selenium|J. Aquat. Ecosyst. Stress Recovery9(3): 159-184|2002|10.1023/A:1021299003516
81810|A||Milam,C.D., J.L. Farris, F.J. Dwyer, and D.K. Hardesty|Acute Toxicity of Six Freshwater Mussel Species (Glochidia) to Six Chemicals:  Implications for Daphnids and Utterbackia imbecillis as Surrogates for Protection of Freshwater Mussels (Unionidae)|Arch. Environ. Contam. Toxicol.48(2): 166-173|2005|10.1007/s00244-003-3125-3
81811|T||Johnson,M.S., R.M.,Jr. Gogal, and C.T. Larsen|Food Avoidance Behavior to Dietary Octahydro-1,3,5,7-Tetranitro-1,3,5,7-Tetrazocine (HMX) Exposure in the Northern Bobwhite (Colinus virginianus)|J. Toxicol. Environ. Health Part A68(15): 1349-1357|2005|10.1080/15287390590953608
81812|T||Kocdor,H., R. Cehreli, M.A. Kocdor, B. Sis, O. Yilmaz, T. Canda, B. Demirkan, H. Resmi, M. Alakavuklar, and O. Harmanci|Toxicity Induced by the Chemical Carcinogen 7,12-Dimethylbenz(a)anthracene and the Protective Effects of Selenium in Wistar Rats|J. Toxicol. Environ. Health Part A68(9): 693-701|2005|10.1080/15287390590925438
81813|T||Hussain,I., M.S. Piepenbrink, and R.R. Dietert|Impact of In Ovo-Administered Lead and Testosterone on Developing Female Thymocytes|J. Toxicol. Environ. Health Part A68(15): 1309-1319|2005|10.1080/15287390590953554
81814|A||Savant,K.B., and G.V. Nilkanth|On Comparative Studies of Acute Toxicity of Hexavalent Chromium and Selenium to Scylla serrata (Forskal)|Pollut. Res.10(4): 239-243|1991|
81815|A||Eder,K.J., C.M. Leutenegger, B.W. Wilson, and I. Werner|Molecular and Cellular Biomarker Responses to Pesticide Exposure in Juvenile Chinook Salmon (Oncorhynchus tshawytscha)|Mar. Environ. Res.58(2-5): 809-813|2004|10.1016/j.marenvres.2004.03.098
81816|A||Tessier,L., G. Vaillancourt, and L. Pazdernik|Comparative Study of the Cadmium and Mercury Kinetics Between the Short-Lived Gastropod Viviparus georgianus (lea) and Pelecypod Elliptio complanata (lightfoot), Under Laboratory Conditions|Environ. Pollut.85:271-282|1994|10.1016/0269-7491(94)90048-5
81817|A||Szilagyi,M., J. Nemcsok, S. Sankari, A. Suri, and E. Szabo|Effects of Selenium Supplementation on Serum Biochemical Parameters in Paraquat Poisoned Carp|Mengen Spurenelemente13:155-162|1993|
81818|T||Levine,B.S., E.M. Furedi, D.E. Gordon, J.M. Burns, and P.M. Lish|Thirteen Week Toxicity Study of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) in Fischer 344 Rats|Toxicol. Lett.8(4/5): 241-245|1981|10.1016/0378-4274(81)90108-9
81819|A||Burkiewicz,K., R. Synak, and Z. Tukaj|Toxicity of Three Insecticides in a Standard Algal Growth Inhibition Test with Scenedesmus subspicatus|Bull. Environ. Contam. Toxicol.74(6): 1192-1198|2005|10.1007/s00128-005-0707-y
81820|A||Dua,A., and N. Gupta|Mercury Toxicology as Assessed Through Fish Scales|Bull. Environ. Contam. Toxicol.74(6): 1105-1110|2005|10.1007/s00128-005-0695-y
81821|A||McKenney,C.L.,Jr.|Ecophysiological Studies on the Ontogeny of Euryplasticity in the Caridean Shrimp, Palaemonetes pugio (Hothuis) and Modifications by Zinc|Ph.D. Thesis, Texas A&M University, College Station TX:217 p.|1979|
81822|A||Sarkar,S.K.|Toxicity of Herbicide 2,4-D to Fish:  Effects of Temperature|Proc. Zool. Soc. (Calcutta)43(1): 45-48|1990|
81823|A||Price,N.M., and P.J. Harrison|Specific Selenium-Containing Macromolecules in the Marine Diatom Thalassiosira pseudonana|Plant Physiol.86(1): 192-199|1988|10.1104/pp.86.1.192
81824|A||Hu,M., Y. Yang, J.M. Martin, K. Yin, and P.J. Harrison|Preferential Uptake of Se (IV) Over Se (VI) and the Production of Dissolved Organic Se by Marine Phytoplankton|Mar. Environ. Res.44(2): 225-231|1996|10.1016/S0141-1136(97)00005-6
81825|T||Ebeid,M.M., and M. Kutacek|Effect of EDTA on Transport Forms of Manganese in Maize Xylem Exudate|Biol. Plant. (Praha)21(3): 178-182|1979|10.1007/BF02884564
81826|T||Lal,N.|Toxic Effect of Lead (Pb++) on Certain Biochemical Parameters in Gram (Cicer arietinum L.) Seedlings|Bull. Environ. Contam. Toxicol.75(1): 67-72|2005|10.1007/s00128-005-0719-7
81827|T||Bibi,M., and M. Hussain|Effect of Copper and Lead on Photosynthesis and Plant Pigments in Black Gram (Vigna mungo (L.) Hepper)|Bull. Environ. Contam. Toxicol.74(6): 1126-1133|2005|10.1007/s00128-005-0698-8
81828|T||Decourtye,A., J. Devillers, E. Genecque, K. Le Menach, H. Budzinski, S. Cluzeau, and M.H. Pham-Delegue|Comparative Sublethal Toxicity of Nine Pesticides on Olfactory Learning Performances of the Honeybee Apis mellifera|Arch. Environ. Contam. Toxicol.48(2): 242-250|2005|10.1007/s00244-003-0262-7
81829|T||DeWitt,J.C., E.B. Meyer, and D.S. Henshel|Environmental Toxicity Studies Using Chickens as Surrogates for Wildlife:  Effects of Vehicle Volume|Arch. Environ. Contam. Toxicol.48(2): 260-269|2005|10.1007/s00244-004-1006-2
81830|T||DeWitt,J.C., E.B. Meyer, and D.S. Henshel|Environmental Toxicity Studies Using Chickens as Surrogates for Wildlife:  Effects of Injection Day|Arch. Environ. Contam. Toxicol.48(2): 270-277|2005|10.1007/s00244-004-2006-8
81831|A||Fafandel,M., W.E.G. Mueller, and R. Batel|Molecular Response to TBT Stress in Marine Sponge Suberites domuncula:  Proteolytical Cleavage and Phosphorylation of KRS_SD Protein Kinase|J. Exp. Mar. Biol. Ecol.297(2): 239-252|2003|10.1016/j.jembe.2003.07.008
81832|T||Graves,A.L., W.A. Boyd, and P.L. Williams|Using Transgenic Caenorhabditis elegans in Soil Toxicity Testing|Arch. Environ. Contam. Toxicol.48(4): 490-494|2005|10.1007/s00244-004-0031-2
81833|T||Gardea-Torresdey,J.L., G. De la Rosa, J.R. Peralta-Videa, M. Montes, G. Cruz-Jimenez, and I. Cano-Aguilera|Differential Uptake and Transport of Trivalent and Hexavalent Chromium by Tumbleweed (Salsola kali)|Arch. Environ. Contam. Toxicol.48(2): 225-232|2005|10.1007/s00244-003-0162-x
81834|T||Haritos,V.S., and G. Dojchinov|Cytochrome c Oxidase Inhibition in the Rice Weevil Sitophilus oryzae (L.) by Formate, the Toxic Metabolite of Volatile Alkyl Formates|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(2): 135-143|2003|10.1016/S1532-0456(03)00173-X
81835|T||Lagisz,M., P. Kramarz, and M. Niklinska|Metal Kinetics and Respiration Rates in F1 Generation of Carabid Beetles (Pterostichus oblongopunctatus F.) Originating from Metal-Contaminated and Reference Areas|Arch. Environ. Contam. Toxicol.48(4): 484-489|2005|10.1007/s00244-004-0023-2
81836|A||Julshamn,K., K. Sandnes, O. Lie, and R. Waagbo|Effects of Dietary Selenium Supplementation on Growth, Blood Chemistry and Trace Element Levels in Serum and Liver of Adult Atlantic Salmon (Salmo salar)|Fiskeridir. Skr. Ser. Ernaer.3(2): 47-58|1990|
81837|A||Viso,A.C., F. Boisson, M. Romeo, and M. Gnassia-Barelli|Combined Effects of Sulphate, Selenium (Selenate or Selenite) and Duration of Experiment on a Coenocytic Alga Bryopsis sp.|Mar. Environ. Res.28(1-4): 515-519|1989|10.1016/0141-1136(89)90294-8
81838|A||Wang,W.X., N.S. Fisher, and S.N. Luoma|Assimilation of Trace Elements Ingested by the Mussel (Mytilus edulis):  Effects of Algal Food Abundance|Mar. Ecol. Prog. Ser.129(1-3): 165-176|1995|10.3354/meps129165
81839|A||Krizkova,L., L. Horniak, S. Slavikova, and L. Ebringer|Protective Effect of Sodium Selenite of Ofloxacin-Induced Loss of Chloroplast DNA in Euglena gracilis|Folia Microbiol. (Prague)41(4): 329-332|1996|10.1007/BF02814709
81840|T||Clement,T., K. Nagarajan, and V. Gopal|Chronotoxicological Studies on Megascolex pumilio|Indian J. Environ. Health29(2): 153-158|1987|
81841|A||Harrison,F.L.|Accumulation and Distribution of 54Mn and 65Zn in Freshwater Clams|In: Proceedings of the Second National Symposium on Radioecology, Ann Arbor, MI:198-220|1967|
81842|A||Stratus Consulting Inc.|Sensitivity of Bull Trout (Salvelinus confluentus) to Cadmium and Zinc in Water Characteristic of the Coeur D'Alene River Basin:  Acute Toxicity Report|Prepared for the U.S.EPA, Seattle, WA:55 p.|1999|
81844|T||Bissahoyo,A., R.S. Pearsall, K. Hanlon, V. Amann, D. Hicks, V.L. Godfrey, and D.W. Threadgill|Azoxymethane is a Genetic Background-Dependent Colorectal Tumor Initiator and Promoter in Mice:  Effects of Dose, Route, and Diet|Toxicol. Sci.88(2): 340-345|2005|10.1093/toxsci/kfi313
81846|A||Ramakrishna,T., K.A. Naidu, S. Vatsala, O. Sreekumar, V.N. Kumar, and K.K. Soudamini|Selenite Neutralizes the Toxic Effect of Cadmium|Indian J. Environ. Health30(4): 355-359|1988|
81848|T||Dixon,J., M.R. Hull, A.H. Cobb, and G.E. Sanders|Phenmedipham-Ozone Pollution Interactions in Sugarbeet (Beta vulgaris L. cv. Saxon): A Physiological Study|Pestic. Sci.46(4): 381-390|1996|10.1002/(SICI)1096-9063(199604)46:4<381::AID-PS373>3.0.CO;2-R
81849|T||Aldrich,D.G., A.P. Vanselow, and G.R. Bradford|Lithium Toxicity in Citrus|Soil Sci.71:291-295|1951|10.1097/00010694-195104000-00006
81850|A||Malea,P.|Uptake of Cadmium and the Effect on Viability of Leaf Cells in the Seagrass Halophila stipulacea (Forsk.) Aschers.|Bot. Mar.37:67-73|1994|
81851|T||Aghatise,V.O., and T.O. Tayo|Response of Soybean (Glycine max) to Molybdenum Application in Nigeria|Indian J. Agric. Sci.64(9): 597-603|1994|
81852|A||Grubor-Lajsic,G., A. Jovanovic, S. Maletin, M. Matavulj, and A. Matic|Effects of Dietary Selenium on Levels of Plasma Thyroid Hormones (T3 and T4) in Carp (Cyprinus carpio L.)|Publ. Inst. Math. (Belgr.):115-118|1993|
81853|A||Jovanovic,A., G. Grubor-Lajsic, N. Djukic, M. Telesmanic, G. Gardinovacki, and M.B. Spasic|Effect of Selenium Supplementation on GSH-Px Activity in Tissues of Carp (Cyprinus carpio L.)|Naucni Skupovi:99-103|1993|
81854|T||Heenan,D.P., and L.C. Campbell|Growth, Yield Components and Seed Composition of Two Soybean Cultivars as Affected by Manganese Supply|Aust. J. Agric. Res.31:471-476|1980|10.1071/AR9800471
81856|A||Rose,R.M., M.S.J. Warne, and R.P. Lim|Residual Effects of 3,4-Dichloroaniline on Offspring Born to Ceriodaphnia cf. dubia Exposed for Multiple Generations|J. Aquat. Ecosyst. Stress Recovery9(3): 205-211|2002|10.1023/A:1021247918511
81857|A||Kessler,E.|An Extremely Cadmium-Sensitive Strain of Chlorella|Experientia41:1621-|1985|10.1007/BF01964839
81858|A||Smith,K.L., and J.L. Harwood|Lipid Metabolism in Fucus serratus as Modified by Environmental Factors|J. Exp. Bot.35(158): 1359-1368|1984|10.1093/jxb/35.9.1359
81859|A||Price,N.M., P.A. Thompson, and P.J. Harrison|Selenium: An Essential Element for Growth of the Coastal Marine Diatom Thalassiosira pseudonana (Bacillariophyceae)|J. Phycol.23(1): 1-9|1987|10.1111/j.0022-3646.1987.00001.x
81860|A||Lindstrom,K.|Nutrient Requirements of the Dinoflagellate Peridinium gatunense|J. Phycol.27(2): 207-219|1991|10.1111/j.0022-3646.1991.00207.x
81861|A||Takeda,T., T. Ishikawa, and S. Shigeoka|Metabolism of Hydrogen Peroxide by the Scavenging System in Chlamydomonas reinhardtii|Physiol. Plant. (Multiple Languages)99(1): 49-55|1997|10.1111/j.1399-3054.1997.tb03429.x
81862|T||Howe,D.J.T., and N. Wright|The Toxicity of Paraquat and Diquat|Proc. N. Z. Weed Pest Control Conf.18:105-114|1965|10.30843/nzpp.1965.18.10257
81863|A||Patel,B., J.P. Chandy, and S. Patel|Effect of Mercury, Selenium and Glutathione on Sulphydryl Levels and Glutathione Reductase in Blood Clam Anadara granosa (L)|Indian J. Mar. Sci.19(3): 187-190|1990|
81864|T||Schuh,R.A., T. Kristian, R.K. Gupta, J.A. Flaws, and G. Fiskum|Methoxychlor Inhibits Brain Mitochondrial Respiration and Increases Hydrogen Peroxide Production and CREB Phosphorylation|Toxicol. Sci.88(2): 495-504|2005|10.1093/toxsci/kfi334
81870|A||Sugiyama,S.I., N. Shimada, H. Miyoshi, and K. Yamauchi|Detection of Thyroid System-Disrupting Chemicals Using In Vitro and In Vivo Screening Assays in Xenopus laevis|Toxicol. Sci.88(2): 367-374|2005|10.1093/toxsci/kfi330
81872|A||Nass,R., D.H. Hall, D.M. Miller III, and R.D. Blakely|Neurotoxin-Induced Degeneration of Dopamine Neurons in Caenorhabditis elegans|Proc. Natl. Acad. Sci. U.S.A.99(5): 3264-3269|2002|10.1073/pnas.042497999
81873|T||Burke,I.C., and J.W. Wilcut|Physiological Basis for Antagonism of Clethodim by Imazapic on Goosegrass (Eleusine indica (L.) Gaertn.)|Pestic. Biochem. Physiol.76(2): 37-45|2003|10.1016/S0048-3575(03)00062-2
81874|T||Crafts,A.S., and P.B. Kennedy|The Physiology of Convolvulus arvensis (Morning-Glory or Bindweed) in Relation to Its Control by Chemical Sprays|Plant Physiol.5:329-344|1930|10.1104/pp.5.3.329
81875|A||Qiu,J.W., Z.C. Xie, and W.X. Wang|Effects of Calcium on the Uptake and Elimination of Cadmium and Zinc in Asiatic Clams|Arch. Environ. Contam. Toxicol.48(2): 278-287|2005|10.1007/s00244-004-0001-8
81876|A||Liu,H., J.F. Zhang, H. Shen, X.R. Wang, and W.M. Wang|Impact of Copper and Its EDTA Complex on the Glutathione-Dependent Antioxidant System in Freshwater Fish (Carassius auratus)|Bull. Environ. Contam. Toxicol.74(6): 1111-1117|2005|10.1007/s00128-005-0696-x
81877|A||Wells,M.M.|The Reactions and Resistance of Fishes in Their Natural Environment to Salts|J. Exp. Zool.19(3): 243-283|1915|10.1002/jez.1400190302
81878|T||Lao,S.H., C. Loutre, M. Brazier, J.O.D. Coleman, D.J. Cole, R. Edwards, and F.L. Theodoulou|3,4-Dichloroaniline is Detoxified and Exported via Different Pathways in Arabidopsis and Soybean|Phytochemistry63(6): 653-661|2003|10.1016/S0031-9422(03)00289-9
81879|A||Turgut,C., A. Grezichen, and A. Fomin|Toxicity of Sulfonylurea Herbicides to Dicotyledonous Macrophyte Myriophyllum aquaticum in a 14 Day Bioassay|Fresenius Environ. Bull.12(6): 619-622|2003|
81880|A||Ahluwalia,A.S., M. Kaur, and S. Dahuja|Toxicity of a Rice Field Herbicide in Some Nitrogen-Fixing Algae|Indian J. Environ. Health44(4): 298-302|2002|
81881|T||Yurekli,F., and Z. Kucukbay|Synthesis of Phytochelatins in Helianthus annuus is Enhanced by Cadmium Nitrate|Acta Bot. Croat. (Multiple Languages)62(1): 21-25|2003|
81883|T||Ansari,M.A., N. Kapoor, and V.P. Sharma|Relative Efficacy of Synthetic Pyrethroid-Impregnated Fabrics Against Mosquitoes Under Laboratory Conditions|Am. Mosq. Control Assoc. J.14(4): 406-409|1998|
81884|T||Bhattacharyya,M., and M.A. Choudhuri|Heavy Metal (Pb2+ & Cd2+) Stress-Induced Damages in Vigna Seedlings and Possible Involvement of Phytochelatin-Like Substances in Mitigation of Heavy Metal Stress|Indian J. Exp. Biol.33(3): 236-238|1995|
81885|T||Stefanic,E., I. Stefanic, and A.J. Murdoch|Economic Analysis of Integrated Weed Management in Field Bean (Phaseolus vulgaris L.)|Plant Soil Environ.49(4): 183-189|2003|10.17221/4111-PSE
81886|T||Wu,F., G. Zhang, and J. Yu|Interaction of Cadmium and Four Microelements for Uptake and Translocation in Different Barley Genotypes|Commun. Soil Sci. Plant Anal.34(13-14): 2003-2020|2003|10.1081/CSS-120023233
81889|A||Lorentzen,M., A. Maage, and K. Julshamn|Effects of Dietary Selenite or Selenomethionine on Tissue Selenium Levels of Atlantic Salmon (Salmo salar)|Aquaculture121(4): 359-367|1994|10.1016/0044-8486(94)90270-4
81890|T||Barth,M.M., L.A. Weston, and H. Zhuang|Influence of Clomazone Herbicide on Postharvest Quality of Processing Squash and Pumpkin|J. Agric. Food Chem.43(9): 2389-2393|1995|10.1021/jf00057a014
81891|A||Kaplan,D., Y.M. Heimer, A. Abeliovich, and P.B. Goldsbrough|Cadmium Toxicity and Resistance in Chlorella sp.|Plant Sci.109(2): 129-137|1995|10.1016/0168-9452(95)04165-Q
81892|A||Srivastava,A., and K.J. Appenroth|Interaction of EDTA and Iron on the Accumulation of Cd2+ in Duckweeds (Lemnaceae)|J. Plant Physiol.146:173-176|1995|10.1016/S0176-1617(11)81985-1
81893|T||Mutanen,M., P. Koivistoinen, V.C. Morris, and O.A. Levander|Nutritional Availability to Rats of Selenium in Four Seafoods:  Crab (Callinectes sapidus), Oyster (Crassostrea virginica), Shrimp (Penaeus duorarum) and Baltic Herring (Clupea harengus)|Br. J. Nutr.55(2): 219-225|1986|10.1079/BJN19860028
81894|A||Takeda,T., S. Shigeoka, O. Hirayama, and T. Mitsunaga|The Presence of Enzymes Related to Glutathione Metabolism and Oxygen Metabolism in Chlamydomonas reinhardtii|Biosci. Biotechnol. Biochem.56(10): 1662-1663|1992|10.1271/bbb.56.1662
81895|A||Van Steveninck,R.F.M., M.E. Van Steveninck, and D.R. Fernando|Heavy-Metal (Zn, Cd) Tolerance in Selected Clones of Duck Weed (Lemna minor)|Plant Soil146(1/2): 271-280|1992|10.1007/BF00012021
81896|T||Lalitha,K., and P. Rani|Mitochondrial Selenium-75 Uptake and Regulation Revealed by Kinetic Analysis|Biol. Trace Elem. Res.49(1): 21-42|1995|10.1007/BF02789000
81897|T||Lalitha,K., P. Rani, and V. Narayanaswami|Metabolic Relevance of Selenium in the Insect Corcyra cephalonica: Uptake of 75Se and Subcellular Distribution|Biol. Trace Elem. Res.41(3): 217-233|1994|10.1007/BF02917424
81898|T||Goede,A.A., and H.T. Wolterbeek|The Bioavailability of Various Selenium Compounds to a Marine Wading Bird|Biol. Trace Elem. Res.39(2/3): 191-201|1993|10.1007/BF02783189
81899|A||Herkovits,J., and C.S. Perez-Coll|Increased Resistance Against Cadmium Toxicity by Means of Pretreatment with Low Cadmium/Zinc Concentrations in Bufo arenarum Embryos|Biol. Trace Elem. Res.49:171-175|1995|10.1007/BF02788966
81902|T||Wang,B., U. Luttge, and R. Ratajczak|Specific Regulation of SOD Isoforms by NaCl and Osmotic Stress in Leaves of the C3 Halophyte Suaeda salsa L.|J. Plant Physiol.161(3): 285-293|2004|10.1078/0176-1617-01123
81903|A||Bruno,E., and B. Eklund|Two New Growth Inhibition Tests with the Filamentous Algae Ceramium strictum and C. tenuicorne (Rhodophyta)|Environ. Pollut.125(2): 287-293|2003|10.1016/S0269-7491(03)00050-2
81904|T||Fournier,F., W.H. Karasov, K.P. Kenow, M.W. Meyer, and R.K. Hines|The Oral Bioavailability and Toxicokinetics of Methylmercury in Common Loon (Gavia immer) Chicks|Comp. Biochem. Physiol. A Mol. Integr. Physiol.133(3): 703-714|2002|10.1016/S1095-6433(02)00140-X
81905|T||Chen,S., J. Li, S. Wang, E. Fritz, A. Huttermann, and A. Altman|Effects of NaCl on Shoot Growth, Transpiration, Ion Compartmentation, and Transport in Regenerated Plants of Populus euphratica and Populus tomentosa|Can. J. For. Res.33(6): 967-975|2003|10.1139/x03-066
81906|T||Rroco,E., H. Kosegarten, F. Harizaj, J. Imani, and K. Mengel|The Importance of Soil Microbial Activity for the Supply of Iron to Sorghum and Rape|Eur. J. Agron.19(4): 487-493|2003|10.1016/S1161-0301(02)00185-5
81907|T||Dynamac Corp.|Results of the Locust Pesticide Testing Trials in Sudan|U.S.AID Contract No.AFR-0517-C-00-7035-00,Dynamac Corp., Rockville, MD:178 p.|1988|
81909|A||Thibaut,R., and C. Porte|Effects of Endocrine Disrupters on Sex Steroid Synthesis and Metabolism Pathways in Fish|J. Steroid Biochem. Mol. Biol.92(5): 485-494|2004|10.1016/j.jsbmb.2004.10.008
81910|T||Huntingdon Research Centre|Initial Submission:  Acute Oral Toxicity to Rats of M&B 46,030 with Cover Letter Dated 102792|Rhone-Poulenc, Research Triangle Park, NC:10 p.|1992|
81911|T||Rhone-Poulenc|Initial Submission:  M&B 46030 Toxicity Study of Oral Administration to Beagle Dogs for 13 Weeks with Cover Letter Dated 10/29/92|Life Science Research, Suffolk, UK:38 p.|1992|
81912|T||Rhone-Poulenc|Support:  M&B 46030:  Reproductive Performance Study in Rats Treated Continuously Through Two Successive Generations with Cover Letter Dated 080592|EPA/OTS Doc.#89-920000330:49 p.|1992|
81914|T||Rhone-Poulenc|Initial Submission:  Letter from Rhone-Poulenc Submitting a Chronic Toxicity Study in Dogs and an Acute Toxicity Study in Rabbits with Cover Letter Dated 020893|Bushy Run Research Center, Export, PA:74 p.|1993|
81916|T||Rhone-Poulenc|Initial Submission:  Preliminary Toxicity Study of M&B 46030 by Dietary Administration to CD-1 Mice for Six Weeks with Cover Letter Dated 10/27/92|Life Science Research, Suffolk, UK:33 p.|1992|
81919|T||Rhone-Poulenc|Initial Submission:  M&B 46030 - Preliminary Toxicity Study by Dietary Administration to CD Rats for 2-Weeks (Final Report) with Cover Letter Dated 102792|Life Science Research, Suffolk, UK:41 p.|1992|
81920|T||Rhone-Poulenc|Initial Submission:  Letter from Rhone-Poulenc Inc. to U.S.EPA Regarding MB 46030:  Toxicity to Rats by Dietary Administration for 4-Weeks with Attachments and Cover Letter Dated 102992|Huntingdon Research Centre, Huntingdon, UK:46 p.|1992|
81921|T||Rhone-Poulenc|Initial Submission:  M&B 46,030 Toxicity to Rats by Repeated Oral Administration for 2 Weeks with Cover Letter Dated 102792|Huntingdon Research Centre, Huntingdon, UK:25 p.|1992|
81922|T||Huntingdon Research Centre|Initial Submission:  4-Week Dietary Study of M&B 46030 in Rats to Investigate Thyroid Hormone Levels with Cover Letter Dated 10/27/92|Rhone-Poulenc, Research Triangle Park, NC:29 p.|1992|
81923|T||Rhone-Poulenc|Initial Submission:  Teratology Study in Rabbits w/5-Amino-1-[2,6-Dichloro-4-(Trifluoromethyl)Phenyl]-4-[(Trifluoromethyl)Sulfinyl]-1H-Pyrazole-3-Carbon* w/Cover Letter Dated 102792|Life Science Research, Suffolk, UK:20 p.|1992|
81927|T||Vargas,R., B. Chapman, and D.R. Penman|Toxicity of Thuringiensin on Immature and Adult Stages of Tetranychus urticae Koch and Panonychus ulmi (Koch) (Acarina:  Tetranychidae) (Toxicidad de Thuringiensin en Estados Inmaduros y Adultos de Tetranychus urticae K|Agric. Tec. (Multiple Languages)61(1): 3-14|2001|
81928|T||Vargas,R., B. Chapman, and D.R. Penman|Effect of Thuringiensin on Cuticle Development of Immature Stages of Tetranychus urticae Koch (Acarina:  Tetranychidae) (Efecto de Thuringiensin en el Desarrollo de la Cuticula de Estados Inmaduros de Tetranychus urtica|Agric. Tec. (Multiple Languages)62(2): 201-211|2002|
81929|T||Vargas,R., B. Chapman, and D.R. Penman|Factors Influencing the Responses of Tetranychus urticae Koch (Acarina:  Tetranychidae) to Thuringiensin (Factores que Influyen en la Respuesta de Tetranychus urticae Koch (Acarina:  Tetranychidae) a Thuringiensin)|Agric. Tec. (Multiple Languages)62(1): 3-14|2002|
81930|A||Brandt,I., and H. Remeth|Influence of NTA, EDTA, Phosphate and Copper on the Ecosystem of Ponds.  Part 1:  Phytoplankton|Verh. Int. Ver. Theor. Angew. Limnol.24:2141-2144|1991|
81931|A||Kucklentz,V.|Influence of NTA, EDTA, Phosphate, and Copper on the Ecosystem of Ponds.  Part 2:  Zooplankton|Verh. Int. Ver. Theor. Angew. Limnol.24:2145-2148|1991|
81933|A||Busch,D., and B. Schuchardt|The Use of the Freshwater Mussel Dreissena polymorpha (PALLAS) for Biomonitoring Heavy Metals in Limnic Ecosystems:  The Weser (FRG)|Verh. Int. Ver. Theor. Angew. Limnol.24:2261-2264|1991|
81934|A||Draxl,R., K.E. Neugebaur, F.J. Zieris, and W. Huber|Comparison of the Ecological Effects of Diquat on Laboratory Multi Species and Outdoor Freshwater Systems|Verh. Int. Ver. Theor. Angew. Limnol.24:2269-2271|1991|
81935|A||Gensemer,R.W.|The Effects of Aluminum on Phosphorus and Silica-Limited Growth in Asterionella ralfsii var. americana|Verh. Int. Ver. Theor. Angew. Limnol.24:2635-2639|1991|
81936|A||Steiner,H., N. Schilling, and P. Dittrich|Physiological Response of Algae to Treatment with Nitrilotriacetic Acid|Verh. Int. Ver. Theor. Angew. Limnol.24:2627-2629|1991|
81937|T||Vandecasteele,B., E. Meers, P. Vervaeke, B. DeVos, P. Quataert, and F.M.G. Tack|Growth and Trace Metal Accumulation of Two Salix Clones on Sediment-Derived Soils with Increasing Contamination Levels|Chemosphere58(8): 995-1002|2005|10.1016/j.chemosphere.2004.09.062
81938|A||Vulliet,E., C. Emmelin, J.M. Chovelon, C. Chouteau, and B. Clement|Assessment of the Toxicity of Triasulfuron and Its Photoproducts Using Aquatic Organisms|Environ. Toxicol. Chem.23(12): 2837-2843|2004|10.1897/03-486.1
81939|T||Xiao,H., F. Li, Z. Zhang, L. Feng, Z. Li, J. Yang, and Z. Chai|Distribution of Ytterbium-169 in Rat Brain After Intravenous Injection|Toxicol. Lett.155(2): 247-252|2005|10.1016/j.toxlet.2004.09.021
81940|A||Seemamahannop,R., A. Berthod, M. Maples, S. Kapila, and D.W. Armstrong|Uptake and Enantioselective Elimination of Chlordane Compounds by Common Carp (Cyprinus carpio, L.)|Chemosphere59(4): 493-500|2005|10.1016/j.chemosphere.2004.11.101
81941|T||Lock,K., S. Becaus, P. Criel, H. Van Eeckhout, and C.R. Janssen|Ecotoxicity of Cobalt to the Springtail Folsomia candida|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 195-199|2004|10.1016/j.cca.2004.10.002
81942|A||Peters,C., and W. Ahlf|Reproduction of the Estuarine and Marine Amphipod Corophium Volutator (Pallas) in Laboratory for Toxicity Testing|Chemosphere59(4): 525-536|2005|10.1016/j.chemosphere.2005.01.053
81943|A||Raimondo,S., and C.L.,Jr. McKenney|Projected Population-Level Effects of Thiobencarb Exposure on the Mysid, Americamysis bahia, and Extinction Probability in a Concentration-Decay Exposure System|Environ. Toxicol. Chem.24(3): 564-572|2005|10.1897/04-187R.1
81944|T||Gutenmann,W.H., and D.J. Lisk|Metabolism of Daconil and Dacthal Pesticides in Lactating Cows|J. Dairy Sci.49(10): 1272-1276|1966|10.3168/jds.S0022-0302(66)88069-4
81945|A||Park,Y.S., N.I. Chung, K.H. Choi, E.Y. Cha, S.K. Lee, and T.S. Chon|Computational Characterization of Behavioral Response of Medaka (Oryzias latipes) Treated with Diazinon|Aquat. Toxicol.71(3): 215-228|2005|10.1016/j.aquatox.2004.11.002
81946|A||Rainbow,P.S., and W.H. Black|Cadmium, Zinc and the Uptake of Calcium by Two Crabs, Carcinus maenas and Eriocheir sinensis|Aquat. Toxicol.72(1-2): 45-65|2005|10.1016/j.aquatox.2004.11.016
81947|A||Ownby,D.R., J.B. Belden, G.R. Lotufo, and M.J. Lydy|Accumulation of Trinitrotoluene (TNT) in Aquatic Organisms: Part 1-Bioconcentration and Distribution in Channel Catfish (Ictalurus punctatus)|Chemosphere58(9): 1153-1159|2005|10.1016/j.chemosphere.2004.09.059
81948|A||Kogan,G., Y.A. Skorik, I. Zitnanova, L. Krizkova, Z. Durackova, C.A.R. Gomes, Y.G. Yatluk, and J. Krajcovic|Antioxidant and Antimutagenic Activity of N-(2-Carboxyethyl)Chitosan|Toxicol. Appl. Pharmacol.201(3): 303-310|2004|10.1016/j.taap.2004.05.009
81949|T||Innocenti,F., R. Danesi, G. Bocci, G. Natale, and M. Del Tacca|5-Fluorouracil Catabolism to 5-Fluoro-5,6-Dihydrouracil is Reduced by Acute Liver Impairment in Mice|Toxicol. Appl. Pharmacol.203(2): 106-113|2005|10.1016/j.taap.2004.08.018
81950|A||Sciera,K.L., J.J. Isely, J.R.,Jr. Tomasso, and S.J. Klaine|Influence of Multiple Water-Quality Characteristics on Copper Toxicity to Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.23(12): 2900-2905|2004|10.1897/03-574.1
81951|A||Sanchez-Fortun,S., and M.V. Barahona|Comparative Study on the Environmental Risk Induced by Several Pyrethroids in Estuarine and Freshwater Invertebrate Organisms|Chemosphere59(4): 553-559|2005|10.1016/j.chemosphere.2004.12.023
81952|A||Teuschler,L.K., C. Gennings, W.R. Hartley, H. Carter, A. Thiyagarajah, R. Schoeny, and C. Cubbison|The Interaction Effects of Binary Mixtures of Benzene and Toluene on the Developing Heart of Medaka (Oryzias latipes)|Chemosphere58(9): 1283-1291|2005|10.1016/j.chemosphere.2004.09.075
81953|T||Rhodes,M.C., C.D. Hebert, R.A. Herbert, E.J. Morinello, J.H. Roycroft, G.S. Travlos, and K.M. Abdo|Absence of Toxic Effects in F344/N Rats and B6C3F1 Mice Following Subchronic Administration of Chromium Picolinate Monohydrate|Food Chem. Toxicol.43(1): 21-29|2005|10.1016/j.fct.2004.08.006
81955|T||Okahashi,N., M. Sano, K. Miyata, S. Tamano, H. Higuchi, Y. Kamita, and T. Seki|Lack of Evidence for Endocrine Disrupting Effects in Rats Exposed to Fenitrothion In Utero and from Weaning to Maturation|Toxicology206(1): 17-31|2005|10.1016/j.tox.2004.04.020
81956|T||Mawatari,K., T. Katsumata, M. Uematsu, J. Yoshida, M. Smriga, and T. Kimura|Prolonged Oral Treatment with an Essential Amino Acid L-leucine does not Affect Female Reproductive Function and Embryo-Fetal Development in Rats|Food Chem. Toxicol.42(9): 1505-1511|2004|10.1016/j.fct.2004.04.013
81958|T||Juchimiuk,J., and J. Maluszynska|Transformed Roots of Crepis capillaries - a Sensitive System for the Evaluation of the Clastogenicity of Abiotic Agents|Mutat. Res.565(2): 129-138|2005|10.1016/j.mrgentox.2004.10.016
81959|T||Shiao,Y.H., E.B. Crawford, L.M. Anderson, P. Patel, and K. Ko|Allele-Specific Germ Cell Epimutation in the Spacer Promoter of the 45S Ribosomal RNA gene After Cr(III) Exposure|Toxicol. Appl. Pharmacol.205(3): 290-296|2005|10.1016/j.taap.2004.10.017
81960|T||Rodriguez,M.D., J.E. Gonzalez, C. Aleman, I. Rodeiro, E. Arango, R. Gamez, S. Valdes, H. Garcia, E. Goicochea, and C.P.|Evaluation of the Reproductive and Developmental Toxicity of the D-003, a Mixture of Long-Chain Fatty Acids, in Rats and Rabbits|Food Chem. Toxicol.42(12): 1977-1985|2004|10.1016/j.fct.2004.07.014
81961|T||Venzon,M., M.C. Rosado, M.A.M. Fadini, A.I.,Jr. Ciociola, and A. Pallini|The Potential of NeemAzal for the Control of Coffee Leaf Pests|Crop Prot.24(3): 213-219|2005|10.1016/j.cropro.2004.07.008
81962|T||Abramsson-Zetterberg,L., J. Wong, and N.G. Ilback|Acrylamide Tissue Distribution and Genotoxic Effects in a Common Viral Infection in Mice|Toxicology211(1-2): 70-76|2005|10.1016/j.tox.2005.02.008
81963|T||Zwiers,L.H., I. Stergiopoulos, M.M.C. Gielkens, S.D. Goodall, and M.A. De Waard|ABC Transporters of the Wheat Pathogen Mycosphaerella graminicola Function as Protectants Against Biotic and Xenobiotic Toxic Compounds|Mol. Genet. Genomics269(4): 499-507|2003|10.1007/s00438-003-0855-x
81964|A||Galtsoff,P.S., and V.L. Loosanoff|Natural History and Method of Controlling the Starfish (Asterias forbesi, Desor)|Fish. Bull.49:75-133|1939|
81965|T||Banuelos,G.S., D.B. Vickerman, J.T. Trumble, M.C. Shannon, C.D. Davis, J.W. Finley, and H.F. Mayland|Biotransfer Possibilities of Selenium from Plants Used in Phytoremediation|Int. J. Phytoremediat.4(4): 315-329|2002|10.1080/15226510208500090
81966|T||Guo,W.J., W. Bundithya, and P.B. Goldsbrough|Characterization of the Arabidopsis Metallothionein Gene Family:  Tissue-Specific Expression and Induction During Senescence and in Response to Copper|New Phytol.159(2): 369-381|2003|10.1046/j.1469-8137.2003.00813.x
81967|T||Yoo,J.K., S.W. Lee, Y.J. Ahn, T. Nagata, and T. Shono|Altered Acetylcholinesterase as a Resistance Mechanism in the Brown Planthopper (Homoptera:  Delphacidae), Nilaparvata lugens Stal|Appl. Entomol. Zool.37(1): 37-41|2002|10.1303/aez.2002.37
81968|T||Marklund,S.K., L.J. Peterson, T.A. Hauser, A.E. Chapman, S.A. Kolmes, R.L. Nichols, and T.J. Dennehy|Influence of Imidacloprid, a Chloronicotinyl Insecticide, on Host Choice and Movement Patterns of Bemisia argentifolii (Homoptera:  Aleyrodidae) on Cantaloupe Plants (Cucumis melo L.)|J. Kans. Entomol. Soc.76(4): 672-675|2003|
81969|T||Calvo,D., and J.M. Molina|Effects of a Commercial Neem (Azadirachta indica) Extract on Streblote panda larvae|Phytoparasitica31(4): 365-370|2003|10.1007/BF02979807
81970|T||Studebaker,G.E., and T.J. Kring|Effects of Various Insecticide Residues in Cotton on Gender and Developmental Stage of the Insidious Flower Bug (Hemiptera: Anthocoridae)|J. Entomol. Sci.38(3): 409-419|2003|10.18474/0749-8004-38.3.409
81971|T||Myers,C.T., and L.A. Hull|Insect Growth Regulator Impact on Fecundity and Fertility of Adult Tufted Apple Bud Moth, Platynota idaeusalis Walker|J. Entomol. Sci.38(3): 420-430|2003|10.18474/0749-8004-38.3.420
81972|T||Abudulai,M., and B.M. Shepard|Effects of Neem (Azadirachta indica A. Juss) on Trissolcus basalis (Wollaston) (Hymenoptera:  Scelionidae), a Parasitoid of Nezara viridula (L.) (Hemiptera:  Pentatomidae)|J. Entomol. Sci.38(3): 386-397|2003|10.18474/0749-8004-38.3.386
81973|T||Broschat,T.K.|Effectiveness of Various Iron Sources for Correcting Iron Chlorosis in Dwarf Ixora|HortTechnology13(4): 625-627|2003|10.21273/HORTTECH.13.4.0625
81974|T||Sellmer,J.C., R.M. Bates, T.L. Harpster, D. Despot, and L.J. Kuhns|Efficacy of Fall Applied Herbicides in Pot-in-Pot Nursery Tree Production|HortTechnology13(4): 729-730|2003|10.21273/HORTTECH.13.4.0729
81975|T||Macadam,X.M.B., A. Del Prado, P. Merino, J.M. Estavillo, M. Pinto, and C. Gonzalez-Murua|Dicyandiamide and 3,4-Dimethyl-Pyrazole-Phosphate Decrease N2O Emissions from Grassland but Dicyandiamide Produces Deleterious Effects in Clover|J. Plant Physiol.160(12): 1517-1523|2003|10.1078/0176-1617-01006
81976|T||Ma,M., G. Guan, B. Lu, A. Liu, Z. Liu, Z. Chang, F. Li, F. Chang, J. Luo, W. Lu, Q. Zhang, G. Yuan, H. Yin, and C. Boul|Efficacy of Different Dosages of Ivermectin Injectable Against the Hypoderma spp. in Yaks|Vet. Parasitol.117(1/2): 147-151|2003|10.1016/j.vetpar.2003.07.017
81977|T||Franklin,J.A., and J.J. Zwiazek|Ion Uptake in Pinus banksiana Treated with Sodium Chloride and Sodium Sulphate|Physiol. Plant. (Multiple Languages)120(3): 482-490|2004|10.1111/j.0031-9317.2004.00246.x
81978|T||Medici,L.O., R.A. Azevedo, R.J. Smith, and P.J. Lea|The Influence of Nitrogen Supply on Antioxidant Enzymes in Plant Roots|Funct. Plant Biol.31(1): 1-9|2004|10.1071/FP03130
81979|T||Ryley,M., S. Bhuiyan, D. Herde, and B. Gordan|Efficacy, Timing and Method of Application of Fungicides for Management of Sorghum Ergot Caused by Claviceps africana|Aust. Plant Pathol.32(3): 329-338|2003|10.1071/AP03034
81980|T||Singh,S., J.P.S. Yadav, N.N. Tripathi, and R. Kumar|Effect of Insecticides and Herbicides on Root Rot of Cotton Caused by Rhizoctonia solani Kuhn|Ann. Biol.19(2): 179-181|2003|
81981|T||Wu,L., X. Guo, and G.S. Banuelos|Selenium and Sulfur Accumulation and Soil Selenium Dissipation in Planting of Four Herbaceous Plant Species in Soil Contaminated with Drainage Sediment Rich in Both Selenium and Sulfur|Int. J. Phytoremediat.5(1): 25-40|2003|10.1080/16226510390856457
81982|T||Ahuja,S., and K.S. Sandhu|Weed Management Through the Use of Herbicides in Cabbage-Onion Relay Cropping System|Ann. Biol.19(1): 27-30|2003|
81983|T||Ahuja,S., and K.S. Sandhu|Efficiency of Weed Control in Cabbage-Onion Relay Cropping System|Ann. Biol.19(1): 31-34|2003|
81984|T||Jansa,J., A. Mozafar, and E. Frossard|Long-Distance Transport of P and Zn Through the Hyphae of an Arbuscular mycorrhizal Fungus in Symbiosis with Maize|Agronomie (Multiple Languages)23(5-6): 481-488|2003|10.1051/agro:2003013
81985|T||Gunse,B., T. Garzon, and J. Barcelo|Study of Aluminum Toxicity by Means of Vital Staining Profiles in Four Cultivars of Phaseolus vulgaris L.|J. Plant Physiol.160(12): 1447-1450|2003|10.1078/0176-1617-01001
81987|T||Jaglan,R.S., P. Sircar, and S. Dhingra|Persistence and Residual Toxicity of Synthetic Pyrethroid Emulsion Formulations to Spodoptera litura (Fab.) on Cabbage and Castor|J. Entomol. Res.20(2): 163-169|1996|
81988|A||Tariq,R.M., S.N.H. Naqvi, B.S. Siddiqui, M. Rasheed, and S. Faizi|Comparative Toxicity and IGR Effects of Neem (Azadirachta indica A. Juss) Fresh Fruit Seed Extract (RB-a) and Fresh Fruit Coat Extract (RB-b) Against Fourth Instar Larvae of Aedes aegypti L. (Orangi Town Wild Strain)|Proc. Pak. Congr. Zool.21:141-149|2001|
81989|T||Haseeb,M., T.X. Liu, and W.A. Jones|Effects of Selected Insecticides on Cotesia plutellae, Endoparasitoid of Plutella xylostella|Biocontrol49(1): 33-46|2004|10.1023/B:BICO.0000009377.75941.d7
81991|T||Cortes,M.L., T. Sanchez, L. Riis, A.C. Bellotti, and P.A. Calatayud|A Bioassay to Test HCN Toxicity to the Burrowing Bug, Cyrtomenus bergi|Entomol. Exp. Appl.109(3): 235-239|2003|10.1046/j.0013-8703.2003.00108.x
81992|T||Stein,J.M., and W.W. Kirk|Variations in the Sensitivity of Phytophthora infestans Isolates from Different Genetic Backgrounds to Dimethomorph|Plant Dis.87(11): 1283-1289|2003|10.1094/PDIS.2003.87.11.1283
81993|T||Bakthavathsalam,R.|Relative Toxicity of Carbofuran to Male and Female House Cricket Gryllodes sigillatus (Orthoptera:  Gryllidae)|Environ. Ecol.21(3): 684-687|2003|
81994|T||Athanassiou,C.G., N.G. Kavallieratos, F.C. Tsaganou, B.J. Vayias, C.B. Dimizas, and C.T. Buchelos|Effect of Grain Type on the Insecticidal Efficacy of SilicoSec Against Sitophilus oryzae (L.) (Coleoptera:  Curculionidae)|Crop Prot.22(10): 1141-1147|2003|10.1016/S0261-2194(03)00155-8
81995|T||Miles,M.|The Effects of Spinosad, a Naturally Derived Insect Control Agent to the Honeybee|Bull. Insectol.56(1): 119-124|2003|
81996|T||Stadler,T., D.M. Gines, and M. Buteler|Long-Term Toxicity Assessment of Imidacloprid to Evaluate Side Effects on Honey Bees Exposed to Treated Sunflower in Argentina|Bull. Insectol.56(1): 77-81|2003|
81997|T||Tesoriero,D., B. Maccagnani, F. Santi, and G. Celli|Toxicity of Three Pesticides on Larval Instars of Osmia cornuta:  Preliminary Results|Bull. Insectol.56(1): 169-171|2003|
81998|T||Medrzycki,P., R. Montanari, L. Bortolotti, A.G. Sabatini, S. Maini, and C. Porrini|Effects of Imidacloprid Administered in Sub-lethal Doses on Honey Bee Behaviour.  Laboratory Tests|Bull. Insectol.56(1): 59-62|2003|
81999|T||Ruske,R.E., M.J. Gooding, and S.A. Jones|The Effects of Triazole and Strobilurin Fungicide Programmes on Nitrogen Uptake, Partitioning, Remobilization and Grain N Accumulation in Winter Wheat Cultivars|J. Agric. Sci.140(4): 395-407|2003|10.1017/S0021859603003228
82000|A||Fort,D.J., D.W. McLaughlin, R.L. Rogers, and B.O. Buzzard|Evaluation of the Developmental Toxicities of Ethanol, Acetaldehyde, and Thioacetamide Using FETAX|Drug Chem. Toxicol.26(1): 23-34|2003|10.1081/DCT-120017555
82001|A||Garcia-Reyero,N., D. Raldua, L. Quiros, G. Llaveria, J. Cerda, D. Barcelo, J.O. Grimalt, and B. Pina|Use of Vitellogenin mRNA as a Biomarker for Endocrine Disruption in Feral and Cultured Fish|Anal. Bioanal. Chem.378(3): 670-675|2004|10.1007/s00216-003-2295-1
82002|T||Hansen,L.M.|Insecticide-Resistant Pollen Beetles (Meligethes aeneus F.) Found in Danish Oilseed Rape (Brassica napus L.) Fields|Pest Manag. Sci.59(3): 1057-1059|2003|10.1002/ps.737
82003|T||Wang,Q., J. Cheng, and R. Huang|Synthesis and Insecticidal Evaluation of Novel N-(S-Amino)Sulfenylated Derivatives of Diacylhydrazines|Pest Manag. Sci.58(12): 1250-1253|2002|10.1002/ps.597
82004|T||Khambay,B.P.S., D. Batty, P.J. Jewess, G.L. Bateman, and D.W. Hollomon|Mode of Action and Pesticidal Activity of the Natural Product Dunnione and of Some Analogues|Pest Manag. Sci.59(2): 174-182|2003|10.1002/ps.632
82005|T||Byrne,F.J., S. Castle, N. Prabhaker, and N.C. Toscano|Biochemical Study of Resistance to Imidacloprid in B Biotype Bemisia tabaci from Guatemala|Pest Manag. Sci.59(3): 347-352|2003|10.1002/ps.649
82006|T||Bortolotti,L., R. Montanari, J. Marcelino, P. Medrzycki, S. Maini, and C. Porrini|Effects of Sub-Lethal Imidacloprid Doses on the Homing Rate and Foraging Activity of Honey Bees|Bull. Insectol.56(1): 63-67|2003|
82008|A||Tucker,C.S., S.K. Kingsbury, and R.L. Ingram|Tissue Residues of Diuron in Channel Catfish Ictalurus punctatus Exposed to the Algicide in Consecutive Years|J. World Aquac. Soc.34(2): 203-209|2003|10.1111/j.1749-7345.2003.tb00057.x
82009|T||Yuzbasioglu,D.|Cytogenetic Effects of Fungicide Afugan on the Meristematic Cells of Allium cepa L.|Cytologia68(3): 237-243|2003|10.1508/cytologia.68.237
82010|T||Hammad,E.M.A.F., and N.M. Antar|Efficacy of Selected Insecticides on Phyllocnistis citrella Stainton (Lepidoptera:  Gracillariidae) in Navel Orange (Citrus sinensis L.)|Tests Agrochem. Cultiv.24:6-7|2003|
82011|A||Khare,S., S. Singh, and A. Mehrotra|Histopathological Changes in the Gills of Nandus nandus Induced by Endosulfan and Carbaryl|Nat. Environ. Pollut. Technol.1(1): 1-4|2002|
82012|A||Iftode,F., J.J. Curgy, A. Fleury, and G. Fryd-Versavel|Action of a Heavy Ion, Cd2+, and the Antagonistic Effect of Ca2+, on Two Ciliates Tetrahymena pyriformis and Euplotes vannus|Acta Protozool.24(3-4): 273-279|1985|
82013|A||Tilak,K.S., K. Veeraiah, and G.V.R. Kumari|Histopathological Changes Observed in the Gill Tissue of the Fish Labeo rohita Exposed to Chloropyrifos|J. Ecotoxicol. Environ. Monit.11(4): 267-270|2001|
82014|A||Thorat,S.R.|Chronic Effect of Endosulfan on Freshwater Fish, Catla catla|J. Ecotoxicol. Environ. Monit.11(4): 221-225|2001|
82015|T||Eleftheriou,E.P., T. Karagiannidou, J. Hudak, and M. Moustakas|Developmental Malformations of the Protophloem Sieve-Element Cell Wall in Oryzalin-Treated Roots of Wheat|Biologia (Bratisl.)58(4): 833-841|2003|
82016|T||Nadubinska,M., A. Ritieni, A. Moretti, and A. Srobarova|Chlorophyll Content in Maize Plants After Treatment with Fusariotoxins|Biologia (Bratisl.)58(1): 115-119|2003|
82017|T||Kim,S.S., and S.G. Seo|Relative Toxicity of Some Acaricides to the Predatory Mite, Amblyseius womersleyi and the Twospotted Spider Mite, Tetranychus urticae (Acari:  Phytoseiidae, Tetranychidae)|Appl. Entomol. Zool.36(4): 509-514|2001|10.1303/aez.2001.509
82018|T||Hiromori,H., and J. Nishigaki|Factor Analysis of Synergistic Effect Between the Entomopathogenic Fungus Metarhizium anisopliae and Synthetic Insecticides|Appl. Entomol. Zool.36(2): 231-236|2001|10.1303/aez.2001.231
82019|T||Widiarta,I.N., M. Matsumura, Y. Suzuki, and F. Nakasuji|Effects of Sublethal Doses of Imidacloprid on the Fecundity of Green Leafhoppers, Nephotettix spp. (Hemiptera:  Cicadellidae) and Their Natural Enemies|Appl. Entomol. Zool.36(4): 501-507|2001|10.1303/aez.2001.501
82020|T||Aggarwal,K.K., A.K. Tripathi, A. Ahmad, V. Prajapati, N. Verma, and S. Kumar|Toxicity of L-Menthol and Its Derivatives Against Four Storage Insects|Insect Sci. Appl.21(3): 229-235|2001|
82021|T||Morishita,M.|Toxicity of Some Insecticides to Larvae of Flankliniella occidentalis (Pergande) (Thysanoptera:  Thripidae) Evaluated by the Petri Dish-Spraying Tower Method|Appl. Entomol. Zool.36(1): 137-141|2001|10.1303/aez.2001.137
82022|T||Lee,H.K., C. Park, and Y.J. Ahn|Insecticidal Activities of Asarones Identified in Acorus gramineus Rhizome Against Nilaparvata lugens (Homoptera:  Delphacidae) and Plutella xylostella (Lepidoptera:  Yponomeutoidae)|Appl. Entomol. Zool.37(3): 459-464|2002|10.1303/aez.2002.459
82023|A||Forcella,M., E. Berra, R. Giacchini, G.M. Hanozet, and P. Parenti|Changes in Leucine Transport Activity in Chironomus riparius Larvae After Short-Term Exposure to Potassium Dichromate and Fenitrothion|Arch. Insect Biochem. Physiol.55(2): 90-101|2004|10.1002/arch.10127
82024|AT||Nishiura,J.T., P. Ho, and K. Ray|Methoprene Interferes with Mosquito Midgut Remodeling During Metamorphosis|J. Med. Entomol.40(4): 498-507|2003|10.1603/0022-2585-40.4.498
82025|T||Kouassi,M., D. Coderre, and S.I. Todorova|Compatibility of Zineb, Dimethoate and Beauveria bassiana (Balsamo) Vuillemin Against Tarnished Plant Bug (Hemiptera: Miridae)|J. Entomol. Sci.38(3): 359-367|2003|10.18474/0749-8004-38.3.359
82026|T||McTier,T.L., N.A. Evans, M. Martin-Short, and K. Gration|Comparison of the Activity of Selamectin, Fipronil, and Imidacloprid Against Flea Larvae (Ctenocephalides felis felis) In Vitro|Vet. Parasitol.116(1): 45-50|2003|10.1016/S0304-4017(03)00163-8
82027|T||EPA/OTS|Initial Submission:  Letter from [ ] to U.S.EPA Regarding [ ] Comparative Toxicity Study by Dietary Administration to CD-1 for 6 Weeks with Cover Letter Dated 102992 (Sanitized)|EPA/OTS Doc.#88-920009927S:67 p.|1992|
82028|T||Life Science Research|Initial Submission:  M&B 46030:  Preliminary Toxicity Study by Dietary Administration to CD-1 Mice for 13-Weeks with Cover Letter Dated 102992|Rhone-Poulenc, Cranbury, NJ:221 p.|1992|
82030|T||Rhone-Poulenc|Initial Submission:  M&B 46030:  Toxicity Study by Dietary Administration to CD Rats for 13 Weeks with Cover Letter Dated 102792|Life Science Research, Suffolk, UK:292 p.|1992|
82031|A||Hiraki,M., J.J.S. Van Rensen, W.J. Vredenberg, and K. Wakabayashi|Characterization of the Alterations of the Chlorophyll a Fluorescence Induction Curve After Addition of Photosystem II Inhibiting Herbicides|Photosynth. Res. (Dordr., Online)78(1): 35-46|2003|10.1023/A:1026038617618
82032|T||De Solla,S.R., P.A. Martin, K.J. Fernie, B.J. Park, and G. Mayne|Effects of Environmentally Relevant Concentrations of Atrazine on Gonadal Development of Snapping Turtles (Chelydra serpentina)|Environ. Toxicol. Chem.25(2): 520-526|2006|10.1897/05-165R.1
82033|AT||Forson,D., and A. Storfer|Effects of Atrazine and Iridovirus Infection on Survival and Life-History Traits of the Long-Toed Salamander (Ambystoma macrodactylum)|Environ. Toxicol. Chem.25(1): 168-173|2006|10.1897/05-260R.1
82034|A||Orton,F., J.A. Carr, and R.D. Handy|Effects of Nitrate and Atrazine on Larval Development and Sexual Differentiation in the Northern Leopard Frog Rana pipiens|Environ. Toxicol. Chem.25(1): 67-71|2006|10.1897/05-136R.1
82035|T||Wilhelms,K.W., S.A. Cutler, J.A. Proudman, L.L. Anderson, and C.G. Scanes|Effects of Atrazine on Sexual Maturation in Female Japanese Quail Induced by Photostimulation or Exogenous Gonadotropin|Environ. Toxicol. Chem.25(1): 233-240|2006|10.1897/05-039R.1
82037|A||Navarro,E., H. Guasch, and S. Sabater|Use of Microbenthic Algal Communities in Ecotoxicological Tests for the Assessment of Water Quality:  The Ter River Case Study|J. Appl. Phycol.14(1): 41-48|2002|10.1023/A:1015242301451
82038|AT||Rohr,J.R., T. Sager, T.M. Sesterhenn, and B.D. Palmer|Exposure, Postexposure, and Density-Mediated Effects of Atrazine on Amphibians:  Breaking Down Net Effects into Their Parts|Environ. Health Perspect.114(1): 46-50|2006|10.1289/ehp.8405
82041|T||Greenlee,A.R., T.M. Ellis, and R.L. Berg|Low-Dose Agrochemicals and Lawn-Care Pesticides Induce Developmental Toxicity in Murine Preimplantation Embryos|Environ. Health Perspect.112(6): 703-709|2004|10.1289/ehp.6774
82042|T||Pandey,J., and A.K. Verma|Effect of Atrazine, Metribuzin, Sulfosulfuron and Tralkoxydim on Weeds and Yield of Wheat (Triticum aestivum)|Indian J. Agron.47(1): 72-76|2002|
82044|T||Iitri Research Institute|Lifetime Dermal Tumorigenesis Study in Mice on Catalytic Reformer Fractionator Residue Distillates with Attachments and Cover Letter Dated 041988|EPA/OTS Doc.#89-880000155:8 p.|1988|
82045|A||Wandiga,S.O., D.M.K. Ongeri, L. Mbuvi, J.O. Lalah, and I.O. Jumba|Accumulation, Distribution and Metabolism of 14C-1,1,1-Trichloro-2,2-, bis-(p-Chlorophenyl) Ethane (p,p'-DDT) Residues in a Model Tropical Marine Ecosystem|Environ. Technol.23(11): 1285-1292|2002|10.1080/09593332308618327
82046|T||Viret,O., W. Siegfried, E. Holliger, and U. Raisigl|Comparison of Spray Deposits and Efficacy Against Powdery Mildew of Aerial and Ground-Based Spraying Equipment in Viticulture|Crop Prot.22(8): 1023-1032|2003|10.1016/S0261-2194(03)00119-4
82047|A||Poopathi,S., N. Arunachalam, N. Gopalan, G. Baskaran, and T.R. Mani|Resistance to Malathion in Culex quinquefasciatus Say (Diptera:  Culicidae) from Madurai, South India|Insect Sci. Appl.21(3): 251-255|2001|
82048|A||Hamilton,S.J., K.M. Holley, K.J. Buhl, F.A. Bullard, L.K. Weston, and S.F. McDonald|The Evaluation of Contaminant Impacts on Razorback Sucker held in Flooded Bottomland Sites Near Grand Junction, Colorado - 1996|Recovery Program Project Number CAP6-WW, U.S.Geological Survey, Yankton, SD:302 p.|2001|
82049|A||Hamilton,S.J., K.M. Holley, K.J. Buhl, F.A. Bullard, L.K. Weston, and S.F. McDonald|The Evaluation of Contaminant Impacts on Razorback Sucker held in Flooded Bottomland Sites Near Grand Junction, Colorado - 1997|Recovery Program Project Number CAP6-WW, U.S.Geological Survey, Yankton, SD:229 p.|2001|
82050|T||Foster,S.P., I. Denholm, and R. Thompson|Variation in Response to Neonicotinoid Insecticides in Peach-Potato Aphids, Myzus persicae (Hemiptera:  Aphididae)|Pest Manag. Sci.59(2): 166-173|2003|10.1002/ps.570
82051|T||Bharati,V., and U.K. Prasad|Effect of Irrigation and Sulphur on Growth and Yield of Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.73(1): 38-40|2003|
82052|T||Tamas,L., M. Simonovicova, J. Huttova, and I. Mistrik|Changes in the Composition of Cell Wall Proteins in Barley Roots During Germination and Growth in Aluminium Presence|Plant Soil Environ.49(7): 327-331|2003|10.17221/4132-PSE
82053|A||Corbel,V., F. Chandre, F. Darriet, F. Lardeux, and J.M. Hougard|Synergism Between Permethrin and Propoxur Against Culex quinquefasciatus Mosquito Larvae|Med. Vet. Entomol.17(2): 158-164|2003|10.1046/j.1365-2915.2003.00435.x
82054|T||James,D.G.|Toxicity of Imidacloprid to Galendromus occidentalis, Neoseiulus fallacis and Amblyseius andersoni (Acari: Phytoseiidae) from Hops in Washington State, USA|Exp. Appl. Acarol.31(3/4): 275-281|2003|10.1023/B:APPA.0000010383.33351.2f
82055|T||Marcic,D.|The Effects of Clofentezine on Life-Table Parameters in Two-Spotted Spider Mite Tetranychus urticae|Exp. Appl. Acarol.30(4): 249-263|2003|10.1023/B:APPA.0000006541.68245.94
82056|T||Kavousi,A., and K. Talebi|Side-Effects of Three Pesticides on the Predatory Mite, Phytoseiulus persimilis (Acari:  Phytoseiidae)|Exp. Appl. Acarol.31(1/2): 51-58|2003|10.1023/B:APPA.0000005127.42123.98
82057|A||Rodriguez,M.M., J. Bisset, M. Ruiz, and A. Soca|Cross-Resistance to Pyrethroid and Organophosphorus Insecticides Induced by Selection with Temephos in Aedes aegypti (Diptera: Culicidae) from Cuba|J. Med. Entomol.39(6): 882-888|2002|10.1603/0022-2585-39.6.882
82058|T||Sanchez-Ramos,I., and P. Castanera|Laboratory Evaluation of Selective Pesticides Against the Storage Mite Tyrophagus putrescentiae (Acari:  Acaridae)|J. Med. Entomol.40(4): 475-481|2003|10.1603/0022-2585-40.4.475
82059|T||Ruan,J., L. Ma, Y. Shi, and W. Han|Uptake of Fluoride by Tea Plant (Camellia sinensis L) and the Impact of Aluminium|J. Sci. Food Agric.83(13): 1342-1348|2003|10.1002/jsfa.1546
82060|A||Song,M.O., D.J. Fort, D.L. McLaughlin, R.L. Rogers, J.H. Thomas, B.O. Buzzard, A.M. Noll, and N.K. Myers|Evaluation of Xenopus tropicalis as an Alternative Test Organism for Frog Embryo Teratogenesis Assay - Xenopus (FETAX)|Drug Chem. Toxicol.26(3): 177-189|2003|10.1081/DCT-120022647
82061|T||Singh,D.V., M.M. Gupta, A.K. Tripathi, V. Prajapati, and S. Kumar|Arjunetin from Terminalia arjuna as an Insect Feeding-Deterrent and Growth Inhibitor|PTR. Phytother.Res.18(2): 131-134|2004|10.1002/ptr.1383
82062|T||Cottrell,T.E., and B.W. Wood|Pecan Weevil Management: Past, Present and Toward a Future Strategy|Southwest. Entomol.27:75-84|2003|
82063|A||Danilov,R.A., and N.G.A. Ekelund|Effects of Short-Term and Long-Term Aluminium Stress on Photosynthesis, Respiration, and Reproductive Capacity in a Unicellular Green Flagellate (Euglena gracilis)|Acta Hydrochim. Hydrobiol. (Multiple Languages)30(4): 190-196|2002|10.1002/aheh.200390002
82065|T||Van Erp,S., L. Booth, R. Gooneratne, and K. O'Halloran|Sublethal Responses of Wolf Spiders (Lycosidae) to Organophosphorous Insecticides|Environ. Toxicol.17(5): 449-456|2002|10.1002/tox.10078
82066|A||Pillai,B.R., K.J. Rao, and J. Mohanty|Toxicity of Selected Cryoprotectants to the First Zoeal Stages of Giant Freshwater Prawn Macrobrachium rosenbergii (de Man)|Asian Fish. Sci.14(1): 1-7|2001|10.33997/j.afs.2001.14.1.001
82067|T||Wagner,R., M. Kogan, and A.M. Parada|Phytotoxic Activity of Root Absorbed Glyphosate in Corn Seedlings (Zea mays L.)|Weed Biol. Manag.3(4): 228-232|2003|10.1046/j.1444-6162.2003.00110.x
82068|T||Hamamura,K., T. Muraoka, J. Hashimoto, A. Tsuruya, H. Takahashi, T. Takeshita, and K. Noritake|Identification of Sulfonylurea-Resistant Biotypes of Paddy Field Weeds Using a Novel Method Based on Their Rooting Responses|Weed Biol. Manag.3(4): 242-246|2003|10.1046/j.1444-6162.2003.00109.x
82070|T||Kambrekar,D.N., J.S. Awaknavar, and K.A. Kulkarni|Insecticidal Toxicity Against Spiralling Whitefly, Aleurodicus dispersus Russell on Acalypha|J. Entomol. Res.27(1): 77-80|2003|
82071|A||Shcherban,E.P., P.N. Linnik, and T.A. Vasilchuk|Bioassay of the Toxicity of the Aquatic Environment Containing the Ions of Cu (II) and Humic Acids|Hydrobiol. J.39(3): 93-110|2003|10.1615/HydrobJ.v39.i3.100
82072|A||Lamy-Enrici,M.H., A. Dondeyne, and E. Thybaud|Influence of the Organic Matter on the Bioavailability of Phenanthrene for Benthic Organisms|Aquat. Ecosyst. Health Manag.6(4): 391-396|2003|10.1080/714044168
82073|T||Nishijima,K.I., K. Esaka, H. Ibuki, K.I. Ono, K. Miyake, M. Kamihira, and S. Iijima|Simple Assay Method for Endocrine Disrupters by In Vitro Quail Embryo Culture: Nonylphenol Acts as a Weak Estrogen in Quail Embryos|J. Biosci. Bioeng.95(6): 612-617|2003|10.1016/S1389-1723(03)80171-8
82074|T||Heuer,B.|Influence of Exogenous Application of Proline and Glycinebetaine on Growth of Salt-Stressed Tomato Plants|Plant Sci.165(4): 693-699|2003|10.1016/S0168-9452(03)00222-X
82075|T||Ruiz,J.M., R.M. Rivero, and L. Romero|Preliminary Studies on the Involvement of Biosynthesis of Cysteine and Glutathione Concentration in the Resistance to B Toxicity in Sunflower Plants|Plant Sci.165(4): 811-817|2003|10.1016/S0168-9452(03)00276-0
82076|T||Friesen,L.F., A.G. Nelson, and R.C. Van Acker|Evidence of Contamination of Pedigreed Canola (Brassica napus) Seedlots in Western Canada with Genetically Engineered Herbicide Resistance Traits|Agron. J.95(5): 1342-1347|2003|10.2134/agronj2003.1342
82077|T||Borges,R., E.C. Miguel, J.M.R. Dias, M. Da Cunha, R.E. Bressan-Smith, J.G. De Oliveira, and G.A. De souza Filho|Ultrastructural, Physiological and Biochemical Analyses of Chlorate Toxicity on Rice Seedlings|Plant Sci.166(4): 1057-1062|2004|10.1016/j.plantsci.2003.12.023
82078|T||Feng,X., A. Apelbaum, E.C. Sisler, and R. Goren|Control of Ethylene Activity in Various Plant Systems by Structural Analogues of 1-Methylcyclopropene|Plant Growth Regul.42(1): 29-38|2004|10.1023/B:GROW.0000014900.12351.4e
82079|T||Ryder,M., F. Gerard, D.E. Evans, and M.J. Hodson|The Use of Root Growth and Modelling Data to Investigate Amelioration of Aluminium Toxicity by Silicon in Picea abies Seedlings|J. Inorg. Biochem.97(1): 52-58|2003|10.1016/S0162-0134(03)00181-8
82080|T||Singh,M., W. Mersie, and R.H. Brlansky|Phytotoxicity of the Fungicide Metalaxyl and Its Optical Isomers|Plant Dis.87(9): 1144-1147|2003|10.1094/PDIS.2003.87.9.1144
82081|T||Elzen,P., D. Westervelt, D. Causey, R. Rivera, J. Baxter, and M. Feldlaufer|Control of Oxytetracycline-Resistant American Foulbrood with Tylosin and Its Toxicity to Honey Bees (Apis mellifera)|J. Apic. Res.41(3/4): 97-100|2002|10.1080/00218839.2002.11101075
82082|T||Wenger,K., S.K. Gupta, G. Furrer, and R. Schulin|The Role of Nitrilotriacetate in Copper Uptake by Tobacco|J. Environ. Qual.32(5): 1669-1676|2003|10.2134/jeq2003.1669
82083|T||Sojka,R.E., D.W. Morishita, J.A. Foerster, and M.J. Wille|Weed Seed Transport and Weed Establishment as Affected by Polyacrylamide in Furrow-Irrigated Corn|J. Soil Water Conserv.58(5): 319-326|2003|
82084|T||Anand,S.S., M.G. Soni, V.S. Vaidya, S.N. Murthy, M.M. Mumtaz, and H.M. Mehendale|Extent and Timeliness of Tissue Repair Determines the Dose-Related Hepatotoxicity of Chloroform|Int. J. Toxicol.22(1): 25-33|2003|10.1080/10915810305074
82085|A||Ek,H., G. Dave, G. Birgersson, and L. Forlin|Acute Effects of 2,4,6-Trinitrotoluene (TNT) on Haematology Parameters and Hepatic EROD-Activity in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Ecosyst. Health Manag.6(4): 415-421|2003|10.1080/714044171
82086|T||Dan,H., H. Imaseki, G.O. Wasteneys, and H. Kazama|Ethylene Stimulates Endoreduplication but Inhibits Cytokinesis in Cucumber Hypocotyl Epidermis|Plant Physiol.133(4): 1726-1731|2003|10.1104/pp.103.025783
82087|A||Scott,A.P., I. Katsiadaki, and J. Thain|Development of an ELISA for Cod Vitellogenin and Application to Assessment of Estrogen Exposure in Caged Cod from the BECPELAG Workshop|Int. Counc. Explor. SeaICES CM 2002-X:10-|2002|
82088|T||Fecht-Christoffers,M.M., H.P. Braun, C. Lemaitre-Guillier, A. VanDorsselaer, and W.J. Horst|Effect of Manganese Toxicity on the Proteome of the Leaf Apoplast in Cowpea|Plant Physiol.133(4): 1935-1946|2003|10.1104/pp.103.029215
82089|T||Soto-Estrada,A., H. Forster, J. Hasey, and J.E. Adaskaveg|New Fungicides and Application Strategies Based on Inoculum and Precipitation for Managing Stone Fruit Rust on Peach in California|Plant Dis.87(9): 1094-1101|2003|10.1094/PDIS.2003.87.9.1094
82091|T||Bhatia,A., P.D. Roberts, and L.W. Timmer|Evaluation of the Alter-Rater Model for Timing of Fungicide Applications for Control of Alternaria Brown Spot of Citrus|Plant Dis.87(9): 1089-1093|2003|10.1094/PDIS.2003.87.9.1089
82092|T||Baisakhi,B., J. Patra, R.K. Panigrahy, and B.B. Panda|Differential Antioxidant Enzyme and Thiol Responses of Tolerant and Non-tolerant Clones of Chloris barbata to Cadmium-Stress|Acta Physiol. Plant.25(4): 357-363|2003|10.1007/s11738-003-0017-0
82093|T||De Arias,A.R., M.J. Lehane, C.J. Schofield, and A. Fournet|Comparative Evaluation of Pyrethroid Insecticide Formulations Against Triatoma infestans (Klug):  Residual Efficacy on Four Substrates|Mem. Inst. Oswaldo Cruz98(7): 975-980|2003|10.1590/S0074-02762003000700020
82094|A||Alaguchamy,N., and R. Gopal|Toxic Influence of Insecticide Endosulphan on Some Inorganic Constituents of Laccotrephes maculatus (Nepa)|J. Ecotoxicol. Environ. Monit.11(4): 239-243|2001|
82095|T||Symeonidis,L., M.M.A. Auda, and T. Yupsanis|Aluminium Toxicity Effects on Cucumis melo and Response of Diphosphonucleoside Kinases|Biologia (Bratisl.)59(1): 133-139|2004|
82096|T||Shen,S., Y. Chien, and C. Chien|Induction of Glutathione S-Transferases Activities in Drosophila melanogaster Exposed to Phenol|Arch. Insect Biochem. Physiol.53(2): 80-91|2003|10.1002/arch.10087
82097|A||Burrell,D.C., and D. Weihs|Uptake of Cadmium by Marine Bacteria and Transfer to a Deposit Feeding Clam|Alsk.Sea Grant Coll.Program Rep.83-5:|1983|
82100|T||Green,S.K., and J.C. Chou|Studies on Management Practices to Reduce Aphid-Transmitted Viruses and Their Vectors in Pepper (Capsicum annuum L.)|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))33(4): 364-375|1991|
82101|T||Rao,N.V., A.S. Reddy, and P.S. Reddy|Relative Efficacy of Some New Insecticides on Insect Pests of Cotton|Indian J. Plant Prot.18(1): 53-58|1990|
82103|T||Weissling,T.J., T.M. Lewis, L.M. McDonough, and D.R. Horton|Reduction in Pear Psylla (Homoptera:  Psyllidae) Oviposition and Feeding by Foliar Application of Various Materials|Can. Entomol.129(4): 637-643|1997|10.4039/Ent129637-4
82104|T||Gladders,P., O.W. Jones, and D.D. Slawson|Evaluation of Fungicides for Control of Ringspot and Light Leaf Spot in Brussels Sprouts|Br. Crop Prot. Conf. Pests Dis.1-3:1169-1174|1992|
82107|T||Powell,G.|The Effect of Mineral Oil on Stylet Activities and Potato Virus Y Transmission by Aphids|Entomol. Exp. Appl.63(3): 237-242|1992|10.1111/j.1570-7458.1992.tb01579.x
82108|A||Drendel,G.H.|The Toxicity of Zinc to the Fathead Minnow in Soft, Hard, and Very Hard Waters|M.S.Thesis, Colorado State University, Fort Collins, CO:85 p.|1981|
82109|T||Gruvberger,B., and M. Bruze|Contact Allergy to 4-(2-Nitrobutyl)-Morpholine and 4,4'-(2-Ethyl-2-Nitrotrimethylene)-Dimorpholine as Active Ingredients of a Preservative Recommended for Metal-Working Fluids in the Guinea Pig|Derm. Beruf Umwelt43(3): 126-128|1995|
82111|T||Hammond,R.B.|Slug Control in Soybean, 1995|Arthropod Manag. Tests22:438-|1997|10.1093/amt/22.1.438
82112|A||Nevo,E., and B. Lavie|Selection of Allozyme Genotypes of Two Species of Marine Gastropods (Genus littorina) in Experiments of Environmental Stress by Nonionic Detergent and Crude Oil-Surfactant Mixtures|Genet. Sel. Evol.21(3): 295-302|1989|10.1186/1297-9686-21-3-295
82113|T||Nimbole,N.N.|Maximum Yield and Survival of Perennial Pigeonpea (Cajanus cajan) by Improving Planting Site, Watering and Chemicals|Indian J. Agric. Sci.67(11): 507-509|1997|
82114|T||Drysdale,J.A., and A.F. Preston|Laboratory Screening Trials with Chemicals for the Protection of Green Timber Against Fungi|N. Z. J. For. Sci.12(3): 457-466|1982|
82115|T||Hammond,R.B.|Gray Garden Slug Control in Field Corn, 1995|Arthropod Manag. Tests22:437-|1997|10.1093/amt/22.1.437
82116|A||Juttner,F., D. Backhaus, U. Matthias, U. Essers, R. Greiner, and B. Mahr|Emissions of Two- and Four-Stroke Outboard Engines - II.  Impact on Water Quality|Water Res.29(8): 1983-1987|1995|10.1016/0043-1354(94)00331-Z
82117|T||Thompson,L.,Jr., and D.B. Egli|Evaluation of Seedling Progeny of Soybeans Treated with 2,4-D, 2,4-DB, and Dicamba|Weed Sci.21(2): 141-144|1973|10.1017/S0043174500031945
82118|T||Cserjesi,A.J., and J.W. Roff|Toxicity Tests of Some Chemicals Against Certain Wood-Staining Fungi|Int.Biodeterior.Bull.11(3): 90-96|1975|
82120|T||Banuls,J., A. Quinones, B. Martin, E. Primo-Millo, and F. Legaz|Effects of the Frequency of Iron Chelate Supply by Fertigation on Iron Chlorosis in Citrus|J. Plant Nutr.26(10-11): 1985-1996|2003|10.1081/PLN-120024258
82121|T||Dasgan,H.Y., L. Ozturk, K. Abak, and I. Cakmak|Activities of Iron-Containing Enzymes in Leaves of Two Tomato Genotypes Differing in Their Resistance to Fe Chlorosis|J. Plant Nutr.26(10-11): 1997-2007|2003|10.1081/PLN-120024259
82122|T||Yehuda,Z., Y. Hadar, and Y. Chen|Immobilized EDDHA and DFOB as Iron Carriers to Cucumber Plants|J. Plant Nutr.26(10-11): 2043-2056|2003|10.1081/PLN-120024263
82123|T||Donnini,S., A. Castagna, L. Guidi, G. Zocchi, and A. Ranieri|Leaf Responses to Reduced Iron Availability in Two Tomato Genotypes:  T3238FER (Iron Efficient) and T3238fer (Iron Inefficient)|J. Plant Nutr.26(10-11): 2137-2148|2003|10.1081/PLN-120024270
82124|T||Nikolic,M., S. Cesco, V. Romheld, Z. Varanini, and R. Pinton|Uptake of Iron(59Fe) Complexed to Water-Extractable Humic Substances by Sunflower Leaves|J. Plant Nutr.26(10-11): 2243-2252|2003|10.1081/PLN-120024278
82125|AT||Spencer,D.F., C.L. Elmore, G.G. Ksander, and J.A. Roncoroni|Influence of Dilute Acetic Acid Treatments on American Pondweed Winter Buds in the Nevada Irrigation District, California|J. Aquat. Plant Manag.41(2): 65-68|2003|
82126|T||Thomas,S.G., T.J. Hocking, and P.E. Bilsborrow|Effect of Sulphur Fertilisation on the Growth and Metabolism of Sugar Beet Grown on Soils of Differing Sulphur Status|Field Crops Res.83(3): 223-235|2003|10.1016/S0378-4290(03)00075-3
82127|A||Shiomi,N., and S. Kitoh|Screening of Azolla Strains for Tolerance to Ammonium|Lakes Reserv. Res. Manag.7(1): 45-48|2002|10.1046/j.1440-1770.2002.00166.x
82129|A||Hu,H., Y. Shi, W. Cong, and Z. Cai|Growth and Photosynthesis Limitation of Marine Red Tide Alga Skeletonema costatum by Low Concentrations of Zn2+|Biotechnol. Lett.25(22): 1881-1885|2003|10.1023/B:BILE.0000003976.18970.cd
82130|T||Nyitrai,P., K. Boka, L. Gaspar, E. Savari, K. Lenti, and A. Keresztes|Characterization of the Stimulating Effect of Low-Dose Stressors in Maize and Bean Seedlings|J. Plant Physiol.160(10): 1175-1183|2003|10.1078/0176-1617-00770
82131|T||Souza,J.F., and W.E. Rauser|Maize and Radish Sequester Excess Cadmium and Zinc in Different Ways|Plant Sci.165(5): 1009-1022|2003|10.1016/S0168-9452(03)00289-9
82132|T||De Simone,O., E. Muller, W.J. Junk, K. Richau, and W. Schmidt|Iron distribution in three central Amazon tree species from whitewater-inundation areas (varzea) subjected to different iron regimes|Trees17(6): 535-541|2003|10.1007/s00468-003-0270-2
82133|T||Alam,S., F. Akiha, S. Kamei, and S. Kawai|Mechanism of Potassium Alleviation of Manganese Phytotoxicity in Barley Evaluated by Short-Term Absorption of Manganese-54 and Iron-59|Soil Sci. Plant Nutr.49(4): 485-492|2003|10.1080/00380768.2003.10410037
82134|T||Polston,J.E., and T. Sherwood|Pymetrozine Interferes with Transmission of Tomato Yellow Leaf Curl Virus by the Whitefly Bemisia tabaci|Phytoparasitica31(5): 490-498|2003|10.1007/BF02979742
82136|T||Burleigh,S.H., B.K. Kristensen, and I.E. Bechmann|A Plasma Membrane Zinc Transporter from Medicago truncatula is Up-Regulated in Roots by Zn Fertilization, Yet Down-Regulated by Arbuscular mycorrhizal Colonization|Plant Mol. Biol.52(5): 1077-1088|2003|10.1023/A:1025479701246
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82138|T||Fujiwara,Y., T. Takahashi, T. Yoshioka, and F. Nakasuji|Changes in Egg Size of the Diamondback Moth Plutella xylostella (Lepidoptera:  Yponomeutidae) Treated with Fenvalerate at Sublethal Doses and Viability of the Eggs|Appl. Entomol. Zool.37(1): 103-109|2002|10.1303/aez.2002.103
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82146|T||Gray,L.E.,Jr., J. Ostby, R. Marshall, and J. Andrews|Endocrine Effects of a Polychlorinated Biphenyl Mixture (Aroclor 1254):  Repressed Sex Accessory Glands in Hypothyroid Rats with Normal Levels of Serum and Testicular Testosterone|Organohalog. Compd.10:73-|1992|
82147|T||Van Birgelen,A., J. Van der Kolk, K. Fase, H. Poiger, A. Brouwer, and M. Van den Berg|Toxicity and Biochemical Potencies of Polychlorinated Biphenyl Congeners Relative to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Three Month Feeding Studies in the Rat|Organohalog. Compd.10:373-|1992|
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82155|T||Birnbaum,L.S., and M.B. Baird|Induction of Hepatic Mixed Function Oxidases in Senescent Rodents- II.  Effect of Polychlorinated Biphenyls|Exp. Gerontol.13:469-477|1978|10.1016/0531-5565(78)90059-1
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82159|T||Koller,L.D.|Enhanced Polychlorinated Biphenyls Lesion in Moloney Leukemia Virus-Infected Mice|Clin. Toxicol.11(1): 107-116|1977|10.3109/15563657708989824
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82164|T||Somashekaraiah,B.V., K. Padmaja, and A.R.K. Prasad|Phytotoxicity of Cadmium Ions on Germinating Seedlings of Mung Bean (Phaseolus vulgaris):  Involvement of Lipid Peroxides in Chlorophyll Degradation|Physiol. Plant. (Multiple Languages)85(1): 85-89|1992|10.1111/j.1399-3054.1992.tb05267.x
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82166|T||Mariano,E.D., and W.G. Keltjens|Variation for Aluminum Resistance Among Maize Genotypes Evaluated with Three Screening Methods|Commun. Soil Sci. Plant Anal.35(17-18): 2617-2637|2004|10.1081/LCSS-200030412
82167|T||Ortas,I., and D.L. Rowell|Effect of Ammonium and Nitrate on Indigenous Mycorrhizal Infection, Rhizosphere pH Change, and Phosphorus Uptake by Sorghum|Commun. Soil Sci. Plant Anal.35(13-14): 1923-1944|2004|10.1081/LCSS-200026820
82168|T||Liu,X., Y. Yang, W. Li, C. Li, D. Duan, and T. Tadano|Interactive Effects of Sodium Chloride and Nitrogen on Growth and Ion Accumulation of a Halophyte|Commun. Soil Sci. Plant Anal.35(15/16): 2111-2123|2004|10.1081/LCSS-200028936
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82173|T||Randall,G.W., and J.A. Vetsch|Corn Production on a Subsurface-Drained Mollisol as Affected by Fall Versus Spring Application of Nitrogen and Nitrapyrin|Agron. J.97(2): 472-478|2005|10.2134/agronj2005.0472
82174|T||Tubbs,R.S., and R.N. Gallaher|Conservation Tillage and Herbicide Management for Two Peanut Cultivars|Agron. J.97(2): 500-504|2005|10.2134/agronj2005.0500
82176|T||Heatherly,L.G., K.N. Reddy, and S.R. Spurlock|Weed Management in Glyphosate-Resistant and Non-Glyphosate-Resistant Soybean Grown Continuously and in Rotation|Agron. J.97(2): 568-577|2005|10.2134/agronj2005.0568
82177|T||Simonoff,M., T.V. Khijniak, C. Sergeant, M.H. Vesvres, M.S. Pravikoff, E. Leclerc-Cessac, G. Echevarria, and S. Denys|Technetium Species Induced in Maize as Measured by Phosphorimager|J. Environ. Radioact.70(1-2): 139-154|2003|10.1016/S0265-931X(03)00123-1
82178|T||Lucena,C., I. Montilla, F.J. Romera, and E. Alcantara|Effects of Several Metals on Both Fe(III)- and Cu(II)-Reduction by Roots of Fe-Deficient Cucumber Plants|J. Plant Nutr.26(10-11): 2069-2079|2003|10.1081/PLN-120024265
82179|T||Pavlista,A.D.|Early-Season Applications of Sulfur Fertilizers Increase Potato Yield and Reduce Tuber Defects|Agron. J.97(2): 599-603|2005|10.2134/agronj2005.0599
82180|T||Kaiser,D.E., A.P. Mallarino, and M. Bermudez|Corn Grain Yield, Early Growth, and Early Nutrient Uptake as Affected by Broadcast and In-Furrow Starter Fertilization|Agron. J.97(2): 620-626|2005|10.2134/agronj2005.0620
82181|T||Sanderson,M.A., R.R. Schnabel, W.S. Curran, W.L. Stout, D. Genito, and B.F. Tracy|Switchgrass and Big Bluestem Hay, Biomass, and Seed Yield Response to Fire and Glyphosate Treatment|Agron. J.96(6): 1688-1692|2004|10.2134/agronj2004.1688
82182|T||Pant,H.K., P. Mislevy, and J.E. Rechcigl|Effects of Phosphorus and Potassium on Forage Nutritive Value and Quantity:  Environmental Implications|Agron. J.96(5): 1299-1305|2004|10.2134/agronj2004.1299
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82186|T||Subedi,K.D., and B.L. Ma|Seed Priming does not Improve Corn Yield in a Humid Temperate Environment|Agron. J.97(1): 211-218|2005|10.2134/agronj2005.0211a
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82201|T||Kimura,N.T., and T. Baba|Neoplastic Changes in the Rat Liver Induced by Polychlorinated Biphenyls|Gann64(1): 105-108|1973|
82202|T||Zhang,C., C. Fang, L. Liu, G. Xia, and H. Qiao|Disrupting Effects of Polychlorinated Biphenyls on Gonadal Development and Reproductive Functions in Chickens|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(4): 509-519|2002|
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82204|T||Dees,J.H., B.S.S. Masters, U. Muller-Eberhard, and E.F. Johnson|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Phenobarbital on the Occurrence and Distribution of Four Cytochrome P-450 Isozymes in Rabbit Kidney, Lung, and Liver|Cancer Res.42:1423-1432|1982|
82207|T||Johansson,B.|Lack of Effects of Polychlorinated Biphenyls on Testosterone Synthesis in Mice|Pharmacol. Toxicol.61:220-223|1987|10.1111/j.1600-0773.1987.tb01807.x
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82211|T||Jannetti,R.A., and L.M. Anderson|Dimethylnitrosamine Demethylase Activity in Fetal, Suckling, and Maternal Mouse Liver and Its Transplacental and Transmammary Induction by Polychlorinated Biphenyls|J. Natl. Cancer Inst.67(2): 461-466|1981|
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82213|T||Hirose,M., T. Shirai, H. Tsuda, S. Fukushima, T. Ogiso, and N. Ito|Effect of Phenobarbital, Polychlorinated Biphenyl and Sodium Saccharin on Hepatic and Renal Carcinogenesis in Unilaterally Nephrectomized Rats Given N-Ethyl-N-Hydroxyethylnitrosasmine Orally|Carcinogenesis2(12): 1299-1302|1981|10.1093/carcin/2.12.1299
82214|T||Rao,M.S., V. Subbarao, J.D. Prasad, and D.G. Scarpelli|Carcinogenicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Syrian Golden Hamster|Carcinogenesis9(9): 1677-1679|1988|10.1093/carcin/9.9.1677
82215|T||Yoshihara,S., K. Nagata, and H. Yoshimura|Different Responsiveness of Hepatic and Pulmonary Microsomal Mixed Function Oxidases to Phenobarbital-Type and 3-Methylcholanthrene-Type Polychlorinated Biphenyls in Rats|J. Pharmacobio-Dyn.6:954-962|1983|10.1248/bpb1978.6.954
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82217|T||Ito,N., H. Nagasaki, S. Makiura, and M. Arai|Histopathological Studies on Liver Tumorigenesis in Rats Treated with Polychlorinated Biphenyls|Gann65:545-549|1974|
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82221|T||Sechser,B., M.A. Ruzette, and M. Engelhardt|Dormant and Postblossom Application of OP Insecticides:  A Comparison of Their Effects on Pests and Beneficials in Apple Orchards|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)96(1): 81-88|1989|
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82224|T||Chandler,L.D.|Effect of Surfactants on Beet Armyworm and Fall Armyworm Larvae 1994|Arthropod Manag. Tests20:353-354|1995|10.1093/amt/20.1.353
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82226|T||Beers,E.H.|Effect of Experimental and Registered Miticides on Twospotted Spider Mite and European Red Mite|Arthropod Manag. Tests22:1-|1996|
82227|T||Beers,E.H., G. Williams, and B.L. Bret|Control of Second Generation Leafminer, 1998|Arthropod Manag. Tests24:3-4|1999|10.1093/amt/24.1.A2
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82230|T||Bell,M.L., R.A. Larson, and D.A. Bailey|Vegetative Growth Responses of Florist Azaleas to Dikegulac, GA4+7, and 6-Benzylamino Purine|Hortscience32(4): 690-693|1997|10.21273/HORTSCI.32.4.690
82231|T||Stansly,P.A., and B.M. Cawley|Control of Armyworm on Bell Pepper, 1991|Insectic. Acaric. Tests18:141-142|1993|10.1093/iat/18.1.141
82232|T||Jansson,R.K., S.H. Lecrone, and J.G. Castillo|Management of Lepidopterous Pests on Cabbage, 1990|Insectic. Acaric. Tests18:92-93|1993|10.1093/iat/18.1.92
82233|T||Jansson,R.K., S.H. Lecrone, and R. Lance|Management of Lepidopterous Pests on Cabbage, 1991|Insectic. Acaric. Tests18:104-105|1993|10.1093/iat/18.1.104
82234|T||Whalen,J., and M. Spellman|Control of Lepidopterous Larvae on Spring Cabbage, 1992|Insectic. Acaric. Tests18:115-116|1993|10.1093/iat/18.1.115a
82235|T||Teague,T.G.|Control of Fall Armyworm in Sweet Corn with Bacillus thuringiensis, 1991|Insectic. Acaric. Tests18:127-128|1993|10.1093/iat/18.1.127
82236|T||Johnson,D.R., and G. Studebaker|Control of Spider Mites in Cotton, 1990|Insectic. Acaric. Tests18:236-|1993|10.1093/iat/18.1.236
82237|T||Palumbo,J.C., M. Butler, and Jr.,C. Mullis|Beet Armyworm Control in Lettuce, 1990|Insectic. Acaric. Tests16:85-86|1991|
82238|T||Winters,S., and B. Cartwright|Cabbage Looper and Diamondback Moth Control on Cabbage Spring, 1991|Insectic. Acaric. Tests17:91-92|1992|10.1093/iat/17.1.91
82239|T||Palumbo,J.C., C.H. Mullis, and F. Reyes|Evaluation of Biological Insecticides for Control Beet Armyworm in Lettuce, 1991|Insectic. Acaric. Tests17:115-|1992|10.1093/iat/17.1.115
82240|T||Oloumi-Sadeghi,H., and C.E. Eastman|Control of Diamondback Moth on Canola, 1991|Insectic. Acaric. Tests17:187|1992|10.1093/iat/17.1.187
82241|T||Carson,W.G., K.K. White, and J.T. Trumble|Impact of Insecticides on Lepidopterous Larvae and Leafminers on Tomatoes, 1992|Insectic. Acaric. Tests18:171-172|1993|
82242|T||Micinski,S., B.J. Fitzpatrick, and J.B. Graves|Control of the Bollworm-Tobacco Budworm Complex, 1991|Insectic. Acaric. Tests17:237-238|1992|10.1093/iat/17.1.237a
82243|T||Layton,B., M. Howell, and B. Head|Late Season Control of Bollworm/Budworm, 1991|Insectic. Acaric. Tests17:232-233|1992|10.1093/iat/17.1.232
82244|T||Karner,M., S. Ewing, M. Kelley, and J. Goodson|Cotton Aphid Control, 1991|Insectic. Acaric. Tests17:229-230|1992|10.1093/iat/17.1.229
82246|T||Zehnder,G.W., and J. Speese III|Foliar Sprays for Worm Control on Peppers, 1991|Insectic. Acaric. Tests17:121-122|1992|10.1093/iat/17.1.121a
82247|T||Singh,D.P.|Chemical Control of Ramie Diseases|Agric. Sci. Dig.15(2): 88-92|1995|
82248|T||Iqbal,J., Mahmood-ul-Hassan, and I.A. Khan|Relative Efficacy of Some Organophosphate Insecticides Against Jassids (Cicadellidae:  Homoptera) in Cotton Crop|Sarhad J. Agric.13(1): 83-85|1997|
82249|T||Khan,P.K., and K.S. Awasthy|Cytogenetic Toxicity of Neem|Food Chem. Toxicol.41(10): 1325-1328|2003|10.1016/S0278-6915(03)00123-6
82251|T||Cuthbertson,A.G.S., and A.K. Murchie|The Impact of Fungicides to Control Apple Scab (Venturia inaequalis) on the Predatory Mite Anystis baccarum and Its Prey Aculus schlechtendali (Apple Rust Mite) in Northern Ireland Bramley Orchards|Crop Prot.22(9): 1125-1130|2003|10.1016/S0261-2194(03)00147-9
82252|T||White,J.C., X. Wang, M.P.N. Gent, W. Iannucci-Berger, B.D. Eitzer, N.P. Schultes, M. Arienzo, and M.I. Mattina|Subspecies-Level Variation in the Phytoextraction of Weathered p,p'-DDE by Cucurbita pepo|Environ. Sci. Technol.37(19): 4368-4373|2003|10.1021/es034357p
82253|A||Mu,X., and G.A. LeBlanc|Developmental Toxicity of Testosterone in the Crustacean Daphnia magna Involves Anti-ecdysteroidal Activity|Gen. Comp. Endocrinol.129(2): 127-133|2002|10.1016/S0016-6480(02)00518-X
82254|T||Mesterhazy,A., T. Bartok, and C. Lamper|Influence of Wheat Cultivar, Species of Fusarium, and Isolate Aggressiveness on the Efficacy of Fungicides for Control of Fusarium Head Blight|Plant Dis.87(9): 1107-1115|2003|10.1094/PDIS.2003.87.9.1107
82255|T||Iqbal,E., F. Qamar, and F.A. Ali|Effect of Actellic on Some Biochemical Contents of Musca domestica (Diptera, Muscidae)|Bull. Dep. Zool. Univ. Panjab16:105-113|2001|
82256|T||Saleem,M.A., S.S. Ali, M. Ashfaq, R. Hussain, and A.R. Shakoori|Synergistic Effects of Permethrin and Cypermethrin on the Toxicity of gamma-HCH, I.  Studies on Some Enzymes of Adult Tribolium castaneum (Herbst.)|Bull. Dep. Zool. Univ. Panjab16:9-22|2001|
82258|A||Thomas,C.N., and A. Mansingh|Bioaccumulation, Elimination, and Tissue Distribution of Chlorpyrifos by Red Hybrid Tilapia in Fresh and Brackish Waters|Environ. Technol.23(11): 1313-1323|2002|10.1080/09593332308618324
82259|T||Yadav,S.K., A. Sharma, and V. Singh|Relative Efficacy of Some Insecticides/Acaricides for the Management of Mite, Eutetranychus orientalis (Klein) on Ber Under Field Conditions|Ann. Biol.19(2): 221-223|2003|
82260|A||Kale,S.P., P.D. Sherkhane, and N.B.K. Murthy|Uptake of 14C-Chlorpyrifos by Clams|Environ. Technol.23(11): 1309-1311|2002|10.1080/09593332308618320
82261|T||Kim,J.G., Y.W. Lee, P.G. Kim, W.S. Roh, and H. Shintani|Reduction of Aflatoxins by Korean Soybean Paste and Its Effect on Cytotoxicity and Reproductive Toxicity - Part 3. Inhibitory Effects of Korean Soybean Paste (Doen-Jang) on Aflatoxin Toxicity in Laying Hens and Aflatoxi|J. Food Prot.66(5): 866-873|2003|10.4315/0362-028X-66.5.866
82262|T||Bukvic,G., M. Antunovic, S. Popovic, and M. Rastija|Effect of P and Zn Fertilisation on Biomass Yield and Its Uptake by Maize Lines (Zea mays L.)|Plant Soil Environ.49(11): 505-510|2003|10.17221/4185-PSE
82263|A||Boone,M.D., and R.D. Semlitsch|Interactions of Bullfrog Tadpole Predators and an Insecticide:  Predation Release and Facilitation|Oceanologia (Wroc.)137(4): 610-616|2003|
82264|T||Zsoldos,F., A. Vashegyi, L. Bona, and A. Pecsvaradi|Effects of Silicon on Growth and Potassium Transport in Triticale and Rye Exposed to Aluminium and Nitrite Stress|Cereal Res. Commun.31(3-4): 379-386|2003|10.1007/BF03543368
82265|T||Jozefyova,L., J. Pulkrabek, and J. Urban|The Influence of Harvest Date and Crop Treatment on the Production of Two Different Sugar Beet Variety Types|Plant Soil Environ.49(11): 492-498|2003|10.17221/4183-PSE
82266|T||Rauch,N., and R. Nauen|Identification of Biochemical Markers Linked to Neonicotinoid Cross Resistance in Bemisia tabaci (Hemiptera:  Aleyrodidae)|Arch. Insect Biochem. Physiol.54(4): 165-176|2003|10.1002/arch.10114
82267|T||Ishaaya,I., S. Kontsedalov, and A.R. Horowitz|Novaluron (Rimon), a Novel IGR: Potency and Cross-Resistance|Arch. Insect Biochem. Physiol.54(4): 157-164|2003|10.1002/arch.10113
82268|T||Retnakaran,A., P. Krell, Q. Feng, and B. Arif|Ecdysone Agonists:  Mechanism and Importance in Controlling Insect Pests of Agriculture and Forestry|Arch. Insect Biochem. Physiol.54(4): 187-199|2003|10.1002/arch.10116
82269|T||Sharma,V.K., R.K. Arora, K. Singh, and A. Gupta|Relative Efficacy and Economics of Some Insecticides Against Leaf Miner, Phytomyza atricornis (Meigen) on Pea|Ann. Biol.19(1): 99-102|2003|
82270|A||Chebotareva,Y.V., Y.G. Izyumov, and M.G. Talikina|Some Specific Features of the Blood Count of Roach Rutilus rutilus Fingerlings upon the Toxicant Effect on the Spermia of Spawners|J. Ichthyol.43(8): 684-688|2003|
82271|A||Talikina,M.G., and V.T. Komov|The Response of Young Carps Cyprinus carpio and Perches Perca fluviatilis to the Long Effects of Mercury|J. Ichthyol.43(1): 122-126|2003|
82272|T||Smreczak,B., and B. Maliszewska-Kordybach|Seeds Germination and Root Growth of Selected Plants in PAH Contaminated Soil|Fresenius Environ. Bull.12(8): 946-949|2003|
82273|T||Fargasova,A., and K. Svetkova|Phytotoxicity of Cd Combinations with Cu, Zn, Pb and Fe Expressed Through Root Growth Inhibition and Metal Accumulation in Mustard (Sinapis alba L.) Young Plants|Fresenius Environ. Bull.12(8): 835-839|2003|
82274|T||Kralova,K., E. Masarovicova, O. Stroffekova, and I. Ondrejkovicova|Effect of Cadmium Compounds on Growth and Metal Accumulation in Zea mays L. in the Presence of Hydroxypropyl-beta-Cyclodextrin|Fresenius Environ. Bull.12(8): 852-856|2003|
82275|T||Kukier,U., and R.L. Chaney|In Situ Remediation of Nickel Phytotoxicity for Different Plant Species|J. Plant Nutr.27(3): 465-495|2004|10.1081/PLN-120028874
82276|A||Mekkawy,I.A.A., and F. El-Din Lashein|The Effect of Lead and Cadmium on LDH and G-6-PDH Isoenzyme Patterns Exhibited During the Early Embryonic Development of the Teleost Fish, Ctenopharyngodon idellus with Emphasis on the Corresponding Morphological Variat|In: H.I.Browman and A.B.Skiftesvik (Eds.), The Big Fish Bang, Proceedings of the 26th Annual Larval Fish Conference, Institute of Marine Research, Bergen, Norway:275-292|2003|
82277|A||Gupta,P., and M. Bhide|A Morphological and Biochemical Studies on the Larvicidal Action of Nuvan in Lymnaea stagnalis|J. Ecophysiol. Occup. Health1(3-4): 275-282|2001|
82278|T||Giri,G.S., and W.F. Schillinger|Seed Priming Winter Wheat for Germination, Emergence, and Yield|Crop Sci.43(6): 2135-2141|2003|10.2135/cropsci2003.2135
82279|T||Gebauer,J., K. El-Siddig, A.A. Salih, and G. Ebert|Effect of Different Levels of NaCl-induced Salinity on Growth, Photosynthesis, Leaf Chlorophyll Concentration and Ion Distribution of Adansonia digitata L. Seedlings|J. Appl. Bot.77(3/4): 103-107|2003|
82280|T||Vrecl,M., M. Ursic, A. Pogacnik, L. Zupancic-Kralj, and J. Jan|Excretion Pattern of Co-planar and Non-planar tetra- and hexa-Chlorobiphenyls in Ovine Milk and Faeces|Toxicol. Appl. Pharmacol.204(2): 170-174|2005|10.1016/j.taap.2004.08.017
82281|A||Holm,J.|Sublethal Effects of Selenium on Rainbow Trout (Oncorhynchus mykiss) and Brook Trout (Salvelinus fontinalis)|M.S.Thesis, University of Manitoba, Canada:170 p.|2002|
82282|T||Das,L.K.|Control of Red Spider Mite, Oligonychus coffeae (Nietner) of White Jute|Indian J. Agric. Sci.57(2): 120-121|1987|
82283|T||Pedras,M.S.C., and C.J. Biesenthal|Vital Staining of Plant Cell Suspension Cultures:  Evaluation of the Phytotoxic Activity of the Phytotoxins Phomalide and Destruxin B|Plant Cell Rep.19(11): 1135-1138|2000|10.1007/s002990000244
82284|T||Liu,T.X., A.N. Sparks, and W. Chen|Toxicity, Persistence and Efficacy of Indoxacarb and Two Other Insecticides on Plutella xylostella (Lepidoptera:  Plutellidae) Immatures in Cabbage|Int. J. Pest Manag.49(3): 235-241|2003|10.1080/0967087031000101070
82285|T||Torres,J.B., C.S.A. Silva-Torres, and J.V. De Oliveira|Toxicity of Pymetrozine and Thiamethoxam to Aphelinus gossypii and Delphastus pusillus|Pesqui. Agropecu. Bras. (Multiple Languages)38(4): 459-466|2003|10.1590/S0100-204X2003000400003
82286|T||De barros Santos,R.L., C.R. Spehar, and L. Vivaldi|Quinoa (Chenopodium quinoa) Reaction to Herbicide Residue in a Brazilian Savannah Soil|Pesqui. Agropecu. Bras. (Multiple Languages)38(6): 771-776|2003|10.1590/S0100-204X2003000600014
82287|T||Krouma,A., and C. Abdelly|Importance of Iron Use-Efficiency of Nodules in Common Bean (Phaseolus vulgaris L.) for Iron Deficiency Chlorosis Resistance|J. Plant Nutr. Soil Sci.166(4): 525-528|2003|10.1002/jpln.200320251
82288|T||Sotiropoulos,T.E., I.N. Therios, and K.N. Dimassi|Boron Toxicity in Kiwifruit Plants (Actinidia deliciosa), Treated with Nitrate, Ammonium, and a Mixture of Both|J. Plant Nutr. Soil Sci.166(4): 529-532|2003|10.1002/jpln.200320264
82289|T||Sadana,U.S., D. Samal, and N. Claassen|Differences in Manganese Efficiency of Wheat (Triticum aestivum L.) and Raya (Brassica juncea L.) as Related to Root-Shoot Relations and Manganese Influx|J. Plant Nutr. Soil Sci.166(3): 385-389|2003|10.1002/jpln.200390059
82290|A||Siddall,R., and B. Sures|Uptake of Lead by Pomphorhynchus laevis Cystacanths in Gammarus pulex and Immature Worms in Chub (Leuciscus cephalus)|Parasitol. Res.84(7): 573-577|1998|10.1007/s004360050451
82291|A||Chinni,S., R.N. Khan, V.U. Devi, and P.R. Yallaprgada|Effect of Water Variables on Lead Tolerance in Postlarvae of Penaeus indicus (H. Milne Edwards)|Chem. Ecol.17(3): 157-170|2000|10.1080/02757540008037670
82292|T||Fagerness,M.J., D.C. Bowman, F.H. Yelverton, and T.W.,Jr. Rufty|Nitrogen Use in Tifway Bermudagrass, as Affected by Trinexapac-Ethyl|Crop Sci.44(2): 595-599|2004|10.2135/cropsci2004.5950
82293|T||Nogueira,M.A., G.C. Magalhaes, and E.J.B.N. Cardoso|Manganese Toxicity in Mycorrhizal and Phosphorus-Fertilized Soybean Plants|J. Plant Nutr.27(1): 141-156|2004|10.1081/PLN-120027552
82294|T||Abdullahi,B.A., P. Huang, D.P. Bao, X.Y. Meng, B.H. Jiang, J. Zhu, H.G. Shen, and Y.H. Yang|Effects of Citric Acid on Soybean Seedling Growth Under Aluminum Stress|J. Plant Nutr.27(2): 367-375|2004|10.1081/PLN-120027660
82295|T||Nautiyal,N., and C. Chatterjee|Molybdenum Stress-Induced Changes in Growth and Yield of Chickpea|J. Plant Nutr.27(1): 173-181|2004|10.1081/PLN-120027554
82296|T||Misra,H.P.|Efficacy of Newer Insecticides in Chilli Leaf-Curl Management|Indian J. Agric. Sci.73(6): 358-360|2003|
82297|T||Dash,R., and S.C. Varma|Management of Weeds, Nitrogen and Tillage Operations in Wheat (Triticum aestivum) Sown After Puddled Rice (Oryza sativa)|Indian J. Agric. Sci.73(5): 286-288|2003|
82299|T||Han,Z.J., Z.J. Han, Y.C. Wang, and C.K. Chen|Biochemical Features of a Resistant Population of the Rice Stem Borer, Chilo suppressalis (Walker)|Kunchong Xuebao (Non-English)46(2): 161-170|2003|
82300|T||Sharma,P.R., O.P. Sharma, and B.P. Saxena|Effect of Neem Gold on Haemocytes of the Tobacco Armyworm, Spodoptera litura (Fabricius) (Lepidoptera; Noctuidae)|Curr. Sci. (Bangalore)84(5): 690-695|2003|
82301|T||Vila-Aiub,M.M., C.M. Ghersa, and M. Carceller|Effect of Herbicide Diclofop-Methyl on Proton Extrusion from Lolium multiflorum Seedlings Differing in Resistance and in Fungal Endophyte (Neotyphodium sp.) Infection|Physiol. Plant. (Multiple Languages)119(3): 429-439|2003|10.1034/j.1399-3054.2003.00188.x
82302|A||Kszos,L.A., J.J. Beauchamp, and A.J. Stewart|Toxicity of Lithium to Three Freshwater Organisms and the Antagonistic Effect of Sodium|Ecotoxicology12(5): 427-437|2003|10.1023/A:1026160323594
82303|A||Nacci,D., J. Serbst, T.R. Gleason, S. Cayula, G. Thursby, W.R.,Jr. Munns, and R.K. Johnston|Biological Responses of the Sea Urchin, Arbacia punctulata, to Lead Contamination for an Estuarine Ecological Risk Assessment|J. Aquat. Ecosyst. Stress Recovery7(3): 187-199|2000|10.1023/A:1009912609340
82304|T||Nadler-Hassar,T., and B. Rubin|Natural Tolerance of Cuscuta campestris to Herbicides Inhibiting Amino Acid Biosynthesis|Weed Res. (Multiple Languages)43(5): 341-347|2003|10.1046/j.1365-3180.2003.00350.x
82305|A||Mendoza-Cozatl,D., S. Devars, H. Loza-Tavera, and R. Moreno-Sanchez|Cadmium Accumulation in the Chloroplast of Euglena gracilis|Physiol. Plant. (Multiple Languages)115(2): 276-283|2002|10.1034/j.1399-3054.2002.1150214.x
82306|A||Tsim,S.T., J.T.Y. Wong, and Y.H. Wong|Calcium Ion Dependency and the Role of Inositol Phosphates in Melatonin-Induced Encystment of Dinoflagellates|J. Cell Sci.110(12): 1387-1393|1997|10.1242/jcs.110.12.1387
82307|T||Liu,Z.W., and Z.J. Han|The Roles of Carboxylesterase and AChE Insensitivity in Malathion Resistance Development in Brown Planthopper|Kunchong Xuebao (Non-English)46(2): 250-253|2003|
82308|T||Mo,J., and K. Philpot|Large-Scale Field Trials of Imidacloprid for Control of the Spined Citrus Bug|Hortscience38(4): 555-559|2003|10.21273/HORTSCI.38.4.555
82309|T||Di Baccio,D., R. Tognetti, L. Sebastiani, and C. Vitagliano|Responses of Populus deltoides x Populus nigra (Populus x euramericana) Clone I-214 to high Zinc Concentrations|New Phytol.159(2): 443-452|2003|10.1046/j.1469-8137.2003.00818.x
82310|A||Lakshmi,G.V., C. Bharathi, B.V. Sandeep, and B.V.S.S.R.S. Rao|Toxicity of Endosulfan and Carbaryl to a Brackish Water Oligochaete Pontodrilus bermudensis|J. Ecophysiol. Occup. Health2(1-2): 39-43|2002|
82311|T||Hanson,B., G.F. Garifullina, S.D. Lindblom, A. Wangeline, A. Ackley, K. Kramer, A.P. Norton, C.B. Lawrence, and E.A.H. |Selenium Accumulation Protects Brassica juncea from Invertebrate Herbivory and Fungal Infection|New Phytol.159(2): 461-469|2003|10.1046/j.1469-8137.2003.00786.x
82312|T||Nathan,S.S., K. Kalaivani, K. Murugan, and P.G. Chung|The Toxicity and Physiological Effect of Neem Limonoids on Cnaphalocrocis medinalis (Guenee) the Rice Leaffolder|Pestic. Biochem. Physiol.81(2): 113-122|2005|10.1016/j.pestbp.2004.10.004
82313|T||Satyalatha,B.D.J., and V.V. Vardhani|Liver Phosphatases in Mice Treated with Lead During Murine Ancylostomiasis|Ecotoxicol. Environ. Saf.61(1): 134-136|2005|10.1016/j.ecoenv.2004.01.013
82314|A||Rasmussen,T.H., T.K. Andreassen, S.N. Pedersen, L.T.M. van der Ven, P. Bjerregaard, and B. Korsgaard|Effects of Waterborne Exposure of Octylphenol and Oestrogen on Pregnant Viviparous Eelpout (Zoarces viviparus) and her Embryos In Ovario|J. Exp. Biol.205(24): 3857-3876|2002|10.1242/jeb.205.24.3857
82315|T||Jamal,A., N. Ayub, M. Usman, and A.G. Khan|Arbuscular Mycorrhizal Fungi Enhance Zinc and Nickel Uptake from Contaminated Soil by Soybean and Lentil|Int. J. Phytoremediat.4(3): 205-221|2002|10.1080/15226510208500083
82316|T||Reuveni,M., D. Sheglov, and Y. Cohen|Control of Moldy-Core Decay in Apple Fruits by beta-Aminobutyric Acids and Potassium Phosphites|Plant Dis.87(8): 933-936|2003|10.1094/PDIS.2003.87.8.933
82317|T||Qu,R.L., D. Li, R. Du, and R. Qu|Lead Uptake by Roots of Four Turfgrass Species in Hydroponic Cultures|Hortscience38(4): 623-626|2003|10.21273/HORTSCI.38.4.623
82318|T||Bhattacharjee,S., and A.K. Mukherjee|Heavy Metals Alter Photosynthetic Pigment Profiles as well as Activities of Chlorophyllase and 5-Aminolevulinic Acid Dehydratase (ALAD) in Amaranthus lividus Seedlings|J. Environ. Biol.24(4): 395-399|2003|
82319|T||Wimmer,M.A., K.H. Muhling, A. Lauchli, P.H. Brown, and H.E. Goldbach|The Interaction Between Salinity and Boron Toxicity Affects the Subcellular Distribution of Ions and Proteins in Wheat Leaves|Plant Cell Environ.26(8): 1267-1274|2003|10.1046/j.0016-8025.2003.01051.x
82320|T||Biesaga-Koscielniak,J., I. Marcinska, M. Wedzony, and J. Koscielniak|Effect of Zearalenone Treatment on the Production of Wheat Haploids via the Maize Pollination System|Plant Cell Rep.21(11): 1035-1039|2003|10.1007/s00299-003-0622-9
82321|A||Rey,D., J.P. David, and J.C. Meyran|Factors Influencing the Toxicity of Xenobiotics Against Larval Mosquitoes (Facteurs Influencant la Toxicite des Xenobiotiques sur les Larves de Moustiques)|C. R. Biol. (Multiple Languages)326(3): 317-327|2003|10.1016/S1631-0691(03)00076-3
82322|T||Urwin,C., J.C. Richardson, and A.K. Palmer|An Evaluation of the Mutagenicity of the Cutting Oil Preservative Grotan BK|Mutat. Res.40(1): 43-46|1976|10.1016/0165-1218(76)90021-5
82323|T||Cserjesi,A.J., and E.L. Johnson|Mold and Sapstain Control: Laboratory and Field Tests of 44 Fungicidal Formulations|For. Prod. J.32(10): 59-68|1982|
82324|T||Saito,H., K. Uede, T. Saito, W. Oshima, S. Komiya, T. Ono, and S. Shida|Interaction of Polyanion Against Kanamycin Ototoxicity|Auris Nasus Larynx14(3): 139-145|1987|10.1016/S0385-8146(87)80014-7
82325|T||Xue,J., R. Sands, and P.W. Clinton|Effect of Biuret on Growth and Nutrition of Douglas-Fir (Pseudotsuga menziesii (Mirb) Franco) Seedlings|For. Ecol. Manag.192(2-3): 335-348|2004|10.1016/j.foreco.2004.01.042
82326|A||Kowalski,D.A., and E.P. Bergersen|The Toxicity of Bayluscide and TFM to Tubifex tubifex:  Implications for Chemical Control of the Oligochaete Host of Myxobolus cerebralis, the Causative Agent of Whirling Disease|N. Am. J. Aquacult.65(3): 171-178|2003|10.1577/C02-036
82328|T||Cooke,L.R., T. Locke, K.D. Lockley, A.N. Phillips, M.D.S. Sadiq, R. Coll, L. Black, P.J. Taggart, and P.C. Mercer|The Effect of Fungicide Programmes Based on Epoxiconazole on the Control and DMI Sensitivity of Rhynchosporium secalis in Winter Barley|Crop Prot.23(5): 393-406|2004|10.1016/j.cropro.2003.09.009
82329|T||Garifullina,G.F., J.D. Owen, S.D. Lindblom, H. Tufan, M. Pilon, and E.A.H. Pilon-Smits|Expression of a Mouse Selenocysteine Lyase in Brassica juncea Chloroplasts Affects Selenium Tolerance and Accumulation|Physiol. Plant. (Multiple Languages)118(4): 538-544|2003|10.1034/j.1399-3054.2003.00136.x
82330|T||Gardiner,J., D.A. Collings, J.D.I. Harper, and J. Marc|The Effects of the Phospholipase D-Antagonist 1-Butanol on Seedling Development and Microtubule Organisation in Arabidopsis|Plant Cell Physiol.44(7): 687-696|2003|10.1093/pcp/pcg095
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82332|T||Dernoeden,P.H., C.A. Bigelow, J.E. Kaminski, and J.M. Krouse|Smooth Crabgrass Control in Perennial Ryegrass and Creeping Bentgrass Tolerance to Quinclorac|Hortscience38(4): 607-612|2003|10.21273/HORTSCI.38.4.607
82333|T||Rosenberger,D.A., T.L. Robinson, J.R. Schupp, C.A. Engle-Ahlers, and F.W. Meyer|Effect of Sterol-Demethylation Inhibiting Fungicides on Apple Fruit Set, Fruit Size, Total Yield, and Gross Returns|Hortscience38(4): 601-604|2003|10.21273/HORTSCI.38.4.601
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82381|T||Wang,K.Y., X.B. Kong, X.Y. Jiang, M.Q. Yi, and T.X. Liu|Susceptibility of Immature and Adult Stages of Trialeurodes vaporariorum (Hom., Aleyrodidae) to Selected Insecticides|J. Appl. Entomol.127(9/10): 527-533|2003|10.1111/j.1439-0418.2003.00778.x
82382|T||Singh,S.|Effects of Aqueous Extract of Neem Seed Kernel and Azadirachtin on the Fecundity, Fertility and Post-Embryonic Development of the Melonfly, Bactrocera cucurbitae and the Oriental Fruit Fly, Bactrocera dorsalis (Diptera:|J. Appl. Entomol.127(9/10): 540-547|2003|10.1046/j.1439-0418.2003.00787.x
82383|T||Vacante,V., and G. Gilioli|The Effects of Triflumuron Against the Western Flower Thrips (Frankliniella occidentalis (Pergande)) on Pepper:  An Evaluation Based on the Analysis of Population Dynamics|J. Appl. Entomol.127(7): 413-420|2003|10.1046/j.1439-0418.2003.00777.x
82384|T||Nguyen,N.T., K. Nakabayashi, J. Thompson, and K. Fujita|Role of Exudation of Organic Acids and Phosphate in Aluminum Tolerance of Four Tropical Woody Species|Tree Physiol.23(15): 1041-1050|2003|10.1093/treephys/23.15.1041
82385|T||Schaefer,M.|Behavioural Endpoints in Earthworm Ecotoxicology:  Evaluation of Different Test Systems in Soil Toxicity Assessment|J. Soils Sediments3(2): 79-84|2003|10.1007/BF02991072
82386|T||Sawada,Y., T. Yanai, H. Nakagawa, Y. Tsukamoto, Y. Tamagawa, S. Yokoi, M. Yanagi, T. Toya, H. Sugizaki, Y. Kato, H. Shi|Synthesis and Insecticidal Activity of Benzoheterocyclic Analogues of N'-Benzoyl-N-(tert-Butyl)Benzohydrazide: Part 3. Modification of N-tert-Butylhydrazine Moiety|Pest Manag. Sci.59(1): 49-57|2003|10.1002/ps.606
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82395|T||Ahmad,I., F. Shuja, M. Arshad Azmi, K. Akhtar, and S.A. Rizvi|Comparative Toxicological Studies of Neem Leaves Extract (NL) and Cyhalothrin (Pyrethroid) Against Sitophilus oryzae and Their Effects on Alkaline Phosphatase Activity|Proc. Pak. Congr. Zool.21:255-261|2001|
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82397|T||Gotoh,T., Y. Kitashima, and I. Adachi|Geographic Variation of Susceptibility to Acaricides in Two Spider Mite Species, Panonychus osmanthi and P. citri (Acari: Tetranychidae) in Japan|Int. J. Acarol.30(1): 55-61|2004|10.1080/01647950408684369
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82426|T||Zhao,R., J. Klotz, J. Moss, L. Davis, and R. Patterson|Laboratory Evaluation of Compounds for Repellency Against the Cat Flea, 1994|Arthropod Manag. Tests:358-359|1995|10.1093/amt/20.1.358a
82427|T||Fox,J.H., B.S. Jortner, D. Barber, and M.F. Ehrich|Altered Expression of Transcripts for alpha-Tubulin and an Unidentified Gene in the Spinal Cord of Phenyl Saligenin Phosphate Treated Hens (Gallus gallus)|J. Biochem. Mol. Toxicol.17(5): 263-271|2003|10.1002/jbt.10088
82428|T||Burke,I.C., and J.W. Wilcut|Physiological Basis for Antagonism of Clethodim by CGA 362622|Weed Sci.51(5): 671-677|2003|10.1614/P2002-072
82429|A||Beyers,D.W., and C. Sodergren|Evaluation of Interspecific Sensitivity to Selenium Exposure:  Larval Razorback Sucker Versus Flannelmouth Sucker|Final Rep.to Recovery Implementation Prog.Proj.CAP-6 SE-NF, Dep.Fish.and Wildl.Biol., Colorado State Univ., Fort Collins, CO:|2001|
82430|T||Biegel,L.B., J.A. Flaws, A.N. Hirshfield, J.C. O'Connor, G.S. Elliott, G.S. Ladics, E.K. Silbergeld, C.S. Van Pelt, M.E|90-Day Feeding and One-Generation Reproduction Study in Crl:CD BR Rats with 17beta-Estradiol|Toxicol. Sci.44:116-142|1998|
82431|T||Maurissen,J.P.J., A.M. Hoberman, R.H. Garman, and T.R.,Jr. Hanley|Lack of Selective Developmental Neurotoxicity in Rat Pups from Dams Treated by Gavage with Chlorpyrifos|Toxicol. Sci.57(2): 250-263|2000|10.1093/toxsci/57.2.250
82433|T||Yu,Q., A. Cairns, and S.B. Powles|Paraquat Resistance in a Population of Lolium rigidum|Funct. Plant Biol.31(3): 247-254|2004|10.1071/FP03234
82434|A||Jansen,M.A.K., L.M. Hill, and R.N.F. Thorneley|A Novel Stress-Acclimation Response in Spirodela punctata (Lemnaceae): 2,4,6-Trichlorophenol Triggers an Increase in the Level of an Extracellular Peroxidase, Capable of the Oxidative Dechlorination of this Xenobiotic P|Plant Cell Environ.27(5): 603-613|2004|10.1111/j.1365-3040.2004.01174.x
82435|AT||Shane,M.W., M.E. McCully, and H. Lambers|Tissue and Cellular Phosphorus Storage During Development of Phosphorus Toxicity in Hakea prostrata (Proteaceae)|J. Exp. Bot.55(399): 1033-1044|2004|10.1093/jxb/erh111
82437|A||Nimrod,A.C.|Environmental Estrogens and Reproductive Toxicity in Fish|Ph.D Thesis, University of Mississippi, University, MS:191 p.|1996|
82438|A||Oberdorster,E.|Sublethal Effects of Tributyltin on Aquatic Invertebrate Models:  Steroid Metabolism, Protein Alterations and Physiological Responses|Ph.D. Thesis, Duke University, Durham, NC:161 p.|1997|
82439|A||Willett,K.L.|Development of Bioassays for Polynuclear Aromatic Hydrocarbon Contamination in the Marine Environment|Ph.D. Thesis, Texas A&M University, College Station TX:188 p.|1997|
82440|A||Naimo,T.J.|A Physiological Approach to the Sublethal Effects of Cadmium in Lampsilis ventricosa|Ph.D.Thesis, Iowa State University, Ames, IA:115 p.|1990|
82441|T||Murphy,A.S.|Copper Ion Homeostasis in Arabidopsis thaliana|Ph.D.Thesis, University of California, Santa Cruz, CA:136 p.|1996|
82443|T||Oloumi-Sadeghi,H., and C.E. Eastman|Control of Diamondback Moth on Horseradish, 1991|Insectic. Acaric. Tests17:114-|1992|10.1093/iat/17.1.114
82444|T||Moudgal,R.K., S. Khokhar, and B. Dahiya|Bioefficacy of IGRs Diflubenzuron and Methoxyfenozide Against Cabbage Semilooper, Thysanoplusia orichalcea (Fabricius)|Pestic. Res. J.17(1): 39-42|2005|
82445|T||Bylemans,D., L. De Maeyer, A. Auwerkerken, H. De Craen, J.W. Wijsmuller, and D. Peeters|Methoxyfenozide, a Reliable IPM Compatible Compound Against Lepidoptera in Pome Fruit and Vegetables with Sterilising, Ovicidal and Larvicidal Efficacy on Codling Moth|Commun. Agric. Appl. Biol. Sci.68(4a): 189-202|2003|
82446|T||Olszak,R.W., and Z. Pluciennik|Preliminary Investigations on Effectiveness of Two Modern Insecticides in Controlling Codling Moth, Plum Fruit Moth and Leaf Rollers|Br. Crop Prot. Conf. Pests Dis.1:57-62|1998|
82447|T||Bartels,D.W., P.C. Bolin, and W.D. Hutchinson|Insecticidal and Microbial Control of Lepidopteran Pests in Minnesota Cabbage, 1994|Arthropod Manag. Tests20:68-69|1995|10.1093/amt/20.1.68a
82448|T||Linduska,J.J., M. Ross, K. Mulford, and J. Nottingham|Control of Imported Cabbageworm (ICW) on Cabbage, 1994|Arthropod Manag. Tests20:71|1995|10.1093/amt/20.1.71
82449|T||Baxendale,F.P., A.P. Weinhold, R.E. Gaussoin, and T.M. Heng|Control of Black Cutworms on a Bentgrass Golf Course Fairway, 1994|Arthropod Manag. Tests20:271-272|1995|10.1093/amt/20.1.271a
82450|T||Sorensen,K.A., and C.W. Holloway|Control of Lepidopterous Larvae with Insecticides, Pasquotank Co., NC, 1994|Arthropod Manag. Tests20:78-79|1995|10.1093/amt/20.1.78a
82451|AT||Brunner,J.F.|Bioassay Tests of B.thuringiensis Products Against Overwintering and Non-overwintering Leaf-Roller Larvae, 1993|Arthropod Manag. Tests20:340-341|1995|10.1093/amt/20.1.340
82452|T||Grafton-Cardwell,E.E., C.A. Reagan, S.L. Vehrs, A.E. Eller, and J. McClain|Citrus Cutworm Pesticide Efficacy Trials, 1993|Insectic. Acaric. Tests19:51-52|1994|
82453|T||Foster,R.E., and W.G. Buhler|Control of Insects on Collards, 1995|Insectic. Acaric. Tests21:107|1996|
82455|T||Ishaaya,I., S. Yablonski, and A.R. Horowitz|Comparative Toxicity of Two Ecdysteroid Agonists, RH-2485 and RH-5992, on Susceptible and Pyrethroid-Resistant Strains of the Egyptian Cotton Leafworm, Spodoptera littoralis|Phytoparasitica23(2): 139-145|1995|10.1007/BF02980973
82456|T||Smagghe,G., S. Pineda, B. Carton, P. Del Estal, F. Budia, and E. Vinuela|Toxicity and Kinetics of Methoxyfenozide in Greenhouse-Selected Spodoptera exigua (Lepidoptera:  Noctuidae)|Pest Manag. Sci.59(11): 1203-1209|2003|10.1002/ps.756
82457|T||Adel,M.M., and F. Sehnal|Azadirachtin Potentiates the Action of Ecdysteroid Agonist RH-2485 in Spodoptera littoralis|J. Insect Physiol.46(3): 267-274|2000|10.1016/S0022-1910(99)00179-1
82460|T||Zhu,B.C.R., G. Henderson, Y. Yu, and R.A. Laine|Toxicity and Repellency of Patchouli Oil and Patchouli Alcohol Against Formosan Subterranean Termites Coptotermes formosanus Shiraki (Isoptera:  Rhinotermitidae)|J. Agric. Food Chem.51(16): 4585-4588|2003|10.1021/jf0301495
82461|T||Kingston,D., D.V. Seal, and I.D. Hill|Self-Disinfecting Plastics for Intravenous Catheters and Prosthetic Inserts|J. Hyg.96(2): 185-198|1986|10.1017/S0022172400065955
82462|T||Kanetoshi,A., H. Ogawa, E. Katsura, T. Okui, and H. Kaneshima|Disposition and Excretion of Irgasan DP300 and Its Chlorinated Derivatives in Mice|Arch. Environ. Contam. Toxicol.17(5): 637-644|1988|10.1007/BF01055832
82463|T||Harrison,W.E., L.C. Walton, and A.E. Duttle|Control of Lepidoptera Pests in Cotton with Intrepid Experimental Insecticide|Proc. Beltwide Cotton Conf.2:1091-1093|1997|
82464|T||Blanco,C.A., J.W. McGee, L.C. Walton, and R. Miller|Control of Lepidoptera with Intrepid (Methoxyfenozide)|Proc. Beltwide Cotton Conf.2:1182-1184|2000|
82465|T||Chalfant,R.B.|Control of Lepidopterous Pests, 1993|Arthropod Manag. Tests22:90-91|1997|10.1093/amt/22.1.90
82466|T||Carson,W.G., K.K. White, and J.T. Trumble|Impact of Insecticides on Celery Insects, 1994|Arthropod Manag. Tests21:105-107|1996|10.1093/amt/21.1.105a
82467|T||Eastman,C.E., and H. Oloumi Sadeghi|Greenhouse Bioassays with Cabbage 1990|In: J.H.Thomas (Ed.), Insecticide and Acaricide Tests, Entomol.Soc.of Am., Lanham, MD16:289-290|1991|
82468|T||Wolfenbarger,D.A., and D.J. Wolfenbarger|Contact Toxicity of Diacylhydrazine and Diphenyl Benzoyl Urea Insect Growth Regulators Against Beet Armyworm, Bollworm and Tobacco Budworm|Proc. Beltwide Cotton Conf.2:1254-1257|1999|
82469|T||Johnson,D.R., H.B. Myers, L.M. Page, and T.L. Singer|Comparison of New Insecticides for the Control of the Bollworm (Heliocoverpa zea) and Tobacco Budworm (Heliothis virescens) in Arkansas|Proc. Beltwide Cotton Conf.2:947-949|1997|
82470|T||Teran-Vargas,A.P., E. Garza-Urbina, C.A. Blanco-Montero, G. Perez-Carmona, and J.M. Pellegaud-Rabago|Efficacy of New Insecticides to Control Beet Armyworm in Northeastern Mexico|Proc. Beltwide Cotton Conf.2:1030-1031|1997|
82471|T||Leonard,B.R., H. Fife, K. Torrey, J.B. Graves, and J. Holloway|Helicoverpa/Heliothis Management in NuCOTN and Conventional Cotton Cultivars in Louisiana|Proc. Beltwide Cotton Conf.2:863-867|1997|
82472|T||Eastman,C.E., H. Oloumi-Sadeghi, and R. Randell|Control of Lepidopterous Pests and Thrips on Cabbage, 1990|Insectic. Acaric. Tests16:56-59|1991|10.1093/iat/16.1.56
82473|T||Sparks,A.N.Jr., and C. Chambers|Evaluation of Biological and Synthetic Insecticide Combinations for Control of DBM 1990|Insectic. Acaric. Tests16:64-|1991|10.1093/iat/16.1.64
82474|T||Bartels,D.W., and W.D. Hutchison|Microbial Control of First-Generation ECB on Whorl Stage Corn 1990|Insectic. Acaric. Tests16:72-73|1991|10.1093/iat/16.1.72
82475|T||Teague,T.G.|Fall Armyworm Control of Sweet Corn in Arkansas 1990|Insectic. Acaric. Tests16:79-|1991|10.1093/iat/16.1.79
82476|T||Carson,W.G., H. Nakakihara, and J.T. Trumble|Chemical Trials and Effects on Arthropods in Celery, 1989|Insectic. Acaric. Tests16:68-69|1991|10.1093/iat/16.1.68
82477|T||Whalen,J., and M. Spellman|Control of Lepidopterous Larvae on Fall Cabbage 1990|Insectic. Acaric. Tests16:65-|1991|10.1093/iat/16.1.65
82478|T||Liburd,O.E., J.E. Funderburk, and S.M. Olson|Effect of Biological and Chemical Insecticides on Spodoptera Species (Lep., Noctuidae) and Marketable Yields of Tomatoes|J. Appl. Entomol.124(1): 19-25|2000|10.1046/j.1439-0418.2000.00418.x
82479|T||Cook,D.R., B.R. Leonard, and J. Gore|Field and Laboratory Performance of Novel Insecticides Against Armyworms (Lepidoptera:  Noctuidae)|Fla. Entomol.87(4): 433-439|2004|10.1653/0015-4040(2004)087[0433:FALPON]2.0.CO;2
82480|T||Chalfant,R.B.|Laboratory Bioassays of Insecticides Against the Cabbage Looper|Arthropod Manag. Tests22:413|1997|10.1093/amt/22.1.413
82481|T||Baur,M.E., J. Ellis, K. Hutchinson, and D.J. Boethel|Contact Toxicity of Selective Insecticides for Non-Target Predaceous Hemipterans in Soybeans|J. Entomol. Sci.38(2): 269-277|2003|10.18474/0749-8004-38.2.269
82482|A||Flaherty,C.M., and S.I. Dodson|Effects of Pharmaceuticals on Daphnia Survival, Growth, and Reproduction|Chemosphere61(2): 200-207|2005|10.1016/j.chemosphere.2005.02.016
82483|A||Ciniglia,C., C. Cascone, R. Lo Giudice, G. Pinto, and A. Pollio|Application of Methods for Assessing the Geno- and Cytotoxicity of Triclosan to C. ehrenbergii|J. Hazard. Mater.122(3): 227-232|2005|10.1016/j.jhazmat.2005.03.002
82484|T||Sharma,S., T.N.C. Ramya, A. Surolia, and N. Surolia|Triclosan as a Systemic Antibacterial Agent in a Mouse Model of Acute Bacterial Challenge|Antimicrob. Agents Chemother.47(12): 3859-3866|2003|10.1128/AAC.47.12.3859-3866.2003
82485|T||Russell,L.B., and C.S. Montgomery|Use of the Mouse Spot Test to Investigate the Mutagenic Potential of Triclosan (Irgasan DP300)|Mutat. Res.79(1): 7-12|1980|10.1016/0165-1218(80)90142-1
82486|T||Mmbaga,M.T., and R.J. Sauve|Management of Powdery Mildew in Flowering Dogwood in the Field with Biorational and Conventional Fungicides|Can. J. Plant Sci.84(3): 837-844|2004|10.4141/P03-104
82487|T||Kanetoshi,A., E. Katsura, H. Ogawa, T. Ohyama, H. Kaneshima, and T. Miura|Acute Toxicity, Percutaneous Absorption and Effects on Hepatic Mixed Function Oxidase Activities of 2,4,4'-Trichloro-2'-Hydroxydiphenyl Ether (Irgasan DP300) and Its Chlorinated Derivatives|Arch. Environ. Contam. Toxicol.23(1): 91-98|1992|10.1007/BF00226000
82488|T||Chow,A.Y.K., G.H. Hirsch, and H.S. Buttar|Nephrotoxic and Hepatotoxic Effects of Triclosan and Chlorhexidine in Rats|Toxicol. Appl. Pharmacol.42(1): 1-10|1977|10.1016/0041-008X(77)90191-0
82489|T||Storey,G.K., and W.A. Gardner|Sensitivity of the Entomogenous Fungus Beauveria bassiana to Selected Plant Growth Regulators and Spray Additives|Appl. Environ. Microbiol.52(1): 1-3|1986|10.1128/aem.52.1.1-3.1986
82490|T||Clark,M.B.|Cobaltous Chloride-Induced Epilepsy in Bullfrogs|Ph.D.Thesis, Tulane University, New Orleans, LA:140 p.|1977|
82492|T||Szeto,S.Y., N.E. Burlinson, J.E. Rahe, and P.C. Oloffs|Persistence of the Fungicide Vinclozolin on Pea Leaves Under Laboratory Conditions|J. Agric. Food Chem.37(2): 529-534|1989|10.1021/jf00086a056
82493|T||Dindal,D.L., and T.J. Peterle|Wing and Body Tissue Relationships of DDT and Metabolite Residues in Mallard and Lesser Scaup Ducks|Bull. Environ. Contam. Toxicol.3(1): 37-48|1968|10.1007/BF01684306
82494|T||Lehmann,M., U. Graf, M.L. Reguly, and H.H.R. De Andrade|Interference of Tannic Acid on the Genotoxicity of Mitomycin C, Methylmethanesulfonate, and Nitrogen Mustard in Somatic Cells of Drosophila melanogaster|Environ. Mol. Mutagen.36(3): 195-200|2000|10.1002/1098-2280(2000)36:3<195::AID-EM2>3.0.CO;2-B
82495|A||Sandahl,J.|Biochemical and Physiological Indicators of Behavioral Impairment in Salmonids Exposed to Chlorpyrifos and Copper|Ph.D.Thesis, Oregon State University, Corvallis, OR:140 p.|2004|
82496|A||Cruz Rodriguez,L.A.|Heat Shock Protein (HSP70) Response in the Eastern Oyster, Crassostrea virginica, Exposed to Various Contaminants (PAHs, PCBs and Cadmium)|Ph.D.Thesis, The College of William and Mary, VA:205 p.|2002|
82497|A||Hook,S.E.|Sublethal Toxicity of Metals to Copepods|Ph.D.Thesis, State University of New York, Stony Brook, NY:218 p.|2001|
82498|A||United States Borax Research Corp.|Initial Submission:  Zinc Borate:  20 Mule Team Firebrake - Acute Toxicity to Rainbow Trout (Oncorhynchus mykiss) Under Stat Conditions (Final Report) with Cover Letter Dated 052192|EPA/OTS Doc.#88-920003286:35 p.|1992|
82499|A||EPA/OTS|The Toxicity of Antimony Trioxide to Rainbow Trout|EPA/OTS Doc.#40-6648010:19 p.|1981|
82501|T||Brzoska,M.M., J. Moniuszko-Jakoniuk, M. Jurczuk, and M. Galazyn-Sidorczuk|Cadmium Turnover and Changes of Zinc and Copper Body Status of Rats Continuously Exposed to Cadmium and Ethanol|Alcohol Alcohol.37(3): 213-221|2002|10.1093/alcalc/37.3.213
82502|T||Kaltner,H., M. Schrott, W. Schmahl, and J. Wittmann|Developmental Retardation of the Japanese Quail Embryo Under the Influence of Dexamethasone|Res. Commun. Chem. Pathol. Pharmacol.79(3): 259-273|1993|
82503|T||Elek,J.A., M.J. Steinbauer, N. Beveridge, and P. Ebner|The Efficacy of High and Low Volume Spray Applications of Mimic (Tebufenozide) for Managing Autumn Gum Moth Larvae Mnesampela privata (Lepidoptera:  Geometridae) in Eucalypt Plantations|Agric. For. Entomol.5(4): 325-332|2003|10.1046/j.1461-9563.2003.00195.x
82504|A||Gottofrey,J., and H. Tjalve|Axonal Transport of Cadmium in the Olfactory Nerve of the Pike|Pharmacol. Toxicol.69(4): 242-252|1991|10.1111/bcpt.1991.69.4.242
82505|A||Michel,A., R.S. Arias, B.E. Scheffler, S.O. Duke, M. Netherland, and F.E. Dayan|Somatic Mutation-Mediated Evolution of Herbicide Resistance in the Nonindigenous Invasive Plant Hydrilla (Hydrilla verticillata)|Mol. Ecol.13(10): 3229-3237|2004|10.1111/j.1365-294X.2004.02280.x
82506|A||Niyogi,S., P. Couture, G. Pyle, D.G. McDonald, and C.M. Wood|Acute Cadmium Biotic Ligand Model Characteristics of Laboratory-Reared and Wild Yellow Perch (Perca flavescens) Relative to Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.61(6): 942-953|2004|10.1139/f04-044
82507|T||Kristan,M., H. Fleischmann, A. Della Torre, A. Stich, and C.F. Curtis|Pyrethroid Resistance/Susceptibility and Differential Urban/Rural Distribution of Anopheles arabiensis and An. gambiae s.s. Malaria Vectors in Nigeria and Ghana|Med. Vet. Entomol.17(3): 326-332|2003|10.1046/j.1365-2915.2003.00449.x
82508|T||Bouchard,R.A., Z. Yang, R.I. Greyson, and D.B. Walden|Zinc and Cadmium Induction of Small Heat-Shock Gene Transcripts in Maize Seedlings|Maydica49(2): 105-114|2004|
82509|T||Dewan,M., and H.R. Dhingra|Effect of Cadmium on Reproductive Functions and Yield in Two Varieties of Pea (Pisum sativum) and Their Hybrid|Indian J. Agric. Sci.73(4): 221-224|2003|
82510|T||Shukla,U.C., J. Singh, P.C. Joshi, and P. Kakkar|Effect of Bioaccumulation of Cadmium on Biomass Productivity, Essential Trace Elements, Chlorophyll Biosynthesis, and Macromolecules of Wheat Seedlings|Biol. Trace Elem. Res.92(3): 257-273|2003|10.1385/BTER:92:3:257
82511|T||Ozden,H., and G. Baycu|Cadmium Exposure and Changes in Some Physiological Parameters of Quercus robur ssp. robur L. (Common Oak) and Acer negundo L. (Box Elder) Seedlings|Fresenius Environ. Bull.13(3): 268-273|2004|
82512|T||Lesko,K., E. Stefanovits-Banyai, I. Pais, and L. Simon-Sarkadi|Effect of Cadmium and Titanium-Ascorbate Stress on Biological Active Compounds in Wheat Seedlings|J. Plant Nutr.25(11): 2571-2581|2002|10.1081/PLN-120014714
82513|T||Hernandez,L.E., R. Carpena-Ruiz, and A. Garate|Alterations in the Mineral Nutrition of Pea Seedlings Exposed to Cadmium|J. Plant Nutr.19(12): 1581-1598|1996|10.1080/01904169609365223
82514|T||Chatterjee,J., and C. Chatterjee|Zinc Stress Changes in the Metabolism of Blackgram (Phaseolus mungo)|Indian J. Agric. Sci.70(4): 250-252|2000|
82515|T||Kevresan,S., S. Kirsek, J. Kandrac, N. Petrovic, and D. Kelemen|Dynamics of Cadmium Distribution in the Intercellular Space and Inside Cells in Soybean Roots, Stems and Leaves|Biol. Plant. (Praha)46(1): 85-88|2003|10.1023/A:1022366218304
82516|A||Giordani,T., L. Natali, B.E. Maserti, S. Taddei, and A. Cavallini|Characterization and Expression of DNA Sequences Encoding Putative Type-II Metallothioneins in the Seagrass Posidonia oceanica|Plant Physiol.123(4): 1571-1581|2000|10.1104/pp.123.4.1571
82517|T||Howden,R., C.R. Andersen, P.B. Goldsbrough, and C.S. Cobbett|A Cadmium-Sensitive, Glutathione-Deficient Mutant of Arabidopsis thaliana|Plant Physiol.107(4): 1067-1073|1995|10.1104/pp.107.4.1067
82518|T||Pener,M.P., A. Ayali, G. Kelmer, B. Bennettova, V. Nemec, M. Rejzek, and Z. Wimmer|Comparative Testing of Several Juvenile Hormone Analogues in Two Species of Locusts, Locusta migratoria Migratorioides and Schistocerca gregaria|Pestic. Sci.51(4): 443-449|1997|10.1002/(SICI)1096-9063(199712)51:4<443::AID-PS631>3.0.CO;2-4
82519|T||Mehindirata,S., S.T. Ali, M.T.O. Siddiqi, and M. Iqbal|Cadmium-Induced Changes in Foliar Responses of Solanum melongena L.|Phytomorphology49(3): 295-302|1999|
82520|A||Lata,S., K. Gopal, and N.N. Singh|Toxicological Evaluations and Morphological Studies in a Catfish Clarias batrachus Exposed to Carbaryl and Carbofuran|J. Ecophysiol. Occup. Health1(1-2): 121-130|2001|
82521|A||Masud,S., I.J. Singh, and R.N. Ram|Testicular Recrudescence and Related Changes in Cyprinus carpio After Long Term Exposure to a Mercurial Compound|J. Ecophysiol. Occup. Health1(1/2): 109-120|2001|
82523|T||Sarkar,S.A., and R.P. Sharma|Modulation of p53 After Maternal Exposure to All-trans-Retinoic Acid in Swiss Webster Mouse Fetuses|Exp. Mol. Pathol.74(3): 298-308|2003|10.1016/S0014-4800(02)00018-7
82524|T||Steinmann,H.H., and L. Klingebiel|Secondary Dispersal, Spatial Dynamics and Effects of Herbicides on Reproductive Capacity of a Recently Introduced Population of Bromus sterilis in an Arable Field|Weed Res. (Multiple Languages)44(5): 388-396|2004|10.1111/j.1365-3180.2004.00413.x
82525|T||Devi,N., I. Dogra, and D. Raj|Relative Toxicity of Some Recommended Insecticides to Aphid Parasitoid, Diaeretiella rape M' Intosh (Hymenoptera:  Braconidae)|J. Entomol. Res.27(4): 335-339|2003|
82526|T||Carrera,L.M., A.A. Abdul-Baki, and J.R. Teasdale|Cover Crop Management and Weed Suppression in No-Tillage Sweet Corn Production|Hortscience39(6): 1262-1266|2004|10.21273/HORTSCI.39.6.1262
82527|T||Donnelly,E.T., H. Bardwell, G.A. Thomas, E.D. Williams, M. Hoper, P. Crowe, W.G. McCluggage, M. Stevenson, D.H. Phillip|Modulation of N-Methyl-N-Nitrosourea-Induced Crypt Restricted Metallothionein Immunopositivity in Mouse Colon by a Non-genotoxic Diet-Related Chemical|Carcinogenesis25(5): 847-855|2004|10.1093/carcin/bgh062
82528|A||Pessatti,M.L., C.,Jr. Resgalla, R.W. Reis Fo, J. Kuehn, L.C. Salomao, and J.D. Fontana|Variability of Filtration and Food Assimilation Rates, Respiratory Activity and Multixenobiotic Resistance (MXR) Mechanism in the Mussel Perna perna Under Lead Influence|Braz. J. Biol.62(4A): 651-656|2002|10.1590/S1519-69842002000400013
82530|A||Schweitzer,L.|Bioavailability and Toxicity of Polychlorinated Biphenyls to Sea Urchins|Ph.D Thesis, University of California, Los Angeles, CA:148 p.|1998|
82531|A||Schnitz,A.|Transfer of Benzo(a)pyrene from Two Invertebrate Prey Species to the Winter Flounder, Pleuronectes americanus|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:178 p.|1998|
82533|A||Lizotte,R.E.,Jr.|Surfactant Exposures and Fathead Minnow (Pimephales promelas Rafinesque) Responses at Several Hierarchical Levels of Biological Organization|Ph.D Thesis, University of Mississippi, University, MS:208 p.|1998|
82534|T||Dunbar,D.C.,Jr.|Discovery of New Antimalarial Compounds from Marine Invertebrates|Ph.D Thesis, University of Mississippi, University, MS:186 p.|1998|
82537|AT||Le,D.P., M. Thirugnanam, Z. Lidert, G.R. Carlson, and J.B. Ryan|RH-2485:  A New Selective Insecticide for Caterpillar Control|Br. Crop Prot. Conf. Pests Dis.2:481-486|1996|
82538|T||Smagghe,G., W. Wesemael, B. Carton, and L. Tirry|Tebufenozide and Methoxyfenozide Against the Beet Armyworm, Spodoptera exigua|Symp. Proc. Br. Crop Prot. Counc.1:311-312|1998|
82539|T||Kain,D.P., R.W. Straub, and A.M. Agnello|Incidence and Control of Dogwood Borer (Lepidoptera:  Sesiidae) and American Plum Borer (Lepidoptera:  Pyralidae) Infesting Burrknots on Clonal Apple Rootstocks in New York|J. Econ. Entomol.97(2): 545-552|2004|10.1093/jee/97.2.545
82540|T||Doerr,M.D., J.F. Brunner, and L.E. Schrader|Integrated Pest Management Approach for a New Pest, Lacanobia subjuncta (Lepidoptera: Noctuidae), in Washington Apple Orchards|Pest Manag. Sci.60(10): 1025-1034|2004|10.1002/ps.912
82541|A||Beckage,N.E., K.M. Marion, W.E. Walton, M.C. Wirth, and F.F. Tan|Comparative Larvicidal Toxicities of Three Ecdysone Agonists on the Mosquitoes Aedes aegypti, Culex quinquefasciatus, and Anopheles gambiae|Arch. Insect Biochem. Physiol.57(3): 111-122|2004|10.1002/arch.20021
82542|T||Isaacs,R., K.S. Mason, and E. Maxwell|Stage-Specific Control of Grape Berry Moth, Endopiza viteana (Clemens) (Lepidoptera:  Tortricidae), by Selective and Broad-Spectrum Insecticides|J. Econ. Entomol.98(2): 415-422|2005|10.1093/jee/98.2.415
82543|T||Borchert,D.M., R.E. Stinner, J.F. Walgenbach, and G.G. Kennedy|Oriental Fruit Moth (Lepidoptera:  Tortricidae) Phenology and Management with Methoxyfenozide in North Carolina Apples|J. Econ. Entomol.97(4): 1353-1364|2004|10.1093/jee/97.4.1353
82544|T||Borchert,D.M., J.F. Walgenbach, G.G. Kennedy, and J.W. Long|Toxicity and Residual Activity of Methoxyfenozide and Tebufenozide to Codling Moth (Lepidoptera:  Tortricidae) and Oriental Fruit Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.97(4): 1342-1352|2004|10.1093/jee/97.4.1342
82545|T||Borchert,D.M., J.F. Walgenbach, and G.G. Kennedy|Assessment of Sublethal Effects of Methoxyfenozide on Oriental Fruit Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.98(3): 765-771|2005|10.1603/0022-0493-98.3.765
82546|T||Murray,D.A.H., R.J. Lloyd, and J.E. Hopkinson|Efficacy of New Insecticides for Management of Helicoverpa spp. (Lepidoptera:  Noctuidae) in Australian Grain Crops|Aust. J. Entomol.44(1): 62-67|2005|10.1111/j.1440-6055.2005.00422.x
82547|T||Oberlander,H., D.L. Silhacek, and C.E. Leach|Interactions of Ecdysteroid and Juvenoid Agonists in Plodia interpunctella (Huebner)|Arch. Insect Biochem. Physiol.38(2): 91-99|1998|10.1002/(SICI)1520-6327(1998)38:2<91::AID-ARCH5>3.0.CO;2-Y
82548|T||Reissig,H., D. Dunham, and C. Smith|Apple, Tests of New Compounds Against OBLR, 1994|Insectic. Acaric. Tests20:31-32|1995|
82549|T||Das Mohapatra,S., and C.P. Srivastava|Bioefficacy of Chemical and Biorational Insecticides Against Incidence of Legume Pod Borer, Maruca vitrata (Geyer) in Short Duration Pigeonpea|Indian J. Plant Prot.30(1): 22-25|2002|
82550|T||Charmillot,P.J., A. Gourmelon, A.L. Fabre, and D. Pasquier|Ovicidal and Larvicidal Effectiveness of Several Insect Growth Inhibitors and Regulators on the Codling Moth Cydia pomonella L. (Lep., Tortricidae)|J. Appl. Entomol.125(3): 147-153|2001|10.1046/j.1439-0418.2001.00506.x
82551|T||Pasquier,D., and P.J. Charmillot|Effectiveness of Twelve Insecticides Applied Topically to Diapausing Larvae of the Codling Moth, Cydia pomonella L|Pest Manag. Sci.60(3): 305-308|2003|10.1002/ps.776
82552|T||Bhavani,B., and P.R.M. Rao|Bioefficacy of Thiamethoxam (Actara 20 WG) Against Rice Planthoppers (BPH/WBPH) in Irrigated Field Conditions|Pestology28(12): 41-44|2004|
82553|T||Jansson,R.K., S.H. Lecrone, and J.G. Castillo|Integrated Management of Lepidopterous Pests on Cabbage, 1990|Insectic. Acaric. Tests18:95-97|1993|10.1093/iat/18.1.95
82554|T||Sun,X., B. Barrett, and Q. Song|Effects of Age and Length of Exposure on the Reproduction of Adult Codling Moth (Lepidoptera:  Tortricidae) Exposed to Surfaces Treated with Ecdysone Agonists|J. Entomol. Sci.39(3): 417-425|2004|10.18474/0749-8004-39.3.417
82555|T||Zhao,X.F., Z.M. Li, J.X. Wang, J.B. Wang, S.L. Wang, and H.D. Blankespoor|Efficacy of RH-2485, a New Non-steroidal Ecdysone Agonist, Against the Cotton Boll Worm; Helicoverpa armigera (Lepidoptera:  Noctuidae) in the Laboratory and Field|Crop Prot.22(7): 959-965|2003|10.1016/S0261-2194(03)00111-X
82556|T||Hoelscher,J.A., and B.A. Barrett|Effects of Methoxyfenozide-Treated Surfaces on the Attractiveness and Responsiveness of Adult Codling Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.96(3): 623-628|2003|10.1093/jee/96.3.623
82557|T||Gore,J., and J.R.,Jr. Adamczyk|Laboratory Selection for Beet Armyworm (Lepidoptera: Noctuidae) Resistance to Methoxyfenozide|Fla. Entomol.87(4): 450-453|2004|10.1653/0015-4040(2004)087[0450:LSFBAL]2.0.CO;2
82558|T||Studebaker,G.E., and T.J. Kring|Effects of Insecticides on Orius insidiosus (Hemiptera: Anthocoridae), Measured by Field, Greenhouse and Petri Dish Bioassays|Fla. Entomol.86(2): 178-185|2003|10.1653/0015-4040(2003)086[0178:EOIOOI]2.0.CO;2
82559|T||Wawrzyniak,M.|Influence of Methoxyphenozide on Feeding and Development of Large Cabbage White Butterfly (Pieris brassicae L.)|Pestycydy3-4:63-68|2004|
82560|T||Giraddi,R.S., S.V. Dasareddy, and S.L. Lingappa|Bioefficacy of New Molecules of Insecticides Against Gram Pod-Borer (Helicoverpa armigera) in Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.72(5): 311-312|2002|
82561|T||Reuveny,H., and E. Cohen|Resistance of the Codling Moth Cydia pomonella (L.) (Lep., Tortricidae) to Pesticides in Israel|J. Appl. Entomol.128(9/10): 645-651|2004|10.1111/j.1439-0418.2004.00901.x
82562|T||Hussein,H.M., N. Dimetry, Z. Zidan, R.R. Iss-hak, and F. Sehnal|Effects of Insect Growth Regulators on the Hairy Rose Beetle, Tropinota squalida (Col., Scarabeidae)|J. Appl. Entomol.129(3): 142-148|2005|10.1111/j.1439-0418.2005.00891.x
82563|T||Miller,R., C.A. Blanco, and K. Havelka|Late Season Control of Lepidoptera and Its Impact on the Activity of Defoliants|Proc. Beltwide Cotton Conf.2:1184-1185|2000|
82564|T||Pineda,S., F. Budia, M.I. Schneider, A. Gobbi, E. Vinuela, J. Valle, and P. Del Estal|Effects of Two Biorational Insecticides, Spinosad and Methoxyfenozide, on Spodoptera littoralis (Lepidoptera:  Noctuidae) Under Laboratory Conditions|J. Econ. Entomol.97(6): 1906-1911|2004|10.1093/jee/97.6.1906
82565|T||Johnson,D.R., G.M. Lorenz, L.M. Page, and J.D. Hopkins|Management of the Heliothine Complex Using Traditional and New Insecticides|Proc. Beltwide Cotton Conf.2:1100-1101|2000|
82566|AT||Greger,M., and L. Kautsky|Effects of Cu, Pb, and Zn on Two Potamogeton Species Grown Under Field Conditions|Vegetatio97(2): 173-184|1991|10.1007/BF00035390
82567|T||Isaacs,R., R.J. Mercader, and J.C. Wise|Activity of Conventional and Reduced-Risk Insecticides for Protection of Grapevines Against the Rose Chafer, Macrodactylus subspinosus (Coleoptera: Scarabaeidae)|J. Appl. Entomol.128(5): 371-376|2004|10.1111/j.1439-0418.2004.00861.x
82568|T||Hanssen,S.A., I. Folstad, K.E. Erikstad, and A. Oksanen|Costs of Parasites in Common Eiders:  Effects of Antiparasite Treatment|Oikos100(1): 105-111|2003|
82569|T||Buzi,A., G. Chilosi, and P. Magro|Induction of Resistance in Melon Seedlings Against Soil-Borne Fungal Pathogens by Gaseous Treatments with Methyl Jasmonate and Ethylene|J. Phytopathol.152(8-9): 491-497|2004|10.1111/j.1439-0434.2004.00885.x
82570|T||Mendoza,J., P. Soto, I. Ahumada, and T. Garrido|Determination of Oxidized and Reduced Glutathione, by Capillary Zone Electrophoresis, in Brassica juncea Plants Treated with Copper and Cadmium|Electrophoresis25(6): 890-896|2004|10.1002/elps.200305759
82571|A||Lavid,N., A. Schwartz, O. Yarden, and E. Tel-Or|The Involvement of Polyphenols and Peroxidase Activities in Heavy-Metal Accumulation by Epidermal Glands of the Waterlily (Nymphaeaceae)|Planta (Multiple Languages)212(3): 323-331|2001|10.1007/s004250000400
82572|A||Nakagawa,H., T. Tajima, T. Sato, and M. Watanabe|Evaluation of Erythrocyte 5-Aminolevulinic Acid Dehydratase Activity in the Blood of Crucian Carp, Carassius auratus langsdorfii, as an Indicator in Fish of Water Lead Pollution|J. Fac. Agric. Kyushu Univ.41(3-4): 205-213|1997|10.5109/24146
82573|T||Luster,M.I., R.E. Faith, and J.A. Moore|Effects of Polybrominated Biphenyls (PBB) on the Immune Response in Rodents|Environ. Health Perspect.23:227-232|1978|10.1289/ehp.7823227
82574|T||Somboon,P., L.A. Prapanthadara, and W. Suwonkerd|Insecticide Susceptibility Tests of Anopheles minimus S.L., Aedes aegypti, Aedes albopictus, and Culex quinquefasciatus in Northern Thailand|Southeast Asian J. Trop. Med. Public Health34(1): 87-93|2003|
82575|T||Larsson,E.H., H. Asp, and J.F. Bornman|Influence of Prior Cd2+ Exposure on the Uptake of Cd2+ and Other Elements in the Phytochelatin-Deficient Mutant, cad1-3, of Arabidopsis thaliana|J. Exp. Bot.53(368): 447-453|2002|10.1093/jexbot/53.368.447
82576|T||Hecht,U., and H. Mohr|Factors Controlling Nitrate and Ammonium Accumulation in Mustard (Sinapis alba) Seedlings|Physiol. Plant. (Multiple Languages)78(3): 379-387|1990|10.1111/j.1399-3054.1990.tb09052.x
82577|T||Scott,I.M., H. Jensen, J.G. Scott, M.B. Isman, J.T. Arnason, and B.J.R. Philogene|Botanical Insecticides for Controlling Agricultural Pests:  Piperamides and the Colorado Potato Beetle Leptinotarsa decemlineata Say (Coleoptera:  Chrysomelidae)|Arch. Insect Biochem. Physiol.54(4): 212-225|2003|10.1002/arch.10118
82578|A||Smith,D.P., C.S. Mason, E. Jones, and R. Old|Expression of a Dominant Negative Retinoic Acid Receptor gamma in Xenopus Embryos Leads to Partial Resistance to Retinoic Acid|Rouxs Arch. Dev. Biol.203(5): 254-265|1994|10.1007/BF00360521
82579|T||Brattsten,L.B.|Inducibility of Metabolic Insecticide Defenses in Boll Weevils and Tobacco Budworm Caterpillars|Pestic. Biochem. Physiol.27(1): 13-23|1987|10.1016/0048-3575(87)90090-3
82580|A||Gottlieb,C.O., and J.H. Swinehart|The Effects of Metal Ions on Glycine Uptake into the Alga Euglena gracilis|Comp. Biochem. Physiol. C Comp. Pharmacol.89(2): 287-292|1988|10.1016/0742-8413(88)90225-3
82581|T||Prince,W.SPM, P.S. Kumar, K.D. Doberschutz, and V. Subburam|Cadmium Toxicity in Mulberry Plants with Special Reference to the Nutritional Quality of Leaves|J. Plant Nutr.25(4): 689-700|2002|10.1081/PLN-120002952
82583|T||Padidam,M., M. Gore, D.L. Lu, and O. Smirnova|Chemical-Inducible, Ecdysone Receptor-Based Gene Expression System for Plants|Transgenic Res.12(1): 101-109|2003|10.1023/A:1022113817892
82584|T||Sun,X., Q. Song, and B. Barrett|Effects of Ecdysone Agonists on the Expression of EcR, USP and Other Specific Proteins in the Ovaries of the Codling Moth (Cydia pomonella L.)|Insect Biochem. Mol. Biol.33(8): 829-840|2003|10.1016/S0965-1748(03)00082-1
82586|T||Koo,J.C., S. Asurmendi, J. Bick, T. Woodford-Thomas, and R.N. Beachy|Ecdysone Agonist-Inducible Expression of a Coat Protein Gene from Tobacco Mosaic Virus Confers Viral Resistance in Transgenic Arabidopsis|Plant J.37(3): 439-448|2004|10.1046/j.1365-313X.2003.01869.x
82588|T||Stoyanova,D., and E. Tchakalova|Cadmium Induced Ultrastructural Changes in Shoot Apical Meristem of Elodea canadensis Rich.|Photosynthetica (Praha)37(1): 47-52|1999|
82589|T||O'Callaghan,J.P., and K.F. Jensen|Enhanced Expression of Glial Fibrillary Acidic Protein and the Cupric Silver Degeneration Reaction can be Used as Sensitive and Early Indicators of Neurotoxicity|Neurotoxicology13(1): 113-122|1992|
82590|A||Rudneva,I.I., and N.V. Zherko|Effects of Polychlorinated Biphenyls on an Antioxidant System and Peroxidation of Lipids in the Gonads of Red Mullet, Mullus barbatus ponticus|Russ. J. Mar. Biol.25(3): 272-276|1999|
82591|T||Stroinski,A., and M. Zielezinska|Cadmium Effect on Hydrogen Peroxide, Glutathione and Phytochelatins Levels in Potato Tuber|Acta Physiol. Plant.19(2): 127-135|1997|10.1007/s11738-997-0029-2
82592|T||Alonso-Simon,A., A.E. Encina, P. Garcia-Angulo, J.M. Alvarez, and J.L. Acebes|FTIR Spectroscopy Monitoring of Cell Wall Modifications During the Habituation of Bean (Phaseolus vulgaris L.) Callus Cultures to Dichlobenil|Plant Sci.167(6): 1273-1281|2004|10.1016/j.plantsci.2004.06.025
82593|T||Unsal,S., H. Ozparlak, and A. Aktumsek|Effects of Diflubenzuron on the Integument of Fifth Instar Galleria mellonella Larvae|Phytoparasitica32(1): 43-51|2004|10.1007/BF02980858
82594|T||Regnault-Roger,C., M. Ribodeau, A. Hamraoui, I. Bareau, P. Blanchard, M.I. Gil-Munoz, and F.T. Barberan|Polyphenolic Compounds of Mediterranean Lamiaceae and Investigation of Orientational Effects on Acanthoscelides obtectus (Say)|J. Stored Prod. Res.40(4): 395-408|2004|10.1016/S0022-474X(03)00031-6
82595|T||Chatterjee,C., P. Sinha, and B.K. Dube|Biochemical Changes, Yield, and Quality of Gram Under Boron Stress|Commun. Soil Sci. Plant Anal.36(13/14): 1763-1771|2005|10.1081/CSS-200062440
82596|T||Tukendorf,A., and T. Baszynski|The In Vivo Effect of Cadmium on Photochemical Activities in Chloroplasts of Runner Bean Plants|Acta Physiol. Plant.13(1): 51-57|1991|
82597|T||Tillman,P.G., J.E. Mulrooney, and G.L. Snodgrass|Comparison of Susceptibility of Geocoris punctipes and Lygus lineolaris to Insecticides for Control of the Tarnished Plant Bug|Southwest. Entomol.28(1): 47-54|2003|
82598|T||Ederli,L., L. Reale, F. Ferranti, and S. Pasqualini|Responses Induced by high Concentration of Cadmium in Phragmites australis Roots|Physiol. Plant. (Multiple Languages)121(1): 66-74|2004|10.1111/j.0031-9317.2004.00295.x
82599|T||Atienza,S.G., P. Faccioli, G. Perrotta, G. Dalfino, W. Zschiesche, K. Humbeck, A.M. Stanca, and L. Cattivelli|Large Scale Analysis of Transcripts Abundance in Barley Subjected to Several Single and Combined Abiotic Stress Conditions|Plant Sci.167(6): 1359-1365|2004|10.1016/j.plantsci.2004.07.006
82600|T||Kleizaite,V., T. Cesniene, and V. Rancelis|The Use of Cobalt-Induced Chlorophyll Morphoses for Studying Co2+ Interactions with Cysteine and SOD|Plant Sci.167(6): 1249-1256|2004|10.1016/j.plantsci.2004.06.023
82602|A||Saxena,R., R. Gupta, M. Tripathi, and K. Gopal|Fluoride Induced Haematological Alterations in the Freshwater Fish Channa punctatus|J. Ecophysiol. Occup. Health1(1-2): 139-146|2001|
82603|T||Stoyanova,D.P., and E.S. Tchakalova|Cadmium-Induced Ultrastructural Changes in Chloroplasts of the Leaves and Stems Parenchyma in Myriophyllum spicatum L.|Photosynthetica (Praha)34(2): 241-248|1997|10.1023/A:1006844724672
82604|T||Fontes,R.L.F., and F.R. Cox|Rhythmic Movement of Leaves in Soybean Plants Grown Under Zn Toxicity at Different Doses of Fe and S|Rev. Bras. Fisiol. Veg.9(2): 131-134|1997|
82605|T||Grejtovsky,A., and R. Pirc|Effect of high Cadmium Concentrations in Soil on Growth, Uptake of Nutrients and Some Heavy Metals of Chamomilla recutita (L.) Rauschert|J. Appl. Bot.74(5-6): 169-174|2000|
82606|T||Schutzendubel,A., P. Nikolova, C. Rudolf, and A. Polle|Cadmium and H2O2-Induced Oxidative Stress in Populus x canescens Roots|Plant Physiol. Biochem.40(6-8): 577-584|2002|10.1016/S0981-9428(02)01411-0
82607|T||Dube,S.L., and J.F. Bornman|Response of Spruce Seedlings to Simultaneous Exposure to Ultraviolet-B Radiation and Cadmium|Plant Physiol. Biochem. (Paris)30(6): 761-767|1992|
82608|T||Plaza,G., W. Lukasik, and K. Ulfig|Effect of Cadmium on Growth of Potentially Pathogenic Soil Fungi|Mycopathologia141(2): 93-100|1998|10.1023/A:1006991306756
82609|A||Sokolowska-Mikolajczyk,M., J. Chyb, M. Socha, and P. Epler|The Effect of Zinc on Maturational Gonadotropin (GtH2) Secretion Modulated by GABAergic System in Common Carp (Cyprinus carpio L.)|Arch. Pol. Fish. 8(1): 129-143|2000|
82610|T||Wierzbicka,M., and J. Obidzinska|The Effect of Lead on Seed Imbibition and Germination in Different Plant Species|Plant Sci.137(2): 155-171|1998|10.1016/S0168-9452(98)00138-1
82611|T||Rouxel,T., A. Kollmann, and J.F. Bousquet|Zinc Suppresses Sirodesmin PL Toxicity and Protects Brassica napus Plants Against the Blackleg Disease Caused by Leptosphaeria maculans|Plant Sci.68(1): 77-86|1990|10.1016/0168-9452(90)90155-H
82612|T||Rout,G.R., S. Samantaray, and P. Das|In Vitro Selection and Biochemical Characterisation of Zinc and Manganese Adapted Callus Lines in Brassica spp.|Plant Sci.137(2): 89-100|1999|10.1016/S0168-9452(99)00080-1
82613|T||Carpena,R.O., S. Vazquez, E. Esteban, M. Fernandez-Pascual, M.R. De Felipe, and P. Zornoza|Cadmium-Stress in White Lupin:  Effects on Nodule Structure and Functioning|Plant Physiol. Biochem.41(10): 911-919|2003|10.1016/S0981-9428(03)00136-0
82614|T||Lee,S., D. Petros, J.S. Moon, T.S. Ko, P.B. Goldsbrough, and S.S. Korban|Higher Levels of Ectopic Expression of Arabidopsis Phytochelatin Synthase do not Lead to Increased Cadmium Tolerance and Accumulation|Plant Physiol. Biochem.41(10): 903-910|2003|10.1016/S0981-9428(03)00140-2
82615|T||Iannelli,M.A., F. Pietrini, L. Fiore, L. Petrilli, and A. Massacci|Antioxidant Response to Cadmium in Phragmites australis Plants|Plant Physiol. Biochem.40(11): 977-982|2002|10.1016/S0981-9428(02)01455-9
82616|T||Satakopan,V.N., G. Baskaran, and M. Sankar|Changes in the Levels of RNA, Proline, Phenol and Ascorbic Acid in Al3+ Toxicity in Chickpea Seedlings|Indian J. Plant Physiol.35(3): 272-274|1992|
82617|T||Ramos,I., E. Esteban, J.J. Lucena, and A. Garate|Cadmium Uptake and Subcellular Distribution in Plants of Lactuca sp. Cd-Mn Interaction|Plant Sci.162(5): 761-767|2002|10.1016/S0168-9452(02)00017-1
82618|T||Leita,L., M. Contin, and A. Maggioni|Distribution of Cadmium and Induced Cd-Binding Proteins in Roots, Stems and Leaves of Phaseolus vulgaris|Plant Sci.77(2): 139-147|1991|10.1016/0168-9452(91)90081-I
82619|T||Moral,R., A. Cortes, I. Gomez, and J. Mataix-Beneyto|Assessing Changes in Cd Phytoavailability to Tomato in Amended Calcareous Soils|Bioresour. Technol.85(1): 63-68|2002|10.1016/S0960-8524(02)00068-8
82620|T||Yang,X.E., X.X. Long, H.B. Ye, Z.L. He, D.V. Calvert, and P.J. Stoffella|Cadmium Tolerance and Hyperaccumulation in a New Zn-Hyperaccumulating Plant Species (Sedum alfredii Hance)|Plant Soil259(1-2): 181-189|2004|10.1023/B:PLSO.0000020956.24027.f2
82621|T||Azam,M.G.N., G.M. Gurr, and P.A. Magarey|Efficacy of a Compound Based on Canola Oil as a Fungicide for Control of Grapevine Powdery Mildew Caused by Uncinula necator|Aust. Plant Pathol.27(2): 116-118|1998|10.1071/AP98015
82622|T||Adhikari,T., A.K. Biswas, J.K. Saha, and Ajay |Cadmium Phytotoxicity in Spinach with or Without Spent Wash in a Vertisol|Commun. Soil Sci. Plant Anal.36(11/12): 1499-1511|2005|10.1081/CSS-200058495
82623|T||Bennet,R.J., G.R. Thibaud, and V.G. Roberts|New Sources of Aluminum Tolerance in South African Maize|Commun. Soil Sci. Plant Anal.35(15-16): 2177-2190|2004|10.1081/LCSS-200029012
82624|T||You,W., and A.V. Barker|Ethylene Evolution and Ammonium Accumulation by Tomato Plants After Root-Applied Glufosinate-Ammonium Treatment in the Presence of Ethylene Inhibitors|Commun. Soil Sci. Plant Anal.35(13/14): 1957-1965|2004|10.1081/LCSS-200026823
82625|T||Owino-Gerroh,C., and G.J. Gascho|Effect of Silicon on Low pH Soil Phosphorus Sorption and on Uptake and Growth of Maize|Commun. Soil Sci. Plant Anal.35(15-16): 2369-2378|2004|10.1081/LCSS-200030686
82626|T||Brune,A., W. Urbach, and K.J. Dietz|Zinc Stress Induces Changes in Apoplasmic Protein Content and Polypeptide Composition of Barley Primary Leaves|J. Exp. Bot.45(278): 1189-1196|1994|10.1093/jxb/45.9.1189
82627|T||Osteras,A.H., L. Ekvall, and M. Greger|Sensitivity to, and Accumulation of, Cadmium in Betula pendula, Picea abies, and Pinus sylvestris Seedlings from Different Regions in Sweden|Can. J. Bot.78(11): 1440-1449|2000|10.1139/b00-119
82628|T||Malkowski,E., A. Kita, W. Galas, W. Karcz, and J.M. Kuperberg|Lead Distribution in Corn Seedlings (Zea mays L.) and Its Effect on Growth and the Concentrations of Potassium and Calcium|Plant Growth Regul.37(1): 69-76|2002|10.1023/A:1020305400324
82629|T||Sayed,S.A.|Effects of Lead and Kinetin on the Growth, and Some Physiological Components of Safflower|Plant Growth Regul.29(3): 167-174|1999|10.1023/A:1006216630915
82630|T||Finkemeier,I., C. Kluge, A. Metwally, M. Georgi, N. Grotjohann, and K.J. Dietz|Alterations in Cd-Induced Gene Expression Under Nitrogen Deficiency in Hordeum vulgare|Plant Cell Environ.26(6): 821-833|2003|10.1046/j.1365-3040.2003.01014.x
82631|T||Yanai,J., N. Mabuchi, N. Moritsuka, and T. Kosaki|Distribution and Forms of Cadmium in the Rhizosphere of Brassica juncea in Cd-Contaminated Soils and Implications for Phytoremediation|Soil Sci. Plant Nutr.50(3): 423-430|2004|10.1080/00380768.2004.10408496
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82637|T||Boominathan,R., and P.M. Doran|Ni-Induced Oxidative Stress in Roots of the Ni Hyperaccumulator, Alyssum bertolonii|New Phytol.156(2): 205-215|2002|10.1046/j.1469-8137.2002.00506.x
82638|T||Ruhland,M., G. Engelhardt, and K. Pawlizki|Distribution and Metabolism of D/L-, L- and D-Glufosinate in Transgenic, Glufosinate-Tolerant Crops of Maize (Zea mays L. ssp. mays) and Oilseed Rape (Brassica napus L var napus)|Pest Manag. Sci.60(7): 691-696|2004|10.1002/ps.857
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82653|T||Gonzalez-Zamora,J.E., D. Leira, M.J. Bellido, and C. Avilla|Evaluation of the Effect of Different Insecticides on the Survival and Capacity of Eretmocerus mundus Mercet to Control Bemisia tabaci (Gennadius) Populations|Crop Prot.23(7): 611-618|2004|10.1016/j.cropro.2003.11.011
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82656|A||Jensen,H.F., M. Holmer, and I. Dahllof|Effects of Tributyltin (TBT) on the Seagrass Ruppia maritima|Mar. Pollut. Bull.49(7-8): 564-573|2004|10.1016/j.marpolbul.2004.03.010
82657|T||Kennel,P., C. Pallen, E. Barale-Thomas, G. Espuna, and R. Bars|Tamoxifen:  28-Day Oral Toxicity Study in the Rat Based on the Enhanced OECD Test Guideline 407 to Detect Endocrine Effects|Arch. Toxicol.77(9): 487-499|2003|10.1007/s00204-003-0476-5
82658|AT||Loumbourdis,N.S.|Nephrotoxic Effects of Lead Nitrate in Rana ridibunda|Arch. Toxicol.77(9): 527-532|2003|10.1007/s00204-003-0487-2
82659|A||Prenter,J., C. MacNeil, J.T.A. Dick, G.E. Riddell, and A.M. Dunn|Lethal and Sublethal Toxicity of Ammonia to Native, Invasive, and Parasitised Freshwater Amphipods|Water Res.38(12): 2847-2850|2004|10.1016/j.watres.2004.03.042
82660|AT||Jos,A., G. Repetto, J.C. Rios, M.J. Hazen, M.L. Molero, A. Del Peso, M. Salguero, P. Fernandez-Freire, J.M. Perez-Marti|Ecotoxicological Evaluation of Carbamazepine Using Six Different Model Systems with Eighteen Endpoints|Toxicol. In Vitro17(5-6): 525-532|2003|10.1016/S0887-2333(03)00119-X
82661|T||Stoker,C., F. Rey, H. Rodriguez, J.G. Ramos, P. Sirosky, A. Larriera, E.H. Luque, and M. Munoz-de-Toro|Sex Reversal Effects on Caiman latirostris Exposed to Environmentally Relevant Doses of the Xenoestrogen Bisphenol A|Gen. Comp. Endocrinol.133(3): 287-296|2003|10.1016/S0016-6480(03)00199-0
82662|A||Villegas-Navarro,A., E. Rosas-L, and J.L. Reyes|The Heart of Daphnia magna:  Effects of Four Cardioactive Drugs|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.136(2): 127-134|2003|10.1016/S1532-0456(03)00172-8
82663|A||Powell,M.D.|The Pathophysiology of Chloramine-T on Rainbow Trout Gills|Ph.D.Thesis, Univ.Ottawa, Canada:238 p.|1996|
82664|A||Clark,K.J.|Temperature and Species Comparisons of Benzocaine Pharmacokinetics, Metabolism and Physiologically Based Pharmacokinetic Model Within Channel Catfish, Ictalurus punctatus, and Yellow Perch, Perca flavescens|Ph.D.Thesis, Ohio State University, Miami, OH:260 p.|1999|
82665|A||Brown,A.C.|Production of Copper-Complexing Ligands in Response to Elevated Concentrations of Copper in Marine Synechococcus spp.|Ph.D.Thesis, Old Dominion Univ., Norfolk, VA:103 p.|1999|
82666|A||Patyna,P.J.|Reproductive Effects of Phthalate Esters in Japanese Medaka (Oryzias latipes)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:137 p.|1999|
82667|A||Edmunds,J.S.G.|Effects of Xenoestrogens and Cytochrome P450 Aromatase Inhibitors on Sexual Differentiation in Medaka (Oryzias latipes)|Ph.D.Thesis, Medical University of South Carolina, Charleston, SC:155 p.|1998|
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82669|A||Hofelt,C.S.|Use of Artificial Substrates to Monitor Organic Contaminants in the Aquatic Environment|Ph.D.Thesis, North Carolina State University, Raleigh, NC:89 p.|1999|
82671|T||Muhlebach,S., and M.H. Bickel|Pharmacokinetics in Rats of 2,4,5,2',4',5'-Hexachlorobiphenyl, an Unmetabolizable Lipophilic Model Compound|Xenobiotica11(4): 249-257|1981|10.3109/00498258109045299
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82675|T||Myllymaki,S.A., T.E. Haavisto, L.J.S. Brokken, M. Viluksela, J. Toppari, and J. Paranko|In Utero and Lactational Exposure to TCDD; Steroidogenic Outcomes Differ in Male and Female Rat Pups|Toxicol. Sci.88(2): 534-544|2005|10.1093/toxsci/kfi308
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82677|AT||Wang,F., and F. Sehnal|Ecdysteroid Agonist RH-2485 Injected into Schistocerca gregaria (Orthoptera:  Acrididae) Females Accelerates Oviposition and Enhances Ecdysteroid Content in Eggs|Appl. Entomol. Zool.37(3): 409-414|2002|10.1303/aez.2002.409
82678|T||Adamczyk,J.J.,Jr., B.R. Leonard, and J.B. Graves|Toxicity of Selected Insecticides to Fall Armyworms (Lepidoptera: Noctuidae) in Laboratory Bioassay Studies|Fla. Entomol.82(2): 230-236|1999|10.2307/3496574
82679|T||Schneider,M.I., G. Smagghe, A. Gobbi, and E. Vinuela|Toxicity and Pharmacokinetics of Insect Growth Regulators and Other Novel Insecticides on Pupae of Hyposoter didymator (Hymenoptera: Ichneumonidae), a Parasitoid of Early Larval Instars of Lepidopteran Pests|J. Econ. Entomol.96(4): 1054-1065|2003|10.1603/0022-0493-96.4.1054
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82681|T||Moulton,J.K., D.A. Pepper, and T.J. Dennehy|Pro-Active Management of Beet Armyworm (Spodoptera exigua) Resistance to the IGRS, Tebufenozide and Methoxyfenozide|Proc. Beltwide Cotton Conf.2:999-1004|2000|
82682|T||Carvalho,G.A., P.R. Reis, L.C.D. Rocha, J.C. Moraes, L.C. Fuini, and C.C. Ecole|Side-Effects of Insecticides Used in Tomato Fields on Trichogramma pretiosum (Hymenoptera, Trichogrammatidae)|Acta Sci. Agron.25(2): 275-279|2003|10.4025/actasciagron.v25i2.1771
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82687|T||Alonso,K.R., M.M. Peden, D. Henshel, and R.L. Dickerson|In-Ovo Exposure to 2,3,7,8-TCDD Results in Delayed Reproductive Maturation in the Domestic Chicken|Organohalog. Compd.29:195-199|1996|
82689|T||Gupton,C.L., and J.M. Spiers|Inheritance of Tolerance to Mineral Element-Induced Chlorosis in Rabbiteye Blueberry|Hortscience27(2): 148-151|1992|10.21273/HORTSCI.27.2.148
82690|T||Falloon,R.E., A.R. Wallace, M. Braithwaite, R.A. Genet, H.M. Nott, J.D. Fletcher, and W.F. Braam|Assessment of Seed Tuber, In-Furrow, and Foliar Chemical Treatments for Control of Powdery Scab (Spongospora subterranea f.sp. subterranea) of Potato|N. Z. J. Crop Hortic. Sci.24(4): 341-353|1996|10.1080/01140671.1996.9513971
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82693|T||Tal,A., and B. Rubin|Molecular Characterization and Inheritance of Resistance to ACCase-Inhibiting Herbicides in Lolium rigidum|Pest Manag. Sci.60(10): 1013-1018|2004|10.1002/ps.903
82694|T||Maruyama-Nakashita,A., E. Inoue, A. Watanabe-Takahashi, T. Yamaya, and H. Takahashi|Transcriptome Profiling of Sulfur-Responsive Genes in Arabidopsis Reveals Global Effects of Sulfur Nutrition on Multiple Metabolic Pathways|Plant Physiol.132(2): 597-605|2003|10.1104/pp.102.019802
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82696|T||Villasenor,I.M., A.P. Canlas, K.M. Faustino, and K.G. Plana|Evaluation of the Bioactivity of Triterpene Mixture Isolated from Carmona retusa (Vahl.) Masam Leaves|J. Ethnopharmacol.92(1): 53-56|2004|10.1016/j.jep.2004.01.017
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82700|T||Vontas,J.G., S.C. Tsakas, M. Loukas, and J. Hemingway|Low-Activity Allele of Copper-Zinc Superoxide Dismutase (CuZnSOD) in Drosophila Increases Paraquat Genotoxicity but does not Affect Near UV Radiation Damage|Genome44(4): 597-601|2001|10.1139/g01-046
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82703|T||Reddy,K.J.|Effect of Zinc on Growth and Activity of Certain Enzymes in Two Cultivars Chickpea|Indian Bot. Rep.4(1): 81-83|1985|
82704|T||Mukherjee,A., and A. Sharma|Effect of Pretreatment on Metal Cytotoxicity in Plants|Indian Bot. Rep.4(1): 76-78|1985|
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82708|A||Shrivastava,S., and S. Singh|Toxic Effect of Carbaryl on Glucose Level in the Muscles of Heteropneustes fossilis|Nat. Environ. Pollut. Technol.2(1): 35-37|2003|
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82710|T||Ikeguchi,M., M. Sawaki, H. Nakayama, H. Kikugawa, and H. Yoshii|Synthesis and Herbicidal Activity of New Oxazinone Herbicides with a Long-Lasting Herbicidal Activity Against Echinochloa oryzicola|Pest Manag. Sci.60(10): 981-991|2004|10.1002/ps.900
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82714|T||Hewa-Kapuge,S., S. McDougall, and A.A. Hoffmann|Effects of Methoxyfenozide, Indoxacarb, and Other Insecticides on the Beneficial Egg Parasitoid Trichogramma nr. brassicae (Hymenoptera:  Trichogrammatidae) Under Laboratory and Field Conditions|J. Econ. Entomol.96(4): 1083-1090|2003|10.1603/0022-0493-96.4.1083
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82716|T||Treacy,M.F., J.H. Benedict, K.M. Schmidt, and R.M. Anderson|Mineral Oil:  Enhancement of Field Efficacy of a Pyrethroid Insecticide Against the Boll Weevil (Coleoptera:  Curculionidae)|J. Econ. Entomol.84(2): 659-663|1991|10.1093/jee/84.2.659
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82724|T||Thompson,L.J.|Effects of Copper and Selenium on Antibody Response, Weight Gains and Blood Parameters in Beef Calves Grazing High or Low Endophyte (Acremonium coenophialum) Tall Fescue (Festuca arundinaceae, Schrep)|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:157 p.|1996|
82725|T||Rowland,S., T. Goodson, and B. Cartwright|Control of Cabbage Looper on Broccoli,  Fall 1993|Arthropod Manag. Tests19:62-63|1994|10.1093/amt/19.1.62a
82726|T||Rowland,S., and B. Cartwright|Control of Cabbage Looper and Diamondback Moth on Cabbage,  Spring, 1993|Insectic. Acaric. Tests19:69-71|1994|
82728|T||Carson,W.G., K.K. White, and J.T. Trumble|Chemical Trials and Impact on Insects in Celery, 1991|Arthropod Manag. Tests19:82-83|1994|10.1093/amt/19.1.82
82729|T||Seal,D.R., and R.K. Jansson|Insect Control in Sweet Corn, 1991|Insectic. Acaric. Tests19:96-|1994|
82730|T||Schuster,D.J.|Control of Armyworms on Bell Pepper in West-Central Florida, Fall 1992|Insectic. Acaric. Tests19:107-108|1994|
82731|T||Carson,W.G., K.K. White, and J.T. Trumble|Impact of Insecticides on Insects on Tomatoes, 1993|Insectic. Acaric. Tests19:148-149|1994|
82732|T||Rowland,S., B. Cartwright, and B.W. Roberts|Control of Pests on Tomatoes, Summer, 1993|Arthropod Manag. Tests19:150|1994|10.1093/amt/19.1.150
82733|T||Schuster,D.J.|Armyworm and Tomato Pinworm Control on Fresh Market Tomatoes in West-Central Florida, Fall 1992|Insectic. Acaric. Tests19:154-|1994|
82734|T||Carton,B., A. Heirman, G. Smagghe, and L. Tirry|Relationship Between Toxicity, Kinetics and In Vitro Binding of Nonsteroidal Ecdysone Agonists in the Cotton Leafworm and the Colorado Potato Beetle|Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2a): 311-322|2000|
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82736|T||Rowland,S., and B. Cartwright|Control of Cabbage Pests, Summer, 1993|Insectic. Acaric. Tests19:68-69|1994|
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82739|T||Collins,W.T.,Jr., and C.C. Capen|Biliary Excretion of 125I-Thyroxine and Fine Structural Alterations in the Thyroid Glands of Gunn Rats Fed Polychlorinated Biphenyls (PCB)|Lab. Invest.43(2): 158-164|1980|
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82742|T||Ozawa,N., S. Yoshihara, and H. Yoshimura|Selective Induction of Rat Liver Microsomal Cytochrome P-448 by 3,4,5,3',4'-Pentachlorobiphenyl and Its Effect on Liver Microsomal Drug Metabolism|J. Pharmacobio-Dyn.2:309-319|1979|10.1248/bpb1978.2.309
82743|T||Kato,Y., K. Haraguchi, M. Kawashima, S. Yamada, Y. Masuda, and R. Kimura|Induction of Hepatic Microsomal Drug-Metabolizing Enzymes by Methylsulfonyl Metabolites of PCBs in Rats|In: Proc.Dioxin 93, 13th Int.Symp.on Dioxins and Related Compounds, Sept.20-24, 1993, Vienna, Austria:257-260|1993|
82744|T||Yoshihara,S., K. Nagata, I. Wada, H. Yoshimura, H. Kuroki, and Y. Masuda|A Unique Change of Steroid Metabolism in Rat Liver Microsomes Induced with Highly Toxic Polychlorinated Dibenzofuran (PCDF)|J. Pharmacobio-Dyn.5(12): 994-1004|1982|10.1248/bpb1978.5.994
82745|T||Poland,A., D. Palen, and E. Glover|Tumour Promotion by TCDD in Skin of HRS/J Hairless Mice|Nature300:271-273|1982|10.1038/300271a0
82746|A||Fisher,M.A.|Health Impacts of Polychlorinated Biphenyls (PCBs) in Aquatic Organisms|Ph.D.Thesis, Western Michigan University, Kalamazoo, MI:125 p.|2004|
82748|A||Garrett,D.C.|Effects of Methanol, Atrazine, and Copper on the Ultrastructure of Pseudokirchneriella subcapitata (Selenastrum capricornutum)|Ph.D.Thesis, University of North Texas, Denton, TX:192 p.|2004|
82750|A||Pincetich,C.A.|Metabolic Effects of Pesticide Exposure During Embryogenesis in Medaka (Oryzias latipes) and Chinook Salmon (Oncorhynchus tshawytscha)|Ph.D. Thesis, University of California, Davis:139 p.|2004|
82751|A||Hoffmann,J.L.|Altered Gene Expression:  A Mechanism of Reproductive Toxicity in Zebrafish (Danio rerio) Exposed to Benzo[a]Pyrene|Ph.D.Thesis, Miami University, Oxford, OH:127 p.|2005|
82752|T||Shaikh,N.P.|Herbicide and Insecticide Interactions in Peanut (Arachis hypogaea L.)|Ph.D Thesis, University of Florida, Gainesville, FL:137 p.|2004|
82753|T||Montes,A.V.|Behavioral, Biochemical, and Molecular Mechanisms of Lead (Pb+2)-Mediated Long-Term Memory Impairment in the Adult Rat Brain|Ph.D.Thesis, Univ.of Puerto Rico, San Juan, PR:222 p.|2004|
82754|T||Cruz-Jimenez,G.|Toxicity and Accumulation of Selenium by Plant Species from the Chihuahuan Desert|Ph.D.Thesis, University of Texas, El Paso, TX:138 p.|2004|
82755|A||Fajt,J.R.|Toxicity of Rotenone to Common Carp and Grass Carp:  Respiratory Effects, Oral Toxicity, and Evaluation of a Poison Bait|Ph.D.Thesis, Auburn University, Auburn, AL:77 p.|1996|
82756|T||Tumah,H.N.|Synergistic Effect of the Combination Triclosan with 2-Phenylphenol Against Pseudomonas aeruginosa and Fungi|Saudi Med. J.26(5): 723-727|2005|
82757|A||Deng,X.|Early Life Stages of Sacramento Splittail (Pogonichthys macrolepidotus) and Selenium Toxicity to Splittail Embryos, Juveniles and Adults|Ph.D. Thesis, University of California, Davis:137 p.|2005|
82759|T||Beckett,K.J.|Induction of Squamous Cell Carcinoma in the Mandible and Maxilla, and Reproductive Dysfunction in Mink (Mustela vison) caused by 3,3',4,4',5-Pentachlorobiphenyl (PCB 126)|Ph.D. Thesis, Michigan State University, East Lansing, MI:197 p.|2005|
82761|A||Kim,S.D.|Effect of Complexation Kinetics on Bioavailability of Copper to Ceriodaphnia dubia|Ph.D.Thesis, Univ.of Delaware, Newark, DE:202 p.|1999|
82763|A||Pyatt,A.J., F.B. Pyatt, and V.W. Pentreath|Lead Toxicity, Locomotion and Feeding in the Freshwater Snail, Lymnaea stagnalis (L.)|Invertebr. Neurosci.4(3): 135-140|2002|10.1007/s10158-001-0015-0
82764|A||Oliveira Ribeiro,C.A., E. Fanta, N.M. Turcatti, R.J. Cardoso, and C.S. Carvalho|Lethal Effects of Inorganic Mercury on Cells and Tissues of Trichomycterus brasiliensis (Pisces; Siluroidei)|Biocell20(3): 171-178|1996|
82765|A||Tazawa,M., K. Asai, and N. Iwasaki|Characteristics of Hg- and Zn-Sensitive Water Channels in the Plasma Membrane of Chara Cells|Bot. Acta109(5): 388-396|1996|10.1111/j.1438-8677.1996.tb00588.x
82766|T||Bruce,Y.A., S. Gounou, A. Chabi-Olaye, H. Smith, and F. Schulthess|The Effect of Neem (Azadirachta indica A. Juss) Oil on Oviposition, Development and Reproductive Potentials of Sesamia calamistis Hampson (Lepidoptera:  Noctuidae) and Eldana saccharina Walker (Lepidoptera:  Pyralidae)|Agric. For. Entomol.6(3): 223-232|2004|10.1111/j.1461-9555.2004.00218.x
82767|A||Boone,M.D., C.M. Bridges, and B.B. Rothermel|Growth and Development of Larval Green Frogs (Rana clamitans) Exposed to Multiple Doses of an Insecticide|Oceanologia (Wroc.)129(4): 518-524|2001|
82768|A||Aagaard,A., B. Styrishave, C.G. Warman, and M.H. Depledge|The Use of Cardiac Monitoring in the Assessment of Mercury Toxicity in the Subtropical Pebble Crab Gaetice depressus (Brachyura: Grapsidae: Varuninae)|Sci. Mar.64(4): 381-386|2000|10.3989/scimar.2000.64n4381
82769|AT||Bhattacharyya,M., and M.A. Choudhuri|Effect of Lead and Cadmium on the Bio-chemical Changes in the Leaves of Terrestrial (Vigna) and Aquatic (Hydrilla) Plants Under Solution Culture|Indian J. Plant Physiol.37(2): 99-103|1994|
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82771|A||Ramani,M.B., T.V.A. Mercy, J.R. Nair, and P.M. Sherief|Changes in the Proximate Composition of Labeo rohita (Ham.) Exposed to Sublethal Concentrations of Monocrotophos|Indian J. Fish.49(4): 427-432|2002|
82772|T||Chaurasia,S.S., S. Panda, and A. Kar|Lead Inhibits Type-I Iodothyronine 5'-Monodeiodinase in the Indian Rock Pigeon Columba livia:  A Possible Involvement of Essential Thiol Groups|J. Biosci. (Bangalore)22(2): 247-254|1997|10.1007/BF02704737
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82774|A||Khozin,I., and Z. Cohen|Differential Response of Microalgae to the Substituted Pyridazinone, Sandoz 9785, Reveal Different Pathways in the Biosynthesis of Eicosapentaenoic Acid|Phytochemistry42(4): 1025-1029|1996|10.1016/0031-9422(96)00053-2
82775|A||Giri,B.S., and N.A. Devi|Inhibition of Cytokinesis by Lead (Pb2+) in a Centric Diatom|Indian J. Exp. Biol.30(3): 201-204|1992|
82777|A||Park,I.K., S.G. Lee, S.C. Shin, J.D. Park, and Y.J. Ahn|Larvicidal Activity of Isobutylamides Identified in Piper nigrum Fruits Against Three Mosquito Species|J. Agric. Food Chem.50(7): 1866-1870|2002|10.1021/jf011457a
82778|T||Grafton-Cardwell,E.E., J.G. Morse, and A. Gjerde|Effect of Insecticide Treatments to Reduce Infestation by Citrus Thrips (Thysanoptera: Thripidae) on Growth of Nonbearing Citrus|J. Econ. Entomol.91(1): 235-242|1998|10.1093/jee/91.1.235
82779|T||Gabbrielli,R., L. Grossi, and O. Vergnano|The Effects of Nickel, Calcium and Magnesium on the Acid Phosphatase Activity of Two Alyssum Species|New Phytol.111(4): 631-636|1989|10.1111/j.1469-8137.1989.tb02357.x
82780|T||Liu,D., W. Jiang, S. Tong, and L. Zhai|Effects of Mg2+ and Co2+ on Cell Division and Nucleolar Cycle During Mitosis in Root Tip Cells of Allium cepa|Isr. J. Plant Sci.42(3): 235-243|1994|10.1080/07929978.1994.10676576
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82782|T||LaBrie,S.T., J.Q. Wilkinson, and N.M. Crawford|Effect of Chlorate Treatment on Nitrate Reductase and Nitrite Reductase Gene Expression in Arabidopsis thaliana|Plant Physiol.97(3): 873-879|1991|10.1104/pp.97.3.873
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82784|T||Wierzbicka,M., and A. Potocka|Lead Tolerance in Plants Growing on dry and Moist Soils|Acta Biol. Crac., Ser. Bot. 44:21-28|2002|
82785|A||David,M., S.B. Mushigeri, M.S. Prashant, and S.G. Mathad|Hepato Toxicity of Malathion on the Protein Metabolism in Catla catla|Adv. Biosci.22(1): 115-120|2003|
82786|T||Neelu, M. Kumar, M. Tomar, and A.K. Bhatnagar|Influence of Cadmium on Growth and Development of Vicia faba Linn.|Indian J. Exp. Biol.38(8): 819-823|2000|
82787|A||Satyavathi,C., and Y.P. Rao|Effect of Lead on Na+, K+-ATPase Activity in Penaeus indicus Postlarvae|Indian J. Exp. Biol.40(7): 858-860|2002|
82788|A||Isani,G., G. Andreani, M. Monari, and E. Carpene|Metal Concentrations (Cu, Zn and Cd) and Metallothionein Expression in Sparus aurata Exposed to Waterborne Copper|J. Trace Elem. Med. Biol.17(1): 17-23|2003|
82789|A||Lancieri,M., S. Cozzolino, S. Filosa, C.M. Motta, S. Tammaro, L. Gaudio, and L. Migliore|Toxicity and Teratogenic Effects of Flumequine on Danio rerio Embryos|Fresenius Environ. Bull.11(9B): 642-646|2002|
82790|T||Dragicevic,V., S. Sredojevic, M. Vrvic, L. Djukanovic, and M. Todorovic|The Mass and Water Partitioning as Growth Factors of Maize Seedlings Influenced by Ageing and 2,4-D|Fresenius Environ. Bull.12(4): 336-340|2004|
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82793|AT||Grossmann,K., S. Tresch, and P. Plath|Triaziflam and Diaminotriazine Derivatives Affect Enantioselectively Multiple Herbicide Target Sites|Z. Naturforsch. Sect. C J. Biosci.56(7/8): 559-569|2001|10.1515/znc-2001-7-814
82794|T||Rolando,C., and R. Allan|Survival and Growth of Pinus patula at Two Years in Response to Harvest Residue and Pest Management, in Mpumalanga, South Africa|S. Afr. For. J.200:19-26|2004|10.1080/20702620.2004.10431757
82795|T||Durmusoglu,E., Y. Karsavuran, I. Ozgen, and A. Guncan|Effects of Two Different Neem Products on Different Stages of Nezara viridula (L.) (Heteroptera, Pentatomidae)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)76(6): 151-154|2003|
82796|T||Nicolas,J.L., M.A. Echeverria, and J. Sanchez-Bravo|Influence of Ethylene and Ag+ on Hypocotyl Growth in Etiolated Lupin Seedlings.  Effects on Cell Growth and Division|Plant Growth Regul.33(2): 95-105|2001|10.1023/A:1017583207216
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82812|T||Basile,A., S. Giordano, V. Spagnuolo, F. Alfano, and R.C. Cobianchi|Effect of Lead and Colchicine on Morphogenesis in Protonemata of the Moss Funaria hygrometrica|Ann. Bot.76(6): 597-606|1995|10.1006/anbo.1995.1137
82813|T||Leon,A.M., J.M. Palma, F.J. Corpas, M. Gomez, M.C. Romero-Puertas, D. Chatterjee, R.M. Mateos, L.A. Del Rio, and L.M. S|Antioxidative Enzymes in Cultivars of Pepper Plants with Different Sensitivity to Cadmium|Plant Physiol. Biochem.40(10): 813-820|2002|10.1016/S0981-9428(02)01444-4
82814|T||Ye,Z.H., A.J.M. Baker, M.H. Wong, and A.J. Willis|Zinc, Lead and Cadmium Tolerance, Uptake and Accumulation by the Common Reed, Phragmites australis (Cav.) Trin. ex Steudel|Ann. Bot.80(3): 363-370|1997|10.1006/anbo.1997.0456
82815|T||Gouia,H., M.H. Ghorbal, and C. Meyer|Effects of Cadmium on Activity of Nitrate Reductase and on Other Enzymes of the Nitrate Assimilation Pathway in Bean|Plant Physiol. Biochem.38(7-8): 629-638|2000|10.1016/S0981-9428(00)00775-0
82816|T||Nahar,B.S., and T. Ikeda|Effect of Silver-Sheet and Figaron on Flower Production, Abscission of Reproductive Organs, Yield and Yield Components in Soybean (Glycine max L.)|J. Agron. Crop Sci.188(3): 193-200|2002|10.1046/j.1439-037X.2002.00560.x
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82820|A||Shafiq-ur-Rehman|Lead-Exposed Increase in Movement Behavior and Brain Lipid Peroxidation in Fish|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control38(4): 631-643|2003|
82821|T||Hawkins,A., D.N. Prashad, and R.O. Blackburn|Lead-Induced Changes in Avian Renal Haemodynamics|In: Bach,P.H.,et al.(Eds.), Nephrotoxicity: Mechanisms, Early Diagnosis, and Therapeutic Manage., 4th Int.Symp.on Nephrotoxicity, 1989, Guilford, England, U.K., Marcel Dekker, Inc., New York, NY:401-404|1991|
82822|T||Sharma,G.P., R.C. Sobti, A. Chaudhry, K.K. Ahluwalia, and R.K. Gill|Effect of Some Nickel Compounds on the Chromosomes of Mice and Mosquitoes|Kromosomo2(45): 1423-1432|1987|
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82827|T||Mishra,A., and M.A. Choudhuri|Effects of Salicylic Acid on Heavy Metal-Induced Membrane Deterioration Mediated by Lipoxygenase in Rice|Biol. Plant. (Praha)42(3): 409-415|1999|10.1023/A:1002469303670
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82836|T||Smolinska,U., and M. Horbowicz|Fungicidal Activity of Volatiles from Selected Cruciferous Plants Against Resting Propagules of Soil-Borne Fungal Pathogens|J. Phytopathol. (Berl.)147(2): 119-124|1999|10.1111/j.1439-0434.1999.tb03817.x
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82839|T||Dhingra,O.D., M.L.N. Costa, and J.r. Silva|Potential of Allyl Isothiocyanate to Control Rhizoctonia solani Seedling Damping Off and Seedling Blight in Transplant Production|J. Phytopathol.152(6): 352-357|2004|10.1111/j.1439-0434.2004.00855.x
82842|T||Harvey,S.G., H.N. Hannahan, and C.E. Sams|Indian Mustard and Allyl Isothiocyanate Inhibit Sclerotium rolfsii|J. Am. Soc. Hortic. Sci.127(1): 27-31|2002|10.21273/JASHS.127.1.27
82843|T||Mishra,A., and M.A. Choudhuri|Ameliorating Effects of Salicylic Acid on Lead and Mercury-Induced Inhibition of Germination and Early Seedling Growth of Two Rice Cultivars|Seed Sci. Technol.25(2): 263-270|1997|
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82846|T||Matsuzaki,H., T. Kikuchi, Y. Kajita, R. Masuyama, M. Uehara, S. Goto, and K. Suzuki|Comparison of Various Phosphate Salts as the Dietary Phosphorus Source on Nephrocalcinosis and Kidney Function in Rats|J. Nutr. Sci. Vitaminol.45(5): 595-608|1999|10.3177/jnsv.45.595
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82848|T||Mugnier,J., M. Chazalet, J.M. Gaulliard, R.Y. Anelich, and J.M. Gouot|Control of Seed, Soil-Borne and Foliar Fungal Diseases by Triticonazole Seed and Foliar Applications|Br. Crop Prot. Conf.3(1): 325-330|1994|
82849|AT||Hossain,M.T., R. Mori, K. Soga, K. Wakabayashi, S. Kamisaka, S. Fujii, R. Yamamoto, and T. Hoson|Growth Promotion and an Increase in Cell Wall Extensibility by Silicon in Rice and Some Other Poaceae Seedlings|J. Plant Res.115(1117): 23-27|2002|10.1007/s102650200004
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82851|T||Shell Oil Co.|Phytotoxicity of Hydrocarbons and Related Products|Shell Laboratory, Amsterdam, The Netherlands:29 p.|1978|
82852|T||Alam,M.M.|Control of Root-Knot and Stunt Nematodes with Horn Meal, Bone Meal and Oilseed Cakes|Indian J. Nematol.19(2): 166-170|1989|
82865|T||Prakash,O., and M.A. Raoof|Control of Mango Fruit Decay with Post Harvest Application of Various Chemicals Against Black Rot Stem End Rot and Anthracnose Disease|Int. J. Trop. Plant Dis.6(1): 99-105|1989|
82866|T||Gul,A., SAIFULLAH, and S.F.A. Shah|Control of Root-Knot Nematodes in Tomato Through Organic Amendments and NPK|Sarhad J. Agric.6(1): 95-98|1990|
82867|T||Chandra,J., and V.N. Pathak|Incidence, Infection Process and Management of Anthracnose of Mango Fruits|Indian J. Mycol. Plant Pathol.22(1): 35-38|1992|
82868|T||Vajreswari,A., P.S. Rao, S.S. Kaplay, and P.G. Tulpule|Erythrocyte Membrane in Rats Fed high Erucic Acid-Containing Mustard Oil:  Osmotic Fragility, Lipid Composition, and (Na+, K+)- and (Ca2+, Mg2+)-ATPases|Biochem. Med.29(1): 74-84|1983|10.1016/0006-2944(83)90056-X
82869|T||Soyguder,Z.|A Semi-Quantitative Analysis of Fos Expression by Mustard Oil|Brain Res.1060(1-2): 138-143|2005|10.1016/j.brainres.2005.08.041
82870|T||Nagai,T., D. Nii, and H. Takeuchi|Amiloride Blocks Salt Taste Transduction of the Glossopharyngeal Nerve in Metamorphosed Salamanders|Chem. Senses26(8): 965-969|2001|10.1093/chemse/26.8.965
82871|T||Singh,R.S., and M. Prashar|Studies on Rhizopus Rot of Peach and Its Control|Indian J. Mycol. Plant Pathol.14(2): 185-187|1984|
82872|T||Shafqat,S., A.L. Bilgrami, and M.S. Jairajpuri|Effect of Chemicals and Nematicides on the Activity and Survival of Dorylaimus stagnalis, a Predaceous Nematode|Indian J. Nematol.22(1): 19-24|1992|
82873|T||Rauf,C.A., M.R. Malik, S.M. Iqbal, S. Rahat, and S. Hussain|Fungicides:  An Economic Tool to Enhance Productivity and Net Returns in Chickpea Crop|Sarhad J. Agric.12(4): 445-448|1996|
82875|T||McGee,D.C., B. Arias-Rivas, and J.S. Burris|Impact of Seed-Coating Polymers on Maize Seed Decay by Soilborne Pythium Species|In: T.Martin (Ed.), Br.Crop Prot.Counc.Monograph, No.57, Seed Treatment: Progress and Prospects, Symp., Canturbury, England, Farnham, England:117-121|1994|
82877|T||Flood,J., R. Mepsted, S. Turner, and R.M. Cooper|Eradication of Fusarium from Oil Palm by Seed Treatments|In: T.Martin(Ed.),Br.Crop Prot.Counc.Monogr.No.57, Seed Treatment:Progress and Prospects Symp.,Jan.5-7,1994,Farnham,England:201-205|1994|
82878|T||Haenel,H.|Biological Results with Synthetic Mustard Oil-Splitting Substances|Bibl. Nutr. Dieta9:18-23|1967|
82879|T||Habler,H.J., W. Janig, and M. Koltzenburg|A Novel Type of Unmyelinated Chemosensitive Nociceptor in the Acutely Inflamed Urinary Bladder|Agents Actions25(3-4): 219-221|1988|10.1007/BF01965016
82880|A||Ina,K., R. Takasawa, A. Yagi, H. Etoh, and K. Sakata|Isothiocyanates as an Attaching Repellent Against the Blue Mussel Mytilus edulis|Agric. Biol. Chem.53(12): 3323-3325|1989|
82882|T||Sudhir,K., T.W. Kurtz, P.G. Yock, A.J. Connolly, and R.C.,Jr. Morris|Potassium Preserves Endothelial Function and Enhances Aortic Compliance in Dahl Rats|Hypertension22(3): 315-322|1993|10.1161/01.HYP.22.3.315
82883|T||Muztar,A.J., T. Huque, P. Ahmad, and S.J. Slinger|Effect of Allyl Isothiocyanate on Plasma and Urinary Concentrations of Some Biochemical Entities in the Rat|Can. J. Physiol. Pharmacol.57(5): 504-509|1979|10.1139/y79-076
82884|T||Muztar,A.J., P. Ahmad, T. Huque, and S.J. Slinger|A Study of the Chemical Binding of Allyl Isothiocyanate with Thyroxine and of the Effect of Allyl Isothiocyanate on Lipid Metabolism in the Rat|Can. J. Physiol. Pharmacol.57(4): 385-389|1979|10.1139/y79-058
82885|T||Idris,R., and K. Ahmad|The Effect of Allylisothiocyanate and Other Antithyroid Compounds on Blood Coagulation in Rats|Biochem. Pharmacol.24(21): 2003-2005|1975|10.1016/0006-2952(75)90393-7
82886|T||Eckenrode,C.J., and H. Arn|Trapping Cabbage Maggots with Plant Bait and Allyl Isothiocyanate|J. Econ. Entomol.65(5): 1343-1345|1972|10.1093/jee/65.5.1343
82887|T||Lewerenz,H.J., R. Plass, D.W. Bleyl, and R. Macholz|Short-Term Toxicity Study of Allyl Isothiocyanate in Rats|Nahrung32(8): 723-728|1988|10.1002/food.19880320802
82888|T||Kim,M., and C.M. Mistretta|4-Aminopyridine Reduces Chorda tympani Nerve Taste Responses to Potassium and Alkali Salts in Rat|Brain Res.612(1-2): 96-103|1993|10.1016/0006-8993(93)91648-C
82889|T||Kaup,S.M., A.R. Behling, and J.L. Greger|Sodium, Potassium and Chloride Utilization by Rats Given Various Inorganic Anions|Br. J. Nutr.66(3): 523-532|1991|10.1079/BJN19910052
82891|T||Nivard,M.J.M., K. Czene, D. Segerback, and E.W. Vogel|Mutagenic Activity of Ethylene Oxide and Propylene Oxide Under XPG Proficient and Deficient Conditions in Relation to N-7-(2-Hydroxyalkyl)Guanine Levels in Drosophila|Mutat. Res.529(1/2): 95-107|2003|10.1016/S0027-5107(03)00111-8
82892|T||Hamilton,J.W., J. McCaffrey, R.M. Caron, C.A. Louis, M.D. Treadwell, S.R. Hunt, M.J. Reed, and K.A. Doherty|Genotoxic Chemical Carcinogens Target Inducible Genes In Vivo|In: S.S.Wallace, B.Van Houten, and Y.W.Kow (Eds.), Ann.of the N.Y.Acad.of Sci., DNA Damage: Effects on DNA Structure and Protein Recognition, Conf., Jul.31-Aug.4, 1993, Burlington, Vermont:343-345|1994|
82893|T||American Petroleum Institute|Incidence of Skin Neoplasms in Control Mice (1979-1986) with Cover Letter Dated 090688|EPA/OTS Doc.#FYI-AX-0988-0141:|1988|
82899|T||Siglin,J.C., R.E. Rush, P.K. Jenkins, D.K. Bowles, and K.D. Drake|Acute Toxicity Studies with Busan 1060|J. Am. Coll. Toxicol.1(3): 204-205|1992|10.1177/109158189200100351
82901|T||Jones,D.R.|Evaluation of Fungicides for Control of Ringspot Marssonina panattoniani of Outdoor Lettuce|Tests Agrochem. Cultiv.7:56-57|1986|
82904|T||EPA/OTS|Initial Submission:  Toxicity Studies of Ethylene Oxide/Propylene Oxide Adduct of a C12-C15 Linear Alcohol with Cover Letter Dated 091592|EPA/OTS Doc.#88-920009320:3 p.|1992|
82905|T||Yoshii,K., and T. Matui|Taste Responses of Bullfrog to Pungent Stimuli|Brain Res.637(1-2): 68-72|1994|10.1016/0006-8993(94)91218-1
82907|T||Morrison,R.A., D.E. Burkett, M.E. Arnold, C.J. D'Arienzo, and S.H. Weinstein|Sites of First-Pass Bioactivation (Hydrolysis) of Orally Administered Zofenopril Calcium in Dogs|Pharm. Res.8(3): 370-375|1991|10.1023/A:1015853801329
82908|T||Ray,S., G. Talukder, K.P. Sengupta, and G.C. Chatterjee|Studies on Fatty Acid Composition of Serum Lipids in Rats Fed Mustard Oil or Groundnut Oil Containing Diets|Indian J. Exp. Biol.18(12): 1509-1511|1980|
82909|T||Beck,S.L.|Additional Endpoints and Overview of a Mouse Skeletal Variant Assay for Detecting Exposure to Teratogens|Teratology47(2): 147-157|1993|10.1002/tera.1420470207
82910|T||Steinkraus,D., J. Zawislak, and G. Lorenz III|Twospotted Spider Mite Control with Selected Miticides, 1998|Arthropod Manag. Tests24:255-256|1999|10.1093/amt/24.1.F70
82911|T||Panda,N.C., and S.C. Pradhan|Comparative Feeding Values of Groundnut Oil Meal and Mustard Oil Meal in Chick Starter Rations|Indian Vet. J.43(8): 739-744|1966|
82912|T||Vajreswari,A., and K. Narayanareddy|Effect of Dietary Fats on Erythrocyte Membrane Lipid Composition and Membrane-Bound Enzyme Activities|Metab. Clin. Exp.41(4): 352-358|1992|10.1016/0026-0495(92)90067-K
82914|T||Jancso,G., F.K. Pierau, and H. Sann|Mustard Oil-Induced Cutaneous Inflammation in the Pig|Agents Actions39(1-2): 31-34|1993|10.1007/BF01975711
82915|T||Snook,M.E., A.S. Csinos, and O.T. Chortyk|Inhibition of Growth of Phytophthora parasitica var. nicotianae by Aromatic Acids and Coumarins in a Laboratory Bioassay|J. Chem. Ecol.18(8): 1287-1297|1992|10.1007/BF00994356
82916|A||Lima,N.M.F., A.F. dos Santos, Z. Porfirio, M.O.F. Goulart, and A.E.G. Sant'Ana|Toxicity of Lapachol and Isolapachol and Their Potassium Salts Against Biomphalaria glabrata, Schistosoma mansoni cercariae, Artemia salina and Tilapia nilotica|Acta Trop.83(1): 43-47|2002|10.1016/S0001-706X(02)00055-4
82917|T||Dunkelberg,H.|Carcinogenicity of Ethylene Oxide and 1,2-Propylene Oxide upon Intragastric Administration to Rats|Br. J. Cancer46(6): 924-933|1982|10.1038/bjc.1982.303
82919|T||Carson,W.G., K.K. White, and J.T. Trumble|Impact of Insectides on Tomato Insects 1994|Arthropod Manag. Tests21:178-179|1996|10.1093/amt/21.1.178
82922|T||Svensson,K., K. Olofsson, and S. Osterman-Golkar|Alkylation of DNA and Hemoglobin in the Mouse Following Exposure to Propene and Propylene Oxide|Chem.-Biol. Interact.78(1): 55-66|1991|10.1016/0009-2797(91)90102-D
82923|T||Carton,B., G. Smagghe, A.K.K. Mourad, and L. Tirry|Effects of RH-2485 on Larvae and Pupae of Spodoptera exigua (Hubner)|Meded. Fac. Landbouwwet. Rijksuniv. Gent63(2b): 537-545|1998|
82924|T||Isikber,A.A., S. Navarro, S. Finkelman, M. Rindner, A. Azrieli, and R. Dias|Toxicity of Propylene Oxide at Low Pressure Against Life Stages of Four Species of Stored Product Insects|J. Econ. Entomol.97(2): 281-285|2004|10.1093/jee/97.2.281
82925|T||Omura,M., A. Tanaka, K. Mori, M. Hirata, M. Zao, and N. Inoue|Dose-Dependent Testicular Toxicity of Propylene Oxide in Rats Induced by Repeated Intraperitoneal Injections|Fukuoka-Igaku-Zasshi (Multiple Languages)85(7): 204-210|1994|
82926|T||Farooqi,Z., M. Tornqvist, L. Ehrenberg, and A.T. Natarajan|Genotoxic Effects of Ethylene Oxide and Propylene Oxide in Mouse Bone Marrow Cells|Mutat. Res., Fundam. Mol. Mech. Mutagen.288(2): 223-228|1993|10.1016/0027-5107(93)90088-W
82927|T||Sharma,S., B.P. Mishra, and R.K. Sharma|Effect of Some Antifungal Compounds to Combat the Post-Harvest Aspergillus Rot of Baramasi Lemon|Prog. Hortic.18(1-2): 71-72|1986|
82928|T||Blachley,J.D., B.P. Crider, and J.H. Johnson|Extrarenal Potassium Adaptation:  Role of Skeletal Muscle|Am. J. Physiol., Renal Fluid Electrolyte Physiol.251(2, Pt.2): F313 - F318|1986|10.1152/ajprenal.1986.251.2.F313
82929|T||Wall,B.M., G.V. Byrum, J.H. Galla, and R.G. Luke|Importance of Chloride for the Correction of Chronic Metabolic Alkalosis in the Rat|Am. J. Physiol., Renal Fluid Electrolyte Physiol.253(5, Pt.2): F1031 - F1039|1987|
82935|T||De Vries,D.P., and L.A.M. DuBois|The Effect of BAP and IBA on Sprouting and Adventitious Root Formation of 'Amanda' Rose Single-Node Softwood Cuttings|Sci. Hortic.34(1-2): 115-121|1988|10.1016/0304-4238(88)90081-7
82936|T||Whittaker,P., S.F. Ali, S.Z. Imam, and V.C. Dunkel|Acute Toxicity of Carbonyl Iron and Sodium Iron EDTA Compared with Ferrous Sulfate in Young Rats|Regul. Toxicol. Pharmacol.36(3): 280-286|2002|10.1006/rtph.2002.1577
82937|T||Epple,G., J.R. Mason, E. Aronov, D.L. Nolte, R.A. Hartz, R. Kaloostian, D. Campbell, and A.B. Smith III|Feeding Responses to Predator-Based Repellents in the Mountain Beaver (Aplodontia rufa)|Ecol. Appl.5(4): 1163-1170|1995|10.2307/2269363
82938|T||Cole,D.L.|The Effect of Reducing the Number of Fungicide Sprays on Foliar Disease Control and Yield of Groundnut|In: B.J.Ndunguru, G.L.Hildebrand, and P.Subrahmanyam (Eds.), Sustainable Groundnut Production in Southern and Eastern Africa, Mbabane, Swaziland, ICRISAT, Patancheru, India:57-62|1994|
82939|T||Butterworth,P.E., R.N. Perry, and J. Barrett|The Effects of Specific Metabolic Inhibitors on the Energy Metabolism of Globodera rostochiensis and Panagrellus redivivus|Rev. Nematol.12(1): 63-67|1989|
82940|T||Rao,N.N.R., and C.I. Chacko|Control of Cercospora Leaf-Blight of French Jasmine|Indian J. Agric. Sci.57(4): 283-284|1987|
82941|T||Chakrabarty,P.K.|Chemical Management of Curd-Rot Complex of Cauliflower (Brassica oleracea convar botrytis var. botrytis)|Indian J. Agric. Sci.63(1): 50-55|1993|
82942|T||Northover,J., and W. McFadden-Smith|Control and Epidemiology of Apiosporina morbosa of Plum and Sour Cherry|Can. J. Plant Pathol.17(1): 57-68|1995|10.1080/07060669509500720
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82944|A||Chadd,H.E., I.R. Joint, N.H. Mann, and N.G. Carr|The Marine Picoplankter Synechococcus sp. WH 7803 Exhibits an Adaptive Response to Restricted Iron Availability|FEMS Microbiol. Ecol.21(2): 69-76|1996|10.1111/j.1574-6941.1996.tb00334.x
82945|T||Beauchamp,C.J., R.A.A. Morrall, and A.E. Slinkard|The Potential for Control of Ascochyta Blight of Lentil with Foliar-Applied Fungicides|Can. J. Plant Pathol.8(3): 254-259|1986|
82946|T||Lina,B.A.R., V.M.H. Hollanders, and M.H.M. Kuijpers|The Role of Alkalizing and Neutral Potassium Salts in Urinary Bladder Carcinogenesis in Rats|Carcinogenesis15(3): 523-527|1994|10.1093/carcin/15.3.523
82947|T||Anderson,R.L., F.R. Lefever, and J.K. Maurer|The Effect of Various Saccharin Forms on Gastro-Intestinal Tract, Urine and Bladder of Male Rats|Food Chem. Toxicol.26(8): 665-669|1988|10.1016/0278-6915(88)90065-8
82948|T||Kitasato,I., T. Niizato, and S. Inouye|Effect of Glucarolactam on Low-Dose Nephrotoxicities of Dibekacin and Gentamicin in Fischer Rats|Drugs Exp. Clin. Res.15(6-7): 249-259|1989|
82949|T||Murphy,A.S., W.R. Eisinger, J.E. Shaff, L.V. Kochian, and L. Taiz|Early Copper-Induced Leakage of K+ from Arabidopsis Seedlings is Mediated by Ion Channels and Coupled to Citrate Efflux|Plant Physiol.121(4): 1375-1382|1999|10.1104/pp.121.4.1375
82950|T||Shumake,S.A., and A.A. Hakim|Evaluating Norway Rat Response to Attractant and Repellent Odors to Improve Rodenticide Baiting Effectiveness|In: M.C.Brittingham, J.Kays, and R.McPeake (Eds.), Changes in Wildlife Damage Management for the 21st Century. Proceedings of the Ninth Wildlife Damage Conference, State College, PA:103-110|2001|
82951|T||Vizi,S., A. Bagosi, B. Krisztin-Peva, K. Gulya, and A. Mihaly|Repeated 4-Aminopyridine Seizures Reduce Parvalbumin Content in the Medial Mammillary Nucleus of the Rat Brain|Mol. Brain Res.131(1-2): 110-118|2004|10.1016/j.molbrainres.2004.08.022
82952|T||Oladiran,A.O.|The Effect of Fungicides and Insecticides Singly and in Combination on the Control of Brown Blotch, Pod Borer Infestation and Yields of Vigna unguiculata (L) Walp|Trop. Pest Manag.36(4): 397-402|1990|10.1080/09670879009371520
82953|T||Larsson,E.H., J.F. Bornman, and H. Asp|Influence of UV-B Radiation and Cd 2+ on Chlorophyll Fluorescence, Growth and Nutrient Content in Brassica napus|J. Exp. Bot.49(323): 1031-1039|1998|10.1093/jxb/49.323.1031
82954|AT||Rout,G.R., S. Samantaray, and P. Das|Differential Cadmium Tolerance of Mung Bean and Rice Genotypes in Hydroponic Culture|Acta Agric. Scand. Sect. B49(4): 234-241|2000|
82955|T||Padki,P.R., and A.V. Narasubhai|Changes in the Metabolic Fuel Reserves in the Fat Body of Fifth Instar Eri Silkworm, Philosamia ricini Larvae Following Malathion Treatment|J. Anim. Morphol. Physiol.40(1-2): 15-18|1993|
82956|A||Okamoto,M.|Inhibition of Lens Regeneration by Nickel Subsulfide in the Japanese Common Newt, Cynops pyrrhogaster|Dev. Growth Differ.30(1): 75-80|1987|10.1111/j.1440-169X.1988.00075.x
82957|A||Audesirk,G.|Effects of In Vitro and In Vivo Lead Exposure on Voltage-Dependent Calcium Channels in Central Neurons of Lymnaea stagnalis|Neurotoxicology8(4): 579-592|1987|
82958|T||Krzeslowska,M., and A. Wozny|Wall Thickenings - Moss Protonema Apical Cell Reaction to Lead|Biol. Plant. (Praha)43(1): 93-98|2000|10.1023/A:1026511215263
82959|T||Di Cagno,R., L. Guidi, L. De Gara, and G.F. Soldatini|Combined Cadmium and Ozone Treatments Affect Photosynthesis and Ascorbate-Dependent Defences in Sunflower|New Phytol.151(3): 627-636|2001|10.1046/j.1469-8137.2001.00217.x
82960|T||Zhang,F., W. Shi, Z. Jin, and Z. Shen|Response of Antioxidative Enzymes in Cucumber Chloroplasts to Cadmium Toxicity|J. Plant Nutr.26(9): 1779-1788|2003|10.1081/PLN-120023282
82961|T||Ferreira,R.R., R.F. Fornazier, A.P. Vitoria, P.J. Lea, and R.A. Azevedo|Changes in Antioxidant Enzyme Activities in Soybean Under Cadmium Stress|J. Plant Nutr.25(2): 327-342|2002|10.1081/PLN-100108839
82962|T||Singh,Z., L. Singh, C.L. Arora, and B.S. Dhillon|Effect of Cobalt, Cadmium, and Nickel as Inhibitors of Ethylene Biosynthesis on Floral Malformation, Yield, and Fruit Quality of Mango|J. Plant Nutr.17(10): 1659-1670|1994|10.1080/01904169409364838
82963|T||Luoranen,J., R. Rikala, and P.J. Aphalo|Effect of CCC and Daminozide on Growth of Silver Birch Container Seedlings During Three Years After Spraying|New For. 23(1): 71-80|2002|10.1023/A:1015645228689
82964|T||Villavaso,E.J., J.E. Mulrooney, T.L. Wagner, W.L. McGovern, and J.L. Willers|Boll Weevil Mortality and Malathion Residues on Cotton Leaves Treated by Eradication Mist Blowers|Southwest. Entomol.24(suppl.): 75-81|2001|
82965|T||Giridhar,P., E.P. Indu, D.V. Ramu, and G.A. Ravishankar|Effect of Silver Nitrate on In Vitro Shoot Growth of Coffee|Trop. Sci.43(3): 144-146|2003|10.1002/ts.106
82966|T||Polek,B., and Z. Obselkova|Cadmium Toxicity in Larvae Galleria mellonella Induced by Short Term Pretreatment|Biologia (Bratisl.)47(6): 445-451|1992|
82967|T||Weismann,L., and M. Rehakova|Toxic Influence of Cadmium on Insects|Ekologia (Bratisl.)13(1): 3-13|1994|
82969|T||Bekiaroglou,P., and S. Karataglis|The Effect of Lead and Zinc on Mentha spicata|J. Agron. Crop Sci.188(3): 201-205|2002|10.1046/j.1439-037X.2002.00559.x
82970|T||Miszalski,Z., E. Niewiadomska, A. Skoczowski, and B. Botton|Chromatographic Properties of the Cadmium Induced SOD Isoform in Rhizopogon roseolus|Acta Physiol. Plant.20(3): 229-233|1998|10.1007/s11738-998-0051-z
82971|A||Agrawal,U.|Effect of Sublethal Concentration of Zinc on Some Hematological Parameters of Freshwater Indian Catfish, Heteropneustes fossilis|J. Adv. Zool.15(2): 86-89|1994|
82972|T||Tweddell,R.J., R. Boulanger, and J. Arul|Effect of Chlorine Atmospheres on Sprouting and Development of dry Rot, Soft Rot and Silver Scurf on Potato Tubers|Postharvest Biol. Technol.28(3): 445-454|2003|10.1016/S0925-5214(02)00205-3
82973|A||Rema,L.P., and B. Philip|Effect of Heavy Metals on Some Metabolically Important Enzymes of Oreochromis mossambicus|Fish. Technol.36(1): 8-12|1999|
82974|A||Pretorius,P.J., P.W. Linder, J.L. Slabbert, and P.W. Wade|The Chemical Behaviour of Heavy Metals and Their Bioavailability and Toxicity to Organisms:  Implications for Environmental Quality Criteria|S. Afr. J. Sci.97(9-10): 431-434|2001|
82975|T||Szalai,G., T. Janda, A. Golan-Goldhirsh, and E. Paldi|Effect of Cd Treatment on Phytochelatin Synthesis in Maize|Acta Biol. Szeged.46(3-4): 121-122|2002|
82976|T||Pal,M., G. Szalai, E. Horvath, T. Janda, and E. Paldi|Effect of Salicylic Acid During Heavy Metal Stress|Acta Biol. Szeged.46(3-4): 119-120|2002|
82977|T||Lesko,K., Stefanovits-Banyai, and L. Simon-Sarkadi|Effect of Magnesium on Free Amino Acid and Polyamine Content in Wheat Seedling Exposed to Cadmium Stress|Acta Biol. Szeged.46(3-4): 109-111|2002|
82978|A||Spicer,J.I., D. Morritt, and L. Maltby|Effect of Water-Borne Zinc on Osmoregulation in the Freshwater Amphipod Gammarus pulex (L.) from Populations that Differ in Their Sensitivity to Metal Stress|Funct. Ecol.12(2): 242-247|1998|10.1046/j.1365-2435.1998.00177.x
82979|T||Leena,G.D., and M.P. Ramanujam|Effect of Pretreatment of Groundnut Seeds with Nickel on Germination and Seedling Growth|Adv. Plant Sci.5(2): 627-629|1992|
82980|T||Milone,M.T., C. Sgherri, H. Clijsters, and F. Navari-Izzo|Antioxidative Responses of Wheat Treated with Realistic Concentration of Cadmium|Environ. Exp. Bot.50(3): 265-276|2003|10.1016/S0098-8472(03)00037-6
82981|T||Jarvis,M.D., and D.W.M. Leung|Chelated Lead Transport in Pinus radiata:  An Ultrastructural Study|Environ. Exp. Bot.48(1): 21-32|2002|10.1016/S0098-8472(02)00005-9
82982|T||George,N.M.|Evaluation on Mutagenic Effects of the Three Heavy Metals on Vicia faba Plants|Cytologia65(1): 75-82|2000|10.1508/cytologia.65.75
82983|A||Samardakiewicz,S., and A. Wozny|The Distribution of Lead in Duckweed (Lemna minor L.) Root Tip|Plant Soil226(1): 107-111|2000|10.1023/A:1026440730839
82984|T||Wahid,A.|Analysis of Toxic and Osmotic Effects of Sodium Chloride on Leaf Growth and Economic Yield of Sugarcane|Bot. Bull. Acad. Sin. (Taipei)45(2): 133-141|2004|
82985|T||Stroinski,A., A. Wozny, and J. Floryszak-Wieczorek|Effects of Cadmium on the Host-Pathogen System  II.  Alterations of Potato Tuber and Phytophthora infestans Relations|Biochem. Physiol. Pflanzen (Multiple Languages)186(4): 229-238|1990|10.1016/S0015-3796(11)80077-6
82986|A||Maage,A., and K. Julshamn|Assessment of Zinc Status in Juvenile Atlantic Salmon (Salmo salar) by Measurement of Whole Body and Tissue Levels of Zinc|Aquaculture117(1-2): 179-191|1993|10.1016/0044-8486(93)90134-K
82987|A||Hosetti,B.B., K.M. Shivaraj, and H.S. Patil|Effect of Zinc on the Treatment of Domestic Sewage by Scenedesmus quadricauda|Environ. Ecol.8(4): 1220-1223|1990|
82988|A||Crawford,D.W., M.S. Lipsen, D.A. Purdie, M.C. Lohan, P.J. Statham, F.A. Whitney, J.N. Putland, W.K. Johnson, N. Sutherl|Influence of Zinc and Iron Enrichments on Phytoplankton Growth in the Northeastern Subarctic Pacific|Limnol. Oceanogr.48(4): 1583-1600|2003|10.4319/lo.2003.48.4.1583
82989|A||Ahuja,P., H. Mohapatra, R.K. Saxena, and R. Gupta|Reduced Uptake as a Mechanism of Zinc Tolerance in Oscillatoria anguistissima|Curr. Microbiol.43(5): 305-310|2001|10.1007/s002840010307
82990|T||Peri,S.I., N.E. Fink, and A. Salibian|Hematological Parameters in Bufo arenarum Injected with Sublethal Dose of Lead Acetate|Biomed. Environ. Sci.11(1): 70-74|1998|
82991|A||Crema,R., and M. Mauri|Short-Term Effects of Enhanced Zinc Concentrations on Population Parameters of Dinophilus gyrociliatus (Polychaeta)|Fresenius Environ. Bull.10(2): 212-216|2001|
82992|AT||Kral'ova,K., E. Masarovicova, and K. Gyoryova|Inhibition of Photosynthetic Electron Transport in Spinach Chloroplasts and Chlorella vulgaris and Reduction of Sinapis alba L. Growth by Some Zn(II) Compounds|Fresenius Environ. Bull.12(8): 857-860|2003|
82993|A||Bat,L., A. Gundogdu, M. Sezgin, M. Culha, G. Gonlugur, and M. Akbulut|Acute Toxicity of Zinc, Copper and Lead to Three Species of Marine Organisms from the Sinop Peninsula, Black Sea|Turk. J. Biol. (Turk Biol. Derg. )23(4): 537-544|1999|
82994|A||Bat,L., M. Sezgin, A. Gundogdu, and M. Culha|Toxicity of Zinc, Copper and Lead to Idotea baltica (Crustacea, Isopoda)|Turk. J. Biol. (Turk Biol. Derg. )23(4): 465-472|1999|
82995|A||Bajguz,A., and B. Godlewska-Zylkiewicz|Protective Role of 20-Hydroxyecdysone Against Lead Stress in Chlorella vulgaris Cultures|Phytochemistry65(6): 711-720|2004|10.1016/j.phytochem.2004.01.015
82996|T||Balestrasse,K.B., M.P. Benavides, S.M. Gallego, and M.L. Tomaro|Effect of Cadmium Stress on Nitrogen Metabolism in Nodules and Roots of Soybean Plants|Funct. Plant Biol.30(1): 57-64|2003|10.1071/FP02074
82997|T||Charron,C.S., and C.E. Sams|Inhibition of Pythium ultimum and Rhizoctonia solani by Shredded Leaves of Brassica Species|J. Am. Soc. Hortic. Sci.124(5): 462-467|1999|10.21273/JASHS.124.5.462
82998|T||Petho,G., and J. Szolcsanyi|Excitation of Central and Peripheral Terminals of Primary Afferent Neurons by Capsaicin In Vivo|Life Sci.58(3): |1996|
82999|T||Gandhi,M., R. Lal, A. Sankaranarayanan, C.K. Banerjee, and P.L. Sharma|Acute Toxicity Study of the Oil from Azadirachta indica Seed (Neem Oil)|J. Ethnopharmacol.23(1): 39-51|1988|10.1016/0378-8741(88)90113-4
83000|A||Gilly,W.F., and M.T. Lucero|Behavioral Responses to Chemical Stimulation of the Olfactory Organ in the Squid Loligo opalescens|J. Exp. Biol.162:209-229|1992|10.1242/jeb.162.1.209
83001|T||Salkoff,L., and L. Kelly|Aminopyridines Mimic Mutant Drosophila Developmental Defects|Comp. Biochem. Physiol. C Comp. Pharmacol.65(1): 59-63|1980|10.1016/0306-4492(80)90046-5
83002|A||dos Santos,A.F., P.A.L. Ferraz, F.C. De Abreu, E. Chiari, M.O.F. Goulart, and A.E.G. Sant'Ana|Molluscicidal and Trypanocidal Activities of Lapachol Derivatives|Planta Med.67(1): 92-93|2001|10.1055/s-2001-10877
83004|T||Reese,R.N., C.A. White, and D.R. Winge|Cadmium-Sulfide Crystallites in Cd-(gammaEC)nG Peptide Complexes from Tomato|Plant Physiol.98(1): 225-229|1992|10.1104/pp.98.1.225
83005|A||Kumar,S.|Morphological and Anatomical Alterations in Tadpole Larvae of Frog, Rana tigrina Daudin, 1802 due to Toxic Effect of Copper, Zinc and Lead|J. Adv. Zool.20(2): 90-94|1999|
83006|A||Borek,S., S. Samardakiewicz, and A. Wozny|The Effect of pH of Water on Lead Toxicity in Lemna minor L.|Biol. Bull. Poznan35(1): 19-24|1998|
83007|T||Lawrie,J., and V. Clay|Effects of Herbicide Mixtures and Additives on Rhododendron ponticum|Weed Res. (Multiple Languages)33(1): 25-34|1993|10.1111/j.1365-3180.1993.tb01914.x
83008|T||Wu,Q.T., Z. Xu, Q. Meng, E. Gerard, and J.L. Morel|Characterization of Cadmium Desorption in Soils and Its Relationship to Plant Uptake and Cadmium Leaching|Plant Soil258(1-2): 217-226|2004|10.1023/B:PLSO.0000016552.12451.95
83009|T||Gadallah,M.A.A.|Effects of Cadmium and Kinetin on Chlorophyll Content, Saccharides and dry Matter Accumulation in Sunflower Plants|Biol. Plant. (Praha)37(2): 233-240|1995|10.1007/BF02913219
83010|T||Schafer,H.J., A. Haag-Kerwer, and T. Rausch|cDNA Cloning and Expression Analysis of Genes Encoding GSH Synthesis in Roots of the Heavy-Metal Accumulator Brassica juncea L.: Evidence for Cd-Induction of a Putative Mitochondrial  gamma-glutamylcysteine Synthetase I|Plant Mol. Biol.37(1): 87-97|1998|10.1023/A:1005929022061
83011|T||Larbi,A., F. Morales, A. Abadia, Y. Gogorcena, J.J. Lucena, and J. Abadia|Effects of Cd and Pb in Sugar Beet Plants Grown in Nutrient Solution:  Induced Fe Deficiency and Growth Inhibition|Funct. Plant Biol.29(12): 1453-1464|2002|10.1071/FP02090
83012|T||Jiang,Y., and F. Grossmann|Cellular Damage to Phytophthora infestans in Tomato Leaves Treated with Oxadixyl:  An Ultrastructural Investigation|J. Phytopathol.132(2): 116-128|1991|10.1111/j.1439-0434.1991.tb00102.x
83013|T||Sharma,A., and P.P. Bakre|Effect of Calcium on Tissue Lead Concentration in House Sparrow (Passer domesticus)|J. Environ. Pollut.5(2): 123-126|1998|
83014|A||Shrivastava,S., and S.K. Jain|Zeolite Mediated Lead Accumulation in Fish Tissues|Himalayan J. Environ. Zool.14(1): 65-68|2000|
83015|A||Garnczarska,M., and L. Ratajczak|Metabolic Responses of Lemna minor to Lead Ions  II.  Induction of Antioxidant Enzymes in Roots|Acta Physiol. Plant.22(4): 429-432|2000|10.1007/s11738-000-0084-4
83016|A||Garnczarska,M., and L. Ratajczak|Metabolic Responses of Lemna minor to Lead Ions I.  Growth, Chlorophyll Level and Activity of Fermentative Enzymes|Acta Physiol. Plant.22(4): 423-427|2000|10.1007/s11738-000-0083-5
83017|A||Gosek,A., M. Kwiatkowska, and R. Duszynski|The Effect of Cadmium on Growth of Vegetative Thallus and Development of Generative Organs of Chara vulgaris L. After Short Time of Cultivation|Acta Soc. Bot. Pol.66(1): 67-72|1997|10.5586/asbp.1997.010
83018|T||Ishizaki,T., F. Komai, K. Msuda, and C. Megumi|Exogenous Ethylene Enhances Formation of Embryogenic Callus and Inhibits Embryogenesis in Cultures of Explants of Spinach Roots|J. Am. Soc. Hortic. Sci.125(1): 21-24|2000|10.21273/JASHS.125.1.21
83019|A||Barnhoorn,I., and J.H.J. Van Vuuren|Sublethal Effects of Manganese on the Haematology and Osmoregulation of Oreochromis mossambicus After Acute Exposure|Afr. J. Aquat. Sci.26(1): 1-7|2001|10.2989/16085910109503717
83020|A||Capelo,S., A.M. Mota, and M.L.S. Goncalves|Complexation of Lead with Unicellular Algae Exudates|Toxicol. Environ. Chem.69(3-4): 321-334|1999|10.1080/02772249909358714
83021|A||Mohapatra,B.C., and K. Rengarajan|Acute Toxicities of Copper Sulphate, Zinc Sulphate and Lead Nitrate to Liza parsia (Hamilton-Buchanan)|J. Mar. Biol. Assoc. India39(1-2): 69-78|1997|
83022|A||Sampath,K., R. James, and K.M.A. Ali|Effects of Copper and Zinc on Blood Parameters and Prediction of their Recovery in Oreochromis mossambicus (Pisces : Cichilidae)|Indian J. Fish.45(2): 129-139|1998|
83023|T||Lata,S.|Effect of Cadmium on Seedling Growth and Mobilization of Food Reserves in Cultivars of Blackgram|Seed Res.16(1): 108-111|1988|
83024|T||Stefanov,I., J. Frank, L. Gedamu, and S. Misra|Effect of Cadmium Treatment on the Expression of Chimeric Genes in Transgenic Tobacco Seedlings and Calli|Plant Cell Rep.16(5): 291-294|1997|10.1007/BF01088283
83025|T||Aphalo,P.J., R. Rikala, and R.A. Sanchez|Effect of CCC on the Morphology and Growth Potential of Containerised Silver Birch Seedlings|New For. 14(3): 167-177|1997|10.1023/A:1006568813442
83026|T||Wegerhoff,R., W. Rossler, M. Higgins, L.A. Oland, and L.P. Tolbert|Fenvalerate Treatment Affects Development of Olfactory Glomeruli in Manduca sexta|J. Comp. Neurol.430(4): 533-541|2001|10.1002/1096-9861(20010219)430:4<533::AID-CNE1048>3.0.CO;2-D
83027|T||Sharma,N., N. Kaur, and A.K. Gupta|Effect of Chlorocholine Chloride Sprays on the Carbohydrate Composition and Activities of Sucrose Metabolising Enzymes in Potato (Solanum tuberosum L.)|Plant Growth Regul.26(2): 97-103|1998|10.1023/A:1006087729077
83028|T||Jarvis,M.D., and D.W.M. Leung|Chelated Lead Transport in Chamaecytisus proliferus (L.f.) link ssp. Proliferus var. Palmensis (H. Christ):  An Ultrastructural Study|Plant Sci.161(3): 433-441|2001|10.1016/S0168-9452(01)00424-1
83029|T||Dahdoh,M.S.A., S. El-Demerdashe, M.S.A. Foda, and H.I. El-Kassas|Effect of Organic Matter Lead Interaction on Lead Status in Soils and Plants Grown in Calcareous Soil|Egypt. J. Soil Sci.36(1-4): 233-244|1996|
83030|T||Sharma,G.P., K.K. Ahluwalia, A. Chaudhry, and R.C. Sobti|The Effect of Lead Acetate on the Chromosomes of a Mosquito|CIS (Chromosome Information Service)0(45): 19-21|1988|
83031|T||Khan,N.K., M. Watanabe, and Y. Watanabe|Effect of Partial Urea Application on Nutrient Absorption by Hydroponically Grown Spinach (Spinacia oleracea L.)|Soil Sci. Plant Nutr.46(1): 199-208|2000|10.1080/00380768.2000.10408775
83032|A||Datta,S., and R.C. Das|Influence of Some Abiotic Environmental Factors on Acute Toxicity of Inorganic Lead to Cyprinus carpio var communis (Linn.) and Catla catla (Ham.) in Simulated Toxic Aquatic Environment|Toxicol. Environ. Chem.85(4-6): 203-219|2003|10.1080/02772240410001665517
83033|T||Whiteley,L., J. Gibbon, J. Hofgartner, C. Mason, and H. Willmetts|The Effects of Different Concentrations of Lead Salts on a Variety of Crop Plants|J. Biol. Educ.37(4): 190-195|2003|10.1080/00219266.2003.9655882
83035|A||Sahu,P.|A Comparative Study of the Effects of Inorganic Arsenic and Tributyltin Exposure on Development, Apoptosis Induction and Caspase-3 Activation in Early Developmental Stages of Zebrafish Embryos|Ph.D Thesis, University of Southern Mississippi, Hattiesburg, MS:114 p.|2004|
83036|A||Tierney,A.J., M.A. Greenlaw, K. Dams-O'Connor, S.D. Aig, and A.M. Perna|Behavioral Effects of Serotonin and Serotonin Agonists in Two Crayfish Species, Procambarus clarkii and Orconectes rusticus|Comp. Biochem. Physiol. A Mol. Integr. Physiol.139(4): 495-502|2004|10.1016/j.cbpb.2004.10.010
83037|T||Ignacimuthu,S.|Inhibitory Effects of Allelopathic Substances from Floral Parts of Delonix regia (Boj) Raf.|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.63(6): 537-544|1997|
83038|T||Mari,M., O. Leoni, R. Iori, and T. Cembali|Antifungal Vapour-Phase Activity of Allyl-Isothiocyanate Against Penicillium Expansum on Pears|Plant Pathol.51(2): 231-236|2002|10.1046/j.1365-3059.2002.00667.x
83039|T||Beers,E.H.|Effect of Acaricides on Predatory Mites, 1996|Arthropod Manag. Tests22:1-2|1997|
83040|T||Wong,J.Y.F., S.A. Ross, C. McColl, J.S. Massalas, E. Powney, D.I. Finkelstein, M. Clark, M.K. Horne, S.F. Berkovic, and|Proconvulsant-Induced Seizures in alpha4 Nicotinic Acetylcholine Receptor Subunit Knockout Mice|Neuropharmacology43(1): 55-64|2002|10.1016/S0028-3908(02)00067-9
83041|T||Denda,A., K. Sai, Q. Tang, T. Tsujiuchi, M. Tsutsumi, T. Amanuma, Y. Murata, D. Nakae, H. Maruyama, Y. Kurokawa, and Y.|Induction of 8-Hydroxydeoxyguanosine but not Initiation of Carcinogenesis by Redox Enzyme Modulations with or Without Menadione in Rat Liver|Carcinogenesis12(4): 719-726|1991|10.1093/carcin/12.4.719
83043|AT||Hoffman,D.J., P.H. Albers, M.J. Melancon, and A.K. Miles|Effects of the Mosquito Larvicide GB-1111 on Bird Eggs|Environ. Pollut.127:353-358|2004|10.1016/j.envpol.2003.08.021
83044|T||Isikber,A.A., S. Navarro, S. Finkelman, M. Rindner, and R. Dias|Influence of Temperature on Toxicity of Propylene Oxide at Low Pressure Against Tribolium castaneum|Phytoparasitica32(5): 451-458|2004|10.1007/BF02980439
83045|T||Ramakrishna,N., J. Lacey, and J.E. Smith|Effect of Surface Sterilization, Fumigation and gamma Irradiation on the Microflora and Germination of Barley Seeds|Int. J. Food Microbiol.13(1): 47-54|1991|10.1016/0168-1605(91)90135-C
83046|T||Mari,M., R. Iori, O. Leoni, and A. Marchi|Bioassays of Glucosinolate-Derived Isothiocyanates Against Postharvest Pear Pathogens|Plant Pathol.45(4): 753-760|1996|10.1046/j.1365-3059.1996.d01-5.x
83047|T||Venturini,L., and S.B. Sparber|Salicylate and Cocaine:  Interactive Toxicity During Chicken Mid-embryogenesis|Free Radic. Biol. Med.30(2): 198-207|2001|10.1016/S0891-5849(00)00455-X
83048|T||Silva,D.M., and L. Sodek|Effect of Aluminum on Soybean Nodulation and Nodule Activity in a Vertical Split-Root System|J. Plant Nutr.20(7-8): 963-974|1997|10.1080/01904169709365309
83049|T||Hensley,D.D.|Sinigrin Content and Allyl Isothiocyanate Concentration of Whole Ground Mustard Meal and the Ability of Allyl Isothiocyanate to Inhibit Growth of Phytophthora parasitica var. nicotianae, Meloidogyne incognita and Possib|Ph.D.Thesis, University of Tennessee, Knoxville, TN:167 p.|2005|
83050|T||Inglis,G.D., M.S. Goettel, and L. Sigler|Analysis of Alfalfa Leafcutter Bee (Megachile rotundata) Provisions Pre- and Post-Sterilization with Propylene Oxide|Apidologie23(2): 119-132|1992|10.1051/apido:19920204
83052|T||Barkosky,R.R., and F.A. Einhellig|Effects of Salicylic Acid on Plant-Water Relationships|J. Chem. Ecol.19(2): 237-247|1993|10.1007/BF00993692
83054|T||Millhorn,D.E., F.L. Eldridge, and T.G. Waldrop|Effects of Salicylate and 2,4-Dinitrophenol on Respiration and Metabolism|J. Appl. Physiol.53(4): 925-929|1982|10.1152/jappl.1982.53.4.925
83055|T||Moe,S.J., N.C. Stenseth, and R.H. Smith|Effects of a Toxicant on Population Growth Rates:  Sublethal and Delayed Responses in Blowfly Populations|Funct. Ecol.15(6): 712-721|2001|10.1046/j.0269-8463.2001.00575.x
83056|AT||Saxena,A., D.K. Saxena, and H.S. Srivastava|The Influence of Glutathione on Physiological Effects of Lead and Its Accumulation in Moss Sphagnum squarrosum|Water Air Soil Pollut.143(1-4): 351-361|2003|10.1023/A:1022856807592
83057|AT||Mishra,A., and M.A. Choudhuri|Amelioration of Lead and Mercury Effects on Germination and Rice Seedling Growth by Antioxidants|Biol. Plant. (Praha)41(3): 469-473|1998|10.1023/A:1001871015773
83058|A||Schor-Fumbarov,T., Z. Keilin, and E. Tel-Or|Characterization of Cadmium Uptake by the Water Lily Nymphaea aurora|Int. J. Phytoremediat.5(2): 169-179|2003|10.1080/713610178
83059|A||Schreinemakers,W.A.C.|The Interaction Between Cd-Absorption and Cd-Compartmentation in Wolffiella gladiata|Acta Bot. Neerl.35(1): 23-34|1986|10.1111/j.1438-8677.1986.tb00443.x
83060|T||Bhat,G., and B. Maiti|Effects of Nitrofurantoin and Cadmium Chloride on Spermatogenetic Activity in an Avian Pest, the Yellow-Throated Sparrow (Petronia xanthocollis Burton)|J. Yamashina Inst. Ornithol.25(1): 62-67|1993|10.3312/jyio1952.25.62
83061|T||Fornazier,R.F., R.R. Ferreira, A.P. Vitoria, S.M.G. Molina, P.J. Lea, and R.A. Azevedo|Effects of Cadmium on Antioxidant Enzyme Activities in Sugar Cane|Biol. Plant. (Praha)45(1): 91-97|2002|10.1023/A:1015100624229
83062|T||Talanova,V.V., A.F. Titov, and N.P. Boeva|Effect of Increasing Concentrations of Lead and Cadmium on Cucumber Seedlings|Biol. Plant. (Praha)43(3): 441-444|2000|10.1023/A:1026735603890
83063|T||Jemal,F., L. Didierjean, R. Ghrir, M.H. Ghorbal, and G. Burkard|Characterization of Cadmium Binding Peptides from Pepper (Capsicum annuum)|Plant Sci.137(2): 143-154|1998|10.1016/S0168-9452(98)00120-4
83064|T||Liu,D., and W. Jiang|Effects of Al3+ on Root Growth, Cell Division, and Nucleoli in Root Tip Cells of Zea mays L.|Isr. J. Plant Sci.49(1): 21-26|2001|10.1560/60T3-4W31-7QEF-EMYQ
83065|T||Ahmad,A., G. Abraham, and M.Z. Abdin|Biochemical Evaluation of Sulfur and Nitrogen Assimilation Potential of Mustard (Brassica juncea L. Czern. & Coss.) Under Application of Slow-Release Sulfur Fertilizer|Appl. Biochem. Biotechnol.96(1-3): 167-172|2001|10.1385/ABAB:96:1-3:167
83066|T||Krupa,Z., G. Oquist, and N.P.A. Huner|The Effects of Cadmium on Photosynthesis of Phaseolus vulgaris: A Fluorescence Analysis|Physiol. Plant. (Multiple Languages)88(4): 626-630|1993|10.1111/j.1399-3054.1993.tb01381.x
83067|T||Arisi,A.C.M., B. Mocquot, A. Lagriffoul, M. Mench, C.H. Foyer, and L. Jouanin|Responses to Cadmium in Leaves of Transformed Poplars Overexpressing  gamma-Glutamylcysteine Synthetase|Physiol. Plant. (Multiple Languages)109(2): 143-149|2000|10.1034/j.1399-3054.2000.100206.x
83068|T||Vitoria,A.P., P.J. Lea, and R.A. Azevedo|Antioxidant Enzymes Responses to Cadmium in Radish Tissues|Phytochemistry57(5): 701-710|2001|10.1016/S0031-9422(01)00130-3
83069|A||Nakamura,S., C. Ohmi, and M.K. Kojima|Effect of Zinc Ion on Formation of the Fertilization Membrane in Sea Urchin Eggs|Zool. Sci.6(2): 329-333|1989|
83070|T||Rizki,M., S. Amrani, A. Creus, N. Xamena, and R. Marcos|Antigenotoxic Properties of Selenium: Studies in the Wing Spot Test in Drosophila|Environ. Mol. Mutagen.37(1): 70-75|2001|10.1002/1098-2280(2001)37:1<70::AID-EM1007>3.0.CO;2-F
83071|T||Whiting,S.N., J.R. Leake, S.P. McGrath, and A.J.M. Baker|Positive Responses to Zn and Cd by Roots of the Zn and Cd Hyperaccumulator Thlaspi caerulescens|New Phytol.145(2): 199-210|2000|10.1046/j.1469-8137.2000.00570.x
83072|T||Liu,J., K. Li, J. Xu, J. Liang, X. Lu, J. Yang, and Q. Zhu|Interaction of Cd and Five Mineral Nutrients for Uptake and Accumulation in Different Rice Cultivars and Genotypes|Field Crops Res.83(3): 271-281|2003|10.1016/S0378-4290(03)00077-7
83073|T||Gianquinto,G., A. Abu-Rayyan, L. Di Tola, D. Piccotino, and B. Pezzarossa|Interaction Effects of Phosphorus and Zinc on Photosynthesis, Growth and Yield of Dwarf Bean Grown in Two Environments|Plant Soil220(1-2): 219-228|2000|10.1023/A:1004705008101
83074|A||Lakshmi,P.S., and Y.P. Rao|Effect of Temperature, Salinity and Size on Cadmium Toxicity in an Intertidal Gastropoda, Turbo intercostalis (Gastropoda-Turbinidae) from Visakhapatnam, East Coast of India|Indian J. Mar. Sci.29(4): 324-328|2000|
83075|A||Kozuch,J., M. Radlowska, and J. Pempkowiak|Humic Substances of Different Origin Influence Accumulation of Cadmium by the Mussel Mutilus edulis trossulus to a Varying Degree|In: E.Ojaveer and T.Estonia (Eds.), Proc.14th Baltic Mar.Biol.Symp., Biodivers.in the Baltic Ecosyst.Littoral Processes, Anaerobic Processes, Aug.5-8, 1995, Academy Publ.Paernu:80-85|1997|
83076|A||Fournier,E., C. Adam, J.C. Massabuau, and J. Garnier-Laplace|Bioaccumulation of Waterborne Selenium in the Asiatic Clam Corbicula fluminea: Influence of Feeding-Induced Ventilatory Activity and Selenium Species|Aquat. Toxicol.72(3): 251-260|2005|10.1016/j.aquatox.2005.01.002
83077|A||Brix,K.V., D.K. DeForest, R.D. Cardwell, and W.J. Adams|Derivation of a Chronic Site-Specific Water Quality Standard for Selenium in the Great Salt Lake, Utah, USA|Environ. Toxicol. Chem.23(3): 606-612|2004|10.1897/02-623
83079|A||Rainbow,P.S., T.Y.T. Ng, D. Shi, and W.X. Wang|Acute Dietary Pre-Exposure and Trace Metal Bioavailability to the Barnacle Balanus amphitrite|J. Exp. Mar. Biol. Ecol.311(2): 315-337|2004|10.1016/j.jembe.2004.05.016
83080|A||Ng,T.Y.T., and W.X. Wang|Dynamics of Metal Subcellular Distribution and Its Relationship with Metal Uptake in Marine Mussels|Environ. Toxicol. Chem.24(9): 2365-2372|2005|10.1897/04-637R.1
83081|A||Morgan,T.P., C.M. Guadagnolo, M. Grosell, and C.M. Wood|Effects of Water Hardness on Toxicological Responses to Chronic Waterborne Silver Exposure in Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.24(7): 1642-1647|2005|10.1897/04-056R.1
83082|A||Morgan,T.P., C.M. Guadagnolo, M. Grosell, and C.M. Wood|Effects of Water Hardness on the Physiological Responses to Chronic Waterborne Silver Exposure in Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.74(4): 333-350|2005|10.1016/j.aquatox.2005.05.017
83083|A||Lee,D.Y., C. Fortin, and P.G.C. Campbell|Contrasting Effects of Chloride on the Toxicity of Silver to Two Green Algae, Pseudokirchneriella subcapitata and Chlamydomonas reinhardtii|Aquat. Toxicol.75(2): 127-135|2005|10.1016/j.aquatox.2005.06.011
83084|A||Glover,C.N., and C.M. Wood|Accumulation and Elimination of Silver in Daphnia magna and the Effect of Natural Organic Matter|Aquat. Toxicol.73(4): 406-417|2005|10.1016/j.aquatox.2005.05.002
83085|A||Bielmyer,G.K., K.V. Brix, T.R. Capo, and M. Grosell|The Effects of Metals on Embryo-Larval and Adult Life Stages of the Sea Urchin, Diadema antillarum|Aquat. Toxicol.74(3): 254-263|2005|10.1016/j.aquatox.2005.05.016
83086|A||Bertram,B.O.B., and R.C. Playle|Effects of Waterborne Complexing Agents on Silver Uptake and Depuration in Rainbow Trout|J. Fish Biol.66(1): 182-197|2005|10.1111/j.0022-1112.2005.00591.x
83087|AT||Yang,Y.Y., J.Y. Jung, W.Y. Song, H.S. Suh, and Y. Lee|Identification of Rice Varieties with high Tolerance or Sensitivity to Lead and Characterization of the Mechanism of Tolerance|Plant Physiol.124(3): 1019-1026|2000|10.1104/pp.124.3.1019
83088|T||Kupper,H., E. Lombi, F.J. Zhao, G. Wieshammer, and S.P. McGrath|Cellular Compartmentation of Nickel in the Hyperaccumulators Alyssum lesbiacum, Alyssum bertolonii and Thlaspi goesingense|J. Exp. Bot.52(365): 2291-2300|2001|10.1093/jexbot/52.365.2291
83089|T||Zhao,F.J., R.E. Hamon, E. Lombi, M.J. McLaughlin, and S.P. McGrath|Characteristics of Cadmium Uptake in Two Contrasting Ecotypes of the Hyperaccumulator Thlaspi caerulescens|J. Exp. Bot.53(368): 535-543|2002|10.1093/jexbot/53.368.535
83090|T||Gadd,G.M., L. Ramsay, J.W. Crawford, and K. Ritz|Nutritional Influence on Fungal Colony Growth and Biomass Distribution in Response to Toxic Metals|FEMS Microbiol. Lett.204(2): 311-316|2001|10.1111/j.1574-6968.2001.tb10903.x
83091|T||Desjardins,A.E., R.D. Plattner, and M.N. Beremand|Ancymidol Blocks Trichothecene Biosynthesis and Leads to Accumulation of Trichodiene in Fusarium sporotrichioides and Gibberella pulicaris|Appl. Environ. Microbiol.53(8): 1860-1865|1987|10.1128/aem.53.8.1860-1865.1987
83092|T||Navabpour,S., K. Morris, R. Allen, E. Harrison, S. Mackerness, and V. Buchanan-Wollaston|Expression of Senescence-Enhanced Genes in Response to Oxidative Stress|J. Exp. Bot.54(391): 2285-2292|2003|10.1093/jxb/erg267
83093|A||Grout,J.A., and C.D. Levings|Effects of Acid Mine Drainage from an Abandoned Copper Mine, Britannia Mines, Howe Sound, British Columbia, Canada, on Transplanted Blue Mussels (Mytilus edulis)|Mar. Environ. Res.51(3): 265-288|2001|10.1016/S0141-1136(00)00104-5
83095|A||Hook,S.E., and R.F. Lee|Interactive Effects of UV, Benzo(a)Pyrene, and Cadmium on DNA Damage and Repair in Embryos of the Grass Shrimp Paleomonetes pugio|Mar. Environ. Res.58(2-5): 735-739|2004|10.1016/j.marenvres.2004.03.087
83096|A||Gupta,P., and P. Chandra|Response of Cadmium to Ceratophyllum demersum L., a Rootless Submerged Plant|Waste Manag. (Elmsford)16(4): 335-337|1996|10.1016/S0956-053X(96)00053-0
83097|T||Klang-Westin,E., and K. Perttu|Effects of Nutrient Supply and Soil Cadmium Concentration on Cadmium Removal by Willow|Biomass Bioenergy23(6): 415-426|2002|10.1016/S0961-9534(02)00068-5
83098|T||Rivera-Becerril,F., C. Calantzis, K. Turnau, J.P. Caussanel, A.A. Belimov, S. Gianinazzi, R.J. Strasser, and V. Gianina|Cadmium Accumulation and Buffering of Cadmium-Induced Stress by Arbuscular mycorrhiza in Three Pisum sativum L. Genotypes|J. Exp. Bot.53(371): 1177-1185|2002|10.1093/jexbot/53.371.1177
83099|A||El-Shafai,S.A., F.A. El-Gohary, F.A. Nasr, N.P. Van der Steen, and H.J. Gijzen|Chronic Ammonia Toxicity to Duckweed-Fed Tilapia (Oreochromis niloticus)|Aquaculture232(1-4): 117-127|2004|10.1016/S0044-8486(03)00516-7
83100|T||Ciecko,Z., M. Wyszkowski, W. Krajewski, and J. Zabielska|Effect of Organic Matter and Liming on the Reduction of Cadmium Uptake from Soil by Triticale and Spring Oilseed Rape|Sci. Total Environ.281(1-3): 37-45|2001|10.1016/S0048-9697(01)00800-2
83101|AT||Aslan,M., M.Y. Unlu, N. Turkmen, and Y.Z. Yilmaz|Sorption of Cadmium and Effects on Growth, Protein Content, and Photosynthetic Pigment Composition of Nasturtium officinale R. Br. and Mentha aquatica L.|Bull. Environ. Contam. Toxicol.71(2): 323-329|2003|10.1007/s00128-003-0167-1
83102|A||Xu,Y., and W.X. Wang|Silver Uptake by a Marine Diatom and Its Transfer to the Coastal Copepod Acartia spinicauda|Environ. Toxicol. Chem.23(3): 682-690|2004|10.1002/etc.5620230320
83103|A||Rodgers,J.H.,Jr., E. Deaver, and P. Rogers|Evaluations of the Bioavailability and Toxicity of Silver in Sediment|In: Proc. 2nd Argentum Int. Conf. on the Transport, Fate, and Effects of Silver in the Environment, Sept. 11-14, Madison, WI:131-137|1994|
83104|A||Brauner,C.J., and C.M. Wood|Ionoregulatory Development and the Effect of Chronic Silver Exposure on Growth, Survival, and Sublethal Indicators of Toxicity in Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.172(2): 153-162|2002|10.1007/s00360-001-0238-8
83105|A||Hogstrand,C., E.A. Ferguson, F. Galvez, J.R. Shaw, N.A. Webb, and C.M. Wood|Physiology of Acute Silver Toxicity in the Starry Flounder (Platichthys stellatus) in Seawater|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.169(7): 461-473|1999|10.1007/s003600050243
83107|A||Long,A., and W.X. Wang|Metallothionein Induction and Bioaccumulation Kinetics of Cd and Ag in the Marine Fish Terapon jarbua Challenged with Dietary or Waterborne Ag and Cu|Mar. Ecol. Prog. Ser.291:215-226|2005|10.3354/meps291215
83108|A||Morgan,T.P., M. Grosell, K.M. Gilmour, R.C. Playle, and C.M. Wood|Time Course Analysis of the Mechanism by Which Silver Inhibits Active Na+ and Cl- Uptake in Gills of Rainbow Trout|Am. J. Physiol., Regul. Integr. Comp. Physiol.287(1): R234 - R242|2004|10.1152/ajpregu.00448.2003
83109|T||Al-Hakimi,A.M.A., and A.M. Hamada|Counteraction of Salinity Stress on Wheat Plants by Grain Soaking in Ascorbic Acid, Thiamin or Sodium Salicylate|Biol. Plant. (Praha)44(2): 253-261|2001|10.1023/A:1010255526903
83110|T||Zhao,X.F., J.X. Wang, X.L. Xu, Z.M. Li, and C.J. Kang|Molecular Cloning and Expression Patterns of the Molt-Regulating Transcription Factor HHR3 from Helicoverpa armigera|Insect Mol. Biol.13(4): 407-412|2004|10.1111/j.0962-1075.2004.00499.x
83111|A||La Point,T.W., G.P. Cobb, S.J. Klaine, T. Bills, B. Forsythe, R. Jeffers, V.C. Waldrop, and M. Wenholz|Water Quality Components Affecting Silver Toxicity in Daphnia magna and Pimephales promelas|In: 4th Int.Conf.Proc.: Transport, Fate and Effects of Silver in the Environment, Aug.25-28, 1996, Madison, WI:121-124|1996|
83112|A||Webb,N.A., I.J. Morgan, and C.M. Wood|Physiological Analysis of the Stress Response Associated with Acute Silver Exposure in Rainbow Trout (Oncorhynchus mykiss)|In: 4th Int.Conf.Proc.: Transport, Fate and Effects of Silver in the Environment, Aug.25-28, 1996, Madison, WI:161-164|1996|
83113|A||Galvez,F., C. Hogstrand, J. McGeer, D. Bureau, and C.M. Wood|The Physiological Effects of Dietary Silver Exposure In Rainbow Trout (Oncorhynchus mykiss)|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:165-174|1996|
83116|A||De Boeck,G., M. Grosell, and C.M. Wood|Sensitivity of the Spiny Dogfish (Squalus acanthias) to Waterborne Silver|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:421-428|1997|
83117|A||Shaw,J.R., C. Hogstrand, M.D. Kercher, and W.J. Birge|The Acute and Chronic Toxicity of Silver to Marine Fish|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:317-324|1997|
83118|A||Fisher,N.S., and S.E. Hook|Silver Accumulation and Toxicity in Marine and Freshwater Zooplankton|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:265-273|1997|
83119|T||American Petroleum Institute|Carcinogenicity of New and Used Lubricants with Cover Letter Dated 111483|EPA/OTS Doc.#FYI-AX-1183-0141:172 p.|1983|
83121|T||American Petroleum Institute|Carcinogenicity of New and Used Lubricants with Cover Letter Dated 072783|EPA/OTS Doc.#FYI-AX-0883-0141:154 p.|1983|
83122|T||American Petroleum Institute|Carcinogenicity of New and Used Lubricants with Cover Letter Dated 111882|EPA/OTS Doc.#FYI-AX-1182-0141:128 p.|1982|
83123|T||Saenz-de-Cabezon Irigaray,F.J., V. Marco, F.G. Zalom, and I. Perez-Moreno|Effects of Methoxyfenozide on Lobesia botrana Den & Schiff (Lepidoptera: Tortricidae) Egg, Larval and Adult Stages|Pest Manag. Sci.61(11): 1133-1137|2005|10.1002/ps.1082
83124|T||Chalfant,R.B.|Control of Lepidopterous Pests, 1991|Arthropod Manag. Tests22:88-|1997|10.1093/amt/22.1.88
83126|A||Shell Oil Co.|Biodegradability, BOD Inhibition and Acute Toxicity-to-Fish of Chemical Compounds with Cover Letter|EPA/OTS Doc.#878210113:316 p.|1982|
83127|AT||Chemical Manufacturers Association|Letter from Chemical Manufacturers Association to U.S. EPA Regarding Information on the Enclosed Final Reports on 2-Mercaptobenzothothiazole with Attachments|Chemical Manufacturers Association, Washington, DC:263 p.|1989|
83128|A||Levine,S.L.|Induction and Inhibition of Cytochrome P450 Expression in Piscine Species: Implications for Biomarker Determination and Toxicant Interactions|Ph.D.Thesis, Miami University, Oxford, OH58(11): 173 p.|1997|
83129|T||Andric,S.A., T.S. Kostic, S.M. Dragisic, N.L. Andric, S.S. Stojilkovic, and R.Z. Kovacevic|Acute Effects of Polychlorinated Biphenyl-Containing and -Free Transformer Fluids on Rat Testicular Steroidogenesis|Environ. Health Perspect.108(10): 955-959|2000|10.1289/ehp.00108955
83130|T||Yeh,C.M., W.C. Hung, and H.J. Huang|Copper Treatment Activates Mitogen-Activated Protein Kinase Signalling in Rice|Physiol. Plant. (Multiple Languages)119(3): 392-399|2003|10.1034/j.1399-3054.2003.00191.x
83131|A||Carpenter,C.B.|Population Dynamics and the Effect of Inorganic Ions on Certain Microcrustacea|Ph.D Thesis, University of Cincinnati, Cincinnati, OH:108 p.|1972|
83132|A||Bergen,B.J.|The Relationship Between Lipid Class Composition and the Bioaccumulation of Polychlorinated Biphenyls in Marine Mussels|Ph.D.Thesis, Univ.of Rhode Island, Kingston, RI:161 p.|1999|
83133|T||Guthrie,J.|Histological Effects of Intra-Testicular Injections of Cadmium Chloride in Domestic Fowl|Br. J. Cancer18:255-260|1964|10.1038/bjc.1964.29
83135|T||Davies,N.A., M.E. Hodson, and S. Black|The Influence of Time on Lead Toxicity and Bioaccumulation Determined by the OECD Earthworm Toxicity Test|Environ. Pollut.121(1): 55-61|2003|10.1016/S0269-7491(02)00207-5
83137|T||Gao,D., J. Kasten-Jolly, and D.A. Lawrence|The Paradoxical Effects of Lead in Interferon-Gamma Knockout BALB/c Mice|Toxicol. Sci.89(2): 444-453|2006|10.1093/toxsci/kfj043
83138|A||Volz,D.C., D.E. Hinton, J.M. Law, and S.W. Kullman|Dynamic Gene Expression Changes Precede Dioxin-Induced Liver Pathogenesis in Medaka Fish|Toxicol. Sci.89(2): 524-534|2006|10.1093/toxsci/kfj033
83139|T||Curran,C.P., K.A. Miller, T.P. Dalton, C.V. Vorhees, M.L. Miller, H.G. Shertzer, and D.W. Nebert|Genetic Differences in Lethality of Newborn Mice Treated In Utero with Coplanar Versus Non-Coplanar Hexabromobiphenyl|Toxicol. Sci.89(2): 454-464|2006|10.1093/toxsci/kfj048
83140|T||Lu,Y., and A.I. Cederbaum|Cisplatin-Induced Hepatotoxicity is Enhanced by Elevated Expression of Cytochrome P450 2E1|Toxicol. Sci.89(2): 515-523|2006|10.1093/toxsci/kfj031
83141|T||Weber,N.M., H.R. Sawyer, M.E. Legare, and D.N.R. Veeramachaneni|Sub-Chronic Exposure to Dibromoacetic Acid, a Water Disinfection By-Product, does not Affect Gametogenic Potential in Mice|Toxicol. Sci.89(1): 325-330|2006|10.1093/toxsci/kfj015
83142|T||Wade,M.G., R. Poon, N. Li, A. Lee, A. McMahon, and I. Chu|Testicular Toxicity of Candidate Fuel Additive 1,6-Dimethoxyhexane:  Comparison with Several Similar Aliphatic Ethers|Toxicol. Sci.89(1): 304-313|2006|10.1093/toxsci/kfj002
83143|AT||Balk,F., and R.A. Ford|Environmental Risk Assessment for the Polycyclic Musks, AHTN and HHCB   II. Effect Assessment and Risk Characterisation|Toxicol. Lett.111(1/2): 81-94|1999|10.1016/S0378-4274(99)00170-8
83145|T||Affleck,J.G., K. Neumann, L. Wong, and V.K. Walker|The Effects of Methotrexate on Drosophila Development, Female Fecundity, and Gene Expression|Toxicol. Sci.89(2): 495-503|2006|10.1093/toxsci/kfj036
83146|T||Biegel,L.B., J.C. Cook, M.E. Hurtt, and J.C. O'Connor|Effects of 17 beta-Estradiol on Serum Hormone Concentrations and Estrous Cycle in Female Crl:CD BR Rats:  Effects on Parental and First Generation Rats|Toxicol. Sci.44:143-154|1998|
83147|T||Miller,T.E., K.A. Golemboski, R.S. Ha, T. Bunn, F.S. Sanders, and R.R. Dietert|Developmental Exposure to Lead Causes Persistent Immunotoxicity in Fischer 344 Rats|Toxicol. Sci.42(2): 129-135|1998|10.1093/toxsci/42.2.129
83149|T||Wolansky,M.J., C. Gennings, and K.M. Crofton|Relative Potencies for Acute Effects of Pyrethroids on Motor Function in Rats|Toxicol. Sci.89(1): 271-277|2006|10.1093/toxsci/kfj020
83150|T||Voss,K.A., J. Liu, S.P. Anderson, C. Dunn, J.D. Miller, J.R. Owen, R.T. Riley, C.W. Bacon, and J.C. Corton|Toxic Effects of Fumonisin in Mouse Liver are Independent of the Peroxisome Proliferator-Activated Receptor alpha|Toxicol. Sci.89(1): 108-119|2006|10.1093/toxsci/kfj019
83151|T||Valentine,H.L., K. Amarnath, V. Amarnath, and W.M. Valentine|Dietary Copper Enhances the Peripheral Myelinopathy Produced by Oral Pyrrolidine Dithiocarbamate|Toxicol. Sci.89(2): 485-494|2006|10.1093/toxsci/kfj047
83153|T||LoPachin,R.M., D.S. Barber, D. He, and S. Das|Acrylamide Inhibits Dopamine Uptake in Rat Striatal Synaptic Vesicles|Toxicol. Sci.89(1): 224-234|2006|10.1093/toxsci/kfj005
83154|T||Davies,N.A., M.E. Hodson, and S. Black|Is the OECD Acute Worm Toxicity Test Environmentally Relevant? The Effect of Mineral Form on Calculated Lead Toxicity|Environ. Pollut.121(1): 49-54|2003|10.1016/S0269-7491(02)00206-3
83155|T||Avti,P.K., S. Kumar, C.M. Pathak, K. Vaiphei, and K.L. Khanduja|Smokeless Tobacco Impairs the Antioxidant Defense in Liver, Lung, and Kidney of Rats|Toxicol. Sci.89(2): 547-553|2006|10.1093/toxsci/kfj041
83156|T||Ramaiah,S.K., T.J. Bucci, A. Warbritton, M.G. Soni, and H.M. Mehendale|Temporal Changes in Tissue Repair Permit Survival of Diet-Restricted Rats from an Acute Lethal Dose of Thioacetamide|Toxicol. Sci.45(2): 233-241|1998|10.1093/toxsci/45.2.233
83157|T||Giusi,G., R.M. Facciolo, M. Canonaco, E. Alleva, V. Belloni, F. Dessi'-Fulgheri, and D. Santucci|The Endocrine Disruptor Atrazine Accounts for a Dimorphic Somatostatinergic Neuronal Expression Pattern in Mice|Toxicol. Sci.89(1): 257-264|2006|10.1093/toxsci/kfj012
83158|T||Ahmad,A.S., S. Saleem, M. Ahmad, and S. Dore|Prostaglandin EP1 Receptor Contributes to Excitotoxicity and Focal Ischemic Brain Damage|Toxicol. Sci.89(1): 265-270|2006|10.1093/toxsci/kfj022
83159|T||Mylchreest,E., R.C. Cattley, and P.M.D. Foster|Male Reproductive Tract Malformations in Rats Following Gestational and Lactational Exposure to Di(n-Butyl) Phthalate:  An Antiandrogenic Mechanism?|Toxicol. Sci.43(1): 47-60|1998|10.1093/toxsci/43.1.47
83160|A||Hockett,D., P. Ingram, and A. LeFurgey|Strontium and Manganese Uptake in the Barnacle Shell:  Electron Probe Microanalysis Imaging to Attain Fine Temporal Resolution of Biomineralization Activity|Mar. Environ. Res.43(3): 131-143|1997|10.1016/0141-1136(96)00081-5
83161|T||Bucher,J.R., J.K. Haseman, R.A. Herbert, M. Hejtmancik, and M.J. Ryan|Toxicity and Carcinogenicity Studies of Oxazepam in the Fischer 344 Rat|Toxicol. Sci.42(1): 1-12|1998|10.1093/toxsci/42.1.1
83162|A||E.G. and G. Bionomics|Acute and Chronic Toxicity of Pentachloroethane to Mysid Shrimp (Mysidopsis bahia)|Report No. BP-79-1-3, EG&G Bionomics, Marine Research Laboratory, Pensacola, FL:24 p.|1972|
83166|A||Fediuc,E., and L. Erdei|Physiological and Biochemical Aspects of Cadmium Toxicity and Protective Mechanisms Induced in Phragmites australis and Typha latifolia|J. Plant Physiol.159(3): 265-271|2002|10.1078/0176-1617-00639
83167|A||Abbasi,S.A., and R. Soni|Relative Toxicity of Seven Heavy Metals with Respect to Impact Towards Larvae of Amphibian Rana tigrina|Int. J. Environ. Stud.35:121-122|1989|10.1080/00207238908710556
83168|A||Bandyopadhyay,M.P., and A.K. Aditya|Chemical Induced Changes in Percentage and Sizes of Diameter in the Ovarian Oocytes of Anabas testudineus (Bloch)|J. Freshw. Biol.10(1-2): 75-82|1998|
83169|A||Bandyopadhyay,M.P., and A.K. Aditya|Determination of 96 H Median Tolerance Limit (TLM) of Anabas testudineus for Cadmium Chloride, Mercuric Chloride and Metacid-50|J. Ecotoxicol. Environ. Monit.9(4): 237-242|1999|
83170|A||Bandyopadhyay,M.P., A.K. Aditya, and S. Mitra|Impact of Chronic Exposure of Cadmium Chloride on Skeletal Structures and Mineral Content in Anabas testudineus (Bloch)|J. Ecotoxicol. Environ. Monit.8(3-4): 269-274|1998|
83171|A||Bittner,M.A.|The Effect of Dissolved Natural Organics on the Chronic Toxicity of Cadmium to Mysidopsis bahia molenock (Crustacea:  Mysidacea)|Ph.D.Thesis, George Mason University, Fairfax, VA:210 p.|1994|
83172|A||Boisson,F., F. Goudard, J.P. Durand, C. Barbot, J. Pieri, J.C. Amiard, and S.W. Fowler|Comparative Radiotracer Study of Cadmium Uptake, Storage, Detoxification and Depuration in the Oyster Crassostrea gigas:  Potential Adaptive Mechanisms|Mar. Ecol. Prog. Ser.254:177-186|2003|10.3354/meps254177
83173|A||Bondgaard,M., U. Norum, and P. Bjerregaard|Cadmium Accumulation in the Female Shore Crab Carcinus maenas During the Moult Cycle and Ovarian Maturation|Mar. Biol.137(5-6): 995-1004|2000|10.1007/s002270000411
83174|T||Cardoso,P.F., S.M. Guerra Molina, G.J. Goncalves Pereira, A.P. Vitoria, and R.A. Azevedo|Response of Rice Inbred Lines to Cadmium Exposure|J. Plant Nutr.25(5): 927-944|2002|10.1081/PLN-120003929
83175|A||Connell,D.B., and J.G. Sanders|Variation in Cadmium Uptake by Estuarine Phytoplankton and Transfer to the Copepod Eurytemora affinis|Mar. Biol.133(2): 259-265|1999|10.1007/s002270050465
83176|A||Devriese,M., V. Tsakaloudi, I. Garbayo, R. Leon, C. Vilchez, and J. Vigara|Effect of Heavy Metals on Nitrate Assimilation in the Eukaryotic Microalga Chlamydomonas reinhardtii|Plant Physiol. Biochem.39(5): 443-448|2001|10.1016/S0981-9428(01)01257-8
83177|A||Dhanapakiam,P., L. Manohar, and V. Sampoorni|Median Lethal Effects of Mercury and Cadmium on Oxygen Consumption and Gill Histopathology of Common Carp (Cyprinus carpio)|J. Ecobiol.10(3): 193-198|1998|
83178|A||Groenendijk,D., and S.M.G. Luecker|A Method for Crossbreeding Strains of Chironomid Midges (Diptera:  Chironomidae) and Its Application to Ecotoxicological Studies|Proc. Sect. Exp. Appl. Entomol. N. E. V. Amst.9:211-216|1998|
83179|A||Hook,S.E., and N.S. Fisher|Reproductive Toxicity of Metals in Calanoid Copepods|Mar. Biol.138(6): 1131-1140|2001|10.1007/s002270000533
83180|A||James,R., and K. Sampath|Effect of Zeolite on the Reduction of Cadmium Level in Water and Fish Body and Growth Improvement in a Catfish Heteropneustes fossilis (Bloch)|J. Aquacult. Trop.15(4): 329-338|2000|
83181|A||Khan,M.A., and M.F. Khan|Effects of Cadmium on Killifish from Mangrove Area Sandspit at Karachi Coast|Pak. J. Mar. Sci.10(1): 15-19|2001|
83182|A||Kwak,H.S.|Cadmium Bioaccumulation of the Crab Macrophthalmus (Mareotis) japonicus De Haan:  Low Level Calcium and Salinity Effects in the Carapace|Ocean Res. (Seoul)12(1): 15-20|1990|
83183|A||Styrishave,B., M. Faldborg Petersen, and O. Andersen|Influence of Cadmium Accumulation and Dietary Status on Fatty Acid Composition in Two Colour Forms of Shore Crabs, Carcinus maenas|Mar. Biol.137(3): 423-433|2000|10.1007/s002270000346
83184|A||Vankhede,G.N., and R.R. Dhande|Effect of Cadmium Chloride on Plasma Calcium in the Freshwater Fish, Labeo rohita|J. Ecotoxicol. Environ. Monit.9(3): 189-192|1999|
83185|A||Amin,O.A., E.M. Rodriguez, M. Hernando, L.I. Comoglio, L.S. Lopez, and D.A. Medesani|Effects of Lead and Cadmium on Hatching of the Southern King Crab Lithodes santolla (Decapoda, Anomura)|Invertebr. Reprod. Dev.33(1): 81-85|1998|10.1080/07924259.1998.9652344
83187|T||Nakagawa,J., S. Oishi, J. Suzuki, Y. Tsuchiya, M. Ando, and Y. Fujimoto|Effects of Long-Term Ingestion of Cadmium-Polluted Rice or Low-Dose Cadmium-Supplemented Diet on the Endogenous Copper and Zinc Balance in Female Rats|J. Health Sci.50(1): 92-96|2004|10.1248/jhs.50.92
83188|A||Patil,G.P., and R.R. Dhande|Effect of HgCl2 and CdCl2 on Haematobiochemical Parameters of the Freshwater Fish, Channa punctatus (Bloch)|J. Ecotoxicol. Environ. Monit.10(3): 177-181|2000|
83189|A||Wang,W.X., and N.S. Fisher|Modeling the Influence of Body Size on Trace Element Accumulation in the Mussel Mytilus edulis|Mar. Ecol. Prog. Ser.161:103-115|1997|10.3354/meps161103
83190|A||Luo,S.Q., M.C. Plowman, S.M. Hopfer, and F.W.Jr. Sunderman|Mg2+ -Deprivation Enhances and Mg2+ -Supplementation Diminishes the Embryotoxic and Teratogenic Effects of Ni2+, Co2+, Zn2+, and Cd2+ for Frog Embryos in the FETAX Assay|Ann. Clin. Lab. Sci.23(2): 121-129|1993|
83191|A||Safadi,R.S.|The Use of Freshwater Planarians in Acute Toxicity Tests with Heavy Metals|Verh. Int. Ver. Theor. Angew. Limnol.26(5): 2391-2392|1998|
83196|A||Bodar,C.W.M.|Physiological Responses of Daphnia magna to Cadmium Exposure|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:123 p.|1989|
83197|A||Liao,I.C., and C.S. Hsieh|Toxicity of Heavy Metals to Penaeus japonicus.  I.  Toxicities of Copper, Cadmium and Zinc to Penaeus japonicus|J. Fish. Soc. Taiwan15(2): 69-78|1988|
83198|T||Klepper,L.|NOx Evolution by Soybean Leaves Treated with Salicylic Acid and Selected Derivatives|Pestic. Biochem. Physiol.39(1): 43-48|1991|10.1016/0048-3575(91)90212-5
83200|T||Hao,B.Z., and J.L. Wu|Laticifer Differentiation in Hevea brasiliensis:  Induction by Exogenous Jasmonic Acid and Linolenic Acid|Ann. Bot.85(1): 37-43|2000|10.1006/anbo.1999.0995
83203|T||Arthur D. Little Inc.|Roofing Asphalts, Pitch and UVL Carcinogenesis|Arthur D. Little Inc., Boston, MA:38 p.|2000|
83204|T||George Washington University|The Toxicity, Mechanism of Action, and Metabolism of Hydroquinone with Attachment|EPA/OTS Doc.#40-5169110:30 p.|2000|
83205|T||Belmonte,N.M., O.E. Rivera, and J. Herkovits|Zinc Protection Against Cadmium Effects on Preimplantation Mice Embryos|Bull. Environ. Contam. Toxicol.43(1): 107-110|1989|10.1007/BF01702245
83206|T||Dan,G., S.B. Lall, and D.N. Rao|Humoral and Cell Mediated Immune Response to Cadmium in Mice|Drug Chem. Toxicol.23(2): 349-360|2000|10.1081/DCT-100100120
83207|T||Lafuente,A., N. Marquez, M. Perez-Lorenzo, D. Pazo, and A.I. Esquifino|Pubertal and Postpubertal Cadmium Exposure Differentially Affects the Hypothalamic-Pituitary-Testicular Axis Function in the Rat|Food Chem. Toxicol.38(10): 913-923|2000|10.1016/S0278-6915(00)00077-6
83208|T||Selypes,A., P. Serenyi, I. Boldog, F. Bokros, and S. Takacs|"Acute and ""Long-Term"" Genotoxic Effects of Cadmium Chloride on Testes of Mice"|J. Toxicol. Environ. Health36(4): 401-409|1992|10.1080/15287399209531647
83211|T||Ortego,F., and W.S. Bowers|Induction of Autotomy in the American Bird Grasshopper Schistocerca americana (Drury) by the Ecdysone Agonist RH-5849 and Investigation of Its Mode of Action|Experientia52(1): 42-50|1996|10.1007/BF01922414
83212|T||Wyss,G.S., and H. Muller-Scharer|Effects of Selected Herbicides on the Germination and Infection Process of Puccinia lagenophora, a Biocontrol Pathogen of Senecio vulgaris|Biol. Control20(2): 160-166|2001|10.1006/bcon.2000.0897
83213|T||Lizarraga,I., and J.P. Chambers|Involvement of Opioidergic and [alpha]2-Adrenergic Mechanisms in the Central Analgesic Effects of Non-steroidal Anti-inflammatory Drugs in Sheep|Res. Vet. Sci.80(2): 194-200|2006|10.1016/j.rvsc.2005.06.001
83214|T||Everts,J.W., B. Aukema, R. Hengeveld, and J.H. Koeman|Side-Effects of Pesticides on Ground-Dwelling Predatory Arthropods in Arable Ecosystems|Environ. Pollut.59(3): 203-225|1989|10.1016/0269-7491(89)90227-3
83215|T||Burwash,M.D., M.E. Tobin, A.D. Woolhouse, and T.P. Sullivan|Laboratory Evaluation of Predator Odors for Eliciting an Avoidance Response in Roof Rats (Rattus rattus)|J. Chem. Ecol.24(1): 49-66|1998|10.1023/A:1022384728170
83216|T||Bassareo,V., M.A. De Luca, and G. Di Chiara|Differential Expression of Motivational Stimulus Properties by Dopamine in Nucleus Accumbens Shell Versus Core and Prefrontal Cortex|J. Neurosci.22(11): 4709-4719|2002|10.1523/JNEUROSCI.22-11-04709.2002
83217|T||Igarashi,K., A. Sasaki, Y. Yoda, H. Inage, Y. Nakanishi, T. Yanagiya, R. Hirunuma, S. Enomoto, and S. Kimura|Effect of Sodium Iron Ethylenediaminetetraacetic Acid on the Absorption of Various Trace Elements in Anemic Rats|Riken Rev.35:50-54|2001|
83218|T||Kimball,B.A., J.R. Mason, F.S. Blom, J.J. Johnston, and D.E. Zemlicka|Development and Testing of Seven New Synthetic Coyote Attractants|J. Agric. Food Chem.48(5): 1892-1897|2000|10.1021/jf990648z
83219|A||Barber,I., and P. Cordell|Inihibition of the Daphnia beta Galactosidase Enzyme Complex as a Predictive Assay for 21 Day Chronic Toxicity of New Chemicals|Br. Crop Prot. Conf. Pests Dis.:775-780|1992|
83220|T||Katole,S.R., H.S. Thakare, and R.K. Mahajan|Management of Citrus Blackfly Nymphs with Some Insecticides and Plant Oils|J. Maharashtra Agric. Univ.18(1): 68-71|1993|
83221|T||Covarelli,L.|Studies on the Control of Broomrape (Orobanche ramosa L.) in Virginia Tobacco (Nicotiana tabacum L.)|Beitr. Tabakforsch. Int.20(2): 77-81|2002|10.2478/cttr-2013-0733
83223|T||Clausing,P., S. Gericke, and U. Dressel|Diurnal Variation of Cytochrome P-450 Dependent Parameters After Administration of the Phenoxyacid Herbicide Dichlorprop to Rats|J. Exp. Anim. Sci.34(4): 153-157|1991|
83224|T||Valand,V.M., J.R. Patel, and N.C. Patel|Bioefficacy of Insecticides Against Citrus Leaf Miner, Phyllocnistis citrella Stainton on Kagzi Lime|Indian J. Plant Prot.20(2): 212-214|1992|
83225|T||Murthy,K.V.V.S., and D.R.R. Reddy|Chemical Control of Yellow Vein Mosaic Disease of Bhendi|Indian J. Plant Prot.20(2): 198-201|1992|
83226|T||Bhatia,J.N., and S. Gangopadhyay|Studies on Chemical Control of White Rust Disease of Mustard|Int. J. Pest Manag.42(1): 61-65|1996|10.1080/09670879609371971
83228|T||Abo El-Ghar,G.E.S.|Effects of Insect Growth Regulators with Juvenile Hormone Activity Against Callosobruchus maculatus (F.) (Coleoptera:  Bruchidae)|J. Pestic. Sci. (Multiple Languages)65(7): 137-140|1992|
83229|T||Woolhouse,A.D., and D.R. Morgan|An Evaluation of Repellents to Suppress Browsing by Possums|J. Chem. Ecol.21(10): 1571-1583|1995|10.1007/BF02035153
83231|T||Sullivan,T.P., D.R. Crump, and D.S. Sullivan|Use of Predator Odors as Repellents to Reduce Feeding Damage by Herbivores.  IV.  Northern Pocket Gophers (Thomomys talpoides)|J. Chem. Ecol.14(1): 379-389|1988|10.1007/BF01022553
83232|T||Sullivan,T.P., and D.R. Crump|Feeding Responses of Snowshoe Hares (Lepus americanus) to Volatile Constituents of Red Fox (Vulpes vulpes) Urine|J. Chem. Ecol.12(3): 729-740|1986|10.1007/BF01012105
83233|T||Sullivan,T.P., D.R. Crump, and D.S. Sullivan|Use of Predator Odors as Repellents to Reduce Feeding Damage by Herbivores.  III.  Montane and Meadow Voles (Microtus montanus and Microtus pennsylvanicus)|J. Chem. Ecol.14(1): 363-377|1988|10.1007/BF01022552
83234|A||Keller,A.E., D.S. Ruessler, and N.J. Kernaghan|Effect of Test Conditions on the Toxicity of Copper to Juvenile Unionid Mussels|ASTM Spec. Tech. Publ.:329-340|1999|
83235|T||Ogg,C.L., and R.E. Gold|Inclusion of Insecticidal Bait Stations in a German Cockroach (Orthoptera: Blattellidae) Control Program|J. Econ. Entomol.86(1): 61-65|1993|10.1093/jee/86.1.61
83236|T||Reid,B.L., and J.H. Klotz|Oral Toxicity of Abamectin, Dechlorane, and Sulfluramid to Free-Foraging Workers of Camponotus pennsylvanicus (Hymenoptera: Formicidae)|J. Econ. Entomol.85(5): 1822-1829|1992|10.1093/jee/85.5.1822
83237|T||Bruns,H.A.|Harvest Date and Sucker Control Method on Maryland Tobacco|Crop Sci.27(3): 562-565|1987|10.2135/cropsci1987.0011183X002700030028x
83239|T||Argueta,T.B.O., H. Kawada, M. Sugano, S.I. Kubota, Y. Shono, K. Tsushima, and M. Takagi|Comparative Insecticidal Efficacy of a New Pyrethroid, Metofluthrin, Against Colonies of Asian Culex quinquefasciatus and Culex pipiens pallens|Eisei Dobutsu55(4): 289-294|2004|10.7601/mez.55.289
83240|T||Sirvent,T., and D. Gibson|Induction of Hypericins and Hyperforin in Hypericum perforatum L. in Response to Biotic and Chemical Elicitors|Physiol. Mol. Plant Pathol.60(6): 311-320|2002|10.1016/S0885-5765(02)90410-8
83241|T||Itoh,Y., T. Sendo, T. Hirakawa, T. Goromaru, N. Sakai, H. Nakano, and R. Oishi|Similarity and Difference in the Acute Lung Injury Induced by a Radiographic Contrast Medium and an Anticancer Agent Paclitaxel in Rats|Toxicol. Lett.152(1): 27-34|2004|10.1016/j.toxlet.2004.03.022
83242|T||Yates,I.E., J.W. Arnold, C.W. Bacon, and D.M. Hinton|In Vitro Assessments of Diverse Plant Pathogenic Fungi Treated with a Novel Growth Control Agent|Crop Prot.23(12): 1169-1176|2004|10.1016/j.cropro.2004.03.019
83243|T||Takegawa,K., K. Mitsumori, H. Onodera, T. Shimo, K. Kitaura, K. Yasuhara, M. Hirose, and M. Takahashi|Studies on the Carcinogenicity of Potassium Iodide in F344 Rats|Food Chem. Toxicol.38(9): 773-781|2000|10.1016/S0278-6915(00)00068-5
83244|T||Khan,W., B. Prithiviraj, and D.L. Smith|Photosynthetic Responses of Corn and Soybean to Foliar Application of Salicylates|J. Plant Physiol.160(5): 485-492|2003|10.1078/0176-1617-00865
83246|A||Kotyzova,D., and F.W.,Jr. Sundeman|Maternal Exposure to Cd(II) Causes Malformations of Xenopus laevis Embryos|Ann. Clin. Lab. Sci.28(4): 224-235|1998|
83247|T||Godowicz,B., and B. Musialek|Differential Response to Cadmium Chloride of Female Mice from Small Populations Mated with Maximal Avoidance of Inbreeding|Genet. Pol.31(1): 71-77|1990|
83248|A||Srivastava,R.K., H.S. Singh, and S. Srivastava|Physiological Changes in a Freshwater Catfish, Heteropneustes fossilis Following Exposure to Cadmium|J. Ecophysiol. Occup. Health1(3/4): 235-244|2001|
83249|T||Wanas,M.Q.A., S.N. Thompson, and A.T.A. Allah|Effects of Lead, Mercury and Cadmium on the Extramolluscan Larval Stages of Schistosoma mansoni (Sambon)|J. Egypt. Soc. Parasitol.28(2): 583-594|1998|
83250|T||Luo,J.P., S.T. Jiang, and L.J. Pan|Enhanced Somatic Embryogenesis by Salicylic Acid of Astragalus adsurgens Pall.:  Relationship with H2O2 Production and H2O2-Metabolizing Enzyme Activities|Plant Sci.161(1): 125-132|2001|10.1016/S0168-9452(01)00401-0
83252|A||Augusto da Costa,A.C., and F.P. De Franca|Cadmium Uptake by Spirulina maxima:  Toxicity and Mechanism|World J. Microbiol. Biotechnol.14(4): 579-581|1998|10.1023/A:1008888031994
83253|T||Lysionek,A., M. Zubillaga, J. Salgueiro, R. Caro, E. Ettlin, and J. Boccio|Bioavailability Studies of a New Iron Source by Means of the Prophylactic-Preventive Method in Rats|Biol. Trace Elem. Res.84(1-3): 123-128|2001|10.1385/BTER:84:1-3:123
83254|T||Morales-Villagran,A., and R. Tapia|Preferential Stimulation of Glutamate Release by 4-Aminopyridine in Rat Striatum In Vivo|Neurochem. Int.28(1): 35-40|1996|10.1016/0197-0186(95)00064-F
83255|T||Klemfuss,H., and D.F. Kripke|Potassium, Rubidium, and 4-Aminopyridine Effects on the Circadian Running Rhythm in the Hamster|Pharmacol. Biochem. Behav.47(3): 409-412|1994|10.1016/0091-3057(94)90136-8
83256|T||Pasantes-Morales,H., M.E. Arzate, O. Quesada, and R.J. Huxtable|Higher Susceptibility of Taurine-Deficient Rats to Seizures Induced by 4-Aminopyridine|Neuropharmacology26(12): 1721-1725|1987|10.1016/0028-3908(87)90123-7
83257|A||Smith,G.T., and H.H. Zakon|Pharmacological Characterization of Ionic Currents that Regulate the Pacemaker Rhythm in a Weakly Electric Fish|J. Neurobiol.42(2): 270-286|2000|10.1002/(SICI)1097-4695(20000205)42:2<270::AID-NEU10>3.0.CO;2-V
83258|T||Hatch,R.C., and A.D. Jernigan|Effect of Intravenously-Administered Putative and Potential Antagonists of Ethanol on Sleep Time in Ethanol-Narcotized Mice|Life Sci.42(1): 11-19|1988|10.1016/0024-3205(88)90619-4
83259|T||Deschamps,S., B. Woodside, and C.D. Walker|Pups Presence Eliminates the Stress Hyporesponsiveness of Early Lactating Females to a Psychological Stress Representing a Threat to the Pups|J. Neuroendocrinol.15(5): 486-497|2003|10.1046/j.1365-2826.2003.01022.x
83260|T||Maggi,C.A., P. Santicioli, F. Borsini, S. Giuliani, B. Conte, A. Lecci, and A. Meli|The Effect of 4-Aminopyridine on Micturition Reflex in Normal or Capsaicin-Desensitized Rats|Brain Res.449(1-2): 61-70|1988|10.1016/0006-8993(88)91024-4
83261|A||Tanaka,S., T. Utoh, Y. Yamada, N. Horie, A. Okamura, A. Akazawa, N. Mikawa, H.P. Oka, and H. Kurokura|Role of Sodium Bicarbonate on the Initiation of Sperm Motility in the Japanese Eel|Fish. Sci.70(5): 780-787|2004|10.1111/j.1444-2906.2004.00871.x
83262|T||Glowinski,A.J., H. Kennedy, K.A.C. Martin, and D. Whitteridge|Rapid Changes in Ocular Dominance Produced by 4-Aminopyridine in Monocularly Deprived Lambs|J. Physiol.296:64P - 65P|1979|
83263|T||Keresztes,M., O. Takacs, and F. Guba|The Effect of 4-Aminopyridine-Induced Increased Neuromuscular Activity on the Metabolism of Developing Muscles in Chick Embryos|Cell Differ.16(2): 133-137|1985|10.1016/0045-6039(85)90526-3
83265|T||Whitson,R.S., and R.B. Hine|Activity of Propiconazole and Other Sterol-Inhibiting Fungicides Against Phymatotrichum omnivorum|Plant Dis.70(2): 130-133|1986|10.1094/PD-70-130
83266|T||Kaiser,W.J., and R.M. Hannan|Seed-Treatment Fungicides for Control of Seedborne Ascochyta lentis on Lentil|Plant Dis.71(1): 58-62|1987|10.1094/PD-71-0058
83268|T||Kawada,H., Y. Maekawa, Y. Tsuda, and M. Takagi|Laboratory and Field Evaluation of Spatial Repellency with Metofluthrin-Impregnated Paper Strip Against Mosquitoes in Lombok Island, Indonesia|Am. Mosq. Control Assoc. J.20(3): 292-298|2004|
83269|T||Wang,M., R.M. Van der Meulen, K. Visser, H.P. Van Schaik, B. Van Duijn, and A.H. De Boer|Effects of Dormancy-Breaking Chemicals on ABA Levels in Barley Grain Embryos|Seed Sci. Res.8(2): 129-137|1998|10.1017/S0960258500004025
83270|T||Valencia,R., J.M. Mason, R.C. Woodruff, and S. Zimmering|Chemical Mutagenesis Testing in Drosophila. III. Results of 48 Coded Compounds Tested for the National Toxicology Program|Environ. Mutagen.7(3): 325-348|1985|10.1002/em.2860070309
83271|A||Bermingham,S., P.J. Fisher, A. Martin, M. Marriott, and H. Lappin-Scott|The Effect of the Herbicide Mecoprop on Heliscus lugdunensis and Its Influence on the Preferential Feeding of Gammarus pseudolimnaeus|Microb. Ecol.35(2): 199-204|1998|10.1007/s002489900075
83273|T||Castelli,M., L. Venturini, and S. Sparber|Cocaine and Salicylate:  Documentation of Hydroxyl Radical Formation in Hearts and Brains of 18-Day-Old Chick Embryos and Unexpected Interactive Toxicity|Psychopharmacology156(1): 23-31|2001|10.1007/s002130100726
83274|T||Del Balzo,U., and M.R. Rosen|T Wave Changes Persisting After Ventricular Pacing in Canine Heart are Altered by 4-Aminopyridine but not by Lidocaine.  Implications with Respect to Phenomenon of Cardiac 'Memory'|Circulation (N.Y.)85(4): 1464-1472|1992|
83275|T||Agarwal,S., R.K. Sairam, G.C. Srivastava, A. Tyagi, and R.C. Meena|Role of ABA, Salicylic Acid, Calcium and Hydrogen Peroxide on Antioxidant Enzymes Induction in Wheat Seedlings|Plant Sci.169(3): 559-570|2005|10.1016/j.plantsci.2005.05.004
83276|T||Lu,Y.Y., and C.Y. Chen|Molecular Analysis of Lily Leaves in Response to Salicylic Acid Effective Towards Protection Against Botrytis elliptica|Plant Sci.169(1): 1-9|2005|10.1016/j.plantsci.2005.01.019
83277|T||Castillo,V.A., J.C. Lalia, M. Junco, G. Sartorio, A. Marquez, M.S. Rodriguez, and M.A. Pisarev|Changes in Thyroid Function in Puppies Fed a high Iodine Commercial Diet|Vet. J.161(1): 80-84|2001|10.1053/tvjl.2000.0523
83278|T||Whealy,C.A., T.A. Nell, and J.E. Barrett|Plant Growth Regulator Reduction of Bypass Shoot Development in Azalea|Hortscience23(1): 166-167|1988|10.21273/HORTSCI.23.1.166
83279|T||Beers,E.H., J.F. Brunner, J.E. Dunley, M. Doerr, and K. Granger|Role of Neonicotinyl Insecticides in Washington Apple Integrated Pest Management. Part II. Nontarget Effects on Integrated Mite Control|J. Insect Sci.5(16): 1-10|2005|10.1673/031.005.1601
83280|T||Wilcox,M., I.Y. Chen, P.C. Kennedy, Y.Y. Li, L.R. Kincaid, and N.T. Helseth|Control of Axillary Buds in Tobacco by Means of N-Alkylnitrophenylhydrazines and N-Benzylnitroanilines|In: Proc. of the Plant Growth Regulator Working Group4:194-201|1977|
83281|T||Wilcox,M., E.B. Whitty, Y.Y. Li, I.Y. Chen, L.R. Kincaid, J.R. Hensley, and P.C. Kennedy|Control of Axillary Buds in Tobacco by CGA-41065 and m-Phenylenediamine Analogs|In: Proc. of the Plant Growth Regulator Working Group5:167-171|1978|
83282|T||Kennedy,P.C.|Season-Long Control of Tobacco Suckers with One Application of CGA-41065|In: Proc. of the Plant Growth Regulator Working Group6:102-106|1979|
83283|T||Church,V.J.|Epidemiology in Relation to Control of Grey Mould (Botrytis cinerea) on Sunflower|Br. Crop Prot. Conf. Pests Dis.:669-674|1992|
83284|T||Kolaja,K.L., J.S. Petrick, and C.D. Klaassen|Inhibition of Gap-Junctional-Intercellular Communication in Thyroid-Follicular Cells by Propylthiouracil and Low Iodine Diet|Toxicology143(2): 195-202|2000|10.1016/S0300-483X(99)00172-9
83285|A||Burel,C., T. Boujard, S.J. Kaushik, G. Boeuf, K.A. Mol, S. Van der Geyten, V.M. Darras, E.R. Kuhn, B. Pradet-Balade, B.|Effects of Rapeseed Meal-Glucosinolates on Thyroid Metabolism and Feed Utilization in Rainbow Trout|Gen. Comp. Endocrinol.124(3): 343-358|2001|10.1006/gcen.2001.7723
83286|T||Castro,C.E., N.O. Belser, H.E. McKinney, and I.J. Thomason|Strong Repellency of the Root Knot Nematode, Meloidogyne incognita by Specific Inorganic Ions|J. Chem. Ecol.16(4): 1199-1205|1990|10.1007/BF01021019
83287|T||Pavelka,S., A. Babicky, J. Lener, and M. Vobecky|Impact of High Bromide Intake in the Rat Dam on Iodine Transfer to the Sucklings|Food Chem. Toxicol.40(7): 1041-1045|2002|10.1016/S0278-6915(02)00024-8
83288|T||Hove,K., and O. Sand|Evidence for a Function of Calcium Influx in the Stimulation of Hormone Release from the Parathyroid Gland in the Goat|Acta Physiol. Scand.113(1): 37-43|1981|10.1111/j.1748-1716.1981.tb06858.x
83289|T||Harriman,A.E., and R.H. Berger|Protecting Corn Fields on the Hopi Indian Reservation from Depredation by Ravens and Rodents|Sov. J. Ecol.14(3): 164-167|1984|
83291|A||Brezina,V., C.G. Evans, and K.R. Weiss|Activation of K Current in the Accessory Radula Closer Muscle of Aplysia californica by Neuromodulators that Depress Its Contractions|J. Neurosci.14(7): 4412-4432|1994|10.1523/JNEUROSCI.14-07-04412.1994
83292|T||Shakirova,F.M., A.R. Sakhabutdinova, M.V. Bezrukova, R.A. Fatkhutdinova, and D.R. Fatkhutdinova|Changes in the Hormonal Status of Wheat Seedlings Induced by Salicylic Acid and Salinity|Plant Sci.164(3): 317-322|2003|10.1016/S0168-9452(02)00415-6
83293|T||Ananieva,E.A., V.S. Alexieva, and L.P. Popova|Treatment with Salicylic Acid Decreases the Effects of Paraquat on Photosynthesis|J. Plant Physiol.159(7): 685-693|2002|10.1078/0176-1617-0706
83294|T||Jones,J.L., and J.W. Rideout|Application of Flumetralin for Axillary Bud Inhibition in Flue-Cured Tobacco|Tob. Sci.188(20): 51-53|1986|
83295|T||Choulwar,A.B., and V.V. Datar|Management of Tomato Early Blight with Chemicals|J. Maharashtra Agric. Univ.17(2): 214-216|1992|
83296|A||Bentivegna,D.J., and O.A. Fernandez|Factors Affecting the Efficacy of Acrolein in Irrigation Channels in Southern Argentina|Weed Res. (Multiple Languages)45(4): 296-302|2005|10.1111/j.1365-3180.2005.00461.x
83297|T||Himeno,S., Y. Yamazaki, and N. Imura|Accumulation and Toxicity of Orally Ingested Cadmium in Metallothionein Null Mice|J. Health Sci.46(2): 149-152|2000|10.1248/jhs.46.149
83298|T||Haskell Laboratory|Initial Submission:  Laboratory Tests for Testicular Function in Rabbits After Oral Exposure to Cadmium Chloride, Dibromochloropropane, with Cover Letter Dated 10/16/92|EPA/OTS Doc.#88-920010617:37 p.|1992|
83299|T||Anand,M., G.S.D. Gupta, M.D. Rana, and R.N. Khanna|Peripheral Neurotoxicity of Cadmium and Hexachlorocyclohexane (HCH) in Rats|J. Ecophysiol. Occup. Health2(3-4): 281-290|2002|
83300|T||Sparks,A.N.Jr.|Evaluation of Insecticide Efficacy for SPWF Control on Cucurbits, 1992|Insectic. Acaric. Tests18:129-130|1993|10.1093/iat/18.1.129a
83301|T||Katole,S.R., H.S. Thakare, and R.K. Mahajan|Effects of Some Plant Products and Insecticides on the Infestation of Citrus Leaf Miner on Nagpur Mandarin|J. Maharashtra Agric. Univ.18(1): 67-68|1993|
83302|T||Heiny,D.K.|Field Survival of Phoma proboscis and Synergism with Herbicides for Control of Field Bindweed|Plant Dis.78(12): 1156-1164|1994|10.1094/PD-78-1156
83303|T||Pang,I.H., H. Moll, M.A. McLaughlin, P.A. Knepper, L. De Santis, D.L. Epstein, and A.F. Clark|Ocular Hypotensive and Aqueous Outflow-Enhancing Effects of AL-3037A (Sodium Ferri Ethylenediaminetetraacetate)|Exp. Eye Res.73(6): 815-825|2001|10.1006/exer.2001.1087
83304|A||Biggers,W.J., and H. Laufer|Settlement and Metamorphosis of Capitella Larvae Induced by Juvenile Hormone-Active Compounds is Mediated by Protein Kinase C and Ion Channels|Biol. Bull.196(2): 187-198|1999|10.2307/1542564
83305|T||Sugimoto,N., Y. Goto, N. Akao, F. Kiuchi, K. Kondo, and Y. Tsuda|Mobility Inhibition and Nematocidal Activity of Asarone and Related Phenylpropanoids on Second-Stage Larvae of Toxocara canis|Biol. Pharm. Bull.18(4): 605-609|1995|10.1248/bpb.18.605
83306|T||Smith,W.C.,Jr., and W.D. Smith|Effects of Fatty-Alcohol and Systemic Growth Regulator Combinations on Sucker Control in Flue-Cured Tobacco|Tob. Int.189(1): 31-33|1987|
83307|T||Morales-Villagran,A., M.E. Urena-Guerrero, and R. Tapia|Protection by NMDA Receptor Antagonists Against Seizures Induced by Intracerebral Administration of 4-Aminopyridine|Eur. J. Pharmacol.305(1-3): 87-93|1996|10.1016/0014-2999(96)00157-4
83308|T||Dong,D.L., Q.H. Wang, W. Chen, J.J. Fan, J.W. Mu, J. Ke, and B.F. Yang|Contrasting Effects of Tetraethylammonium and 4-Aminopyridine on the Gastrointestinal Function of Mice|Eur. J. Pharmacol.509(2-3): 179-185|2005|10.1016/j.ejphar.2005.01.013
83310|T||Berrie,A.M.|Alternative Strategies for the Control of Post Harvest Rots in Apples and Pears|Br. Crop Prot. Conf. Pests Dis.:301-310|1992|
83312|T||Royo,C., and R. Blanco|Use of Potassium Iodide to Mimic Drought Stress in Triticale|Field Crops Res.59(3): 201-212|1998|10.1016/S0378-4290(98)00121-X
83313|T||Mahalakshmi,V., F.R. Bidinger, K.P. Rao, and S.P. Wani|Use of the Senescing Agent Potassium Iodide to Simulate Water Deficit During Flowering and Grainfilling in Pearl Millet|Field Crops Res.36(2): 103-111|1994|10.1016/0378-4290(94)90059-0
83314|T||Nicolas,M.E., and N.C. Turner|Use of Chemical Desiccants and Senescing Agents to Select Wheat Lines Maintaining Stable Grain Size During Post-Anthesis Drought|Field Crops Res.31(1/2): 155-171|1993|10.1016/0378-4290(93)90058-U
83315|T||Pattanaik,A.K., S.A. Khan, V.P. Varshney, and S.P.S. Bedi|Effect of Iodine Level in Mustard (Brassica juncea) Cake-Based Concentrate Supplement on Nutrient Utilisation and Serum Thyroid Hormones of Goats|Small Ruminant Res.41(1): 51-59|2001|10.1016/S0921-4488(01)00192-4
83316|T||Khare,M., and K.N. Guruprasad|UV-B-Induced Anthocyanin Synthesis in Maize Regulated by FMN and Inhibitors of FMN Photoreactions|Plant Sci.91(1): 1-5|1993|10.1016/0168-9452(93)90182-Y
83317|T||Gaudet,D.A., B.J. Puchalski, and T. Entz|Effect of Environment on Efficacy of Seed-Treatment Fungicides for Control of Common Bunt in Spring and Winter Wheat|Pestic. Sci.26(3): 241-252|1989|10.1002/ps.2780260304
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83319|A||Hawkins,P.R., J. Holliday, A. Kathuria, and L. Bowling|Change in Cyanobacterial Biovolume due to Preservation by Lugol's Iodine|Harmful Algae4(6): 1033-1043|2005|10.1016/j.hal.2005.03.001
83320|T||Suzuki,S., S. Tohma, N. Futakawa, M. Higashimoto, M. Takiguchi, and M. Sato|Induction of Hepatic Metallothionein by Mitochondrial Oxidative Stress in Mice|J. Health Sci.51(5): 533-537|2005|10.1248/jhs.51.533
83321|T||Bowman,W.C., I.W. Rodger, and A.O. Savage|Effect of 4-Aminopyridine on Muscle Contractility in the Cat|Br. J. Pharmacol.66(3): 466-467|1979|
83322|T||Shaikh,Z.A., S.A. Jordan, and P.C. Tewari|Cadmium Disposition and Metallothionein Induction in Mice:  Strain-, Sex-, Age- and Dose-Dependent Differences|Toxicology80(1): 51-70|1993|10.1016/0300-483X(93)90076-5
83323|T||Laskey,J.W., G.L. Rehnberg, S.C. Laws, and J.F. Hein|Age-Related Dose Response of Selected Reproductive Parameters to Acute Cadmium Chloride Exposure in the Male Long-Evans Rat|J. Toxicol. Environ. Health19(3): 393-402|1986|10.1080/15287398609530937
83324|T||Hiratsuka,H., O. Katsuta, H. Iwata, J. Matsumoto, and T. Umemura|Acute Toxicity of Cadmium in Rats with or Without Cadmium Pretreatment|J. Toxicol. Sci.18(3): 197-201|1993|10.2131/jts.18.3_197
83325|T||Kanter,M., M. Yoruk, A. Koc, I. Meral, and T. Karaca|Effects of Cadmium Exposure on Morphological Aspects of Pancreas, Weights of Fetus and Placenta in Streptozotocin-Induced Diabetic Pregnant Rats|Biol. Trace Elem. Res.93(1-3): 189-200|2003|10.1385/BTER:93:1-3:189
83326|T||De,S.K., S.K. Dey, and G.K. Andrews|Cadmium Teratogenicity and Its Relationship with Metallothionein Gene Expression in Midgestation Mouse Embryos|Toxicology64(1): 89-104|1990|10.1016/0300-483X(90)90102-M
83327|T||Bagchi,D., M. Bagchi, E.A. Hassoun, and S.J. Stohs|Cadmium-Induced Excretion of Urinary Lipid Metabolites, DNA Damage, Glutathione Depletion, and Hepatic Lipid Peroxidation in Sprague-Dawley Rats|Biol. Trace Elem. Res.52(2): 143-154|1996|10.1007/BF02789456
83328|T||Anisman,H., S. Hayley, O. Kelly, T. Borowski, and Z. Merali|Psychogenic, Neurogenic, and Systemic Stressor Effects on Plasma Corticosterone and Behavior:  Mouse Strain-Dependent Outcomes|Behav. Neurosci.115(2): 443-454|2001|10.1037/0735-7044.115.2.443
83329|T||Bignami,M., F. Aulicino, A. Velcich, A. Carere, and G. Morpurgo|Mutagenic and Recombinogenic Action of Pesticides in Aspergillus nidulans|Mutat. Res.46(6): 395-402|1977|10.1016/0165-1161(77)90017-6
83330|T||Friedman,H., S. Meir, A.H. Halevy, and S. Philosoph-Hadas|Inhibition of the Gravitropic Bending Response of Flowering Shoots by Salicylic Acid|Plant Sci.165(4): 905-911|2003|10.1016/S0168-9452(03)00295-4
83331|T||Sawhney,V., and D.P. Singh|Effect of Chemical Desiccation at the Post-Anthesis Stage on Some Physiological and Biochemical Changes in the Flag Leaf of Contrasting Wheat Genotypes|Field Crops Res.77(1): 1-6|2002|10.1016/S0378-4290(01)00192-7
83333|T||Cataldo,C.A., T.R. Garland, and R.E. Wildung|Cadmium Uptake Kinetics in Intact Soybean Plants|J. Plant Physiol.73:844-848|1983|10.1104/pp.73.3.844
83334|T||Vorhees,C.V., R.E. Butcher, and R.L. Brunner|Developmental Toxicity and Psychotoxicity of Potassium Iodide in Rats:  A Case for the Inclusion of Behaviour in Toxicological Assessment|Food Chem. Toxicol.22(12): 963-970|1984|10.1016/0278-6915(84)90145-5
83335|T||Knuckles,M.E., F. Inyang, and A. Ramesh|Acute and Subchronic Oral Toxicity of Fluoranthene in F-344 Rats|Ecotoxicol. Environ. Saf.59(1): 102-108|2004|10.1016/S0147-6513(03)00110-6
83336|A||Syracuse Research Corp.|KowWin Software Vers. 1.67|BioWin Software Vers 4.0, Syracuse Res. Corp., North Syracuse, NY:|2000|
83337|AT||BioByte Corp.|CLogP Windows DLL  Bio-Loom Vers.1.5|ClogP User Guide.BioByte Corp.Claremont, CA 91711:29 p.|2005|
83338|A||Syracuse Research Corp.|BioWin Software Vers 4.0|BioWin Software Vers 4.0, Syracuse Res. Corp., North Syracuse, NY:|2000|
83339|AT||Rao,I.G., and D.K. Singh|Effect of Single and Binary Combinations of Plant-Derived Molluscicides on Reproduction and Survival of the Snail Achatina fulica|Arch. Environ. Contam. Toxicol.39(4): 486-493|2000|10.1007/s002440010131
83340|A||Mekenyan,O.|2D Depiction Applet|"Department of Physical Chemistry, Laboratory of Mathematical Chemistry, Bourgas ""Prof.As.Zlatarov"" University, 8010 Bourgas, Bulgaria:"|2005|
83341|T||Tafforeau,S., T. Wegmann, M.P. Latorse, J.M. Gouot, P. Duvert, and E. Bardsley|Fluopicolide, a Novel Fungicide with a Unique Mode of Action, Setting a New Standard for Oomycete Control|Congr.Proc.- BCPC Int.Congr.: Crop Science and Technology, Oct.31-Nov.2, 2005, Glasgow, U.K.1:79-86|2005|
83342|T||Zhao,W., H. Zhu, Z. Yu, K. Aoki, J. Misumi, and X. Zhang|Long-Term Effects of Various Iodine and Fluorine Doses on the Thyroid and Fluorosis in Mice|Endocr. Regul.32(2): 63-70|1998|
83343|T||Chee,R., and R.M. Pool|Improved Inorganic Media Constituents for In Vitro Shoot Multiplication of Vitis|Sci. Hortic.32(1-2): 85-95|1987|10.1016/0304-4238(87)90019-7
83345|T||Doyle,J.J., W.H. Pfander, S.E. Grebing, and J.O. Pierce II|Effects of Dietary Cadmium on Growth and Tissue Levels in Sheep|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:181-186|1972|
83346|T||Hartsfield,J.K.,Jr., M. Lee, J.G. Morel, and D.R. Hilbelink|Statistical Analysis of the Effect of Cadmium and Zinc on Hamster Teratogenesis|Biochem. Med. Metab. Biol.48(2): 159-173|1992|10.1016/0885-4505(92)90061-3
83348|T||Gale,T.F., and V.H. Ferm|Skeletal Malformations Resulting from Cadmium Treatment in the Hamster|Biol. Neonate23:149-160|1973|10.1159/000240596
83349|T||Ali,M.M., N. Mathur, and S.V. Chandra|Effect of Chronic Cadmium Exposure on Locomotor Behavior of Rats|Indian J. Exp. Biol.28(7): 653-656|1990|
83350|T||Konecki,J., J. Slowinski, M. Harabin-Slowinska, K. Helewski, M. Glowacka, and G. Wyrobiec|RNA and Protein Synthesis in Different Organs of Rat Offspring After Chronic Cadmium Exposure During Pregnancy|Int. J. Occup. Med. Environ. Health16(1): 75-79|2003|
83351|T||Singh,R., K.P. Singh, and N.S. Parihar|Pathomorphological Effects in Pigs Following Cadmium Chloride Parentral Administration|Indian J. Anim. Sci.68(9): 907-914|1998|
83353|T||Nordberg,G.F.|Effects of Acute and Chronic Cadmium Exposure on the Testicles of Mice|Environ. Physiol.1:171-187|1971|
83354|T||Brunner,J.F., E.H. Beers, J.E. Dunley, M. Doerr, and K. Granger|Role of Neonicotinyl Insecticides in Washington Apple Integrated Pest Management. Part I. Control of Lepidopteran Pests|J. Insect Sci.5(14): 1-10|2005|10.1673/031.005.1401
83356|T||Daburon,F., G. Fayart, and Y. Tricaud|Caesium and Iodine Metabolism in Lactating Cows Under Chronic Administration|Sci. Total Environ.85:253-261|1989|10.1016/0048-9697(89)90324-0
83384|A||Babich,H., N. Martin-Alguacil, and E. Borenfreund|Arsenic-Selenium Interactions Determined with Cultured Fish Cells|Toxicol. Lett.45(2/3): 157-164|1989|10.1016/0378-4274(89)90005-2
83465|A||Voets,J., L. Bervoets, and R. Blust|Cadmium Bioavailability and Accumulation in the Presence of Humic Acid to the Zebra Mussel, Dreissena polymorpha|Environ. Sci. Technol.38(4): 1003-1008|2004|10.1021/es034742e
83466|A||Shaw,J.R., T.D. Dempsey, C.Y. Chen, J.W. Hamilton, and C.L. Folt|Comparative Toxicity of Cadmium, Zinc, and Mixtures of Cadmium and Zinc to Daphnids|Environ. Toxicol. Chem.25(1): 182-189|2006|10.1897/05-243R.1
83467|A||Perez-Rama,M., E.T. Vaamonde, and J.A. Alonso|Composition and Production of Thiol Constituents Induced by Cadmium in the Marine Microalga Tetraselmis suecica|Environ. Toxicol. Chem.25(1): 128-136|2006|10.1897/05-252R.1
83468|A||Marie,V., P. Gonzalez, M. Baudrimont, I. Boutet, D. Moraga, J.P. Bourdineaud, and A. Boudou|Metallothionein Gene Expression and Protein Levels in Triploid and Diploid Oysters Crassostrea gigas after Exposure to Cadmium and Zinc|Environ. Toxicol. Chem.25(2): 412-418|2006|10.1897/05-114R.1
83469|T||Jonker,M.J., A.M. Piskiewicz, N.I. Castella, and J.E. Kammenga|Toxicity of Binary Mixtures of Cadmium-Copper and Carbendazim-Copper to the Nematode Caenorhabditis elegans|Environ. Toxicol. Chem.23(6): 1529-1537|2004|10.1897/03-49
83470|T||Ossola,J.O., and M.L. Tomaro|Heme Oxygenase Induction by Cadmium Chloride:  Evidence for Oxidative Stress Involvement|Toxicology104(1-3): 141-147|1995|10.1016/0300-483X(95)03157-B
83471|T||Ohta,H., and M.G. Cherian|The Influence of Nutritional Deficiencies on Gastrointestinal Uptake of Cadmium and Cadmium-Metallothionein in Rats|Toxicology97(1-3): 71-80|1995|10.1016/0300-483X(94)02925-K
83472|T||Misra,R.R., K.A. Crance, R.M. Bare, and M.P. Waalkes|Lack of Correlation Between the Inducibility of Metallothionein mRNA and Metallothionein Protein in Cadmium-Exposed Rodents|Toxicology117(2-3): 99-109|1997|10.1016/S0300-483X(96)03557-3
83475|T||Leffler,P.E., T. Jin, and G.F. Nordberg|Nephrotoxic Impact of Multiple Short-Interval Cadmium-Metallothionein Injections in the Rat|Toxicology112(2): 151-156|1996|10.1016/0300-483X(96)03359-8
83479|T||Lai,Y.R., and N. Sugawara|Outputs of Hepatic Copper and Cadmium Stimulated by Tetrathiomolybdate (TTM) Injection in Long-Evans Cinnamon (LEC) Rats Pretreated with Cadmium, and in Fischer Rats Pretreated with Copper and Cadmium|Toxicology120(1): 47-54|1997|10.1016/S0300-483X(97)03636-6
83480|T||Gutierrez-Reyes,E.Y., A. Albores, and C. Rios|Increase of Striatal Dopamine Release by Cadmium in Nursing Rats and Its Prevention by Dexamethasone-Induced Metallothionein|Toxicology131(2-3): 145-154|1998|10.1016/S0300-483X(98)00126-7
83481|T||Lind,Y., A.W. Glynn, J. Engman, and L. Jorhem|Bioavailability of Cadmium from Crab Hepatopancreas and Mushroom in Relation to Inorganic Cadmium:  A 9-Week Feeding Study in Mice|Food Chem. Toxicol.33(8): 667-673|1995|10.1016/0278-6915(95)00036-2
83483|T||Liao,J.P., X.G. Lin, Z.H. Cao, Y.Q. Shi, and M.H. Wong|Interactions Between Arbuscular mycorrhizae and Heavy Metals Under Sand Culture Experiment|Chemosphere50(6): 847-853|2003|10.1016/S0045-6535(02)00229-1
83484|T||Miller,D.K., and J.R. Nation|Chronic Cadmium Exposure Attenuates the Conditioned Reinforcing Properties of Morphine and Fentanyl|Brain Res.776(1-2): 162-169|1997|10.1016/S0006-8993(97)01013-5
83485|T||Karmakar,R., and M. Chatterjee|Cadmium-Induced Time-Dependent Oxidative Stress in Liver of Mice:  A Correlation with Kidney|Environ. Toxicol. Pharmacol.6(3): 201-207|1998|10.1016/S1382-6689(98)00035-0
83486|T||Jan,M., and N. Frantisek|Cadmium-Induced Changes in Cation-osmotic Haemolysis in Rats|Environ. Toxicol. Pharmacol.8(2): 79-81|2000|10.1016/S1382-6689(99)00036-8
83487|T||Watmough,S.A., and T.C. Hutchinson|Uptake of 207Pb and 111Cd Through Bark of Mature Sugar Maple, White Ash and White Pine:  A Field Experiment|Environ. Pollut.121(1): 39-48|2003|10.1016/S0269-7491(02)00208-7
83488|T||Reeves,P.G., and R.L. Chaney|Mineral Status of Female Rats Affects the Absorption and Organ Distribution of Dietary Cadmium Derived from Edible Sunflower Kernels ( Helianthus annuus L.)|Environ. Res.85(3): 215-225|2001|10.1006/enrs.2000.4236
83489|T||Pillai,A., L. Priya, and S. Gupta|Effects of Combined Exposure to Lead and Cadmium on the Hypothalamic- Pituitary Axis Function in Proestrous Rats|Food Chem. Toxicol.41(3): 379-384|2003|10.1016/S0278-6915(02)00247-8
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83492|T||Houpert,P., B. Federspiel, and G. Milhaud|Toxicokinetics of Cadmium in Lactating and Nonlactating Ewes After Oral and Intravenous Administration|Environ. Res.72(2): 140-150|1997|10.1006/enrs.1996.3690
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83495|T||Iscan,M., T. Coban, and B.C. Eke|Differential Responses of Hepatic Monooxygenases and Glutathione S-Transferases of Mice to a Combination of Cadmium and Nickel|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(1): 61-68|1995|
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83498|T||Chen,H.M., C.R. Zheng, C. Tu, and Z.G. Shen|Chemical Methods and Phytoremediation of Soil Contaminated with Heavy Metals|Chemosphere41(1-2): 229-234|2000|10.1016/S0045-6535(99)00415-4
83499|T||Chabicovsky,M., W. Klepal, and R. Dallinger|Mechanisms of Cadmium Toxicity in Terrestrial Pulmonates:  Programmed Cell Death and Metallothionein Overload|Environ. Toxicol. Chem.23(3): 648-655|2004|10.1897/02-617
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83502|T||Tandon,S.K., S. Prasad, S. Singh, and D.K. Agarwal|Efficacy of Amphipathic Dithiocarbamates in Intracellular Cadmium Mobilization and in Modulation of Hepatic and Renal Metallothionein in Cadmium Pre-Exposed Rat|Chem.-Biol. Interact.114(3): 161-175|1998|10.1016/S0009-2797(98)00043-X
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83504|T||Nation,J.R., C.L. Livermore, and G.R. Bratton|Cadmium Exposure Attenuates the Initiation of Behavioral Sensitization to Cocaine|Brain Res.702(1-2): 223-232|1995|10.1016/0006-8993(95)01060-2
83505|T||Minami,A., A. Takeda, D. Nishibaba, S. Takefuta, and N. Oku|Cadmium Toxicity in Synaptic Neurotransmission in the Brain|Brain Res.894(2): 336-339|2001|10.1016/S0006-8993(01)02022-4
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83739|T||Sato,M., and Y. Nagai|Effect of Zinc Deficiency on the Accumulation of Metallothionein and Cadmium in the Rat Liver and Kidney|Arch. Environ. Contam. Toxicol.18(4): 587-593|1989|10.1007/BF01055026
83740|T||Griffin,J.L., L.A. Walker, R.F. Shore, and J.K. Nicholson|Metabolic Profiling of Chronic Cadmium Exposure in the Rat|Chem. Res. Toxicol.14(10): 1428-1434|2001|10.1021/tx015521u
83741|A||Rauscher,J.D.|Toxic Effects of Selenium and Copper on the Planarian, Dugesia dorotocephala|Ph.D.Thesis, University of Colorado, Boulder, CO:184 p.|1988|
83742|T||Grawe,K.P., and A. Oskarsson|Cadmium in Milk and Mammary Gland in Rats and Mice|Arch. Toxicol.73(10-11): 519-527|2000|10.1007/s002040050003
83743|T||Sutoo,D., and K. Akiyama|Effect of Cadmium or Magnesium on Calcium-Dependent Central Function that Reduces Blood Pressure|Arch. Toxicol.74(1): 1-4|2000|10.1007/s002040050644
83744|T||Rengel,Z.|Chelator EDTA in Nutrient Solution Decreases Growth of Wheat|J. Plant Nutr.25(8): 1709-1725|2002|10.1081/PLN-120006053
83745|T||Piccini,D.F., and E. Malavolta|Effect of Nickel on Two Common Bean Cultivars|J. Plant Nutr.15(11): 2343-2350|1992|10.1080/01904169209364478
83746|A||Lugo,A., L.A. Bravo-Inclan, J. Alcocer, M.L. Gaytan, M.G. Oliva, M.R. Sanchez, M. Chavez, and G. Vilaclara|Effect on the Planktonic Community of the Chemical Program Used to Control Water Hyacinth (Eichhornia crassipes) in Guadalupe Dam, Mexico|Aquat. Ecosyst. Health Manag.1(3/4): 333-343|1998|10.1080/14634989808656928
83747|A||Chatterjee,A., and I.B. Maiti|Induction and Turnover of Catfish (Heteropneustes fossilis) Metallothionein|Mol. Cell. Biochem.108(1): 29-38|1991|10.1007/BF00239539
83748|A||Radlowska,M., and J. Pempkowiak|Induction of Stress Proteins in the Presence of Cadmium in the Baltic Blue Mussel Mytilus trossulus|Oceanologia (Wroc.)40(2): 153-156|1998|
83749|A||Maloney,J.|Influence of Organic Enrichment on the Partitioning and Bioavailability of Cadmium in a Microcosm Study|Mar. Ecol. Prog. Ser.144(1-3): 147-161|1996|10.3354/meps144147
83750|A||Smith,D.A., G.G. Schurig, S.A. Smith, and S.D. Holladay|Inhibited Cytotoxic Leukocyte Activity in Tilapia (Oreochromis niloticus) Following Exposure to Immunotoxic Chemicals|Int. J. Toxicol.18(3): 167-172|1999|10.1080/109158199225459
83751|A||Nagel,K., U. Adelmeier, and J. Voigt|Subcellular Distribution of Cadmium in the Unicellular Green Alga Chlamydomonas reinhardtii|J. Plant Physiol.149(1-2): 86-90|1996|10.1016/S0176-1617(96)80178-7
83752|A||Govorunova,E.G., I.M. Altschuler, D.P. Hader, and O.A. Sineshchekov|A Novel Express Bioassay for Detecting Toxic Substances in Water by Recording Rhodopsin-Mediated Photoelectric Responses in Chlamydomonas Cell Suspensions|Photochem. Photobiol.72(3): 320-326|2000|10.1562/0031-8655(2000)072<0320:ANEBFD>2.0.CO;2
83753|T||Ni,W.Z., X.E. Yang, and X.X. Long|Comparative Studies on Zinc Tolerance and Accumulation Between Two Ecotypes of Sedum alfredii Hance in Southeastern China|J. Plant Nutr.27(4): 627-635|2004|10.1081/PLN-120030372
83754|A||Forsythe II,B.L.|Silver in a Freshwater Ecosystem:  Acute Toxicity and Trophic Transfer|Ph.D. Thesis, Clemson University, Clemson, SC:149 p.|1996|
83755|A||Podola,B., and M. Melkonian|Selective Real-Time Herbicide Monitoring by an Array Chip Biosensor Employing Diverse Microalgae|J. Appl. Phycol.17(3): 261-271|2005|10.1007/s10811-005-4945-5
83756|T||Youssef,T.|Evidence for Reduced Post-Spill Recovery by the Halophyte Sporobolus iocladus (Nees ex Trin.) Nees in Oil-Contaminated Sediments|Mar. Pollut. Bull.44(4): 334-339|2002|10.1016/S0025-326X(01)00265-X
83757|A||Vijayavel,K., and M.P. Balasubramanian|Fluctuations of Biochemical Constituents and Marker Enzymes as a Consequence of Naphthalene Toxicity in the Edible Estuarine Crab Scylla serrata|Ecotoxicol. Environ. Saf.63(1): 141-147|2006|10.1016/j.ecoenv.2005.02.004
83758|A||Thomas,P., and K. Doughty|Disruption of Rapid, Nongenomic Steroid Actions by Environmental Chemicals:  Interference with Progestin Stimulation of Sperm Motility in Atlantic Croaker|Environ. Sci. Technol.38(23): 6328-6332|2004|10.1021/es0403662
83759|T||Singh,S., and J. Singh|Dermal Toxicity and Microscopic Alterations by JP-8 Jet Fuel Components In Vivo in Rabbit|Environ. Toxicol. Pharmacol.16(3): 153-161|2004|10.1016/j.etap.2003.12.001
83760|T||Fanucchi,M.V., A.R. Buckpitt, M.E. Murphy, and C.G. Plopper|Naphthalene Cytotoxicity of Differentiating Clara Cells in Neonatal Mice|Toxicol. Appl. Pharmacol.144(1): 96-104|1997|10.1006/taap.1997.8119
83761|T||Boitaud,L., S. Salmon, C. Bourlette, and J.F. Ponge|Avoidance of Low Doses of Naphthalene by Collembola|Environ. Pollut.139(3): 451-454|2006|10.1016/j.envpol.2005.06.013
83765|T||Bhide,S.V., N. Ammigan, U.J. Nair, and V.S. Lalitha|Carcinogenicity Studies of Tobacco Extract in Vitamin A-Deficient Sprague-Dawley Rats|Cancer Res.51(11): 3018-3023|1991|
83766|T||Ammigan,N., U.J. Nair, V.S. Lalitha, and S.V. Bhide|Carcinogenicity Studies of Masheri:  Pyrolysed Tobacco Product, in Vitamin-A-Deficient Sprague Dawley Rats|J. Cancer Res. Clin. Oncol.117(1): 50-54|1991|10.1007/BF01613196
83767|T||Nair,U.J., N. Ammigan, J.J. Kayal, and S.V. Bhide|Species Differences in Hepatic Pulmonary and Upper Gastrointestinal Tract Biotransformation Enzymes on Long-Term Feeding of Masheri, a Pyrolyzed Tobacco Product|Dig. Dis. Sci.36(3): 293-298|1991|10.1007/BF01318199
83768|T||Nair,U.J., N. Ammigan, M. Nagabhushan, A.J. Amonkar, and S.V. Bhide|Effect of Vitamin A Status of Rats on Metabolizing Enzymes After Exposure to Tobacco Extract or N'-Nitroconornicotine|IARC Sci. Publ.105:525-528|1991|
83769|A||Wolfe,M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema, and M.L. Sowby|Effects of Salinity and Temperature on the Bioavailability of Dispersed Petroleum Hydrocarbons to the Golden-Brown Algae, Isochrysis galbana|Arch. Environ. Contam. Toxicol.35(2): 268-273|1998|10.1007/s002449900375
83772|T||O'Brien,K.A.F., C. Suverkropp, S. Kanekal, C.G. Plopper, and A.R. Buckpitt|Tolerance to Multiple Doses of the Pulmonary Toxicant Naphthalene|Toxicol. Appl. Pharmacol.99(3): 487-500|1989|10.1016/0041-008X(89)90156-7
83773|T||Verschoyle,R.D., J. Martin, and D. Dinsdale|Selective Inhibition and Induction of CYP Activity Discriminates Between the Isoforms Responsible for the Activation of Butylated Hydroxytoluene and Naphthalene in Mouse Lung|Xenobiotica27(8): 853-864|1997|10.1080/004982597240217
83774|T||Standard Oil Co.|Summary of 3 Week Dermal Toxicity Study in Rats|Shell Oil Company, Houston, TX:239 p.|1984|
83775|T||EPA/OTS|The Acute Oral LD50 in Rats Prepared by Food & Drug Res. Labs Inc.|EPA/OTS Doc.#878210720:|1983|
83776|T||Honda,T., M. Kiyozumi, and S. Kojima|Alkylnaphthalene.  XI.  Pulmonary Toxicity of Naphthalene, 2-Methylnaphthalene, and Isopropylnaphthalenes in Mice|Chem. Pharm. Bull.38(11): 3130-3135|1990|10.1248/cpb.38.3130
83777|T||Hou,P.C.L., X. Zou, C.Y. Huang, and H.J. Chien|Plant Litter Decomposition Influenced by Soil Animals and Disturbance in a Subtropical Rainforest of Taiwan|Pedobiologia (Multiple Languages)49(6): 539-547|2005|10.1016/j.pedobi.2005.07.001
83778|AT||Kennedy,L.L., C.C. Aguwa, J.E. Rives, and D.G. Bernard|Involvement of Cholinergic Mechanisms in the Central Control of Respiration in the Cane Toad, Bufo marinus|Comp. Biochem. Physiol. A Mol. Integr. Physiol.128(4): 837-849|2001|10.1016/S1095-6433(00)00342-1
83779|A||Levin,E.D., and E. Chen|Nicotinic Involvement in Memory Function in Zebrafish|Neurotoxicol. Teratol.26(6): 731-735|2004|10.1016/j.ntt.2004.06.010
83780|T||Pessoa,R.F., N.G. Castro, and F. Noel|Binding of [3H]MK-801 in Subcellular Fractions of Schistosoma mansoni:  Evidence for Interaction with Nicotinic Receptors|Biochem. Pharmacol.69(10): 1509-1516|2005|10.1016/j.bcp.2005.03.005
83782|T||Giridhar,P., and S.M. Reddy|Effect of Some Food Preservatives on Seed Mycoflora of Fenugreek|Seed Res.25(1): 92-93|1997|
83783|T||Van Winkle,L.S., Z.A. Johnson, S.J. Nishio, C.D. Brown, and C.G. Plopper|Early Events in Naphthalene-Induced Acute Clara Cell Toxicity:  Comparison of Membrane Permeability and Ultrastructure|Am. J. Respir. Cell Mol. Biol.21(1): 44-53|1999|10.1165/ajrcmb.21.1.3630
83786|A||Halm,M.P., M.P. Chichery, and R. Chichery|The Role of Cholinergic Networks of the Anterior Basal and Inferior Frontal Lobes in the Predatory Behaviour of Sepia officinalis|Comp. Biochem. Physiol. A Mol. Integr. Physiol.132(2): 267-274|2002|10.1016/S1095-6433(02)00002-8
83790|AT||Luoma,S.N., and E.A. Jenne|The Availability of Sediment-Bound Cobalt, Silver, and Zinc to a Deposit-Feeding Clam|In: H.Drucker and R.E.Wildung (Eds.), Biological Implications of Metals in the Environment, Springfield, VA:213-230|1977|
83801|A||Clausen,P.S., P. Bjerregaard, and M.H. Depledge|Passive and Active Cadmium Uptake in the Isolated Gills of the Shore Crab, Carcinus maenas (L.)|Chemosphere26(12): 2209-2219|1993|10.1016/0045-6535(93)90347-8
83811|A||Jensen,R., and J. Knudsen|Activity and Inducibility of Aryl Hydrocarbon Hydroxylase in the Eelpout Zoarces viviparus (L.)|Arch. Environ. Contam. Toxicol.12(6): 673-678|1983|10.1007/BF01060750
83812|T||Mobil Oil Co.|Summary of Mobil Oil 90 Day Dermal Toxicity Study in Rats with Attached Protocol and Cover Letter|EPA/OTS Doc# 88-8400620:7 p.|1984|
83813|T||Standard Oil Co.(Indiana)|Response to EPA Document 8EHQ-0284-0505 Clarification of Substance Identity and list of Toxicity Studies with Attached Journal Article|EPA/OTS Doc.#88-8400618:12 p.|1984|
83814|T||IIT Research Institute|Summary of Histopathological Observations on Rat Testes with Attached Raw Data|EPA/OTS Doc.#88-8400638:7 p.|1984|
83815|T||U.S. Environmental Protection Agency|EPA Response to Submittal of Summary of 3 Week Dermal Toxicity Study in Rats|EPA/OTS Doc.#88-8400592:6 p.|1984|
83886|T||Polidoro,G., C. Di Ilio, A. Arduini, A. Aceto, and G. Federici|Effect of Oral Administration of 3-Methylcholanthrene on GSH-Redox Cycle Enzymes in Various Organs of the Guinea Pig|IRCS Med. Sci. Biochem.13(6): 549-550|1985|
83887|A||Liu,H., W. Ye, X. Zhan, and W. Liu|A Comparative Study of Rac- and S-Metolachlor Toxicity to Daphnia magna|Ecotoxicol. Environ. Saf.63(3): 451-455|2006|10.1016/j.ecoenv.2005.02.002
83888|A||Mahar,A.M., and M.C. Watzin|Effects of Metal and Organophosphate Mixtures on Ceriodaphnia dubia Survival and Reproduction|Environ. Toxicol. Chem.24(7): 1579-1586|2005|10.1897/04-162R.1
83889|A||Dawson,D.A., D.J. Fort, G.J. Smith, D.L. Newell, and J.A. Bantle|Evaluation of the Developmental Toxicity of Nicotine and Cotinine with Frog Embryo Teratogenesis Assay:  Xenopus|Teratog. Carcinog. Mutagen.8(6): 329-338|1988|10.1002/tcm.1770080603
83890|A||Giri,B.S., and Y.B.K. Chowdary|Inhibition of Nuclear Migration by Nicotine and It's Reversion by Magnesium|Indian J. Exp. Biol.30(7): 644-645|1992|
83893|A||Mikolajczyk,T., J. Chyb, M. Sokolowska-Mikolajczyk, B. Breton, K. Monden, and P. Epler|Nicotine Stimulated GtH2 Secretion In Vivo in Male Common Carp (Cyprinus carpio); Potentiation of GnRH Action and Possible Interaction with Dopaminergic System|Aquat. Living Resour.11(3): 155-161|1998|10.1016/S0990-7440(98)80112-5
83894|T||Nagata,M., and Y. Osumi|Dual Effects of Intracerebroventricularly Applied Nicotine on Gastric Motility in Rats|In: 16th Annu.Meet.of the Experimental Ulcer Assoc.of Jpn., Dec.2, 1988, Kyoto, Japan, Scan.J.Gastroenterol.Suppl.24(162): 124-126|1989|
83895|A||Hutchinson,T.C., J.A. Hellebust, and C. Soto|Effect of Naphthalene and Aqueous Crude Oil Extracts on the Green Flagellate Chlamydomonas angulosa IV.  Decreases in Cellular Manganese and Potassium|Can. J. Bot.59(5): 742-749|1981|10.1139/b81-105
83896|T||Chao,S.L., T.J. Dennehy, and J.E. Casida|Whitefly (Hemiptera: Aleyrodidae) Binding Site for Imidacloprid and Related Insecticides: A Putative Nicotinic Acetylcholine Receptor|J. Econ. Entomol.90(4): 879-882|1997|10.1093/jee/90.4.879
83898|T||Abdelsalam,E.B.|Neurotoxic Potential of Six Organophosphorus Compounds in Adult Hens|Vet. Hum. Toxicol.41(5): 290-292|1999|
83899|T||Vinitskaya,H., A. Lachowicz, A. Kilanowicz, J. Bartkowiak, and L. Zylinska|Exposure to Polychlorinated Naphthalenes Affects GABA-Metabolizing Enzymes in Rat Brain|Environ. Toxicol. Pharmacol.20(3): 450-455|2005|10.1016/j.etap.2005.05.004
83900|A||Van Hattum,B., M.J. Curto Pons, and J.F. Cid Montanes|Polycyclic Aromatic Hydrocarbons in Freshwater Isopods and Field-Partitioning Between Abiotic Phases|Arch. Environ. Contam. Toxicol.35(2): 257-267|1998|10.1007/s002449900374
83901|A||Morgan,M.B., and T.W. Snell|Characterizing Stress Gene Expression in Reef-Building Corals Exposed to the Mosquitoside Dibrom|Mar. Pollut. Bull.44(11): 1206-1218|2002|10.1016/S0025-326X(02)00177-7
83902|A||Wolfe,M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema, and M.L. Sowby|Influence of Dispersants on the Bioavailability and Trophic Transfer of Petroleum Hydrocarbons to Larval Topsmelt (Atherinops affinis)|Aquat. Toxicol.52(1): 49-60|2001|10.1016/S0166-445X(00)00131-4
83903|A||Rossi,S.S., and J.W. Anderson|Accumulation and Release of Fuel-Oil-Derived Diaromatic Hydrocarbons by the Polychaete Neanthes arenaceodentata|Mar. Biol.39(1): 51-55|1977|10.1007/BF00395592
83906|T||Pharmakon Research International|Acute Exposure Dermal Toxicity in Rabbits with Naphthalene|EPA/OTS Doc.#86-870000553:14 p.|2000|
83909|A||Maria,V.L., C. Gravato, A.C. Correia, and M.A. Santos|Biotransformation and Genotoxicity Responses to PAHs in Two Teleost Species|Fresenius Environ. Bull.11(9a): 609-615|2002|
83910|T||Robinson,S.F., M.J. Marks, and A.C. Collins|Inbred Mouse Strains Vary in Oral Self-Selection of Nicotine|Psychopharmacology124:332-339|1996|10.1007/BF02247438
83911|T||Wildlife International Ltd.|An Acute Oral Toxicity Study in the Bobwhite with Naphthalene (Final Report)|EPA/OTS Doc.#86-870000550:23 p.|2000|
83912|T||Bhagawati,B., and P.N. Phukan|Chemical Control of Meloidogyne incognita on Pea|Indian J. Nematol.20(1): 79-83|1990|
83913|T||Gogoi,B.B., and P.N. Phukan|Efficacy of Certain Chemicals as Seed Treatment Against Meloidogyne incognita on Lentil|Indian J. Nematol.20(1): 53-56|1990|
83914|A||Epsey Huston and Associates Inc.|Bioassay Testing of Sample 5601-56-1 in Fresh Water with Theleopomis macrochirus and Daphnia magna|EPA/OTS Doc.#86-870000557:22 p.|2000|
83915|T||Texaco Incoporation|Acute Exposure Oral Toxicity Using Naphthalene|Rep.PH 402-TX-002-84, EPA 86-870000552:26 p.|2000|
83916|A||BioDynamics Inc.|Acute Toxicity of Naphthalene to Daphnia in a Flow-Through System|EPA/OTS Doc.#86-870000911:20 p.|1987|
83917|A||Dow Chemical Co.|Evaluation of Crude Naphthalene in the Aquatic Environment|EPA/OTS Doc.#86-870002087:9 p.|1987|
83918|A||BioDynamics Inc.|A Flow-Through Acute Fish Toxicity Test of Naphthalene|EPA/OTS Doc.#86-870000910:26 p.|1987|
83920|T||Jett,D.A., R.A. Beckles, R.V. Navoa, and G.L. McLemore|Increased High-Affinity Nicotinic Receptor-Binding in Rats Exposed to Lead During Development|Neurotoxicol. Teratol.24(6): 805-811|2002|10.1016/S0892-0362(02)00314-8
83921|A||Dwivedi,H., R. Sarin, and S. Wate|Long Term Effects of Di-Aromatic Hydrocarbon Cat Fish Heteropneustes fossilis|J. Ecobiol.9(4): 247-254|1997|
83922|T||Union Carbide Corp.|The Acute Toxicity of Naphthalene|Report 12-79, EPA 86-870001407:3 p.|1987|
83923|A||Exxon|Algistatic/Algicidal Toxicity of Naphthalene|MRD-83-287, 328759, EPA 86-870000909:21 p.|1987|
83924|T||Barnett,J.B., J.M. Spyker-Cranmer, D.L. Avery, and A.M. Hoberman|Immunocompetence over the Lifespan of Mice Exposed In Utero to Carbofuran or Diazinon:  I.  Changes in Serum Immunoglobulin Concentrations|J. Environ. Pathol. Toxicol.4(5-6): 53-63|1980|
83925|A||Syracuse Research Corp.|Results of Continuous Exposure of Fathead Minnow Embryo to 21 Priority Pollutants|EPA/OTS 40-7848049:47 p.|1978|
83926|AT||Yanni,Y.G.|Fertilizer Responses of Rice to Nitrogen and Cyanobacteria in the Presence of Insecticides|Soil Biol. Biochem.24(11): 1085-1088|1992|10.1016/0038-0717(92)90057-5
83928|A||Vijayavel,K., C. Anbuselvam, and M.P. Balasubramanian|Naphthalene-Induced Hematological Disturbances and Oxidative Stress in an Estuarine Edible Crab, Scylla serrata|Environ. Toxicol.20(4): 464-466|2005|10.1002/tox.20133
83930|A||Harrison,P.K., C. Falugi, C. Angelini, and M.J. Whitaker|Muscarinic Signalling Affects Intracellular Calcium Concentration During the First Cell Cycle of Sea Urchin Embryos|Cell Calcium31(6): 289-297|2002|10.1016/S0143-4160(02)00057-X
83931|T||Abdel-Rahman,A., A.M. Dechkovskaia, H. Mehta-Simmons, X. Guan, W.A. Khan, and M.B. Abou-Donia|Increased Expression of Glial Fibrillary Acidic Protein in Cerebellum and Hippocampus:  Differential Effects on Neonatal Brain Regional Acetylcholinesterase Following Maternal Exposure to Combined Chlorpyrifos and Nicot|J. Toxicol. Environ. Health Part A66(21): 2047-2066|2003|10.1080/713853982
83933|T||IIT Research Institute|Three Week Dermal Toxicity Study in Rats Pathology Report and Revised Pathology Report with Cover Letter|EPA/OTS Doc.#88-8500693:49 p.|1984|
83934|T||IIT Research Institute|Three-Week Dermal Toxicity Study of NMP - Extracted Sx-5 Base Oil in Rats Final Report with Revised Pathology Report and Cover Letter|EPA/OTS Doc.#88-8500686:77 p.|1984|
83943|A||Jenner,H.A., and J.P.M. Janssen-Mommen|Phytomonitoring of Pulverized Fuel Ash Leachates by the Duckweed (Lemna minor)|Hydrobiologia (Multiple Languages)188-189:361-366|1989|10.1007/BF00027801
83950|A||Shell Oil Co.|Propylene Oxide:  Acute Toxicity and N-Octanol/Water Partition Coefficient|Shell Oil Company, Houston, TX:26 p.|1987|
83951|A||Shell Oil Co.|Initial Submission:  Epikote 1001-X-75:  Acute Toxicity (Salmo gairdneri, Daphnia magna & Selenastrum capricornutum & N-Octanol/Water Partition Coefficient with Cover Letter 041592|EPA/OTS Doc.#88-920001991:35 p.|1992|
84007|T||Brasel,J.M.|Developing the Homing Pigeon (Columba livia) to Assess the Effects of Xenobiotics on Avian Species|Ph.D.Thesis, University of Nevada, Reno, NV:111 p.|2005|
84008|A||Hsieh,S.H., K.P. Tsai, and C.Y. Chen|The Combined Toxic Effects of Nonpolar Narcotic Chemicals to Pseudokirchneriella subcapitata|Water Res.40(10): 1957-1964|2006|10.1016/j.watres.2006.03.026
84009|T||Navarro,H.A., C.J. Price, M.C. Marr, C.B. Myers, J.J. Heindel, and B.A. Schwetz|Final Report on the Developmental Toxicity of Naphthalene (CAS No. 91-20-3) in Sprague-Dawley (CD) Rats on Gestational Days 6 Through 15.|Res.Triangle Inst., Research Triangle Park, NC:242 p.|1991|
84011|A||Kusk,K.O.|Effects of Naphthalene on the Diatom Phaeodactylum tricornutum Grown Under Varied Conditions|Bot. Mar.24(9): 485-487|1981|10.1515/botm.1981.24.9.485
84012|A||Mikolajczyk,T., P. Epler, M. Sokolowska-Mikolajczyk, B. Breton, J. Chyb, and E. Cwioro|The Effects of Nicotine in Combination with Antidopaminergic Drugs on the Maturational Gonadotropin (GTH2) Secretion from Perifused Common Carp (Cyprinus carpio L.) Pituitary Glands|Pol. Arch. Hydrobiol.43(3): 373-378|1996|
84014|T||Pearson,P.G., J.G. Omichinski, J.A. Holme, R.H. McClanahan, G. Brunborg, E.J. Soderlund, E. Dybing, and S.D. Nelson|Metabolic Activation of Tris(2,3-Dibromopropyl)Phosphate to Reactive Intermediates:  II.  Covalent Binding, Reactive Metabolite Formation, and Differential Metabolite-Specific DNA Damage In Vivo|Toxicol. Appl. Pharmacol.118(2): 196-204|1993|10.1006/taap.1993.1025
84015|T||Polo,C.F., E.S. Vazquez, and A.M.D.C. Batlle|Regulation of Heme Pathway in Regenerating Mouse Liver|Comp. Biochem. Physiol. B Comp. Biochem.101(1-2): 243-246|1992|10.1016/0305-0491(92)90186-U
84016|T||Thompson,W.L., and R.W.,Jr. Wannemacher|In Vivo Effects of T-2 Mycotoxin on Synthesis of Proteins and DNA in Rat Tissues|Toxicol. Appl. Pharmacol.105(3): 483-491|1990|10.1016/0041-008X(90)90151-J
84017|T||Yamamoto,S., H. Jiang, C. Otsuka, and R. Kato|Involvement of Prostaglandin E2 in Ornithine Decarboxylase Induction by a Tumor-Promoting Agent, 7-Bromomethylbenz(a)anthracene, in Mouse Epidermis|Carcinogenesis13(5): 905-906|1992|10.1093/carcin/13.5.905
84018|A||Ikawa,M., J.J. Sasner, and J.F. Haney|Inhibition of Chlorella Growth by Degradation and Related Products of Linoleic and Linolenic Acids and the Possible Significance of Polyunsaturated Fatty Acids in Phytoplankton Ecology|Hydrobiologia (Multiple Languages)356:143-148|1997|10.1023/A:1003103726520
84019|T||Dettner,K., R. Fettkother, O. Ansteeg, R. Demi, C. Liepert, B. Petersen, E. Haslinger, and W. Francke|Insecticidal Fumigants from Defensive Glands of Insects - a Fumigant Test with Adults of Drosophila melanogaster|J. Appl. Entomol.113(2): 128-137|1992|10.1111/j.1439-0418.1992.tb00646.x
84021|T||Bevins,R.A., S. Eurek, and J. Besheer|Timing of Conditioned Responding in a Nicotine Locomotor Conditioning Preparation:  Manipulations of the Temporal Arrangement Between Context Cues and Drug Administration|Behav. Brain Res.159(1): 135-143|2005|10.1016/j.bbr.2004.10.012
84022|T||Gurkalo,V.K., and N.I. Volfson|Nicotine Influence upon the Development of Experimental Stomach Tumors|Arch. Geschwulstforsch.52(4): 259-265|1982|
84023|T||Saad,A.Y.M., L.P. Gartner, and J.L. Hiatt|Teratogenic Effects of Nicotine on First Molar Odontogenesis in the Mouse|Acta Morphol. Hung.39(2): 87-96|1991|
84026|T||Russo,I.H., M. Koszalka, and J. Russo|Comparative Study of the Influence of Pregnancy and Hormonal Treatment on Mammary Carcinogenesis|Br. J. Cancer64(3): 481-484|1991|10.1038/bjc.1991.335
84027|T||Saad,A.Y.|Postnatal Effects of Nicotine on First Molar Development in the CD-1 Mouse|Acta Anat.140(3): 269-272|1991|10.1159/000147067
84028|T||Maitani,T., A. Watahiki, and K.T. Suzuki|Acute Renal Dysfunction by Cadmium Injected with Cysteine in Relation to Renal Critical Concentration of Cadmium|Arch. Toxicol.58(3): 136-140|1986|10.1007/BF00340972
84029|T||Schmidt,J., S. Brettner, A. Wegener, and O. Hockwin|Ultraviolet-Induced Changes in Corneal Transmission Properties and Influence on Scheimpflug Photography|Ophthalmic Res.22:365-370|1990|10.1159/000267048
84030|T||Uno,S., T.P. Dalton, N. Dragin, C.P. Curran, S. Derkenne, M.L. Miller, H.G. Shertzer, F.J. Gonzalez, and D.W. Nebert|Oral Benzo(a)pyrene in Cyp1 Knockout Mouse Lines:  CYP1A1 Important in Detoxication, CYP1B1 Metabolism Required for Immune Damage Independent of Total-body Burden and Clearance Rate|Mol. Pharmacol.69(4): 1103-1114|2006|10.1124/mol.105.021501
84031|A||Madhusudan,S., F. Liyaquat, and C. Nadim|Bioaccumulation of Zinc and Cadmium in Freshwater Fishes|Indian J. Fish.50(1): 53-65|2003|
84032|A||Buchwalter,D.B., and S.N. Luoma|Differences in Dissolved Cadmium and Zinc Uptake among Stream Insects:  Mechanistic Explanations|Environ. Sci. Technol.39(2): 498-504|2005|10.1021/es0404421
84033|A||Blackmore,G., and W.X. Wang|The Transfer of Cadmium, Mercury, Methylmercury, and Zinc in an Intertidal Rocky Shore Food Chain|J. Exp. Mar. Biol. Ecol.307(1): 91-110|2004|10.1016/j.jembe.2004.01.021
84034|A||Bervoets,L., J. Voets, A. Covaci, S. Chu, D. Qadah, R. Smolders, P. Schepens, and R. Blust|Use of Transplanted Zebra Mussels (Dreissena polymorpha) to Assess the Bioavailability of Microcontaminants in Flemish Surface Waters|Environ. Sci. Technol.39(6): 1492-1505|2005|10.1021/es049048t
84035|A||Zhang,L., and W.X. Wang|Effects of Zn Pre-Exposure on Cd and Zn Bioaccumulation and Metallothionein Levels in Two Species of Marine Fish|Aquat. Toxicol.73(4): 353-369|2005|10.1016/j.aquatox.2005.04.001
84036|T||Weis,J.S., T. Glover, and P. Weis|Interactions of Metals Affect Their Distribution in Tissues of Phragmites australis|Environ. Pollut.131(3): 409-415|2004|10.1016/j.envpol.2004.03.006
84037|A||Taylor,R.L., G.S. Caldwell, and M.G. Bentley|Toxicity of Algal-Derived Aldehydes to Two Invertebrate Species:  Do Heavy Metal Pollutants have a Synergistic Effect?|Aquat. Toxicol.74(1): 20-31|2005|10.1016/j.aquatox.2005.04.006
84039|A||Sanchez-Bayo,F., and K. Goka|Unexpected Effects of Zinc Pyrithione and Imidacloprid on Japanese Medaka Fish (Oryzias latipes)|Aquat. Toxicol.74(4): 285-293|2005|10.1016/j.aquatox.2005.06.003
84040|A||Niyogi,S., and C.M. Wood|Interaction Between Dietary Calcium Supplementation and Chronic Waterborne Zinc Exposure in Juvenile Rainbow Trout, Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(1): 94-102|2006|10.1016/j.cbpc.2005.12.007
84041|A||Muyssen,B.T.A., B.T.A. Bossuyt, and C.R. Janssen|Inter- and Intra-Species Variation in Acute Zinc Tolerance of Field-Collected Cladoceran Populations|Chemosphere61(8): 1159-1167|2005|10.1016/j.chemosphere.2005.02.076
84042|A||Martin-Diaz,M.L., J. Blasco, M.G. De Canales, D. Sales, and T.A. DelValls|Bioaccumulation and Toxicity of Dissolved Heavy Metals from the Guadalquivir Estuary After the Aznalcollar Mining Spill Using Ruditapes philippinarum|Arch. Environ. Contam. Toxicol.48(2): 233-241|2005|10.1007/s00244-003-9202-9
84044|A||Li,M., C. Hu, Q. Zhu, L. Chen, Z. Kong, and Z. Liu|Copper and Zinc Induction of Lipid Peroxidation and Effects on Antioxidant Enzyme Activities in the Microalga Pavlova viridis (Prymnesiophyceae)|Chemosphere62(4): 565-572|2006|10.1016/j.chemosphere.2005.06.029
84045|A||Kamaya,Y., T. Takada, and K. Suzuki|Effect of Medium Phosphate Levels on the Sensitivity of Selenastrum capricornutum to Chemicals|Bull. Environ. Contam. Toxicol.73(6): 995-1000|2004|10.1007/s00128-004-0524-8
84046|A||Hyne,R.V., F. Pablo, M. Julli, and S.J. Markich|Influence of Water Chemistry on the Acute Toxicity of Copper and Zinc to the Cladoceran Ceriodaphnia cf dubia|Environ. Toxicol. Chem.24(7): 1667-1675|2005|10.1897/04-497R.1
84047|A||Hjorth,M., I. Dahllof, and V.E. Forbes|Effects on the Function of Three Trophic Levels in Marine Plankton Communities Under Stress from the Antifouling Compound Zinc Pyrithione|Aquat. Toxicol.77(1): 105-115|2006|10.1016/j.aquatox.2005.11.003
84048|A||Hjorth,M., R. Haller, and I. Dahllof|The Use of 14C Tracer Technique to Assess the Functional Response of Zooplankton Community Grazing to Toxic Impact|Mar. Environ. Res.61(3): 339-351|2006|10.1016/j.marenvres.2005.11.003
84049|A||Hassler,C.S., R. Behra, and K.J. Wilkinson|Impact of Zinc Acclimation on Bioaccumulation and Homeostasis in Chlorella kesslerii|Aquat. Toxicol.74(2): 139-149|2005|10.1016/j.aquatox.2005.02.008
84050|T||Fomina,M.A., I.J. Alexander, J.V. Colpaert, and G.M. Gadd|Solubilization of Toxic Metal Minerals and Metal Tolerance of Mycorrhizal Fungi|Soil Biol. Biochem.37(5): 851-866|2005|10.1016/j.soilbio.2004.10.013
84051|A||De Schamphelaere,K.A.C., and C.R. Janssen|Bioavailability and Chronic Toxicity of Zinc to Juvenile Rainbow Trout (Oncorhynchus mykiss): Comparison with Other Fish Species and Development of a Biotic Ligand Model|Environ. Sci. Technol.38(23): 6201-6209|2004|10.1021/es049720m
84052|A||De Schamphelaere,K.A.C., S. Lofts, and C.R. Janssen|Bioavailability Models for Predicting Acute and Chronic Toxicity of Zinc to Algae, Daphnids, and Fish in Natural Surface Waters|Environ. Toxicol. Chem.24(5): 1190-1197|2005|10.1897/04-229R.1
84053|A||Brinkman,S., and J. Woodling|Zinc Toxicity to the Mottled Sculpin (Cottus bairdi) in High-Hardness Water|Environ. Toxicol. Chem.24(6): 1515-1517|2005|10.1897/04-235R.1
84054|A||Bellas,J., A. Granmo, and R. Beiras|Embryotoxicity of the Antifouling Biocide Zinc Pyrithione to Sea Urchin (Paracentrotus lividus) and Mussel (Mytilus edulis)|Mar. Pollut. Bull.50(11): 1382-1385|2005|10.1016/j.marpolbul.2005.06.010
84056|A||Padhi,M., and S. Padhi|Effect of Zinc on Growth Dynamics and Macromolecular Contents of Two Marine Blue Green Algae, Gloeocapsa granosa and Lyngbya epiphytica|J. Environ. Pollut.5(4): 291-297|1998|
84058|A||Nagasaka,S., N.K. Nishizawa, S. Mori, and E. Yoshimura|Metal Metabolism in the Red Alga Cyanidium caldarium and Its Relationship to Metal Tolerance|BioMetals17(2): 177-181|2004|10.1023/B:BIOM.0000018403.37716.ff
84059|T||McCabe,O.M., J.L. Baldwin, and M.L. Otte|Metal Tolerance in Wetland Plants|Minerva Biotecnol.13(2): 141-149|2001|
84060|A||Liao,C.M., M.C. Lin, C.H. Chang, B.C. Chen, and H.C. Chiang|Tissue Distribution and Kinetics of Dietary and Waterborne Zinc in Abalone (Haliotis diversicolor supertexta)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control34(10): 1945-1966|1999|
84061|A||Chen,W.Y., J.A.C. John, C.H. Lin, H.F. Lin, S.C. Wu, and C.Y. Chang|Expression of Metallothionein Gene During Embryonic and Early Larval Development in Zebrafish|Aquat. Toxicol.69(3): 215-227|2004|10.1016/j.aquatox.2004.05.004
84062|A||Johnson,I., M. Harman, D. Forrow, and M. Norris|An Assessment of the Feasibility of Using Image Analysis in the Oyster Embryo-Larval Development Test|Environ. Toxicol.16(1): 68-77|2001|10.1002/1522-7278(2001)16:1<68::AID-TOX80>3.0.CO;2-D
84063|A||Hemalatha,S., and T.K. Banerjee|Estimation of Acute Toxicity of Zinc Chloride by Histopathological Analysis of the Epidermal Linings of Operculum of the Catfish Heteropneustes fossilis (Bloch)|Toxicol. Int.10(1): 11-22|2003|
84064|A||De Schamphelaere,K.A.C., D.G. Heijerick, and C.R. Janssen|Comparison of the Effect of Different pH Buffering Techniques on the Toxicity of Copper and Zinc to Daphnia magna and Pseudokirchneriella subcapitata|Ecotoxicology13(7): 697-705|2004|10.1007/s10646-003-4429-9
84065|A||Conradi,M., and M.H. Depledge|Effects of Zinc on the Life-Cycle, Growth and Reproduction of the Marine Amphipod Corophium volutator|Mar. Ecol. Prog. Ser.176:131-138|1999|10.3354/meps176131
84066|T||Ramirez,D.C., and M.S. Gimenez|Induction of Redox Changes, Inducible Nitric Oxide Synthase and Cyclooxygenase-2 by Chronic Cadmium Exposure in Mouse Peritoneal Macrophages|Toxicol. Lett.145(2): 121-132|2003|10.1016/S0378-4274(03)00237-6
84067|A||Tripathi,B.N., and J.P. Gaur|Relationship Between Copper- and Zinc-Induced Oxidative Stress and Proline Accumulation in Scenedesmus sp.|Planta (Multiple Languages)219(3): 397-404|2004|10.1007/s00425-004-1237-2
84068|A||Karlsson,J., and B. Eklund|New Biocide-Free Anti-Fouling Paints are Toxic|Mar. Pollut. Bull.49(5-6): 456-464|2004|10.1016/j.marpolbul.2004.02.034
84069|A||Klerks,P.L., and S.A. Lentz|Resistance to Lead and Zinc in the Western Mosquitofish Gambusia affinis Inhabiting Contaminated Bayou Trepagnier|Ecotoxicology7(1): 11-17|1998|10.1023/A:1008851516544
84070|A||Canli,M.|Dietary and Water-Borne Zn Exposures Affect Energy Reserves and Subsequent Zn Tolerance of Daphnia magna|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 110-116|2005|10.1016/j.cca.2005.05.007
84071|A||Brown,R.J., S.D. Rundle, T.H. Hutchinson, T.D. Williams, and M.B. Jones|A Microplate Freshwater Copepod Bioassay for Evaluating Acute and Chronic Effects of Chemicals|Environ. Toxicol. Chem.24(6): 1528-1531|2005|10.1897/04-111R.1
84072|A||Alvarado,N.E., I. Quesada, K. Hylland, I. Marigomez, and M. Soto|Quantitative Changes in Metallothionein Expression in Target Cell-Types in the Gills of Turbot (Scophthalmus maximus) Exposed to Cd, Cu, Zn and After a Depuration Treatment|Aquat. Toxicol.77(1): 64-77|2006|10.1016/j.aquatox.2005.10.017
84073|A||Adhikari,S., and S. Ayyappan|Behavioural Role of Zinc on Primary Productivity, Plankton and Growth of a Freshwater Teleost, Labeo rohita (Hamilton)|Aquaculture231(1-4): 327-336|2004|10.1016/j.aquaculture.2003.10.038
84074|T||Znidarsic,N., M. Tusek-Znidaric, I. Falnoga, J. Scancar, and J. Strus|Metallothionein-Like Proteins and Zinc-Copper Interaction in the Hindgut of Porcellio scaber (Crustacea:  Isopoda) Exposed to Zinc|Biol. Trace Elem. Res.106(3): 253-264|2005|10.1385/BTER:106:3:253
84075|A||Witeska,M.|The Effect of Toxic Chemicals on Blood Cell Morphology in Fish|Fresenius Environ. Bull.13(12a): 1379-1384|2004|
84077|A||Srivastava,N., and R. Sharma|Toxicity of Zinc in Fish (Channa punctatus Bloch) as Influenced by Temperature and pH of Water|Indian J. Anim. Nutr.13(2): 87-90|1996|
84078|A||Hemalatha,S., and T.K. Banerjee|Histopathological Analysis of Acute Toxicity of Zinc Chloride on the Respiratory Organs of Air-Breathing Catfish Heteropneustes (Saccobranchus) fossilis (Bloch)|Vet. Arh. (Tisak)67(1): 11-24|1997|
84079|A||Amiard-Triquet,C., B. Berthet, and R. Martoja|Influence of Salinity on Trace Metal (Cu, Zn, Ag) Accumulation at the Molecular, Cellular and Organism Level in the Oyster Crassostrea gigas Thunberg|Biol. Met.4(3): 144-150|1991|10.1007/BF01141305
84080|A||Soto,M., X. Lekube, and I. Marigomez|Autometallographical Localisation of Cu and Zn Within Target Cell Compartments of Winkles Following Exposure to Cu & Zn Mixtures|Eur. J. Histochem.43(4): 323-334|1999|
84081|A||Reichelt-Brushett,A.J., and P.L. Harrison|The Effect of Selected Trace Metals on the Fertilization Success of Several Scleractinian Coral Species|Coral Reefs24(4): 524-534|2005|10.1007/s00338-005-0013-5
84082|A||Poleo,A.B.S., J. Schjolden, H. Hansen, T.A. Bakke, T.A. Mo, B.O. Rosseland, and E. Lydersen|The Effect of Various Metals on Gyrodactylus salaris (Platyhelminthes, Monogenea) Infections in Atlantic Salmon (Salmo salar)|Parasitology128(2): 169-177|2004|10.1017/S0031182003004396
84083|A||Kumar,K.P., and V.U. Devi|Accumulation of Copper and Zinc by Two Intertidal Gastropods and Their Potential as Biological Monitors|Toxicol. Environ. Chem.67(1-2): 71-81|1998|10.1080/02772249809358603
84084|A||Rijstenbil,J.W., J.W.M. Derksen, L.J.A. Gerringa, T.C.W. Poortvliet, A. Sandee, M. Van den Berg, J. Van Drie, and J.A. |Oxidative Stress Induced by Copper:  Defense and Damage in the Marine Planktonic Diatom Ditylum brightwellii, Grown in Continuous Cultures with high and Low Zinc Levels|Mar. Biol.119(4): 583-590|1994|10.1007/BF00354321
84085|A||Oluah,N.S., and C.C. Amalu|The Effect of Heavy Metals on the Plasma Alanine Aminotransferase Activity in the Freshwater Catfish Clarias albopunctatus|J. Aquat. Sci.13:5-7|1998|
84086|A||Kupper,H., I. Setlik, M. Spiller, F.C. Kupper, and O. Prasil|Heavy Metal-Induced Inhibition of Photosynthesis:  Targets of In Vivo Heavy Metal Chlorophyll Formation|J. Phycol.38(3): 429-441|2002|
84087|A||Nipper,M.G., M.L. Martin, and E.K. Williams|The Optimisation and Validation of a Marine Toxicity Test Using the New Zealand Echinoid, Fellaster zelandiae|Australas. J. Ecotoxicol.3(2): 109-115|1997|
84088|A||Bieniarz,K., P. Epler, and M. Sokolowska-Mikolajczyk|Goldfish (Carassius auratus gibelio Bloch) Breeding in Different Concentrations of Zinc|Pol. Arch. Hydrobiol.43(3): 365-371|1996|
84089|A||Saxena,S., and H. Chaturvedi|Effect of Zinc on the Development of Toad, Bufo fergusonii|J. Ecotoxicol. Environ. Monit.10(4): 259-263|2000|
84090|A||Bat,L., A. Guendogdu, M. Akbulut, M. Culha, and H.H. Satilmis|Toxicity of Zinc and Lead to the Polychaete (Hediste diversicolor Mueller 1776)|Turk. J. Mar. Sci.7(2): 71-84|2001|
84091|A||Liao,C.M., K.L. Chang, B.C. Chen, Y.H. Chou, and M.C. Lin|Shell of Abalone Haliotis diversicolor supertexta can Eliminate Waterborne Zinc Biokinetically|Bioresour. Technol.91(2): 117-121|2004|10.1016/S0960-8524(03)00182-2
84092|A||Canli,M.|Natural Occurrence of Metallothionein-Like Proteins in the Hepatopancreas of Norway Lobster (Nephrops norvegicus L.) and Effects of Cadmium, Copper and Zinc Exposures on Levels of the Metals Bound on Metallothioneins|Turk. J. Zool.19(4): 313-321|1995|
84093|A||Voloshko,L.N., and O.V. Gavrilova|Response of Anabaena variabilis to Zinc Ion|Hydrobiol. J.30(3): 39-42|1994|
84094|A||Spicer,J.I., and R.E. Weber|Respiratory Impairment by Water-Borne Copper and Zinc in the Edible Crab Cancer pagurus (L.) (Crustacea:  Decapoda) During Hypoxic Exposure|Mar. Biol.112(3): 429-435|1992|10.1007/BF00356288
84095|A||Luo,S.Q., M.C. Plowman, S.M. Hopfer, and F.W.Jr. Sunderman|Embryotoxicity and Teratogenicity of Cu2+ and Zn2+ for Xenopus laevis, Assayed by the FETAX Procedure|Ann. Clin. Lab. Sci.23(2): 111-120|1993|
84096|A||Nipper,M.G., and E.K. Williams|Culturing and Toxicity Testing with the New Zealand Mysid Tenagomysis novae-zealandiae, with a Summary of Toxicological Research in this Group|Australas. J. Ecotoxicol.3(2): 117-129|1997|
84097|A||Martin-Diaz,M.L., S.R. Tuberty, C.L.,Jr. McKenney, D. Sales, and T.A. Del Valls|Effects of Cadmium and Zinc on Procambarus clarkii:  Simulation of the Aznalcollar Mining Spill|Cienc. Mar.31(1B): 197-202|2005|10.7773/cm.v31i12.96
84098|A||Shenker,J.M., and G.N. Cherr|Toxicity of Zinc and Bleached Kraft Mill Effluent to Larval English Sole (Parophrys vetulus ) and Topsmelt (Atherinops affinis)|Arch. Environ. Contam. Toxicol.19(5): 680-685|1990|10.1007/BF01183984
84099|A||Kumari,L.K., and V.R. Nair|Uptake and Bioconcentration of Copper and Zinc by the Molluscs Saccostrea cucullata (Born) and Cerithium rubus (Desh) from the Coastal Waters of Bombay|Indian J. Mar. Sci.21(1): 74-76|1992|
84100|A||Hemalatha,S., and T.K. Banerjee|Histopathological Analysis of Sublethal Toxicity of Zinc Chloride to the Respiratory Organs of the Airbreathing Catfish Heteropneustes Fossilis (Bloch)|Biol. Res.30(1): 11-21|1997|
84101|A||Boikova,E.|Protozoans as a Component of Biological Monitoring of the Baltic Sea|Limnologica20(1): 119-125|1990|
84102|A||Canli,M.|The Transfer of Zinc in Two Linked Trophic Levels in Fresh Water and Its Effect on the Reproduction of Daphnia magna|J. Freshw. Ecol.20(2): 269-276|2005|10.1080/02705060.2005.9664966
84103|A||Awasthi,M., and D.N. Das|Heavy Metal Stress on Growth, Photosynthesis and Enzymatic Activities of Free and Immobilized Chlorella vulgaris|Ann. Microbiol.55(1): 1-7|2005|
84104|A||Eklund,B.|Development of a Growth Inhibition Test with the Marine and Brackish Water Red Alga Ceramium tenuicorne|Mar. Pollut. Bull.50(9): 921-930|2005|10.1016/j.marpolbul.2005.02.005
84105|A||Cherkashin,S.A., M.V. Nikiforov, and V.A. Shelekhov|The Use of the Mortality Rate of Marine Fish Prelarvae for the Estimation of Zinc and Lead Toxicity|Russ. J. Mar. Biol.30(3): 217-222|2004|10.1023/B:RUMB.0000033960.42724.4d
84106|A||Hussain,M.S., and K. Jamil|Bioaccumulation of Heavy Metal Ions and Their Effect on Certain Biochemical Parameters of Water Hyacinth Weevil Neochetina eichhorniae (Warner)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(3): 251-264|1989|
84107|A||Kovalenko,V.F.|Peculiarities of Metabolic Processes in Fish Under the Influence of Sublethal Copper and Zinc Concentrations|Hydrobiol. J.40(4): 94-100|2004|10.1615/HydrobJ.v40.i4.90
84108|A||Hargreaves,J.W., and B.A. Whitton|Effect of pH on Tolerance of Hormidium rivulare to Zinc and Copper|Oceanologia (Wroc.)26:235-243|1976|
84109|A||Martin,J.M., F.M. Piltz, and D.J. Reish|Studies on the Mytilus edulis Community in Alamitos Bay, California.  V.  The Effects of Heavy Metals on Byssal Thread Production|Veliger18(2): 183-187|1975|
84110|A||Mitsunaga,K., and I. Yasumasu|Stage Specific Effects of Zn(2+) on Sea Urchin Embryogenesis|Dev. Growth Differ.26(4): 317-327|1984|10.1111/j.1440-169X.1984.00317.x
84111|A||Omar,H.H.|Adsorption of Zinc Ions by Scenedesmus obliquus and S. quadricauda and Its Effect on Growth and Metabolism|Biol. Plant. (Praha)45(2): 261-266|2002|10.1023/A:1015157009150
84112|A||Onat,B., and S. Topcuoglu|A Laboratory Study of Zn and 134Cs Depuration by the Sea Snail (Rapana venosa)|J. Environ. Radioact.46(2): 201-206|1999|10.1016/S0265-931X(98)00126-X
84113|A||Oti,E.E., and D.A. Avoaja|"Haematological Assessment of Freshwater Catfishes, Clarias gariepinus (Burch) and ""Heteroclarias"" (Hybrid) Exposed to Sublethal Concentrations of Zinc"|Pak. J. Zool.37(2): 101-105|2005|
84114|A||Ramadan,S.E., A.N. Khalil, N.M. Dowidar, and S.F. Elsonbaty|Toxicity and Bioaccumulation of Cu2+ and Zn2+ in Two Isopod Species (Crustacea)|Bull. Natl. Inst. Oceanogr. Fish.23:135-154|1997|
84115|A||Rai,L.C., A.K. Singh, and N. Mallick|Studies on Photosynthesis, the Associated Electron Transport System and Some Physiological Variables of Chlorella vulgaris Under Heavy Metal Stress|J. Plant Physiol.137(4): 419-424|1991|10.1016/S0176-1617(11)80310-X
84116|A||Salam,M.A., and S. Subramanian|Economics of Rice (Oryza sativa) Cultivation in Different Seasons as Influenced by Levels of Nitrogen, Zinc Sulphate and Granular Insecticides|Indian J. Agric. Sci.58(12): 895-900|1988|
84117|A||Roccheri,M.C., M. La Rosa, M.G. Ferraro, M. Cantone, D. Cascino, G. Giudice, and G. Sconzo|Stress Proteins by Zinc Ions in Sea Urchin Embryos|Cell Differ.24(3): 209-214|1988|10.1016/0045-6039(88)90052-8
84119|A||Bhatkar,N.V.|Effects of Chlorides of Chromium, Nickel and Zinc on Melanophores of the Scales of Freshwater Carp Labeo rohita|J. Ecotoxicol. Environ. Monit.14(4): 267-272|2004|
84121|A||Chintamani,A., and P. Mohanty|Zinc Induced Changes in Growth of the Cyanobacterium Synechococcus (6031):  Characteristics of Adaptation to Elevated Zinc Concentration|Phykos27(1-2): 65-71|1988|
84122|A||Coale,K.H., X. Wang, S.J. Tanner, and K.S. Johnson|Phytoplankton Growth and Biological Response to Iron and Zinc Addition in the Ross Sea and Antarctic Circumpolar Current Along 170 Degrees W|Deep-Sea Res. Part II Top. Stud. Oceanogr.50(3/4): 635-653|2003|10.1016/S0967-0645(02)00588-X
84123|A||Chyb,J., D.E. Kime, T. Mikolajczyk, P. Szczerbik, and P. Epler|The Influence of Zinc on Sperm Motility of Common Carp - a Computer Assisted Studies|Arch. Ryb. Pol. (Arch. Pol. Fish. )8(1): 5-14|2000|
84124|A||Kinoshita,T.|Growth Factors Reverse Developmental Arrest by Zinc in Embryos of the Sea Urchin Hemicentrotus pulcherrimus|Can. J. Zool.77(3): 360-367|1999|10.1139/z98-222
84125|AT||Alam,S.M., M. Ali, and E. Islam|Effects of Zinc, Nitrogen and Temperatures on Seedling Growth of Rice|Pak. J. Bot.34(4): 351-354|2002|
84126|A||Gupta,A.K., and P. Chakrabarti|Toxicity of Zinc to Freshwater Teleosts, Notopterus notopterus (Pallas) and Puntius javanicus (Blkr.)|J. Freshw. Biol.5(4): 359-363|1993|
84127|A||Jackson,R.N., D. Baird, and S. Els|The Effect of the Heavy Metals Lead (Pb2+) and Zinc (Zn2+) on the Brood and Larval Development of the Burrowing Crustacean, Callianassa kraussi|Water SA31(1): 107-116|2005|10.4314/wsa.v31i1.5127
84128|A||Prabhudeva,K.N., and N.R. Menon|Toxic Effects of Zn-Oil Mixtures on Perna viridis (L.)|Indian J. Mar. Sci.16(3): 199-200|1987|
84129|A||White,S.L., and P.S. Rainbow|Zinc Flux in Palaemon elegans (Crustacea:  Decapoda):  Moulting, Individual Variation and Tissue Distribution|Mar. Ecol. Prog. Ser.19(1-2): 153-166|1984|10.3354/meps019153
84130|A||Corsi,I., S. Bonacci, G. Santovito, M. Chiantore, L. Castagnolo, and S. Focardi|Cholinesterase Activities in the Antarctic Scallop Adamussium colbecki:  Tissue Expression and Effect of ZnCl2 Exposure|Mar. Environ. Res.58(2-5): 401-406|2004|10.1016/j.marenvres.2004.03.086
84131|A||Plotz,J.|Effects of Salinity and Toxic Heavy Metals on Oxygen Release by Fucus vesiculosus L.|Acta Ichthyol. Piscat.21(suppl.): 283-290|1991|10.3750/AIP1991.21.S.30
84132|A||Everitt,V., P.A. Scherman, and M.H. Villet|The Toxicity of Zinc to a Selected Macroinvertebrate, Adenophlebia auriculata (Ephemeroptera, Leptophlebiidae):  Method Development|Afr. J. Aquat. Sci.27(1): 31-38|2002|10.2989/16085914.2002.9626572
84133|A||Buthelezi,P.P., V. Wepener, and D.P. Cyrus|The Sublethal Effects of Zinc at Different Water Temperatures on Selected Haematological Variables in Oreochromis mossambicus|Afr. J. Aquat. Sci.25:146-151|2000|10.2989/160859100780177659
84134|A||Inoue,K., N. Akita, T. Shiba, M. Satake, and S. Yamashita|Metal-Inducible Activities of Metallothionein Promoters in Fish Cells and Fry|Biochem. Biophys. Res. Commun.185(3): 1108-1114|1992|10.1016/0006-291X(92)91740-H
84135|A||Hart,B.T., N.A. Currey, and M.J. Jones|Biogeochemistry and Effects of Copper, Manganese and Zinc Added to Enclosures in Island Billabong, Magela Creek, Northern Australia|Hydrobiologia (Multiple Languages)230(2): 93-134|1992|10.1007/BF00006129
84136|A||Chang,Y.Y.E.|Impact of Microbial Biofilms on the Toxicity of Copper and Zinc to Oyster Larval Development|Ph.D.Thesis, University of Maryland, College Park, MD:218 p.|1995|
84139|A||Gust,K.A.|Ecotoxicology of Metal-Hydrocarbon Mixtures in Benthic Invertebrates|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:142 p.|2005|
84140|A||Bryan,G.W.|The Metabolism of Zn and 65Zn in Crabs, Lobsters and Fresh-Water Crayfish|In: Radioecological Concentration Processes. Pergamon, Elmsford, NY:1005-1016|1966|
84141|A||Miersch,J., M. Tschimedbalshir, F. Barlocher, Y. Grams, B. Pierau, A. Schierhorn, and G.J. Krauss|Heavy Metals and Thiol Compounds in Mucor racemosus and Articulospora tetracladia|Mycol. Res.105(7): 883-889|2001|10.1017/S095375620100404X
84142|T||Ali,G., P.S. Srivastava, and M. Iqbal|Influence of Cadmium and Zinc on Growth and Photosynthesis of Bacopa monniera Cultivated In Vitro|Biol. Plant. (Praha)43(4): 599-601|2000|10.1023/A:1002852016145
84143|A||Sultana,M., and V.S. Lomte|Oxygen Consumption Under Mercury and Zinc Stress in Lamellidens marginalis|J. Ecotoxicol. Environ. Monit.9(1): 9-12|1999|
84158|T||Robert,M.E., F.W. Leung, and P.H. Guth|Nicotine and Smoking do not Decrease Basal Gastric Mucosal Blood Flow in Anesthetized Rats|Dig. Dis. Sci.31(5): 530-534|1986|10.1007/BF01320320
84159|T||Kuo,D.Y., T.B. Lin, C.C. Huang, S.L. Duh, J.M. Liao, and J.T. Cheng|Nicotine-Induced Hyperlocomotion is not Modified by the Estrous Cycle, Ovariectomy and Estradiol Replacement at Physiological Level|Chin. J. Physiol.42(2): 83-88|1999|
84160|T||Niewiada,A., J. Nawrot, J. Szafranek, B. Szafranek, E. Synak, H. Jelen, and E. Wasowicz|Some Factors Affecting Egg-Laying of the Granary Weevil (Sitophilus granarius L.)|J. Stored Prod. Res.41(5): 544-555|2005|10.1016/j.jspr.2004.11.001
84161|T||Dalton,S.R., R.T. Miller, and S.A. Meyer|The Herbicide Metolachlor Induces Liver Cytochrome P450s 2B1/2 and 3A1/2, but not Thyroxine-Uridine Dinucleotide Phosphate Glucuronosyltransferase and Associated Thyroid Gland Activity|Int. J. Toxicol.22(4): 287-295|2003|10.1080/10915810305121
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84163|T||Newman,M.B., R.D. Shytle, and P.R. Sanberg|Locomotor Behavioral Effects of Prenatal and Postnatal Nicotine Exposure in Rat Offspring|Behav. Pharmacol.10(6-7): 699-706|1999|10.1097/00008877-199911000-00017
84164|T||Zhang,L., T. Shono, S. Yamanaka, and H. Tanabe|Effects of Insecticides on the Entomopathogenic Nematode Steinernema carpocapsae Weiser|Appl. Entomol. Zool.29(4): 539-547|1994|10.1303/aez.29.539
84165|T||Fraser,R., S.A. Clark, W.A. Day, and F.E.M. Murray|Nicotine Decreases the Porosity of the Rat Liver Sieve:  A Possible Mechanisms for Hypercholesterolaemia|Br. J. Exp. Pathol.69(3): 345-350|1988|
84169|T||Stowe,H.D., R.A. Goyer, P. Medley, and M. Cates|Influence of Dietary Pyridoxine on Cadmium Toxicity in Rats|Arch. Environ. Health28:209-216|1974|10.1080/00039896.1974.10666470
84170|T||Horky,D., J. Illek, and A. Pechova|Distribution of Heavy Metals and Their Ultrahistochemical Determination in the Organs of Calves|Acta Vet. Brno67(1): 51-58|1998|10.2754/avb199867010051
84171|T||Reddy,G.N., and M.N.V. Prasad|Cadmium Induced Peroxidase Activity and Isozymes in Oryza sativa|Biochem. Arch.8(2): 101-106|1992|
84172|T||Grabowska-Maslanka,A., A. Janik, Z. Chlap, A. Szuperska-Ocetkiewicz, M. Slawinski, R.J. Grylewski, and R. Korbut|Influence of Cadmium Intoxication on Thromboresistance of Vascular Endothelium in Rabbits|J. Physiol. Pharmacol.49(1): 61-70|1998|
84173|T||Ficek,W.|Accumulation of Cadmium in Lymphatic Tissues in Young Mice and Its Consequences.  Part I.  The Thymus-Microstructural Changes and DNA and Vitamin C Content After Administration of CDCL2|Biochem. Arch.13(4): 327-332|1997|
84174|T||Deveci,E., H.S. Inaloz, and S.S. Inaloz|Teratogenic Effects of Cadmium on Rat Skin|Acta Dermatol., Engl. Ed.93(2): 155-159|1998|
84176|T||Bishnoi,N.R., I.S. Sheoran, and R. Singh|Effect of Cadmium and Nickel on Mobilisation of Food Reserves and Activities of Hydrolytic Enzymes in Germinating Pigeon Pea Seeds|Biol. Plant. (Praha)35(4): 583-589|1993|10.1007/BF02928036
84177|T||Wu,J., F. Gong, Z. Huang, X. Liu, G. Wang, and H.J. Xu|Investigation of Plant Systemic Organoselena Compounds. IV. Effects of the Derivatives of Selenamorpholine on the Selenium Content of Radish|J. Plant Nutr.23(3): 349-356|2000|10.1080/01904160009382021
84179|T||Ball,L., L.C. Faulkner, and N.M. Feteih|Spermatic Vascular Ligation and Intratesticular Cadmium Injection in the Ram|Am. J. Vet. Res.33(3): 547-555|1972|
84180|T||Nordberg,G.F., R. Goyer, and M. Nordberg|Comparative Toxicity of Cadmium-Metallothionein and Cadmium Chloride on Mouse Kidney|Arch. Pathol.99:192-197|1975|
84181|T||Doncheva,S.|Cadmium Effect on Cell Nucleolar Structure of Maize Root Cells|C. R. Acad. Bulg. Sci.44(6): 69-71|1991|
84182|T||Vijayregan,P.|Effects of Nickel on Seedling Growth of Blackgram and Greengram|Indian Bot. Contactor10(1): 39-41|1993|
84183|T||Degawa,M., H. Arai, M. Kubota, and Y. Hashimoto|Ionic Lead, but not Other Ionic Metals (Ni(2+), Co(2+) and Cd(2+), Suppresses 2-Methoxy-4-Aminoazobenzene-Mediated Cytochrome P450IA2 (CYP1A2) Induction in Rat Liver|Biol. Pharm. Bull.18(9): 1215-1218|1995|10.1248/bpb.18.1215
84184|T||Aery,N.C., and D.K. Rana|Growth and Cadmium Uptake in Barley Under Cadmium Stress|J. Environ. Biol.24(2): 117-123|2003|
84185|T||Kamenosono,T., H. Shimada, T. Funakoshi, and S. Kojima|Involvement of Active Transport Systems in the Mobilization of Cadmium by Dithiocarbamates In Vivo|Toxicology170(1-2): 103-110|2002|10.1016/S0300-483X(01)00539-X
84186|T||EPA/OTS|Initial Submission:  Toxicity Report:  Cadmium Sulfide with Cover Letter Dated 092492|EPA/OTS Doc.#88-920009116:|1992|
84187|T||Leffler,P., T. Jin, and G.F. Nordberg|Cadmium-Metallothionein-Induced Kidney Dysfunction Increases Magnesium Excretion in the Rat|Toxicol. Appl. Pharmacol.103(1): 180-184|1990|10.1016/0041-008X(90)90274-X
84188|T||Zhang,Y., G. Pan, J. Chen, and Q. Hu|Uptake and Transport of Selenite and Selenate by Soybean Seedlings of Two Genotypes|Plant Soil253(2): 437-443|2003|10.1023/A:1024874529957
84189|T||Henderson,G.B., A.H. Fairlamb, and A. Cerami|Trypanothione Dependent Peroxide Metabolism in Crithidia fasciculata and Trypanosoma brucei|Mol. Biochem. Parasitol.24(1): 39-45|1987|10.1016/0166-6851(87)90113-7
84190|T||Cohen,G., J.C. Roux, R. Grailhe, G. Malcolm, J.P. Changeux, and H. Lagercrantz|Perinatal Exposure to Nicotine Causes Deficits Associated with a Loss of Nicotinic Receptor Function|Proc. Natl. Acad. Sci. U.S.A.102(10): 3817-3821|2005|10.1073/pnas.0409782102
84191|T||Boyce,S., J.K. Webb, S.L. Shepheard, M.G.N. Russell, R.G. Hill, and N.M.J. Rupniak|Analgesic and Toxic Effects of ABT-594 Resemble Epibatidine and Nicotine in Rats|IASP Newsl.85(3): 443-450|2000|
84192|T||Franceschini,D., R. Paylor, R. Broide, R. Salas, L. Bassetto, C. Gotti, and M. De Biasi|Absence of (alpha)7-Containing Neuronal Nicotinic Acetylcholine Receptors does not Prevent Nicotine-Induced Seizures|Mol. Brain Res.98(1-2): 29-40|2002|10.1016/S0169-328X(01)00309-6
84193|T||Koley,J., J.K. Saha, and B.N. Koley|Pharmacological and Electrophysiological Analysis of the Effects of Nicotine on Cat Blood Pressure|Arch. Int. Pharmacodyn. Ther.287(1): 31-47|1987|
84194|T||Gaal,I., H. Ariunaa, and M. Gyuris|Influence of Various Stress Effects on Ethylene Production in Wheat Seedlings|Acta Biol. Szeged.34(1-4): 35-43|1988|
84195|T||Khan,M.Z., and J. Szarek|Effects of Concurrent Oral Administration of Lead, Selenium or Monensin on Hepatic Porphyrin Levels in Broiler Chickens During Sub-Acute Toxicosis|J. Vet. Med. Ser. B41(2): 77-82|1994|10.1111/j.1439-0450.1994.tb00210.x
84196|T||Vojtisek,M., D. Hulinska, D. Bittnerova, M. Cikrt, and V. Hulinsky|Cadmium Influence on the Rat Liver|Acta Morphol. Hung.37(3-4): 201-217|1989|
84197|T||Krupa,Z., and T. Baszynski|Acyl Lipid Composition of Thylakoid Membranes of Cadmium-Treated Tomato Plants|Acta Physiol. Plant.11(2): 111-116|1989|
84198|T||Eybl,V., J. Sykora, J. Koutensky, F. Mertl, and M.M. Jones|Interation of Some Chelating Agents with Cadmium In Vivo and the Molecular Connectivity|In: M.Tichy, (Ed.), Pharmacochemistry Library, Vol.8.QSAR (Quantitative Structure-Activity Relationships) in Toxicology and Xenobiochemistry, Symposium, Sept.12-14, 1984, Prague, Czechoslovakia:179-182|1985|
84199|T||Tomsett,A.B., K.E. Hodges, R.N. Cooley, and D.A. Thurman|Metal Resistance in Aspergillus nidulans|In: D.H.Hamer and D.R.Winge (Eds.), UCLA (Univ.of Calif.-Los Angeles) Symp.on Mol.and Cell.Biol.New Ser., Volume 98, Metal Ion Homeostasis: Molecular Biology and Chemistry, Apr.10-16, 1988, Frisco, CO, Alan R.Liss Inc., NY:375-384|1989|
84200|T||Waalkes,M.P., J.A. Thomas, and J.U. Bell|Induction of Hepatic Metallothionein in the Rabbit Fetus Following Maternal Cadmium Exposure|Toxicol. Appl. Pharmacol.62:211-218|1982|10.1016/0041-008X(82)90119-3
84202|T||Tenneco Chemical Co.|90-Day Subchonic/Reproduction Dermal Toxicity Study with Cover Letter Dated 072282|EPA/OTS Doc.#88-8200395:36 p.|1982|
84203|T||Levy,L.S., J. Clack, and F.J.C. Roe|Further Studies on the Effect of Cadmium on the Prostate Gland II. Absence of Prostatic Changes in Mice Given Oral Cadmium Sulfate for Eighteen Months|Ann. Occup. Hyg.17:213-220|1975|
84204|T||Levy,L.S., and J. Clack|Further Studies on the Effect of Cadmium on the Prostate Gland I. Absence of Prostatic Changes in Rats Given Oral Cadmium Sulfate for Two Years|Ann. Occup. Hyg.17:205-211|1975|
84205|T||Czauderna,M., M. Wranicz, and J. Sowa|Interaction Between Se and In, and Distribution of Zn in Mice Injected with Indium Ions and Selenium Compounds|J. Radioanal. Nucl. Chem.153(2): 101-110|1991|10.1007/BF02164870
84206|T||Abdollahi,M., N. Rahmat-Jirdeh, and K. Soltaninejad|Protection by Selenium of Lead-Acetate-Induced Alterations on Rat Submandibular Gland Function|Hum. Exp. Toxicol.20(1): 28-33|2001|10.1191/096032701667736070
84207|T||Han,Y., M.B. Shaikh, and A. Siegel|Ethanol Enhances Medial Amygdaloid Induced Inhibition of Predatory Attack Behaviour in the Cat:  Role of GABAA Receptors in the Lateral Hypothalamus|Alcohol Alcohol.32(6): 657-670|1997|10.1093/oxfordjournals.alcalc.a008316
84209|T||Jennings,G., P.G. Lunn, C.A. Northrop-Clewes, and M. Elia|The Effect of Endotoxin and Turpentine Administration on Intestinal Permeability in the Rat|Clin. Nutr.10(1): 43-48|1991|10.1016/0261-5614(91)90080-V
84210|T||Wolanska,M., K. Sobolewski, E. Bankowski, and L. Chyczewski|Alterations in Glycosaminoglycan Composition of Methylcholanthrene-Induced Sarcoma at Various Stages of the Tumour Growth|Folia Histochem. Cytobiol.34(1): 21-26|1996|
84211|T||Lafuente,A., and A.I. Esquifino|Cadmium does not Inhibit Pulsatile Prolactin Secretion Through TRH|BioMetals11(3): 235-241|1998|10.1023/A:1009243917844
84212|T||Smith III,E.F.,Jr., M.J. Slivjak, J.O. Bartus, and K.M. Esser|SK and F 86002 Inhibits Tumor Necrosis Factor Formation and Improves Survival in Endotoxemic Rats|J. Cardiovasc. Pharmacol.18(5): 721-728|1991|10.1097/00005344-199111000-00010
84213|T||Furihata,C., H. Ohta, and T. Katsuyama|Cause and Effect Between Concentration-Dependent Tissue Damage and Temporary Cell Proliferation in Rat Stomach Mucosa by NaCl, a Stomach Tumor Promoter|Carcinogenesis17(3): 401-406|1996|10.1093/carcin/17.3.401
84214|T||Hui-Min,J., H. Guo'an, C. Xi, and Z. Hongjun|Effect of Selenium on the Change in Cadmium-Induced Distribution of Trace Elements in Pregnant Rats|Trace Elem. Electrolytes14(1): 9-12|1997|
84215|T||Castro-Faria-Neto,H.C., M.A. Martins, P.T. Bozza, S.A.C. Perez, A.C.V. Correa-Da-Silva, M.C.R. Lima, H.N. Cruz, R.S.B. |Pro-Inflammatory Activity of Enterolobin:  A Haemolytic Protein Purified from Seeds of the Brazilian Tree Enterolobium contortisiliquum|Toxicon29(9): 1143-1150|1991|10.1016/0041-0101(91)90211-9
84216|T||Viluksela,M.|Characteristics and Modulation of Dithranol (Anthralin)-Induced Skin Irritation in the Mouse Ear Model|Arch. Dermatol. Res.283(4): 262-268|1991|10.1007/BF01106113
84217|T||Rathbun,W.B., H.T. Nagasawa, and C.E. Killen|Prevention of Naphthalene-Induced Cataract and Hepatic Glutathione Loss by the L-Cysteine Prodrugs, MTCA and PTCA|Exp. Eye Res.62(4): 433-441|1996|10.1006/exer.1996.0048
84218|T||Wang,S.J., D.M. Paek, R.H. Kim, and B.S. Cha|Variation of Systolic Blood Pressure in Rats Exposed to Cadmium and Nickel|Environ. Res.88(2): 116-119|2002|10.1006/enrs.2001.4319
84219|T||Hiratsuka,H., O. Katsuta, N. Toyota, M. Tsuchitani, T. Akiba, F. Marumo, and T. Umemura|Iron Deposition at Mineralization Fronts and Osteoid Formation Following Chronic Cadmium Exposure in Ovariectomized Rats|Toxicol. Appl. Pharmacol.143(2): 348-356|1997|10.1006/taap.1996.8101
84220|T||Min,K.S., N. Ohyanagi, M. Ohta, S. Onosaka, and K. Tanaka|Effect of Erythropoiesis on Splenic Cadmium-Metallothionein Level Following an Injection of CdCl2 in Mice|Toxicol. Appl. Pharmacol.134(2): 235-240|1995|10.1006/taap.1995.1189
84221|T||Tang,W., S. Sadovic, and Z.A. Shaikh|Nephrotoxicity of Cadmium-Metallothionein:  Protection by Zinc and Role of Glutathione|Toxicol. Appl. Pharmacol.151(2): 276-282|1998|10.1006/taap.1998.8465
84222|T||Hiratsuka,H., O. Katsuta, N. Toyota, M. Tsuchitani, T. Umemura, and F. Marumo|Chronic Cadmium Exposure-Induced Renal Anemia in Ovariectomized Rats|Toxicol. Appl. Pharmacol.137(2): 228-236|1996|10.1006/taap.1996.0076
84223|T||Habeebu,S.S.M., J. Liu, and C.D. Klaassen|Cadmium-Induced Apoptosis in Mouse Liver|Toxicol. Appl. Pharmacol.149(2): 203-209|1998|10.1006/taap.1997.8334
84224|T||Foote,R.H.|Cadmium Affects Testes and Semen of Rabbits Exposed Before and After Puberty|Reprod. Toxicol.13(4): 269-277|1999|10.1016/S0890-6238(99)00019-2
84225|T||Waalkes,M.P., R. Kovatch, and S. Rehm|Effect of Chronic Dietary Zinc Deficiency on Cadmium Toxicity and Carcinogenesis in the Male Wistar [HSD: (WI)BR] Rat|Toxicol. Appl. Pharmacol.108(3): 448-456|1991|10.1016/0041-008X(91)90091-R
84226|T||Suzuki,K.T., S. Kawahara, H. Sunaga, and N. Shimojo|Efflux of Endogenous Zinc Liberated from Metallothionein and Alcohol Dehydrogenase in the Liver by Replacement with Cadmium|Toxicol. Appl. Pharmacol.105(3): 413-421|1990|10.1016/0041-008X(90)90145-K
84227|T||Shimizu,M., and S. Morita|Effects of Fasting on Cadmium Toxicity, Glutathione Metabolism, and Metallothionein Synthesis in Rats|Toxicol. Appl. Pharmacol.103(1): 28-39|1990|10.1016/0041-008X(90)90259-W
84228|T||Rehm,S., and M.P. Waalkes|Acute Cadmium Chloride-Induced Renal Toxicity in the the Syrian Hamster|Toxicol. Appl. Pharmacol.104(1): 94-105|1990|10.1016/0041-008X(90)90285-3
84229|T||Nussbaum,S., D. Schmutz, and C. Brunold|Regulation of Assimilatory Sulfate Reduction by Cadmium in Zea mays L.|Plant Physiol.88(4): 1407-1410|1988|10.1104/pp.88.4.1407
84230|T||Jamall,I.S., and J.C. Smith|Effects of Cadmium on Glutathione Peroxidase, Superoxide Dismutase, and Lipid Peroxidation in the Rat Heart:  A Possible Mechanism of Cadmium Cardiotoxicity|Toxicol. Appl. Pharmacol.80(1): 33-42|1985|10.1016/0041-008X(85)90098-5
84231|T||Howden,R., and C.S. Cobbett|Cadmium-Sensitive Mutants of Arabidopsis thaliana|Plant Physiol.99:100-107|1992|10.1104/pp.100.1.100
84232|T||Goon,D., and C.D. Klaassen|Dosage-Dependent Absorption of Cadmium in the Rat Intestine Measured In Situ|Toxicol. Appl. Pharmacol.100(1): 41-50|1989|10.1016/0041-008X(89)90090-2
84234|T||Meuwly,P., and W.E. Rauser|Alteration of Thiol Pools in Roots and Shoots of Maize Seedlings Exposed to Cadmium:  Adaptation and Developmental Cost|Plant Physiol.99(1): 8-15|1992|10.1104/pp.99.1.8
84235|T||Ruegsegger,A., and C. Brunold|Effect of Cadmium on gamma-Glutamylcysteine Synthesis in Maize Seedlings|Plant Physiol.99(2): 428-433|1992|10.1104/pp.99.2.428
84236|T||Wilson,A.K., and M.H. Bhattacharyya|Effects of Cadmium on Bone: An In Vivo Model for the Early Response|Toxicol. Appl. Pharmacol.145(1): 68-73|1997|10.1006/taap.1997.8164
84237|T||Dorian,C., V.H. Gattone II, and C.D. Klaassen|Discrepancy Between the Nephrotoxic Potencies of Cadmium-Metallothionein and Cadmium Chloride and the Renal Concentration of Cadmium in the Proximal Convoluted Tubules|Toxicol. Appl. Pharmacol.130(1): 161-168|1995|10.1006/taap.1995.1021
84238|T||Antonio,M.T., I. Corpas, and M.L. Leret|Neurochemical Changes in Newborn Rat's Brain After Gestational Cadmium and Lead Exposure|Toxicol. Lett.104(1-2): 1-9|1999|10.1016/S0378-4274(98)00125-8
84239|T||Baykov,B., M. Gugova, M. Stoyanov, H. Neychev, T. Stefanova, and N. Nicolova|Designing an Artificial Ecological Mesocosm for the Study of Cd and Pb Impact on the Immune System of Experimental Animals|Toxicol. Lett.89(1): 5-10|1996|10.1016/S0378-4274(96)03775-7
84240|T||Kumar,R., A.K. Agarwal, and P.K. Seth|Oxidative Stress-Mediated Neurotoxicity of Cadmium|Toxicol. Lett.89(1): 65-69|1996|10.1016/S0378-4274(96)03780-0
84241|T||Kimura,T., N. Itoh, K.S. Min, I. Fujita, N. Muto, and K. Tanaka|Tissue Accumulation of Cadmium Following Oral Administration to Metallothionein-null Mice|Toxicol. Lett.99(2): 85-90|1998|10.1016/S0378-4274(98)00129-5
84242|T||Karmakar,R., S. Banik, S. Bandyopadhyay, and M. Chatterjee|Cadmium-Induced Alterations of Hepatic Lipid Peroxidation, Glutathione S-Transferase Activity and Reduced Glutathione Level and Their Possible Correlation with Chromosomal Aberration in Mice:  A Time Course Study|Mutat. Res.397(2): 183-190|1998|10.1016/S0027-5107(97)00209-1
84243|T||Ishido,M., C. Tohyama, and T. Suzuki|Cadmium-Bound Metallothionein Induces Apoptosis in Rat Kidneys, but not in Cultured Kidney LLC-PK1 Cells|Life Sci.64(9): 797-804|1999|10.1016/S0024-3205(98)00621-3
84244|T||Nigam,D., G.S. Shukla, and A.K. Agarwal|Glutathione Depletion and Oxidative Damage in Mitochondria Following Exposure to Cadmium in Rat Liver and Kidney|Toxicol. Lett.106(2-3): 151-157|1999|10.1016/S0378-4274(99)00059-4
84245|T||Lind,Y., and A.W. Glynn|The Involvement of Metallothionein in the Intestinal Absorption of Cadmium in Mice|Toxicol. Lett.91(3): 179-187|1997|10.1016/S0378-4274(97)03886-1
84246|T||Saplakoglu,U., and M. Iscan|DNA Single-Strand Breakage in Rat Lung, Liver and Kidney After Single and Combined Treatments of Nickel and Cadmium|Mutat. Res.394(1-3): 133-140|1997|10.1016/S1383-5718(97)00134-4
84247|T||Brzoska,M.M., and J. Moniuszko-Jakoniuk|Disorders in Bone Metabolism of Female Rats Chronically Exposed to Cadmium|Toxicol. Appl. Pharmacol.202(1): 68-83|2005|10.1016/j.taap.2004.06.007
84248|T||Choudhuri,S., W.L. Liu, N.E.J. Berman, and C.D. Klaassen|Cadmium Accumulation and Metallothionein Expression in Brain of Mice at Different Stages of Development|Toxicol. Lett.84(3): 127-133|1996|10.1016/0378-4274(95)03444-7
84249|T||Eybl,V., D. Kotyzova, and M. Bludovska|The Effect of Curcumin on Cadmium-Induced Oxidative Damage and Trace Elements Level in the Liver of Rats and Mice|Toxicol. Lett.151(1): 79-85|2004|10.1016/j.toxlet.2004.02.019
84250|T||Habeebu,S.S., Y. Liu, J.D. Park, and C.D. Klaassen|Strain Differences in the Toxicity of Cadmium to Trigeminal Ganglia in Mice|Toxicol. Appl. Pharmacol.177(3): 200-207|2001|10.1006/taap.2001.9311
84251|T||Harstad,E.B., and C.D. Klaassen|Gadolinium Chloride Pretreatment Prevents Cadmium Chloride-Induced Liver Damage in Both Wild-Type and MT-Null Mice|Toxicol. Appl. Pharmacol.180(3): 178-185|2002|10.1006/taap.2002.9385
84252|T||Horiguchi,H., A. Harada, E. Oguma, M. Sato, Y. Homma, F. Kayama, M. Fukushima, and K. Matsushima|Cadmium-Induced Acute Hepatic Injury is Exacerbated in Human Interleukin-8 Transgenic Mice|Toxicol. Appl. Pharmacol.163(3): 231-239|2000|10.1006/taap.1999.8877
84253|T||Horiguchi,H., E. Oguma, F. Kayama, M. Sato, and M. Fukushima|Dexamethasone Prevents Acute Cadmium-Induced Hepatic Injury but Exacerbates Kidney Dysfunction in Rabbits|Toxicol. Appl. Pharmacol.174(3): 225-234|2001|10.1006/taap.2001.9218
84254|T||Imamura,Y., S. Yamaguchi, Y. Honda, H. Murata, and M. Otagiri|Alteration of Acetohexamide Reductase Activities in Kidney Microsomes and Cytosol of Cadmium-Treated Rats|Toxicol. Lett.95(2): 87-92|1998|10.1016/S0378-4274(98)00018-6
84255|T||Lafuente,A., A. Gonzalez-Carracedo, A. Romero, P. Cano, and A.I. Esquifino|Cadmium Exposure Differentially Modifies the Circadian Patterns of Norepinephrine at the Median Eminence and Plasma LH, FSH and Testosterone Levels|Toxicol. Lett.146(2): 175-182|2004|10.1016/j.toxlet.2003.10.004
84256|T||Leazer,T.M., Y. Liu, and C.D. Klaassen|Cadmium Absorption and Its Relationship to Divalent Metal Transporter-1 in the Pregnant Rat|Toxicol. Appl. Pharmacol.185(1): 18-24|2002|10.1006/taap.2002.9505
84257|T||Lermioglu,F., and A. Bernard|Effect of Calmodulin-Inhibitors and Verapamil on the Nephrotoxicity of Cadmium in Rat|Toxicol. Lett.95(1): 9-13|1998|10.1016/S0378-4274(98)00016-2
84258|T||Mendez-Armenta,M., J. Villeda-Hernandez, R. Barroso-Moguel, C. Nava-Ruiz, M.E. Jimenez-Capdeville, and C. Rios|Brain Regional Lipid Peroxidation and Metallothionein Levels of Developing Rats Exposed to Cadmium and Dexamethasone|Toxicol. Lett.144(2): 151-157|2003|10.1016/S0378-4274(03)00199-1
84259|T||Oda,N., C.A. Sogawa, N. Sogawa, K. Onodera, H. Furuta, and T. Yamamoto|Metallothionein Expression and Localization in Rat Bone Tissue After Cadmium Injection|Toxicol. Lett.123(2-3): 143-150|2001|10.1016/S0378-4274(01)00387-3
84260|T||Liu,Y., J. Liu, and C.D. Klaassen|Metallothionein-Null and Wild-Type Mice Show Similar Cadmium Absorption and Tissue Distribution Following Oral Cadmium Administration|Toxicol. Appl. Pharmacol.175(3): 253-259|2001|10.1006/taap.2001.9244
84261|T||Prozialeck,W.C., P.C. Lamar, and S.M. Lynch|Cadmium Alters the Localization of N-cadherin, E-cadherin, and beta-catenin in the Proximal Tubule Epithelium|Toxicol. Appl. Pharmacol.189(3): 180-195|2003|10.1016/S0041-008X(03)00130-3
84262|T||Zalups,R.K.|Evidence for Basolateral Uptake of Cadmium in the Kidneys of Rats|Toxicol. Appl. Pharmacol.164(1): 15-23|2000|10.1006/taap.1999.8854
84263|T||Yamano,T., L.A. DeCicco, and L.E. Rikans|Attenuation of Cadmium-Induced Liver Injury in Senescent Male Fischer 344 Rats:  Role of Kupffer Cells and Inflammatory Cytokines|Toxicol. Appl. Pharmacol.162(1): 68-75|2000|10.1006/taap.1999.8833
84264|T||Yamano,T., S.D. Kosanke, and L.E. Rikans|Attenuation of Cadmium-Induced Liver Injury in Senescent Male Fischer 344 Rats:  Role of Metallothionein and Glutathione|Toxicol. Appl. Pharmacol.161(3): 225-230|1999|10.1006/taap.1999.8813
84265|T||Uriu,K., I. Morimoto, K. Kai, Y. Okazaki, Y. Okada, Y.L. Qie, N. Okimoto, K. Kaizu, T. Nakamura, and S. Eto|Uncoupling Between Bone Formation and Resorption in Ovariectomized Rats with Chronic Cadmium Exposure|Toxicol. Appl. Pharmacol.164(3): 264-272|2000|10.1006/taap.2000.8908
84266|T||Uriu,K., K. Kaizu, Y.L. Qie, A. Ito, I. Takagi, K. Suzuka, Y. Inada, O. Hashimoto, and S. Eto|Long-Term Oral Intake of Low-Dose Cadmium Exacerbates Age-Related Impairment of Renal Functional Reserve in Rats|Toxicol. Appl. Pharmacol.169(2): 151-158|2000|10.1006/taap.2000.9063
84267|T||Liu,J., C. Corton, D.J. Dix, Y. Liu, M.P. Waalkes, and C.D. Klaassen|Genetic Background but Not Metallothionein Phenotype Dictates Sensitivity to Cadmium-Induced Testicular Injury in Mice|Toxicol. Appl. Pharmacol.176(1): 1-9|2001|10.1006/taap.2001.9262
84268|T||Crowe,A., and E.H. Morgan|Effect of Dietary Cadmium on Iron Metabolism in Growing Rats|Toxicol. Appl. Pharmacol.145(1): 136-146|1997|10.1006/taap.1997.8165
84269|T||Hwang,D.F., and L.C. Wang|Effect of Taurine on Toxicity of Cadmium in Rats|Toxicology167(3): 173-180|2001|10.1016/S0300-483X(01)00472-3
84270|T||Andersson,H., K. Petersson-Grawe, E. Lindqvist, J. Luthman, A. Oskarsson, and L. Olson|Low-Level Cadmium Exposure of Lactating Rats Causes Alterations in Brain Serotonin Levels in the Offspring|Neurotoxicol. Teratol.19(2): 105-115|1997|10.1016/S0892-0362(96)00218-8
84271|T||Habeebu,S.S., J. Liu, Y. Liu, and C.D. Klaassen|Metallothionein-Null Mice are More Susceptible than Wild-Type Mice to Chronic CdCl 2-Induced Bone Injury|Toxicol. Sci.56(1): 211-219|2000|10.1093/toxsci/56.1.211
84272|T||Vasconcelos,M.H., S.C. Tam, J.E. Hesketh, M. Reid, and J.H. Beattie|Metal- and Tissue-Dependent Relationship Between Metallothionein mRNA and Protein|Toxicol. Appl. Pharmacol.182(2): 91-97|2002|10.1006/taap.2002.9428
84273|T||Funakoshi,T., O. Ohta, H. Shimada, and S. Kojima|Effects of Dthiocarbamates and Cadmium on the Enzymatic Activities in Liver, Kidney and Blood of Mice|Toxicol. Lett.78(3): 183-188|1995|10.1016/0378-4274(95)03253-H
84274|T||Lee,S., J.S. Moon, T.S. Ko, D. Petros, P.B. Goldsbrough, and S.S. Korban|Overexpression of Arabidopsis Phytochelatin Synthase Paradoxically Leads to Hypersensitivity to Cadmium Stress|Plant Physiol.131(2): 656-663|2003|10.1104/pp.014118
84275|T||Brzoska,M.M., K. Majewska, and J. Moniuszko-Jakoniuk|Bone Mineral Density, Chemical Composition and Biomechanical Properties of the Tibia of Female Rats Exposed to Cadmium Since Weaning up to Skeletal Maturity|Food Chem. Toxicol.43(10): 1507-1519|2005|10.1016/j.fct.2005.04.008
84276|T||Whelton,B.D., D.P. Peterson, E.S. Moretti, R.W. Mauser, and M.H. Bhattacharyya|Kidney Changes in Multiparous, Nulliparous and Ovariectomized Mice fed Either a Nutrient-Sufficient or -Deficient Diet Containing Cadmium|Toxicology119(2): 123-140|1997|10.1016/S0300-483X(96)03613-X
84277|T||Sant'Ana,M.G., R. Moraes, and M.M. Bernardi|Toxicity of Cadmium in Japanese Quail:  Evaluation of Body Weight, Hepatic and Renal Function, and Cellular Immune Response|Environ. Res.99(2): 273-277|2005|10.1016/j.envres.2005.06.003
84278|T||Ishitobi,H., and C. Watanabe|Effects of Low-Dose Perinatal Cadmium Exposure on Tissue Zinc and Copper Concentrations in Neonatal Mice and on the Reproductive Development of Female Offspring|Toxicol. Lett.159(1): 38-46|2005|10.1016/j.toxlet.2005.04.006
84279|T||Salvatori,F., C.B. Talassi, S.A. Salzgeber, H.S. Spinosa, and M.M. Bernardi|Embryotoxic and Long-Term Effects of Cadmium Exposure During Embryogenesis in Rats|Neurotoxicol. Teratol.26(5): 673-680|2004|10.1016/j.ntt.2004.05.001
84280|T||Hoek,J.B., T.F. Taraschi, K. Higashi, E. Rubin, and A.P. Thomas|Phospholipase C Activation by Ethanol in Rat Hepatocytes is Unaffected by Chronic Ethanol Feeding|Biochem. J. (Lond.)272(1): 59-64|1990|10.1042/bj2720059
84281|T||Maines,M.D., and J.C. Veltman|Phenylhydrazine-Mediated Induction of Haem Oxygenase Activity in Rat Liver and Kidney and Development of Hyperbilirubinaemia.  Inhibition by Zinc-Protoporphyrin|Biochem. J. (Lond.)217(2): 409-417|1984|10.1042/bj2170409
84282|T||Silver,G., and K.S. Krauter|The Ah Domain of the Mouse Induction of Proteins by the Carcinogen 3-Methylcholanthrene|Biochem. J. (Lond.)252(1): 159-165|1988|10.1042/bj2520159
84283|T||Boyce,S.J., and T.J. Mantle|Effect of Lead Acetate and Carbon Particles on the Expression of Glutathione S-Transferase YfYf in Rat Liver|Biochem. J. (Lond.)294(1): 301-304|1993|10.1042/bj2940301
84284|T||Farago,M.E., and P.J. Parsons|The Effect of Platinum, Applied as Potassium Tetrachloroplatinate, on Setaria verticillata (L) P. Beauv., and Its Growth on Flotation Tailings|Environ. Technol. Lett.7(3): 147-154|1986|10.1080/09593338609384401
84285|A||Watanabe,M., and T. Suzuki|Involvement of Reactive Oxygen Stress in Cadmium-Induced Cellular Damage in Euglena gracilis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(4): 491-500|2002|10.1016/S1532-0456(02)00036-4
84286|AT||Charlier,H.A.,Jr., C. Albertson, C. Thornock, L. Warner, T. Hurst, and R. Ellis|Comparison of the Effects of Arsenic (V), Cadmium (II), and Mercury (II) Single Metal and Mixed Metal Exposure in Radish, Raphanus sativus, Fescue Grass, Festuca ovina, and Duckweed, Lemna minor|Bull. Environ. Contam. Toxicol.75(3): 474-481|2005|10.1007/s00128-005-0777-x
84287|A||Eroglu,K., G. Atli, and M. Canli|Effects of Metal (Cd, Cu, Zn) Interactions on the Profiles of Metallothionein-Like Proteins in the Nile Fish Oreochromis niloticus|Bull. Environ. Contam. Toxicol.75(2): 390-399|2005|10.1007/s00128-005-0766-0
84288|A||Kumar,G.P., and M.N.V. Prasad|Cadmium-Inducible Proteins in Ceratophyllum demersum L. (a Fresh Water Macrophyte):  Toxicity Bioassays and Relevance to Cadmium Detoxification|Bull. Environ. Contam. Toxicol.73(1): 174-181|2004|
84289|A||Pascoe,D., and K. Carroll|Comparison of Cadmium Toxicity to Asellus aquaticus (L.) Populations Following 17 Years Isolation in Pond and Laboratory Cultures|Bull. Environ. Contam. Toxicol.73(1): 167-173|2004|10.1007/s00128-004-0409-x
84290|A||Saygideger,S., and M. Dogan|Lead and Cadmium Accumulation and Toxicity in the Presence of EDTA in Lemna minor L. and Ceratophyllum demersum L.|Bull. Environ. Contam. Toxicol.73(1): 182-189|2004|10.1007/s00128-004-0411-3
84291|T||Shibutani,M., K. Mitsumori, N. Niho, S.I. Satoh, H. Hiratsuka, M. Satoh, M. Sumiyoshi, M. Nishijima, Y. Katsuki, J. Suz|Assessment of Renal Toxicity by Analysis of Regeneration of Tubular Epithelium in Rats Given Low-Dose Cadmium Chloride or Cadmium-Polluted Rice for 22 Months|Arch. Toxicol.74(10): 571-577|2000|10.1007/s002040000180
84292|T||Stajn,A., R.V. Zikic, B. Ognjanovic, Z.S. Saicic, S.Z. Pavlovic, M.M. Kostic, and V.M. Petrovic|Effect of Cadmium and Selenium on the Antioxidant Defense System in Rat Kidneys|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.117(2): 167-172|1997|
84293|A||Wang,W.X., R.S.K. Wong, J. Wang, and Y.F. Yen|Influences of Different Selenium Species on the Uptake and Assimilation of Hg(II) and Methylmercury by Diatoms and Green Mussels|Aquat. Toxicol.68(1): 39-50|2004|10.1016/j.aquatox.2004.02.003
84294|T||Sauer,J.M., M.P. Waalkes, S.B. Hooser, R.K. Kuester, C.A. McQueen, and I.G. Sipes|Suppression of Kupffer Cell Function Prevents Cadmium Induced Hepatocellular Necrosis in the Male Sprague-Dawley Rat|Toxicology121(2): 155-164|1997|10.1016/S0300-483X(97)00062-0
84295|A||Ciocan,C.M., and J.M. Rotchell|Cadmium Induction of Metallothionein Isoforms in Juvenile and Adult Mussel (Mytilus edulis)|Environ. Sci. Technol.38(4): 1073-1078|2004|10.1021/es030110g
84296|T||Luz,C.P., E. De Castro-e-Silva, C.A. Marinho, L. Castro, C. Sarmento, V. Gonzalez, P. Oliveira, T. Nascimento, P.,Jr. S|Natriuretic and Kaliuretic Effects of Central Acute Cadmium Administration in Rats|Brain Res.796(1-2): 265-272|1998|10.1016/S0006-8993(98)00250-9
84297|T||Casalino,E., C. Sblano, and C. Landriscina|Enzyme Activity Alteration by Cadmium Administration to Rats:  The Possibility of Iron Involvement in Lipid Peroxidation|Arch. Biochem. Biophys.346(2): 171-179|1997|10.1006/abbi.1997.0197
84298|AT||Cosio,C., E. Martinoia, and C. Keller|Hyperaccumulation of Cadmium and Zinc in Thlaspi caerulescens and Arabidopsis halleri at the Leaf Cellular Level|Plant Physiol.134(2): 716-725|2004|10.1104/pp.103.031948
84299|T||Oven,M., K. Raith, R.H.H. Neubert, T.M. Kutchan, and M.H. Zenk|Homo-phytochelatins are Synthesized in Response to Cadmium in Azuki Beans|Plant Physiol.126(3): 1275-1280|2001|10.1104/pp.126.3.1275
84300|A||Pietrini,F., M.A. Iannelli, S. Pasqualini, and A. Massacci|Interaction of Cadmium with Glutathione and Photosynthesis in Developing Leaves and Chloroplasts of Phragmites australis (Cav.) Trin. ex Steudel|Plant Physiol.133(2): 829-837|2003|10.1104/pp.103.026518
84301|T||Song,W.Y., E. Martinoia, J. Lee, D. Kim, D.Y. Kim, E. Vogt, D. Shim, K.S. Choi, I. Hwang, and Y. Lee|A Novel Family of Cys-Rich Membrane Proteins Mediates Cadmium Resistance in Arabidopsis|Plant Physiol.135(2): 1027-1039|2004|10.1104/pp.103.037739
84302|T||Sures,B., G. Scheef, B. Klar, W. Kloas, and H. Taraschewski|Interaction Between Cadmium Exposure and Infection with the Intestinal Parasite Moniliformis moniliformis (Acanthocephala) on the Stress Hormone Levels in Rats|Environ. Pollut.119(3): 333-340|2002|10.1016/S0269-7491(01)00340-2
84303|T||Tandon,S.K., S. Singh, S. Prasad, and N. Mathur|Hepatic and Renal Metallothionein Induction by an Oral Equimolar Dose of Zinc, Cadmium or Mercury in Mice|Food Chem. Toxicol.39(6): 571-577|2001|10.1016/S0278-6915(00)00167-8
84306|T||Stier,C.T.,Jr., L.I. Serova, G. Singh, and E.L. Sabban|Stress Triggered Rise in Plasma Aldosterone is Lessened by Chronic Nicotine Infusion|Eur. J. Pharmacol.495(2-3): 167-170|2004|10.1016/j.ejphar.2004.05.030
84307|T||Hla-Hla-Aye,K.J., A. Sano, T. Funabashi, D. Mitsushima, and N. Kimura|Nicotine Given Intracerebroventricularly does not Inhibit the Preovulatory Surge of LH and PRL Secretion in Female Rats|Endocr. J.45(4): 575-580|1998|10.1507/endocrj.45.575
84308|T||King,J.A., and F.L. Strand|Increased ACTH Plasma Levels with Prenatal and Postnatal Nicotine Administration in Rats|Coll.Biol.Sci.: Blood-Brain Transfer, Nov.3, 1986, New York, NY:|1988|
84309|T||Lin,S.J., C.Y. Hong, M.S. Chang, B.N. Chiang, and S. Chien|Long-Term Nicotine Exposure Increases Aortic Endothelial Cell Death and Enhances Transendothelial Macromolecular Transport in Rats|Arterioscler. Thromb.12(11): 1305-1312|1992|
84310|T||Leung,F.W.|Inhibition of Spinal Afferent Nerve-Mediated Gastric Hyperemia by Nicotine:  Role of Ganglionic Blockade|Am. J. Physiol. Heart Circ. Physiol.264(4, Pt.2): 1087-1092|1993|10.1152/ajpheart.1993.264.4.H1087
84311|T||Guan,G., S.F. Kramer, L.L. Bellinger, P.J. Wellman, and P.R. Kramer|Intermittent Nicotine Administration Modulates Food Intake in Rats by Acting on Nicotine Receptors Localized to the Brainstem|Life Sci.74(22): 2725-2737|2004|10.1016/j.lfs.2003.10.015
84312|T||Flaig,K.H., K. Schumann, and B. Elsenhans|Jejunal Transfer Rates of 109Cadmium Chloride Increase in Rats In Vitro and In Vivo After Oral Pretreatment with Cadmium or Zinc Chloride|Toxicology183(1-3): 199-209|2003|10.1016/S0300-483X(02)00547-4
84313|T||Gunnarsson,D., G. Nordberg, P. Lundgren, and G. Selstam|Cadmium-Induced Decrement of the LH Receptor Expression and cAMP Levels in the Testis of Rats|Toxicology183(1-3): 57-63|2003|10.1016/S0300-483X(02)00440-7
84314|T||Harstad,E.B., and C.D. Klaassen|iNOS-null Mice are not Resistant to Cadmium Chloride-Induced Hepatotoxicity|Toxicology175(1-3): 83-90|2002|10.1016/S0300-483X(02)00068-9
84315|T||Hunder,G., J. Javdani, B. Elsenhans, and K. Schuemann|109Cd Accumulation in the Calcified Parts of Rat Bones|Toxicology159(1-2): 1-10|2001|10.1016/S0300-483X(00)00364-4
84316|T||Leffler,P.E., T. Jin, and G.F. Nordberg|Differential Calcium Transport Disturbances in Renal Membrane Vesicles After Cadmium-Metallothionein Injection in Rats|Toxicology143(3): 227-234|2000|10.1016/S0300-483X(99)00177-8
84317|T||Mendez-Armenta,M., R. Barroso-Moguel, J. Villeda-Hernandez, C. Nava-Ruiz, and C. Rios|Histopathological Alterations in the Brain Regions of Rats After Perinatal Combined Treatment with Cadmium and Dexamethasone|Toxicology161(3): 189-199|2001|10.1016/S0300-483X(01)00349-3
84318|T||Oteiza,P.I., V.N. Adonaylo, and C.L. Keen|Cadmium-Induced Testes Oxidative Damage in Rats can be Influenced by Dietary Zinc Intake|Toxicology137(1): 13-22|1999|10.1016/S0300-483X(99)00067-0
84319|T||Sabolic,I., C.M. Herak-Kramberger, and D. Brown|Subchronic Cadmium Treatment Affects the Abundance and Arrangement of Cytoskeletal Proteins in Rat Renal Proximal Tubule Cells|Toxicology165(2-3): 205-216|2001|10.1016/S0300-483X(01)00450-4
84320|T||Skoczynska,A., J. Wrobel, and R. Andrzejak|Lead-Cadmium Interaction Effect on the Responsiveness of Rat Mesenteric Vessels to Norepinephrine and Angiotensin II|Toxicology162(3): 157-170|2001|10.1016/S0300-483X(01)00355-9
84321|T||Zeng,X., T. Jin, Y. Zhou, and G.F. Nordberg|Changes of Serum Sex Hormone Levels and MT mRNA Expression in Rats Orally Exposed to Cadmium|Toxicology186(1-2): 109-118|2003|10.1016/S0300-483X(02)00725-4
84322|T||Zhou,T., G. Zhou, W. Song, N. Eguchi, W. Lu, E. Lundin, T. Jin, and G. Nordberg|Cadmium-Induced Apoptosis and Changes in Expression of p53, c-jun and MT-I Genes in Testes and Ventral Prostate of Rats|Toxicology142(1): 1-13|1999|10.1016/S0300-483X(99)00115-8
84323|T||Qiu,B.S., C.H. Cho, and C.W. Ogle|The Influence of Chronic Nicotine Treatment on Stress-Induced Ulceration and Emptying Rate in Rats|Experientia48(4): 389-391|1992|10.1007/BF01923437
84324|T||Popik,P., M. Krawczyk, T. Kos, I. Nalepa, M. Kowalska, T. Witarski, L. Antkiewicz-Michaluk, and J. Vetulani|Nicotine Produces Antidepressant-Like Actions:  Behavioral and Neurochemical Evidence|Eur. J. Pharmacol.515(1-3): 128-133|2005|10.1016/j.ejphar.2005.04.009
84325|T||Wong,D., M.W.L. Koo, V.Y. Shin, E.S.L. Liu, and C.H. Cho|Pathogenesis of Nicotine Treatment and Its Withdrawal on Stress-Induced Gastric Ulceration in Rats|Eur. J. Pharmacol.434(1-2): 81-86|2002|10.1016/S0014-2999(01)01529-1
84326|T||Zarrindast,M.R., H. Homayoun, A. Babaie, A. Etminani, and B. Gharib|Involvement of Adrenergic and Cholinergic Systems in Nicotine-Induced Anxiogenesis in Mice|Eur. J. Pharmacol.407(1-2): 145-158|2000|10.1016/S0014-2999(00)00628-2
84327|T||Fung,Y.K., and Y.S. Lau|Receptor Mechanisms of Nicotine-Induced Locomotor Hyperactivity in Chronic Nicotine-Treated Rats|Eur. J. Pharmacol.152(3): 263-272|1988|10.1016/0014-2999(88)90721-2
84328|T||Seidler,F.J., E.D. Levin, S.E. Lappi, and T.A. Slotkin|Fetal Nicotine Exposure Ablates the Ability of Postnatal Nicotine Challenge to Release Norepinephrine from Rat Brain Regions|Brain Res. Dev. Brain Res.69(2): 288-291|1992|10.1016/0165-3806(92)90170-2
84329|T||McFarland,B.J., F.J. Seidler, and T.A. Slotkin|Inhibition of DNA Synthesis in Neonatal Rat Brain Regions Caused by Acute Nicotine Administration|Brain Res. Dev. Brain Res.58(2): 223-230|1991|10.1016/0165-3806(91)90008-7
84330|T||Pogun,S., S. Demirgoren, D. Taskiran, L. Kanit, O. Yilmaz, E.O. Koylu, B. Balkan, and E.D. London|Nicotine Modulates Nitric Oxide in Rat Brain|Eur. Neuropsychopharmacol.10(6): 463-472|2000|10.1016/S0924-977X(00)00116-4
84331|T||Chowdhury,P., R. Doi, L.W. Chang, and P.L. Rayford|Tissue Distribution of [3H]Nicotine in Rats|Biomed. Environ. Sci.6(1): 59-64|1993|
84332|T||Marks,M.J., E. Romm, and A.C. Collins|Mouse Brain ATPase Activities after Chronic Nicotine Infusion|Biochem. Pharmacol.36(19): 3318-3320|1987|10.1016/0006-2952(87)90655-1
84333|T||Iscan,M., A.O. Ada, T. Coban, N. Kapucuoglu, A. Aydin, and A. Isimer|Combined Effects of Cadmium and Nickel on Testicular Xenobiotic Metabolizing Enzymes in Rats|Biol. Trace Elem. Res.89(2): 177-190|2002|10.1385/BTER:89:2:177
84334|T||Elez,D., J. Dundjerski, and G. Matic|Cadmium Affects the Redox State of Rat Liver Glucocorticoid Receptor|Cell Biol. Toxicol.17(3): 169-177|2001|10.1023/A:1011940414419
84335|T||Kojima,S., M. Kawagoe, M. Kiyozumi, and H. Shimada|Effects of Three Dithiocarbamates on Tissue Distribution and Excretion of Cadmium in Mice|Chem. Pharm. Bull.38(11): 3136-3139|1990|10.1248/cpb.38.3136
84336|T||Agirdir,B.V., I. Bilgen, O. Dinc, H.U. Ozcaglar, F. Fisenk, M. Turhan, and G. Oner|Effect of Zinc Ion on Cadmium-Induced Auditory Changes|Biol. Trace Elem. Res.88(2): 153-163|2002|10.1385/BTER:88:2:153
84337|T||Karbownik,M., E. Gitto, A. Lewinski, and R.J. Reiter|Induction of Lipid Peroxidation in Hamster Organs by the Carcinogen Cadmium: Amelioration by Melatonin|Cell Biol. Toxicol.17(1): 33-40|2001|10.1023/A:1010903130693
84338|T||Rimbach,G., and J. Pallauf|Cadmium Accumulation, Zinc Status, and Mineral Bioavailability of Growing Rats Fed Diets high in Zinc with Increasing Amounts of Phytic Acid|Biol. Trace Elem. Res.57(1): 59-70|1997|10.1007/BF02803870
84340|T||Hames,C.A.C.|The Digestive System and Metals in Terrestrial Isopods|Ph.D.Thesis, University of Reading, United Kingdom:153 p.|1989|
84341|T||Nishimura,N., H. Nishimura, and H. Oshima|Enhancement of Renal Lysozyme Activity in Cadmium-Treated Rabbit|Jpn. J. Ind. Health29(3): 210-211|1987|
84342|T||Atici,O., G. Agar, and P. Battal|Interaction Between Endogenous Plant Hormones and (alpha)-Amylase in Germinating Chickpea Seeds Under Cadmium Exposure|Fresenius Environ. Bull.12(7): 781-785|2003|
84343|T||Shimada,T.|Effect of Cadmium on Zinc Metabolism in the Mouse|Environ. Med.36(0): 79-82|1992|
84344|T||Jones,M.M., G.R. Gale, L.M. Atkins, and A.B. Smith|Effects of Monoalkyl Dithiocarbamates on Mobilization of Cadmium in the Mouse|J. Toxicol. Environ. Health17(1): 81-89|1986|10.1080/15287398609530804
84345|T||Cikrt,M., P. Lepsi, L. Horakova, K.,Jr. Blaha, D. Bittnerova, and M.M. Jones|Effects of Dithiocarbamates on Cadmium Distribution and Excreation in Chronically Exposed Rats|J. Toxicol. Environ. Health17(4): 419-427|1986|10.1080/15287398609530836
84346|T||Jones,S.G., W.M. Mitchell, and M.M. Jones|Effects of the Mobilization of Aged Tissue Cadmium by Chelating Agents|J. Toxicol. Environ. Health19(2): 267-278|1986|10.1080/15287398609530926
84347|T||Waalkes,M.P.|Effect of Dietary Zinc Deficiency on the Accumulation of Cadmium and Metallothionein in Selected Tissues of the Rat|J. Toxicol. Environ. Health18(2): 301-313|1986|10.1080/15287398609530870
84348|T||Liu,X., T. Jin, G.F. Nordberg, M. Sjostrom, and Y. Zhou|Influence of Zinc and Copper Administration on Metal Disposition in Rats with Cadmium-Metallothionein-Induced Nephrotoxicity|Toxicol. Appl. Pharmacol.126(1): 84-90|1994|10.1006/taap.1994.1093
84349|T||Purkayastha,R.P., and S. Ghosh|Heavy Metal Salt Inducing Disease Resistance and Altering Specific Antigen of Soybean Leaves|Int. J. Trop. Plant Dis.10(1): 131-142|1992|
84350|T||Bomhard,E.M., D. Maruhn, and M. Rinke|Time Course of Chronic Oral Cadmium Nephrotoxicity in Wistar Rats:  Excretion of Urinary Enzymes|Drug Chem. Toxicol.22(4): 679-703|1999|10.3109/01480549908993175
84351|T||Ghosh,S., and R.P. Purkayastha|Elicitation of Glyceollin by Natural Products and Metallic Salts|Int. J. Trop. Plant Dis.10(1): 99-108|1992|
84352|A||Sinha,M.P., M. Kumar, R.S. Toppno, and R. Srivastava|Calorific Changes in Liver, Ovary and Muscle of Hill Stream Fish Garra mullya (sykes) due to Cadmium Toxicity|J. Ecophysiol. Occup. Health1(3-4): 375-384|2001|
84354|T||Schulte,S., K. Mengel, U. Gatke, and K.D. Friedberg|No Influence of Cadmium on the Production of Specific Antibodies in Mice|Toxicology93(2-3): 263-268|1994|10.1016/0300-483X(94)90083-3
84357|T||Furchner,J.E., G.A. Drake, and C.R. Richmond|Effective Retention of Silver-110 by Dogs After Oral Administration|In: W.H.Langham and T.L.Shipman (Eds.), Biological and Medical Research Group (H-4) of the Health Division:191-194|1966|
84359|A||Kozuch,J., and J. Pempkowiak|Comparison of Cadmium Uptake from Food and Seawater by the Blue Mussel Mytilus edulis|Mar. Chem.10:33-40|1994|
84361|A||Palacio,J.A., B. Henao, J.H. Velez, J. Gonzalez, and C.M. Parra|Acute Toxicity and Bioaccumulation of Pesticide Diazinon in Red Tilapia (Oreochromis niloticus x Mossambicus albina)|Environ. Toxicol.17(4): 334-340|2002|10.1002/tox.10063
84362|A||Menendez,M.S., and A. Ishimatsu|Pesticide Toxicity in the Larvae of Japanese Flounder, Paralichthys olivaceus|Nagasaki Daigaku Suisangakubu Kenkyu Hokoku (Bull. Fac. Fish. Nagasaki Univ.)74-75:31-36|1993|
84363|T||Shohami,E., B. Wisotsky, O. Kempski, and G. Feuerstein|Therapeutic Effect of Dexamethasone in T-2 Toxicosis|Pharmacol. Res.4(6): 527-530|1987|10.1023/A:1016444009179
84364|T||Lox,C.D.|The Effects of Short Term Diazinon Exposure on Blood Clotting Activity in the Rat|J. Environ. Pathol. Toxicol. Oncol.7(3): 67-71|1987|
84365|T||Husain,K., M.A. Mirza, and M.A. Matin|Convulsions as the Etiology of Lactic Acidosis in Acute Diazinon Toxicity in Rats|Toxicol. Lett.37(3): 257-261|1987|10.1016/0378-4274(87)90140-8
84366|T||Matin,M.A., K. Husain, and S.N. Khan|Modification of Diazinon-Induced Changes in Carbohydrate Metabolism by Adrenalectomy in Rats|Biochem. Pharmacol.39(11): 1781-1786|1990|10.1016/0006-2952(90)90125-5
84367|T||Booth,L.H., V.J. Heppelthwaite, R. Webster, and K. O'Halloran|Lysosomal Neutral Red Retention Time as a Biomarker of Organophosphate Exposure in the Earthworm Aporrectodea caliginosa:  Laboratory and Semi-field Experiments|Biomarkers (Lond.)6(1): 77-82|2001|10.1080/135475001452823
84368|T||Wolthuis,O.L., and R.A.P. Vanwersch|Behavioral Changes in the Rat After Low Doses of Cholinesterase Inhibitors|Fundam. Appl. Toxicol.4(2 Pt. 2): 195-208|1984|
84369|A||Hemming,J.M., and W.T. Waller|Diazinon and Chlorpyrifos Toxicity to the Freshwater Asiatic Clam, Corbicula fluminea Muller, and the Estuarine Hooked Mussel, Ischadium recurvum Rafinesque|Fla. Sci.67(1): 1-8|2004|
84371|T||Domino,E.F.|Nicotine Induced Behavioral Locomotor Sensitization|Prog. Neuro-Psychopharmacol. Biol. Psychiatry25(1): 59-71|2001|10.1016/S0278-5846(00)00148-2
84372|T||Maritz,G.S., K.M. Woolward, and G. Du Toit|Maternal Nicotine Exposure During Pregnancy and Development of Emphysema-Like Damage in the Offspring|S. Afr. Med. J.83(3): 195-199|1993|
84373|T||Blackburn,C.W., C.A. Peterson, H.A. Hales, D.T. Carrell, K.P. Jones, R.L. Urry, and C.M. Peterson|Nicotine, but not Cotinine, has a Direct Toxic Effect on Ovarian Function in the Immature Gonadotropin-Stimulated Rat|Reprod. Toxicol.8(4): 325-331|1994|10.1016/0890-6238(94)90048-5
84374|T||Wang,N.S., D.E. Schraufnagel, and M.F. Chen|The Effect of Maternal Oral Intake of Nicotine on the Growth and Maturation of Fetal and Baby Mouse Lungs|Lung (N.Y.)161(1): 27-38|1983|
84375|T||Hock,C.E., and J.C. Passmore|Mechanisms Mediating Canine Renal Vasoconstriction Induced by Nicotine Infusion|Life Sci.37(21): 1997-2003|1985|10.1016/0024-3205(85)90030-X
84376|T||Valenca,S.S., A. De Souza da Fonseca, K. Da Hora, R. Santos, and L.C. Porto|Lung Morphometry and MMP-12 Expression in Rats Treated with Intraperitoneal Nicotine|Exp. Toxicol. Pathol.55(5): 393-400|2004|10.1078/0940-2993-00322
84378|T||Matin,M.A., S. Sattar, and K. Husain|The Role of Adrenals in Diazinon-Induced Changes in Carbohydrate Metabolism in Rats|Arh. Hig. Rada Toksikol.41(4): 347-356|1990|
84379|T||Husain,K., and M.A. Matin|Cerebral Glycolysis and Glycogenolysis in Diazinon Treated Animals|Arh. Hig. Rada Toksikol.37(1): 29-34|1986|
84380|A||Khalaf-Allah,S.S.|Effect of Pesticide Water Pollution on Some Haematological, Biochemical and Immunological Parameters in Tilapia nilotica Fish|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)106(2): 67-71|1999|
84381|T||Amin,W.A., A.M. Fatma, and C.S. Budai|Effect of Trifluralin and Certain Pesticides for Management of Meloidogyne incognita on Tomato|Indian J. Nematol.22(2): 89-92|1992|
84382|A||Chon,T.S., N. Chung, I.S. Kwak, J.S. Kim, S.C. Koh, S.K. Lee, J.B. Leem, and E.Y. Cha|Movement Behaviour of Medaka (Oryzias latipes) in Response to Sublethal Treatments of Diazinon and Cholinesterase Activity in Semi-Natural Conditions|Environ. Monit. Assess.101(1-3): 1-21|2005|
84383|T||Flemmer,D.D., and S.C. Dilsaver|Constant Exposure to Darkness Produces Supersensitivity to Nicotine|Pharmacol. Biochem. Behav.35(3): 523-526|1990|10.1016/0091-3057(90)90283-N
84384|T||Dubick,M.A., R. Palmer, P.P. Lau, P.R. Morrill, and M.C. Geokas|Altered Exocrine Pancreatic Function in Rats Treated with Nicotine|Toxicol. Appl. Pharmacol.96(1): 132-139|1988|10.1016/0041-008X(88)90255-4
84385|T||Lau,P.P., M.A. Dubick, G.S.M. Yu, P.R. Morrill, and M.C. Geokas|Dynamic Changes of Pancreatic Structure and Function in Rats Treated Chronically with Nicotine|Toxicol. Appl. Pharmacol.104(3): 457-465|1990|10.1016/0041-008X(90)90167-S
84386|T||Siren,A.L., and G. Feuerstein|Cardiovascular Effects of Anatoxin-a in the Conscious Rat|Toxicol. Appl. Pharmacol.102(1): 91-100|1990|10.1016/0041-008X(90)90086-A
84387|T||Witschi,H., S.M. Lundgaard, P. Rajini, A.G. Hendrickx, and J.A. Last|Effects of Exposure to Nicotine and to Sidestream Smoke on Pregnancy Outcome in Rats|Toxicol. Lett.71(3): 279-286|1994|10.1016/0378-4274(94)90114-7
84388|T||Pelissier,A.L., M. Gantenbein, and B. Bruguerolle|Nicotine-Induced Perturbations on Heart Rate, Body Temperature and Locomotor Activity Daily Rhythms in Rats|J. Pharm. Pharmacol.50(8): 929-934|1998|10.1111/j.2042-7158.1998.tb04010.x
84389|T||Adler,I.D., and S.M. Attia|Nicotine is not Clastogenic at Doses of 1 or 2 mg/kg Body Weight Given Orally to Male Mice|Mutat. Res.542(1/2): 139-142|2003|10.1016/j.mrgentox.2003.08.008
84390|T||Rogers,D.T., and E.T. Iwamoto|Multiple Spinal Mediators in Parenteral Nicotine-Induced Antinociception|J. Pharmacol. Exp. Ther.267(1): 341-349|1993|
84391|T||Aubert,J.F., M. Burnier, B. Waeber, J. Nussberger, and H.R. Brunner|Nicotine-Induced Release of Vasopressin in the Conscious Rat:  Role of Opioid Peptides and Hemodynamic Effects|J. Pharmacol. Exp. Ther.243(2): 681-685|1987|
84392|T||Peters,D.A.V., and S. Tang|Sex-Dependent Biological Changes Following Prenatal Nicotine Exposure in the Rat|Pharmacol. Biochem. Behav.17(5): 1077-1082|1982|10.1016/0091-3057(82)90497-X
84394|T||Sorenson,C.A., L.A. Raskin, and Y. Suh|The Effects of Prenatal Nicotine on Radial-Arm Maze Performance in Rats|Pharmacol. Biochem. Behav.40(4): 991-993|1991|10.1016/0091-3057(91)90117-K
84395|T||Haikala,H.|Dual Effects of Nicotine on Neuroleptic-Induced Changes of Striatal Dopamine Metabolism in Mice|Pharmacol. Toxicol.64(4): 334-339|1989|10.1111/j.1600-0773.1989.tb00659.x
84396|T||Vadlamani,N.L., R.B. Pontani, and A.L. Misra|Effect of Chronic Nicotine Pre-Treatment on Phencyclidine (PCP) Disposition in the Rat|Arch. Int. Pharmacodyn. Ther.265(1): 4-12|1983|
84397|T||Gomita,Y., K. Suemaru, K. Furuno, and Y. Araki|Tail-Tremor Induced by Exposure to Cigarette Smoke in Rats|Pharmacol. Biochem. Behav.40(2): 453-455|1991|10.1016/0091-3057(91)90579-Q
84398|T||Pietila,K., I. Laakso, and L. Ahtee|Chronic Oral Nicotine Administration Affects the Circadian Rhythm of Dopamine and 5-Hydroxytryptamine Metabolism in the Striata of Mice|Naunyn-Schmiedeberg's Arch. Pharmacol.353(1): 110-115|1995|10.1007/BF00168923
84399|T||Kavitharaj,N.K., and P.L. Vijayammal|Nicotine Administration Induced Changes in the Gonadal Functions in Male Rats|Pharmacology58(1): 2-7|1999|10.1159/000028262
84400|T||Mundy,W.R., and E.T. Iwamoto|Nicotine Impairs Acquisition of Radial Maze Performance in Rats|Pharmacol. Biochem. Behav.30(1): 119-122|1988|10.1016/0091-3057(88)90433-9
84401|T||Freund,R.K., B.J. Martin, D.A. Jungschaffer, E.A. Ullman, and A.C. Collins|Genetic Differences in Plasma Corticosterone Levels in Response to Nicotine Injection|Pharmacol. Biochem. Behav.30(4): 1059-1064|1988|10.1016/0091-3057(88)90139-6
84402|T||Martin,B.J., and J.M. Wehner|Influence of Genotype on Nicotine-Induced Increases of Plasma Corticosterone in Mice as a Result of Acute Nicotine Pretreatment|Pharmacol. Biochem. Behav.30(4): 1065-1070|1988|10.1016/0091-3057(88)90140-2
84403|T||Lupien,J.R., and G.A. Bray|Nicotine Increases Thermogenesis in Brown Adipose Tissue in Rats|Pharmacol. Biochem. Behav.29(1): 33-37|1988|10.1016/0091-3057(88)90269-9
84404|T||Bowen,D.J., S.E. Eury, and N.E. Grunberg|Nicotine's Effect on Female Rats' Body Weight:  Caloric Intake and Physical Activity|Pharmacol. Biochem. Behav.25(6): 1131-1136|1986|10.1016/0091-3057(86)90099-7
84405|T||Rowell,P.P., and M.J. Clark|The Effect of Chronic Oral Nicotine Administration on Fetal Weight and Placental Amino Acid Accumulation in Mice|Toxicol. Appl. Pharmacol.66(1): 30-38|1982|10.1016/0041-008X(82)90058-8
84406|T||Hammer,R.E., H. Goldman, and J.A. Mitchell|Effects of Nicotine on Uterine Blood Flow and Intrauterine Oxygen Tension in the Rat|J. Reprod. Fertil.63(1): 163-168|1981|10.1530/jrf.0.0630163
84407|A||Lower,N., and A. Moore|Exposure to Insecticides Inhibits Embryo Development and Emergence in Atlantic Salmon (Salmo salar L.)|Fish Physiol. Biochem.28(1-4): 431-432|2003|10.1023/B:FISH.0000030617.74673.92
84408|T||Woodman,O.L.|Coronary Vascular Responses to Nicotine in the Anaesthetized Dog|Naunyn-Schmiedeberg's Arch. Pharmacol.343(1): 65-69|1991|10.1007/BF00180678
84409|T||Booze,R.M., M.A. Welch, M.L. Wood, K.A. Billings, S.R. Apple, and C.F. Mactutus|Behavioral Sensitization Following Repeated Intravenous Nicotine Administration:  Gender Differences and Gonadal Hormones|Pharmacol. Biochem. Behav.64(4): 827-839|1999|10.1016/S0091-3057(99)00169-0
84410|T||Calore,E.E., A.R. Da Rosa, N.M. Perez, and L. Vilela de Almeida|Effects of Nicotine Administration in Developing Muscle Fibers of Rats Offspring|Ecotoxicol. Environ. Saf.55(2): 152-156|2003|10.1016/S0147-6513(02)00118-5
84411|T||Cruz,F.C., R. DeLucia, and C.S. Planeta|Differential Behavioral and Neuroendocrine Effects of Repeated Nicotine in Adolescent and Adult Rats|Pharmacol. Biochem. Behav.80(3): 411-417|2005|10.1016/j.pbb.2004.12.007
84412|T||Roy,T.S., and U. Sabherwal|Effects of Gestational Nicotine Exposure on Hippocampal Morphology|Neurotoxicol. Teratol.20(4): 465-473|1998|10.1016/S0892-0362(97)00137-2
84413|T||Visanji,N.P., S.N. Mitchell, M.J. O'Neill, and S. Duty|Chronic Pre-Treatment with Nicotine Enhances Nicotine-Evoked Striatal Dopamine Release and [alpha]6 and [beta]3 Nicotinic Acetylcholine Receptor Subunit mRNA in the Substantia Nigra Pars Compacta of the Rat|Neuropharmacology50(1): 36-46|2006|10.1016/j.neuropharm.2005.07.013
84414|T||Zbuzek,V.K., and V. Zbuzek|Effect of Pre- and Postnatal Nicotine Exposure on Vasopressinergic System in Rats|Brain Res. Dev. Brain Res.112(2): 229-235|1999|10.1016/S0165-3806(98)00179-5
84415|T||Zhu,J., M. Takita, Y. Konishi, M. Sudo, and I. Muramatsu|Chronic Nicotine Treatment Delays the Developmental Increase in Brain Muscarinic Receptors in Rat Neonate|Brain Res.732(1-2): 257-260|1996|10.1016/0006-8993(96)00704-4
84416|T||Fu,Y., S.G. Matta, J.D. Valentine, and B.M. Sharp|Desensitization and Resensitization of Norepinephrine Release in the Rat Hippocampus with Repeated Nicotine Administration|Neurosci. Lett.241(2-3): 147-150|1998|10.1016/S0304-3940(98)00018-4
84417|T||Popke,E.J., A.J. Mayorga, C.M. Fogle, and M.G. Paule|Effects of Acute Nicotine on Several Operant Behaviors in Rats|Pharmacol. Biochem. Behav.65(2): 247-254|2000|10.1016/S0091-3057(99)00205-1
84418|T||Attaway,C.M., D.M. Compton, and M.D. Turner|The Effects of Nicotine on Learning and Memory:  A Neuropsychological Assessment in Young and Senescent Fischer 344 Rats|Physiol. Behav.67(3): 421-431|1999|10.1016/S0031-9384(99)00081-5
84419|T||Janhunen,S., A. Linnervuo, M. Svensk, and L. Ahtee|Effects of Nicotine and Epibatidine on Locomotor Activity and Conditioned Place Preference in Rats|Pharmacol. Biochem. Behav.82(4): 758-765|2005|10.1016/j.pbb.2005.12.012
84426|A||Munshi,A.B., S.Y. Quan, and S.J. Li|Acute Toxicity of Copper, Cadmium and Copper-Cadmium Mixture to the Larvae of the Shrimp Penaeus monodon|Pak. J. Sci. Ind. Res.39(1-4): 68-71|1996|
84431|T||Honda,T., K. Muramoto, M. Kiyozumi, and S. Kojima|Effect of 2-Isopropylnaphthalene on Pulmonary Phospholipid in Rats|Eisei Kagaku (Multiple Languages)36(5): 424-429|1990|
84432|T||Jeon,T.W., C.H. Jin, S.K. Lee, D.W. Lee, S.H. Hyun, G.H. Kim, I.H. Jun, B.M. Lee, Y.N. Yum, J.K. Kim, O.H. Kim, and T.C|In Vivo and In Vitro Immunosuppressive Effects of Benzo(k)fluoranthene in Female Balb/c Mice|J. Toxicol. Environ. Health Part A68(23-24): 2033-2050|2005|10.1080/15287390491009147
84433|T||Roos,P.H.|Differential Induction of CYP1A1 in Duodenum, Liver and Kidney of Rats After Oral Intake of Soil Containing Polycyclic Aromatic Hydrocarbons|Arch. Toxicol.76(2): 75-82|2002|10.1007/s00204-001-0317-3
84434|T||Cao,D., C.H. Yoon, B.S. Shin, C.H. Kim, E.S. Park, and S.D. Yoo|Effects of Aloe, Aloesin, or Propolis on the Pharmacokinetics of Benzo[a]pyrene and 3-OH-Benzo[a]pyrene in Rats|J. Toxicol. Environ. Health Part A68(23-24): 2227-2238|2005|10.1080/15287390500182164
84438|A||Leong,S.C.Y., and S. Taguchi|Optical Characteristics of the Harmful Dinoflagellate Alexandrium tamarense in Response to Different Nitrogen Sources|Harmful Algae4(2): 211-219|2005|10.1016/j.hal.2004.02.004
84439|T||Lina,B.A.R., and M.H.M. Kuijpers|Toxicity and Carcinogenicity of Acidogenic or Alkalogenic Diets in Rats; Effects of Feeding NH(4)Cl, KHCO(3) or KCl|Food Chem. Toxicol.42(1): 135-153|2004|10.1016/j.fct.2003.08.011
84440|T||Ramakrishnan,R., R. Sheeladevi, N. Suthanthirarajan, and A. Namasivayam|An Acute Hyperglycemia or Acidosis-Induced Changes of Indolamines Level Correlates with PKC-alpha Expression in Rat Brain|Brain Res. Bull.67(1-2): 46-52|2005|10.1016/j.brainresbull.2005.06.001
84441|A||Brennan,S.J., C.A. Brougham, J.J. Roche, and A.M. Fogarty|Multi-Generational Effects of Four Selected Environmental Oestrogens on Daphnia magna|Chemosphere64:49-55|2006|10.1016/j.chemosphere.2005.11.046
84455|A||Khoshbavar-Rostami,H.A., M. Soltani, and H.M.D. Hassan|Acute Toxicity and Some Haematological and Biochemical Changes in Giant Sturgeon (Huso huso) Exposed to Diazinon|Bull. Eur. Assoc. Fish Pathol.24(2): 92-99|2004|
84456|T||Iba,M.M., H. Scholl, J. Fung, P.E. Thomas, and J. Alam|Induction of Pulmonary CYP1A1 by Nicotine|Xenobiotica28(9): 827-843|1998|10.1080/004982598239083
84457|T||Rao,A.P., and S.B. Patil|Effect of Nicotine on the Spermatogenic Activities of Testis in Albino Mice|Indian J. Comp. Anim. Physiol.10(1): 1-6|1992|
84458|T||Radek,R.J.|Effects of Nicotine on Cortical high Voltage Spindles in Rats|Brain Res.625(1): 23-28|1993|10.1016/0006-8993(93)90133-8
84459|T||Zhang,X., Z.H. Gong, and A. Nordberg|Effects of Chronic Treatment with (+)- and (-)-Nicotine on Nicotinic Acetylcholine Receptors and N-Methyl-D-Aspartate Receptors in Rat Brain|Brain Res.644(1): 32-39|1994|10.1016/0006-8993(94)90343-3
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84553|A||Schlekat,C.E., A.W. Decho, and G.T. Chandler|Dietary Assimilation of Cadmium Associated with Bacterial Exopolymer Sediment Coatings by the Estuarine Amphipod Leptocheirus plumulosus: Effects of Cd Concentration and Salinity|Mar. Ecol. Prog. Ser.183:205-216|1999|10.3354/meps183205
84554|A||Roast,S.D., J. Widdows, and M.B. Jones|Distribution and Swimming Behaviour of Neomysis integer (Peracarida:  Mysidacea) in Response to Gradients of Dissolved Oxygen Following Exposure to Cadmium at Environmental Concentrations|Mar. Ecol. Prog. Ser.237:185-194|2002|10.3354/meps237185
84555|T||Smalley,T.J., F.T. Lasseigne, H.A. Mills, and G.G. Hussey|Effect of Aluminum on Growth and Chemical Composition of Marigolds|J. Plant Nutr.16(8): 1375-1384|1993|10.1080/01904169309364620
84556|T||Kastori,R., M. Petrovic, and N. Petrovic|Effect of Excess Lead, Cadmium, Copper, and Zinc on Water Relations in Sunflower|J. Plant Nutr.15(11): 2427-2439|1992|10.1080/01904169209364485
84557|A||Chambers,M.G.|The Effect of Acute Cadmium Toxicity on Marron, Cherax tenuimanus (Smith, 1912) (Family Parastacidae)|In: M.C.Geddes, D.R.Fielder, and A.M.M.Richardson (Eds.), 10th Int.Symp.on Freshwater Crayfish, Apr.10-15, 1995, Louisiana State Univ., Baton Rouge, LA:209-220|1995|
84558|A||Devi,S.|Some Ultrastructural Changes due to Cadmium Toxicity in Salvinia molesta Mitch.|Indian Fern J.13(1-2): 9-13|1996|
84559|A||Liu,H., J.W.,Jr. Avault, and P. Medley|Toxicity of Ammonia and Nitrite to Juvenile Redclaw Crayfish, Cherax quadricarinatus (von Martens)|In: M.C.Geddes, D.R.Fielder, and A.M.M.Richardson (Eds.), International Symposium on Freshwater Crayfish, Baton Rouge, LA:249-255|1995|
84560|T||Shirley,M.D.F., and R.M. Sibly|Genetic Basis of a Between-Environment Trade-Off Involving Resistance to Cadmium in Drosophila melanogaster|Evolution53(3): 826-836|1999|10.2307/2640722
84561|A||Marsalek,B., and R. Rojickova|Stress Factors Enhancing Production of Algal Exudates:  A Potential Self-Protective Mechanism?|Z. Naturforsch. Sect. C J. Biosci.51(9/10): 646-650|1996|10.1515/znc-1996-9-1008
84562|T||Al-Misned,F.A.M.|Biological Effects of Cadmium on Life Cycle Parameters of Chrysomya albiceps (Wiedemann) (Diptera:  Calliphoridae)|Kuwait J. Sci. Eng.28(1): 179-188|2001|
84563|T||Pandey,N., A.K. Singh, G.C. Pathak, and C.P. Sharma|Effect of Zinc on Antioxidant Response in Maize (Zea mays L.) Leaves|Indian J. Exp. Biol.40(8): 954-956|2002|
84564|T||Yilmaz,A., H. Ekiz, I. Gultekin, B. Torun, H. Barut, S. Karanlik, and I. Cakmak|Effect of Seed Zinc Content on Grain Yield and Zinc Concentration of Wheat Grown in Zinc-Deficient Calcareous Soils|J. Plant Nutr.21(10): 2257-2264|1998|10.1080/01904169809365559
84565|T||Moreno-Caselles,J., A. Perez-Espinosa, M.D. Perez-Murcia, R. Moral, and I. Gomez|Cobalt-Induced Stress in Tomato Plants: Effect on Yield, Chlorophyll Content, and Nutrient Evolution|J. Plant Nutr.20(9): 1231-1237|1997|10.1080/01904169709365330
84566|T||Reinbott,T.M., D.G. Blevins, and M.K. Schon|Content of Boron and Other Elements in Main Stem and Branch Leaves and Seed of Soybean|J. Plant Nutr.20(7-8): 831-843|1997|10.1080/01904169709365299
84567|A||Mallick,N., and L.C. Rai|Characterization of Cd-Induced Low Molecular Weight Protein in a N2-Fixing Cyanobacterium Anabaena doliolum with Special Reference to Co-/Multiple Tolerance|BioMetals11(1): 55-61|1998|10.1023/A:1009261424872
84568|T||Akins,J.M., J.A. Schroeder, D.L. Brower, and H.V. Aposhian|Evaluation of Drosophila melanogaster as an Alternative Animal for Studying the Neurotoxicity of Heavy Metals|BioMetals5(2): 111-120|1992|10.1007/BF01062222
84569|A||Karthikeyan,A., and P. Kumarasamy|Effect of Sublethal Concentration of Cadmium on Biochemical Constituents of an Estuarine Clam Meretrix casta (Chemnitz) Under Different Salinities|J. Environ. Pollut.5(1): 13-16|1998|
84570|T||Arao,T., and N. Ae|Genotypic Variations in Cadmium Levels of Rice Grain|Soil Sci. Plant Nutr.49(4): 473-479|2003|10.1080/00380768.2003.10410035
84571|A||Jana,B.B., and S. Das|Eichhornia crassipes Induced Cadmium Depuration in Tilapia, Oreochromis mossambicus (Peters)|J. Aquacult. Trop.14(3): 201-207|1999|
84572|A||Carbonell,G., S. Boleas, C. Fernandez, D. Santiago, and J.V. Tarazona|Metal Mobilization and Subcellular Distribution of Cadmium and Copper in Rainbow Trout (O. mykiss) Exposed to Repeated IP Injections of Cadmium Chloride|Metal Ions Biol. Med.:212-214|1996|
84573|T||Obata,H., and M. Umebayashi|Effects of Cadmium on Mineral Nutrient Concentrations in Plants Differing in Tolerance for Cadmium|J. Plant Nutr.20(1): 97-105|1997|10.1080/01904169709365236
84574|T||Brune,A., and K.J. Dietz|A Comparative Analysis of Element Composition of Roots and Leaves of Barley Seedlings Grown in the Presence of Toxic Cadmium, Molybdenum, Nickel, and Zinc Concentrations|J. Plant Nutr.18(4): 853-868|1995|10.1080/01904169509364943
84575|T||Reed,R.L., M.A. Sanderson, V.G. Allen, and A.G. Matches|Growth and Cadmium Accumulation in Selected Switchgrass Cultivars|Commun. Soil Sci. Plant Anal.30(19-20): 2655-2667|1999|10.1080/00103629909370403
84576|T||Holgert,H., T. Hokfelt, T. Hertzberg, and H. Lagercrantz|Functional and Developmental Studies of the Peripheral Arterial Chemoreceptors in Rat:  Effects of Nicotine and Possible Relation to Sudden Infant Death Syndrome|Proc. Natl. Acad. Sci. U.S.A.92(16): 7575-7579|1995|10.1073/pnas.92.16.7575
84577|A||Kannupandi,T., G. Vijayakumar, and P. Soundarapandian|Impact of Cadmium on the Total Protein, Carbohydrate and Lipid Contents of the Mangrove Crab Sesarma brockii De Man|J. Mar. Biol. Assoc. India43(1-2): 193-196|2001|
84578|T||Chatterjee,J., and C. Chatterjee|Management of Phytotoxicity of Cobalt in Tomato by Chemical Measures|Plant Sci.164(5): 793-801|2003|10.1016/S0168-9452(03)00066-9
84579|T||Slawecki,C.J., and C.L. Ehlers|The Effects of Corticotropin-Releasing Factor on the Cortical EEG are Reduced Following Adolescent Nicotine Exposure|Neuropeptides37(1): 66-73|2003|10.1016/S0143-4179(03)00006-4
84580|T||Scheuhammer,A.M., and D.M. Templeton|Metallothionein Production:  Similar Responsiveness of Avian Liver and Kidney to Chronic Cadmium Administration|Toxicology60(1-2): 151-160|1990|10.1016/0300-483X(90)90169-H
84581|T||Kita,T., M. Okamoto, K. Kubo, T. Tanaka, and T. Nakashima|Enhancement of Sensitization to Nicotine-Induced Ambulatory Stimulation by Psychological Stress in Rats|Prog. Neuro-Psychopharmacol. Biol. Psychiatry23(5): 893-903|1999|10.1016/S0278-5846(99)00033-0
84582|T||Chowdhury,P., M. Ami, R. Hosotani, and P.L. Rayford|Meal-Stimulated Exocrine Pancreatic Secretion and Release of GI Peptides in Normal and Nicotine-Treated Rats|Regulatory Pept.33(1): 11-20|1991|10.1016/0167-0115(91)90010-E
84583|T||England,M.W., J.B. Faust, E.K. Wilkerson, and K.B. Jacobson|Strontium Toxicity in Drosophila melanogaster|Toxicology65(3): 251-257|1990|10.1016/0300-483X(91)90084-E
84584|T||Ravindra, S.R. Patil, and S.B. Patil|Effect of Increasing Dose of Nicotine on Estrous Cycle in Albino Rats|Geobios25(2/3): 105-108|1998|
84585|T||Maritz,G.S.|Effect of Maternal Nicotine Exposure on Growth In Vivo of Lung Tissue of Neonatal Rats|Biol. Neonate53(3): 163-170|1988|10.1159/000242778
84586|T||Lapchak,P.A., D.M. Araujo, R. Quirion, and B. Collier|Effect of Chronic Nicotine Treatment on Nicotinic Autoreceptor Function and N-[3H]Methylcarbamylcholine Binding Sites in the Rat Brain|J. Neurochem.52(2): 483-491|1989|10.1111/j.1471-4159.1989.tb09146.x
84587|T||Wang,N.S., M.F. Chen, D.E. Schraufnagel, and Y.T. Yao|The Cumulative Scanning Electron Microscopic Changes in Baby Mouse Lungs Following Prenatal and Postnatal Exposures to Nicotine|J. Pathol.144(2): 89-100|1984|10.1002/path.1711440204
84588|T||Lee,T.H., M.H. Jang, M.C. Shin, B.V. Lim, H.H. Choi, H. Kim, E.H. Kim, and C.J. Kim|Nicotine Administration Increases Serotonin Synthesis and Tryptophan Hydroxylase Expression in Dorsal Raphe of Food-Deprived Rats|Nutr. Res.22(12): 1445-1452|2002|10.1016/S0271-5317(02)00461-X
84589|A||Smith,D.A., G.G. Schurig, S.A. Smith, and S.D. Holladay|Tilapia (Oreochromis niloticus) and Rodents Exhibit Similar Patterns of Inhibited Antibody Production Following Exposure to Immunotoxic Chemicals|Vet. Hum. Toxicol.41(6): 368-373|1999|
84590|T||Leikola-Pelho,T., J. Heinamaki, I. Laakso, and L. Ahtee|Chronic Nicotine Treatment Changes Differentially the Effects of Acute Nicotine on the Three Main Dopamine Metabolites in Mouse Striatum|Naunyn-Schmiedeberg's Arch. Pharmacol.342(4): 400-406|1990|10.1007/BF00169456
84591|A||Boutet,I., A. Tanguy, M. Auffret, N. Mujdzic, and D. Moraga|Expression of HSP 70 in Experimentally Metal-Exposed European Flat Oysters Ostrea edulis|J. Shellfish Res.22(3): 763-766|2003|
84592|T||Ando,K., H. Miyata, N. Hironaka, T. Tsuda, and T. Yanagita|The Discriminative Effects of Nicotine and Their Central Sites in Rats|Jpn. J. Psychopharmacol.13(3): 129-136|1993|
84593|T||Hildebrandt,I.J., J.L. Termeer, D. Toledo, and R.W. Cohen|Characterization of Chronic Nicotine Exposure on the Survival of the Spastic Han-Wistar Rat|Nicotine Tobacco Res.5(6): 827-836|2003|10.1080/14622200310001614593
84594|T||Ashakumary,L., and P.L. Vijayammal|Effect of Nicotine on Antioxidant Defence Mechanisms in Rats Fed a High-Fat Diet|Pharmacology52(3): 153-158|1996|10.1159/000139379
84595|T||Elliott,B.M., M.M. Faraday, and N.E. Grunberg|Effects of Nicotine on Heart Dimensions and Blood Volume in Male and Female Rats|Nicotine Tobacco Res.5(3): 341-348|2003|10.1080/1462220031000094114
84596|T||Carginale,V., S. Sorbo, C. Capasso, F. Trinchella, G. Cafiero, and A. Basile|Accumulation, Localisation, and Toxic Effects of Cadmium in the Liverwort Lunularia cruciata|Protoplasma (Multiple Languages)223(1): 53-61|2004|10.1007/s00709-003-0028-0
84597|T||Johns,J.M., T.M. Louis, R.F. Becker, and L.W. Means|Behavioral Effects of Prenatal Exposure to Nicotine in Guinea Pigs|Neurobehav. Toxicol. Teratol.4(3): 365-369|1982|
84598|A||Shaffi,S.A., Y.R. Manohar, S.L. Choudhary, and N. Ghani|Bioassay of Cadmium and Its Effect on Differential Distribution of Dehydrogenases in Different Brain Regions in Labeo rohita (HAM)|Physiol. Res.48(3): 221-226|1999|
84599|T||Sajani,L.S., and P.M. Mohan|Characterization of a Cobalt-Resistant Mutant of Neurospora crassa with Transport Block|BioMetals10(3): 175-183|1997|10.1023/A:1018347627172
84600|T||Mayhan,W.G., and K.P. Patel|Effect of Nicotine on Endothelium-Dependent Arteriolar Dilatation In Vivo|Am. J. Physiol. Heart Circ. Physiol.272(5, Pt. 2): H2337 - H2342|1997|10.1152/ajpheart.1997.272.5.H2337
84601|T||Amano,H., Y. Goshima, N. Akema, H. Ueda, T. Kubo, and Y. Misu|Effects of Acute Nicotine on Catecholamine Turnover in Various Rat Brain Regions|J. Pharmacobio-Dyn.12(1): 18-23|1989|10.1248/bpb1978.12.18
84602|T||Kita,T., T. Nakashima, and Y. Kurogochi|Effects of Oral Administration of Nicotine on Circadian Rhythms of Ambulatory Activity and Drinking in Rats|Jpn. J. Pharmacol.39(4): 554-557|1985|
84603|T||Nagata,M., and Y. Osumi|Central Inhibition of Gastric Motility by Intravenously Administered Nicotine in Rats|Jpn. J. Pharmacol.52(3): 397-403|1990|10.1016/S0021-5198(19)40032-2
84604|T||Kita,T., T. Nakashima, M. Shirase, M. Asahina, and Y. Kurogochi|Effects of Nicotine on Ambulatory Activity in Mice|Jpn. J. Pharmacol.46(2): 141-146|1988|10.1016/S0021-5198(19)43328-3
84605|T||Okamoto,M., T. Kita, H. Okuda, T. Tanaka, and T. Nakashima|Effects of Acute Administration of Nicotine on Convulsive Movements and Blood Levels of Corticosterone in Old Rats|Jpn. J. Pharmacol.60(4): 381-384|1992|10.1254/jjp.60.381
84606|T||Grunberg,N.E., and D.J. Bowen|The Role of Physical Activity in Nicotines Effects on Body Weight|Pharmacol. Biochem. Behav.23(5): 851-854|1985|10.1016/0091-3057(85)90081-4
84607|T||Marks,M.J., E. Romm, S.M. Bealer, and A.C. Collins|A Test Battery for Measuring Nicotine Effects in Mice|Pharmacol. Biochem. Behav.23(2): 325-330|1985|10.1016/0091-3057(85)90577-5
84609|T||Acri,J.B., D.E. Morse, E.J. Popke, and N.E. Grunberg|Nicotine Increases Sensory Gating Measured as Inhibition of the Acoustic Startle Reflex in Rats|Psychopharmacology114(2): 369-374|1994|10.1007/BF02244861
84610|T||Minhas,N., and I.M. Chhibba|Zinc Transformations in a Rice Soil Irrigated with Sodic Water|Indian J. Agric. Sci.69(4): 251-253|1999|
84611|T||Birnbaum,S.C., N. Kien, R.W. Martucci, T.R. Gelzleichter, H. Witschi, A.G. Hendrickx, and J.A. Last|Nicotine- or Epinephrine-Induced Uteroplacental Vasoconstriction and Fetal Growth in the Rat|Toxicology94(1-3): 69-80|1994|10.1016/0300-483X(94)90029-9
84612|A||De Croux,P., M. Julieta, and A. Loteste|Lethal Effects of Elevated pH and Ammonia on Juveniles of Neotropical Fish Colosoma macropomum (Pisces, Characidae)|J. Environ. Biol.25(1): 7-10|2004|
84613|T||Takita,M., T. Taniguchi, J. Zhu, H.L. Piao, T.Y. Tsai, and I. Muramatsu|Effects of Chronic Treatment with (+)-Nicotine on the Stress-Induced Hypertension and Downregulation of Central Nicotinic Receptors in Rats:  Comparative Study with (-)-Nicotine|Gen. Pharmacol.33(1): 29-33|1999|10.1016/S0306-3623(98)00263-8
84615|T||Colzani,R., S.L. Fang, S. Alex, and L.E. Braverman|The Effect of Nicotine on Thyroid Function in Rats|Metab. Clin. Exp.47(2): 154-157|1998|10.1016/S0026-0495(98)90212-8
84616|A||Allan,G.L., G.B. Maguire, and S.J. Hopkins|Acute and Chronic Toxicity of Ammonia to Juvenile Metapenaeus macleayi and Penaeus monodon and the Influence of Low Dissolved-Oxygen Levels|Aquaculture91(3/4): 265-280|1990|10.1016/0044-8486(90)90193-Q
84617|T||Marks,M.J., L. Miner, J.B. Burch, D.W. Fulker, and A.C. Collins|A Diallel Analysis of Nicotine-Induced Hypothermia|Pharmacol. Biochem. Behav.21(6): 953-959|1984|10.1016/S0091-3057(84)80079-9
84618|A||Tchounwou,P.B., A.J.,Jr. Englande, and E.A. Malek|Toxicity Evaluation of Ammonium Sulfate and Urea to Three Developmental Stages of Freshwater Snails|Arch. Environ. Contam. Toxicol.21(3): 359-364|1991|10.1007/BF01060356
84619|A||Kozuch,J., I. Wilkowska, and J. Pempkowiak|The Accumulation and Loss of Cadmium in the Blue Mussel Mytilus edulis in the Presence of Marine Humic Substances|In: A.Andrushaitis (Ed.), Proc.13th Baltic Marine Biologists Symp., Aug.31-Sept.4, 1993, Riga Latvia Inst.Aquat.Ecol., Univ.of Latvia, Jurmala, Latvia:253-257|1996|
84620|T||Gomita,Y., K. Suemaru, K. Furuno, and Y. Araki|Nicotine-Induced Tail-Tremor and Drug Effects|Pharmacol. Biochem. Behav.34(4): 817-821|1989|10.1016/0091-3057(89)90280-3
84621|T||Metzger,L., I. Fouchault, C. Glad, R. Prost, and D. Tepfer|Estimation of Cadmium Availability Using Transformed Roots|Plant Soil143(2): 249-257|1992|10.1007/BF00007880
84622|T||McNair,E., and R. Bryson|Effects of Nicotine on Weight Change and Food Consumption in Rats|Pharmacol. Biochem. Behav.18(3): 341-344|1983|10.1016/0091-3057(83)90451-3
84623|T||Zbuzek,V.K., and V. Zbuzek|Effect of Chronic Nicotine Treatment and Its Withdrawal on the Vasopressinergic System in Rats|J. Neuroendocrinol.3(1): 107-112|1991|10.1111/j.1365-2826.1991.tb00247.x
84624|T||Koprivova,A., S. Kopriva, D. Jager, B. Will, L. Jouanin, and H. Rennenberg|Evaluation of Transgenic Poplars Over-Expressing Enzymes of Glutathione Synthesis for Phytoremediation of Cadmium|Plant Biol.4(6): 664-670|2002|10.1055/s-2002-37399
84627|T||McLaughlin,M.J., M.J. Bell, G.C. Wright, and G.D. Cozens|Uptake and Partitioning of Cadmium by Cultivars of Peanut (Arachis hypogaea L.)|Plant Soil222(1-2): 51-58|2000|10.1023/A:1004771712840
84628|T||Czerny,B., A. Put, Z. Mysliwiec, and Z. Juzyszyn|The Influence of Quercetin on  Some Parameters of Lipid Metabolism in Rats Chronically Exposed to Ammonium Fluoride|Fluoride33(1): 27-32|2000|
84629|T||Skoczynska,A., R. Smolik, and A. Milian|The Effect of Combined Exposure to Lead and Cadmium on the Concentration of Zinc and Copper in Rat Tissues|Int. J. Occup. Med. Environ. Health7(1): 41-49|1994|
84630|T||Wang,S.L., J. Feng, A. Correa, M. Brigham, and C.Y. Wu-Wang|Effects of In Vivo Treatments of Nicotine and Benzo[a]pyrene on the Epidermal Growth Factor Receptor in Hamster Buccal Pouch|Toxicology107(1): 31-38|1996|10.1016/0300-483X(95)03198-O
84631|T||Skoczynska,A., and R. Smolik|The Effect of Combined Exposure to Lead and Cadmium on Serum Lipids and Lipid Peroxides Level in Rats|Int. J. Occup. Med. Environ. Health7(3): 263-271|1994|
84632|T||Saxon,D.J., L. Diamond, and M.N. Gillespie|Chronic Administration of Water Soluble Tobacco Smoke Extract or Nicotine Fails to Influence Porcine Coronary Artery Reactivity|Toxicology32(1): 85-91|1984|10.1016/0300-483X(84)90037-4
84633|T||Hall,C.E., D. Nasseth, and S. Hungerford|Augmented Depression and Reduced Excitability of the Central Nervous System (CNS) by Cadmium in the Rat|Pharmacol. Biochem. Behav.22(4): 619-621|1985|10.1016/0091-3057(85)90284-9
84634|T||Patil,S., B. Bhaktaraj, and S.B. Patil|Effect of Graded Doses of Nicotine on Ovarian and Uterine Activities in Albino Rats|Indian J. Exp. Biol.37(2): 184-186|1999|
84639|T||Carr,L.A., P.P. Rowell, and W.M.,Jr. Pierce|Effects of Subchronic Nicotine Administation on Central Dopaminergic Mechanisms in the Rat|Neurochem. Res.14(6): 511-515|1989|10.1007/BF00964911
84640|T||Molinengo,L., and M. Orsetti|"Dose Versus Survival Time Curves in the Evaluation of ""Prompt"" and ""Delayed"" Acute Toxicities"|J. Pharm. Pharmacol.38(1): 54-56|1986|10.1111/j.2042-7158.1986.tb04467.x
84641|T||Londonkar,R.L., A. Sonar, S. Patil, and S.B. Patil|Nicotine Delays Puberty in Male Rat|Pharm. Biol.38(4): 291-297|2000|10.1076/1388-0209(200009)3841-AFT291
84642|T||Yoshida,T., K. Yoshioka, N. Hiraoka, and M. Kondo|Effect of Nicotine on Norepinephrine Turnover and Thermogenesis in Brown Adipose Tissue and Metabolic Rate in MSG Obese Mice|J. Nutr. Sci. Vitaminol.36(2): 123-130|1990|10.3177/jnsv.36.123
84643|T||Grunfeld,J.A., G.J. Tiedemann, and R.A. Westerman|Maternal Nicotine Exposure Enhances Cutaneous Axon Reflexes in the Neonatal Rat|Neuroreport4(6): 635-638|1993|10.1097/00001756-199306000-00008
84644|T||Bolan,N.S., D.C. Adriano, P. Duraisamy, A. Mani, and K. Arulmozhiselvan|Immobilization and Phytoavailability of Cadmium in Variable Charge Soils.  I.  Effect of Phosphate Addition|Plant Soil250(1): 83-94|2003|10.1023/A:1022826014841
84645|T||Martin,J.C., and D.C. Martin|Voluntary Activity in the Aging Rat as a Function of Maternal Drug Exposure|Neurobehav. Toxicol. Teratol.3(3): 261-264|1981|
84646|T||Shallom,J.M., and S.S. Katyare|Altered Synaptosomal ATPase Activity in Rat Brain Following Prolonged In Vivo Treatment with Nicotine|Biochem. Pharmacol.34(19): 3445-3449|1985|10.1016/0006-2952(85)90716-6
84647|A||Vanderborght,O.L.J., S. Van Puymbroeck, M. Peeters, and W. Stips|Cadmium-Selenium Tests on Two Freshwater Organisms, a Pulmonate Snail and an Unicellular Green Alga|INSERM (Inst. Natl. Sante Rech. Med. ) Colloq. 106:245-253|1981|
84648|T||Broulik,P.D., and J. Jarab|The Effect of Chronic Nicotine Administration on Bone Mineral Content in Mice|Horm. Metab. Res.25(4): 219-221|1993|10.1055/s-2007-1002080
84649|A||Gulec,I., B. Leonard, and D.A. Holdway|Oil and Dispersed Oil Toxicity to Amphipods and Snails|Spill Sci. Technol. Bull.4(1): 1-6|1997|
84650|A||Sartori,T.C.F., E. Dias, J.C. Soares, and L.E. Pezzato|The Ultrastructure of the Intestinal Epithelium in Oreochromis niloticus on a Diet with Different Concentrations of Zinc|J. Submicrosc. Cytol. Pathol.36(1): 97-103|2003|
84651|T||Grunwald,F., H. Schrock, and W. Kuschinsky|The Influence of Nicotine on Local Cerebral Blood Flow in Rats|Neurosci. Lett.124(1): 108-110|1991|10.1016/0304-3940(91)90833-F
84652|A||Sivalingam,P.M., and R. Billet|Electron Microscopy Documenting the Cellular Metabolic Fate of Zn Ions|Toxicol. Environ. Chem.26(1-4): 15-26|1990|10.1080/02772249009357529
84653|T||Chowdhury,P., R. Hosotani, L. Chang, and P.L. Rayford|Metabolic and Pathologic Effects of Nicotine on Gastrointestinal Tract and Pancreas of Rats|Pancreas5(2): 222-229|1990|10.1097/00006676-199003000-00016
84654|T||Takada,A., T. Urano, M. Yoshida, and Y. Takada|Comparison of Changes in Serotonergic Measures in Whole Blood or Plasma and Brain in Rats Given Nicotine and/or Stresses|Pol. J. Pharmacol.48(2): 173-177|1996|
84655|T||Haikala,H., and L. Ahtee|Antagonism of the Nicotine-Induced Changes of the Striatal Dopamine Metabolism in Mice by Mecamylamine and Pempidine|Naunyn-Schmiedeberg's Arch. Pharmacol.338(2): 169-173|1988|10.1007/BF00174865
84656|A||Ikegami,I., A. Nemoto, and K. Sakashita|The Formation of Zn-Chl a in Chlorella Heterotrophically Grown in the Dark with an Excessive Amount of Zn2+|Plant Cell Physiol.46(5): 729-735|2005|10.1093/pcp/pci079
84657|A||Shi,Y., H. Hu, R. Ma, W. Cong, and Z. Cai|Improved Use of Organic Phosphate by Skeletonema costatum Through Regulation of Zn2+ Concentrations|Biotechnol. Lett.26(9): 747-751|2004|10.1023/B:BILE.0000024099.54729.0a
84658|T||Pandey,J., and B.K. Mishra|Effect of Herbicides on Micro-Nutrients Availability to Low Land Transplanted Rice in Calcareous Soil|Pesticides 21(11): 35-36|1987|
84659|AT||Angus,J.F., C.F. De St.Groth, and R.C. Tasic|Between-Farm Variability in Yield Responses to Inputs of Fertilizers and Herbicide Applied to Rainfed Lowland Rice in the Philippines|Agric. Ecosyst. Environ.30(3-4): 219-234|1990|10.1016/0167-8809(90)90107-O
84660|T||Yang,X., R. Hajiboland, and V. Romheld|Bicarbonate had Greater Effects than High pH on Inhibiting Root Growth of Zinc-Inefficient Rice Genotype|J. Plant Nutr.26(2): 399-415|2003|10.1081/PLN-120017143
84661|AT||Xie,Z.B., J.G. Zhu, H.Y. Chu, Y.L. Zhang, Q. Zeng, H.L. Ma, and Z.H. Cao|Effect of Lanthanum on Rice Production, Nutrient Uptake, and Distribution|J. Plant Nutr.25(10): 2315-2331|2002|10.1081/PLN-120014078
84665|T||Rahman,M., M.A. Ali, and M.A.U. Mridha|Synthesis, Characterization and Antifungal Properties of Some Nickel(II), Copper(II), Zinc(II) and Cadmium(II) Complexes of N-Methyl-S-Benzyldithiocarbazate|Indian J. Chem. Sect. A28(12): 1115-1118|1989|
84666|T||Jackl,G.A., G. Reidel, and W.E. Kollmer|Identification of the Cadmium Binding Compounds in Agaricus arvensis Hyphae Using 109Cd|Appl. Radiat. Isot.38(6): 431-435|1987|10.1016/0883-2889(87)90095-5
84667|T||Panemangalore,M., and F.N. Bebe|Effects of Low Oral Lead and Cadmium Exposure and Zinc Status on Heme Metabolites in Weanling Rats|Int. J. Occup. Med. Environ. Health9(2): 141-151|1996|
84668|A||Stolyar,O.B., V.V. Grubinko, R.L. Mychayliv, and Y.V. Mishchuk|The Role of Metallothioneins, Acting Individually and in Mixture, in Detoxification of Cu2+, Zn2+, and Mn2+ in Tissues of the Bivalve Mollusk Anodonta cygnea|Hydrobiol. J.40(5): 85-96|2004|10.1615/HydrobJ.v40.i5.90
84669|T||Kimmel,E.C., and L. Diamond|The Role of Nicotine in the Pathogenesis of Pulmonary Emphysema|Am. J. Respir. Crit. Care Med.129(1): 112-117|1984|
84670|T||Schwid,S.R., M.D. Hirvonen, and R.E. Keesey|Nicotine Effects on Body Weight:  A Regulatory Perspective|Am. J. Clin. Nutr.55(4): 878-884|1992|10.1093/ajcn/55.4.878
84671|T||Monheit,A.G., H. Van Vunakis, T.C. Key, and R. Resnik|Maternal and Fetal Cardiovascular Effects of Nicotine Infusion in Pregnant Sheep|Am. J. Obstet. Gynecol.145(3): 290-296|1983|10.1016/0002-9378(83)90713-5
84672|T||Riesenfeld,A., and H. Oliva|Effects of Nicotine on the Fertility, Cytology and Life Span of Male Rats|Acta Anat.131(2): 171-176|1988|10.1159/000146508
84673|T||Wang,J.C.C., and M.A. Lung|The Nasal Vascular and Airway Responses to Intracarotid Injection of Nicotine in the Dog|Med. Sci. Res.16(5): 237-238|1988|
84674|T||Brzoska,M.M., and J. Moniuszko-Jakoniuk|Low-Level Lifetime Exposure to Cadmium Decreases Skeletal Mineralization and Enhances Bone Loss in Aged Rats|Bone (New York)35(5): 1180-1191|2004|
84675|T||Chernoff,N.|Teratogenic Effects of Cadmium in Rats|Teratology8:29-32|1973|10.1002/tera.1420080105
84676|A||Capps,T., S. Mukhi, J.J. Rinchard, C.W. Theodorakis, V.S. Blazer, and R. Patino|Exposure to Perchlorate Induces the Formation of Macrophage Aggregates in the Trunk Kidney of Zebrafish and Mosquitofish|J. Aquat. Anim. Health16(3): 145-151|2004|10.1577/H04-019.1
84677|A||Walsh,P.J., H.L. Bergman, A. Narahara, C.M. Wood, P.A. Wright, D.J. Randall, J.N. Maina, and P. Laurent|Effects of Ammonia on Survival, Swimming and Activities of Enzymes of Nitrogen Metabolism in the Lake Magadi Tilapia Oreochromis alcalicus Grahami|J. Exp. Biol.180:323-327|1993|10.1242/jeb.180.1.323
84678|A||Wood,C.M.|Dogmas and Controversies in the Handling of Nitrogenous Wastes:  Is Exogenous Ammonia a Growth Stimulant in Fish?|J. Exp. Biol.207(12): 2043-2054|2004|10.1242/jeb.00990
84679|A||Barimo,J.F., S.L. Steele, P.A. Wright, and P.J. Walsh|Dogmas and Controversies in the Handling of Nitrogenous Wastes:  Ureotely and Ammonia Tolerance in Early Life Stages of the Gulf Toadfish, Opsanus beta|J. Exp. Biol.207(12): 2011-2020|2004|10.1242/jeb.00956
84680|A||Lin,L.Y., and P.P. Hwang|Mitochondria-Rich Cell Activity in the Yolk-Sac Membrane of Tilapia (Oreochromis mossambicus) Larvae Acclimatized to Different Ambient Chloride Levels|J. Exp. Biol.207(Pt. 8): 1335-1344|2004|10.1242/jeb.00869
84681|A||Ortega,V.A., K.J. Renner, and N.J. Bernier|Appetite-Suppressing Effects of Ammonia Exposure in Rainbow Trout Associated with Regional and Temporal Activation of Brain Monoaminergic and CRF Systems|J. Exp. Biol.208(10): 1855-1866|2005|10.1242/jeb.01577
84682|T||Tabassian,A.R., E.S. Nylen, L. Lukacs, M.M. Cassidy, and K.L. Becker|Cholinergic Regulation of Hamster Pulmonary Neuroendocrine Cell Calcitonin|Exp. Lung Res.16(3): 267-277|1990|10.3109/01902149009108844
84683|A||Ip,Y.K., M.W.F. Leong, M.Y. Sim, G.S. Goh, W.P. Wong, and S.F. Chew|Chronic and Acute Ammonia Toxicity in Mudskippers, Periophthalmodon schlosseri and Boleophthalmus boddaerti:  Brain Ammonia and Glutamine Contents, and Effects of Methionine sulfoximine and MK801|J. Exp. Biol.208(10): 1993-2004|2005|10.1242/jeb.01586
84684|T||Haag-Kerwer,A., H.J. Schafer, S. Heiss, C. Walter, and T. Rausch|Cadmium Exposure in Brassica juncea Causes a Decline in Transpiration Rate and Leaf Expansion Without Effect on Photosynthesis|J. Exp. Bot.50(341): 1827-1835|1999|10.1093/jxb/50.341.1827
84685|T||Skoczynska,A.|Effect of Angiotensin II on the Reactivity of Isolated Mesenteric Vessels to Norepinephrine in Rats Poisoned with Cadmium|Int. J. Occup. Med. Environ. Health10(1): 67-77|1997|
84687|A||Kobayashi,M., N. Takatani, M. Tanigawa, and T. Omata|Posttranslational Regulation of Nitrate Assimilation in the Cyanobacterium Synechocystis sp. Strain PCC 6803|J. Bacteriol.187(2): 498-506|2005|10.1128/JB.187.2.498-506.2005
84688|T||Conder,J.M., and R.P. Lanno|Lethal Critical Body Residues as Measures of Cd, Pb, and Zn Bioavailability and Toxicity in the Earthworm Eisenia fetida|J. Soils Sediments3(1): 13-20|2003|10.1007/BF02989463
84689|T||Sershen,H., M.E.A. Reith, M. Banay-Schwartz, and A. Lajtha|Effects of Prenatal Administration of Nicotine on Amino Acid Pools, Protein Metabolism, and Nicotine Binding in the Brain|Neurochem. Res.7(12): 1515-1522|1982|10.1007/BF00965094
84691|A||Chandler,L.E., V.V. Bartsevich, and H.B. Pakrasi|Regulation of Manganese Uptake in Synechocystis 6803 by RfrA, a Member of a Novel Family of Proteins Containing a Repeated Five-Residues Domain|Biochemistry (Wash.)42(18): 5508-5514|2003|10.1021/bi027113a
84692|T||Battistel,M., M. Plebani, F. Di Mario, M. Jocic, I.T. Lippe, and P. Holzer|Chronic Nicotine Intake Causes Vascular Dysregulation in the Rat Gastric Mucosa|Gut34(12): 1688-1692|1993|10.1136/gut.34.12.1688
84693|A||Zang,W., X. Xu, X. Dai, Z. Zhu, G. Xu, and R. Xu|Toxic Effects of Zn2+, Cu2+, Cd2+ and NH3 on Chinese Prawn|Chin. J. Oceanol. Limnol.11(3): 254-259|1993|10.1007/BF02850858
84694|A||Xu,J.Y., X.W. Miao, Y. Liu, and S.R. Cui|Behavioral Response of Tilapia (Oreochromis niloticus) to Acute Ammonia Stress Monitored by Computer Vision|J. Zhejiang Univ., Sci. B6(8): 812-816|2005|10.1631/jzus.2005.B0812
84695|T||Daeninck,P.J., N. Messiha, and T.V.N. Persaud|Intrauterine Development in the Rat Following Continuous Exposure to Nicotine from Gestational Day 6 Through 12|Anat. Anz.172(4): 257-261|1991|
84696|A||Vosyliene,M.Z., and N. Kazlauskiene|Comparative Studies of Sublethal Effects of Ammonia on Rainbow Trout (Oncorhynchus mykiss) at Different Stages of Its Development|Acta Zool. Litu.14(1): 13-18|2004|10.1080/13921657.2004.10512568
84697|A||Graichen,F., K.R. Giles, A. Abell, and A. Garrill|Removal of the Nitro and Phenyl Groups from NPPB Decreases Its Inhibitory Effect on Cytoplasmic Streaming in the Alga Nitella hookeri|Biochem. Cell. Biol.83(2): 133-139|2005|10.1139/o05-019
84698|T||Tseng,C.J., M. Appalsamy, D. Robertson, and R. Mosqueda-Garcia|Effects of Nicotine on Brain Stem Mechanisms of Cardiovascular Control|J. Pharmacol. Exp. Ther.265(3): 1511-1518|1993|
84699|AT||Mendez,J.M., B. Jimenez, and C. Maya|Disinfection Kinetics of Pathogens in Physicochemical Sludge Treated with Ammonia|Water Sci. Technol.50(9): 67-74|2004|10.2166/wst.2004.0536
84701|A||Moraes,G., V.L.P. Polez, and G.K. Iwama|Biochemical Responses of Two Erythrinidae Fish to Environmental Ammonia|Braz. J. Biol.64(1): 95-102|2004|10.1590/S1519-69842004000100011
84702|T||Monga,V.K., and M.L. Sareen|Changes in the Weights of the Testes and the Body After Administering of Cadmium Chloride|Res. Bull. Panjab Univ. Sci.38(1-2): 25-26|1987|
84703|A||Boldt,M., G. Burckhardt, and B.C. Burckhardt|NH(4)(+) Conductance in Xenopus laevis Oocytes.  III.  Effect of NH(3)|Pflug. Arch. Eur. J. Phy.446(6): 652-657|2003|10.1007/s00424-003-1122-z
84704|T||Patel,K.P., P.L. Zhang, and W.G. Mayhan|Blunting of Renal Excretory Responses to Acute Volume Expansion by Nicotine:  Role of Renal Nerves|J. Pharmacol. Exp. Ther.274(3): 1174-1181|1995|
84706|T||Larose,P., H. Ong, P. Januszewicz, M. Cantin, and P. Du Souich|Characterization of the Effect of Nicotine on Vasopressin and Atrial Natriuretic Factor in the Rabbit|J. Pharmacol. Exp. Ther.244(3): 1093-1097|1988|
84707|T||Forrest,C.R., C.Y. Pang, and W.K. Lindsay|Dose and Time Effects of Nicotine Treatment on the Capillary Blood Flow and Viability of Random Pattern Skin Flaps in the Rat|Br. J. Plast. Surg.40(3): 295-299|1987|10.1016/0007-1226(87)90126-3
84710|T||Roy,T.S., J.E. Andrews, F.J. Seidler, and T.A. Slotkin|Nicotine Evokes Cell Death in Embryonic Rat Brain During Neurulation|J. Pharmacol. Exp. Ther.287(3): 1136-1144|1998|
84712|T||Sparks,J.A., and J.R. Pauly|Effects of Continuous Oral Nicotine Administration on Brain Nicotinic Receptors and Responsiveness to Nicotine in C57Bl/6 Mice|Psychopharmacology141(2): 145-153|1999|10.1007/s002130050818
84713|T||Godin,C.S., and P.A. Crooks|In Vivo Depletion of S-Adenosyl-L-Homocysteine and S-Adenosyl-L-Methionine in Guinea Pig Lung After Chronic S-(-)-Nicotine Administration|Toxicol. Lett.31(1): 23-29|1986|10.1016/0378-4274(86)90190-6
84714|T||Huang,Y.H., A.R. Brown, S. Costy-Bennett, Z. Luo, and R.F. Fregosi|Influence of Prenatal Nicotine Exposure on Postnatal Development of Breathing Pattern|Resp. Physiol. Neurobiol.143(1): 1-8|2004|10.1016/j.resp.2004.07.002
84715|T||Hashimoto,T., M. Yoneda, T. Shimada, M. Kurosawa, and A. Terano|Intraportal Nicotine Infusion in Rats Decreases Hepatic Blood Flow Through Endothelin-1 and both Endothelin A and Endothelin B Receptors|Toxicol. Appl. Pharmacol.196(1): 1-10|2004|10.1016/j.taap.2003.09.004
84716|T||Harrod,S.B., C.F. Mactutus, K. Bennett, U. Hasselrot, G. Wu, M. Welch, and R.M. Booze|Sex Differences and Repeated Intravenous Nicotine:  Behavioral Sensitization and Dopamine Receptors|Pharmacol. Biochem. Behav.78(3): 581-592|2004|10.1016/j.pbb.2004.04.026
84717|T||Faraday,M.M., M.A. Rahman, P.M. Scheufele, and N.E. Grunberg|Nicotine Administration Impairs Sensory Gating in Long-Evans Rats|Pharmacol. Biochem. Behav.61(3): 281-289|1998|10.1016/S0091-3057(98)00094-X
84718|T||Chen,W.J.A., and R.B. Edwards|Prenatal Nicotine Exposure does not Cause Purkinje Cell Loss in the Developing Rat Cerebellar Vermis|Neurotoxicol. Teratol.25(5): 633-637|2003|10.1016/S0892-0362(03)00048-5
84719|T||Chen,W.J.A., R.B. Edwards, R.D. Romero, S.E. Parnell, and R.J. Monk|Long-Term Nicotine Exposure Reduces Purkinje Cell Number in the Adult Rat Cerebellar Vermis|Neurotoxicol. Teratol.25(3): 329-334|2003|10.1016/S0892-0362(02)00350-1
84720|T||Acri,J.B., K.J. Brown, M.I. Saah, and N.E. Grunberg|Strain and Age Differences in Acoustic Startle Responses and Effects of Nicotine in Rats|Pharmacol. Biochem. Behav.50(2): 191-198|1995|10.1016/0091-3057(94)00285-Q
84721|T||Ajarem,J.S., and M. Ahmad|Prenatal Nicotine Exposure Modifies Behavior of Mice Through Early Development|Pharmacol. Biochem. Behav.59(2): 313-318|1998|10.1016/S0091-3057(97)00408-5
84723|T||Gaddnas,H., K. Pietila, T.P. Piepponen, and L. Ahtee|Enhanced Motor Activity and Brain Dopamine Turnover in Mice During Long-Term Nicotine Administration in the Drinking Water|Pharmacol. Biochem. Behav.70(4): 497-503|2001|10.1016/S0091-3057(01)00640-2
84724|T||Muneoka,K., T. Nakatsu, J.I. Fuji, T. Ogawa, and M. Takigawa|Prenatal Administration of Nicotine Results in Dopaminergic Alterations in the Neocortex|Neurotoxicol. Teratol.21(5): 603-609|1999|10.1016/S0892-0362(99)00028-8
84725|T||Romero,R.D., and W.J.A. Chen|Gender-Related Response in Open-Field Activity Following Developmental Nicotine Exposure in Rats|Pharmacol. Biochem. Behav.78(4): 675-681|2004|10.1016/j.pbb.2004.04.033
84726|T||Slawecki,C.J., and C.L. Ehlers|Lasting Effects of Adolescent Nicotine Exposure on the Electroencephalogram, Event Related Potentials, and Locomotor Activity in the Rat|Brain Res. Dev. Brain Res.138(1): 15-25|2002|10.1016/S0165-3806(02)00455-8
84727|T||Slawecki,C.J., A. Gilder, J. Roth, and C.L. Ehlers|Increased Anxiety-Like Behavior in Adult Rats Exposed to Nicotine as Adolescents|Pharmacol. Biochem. Behav.75(2): 355-361|2003|10.1016/S0091-3057(03)00093-5
84728|T||Yoshimura,R., L. Xu, B. Sun, and A.W. Tank|Nicotinic and Muscarinic Acetylcholine Receptors are Essential for the Long-Term Response of Tyrosine Hydroxylase Gene Expression to Chronic Nicotine Treatment in Rat Adrenal Medulla|Mol. Brain Res.126(2): 188-197|2004|10.1016/j.molbrainres.2004.04.007
84729|T||Passmore,J.C., A.E. Jimenez, and W.M.,Jr. Pierce|Cardiac Output and the Blood Pressure Increase in Deoxycorticosterone Acetate-Salt Hypertension After Nicotine Infusion|Clin. Exp. Hypertens. Part A Theory Pract.13(1): 83-102|1991|10.3109/10641969109082616
84730|T||Bugajski,J., A. Gadek-Michalska, J. Borycz, and R. Glod|Effect of Indomethacin on Nicotine-Induced ACTH and Corticosterone Response|J. Physiol. Pharmacol.49(1): 165-173|1998|
84731|T||Reddy,S., R. Londonkar, Ravindra, and S.B. Patil|Testicular Changes due to Graded Doses of Nicotine in Albino Mice|Indian J. Physiol. Pharmacol.42(2): 276-280|1998|
84732|T||Abdel-Rahman,A., A.M. Dechkovskaia, J.M. Sutton, W.C. Chen, X. Guan, W.A. Khan, and M.B. Abou-Donia|Maternal Exposure of Rats to Nicotine via Infusion During Gestation Produces Neurobehavioral Deficits and Elevated Expression of Glial Fibrillary Acidic Protein in the Cerebellum and CA1 Subfield in the Offspring at Pub|Toxicology209(3): 245-261|2005|10.1016/j.tox.2004.12.037
84733|T||Wielgus,J.J., L. Corbin Downey, K.W. Ewald, M.E. Hatley, K.C. Wilson, and R.H. Yeilding|Exposure to Low Concentrations of Nicotine During Cranial Nerve Development Inhibits Apoptosis and Causes Cellular Hypertrophy in the Ventral Oculomotor Nuclei of the Chick Embryo|Brain Res.1000(1-2): 123-133|2004|10.1016/j.brainres.2003.11.070
84734|T||Endoh,K., G.L.,Jr. Kauffman, and F.W. Leung|Mechanism of Aggravation of Mucosal Injury by Intravenous Nicotine in Rat Stomach|Am. J. Physiol. Gasterointest. Liver Physiol.261(6 Pt.1): G1037 - G1042|1991|
84735|T||Izumi,H., and K. Karita|Reflex Vasodilatation in the Cat Lip Elicited by Stimulation of Nasal Mucosa by Chemical Irritants|Am. J. Physiol.265(4, Pt. 2): R733 - R738|1993|
84736|T||Koley,J., T.K. Ghosh, and B. Koley|Pharmacological and Electrophysiological Analysis of Nicotine Induced Apnoea in the Cat|Acta Physiol. Hung.75(1): 77-89|1990|
84737|T||Maritz,G.S., and B. Burger|The Influence of Maternal Nicotine Exposure on Neonatal Lung Carbohydrate Metabolism|Cell Biol. Int.16(12): 1229-1236|1992|10.1016/S0309-1651(06)80039-1
84738|T||Peters,M.A., and L.L.E. Ngan|The Effects of Totigestational Exposure to Nicotine on Pre- and Postnatal Development in the Rat|Arch. Int. Pharmacodyn. Ther.257(1): 155-167|1982|
84739|T||Chowdhury,P.|Endocrine and Metabolic Regulation of Body Mass by Nicotine:  Role of Growth Hormone|Ann. Clin. Lab. Sci.20(6): 415-419|1990|
84740|T||Buccafusco,J.J., and X. Yang|Mechanism of the Hypertensive Response to Central Injection of Nicotine in Conscious Rats|Brain Res. Bull.32(1): 35-41|1993|10.1016/0361-9230(93)90316-4
84741|T||Kashkin,V.A., and P. De Witte|Nicotine Increases Microdialysate Brain Amino Acid Concentrations and Induces Conditioned Place Preference|Eur. Neuropsychopharmacol.15(6): 625-632|2005|10.1016/j.euroneuro.2005.03.004
84742|T||Robens,J.F.|Teratologic Studies of Carbaryl, Diazinon, Norea, Disulfiram, and Thiram in Small Laboratory Animals|Toxicol. Appl. Pharmacol.15(1): 152-163|1969|10.1016/0041-008X(69)90143-4
84743|T||Frick,T.W., S. Dalo, J.F. O'Leary, W. Runge, J.W. Borner, H. Baraniewski, T. Dressel, J.G. Shearen, and R.L. Goodale|Effects of Insecticide, Diazinon, on Pancreas of Dog, Cat and Guinea Pig|J. Environ. Pathol. Toxicol. Oncol.7(4): 1-12|1987|
84744|T||Glavin,G.B., and L. Lagrotteria|Nicotine and Ascorbic Acid Effects on Cold-Restraint Ulcers in Rats|Experientia38(5): 603-604|1982|10.1007/BF02327073
84745|A||Durmaz,H., Y. Sevgiler, and N. Uner|Tissue-Specific Antioxidative and Neurotoxic Responses to Diazinon in Oreochromis niloticus|Pestic. Biochem. Physiol.84(3): 215-226|2006|10.1016/j.pestbp.2005.07.004
84746|T||Seifert,J., and T. Pewnim|Alteration of Mice L-Tryptophan Metabolism by the Organophosphorous Acid Triester Diazinon|Biochem. Pharmacol.44(11): 2243-2250|1992|10.1016/0006-2952(92)90353-K
84747|T||File,S.E., S. Cheeta, and P.J. Kenny|Neurobiological Mechanisms by Which Nicotine Mediates Different Types of Anxiety|Eur. J. Pharmacol.393(1-3): 231-236|2000|10.1016/S0014-2999(99)00889-4
84748|T||Tanus-Santos,J.E., R.C. Sampaio, S. Hyslop, K.G. Franchini, and H.,Jr. Moreno|Endothelin ETA Receptor Antagonism Attenuates the Pressor Effects of Nicotine in Rats|Eur. J. Pharmacol.396(1): 33-37|2000|10.1016/S0014-2999(00)00194-1
84749|T||Okada,S., T. Shimizu, and K. Yokotani|Extrahypothalamic Corticotropin-Releasing Hormone Mediates (-)-Nicotine-Induced Elevation of Plasma Corticosterone in Rats|Eur. J. Pharmacol.473(2-3): 217-223|2003|10.1016/S0014-2999(03)01966-6
84750|T||Pietila,K., O. Salminen, T. Leikola-Pelho, and L. Ahtee|Tolerance to Nicotine's Effects on Striatal Dopamine Metabolism in Nicotine-Withdrawn Mice|Eur. J. Pharmacol.318(1): 17-22|1996|10.1016/S0014-2999(96)00767-4
84751|T||Andersson,K., A. Jansson, F. Kuylenstierna, and P. Eneroth|Nicotine and Its Major Metabolite Cotinine have Different Effects on Aldosterone and Prolactin Serum Levels in the Normal Male Rat|Eur. J. Pharmacol.228(5-6): 305-312|1993|
84752|A||Stark,J.D.|How Closely do Acute Lethal Concentration Estimates Predict Effects of Toxicants on Populations?|Integr. Environ. Assess. Manag.1(2): 109-113|2005|10.1897/IEAM_2004-002r.1
84753|A||Dutta,H.M., and L.B. Maxwell|Histological Examination of Sublethal Effects of Diazinon on Ovary of Bluegill, Lepomis macrochirus|Environ. Pollut.121(1): 95-102|2003|10.1016/S0269-7491(02)00201-4
84754|A||Falugi,C., A. Amaroli, V. Evangelisti, A. Viarengo, and M.U.D. Corrado|Cholinesterase Activity and Effects of Its Inhibition by Neurotoxic Drugs in Dictyostelium discoideum|Chemosphere48(4): 407-414|2002|10.1016/S0045-6535(02)00143-1
84755|T||Handy,R.D., H.A. Abd-El Samei, M.F.F. Bayomy, A.M. Mahran, A.M. Abdeen, and E.A. El-Elaimy|Chronic Diazinon Exposure:  Pathologies of Spleen, Thymus, Blood Cells, and Lymph Nodes are Modulated by Dietary Protein or Lipid in the Mouse|Toxicology172(1): 13-34|2002|10.1016/S0300-483X(01)00575-3
84756|T||Kalender,S., A. Ogutcu, M. Uzunhisarcikli, F. Acikgoz, D. Durak, Y. Ulusoy, and Y. Kalender|Diazinon-Induced Hepatotoxicity and Protective Effect of Vitamin E on Some Biochemical Indices and Ultrastructural Changes|Toxicology211(3): 197-206|2005|10.1016/j.tox.2005.03.007
84757|T||De Blaquiere,G.E., L. Waters, P.G. Blain, and F.M. Williams|Electrophysiological and Biochemical Effects of Single and Multiple Doses of the Organophosphate Diazinon in the Mouse|Toxicol. Appl. Pharmacol.166(2): 81-91|2000|10.1006/taap.2000.8960
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84790|T||National Cancer Institute|Bioassay of Selsun for Possible Carcinogenicity|Natl. Toxicol. Program Tech. Rep. Ser.:76 p.|1980|
84791|T||National Cancer Institute|Bioassay of Selenium Sulfide (Gavage) for Possible Carcinogenicity|Natl. Toxicol. Program Tech. Rep. Ser.:122 p.|1980|
84792|T||National Cancer Institute|Bioassay of Selenium Sulfide (Dermal Study) for Possible Carcinogenicity|Natl. Toxicol. Program Tech. Rep. Ser.:66 p.|1980|
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84820|T||Nehru,B., and R. Dua|The Effect of Dietary Selenium on Lead Neurotoxicity|J. Environ. Pathol. Toxicol. Oncol.16(1): 47-50|1997|
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84827|T||Guven,B., and M.A. Goven|Side Effects of Pesticides Used in Cotton and Vineyard Areas of Aegean Region on the Green Lacewing, Chrysoperla carnea (Steph.) (Neuroptera: Chrysopidae), in the Laboratory|IOBC-WPRS Bull.26(5): 21-24|2003|
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84839|A||Alam,M., and T.L. Frankel|Gill ATPase Activities of Silver Perch, Bidyanus bidyanus (Mitchell), and Golden Perch, Macquaria ambigua (Richardson):  Effects of Environmental Salt and Ammonia|Aquaculture251(1): 118-133|2006|10.1016/j.aquaculture.2005.05.028
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84841|A||Basuyaux,O., and M. Mathieu|Inorganic Nitrogen and Its Effect on Growth of the Abalone Haliotis tuberculata Linnaeus and the Sea Urchin Paracentrotus lividus Lamarck|Aquaculture174(1-2): 95-107|1999|10.1016/S0044-8486(98)00510-9
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84869|A||Small,B.C.|Effect of Isoeugenol Sedation on Plasma Cortisol, Glucose, and Lactate Dynamics in Channel Catfish Ictalurus punctatus Exposed to Three Stressors|Aquaculture238(1-4): 469-481|2004|10.1016/j.aquaculture.2004.05.021
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84878|T||Ksir,C.|Acute and Chronic Nicotine Effects on Measures of Activity in Rats:  A Multivariate Analysis|Psychopharmacology115(1-2): 105-109|1994|10.1007/BF02244758
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84880|T||Kumar,R., N.L. Sharma, P.N. Tripathi, and R. Singh|Effect of Zinc and Phosphorus Nutrition on Rice (Oryza sativa)|Indian J. Agric. Sci.72(12): 734-735|2002|
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84890|T||Dolezych,B., A. Mekail, and P. Migula|Effects of Cadmium and Selenium on Absorption of Glucose, Sodium and Water and Total ATP-ase Activity in the Rat Intestine|Pr. Nauk. Uniw. Slask. Katowicach (Multiple Languages)1345:7-15|1993|
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84892|T||Ziolkowska,B., B. Falkus, and P. Migula|Glucose Utilization in the Skeletal Muscles of Rats Under Exposure of Cadmium and Selenium|Pr. Nauk. Uniw. Slask. Katowicach (Multiple Languages)1345:42-54|1993|
84893|T||Vogt,H., K. Nezel, and S. Matthes|Effect of Various Lead and Cadmium Levels in Broiler and Laying Rations on the Performance of the Birds and on the Residues in Tissues and Eggs|Nutr. Metab.21(suppl. 1): 203-204|1977|10.1159/000176163
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84899|T||Dwivedi,S.K.|Effect of Some Heavy Metals on Growth of Fusarium oxysporum F. Sp. psidii Causing Guava Wilt Disease|Int. J. Trop. Plant Dis.9(1): 127-130|1991|
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84903|T||Behari,J.R., and G. Gregoriadis|A Comparative Study of Free and Liposome-Entrapped Diethylenetriaminepentaacetic Acid Used in the Treatment of Mice Loaded with Cadmium|Int. J. Pharm.79(2-3): 213-221|1992|
84904|T||Babu,E., and V.P. Singh|Triadimefon Ameliorated Cadmium Toxicity in Wheat Seedlings|Indian J. Plant Physiol.35(2): 195-197|1992|
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84924|T||Hristov,A.N., K.L. Grandeen, J.K. Ropp, and M.A. McGuire|Effect of Sodium Laurate on Ruminal Fermentation and Utilization of Ruminal Ammonia Nitrogen for Milk Protein Synthesis in Dairy Cows|J. Dairy Sci.87(6): 1820-1831|2004|10.3168/jds.S0022-0302(04)73339-1
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84967|A||Xu,H.J., W. Song, L. Lu, and A. Warren|Tolerance of Ciliated Protozoan Paramecium bursaria (Protozoa, Ciliophora) to Ammonia and Nitrites|Chin. J. Oceanol. Limnol.23(3): 349-353|2005|10.1007/BF02847159
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84969|A||Pearson,H.W., D.D. Mara, S.W. Mills, and D.J. Smallman|Factors Determining Algal Populations in Waste Stabilization Ponds and the Influence of Algae on Pond Performance|Water Sci. Technol.19(12): 131-140|1987|10.2166/wst.1987.0137
84970|T||Kanna,P.S., C.B. Mahendrakumar, B.N. Indira, S. Srivastawa, K. Kalaiselvi, T. Elayaraja, and M. Chatterjee|Chemopreventive Effects of Vanadium Toward 1,2-Dimethylhydrazine-Induced Genotoxicity and Preneoplastic Lesions in Rat Colon|Environ. Mol. Mutagen.44(2): 113-118|2004|10.1002/em.20038
84971|AT||Scarponi,L., D. Del Buono, and C. Vischetti|Effect of Pretilachlor and Fenclorim on Carbohydrate and Protein Formation in Relation to Their Persistence in Rice|Pest Manag. Sci.61(4): 371-376|2005|10.1002/ps.985
84972|T||Stanek,K., D. Drobne, and P. Trebse|Linkage of Biomarkers Along Levels of Biological Complexity in Juvenile and Adult Diazinon Fed Terrestrial Isopod (Porcellio scaber, Isopoda, Crustacea)|Chemosphere64:1745-1752|2006|10.1016/j.chemosphere.2005.12.070
84973|A||Grosell,M.H., and H.J.M. Hansen|The Effects of Salinity on 110m Ag Uptake and Distribution in European Eel (Anguilla anguilla)|In: Proceedings of the 5th International Conference on the Transport, Fate, and Effects of Silver in the Environment. Hamilton, Ontario, Canada:227-232|1998|
84974|T||Attia,S.M., O.A. Badary, F.M. Hamada, M.H. De Angelis, and I.D. Adler|Orthovanadate Increased the Frequency of Aneuploid Mouse Sperm Without Micronucleus Induction in Mouse Bone Marrow Erythrocytes at the Same Dose Level|Mutat. Res.583(2): 158-167|2005|10.1016/j.mrgentox.2005.03.010
84976|T||Elbetieha,A., H. Bataineh, H. Darmani, and M.H. Al-Hamood|Effects of Long-Term Exposure to Manganese Chloride on Fertility of Male and Female Mice|Toxicol. Lett.119(3): 193-201|2001|10.1016/S0378-4274(00)00312-X
84977|T||Gallez,B., R. Demeure, C. Baudelet, N. Abdelouahab, N. Beghein, B. Jordan, M. Geurts, and H.A. Roels|Non Invasive Quantification of Manganese Deposits in the Rat Brain by Local Measurement of NMR Proton T1 Relaxation Times|Neurotoxicology22(3): 387-392|2001|10.1016/S0161-813X(01)00020-1
84978|T||Garcia,M.V., C. Lopez-Mediavilla, M.C. Juanes de la Pena, and J.M. Medina|Tolerance of Neonatal Rat Brain to Acute Hyperammonemia|Brain Res.973(1): 31-38|2003|10.1016/S0006-8993(03)02529-0
84979|T||Garcia,M.V., C. Lopez-Mediavilla, M.C. Juanes de la Pena, and J.M. Medina|Antioxidant Defence of the Neonatal Rat Brain Against Acute Hyperammonemia|Brain Res.1001(1-2): 159-163|2004|10.1016/j.brainres.2003.12.010
84980|T||Gentles,A., J. Surles, and E.E. Smith|Evaluation of Adult Quail and Egg Production Following Exposure to Perchlorate-Treated Water|Environ. Toxicol. Chem.24(8): 1930-1934|2005|10.1897/04-356R.1
84981|T||Gwiazda,R.H., D. Lee, J. Sheridan, and D.R. Smith|Low Cumulative Manganese Exposure Affects Striatal GABA but not Dopamine|Neurotoxicology23(1): 69-76|2002|10.1016/S0161-813X(02)00002-5
84982|T||Hayter,C.L., G.M. Bishop, and S.R. Robinson|Pharmacological but not Physiological Concentrations of Melatonin Reduce Iron-Induced Neuronal Death in Rat Cerebral Cortex|Neurosci. Lett.362(3): 182-184|2004|10.1016/j.neulet.2004.02.024
84983|T||Kalechman,Y., U. Gafter, T. Weinstein, A. Chagnac, I. Freidkin, A. Tobar, M. Albeck, and B. Sredni|Inhibition of Interleukin-10 by the Immunomodulator AS101 Reduces Mesangial Cell Proliferation in Experimental Mesangioproliferative Glomerulonephritis.  Association with Dephosphorylation of STAT3|J. Biol. Chem.279(23): 24724-24732|2004|10.1074/jbc.M312006200
84986|T||Li,D.Q., Y.M. Bao, J.J. Zhao, C.P. Liu, Y. Liu, and L.J. An|Neuroprotective Properties of Catalpol in Transient Global Cerebral Ischemia in Gerbils:  Dose-Response, Therapeutic Time-Window and Long-Term Efficacy|Brain Res.1029(2): 179-185|2004|10.1016/j.brainres.2004.09.041
84988|T||Paul,V.|Inhibition of Acute Hyperammonemia-Induced Convulsions by Systemically Administered gamma Aminobutyric Acid in Rats|Pharmacol. Biochem. Behav.74(3): 523-528|2003|10.1016/S0091-3057(02)01032-8
84989|T||Rheuben,M.B., D.M. Autio, Y.F. Xu, and W.D. Atchison|Morphometric Characterization of the Neuromuscular Junction of Rodents Intoxicated with 2,4-Dithiobiuret:  Evidence that Nerve Terminal Recycling Processes Contribute to Muscle Weakness|Toxicol. Appl. Pharmacol.196(2): 266-286|2004|10.1016/j.taap.2004.01.004
84991|T||Struzynska,L., M. Chalimoniuk, and G. Sulkowski|The Role of Astroglia in Pb-Exposed Adult Rat Brain with Respect to Glutamate Toxicity|Toxicology212(2-3): 185-194|2005|10.1016/j.tox.2005.04.013
84993|T||Tanigami,H., A. Rebel, L.J. Martin, T.Y. Chen, S.W. Brusilow, R.J. Traystman, and R.C. Koehler|Effect of Glutamine Synthetase Inhibition on Astrocyte Swelling and Altered Astroglial Protein Expression During Hyperammonemia in Rats|Neuroscience131(2): 437-449|2005|10.1016/j.neuroscience.2004.10.045
84994|T||Torrente,M., M.T. Colomina, and J.L. Domingo|Effects of Prenatal Exposure to Manganese on Postnatal Development and Behavior in Mice:  Influence of Maternal Restraint|Neurotoxicol. Teratol.24(2): 219-225|2002|10.1016/S0892-0362(02)00188-5
84995|T||Weber,S., D.C. Dorman, L.H. Lash, K. Erikson, K.E. Vrana, and M. Aschner|Effects of Manganese (Mn) on the Developing Rat Brain:  Oxidative-Stress Related Endpoints|Neurotoxicology23(2): 169-175|2002|10.1016/S0161-813X(02)00014-1
84997|T||Ronis,M.J.J., and T.M. Badger|Toxic Interactions Between Fungicides that Inhibit Ergosterol Biosynthesis and Phosphorothioate Insecticides in the Male Rat and Bobwhite Quail (Colinus virginianus)|Toxicol. Appl. Pharmacol.130(2): 221-228|1995|10.1006/taap.1995.1027
84998|T||Takahashi,H., T. Kojima, T. Ikeda, S. Tsuda, and Y. Shirasu|Differences in the Mode of Lethality Produced Through Intravenous and Oral Administration of Organophosphorus Insecticides in Rats|Fundam. Appl. Toxicol.16(3): 459-468|1991|10.1016/0272-0590(91)90086-J
84999|T||Agrawal,A., and S. Bhattacharya|Appearance of C-Reactive Protein (CRP) in Serum and Liver Cytosol of Cadmium-Treated Rats|Indian J. Exp. Biol.27(12): 1024-1027|1989|
85000|T||Devi,K.D., B.S. Banu, M. Mahboob, K. Jamil, and P. Grover|In Vivo Genotoxic Effect of Cadmium Chloride in Mice Leukocytes Using Comet Assay|Teratog. Carcinog. Mutagen.21(5): 325-333|2001|10.1002/tcm.1020
85001|T||Kataranovski,M., S. Popovic, and D. Kataranovski|Differential Effects of In Vivo Cadmium Administration on Lymphocytes and Granulocytes in Rats|Vet. Hum. Toxicol.41(4): 200-204|1999|
85002|T||Walker,E.M.,Jr., G.R. Gale, E.P. Fody, L.M. Atkins, A.B. Smith, and M.M. Jones|Comparative Antidotal Effects of Diethyldithiocarbamate, Dimercaptosuccinate, and Diethylenetriaminepentaacetate Against Cadmium-Induced Testicular Toxicity in Mice|Res. Commun. Chem. Pathol. Pharmacol.51(2): 231-244|1986|
85003|T||Costa,G., J.C. Michaut, and J.L. Morel|Influence of Cadmium on Water Relations and Gas Exchanges, in Phosphorus Deficient Lupinus albus|Plant Physiol. Biochem.32(1): 105-114|1994|
85004|T||Hussain,T., M.M. Ali, and S.V. Chandra|Effect of Cadmium Exposure on Lipids, Lipid Peroxidation and Metal Distribution in Rat Brain Regions|Ind. Health23(3): 199-206|1985|10.2486/indhealth.23.199
85005|T||Miller,W.J., D.M. Blackmon, R.P. Gentry, and F.M. Pate|Effect of Dietary Cadmium on Tissue Distribution of 109 Cadmium Following a Single Oral Dose in Young Goats|J. Dairy Sci.52(12): 2029-2035|1969|10.3168/jds.S0022-0302(69)86891-8
85006|T||Tohyama,C., N. Sugihira, and H. Saito|Critical Concentration of Cadmium for Renal Toxicity in Rats|J. Toxicol. Environ. Health22(3): 255-259|1987|10.1080/15287398709531069
85007|T||Landsdown,A.B.G., and B. Sampson|Dermal Toxicity and Percutaneous Absorption of Cadmium in Rats and Mice|Lab. Anim. Sci.46(5): 549-554|1996|
85008|T||Jones,S.G., M.M. Jones, M.A. Holscher, and W.K. Vaughn|The Effect of Zinc on the Dithiocarbamate-Induced Mobilization of Cadmium Deposits in Mice|J. Toxicol. Environ. Health23(1): 91-101|1988|10.1080/15287398809531096
85009|A||McClain,W.R., and D.M. Gatlin III|Dietary Zinc Requirement of Oreochromis aureus and Effects of Dietary Calcium and Phytate on Zinc Bioavailability|J. World Aquac. Soc.19(3): 103-108|1988|10.1111/j.1749-7345.1988.tb00936.x
85010|T||Mandal,B., K. Bhattacharya, P.K. Mete, and L.N. Mandal|Effects of Sesbania rostrata and Azolla microphylla Incorporation on Transformation of Applied Zinc and Copper in Lateritic Rice Soils with Different Flooding Regimes|Biol. Fertil. Soils24(4): 394-398|1997|10.1007/s003740050263
85011|A||Jornvall,H., K.H. Falchuk, G. Geraci, and B.L. Vallee|1,10-Phenanthroline and Xenopus laevis Teratology|Biochem. Biophys. Res. Commun.200(3): 1398-1406|1994|10.1006/bbrc.1994.1606
85012|T||Piasek,M., M. Blanusa, K. Kostial, and J.W. Laskey|Low Iron Diet and Parenteral Cadmium Exposure in Pregnant Rats:  The Effects on Trace Elements and Fetal Viability|BioMetals17(1): 1-14|2004|10.1023/A:1024426931676
85013|T||Messerle,K., and W.S. Webster|The Classification and Development of Cadmium-Induced Limb Defects in Mice|Teratology25:61-70|1982|10.1002/tera.1420250109
85014|T||Layton,W.M.,Jr., and M.W. Layton|Cadmium Induced Limb Defects in Mice: Strain Associated Differences in Sensitivity|Teratology19:229-235|1979|10.1002/tera.1420190213
85015|T||Chwelatiuk,E., T. Wlostowski, A. Krasowska, and E. Bonda|Melatonin Increases Tissue Accumulation and Toxicity of Cadmium in the Bank Vole (Clethrionomys glareolus)|BioMetals18(3): 283-291|2005|10.1007/s10534-005-1720-7
85016|T||Bonda,E., T. Wlostowski, and A. Krasowska|Testicular Toxicity Induced by Dietary Cadmium is Associated with Decreased Testicular Zinc and Increased Hepatic and Renal Metallothionein and Zinc in the Bank Vole (Clethrionomys glareolus)|BioMetals17(6): 615-624|2004|10.1007/s10534-004-1226-8
85017|T||Asagba,S.O., and F.O. Obi|A Comparative Evaluation of the Biological Effects of Environmental Cadmium-Contaminated Control Diet and Laboratory-Cadmium Supplemented Test Diet|BioMetals18(2): 155-161|2005|10.1007/s10534-004-4257-2
85019|T||Saltzman,R.A., R.K. Miller, and P.A. Di Sant'agnese|Cadmium Exposure on Day 12 of Gestation in the Wistar Rat: Distribution, Uteroplacental Blood Flow, and Fetal Viability|Teratology39(1): 19-30|1989|10.1002/tera.1420390104
85020|T||Gordon,C.J., and A.G. Stead|Effect of Nickel and Cadmium Chloride on Autonomic and Behavioral Thermoregulation in Mice|Neurotoxicology7(3): 97-106|1986|
85021|T||Hassan,M.J., G. Shao, and G. Zhang|Influence of Cadmium Toxicity on Growth and Antioxidant Enzyme Activity in Rice Cultivars with Different Grain Cadmium Accumulation|J. Plant Nutr.28(7): 1259-1270|2005|10.1081/PLN-200063298
85022|T||Dahiya,D.J., V. Phogat, and J.P. Singh|Distribution of Zinc Forms in Semiarid Soils and Their Relative Importance in Rice Nutrition|Arid Soil Res. Rehabil.5(4): 261-270|1991|
85024|T||Iscan,M., T. Coban, and B.C. Eke|Differential Combined Effect of Cadmium and Nickel on Hepatic and Renal Glutathione S-Transferases of the Guinea Pig|Environ. Health Perspect.102(suppl. 9): 69-72|1994|10.1289/ehp.94102s969
85025|T||Hogan,G.R.|Cadmium Treatment and Lead-Induced Suppression of Splenic Erythropoiesis|J. Toxicol. Environ. Health35(1): 1-6|1992|10.1080/15287399209531588
85026|A||Ermilova,E.V., Z.M. Zalutskaya, K. Huang, and C.F. Beck|Phototropin Plays a Crucial Role in Controlling Changes in Chemotaxis During the Initial Phase of the Sexual Life Cycle in Chlamydomonas|Planta (Multiple Languages)219(3): 420-427|2004|10.1007/s00425-004-1241-6
85027|T||Kim,Y.S.|Hepatic Glutathione and Glutathione S-Transferase in Selenium Deficiency and Toxicity in the Chick|Ph.D.Thesis, Cornell University, Ithaca, NY:167 p.|1989|
85028|T||Baldwin,S.|Dietary Fat and Selenium:  Individual and Interactive Effects on Early Events in Hepatocarcinogenesis|Ph.D.Thesis, Cornell University, Ithaca, NY:199 p.|1987|
85029|T||Manna,B.|Influence of Diazinon and Fenitrothion on Acetylcholinesterase Activity in Digestive Gland and Central Nervous System of Achatina fulica|Environ. Ecol.9(3): 594-599|1991|
85030|T||Grewal,P.S., P.N. Richardson, G. Collins, and R.N. Edmondson|Comparative Effects of Steinernema feltiae (Nematoda:  Steinernematidae) and Insecticides on Yield and Cropping of the Mushroom Agaricus bisporus|Ann. Appl. Biol.121(3): 511-520|1992|10.1111/j.1744-7348.1992.tb03461.x
85031|A||Mansour,M., E.A. Feicht, A. Behechti, K.W. Schramm, and A. Kettrup|Determination Photostability of Selected Agrochemicals in Water and Soil|Chemosphere39(4): 575-585|1999|10.1016/S0045-6535(99)00123-X
85032|T||Stahl,J.L.|Zinc Supplementation:  Effects on Zinc, Copper and Iron Metabolism in Chicks and on Laying Hen and Progeny Performance|Ph.D Thesis, University of Wisconsin, Madison, WI:148 p.|1990|
85033|T||Ward,D.A., K. Abney, and J.W. Oliver|The Effects of Topical Ocular Application of 0.25% Demecarium Bromide on Serum Acetylcholinesterase Levels in Normal Dogs|Vet. Ophthalmol.6(1): 23-25|2003|10.1046/j.1463-5224.2003.00257.x
85034|T||Wall,S.M., M.P. Fischer, D.M. Glapion, and M. De la Calzada|ANG II Reduces Net Acid Secretion in Rat Outer Medullary Collecting Duct|Am. J. Physiol., Renal Fluid Electrolyte Physiol.285(5): F930 - F937|2003|10.1152/ajprenal.00400.2002
85038|T||Bidmon,H.J., B. Gorg, N. Palomero-Gallagher, F. Schliess, A. Gorji, E.J. Speckmann, and K. Zilles|Bilateral, Vascular and Perivascular Glial Upregulation of Heat Shock Protein-27 After Repeated Epileptic Seizures|J. Chem. Neuroanat.30(1): 1-16|2005|10.1016/j.jchemneu.2005.03.009
85040|T||White,J.M.|Behavioral Interactions Between Nicotine and Caffeine|Pharmacol. Biochem. Behav.29(1): 63-66|1988|10.1016/0091-3057(88)90274-2
85041|T||Takahashi,H., Y. Takada, N. Nagai, T. Urano, and A. Takada|Nicotine Increases Stress-Induced Serotonin Release by Stimulating Nicotinic Acetylcholine Receptor in Rat Striatum|Synapse28(3): 212-219|1998|10.1002/(SICI)1098-2396(199803)28:3<212::AID-SYN4>3.0.CO;2-D
85042|T||Malin,D.H., J.R. Lake, P. Newlin-Maultsby, L.K. Roberts, J.G. Lanier, V.A. Carter, J.S. Cunningham, and O.B. Wilson|Rodent Model of Nicotine Abstinence Syndrome|Pharmacol. Biochem. Behav.43(3): 779-784|1992|10.1016/0091-3057(92)90408-8
85043|T||O'Neill,M.F., C.T. Dourish, and S.D. Iversen|Evidence for an Involvement of D1 and D2 Dopamine Receptors in Mediating Nicotine-Induced Hyperactivity in Rats|Psychopharmacology104(3): 343-350|1991|10.1007/BF02246034
85044|T||Fung,Y.K., and Y.S. Lau|Differential Effects of Chronic Nicotine Administration on Dopaminergic Receptor Binding Sites in Rat Nigrostriatal and Mesolimbic Regions|Gen. Pharmacol.22(1): 117-119|1991|10.1016/0306-3623(91)90320-6
85045|T||Fung,Y.K., and J.A. Reed|Effect of Nicotine on Central GABAergic System|Gen. Pharmacol.19(4): 533-536|1988|10.1016/0306-3623(88)90159-0
85046|T||Miyata,G., M.M. Meguid, S.O. Fetissov, G.F. Torelli, and H.J. Kim|Nicotine's Effect on Hypothalamic Neurotransmitters and Appetite Regulation|Surgery126(2): 255-263|1999|10.1016/S0039-6060(99)70163-7
85047|T||Nordberg,A., L. Romanelli, A. Sundwall, C. Bianchi, and L. Beani|Effect of Acute and Subchronic Nicotine Treatment on Corticol Acetylcholine Release and on Nicotinic Receptors in Rats and Guinea Pigs|Br. J. Pharmacol.98(1): 71-78|1989|10.1111/j.1476-5381.1989.tb16864.x
85048|T||Clarke,P.B.S., and R. Kumar|Characterization of the Locomotor Stimulant Action of Nicotine in Tolerant Rats|Br. J. Pharmacol.80(3): 587-594|1983|10.1111/j.1476-5381.1983.tb10733.x
85049|T||Clarke,P.B.S., and R. Kumar|The Effects of Nicotine on Locomotor Activity in Non-Tolerant and Tolerant Rats|Br. J. Pharmacol.78(2): 329-337|1983|10.1111/j.1476-5381.1983.tb09398.x
85050|T||Fung,Y.K., and Y.S. Lau|Effect of Nicotine Pretreatment on Striatal Dopaminergic System in Rats|Pharmacol. Biochem. Behav.32(1): 221-226|1989|10.1016/0091-3057(89)90237-2
85051|T||Cohen,C., H. Welzl, and K. Battig|Effects of Nicotine, Caffeine, and Their Combination on Locomotor Activity in Rats|Pharmacol. Biochem. Behav.40(1): 121-123|1991|10.1016/0091-3057(91)90331-U
85052|T||Schochet,T.L., A.E. Kelley, and C.F. Landry|Differential Behavioral Effects of Nicotine Exposure in Adolescent and Adult Rats|Psychopharmacology175(3): 265-273|2004|10.1007/s00213-004-1831-9
85053|T||Sershen,H., A. Hashim, L. Harsing, and A. Lajtha|Chronic Nicotine-Induced Changes in Dopaminergic System:  Effect on Behavioral Response to Dopamine Agonist|Pharmacol. Biochem. Behav.39(2): 545-547|1991|10.1016/0091-3057(91)90225-Q
85054|T||Fung,Y.K., and Y.S. Lau|Chronic Effects of Nicotine on Mesolimbic Dopaminergic System in Rats|Pharmacol. Biochem. Behav.41(1): 57-63|1991|
85055|T||Le Foll,B., and S.R. Goldberg|Nicotine Induces Conditioned Place Preferences over a Large Range of Doses in Rats|Psychopharmacology178(4): 481-492|2005|10.1007/s00213-004-2021-5
85057|T||Gumustekin,K., K. Altinkaynak, H. Timur, S. Taysi, N. Oztasan, M. Fevzi Polat, F. Akcay, H. Suleyman, S. Dane, and M. G|Vitamin E but not Hippophea rhamnoides L. Prevented Nicotine-Induced Oxidative Stress in Rat Brain|Hum. Exp. Toxicol.22(8): 425-431|2003|
85058|T||Balabanova,S.|Effect of Nicotine on the Immunoreactive Calcitonin in Cerebrospinal Fluid of Sheep|Neuroendocrinol. Lett.15(5-6): 431-436|1993|
85059|T||Koley,J., C. Majumder, J.K. Saha, and B.N. Koley|Gastric Relaxation of Cardiac Origin Produced by Nicotine|Med. Sci. Res.15(24): 1517-1518|1987|
85060|T||Colpaert,J.V., P. Vandenkoornhuyse, K. Adriaensen, and J. Vangronsveld|Genetic Variation and Heavy Metal Tolerance in the Ectomycorrhizal Basidiomycete Suillus luteus|New Phytol.147(2): 367-379|2000|10.1046/j.1469-8137.2000.00694.x
85062|T||Suzuki,T., H. Yamanaka, K. Nakajima, K. Kanatani, K. Suzuki, M. Kimura, Y. Nakazawa, and N. Otaki|Induction of Metallothionein by CdCl2 Administration in Rat Prostate|Prostate22(2): 163-170|1993|10.1002/pros.2990220209
85063|T||Sakata,S., K. Iwami, Y. Enoki, H. Kohzuki, S. Shimizu, M. Matsuda, and T. Moriyama|Effects of Cadmium on In Vitro and In Vivo Erythropoiesis:  Erythroid Progenitor Cells (CFU-E), Iron, and Erythropoietin in Cadmium-Induced Iron Deficiency Anemia|Exp. Hematol. (N. Y. )16(7): 581-587|1988|
85064|T||Thind,G.S., and G.M. Fischer|Cadmium and Zinc Distribution in Cardiovascular and Other Tissues of Normal and Cadmium-Treated Dogs|Exp. Mol. Pathol.22:326-334|1975|10.1016/0014-4800(75)90077-5
85065|T||Chung,A.S., and M.D. Maines|Differential Effect of Cadmium on GSH-Peroxidase Activity in the Leydig and the Sertoli Cells of Rat Testis Suppression by Selenium and the Possible Relationship to HEME Concentration|Biochem. Pharmacol.36(8): 1367-1372|1987|10.1016/0006-2952(87)90096-7
85066|T||Liu,J., M.B. Kadiiska, J.C. Corton, W. Qu, M.P. Waalkes, R.P. Mason, Y. Liu, and C.D. Klaassen|Acute Cadmium Exposure Induces Stress-Related Gene Expression in Wild-Type and Metallothionein-I/II-Null Mice|Free Radic. Biol. Med.32(6): 525-535|2002|10.1016/S0891-5849(01)00826-7
85067|T||Khandelwal,S., L.J. Shukla, and R. Shanker|Modulation of Acute Cadmium Toxicity by Emblica Officinalis Fruit in Rat|Indian J. Exp. Biol.40(5): 564-570|2002|
85068|T||Vepachedu,S.K.V.R.R., N. Akthar, and P.M. Mohan|Isolation of a Cadmium Tolerant Curvularia sp. from Polluted Effluents|Curr. Sci. (Bangalore)73(5): 453-455|1997|
85069|T||Kobayashi,S., and M. Kimura|Effects of Orally Administered Cadmium on Alkaline Phosphatase Isoenzymes in Rat Tissues|J. Pharmacobio-Dyn.8(10): 853-863|1985|10.1248/bpb1978.8.853
85071|T||Ohsawa,M., K. Takahashi, and F. Otsuka|Induction of Anti-Nuclear Antibodies in Mice Orally Exposed to Cadmium at Low Concentrations|Clin. Exp. Immunol.73(1): 98-102|1988|
85072|T||Andersen,O., R.A. Bulman, and J.B. Nielsen|Effects of Macromolecular Chelators on Intestinal Cadmium Absorption in Mice|Pharmacol. Toxicol.64(2): 216-221|1989|10.1111/j.1600-0773.1989.tb00633.x
85073|T||Cheng,S.Y., D. Glazkova, L. Serova, and E.L. Sabban|Effect of Prolonged Nicotine Infusion on Response of Rat Catecholamine Biosynthetic Enzymes to Restraint and Cold Stress|Pharmacol. Biochem. Behav.82(3): 559-568|2005|10.1016/j.pbb.2005.10.011
85074|T||Elliott,B.M., M.M. Faraday, J.M. Phillips, and N.E. Grunberg|Adolescent and Adult Female Rats Differ in Sensitivity to Nicotine's Activity Effects|Pharmacol. Biochem. Behav.80(4): 567-575|2005|10.1016/j.pbb.2005.01.019
85075|T||Guelfi,A., R.A. Azevedo, P.J. Lea, and S.M.G. Molina|Growth Inhibition of the Filamentous Fungus Aspergillus nidulans by Cadmium:  An Antioxidant Enzyme Approach|J. Gen. Appl. Microbiol.49(2): 63-73|2003|10.2323/jgam.49.63
85076|T||Faraday,M.M., V.A. O'Donoghue, and N.E. Grunberg|Effects of Nicotine and Stress on Startle Amplitude and Sensory Gating Depend on Rat Strain and Sex.|Pharmacol. Biochem. Behav.62(2): 273-284|1999|10.1016/S0091-3057(98)00159-2
85077|T||Grawe,K.P., A. Teiling-Gardlund, E. Jalkesten, and A. Oskarsson|Increased Spontaneous Motor Activity in Offspring After Maternal Cadmium Exposure During Lactation|Environ. Toxicol. Pharmacol.17(1): 35-43|2004|10.1016/j.etap.2004.02.001
85078|T||Dan,G., and S.B. Lall|Modulation of Cadmium Induced Immune Response by Corticosterone, Aldosterone and Triiodothyronine|Pharmacol. Rev. Commun.10(3): 227-232|1999|
85079|T||Bebe,F.N., and M. Panemangalore|Modulation of Tissue Trace Metal Concentrations in Weanling Rats Fed Different Levels of Zinc and Exposed to Oral Lead and Cadmium|Nutr. Res.16(8): 1369-1380|1996|10.1016/0271-5317(96)00144-3
85080|T||King,L.M., W.A. Banks, and W.J. George|Differences in Cadmium Transport to the Testis, Epididymis, and Brain in Cadmium-Sensitive and -Resistant Murine Strains 129/J and A/J|J. Pharmacol. Exp. Ther.289(2): 825-830|1999|
85081|T||Gale,G.R., A.B. Smith, M.M. Jones, and P.K. Singh|Evidence of Active Transport of Cadmium Complexing Dithiocarbamates into Renal and Hepatic Cells In Vivo|Pharmacol. Toxicol.71(6): 452-456|1992|10.1111/j.1600-0773.1992.tb00577.x
85082|T||Tandon,S.K., S. Khandelwal, V.K. Jain, and N. Mathur|Influence of Dietary Iron Deficiency on Nickel, Lead and Cadmium Intoxication|Sci. Total Environ.148(2-3): 167-173|1994|10.1016/0048-9697(94)90393-X
85083|T||Faraday,M.M., B.M. Elliott, and N.E. Grunberg|Adult vs. Adolescent Rats Differ in Biobehavioral Responses to Chronic Nicotine Administration|Pharmacol. Biochem. Behav.70(4): 475-489|2001|10.1016/S0091-3057(01)00642-6
85084|T||Faraday,M.M., B.M. Elliott, J.M. Phillips, and N.E. Grunberg|Adolescent and Adult Male Rats Differ in Sensitivity to Nicotine's Activity Effects|Pharmacol. Biochem. Behav.74(4): 917-931|2003|10.1016/S0091-3057(03)00024-8
85085|T||Faraday,M.M., V.A. O'Donoghue, and N.E. Grunberg|Effects of Nicotine and Stress on Locomotion in Sprague-Dawley and Long-Evans Male and Female Rats|Pharmacol. Biochem. Behav.74(2): 325-333|2003|10.1016/S0091-3057(02)00999-1
85086|T||Hu,D., K. Cao, R. Peterson-Wakeman, and R. Wang|Altered Profile of Gene Expression in Rat Hearts Induced by Chronic Nicotine Consumption|Biochem. Biophys. Res. Commun.297(4): 729-736|2002|10.1016/S0006-291X(02)02280-5
85087|T||Phillpotts,C.J.|Histopathological Changes in the Epithelial Cells of Rat Duodenum Following Chronic Dietary Exposure to Cadmium, with Particular Reference to Paneth Cells|Br. J. Exp. Pathol.67(4): 505-516|1986|
85088|T||Irvine,E.E., S. Cheeta, M. Marshall, and S.E. File|Different Treatment Regimens and the Development of Tolerance to Nicotine's Anxiogenic Effects|Pharmacol. Biochem. Behav.68(4): 769-776|2001|10.1016/S0091-3057(01)00469-5
85089|T||Godowicz,B., and M. Pawlus|Inheritance of Sensitivity to Cadmium Induced Testicular Damage in Mice|Folia Histochem. Cytochem.17(3): 267-273|1979|
85090|T||Godowicz,B., and M. Pawlus|Effect of Cadmium Chloride on the Ovulation and Structure of Ovary in the Inbred KP and CBA Mice Strains|Folia Histochem. Cytobiol.23(4): 209-216|1985|
85091|T||King,S.L., B.J. Caldarone, and M.R. Picciotto|Beta2-Subunit-Containing Nicotinic Acetylcholine Receptors are Critical for Dopamine-Dependent Locomotor Activation Following Repeated Nicotine Administration|Neuropharmacology47(1): 132-139|2004|10.1016/j.neuropharm.2004.06.024
85092|T||Goyer,R.A., C.R. Miller, S.Y. Zhu, and W. Victery|Non-Metallothionein-Bound Cadmium in the Pathogenesis of Cadmium Nephrotoxicity in the Rat|Toxicol. Appl. Pharmacol.101(2): 232-244|1989|10.1016/0041-008X(89)90272-X
85093|T||Luine,V.N., G. Mohan, Z. Tu, and S.M.N. Efange|Chromaproline and Chromaperidine, Nicotine Agonists, and Donepezil, Cholinesterase Inhibitor, Enhance Performance of Memory Tasks in Ovariectomized Rats|Pharmacol. Biochem. Behav.74(1): 213-220|2002|10.1016/S0091-3057(02)00988-7
85094|T||Sendelbach,L.E., and C.D. Klaassen|Kidney Synthesizes Less Metallothionein than Liver in Response to Cadmium Chloride and Cadmium-Metallothionein|Toxicol. Appl. Pharmacol.92(1): 95-102|1988|10.1016/0041-008X(88)90231-1
85095|T||Ando,M., M. Shimizu, S. Matsui, Y. Sayato, and M. Takeda|Influence of Cadmium on the Metabolism of Vitamin D3 in Rats|Toxicol. Appl. Pharmacol.89(2): 158-164|1987|10.1016/0041-008X(87)90036-6
85096|T||Bernard,A.M., A.O. Amor, and R.R. Lauwerys|The Effects of Low Doses of Cadmium-Metallothionein on the Renal Uptake of beta2-Microglobulin in Rats|Toxicol. Appl. Pharmacol.87(3): 440-445|1987|10.1016/0041-008X(87)90249-3
85097|T||Mandillo,S., and R.B. Kanarek|Chronic Sucrose Intake Enhances Nicotine-Induced Antinociception in Female but not Male Long-Evans Rats|Pharmacol. Biochem. Behav.68(2): 211-219|2001|10.1016/S0091-3057(00)00464-0
85098|T||Onal,A., A. Uysal, S. Ulker, Y. Delen, M.E. Yurtseven, and A. Evinc|Alterations of Brain Tissue in Fetal Rats Exposed to Nicotine In Utero:  Possible Involvement of Nitric Oxide and Catecholamines|Neurotoxicol. Teratol.26(1): 103-112|2004|10.1016/j.ntt.2003.08.005
85099|T||Salminen,O., T. Seppa, H. Gaddnas, and L. Ahtee|Effect of Acute Nicotine on Fos Protein Expression in Rat Brain During Chronic Nicotine and Its Withdrawal|Pharmacol. Biochem. Behav.66(1): 87-93|2000|10.1016/S0091-3057(00)00203-3
85100|T||Slotkin,T.A., E.C. McCook, and F.J. Seidler|Cryptic Brain Cell Injury Caused by Fetal Nicotine Exposure is Associated with Persistent Elevations of c-fos Protooncogene Expression|Brain Res.750(1-2): 180-188|1997|10.1016/S0006-8993(96)01345-5
85101|T||Szyndler,J., H. Sienkiewicz-Jarosz, P. Maciejak, M. Siemiatkowski, D. Rokicki, A.I. Czlonkowska, and A. Plaznik|The Anxiolytic-Like Effect of Nicotine Undergoes Rapid Tolerance in a Model of Contextual Fear Conditioning in Rats|Pharmacol. Biochem. Behav.69(3-4): 511-518|2001|10.1016/S0091-3057(01)00548-2
85102|T||Philibin,S.D., R.E. Vann, S.A. Varvel, H.E. Covington III, J.A. Rosecrans, J.R. James, and S.E. Robinson|Differential Behavioral Responses to Nicotine in Lewis and Fischer-344 Rats|Pharmacol. Biochem. Behav.80(1): 87-92|2005|10.1016/j.pbb.2004.10.009
85103|T||Picciotto,M.R., M. Zoli, R. Rimondin, C. Lena, L.M. Marubio, E.M. Pich, K. Fuxe, and J.P. Changeux|Acetylcholine Receptors Containing the beta2 Subunit are Involved in the Reinforcing Properties of Nicotine|Nature391(6663): 173-177|1998|10.1038/34413
85104|T||Gommans,J., I.P. Stolerman, and M. Shoaib|Antagonism of the Discriminative and Aversive Stimulus Properties of Nicotine in C57BL/6J Mice|Neuropharmacology39(13): 2840-2847|2000|10.1016/S0028-3908(00)00130-1
85105|T||Morselt,A.F.W., K.T. Suzuki, A.M. Roelofsen, W. Hazelhoff Roelfzema, and J.H.J. Copius Peereboom-Stegeman|Increase of Cadmium-Thiolate Clusters as a Measure of Morphological Non-toxic Cadmium Accumulation in the Rat Liver|Toxicology41(1): 33-41|1986|10.1016/0300-483X(86)90102-2
85106|T||Kuester,R.K., M.P. Waalkes, P.L. Goering, B.L. Fisher, R.S. McCuskey, and I.G. Sipes|Differential Hepatotoxicity Induced by Cadmium in Fischer 344 and Sprague-Dawley Rats|Toxicol. Sci.65(1): 151-159|2002|10.1093/toxsci/65.1.151
85107|T||Liu,Y., J. Liu, S.M. Habeebu, M.P. Waalkes, and C.D. Klaassen|Metallothionein-I/II Null Mice are Sensitive to Chronic Oral Cadmium-Induced Nephrotoxicity|Toxicol. Sci.57(1): 167-176|2000|10.1093/toxsci/57.1.167
85108|T||Jones,M.M., P.K. Singh, G.R. Gale, L.M. Atkins, and A.B. Smith|The Mobilization of Intracellular Cadmium by Alkoxyethyl Esters of Meso-2,3-Dimercaptosuccinic Acid|Toxicol. Appl. Pharmacol.106(3): 529-535|1990|10.1016/0041-008X(90)90347-W
85109|T||Singh,P.K., G.R. Gale, S.G. Jones, and M.M. Jones|Mobilization of Aged In Vivo Cadmium Deposits by Diethyl Dimercaptosuccinate|Toxicol. Lett.41(3): 239-244|1988|10.1016/0378-4274(88)90060-4
85110|T||Mufti,S.A., and A. Ullah|Embryotoxicity of Diazinon in Mice|Proc. Pak. Congr. Zool.11:33-40|1991|
85111|T||Burchiel,S.W., W.M. Hadley, C.L. Cameron, R.H. Fincher, T.W. Lim, and C.C. Stewart|Flow Cytometry Coulter Volume Analysis of Lead-and Cadmium-Induced Cellular Alterations in Bone Marrow Obtained from Young Adult and Aged Balb-c Mice|Toxicol. Lett.34(1): 89-94|1986|10.1016/0378-4274(86)90149-9
85112|T||Pawlak,C.R., and R.K.W. Schwarting|Repeated Nicotine Treatment in Rats with high Versus Low Rearing Activity:  Analyses of Behavioural Sensitisation and Place Preference|Psychopharmacology178(4): 440-450|2005|10.1007/s00213-004-2024-2
85113|T||Lau,C.E., D.J. Spear, and J.L. Falk|Acute and Chronic Nicotine Effects on Multiple-Schedule Behavior:  Oral and SC Routes|Pharmacol. Biochem. Behav.48(1): 209-215|1994|10.1016/0091-3057(94)90518-5
85114|T||Fung,Y.K.|Postnatal Effects of Maternal Nicotine Exposure on the Striatal Dopaminergic System in Rats|J. Pharm. Pharmacol.41(8): 576-578|1989|10.1111/j.2042-7158.1989.tb06533.x
85115|T||Sharp,B.M., and H.S. Beyer|Rapid Desensitization of the Acute Stimulatory Effects of Nicotine on Rat Plasma Adrenocorticotropin and Prolactin|J. Pharmacol. Exp. Ther.238(2): 486-491|1986|
85116|T||Navarro,H.A., F.J. Seidler, W.L. Whitmore, and T.A. Slotkin|Prenatal Exposure to Nicotine via Maternal Infusions:  Effects on Development of Catecholamine Systems|J. Pharmacol. Exp. Ther.244(3): 940-944|1988|
85117|T||Navarro,H.A., F.J. Seidler, J.P. Eylers, F.E. Baker, S.S. Dobbins, S.E. Lappi, and T.A. Slotkin|Effects of Prenatal Nicotine Exposure on Development of Central and Peripheral Cholinergic Neurotransmitter Systems:  Evidence for Cholinergic Trophic Influences in Developing Brain|J. Pharmacol. Exp. Ther.251(3): 894-900|1989|
85118|T||Fung,Y.K., and Y.S. Lau|Effects of Prenatal Nicotine Exposure on Rat Striatal Dopaminergic and Nicotinic Systems|Pharmacol. Biochem. Behav.33(1): 1-6|1989|10.1016/0091-3057(89)90419-X
85119|T||Himmi,T., F. Brahiti, J. Perrin, and J.C. Orsini|Sensitivity of Lateral Hypothalamic Neurons to Nicotine:  Origin and Possible Correlation with Nutritional Effects of Nicotine|Pharmacol. Biochem. Behav.44(1): 217-220|1993|10.1016/0091-3057(93)90300-I
85120|T||Shoaib,M., and I.P. Stolerman|Locomotor Activity After Nicotine Infusions into the Fourth Ventricle of Rats|Pharmacol. Biochem. Behav.48(3): 749-754|1994|10.1016/0091-3057(94)90342-5
85121|T||Waalkes,M.P.|Elevation of Hepatic Metallothionein in Rats Chronically Exposed to Dietary Ethionine|Toxicol. Lett.26(2-3): 133-138|1985|10.1016/0378-4274(85)90157-2
85122|T||Walter,S., and K. Kuschinsky|Conditioning of Nicotine Effects on Motility and Behaviour in Rats|Naunyn-Schmiedeberg's Arch. Pharmacol.339(1-2): 208-213|1989|10.1007/BF00165145
85123|T||Ouagazzal,A.M., P.J. Kenny, and S.E. File|Modulation of Behaviour on Trials 1 and 2 in the Elevated Plus-Maze Test of Anxiety After Systemic and Hippocampal Administration of Nicotine|Psychopharmacology144(1): 54-60|1999|10.1007/s002130050976
85124|T||Chen,Y.P., G.K. Johnson, and C.A. Squier|Effects of Nicotine and Tobacco-Specific Nitrosamines on Hamster Cheek Pouch and Gastric Mucosa|J. Oral Pathol. Med.23(6): 251-255|1994|10.1111/j.1600-0714.1994.tb00054.x
85125|T||Min,K.S., H. Kim, M. Fujii, N. Tetsuchikawahara, and S. Onosaka|Glucocorticoids Suppress the Inflammation-Mediated Tolerance to Acute Toxicity of Cadmium in Mice|Toxicol. Appl. Pharmacol.178(1): 1-7|2002|10.1006/taap.2001.9323
85128|T||Hirano,T., Y. Yamaguchi, and H. Kasai|Inhibition of 8-Hydroxyguanine Repair in Testes After Administration of Cadmium Chloride to GSH-Depleted Rats|Toxicol. Appl. Pharmacol.147(1): 9-14|1997|10.1006/taap.1997.8260
85129|T||Kawata,M., and K.T. Suzuki|The Effect of Cadmium, Zinc or Copper Loading on the Metabolism of Amino Acids in Mouse Liver|Toxicol. Lett.20(2): 149-154|1984|10.1016/0378-4274(84)90140-1
85130|T||Katsuta,O., H. Hiratsuka, J. Matsumoto, H. Iwata, N. Toyota, M. Tsuchitani, T. Umemura, and F. Marumo|Cadmium-Induced Osteomalacic and Osteopetrotic Lesions in Ovariectomized Rats|Toxicol. Appl. Pharmacol.126(1): 58-68|1994|10.1006/taap.1994.1090
85131|T||Kojima,S., Y. Sugimura, H. Hirukawa, M. Kiyozumi, H. Shimada, and T. Funakoshi|Effects of Dithiocarbamates on Testicular Toxicity in Rats Caused by Acute Exposure to Cadmium|Toxicol. Appl. Pharmacol.116(1): 24-29|1992|10.1016/0041-008X(92)90140-N
85132|T||Min,K.S., T. Nakatsubo, S. Kawamura, Y. Fujita, S. Onosaka, and K. Tanaka|Effects of Mucosal Metallothionein in Small Intestine on Tissue Distribution of Cadmium After Oral Administration of Cadmium Compounds|Toxicol. Appl. Pharmacol.113(2): 306-310|1992|10.1016/0041-008X(92)90129-G
85133|T||Jones,M.M., M.G. Cherian, P.K. Singh, M.A. Basinger, and S.G. Jones|A Comparative Study of the Influence of Vicinal Dithiols and a Dithiocarbamate on the Biliary Excretion of Cadmium in Rat|Toxicol. Appl. Pharmacol.110(2): 241-250|1991|10.1016/S0041-008X(05)80006-7
85134|T||Itoh,R., and H. Ozasa|Changes in Serum Lactate Dehydrogenase Isozyme-X Activity Observed After Cadmium Administration|Toxicol. Lett.28(2-3): 151-154|1985|10.1016/0378-4274(85)90024-4
85135|T||Felley-Bosco,E., and J. Diezi|Dietary Calcium Restriction Enhances Cadmium-Induced Metallothionein Synthesis in Rats|Toxicol. Lett.60(2): 139-144|1992|10.1016/0378-4274(92)90268-O
85136|T||Khanna,R.N., M. Anand, K. Gopal, N. Varma, G.S.D. Gupta, and P.K. Ray|Effect of Repeated Exposure to Lindane and Cadmium on Lindane Metabolism in Rats|Toxicol. Lett.42(2): 177-183|1988|10.1016/0378-4274(88)90075-6
85137|T||Itoh,R.|Changes in Adenylate Energy Charge and Total Adenine Nucleotide Concentration in Mouse Testis Induced by Cadmium Administration|Toxicol. Lett.25(1): 63-67|1985|10.1016/0378-4274(85)90101-8
85138|T||Kojima,S., A. Furukawa, M. Kiyozumi, and H. Shimada|Comparative Renal Toxicity of Metallothioneins with Different Cadmium/Zinc Ratios in Rats|Toxicol. Lett.56(1/2): 197-205|1991|
85139|T||Jin,T., M. Nordberg, and G.F. Nordberg|Modulation of Calciuria by Cadmium Pretreatment in Rats with Cadmium-Metallothionein-Induced Nephrotoxicity|Toxicology75(1): 29-37|1992|10.1016/0300-483X(92)90123-V
85141|T||Cosma,G.N., D. Currie, K.S. Squibb, C.A. Snyder, and S.J. Garte|Detection of Cadmium Exposure in Rats by Induction of Lymphocyte Metallothionein Gene Expression|J. Toxicol. Environ. Health34(1): 39-49|1991|10.1080/15287399109531547
85142|T||Sendelbach,L.E., W.C. Kershaw, F. Cuppage, and C.D. Klaassen|Cd-Metallothionein Nephrotoxicity in Inbred Strains of Mice|J. Toxicol. Environ. Health35(2): 115-126|1992|10.1080/15287399209531600
85143|T||Malota,L., T. Rusek, and O. Synek|Effects of Oral Administration of Cadmium to Piglets on Its Cumulation in the Tissues and on Catalytic Activities of Aspartate Aminotransferase Alanine Aminotransferase and Lactate Dehydrogenase in the Blood Serum|Acta Vet. Brno56(1-2): 79-85|1987|10.2754/avb198756010079
85144|T||Shiraishi,N., S. Rehm, and M.P. Waalkes|Effect of Chlorpromazine Pretreatment on Cadmium Toxicity in the Male Wistar (WF/NCr) Rat|J. Toxicol. Environ. Health42(2): 193-208|1994|10.1080/15287399409531873
85145|T||Ono,H., T. Funakoshi, H. Shimada, and S. Kojima|Comparative Effects of Disulfiram and Diethyldithiocarbamate Against Testicular Toxicity in Rats Caused by Acute Exposure to Cadmium|J. Toxicol. Environ. Health50(4): 389-399|1997|10.1080/009841097160429
85146|T||Conrad,C.C., C.A. Walter, A. Richardson, M.A. Hanes, and D.T. Grabowski|Cadmium Toxicity and Distribution in Metallothionein-I and -II Deficient Transgenic Mice|J. Toxicol. Environ. Health52(6): 527-543|1997|10.1080/00984109708984079
85147|T||Shaikh,Z.A., J.B. Northup, and P. Vestergaard|Dependence of Cadmium-Metallothionein Nephrotoxicity on Glutathione|J. Toxicol. Environ. Health Part A57(3): 211-222|1999|10.1080/009841099157773
85148|T||Wang,X.P., H.M. Chan, R.A. Goyer, and M.G. Cherian|Nephrotoxicity of Repeated Injections of Cadmium-Metallothionein in Rats|Toxicol. Appl. Pharmacol.119(1): 11-16|1993|10.1006/taap.1993.1038
85149|T||Chan,H.M., and M.G. Cherian|Mobilization of Hepatic Cadmium in Pregnant Rats|Toxicol. Appl. Pharmacol.120(2): 308-314|1993|10.1006/taap.1993.1116
85150|T||Konishi,N., J.M. Ward, and M.P. Waalkes|Pancreatic Hepatocytes in Fischer and Wistar Rats Induced by Repeated Injections of Cadmium Chloride|Toxicol. Appl. Pharmacol.104(1): 149-156|1990|10.1016/0041-008X(90)90290-B
85151|T||Wahba,Z.Z., L. Hernandez, H.J. Issaq, and M.P. Waalkes|Involvement of Sulfhydryl Metabolism in Tolerance to Cadmium in Testicular Cells|Toxicol. Appl. Pharmacol.104(1): 157-166|1990|10.1016/0041-008X(90)90291-2
85152|T||Whelton,B.D., E.S. Moretti, D.P. Peterson, and M.H. Bhattacharyya|Cadmium-109 Metabolism in Mice.  I.  Organ Retention in Mice Fed a Nutritionally Sufficient Diet During Successive Rounds of Gestation and Lactation|J. Toxicol. Environ. Health38(2): 115-129|1993|10.1080/15287399309531706
85153|T||Whelton,B.D., D.P. Peterson, E.S. Moretti, and M.H. Bhattacharyya|Cadmium-109 Metabolism in Mice.  III.  Organ Retention in Mice Ovariectomized After Experiencing Multiple Rounds of Gestation and Lactation|J. Toxicol. Environ. Health38(2): 147-157|1993|10.1080/15287399309531708
85154|T||Whelton,B.D., E.S. Moretti, D.P. Peterson, and M.H. Bhattacharyya|Cadmium-109 Metabolism in Mice.  II.  Organ Retention in Mice Fed a Nutritionally Deficient Diet During Successive Rounds of Gestation and Lactation|J. Toxicol. Environ. Health38(2): 131-145|1993|10.1080/15287399309531707
85155|T||Furst,A., and A.M. Fan|Carcinogenic Action of Nickel and Cadmium Powders in the Same Rat|Biol. Trace Elem. Res.36(3): 243-249|1993|10.1007/BF02783958
85156|T||Shibasaki,T., H. Nakano, I. Ohno, F. Ishimoto, and O. Sakai|Effect of Pentoxifylline on CdCl2-Induced Nephrotoxicity in the Rat|Biol. Trace Elem. Res.41(3): 245-251|1994|10.1007/BF02917426
85157|T||Loser,E.|A 2 Year Oral Carcinogenicity Study with Cadmium on Rats|Cancer Lett.9:191-198|1980|10.1016/0304-3835(80)90086-5
85159|T||Anderson,C., and K.D. Danylchuk|Effect of Chronic Low-Level Cadmium Intoxication on the Haversian Remodeling System in Dogs|Calcif. Tissue Res.26:143-148|1978|10.1007/BF02013249
85160|T||Berkelaar,E.J., and B.A. Hale|Cadmium Accumulation by Durum Wheat Roots in Ligand-Buffered Hydroponic Culture:  Uptake of Cd-Ligand Complexes or Enhanced Diffusion?|Can. J. Bot.81(7): 755-763|2003|10.1139/b03-061
85161|T||Toth,E., E.S. Vizi, and A. Lajtha|Effect of Nicotine on Levels of Extracellular Amino Acids in Regions of the Rat Brain In Vivo|Neuropharmacology32(8): 827-832|1993|10.1016/0028-3908(93)90192-6
85162|T||Jurna,I., P. Krauss, and J. Baldauf|Depression by Nicotine of Pain-Related Nociceptive Activity in the Rat Thalamus and Spinal Cord|Clin. Investig.72(1): 65-73|1993|10.1007/BF00231121
85163|T||Fung,Y.K., M.G. Mendlik, M.C. Haven, M.P. Akhter, and D.B. Kimmel|Short-Term Effects of Nicotine on Bone and Calciotropic Hormones in Adult Female Rats|Pharmacol. Toxicol.82(5): 243-249|1998|10.1111/j.1600-0773.1998.tb01432.x
85164|T||Fung,Y.K., U. Iwaniec, D.M. Cullen, M.P. Akhter, M.C. Haven, and P. Timmins|Long-Term Effects of Nicotine on Bone and Calciotropic Hormones in Adult Female Rats|Pharmacol. Toxicol.85(4): 181-187|1999|10.1111/j.1600-0773.1999.tb00089.x
85165|T||Booyse,F.M., G. Osikowicz, and A.J. Quarfoot|Effects of Chronic Oral Consumption of Nicotine on the Rabbit Aortic Endothelium|Am. J. Pathol.102(2): 229-238|1981|
85166|T||Gauda,E.B., R. Cooper, P.K. Akins, and G. Wu|Prenatal Nicotine Affects Catecholamine Gene Expression in Newborn Rat Carotid Body and Petrosal Ganglion|J. Appl. Physiol.91(5): 2157-2165|2001|10.1152/jappl.2001.91.5.2157
85167|T||Fung,Y.K.|Postnatal Behavioural Effects of Maternal Nicotine Exposure in Rats|J. Pharm. Pharmacol.40(12): 870-872|1988|10.1111/j.2042-7158.1988.tb06290.x
85168|T||Cam,G.R., and J.R. Bassett|The Effect of Acute Nicotine Administration on Plasma Levels of the Thyroid Hormones and Corticosterone in the Rat|Pharmacol. Biochem. Behav.19(3): 559-561|1983|10.1016/0091-3057(83)90135-1
85169|T||Nordberg,A., G. Wahlstrom, U. Arnelo, and C. Larsson|Effect of Long-Term Nicotine Treatment on [3H]Nicotine Binding Sites in the Rats Brain|Drug Alcohol Depend.16(1): 9-17|1985|10.1016/0376-8716(85)90077-8
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85171|T||Benwell,E.M., D.J.K. Balfour, and C.E. Birrell|Desensitization of the Nicotine-Induced Mesolimbic Dopamine Responses During Constant Infusion with Nicotine|Br. J. Pharmacol.114(2): 454-460|1995|10.1111/j.1476-5381.1995.tb13248.x
85172|T||Cepeda-Benito,A., J. Reynoso, and S.A. Erath|Dose-Response Analyses of Associative Tolerance to Nicotine Analgesia in the Rat:  Tail-Flick and Hot-Plate Tests|Exp. Clin. Psycopharmacol.8(1): 112-116|2000|10.1037/1064-1297.8.1.112
85173|T||Faris,G.AM, and F.K. Mohammad|Reduction of Some Organophosphate Insecticides Toxicity in Mice by Diphenhydramine|Dirasat Med. Biol. Sci.23(2): 95-97|1996|
85174|T||Sobey,C.G., G.J. Dusting, and O.L. Woodman|Reflex Epicardial Coronary Vasoconstriction Elicited by Nicotine in Anaesthetized Dogs|Naunyn-Schmiedeberg's Arch. Pharmacol.339(4): 464-468|1989|10.1007/BF00736062
85175|T||Takeda,K.|Inheritance of Sensitivity to the Insecticide Diazinon in Barley and the Geographical Distribution of Sensitive Varieties|Euphytica 89(3): 297-304|1996|10.1007/BF00022285
85176|A||Gelli,F., A.M. Cicero, P. Melotti, A. Roncarati, L. Pregnolato, F. Savorelli, D. Palazzi, and G. Casazza|A Proposal of Method to Evaluate the Quality of Marine Waters:  Optimisation of 7 Days Bioassays Using Dicentrarchus labrax (L.) Juveniles|Chem. Ecol.20(suppl. 1): S225 - S229|2004|
85178|T||Tavares,E., O. Carreras, A. Gomez-Tubio, C. Herce-Pagliali, and M.L. Murillo|Zinc Intestinal Absorption in Newborn Rats at 21 Day Postpartum:  Effects of Maternal Ethanol Consumption|Life Sci.62(9): 787-797|1998|10.1016/S0024-3205(97)01180-6
85179|T||Montes,S., M. Alcaraz-Zubeldia, P. Muriel, and C. Rios|Role of Manganese Accumulation in Increased Brain Glutamine of the Cirrhotic Rat|Neurochem. Res.28(6): 911-917|2003|10.1023/A:1023279527545
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85184|T||Nehru,L.B., and M.P. Bansal|Effect of Selenium Supplementation on the Glutathione Redox System in the Kidney of Mice After Chronic Cadmium Exposures|J. Appl. Toxicol.17(1): 81-84|1996|10.1002/(SICI)1099-1263(199701)17:1<81::AID-JAT398>3.0.CO;2-K
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85188|T||White,C.L., T.K. Caldwalader, W.G. Hoekstra, and A.L. Pope|Effects of Copper and Molybdenum Supplements on the Copper and Selenium Status of Pregnant Ewes and Lambs|J. Anim. Sci.67:803-809|1989|10.2527/jas1989.673803x
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85194|T||Puri,V.N.|Acute Effects of Cadmium on the Renin Angiotensin System in Rats|Biochem. Pharmacol.44(1): 187-188|1992|10.1016/0006-2952(92)90056-O
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85199|T||Nagyova,A., E. Ginter, and M. Stefek|Effect of Cadmium on Hepatic Microsomal Monooxygenase Activities in Guinea Pigs with Low and high Ascorbic Acid Intake|J. Nutr. Biochem.5(1): 10-14|1994|10.1016/0955-2863(94)90003-5
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85207|T||Mahler,R.J., and J.A. Ryan|Cadmium Sulfate Application to Sludge-Amended Soils  III. Relationship Between Treatment and Plant Available Cadmium, Zinc, and Manganese|Commun. Soil Sci. Plant Anal.19(15): 1771-1794|1988|10.1080/00103628809368051
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85210|T||Zalups,R.K.|Influence of Different Degrees of Reduced Renal Mass on the Renal and Hepatic Disposition of Administered Cadmium|J. Toxicol. Environ. Health51(3): 245-264|1997|10.1080/00984109708984025
85211|T||Maitani,T., H. Kubota, K. Sato, M. Takeda, and K. Yoshihira|Induction of Phytochelatin (Class III Metallothionein) and Incorporation of Copper in Transformed Hairy Roots of Rubia tinctorum Exposed to Cadmium|J. Plant Physiol.147(6): 743-748|1996|10.1016/S0176-1617(11)81487-2
85212|T||Liu,J., Y. Liu, S.S. Habeebu, and C.D. Klaassen|Susceptibility of MT-Null Mice to Chronic CdCl2-Induced Nephrotoxicity Indicates that Renal Injury is not Mediated by the CdMT Complex|Toxicol. Sci.46(1): 197-203|1998|
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85234|T||Bishop,C., G.C. Parker, and D.V. Coscina|Nicotine and Its Withdrawal Modify Dorsal Raphe 8-Hydroxy-2-(Di-n-Propylamino) Tetralin Feeding|Pharmacol. Biochem. Behav.74(4): 961-967|2003|10.1016/S0091-3057(03)00026-1
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85260|T||Kosowski,A.R., and S. Liljequist|Behavioural Sensitization to Nicotine Precedes the Onset of Nicotine-Conditioned Locomotor Stimulation|Behav. Brain Res.156(1): 11-17|2005|10.1016/j.bbr.2004.05.004
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85263|T||Miyata,G., M.M. Meguid, M. Varma, S.O. Fetissov, and H.J. Kim|Nicotine Alters the Usual Reciprocity Between Meal Size and Meal Number in Female Rat|Physiol. Behav.74(1-2): 169-176|2001|10.1016/S0031-9384(01)00540-6
85264|T||Porcu,P., C. Sogliano, M. Cinus, R.H. Purdy, G. Biggio, and A. Concas|Nicotine-Induced Changes in Cerebrocortical Neuroactive Steroids and Plasma Corticosterone Concentrations in the Rat|Pharmacol. Biochem. Behav.74(3): 683-690|2003|10.1016/S0091-3057(02)01065-1
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85267|T||Risinger,F.O., and R.A. Oakes|Nicotine-Induced Conditioned Place Preference and Conditioned Place Aversion in Mice|Pharmacol. Biochem. Behav.51(2-3): 457-461|1995|10.1016/0091-3057(95)00007-J
85268|T||Shacka,J.J., O.B. Fennell, and S.E. Robinson|Prenatal Nicotine Sex-Dependently Alters Agonist-Induced Locomotion and Stereotypy|Neurotoxicol. Teratol.19(6): 467-476|1997|10.1016/S0892-0362(97)00063-9
85269|T||Shacka,J.J., and S.E. Robinson|Exposure to Prenatal Nicotine Transiently Increases Neuronal Nicotinic Receptor Subunit alpha7, alpha4 and beta2 Messenger RNAs in the Postnatal Rat Brain|Neuroscience84(4): 1151-1161|1998|10.1016/S0306-4522(97)00564-2
85270|T||Thomas,J.D., M.E. Garrison, C.J. Slawecki, C.L. Ehlers, and E.P. Riley|Nicotine Exposure During the Neonatal Brain Growth Spurt Produces Hyperactivity in Preweanling Rats|Neurotoxicol. Teratol.22(5): 695-701|2000|10.1016/S0892-0362(00)00096-9
85271|T||Tizabi,Y., E.J. Popke, M.A. Rahman, S.M. Nespor, and N.E. Grunberg|Hyperactivity Induced by Prenatal Nicotine Exposure is Associated with an Increase in Cortical Nicotinic Receptors|Pharmacol. Biochem. Behav.58(1): 141-146|1997|10.1016/S0091-3057(96)00461-3
85272|T||Temocin,S., A. Erenmemisoglu, C. Suer, and H. Beydagi|Effect of Nicotine on Swimming Exercise in Rats|Jpn. J. Physiol.43(4): 567-570|1993|
85273|T||Rahman,S., J. Zhang, and W.A. Corrigall|Effects of Nicotine Preexposure on Sulpiride-Induced Dopamine Release in the Nucleus Accumbens|Eur. J. Pharmacol.494(1): 31-34|2004|10.1016/j.ejphar.2004.04.044
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85275|T||Eidi,M., M.R. Zarrindast, A. Eidi, S. Oryan, and K. Parivar|Effects of Histamine and Cholinergic Systems on Memory Retention of Passive Avoidance Learning in Rats|Eur. J. Pharmacol.465(1-2): 91-96|2003|10.1016/S0014-2999(03)01440-7
85276|T||Wang,H., W.Y. Cui, and C.G. Liu|Characteristics of Behavioral and Electroencephalogram Convulsions Induced by Nicotine and Its di(+)Tartrate|Zhongguo Yaolixue yu Dulixue Zazhi (Multiple Languages)10(3): 169-172|1996|
85277|T||Belimov,A.A., V.I. Safronova, V.E. Tsyganov, A.Y. Borisov, A.P. Kozhemyakov, V.V. Stepanok, A.M. Martenson, V. Gianinaz|Genetic Variability in Tolerance to Cadmium and Accumulation of Heavy Metals in Pea (Pisum sativum L.)|Euphytica 131(1): 25-35|2003|10.1023/A:1023048408148
85279|T||Boominathan,R., and P.M. Doran|Organic Acid Complexation, Heavy Metal Distribution and the Effect of ATPase Inhibition in Hairy Roots of Hyperaccumulator Plant Species|J. Biotechnol.101(2): 131-146|2003|10.1016/S0168-1656(02)00320-6
85280|T||Aery,N.C., and S. Sarkar|Heavy Metal Toxicity and Temperature Interactions in Fenugreek|Bionature10(1-2): 15-18|1990|
85281|T||Toury,R., E. Boissonneau, N. Stelly, Y. Dupuis, A. Berville, and R. Perasso|Mitochondria Alterations in Cd2+-Treated Rats:  General Regression of Inner Membrane Cristae and Electron Transport Impairment|Biol. Cell.55(1-2): 71-86|1985|10.1111/j.1768-322X.1985.tb00411.x
85282|T||Zhang,G., M. Fukami, and H. Sekimoto|Influence of Cadmium on Mineral Concentrations and Yield Components in Wheat Genotypes Differing in Cd Tolerance at Seedling Stage|Field Crops Res.77(2-3): 93-98|2002|10.1016/S0378-4290(02)00061-8
85283|T||Golldack,D., P. Vera, and K.J. Dietz|Expression of Subtilisin-Like Serine Proteases in Arabidopsis thaliana is Cell-Specific and Responds to Jasmonic Acid and Heavy Metals with Developmental Differences|Physiol. Plant. (Multiple Languages)118(1): 64-73|2003|10.1034/j.1399-3054.2003.00087.x
85284|T||Moslem,M.|Efficacy of Heavy Metals and Mineral Deficiency on the Growth of Aspergillus carneus and A. ellipticus|Cryptogam. Bot.3(2-3): 163-168|1993|
85285|T||Onosaka,S., D. Kawakami, K.S. Min, K. Oo-Ishi, and K. Tanaka|Induced Synthesis of Metallothionein by Ascorbic Acid in Mouse Liver|Toxicology43(3): 251-259|1987|10.1016/0300-483X(87)90084-9
85286|T||Uehara,H., Y. Aoki, N. Shimojo, and K.T. Suzuki|Depression of Serum Cholinsterase Activity by Cadmium|Toxicology36(2-3): 131-138|1985|10.1016/0300-483X(85)90047-2
85287|T||Foulkes,E.C., and D.M. McMullen|Endogenous Metallothionein as Determinant of Intestinal Cadmium Absorption:  A Reevaluation|Toxicology38(3): 285-291|1986|10.1016/0300-483X(86)90144-7
85288|T||Hellman,B.|Evidence for Stimulatory and Inhibitory Effects of Cadmium on the [3H] Thymidine Incorporation into Various Organs of the Mouse|Toxicology40(1): 13-23|1986|10.1016/0300-483X(86)90042-9
85289|T||Maitani,T., and K.T. Suzuki|Essential Metal Contents and Metallothionein-Like Protein in Testes of Mice After Cadmium Administration|Toxicology40(1): 1-12|1986|10.1016/0300-483X(86)90041-7
85290|T||Gupta,A., R.C. Murthy, S.R. Thakur, M.P. Dubey, and S.V. Chandra|Comparative Neurotoxicity of Cadmium in Growing and Adult Rats After Repeated Administration|Biochem. Int.21(1): 97-105|1990|
85291|T||Gupta,P., S.S. Chaurasia, P.K. Maiti, and A. Kar|Cadmium Induced Alterations in Extrathyroidal Conversion of Thyroxine to Triiodothyronine by Type-1 Iodothyronine 5'-Monodeiodinase in Male Mouse|Horm. Metab. Res.29(3): 151-152|1997|10.1055/s-2007-979009
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85294|T||Brzoska,M.M., K. Majewska, and J. Moniuszko-Jakoniuk|Mineral Status and Mechanical Properties of Lumbar Spine of Female Rats Chronically Exposed to Various Levels of Cadmium|Bone (New York)34(3): 517-526|2004|
85295|T||Baryla,A., P. Carrier, F. Franck, C. Coulomb, C. Sahut, and M. Havaux|Leaf Chlorosis in Oilseed Rape Plants (Brassica napus) Grown on Cadmium-Polluted Soil:  Causes and Consequences for Photosynthesis and Growth|Planta (Multiple Languages)212(5-6): 696-709|2001|10.1007/s004250000439
85296|T||Shaw,B.P., and N.P. Rout|Hg and Cd Induced Changes in Proline Content and Activities of Proline Biosynthesizing Enzymes in Phaseolus aureus and Triticum aestivum|Biol. Plant. (Praha)45(2): 267-271|2002|10.1023/A:1015109125988
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85298|T||Wu,F., H. Wu, G. Zhang, and D.M.L. Bachir|Differences in Growth and Yield in Response to Cadmium Toxicity in Cotton Genotypes|J. Plant Nutr. Soil Sci.167(1): 85-90|2004|10.1002/jpln.200320320
85299|T||Wahba,Z.Z., Z.A.F. Al-Bayati, and S.J. Stohs|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Hepatic Distribution of Iron, Copper, Zinc, and Magnesium in Rats|J. Biochem. Toxicol.3:121-129|1988|10.1002/jbt.2570030206
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85306|T||Muramoto,S.|Heavy Metal Tolerance of Rice Plants (Oryza sativa L.) to Some Metal Oxides at the Critical Levels|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(5): 559-568|1989|
85307|T||Roelfzema,W.H., H.J. Hacker, and C.J.F. Van Noorden|Effects of Cadmium Exposure on Glycogen Phosphorylase Activity in Rat Placenta as Demonstrated by Histochemical Means|Histochemistry91(4): 305-308|1989|10.1007/BF00493005
85308|T||Voutsinas,G., F.E. Zarani, and A. Kappas|The Effect of Environmental Aneuploidy-Inducing Agents on the Microtubule Architecture of Mitotic Meristematic Root Cells in Hordeum vulgare|Cell Biol. Int.21(7): 411-418|1997|10.1006/cbir.1997.0171
85309|T||Zhang,F., X. Li, C. Wang, and Z. Shen|Effect of Cadmium on Autoxidation Rate of Tissue and Inducing Accumulation of Free Proline in Seedlings of Mung Bean|J. Plant Nutr.23(3): 357-368|2000|10.1080/01904160009382022
85310|T||Boussama,N., O. Ouariti, and M.H. Ghorbal|Changes in Growth and Nitrogen Assimilation in Barley Seedlings Under Cadmium Stress|J. Plant Nutr.22(4-5): 731-752|1999|10.1080/01904169909365668
85311|T||Moreno-Caselles,J., R. Moral, A. Perez-Espinosa, and M.D. Perez-Murcia|Cadmium Accumulation and Distribution in Cucumber Plant|J. Plant Nutr.23(2): 243-250|2000|10.1080/01904160009382011
85312|T||Chen,Y., and A.J. Huerta|Effects of Sulfur Nutrition on Photosynthesis in Cadmium-Treated Barley Seedlings|J. Plant Nutr.20(7/8): 845-856|1997|10.1080/01904169709365300
85313|T||Nascimento,C.W.A., R.L.F. Fontes, and J.C.L. Neves|Mineral Composition of Two Brazilian Corn Cultivars as a Function of Cadmium in the Nutrient Solution|J. Plant Nutr.21(11): 2369-2379|1998|10.1080/01904169809365570
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85316|T||Tsadilas,C.D.|Soil pH Influence on Cadmium Uptake by Tobacco in high Cadmium Exposure|J. Plant Nutr.23(8): 1167-1178|2000|10.1080/01904160009382090
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85319|T||Nagoor,S.|A Study on Influence of Cadmium and Mercury on Growth and Protein Metabolism in Cowpea Seedlings|J. Phytol. Res.10(1-2): 31-34|1997|
85320|T||Gupta,S., J.R. Behari, S. Srivastava, M. Misra, and R.C. Srivastava|Efficacy of Liposome Encapsulated Triethylenetetraamine Hexaacetic Acid (TTHA) Against Cadmium Intoxication:  Role of Lipid Composition|Ind. Health33(2): 83-88|1994|10.2486/indhealth.33.83
85321|T||Mattioni,C., R. Gabbrielli, J. Vangronsveld, and H. Clijsters|Nickel and Cadmium Toxicity and Enzymatic Activity in Ni-Tolerant and Non-Tolerant Populations of Silene italica Pers.|J. Plant Physiol.150(1-2): 173-177|1997|10.1016/S0176-1617(97)80198-8
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85324|T||Antonio,M.T., M.J. Benito, M.L. Leret, and I. Corpas|Gestational Administration of Cadmium Alters the Neurotransmitter Levels in Newborn Rat Brains|J. Appl. Toxicol.18(2): 83-88|1998|10.1002/(SICI)1099-1263(199803/04)18:2<83::AID-JAT480>3.0.CO;2-1
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85334|T||Panda,K.K., J. Patra, and B.B. Panda|Persistence of Cadmium-Induced Adaptive Response to Genotixicity of Maleic Hydrazide and Methyl Mercuric Chloride in Root Meristem Cells of Allium cepa L.:  Differential Inhibition by Cycloheximide and Buthionine Sulfox|Mutat. Res.389(2/3): 129-139|1997|10.1016/S1383-5718(96)00131-3
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85344|T||Rashid,P., and S. Mukherji|Changes in Leaf Surface Features and Callose Content of Petiole and Stem of Mungbean Induced by Lead Nitrate|Bangladesh J. Bot.20(2): 157-161|1991|
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85358|A||Marinelli,R.L., and S.A. Woodin|Disturbance and Recruitment:  A Test of Solute and Substrate Specificity Using Mercenaria mercenaria and Capitella sp. 1|Mar. Ecol. Prog. Ser.269:209-221|2004|10.3354/meps269209
85359|A||Kuntz,N.M., D.I. Kline, S.A. Sandin, and F. Rohwer|Pathologies and Mortality Rates Caused by Organic Carbon and Nutrient Stressors in Three Caribbean Coral Species|Mar. Ecol. Prog. Ser.294:173-180|2005|10.3354/meps294173
85360|A||Stolyar,O.B., V.Z. Kurant, V.A. Khomenchuk, and V.V. Grubinko|Properties of Low-Molecular Thermostable Proteins and Content of Thiols in Hepatopancreas of Carp Under the Action of Sublethal Concentrations of Lead and Manganese Ions|Hydrobiol. J.38(5): 57-64|2002|
85361|T||Dethloff,T., B.A. Hansen, and F.S. Larsen|Tacrolimus Ameliorates Cerebral Vasodilatation and Intracranial Hypertension in the Rat with Portacaval Anastomosis and Hyperammonemia|Liver Transplant.10(7): 922-927|2004|10.1002/lt.20141
85362|A||Tyler,A.C., K.J. McGlathery, and S.A. Macko|Uptake of Urea and Amino Acids by the Macroalgae Ulva lactuca (Chlorophyta) and Gracilaria vermiculophylla (Rhodophyta)|Mar. Ecol. Prog. Ser.294:161-172|2005|10.3354/meps294161
85363|A||Kevekordes,K.|Toxicity Tests Using Developmental Stages of Hormosira banksii (Phaeophyta) Identify Ammonium as a Damaging Component of Secondary Treated Sewage Effluent Discharged into Bass Strait, Victoria, Australia|Mar. Ecol. Prog. Ser.219:139-148|2001|10.3354/meps219139
85364|A||Peng,K.W., S.F. Chew, C.B. Lim, S.S.L. Kuah, W.K. Kok, and Y.K. Ip|The Mudskippers Periophthalmodon schlosseri and Boleophthalmus boddaerti can Tolerate Environmental NH3 Concentrations of 446 and 36 uM, Respectively|Fish Physiol. Biochem.19(1): 59-69|1998|10.1023/A:1007745003948
85365|A||Sinyuk,Y.V., V.Z. Kurant, and V.V. Grubinko|Influence of Heavy Metals on Qualitative and Quantitative Composition of Blood Serum Proteins in Carp|Hydrobiol. J.39(5): 51-58|2003|10.1615/HydrobJ.v39.i5.60
85366|T||Khandelwal,S., N. Agnihotri, and S.K. Tandon|Biochemical Response to Cadmium:  Dose-Time Effect|Biol. Trace Elem. Res.29(2): 157-164|1991|10.1007/BF03032693
85367|A||Majone,F., C. Beltrame, and R. Brunetti|Frequencies of Micronuclei Detected on Mytilus galloprovincialis by Different Staining Techniques After Treatment with Zinc Chloride|Mutat. Res.209(3-4): 131-134|1988|
85369|A||Cheng,W., I.S. Hsiao, and J.C. Chen|Effect of Ammonia on the Immune Response of Taiwan Abalone Haliotis diversicolor supertexta and Its Susceptibility to Vibrio parahaemolyticus|Fish Shellfish Immunol.17(3): 193-202|2004|10.1016/j.fsi.2004.03.004
85370|A||Liu,C.H., and J.C. Chen|Effect of Ammonia on the Immune Response of White Shrimp Litopenaeus vannamei and Its Susceptibility to Vibrio alginolyticus|Fish Shellfish Immunol.16(3): 321-334|2004|10.1016/S1050-4648(03)00113-X
85371|T||Hensbergen,P.J., M.H. Donker, M.J.M. Van Velzen, D. Roelofs, R.C. Van der Schors, P.E. Hunziker, and N.M. Van Straalen|Primary Structure of a Cadmium-Induced Metallothionein from the Insect Orchesella cincta (Collembola)|Eur. J. Biochem.259(1-2): 197-203|1999|10.1046/j.1432-1327.1999.00016.x
85372|A||Sampath,K., V. Sivakumar, M. Sakthivel, and R. James|Lethal and Sublethal Effects of Ammonia on Survival and Food Utilization in Oreochromis mossambicus (Pisces, Cichlidae)|J. Aquacult. Trop.6(2): 223-230|1991|
85374|A||Abe,K., H. Takizawa, S. Kimura, and M. Hirano|Characteristics of Chlorophyll Formation of the Aerial Microalga Coelastrella striolata var. multistriata and Its Application for Environmental Biomonitoring|J. Biosci. Bioeng.98(1): 34-39|2004|10.1016/S1389-1723(04)70239-X
85375|T||Siroka,B., J. Huttova, L. Tamas, M. Simonovicova, and I. Mistrik|Effect of Cadmium on Hydrolytic Enzymes in Maize Root and Coleoptile|Biologia (Bratisl.)59(4): 513-517|2004|
85376|AT||Chatterjee,C., B.K. Dube, P. Sinha, and P. Srivastava|Detrimental Effects of Lead Phytotoxicity on Growth, Yield, and Metabolism of Rice|Commun. Soil Sci. Plant Anal.35(1-2): 255-265|2004|10.1081/CSS-120027648
85377|A||Cline,H.T., S. Witte, and K.W. Jones|Low Lead Levels Stunt Neuronal Growth in a Reversible Manner|Proc. Natl. Acad. Sci. U.S.A.93(18): 9915-9920|1996|10.1073/pnas.93.18.9915
85378|A||Annune,P.A., and F.T.A. Ahuma|Haematological Changes in Mudfish, Clarias gariepinus (Burch) Exposed to Sublethal Concentrations of Copper and Lead|J. Aquat. Sci.13:33-36|1998|
85379|A||Pandey,A.K., K.C. George, and M.P. Mohamed|Histopathological Alterations in the Gill and Kidney of an Estuarine Mullet, Liza parsia (Hamilton-Buchanan), Caused by Sublethal Exposure to Lead (Pb)|Indian J. Fish.44(2): 171-180|1997|
85380|A||Hamasaki,K., M. Horie, S. Tokimitsu, T. Toda, and S. Taguchi|Variability in Toxicity of the Dinoflagellate Alexandrium tamarense Isolated from Hiroshima Bay, Western Japan, as a Reflection of Changing Environmental Conditions|J. Plankton Res.23(3): 271-278|2001|10.1093/plankt/23.3.271
85381|A||Franchini,A., B. Rebecchi, and A.M.B. Fantin|Gill Endocrine Cells in the Goldfish Carassius carassius var. auratus and Their Impairment Following Experimental Lead Intoxication|Histochem. J.31(8): 559-564|1999|10.1023/A:1003848225503
85382|A||Van Aardt,W.J., and L.C.R. Venter|The Effects of Lead, Water Hardness and pH on Oxygen Consumption, Plasma Chlorides and Bioaccumulation in the Freshwater Fish Tilapia sparrmanii|Afr. J. Aquat. Sci.29(1): 37-46|2004|10.2989/16085910409503790
85383|T||Choudhury,S., and S.K. Panda|Induction of Oxidative Stress and Ultrastructural Changes in Moss Taxithelium nepalense (Schwaegr.) Broth. Under Lead and Arsenic Phytotoxicity|Curr. Sci. (Bangalore)87(3): 342-348|2004|
85384|A||Parashar,R.S., and T.K. Banerjee|Histopathological Analysis of Sublethal Toxicity Induced by Lead Nitrate to the Accessory Respiratory Organs of the Air-Breathing Teleost, Heteropneustes fossilis (Bloch)|Pol. Arch. Hydrobiol.46(2): 199-211|1999|
85385|T||Do,J.C., I.H. Choi, and K.H. Nahm|Effects of Chemically Amended Litter on Broiler Performances, Atmospheric Ammonia Concentration, and Phosphorus Solubility in Litter|Poult. Sci.84(5): 679-686|2005|10.1093/ps/84.5.679
85386|T||Aydin,H.H., H.A. Celik, and B. Ersoz|Role of Thiocyanate Ion in Metallothionein Induction and in Endogenous Distribution of Essential Elements in the Rat Liver|Biol. Trace Elem. Res.90(1-3): 187-202|2002|10.1385/BTER:90:1-3:187
85387|A||Peinado,N.K., R.T. Abdala Diaz, F.L. Figueroa, and E.W. Helbling|Ammonium and UV Radiation Stimulate the Accumulation of Mycosporine-Like Amino Acids in Porphyra columbina (Rhodophyta) from Patagonia, Argentina|J. Phycol.40(2): 248-259|2004|10.1046/j.1529-8817.2004.03013.x
85388|A||Takabayashi,M., F.P. Wilkerson, and D. Robertson|Response of Glutamine Synthetase Gene Transcription and Enzyme Activity to External Nitrogen Sources in the Diatom Skeletonema costatum (Bacillariophyceae)|J. Phycol.41(1): 84-94|2005|10.1111/j.1529-8817.2005.04115.x
85393|T||Li,Q., Y. Kato, Y. Sai, T. Imai, and A. Tsuji|Multidrug Resistance-Associated Protein 1 Functions as an Efflux Pump of Xenobiotics in the Skin|Pharm. Res.22(6): 842-846|2005|10.1007/s11095-005-4576-1
85395|T||Stauber,A., T. Radanovic, G. Stange, H. Murer, C.A. Wagner, and J. Biber|Regulation of Intestinal Phosphate Transport.  II.  Metabolic Acidosis Stimulates Na(+)-Dependent Phosphate Absorption and Expression of the Na(+)-P(i) Cotransporter NaPi-IIb in Small Intestine|Am. J. Physiol. Gasterointest. Liver Physiol.288(3): G501 - G506|2005|10.1152/ajpgi.00168.2004
85396|T||Kasazaki,K., K. Yasukawa, H. Sano, and H. Utsumi|Non-invasive Analysis of Reactive Oxygen Species Generated in NH4OH-Induced Gastric Lesions of Rats Using a 300 MHz In Vivo ESR Technique|Free Radic. Res.37(7): 757-766|2003|10.1080/1071576031000103069
85400|A||Kahn,A.E., and M.J. Durako|The Effect of Salinity and Ammonium on Seed Germination in Ruppia maritima from Florida Bay|Bull. Mar. Sci.77(3): 453-458|2005|
85401|A||Das,P.C., S. Ayyappan, J.K. Jena, and B.K. Das|Acute Toxicity of Ammonia and Its Sub-lethal Effects on Selected Haematological and Enzymatic Parameters of Mrigal, Cirrhinus mrigala (Hamilton)|Aquac. Res.35(2): 134-143|2004|10.1111/j.1365-2109.2004.00994.x
85402|A||Neil,L.L., R. Fotedar, and C.C. Shelley|Effects of Acute and Chronic Toxicity of Unionized Ammonia on Mud Crab, Scylla serrata (Forsskal, 1755) Larvae|Aquac. Res.36(9): 927-932|2005|10.1111/j.1365-2109.2005.01304.x
85403|T||Comert,M., E.Y. Sipahi, H. Ustun, F. Isikdemir, G. Numanoglu, F. Barut, H. Altunkaya, Y. Ozer, F.N. Ayoglu, T.H. Sipahi|Morphine Modulates Inducible Nitric Oxide Synthase Expression and Reduces Pulmonary Oedema Induced by alpha-Naphthylthiourea|Eur. J. Pharmacol.511(2-3): 183-189|2005|10.1016/j.ejphar.2005.01.038
85404|A||Samuelsen,O.B.|Absorption, Tissue Distribution, Metabolism and Excretion of Ormetoprim and Sulphadimethoxine in Cod (Gadus morhua) After Oral Administration of Romet|J. Appl. Ichthyol.22:68-71|2006|10.1111/j.1439-0426.2006.00703.x
85405|A||Harris,R.R., S. Coley, S. Collins, and R. McCabe|Ammonia Uptake and Its Effects on Ionoregulation in the Freshwater Crayfish Pacifastacus leniusculus (Dana)|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.171(8): 681-693|2001|10.1007/s003600100219
85406|AT||Hassan,M.J., G. Zhang, F. Wu, K. Wei, and Z. Chen|Zinc Alleviates Growth Inhibition and Oxidative Stress Caused by Cadmium in Rice|J. Plant Nutr. Soil Sci.168(2): 255-261|2005|10.1002/jpln.200420403
85407|A||Iwata,K., T. Sakamoto, I. Iwata, E. Nishiguchi, and M. Kajimura|high Ambient Ammonia Promotes Growth in a Ureogenic Goby, Mugilogobius abei|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.175(6): 395-404|2005|10.1007/s00360-005-0001-7
85408|A||Cheng,S.Y., W.C. Lee, and J.C. Chen|An Increase of Uricogenesis in the Kuruma Shrimp Marsupenaeus japonicus Under Nitrite Stress|J. Exp. Zool. Part A. Ecol. Genet. Physiol.303(4): 308-318|2005|
85409|A||Ip,Y.K., B.K. Peh, W.L. Tam, W.P. Wong, and S.F. Chew|Effects of Intra-Peritoneal Injection with NH4Cl, Urea, or NH4Cl+urea on Nitrogen Excretion and Metabolism in the African Lungfish Protopterus dolloi|J. Exp. Zool. Part A. Ecol. Genet. Physiol.303(4): 272-282|2005|
85410|A||Lim,C.K., S.F. Chew, A.S.L. Tay, and Y.K. Ip|Effects of Peritoneal Injection of NH4HCO3 on Nitrogen Excretion and Metabolism in the Swamp Eel Monopterus albus-Increased Ammonia Excretion with an Induction of Glutamine Synthetase Activity|J. Exp. Zool. Part A. Ecol. Genet. Physiol.301(4): 324-333|2004|
85414|A||Passino,D.R.M., and C.A. Cotant|Allantoinase in Lake Trout (Salvelinus namaycush): In Vitro Effects of PCBs, DDT and Metals|Comp. Biochem. Physiol. C Comp. Pharmacol.62:71-75|1979|10.1016/0306-4492(79)90102-3
85424|T||Chen,S., K.A. Golemboski, F.S. Sanders, and R.R. Dietert|Persistent Effect of In Utero Meso-2,3-Dimercaptosuccinic Acid (DMSA) on Immune Function and Lead-Induced Immunotoxicity|Toxicology132(1): 67-79|1999|10.1016/S0300-483X(98)00139-5
85425|T||Cheong,J.H., D.O. Seo, J.R. Ryu, C.Y. Shin, Y.T. Kim, H.C. Kim, W.K. Kim, and K.H. Ko|Lead Induced Thiamine Deficiency in the Brain Decreased the Threshold of Electroshock Seizure in Rat|Toxicology133(2-3): 105-113|1999|10.1016/S0300-483X(99)00016-5
85426|T||Corpas,I., M. Castillo, D. Marquina, and M.J. Benito|Lead Intoxication in Gestational and Lactation Periods Alters the Development of Male Reproductive Organs|Ecotoxicol. Environ. Saf.53(2): 259-266|2002|10.1006/eesa.2002.2230
85427|T||Correa,M., A.F. Roig-Navarro, and C.M.G. Aragon|Motor Behavior and Brain Enzymatic Changes After Acute Lead Intoxication on Different Strains of Mice|Life Sci.74(16): 2009-2021|2004|10.1016/j.lfs.2003.08.042
85428|T||Cory-Slechta,D.A., B.J. Brockel, and D.J. O'Mara|Lead Exposure and Dorsomedial Striatum Mediation of Fixed Interval Schedule-Controlled Behavior|Neurotoxicology23(3): 313-327|2002|10.1016/S0161-813X(02)00059-1
85429|T||Cremin,J.D.,Jr., and D.R. Smith|In Vitro vs In Vivo Pb Effects on Brain Protein Kinase C Activity|Environ. Res.90(3): 191-199|2002|10.1016/S0013-9351(02)00007-5
85430|A||Dafre,A.L., I.D. Medeiros, I.C. Muller, E.C. Ventura, and A.C.D. Bainy|Antioxidant Enzymes and Thiol/Disulfide Status in the Digestive Gland of the Brown Mussel Perna perna Exposed to Lead and Paraquat|Chem.-Biol. Interact.149(2-3): 97-105|2004|10.1016/j.cbi.2004.07.002
85431|T||Delville,Y.|Exposure to Lead During Development Alters Aggressive Behavior in Golden Hamsters|Neurotoxicol. Teratol.21(4): 445-449|1999|10.1016/S0892-0362(98)00062-2
85432|T||Deng,W., and R.D. Poretz|Lead Exposure Affects Levels of Galactolipid Metabolic Enzymes in the Developing Rat Brain|Toxicol. Appl. Pharmacol.172(2): 98-107|2001|10.1006/taap.2001.9142
85434|T||Bunn,T.L., P.J. Parsons, E. Kao, and R.R. Dietert|Exposure to Lead During Critical Windows of Embryonic Development:  Differential Immunotoxic Outcome Based on Stage of Exposure and Gender|Toxicol. Sci.64(1): 57-66|2001|10.1093/toxsci/64.1.57
85435|T||Brockel,B.J., and D.A. Cory-Slechta|Lead-Induced Decrements in Waiting Behavior:  Involvement of D2-Like Dopamine Receptors|Pharmacol. Biochem. Behav.63(3): 423-434|1999|10.1016/S0091-3057(99)00033-7
85436|A||Besser,J.M., W.G. Brumbaugh, E.L. Brunson, and C.G. Ingersoll|Acute and Chronic Toxicity of Lead in Water and Diet to the Amphipod Hyalella azteca|Environ. Toxicol. Chem.24(7): 1807-1815|2005|10.1897/04-480R.1
85437|T||Areola,O.O., and A.L. Jadhav|Low-Level Lead Exposure Modulates Effects of Quinpirole and Eticlopride on Response Rates in a Fixed-Interval Schedule|Pharmacol. Biochem. Behav.69(1-2): 151-156|2001|10.1016/S0091-3057(01)00526-3
85438|T||Ali,M.M., E. Frei, J. Straub, A. Breuer, and M. Wiessler|Induction of Metallothionein by Zinc Protects from Daunorubicin Toxicity in Rats|Toxicology179(1-2): 85-93|2002|10.1016/S0300-483X(02)00322-0
85439|T||Adler,M., R.E. Dinterman, and R.W. Wannemacher|Protection by the Heavy Metal Chelator N,N,N',N'-Tetrakis (2-Pyridylmethyl)Ethylenediamine (TPEN) Against the Lethal Action of Botulinum Neurotoxin A and B|Toxicon35(7): 1089-1100|1997|10.1016/S0041-0101(96)00215-2
85440|T||Gonick,H.C., Y. Ding, and N.D. Vaziri|Effect of Low Lead Exposure on Eicosanoid Excretion in Rats|Prostaglandins Other Lipid Mediat.55(2-3): 77-82|1998|10.1016/S0090-6980(98)00010-0
85441|T||Doyle,J.J., and R.L. Younger|Influence of Ingested Lead on the Distribution of Lead, Iron, Zinc, Copper and Manganese in Bovine Tissues|Vet. Hum. Toxicol.26(3): 201-204|1984|
85443|T||Kempinas,W.G., O.C.M. Pereira, V.R. Melo, and T.L.L. Carvalho|Pharmacological Reactivity of Rat Vas Deferens in Chronic and Subacute Lead Intoxication|Vet. Hum. Toxicol.33(5): 461-463|1991|
85444|T||Senapati,S.K., S. Dey, S.K. Dwivedi, R.C. Patra, and D. Swarup|Effect of Thiamine Hydrochloride on Lead Induced Lipid Peroxidation in Rat Liver and Kidney|Vet. Hum. Toxicol.42(4): 236-237|2000|
85445|T||Gupta,P., M.M. Husain, R. Shankar, P.K. Seth, and R.K. Maheshwari|Lead Exposure Enhances Virus Multiplication and Pathogenesis in Mice|Vet. Hum. Toxicol.44(4): 205-210|2002|
85446|T||Van Rooyen,J.M., J. Offermeier, L. Brand, F. Botha, J. Roussouw, A.J. Lategan, and M.S. Botes|Motor Activity Changes Induced by Sub-encephalopathic Lead Exposure During Different Developmental Phases in Rats|S. Afr. J. Sci.84(5): 404-406|1988|
85447|T||Gurer,H., H. Ozgunes, E. Saygin, and N. Ercal|Antioxidant Effect of Taurine Against Lead-Induced Oxidative Stress|Arch. Environ. Contam. Toxicol.41(4): 397-402|2001|10.1007/s002440010265
85448|T||Gordon,C.J., and P.J. Rowsey|Are Circulating Cytokines Interleukin-6 and Tumor Necrosis Factor alpha Involved in Chlorpyrifos-Induced Fever?|Toxicology134(1): 9-17|1999|10.1016/S0300-483X(99)00010-4
85449|T||Danzer,M., M. Jocic, C. Samberger, E. Painsipp, E. Bock, M.A. Pabst, K. Crailsheim, R. Schicho, I.T. Lippe, and P. Holz|Stomach-Brain Communication by Vagal Afferents in Response to Luminal Acid Backdiffusion, Gastrin, and Gastric Acid Secretion|Am. J. Physiol. Gasterointest. Liver Physiol.286(3): G403 - G411|2004|10.1152/ajpgi.00308.2003
85450|T||Meynial-Denis,D., L. Verdier, M. Mignon, J.N. Leclerc, G. Bayle, and D. Darmaun|Does Acute Glutamine Depletion Enhance the Response of Glutamine Synthesis to Fasting in Muscle in Adult and Old Rats?|Clin. Nutr.24(3): 398-406|2005|10.1016/j.clnu.2004.12.004
85451|T||Shukakidze,A.A., I.L. Lazriev, R.G. Khetsuriani, and T.Z. Bikashvili|Changes in Neuroglial Ultrastructure in Various Parts of the Rat Brain During Manganese Chloride Poisoning|Neurosci. Behav. Physiol.32(6): 561-566|2002|10.1023/A:1020441223886
85454|T||Zarrindast,M.R., A. Zarghi, and A. Amiri|Nicotine-Induced Hypothermia Through an Indirect Dopaminergic Mechanism|J. Psychopharmacol.9(1): 20-24|1995|10.1177/026988119500900104
85459|A||Cheney,M.A., R. Fiorillo, and R.S. Criddle|Herbicide and Estrogen Effects on the Metabolic Activity of Elliptio complanata Measured by Calorespirometry|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.118C(2): 159-164|1997|
85460|A||Whitmore,D.H.,Jr., and D.H.,Jr. Hodges|In Vitro Pesticide Inhibition of Muscle Esterases of the Mosquitofish, Gambusia affinis|Comp. Biochem. Physiol. C Comp. Pharmacol.59:145-149|1978|10.1016/0306-4492(78)90045-X
85464|A||Hall,L.W.,Jr., and R.D. Anderson|Acute Toxicity of Diazinon to the Amphipod, Gammarus pseudolimnaeus:  Implications for Water Quality Criteria Development|Bull. Environ. Contam. Toxicol.74(1): 94-99|2005|10.1007/s00128-004-0553-3
85469|A||Ebringer,L., J. Dobias, J. Krajcovic, J. Polonyi, L. Krizkova, and N. Lahitova|Antimutagens Reduce Ofloxacin-Induced Bleaching in Euglena gracilis|Mutat. Res.359(2): 85-93|1996|10.1016/S0165-1161(96)90255-1
85470|AT||Hsu,H.H.|The Uptake and Distribution of Radioselenium in the Larvae of Fasciola hepatica and Its Snail Host Lymnaea columella|Vet. Parasitol.21(4): 233-245|1986|10.1016/0304-4017(86)90049-X
85471|T||Kamenova-Jouhimenko,S.M., Y.K. Markovska, and V.T. Georgieva|Effects of Biomin and Algae Suspensions on the Activities of Carboxylating and Decarboxylating Enzymes in Cadmium-Treated Pea Plants|Biol. Plant. (Praha)40(3): 405-410|1997|10.1023/A:1001122115590
85472|T||Bracken,W.M., and C.D. Klaassen|Induction of Metallothionein in Rat Primary Hepatocyte Cultures:  Evidence for Direct and Indirect Induction|J. Toxicol. Environ. Health22(2): 163-174|1987|10.1080/15287398709531060
85473|T||Takeda,A., Y. Kodama, and S. Okada|Metallothionein Induction in Rat Brain After Intrastriatal Injection of Zinc and Cadmium Salts|J. Health Sci.45(1): 20-23|1999|10.1248/jhs.45.20
85474|T||Uthamasamy,S., S. Raguraman, and R. Srinivasan|Biosafety of Acetamiprid 20SP and Spinosad 48SC to the Green Lacewing, Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae)|In: Proceedings of the Symposium of Biological Control of Lepidopteran Pests, Bangalore, India:43-46|2003|
85475|T||Hamada,T., A. Tanimoto, N. Arima, Y. Ide, T. Sasaguri, S. Shimajiri, Y. Murata, K.Y. Wang, and Y. Sasaguri|Pathological Study of Splenomegaly Associated with Cadmium-Induced Anemia in Rats|J. UOEH20(1): 11-19|1998|
85476|T||Ikemoto,I., T. Machida, A. Tanaka, S. Kotera, H. Mikuriya, and T. Shirai|Appearance of LDH-X Activity in Rat Serum After Acute and Subacute Testicular Damages|Jpn. J. Fertil. Steril.35(2): 247-252|1990|
85477|T||Tomita,K.|Sex Difference of the Time of Biological Half-Life of Cadmium Injected Subcutaneously to Mice|Jpn. J. Ind. Health13:46-47|1971|
85478|T||Srivastava,R.C., I. Ahmad, G. Kaur, and S.K. Hasan|Alterations in the Metabolism of Endogenous Trace Metals due to Cadmium Manganese and Nickel-Effect of Partial Hepatectomy|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control23(2): 95-102|1988|
85479|T||Lozano-Rodriguez,E., L.E. Hernandez, P. Bonay, and R.O. Carpena-Ruiz|Distribution of Cadmium in Shoot and Root Tissues of Maize and Pea Plants: Physiological Disturbances|J. Exp. Bot.48(306): 123-128|1997|10.1093/jxb/48.1.123
85480|T||Arizono,K., E. Okanari, K. Ueno, and T. Ariyoshi|Heme Oxygenase Activity and Cytochrome P-450 Content Associated with Induced Metallothionein in the Liver of Rats Treated with Various Metals|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control26(6): 941-951|1991|
85481|AT||Liu,J., K. Li, J. Xu, Z. Zhang, T. Ma, X. Lu, J. Yang, and Q. Zhu|Lead Toxicity, Uptake, and Translocation in Different Rice Cultivars|Plant Sci.165(4): 793-802|2003|10.1016/S0168-9452(03)00273-5
85482|T||Popelka,J.C., S. Schubert, R. Schulz, and A.P. Hansen|Cadmium Uptake and Translocation During Reproductive Development of Peanut (Arachis hypogaea L.)|Angew. Bot. (Multiple Languages)70(3-4): 140-143|1996|
85483|T||Dahiya,S.S., S. Goel, R.S. Antil, and A. Singh|Effect of Cd and N on Dry Matter Yield and Uptake of Nutrients in Corn|Ann. Biol.7(2): 205-208|1991|
85484|T||Narwal,R.P., M. Singh, and A.P. Gupta|Influence of Cadmium Enriched Sewage Water on Growth and Nutrient Concentration of Corn|Ann. Biol.11(1-2): 158-163|1995|
85485|T||Axelsson,B., and M. Piscator|Serum Proteins in Cadmium Poisoned Rabbits with Special Reference to Hemolytic Anemia|Arch. Environ. Health12:374-381|1966|10.1080/00039896.1966.10664383
85486|T||Davila,J.C., G.T. Edds, O. Osuna, and C.F. Simpson|Modification of the Effects of Aflatoxin B1 and Warfarin in Young Pigs Given Selenium|Am. J. Vet. Res.44(10): 1877-1883|1993|
85487|T||Brako,E.E., A.K. Wilson, M.M. Jonah, C.A. Blum, E.A. Cerny, K.L. Williams, and M.H. Bhattacharyya|Cadmium Pathways During Gestation and Lactation in Control Versus Metallothoinein 1,2-Knockout Mice|Toxicol. Sci.71(2): 154-163|2003|10.1093/toxsci/71.2.154
85488|T||Habeebu,S.S., J. Liu, Y. Liu, and C.D. Klaasen|Metallothionein-Null Mice are more Sensitive than Wild-Type Mice to Liver Injury Induced by Repeated Exposure to Cadmium|Toxicol. Sci.55(1): 223-232|2000|10.1093/toxsci/55.1.223
85489|A||Sindhe,V.R., and R.S. Kulkarni|Fecundity of the Freshwater Fish, Notopterus notopterus (Pallas) in Natural and Heavy Metal Contaminated Water|J. Environ. Biol.26(2): 287-290|2005|
85490|T||Yamano,T., M. Shimizu, and T. Noda|Comparative Effects of Repeated Administration of Cadmium on Kidney, Spleen, Thymus, and Bone Marrow in 2-, 4-, and 8-Month-Old Male Wistar Rats|Toxicol. Sci.46(2): 393-402|1998|10.1093/toxsci/46.2.393
85491|T||Kudo,N., Y. Nakagawa, and K. Waku|The Effect of Cadmium on the Composition and Metabolism of Hepatic Fatty Acids in Zinc-Adequate and Zinc-Deficient Rats|Toxicol. Lett.50(2-3): 203-212|1990|10.1016/0378-4274(90)90012-B
85492|T||Bell,R.R., J.L. Early, V.K. Nonavinakere, and Z. Mallory|Effect of Cadmium on Blood Glucose Level in the Rat|Toxicol. Lett.54(2/3): 199-205|1990|10.1016/0378-4274(90)90184-N
85493|T||Kojima,S., K. Kaminaka, M. Kiyozumi, and T. Honda|Effects of Chelating Agents on Biliary and Urinary Excretion and Tissue Distribution of Cadmium in Rats|Toxicol. Lett.34(1): 41-46|1986|10.1016/0378-4274(86)90143-8
85494|T||Waern,F.|Unpublished Data|Unpubl.Data, Electronic Data Set Available from WHOTEF:|1993|
85495|T||Safe,S.|Unpublished Data|Unpubl.Data, Electronic Data Set Available from WHOTEF:|1993|
85496|AT||Khera,K.S., and D.A. Lyon|Chick and Duck Embryos in the Evaluation of Pesticide Toxicity|Toxicol. Appl. Pharmacol.13(1): 1-15|1968|10.1016/0041-008X(68)90127-0
85497|T||Williams,M.W., H.N. Fuyat, and O.G. Fitzhugh|The Subacute Toxicity of Four Organic Phosphates to Dogs|Toxicology1(1): 1-7|1959|
85499|T||Kramer,H.K., H. Sershen, A. Lajtha, and M.E.A. Reith|The Effect of Nicotine on Catecholaminergic Storage Vesicles|Brain Res.503(2): 296-298|1989|10.1016/0006-8993(89)91677-6
85500|T||Vuchetich,P.J., D. Bagchi, M. Bagchi, E.A. Hassoun, L. Tang, and S.J. Stohs|Naphthalene-Induced Oxidative Stress in Rats and the Protective Effects of Vitamin E Succinate|Free Radic. Biol. Med.21(5): 577-590|1996|10.1016/0891-5849(96)00161-X
85501|T||Pennypacker,K.R., J.S. Hong, J. Douglass, and M.K. McMillian|Constitutive Expression of AP-1 Transcription Factors in the Rat Adrenal:  Effects of Nicotine|J. Biol. Chem.267(28): 20148-20152|1992|10.1016/S0021-9258(19)88678-7
85502|T||Abu-Qare,A.W., and M.B. Abou-Donia|Inhibition and Recovery of Maternal and Fetal Cholinesterase Enzyme Activity Following a Single Cutaneous Dose of Methyl Parathion and Diazinon, Alone and in Combination, in Pregnant Rats|J. Appl. Toxicol.21(4): 307-316|2001|10.1002/jat.761
85503|T||Khera,K.S., and S. Bedok|Effects of Thiol Phosphates on Notochordal and Vertebral Morphogenesis in Chick and Duck Embryos|Food Cosmet. Toxicol.5(3): 359-365|1967|10.1016/S0015-6264(67)83063-3
85505|T||Crystal,G.J., M.T.B. Bedran de Castro, and H.F. Downey|Regional Hemodynamic Responses to Nicotine in Conscious and Anesthetized Dogs:  Comparative Effects of Pentobarbital and Chloralose (42940)|Proc. Soc. Exp. Biol. Med.191(4): 396-402|1989|10.3181/00379727-191-42940
85506|T||Kendall,R.J., L.W. Brewer, and R.R. Hitchcock|Response of Canada Geese to a Turf Application of Diazinon AG500|J. Wildl. Dis.29(3): 458-464|1993|10.7589/0090-3558-29.3.458
85507|T||Prijono,W.B., and F.A. Leighton|Parallel Measurement of Brain Acetylcholinesterase and the Muscarinic Cholinergic Receptor in the Diagnosis of Acute, Lethal Poisoning by Anti-Cholinesterase Pesticides|J. Wildl. Dis.27(1): 110-115|1991|10.7589/0090-3558-27.1.110
85508|A||Shin,S.W., N.I. Chung, J.S. Kim, T.S. Chon, O.S. Kwon, S.K. Lee, and S.C. Koh|Effect of Diazinon on Behavior of Japanese Medaka (Oryzias latipes) and Gene Expression of Tyrosine Hydroxylase as a Biomarker|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 783-795|2001|
85509|T||Navarro,H.A., P.V. Basta, F.J. Seidler, and T.A. Slotkin|Short-Term Adolescent Nicotine Exposure in Rats Elicits Immediate and Delayed Deficits in T-Lymphocyte Function:  Critical Periods, Patterns of Exposure, Dose Thresholds|Nicotine Tobacco Res.5(6): 859-868|2003|10.1080/14622200310001614610
85510|T||Smith,L.M., C.C. Cloak, R.E. Poland, J. Torday, and M.G. Ross|Prenatal Nicotine Increases Testosterone Levels in the Fetus and Female Offspring|Nicotine Tobacco Res.5(3): 369-374|2003|10.1080/146222031000094196
85511|T||Wilhelms,K.W., S.A. Cutler, J.A. Proudman, R.V. Carsia, L.L. Anderson, and C.G. Scanes|Lack of Effects of Atrazine on Estrogen-Responsive Organs and Circulating Hormone Concentrations in Sexually Immature Female Japanese Quail (Coturnix coturnix japonica)|Chemosphere65:674-681|2006|10.1016/j.chemosphere.2006.01.045
85512|T||Iscan,M., and T. Coban|Combined Effect of Cadmium and Nickel on Rat Hepatic Monooxygenases:  Possible Stimulation of Certain Cytochrome P-450 Isozymes|Toxicol. Lett.62(2-3): 191-199|1992|10.1016/0378-4274(92)90021-B
85513|T||Srivastava,S., R.D. Tripathi, and U.N. Dwivedi|Synthesis of Phytochelatins and Modulation of Antioxidants in Response to Cadmium Stress in Cuscuta reflexa - An Angiospermic Parasite|J. Plant Physiol.161(6): 665-674|2004|10.1078/0176-1617-01274
85514|A||De Filippis,L.F., and H. Ziegler|Effect of Sublethal Concentrations of Zinc, Cadmium and Mercury on the Photosynthetic Carbon Reduction Cycle of Euglena|J. Plant Physiol.142(2): 167-172|1993|10.1016/S0176-1617(11)80958-2
85515|T||Saradhi,A., and P.P. Saradhi|Proline Accumulation Under Heavy Metal Stress|J. Plant Physiol.138(5): 554-558|1991|10.1016/S0176-1617(11)80240-3
85516|T||Choudhary,A., and R.P. Singh|Cadmium-Induced Changes in Diamine Oxidase Activity and Polyamine Levels in Vigna radiata Wilczek Seedlings|J. Plant Physiol.156(5-6): 704-710|2000|10.1016/S0176-1617(00)80235-7
85517|T||Vojtechova,M., and S. Leblova|Uptake of Lead and Cadmium by Maize Seedlings and the Effect of Heavy Metals on the Activity of Phosphoenolpyruvate Carboxylase Isolated from Maize|Biol. Plant. (Praha)33(5): 386-394|1991|10.1007/BF02897690
85518|T||Jamba,L., B. Nehru, and M.P. Bansal|Effect of Selenium Supplementation on the Influence of Cadmium on Glutathione and Glutathione Peroxidase System in Mouse Liver|J. Trace Elem. Exp. Med.13(3): 299-304|2000|10.1002/1520-670X(2000)13:3<299::AID-JTRA7>3.0.CO;2-P
85519|T||Nordberg,G.F., M. Piscator, and B. Lind|Distribution of Cadmium Among Protein Fractions of Mouse Liver|Acta Pharmacol. Toxicol.29:456-470|1971|10.1111/j.1600-0773.1971.tb00620.x
85520|T||Cheng,W.H., Y.S. Ho, B.A. Valentine, D.A. Ross, G.F.,Jr. Combs, and X.G. Lei|Cellular Glutathione Peroxidase is the Mediator of Body Selenium to Protect Against Paraquat Lethality in Transgenic Mice|J. Nutr.128(7): 1070-1076|1998|10.1093/jn/128.7.1070
85521|T||Bhattacharjee,S.|Membrane Lipid Peroxidation, Free Radical Scavangers and Ethylene Evolution in Amaranthus as Affected by Lead and Cadmium|Biol. Plant. (Praha)40(1): 131-135|1997|10.1023/A:1000908904819
85522|T||Smykalova,I., and B. Zamecnikova|The Relationship Between Salinity and Cadmium Stress in Barley|Biol. Plant. (Praha)46(2): 269-273|2003|10.1023/A:1022815013951
85523|T||White,C.L., T.K. Cadwalader, W.G. Hoekstra, and A.L. Pope|The Metabolism of 75Se-Selenomethionine in Sheep Given Supplementary Copper and Molybdenum|J. Anim. Sci.67:2400-2408|1989|10.2527/jas1989.6792400x
85524|T||Yuan,X., and C. Tang|The Accumulation Effect of Lead on DNA Damage in Mice Blood Cells of Three Generations and the Protection of Selenium|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control36(4): 501-508|2001|
85526|T||Chakravarty,B., and S. Srivastava|Effect of Cadmium and Zinc Interaction on Metal Uptake and Regeneration of Tolerant Plants in Linseed|Agric. Ecosyst. Environ.61(1): 45-50|1997|10.1016/S0167-8809(96)01078-X
85527|T||Jasim,S., and H. Tjalve|Effect of Zinc Pyridinethione on the Tissue Disposition of Nickel and Cadmium in Mice|Acta Pharmacol. Toxicol.59(3): 204-208|1986|10.1111/j.1600-0773.1986.tb00155.x
85528|T||Varga,B., K. Paksy, and M. Naray|Distribution of Cadmium in Ovaries, Adrenals and Pituitary Gland After Chronic Administration in Rats|Acta Physiol. Hung.78(3): 221-226|1991|
85530|T||Chugh,L.K., and S.K. Sawhney|Effect of Cadmium on Activities of Some Enzymes of Glycolysis and Pentose Phosphate Pathway in Pea|Biol. Plant. (Praha)42(2): 401-407|1999|10.1023/A:1002417319599
85531|T||Al-Bader,A.A., M.H. Mosawi, T.A. Hussain, and H.M. Dashti|Effect of Dietary Selenium, Zinc and Allopurinol Supplements on Plasma and Tissue Manganese Levels in Rats with Thiocetamide-Induced Liver Cirrhosis|Mol. Cell. Biochem.173(1/2): 121-125|1997|10.1023/A:1006835912530
85532|T||Brzoska,M.M., J. Moniuszko-Jakoniuk, M. Jurczuk, M. Galazyn-Sidorczuk, and J. Rogalska|Effect of Short-Term Ethanol Administration on Cadmium Retention and Bioelement Metabolism in Rats Continuously Exposed to Cadmium|Alcohol Alcohol.35(5): 439-445|2000|10.1093/alcalc/35.5.439
85533|T||Hamada,T., A. Tanimoto, N. Arima, Y. Ide, T. Sasaguri, S. Shimajiri, and Y. Sasaguri|Altered Membrane Skeleton of Red Blood Cells Participates in Cadmium-Induced Anemia|Biochem. Mol. Biol. Int.45(4): 841-847|1998|
85534|T||Bell,R.R., M.R.I. Soliman, and J.L. Early II|Acute Effects of Cadmium and Selenium on Glucose Output from Rat Liver Hepatocytes Using Various Gluconeogenic Precursors|Toxicology65(1/2): 161-168|1990|10.1016/0300-483X(90)90086-V
85535|T||Jin,T., and G.F. Nordberg|Cadmium Toxicity in Kidney Cells.  Resistance Induced by Short Term Pretreatment In Vitro and In Vivo|Acta Pharmacol. Toxicol.58(2): 137-143|1986|10.1111/j.1600-0773.1986.tb00083.x
85536|T||Bryant,S.L., and R.W. Rose|Effect of Cadmium on the Reproductive Organs of the Male Potoroo Potorous tridactylus Macropodidae|Aust. J. Biol. Sci.38(3): 305-311|1985|10.1071/BI9850305
85537|T||Cappon,C.J., and J.C. Smith|Chemical Form and Distribution of Mercury and Selenium in Eggs from Chickens Fed Mercury-Contaminated Grain|Bull. Environ. Contam. Toxicol.26(4): 472-478|1981|10.1007/BF01622122
85538|T||Piasecka,M., B. Barcew-Wiszniewska, M. Marchlewicz, and L. Wenda-Rozewicka|Ultrastructure of Spermatozoa from the Cauda Epididymis in Rat Chronically Treated with Lead Acetate (Pb(II))|Pol. J. Pathol.47(2): 65-71|1996|
85539|T||Bay,B.H., and S.W. Tay|Subacute Administration of Zinc Induces Lipid Droplet Accumulation in the Mouse Liver|Med. Sci. Res.25(10): 671-672|1997|
85540|A||Chen,H., and S.S. Pan|Bioremediation Potential of Spirulina:  Toxicity and Biosorption Studies of Lead|J. Zhejiang Univ., Sci. B6(3): 171-174|2005|10.1631/jzus.2005.B0171
85541|T||Smith,B.L., and P.P. Embling|The Influence of Chemical Form of Zinc on the Effects of Toxic Intraruminal Doses of Zinc to Sheep|J. Appl. Toxicol.4(2): 92-96|1984|10.1002/jat.2550040207
85542|T||Hu,S.P., and C. Kies|Lead/Dietary Protein Interactions in Rats|Nutr. Rep. Int.39(1): 81-90|1989|
85543|T||Saraswat,R.C., and S.P. Arora|Effect of Dietary Zinc on the Vitamin A Level and Alkaline Phosphatase Activity in Blood Sera of Lambs|J. Anim. Sci.42(5): 358-362|1972|
85544|T||Pick,C.G., M. Statter, D.B. Shachar, M.B.H. Youdim, and J. Yanai|Normal Zinc and Iron Concentrations in Mice After Early Exposure to Phenobarbital|Int. J. Dev. Neurosci.5(5-6): 391-398|1987|10.1016/0736-5748(87)90016-5
85545|T||Ferri,A., R. Duffard, N. Sturtz, and A.M. Evangelista de Duffard|Iron, Zinc and Copper Levels in Brain, Serum and Liver of Neonates Exposed to 2,4-Dichlorophenoxyacetic Acid|Neurotoxicol. Teratol.25(5): 607-613|2003|10.1016/S0892-0362(03)00075-8
85546|T||Smith,B.L., A.J. Collier, R.J. Lawrence, and N.R. Towers|Hypocalcaemia Associated with High Dose Rates of Zinc Oxide to Lactating Dairy Cows|N. Z. Vet. J.32(4): 48-51|1984|10.1080/00480169.1984.11728697
85547|T||Rosen,J.B., R.F. Berman, F.C. Beuthin, and R.T. Louis-Ferdinand|Age of Testing as a Factor in the Behavioral Effects of Early Lead Exposure in Rats|Pharmacol. Biochem. Behav.23(1): 49-54|1985|10.1016/0091-3057(85)90129-7
85548|T||Zawia,N.H., L.B. Evers, P.R.S. Kodavanti, and G.J. Harry|Modulation of Developmental Cerebellar Ornithine Decarboxylase Activity by Lead-Acetate|Neurotoxicology15(4): 903-912|1994|
85549|T||Guilarte,T.R., R.C. Miceli, and D.A. Jett|Neurochemical Aspects of Hippocampal and Cortical Pb2+ Neurotoxicity|Neurotoxicology15(3): 459-466|1994|
85550|T||Cory-Slechta,D.A., M.J. Pokora, and D.V. Widzowski|Behavioral Manifestations of Prolonged Lead Exposure Initiated at Different Stages of the Life Cycle:  II.  Delayed Spatial Alternation|Neurotoxicology12(4): 761-776|1991|
85551|T||Cory-Slechta,D.A., and M.J. Pokora|Behavioral Manifestations of Prolonged Lead Exposure Initiated at Different Stages of the Life Cycle:  I.  Schedule-Controlled Responding|Neurotoxicology12(4): 745-760|1991|
85552|T||Scarabelli,L., P. Giannoni, C. Malfatto, C. Bolognesi, and C.F. Cesarone|Relationship Between Poly(ADP-Ribose) Polymerase Activity and DNA Damage Induced by Zinc Dithiocarbamates in Mouse and Rat Liver|Mutat. Res.302(1): 1-6|1993|
85553|T||Phillips,C.J.C., P.C. Chiy, and H.M. Omed|The Effects of Cadmium in Feed, and Its Amelioration with Zinc, on Element Balances in Sheep|J. Anim. Sci.82(8): 2489-2502|2004|10.2527/2004.8282489x
85554|T||Sugihara,R.T., M.E. Tobin, and A.E. Koehler|Zinc Phosphide Baits and Prebaiting for Controlling Rats in Hawaiian Sugarcane|J. Wildl. Manag.59(4): 882-889|1995|10.2307/3801970
85555|T||Blakley,B.R.|Influence of Copper and Zinc on Urethan-Induced Adenoma Development in Mice|Drug-Nutr. Interact.5(4): 395-401|1988|
85556|T||Enomoto,A., T. Harada, K. Maita, and Y. Shirasu|Epiphyseal Lesions of the Femur and Tibia in Rats Following Oral Chronic Administration of Zinc Dimethyldithiocarbamate (Ziram)|Toxicology54(1): 45-58|1989|10.1016/0300-483X(89)90077-2
85557|T||Szymanska,J.A., E.A. Swietlicka, and J.K. Piotrowski|Protective Effect of Zinc in the Hepatotoxicity of Bromobenzene and Acetaminophen|Toxicology66(1): 81-91|1991|10.1016/0300-483X(91)90180-9
85559|T||Johansson,L., and C.E. Pellicciari|Lead-Induced Changes in the Stabilization of the Mouse Sperm Chromatin|Toxicology51(1): 11-24|1988|10.1016/0300-483X(88)90076-5
85560|T||Skoczynska,A., W. Juzwa, R. Smolik, J. Szechinski, and F.J. Behal|Response of the Cardiovascular System to Catecholamines in Rats Given Small Doses of Lead|Toxicology39(3): 275-289|1986|10.1016/0300-483X(86)90028-4
85561|T||Cory-Slechta,D.A., B. Weiss, and C. Cox|Tissue Distribution of Pb in Adult vs. Old Rats:  A Pilot Study|Toxicology59(2): 139-150|1989|10.1016/0300-483X(89)90052-8
85562|T||Rius,R.A., S. Govoni, and M. Trabucchi|Regional Modification of Brain Calcium Antagonist Binding After In Vivo Chronic Lead Exposure|Toxicology40(2): 191-197|1986|10.1016/0300-483X(86)90078-8
85563|T||Moresco,R.M., R. Dall'Olio, O. Gandolfi, S. Govoni, S. Di Giovine, and M. Trabucchi|Lead Neurotoxicity:  A Role for Dopamine Receptors|Toxicology53(2-3): 315-322|1988|10.1016/0300-483X(88)90223-5
85564|T||Johansson,L.|Premature Acrosome Reaction in Spermatozoa from Lead-Exposed Mice|Toxicology54(2): 151-162|1989|10.1016/0300-483X(89)90041-3
85565|T||Sierra,E.M., T.K. Rowles, J. Martin, G.R. Bratton, C. Womac, and E. Tiffany-Castiglioni|Low Level Lead Neurotoxicity in a Pregnant Guinea Pigs Model:  Neuroglial Enzyme Activities and Brain Trace Metal Concentrations|Toxicology59(1): 81-96|1989|10.1016/0300-483X(89)90158-3
85566|T||Singh,A.K.|Age-Dependent Neurotoxicity in Rats Chronically Exposed to Low Levels of Lead:  Calcium Homeostasis in Central Neurons|Neurotoxicology14(4): 417-428|1993|
85567|A||Lechelt,M., W. Blohm, B. Kirschneit, M. Pfeiffer, E. Gresens, J. Liley, R. Holz, C. Luring, and C. Moldaenke|Monitoring of Surface Water by Ultrasensitive Daphnia Toximeter|Environ. Toxicol.15(5): 390-400|2000|10.1002/1522-7278(2000)15:5<390::AID-TOX6>3.0.CO;2-H
85569|T||Gallego,S.M., M.P. Benavides, and M.L. Tomaro|Oxidative Damage Caused by Cadmium Chloride in Sunflower (Helianthus annuus L.) Plants|Phyton (Horn) (Multiple Languages)58(1-2): 41-52|1996|
85570|A||Lohan,M.C., D.W. Crawford, D.A. Purdie, and P.J. Statham|Iron and Zinc Enrichments in the Northeastern Subarctic Pacific: Ligand Production and Zinc Availability in Response to Phytoplankton Growth|Limnol. Oceanogr.50(5): 1427-1437|2005|10.4319/lo.2005.50.5.1427
85571|T||Padmanabhan,R., and M.S. Hameed|Characteristics of the Limb Malformations Induced by Maternal Exposure to Cadmium in the Mouse|Reprod. Toxicol.4(4): 291-304|1990|10.1016/0890-6238(90)90041-S
85572|T||Behboodi,B.S., and L. Samadi|Detection of Apoptotic Bodies and Oligonucleosomal DNA Fragments in Cadmium-Treated Root Apical Cells of Allium cepa Linnaeus|Plant Sci.167(3): 411-416|2004|10.1016/j.plantsci.2004.04.024
85573|T||Fieldes,M.A., and K.E. Gerhardt|Flax Guaiacol Peroxidases can be Used to Illustrate the Possibility of Misinterpreting the Effects of Stress on the Activity of Developmentally Regulated Enzymes|Plant Sci.132(1): 89-99|1998|10.1016/S0168-9452(98)00002-8
85574|T||Filho,J.L.V.B.N., E.L.B. Novelli, M.A. Manzano, A.M. Lopes, A.C. Cataneo, L.L. Barbosa, and B.O. Ribas|Effect of alpha-Tocopherol on Superoxide Radical and Toxicity of Cadmium Exposure|Int. J. Environ. Health Res.10(2): 125-134|2000|10.1080/09603120050021128
85575|T||Bachir,D.M.L., F. Wu, G. Zhang, and H. Wu|Genotypic Difference in Effect of Cadmium on Development and Mineral Concentrations of Cotton|Commun. Soil Sci. Plant Anal.35(1-2): 285-299|2004|10.1081/CSS-120027650
85576|T||Dundjerski,J., T. Kovac, N. Pavkovic, A. Cvoro, and G. Matic|Glucocorticoid Receptor-Hsp90 Interaction in the Liver Cytosol of Cadmium-Intoxicated Rats|Cell Biol. Toxicol.16(6): 375-383|2000|10.1023/A:1007600511094
85577|T||Gale,G.R., L.M. Atkins, A.B. Smith, S.G. Jones, M.A. Basinger, and M.M. Jones|N Alkyl-N-Dithiocarboxy-D-Glucamine Analogs as Cadmium Antagonists:  Synthesis and Evaluation of the n-Propyl-n-Butyl and n-Amyl Derivatives|Arch. Toxicol.62(6): 428-434|1988|10.1007/BF00288345
85578|T||Pisa,J., J. Cibulka, and M. Ptacek|Effect of Subcutaneous Application of a Single Cadmium Dose on Oocyte Maturation In Vitro|Physiol. Bohemoslov.39(2): 185-190|1990|
85579|T||De Natale,G., A. Lucisano, S. Damiano, D. Capone, G. Basile, and C. Ambrosio|Lack of Substantial Neuroendocrine Changes in Short-Term high Dose Cd Treated Rats|Riv. Clin. Tossicol.15(3): 135-140|1985|
85580|T||Ognjanovic,B., R.V. Zikic, A. Stajn, Z.S. Saicic, M.M. Kostic, and V.M. Petrovic|The Effects of Selenium on the Antioxidant Defense System in the Liver of Rats Exposed to Cadmium|Physiol. Res.44(5): 293-300|1995|
85581|T||Kataranovski,M., D. Kataranovski, D. Savic, G. Jovcic, Z. Bogdanovic, and T. Jovanovic|Granulocyte and Plasma Cytokine Activity in Acute Cadmium Intoxication in Rats|Physiol. Res.47(6): 453-461|1998|
85582|T||Kadrabova,J., A. Madaric, and E. Ginter|The Effect of Ascorbic Acid on Cadmium Accumulation in Guinea Pig Tissues|Experientia48(10): 989-991|1992|10.1007/BF01919148
85583|T||Massanyi,P., and V. Uhrin|Histological Changes in the Ovaries of Rabbits After an Administration of Cadmium|Reprod. Domest. Anim.31(4-5): 629-632|1996|
85584|T||Massanyi,P., R. Toman, M. Valent, and P. Cupka|Evaluation of Selected Parameters of a Metabolic Profile and Levels of Cadmium in Reproductive Organs of Rabbits After an Experimental Administration|Acta Physiol. Hung.83(3): 267-273|1995|
85585|T||Hovland,D.N.,Jr., A.F. Machado, W.J.,Jr. Scott, and M.D. Collins|Differential Sensitivity of the SWV and C57BL/6 Mouse Strains to the Teratogenic Action of Single Administrations of Cadmium Given Throughout the Period of Anterior Neuropore Closure|Teratology60(1): 13-21|1999|10.1002/(SICI)1096-9926(199907)60:1<13::AID-TERA6>3.0.CO;2-B
85586|T||Fernandez,E.L., C. Svenson, L. Dencker, and A.L. Gustafson|Disturbing Endoderm Signaling to Anterior Neural Plate of Vertebrates by the Teratogen Cadmium|Reprod. Toxicol.18(5): 653-660|2004|10.1016/j.reprotox.2004.04.003
85588|T||White,T.E.K., R.B. Baggs, and R.K. Miller|Central Nervous System Lesions in the Wistar Rat Fetus Following Direct Fetal Injections of Cadmium|Teratology42(1): 7-13|1990|10.1002/tera.1420420103
85589|T||Hayashi,T., and J.I. Sudo|Interrelations of Cadmium Contents and Histopathological Changes in Kidneys Following Single Intravenous Injection of Cadmium-Saturated Metallothionein II in Rats|J. Toxicol. Sci.19(1): 45-53|1994|10.2131/jts.19.45
85590|T||Khan,A.A., D. Lovejoy, A.K. Sharma, R.M. Sharma, M.G. Prior, and L.E. Lillie|Effects of High Dietary Sulphur on Enzyme Activities, Selenium Concentrations and Body Weights of Cattle|Can. J. Vet. Res.51:174-180|1987|
85591|A||Mangas-Ramirez,E., S.S.S. Sarma, and S. Nandini|Recovery Patterns of Moina macrocopa Exposed Previously to Different Concentrations of Cadmium and Methyl Parathion:  Life-Table Demography and Population Growth Studies|Hydrobiologia (Multiple Languages)526(1): 255-265|2004|10.1023/B:HYDR.0000041596.73437.17
85592|A||Rangsayatorn,N., M. Kruatrachue, P. Pokethitiyook, E.S. Upatham, G.R. Lanza, and S. Singhakaew|Ultrastructural Changes in Various Organs of the Fish Puntius gonionotus Fed Cadmium-Enriched Cyanobacteria|Environ. Toxicol.19(6): 585-593|2004|10.1002/tox.20066
85593|A||Dalla Vecchia,F., N. La Rocca, I. Moro, S. De Faveri, C. Andreoli, and N. Rascio|Morphogenetic, Ultrastructural and Physiological Damages Suffered by Submerged Leaves of Elodea canadensis Exposed to Cadmium|Plant Sci.168(2): 329-338|2005|10.1016/j.plantsci.2004.07.025
85594|A||Narvaez,N., C. Lodeiros, O. Nusetti, M. Lemus, and A.N. Maeda-Martinez|Uptake, Depuration and Effect of Cadmium on the Green Mussel Perna viridis (L. 1758) (Mollusca:  Bivalvia)|Cienc. Mar.31(1A): 91-102|2005|10.7773/cm.v31i11.76
85595|T||Pate,F.M., A.D. Johnson, and W.J. Miller|Testicular Changes in Calves Following Injection with Cadmium Chloride|J. Anim. Sci.32(2-5): 559-564|1970|10.2527/jas1970.313559x
85596|T||Roosens,N., N. Verbruggen, P. Meerts, P. Ximenez-Embun, and J.A.C. Smith|Natural Variation in Cadmium Tolerance and Its Relationship to Metal Hyperaccumulation for Seven Populations of Thlaspi caerulescens from Western Europe|Plant Cell Environ.26(10): 1657-1672|2003|10.1046/j.1365-3040.2003.01084.x
85597|T||Bogs,J., A. Bourbouloux, O. Cagnac, A. Wachter, T. Rausch, and S. Delrot|Functional Characterization and Expression Analysis of a Glutathione Transporter, BjGT1, from Brassica juncea:  Evidence for Regulation by Heavy Metal Exposure|Plant Cell Environ.26(10): 1703-1711|2003|10.1046/j.1365-3040.2003.01088.x
85598|T||Siedlecka,A., and Z. Krupa|Interaction Between Cadmium and Iron.  Accumulation and Distribution of Metals and Changes in Growth Parameters of Phaseolus vulgaris L. Seedlings|Acta Soc. Bot. Pol.65(3-4): 277-282|1996|10.5586/asbp.1996.042
85599|T||Theocharis,S.E., A.P. Margeli, C. Spiliopoulou, S. Skaltsas, C. Kittas, and A. Koutselinis|Hepatic Stimulator Substance Administration Enhances Regenerative Capacity of Hepatocytes in Cadmium-Pretreated Partially Hepatectomized Rats|Dig. Dis. Sci.41(7): 1475-1480|1996|10.1007/BF02088575
85600|T||Thilagamani,K.B., P. Thangavel, and V. Subburam|Effect of Zinc and Cadmium on the Regeneration Ability of the Earthworm Lambito mauritii (Kinberg)|J. Environ. Pollut.5(1): 7-11|1998|
85601|T||El-Shintinawy,F., and A. El-Ansary|Differential Effect of Cd 2+ and Ni2+ on Amino Acid Metabolism in Soybean Seedlings|Biol. Plant. (Praha)43(1): 79-84|2000|10.1023/A:1026507114354
85603|T||Bialkowski,K., A. Bialkowska, and K.S. Kasprzak|Cadmium(II), Unlike Nickel(II), Inhibits 8-oxo-dGTPase Activity and Increases 8-oxo-dG Level in DNA of the Rat Testis, a Target Organ for Cadmium(II) Carcinogenesis|Carcinogenesis20(8): 1621-1624|1999|10.1093/carcin/20.8.1621
85604|AT||Chen,S.L., and C.H. Kao|Glutathione Reduces the Inhibition of Rice Seedling Root Growth Caused by Cadmium|Plant Growth Regul.16(3): 249-252|1995|10.1007/BF00024781
85605|T||Gupta,P., and A. Kar|Fasting Alters Cadmium-Induced Thyroid Dysfunction in Mice:  Possible Role of Glutathione|Trace Elem. Electrolytes16(3): 151-155|1999|
85606|T||Mestek,O., Z. Deyl, I. Miksik, J. Novotna, I. Pfeifer, and J. Herget|Accumulation of Lead in Tissues After Its Administration in Drinking Water to Laboratory Rats|Physiol. Res.47(3): 197-202|1998|
85607|T||Brus,R., R. Szkilnik, P. Nowak, J. Konecki, M. Glowacka, A. Kasperska, J. Oswiecimska, K. Sawczuk, and J. Shani|Prenatal Exposure of Rats to Lead, Induce Changes in the Reactivity of the Central Dopaminergic, Serotoninergic and Muscarinic Receptors, but not in Glucose Uptake in Their Offspring|Pharmacol. Rev. Commun.9(4): 299-310|1997|
85608|T||Brus,R., R. Szkilnik, P. Nowak, J. Oswiecimska, A. Kasperska, K. Sawczuk, P. Slota, A. Kwiecinski, N. Kubanski, and J. |Effect of Lead and Ethanol, Consumed by Pregnant Rats, on Behavior of their Grown Offsprings|Pharmacol. Rev. Commun.10(3): 175-186|1999|
85609|T||Cuajungco,M.P., and G.J. Lees|Prevention of Zinc Neurotoxicity In Vivo by N,N,N',N'-Tetrakis (2-Pyridylmethyl) Ethylene-Diamine (TPEN)|Neuroreport7(7): 1301-1304|1996|10.1097/00001756-199605170-00017
85610|T||Smith,B.L., and P.P. Embling|Sequential Changes in the Development of the Pancreatic Lesion of Zinc Toxicosis in Sheep|Vet. Pathol.30(3): 242-247|1993|10.1177/030098589303000304
85612|T||Christensen,M.K., C.J. Frederickson, and G. Danscher|Retrograde Tracing of Zinc-Containing Neurons by Selenide Ions:  A Survey of Seven Selenium Compounds|J. Histochem. Cytochem.40(4): 575-579|1992|10.1177/40.4.1313065
85613|T||Fregoneze,J.B., M. Cunha, C. Bulcao, H. Ferreira, and E. DeCastro E Silva|Acute Effect of Intracerebroventricular Administration of Lead on the Drinking Behavior of Rats Induced by Dehydration or Central Cholinergic and Angiotensinergic Stimulation|Physiol. Behav.56(1): 129-133|1994|10.1016/0031-9384(94)90270-4
85614|T||Bunn,T.L., R.R. Dietert, G.S. Ladics, and M.P. Holsapple|Developmental Immunotoxicology Assessment in the Rat:  Age, Gender, and Strain Comparisons After Exposure to Lead|Toxicol. Methods11(1): 41-58|2001|10.1080/105172301300055151
85615|T||Petit,T.L., J.C. LeBoutillier, and W.J. Brooks|Altered Sensitivity to NMDA Following Developmental Lead Exposure in Rats|Physiol. Behav.52(4): 687-693|1992|10.1016/0031-9384(92)90398-L
85616|T||Engellenner,W.J., R.G. Burright, and P.J. Donovick|Lead, Age and Aggression in Male Mice|Physiol. Behav.36(5): 823-838|1986|10.1016/0031-9384(86)90437-3
85617|T||Ghazi-Khansari,M., N. Rezvani, S. Bani-Assadi, and M.R. Zarrindast|Effects of Lead Exposure on Licking and Yawning Behaviour in Rats|Pharmacol. Toxicol.83(3): 120-124|1998|10.1111/j.1600-0773.1998.tb01454.x
85618|T||Jindal,V., and K.D. Gill|Ethanol Potentiates Lead-Induced Inhibition of Rat Brain Antioxidant Defense Systems|Pharmacol. Toxicol.85(1): 16-21|1999|10.1111/j.1600-0773.1999.tb01057.x
85619|T||Rossowska,M.J., P. Ghanaei, and T. Nakamoto|Effect of Dietary Caffeine and Zinc on the Activity of Antioxidant Enzymes, Zinc, and Copper Concentration of the Heart and Liver in Fast-Growing Rats|Biol. Trace Elem. Res.50(3): 229-236|1995|10.1007/BF02785413
85620|T||Nikolova,P.|Effect of Manganese on Essential Trace Element Metabolism.  Tissue Concentrations and Excretion of Manganese, Iron, Copper, Cobalt and Zinc|Trace Elem. Med.10(3): 141-147|1993|
85621|T||Shimizu,M., T. Yamano, and T. Noda|Effects of Zinc 2-Mercaptobenzimidazolate on Pregnant Rats by Oral Treatment|J. Health Sci.45(4): 184-190|1999|10.1248/jhs.45.184
85622|T||Takeda,A., M. Suzuki, S. Okada, and N. Oku|Influence of Histidine on Zinc Transport into Rat Brain|J. Health Sci.46(3): 209-213|2000|10.1248/jhs.46.209
85623|T||Bandwar,R.P., S.J.S. Flora, and C.P. Rao|Influence of Zinc-Saccharide Complexes on Some Haematological Parameters in Rats|BioMetals10(4): 337-341|1997|10.1023/A:1018336819420
85625|A||Zoller,U., I. Plaut, and M. Hushan|The Case of the Nonionic Alkylphenol Ethoxylates in the Mediterranean Sea Region:  Is There a Problem?|Water Sci. Technol.50(5): 79-84|2004|10.2166/wst.2004.0312
85626|A||Niforos,J., and R.P. Lim|Toxicity of Diazinon, an Organophosphorus Pesticide, to the Eastern Rainbow Fish, Melanotaenia duboulayi|Verh. Int. Ver. Theor. Angew. Limnol.26:2296-2301|1998|
85627|T||Uyeki,E.M., J. Doull, C.C. Cheng, and M. Misawa|Teratogenic and Antiteratogenic Effects of Nicotinamide Derivatives in Chick Embryos|J. Toxicol. Environ. Health9(5/6): 963-973|1982|10.1080/15287398209530218
85628|T||Idia,M., H. Iida, S. Dohi, M. Takenaka, and H. Fujiwara|Mechanisms Underlying Cerebrovascular Effects of Cigarette Smoking in Rats In Vivo|Stroke29(8): 1656-1665|1998|10.1161/01.STR.29.8.1656
85629|A||Lasut,M.T., and A.P. Angmalisang|The Effect of Diazinon and Glyphosate (Pesticides) on Oxygen Consumption of the Box Mussel Septifer bilocularis L.|Phuket Mar. Biol. Center Spec. Publ.18(1): 139-144|1998|
85630|T||Peacock,C.H., and R.A. Dunn|Effects of Nematicide Formulations on Turfgrass Nematodes|Proc. Soil Crop Sci. Soc. Fla.45:185-188|1986|
85631|T||Cavaliere,M.J., F.R. Puga, E.E. Calore, N.M.P. Calore, J.D.R. Pelegrino, A.R. Da Rosa, and R. Weg|Protective Effect of Pralidoxime on Muscle Fiber Necrosis Induced by Organophosphate Compounds|Clin. Toxicol.36(4): 295-300|1998|
85632|A||Rahman,M.Z., Z. Hossain, M.F.A. Mollah, and G.U. Ahmed|Effect of Diazinon 60 EC on Anabas testudineus, Channa punctatus and Barbodes gonionotus|Naga25(2): 8-12|2002|
85633|T||Kumar,K., and P.N. Saxena|Effect of Diazol on Certain Liver Biochemical Parameters of Female Albino Rats|J. Ecophysiol. Occup. Health3(1/2): 143-148|2003|
85634|A||Dalla Venezia,L., J.G. Galindo Reyes, and E. Burgueno Juarez|Influence of Organophosphorus Pesticides on Oxygen Consumption in the Shrimp Penaeus vannamei|Riv. Ital. Acquacolt.34(1): 23-26|1999|
85635|T||Wilkinson,J.G., W. Rajendra, P.C. Oloffs, and E.W. Banister|Diazinon Treatment Effects on Heart and Skeletal Muscle Enzyme Activities|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes21(2): 103-113|1986|
85636|T||Nagayama,M., F. Akahori, H. Chiwata, M. Shirai, M. Motoya, T. Masaoka, and K. Sakaguchi|Effects of Selected Organophosphate Insecticides on Serum Cholinesterase Isoenzyme Patterns in the Rat|Vet. Hum. Toxicol.38(3): 196-199|1996|
85637|T||Al-Qarawi,A.A., O.M. Mahmoud, E.M. Haroun, M.A. Sobaih, and S.E.I. Adam|Comparative Effects of Diazinon and Malathion in Najdi Sheep|Vet. Hum. Toxicol.41(5): 287-289|1999|
85638|T||Forschler,B.T., and W.A. Gardner|Field Efficacy and Persistence of Entomogenous Nematodes in the Management of White Grubs (Coleoptera:  Scarabaeidae) in Turf and Pasture|J. Econ. Entomol.84(5): 1454-1459|1991|10.1093/jee/84.5.1454
85639|T||Meneely,G.A., and C.R. Wyttenbach|Effects of the Organophosphate Insecticides Diazinon and Parathion on Bobwhite Quail Embryos:  Skeletal Defects and Acetylcholinesterase Activity|J. Exp. Zool.252(1): 60-70|1989|10.1002/jez.1402520109
85640|A||Kaligis,F.G., and M.T. Lasut|Effects of Salinity and Diazinon on the Abalone Haliotis varia (Gastropoda:  Haliotidae)|Spec. Publ. - Phuket Mar. Biol. Cent. 17(1): 115-120|1997|
85641|T||Nakashima,T., K. Kubo, and Y. Kurogochi|Influence of Nicotine on Allergic Cutaneous Reactions in Rats|Res. Commun. Subst. Abuse11(4): 199-202|1990|
85642|A||Gautam,R.K., K. Gautam, and Tejeshwarilal |Effects of Pesticides on Gastro Intestinal Nucleic Acids in Channa punctatus|J. Ecotoxicol. Environ. Monit.12(1): 57-60|2002|
85643|T||Kendall,R.J., L.W. Brewer, R.R. Hitchcock, and J.R. Mayer|American Wigeon Mortality Associated with Turf Application of Diazinon AG500|J. Wildl. Dis.28(2): 263-267|1992|10.7589/0090-3558-28.2.263
85644|T||Chalfant,R.B., M.R. Hall, A.W. Johnson, D.R. Seal, and K. Bondari|Effects of Application Methods, Timing, and Rates of Insecticides and Nematicides on Yield and Control of Wireworms (Coleoptera: Elateridae) and Nematodes (Tylenchida: Heteroderidae) that Affect Sweet Potato|J. Econ. Entomol.85(3): 878-887|1992|10.1093/jee/85.3.878
85646|A||Pope,D.H.|Effect of Biocides on Algae and Legionnaires Disease Bacteria|Final Technical Rep., DP-MS-81-63, Rensselaer Polytechnic Inst., Tory, NY:124 p.|1981|
85647|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.E. Kolakowski, and C.W. Kurnas|Effect of Simulated Weathering and Aging of TNT in Amended Sandy Loam Soil on Toxicity to the Enchytraeid Worm, Enchytraeus crypticus|Tech.Rep.No.ECBC-TR-484,U.S.Army Edgewood Chem.Biol.Ctr., Aberdeen Proving Ground, MD:43 p.|2006|
85648|T||Poland,A., J. Goldstein, P. Hickman, and V.W. Burse|A Reciprocal Relationship Between the Induction of [delta]-Aminolevulinic Acid Synthetase and Drug Metabolism Produced by m-Dichlorobenzene|Biochem. Pharmacol.20(6): 1281-1290|1971|10.1016/0006-2952(71)90359-5
85649|T||Khan,T.A., and S.T. Khan|Evaluation of Seed Dressings with Nematicides for Control of Heterodera cajani Infection of Cowpea (Vigna unguiculata)|Ann. Appl. Biol.16:2-3|1995|
85650|T||Civen,M., and C.B. Brown|The Effect of Organophosphate Insecticides on Adrenal Corticosterone Formation|Pestic. Biochem. Physiol.4(3): 254-259|1974|10.1016/0048-3575(74)90108-4
85651|T||Popov,S.V., G.Y. Popova, R.G. Ovodova, and Y.S. Ovodov|Antiinflammatory Activity of the Pectic Polysaccharide from Comarum palustre|Fitoterapia76(3/4): 281-287|2005|10.1016/j.fitote.2005.03.018
85652|T||Yamaguchi,S., J.H. Wiessner, A.T. Hasegawa, L.Y. Hung, G.S. Mandel, and N.S. Mandel|Study of a Rat Model for Calcium Oxalate Crystal Formation Without Severe Renal Damage in Selected Conditions|Int. J. Urol.12(3): 290-298|2005|10.1111/j.1442-2042.2005.01038.x
85653|A||Kloft,N., G. Rasch, and K. Forchhammer|Protein Phosphatase PphA from Synechocystis sp. PCC 6803:  The Physiological Framework of PII-P Dephosphorylation|Microbiology151:1275-1283|2005|10.1099/mic.0.27771-0
85654|T||Ancelin,M.L., M. Calas, A. Bonhoure, S. Herbute, and H.J. Vial|In Vivo Antimalarial Activities of mono- and bis Quaternary Ammonium Salts Interfering with Plasmodium Phospholipid Metabolism|Antimicrob. Agents Chemother.47(8): 2598-2605|2003|10.1128/AAC.47.8.2598-2605.2003
85655|A||Kutlu,M., and S. Sumer|Effects of Lead on the Activity of delta-Aminolevulinic Acid Dehydratase in Gammarus pulex|Bull. Environ. Contam. Toxicol.60(5): 816-821|1998|10.1007/s001289900700
85656|A||Norland,R.L., and M.S. Mulla|Impact of Altosid on Selected Members of an Aquatic Ecosystem|Environ. Entomol.4(1): 145-152|1975|10.1093/ee/4.1.145
85657|A||Breccia,A., E. Gattavecchia, Pietra A.M.D., and F. Lumare|Radiobiochemistry of Phytodrugs:  II.  Activity of Altosid (R) and Altozar (R) in the Biosynthesis of Proteins and RNA in Larvae of Shrimps In Vivo Studied by Leucine-U-14C and Uridine-2-14C|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes12(2): 105-112|1977|
85658|A||Ye,Z.H., K.C. Cheung, and M.H. Wong|Copper Uptake in Typha latifolia as Affected by Iron and Manganese Plaque on the Root Surface|Can. J. Bot.79(3): 314-320|2001|10.1139/b01-012
85659|A||Geraci,F., A. Pinsino, G. Turturici, R. Savona, G. Giudice, and G. Sconzo|Nickel, Lead, and Cadmium Induce Differential Cellular Responses in Sea Urchin Embryos by Activating the Synthesis of Different HSP70s|Biochem. Biophys. Res. Commun.322(3): 873-877|2004|10.1016/j.bbrc.2004.08.005
85660|A||Ahern,M.D., and S. Morris|Respiratory, Acid-Base and Metabolic Responses of the Freshwater Crayfish Cherax destructor to Lead Contamination|Comp. Biochem. Physiol. A Mol. Integr. Physiol.124(2): 105-111|1999|10.1016/S1095-6433(99)00101-4
85661|T||Culvenor,R.A.|Tolerance of Phalaris aquatica L. Lines and Some Other Agricultural Species to Excess Manganese, and the Effect of Aluminium on Manganese Tolerance in P. aquatica|Aust. J. Agric. Res.36(5): 695-708|1985|10.1071/AR9850695
85662|A||de Almeida,E.A., S. Miyamoto, A.C.D. Bainy, M.H.G. De Medeiros, and P. Di Mascio|Protective Effect of Phospholipid Hydroperoxide Glutathione Peroxidase (PHGPx) Against Lipid Peroxidation in Mussels Perna perna Exposed to Different Metals|Mar. Pollut. Bull.49(5-6): 386-392|2004|10.1016/j.marpolbul.2004.02.020
85663|T||Morishima,H., and H.I. Oka|The Impact of Copper Pollution on Water Foxtail (Alopecurus aequalis Sobol.) Populations and Winter Weed Communities in Rice Fields|Agro-Ecosystems6(1): 33-49|1980|10.1016/0304-3746(80)90004-9
85664|A||Elanskaya,I.V., E.A. Chesnavichene, C. Vernotte, and C. Astier|Resistance to Nitrophenolic Herbicides and Metronidazole in the Cyanobacterium Synechocystis sp. PCC 6803 as a Result of the Inactivation of a Nitroreductase-like Protein Encoded by drgA Gene|FEBS Lett.428(3): 188-192|1998|10.1016/S0014-5793(98)00528-6
85665|T||Matsuura,Y., T. Fukuda, T. Yoshida, and Y. Kuroiwa|Inhibitory Effect of Zinc-Protoporphyrin on the Induction of Heme Oxygenase and the Associated Decrease in Cytochrome P-450 Content in Rats|Toxicology50(2): 169-180|1988|10.1016/0300-483X(88)90089-3
85666|T||Mutalik,S., B. Sulochana, M. Chetana, N. Udupa, and P. Uma Devi|Preliminary Studies on Acute and Subacute Toxicity of an Antidiabetic Herbal Preparation, Dianex|Indian J. Exp. Biol.41(4): 316-320|2003|
85667|A||Woodrow,R.J., J.J. Howard, and D.J. White|Field Trials with Methoprene, Temephos, and Bacillus thuringiensis serovar israelensis for the Control of Larval Culiseta melanura|Am. Mosq. Control Assoc. J.11(4): 424-427|1995|
85668|T||Lang,J.T., and W.F. Chamberlain|Methoprene Dust for Flea (Siphonaptera:  Ceratophyllidae) Suppression on Ground Squirrels (Rodentia:  Sciuridae)|J. Med. Entomol.23(2): 141-145|1986|10.1093/jmedent/23.2.141
85669|A||Ghekiere,A., T. Verslycke, and C. Janssen|Effects of Methoprene, Nonylphenol, and Estrone on the Vitellogenesis of the Mysid Neomysis integer|Gen. Comp. Endocrinol.147(2): 190-195|2006|10.1016/j.ygcen.2005.12.021
85670|A||Berry,W.J.|Recalculation of Del Nimmo's Flow-Through Chronic Values for Mysids with Diazinon|Memo to D.J.Hansen of U.S.EPA Narragansett, RI dated April 27:3 p.|1989|
85671|A||Ghekiere,A., T. Verslycke, N. Fockedey, and C.R. Janssen|Non-Target Effects of the Insecticide Methoprene on Molting in the Estuarine Crustacean Neomysis integer (Crustacea: Mysidacea)|J. Exp. Mar. Biol. Ecol.332(2): 226-234|2006|10.1016/j.jembe.2005.11.021
85672|A||Ranta,S.R., D.P. Batzer, K.R. Sharkey, and R.D. Sjogren|Efficacy of Methoprene Pellets Against Coquillettidia perturbans Larvae|Am. Mosq. Control Assoc. J.10(1): 106-107|1994|
85673|A||Kramer,V.L., E.R. Carper, and C. Beesley|Control of Aedes dorsalis with Sustained-Release Methoprene Pellets in a Saltwater Marsh|Am. Mosq. Control Assoc. J.9(2): 127-130|1993|
85674|A||Kline,D.L.|Small Plot Evaluation of a Sustained-Release Sand Granule Formulation of Methoprene (SAN 810 I 1.3 GR) for Control of Aedes taeniorhynchus|Am. Mosq. Control Assoc. J.9(2): 155-157|1993|
85675|A||Beehler,J.W., and M.S. Mulla|Effect of the Insect Growth Regulator Methoprene on the Ovipositional Behavior of Aedes aegypti and Culex quinquefasciatus|Am. Mosq. Control Assoc. J.9(1): 13-16|1993|
85676|A||Knepper,R.G., A.D. LeClair, J.D. Strickler, and E.D. Walker|Evaluation of Methoprene (Altosid XR) Sustained-Release Briquets for Control of Culex Mosquitoes in Urban Catch Basins|Am. Mosq. Control Assoc. J.8(3): 228-230|1992|
85677|A||Weathersbee III,A.A., and M.V. Meisch|Long-Term Residual Activity of Methoprene Against Psorophora columbiae Larvae in Rice Plots|Am. Mosq. Control Assoc. J.7(4): 592-594|1991|
85678|A||Kramer,V.L., and C. Beesley|Efficacy and Persistence of Sustained-Release Methoprene Pellets Against Aedes Mosquitoes in an Irrigated Pasture|Am. Mosq. Control Assoc. J.7(4): 646-648|1991|
85679|A||Logan,T.M., K.J. Linthicum, J.N. Wagateh, P.C. Thande, C.W. Kamau, and C.R. Roberts|Pretreatment of Floodwater Aedes habitats (Dambos) in Kenya with a Sustained-Release Formulation of Methoprene|Am. Mosq. Control Assoc. J.6(4): 736-738|1990|
85680|A||Batzer,D.P., and R.D. Sjogren|Potential Effects of Altosid (Methoprene) Briquet Treatments on Eubranchipus bundyi (Anostraca:  Chirocephalidae)|Am. Mosq. Control Assoc. J.2(2): 226-227|1986|
85681|A||Pourgholam,R., M. Soltani, D.M. Hassan, F. Esmaeili, H. Farhoomand, and P. Usefi|Evaluation of Blood Characteristics of Grass Carp (Ctenopharyngodon idella) After Exposure to Organophosphate, Diazinon|Iran. J. Fish. Sci.3(2): 1-18|2001|
85682|A||Wang,H.Y., A.W. Olmstead, H. Li, and G.A. LeBlanc|The Screening of Chemicals for Juvenoid-Related Endocrine Activity Using the Water Flea Daphnia magna|Aquat. Toxicol.74(3): 193-204|2005|10.1016/j.aquatox.2005.05.010
85683|A||McKenney,C.L.,Jr., and E. Matthews|Influence of an Insect Growth Regulator on the Larval Development of an Estuarine Shrimp|Environ. Pollut.64(2): 169-178|1990|10.1016/0269-7491(90)90113-Q
85684|A||Ahl,J.S.B., and J.J. Brown|Salt-Dependent Effects of Juvenile Hormone and Related Compounds in Larvae of the Brine Shrimp, Artemia|Comp. Biochem. Physiol. A Comp. Physiol.95(4): 491-496|1990|10.1016/0300-9629(90)90729-C
85685|A||Ahl,J.S.B., and J.J. Brown|The Effect of Juvenile Hormone III, Methyl Farnesoate, and Methoprene on Na/K-ATPase Activity in Larvae of the Brine Shrimp, Artemia|Comp. Biochem. Physiol. A Comp. Physiol.100(1): 155-158|1991|10.1016/0300-9629(91)90199-M
85686|A||Smith,G.D., C. Wilburn, and R.A. McCarthy|Methoprene Photolytic Compounds Disrupt Zebrafish Development, Producing Phenocopies of Mutants in the Sonic Hedgehog Signaling Pathway|Mar. Biotechnol.5(2): 201-212|2003|10.1007/s10126-002-0062-5
85687|A||Reish,D.J., J.A. Lemay, and S.L. Asato|The Effect of BTI (H-14) and Methoprene on Two Species of Marine Invertebrates from Southern California Estuaries|Bull. Soc. Vector Ecol.10(1): 20-22|1985|
85688|T||Chiba,M., K. Ogihara, Y. Inaba, T. Nishima, and M. Kikuchi|The Organ Distribution of Tin and the Effect of Tin on Concentrations of Several Essential Elements in Rabbit|Toxicology31(1): 23-32|1984|10.1016/0300-483X(84)90152-5
85689|T||Duffy,J.Y., D. Baines, G.J. Overmann, C.L. Keen, and G.P. Daston|Repeated Administration of alpha-Hederin Results in Alterations in Maternal Zinc Status and Adverse Developmental Outcome in the Rat|Teratology56(5): 327-334|1997|10.1002/(SICI)1096-9926(199711)56:5<327::AID-TERA6>3.0.CO;2-U
85691|T||Cooper,H.K.|Preliminary Studies on the Differential Removal of Products Formed in the DNA of Various Rat Organs After Chronic Administration of a Low Dose of Zinc|Toxicology34(3): 261-270|1985|10.1016/0300-483X(85)90176-3
85692|A||Krishnamoorthy,K., G. Rajendran, S. Sebesan, and K.N. Panicker|Efficacy of Altosid, a Juvenile Hormone Analogue Against the Immatures of Mansonioides Mosquitoes, the Vectors of Brugia malayi|Entomon18(1-2): 31-37|1993|
85693|T||Muller,L., J. Abel, and F.K. Ohnesorge|Absorption and Distribution of Cadmium (Cd), Copper and Zinc Following Oral Subchronic Low Level Administration to Rats of Different Binding Forms of Cadmium (Cd-Acetate, Cd-Metallothionein, Cd-Glutathione)|Toxicology39(2): 187-195|1986|10.1016/0300-483X(86)90135-6
85694|T||Saito,S., S. Yoshizu, and Y. Kojima|Relative Zinc-Binding Capacity of Metallothionein:  Studies in Renal Cytosols from Zinc-Injected Rats|Res. Commun. Mol. Pathol. Pharmacol.90(3): 363-371|1995|
85696|T||Huerta,P., M.D. Blanco, R. Olmo, and J.M. Teijon|Evolution of Weight and Zinc Level in Thymus and Spleen of Rats After Zinc Treatment|Toxicol. Environ. Chem.33(3-4): 231-237|1991|10.1080/02772249109357764
85697|A||Jain,S.K., G.S. Gujral, N.K. Jha, and P. Vasudevan|Production of Biogas from Azolla pinnata R.Br and Lemna minor L.:  Effect of Heavy Metal Contamination|Bioresour. Technol.41(3): 273-277|1992|10.1016/0960-8524(92)90013-N
85698|T||Singh,K.P., S.I.A. Zaidi, S. Raisuddin, A.K. Saxena, R.C. Murthy, and P.K. Ray|Effect of Zinc on Immune Functions and Host Resistance Against Infection and Tumor Challenge|Immunopharmacol. Immunotoxicol.14(4): 813-840|1992|10.3109/08923979209009237
85699|T||Al-Ayed,M.I., and A.R. Abbasi|Physiological Effects of Zinc-Lead Interaction in Mammals|Pak. J. Zool.33(3): 231-235|2001|
85700|T||Gilbert,M.E., C.M. Mack, and S.M. Lasley|The Influence of Developmental Period of Lead Exposure on Long-Term Potentiation in the Adult Rat Dentate Gyrus In Vivo|Neurotoxicology20(1): 57-70|1999|
85701|T||Gurer,H., H. Ozgunes, S. Oztezcan, and N. Ercal|Antioxidant Role of alpha-Lipoic Acid in Lead Toxicity|Free Radic. Biol. Med.27(1-2): 75-81|1999|10.1016/S0891-5849(99)00036-2
85702|T||Mulhern,S.A., W.B.,Jr. Stroube, and R.M. Jacobs|Alopecia Induced in Young Mice by Exposure to Excess Dietary Zinc|Experientia42(5): 551-553|1986|10.1007/BF01946698
85703|T||Bhardwaj,D., J.A. Siddiqui, and J.A. Khan|Mitigating Poison and Bait-Shyness Developed by Wild Rats (Rattus rattus L.)  II.  Use of Boiled Foods and Oily Cereal Mixtures|Z. Angew. Zool. (Multiple Languages)71(3): 339-346|1984|
85705|T||He,L.S., X.S. Yan, and D.C. Wu|Age-Dependent Variation of Zinc-65 Metabolism in LACA Mice|Int. J. Radiat. Biol.60(6): 907-916|1991|10.3109/09553009109169318
85706|T||House,W.A., and R.M. Welch|Bioavailability of and Interactions Between Zinc and Selenium in Rats Fed Wheat Grain Intrinsically Labeled with 65Zn and 75Se|J. Nutr.119(6): 916-921|1989|10.1093/jn/119.6.916
85707|T||Grover,C.A., J.R. Nation, and G.R. Bratton|Chronic Exposure to Lead Attenuates Cocaine-Induced Behavioral Activation|Pharmacol. Biochem. Behav.44(1): 221-225|1993|10.1016/0091-3057(93)90301-9
85708|T||Marusic,A., K. Kos, A. Stavljenic, and S. Vukicevic|Acute Zinc Deficiency and Trabecular Bone Loss in Rats with Talc Granulomatosis|Biol. Trace Elem. Res.29(2): 165-173|1991|10.1007/BF03032694
85709|T||Storey,M.L., and J.L. Greger|Iron, Zinc and Copper Interactions:  Chronic Versus Acute Responses of Rats|J. Nutr.117(8): 1434-1442|1987|10.1093/jn/117.8.1434
85710|T||Taupeau,C., J. Poupon, F. Nome, and B. Lefevre|Lead Accumulation in the Mouse Ovary After Treatment-Induced Follicular Atresia|Reprod. Toxicol.15(4): 385-391|2001|10.1016/S0890-6238(01)00139-3
85711|T||Pathak,A., A. Mahmood, R. Pathak, and D. Dhawan|Effect of Zinc on Hepatic Lipid Peroxidation and Antioxidative Enzymes in Ethanol-Fed Rats|J. Appl. Toxicol.22(3): 207-210|2002|10.1002/jat.851
85712|T||Odenbro,A., I. Kihlstrom, and J.E. Kihlstrom|Perinatal Growth Retardation Caused by Triethyl Lead Chloride Treatment of Mice During Late Gestation|Pharmacol. Toxicol.63(4): 253-256|1988|10.1111/j.1600-0773.1988.tb00949.x
85713|T||Rao,A.M.K.M., and I. Prakash|Rodenticidal Evaluation of Zinc Phosphide Against House Mouse, Mus musculus bactrianus|Indian J. Plant Prot.13(1): 61-63|1985|
85714|T||Beeson,W.M., T.W. Perry, and T.D. Zurcher|Effect of Supplemental Zinc on Growth and on Hair and Blood Serum Levels of Beef Cattle|J. Anim. Sci.45(1): 160-165|1977|10.2527/jas1977.451160x
85717|T||Lees,G.J., A. Lehmann, M. Sandberg, and A. Hamberger|The Neurotoxicity of Zinc in the Rat Hippocampus|Neurosci. Lett.120(2): 155-158|1990|10.1016/0304-3940(90)90026-6
85718|T||Abban,G., G. Turgut, D. Erdogan, C. Ozogul, O. Genc, S. Turgut, and I. Karabulut|Transmission Electron Microscopy Study of the Effects of Zinc Overdose on Mouse Liver Tissue|Biol. Trace Elem. Res.95(1): 87-94|2003|10.1385/BTER:95:1:87
85719|T||Domingo,J.L., J.M. Llobet, J.L. Paternain, and J. Corbella|Acute Zinc Intoxication:  Comparison of the Antidotal Efficacy of Several Chelating Agents|Vet. Hum. Toxicol.30(3): 224-228|1988|
85720|T||Dalley,J.W., P.K. Gupta, F.C. Lam, and C.T. Hung|Interaction of L-Ascorbic Acid on the Disposition of Lead in Rats|Pharmacol. Toxicol.64(4): 360-364|1989|10.1111/j.1600-0773.1989.tb00665.x
85721|T||Lansdown,A.B.G.|Interspecies Variations in Response to Topical Application of Selected Zinc Compounds|Food Chem. Toxicol.29(1): 57-64|1991|10.1016/0278-6915(91)90063-D
85722|T||Domingo,J.L., J.M. Llobet, M.T. Colomina, and J. Corbella|The Removal of Zinc from the Mouse by Polyamincarboxylic Acids (CDTA and DTPA) Following Semichronic Zinc Ingestion|Vet. Hum. Toxicol.30(6): 524-527|1988|
85723|T||Barton,J.C., and M.E. Conrad|Organ Retention and Excretion of Radiolead Administered Intravenously in Rats:  A Comparison of Erythrocyte- and Plasma-Associated Lead|J. Trace Elem. Exp. Med.14(1): 89-98|2001|10.1002/1520-670X(2001)14:1<89::AID-JTRA1012>3.0.CO;2-S
85725|T||McNall,A.D., and G.J. Fosmire|Zinc Status does not Affect Aluminum Deposition in Tissues of Rats|Biol. Trace Elem. Res.53(1-3): 7-18|1996|10.1007/BF02784540
85726|T||Eck,P., and J. Pallauf|Induction of Metallothionein by Paraquat Injection in Zinc-Deficient Rats|J. Anim. Physiol. Anim. Nutr.81(4-5): 203-211|1999|
85727|T||Bremner,I., B.W. Young, and C.F. Mills|Protective Effect of Zinc Supplementation Against Copper Toxicosis in Sheep|Br. J. Nutr.36:551-561|1976|10.1079/BJN19760108
85728|T||Jarrar,B.M., and Z.N. Mahmoud|Histochemical Demonstration of Changes in the Activity of Hepatic Phosphatases Induced by Experimental Lead Poisoning in Male White Rats (Rattus norvegicus)|Toxicol. Ind. Health16(1): 7-15|2000|10.1177/074823370001600102
85729|T||Lasley,S.M., M.C. Green, and M.E. Gilbert|Influence of Exposure Period on In Vivo Hippocampal Glutamate and GABA Release in Rats Chronically Exposed to Lead|Neurotoxicology20(4): 619-630|1999|
85730|T||Moustafa,S.A.|Effect of Glutathione (GSH) Depletion on the Serum Levels of Triiodothyronine (T3), Thyroxine (T4), and T3/T4 Ratio in Allyl Alcohol-Treated Male Rats and Possible Protection with Zinc|Int. J. Toxicol.20(1): 15-20|2001|10.1080/109158101750103332
85731|T||Pullen,R.G.L., P.A. Franklin, and G.H. Hall|65Zn Uptake from Blood into Brain in the Rat|J. Neurochem.56(2): 485-489|1991|10.1111/j.1471-4159.1991.tb08176.x
85735|T||Hanowski,J.M., G.J. Niemi, A.R. Lima, and R.R. Regal|Response of Breeding Birds to Mosquito Control Treatments of Wetlands|Wetlands17(4): 485-492|1997|10.1007/BF03161514
85736|T||Binder,B.F., A.B. DeMilo, J.P. Kochansky, and D.J. Chitwood|Inhibition of Development in Caenorhabditis elegans (Nematoda) by a Reduced Aromatic Schiff Base and Related Compounds|J. Agric. Food Chem.40(9): 1475-1477|1992|10.1021/jf00021a001
85737|A||Sparling,D.W.|Effects of Altosid and Abate-4E on Deformities and Survival in Southern Leopard Frogs Under Semi-Natural Conditions|J. Iowa Acad. Sci.107(3): 90-91|2000|
85738|A||Gonzalez,R.J., R.S. Grippo, and W.A. Dunson|The Disruption of Sodium Balance in Brook Charr, Salvelinus fontinalis (Mitchill), by Manganese and Iron|J. Fish Biol.37(5): 765-774|1990|10.1111/j.1095-8649.1990.tb02540.x
85739|A||Reader,J.P., T.R.K. Dalziel, and R. Morris|Growth, Mineral Uptake and Skeletal Calcium Deposition in Brown Trout, Salmo trutta L., Yolk-Sac Fry Exposed to Aluminium and Manganese in Soft Acid Water|J. Fish Biol.32(4): 607-624|1988|10.1111/j.1095-8649.1988.tb05399.x
85740|A||Bermingham,S., L. Maltby, and R.C. Cooke|Effects of a Coal Mine Effluent on Aquatic Hyphomycetes. II.  Laboratory Toxicity Experiments|J. Appl. Ecol.33(6): 1322-1328|1996|10.2307/2404773
85741|A||Ghanmi,Z., M. Rouabhia, M. Alifuddin, D. Troutaud, and P. Deschaux|Modulatory Effect of Metal Ions on the Immune Response of Fish: In Vivo and In Vitro Influence of MnCl2 on NK Activity of Carp Pronephros Cells|Ecotoxicol. Environ. Saf.20(3): 241-245|1990|10.1016/0147-6513(90)90003-N
85742|A||Wepener,V., J.H.J. Van Vuren, and H.H. Du Preez|Effect of Manganese and Iron at a Neutral and Acidic pH on the Hematology of the Banded Tilapia (Tilapia sparrmanii)|Bull. Environ. Contam. Toxicol.49(4): 613-619|1992|10.1007/BF00196307
85743|T||Engell,M.D.|The Effect of Endocrine Disruptors on the Monogamous Pine Vole (Microtus pinetorum)|Ph.D.Thesis, North Carolina State University, Raleigh, NC:110 p.|2003|
85744|T||Abudulai,M.|Effects of Neem on Nezara viridula (L.) (Hemiptera:  Pentatomidae) and Its Major Parasitoid, Trissolcus basalis (Wollaston) (Hymenoptera:  Scelionidae), in Cowpea|Ph.D. Thesis, Clemson University, Clemson, SC:86 p.|2002|
85745|A||Hecht,S.A.|Accumulation and Effects of 4-Nonylphenol in Chinook Salmon Fry and Their Estuarine Amphipod Prey|Ph.D.Thesis, Oregon State University, Corvallis, OR:134 p.|2002|
85746|A||Bennett,W.N.|Measurement of Manganese Amelioration of Cadmium Toxicity in Chlorella pyrenoidosa Using Turbidostat Culture|Arch. Environ. Contam. Toxicol.19(1): 118-123|1990|10.1007/BF01059819
85747|AT||Higuchi,T.T.|Characterization of the Effects of Dibutyl Phthalate on Growth and Male Reproduction in Frogs and Rabbits|Ph.D.Thesis, Colorado State University, Fort Collins, CO:179 p.|2002|
85749|A||Bevan,C.|The Effects of Endocrine Disruptors on the Development of Xenopus Embryos|Ph.D.Thesis, Dartmouth College, Hanover, NH:232 p.|2004|
85750|A||Cruz-Li,E.I.|Effects of Ammonium Perchlorate, 4(Tert-Octyl)Phenol and Their Mixture on Zebrafish (Danio rerio)|Ph.D Thesis, Texas Tech University, Lubbock, TX:173 p.|2004|
85751|A||Wintermyer,M.L.|The Development of an Aquatic Bivalve Model for Evaluating the Toxic Effects on Gametogenesis Following 2,3,7,8-Tetrachlorodibenzo-P-Dioxin (TCDD) Exposure in the Eastern Oyster (Crassostrea virginica)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:205 p.|2004|
85752|T||Si,J.|Assessing Effects of Soil Properties on Bioavailability, Phytotoxicity and Bioaccumulation of Heavy Metals|Ph.D.Thesis, Oklahoma State Univ., Norman, OK:151 p.|2004|
85753|AT||Ford,D.K.|Sublethal Effects of Stressors on Physiological and Morphological Parameters in the Diamondback Terrapin, Malaclemys terrapin|Ph.D.Thesis, Ohio Univ., Athens, OH:136 p.|2005|
85754|A||Khoury,J.N.|Behavioral and Subcellular Approach to Understanding Metal Toxicity in Fiddler Crabs|Ph.D.Thesis, The City University of New York, New York, NY:199 p.|2005|
85755|T||Kazacos,E.A.|Studies on the Pathogenesis of Pancreatic Alterations in Zinc Toxicosis in Ducklings  (Volumes I and II)|Ph.D.Thesis, Purdue University, West Lafayette, IN:489 p.|1984|
85756|A||Yescott,R.E., and E.L. Hansen|Effect of Manganese on Biomphalaria glabrata Infected with Schistosoma mansoni|J. Invertebr. Pathol.28(3): 315-320|1976|10.1016/0022-2011(76)90005-7
85757|T||Bradham,K.D., E.A. Dayton, N.T. Basta, J. Schroder, M. Payton, and R.P. Lanno|Effect of Soil Properties on Lead Bioavailability and Toxicity to Earthworms|Environ. Toxicol. Chem.25(3): 769-775|2006|10.1897/04-552R.1
85758|T||Burkey,R.T., J.R. Nation, C.A. Grover, and G.R. Bratton|Effects of Chronic Lead Exposure on Cocaine-Induced Disturbance of Fixed-Interval Behavior|Pharmacol. Biochem. Behav.56(1): 117-121|1997|10.1016/S0091-3057(96)00167-0
85759|T||Chang,H.R., S.S. Chen, D.A. Tsao, J.T. Cheng, C.K. Ho, and H.S. Yu|Change of Cardiac beta-Adrenoceptors in Lead-Exposed Rats|Toxicology123(1-2): 27-32|1997|10.1016/S0300-483X(97)00100-5
85760|T||Ma,T., H.H. Chen, H.L. Chang, A.S. Hume, and I.K. Ho|Effects of Chronic Lead Exposure on [3H]MK-801 Binding in the Brain of Rat|Toxicol. Lett.92(1): 59-66|1997|10.1016/S0378-4274(97)00035-0
85761|T||Ma,T., H.H. Chen, D.K. Lim, A.S. Hume, and I.K. Ho|Effects of Subacute Lead Exposure on [3H]MK-801 Binding in Hippocampus and Cerebral Cortex in the Adult Rat|Brain Res.760(1-2): 187-192|1997|10.1016/S0006-8993(97)00279-5
85764|T||Chang,H.R., S.S. Chen, D.A. Tsao, J.T. Cheng, C.K. Ho, and H.S. Yu|Reduced Vascular beta-Adrenergic Receptors and Catecholamine Response in Rats with Lead Induced Hypertension|Arch. Toxicol.71(12): 778-781|1997|10.1007/s002040050460
85766|T||Daggett,D.A., E.F. Nuwaysir, S.A. Nelson, L.S. Wright, S.E. Kornguth, and F.L. Siegel|Effects of Triethyl Lead Administration on the Expression of Glutathione S-Transferase Isoenzymes and Quinone Reductase in Rat Kidney and Liver|Toxicology117(1): 61-71|1997|10.1016/S0300-483X(96)03555-X
85767|T||Ding,Y., N.D. Vaziri, and H.C. Gonick|Lead-Induced Hypertension  II.  Response to Sequential Infusions of L-Arginine, Superoxide Dismutase, and Nitroprusside.|Environ. Res.76(2): 107-113|1998|10.1006/enrs.1997.3796
85768|T||Gong,Z., and H.L. Evans|Effect of Chelation with meso-Dimercaptosuccinic Acid (DMSA) Before and After the Appearance of Lead-Induced Neurotoxicity in the Rat|Toxicol. Appl. Pharmacol.144(2): 205-214|1997|10.1006/taap.1997.8118
85769|T||Guilarte,T.R., and J.L. McGlothan|Hippocampal NMDA Receptor mRNA Undergoes Subunit Specific Changes During Developmental Lead Exposure|Brain Res.790(1-2): 98-107|1998|10.1016/S0006-8993(98)00054-7
85770|T||Hsu,P.C., M.Y. Liu, C.C. Hsu, L.Y. Chen, and Y.L. Guo|Lead Exposure Causes Generation of Reactive Oxygen Species and Functional Impairment in Rat Sperm|Toxicology122(1-2): 133-143|1997|10.1016/S0300-483X(97)00090-5
85771|T||Jagetia,G.C., and R. Aruna|Effect of Various Concentrations of Lead Nitrate on the Induction of Micronuclei in Mouse Bone Marrow|Mutat. Res.415(1-2): 131-137|1998|10.1016/S1383-5718(98)00052-7
85772|T||Grover,C.A., and G.D. Frye|Ethanol Effects on Synaptic Neurotransmission and Tetanus-Induced Synaptic Plasticity in Hippocampal Slices of Chronic In Vivo Lead-Exposed Adult Rats|Brain Res.734(1-2): 61-71|1996|10.1016/0006-8993(96)00300-9
85773|T||Nihei,M.K., and T.R. Guilarte|NMDAR-2A Subunit Protein Expression is Reduced in the Hippocampus of Rats Exposed to Pb2+ During Development|Mol. Brain Res.66(1-2): 42-49|1999|10.1016/S0169-328X(99)00005-4
85774|T||Ruan,D.Y., J.T. Chen, C. Zhao, Y.Z. Xu, M. Wang, and W.F. Zhao|Impairment of Long-Term Potentiation and Paired-Pulse Facilitation in Rat Hippocampal Dentate Gyrus Following Developmental Lead Exposure In Vivo|Brain Res.806(2): 196-201|1998|10.1016/S0006-8993(98)00739-2
85775|T||Zhao,Q., V. Slavkovich, and W. Zheng|Lead Exposure Promotes Translocation of Protein Kinase C Activities in Rat Choroid Plexus In Vitro, but not In Vivo|Toxicol. Appl. Pharmacol.149(1): 99-106|1998|10.1006/taap.1997.8352
85776|A||Cain,D.J., D.B. Buchwalter, and S.N. Luoma|Influence of Metal Exposure History on the Bioaccumulation and Subcellular Distribution of Aqueous Cadmium in the Insect Hydropsyche californica|Environ. Toxicol. Chem.25(4): 1042-1049|2006|10.1897/05-255R.1
85777|T||Selvin-Testa,A., F. Capani, C.F. Loidl, and J. Pecci-Saavedra|The Nitric Oxide Synthase Expression of Rat Cortical and Hippocampal Neurons Changes After Early Lead Exposure.|Neurosci. Lett.236(2): 75-78|1997|10.1016/S0304-3940(97)00736-2
85778|T||Jett,D.A., A.C. Kuhlmann, S.J. Farmer, and T.R. Guilarte|Age-Dependent Effects of Developmental Lead Exposure on Performance in the Morris Water Maze|Pharmacol. Biochem. Behav.57(1-2): 271-279|1997|10.1016/S0091-3057(96)00350-4
85779|T||Fregoneze,J.B., C.P. Luz, C. Sarmento, V. Gonzalez, P. Oliveira, P.,Jr. Santana, C.A. Marinho, L. Castro, T. Nascimento|Central Lead Administration Induces Natriuretic and Kaliuretic Effects in Rats|Physiol. Behav.65(2): 321-326|1998|10.1016/S0031-9384(98)00172-3
85780|T||Gurer,H., H. Ozgunes, R. Neal, D.R. Spitz, and N. Ercal|Antioxidant Effects of N-Acetylcysteine and Succimer in Red Blood Cells from Lead-Exposed Rats|Toxicology128(3): 181-189|1998|10.1016/S0300-483X(98)00074-2
85781|A||De Magalhaes,C.C.P., D. Cardoso, C.P. Dos Santos, and R.M. Chaloub|Physiological and Photosynthetic Responses of Synechocystis aquatilis f. aquatilis (Cyanophyceae) to Elevated Levels of Zinc|J. Phycol.40(3): 496-504|2004|10.1111/j.1529-8817.2004.03094.x
85782|A||Yu,R.Q., and W.X. Wang|Biological Uptake of Cd, Se(IV) and Zn by Chlamydomonas reinhardtii in Response to Different Phosphate and Nitrate Additions|Aquat. Microb. Ecol.35(2): 163-173|2004|10.3354/ame035163
85783|A||Rupainwar,D.C., S. Rai, M.S.N. Swami, and Y.C. Sharma|Uptake of Zinc from Water and Wastewater by a Commonly Available Macrophyte|Int. J. Environ. Stud.61(4): 395-401|2004|10.1080/0020723042000211259
85784|T||Knowles,S.O., and W.E. Donaldson|Dietary Lead Alters Fatty Acid Composition and Membrane Peroxidation in Chick Liver Microsomes|Poult. Sci.75(12): 1498-1500|1996|10.3382/ps.0751498
85785|T||Fong,L.Y.Y., K.M. Lau, K. Huebner, and P.N. Magee|Induction of Esophageal Tumors in Zinc-Deficient Rats by Single Low Doses of N-Nitrosomethylbenzylamine (NMBA):  Analysis of Cell Proliferation, and Mutations in H-ras and p53 Genes|Carcinogenesis18(8): 1477-1484|1997|10.1093/carcin/18.8.1477
85786|A||Haga,Y., T. Suzuki, H. Kagechika, and T. Takeuchi|A Retinoic Acid Receptor-Selective Agonist Causes Jaw Deformity in the Japanese Flounder, Paralichthys olivaceus|Aquaculture221(1-4): 381-392|2003|10.1016/S0044-8486(03)00076-0
85787|A||Horst,M.N., and A.N. Walker|Effects of the Pesticide Methoprene on Morphogenesis and Shell Formation in the Blue Crab Callinectes sapidus|J. Crustac. Biol.19(4): 699-707|1999|10.2307/1549293
85788|T||Kojima,T., S. Tsuda, and Y. Shirasu|Non-Cholinergic Mechanisms Underlying the Acute Lethal Effects of P=S Type Organophosphorus Insecticides in Rats|J. Vet. Med. Sci.54(3): 529-533|1992|10.1292/jvms.54.529
85789|A||Saygideger,S., and M. Dogan|Influence of pH on Lead Uptake, Chlorophyll and Nitrogen Content of Nasturtium officinale R. Br. and Mentha aquatica L.|J. Environ. Biol.26(4): 753-759|2005|
85790|A||Tepe,Y., I. Akyurt, C. Ciminli, E. Mutlu, and M. Caliskan|Protective Effect of Clinoptilolite on Lead Toxicity in Common Carp Cyprinus carpio|Fresenius Environ. Bull.13(7): 639-642|2004|
85791|A||Rogers,J.T., M. Patel, K.M. Gilmour, and C.M. Wood|Mechanisms Behind Pb-Induced Disruption of Na+ and Cl- Balance in Rainbow Trout (Oncorhynchus mykiss)|Am. J. Physiol., Regul. Integr. Comp. Physiol.289(2): R463 - R472|2005|10.1152/ajpregu.00362.2004
85792|A||Martinez,C.B.R., M.Y. Nagae, C.T.B.V. Zaia, and D.A.M. Zaia|Acute Morphological and Physiological Effects of Lead in the Neotropical Fish Prochilodus lineatus|Braz. J. Biol.64(4): 797-807|2004|10.1590/S1519-69842004000500009
85793|A||Oliveira Ribeiro,C.A., F. Filipak Neto, M. Mela, P.H. Silva, M.A.F. Randi, I.S. Rabitto, J.R.M. Alves Costa, and E. Pel|Hematological Findings in Neotropical Fish Hoplias malabaricus Exposed to Subchronic and Dietary Doses of Methylmercury, Inorganic Lead, and Tributyltin Chloride|Environ. Res.101(1): 74-80|2006|10.1016/j.envres.2005.11.005
85794|A||Supanopas,P., P. Sretarugsa, M. Kruatrachue, P. Pokethitiyook, and E.S. Upatham|Acute and Subchronic Toxicity of Lead to the Spotted Babylon, Babylonia areolata (Neogastropoda, Buccinidae)|J. Shellfish Res.24(1): 91-98|2005|10.2983/0730-8000(2005)24[91:AASTOL]2.0.CO;2
85795|A||Yongpisanphop,J., M. Kruatrachue, and P. Pokethitiyook|Toxicity and Accumulation of Lead and Chromium in Hydrocotyle umbellata|J. Environ. Biol.26(1): 79-89|2005|
85796|A||Haffor,S.A., and M.I. Al-Ayed|The Effect of Lead Bioaccumulation on Haem Biosynthetic Enzymes in Fish|J. Environ. Biol.24(3): 271-280|2003|
85797|A||Joseph,N., S. Paul, and A.V. Saramma|The Impact of Lead on Growth, Chlorophyll and Productivity Potentials of Tetraselmis gracilis (Kylin)|J. Mar. Biol. Assoc. India39(1-2): 163-165|1997|
85798|A||Srivastava,N., N. Kaushik, and P. Gupta|Zinc Induced Changes in the Liver and Muscle of Fish Channa punctatus (Bloch)|J. Ecophysiol. Occup. Health2(3/4): 197-204|2002|
85799|T||Cottrell,S., K. Oliver, B.G. Lake, and C.J. Powell|Strain-Specific Enhancement or Inhibition of Coumarin Hepatotoxicity in Mice Following Pretreatment with Two Different Liver Enzyme-Inducing Agents|Fundam. Appl. Toxicol.34(1): 47-55|1996|10.1006/faat.1996.0174
85800|T||Gauger,K.J., Y. Kato, K. Haraguchi, H.J. Lehmler, L.W. Robertson, R. Bansal, and R.T. Zoeller|Polychlorinated Biphenyls (PCBs) Exert Thyroid Hormone-Like Effects in the Fetal Rat Brain but do not Bind to Thyroid Hormone Receptors|Environ. Health Perspect.112(5): 516-523|2004|10.1289/ehp.6672
85801|T||Emond,C., M. Charbonneau, and K. Krishnan|Physiologically Based Modeling of the Accumulation in Plasma and Tissue Lipids of a Mixture of PCB Congeners in Female Sprague-Dawley Rats|J. Toxicol. Environ. Health Part A68(16): 1393-1412|2005|10.1080/15287390590956551
85802|T||Thomae,T.L., E.A. Stevens, and C.A. Bradfield|Transforming Growth Factor-beta3 Restores Fusion in Palatal Shelves Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biol. Chem.280(13): 12742-12746|2005|10.1074/jbc.M410780200
85804|A||Jabusch,T.W., and D.L. Swackhamer|Subcellular Accumulation of Polychlorinated Biphenyls in the Green Alga Chlamydomonas reinhardtii|Environ. Toxicol. Chem.23(12): 2823-2830|2004|10.1897/03-431.1
85805|A||Paakkonen,J.P.J., A.L. Rantalainen, A. Karels, A. Nikkila, and J. Karjalainen|Bioaccumulation of PCBs in Burbot (Lota lota L.) After Delivery in Natural Food|Arch. Environ. Contam. Toxicol.49(2): 223-231|2005|10.1007/s00244-004-0077-1
85806|T||Lu,Z., J.C. Tharappel, E.Y. Lee, L.W. Robertson, B.T. Spear, and H.P. Glauert|Effect of a Single Dose of Polychlorinated Biphenyls on Hepatic Cell Proliferation and the DNA Binding Activity of NF-kappaB and AP-1 in Rats|Mol. Carcinog.37(4): 171-180|2003|10.1002/mc.10135
85807|T||Jagadeesan,V.|Effect of Administration of Aroclor 1254 on the Activities of Hepatic Drug Metabolizing Enzymes in Zinc Deficiency|J. Toxicol. Environ. Health34(2): 239-244|1991|10.1080/15287399109531563
85808|T||Powers,B.E., J.J. Widholm, R.E. Lasky, and S.L. Schantz|Auditory Deficits in Rats Exposed to an Environmental PCB Mixture During Development|Toxicol. Sci.89(2): 415-422|2006|10.1093/toxsci/kfj051
85809|T||Stanton,R.J.|Effects of TCDD (2,3,7,8-Tetrachlorodibenzo-p-Dioxin) and Estrogen on Fatty Acid Metabolism in Chickens (Gallus domesticus)|Ph.D. Thesis, University of California, Davis:172 p.|2002|
85810|A||Soffientino,B.|Thyroidal Regulation of Stomach Development and Toxicity of PCB 126 in Metamorphosing Summer Flounder|Ph.D.Thesis, Univ.of Rhode Island, Kingston, RI:271 p.|2003|
85811|A||Carvalho,P.S.M.|Effects of 2,3,7,8-TCDD in Rainbow Trout Early Life Stages.  Evaluation at Different Levels of Biological Organization with a Focus on Visual Function|Ph.D. Thesis, University of Missouri, Columbia, MO:271 p.|2002|
85813|A||Kish,P.A.|Evaluation of Herbicide Impact on Periphyton Community Structure Using the Matlock Periphytometer|J. Freshw. Ecol.21(2): 341-348|2006|10.1080/02705060.2006.9665004
85814|A||Phyu,Y.L., M.St.J. Warne, and R.P. Lim|Toxicity and Bioavailability of Atrazine and Molinate to the Freshwater Fish (Melanotaenia fluviatilis) Under Laboratory and Simulated Field Conditions|Sci. Total Environ.356(1-3): 86-99|2006|10.1016/j.scitotenv.2005.04.003
85815|A||Hayes,T.B., P. Case, S. Chui, D. Chung, C. Haeffele, K. Haston, M. Lee, V.P. Mai, Y. Marjuoa, J. Parker, and M. Tsui|Pesticide Mixtures, Endocrine Disruption, and Amphibian Declines: Are We Underestimating the Impact?|Environ. Health Perspect.114(suppl.1): 40-50|2006|10.1289/ehp.8051
85816|A||Yeh,H.J., and C.Y. Chen|Toxicity Assessment of Pesticides to Pseudokirchneriella subcapitata Under Air-Tight Test Environment|J. Hazard. Mater.131(1-3): 6-12|2006|10.1016/j.jhazmat.2005.09.009
85817|A||Lockert,C.K., K.D. Hoagland, and B.D. Siegfried|Comparative Sensitivity of Freshwater Algae to Atrazine|Bull. Environ. Contam. Toxicol.76(1): 73-79|2006|10.1007/s00128-005-0891-9
85818|T||Su,Y.H., and Y.G. Zhu|Bioconcentration of Atrazine and Chlorophenols into Roots and Shoots of Rice Seedlings|Environ. Pollut.139(1): 32-39|2006|10.1016/j.envpol.2005.04.035
85819|T||Le Goff,G., F. Hilliou, B.D. Siegfried, S. Boundy, E. Wajnberg, L. Sofer, P. Audant, R.H. ffrench-Constant, and R. Feye|Xenobiotic Response in Drosophila melanogaster:  Sex Dependence of P450 and GST Gene Induction|Insect Biochem. Mol. Biol.36(8): 674-682|2006|10.1016/j.ibmb.2006.05.009
85820|T||Rowe,A.M., K.M. Brundage, R. Schafer, and J.B. Barnett|Immunomodulatory Effects of Maternal Atrazine Exposure on Male Balb/c Mice|Toxicol. Appl. Pharmacol.214(1): 69-77|2006|10.1016/j.taap.2005.12.006
85821|T||Newberne,P.M., T.F. Schrager, and S. Broitman|Esophageal Carcinogenesis in the Rat:  Zinc Deficiency and Alcohol Effects on Tumor Induction|Pathobiology65(1): 39-45|1997|10.1159/000164101
85822|T||Carter,J.W., H. Lancaster, W.E. Hardman, and I.L. Cameron|Zinc Deprivation Promotes Progression of 1,2-Dimethylhydrazine-Induced Colon Tumors but Reduces Malignant Invasion in Mice|Nutr.Cancer27(3): 217-221|1997|10.1080/01635589709514529
85823|A||Ebrahimi,M.|Using Computer Assisted Sperm Analysis (CASA) to Monitoring the Effects of Zinc and Cadmium Pollution on Fish Sperm|Iran. J. Fish. Sci.4(2): 81-100|2005|
85824|A||Durou,C., C. Mouneyrac, and C. Amiard-Triquet|Tolerance to Metals and Assessment of Energy Reserves in the Polychaete Nereis diversicolor in Clean and Contaminated Estuaries|Environ. Toxicol.20(1): 23-31|2005|10.1002/tox.20074
85825|A||Noel-Lambot,F., J.M. Bouquegneau, F. Frankenne, and A. Disteche|Cadmium, Zinc and Copper Accumulation in Limpets (Patella vulgata) from the Bristol Channel with Special Reference to Metallothioneins|Mar. Ecol. Prog. Ser.2:81-89|1980|10.3354/meps002081
85827|T||Yadav,P., S. Sarkar, and D. Bhatnagar|Protective Effect of Glutathione and Selenium Against Alloxan Induced Lipid Peroxidation and Loss of Antioxidant Enzymes in Erythrocytes|J. Biosci.19(1): 19-25|1994|10.1007/BF02703464
85828|A||Kalpaxis,D.L., C. Theos, M.A. Xaplanteri, G.P. Dinos, A.V. Catsiki, and M. Leotsinidis|Biomonitoring of Gulf of Patras, N. Peloponnesus, Greece.  Application of a Biomarker Suite Including Evaluation of Translation Efficiency in Mytilus galloprovincialis Cells|Environ. Res.94(2): 211-220|2004|10.1016/S0013-9351(03)00048-3
85829|A||Lin,C.H., J.A.C. John, L.W. Ou, J.C. Chen, and C.Y. Chang|Cloning and Characterization of Metallothionein Gene in Ayu Plecoglossus altivelis|Aquat. Toxicol.66(2): 111-124|2004|10.1016/j.aquatox.2003.06.003
85831|A||Tsuji,N., N. Hirayanagi, O. Iwabe, T. Namba, M. Tagawa, S. Miyamoto, H. Miyasaka, M. Takagi, K. Hirata, and K. Miyamoto|Regulation of Phytochelatin Synthesis by Zinc and Cadmium in Marine Green Alga, Dunaliella tertiolecta|Phytochemistry62(3): 453-459|2003|10.1016/S0031-9422(02)00559-9
85833|T||Baltaci,A.K., R. Mogulkoc, A. Kul, C.S. Bediz, and A. Ugur|Opposite Effects of Zinc and Melatonin on Thyroid Hormones in Rats|Toxicology195(1): 69-75|2004|10.1016/j.tox.2003.09.001
85834|T||Krejpcio,Z., and J. Gawecki|Influence of Dietary Fibre on Lead-Intoxicated Rats|Pol. J. Food Nutr.Sci.6(2): 87-95|1997|
85835|A||Morris,S., W.J. Van Aardt, and M.D. Ahern|The Effect of Lead on the Metabolic and Energetic Status of the Yabby, Cherax Destructor, During Environmental Hypoxia|Aquat. Toxicol.75(1): 16-31|2005|10.1016/j.aquatox.2005.07.001
85836|T||Trombini,T.V., C.G. Pedroso, D. Ponce, A.A. Almeida, and A.F. Godinho|Developmental Lead Exposure in Rats:  Is a Behavioral Sequel Extended at F2 Generation?|Pharmacol. Biochem. Behav.68(4): 743-751|2001|10.1016/S0091-3057(01)00473-7
85837|T||Simini,M., R.T. Checkai, R.G. Kuperman, C.T. Phillips, J.E. Kolakowski, and C.W. Kurnas|Toxicity of RDX, HMX, TNB, 2,4-DNT, and 2,6-DNT to the Earthworm, Eisenia fetida, in a Sandy Loam Soil|Rep.No.ECBC-TR-467, Edgewood Chem.Biol.Ctr., Aberdeen Proving Ground, MD:47 p.|2006|
85838|A||Gatlin III,D.M., H.F. Phillips, and E.L. Torrans|Effects of Various Levels of Dietary Copper and Zinc on Channel Catfish|Aquaculture76(1-2): 127-134|1989|10.1016/0044-8486(89)90257-3
85839|T||Heilmaier,H.E., and K.H. Summer|Metallothionein Content and Zinc Status in Various Tissues of Rats Treated with Iodoacetic Acid and Zinc|Arch. Toxicol.56(4): 247-251|1985|10.1007/BF00295162
85840|T||Llobet,J.M., J.L. Domingo, and J. Corbella|Antidotes for Zinc Intoxication in Mice|Arch. Toxicol.61(4): 321-323|1988|10.1007/BF00364857
85842|T||Flora,G.J.S., V.K. Khanna, and P.K. Seth|Changes in Neurotransmitter Receptors and Neurobehavioral Variables in Rats Co-Exposed to Lead and Ethanol|Toxicol. Lett.109(1/2): 43-49|1999|10.1016/S0378-4274(99)00118-6
85843|T||Khandelwal,S., M. Ashquin, and S.K. Tandon|Influence of Essential Elements on Manganese Intoxication|Bull. Environ. Contam. Toxicol.32(1): 10-19|1984|10.1007/BF01607459
85844|T||Garcia-Arenas,G., L. Claudio, F. Perez-Severiano, and C. Rios|Lead Acetate Exposure Inhibits Nitric Oxide Synthase Activity in Capillary and Synaptosomal Fractions of Mouse Brain|Toxicol. Sci.50(2): 244-248|1999|10.1093/toxsci/50.2.244
85845|T||Sato,M., and M. Sasaki|Enhanced Lipid Peroxidation is not Necessary for Induction of Metallothionein-I by Oxidative Stress|Chem.-Biol. Interact.78(2): 143-154|1991|10.1016/0009-2797(91)90010-5
85846|T||Gedeon,Y., G.T. Ramesh, P.J. Wellman, and A.L. Jadhav|Changes in Mesocorticolimbic Dopamine and D1/D2 Receptor Levels After Low Level Lead Exposure:  A Time Course Study|Toxicol. Lett.123(2-3): 217-226|2001|10.1016/S0378-4274(01)00408-8
85847|T||Ema,M., T. Itami, Y. Ogawa, and H. Kawasaki|Developmental Toxicity Evaluation of Zinc Dimethyldithiocarbamate (Ziram) in Rats|Bull. Environ. Contam. Toxicol.53(6): 930-936|1994|10.1007/BF00196227
85848|T||Goebel,C., K. Kirchhoff, H. Wasmuth, S. Flohe, R.B. Elliott, and H. Kolb|The Gut Cytokine Balance as a Target of Lead Toxicity|Life Sci.64(24): 2207-2214|1999|10.1016/S0024-3205(99)00172-1
85849|T||Wormser,U., and S. BenZakine|Increased Levels of Hepatic and Renal Metallothionein in the Rat and Guinea Pig After Percutaneous Application of Zinc Chloride|Bull. Environ. Contam. Toxicol.46(2): 249-254|1991|10.1007/BF01691945
85850|T||Guilarte,T.R., J.L. McGlothan, and M.K. Nihei|Hippocampal Expression of N-Methyl-D-Aspartate Receptor (NMDAR1) Subunit Splice Variant mRNA is Altered by Developmental Exposure to Pb2+|Mol. Brain Res.76(2): 299-305|2000|10.1016/S0169-328X(00)00010-3
85851|T||Schreiner,E., and K.J. Freundt|Inhibition of Hepatic Epoxide Hydrolase and Glutathione S-Transferase in Rats by Bis(Dimethyldithiocarbamato) Zinc (Ziram)|Bull. Environ. Contam. Toxicol.37(1): 53-54|1986|10.1007/BF01607728
85854|T||Kojima,M., K. Nemoto, U. Murai, N. Yoshimura, Y. Ayabe, and M. Degawa|Altered Gene Expression of Hepatic Lanosterol 14alpha-Demethylase (CYP51) in Lead Nitrate-Treated Rats|Arch. Toxicol.76(7): 398-403|2002|10.1007/s00204-002-0365-3
85855|A||Leal,R.B., S.J. Ribeiro, T. Posser, F.M. Cordova, A.P. Rigon, E.Z. Filho, and A.C.D. Bainy|Modulation of ERK1/2 and p38MAPK by Lead in the Cerebellum of Brazilian Catfish Rhamdia quelen|Aquat. Toxicol.77(1): 98-104|2006|10.1016/j.aquatox.2005.11.002
85856|T||Sato,M., M. Sasaki, T. Oguro, Y. Kuroiwa, and T. Yoshida|Induction of Metallothionein Synthesis by Glutathione Depletion After Trans- and cis-stilbene Oxide Administration in Rats|Chem.-Biol. Interact.98(1): 15-25|1995|10.1016/0009-2797(95)03629-Z
85857|T||Ma,T., H.H. Chen, and I.K. Ho|Effects of Chronic Lead (Pb) Exposure on Neurobehavioral Function and Dopaminergic Neurotransmitter Receptors in Rats|Toxicol. Lett.105(2): 111-121|1999|10.1016/S0378-4274(98)00388-9
85858|A||Cenini,P.|Induction of Metal-Binding Proteins by Zinc is Accompanied by Reduction of Other Proteins Including Antibodies|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 213-217|1985|10.1016/0742-8413(85)90117-3
85859|T||Mateus,M.L., A.P.M. dos Santos, and M.C.C. Batoreu|Interaction of Zinc on Biomarker Responses in Rats Exposed to 2,5-Hexanedione by Two Routes of Exposure|Toxicol. Lett.119(1): 39-47|2001|10.1016/S0378-4274(00)00298-8
85860|T||Medici,V., A. Santon, G.C. Sturniolo, R. D'Inca, S. Giannetto, V. Albergoni, and P. Irato|Metallothionein and Antioxidant Enzymes in Long-Evans Cinnamon Rats Treated with Zinc|Arch. Toxicol.76(9): 509-516|2002|10.1007/s00204-002-0377-z
85861|T||Zaporowska,H., and W. Wasilewski|Combined Effect of Vanadium and Zinc on Certain Selected Haematological Indices in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol.103(1): 143-147|1992|10.1016/0742-8413(92)90243-Z
85863|T||Miller,D.K., J.R. Nation, T.E. Jost, J.B. Schell, and G.R. Bratton|Differential Effects of Adult and Perinatal Lead Exposure on Morphine-Induced Locomotor Activity in Rats|Pharmacol. Biochem. Behav.67(2): 281-290|2000|10.1016/S0091-3057(00)00362-2
85864|T||Zareba,G., J. Chmielnicka, and G. Kustra|Interaction of Tin and Zinc in Some Processes of Heme Biosynthesis in Rabbits|Ecotoxicol. Environ. Saf.11(2): 144-152|1986|10.1016/0147-6513(86)90058-8
85865|T||Jiang,Q.G., J.G. Sun, and X.F. Qin|The Effects of Trinitrotoluene Toxicity on Zinc and Copper Metabolism|Toxicol. Lett.55(3): 343-349|1991|10.1016/0378-4274(91)90016-Y
85866|T||Moreira,E.G., G.J. De Magalhaes Rosa, S.B.M. Barros, V.S. Vassilieff, and I. Vassillieff|Antioxidant Defense in Rat Brain Regions After Developmental Lead Exposure|Toxicology169(2): 145-151|2001|10.1016/S0300-483X(01)00497-8
85868|T||Nemoto,K., S. Miyata, F. Nemoto, T. Yasumoto, U. Murai, H. Kageyama, and M. Degawa|Gene Expression of Neurotrophins and Their Receptors in Lead Nitrate-Induced Rat Liver Hyperplasia|Biochem. Biophys. Res. Commun.275(2): 472-476|2000|10.1006/bbrc.2000.3340
85870|T||Nihei,M.K., N.L. Desmond, J.L. McGlothan, A.C. Kuhlmann, and T.R. Guilarte|N-Methyl-D-Aspartate Receptor Subunit Changes are Associated with Lead-Induced Deficits of Long-Term Potentiation and Spatial Learning|Neuroscience99(2): 233-242|2000|10.1016/S0306-4522(00)00192-5
85871|A||Weis,P., J.S. Weis, and L.M. Coohill|Toxicity to Estuarine Organisms of Leachates from Chromated Copper Arsenate Treated Wood|Arch. Environ. Contam. Toxicol.20(1): 118-124|1991|10.1007/BF01065337
85873|T||Pande,M., and S.J.S. Flora|Lead Induced Oxidative Damage and Its Response to Combined Administration of alpha-Lipoic Acid and Succimers in Rats|Toxicology177(2-3): 187-196|2002|10.1016/S0300-483X(02)00223-8
85874|T||Patra,R.C., D. Swarup, and S.K. Dwivedi|Antioxidant Effects of alpha-Tocopherol, Ascorbic Acid and L-Methionine on Lead Induced Oxidative Stress to the Liver, Kidney and Brain in Rats|Toxicology162(2): 81-88|2001|10.1016/S0300-483X(01)00345-6
85876|T||Ramesh,G.T., S.K. Manna, B.B. Aggarwal, and A.L. Jadhav|Lead Exposure Activates Nuclear Factor kappa B, Activator Protein-1, c-Jun N-Terminal Kinase and Caspases in the Rat Brain|Toxicol. Lett.123(2-3): 195-207|2001|10.1016/S0378-4274(01)00395-2
85879|T||Salinas,J.A., and N.C. Huff|Lead and Conditioned Fear to Contextual and Discrete Cues|Neurotoxicol. Teratol.24(4): 541-550|2002|10.1016/S0892-0362(02)00265-9
85880|T||Salinas,J.A., and N.C. Huff|Lead and Spatial vs. Cued Open Field Performance|Neurotoxicol. Teratol.24(4): 551-557|2002|10.1016/S0892-0362(02)00266-0
85881|T||Seaton,C.L., J. Lasman, and D.R. Smith|The Effects of CaNa2EDTA on Brain Lead Mobilization in Rodents Determined Using a Stable Lead Isotope Tracer|Toxicol. Appl. Pharmacol.159(3): 153-160|1999|10.1006/taap.1999.8725
85882|T||DeWoskin,R.S., and J.E. Riviere|Cisplatin-Induced Loss of Kidney Copper and Nephrotoxicity is Ameliorated by Single Dose Diethyldithiocarbamate, but not Mesna|Toxicol. Appl. Pharmacol.112(2): 182-189|1992|10.1016/0041-008X(92)90186-V
85883|T||Struzynska,L., I. Bubko, M. Walski, and U. Rafalowska|Astroglial Reaction During the Early Phase of Acute Lead Toxicity in the Adult Rat Brain|Toxicology165(2-3): 121-131|2001|10.1016/S0300-483X(01)00415-2
85885|T||Tavakoli-Nezhad,M., A.J. Barron, and D.K. Pitts|Postnatal Inorganic Lead Exposure Decreases the Number of Spontaneously Active Midbrain Dopamine Neurons in the Rat|Neurotoxicology22(2): 259-269|2001|10.1016/S0161-813X(01)00010-9
85886|T||Toscano,C.D., H. Hashemzadeh-Gargari, J.L. McGlothan, and T.R. Guilarte|Developmental Pb2+ Exposure Alters NMDAR Subtypes and Reduces CREB Phosphorylation in the Rat Brain|Brain Res. Dev. Brain Res.139(2): 217-226|2002|10.1016/S0165-3806(02)00569-2
85887|T||Miyahara,T., S. Nemoto, T. Kaji, H. Yamada, M. Takeuchi, M.A. Mori, and H. Kozuka|The Synthesis of Metallothionein-Like Protein Containing Zinc in Liver of Rat After Administration of Calcium and Calcitonin|Toxicol. Lett.31(2): 113-123|1986|10.1016/0378-4274(86)90004-4
85888|T||Toscano,C.D., J.L. McGlothan, and T.R. Guilarte|Lead Exposure Alters Cyclic-AMP Response Element Binding Protein Phosphorylation and Binding Activity in the Developing Rat Brain|Brain Res. Dev. Brain Res.145(2): 219-228|2003|10.1016/j.devbrainres.2003.08.004
85890|T||Yamaguchi,M., and K. Takahashi|Decrease in Insulin Secretion Related to Hypocalcemia Induced by a high Dose of Zinc in Rats|Toxicol. Lett.22(2): 175-180|1984|10.1016/0378-4274(84)90063-8
85891|T||Oishi,S.|Enhancing Effects of Luteinizing Hormone-Releasing Hormone on Testicular Damage Induced by Di-(2-Ethylhexyl)phthalate in Rats|Toxicol. Lett.47(3): 271-277|1989|10.1016/0378-4274(89)90145-8
85892|T||Villeda-Hernandez,J., R. Barroso-Moguel, M. Mendez-Armenta, C. Nava-Ruiz, R. Huerta-Romero, and C. Rios|Enhanced Brain Regional Lipid Peroxidation in Developing Rats Exposed to Low Level Lead Acetate|Brain Res. Bull.55(2): 247-251|2001|10.1016/S0361-9230(01)00512-3
85893|T||Wright,T.L., P. Brissot, W.L. Ma, and R.A. Weisiger|Characterization of Non-Transferrin-Bound Iron Clearance by Rat Liver|J. Biol. Chem.261(23): 10909-10914|1986|10.1016/S0021-9258(18)67473-3
85895|T||Zang,X.P., H. Tanii, K. Kobayashi, T. Higashi, R. Oka, Y. Koshino, and K. Saijoh|Behavioral Abnormalities and Apoptotic Changes in Neurons in Mice Brain Following a Single Administration of Allylnitrile|Arch. Toxicol.73(1): 22-32|1999|10.1007/s002040050582
85896|T||Miranda,C.L., M.C. Henderson, and D.R. Buhler|Influence of Tansy Ragwort (Senecio jacobaea), Dietary Copper, and Feed Restriction on the Subcellular Distribution of Minerals in Rat Liver|Toxicol. Appl. Pharmacol.76(1): 62-68|1984|10.1016/0041-008X(84)90029-2
85897|T||Lehman-McKeeman,L.D., G.K. Andrews, and C.D. Klaassen|Mechanisms of Regulation of Rat Hepatic Metallothionein-I and Metallothionein-II Levels Following Administration of Zinc|Toxicol. Appl. Pharmacol.92(1): 1-9|1988|10.1016/0041-008X(88)90221-9
85898|T||Zhang,X.Y., A.P. Liu, D.Y. Ruan, and J. Liu|Effect of Developmental Lead Exposure on the Expression of Specific NMDA Receptor Subunit mRNAs in the Hippocampus of Neonatal Rats by Digoxigenin-Labeled In Situ Hybridization Histochemistry|Neurotoxicol. Teratol.24(2): 149-160|2002|10.1016/S0892-0362(01)00210-0
85899|T||Chmielnicka,J., G. Zareba, and U. Grabowska|Protective Effect of Zinc on Heme Biosynthesis Disturbances in Rabbits after Administration Per Os of Tin|Ecotoxicol. Environ. Saf.24(3): 266-274|1992|10.1016/0147-6513(92)90002-K
85900|T||Zhao,W.F., D.Y. Ruan, Y.Z. Xu, J.T. Chen, M. Wang, and S.Y. Ge|The Effects of Chronic Lead Exposure on Long-Term Depression in Area CA1 and Dentate Gyrus of Rat Hippocampus In Vitro|Brain Res.818(1): 153-159|1999|10.1016/S0006-8993(98)01207-4
85901|A||Yaowakhan,P., M. Kruatrachue, P. Pokethitiyook, and V. Soonthornsarathool|Removal of Lead Using Some Aquatic Macrophytes|Bull. Environ. Contam. Toxicol.75(4): 723-730|2005|10.1007/s00128-005-0811-z
85902|T||Miller,D.K., J.R. Nation, and G.R. Bratton|Perinatal Exposure to Lead Attenuates the Conditioned Reinforcing Properties of Cocaine in Male Rats|Pharmacol. Biochem. Behav.67(1): 111-119|2000|10.1016/S0091-3057(00)00303-8
85903|T||Chakrabarti,S., and J. Brodeur|Influence of Zinc Chloride on the Metabolism and Hepatotoxicity of Bromobenzene in Rats|Environ. Res.37(1): 192-204|1985|10.1016/0013-9351(85)90057-X
85904|T||McMillan,D.A., and R.C. Schnell|Amelioration of Bromobenzene Hepatotoxicity in the Male Rat by Zinc|Fundam. Appl. Toxicol.5(2): 297-304|1985|10.1016/0272-0590(85)90077-6
85905|T||Daston,G.P., G.J. Overmann, M.W. Taubeneck, L.D. Lehman-McKeeman, J.M. Rogers, and C.L. Keen|The Role of Metallothionein Induction and Altered Zinc Status in Maternally Mediated Developmental Toxicity:  Comparison of the Effects of Urethane and Styrene in Rats|Toxicol. Appl. Pharmacol.110(3): 450-463|1991|10.1016/0041-008X(91)90046-H
85906|A||Rougier,F., A. Menudier, D. Troutaud, C. Bosgiraud, A. Ndoye, J.A. Nicolas, and P. Deschaux|In Vivo Effect of Zinc and Copper on the Development of Listeriosis in Zebrafish, Brachydanio rerio (Hamilton-Buchanan)|J. Fish Dis.15(5): 453-456|1992|10.1111/j.1365-2761.1992.tb01247.x
85907|A||De Nicola,M., C. Gambardella, and S.M. Guarino|Interactive Effects of Cadmium and Zinc Pollution on PGI and PGM Polymorphisms in Idotea baltica|Mar. Pollut. Bull.24(12): 619-621|1992|10.1016/0025-326X(92)90283-C
85908|A||Everall,N.C., N.A.A. MacFarlane, and R.W. Sedgwick|The Interactions of Water Hardness and pH with the Acute Toxicity of Zinc to the Brown Trout, Salmo trutta L.|J. Fish Biol.35(1): 27-36|1989|10.1111/j.1095-8649.1989.tb03390.x
85909|A||Spry,D.J., and C.M. Wood|The Influence of Dietary and Waterborne Zinc on Heat-Stable Metal Ligands in Rainbow Trout, Salmo gairdneri Richardson:  Quantification by 109Cd Radioassay and Evaluation of the Assay|J. Fish Biol.35(4): 557-576|1989|10.1111/j.1095-8649.1989.tb03006.x
85910|T||Vasavada,A.B., and D.P.H. Hsieh|Effects of Metals on 3-Acetyldeoxynivalenol Production by Fusarium graminearum R2118 in Submerged Cultures|Appl. Environ. Microbiol.54(4): 1063-1065|1988|10.1128/aem.54.4.1063-1065.1988
85911|T||Banu,B.S., K.D. Devi, M. Mahboob, and K. Jamil|In Vivo Genotoxic Effect of Zinc Sulfate in Mouse Peripheral Blood Leukocytes Using Comet Assay|Drug Chem. Toxicol.24(1): 63-73|2001|10.1081/DCT-100103086
85912|T||Dearth,R.K., J.K. Hiney, V. Srivastava, S.B. Burdick, G.R. Bratton, and W.L. Dees|Effects of Lead (Pb) Exposure During Gestation and Lactation on Female Pubertal Development in the Rat|Reprod. Toxicol.16(4): 343-352|2002|10.1016/S0890-6238(02)00037-0
85914|T||Krari,N., and P. Allain|Effect of L-DOPA on Copper Concentrations in the Rat Brain|Neurotoxicology14(1): 81-82|1993|
85915|T||Mehta,A., and S.J.S. Flora|Possible Role of Metal Redistribution, Hepatotoxicity and Oxidative Stress in Chelating Agents Induced Hepatic and Renal Metallothionein in Rats|Food Chem. Toxicol.39(10): 1029-1038|2001|10.1016/S0278-6915(01)00046-1
85916|T||Moorman,W.J., S.R. Skaggs, J.C. Clark, T.W. Turner, D.D. Sharpnack, J.A. Murrell, S.D. Simon, R.E. Chapin, and S.M. Sch|Male Reproductive Effects of Lead, Including Species Extrapolation for the Rabbit Model|Reprod. Toxicol.12(3): 333-346|1998|10.1016/S0890-6238(98)00010-0
85917|A||Mukherjee,S., and S. Kumar|Adsorptive Uptake of Arsenic (V) from Water by Aquatic Fern Salvinia natans|J. Water Supply Res. Technol.54(1): 47-53|2005|10.2166/aqua.2005.0005
85918|T||Murthy,R.C., S.K. Gupta, and D.K. Saxena|Nuclear Alterations During Acrosomal Cap Formation in Spermatids of Lead-Treated Rats|Reprod. Toxicol.9(5): 483-489|1995|10.1016/0890-6238(95)00040-H
85919|T||Sahu,S.C., and C.J. Dominic|Effect of Zinc Sulphate-Induced Peripheral Anosmia on the Bruce Effect in Laboratory Mice|J. Adv. Zool.8(1): 9-16|1987|
85920|T||Shackelford,M.E., and R.A. Tobey|Preliminary Report on the Use of Zinc In Vivo to Protect Against Nitrogen Mustard Toxicity in Female Balb/cJ Mice|J. Appl. Toxicol.12(4): 291-293|1992|10.1002/jat.2550120414
85921|T||Shackelford,M.E., and R.A. Tobey|Attempted Use of Zinc In Vivo to Protect Against Nitrogen Mustard Toxicity in Tumor-Free and in L1210 Leukemia-Bearing Female B6D2F(1) Mice|J. Appl. Toxicol.12(4): 295-300|1992|10.1002/jat.2550120415
85923|A||Turgut,C.|The Effect of Pesticides on Duckweed at Their Predicted Environmental Concentrations in Europe|Fresenius Environ. Bull.14(9): 783-787|2005|
85924|T||Hoglen,N.C., H.S. Younis, D.P. Hartley, L. Gunawardhana, R.C. Lantz, and I.G. Sipes|1,2-Dichlorobenzene-Induced Lipid Peroxidation in Male Fischer 344 Rats is Kupffer Cell Dependent|Toxicol. Sci.46(2): 376-385|1998|
85925|T||Gunawardhana,L., S.A. Mobley, and I.G. Sipes|Modulation of 1,2-Dichlorobenzene Hepatotoxicity in the Fischer-344 Rat by a Scavenger of Superoxide Anions and an Inhibitor of Kupffer Cells|Toxicol. Appl. Pharmacol.119(2): 205-213|1993|10.1006/taap.1993.1061
85926|T||Stine,E.R., L. Gunawardhana, and I.G. Sipes|The Acute Hepatotoxicity of the Isomers of Dichlorobenzene in Fischer-344 and Sprague-Dawley Rats:  Isomer-Specific and Strain-Specific Differential Toxicity|Toxicol. Appl. Pharmacol.109(3): 472-481|1991|10.1016/0041-008X(91)90010-C
85927|T||Den Besten,C., J.J.R.M. Vet, H.T. Besselink, G.S. Kiel, B.J.M. Van Berkel, R. Beems, and P.J. Van Bladeren|The Liver, Kidney, and Thyroid Toxicity of Chlorinated Benzenes|Toxicol. Appl. Pharmacol.111(1): 69-81|1991|10.1016/0041-008X(91)90135-2
85928|T||Kato,Y., T. Kogure, M. Sato, and R. Kimura|Contribution of Methylsulfonyl Metabolites of m-Dichlorobenzene to the Heme Metabolic Enzyme Induction by the Parent Compound in Rat Liver|Toxicol. Appl. Pharmacol.96(3): 550-559|1988|10.1016/0041-008X(88)90014-2
85929|T||Kimura,R., M. Kawai, Y. Kato, M. Sato, T. Aimoto, and T. Murata|Role of 3,5-Dichlorophenyl Methyl Sulfone, a Metabolite of m-Dichlorobenzene, in the Induction of Hepatic Microsomal Drug-Metabolizing Enzymes by m-Dichlorobenzene in Rats|Toxicol. Appl. Pharmacol.78(2): 300-309|1985|10.1016/0041-008X(85)90293-5
85930|T||Yang,K.H., R.E. Peterson, and J.M. Fujimoto|Increased Bile Duct-Pancreatic Fluid Flow in Benzene and Halogenated Benzene-Treated Rats|Toxicol. Appl. Pharmacol.47(3): 505-514|1979|10.1016/0041-008X(79)90521-0
85932|T||Younis,H.S., N.C. Hoglen, R.K. Kuester, L. Gunawardhana, and I.G. Sipes|1,2-Dichlorobenzene-Mediated Hepatocellular Oxidative Stress in Fischer-344 and Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.163(2): 141-148|2000|10.1006/taap.1999.8860
85933|T||Umemura,T., M. Saito, A. Takagi, and Y. Kurokawa|Isomer-Specific Acute Toxicity and Cell Proliferation in Livers of B6C3F1 Mice Exposed to Dichlorobenzene|Toxicol. Appl. Pharmacol.137(2): 268-274|1996|10.1006/taap.1996.0080
85934|A||Qian,Yu, D. Yin, Y. Li, J. Wang, M. Zhang, and S. Hu|Effects of Four Chlorobenzenes on Serum Sex Steroids and Hepatic Microsome Enzyme Activities in Crucian Carp, Carassius auratus|Chemosphere57(2): 127-133|2004|10.1016/j.chemosphere.2004.04.044
85935|T||Kato,Y., and R. Kimura|Role of 3,4-Dichlorophenyl Methyl Sulfone, a Metabolite of o-Dichlorobenzene, in the Changes in Hepatic Microsomal Drug-Metabolizing Enzymes Caused by o-Dichlorobenzene Administration in Rats|Toxicol. Appl. Pharmacol.145(2): 277-284|1997|10.1006/taap.1997.8191
85936|T||Gustafson,D.L., A.L. Coulson, L. Feng, W.A. Pott, R.S. Thomas, L.S. Chubb, S.A. Saghir, S.A. Benjamin, and R.S.H. Yang|Use of a Medium-Term Liver Focus Bioassay to Assess the Hepatocarcinogenicity of 1,2,4,5-Tetrachlorobenzene and 1,4-Dichlorobenzene|Cancer Lett.129(1): 39-44|1998|10.1016/S0304-3835(98)00078-0
85937|T||Valentovic,M.A., J.G. Ball, D. Anestis, and E. Madan|Acute Hepatic and Renal Toxicity of Dichlorobenzene Isomers in Fischer 344 Rats|J. Appl. Toxicol.13(1): 1-7|1993|10.1002/jat.2550130103
85938|T||Mohtashamipur,E., R. Triebel, H. Straeter, and K. Norpoth|The Bone Marrow Clastogenicity of Eight Halogenated Benzenes in Male NMRI Mice|Mutagenesis2(2): 111-113|1987|10.1093/mutage/2.2.111
85940|A||Brown,M.D., J. Carter, D. Thomas, D.M. Purdie, and B.H. Kay|Pulse-Exposure Effects of Selected Insecticides to Juvenile Australian Crimson-Spotted Rainbowfish (Melanotaenia duboulayi)|J. Econ. Entomol.95(2): 294-298|2002|10.1603/0022-0493-95.2.294
85941|A||Batty,L.C., and P.L. Younger|Effects of External Iron Concentration upon Seedling Growth and Uptake of Fe and Phosphate by the Common Reed, Phragmites australis (Cav.) Trin ex. Steudel|Ann. Bot.92(6): 801-806|2003|10.1093/aob/mcg205
85942|A||Dayeh,V.R., D.H. Lynn, and N.C. Bols|Cytotoxicity of Metals Common in Mining Effluent to Rainbow Trout Cell Lines and to the Ciliated Protozoan, Tetrahymena thermophila|Toxicol. In Vitro19(3): 399-410|2005|10.1016/j.tiv.2004.12.001
85943|T||Gupta,V., and K.D. Gill|Lead and Ethanol Coexposure:  Implications on the Dopaminergic System and Associated Behavioral Functions|Pharmacol. Biochem. Behav.66(3): 465-474|2000|10.1016/S0091-3057(00)00266-5
85944|T||Lasley,S.M., and M.E. Gilbert|Rat Hippocampal Glutamate and GABA Release Exhibit Biphasic Effects as a Function of Chronic Lead Exposure Level|Toxicol. Sci.66(1): 139-147|2002|10.1093/toxsci/66.1.139
85945|T||Malinverno,G., I. Colombo, and M. Visca|Toxicological Profile of Hydrofluoropolyethers|Regul. Toxicol. Pharmacol.41(3): 228-239|2005|10.1016/j.yrtph.2004.12.003
85946|A||Metts,B.S., W.A. Hopkins, and J.P. Nestor|Interaction of an Insecticide with Larval Density in Pond-Breeding Salamanders (Ambystoma)|Freshw. Biol.50(4): 685-696|2005|10.1111/j.1365-2427.2005.01342.x
85947|T||Metwally,A., V.I. Safronova, A.A. Belimov, and K.J. Dietz|Genotypic Variation of the Response to Cadmium Toxicity in Pisum sativum L.|J. Exp. Bot.56(409): 167-178|2005|
85948|A||Mgbenka,B.O., N.S. Oluah, and I. Umeike|Effect of Gammalin 20 (Lindane) on Differential White Blood Cell Counts of the African Catfish, Clarias albopunctatus|Bull. Environ. Contam. Toxicol.71(2): 248-254|2003|10.1007/s00128-003-0157-3
85949|A||Negri,A., C. Vollhardt, C. Humphrey, A. Heyward, R. Jones, G. Eaglesham, and K. Fabricius|Effects of the Herbicide Diuron on the Early Life History Stages of Coral|Mar. Pollut. Bull.51(1-4): 370-383|2005|10.1016/j.marpolbul.2004.10.053
85950|A||Olmstead,A.W., and G.A. LeBlanc|Insecticidal Juvenile Hormone Analogs Stimulate the Production of Male Offspring in the Crustacean Daphnia magna|Environ. Health Perspect.111(7): 919-924|2003|10.1289/ehp.5982
85951|T||Ottinger,M.A., J.M. Wu, J.L. Hazelton, M.A. Abdelnabi, N. Thompson, M.L.,Jr. Quinn, D. Donoghue, F. Schenck, M. Ruscio,|Assessing the Consequences of the Pesticide Methoxychlor:  Neuroendocrine and Behavioral Measures as Indicators of Biological Impact of an Estrogenic Environmental Chemical|Brain Res. Bull.65(3): 199-209|2005|10.1016/j.brainresbull.2004.11.019
85952|A||Peachey,R.B.J.|The Synergism Between Hydrocarbon Pollutants and UV Radiation:  A Potential Link Between Coastal Pollution and Larval Mortality|J. Exp. Mar. Biol. Ecol.315(1): 103-114|2005|10.1016/j.jembe.2004.09.009
85953|T||Ronis,M.J.J., J. Aronson, G.G. Gao, W. Hogue, R.A. Skinner, T.M. Badger, and C.K.,Jr. Lumpkin|Skeletal Effects of Developmental Lead Exposure in Rats|Toxicol. Sci.62(2): 321-329|2001|10.1093/toxsci/62.2.321
85954|T||Smith,J.N., X. Pan, A. Gentles, E.E. Smith, S.B. Cox, and G.P. Cobb|Reproductive Effects of Hexahydro-1,3,5-Trinitroso-1,3,5-Triazine in Deer Mice (Peromyscus maniculatus) During a Controlled Exposure Study|Environ. Toxicol. Chem.25(2): 446-451|2006|10.1897/05-277R.1
85955|T||Ueda,H., K. Ebino, H. Fujie, K. Hayashi, M. Satoh, N. Nakashima, Y. Chiba, T. Harada, M. Saka, Y. Koma, T. Nagata, Y. O|Reassessment of Ecotoxicities of 1,1,1-Trichloro-2,2-bis(4-Chlorophenyl)ethane in Japanese Quail Under the OECD Draft new Avian One-Generation Reproduction Test Guideline|Regul. Toxicol. Pharmacol.41(3): 167-174|2005|10.1016/j.yrtph.2004.12.001
85957|A||Bureau,D.P., A.M. Harris, and C. Young Cho|The Effects of Purified Alcohol Extracts from Soy Products on Feed Intake and Growth of Chinook Salmon (Oncorhynchus tshawytscha) and Rainbow Trout (Oncorhynchus mykiss)|Aquaculture161(1-4): 27-43|1998|10.1016/S0044-8486(97)00254-8
85958|A||Francis,G., H.P.S. Makkar, and K. Becker|Dietary Supplementation with a Quillaja Saponin Mixture Improves Growth Performance and Metabolic Efficiency in Common Carp (Cyprinus carpio L.)|Aquaculture203(3-4): 311-320|2002|10.1016/S0044-8486(01)00628-7
85959|A||Francis,G., B. Levavi-Sivan, A. Avitan, and K. Becker|Effects of Long Term Feeding of Quillaja Saponins on Sex Ratio, Muscle and Serum Cholesterol and LH Levels in Nile Tilapia (Oreochromis niloticus (L.))|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.133(4): 593-603|2002|10.1016/S1532-0456(02)00167-9
85960|A||Francis,G., H.P.S. Makkar, and K. Becker|Effects of Quillaja Saponins on Growth, Metabolism, Egg Production and Muscle Cholesterol in Individually Reared Nile Tilapia (Oreochromis niloticus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.129(2): 105-114|2001|10.1016/S1532-0456(01)00189-2
85965|T||Prakash,A., and R. Bhattacharya|Investigations on Downward Translocation of BPMC in Rice|J. Insect Sci.6(1): 146-147|1993|
85969|A||Dillon,F.S., and C.A. Mebane|Application of Site-Specific Water Quality Criteria Developed in Headwater Reaches to Downstream Waters|Idaho Department of Environmental Quality, Boise, ID:95 p.|2002|
85970|T||Vyas,N.B., J.W. Spann, C.S. Hulse, S.L. Borges, R.S. Bennett, M. Torrez, B.I. Williams, and R. Leffel|Field Evaluation of an Avian Risk Assessment Model|Environ. Toxicol. Chem.25(7): 1762-1771|2006|10.1897/05-230R.1
85972|T||Dhawan,D., A. Goel, and C.S. Gautam|Effects of Zinc Intake on Liver Enzymes in Carbon Tetrachloride-Induced Liver Toxicity|Med. Sci. Res.20(2): 55-56|1992|
85973|T||Newman,H.M., R.S.H. Yang, and K.R. Magnusson|Effects of Developmental Exposure to Lead, Magnesium and Zinc Mixtures on Spatial Learning and Expression of NMDA Receptor Subunit mRNA in Fischer 344 Rats|Toxicol. Lett.126(2): 107-119|2002|10.1016/S0378-4274(01)00450-7
85974|T||Reeves,P.G., K.L. Rossow, and D.J. Bobilya|Zinc-Induced Metallothionein and Copper Metabolism in Intestinal Mucosa, Liver, and Kidney of Rats|Nutr. Res.14(6): 897-908|1994|10.1016/S0271-5317(05)80490-7
85975|T||Dreosti,I.E., R.A. Buckley, and I.R. Record|The Teratogenic Effect of Zinc Deficiency and Accompanying Feeding Patterns in Mice|Nutr. Res.6(2): 159-166|1986|10.1016/S0271-5317(86)80119-1
85976|T||Droke,E.A., J.W. Spears, T.T.,Jr. Brown, and M.A. Qureshi|Influence of Dietary Zinc and Dexamethasone on Immune Responses and Resistance to Pastuerella hemolytica Challenge in Growing Lambs|Nutr. Res.13(10): 1213-1226|1993|10.1016/S0271-5317(05)80745-6
85977|A||Wilson,J.E.H.|Developmental Arrest in Grass Shrimp Embryos Exposed to Selected Toxicants|ASTM Spec. Tech. Publ.:60-75|1998|
85978|A||Smith,B., M. Kokkinn, and J. Bidwell|A Toxicity Test for Contaminated Australian Freshwater Sediments Using the Larvae of Chironomus maddeni (Diptera: Chironomidae), a Species Native to South Australia|Australas. J. Ecotoxicol.5(1): 11-20|1999|
85980|A||Berntssen,M.H.G., A.K. Lundebye, and A. Maage|Effects of Elevated Dietary Copper Concentrations on Growth, Feed Utilisation and Nutritional Status of Atlantic Salmon (Salmo salar L.) Fry|Aquaculture174:167-181|1999|10.1016/S0044-8486(99)00015-0
85981|AT||Dunson,W.A.|Part IV. Radionuclide Cycling in Fresh-Water Organisms and Environments Concentration of Sodium by Freshwater Turtles|In: Symp.on Radioecology, Part IV.2nd Natl.AEC Rep.No.CONF-670503:191-197|1969|
85983|T||Williams,S.N., R.D. Miles, M.D. Ouart, and D.R. Campbell|Short-Term High Level Zinc Feeding and Tissue Zinc Concentration in Mature Laying Hens|Poult. Sci.68(4): 539-545|1989|10.3382/ps.0680539
85984|T||Allen,J.G., P.W. Morcombe, H.G. Masters, D.S. Petterson, and T.A. Robertson|Acute Zinc Toxicity in Sheep|Aust. Vet. J.63(3): 93-95|1986|10.1111/j.1751-0813.1986.tb02943.x
85985|T||Saxena,Y., and A. Mathur|Bait-Shyness and Poison-Aversion:  A Study in Mus musculus Albino|Uttar Pradesh J. Zool.15(1): 11-14|1995|
85986|T||Dreosti,I.E., S.J. Manuel, G.J. Russell, and R.A. Buckley|No Effect of gamma-Linolenic Acid on Teratogenesis and Growth Retardation in Zinc-Deficient Rats|Nutr. Rep. Int.32(6): 1467-1471|1985|
85987|T||Harding,A.J., I.E. Dreosti, and R.S. Tulsi|Teratogenic Effect of Vitamin E and Zinc Deficiency in the 11 Day Rat Embryo|Nutr. Rep. Int.36(3): 473-482|1987|
85990|A||Alberstadt,P., C. Steele, K. Misra, C. Skinner, B. Wilson, and S. Robaskiewicz|Effects of Sublethal Exposure to Cadmium on Shelter-Seeking Behavior of Juvenile Orconectes rusticus (Girard) Crayfish|ASTM Spec. Tech. Publ.:362-369|1999|
85991|A||Brewer,S.K., A.J. DeLonay, S.L. Beauvais, E.E. Little, and S.B. Jones|The Use of Automated Monitoring to Assess Behavioral Toxicology in Fish:  Linking Behavior and Physiology|ASTM Spec. Tech. Publ.:370-386|1999|
85992|A||Fairchild,J.F., and E.E. Little|Use of Behavioral Endpoints to Determine Protective Concentrations of the Insecticide Fonofos for Bluegill (Lepomis macrochirus)|ASTM Spec. Tech. Publ.:387-400|1999|
85993|A||Arnold,B.S., C.H. Jagoe, and T.S. Gross|Use of Implantable Pellets to Administer Low Levels of Methyl Mercury to Fish|ASTM Spec. Tech. Publ.:413-422|1999|
85994|A||De Zwart,D., and H. Langstraat|Chemically Induced Community Responses in a Compartmentalized Microcosm Assessed by Multidimensional State Space Transitions|ASTM Spec. Tech. Publ.:28-40|1988|
85998|T||Bansal,M.P., and R. Sinha|Effect of Zinc on Chemical Carcinogenesis in Mice|IRCS (Int. Res. Commun. Syst.) Med. Sci.12(9): 833-834|1984|
86000|T||Yamaguchi,M., and M. Uchiyama|Preventive Effect of Zinc for Toxic Actions of Germanium and Selenium on Bone Metabolism in Weanling Rats|Res. Exp. Med.187(5): 395-400|1987|10.1007/BF01855666
86001|T||Bay,B.H., and K.H. Sit|Effect of Intraperitoneal Administration of Zinc in C57/6J Mice|Singap. Med. J.34(1): 58-59|1993|
86002|T||Bay,B.H., and K.H. Sit|Coarse to Fine Hair Conversion Induced by Zinc in C57/6J Mice|Tohoku J. Exp. Med.168(1): 63-66|1992|10.1620/tjem.168.63
86003|T||Aterrado,E.D., and R.G. Abad|Rat Damage Assessment and Control Studies in Coconut II.  Comparative Effects of Brodifacoum Wax Blocks and Two Bait Formulations of Zinc Phosphide Rodenticide Against Rats Attacking Coconuts|Philipp.J.Coconut Stud.12(1): 7-13|1987|
86004|T||Mooradian,A.D., D.C. Norman, and J.E. Morley|The Effect of Zinc Status on the Immune Function of Diabetic Rats|Diabetologia31(9): 703-707|1988|10.1007/BF00278755
86005|A||Kangwe,J.W., F. Hellblom, A.K. Semesi, M.S.P. Mtolera, and M. Bjork|Heavy Metal Inhibition of Calcification and Photosynthetic Rates of the Geniculate Calcareous Alga Amphiroa tribulus|In: M.D.Richmond and J.Francis (Eds.), Proc.of the Conf.on Advances on Marine Sciences in Tanzania(1): 147-157|2001|
86006|A||Knauer,K., T. Jabusch, and L. Sigg|Manganese Uptake and Mn(II) Oxidation by the Alga Scenedesmus subspicatus|Aquat. Sci.61(1): 44-58|1999|
86009|A||Baudin,J.P., C. Adam, and J. Garnier-Laplace|Dietary Uptake, Retention and Tissue Distribution of 54Mn, 60Co and 137Cs in the Rainbow Trout (Oncorhynchus mykiss Walbaum)|Water Res.34(11): 2869-2878|2000|10.1016/S0043-1354(99)00365-6
86010|A||Baden,S.P., and D.M. Neil|Manganese Accumulation by the Antennule of the Norway Lobster Nephrops norvegicus (L.) as a Biomarker of Hypoxic Events|Mar. Environ. Res.55(1): 59-71|2003|10.1016/S0141-1136(02)00216-7
86011|A||Ferroni,L., C. Baldisserotto, M.P. Fasulo, A. Pagnoni, and S. Pancaldi|Adaptive Modifications of the Photosynthetic Apparatus in Euglena gracilis Klebs Exposed to Manganese Excess|Protoplasma (Multiple Languages)224(3-4): 167-177|2004|10.1007/s00709-004-0072-4
86012|T||DiTomaso,J.M., and S.O. Duke|Is Polyamine Biosynthesis a Possible Site of Action of Cinmethylin and Artemisinin?|Pestic. Biochem. Physiol.39(2): 158-167|1991|10.1016/0048-3575(91)90136-A
86013|AT||Sicko-Goad,L., and D. Lazinsky|Quantitative Ultrastructural Changes Associated with Lead-Coupled Luxury Phosphate Uptake and Polyphosphate Utilization|Arch. Environ. Contam. Toxicol.15(6): 617-627|1986|10.1007/BF01054908
86014|T||Rattner,B.A., M.A. McKernan, K.M. Eisenreich, W.A. Link, G.H. Olsen, D.J. Hoffman, K.A. Knowles, and P.C. McGowan|Toxicity and Hazard of Vanadium to Mallard Ducks (Anas platyrhynchos) and Canada Geese (Branta canadensis)|J. Toxicol. Environ. Health Part A69(4): 331-351|2006|10.1080/15287390500398265
86016|T||Cai,L., and M.G. Cherian|Adaptive Response to Ionizing Radiation-Induced Chromosome Aberrations in Rabbit Lymphocytes:  Effect of Pre-Exposure to Zinc, and Copper Salts|Mutat. Res.369(3-4): 233-241|1996|10.1016/S0165-1218(96)90028-2
86020|AT||Boone,M.D., and R.D. Semlitsch|Interactions of an Insecticide with Competition and Pond Drying in Amphibian Communities|Ecol. Appl.12(1): 307-316|2002|10.1890/1051-0761(2002)012[0307:IOAIWC]2.0.CO;2
86021|T||Millis,C.D., R.A. Mills, S.D. Sleight, and S.D. Aust|Toxicity of 3,4,5,3',4',5'-Hexabrominated Biphenyl and 3,4,3',4'-Tetrabrominated Biphenyl|Toxicol. Appl. Pharmacol.78(1): 88-95|1985|10.1016/0041-008X(85)90308-4
86022|T||De la Torre,A.M., S.M. Katarneh, I.P. Escolano, A. Arranz, and B. Ribas|Kinetics of Cadmium-109 in Cerebral Structures and Blood of Rats Supplemented with Zinc|In: P.Braetter and P.Schramel (Ed.),Trace Element Analytical Chemistry in Medicine and Biology, Volume 3, 3rd Int.Workshop, Neuherberg, W.Germany:649-656|1984|
86023|T||Vormann,J., V. Hollriegl, H.J. Merker, and T. Gunther|Effect of Valproate on Zinc Metabolism in Fetal and Maternal Rats Fed Normal and Zinc-Deficient Diets|Biol. Trace Elem. Res.10(1): 25-35|1986|10.1007/BF02795316
86025|T||McDowell,J., and I. Kitchen|Effects of Perinatal Lead Exposure on the Ontogenesis of micro-Opioid Receptors in Rat Brain|Sci. Total Environ.71(3): 449-451|1988|10.1016/0048-9697(88)90217-3
86026|T||Rius,R.A., S. Govoni, S. Bergamaschi, L. Lucchi, and M. Trabucchi|Mechanisms of the Effect of Lead on Brain Neurotransmission: A Calcium Mediated Action|Sci. Total Environ.71(3): 441-448|1988|10.1016/0048-9697(88)90216-1
86029|T||Areola,O.O., A.L. Jadhav, and M. Williams-Johnson|Relationship Between Lead Accumulation in Blood and Soft Tissues of Rats Subchronically Exposed to Low Levels of Lead|Toxic Subst. Mechan.18(3): 149-161|1999|10.1080/107691899229115
86030|T||Abdollahi,M., M. Sharifzadeh, H. Marzban, G. Abri, and M. Torab-Jahromi|Alteration by Lead Acetate of Rat Submandibular Gland Morphology and Ultrastructure|Toxic Subst. Mechan.18(3): 139-147|1999|10.1080/107691899229106
86031|T||Trivedi,R., S. John, M. Kale, N. Rathore, and D. Bhatnagar|Lipid Peroxidative Damage on Lead Exposure and Alterations in Antioxidant System in Rat Erythrocytes:  Role of Vitamin E|Trace Elem. Electrolytes14(3): 177-180|1997|
86032|T||Nandi,P., G. Talukder, and A. Sharma|Dietary Supplementation with Leaf Extract of Beta vulgaris L. var. benghalensis Hort. in Modifying Cytotoxicity of Lead Subacetate in Mouse In Vivo|PTR. Phytother.Res.11(4): 273-276|1997|10.1002/(SICI)1099-1573(199706)11:4<273::AID-PTR73>3.0.CO;2-5
86033|T||Giri,A.K., T.S. Bandyopadhyay, A. Mukherjee, G. Talukder, and A. Sharma|Effects of Vitamin C and Vitamin A on Post Chromosomal Aberration In Vivo Induced by Metanil Yellow and Zinc Chloride|Cytologia53(4): 793-799|1988|10.1508/cytologia.53.793
86034|T||Gautam,A.K., K. Agarwal, B.A. Shah, S. Kumar, and H.N. Saiyed|Lead Induced Spermatoxicity in Mouse and MPG Treatment|J. Environ. Biol.22(4): 287-291|2001|
86035|T||Kershaw,W.C., and C.D. Klaassen|Degradation and Metal Composition of Hepatic Isometallothioneins in Rats|Toxicol. Appl. Pharmacol.112(1): 24-31|1992|10.1016/0041-008X(92)90275-W
86036|T||Leazer,T.M., G.P. Daston, C.L. Keen, and J.M. Rogers|The Embryolethality of Lipopolysaccharide in CD-1 and Metallothionein I-II Null Mice:  Lack of a Role for Induced Zinc Deficiency or Metallothionein Induction|Toxicol. Sci.73(2): 442-447|2003|10.1093/toxsci/kfg088
86042|T||Tomokuni,K., T. Hasegawa, Y. Hirai, and N. Koga|The Tissue Distribution of Diazinon and the Inhibition of Blood Cholinesterase Activities in Rats and Mice Receiving a Single Intraperitoneal Dose of Diazinon|Toxicology37(1/2): 91-98|1985|10.1016/0300-483X(85)90115-5
86043|T||Das,S., C. Mukherjee, and S. Dasgupta|Nicotine-Induced Alterations in Acid and Alkaline Phosphatase Activities in the Reproductive Organs of Male Rats Under Altered Protein Status|Med. Sci. Res.24(11): 749-751|1996|
86047|T||Brklijacic,J.M., J.T. Samardzic, G.S. Timotijevic, and V.R. Maksimovic|Expression Analysis of Buckwheat(Fagopyrum esculentum moench) Metallothionein-Like Gene(MT3) Under Different Stress and Physiological Conditions|J. Plant Physiol.161(6): 741-746|2004|10.1078/0176-1617-01211
86048|A||Goleman,W.L., and J.A. Carr|Contributation of Ammonium Ions to the Lethality and Antimetamorphic Effects of Ammonium Perchlorate|Environ. Toxicol. Chem.25(4): 1060-1067|2006|10.1897/04-511R.1
86049|T||Hallen,I.P., S. Jonsson, M.O. Karlsson, and A. Oskarsson|Kenetic Observations in Neonatal Mice Exposed to Lead Via Milk|Toxicol. Appl. Pharmacol.140(1): 13-18|1996|10.1006/taap.1996.0192
86050|T||De Vaufleury,A., M. Coerurdassier, P. Pandard, R. Scheifler, C. Lovy, N. Crini, and P.M. Badot|How Terrestrial Snails can be Used in Risk Assessment of Soils|Environ. Toxicol. Chem.25(3): 797-806|2006|10.1897/04-560R.1
86051|A||Jacobson,T., and B. Sundelin|Reproductive Effects of the Endocrine Disruptor Fenarimol on a Baltic Amphipod Monoporeia affinis|Environ. Toxicol. Chem.25(4): 1126-1131|2006|10.1897/04-610R1.1
86052|T||Kapustka,L.A., D. Eskew, and J.M. Yocum|Plant Toxicity Testing to Derive Ecological Soil Screening Levels for Cobalt and Nickel|Environ. Toxicol. Chem.25(3): 865-874|2006|10.1897/04-645R.1
86053|T||Inouye,L.S., R.P. Jones, and A.J. Bednar|Tungsten Effects on Survival,Growth, and Reproduction in the Earthworm, Eisenia fetida|Environ. Toxicol. Chem.25(3): 763-768|2006|10.1897/04-578R.1
86054|T||Kerkeb,L., and U. Kramer|The Role of Free Histidine in Xylem Loading of Nickel in Alyssum lesbiacum and Brassica juncea|Plant Physiol.131(2): 716-724|2003|10.1104/pp102.010686
86055|A||Baurain,D., M. Dinant, N. Coosemans, and R.F. Matagne|Regulation of the Alternative Oxidase Aox1 Gene in Chlamydomonas reinhardtii. Role of the Nitrogen Source on the Expression of a Reporter Gene Under the Control of the Aox1 Promoter|Plant Physiol.131(3): 1418-1430|2003|10.1104/pp.013409
86057|A||Patton,L.E., M.L. Shuler, and L.W. Lion|Behavior of Lead in a Model Microbial Predator-Prey System|Environ. Toxicol. Chem.24(11): 2734-2741|2005|10.1897/04-663R.1
86058|T||Allen,J.G., and H.G. Masters|Renal Lesions and Tissue Concentrations of Zinc, Copper, Iron and Manganese in Experimentally Zinc Intoxicated Sheep|Res. Vet. Sci.39(2): 249-251|1985|10.1016/S0034-5288(18)31754-5
86059|T||Dargatz,D.A., L.M. Miller, R.I. Krieger, and C.C. Gay|Toxicity Associated with Zinc Sulfate Footbaths for Sheep|Agri-Pract.7(2): 30-33|1986|
86060|T||Jhamandas,K.H., R.J. Boegman, R.J. Beninger, and S. Flesher|Role of Zinc in Blockade of Excitotoxic Action of Quinolinic Acid by Picolinic Acid|Amino Acids14:257-261|1998|10.1007/BF01345272
86061|T||Sirakova,I., Y. Christova, C. Nachev, and L.M. Sirakov|Zinc Enhances the Increase in Opiate and Angiotensin II Receptors Induced by Ischaemic Hypoxia in the Rat Brain|Med. Sci. Res.23(8): 545-546|1995|
86062|T||Matsuda,K., Y. Mera, H. Wada, H. Aruga, Y. Saik, and Y. Taniquchi|Repeated Dose Toxicity Studies on Catena-(S)-[mu-[N(alpha)-(3-Aminopropionyl) Histidinato(2-)-N1,N2,O:N(tau)]-Zinc]in Rats|Arzneim. Forsch.41(10): 1036-1041|1991|
86063|T||Matsuda,K., N. Nishi, Y. Hiramatsu, M. Shimizu, and T. Ohta|Reproductive and Developmental Toxicity Studies on Catena-(S)-[mu-[N(alpha)-(3-Aminopropionyl) Histidinato(2-)-N1,N2,O:N(tau)]-Zinc]|Arzneim. Forsch.41(10): 1042-1047|1991|
86064|T||Matsuda,K., K. Shibata, H. Morikami, T. Kato, and F. Aruga|Single Dose Toxicity Study on Catena-(S)-[mu -[N(alpha)-(3-Aminopropionyl) Histidinato(2-)-N1,N2,O:N(tau)]-Zinc] in Mice and Rats|Arzneim. Forsch.41(10): 1033-1035|1991|
86066|T||Tan,B.K.H., B.H. Bay, K.H. Sit, K.Y. Sim, and A. Hsu|Acute Zinc Administration Prolongs Hexobarbitone-Induced Sleeping Time in C57/6J Mice|Pharmacol. Res.32(4): 233-236|1995|10.1016/S1043-6618(05)80027-1
86067|T||Hinck-Kneip,C., and C. Alsen-Hinrichs|Influences of Gold on Zinc, Copper and Metallothionein Kinetics in Liver and Kidney of the Rat|Hum. Exp. Toxicol.15(6): 518-522|1996|10.1177/096032719601500610
86068|T||Tagliati,C.A., E. Kimura, M.S. Nothenberg, S.R.J.C. Santos, and S. Oga|Pharmacokinetic Profile and Adverse Gastric Effect of Zinc-Piroxicam in Rats|Gen. Pharmacol.33(1): 67-71|1999|10.1016/S0306-3623(98)00267-5
86069|T||Gunther,T., R. Gossrau, J. Vormann, and M. Ruhnke|Protection Against Salicylate-Induced Hepatic Injury by Zinc.  A Histochemical and Biochemical Study|Histochem. J.23(2): 75-82|1991|10.1007/BF01047111
86070|T||Batetta,B., S. Dessi, D. Pulisci, A. Carrucciu, and P. Pani|Multiple Molecular Forms of Rat Liver Glucose-6-Phosphate Dehydrogenase During Liver Hyperplasia Induced by Lead Nitrate|Res. Commun. Chem. Pathol. Pharmacol.67(2): 279-288|1990|
86071|T||Mills,R.A., C.D. Millis, G.A. Dannan, F.P. Guengerich, and S.D. Aust|Studies on the Structure-Activity Relationships for the Metabolism of Polybrominated Biphenyls by Rat Liver Microsomes|Toxicol. Appl. Pharmacol.78:96-104|1985|10.1016/0041-008X(85)90309-6
86073|T||Dayton,E.A., N.T. Basta, M.E. Payton, K.D. Bradham, J.L. Schroder, and R.P. Lanno|Evaluating the Contribution of Soil Properties to Modifying Lead Phytoavailability and Phytotoxicity|Environ. Toxicol. Chem.25(3): 719-725|2006|10.1897/05-307R.1
86074|T||Soudek,P., R. Tykva, and T. Vanek|Laboratory Analyses of 137Cs Uptake by Sunflower, Reed and Poplar|Chemosphere55(7): 1081-1087|2004|10.1016/j.chemosphere.2003.12.011
86075|T||Pilon-Smits,E.A.H., S. Hwang, C.M. Lytle, Y. Zhu, J.C. Tai, R.C. Bravo, Y. Chen, T. Leustek, and N. Terry|Overexpression of ATP Sulfurylase in Indian Mustard Leads to Increased Selenate Uptake, Reduction, and Tolerance|Plant Physiol.119(1): 123-132|1999|10.1104/pp.119.1.123
86076|A||Morley,E.J., H.V.B. Hirsch, K. Hollocher, and G.A. Lnenicka|Effects of Chronic Lead Exposure on the Neuromuscular Junction in Drosophila Larvae|Neurotoxicology24(1): 35-41|2003|10.1016/S0161-813X(02)00095-5
86077|T||Rooney,C.P., F.J. Zhao, and S.P. McGrath|Soil Factors Controlling the Expression of Copper Toxicity to Plants in a Wide Range of European Soils|Environ. Toxicol. Chem.25(3): 726-732|2006|10.1897/04-602R.1
86078|T||Hussain,A., C.R. Black, I.B. Taylor, and J.A. Roberts|Soil Compaction.  A Role for Ethylene in Regulating Leaf Expansion and Shoot Growth in Tomato?|Plant Physiol.121(4): 1227-1237|1999|10.1104/pp.121.4.1227
86079|T||Aladesanwa,R.D., and M.O. Oladimeji|Optimizing Herbicidal Efficacy of Glyphosate Isopropylamine Salt Through Ammonium Sulphate as Surfactant in Oil Palm (Elaeis guineensis) Plantation in a Rainforest Area of Nigeria|Crop Prot.24(12): 1068-1073|2005|10.1016/j.cropro.2005.02.013
86080|T||Becot,S., E. Pajot, D. Le Corre, C. Monot, and D. Silue|Phytogard (K2HPO3) Induces Localized Resistance in Cauliflower to Downy Mildew of Crucifers|Crop Prot.19(6): 417-425|2000|10.1016/S0261-2194(00)00034-X
86081|T||Rombke,J., S. Jansch, T. Junker, B. Pohl, A. Scheffczyk, and H.J. Schallnass|Improvement of the Applicability of Ecotoxicological Tests with Earthworms, Springtails, and Plants for the Assessment of Metals in Natural Soils|Environ. Toxicol. Chem.25(3): 776-787|2006|10.1897/04-584R.1
86082|A||Sanchez,M.V., A.V. Cahansky, L.S. Lopez Greco, and E.M. Rodriguez|Toxicity of Mercury During the Embryonic Development of Chasmagnathus granulatus (Brachyura, Varunidae)|Environ. Res.99(1): 72-78|2005|10.1016/j.envres.2004.09.005
86083|A||Sanchez,W., O. Palluel, L. Meunier, M. Coquery, J.M. Porcher, and S. Ait-Aissa|Copper-Induced Oxidative Stress in Three-Spined Stickleback:  Relationship with Hepatic Metal Levels|Environ. Toxicol. Pharmacol.19(1): 177-183|2005|10.1016/j.etap.2004.07.003
86084|A||Schuler,L.J., P.F. Landrum, and M.J. Lydy|Comparative Toxicity of Fluoranthene and Pentachlorobenzene to Three Freshwater Invertebrates|Environ. Toxicol. Chem.25(4): 985-994|2006|10.1002/etc.5620250410
86085|A||Sofyan,A., J.R. Shaw, and W.J. Birge|Metal Trophic Transfer from Algae to Cladocerans and the Relative Importance of Dietary Metal Exposure|Environ. Toxicol. Chem.25(4): 1034-1041|2006|10.1897/05-227R.1
86087|A||Lampi,M.A., J. Gurska, K.I.C. McDonald, F. Xie, X.D. Huang, D.G. Dixon, and B.M. Greenberg|Photoinduced Toxicity of Polycyclic Aromatic Hydrocarbons to Daphnia magna:  Ultraviolet-Mediated Effects and the Toxicity of Polycyclic Aromatic Hydrocarbon Photoproducts|Environ. Toxicol. Chem.25(4): 1079-1087|2005|10.1897/05-276R.1
86088|A||Lovern,S.B., and R. Klaper|Daphnia magna Mortality when Exposed to Titanium Dioxide and Fullerene (C60) Nanoparticles|Environ. Toxicol. Chem.25(4): 1132-1137|2006|10.1897/05-278R.1
86089|A||Palace,V.P., K.G. Wautier, R.E. Evans, P.J. Blanchfield, K.H. Mills, S.M. Chalanchuk, D. Godard, M.E. McMaster, G.R. Te|Biochemical and Histopathological Effects in Pearl Dace (Margariscus margarita) Chronically Exposed to a Synthetic Estrogen in a Whole lake Experiment|Environ. Toxicol. Chem.25(4): 1114-1125|2006|10.1897/04-557R1.1
86090|T||Manderscheid,R., S. Schaaf, M. Mattsson, and J.K. Schjoerring|Glufosinate Treatment of Weeds Results in Ammonia Emission by Plants|Agric. Ecosyst. Environ.109(1/2): 129-140|2005|10.1016/j.agee.2005.01.016
86091|T||Hartley-Whitaker,J., G. Ainsworth, R. Vooijs, W.T. Bookum, H. Schat, and A.A. Meharg|Phytochelatins are Involved in Differential Arsenate Tolerance in Holcus lanatus|Plant Physiol.126(1): 299-306|2001|10.1104/pp.126.1.299
86092|A||Miller,J.R., J.B. Anderson, P.J. Lechler, S.L. Kondrad, P.F. Galbreath, and E.B. Salter|Influence of Temporal Variations in Water Chemistry on the Pb Isotopic Composition of Rainbow Trout (Oncorhynchus mykiss)|Sci. Total Environ.350(1-3): 204-224|2005|10.1016/j.scitotenv.2005.01.030
86093|A||Samardakiewicz,S., and A. Wozny|Cell Division in Lemna minor Roots Treated with Lead|Aquat. Bot.83(4): 289-295|2005|10.1016/j.aquabot.2005.06.007
86095|A||Sakuyama,H., Y. Endo, K. Fujimoto, and Y. Hatano|Oxidative Degradation of Alkylphenols by Horseradish Peroxidase|J. Biosci. Bioeng.96(3): 227-231|2003|10.1016/S1389-1723(03)80186-X
86096|A||Mauri,M., and E. Orlando|Experimental Study on Renal Concretions in the Wedge Shell Donax trunculus L.|J. Exp. Mar. Biol. Ecol.63(1): 47-57|1982|10.1016/0022-0981(82)90049-1
86097|A||Hossain,Z., G.C. Haldar, and M.F.A. Mollah|Acute Toxicity of Chlorpyrifos, Cadusafos and Diazinon to Three Indian Major Carps (Catla catla, Labeo rohita and Cirrhinus mrigala) Fingerlings|Bangladesh J. Fish. Res.4(2): 191-198|2000|
86098|T||Shelby,M.D., G.L. Erexson, G.J. Hook, and R.R. Tice|Evaluation of a Three-Exposure Mouse Bone Marrow Micronucleus Protocol: Results with 49 Chemicals|Environ. Mol. Mutagen.21(2): 160-179|1993|10.1002/em.2850210210
86100|T||Umemura,T., K. Takada, C. Schulz, R. Gebhardt, Y. Kurokawa, and G.M. Williams|Cell Proliferation in the Livers of Male Mice and Rats Exposed to the Carcinogen p-Dichlorobenzene:  Evidence for Thresholds|Drug Chem. Toxicol.21(1): 57-66|1998|10.3109/01480549809017851
86101|T||Shikanai,T., P. Muller-Moule, Y. Munekage, K.K. Niyogi, and M. Pilon|PAA1, a P-Type ATPase of Arabidopsis, Functions in Copper Transport in Chloroplasts|Plant Cell15(6): 1333-1346|2003|10.1105/tpc.011817
86102|T||Sunderman,F.W.Jr., S.M. Hopfer, M.C. Plowman, and J.A. Knight|Carcinogenesis Bioassays of Nickel Oxides and Nickel-Copper Oxides by Intramuscular Administration to Fischer-344 Rats|Res. Commun. Chem. Pathol. Pharmacol.70(1): 103-114|1990|
86103|T||Li,D., C.N. Ong, V. Ng, and C. Tan|Effect of Nickel Chloride on Mouse T-Lymphocyte Subsets|Vet. Hum. Toxicol.40(3): 129-131|1998|
86104|T||Mathur,A.K., and B.N. Gupta|Dermal Toxicity of Nickel and Chromium in Guinea Pigs|Vet. Hum. Toxicol.36(2): 131-132|1994|
86105|A||Rogers,J.T., and C.M. Wood|Characterization of Branchial Lead-Calcium Interaction in the Freshwater Rainbow Trout Oncorhynchus mykiss|J. Exp. Biol.207(5): 813-825|2004|10.1242/jeb.00826
86106|T||De Castro e Silva,E.J., L. Castro, C.P. Luz, H. Ferreira, A.K.S. Lima, F.S.F. Souza, I.R.S.C. Maldonado, D.F. Macedo, M|Central Lead Administration Inhibits Water Intake and Sodium Appetite in Rats|Braz. J. Med. Biol. Res.32(10): 1243-1248|1999|10.1590/S0100-879X1999001000011
86108|T||Lamb IV,J.C., D.K. Gulati, R. Chambers, S. Shaver, and P.S. Sabharwal|Di-n-Octylphthalate|Environ. Health Perspect.105(suppl.1): 253-254|1997|
86110|T||Ofner,P., M.C. Bosland, and R.L. Vena|Differential Effects of Diethylstilbestrol and Estradiol-17 beta in Combination with Testosterone on Rat Prostate Lobes|Toxicol. Appl. Pharmacol.112(2): 300-309|1992|10.1016/0041-008X(92)90200-C
86112|T||Ahmed,H.M.S., and A.A.E. Shoka|Toxic Interactions Between Copper Sulphate and Some Organic Agrochemicals|Toxicol. Lett.70(1): 109-119|1994|10.1016/0378-4274(94)90150-3
86114|T||Hugo,P., J. Bernier, K. Krzystyniak, and M. Fournier|Transient Inhibition of Mixed Lymphocyte Reactivity by Dieldrin in Mice|Toxicol. Lett.41:1-9|1988|10.1016/0378-4274(88)90002-1
86115|T||Gordon,C.J., M.D. Long, and A.G. Stead|Thermoregulation in Mice Following Acute Chlordimeform Administration|Toxicol. Lett.28:9-15|1985|10.1016/0378-4274(85)90003-7
86116|T||Barnett,J.B., L.S.F. Soderberg, and J.H. Menna|The Effect of Prenatal Chlordane Exposure on the Delayed Hypersensitivity Response of BALB/c Mice|Toxicol. Lett.25(2): 173-183|1985|10.1016/0378-4274(85)90079-7
86117|T||Menna,J.H., J.B. Barnett, and L.S.F. Soderberg|Influenza Type A Virus Infection of Mice Exposed In Utero to Chlordane; Survival and Antibody Studies|Toxicol. Lett.24(1): 45-52|1985|10.1016/0378-4274(85)90138-9
86119|T||De Sandro,V., M. Chevrier, A. Boddaert, C. Melcion, A. Cordier, and L. Richert|Comparison of the Effects of Propylthiouracil, Amiodarone, Diphenylhydantoin, Phenobarbital, and 3-Methylcholanthrene on Hepatic and Renal T4 Metabolism and Thyroid Gland Function in Rats|Toxicol. Appl. Pharmacol.111:263-278|1991|10.1016/0041-008X(91)90030-I
86120|T||Dean,T.N., V.N. Kakkanaiah, M. Nagarkatti, and P.S. Nagarkatti|Immunosuppression by Aldicarb of T Cell Responses to Antigen-Specific and Polyclonal Stimuli Results from Defective IL-1 Production by the Macrophages|Toxicol. Appl. Pharmacol.106(3): 408-417|1990|10.1016/0041-008X(90)90336-S
86121|T||Van Loveren,H., E.I. Krajnc, P.J.A. Rombout, F.A. Blommaert, and J.G. Vos|Effects of Ozone, Hexachlorobenzene, and Bis(Tri-n-Butyltin)Oxide on Natural Killer Activity in the Rat Lung|Toxicol. Appl. Pharmacol.102:21-33|1990|10.1016/0041-008X(90)90080-E
86122|T||Cummings,A.M., and L.E.,Jr. Gray|Antifertility Effect of Methoxychlor in Female Rats:  Dose-and Time-Dependent Blockade of Pregnancy|Toxicol. Appl. Pharmacol.97(3): 454-462|1989|10.1016/0041-008X(89)90250-0
86123|T||Levi,P.E., R.L. Rose, N.H. Adams, and E. Hodgson|Induction of Cytochrome P450 4A1 in Mouse Liver by the Herbicide Synergist Tridiphane|Pestic. Biochem. Physiol.44(1): 9-14|1992|10.1016/0048-3575(92)90003-I
86124|T||Gupta,R.C., J.T. Goad, and W.L. Kadel|In Vivo Acute Effects of Carbofuran on Protein, Lipid, and Lipoproteins in Rat Liver and Serum|J. Toxicol. Environ. Health42(4): 451-462|1994|10.1080/15287399409531895
86125|T||Gupta,R.C., J.T. Goad, and W.L. Kadel|Cholinergic and Noncholinergic Changes in Skeletal Muscles by Carbofuran and Methyl Parathion|J. Toxicol. Environ. Health43(3): 291-304|1994|10.1080/15287399409531922
86127|T||Griffin,R.J., C.N. Dudley, and M.L. Cunningham|Biochemical Effects of the Mouse Hepatocarcinogen Oxazepam:  Similarities to Phenobarbital|Fundam. Appl. Toxicol.29:147-154|1996|10.1006/faat.1996.0016
86128|T||Rogers,J.M., B.M. Francis, B.D. Barbee, and N. Chernoff|Developmental Toxicity of Bromoxynil in Mice and Rats|Fundam. Appl. Toxicol.17:442-447|1991|10.1016/0272-0590(91)90195-A
86129|T||Chhabra,R.S., S. Eustis, J.K. Haseman, P.J. Kurtz, and B.D. Carlton|Comparative Carcinogenicity of Ethylene Thiourea with or Without Perinatal Exposure in Rats and Mice|Fundam. Appl. Toxicol.18(3): 405-417|1992|10.1016/0272-0590(92)90139-9
86130|T||Chhabra,R.S., J.R. Bucher, J.K. Haseman, M.R. Elwell, P.J. Kurtz, and B.D. Carlton|Comparative Carcinogenicity of 5,5-Diphenylhydantoin with or Without Perinatal Exposure in Rats and Mice|Fundam. Appl. Toxicol.21(2): 174-186|1993|10.1006/faat.1993.1087
86132|T||Barnett,J.B., B.L. Blaylock, J. Gandy, J.H. Menna, R. Denton, and L.S.F. Soderberg|Alteration of Fetal Liver Colony Formation by Prenatal Chlordane Exposure|Fundam. Appl. Toxicol.15(4): 820-822|1990|10.1016/0272-0590(90)90198-S
86133|T||Chhabra,R.S., J.R. Bucher, J.K. Haseman, M.R. Elwell, P.J. Kurtz, and B.D. Carlton|Comparative Carcinogenicity of Polybrominated Biphenyls with or Without Perinatal Exposure in Rats and Mice|Fundam. Appl. Toxicol.21(4): 451-460|1993|10.1006/faat.1993.1121
86134|T||Ishmael,J., and M.H. Litchfield|Chronic Toxicity and Carcinogenic Evaluation of Permethrin in Rats and Mice|Fundam. Appl. Toxicol.11:308-322|1988|10.1016/0272-0590(88)90156-X
86135|T||Morrisey,R.E., J.D. George, C.J. Price, R.W. Tyl, M.C. Marr, and C.A. Kimmel|The Developmental Toxicity of Bisphenol A in Rats and Mice|Fundam. Appl. Toxicol.8(4): 571-582|1987|10.1016/0272-0590(87)90142-4
86136|T||Hanley,T.R.,Jr., J.A. John-Greene, W.C. Hayes, and K.S. Rao|Embryotoxicity and Fetotoxicity of Orally Administered Tridiphane in Mice and Rats|Fundam. Appl. Toxicol.8(2): 179-187|1987|10.1016/0272-0590(87)90116-3
86138|T||Gerin,M., and R. Tardif|Urinary N-Acetyl-S-2-Hydroxyethyl-L-Cysteine in Rats as Biological Indicator of Ethylene Oxide Exposure|Fundam. Appl. Toxicol.7(3): 419-423|1986|10.1016/0272-0590(86)90091-6
86141|T||Maci,R., and E. Arias|Teratogenic Effects of the Fungicide Maneb on Chick Embryos|Ecotoxicol. Environ. Saf.13:169-173|1987|10.1016/0147-6513(87)90004-2
86142|T||Ashby,J., H. Tinwell, A. Soames, and J. Foster|Induction of Hyperplasia and Increased DNA Content in the Uterus of Immature Rats Exposed to Coumestrol|Environ. Health Perspect.107(10): 819-822|1999|10.1289/ehp.99107819
86144|T||Markaverich,B.M., B. Webb, C.L. Densmore, and R.R. Gregory|Effects of Coumestrol on Estrogen Receptor Function and Uterine Growth in Ovariectomized Rats|Environ. Health Perspect.103(6): 574-581|1995|10.1289/ehp.95103574
86145|T||Rodrigues,L.E.A., C.M.C. Mathias, P. Siry, and P. Galle|Absence of Zinc Cytotoxicity.  Effect of Short-Term Zinc Oral Administration on Rat Gastric Mucosa|Braz. J. Med. Biol. Res.23(6-7): 519-523|1990|
86146|T||Cainelli Gebara,V.C.B., V.L. Petricevich, I. Raw, and W.D. Da Silva|Effect of Saponin from Quillaja saponaria (Molina) on Antibody, Tumour Necrosis Factor and Interferon-gamma Production|Biotechnol. Appl. Biochem.22(1): 31-37|1995|10.1111/j.1470-8744.1995.tb00341.x
86147|T||Borja-Cabrera,G.P., A.C. Mendes, E.P. De Souza, L.Y.H. Okada, F.A. De a Trivellato, J.K.A. Kawasaki, A.C. Costa, A.B. R|Effective Immunotherapy Against Canine Visceral Leishmaniasis with the FML-Vaccine|Vaccine22(17/18): 2234-2243|2004|10.1016/j.vaccine.2003.11.039
86148|T||Pickering,R.J., S.D. Smith, R.A. Strugnell, S.L. Wesselingh, and D.E. Webster|Crude Saponins Improve the Immune Response to an Oral Plant-Made Measles Vaccine|Vaccine24(2): 144-150|2006|10.1016/j.vaccine.2005.07.097
86149|T||Jenkins,K.J., and A.S. Atwal|Effects of Dietary Saponins on Fecal Bile Acids and Neutral Sterols, and Availability of Vitamins A and E in the Chick|J. Nutr. Biochem.5(3): 134-137|1994|10.1016/0955-2863(94)90084-1
86150|T||Nijenstein,J.H., and A. Ester|Phytotoxicity and Control of the Field Slug Deroceras reticulatum by Seed Applied Pesticides in Wheat, Barley and Perennial Ryegrass|Seed Sci. Technol.26(2): 501-513|1998|
86151|AT||Pelah,D., Z. Abramovich, A. Markus, and Z. Wiesman|The Use of Commercial Saponin from Quillaja saponaria Bark as a Natural Larvicidal Agent Against Aedes aegypti and Culex pipiens|J. Ethnopharmacol.81(3): 407-409|2002|10.1016/S0378-8741(02)00138-1
86152|A||Ninomiya,M., H. Hatta, M. Fujiki, M. Kim, T. Yamamoto, and R. Kusuda|Enhancement of Chemotactic Activity of Yellowtail (Seriola quinqueradiata) Leucocytes by Oral Administration of Quillaja Saponin|Fish Shellfish Immunol.5(4): 325-328|1995|10.1006/fsim.1995.0031
86153|T||Hoshi,S., A. Uchino, N. Saito, K.I. Kusanagi, T. Ihara, and S. Ueda|Comparison of Adjuvants with Respect to Serum IgG Antibody Response in Orally Immunized Chickens|Comp. Immunol. Microbiol. Infect. Dis.22(1): 63-69|1999|10.1016/S0147-9571(98)00017-4
86154|T||Dhawan,D.K., and A. Goel|Protective Role of Zinc on Rat Liver Function in Long-Term Toxicity Induced by Carbon Tetrachloride|J. Trace Elem. Exp. Med.7(1): 1-9|1994|
86155|T||Schwartz,R., M. Topley, and J.B. Russell|Effect of Tricarballylic Acid a Nonmetabolizable Rumen Fermentation Product of trans Aconitic Acid on Magnesium Calcium and Zinc Utiliation of Rats|J. Nutr.118(2): 183-188|1988|10.1093/jn/118.2.183
86156|T||Howard,B.R.|Health Risks of Housing Small Psittacines in Galvanized Wire Mesh Cages|J. Am. Vet. Med. Assoc.200(11): 1667-1674|1992|10.2460/javma.1992.200.11.1667
86157|T||Brewer,G.J., R.D. Dick, W. Schall, V. Yuzbasiyan-Gurkan, T.P. Mullaney, C. Pace, J. Lindgren, M. Thomas, and G. Padgett|Use of Zinc Acetate to Treat Copper Toxicosis in Dogs|J. Am. Vet. Med. Assoc.201(4): 564-568|1992|10.2460/javma.1992.201.04.564
86158|T||Egan,A.R.|Reproductive Responses to Supplemental Zinc and Manganese in Grazing Dorset Horn Ewes|Aust. J. Exp. Agric. Anim. Husb.12:131-135|1972|10.1071/EA9720131
86159|T||Nebbia,C., E. Ferrero, F. Valenza, M. Castagnaro, G. Re, and M.G. Soffietti|Pathologic Changes, Tissue Distribution, and Extent of Conversion to Ethylenethiourea After Subacute Administration of Zinc Ethylene-Bis-Dithiocarbamate (Zineb) to Calves with Immature Rumen Function|Am. J. Vet. Res.52(10): 1717-1722|1991|10.2460/ajvr.1991.52.10.1717
86161|T||Jennemann,R., B.L. Bauer, H. Bertalanffy, T. Selmer, and H. Wiegandt|Basidiolipids from Agaricus are Novel Immune Adjuvants|Immunobiology200(2): 277-289|1999|10.1016/S0171-2985(99)80076-X
86162|T||Saikia,D.K., and P.N. Phukan|Efficacy of Certain Chemicals for the Control of Root-Knot Nematode, Meloidogyne incognita on Jute|J. Res. Assam Agric. Univ.6(1): 43-46|1985|
86163|T||Sugawara,N., and C. Sugawara|Relationship Between Ceruloplasmin and Cu Status Involving Metallothionein Induced by Several Heavy Metals in the Mouse|Arch. Toxicol.59(6): 432-436|1987|10.1007/BF00316210
86164|T||Hirasawa,F., M. Sato, and Y. Takizawa|Organ Distribution of Silver and the Effect of Silver on Copper Status in Rats|Toxicol. Lett.70(2): 193-201|1994|10.1016/0378-4274(94)90163-5
86165|A||Papoulias,D.M., S.A. Villalobos, J. Meadows, D.B. Noltie, J.P. Giesy, and D.E. Tillitt|In Ovo Exposure to o,p'-DDE Affects Sexual Development but not Sexual Differentiation in Japanese Medaka (Oryzias latipes)|Environ. Health Perspect.111(1): 29-32|2003|10.1289/ehp.5540
86166|T||Quaker Oats Co.|Letter from Quaker Oats Co. to USEPA Responding to Its Request for Information Regarding Mono Furfurylidene Acetone Dated 110394|EPA/OTS Doc.#89-950000038:17 p.|1994|
86168|T||Rasekh,H.R., R.A. Potmis, V.K. Nonavinakere, J.L. Early, and M.B. Iszard|Effect of Selenium on Plasma Glucose of Rats:  Role of Insulin and Glucocorticoids|Toxicol. Lett.58(2): 199-207|1991|10.1016/0378-4274(91)90174-5
86169|T||David,L.L., and T.R. Shearer|State of Sulfhydryl in Selenite Cataract|Toxicol. Appl. Pharmacol.74(1): 109-115|1984|10.1016/0041-008X(84)90276-X
86170|T||Lindenschmidt,R.C., L.E. Sendelbach, H.P. Witschi, D.J. Price, J. Fleming, and J.G. Joshi|Ferritin and In Vivo Beryllium Toxicity|Toxicol. Appl. Pharmacol.82(2): 344-350|1986|10.1016/0041-008X(86)90211-5
86171|T||Merrick,B.A., M.H. Davies, R. Hasegawa, M.K. St.John, S.M. Cohen, and R.C. Schnell|Effect of Sodium Selenite upon Bromobenzene Toxicity in Rats. I. Hepatotoxicity|Toxicol. Appl. Pharmacol.83(2): 271-278|1986|10.1016/0041-008X(86)90304-2
86172|T||Merrick,B.A., M.H. Davies, and R.C. Schnell|Effect of Sodium Selenite upon Bromobenzene Toxicity in Rats. II. Metabolism|Toxicol. Appl. Pharmacol.83(2): 279-286|1986|10.1016/0041-008X(86)90305-4
86178|T||Daffron,J.C., and E.J. Kasarskis|Effect of Valproic Acid on Zinc Metabolism in the Rat|Toxicol. Lett.23(3): 321-325|1984|10.1016/0378-4274(84)90028-6
86179|T||Amemiya,K., L.S. Hurley, and C.L. Keen|Effect of the Anticarcinogenic Drug 6-Mercaptopurine on Mineral Metabolism in the Mouse|Toxicol. Lett.25(1): 55-62|1985|10.1016/0378-4274(85)90100-6
86180|T||Satoh,M., A. Naganuma, and N. Imura|Deficiency of Selenium Intake Enhances Manifestation of Renal Toxicity of cis-Diamminedichloroplatinum in Mice|Toxicol. Lett.38(1/2): 155-160|1987|
86181|T||Ohba,T., T. Suzuki, C. Watanabe, and S.I. Himeno|Transient Hyperphagia After Sodium Selenite Injection in Mice|Toxicol. Lett.39(2/3): 275-281|1987|
86182|T||Teirlynck,O., J.M. Kaufman, M.G. Bogaert, and H. Roels|Testicular Toxicity Induced by Single Dosing of di- and mono-(2-Ethylhexyl) Phthalate in the Rat|Toxicol. Lett.40(1): 85-91|1988|10.1016/0378-4274(88)90186-5
86184|T||Watanabe,C., T. Suzuki, T. Ohba, and Y. Dejima|Transient Hypothermia and Hyperphagia Induced by Selenium and Tellurium Compounds in Mice|Toxicol. Lett.50(2/3): 319-326|1990|
86185|T||Makar,A.B., T.R. Tephly, G. Sahin, and G. Osweiler|Formate Metabolism in Young Swine|Toxicol. Appl. Pharmacol.105(2): 315-320|1990|10.1016/0041-008X(90)90192-W
86186|T||Min,K.S., S. Mukai, M. Ohta, S. Onosaka, and K. Tanaka|Glucocorticoid Inhibition of Inflammation-Induced Metallothionein Synthesis in Mouse Liver|Toxicol. Appl. Pharmacol.113(2): 293-298|1992|10.1016/0041-008X(92)90127-E
86188|T||Vassilev,P.P., K. Venkova, N. Pencheva, and D. Staneva-Stoytcheva|Changes in the Contractile Responses to Carbachol and in the Inhibitory Effects of Verapamil and Nitrendipine on Isolated Smooth Muscle Preparations from Rats Subchronically Exposed to Co2+ and Ni2+|Arch. Toxicol.67(5): 330-337|1993|10.1007/BF01973704
86189|T||Chen,C.Y., Y.L. Huang, and T.H. Lin|Effects of Vitamin A Pretreatment on Nickel-Induced Lipid Peroxidation and Concentration of Essential Metals in Liver, Kidney and Lung of Mice|Arch. Toxicol.72(6): 381-386|1998|10.1007/s002040050517
86190|T||Srivastava,R.C., M. Athar, S.K. Hasan, and L.R. Misra|Influence of Partial Hepatectomy on the Metabolic Disposition of Nickel in Rats|Bull. Environ. Contam. Toxicol.40(3): 439-443|1988|10.1007/BF01689103
86191|T||Mathur,A.K., B.N. Gupta, S. Singh, A. Singh, S. Narang, and R. Shanker|Cutaneous Toxicity of Sodium Lauryl Sulphate, Nickel, and Their Combination in Guinea Pigs:  Biochemical and Histopathological Observations|Bull. Environ. Contam. Toxicol.49(6): 871-878|1992|10.1007/BF00203161
86192|T||Serafini,M.T., and A. Romeu|Nickel Interactions with Glutathione and Related Enzyme in 11-day Embryo and Yolk Sac in Rat|Bull. Environ. Contam. Toxicol.47(6): 840-844|1991|10.1007/BF01689513
86193|T||Khandelwal,S., S.J.S. Flora, and S.K. Tandon|Nickel-Selenium Interaction-Time Dependent Biochemical Alterations and Metal Decorporation in Rats|Chem.-Biol. Interact.75(3): 341-347|1990|10.1016/0009-2797(90)90076-Y
86194|T||Misra,M., R. Olinski, M. Dizdaroglu, and K.S. Kasprzak|Enhancement by L-Histidine of Nickel(II)-Induced DNA-Protein Cross-Linking and Oxidative DNA Base Damage in the Rat Kidney|Chem. Res. Toxicol.6(1): 33-37|1993|10.1021/tx00031a005
86195|T||Gordon,C.J., L. Fogelson, and A.G. Stead|Temperature Regulation Following Nickel Intoxication in the Mouse:  Effect of Ambient Temperature|Comp. Biochem. Physiol. C Comp. Pharmacol.92C(1): 73-76|1989|10.1016/0742-8413(89)90205-3
86196|T||Iwai,N., C. Watanabe, T. Suzuki, K.T. Suzuki, and C. Tohyama|Metallothionein Induction by Sodium Selenite at Two Different Ambient Temperatures in Mice|Arch. Toxicol.62(6): 447-451|1988|10.1007/BF00288348
86197|T||Hygnstrom,S.E., K.C. VerCauteren, R.A. Hines, and C.W. Mansfield|Efficacy of In-Furrow Zinc Phosphide Pellets for Controlling Rodent Damage in No-Till Corn|Int. Biodeterior. Biodegrad.45(3/4): 215-222|2000|10.1016/S0964-8305(00)00069-X
86198|T||Shafiq-ur-Rehman|Circadian Rhythm of Stereotyped Complex Behaviours in Rats in Environmental Lead Exposure|Prog. Neuro-Psychopharmacol. Biol. Psychiatry23(1): 149-159|1999|10.1016/S0278-5846(98)00086-4
86199|T||Subramanyam,G., and S.A.A. Latheef|Effect of Lead and Cobalt on Atherogenesis in Experimental Rabbits|Trace Elem. Electrolytes16(3): 147-150|1999|
86200|T||Rath,F.W., R. Kortge, P. Haase, and M. Bismarck|The Influence of Zinc Administration on the Development of Experimental Lung Metastases After an Injection of Tumour Cells into the Tail Vein of Rats|Exp. Pathol.  (Jena)41(4): 215-217|1991|10.1016/S0232-1513(11)80093-9
86201|T||Dessi,S., B. Batetta, D. Pulisci, A. Carrucciu, E. Mura, A. Ferreli, and P. Pani|Modifying Influence of Fasting on Liver Hyperplasia Induced by Lead Nitrate|Res. Commun. Chem. Pathol. Pharmacol.68(1): 103-116|1990|
86202|T||Suzuki,C.A.M., H. Ohta, A. Albores, J. Koropatnick, and M.G. Cherian|Induction of Metallothionein Synthesis by Zinc in Cadmium Pretreated Rats|Toxicology63(3): 273-284|1990|10.1016/0300-483X(90)90190-R
86203|T||Trivedi,R., S. John, N. Rathore, M. Kale, and D. Bhatnagar|Effect of Vitamin E on the Changes in Lead-Induced Lipid Peroxidation and Antioxidant Enzymes in Rat Tissues|Trace Elem. Electrolytes15(4): 200-204|1998|
86204|T||Sanchez,D.J., M. Gomez, J.M. Llobet, J. Corbella, and J.L. Domingo|Effects of Aluminium on the Mineral Metabolism of Rats in Relation to Age|Pharmacol. Toxicol.80(1): 11-17|1997|10.1111/j.1600-0773.1997.tb00277.x
86206|T||Vicente-Ortega,V., A.F. Martinez-Garcia, A. Cremades-Campos, J. Rodriguez-Vicente, F. Calderon-Rubiales, and F. Martine|Ultrastructural Investigation of Lead-Induced Intranuclear Inclusion Bodies in Mice|Ultrastruct. Pathol.20(3): 263-273|1996|10.3109/01913129609016324
86207|T||Wright,L.S., S.E. Kornguth, T.D. Oberley, and F.L. Siegel|Effects of Lead on Glutathione S-Transferase Expression in Rat Kidney:  A Dose-Response Study|Toxicol. Sci.46(2): 254-259|1998|
86209|T||Miniuk,K., J. Moniuszko-Jakoniuk, E. Kulikowska, and N. Omieljaniuk|The Interactions of Copper, Lead and Ethanol in Rats:  Effects on Some Biochemical Parameters of Blood|Pol. J. Pharmacol. Pharm.41(3): 273-280|1989|
86210|T||Kulikowska,E., J. Moniuszko-Jakoniuk, and K. Miniuk|The Effect of Zinc on the Toxic Action of Lead After Administration of Ethanol to Rats|Pol. J. Pharmacol. Pharm.41(3): 281-289|1989|
86211|T||Crouse,G.D., T.C. Sparks, J. Schoonover, J. Gifford, J. Dripps, T. Bruce, L.L. Larson, J. Garlich, C. Hatton, R.L. Hill|Recent Advances in the Chemistry of Spinosyns|Pest Manag. Sci.57(2): 177-185|2001|10.1002/1526-4998(200102)57:2<177::AID-PS281>3.0.CO;2-Z
86212|T||Schrager,T.F., W.F.,Jr. Busby, M.E. Goldman, and P.M. Newberne|Enhancement of Methylbenzylnitrosamine-Induced Esophageal Carcinogenesis in Zinc-Deficient Rats:  Effects on Incorporation of [3H] Thymidine into DNA of Esophageal Epithelium and Liver|Carcinogenesis7(7): 1121-1126|1986|10.1093/carcin/7.7.1121
86213|T||Magae,Y.|Saponin Stimulates Fruiting of the Edible Basidiomycete Pleurotus ostreatus|Biosci. Biotechnol. Biochem.63(10): 1840-1842|1999|10.1271/bbb.63.1840
86214|T||Reeves,P.G., and K.L. Nelson|Effect of Zinc Pretreatment on Cisplatin Toxicity and Trace Element Metabolism in Rats|J. Trace Elem. Exp. Med.4(2): 89-101|1991|
86217|T||Lansdown,A.B.G., and A. Taylor|Zinc and Titanium Oxides:  Promising UV-Absorbers but what Influence do they have on the Intact Skin?|Int. J. Cosmet. Sci.19(4): 167-172|1997|10.1111/j.1467-2494.1997.tb00180.x
86218|T||Demir,S., F. Bagirici, and C. Marangoz|A Calcium Channel Blocker Nicardipine Protects Neurons from Zinc-Induced Toxicity in Rat Hippocampus|Neurosci. Res. Commun.30(3): 135-141|2002|10.1002/nrc.10025
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86220|T||Lidon,F.C.|Modulation of Macronutrients Uptake and Translocation in Mn-Treated Rice in Early Stages of Vegetative Growth|J. Plant Nutr.24(1): 61-74|2001|10.1081/PLN-100000312
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86226|T||Hsu,P.C., C.C. Hsu, M.Y. Liu, L.Y. Chen, and Y.L. Guo|Lead-Induced Changes in Spermatozoa Function and Metabolism|J. Toxicol. Environ. Health Part A55(1): 45-64|1998|10.1080/009841098158610
86228|T||Kishikawa,H., and D.A. Lawrence|Differential Production of Interleukin-6 in the Brain and Spleen of Mice Treated with Lipopolysaccharide in the Presence and Absence of Lead|J. Toxicol. Environ. Health Part A53(5): 357-373|1998|10.1080/009841098159222
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86230|A||Jensen,K.M., E.A. Makynen, M.D. Kahl, and G.T. Ankley|Effects of the Feedlot Contaminant 17alpha-Trenbolone on Reproductive Endocrinology of the Fathead Minnow|Environ. Sci. Technol.40:3112-3117|2006|10.1021/es052174s
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86232|T||Llobet,J.M., M.T. Colomina, J.L. Domingo, and J. Corbella|Comparision of the Antidotal Efficacy of Polyamincarboxylic Acids (CDTA and DTPA) with Time After Acute Zinc Poisoning|Vet. Hum. Toxicol.31(1): 25-28|1989|
86233|T||EPA/OTS|Letter to USEPA Submitting Information on Materials that may be Concluded to have Toxic Effects Which may Lead to Death and Serious Injuries with Attachment(Sanitized)|EPA/OTS Doc.#88/7800153:4 p.|2000|
86234|T||Jamil,K., and S. Hussain|Biochemical Variations in Ovaries of Water Hyacinth Weevils Neochetina eichhorniae (Warner) Exposed to Heavy Metals|Indian J. Exp. Biol.31(1): 36-40|1993|
86235|A||Cha,S.S., and J.H. Shim|Toxicity of Heavy Metal Ions on Carp (Cyprinus carpio) Eggs|Proc. Coll. Nat. Sci.9(2): 151-156|1984|
86237|T||Porter,W.P., J.W. Jaeger, and I.H. Carlson|Endocrine, Immune, and Behavioral Effects of Aldicarb (Carbamate), Atrazine (Triazine) and Nitrate (Fertilizer) Mixtures at Groundwater Concentrations|Toxicol. Ind. Health15(1-2): 133-150|1999|10.1191/074823399678846691
86238|T||Aso,S., M. Anai, S. Noda, N. Imatanaka, K. Yamasaki, and A. Maekawa|Twenty-Eight-Day Repeated-Dose Toxicity Studies for Detection of Weak Endocrine Disrupting Effects of Nonylphenol and Atrazine in Female Rats|J. Toxicol. Pathol.13(1): 13-20|2000|10.1293/tox.13.13
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86241|T||Borkovec,A.B., G.C. LaBrecque, and A.B. DeMilo|s-Triazine Herbicides as Chemosterilants of House Flies|J. Econ. Entomol.60(3): 893-894|1967|10.1093/jee/60.3.893
86242|T||Ismail,S.M.M., Y.M. Ahmed, Y.Y.I. Mosleh, and M.T. Ahmed|The Activities of Some Proteins and Protein Related Enzymes of Earthworms as Biomarkers for Atrazine Exposure|Toxicol. Environ. Chem.63(1-4): 141-148|1997|10.1080/02772249709358524
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86247|A||Taboski,M.A.S., T.G. Rand, and A. Piorko|Lead and Cadmium Uptake in the Marine Fungi Corollospora lacera and Monodictys pelagica|FEMS Microbiol. Ecol.53(3): 445-453|2005|10.1016/j.femsec.2005.02.009
86248|T||Schilderman,P.A.E.L., E.J.C. Moonen, P. Kempkers, and J.C.S. Kleinjans|Bioavailability of Soil-Adsorbed Cadmium in Orally Exposed Male Rats|Environ. Health Perspect.105(2): 234-238|1997|10.1289/ehp.97105234
86251|T||Johnson,E.F., and E.L. Rauber|Control of Raccoons with Rodenticides A Field Test|In: J.W.Webb (Ed.), Proc.24th Conf.Southwestern Assoc.Game and Fish Commis.,Sep.27-30, 1970, Atlanta, GA:277-281|1970|
86252|A||Richards,J.G., P.J. Curtis, B.K. Burnison, and R.C. Playle|Effects of Natural Organic Matter Source on Reducing Metal Toxicity to Rainbow Trout (Oncorhynchus mykiss) and on Metal Binding to Their Gills|Environ. Toxicol. Chem.20(6): 1159-1166|2001|10.1002/etc.5620200604
86253|A||Lingsten,L.|Levels of Heavy Metals in Aquatic Mosses in Acidified Water Bodies|Verh. Int. Ver. Theor. Angew. Limnol.24:2228-2230|1991|
86254|A||Broderius,S.J., M.D. Kahl, G.E. Elonen, D.E. Hammermeister, and M.D. Hoglund|A Comparison of the Lethal and Sublethal Toxicity of Organic Chemical Mixtures to the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.24(12): 3117-3127|2005|10.1897/05-094R.1
86255|A||Adam,C., and J. Garnier-Laplace|Bioaccumulation of Silver-110m, Cobalt-60, Cesium-137, and Manganese-54 by the Freshwater Algae Scenedesmus obliquus and Cyclotella meneghiana and by Suspended Matter Collected During a Summer Bloom Event|Limnol. Oceanogr.48(6): 2303-2313|2003|10.4319/lo.2003.48.6.2303
86256|A||Andreozzi,R., M.S. Lo Casale, R. Marotta, G. Pinto, and A. Pollio|N-Methyl-P-Aminophenol (Metol) Ozonation in Aqueous Solution: Kinetics, Mechanism and Toxicological Characterization of Ozonized Samples|Water Res.34(18): 4419-4429|2000|10.1016/S0043-1354(00)00220-7
86257|A||Berny,P., O. Lachaux, T. Buronfosse, M. Mazallon, and C. Gillet|Zebra Mussels (Dreissena polymorpha) as Indicators of Freshwater Contamination with Lindane|Environ. Res.90(2): 142-151|2002|10.1006/enrs.2002.4371
86258|A||Griffin,B.R., J.L. Gollon, M.S. Hobbs, F.F. Kadlubar, and C.D. Brand|Effect of Waterborne Potassium Permanganate Exposure on Manganese Content in Liver and Axial Muscle of Channel Catfish|J. Aquat. Anim. Health11(3): 305-309|1999|10.1577/1548-8667(1999)011<0305:EOWPPE>2.0.CO;2
86259|A||Gustavino,B., A. Buschini, M. Monfrinotti, M. Rizzoni, L. Tancioni, P. Poli, and C. Rossi|Modulating Effects of Humic Acids on Genotoxicity Induced by Water Disinfectants in Cyprinus carpio|Mutat. Res.587(1-2): 103-113|2005|10.1016/j.mrgentox.2005.08.009
86261|A||Meyer,J.N., J.D. Smith, G.W. Winston, and R.T. Di Giulio|Antioxidant Defenses in Killifish (Fundulus heteroclitus) Exposed to Contaminated Sediments and Model Prooxidants:  Short-Term and Heritable Responses|Aquat. Toxicol.65(4): 377-395|2003|10.1016/j.aquatox.2003.06.001
86262|A||Muller,F.L.L., S. Jacquet, and W.H. Wilson|Biological Factors Regulating the Chemical Speciation of Cu, Zn, and Mn Under Different Nutrient Regimes in a Marine Mesocosm Experiment|Limnol. Oceanogr.48(6): 2289-2302|2003|10.4319/lo.2003.48.6.2289
86263|A||Oweson,C.A.M., S.P. Baden, and B.E. Hernroth|Manganese Induced Apoptosis in Haematopoietic Cells of Nephrops norvegicus (L.)|Aquat. Toxicol.77(3): 322-328|2006|10.1016/j.aquatox.2006.01.008
86264|T||Snyder,J.E., N.M. Filipov, P.J. Parsons, and D.A. Lawrence|The Efficiency of Maternal Transfer of Lead and Its Influence on Plasma IgE and Splenic Cellularity of Mice|Toxicol. Sci.57(1): 87-94|2000|10.1093/toxsci/57.1.87
86266|A||Eriksen,R.S., D.J. Mackey, R. Van Dam, and B. Nowak|Copper Speciation and Toxicity in Macquarie Harbour, Tasmania: An Investigation Using a Copper Ion Selective Electrode|Mar. Chem.74(2-3): 99-113|2001|10.1016/S0304-4203(00)00117-1
86267|A||Schintu,M., L. Koussih, L. Chevolot, J.C. Amiard, and J.M. Robert|Monitoring of Labile Zinc in Cultures of Skeletonema costatum Using a Salt Groundwater|Ecotoxicol. Environ. Saf.42(3): 207-211|1999|10.1006/eesa.1998.1746
86268|T||Nowack,B., S. Koehler, and R. Schulin|Use of Diffusive Gradients in Thin Films (DGT) in Undisturbed Field Soils|Environ. Sci. Technol.38(4): 1133-1138|2004|10.1021/es034867j
86269|T||Nimmo,D.W.R., M.A. Preul, C.J. Castle, J.R. Self, R.W. Pillsbury, and E.A. Bergey|Effects of Excess Copper on Growth of Wild Rice (Zizania palustris) Seedlings Tested in Reconstituted and Natural Waters|Environ. Manag.32(4): 466-475|2003|10.1007/s00267-003-2899-4
86270|A||Morrall,D.D., S.E. Belanger, and J.C. Dunphy|Acute and Chronic Aquatic Toxicity Structure-Activity Relationships for Alcohol Ethoxylates|Ecotoxicol. Environ. Saf.56(3): 381-389|2003|10.1016/S0147-6513(02)00088-X
86271|T||Moons,A.|Osgstu3 and Osgtu4, Encoding Tau Class Glutathione S-Transferases, are Heavy Metal- and Hypoxic Stress-Induced and Differentially Salt Stress-Responsive in Rice Roots|FEBS Lett.553(3): 427-432|2003|10.1016/S0014-5793(03)01077-9
86272|A||Besser,J.M., W.G. Brumbaugh, T.W. May, and C.G. Ingersoll|Effects of Organic Amendments on the Toxicity and Bioavailability of Cadmium and Copper in Spiked Formulated Sediments|Environ. Toxicol. Chem.22(4): 805-815|2003|10.1002/etc.5620220419
86273|A||Wicks,B.J.|The Effects of Feeding and Stress on Ammonia Toxicity in Rainbow Trout|Ph.D.Thesis, Univ.of British Columbia, Vancouver, BC, Canada:107 p.|2001|
86274|A||Taylor,L.N.|Physiological Indicators of Waterborne Copper Toxicity in Freshwater Fish|Ph.D.Thesis, McMaster Univ., Hamilton, Ontario:224 p.|2002|
86275|A||Wojtaszek,B.F.|In Situ Investigation of the Effects of Vision and Release Silvicultural Herbicides on Plankton and Larval Amphibians|Ph.D Thesis, Univ.of Guelph, Ontario, Canada:253 p.|2004|
86276|A||Gothberg,A., M. Greger, K. Holm, and B.E. Bengtsson|Influence of Nutrient Levels on Uptake and Effects of Mercury, Cadmium, and Lead in Water Spinach|J. Environ. Qual.33(4): 1247-1255|2004|10.2134/jeq2004.1247
86277|T||Kulkarni,S.G., A. Warbritton, T.J. Bucci, and H.M. Mehendale|Antimitotic Intervention with Colchicine Alters the Outcome of o-DCB-Induced Hepatotoxicity in Fischer 344 Rats|Toxicology120(2): 79-88|1997|10.1016/S0300-483X(97)03627-5
86278|T||Saigal,S., V.K. Bhatnagar, and V.S. Singh|Effects of Lindane and Diazinon on Transaminases in Rat|Environ. Ecol.3(3): 408-410|1985|
86279|A||Nilson,E.L., and R.F. Unz|Antialgal Substances for Iodine-Disinfected Swimming Pools|Appl. Environ. Microbiol.34(6): 815-822|1977|10.1128/aem.34.6.815-822.1977
86280|T||Gupta,R.C., and W.D. Dettbarn|Role of Carboxylesterases in the Prevention and Potentiation of N-Methylcarbamate Toxicity|Chem.-Biol. Interact.87(1-3): 295-303|1993|10.1016/0009-2797(93)90057-6
86282|T||Bagchi,M., E. Hassoun, P. Akubue, D. Bagchi, and S.J. Stohs|Comparative Effects of Endrin on Hepatic Lipid Peroxidation and DNA Damage, and Nitric Oxide Production by Peritoneal Macrophages from C57BL/6J and DBA/2 Mice|Comp. Biochem. Physiol. C Comp. Pharmacol.105(3): 525-529|1993|10.1016/0742-8413(93)90096-4
86286|T||Giavini,E., M.L. Broccia, M. Prati, and C. Vismara|Effect of Method of Administration on the Teratogenicity of Dinoseb in the Rat|Arch. Environ. Contam. Toxicol.15:377-384|1986|10.1007/BF01066404
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86288|A||Willingham,T.|Acute and Short-Term Chronic Ammonia Toxicity to Fathead Minnows (Pimephales promelas) and Ceriodaphnia dubia Using Laboratory Dilution Water and Lake Mead Dilution Water|EPA-822-R-99-014, U.S.EPA, Denver, CO:36 p.|1987|
86289|T||Segerback,D.|Alkylation of DNA and Hemoglobin in the Mouse Following Exposure to Ethene and Ethene Oxide|Chem.-Biol. Interact.45(2): 139-151|1983|10.1016/0009-2797(83)90064-9
86290|T||Donaldson,W.E.|Selenium Inhibition of Avian Fatty Acid Synthetase Complex|Chem.-Biol. Interact.17(3): 313-320|1977|10.1016/0009-2797(77)90094-1
86291|T||Landry,T.D., K. Brooks, D. Poche, and M. Woolhiser|Acute Toxicity Profile of 1-Butyl-3-Methylimidazolium Chloride|Bull. Environ. Contam. Toxicol.74(3): 559-565|2005|10.1007/s00128-005-0620-4
86292|T||Baligar,P.N., and B.B. Kaliwal|Temporal Effect of Carbofuran, a Carbamate Insecticide in the Interruption of Estrous Cycle and Follicular Toxicity in Female Swiss Albino Mice|Bull. Environ. Contam. Toxicol.71(2): 422-428|2003|10.1007/s00128-003-0181-3
86293|T||Ekman,L., and U. Greitz|Distribution of Radiocesium in Reindeer|In: Radioecological Concentration Process, Proc. of an Intl. Symp., Apr. 25-29, Stockholm:655-661|1966|
86294|A||Davies,A.G.|Studies of the Accumulation of Radio-Iron by a Marine Diatom|In: Radioecological Concentration Process, Proc. of an Intl. Symp., Apr. 25-29, Stockholm:983-991|1966|
86295|AT||Myttenaere,C., G. Verfaillie, and P. Bourdeau|Uptake and Distribution of 144Ce in Oryza sativa|In: Radioecological Concentration Process, Proc. of an Intl. Symp. held in Stockholm, Apr. 25-29, 1966, Pergamon Press, Oxford:437-442|1966|
86296|T||Nishioka,M., H. Nakashita, M. Yasuda, S. Yoshida, and I. Yamaguchi|Induction of Resistance Against Rice Bacterial Leaf Blight by 3-Chloro-1-Methyl-1H-Pyrazole-5-Carboxylic Acid|J. Pestic. Sci. (Multiple Languages)30(1): 47-49|2005|10.1584/jpestics.30.47
86297|T||Banerjee,B.D., and Q.Z. Hussain|Effect of Sub-Chronic Endosulfan Exposure on Humoral and Cell-Mediated Immune Responses in Albino Rats|Arch. Toxicol.59(4): 279-284|1986|10.1007/BF00290551
86301|T||Banerjee,B.D., and Q.Z. Hussain|Effects of Endosulfan on Humoral and Cell-Mediated Immune Responses in Rats|Bull. Environ. Contam. Toxicol.38(3): 435-441|1987|10.1007/BF01606611
86302|T||Chowdhury,A.R., H. Venkatakrishna-Bhatt, and A.K. Gautam|Testicular Changes of Rats Under Lindane Treatment|Bull. Environ. Contam. Toxicol.38:154-156|1987|10.1007/BF01606574
86303|A||Townsley,S.J.|The Concentration of 90Sr and Other Nuclides of Strontium in Fish|In: Proc.of an Intl.Symp., Radioecological Concentration Process, April 25-29, Stockholm:867-878|1966|
86304|T||Ahlborg,U.G., and K. Larsson|Metabolism of Tetrachlorophenols in the Rat|Arch. Toxicol.40:63-74|1978|10.1007/BF00353280
86306|A||Timofeeva,N.A., and N.V. Kulikov|The Role of Freshwater Plants in Accumulation of 90Sr and Its Distribution over the Components of Reservoir|In: Radioecological Concentration Process, Proc. of an Intl. Symp., Apr. 25-29, Stockholm:835-841|1966|
86307|T||Wilson,R.P., M.E. Muhrer, and R.A. Bloomfield|Comparative Ammonia Toxicity|Comp. Biochem. Physiol.25(1): 295-301|1968|10.1016/0010-406X(68)90936-5
86309|T||Cheng,W.H., Y.X. Fu, J.M. Porres, D.A. Ross, and X.G. Lei|Selenium-Dependent Cellular Glutathione Peroxidase Protects Mice Against a Pro-Oxidant-Induced Oxidation of NADPH, NADH, Lipids, and Protein|FASEB J.13(11): 1467-1475|1999|10.1096/fasebj.13.11.1467
86310|T||Nicholls,A.W., E. Holmes, J.C. Lindon, J.P. Shockcor, R.D. Farrant, J.N. Haselden, S.J.P. Damment, C.J. Waterfield, and|Metabonomic Investigations into Hydrazine Toxicity in the Rat|Chem. Res. Toxicol.14(8): 975-987|2001|10.1021/tx000231j
86311|A||Lehman,J.T., A. Bazzi, T. Nosher, and J.O. Nriagu|Copper Inhibition of Phytoplankton in Saginaw Bay, Lake Huron|Can. J. Fish. Aquat. Sci.61(10): 1871-1880|2004|10.1139/f04-129
86312|T||Cory-Slechta,D.A.|MK-801 Subsensitivity Following Postweaning Lead Exposure|Neurotoxicology16(1): 83-96|1995|
86314|T||Skrzydlewska,E., and R. Farbiszewski|Lipid Peroxidation and Antioxidant Status in the Liver, Erythrocytes, and Serum of Rats After Methanol Intoxication|J. Toxicol. Environ. Health Part A53(8): 637-649|1998|10.1080/009841098159088
86316|T||Liu,J., and C.N. Pope|Comparative Presynaptic Neurochemical Changes in Rat Striatum Following Exposure to Chlorpyrifos or Parathion|J. Toxicol. Environ. Health53(7): 531-544|1998|10.1080/009841098159123
86317|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.S. Anthony, J.E. Kolakowski, C.W. Kurnas, and E.A. Davis|Toxicity of a New Polynitramine Energetic Material, CL-20, to the Enchytraeid Worm, Enchytraeus crypticus, in a Sandy Loam Soil|Rep.No.ECBC-TR-485, Edgewood Chem.Biol.Ctr.,Aberdeen Proving Ground, MD:29 p.|2006|
86318|T||Chen,C.Y., and T.H. Lin|Effects of Selenium Dioxide on Blood and Femoral Bone Marrow of Rats|J. Toxicol. Environ. Health Part A59(7): 553-560|2000|10.1080/009841000156673
86319|T||Nolan,T.D., and D. Brown|The Influence of Elevated Dietary Zinc, Selenium, and Their Combination on the Suppressive Effect of Dietary and Intraperitoneal Cadmium on Egg Production in Laying Hens|J. Toxicol. Environ. Health Part A60(8): 549-565|2000|10.1080/00984100050082094
86320|T||Waalkes,M.P., M.R. Anver, and B.A. Diwan|Chronic Toxic and Carcinogenic Effects of Oral Cadmium in the Noble (NBL/Cr) Rat:  Induction of Neoplastic and Proliferative Lesions of the Adrenal, Kidney, Prostate, and Testes|J. Toxicol. Environ. Health Part A58(4): 199-214|1999|10.1080/009841099157296
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86322|T||Lohiya,N.K., P.K. Mishra, N. Pathak, B. Manivannan, S.S. Bhande, S. Panneerdoss, and S. Sriram|Efficacy Trial on the Purified Compounds of the Seeds of Carica papaya for Male Contraception in Albino Rat|Reprod. Toxicol.20(1): 135-148|2005|10.1016/j.reprotox.2004.11.015
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86326|T||Goldsmith,R.H., and J.H.,Jr. Soares|Barbiturate Potentiation in Mercury Poisoning|Bull. Environ. Contam. Toxicol.13(6): 737-740|1975|10.1007/BF01721945
86327|T||Lee,P.C., and W. Lee|In Vivo Estrogenic Action of Nonylphenol in Immature Female Rats|Bull. Environ. Contam. Toxicol.57(3): 341-348|1996|10.1007/s001289900196
86328|A||Barkes,L., and R.W. Fleming|Effects of Alternative Selenium and Sulfur Sources on Dimethylselenide Production by Two Fungi Isolated from Natural Systems|Bull. Environ. Contam. Toxicol.15(4): 504-508|1976|10.1007/BF01685080
86329|T||Peters,B., G. Stoltenburg, M. Hummel, H. Herbst, L. Altmann, and H. Wiegand|Effects of Chronic Low Level Lead Exposure on the Expression of GFAP and Vimentin mRNA in the Rat Brain Hippocampus Analysed by In Situ Hybridization|Neurotoxicology15(3): 685-694|1994|
86330|T||Cohn,J., and D.A. Cory-Slechta|Assessment of the Role of Dopaminergic Systems in Lead-Induced Learning Impairments Using a Repeated Acquisition and Performance Baseline|Neurotoxicology15(4): 913-926|1994|
86331|A||ENSR Consulting and Engineering|Summary of March 1994 Acute Tests (Rainbow Trout, Brown Trout, Brook Trout)|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:61 p.|1994|
86332|T||Shinogi,M., and S. Maeizumi|Effect of Preinduction of Metallothionein on Tissue Distribution of Silver and Hepatic Lipid Peroxidation|Biol. Pharm. Bull.16(4): 372-374|1993|10.1248/bpb.16.372
86333|T||Gale,G.R., L.M. Atkins, A.B. Smith, and M.M. Jones|Effects of Diethyldithiocarbamate and Selected Analogs on Lead Metabolism in Mice|Res. Commun. Chem. Pathol. Pharmacol.52(1): 29-44|1986|
86334|T||Widmer,H.R., H. Vedder, M. Schlumpf, and W. Lichtensteiger|Concurrent Changes in Regional Cholinergic Parameters and Nest Odor Preference in the Early Postnatal Rat After Lead Exposure|Neurotoxicology13(3): 615-624|1992|
86335|T||Blaha,K.,Jr., J. Havrdova, J. Rosina, I. Sperlingova, P. Tichy, and M. Cikrt|The Effect of Silver-110m Ag on Ceruloplasmin Oxidase Activity in Rats|J. Hyg. Epidemiol. Microbiol. Immunol.31(1): 39-43|1987|
86336|A||ENSR Consulting and Engineering|Summary of March 1996 Acute Tests with Fathead Minnows|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:24 p.|1996|
86337|T||Rungby,J.|Exogenous Silver in Dorsal Root Ganglia, Peripheral Nerve,  Enteric Ganglia, and Adrenal Medulla|Acta Neuropathol.69(1-2): 45-53|1986|10.1007/BF00687038
86338|A||ENSR Consulting and Engineering|Summary of Summer of 1990 Acute Tests (Ceriodaphnia dubia, Fathead Minnows, Rainbow Trout)|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:86 p.|1990|
86339|A||Bartlett,A.J.|Chronic Effects of Tributyltin in Freshwater Invertebrates|Ph.D.Thesis, University of Waterloo, Ontario, Canada:190 p.|2004|
86342|A||Roshon,H.D.|Effects of the Pyrethroid Insecticide, Tefluthrin, on Benthic Organisms:  Tubifex tubifex and Chironomus riparius|M.S.Thesis, Univ.of Guelph, Ontario, Canada:161 p.|1998|
86343|AT||Richards,S.M.|Chlorpyrifos:  Exposure and Effects in Passerines and Anurans|Ph.D Thesis, Texas Tech University, Lubbock, TX:147 p.|2000|
86344|A||Gauthier,C.|Effects of Sub-lethal Metal Exposure on Fathead Minnows (Pimephales promelas) Under Field and Laboratory Conditions|M.S.Thesis, Laurentian University, Sudbury, Ontario:73 p.|2004|
86345|A||Takacs,P.|Evaluation of Probabilistic Ecological Risk Assessment Methodology Using Aquatic Microcosms and Azinphos-Methyl|M.S.Thesis, Univ.of Guelph, Ontario, Canada:211 p.|1999|
86346|A||Crump,D.|The Effects of the Xenoestrogen, Octylphenol (OP), and UV-B Radiation on Somatic Development and Hypothalamic Gene Expression of the Leopard Frog (Rana pipiens)|M.S.Thesis, University of Ottawa, Canada:102 p.|2000|
86350|A||Haskell Laboratory|Initial Submission:  Study of 96-Hour LC50 of Lead, Tetraethyl in Fathead Minnows with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010087:14 p.|1992|
86351|A||Haskell Laboratory|Initial Submission:  Report of 96-Hour LC50 of Lead, Tetraethyl in Fathead Minnows with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010086:14 p.|1992|
86352|A||Haskell Laboratories|Initial Submission:  96-Hour LC50 to Bluegill Sunfish with Cover Letter Dated 101592|EPA/OTS Doc.#88-920010136:14 p.|1992|
86355|A||ENSR Consulting and Engineering|Summary of July 1996 Acute Test with Bufo boreas|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:11 p.|1996|
86356|A||Drottar,K.R.|Short-Term Chronic Toxicity of Manganese Chloride in Soft Reconstituted Water and North Slope Pond Water to the Fathead Minnow (Pimephales promelas) Under Static Renewal Test Conditions|Lab.Proj.ID 8505-088-011-018, 020,ENSR Consult.and Eng.,Fort Collins,CO:58 p.|1989|
86357|A||ENSR Consulting and Engineering|Acute Toxicity of Manganese to Ceriodaphnia dubia Under Static Renewal Test Conditions at Four Levels of Water Hardness|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:129 p.|1992|
86358|T||Smialowicz,R.J., R.R. Rogers, M.M. Riddle, R.W. Luebke, L.D. Fogelson, and D.G. Rowe|Effects of Manganese, Calcium, Magnesium, and Zinc on Nickel-Induced Suppression of Murine Natural Killer Cell Activity|J. Toxicol. Environ. Health20(1-2): 67-80|1987|10.1080/15287398709530962
86359|T||Misra,M., R.E. Rodriguez, S.L. North, and K.S. Kasprzak|Nickel-Induced Renal Lipid Peroxidation in Different Strains of Mice:  Concurrence with Nickel Effect on Antioxidant Defense Systems|Toxicol. Lett.58(2): 121-133|1991|10.1016/0378-4274(91)90166-4
86360|T||Sakaguchi,S., T. Sakaguchi, I. Nakamura, M. Aminaka, T. Tanaka, and Y. Kudo|Effect of Beryllium Chloride on Porphyrin Metabolism in Pregnant Mice Administered by Subcutaneous Injection|J. Toxicol. Environ. Health50(5): 507-517|1997|10.1080/00984109708984004
86361|A||Meredith,H.O., N.H. Richman, J.T. Collier, A.P. Seale, L.G. Riley, C.H. Ball, S.K. Shimoda, M.H. Stetson, and E.G. Grau|Pesticide Effects on Prolactin Release from the Rostral Pars Distalis In Vitro and Their Effects on Growth In Vivo in the Tilapia (Oreochromis mossambicus)|ASTM Spec. Tech. Publ.:239-253|1999|
86362|T||Iniesta,M.P., M.I.S. Reus, and B. Ribas|Metallothionein-I Marker of Cadmium Toxicity in Rat Kidney|In: E.Merian and W.Haerdi (Eds.), Metal Compounds in Environment and Life, Northwood, UK4:303-309|1991|
86364|A||ENSR Consulting and Engineering|Short-Term Chronic Toxicity of Manganese to the Fathead Minnow (Pimephales promelas) Under Static Renewal Test Conditions at Four Levels of Water Hardness|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:152 p.|1992|
86365|A||ENSR Consulting and Engineering|Early Life Stage Toxicity of Manganese to the Fathead Minnow (Pimephales promelas) Under Flow-Through Test Conditions|Prepared for Vranesh and Raisch, LLC Boulder,CO, ENSR Consult.Eng.,Fort Collins,CO:361 p.|1996|
86366|T||Dostal,L.A., S.M. Hopfer, S.M. Lin, and F.W.Jr. Sunderman|Effects of Nickel Chloride on Lactating Rats and Their Suckling Pups, and the Transfer of Nickel Through Rat Milk|Toxicol. Appl. Pharmacol.101(2): 220-231|1989|10.1016/0041-008X(89)90271-8
86367|T||Sunderman,F.W.Jr., S.M. Hopfer, S.M. Lin, M.C. Plowman, T. Stojanovic, S.H.Y. Wong, O. Zaharia, and L. Ziebka|Toxicity to Alveolar Macrophages in Rats Following Parenteral Injection of Nickel Chloride|Toxicol. Appl. Pharmacol.100(1): 107-118|1989|10.1016/0041-008X(89)90095-1
86368|T||Chen,C.Y., J.Y. Sheu, and T.H. Lin|Oxidative Effects of Nickel on Bone Marrow and Blood of Rats|J. Toxicol. Environ. Health Part A58(8): 475-483|1999|10.1080/009841099157106
86369|T||Watanabe,C., B. Weiss, C. Cox, and J. Ziriax|Modification by Nickel of Instrumental Thermoregulatory Behavior in Rats|Fundam. Appl. Toxicol.14(3): 578-588|1990|10.1016/0272-0590(90)90262-I
86370|T||Nielsen,G.D., O. Andersen, and M. Jensen|Toxicokinetics of Nickel in Mice Studied with the gamma-Emitting Isotope 57Ni|Fundam. Appl. Toxicol.21(2): 236-243|1993|10.1006/faat.1993.1094
86371|T||Misra,M., M. Athar, S.K. Hasan, and R.C. Srivastava|Alleviation of Nickel-Induced Biochemical Alterations by Chelating Agents|Fundam. Appl. Toxicol.11(2): 285-292|1988|10.1016/0272-0590(88)90153-4
86372|T||Smialowicz,R.J., R.R. Rogers, M.M. Riddle, R.J. Garner, D.G. Rowe, and R.W. Luebke|Immunologic Effects of Nickel II.  Suppression of Natural Killer Cell Activity|Environ. Res.36(1): 56-66|1985|10.1016/0013-9351(85)90007-6
86373|T||Smialowicz,R.J., R.R. Rogers, M.M. Riddle, and G.A. Stott|Immunologic Effects of Nickel I.  Suppression of Cellular and Humoral Immunity|Environ. Res.33(2): 413-427|1984|10.1016/0013-9351(84)90039-2
86374|T||Olkowski,A.A., S.R. Gooneratne, and D.A. Christensen|The Effects of Thiamine and EDTA on Biliary and Urinary Lead Excretion in Sheep|Toxicol. Lett.59(1-3): 153-159|1991|10.1016/0378-4274(91)90067-G
86375|T||Mukherjee,A., A. Sharma, and G. Talukder|Effect of Selenium on Cadmium-Induced Chromosomal Aberrations in Bone Marrow Cells of Mice|Toxicol. Lett.41(1): 23-29|1988|10.1016/0378-4274(88)90004-5
86377|T||Milks,M.M., S.R. Wilt, I.I. Ali, and D. Couri|The Effects of Selenium on the Emergence of Aflatoxin B1-Induced Enzyme-Altered Foci in Rat Liver|Fundam. Appl. Toxicol.5(2): 320-326|1985|10.1016/0272-0590(85)90080-6
86378|T||Hayes,F.D., R.D. Short, and J.E. Gibson|Differential Toxicity of Monochloroacetate, Monofluoroacetate and Monoiodoacetate in Rats|Toxicol. Appl. Pharmacol.26:93-102|1973|10.1016/0041-008X(73)90089-6
86379|T||Yang,C.M., T.M. Dwyer, and J.M. Farley|Muscarinic Receptors and Mucus Secretion in Swine Tracheal Epithelium: Effects of Subacute Organophosphate Treatment|Fundam. Appl. Toxicol.17(1): 34-42|1991|10.1016/0272-0590(91)90236-W
86381|T||Conaway,C.C., P. Upadhyaya, C.L. Meschter, C. Kurtzke, L.A. Marcus, and K. El-Bayoumy|Subchronic Toxicity of Benzyl Selenocyanate and 1,4- Phenylenebis(Methylene)Selenocyanate in F344 Rats|Fundam. Appl. Toxicol.19(4): 563-574|1992|10.1016/0272-0590(92)90095-Y
86383|T||Padmaja,K., B.V. Somasekharaiah, and A.R.K. Prasad|Selenium Induced Lipid Peroxidation in Heart Tissues of Chick Embryos|Bull. Environ. Contam. Toxicol.51(3): 401-408|1993|10.1007/BF00201759
86384|T||Prohaska,J.R., M. Mowafy, and H.E. Ganther|Interactions Between Cadmium, Selenium and Glutathione Peroxidase in Rat Testis|Chem.-Biol. Interact.18(3): 253-265|1977|10.1016/0009-2797(77)90012-6
86385|T||Christov,K., S.M. Swanson, R.C. Guzman, G. Thordarson, E. Jin, F. Talamantes, and S. Nandi|Kinetics of Mammary Epithelial Cell Proliferation in Pituitary Isografted BALB/c Mice|Carcinogenesis14(10): 2019-2025|1993|10.1093/carcin/14.10.2019
86388|T||Flora,S.J.S., J.R. Behari, M. Ashquin, and S.K. Tandon|Time-Dependent Protective Effect of Selenium Against Cadmium-Induced Nephrotoxicity and Hepatotoxicity|Chem.-Biol. Interact.42(3): 345-351|1982|10.1016/0009-2797(82)90078-3
86392|T||Kapoor,M., and W.S. Lin|Studies on the Induction of Aryl Hydrocarbon (Benzo[a]Pyrene) Hydroxylase in Neurospora crassa, and Its Suppression by Sodium Selenite|Xenobiotica14(12): 903-915|1984|10.3109/00498258409151489
86393|T||Clarke,I.S., and E.M.K. Lui|Interaction of Metallothionein and Carbon Tetrachloride on the Protective Effect of Zinc on Hepatotoxicity|Can. J. Physiol. Pharmacol.64(8): 1104-1110|1986|10.1139/y86-188
86394|A||England,R.H., and K.B. Cumming|Stream Damage from Manganese Strip-Mining|In: 25th Annu.Conf.Southeast.Assoc.of Game and Fish Comm., Oct.17, 1971, Charleston, SC:399-418|1971|
86395|T||Lowe,N.M., I. Bremner, and M.J. Jackson|Plasma 65Zn Kinetics in the Rat|Br. J. Nutr.65(3): 445-455|1991|10.1079/BJN19910103
86396|A||ENSR Consulting and Engineering|Acute Toxicity of Manganese to Hyalella azteca Under Static Test Conditions|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:49 p.|1996|
86397|A||ENSR Consulting and Engineering|Acute Toxicity of Manganese to Chironomus tentans Under Static Test Conditions|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:33 p.|1996|
86398|A||ENSR Consulting and Engineering|Chronic Toxicity of Manganese to Ceriodaphnia dubia Under Static Renewal Test Condidtions af four Levels of Water Hardness|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:180 p.|1992|
86399|A||ENSR Consulting and Engineering|Acute Toxicity of Manganese to Pimephales promelas Under Static Renewal Test Conditions at four Levels of Water Hardness|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:133 p.|1992|
86400|A||ENSR Consulting and Engineering|Acute Toxicity of Manganese to Brook Trout (Salvelinus fontinalis) Under Static Test Conditions|Prepared for Climax Metals Co., Golden, Co.by ENSR Consulting and Engineering, Ft.Collins, CO:47 p.|1996|
86401|A||Drottar,K.R.|Short-Term Chronic Toxicity of Manganese Chloride in soft Reconstituted Water and North Slope Pond Water to Ceriodaphnia dubia Under Static Renewal Test Conditions|Lab.Proj.ID 8505-088-011-017,019,021,ENSR Consult.and Eng.,Fort Collins,CO:56 p.|1989|
86402|A||Davies,P., and S. Brinkman|Acute and Chronic Toxicity of Manganese to Exposed and Unexposed Rainbow and Brown Trout|Federal Aid in Fish and Wildlife Restoration, Colorado Division of Wildlife. Fort Collins, CO:26-32|1994|
86403|A||Davies,P.H., and S. Brinkman|Acute Toxicity of Manganese to Brown Trout (Salmo trutta) in Hard Water|In: Fed.Aid Proj.#F-243, Colorado Div.of Wildl., Fort Collins, CO:22-25|1995|
86404|A||Beleau,M.H., and J.A. Bartosz|Colorado River Fisheries Project Acute Toxicity of Selected Chemicals: Data Base|Report No.6, Department of Fishery Resources, College of Forestry, University of Idaho, Moscow, ID:243-254|1982|
86405|A||Davies,P.H., and S.F. Brinkman|Toxicity of Manganese to Early-Life Stage and Fry of Brook Trout (Salvelinus fontinalis) and Rainbow Trout (Oncorhynchus mykiss) in Water Hardnesses of 30 and 150 mg/L|In: Job Prog.Rep.,Fed Aid in Fish & Wildl.Restor.,Co.Div.Wildl.,Ft.Collins, CO:49-62|1998|
86407|A||Villeneuve,D.L., M.B. Murphy, M.D. Kahl, K.M. Jensen, B.C. Butterworth, E.A. Makynen, E.J. Durhan, A. Linnum, R.L. Lein|Evaluation of the Methoxytriazine Herbicide Prometon Using a Short-Term Fathead Minnow Reproduction Test and a Suite of In Vitro Bioassays|Environ. Toxicol. Chem.25(8): 2143-2153|2006|10.1897/05-604R.1
86409|A||Wilski,S., U. Johanningmeier, S. Hertel, and W. Oettmeier|Herbicide Binding in Various Mutants of the Photosystem II D1 Protein of Chlamydomonas reinhardtii|Pestic. Biochem. Physiol.84(3): 157-164|2006|10.1016/j.pestbp.2005.07.001
86410|T||Tu,C.M.|Influence of Ten Herbicides on Activities of Microorganisms and Enzymes in Soil|Bull. Environ. Contam. Toxicol.51(1): 30-39|1993|10.1007/BF00200997
86411|A||Trimble,A.J., and M.J. Lydy|Effects of Triazine Herbicides on Organophosphate Insecticide Toxicity in Hyalella azteca|Arch. Environ. Contam. Toxicol.51(1): 29-34|2006|10.1007/s00244-005-0176-7
86413|T||Ali,N.A., M.P. Bernal, and M. Ater|Tolerance and Bioaccumulation of Cadmium by Phragmites australis Grown in the Presence of Elevated Concentrations of Cadmium, Copper, and Zinc|Aquat. Bot.80(3): 163-176|2004|10.1016/j.aquabot.2004.08.008
86414|T||Flora,S.J.S., D. Kumar, S.R.S. Sachan, and S. Das Gupta|Combined Exposure to Lead and Ethanol on Tissue Concentration of Essential Metals and Some Biochemical Indices in Rat|Biol. Trace Elem. Res.28(2): 157-164|1991|10.1007/BF02863081
86415|T||Schulte,S., W.E. Mueller, and K.D. Friedberg|In Vitro and In Vivo Effects of Lead on Specific 3H-MK-801 Binding to NMDA-Receptors in the Brain of Mice|Neurotoxicology16(2): 309-318|1995|
86416|A||Naskar,R., N.S. Sen, and M.F. Ahmad|Aluminium Toxicity Induced Poikilocytosis in an Air-Breathing Teleost, Clarias batrachus (Linn.)|Indian J. Exp. Biol.44(1): 83-85|2006|
86417|T||Flora,S.J.S., and S. Das Gupta|Dose Dependent Influence of Ethanol on Lead Induced Biochemical Alterations and Essential Metals Concentration in Rats|Eur. J. Pharmacol.183(5): 2048-|1990|10.1016/0014-2999(90)92412-C
86418|T||Hallen,I.P., and A. Oskarsson|Dose Dependent Transfer of 203Lead to Milk and Tissue Uptake in Suckling Offspring Studied in Rats and Mice|Pharmacol. Toxicol.73(3): 174-179|1993|10.1111/j.1600-0773.1993.tb01559.x
86419|T||Dyatlov,V.A., O.M. Dyatlova, P.J. Parsons, D.A. Lawrence, and D.O. Carpenter|Lipopolysaccharide and Interleukin-6 Enhance Lead Entry into Cerebellar Neurons:  Application of a New and Sensitive Flow Cytometric Technique to Measure Intracellular Lead and Calcium Concentrations|Neurotoxicology19(2): 293-302|1998|
86420|T||Valenzuela,A., J.M. Lefauconnier, J. Chaudiere, and J.M. Bourre|Effects of Lead Acetate on Cerebral Glutathione Peroxidase and Catalase in the Suckling Rat|Neurotoxicology10(1): 63-70|1989|
86421|T||Lever,S.Z., and U. Scheffel|Regional Distribution of 203PbCl2 in the Mouse After Intravenous Injection|Neurotoxicology19(2): 197-208|1998|
86422|T||Van den Berg,K.J., J.H.C.M. Lammers, E.M.G. Hoogendijk, and B.M. Kulig|Changes in Regional Brain GFAP Levels and Behavioral Functioning Following Subchronic Lead Acetate Exposure in Adult Rats|Neurotoxicology17(3-4): 725-734|1996|
86423|T||Lim,D.K., and I.K. Ho|Responses to N-Methyl-D-Aspartate and Kainic Acid in Cerebellar Granule Cells of Lead-Exposed Rat Pups|Neurotoxicology19(1): 49-56|1998|
86424|T||Brockel,B.J., and D.A. Cory-Slechta|The Effects of Postweaning Low-Level Pb Exposure on Sustained Attention:  A Study of Target Densities, Stimulus Presentation Rate, and Stimulus Predictability|Neurotoxicology20(6): 921-934|1999|
86425|T||Skoczynska,A., J. Szechinski, W. Juzwa, R. Smolik, and F.J. Behal|Carotid Sinus Reflexes in Rats Given Small Doses of Lead|Toxicology43(2): 161-171|1987|10.1016/0300-483X(87)90006-0
86428|T||Barber,S.J., H.M. Parker, and C.D. McDaniel|Broiler Breeder Semen Quality as Affected by Trace Minerals In Vitro|Poult. Sci.84(1): 100-105|2005|10.1093/ps/84.1.100
86429|T||Chowdhuri,D.K., R. Narayan, and D.K. Saxena|Effect of Lead and Chromium on Nucleic Acid and Protein Synthesis During Sperm-Zona Binding in Mice|Toxicol. In Vitro15(6): 605-613|2001|10.1016/S0887-2333(01)00077-7
86430|T||Atkinson,J.B., K.E. Hill, and R.F. Burk|Centrilobular Endothelial Cell Injury by Diquat in the Selenium-Deficient Rat Liver|Lab. Invest.81(2): 193-200|2001|10.1038/labinvest.3780227
86431|A||Chen,C.Y., R.G. Getchell, G.A. Wooster, A.L. Craigmill, and P.R. Bowser|Oxytetracycline Residues in Four Species of Fish After 10-Day Oral Dosing in Feed|J. Aquat. Anim. Health16(4): 208-219|2004|10.1577/H04-071.1
86432|T||El-Bayoumy,K., Y.H. Chae, J.G. Rosa, L.K. Williams, D. Desai, S. Amin, and E. Fiala|The Effects of 1-Nitropyrene, 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine and 7,12-Dimethylbenz[a]anthracene on 8-Hydroxy-2'-Deoxyguanosine Levels in the Rat Mammary Gland and Modulation by Dietary 1,4-Phenylenebis(|Cancer Lett.151(1): 7-13|2000|10.1016/S0304-3835(99)00391-2
86433|T||Correa,M., C. Sanchis-Segura, and C.M.G. Aragon|Brain Catalase Activity is Highly Correlated with Ethanol-Induced Locomotor Activity in Mice|Physiol. Behav.73(4): 641-647|2001|10.1016/S0031-9384(01)00511-X
86434|T||Cheng,Y.J., B.C. Yang, W.C. Hsieh, B.M. Huang, and M.Y. Liu|Enhancement of TNF-alpha Expression does not Trigger Apoptosis upon Exposure of Glial Cells to Lead and Lipopolysaccharide|Toxicology178(3): 183-191|2002|10.1016/S0300-483X(02)00225-1
86436|T||Bintvihok,A., and S. Kositcharoenkul|Effect of Dietary Calcium Propionate on Performance, Hepatic Enzyme Activities and Aflatoxin Residues in Broilers Fed a Diet Containing Low Levels of Aflatoxin B1|Toxicon47(1): 41-46|2006|10.1016/j.toxicon.2005.09.009
86437|T||Binienda,Z., C. Simmons, S. Hussain, W. Slikker, and S.F. Ali|Effect of Acute Exposure to 3-Nitropropionic Acid on Activities of Endogenous Antioxidants in the Rat Brain|Neurosci. Lett.251(3): 173-176|1998|10.1016/S0304-3940(98)00539-4
86438|T||Brown,T.A., and A. Shrift|Exclusion of Selenium from Proteins of Selenium-Tolerant Astragalus Species|Plant Physiol.67(5): 1051-1053|1981|10.1104/pp.67.5.1051
86439|T||Carmignani,M., A.R. Volpe, P. Boscolo, N. Qiao, M. Di Gioacchino, A. Grilli, and M. Felaco|Catcholamine and Nitric Oxide Systems as Targets of Chronic Lead Exposure in Inducing Selective Functional Impairment|Life Sci.68(4): 401-415|2000|10.1016/S0024-3205(00)00954-1
86441|T||Bailey,R.H., L.F. Kubena, R.B. Harvey, S.A. Buckley, and G.E. Rottinghaus|Efficacy of Various Inorganic Sorbents to Reduce the Toxicity of Aflatoxin and T-2 Toxin in Broiler Chickens|Poult. Sci.77(11): 1623-1630|1998|10.1093/ps/77.11.1623
86443|A||Boucher,A.M., and M.C. Watzin|Toxicity Identification Evaluation of Metal-Contaminated Sediments Using an Artificial Pore Water Containing Dissolved Organic Carbons|Environ. Toxicol. Chem.18(3): 509-518|1999|
86444|T||Cabrera,A.R., R.A. Cloyd, and E.R. Zaborski|Effects of Greenhouse Pesticides on the Soil-Dwelling Predatory Mite Stratiolaelaps scimitus (Acari: Mesostigmata: Laelapidae) Under Laboratory Conditions|J. Econ. Entomol.97(3): 793-799|2004|10.1603/0022-0493(2004)097[0793:EOGPOT]2.0.CO;2
86445|T||Chaurasia,S.S., and A. Kar|Protective Effects of Vitamin E Against Lead-Induced Deterioration of Membrane Associated Type-I Iodothyronine 5'-Monodeiodinase (5'D-I) Activity in Male Mice|Toxicology124(3): 203-209|1997|10.1016/S0300-483X(97)00155-8
86447|T||Daggett,D.A., T.D. Oberley, S.A. Nelson, L.S. Wright, S.E. Kornguth, and F.L. Siegel|Effects of Lead on Rat Kidney and Liver:  GST Expression and Oxidative Stress|Toxicology128(3): 191-206|1998|10.1016/S0300-483X(98)00080-8
86448|A||De Pirro,M., and D.J. Marshall|Phylogenetic Differences in Cardiac Activity, Metal Accumulation and Mortality of Limpets Exposed to Copper:  A Prosobranch-Pulmonate Comparison|J. Exp. Mar. Biol. Ecol.322(1): 29-37|2005|10.1016/j.jembe.2005.01.013
86449|T||Dregseth,R.J., M.A. Boetel, A.J. Schroeder, R.B. Carlson, and J.S. Armstrong|Oat Cover Cropping and Soil Insecticides in an Integrated Sugarbeet Root Maggot (Diptera:  Otitidae) Management Program|J. Econ. Entomol.96(5): 1426-1432|2003|10.1093/jee/96.5.1426
86450|T||Dwivedi,N., M. Das, and S.K. Khanna|Role of Biological Antioxidants in Benzanthrone Toxicity|Arch. Toxicol.75(4): 221-226|2001|10.1007/s002040100222
86451|T||Egle,P.M., and K.R. Shelton|Chronic Lead Intoxication Causes a Brain-Specific Nuclear Protein to Accumulate in the Nuclei of Cells Lining Kidney Tubules|J. Biol. Chem.261(5): 2294-2298|1986|10.1016/S0021-9258(17)35933-1
86452|T||Eldridge,R., and J.E. Casida|Cantharidin Effects on Protein Phosphatases and the Phosphorylation State of Phosphoproteins in Mice|Toxicol. Appl. Pharmacol.130(1): 95-100|1995|10.1006/taap.1995.1013
86453|T||Farina,M., V. Folmer, R.C. Bolzan, L.H. Andrade, G. Zeni, A.L. Braga, and J.B.T. Rocha|Selenoxides Inhibit delta-Aminolevulinic Acid Dehydratase|Toxicol. Lett.119(1): 27-37|2001|10.1016/S0378-4274(00)00296-4
86454|T||Flora,G.J.S., P. Kumar, and P.K. Seth|Recovery from Lead Induced Biochemical and Immunological Alterations Following Combined Treatment with DMSA and Calcium Disodium EDTA in Rats|Environ. Toxicol. Pharmacol.5(2): 127-134|1998|10.1016/S1382-6689(97)10065-5
86456|T||Bull,J.O.|Laboratory and Field Investigations with Difenacoum, a Promising New Rodenticide|Proc. Vertebr. Pest Conf.:72-84|1976|
86457|T||Hadler,M.R., R. Redfern, and F.P. Rowe|Laboratory Evaluation of Difenacoum as a Rodenticide|J. Hyg.74:441-448|1975|10.1017/S0022172400046957
86458|T||Romankow-Zmudowska,A.|Effectiveness of Difenacoum and Brodifacoum Against Common Vole (Microtus arvalis), Mouse (Mus musculus v. Alba) and Rabbit (Oryctolagus cuniculus) in the Laboratory Tests|Pr. Nauk. Inst. Ochr. Rosl. (Multiple Languages):83-90|1983|
86459|T||Rennison,B.D., and M.R. Hadler|Field Trials of Difenacoum Against Warfarin-Resistant Infestations of Rattus norvegicus|J. Hyg.74:449-455|1975|10.1017/S0022172400046969
86460|T||Gupta,R.C., and W.L. Kadel|Prevention and Antagonism of Acute Carbofuran Intoxication by Memantine and Atropine|J. Toxicol. Environ. Health28(1): 111-122|1989|10.1080/15287398909531332
86461|T||Nyska,A., T. Waner, M. Pirak, M. Albeck, and B. Sredni|Toxicity Study in Rats of a Tellurium Based Immunomodulating Drug, AS-101:  A Potential Drug for AIDS and Cancer Patients|Arch. Toxicol.63(5): 386-393|1989|10.1007/BF00303128
86462|T||Szymanska,J.A., M. Zychowicz, A.J. Zelazowski, and J.K. Piotrowski|Effect of Selenium on the Organ Distribution and Binding of Bismuth in Rat Tissues|Arch. Toxicol.40(2): 131-141|1978|10.1007/BF01891968
86464|T||Simmons,T.W., I.S. Jamall, and R.A. Lockshin|Accumulation, Distribution and Toxicity of Selenium in the Adult House Fly, Musca domestica|Comp. Biochem. Physiol. C Comp. Pharmacol.91(2): 559-563|1988|10.1016/0742-8413(88)90077-1
86469|T||Chakrabarti,S., and J. Brodeur|Influence of Selenium on the Metabolism of Bromobenzene and a Possible Relationship to Its Hepatotoxicity|Environ. Res.37(2): 327-339|1985|10.1016/0013-9351(85)90113-6
86472|T||Shen,S., S.J. Hargus, B.M. Martin, and L.R. Pohl|Cytochrome P4502C11 is a Target of Diclofenac Covalent Binding in Rats|Chem. Res. Toxicol.10(4): 420-423|1997|10.1021/tx960167z
86474|T||Thompson,H.J.|Effect of Deficiencies of Selenium and Vitamin E Alone or in Combination on the Induction of Mammary Carcinogenesis by 1-Methyl-1-Nitrosourea|Carcinogenesis12(11): 2175-2179|1991|10.1093/carcin/12.11.2175
86475|T||Shanker,K., S. Mishra, S. Srivastava, R. Srivastava, S. Dass, S. Prakash, and M.M. Srivastava|Effect of Selenite and Selenate on Plant Uptake of Cadmium by Maize (Zea mays)|Bull. Environ. Contam. Toxicol.56(3): 419-424|1996|10.1007/s001289900060
86476|T||Pond,W.G., L.P. Krook, H. Ho, D.R. Su, and P.A. Schoknecht|Bone Density and Tissue Lead Accretion in Growing Rats Fed Low high Calcium with or Without Supplemental Clinoptilolite|Bull. Environ. Contam. Toxicol.57(5): 713-721|1996|10.1007/s001289900248
86480|T||Hasegawa,T., M. Mihara, K. Nakamuro, and Y. Sayato|Mechanisms of Selenium Methylation and Toxicity in Mice Treated with Selenocystine|Arch. Toxicol.71(1/2): 31-38|1996|10.1007/s002040050355
86481|T||Klauder,D.S., L. Murthy, and H.G. Petering|Effect of Dietary Intake of Lead Acetate on Copper Metabolism in Male Rats|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:131-136|1972|
86483|T||Verheesen,J.H.H., and H. Nederbragt|Strain-Dependent Differences in Copper Accumulation and Excretion upon Dietary Copper Loading in the Rat|In: P.Bratter and P.Schramel, Proc.of 5th Int.Workshop, Trace Element Analytical Chem.Medicine and Biol., Neuherberg, Federal Rep.of Germany5:556-561|1988|
86484|T||Reus,M.I.S., M.P. Iniesta, and B. Ribas|Metallothionein Induction by Methotrexate in Liver and Intestinal Mucosa|In: P.Bratter and P.Schramel, Proc.of 5th Int.Workshop, Trace Element Analytical Chem.Medicine and Biol., Neuherberg, Federal Rep.of Germany5:562-569|1988|
86485|T||Hunt,C.E., and J.M. Navia|Effects of Sr, Mo, Li and B on Developing Teeth and Other Tissues of Neonatal Rats|In: D.D.Hemphill (Ed.), Trace Substances in Environmental Health, University of Missouri, Columbia, MO:159-189|1972|
86486|T||Ivens,I., M. Neupert, E. Loser, and J. Thies|Storage and Elimination of 2,3,7,8-Tetrabromodibenzo-P-Dioxin in Liver and Adipose Tissue of the Rat|Chemosphere20(7-9): 1209-1214|1990|10.1016/0045-6535(90)90247-Q
86487|A||Ophel,I.L., and J.M. Judd|Experimental Studies of Radiostrontium Accumulation by Freshwater Fish from Food and Water|In: B.Aberg and F.P.Hungate (Eds)., Radioecological Concentration Process, Proc.of an Intl.Symp., Stockholm,Sweeden:859-865|1966|
86488|T||Evenson,D.P., F.C. Janca, R.K. Baer, L.K. Jost, and D.S. Karabinus|Effect of 1,3-Dinitrobenzene on Prepubertal, Pubertal, and Adult Mouse Spermatogenesis|J. Toxicol. Environ. Health28(1): 67-80|1989|10.1080/15287398909531329
86489|T||Evenson,D.P., F.C. Janca, L.K. Jost, R.K. Baer, and D.S. Karabinus|Flow Cytometric Analysis of Effects of 1,3-Dinitrobenzene on Rat Spermatogenesis|J. Toxicol. Environ. Health28(1): 81-98|1989|10.1080/15287398909531330
86490|T||Tomokuni,K., M. Ichiba, and Y. Hirai|Species Difference of Urinary Excretion of delta Aminolevulinic Acid and Coproporphyrin in Mice and Rats Exposed to Lead|Toxicol. Lett.41(3): 255-259|1988|10.1016/0378-4274(88)90062-8
86491|T||Smith,D.R., and A.R. Flegal|Stable Isotopic Tracers of Lead Mobilized by DMSA Chelation in Low Lead-Exposed Rats|Toxicol. Appl. Pharmacol.116(1): 85-91|1992|10.1016/0041-008X(92)90148-L
86492|T||Punzo,F., and C. Farmer|Effects of Lead on Exploratory Behavior and Running Speed in the Shrew, Blarina brevicauda (Insectivora)|J. Environ. Biol.24(4): 411-414|2003|
86493|T||Peveling,R., A.N. McWilliam, P. Nagel, H. Rasolomanana, Raholijaona, L. Rakotomianina, A. Ravoninjatovo, C.F. Dewhurst,|Impact of Locust Control on Harvester Termites and Endemic Vertebrate Predators in Madagascar|J. Appl. Ecol.40(4): 729-741|2003|10.1046/j.1365-2664.2003.00833.x
86494|T||Srivastava,L., and S.K. Tandon|Effect of Zinc on Lead-Induced Changes in Brain Lysosomal Enzymes in the Chick Embryo|Toxicol. Lett.20(1): 111-114|1984|10.1016/0378-4274(84)90192-9
86495|T||Shafiq-ur-Rehman, and O. Chandra|Regional Interrelationships of Zinc, Copper, and Lead in the Brain Following Lead Intoxication|Bull. Environ. Contam. Toxicol.32(2): 157-165|1984|10.1007/BF01607479
86496|T||Latta,D.M., and W.E. Donaldson|Modification of Lead Toxicity and Organ Distriution by Dietary Sulfur Amino Acids in Chicks (Gallus domesticus)|Comp. Biochem. Physiol. C Comp. Pharmacol.84(1): 101-104|1986|10.1016/0742-8413(86)90173-8
86497|T||Zmudzki,J., G.R. Bratton, C.W. Womac, L.D.,Jr. Rowe, and B. Wagner|Lactose and Milk Replacer Influence on Lead Absorption and Lead Toxicity in Calves|Bull. Environ. Contam. Toxicol.36(3): 356-363|1986|10.1007/BF01623520
86498|T||McGowan,C., and W.E. Donaldson|Lead Effects in the Chick During Selenium Deficiency|Comp. Biochem. Physiol. C Comp. Pharmacol.88(1): 23-26|1987|10.1016/0742-8413(87)90041-7
86499|T||Tomokuni,K., and M. Ichiba|Tolerance to Lead-Induced Porphyrin Metabolic Disorders Following Lead Pretreatment in Mice|Toxicol. Lett.54(2-3): 215-220|1990|10.1016/0378-4274(90)90186-P
86500|T||Winder,C., and S. Lazareno|Effect of Lead Exposure on Dopaminergic D2 Receptor Binding in the 21-Day-Old Rat|Toxicol. Lett.24(2-3): 209-214|1985|10.1016/0378-4274(85)90059-1
86501|T||Cory-Slechta,D.A., B. Weiss, and C. Cox|Performance and Exposure Indices of Rats Exposed to Low Concentrations of Lead|Toxicol. Appl. Pharmacol.78(2): 291-299|1985|10.1016/0041-008X(85)90292-3
86503|T||Hillam,R.P., and A.N. Ozkan|Comparison of Local and Systemic Immunity After Intratracheal, Intraperitoneal, and Intravenous Immunization of Mice Exposed to Either Aerosolized or Ingested Lead|Environ. Res.39(2): 265-277|1986|10.1016/S0013-9351(86)80053-6
86504|T||Chowdhury,A.R., A.K. Gautam, R.V. Rao, N.G. Sathwara, D.J. Parikh, and B.B. Chatterjee|Changes in the Adrenals in Lead Treated Rats|Bull. Environ. Contam. Toxicol.37(1): 62-69|1986|10.1007/BF01607730
86505|T||Tandon,S.K., S.J.S. Flora, and S. Singh|Chelation in Metal Intoxication XXI:  Chelation in Lead Intoxication During Vitamin B Complex Deficiency|Bull. Environ. Contam. Toxicol.37(3): 317-325|1986|10.1007/BF01607767
86506|T||Maitani,T., A. Watahiki, and K.T. Suzuki|Induction of Metallothionein After Lead Administration by Three Injection Routes in Mice|Toxicol. Appl. Pharmacol.83(2): 211-217|1986|10.1016/0041-008X(86)90298-X
86507|T||Suketa,Y., K. Nishimura, H. Nakajima, M. Ueda, and S. Okada|Increment of Prostaglandin E2 in Association with Elevation of Urinary Sodium Excretion Following Lead Administration|Toxicol. Lett.32(3): 221-226|1986|10.1016/0378-4274(86)90111-6
86508|T||Maehara,N., E. Uchino, K. Terayama, H. Ohno, and K. Yamamura|Motor Nerve Conduction Velocity (MCV) and Lead Content in Sciatic Nerve of Lead-Exposed Rats|Bull. Environ. Contam. Toxicol.37(1): 47-52|1986|10.1007/BF01607727
86509|T||Nakagawa,K., and M. Asami|Lack of Correlation Between Lysosomal Enzyme Activity and Ascorbic Acid Content in Brain of Lead-Treated Animals|Toxicol. Lett.30(3): 219-222|1986|10.1016/0378-4274(86)90158-X
86510|T||Oskarsson,A.|Comparative Effects of Ten Dithiocarbamate and Thiuram Compounds on Tissue Distribution and Excretion of Lead in Rats|Environ. Res.44(1): 82-93|1987|10.1016/S0013-9351(87)80088-9
86511|T||Yamamura,K., N. Maehara, K. Terayama, N. Ueno, A. Kohyama, Y. Sawada, and R. Kishi|Effects of Lead Acetate on Guinea Pig-Cochear Microphonics,  Action Potential, and Motor Nerve Conduction Velocity|Bull. Environ. Contam. Toxicol.38(4): 571-579|1987|10.1007/BF01608588
86512|T||Evis,M.J., K. Dhaliwal, K.A. Kane, M.R. Moore, and J.R. Parratt|The Effects of Chronic Lead Treatment and Hypertension on the Severity of Cardiac Arrhythmias Induced by Coronary Artery Occlusion or by Noradrenaline in Anaesthetised Rats|Arch. Toxicol.59(5): 336-340|1987|10.1007/BF00295086
86513|T||Shrivastava,V.K., S.R. Katti, and A.G. Sathyanesan|Effect of Lead Nitrate on Thyroid Function of the Indian Palm Squirrel,  Funambulus pennanti (Wroughton)|Bull. Environ. Contam. Toxicol.38(6): 981-984|1987|10.1007/BF01609084
86515|T||Lijinsky,W., J.E. Saavedra, and R.M. Kovatch|Carcinogenesis in Rats by Nitrosodialkylureas Containing Methyl and Ethyl Groups Given by Gavage and in Drinking Water|J. Toxicol. Environ. Health28(1): 27-38|1989|10.1080/15287398909531326
86516|T||Lucchi,L., S. Govoni, M. Memo, C. Missale, P.F. Spano, and M. Trabucchi|Chronic Lead Exposure Alter Dopaminergic Mechanisms in Rat Pituitary|Toxicol. Lett.32(3): 255-260|1986|10.1016/0378-4274(86)90116-5
86517|A||Binoy,V.V., N. Job, and K.J. Thomas|Influence of Dicofol on the Behaviour of the Climbing Perch, Anabas testudineus|Indian J. Fish.51(3): 345-351|2004|
86518|T||Van Leeuwen,T., M. Van de Veire, W. Dermauw, and L. Tirry|Systemic Toxicity of Spinosad to the Greenhouse Whitefly Trialeurodes vaporariorum and to the Cotton Leaf Worm Spodoptera littoralis|Phytoparasitica34(1): 102-108|2006|10.1007/BF02981345
86519|T||Yockman,J.W., A. Maheshwari, S.O. Han, and S.W. Kim|Tumor Regression by Repeated Intratumoral Delivery of Water Soluble Lipopolymers/p2CMVmIL-12 Complexes|J. Control. Release87(1-3): 177-186|2003|10.1016/S0168-3659(02)00362-0
86521|A||Morelli,E., M.C. Mascherpa, and G. Scarano|Biosynthesis of Phytochelatins and Arsenic Accumulation in the Marine Microalga Phaeodactylum tricornutum in Response to Arsenate Exposure|BioMetals18(6): 587-593|2005|10.1007/s10534-005-2998-1
86522|A||Bjerregaard,P., and M. Hastrup|Manganese Kinetics in the Shore Crab Carcinus Maenas Exposed via Food and Water|IAEA-SM-354/123P, Int. Atom. Energy Agency,IAEA-TECDOC, 1094:450 p.|1999|
86523|A||Guha,B., and A.R. Khuda-Bukhsh|Effect of Vitamin Supplementation on the Recovery of Ethyl Methane Sulphonate Induced Proteotoxicity in Anabas testudineus|Indian J. Fish.51(4): 441-449|2004|
86524|T||El-Tayeb,M.A.|Response of Barley Grains to the Interactive Effect of Salinity and Salicylic Acid|Plant Growth Regul.45(3): 215-224|2005|10.1007/s10725-005-4928-1
86525|T||Vyskocil,A., Z. Fiala, V. Lacinova, and E. Ettlerova|A Chronic Study with Lead Acetate in Female Rats|J. Appl. Toxicol.11(5): 385-386|1991|10.1002/jat.2550110517
86526|T||Xu,Z.F., and M.M. Jones|Comparative Mobilization of Lead by Chelating Agents|Toxicology53(2-3): 277-288|1988|10.1016/0300-483X(88)90220-X
86527|T||Dhawan,M., D.N. Kachru, and S.K. Tandon|Influence of Thiamine and Ascorbic Acid Supplementation on the Antidotal Efficacy of Thiol Chelators in Experimental Lead Intoxication|Arch. Toxicol.62(4): 301-304|1988|10.1007/BF00332491
86528|T||Esteve-Turrillas,F.A., W.C. Scott, A. Pastor, and J.R. Dean|Uptake and Bioavailability of Persistent Organic Pollutants by Plants Grown in Contaminated Soil|J. Environ. Monit.7(11): 1093-1098|2005|10.1039/b507414b
86529|T||Kritzinger,Q., T.A.S. Aveling, and C.F. Van der Merwe|Phytotoxic Effects of Fumonisin B1 on Cowpea Seed|Phytoparasitica34(2): 178-186|2006|10.1007/BF02981318
86530|T||Ye,Q.F., J.M. Wu, and J.H. Sun|Bioavailability of Bound Residue Derived from 14C-Labeled Chlorsulfuron in Soil and Its Mechanism of Phytotoxicity|J. Environ. Sci.16(2): 262-267|2004|
86534|A||Price,N.M.|Urea and Selenium Nutrition of Marine Phytoplankton:  A Physiological and Biochemical Study|Ph.D.Thesis, University of British Columbia, Vancouver, Canada:68 p.|1987|
86535|T||Kim,H.C., Y.S. Lee, and A. Nishikawa|Enhancing Effects of Phenobarbital and 3-Methylcholanthrene on GST-P-Positive Liver Cell Foci Development in a New Medium-Term Rat Liver Bioassay Using D-Galactosamine|J. Toxicol. Environ. Health50:519-528|1997|10.1080/00984109708984005
86536|T||Coutelier,J.P., D. Lison, O. Simon, and J. Willems|Effect of Sulfur Mustard on Murine Lymphocytes|Toxicol. Lett.58:143-148|1991|10.1016/0378-4274(91)90168-6
86537|T||Whiting,P.H., B.J. Adam, J. Woo, N.U. Hasan, and A.W. Thomson|The Effect of Rapamycin on Renal Function in the Rat:  A Comparative Study with Cyclosporine|Toxicol. Lett.58:169-179|1991|10.1016/0378-4274(91)90171-2
86538|T||Kalapos,M.P., Z. Schaff, T. Garzo, F. Antoni, and J. Mandl|Accumulation of Phenols in Isolated Hepatocytes after Pretreatment with Methylglyoxal|Toxicol. Lett.58:181-191|1991|10.1016/0378-4274(91)90172-3
86539|T||Wagai,N., and K. Tawara|Quinolone Antibacterial-Agent-Induced Cutaneous Phototoxicity:  Ear Swelling Reactions in Balb/c Mice|Toxicol. Lett.58:215-223|1991|10.1016/0378-4274(91)90176-7
86540|T||Evans,D.L., D.M. Miller, K.L. Jacobsen, and P.B. Bush|Modulation of Immune Responses in Mice by d-Limonene|J. Toxicol. Environ. Health20:51-66|1987|10.1080/15287398709530961
86542|T||Moody,R.P., and C.A. Franklin|Percutaneous Absorption of the Insecticides Fenitrothion and Aminocarb in Rats and Monkeys|J. Toxicol. Environ. Health20:209-218|1987|10.1080/15287398709530973
86545|T||Sullivan-Jones,P., C.A. Kimmel, and G.L. Kimmel|Prenatal Reserpine Exposure Alters Cardiovascular Parameters in Rat Offspring|Fundam. Appl. Toxicol.13:652-661|1989|10.1016/0272-0590(89)90323-0
86546|T||Carver,M.P., and J.E. Riviere|Percutaneous Absorption and Excretion of Xenobiotics After Topical and Intravenous Administration to Pigs|Fundam. Appl. Toxicol.13:714-722|1989|10.1016/0272-0590(89)90329-1
86548|T||Hoover,D.M., M.K. Buening, R.N. Tamura, and E. Steinberger|Effects of Cefamandole on Spermatogenic Development of Young CD Rats|Fundam. Appl. Toxicol.13:737-746|1989|10.1016/0272-0590(89)90331-X
86549|T||Probst,K.S., G.L. Higdon, L.F. Fisher, J.P. McGrath, E.R. Adams, and J.L. Emmerson|Preclinical Toxicology Studies with Nizatidine, a new H2-Receptor Antagonist:  Acute, Subchronic, and Chronic Toxicity Evaluations|Fundam. Appl. Toxicol.13:778-792|1989|10.1016/0272-0590(89)90333-3
86550|T||Kannan,R., J.S.M. Sarma, M. Guha, and K. Venkataraman|Tissue Drug Accumulation and Ultrastructural Changes During Amiodarone Administration in Rats|Fundam. Appl. Toxicol.13:793-803|1989|10.1016/0272-0590(89)90334-5
86551|T||Heindel,J.J., A.S. Berkowitz, G. Kyle, R. Luthra, and J.V. Bruckner|Assessment in Rats of the Gonadotoxic and Hepatorenal Toxic Potential of Dibromochloropropane (DBCP) in Drinking Water|Fundam. Appl. Toxicol.13:804-815|1989|10.1016/0272-0590(89)90335-7
86554|T||Vonier,P.M., D.A. Crain, J.A. McLachlan, L.J.,Jr. Guillette, and S.F. Arnold|Interaction of Environmental Chemicals with the Estrogen and Progesterone Receptors from the Oviduct of the American Alligator|Environ. Health Perspect.104(12): 1318-1322|1996|10.1289/ehp.961041318
86558|A||Petit,F., P. Le Goff, J.P. Cravedi, Y. Valotaire, and F. Pakdel|Two Complementary Bioassays for Screening the Estrogenic Potency of Xenobiotics: Recombinant Yeast for Trout Estrogen Receptor and Trout Hepatocyte Cultures|J. Mol. Endocrinol.19(3): 321-335|1997|10.1677/jme.0.0190321
86563|T||Bibr,B., and J. Lener|Contribution to Molybdenum-Sulfur-Copper Interaction in Experimental Animals|In: Milon Tichy, Proc.of a Symp., QSAR in Toxicology and Xenobiochemistry, Sept. 12-14, 1984, Prague, Czechoslovakia8:379-384|1985|
86564|T||Balonova,T., and D. Zeljenkova|Reproductive and Teratological Studies with a Pyridoindole Derivative I. Effect on Fertility and General Reproductive Performance of the Rat|In: Milon Tichy, Proc.of a Symp., QSAR in Toxicology and Xenobiochemistry, Sept. 12-14, 1984, Prague, Czechoslovakia8:373-378|1985|
86565|T||Ujhazy,E., D. Zeljenkova, A. Babulova, L. Buran, J. Novotny, and M. Steinerova|The Effect of Lithium Carbonate on Foetal Mouse Development|In: Milon Tichy, Proc.of a Symp., QSAR in Toxicology and Xenobiochemistry, Sept. 12-14, 1984, Prague, Czechoslovakia8:425-430|1985|
86567|T||Joshi,U.M., and J.E. Thornburg|Interactions Between Cimetidine, Methylparathion, and Parathion|J. Toxicol. Environ. Health19(3): 337-344|1986|10.1080/15287398609530932
86568|T||Maekawa,A., H. Onodera, H. Tanigawa, K. Furuta, J. Kanno, C. Matsuoka, T. Ogiu, and Y. Hayashi|Lack of Carcinogenicity of Triethanolamine in F344 Rats|J. Toxicol. Environ. Health19(3): 345-357|1986|10.1080/15287398609530933
86570|A||Addison,R.F., and D.E. Willis|The Metabolism by Rainbow Trout (Salmo gairdnerii) of p,p'-[14C]DDT and Some of Its Possible Degradation Products Labeled with 14C|Toxicol. Appl. Pharmacol.43:303-315|1978|10.1016/0041-008X(78)90010-8
86571|A||Takatalo,S., S. Kolehmainen, and J.K. Miettinen|Excretion of Iodine by Perch (Perca fluviatilis)|Trans. Am. Fish. Soc.99(3): 515-517|1970|10.1577/1548-8659(1970)99<515:EOIBPP>2.0.CO;2
86572|A||Schreiweis,D.O., and G.J. Murray|Cardiovascular Malformations in Oryzias latipes Embryos Treated with 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T)|Teratology14(3): 287-290|1976|10.1002/tera.1420140304
86573|A||Ohmomo,Y., E. Blankenstein, and J.K. Miettinen|Distribution and Excretion Rate of 131Ba in Rainbow Trout|In: Proceedings of the 5th Symposium, Radioactivity in Scandinavia, May 19-20, 1969, University of Helsinki, Finland:1-7|1969|
86574|T||Murphy,S.D.|Toxic Interactions with Dermal Exposure to Organophosphate Insecticides|Dev. Toxicol. Environ. Sci.8:615-621|1980|
86575|T||Ng,Y.W., P. Snitch, and R. Pamphlett|Spinal Cord Uptake of Lead Injected into Muscle|Neurotoxicology15(2): 315-319|1994|
86576|T||Widzowski,D.V., J.N. Finkelstein, M.J. Pokora, and D.A. Cory-Slechta|Time Course of Postnatal Lead-Induced Changes in Dopamine Receptors and Their Relationship to Changes in Dopamine Sensitivity|Neurotoxicology15(4): 853-865|1994|
86577|T||Selvin-Testa,A., C.F. Loidl, E.M. Lopez, F. Capani, J.J. Lopez-Costa, and J. Pecci-Saavedra|Prolonged Lead Exposure Modifies Astrocyte Cytoskeletal Proteins in the Rat Brain|Neurotoxicology16(3): 389-402|1995|
86578|T||Chmielnicka,J., G. Zareba, and M. Nasiadek|Combined Effect of Tin and Lead on Heme Biosynthesis in Rats|Ecotoxicol. Environ. Saf.29(2): 165-173|1994|10.1016/0147-6513(94)90017-5
86579|T||White,F.D., M.W. Neathery, R.P. Gentry, W.J. Miller, K.R. Logner, and D.M. Blackmon|The Effects of Different Levels of Dietary Lead on Zinc Metabolism in Dairy Calves|J. Dairy Sci.68(5): 1215-1225|1985|10.3168/jds.S0022-0302(85)80949-8
86580|T||Maienfisch,P., H. Huerlimann, A. Rindlisbacher, L. Gsell, H. Dettwiler, J. Haettenschwiler, E. Sieger, and M. Walti|The Discovery of Thiamethoxam:  A Second-Generation Neonicotinoid|Pest Manag. Sci.57(2): 165-176|2001|10.1002/1526-4998(200102)57:2<165::AID-PS289>3.0.CO;2-G
86581|A||Kamunde,C.N., S. Niyogi, and C.M. Wood|Interaction of Dietary Sodium Chloride and Waterborne Copper in Rainbow Trout (Oncorhynchus mykiss):  Copper Toxicity and Sodium and Chloride Homeostasis|Can. J. Fish. Aquat. Sci.62(2): 390-399|2005|10.1139/f04-169
86582|A||Bhunya,S.P., and S.N. Sahoo|Genotoxic Potential of Carbaryl in the Peripheral Blood Erythrocytes of Anabas testudineus|Indian J. Fish.51(4): 417-423|2004|
86583|T||Lu,M.H., N. Tang, and S.F. Ali|Effects of Single Injection of Methylazoxymethanol at Postnatal Day One on Cell Proliferation in Different Brain Regions of Male Rats|Neurotoxicology21(6): 1145-1152|2000|
86584|T||Huang,Y.S., G.A. Held, J.E. Andrews, and J.M. Rogers|14C Methanol Incorporation into DNA and Proteins of Organogenesis Stage Mouse Embryos In Vitro|Reprod. Toxicol.15(4): 429-435|2001|10.1016/S0890-6238(01)00144-7
86585|T||Addison,P.J., and G.M. Barker|Effect of Various Pesticides on the Non-Target Species Microctonus hyperodae, a Biological Control Agent of Listronotus bonariensis|Entomol. Exp. Appl.119(1): 71-79|2006|10.1111/j.1570-7458.2006.00392.x
86586|A||Satyanarayan,S., Ramakant, and A. Satyanarayan|Bioaccumulation Studies of Organochlorinated Pesticides in Tissues of Cyprinus carpio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(3): 397-412|2005|
86587|A||Key,P., M. DeLorenzo, K. Gross, K. Chung, and A. Clum|Toxicity of the Mosquito Control Pesticide Scourge to Adult and Larval Grass Shrimp (Palaemonetes pugio)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(4): 585-594|2005|
86588|A||Chaudhry,A., and P.K. Anand|Evaluation of the Mutagenic Potential of Chlorpyrifos (CPF) Using Polytene Chromosomes of Anopheles Mosquito|J. Environ. Biol.26(1): 145-150|2005|
86589|T||Antov,G., and I. Hadjieva|Effect of Cadmium on the Cardiovascular System|In: Milon Tichy, Proc.of a Symp., QSAR in Toxicology and Xenobiochemistry, Sept. 12-14, 1984, Prague, Czechoslovakia8:347-352|1985|
86590|A||Ferguson,D.E., J.L. Ludke, M.T. Finley, and G.G. Murphy|Insecticide-Resistant Fishes: a Potential Hazard to Consumers|J. Miss. Acad. Sci.13:138-140|1967|
86591|A||Jaakkola,T., H. Takahashi, R. Soininen, K. Rissanen, and J.K. Miettinen|Cadmium Content of Sea Water, Bottom Sediment and Fish, and Its Elimination Rate in Fish|In: IAEA and FAO, Radiotracer Studies of Chemical Residues in Food and Agriculture, Proc.of a Combined Panel and Res.Coord.Meet., Oct.25-29, 1971, Vienna, Austria:69-75|1973|
86592|A||Greer,G.L., and U. Paim|Degradation of DDT in Atlantic Salmon (Salmo salar)|J. Fish. Res. Board Can.25(11): 2321-2326|1968|10.1139/f68-203
86593|T||Zabik,M.E., and R. Schemmel|Dieldrin Storage of Obese, Normal, and Semistarved Rats|Arch. Environ. Health27:25-30|1973|10.1080/00039896.1973.10666302
86594|A||Kleinert,S.J., and P.E. Degurse|Survival of Walleye Eggs and Fry of Known DDT Residue Levels from Ten Wisconsin Waters in 1967|Res.Rep.No.37, Wisc.Dep.of Resour.,Madison, WI:30 p.|1968|
86595|A||Gerhardt,M.B.|Chemical Tranformations in an Algal-Bacterial Selenium Removal System|Ph.D. Thesis, University of California, Berkeley, CA:337 p.|1990|
86597|A||Werner,I., L.A. Deanovic, V. Connor, V. De Vlaming, H.C. Bailey, and D.E. Hinton|Insecticide-Caused Toxicity to Ceriodaphnia dubia (Cladocera) in the Sacramento-San Joaquin River Delta, California, USA|Environ. Toxicol. Chem.19(1): 215-227|2000|
86599|T||Zawia,N.H., and G.J. Harry|Trimethyltin-Induced c-fos Expression: Adolescent vs Neonatal Rat Hippocampus|Toxicol. Appl. Pharmacol.121:99-102|1993|10.1006/taap.1993.1133
86600|T||Liu,J., S. Choudhuri, Y. Liu, H. Kreppel, G.K. Andrews, and C.D. Klaassen|Induction of Metallothionein by alpha-Hederin|Toxicol. Appl. Pharmacol.121:144-151|1993|10.1006/taap.1993.1139
86601|T||Hew,K.W., W.A. Ericson, and M.J. Welsh|A Single Low Cadmium Dose Causes Failure of Spermiation in the Rat|Toxicol. Appl. Pharmacol.121(1): 15-21|1993|10.1006/taap.1993.1123
86602|T||Schultze,A.E., and R.A. Roth|Fibrinolytic Activity in Blood and Lungs of Rats Treated with Monocrotaline Pyrrole|Toxicol. Appl. Pharmacol.121:129-137|1993|10.1006/taap.1993.1137
86603|T||Valentine,W.M., D.G. Graham, and D.C. Anthony|Covalent Cross-Linking of Erythrocyte Spectrin by Carbon Disulfide In Vivo|Toxicol. Appl. Pharmacol.121(1): 71-77|1993|10.1006/taap.1993.1130
86604|T||Holladay,S.D., B.L. Blaylock, C.E. Comment, J.J. Heindel, and M.I. Luster|Fetal Thymic Atrophy after Exposure to T-2 Toxin: Selectivity for Lymphoid Progenitor Cells|Toxicol. Appl. Pharmacol.121(1): 8-14|1993|10.1006/taap.1993.1122
86605|T||Biehl,M.L., D.B. Prelusky, G.D. Koritz, K.E. Hartin, W.B. Buck, and H.L. Trenholm|Biliary Excretion and Enterohepatic Cycling of Zearalenone in Immature Pigs|Toxicol. Appl. Pharmacol.121:152-159|1993|10.1006/taap.1993.1140
86606|T||Alvarez,C., C. Blade, and J. Cartana|Alpha2-Adrenergic Blockade Prevents Hyperglycemia and Hepatic Glutathione Depletion in Nickel-Injected Rats|Toxicol. Appl. Pharmacol.121(1): 112-117|1993|10.1006/taap.1993.1135
86607|T||Early,J.L., and R.C. Schnell|Effect of Glutathione Depletion on Selenium Lethality and Hepatic Drug Metabolism in Male Rats|Toxicol. Lett.11(3/4): 253-257|1982|10.1016/0378-4274(82)90158-8
86608|T||Batra,N., B. Nehru, and M.P. Bansal|Influence of Lead and Zinc on Rat Male Reproduction at `Biochemical and Histopathological Levels'|J. Appl. Toxicol.21(6): 507-512|2001|10.1002/jat.796
86609|T||Ahmed,M., and W.F. Grant|Cytological Effects of the Pesticides Phosdrin and Bladex on Tradescantia and Vicia faba|Can. J. Genet. Cytol.14:157-165|1972|10.1139/g72-018
86610|T||Ridley,W.P., M.R. Sewall, and M.W. Dietrich|Metabolism and Desposition of Ortho-Benzyl-Para-Chlorophenol in Male Rats|J. Toxicol. Environ. Health18:267-283|1986|10.1080/15287398609530867
86613|A||Schmittschmitt,J.P., J.R. Shaw, and W.J. Birge|The Effects of Silver on Green Algae and Prospects for Trophic Transfer|In: A.W.Andren and T.W.Bober (Eds.), Silver in the Environment: Transport, Fate and Effects, Washington, DC:245-249|1996|
86614|A||Chou,C.L., J.F. Uthe, J.D. Castell, and J.C. Kean|Heavy Metal Interaction in Juvenile American Lobster (Homarus americanus)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1368:169-182|1985|
86615|AT||McNease,L.L., and L.L. Glasgow|Experimental Treatments for the Control of Wiregrass and Saltmarsh Grass in a Brackish Marsh|In: J.W.Webb (Eds.), Proc.24th Conf.Southwestern Assoc.Game and Fish Commis.,Sep.27-30, 1970, Atlanta, GA:127-145|1971|
86619|A||Jensen,K.M., and G.T. Ankley|Evaluation of a Commercial Kit for Measuring Vitellogenin in the Fathead Minnow (Pimephales promelas)|Ecotoxicol. Environ. Saf.64:101-105|2006|10.1016/j.ecoenv.2006.02.011
86625|A||Lawrence,J.M., S.C. McBride, L.R. Plank, and M. Shpigel|Ammonia Tolerance of the Sea Urchins Lytechinus variegatus, Arbacia punctulata, Strongylocentrotus franciscanus, and Paracentrotus lividus|In: Feral and David (Eds.), Echinoderm Research, Florida Sea Grant FLSGP-R-03-002:233-236|2001|
86632|T||McMahon,C., P.M. Guerin, and Z. Syed|1-Octen-3-ol Isolated from Bont Ticks Attracts Amblyomma variegatum|J. Chem. Ecol.27(3): 471-486|2001|10.1023/A:1010328720035
86633|T||Pierce,A.M., H.D.,Jr. Pierce, A.C. Oehlschlager, and J.H. Borden|1-Octen-3-ol, Attractive Semiochemical for Foreign Grain Beetle, Ahasverus advena (Waltl) (Coleoptera:  Cucujidae)|J. Chem. Ecol.17(3): 567-580|1991|10.1007/BF00982127
86634|T||Pierce,A.M., H.D.,Jr. Pierce, J.H. Borden, and A.C. Oehlschlager|Fungal Volatiles:  Semiochemicals for Stored-Product Beetles (Coleoptera:  Cucujidae)|J. Chem. Ecol.17(3): 581-597|1991|10.1007/BF00982128
86635|T||Pierce,H.D.,Jr., A.M. Pierce, B.D. Johnston, A.C. Oehlschlager, and J.H. Borden|Aggregation Pheromone of Square-Necked Grain Beetle, Cathartus quadricollis (Guer.)|J. Chem. Ecol.14(12): 2169-2184|1988|10.1007/BF01014023
86636|T||Jiang,Y., E.L. Ghisalberti, and T.J. Ridsdill-Smith|Correlation of 1-Octen-3-One with Antixenotic Resistance in Subterranean Clover Cotyledons to Red-Legged Earth Mite, Halotydeus destructor (Acarina:  Penthaleidae)|J. Chem. Ecol.22(2): 369-382|1996|10.1007/BF02055105
86637|T||Ranger,C.M., R.E.K. Winter, E.A. Backus, G.E. Rottinghaus, M.R. Ellersieck, and D.W. Johnson|Discrimination by the Potato Leafhopper (Hemiptera:  Cicadellidae) of Host Volatiles from Resistant and Susceptible Alfalfa, Medicago sativa L.|Environ. Entomol.34(2): 271-280|2005|10.1603/0046-225X-34.2.271
86638|T||Verheyen,G., E. Decuypere, R.B. Chiasson, J. Vervloesem, E.R. Kuhn, and H. Michels|Effect of Exogenous LH on Plasma Concentrations of Progesterone and Oestradiol in Relation to the Cessation of the Egg Laying Induced by Different Moulting Methods|J. Reprod. Fertil.81:13-21|1987|10.1530/jrf.0.0810013
86639|T||Kumar,S.|Effect of Zinc Supplementation on Rats During Pregnancy|Nutr. Rep. Int.13(1): 33-36|1976|
86640|T||Maita,K., M. Hirano, K. Mitsumori, K. Takahashi, and Y. Shirasu|Subacute Toxicity Studies with Zinc Sulfate in Mice and Rats|J. Pestic. Sci. (Multiple Languages)6:327-336|1981|10.1584/jpestics.6.327
86641|T||Bentley,P.J., and B.R. Grubb|Experimental Dietary Hyperzincemia Tissue Disposition of Excess Zinc in Rabbits|Trace Elem. Med.8(4): 202-207|1991|
86642|T||Wapnir,R.A., and S.Y. Lee|Dietary Regulation of Copper Absorption and Storage in Rats:  Effects of Sodium, Zinc and Histidine-Zinc|J. Am. Coll. Nutr.12(6): 714-719|1993|10.1080/07315724.1993.10718364
86643|T||Reeves,P.G.|Adaptation Responses in Rats to Long-Term Feeding of High-Zinc Diets:  Emphasis on Intestinal Metallothionein|J. Nutr. Biochem.6:48-54|1995|10.1016/0955-2863(94)00008-A
86644|T||Zhang,P., G.E. Duhamel, J.V. Mysore, M.P. Carlson, and N.R. Schneider|Prophylactic Effect of Dietary Zinc in a Laboratory Mouse Model of Swine Dysentery|Am. J. Vet. Res.56(3): 334-339|1995|10.2460/ajvr.1995.56.03.334
86645|T||Cox,D.H., S.A. Schlicker, and R.C. Chu|Excess Dietary Zinc for the Maternal Rat, and Zinc, Iron, Copper, Calcium, and Magnesium Content and Enzyme Activity in Maternal and Fetal Tissues|J. Nutr.98:459-466|1969|10.1093/jn/98.4.459
86646|T||Food and Drug Research Laboratories|Teratologic Evaluation of Compound.  FDA 71-49.  Zinc Sulfate in Rabbits|Final Rep.No.FDA/BF-77/105, U.S.Food and Drug Admin., Washington, DC:15 p.|1974|
86647|T||Food and Drug Research Laboratories|Teratologic Evaluation of FDA 71-49 (Zinc Sulfate)|FDABF-GRAS-072, U.S.Food and Drug Admin., Washington, DC:41 p.|1973|
86648|T||Zhang,Q.H.|Interruption of Aggregation Pheromone in Ips typographus (L.) (Col. Scolytidae) by Non-host Bark Volatiles|Agric. For. Entomol.5(2): 145-153|2003|10.1046/j.1461-9563.2003.00173.x
86649|T||Wood,W.F., C.L. Archer, and D.L. Largent|1-Octen-3-ol, a Banana Slug Antifeedant from Mushrooms|Biochem. Syst. Ecol.29(5): 531-533|2001|10.1016/S0305-1978(00)00076-4
86650|T||Vale,G.A.|Responses of Tsetse Flies (Diptera:  Glossinidae) to Vegetation in Zimbabwe:  Implications for Population Distribution and Bait Siting|Bull. Entomol. Res.88(suppl.): S10 - S54|1998|
86651|T||Hall,D.R., P.S. Beevor, A. Cork, Brenda F. Nesbitt, and G.A. Vale|1-Octen-3-ol.  A Potent Olfactory Stimulant and Attractant for Tsetse Isolated from Cattle Odours|Insect Sci. Appl.5(5): 335-339|1984|
86652|T||Jiang,Y., T.J. Ridsdill-Smith, and E.L. Ghisalberti|The Effect of Volatile Metabolites of Lipid Peroxidation on the Aggregation of Redlegged Earth Mites Halotydeus destructor (Acarina:  Penthaleidae) on Damaged Cotyledons of Subterranean Clover|J. Chem. Ecol.23(1): 163-174|1997|10.1023/B:JOEC.0000006352.68072.22
86655|T||Canyon,D.V., and J.L.K. Hii|Efficacy of Carbon Dioxide, 1-Octen-3-ol, and Lactic Acid in Modified Fay-Prince Traps as Compared to Man-Landing Catch of Aedes aegypti|Am. Mosq. Control Assoc. J.13(1): 66-70|1997|
86656|T||Kelling,F.J., G. Biancaniello, and C.J. den Otter|Electrophysiological Characterization of Olfactory Cell Types in the Antennae and Palps of the Housefly|J. Insect Physiol.48(11): 997-1008|2002|10.1016/S0022-1910(02)00187-7
86657|AT||Matsumori,K., S. Izumi, and H. Watanabe|Hormone-Like Action of 3-Octanol and 1-Octen-3-ol from Botrytis cinerea on the Pine Wood Nematode, Bursaphelenchus xylophilus|Agric. Biol. Chem.53(7): 1777-1781|1989|
86659|T||Black,J.R., C.B. Ammerman, P.R. Henry, and R.D. Miles|Effect of Dietary Manganese and Age on Tissue Trace Mineral Composition of Broiler-Type Chicks as a Bioassay of Manganese Sources|Poult. Sci.64:688-693|1985|10.3382/ps.0640688
86660|T||Black,J.R., C.B. Ammerman, P.R. Henry, and R.D. Miles|Biological Availability of Manganese Sources and Effects of high Dietary Manganese on Tissue Mineral Composition of Broiler-Type Chicks|Poult. Sci.63:1999-2006|1984|10.3382/ps.0631999
86661|T||Ali,M.M., D.K. Saxena, G.S. Shukla, and S.V. Chandra|Behavioural Dysfunctions and Central Neurotransmitters in Manganese Exposed Rats|J. Environ. Biol.2(4): 29-39|1981|
86663|T||Thomas,P., H. Ratajczak, D. Demetral, K. Hagen, and R. Baron|Aldicarb Immunotoxicity:  Functional Analysis of Cell-Mediated Immunity and Quantitation of Lymphocyte Subpopulations|Fundam. Appl. Toxicol.15(2): 221-230|1990|10.1016/0272-0590(90)90049-P
86664|T||Cambon,C., C. Declume, and R. Derache|Foetal and Maternal Rat Brain Acetylcholinesterase:  Isoenzymes Changes Following Insecticidal Carbamate Derivatives Poisoning|Arch. Toxicol.45(4): 257-262|1980|10.1007/BF00293806
86665|T||Olson,L.J., B.J. Erickson, R.D. Hinsdill, J.A. Wyman, W.P. Porter, L.K. Binning, R.C. Bidgood, and E.V. Nordheim|Aldicarb Immunomodulation in Mice:  An Inverse Dose-Response to Parts per Billion Levels in Drinking Water|Arch. Environ. Contam. Toxicol.16(4): 433-439|1987|10.1007/BF01055264
86666|T||Cairns,T., E.G. Siegmund, and T.S. Savage|Persistence and Metabolism of Aldicarb in Fresh Potatoes|Bull. Environ. Contam. Toxicol.32(3): 274-281|1984|10.1007/BF01607498
86667|T||Kevekordes,S., T. Gebel, K. Pav, R. Edenharder, and H. Dunkelberg|Genotoxicity of Selected Pesticides in the Mouse Bone-Marrow Micronucleus Test and in the Sister-Chromatid Exchange Test with Human Lymphocytes In Vitro|Toxicol. Lett.89(1): 35-42|1996|10.1016/S0378-4274(96)03779-4
86668|T||Kennedy,C.W.|Phytotoxicity in Pearl Millet Varies Among In-Furrow Insecticides|Crop Prot.21(9): 799-802|2002|10.1016/S0261-2194(02)00040-6
86669|A||El-Alfy,A., and D. Schlenk|Potential Mechanisms of the Enhancement of Aldicarb Toxicity to Japanese Medaka, Oryzias latipes, at high Salinity|Toxicol. Appl. Pharmacol.152(1): 175-183|1998|10.1006/taap.1998.8479
86670|T||Dear,B.S., G.A. Sandral, and B.C.D. Wilson|Tolerance of Perennial Pasture Grass Seedlings to Pre- and Post-Emergent Grass Herbicides|Aust. J. Exp. Agric.46(5): 637-644|2006|10.1071/EA04173
86671|T||Shirazi,M.A., B.J. Erickson, R.D. Hinsdill, and J.A. Wyman|An Analysis of Risk from Exposure to Aldicarb Using Immune Response of Nonuniform Populations of Mice|Arch. Environ. Contam. Toxicol.19(3): 447-456|1990|10.1007/BF01054991
86672|T||Skare,D., B. Radic, A. Lucic, M. Peraica, A.M. Domijan, S. Milkovic-Kraus, V. Bradamante, and I. Jukic|Adamantyl Tenocyclidines-Adjuvant Therapy in Poisoning with Organophosphorus Compounds and Carbamates|Arch. Toxicol.76(3): 173-177|2002|10.1007/s00204-002-0333-y
86673|T||Krause,M., J.T. Loubser, and P.R. De Beer|Residues of Aldicarb and Fenamiphos in Soil, Leaves, and Fruit from a Treated Vineyard|J. Agric. Food Chem.34(4): 717-720|1986|10.1021/jf00070a032
86675|T||Moretto,A., G. Gardiman, S. Panfilo, M.A. Colle, E.A. Lock, and M. Lotti|Effects of S-Ethyl Hexahydro-1H-Azepine-1-Carbothioate (Molinate) on Di-n-Butyl Dichlorovinyl Phosphate (DBDCVP) Neuropathy|Toxicol. Sci.62(2): 274-279|2001|10.1093/toxsci/62.2.274
86676|A||Giamberini,L., and M.P. Cajaraville|Lysosomal Responses in the Digestive Gland of the Freshwater Mussel, Dreissena polymorpha, Experimentally Exposed to Cadmium|Environ. Res.98(2): 210-214|2005|10.1016/j.envres.2004.11.003
86677|A||Gonzalez,P., Y. Dominique, J.C. Massabuau, A. Boudou, and J.P. Bourdineaud|Comparative Effects of Dietary Methylmercury on Gene Expression in Liver, Skeletal Muscle, and Brain of the Zebrafish (Danio rerio)|Environ. Sci. Technol.39(11): 3972-3980|2005|10.1021/es0483490
86678|A||Harrahy,E.A., M. Barman, S. Geis, J. Hemming, D. Karner, and A. Mager|Effects of Ammonia on the Early Life Stages of Northern Pike (Esox lucius)|Bull. Environ. Contam. Toxicol.72(6): 1290-1296|2004|10.1007/s00128-004-0383-3
86679|T||Heckmann,L.H., K. Maraldo, and P.H. Krogh|Life Stage Specific Impact of Dimethoate on the Predatory Mite Hypoaspis aculeifer Canestrini (Gamasida:  Laelapidae)|Environ. Sci. Technol.39(18): 7154-7157|2005|10.1021/es050130d
86681|A||Lajmanovich,R.C., M. Cabagna, P.M. Peltzer, G.A. Stringhini, and A.M. Attademo|Micronucleus Induction in Erythrocytes of the Hyla pulchella Tadpoles (Amphibia:  Hylidae) Exposed to Insecticide Endosulfan|Mutat. Res.587(1-2): 67-72|2005|10.1016/j.mrgentox.2005.08.001
86682|A||Kobayashi,I., S. Fujiwara, H. Saegusa, M. Inouhe, H. Matsumoto, and M. Tsuzuki|Relief of Arsenate Toxicity by Cd-Stimulated Phytochelatin Synthesis in the Green Alga Chlamydomonas reinhardtii|Mar. Biotechnol.8(1): 94-101|2006|10.1007/s10126-005-5092-3
86683|T||Phillips,C.J.C., P.C. Chiy, and E. Zachou|Effects of Cadmium in Herbage on the Apparent Absorption of Elements by Sheep in Comparison with Inorganic Cadmium Added to Their Diet|Environ. Res.99(2): 224-234|2005|10.1016/j.envres.2004.12.013
86684|A||Ortiz,M.E., A. Marco, N. Saiz, and M. Lizana|Impact of Ammonium Nitrate on Growth and Survival of Six European Amphibians|Arch. Environ. Contam. Toxicol.47(2): 234-239|2004|10.1007/s00244-004-2296-x
86685|T||Eijsackers,H., P. Beneke, M. Maboeta, J.P.E. Louw, and A.J. Reinecke|The Implications of Copper Fungicide Usage in Vineyards for Earthworm Activity and Resulting Sustainable Soil Quality|Ecotoxicol. Environ. Saf.62(1): 99-111|2005|10.1016/j.ecoenv.2005.02.017
86686|T||Farmand,F., A. Ehdaie, C.K. Roberts, and R.K. Sindhu|Lead-Induced Dysregulation of Superoxide Dismutases, Catalase, Glutathione Peroxidase, and Guanylate Cyclase|Environ. Res.98(1): 33-39|2005|10.1016/j.envres.2004.05.016
86687|T||Abdel-Rahman,A., A.M. Dechkovskaia, H. Mehta-Simmons, J.M. Sutton, X. Guan, W.A. Khan, and M.B. Abou-Donia|Maternal Exposure to Nicotine and Chlorpyrifos, Alone and in Combination, Leads to Persistently Elevated Expression of Glial Fibrillary Acidic Protein in the Cerebellum of the Offspring in Late Puberty|Arch. Toxicol.78(8): 467-476|2004|10.1007/s00204-004-0560-5
86688|T||Beltramini,M., P. Zambenedetti, W. Wittkowski, and P. Zatta|Effects of Steroid Hormones on the Zn, Cu and MTI/II Levels in the Mouse Brain|Brain Res.1013(1): 134-141|2004|10.1016/j.brainres.2004.04.010
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86699|T||Ermilova,I.P., V.B. Ermilov, M. Levy, E. Ho, C. Pereira, and J.S. Beckman|Protection by Dietary Zinc in ALS Mutant G93A SOD Transgenic Mice|Neurosci. Lett.379(1): 42-46|2005|10.1016/j.neulet.2004.12.045
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86783|T||Srivastava,A., S.S. Katiyar, J.R. Behari, S.K. Srivastava, S.K. Hasan, and R.C. Srivastava|Comparative Evaluation of Macrocyclic Drugs and Their Linear Counterparts in Preventing Nickel Toxicity in Mice|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control24(1): 77-86|1989|
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86788|T||Christenson,W.R., L.L. Bestervelt, and W.N. Piper|Evidence for Pteridine Regulation of Lead-Mediated Inhibition of Uroporphyrinogen and Heme Formation in Rat Bone Marrow|Toxicol. Appl. Pharmacol.113(1): 138-143|1992|10.1016/0041-008X(92)90018-N
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86790|T||Tomokuni,K., M. Ichiba, and Y. Hirai|Elevated Urinary Excretion of Beta-Aminoisobutyric Acid and Delta-Aminolevulinic Acid (ALA) and the Inhibition of ALA-Synthase and ALA-Dehydratase Activities in Both Liver and Kidney in Mice Exposed to Lead|Toxicol. Lett.59(1-3): 169-173|1991|10.1016/0378-4274(91)90069-I
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86792|T||Ross,J., G. Nelson, G. Erexson, A. Kligerman, K. Earley, R.C. Gupta, and S. Nesnow|DNA Adducts in Rat Lung, Liver and Peripheral Blood Lymphocytes Produced by I.P. Administration of Benzo[a]pyrene Metabolites and Derivatives|Carcinogenesis12(10): 1953-1955|1991|10.1093/carcin/12.10.1953
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86798|T||Sundstrom,R., and B. Karlsson|Myelin Basic Protein in Brains of Rats with Low Dose Lead Encephalopathy|Arch. Toxicol.59(5): 341-345|1987|10.1007/BF00295087
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86802|T||Nakagawa,K.|Modification by Phenobarbital of Decreased Glutathione Content and Glutathione S-Transferase Activity in Livers of Lead-Treated Mice|Toxicol. Lett.62(1): 63-71|1992|10.1016/0378-4274(92)90079-Y
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86804|T||Khalil-Manesh,F., H.C. Gonick, E.W.J. Weiler, B. Prins, M.A. Weber, R. Purdy, and Q. Ren|Effect of Chelation Treatment with Dimercaptosuccinic Acid (DMSA) on Lead-Related Blood Pressure Changes|Environ. Res.65(1): 86-99|1994|10.1006/enrs.1994.1023
86805|T||Sokol,R.Z., H. Okuda, H.M. Nagler, and N. Berman|Lead Exposure In Vivo Alters the Fertility Potential of Sperm In Vitro|Toxicol. Appl. Pharmacol.124(2): 310-316|1994|10.1006/taap.1994.1037
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86814|T||Toler,H.D., J.B. Morton, and J.R. Cumming|Growth and Metal Accumulation of Mycorrhizal Sorghum Exposed to Elevated Copper and Zinc|Water Air Soil Pollut.164(1-4): 155-172|2005|10.1007/s11270-005-2718-z
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86838|T||Medrano,C.J., and D.A. Fox|Substrate-Dependent Effects of Calcium on Rat Retinal Mitochondrial Respiration:  Physiological and Toxicological Studies|Toxicol. Appl. Pharmacol.125(2): 309-321|1994|10.1006/taap.1994.1077
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86851|AT||Zhou,C., S. An, J. Jiang, D. Yin, Z. Wang, C. Fang, Z. Sun, and C. Qian|An In Vitro Propagation Protocol of Two Submerged Macrophytes for Lake Revegetation in East China|Aquat. Bot.85(1): 44-52|2006|10.1016/j.aquabot.2006.01.013
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86866|T||Van Rensburg,S.J., J.M. Hall, and .D.B. Du Bruyn|Effects of Various Dietary Staples on Esophageal Carcinogenesis Induced in Rats by Subcutaneously Administered N-Nitrosomethylbenzylamine|J. Natl. Cancer Inst.75(3): 561-566|1985|
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86869|T||Janse van Rensburg,J.C., N. Labuschagne, and S. Nemec|Occurrence of Fusarium-Produced Naphthazarins in Citrus Trees and Sensitivity of Rootstocks to Isomarticin in Relation to Citrus Blight|Plant Pathol.50(2): 258-265|2001|10.1046/j.1365-3059.2001.00554.x
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86876|T||Jia,L., R. Pei, M. Lin, and X. Yang|Acute and Subacute Toxicity and Efficacy of S-Nitrosylated Captopril, an ACE Inhibitor Possessing Nitric Oxide Activities|Food Chem. Toxicol.39(12): 1135-1143|2001|10.1016/S0278-6915(01)00079-5
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86881|T||Jamal,S.N., M. Zafar Iqbal, and M. Athar|Effect of Aluminum and Chromium on the Germination and Growth of Two Vigna Species|Int. J. Environ. Sci. Technol. (Tehran)3(1): 53-58|2006|10.1007/BF03325907
86882|T||Dhankher,O.P., B.P. Rosen, E.C. McKinney, and R.B. Meagher|Hyperaccumulation of Arsenic in the Shoots of Arabidopsis Silenced for Arsenate Reductase (ACR2)|Proc. Natl. Acad. Sci. U.S.A.103(14): 5413-5418|2006|10.1073/pnas.0509770102
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86885|AT||Relyea,R.A.|The Lethal Impact of Roundup on Aquatic and Terrestrial Amphibians|Ecol. Appl.15(4): 1118-1124|2005|10.1890/04-1291
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86887|T||Lakra,N., S.N. Mishra, D.B. Singh, and P.C. Tomar|Exogenous Putrescine Effect on Cation Concentration in Leaf of Brassica juncea Seedlings Subjected to Cd and Pb Along with Salinity Stress|J. Environ. Biol.27(2): 263-269|2006|
86888|T||Singh,A.K., P. Misra, and P.K. Tandon|Phytotoxicity of Chromium in Paddy (Oryza sativa L.) Plants|J. Environ. Biol.27(2): 283-285|2006|
86889|T||Lake,B.G., J.G. Evans, F. Chapuis, D.G. Walters, and R.J. Price|Studies on the Disposition, Metabolism and Hepatotoxicity of Coumarin in the Rat and Syrian Hamster|Food Chem. Toxicol.40(6): 809-823|2002|10.1016/S0278-6915(02)00036-4
86891|T||Dashti,H., B. Jeppsson, I. Hagerstrand, B. Hultberg, U. Srinivas, M. Abdulla, B. Joelsson, and S. Bengmark|Early Biochemical and Histological Changes in Rats Exposed to a Single Injection of Thioacetamide|Pharmacol. Toxicol.60(3): 171-174|1987|10.1111/j.1600-0773.1987.tb01727.x
86892|T||Scott,W.L.,Jr.|Silver Uptake in Brains of Chronically gamma-Irradiated Rats: A Study by Neutron Activation Analysis|Radiat. Res.31:522-528|1967|10.2307/3572369
86894|T||Sokol,R.Z., N. Berman, H. Okuda, and W. Raum|Effects of Lead Exposure on GnRH and LH Secretion in Male Rats: Response to Castration and alpha-Methyl-p-Tyrosine (AMPT) Challenge|Reprod. Toxicol.12(3): 347-355|1998|10.1016/S0890-6238(98)00014-8
86895|T||Bay,B.H., M.C.W. Wang, and G.W.C. Yip|Effect of Intraperitoneal Administration of Zinc on C57/6J Mouse Liver-A Light Microscopic Study|Okajimas Folia Anat. Jpn.74(6): 279-292|1998|10.2535/ofaj1936.74.6_279
86897|A||Kumar,R.|Influence of Ammonia to Freshwater Murrel Channa punctatus (Bloch)|Nat. Environ. Pollut. Technol.1(4): 365-367|2002|
86898|A||Boardman,G.D., S.M. Starbuck, D.B. Hudgins, X. Li, and D.D. Kuhn|Toxicity of Ammonia to Three Marine Fish and Three Marine Invertebrates|Environ. Toxicol.19(2): 134-142|2004|10.1002/tox.20006
86899|T||Wang,X., J.C. White, M.P.N. Gent, W. Iannucci-Berger, B.D. Eitzer, and M.J.I. Mattina|Phytoextraction of Weathered p,p'-DDE by Zucchini (Cucurbita pepo) and Cucumber (Cucumis sativus) Under Different Cultivation Conditions|Int. J. Phytoremediat.6(4): 363-385|2004|10.1080/16226510490888910
86901|T||Suva,J., and F. Musil|A Contribution to the Distribution and the Mechanism of Action of Lithium in the Macroorganism|In: Milon Tichy, Proc.of a Symp., QSAR in Toxicology and Xenobiochemistry, Sept. 12-14, 1984, Prague, Czechoslovakia8:413-418|1985|
86903|T||Israel,S., R. Mawar, and S. Lodha|Soil Solarisation, Amendments and Bio-Control Agents for the Control of Macrophomina phaseolina and Fusarium oxysporum f.sp. cumini in Aridisols|Ann. Appl. Biol.146(4): 481-491|2005|10.1111/j.1744-7348.2005.040127.x
86904|T||Flora,S.J.S., and S.K. Tandon|Beneficial Effects of Zinc Supplementation During Chelation Treatment of Lead Intoxication in Rats|Toxicology64(2): 129-139|1990|10.1016/0300-483X(90)90130-9
86905|A||Chindah,A.C., F.D. Sikoki, and I. Vincent-Akpu|Toxicity of an Organophosphate Pesticide (Chloropyrifos) on a Common Niger Delta Wetland Fish-Tilapia guineensis (Blecker 1862)|J. Appl. Sci. Environ. Manag.8(2): 11-17|2004|
86906|T||Khan,A.S., and N.Y. Chaudhry|Auxins Partially Restore the Cambial Activity in Luffa cylindrica L. (Cucurbitaceace) Under Mercury Stress|J. Food Agric. Environ.4(1): 276-281|2006|
86907|A||Bird,K.T., J.R. Johnson, and J. Jewett-Smith|In Vitro Culture of the Seagrass Halophila decipiens|Aquat. Bot.60(4): 377-387|1998|10.1016/S0304-3770(97)00093-4
86908|A||Kane,M.E., G.L. Davis, D.B. McConnell, and J.A. Gargiulo|In Vitro Propagation of Cryptocoryne wendtii|Aquat. Bot.63(3-4): 197-202|1999|10.1016/S0304-3770(99)00006-6
86909|T||Bongiorno,G., F. Panchetti, M. Zaim, and M. Maroli|Laboratory Study to Investigate the Efficacy of Cyfluthrin EW Treated Nets Against Phlebotomine Sandflies|Ann. Ist. Super. Sanita (Multiple Languages)41(2): 247-252|2005|
86910|T||Nishikawa,A., K. Sai, K. Okazaki, H.Y. Son, K. Kanki, M. Nakajima, N. Kinae, T. Nohmi, J.E. Trosko, T. Inoue, and M. Hi|MX, a By-Product of Water Chlorination, Lacks In Vivo Genotoxicity in gpt Delta Mice but Inhibits Gap Junctional Intercellular Communication in Rat WB Cells|Environ. Mol. Mutagen.47(1): 48-55|2006|10.1002/em.20167
86911|T||Kaur,R., and P.J. Rup|Evaluation of Regulatory Influence of Four Plant Growth Regulators on the Reproductive Potential and Longevity of Melon Fruit Fly (Bactrocera cucurbitae)|Phytoparasitica30(3): 224-229|2002|10.1007/BF03039991
86912|T||Ueno,M., J. Kihara, Y. Honda, and S. Arase|Indole-Related Compounds Induce the Resistance to Rice Blast Fungus, Magnaporthe grisea in Barley|J. Phytopathol.152(11-12): 606-612|2004|10.1111/j.1439-0434.2004.00903.x
86913|T||Singh,A.K.|Neurotoxicity in Rats Chronically Exposed to Lead Ingestion:  Measurement of Intracellular Concentrations of Free Calcium and Lead Ions in Resting or Depolarized Brain Slices|Neurotoxicology16(1): 133-138|1995|
86914|A||Yokoya,N.S., H. Kakita, H. Obika, and T. Kitamura|Effects of Environmental Factors and Plant Growth Regulators on Growth of the Red Alga Gracilaria vermiculophylla from Shikoku Island, Japan|Hydrobiologia (Multiple Languages)398/399:339-347|1999|10.1023/A:1017072508583
86915|T||Sandhir,R., and K.D. Gill|Effect of Lead on Lipid Peroxidation in Liver of Rats|Biol. Trace Elem. Res.48(1): 91-97|1995|10.1007/BF02789081
86916|T||Rao,M.V.|Effect of a Single Injection of Lead Nitrate on Rat Testes and vas Deferens|J. Anim. Morphol. Physiol.38(1-2): 147-152|1991|
86917|T||Swarup,D., and S.K. Dwivedi|Changes in Blood and Cerebrospinal Fluid Indices in Experimental Lead Toxicity in Goats|Indian J. Anim. Sci.62(10): 928-931|1992|
86918|T||Dev,P.R., D. Swarup, K. Charan, and R. Shankar|Clinico-Pathological Observations in Experimental Lead Toxicity in Goats|Indian J. Anim. Sci.60(12): 1450-1452|1990|
86919|T||Swarup,D., and A.K. Upadhyay|Chemoprophylactic Efficacy of Thiamine Hydrochloride in Experimental Lead Toxicosis in Calves|Indian J. Anim. Sci.61(11): 1170-1173|1991|
86920|T||Upadhyay,A.K., D. Swarup, and P.R. Vanamayya|Clinico-Pathological Observations in Experimental Chronic Lead Intoxication in Calves|Indian J. Anim. Sci.60(4): 401-405|1990|
86921|T||Sun,X., X. Tian, and J.B. Suszkiw|Reduction of Choline Acetyltransferase mRNA in the Septum of Developing Rat Exposed to Inorganic Lead|Neurotoxicology18(1): 201-208|1997|
86922|T||Cory-Slechta,D.A.|Postnatal Lead Exposure and MK-801 Sensitivity|Neurotoxicology18(1): 209-220|1997|
86923|T||Wojcik,M., and A. Tukiendorf|Cadmium Uptake, Localization and Detoxification in Zea mays|Biol. Plant. (Praha)49(2): 237-245|2005|10.1007/s10535-005-7245-7
86924|T||Saniewski,M., J. Ueda, and K. Miyamoto|Methyl Jasmonate Induces the Formation of Secondary Abscission Zone in Stem of Bryophyllum calycinum Salisb.|Acta Physiol. Plant.22(1): 17-23|2000|10.1007/s11738-000-0003-8
86925|T||Vines,J.R.L., P.D. Jenkins, C.H. Foyer, M.S. French, and I.M. Scott|Physiological Effects of Peracetic Acid on Hydroponic Tomato Plants|Ann. Appl. Biol.143(2): 153-159|2003|10.1111/j.1744-7348.2003.tb00281.x
86926|T||Mueller,A.S., J. Pallauf, and J. Rafael|The Chemical Form of Selenium Affects Insulinomimetic Properties of the Trace Element: Investigations in Type II Diabetic DBDB Mice|J. Nutr. Biochem.14(11): 637-647|2003|10.1016/j.jnutbio.2003.08.001
86927|T||Abivardi,C., D.C. Weber, and S. Dorn|Effects of Azinphos-methyl and Pyrifenox on Reproductive Performance of Cydia pomonella L. (Lepidoptera:  Tortricidae) at Recommended Rates and Lower Concentrations|Ann. Appl. Biol.132(1): 19-33|1998|10.1111/j.1744-7348.1998.tb05182.x
86928|T||Kruse,R.H., T.D. Green, R.C. Chambers, and M.W. Jones|Disinfection of Aerosolized Pathogenic Fungi on Laboratory Surfaces.  II.  Culture Phase|Appl. Microbiol.12:155-160|1964|10.1128/am.12.2.155-160.1964
86929|A||Perret,M.C., D. Gerdeau, and J.L. Riviere|Use of Esterase Activities of the Zebra Mussel (Dresissena polymorpha Pallas) as a Biomarker of Organophosphate and Carbamate Pesticides Contamination|Environ. Toxicol. Water Qual.11(4): 307-312|1996|10.1002/(SICI)1098-2256(1996)11:4<307::AID-TOX4>3.0.CO;2-D
86930|T||Kumar,S.|Acetylcholinesterease Activity in Rat Brain Regions Following Acephate Exposure for 4, 14 and 60 Days|Toxicol. Environ. Chem.84(1-4): 69-77|2003|10.1080/02772240309814
86931|T||Gough,N.|Chemical Control of the Earthworm Amynthas rodericensis (Grube) in Pots in Nurseries|Qld. J. Agric. Anim. Sci.43(1): 29-31|1986|
86932|T||Khalil,S.K., M. Anwar, M. Naeem, Inamullah, I. Ali, F. Shah, and A. Jabbar|Studies on the Population Dynamics, Host Preference and Chemical Control of Brown Garden Snail Helix aspersa Muller|Sarhad J. Agric.7(2): 83-89|1991|
86933|T||Lewis,G.C., R.O. Clements, and A.G. Whitehead|Effect on White Clover Establishment of Carbofuran or Aldicarb|Tests Agrochem. Cultiv.(6): 122-123|1985|
86934|T||Jansen,R.|Notes on the Effects of Sub-lethal Doses of Lindane and Aldicarb on the Reproduction of Common Quail|S. Afr. J. Wildl. Res.26(3): 88-93|1996|
86935|A||Smulders,C.J.G.M., R.G.D.M. Van Kleef, A. De Groot, C. Gotti, and H.P.M. Vijverberg|A Noncompetitive, Sequential Mechanism for Inhibition of Rat alpha4beta2 Neuronal Nicotinic Acetylcholine Receptors by Carbamate Pesticides|Toxicol. Sci.82(1): 219-227|2004|10.1093/toxsci/kfh261
86938|T||Demiral,T., and I. Turkan|Exogenous Glycinebetaine Affects Growth and Proline Accumulation and Retards Senescence in Two Rice Cultivars Under NaCl Stress|Environ. Exp. Bot.56(1): 72-79|2006|10.1016/j.envexpbot.2005.01.005
86939|T||Nakashima,C., and T. Kobayashi|Etiological Studies on Brown Spot Disease of Pyracantha|Nippon Shokubutsu Byori Gakkaiho (Multiple Languages)63(4): 309-315|1997|
86940|T||Lechner,D.M.W., and M.S. Abdel-Rahman|A Teratology Study of Carbaryl and Malathion Mixtures in Rat|J. Toxicol. Environ. Health14(2-3): 267-278|1984|10.1080/15287398409530579
86941|T||Sadek,M., H. Samaan, and A. El-Garawany|The In-Vivo and In-Vitro Inhibition of Serum Aminotransferases by Anticholinesterase Insecticides in Rats|Egypt. J. Pharm. Sci.30(1-4): 437-444|1989|
86943|T||Khemani,S., L.D. Khemani, and M.C. Pant|Inhibition of Rat Brain Succinate Dehydrogenase by Carbamate and Organophosphate Pesticides|Curr. Sci. (Bangalore)56(4): 186-187|1987|
86944|T||Basak,U.C., A.B. Das, and P. Das|Rooting Response in Stem Cuttings from Five Species of Mangrove Trees:  Effect of Auxins and Enzyme Activities|Mar. Biol.136(1): 185-189|2000|10.1007/s002270050021
86945|A||Jenks,M.A., M.E. Kane, and D.B. McConnell|Shoot Organogenesis from Petiole Explants in the Aquatic Plant Nymphoides indica|Plant Cell Tissue Organ Cult.63(1): 1-8|2000|10.1023/A:1006471027372
86946|T||Al-Bahrany,A.M., and J.M. Al-Khayri|Micropropagation of Grey Mangrove Avicennia marina|Plant Cell Tissue Organ Cult.72(1): 87-93|2003|10.1023/A:1021205731719
86947|A||Yokoya,N.S., and W. Handro|Effects of Auxins and Cytokinins on Tissue Culture of Grateloupia dichotoma (Gigartinales, Rhodophyta)|Hydrobiologia (Multiple Languages)326/327:393-400|1996|10.1007/BF00047837
86948|A||Kai,T., K. Nimura, H. Yasui, and H. Mizuta|Regulation of Sorus Formation by Auxin in Laminariales Sporophyte|J. Appl. Phycol.18(1): 95-101|2006|10.1007/s10811-005-9020-8
86949|A||Czerpak,R., A. Piotrowska, and A. Krotke|Biochemical Activity of Auxins in Dependence of Their Structures in Wolffia arrhiza (L.) Wimm|Acta Soc. Bot. Pol.73(4): 269-275|2004|10.5586/asbp.2004.034
86950|A||Jiro,K., R. Yamamoto, S. Fujii, S. Mantani, and Y. Masuda|Graviresponse in Eichhornia cressipes (Water Hyacinth) II.  Hormone Involvement in Graviresponse in the Peduncle|J. Plant Physiol.150(6): 679-684|1997|10.1016/S0176-1617(97)80283-0
86951|T||Terrile,M.C., F.P. Olivieri, R. Bottini, and C.A. Casalongue|Indole-3-Acetic Acid Attenuates the Fungal Lesions in Infected Potato Tubers|Physiol. Plant. (Multiple Languages)127(2): 205-211|2006|10.1111/j.1399-3054.2006.00667.x
86952|T||Paradis,M.R., R.G. Breeze, W.M. Bayly, D.F. Counts, and W.W. Laegreid|Acute Hemolytic Anemia After Oral Administration of L-Tryptophan in Ponies|Am. J. Vet. Res.52(5): 742-747|1991|10.2460/ajvr.1991.52.05.742
86953|T||Parai,K., and R. Tabrizchi|A Comparative Study of the Effects of Cl-Channel Blockers on Mesenteric Vascular Conductance in Anaesthetized Rat|Eur. J. Pharmacol.448(1): 59-66|2002|10.1016/S0014-2999(02)01895-2
86954|A||Gupta,S., and S.C. Agrawal|Zoosporangia Survival, Dehiscence and Zoospore Formation, and Motility in the Green Alga Rhizoclonium hieroglyphicum as Affected by Different Factors|Folia Microbiol. (Prague)49(5): 549-556|2004|10.1007/BF02931532
86955|A||Huang,W., and Y. Fujita|Callus Induction and Thallus Regeneration of the Red Alga Meristotheca papulosa (Rhodophyta, Gigartinales)|Bot. Mar.40(1): 55-61|1997|
86956|T||Schupbach-Ningen,S.L., J.C. Cole, J.T. Cole, and K.E. Conway|Chlorothalonil, Trifloxystrobin, and Mancozeb Decrease Anthracnose Symptoms on Three Cultivars of Wintercreeper Euonymus|HortTechnology16(2): 211-215|2006|10.21273/HORTTECH.16.2.0211
86957|A||Lee,C., S.H. Jeon, J.G. Na, Y.J. Choi, and K. Park|Sensitivities of mRNA Expression of Vitellogenin, Choriogenin and Estrogen Receptor by Estrogenic Chemicals in Medaka, Oryzias latipes|J. Health Sci.48(5): 441-445|2002|10.1248/jhs.48.441
86958|T||Dechamps,C., N.H. Roosens, C. Hotte, and P. Meerts|Growth and Mineral Element Composition in Two Ecotypes of Thlaspi caerulescens on Cd Contaminated Soil|Plant Soil273:327-335|2005|10.1007/s11104-005-0099-0
86959|T||Watanabe,H., A. Suzuki, M. Goto, S. Ohsako, C. Tohyama, H. Handa, and T. Iguchi|Comparative Uterine Gene Expression Analysis After Dioxin and Estradiol Administration|J. Mol. Endocrinol.33:763-771|2004|10.1677/jme.1.01529
86960|T||Evers,W.D., J.B. Hook, and J.T. Bond|Alteration of Toxicity to Paraquat in Mice Fed a Purified or Cereal-Based Diet|Drug-Nutr. Interact.1(3): 237-248|1982|
86961|T||Hussein,K.S.M., and B.E.V. Jones|Effects of Selenium Administration on Erythrocyte and Blood Plasma Glutathione Peroxidase Activity in Goats|Acta Vet. Scand.23(4): 559-564|1982|10.1186/BF03546774
86962|A||Aydin,R., K. Koprucu, M. Dorucu, S.S. Koprucu, and M. Pala|Acute Toxicity of Synthetic Pyrethroid Cypermethrin on the Common Carp (Cyprinus carpio L.) Embryos and Larvae|Aquac. Int.13(5): 451-458|2005|10.1007/s10499-005-0615-5
86964|T||Collins,T.F.X., R.L. Sprando, T.N. Black, M.E. Shackelford, J.B. LaBorde, D.K. Hansen, R.M. Eppley, M.W. Trucksess, P.C|Effects of Fumonisin B1 in Pregnant Rats.  Part 2|Food Chem. Toxicol.36(8): 673-685|1998|10.1016/S0278-6915(98)00036-2
86966|T||Iqbal,M., and M. Athar|Attenuation of Iron-Nitrilotriacetate (Fe-NTA)-Mediated Renal Oxidative Stress, Toxicity and Hyperproliferative Response by the Prophylactic Treatment of Rats with Garlic Oil|Food Chem. Toxicol.36(6): 485-495|1998|10.1016/S0278-6915(98)00008-8
86967|T||Hwang,D.F., L.C. Wang, and H.M. Cheng|Effect of Taurine on Toxicity of Copper in Rats|Food Chem. Toxicol.36(3): 239-244|1998|10.1016/S0278-6915(97)00146-4
86969|T||Hellwig,J., C. Gembardt, and S.R. Murphy|Acrylic Acid:  Two-Generation Reproduction Toxicity Study in Wistar Rats with Continuous Administration in the Drinking Water|Food Chem. Toxicol.35(9): 859-868|1997|10.1016/S0278-6915(97)00065-3
86970|T||Api,A.M., R.L. Smith, S. Pipino, T. Marczylo, and F. De Matteis|Evaluation of the Oral Subchronic Toxicity of AHTN (7-Acetyl-1,1,3,4,4,6-Hexamethyl-1,2,3,4-Tetrahydronaphthalene) in the Rat|Food Chem. Toxicol.42(5): 791-801|2004|10.1016/j.fct.2003.12.016
86971|A||Rao,J.V., B. Ghousia, V. Sridhar, N.C. Reddy, and G. Begum|Sublethal Effects of Monocrotophos on Locomotor Behavior and Gill Architecture of the Mosquito Fish, Gambusia affinis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(6): 813-825|2005|
86972|T||Dwyer,M.R., L.F. Kubena, R.B. Harvey, K. Mayura, A.B. Sarr, S. Buckley, R.H. Bailey, and T.D. Phillips|Effects of Inorganic Adsorbents and Cyclopiazonic Acid in Broiler Chickens|Poult. Sci.76(8): 1141-1149|1997|10.1093/ps/76.8.1141
86973|T||Singh,H.P., D.R. Batish, S. Kaur, N. Setia, and R.K. Kohli|Effects of 2-Benzoxazolinone on the Germination, Early Growth and Morphogenetic Response of Mung Bean (Phaseolus aureus)|Ann. Appl. Biol.147:267-274|2005|10.1111/j.1744-7348.2005.00031.x
86975|A||Brennan,L.M., M.W. Toussaint, D.M. Kumsher, W.E. Dennis, A.B. Rosencrance, C. Brown, W.H. Van der Schalie, and H.S. Gar|Developmental Toxicity of Drinking Water Disinfection By-Products to Embryos of the African Clawed Frog (Xenopus laevis)|Bull. Environ. Contam. Toxicol.75(2): 361-367|2005|10.1007/s00128-005-0762-4
86976|A||Fraysse,B., and J. Garric|Prediction and Experimental Validation of Acute Toxicity of beta-Blockers in Ceriodaphnia dubia|Environ. Toxicol. Chem.24(10): 2470-2476|2005|10.1897/04-541R.1
86977|A||Levy,J.L., J.L. Stauber, M.S. Adams, W.A. Maher, J.K. Kirby, and D.F. Jolley|Toxicity, Biotransformation, and Mode of Action of Arsenic in Two Freshwater Microalgae (Chlorella sp. and Monoraphidium arcuatum)|Environ. Toxicol. Chem.24(10): 2630-2639|2005|10.1897/04-580R.1
86978|A||Tiedeken,J.A., J.S. Ramsdell, and A.F. Ramsdell|Developmental Toxicity of Domoic Acid in Zebrafish (Danio rerio)|Neurotoxicol. Teratol.27(5): 711-717|2005|10.1016/j.ntt.2005.06.013
86979|T||Fouchecourt,M.O., M. Arnold, P. Berny, B. Videmann, B. Rether, and J.L. Riviere|Assessment of the Bioavailability of PAHs in Rats Exposed to a Polluted Soil by Natural Routes: Induction of EROD Activity and DNA Adducts and PAH Burden in Both Liver and Lung|Environ. Res.80(4): 330-339|1999|10.1006/enrs.1998.3932
86980|T||Fowler,B.A., and G. Duval|Effects of Lead on the Kidney: Roles of High-Affinity Lead-Binding Proteins|Environ. Health Perspect.91:77-80|1991|10.1289/ehp.919177
86981|T||Giles,J.J., and J.G. Bannigan|The Effects of Lithium on Neurulation Stage Mouse Embryos|Arch. Toxicol.71(8): 519-528|1997|10.1007/s002040050422
86982|T||Grote,K., L. Niemann, C. Gericke, B. Selzsam, and I. Chahoud|Effects of Fentin Hydroxide on Reproduction of the Japanese Quail (Coturnix coturnix japonica)|Environ. Res.101(1): 81-88|2006|10.1016/j.envres.2005.07.004
86983|T||Gutowski,M., L. Altmann, K. Sveinsson, and H. Wiegand|Synaptic Plasticity in the CA1 and CA3 Hippocampal Region of Pre- and Postnatally Lead-Exposed Rats|Toxicol. Lett.95(3): 195-203|1998|10.1016/S0378-4274(98)00036-8
86984|T||Hanley,T.R.,Jr., E.W. Carney, and E.M. Johnson|Developmental Toxicity Studies in Rats and Rabbits with 3,5,6-Trichloro-2-Pyridinol, the Major Metabolite of Chlorpyrifos|Toxicol. Sci.53:100-108|2000|10.1093/toxsci/53.1.100
86985|T||Hamidinia,S.A., O.I. Shimelis, B. Tan, W.L. Erdahl, C.J. Chapman, G.D. Renkes, R.W. Taylor, and D.R. Pfeiffer|Monensin Mediates a Rapid and Selective Transport of Pb(2+).  Possible Application of Monensin for the Treatment of Pb(2+) Intoxication|J. Biol. Chem.277(41): 38111-38120|2002|10.1074/jbc.M205590200
86988|T||Larsen,M., and S. Trapp|Uptake of Iron Cyanide Complexes into Willow Trees|Environ. Sci. Technol.40(6): 1956-1961|2006|10.1021/es051224q
86990|T||Guschina,I.A., and J.L. Harwood|Lipid Metabolism in the Moss Rhytidiadelphus squarrosus (Hedw.) Warnst, from Lead-Contaminated and Non-Contaminated Populations|J. Exp. Bot.53(368): 455-463|2002|10.1093/jexbot/53.368.455
86991|T||Leon,V., J. Rabier, R. Notonier, R. Barthelemy, X. Moreau, S. Bouraima-Madjebi, J. Viano, and R. Pineau|Effects of Three Nickel Salts on Germinating Seeds of Grevillea exul var. rubiginosa, an Endemic Serpentine Proteaceae|Ann. Bot.95(4): 609-618|2005|10.1093/aob/mci066
86992|T||Li,W., S. Han, T.R. Gregg, F.W. Kemp, A.L. Davidow, D.B. Louria, A. Siegel, and J.D. Bogden|Lead Exposure Potentiates Predatory Attack Behavior in the Cat|Environ. Res.92(3): 197-206|2003|10.1016/S0013-9351(02)00083-X
86993|T||Kossor,D.C., P.C. Meunier, D.M. Dulik, T.B. Leonard, and R.S. Goldstein|Bile Duct Obstruction is not a Prerequisite for Type I Biliary Epithelial Cell Hyperplasia|Toxicol. Appl. Pharmacol.152(2): 327-338|1998|10.1006/taap.1998.8507
86994|T||Hu,X.P.|Evaluation of Efficacy and Nonrepellency of Indoxacarb and Fipronil-Treated Soil at Various Concentrations and Thicknesses Against Two Subterranean Termites (Isoptera:  Rhinotermitidae)|J. Econ. Entomol.98(2): 509-517|2005|10.1093/jee/98.2.509
86995|T||Hsu,P.C., M.Y. Liu, C.C. Hsu, L.Y. Chen, and Y.L. Guo|Effects of Vitamin E and/or C on Reactive Oxygen Species-Related Lead Toxicity in the Rat Sperm|Toxicology128(3): 169-179|1998|10.1016/S0300-483X(98)00068-7
86996|T||Iavicoli,I., G. Carelli, E.J. Stanek III, N. Castellino, and E.J. Calabrese|Effects of Per Os Lead Acetate Administration on Mouse Hepatocyte Survival|Toxicol. Lett.129(1-2): 143-149|2002|10.1016/S0378-4274(01)00525-2
86997|T||Lee,J.E., S. Chen, K.A. Golemboski, P.J. Parsons, and R.R. Dietert|Developmental Windows of Differential Lead-Induced Immunotoxicity in Chickens|Toxicology156(2-3): 161-170|2001|10.1016/S0300-483X(00)00350-4
86998|T||Imam,S.Z., G.D. Newport, F. Islam, W.Jr. Slikker, and S.F. Ali|Selenium, an Antioxidant, Protects Against Methamphetamine-Induced Dopaminergic Neurotoxicity|Brain Res.818(2): 575-578|1999|10.1016/S0006-8993(98)01311-0
86999|T||Ip,C., H.J. Thompson, Z. Zhu, and H.E. Ganther|In Vitro and In Vivo Studies of Methylseleninic Acid:  Evidence that a Monomethylated Selenium Metabolite is Critical for Cancer Chemoprevention|Cancer Res.60(11): 2882-2886|2000|
87000|A||James,S.M., E.E. Little, and R.D. Semlitsch|Metamorphosis of Two Amphibian Species After Chronic Cadmium Exposure in Outdoor Aquatic Mesocosms|Environ. Toxicol. Chem.24(8): 1994-2001|2005|10.1897/04-568R.1
87001|T||Jehan,Z.S., and D.B. Motlag|Metal Induced Changes in the Erythrocyte Membrane of Rats|Toxicol. Lett.78(2): 127-133|1995|10.1016/0378-4274(94)03245-3
87003|T||Khan,M.F., X. Wu, U.R. Tipnis, G.A.S. Ansari, and P.J. Boor|Protein Adducts of Malondialdehyde and 4-Hydroxynonenal in Livers of Iron Loaded Rats:  Quantitation and Localization|Toxicology173(3): 193-201|2002|
87004|T||Iavicoli,I., G. Carelli, E.J. Stanek III, N. Castellino, and E.J. Calabrese|Effects of Low Doses of Dietary Lead on Red Blood Cell Production in Male and Female Mice|Toxicol. Lett.137(3): 193-199|2003|10.1016/S0378-4274(02)00404-6
87005|T||Kim,W.K., and P.H. Patterson|Effects of Dietary Zinc Supplementation on Broiler Performance and Nitrogen Loss from Manure|Poult. Sci.83(1): 34-38|2004|10.1093/ps/83.1.34
87007|T||Saxena,Y., and A. Mathur|Efficacy of Brodifacoum and Difethialone (Anticoagulants) for the Control of Poison-Shy Mus musculus Albino|J. Adv. Zool.17(2): 79-81|1996|
87008|T||Wali,B., Mahmooduzzfar, and M. Iqbal|Plant Growth, Stomatal Response, Pigments and Photosynthesis of Althea officinalis as Affected by SO2 Stress|Indian J. Plant Physiol.9(3): 224-233|2004|
87009|T||Kevresan,S., V. Cirin-Novta, K. Kuhajda, J. Kandrac, N. Petrovic, L. Grbovic, and Z. Kevresan|Effect of Low Concentration of Sodium Naphthenate on Uptake of Some Metal Ions by Soybean Plants|Belg. J. Bot.138(1): 76-78|2005|
87010|T||Abbaspoor,M., H.B. Teicher, and J.C. Streibig|The Effect of Root-Absorbed PSII Inhibitors on Kautsky Curve Parameters in Sugar Beet|Weed Res. (Multiple Languages)46(3): 226-235|2006|10.1111/j.1365-3180.2006.00498.x
87012|T||Thind,I.S.|Selenium Intoxication and Enhanced Viral Neurovirulence - Effect on Viral Pathogenesis|Gen. Pharmacol.12(2): 259-264|1981|
87013|T||Tominaga,N., S. Kohra, T. Iguchi, and K. Arizono|Effects of Perfluoro Organic Compound Toxicity on Nematode Caenorhabditis elegans Fecundity|J. Health Sci.50(5): 545-550|2004|10.1248/jhs.50.545
87014|T||Vijayarengan,P., and D. Dhanavel|Effects of Nickel on Chlorophyll Content of Blackgram Cultivars|Adv. Plant Sci.18(1): 253-257|2005|
87015|T||Toyama,Y., and S. Yuasa|Effects of Neonatal Administration of 17beta-Estradiol, beta-Estradiol 3-Benzoate, or Bisphenol A on Mouse and Rat Spermatogenesis|Reprod. Toxicol.19:181-188|2004|10.1016/j.reprotox.2004.08.003
87016|T||Green,C.D., and T. Makin|Soil-Borne Transmission of Cavity Spot of Carrots, Grown in North Lincolnshire for Processing|Crop Prot.4(3): 351-358|1985|10.1016/0261-2194(85)90038-9
87017|T||Bidlack,J.E., A. Middick, D. Shantz, C.T. MacKown, R.D. Williams, and S.C. Rao|Weed Control in a Pigeon Pea-Wheat Cropping System|Field Crops Res.96(1): 63-70|2006|10.1016/j.fcr.2005.05.005
87018|T||Chandramani,P., A. Regupathy, and N. Chandramohan|Phytotonic Effect of Some Insecticides on Potato Plants|J. Indian Potato Assoc.20(3-4): 190-197|1993|
87019|A||Chen,S.M., and C.M. Kuo|Behavioral and Physiological Responses of White Spotted Snapper Juveniles, Lutjanus stellatus Under the Stress of Temperature and Residual Chlorine|J. Fish. Soc. Taiwan32(2): 129-147|2005|
87020|T||Maheshwari,D.K., and S.P. Singh|Inhibitory Effects of Two Organocarbamates Nematocides on Growth and Yield of Capsicum annuum, NP 46A, and Their Reversion by Gibberellic Acid|Biochem. Physiol. Pflanzen (Multiple Languages)184(1/2): 137-143|1989|10.1016/S0015-3796(89)80132-5
87021|T||Jose,V.T., C.R. Nehru, and K. Jayarathnam|Management of Slugs and Snails on Young Rubber|Indian J. Nat. Rubber Res.9(1): 32-35|1996|
87023|T||Rao,A.B.V.K., N.N. Padhi, and A. Acharya|Effect of Different Nematicides, Oilcakes and Urea in the Control of Rotylenchulus reniformis on Okra|Indian J. Nematol.17(2): 171-173|1987|
87024|T||Desotelle,J., C. Splett, and J. Scheffen|PCB Exposure Alters Anterior Pituitary Sensitivity to Gonadotropin-Releasing Hormone (GnRH) in Adult Female Rats|Bios76(2): 68-76|2005|10.1893/0005-3155(2005)076[0068:RAPEAA]2.0.CO;2
87025|T||Khan,T.A., and S.I. Husain|Studies on the Efficacy on Seed Treatments with Pesticides, Oil-Cakes, Neem-Leaf and Culture Filtrate of Paecilomyces lilacinus for the Control of Diseases Caused by the Presence of Rotylenchulus reniformis, Meloidogyne|Indian J. Nematol.18(2): 192-198|1988|
87027|T||Kumar,K., R.A. Agarwal, and A.C. Gaur|Systemic Granular Insecticides and Rhizosphere Microflora of Cotton|J. Entomol. Res.8(2): 186-192|1984|
87028|T||Champawat,R.S., and V.N. Pathak|Soil Application of Different Insecticides and Nematicides for the Control of Wilt (Fusarium oxysporum F. sp. Cumini) of Cumin|Indian J. Plant Prot.16(2): 195-196|1988|
87029|A||Stary,J., K. Kratzer, and J. Prasilova|Systematic Study of the Cumulation of Elements on Alga|Toxicol. Environ. Chem.7(1): 47-60|1983|10.1080/02772248309357016
87030|T||Bache,C.A., W.H. Gutenmann, L.E.,Jr. St.John, R.D. Sweet, H.H. Hatfield, and D.J. Lisk|Mercury and Methylmercury Content of Agricultural Crops Grown on Soils Treated with Various Mercury Compounds|J. Agric. Food Chem.21(4): 607-613|1973|10.1021/jf60188a014
87031|T||Lee,J.E., S.A. Naqi, E. Kao, and R.R. Dietert|Embryonic Exposure to Lead:  Comparison of Immune and Cellular Responses in Unchallenged and Virally Stressed Chickens|Arch. Toxicol.75(11-12): 717-724|2002|10.1007/s00204-001-0283-9
87032|T||Tenneco Chemicals Co.|Submission on Substantial Risk Notice|Tenneco Inc., Houston, TX:32 p.|1981|
87034|T||De Leij,F.A.A.M., B.R. Kerry, and J.A. Dennehy|Verticillium chlamydosporium as a Biological Control Agent for Meloidogyne incognita and M. Hapla in Pot and Micro-plot Tests|Nematologica39(1): 115-126|1993|
87035|T||Arshad,M.I., R.A. Khan, and A. Khaliq|Strategies for the Control of Indian Crested Porcupine, Hystrix indica|Pak. J. Sci. Ind. Res.31(11): 784-785|1988|
87036|T||Nordmeyer,D., and D.W. Dickson|Biological Activity and Acetylcholinesterase Inhibition by Nonfumigant Nematicides and Their Degradation Products on Meloidogyne incognita|Rev. Nematol.13(2): 229-232|1990|
87037|T||Olthof,T.H.A.|Effects of Fumigant and Nonfumigant Nematicides on Pratylenchus penetrans and Yield of Potato|J. Nematol.21(suppl.4): 645-649|1989|
87038|A||Mehandjiev,A.D., and N.N. Nicolov|Changes in the Mutation Spectrum Under the Influence of Certain Modifiers in Scenedesmus acutus|C. R. Acad. Bulg. Sci.39(4): 119-122|1986|
87039|T||Bary,N.A., M.Y. Yassin, and M.M.A. Youssef|The Effect of Certain Systemic Nematicides on Growth of Rice Seedlings Under Nursery Conditions|Ann. Agric. Sci.31(2): 1543-1547|1986|
87040|T||Funderburk,J.E., and A.L. Brown|Thrips Control with Temik in Seedling Peanuts, Experiment 2, 1992|Insectic. Acaric. Tests18:262-|1993|10.1093/iat/18.1.262
87041|T||Green,C.F., C. Jones, and I.F. Chalmers|Growth Regulation of Winter Wheat with and Without Adjuvants Added to the Spray Solution|Pestic. Sci.38(2-3): 257-260|1993|
87042|T||Pankhurst,C.E., B.L. Blair, R.C. Magarey, G.R. Stirling, and A.L. Garside|Effects of Biocides and Rotation Breaks on Soil Organisms Associated with the Poor Early Growth of Sugarcane in Continuous Monoculture|Plant Soil268(1): 255-269|2005|10.1007/s11104-004-0287-3
87043|T||Cartana,J., L. Arola, and A. Mas|Effects of Acute Nickel Toxicity upon Plasma and Liver Metal Homeostasis as a Function of Sex|Toxicology69(2): 133-142|1991|
87044|T||Mizejewski,G.J., D.E. Antelman, J.F. Keenan, and I.L. Preiss|Effects of Heavy Metals on alpha-Fetoprotein in Maternal Sera and Amniotic Fluid of Pregnant Mice|Toxicology64(1): 19-32|1990|10.1016/0300-483X(90)90096-Y
87045|T||Kasprzak,K.S., R.M. Kovatch, and L.A. Poirier|Inhibitory Effect of Zinc on Nickel Subsulfide Carcinogenesis in Fischer Rats|Toxicology52(3): 253-262|1988|10.1016/0300-483X(88)90130-8
87046|T||Sunderman,F.W., O. Zaharia, M.C. Reid, J.F. Belliveau, G.P.,Jr. O'Leary, and H. Griffin|Effects of Diethyldithiocarbamate and Nickel Chloride on Glutathione and Trace Metal Concentrations in Rat Liver|Toxicology32(1): 11-21|1984|10.1016/0300-483X(84)90030-1
87047|T||Hac,E., and J. Krechniak|Lead Levels in Bone and Hair of Rats Treated with Lead Acetate|Biol. Trace Elem. Res.52(3): 293-301|1996|10.1007/BF02789170
87048|T||Rodriguez-Kabana,R., D.G. Robertson, P.S. King, and L. Wells|American Jointvetch and Partridge Pea for the Management of Meloidogyne arenaria in Peanut|Nematropica21(1): 97-103|1991|
87049|T||Rodriguez-Kabana,R., D.G. Robertson, L. Wells, and R.W. Young|Hairy Indigo for the Management of Meloidogyne arenaria in Peanut|Nematropica18(2): 137-142|1988|
87050|T||Mueller,J.D., and S.A. Lewis|Evaluation of Nematicides for Controlling Meloidogyne incognita and Hoplolaimus columbus on Kenaf (Hibiscus cannabinus)|Nematropica23(1): 91-97|1993|
87051|T||Kinloch,R.A., and J.R. Rich|Responses of Cotton Yield and Meloidogyne incognita Soil Populations to Soil Applications of Aldicarb and 1,3-D in Florida|J. Nematol.30(Suppl.4): 639-642|1998|
87052|T||Rodriguez-Kabana,R., D.G. Robertson, C.F. Weaver, and L. Wells|Rotations of Bahiagrass and Castorbean with Peanut for the Management of Meloidogyne arenaria|J. Nematol.23(Suppl.4): 658-661|1991|
87053|T||Pandey,J., and A.K. Verma|Effect of Isoproturon Tank Mix with Metsulfuron and 2,4-D on Weeds and Yield of Wheat (Triticum aestivum)|Indian J. Agron.49(2): 114-116|2004|10.59797/ija.v49i2.5172
87054|T||Greco,N., M. Basile, T. D'addabbo, and A. Brandonisio|Influence of Aldicarb and Fenamiphos on Tylenchulus semipenetrans Population Densities and Orange Yield|J. Nematol.25(Suppl.4): 768-772|1993|
87055|T||Chang,J., W.P. Watson, E. Randerath, and K. Randerath|Bulky DNA-Adduct Formation Induced by Ni(II) In Vitro and In Vivo as Assayed by 32P-Postlabeling|Mutat. Res.291(2): 147-159|1993|10.1016/0165-1161(93)90154-R
87056|T||Rodriguez-Kabana,R., D.G. Robertson, L. Wells, C.F. Weaver, and P.S. King|Cotton as a Rotation Crop for the Management of Meloidogyne arenaria and Sclerotium rolfsii in Peanut|J. Nematol.23(Suppl.4): 652-657|1991|
87057|T||Dickson,D.W., and T.E. Hewlett|Effects of Bahiagrass and Nematicides on Meloidogyne arenaria on Peanut|J. Nematol.21(suppl.4S): 671-676|1989|
87058|T||Barker,K.R., and N.T. Powell|Influence of Aldicarb on the Growth and Yield of Tobacco|J. Nematol.20(3): 432-438|1988|
87059|T||Roberts,P.A., and A.S. Greathead|Control of Ditylenchus dipsaci in Infected Garlic Seed Cloves by Nonfumigant Nematicides|J. Nematol.18(1): 66-73|1986|
87060|T||Greco,N., F. Elia, and A. Brandonisio|Control of Heterodera carotae Ditylenchus dipsaci, and Meloidogyne javanica with Fumigant and Nonfumigant Nematicides|J. Nematol.18(3): 359-364|1986|
87061|T||Olthof,T.H.A.|Effects of Fumigants and Systemic Pesticides on Pratylenchus penetrans and Potato Yield|J. Nematol.19(4): 424-430|1987|
87062|T||Rodriguez-Kabana,R., H. Ivey, and P.A. Backman|Peanut-Cotton Rotations for the Management of Meloidogyne arenaria|J. Nematol.19(4): 484-486|1987|
87063|T||Gopinath,K.A., and J. Pandey|Weed Management in Transplanted Rice (Oryza sativa) and Its Residual Effect on Weed and Yield of Succeeding Wheat (Triticum aestivum)|Indian J. Agron.49(4): 226-229|2004|10.59797/ija.v49i4.5204
87064|T||Rettori,A., E. Paoletti, G. Nicolotti, and M.L. Gullino|Ecophysiological Responses of Mediterranean Pines to Simulated Sea Aerosol Polluted with an Anionic Surfactant:  Prospects for Biomonitoring|Ann. For. Sci.62(4): 351-360|2005|10.1051/forest:2005030
87065|T||Barker,K.R., S.R. Koenning, A.L. Bostian, and A.R. Ayers|Growth and Yield Responses of Soybean to Aldicarb|J. Nematol.20(3): 421-431|1988|
87066|T||Ayers,A.R., H.E. Duncan, K.R. Barker, and M.K. Beute|Effects of Crop Rotation and Nonfumigant Nematicides on Peanut and Corn Yields in Fields Infested with Criconemella Species|J. Nematol.21(2): 268-275|1989|
87067|T||Noel,G.R.|Evaluation of Thuringiensin for Control of Heterodera glycines on Soybean|J. Nematol.22(Suppl.4): 763-766|1990|
87068|T||Chambers,P.L., K.P. Twomey, and C.M. Chambers|A Preliminary Study of the Translocation of Aldicarb Across the Duck Eggshell|Ecotoxicol. Environ. Saf.18(3): 296-304|1989|10.1016/0147-6513(89)90023-7
87069|T||Hussaini,S.S.|Efficacy of Non-volatile Nematicides for Control of Meloidogyne incognita in F.C.V. Tobacco|Indian J. Nematol.16(1): 100-101|1986|
87070|T||Van Hoewyk,D., G.F. Garifullina, A.R. Ackley, S.E. Abdel-Ghany, M.A. Marcus, S. Fakra, K. Ishiyama, E. Inoue, M. Pilon,|Overexpression of AtCpNifS Enhances Selenium Tolerance and Accumulation in Arabidopsis|Plant Physiol.139(3): 1518-1528|2005|10.1104/pp.105.068684
87071|T||Sethi,C.L., and A.N. Srivastava|Management of Heterodera zeae on Maize Through Pesticidal Seed Dressing|Indian J. Nematol.16(1): 82-86|1986|
87072|T||Dutt,R., and D.S. Bhatti|Effect of Chemicals and a Phytotherapeutic Substance on Biological Phenomena of Meloidogyne javanica Infesting Tomato|Indian J. Nematol.16(1): 19-22|1986|
87073|T||Prinsen,M.K.|The Chicken Enucleated Eye Test (CEET):  A Practical (Pre)Screen for the Assessment of Eye Irritation/Corrosion Potential of Test Materials|Food Chem. Toxicol.34(3): 291-296|1996|10.1016/0278-6915(95)00115-8
87074|T||Chu,C.C., E.T. Natwick, D.H. Akey, and T.J. Henneberry|"Studies on Prevention of Cotton ""Leaf Burn"" Syndrome in the Imperial Valley, California"|J. Agric. Assoc. China 164:56-68|1993|
87075|T||Mesjasz-Przybylowicz,J., M. Nakonieczny, P. Migula, M. Augustyniak, M. Tarnawska, W.U. Reimold, C. Koeberl, W. Przybylo|Uptake of Cadmium, Lead, Nickel and Zinc from Soil and Water Solutions by the Nickel Hyperaccumulator Berkheya coddii|Acta Biol. Crac., Ser. Bot. 46:75-85|2004|
87076|T||Rodriguez-Kabana,R., and P.S. King|Evaluation of Selected Nematicides for Control of Meloidogyne arenaria in Peanut: A Multi-Year Study|Nematropica15(2): 155-164|1985|
87078|T||Zedaker,S.M., J.J. Bollig, J.R. Seiler, and M.L. Jackson|Adjuvants Alter Triclopyr Uptake in North American Tree Species|FRI Bull.192:198-200|1995|
87079|T||Singh,S., R.C. Kirkwood, and G. Marshall|The Effect of Silwet L-77 or Fenoxaprop-P-Ethyl on the Efficacy of Isoproturon Applied to Isoproturon Resistant Phalaris minor|Br. Crop Prot. Conf. Weeds1:231-236|1995|
87080|T||Burrill,L.C., L.E. Cannon, R.E. Duddles, and A.P. Poole|Effect of Adjuvants on Herbicide Activity on Gorse|Proc. West. Soc. Weed Sci.45:60-65|1992|
87081|T||Sundaram,A., J.W. Leung, G.R.B. Webster, R. Nott, J. Curry, and L. Sloane|Effect of Glycerol on Spreading and Drying of Vision Droplets Containing Silwet L-77: Relevance to Rainfastness and Herbicidal Activity of Glyphosate on Trembling Aspen (Populus tremuloides Michx.)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(4): 901-912|1996|
87082|T||Grayson,B.T., S.L. Boyd, and D. Walter|Effect of Adjuvants on the Therapeutic Activity of Dimethomorph in Controlling Vine Downy Mildew.  II.  Adjuvant Mixtures, Outdoor-Hardened Vines and One-Pack Formulations|Pestic. Sci.46(3): 207-213|1996|10.1002/(SICI)1096-9063(199603)46:3<207::AID-PS335>3.0.CO;2-B
87083|T||Grayson,B.T., D.M. Batten, and D. Walter|Adjuvant Effects on the Therapeutic Control of Potato Late Blight by Dimethomorph Wettable Powder Formulations|Pestic. Sci.46(4): 355-359|1996|10.1002/(SICI)1096-9063(199604)46:4<355::AID-PS364>3.0.CO;2-U
87084|T||Singh,S.P., and D.K. Maheshwari|Control of Meloidogyne incognita on Solanum melongena by Mutual Application of GA3 with Two Organocarbamates|Bionature8(2): 145-148|1988|
87085|T||Bromilow,R.H., A.A. Evans, P.H. Nicholls, A.D. Todd, and G.G. Briggs|The Effect on Soil Fertility of Repeated Applications of Pesticides over 20 Years|Pestic. Sci.48(1): 63-72|1996|10.1002/(SICI)1096-9063(199609)48:1<63::AID-PS442>3.0.CO;2-I
87086|T||Gold,L.S., J.M. Ward, L. Bernstein, and B. Stern|Association Between Carcinogenic Potency and Tumor Pathology in Rodent Carcinogenesis Bioassays|Fundam. Appl. Toxicol.6(4): 677-690|1986|10.1016/0272-0590(86)90181-8
87087|T||Pico,Y., C. Albelda, J.C. Molto, G. Font, and J. Manes|Aldicarb Residues in Citrus Soil, Leaves and Fruits|Food Addit. Contam.7(Suppl.1): S29 - S34|1990|
87088|T||Meher,H.C., N.P. Agnihotri, and C.L. Sethi|Persistence of Aldicarb Residues in Cowpea (Vigna unguiculata) and Soil Under Tropical Conditions|Indian J. Agric. Sci.59(12): 771-777|1989|
87089|T||Singh,K.P., S.Y. Pandey, M.M. Khan, and S. Singh|Residues of Aldicarb in Cottonseed|Indian J. Entomol.45(1): 64-70|1983|10.5958/0974-8172.2020.00016.4
87090|T||Steurbaut,W., H.S. Megahed, G. Van Roey, T. Melkebeke, and W. Dejonckheere|Improvement of Fungicide Performance by the Addition of Surfactants to the Formulations - Part II:  Influence on Biological and Systemic Activity|Meded. Fac. Landbouwwet. Rijksuniv. Gent54(2a): 219-232|1989|
87091|T||West,T.M., and J. Lawrie|Response of Bracken and Heather to Tribenuron-Methyl in the Presence and Absence of Adjuvants as Compared with Asulam|Br. Crop Prot. Conf. Weeds1:423-428|1993|
87092|T||Mathiassen,S.K., P.K. Jensen, P. Kudsk, and T.K. Larsen|Possibilities for Improving the Foliar Activity of Isoproturon|Br. Crop Prot. Conf. Weeds2:585-590|1993|
87093|T||Singh,S.V., and Y.P. Singh|Effect of Insecticides on Aphid Population, Plant Growth and Yield of Mustard Crop|Indian J. Entomol.51(1): 11-18|1989|
87094|T||Singh,S.V., and V.S. Kavadia|Insecticidal Schedule for the Pests Attacking Brinjal:  III.  Effect on Growth and Yield of the Crop|Indian J. Entomol.50(4): 397-402|1988|
87095|T||Andersson,S.|"Differences in Reactions Between Cereals and Cultivars Towards the ""Gotland Strain"" of Heterodera avenae"|Vaxtskyddsnotiser51(3): 66-69|1987|
87096|T||Sardana,H.R., and S. Verma|Combined Influence of Insecticide and Fertilizer on the Growth and Yield of Cowpea, Vigna unguiculata L. Walp|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.58(3): 463-468|1988|
87097|T||Rouchaud,J., C. Moons, L. Detroux, W. Haquenne, E. Seutin, L. Nys, and J.A. Meyer|Quality of Potatoes Treated with Selected Insecticides and Potato-Haulm Killers|J. Hortic. Sci.61(2): 239-242|1986|10.1080/14620316.1986.11515696
87098|T||Farage-Elawar,M., and W.D. Blaker|Chick Embryo Exposure to Carbamates Alters Neurochemical Parameters and Behavior|J. Appl. Toxicol.12(6): 421-426|1992|10.1002/jat.2550120610
87099|T||Evanylo,G.K., and G.W. Zehnder|Potato Growth and Nutrient Diagnosis as Affected by Systemic Petsicide and Physiological Growth Stage1|Commun. Soil Sci. Plant Anal.19(15): 1731-1745|1988|10.1080/00103628809368049
87100|T||Bhattacharya,R., B.P. Srivastava, and S.D. Belsare|Phyto-stimulatory Effect of Some Soil Pesticides on Mustard Plants|J. Entomol. Res.13(2): 93-98|1989|
87101|T||Bhattacharya,R., B.P. Srivastava, and S.D. Belsare|Phytotonic Impact of Some Soil Pesticides on Potato Plants|J. Entomol. Res.12(2): 104-108|1988|
87102|T||Pol,B.J.M., P.B. Van Wachem, L. Van der Does, and A. Bantjes|In Vivo Testing of Crosslinked Polyethers.  II.  Weight Loss, IR Analysis, and Swelling Behavior After Implantation|J. Biomed. Mater. Res.32(3): 321-331|1996|10.1002/(SICI)1097-4636(199611)32:3<321::AID-JBM4>3.0.CO;2-U
87103|T||Pol,B.J.M., P.B. Van Wachem, M.J.A. Van Luyn, L. Van der Does, and A. Bantjes|In Vivo Testing of Crosslinked Polyethers.  I.  Tissue Reactions and Biodegradation|J. Biomed. Mater. Res.32(3): 307-320|1996|10.1002/(SICI)1097-4636(199611)32:3<307::AID-JBM3>3.0.CO;2-W
87104|T||Meher,H.C., C.L. Sethi, and N.P. Agnihotri|Uptake of Aldicarb Residues by Pea and Okra|Indian J. Entomol.49(2): 247-252|1987|
87105|T||Koehler,H., and H. Born|The Influence of Vegetation Structure on the Development of Soil Mesofauna|Agric. Ecosyst. Environ.27(1-4): 253-269|1989|10.1016/0167-8809(89)90090-X
87106|T||Raworth,D.A.|Predators Associated with the Twospotted Spider Mite, Tetranychus urticae, on Strawberry at Abbotsford, B.C., and Development of Non-Chemical Mite Control|J. Entomol. Soc. B. C.87:59-67|1990|
87107|T||Read,P.J., and G.A. Hide|Effects of Fungicides on the Growth and Conidial Germination of Colletotrichum coccodes and on the Development of Black Dot Disease of Potatoes|Ann. Appl. Biol.126(3): 437-447|1995|10.1111/j.1744-7348.1995.tb05378.x
87108|T||Kataria,H.R., and U. Gisi|Interactions of Fungicide-Herbicide Combinations Against Plant Pathogens and Weeds|Crop Prot.9(6): 403-409|1990|10.1016/0261-2194(90)90128-T
87109|T||Aharonson,N., L. Muszkat, and M. Klein|Residue Analysis of Butocarboxim and Aldicarb Applied in a Drip-Irrigated Peach Grove by the HPLC Post-Column Fluorogenic Labeling Technique|Phytoparasitica13(2): 129-138|1985|10.1007/BF02980890
87110|T||Bovey,R.W., E. Franz, and S.G. Whisenant|Influence of Organosilicone Surfactants and Spray Nozzle Types on the Fate and Efficacy of Clopyralid on Honey Mesquite (Prosopis glandulosa )|Weed Sci.42(4): 658-664|1994|10.1017/S0043174500077109
87111|T||Hughes,E.E.|Hygroscopic Additives to Phenoxy Herbicides for Control of Saltcedar|Weed Sci.16(4): 486-488|1968|10.1017/S0043174500047822
87112|T||Gupta,R.C., and W.L. Kadel|Novel Effects of Memantine in Antagonizing Acute Aldicarb Toxicity:  Mechanistic and Applied Considerations|Drug Dev. Res.24(4): 329-341|1991|10.1002/ddr.430240404
87113|T||Chu,C.C., D.H. Akey, T.J. Henneberry, and E.T. Natwick|Response of Cotton Plants to Aldicarb Soil Application|J. Agric. Assoc. China 167:76-90|1994|
87114|T||Sardana,H.R., and S. Verma|Combined Effect of Insecticide and Fertilizers on the Growth and Yield of Greengram Vigna radiata (L.) Wilczek|Indian J. Entomol.49(1): 64-68|1987|
87115|T||Singh,S.P., D.K. Maheshwari, and L. Singh|On the Effect of Organocarbamates on Biological Yield of Lycopersicum esculentum, CV Pusa ruby and Soil Properties in Meloidogyne incognita-Infested Soil|Acta Bot. Indica17(2): 263-266|1989|
87116|T||Gupta,M.P., V.J. Shivankar, S. Ram, and A.A. Khan|Effect of Granular Insecticides on Nodulation and Plant Growth in Lucerne, Berseem and Cowpea Crops|Indian J. Plant Prot.19(2): 139-145|1991|
87117|T||Prasadji,J.K., and K. Sitaramaiah|Effect of Plant Growth Regulators Alone and in Combination with Nematicides on Root-Knot Severity and Yield in Tomato|Indian J. Nematol.22(2): 77-81|1992|
87118|T||Mangat,B.P.S., D.C. Gupta, and K. Ram|Effect of Deep Summer Ploughing Singly and in Combination with Aldicarb and Time of Application of Aldicarb on Cyst Population of Heterodera avenae and Subsequent Effect on Wheat Yield|Indian J. Nematol.18(2): 345-346|1988|
87119|T||Kaushal,K.K., and A.R. Seshadri|Evaluation of Chemicals as Seed-Dressers Against Heterodera avenae on Wheat|Indian J. Nematol.16(1): 140-|1986|
87120|T||Singh,I., C.L. Arora, S.K. Sharma, M.S. Sultan, and A.S. Azad|Nutrient Composition of Nematicidal Treated Leaves of Okra and Groundnut|Indian J. Nematol.18(2): 386-387|1988|
87121|T||Le Roux,H.F., F.C. Wehner, J.M. Kotze, and N.M. Grech|Combining Fosetyl-Al Trunk Injection or Metalaxyl Soil Drenching with Soil Application of Aldicarb for Control of Citrus Decline|Plant Dis.75(12): 1233-1236|1991|10.1094/PD-75-1233
87122|T||Nigg,H.N., R.V. Russ, W.D. Mahon, J.H. Stamper, and J.L. Knapp|Contamination of Sucrose Solution with Aldicarb Sulfoxide Inhibits Foraging by Honeybees (Hymenoptera:  Apidae)|J. Econ. Entomol.84(3): 810-813|1991|10.1093/jee/84.3.810
87123|T||Baird,R.E., D.E. Carling, C.E. Watson, M.L. Scruggs, and P. Hightower|Effects of Nematicides on Cotton Root Mycobiota|Mycopathologia157(2): 191-199|2004|10.1023/B:MYCO.0000020589.82402.81
87124|T||Kaul,V.K., S.C. Bhandari, and A.S. Khurana|Interaction of Meloidogyne incognita, Nematicides and Rhizobium leguminosarum on Pisum sativum|Ann. Biol.2(1): 77-81|1986|
87125|T||Ibrahim,S.A., S.A. Mahmoud, M.A. Kortam, and H.Z. Aboul-Eid|Combined Effect of Nitrogen Sources and Certain Nematocides on Cotton Productivity|Egypt. J. Agron.8(1/2): 93-105|1983|
87126|T||Srivastava,N., and S.K. De|Effect of Temik 10G and NPK Fertilizers on Certain Morphological Yield and Chemical Characteristics of Beet Leaf|Indian J. Agric. Chem.18(1): 79-83|1985|
87127|T||Kluge,R.L.|Effect of Aldicarb on the Growth of Crofton Weed, Ageratina adenophora|Appl. Plant Sci.6(2): 48-49|1992|
87128|T||Suett,D.L., A.A. Jukes, and K. Phelps|Stability of Accelerated Degradation of Soil-Applied Insecticides:  Laboratory Behaviour of Aldicarb and Carbofuran in Relation to Their Efficacy Against Cabbage Root Fly (Delia radicum) in Previously Treated Field Soil|Crop Prot.12(6): 431-442|1993|10.1016/0261-2194(93)90004-3
87129|T||Mosleh,Y.Y., S. Paris-Palacios, M. Couderchet, and G. Vernet|Biological Effects of Two Insecticides on Earthworms (Lumbricus terrestris L.) Under Laboratory Conditions|Meded. Fac. Landbouwwet. Rijksuniv. Gent67(2): 59-68|2002|
87130|T||Shahina,F., and M.A. Maqbool|Management of Heterodera zeae on Corn and H. avenae on Barley with Aldicarb and Carbofuran|Pak. J. Nematol.9(1): 53-56|1991|
87131|T||Funderburk,J.E., D.W. Gorbet, I.D. Teare, and J. Stavisky|Thrips Injury can Reduce Peanut Yield and Quality Under Conditions of Multiple Stress|Agron. J.90(4): 563-566|1998|10.2134/agronj1998.00021962009000040020x
87132|T||Bauer,P.J., and M.E. Roof|Nitrogen, Aldicarb, and Cover Crop Effects on Cotton Yield and Fiber Properties|Agron. J.96:369-376|2004|10.2134/agronj2004.3690
87133|T||Hajoui,O., D. Flipo, S. Mansour, M. Fournier, and K. Krzystyniak|Immunotoxicity of Subchronic Versus Chronic Exposure to Aldicarb in Mice|Int. J. Immunopharmacol.14(7): 1203-1211|1992|10.1016/0192-0561(92)90056-Q
87134|T||Brar,D.S., and G.S. Sandhu|Effect of Insecticidal Incorporations on the Growth and Yield of White Button Mushroom|In: M.J.Maher (Ed.), Mushroom Science, Science and Cultivation of Edible Fungi, Balkema, Rotterdam, Netherlands:477-486|1991|
87135|T||Misra,S.S., and A.K. Dikshit|Uptake and Translocation of Granular Systemic Insecticides in Potato Foliage|Indian J. Plant Prot.18(2): 241-244|1990|
87136|T||Singh,V.K., and K.P. Singh|Effect of Aldicarb on Hatching of Heterodera cajani Koshy, 1967|Indian J. Nematol.23(1): 133-134|1993|
87137|T||Dean,T.N., R.S. Selvan, H.P. Misra, M. Nagarkatti, and P.S. Nagarkatti|Aldicarb Treatment Inhibits the Stimulatory Activity of Macrophages Without Affecting the T-Cell Responses in the Syngeneic Mixed Lymphocyte Reaction|Int. J. Immunopharmacol.12(3): 337-348|1990|10.1016/0192-0561(90)90091-Z
87138|T||Dadheech,L.N., and H.C.L. Gupta|Persistence of Aldicarb Residues in Clay Loam Soil and Its Uptake in Mustard Crop|In: S.C.Goel (Ed.), Pesticide Residues and Environmental Pollution, Insect and Environment II, Muzaffarnagar, India:15-23|1986|
87139|T||Haq,S., A.U. Siddqui, S.K. Saxena, and M.W. Khan|Effect of Groundnut Oil-Cake and Certain Nematicides on the Population of Nematodes and Fungi in the Presence and Absence of Tomato|Indian J. Nematol.16(1): 109-110|1986|
87141|T||Chamberlin,J.R., J.W. Todd, J.M. Farrow, and B.G.,Jr. Mullinix|Aldicarb Residue Persistence in Leaf Terminals of 'Florunner' Peanut|J. Econ. Entomol.85(4): 1072-1078|1992|10.1093/jee/85.4.1072
87142|T||Chapman,R.A., C.R. Harris, J.H. Tolman, and D. DuBois|The Persistence of Insecticidal Chemicals in Soils Treated with Granular Formulations of Aldicarb and Their Uptake by Potato Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes29(5): 895-916|1994|
87143|T||Verster,R.S., and C.J. Botha|Evaluation of Hydroxypropyl-beta-Cyclodextrin in the Treatment of Aldicarb Poisoning in Rats|J. S. Afr. Vet. Assoc.75(4): 182-185|2004|10.4102/jsava.v75i4.480
87145|T||Reddy,T.M., A.K. Gupta, and M.L. Varshney|The Effect of Pesticides of Plant Growth, Nodulation, Nitrogen Fixation and Protein Content in Fresh Peas (Pisum sativum L.)|Pesticides 20(7): 36-38|1986|
87146|T||Meher,H.C., N.P. Agnihotri, and C.L. Sethi|Persistence of Aldicarb Sulfone Residues in Cowpea and Soil Following Foliar Application and Its Nematicidal Activity|Indian J. Nematol.14(2): 160-165|1984|
87147|T||Mohamed,O.S.A., and S.E.I. Adam|The Toxicity of Temik (Aldicarb) in Nubian Goats|Br. Vet. J.146(4): 358-363|1990|10.1016/S0007-1935(11)80030-8
87148|T||Beane,J.|Vertical Distribution of Pratylenchus neglectus, P. crenatus and Tylenchorhynchus dubius Associated with Maize Roots and the Effect of Aldicarb Residues|Ann. Appl. Biol.106(3): 499-503|1985|10.1111/j.1744-7348.1985.tb03141.x
87149|T||Farage-Elawar,M.|Toxicity of Aldicarb in Young Chicks|Neurotoxicol. Teratol.10(6): 549-554|1988|10.1016/0892-0362(88)90091-8
87150|T||Farage-Elawar,M., M.F. Ehrich, B.S. Jortner, and H.P. Misra|Effects of Multiple Oral Doses of Two Carbamate Insecticides on Esterase Levels in Young and Adult Chickens|Pestic. Biochem. Physiol.32(3): 262-268|1988|10.1016/0048-3575(88)90110-1
87151|T||Singh,S.P., and D.K. Maheshwari|Effect of GA3 on the Phytotoxicity of Aldicarb and Carbofuran on Seedling Growth in Capsicum frutescens var. California Wonder and Rate of Root Knot Nematode Infestation|J. Phytopathol.127(2): 158-168|1989|10.1111/j.1439-0434.1989.tb01124.x
87152|T||Hasan,A.|Efficacy of Certain Nonfumigant Nematicides on the Control of Pigeonpea Wilt Involving Heterodera cajani and Fusarium udum|J. Phytopathol.126(4): 335-342|1989|10.1111/j.1439-0434.1989.tb04496.x
87153|T||Hofman,T.W., and G.J. Bollen|Effects of Granular Nematicides on Growth and Microbial Antagonism to Rhizoctonia solani|Neth. J. Plant Pathol.93(5): 201-214|1987|10.1007/BF01998248
87154|T||Van Rensburg,G.D.J., J.B.J. Van Rensburg, and J.H. Giliomee|Towards Cost Effective Insecticidal Control of the Maize Leafhopper, Cicadulina mbila, and the Stalk Borers, Busseola fusca and Chilo partellus|Phytophylactica23(2): 137-140|1991|
87155|T||Marwaha,R.S.|Nematicides Induced Changes in the Chemical Constituents of Potato Tubers|Plant Foods Hum. Nutr. (Dordr.)38(2): 95-103|1988|10.1007/BF01091713
87156|T||Gupta,R.C., and W.L. Kadel|Subacute Toxicity of Aldicarb:  Prevention and Treatment with Memantine and Atropine|Drug Dev. Res.24(4): 343-353|1991|10.1002/ddr.430240405
87157|T||Rodriguez-Kabana,R., C.F. Weaver, D.G. Robertson, and H. Ivey|Bahiagrass for the Management of Meloidogyne arenaria in Peanut|Ann. Appl. Nematol.2:110-114|1988|
87158|T||Shukla,P.K., and A. Haseeb|Effectiveness of Some Nematicides and Oil Cakes in the Management of Pratylenchus thornei on Mentha citrata, M. piperita and M. spicata|Bioresour. Technol.57(3): 307-310|1996|10.1016/S0960-8524(96)00084-3
87159|T||Cranshaw,W.S., and M.K. Thornton|Effects of Systemic Insecticides on Potato Growth and Their Interaction with Metribuzin|Am. Potato J.65(9): 535-541|1988|10.1007/BF02908333
87160|T||Rodriguez-Kabana,R., D.G. Robertson, P.A. Backman, and H. Ivey|Soybean-Peanut Rotations for the Management of Meloidogyne arenaria|Ann. Appl. Nematol.2:81-85|1988|
87161|T||Mueller,J.D., and M.J. Sullivan|Response of Cotton to Infection by Hoplolaimus columbus|Ann. Appl. Nematol.2:86-89|1988|
87162|T||Dickson,D.W., and T.E. Hewlett|Efficacy of Fumigant and Nonfumigant Nematicides for Control of Meloidogyne arenaria on Peanut|Ann. Appl. Nematol.2:95-101|1988|
87163|T||Weaver,D.B., R. Rodriguez-Kabana, D.G. Robertson, R.L. Akridge, and E.L. Carden|Effect of Crop Rotation on Soybean in a Field Infested with Meloidogyne arenaria and Heterodera glycines|Ann. Appl. Nematol.2:106-109|1988|
87164|T||Sites,R.W., and W.W. Cone|Uptake and Oxidative Degradation of the Systemic Acaricide Aldicarb in Hops, Humulus lupulus L.|J. Econ. Entomol.82(4): 1237-1244|1989|10.1093/jee/82.4.1237
87165|T||Malik,M.S., O.P. Malik, and N.K. Sangwan|Toxicity of beta-Ketoesters and beta-Dicarbonyl Compounds to Juveniles of the Seed-Gall Nematode Anguina tritici|Nematologica43(2): 193-198|1997|10.1163/004825997X00060
87166|T||Montesissa,C., M. Amorena, M. De Liguoro, and A. Lucisano|Aldicarb Sulfoxidative Pathway in Broilers:  In Vitro and In Vivo Evaluation|Acta Vet. Scand. Suppl.87:396-398|1991|
87167|T||Montesissa,C., M.B.M. Huveneers, L.A.P. Hoogenboom, M. Amorena, M. De Liguoro, and A. Lucisano|The Oxidative Metabolism of Aldicarb in Pigs:  In Vivo-In Vitro Comparison|Drug Metab. Drug Interact.11(2): 127-138|1994|10.1515/DMDI.1994.11.2.127
87168|T||Tiyagi,S.A., S. Ajaz, and M.F. Azam|Effect of Some Pesticides on Plant Growth, Root Nodulation and Chlorophyll Content of Chickpea|Arch. Agron. Soil Sci.50(6): 529-533|2004|10.1080/03650340410001729735
87169|A||Edginton,A.N., and C. Rouleau|Toxicokinetics of 14C-Atrazine and Its Metabolites in Stage-66 Xenopus laevis|Environ. Sci. Technol.39(20): 8083-8089|2005|10.1021/es050295m
87170|A||Fairchild,J.F., A.L. Allert, L.C. Sappington, and B. Waddell|Chronic Toxicity of Un-Ionized Ammonia to Early Life-Stages of Endangered Colorado Pikeminnow (Ptychocheilus lucious) and Razorback Sucker (Xyrauchen texanus) Compared to the Surrogate Fathead Minnow (Pimephales promela|Arch. Environ. Contam. Toxicol.49(3): 378-384|2005|10.1007/s00244-004-0223-9
87171|A||Bradford,C.M., J. Rinchard, J.A. Carr, and C. Theodorakis|Perchlorate Affects Thyroid Function in Eastern Mosquitofish (Gambusia holbrooki) at Environmentally Relevant Concentrations|Environ. Sci. Technol.39(14): 5190-5195|2005|10.1021/es0484505
87172|A||Luo,Y., X.R. Wang, H.H. Shi, D.Q. Mao, Y.X. Sui, and L.L. Ji|Electron Paramagnetic Resonance Investigation of In Vivo Free Radical Formation and Oxidative Stress Induced by 2,4-Dichlorophenol in the Freshwater Fish Carassius auratus|Environ. Toxicol. Chem.24(9): 2145-2153|2005|10.1897/04-640R.1
87173|A||MacDonald,M.M., A.L. Warne, N.L. Stock, S.A. Mabury, K.R. Solomon, and P.K. Sibley|Toxicity of Perfluorooctane Sulfonic Acid and Perfluorooctanoic Acid to Chironomus tentans|Environ. Toxicol. Chem.23(9): 2116-2123|2004|10.1897/03-449
87174|A||Rees,C.B., S.D. McCormick, and W. Li|A Non-lethal Method to Estimate CYP1A Expression in Laboratory and Wild Atlantic Salmon (Salmo salar)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(3): 217-224|2005|10.1016/j.cca.2005.04.010
87176|A||White,K.L., B.E. Haggard, M.D. Matlock, and J.W. Kim|Periphytic Chlorophyll -- A Response to Triclosan Exposure:  Application of a Passive Diffusion Periphytometer|Appl. Eng. Agric.21(2): 307-311|2005|10.13031/2013.18137
87177|A||Saravanan,R., U. Sangeetha, and K. Revathi|Effect of Lindane Toxicity in Carbohydrate Content of Haemolymph, Hepatopancreas and Muscles of Penaeus indicus|J. Appl. Zool. Res.15(2): 210-212|2004|
87178|A||Greulich,K., and S. Pflugmacher|Uptake and Effects on Detoxication Enzymes of Cypermethrin in Embryos and Tadpoles of Amphibians|Arch. Environ. Contam. Toxicol.47(4): 489-495|2004|10.1007/s00244-004-2302-3
87179|A||Placencia,J., A. Rudolph, G. Cabrera, G. Cardenas, and M. Yevenes|Inhibitory Effects on Esterase Enzymes Buche and Ache in Rainbow Trout (Oncorhyncus mykiss) Produced by the Slow Release Insecticide Chitosan Diethyl Phosphate|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(5): 761-768|2005|
87180|A||Harpaz,S., and L. Clark|Effects of Addition of a Bird Repellent to Fish Diets on Their Growth and Bioaccumulation|Aquac. Res.37(2): 132-138|2006|10.1111/j.1365-2109.2005.01411.x
87181|A||Sone,K., M. Hinago, M. Itamoto, Y. Katsu, H. Watanabe, H. Urushitani, O. Tooi, L.J.,Jr. Guillette, and T. Iguchi|Effects of an Androgenic Growth Promoter 17beta-Trenbolone on Masculinization of Mosquitofish (Gambusia affinis affinis)|Gen. Comp. Endocrinol.143(2): 151-160|2005|10.1016/j.ygcen.2005.03.007
87182|A||De Aguiar,L.H., G. Moraes, I.M. Avilez, A.E. Altran, and C.F. Correa|Metabolical Effects of Folidol 600 on the Neotropical Freshwater Fish Matrinxa, Brycon cephalus|Environ. Res.95(2): 224-230|2004|10.1016/S0013-9351(03)00119-1
87183|A||Pieters,B.J., A. Paschke, S. Reynaldi, M.H.S. Kraak, W. Admiraal, and M. Liess|Influence of Food Limitation on the Effects of Fenvalerate Pulse Exposure on the Life History and Population Growth Rate of Daphnia magna|Environ. Toxicol. Chem.24(9): 2254-2259|2005|10.1897/04-563R.1
87184|A||Kim,K.T., Y.G. Lee, and S.D. Kim|Combined Toxicity of Copper and Phenol Derivatives to Daphnia magna: Effect of Complexation Reaction|Environ. Int.32(4): 487-492|2006|10.1016/j.envint.2005.11.002
87185|A||Kefaloyianni,E., E. Gourgou, V. Ferle, E. Kotsakis, C. Gaitanaki, and I. Beis|Acute Thermal Stress and Various Heavy Metals Induce Tissue-Specific Pro- or Anti-Apoptotic Events via the p38-MAPK Signal Transduction Pathway in Mytilus galloprovincialis (Lam.)|J. Exp. Biol.208(23): 4427-4436|2005|10.1242/jeb.01924
87186|T||Morgulis,M.S.F.A., G.H. Oliveira, M.L.Z. Dagli, and J. Palermo-Neto|Acute 2,4-Dichlorophenoxyacetic Acid Intoxication in Broiler Chicks|Poult. Sci.77(4): 509-515|1998|10.1093/ps/77.4.509
87187|T||Ewing,H.P., G.M. Pesti, R.I. Bakalli, and J.F.M. Menten|Studies on the Feeding of Cupric Sulfate Pentahydrate, Cupric Citrate, and Copper Oxychloride to Broiler Chickens|Poult. Sci.77(3): 445-448|1998|10.1093/ps/77.3.445
87188|T||Shlosberg,A., M. Bellaiche, E. Berman, A.B. David, N. Deeb, and A. Cahaner|Comparative Effects of Added Sodium Chloride, Ammonium Chloride, or Potassium Bicarbonate in the Drinking Water of Broilers, and Feed Restriction, on the Development of the Ascites Syndrome|Poult. Sci.77(9): 1287-1296|1998|10.1093/ps/77.9.1287
87189|T||Pesti,G.M., and R.I. Bakalli|Studies on the Effect of Feeding Cupric Sulfate Pentahydrate to Laying Hens on Egg Cholesterol Content|Poult. Sci.77(10): 1540-1545|1998|10.1093/ps/77.10.1540
87191|A||Schmidt,K., S. Pflugmacher, G.B.O. Staaks, and C.E.W. Steinberg|The Influence of Tributyltin Chloride and Polychlorinated Biphenyls on Swimming Behavior, Body Growth, Reproduction, and Activity of Biotransformation Enzymes in Daphnia magna|J. Freshw. Ecol.21(1): 109-120|2006|10.1080/02705060.2006.9664103
87192|T||Laisi,A., R. Tuominen, P. Mannisto, K. Savolainen, and J. Mattila|The Effect of Maneb, Zineb, and Ethylenethiourea on the Humoral Activity of the Pituitary-Thyroid Axis in Rat|Arch. Toxicol.8(suppl.): 253-258|1985|10.1007/978-3-642-69928-3_37
87193|T||Wilson,P.M., D.K. La, and J.R. Froines|Hemoglobin and DNA Adduct Formation in Fischer-344 Rats Exposed to 2,4- and 2,6-Toluene Diamine|Arch. Toxicol.70(10): 591-598|1996|10.1007/s002040050317
87194|T||Savory,J., J.K.S. Rao, Y. Huang, P.R. Letada, and M.M. Herman|Age-Related Hippocampal Changes in Bcl-2:Bax Ratio, Oxidative Stress, Redox-Active Iron and Apoptosis Associated with Aluminum-Induced Neurodegeneration: Increased Susceptibility with Aging|Neurotoxicology20(5): 805-818|1999|
87195|T||Doncheva,S., Z. Stoynova, and V. Velikova|Influence of Succinate on Zinc Toxicity of Pea Plants|J. Plant Nutr.24(6): 789-804|2001|10.1081/PLN-100103774
87196|T||Miller,G.W., M.L. Kirby, A.I. Levey, and J.R. Bloomquist|Heptachlor Alters Expression and Function of Dopamine Transporters|Neurotoxicology20(4): 631-638|1999|
87197|T||Lata,S.|Effects of Cadmium Pretreatment on Phosphate and Total Heavy Metal Distribution in Seedling Parts of Vigna Species|Adv. Plant Sci.18(11): 875-878|2005|
87198|T||Celik,M., D. Yuzbasioglu, F. Unal, O. Arslan, and R. Kasap|Effects of Dinocap on the Mitosis of Allium cepa L.|Cytologia70(1): 13-22|2005|10.1508/cytologia.70.13
87199|T||Vyas,N.B., J.W. Spann, C.S. Hulse, M. Torrez, B.I. Williams, and R. Leffel|Decomposed Gosling Feet Provide Evidence of Insecticide Exposure|Environ. Monit. Assess.98(1-3): 351-361|2004|10.1023/B:EMAS.0000038195.38438.be
87200|T||Pennetier,C., V. Corbel, and J.M. Hougard|Combination of a Non-Pyrethroid Insecticide and a Repellent: A New Approach for Controlling Knockdown-Resistant Mosquitoes|Am. J. Trop. Med. Hyg.72(6): 739-744|2005|10.4269/ajtmh.2005.72.739
87201|T||Sainz,M.J., B. Gonzalez-Penalta, and A. Vilarino|Effects of Hexachlorocyclohexane on Rhizosphere Fungal Propagules and Root Colonization by Arbuscular mycorrhizal Fungi in Plantago lanceolata|Eur. J. Soil Sci.57(1): 83-90|2006|10.1111/j.1365-2389.2005.00775.x
87202|T||Unyayar,S., A. Celik, F.O. Cekic, and A. Gozel|Cadmium-Induced Genotoxicity, Cytotoxicity and Lipid Peroxidation in Allium sativum and Vicia faba|Mutagenesis21(1): 77-81|2006|10.1093/mutage/gel001
87204|T||Liu,W., P. Li, Q. Zhou, T. Sun, P. Tai, and H.J. Xu|Short-Term Toxic Effects of Chlorobenzenes on Broadbean (Vicia faba) Seedlings|Sci. China Ser. C, Life Sci.48:33-39|2005|10.1007/BF02889799
87205|T||Parvin,S., M.H. Rashid, J.C. Joardar, and S.M. Imamul Huq|Response of Arum (Colocasia antiquorum) to Different Levels of Arsenic (As) Treatments|Dhaka Univ. J. Biol. Sci.15(1): 11-21|2006|
87206|T||Vendeland,S.C., M.A. Beilstein, J.Y. Yeh, W. Ream, and P.D. Whanger|Rat Skeletal Muscle Selenoprotein W:  cDNA Clone and mRNA Modulation by Dietary Selenium|Proc. Natl. Acad. Sci. U.S.A.92(19): 8749-8753|1995|10.1073/pnas.92.19.8749
87207|T||Taurog,A., M.L. Dorris, W.X. Hu, and F.S.,Jr. Guziec|The Selenium Analog of 6-Propylthiouracil.  Measurement of Its Inhibitory Effect on Type I Iodothyronine Deiodinase and of Its Antithyroid Activity|Biochem. Pharmacol.49(5): 701-709|1995|10.1016/0006-2952(94)00505-G
87208|T||Toyokuni,S., K. Uchida, K. Okamoto, Y. Hattori-Nakakuki, H. Hiai, and E.R. Stadtman|Formation of 4-Hydroxy-2-nal-Modified Proteins in the Renal Proximal Tubules of Rats Treated with a Renal Carcinogen, Ferric Nitrilotriacetate|Proc. Natl. Acad. Sci. U.S.A.91(7): 2616-2620|1994|10.1073/pnas.91.7.2616
87209|T||Whanger,P.D.|Cadmium Effects in Rats on Tissue Iron, Selenium, and Blood Pressure; Blood and Hair Cadmium in Some Oregon Residents|Environ. Health Perspect.28:115-121|1979|
87211|A||Quinn,B., F. Gagne, C. Blaise, M.J. Costello, J.G. Wilson, and C. Mothersill|Evaluation of the Lethal and Sub-lethal Toxicity and Potential Endocrine Disrupting Effect of Nonylphenol on the Zebra Mussel (Dreissena polymorpha)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(1/2): 118-127|2006|10.1016/j.cbpc.2005.11.004
87212|T||Pullen,R.G.L., M. Schofield, A. Markham, J. Lough, and K. Menton|Selenium Homeostasis in the Central Nervous System of the Rat|Life Sci.58(23): 2125-2135|1996|10.1016/0024-3205(96)00206-8
87213|T||Rath,N.C., W.E. Huff, J.M. Balog, and G.R. Huff|Comparative Efficacy of Different Dithiocarbamates to Induce Tibial Dyschondroplasia in Poultry|Poult. Sci.83(2): 266-274|2004|10.1093/ps/83.2.266
87214|T||Rath,N.C., H.D. Chapman, S.H. Fitz-Coy, J.M. Balog, G.R. Huff, and W.E. Huff|Effects of Roxarsone and Monensin on Digital Flexoral Tendons of Broiler Chickens|Poult. Sci.77(4): 523-528|1998|10.1093/ps/77.4.523
87215|T||Rasekh,H.R., M.D. Davis, L.W. Cooke, E.A. Mazzio, R.R. Reams, and K.F.A. Soliman|The Effect of Selenium on the Central Dopaminergic System: A Microdialysis Study|Life Sci.61(11): 1029-1035|1997|10.1016/S0024-3205(97)00610-3
87216|T||Quistad,G.B., S.E. Sparks, and J.E. Casida|Fatty Acid Amide Hydrolase Inhibition by Neurotoxic Organophosphorus Pesticides|Toxicol. Appl. Pharmacol.173(1): 48-55|2001|10.1006/taap.2001.9175
87217|T||Quistad,G.B., S.E. Sparks, Y. Segall, D.K. Nomura, and J.E. Casida|Selective Inhibitors of Fatty Acid Amide Hydrolase Relative to Neuropathy Target Esterase and Acetylcholinesterase: Toxicological Implications|Toxicol. Appl. Pharmacol.179(1): 57-63|2002|10.1006/taap.2001.9342
87218|T||Zakson-Aiken,M., L.M. Gregory, P.T. Meinke, and W.L. Shoop|Systemic Activity of the Avermectins Against the Cat Flea (Siphonaptera:  Pulicidae)|J. Med. Entomol.38(4): 576-580|2001|10.1603/0022-2585-38.4.576
87219|T||Wong,S.G.W., J.W. Card, and W.J. Racz|The Role of Mitochondrial Injury in Bromobenzene and Furosemide Induced Hepatotoxicity|Toxicol. Lett.116(3): 171-181|2000|10.1016/S0378-4274(00)00218-6
87220|A||Teien,H.C., F. Kroglund, A. Atland, B.O. Rosseland, and B. Salbu|Sodium Silicate as Alternative to Liming-Reduced Aluminium Toxicity for Atlantic Salmon (Salmo salar L.) in Unstable Mixing Zones|Sci. Total Environ.358(1-3): 151-163|2006|10.1016/j.scitotenv.2005.09.052
87222|T||Neal,R., K. Cooper, H. Gurer, and N. Ercal|Effects of N-Acetylcysteine and 2,3-Dimercaptosuccinic Acid on Lead Induced Oxidative Stress in Rat Lenses|Toxicology130(2-3): 167-174|1998|10.1016/S0300-483X(98)00104-8
87225|A||Oliveira-Filho,E.C., B.R. Geraldino, C.K. Grisolia, and F.J.R. Paumgartten|Acute Toxicity of Endosulfan, Nonylphenol Ethoxylate, and Ethanol to Different Life Stages of the Freshwater Snail Biomphalaria tenagophila (Orbigny, 1835)|Bull. Environ. Contam. Toxicol.75(6): 1185-1190|2005|10.1007/s00128-005-0874-x
87226|T||Pamphlett,R., M. Stoltenberg, J. Rungby, and G. Danscher|Uptake of Bismuth in Motor Neurons of Mice After Single Oral Doses of Bismuth Compounds|Neurotoxicol. Teratol.22(4): 559-563|2000|10.1016/S0892-0362(00)00083-0
87227|T||Martinez-Sanchis,S., C.M.G. Aragon, and A. Salvador|Cocaine-Induced Locomotor Activity is Enhanced by Exogenous Testosterone|Physiol. Behav.76(4-5): 605-609|2002|10.1016/S0031-9384(02)00764-3
87228|T||Lu,J., G. Petroianu, B. Widjaja, and R. Rufer|Transplacental Kinetics of Lead in Pregnant Mini-Pigs|Arch. Toxicol.71(3): 187-192|1997|10.1007/s002040050374
87229|T||Long,X., R. Steinmetz, N. Ben-Jonathan, A. Caperell-Grant, P.C.M. Young, K.P. Nephew, and R.M. Bigsby|Strain Differences in Vaginal Responses to the Xenoestrogen Bisphenol A|Environ. Health Perspect.108(3): 243-247|2000|10.1289/ehp.00108243
87230|T||Liu,J., S.S. Habeebu, Y. Liu, and C.D. Klaassen|Acute CdMT Injection is not a Good Model to Study Chronic Cd Nephropathy:  Comparison of Chronic CdCl2 and CdMT Exposure with Acute CdMT Injection in Rats|Toxicol. Appl. Pharmacol.153(1): 45-58|1998|10.1006/taap.1998.8506
87232|A||Matsuo,A.Y.O., C.M. Wood, and A.L. Val|Effects of Copper and Cadmium on Ion Transport and Gill Metal Binding in the Amazonian Teleost Tambaqui (Colossoma macropomum) in Extremely Soft Water|Aquat. Toxicol.74(4): 351-364|2005|10.1016/j.aquatox.2005.06.008
87233|T||Mattsson,J.L., J.P.J. Maurissen, R.J. Nolan, and K.A. Brzak|Lack of Differential Sensitivity to Cholinesterase Inhibition in Fetuses and Neonates Compared to Dams Treated Perinatally with Chlorpyrifos|Toxicol. Sci.53:438-446|2000|10.1093/toxsci/53.2.438
87234|T||Maurissen,J.P.J., M.R. Shankar, and J.L. Mattsson|Chlorpyrifos:  Lack of Cognitive Effects in Adult Long-Evans Rats|Neurotoxicol. Teratol.22:237-246|2000|10.1016/S0892-0362(99)00062-8
87236|A||Coimbra,A.M., M.A. Reis-Henriques, and V.M. Darras|Circulating Thyroid Hormone Levels and Iodothyronine Deiodinase Activities in Nile tilapia (Oreochromis niloticus) Following Dietary Exposure to Endosulfan and Aroclor 1254|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 8-14|2005|10.1016/j.cca.2005.04.006
87237|T||Overstreet,C., and T.L. Erwin|The Use of Telone in Cotton Production in Louisiana|Proc. Beltwide Cotton Conf.:277-278|2003|
87238|T||Krasowska,A., T. Wlostowski, and E. Bonda|Zinc Protection from Fluoride-Induced Testicular Injury in the Bank Vole (Clethrionomys glareolus)|Toxicol. Lett.147(3): 229-235|2004|10.1016/j.toxlet.2003.11.012
87239|T||Tandon,S.K., S. Singh, S. Prasad, S. Srivastava, and M.K.J. Siddiqui|Reversal of Lead-Induced Oxidative Stress by Chelating Agent, Antioxidant, or Their Combination In the Rat|Environ. Res.90(1): 61-66|2002|10.1006/enrs.2002.4386
87241|T||Lee,S., M. Simpson, M. Nimmo, and Z. Xu|Low Zinc Intake Suppressed N-Methyl-N-Nitrosourea-Induced Mammary Tumorigenesis in Sprague-Dawley Rats|Carcinogenesis25(10): 1879-1885|2004|10.1093/carcin/bgh214
87243|T||Lee,J.Y., J.H. Kim, S.H. Hong, R.A. Cherny, A.I. Bush, R.D. Palmiter, and J.Y. Koh|Estrogen Decreases Zinc Transporter 3 Expression and Synaptic Vesicle Zinc Levels in Mouse Brain|J. Biol. Chem.279(10): 8602-8607|2004|10.1074/jbc.M309730200
87244|T||Kohler,H.R., G. Alberti, S. Seniczak, and A. Seniczak|Lead-Induced hsp70 and hsp60 Pattern Transformation and Leg Malformation During Postembryonic Development in the Oribatid Mite, Archegozetes longisetosus Aoki|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(4): 398-405|2005|10.1016/j.cbpc.2005.09.003
87245|T||Irato,P., and V. Albergoni|Interaction Between Copper and Zinc in Metal Accumulation in Rats with Particular Reference to the Synthesis of Induced-Metallothionein|Chem.-Biol. Interact.155(3): 155-164|2005|10.1016/j.cbi.2005.06.005
87246|T||Kools,S.A.E., B. Ferwerda, C.A.M. Van Gestel, and N.M. Van Straalen|Microbial Responses to Zinc in Soil Microcosms with and Without a Natural Assemblage of Enchytraeids|Environ. Toxicol. Chem.24(9): 2178-2184|2005|10.1897/04-661R.1
87247|T||Kizilkaya,R.|The Role of Different Organic Wastes on Zinc Bioaccumulation by Earthworm Lumbricus terrestris L. (Oligochaeta) in Successive Zn Added Soil|Ecol. Eng.25(4): 322-331|2005|10.1016/j.ecoleng.2005.06.006
87248|T||Izaguirre-Mayoral,M.L., and T.R. Sinclair|Soybean Genotypic Difference in Growth, Nutrient Accumulation and Ultrastructure in Response to Manganese and Iron Supply in Solution Culture|Ann. Bot.96(1): 149-158|2005|10.1093/aob/mci160
87249|T||Jia,L.Q., Z.Q. Ou, and Z.Y. Ouyang|Ecological Behavior of Linear Alkylbenzene Sulfonate (LAS) in Soil-Plant Systems|Pedosphere15(2): 216-224|2005|
87250|T||Hu,X.Y., B. Wen, X.Q. Shan, and S.Z. Zhang|Bioavailability of Pentachlorophenol to Earthworms (Eisenia fetida) in Artificially Contaminated Soils|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control40:1905-1916|2005|
87251|T||Maitani,T., and K.T. Suzuki|Extents of Hepatic Zinc-Thionein Induction in Mice Given an Equimolar Dose of Various Heavy Metals|Chem. Pharm. Bull.30(11): 4164-4169|1982|10.1248/cpb.30.4164
87253|T||Lidon,F.C.|Lipid, Carbohydrate, and Protein Accumulation in Mn-Treated Rice|J. Plant Nutr.25(4): 769-780|2002|10.1081/PLN-120002958
87254|AT||Lidon,F.C.|Rice Plant Structural Changes by Addition of Excess Manganese|J. Plant Nutr.25(2): 287-296|2002|10.1081/PLN-100108836
87255|T||Sridhar,B.B.M., S.V. Diehl, F.X. Han, D.L. Monts, and Y. Su|Anatomical Changes due to Uptake and Accumulation of Zn and Cd in Indian Mustard (Brassica juncea)|Environ. Exp. Bot.54:131-141|2005|10.1016/j.envexpbot.2004.06.011
87256|A||Brix,K.V., J.S. Volosin, W.J. Adams, R.J. Reash, R.C. Carlton, and D.O. McIntyre|Effect of Sulfate Concentration on Acute Toxicity of Selenite and Selenate to Invertebrates and Fish|Final Report TR - 111878 to the Electric Power Research Inst.(EPRI), Palo Alto, CA:47 p.|1998|
87257|T||Yeh,C.M., L.J. Hsiao, and H.J. Huang|Cadmium Activates a Mitogen-Activated Protein Kinase Gene and MBP Kinases in Rice|Plant Cell Physiol.45(9): 1306-1312|2004|10.1093/pcp/pch135
87258|T||Yu,L., Y. Zhang, R. Ma, L. Bao, J. Fang, and T. Yu|Potent Protection of Ferulic Acid Against Excitotoxic Effects of Maternal Intragastric Administration of Monosodium Glutamate at a Late Stage of Pregnancy on Developing Mouse Fetal Brain|Eur. Neuropsychopharmacol.16(3): 170-177|2006|10.1016/j.euroneuro.2005.08.006
87259|T||Armstrong,J., and W. Armstrong|Rice: Sulfide-Induced Barriers to Root Radial Oxygen Loss, Fe2+ and Water Uptake, and Lateral Root Emergence|Ann. Bot.96(4): 625-638|2005|10.1093/aob/mci215
87260|A||Zhang,F., M.J. Bartels, J.C. Brodeur, and K.B. Woodburn|Quantitative Measurement of Fathead Minnow Vitellogenin by Liquid Chromatography Combined with Tandem Mass Spectrometry Using a Signature Peptide of Vitellogenin|Environ. Toxicol. Chem.23(6): 1408-1415|2004|10.1897/03-425
87261|A||Wang,Q., Q. Liu, and J. Li|Tissue Distribution and Elimination of Oxytetracycline in Perch Lateolabras janopicus and Black Seabream (Sparus macrocephalus) Following Oral Administration|Aquaculture237(1-4): 31-40|2004|10.1016/j.aquaculture.2004.03.016
87263|A||Sills,J.B.|A Report on the Use of Karmex to Control Filamentous Algae in Fish Ponds|In: 18th Annu.Meet.of the Southeast.Assoc.of Game and Fish Commiss., Oct.18-21, 1964, Clearwater, FL:1-13|1964|
87264|A||Marcy,B.C.,Jr.|Vulnerability and Survival of Young Connecticut River Fish Entrained at a Nuclear Power Plant|J. Fish. Res. Board Can.30:1195-1203|1973|10.1139/f73-190
87266|AT||Xu,S., A.C. Leri, S.C.B. Myneni, and P.R. Jaffe|Uptake of Bromide by Two Wetland Plants (Typha latifolia L. and Phragmites australis (Cav.) Trin. ex Steud.)|Environ. Sci. Technol.38:5642-5648|2004|10.1021/es049568o
87267|T||Kaufman,D.D.|Biodegradation and Persistence of Several Acetamide, Acylanilide, Azide, Carbamate, and Organophosphate Pesticide Combinations|Soil Biol. Biochem.9:49-57|1977|10.1016/0038-0717(77)90060-8
87268|T||Stott,W.T., J.M. Waechter, D.L. Rick, and A.L. Mendrala|Absorption, Distribution, Metabolism and Excretion of Intravenously and Dermally Administered Triethanolamine in Mice|Food Chem. Toxicol.38(11): 1043-1051|2000|10.1016/S0278-6915(00)00095-8
87269|T||Jonak,C., H. Nakagami, and H. Hirt|Heavy Metal Stress.  Activation of Distinct Mitogen-Activated Protein Kinase Pathways by Copper and Cadmium|Plant Physiol.136:3276-3283|2004|10.1104/pp.104.045724
87270|T||Lunney,A.I., B.A. Zeeb, and K.J. Reimer|Uptake of Weathered DDT in Vascular Plants: Potential for Phytoremediation|Environ. Sci. Technol.38:6147-6154|2004|10.1021/es030705b
87271|T||Munne-Bosch,S., J. Penuelas, D. Asensio, and J. Llusia|Airborne Ethylene may Alter Antioxidant Protection and Reduce Tolerance of Holm Oak to Heat and Drought Stress|Plant Physiol.136:2937-2947|2004|10.1104/pp.104.050005
87272|AT||Hayes,J.E., and R.J. Reid|Boron Tolerance in Barley is Mediated by Efflux of Boron from the Roots|Plant Physiol.136:3376-3382|2004|10.1104/pp.103.037028
87274|T||Behne,D., and W. Wolters|Distribution of Selenium and Glutathione Peroxidase in the Rat|J. Nutr.113(2): 456-461|1983|10.1093/jn/113.2.456
87275|T||Ottolenghi,A.D., J.K. Haseman, and F. Suggs|Teratogenic Effects of Aldrin, Dieldrin, and Endrin in Hamsters and Mice|Teratology9(1): 11-16|1974|10.1002/tera.1420090104
87276|T||Rathburn,C.B.,Jr., and A.H.,Jr. Boike|Ultra Low Volume Tests for Several Insecticides Applied by Ground Equipment for the Control of Adult Mosquitoes|Mosq. News35(1): 26-29|1975|
87277|T||Wang,S.Y., W. Bottje, P. Maynard, J. Dibner, and W. Shermer|Effect of Santoquin and Oxidized Fat on Liver and Intestinal Glutathione in Broilers|Poult. Sci.76:961-967|1997|10.1093/ps/76.7.961
87278|T||Huyghebaert,G., and G. De Groote|The Bioefficacy of Zinc Bacitracin in Practical Diets for Broilers and Laying Hens|Poult. Sci.76:849-856|1997|10.1093/ps/76.6.849
87279|T||Mitchell,R.D., H.M.,Jr. Edwards, G.R. McDaniel, and G.N. Rowland III|Dietary 1,25-Dihydroxycholecalciferol has Variable Effects on the Incidences of Leg Abnormalities, Plasma Vitamin D Metabolites, and Vitamin D Receptors in Chickens Divergently Selected for Tibial Dyschondroplasia|Poult. Sci.76:338-345|1997|10.1093/ps/76.2.338
87280|T||Peebles,E.D., E.H. Miller, C.R. Boyle, J.D. Brake, M.A. Latour, and J.P. Thaxton|Effects of Consecutive Thiouracil Exposures in the Juvenile and Adult Single Comb White Leghorn Chicken on Body Weight and Reproductive Performance|Poult. Sci.76:236-243|1997|10.1093/ps/76.2.236
87281|T||Leeson,S., A.K. Zubair, E.J. Squires, and C. Forsberg|Influence of Dietary Levels of Fat, Fiber, and Copper Sulfate and Fat Rancidity on Cecal Activity in the Growing Turkey|Poult. Sci.76:59-66|1997|10.1093/ps/76.1.59
87284|T||Lee,S., R. Tsao, and J.R. Coats|Influence of Dietary Applied Monoterpenoids and Derivatives on Survival and Growth of the European Corn Borer (Lepidoptera:  Pyralidae)|J. Econ. Entomol.92(1): 56-67|1999|10.1093/jee/92.1.56
87285|T||Liu,N., and X. Yue|Insecticide Resistance and Cross-Resistance in the House Fly (Diptera: Muscidae)|J. Econ. Entomol.93(4): 1269-1275|2000|10.1603/0022-0493-93.4.1269
87286|T||Liu,D., and J.T. Trumble|Tomato Psyllid Behavioral Responses to Tomato Plant Lines and Interactions of Plant Lines with Insecticides|J. Econ. Entomol.97(3): 1078-1085|2004|10.1093/jee/97.3.1078
87287|T||Martin,T., O.G. Ochou, M. Vaissayre, and D. Fournier|Organophosphorus Insecticides Synergize Pyrethroids in the Resistant Strain of Cotton Bollworm, Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae) from West Africa|J. Econ. Entomol.96(2): 468-474|2003|10.1603/0022-0493-96.2.468
87288|T||Medina,P., F. Budia, P. Del Estal, and E. Vinuela|Influence of Azadirachtin, a Botanical Insecticide, on Chrysoperla carnea (Stephens) Reproduction:  Toxicity and Ultrastructural Approach|J. Econ. Entomol.97(1): 43-50|2004|10.1093/jee/97.1.43
87289|T||Mohandass,S., F.H. Arthur, K.Y. Zhu, and J.E. Throne|Hydroprene Prolongs Developmental Time and Increases Mortality in Wandering-Phase Indianmeal Moth (Lepidoptera:  Pyralidae) Larvae|J. Econ. Entomol.99(4): 1509-1519|2006|10.1093/jee/99.4.1509
87290|T||Kristensen,M., and J.B. Jespersen|Susceptibility of Spinosad in Musca domestica (Diptera:  Muscidae) Field Populations|J. Econ. Entomol.97(3): 1042-1048|2004|10.1603/0022-0493(2004)097[1042:SOSIMD]2.0.CO;2
87291|T||Handl,J., E. Kallweit, M. Henning, and L. Szwec|On the Long-Term Behaviour of  110mAg in the Soil-Plant System and Its Transfer from Feed to Pig|J. Environ. Radioact.48(2): 159-170|2000|10.1016/S0265-931X(99)00066-1
87292|T||Rungby,J.|Experimental Argyrosis Ultrastructural Localization of Silver in Rat Eye|Exp. Mol. Pathol.45(1): 22-30|1986|10.1016/0014-4800(86)90003-1
87293|T||Grasso,P., R. Abraham, R. Hendy, A.T. Diplock, L. Goldberg, and J. Green|The Role of Dietary Silver in the Production of Liver Necrosis in Vitamin E-Deficient Rats|Exp. Mol. Pathol.11:186-199|1969|10.1016/0014-4800(69)90007-0
87294|T||Nagymajtenyi,L., H. Schulz, and I. Desi|Electrocorticogram Changes Caused by Subchronic Lead Treatment of Rats|Neurotoxicology17(3-4): 713-718|1996|
87295|T||Schmitt,T.J., N. Zawia, and G.J. Harry|GAP-43 mRNA Expression in the Developing Rat Brain:  Alterations Following Lead-Acetate Exposure|Neurotoxicology17(2): 407-414|1996|
87296|T||Nagymajtenyi,L., I. Desi, H. Schulz, and A. Papp|Consequences of Lead Exposure of Rats During Pregnancy, Lactation, and Postweaning.  A Combined Behavioural and Neurotoxicological Study|Int. J. Environ. Health Res.8(2): 121-135|1998|10.1080/09603129873552
87297|T||Yoshida,M.|Changes in Serum Thyroid Hormone Levels and Urinary Ketone Body Excretion Caused by a Low Selenium Diet or Silver Loading in Rats|J. Trace Elem. Electrolytes Health Dis.7(1): 25-28|1993|
87299|T||Lin,C.H., R.N. Lerch, H.E. Garrett, and M.F. George|Incorporating Forage Grasses in Riparian Buffers for Bioremediation of Atrazine, Isoxaflutole and Nitrate in Missouri|Agrofor. Syst.63(1): 91-99|2004|10.1023/B:AGFO.0000049437.70313.ef
87300|T||Hultman,P., A. Taylor, J.M. Yang, and K.M. Pollard|The Effect of Xenobiotic Exposure on Spontaneous Autoimmunity in (SWR x SJL)F1 Hybrid Mice|J. Toxicol. Environ. Health Part A69(6): 505-523|2006|10.1080/15287390500354904
87301|T||TeRiele,J.A., and K.J. Bodensteiner|Dibromoacetic Acid, A Commonly Occurring Water Disinfection By-Product, does not Affect Follicular Populations in Neonatal Rats|J. Toxicol. Environ. Health Part A69(6): 491-495|2006|10.1080/15287390500496978
87302|T||Kelsey-Wall,A., J.C. Seaman, C.H. Jagoe, and C.E. Dallas|Biological Half-Life and Oxidative Stress Effects in Mice with Low-Level, Oral Exposure to Tritium|J. Toxicol. Environ. Health Part A69(3): 201-213|2006|10.1080/15287390500227365
87303|T||Lyche,J.L., H.J.S. Larsen, J.U. Skaare, A. Tverdal, G.M. Johansen, and E. Ropstad|Perinatal Exposure to Low Doses of PCB 153 and PCB 126 Affects Maternal and Neonatal Immunityin Goat Kids|J. Toxicol. Environ. Health Part A69(1-2): 139-158|2006|10.1080/15287390500259418
87305|T||Bondy,G.S., L. Coady, J. Doucet, C. Armstrong, R. Kriz, V. Liston, P. Robertson, R. Norstrom, and J. Moisey|Enantioselective and Gender-Dependent Depletion of Chlordane Compounds from Rat Tissues|J. Toxicol. Environ. Health Part A68(22): 1917-1938|2005|10.1080/15287390500226920
87306|A||Sindhe,V.R., and R.S. Kulkarni|Gonadosomatic and Hepatosomatic Indices of the Freshwater Fish Notopterus notopterus (Pallas) in Response to Some Heavy Metal Exposure|J. Environ. Biol.25(3): 365-368|2004|
87307|T||Asagba,S.O., G.K. Isamah, E.K. Ossai, and A.O. Ekakitie|Effect of Oral Exposure to Cadmium on the Levels of Vitamin A and Lipid Peroxidation in the Eye|Bull. Environ. Contam. Toxicol.68(1): 18-21|2002|10.1007/s00128-001-0213-9
87308|T||Hiranpradit,H., C.L. Foy, and G.M. Shear|Effects of Low Levels of Bromacil on Some Mineral Constituents and Forms of Nitrogen in Glycine max (L.) Merrill|Agron. J.64:274-276|1972|10.2134/agronj1972.00021962006400030005x
87309|A||Awad,O.M., and A. Shimaila|Operational Use of Neem Oil as an Alternative Anopheline Larvicide.  Part A:  Laboratory and Field Efficacy|East. Mediterr. Health J.9(4): 637-645|2003|10.26719/2003.9.4.637
87310|T||Hirase,K., and W.T. Molin|Effects of MT-101 and NOP on Germination and Seedling Growth of Hemp Sesbania and Rice|Weed Sci.50(3): 386-391|2002|10.1614/0043-1745(2002)050[0386:EOMANO]2.0.CO;2
87311|T||Himeidan,Y.E., M.Y. Dukeen, E.A. El-Rayah, and I. Adam|Anopheles arabiensis: Abundance and Insecticide Resistance in an Irrigated Area of Eastern Sudan|East. Mediterr. Health J.10(1/2): 167-174|2004|10.26719/2004.10.1-2.167
87312|T||Thompson,H.M., S. Wilkins, A.H. Battersby, R.J. Waite, and D. Wilkinson|The Effects of Four Insect Growth-Regulating (IGR) Insecticides on Honeybee (Apis mellifera L.) Colony Development, Queen Rearing and Drone Sperm Production|Ecotoxicology14:757-769|2005|10.1007/s10646-005-0024-6
87313|T||Guez,D., S.W. Zhang, and M.V. Srinivasan|Methyl Parathion Modifies Foraging Behaviour in Honeybees (Apis mellifera)|Ecotoxicology14(4): 431-437|2005|10.1007/s10646-004-1348-3
87314|A||Tripathi,A., A. Kumar, A. Rani, and M. Tripathi|Fluoride Induced Morphological and Behavioural Changes in Fresh Water Fish Channa punctatus|J. Ecophysiol. Occup. Health4(1-2): 83-88|2004|
87315|T||Pannacci,E., A. Onofri, and G. Covarelli|Biological Activity, Availability and Duration of Phytotoxicity for Imazamox in Four Different Soils of Central Italy|Weed Res. (Multiple Languages)46(3): 243-250|2006|10.1111/j.1365-3180.2006.00503.x
87316|AT||Awad,O.M.|Operational Use of Neem Oil as an Alternative Anopheline Larvicide.  Part B:  Environmental Impact and Toxicological Potential|East. Mediterr. Health J.9(4): 646-658|2003|10.26719/2003.9.4.646
87317|T||Castro,S., L.C. Davis, and L.E. Erickson|Temperature and pH Effects on Plant Uptake of Benzotriazoles by Sunflowers in Hydroponic Culture|Int. J. Phytoremediat.6(3): 209-225|2004|10.1080/16226510490496384
87318|T||Laspina,N.V., M.D. Groppa, M.L. Tomaro, and M.P. Benavides|Nitric Oxide Protects Sunflower Leaves Against Cd-Induced Oxidative Stress|Plant Sci.169:323-330|2005|10.1016/j.plantsci.2005.02.007
87319|T||Ortega,M., J.L. Alonso-Prados, M. Villarroya, and J.M. Garcia-Baudin|Detection of Phytotoxic Soil Residues of Hexazinone and Simazine by a Biological Test Using Lepidium sativum L. var. Cresson|Weed Technol.18:505-508|2004|10.1614/WT-03-055
87320|A||Vagi,M.C., M.N. Kostopoulou, A.S. Petsas, M.E. Laloussi, Ch Rasouli, and T.D. Lekkas|Toxicity of Organophoshorous Pesticides to the Green Alga Tetraselmis suecica|Proc. 9th Int. Conf. Environ. Sci. Technol.:1543-1547|2005|
87321|T||Ruppel,E.G., and R.J. Hecker|Increased Severity of Rhizoctonia Root Rot in Sugar Beet Treated with Systemic Insecticides|Crop Prot.1(1): 75-81|1982|10.1016/0261-2194(82)90058-8
87322|T||Welch,J.R., K.V. Miller, W.E. Palmer, and T.B. Harrington|Response of Understory Vegetation Important to the Northern Bobwhite Following Imazapyr and Mechanical Treatments|Wildl. Soc. Bull.32(4): 1071-1076|2004|10.2193/0091-7648(2004)032[1071:ROUVIT]2.0.CO;2
87323|T||Torstensson,L., and E. Borjesson|Use of Imazapyr Against Equisetum arvense on Swedish Railway Tracks|Pest Manag. Sci.60(6): 565-569|2004|10.1002/ps.856
87324|A||Stirk,W.A., M.E. Aken, and J. Van Staden|Apical Control of Growth in a Filamentous Red Alga (Ceramiaceae, Rhodophyta)|S. Afr. J. Bot.63(5): 267-270|1997|10.1016/S0254-6299(15)30765-1
87326|T||Vassil,A.D., Y. Kapulnik, I. Raskin, and D.E. Salt|The Role of EDTA in Lead Transport and Accumulation by Indian Mustard|Plant Physiol.117(2): 447-453|1998|10.1104/pp.117.2.447
87327|T||Zagury,G.J., C.M. Neculita, C. Bastien, and L. Deschenes|Mercury Fractionation, Bioavailability, and Ecotoxicity in Highly Contaminated Soils from Chlor-Alkali Plants|Environ. Toxicol. Chem.25(4): 1138-1147|2006|10.1897/05-302R.1
87328|A||Chang,C.C., P.P. Lee, J.P. Hsu, S.P. Yeh, and W. Cheng|Survival, and Biochemical, Physiological, and Histopathological Responses of the Giant Freshwater Prawn, Macrobrachium rosenbergii, to Short-Term Trichlorfon Exposure|Aquaculture253(1-4): 653-666|2006|10.1016/j.aquaculture.2005.05.011
87329|T||Celen,A.E., R. Avcioglu, H. Geren, and A. Uzun|Herbage Yield of Persian Clover (Trifolium resupinatum L.) as Affected by Row Distance and Herbicide Application|Crop Prot.25(5): 496-500|2006|10.1016/j.cropro.2005.08.006
87330|A||Cho,Y.S., B.N. Choi, K.H. Kim, S.K. Kim, D.S. Kim, I.C. Bang, and Y.K. Nam|Differential Expression of Cu/Zn Superoxide Dismutase mRNA During Exposures to Heavy Metals in Rockbream (Oplegnathus fasciatus)|Aquaculture253(1-4): 667-679|2006|10.1016/j.aquaculture.2005.05.047
87331|A||Comoglio,L., O. Amin, A. Roque, M. Betancourt-Lozano, D. Anguas, and B.M. Haro|Evaluation of Sublethal Biomarkers in Litopenaeus vannamei on Foodborne Exposure to Methyl Parathion|Ecotoxicol. Environ. Saf.62(1): 66-74|2005|10.1016/j.ecoenv.2004.10.006
87332|T||Cutler,G.C., J.H. Tolman, C.D. Scott-Dupree, and C.R. Harris|Resistance Potential of Colorado Potato Beetle (Coleoptera: Chrysomelidae) to Novaluron|J. Econ. Entomol.98(5): 1685-1693|2005|10.1093/jee/98.5.1685
87333|T||Harada,H., T. Kuromori, T. Hirayama, K. Shinozaki, and R.A. Leigh|Quantitative Trait Loci Analysis of Nitrate Storage in Arabidopsis Leading to an Investigation of the Contribution of the Anion Channel Gene, AtCLC-c, to Variation in Nitrate Levels|J. Exp. Bot.55(405): 2005-2014|2004|10.1093/jxb/erh224
87334|A||Caquet,T., L. Deydier-Stephan, G. Lacroix, B. Le Rouzic, and F. Lescher-Moutoue|Effects of Fomesafen, Alone and in Combination with an Adjuvant, on Plankton Communities in Freshwater Outdoor Pond Mesocosms|Environ. Toxicol. Chem.24(5): 1116-1124|2005|10.1897/04-228R.1
87335|T||Buyukguzel,K.|Malathion-Induced Oxidative Stress in a Parasitoid Wasp:  Effect on Adult Emergence, Longevity, Fecundity, and Oxidative and Antioxidative Response of Pimpla turionellae (Hymenoptera:  Ichneumonidae)|J. Econ. Entomol.99(4): 1225-1234|2006|10.1093/jee/99.4.1225
87336|T||Boetel,M.A., B.W. Fuller, and P.D. Evenson|Emergence of Adult Northern and Western Corn Rootworms (Coleoptera: Chrysomelidae) Following Reduced Soil Insecticide Applications|J. Econ. Entomol.96(3): 714-729|2003|10.1093/jee/96.3.714
87337|T||Binet,F., A. Kersante, C. Munier-Lamy, R.C. Le Bayon, M.J. Belgy, and M.J. Shipitalo|Lumbricid Macrofauna Alter Atrazine Mineralization and Sorption in a Silt Loam Soil|Soil Biol. Biochem.38(6): 1255-1263|2006|10.1016/j.soilbio.2005.09.018
87344|T||Gupta,R.C., D. Milatovic, and W.D. Dettbarn|Depletion of Energy Metabolites Following Acetylcholinesterase Inhibitor-Induced Status Epilepticus:  Protection by Antioxidants|Neurotoxicology22(2): 271-282|2001|10.1016/S0161-813X(01)00013-4
87345|A||Harrington,L., K. Fabricius, G. Eaglesham, and A. Negri|Synergistic Effects of Diuron and Sedimentation on Photosynthesis and Survival of Crustose Coralline Algae|Mar. Pollut. Bull.51(1-4): 415-427|2005|10.1016/j.marpolbul.2004.10.042
87346|T||Hsu,C.H., B.C. Chi, M.Y. Liu, J.H. Li, C.J. Chen, and R.Y. Chen|Phosphine-Induced Oxidative Damage in Rats: Role of Glutathione|Toxicology179(1/2): 1-8|2002|10.1016/S0300-483X(02)00246-9
87347|T||Hu,Q., J. Xu, and L. Chen|Antimutagenicity of Selenium-Enriched Rice on Mice Exposure to Cyclophosphamide and Mitomycin C|Cancer Lett.220(1): 29-35|2005|10.1016/j.canlet.2004.06.041
87348|T||Chung,T.K., J.W. Erdman, and D.H. Baker|Hydrated Sodium Calcium Aluminosilicate:  Effects on Zinc, Manganese, Vitamin A, and Riboflavin Utilization.|Poult. Sci.69(8): 1364-1370|1990|10.3382/ps.0691364
87349|T||Johnston,J.J., D.L. Nolte, B.A. Kimball, K.R. Perry, and J.C. Hurley|Increasing Acceptance and Efficacy of Zinc Phosphide Rodenticide Baits via Modification of the Carbohydrate Profile|Crop Prot.24(4): 381-385|2005|10.1016/j.cropro.2004.09.006
87350|T||Institoris,L., A. Papp, O. Siroki, B.D. Banerjee, and I. Desi|Immuno- and Neurotoxicological Investigation of Combined Subacute Exposure with the Carbamate Pesticide Propoxur and Cadmium in Rats|Toxicology178(2): 161-173|2002|10.1016/S0300-483X(02)00239-1
87351|T||Jeon,S.D., J.S. Lim, and C.K. Moon|Carbofuran Suppresses T-Cell-Mediated Immune Responses by the Suppression of T-Cell Responsiveness, the Differential Inhibition of Cytokine Production, and NO Production in Macrophages|Toxicol. Lett.119(2): 143-155|2001|10.1016/S0378-4274(00)00307-6
87352|T||Jewell,W.T., R.A. Hess, and M.G. Miller|Testicular Toxicity of Molinate in the Rat:  Metabolic Activation via Sulfoxidation|Toxicol. Appl. Pharmacol.149(2): 159-166|1998|10.1006/taap.1998.8380
87353|T||Jia,X., N. Li, and J. Chen|A Subchronic Toxicity Study of Elemental Nano-Se in Sprague-Dawley Rats|Life Sci.76(17): 1989-2003|2005|10.1016/j.lfs.2004.09.026
87354|T||Kiray,M., N. Uysal, A. Sonmez, O. Acikgoz, and S. Gonenc|Positive Effects of Deprenyl and Estradiol on Spatial Memory and Oxidant Stress in Aged Female Rat Brains|Neurosci. Lett.354(3): 225-228|2004|10.1016/j.neulet.2003.10.019
87355|T||Larsen,M., A.S. Ucisik, and S. Trapp|Uptake, Metabolism, Accumulation and Toxicity of Cyanide in Willow Trees|Environ. Sci. Technol.39(7): 2135-2142|2005|10.1021/es048799s
87356|T||Seljasen,R., and R. Meadow|Effects of Neem on Oviposition and Egg and Larval Development of Mamestra brassicae L:  Dose Response, Residual Activity, Repellent Effect and Systemic Activity in Cabbage Plants|Crop Prot.25(4): 338-345|2006|10.1016/j.cropro.2005.05.007
87357|T||Selzsam,B., K. Grote, C. Gericke, L. Niemann, W. Wittfoht, and I. Chahoud|Effects of Methyltestosterone on Reproduction in the Japanese Quail (Coturnix coturnix japonica)|Environ. Res.99(3): 327-334|2005|10.1016/j.envres.2005.04.001
87358|T||Sharma,N.C., S.V. Sahi, J.C. Jain, and K.G. Raghothama|Enhanced Accumulation of Phosphate by Lolium multiflorum Cultivars Grown in Phosphate-Enriched Medium|Environ. Sci. Technol.38:2443-2448|2004|10.1021/es030466s
87359|A||Teplitsky,C., H. Piha, A. Laurila, and J. Merila|Common Pesticide Increases Costs of Antipredator Defenses in Rana temporaria Tadpoles|Environ. Sci. Technol.39(16): 6079-6085|2005|10.1021/es050127u
87360|A||Tilton,S.C., S.A. Givan, C.B. Pereira, G.S. Bailey, and D.E. Williams|Toxicogenomic Profiling of the Hepatic Tumor Promoters Indole-3-Carbinol, 17beta-Estradiol and beta-Naphthoflavone in Rainbow Trout|Toxicol. Sci.90(1): 61-72|2006|10.1093/toxsci/kfi341
87361|T||Wei,S., Q. Zhou, and X. Wang|Identification of Weed Plants Excluding the Uptake of Heavy Metals|Environ. Int.31(6): 829-834|2005|10.1016/j.envint.2005.05.045
87362|T||Reimann,S., and H.B. Deising|Inhibition of Efflux Transporter-Mediated Fungicide Resistance in Pyrenophora tritici-repentis by a Derivative of 4'-Hydroxyflavone and Enhancement of Fungicide Activity|Appl. Environ. Microbiol.71(6): 3269-3275|2005|10.1128/AEM.71.6.3269-3275.2005
87363|A||Saxena,K.K., and P. Gupta|Pyrethroids Induced Toxicity to Muscle Glycogen Contents in Channa punctatus (Bl.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.75(2): 103-106|2005|
87364|A||Adachi,A., K. Matsushita, Y. Yata, and T. Okano|Effect of Rice Bran on the Growth Inhibition of Selenastrum capricornutum by Chlorine and Monochloramine|J. Health Sci.50:613-618|2004|10.1248/jhs.50.613
87365|T||Cenesiz,S., A. Ozcan, N. Kaya, N. Baysu, and A.B. Karabulut|Chronic Effects of Fluoride in Tuj Sheep on Serum Levels of Total Protein, Albumin, Uric Acid, and Nitric Oxide and Activities of Lactate Dehydrogenase and Leucine Aminopeptidase|Fluoride38(1): 52-56|2005|
87366|T||Broadhurst,C.L., R.L. Chaney, J.S. Angle, E.F. Erbe, and T.K. Maugel|Nickel Localization and Response to Increasing Ni Soil Levels in Leaves of the Ni Hyperaccumulator Alyssum murale|Plant Soil265:225-242|2004|10.1007/s11104-005-0974-8
87367|T||Gooneratne,S.R., and J.M. Howell|Selenium in Copper Toxicity in Sheep|In: Proceedings of the International Symposium on Trace Elements in Man and Animals:468-470|1982|
87368|T||Yamaguchi,H., N.K. Nishizawa, H. Nakanishi, and S. Mori|IDI7, a New Iron-Regulated ABC Transporter from Barley Roots, Localizes to the Tonoplast|J. Exp. Bot.53(369): 727-735|2002|10.1093/jexbot/53.369.727
87369|T||Voigt,A., W.H. Hendershot, and G.I. Sunahara|Rhizotoxicity of Cadmium and Copper in Soil Extracts|Environ. Toxicol. Chem.25(3): 692-701|2006|10.1897/04-619R.1
87370|T||Zdunek-Zastocka,E., R.T. Omarov, T. Koshiba, and H.S. Lips|Activity and Protein Level of AO Isoforms in Pea Plants (Pisum sativum L.) During Vegetative Development and in Response to Stress Conditions|J. Exp. Bot.55(401): 1361-1369|2004|10.1093/jxb/erh134
87371|T||Rhone Poulenc Inc.|Initial Submission:  Acute Toxicity Studies of Silver Wyte (Co Bleach) in Rats and Rabbits with Cover Letter Dated 10/16/92|EPA/OTS Doc.#88-920010660:21 p.|1992|
87373|T||Peterson,F.J., G.F.,Jr. Combs, J.L. Holtzman, and R.P. Mason|Effect of Selenium and Vitamin E Deficiency on Nitrofurantoin Toxicity in the Chick|J. Nutr.112(9): 1741-1746|1982|10.1093/jn/112.9.1741
87374|T||Isgrigg III,J., F.H. Yelverton, C. Brownie, and L.S.,Jr. Warren|Dinitroaniline Resistant Annual Bluegrass in North Carolina|Weed Sci.50(1): 86-90|2002|10.1614/0043-1745(2002)050[0086:DRABIN]2.0.CO;2
87375|T||Kutcher,H.R., and T.M. Wolf|Low-Drift Fungicide Application Technology for Sclerotinia Stem Rot Control in Canola|Crop Prot.25(7): 640-646|2006|10.1016/j.cropro.2005.09.003
87376|T||Liburd,O.E., T.C. Holler, and A.L. Moses|Toxicity of Imidacloprid-Treated Spheres to Caribbean Fruit Fly, Anastrepha suspensa (Diptera: Tephritidae) and Its Parasitoid Diachasmimorpha longicaudata (Hymenoptera: Braconidae) in the Laboratory|J. Econ. Entomol.97(2): 525-529|2004|10.1603/0022-0493-97.2.525
87378|T||Kubota,S., Y. Shono, T. Matsunaga, and K. Tsunoda|Laboratory Evaluation of Bistrifluron, a Benzoylphenylurea Compound, as a Bait Toxicant Against Coptotermes formosanus (Isoptera:  Rhinotermitidae)|J. Econ. Entomol.99(4): 1363-1368|2006|10.1093/jee/99.4.1363
87379|T||Requis,J., and R.A. Culvenor|Progress in Improving Aluminium Tolerance in the Perennial Grass, Phalaris|Euphytica 139:9-18|2004|10.1007/s10681-004-4043-9
87380|T||St.Clair,S.B., and J.P. Lynch|Element Accumulation Patterns of Deciduous and Evergreen Tree Seedlings on Acid Soils:  Implications for Sensitivity to Manganese Toxicity|Tree Physiol.25(1): 85-92|2005|10.1093/treephys/25.1.85
87381|T||Brattsten,L.B., and R.L. Metcalf|Age-Dependent Variations in the Response of Several Species of Diptera to Insecticidal Chemicals|Pestic. Biochem. Physiol.3(2): 189-198|1973|10.1016/0048-3575(73)90103-X
87382|T||Armstrong,T.F., W.F. Meggitt, and D. Penner|Absorption, Translocation, and Metabolism of Alachlor by Yellow Nutsedge|Weed Sci.21(4): 357-360|1973|10.1017/S0043174500027181
87383|T||Stewart,D.K.R.|Chlordane Uptake from Soil by Root Crops|Environ. Entomol.4(2): 254-256|1975|10.1093/ee/4.2.254
87384|T||Konjufca,V.H., G.M. Pesti, and R.I. Bakalli|Modulation of Cholesterol Levels in Broiler Meat by Dietary Garlic and Copper|Poult. Sci.76:1264-1271|1997|10.1093/ps/76.9.1264
87385|T||Van Scholl,L., W.G. Keltjens, E. Hoffland, and N. Van Breemen|Effect of Ectomycorrhizal Colonization on the Uptake of Ca, Mg and Al by Pinus sylvestris Under Aluminium Toxicity|For. Ecol. Manag.215:352-360|2005|10.1016/j.foreco.2005.05.025
87386|T||Zhou,D.M., Y. Xue, X.H. Liu, X.Z. Hao, H.M. Chen, Z.G. Shen, and Y.B. Si|Responses of Different Pakchoi (Brassica chinensis L.) Cultivars to Cu Toxicity|Pedosphere15(1): 9-15|2005|
87387|T||Chen,R.R., R. Yin, X.G. Lin, and Z.H. Cao|Effect of Arbuscular Mycorrhizal Inoculation on Plant Growth and Phthalic Ester Degradation in Two Contaminated Soils|Pedosphere15:263-269|2005|
87388|T||Negishi,T., K. Kawasaki, S. Suzaki, H. Maeda, Y. Ishii, S. Kyuwa, Y. Kuroda, and Y. Yoshikawa|Behavioral Alterations in Response to Fear-Provoking Stimuli and Tranylcypromine Induced by Perinatal Exposure to Bisphenol A and Nonylphenol in Male Rats|Environ. Health Perspect.112(11): 1159-1164|2004|10.1289/ehp.6961
87389|T||Raguraman,S., and R.P. Singh|Biological Effects of Neem (Azadirachta indica) Seed Oil on an Egg Parasitoid, Trichogramma chilonis|J. Econ. Entomol.92(6): 1274-1280|1999|10.1093/jee/92.6.1274
87390|T||Lin,C.C., L.M. Chen, and Z.H. Liu|Rapid Effect of Copper on Lignin Biosynthesis in Soybean Roots|Plant Sci.168:855-861|2005|10.1016/j.plantsci.2004.10.023
87391|T||Hardman,J.M., K.I.N. Jensen, D.L. Moreau, J.L. Franklin, and E.D. Bent|Effects of Ground Cover Treatments and Insecticide Use on Population Density and Damage Caused by Lygus lineolaris (Heteroptera: Miridae) in Apple Orchards|J. Econ. Entomol.97(3): 993-1002|2004|10.1603/0022-0493(2004)097[0993:EOGCTA]2.0.CO;2
87392|T||Fukushima,T., T. Yamamoto, R. Kikkawa, Y. Hamada, M. Komiyama, C. Mori, and I. Horii|Effects of Male Reproductive Toxicants on Gene Expression in Rat Testes|J. Toxicol. Sci.30(3): 195-206|2005|10.2131/jts.30.195
87393|T||Musser,F.R., and A.M. Shelton|Bt Sweet Corn and Selective Insecticides:  Impacts on Pests and Predators|J. Econ. Entomol.96(1): 71-80|2003|10.1093/jee/96.1.71
87394|T||Nowak,J.T., K.W. McCravy, C.J. Fettig, and C.W. Berisford|Susceptibility of Adult Hymenopteran Parasitoids of the Nantucket Pine Tip Moth (Lepidoptera:  Tortricidae) to Broad-Spectrum and Biorational Insecticides in a Laboratory Study|J. Econ. Entomol.94(5): 1122-1129|2001|10.1603/0022-0493-94.5.1122
87395|A||Orvoine,J., L. Hare, and A. Tessier|Competition Between Protons and Cadmium Ions in the Planktonic Food Chain Leading to the Phantom Midge Chaoborus|Limnol. Oceanogr.51(2): 1013-1020|2006|10.4319/lo.2006.51.2.1013
87396|T||Qasem,J.R.|Chemical Weed Control in Seedbed Sown Onion (Allium cepa L.)|Crop Prot.25(6): 618-622|2006|10.1016/j.cropro.2005.09.008
87397|T||Huang,Y., S.H. Ho, and R.M. Kini|Bioactivities of Safrole and Isosafrole on Sitophilus zeamais (Coleoptera: Curculionidae) and Tribolium castaneum (Coleoptera: Tenebrionidae)|J. Econ. Entomol.92(3): 676-683|1999|10.1093/jee/92.3.676
87398|A||Hubert,T.D., J.A. Bernardy, C. Vue, V.K. Dawson, M.A. Boogaard, T.M. Schreier, and W.H. Gingerich|Residues of the Lampricides 3-Trifluoromethyl-4-Nitrophenol and Niclosamide in Muscle Tissue of Rainbow Trout|J. Agric. Food Chem.53(13): 5342-5346|2005|10.1021/jf050156o
87399|T||Jinfu,W., and L. Shaohong|Esterase Activity and Organophosphate Resistance in Culex pipiens pallens (Diptera: Culicidae) Populations in Zhejiang|J. Econ. Entomol.92(1): 176-179|1999|10.1093/jee/92.1.176
87400|T||Johnson,R.M., Z. Wen, M.A. Schuler, and M.R. Berenbaum|Mediation of Pyrethroid Insecticide Toxicity to Honey Bees (Hymenopera:  Apidae) by Cytochrome P450 Monooxygenases|J. Econ. Entomol.99(4): 1046-1050|2006|10.1093/jee/99.4.1046
87401|A||Jung,J.H., J.K. Jeon, and C.H. Han|Effects of 2,2'4,4'5,5'-Hexachlorobiphenyl (PCB 153) on Plasma Sex Steroids and Vitellogenin in Rockfish (Sebastes schlegeli)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(3-4): 295-299|2005|10.1016/j.cca.2005.02.014
87402|T||Karr,L.L., J.J. Sheets, J.E. King, and J.E. Dripps|Laboratory Performance and Pharmacokinetics of the Benzoylphenylurea Noviflumuron in Eastern Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.97(2): 593-600|2004|10.1093/jee/97.2.593
87403|T||Koger,C.H., T.W. Walker, and L.J. Krutz|Response of Three Rice (Oryza sativa) Cultivars to Pendimethalin Application, Planting Depth, and Rainfall|Crop Prot.25(7): 684-689|2006|10.1016/j.cropro.2005.09.012
87404|T||Van Staden,J., S.G. Sparg, M.G. Kulkarni, and M.E. Light|Post-ermination Effects of the Smoke-Derived Compound 3-Methyl-2H-Furo[2,3-c]pyran-2-One, and Its Potential as a Preconditioning Agent|Field Crops Res.98(2/3): 98-105|2006|10.1016/j.fcr.2005.12.007
87405|T||Saber,M., M.J. Hejazi, and S.A. Hassan|Effects of Azadirachtin/Neemazal on Different Stages and Adult Life Table Parameters of Trichogramma cacoeciae (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.97(3): 905-910|2004|10.1603/0022-0493(2004)097[0905:EONODS]2.0.CO;2
87406|T||Koschnick,T.J., W.T. Haller, and A.M. Fox|Turf and Ornamental Plant Tolerances to Endothall in Irrigation Water II. Turf Species|HortTechnology15(2): 324-329|2005|10.21273/HORTTECH.15.2.0324
87407|T||Koschnick,T.J., W.T. Haller, and G.E. MacDonald|Turf and Ornamental Plant Tolerances to Endothall in Irrigation Water I. Ornamental Species|HortTechnology15(2): 318-323|2005|10.21273/HORTTECH.15.2.0318
87408|A||Sastre,M.P., E. Collado, G. Collazo, S. Lebron, L. Mena, S. Morales, R. Muller, L. Perez, P. Rivera, and Y. Velez|DNA Damage in the Caribbean Mussel Brachiodontes exustus:  A Comet Assay Evaluation|Bull. Mar. Sci.77(1): 73-81|2005|
87409|T||Hagan,A.K., M.E. Rivas-Davila, J.R. Akridge, and J.W. Olive|Resistance of Shrub and Groundcover Roses to Black Spot and Cercospora Leaf Spot, and Impact of Fungicide Inputs on the Severity of Both Diseases|J. Environ. Hortic.23(2): 77-85|2005|10.24266/0738-2898-23.2.77
87410|T||Koo,S.J., H. Kuramochi, and S.H. Chae|Herbicidal Efficacy and Selectivity of Pyribenzoxim in Turfgrasses|Weed Biol. Manag.6(2): 96-101|2006|10.1111/j.1445-6664.2006.00204.x
87411|AT||Hwang,I.T., H.R. Kim, J.S. Choi, D.J. Jeon, K.S. Hong, J.H. Song, and K.Y. Cho|Synthesis and Herbicidal Activity of New 3-(3-Bromothiophen-2-yl)-5-(2,6- Difluorobenzyl)oxymethyl-5-Methyl-4,5-Dihydroisoxazole as a Paddy Field Herbicide|Weed Biol. Manag.6(2): 102-106|2006|10.1111/j.1445-6664.2006.00205.x
87412|T||Riba-Bosch,A., and J. Perez-Clausell|Response to Kainic Acid Injections: Changes in Staining for Zinc, FOS, Cell Death and Glial Response in the Rat Forebrain|Neuroscience125(3): 803-818|2004|10.1016/j.neuroscience.2004.02.017
87413|T||Saxena,G., U. Pathak, and S.J.S. Flora|Beneficial Role of Monoesters of Meso-2,3-Dimercaptosuccinic Acid in the Mobilization of Lead and Recovery of Tissue Oxidative Injury in Rats|Toxicology214(1-2): 39-56|2005|10.1016/j.tox.2005.05.026
87414|T||Sharma,N.C., J.L. Gardea-Torresdey, J. Parsons, and S.V. Sahi|Chemical Speciation and Cellular Deposition of Lead in Sesbania drummondii|Environ. Toxicol. Chem.23(9): 2068-2073|2004|10.1897/03-540
87415|T||Sidhu,P., M.L. Garg, and D.K. Dhawan|Protective Role of Zinc in Nickel Induced Hepatotoxicity in Rats|Chem.-Biol. Interact.150(2): 199-209|2004|10.1016/j.cbi.2004.09.012
87416|T||Tani,F.H., and S. Barrington|Zinc and Copper Uptake by Plants Under Two Transpiration Rates. Part II. Buckwheat (Fagopyrum esculentum L.)|Environ. Pollut.138(3): 548-558|2005|10.1016/j.envpol.2004.06.004
87417|T||Trevisan,A., M. Borella-Venturini, L. Di Marco, A. Fabrello, M. Giraldo, E. Zanetti, C. Marzano, and D. Fregona|Erythrocyte Aminolevulinic Acid Dehydratase Inhibition by cis-platin|Toxicol. Lett.152(2): 105-110|2004|
87418|T||Waalkes,M.P., J. Liu, R.A. Goyer, and B.A. Diwan|Metallothionein-I/II Double Knockout Mice are Hypersensitive to Lead-Induced Kidney Carcinogenesis:  Role of Inclusion Body Formation|Cancer Res.64(21): 7766-7772|2004|10.1158/0008-5472.CAN-04-2220
87419|T||Zhou,M., and J.B. Suszkiw|Nicotine Attenuates Spatial Learning Deficits Induced in the Rat by Perinatal Lead Exposure|Brain Res.999(1): 142-147|2004|10.1016/j.brainres.2003.10.068
87420|T||Mao,L., G. Henderson, W.J. Bourgeois, J.A. Vaughn, and R.A. Laine|Vetiver Oil and Nootkatone Effects on the Growth of Pea and Citrus|Ind. Crops Prod.23(3): 327-332|2006|10.1016/j.indcrop.2005.09.004
87421|T||Gore,J.C., and C. Schal|Laboratory Evaluation of Boric Acid-Sugar Solutions as Baits for Management of German Cockroach Infestations|J. Econ. Entomol.97(2): 581-587|2004|10.1093/jee/97.2.581
87422|T||Westigard,P.H.|The Biology of and Effect of Pesticides on Deraeocoris brevis piceatus (Heteroptera:  Miridae)|Can. Entomol.105(8): 1105-1111|1973|10.4039/Ent1051105-8
87423|T||Keil,J.E., C.B. Loadholt, S.H. Sandifer, W.R. Sitterly, and B.L. Brown|Decay of Parathion Residues on Field-Treated Tobacco, South Carolina - 1972 (II)|Pestic. Monit. J.6(4): 377-378|1973|
87424|T||Koinzan,S.D., and K.P. Pruess|Effects of a Wide-Area Application of ULV Malathion on Leafhoppers in Alfalfa|J. Econ. Entomol.68(2): 267-268|1975|10.1093/jee/68.2.267
87425|T||Stewart,D.K.R., and K.G. Cairns|Endosulfan Persistence in Soil and Uptake by Potato Tubers|J. Agric. Food Chem.22(6): 984-986|1974|10.1021/jf60196a008
87426|T||Conway,D.P., G.F. Mathis, and M. Lang|The Use of Diclazuril in Extended Withdrawal Anticoccidial Programs:  2.  Immunity to Eimeria tenella Challenge After Drug Withdrawal|Poult. Sci.81:353-355|2002|10.1093/ps/81.3.353
87427|T||Conway,D.P., G.F. Mathis, J. Johnson, M. Schwartz, and C. Baldwin|Efficacy of Diclazuril in Comparison with Chemical and Ionophorous Anticoccidials Against Eimeria spp. in Broiler Chickens in Floor Pens|Poult. Sci.80:426-430|2001|10.1093/ps/80.4.426
87428|T||Conway,D.P., G.F. Mathis, and M. Lang|The Use of Diclazuril in Extended Withdrawal Anticoccidial Programs:  1.  Efficacy Against Eimeria spp. in Broiler Chickens in Floor Pen|Poult. Sci.81:349-352|2002|10.1093/ps/81.3.349
87429|T||Rozenboim,I., T. Aharony, and S. Yahav|The Effect of Melatonin Administration on Circulating Plasma Luteinizing Hormone Concentration in Castrated White Leghorn Roosters|Poult. Sci.81:1354-1359|2002|10.1093/ps/81.9.1354
87430|T||Brake,J., P.B. Hamilton, and R.S. Kittrell|Effects of the Tricothecene Mycotoxin Diacetoxyscirpenol on Egg Production of Broiler Breeders|Poult. Sci.81:1807-1810|2002|10.1093/ps/81.12.1807
87431|T||Snyman,R.G., A.J. Reinecke, and S.A. Reinecke|Changes in Oocyte Numbers in the Ovotestis of Helix aspersa, After Experimental Exposure to the Fungicide Copper Oxychloride|Bull. Environ. Contam. Toxicol.73(2): 398-403|2004|10.1007/s00128-004-0442-9
87432|A||Kader,A.A., B.B. Mostafa, F.M.A. Ragab, K.M. El-Said, A.A. Tantawy, and H.M.M. El-Khayat|Influence of Some Natural and Synthetic Substances on Certain Fresh Water Organisms and the Snail Vectors of Schistosomiasis and Fascioliasis|Egypt. J. Schistosomiassis Endemic Infect. Dis.25:53-65|2003|
87433|T||Rahman,M., and P. Parkpian|Distribution of Arsenic in Kangkong (Ipomoea reptans)|ScienceAsia30:255-259|2004|10.2306/scienceasia1513-1874.2004.30.255
87434|A||Aksorn,E., and P. Visoottiviseth|Selection of Suitable Emergent Plants for Removal of Arsenic from Arsenic Contaminated Water|ScienceAsia30:105-113|2004|10.2306/scienceasia1513-1874.2004.30.105
87435|T||Warzok,R., R. Thust, J. Mendel, C. Herbst, and C. Eismann|The Influence of Sodium Selenite on Tumor Induction by Methylnitrosourea (MMU) in Rats|Arch. Geschwulstforsch.51(6): 503-508|1981|
87436|A||Kaur,R., M.S. Johal, and G.S. Sandhu|Histological Changes in the Branchial Architecture of Heteropneustes Fossilis Induced by Fenvalerate, a Synthetic Pyrethroid|Indian J. Anim. Sci.75(10): 1159-1162|2005|
87437|T||Nation,J.R., D.K. Miller, and C.L. Livermore|Chronic Exposure to Cadmium Attenuates Behavioral Sensitization to Morphine|Psychopharmacology131(3): 248-254|1997|10.1007/s002130050290
87438|T||Iqbal,M.Z., and Y. Shazia|Reduction of Germination and Seedling Growth of Leucaena leucocephala Caused by Lead and Cadmium Individually and in Combinations|Ekologia (Bratisl.)23(2): 162-168|2004|
87439|T||Paul,A., M. Hauck, and R. Langenfeld-Heyser|Ultrastructural Changes in Soredia of the Epiphytic Lichen Hypogymnia physodes Cultivated with Manganese|Environ. Exp. Bot.52:139-147|2004|10.1016/j.envexpbot.2003.01.001
87441|T||Liu,D., Y. Li, L. Chu, G. Wang, and L. Wang|Study of the Tolerance of Hippochaete ramosissimum to Cu Stress|Sci. China Ser. C, Life Sci.48(suppl. 1): 150-155|2005|10.1007/BF02889813
87442|T||Poynton,C.Y., J.W. Huang, M.J. Blaylock, L.V. Kochian, and M.P. Elless|Mechanisms of Arsenic Hyperaccumulation in Pteris Species:  Root as Influx and Translocation|Planta (Multiple Languages)219:1080-1088|2004|10.1007/s00425-004-1304-8
87443|T||Dugravot,S., E. Thibout, A. Bo-Ghalia, and J. Huignard|How a Specialist and a Non-specialist Insect Cope with Dimethyl Disulfide Produced by Allium porrum|Entomol. Exp. Appl.113:173-179|2004|10.1111/j.0013-8703.2004.00216.x
87445|T||Ylaranta,T.|Effect of Liming and Sulphate on the Selenium Content of Italian Rye Grass (Lolium multiflorum) [Field and Pot Trials, Finland]|Ann. Agric. Fenn.22(3): 152-163|1983|
87446|T||MacDonald,D.W., R.G. Christian, K.I. Strausz, and J. Roff|Acute Selenium Toxicity in Neonatal Calves|Can. Vet. J.22(9): 279-281|1981|
87447|T||Chan,M.P.L., S. Morisawa, A. Nakayama, Y. Kawamoto, M. Sugimoto, and M. Yoneda|Toxicokinetics of 14C-Endosulfan in Male Sprague-Dawley Rats Following Oral Administration of Single or Repeated Doses|Environ. Toxicol.20(5): 533-541|2005|10.1002/tox.20142
87448|A||Kristoff,G., N.V. Guerrero, A.M.P. De d'Angelo, and A.C. Cochon|Inhibition of Cholinesterase Activity by Azinphos-Methyl in Two Freshwater Invertebrates:  Biomphalaria glabrata and Lumbriculus variegatus|Toxicology222(3): 185-194|2006|10.1016/j.tox.2006.02.018
87449|A||Oruc,E.O., and N. Uner|Effects of Azinphosmethyl on Some Biochemical Parameters in Blood, Muscle, and Liver Tissues of Cyprinus carpio (L.)|Pestic. Biochem. Physiol.62(1): 65-71|1998|10.1006/pest.1998.2367
87450|T||Durda,J.L., R.A. Powell, and G.T. Barthalmus|Physiological and Behavioral Effects of Guthion on Pine Voles, Microtus pinetorum|Bull. Environ. Contam. Toxicol.43(1): 80-86|1989|10.1007/BF01702241
87451|T||Degraeve,N., M.C. Chollet, and J. Moutschen|Mutagenic Efficiency of Organophosphorus Insecticides Used in Combined Treatments|Environ. Health Perspect.60:395-398|1985|10.1289/ehp.8560395
87452|T||Sheets,L.P., B.F. Hamilton, G.K. Sangha, and J.H. Thyssen|Subchronic Neurotoxicity Screening Studies with Six Organophosphate Insecticides:  An Assessment of Behavior and Morphology Relative to Cholinesterase Inhibition|Fundam. Appl. Toxicol.35(1): 101-119|1997|10.1006/faat.1996.2269
87453|T||Levine,B.S., and S.D. Murphy|Esterase Inhibition and Reactivation in Relation to Piperonyl Butoxide-Phosphorothionate Interactions|Toxicol. Appl. Pharmacol.40(3): 379-391|1977|10.1016/0041-008X(77)90066-7
87454|A||Davies,P.E., and R.W.G. White|The Toxicology and Metabolism of Chlorothalonil in Fish.  I.  Lethal Levels for Salmo gairdneri, Galaxias maculatus, G. truttaceus and G. auratus and the Fate of 14C-TCIN in S. gairdneri|Aquat. Toxicol.7(1/2): 93-105|1985|10.1016/0166-445X(85)90038-4
87455|T||Rattner,B.A., and S.D. Michael|Organophosphorus Insecticide Induced Decrease in Plasma Luteinizing Hormone Concentration in White-Footed Mice|Toxicol. Lett.24(1): 65-69|1985|10.1016/0378-4274(85)90141-9
87456|T||Singh,A.K., and L.R. Drewes|Neurotoxic Effects of Low-Level Chronic Acephate Exposure in Rats|Environ. Res.43(2): 342-349|1987|10.1016/S0013-9351(87)80034-8
87457|T||Jett,D.A., J.D. Nichols, and J.E. Hines|Effect of Orthene on an Unconfined Population of the Meadow Vole (Microtus pennsylvanicus)|Can. J. Zool.64(1): 243-250|1986|10.1139/z86-038
87458|T||Koizumi,A., L. McCloud, and T. Imamura|Increased Resorption of Embryos in O,O,S-Trimethyl Phosphorothioate-Treated Rats|Toxicol. Lett.32(3): 185-194|1986|10.1016/0378-4274(86)90106-2
87459|T||Gertsch,M.E.|The Influence of Various Carriers Upon the Inhibitory Effectiveness of 2,4-D Sprays|Weeds (Urbana)2:33-42|1953|10.2307/4039997
87460|T||Behera,B.C., and S.P. Bhunya|Studies on the Genotoxicity of Asataf (Acephate), an Organophosphate Insecticide, in a Mammalian In Vivo System|Mutat. Res.223(3): 287-293|1989|10.1016/0165-1218(89)90121-3
87461|T||Springett,J.A., and R.A.J. Gray|Effect of Repeated Low Doses of Biocides on the Earthworm Aporrectodea caliginosa in Laboratory Culture|Soil Biol. Biochem.24(12): 1739-1744|1992|10.1016/0038-0717(92)90180-6
87462|T||Marini,R.P., and J.A. Barden|Incidence of Diseases on Foliage of Nine Apple Genotypes as Influenced by Six Fungicide Treatments|Fruit Var. J.52(3): 136-143|1998|
87463|T||Rathore,B.S., and B.S. Yadav|Effect of Chemical Seed Soaking on Plant Growth and Reproduction of Rotylenchulus reniformis in Cowpea|Indian J. Mycol. Plant Pathol.26(3): 281-283|1996|
87464|T||Prasad,R.T., G.P.V. Reddy, M.M.K. Murthy, and V.D. Prasad|Efficacy and Residues of Certain Newer Insecticides on Okra|Indian J. Plant Prot.21(1): 47-50|1993|
87465|T||Singh,R., and H.S. Sandhu|Acute Toxicity of Acephate and Its Effects on Biochemical Parameters in Buffalo Calves|Indian J. Anim. Sci.69(11): 935-937|1999|
87467|T||Baheti,B.L., and S.M. Yadav|Seed Soaking of Blackgram (Vigna mungo L.) in Pesticides for Control of Root-Knot Nematode, Meloidogyne incognita|Indian J. Mycol. Plant Pathol.23(2): 173-174|1993|
87468|T||Mohan,S., and S.D. Mishra|Management of Meloidogyne incognita Infecting Frenchbean Through Seed Coating with Chemicals|Indian J. Nematol.23(1): 92-94|1993|
87469|T||Srivastava,K.P., and R.K. Bhatnagar|Bird Damage in High Yielding Genotypes of Pigeon Pea and Relative Efficacy of Insecticides in Controlling the Pod Damage|Pesticides 20(2): 50-51|1986|
87470|T||Jena,G.B., and S.P. Bhunya|Mutagenicity of an Organophosphate Insecticide Acephate - an In Vivo Study in Chicks|Mutagenesis9(4): 319-324|1994|10.1093/mutage/9.4.319
87471|T||Farag,A.T., M.H. Eweidah, and A.M. El-Okazy|Reproductive Toxicology of Acephate in Male Mice|Reprod. Toxicol.14(5): 457-462|2000|10.1016/S0890-6238(00)00094-0
87472|T||Farag,A.T., M.H. Eweidah, S.M. Tayel, and A.H. El-Sebae|Developmental Toxicity of Acephate by Gavage in Mice|Reprod. Toxicol.14(3): 241-245|2000|10.1016/S0890-6238(00)00074-5
87473|T||Rahman,M.F., M. Mahboob, K. Danadevi, B.S. Banu, and P. Grover|Assessment of Genotoxic Effects of Chloropyriphos and Acephate by the Comet Assay in Mice Leucocytes|Mutat. Res.516(1-2): 139-147|2002|10.1016/S1383-5718(02)00033-5
87475|T||Stanosz,G.R.|Benomyl and Acephate Applications Increase Survival of Sugar Maple Seedlings During Their First Growing Season in Northern Pennsylvania|Can. J. For. Res.24(6): 1107-1111|1994|10.1139/x94-147
87476|T||Lelis,A.T.|The Loss of Intestinal Flagellates in Termites Exposed to the Juvenile Hormone Analogue (JHA) - Methoprene|Mater. Org.27(3): 171-178|1992|
87477|A||Oshida,P., and D.J. Reish|Effects of Chromium on Reproduction in Polychaetes|In: South.Calif.Coast.Water Res.Proj.Annu.Rep.1975, South.Calif.Coast.Water Res.Proj.Authority, Long Beach, CA:55-60|1975|
87478|A||Schulz,R.|Rainfall-Induced Sediment and Pesticide Input from Orchards into the Lourens River, Western Cape, South Africa:  Importance of a Single Event|Water Res.35(8): 1869-1876|2001|10.1016/S0043-1354(00)00458-9
87481|A||Oyewo,E.O., and K.N. Don-Pedro|Acute Toxicity and Induced Weight Changes in Laboratory Tests with Mn and Cu Against Tilapia guineensis (Dumeril) and Tympanotonus fuscatus (Linne)|J. Environ. Biol.27(2): 327-334|2006|
87482|A||Bhide,M., P. Gupta, M.A. Khan, U. Dubey, P. Thakur, P. Nema, and S. Jain|Morphological and Biochemical Studies on the Different Developmental Stages of a Fresh Water Snail, Lymnaea stagnalis (Lymnaeidae) After Treatment with Some Pesticides|J. Environ. Biol.27(2): 359-366|2006|
87484|A||Satyaparameshwar,K., T.R. Reddy, and N.V. Kumar|Effect of Chromium on Protein Metabolism of Fresh Water Mussel, Lamellidens marginalis|J. Environ. Biol.27(2): 401-403|2006|
87485|A||Mathad,P., V.G. Uttam, and R.D. Mathad|Interactive Effect of Metal Ions over Exponential Growth Period of Microalgal Cells|J. Environ. Biol.27(2): 413-417|2006|
87486|A||Athikesavan,S., S. Vincent, T. Ambrose, and B. Velmurugan|Nickel Induced Histopathological Changes in the Different Tissues of Freshwater Fish, Hypophthalmichthys molitrix (Valenciennes)|J. Environ. Biol.27(2): 391-395|2006|
87487|T||Zengin,F.K.|The Effects of Co2+ and Zn2+ on the Contents of Protein, Abscisic Acid, Proline and Chlorophyll in Bean (Phaseolus vulgaris cv. Strike) Seedlings|J. Environ. Biol.27(2): 441-448|2006|
87488|A||Agrahari,S., K. Gopal, and K.C. Pandey|Biomarkers of Monocrotophos in a Freshwater Fish Channa punctatus (Bloch)|J. Environ. Biol.27(2): 453-457|2006|
87489|T||Flinn,P.W., B. Subramanyam, and F.H. Arthur|Comparison of Aeration and Spinosad for Suppressing Insects in Stored Wheat|J. Econ. Entomol.97(4): 1465-1473|2004|10.1093/jee/97.4.1465
87490|T||Elzen,P.J., G.W. Elzen, and G.E. Lester|Compatibility of an Organically Based Insect Control Program with Honey Bee (Hymenoptera: Apidae) Pollination in Cantaloupes|J. Econ. Entomol.97(5): 1513-1516|2004|10.1603/0022-0493-97.5.1513
87491|T||Eliason,E.A., and D.A. Potter|Impact of Whole-Canopy and Systemic Insecticidal Treatments on Callirhytis cornigera (Hymenoptera: Cynipidae) and Associated Parasitoids on Pin Oak|J. Econ. Entomol.93(1): 165-171|2000|10.1603/0022-0493-93.1.165
87492|T||Di Ilio,V., M. Cristofaro, D. Marchini, P. Nobili, and R. Dallai|Effects of a Neem Compound on the Fecundity and Longevity of Ceratitis capitata (Diptera: Tephritidae)|J. Econ. Entomol.92(1): 76-82|1999|10.1093/jee/92.1.76
87493|T||Desneux,N., X. Fauvergue, F.X. De Chaume-Moncharmont, L. Kerhoas, Y. Ballanger, and L. Kaiser|Diaeretiella rapae Limits Myzus persicae Populations After Applications of Deltamethrin in Oilseed Rape|J. Econ. Entomol.98(1): 9-17|2005|10.1093/jee/98.1.9
87494|T||Davey,R.B., and J.E. George|Efficacy of Coumaphos Applied as a Dip for Control of an Organophosphorus-Resistant Strain of Boophilus microplus (Acari:  Ixodidae) on Cattle|J. Econ. Entomol.92(6): 1384-1391|1999|10.1093/jee/92.6.1384
87495|A||Dabrowski,J.M., A. Bollen, and R. Schulz|Combined Effects of Discharge, Turbidity, and Pesticides on Mayfly Behavior:  Experimental Evaluation of Spray-Drift and Runoff Scenarios|Environ. Toxicol. Chem.24(6): 1395-1402|2005|10.1897/04-222R.1
87496|A||Beketov,M.A., and M. Liess|Acute Contamination with Esfenvalerate and Food Limitation:  Chronic Effects on the Mayfly, Cloeon dipterum|Environ. Toxicol. Chem.24(5): 1281-1286|2005|10.1897/04-256R1.1
87497|T||Barry,J.D., S. Polavarapu, and L.A.F. Teixeira|Evaluation of Traps and Toxicants in an Attract-and-Kill System for Rhagoletis mendax (Diptera: Tephritidae)|J. Econ. Entomol.97(6): 2006-2014|2004|10.1093/jee/97.6.2006
87498|T||Barry,J.D., and S. Polavarapu|Feeding Activity and Attraction of Blueberry Maggot (Diptera: Tephritidae) to Protein Baits, Ammonium Acetate, and Sucrose|J. Econ. Entomol.97(4): 1269-1277|2004|10.1093/jee/97.4.1269
87499|T||Athanassiou,C.G., N.G. Kavallieratos, and N.S. Andris|Insecticidal Effect of Three Diatomaceous Earth Formulations Against Adults of Sitophilus oryzae (Coleoptera:  Curculionidae) and Tribolium confusum (Coleoptera:  Tenebrionidae) on Oat, Rye, and Triticale|J. Econ. Entomol.97(6): 2160-2167|2004|10.1093/jee/97.6.2160
87500|T||Athanassiou,C.G., N.G. Kavallieratos, J.B. Tsakiri, S.N. Xyrafidis, and B.J. Vayias|Effect of Temperature and Humidity on Insecticidal Effect of SilicoSec Against Ephestia kuehniella (Lepidoptera:  Pyralidae) Larvae|J. Econ. Entomol.99(4): 1520-1524|2006|10.1093/jee/99.4.1520
87501|T||Baker,P.B., and D.E. Bellamy|Field and Laboratory Evaluation of Persistence and Bioavailability of Soil Termiticides to Desert Subterranean Termite Heterotermes aureus (Isoptera:  Rhinotermitidae)|J. Econ. Entomol.99(4): 1345-1353|2006|10.1093/jee/99.4.1345
87502|T||Armenta,R., A.M. Martinez, J.W. Chapman, R. Magallanes, D. Goulson, P. Caballero, R.D. Cave, J. Cisneros, J. Valle, V. |Impact of a Nucleopolyhedrovirus Bioinsecticide and Selected Synthetic Insecticides on the Abundance of Insect Natural Enemies on Maize in Southern Mexico|J. Econ. Entomol.96(3): 649-661|2003|10.1093/jee/96.3.649
87503|T||Amarasekare,K.G., and J.V. Edelson|Effect of Temperature on Efficacy of Insecticides to Differential Grasshopper (Orthoptera:  Acrididae)|J. Econ. Entomol.97(5): 1595-1602|2004|10.1603/0022-0493-97.5.1595
87504|T||Ako,M., C. Borgemeister, H.M. Poehling, A. Elbert, and R. Nauen|Effects of Neonicotinoid Insecticides on the Bionomics of Twospotted Spider Mite (Acari: Tetranychidae)|J. Econ. Entomol.97(5): 1587-1594|2004|10.1603/0022-0493-97.5.1587
87505|A||Bauder,M.B., V.P. Palace, and P.V. Hodson|Is Oxidative Stress the Mechanism of Blue Sac Disease in Retene-Exposed Trout Larvae?|Environ. Toxicol. Chem.24(3): 694-702|2005|10.1897/04-23R.1
87506|A||Bielmyer,G.K., D. Gatlin, J.J. Isely, J. Tomasso, and S.J. Klaine|Responses of Hybrid Striped Bass to Waterborne and Dietary Copper in Freshwater and Saltwater|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(1): 131-137|2005|10.1016/j.cca.2005.01.014
87507|A||Braithwaite,R.A., and R.L. Fletcher|The Toxicity of Irgarol 1051 and Sea-Nine 211 to the Non-Target Macroalga Fucus serratus Linnaeus, with the Aid of an Image Capture and Analysis System|J. Exp. Mar. Biol. Ecol.322(2): 111-121|2005|10.1016/j.jembe.2005.01.015
87508|T||Green III,F., and C.A. Clausen|Copper Tolerance of Brown-Rot Fungi:  Oxalic Acid Production in Southern Pine Treated with Arsenic-Free Preservatives|Int. Biodeterior. Biodegrad.56(2): 75-79|2005|10.1016/j.ibiod.2005.04.003
87509|A||Kazlauskiene,N.|Long-Term Effect of Copper on Sea Trout (Salmo trutta trutta L.) in Early Ontogenesis|Ekologija2:65-68|2002|
87510|A||Barsiene,J., V. Dedonyte, A. Rybakovas, L. Andreikenaite, and O.K. Andersen|Induction of Micronuclei in Atlantic Cod (Gadus morhua) and Turbot (Scophthalmus maximus) After Treatment with Bisphenol A, Diallyl Phthalate and Tetrabromodiphenyl Ether-47|Ekologija44:1-7|2005|
87511|T||Munoz,J.J., C. Roca, J.L. Santos, M. Arroyo, and R.E. De Salamanca|Effect of Zinc or S-Adenosyl-l-Methionine on Long Term Administration of low Doses of Lead to Rats|Pharmacol. Toxicol.73(4): 189-191|1993|10.1111/j.1600-0773.1993.tb01562.x
87512|T||Singh,A.K.|Effects of Chronic Low-Level Lead Exposure on mRNA Expression, ADP-Ribosylation and Photoaffinity Labeling with (alpha-phosphorus-32) Guanine Triphosphate-gamma-Azidoanilide of GTP-Binding Proteins in Neurons Isolated f|Biochem. Pharmacol.45(5): 1107-1114|1993|10.1016/0006-2952(93)90255-U
87513|T||Gordon,C.J., and J.P. O'Callaghan|Trimethyltin-Induced Neuropathy in the Rat:  Interaction with Thermoregulation|Neurotoxicology16(2): 319-326|1995|
87514|T||Newberne,P.M., P. Punyarit, J. De Camargo, and V. Suphakarn|The Role of Necrosis in Hepatocellular Proliferation and Liver Tumors|Arch. Toxicol.10:54-67|1987|10.1007/978-3-642-71617-1_5
87515|T||Maeghe,L., E.M. Desmet, and R. Bulcke|Soil Activity and Persistence of Sulcotrione and Mesotrione|Commun. Agric. Appl. Biol. Sci.69(3): 41-48|2004|
87516|A||Dussault,E.B., R.C. Playle, D.G. Dixon, and R.S. McKinley|Effects of Chronic Aluminum Exposure on Swimming and Cardiac Performance in Rainbow Trout, Oncorhynchus mykiss|Fish Physiol. Biochem.30(2): 137-148|2004|10.1007/s10695-005-4317-8
87517|T||Hooge,D.M., K.R. Cummings, and J.L. McNaughton|Evaluation of Sodium Bicarbonate, Chloride, or Sulfate with a Coccidiostat in Corn-Soy or Corn-Soy-Meat Diets for Broiler Chickens|Poult. Sci.78:1300-1306|1999|10.1093/ps/78.9.1300
87518|T||Barnhart,E.T., D.J. Caldwell, M.C. Crouch, J.A. Byrd, D.E. Corrier, and B.M. Hargis|Effect of Lactose Administration in Drinking Water Prior to and During Feed Withdrawal on Salmonella Recovery from Broiler Crops and Ceca|Poult. Sci.78:211-214|1999|10.1093/ps/78.2.211
87519|T||Donoghue,D.J., and H. Hairston|Oxytetracycline Transfer into Chicken Egg Yolk or Albumen|Poult. Sci.78:343-345|1999|10.1093/ps/78.3.343
87550|T||Ashakumary,L., and P.L. Vijayammal|Lipid Peroxidation in Nicotine Treated Rats|J. Ecotoxicol. Environ. Monit.1(4): 283-290|1991|
87551|T||Attia,A.M., R.J. Reiter, K.O. Nonaka, M.H. Mostafa, S.A. Soliman, and A.H. El-Sebae|Carbaryl-Induced Changes in Indoleamine Synthesis in the Pineal Gland and Its Effects on Nighttime Serum Melatonin Concentrations|Toxicology65(3): 305-314|1991|10.1016/0300-483X(91)90089-J
87553|T||Ehrich,M., B.S. Jortner, and S. Padilla|Comparison of the Relative Inhibition of Acetylcholinesterase and Neuropathy Target Esterase in Rats and Hens Given Cholinesterase Inhibitors|Fundam. Appl. Toxicol.24(1): 94-101|1995|10.1006/faat.1995.1011
87554|T||Rajyalakshmi,A., and T.G. Reddy|Effect of Carbaryl and Lindane on the Lipid Content of Maternal Tissues and Embryos of the Viviparous Scorpion, Heterometrus fulvipes (Koch)|J. Environ. Biol.9(Suppl. 1): 97-105|1988|
87555|T||Ehrich,M., L. Correll, J. Strait, W. McCain, and J. Wilcke|Toxicity and Toxicokinetics of Carbaryl in Chickens and Rats: A Comparative Study|J. Toxicol. Environ. Health36(4): 411-423|1992|10.1080/15287399209531648
87556|T||Ladics,G.S., C. Smith, K. Heaps, and S.E. Loveless|Evaluation of the Humoral Immune Response of CD Rats Following a 2-Week Exposure to the Pesticide Carbaryl by the Oral, Dermal, or Inhalation Routes|J. Toxicol. Environ. Health42(2): 143-156|1994|10.1080/15287399409531869
87557|T||Murray,F.J., R.E. Staples, and B.A. Schwetz|Teratogenic Potential of Carbaryl Given to Rabbits and Mice by Gavage or by Dietary Inclusion|Toxicol. Appl. Pharmacol.51(1): 81-89|1979|10.1016/0041-008X(79)90010-3
87558|T||Pipy,B., D. Gaillard, and R. Derache|Enzymatic Activities of Liver Serine Esterases During the Reticuloendothelial System Phagocytosis Blockade by Carbaryl, an Anticholinesterasic Insecticide|Toxicol. Appl. Pharmacol.62(1): 11-18|1982|10.1016/0041-008X(82)90097-7
87559|T||McCord,E.,Jr., and S.J. Yu|The Mechanisms of Carbaryl Resistance in the Fall Armyworm, Spodoptera frugiperda (J.E. Smith)|Pestic. Biochem. Physiol.27(1): 114-122|1987|10.1016/0048-3575(87)90103-9
87560|T||Ray,S.K., and M.K. Poddar|Pentylenetetrazol:  Effect on Carbaryl-Induced Changes of Serotonin Metabolism in Pons-Medulla of Rat Brain|Biosci. Rep.6(8): 767-774|1986|10.1007/BF01116545
87561|T||Khan,N.K., M. Watanabe, and Y. Watanabe|Effect of Different Concentrations of Urea with or Without Nickel Addition on Spinach (Spinacia oleracea L.) Growth Under Hydroponic Culture|Soil Sci. Plant Nutr.45(3): 569-575|1999|10.1080/00380768.1999.10415820
87562|T||Amano,S., T. Katami, and T. Shibamoto|Effect of Ultraviolet-Absorbing Vinyl Film on Organophosphorus Insecticides Dichlorvos and Fenitrothion Residues in Spinach|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(4): 291-296|2002|
87564|A||Poreda-Miranda,R., C.B. Bernard, T. Durst, J.T. Arnason, P. Sanchez-Vindas, L. Poveda, and L. San Roman|Methyl 4-Hydroxy-3-(3'-Methyl-2'-Butenyl)benzoate, Major Insecticidal Principle from Piper guanacastensis|J. Nat. Prod.60(3): 282-284|1997|10.1021/np960601x
87565|A||Thomas,P.C., and T.L. Murthy|Acid Phosphatase Activity in a Fresh-Water Air Breathing Fish Heteropneustes fossilis & the Effect of Certain Organic Pesticides on It|Indian J. Biochem. Biophys.13(4): 347-349|1976|
87566|T||Salam,M.A., and S. Subramanian|Indole-3-Acetic Acid Concentration in Roots and Production of Roots in Rice Due to Application of Zinc and Granular Insecticides|Indian J. Plant Physiol.31(2): 209-212|1988|
87567|T||Mayes,B.A., E.E. McConnell, B.H. Neal, M.J. Brunner, S.B. Hamilton, T.M. Sullivan, A.C. Peters, M.J. Ryan, J.D. Toft, A|Comparative Carcinogenicity in Sprague-Dawley Rats of the Polychlorinated Biphenyl Mixtures Aroclors 1016, 1242, 1254, and 1260|Toxicol. Sci.41(1): 62-76|1998|
87568|A||Zodrow,J.M., and R.L. Tanguay|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Inhibits Zebrafish Caudal Fin Regeneration|Toxicol. Sci.76(1): 151-161|2003|10.1093/toxsci/kfg205
87569|T||Murante,F.G., and T.A. Gasiewicz|Hemopoietic Progenitor Cells are Sensitive Targets of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in C57BL/6J Mice|Toxicol. Sci.54(2): 374-383|2000|10.1093/toxsci/54.2.374
87570|T||Brouwer,A., and K.J. Van den Berg|Binding of a Metabolite of 3,4,3',4'-Tetrachlorobiphenyl to Transthyretin Reduces Serum Vitamin A Transport by Inhibiting the Formation of the Protein Complex Carrying both Retinol and Thyroxine|Toxicol. Appl. Pharmacol.85(3): 301-312|1986|10.1016/0041-008X(86)90337-6
87574|T||Park,S.Y., S.G. Birkhold, L.F. Kubena, D.J. Nisbet, and S.C. Ricke|Effects of High Zinc Diets Using Zinc Diets Using Zinc Propionate on Molt Induction, Organs, and Postmolt Egg Production and Quality in Laying Hens|Poult. Sci.83(1): 24-33|2004|10.1093/ps/83.1.24
87576|T||Yoder,C.A., J.K. Graham, and L.A. Miller|Molecular Effects of Nicarbazin on Avian Reproduction|Poult. Sci.85(7): 1285-1293|2006|10.1093/ps/85.7.1285
87579|T||Lordelo,M.M., A.J. Davis, M.C. Calhoun, M.K. Dowd, and N.M. Dale|Relative Toxicity of Gossypol Enantiomers in Broilers|Poult. Sci.84(9): 1376-1382|2005|10.1093/ps/84.9.1376
87580|T||Matsushita,S., J. Yamashita, T. Iwasawa, T. Tomita, and M. Ikeda|Effects of In Ovo Exposure to Imazalil and Atrazine on Sexual Differentiation in Chick Gonads|Poult. Sci.85(9): 1641-1647|2006|10.1093/ps/85.9.1641
87581|T||Mullens,B.A., R.K. Velten, N.C. Hinkle, D.R. Kuney, and C.E. Szijj|Acaricide Resistance in Northern Fowl Mite (Ornithonyssus sylviarum) Populations on Caged Layer Operations in Southern California|Poult. Sci.83(3): 365-374|2004|10.1093/ps/83.3.365
87583|T||Tardieu,D., J.D. Bailly, G. Benard, T.S. Tran, and P. Guerre|Toxicity of Maize Containing Known Levels of Fumonisin B1 During Force-Feeding of Ducks|Poult. Sci.83(8): 1287-1293|2004|10.1093/ps/83.8.1287
87584|T||Yoder,C.A., L.A. Miller, and K.S. Bynum|Comparison of Nicarbazin Absorption in Chickens, Mallards, and Canada Geese|Poult. Sci.84(9): 1491-1494|2005|10.1093/ps/84.9.1491
87585|T||Yoder,C.A., J.K. Graham, L.A. Miller, K.S. Bynum, J.J. Johnston, and M.J. Goodall|Evaluation of Nicarbazin as a Potential Waterfowl Contraceptive Using Mallards as a Model|Poult. Sci.85(7): 1275-1284|2006|10.1093/ps/85.7.1275
87586|T||Yoder,C.A., J.K. Graham, L.A. Miller, K.S. Bynum, J.J. Johnston, and M.J. Goodall|Effect of Method of Delivering Nicarbazin to Mallards on Plasma 4,4'-Dinitrocarbanilide Levels and Reproduction|Poult. Sci.85(8): 1442-1448|2006|10.1093/ps/85.8.1442
87587|A||Swetharanyam,D.|Behavioural Changes in Oreochromis mossambicus Exposed to Endosulfan|J. Ecobiol.15(6): 425-430|2003|
87588|T||Timmermans,M.J.T.N., J. Ellers, D. Roelofs, and N.M. Van Straalen|Metallothionein mRNA Expression and Cadmium Tolerance in Metal-Stressed and Reference Populations of the Springtail Orchesella cincta|Ecotoxicology14(7): 727-739|2005|10.1007/s10646-005-0020-x
87589|A||Mosleh,Y.Y., S. Paris-Palacios, M. Couderchet, S. Biagianti-Risbourg, and G. Vernet|Effects of the Herbicide Isoproturon on Metallothioneins, Growth, and Antioxidative Defenses in the Aquatic Worm Tubifex tubifex (Oligochaeta, Tubificidae)|Ecotoxicology14(5): 559-571|2005|10.1007/s10646-005-0008-6
87590|T||Hanley,M.E., and M.D. Whiting|Insecticides and Arable Weeds:  Effects on Germination and Seedling Growth|Ecotoxicology14(4): 483-490|2005|10.1007/s10646-004-1353-6
87591|T||Tyl,R.W., C.J. Price, M.C. Marr, C.B. Myers, A.P.J.M. Van Birgelen, and G.D. Jahnke|Developmental Toxicity Evaluation of Sodium Thioglycolate Administered Topically to Sprague-Dawley (CD) Rats and New Zealand White Rabbits|Birth Defects Res. B Dev. Reprod. Toxicol.68(2): 144-161|2003|10.1002/bdrb.10001
87592|T||Huuskonen,H., R. Venalainen, and H. Komulainen|Developmental Toxicity Evaluation of 3-Chloro-4-(Dichloromethyl)-5-Hydroxy-2(5H)-Furanone (MX) in Wistar Rats|Birth Defects Res. B Dev. Reprod. Toxicol.68(2): 172-179|2003|10.1002/bdrb.10017
87593|A||Jeong,W.G., and S.M. Cho|Effects of Polynuclear Aromatic Hydrocarbons on Hemocyte Characteristics of the Pacific Oyster, Crassostrea gigas|J. Shellfish Res.24(2): 451-456|2005|10.2983/0730-8000(2005)24[451:EOPAHO]2.0.CO;2
87595|T||Gupta,U.C., K.B. McRae, and K.A. Winter|Effect of Applied Selenium on the Selenium Content of Barley and Forages and Soil Selenium Depletion Rates|Can. J. Soil Sci.62(1): 145-154|1982|10.4141/cjss82-016
87596|A||Kaviraj,A., F. Bhunia, and N.C. Saha|Toxicity of Methanol to Fish, Crustacean, Oligochaete Worm, and Aquatic Ecosystem|Int. J. Toxicol.23:55-63|2004|10.1080/10915810490265469
87597|T||Steadman,K.J., D.M. Eaton, J.A. Plummer, D.G. Ferris, and S.B. Powles|Late-Season Non-Selective Herbicide Application Reduces Lolium rigidum Seed Numbers, Seed Viability, and Seedling Fitness|Aust. J. Agric. Res.57(1): 133-141|2006|10.1071/AR05122
87598|A||Co.,R., A. Serafim, R. Cosson, L. Camus, B. Shillito, A. Fiala-Medioni, and M.J. Bebianno|The Effect of Cadmium on Antioxidant Responses and the Susceptibility to Oxidative Stress in the Hydrothermal Vent Mussel Bathymodiolus azoricus|Mar. Biol.148(4): 817-825|2006|10.1007/s00227-005-0116-0
87599|T||Thompson,H.J., L.D. Meeker, P.J. Becci, and S. Kokoska|Effect of Short-Term Feeding of Sodium Selenite on 7,12- Dimethylbenz(a)Anthracene-Induced Mammary Carcinogenesis in the Rat|Cancer Res.42(12, Pt. 1): 4954-4958|1982|
87600|T||Banner,W.P., Q.H. Tan, and M.S. Zedeck|Selenium and the Acute Effects of the Carcinogens, 2-Acetylaminofluorene and Methylazoxymethanol Acetate|Cancer Res.42(8): 2985-2989|1982|
87602|T||Dini,G., F. Martini, I. Stendardi, F. Bernardini, and F. Franconi|Time Course of Sodium Selenite-Induced Ultrastructural Alterations in Guinea Pig Hearts|Exp. Mol. Pathol.36(3): 326-332|1982|10.1016/0014-4800(82)90062-4
87603|T||Dini,G., F. Franconi, and F. Martini|Mitochondrial Alterations Induced by Selenium in Guinea Pig Myocardium|Exp. Mol. Pathol.34(2): 226-235|1981|10.1016/0014-4800(81)90079-4
87604|T||Symonds,H.W., B.F. Sansom, Denise L. Mather, and M.J. Vagg|Selenium Metabolism in the Dairy Cow: The Influence of the Liver and the Effect of the Form of Se Salt|Br. J. Nutr.45(1): 117-125|1981|10.1079/BJN19810084
87605|A||Teien,H.C., W.J.F. Standring, B. Salbu, M. Marskar, F. Kroglund, and A. Hindar|Mobilization of Aluminium and Deposition on Fish Gills During Sea Salt Episodes - Catchment Liming as Countermeasure|J. Environ. Monit.6(3): 191-200|2004|10.1039/b314708h
87606|T||Kling,L.J., and J.H.,Jr. Soares|The Effect of Mercury and Vitamin E on Tissue Glutathione Peroxidase Activity and Thiobarbituric Acid Values|Poult. Sci.61(8): 1762-1765|1982|10.3382/ps.0611762
87607|T||Ledoux,D.R., G.E. Rottinghaus, A.J. Bermudez, and M. Alonso-Debolt|Efficacy of a Hydrated Sodium Calcium Aluminosilicate to Ameliorate the Toxic Effects of Aflatoxin in Broiler Chicks|Poult. Sci.77:204-210|1998|
87608|T||Papachristos,D.P., and D.C. Stamopoulos|Fumigant Toxicity of Three Essential Oils on the Eggs of Acanthoscelides obtectus (Say) (Coleoptera: Bruchidae)|J. Stored Prod. Res.40(5): 517-525|2004|10.1016/j.jspr.2003.07.002
87610|T||Lee,B.H., P.C. Annis, F. Tumaalii, and W.S. Choi|Fumigant Toxicity of Essential Oils from the Myrtaceae Family and 1,8-Cineole Against 3 Major Stored-Grain Insects|J. Stored Prod. Res.40(5): 553-564|2004|10.1016/j.jspr.2003.09.001
87611|T||Bunting,J.A., C.L. Sprague, and D.E. Riechers|Proper Adjuvant Selection for Foramsulfuron Activity|Crop Prot.23(4): 361-366|2004|10.1016/j.cropro.2003.08.022
87613|T||Zhang,Q.F., Y.Y. Li, C.H. Pang, C.M. Lu, and B.S. Wang|NaCl Enhances Thylakoid-Bound SOD Activity in the Leaves of C3 Halophyte Suaeda salsa L.|Plant Sci.168(2): 423-430|2005|10.1016/j.plantsci.2004.09.002
87614|T||Dziadczyk,P., D.E. Dyrda, and J.A. Hortynski|NaCl Influence on the In Vitro Germination of Fragaria xananassa (Duch.) and F. vesca (L.) Seeds|Small Fruits Rev.4(1): 11-19|2005|10.1300/J301v04n01_03
87615|T||Gebauer,J., K. El-Siddig, A.A. Salih, and G. Ebert|Tamarindus indica L. Seedlings are Moderately Salt Tolerant when Exposed to NaCl-Induced Salinity|Sci. Hortic.103(1): 1-8|2004|10.1016/j.scienta.2004.04.022
87616|T||Saied,A.S., A.J. Keutgen, and G. Noga|The Influence of NaCl Salinity on Growth, Yield and Fruit Quality of Strawberry cvs. 'Elsanta' and 'Korona'|Sci. Hortic.103(3): 289-303|2005|10.1016/j.scienta.2004.06.015
87617|T||Ansari,S.A., S. Singh, and A. Rani|Inorganic Salts Influence IAA Ionization and Adventitious Rhizogenesis in Pongamia pinnata|J. Plant Physiol.161(1): 117-120|2004|10.1078/0176-1617-01078
87618|T||Chaoui,A., B. Jarrar, and E. El Ferjani|Effects of Cadmium and Copper on Peroxidase, NADH Oxidase and IAA Oxidase Activities in Cell Wall, Soluble and Microsomal Membrane Fractions of Pea Roots|J. Plant Physiol.161(11): 1225-1234|2004|10.1016/j.jplph.2004.02.002
87619|T||Sultatos,L.G., and L. Woods|The Role of Glutathione in the Detoxification of the Insecticides Methyl Parathion and Azinphos-Methyl in the Mouse|Toxicol. Appl. Pharmacol.96(1): 168-174|1988|10.1016/0041-008X(88)90259-1
87620|T||Union Carbide Corp.|Initial Submission:  Letter from Union Carbide Submitting Reports Describing a Variety of Toxicology Studies with Temik Sulfone with Attachments|EPA/OTS Doc #88-920002674:61 p.|1992|
87621|T||Union Carbide Corp.|Revised Aldicarb Oxime Toxicology Update with Cover Memo Dated 082785|EPA/OTS Doc.#FYI-OTS-0885-0443:6 p.|1985|
87622|T||Union Carbide Corp.|Initial Submission:  Aldicarb Oxime (All):  Results of Feeding in the Diet of Rats for 7 Days with Cover Letter Dated 051192|EPA/OTS Doc #88-920002644:5 p.|1992|
87623|T||Barlas,N.|The Effects of Commercial and Microorganism-Degraded Solutions of Endosulfan and Carbaryl on Albino Mice|Turk. J. Zool.18(4): 221-226|1994|
87624|A||James,R., and K. Sampath|Combined Toxic Effects of Carbaryl and Methyl Parathion on Survival, Growth, and Respiratory Metabolism in Heteropneustes fossilis (Bloch)|Acta Hydrobiol.36(3): 399-408|1994|
87625|A||Shrivastava,S., and S. Singh|Changes in Protein Content in the Muscle of Heteropneustes fossilis Exposed to Carbaryl|J. Ecotoxicol. Environ. Monit.14(2): 119-122|2004|
87626|T||Tetreault,G.E.|Metabolism of Carbaryl, Chlorpyrifos, DDT, and Parathion in the European Corn Borer:  Effects of Microsporidiosis on Toxicity and Detoxication|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:86 p.|1985|
87627|A||Vijayavel,K., and M.P. Balasubramanian|Effect of Naphthalene on Certain Metabolizing Enzymes of Marine Edible Crab Scylla serrata|Natl.Semin.on Marine Biodiversity as a Source of Food and Medicine, Sept.26-28, 2002, Tuticorin, India(3): 161-164|2003|
87629|T||Ghareeb,A., and N.M. George|Cytotoxicity of Insecticide Temik 15G (Decarb) in Mitotic and Meiotic Cells of Vicia faba Plant|Cytologia62(3): 259-263|1997|10.1508/cytologia.62.259
87630|T||Funderburk,J.E., and A.L. Brown|Thrips Control with Temik in Seedling Peanuts, Experiment 1, 1992|Insectic. Acaric. Tests18:261-262|1993|
87632|T||Carver,J.H., J. Bootman, M.C. Cimino, H.J. Esber, P. Kirby, B. Kirkhart, Z.A. Wong, and J.A. MacGregor|Genotoxic Potential of Acephate Technical:  In Vitro and In Vivo Effects|Toxicology35(2): 125-142|1985|10.1016/0300-483X(85)90027-7
87633|T||Astroff,A.B., and A.D. Young|The Relationship Between Maternal and Fetal Effects Following Maternal Organophosphate Exposure During Gestation in the Rat|Toxicol. Ind. Health14(6): 869-889|1998|10.1177/074823379801400608
87634|T||Gough,B.J., L.A. Escuriex, and T.E. Shellenberger|A Comparative Toxicologic Study of a Phosphorodithioate in Japanese and Bobwhite Quail|Toxicol. Appl. Pharmacol.10:12-19|1967|10.1016/0041-008X(67)90022-1
87635|T||Murphy,S.D., and S. Porter|Effects of Toxic Chemicals on Some Adaptive Liver Enzymes, Liver Glycogen, and Blood Glucose in Fasted Rats|Biochem. Pharmacol.15(11): 1665-1676|1966|10.1016/0006-2952(66)90074-8
87636|T||Dixon,F.L., and D.V. Clay|Imazapyr Application to Rhododendron ponticum:  Speed of Action and Effects on Other Vegetation|Forestry75(3): 217-225|2002|10.1093/forestry/75.3.217
87637|T||Torres,A., S. Chulze, E. Varsavasky, and M. Rodriguez|Alternaria Metabolites in Sunflower Seeds. Incidence and Effect of Pesticides on Their Production|Mycopathologia121(1): 17-20|1993|10.1007/BF01103349
87640|A||Ramaswamy,M., P. Thangavel, and N.P. Selvam|Glutamic Oxaloacetic Transaminase (GOT) and Glutamic Pyruvic Transaminase (GPT) Enzyme Activities in Different Tissues of Sarotherodon mossambicus (Peters) Exposed to a Carbamate Pesticide, Carbaryl|Pestic. Sci.55(12): 1217-1221|1999|10.1002/(SICI)1096-9063(199912)55:12<1217::AID-PS78>3.0.CO;2-G
87641|T||Razmi,M.S., S.S. Yazdani, S.P. Singh, S.C. Gupta, and S.F. Hameed|Persistence of Toxicity of Some Insecticides Against the Neonate Larvae of Leucinodes orbonalis Guen.|J. Entomol. Res.15(3): 218-221|1991|
87642|T||Gordon,C.J., D.W. Herr, C. Gennings, J.E. Graff, M. McMurray, L. Stork, T. Coffey, A. Hamm, and C.M. Mack|Thermoregulatory Response to an Organophosphate and Carbamate Insecticide Mixture:  Testing the Assumption of Dose-Additivity|Toxicology217(1): 1-13|2006|10.1016/j.tox.2005.08.014
87644|A||Vasumathi,D., K. Sampath, and R. James|Acute Toxicity of Endosulfan, Methyl Parathion and Carbaryl on Macropodus cupanus|Environ. Ecol.19(3): 576-579|2001|
87645|T||Sarup,P., and S. Dhingra|Impact of Physico-Chemical Properties of Diluents on the Toxicity of Carbaryl in Dust Formulations to the Larvae of Spodoptera litura (Fabricius)|J. Entomol. Res.21(1): 1-16|1997|
87646|T||Pant,N., R. Shankar, and S.P. Srivastava|Spermatotoxic Effects of Carbaryl in Rats|Hum. Exp. Toxicol.15(9): 736-738|1996|10.1177/096032719601500903
87647|A||Sharma,B.|Effect of Carbaryl on Some Biochemical Constituents of the Blood and Liver of Clarias batrachus, a Fresh-Water Teleost|J. Toxicol. Sci.24(3): 157-164|1999|10.2131/jts.24.3_157
87648|T||Pant,N., S.C. Srivastava, A.K. Prasad, R. Shankar, and S.P. Srivastava|Effects of Carbaryl on the Rat's Male Reproductive System|Vet. Hum. Toxicol.37(5): 421-425|1995|
87649|A||Krishnan,M., and S. Chockalingam|Toxic and Sublethal Effects of Endosulfan and Carbaryl on Growth and Egg Production of Moina micrura Kurz (Cladocera: Moinidae)|Environ. Pollut.56(4): 319-326|1989|10.1016/0269-7491(89)90077-8
87650|A||Dumbauld,B.R., D.A. Armstrong, and J. Skalski|Efficacy of the Pesticide Carbaryl for Thalassinid Shrimp Control in Washington State Oyster (Crassostrea gigas, Thunberg, 1793) Aquaculture|J. Shellfish Res.16(2): 503-518|1997|
87651|T||Routledge,M.N., T.C. Orton, P.G. Lord, and R.C. Garner|Effect of Butylated Hydroxyanisole on the Level of DNA Adduction by Aristolochic Acid in the Rat Forestomach and Liver|Jpn. J. Cancer Res.81(3): 220-224|1990|10.1111/j.1349-7006.1990.tb02553.x
87652|T||Christiansen,T.A., J.A. Lockwood, and J. Powell|Mediation of Nutrient Cycling by Arthropods in Unmanaged and Intensively Managed Mountain Brush Habitats|Great Basin Nat.49(1): 134-139|1989|
87653|T||Reddy,M.V., and V.R. Reddy|Effects of Organochlorine, Organophosphorus and Carbamate Insecticides on the Population Structure and Biomass of Earthworms in a Semi-Arid Tropical Grassland|Soil Biol. Biochem.24(12): 1733-1738|1992|10.1016/0038-0717(92)90179-2
87654|A||Bridges,C.M., and R.D. Semlitsch|Genetic Variation in Insecticide Tolerance in a Population of Southern Leopard Frogs (Rana sphenocephala): Implications for Amphibian Conservation|Copeia1:7-13|2001|10.1643/0045-8511(2001)001[0007:GVIITI]2.0.CO;2
87655|T||Krzystyniak,K., B. Trottier, P. Jolicoeur, and M. Fournier|Macrophage Functional Activities Versus Cellular Parameters upon Sublethal Pesticide Exposure in Mice|Mol. Toxicol.1(1-3): 247-259|1987|
87665|T||Goncalves,J.R., L.R.D'.A. Faroni, R.N.C. Guedes, and C.R.F. De Oliveira|Insecticide Selectivity to the Parasitic Mite Acarophenax lacunatus (Cross & Krantz) (Prostigmata:  Acarophenacidae) on Rhyzopertha dominica (Fabr.) (Coleoptera:  Bostrichidae)|Neotrop. Entomol. (Multiple Languages)33(2): 243-248|2004|10.1590/S1519-566X2004000200016
87666|T||Tukendorf,A.|The Response of Spinach Plants to Excess of Copper and Cadmium|Photosynthetica (Praha)28(4): 573-575|1993|
87667|T||Rigon,A.R., M. Reis, and R.N. Takahashi|Effects of Carbaryl on Some Dopaminergic Behaviors in Rats|Gen. Pharmacol.25(6): 1263-1267|1994|10.1016/0306-3623(94)90148-1
87668|T||Takahashi,R.N., A. Poli, G.S. Morato, T.C.M. Lima, and M. Zanin|Effects of Age on Behavioral and Physiological Responses to Carbaryl in Rats|Neurotoxicol. Teratol.13(1): 21-26|1991|10.1016/0892-0362(91)90023-P
87669|T||Mandal,A., and P. Lahiri|Insecticide Induced Hematological Changes in Pigeons|Proc. Indian Acad. Sci. Anim. Sci.98(2): 133-137|1989|10.1007/BF03179638
87670|T||Yamaguchi,M., S. Uchiyama, K. Ishiyama, and K. Hashimoto|Oral Administration in Combination with Zinc Enhances beta-Cryptoxanthin-Induced Anabolic Effects on Bone Components in the Femoral Tissues of Rats In Vivo|Biol. Pharm. Bull.29(2): 371-374|2006|10.1248/bpb.29.371
87671|A||Suwanchaichinda,C., and L.B. Brattsten|Effects of Exposure to Pesticides on Carbaryl Toxicity and Cytochrome P450 Activities in Aedes albopictus Larvae (Diptera: Culicidae)|Pestic. Biochem. Physiol.70(2): 63-73|2001|10.1006/pest.2001.2544
87672|T||Uddin,M.B., M.A. Karim, and M.Z. Alam|Effectiveness of Some Carbamate Insecticides for Repelling a Pest Bird (Lonchura striata) to Reduce Ear Damage of Fox-Tail Millet|Pak. J. Sci. Ind. Res.38(11-12): 435-437|1995|
87673|AT||Vatandoost,H., and V.M. Vaziri|Larvicidal Activity of a Neem Tree Extract (Neemarin) Against Mosquito Larvae in the Islamic Republic of Iran|East. Mediterr. Health J.10(4-5): 573-581|2004|10.26719/2004.10.4-5.573
87674|T||Siegfried,B.D., L.J. Meinke, S. Parimi, M.E. Scharf, T.J. Nowatzki, X. Zhou, and L.D. Chandler|Monitoring Western Corn Rootworm (Coleoptera: Chrysomelidae) Susceptibility to Carbaryl and Cucurbitacin Baits in the Areawide Management Pilot Program|J. Econ. Entomol.97(5): 1726-1733|2004|10.1603/0022-0493-97.5.1726
87675|T||Nagarkatti,S., P.C. Tobin, A.J. Muza, and M.C. Saunders|Carbaryl Resistance in Populations of Grape Berry Moth (Lepidoptera: Tortricidae) in New York and Pennsylvania|J. Econ. Entomol.95(5): 1027-1032|2002|10.1093/jee/95.5.1027
87677|T||Sharma,A.D., M.S. Brar, and S.S. Malhi|Critical Toxic Ranges of Chromium in Spinach Plants and in Soil|J. Plant Nutr.28(9): 1555-1568|2005|10.1080/01904160500203382
87678|T||Comino,E., S.N. Whiting, P.M. Neumann, and A.J.M. Baker|Salt (NaCl) Tolerance in the Ni Hyperaccumulator Alyssum murale and the Zn Hyperaccumulator Thlaspi caerulescens|Plant Soil270(1): 91-99|2005|10.1007/s11104-004-1233-0
87679|T||Kochankov,V.G., M. Grzesik, M. Chojnowski, and J. Nowak|Effect of Temperature, Growth Regulators and Other Chemicals on Echinacea purpurea (L.) Moench Seed Germination and Seedling Survival|Seed Sci. Technol.26(3): 547-554|1998|
87680|T||Muhling,K.H., and A. Lauchli|Interaction of NaCl and Cd Stress on Compartmentation Pattern of Cations, Antioxidant Enzymes and Proteins in Leaves of Two Wheat Genotypes Differeing in Salt Tolerance|Plant Soil253:219-231|2003|10.1023/A:1024517919764
87681|T||Union Carbide Corp.|Initial Sub:  Letter from Union Carbide Corp to USEPA Submitting Enclosed Information on Aldicarb Solutions in Dichloromethane Aerosol Inhalation & Acute Toxicity Studies W-Attach|EPA/OTS Doc.#88-920006638:103 p.|1992|
87682|T||Union Carbide Corp.|Range Finding Tests on Compound 21786 (2-Methyl-2-Methylthiopropionaldehyde Oxime)|EPA/OTS Doc.#FYI-OTS-0885-0443:6 p.|1985|
87685|T||Dabuxilatu, and M. Ikeda|Responses of Soybean and Cucumber Plants to NaCl and CaCl2 Salinity in Nitrate and Enhanced Ammonium Nutrition|J. Fac. Agric. Kyushu Univ.49(2): 217-224|2004|10.5109/4581
87686|A||Tindle,S., E. Boone, J. O'Brien, and A. Boettcher|Effects of Salinity on Larval Stages of the Rhizocephalan Barnacle Loxothylacus texanus:  Survival and Metamorphosis in Response to the Host, Callinectes sapidus|J. Exp. Mar. Biol. Ecol.302(2): 165-176|2004|10.1016/j.jembe.2003.10.012
87687|T||Chiam,W.Y., Y. Huang, S.X. Chen, and S.H. Ho|Toxic and Antifeedant Effects of Allyl Disulfide on Tribolium castaneum (Coleoptera:  Tenebrionidae) and Sitophilus zeamais (Coleoptera:  Curculionidae)|J. Econ. Entomol.92(1): 239-245|1999|10.1093/jee/92.1.239
87688|T||Smith,P.N., S.A. Severt, W.A. Jackson, and T.A. Anderson|Thyroid Function and Reproductive Success in Rodents Exposed to Perchlorate via Food and Water|Environ. Toxicol. Chem.25(4): 1050-1059|2006|10.1897/05-390R1.1
87689|T||Ryu,D.Y., S.J. Lee, D.W. Park, B.S. Choi, C.D. Klaassen, and J.D. Park|Dietary Iron Regulates Intestinal Cadmium Absorption Through Iron Transporters in Rats|Toxicol. Lett.152(1): 19-25|2004|10.1016/j.toxlet.2004.03.015
87690|T||Santos,H.R., W.M. Cintra, Y. Aracava, C.M. Maciel, N.G. Castro, and E.X. Albuquerque|Spine Density and Dendritic Branching Pattern of Hippocampal CA1 Pyramidal Neurons in Neonatal Rats Chronically Exposed to the Organophosphate Paraoxon|Neurotoxicology25(3): 481-494|2004|10.1016/j.neuro.2004.01.007
87691|T||Rivera,R.E., V.L. Christensen, F.W. Edens, and M.J. Wineland|Influence of Selenium on Heat Shock Protein 70 Expression in Heat Stressed Turkey Embryos (Meleagris gallopavo)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.142(4): 427-432|2005|10.1016/j.cbpa.2005.09.006
87692|A||Rajagopal,S., G. Van der Velde, M. Van der Gaag, and H.A. Jenner|Byssal Detachment Underestimates Tolerance of Mussels to Toxic Compounds|Mar. Pollut. Bull.50(1): 20-29|2005|10.1016/j.marpolbul.2004.08.015
87693|T||Puricelli,E., and D. Tuesca|Weed Density and Diversity Under Glyphosate-Resistant Crop Sequences|Crop Prot.24(6): 533-542|2005|10.1016/j.cropro.2004.10.005
87694|T||Pilon,M., J.D. Owen, G.F. Garifullina, T. Kurihara, H. Mihara, N. Esaki, and E.A.H. Pilon-Smits|Enhanced Selenium Tolerance and Accumulation in Transgenic Arabidopsis Expressing a Mouse Selenocysteine Lyase|Plant Physiol.131(1): 1250-1257|2003|10.1104/pp.102.014639
87695|T||Premkumar,K., and C.L. Bowlus|Ascorbic Acid Reduces the Frequency of Iron Induced Micronuclei in Bone Marrow Cells of Mice|Mutat. Res.542(1-2): 99-103|2003|10.1016/j.mrgentox.2003.09.002
87696|T||Perottoni,J., F.C. Meotti, V. Folmer, L. Pivetta, C.W. Nogueira, G. Zeni, and J.B.T. Rocha|Ebselen and Diphenyl Diselenide do not Change the Inhibitory Effect of Lead Acetate on delta-Aminolevulinate Dehidratase|Environ. Toxicol. Pharmacol.19(2): 239-248|2005|10.1016/j.etap.2004.07.007
87698|A||Shardendu, N. Salhani, S.F. Boulyga, and E. Stengel|Phytoremediation of Selenium by Two Helophyte Species in Subsurface Flow Constructed Wetland|Chemosphere50(8): 967-973|2003|10.1016/S0045-6535(02)00607-0
87699|T||Stibilj,V., R. Vadnjal, M. Kovac, and A. Holcman|The Effect of Dietary Arsenic Additions on the Distribution of Selenium and Iodine in Eggs and Tissues of Laying Hens|Arch. Environ. Contam. Toxicol.46(2): 275-280|2004|10.1007/s00244-003-2276-6
87701|T||Srivastava,M., L.Q. Ma, N. Singh, and S. Singh|Antioxidant Responses of Hyper-Accumulator and Sensitive Fern Species to Arsenic|J. Exp. Bot.56(415): 1335-1342|2005|10.1093/jxb/eri134
87702|T||Sohn,O.S., D.H. Desai, A. Das, J.G. Rodriguez, S.G. Amin, and K. El-Bayoumy|Comparative Excretion and Tissue Distribution of Selenium in Mice and Rats Following Treatment with the Chemopreventive Agent 1,4-Phenylenebis(Methylene)Selenocyanate|Chem.-Biol. Interact.151(3): 193-202|2005|10.1016/j.cbi.2004.10.007
87703|T||Suzuki,K.T., K. Kurasaki, N. Okazaki, and Y. Ogra|Selenosugar and Trimethylselenonium Among Urinary Se Metabolites:  Dose- and Age-Related Changes|Toxicol. Appl. Pharmacol.206(1): 1-8|2005|10.1016/j.taap.2004.10.018
87704|A||Tsui,M.T.K., W.X. Wang, and L.M. Chu|Influence of Glyphosate and Its Formulation (Roundup) on the Toxicity and Bioavailability of Metals to Ceriodaphnia dubia|Environ. Pollut.138(1): 59-68|2005|10.1016/j.envpol.2005.02.018
87705|T||Su,Y.H., Y.G. Zhu, A.J. Lin, and X.H. Zhang|Interaction Between Cadmium and Atrazine During Uptake by Rice Seedlings (Oryza sativa L.)|Chemosphere60(6): 802-809|2005|10.1016/j.chemosphere.2005.04.022
87706|T||Vickerman,D.B., J.T. Trumble, G.N. George, I.J. Pickering, and H. Nichol|Selenium Biotransformations in an Insect Ecosystem: Effects of Insects on Phytoremediation|Environ. Sci. Technol.38(13): 3581-3586|2004|10.1021/es049941s
87707|T||Thompson,K.L., C.A. Afshari, R.P. Amin, T.A. Bertram, B. Car, M. Cunningham, C. Kind, J.A. Kramer, M. Lawton, M. Mirsky|Identification of Platform-Independent Gene Expression Markers of Cisplatin Nephrotoxicity|Environ. Health Perspect.112(4): 488-494|2004|10.1289/ehp.6676
87708|T||White,P.J., H.C. Bowen, P. Parmaguru, M. Fritz, W.P. Spracklen, R.E. Spiby, M.C. Meacham, A. Mead, M. Harriman, L.J. Tr|Interactions Between Selenium and Sulphur Nutrition in Arabidopsis thaliana|J. Exp. Bot.55(404): 1927-1937|2004|10.1093/jxb/erh192
87709|A||Wong,D.C.L., R.J. Toy, and P.B. Dorn|A Stream Mesocosm Study on the Ecological Effects of a C12-15 Linear Alcohol Ethoxylate Surfactant|Ecotoxicol. Environ. Saf.58(2): 173-186|2004|10.1016/j.ecoenv.2004.03.004
87710|T||Yu,K.O., L. Narayanan, D.R. Mattie, R.J. Godfrey, P.N. Todd, T.R. Sterner, D.A. Mahle, M.H. Lumpkin, and J.W. Fisher|The Pharmacokinetics of Perchlorate and Its Effect on the Hypothalamus-Pituitary-Thyroid Axis in the Male Rat|Toxicol. Appl. Pharmacol.182(2): 148-159|2002|10.1006/taap.2002.9432
87711|T||Zhang,J., H. Wang, X. Yan, and L. Zhang|Comparison of Short-Term Toxicity Between Nano-Se and Selenite in Mice|Life Sci.76(10): 1099-1109|2005|10.1016/j.lfs.2004.08.015
87712|T||Zheng,J., D. Leong, G. Lees, and R.A. Nicholson|Studies on the Interaction of Surangin B with Insect Mitochondria, Insect Synaptosomes and Rat Cortical Neurones in Primary Culture|Pestic. Biochem. Physiol.61(1): 1-13|1998|10.1006/pest.1998.2349
87713|T||Bary,F., A.C. Gange, M. Crane, and K.J. Hagley|Fungicide Levels and Arbuscular mycorrhizal Fungi in Golf Putting Greens|J. Appl. Ecol.42(1): 171-180|2005|10.1111/j.1365-2664.2004.00989.x
87714|T||Patsakos,P.G., K. Liapis, G.E. Miliadis, and K. Zafiriou|Mancozeb Residues on Field Sprayed Apricots|Bull. Environ. Contam. Toxicol.48(5): 756-761|1992|10.1007/BF00195998
87715|T||Nakamuro,K., Y. Sayato, and Y. Ose|Studies on Selenium-Related Compounds. VI. Biosynthesis of Dimethyl Selenide in Rat Liver After Oral Administration of Sodium Selenate|Toxicol. Appl. Pharmacol.39(3): 521-529|1977|10.1016/0041-008X(77)90143-0
87716|T||Ramstoeck,E.R., W.G. Hoekstra, and H.E. Ganther|Trialkyllead Metabolism and Lipid Peroxidation In Vivo in Vitamin E- and Selenium-Deficient Rats, as Measured by Ethane Production|Toxicol. Appl. Pharmacol.54(2): 251-257|1980|10.1016/0041-008X(80)90194-5
87717|T||Waalkes,M.P., J.J. Hjelle, and C.D. Klaassen|Transient Induction of Hepatic Metallothionein Following Oral Ethanol Administration|Toxicol. Appl. Pharmacol.74(2): 230-236|1984|10.1016/0041-008X(84)90147-9
87719|T||De Vos,C.H.R., M.J. Vonk, R. Vooijs, and H. Schat|Glutathione Depletion due to Copper-Induced Phytochelatin Synthesis Causes Oxidative Stress in Silene cucubalus|Plant Physiol.98(3): 853-858|1992|10.1104/pp.98.3.853
87720|T||Tandon,S.K., S. Singh, V.K. Jain, and S. Prasad|Chelation in Metal Intoxication.  XXXVIII.  Effect of Structurally Different Chelating Agents in Treatment of Nickel Intoxication in Rat|Fundam. Appl. Toxicol.31(2): 141-148|1996|10.1006/faat.1996.0085
87721|T||Elmas,O., M. Aslan, S. Caglar, N. Derin, A. Agar, Y. Aliciguzel, and P. Yargicoglu|The Prooxidant Effect of Sodium Metabisulfite in Rat Liver and Kidney|Regul. Toxicol. Pharmacol.42(1): 77-82|2005|10.1016/j.yrtph.2005.01.010
87722|T||El-Sayed,W.M., T. Aboul-Fadl, J.G. Lamb, J.C. Roberts, and M.R. Franklin|Effect of Selenium-Containing Compounds on Hepatic Chemoprotective Enzymes in Mice|Toxicology220(2/3): 179-188|2006|10.1016/j.tox.2005.12.016
87723|T||El-Bayoumy,K., A. Das, T. Boyiri, D. Desai, R. Sinha, B. Pittman, and S. Amin|Comparative Action of 1,4-Phenylenebis(Methylene)Selenocyanate and Its Metabolites Against 7,12-Dimethylbenz[a]anthracene-DNA Adduct Formation in the Rat and Cell Proliferation in Rat Mammary Tumor Cells|Chem.-Biol. Interact.146(2): 179-190|2003|10.1016/j.cbi.2003.08.004
87724|A||Doblin,M.A., S.B. Baines, L.S. Cutter, and G.A. Cutter|Sources and Biogeochemical Cycling of Particulate Selenium in the San Francisco Bay Estuary|Estuar. Coast. Shelf Sci.67(4): 681-694|2006|10.1016/j.ecss.2006.01.007
87725|T||De Marco,A., M. Owczarek, T. Ferri, C. De Simone, and P. Sangiorgio|Carboxymethylcellulose Improves the Antimutagenic Activity of Sodium Selenite Against Maleic Hydrazide in Vicia faba Seedlings|Environ. Res.90(2): 152-156|2002|10.1006/enrs.2002.4385
87726|T||Dadari,S.A., and H. Mani|The Effect of Post-Emergence Weed Control on Irrigated Wheat (Triticum aestivum L.) in the Sudan Savannah of Nigeria|Crop Prot.24(9): 842-847|2005|10.1016/j.cropro.2005.01.017
87727|T||Kinder,D.S., C.N. Colestock, S.L. Razniak, and G.R. Hogan|Time-Dependent Distribution of Sodium Selenite in the Female ICR Mouse|Bull. Environ. Contam. Toxicol.40(3): 425-432|1988|10.1007/BF01689101
87728|T||Nishiyama,S., N. Itoh, S. Onosaka, M. Okudaira, H. Yamamoto, and K. Tanaka|Dietary Cadmium Inhibits Spontaneous Hepatocarcinogenesis in C3H/HeN Mice and Hepatitis in A/J Mice, but not in C57BL/6 Mice|Toxicol. Appl. Pharmacol.186(1): 1-6|2003|10.1016/S0041-008X(02)00029-7
87729|T||Naziroglu,M., A. Karaoglu, and A.O. Aksoy|Selenium and High Dose Vitamin E Administration Protects Cisplatin-Induced Oxidative Damage to Renal, Liver and Lens Tissues in Rats|Toxicology195(2/3): 221-230|2004|10.1016/j.tox.2003.10.012
87730|T||Meotti,F.C., V.C. Borges, G. Zeni, J.B.T. Rocha, and C.W. Nogueira|Potential Renal and Hepatic Toxicity of Diphenyl Diselenide, Diphenyl Ditelluride and Ebselen for Rats and Mice|Toxicol. Lett.143(1): 9-16|2003|10.1016/S0378-4274(03)00090-0
87731|A||Levy,G., I. Lutz, A. Kruger, and W. Kloas|Bisphenol A Induces Feminization in Xenopus laevis Tadpoles|Environ. Res.94(1): 102-111|2004|10.1016/S0013-9351(03)00086-0
87732|T||Ashby,J., H. Tinwell, J. Odum, and P. Lefevre|Natural Variability and the Influence of Concurrent Control Values on the Detection and Intrepretation of Low-Dose or Weak Endocrine Toxicities|Environ. Health Perspect.112(8): 847-853|2004|10.1289/ehp.6862
87733|T||Storeng,R., and J. Jonsen|Recovery of Mouse Embryos After Short-Term In Vitro Exposure to Toxic Nickel Chloride|Toxicol. Lett.20(1): 85-91|1984|10.1016/0378-4274(84)90188-7
87734|T||Allen,J.C., and W.J. Miller|Transfer of Selenium from Blood to Milk in Goats and Noninterference of Copper with Selenium Metabolism|J. Dairy Sci.64(5): 814-821|1981|10.3168/jds.S0022-0302(81)82652-5
87735|A||Xie,Z.C., N.C. Wong, P.Y. Qian, and J.W. Qiu|Responses of Polychaete Hydroides elegans Life Stages to Copper Stress|Mar. Ecol. Prog. Ser.285:89-96|2005|10.3354/meps285089
87736|T||Nonavinakere,V.K., R.A. Potmis, H.R. Rasekh, R.R. Bell, and J.L. Early II|Selenium Lethality:  Role of Glutathione and Metallothionein|Toxicol. Lett.66(3): 273-279|1993|10.1016/0378-4274(93)90008-L
87737|T||Kucharz,E.J., and K. Olczyk|Influence of Chronic Intoxication with Selenium on Collagen and Elastin Content in Tissues of Rat|Toxicol. Lett.68(3): 295-299|1993|10.1016/0378-4274(93)90020-X
87738|T||Khandelwal,S., D.N. Kachru, and S.K. Tandon|Influence of Metal Chelators on Metalloenzymes|Toxicol. Lett.37(3): 213-219|1987|10.1016/0378-4274(87)90134-2
87739|T||Sakulkoo,N., A. Akaracharanya, S. Chareonpornwattana, N. Leepipatpiboon, T. Nakamura, Y. Yamaguchi, A. Shinmyo, and H. |Hyper-assimilation of Sulfate and Tolerance to Sulfide and Cadmium in Transgenic Water Spinach Expressing an Arabidopsis Adenosine Phosphosulfate Reductase|Plant Biotechnol.22(1): 27-32|2005|10.5511/plantbiotechnology.22.27
87740|T||Greaves,J.H., D.S. Shepherd, and R. Quy|Field Trials of Second-Generation Anticoagulants Against Difenacoum-Resistant Norway Rat Populations|J. Hyg.89(2): 295-301|1982|10.1017/S0022172400070820
87744|T||Ashby,J., H. Tinwell, and J. Haseman|Lack of Effects for Low Dose Levels of Bisphenol A and Diethylstilbestrol on the Prostate Gland of CF1 Mice Exposed In Utero|Regul. Toxicol. Pharmacol.30:156-166|1999|10.1006/rtph.1999.1317
87745|T||Salim,R., M.M. Al-Subu, and M. Isa|Effect of Root-Treatment of Cauliflower, Parsley and Spinach Plants with Copper and Zinc on the Plant-Growth|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control30(10): 2123-2132|1995|
87746|T||Meyer,A., F.J. Seidler, J.E. Aldridge, C.A. Tate, M.M. Cousins, and T.A. Slotkin|Critical Periods for Chlorpyrifos-Induced Developmental Neurotoxicity:  Alterations in Adenylyl Cyclase Signaling in Adult Rat Brain Regions after Gestational or Neonatal Exposure|Environ. Health Perspect.112(3): 295-301|2004|10.1289/ehp.6755
87747|A||He,K., L. Zeng, Q. Ye, G. Shi, N.H. Oberlies, G.X. Zhao, C.J. Njoku, and J.L. McLaughlin|Comparative SAR Evaluations of Annonaceous Acetogenins for Pesticidal Activity|Pestic. Sci.49(4): 372-378|1997|10.1002/(SICI)1096-9063(199704)49:4<372::AID-PS543>3.0.CO;2-K
87748|A||Hay,M.E., W. Fenical, and K. Gustafson|Chemical Defense Against Diverse Coral-Reef Herbivores|Ecology68(6): 1581-1591|1987|10.2307/1939850
87751|T||Sultana,P.|Efficacy of Sevin and Marshal as Bird Repellent|Bangladesh J. Zool.17(2): 131-134|1989|
87752|T||Bakonyi,G., P. Nagy, and I. Kadar|Long-Term Effects of Heavy Metals and Microelements on Nematode Assemblage|Toxicol. Lett.140-141:391-401|2003|10.1016/S0378-4274(03)00035-3
87753|T||Molina,E.D., R. Balander, S.D. Fitzgerald, J.P. Giesy, K. Kannan, R. Mitchell, and S.J. Bursian|Effects of Air Cell Injection of Perfluorooctane Sulfonate Before Incubation on Development of the White Leghorn Chicken (Gallus domesticus) Embryo|Environ. Toxicol. Chem.25(1): 227-232|2006|10.1897/04-414R.1
87754|T||Carricaburu,P., G. Biwer, and M. Goyffon|Effects of Carbaryl on the Spontaneous and Evoked Potentials of the Scorpion Prosomian Nervous System|Comp. Biochem. Physiol. C Comp. Pharmacol.73(1): 201-204|1982|10.1016/0306-4492(82)90191-5
87756|T||Li,L., Y. Xie, W.M. El-Sayed, J.G. Szakacs, and J.C. Roberts|Characteristics of Selenazolidine Prodrugs of Selenocysteine: Toxicity, Selenium Levels, and Glutathione Peroxidase Induction in A/J Mice|Life Sci.75(4): 447-459|2004|10.1016/j.lfs.2003.12.018
87758|T||Morey,M., F. Serras, and M. Corominas|Halving the Selenophosphate Synthetase Gene Dose Confers Hypersensitivity to Oxidative Stress in Drosophila melanogaster|FEBS Lett.534(1-3): 111-114|2003|10.1016/S0014-5793(02)03790-0
87759|T||Fediuc,E., S.H. Lips, and L. Erdei|O-Acetylserine (Thiol) Lyase Activity in Phragmites and Typha Plants Under Cadmium and NaCl Stress Conditions and the Involvement of ABA in the Stress Response|J. Plant Physiol.162(8): 865-872|2005|10.1016/j.jplph.2004.11.015
87760|T||Amin,R.P., A.E. Vickers, F. Sistare, K.L. Thompson, R.J. Roman, M. Lawton, J. Kramer, H.K. Hamadeh, J. Collins, S. Gris|Identification of Putative Gene-Based Markers of Renal Toxicity|Environ. Health Perspect.112(4): 465-479|2004|10.1289/ehp.6683
87761|T||Marzouk,A., and F.W.Jr. Sunderman|Biliary Excretion of Nickel in Rats|Toxicol. Lett.27(1-3): 65-71|1985|10.1016/0378-4274(85)90121-3
87762|T||Jasim,S., and H. Tjalve|Mobilization of Nickel by Potassium Ethylxanthate in Mice:  Comparison with Sodium Diethyldithiocarbamate and Effect of Intravenous Versus Oral Administration.|Toxicol. Lett.31(3): 249-255|1986|10.1016/0378-4274(86)90133-5
87763|T||Raos,N., and K.S. Kasprzak|Effect of Nickel(II)Acetate on Distribution of Calmodulin in the Rat Kidney|Toxicol. Lett.48(3): 275-282|1989|10.1016/0378-4274(89)90054-4
87764|T||Rodriguez,R.E., M. Misra, S.L. North, and K.S. Kasprzak|Nickel-Induced Lipid Peroxidation in the Liver of Different Strains of Mice and Its Relation to Nickel Effects on Antioxidant Systems|Toxicol. Lett.57(3): 269-281|1991|10.1016/0378-4274(91)90201-G
87765|T||Tallkvist,J., and H. Tjalve|Effect of Dietary Iron-Deficiency on the Disposition of Nickel in Rats|Toxicol. Lett.92(2): 131-138|1997|10.1016/S0378-4274(97)00051-9
87766|T||Xie,J., T. Funakoshi, H. Shimada, and S. Kojima|Effects of Chelating Agents on Testicular Toxicity in Mice Caused by Acute Exposure to Nickel|Toxicology103(3): 147-155|1995|10.1016/0300-483X(95)03134-2
87767|T||Stinson,T.J., S. Jaw, E.H. Jeffery, and M.J. Plewa|The Relationship Between Nickel Chloride-Induced Peroxidation and DNA Strand Breakage in Rat Liver|Toxicol. Appl. Pharmacol.117(1): 98-103|1992|10.1016/0041-008X(92)90222-E
87768|T||Hogan,G.R.|Decreased Levels of Peripheral Leukocytes Following Sodium Selenite Treatment in Female Mice|Bull. Environ. Contam. Toxicol.37(2): 175-179|1986|10.1007/BF01607746
87769|T||Meneguz,A., and H. Michalek|Effect of Zineb and Its Metabolite, Ethylenethiourea, on Hepatic Microsomal Systems in Rats and Mice|Bull. Environ. Contam. Toxicol.38(5): 862-867|1987|10.1007/BF01616713
87770|T||Perry,H.M.,Jr., M.W. Erlanger, and E.F. Perry|Effect of a Second Metal on Cadmium-Induced Hypertension|Arch. Environ. Health38(2): 80-85|1983|10.1080/00039896.1983.10543985
87771|T||Ostadalova,I., A. Babicky, and J. Kopoldova|Ontogenic Changes in Selenite Metabolism in Rats|Arch. Toxicol.49(3/4): 247-252|1982|10.1007/BF00347872
87776|T||Harmens,H., P.R. Den Hartog, W.M. Ten Bookum, and J.A.C. Verkleij|Increased Zinc Tolerance in Silene vulgaris (Moench) Garcke is not due to Increased Production of Phytochelatins|Plant Physiol.103(4): 1305-1309|1993|10.1104/pp.103.4.1305
87777|T||Bombi,G.G., B. Corain, M. Favarato, R. Giordano, M. Nicolini, M. Perazzolo, A. Tapparo, and P. Zatta|Experimental Aluminium Pathology in Rabbits: Effects of Hydrophilic and Lipophilic Compounds|Environ. Health Perspect.89:217-223|1991|10.1289/ehp.9089217
87778|A||Bejarano,A.C., G.T. Chandler, and A.W. Decho|Influence of Natural Dissolved Organic Matter (DOM) on Acute and Chronic Toxicity of the Pesticides Chlorothalonil, Chlorpyrifos and Fipronil on the Meiobenthic Estuarine Copepod Amphiascus tenuiremis|J. Exp. Mar. Biol. Ecol.321(1): 43-57|2005|10.1016/j.jembe.2005.01.003
87780|A||Schmitt-Jansen,M., and R. Altenburger|Toxic Effects of Isoproturon on Periphyton Communities - A Microcosm Study|Estuar. Coast. Shelf Sci.62(3): 539-545|2005|10.1016/j.ecss.2004.09.016
87781|T||Billitti,J.E., B.C. Faulkner, and B.W. Wilson|Absence of Acute Testicular Toxicity of Methyl-Tert Butyl Ether and Breakdown Products in Mice|Bull. Environ. Contam. Toxicol.75(2): 228-235|2005|10.1007/s00128-005-0742-8
87782|A||Brain,R.A., K.J. Bestari, H. Sanderson, M.L. Hanson, C.J. Wilson, D.J. Johnson, P.K. Sibley, and K.R. Solomon|Aquatic Microcosm Assessment of the Effects of Tylosin on Lemna gibba and Myriophyllum spicatum|Environ. Pollut.133(3): 389-401|2005|10.1016/j.envpol.2004.07.005
87783|T||Brzoska,M.M., M. Kamiski, D. Supernak-Bobko, K. Zwierz, and J. Moniuszko-Jakoniuk|Changes in the Structure and Function of the Kidney of Rats Chronically Exposed to Cadmium.  I.  Biochemical and Histopathological Studies|Arch. Toxicol.77(6): 344-352|2003|10.1007/s00204-003-0451-1
87784|T||Chen,B.D., X.L. Li, H.Q. Tao, P. Christie, and M.H. Wong|The Role of Arbuscular mycorrhiza in Zinc Uptake by Red Clover Growing in a Calcareous Soil Spiked with Various Quantities of Zinc|Chemosphere50(6): 839-846|2003|10.1016/S0045-6535(02)00228-X
87785|T||Bues,R., J.C. Bouvier, and L. Boudinhon|Insecticide Resistance and Mechanisms of Resistance to Selected Strains of Helicoverpa armigera (Lepidoptera:  Noctuidae) in the South of France|Crop Prot.24(9): 814-820|2005|10.1016/j.cropro.2005.01.006
87786|T||Corbel,V., F. Chandre, C. Brengues, M. Akogbeto, F. Lardeux, J.M. Hougard, and P. Guillet|Dosage-Dependent Effects of Permethrin-Treated Nets on the Behaviour of Anopheles gambiae and the Selection of Pyrethroid Resistance|Malar. J.3:22-|2004|10.1186/1475-2875-3-22
87787|T||De Souza,M.P., I.J. Pickering, M. Walla, and N. Terry|Selenium Assimilation and Volatilization from Selenocyanate-Treated Indian Mustard and Muskgrass|Plant Physiol.128(2): 625-633|2002|10.1104/pp.010686
87788|T||Deore,M.D., A.K. Srivastava, and S.K. Sharma|Effect of Reduced Glutathione Treatment on Selenosis, Blood Selenium Concentration and Glutathione Peroxidase Activity After Repeated Short-Term Selenium Exposure in Buffalo Calves|Toxicology213(1/2): 169-174|2005|10.1016/j.tox.2005.06.003
87789|T||Diel,P., S. Schmidt, G. Vollmer, P. Janning, A. Upmeier, H. Michna, H.M. Bolt, and G.H. Degen|Comparative Responses of Three Rat Strains (DA/Han, Sprague-Dawley and Wistar) to Treatment with Environmental Estrogens|Arch. Toxicol.78(4): 183-193|2004|10.1007/s00204-003-0535-y
87790|T||Kargacin,B., and M. Landeka|Effect of Glucocorticoids on Metal Retention in Rats|Bull. Environ. Contam. Toxicol.45(5): 655-661|1990|10.1007/BF01700982
87791|A||Singer,C., S. Zimmermann, and B. Sures|Induction of Heat Shock Proteins (hsp70) in the Zebra Mussel (Dreissena polymorpha) Following Exposure to Platinum Group Metals (Platinum, Palladium and Rhodium):  Comparison with Lead and Cadmium Exposures|Aquat. Toxicol.75(1): 65-75|2005|10.1016/j.aquatox.2005.07.004
87792|T||Marler,T.E.|Chemical Limitations of Yoga Root Growth in an Acid Soil|Micronesica37(1): 157-161|2004|
87794|AT||Cui,Y.J., Y.G. Zhu, F.A. Smith, and S.E. Smith|Cadmium Uptake by Different Rice Genotypes that Produce White or Dark Grains|J. Environ. Sci.16(6): 962-967|2004|
87795|T||Edwards,A.J., R.J. Price, A.B. Renwick, and B.G. Lake|Lack of Effect of Coumarin on Unscheduled DNA Synthesis in the In Vivo Rat Hepatocyte DNA Repair Assay|Food Chem. Toxicol.38(5): 403-409|2000|10.1016/S0278-6915(00)00016-8
87796|T||Kim,J., M.C. Drew, and M.Y. Corapcioglu|Uptake and Phytotoxicity of TNT in Onion Plant|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control39(3): 803-819|2004|
87797|A||Lee,S.E., D.H. Yoo, J. Son, and K. Cho|Proteomic Evaluation of Cadmium Toxicity on the Midge Chironomus riparius Meigen Larvae|Proteomics6(3): 945-957|2006|10.1002/pmic.200401349
87798|T||Si,P., M.W. Sweetingham, B.J. Buirchell, D.G. Bowran, and T. Piper|Genotypic Variation in Metribuzin Tolerance in Narrow-Leafed Lupin (Lupinus angustifolius L.)|Aust. J. Exp. Agric.46(1): 85-91|2006|10.1071/EA04272
87799|T||Lalor,J.H., and G.C. Llewellyn|Biointeraction of Sodium Selenite and Aflatoxin B1 in the Mongolian Gerbil|J. Toxicol. Environ. Health8(3): 387-400|1981|10.1080/15287398109530077
87800|A||Mohite,A.S., I.A. Raja, and K.M. Kulkarni|Toxicity of Thiodan and Dimecron to the Fresh Water Fish Rasbora daniconius|Environ. Ecol.22(Spl-3): 572-575|2004|
87802|T||Pant,S., G.S. Rao, K.V.H. Sastry, H.C. Tripathi, Jagmohan, and J.K. Malik|Pharmacokinetics and Tissue Residues of Pefloxacin and Its Metabolite Norfloxacin in Broiler Chickens|Br. Poult. Sci.46(5): 615-620|2005|10.1080/00071660500255323
87803|T||Klayman,D.L., J.P. Scovill, F. Bartosevich, and C.J. Mason|2-Acetylpyridine Thiosemicarbazones. 3. Selenium Analogs as Potential Antimalarial Agents|Eur. J. Med. Chem.16(4): 317-320|1981|
87805|T||Lee,M.H., and S.H. Oh|Effect of Selenium on Tissue Sulfhydryl Groups and Glutathione-Linked Enzymes in Rats Intoxicated with Cadmium|Korean J. Biochem.13(2): 167-175|1981|
87806|A||Prashanth,M.S., M. David, and R.C. Kuri|Effects of Cypermethrin on Toxicity and Oxygen Consumption in the Freshwater Fish, Cirrhinus mrigala|J. Ecotoxicol. Environ. Monit.13(4): 271-277|2003|
87807|A||Satyanarayan,S., R.S. Bejankiwar, P.R. Chaudhari, J.P. Kotangale, and A. Satyanarayan|Impact of Some Chlorinated Pesticides on the Haematology of the Fish Cyprinus carpio and Puntius ticto|J. Environ. Sci.16(4): 631-634|2004|
87808|T||Whitfield,L., A.J. Richards, and D.L. Rimmer|Effects of Mycorrhizal Colonisation on Thymus polytrichus from Heavy-Metal-Contaminated Sites in Northern England|Mycorrhiza14:47-54|2004|10.1007/s00572-003-0269-y
87809|T||Maleszka,R., P. Helliwell, and R. Kucharski|Pharmacological Interference with Glutamate Re-Uptake Impairs Long-Term Memory in the Honeybee, Apis mellifera|Behav. Brain Res.115(1): 49-53|2000|10.1016/S0166-4328(00)00235-7
87811|T||Ali,G.M., N. Murtaza, N.M. Khan, J.C. Collins, and T. McNeilly|The pH Stress on Plant Growth of Arabidopsis thaliana and Pearl Millet in NaCl and Na2CO3 Solutions|J. Food Agric. Environ.2(3/4): 230-233|2004|
87812|A||John,P.J., and A. Prakash|Acute Toxicity of Metasystox and Sevin to Mystus vittatus|J. Ecotoxicol. Environ. Monit.8(3): 169-177|1998|
87813|T||Saghir,S.A., M. Lebofsky, D.M. Pinson, and K.K. Rozman|Validation of Haber's Rule (Dose x Time=Constant) in Rats and Mice for Monochloroacetic Acid and 2,3,7,8 - Tetrachlorodibenzo-p-Dioxin Under Conditions of Kinetic Steady Rate|Toxicology215:48-56|2005|10.1016/j.tox.2005.06.009
87814|T||Andre,F., J. Gillon, C. Andre, and G. Jourdan|Prevention of Reaginic Antibody Production and Anaphylactic Gastric Ulcer by Pesticides and by a Polychlorinated Biphenyl|Environ. Res.25(2): 381-385|1981|10.1016/0013-9351(81)90040-2
87815|A||Regoli,F., M. Nigro, M. Benedetti, S. Gorbi, C. Pretti, P.G. Gervasi, and D. Fattorini|Interactions Between Metabolism of Trace Metals and Xenobiotic Agonists of the Aryl Hydrocarbon Receptor in the Antarctic Fish Trematomus bernacchii:  Environmental Perspectives|Environ. Toxicol. Chem.24(6): 1475-1482|2005|10.1897/04-514R.1
87816|T||Pu,X., L.S. Lee, R.E. Galinsky, and G.P. Carlson|Bioavailability of 2,3',4,4',5 - Pentachlorobiphenyl (PCB118) and 2,2',5,5' - Tetrachlorobiphenyl (PCB52) from Soils Using a Rat Model and a Physiologically Based Extraction Test|Toxicology217:14-21|2006|10.1016/j.tox.2005.08.012
87817|A||Arzuaga,X., D. Wassenberg, R. Di Giulio, and A. Elskus|The Chlorinated AHR Ligand 3,3',4,4',5-Pentachlorobiphenyl (PCB126) Promotes Reactive Oxygen Species (ROS) Production During Embryonic Development in the Killifish (Fundulus heteroclitus)|Aquat. Toxicol.76:13-23|2006|10.1016/j.aquatox.2005.07.013
87819|T||Filazi,A., U.T. Sireli, and O. Cadirci|Residues of Gentamicin in Eggs Following Medication of Laying Hens|Br. Poult. Sci.46(5): 580-583|2005|10.1080/00071660500273243
87821|A||Nalecz-Jawecki,G., and G. Persoone|Toxicity of Selected Pharmaceuticals to the Anostracan Crustacean Thamnocephalus platyurus. Comparison of Sublethal and Lethal Effect Levels with the 1h Rapidtoxkit and the 24h Thamnotoxkit Microbiotests|Environ. Sci. Pollut. Res.13(1): 22-27|2006|10.1065/espr2006.01.005
87823|T||Blake,C.A., F.R. Boockfor, J.U. Nair-Menon, C.F. Millette, S.S. Raychoudhury, and G.L. McCoy|Effects of 4-Tert-Octylphenol Given in Drinking Water for 4 Months on the Male Reproductive System of Fischer 344 Rats|Reprod. Toxicol.18:43-51|2004|10.1016/j.reprotox.2003.09.003
87824|A||Su,T., and M.S. Mulla|Toxicity and Effects of Microbial Mosquito Larvicides and Larvicidal Oil on the Development and Fecundity of the Tadpole Shrimp Triops newberryi (Packard) (Notostraca:  Triopsidae)|J. Vector Ecol.30(1): 107-114|2005|
87825|A||Cetin,H., A. Yanikoglu, and J.E. Cilek|Evaluation of the Naturally-Derived Insecticide Spinosad Against Culex pipiens L. (Diptera:  Culicidae) Larvae in Septic Tank Water in Antalya, Turkey|J. Vector Ecol.30(1): 151-154|2005|
87826|T||Leyronas,C., B. Meriaux, and G. Raynal|Chemical Control of Neotyphodium spp. Endophytes in Perennial Ryegrass and Tall Fescue Seeds|Crop Sci.46(1): 98-104|2006|10.2135/cropsci2005.0135
87827|T||Kim,Y.K., J.K. Choi, J.S. Kim, and Y.S. Park|Changes in Renal Function in Cadmium-Intoxicated Rats|Pharmacol. Toxicol.63(5): 342-350|1988|10.1111/j.1600-0773.1988.tb00966.x
87828|T||Payne,K.A., H.C. Bowen, J.P. Hammond, C.R. Hampton, J.R. Lynn, A. Mead, K. Swarup, M.J. Bennett, P.J. White, and M.R. B|Natural Genetic Variation in Caesium (Cs) Accumulation by Arabidopsis thaliana|New Phytol.162:535-548|2004|10.1111/j.1469-8137.2004.01026.x
87829|T||Prasad,T., S.P. Arora, and R.C. Chopra|Selenium Toxicity as Induced by Feeding Rice Husk to Buffalo Calves:  A Clinical Case Report|Indian Vet. J.59(3): 235-237|1982|
87830|T||Karavangeli,M., N.E. Labrou, Y.D. Clonis, and A. Tsaftaris|Development of Transgenic Tobacco Plants Overexpressing Maize Glutathione S-Transferase I for Chloroacetanilide Herbicides Phytoremediation|Biomol. Eng.22(4): 121-128|2005|10.1016/j.bioeng.2005.03.001
87831|A||Nikookar,K., A. Moradshahi, and L. Hosseini|Physiological Responses of Dunaliella salina and Dunaliella tertiolecta to Copper Toxicity|Biomol. Eng.22(4): 141-146|2005|10.1016/j.bioeng.2005.07.001
87833|A||Teng,H.J., L.C. Lu, Y.L. Wu, and J.G. Fang|Evaluation of Various Control Agents Against Mosquito Larvae in Rice Paddies in Taiwan|J. Vector Ecol.30(1): 126-132|2005|
87834|T||Hodge,S., G.A. Thompson, and G. Powell|Application of DL-beta-Aminobutyric Acid (BABA) as a Root Drench to Legumes Inhibits the Growth and Reproduction of the Pea Aphid Acyrthosiphon pisum (Hemiptera:  Aphididae)|Bull. Entomol. Res.95(5): 449-455|2005|10.1079/BER2005375
87835|T||Ansari,M.S., W.J. Miller, D.L. Hampton, R.L. Kincaid, M.W. Neathery, J.W. Lassiter, and R.P. Gentry|Application of a Direct Intestinal Dosing Procedure for Determining Absorption Sites of 65Zn, 59Fe, 54Mn and 75Se in Rats|Indian Vet. J.58(7): 539-543|1981|
87836|A||Turkmen,G.|Effect of Linear Alkylbenzene Sulfonate on Some Biochemical Parameters in Rainbow Trouts (Oncorhynchus mykiss)|Med. Weter. (Multiple Languages)60(5): 478-480|2004|
87837|T||Dougherty,J.J., and W.G. Hoekstra|Effects of Vitamin E and Selenium on Copper-Induced Lipid Peroxidation In Vivo and on Acute Copper Toxicity|Proc. Soc. Exp. Biol. Med.169(2): 201-208|1982|10.3181/00379727-169-41332
87838|T||Songur,S.H., E.A. Kockaya, G. Selmanoglu, and N. Barlas|Dose-Dependent Effects of Carbendazim on Rat Thymus|Cell Biochem. Funct.23(6): 457-460|2005|10.1002/cbf.1181
87839|T||Anonymous|Sulphur-Selenium Interactions in Subterranean Clover:  Research Indicates Little Risk of Antagonism|Sulphur Agric.6:4-6|1982|
87840|T||Paasikallio,A.|The Effect of Soil pH and Fe on the Availability of 75Se in Sphagnum Peat Soil|Ann. Agric. Fenn.20(1): 15-24|1981|
87841|T||Kikui,S., T. Sasaki, M. Maekawa, A. Miyao, H. Hirochika, H. Matsumoto, and Y. Yamamoto|Physiological and Genetic Analyses of Aluminium Tolerance in Rice, Focusing on Root Growth During Germination|J. Inorg. Biochem.99(9): 1837-1844|2005|10.1016/j.jinorgbio.2005.06.031
87842|A||Gravato,C., M. Oliveira, and M.A. Santos|Genotoxic Effects and Oxidative Stress Responses Induced by Retene in Marine Mussels (Mytilus galloprovincialis)|Fresenius Environ. Bull.13(8): 795-800|2004|
87843|T||Bedi,S.P.S., and P.C. Sawhney|Influence of Zinc on the Metabolism of Calcium, Phosphorus, Zinc, Copper and Iron in Growing Cow Calves|Indian J. Anim. Sci.50(1): 25-29|1980|
87845|T||Ishibashi,N., and S. Takii|Effects of Insecticides on Movement, Nictation, and Infectivity of Steinernema carpocapsae|J. Nematol.25(2): 204-213|1993|
87846|T||Pessah,I.N., and P.G. Sokolove|The Interaction of Organophosphate and Carbamate Insecticides with Cholinesterases in the Terrestrial Pulmonate, Limax maximus|Comp. Biochem. Physiol. C Comp. Pharmacol.74(2): 291-297|1983|10.1016/0742-8413(83)90103-2
87848|T||Nes,W.D., and P.H. Le|Regulation of Sterol Biosynthesis in Saprolegnia ferax by 25-Azacholesterol|Pestic. Biochem. Physiol.30(1): 87-94|1988|10.1016/0048-3575(88)90063-6
87850|T||Koeter,H.B.W.M., and A. Bar|Embryotoxicity and Teratogenicity Studies with Lactitol in Rats|J. Am. Coll. Toxicol.11(2): 249-257|1992|10.3109/10915819209141502
87851|T||Ruppert,P.H., L.L. Cook, K.F. Dean, and L.W. Reiter|Acute Behavioral Toxicity of Carbaryl and Propoxur in Adults Rats|Pharmacol. Biochem. Behav.18(4): 579-584|1983|10.1016/0091-3057(83)90284-8
87852|T||Heise,G.A., and J.D. Hudson|Effects of Pesticides and Drugs on Working Memory in Rats:  Continuous Non-Match|Pharmacol. Biochem. Behav.23(4): 599-605|1985|10.1016/0091-3057(85)90424-1
87853|T||Lechelt-Kunze,C., R.C. Meissner, M. Drewes, and K. Tietjen|Flufenacet Herbicide Treatment Phenocopies the Fiddlehead Mutant in Arabidopsis thaliana|Pest Manag. Sci.59(8): 847-856|2003|10.1002/ps.714
87855|T||Anger,W.K., and S.M. Wilson|Effects of Carbaryl on Variable Interval Response Rates in Rats|Neurobehav.Toxicol.2(1): 21-24|1980|
87856|T||Shukla,Y., M. Antony, and N.K. Mehrotra|Carcinogenic and Cocarcinogenic Studies with Carbaryl Following Topical Exposure in Mice|Cancer Lett.62(2): 133-140|1992|10.1016/0304-3835(92)90183-V
87857|T||Takahashi,R.N., A. Poli, G.S. Morato, T.C.M. Lima, and M. Zanin|Behavioral and Biochemical Changes Following Repeated Administration of Carbaryl to Aging Rats|Braz. J. Med. Biol. Res.23(9): 879-882|1990|
87858|A||De Mel,G.W.J.L.M.V.T.M., and A. Pathiratne|Toxicity Assessment of Insecticides Commonly Used in Rice Pest Management to the Fry of Common Carp, Cyprinus carpio, a Food Fish Culturable in Rice Fields|J. Appl. Ichthyol.21(2): 146-150|2005|10.1111/j.1439-0426.2004.00607.x
87860|T||Sohn,Y.G., R.J.H. Kueh, K.Y. Kang, and J.J. Lee|Effects of NaCl Stress on Germination, Antioxidant Responses, and Proline Content in Two Rice Cultivars|J. Plant Biol.48(2): 201-208|2005|10.1007/BF03030409
87861|T||Storer,R.D., M.E. Cartwright, W.O. Cook, K.A. Soper, and W.W. Nichols|Short-Term Carcinogenesis Bioassay of Genotoxic Procarcinogens in PIM Transgenic Mice|Carcinogenesis16(2): 285-293|1995|10.1093/carcin/16.2.285
87862|T||De Oliveira,G.H., W.A. Saad, and L. Larini|Effects of Carbamates on the Hemodynamic Parameters of Rats Treated or not with alpha-Pyridylaldoxime Methylsulfomethylate (P2S)|Rev. Cienc. Farm. (Sao Paulo)13:67-76|1991|
87863|T||Dharamvir, and R.K. Sharma|Efficacy of Fungicides XXXII, Studies on the Shelf Life of Organo-Mercurial Fungicides|Indian J. Plant Pathol.4(2): 179-181|1986|
87865|T||Nair,G.A., A.I. Mohamed, and K.C. Bhuyan|Comparative Effects of Chemical Pesticides on Survival, Body Mass and Respiration of the Pulmonate Slugs, Milax rusticus (Millet, 1843) and Milax sowerbyi (Ferussac, 1823) (Mollusca:  Milacidae)|J. Afr. Zool.109(2): 141-149|1995|
87867|T||Gupta,M., and M.K.P. Amma|Alterations in Hepatic Biochemistry of Mice Intoxicated with MIC, Carbaryl and Thiram|J. Appl. Toxicol.13(1): 33-37|1993|10.1002/jat.2550130108
87868|T||Mathur,A., and P. Bhatnagar|A Teratogenic Study of Carbaryl in Swiss Albino Mice|Food Chem. Toxicol.29(9): 629-632|1991|10.1016/0278-6915(91)90145-W
87869|T||Ehrich,M., L. Shell, M. Rozum, and B.S. Jortner|Short-Term Clinical and Neuropathologic Effects of Cholinesterase Inhibitors in Rats|J. Am. Coll. Toxicol.12(1): 55-68|1993|10.3109/10915819309140622
87870|T||Saraf,M., A. Khandelwal, R. Sawhney, and D.K. Maheshwari|Effects of Carbaryl and 2,4-D on Growth, Nitrogenase and Uptake Hydrogenase Activity in Agar Culture and Root Nodules Formed by Bradyrhizobium japonicum|Microbiol. Res.149(4): 401-406|1994|10.1016/S0944-5013(11)80090-X
87871|A||Bielecki,A.|The Effect of Phoschlorine, Carbatox and Copper Sulphate on the Development of Eggs and Hatching of Miracidia in Fasciola hepatica L.|Zool. Pol.34(1-4): 209-220|1987|
87872|T||Schillaci,M., S.E. Martin, and J.A. Milner|The Effects of Dietary Selenium on the Biotransformation of 7,12-Dimethylbenz[a]anthracene|Mutat. Res.101(1): 31-37|1982|10.1016/0165-1218(82)90162-8
87874|T||Nielsen,D.G., and M.J. Dunlap|Chokecherry, Efficacy of Experimental Insecticides Against Eastern Tent Caterpillar, Carroll Co., OH, 1984|Insectic. Acaric. Tests11:376-377|1986|10.1093/iat/11.1.376a
87875|T||Hynson,T.P., and R.M. McPherson|Cereal Leaf Beetle Control with Foliar Insecticides, 1985|Insectic. Acaric. Tests11:366-367|1986|10.1093/iat/11.1.366a
87876|T||McPherson,R.M., T.P. Hynson, and S.D. Weeks|Green Cloverworm Control with Foliar Insecticides, 1985|Insectic. Acaric. Tests11:346-347|1986|10.1093/iat/11.1.346
87877|T||McPherson,R.M., S.D. Weeks, and T.P. Hynson|Corn Earworm Control with Foliar Insecticides, 1985|Insectic. Acaric. Tests11:345-346|1986|10.1093/iat/11.1.345
87878|T||Hammond,R.B., and E. Ressler|Foliar-Applied Insecticide Trials on Soybeans, 1985|Insectic. Acaric. Tests11:342-|1986|
87879|T||Peters,L.L.|Chinch Bug Control, 1980|Insectic. Acaric. Tests11:327-|1986|
87880|T||Fitt,J.R.,Jr., and G.L. Teetes|Chemical Control of Sorghum Midge on Sorghum, 1985|Insectic. Acaric. Tests11:322-|1986|10.1093/iat/11.1.322
87881|T||Luttrell,R.G., M. Bell, and J. Reed|Early Season Insecticide Study (MSU), 1985|Insectic. Acaric. Tests11:288-289|1986|10.1093/iat/11.1.288
87882|T||Luttrell,R., M. Bell, J. Reed, and D. Gary|Early Season Insecticide Study, 1985|Insectic. Acaric. Tests11:287-288|1986|10.1093/iat/11.1.287
87883|T||Fitt,J.,Jr., and G.L. Teetes|Chemical Control of Cotton Bollworm and Tobacco Budworm on Cotton, 1985|Insectic. Acaric. Tests11:265-266|1986|10.1093/iat/11.1.265
87884|T||Whalen,J., and H. Vanderhoef|Potato Leafhopper Control on Alfalfa, 1985|Insectic. Acaric. Tests11:221-|1986|10.1093/iat/11.1.221
87885|T||Krueger,C.A., and E.B. Radcliffe|Alfalfa Insect Control, Minnesota, 1985|Insectic. Acaric. Tests11:213-214|1986|10.1093/iat/11.1.213
87886|T||Watrin,C.G., and E.B. Radcliffe|Control of Tomato Fruitworm Control in Puerto Rico on Three Tomato Cultivars, 1984-85|Insectic. Acaric. Tests11:200-|1986|10.1093/iat/11.1.200
87887|T||Watrin,C.G., and E.B. Radcliffe|Green Peach Aphid Control with Foliar Insecticides on Potato in Puerto Rico, 1985|Insectic. Acaric. Tests11:183-184|1986|10.1093/iat/11.1.183
87889|T||Flood,B.R.|European Corn Borer Control in Snap Beans, 1985|Insectic. Acaric. Tests11:106-107|1986|10.1093/iat/11.1.106
87890|T||Flood,B.R.|European Corn Borer Control in Snap Beans, 1984|Insectic. Acaric. Tests11:105-106|1986|10.1093/iat/11.1.105a
87891|T||Williams,R.N., M.A. Ellis, D.S. Fickle, and D.M. Pavuk|Larvicidal Evaluation for the Control of Endopiza viteana, 1985|Insectic. Acaric. Tests11:89-|1986|10.1093/iat/11.1.89
87892|T||Williams,R.N., M.A. Ellis, D.S. Fickle, and D.M. Pavuk|Evaluation of Insecticides for Control of Leaf Form of Daktulosphaira vitifoliae, 1985|Insectic. Acaric. Tests11:88-89|1986|10.1093/iat/11.1.88
87893|T||Webb,D.R., and C.J. Eckenrode|Cutworm Control on Lettuce, 1985|Insectic. Acaric. Tests11:145-|1986|10.1093/iat/11.1.145a
87894|T||Stephens,G.R.|Control of Spruce Gall Midge in Southern CT 1983|Insectic. Acaric. Tests11:431-|1986|10.1093/iat/11.1.431
87895|T||Ghidiu,G.M.|Foliar Sprays to Control Insect Pests on Late-Planted Sweet Corn, 1985|Insectic. Acaric. Tests11:130-131|1986|10.1093/iat/11.1.130
87896|T||Vittum,P.J.|Efficacy of Two Carbamates Against Japanese Beetle Grubs, Massachusetts Golf Course, 1985|Insectic. Acaric. Tests11:402-403|1986|
87897|T||Stone,J.D.|White Grub Control in Turf with Insecticides, 1984|Insectic. Acaric. Tests11:393-|1986|10.1093/iat/11.1.393
87898|T||Williams,R.N., D.S. Fickle, and D.M. Pavuk|Bioassay Evaluation of Japanese Beetle Adulticides on Grapes, 1985|Insectic. Acaric. Tests11:87-88|1986|10.1093/iat/11.1.87a
87899|T||Klein,M.G., J.J. Moyseenko, and R.N. Williams|Bioassay Evaluation of Japanese Beetle Adulticides on Grapes, 1985|Insectic. Acaric. Tests11:86-87|1986|10.1093/iat/11.1.86a
87900|T||Klein,M.G., and J.J. Moyseenko|Control of Japanese Beetle Adults on Rose, 1985|Insectic. Acaric. Tests11:429-430|1986|10.1093/iat/11.1.429a
87901|T||Epsky,N.D., and J.L. Capinera|Control of Onion Thrips, Seeded Onions, Ft. Collins, Colorado, 1985|Insectic. Acaric. Tests11:146-147|1985|10.1093/iat/11.1.146
87902|T||Ghidiu,G.M.|Control of Colorado Potato Beetle with Pyrethroid Insecticides, 1985|Insectic. Acaric. Tests11:158-159|1986|10.1093/iat/11.1.158a
87903|T||Sultatos,L.G., and L.D. Minor|Metabolic Activation of the Pesticide Azinphos-Methyl by Perfused Mouse Livers|Toxicol. Appl. Pharmacol.90(2): 227-234|1987|10.1016/0041-008X(87)90330-9
87904|T||Woodrow,R.J., J.K. Grace, and R.J. Oshiro|Comparison of Localized Injections of Spinosad and Selected Insecticides for the Control of Cryptotermes brevis (Isoptera:  Kalotermitidae) in Naturally Infested Structural Mesocosms|J. Econ. Entomol.99(4): 1354-1362|2006|10.1093/jee/99.4.1354
87905|A||Bueno,M., M.F. Fillat, R.J. Strasser, R. Maldonado-Rodriguez, N. Marina, H. Smienk, C. Gomez-Moreno, and F. Barja|Effects of Lindane on the Photosynthetic Apparatus of the Cyanobacterium Anabaena:  Fluorescence Induction Studies and Immunolocalization of Ferredoxin-NADP+ Reductase|Environ. Sci. Pollut. Res.11(2): 98-106|2004|10.1007/BF02979709
87906|T||Ray,N.R., and A.K. Ray|Studies on Some Aspects of Physiology During Selenium Toxicity|Indian J. Anim. Health21(1): 17-19|1982|
87907|T||Castro,A.J., C. Carapito, N. Zorn, C. Magn, E. Leize, A. Van Dorsselaer, and C. Clment|Proteomic Analysis of Grapevine (Vitis vinifera L.) Tissues Subjected to Herbicide Stress|J. Exp. Bot.56(421): 2783-2795|2005|10.1093/jxb/eri271
87908|T||Wade,M.G., A. Lee, A. McMahon, G. Cooke, and I. Curran|The Influence of Dietary Isoflavone on the Uterotrophic Response in Juvenile Rats|Food Chem. Toxicol.41(11): 1517-1525|2003|10.1016/S0278-6915(03)00168-6
87909|T||Poon,R., I. Chu, G. LeBel, A. Yagminas, and V.E. Valli|Effects of Dibromoacetonitrile on Rats Following 13-Week Drinking Water Exposure|Food Chem. Toxicol.41(8): 1051-1061|2003|10.1016/S0278-6915(03)00042-5
87910|T||Bondy,G., I. Curran, J. Doucet, C. Armstrong, L. Coady, L. Hierlihy, S. Fernie, P. Robertson, and M. Barker|Toxicity of Trans-Nonachlor to Sprague-Dawley Rats in a 90-Day Feeding Study|Food Chem. Toxicol.42(6): 1015-1027|2004|10.1016/j.fct.2004.02.014
87911|T||Cakir,S., and R. Sarikaya|Genotoxicity Testing of Some Organophosphate Insecticides in the Drosophila Wing Spot Test|Food Chem. Toxicol.43(3): 443-450|2005|10.1016/j.fct.2004.11.010
87912|T||Schafer,R.K., and R.K. Achazi|Toxicity of Hexyl to F. candida and E. crypticus|J. Soils Sediments4(3): 157-162|2004|10.1007/BF02991133
87913|T||Green,M., C. Wilson, O. Newell, S. Sadrud-Din, and R. Thomas|Diallyl Sulfide Inhibits Diethylstilbesterol-Induced DNA Adducts in the Breast of Female ACI Rats|Food Chem. Toxicol.43(9): 1323-1331|2005|10.1016/j.fct.2005.02.005
87915|T||Klein,P.J., T.R. Van Vleet, J.O. Hall, and R.A.,Jr. Coulombe|Effects of Dietary Butylated Hydroxytoluene on Aflatoxin B1-Relevant Metabolic Enzymes in Turkeys|Food Chem. Toxicol.41(5): 671-678|2003|10.1016/S0278-6915(02)00332-0
87916|T||Oishi,S.|Effects of Propyl Paraben on the Male Reproductive System|Food Chem. Toxicol.40(12): 1807-1813|2002|10.1016/S0278-6915(02)00204-1
87917|T||De Marco,A., M. Owczarek, M. Raglione, and B. Lanza|Reduced Clastogenic Activity of Maleic Hydrazide in Vicia faba Seedlings Grown in a Situation of Overcrowding Stress|Mutat. Res.581(1/2): 133-139|2005|10.1016/j.mrgentox.2004.11.017
87918|T||Ulutas,B., H. Voyvoda, G. Bayramli, and T. Karagenc|Efficacy of Topical Administration of Eprinomectin for Treatment of Ear Mite Infestation in Six Rabbits|Vet. Dermatol.16(5): 334-337|2005|10.1111/j.1365-3164.2005.00464.x
87919|A||Gheorghiu,C., D.J. Marcogliese, and M. Scott|Concentration-Dependent Effects of Waterborne Zinc on Population Dynamics of Gyrodactylus turnbulli (Monogenea) on Isolated Guppies (Poecilia reticulata)|Parasitology132(2): 225-232|2006|10.1017/S003118200500898X
87920|T||Chang,Y.Y., Y.S. Kwon, S.Y. Kim, I.S. Lee, and B. Bae|Enhanced Degradation of 2,4,6-Trinitrotoluene (TNT) in a Soil Column Planted with Indian Mallow (Abutilon avicennae)|J. Biosci. Bioeng.97(2): 99-103|2004|10.1016/S1389-1723(04)70175-9
87921|T||Bolan,N.S., D.C. Adriano, P. Duraisamy, and A. Mani|Immobilization and Phytoavailability of Cadmium in Variable Charge Soils.  III.  Effect of Biosolid Compost Addition|Plant Soil256:231-241|2003|10.1023/A:1026288021059
87922|T||Johnson,M.S., M.W. Michie, M.A. Bazar, and R.M.,Jr. Gogal|Influence of Oral 2,4-Dinitrotoluene Exposure to the Northern Bobwhite (Colinus virginianus)|Int. J. Toxicol.24(4): 265-274|2005|10.1080/10915810591007247
87923|T||Boutin,C., N. Elmegaard, and C. Kjaer|Toxicity Testing of Fifteen Non-Crop Plant Species with Six Herbicides in a Greenhouse Experiment:  Implications for Risk Assessment|Ecotoxicology13(4): 349-369|2004|10.1023/B:ECTX.0000033092.82507.f3
87924|T||Sahu,S.C., P.P. Sapienza, R.L. Sprando, T.F.X. Collins, I.A. Ross, T.J. Flynn, P.L. Wiesenfeld, M.W. O'Donnell, and C.S|Hepatotoxicity of Androstenedione in Pregnant Rats|Food Chem. Toxicol.43(2): 341-344|2005|10.1016/j.fct.2004.11.005
87925|T||Lowery,D.T., M.J. Smirle, R.G. Foottit, and E.H. Beers|Susceptibilities of Apple Aphid and Spirea Aphid Collected from Apple in the Pacific Northwest to Selected Insecticides|J. Econ. Entomol.99(4): 1369-1374|2006|10.1093/jee/99.4.1369
87927|T||Cowles,R.S., M.E. Montgomery, and C.A.S.J. Cheah|Activity and Residues of Imidacloprid Applied to Soil and Tree Trunks to Control Hemlock Woolly Adelgid (Hemiptera: Adelgidae) in Forests|J. Econ. Entomol.99(4): 1258-1267|2006|10.1093/jee/99.4.1258
87928|T||Nielsen,S.A., K.M.V. Jensen, M. Kristensen, and P. Westh|Energetic Cost of Subacute Chlorpyrifos Intoxication in the German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.35(4): 837-842|2006|
87929|T||Stutte,G.W., I. Eraso, S. Anderson, and R.D. Hickey|Bioactivity of Volatile Alcohols on the Germination and Growth of Radish Seedlings|Hortscience41(1): 108-112|2006|10.21273/HORTSCI.41.1.108
87930|T||McElroy,J.S., and G.K. Breeden|Tall Fescue Seedling Tolerance to Carfentrazone, Bromoxynil, Quinclorac, and Siduron|Hortscience41(1): 252-254|2006|10.21273/HORTSCI.41.1.252
87931|T||McCullough,P.E., S.E. Hart, S. Askew, P.H. Dernoeden, Z. Reicher, and D. Weisenberger|Kentucky Bluegrass Control with Postemergence Herbicides|Hortscience41(1): 255-258|2006|10.21273/HORTSCI.41.1.255
87932|T||Grace,N.D., P. Loganathan, M.J. Hedley, and G.C. Wallace|Ingestion of Soil Fluorine:  Its Impact on the Fluorine Metabolism and Status of Grazing Young Sheep|N. Z. J. Agric. Res.46:279-286|2003|10.1080/00288233.2003.9513555
87933|T||Martinka,M., and A. Lux|Response of Roots of Three Populations of Silene dioica to Cadmium Treatment|Biologia (Bratisl.)59:185-189|2004|
87934|T||Tao,X., Z.R. Xu, and Y.Z. Wang|Effect of Excessive Dietary Fluoride on Nutrient Digestibility and Retention of Iron, Copper, Zinc, and Manganese in Growing Pigs|Biol. Trace Elem. Res.107(2): 141-151|2005|10.1385/BTER:107:2:141
87935|T||Perry,H.M.,Jr., and M.W. Erlanger|Elevated Circulating Renin Activity in Rats Following Doses of Cadmium Known to Induce Hypertension|J. Lab. Clin. Med.82(3): 399-405|1973|
87936|A||Bhowmik,P., M. Mohasin, and A.K. Somchoudhury|Effect of Some Herbicides on an Agriculturally Important Non-Target Fauna-Crabs, Paratelphusa bouvieri (Rathbum)|Environ. Ecol.22(3): 494-496|2004|
87937|A||Mushigeri,S.B., and M. David|Toxicity of Synthetic Pyrethroid Insecticide Fenvalerate to the Freshwater Fish Cirrhinus mrigrala|J. Ecobiol.16(3): 169-174|2004|
87938|A||Villar,C.A., S.E. Gomez, and C.A. Bentos|Acute Cu Toxicity, Metal Bioaccumulation and Ion Loss in the Neotropical Cyprinodontiform Jenynsia multidentata|Rev. Mus. Argent. Cienc. Nat. Nueva Ser.6(1): 191-195|2004|
87939|T||Park,Y., K.J. Albright, and M.W. Pariza|Effects of Conjugated Linoleic Acid on Long Term Feeding in Fischer 344 Rats|Food Chem. Toxicol.43(8): 1273-1279|2005|10.1016/j.fct.2005.02.015
87940|T||Baek,K.H., J.Y. Chang, Y.Y. Chang, B.H. Bae, J. Kim, and I.S. Lee|Phytoremediation of Soil Contaminated with Cadmium and/or 2,4,6-Trinitrotoluene|J. Environ. Biol.27(2): 311-316|2006|
87941|A||Hartl,M., and H.U. Humpf|Toxicity Assessment of Fumonisins Using the Brine Shrimp (Artemia salina) Bioassay|Food Chem. Toxicol.38(12): 1097-1102|2000|10.1016/S0278-6915(00)00112-5
87942|A||dos Santos Miron,D., L.V.F. Da Silva, J.I. Golombieski, S.L. De oliveira Machado, E. Marchezan, and B. Baldisserotto|Lethal Concentration of Clomazone, Metsulfuron-Metil, and Quinclorac for Silver Catfish, Rhamdia quelen, Fingerlings|Ciencia Rural34(5): 1465-1469|2004|10.1590/S0103-84782004000500021
87943|T||Geng,C.N., Y.G. Zhu, Y. Hu, P. Williams, and A.A. Meharg|Arsenate Causes Differential Acute Toxicity to Two P-Deprived Genotypes of Rice Seedlings (Oryza sativa L.)|Plant Soil279(1/2): 297-306|2006|10.1007/s11104-005-1813-7
87944|T||Nguyen,N.T., M.J. Dudzinski, P.K. Mohapatra, and K. Fujita|Distribution of Accumulated Aluminum and Changes in Cell Wall Polysaccharides in Eucalyptus camaldulensis and Melaleuca cajuputi Under Aluminum Stress|Soil Sci. Plant Nutr.51(5): 737-740|2005|10.1111/j.1747-0765.2005.tb00103.x
87945|T||Nihei,N., T. Ohya, K. Tanoi, H. Iikura, B. Kanke, and T.M. Nakanishi|Influence of Mercury on Soybean Plants (Glycine max L.) at Low pH|Soil Sci. Plant Nutr.51(5): 725-727|2005|10.1111/j.1747-0765.2005.tb00100.x
87946|T||Kuo,M.C., and C.H. Kao|Antioxidant Enzyme Activities are Upregulated in Response to Cadmium in Sensitive, but not in Tolerant, Rice (Oryza sativa L.) Seedlings|Bot. Bull. Acad. Sin. (Taipei)45:291-299|2004|
87947|T||Kumar,S., and H.R. Dhingra|Sexual Reproduction and Cadmium Partitioning in Two Mungbean Genotypes Raised in Soils Contaminated with Cadmium|Indian J. Plant Physiol.10(2): 151-157|2005|
87948|T||Dewan,M., and H.R. Dhingra|Cadmium Partitioning and Seed Quality in Two Varieties of Pea and Their Hybrid as Influenced by Rhizospheric Cadmium|Indian J. Plant Physiol.9(1): 15-20|2004|
87949|A||Khandeparker,L., D. Desai, and Y. Shirayama|Larval Development and Post-Settlement Metamorphosis of the Barnacle Balanus albicostatus Pilsbry and the Serpulid Polychaete Pomatoleios kraussii Baird: Impact of a Commonly Used Antifouling Biocide, Irgarol 1051|Biofouling21(3/4): 169-180|2005|10.1080/08927010500221728
87950|T||Sonaa,H.E., and A.R.M. Sanaa|Effect of Bromoxynil Herbicide and Gibberellic Acid on Growth Characters, Yield, Chemical Composition and Associated Weeds (Chenopodium album L.) of Fenugreek Plants Under Salinity Irrigation|Bull. Natl. Res. Ctr.30(1): 117-131|2005|
87951|T||Khurana,N., M.V. Singh, and C. Chatterjee|Copper Stress Alters Physiology and Deteriorates Seed Quality of Rapeseed|J. Plant Nutr.29(1): 93-101|2006|10.1080/01904160500416489
87952|T||Lesage,E., E. Meers, P. Vervaeke, S. Lamsal, M. Hopgood, F.M.G. Tack, and M.G. Verloo|Enhanced Phytoextraction: II. Effect of EDTA and Citric Acid on Heavy Metal Uptake by Helianthus annuus from a Calcareous Soil|Int. J. Phytoremediat.7:143-152|2005|10.1080/16226510590950432
87953|T||Medina,A., N. Vassilev, J.M. Barea, and R. Azcon|Application of Aspergillus Niger-Treated Agrowaste Residue and Glomus mosseae for Improving Growth and Nutrition of Trifolium repens in a Cd-Contaminated Soil|J. Biotechnol.116:369-378|2005|10.1016/j.jbiotec.2004.12.009
87954|T||Da Silva,R.Z., and P.M.O.J. Neves|Techniques and Parameters Used in Compatibility Tests Between Beauveria bassiana (Bals) Vuill and In Vitro Phytosanitary Products|Pest Manag. Sci.61(7): 667-674|2005|10.1002/ps.1035
87955|T||Riley,D.G., and H.R. Pappu|Tactics for Management of Thrips (Thysanoptera: Thripidae) and Tomato Spotted Wilt Virus in Tomato|J. Econ. Entomol.97(5): 1648-1658|2004|10.1603/0022-0493-97.5.1648
87956|T||Rubinstein,G., S. Morin, and H. Czosnek|Transmission of Tomato Yellow Leaf Curl Geminivirus to Imidacloprid Treated Tomato Plants by the Whitefly Bemisia tabaci (Homoptera: Aleyrodidae)|J. Econ. Entomol.92(3): 658-662|1999|10.1093/jee/92.3.658
87957|T||Saber,M., M.J. Hejazi, K. Kamali, and S. Moharramipour|Lethal and Sublethal Effects of Fenitrothion and Deltamethrin Residues on the Egg Parasitoid Trissolcus grandis (Hymenoptera:  Scelionidae)|J. Econ. Entomol.98(1): 35-40|2005|10.1093/jee/98.1.35
87958|T||Scharf,M.E., C.R. Ratliff, and G.W. Bennett|Impacts of Residual Insecticide Barriers on Perimeter-Invading Ants, with Particular Reference to the Odorous House Ant, Tapinoma sessile|J. Econ. Entomol.97(2): 601-605|2004|10.1603/0022-0493-97.2.601
87959|T||Seagraves,M.P., and R.M. McPherson|Residual Susceptibility of the Red Imported Fire Ant (Hymenoptera: Formicidae) to Four Agricultural Insecticides|J. Econ. Entomol.96(3): 645-648|2003|10.1093/jee/96.3.645
87960|T||Showler,A.T., S.M. Greenberg, and J.T. Arnason|Deterrent Effects of Four Neem-Based Formulations on Gravid Female Boll Weevil (Coleoptera:  Curculionidae) Feeding and Oviposition on Cotton Squares|J. Econ. Entomol.97(2): 414-421|2004|10.1093/jee/97.2.414
87961|T||Showler,A.T.|Boll Weevil (Coleoptera:  Curculionidae) Damage to Cotton Bolls Under Standard and Proactive Spraying|J. Econ. Entomol.99(4): 1251-1257|2006|10.1093/jee/99.4.1251
87962|T||Snodgrass,G.L., J.J.,Jr. Adamczyk, and J. Gore|Toxicity of Insecticides in a Glass-Vial Bioassay to Adult Brown, Green, and Southern Green Stink Bugs (Heteroptera:  Pentatomidae)|J. Econ. Entomol.98(1): 177-181|2005|10.1093/jee/98.1.177
87964|T||Soeprono,A.M., and M.K. Rust|Effect of Delayed Toxicity of Chemical Barriers to Control Argentine Ants (Hymenoptera: Formicidae)|J. Econ. Entomol.97(6): 2021-2028|2004|10.1093/jee/97.6.2021
87965|T||Stark,J.D., R. Vargas, and N. Miller|Toxicity of Spinosad in Protein Bait to Three Economically Important Tephritid Fruit Fly Species (Diptera: Tephritidae) and Their Parasitoids (Hymenoptera:  Braconidae)|J. Econ. Entomol.97(3): 911-915|2004|10.1093/jee/97.3.911
87966|A||Reddy,R., B.R. Pillai, and S. Adhikari|Bioaccumulation of Copper in Post-Larvae and Juveniles of Freshwater Prawn Macrobrachium rosenbergii (de Man) Exposed to Sub-Lethal Levels of Copper Sulfate|Aquaculture252(2-4): 356-360|2006|10.1016/j.aquaculture.2005.07.010
87967|T||Rebek,E.J., and C.S. Sadof|Effects of Pesticide Applications on the Euonymus Scale (Homoptera: Diaspididae) and Its Parasitoid, Encarsia citrina (Hymenoptera:  Aphelinidae)|J. Econ. Entomol.96(2): 446-452|2003|10.1603/0022-0493-96.2.446
87968|T||Yee,W.L., and P.S. Chapman|Effects of GF-120 Fruit Fly Bait Concentrations on Attraction, Feeding, Mortality, and Control of Rhagoletis indifferens (Diptera:  Tephritidae)|J. Econ. Entomol.98(5): 1654-1663|2005|10.1093/jee/98.5.1654
87969|T||Wu,G., S. Jiang, and T. Miyata|Effects of Synergists on Toxicity of Six Insecticides in Parasitoid Diaeretiella rapae (Hymenoptera: Aphidiidae)|J. Econ. Entomol.97(6): 2057-2066|2004|10.1093/jee/97.6.2057
87970|T||Williamson,R.C.|Evaluation of a Nonconventional Insecticide and Appropriate Application Timing for Destruction of Gypsy moth (Lepidoptera: Lymantriidae) Egg Masses|J. Econ. Entomol.97(5): 1671-1674|2004|10.1603/0022-0493-97.5.1671
87971|T||Williams,T., J. Cisneros, D.I. Penagos, J. Valle, and P. Tamez-Guerra|Ultralow Rates of Spinosad in Phagostimulant Granules Provide Control of Spodoptera Frugiperda (Lepidoptera:  Noctuidae) in Maize|J. Econ. Entomol.97(2): 422-428|2004|10.1603/0022-0493-97.2.422
87972|T||Weick,J., and R.S. Thorn|Effects of Acute Sublethal Exposure to Coumaphos or Diazinon on Acquisition and Discrimination of Odor Stimuli in the Honey Bee (Hymenoptera: Apidae)|J. Econ. Entomol.95(2): 227-236|2002|10.1603/0022-0493-95.2.227
87973|A||Wan,M.T., J.N. Kuo, C. Buday, G. Schroeder, G. Van Aggelen, and J. Pasternak|Toxicity of alpha-, beta-, (alpha+beta)-Endosulfan and Their Formulated and Degradation Products to Daphnia magna, Hyalella azteca, Oncorhynchus mykiss, Oncorhynchus kisutch, and Biological Implications in Streams|Environ. Toxicol. Chem.24(5): 1146-1154|2005|10.1897/04-300R1.1
87974|T||Wagner,M.R., and Z. Chen|Long-Term Benefits to the Growth of Ponderosa Pines from Controlling Southwestern Pine Tip Moth (Lepidoptera:  Tortricidae) and Weeds|J. Econ. Entomol.97(6): 1972-1977|2004|10.1093/jee/97.6.1972
87975|T||Vargas,R.I., J.D. Stark, B. Mackey, and R. Bull|"Weathering Trials of Amulet Cue-Lure and Amulet Methyl Eugenol ""Attract-and-Kill"" Stations with Male Melon Flies and Oriental Fruit Flies (Diptera:  Tephritidae) in Hawaii"|J. Econ. Entomol.98(5): 1551-1559|2005|10.1603/0022-0493-98.5.1551
87976|T||Trisyono,A., and M.E. Whalon|Toxicity of Neem Applied Alone and in Combinations with Bacillus thuringiensis to Colorado Potato Beetle (Coleoptera: Chrysomelidae)|J. Econ. Entomol.92(6): 1281-1288|1999|10.1093/jee/92.6.1281
87977|T||Tran,S.T., D. Tardieu, A. Auvergne, J.D. Bailly, R. Babile, S. Durand, G. Benard, and P. Guerre|Serum Sphinganine and the Sphinganine to Sphingosine Ratio as a Biomarker of Dietary Fumonisins During Chronic Exposure in Ducks|Chem.-Biol. Interact.160(1): 41-50|2006|10.1016/j.cbi.2005.07.009
87978|T||Tindall,K.V., M.J. Stout, and B.J. Williams|Evaluation of the Potential Role of Glufosinate-Tolerant Rice in Integrated Pest Management Programs for Rice Water Weevil (Coleoptera: Curculionidae)|J. Econ. Entomol.97(6): 1935-1942|2004|10.1093/jee/97.6.1935
87979|T||Tillman,P.G., and B.G.,Jr. Mullinix|Comparison of Susceptibility of Pest Euschistus servus and Predator Podisus maculiventris (Heteroptera: Pentatomidae) to Selected Insecticides|J. Econ. Entomol.97(3): 800-806|2004|10.1603/0022-0493(2004)097[0800:COSOPE]2.0.CO;2
87980|T||Tardieu,D., S.T. Tran, A. Auvergne, R. Babile, G. Benard, J.D. Bailly, and P. Guerre|Effects of Fumonisins on Liver and Kidney Sphinganine and the Sphinganine to Sphingosine Ratio During Chronic Exposure in Ducks|Chem.-Biol. Interact.160(1): 51-60|2006|10.1016/j.cbi.2005.11.004
87981|T||Stumpf,N., and R. Nauen|Cross-Resistance, Inheritance, and Biochemistry of Mitochondrial Electron Transport Inhibitor-Acaricide Resistance in Tetranychus urticae (Acari:  Tetranychidae)|J. Econ. Entomol.94(6): 1577-1583|2001|10.1603/0022-0493-94.6.1577
87982|T||Rashid,P., and S. Mukherji|Lead Induced Stimulation in the Activities of Peroxidase and IAA Oxidase and Their Influence on the Growth in Mungbean|Pak. J. Sci. Ind. Res.39(9-12): 203-205|1996|
87983|T||Chanin,B.E., D.L. Hamilton, D.S. Hancock, and H.B. Schiefer|Biointeraction of Dietary T-2 Toxin and Zinc in Mice|Can. J. Physiol. Pharmacol.62(10): 1320-1326|1984|10.1139/y84-221
87984|T||Chang,S.W., S.J. Lee, and C.H. Je|Phytoremediation of Atrazine by Poplar Trees:  Toxicity, Uptake, and Transformation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40:801-811|2005|
87985|T||Shapiro,M.|Effects of Anion and Cation Inhibitors and Carbonic Anhydrase Inhibitors upon the Activity of the Gypsy Moth (Lepidoptera: Lymantriidae) Nucleo-Polyhedrovirus|J. Econ. Entomol.95(2): 237-242|2002|10.1603/0022-0493-95.2.237
87993|T||Chapin,R.E., J. Delaney, Y. Wang, L. Lanning, B. Davis, B. Collins, N. Mintz, and G. Wolfe|The Effects of 4-Nonylphenol in Rats: A Multigeneration Reproduction Study|Toxicol. Sci.52(1): 80-91|1999|10.1093/toxsci/52.1.80
87994|T||Liu,Y., J. Liu, S.S.M. Habeebu, and C.D. Klaassen|Metallothionein Protects Against the Nephrotoxicity Produced by Chronic CdMT Exposure|Toxicol. Sci.50(2): 221-227|1999|10.1093/toxsci/50.2.221
87995|T||Gressani,K.M., S. Leone-Kabler, M.G. O'Sullivan, A.J. Townsend, and M.S. Miller|Prenatal Toxicity and Lack of Carcinogenicity of 2-Amino-3-Methylimidazo [4,5-f]Quinoline (IQ) Following Transplacental Exposure|Toxicol. Sci.55(2): 407-414|2000|10.1093/toxsci/55.2.407
87996|T||Zheng,W., H. Kim, and Q. Zhao|Comparative Toxicokinetics of Manganese Chloride and Methylcyclopentadienyl Manganese Tricarbonyl (MMT) in Sprague-Dawley Rats|Toxicol. Sci.54(2): 295-301|2000|10.1093/toxsci/54.2.295
87998|T||Williams,G.M., M.J. Iatropoulos, C.X. Wang, A.M. Jeffrey, S. Thompson, B. Pittman, M. Palasch, and R. Gebhardt|Nonlinearities in 2-Acetylaminofluorene Exposure Responses for Genotoxic and Epigenetic Effects Leading to Initiation of Carcinogenesis in Rat Liver|Toxicol. Sci.45(2): 152-161|1998|10.1093/toxsci/45.2.152
87999|T||Ladics,G.S., C. Smith, S.C. Nicstro, S.E. Loveless, J.C. Cook, and J.C. O'Connor|Evaluation of the Primary Humoral Immune Response Following Exposure of Male Rats to 17 beta-Estradiol or Flutamide for 15 Days|Toxicol. Sci.46(1): 75-82|1998|
88001|T||Cagen,S.Z., J.M.,Jr. Waechter, S.S. Dimond, W.J. Breslin, J.H. Butala, F.W. Jekat, R.L. Joiner, R.N. Shiotsuka, G.E. Ve|Normal Reproductive Organ Development in CF-1 Mice Following Prenatal Exposure to Bisphenol A|Toxicol. Sci.50(1): 36-44|1999|10.1093/toxsci/50.1.36
88002|T||Manetz,T.S., and B.J. Meade|Development of a Flow Cytometry Assay for the Identification and Differentiation of Chemicals with the Potential to Elicit Irritation, IgE-Mediated, or T Cell-Mediated Hypersensitivity Responses|Toxicol. Sci.48(2): 206-217|1999|10.1093/toxsci/48.2.206
88003|T||Waalkes,M.P., M. Anver, and B.A. Diwan|Carcinogenic Effects of Cadmium in the Noble (NBL/Cr) Rat:  Induction of Pituitary, Testicular, and Injection Site Tumors and Intraepithelial Proliferative Lesions of the Dorsolateral Prostate|Toxicol. Sci.52(2): 154-161|1999|10.1093/toxsci/52.2.154
88004|T||Henry,M.H., R.D. Wyatt, and O.J. Fletcher|The Toxicity of Purified Fumonisin B1 in Broiler Chicks|Poult. Sci.79:1378-1384|2000|10.1093/ps/79.10.1378
88005|A||Iesce,M.R., F. Cermola, M.L. Graziano, S. Montella, L. Di Gioia, and M. Isidori|Sensitized Photooxygenation of the Fungicide Furalaxyl|Environ. Sci. Pollut. Res.11(4): 222-226|2004|10.1007/BF02979628
88006|T||Lidon,F.J.C.|Rice Adaptation to Excess Manganese: Nutrient Accumulation and Implications of the Quality of Crops|J. Plant Physiol.156(5-6): 652-658|2000|10.1016/S0176-1617(00)80227-8
88007|T||Vasquez,G.M., D.B. Orr, and J.R. Baker|Efficacy Assessment of Aphidius colemani (Hymenoptera: Braconidae) for Suppression of Aphis gossypii (Homoptera: Aphididae) in Greenhouse-Grown Chrysanthemum|J. Econ. Entomol.99(4): 1104-1111|2006|10.1093/jee/99.4.1104
88008|T||Drazkiewicz,M., and T. Baszynski|Growth Parameters and Photosynthetic Pigments in Leaf Segments of Zea mays Exposed to Cadmium, as Related to Protection Mechanisms|J. Plant Physiol.162(9): 1013-1021|2005|10.1016/j.jplph.2004.10.010
88009|T||Bollinger,T.K., P. Mineau, and M.L. Wickstrom|Toxicity of Sodium Chloride to House Sparrows (Passer domesticus)|J. Wildl. Dis.41(2): 363-370|2005|10.7589/0090-3558-41.2.363
88010|T||Matuseviciute,A., and I. Eitminaviciute|Effects of Different Cadmium Concentrations on Survival, Reproduction and Adaptation of Eisenia fetida californica|Acta Zool. Litu.15(4): 361-369|2005|10.1080/13921657.2005.10512702
88011|A||Banu,B.S., K. Danadevi, M.F. Rahman, Y.R. Ahuja, and J. Kaiser|Genotoxic Effect of Monocrotophos to Sentinel Species Using Comet Assay|Food Chem. Toxicol.39:361-366|2001|10.1016/S0278-6915(00)00141-1
88012|T||Gonzalez-Coloma,A., M. Reina, A. Medinaveitia, A. Guadano, O. Santana, R. Martinez-Diaz, L. Ruiz-Mesia, A. Alva, M. Gra|Structural Diversity and Defensive Properties of Norditerpenoid Alkaloids|J. Chem. Ecol.30(7): 1393-1408|2004|10.1023/B:JOEC.0000037747.74665.0a
88013|A||Tuberty,S.R., and C.L.,Jr. McKenney|Ecdysteroid Responses of Estuarine Crustaceans Exposed Through Complete Larval Development to Juvenile Hormone Agonist Insecticides|Integr. Comp. Biol.45(1): 106-117|2005|10.1093/icb/45.1.106
88014|T||Xu,S.Y., Y.X. Chen, Q. Lin, W.X. Wu, S.G. Xue, and C.F. Shen|Uptake and Accumulation of Phenanthrene and Pyrene in Spiked Soils by Ryegrass (Lolium perenne L.)|J. Environ. Sci.17(5): 817-822|2005|
88015|A||Aida,M., K. Itoh, H. Ikeda, N. Harada, Y. Ishii, and K. Usui|Susceptibilities of Some Aquatic Ferns to Paddy Herbicide Bensulfuron Methyl|Weed Biol. Manag.4(3): 127-135|2004|10.1111/j.1445-6664.2004.00129.x
88017|T||Edelstein,M., M. Ben-Hur, R. Cohen, Y. Burger, and I. Ravina|Comparison of Grafted and Non-Grafted Melon Plants Under Excess of Boron and Salinity Stress|In: A.Lebeda and H.S.Paris (Eds.), 8th EUCARPIA Meeting on Cucurbit Genetics and Breeding, Palacky University, Olomouc, Czech Republic:63-67|2004|
88018|T||Ferree,D.C., D.M. Scurlock, and J.C. Schmid|Chemical Bloom Thinning Hybrid Grape Cultivars|Small Fruits Rev.4(4): 83-93|2005|10.1300/J301v04n04_09
88019|T||Geter,D.R., T.M. Moore, M.H. George, S.R. Kilburn, J.W. Allen, G.M. Nelson, E. Winkfield, and A.B. DeAngelo|Tribromomethane Exposure and Dietary Folate Deficiency in the Formation of Aberrant Crypt Foci in the Colons of F344/N Rats|Food Chem. Toxicol.43(9): 1405-1412|2005|10.1016/j.fct.2005.03.015
88020|T||Bastos,C.S., R.P. De Almeida, and F.A. Suinaga|Selectivity of Pesticides Used on Cotton (Gossypium hirsutum) to Trichogramma pretiosum Reared on Two Laboratory-Reared Hosts|Pest Manag. Sci.62(1): 91-98|2006|10.1002/ps.1140
88021|T||Ballantyne,B., and W.M. Snellings|Developmental Toxicity Study with Diethylene Glycol Dosed by Gavage to CD Rats and CD-1 Mice|Food Chem. Toxicol.43(11): 1637-1646|2005|10.1016/j.fct.2005.05.005
88023|T||Nakadaira,H., T. Ishizu, and M. Yamamoto|Effects of Selenium on Gallbladder Carcinogenesis Induced by an Intracholecystic 3-Methylcholanthrene Beeswax Pellet in Female Syrian Golden Hamsters|Cancer Lett.106(2): 279-285|1996|10.1016/0304-3835(96)04327-3
88024|A||Allen,T., R. Singhal, and S.V.S. Rana|Resistance to Oxidative Stress in a Freshwater Fish Channa punctatus After Exposure to Inorganic Arsenic|Biol. Trace Elem. Res.98(1): 63-72|2004|10.1385/BTER:98:1:63
88025|T||Pelz-Stelinski,K.S., L.J. Gut, and R. Isaacs|Behavioral Responses of Rhagoletis cingulata (Diptera:  Tephritidae) to GF-120 Insecticidal Bait Enhanced with Ammonium Acetate|J. Econ. Entomol.99(4): 1316-1320|2006|10.1093/jee/99.4.1316
88026|T||Nault,B.A., J.Z. Zhao, R.W. Straub, J.P. Nyrop, and M.L. Hessney|Onion Maggot (Diptera:  Anthomyiidae) Resistance to Chlorpyrifos in New York Onion Fields|J. Econ. Entomol.99(4): 1375-1380|2006|10.1093/jee/99.4.1375
88027|T||Jallow,M.F.A., and C.W. Hoy|Quantitative Genetics of Adult Behavioral Response and Larval Physiological Tolerance to Permethrin in Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.99(4): 1388-1395|2006|10.1093/jee/99.4.1388
88030|A||Thursby,G.B., and M. Tagliabue|Effect of Diazinon on Sexual Reproduction in Champia|July 6th Memo to D.J.Hansen, U.S.EPA, Narragansett, RI:3 p.|1988|
88031|T||Singh,J., and D.K. Singh|Ammonium, Nitrate and Nitrite Nitrogen and Nitrate Reductase Enzyme Activity in Groundnut (Arachis hypogaea L.) Fields After Diazinon, Imidacloprid and Lindane Treatments|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(8): 1305-1318|2006|
88033|T||Lloyd,G.K., M.P. Liggett, S.R. Kynoch, and R.E. Davies|Assessment of the Acute Toxicity and Potential Irritancy of Hair Dye Constituents|Food Cosmet. Toxicol.15(6): 607-610|1977|10.1016/0015-6264(77)90077-3
88035|T||Mizell III,R.F., and D.E. Schiffhauer|Control of Glyphidocera juniperella Adamski in Container-Grown Juniper, 1984|Insectic. Acaric. Tests11:411-|1986|10.1093/iat/11.1.411a
88036|T||Sharpe,R.T., C.T. Livesey, I.H. Davies, J.R. Jones, and A. Jones|Diazinon Toxicity in Sheep and Cattle Arising from the Misuse of Unlicensed and Out-of-Date Products|Vet. Rec.159(1): 16-19|2006|10.1136/vr.159.1.16
88037|T||Talebi,K.|Dissipation of Phosalone and Diazinon in Fresh and Dried Alfalfa|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(5): 595-603|2006|
88040|T||Mazuranich,P.C., and J.A. Onsager|Laboratory Insecticide Bioassays, M. sanguinipes, Bozeman, Montana, 1977-1984|Insectic. Acaric. Tests11:308-|1986|10.1093/iat/11.1.308
88041|T||Aliano,N.P., M.D. Ellis, and B.D. Siegfried|Acute Contact Toxicity of Oxalic Acid to Varroa destructor (Acari:  Varroidae) and Their Apis mellifera (Hymenoptera:  Apidae) Hosts in Laboratory Bioassays|J. Econ. Entomol.99(5): 1579-1582|2006|10.1093/jee/99.5.1579
88042|T||Braga,I.A., C.B. Mello, I.R. Montella, J.B.P. Lima, A.D.J.M. Junior, P.F.V. Medeiros, and D. Valle|Effectiveness of Methoprene, an Insect Growth Regulator, Against Temephos-Resistant Aedes aegypti Populations from Different Brazilian Localities, Under Laboratory Conditions|J. Med. Entomol.42(5): 830-837|2005|10.1093/jmedent/42.5.830
88043|T||Brandenburg,R.L., and B.M. Royals|Surface Applied Insecticides for the Control of June Green Beetle Grubs in Bermudagrass, 1998|Arthropod Manag. Tests24:341-|1999|
88044|T||Burris,E., J.K. Sanders, K.E. Williams, and R.D. Bagwell|Efficacy of Temik 15G Sidedress Treatment Against Tarnished Plant Bugs in Cotton, 1998|Arthropod Manag. Tests24:240-241|1999|
88045|T||Carson,W.G., G.S. Kund, and J.T. Trumble|Impact of Insecticides on Celery Insects, 1996|Arthropod Manag. Tests24:115-116|1999|
88046|T||Brunner,J.F., M.D. Doerr, and C.A. Nobbs|Control of Lacanobia subjuncta with Carbaryl, Imidicloprid and Methomyl in Spring, 1998|Arthropod Manag. Tests:10-|1999|
88047|T||Carson,W.G., G.S. Kund, and J.T. Trumble|Effect of Insecticides on Celery Insects, 1997|Arthropod Manag. Tests24:117-120|1999|
88048|T||Ahmad,M., M.I. Arif, and I. Denholm|High Resistance of Field Populations of the Cotton Aphid Aphis gossypii Glover (Homoptera:  Aphididae) to Pyrethroid Insecticides in Pakistan|J. Econ. Entomol.96(3): 875-878|2003|10.1603/0022-0493-96.3.875
88049|T||Barak,A.V., Y. Wang, G. Zhan, Y. Wu, L. Xu, and Q. Huang|Sulfuryl Fluoride as a Quarantine Treatment for Anoplophora glabripennis (Coleoptera: Cerambycidae) in Regulated Wood Packing Material|J. Econ. Entomol.99(5): 1628-1635|2006|10.1093/jee/99.5.1628
88050|T||Brandenburg,R.L., and B.M. Royals|Thrips Control in Peanuts, 1998|Arthropod Manag. Tests24:260-261|1999|
88051|T||Bessin,R.T.|Western Corn Rootworm Larval Control, 1998|Arthropod Manag. Tests24:207-|1999|
88052|AT||Bernhardt,J.L.|Control of Rice Water Weevil with Selected Insecticides, 1998|Arthropod Manag. Tests24:270-271|1999|
88054|T||Bergh,J.C., D. Rugg, R.K. Jansson, C.W. McCoy, and J.L. Robertson|Monitoring the Susceptibility of Citrus Rust Mite (Acari: Eriophyidae) Populations to Abamectin|J. Econ. Entomol.92(4): 781-787|1999|10.1093/jee/92.4.781
88055|T||Bacheler,J.S., D.W. Mott, K.L. Edmisten, N.M. Cawley, and E.H. Straughn|Effect of Selected Insecticides for Thrips Control on Ultra Narrow Row Cotton, 1998|Arthropod Manag. Tests24:234-235|1999|
88056|T||Anderson,R.M., G.L. Teetes, and B.B. Pendleton|Sorghum Midge Suppression on Sorghum, 1998|Arthropod Manag. Tests24:280-281|1999|
88057|T||Armstrong,J.S., B. Dregseth, and A. Schroeder|At-Planting and Post-Planting Applications Granular Insecticides for Sugarbeet Root Maggot Control, 1998|Arthropod Manag. Tests24:298-299|1999|10.1093/amt/24.1.F118
88058|T||Boetel,M.A., and B.W. Fuller|Planting-Time and Post-Emergence Insecticide Treatments for Controlling Corn Rootworms in South Dakota, 1998|Arthropod Manag. Tests24:209-210|1999|
88059|T||Cook,D.R., E. Burris, and B.R. Leonard|Evaluation of Thrips Densities in At-Planting Seed and Soil Treatments Within Three Soil Environments, 1998|Arthropod Manag. Tests24:241-243|1999|10.1093/amt/24.1.F55
88060|T||Costello,R.W., and B.R. Leonard|Evaluation of Foliar Insecticides Against Thrips on Seedling Cotton, 1998|Arthropod Manag. Tests24:242-243|1999|10.1093/amt/24.1.F56
88061|T||Castro,B.A., T.J. Riley, K.D. Torrey, and B.R. Leonard|Chinch Bug Management in Grain Sorghum Using Foliar Insecticides, 1998|Arthropod Manag. Tests24:281-|1999|
88062|T||Carson,W.G., G.S. Kund, and J.T. Trumble|Effect of Insecticides on Tomato Insects, 1997|Arthropod Manag. Tests24:176-178|1999|
88063|T||Hower,A.A., and P. Rebarchak|Corn Rootworm Larval Control, 1998|Arthropod Manag. Tests24:213-214|1999|
88064|T||Duan,J.J., G. Head, A. Jensen, and G. Reed|Effects of Transgenic Bacillus thuringiensis Potato and Conventional Insecticides for Colorado Potato Beetle (Coleoptera:  Chrysomelidae) Management on the Abundance of Ground-Dwelling Arthropods in Oregon Potato Ecosys|Environ. Entomol.33(2): 275-281|2004|10.1603/0046-225X-33.2.275
88065|T||Edelson,J.V., C. Mackey, J. Duthie, and W. Roberts|Control of Insects on Summer Squash, 1998|Arthropod Manag. Tests24:171-|1999|
88066|T||Davis,M.G.K., B. Bishop, P. Kolarik, and A. Byrne|Onion Thrips Control, 1998|Arthropod Manag. Tests:139-140|1999|
88067|T||Herbert,D.A.,Jr., and S. Malone|Effects of Selected Foliar Applied Insecticides on Thrips Injury and Yield of Virginia-Type Peanut, 1998|Arthropod Manag. Tests24:262-263|1999|
88068|T||Bostanian,N.J., M. Binns, J. Kovach, G. Racette, and G. Mailloux|Predictive Model for Strawberry Bud Weevil (Coleoptera:  Curculionidae) Adults in Strawberry Fields|Environ. Entomol.28(3): 398-406|1999|10.1093/ee/28.3.398
88069|T||Lorenz,G.M., S.Y. Young, and J.W. Sites|Evaluation of Insecticides for Armyworm on Soybean, 1988|Arthropod Manag. Tests24:289-290|1999|10.1093/amt/24.1.F109
88070|T||Mayer,D.F.|Bee Poisoning Toxicity, 1995-1998|Arthropod Manag. Tests24:2 p.|1999|
88071|T||Hoy,C.W., and M.J. Dunlap|Potato Pest Control, 1998|Arthropod Manag. Tests24:151-153|1999|
88073|T||Cloyd,R.A., and A. Dickinson|Effect of Insecticides on Mealybug Destroyer (Coleoptera: Coccinellidae) and Parasitoid Leptomastix dactylopii (Hymenoptera: Encyrtidae), Natural Enemies of Citrus Mealybug (Homoptera: Pseudococcidae)|J. Econ. Entomol.99(5): 1596-1604|2006|10.1093/jee/99.5.1596
88074|T||Fife,J.H., B.R. Leonard, and R.W. Costello|Efficacy of Selected Insecticides Against Cotton Aphids in Cotton, 1998|Arthropod Manag. Tests24:243-244|1999|10.1093/amt/24.1.F57
88075|T||Garcia,J.F., E. Grisoto, J.D. Vendramim, and P.S.M. Botelho|Bioactivity of Neem, Azadirachta indica, Against Spittlebug Mahanarva fimbriolata (Hemiptera:  Cercopidae) on Sugarcane|J. Econ. Entomol.99(6): 2010-2014|2006|10.1093/jee/99.6.2010
88077|A||Darriet,F., and V. Corbel|Laboratory Evaluation of Pyriproxyfen and Spinosad, Alone and in Combination, Against Aedes aegypti Larvae|J. Med. Entomol.43(6): 1190-1194|2006|10.1093/jmedent/43.6.1190
88078|T||Hoy,C.W., and M.J. Dunlap|Control of Lepidoptera on Cabbage, 1998|Arthropod Manag. Tests24:99-101|1999|
88079|T||Hower,A.A., and P. Rebarchak|Potato Leafhopper Control, 1998|Arthropod Manag. Tests24:194-195|1999|
88080|T||Fettig,C.J., K.K. Allen, R.R. Borys, J. Christopherson, C.P. Dabney, T.J. Eager, K.E. Gibson, E.G. Hebertson, D.F. Long|Effectiveness of Bifenthrin (Onyx) and Carbaryl (Sevin SL) for Protecting Individual, High-Value Conifers from Bark Beetle Attack (Coleoptera:  Curculionidae:  Scolytinae) in the Western United States|J. Econ. Entomol.99(5): 1691-1698|2006|10.1093/jee/99.5.1691
88081|T||Herbert,D.A.,Jr., and S. Malone|Evaluation of Selected In-Furrow and Foliar Applied Insecticides for Control of Thrips on Cotton, 1998|Arthropod Manag. Tests24:248-249|1999|
88082|T||Hoy,C.W., and M.J. Dunlap|Potato Leafhopper Control, 1998|Arthropod Manag. Tests24:150-151|1999|
88083|T||Herbert,D.A.,Jr., and S. Malone|Evaluation of Selected In-Furrow Applied Insecticide/Nematicides, with and Without an Additional Foliar Insecticide Band, for Control of Thrips on Cotton, 1998|Arthropod Manag. Tests24:247-248|1999|
88084|T||Edelson,J.V., M. Peters, A. Sutherland, J. Duthie, and W. Roberts|Control of Lepidopterous Larvae and Aphids in a Commercial Cabbage Field, 1998|Arthropod Manag. Tests24:99-|1999|
88085|T||Herbert,D.A.,Jr., and S. Malone|Evaluation of Selected Foliar Applied Insecticides on Potato Leafhopper in Virginia-Type Peanut, 1998|Arthropod Manag. Tests24:262-263|1999|
88086|T||Hoy,C.W., and M.J. Dunlap|Ear Infesting Insect Control in Sweet Corn, 1998|Arthropod Manag. Tests24:125-126|1999|
88087|T||Hsu,J.C., H.T. Feng, and W.J. Wu|Resistance and Synergistic Effects of Insecticides in Bactrocera dorsalis (Diptera:  Tephritidae) in Taiwan|J. Econ. Entomol.97(5): 1682-1688|2004|10.1603/0022-0493-97.5.1682
88088|T||Laub,C.A., T.P. Kuhar, T.A. Dellinger, and R.R. Youngman|Efficacy of Foliar Insecticides Against Potato Leafhopper, 1998|Arthropod Manag. Tests24:197-198|1999|
88089|T||Kund,G.S., W.G. Carson, and J.T. Trumble|Effect of Insecticides on Tomato Insects, 1998|Arthropod Manag. Tests24:179-181|1999|10.1093/amt/24.1.E94
88090|T||Kolarik,P., A. Byrne, B. Bishop, W. Pett, E. Grafius, N. Nelson, M. Osborn, E. Schilling, L. Julien, A. Ayotte, and S. |Potato Leafhopper, 1998|Arthropod Manag. Tests24:153-154|1999|
88091|T||Hull,L.A.|Green Peach Aphid Timing and Efficacy Study, 1998|Arthropod Manag. Tests24:60-|1999|
88092|T||Heller,P.R., and R. Walker|Evaluation of Mach-2, Merit, and Conventional Formulations for Residual Suppression of White Grubs, 1998|Arthropod Manag. Tests24:1-2|1999|
88093|T||Khan,M.F.R., and R.P. Griffin|Efficacy of Insecticides on Tomato Insect Pests, 1998|Arthropod Manag. Tests24:178-179|1999|
88094|T||Linduska,J.J., M. Ross, D. Baumann, and M. Lemuiex|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1998|Arthropod Manag. Tests24:127-128|1999|
88095|T||Linduska,J.J., M. Ross, D. Baumann, and M. Lemuiex|Control of Cabbage Looper, Diamondback Moth and Imported Cabbageworm on Cabbage with Foliar Insecticide Sprays, 1998|Arthropod Manag. Tests24:103-104|1999|
88096|T||Longtine,C.A., R.A. Suranyi, D.W. Ragsdale, and E.B. Radcliffe|Control of Potato Leafhopper and Green Peach Aphid Using Reduced Rates of Insecticides, 1998|Arthropod Manag. Tests24:158-160|1999|
88097|T||O'Rourke,P.K., E.C. Burkness, and W.D. Hutchison|Control of Corn Earworm and European Corn Borer on Sweet Corn, 1998|Arthropod Manag. Tests24:130-131|1999|10.1093/amt/24.1.E37
88098|T||Oleson,J.D., T.M. Nowatzki, and J.J. Tollefson|Field Corn, Wireworm Larval Control, 1998|Arthropod Manag. Tests24:217-218|1999|
88099|T||Moore,D.J., and D.M. Miller|Laboratory Evaluations of Insecticide Product Efficacy for Control of Cimex lectularius|J. Econ. Entomol.99(6): 2080-2086|2006|10.1093/jee/99.6.2080
88100|T||McLeod,P.|Evaluation of Insecticides for Control of Lepidopterous Larvae on Collards, 1998|Arthropod Manag. Tests24:122-|1999|
88101|T||Nault,B.A., and J. Speese III|Evaluation of Whorl Stage Sprays to Control Insects in Sweet Corn, 1998|Arthropod Manag. Tests24:128-129|1999|
88102|T||Mulder,P.G.Jr., and D.J. Prescott|Early Season Insect Control in Alfalfa, 1998|Arthropod Manag. Tests24:198-200|1999|
88103|T||Mulder,P.G.Jr., and D.J. Prescott|Effect of Insecticides on Caterpillar and Beneficial Arthropod Populations, 1998|Arthropod Manag. Tests24:268-269|1999|
88104|T||Mulder,P.G.Jr., and D.J. Prescott|Aerial-Applied, Early Season Insect Control in Alfalfa, 1998|Arthropod Manag. Tests24:199-200|1999|
88105|T||Mulder,P.G.Jr.|Effects of Insecticides on Thrips Populations, Peanut Injury, Growth and Yield, 1997|Arthropod Manag. Tests24:266-267|1999|
88106|T||Mulder,P.G.Jr., and D.J. Prescott|Effect of Insecticides on Potato Leafhoppers, Defoliating Caterpillars, Beneficial Arthropods and Peanut Yield, 1998|Arthropod Manag. Tests24:269-270|1999|
88107|T||Mussen,E.C., J.E. Lopez, and C.Y.S. Peng|Effects of Selected Fungicides on Growth and Development of Larval Honey Bees, Apis mellifera L. (Hymenoptera: Apidae)|Environ. Entomol.33(5): 1151-1154|2004|10.1603/0046-225X-33.5.1151
88108|T||Mulder,P.G.Jr., D.J. Prescott, and M.E. Payton|Effect of Insecticides and Fungicides on Potato Leafhoppers, Defoliating Caterpillars, Beneficial Arthropods and Peanut Yield, 1997|Arthropod Manag. Tests24:265-266|1999|
88109|T||Laub,C.A., T.P. Kuhar, T.A. Dellinger, and R.R. Youngman|Efficacy of Foliar Insecticides Against Alfalfa Weevil Larvae, 1998|Arthropod Manag. Tests24:196-197|1999|
88110|T||Kolarik,P., A. Byrne, W. Pett, B. Bishop, E. Grafius, N. Nelson, M. Osborn, E. Schilling, L. Julien, A. Ayotte, and S. |European Corn Borer, Fall Armyworm and Corn Earworm Control, 1998|Arthropod Manag. Tests24:126-127|1999|
88111|T||Longtine,C.A., R.A. Suranyi, E.B. Radcliffe, and D.W. Ragsdale|Control of Colorado Potato Beetle, 1998|Arthropod Manag. Tests24:156-158|1999|
88113|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1998|Arthropod Manag. Tests24:201|1999|
88114|T||Patton,T.W., and G.P. Dively|Potato Leafhopper Control in Alfalfa, 1998|Arthropod Manag. Tests24:201-|1999|
88115|T||Oleson,J.D., T.M. Nowatzki, and J.J. Tollefson|Corn Rootworm Larval Control, 1998|Arthropod Manag. Tests24:215-217|1999|
88116|T||Oberhauser,K.S., S.J. Brinda, S. Weaver, R.D. Moon, S.A. Manweiler, and N. Read|Growth and Survival of Monarch Butterflies (Lepidopera: Danaidae) After Exposure to Permethrin Barrier Treatments|Environ. Entomol.35(6): 1626-1634|2006|10.1093/ee/35.6.1626
88117|T||Medina,P., G. Smagghe, F. Budia, L. Tirry, and E. Vinuela|Toxicity and Absorption of Azadirachtin, Diflubenzuron, Pyripoxyfen, and Tebufenozide After Topical Application in Predatory Larvae of Chrysoperla carnea (Neuroptera:  Chrysopidae)|Environ. Entomol.32(1): 196-203|2003|10.1603/0046-225X-32.1.196
88118|T||Oleson,J.D., T.M. Nowatzki, and J.J. Tollefson|Seedcorn Maggot Control, 1998|Arthropod Manag. Tests24(1): 214-215|1999|
88119|T||Nault,B.A., and J. Speese III|Evaluation of Foliar Sprays to Control Insect Pests of Sweet Corn, 1998|Arthropod Manag. Tests24:129-130|1999|
88120|T||Mau,R.F.L., L.R. Gusukuma-Minuto, and L. Okayama|Thrips Control on Banana Using the Bunch Injection Method, 1998|Arthropod Manag. Tests24:1-2|1999|
88121|T||Mau,R.F.L., L.R. Gusukuma-Minuto, and T.Y. Hata|Evaluation of Insecticide Sprays Against Banana Rust Thrips, 1998|Arthropod Manag. Tests24:1-2|1999|
88122|T||Nault,B.A., and J. Speese III|Evaluation of Insecticides for Controlling Lepidopterous Pests in Cabbage, 1998|Arthropod Manag. Tests24:107-108|1999|
88123|T||Micinski,S., R.G. Scarborough, and F.D. Forrester|Efficacy of CGA-293343 for Early Season Thrips and Aphid Control, 1998|Arthropod Manag. Tests24:250-|1999|10.1093/amt/24.1.F65
88124|T||McLeod,P.|Evaluation of Insecticides for Control of Redlegged Grasshopper in Pasture Adjacent to Mustard Greens, 1998|Arthropod Manag. Tests24:377-|1999|
88125|T||Reagel,P., M. Ginzel, J. Tooker, L. Hanks, and P. Nixon|Evaluation of Insecticides for Thrips Control and Associated Phytotoxicity, 1997|Arthropod Manag. Tests24:376-377|1999|10.1093/amt/24.1.G73
88126|T||Reagan,T.E., B. Viator, H.P.,Jr. Schexnayder, E.A. Ostheimer, and A.M. Younis|Impact of Fall Applied Soil Insecticide on Sugarcane Borer-Soil Insecticide Survey, 1998|Arthropod Manag. Tests24:298-299|1999|
88127|T||Poprowski,T.J.|Efficacy of Beauveria bassiana Alone and in Combination with Lure or Silwet for Thrips Control on Onions, Using Different Application Pressures and Nozzle Types, 1997-1998|Arthropod Manag. Tests24:142-143|1999|10.1093/amt/24.1.E54
88128|T||Parker,R.D., S. DeForest, and A. Netardus|Effectiveness of Insecticides and Cost for Controlling Fall Armyworm in Coastal Bermudagrass Pasture, 1998|Arthropod Manag. Tests24:345-|1999|
88129|T||Patton,T.W., and G.P. Dively|Control of Cereal Leaf Beetle in Wheat, 1998|Arthropod Manag. Tests24:323-|1999|
88130|T||Patton,T.W., and G.P. Dively|Control of Alfalfa Weevil, 1998|Arthropod Manag. Tests24:202-|1999|
88131|T||Patton,T.W., and G.P. Dively|Spider Mite Control in Soybeans, 1998A|Arthropod Manag. Tests24:292-|1999|
88132|T||Roskelley,S.R., and D.C. Weber|Southern Red Mite Control with Various Miticides in Cranberry, 1998|Arthropod Manag. Tests24:72-73|1999|
88133|T||Smitley,D.R., T.W. Davis, and M.M. Williams|Aphid Control on Zinnias, 1998|Arthropod Manag. Tests24:382-383|1999|
88134|T||Reissig,H., M. Dunham, and C. Smith|Comparison of Insecticides Against OBLR, 1998|Arthropod Manag. Tests24:37-40|1999|
88135|T||Semtner,P.J., J. Clarke, and W.B. Wilkinson III|Tobacco Aphid Control on Flue-Cured Tobacco with Foliar Insecticides, 1998|Arthropod Manag. Tests:311-|1999|
88136|T||Semtner,P.J., J. Clark, and W.B. Wilkinson III|Efficacy of Insecticides Applied as Transplant Drench and Transplant Water Treatments for Insect Control on Tobacco, 1998|Arthropod Manag. Tests24:313-315|1999|
88137|T||Sewell,G.H., and E. Groden|Control of Colorado Potato Beetle on Irish Potato, 1998|Arthropod Manag. Tests24:163-|1999|
88138|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Western Corn Rootworm Larvae, 1998|Arthropod Manag. Tests24:222-223|1999|
88139|T||Shelton,A.M., and W.T. Wilsey|Control of Thrips tabaci on Cabbage, 1998|Arthropod Manag. Tests24:112-|1999|
88140|T||Shelton,A.M., and W.T. Wilsey|Control of Corn Lepidoptera with Foliar Applications, 1998|Arthropod Manag. Tests24:130-131|1999|
88141|T||Shelton,A.M., and W.T. Wilsey|Control of Natural Populations of Lepidoptera on Cabbage, 1998|Arthropod Manag. Tests24:111-112|1999|
88142|T||Shamiyeh,N.B., R. Pereira, R.A. Straw, R.A. Follum, and C.W. Meister|Control of Wireworms in Potatoes, 1998|Arthropod Manag. Tests24:164-165|1999|
88143|T||Parker,R.D.|Impact of At-Planting Insecticides on Aphids and Thrips in Cotton, 1998|Arthropod Manag. Tests24:253-256|1999|
88144|T||Prabhaker,N., S.J. Castle, and N.C. Toscano|Susceptibility of Immature Stages of Homalodisca coagulata (Hemiptera: Cicadellidae) to Selected Insecticides|J. Econ. Entomol.99(5): 1805-1812|2006|10.1093/jee/99.5.1805
88145|T||Shields,E.J., and A.M. Testa|Corn Rootworm Control in Field Corn, 1993|Arthropod Manag. Tests24:223-224|1999|
88146|T||Poprawski,T.J., and G.J. Puterka|Efficacy of M-96-018 Kaolin Particle Film for Thrips Control on Onions, 1997-1998|Arthropod Manag. Tests24:142-143|1999|
88147|T||Royer,T.A., and K.L. Giles|Fall Armyworm Control in Sorghum, 1998|Arthropod Manag. Tests24:284-|1999|
88148|T||Semtner,P.J., J. Clarke, and W.B. Wilkinson III|Systemic Insecticides for Aphid and Flea Beetle Control on Flue-Cured Tobacco, 1998|Arthropod Manag. Tests24:309-311|1999|
88149|A||Prasch,A.L., R.L. Tanguay, V. Mehta, W. Heideman, and R.E. Peterson|Identification of Zebrafish ARNT1 Homologs:  2,3,7,8-Tetrachlorodibenzo-p-Dioxin Toxicity in the Developing Zebrafish Requires ARNT1|Mol. Pharmacol.69(3): 776-787|2006|10.1124/mol.105.016873
88150|T||Pereira,C., and C.V. Rao|Combined and Individual Administration of Diethyl Phthalate and Polychlorinated Biphenyls and Its Toxicity in Female Wistar Rats|Environ. Toxicol. Pharmacol.21(1): 93-102|2006|10.1016/j.etap.2005.08.001
88151|T||Paajarvi,G., M. Viluksela, R. Pohjanvirta, U. Stenius, and J. Hogberg|TCDD Activates Mdm2 and Attenuates the p53 Response to DNA Damaging Agents|Carcinogenesis26(1): 201-208|2005|10.1093/carcin/bgh289
88152|T||Nishimura,N., J. Yonemoto, Y. Miyabara, Y. Fujii-Kuriyama, and C. Tohyama|Altered Thyroxin and Retinoid Metabolic Response to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Aryl Hydrocarbon Receptor-Null Mice|Arch. Toxicol.79(5): 260-267|2005|10.1007/s00204-004-0626-4
88153|A||Nakayama,K., Y. Oshima, T. Yamaguchi, Y. Tsuruda, I.J. Kang, M. Kobayashi, N. Imada, and T. Honjo|Fertilization Success and Sexual Behavior in Male Medaka, Oryzias latipes, Exposed to Tributyltin|Chemosphere55(10): 1331-1337|2004|10.1016/j.chemosphere.2003.11.050
88154|T||Moennikes,O., S. Loeppen, A. Buchmann, P. Andersson, C. Ittrich, L. Poellinger, and M. Schwarz|A Constitutively Active Dioxin/Aryl Hydrocarbon Receptor Promotes Hepatocarcinogenesis in Mice|Cancer Res.64(14): 4707-4710|2004|10.1158/0008-5472.CAN-03-0875
88155|T||Martinez,J.M., L.C. Stephens, and L.A. Jones|Long-Term Effects of Neonatal Exposure to Hydroxylated Polychlorinated Biphenyls in the BALB/cCrgl Mouse|Environ. Health Perspect.113(8): 1022-1026|2005|10.1289/ehp.7735
88156|T||Kania-Korwel,I., A.W. Garrison, J.K. Avants, K.C. Hornbuckle, L.W. Robertson, W.W. Sulkowski, and H.J. Lehmler|Distribution of Chiral PCBs in Selected Tissues in the Laboratory Rat|Environ. Sci. Technol.40(12): 3704-3710|2006|10.1021/es0602086
88159|T||Harrigan,J.A., B.P. McGarrigle, T.R. Sutter, and J.R. Olson|Tissue Specific Induction of Cytochrome P450 (CYP) 1A1 and 1B1 in Rat Liver and Lung Following In Vitro (Tissue Slice) and In Vivo Exposure to Benzo(a)pyrene|Toxicol. In Vitro20(4): 426-438|2006|10.1016/j.tiv.2005.08.015
88160|T||Garrett,R.W., and T.A. Gasiewicz|The Aryl Hydrocarbon Receptor Agonist 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Alters the Circadian Rhythms, Quiescence, and Expression of Clock Genes in Murine Hematopoietic Stem and Progenitor Cells|Mol. Pharmacol.69(6): 2076-2083|2006|10.1124/mol.105.021006
88161|T||Franklin,M.R., J.D. Phillips, and J.P. Kushner|Attenuation of Polychlorinated Biphenyl Induced Uroporphyria by Iron Deprivation|Environ. Toxicol. Pharmacol.20(3): 417-423|2005|10.1016/j.etap.2005.05.001
88163|T||Fisher,M.T., M. Nagarkatti, and P.S. Nagarkatti|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Enhances Negative Selection of T Cells in the Thymus but Allows Autoreactive T Cells to Escape Deletion and Migrate to the Periphery|Mol. Pharmacol.67(1): 327-335|2005|10.1124/mol.104.005868
88164|A||Chaty,S., F. Rodius, and P. Vasseur|A Comparative Study of the Expression of CYP1A and CYP4 Genes in Aquatic Invertebrate (Freshwater Mussel, Unio tumidus) and Vertebrate (Rainbow Trout, Oncorhynchus mykiss)|Aquat. Toxicol.69(1): 81-93|2004|10.1016/j.aquatox.2004.04.011
88165|A||Carney,S.A., R.E. Peterson, and W. Heideman|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Activation of the Aryl Hydrocarbon Receptor/Aryl Hydrocarbon Receptor Nuclear Translocator Pathway Causes Developmental Toxicity Through a CYP1A-Independent Mechanism in Zebrafish|Mol. Pharmacol.66(3): 512-521|2004|
88166|T||Boverhof,D.R., J.C. Kwekel, D.G. Humes, L.D. Burgoon, and T.R. Zacharewski|Dioxin Induces an Estrogen-like, Estrogen Receptor-Dependent Gene Expression Response in the Murine Uterus|Mol. Pharmacol.69(5): 1599-1606|2006|10.1124/mol.105.019638
88167|T||Boutros,P.C., I.D. Moffat, M.A. Franc, N. Tijet, J. Tuomisto, R. Pohjanvirta, and A.B. Okey|Dioxin-Responsive AHRE-II Gene Battery:  Identification by Phylogenetic Footprinting|Biochem. Biophys. Res. Commun.321(3): 707-715|2004|10.1016/j.bbrc.2004.06.177
88168|T||Bohn,A.A., K.S. Harrod, S. Teske, and B.P. Lawrence|Increased Mortality Associated with TCDD Exposure in Mice Infected with Influenza A Virus is not due to Severity of Lung Injury or Alterations in Clara Cell Protein Content|Chem.-Biol. Interact.155(3): 181-190|2005|10.1016/j.cbi.2005.06.004
88169|A||Al-Arabi,S.A.M., M. Adolfsson-Erici, R. Waagbo, M.S. Ali, and A. Goksoyr|Contaminant Accumulation and Biomarker Responses in Caged Fish Exposed to Effluents from Anthropogenic Sources in the Karnaphuly River, Bangladesh|Environ. Toxicol. Chem.24(8): 1968-1978|2005|10.1897/04-383R.1
88170|T||Pande,K., S.M. Moran, and C.A. Bradfield|Aspects of Dioxin Toxicity are Mediated by Interleukin 1-Like Cytokines|Mol. Pharmacol.67(5): 1393-1398|2005|10.1124/mol.105.010983
88171|T||Garner,C.E., J. Demeter, and H.B. Matthews|The Effect of Chlorine Substitution on the Disposition of Polychlorinated Biphenyls Following Dermal Administration|Toxicol. Appl. Pharmacol.216(1): 157-167|2006|10.1016/j.taap.2006.04.013
88172|T||Soeda,F., T. Kaitsuka, T. Shirasaki, and K. Takahama|Prenatal Exposure to a Low Dose of 4-Hydroxy-2',3,3',4',5'- Pentachlorobiphenyl Increases Emotional Behaviors in Mice|J. Health Sci.51(4): 488-491|2005|10.1248/jhs.51.488
88173|T||Ishida,T., J. Taketoh, E. Nakatsune, S. Kan-o, E. Naito, S. Takeda, J. Mutoh, Y. Ishii, and H. Yamada|Curcumin Anticipates the Suppressed Body Weight Gain with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Mice|J. Health Sci.50(5): 474-482|2004|10.1248/jhs.50.474
88174|T||Andric,N.L., T.S. Kostic, S.N. Zoric, B.D. Stanic, S.A. Andric, and R.Z. Kovacevic|Effect of a PCB-Based Transformer Oil on Testicular Steroidogenesis and Xenobiotic-Metabolizing Enzymes|Reprod. Toxicol.22(1): 102-110|2006|10.1016/j.reprotox.2005.12.002
88175|T||Murugesan,P., P. Kanagaraj, S. Yuvaraj, K. Balasubramanian, M.M. Aruldhas, and J. Arunakaran|The Inhibitory Effects of Polychlorinated Biphenyl Aroclor 1254 on Leydig Cell LH Receptors, Steroidogenic Enzymes and Antioxidant Enzymes in Adult Rats|Reprod. Toxicol.20(1): 117-126|2005|10.1016/j.reprotox.2004.11.011
88176|A||Schmidt,K., C.E.W. Steinberg, S. Pflugmacher, and G.B.O. Staaks|Xenobiotic Substances such as PCB Mixtures (Aroclor 1254) and TBT can Influence Swimming Behavior and Biotransformation Activity (GST) of Carp (Cyprinus carpio)|Environ. Toxicol.19(5): 460-470|2004|10.1002/tox.20051
88177|T||Chubb,L.S., M.E. Andersen, C.J. Broccardo, M.E. Legare, R.E. Billings, C.E. Dean, and W.H. Hanneman|Regional Induction of CYP1A1 in Rat Liver Following Treatment with Mixtures of PCB 126 and PCB 153|Toxicol. Pathol.32(4): 467-473|2004|10.1080/01926230490483306
88178|T||Hailey,J.R., N.J. Walker, D.M. Sells, A.E. Brix, M.P. Jokinen, and A. Nyska|Classification of Proliferative Hepatocellular Lesions in Harlan Sprague-Dawley Rats Chronically Exposed to Dioxin-Like Compounds|Toxicol. Pathol.33(1): 165-174|2005|10.1080/01926230590888324
88179|A||Nakayama,K., Y. Oshima, K. Hiramatsu, and T. Honjo|Alteration of General Behavior of Male Medaka, Oryzias latipes, Exposed to Tributyltin and/or Polychlorinated Biphenyls|J. Fac. Agric. Kyushu Univ.49(1): 85-92|2004|10.5109/4568
88181|A||Alonso,A., and J.A. Camargo|Sub-Lethal Responses of the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca) to Unionized Ammonia:  A Tolerant Invading Species|Fresenius Environ. Bull.13(7): 607-615|2004|
88182|T||Singh,R.|Effect of Maternal Administration of Trichloroacetic Acid (TCA) on Fetal Ovary Rats|Biomed. Res.16(3): 195-200|2005|
88183|A||Tilak,K.S., K. Satyavardhan, and P.B. Thathaji|Biochemical Changes Induced by Fenvalerate in the Freshwater Fish Channa punctatus|J. Ecotoxicol. Environ. Monit.13(4): 261-270|2003|
88184|A||Inouye,L.S., C.Y. Ang, and V.A. McFarland|Development of a Cell-Based Screening Assay for Invertebrate Molting Disruption|Aquat. Ecosyst. Health Manag.7(3): 407-413|2004|10.1080/14634980490484006
88185|T||Pasquer,F., E. Isidore, J. Zarn, and B. Keller|Specific Patterns of Changes in Wheat Gene Expression After Treatment with Three Antifungal Compounds|Plant Mol. Biol.57(5): 693-707|2005|10.1007/s11103-005-1728-y
88186|T||Cuthbertson,A.G.S., K.F.A. Walters, and C. Deppe|Compatibility of the Entomopathogenic Fungus Lecanicillium muscarium and Insecticides for Eradication of Sweetpotato Whitefly, Bemisia tabaci|Mycopathologia160(1): 35-41|2005|10.1007/s11046-005-6835-4
88187|T||Banks,M.K., and A.P. Schwab|Ecotoxicity of Pentachlorophenol in Contaminated Soil as Affected by Soil Type|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(2): 117-128|2006|
88188|T||Wyszkowska,J., J. Kucharski, and W. Lajszner|Enzymatic Activities in Different Soils Contaminated with Copper|Pol. J. Environ. Stud.14(5): 659-664|2005|
88189|T||Kausar,S., A.A. Khan, and D. Raghav|Interaction of Sulphur Dioxide and Seed Gall Nematode, Anguina tritici on Wheat|J. Food Agric. Environ.3(3/4): 130-132|2005|
88190|A||Delowar,H.K.M., I. Yoshida, M. Harada, A.A. Sarkar, M.N.H. Miah, A.H.M. Razzaque, M. Uddin, K. Adhana, and M.F. Perveen|Growth and Uptake of Arsenic by Rice Irrigated with As-Contaminated Water|J. Food Agric. Environ.3(2): 287-291|2005|
88192|A||Ratushnyak,A.A., M.G. Andreeva, and M.V. Trushin|Effects of Type II Pyrethroids on Daphnia magna:  Dose and Temperature Dependences|Riv. Biol.98(2): 349-357|2005|
88193|A||Khangarot,B.S., and R.S. Rathore|Protective Action of 24 Amino Acids on the Toxicity of Copper to a Freshwater Tubificid Worm Tubifex tubifex Muller|Water Air Soil Pollut.157(1-4): 53-63|2004|10.1023/B:WATE.0000038875.23051.4e
88194|A||Downing,H.F., M.E. DeLorenzo, M.H. Fulton, G.I. Scott, C.J. Madden, and J.R. Kucklick|Effects of the Agricultural Pesticides Atrazine, Chlorothalonil, and Endosulfan on South Florida Microbial Assemblages|Ecotoxicology13(3): 245-260|2004|10.1023/B:ECTX.0000023569.46544.9f
88196|T||Tolra,R.P., C. Poschenrieder, B. Luppi, and J. Barcelo|Aluminium-Induced Changes in the Profiles of Both Organic Acids and Phenolic Substances Underlie Al Tolerance in Rumex acetosa L|Environ. Exp. Bot.54:231-238|2005|10.1016/j.envexpbot.2004.07.006
88197|A||Cascone,A., C. Forni, and L. Migliore|Flumequine Uptake and the Aquatic Duckweed, Lemna minor L.|Water Air Soil Pollut.156(1-4): 241-249|2004|10.1023/B:WATE.0000036816.15999.53
88198|AT||Xiong,Y.H., X.E. Yang, Z.Q. Ye, and Z.L. He|Characteristics of Cadmium Uptake and Accumulation by Two Contrasting Ecotypes of Sedum alfredii Hance|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control39(11-12): 2925-2940|2004|
88199|T||Ghatak,S.S., W. Reza, and M. Bhattacharjya|Bio-efficacy of Indigenous Plant Products on Tobacco Caterpillar, Spodoptera littoralis (F.) (Noctuidae:  Lepidoptera)|Environ. Ecol.23S(4 (suppl.)): 751-753|2005|
88200|T||Roux,F., A. Matjicek, J. Gasquez, and X. Reboud|Dominance Variation Across Six Herbicides of the Arabidopsis thaliana csr1-1 and csr1-2 Resistance Alleles|Pest Manag. Sci.61(11): 1089-1095|2005|10.1002/ps.1089
88201|T||Kodrik,D., and R. Socha|The Effect of Insecticide on Adipokinetic Hormone Titre in the Insect Body|Pest Manag. Sci.61(11): 1077-1082|2005|10.1002/ps.1087
88202|A||Xu,Q., H. Liu, L. Zhang, and N. Liu|Resistance in the Mosquito, Culex quinquefasciatus, and Possible Mechanisms for Resistance|Pest Manag. Sci.61(11): 1096-1102|2005|10.1002/ps.1090
88203|T||Cutler,G.C., C.D. Scott-Dupree, J.H. Tolman, and C.R. Harris|Acute and Sublethal Toxicity of Novaluron, a Novel Chitin Synthesis Inhibitor, to Leptinotarsa decemlineata (Coleoptera:  Chrysomelidae)|Pest Manag. Sci.61(11): 1060-1068|2005|10.1002/ps.1091
88204|A||Rosety,M., M. Rosety-Rodriguez, F.J. Ordonez, and I. Rosety|Time Course Variations of Antioxidant Enzyme Activities and Histopathology of Gilthead Seabream Gills Exposed to Malathion|Histol. Histopathol.20(4): 1017-1020|2005|
88205|A||Schor-Fumbarov,T., P.B. Goldsbrough, Z. Adam, and E. Tel-Or|Characterization and Expression of a Metallothionein Gene in the Aquatic Fern Azolla filiculoides Under Heavy Metal Stress|Planta (Multiple Languages)223(1): 69-76|2005|10.1007/s00425-005-0070-6
88206|A||Ghosh,S.K., P. Ghosh, and R.K. Ghosh|Bio-Efficacy of Some New Herbicides in Summer Rice|Environ. Ecol.23S(Spec.4): 726-728|2005|
88207|A||Cedergreen,N., and J.C. Streibig|The Toxicity of Herbicides to Non-Target Aquatic Plants and Algae:  Assessment of Predictive Factors and Hazard|Pest Manag. Sci.61(12): 1152-1160|2005|10.1002/ps.1117
88208|T||Qian,M., X. Li, and Z. Shen|Adaptive Copper Tolerance in Elsholtzia haichowensis Involves Production of Cu-Induced Thiol Peptides|Plant Growth Regul.47:65-73|2005|10.1007/s10725-005-1535-0
88209|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of European Corn Borer and Corn Earworm on Sweet Corn, 1998B|Arthropod Manag. Tests24:134-135|1999|
88210|T||Williams,R.N., M.A. Ellis, and D.S. Fickle|Biorational Chemical Evaluations for Control of Japanese Beetle on Grapes, 1998|Arthropod Manag. Tests24:75-76|1999|
88211|T||Wise,J.C., and L.J. Gut|Control of Plum Curculio with New Insecticide Chemistries, 1998|Arthropod Manag. Tests24:45-|1999|
88212|T||Young,S.Y., G.M. Lorenz, and W.H. Dodgen|Evaluation of Insecticides for Corn Earworm on Soybean, 1998|Arthropod Manag. Tests:297-|1999|
88213|T||Zalom,F., D. Walsh, C. Tobia, and C. Ingels|Spider Mite Control on Central Valley Strawberries with Acaricides and Predatory Mites, 1998|Arthropod Manag. Tests24:81-82|1999|
88214|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Icon 6.2FS Applied to Dry or Pre-Germinated Seed in a Water-Planted, Delayed Flood Culture, 1998|Arthropod Manag. Tests24:279-280|1999|
88215|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Fipronil in a Drill-Seeded, Delayed Flood Culture - EUP Study, 1997|Arthropod Manag. Tests24:274-275|1999|
88216|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Dimilin 2L in a Drill-Seeded, Delayed Flood Culture - EUP Study, 1997|Arthropod Manag. Tests24:273-274|1999|
88217|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Fury 1.5EC, Dimilin 2L, Icon 6.2FS and Karate Z in a Dry-Planted, Delayed Flood Culture, 1998|Arthropod Manag. Tests24:277-278|1999|
88218|T||Hull,L.A., and G. Krawczyk|Tufted Apple Bud Moth Control Tactics, 1998|Arthropod Manag. Tests24:26-31|1999|
88219|T||Smith,T.P., and A.M. Hammond|Comparative Susceptibility of Sweetpotato Weevil (Coleoptera:  Brentidae) to Selected Insecticides|J. Econ. Entomol.99(6): 2024-2029|2006|10.1093/jee/99.6.2024
88220|T||Shelton,A.M., F.V. Sances, J. Hawley, J.D. Tang, M. Boune, D. Jungers, H.L. Collins, and J. Farias|Assessment of Insecticide Resistance After the Outbreak of Diamondback Moth (Lepidoptera:  Plutellidae) in California in 1997|J. Econ. Entomol.93(3): 931-936|2000|10.1603/0022-0493-93.3.931
88221|T||Yee,W.L., and D.G. Alston|Effects of Spinosad, Spinosad Bait, and Chloronicotinyl Insecticides on Mortality and Control of Adult and Larval Western Cherry Fruit Fly (Diptera: Tephritidae)|J. Econ. Entomol.99(5): 1722-1732|2006|10.1093/jee/99.5.1722
88222|T||Shields,E.J., and A.M. Testa|Corn Rootworm Control in Field Corn, 1994|Arthropod Manag. Tests24:224-226|1999|
88223|A||Liu,H., E.W. Cupp, K.M. Micher, A. Guo, and N. Liu|Insecticide Resistance and Cross-Resistance in Alabama and Florida Strains of Culex quinquefaciatus|J. Med. Entomol.41(3): 408-413|2004|10.1603/0022-2585-41.3.408
88224|T||Rice,N.D., M.L. Winston, R. Whittington, and H.A. Higo|Comparison of Release Mechanisms for Botanical Oils to Control Varroa destructor (Acari:  Varroidae) and Acarapis woodi (Acari:  Tarsonemidae) in Colonies of Honey Bees (Hymenoptera:  Apidae)|J. Econ. Entomol.95(2): 221-226|2002|10.1603/0022-0493-95.2.221
88225|T||Oi,D.H., and F.M. Oi|Speed of Efficacy and Delayed Toxicity Characteristics of Fast-Acting Fire Ant (Hymenoptera: Formicidae) Baits|J. Econ. Entomol.99(5): 1739-1748|2006|10.1093/jee/99.5.1739
88227|T||Li,A.Y., R.B. Davey, and J.E. George|Carbaryl Resistance in Mexican Strains of the Southern Cattle Tick (Acari:  Ixodidae)|J. Econ. Entomol.98(2): 552-556|2005|10.1093/jee/98.2.552
88228|T||Li,A.Y., R.B. Davey, R.J. Miller, and J.E. George|Detection and Characterization of Amitraz Resistance in the Southern Cattle Tick, Boophilus microplus (Acari:  Ixodidae)|J. Med. Entomol.41(2): 193-200|2004|10.1603/0022-2585-41.2.193
88229|T||Setamou,M., F. Schulthess, H.M. Poehling, and C. Borgemeister|Monitoring and Modeling of Field Infestation and Damage by the Maize Ear Borer Mussidia nigrivenella (Lepidoptera: Pyralidae) in Benin, West Africa|J. Econ. Entomol.93(3): 650-657|2000|10.1603/0022-0493-93.3.650
88230|T||Elovaara,E., J. Mikkola, L. Luukkanen, L. Antonio, S. Fournel-Gigleux, B. Burchell, J. Magdalou, and J. Taskinen|Assessment of Catechol Induction and Glucuronidation in Rat Liver Microsomes|Drug Metab. Dispos.32(12): 1426-1433|2004|10.1124/dmd.104.000992
88231|T||Haraguchi,K., Y. Kato, N. Koga, and M. Degawa|Metabolism of Polychlorinated Biphenyls by Gunn Rats: Identification and Serum Retention of Catechol Metabolites|Chem. Res. Toxicol.17(12): 1684-1691|2004|10.1021/tx0498096
88232|T||Li,A.Y., R.B. Davey, R.J. Miller, and J.E. George|Resistance to Coumaphos and Diazinon in Boophilus microplus (Acari: Ixodidae) and Evidence for the Involvement of an Oxidative Detoxification Mechanism|J. Med. Entomol.40(4): 482-490|2003|10.1603/0022-2585-40.4.482
88233|T||Haraguchi,K., N. Koga, and Y. Kato|Comparative Metabolism of Polychlorinated Biphenyls and Tissue Distribution of Persistent Metabolites in Rats, Hamsters, and Guinea Pigs|Drug Metab. Dispos.33(3): 373-380|2005|10.1124/dmd.104.002444
88234|T||Vickerman,D.B., J.K. Young, and J.T. Trumble|Effect of Selenium-Treated Alfalfa on Development, Survival, Feeding, and Oviposition Preferences of Spodoptera Exigua (Lepidoptera:  Noctuidae)|Environ. Entomol.31(6): 953-959|2002|10.1603/0046-225X-31.6.953
88235|T||Barnard,D.R., U.R. Bernier, K.H. Posey, and R.D. Xue|Repellency of IR3535, KBR3023, para-Menthane-3,8-diol, and DEET to Black Salt Marsh Mosquitoes (Diptera:  Culicidae) in the Everglades National Park|J. Med. Entomol.39(6): 895-899|2002|10.1603/0022-2585-39.6.895
88236|T||Wang,C., M.E. Scharf, and G.W. Bennett|Genetic Basis for Resistance to Gel Baits, Fipronil, and Sugar-Based Attractants in German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.99(5): 1761-1767|2006|10.1093/jee/99.5.1761
88238|T||Lilienthal,H., A. Roth-Harer, A. Hack, L. Altmann, and G. Winneke|Developmental Neurotoxicity of PHAHs:  Endocrine-Mediated and General Behavioral Endpoints in Adult Male Rats|Environ. Toxicol. Pharmacol.19(3): 757-759|2005|10.1016/j.etap.2004.12.063
88239|T||Kania-Korwel,I., K.C. Hornbuckle, A. Peck, G. Ludewig, L.W. Robertson, W.W. Sulkowski, P. Espandiari, C.G. Gairola, and|Congener-Specific Tissue Distribution of Aroclor 1254 and a Highly Chlorinated Environmental PCB Mixture in Rats|Environ. Sci. Technol.39(10): 3513-3520|2005|10.1021/es047987f
88242|T||Sugawara,N., K. Nakai, T. Nakamura, T. Ohba, K. Suzuki, S. Kameo, C. Satoh, and H. Satoh|Developmental and Neurobehavioral Effects of Perinatal Exposure to Polychlorinated Biphenyls in Mice|Arch. Toxicol.80(5): 286-292|2006|10.1007/s00204-005-0042-4
88243|T||Malkiewicz,K., R. Mohammed, R. Folkesson, B. Winblad, M. Szutowski, and E. Benedikz|Polychlorinated Biphenyls Alter Expression of alpha -Synuclein, Synaptophysin and Parkin in the Rat Brain|Toxicol. Lett.161(2): 152-158|2006|10.1016/j.toxlet.2005.08.010
88244|T||Halldin,K., J. Axelsson, and B. Brunstrom|Embryonic Co-Exposure to Methoxychlor and Clophen A50 Alters Sexual Behavior in Adult Male Quail|Arch. Toxicol.79(4): 237-242|2005|10.1007/s00204-004-0621-9
88245|T||Ikeda,M., M. Tamura, J. Yamashita, C. Suzuki, and T. Tomita|Repeated In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure Affects Male Gonads in Offspring, Leading to Sex Ratio Changes in F2 Progeny|Toxicol. Appl. Pharmacol.206(3): 351-355|2005|10.1016/j.taap.2004.11.019
88246|A||Fisher,M.A., C. Mehne, J.C. Means, and C.F. Ide|Induction of CYP1A mRNA in Carp (Cyprinus carpio) from the Kalamazoo River Polychlorinated Biphenyl-Contaminated Superfund Site and in a Laboratory Study|Arch. Environ. Contam. Toxicol.50(1): 14-22|2006|10.1007/s00244-004-0171-4
88247|T||Dragin,N., T.P. Dalton, M.L. Miller, H.G. Shertzer, and D.W. Nebert|For Dioxin-Induced Birth Defects, Mouse or Human CYP1A2 in Maternal Liver Protects Whereas Mouse CYP1A1 and CYP1B1 are Inconsequential|J. Biol. Chem.281(27): 18591-18600|2006|10.1074/jbc.M601159200
88248|A||Doi,A.M., Z. Lou, E. Holmes, C.S. Venugopal, B. Nyagode, M.O. James, and K.M. Kleinow|Intestinal Bioavailability and Biotransformation of 3,3',4,4'-Tetrachlorobiphenyl (CB 77) in In Situ Preparations of Channel Catfish Following Dietary Induction of CYP1A|Aquat. Toxicol.77(1): 33-42|2006|10.1016/j.aquatox.2005.10.013
88250|A||Carvalho,P.S.M., and D.E. Tillitt|2,3,7,8-TCDD Effects on Visual Structure and Function in Swim-Up Rainbow Trout|Environ. Sci. Technol.38(23): 6300-6306|2004|10.1021/es034857i
88251|T||Ishida,T., A. Nishimura, J. Mutoh, and H. Yamada|Enhancement of Dioxin Toxicity with an Anti-Stress Drug, Carbenoxolone, in Mice|J. Health Sci.52(1): 30-35|2006|10.1248/jhs.52.30
88252|T||Li,B., H.Y. Liu, L.J. Dai, J.C. Lu, Z.M. Yang, and L. Huang|The Early Embryo Loss Caused by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin may be Related to the Accumulation of this Compound in the Uterus|Reprod. Toxicol.21(3): 301-306|2006|10.1016/j.reprotox.2005.09.008
88253|T||Kitajima,M., K.N. Khan, A. Fujishita, H. Masuzaki, and T. Ishimaru|Histomorphometric Alteration and Cell-Type Specific Modulation of Arylhydrocarbon Receptor and Estrogen Receptor Expression by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 17 beta-Estradiol in Mouse Experimental Model of End|Reprod. Toxicol.18(6): 793-801|2004|10.1016/j.reprotox.2004.04.012
88254|T||Pravettoni,A., A. Colciago, P. Negri-Cesi, S. Villa, and F. Celotti|Ontogenetic Development, Sexual Differentiation, and Effects of Aroclor 1254 Exposure on Expression of the Arylhydrocarbon Receptor and of the Arylhydrocarbon Receptor Nuclear Translocator in the Rat Hypothalamus|Reprod. Toxicol.20(4): 521-530|2005|10.1016/j.reprotox.2005.03.008
88255|T||Blazak,W.F., and J.B. Marcum|Attempts to Induce Chromosomal Breakage in Chicken Embryos with Aroclor 1242|Poult. Sci.54:310-312|1975|10.3382/ps.0540310
88256|A||Berntssen,M.H.G., A.K. Lundebye, and B.E. Torstensen|Reducing the Levels of Dioxins and Dioxin-Like PCBs in Farmed Atlantic Salmon by Substitution of Fish Oil with Vegetable Oil in the Feed|Aquac. Nutr.111(3): 219-231|2005|10.1111/j.1365-2095.2005.00345.x
88257|T||Shamiyeh,N.B., E.E. Burgess, R.A. Follum, and R. Thompson|Control of Alfalfa Weevil Larvae, 1998|Arthropod Manag. Tests24:202-|1999|
88259|T||Nguon,K., M.G. Baxter, and E.M. Sajdel-Sulkowska|Perinatal Exposure to Polychlorinated Biphenyls Differentially Affects Cerebellar Development and Motor Functions in Male and Female Rat Neonates|Cerebellum (Lond.)4(2): 112-122|2005|10.1080/14734220510007860
88260|T||Yamano,Y., K. Ohyama, M. Ohta, T. Sano, A. Ritani, J. Shimada, N. Ashida, E. Yoshida, K. Ikehara, and I. Morishima|A Novel Spermatogenesis Related Factor-2 (SRF-2) Gene Expression Affected by TCDD Treatment|Endocr. J.52(1): 75-81|2005|10.1507/endocrj.52.75
88261|A||Sammons,S.M., and M.J. Maecina|Effect of Aquathol K Treatments on Activity Patterns of Largemouth Bass in Two Coves of Lake Seminole, Georgia|J. Aquat. Plant Manag.43:17-24|2005|
88262|A||Sornaraj,R., and A.J.A.R. Singh|Effect of Pesticides on Bioenergetics in the Fish Mystus vittatus|J. Ecotoxicol. Environ. Monit.15(1): 17-25|2005|
88263|T||Yildiz,N.|Effects of Pb Levels on Growth and Mineral Contents of Different Corn Cultivars Grown in Nutrient Culture|Bangladesh J. Bot.34(2): 91-94|2005|
88264|A||Mathad,P., S.B. Angadi, and R.D. Mathad|Short and Long Term Effects of Exposure of Microalgae to Heavy Metal Stress|Asian J. Microbiol. Biotechnol. Environ. Sci.6(1): 99-106|2004|
88265|A||Flores,N.R.L., A.M. Ismail, and M.L. Dionisio-Sese|Gas Exchange and Leaf Water Status of Contrasting Rice (Oryza sativa L.) Genotypes as Affected by Salt Stress|Philipp. Agric. Sci.88(1): 40-48|2005|
88266|A||Johansson,M., H. Piha, H. Kylin, and J. Merila|Toxicity of Six Pesticides to Common Frog (Rana temporaria) Tadpoles|Environ. Toxicol. Chem.25(12): 3164-3170|2006|10.1897/05-685R1.1
88268|T||Stansly,P.A., J.M. Conner, and M.A. Pomerinke|Impact of Biorational Insecticides on Southern Armyworm and Beet Armyworm in Bell Pepper, 1997|Arthropod Manag. Tests24:149-150|1999|
88269|T||Stansly,P.A., J.M. Conner, and M.A. Pomerinke|Protection of Staked Tomato from Southern Armyworm and Beet Armyworm with Biopesticides 1997|Arthropod Manag. Tests24:182-183|1999|
88270|T||Stansly,P.A., J.M. Conner, and M.A. Pomerinke|Insecticidal Control of Fall Armyworm on Sweetcorn with BT and Synthetic Pyrethroids, 1997|Arthropod Manag. Tests24:131-132|1999|
88271|T||Spomer,S.M., F.J. Haile, and L.G. Higley|Alfalfa Insect Control, 1998|Arthropod Manag. Tests24:203-206|1999|10.1093/amt/24.1.F13
88272|T||Straub,R.W.|Insect Control on Late-Season Sweet Corn with Foliar Sprays of Conventional and Reduced-Risk Insecticides, 1998|Arthropod Manag. Tests24:133-134|1999|
88273|T||Teague,T.G., and N.P. Tugwell|Boll Weevil Mortality on Seedling Cotton - 1998|Arthropod Manag. Tests24:257-258|1999|
88274|T||Walgenbach,J.F., and C.R. Palmer|Control of Lepidopterous Insects on Cabbage, 1998|Arthropod Manag. Tests24:114-115|1999|
88275|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomatoes, 1998|Arthropod Manag. Tests24:184-185|1999|
88276|T||Walgenbach,J.F., and C.R. Palmer|Apple Insect Control, 1998|Arthropod Manag. Tests24:30-34|1999|
88277|T||Su,N.Y., P.M. Ban, and R.H. Scheffrahn|Longevity and Efficacy of Pyrethroid and Organophosphate Termiticides in Field Degradation Studies Using Miniature Slabs|J. Econ. Entomol.92(4): 890-898|1999|10.1093/jee/92.4.890
88278|T||Tang,Y.Q., A.A. Weathersbee III, and R.T. Mayer|Effect of Neem Seed Extract on the Brown Citrus Aphid (Homoptera:  Aphididae) and Its Parasitoid Lysiphlebus testaceipes (Hymenoptera:  Aphidiidae)|Environ. Entomol.31(1): 172-176|2002|10.1603/0046-225X-31.1.172
88279|T||Steelman,C.D., R.W. McNew, R.B. Simpson, R.W. Rorie, J.M. Phillips, and C.F.,Jr. Rosenkrans|Evaluation of Alternative Tactics for Management of Insecticide-Resistant Horn Flies (Diptera: Muscidae)|J. Econ. Entomol.96(3): 892-901|2003|10.1093/jee/96.3.892
88280|T||Straub,R.W.|Onion:  Control of Onion Thrips with Insecticides, 1998|Arthropod Manag. Tests24:143-144|1999|
88281|T||Suranyi,R.A., C.A. Longtine, D.W. Ragsdale, E.B. Radcliffe, and J. Munyaneza|Control of Colorado Potato Beetle, 1998B|Arthropod Manag. Tests24:169-170|1999|
88282|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle and Green Peach Aphid Control with Soil Applied Insecticides and Foliar Sprays, 1998|Arthropod Manag. Tests24:165-169|1999|
88283|T||Sorensen,K.A., and C.W. Holloway|Pickleworm Control with Insecticides, 1998|Arthropod Manag. Tests24:135-136|1999|
88284|T||Trimble,R.M., D.J. Pree, E.S. Barszcz, and N.J. Carter|Comparison of a Sprayable Pheromone Formulation and Two Hand-Applied Pheromone Dispensers for use in the Integrated Control of Oriental Fruit Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.97(2): 482-489|2004|10.1093/jee/97.2.482
88285|A||Wang,Y., L. Xiong, K.J. Yang, Z. Wu, X. Sheng, H. Tang, and X. Liu|Effect of beta-Cypermethrin on GPT and GOT Activities of Crucian Serum|J. Agric. Sci. Technol.6(1): 20-23|2005|
88286|A||Anwar,T., S. Tahir, I. Ahmad, M.F. Khan, S.M.H.M. Naqvi, and S. Akhtar|Acute Toxicity and Sub-Lethal Effect of Selected Pesticides on Fresh Water Fish|J. Exp. Zool. India8(2): 417-424|2005|
88287|A||Rathore,V., and S. Singh|Evaluation of Tissue Glycogen Due to Toxicity of Kinadon in the Fish, Channa punctatus (Bloch)|Flora Fauna11(1): 37-38|2005|
88288|T||Ciucani,G., H. Mosbaek, and S. Trapp|Uptake of Tributyltin into Willow Trees|Environ. Sci. Pollut. Res.11(4): 267-272|2004|10.1007/BF02979636
88289|A||Venkatrayulu,Ch, M. Komali, L.V.K.S. Bhaskar, V. Kalarani, and D.C. Reddy|Hepatogonadal Changes in the Female Fresh Water Field Crab, Oziotelphusa senex (Fabricius) in Response to Cadmium Toxicity|Proc. AP Akad. Sci.9(1): 29-34|2005|
88290|A||Boone,M.D., and C.M. Bridges-Britton|Examining Multiple Sublethal Contaminants on the Gray Treefrog (Hyla versicolor): Effects of an Insecticide, Herbicide, and Fertilizer|Environ. Toxicol. Chem.25(12): 3261-3265|2006|10.1897/06-235R.1
88291|T||Huq,S.M.I., J.C. Joardar, and S. Parvin|Marigold (Tagetes patula) and Ornamental arum (Syngonia sp.) as Phytoremediators for Arsenic in Pot Soil|Bangladesh J. Bot.34(2): 65-70|2005|
88292|A||David,M., R. Shivakumar, S.B. Mushigeri, and R.C. Kuri|Blood Glucose and Glycogen Levels as Indicators of Stress in the Freshwater Fish, Labeo rohita Under Fenvalerate Intoxication|J. Ecotoxicol. Environ. Monit.15(1): 1-5|2005|
88293|T||Suranyi,R.A., C.A. Longtine, D.W. Ragsdale, E.B. Radcliffe, and J. Munyaneza|Control of Colorado Potato Beetle,1998A|Arthropod Manag. Tests24:169-170|1999|
88294|T||Baba,T., J. Mimura, N. Nakamura, N. Harada, M. Yamamoto, K.I. Morohashi, and Y. Fujii-Kuriyama|Intrinsic Function of the Aryl Hydrocarbon (Dioxin) Receptor as a Key Factor in Female Reproduction|Mol. Cell. Biol.25(22): 10040-10051|2005|10.1128/MCB.25.22.10040-10051.2005
88295|A||Aluru,N., and M.M. Vijayan|Aryl Hydrocarbon Receptor Activation Impairs Cortisol Response to Stress in Rainbow Trout by Disrupting the Rate-Limiting Steps in Steroidogenesis|Endocrinology147(4): 1895-1903|2006|10.1210/en.2005-1143
88296|A||Schlezinger,J.J., W.D.J. Struntz, J.V. Goldstone, and J.J. Stegeman|Uncoupling of Cytochrome P450 1A and Stimulation of Reactive Oxygen Species Production by Co-planar Polychlorinated Biphenyl Congeners|Aquat. Toxicol.77(4): 422-432|2006|10.1016/j.aquatox.2006.01.012
88297|A||Sorrentino,C., N.K. Roy, S.C. Courtenay, and I. Wirgin|Co-Exposure to Metals Modulates CYP1A mRNA Inducibility in Atlantic Tomcod Microgadus tomcod from Two Populations|Aquat. Toxicol.75(3): 238-252|2005|10.1016/j.aquatox.2005.08.006
88298|T||Takemoto,K., M. Nakajima, Y. Fujiki, M. Katoh, F.J. Gonzalez, and T. Yokoi|Role of the Aryl Hydrocarbon Receptor and Cyp1b1 in the Antiestrogenic Activity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Arch. Toxicol.78(6): 309-315|2004|10.1007/s00204-004-0550-7
88299|T||Tijet,N., P.C. Boutros, I.D. Moffat, A.B. Okey, J. Tuomisto, and R. Pohjanvirta|Aryl Hydrocarbon Receptor Regulates Distinct Dioxin-Dependent and Dioxin-Independent Gene Batteries|Mol. Pharmacol.69(1): 140-153|2006|10.1124/mol.105.018705
88300|A||Tseng,H.P., T.H. Hseu, D.R. Buhler, W.D. Wang, and C.H. Hu|Constitutive and Xenobiotics-Induced Expression of a Novel CYP3A Gene from Zebrafish Larva|Toxicol. Appl. Pharmacol.205(3): 247-258|2005|10.1016/j.taap.2004.10.019
88302|A||Wassenberg,D.M., and R.T. Di Giulio|Synergistic Embryotoxicity of Polycyclic Aromatic Hydrocarbon Aryl Hydrocarbon Receptor Agonists with Cytochrome P4501A Inhibitors in Fundulus heteroclitus|Environ. Health Perspect.112(17): 1658-1664|2004|10.1289/ehp.7168
88303|A||Yuan,Z., S. Courtenay, and I. Wirgin|Comparison of Hepatic and Extra Hepatic Induction of Cytochrome P4501A by Graded Doses of Aryl Hydrocarbon Receptor Agonists in Atlantic Tomcod from Two Populations|Aquat. Toxicol.76(3-4): 306-320|2006|10.1016/j.aquatox.2005.10.006
88304|A||Yuan,Z., S. Courtenay, R.C. Chambers, and I. Wirgin|Evidence of Spatially Extensive Resistance to PCBs in an Anadromous Fish of the Hudson River|Environ. Health Perspect.114(1): 77-84|2006|10.1289/ehp.8255
88305|T||Bansal,R., S.H. You, C.T.A. Herzig, and R.T. Zoeller|Maternal Thyroid Hormone Increases HES Expression in the Fetal Rat Brain:  An Effect Mimicked by Exposure to a Mixture of Polychlorinated Biphenyls (PCBs)|Brain Res. Dev. Brain Res.156(1): 13-22|2005|10.1016/j.devbrainres.2005.01.007
88306|A||Vega-Lopez,A., L. Martinez-Tabche, M.L. Dominguez-Lopez, E. Garcia-Latorre, E. Ramon-Gallegos, and A. Garcia-Gasca|Vitellogenin Induction in the Endangered Goodeid Fish Girardinichthys viviparus:  Vitellogenin Characterization and Estrogenic Effects of Polychlorinated Biphenyls|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(3-4): 356-364|2006|10.1016/j.cbpc.2005.11.009
88309|T||Sharlin,D.S., R. Bansal, and R.T. Zoeller|Polychlorinated Biphenyls Exert Selective Effects on Cellular Composition of White Matter in a Manner Inconsistent with Thyroid Hormone Insufficiency|Endocrinology147(2): 846-858|2006|10.1210/en.2005-0778
88310|T||Simmons,S.L., J.A. Cummings, L.G. Clemens, and A.A. Nunez|Exposure to PCB 77 Affects the Maternal Behavior of Rats|Physiol. Behav.84(1): 81-86|2005|10.1016/j.physbeh.2004.10.022
88311|T||Skarman,E., P.O. Darnerud, H. Ohrvik, and A. Oskarsson|Reduced Thyroxine Levels in Mice Perinatally Exposed to Polybrominated Diphenyl Ethers|Environ. Toxicol. Pharmacol.19(2): 273-281|2005|10.1016/j.etap.2004.08.001
88312|T||Van den Brink,N.W., and A.T.C. Bosveld|Alkoxyresorufin-O-Deethylase Activities and Polychlorinated Biphenyl Patterns in Shrews as Biomarkers in Environmental Risk Assessments: Sensitivity and Specificity|Environ. Sci. Technol.39(18): 7337-7343|2005|10.1021/es0504688
88313|T||Wakui,S., K. Yokoo, H. Takahashi, T. Muto, Y. Suzuki, Y. Kanai, H. Hano, M. Furusato, and H. Endou|CYP1 and AhR Expression in 7,12-Dimethylbenz[a]anthracene-Induced Mammary Carcinoma of Rats Prenatally Exposed to 3,3',4,4',5- Pentachlorobiphenyl|Toxicology211(3): 231-241|2005|10.1016/j.tox.2005.03.016
88314|T||Wakui,S., K. Yokoo, H. Takahashi, T. Muto, Y. Suzuki, Y. Kanai, H. Hano, M. Furusato, and H. Endou|Prenatal 3,3',4,4',5-Pentachlorobiphenyl Exposure Modulates Induction of Rat Hepatic CYP 1A1, 1B1, and AhR by 7,12-Dimethylbenz[a]Anthracene|Toxicol. Appl. Pharmacol.210(3): 200-211|2006|10.1016/j.taap.2005.04.022
88316|T||Bank,P.A., K.L. Salyers, and M.H. Zile|Effect of Tetrachlorodibenzo-p-Dioxin (TCDD) on the Glucuronidation of Retinoic Acid in the Rat|Biochim. Biophys. Acta993:1-6|1989|10.1016/0304-4165(89)90134-7
88317|T||Shertzer,H.G., C.D. Clay, M.B. Genter, S.N. Schneider, D.W. Nebert, and T.P. Dalton|CYP1A2 Protects Against Reactive Oxygen Production in Mouse Liver Microsomes|Free Radic. Biol. Med.36(5): 605-617|2004|10.1016/j.freeradbiomed.2003.11.013
88319|T||Haraguchi,K., Y. Kato, N. Koga, and M. Degawa|Species Differences in the Tissue Distribution of Catechol and Methylsulphonyl Metabolites of 2,4,5,2',5'-penta- and 2,3,4,2',3',6'-Hexachlorobiphenyls in Rats, Mice, Hamsters and Guinea Pigs|Xenobiotica35(1): 85-96|2005|10.1080/00498250400026456
88320|T||Fukuzawa,N.H., S. Ohsako, Q. Wu, M. Sakaue, Y. Fujii-Kuriyama, T. Baba, and C. Tohyama|Testicular Cytochrome P450scc and LHR as Possible Targets of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Mouse|Mol. Cell. Endocrinol.221(1-2): 87-96|2004|10.1016/j.mce.2004.02.005
88321|A||Antkiewicz,D.S., R.E. Peterson, and W. Heideman|Blocking Expression of AHR2 and ARNT1 in Zebrafish Larvae Protects Against Cardiac Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Sci.94(1): 175-182|2006|10.1093/toxsci/kfl093
88322|A||Ortiz-Delgado,J.B., and C. Sarasquete|Toxicity, Histopathological Alterations and Immunohistochemical CYP1A Induction in the Early Life Stages of the Seabream, Sparus aurata, Following Waterborne Exposure to B(a)P and TCDD|J. Mol. Histol. (Berl.)35(1): 29-45|2004|10.1023/B:HIJO.0000020952.20386.16
88323|T||Glauert,H.P., Z. Lu, A. Kumar, R.P. Bunaciu, S. Patel, J.C. Tharappel, D.N. Stemm, H.J. Lehmler, E.Y. Lee, L.W. Roberts|Dietary Vitamin E does not Inhibit the Promotion of Liver Carcinogenesis by Polychlorinated Biphenyls in Rats|J. Nutr.135(2): 283-286|2005|10.1093/jn/135.2.283
88324|T||Sewall,C.H., G.W. Lucier, A.M. Tritscher, and G.C. Clark|TCDD-Mediated Changes in Hepatic Epidermal Growth Factor Receptor may be a Critical Event in the Hepatocarcinogenic Action of TCDD|Carcinogenesis14(9): 1885-1893|1993|10.1093/carcin/14.9.1885
88325|T||Durham,S.K., and A. Brouwer|3,4,3',4'-Tetrachlorobiphenyl-Induced Effects in the Rat Liver.  II.  Electron Microscopic Autoradiographic Localization of 3H-TCB|Toxicol. Pathol.17(4): 782-788|1989|10.1177/0192623389017004206
88326|T||Eltom,S.E., J.G. Babish, and D.C. Ferguson|The Interaction of L-Triiodothyronine and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Ah-Receptor-Mediated Hepatic Phase I and Phase II Enzymes and Iodothyronine 5'-Deiodinase in Thyroidectomized Rats|Toxicol. Lett.61:125-139|1992|10.1016/0378-4274(92)90139-B
88327|T||Astroff,B., B. Eldridge, and S. Safe|Inhibition of the 17 Beta-Estradiol-Induced and Constitutive Expression of the Cellular Proto-oncogene c-Fos by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Female Rat Uterus|Toxicol. Lett.56:305-315|1991|10.1016/0378-4274(91)90159-4
88328|T||Morse,D.C., H.B.W.M. Koeter, A.E. Smits van Prooijen, and A. Brouwer|Interference of Polychlorinated Biphenyls in Thyroid Hormone Metabolism:  Possible Neurotoxic Consequences in Fetal and Neonatal Rats|Chemosphere25(1-2): 165-168|1992|10.1016/0045-6535(92)90504-K
88329|T||Oskam,I.C., E. Ropstad, A.J. Smith, J.U. Skaare, A. Tverdal, K.A. Berg, and R. Wiger|Effects of PCB99 and PCB153 Exposure on Spermatogenesis in Young Adult C57BL6 Mice|Reprod. Toxicol.19(2): 169-180|2004|10.1016/j.reprotox.2004.07.005
88330|T||Ishida,T., T. Oshimo, A. Nishimura, J. Mutoh, Y. Ishii, N. Koga, H. Yamada, I. Hashiguchi, A. Akamine, and K. Oguri|Reduction of the Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Mice Using an Antiulcer Drug, Geranylgeranylacetone|Biol. Pharm. Bull.27(9): 1397-1402|2004|10.1248/bpb.27.1397
88331|T||Senthil Kumar,J., S. Banudevi, M. Sharmila, P. Murugesan, N. Srinivasan, K. Balasubramanian, M.M. Aruldhas, and J. Arun|Effects of Vitamin C and E on PCB (Aroclor 1254) Induced Oxidative Stress, Androgen Binding Protein and Lactate in Rat Sertoli Cells|Reprod. Toxicol.19(2): 201-208|2004|10.1016/j.reprotox.2004.08.001
88332|T||Fisher,J.W., J. Campbell, S. Muralidhara, J.V. Bruckner, D. Ferguson, M. Mumtaz, B. Harmon, J.M. Hedge, K.M. Crofton, H|Effect of PCB 126 on Hepatic Metabolism of Thyroxine and Perturbations in the Hypothalamic-Pituitary-Thyroid Axis in the Rat|Toxicol. Sci.90(1): 87-95|2006|10.1093/toxsci/kfj069
88333|A||Vijayan,M.M., N. Aluru, A.G. Maule, and E.H. Jorgensen|Fasting Augments PCB Impact on Liver Metabolism in Anadromous Arctic Char|Toxicol. Sci.91(2): 431-439|2006|10.1093/toxsci/kfj154
88334|A||Heiden,T.K., M.J. Carvan III, and R.J. Hutz|Inhibition of Follicular Development, Vitellogenesis, and Serum 17 beta-Estradiol Concentrations in Zebrafish Following Chronic, Sublethal Dietary Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Sci.90(2): 490-499|2006|10.1093/toxsci/kfj085
88335|T||Pohjanvirta,R., J. Tuomisto, T. Vartiainen, and K. Rozman|Han/Wistar Rats are Exceptionally Resistant to TCDD. I|Pharmacol. Toxicol.60:145-150|1987|10.1111/j.1600-0773.1987.tb01514.x
88336|T||Max,S.R., and E.K. Silbergeld|Skeletal Muscle Glucocorticoid Receptor and Glutamine Synthetase Activity in the Wasting Syndrome in Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.87:523-527|1987|10.1016/0041-008X(87)90258-4
88337|T||Lecavalier,P., I. Chu, A. Yagminas, D.C. Villeneuve, R. Poon, M. Feeley, H. Hakansson, U.G. Ahlborg, V.E. Valli, A. Ber|Subchronic Toxicity of 2,2',3,3',4,4'-Hexachlorobiphenyl in Rats|J. Toxicol. Environ. Health51:265-277|1997|
88338|T||Hwang,S.Y., W.J. Kim, J.J. Wee, J.S. Choi, and S.K. Kim|Panax Ginseng Improves Survival and Sperm Quality in Guinea Pigs Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|BJU Int.94(4): 663-668|2004|10.1111/j.1464-410X.2004.05019.x
88339|T||Miettinen,H.M., R. Sorvari, S. Alaluusua, M. Murtomaa, J. Tuukkanen, and M. Viluksela|The Effect of Perinatal TCDD Exposure on Caries Susceptibility in Rats|Toxicol. Sci.91(2): 568-575|2006|10.1093/toxsci/kfj158
88340|T||Caudle,W.M., J.R. Richardson, K.C. Delea, T.S. Guillot, M. Wang, K.D. Pennell, and G.W. Miller|Polychlorinated Biphenyl-Induced Reduction of Dopamine Transporter Expression as a Precursor to Parkinson's Disease-Associated Dopamine Toxicity|Toxicol. Sci.92(2): 490-499|2006|10.1093/toxsci/kfl018
88341|T||Teske,S., A.A. Bohn, J.F. Regal, J.J. Neumiller, and B.P. Lawrence|Activation of the Aryl Hydrocarbon Receptor Increases Pulmonary Neutrophilia and Diminishes Host Resistance to Influenza A Virus|J. Physiol.289(1): L111 - L124|2005|
88342|A||Aluru,N., E.H. Jorgensen, A.G. Maule, and M.M. Vijayan|PCB Disruption of the Hypothalamus-Pituitary-Interrenal Axis Involves Brain Glucocorticoid Receptor Downregulation in Anadromous Arctic Charr|Am. J. Physiol., Regul. Integr. Comp. Physiol.287(4): R787 - R793|2004|10.1152/ajpregu.00091.2004
88343|T||Abbott,B.D., G.H. Perdew, A.R. Buckalew, and L.S. Birnbaum|Interactive Regulation of Ah and Glucocorticoid Receptors in the Synergistic Induction of Cleft Palate by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Hydrocortisone|Toxicol. Appl. Pharmacol.128:138-150|1994|10.1006/taap.1994.1191
88344|T||Dawson,K.P.|The Use of Spray Adjuvants in Winter Cereals in Scotland|BCPC Symp. Proc.63:379-385|1995|
88348|A||Selvarani,D.|Toxic Effect of Polychlorinated Biphenyl 1232 on Bioenergetics and Growth of Fish Arius caelatus (Valencicnes)|Indian J. Environ. Sci.8(1): 47-52|2004|
88349|T||Besteman,E.G., K.L. Zimmerman, and S.D. Holladay|Tetrachlorodibenzo-p-Dioxin (TCDD) Inhibits Differentiation and Increases Apoptotic Cell Death of Precursor T-Cells in the Fetal Mouse Thymus|J. Immunotoxicol.2(2): 107-114|2005|10.1080/15476910500182541
88350|T||Banudevi,S., A. Arunkumar, M. Sharmila, J. Senthilkumar, K. Balasubramanian, N. Srinivasan, M.M. Aruldhas, and J. Aruna|Diallyl Disulfide-Induced Modulation of a few Phase I and II Drug Metabolizing Enzymes on Aroclor 1254 Toxicity in Rattus norvegicus Liver and Ventral Prostate|J. Clin. Biochem. Nutr36(3): 59-65|2005|10.3164/jcbn.36.59
88351|T||Nakai,J.S., J. Elwin, I. Chu, and L. Marro|Effect of Anaesthetics/Terminal Procedures on Neurotransmitters from Non-Dosed and Aroclor 1254-Dosed Rats|J. Appl. Toxicol.25(3): 224-233|2005|10.1002/jat.1058
88352|T||Hoogenboom,L.A.P., C.A. Kan, M.J. Zeilmaker, J. Van Eijkeren, and W.A. Traag|Carry-Over of Dioxins and PCBs from Feed and Soil to Eggs at Low Contamination Levels - Influence of Mycotoxin Binders on the Carry-over from Feed to Eggs|Food Addit. Contam.23(5): 518-527|2006|10.1080/02652030500512037
88353|T||Zhang,Y., X. Jin, H. Han, and Z. Li|Effects of 2,2',5,5'-Tetrachlorobiphenyl (PCB52) on Migration of Chicken Primordial Germ Cells|Reprod. Fertil. Develop.17(5): 587-591|2005|10.1071/RD05025
88354|T||Linden,J., M. Korkalainen, S. Lensu, J. Tuomisto, and R. Pohjanvirta|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and Leptin on Hypothalamic mRNA Expression of Factors Participating in Food Intake Regulation in a TCDD-Sensitive and a TCDD-Resistant Rat Strain|J. Biochem. Mol. Toxicol.19(3): 139-148|2005|10.1002/jbt.20065
88355|T||Yamamoto,M., A. Narita, M. Kagohata, M. Shirai, F. Akahori, and K. Arishima|Effects of Maternal Exposure to 3,3',4,4',5-Pentachlorobiphenyl (PCB126) or 3,3',4,4',5,5'-Hexachlorobiphenyl (PCB169) on Testicular Steroidogenesis and Spermatogenesis in Male Offspring Rats|J. Androl.26(2): 205-214|2005|10.1002/j.1939-4640.2005.tb01087.x
88356|T||Garcia-Amo,C., M. Penas-Amo, S. Junquera, and A. Santos-Ruiz|Autoradiographic 65Zn Localization in Laboratory Animals|In: M.Kirchgessner (Ed), Proc.3rd Int. Symp. Freising, Fed. Rep. of Germany,Trace Element Metabolism in Man and Animals-3:182-184|1997|
88357|T||Powers,B.E., T.M. Lin, A. Vanka, R.E. Peterson, J.M. Juraska, and S.L. Schantz|Tetrachlorodibenzo-p-Dioxin Exposure Alters Radial Arm Maze Performance and Hippocampal Morphology in Female AhR+/- Mice|Genes Brain Behav.4(1): 51-59|2005|10.1111/j.1601-183X.2004.00098.x
88358|T||Hinsdill,R.D., D.L. Couch, and R.S. Speirs|Immunosuppression in Mice Induced by Dioxin (TCDD) in Feed|J. Environ. Pathol. Toxicol.4(2-3): 401-412|1980|
88359|T||Nau,H., and R. Bass|Transfer of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) to the Mouse Embryo and Fetus|Toxicology20:299-308|1981|10.1016/0300-483X(81)90037-8
88360|T||Pohjanvirta,R., and J. Tuomisto|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Enhances Responsiveness to Post-Ingestive Satiety Signals|Toxicology63(3): 285-299|1990|10.1016/0300-483X(90)90191-I
88361|T||Bouwman,C.A., W. Seinen, J.G. Koppe, and M. Van den Berg|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin or 2,2',4,4',5,5'-Hexachlorobiphenyl on Vitamin K-Dependent Blood Coagulation in Female Germfree WAG/Rij-Rats|Toxicology75:109-120|1992|10.1016/0300-483X(92)90150-D
88362|T||Vos,J.G., and J.A. Moore|Suppression of Cellular Immunity in Rats and Mice by Maternal Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Int. Arch. Allergy Appl. Immunol.47:777-794|1974|10.1159/000231268
88363|T||Gorski,J.R., and K. Rozman|Dose-Response and Time Course of Hypothyroxinemia and Hypoinsulinemia and Characterization of Insulin Hypersensitivity in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Treated Rats|Toxicology44:297-307|1987|10.1016/0300-483X(87)90031-X
88364|T||Combs,G.F.,Jr.|Effects of Dietary Polychlorinated Biphenyls on the Vitamin E-Selenium Nutrition of the Chick|Ph.D.Thesis, Cornell University, Ithaca, NY:154 p.|1974|
88365|T||Abbott,B.D., L.S. Birnbaum, and R.M. Pratt|TCDD-Induced Hyperplasia of the Ureteral Epithelium Produces Hydronephrosis in Murine Fetuses|Teratology35:329-334|1987|10.1002/tera.1420350307
88366|T||Huang,Q., L. Liu, C. Xiao, Y. Xu, and X. Qian|Photolarvicidal Effect of Thienyl 1,3,4-Thia(Oxa)Diazoles and Their Potential DNA Photocleavage|Pestic. Biochem. Physiol.79(2): 42-48|2004|10.1016/j.pestbp.2004.03.001
88367|A||Dumbauld,B.R., K.M. Brooks, and M.H. Posey|Response of an Estuarine Benthic Community to Application of the Pesticide Carbaryl and Cultivation of Pacific Oysters (Crassostrea gigas) in Willapa Bay, Washington|Mar. Pollut. Bull.42(10): 826-844|2001|10.1016/S0025-326X(00)00230-7
88368|T||Temerowski,M., and F.J. Van der Staay|Absence of Long-Term Behavioral Effects After Sub-Chronic Administration of Low Doses of Methamidophos in Male and Female Rats|Neurotoxicol. Teratol.27(2): 279-297|2005|10.1016/j.ntt.2004.12.004
88369|T||Pruett,S.B., R. Fan, and Q. Zheng|Involvement of Three Mechanisms in the Alteration of Cytokine Responses by Sodium Methyldithiocarbamate|Toxicol. Appl. Pharmacol.213:172-178|2006|10.1016/j.taap.2005.10.004
88370|A||Van Cong,N., N.T. Phuong, and M. Bayley|Sensitivity of Brain Cholinesterase Activity to Diazinon (Basudin 50EC) and Fenobucarb (Bassa 50EC) Insecticides in the Air-Breathing Fish Channa striata (Bloch, 1793)|Environ. Toxicol. Chem.25(5): 1418-1425|2006|10.1897/05-364R.1
88371|A||Oruc,E.O., and D. Usta|Evaluation of Oxidative Stress Responses and Neurotoxicity Potential of Diazinon in Different Tissues of Cyprinus carpio|Environ. Toxicol. Pharmacol.23(1): 48-55|2007|10.1016/j.etap.2006.06.005
88372|A||Binelli,A., F. Ricciardi, C. Riva, and A. Provini|New Evidences for Old Biomarkers:  Effects of Several Xenobiotics on EROD and AChE Activities in Zebra Mussel (Dreissena polymorpha)|Chemosphere62(4): 510-519|2006|10.1016/j.chemosphere.2005.06.033
88373|A||Khoshbavar-Rostami,H.A., M. Soltani, and H.M.D. Hassan|Immune Response of Great Sturgeon (Huso huso) Subjected to Long-Term Exposure to Sublethal Concentration of the Organophosphate, Diazinon|Aquaculture256(1-4): 88-94|2006|10.1016/j.aquaculture.2006.02.041
88374|T||Ettiene,G., S. Ortega, J. Sepulveda, D. Medina, I. Buscema, and L. Sandoval|"Dissipation of Organophosphorus Pesticides in Green Onion (Allium fistulosum L), Cultivated in Forced System Called ""Barbacoas"""|Bull. Environ. Contam. Toxicol.76(3): 415-421|2006|10.1007/s00128-006-0937-7
88375|T||Ogutcu,A., M. Uzunhisarcikli, S. Kalender, D. Durak, F. Bayrakdar, and Y. Kalender|The Effects of Organophosphate Insecticide Diazinon on Malondialdehyde Levels and Myocardial Cells in Rat Heart Tissue and Protective Role of Vitamin E|Pestic. Biochem. Physiol.86(2): 93-98|2006|10.1016/j.pestbp.2006.01.010
88376|T||Kalender,Y., M. Uzunhisarcikli, A. Ogutcu, F. Acikgoz, and S. Kalender|Effects of Diazinon on Pseudocholinesterase Activity and Haematological Indices in Rats: The Protective Role of Vitamin E|Environ. Toxicol. Pharmacol.22(1): 46-51|2006|10.1016/j.etap.2005.11.007
88377|A||Koprucu,S.S., K. Koprucu, M.S. Ural, U. Ispir, and M. Pala|Acute Toxicity of Organophosphorous Pesticide Diazinon and Its Effects on Behavior and Some Hematological Parameters of Fingerling European Catfish (Silurus glanis L.)|Pestic. Biochem. Physiol.86(2): 99-105|2006|10.1016/j.pestbp.2006.02.001
88378|T||Trielli,F., M.G. Chessa, A. Amaroli, M. Ognibene, and M.U.D. Corrado|Effects of Organophosphate Compounds on a Soil Protist, Colpoda inflata (Ciliophora, Colpodidae)|Chemosphere65(10): 1731-1737|2006|10.1016/j.chemosphere.2006.04.081
88379|T||Yang,Y.M., D.Y. Huang, G.F. Liu, J.C. Zhong, K. Du, Y.F. Li, and X.H. Song|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Vitamin A Metabolism in Mice|J. Biochem. Mol. Toxicol.19(5): 327-335|2005|10.1002/jbt.20097
88380|T||Camacho,I.A., N. Singh, V.L. Hegde, M. Nagarkatti, and P.S. Nagarkatti|Treatment of Mice with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Leads to Aryl Hydrocarbon Receptor-Dependent Nuclear Translocation of NF- Kappa B and Expression of Fas Ligand in Thymic Stromal Cells and Consequent Apoptosis |J. Immunol.175(1): 90-103|2005|10.4049/jimmunol.175.1.90
88381|A||Rehulka,J., and B. Minarik|Effect of Polychlorinated Biphenyls (Delor 103) on Haematological and Enzyme Parameters of the Rainbow Trout Oncorhynchus mykiss|Dis. Aquat. Org.62(1-2): 147-153|2004|10.3354/dao062147
88382|T||Rozman,K., G.A. Hazelton, C.D. Klaassen, M.P. Arlotto, and A. Parkinson|Effect of Thyroid Hormones on Liver Microsomal Enzyme Induction in Rats Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology37(1-2): 51-63|1985|10.1016/0300-483X(85)90112-X
88383|T||Astroff,B., and S. Safe|6-Substituted-1,3,8-Trichlorodibenzofurans as 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Antagonists in the Rat:  Structure Activity Relationship|Toxicology59:285-296|1989|10.1016/0300-483X(89)90198-4
88385|T||Nichol,A.W., S. Elsbury, L.A. Angel, and G.H. Elder|The Site of Inhibition of Porphyrin Biosynthesis by an Isomer of Diazinon in Rats|Biochem. Pharmacol.32(18): 2653-2657|1983|10.1016/0006-2952(83)90071-0
88387|T||Betancourt,M., A. Resendiz, E. Casas, and R. Fierro|Effect of Two Insecticides and Two Herbicides on the Porcine Sperm Motility Patterns Using Computer-Assisted Semen Analysis (CASA) In Vitro|Reprod. Toxicol.22(3): 508-512|2006|10.1016/j.reprotox.2006.03.001
88388|T||Ishaaya,I., Z. Mendelson, K.R.S. Ascher, and J.E. Casida|Cypermethrin Synergism by Pyrethroid Esterase Inhibitors in Adults of the Whitefly Bemisia tabaci|Pestic. Biochem. Physiol.28(2): 155-162|1987|10.1016/0048-3575(87)90014-9
88389|T||Asmatullah, and T. Aslam|Toxicity of Methamidophos in Pregnant Mice and Developing Fetuses|Bull. Dep. Zool. Univ. Panjab14:141-151|1999|
88390|T||Asmatullah, and A.R. Khan|Teratogenic Effects of Sublethal Doses of Methamidophos in Mice|Bull. Dep. Zool. Univ. Panjab15:35-43|2000|
88391|T||De Castro,V.L., S.H. Chiorato, and N.F. Pinto|Biological Monitoring of Embrio-Fetal Exposure to Methamidophos or Chlorothalonil on Rat Development|Vet. Hum. Toxicol.42(6): 361-365|2000|
88392|T||Zayed,S.M.A.D., I.M.I. Fakhr, and S. el-Magraby|Some Toxicological Aspects of Methamidophos Exposure in Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(4-5): 467-478|1984|
88393|T||Jayatunga,Y.N.A., C.D. Dangalle, and W.D. Ratnasooriya|Effects of Mid-term Exposure to Carbofuran on Pregnancy Outcome of Rats|Med. Sci. Res.26(10): 679-683|1998|
88394|A||Megharaj,M., A.P. Rao, A.S. Rao, and K. Venkateswarlu|Interaction Effects of Carbaryl and Its Hydrolysis Product, 1-Naphthol, Towards Three Isolates of Microalgae from Rice Soil|Agric. Ecosyst. Environ.31(4): 293-300|1990|10.1016/0167-8809(90)90228-6
88395|A||Obulakondaiah,M., C. Sreenivasulu, and K. Venkateswarlu|Nontarget Effects of Carbaryl and Its Hydrolysis Product, 1-Naphthol, Towards Anabaena torulosa|Biochem. Mol. Biol. Int.29(4): 703-710|1993|
88396|T||Attia,A.M., R.J. Reiter, B. Withyachumnarnkul, M.H. Mostafa, S.A. Soliman, and A.K.H. El-Sebae|Chronic Administration of Sublethal Doses of Carbaryl Increases Pineal N-Acetyltransferase and Hydroxyindole-O-Methyltransferase Activities and Serum Melatonin Levels|J. Pineal Res.10(1): 49-54|1991|10.1111/j.1600-079X.1991.tb00009.x
88397|T||Reardon,R.C.|Two Consecutive Yearly Applications of Orthene Medicaps Increase Protection of Grand Fir Against Western Spruce Budworm|For. Ecol. Manag.7(3): 183-190|1984|10.1016/0378-1127(84)90066-5
88398|T||Chukwudebe,A.C., M.A. Hussain, and P.C. Oloffs|Hydrolytic and Metabolic Products of Acephate in Water and Mouse Liver|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(6): 501-522|1984|
88399|T||Ueng,T.H., C.C. Hung, H.W. Wang, and P.K. Chan|Effects of Amitraz on Cytochrome P450-Dependent Monooxygenases and Estrogenic Activity in MCF-7 Human Breast Cancer Cells and Immature Female Rats|Food Chem. Toxicol.42(11): 1785-1794|2004|10.1016/j.fct.2004.06.010
88401|AT||Mani,T.R., N. Arunachalam, R. Rajendran, K. Satyanarayana, and A.P. Dash|Efficacy of Thermal Fog Application of Deltacide, a Synergized Mixture of Pyrethroids, Against Aedes aegypti, the Vector of Dengue|Trop. Med. Int. Health10(12): 1298-1304|2005|10.1111/j.1365-3156.2005.01522.x
88402|T||Balog,J.M., G.R. Huff, N.C. Rath, and W.E. Huff|Effect of Dietary Aspirin on Ascites in Broilers Raised in a Hypobaric Chamber|Poult. Sci.79:1101-1105|2000|10.1093/ps/79.8.1101
88404|A||Oduleye,S.O.|The Effects of Calcium on Water Balance of the Brown Trout Salmo trutta|J. Exp. Biol.63:343-356|1975|10.1242/jeb.63.2.343
88405|T||Di Marzio,W.D., M.E. Saenz, S. Lemiere, and P. Vasseur|Improved Single-Cell Gel Electrophoresis Assay for Detecting DNA Damage in Eisenia foetida|Environ. Mol. Mutagen.46(4): 246-252|2005|10.1002/em.20153
88406|A||Stout,L.M., and K. Nusslein|Shifts in Rhizoplane Communities of Aquatic Plants After Cadmium Exposure|Appl. Environ. Microbiol.71(5): 2484-2492|2005|10.1128/AEM.71.5.2484-2492.2005
88407|A||Tchounwou,P.B., A.J.,Jr. Englande, E.A. Malek, A.C. Anderson, and A.A. Abdelghani|The Effects of Ammonium Sulphate and Urea Upon Egg Hatching and Miracidial Survival fo Schistosoma mansoni|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(2): 241-257|1991|
88408|T||Rip,J.W., and J.H. Cherry|Liver Enlargement Induced by the Herbicide 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T)|J. Agric. Food Chem.24(2): 245-250|1976|10.1021/jf60204a006
88409|T||Keresztes,M., E. Toth, and F. Guba|The Effect of Increased Activity on the Muscle Development in Chick Embryos|Wiss. Beitr. - Martin-Luther-Univ. Halle-Wittenb. 52:101-103|1983|
88410|T||Post,L.C., and W.R. Vincent|A New Insecticide Inhibits Chitin Synthesis|Naturwissenschaften60:431-432|1973|10.1007/BF00623561
88411|T||Hamill,A.S., and D. Penner|Interaction of Alachlor and Carbofuran|Weed Sci.21(4): 330-335|1973|10.1017/S0043174500027120
88412|T||Hamill,A.S., and D. Penner|Chlorbromuron-Carbofuran Interaction in Corn and Barley|Weed Sci.21(4): 335-338|1973|10.1017/S0043174500027132
88413|T||DeWitt,J.B., and J.L. George|Bureau of Sport Fisheries and Wildlife Pesticide-Wildlife Review, 1959|U.S. Fish and Wildl. Serv. Circ.84:36 p.|1960|
88414|T||Dorough,H.W., and J.E. Casida|Nature of Certain Carbamate Metabolites of the Insecticide Sevin|J. Agric. Food Chem.12(4): 294-304|1964|10.1021/jf60134a001
88415|T||Eberle,D.O., and H.R. Gerber|Comparative Studies of Instrumental and Bioassay Methods for the Analysis of Herbicide Residues|Toxicology4:101-118|1976|
88416|T||Fisher,H.K., J.A. Clements, and R.R. Wright|Enhancement of Oxygen Toxicity by the Herbicide Paraquat|Am. Rev. Respir. Dis.107(2): 246-252|1973|
88417|A||Hooper,A.D., and J.H. Crance|Use of Rotenone in Restoring Balance to Overcrowded Fish Populations in Alabama Lakes|Trans. Am. Fish. Soc.89(4): 351-357|1960|10.1577/1548-8659(1960)89[351:UORIRB]2.0.CO;2
88418|A||Anderson,B.G.|The Toxicity of DDT to Daphnia|Science102(2656): 539-|1945|10.1126/science.102.2656.539.a
88419|T||Rao,H.R.G., and P.K. Harein|Inhibition of Aflatoxin and Zearalenone Biosynthesis with Dichlorvos|Bull. Environ. Contam. Toxicol.10(2): 112-115|1973|10.1007/BF01685882
88420|T||Koshakji,R.P., J. Cole, and R.D. Harbison|Influence of Injection Volume on Parathion Toxicity and Plasma and Brain Cholinesterase Inhibition|Res. Commun. Chem. Pathol. Pharmacol.6(2): 677-687|1973|
88421|A||Bailey,H.C., A. Tang, and J.V. Stewart|Sensitivity of the Amphipod Eohaustorius estuarius and the Polychaete Neanthes arenoceodentata to Ammonia, a Potentially Toxic Component of Sediments|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages):170-173|1997|
88422|A||Pan,J.F., and W.X. Wang|Uptake of Hg(II) and Methylmercury by the Green Mussel Perna viridis Under Different Organic Carbon Conditions|Mar. Ecol. Prog. Ser.276:125-136|2004|10.3354/meps276125
88423|T||Satar,S., D. Satar, U.O. Mete, J.R. Suchard, M. Topal, and M. Kaya|Ultrastructural Effects of Acute Organophosphate Poisoning on Rat Kidney|Renal Fail.27(5): 623-627|2005|10.1080/08860220500200536
88424|T||Shayin,S., and M.V. Usharani|Histopathological Effects of Sodium Selenite and Its Coexposure with Cypermethrin on the Testes of Adult Poecilocerus pictus (Orthoptera: Acrididae)|J. Environ. Biol.17(1): 11-15|1996|
88425|T||Shinogi,M., M. Nakazawa, K. Fukuda, and I. Mori|Binding Metal Elements in the Metallothionein Fraction from Liver of Rats Injected with Various Metals|Radioisotopes31(2): 78-81|1982|10.3769/radioisotopes.31.2_78
88426|A||Lee,E.H., S.M. Kim, S.R. Kwon, S.K. Kim, Y.K. Nam, and K.H. Kim|Comparison of Toxic Effects of Nitric Oxide and Peroxynitrite on Uronema marinum (Ciliata: Scuticociliatida)|Dis. Aquat. Org.58(2/3): 255-260|2004|10.3354/dao058255
88427|AT||Black,A.L., Y.C. Chiu, M.A.H. Fahmy, and T.R. Fukuto|Selective Toxicity of N-Sulfenylated Derivatives of Insecticidal Methylcarbamate Esters|J. Agric. Food Chem.21(5): 747-751|1973|10.1021/jf60189a001
88428|T||Daneshvar,H., and J.G. Rodriguez|Toxicity of Organophosphorus Systemic Pesticides to Predator Mites and Prey|Entomol. Exp. Appl.18:297-301|1975|10.1111/j.1570-7458.1975.tb00401.x
88429|T||Khoo,B.K., and M. Sherman|Toxicity and Anticholinesterase Activity of Halogenated Organophosphates to Boettcherisca peregrina|J. Econ. Entomol.66(3): 595-604|1973|10.1093/jee/66.3.595
88430|A||Jaeckel,P., G.J. Krauss, and G. Krauss|Cadmium and Zinc Response of the Fungi Heliscus lugdunensis and Verticillium cf. alboatrum Isolated from Highly Polluted Water|Sci. Total Environ.346(1-3): 274-279|2005|10.1016/j.scitotenv.2004.12.082
88431|T||Santos,M.D.F., H. Vermeersch, J.P. Remon, M. Schlekens, P. De Backer, R. Ducatelle, and F. Haesebrouck|Administration of Doxycycline Hydrochloride via Drinking Water to Turkeys Under Laboratory and Field Conditions|Poult. Sci.76:1342-1348|1997|10.1093/ps/76.10.1342
88432|T||TenBrook,P.L.|Clomazone:  Toxicity, Biotransformation, Resistance and Interaction with P450 Inhibitors in Rice (Oryza sativa) and Watergrasses (Echinochloa spp.)|Ph.D. Thesis, University of California, Davis:78 p.|2005|
88433|T||Darmani,H., and A.S. Al-Hiyasat|The Resin Monomer Triethylene Glycol Dimethacrylate Exhibits Reproductive Toxicity in Male Mice|Reproduction (Camb.)17(4): 401-406|2005|
88434|A||Reichelt-Brushett,A.J., and P.L. Harrison|Development of a Sublethal Test to Determine the Effects of Copper and Lead on Scleractinian Coral Larvae|Arch. Environ. Contam. Toxicol.47(1): 40-55|2004|10.1007/s00244-004-3080-7
88435|A||Mostafa,B.B., F.A. El-Deeb, N.M. Ismail, and K.M. El-Said|Impact of Certain Plants and Synthetic Molluscicides on Some Fresh Water Snails and Fish|J. Egypt. Soc. Parasitol.35(3): 989-1007|2005|
88436|A||Ekpo,A.O., and F.C. Okorie|The Effect of Two Pesticides Dichlorvos and Paraquat on Heterobranchus longifilis (Valenciennes)|Global J. Pure Appl. Sci.10(1): 55-60|2004|10.4314/gjpas.v10i1.16358
88437|A||Mishra,S.K., J. Padhi, and L. Sahoo|Effect of Malathion on Lipid Content of Liver and Muscles of Anabas testudineus|J. Appl. Zool. Res.15(1): 81-82|2004|
88438|T||Hooth,M.J., K.S. McDorman, S.D. Hester, M.H. George, L.R. Brooks, A.E. Swank, and D.C. Wolf|The Carcinogenic Response of Tsc2 Mutant Long-Evans (Eker) Rats to a Mixture of Drinking Water Disinfection by-Products was less than Additive|Toxicol. Sci.69(2): 322-331|2002|10.1093/toxsci/69.2.322
88439|T||Hoff,D.J.|Integrated Laboratory and Field Investigations Assessing Contaminant Risk to American Badgers (Taxidea taxus) on the Rocky Mountain Arsenal National Wildlife Refuge|Ph.D. Thesis, Clemson University, Clemson, SC:|1998|
88440|T||Watson,R.E., and J.I. Goodman|Effects of Phenobarbital on DNA Methylation in GC-Rich Regions of Hepatic DNA from Mice that Exhibit Different Levels of Susceptibility to Liver Tumorigenesis|Toxicol. Sci.68(1): 51-58|2002|10.1093/toxsci/68.1.51
88441|T||Turner,K.J., N.J. Barlow, M.F. Struve, D.G. Wallace, K.W. Gaido, D.C. Dorman, and P.M.D. Foster|Effects of In Utero Exposure to the Organophosphate Insecticide Fenitrothion on Androgen-Dependent Reproductive Development in the Crl:CD(SD)BR Rat|Toxicol. Sci.68(1): 174-183|2002|10.1093/toxsci/68.1.174
88442|A||Statham,C.N., M.J.,Jr. Melancon, and J.J. Lech|Bioconcentration of Xenobiotics in Trout Bile: A Proposed Monitoring Aid for Some Waterborne Chemicals|Science193:680-681|1976|10.1126/science.948743
88446|A||Hossain,M.A., and M. Furuichi|Requirement of Japanese Flounder for Dietary Calcium|Suisan Zoshoku (Non-English)47(4): 567-571|1999|
88447|AT||Kinnersley,A.M., T.C. Scott III, J.H. Yopp, and G.H. Whitten|Promotion of Plant Growth by Polymers of Lactic Acid|Plant Growth Regul.9(2): 137-146|1990|10.1007/BF00027441
88448|T||Roberson,R.H.|Effect of Calcium, Ascorbic Acid, Reserpine, Magnesium, and Calcium Lactate on the Performance of Two Strains of Pullets and Hens|Rep.No.586, N.Mexico Agric.Exp.Stn.Bull.:21 p.|1971|
88449|T||Balch,C.C., W.H. Broster, V.W. Johnson, C. Line, J.A.F. Rook, J.D. Sutton, and V.J. Tuck|The Effect on Milk Yield and Composition of Adding the Calcium Salts of Acetic, Propionic, Butyric and Lactic Acids to the Diets of Dairy Cows|J. Dairy Res.34(3): 199-206|1967|10.1017/S0022029900012358
88450|T||Appleton,G.V.N., R.W. Owen, and R.C.N. Williamson|The Effect of Dietary Calcium Supplementation on Intestinal Lipid Metabolism|J. Steroid Biochem. Mol. Biol.42(3/4): 383-387|1992|10.1016/0960-0760(92)90143-7
88451|A||Hossain,M.A., and M. Furuichi|Necessity of Dietary Calcium Supplement in Black Sea Bream|Fish. Sci.65(6): 893-897|1999|10.2331/fishsci.65.893
88453|A||Oruc,E.O., N. Uner, Y. Sevgiler, D. Usta, and H. Durmaz|Sublethal Effects of Organophosphate Diazinon on the Brain of Cyprinus carpio|Drug Chem. Toxicol.1(29): 57-67|2006|10.1080/01480540500408622
88454|T||Akagi,K., M. Sano, K. Ogawa, M. Hirose, H. Goshima, and T. Shirai|Involvement of Toxicity as an Early Event in Urinary Bladder Carcinogenesis Induced by Phenethyl Isothiocyanate, Benzyl Isothiocyanate, and Analogues in F344 Rats|Toxicol. Pathol.31:388-396|2003|10.1080/01926230390202326
88455|T||Amer,S.M., and M.A. Sayed|Cytogenetic Effects of the Insecticide Methamidophos in Mouse Bone Marrow and Cultured Mouse Spleen Cells|Z. Naturforsch.42(1-2): 21-30|1987|10.1515/znc-1987-1-205
88456|T||Wu,J.C., J.X. Xu, S.Z. Yuan, J.L. Liu, Y.H. Jiang, and J.F. Xu|Pesticide-Induced Susceptibility of Rice to Brown Planthopper Nilaparvata lugens|Entomol. Exp. Appl.100(1): 119-126|2001|10.1046/j.1570-7458.2001.00854.x
88457|T||Panemangalore,M., and F.N. Bebe|Dermal Exposure to Pesticides Modifies Antioxidant Enzymes in Tissues of Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(4): 399-416|2000|
88458|T||Sosa-Gomez,D.R., I.C. Corso, and L. Morales|Insecticide Resistance to Endosulfan, Monocrotophos and Metamidophos in the Neotropical Brown Stink Bug, Euschistus heros (F.)|Neotrop. Entomol. (Multiple Languages)30(2): 317-320|2001|10.1590/S1519-566X2001000200017
88459|T||Burruel,V.R., O.G. Raabe, J.W. Overstreet, B.W. Wilson, and L.M. Wiley|Paternal Effects From Methamidophos Administration in Mice|Toxicol. Appl. Pharmacol.165(2): 148-157|2000|10.1006/taap.2000.8933
88460|T||De Castro,V.L., S.H. Chiorato, and N.F. Pinto|Relevance of Developmental Testing of Exposure to Methamidophos During Gestation to Its Toxicology Evaluation|Toxicol. Lett.118(1-2): 93-102|2000|10.1016/S0378-4274(00)00271-X
88461|A||Garcia-de la Parra,L.M., J.C. Bautista-Covarrubias, N. Rivera-de la Rosa, M. Betancourt-Lozano, and L. Guilhermino|Effects of Methamidophos on Acetylcholinesterase Activity, Behavior, and Feeding Rate of the White Shrimp (Litopenaeus vannamei)|Ecotoxicol. Environ. Saf.65(3): 372-380|2006|10.1016/j.ecoenv.2005.09.001
88462|T||Santos,R.P., M.J. Cavaliere, F.R. Puga, E.S. Narciso, J.R. Pelegrino, and E.E. Calore|Protective Effect of Early and Late Administration of Pralidoxime Against Organophosphate Muscle Necrosis|Ecotoxicol. Environ. Saf.53(1): 48-51|2002|10.1006/eesa.2001.2138
88463|T||Reddy,E.V., and C.C. Reddy|Oral and Dermal Toxicity of Some Insecticides to Indian Honey Bee, Apis cerana F.|J. Entomol. Res.30(1): 47-49|2006|
88465|A||Frangioni,G., and G. Borgioli|The Fundamental Role of Lactate in Erythropoiesis:  Experimental Studies on Larvae of Amphibia Anura|Monit. Zool. Ital.12(2/3): 181-197|1978|
88466|T||Jagtap,V.S., V.R. Sonawane, D.N. Pahuja, M.G.R. Rajan, B. Rajashekharrao, and A.M. Samuel|An Effective and Better Strategy for Reducing Body Burden of Radiostrontium|J. Radiol. Prot.23(3): 317-326|2003|10.1088/0952-4746/23/3/307
88467|T||Sarma,D.S.R., and H. Sidransky|Studies on Orotic Acid Fatty Liver in Rats:  Factors Influencing the Induction of Fatty Liver|J. Nutr.98(1): 33-40|1969|10.1093/jn/98.1.33
88468|A||DeGraeve,G.M., W.D. Palmer, E.L. Moore, J.J. Coyle, and P.L. Markham|The Effect of Temperature on the Acute and Chronic Toxicity of Un-ionized Ammonia to Fathead Minnows and Channel Catfish|Final Rep.to U.S.EPA by Battelle, Columbus, OH:39 p.|1987|
88469|T||Lamberth,C., F. Cederbaum, A. Jeanguenat, H.J. Kempf, M. Zeller, and R. Zeun|Synthesis and Fungicidal Activity of N-2-(3-Methoxy-4-Propargyloxy)Phenethyl Amides.  Part II:  Anti-oomycetic Mandelamides|Pest Manag. Sci.62(5): 446-451|2006|10.1002/ps.1188
88470|AT||Scaps,P., M. Descamps, and S. Demuynck|Biochemical and Physiological Responses Induced by Toxics in Annelida:  Utilization as Biomarkers|Trends Comp. Biochem. Physiol.9:165-173|2002|
88471|T||Johnson,M.K., and J.M. Safi|The R-(+)Isomer of O-n-Hexyl S-Methyl Phosphorothioamidate Causes Delayed Neuropathy in Hens After Generation of a Form of Inhibited Neuropathy Target Esterase (NTE) Which can be Reactivated Ex Vivo|Chem.-Biol. Interact.87(1-3): 443-448|1993|10.1016/0009-2797(93)90073-8
88472|T||Sheffield,S.R.|Effects of Field Exposure to Diazinon on Small Mammals Inhabiting a Semi-Enclosed Prairie Grassland Ecosystem.  I.  Ecological and Reproductive Effects.  II.  Sublethal Effects|Ph.D.Thesis, Oklahoma State Univ., OK:143 p.|1996|
88473|T||Iriti,M., and F. Faoro|Benzothiadiazole (BTH) Induces Cell-Death Independent Resistance in Phaseolus vulgaris Against Uromyces appendiculatus|J. Phytopathol.151(3): 171-180|2003|10.1046/j.1439-0434.2003.00700.x
88474|T||Wu,Y.J., P.A. Chang, M. Li, Y.X. Li, and W. Li|Effect of Tri-O-Cresyl Phosphate and Methamidophos on 45Ca Uptake by Brain Synaptosomes in Hens|Pestic. Biochem. Physiol.77(1): 18-23|2003|10.1016/S0048-3575(03)00082-8
88475|T||Papas,A., L.D. Campbell, and P.E. Cansfield|A Study of the Association of Glucosinolates to Rapeseed Meal-Induced Hemorrhagic Liver in Poultry and the Influence of Supplemental Vitamin K|Can. J. Anim. Sci.59:133-144|1979|10.4141/cjas79-016
88477|T||Dann,E., B. Diers, J. Byrum, and R. Hammerschmidt|Effect of Treating Soybean with 2,6-Dichloroisonicotinic Acid (INA) and Benzothiadiazole (BTH) on Seed Yields and the Level of Disease Caused by Sclerotinia sclerotiorum in Field and Greenhouse Studies|Eur. J. Plant Pathol.104(3): 271-278|1998|10.1023/A:1008683316629
88478|T||Saxena,P.N., and K. Kumar|Hepatic Response to Diazol Intoxication in Female Rats|J. Ecophysiol. Occup. Health1(3/4): 369-374|2001|
88479|T||Bottger,I., G.R. Faloona, and R.H. Unger|The Effect of Calcium and Other Salts upon the Release of Glucagon-Like Immunoreactivity from the Gut|J. Clin. Invest.51(4): 831-836|1972|10.1172/JCI106878
88480|T||Damron,B.L., and L.K. Flunker|Calcium Supplementation of Hen Drinking Water|Poult. Sci.74(5): 784-787|1995|10.3382/ps.0740784
88481|T||Li,X.Y., H.W. Zhang, Q.X. Zhou, Z.C. Su, and C.G. Zhang|Effects of Acetochlor and Methamidophos on Fungal Communities in Black Soils|Pedosphere15(5): 646-652|2005|
88482|T||Foye,W.O., and J.N. Sane|Sulfur-Containing Derivatives of Amphetamine:  Thioureas, Methanesulfonamides, and Trifluoromethanesulfonamides|J. Pharm. Sci.66(7): 923-926|1977|10.1002/jps.2600660704
88484|T||Amer,S.M., and O.R. Farah|Cytological Effects of Pesticides XV. Effect of the Insecticide Methamidophos on Root-Mitosis of Vicia faba|Cytologia50(3): 521-526|1985|10.1508/cytologia.50.521
88485|T||Foureman,P., J.M. Mason, R. Valencia, and S. Zimmering|Chemical Mutagenesis Testing in Drosophila. X. Results of 70 Coded Chemicals Tested for the National Toxicology Program|Environ. Mol. Mutagen.23(3): 208-227|1994|10.1002/em.2850230310
88486|T||Samson,P.R., and W.J. Harris|Efficacy of Vapam (Metam-Sodium) Against Pink Ground Pearl, Eumargarodes laingi Jakubski (Hemiptera:  Margarodidae), in Sugarcane|Plant Prot. Q.14(1): 35-37|1999|
88487|T||Zehnder,G., A. DiBona, and J. Pitts|Whitefringed Beetle (WFB) Control in Sweet Potato, 1993|Arthropod Manag. Tests19:147-148|1994|10.1093/amt/19.1.147
88488|A||Pourgholam,R., M.D. Hassan, and M. Shariff|Influence of Sublethal Concentrations of Diazinon on the Contents of Lysozyme in Serum and Some Organs of Grass Carp|In: 11th Int.Conf.of the Assoc.of Inst.for Trop.Vet.Med.and 16th Vet.Assoc.Malays.Congr.,Aug.23-27, 2004, Petaling Jaya, Malaysia:387-389|2004|
88489|T||Ahmad,M.|The Effect of PB and DEF Synergists on the Toxicities of Endosulfan, Diazinon and Monocrotophos in Heliothis armigera|J. Plant Prot. Trop.7(2): 117-121|1990|
88490|T||Warton,B., J.N. Matthiessen, and M.A. Shackleton|Cross-Enhancement:  Enhanced Biodegradation of Isothiocyanates in Soils Previously Treated with Metham Sodium|Soil Biol. Biochem.35(8): 1123-1127|2003|10.1016/S0038-0717(03)00164-0
88491|A||Qureshi,S.A., S. Mohiuddin, R. Parveen, and R. Kemal|Larvicidal Activity of Aryl Substituted Isothiocyanates Against the Yellow-Fever Mosquito, Aedes aegypti (L.)|Pak. J. Zool.14(1): 91-95|1982|
88492|T||Kellner,T., J. Sanborn, and B. Wilson|In Vitro and In Vivo Assessment of the Effect of Impurities and Chirality on Methamidophos-Induced Neuropathy Target Esterase Aging|Toxicol. Sci.54(2): 408-415|2000|10.1093/toxsci/54.2.408
88493|T||Campanella,V., A. Ippolito, and F. Nigro|Activity of Calcium Salts in Controlling Phytophthora Root Rot of Citrus|Crop Prot.21(9): 751-756|2002|10.1016/S0261-2194(02)00032-7
88494|A||Everall,N.C., and D.R. Lees|The Identification and Significance of Chemicals Released from Decomposing Barley Straw During Reservoir Algal Control|Water Res.31(3): 614-620|1997|10.1016/S0043-1354(96)00291-6
88495|T||Stoner,K.A., F.J. Ferrandino, M.P.N. Gent, W.H. Elmer, and J.A. LaMondia|Effects of Straw Mulch, Spent Mushroom Compost, and Fumigation on the Density of Colorado Potato Beetles (Coleoptera: Chrysomelidae) in Potatoes|J. Econ. Entomol.89(5): 1267-1280|1996|10.1093/jee/89.5.1267
88496|T||Matthiessen,J.N., J.M. Desmarchelier, L.T. Vu, and M.A. Shackleton|Comparative Efficacy of Fumigants Against Hatchling Whitefringed Beetle (Coleoptera:  Curculionidae) Larvae and Their Sorption by Soil|J. Econ. Entomol.89(6): 1372-1378|1996|10.1093/jee/89.6.1372
88497|T||Yokoyama,V.Y., J. Pritchard, and R.V. Dowell|Laboratory Toxicity of Pesticides to Geocoris pallens (Hemiptera: Lygaeidae), a Predator in California Cotton|J. Econ. Entomol.77(1): 10-15|1984|10.1093/jee/77.1.10
88498|T||Carson,W.G., H. Nakakihara, J.T. Trumble, and V. Voth|Spidermite and Aphid Control in Chemical Trials on Strawberries, 1986|Insectic. Acaric. Tests12:82-|1987|10.1093/iat/12.1.82
88499|T||Frye,R.D., and D.R. Carey|European Corn Borer Control in Sweet Corn, 1982|Insectic. Acaric. Tests12:115-|1987|10.1093/iat/12.1.115
88500|T||Beers,E.H.|Apple, First Generation White Apple Leafhopper Control Test, 1986|Insectic. Acaric. Tests12:2-|1987|
88501|T||Beers,E.H., E.A. Elsner, and R.J. Baird|Apple, Second Generation White Apple Leafhopper Control Test, 1986|Insectic. Acaric. Tests12:2-|1987|
88502|T||Beers,E.H., R.J. Baird, and E.A. Elsner|Apple, Second Generation White Apple Leafhopper Aerial Application Evaluation, 1986|Insectic. Acaric. Tests12:5-|1987|10.1093/iat/12.1.5
88503|T||Beers,E.H., E.A. Elsner, and R.J. Baird|Apple, Second Generation White Apple Leafhopper Carbaryl Evaluation, 1986|Insectic. Acaric. Tests12:4-|1987|
88504|T||Beers,E.H., and E.A. Elsner|Apple, First Generation White Apple Leafhopper Insecticide Evaluation, 1986|Insectic. Acaric. Tests12:3-|1987|10.1093/iat/12.1.3
88505|T||Beers,E.H., E.A. Elsner, and R.J. Baird|Apple, Second Generation White Apple Leafhopper Insecticide Evaluation, 1986|Insectic. Acaric. Tests12:4-|1987|
88506|T||Peiris,L.D.C., Y.N.A. Jayatunga, and W.D. Ratnasooriya|Analgesic and Sedative Effects of Methamidophos in Rats|Med. Sci. Res.22(4): 293-295|1994|
88507|T||Jacob,J.P., R. Blair, and E.E. Gardiner|Effect of Dietary Lactate and Glucose on the Incidence of Sudden Death Syndrome in Male Broiler Chickens|Poult. Sci.69(9): 1529-1532|1990|10.3382/ps.0691529
88508|A||Nakamura,Y., and J. Yamada|Effects of Dietary Calcium Levels, Ca/P Ratios, and Calcium Components on the Calcium Absorption Rate in Carp|Bull. Fac. Fish. Hokkaido Univ.31(4): 277-282|1980|
88509|T||Mayer,D.F., C.A. Johansen, J.D. Lunden, and L. Rathbone|Bee Hazard of Insecticides Combined with Chemical Stickers|Am. Bee J.127(7): 493-495|1987|
88510|T||Lee,Y.K., M.Y. Lee, M.K. Kim, W.K. Choe, and S.D. Kim|Effects of Calcium Lactate and Chungkukjang on Calcium Status in Rat|J. Food Sci. Nutr.9(1): 45-52|2004|
88511|A||Boniecka,B., and A. Guttowa|The Influence of Pesticides on the Oxygen Uptake by Miracidia of Fasciola hepatica (Trematoda)|Bull. Acad. Pol. Sci. Ser. Sci. Biol.23(7): 463-467|1975|
88512|T||Szinicz,L., G.J. Albrecht, and N. Weger|Effect of Various Compounds on the Reaction of tris-(2-Chloroethyl)Amine with Ribonucleic Acid In Vitro and on Its Toxicity in Mice|Arzneim. Forsch.31(10): 1713-1717|1981|
88513|T||Knauf-Beiter,G., and D. Hermann|Site of Action of Mandipropamid in the Infection Cycle of Target Fungi|In: Congr.Proc., BCPC Int.Congr., Crop Science & Technology, Oct.31-Nov.2, 2005, Glasgow, UK1:99-104|2005|
88514|T||Huggenberger,F., C. Lamberth, W. Iwanzik, and G. Knauf-Beiter|Mandipropamid a New Fungicide Against Oomycete Pathogens|In: 1st Congr.Proc., BCPC Int.Congr., Crop Science & Technology, Oct.31-Nov.2, 2005, Glasgow, UK:87-92|2005|
88515|T||Hermann,D., D.W. Bartlett, W. Fischer, and H.J. Kempf|The Behaviour of Mandipropamid on and in Plants|In: Congr.Proc., BCPC Int.Congr., Crop Science & Technology, Oct.31-Nov.2, 2005, Glasgow, UK1:93-98|2005|
88516|T||Moss,T.J.M., I. Nitsos, R. Harding, and J.P. Newnham|Differential Effects of Maternal and Fetal Betamethasone Injections in Late-Gestation Fetal Sheep|J. Soc. Gynecol. Investig.10(8): 474-479|2003|10.1016/S1071-5576(03)00152-7
88517|T||Hanlon,C.G., and M. Brady|Mapping the Distribution of Torpedograss and Evaluating the Effectiveness of Torpedograss Management Activities in Lake Okeechobee, Florida|J. Aquat. Plant Manag.43(1): 24-29|2005|
88518|T||Dennehy,T.J., T.N. Taft, and H.J. Crowe|Performance of Insecticides for Grape Berry Moth, (GBM) 1985|Insectic. Acaric. Tests12:79-|1987|10.1093/iat/12.1.79
88519|T||Elsner,E.A., E.H. Beers, and R.J. Baird|Apple, First Generation White Apple Leafhopper Commercial Orchard Insecticide Evaluation, 1986|Insectic. Acaric. Tests12:7-|1987|
88520|T||Bruggeman,V., O. Onagbesan, L. Dumez, B. De Ketelaere, and E. Decuypere|Effects of Early Prenatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Postnatal Reproduction in the Laying Hen (Gallus gallus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(4): 349-355|2005|10.1016/j.cbpc.2005.07.011
88521|A||Buckman,A.H., C.S. Wong, E.A. Chow, S.B. Brown, K.R. Solomon, and A.T. Fisk|Biotransformation of Polychlorinated Biphenyls (PCBs) and Bioformation of Hydroxylated PCBs in Fish|Aquat. Toxicol.78(2): 176-185|2006|10.1016/j.aquatox.2006.02.033
88522|A||Carline,R.F., P.M. Barry, and H.G. Ketola|Dietary Uptake of Polychlorinated Biphenyls (PCBs) by Rainbow Trout|N. Am. J. Aquacult.66(2): 91-99|2004|10.1577/A03-028.1
88523|T||Cummings,J.A., A.A. Nunez, and L.G. Clemens|A Cross-Fostering Analysis of the Effects of PCB 77 on the Maternal Behavior of Rats|Physiol. Behav.85:83-91|2005|10.1016/j.physbeh.2005.04.001
88524|T||Eriksson,P., and A. Fredriksson|Developmental Neurotoxicity of Four Ortho-Substituted Polychlorinated Biphenyls in the Neonatal Mouse|Environ. Toxicol. Pharmacol.1(3): 155-165|1996|10.1016/1382-6689(96)00015-4
88525|T||Eriksson,P., and A. Fredriksson|Neurotoxic Effects in Adult Mice Neonatally Exposed to 3,3',4,4'5-Pentachlorobiphenyl or 2,3,3',4,4'-pentachlorobiphenyl.  Changes in Brain Nicotinic Receptors and Behaviour|Environ. Toxicol. Pharmacol.5:17-27|1998|10.1016/S1382-6689(97)10002-3
88526|T||Fisher,S.A., G.R. Bortolotti, K.J. Fernie, D.M. Bird, and J.E. Smits|Behavioral Variation and Its Consequences During Incubation for American Kestrels Exposed to Polychlorinated Biphenyls|Ecotoxicol. Environ. Saf.63(2): 226-235|2006|10.1016/j.ecoenv.2005.07.021
88527|T||Kunz,S., M. Schwarz, B. Schilling, O. Papke, H.J. Lehmler, L.W. Robertson, D. Schrenk, and H.J. Schmitz|Tumor Promoting Potency of PCBs 28 and 101 in Rat Liver|Toxicol. Lett.164(2): 133-143|2006|10.1016/j.toxlet.2005.12.003
88528|T||Hakansson,H., and A. Hanberg|The Distribution of [14C]-2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and Its Effect on the Vitamin A Content in Parenchymal and Stellate Cells of Rat Liver|J. Nutr.119:573-580|1989|10.1093/jn/119.4.573
88530|T||Ohchi,H., H. Gunshin, T. Katayama, and N. Kato|Effect of Dietary PCB on the Metabolism of Eight Trace Elements (Iron, Copper, Manganese, Molybdenum, Chromium, Nickel and Cobalt) in Rats|Nutr. Rep. Int.33(1): 157-162|1986|
88531|A||Izyumov,Y.G., M.G. Talikina, and Y.V. Chebotareva|The Embryonic Mortality and Mutagenic Effect in the First Generation of the Roach Rutilus rutilus at the Direct and Mediated Effect of Arochlor 1254 on Parental Spermia|J. Ichthyol.44(2): 175-179|2004|
88534|T||Abraham,K., R. Krowke, and D. Neubert|Absorption of TCDD Following Parenteral Application in Rats Using Various Vehicles|Chemosphere19(1-6): 893-898|1989|10.1016/0045-6535(89)90428-1
88535|T||Mason,G., and S. Safe|Synthesis, Biologic and Toxic Effects of the Major 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Metabolites in the Rat|Toxicology41:153-159|1986|10.1016/0300-483X(86)90196-4
88536|T||Chow,Ching K., and C. Gairola|Biochemical Alterations by Dietary Selenium in the Livers and Lungs of Polychlorinated Biphenyl-Treated Rats|In: J.E.Spallholz, J.L.Martin, and H.E.Ganther (Eds.), Proceedings of the International Symposium on Selenium in Biology and Medicine, Lubbock, TX54:483-489|1981|
88537|A||Khan,I.A., and P. Thomas|PCB Congener-Specific Disruption of Reproductive Neuroendocrine Function in Atlantic Croaker|Mar. Environ. Res.62(suppl.1): S25 - S28|2006|
88538|A||Jonsson,E.M., A. Abrahamson, B. Brunstrom, and I. Brandt|Cytochrome P4501A Induction in Rainbow Trout Gills and Liver Following Exposure to Waterborne Indigo, Benzo[a]pyrene and 3,3',4,4',5-Pentachlorobiphenyl|Aquat. Toxicol.79(3): 226-232|2006|10.1016/j.aquatox.2006.06.006
88539|T||Ishii,Y., M. Hatsumura, T. Ishida, N. Ariyoshi, and K. Oguri|Significant Induction of a 54-kDa Protein in Rat Liver with Homologous Alignment to Mouse Selenium Binding Protein by a Coplanar Polychlorinated Biphenyl, 3,4,5,3',4'-Pentachlorobiphenyl and 3-Methylcholanthrene|Toxicol. Lett.87(1): 1-9|1996|10.1016/0378-4274(96)03668-5
88540|T||Fernandez-Salguero,P.M., D.M. Hilbert, S. Rudikoff, J.M. Ward, and F.J. Gonzalez|Aryl-Hydrocarbon Receptor-Deficient Mice are Resistant to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Toxicity|Toxicol. Appl. Pharmacol.140:173-179|1996|10.1006/taap.1996.0210
88541|A||Coimbra,A.M., and M.A. Reis-Henriques|Nile Tilapia, Oreochromis niloticus L., Reproduction Inhibition by Dietary Exposure to Aroclor 1254|Bull. Environ. Contam. Toxicol.75(2): 407-412|2005|10.1007/s00128-005-0768-y
88543|A||Andreasen,E.A., L.K. Mathew, and R.L. Tanguay|Regenerative Growth is Impacted by TCDD:  Gene Expression Analysis Reveals Extracellular Matrix Modulation|Toxicol. Sci.92(1): 254-269|2006|10.1093/toxsci/kfj118
88544|T||Ramsey,J.C., J.G. Hefner, R.J. Karbowski, R.J. Braun, and P.J. Gehring|The In Vivo Biotransformation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Rat|Toxicol. Appl. Pharmacol.65:180-184|1982|10.1016/0041-008X(82)90377-5
88545|T||Puhvel,S.M., M. Sakamoto, and R.M. Reisner|Localization of TCDD in Hairless Mouse Skin|Chemosphere15(9-12): 2065-2067|1986|10.1016/0045-6535(86)90514-X
88546|T||Lin,P.H., R. Sangaiah, A. Ranasinghe, P.B. Upton, D.K. La, A. Gold, and J.A. Swenberg|Formation of Quinonoid-Derived Protein Adducts in the Liver and Brain of Sprague-Dawley Rats Treated with 2,2',5,5'-Tetrachlorobiphenyl|Chem. Res. Toxicol.13(8): 710-718|2000|10.1021/tx000030f
88547|T||Tai,H.L., J.H. McReynolds, J.A. Goldstein, H.P. Eugster, C. Senstag, W.L. Alworth, and J.R. Olson|Cytochrome P4501A1 Mediates the Metabolism of 2,3,7,8-Tetrachlorodibenzofuran in the Rat and Human|Toxicol. Appl. Pharmacol.123:34-42|1993|10.1006/taap.1993.1218
88548|T||Brewster,D.W., Y.B. Banks, A.M. Clark, and L.S. Birnbaum|Comparative Dermal Absorption of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Three Polychlorinated Dibenzofurans|Toxicol. Appl. Pharmacol.97:156-166|1989|10.1016/0041-008X(89)90064-1
88549|T||Banks,Y.B., D.W. Brewster, and L.S. Birnbaum|Age-Related Changes in Dermal Absorption of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 2,3,4,7,8-Pentachlorodibenzofuran|Fundam. Appl. Toxicol.15:163-173|1990|10.1016/0272-0590(90)90173-H
88550|T||Appelgren,L.E., I. Brandt, E.B. Brittebo, M. Gillner, and J.A. Gustafsson|Autoradiography of 2,3,7,8-Tetrachloro-(14C)Dibenzo-p-Dioxin TCDD:  Accumulation in the Nasal Mucosa|Chemosphere12(4-5): 545-548|1983|10.1016/0045-6535(83)90207-2
88551|T||Yoshimura,H., Y. Yonemoto, H. Yamada, N. Koga, K. Oguri, and S. Saeki|Metabolism In Vivo of 3,4,3',4'-Tetrachlorobiphenyl and Toxicological Assessment of the Metabolites in Rats|Xenobiotica17(8): 897-910|1987|10.3109/00498258709044189
88552|T||Hebert,C.D., and L.S. Birnbaum|The Influence of Aging on Intestinal Absorption of TCDD in Rats|Toxicol. Lett.37:47-55|1987|10.1016/0378-4274(87)90166-4
88553|T||Birnbaum,L.S., and L.A. Couture|Disposition of Octachlorodibenzo-p-Dioxin (OCDD) in Male Rats|Toxicol. Appl. Pharmacol.93:22-30|1988|10.1016/0041-008X(88)90022-1
88554|T||Brewster,D.W., and L.S. Birnbaum|Disposition of 1,2,3,7,8-Pentachlorodibenzofuran in the Rat|Toxicol. Appl. Pharmacol.95:490-498|1988|10.1016/0041-008X(88)90367-5
88555|T||Astroff,B., and S. Safe|Comparative Antiestrogenic Activities of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 6-Methyl-1,3,8-Trichlorodibenzofuran in the Female Rat|Toxicol. Appl. Pharmacol.95:435-443|1988|10.1016/0041-008X(88)90361-4
88556|T||Olson,J.R.|Metabolism and Disposition of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Guinea Pigs|Toxicol. Appl. Pharmacol.85:263-273|1986|10.1016/0041-008X(86)90121-3
88557|T||Decad,G.M., L.S. Birnbaum, and H.B. Matthews|Distribution and Excretion of 2,3,7,8-Tetrachlorodibenzofuran in C57BL/6J and DBA/2J Mice|Toxicol. Appl. Pharmacol.59:564-573|1981|10.1016/0041-008X(81)90311-2
88558|T||Birnbaum,L.S., G.M. Decad, and H.B. Matthews|Disposition and Excretion of 2,3,7,8-Tetrachlorodibenzofuran in the Rat|Toxicol. Appl. Pharmacol.55:342-352|1980|10.1016/0041-008X(80)90096-4
88559|T||Olson,J.R., T.A. Gasiewicz, and R.A. Neal|Tissue Distribution, Excretion and Metabolism of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in the Golden Syrian Hamster|Toxicol. Appl. Pharmacol.56:78-85|1980|10.1016/0041-008X(80)90132-5
88560|T||Aitio,A., and M.G. Parkki|Organ Specific Induction of Drug Metabolizing Enzymes by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|Toxicol. Appl. Pharmacol.44(1): 107-114|1978|10.1016/0041-008X(78)90289-2
88561|T||Hassoun,E.A., J. Vodhanel, B. Holden, and A. Abushaban|The Effects of Ellagic Acid and Vitamin E Succinate on Antioxidant Enzymes Activities and Glutathione Levels in Different Brain Regions of Rats After Subchronic Exposure to TCDD|J. Toxicol. Environ. Health Part A69(5): 381-393|2006|10.1080/15287390500246431
88562|T||De Jongh,J., A. Belfroid, T. Sinnige, W. Seinen, and M. Van den Berg|The Induction and Subsequent Return to Basal Activity of Liver Enzyme Activity in Male C57BL/6 Mice After a Single Oral Dose of 1,2,3,7,8-PnCDD or 1,2,3,6,7,8-HxCDD|Chemosphere20(7-9): 1203-1207|1990|10.1016/0045-6535(90)90246-P
88563|T||Lans,M.C., A. Brouwer, J.G. Koppe, and M. Van den Berg|Enzyme Induction and Alterations in Thyroid Hormone, Vitamine A and K Levels by TCDD in Neonatal and Maternal Rats|Chemosphere20(7-9): 1129-1134|1990|10.1016/0045-6535(90)90232-I
88564|T||Wacker,R., H. Poiger, and C. Schlatter|Pharmacokinetics and Metabolism 1,2,3,7,8-Pentachlorodibenzo-p-Dioxin in the Rat|Chemosphere15(9-12): 1473-1476|1986|10.1016/0045-6535(86)90427-3
88565|A||Birch,W.X., and K.V. Prahlad|Effects of Minute Doses of Ethylenebisdithiocarbamate Disodium Salt (Nabam) and Its Degradative Products on Connective Tissue Envelopes of the Notochord in Xenopus: An Ultrastructural Study|Cytobios48(194/195): 175-184|1986|
88566|T||Fuke,Y., S. Shinoda, I. Nagata, S. Sawaki, M. Murata, K. Ryoyama, K. Koizumi, I. Saiki, and T. Nomura|Preventive Effect of Oral Administration of 6-(Methylsulfinyl)Hexyl Isothiocyanate Derived from Wasabi (Wasabi japonica Matsum) Against Pulmonary Metastasis of B16-BL6 Mouse Melanoma Cells|Cancer Detect. Prev.30(2): 174-179|2006|10.1016/j.cdp.2005.10.005
88567|T||Fuke,Y., N. Higashi, I. Nagata, S. Sawaki, T. Nomura, and K. Ryoyama|6-(Methylsulfinyl)Hexyl Isothiocyanate Isolated from Wasabi (Wasabia japonica Matsum) Suppresses Tumor Progression in an Experimental Mouse System|Food Sci. Technol. Res.9(2): 148-151|2003|10.3136/fstr.9.148
88568|T||Graves,J.B., B.R. Leonard, P.A. Clay, and E. Burris|Evaluation of Selected Insecticides and Insecticide Combinations Against Boll Weevil, Bollworm and Tobacco Budworm, 1993|Arthropod Manag. Tests19:224-|1994|10.1093/amt/19.1.224
88569|T||Shionogi and Co.,Ltd.|Summary of Toxicity Data on Methyl Isothiocyanate (MITC)|J. Pestic. Sci. (Multiple Languages)15(2): 297-304|1990|10.1584/jpestics.15.297
88570|T||Weisburger,J.H., J. Braley, J. Reinhardt, C. Aliaga, A. Rivenson, G.C. Hard, X.M. Zhang, M. Takahashi, H. Esumi, and T.|The Role of Fat and Calcium in the Production of Foci of Aberrant Crypts in the Colon of Rats Fed 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]-Pyridine|Environ. Health Perspect. Suppl.102(6): 53-55|1994|
88571|T||Verrett,M.J., W.F. Scott, E.F. Reynaldo, E.K. Alterman, and C.A. Thomas|Toxicity and Teratogenicity of Food Additive Chemicals in the Developing Chicken Embryo|Toxicol. Appl. Pharmacol.56(2): 265-273|1980|10.1016/0041-008X(80)90298-7
88572|T||Yandoc,C.B., E.N. Rosskopf, R.L.C.M. Pitelli, and R. Charudattan|Effect of Selected Pesticides on Conidial Germination and Mycelial Growth of Dactylaria higginsii, a Potential Bioherbicide for Purple Nutsedge (Cyperus rotundus)|Weed Technol.20(1): 255-260|2006|10.1614/WT-04-326R1.1
88573|T||Johnson,M.K., E. Vilanova, and D.J. Read|Biochemical and Clinical Tests of the Delayed Neuropathic Potential of Some O-Alkyl O-Dichlorophenyl Phosphoramidate Analogues of Methamidophos (O,S-Dimethyl Phosphorothioamidate)|Toxicology54(1): 89-100|1989|10.1016/0300-483X(89)90081-4
88574|A||Hossain,M.A., and M. Furuichi|Availability of Environmental and Dietary Calcium in Tiger Puffer|Aquac. Int.6(2): 121-132|1998|10.1023/A:1009286206931
88575|T||Robinson,C.P., and D. Beiergrohslein|Cholinesterase Inhibition by Methamidophos and Its Subsequent Reactivation|Pestic. Biochem. Physiol.13(3): 267-273|1980|10.1016/0048-3575(80)90125-X
88576|T||Sanz,P., E. Moreno, R. Blasco, and M. Repetto|Study of Delayed Neurotoxicity Caused by Fatty Acid Anilides in Hens|Vet. Hum. Toxicol.32(5): 422-427|1990|
88577|T||Eigenberg,D.A., T.L. Pazdernik, and J. Doull|Hemoperfusion and Pharmacokinetic Studies with Methamidophos in the Rat|Fundam. Appl. Toxicol.3(6): 496-501|1983|10.1016/S0272-0590(83)80094-3
88578|T||Hanafy,M.S.M., M.S. Arbid, and M.M.H. Afify|Biochemical and Histopathological Effects of the Organophosphorus Insecticide (Tamaron) in Rats|Indian J. Anim. Sci.61(1): 43-47|1991|
88579|T||Karabay,N.U., and M.G. Oguz|Cytogenetic and Genotoxic Effects of the Insecticides, Imidacloprid and Methamidophos|Genet. Mol. Res.4(4): 653-662|2005|
88580|T||Grove,R.A., D.R. Buhler, C.J. Henny, and A.D. Drew|Declining Ring-Necked Pheasants in the Klamath Basin, California:  I.  Insecticide Exposure|Ecotoxicology7(5): 305-312|1998|10.1023/A:1008836817910
88581|T||Pruett,S.B., D.B. Barnes, Y.C. Han, and A.E. Munson|Immunotoxicological Characteristics of Sodium Methyldithiocarbamate|Fundam. Appl. Toxicol.18(1): 40-47|1992|10.1016/0272-0590(92)90193-L
88582|T||Lam,W.W., J.H. Kim, S.E. Sparks, G.B. Quistad, and J.E. Casida|Metabolism in Rats and Mice of the Soil Fumigants Metham, Methyl Isothiocyanate, and Dazomet|J. Agric. Food Chem.41(9): 1497-1502|1993|10.1021/jf00033a027
88583|T||Johnson,D.J., D.G. Graham, V. Amarnath, K. Amarnath, and W.M. Valentine|The Measurement of 2-Thiothiazolidine-4-Carboxylic Acid as an Index of the In Vivo Release of CS2 by Dithiocarbamates|Chem. Res. Toxicol.9(5): 910-916|1996|10.1021/tx960006v
88584|T||Padgett,E.L., D.B. Barnes, and S.B. Pruett|Disparate Effects of Representative Dithiocarbamates on Selected Immunological Parameters In Vivo and Cell Survival In Vitro in Female B6C3F1 Mice|J. Toxicol. Environ. Health37(4): 559-571|1992|10.1080/15287399209531693
88585|T||Khasawinah,A.M.A., R.B. March, and T.R. Fukuto|Insecticidal Properties, Antiesterase Activities, and Metabolism of Methamidophos|Pestic. Biochem. Physiol.9(2): 211-221|1978|10.1016/0048-3575(78)90082-2
88586|T||Johnson,M.K., E. Vilanova, and D.J. Read|Anomalous Biochemical Responses in Tests of the Delayed Neuropathic Potential of Methamidophos (O,S-Dimethyl Phosphorothioamidate), Its Resolved Isomers and of Some Higher O-Alkyl Homologues|Arch. Toxicol.65(8): 618-624|1991|10.1007/BF02098026
88587|T||Moretto,A., M. Bertolazzi, E. Capodicasa, M. Peraica, R.J. Richardson, M.L. Scapellato, and M. Lotti|Phenylmethanesulfonyl Fluoride Elicits and Intensifies the Clinical Expression of Neuropathic Insults|Arch. Toxicol.66(1): 67-72|1992|10.1007/BF02307272
88588|T||Nigg,H.N., J.A. Reinert, J.H. Stamper, and G.E. Fitzpatrick|Disappearance of Acephate, Methamidophos, and Malathion from Citrus Foliage|Bull. Environ. Contam. Toxicol.26(2): 267-272|1981|10.1007/BF01622089
88590|T||Hussain,M.A.|Anticholinesterase Properties of Methamidophos and Acephate in Insects and Mammals|Bull. Environ. Contam. Toxicol.38(1): 131-138|1987|10.1007/BF01606570
88591|T||Antonious,G.F., and J.C. Snyder|Residues and Half-Lives of Acephate, Methamidophos, and Pirimiphos-Methyl in Leaves and Fruit of Greenhouse-Grown Tomatoes|Bull. Environ. Contam. Toxicol.52(1): 141-148|1994|10.1007/BF00197370
88592|A||Michajlow,W., and I. Wita|Effect of Vapam - A Pesticide of the Carbamate Group - On Ergasilus sieboldi Nordmann (Copepoda) a Parasite of the Pike and on Paradistigma triangulatum Wita (Euglenoidina) a Parasite of this Copepod|Bull. Acad. Pol. Sci. Ser. Sci. Biol.24(2): 113-116|1976|
88593|A||Stpiczynska,R., A. Rzeczkowska, and A. Guttowa|The Influence of Pesticides on the Invasive Activity of Miracidia and the Asexual Reproduction of Fasciola hepatica (Trematoda) Larvae in the Host Snails|Bull. Acad. Pol. Sci. Ser. Sci. Biol.26(6): 405-410|1978|
88596|T||Zayed,S.M.A.D., and F.M. Mahdi|Methylation of Guanine In Vivo by the Organophosphorus Insecticide Methamidophos|Z. Naturforsch.42C(1-2): 17-20|1987|10.1515/znc-1987-1-204
88597|A||Agbon,A.O., P.C. Ofojekwu, I.S. Ezenwaka, and W.O. Alegbeleye|Acute Toxicity of Diazinon on Rotifers, Cyclops, Mosquito Larvae and Fish|J. Appl. Sci. Environ. Manag.6(1): 18-21|2002|10.4314/jasem.v6i1.17188
88598|T||Satar,S., D. Satar, S. Kirim, and H. Leventerler|Effects of Acute Organophosphate Poisoning on Thyroid Hormones in Rats|Am. J. Therapeut.12(3): 238-242|2005|
88599|T||El-Zalabani,I.M., A.A. Soliman, A.I. Osman, I.M. Wagih, and B.A. Bassiouni|Effect of Organophosphorus Insecticides on Pregnant Rabbits|Bull. Alexandria Fac. Med.15(1): 113-118|1979|
88600|T||Conalty,M.L., J.F. O'Sullivan, and D. Twomey|Anticancer Agents - XII. Pyridazine and Benzodiazine Derivatives|Proc. R. Ir. Acad., B Biol. Geol. Chem. Sci.76(10): 151-163|1976|
88603|T||Walker,N.J., J.A. Gastel, L.T. Costa, G.C. Clark, G.W. Lucier, and T.R. Sutter|Rat CYP1B1: An Adrenal Cytochrome P450 that Exhibits Sex-Dependant Expression in Livers and Kidneys of TCDD-Treated Animals|Carcinogenesis16(6): 1319-1327|1995|10.1093/carcin/16.6.1319
88604|T||Schlatterer,K., A. Esmaeli, A. Chandra, D. Hofmann, A. Lerch, B. Schlatterer, I. Demirhan, and P. Chandra|Low Molecular Weight Proteins Secreted by Peritoneal Macrophages Obtained from 2,3,7,8-Tetrabromodibenzo-p-Dioxin-Treated NMRI Mice|Electrophoresis18(1): 136-141|1997|10.1002/elps.1150180125
88605|T||De Jongh,J., R. Nieboer, I. Schroders, W. Seinen, and M. Van den Berg|Interactive Effects Between PCDDs, PCDFs and PCBs on Their Hepatic Disposition in C57BL/6J Mice|Organohalog. Compd.10:37-40|1992|
88606|T||Bouwman,C.A., K. Fase, J.G. Koppe, W. Seinen, and M. Van den Berg|Effects of 2,3,7,8-TCDD or 2,2',4,4',5,5'-HxCB on the Activity of Vitamin K-Cycle Enzymes in Rats:  A Novel Mechanism of Action|Organohalog. Compd.10:13-16|1992|
88607|T||Morse,D.C., A.T.H.J. De Bie, P.J. Van Bladeren, and A. Brouwer|Excretion Kinetics of a Combined Dose of 3,4,3',4'-Tetrachlorobiphenyl and 2,4,5,2',4',5'-Hexachlorobiphenyl in Female Rats|Organohalog. Compd.1:39-42|1990|
88608|T||Schulz-Schalge,T., E. Koch, K.H. Schwind, O. Hutzinger, and D. Neubert|Comparative Study on the Inductive Potency of TCDD and TBrDD with Three 2,3,7,8-Mixed-Halogenated Dioxins in Liver Microsomes of Male Rats|Organohalog. Compd.1:321-324|1990|
88609|T||Slezak,B.P., J.J. Diliberto, and L.S. Birnbaum|2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Mediated Oxidative Stress in CYP1A2 (CYP1A2-/-) Mice|Biochem. Biophys. Res.264:376-379|1999|
88610|T||Gasiewicz,T.A., L.E. Geiger, G. Rucci, and R.A. Neal|Distribution, Excretion, and Metabolism of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in D57BL/6J, DBA/2J, and B6D2F1/J Mice|Drug Metab. Dispos.11(5): 397-403|1983|
88611|T||Sugiura,K., N. Tanaka, N. Takeuchi, M. Toyoda, and M. Goto|Accumulation and Elimination of PCBs in the Mouse|Chemosphere5(1): 31-37|1976|10.1016/0045-6535(76)90053-9
88612|T||Venkataraman,P., M. Sridhar, S. Dhanammal, M.R. Vijayababu, A. Arunkumar, N. Srinivasan, and J. Arunakaran|Effects of Vitamin Supplementation on PCB (Aroclor 1254)-Induced Changes in Ventral Prostatic Androgen and Estrogen Receptors|Endocr. Res.30(3): 469-480|2004|10.1081/ERC-200035959
88613|T||Birnbaum,L.S.|Distribution and Excretion of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Congenic Strains of Mice Which Differ at the Ah Locus|Drug Metab. Dispos.14(1): 34-40|1986|
88614|T||Brownlee,L.J., C.H. Evans, and B.R. Hollebone|The Relative Induction of Mixed-Function Oxidase Specific Activity to C-H and C-C1 Bond Strengths in Polychlorinated Derivatives of Dibenzo-p-dioxin (PCDDs)|J. Appl. Toxicol.6(1): 67-71|1986|10.1002/jat.2550060114
88615|A||O'Rourke,S.M.|Quantitative Biomonitoring of Polychlorinated Biphenyls in the Detroit River Using the Freshwater Mussel Elliptio complanata|M.S.Thesis, University of Windsor, Canada:117 p.|2005|
88617|AT||Guttowa,A., and B. Boniecka|The In Vitro Effects of Organic Phosphorus Compounds and Carbamates on Development of Fasciola hepatica L. (Trematoda) and Triaenophorus nodulosus (Pall.) (Cestoda) Embryos|Acta Parasitol.24(28-34): 315-322|1977|
88618|T||Seegal,R.F., B. Bush, and K.O. Brosch|Polychlorinated Biphenyls Induce Regional Changes in Brain Norepinephrine Concentrations in Adult Rats|Neurotoxicology6(3): 13-23|1985|
88619|T||Abraham,K., R. Krowke, and D. Neubert|Pharmacokinetics and Biological Activity of 2,3,7,8-Tetrachlorobenzo-p-Dioxin. I. Dose-Dependent Tissue Distribution and Induction of Hepatic Ethoxyresorufin O-Deethylase in Rats Following a Single Injection|Arch. Toxicol.62:359-368|1988|10.1007/BF00293624
88620|A||Duffy,J.E., and J.T. Zelikoff|The Relationship Between Noncoplanar PCB-induced Immunotoxicity and Hepatic CYP1A Induction in a Fish Model|J. Immunotoxicol.3(1): 39-47|2006|10.1080/15476910500514230
88621|T||Hassoun,E.A., J. Vodhanel, and A. Abushaban|The Modulatory Effects of Ellagic Acid and Vitamin E Succinate on TCDD-Induced Oxidative Stress in Different Brain Regions of Rats After Subchronic Exposure|J. Biochem. Mol. Toxicol.18(4): 196-203|2004|10.1002/jbt.20030
88622|T||Randerath,K., K.L. Putman, E. Randerath, G. Mason, M. Kelley, and S. Safe|Organ-Specific Effects of Long Term Feeding of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 1,2,3,7,8-Pentachlorodibenzo-p-Dioxin on I-Compounds in Hepatic and Renal DNA of Female Sprague-Dawley Rats|Carcinogenesis9(12): 2285-2289|1988|10.1093/carcin/9.12.2285
88623|T||Nagayama,J., S. Tokudome, M. Kuratsune, and Y. Masuda|Transfer of Polychlorinated Dibenzofurans to the Foetuses and Offspring of Mice|Food Cosmet. Toxicol.18:153-157|1980|10.1016/0015-6264(80)90069-3
88624|T||Venkataraman,P., M. Sridhar, S. Dhanammal, M.R. Vijayababu, N. Srinivasan, and J. Arunakaran|Antioxidant Role of Zinc in PCB (Aroclor 1254) Exposed Ventral Prostate of Albino Rats|J. Nutr. Biochem.15(10): 608-613|2004|10.1016/j.jnutbio.2004.06.001
88625|T||Takagi,T.N., K.A. Matsui, K. Yamashita, H. Ohmori, and M. Yasuda|Pathogenesis of Cleft Palate in Mouse Embryos Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Teratog. Carcinog. Mutagen.20:73-86|2000|10.1002/(SICI)1520-6866(2000)20:2<73::AID-TCM3>3.0.CO;2-M
88626|T||Chu,I., D.C. Villeneuve, A. Yagminas, P. Lecavalier, R. Poon, M. Feeley, S.W. Kennedy, R.F. Seegal, H. Hakansson, U.G. |Toxicity of 2,2',4,4',5,5'-Hexachlorobiphenyl in Rats: Effects Following 90-Day Oral Exposure|J. Appl. Toxicol.16(2): 121-128|1996|10.1002/(SICI)1099-1263(199603)16:2<121::AID-JAT320>3.0.CO;2-G
88627|T||Pohjanvirta,R., H. Hakansson, R. Juvonen, and J. Tuomisto|Effects of TCDD on Vitamin A Status and Liver Microsomal Enzyme Activities in a TCDD-Susceptible and a TCDD-Resistant Rat Strain|Food Chem. Toxicol.28(3): 197-203|1990|10.1016/0278-6915(90)90007-A
88628|T||Chu,I., D.C. Villeneuve, A.P. Gilman, A. Yagminas, P. LeCavelier, R. Poon, and S. Kennedy|Toxicity Study of 3,3',4,4'-Tetrachlorobiphenyl and 2,3',4,4',5-Pentachlorobiphenyl in the Rat|Organohalog. Compd.10:17-20|1992|
88629|A||Van der Weiden,M.E.J., J. Van der Kolk, F.D. Kempeneers, W. Seinen, and M. Van den Berg|Comparative Toxicity and Enzyme Induction of 2,3,7,8-TCDD in the Carp (Cyprinus carpio) and the Rainbow Trout (Oncorhynchus mykiss)|Organohalog. Compd.1:397-400|1990|
88630|T||Rozman,K.K., M. Lebofsky, and D.M. Pinson|Chronic Toxicity and Carcinogenicity of 1,2,3,4,6,7,8-Heptachlorodibenzo-p-Dioxin Displays a Distinct Dose/Time Toxicity Threshold (c x t = k) and a Life-Prolonging Subthreshold Effect|Food Chem. Toxicol.43(5): 729-740|2005|10.1016/j.fct.2005.01.013
88631|T||Smith,A.G., B. Clothier, S. Robinson, M.J. Scullion, P. Carthew, R. Edwards, J. Luo, C.K. Lim, and M. Toledano|Interaction Between Iron Metabolism and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Mice with Variants of the Ahr Gene:  A Hepatic Oxidative Mechanism|Mol. Pharmacol.53(1): 52-61|1998|10.1124/mol.53.1.52
88632|T||Zoeller,R.T., A.L.S. Dowling, and A.A. Vas|Developmental Exposure to Polychlorinated Biphenyls Exerts Thyroid Hormone-Like Effects on the Expression of RC3/Neurogranin and Myelin Basic Protein Messenger Ribonucleic Acids in the Developing Rat Brain|Endocrinology141(1): 181-189|2000|10.1210/endo.141.1.7273
88633|T||Ishimura,R., T. Kawakami, S. Ohsako, K. Nohara, and C. Tohyama|Suppressive Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Vascular Remodeling that Takes Place in the Normal Labyrinth Zone of Rat Placenta During Late Gestation|Toxicol. Sci.91(1): 265-274|2006|10.1093/toxsci/kfj138
88636|A||Guttowa,A.|Toxicity of Some Pesticides to Helminth Larvae|Bull. Acad. Pol. Sci. Ser. Sci. Biol.23(6): 399-404|1975|
88638|T||Noetzel,D.M., J. Wiersma, and D. Preston|CPB Defoliation and Potato Yields with Temik, Five Foliar and One Biological Insecticide, 1985|Insectic. Acaric. Tests12:142-143|1987|10.1093/iat/12.1.142
88639|T||Gurecki,T., Z. Smilowitz, P. Rebarchak, and J.O. Yocum|Foliar Insecticide Efficacy Trial, 1986|Insectic. Acaric. Tests12:135-138|1987|10.1093/iat/12.1.135
88640|T||Gurecki,T., Z. Smilowitz, P. Rebarchak, and J.O. Yocum|Systemic Insecticide Trial, 1986|Insectic. Acaric. Tests12:134-135|1987|10.1093/iat/12.1.134
88641|T||Burris,G., K. Ratchford, J.B. Graves, A.M. Pavloff, and B.R. Leonard|Control of Thrips and Aphids on Seedling Cotton with Granular In-Furrow Insecticides and Seed Treatments, 1986|Insectic. Acaric. Tests12:227-|1987|10.1093/iat/12.1.227
88642|T||Burris,G., K. Ratchford, J.B. Graves, A.M. Pavloff, and B.R. Leonard|Temik 15G and Nemacur 15G In-Furrow Rate Test on Delta (Commerce Silt Loam) Soil, 1986|Insectic. Acaric. Tests12:228-229|1987|10.1093/iat/12.1.228
88643|T||Noetzel,D.M., J. Wiersma, and D. Preston|Potato Yields with Soil Systemic plus Foliars and Foliars Alone, 1985|Insectic. Acaric. Tests12:143-|1987|10.1093/iat/12.1.143
88644|T||Huang,Q., X. Qian, G. Song, and S. Cao|The Toxic and Anti-Feedant Activity of 2H-Pyridazin-3-One-Substituted 1,3,4-Oxadiazoles Against the Armyworm Pseudaletia separata (Walker) and Other Insects and Mites|Pest Manag. Sci.59(8): 933-939|2003|10.1002/ps.704
88645|T||Walker,G.P., N. O'Connell, and D.C.G. Aitken|Timing Lorsban Applications for California Red Scale Control, 1985|Insectic. Acaric. Tests12:89-90|1987|10.1093/iat/12.1.89
88646|T||Heller,P.R., and S. Kellogg|Summer Control of Japanese Beetle Grubs on a Golf Course Fairway in Mifflin Co., PA, 1986|Insectic. Acaric. Tests12:320-321|1987|10.1093/iat/12.1.358
88647|T||Heller,P.R., and S. Kellogg|Spring Control of Japanese Beetle Grubs on a Golf Course Rough in Oakland Mills, PA, 1986|Insectic. Acaric. Tests12:322-|1987|10.1093/iat/12.1.322
88648|T||Heller,P.R., and S. Kellogg|Summer Control of Japanese Beetle Grubs on a Golf Course Fairway in Oakland Mills, PA, 1986|Insectic. Acaric. Tests12:323-|1987|10.1093/iat/12.1.358
88649|T||Heller,P.R., and S. Kellogg|Summer Control of Japanese Beetle Grubs on a Golf Course Fairway in Lewiston, PA, 1986|Insectic. Acaric. Tests12:323-|1987|10.1093/iat/12.1.358
88650|T||Harrell,M.O.|Control of Dioryctria tumicolella, a Phloem Borer of Pine, 1983|Insectic. Acaric. Tests11:425-426|1986|
88652|T||Quaker Oats Co.|Initial Submission:  Primary Dermal Irritation Study with a Mixture of Furfural, Polyphosphoric Acid, and Hexyl Alcohol in Rabbits with Cover Letter Dated 073192|EPA/OTS Doc.#88-920005446:11 p.|1992|
88653|A||Gupta,A., and G.S. Singhal|Heavy Metal Induced Changes in the Spectral Properties of Anacystis nidulans|Biol. Plant. (Praha)38(2): 275-280|1996|10.1007/BF02873860
88654|T||Hu,P.J., A.R. Baer, and M.J. Wargovich|Calcium and Phosphate:  Effect of Two Dietary Confounders on Colonic Epithelial Cellular Proliferation|Nutr. Res.9(5): 545-553|1989|10.1016/S0271-5317(89)80179-4
88655|T||Benhamou,N., and R.R. Belanger|Induction of Systemic Resistance to Pythium Damping-off in Cucumber Plants by Benzothiadiazole: Ultrastructure and Cytochemistry of the Host Response|Plant J.14(1): 13-21|1998|10.1046/j.1365-313X.1998.00088.x
88656|T||Watrin,C.G., and E.B. Radcliffe|Population Response of Green Peach Aphid on Potato in Puerto Rico, 1984-85|Insectic. Acaric. Tests11:180-181|1986|10.1093/iat/11.1.180
88657|T||Klein,M.G., and J.J. Moyseenko|Control of Japanese Beetle Adults on Rose with Sevin, 1985|Insectic. Acaric. Tests11:430-|1986|10.1093/iat/11.1.430
88658|T||Buntin,G.D.|Leafhopper and Planthopper Control with Carbaryl, 1985|Insectic. Acaric. Tests11:391-392|1986|10.1093/iat/11.1.391a
88659|T||Noetzel,D.M.|Foliar Sprays for Larval Sunflower Beetle Control, 1984|Insectic. Acaric. Tests11:353-|1986|10.1093/iat/11.1.353
88660|T||Noetzel,D.M.|Sandhill Cutworm Control, 1984|Insectic. Acaric. Tests11:237-|1986|10.1093/iat/11.1.237a
88661|T||Noetzel,D.M.|Control of Armyworm in Barley, 1984|Insectic. Acaric. Tests11:223-|1986|10.1093/iat/11.1.223
88662|T||Foster,D.E., and W.K. Wintersteen|Potato Leafhopper Control, 1984|Insectic. Acaric. Tests11:206-207|1986|10.1093/iat/11.1.206
88663|T||Morrill,W.L., and A. Wrona|Control of Lygus Bugs in Alfalfa in Montana, 1985|Insectic. Acaric. Tests11:215-|1986|10.1093/iat/11.1.215
88664|T||Foster,D.E., and W.K. Wintersteen|Stalk Borer Control; 1985|Insectic. Acaric. Tests11:230-231|1986|
88665|T||Foster,D.E., and W.K. Wintersteen|Grasshopper Control in Non-Crop Vegetation, 1985|Insectic. Acaric. Tests11:315-|1986|10.1093/iat/11.1.315
88666|T||McLeod,P.|Corn Earworm Control on Sweet Corn, 1985|Insectic. Acaric. Tests11:136-|1986|10.1093/iat/11.1.136
88667|T||Ratchford,K.|Insect Control on Soybeans, 1985|Insectic. Acaric. Tests11:347-348|1986|10.1093/iat/11.1.347
88668|T||Johnston,R.L., S. Halbert, and G.W. Bishop|Aphid Control of Late Planted Wheat with Foliar Applied Insecticides, 1985|Insectic. Acaric. Tests11:368-|1986|10.1093/iat/11.1.368
88669|T||Peairs,F.B., and S.D. Pilcher|First Generation European Corn Borer, Handplots, Wray, CO, 1985|Insectic. Acaric. Tests11:241-242|1986|10.1093/iat/11.1.241
88670|T||Peairs,F.B., and S.D. Pilcher|Second Generation European Corn Borer, Handplots, Wray, CO, 1985|Insectic. Acaric. Tests11:242-243|1986|10.1093/iat/11.1.242
88671|T||Pilcher,S.D., and F.B. Peairs|Control of Rangeland Grasshoppers, Akron, CO, 1985|Insectic. Acaric. Tests11:316-317|1986|10.1093/iat/11.1.316a
88672|T||Noetzel,D.M.|Armyworm Control in Wheat, 1984|Insectic. Acaric. Tests11:367-|1986|10.1093/iat/11.1.367
88673|T||Cowher,C.F., and E.A. Cameron|Sprays for Control of Cooley Spruce Gall Adelgid on Douglas Fir Christmas Trees, 1985|Insectic. Acaric. Tests11:388-|1986|10.1093/iat/11.1.388
88674|A||Tilton,F., J.K. La Du, M. Vue, N. Alzarban, and R.L. Tanguay|Dithiocarbamates have a Common Toxic Effect on Zebrafish Body Axis Formation|Toxicol. Appl. Pharmacol.216(1): 55-68|2006|10.1016/j.taap.2006.04.014
88675|T||Creemers,P., and A. Vanmechelen|Side Effects of Fungicides on Pome Fruit|Meded. Fac. Landbouwwet. Rijksuniv. Gent58(3b): 1421-1429|1993|
88676|T||Seiler,J.P.|Nitrosation In Vitro and In Vivo by Sodium Nitrite, and Mutagenicity of Nitrogenous Pesticides|Mutat. Res.48(2): 225-236|1977|10.1016/0027-5107(77)90164-6
88677|T||Korhonen,A., K. Hemminki, and H. Vainio|Toxicity of Rubber Chemicals Towards Three-Day Chicken Embryos|Scand. J. Work Environ. Health9(2): 115-119|1983|10.5271/sjweh.2435
88678|A||Schultz,T.W., J.W. Yarbrough, and M. Woldemeskel|Toxicity to Tetrahymena and Abiotic Thiol Reactivity of Aromatic Isothiocyanates|Cell Biol. Toxicol.21(3-4): 181-189|2005|10.1007/s10565-005-0169-3
88679|T||Tordoff,M.G.|Voluntary Intake of Calcium and Other Minerals by Rats|Am. J. Physiol., Regul. Integr. Comp. Physiol.267(2, Pt. 2): R470 - R475|1994|10.1152/ajpregu.1994.267.2.R470
88680|T||Tordoff,M.G.|Influence of Dietary Calcium on Sodium and Calcium Intake of Spontaneously Hypertensive Rats|Am. J. Physiol., Regul. Integr. Comp. Physiol.262(3, Pt. 2): R370 - R381|1992|10.1152/ajpregu.1992.262.3.R370
88681|T||Woodside,B., and L. Millelire|Self-Selection of Calcium During Pregnancy and Lactation in Rats|Physiol. Behav.39(3): 291-295|1987|10.1016/0031-9384(87)90224-1
88682|T||Van der Hoeven,J.S.|Effect of Calcium Lactate and Calcium Lactophosphate on Caries Activity in Programme-Fed Rats|Caries Res.19(4): 368-370|1985|10.1159/000260868
88683|T||Vinas-Salas,J., P. Biendicho-Palau, C. Pinol-Felis, S. Miguelsanz-Garcia, and S. Perez-Holanda|Calcium Inhibits Colon Carcinogenesis in an Experimental Model in the Rat|Eur. J. Cancer34(12): 1941-1945|1998|10.1016/S0959-8049(98)00197-X
88684|T||Yamaguchi,H., T. Tajima, M. Morisada, and H. Sakaguchi|An Experimental Model of Calcification in the Vessel Wall|Exp. Pathol.  (Jena)25(3): 185-190|1984|10.1016/S0232-1513(84)80038-9
88685|T||Greger,J.L., C.E. Krzykowski, R.R. Khazen, and C.L. Krashoc|Mineral Utilization by Rats Fed Various Commercially Available Calcium Supplements or Milk|J. Nutr.117(4): 717-724|1987|10.1093/jn/117.4.717
88686|T||Suzuki,K., Y. Kanke, and S. Goto|Utilization of Calcium Salts and Its Effects on Balance of Phosphorus and Magnesium in Mature Rats|Nutr. Rep. Int.16(4): 471-477|1977|
88687|T||Goto,S., and T. Sugai|Effect of Excess Calcium Intake on Absorption of Nitrogen, Fat, Phosphorus, and Calcium in Adult Rats. The Use of Organic Calcium Salt|Nutr. Rep. Int.11(1): 49-54|1975|
88688|T||Low,J.C., Y.Y. Dkuh, J.S. McNeill, and J.M. Earll|Relations of Serum Lactate and pH to Serum Ionic Calcium|Rev. Med. Aeronaut. Spat.12(46): 331-334|1973|
88689|T||Ueno,K., Y. Shimoto, A. Yokoyama, H. Kitagawa, S. Takeno, T. Sakai, and H. Saito|Alleviation of Acetylsalicylic Acid-Induced Fetal Toxicity by Calcium|Res. Commun. Chem. Pathol. Pharmacol.39(2): 179-188|1983|
88690|T||Emery,R.S., J.W. Thomas, and L.D. Brown|Fermentation, Absorption and Feeding Results with L(+) Lactic Acid Monomer and Polymer and DL-Lactate Salts|J. Anim. Sci.25(2): 397-401|1966|10.2527/jas1966.252397x
88691|T||Yamada,T., T. Saito, E. Takahara, O. Nagata, I. Tamai, and A. Tsuji|Decalcification of Calcium Polycarbophil in Rats|Biol. Pharm. Bull.20(3): 275-277|1997|10.1248/bpb.20.275
88692|T||Svensson,S.A., and A. Kivimae|The Use of Labelled Calcium in Measuring the Effect of Varying Temperature and Calcium Level in the Feed on Egg Shell Formation in Hens|Lantbrukshogsk. Ann.31:213-223|1965|
88693|T||Villani,M.G., and R.J. Wright|Fall Control of White Grubs with Insecticides on a Long Island Golf Course, 1986|Insectic. Acaric. Tests12:326-|1987|10.1093/iat/12.1.326
88694|T||Villani,M.G., and R.J. Wright|Fall Control of White Grubs with Labelled and Experimental Insecticides on a Golf Course, Syracuse, NY, 1986|Insectic. Acaric. Tests12:325-|1987|
88695|T||Villani,M.G., and R.J. Wright|Fall Control of White Grubs with Labelled Insecticides and Entomogenous Nematodes on a Golf Course, Syracuse, NY, 1986|Insectic. Acaric. Tests12:325-|1987|
88696|T||Whitford,F., S. Quisenberry, and C.P. Bagley|Fall Armyworm, Leafhopper, and Planthopper Control in Louisiana, 1986|Insectic. Acaric. Tests12:318-|1987|10.1093/iat/12.1.318
88697|T||Villani,M.G., and R.J. Wright|Fall Control of White Grubs with Insecticides on a Golf Course at Syracuse, NY, September, 1986|Insectic. Acaric. Tests12:326-|1987|10.1093/iat/12.1.326
88698|T||McPherson,R.M., and M.M. Beahm|Cereal Leaf Beetle Control in Late Planted Winter Wheat, 1986|Insectic. Acaric. Tests12:312-|1987|
88699|T||McPherson,R.M., and T.P. Moss|Cereal Leaf Beetle Control in Soft Red Winter Wheat, 1986|Insectic. Acaric. Tests12:312-|1987|
88700|T||Southern,P.S., and E.P. Lampert|Control of Vegetable Weevils with Foliar Insecticides, 1986|Insectic. Acaric. Tests12:309-|1987|10.1093/iat/12.1.309
88701|T||Johnston,R.L., and G.W. Bishop|Aphid Control on Spring Wheat with Foliar Applied Insecticides, 1986|Insectic. Acaric. Tests12:310-|1987|10.1093/iat/12.1.310a
88702|T||Semtner,P.J., and T.D. Reed|Insect Control on Flue-Cured Tobacco with Foliar Insecticides, 1985|Insectic. Acaric. Tests12:304-|1987|10.1093/iat/12.1.304
88703|T||Lampert,E.P., and A.S. Stephenson|Control of Tobacco Budworms with Foliar Insecticides, 1986|Insectic. Acaric. Tests12:296-|1987|10.1093/iat/12.1.296
88704|T||Hammond,R.B., and E. Ressler|Foliar-Applied Insecticide Trials on Soybean, 1986|Insectic. Acaric. Tests12:274-|1987|10.1093/iat/12.1.274
88705|T||Noetzel,D.M., M. Ricard, C. Holen, and H. Stanislawski|Sunflower Beetle Larval Control, 1985|Insectic. Acaric. Tests12:285-286|1987|10.1093/iat/12.1.285
88706|T||All,J.N., A. Javid, and J.R. Chamberlin|Insecticide Control of Sorghum Head Worms in Georgia, 1986|Insectic. Acaric. Tests12:266-267|1987|10.1093/iat/12.1.266a
88707|T||Robinson,J.R.C., and G.L. Teetes|Chemical Control of Sorghum Midge on Grain Sorghum, 1986|Insectic. Acaric. Tests12:270-|1987|10.1093/iat/12.1.270
88708|T||Robinson,J.R.C., and G.L. Teetes|Insecticides for Suppression of Heliothis spp. on Cotton, 1986|Insectic. Acaric. Tests12:248-250|1987|10.1093/iat/12.1.248
88709|T||Stoltz,R.L.|Rangeland Grasshopper Control, 1986|Insectic. Acaric. Tests12:264-|1987|10.1093/iat/12.1.264a
88710|T||Johnson,D.W., and L.H. Townsend|Fall Army Worm Control in Field Corn, 1985|Insectic. Acaric. Tests12:201-|1987|
88711|T||Tasistro,A., and J.A. Mihm|Control of Fall Armyworm in Field Corn, 1985|Insectic. Acaric. Tests12:223-224|1987|10.1093/iat/12.1.223
88712|T||All,J.N., and J.D. All|Field Corn, Fall Armyworm Control in Whorl Stage Field Corn, Conventional Tillage and no Tillage, 1986|Insectic. Acaric. Tests12:181-182|1987|10.1093/iat/12.1.181a
88713|T||Calvin,D., and C. Sammons|Evaluation of Molluscicides for Slug Control, 1986|Insectic. Acaric. Tests12:192-|1987|10.1093/iat/12.1.192
88714|T||Watrin,C.G., and E.B. Radcliffe|Alfalfa Insect Control in Minnesota, 1986|Insectic. Acaric. Tests12:177-|1987|10.1093/iat/12.1.177a
88715|T||Noetzel,D.M., and C. Nygaard|Flea Beetle Control in Canola, 1985|Insectic. Acaric. Tests12:181-|1987|10.1093/iat/12.1.181
88716|T||Bailey,W.C., and R.E. Munson|Potato Leafhopper Control, Missouri (Northern), 1986|Insectic. Acaric. Tests12:163-|1987|10.1093/iat/12.1.163
88717|T||Karner,M.A.|Alfalfa Insect Control in Oklahoma, 1986|Insectic. Acaric. Tests12:170-|1987|10.1093/iat/12.1.170
88718|T||McLeod,P.|Insect Control in Zucchini, 1986|Insectic. Acaric. Tests12:159-|1987|10.1093/iat/12.1.159
88719|T||Bailey,W.C., R.E. Munson, and B.E. Booker|Potato Leafhopper Control, Missouri (Southern), 1986|Insectic. Acaric. Tests12:162-|1987|
88720|T||Watrin,C.G., and E.B. Radcliffe|Control of Potato Leafhopper Nymphs with Foliar Insecticides, 1986|Insectic. Acaric. Tests12:150-|1987|10.1093/iat/12.1.150
88721|T||Story,R.N., and B.H. Lye|Turnip Leaf and Flea Beetle Control in Louisiana, 1986|Insectic. Acaric. Tests12:158-|1987|10.1093/iat/12.1.158a
88722|T||Watrin,C.G., and E.B. Radcliffe|Control of European Corn Borer on Sweet Corn, 1986|Insectic. Acaric. Tests12:122-|1987|10.1093/iat/12.1.122
88723|T||Johnston,R.L., and G.W. Bishop|Onion Thrips Control, 1986|Insectic. Acaric. Tests12:124-142|1987|10.1093/iat/12.1.124a
88724|T||Bowman,J.S.|Control of European Corn Borer on Early Sweet Corn, 1986|Insectic. Acaric. Tests12:113-|1987|10.1093/iat/12.1.113
88725|T||Tetrault,R., P. Rebarchak, C. Thomas, T. Gurecki, and D. Calvin|Sweet Corn, Univoltine and Second Brood European Corn Borer, Fall Armyworm, and Corn Earworm Control, 1985|Insectic. Acaric. Tests12:121-|1987|10.1093/iat/12.1.121
88726|T||Royer,T.A., J.V. Edelson, and B. Cartwright|Worm Control on Cabbage, 1985|Insectic. Acaric. Tests12:103-104|1987|
88727|T||Edelson,J.V., T.A. Royer, and B. Cartwright|Control of Arthropod Pests on Cantaloupe, 1986|Insectic. Acaric. Tests12:108-109|1987|10.1093/iat/12.1.108
88728|T||Sorensen,K.A., and K.A. Kidd|Asparagus Beetle Control, 1985|Insectic. Acaric. Tests12:97-|1987|10.1093/iat/12.1.97
88729|T||Shamiyeh,N.B., N. Elkassabany, and C.A. Mullins|Control of Cabbage Loopers and Flea Beetles on Fall Broccoli, 1986|Insectic. Acaric. Tests12:98-99|1987|10.1093/iat/12.1.98a
88730|T||Rajotte,E.G., and J.W. Travis|Thrips and Aphid Control, 1986|Insectic. Acaric. Tests12:83-84|1987|10.1093/iat/12.1.83b
88731|T||Morse,J.G., A.A. Urena, O.L. Brawner, and J. Salazar-Marroquin|Control of Fuller Rose Beetle in Pruned and Unpruned Citrus, 1986|Insectic. Acaric. Tests12:86-|1987|10.1093/iat/12.1.86a
88732|T||Saunders,M.C., and P.W. Flanagan|Control of Leafhoppers in Grapes, 1986|Insectic. Acaric. Tests12:80-|1987|10.1093/iat/12.1.80
88733|T||Wiesenborn,W.D., J.T. Trumble, and V. Voth|Ovicidal Efficacy Against Corn Earworm on Excised Strawberry Leaves, 1986|Insectic. Acaric. Tests12:83-|1987|10.1093/iat/12.1.83a
88734|T||Williams,R.N., and D.S. Fickle|Bioassay and Avoidance (Repellency) Evaluation of Japanese Beetle Adulticides on Grapes, 1986|Insectic. Acaric. Tests12:81-|1987|
88735|T||Saunders,M.C., and P.W. Flanagan|Control of Leafhoppers in Grapes, 1985|Insectic. Acaric. Tests12:79-|1987|10.1093/iat/12.1.79a
88736|T||Johnson,D.T., and R.L. Mayes|Blueberry, Fruitworm Insecticide Test, 1986|Insectic. Acaric. Tests12:77-|1987|10.1093/iat/12.1.77a
88737|T||Forsythe,H.Y.,Jr., and J.A. Collins|Blueberry, Flea Beetle Adult Control, 1986|Insectic. Acaric. Tests12:77-|1987|10.1093/iat/12.1.77
88738|T||Williams,R.N., D.S. Fickle, and M.A. Ellis|Bioassay Evaluation of Insecticides on Blueberries, 1986|Insectic. Acaric. Tests12:78-|1987|10.1093/iat/12.1.78
88739|T||Horsburgh,R.L., and L.J. Cobb|Apple, Full Season Insecticide Evaluations, 1986|Insectic. Acaric. Tests12:21-24|1987|10.1093/iat/12.1.21
88740|T||Thies,W.G., and D.J. Westlind|Application of Chloropicrin to Douglas-Fir Stumps to Control Laminated Root Rot Does Not Affect Infection or Growth of Regeneration 16 Growing Seasons After Treatment|For. Ecol. Manag.235(1-3): 212-218|2006|10.1016/j.foreco.2006.08.330
88741|T||Sumner,D.R., R.D. Gitaitis, J.D. Gay, D.A. Smittle, B.W. Maw, E.W. Tollner, and Y.C. Hung|Control of Soilborne Pathogenic Fungi in Fields of Sweet Onion|Plant Dis.81(8): 885-891|1997|10.1094/PDIS.1997.81.8.885
88742|T||Stanghellini,M.E., D.M. Ferrin, D.H. Kim, M.M. Waugh, K.C. Radewald, J.J. Sims, H.D. Ohr, K.S. Mayberry, T. Turini, and|Application of Preplant Fumigants via Drip Irrigation Systems for the Management of Root Rot of Melons Caused by Monosporascus cannonballus|Plant Dis.87(10): 1176-1178|2003|10.1094/PDIS.2003.87.10.1176
88743|T||Gilreath,J.P., B.M. Santos, T.N. Motis, J.W. Noling, and J.M. Mirusso|Methyl Bromide Alternatives for Nematode and Cyperus Control in Bell Pepper (Capsicum annuum)|Crop Prot.24(10): 903-908|2005|10.1016/j.cropro.2005.01.016
88744|T||Santos,B.M., J.P. Gilreath, T.N. Motis, J.W. Noling, J.P. Jones, and J.A. Norton|Comparing Methyl Bromide Alternatives for Soilborne Disease, Nematode and Weed Management in Fresh Market Tomato|Crop Prot.25(7): 690-695|2006|10.1016/j.cropro.2005.09.015
88745|T||Hazelette,J.R.|Dietary Hypercholesteremia and Susceptibility to the Pesticide Diazinon|Ph.D.Thesis, Virginia Commonwealth University Medical College of Virginia,VA:214 p.|1983|
88746|T||Toba,H.H., and D.M. Powell|Wireworm Control on Potato, Moxee, Wa, 1984|Insectic. Acaric. Tests11:179-180|1986|
88747|T||Noetzel,D.M., and G. Auwater|Soil Systemics for Sunflower Insect Control, 1984|Insectic. Acaric. Tests11:357-358|1986|
88748|T||Noetzel,D.M., and H. Person|Soil Systemic and Foliar Insect Control in Sunflower, 1984|Insectic. Acaric. Tests11:357-|1986|
88749|T||Hammond,R.B., and E. Ressler|Soil-Applied Insecticide Trials for Seedcorn Maggot on Soybeans, 1985|Insectic. Acaric. Tests11:342-343|1986|
88750|T||Peters,L.L.|Greenbug and Corn Leaf Aphid Control, 1983|Insectic. Acaric. Tests11:329-331|1986|10.1093/iat/11.1.329
88751|T||Kindler,S.D., and S.M. Spomer|Planting Time Treatments for Greenbug (Biotype E) Control on Grain Sorghum, 1985|Insectic. Acaric. Tests11:323-324|1986|
88752|T||Treacy,M.F., J.H. Benedict, K.M. Schmidt, S.W. Hopkins, and T. Davidson|Evaluation of Temik for Control of Insect Pests on Cotton, 1985|Insectic. Acaric. Tests11:305-306|1986|10.1093/iat/11.1.305
88753|T||Royer,T.A., and J.V. Edelson|Spider Mite and Cotton Aphid Control, 1985|Insectic. Acaric. Tests11:301-302|1986|10.1093/iat/11.1.301
88754|T||Luttrell,R.G., G. Lorenz, T. Wofford, and D. Gary|Control of Early Season Insect Pests of Cotton with Insecticides Applied as Seed Treatments, Granular Formulations, and Foliar Sprays, 1984|Insectic. Acaric. Tests11:283-284|1986|10.1093/iat/11.1.283
88755|T||Fitt,J.R.,Jr., and G.L. Teetes|Chemical Control of Thrips and Aphids on Cotton, 1985|Insectic. Acaric. Tests11:268-269|1986|10.1093/iat/11.1.268
88756|T||Hoffmann,M.P., F.G. Zalom, P.A. Roberts, and L.T. Wilson|Potato Aphid Control with Nematicides/Insecticides, 1985|Insectic. Acaric. Tests11:192-193|1986|10.1093/iat/11.1.192a
88757|T||Watrin,C.G., and E.B. Radcliffe|Wireworm Control on Potatoes, 1985|Insectic. Acaric. Tests11:185-186|1986|10.1093/iat/11.1.185
88758|T||Silowitz,Z., J. Wallace, T. Gurecki, P. Rebarchak, and J.O. Yocum|Foliar Insecticide Efficacy Trial, 1983|Insectic. Acaric. Tests11:168-170|1986|10.1093/iat/11.1.168a
88759|T||Morrow,E.A., and E.J. Grafius|Colorado Potato Beetle Control, 1985|Insectic. Acaric. Tests11:164-165|1986|10.1093/iat/11.1.164
88760|T||Bishop,G.W., S. Halbert, and R.L. Johnston|Wireworm and Foliar Feeding Insect Control on Potatoes, 1985|Insectic. Acaric. Tests11:154-156|1986|10.1093/iat/11.1.154a
88761|T||Cranshaw,W.S., J.F. Jagne, M.K. Lordier, R.P. Wawrzynski, and D.J. Liewehr|Potato Insect Control with Systemic Insecticides, Larimer County, Colorado, 1985|Insectic. Acaric. Tests11:157-158|1986|10.1093/iat/11.1.157
88762|T||Lampert,E.P.|Control of Tobacco Wireworms with Soil and Transplant Water Insecticides, 1985|Insectic. Acaric. Tests11:364-365|1986|10.1093/iat/11.1.364
88764|T||Larson,L.L.|The Selective Toxicity of Orthene|Ph.D Thesis, University of California, Riverside, CA:296 p.|1975|
88765|T||Graham,L.C., and M.J. Gaylor|Chemical Control of Thrips, 1985|Insectic. Acaric. Tests11:275-276|1986|10.1093/iat/11.1.275
88766|T||Smilowitz,Z., J. Wallace, T. Gurecki, P. Rebarchak, and J.O. Yocum|Foliar Insecticide Efficacy Trial, 1984|Insectic. Acaric. Tests11:174-178|1986|10.1093/iat/11.1.174
88767|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Potato Infesting Aphids, 1985|Insectic. Acaric. Tests11:167-|1986|10.1093/iat/11.1.167
88768|T||Hollingsworth,C.S., R.H. Voss, and D.N. Ferro|Colorado Potato Beetle Control, 1986|Insectic. Acaric. Tests12:138-139|1987|10.1093/iat/12.1.138
88769|T||Graustein,M.R.|Colorado Potato Beetle Insecticide Trial, 1985|Insectic. Acaric. Tests12:132-133|1987|10.1093/iat/12.1.132
88770|T||Vittum,P.J.|Efficacy of Several Insecticides Against Asiatic Garden Beetle, Massachusetts, 1986|Insectic. Acaric. Tests12:327-|1987|
88771|T||Solomon,J.D.|Control of Sawfly Defoliators on Green Ash, 1986|Insectic. Acaric. Tests12:348-|1987|10.1093/iat/12.1.348a
88772|T||Voss,R.H., C.S. Hollingsworth, and D.N. Ferro|Potato Insect Control, 1985|Insectic. Acaric. Tests12:147-148|1987|10.1093/iat/12.1.147a
88773|T||Ratchford,K., J.B. Graves, A.M. Pavloff, and G. Burris|Efficacy of Foliar Insecticides on Early Season Thrips and Aphids and Mid-Season Aphids in Cotton, 1986|Insectic. Acaric. Tests12:237-238|1987|10.1093/iat/12.1.237
88774|T||Hammond,R.B., and E. Ressler|Soil-Applied Insecticide Trial for Seedcorn Maggot Control on Soybean, 1986|Insectic. Acaric. Tests12:273-|1987|10.1093/iat/12.1.273
88775|T||Treacy,M.F., J.H. Benedict, K.M. Schmidt, and R.M. Anderson|Efficacy Trial with At-Planting Applications of Counter for Control of Early-Season Insect Pests on Cotton, 1986|Insectic. Acaric. Tests12:256-257|1987|
88776|T||Reed,J.T., and R.R. Grant|Evaluation of Insecticides for Early Season Thrips Control in Mississippi, 1986|Insectic. Acaric. Tests12:244-245|1987|
88777|T||Ratchford,K., J.B. Graves, A.M. Pavloff, and G. Burris|Evaluation of Thimet and Temik Soil Treatments on Early Season Insects and Yields in Cotton, 1986|Insectic. Acaric. Tests12:239-|1987|10.1093/iat/12.1.239
88778|T||Stoltz,R.L.|Sugarbeet Root Maggot Control, 1986|Insectic. Acaric. Tests12:283-284|1987|10.1093/iat/12.1.283
88779|T||Semtner,P.J.|Systemic Insecticides for the Control of Insects on Flue-Cured Tobacco, 1986|Insectic. Acaric. Tests12:298-299|1987|10.1093/iat/12.1.298
88780|T||Semtner,P.J.|Insect Control on Flue-Cured Tobacco with Insecticides Applied to the Soil and in the Transplant Water, 1986|Insectic. Acaric. Tests12:300-|1987|10.1093/iat/12.1.300
88781|T||Semtner,P.J., and T.D. Reed|Insect Control on Flue-Cured Tobacco with Insecticides Applied to the Soil and in the Transplant Water, 1985|Insectic. Acaric. Tests12:301-|1987|10.1093/iat/12.1.301
88782|T||Southern,P.S., and M.M. Browne|Tobacco Flea Beetle Control with Soil Insecticides, 1986|Insectic. Acaric. Tests12:308-309|1987|10.1093/iat/12.1.308a
88783|T||Brewer,J.W., and G.D. Jackson|Planting Time Application of Temik for Aphid Control on Winter Wheat in Montana, 1985-86|Insectic. Acaric. Tests12:310-|1987|10.1093/iat/12.1.310
88784|T||Pike,K.S.|Aphid Control in Winter Wheat with In-Furrow Applied Systemic Insecticides, 1986|Insectic. Acaric. Tests12:314-315|1987|10.1093/iat/12.1.314
88785|T||Warkentin,D., M. Harris, and J. Begley|Evaluation of Aphid Cleanup Materials on Ready to Ship Hibiscus, 1986|Insectic. Acaric. Tests12:342-|1987|
88786|T||Semtner,P.J., and T.D. Reed|Insect Control on Flue-Cured Tobacco with Insecticides Applied in the Transplant Water, 1984|Insectic. Acaric. Tests12:302-|1987|
88787|T||Semtner,P.J., and T.D. Reed|Chemicals Applied to the Soil for the Control of Insects on Flue-Cured Tobacco, 1985|Insectic. Acaric. Tests12:306-|1987|10.1093/iat/12.1.306
88788|T||Leidy,R.B., T.J. Sheets, and K.A. Sorensen|Residues of Acephate and Methamidophos in Greenhouse Tomatoes|J. Am. Soc. Hortic. Sci.103(3): 392-394|1978|10.21273/JASHS.103.3.392
88789|A||Do Hong,L.C., K. Becker-Van Slooten, and J. Tarradellas|Tropical Ecotoxicity Testing with Ceriodaphnia cornuta|Environ. Toxicol.19(5): 497-504|2004|10.1002/tox.20055
88790|T||Feres,T., L.M. Vianna, A.C.M. Paiva, and T.B. Paiva|Effect of Treatment with Vitamin D3 on the Responses of the Duodenum of Spontaneously Hypertensive Rats to Bradykinin and to Potassium|Br. J. Pharmacol.105(4): 881-884|1992|10.1111/j.1476-5381.1992.tb09072.x
88791|T||Manna,B., and K.C. Ghose|Symptomology and Histopathological Changes in Achatina fulica due to Gut Poisoning by Diazinon and Fenitrothion|Proc. Zool. Soc.35(1-2): 37-47|1982|
88792|T||Carson,W.G., H. Nakakihara, J.T. Trumble, and V. Voth|Arthropod Control and Chemical Phytotoxicity on Strawberries, 1985|Insectic. Acaric. Tests11:90-|1986|10.1093/iat/11.1.90
88793|T||Ragenovich,I.R., J.M. Schmid, D.D. Bennett, J.W. Barry, and C.E. Richmond|Field Evaluations of Four Insecticides Against the Pandora Moth, 1982|Insectic. Acaric. Tests11:426-|1986|10.1093/iat/11.1.426
88794|T||Heller,P.R., and E. Elsner|Hairy Chinch Bug Control on a Home Lawn in Somerset, PA, 1985|Insectic. Acaric. Tests11:386-|1986|
88795|T||Heller,P.R., and E. Elsner|Control of Japanese Beetle Grubs on a Golf Course in Mifflintown, PA, 1985|Insectic. Acaric. Tests11:399-|1986|10.1093/iat/11.1.399
88796|T||Howitt,A.J., and D. Murray|Blueberry, Fruitworm Insecticide Test, 1985|Insectic. Acaric. Tests11:82-83|1986|
88797|T||McLeod,P.|Corn Earworm Control on Snap Bean, 1985|Insectic. Acaric. Tests11:107-108|1986|10.1093/iat/11.1.107
88798|T||Bowman,J.S., and R. Everich|Control of Fall Armyworms on Late Season Sweet Corn with Whorl Treatments, 1985|Insectic. Acaric. Tests11:125-|1986|
88799|T||Royer,T.A., J.V. Edelson, and B. Cartwright|Onion Thrips Control, 1985|Insectic. Acaric. Tests11:149-150|1986|10.1093/iat/11.1.149a
88800|T||Watrin,C.G., and E.B. Radcliffe|Control of Colorado Potato Beetle Larvae with Foliar Insecticides, 1985|Insectic. Acaric. Tests11:182-183|1986|10.1093/iat/11.1.182
88801|T||Watrin,C.G., and E.B. Radcliffe|Control of Potato Leafhopper Nymphs with Foliar Insecticides, 1985|Insectic. Acaric. Tests11:184-185|1986|10.1093/iat/11.1.184
88802|T||McLeod,P.|Insect Control in Zucchini, 1985|Insectic. Acaric. Tests11:202-|1986|10.1093/iat/11.1.202
88803|T||Fisher,H., R.H. Kaufman, HC Hsu, E. Kasziba, A. Farmanfarmaian, and L.J. Flancbaum|Inhibition of Gastric Acid Secretion in the Rat by high Calcium|Nutr. Res.10(12): 1441-1453|1990|10.1016/S0271-5317(05)80136-8
88804|T||Maekawa,A., Y. Matsushima, H. Onodera, M. Shibutani, J. Yoshida, Y. Kodama, Y. Kurokawa, and Y. Hayashi|Long-Term Toxicity/Carcinogenicity Study of Calcium Lactate in F344 Rats|Food Chem. Toxicol.29(9): 589-594|1991|10.1016/0278-6915(91)90139-X
88806|T||Rajyalakshmi,A., and T.G.K. Reddy|Effect of Carbaryl and Lindane on the Activity Levels of Some Selected Enzymes in the Maternal & Embryonic Tissues of the Viviparous Scorpion, Heterometrus fulvipes (Koch)|Comp. Physiol. Ecol.16(4): 166-169|1991|
88807|A||Shanmugam,M., M. Venkateshwarlu, and A. Naveed|Effect of Pesticides on the Freshwater Crab Barytelphusa cunicularis (West Wood)|J. Ecotoxicol. Environ. Monit.10(4): 273-279|2000|
88810|T||Reed,J.T., and R.R. Grant|Evaluation of Insecticides for Early Season Thrips Control in the Mississippi Delta, 1987|Insectic. Acaric. Tests13:255-256|1988|10.1093/iat/13.1.255
88811|T||Brandenburg,R.L., and P.T. Hertl|Control of Japanese Beetle Grubs on a Golf Course Fairway, 1987|Insectic. Acaric. Tests13(1): 331-332|1988|10.1093/iat/13.1.331a
88812|T||Heller,P.R., and S. Kellogg|Summer Control of Northern Masked Chafer Grubs on a Golf Course Rough in Snyder County, PA, 1987|Insectic. Acaric. Tests13(1): 333-334|1988|10.1093/iat/13.1.333a
88813|T||Baxendale,F.P., R.C. Shearman, and L.A. Wit|Annual White Grub Control in Kentucky Bluegrass, 1987|Insectic. Acaric. Tests13(1): 330-|1988|10.1093/iat/13.1.330a
88814|T||Baxendale,F.P., R.C. Shearman, and L.A. Wit|Control of Annual White Grubs in Kentucky Bluegrass, 1987|Insectic. Acaric. Tests13:331-|1988|10.1093/iat/13.1.331
88815|T||Hellman,J.L., T.W. Patton, and E.L. Hellman|Control of Green June Beetle Grubs on Golf Course Fairways, 1987|Insectic. Acaric. Tests13:329-|1988|10.1093/iat/13.1.329
88816|T||Weaver,J.E., and T.W. McCutcheon|Green June Beetle Control, West Virginia, 1987|Insectic. Acaric. Tests13:270-271|1988|10.1093/iat/13.1.270
88817|T||Hellman,J.L., T.W. Patton, R.S. Salvaggio, and J. Grove|Control of Green June Beetle Grubs on a Golf Course, 1985|Insectic. Acaric. Tests13:364-|1988|10.1093/iat/13.1.364
88818|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Potato Infesting Aphids, 1986|Insectic. Acaric. Tests13:164-165|1988|10.1093/iat/13.1.164
88819|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Potato Infesting Aphids, 1987|Insectic. Acaric. Tests13:162-163|1988|10.1093/iat/13.1.162
88820|T||Noetzel,D.M., M. Ricard, C. Holen, B. Holder, and D. Preston|Control of Pyrethroid Resistant Colorado Potato Beetle - Trial 2, 1986|Insectic. Acaric. Tests13:153-154|1988|10.1093/iat/13.1.153a
88821|T||Heller,P.R., and S. Kellogg|Pine Needle Scale Control on Scotch Pine in Centre County, Pennsylvania, 1987|Insectic. Acaric. Tests13:382-|1988|10.1093/iat/13.1.382a
88822|T||Nielsen,D.G., M.J. Dunlap, and F.F. Purrington|Evaluation of BT-Pyrenone Against Gypsy Moth Larvae on Red Oak, Wooster, Ohio, 1986|Insectic. Acaric. Tests13:379-|1988|10.1093/iat/13.1.379
88823|T||Hellman,J.L., and T.W. Patton|Control of Green June Beetle Grubs on a Golf Course, 1986|Insectic. Acaric. Tests13:363-|1988|10.1093/iat/13.1.363a
88824|T||Heller,P.R., and S. Kellogg|Hairy Chinch Bug Control on a Home Lawn in Boalsburg, PA., 1987|Insectic. Acaric. Tests13:352-353|1988|
88825|T||Heller,P.R., and S. Kellogg|Hairy Chinch Bug Control on a Home Lawn in Somerset, PA., 1987|Insectic. Acaric. Tests13:351-352|1988|
88826|T||Redmond,C., and D.A. Potter|Efficacy of Insecticides for Control of Southern Masked Chafer Grubs in Kentucky, 1987|Insectic. Acaric. Tests13:338-|1988|10.1093/iat/13.1.338
88827|T||Heller,P.R., and S. Kellogg|Spring Control of Northern Masked Chafer and Asiatic Garden Beetle Grubs on a Golf Course Rough in Snyder County, PA, 1987|Insectic. Acaric. Tests13:334-335|1988|10.1093/iat/13.1.334
88828|T||Heller,P.R., and S. Kellogg|Summer Control of Japanese Beetle Grubs on a Golf Course Fairway in Lewistown, PA, 1987|Insectic. Acaric. Tests13:332-|1988|10.1093/iat/13.1.332
88829|T||Ali,A.D., and J. Garcia|White Grub Control in Kentucky Bluegrass, 1987|Insectic. Acaric. Tests13:330-|1988|10.1093/iat/13.1.330
88830|T||Howitt,A., and D.J. Biddinger|Apple, Insecticide Evaluation, 1987|Insectic. Acaric. Tests13:14-|1988|10.1093/iat/13.1.14
88831|T||Van Steenwyk,R.A., C.F. Fouche, and D.M. Havens|Control of Mountain Leafhopper on Cherry, 1987|Insectic. Acaric. Tests13:55-|1988|10.1093/iat/13.1.55a
88833|T||Howitt,A., and D.J. Biddinger|Blueberry, Cranberry Fruitworm Insecticide Test, 1987|Insectic. Acaric. Tests13:63-|1988|10.1093/iat/13.1.63
88834|T||Williams,R.N., M.A. Ellis, and D.S. Fickle|Bioassay Evaluation of Insecticides on Blueberries, 1987|Insectic. Acaric. Tests13:64-65|1988|10.1093/iat/13.1.64
88835|T||Alm,S.R., and R.N. Williams|Insecticide Evaluation for Grape Berry Moth and Grape Leafhopper Control, 1987|Insectic. Acaric. Tests13:65-66|1988|10.1093/iat/13.1.65
88836|T||Alm,S.R., and R.N. Williams|Insecticide Evaluation for Popillia japonica Control on Grapes, 1987|Insectic. Acaric. Tests13:66-|1988|10.1093/iat/13.1.66
88837|T||Williams,R.N., and D.S. Fickle|Field and Bioassay Evaluation of Insecticides on Raspberries, 1987|Insectic. Acaric. Tests13:68-|1988|10.1093/iat/13.1.68
88838|T||Ghidiu,G.M.|Worm Control in Fall Snap Beans, 1987|Insectic. Acaric. Tests13:87-|1988|10.1093/iat/13.1.87
88839|T||Shamiyeh,N.B., and C.A. Mullins|Insect Control in Early Snap Beans, 1987|Insectic. Acaric. Tests13:88-|1988|10.1093/iat/13.1.88
88840|T||Bishop,B., E. Grafius, J. Hayden, J. Stehr, and A. Davis|Insect Control on Broccoli, 1987|Insectic. Acaric. Tests13:91-92|1988|10.1093/iat/13.1.91
88841|T||Shamiyeh,N.B., and C.A. Mullins|Control of Insect Pests on Fall Broccoli, 1987|Insectic. Acaric. Tests13:93-|1988|10.1093/iat/13.1.93
88842|T||Bowman,J.S., and D.W. Barry|Control of European Corn Borer on Early Sweet Corn, 1987|Insectic. Acaric. Tests13:113-|1988|
88843|T||Sorensen,K.A., K.A. Kidd, and C.J. Eckenrode|Midseason Sweet Corn Worm Control, 1986|Insectic. Acaric. Tests13:117-118|1988|10.1093/iat/13.1.117a
88844|T||Lagnaoui,A., and E.B. Radcliffe|Foliar Insecticides for Colorado Potato Beetle Control on Potato, 1987|Insectic. Acaric. Tests13:145-150|1988|10.1093/iat/13.1.145a
88845|T||Noetzel,D., M. Ricard, B. Holder, and C. Holen|Barley Thrips Control, 1987|Insectic. Acaric. Tests13:192-193|1988|10.1093/iat/13.1.192
88846|T||Noetzel,D.M., M. Ricard, and C. Holen|Barley Thrips Control, Trial 2, 1986|Insectic. Acaric. Tests13:193-|1988|10.1093/iat/13.1.193
88847|T||Noetzel,D.M., M. Ricard, and C. Holen|Barley Thrips Control - Trial 1, 1986|Insectic. Acaric. Tests13:194-|1988|10.1093/iat/13.1.194
88848|T||Noetzel,D.M., M. Ricard, and C. Holen|Barley Thrips Control - Trial 3, 1986|Insectic. Acaric. Tests13(1): 194-|1988|10.1093/iat/13.1.194a
88849|T||Quisenberry,S., F. Whitford, and J.W. Lee|Fall Armyworm Control in Louisiana, 1987|Insectic. Acaric. Tests13:195-|1988|10.1093/iat/13.1.195
88850|T||Noetzel,D., and C. Nyegaard|Flea Beetle Control in Canola, 1987|Insectic. Acaric. Tests13:196-|1988|10.1093/iat/13.1.196
88851|T||Noetzel,D., M. Ricard, and H. Roman|Furadan Soil Treatment vs. Furadan Soil Treatment Plus Sevin XLR for Flea Beetle Control in Canola, 1987|Insectic. Acaric. Tests13:196-197|1988|10.1093/iat/13.1.196
88852|T||Hein,G.L., J.A. Ingemansen, and D.D. Walgenbach|First-Generation European Corn Borer Control via Ground, Chemigation, and Aerial Applications, 1986|Insectic. Acaric. Tests13:211-212|1988|10.1093/iat/13.1.211
88853|T||Hellman,J.L., T.W. Patton, R. Salvaggio, L. Vinis, and J. Grove|Armyworm Control in Corn, 1985|Insectic. Acaric. Tests13:213-214|1988|10.1093/iat/13.1.213
88854|T||Noetzel,D.M., M. Ricard, and E. Bromenshenkel|Armyworm Control, 1987|Insectic. Acaric. Tests13:268-269|1988|10.1093/iat/13.1.268a
88855|T||Hellman,J.L., and T.W. Patton|Potato Leafhopper Control on Soybean, 1986|Insectic. Acaric. Tests13:283-|1988|
88856|T||Hellman,J.L., and T.W. Patton|Corn Earworm and Green Cloverworm Control in Soybeans, 1986|Insectic. Acaric. Tests13:283-284|1988|
88857|T||Hellman,J.L., and T.W. Patton|Corn Earworm Control on Soybean, 1986|Insectic. Acaric. Tests13:284-|1988|10.1093/iat/13.1.284
88858|T||Hellman,J.L., and T.W. Patton|Corn Earworm Control in Soybeans, 1987|Insectic. Acaric. Tests13:286-|1988|10.1093/iat/13.1.286
88859|T||Jackson,D.M., and G.R. Gwynn|Tobacco Budworm Control in Tobacco Seed Nurseries, 1987|Insectic. Acaric. Tests13:304-305|1988|10.1093/iat/13.1.304
88860|T||Whalen,J., and R. Breeding|Control of Thrips in Soybeans, 1987|Insectic. Acaric. Tests13:293-|1988|10.1093/iat/13.1.293
88861|T||McPherson,R.M., and M. Padgett|Tobacco Budworm and Tobacco Hornworm Control on Flue-Cured Tobacco with Foliar Insecticides, 1987|Insectic. Acaric. Tests13:310-311|1988|10.1093/iat/13.1.310
88862|T||Hellman,J.L., T.W. Patton, R.S. Salvaggio, L. Vinis, and J. Grove|Armyworm Control in Wheat, 1985|Insectic. Acaric. Tests13:323-324|1988|10.1093/iat/13.1.323
88863|T||Hellman,J.L., T.W. Patton, L. Vinis, and J. Grove|Chinch Bug Control in Red Fescue Turf, 1985|Insectic. Acaric. Tests13:355-356|1988|
88864|T||Redmond,C., M. Buxton, and D.A. Potter|Prevention of Japanese Beetle Defoliation with Foliar Insecticides, 1987|Insectic. Acaric. Tests13:362-|1988|10.1093/iat/13.1.362b
88865|T||Nielsen,D.G., and M.J. Dunlap|Evaluating Foliar Sprays for Controlling Birch Leafminers on Birch, Wayne County, Ohio, 1985|Insectic. Acaric. Tests13:372-|1988|10.1093/iat/13.1.372
88866|T||Redmond,C., M. Buxton, and D.A. Potter|Control of Bagworms on Eastern Red Cedar, 1987|Insectic. Acaric. Tests13:372-373|1988|10.1093/iat/13.1.372b
88867|T||Nielsen,D.G., and M.J. Dunlap|Control of Pine Needle Scale on Scotch Pine, Wayne County, Ohio, 1986|Insectic. Acaric. Tests13:384-385|1988|
88868|T||Linduska,J.J., and J.C. Bouwkamp|Control of Sweetpotato Flea Beetle Larvae on Sweet Potatoes, 1987|Insectic. Acaric. Tests13:166-167|1988|10.1093/iat/13.1.166a
88869|T||Burris,G., J.B. Graves, A.M. Pavloff, and B.R. Leonard|In-Furrow Systemic Insecticide-Nematicide Test, 1987|Insectic. Acaric. Tests13:234-235|1988|10.1093/iat/13.1.234
88870|T||Noetzel,D., M. Ricard, and J. Wiersma|Comparing 2 Soil Systemics and 2 Foliars in 10 Regimes for Control of Pyrethroid-Resistant Colorado Potato Beetle, 1987|Insectic. Acaric. Tests13:156-157|1988|10.1093/iat/13.1.156
88871|T||Noetzel,D.M., M. Ricard, J. Wiersma, and B. Holder|Control of Pyrethroid Resistant Colorado Potato Beetle - Trial 1, 1986|Insectic. Acaric. Tests13:154-155|1988|10.1093/iat/13.1.154
88872|T||Connington,L., E. Grafius, D. Herrington, K. Derouin, B. Bishop, P. Habbel, and J. Hayden|Colorado Potato Beetle Control, 1986|Insectic. Acaric. Tests13:137-139|1988|10.1093/iat/13.1.137
88873|T||Langston,W.C., and M.F. Schuster|Thrips Control; Effect on Plant Growth, 1986|Insectic. Acaric. Tests13:247-248|1988|10.1093/iat/13.1.247
88874|T||Peters,L.L.|Sorghum Greenbug Control, 1985|Insectic. Acaric. Tests13:277-|1988|10.1093/iat/13.1.277
88875|T||Noetzel,D., M. Ricard, and J. Wiersma|Furadan Soil Systemics and Sunflower Seed Yield, 1987|Insectic. Acaric. Tests13:299-300|1988|10.1093/iat/13.1.299
88876|T||Treacy,M.F., J.H. Benedict, R.M. Anderson, and K.M. Schmidt|Evaluation of At-Planting and Foliar Insecticide Applications for Control of Early-Season Pests in Cotton, 1987|Insectic. Acaric. Tests13:263-|1988|10.1093/iat/13.1.263
88877|T||Hellman,J.L., and T.W. Patton|Green Peach and Potato Aphid Control on Maryland Tobacco, 1986|Insectic. Acaric. Tests13:304-305|1988|10.1093/iat/13.1.304
88878|T||Semtner,P.J.|Systemic Insecticides for the Control of Insect Pests on Dark-Fired Tobacco, 1987|Insectic. Acaric. Tests13:311-312|1988|10.1093/iat/13.1.311
88879|T||Brandenburg,R.L., and P.T. Hertl|Thrips Control on Peanuts, North Carolina, 1987|Insectic. Acaric. Tests13:271-272|1988|
88880|T||Semtner,P.J.|Soil Insecticides for Control of Insects Feeding on Flue-Cured Tobacco Foliage, 1987|Insectic. Acaric. Tests13:313-314|1988|10.1093/iat/13.1.313
88881|T||Semtner,P.J.|Control of Tobacco Insect Pests on Flue-Cured Tobacco with Insecticides Applied in the Transplant Water, 1987|Insectic. Acaric. Tests13:316-317|1988|10.1093/iat/13.1.316
88882|T||Buntin,G.D.|Hessian Fly Control with Granualr Insecticides Applied at Planting, 1985|Insectic. Acaric. Tests13:320-|1988|10.1093/iat/13.1.320
88883|T||Gray,M.E., G.L. Hein, D.D. Walgenbach, N.C. Elliott, and R.W. Kieckhefer|Evaluation of Planting-Time Insecticide Treatments and Foliar Applications Against Bird Cherry-Oat Aphid, Corn Leaf Aphid, and Russian Wheat Aphid, 1987|Insectic. Acaric. Tests13:322-323|1988|10.1093/iat/13.1.322
88884|T||Industrial Bio-Test Laboratories|Summary Results Concerning an Acute Oral LD50, Acute Eye Irritation, Primary Skin & Eye Irritation Indexes & 28-Day Subacute Feeding Studies with Cover Sheet & Letter (Sanitized)|EPA/OTS Doc.#86-920000514S:7 p.|1991|
88885|A||Parveen,A., and N. Vasantha|Evaluation of Pesticides and Impact of Endosulfan on Respiratory Metabolism of Fish Clarias batrachus|Indian J. Comp. Anim. Physiol.12(1): 83-89|1994|
88886|T||Dzwonkowska,A., and H. Hubner|Studies on Commercial Insecticides with the Dominant Lethal Mutations Test|Pol. J. Occup. Med. Environ. Health4(1): 43-53|1991|
88887|T||Prasad,B.N.|Effect of Metasystox and Cuman-L on Nitrogenase Activity Root Nodules of Phaseolus mungo|Indian J. Plant Physiol.28(2): 204-206|1985|
88888|T||Gilreath,J.P., B.M. Santos, J.D. Busacca, J.E.,Jr. Eger, J.M. Mirusso, and P.R. Gilreath|Validating Broadcast Application of Telone C-35 Complemented with Chloropicrin and Herbicides in Commercial Tomato Farms|Crop Prot.25(1): 79-82|2006|10.1016/j.cropro.2005.03.007
88889|T||Rahman,M.F., G.K. Sharma, and M.M. Alam|Evaluation of Nematicidal Potential in Two Insecticides Against the Root-Knot Nematode, Meloidogyne incognita Attacking Tomato|Pak. J. Nematol.6(2): 79-82|1988|
88890|T||Gilreath,J.P., T.N. Motis, B.M. Santos, J.M. Mirusso, P.R. Gilreath, J.W. Noling, and J.P. Jones|Influence of Supplementary In-Bed Chloropicrin Application on Soilborne Pest Control in Tomato (Lycopersicon esculentum)|Crop Prot.24(9): 779-784|2005|10.1016/j.cropro.2005.01.002
88891|T||DuBois,K.P., and G.J. Plzak|The Acute Toxicity and Anticholinesterase Action of O,O-Dimethyl S-Ethyl-2-Sulfinylethyl Phosphorothioate (Meta-Systox R) and Related Compounds|Toxicol. Appl. Pharmacol.4(5): 621-630|1962|10.1016/0041-008X(62)90089-3
88892|T||Suhas,Y., and M.C. Devaiah|Studies on the Effect of Insecticides Sprayed Mulberry Leaves to Silkworm, Bombyx mori L.|Pesticides 19(10): 53-54|1985|
88893|T||Lenselink,D.R., J.E. Midtling, and G.L. Kolesari|Teratogenesis Associated with Oxydemeton-Methyl in the Stage 12 Chick Embryo|Teratology48(3): 207-211|1993|10.1002/tera.1420480304
88894|T||Dhamdhere,S.V., J. Bahadur, and U.S. Misra|Studies on Persistence and Toxicity of Carbamate Insecticides Against Amrasca biguttula biguttula Ishida (Hemiptera: Cicadellidae) Infesting Okra|J. Entomol. Res.11(2): 189-191|1987|
88895|T||Astroff,A.B., K.J. Freshwater, and D.A. Eigenberg|Comparative Organophosphate-Induced Effects Observed in Adult and Neonatal Sprague-Dawley Rats During the Conduct of Multigeneration Toxicity Studies|Reprod. Toxicol.12(6): 619-645|1998|10.1016/S0890-6238(98)00044-6
88896|T||Kumari,J., N.B. Krishnamurthy, and V. Vasudev|Mutagenicity Studies with Metasystox-R in Mice|Cell Chromosome Res.18(2-3): 79-85|1995|
88897|T||Ali,M.I., and M.A. Karim|Rational Insecticide Use for the Control of the Cotton Jassid, Amrasca biguttula (Shir) (Cicadelidae, Homoptera) and the Spotted Bollworm, Earias vitella (F.) (Noctuidae, Lepidoptera) on Cotton in Bangladesh|Trop. Pest Manag.37(1): 66-70|1991|10.1080/09670879109371539
88898|T||Yu,S.J.|Host Plant Induction of Microsomal Monooxygenases in Relation to Organophosphate Activation in Fall Armyworm Larvae|Fla. Entomol.69(3): 579-587|1986|10.2307/3495393
88899|T||Ali,M.I., M.A. Karim, and M. Akhtar|Spraying Threshold Level of Cotton Jassid, Amrasca devastans (Dist.) on Cotton in Bangladesh|Bangladesh J. Zool.22(1): 47-54|1994|
88901|T||Villani,M.G., F. Consolie, L. Preston-Wilsey, and R.J. Wright|Fall Control of White Grubs with Insecticides and Entomogenous Nematodes on a Golf Course, 1987|Insectic. Acaric. Tests13:343-|1988|10.1093/iat/13.1.343
88902|T||Villani,M.G., R.J. Wright, F. Consolie, and L. Preston-Wilsey|Fall Control of Oriental Beetle Grubs with Experimental and Labeled Insecticides and Entomogenous Nematodes on a Golf Course, 1987|Insectic. Acaric. Tests13:341-|1988|
88903|T||Johnson,J.W., and S.L. Boston|Fall Control of Annual White Grubs Using Artificial Infestations, 1987|Insectic. Acaric. Tests13:337-338|1988|10.1093/iat/13.1.337
88904|T||Hellman,J.L., T.W. Patton, R.S. Salvaggio, L. Vinis, and J. Grove|Control of Gray Garden Slugs in No-Tillage, 1985|Insectic. Acaric. Tests13:214-|1988|10.1093/iat/13.1.214
88905|T||Alm,S.R., and R.N. Williams|Pesticide Evaluation for Erineum Mite Control, 1987|Insectic. Acaric. Tests13:65-|1988|10.1093/iat/13.1.65
88908|T||Khera,K.S., C. Whalen, and G. Trivett|Teratogenicity Studies on Linuron, Malathion, and Methoxychlor in Rats|Toxicol. Appl. Pharmacol.45(2): 435-444|1978|10.1016/0041-008X(78)90107-2
88909|T||Bull,D.L., and N.W. Pryor|Characteristics of Resistance in House Flies Subjected to Long-Term Concurrent Selection with Malathion and Permethrin|Pestic. Biochem. Physiol.37(2): 101-115|1990|10.1016/0048-3575(90)90115-I
88910|T||Reuber,M.D.|Carcinogenicity and Toxicity of Malathion and Malaoxon|Environ. Res.37(1): 119-153|1985|10.1016/0013-9351(85)90054-4
88911|A||Saxena,P.K., V.P. Singh, J.K. Kondal, and G.L. Soni|Effect of Some Pesticides on In-Vitro Lipid and Protein Synthesis by the Liver of the Freshwater Teleost, Channa punctatus (Bl.)|Environ. Pollut.58(4): 273-280|1989|10.1016/0269-7491(89)90139-5
88912|A||Snawder,J.E., and J.E. Chambers|Osteolathyrogenic Effects of Malathion in Xenopus Embryos|Toxicol. Appl. Pharmacol.121:210-216|1993|10.1006/taap.1993.1147
88913|T||Kowsalya,T., K.S.P. Rao, and K.V.R. Rao|Effect of Malathion on Some Kinesiological Parameters of the Gastrocnemius Muscle of Frog, Rana hexadactyla (Lesson) and the Antagonistic Action of Atropine|Toxicol. Lett.39(2-3): 215-221|1987|10.1016/0378-4274(87)90236-0
88914|T||Bulusu,S., and I. Chakravarty|Profile of Drug Metabolizing Enzymes in Rats Treated with Parathion, Malathion, and Phosalone Under Various Conditions of Protein Energy Malnutrition|Bull. Environ. Contam. Toxicol.40(1): 110-118|1988|10.1007/BF01689396
88915|T||Husain,K., and R.A. Ansari|Effectiveness of Certain Drugs in Acute Malathion Intoxication in Rats|Ecotoxicol. Environ. Saf.19(3): 271-275|1990|10.1016/0147-6513(90)90028-4
88916|T||Husain,K., R.A. Ansari, and P.K. Gupta|Effect of Sub-Chronic Exposure of Malathion on Blood and Tissue Enzyme Activities in Female Rats|J. Environ. Biol.8(2): 137-142|1987|
88917|T||Johnston,G., C.H. Walker, and A. Dawson|Potentiation of Carbaryl Toxicity to the Hybrid Red-Legged Partridge Following Exposure to Malathion|Pestic. Biochem. Physiol.49(3): 198-208|1994|10.1006/pest.1994.1048
88918|T||Takahashi,H., A. Kato, E. Yamashita, Y. Naito, S. Tsuda, and Y. Shirasu|Potentiations of N-Methylcarbamate Toxicities by Organophosphorus Insecticides in Male Mice|Fundam. Appl. Toxicol.8(2): 139-146|1987|10.1016/0272-0590(87)90112-6
88919|T||Ketterman,A.J., S.M. Pond, and C.E. Becker|The Effects of Differential Induction of Cytochrome P-450, Carboxylesterase and Glutathione S-Transferase Activities on Malathion Toxicity in Mice|Toxicol. Appl. Pharmacol.87(3): 389-392|1987|10.1016/0041-008X(87)90243-2
88920|T||Broomfield,C.A.|A Purified Recombinant Organophosphorus Acid Anhydrase Protects Mice Against Soman|Chem.-Biol. Interact.87:279-284|1993|10.1016/0009-2797(93)90055-4
88921|T||Ehrich,M., B.S. Jortner, and S. Padilla|Relationship of Neuropathy Target Esterase Inhibition to Neuropathology and Ataxia in Hens Given Organophosphorus Esters|Chem.-Biol. Interact.87:431-437|1993|10.1016/0009-2797(93)90071-6
88922|T||Johnson,M.K., and D.J. Read|Screening of O-Ethyl O-4-Nitrophenyl Phosphoramidate (ENPP) for Delayed Neuropathic Potential|Chem.-Biol. Interact.87:439-442|1993|10.1016/0009-2797(93)90072-7
88923|T||Shiba,K., H. Kaneko, N. Kakuta, A. Yoshitake, and J. Miyamoto|Placental Transfer of Esfenvalerate and Fenvalerate in Pregnant Rats|J. Pestic. Sci. (Multiple Languages)15:169-174|1990|10.1584/jpestics.15.169
88924|T||Groce,D.F., and R.D. Kimbrough|Stunted Growth, Increased Mortality, and Liver Tumors in Offspring of Polybrominated Biphenyl (PBB) Dosed Sherman Rats|J. Toxicol. Environ. Health14:695-706|1984|10.1080/15287398409530618
88925|T||Marks,T.A., D. Schellenberg, C.M. Metzler, J. Oostveen, and M.J. Morey|Effect of Dog Food Containing 460 ppm Fluoride on Rat Reproduction|J. Toxicol. Environ. Health14:707-714|1984|10.1080/15287398409530619
88926|T||Minsker,D.H., W.J. Bagdon, R.T. Robertson, and D.L. Bokelman|Two Inhibitors of Angiotensin-Converting Enzyme, Enalapril and Captopril, Increase Salt Appetite of Rats|J. Toxicol. Environ. Health14:715-722|1984|10.1080/15287398409530620
88928|T||Goering,P.L., and C.D. Klaassen|Tolerance to Cadmium-Induced Toxicity Depends on Presynthesized Metallothionein in Liver|J. Toxicol. Environ. Health14:803-812|1984|10.1080/15287398409530628
88929|T||De la Iglesia,F.A., J.E. Fitzgerald, E.J. McGuire, S.N. Kim, C.L. Heifetz, and G.D. Stoner|Bacterial and Mammalian Cell Mutagenesis, Sister-Chromatid Exchange, and Mouse Lung Adenoma Bioassay with the Antineoplastic Acridine Derivative Amsacrine|J. Toxicol. Environ. Health14:667-681|1984|10.1080/15287398409530616
88930|T||Yoshida,H., K. Konishi, T. Nakagawa, S. Sekido, and I. Yamaguchi|Characteristics of N-Phenylsulfonyl-2-Chloroisoniocotinamide as an Anti-Rice Blast Agent|J. Pestic. Sci. (Multiple Languages)15(2): 199-203|1990|10.1584/jpestics.15.199
88931|T||Suyama,K., H. Yamamoto, K. Tatsuyama, and H. Komada|Effect of Long-Term Application of a Fungicide, Chlorothalonil, on Cellulose Decomposition and Microflora in Soil Under Upland Conditions|J. Pestic. Sci. (Multiple Languages)18:225-230|1993|10.1584/jpestics.18.3_225
88932|T||Soliman,S.A., and J.D. Farmer|Delayed Neuropathy in Adult Peking Ducks Induced by Some Organophosphorus Esters|J. Toxicol. Environ. Health14:789-801|1984|10.1080/15287398409530627
88933|T||Mahmood,T., E. Funaki, Y. Kasai, and N. Motoyama|In Vivo Studies on the Mechanism of Pyrethroid Resistance in the German Cockroach|J. Pestic. Sci. (Multiple Languages)18(3): 271-276|1993|10.1584/jpestics.18.3_271
88934|T||Hirano,M., H. Takeda, and H. Satoh|A Simple Method for Monitoring Pyrethroid Susceptibility in Field Colonies of Earias insulana and Pectinophora gossypiella|J. Pestic. Sci. (Multiple Languages)18:239-243|1993|10.1584/jpestics.18.3_239
88935|T||Mordue,A.J., G. Davidson, R.G. McKinlay, and J. Hughes|Observations on Azadirachtin for the Management of Cabbage Caterpillar Infestations in the Field|BCPC Monogr. - Br. Crop Prot. Counc.63:371-378|1995|
88936|A||Canton,J.H., R. Kroes, M.J. Van Logten, M. Van Schothorst, J.F.C. Stavenuiter, and C.A.H. Verhulsdonk|The Carcinogenicity of Aflatoxin M1 in Rainbow Trout|Food Cosmet. Toxicol.13:441-443|1975|10.1016/S0015-6264(75)80163-5
88937|T||Widstrom,N.W., E.B. Lillehoj, A.N. Sparks, and W.F. Kwolek|Corn Earworm Damage and Aflatoxin B on Corn Ears Protected with Insecticide|J. Econ. Entomol.69(5): 677-679|1976|10.1093/jee/69.5.677
88938|A||Gillespie,D.M., J.D. Eldredge, and C.K. Thompson|A Kinetic Model for Static Bioassay of Insecticides|Water Res.9:817-819|1975|10.1016/0043-1354(75)90141-4
88939|A||Buck,D.H., R.J. Baur, and C.R. Rose|Comparison of the Effects of Grass Carp and the Herbicide Diuron in Densely Vegetated Pools Containing Golden Shiners and Bluegills|Prog. Fish-Cult.37(4): 185-190|1975|10.1577/1548-8659(1975)37[185:COTEOG]2.0.CO;2
88941|T||Edrington,T.S., L.F. Kubena, R.B. Harvey, and G.E. Rottinghaus|Influence of a Superactivated Charcoal on the Toxic Effects of Aflatoxin or T-2 Toxin in Growing Broilers|Poult. Sci.76:1205-1211|1997|10.1093/ps/76.9.1205
88942|T||Valles,S.M., O.P. Perera, and C.A. Strong|Relationship Between the para-Homologous Sodium Channel Point Mutation (g --> c at Nucleotide 2979) and Knockdown Resistance in the German Cockroach Using Multiplex Polymerase Chain Reaction to Discern Genotype|J. Econ. Entomol.96(3): 885-891|2003|10.1603/0022-0493-96.3.885
88943|T||Johnson,M.K., and D.J. Read|Prophylaxis Against and Promotion of Organophosphate-Induced Delayed Neuropathy by Phenyl Di-n-Pentylphosphinate|Chem.-Biol. Interact.87:449-455|1993|10.1016/0009-2797(93)90074-9
88944|A||Anderson,A.E., J.J. Childress, and J.A. Favuzzi|Net Uptake of CO2 Driven by Sulphide and Thiosulphate Oxidation in the Bacterial Symbiont-Containing Clam Solemya reidi|J. Exp. Biol.133:1-31|1987|10.1242/jeb.133.1.1
88945|A||Karlsen,H.E., and O. Sand|Selective and Reversible Blocking of the Lateral Line in Freshwater Fish|J. Exp. Biol.133:249-262|1987|10.1242/jeb.133.1.249
88946|T||Cook,J.W., P.S. Kettlewell, and D.W. Parry|The Effect of Foliar Applied Potassium Chloride on Erysiphe graminis Infecting Wheat|BCPC Symp. Proc.63:363-370|1995|
88948|T||Guiti,N., and D. Sadeghi|Acute Toxicity of Malathion in the Mongrel Dog|Toxicol. Appl. Pharmacol.15(1): 244-245|1969|10.1016/0041-008X(69)90153-7
88949|T||Ojha,S., S.P. Norton, N. Shrivastava, and S. Jain|Toxic Effect of Malathion on the Reproductive System of Albino Rats|Environ. Ecol.10(4): 833-836|1992|
88950|T||Clarke,S.R., G.L. DeBarr, and T.X. Liu|Contact Toxicities of Five Pyrethroid and Four Organophosphorous Insecticides to Toumeyella parvicornis (Cockerell) Crawlers|Can. Entomol.124(3): 563-564|1992|10.4039/Ent124563-3
88951|T||Hutchison,W.D., D.W. Bartels, J.H. Rinkleff, G.J. Gingera, and C.R. Fossey|Alfalfa Insect Control During the Third Regrowth Cycle in Minnesota Alfalfa, 1992|Arthropod Manag. Tests19:171-172|1994|10.1093/amt/19.1.171
88952|T||McLeod,M.J., E.K. Twidwell, and D.J. Gallenberg|Alfalfa Weevil Control, 1993|Arthropod Manag. Tests19:172-173|1994|10.1093/amt/19.1.172a
88953|T||Hutchison,W.D., D.W. Bartels, and J.H. Rinkleff|Alfalfa Insect Control on Spring Regrowth in Minnesota, 1991|Arthropod Manag. Tests19:169-170|1994|10.1093/amt/19.1.169
88954|T||Patnaik,H.K., and M.C. Dash|Activity of Gut Enzymes in Three Tropical Grassland Earthworm Species Exposed to Sub-lethal Malathion Suspension|Bull. Environ. Contam. Toxicol.51(5): 780-786|1993|10.1007/BF00201658
88955|T||Barlas,N.E.|Toxicological Assessment of Biodegraded Malathion in Albino Mice|Bull. Environ. Contam. Toxicol.57(5): 705-712|1996|10.1007/s001289900247
88956|T||Fatima,R.A., and M. Ahmad|Allium cepa Derived EROD as a Potential Biomarker for the Presence of Certain Pesticides in Water|Chemosphere62(4): 527-537|2006|10.1016/j.chemosphere.2005.06.032
88957|T||Al-Qarawi,A.A., and S.E.I. Adam|Effects of Malathion plus Superphosphate or Urea on Najdi Sheep|Vet. Hum. Toxicol.45(1): 3-5|2003|
88958|T||Mathews,M.S., and K.S. Devi|Effect of Malathion Estradiol-17-beta and Progesterone on Ascorbic Acid Metabolism in Prenatal Rats and Their Pups|Vet. Hum. Toxicol.35(1): 6-10|1993|
88959|AT||EPA/OTS|Letter to U.S.EPA Regarding Information on the Enclosed Health and Safety Studies on Alpha-Naphthol with Attachments (Sanitized)|EPA/OTS Doc.#86-920000269S:264 p.|1991|
88960|A||Springborn Bionomics|Initial Submission:  Letter from Union Carbide Corp. to U.S.EPA Regarding Acute Toxicity Studies of alpha-Naphthol with Cover Letter Dated 090292|Union Carbide, Danbury, CT:214 p.|1992|
88963|T||Wyttenbach,C.R., S.C. Thompson, J.C. Garrison, and P.A. Kitos|Precision Delivery of Small Volumes of Liquids to Very Young Avian Embryos I. Locating and Positioning the Embryo In Ovo|Toxicol. Appl. Pharmacol.59(1): 40-48|1981|10.1016/0041-008X(81)90450-6
88964|T||Rodgers,K.E., T. Imamura, and B.H. Devens|Effects of Subchronic Treatment with O,O,S-Trimethyl Phosphorothioate on Cellular and Humoral Immune Response Systems|Toxicol. Appl. Pharmacol.81(2): 310-318|1985|10.1016/0041-008X(85)90168-1
88965|A||Premdas,P.D., and B. Kendrick|A New System to Bioassay Pesticides Present in the Surface Microlayer Using Floating Propagules of an Aero-Aquatic Hyphomycetous Fungus Pseudoaegerita matsushimae|Environ. Monit. Assess.22(3): 169-180|1992|10.1007/BF00419567
88966|T||Ozelmas,U., and M.T. Akay|Histopathological Investigations of the Effects of Malathion on Dwarf Lizards (Lacerta parva, Boulenger 1887)|Bull. Environ. Contam. Toxicol.55(5): 730-737|1995|10.1007/BF00203760
88967|T||Bitsi,G.A., K. Singh, S.U. Khan, M.H. Akhtar, S. Kacew, and N.D.G. White|Fate of Wheat Bound Malathion Residues in Rats During Gestation|Chemosphere29(3): 451-455|1994|10.1016/0045-6535(94)90433-2
88968|T||Padilla,S., H.J. Sung, and V.C. Moser|Further Assessment of an In Vitro Screen that may Help Identify Organophosphorus Pesticides that are more Acutely Toxic to the Young|J. Toxicol. Environ. Health Part A67(18): 1477-1489|2004|10.1080/15287390490483836
88969|T||Durham,S.K., and T. Imamura|Morphogenesis of O,O,S-Trimethyl Phosphorothioate-Induced Pulmonary Injury in Mice|Toxicol. Appl. Pharmacol.96(3): 417-428|1988|10.1016/0041-008X(88)90002-6
88970|T||Konno,N., T.R. Fukuto, and T. Imamura|Lung Injury and Delayed Toxicity Produced by O,S,S-Trimethyl Phosphorodithioate, an Impurity of Malathion|Toxicol. Appl. Pharmacol.75(2): 219-228|1984|10.1016/0041-008X(84)90204-7
88971|A||Ramakrishnan,M., S. Arunachalam, and S. Palanichamy|Sublethal Effects of Pesticides on Physiological Energetics of Freshwater Fish, Oreochromis mossambicus|J. Ecotoxicol. Environ. Monit.7(4): 237-242|1997|
88972|T||Yadav,G.S., T.S. Kathpal, G. Singh, S.P. Gupta, and R.K. Lakra|Persistence of Dimethoate and Oxy-Demeton Methyl in Jujube Fruits and Leaves|Indian J. Agric. Sci.56(2): 127-130|1986|
88973|T||Nag,M., and N. Nandi|In Vitro and In Vivo Effect of Organophosphate Pesticides on Monoamine Oxidase Activity in Rat Brain|Biosci. Rep.7(10): 801-803|1987|10.1007/BF01116753
88974|T||Dikshit,A.K., S.K. Handa, and S. Verma|Residues of Metasystox in and on Cabbage and Lablab Bean|Indian J. Agric. Sci.57(4): 284-286|1987|
88975|T||Yadav,G.S., T.S. Kathpal, and R. Chauhan|Harvest-Time Residues of Oxydemetonmethyl in Indian Mustard (Brassica juncea) Seeds|Indian J. Agric. Sci.66(11): 686-687|1996|
88976|T||Jayaraj,T., and T.V. Karivaratharaju|Effect of Pesticides Spray on Seed Quality in Sesame|Seed Res.15(2): 160-163|1987|
88977|T||Maitlen,J.C., and J.E. Halfhill|Residues of Four Pesticides in Alfalfa Seed and Sprouted Alfalfa Seed Following Foliar Applications|J. Agric. Food Chem.33(4): 754-757|1985|10.1021/jf00064a049
88978|T||Willis,G.H., L.L. McDowell, S. Smith, and L.M. Southwick|Foliar Washoff of Oil-Applied Malathion and Permethrin as a Function of Time After Application|J. Agric. Food Chem.40(6): 1086-1089|1992|10.1021/jf00018a036
88979|A||Caballero de Castro,A.C., E.A. Rosenbaum, and A.M. Pechen de D'Angelo|Effect of Malathion on Bufo arenarum Hensel Development-I  Esterase Inhibition and Recovery|Biochem. Pharmacol.41(4): 491-495|1991|10.1016/0006-2952(91)90619-G
88980|T||Garcia-Repetto,R., D. Martinez, and M. Repetto|Malathion and Dichlorvos Toxicokinetics After the Oral Administration of Malathion and Trichlorfon|Vet. Hum. Toxicol.37(4): 306-309|1995|
88981|T||Dutt,N., and A.K. Somchoudhury|Persistent Toxicity of Some Insecticides to Trichogramma perkinsi Girault and Trichogramma australicum Girault (Hymenoptera:  Trichogrammatidae)|J. Entomol. Res.4(2): 203-214|1980|
88982|T||Dhamdhere,S., and R. Mathur|Efficacy of Some Foliar Insecticides Against Aphis gossypii Glover Infesting Brinjal|J. Entomol. Res.18(3): 283-285|1994|
88983|T||Sarode,S.V., and A.T. Gabhane|Performance of Neem Seed Kernel Extract with Reduced Insecticidal Dosage on the Infestation of Okra Fruit Borer, Earias vittella Fab.|J. Entomol. Res.18(4): 327-330|1994|
88984|T||Sajjan,S.S., S.S. Sekhon, and U. Kanta|Efficacy of Some Important Insecticides Against Pyrilla perpusilla (Lophopidae: Homoptera) Infesting Maize|J. Entomol. Res.9(1): 43-45|1985|
88985|T||Balasubramanian,K., A.P. Vijayan, P.H. Ananthanarayanan, and A. Balasubramanian|Effect of Malathion on the Thyroid Function of Male Albino Rats|IRCS (Int.Res.Commun.Syst.)Med.Sci.14(11): 1139-1140|1986|
88986|T||Thompson,H.M., C.H. Walker, and A.R. Hardy|Changes in Activity of Avian Serum Esterases Following Exposure to Organophosphorus Insecticides|Arch. Environ. Contam. Toxicol.20(4): 514-518|1991|10.1007/BF01065841
88987|T||Clemens,G.R., R.E. Hartnagel, J.J. Bare, and J.H. Thyssen|Teratological, Neurochemical, and Postnatal Neurobehavioral Assessment of Metasystox-R, an Organophosphate Pesticide in the Rat|Fundam. Appl. Toxicol.14(1): 131-143|1990|10.1016/0272-0590(90)90239-G
88988|T||Sparks,S.E., G.B. Quistad, and J.E. Casida|Chloropicrin:  Reactions with Biological Thiols and Metabolism in Mice|Chem. Res. Toxicol.10(9): 1001-1007|1997|10.1021/tx9700477
88989|A||Mane,U.H., and D.V. Muley|Changes in Neurosecretory Cells of the Central Ganglia of the Bivalves Lamellidens corrianus and L. marginalis in Different Seasons on Exposure to Cythion-Malathion|Environ. Ecol.8(2): 705-712|1990|
88991|T||Vijayakumar,T.S., and V.R. Selvarajan|Heterogeneity in Response of Different Areas of Rabbit Brain to Malathion|Bull. Environ. Contam. Toxicol.44(5): 721-728|1990|10.1007/BF01701794
88992|T||White,N.D.G., R.N. Sinha, and J.T. Mills|Long-Term Effects of an Insecticide on a Stored-Wheat Ecosystem|Can. J. Zool.64(11): 2558-2569|1986|10.1139/z86-376
88993|T||Barney,R.J., B.D. Price, J.D. Sedlacek, and M. Siddiqui|Fungal Species Composition and Abundance on Stored Corn as Influenced by Several Management Practices and Maize Weevil (Coleoptera:  Curculionidae)|Crop Prot.14(2): 159-164|1995|10.1016/0261-2194(95)92871-J
88994|T||Anitha,N., J.S.K. Charles, and L. Rajamony|Effect of Sucker Treatment with Insecticides on Incidence of Banana-Rhizome Weevil (Cosmopolites sordidus)|Indian J. Agric. Sci.62(8): 572-573|1992|
88995|T||Jain,R.C., R.J. Tiwari, and A.K. Chaudhari|Effect of Insecticides and Sugar Pressmud on Nodulation, Yield, Nutrient Content and Quality of Soybean (Glycine max)|Indian J. Agric. Sci.65(1): 20-23|1995|
88996|T||Giri,S., S.B. Prasad, A. Giri, and G.D. Sharma|Genotoxic Effects of Malathion:  An Organophosphorus Insecticide, Using Three Mammalian Bioassays In Vivo|Mutat. Res.514(1-2): 223-231|2002|10.1016/S1383-5718(01)00341-2
88997|A||Park,K.H., Y.S. Kim, E.Y. Chung, S.N. Choe, and J.J. Choo|Cardiac Responses of Pacific Oyster Crassostrea gigas to Agents Modulating Cholinergic Function|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.139(4): 303-308|2004|10.1016/j.cca.2004.12.009
88998|A||Lien,N.T.H., D. Adriaens, and C.R. Janssen|Morphological Abnormalities in African Catfish (Clarias gariepinus) Larvae Exposed to Malathion|Chemosphere35(7): 1475-1486|1997|10.1016/S0045-6535(97)00208-7
88999|A||Senger,M.R., E.P. Rico, M.D.B. Arizi, D.B. Rosemberg, R.D. Dias, M.R. Bogo, and C.D. Bonan|Carbofuran and Malathion Inhibit Nucleotide Hydrolysis in Zebrafish (Danio rerio) Brain Membranes|Toxicology212(2-3): 107-115|2005|10.1016/j.tox.2005.04.007
89000|T||Dary,C.C., J.N. Blancato, and M.A. Saleh|Chemomorphic Analysis of Malathion in Skin Layers of the Rat:  Implications for the Use of Dermatopharmacokinetic Tape Stripping in Exposure Assessment to Pesticides|Regul. Toxicol. Pharmacol.34(3): 234-248|2001|10.1006/rtph.2001.1462
89001|T||Willens,S.|Effects of Percutaneous Malathion Absorption in Anurans|Ph.D.Thesis, North Carolina State University, Raleigh, NC:108 p.|2005|
89002|T||Pandita,T.K.|Mutagenic Studies on the Insecticide Metasystox-R with Allium cepa|Cytologia51(2): 387-392|1986|10.1508/cytologia.51.387
89003|T||Panda,B.B.|Effect of the Insecticides Oxydemeton Methyl and Thiodemeton on the Mitotic and Meiotic Chromosomes of Barley|Environ. Exp. Bot.23(4): 293-296|1983|10.1016/0098-8472(83)90002-3
89004|T||Saad,W.A., L.A.A. Camargo, A.M. Cabral, N. Morita, and Y. Yashuda|Effect of Intrahypothalamic Injection of Methylic Parathion and Metasystox on Food and Water Intake of Normal and Fasted Rats|Pharmacol. Res. Commun.8(5): 485-493|1976|10.1016/0031-6989(76)90058-8
89005|T||Reddy,N.S., S. Dash, and Sontakke |Effect of Spraying Selected Pesticides on the Contents of Specified Minerals in Cabbage|Plant Foods Hum. Nutr. (Dordr.)51(4): 357-363|1997|10.1023/A:1007984813516
89006|A||Das,R.C., and B. Sengupta|Effect of Endosulfan and Malathion on the Ovarian Steroidogenesis and Brain Acetylcholinesterase Activity of the Catfish, Clarias batrachus (Linnaeus)|Vet. Arh. (Tisak)63(2): 75-83|1993|
89007|T||Bhanot,J.P., G.R. Batra, R. Chauhan, R.K. Threja, and A.N. Verma|Effect of Spraying Host Trees with Different Insecticides on Management of White Grub Beetles|J. Insect Sci.9(1): 91-92|1996|
89008|T||Choudhury,S.S., S.M. Sajid, and P. Choudhury|Cytogenetic Effects of Malathion on Meiotic Chromosomes of Pisum sativum L.|Cell Chromosome Res.12(3): 70-76|1989|
89009|T||Hunje,R.V., G.N. Kulkarni, S.D. Shashidhara, and B.S. Vyakaranahal|Effect of Insecticide and Fungicide Treatment on Cowpea Seed Quality|Seed Res.18(1): 90-92|1990|
89010|T||Attencia,V.M., M.C.C. Ruvolo-Takasusuki, and V.A.A. DeToledo|Esterase Activity in Apis mellifera After Exposure to Organophosphate Insecticides (Hymenoptera:  Apidae)|Sociobiology45(3): 587-595|2005|
89011|T||Teli,V.S., and G.N. Salunkhe|Relative Efficacy and Economics of Some Insecticides for the Control of Sweet Potato Weevil|Indian J. Plant Prot.21(1): 59-61|1993|
89012|T||Naik,R.L., R.N. Pokharkar, and D.S. Ajri|Relative Efficacy of Certain Pesticides Against Pod Borer on Chickpea Under Field Conditions|J. Maharashtra Agric. Univ.12(1): 119-120|1987|
89013|T||Singh,O.P., and K.J. Singh|Effectiveness of Some Insecticides Against the Larvel Population of Grey Semilooper, Rivula sp. a New Pest of Soybeen in Madhya Pradesh|Pesticides 22(6): 34-35|1988|
89014|T||Ehrich,M., C. Driscoll, and W.B. Gross|Effect of Dietary Exposure to Aflatoxin B1 on Resistance of Young Chickens to Organophosphate Pesticide Challenge|Avian Dis.29(3): 715-720|1985|10.2307/1590662
89015|A||Stevens,M.M., and G.N. Warren|Efficacy of Malathion Seed Treatments for Chironomid Control in Aerially-Sown Rice Crops|Int. J. Pest Manag.41(3): 157-160|1995|10.1080/09670879509371942
89017|T||Jin,Q.|Effect of Thiocarbamate Herbicides on Chick Embryos|Ph.D.Thesis, University of Kansas, Lawrence, KS:176 p.|1997|
89018|T||Ahmad,H., and S.M.A. Rizvi|Efficacy of Pyrethroids and Some Conventional Insecticides Against Earias vitella in Okra|Indian J. Plant Prot.22(1): 65-68|1994|
89019|T||Sodhi,S., H. Singh, G.S. Grewal, A.S. Dhaliwal, and A.P.S. Brar|Effect of Aflatoxin Contaminated Feed on Resistance of Young Broiler Chicks to Malathion Challenge|Indian J. Poult. Sci.31(2): 92-95|1996|
89020|T||Zehnder,G.W., M.H. Hollingsworth, and D. Hagemore|Foliar Insecticide Evaluation for Control of Corn Earworm on Sweet Corn, 1993|Arthropod Manag. Tests19:99-|1994|10.1093/amt/19.1.99
89021|T||Whalen,J., and M. Spellman|Control of Lepidopterous Larvae on Fall Cabbage, 1993|Arthropod Manag. Tests19:77-|1994|10.1093/amt/19.1.77
89023|T||Rao,B.V., C.B.S.R. Sharma, and B.G.S. Rao|Cytological Effects of Organophosphorus Insecticides on Allium cepa Root Meristems|Cytologia52(2): 365-371|1987|10.1508/cytologia.52.365
89024|T||Mizell,M.J., K.A. Johnson, and J.E. Battjes|Telone C-17 Soil Fungicide and Nematicide:  Acute Dermal Toxicity Study in New Zealand White Rabbits (Final Report) with Cover Letter Dated 121288|EPA/OTS Doc.#86-890000059:24 p.|1988|
89025|T||Singh,R.M., A. Sharma, and R.K. Sarbhoy|Cytogenetical Effects of Agricultural Chemical I:  In Onion (Allium cepa. L.)|Int. J. Trop. Plant Dis.8(2): 225-229|1990|
89026|T||Rodgers,K.E., D.L. Haviland, and C.F. Ware|Protection from O,O,S-Trimethyl Phosphorothioate-Induced Immune Suppression|Immunopharmacology (N. Y.)17(3): 131-140|1989|10.1016/0162-3109(89)90041-6
89027|A||Qureshi,N.A., Q.J. Shammi, and R. Sharma|Histopathology of Malathion on Liver of a Catfish, Clarias batrachus (Linn)|Indian J. Zool.11(1): 67-70|1983|
89028|A||Nath,A., and G.B. Chand|Malathion Induced Spermiophagy in the Testis of Heteropneustes fossilis:  SEM Study|J. Freshw. Biol.9(3-4): 158-161|1997|
89029|A||Abdullah,A.R., A.H. Sulaiman, and Z. Zakaria|Distribution and Excretion of (14C)-Malathion in Haruan (Channa striata) Subjected to Acute Exposure of the Insecticide|Malays. Appl. Biol.25(1): 19-23|1996|
89030|T||El-Hawa,M.A., N.M. Awny, M.Z. El-Fouly, and A.A.A. Zeid|Degradation of Malathion by Indole-3-Acetic Acid Producing Soil Microflora Under the Influence of Different Environmental Conditions|Egypt. J. Microbiol.28(3): 355-372|1993|
89031|T||Rodgers,K.E., T. Imamura, and B.H. Devens|Organophosphorus Pesticide Immunotoxicity:  Effects of O,O,S-Trimethyl Phosphorothioate on Cellular and Humoral Immune Response Systems|Immunopharmacology (N. Y.)12(3): 193-202|1986|10.1016/0162-3109(86)90003-2
89032|T||Pal,A.K., and H.S. Kushwah|Effect of Malathion Dipping on Ascorbic Acid and Cholesterol Content in Adrenal Gland of Poultry Birds|Indian Vet. Med. J.21(4): 312-313|1997|
89033|T||Awny,N.M., M.Z. El-Fouly, M.A. El-Hawa, and A.A.A. Zeid|Effect of Malathion on the Metabolism of Certain Egyptian Soil Microflora|Egypt. J. Microbiol.31(1): 49-60|1996|
89038|T||McKillop,D., and K.J. Pickup|Different Inhibition and Induction Profiles of Hepatic Drug Metabolism in Rats and Dogs by Two Structurally Related Pyridyl Diazinone Cardiotonic Agents|Biochem. Pharmacol.41(3): 411-417|1991|10.1016/0006-2952(91)90538-G
89039|T||Begg,J.A.|Residual Control of Wireworms in Flue-Cured Tobacco|In: 84th Annu.Rep.Entomol.Soc.Ontario:79-82|1954|
89040|T||Prieto,A., D. Molero, G. Gonzalez, I. Buscema, G. Ettiene, and D. Medina|Persistence of Methamidophos, Diazinon, and Malathion in Tomatoes|Bull. Environ. Contam. Toxicol.69(4): 479-485|2002|10.1007/s00128-002-0087-5
89041|T||Murray,A., A.J. Rathbone, and D.E. Ray|Novel Protein Targets for Organophosphorus Pesticides in Rat Brain|Environ. Toxicol. Pharmacol.19(3): 451-454|2005|10.1016/j.etap.2004.12.006
89043|T||Deng,X., T. Ebert, and B. Cartwright|Efficacy of Insecticide Treatments on Squash, 1992|Insectic. Acaric. Tests18:168-|1993|10.1093/iat/18.1.168
89044|T||Sasaki,Y.F., A. Saga, M. Akasaka, S. Ishibashi, K. Yoshida, Y.Q. Su, N. Matsusaka, and S. Tsuda|Detection of In Vivo Genotoxicity of Haloalkanes and Haloalkenes Carcinogenic to Rodents by the Alkaline Single Cell Gel Electrophoresis (Comet) Assay in Multiple Mouse Organs|Mutat. Res.419(1-3): 13-20|1998|10.1016/S1383-5718(98)00114-4
89045|T||Rodgers,K., and S. Xiong|Effect of Administration of Malathion for 90 Days on Macrophage Function and Mast Cell Degranulation|Toxicol. Lett.93(1): 73-82|1997|10.1016/S0378-4274(97)00069-6
89046|T||Rodgers,K., and S. Xiong|Effect of Acute Administration of Malathion by Oral and Dermal Routes on Serum Histamine Levels|Int. J. Immunopharmacol.19(8): 437-441|1997|10.1016/S0192-0561(97)00098-2
89047|T||Rodgers,K., and S. Xiong|Effect of Administration of Malathion for 14 Days on Macrophage Function and Mast Cell Degranulation|Fundam. Appl. Toxicol.37(1): 95-99|1997|10.1006/faat.1997.2302
89048|T||Pournourmohammadi,S., B. Farzami, S.N. Ostad, E. Azizi, and M. Abdollahi|Effects of Malathion Subchronic Exposure on Rat Skeletal Muscle Glucose Metabolism|Environ. Toxicol. Pharmacol.19(1): 191-196|2005|10.1016/j.etap.2004.07.002
89049|T||Patel,B.J., and P.L. Kaul|Hyperglycaemia in Malathion Induced Toxicity in Kankrej Calves|Indian Vet. J.69(4): 301-304|1992|
89050|T||Gul,H., and M.I. Chaudhry|Efficacy of Insecticides Against Subterranean Termites in Protecting the Eucalypt Saplings|Pak. J. For.41(4): 202-206|1991|
89051|T||Pal,A.K., and H.S. Kushwah|Effect of Malathion Dipping on Lipid Pattern of Erythrocytes and Brain in Poultry Birds|Indian J. Anim. Sci.68(2): 160-162|1998|
89052|T||Matin,M.A., and R.A. Siddiqui|Effect of Diacetylmonoxime and Atropine on Malathion-Induced Changes in Blood Glucose Level and Glycogen Content of Certain Brain Structures of Rats|Biochem. Pharmacol.31(9): 1801-1803|1982|10.1016/0006-2952(82)90692-X
89053|T||DeLamar,Z.D., and T.P. Mack|Evaluation of Insecticides for Control of Soybean Looper on Soybean, 1993|Arthropod Manag. Tests19:267-268|1994|10.1093/amt/19.1.267a
89054|T||Herbert,D.A.,Jr.|Selected Biological Insecticides for Corn Earworm Control in Soybean in Virginia, 1993|Arthropod Manag. Tests19:268-269|1994|10.1093/amt/19.1.268
89055|T||Hoy,C.W., and M.J. Dunlap|Control of Lepidoptera on Cole Crops, 1993|Arthropod Manag. Tests19:84-85|1994|10.1093/amt/19.1.84
89056|T||Iris,A.B., E. Grafius, W. Pett, and M. Bomarito|Broccoli Insect Control, 1993|Arthropod Manag. Tests19:59-61|1994|10.1093/amt/19.1.59
89057|T||Stansly,P.A., and B.M. Cawley|Insecticidal Control of Fall Armyworm in Florida Sweet Corn, 1992|Arthropod Manag. Tests19:97-|1994|10.1093/amt/19.1.97
89058|T||Palumbo,J.C., and C.H. Mullis|Evaluation of Insecticides for Control of Lepidopterous Larvae in Lettuce, 1993|Arthropod Manag. Tests19:101-102|1994|10.1093/amt/19.1.101
89059|T||Rowland,S., and B. Cartwright|Corn Earworm Control on Sweet Corn, 1993|Arthropod Manag. Tests19:95-|1994|10.1093/amt/19.1.95
89060|T||Sewell,G.H., and R.H. Storch|Broccoli Control of Lepidopterous Pests, 1993|Arthropod Manag. Tests19:64-|1994|10.1093/amt/19.1.64
89061|T||Speese III,J.|Foliar Sprays Applied at Egg and Larval Thresholds to Control Bollworms in Cotton, 1993|Arthropod Manag. Tests19:241-|1994|10.1093/amt/19.1.241
89062|T||Smitley,D.R., and T.W. Davis|Eastern Tent Caterpillar Control on Cherry Trees, 1994|Arthropod Manag. Tests20:293-294|1995|10.1093/amt/20.1.293a
89063|T||Kumar,H., and J.A. Mihm|Southwestern Corn Borer and Fall Armyworm Damage on Maize in Relation to Seed Treatment with Selected Insecticides, 1993|Arthropod Manag. Tests20:363-|1995|10.1093/amt/20.1.363
89064|T||Chappell II,G.F., and D.A.,Jr. Herbert|Selected Insecticides for Corn Earworm Control in 'Holladay' Soybean in Virginia, 1994|Arthropod Manag. Tests20:235-236|1995|10.1093/amt/20.1.235
89065|T||Chappell II,G.F., and D.A.,Jr. Herbert|Selected Insecticides for Corn Earworm Control in 'Pioneer 9444' Soybean in Virginia, 1994|Arthropod Manag. Tests20:234-235|1995|10.1093/amt/20.1.234
89066|T||Way,M.O., and R.G. Wallace|Control of Soybean Insect Pests, 1997|Arthropod Manag. Tests24:294-296|1999|
89067|T||Torrey,K.D., B.R. Leonard, and J. Gore|Control of Soybean Looper and Beet Armyworm, 1998|Arthropod Manag. Tests24:293-294|1999|10.1093/amt/24.1.F115
89068|T||Fitzpatrick,B.J., M.E. Baur, T.S. Hall, D.J. Boethel, and B.R. Leonard|Evaluation of Insecticides Against Soybean Looper on Soybean in Northeast Louisiana, 1998|Arthropod Manag. Tests24:286-288|1999|
89069|T||Latheef,M.A.|Influence of Spray Mixture Rate and Nozzle Size of Sprayers on Toxicity of Profenofos and Thiodicarb Formulations Against Tobacco Budworm on Cotton|Crop Prot.14(5): 423-427|1995|10.1016/0261-2194(95)00025-H
89071|T||Townsend,B.A., and G.P. Carlson|Effect of Halogenated Benzenes on the Toxicity and Metabolism of Malathion, Malaoxon, Parathion, and Paraoxon in Mice|Toxicol. Appl. Pharmacol.60(1): 52-60|1981|10.1016/0041-008X(81)90134-4
89073|T||Katayama,A., and F. Matsumura|Degradation of Organochlorine Pesticides, Particularly Endosulfan, by Trichoderma harzianum|Environ. Toxicol. Chem.12(6): 1059-1065|1993|10.1002/etc.5620120612
89074|T||Hirvonen,M.R., L. Paljarvi, A. Naukkarinen, H. Komulainen, and K.M. Savolainen|Potentiation of Malaoxon-Induced Convulsions by Lithium:  Early Neuronal Injury, Phosphoinositide Signaling, and Calcium|Toxicol. Appl. Pharmacol.104(2): 276-289|1990|10.1016/0041-008X(90)90302-B
89076|T||Proctor and Gamble Co.|Initial Submission:  Interim Results (Including Neurological Data) from Oral (Gavage) Developmental Toxicity Study of 1-Naphthol in Rats, with Cover Letter Dated        3/3/1998|EPA/OTS Doc.#88980000102:30 p.|1998|
89078|T||Senapati,B.K., J. Biswal, S.C. Pani, and S.K. Sahu|Ecotoxicological Effects of Malathion on Earthworms|Soil Biol. Biochem.24(12): 1719-1722|1992|10.1016/0038-0717(92)90176-X
89079|T||Gray,A.J., and T.R. Fukuto|Metabolism of O,O,S-Trimethyl Phosphorothioate in Rats After Oral Administration of a Toxic Dose, and the Effect of Coadministration of Its Antagonistic Thionate Isomer|Pestic. Biochem. Physiol.22(3): 295-311|1984|10.1016/0048-3575(84)90022-1
89080|T||Mulrooney,J.E., K.A. Holmes, R.A. Shaw, and D. Goli|Longevity of Ultra-Low-Volume Sprays of Fipronil and Malathion on Cotton in Mexico|Southwest. Entomol.28(1): 69-75|2003|
89081|T||Rajini,P.S., Muralidhara, M.K. Krishnakumari, and S.K. Majumder|Mutagenic Properties of Pirimiphos-Methyl in Male Mice|Bull. Environ. Contam. Toxicol.36(5): 680-684|1986|10.1007/BF01623569
89082|T||Keadtisuke,S., W. Dheranetra, and T.R. Fukuto|Detection of Kidney Damage by Malathion Impurities Using a Microdissection Technique|Toxicol. Lett.47(1): 53-59|1989|10.1016/0378-4274(89)90085-4
89083|T||Lal,O.P.|Evaluation of Certain Insecticides Against the Pest Complex of French Bean Seed Crop Under Field Conditions|J. Entomol. Res.16(1): 57-61|1992|
89084|T||Balasubramanian,K., C. Ratnakar, P.H. Ananthanarayanan, and A. Balasubramanian|Histopathological Changes in the Testis of Malathion Treated Albino Rats|Med. Sci. Res.15(9): 509-510|1987|
89086|T||Meagher,J.W., and P.T. Jenkins|Interaction of Meloidogyne hapla and Verticillium dahliae, and the Chemical Control of Wilt in Strawberry|Aust. J. Exp. Agric. Anim. Husb.10(45): 493-496|1970|10.1071/EA9700493
89087|T||Machin,M.G.A., and W.G. McBride|Teratological Study of Malathion in the Rabbit|J. Toxicol. Environ. Health26(3): 249-253|1989|10.1080/15287398909531251
89088|T||Bulusu,S., and I. Chakravarty|Subacute Administration of Organophosphorus Pesticides and Hepatic Drug Metabolizing Enzyme Activity in Normal and Malnourished Rats|Bull. Environ. Contam. Toxicol.36(1): 73-80|1986|10.1007/BF01623477
89089|T||Brown,D.R., and R.D. Moon|Biting Lice Control on Angora Goats in Northern Minnesota, 1994|Arthropod Manag. Tests20:325-|1995|10.1093/amt/20.1.325
89090|T||Noetzel,D.M., J. Miller, and B. Holder|Aphid Control in Wheat, Mahnomen, MN, 1993|Arthropod Manag. Tests19:293-|1994|
89091|T||Noetzel,D.M., J. Miller, and B. Holder|Aphid Control in Headed Spring Wheat Using M-Pede and M-Pede Combinations, Mahnomen, MN, 1993|Arthropod Manag. Tests19:294-|1994|
89092|T||Brown,D.R., and R.D. Moon|Biting Lice Control on Angora Goats in Northern Minnesota, 1992|Arthropod Manag. Tests19:367-|1994|10.1093/amt/19.1.367
89093|A||Sinha,N., B. Lal, and T.P. Singh|Thyroid Physiology Impairment by Malathion in the Freshwater Catfish Clarias batrachus|Ecotoxicol. Environ. Saf.24(1): 17-25|1992|10.1016/0147-6513(92)90031-W
89094|T||Noetzel,D.M., and B. Holder|Aphid Control in Headed Spring Wheat, Crookston, MN, 1993|Arthropod Manag. Tests19:291-292|1994|10.1093/amt/19.1.291a
89095|T||Gonzalez-Lopez,J., M.V. Martinez-Toledo, B. Rodelas, and V. Salmeron|Studies on the Effects of the Insecticides Phorate and Malathion on Soil Microorganisms|Environ. Toxicol. Chem.12(7): 1209-1214|1993|10.1897/1552-8618(1993)12[1209:SOTEOT]2.0.CO;2
89096|T||Bulusu,S., and I. Chakravarty|Augmented Hepatic Susceptibility to Malathion Toxicity in Rats on Low-Protein Diets|Environ. Res.35(1): 53-65|1984|10.1016/0013-9351(84)90113-0
89099|A||Wolfe,M.F., D.E. Hinton, and J.N. Seiber|Aqueous Sample Preparation for Bioassay Using Supercritical Fluid Extraction|Environ. Toxicol. Chem.14(6): 1001-1009|1995|10.1002/etc.5620140611
89100|T||Belanger,A., C. Vincent, and D. De Oliveira|A Field Study on Residues of Four Insecticides Used in Strawberry Protection|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes25(5): 615-625|1990|
89101|A||Khillare,Y.K., and S.B. Wagh|Effect of Certain Pesticides on Spermatogenesis in Fish Barbus stigma (Ham.)|Oikoassay6(1): 19-21|1989|
89102|T||Zeid,M.M.A., G. El-Barouty, E. Abdel-Reheim, J. Blancato, C. Dary, A.H. El-Sebae, and M.A. Saleh|Malathion Disposition in Dermally and Orally Treated Rats and Its Impact on the Blood Serum Acetylcholine Esterase and Protein Profile|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(4): 413-430|1993|
89103|T||Banerjee,H., P. Raha, A. Chowdhury, A.K. Das, and N. Adityachaudhury|Studies on the Residual Fate and Dissipation of Malathion, Methylparathion and Quinalphos in Paddy Under West Bengal Climatic Condition|Trop. Pest Manag.35(4): 365-369|1989|10.1080/09670878909371406
89104|T||Piramanayagam,S., B.M. Manohar, and A. Sundararaj|Pathology of Malathion Toxicity in Rats|Indian Vet. J.73(7): 734-737|1996|
89105|T||Chu,C.C., T.J. Henneberry, and D.H. Akey|Insecticide Control of Sweetpotato Whitefly on Broccoli and Lettuce, 1992|Arthropod Manag. Tests19:57-59|1994|10.1093/amt/19.1.57
89106|T||Klein,C.D., P.H. Slaymaker, N.P. Tugwell, and M.L. Wall|Control of Bollworm, Tobacco Budworm, and Beet Armyworm in Cotton with Selected Insecticides, 1993|Arthropod Manag. Tests19:227-|1994|10.1093/amt/19.1.227
89107|T||Thathoo,A.K., and M.C. Prasad|Malathion Induced Biochemical Alterations in Cerebrospinal Fluid in Sheep|J. Environ. Biol.11(1): 67-72|1990|
89108|T||Dulout,F.N., M.C. Pastori, and O.A. Olivero|Malathion-Induced Chromosomal Aberrations in Bone-Marrow Cells of Mice:  Dose-Response Relationships|Mutat. Res.122(2): 163-167|1983|
89109|T||Yu,S.J., F.A. Robinson, and J.L. Nation|Detoxication Capacity in the Honey Bee, Apis mellifera L.|Pestic. Biochem. Physiol.22(3): 360-368|1984|10.1016/0048-3575(84)90029-4
89110|T||Chowdhury,J.S., P.K. Dudeja, S.K. Mehta, and A. Mahmood|Effect of a Single Oral Dose of Malathion on D-Glucose and Glycine Uptake and on Brush Border Enzymes in Rat Intestine|Toxicol. Lett.6(6): 411-415|1980|10.1016/0378-4274(80)90115-0
89111|A||Rosenbaum,E.A., A.C. De Castro, L. Gauna, and A.M.P. De d'Angelo|Early Biochemical Changes Produced by Malathion on Toad Embryos|Arch. Environ. Contam. Toxicol.17(6): 831-835|1988|10.1007/BF01061988
89112|A||Relyea,R.A.|The Impact of Insecticides and Herbicides on the Biodiversity and Productivity of Aquatic Communities|Ecol. Appl.15(2): 618-627|2005|10.1890/03-5342
89113|T||Howe,F.P., R.L. Knight, L.C. McEwen, and T.L. George|Direct and Indirect Effects of Insecticide Applications on Growth and Survival of Nestling Passerines|Ecol. Appl.6(4): 1314-1324|1996|10.2307/2269609
89114|T||Ojha,S., S.P. Norton, N. Shrivastava, and S. Jain|Effect of Dietary Malathion in Three Successive Generations of Albino Rats|Environ. Ecol.9(4): 1007-1010|1991|
89115|T||Perviz,D.A., and M. Rajyasree|Effect of Malathion on Acetylcholinesterase Activity of Swiss Albino Mice|Environ. Ecol.11(3): 691-692|1993|
89116|T||Kaskhedikar,P., and R.P. Singh|Effect of Malathion Exposure on the Worm Burden of Mice During Experimental Hymenolepis nana Infection|J. Environ. Biol.15(3): 199-202|1994|
89117|T||Abdel-Rahman,A., A.M. Dechkovskaia, L.B. Goldstein, S.H. Bullman, W. Khan, E.M. El-Masry, and M.B. Abou-Donia|Neurological Deficits Induced by Malathion, DEET, and Permethrin, Alone or in Combination in Adult Rats|J. Toxicol. Environ. Health Part A67(4): 331-356|2004|10.1080/15287390490273569
89118|T||Mathews,M.S., and K.S. Devi|Effect of Chronic Exposure of Pregnant Rats to Malathion and/or Estrogen and/or Progesterone on Xenobiotic Metabolizing Enzymes|Pestic. Biochem. Physiol.48(2): 110-122|1994|10.1006/pest.1994.1012
89119|T||Bartholomew,P.M., G. Gianutsos, and S.D. Cohen|Differential Cholinesterase Inhibition and Muscarinic Receptor Changes in CD-1 Mice Made Tolerant to Malathion|Toxicol. Appl. Pharmacol.81(1): 147-155|1985|10.1016/0041-008X(85)90129-2
89120|T||Varshneya,C., H.S. Bahga, and L.D. Sharma|Effect of Dietary Malathion on Hepatic Microsomal Drug-Metabolizing Systems of Gallus domesticus|Toxicol. Lett.31(2): 107-111|1986|10.1016/0378-4274(86)90003-2
89121|T||Reidy,G.F., H.A. Rose, and N.H. Stacey|Effect of Length of Exposure to Malathion on Xenobiotic Biotransformation in Male Rat Liver|Toxicol. Lett.38(1-2): 193-199|1987|10.1016/0378-4274(87)90128-7
89122|T||Peterson,S.S., J.L. Wedberg, and D.B. Hogg|Plant Bug (Hemiptera:  Miridae) Damage to Birdsfoot Trefoil Seed Production|J. Econ. Entomol.85(1): 250-255|1992|10.1093/jee/85.1.250
89123|T||Weiss,M.J., P. McLeod, B.G. Schatz, and B.K. Hanson|Potential for Insecticidal Management of Flea Beetle (Coleoptera:  Chrysomelidae) on Canola|J. Econ. Entomol.84(5): 1597-1603|1991|10.1093/jee/84.5.1597
89124|T||Devasahayam,S., and K.M.A. Koya|Field Evaluation of Insecticides for the Control of Mussel Scale (Lepidosaphes piperis Gr.) on Black Pepper (Piper nigrum L.)|J. Entomol. Res.18(3): 213-215|1994|
89125|T||Muan,B., N.E. Soli, and J.U. Skare|Elimination of Intravenously Injected Malathion in Sheep|J. Agric. Food Chem.37(4): 1085-1088|1989|10.1021/jf00088a059
89126|T||Abdollahi,M., M. Donyavi, S. Pournourmohammadi, and M. Saadat|Hyperglycemia Associated with Increased Hepatic Glycogen Phosphorylase and Phosphoenolpyruvate Carboxykinase in Rats Following Subchronic Exposure to Malathion|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(4): 343-347|2004|10.1016/j.cca.2004.03.009
89127|T||Abdollahi,M., S. Mostafalou, S. Pournourmohammadi, and S. Shadnia|Oxidative Stress and Cholinesterase Inhibition in Saliva and Plasma of Rats Following Subchronic Exposure to Malathion|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(1): 29-34|2004|10.1016/j.cca.2003.11.002
89128|T||Rodgers,K., K. St.Amand, and S. Xiong|Effects of Malathion on Humoral Immunity and Macrophage Function in Mast Cell-Deficient Mice|Fundam. Appl. Toxicol.31(2): 252-258|1996|10.1006/faat.1996.0097
89129|T||Rezg,R., B. Mornagui, M. El-Arbi, A. Kamoun, S. El-Fazaa, and N. Gharbi|Effect of Subchronic Exposure to Malathion on Glycogen Phosphorylase and Hexokinase Activities in Rat Liver Using Native PAGE|Toxicology223(1-2): 9-14|2006|10.1016/j.tox.2006.02.020
89130|T||Balakrishnarao,D., Honnegowda, and K. Narayana|Effect of Malathion on Blood Plasma Concentration and Pharmacokinetics of Sulphadimidine in Buffalo Calves|Indian J. Anim. Sci.60(9): 1079-1082|1990|
89131|T||Urs,N.V.R., H.C. Govindu, and K.S.S. Shastry|The Effect of Certain Insecticides on the Entomogenous Fungi Beauveria bassiana and Metarrhizium anisopliae|J. Invertebr. Pathol.9(3): 398-403|1967|10.1016/0022-2011(67)90077-8
89132|T||Singh,D., A.K. Tripathi, and A.A. Naqvi|Influence of Systemic Organophosphorus Insecticides on Menthol Synthesis in Japanese Mint|Indian J. Exp. Biol.29(6): 586-587|1991|
89133|A||Sukla,G.S., P.K. Misra, and S.P. Tripathi|Studies on In Vivo Cholinesterase Inhibition in the Nervous System of Dragonfly Naiads of Brachythemis contaminata (Fabricius)|J. Adv. Zool.4(1): 17-21|1983|
89134|A||Plumb,J.A., and N. Areechon|Effect of Malathion on Humoral Immune Response of Channel Catfish|Dev. Comp. Immunol.14(3): 355-358|1990|10.1016/0145-305X(90)90026-B
89135|T||Sajid,S.M., and S.S. Choudhary|Effects of Malathion on Mitosis in Pisum sativum L.|Cell Chromosome Res.9(2): 32-35|1986|
89136|AT||Hudson,J.E.|Susceptibility of Aedes aegypti and Culex quinquefasciatus to Insecticides in Paramaribo, Suriname, 1979-1981, and Experimental Selection for Resistance|Cah. ORSTOM Ser. Entomol. Med. Parasitol. (Multiple Languages)21(4): 275-279|1983|
89137|T||Tos-Luty,S., D. Obuchowska-Przebirowska, J. Latuszynska, M. Tokarska-Rodak, and A. Haratym-Maj|Dermal and Oral Toxicity of Malathion in Rats|AAEM Ann. Agric. Environ. Med.10(1): 101-106|2003|
89138|T||Keadtisuke,S., and T.R. Fukuto|Hyperamino aciduria Induced in Rats by O,O,S-Trimethyl Phosphorothioate|Pestic. Biochem. Physiol.26(3): 375-381|1986|10.1016/0048-3575(86)90078-7
89139|T||Prakash,N., K. Narayana, G.S. Murthy, N.R. Moudgal, and Honnegowda |The Effect of Malathion, an Organophosphate, on the Plasma FSH, 17beta-Estradiol and Progesterone Concentrations and Acetylcholinesterase Activity and Conception in Dairy Cattle|Vet. Hum. Toxicol.34(2): 116-119|1992|
89140|T||Chatterjee,A.K., and U. Kaveeshwar|Protective Effect of a high Protein Diet Against the Toxicity of Some Organophosphorus Compounds in Albino Rats|Jpn. J. Pharmacol.57(2): 147-152|1991|10.1254/jjp.57.147
89141|T||Relford,R.L., A.J. Ainsworth, and J.E. Harkness|Effects of a Commercial Malathion Dip Preparation on the Cellular and Humoral Immune Response of BALB/c Mice|Lab. Anim. Sci.39(1): 56-59|1989|
89142|T||Brown,V.K., M. Leijn, and C.S.A. Stinson|The Experimental Manipulation of Insect Herbivore Load by the Use of an Insecticide (Malathion):  The Effect of Application on Plant Growth|Oecologia72(3): 377-381|1987|10.1007/BF00377567
89143|T||Raizada,R.B., M.K. Srivastava, R.P. Singh, R.A. Kaushal, K.P. Gupta, and T.S.S. Dikshith|Interaction of Technical Hexachlorocyclohexane and Oxydemeton Methyl 25 EC to Female Rats After Dermal Application|Indian J. Exp. Biol.31(2): 142-146|1993|
89144|T||Tayyaba,K., M. Hasan, F. Islam, and N.H. Khan|Organophosphate Pesticide Metasystox-Induced Regional Alterations in Brain Nucleic Acid Metabolism|Indian J. Exp. Biol.19(7): 688-690|1981|
89145|T||Elzen,G.W.|Control of Tobacco Budworm and Bollworm, 1989|Insectic. Acaric. Tests16:182-|1991|10.1093/iat/16.1.182
89146|T||Khandwe,N., J.P. Gujrati, and O.P. Singh|Ovicidal Action of Some Insecticides Against the Eggs of Grey Semilooper, Rivula sp. on Soybean|J. Insect Sci.5(2): 231-232|1992|
89147|T||Chandrakar,H.K., A.K. Dubey, and U.K. Kaushik|Performance of Some Common Insecticides Against Dactynotus compositae (Theobold) on Safflower|J. Insect Sci.6(1): 156-157|1993|
89148|A||Adhikari,S., A.K. Sinha, and J.S.D. Munshi|Malathion Induced Ultrastructural Changes in the Gills of Heteropneustes fossilis (Bloch) and Their Functional Significance in Oxygen Uptake|J. Freshw. Biol.10(1-2): 69-74|1998|
89149|T||Katole,S.R., A.V. Kolhe, K.B. Kale, A. Muqueem, and S.D. Khiratkar|Pesticidal Management of Sooty Mould Syndrome on Citrus|Crop Res. (Hisar)8(1): 141-144|1994|
89150|A||Mishra,A., P.K. Bajpai, K.K. Dutta, and P.K. Ray|Alteration in the Caudal Neurosecretory System due to Exposure to Endosulfan and Malathion in the Fresh Water Fish Heteropneustes fossilis|Bionature6(2): 59-63|1986|
89151|T||Letouze,A., and J. Gasquez|Enhanced Activity of Several Herbicide-Degrading Enzymes:  A Suggested Mechanism Responsible for Multiple Resistance in Blackgrass (Alopecurus myosuroides Huds.)|Agronomie (Multiple Languages)23(7): 601-608|2003|10.1051/agro:2003036
89152|T||Seal,R.|Effect of Malathion on the Male Reproductive System|Indian J. Physiol. Allied Sci.42(4): 113-124|1988|
89153|T||Dalaya,V.P., S.G. Rajput, and B.G. Awate|Occurrence of Thrips (Thrips spp.) on Green Gram in Northern Maharashtra and Its Control|Pesticides 20(8): 18-19|1986|
89154|T||Siddappaji,C., A.R.V. Kumar, and Gangadharaiah |Evaluation of Different Insecticidal Sprays Against the Chickpea Heliothis armigera (Hubner)|Pesticides 20(1): 13-16|1986|
89165|T||Ali,S.S., M. Arshad, T. Ali, and A.R. Shakoori|Some Metabolic Alterations Induced by an Organophosphate Insecticide, Malathion, on Chick Muscle|Bull. Dep. Zool. Univ. Panjab10:63-77|1995|
89166|T||Jorgenson,E.C., A.H. Hyer, R.H. Garber, and S.N. Smith|Influence of Soil Fumigation on the Fusarium-Root-Knot Nematode Disease Complex of Cotton in California|J. Nematol.10(3): 228-231|1978|
89167|A||Yeragi,S.G., and V.A. Koli|Effect of Malathion on Respiration of Marine Edible Crab Uca marionis (Des)|J. Mar. Biol. Assoc. India41(1-2): 129-133|1999|
89168|T||Johnson,A.W., C.A. Jaworski, N.C. Glaze, D.R. Sumner, and R.B. Chalfant|Effects of Film Mulch and Soil Pesticides on Nematodes, Weeds, and Yields of Vegetable Crops|J. Nematol.13(2): 141-148|1981|
89169|A||Lopes,L.R., S. Santos, J.P. Dell'aqua, C.R. Del-Carratore, and K. Hoshino|Recovery Facilitation of Malathion-Intoxicated Freshwater Fish by Exposure to Hypertonic Environment|Braz. J. Med. Biol. Res.22(2): 269-273|1989|
89170|T||Mufti,S.A., and N.J. Safdar|Studies on Cardiogenesis in Mouse Embryos Exposed to an Organophosphorus Insecticide|Pak. J. Zool.23(1): 39-43|1991|
89172|T||Solanki,S., and S.V.S. Chauhan|Effect of Some Pesticides on Pollen Fertility in Some Crops|J. Phytol. Res.7(1): 83-84|1994|
89173|T||Rodgers,K.E., and D.D. Ellefson|Effects of Acute Administration of O,O-S-Trimethyl Phosphorothioate on the Respiratory Burst and Phagocytic Activity of Splenic and Peritoneal Leukocytes|Agents Actions24(1-2): 152-160|1988|10.1007/BF01968094
89174|T||Bucks,D.A.W., J.P.L. Marty, and H.I. Maibach|Percutaneous Absorption of Malathion in the Guinea-Pig:  Effect of Repeated Topical Application|Food Chem. Toxicol.23(10): 919-922|1985|10.1016/0278-6915(85)90108-5
89175|T||Jacob,S., and S. Verma|Persistence and Decontamination of Malathion on Cauliflower (Brassica oleracea Var. Botrytis L.)|Indian J. Entomol.51(4): 377-383|1989|
89176|A||Walker,A.N., P. Bush, J. Puritz, T. Wilson, E.S. Chang, T. Miller, K. Holloway, and M.N. Horst|Bioaccumulation and Metabolic Effects of the Endocrine Disruptor Methoprene in the Lobster, Homarus americanus|Integr. Comp. Biol.45(1): 118-126|2005|10.1093/icb/45.1.118
89177|T||Tirkey,K., R.P. Yadava, T.K. Mandal, and N.C. Banerjee|Pharmacological Study of Ipomoea carnea|Indian Vet. J.65(3): 206-210|1988|
89178|A||Subramanian,G., S. Sekar, and S. Sampoornam|Biodegradation and Utilization of Organophosphorus Pesticides by Cyanobacteria|Int. Biodeterior. Biodegrad.33(2): 129-143|1994|10.1016/0964-8305(94)90032-9
89179|T||Yendol,W.G.|Factors Affecting Germination of Entomophthora conidia|J. Invertebr. Pathol.10(1): 116-121|1968|10.1016/0022-2011(68)90271-1
89180|T||Patel,B.H., V.R. Upadhyay, C.M. Muralidharan, and G.S. Judal|Effect of Various Insecticides on Honey Bee, Apis florea Fabricius in 'Ber' (Zizyphus mauritiana Lamk)|Curr. Sci. (Bangalore)57(21): 1199-1200|1988|
89181|AT||Mansour,S.A., S.S. Messeha, and S.E. El-Gengaihi|Botanical Biocides 4.  Mosquitocidal Activity of Certain Thymus capitatus Constituents|J. Nat. Toxins9(1): 49-62|2000|
89182|T||Kumar,R., S.P. Agarwal, and R.P. Uppal|Effect of Malathion on Sex Steroids in Immature Female Rats|Indian J. Anim. Sci.55(6): 424-425|1985|
89183|T||Kashyap,N.P., and S.F. Hameed|Evaluation of Some Organophosphorus Insectidies Against Dacus cucurbitae Coquillett on Peach|Proc. Indian Acad. Sci.91(1): 45-55|1982|
89184|A||Soltani,M., V.R. Mikryakov, T.B. Lapirova, E.A. Zabotkina, and A.V. Popov|Assessment of Some Immune Response Variables of Immunized Common Carp (Cyprinus carpio) Following Exposure to Organophosphate, Malathion|Bull. Eur. Assoc. Fish Pathol.23(1): 18-24|2003|
89185|T||Er,M.K., and A. Gokce|Effects of Selected Pesticides Used Against Glasshouse Tomato Pests on Colony Growth and Conidial Germination of Paecilomyces fumosoroseus|Biol. Control31(3): 398-404|2004|10.1016/j.biocontrol.2004.06.001
89186|T||Salvadori,D.M.F., L.R. Ribeiro, C.A.B. Pereira, and W. Becak|Cytogenetic Effects of Malathion Insecticide on Somatic and Germ Cells of Mice|Mutat. Res.204(2): 283-287|1988|10.1016/0165-1218(88)90101-2
89187|T||Kuthubutheen,A.J.|Effect of Pesticides on the Seed-Borne Fungi and Fungal Succession on Rice in Malaysia|J. Stored Prod. Res.20(1): 31-39|1984|10.1016/0022-474X(84)90033-X
89188|T||Tchounwou,P.B., A.J.,Jr. Englande, E.A. Malek, A.C. Anderson, and A.A. Abdelghani|The Effects of Bayluscide and Malathion on the Survival of Schistosoma mansoni Miracidia|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes26(1): 69-82|1991|
89189|T||Uppal,R.P., B.D. Garg, and A. Ahmad|Neurologic Effects of Malathion and DDT|Indian Vet. J.61(3): 201-210|1984|
89190|T||Easterbrook,M.A.|The Phenology of Lygus rugulipennis, the European Tarnished Plant Bug, on Late-Season Strawberries, and Control with Insecticides|Ann. Appl. Biol.131(1): 1-10|1997|10.1111/j.1744-7348.1997.tb05392.x
89191|T||Balasubramanian,K., A.P. Vijayan, P.H. Ananthanarayanan, and A. Balasubramanian|Effect of Malathion on the Testis of Male Albino Rats|Med. Sci. Res.15(5): 229-230|1987|
89192|A||Sawhney,A.K., and M.S. Johal|Effect of an Organophosphorous Insecticide, Malathion, on Pavement Cells of the Gill Epithelia of Channa punctatus (Bloch)|Pol. Arch. Hydrobiol.47(2): 195-203|2000|
89193|T||Fuchs,T.W., and M. Shelton|Effectiveness of New Methods of Biting Lice Control on Angora Goats|Southwest. Entomol.10(1): 15-19|1985|
89194|A||Desai,P.V.|Alterations in the Intestinal Absorption of Xylose Induced by Parathion and Malathion in Labeo rohita|Geobios14(4): 176-177|1987|
89195|T||Ozmen,G., and M.T. Akay|The Effects of Malathion on Some Hormone Levels and Tissues Secreting These Hormones in Rats|Vet. Hum. Toxicol.35(1): 22-24|1993|
89196|T||Davidson,P.P.|Dietary Fat Alteration of Plasma Cholinesterase Response to Malathion|Toxicology5(1): 113-115|1975|10.1016/0300-483X(75)90076-1
89197|A||Dash,K., A.K. Pandey, and S. Ayyappan|Suppression in Haemolytic Activities and Specific Antibody Response of Sera of the Indian Major Carps Treated with Malathion|Indian J. Fish.47(1): 71-76|2000|
89198|A||Tao,L.M., J.Z. Yang, P.J. Zhuang, and Z.H. Tang|Effect of a Mixture of Iprobenfos and Malathion on the Development of Malathion Resistance in the Mosquito Culex pipiens pallens Coq|Pest Manag. Sci.62(1): 86-90|2006|10.1002/ps.1125
89199|T||Whitehead,A.G., D.J. Tite, and J.E. Fraser|The Effect of Small Doses of Nematicides on Migratory Root-Parasitic Nematodes and on the Growth of Sugar Beet and Barley in Sandy Soils|Ann. Appl. Biol.65(3): 361-375|1970|10.1111/j.1744-7348.1970.tb05504.x
89200|T||Tam,R.K.|The Comparative Effects of a 50-50 Mixture of 1:3-Dichloropropene and 1:2-Dichloropropane (D-D Mixture) and of Chloropicrin on Nitrification in Soil and on the Growth of the Pineapple Plant|Soil Sci.59:191-205|1945|10.1097/00010694-194503000-00001
89201|T||Whitehead,A.G., D.J. Tite, J.E. Fraser, and E.M. French|Control of Potato Cyst-Nematode, Heterodera rostochiensis, in Peaty Loam Soil by D-D, Aldicarb and a Resistant Variety of Potato|Ann. Appl. Biol.72(3): 307-312|1972|10.1111/j.1744-7348.1972.tb01298.x
89202|T||Whitehead,A.G., J.E. Fraser, and D.N. Greet|The Effect of D-D, Chloropicrin and Previous Crops on Numbers of Migratory Root-Parasitic Nematodes and on the Growth of Sugar Beet and Barley|Ann. Appl. Biol.65(3): 351-359|1970|10.1111/j.1744-7348.1970.tb05503.x
89203|T||Ogg,A.G.,Jr.|Control of Canada Thistle by Soil Fumigation Without Tarpaulins|Weed Sci.23(3): 191-194|1975|10.1017/S0043174500052838
89204|T||Vandegraft,E.E., O.L. Shotwell, M.L. Smith, and C.W. Hesseltine|Mycotoxin Formation Affected by Fumigation of Wheat|Cereal Sci. Today18(12): 412-414|1973|
89205|T||Smith,W.P.C., and H.L. Harvey|The Control of Root-Knot or Eelworm-Gall Disease by Soil Fumigation with D-D|J. Dep. Agric. West. Aust.25:283-290|1948|
89207|T||Dooley,G.P., J.E. Prenni, P.L. Prentiss, B.K. Cranmer, M.E. Andersen, and J.D. Tessari|Identification of a Novel Hemoglobin Adduct in Sprague Dawley Rats Exposed to Atrazine|Chem. Res. Toxicol.19(5): 692-700|2006|10.1021/tx060023c
89208|T||Appleton,G.V.N., R.W. Owen, E.E. Wheeler, D.N. Challacombe, and R.C.N. Williamson|Effect of Dietary Calcium on the Colonic Luminal Environment|Gut32(11): 1374-1377|1991|10.1136/gut.32.11.1374
89210|T||Chu,R.C., and D.H. Cox|Zinc, Iron, Copper, Calcium, Cytochrome Oxidase, and Phospholipid in Rats of Lactating Mothers Fed Excess Zinc|Nutr. Rep. Int.5(1): 61-66|1972|
89212|T||Katouli,M., L. Melin, M. Jensen-Waern, P. Wallgren, and R. Mollby|The Effect of Zinc Oxide Supplementation on the Stability of the Intestinal Flora with Special Reference to Composition of Coliforms in Weaned Pigs|J. Appl. Microbiol.87:564-573|1999|10.1046/j.1365-2672.1999.00853.x
89213|T||Schneider,S.M., H. Ajwa, and T.J. Trout|Chemical Alternatives to Methyl Bromide for Nematode Control Under Vineyard Replant Conditions|Am. J. Enol. Vitic.57(2): 183-193|2006|10.5344/ajev.2006.57.2.183
89214|T||Kaya,S., H.D. Umucalilar, S. Haliloglu, and H. Ipek|Effect of Dietary Vitamin A and Zinc on Egg Yield and Some Blood Parameters of Laying Hens|Turk. J. Vet. Anim. Sci.25:763-769|2001|
89215|T||Raj,D., and B.B. Kanwar|Minimizing Insecticide Use Against Cauliflower Pests in India|Trop. Pest Manag.36(1): 10-14|1990|10.1080/09670879009371426
89216|T||Rethwisch,M.D., M. Shaw, and M. Peralta|Cabbage and Green Peach Aphid Control on Seed Broccoli, 1992|Insectic. Acaric. Tests18:90-|1990|10.1093/iat/18.1.90
89217|T||Huerta,M., R.L. Kincaid, J.D. Cronrath, J. Busboom, A.B. Johnson, and C.K. Swenson|Interaction of Dietary Zinc and Growth Implants on Weight Gain, Carcass Traits and Zinc in Tissues of Growing Beef Steers and Heifers|Anim. Feed Sci. Technol.95:15-32|2002|10.1016/S0377-8401(01)00334-0
89218|T||Nagy,P., A.R. Thompson, M. Schultz, and P. Solymosi|Differential Acetolactate Synthase (ALS) Inhibitor Sensitivity in Three Biotypes of Cirsium arvense (L.) Scop. in Eastern Europe|Acta Phytopathol. Entomol. Hung.40(1-2): 67-78|2005|10.1556/APhyt.40.2005.1-2.8
89219|T||Cheema,A.A., A.R. Shakoori, and F.H. Shah|Studies on Reactivation of Malaoxon-Inhibited Acetylcholinesterase of Goat Brain by Pyridine-2-Aldoxime Methiodide (Pam-2)|Pak. J. Zool.21(3): 247-253|1989|
89220|T||Goodell,B.S., G.G. Helsing, and R.D. Graham|Responses of Douglas-Fir Trees to Injection of Chloropicrin|Can. J. For. Res.14(5): 623-627|1984|10.1139/x84-113
89221|T||Santos,B.M., J.P. Gilreath, and T.N. Motis|Impact of Chloropicrin on Nutsedge Emergence Through Polyethylene Mulch|HortTechnology16(1): 30-32|2006|10.21273/HORTTECH.16.1.0030
89223|T||Ali,S.S., M. Arshad, and T. Ali|Malathion Induced Haematoxicity in Chicks of Fowl, Gallus domesticus|Bull. Dep. Zool. Univ. Panjab12:127-137|1997|
89224|T||Luoma,D.L., and W.G. Thies|Stumps Fumigated with Chloropicrin:  Effects on Surrounding Plants|Can. J. For. Res.27(11): 1737-1745|1997|10.1139/x97-140
89225|T||Shriram, V.J. Shivankar, and B.D. Patil|Evaluation of Insecticides Against Lipaphis erysimi Kalt Infesting Fodder Mustard|J. Entomol. Res.9(1): 36-42|1985|
89226|T||Kumar,H., and J.A. Mihm|Damage by Fall Armyworm, Spodoptera frugiperda (J.E. Smith), Southwestern Corn Borer Diatraea grandiosella Dyar and Sugarcane Borer Diatraea saccharalis Fabricius on Maize in Relation to Seed Treatment with Selected Ins|Maydica41(3): 235-239|1996|
89227|T||Collins,J.A., and H.Y.,Jr. Forsythe|Blueberry Thrips Control, 1991|Insectic. Acaric. Tests17:61-62|1992|
89228|T||Kim,D.S., J.N. Lee, K.H. Hwang, K.G. Kang, T.Y. Kim, S.J. Koo, and J.C. Caseley|Flucetosulfuron:  A New Tool to Control Galium aparine and Broadleaf Weeds in Cereal Crops|In: Congr.Proc., BCPC Int.Congr., Crop Sci.& Technol., Nov.10-12, 2003, Glasgow, UK2:941-946|2003|
89229|T||Rajotte,E.G., J. Rytter, J.W. Travis, and G. Rebarchak|Evaluation of a Post Spray Insecticide for the Control of Aphids on Black Raspberry Canes, 1990|Insectic. Acaric. Tests16:41-|1991|10.1093/iat/16.1.41
89230|T||Peterson,S.S., J.L. Wedberg, and D.B. Hogg|Sweep Counts of the Trefoil Seed Chalcid, Bruchophagus platypterus (Walker) (Hymenoptera:  Eurytomidae), and Two of Its Parasitoids in Malathion-Treated Plots of Birdsfoot Trefoil, and Predicted Damage Based on Sweep Sa|J. Agric. Entomol.9(1): 25-35|1992|
89231|T||Moldenke,A.R., and W.G. Thies|Effect on Soil Arthropods 1 Year After Application of Chloropicrin to Control Laminated Root Rot.  III.  Treatment Effects on Nontarget Soil Invertebrates|Can. J. For. Res.26(1): 120-127|1996|10.1139/x26-013
89232|T||Chase,C.A., W.M. Stall, E.H. Simonne, R.C. Hochmuth, M.D. Dukes, and A.W. Weiss|Nutsedge Control with Drip-Applied 1,3-Dichloropropene Plus Chloropicrin in a Sandy Soil|HortTechnology16(4): 641-648|2006|10.21273/HORTTECH.16.4.0641
89233|T||Gerik,J.S., I.D. Greene, P. Beckman, and C.L. Elmore|Preplant Drip-Applied Fumigation for Calla Lily Rhizome Nursery|HortTechnology16(2): 297-300|2006|10.21273/HORTTECH.16.2.0297
89234|T||Upadhyay,S., and R.K. Agrawal|Efficacy of Different Insecticides on Incidence of Mustard Aphid (Lipaphis erysimi) on Indian Mustard (Brassica juncea) and Its Economics|Indian J. Agric. Sci.63(8): 522-525|1993|
89235|T||Thies,W.G., and E.E. Nelson|Reducing Phellinus weirii Inoculum by Applying Fumigants to Living Douglas-Fir|Can. J. For. Res.26(7): 1158-1165|1996|10.1139/x26-129
89236|A||Ghosh,R., and J. Dutta|Malathion Toxicity in Air-Breathing Catfish Singhi (Heteropneustes fossilis Bloch)|Indian J. Fish.32(4): 447-452|1985|
89237|T||Kashyap,N., and P.C. Walia|Biological Efficacy of Malathion and Fenitrothion Against Some Pests of Okra|In: A.Regupathy, K.Rajakkannu, and S.Chelliah (Eds.), Pesticides and Environment, Natl.Semin., Aug.4-5, 1983, Dep.of Agric.Entomol.Ctr.for Plant Prot.Stud., Coimbatore, India:17-20|1984|
89238|T||Jaworski,C.A., S.M. McCarter, A.W. Johnson, and R.E. Williamson|Response of Onions Grown for Transplants to Soil Fumigation|J. Am. Soc. Hortic. Sci.103(3): 385-388|1978|10.21273/JASHS.103.3.385
89239|T||Milner,R.J., L. Miller, G.G. Lutton, and F. Driver|Biological Control of the Black Field Cricket, Teleogryllus commodus (Walker) (Orthoptera:  Gryllidae), Using the Fungal Pathogen Metarhizium anisopliae (Metsch.) Sorokin (Deuteromycotina:  Hyphomycetes)|Plant Prot. Q.11(1): 9-13|1996|
89240|T||Cooper,L.P.|Control of Black Field Earwig, Nala lividipes (Dufour), in Beetroot Seedlings|Plant Prot. Q.7(3): 112-113|1992|
89241|T||Satar,S., D. Satar, O. Tap, Z. Koseoglu, and M. Kaya|Ultrastructural Changes in Rat Liver Treated with Pralidoxime Following Acute Organophosphate Poisoning|Mount Sinai J. Med.71(6): 405-410|2004|
89242|T||Abate,T.|Seed Dressing Insecticides for Bean Fly (Ophiomyia phaseoli (Tryon) (Diptera:  Agromyzidae)) Control in Ethiopia|Trop. Pest Manag.37(4): 334-337|1991|10.1080/09670879109371610
89243|T||Savolainen,K.M., and M.R. Hirvonen|Effects of Malaoxon on Phosphatidylinositol Signaling in Convulsing and Non-Convulsing Non-Pregnant and Pregnant Female Rats and Their Offspring|Neurotoxicology13(1): 295-299|1992|
89244|T||Akhgari,M., M. Abdollahi, A. Kebryaeezadeh, R. Hosseini, and O. Sabzevari|Biochemical Evidence for Free Radical-Induced Lipid Peroxidation as a Mechanism for Subchronic Toxicity of Malathion in Blood and Liver of Rats|Hum. Exp. Toxicol.22(4): 205-211|2003|10.1191/0960327103ht346oa
89245|A||Dutta,H.M., P.K. Roy, N.K. Singh, S. Adhikari, and J.D. Munshi|Effect of Sublethal Levels of Malathion on the Gills of Heteropneustes fossilis:  Scanning Electron Microscopic Study|J. Environ. Pathol. Toxicol. Oncol.17(1): 51-63|1998|
89246|T||Jaiswal,S.P., and A.K. Rishi|The Effect of Some Fumigants on Growth and Nutrition of Sugarcane|Sci. Cult.34(3): 127-128|1968|
89247|T||De Cal,A., A. Martinez-Treceno, J.M. Lopez-Aranda, and P. Melgarejo|Chemical Alternatives to Methyl Bromide in Spanish Strawberry Nurseries|Plant Dis.88(2): 210-214|2004|10.1094/PDIS.2004.88.2.210
89248|T||Witter,R.F., and T.B. Gaines|Rate of Formation In Vivo of the Unreactivatable Form of Brain Cholinesterase in Chickens Given DDVP or Malathion|Biochem. Pharmacol.12(12): 1421-1427|1963|10.1016/0006-2952(63)90212-0
89249|A||Legrand,H., O. Herlory, J.M. Guarini, G.F. Blanchard, and P. Richard|Inhibition of Microphytobenthic Photosynthesis by the Herbicides Atrazine and Diuron|Cah. Biol. Mar. (Non-English)47(1): 39-45|2006|
89251|T||Schmitt,D.P., D.C. Norton, and P. Hinz|Control of Meloidogyne hapla on Peony|Plant Dis. Rep.58(9): 860-864|1974|
89252|T||Ajwa,H.A., and T. Trout|Drip Application of Alternative Fumigants to Methyl Bromide for Strawberry Production|Hortscience39(7): 1707-1715|2004|10.21273/HORTSCI.39.7.1707
89253|T||Christie,J.R., and V.G. Perry|Testing the Efficacy of Chemicals for Killing Soil-Inhabiting Nematodes Under Field Conditions|Proc. Helminthol. Soc. Wash.18(1): 9-13|1951|
89254|T||Nelson,S.D., S.J. Locascio, L.H.,Jr. Allen, D.W. Dickson, and D.J. Mitchell|Soil Flooding and Fumigant Alternatives to Methyl Bromide in Tomato and Eggplant Production|Hortscience37(7): 1057-1060|2002|10.21273/HORTSCI.37.7.1057
89255|T||Cebolla,V., R. Bartual, and V. Maroto|Water Volume as Related to Effectiveness of 1,3-Dichloropropene and Chloropicrin Mixture by Drip Application for a Strawberry Crop in Spain|Acta Hortic.698:77-82|2005|10.17660/ActaHortic.2005.698.9
89256|T||Paterson,D.R., W.H.,Jr. Thames, and D.E. Speights|Effects of Crop Rotation, Soil Fumigation, Variety and Nitrogen on the Yield of Sweet Potatoes|Texas Agric. Exp. Stn. Misc. Publ.:3 p.|1969|
89257|T||Wolfenbarger,D.O.|Wireworm Control Studies on the Lower Southeastern Florida Coast, 1946-47|Proc. Annu. Meet. Fla. State Hortic. Soc.60:116-121|1947|
89258|T||Baines,R.C., F.J. Foote, L.H. Stolzy, R.H. Small, and M.J. Garber|Factors Influencing Control of the Citrus Nematode in the Field with D-D|Hilgardia29(8): 359-381|1959|10.3733/hilg.v29n08p359
89259|T||Moutia,L.A.|The Use of D.D. Mixture Against the White Grub: Clemora smithi, Arrow in Mauritius|Rev. Agric. Sucr. Maurice25(4): 155-156|1946|
89260|T||Kabir,Z., S.A. Fennimore, J.M. Duniway, F.N. Martin, G.T. Browne, C.Q. Winterbottom, H.A. Ajwa, B.B. Westerdahl, R.E. G|Alternatives to Methyl Bromide for Strawberry Runner Plant Production|Hortscience40(6): 1709-1715|2005|10.21273/HORTSCI.40.6.1709
89262|T||Rodgers,K.E., M.L. Stern, and C.F. Ware|Effects of Subacute Administration of O,S,S-Trimethyl Phosphorodithioate on Cellular and Humoral Immune Response Systems|Toxicology54(2): 183-195|1989|10.1016/0300-483X(89)90044-9
89263|T||Sewell,G.W.F., D.A. Preece, and R.F. Elsey|Apple Replant Disease:  The Influence of Soil Phosphorus and Other Factors on the Growth Responses of Apple Seedlings to Soil Fumigation with Chloropicrin|Ann. Appl. Biol.113(3): 605-615|1988|10.1111/j.1744-7348.1988.tb03338.x
89264|T||Cohen,S.D., and S.D. Murphy|Carboxylesterase Inhibition as an Indicator of Malathion Potentiation in Mice|J. Pharmacol. Exp. Ther.176(3): 733-742|1971|
89265|A||Baslow,M.H., and G. Ruggieri|N-Acetylhistidine in Developing Embryos of the Killifish, Fundulus heteroclitus and the Zebrafish, Brachydanio rerio|Life Sci.6(6): 609-614|1967|10.1016/0024-3205(67)90096-3
89266|T||Mulrooney,J.E., and L.A. Smith|Application of Reduced Rates of Technical Malathion Applied as Ultra Low Volume in Oils|Southwest. Entomol.(suppl. 24): 41-48|2001|
89267|T||Peters,B.G., and D.W. Fenwick|Field Trials with D-D Mixture Against Potato-Root Eelworm|Ann. Appl. Biol.36:364-382|1949|10.1111/j.1744-7348.1949.tb06933.x
89268|T||Srikanth,N.S., and P.K. Seth|Alterations in Xenobiotic Metabolizing Enzymes in Brain and Liver of Rats Coexposed to Endosulfan and Malathion|J. Appl. Toxicol.10(3): 157-160|1990|10.1002/jat.2550100303
89269|T||Joia,B.S., M. Ramzan, and R.P. Chawla|Evaluation of Some Insecticides Applied to Wheat Crop as Pre-Harvest Treatment for Protection Against Stored Grain Insect Pests|Int. Pest Control39(2): 54-55|1997|
89270|T||Ehrich,M., and S.D. Cohen|DDVP (Dichlorvos) Detoxification by Binding and Interactions with DDT, Dieldrin, and Malaoxon|J. Toxicol. Environ. Health3(3): 491-500|1977|10.1080/15287397709529581
89271|T||Zayed,S.M.A.D., M. Farghaly, and I.Y. Mostafa|Bioavailability to Rats and Toxicological Potential in Mice of Bound Residues of Malathion in Beans|In: Meet.on Bound Pesticide Residues in Grain: Bioavailability and Biological Activity, May 13-17, 1991, Slough, England, U.K., J.Environ.Sci.Health Part B27(4): 341-346|1992|
89272|T||Bertram,B., J. Schuhmacher, E. Frei, N. Frank, and M. Wiessler|Effects of Disulfiram on Mixed Function Oxidase System and Trace Element Concentration in the Liver of Rats|Biochem. Pharmacol.31(22): 3613-3619|1982|10.1016/0006-2952(82)90584-6
89273|T||Akay,M.T., A. Elcuman, M. Nurcan, D. Kolankaya, and G. Yilmazoglu|Bioavailability and Toxicological Potential of Lentil-Bound Residues of Malathion in Rats|In: Meet.on Bound Pesticide Residue in Grain: Bioavailability and Biological Activity, May 13-17, 1991, Slough, England, U.K., J.Environ.Sci.Health Part B27(4): 325-340|1992|
89274|T||Villavaso,E.J., J.E. Mulrooney, W.L. McGovern, and T.L. Wagner|Boll Weevil Mortality and Malathion Residues on Cotton Leaves Treated by Eradication Aircraft|Southwest. Entomol.24 Suppl:83-100|2001|
89275|A||Bjorklund,H., and G. Bylund|Temperature-Related Absorption and Excretion of Oxytetracycline in Rainbow Trout (Salmo gairdneri R.)|Aquaculture84:363-372|1990|10.1016/0044-8486(90)90101-R
89276|T||Wenda-Rozewicka,L.|Morphometric Studies of Male Gonads from Mice Receiving Insecticides (Metox-30, Sadofos-30 and Foschlor-50)|Folia Biol. (Prague)32(1-2): 23-34|1983|
89277|A||Sohlberg,S., K. Czerwinska, K. Rasmussen, and N.E. Soli|Plasma Concentrations of Flumequine After Intra-Arterial and Oral Administration to Rainbow Trout (Salmo gairdneri) Exposed to Low Water Temperatures|Aquaculture84:355-361|1990|10.1016/0044-8486(90)90100-2
89278|A||Li,J.H., H.Y. Guo, J.L. Mu, X.R. Wang, and D.Q. Yin|Physiological Responses of Submerged Macrophytes to Dibutyl Phthalate (DBP) Exposure|Aquat. Ecosyst. Health Manag.9(1): 43-47|2006|10.1080/14634980600561052
89279|T||Stone,L.E.W.|Observations on the Control of Potato-Root Eelworm (Heterodera rostochiensis wollenw.) Under Glass by D-D and Solubilized p-m Cresol|Ann. Appl. Biol.45(2): 256-260|1957|10.1111/j.1744-7348.1957.tb00464.x
89280|T||Jhala,R.C., K.G. Patel, C.B. Patel, and A.H. Shah|Field Efficacy of Different Insecticides for the Control of Mango Leaf-Gall Midge Procontarinia matteiana Kieffer and Cecconi|Int. Pest Control32(2): 40-41|1990|
89281|T||Cooper,J.E.|Trichlorphon as a Safe Insecticide for Use on Birds of Prey|Vet. Rec.94(20): 455-|1974|10.1136/vr.94.20.455
89282|T||Teetes,G.L., C.A. Schaefer, J.R. Gipson, R.C. McIntyre, and E.E. Latham|Greenbug Resistance to Organophosphorous Insecticides on the Texas High Plains|J. Econ. Entomol.68(2): 214-216|1975|10.1093/jee/68.2.214
89283|T||Giga,D.P., and P. Zvoutete|The Evaluation of Different Insecticides for the Protection of Maize Against Some Stored Product Pests|Int. Pest Control32(1): 10-13|1990|
89284|A||Khare,A., S. Singh, and K. Shrivastava|Malathion Induced Biochemical Changes in the Kidney of Fresh Water Fish Clarias batrachus|J. Ecotoxicol. Environ. Monit.10(1): 11-14|2000|
89285|T||Mink,J.S., and D.J. Boethel|Feeding Activity and Mortality of Permethrin-Resistant and Susceptible Soybean Looper (Lepidoptera: Noctuidae) Larvae on Soybean Foliage Treated with Insecticide|J. Econ. Entomol.86(2): 265-274|1993|10.1093/jee/86.2.265
89286|A||Yeragi,S.G., V.A. Koli, and S. Yeragi|Effect of Pesticide Malathion on Protein Metabolism of the Marine Crab Uca marionis|J. Ecotoxicol. Environ. Monit.10(1): 59-62|2000|
89287|T||Maiteki,G.A., and R.J. Lamb|Spray Timing and Economic Threshold for the Pea Aphid, Acyrthosiphon pisum (Homoptera:  Aphididae), on Field Peas in Manitoba|J. Econ. Entomol.78(6): 1449-1454|1985|10.1093/jee/78.6.1449
89288|T||Robertson,J.L., R.L. Lyon, and M. Page|Toxicity of Selected Insecticides Applied to Two Defoliators of Western Hemlock|J. Econ. Entomol.68(2): 193-196|1975|10.1093/jee/68.2.193
89289|T||Mulrooney,J.E., K.D. Howard, J.E. Hanks, and R.G. Jones|Application of Ultra-Low-Volume Malathion by Air-Assisted Ground Sprayer for Boll Weevil (Coleoptera:  Curculionidae) Control|J. Econ. Entomol.90(2): 639-645|1997|10.1093/jee/90.2.639
89290|T||Rosa,N., and H.H. Cheng|Uptake of DDT by Nicotiana tabacum|Can. J. Plant Sci.53:443-446|1973|10.4141/cjps73-085
89291|T||Stone,L.E.W.|Observations on the Occurrence of the Eelworm, Pratylenchus pratensis Filipjev, in Delphinium Roots|Ann. Appl. Biol.40:742-749|1953|10.1111/j.1744-7348.1953.tb01111.x
89292|T||Honnegowda, R.P. Uppal, and B.D. Garg|Effect of Malathion on Blood Glucose, Liver Glycogen, Plasma Corticosterone and Electrolytes Concentrations and Eosinophil Count in Adrenal Demedullated Rats|Curr. Sci. (Bangalore)54(6): 269-271|1985|
89293|T||Upadhyay,S., and R.K. Agrawal|Persistent Toxicity of Insecticides in Controlling Mustard Aphid (Lipaphis erysimi)|Indian J. Agric. Sci.65(5): 378-380|1995|
89294|T||Cooke,A.S., and E. Pollard|Shell and Operculum Formation by Immature Roman Snails Helix pomatia L. when Treated with pp-DDT|Pestic. Biochem. Physiol.3(3): 230-236|1973|10.1016/0048-3575(73)90020-5
89295|T||Khajuria,D.R., and J.P. Sharma|Efficacy of Insecticides in Controlling Pea Leafminer (Chromatomyia horticola) on Seed Crop of Pea (Pisum sativum)|Indian J. Agric. Sci.65(5): 381-384|1995|
89296|T||Borah,R.K.|Effect of Insecticides on Pest Incidence in Summer Greengram (Phaseolus radiatus)|Indian J. Agric. Sci.65(12): 913-915|1995|
89297|T||Brindley,W.A.|Insecticide Boiassays with Field Populations of Alfalfa Weevils, a Simplified Approach|J. Econ. Entomol.68(2): 227-230|1975|10.1093/jee/68.2.227
89298|T||Bal,R.S., M.S. Duhra, and B. Singh|Efficacy of Insecticides in Controlling Thrips (Haplothrips ganglbaueri and Fulmekiola serrata) of Sugarcane (Saccharum officinarum)|Indian J. Agric. Sci.65(3): 226-227|1995|
89299|T||Smith,A.G., J.E. Francis, S.J.E. Kay, and J.B. Greig|Hepatic Toxicity and Uroporphyrinogen Decarboxylase Activity Following a Single Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Mice|Biochem. Pharmacol.30(20): 2825-2830|1981|10.1016/0006-2952(81)90421-4
89300|T||Goldstein,J.A., P. Linko, and H. Bergman|Induction of Porphyria in the Rat by Chronic Versus Acute Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Biochem. Pharmacol.31(8): 1607-1613|1982|10.1016/0006-2952(82)90388-4
89301|T||Green,S., F. Moreland, and C. Sheu|Cytogenic Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Rat Bone Marrow Cells|FDA By-Lines, Washington, DC6:292-294|1977|
89305|T||Tsror,L., O. Erlich, Y. Cahlon, A. Hadar, Y. Cohen, L. Klein, I. Peretz-Alon, and M.P. Negev|Control of Verticillium dahliae Prior to Potato Production by Soil Fumigation with Chloropicrin|Acta Hortic.532:201-204|2000|10.17660/ActaHortic.2000.532.26
89308|T||Chandra,S., B.P. Khare, and V.K. Sharma|Relative Penetration Power of Some Selected Fumigants and Their Mixtures|Indian J. Agric. Res.9(3): 127-134|1975|
89310|T||Machin,M.G.A., and W.G. McBride|Placental Transfer of Malathion in the Rabbit|Med. Sci. Res.17(17): 743-744|1989|
89311|T||Balasubramanian,K., P.H. Ananthanarayanan, and A. Balasubramanian|Effect of Malathion Administration on Adrenal Function in Male Albino Rats|Med. Sci. Res.18(4): 129-130|1990|
89312|A||Khan,H.A., M.S. Tantia, and J.N. Saha|Micronucleus Test (MNT) of Peripheral Blood Cells of an Indian Major Carp, Labeo rohita (Ham.) Treated with Zinc Oxide, Cobalt Nitrate, Malathion, Nuvan and Endosulfan|In: K.Kumar (Ed.), Proceedings of the National Symposium on Freshwater Aquaculture, CIFA Bhubaneswar, India:66-68|1991|
89313|T||Pillai,G.R., M. Indira, and P.L. Vijayammal|Effect of Malathion Administration on the Body Pool of Ascorbic Acid and Ascorbic Acid 2-Sulfate in Rats|J. Ecotoxicol. Environ. Monit.1(4): 277-282|1991|
89314|T||Farag,R.S., M.A. El-Leithy, A.E. Basyony, and Z.Y. Daw|Growth and Aflatoxin Production by Aspergillus parasiticus in a Medium Containing Plant Hormones, Herbicides or Insecticides|J. Food Prot.50(12): 1044-1047|1987|10.4315/0362-028X-50.12.1044
89315|T||Gaughan,L.C., J.L. Engel, and J.E. Casida|Pesticide Interactions: Effects of Organophosphorus Pesticides on the Metabolism, Toxicity, and Persistence of Selected Pyrethroid Insecticides|Pestic. Biochem. Physiol.14(1): 81-85|1980|10.1016/0048-3575(80)90025-5
89316|T||Patil,C.S., U.N. Mote, S.A. Pawar, and V.M. Khaire|Evaluation of Insecticides Against Agrotis ipsilon on Onion|Tests Agrochem. Cultiv.11:26-27|1990|
89317|T||Patil,C.S., S.A. Pawar, U.N. Mote, and V.M. Khaire|Evaluation of Insecticides Against Flea Beetles on Sorghum|Tests Agrochem. Cultiv.12:22-23|1991|
89318|T||Allen,M.W.|Control of Root-Knot Nematode with D-D Mixture and Chloropicrin|Calif. Agric. Exp. Stn. Bull.365:62-65|1946|
89319|T||Ferris,J.M.|Factors Influencing Population Fluctuation of Pratylenchus penetrans in Soils of High Organic Content  II. Effect of Four Dichloropropene Fumigants|Plant Dis. Rep.52(7): 519-521|1968|
89320|T||Jones,J.P., A.J. Overman, and C.M. Geraldson|Fumigants for the Control of Verticillium Wilt of Tomato|Plant Dis. Rep.55(1): 26-30|1971|
89321|T||Jones,J.P., and A.J. Overman|Evaluation of Chemicals for the Control of Verticillium and Fusarium Wilt of Tomato|Plant Dis. Rep.62(5): 451-455|1978|
89322|T||Altman,J., and K.M. Tsue|Changes in Plant Growth with Chemicals Used as Soil Fumigants|Plant Dis. Rep.49(7): 600-602|1965|
89323|T||Darby,J.F., C.E. Dieter, and G.J. Rau|Evaluation of Treatments for Control of Soil-Borne Pests in Celery Seedbeds|Plant Dis. Rep.46(6): 441-443|1962|
89324|T||Atkins,J.G., and M.J. Fielding|A Preliminary Report on the Response of Rice to Soil Fumigation for the Control of Stylet Nematodes, Tylenchorhynchus martini|Plant Dis. Rep.40(6): 488-489|1956|
89325|T||Aycock,R.|A Comparison of Two Methods of Row Fumigation for Control of Root Knot of Cantaloupe in South Carolina|Plant Dis. Rep.39(8): 607-610|1955|
89326|T||Birchfield,W.|Evaluation of Nematocides for Control of Reniform Nematodes on Cotton|Plant Dis. Rep.52(10): 786-789|1968|
89327|T||Altman,J., and B.J. Fitzgerald|Late Fall Application of Fumigants for the Control of Sugar Beet Nematodes, Certain Soil Fungi, and Weeds|Plant Dis. Rep.44(11): 868-871|1960|
89328|A||Abd El-Magid,M.M.|Effects of Some Pesticides on the Growth of Blue-Green Alga Spirulina platensis|Egypt. J. Food Sci.14(1): 67-74|1986|
89329|T||Ramzan,M., and B.S. Chahal|Effect of Grain Protectants on Viability of Wheat Seed|Seed Res.17(1): 47-54|1989|
89330|T||Imamura,T., and L. Hasegawa|Effects of an Impurity on Malathion and Its Structural Analog on Rat Liver Carboxylesterases and Erythrocyte Esterases|Pestic. Biochem. Physiol.22(3): 312-320|1984|10.1016/0048-3575(84)90023-3
89331|T||Rao,B.V., C.B.S.R. Sharma, and B.G.S. Rao|Clastogenic and Turbagenic Effects of Organophosphorus Pesticides on Allium cepa Root Meristems|Proc. Indian Acad. Sci. Plant Sci.96(4): 303-309|1986|10.1007/BF03053251
89332|T||Radewald,J.D., B.J. Hall, F. Shibuya, and J. Nelson|Results of Preplant Fumigation Trial for the Control of Sugarbeet Nematode on Cabbage|Plant Dis. Rep.55(9): 841-845|1971|
89333|T||Lindgren,R.M., and B.W. Henry|Promising Treatments for Controlling Root Disease and Weeds in a Southern Pine Nursery|Plant Dis. Rep.33(5): 228-231|1949|
89334|T||Haglund,W.A., and T.H. King|The Effect of Nematodes on the Development of Root Rot and Yield of Canning Peas|Plant Dis. Rep.43(7): 787-790|1959|
89335|T||Taylor,G.S., P.M. Miller, and J.L. McIntyre|Chemical Control of Tobacco Black Shank in Connecticut|Plant Dis. Rep.59(5): 434-438|1975|
89336|T||Lange,W.H.,Jr.|Two New Soil Fumigants, D-D and EDB for Wireworm Control|Calif. Agric. Exp. Stn.365:56-61|1946|
89337|T||Edmunds,J.E., C.W. Boothroyd, and W.F. Mai|Soil Fumigation with D-D for Control of Pratylenchus penetrans in Corn|Plant Dis. Rep.51(1): 15-19|1967|
89338|T||McBeth,C.W.|Observations on Repeated Applications of D-D (Dichloropropene-Dichloropropane)|Plant Dis. Rep.35(5): 243-245|1951|
89339|T||Lewis,G.D., and W.F. Mai|Chemical Control of Ditylenchus dipsaci (Kuhn) Filipjev in Organic Soils of Southern New York|Plant Dis. Rep.42(12): 1360-1363|1958|
89340|T||George,D.A., and C.M. Rincker|Results and Conclusions of Using Pesticides with the Alfalfa Leafcutting Bee in the Production of Alfalfa Seed|J. Agric. Entomol.2(1): 93-97|1985|
89341|T||Lucis,O.J., R. Lucis, and Z.A. Shaikh|Cadmium and Zinc in Pregnancy and Lactation|Arch. Environ. Health25:14-22|1972|10.1080/00039896.1972.10666127
89342|A||Pedersen,K.L., S.N. Pedersen, L.B. Christiansen, B. Korsgaard, and P. Bjerregaard|The Preservatives Ethyl-,Propyl-and Butylparaben are Oestrogenic in an In Vivo Fish Assay|Pharmacol. Toxicol.86:110-113|2000|10.1034/j.1600-0773.2000.pto860303.x
89343|T||Miller,P.M., and L.V. Edgington|Controlling Parasitic Nematodes and Soil-Borne Diseases of Potatoes with Soil Fumigation|Am. Potato J.39:235-240|1962|10.1007/BF02900396
89344|T||Hammond,G.H.|Phyllophaga spp. Control with Volatile Soil Fumigants. A Progress Report|Annu.Rep.Entomol.Soc.Ontario:14-19|1947|
89345|T||Miller,P.M., and A. Hawkins|Long Term Effects of Preplant Fumigation of Potato Fields|Am. Potato J.46(10): 387-397|1969|10.1007/BF02869559
89346|T||Leonard,O.A., and L.A. Lider|Chemical Eradication of Unwanted Grape Roots and Rootstocks|Am. J. Enol. Vitic.11:51-58|1960|
89347|T||Bao,S.F., W. Windisch, and M. Kirchgessner|Calcium Bioavailability of Different Organic and Inorganic Dietary Ca Sources (Citrate, Lactate, Acetate, Oyster-Shell, Eggshell, beta-tri-Ca Phosphate)|J. Anim. Physiol. Anim. Nutr.78(3): 154-160|1997|10.1111/j.1439-0396.1997.tb00866.x
89348|A||Paul,B.N., S. Sarkar, S.S. Giri, S.N. Mohanty, and P.K. Mukhopadhyay|Dietary Calcium and Phosphorus Requirements of Rohu Labeo rohita Fry|Anim. Nutr. Feed Technol.6(2): 257-263|2006|
89349|T||Zhou,Q.X., Q.R. Zhang, and J.D. Liang|Toxic Effects of Acetochlor and Methamidophos on Earthworm Eisenia fetida in Phaiozem, Northeast China|J. Environ. Sci.18(4): 741-745|2006|
89350|T||Mikulka,J., and D. Chodova|Germination and Emergence of Prickly Lettuce (Lactuca serriola L.) and Its Susceptibility to Selected Herbicides|Plant Soil Environ.49(2): 89-94|2003|10.17221/4095-PSE
89351|T||Anonymous|Trial Results:  Comments on Efficacy & Selectivity|Meded. Fac. Landbouwwet. Univ. Gent63(3a): 743-749|1998|
89352|T||Brettell,J.H.|Green Lacewings (Neuroptera:  Chrysopidae) of Cotton Fields in Central Zimbabwe 3.  Toxicity of Certain Acaricides, Aphicides and Pyrethroids to Larvae of Chrysopa boninensis Okamoto, Chrysopa congrua Walker and Chrysop|Zimb. J. Agric. Res.22(2): 133-139|1984|
89353|A||Tiwari,O.N., R. Prasanna, A.K. Yadav, D.W. Dhar, and P.K. Singh|Growth Potential and Biocide Tolerance of Non-Heterocystous Filamentous Cyanobacterial Isolates from Rice Fields of Uttar Pradesh, India|Biol. Fertil. Soils34(4): 291-295|2001|10.1007/s003740100402
89354|T||Polec,I., L. Cieslak, B. Sledzinski, and H. Ksycinska|Simple Syntheses of Malathion and Malaoxon Enantiomers, and Isomalathion Diastereoisomers:  Toxicity-Configuration Relationship|Pestic. Sci.53(2): 165-171|1998|10.1002/(SICI)1096-9063(199806)53:2<165::AID-PS747>3.0.CO;2-0
89355|T||McQuate,G.T., R.T. Cunningham, S.L. Peck, and P.H.R. Moore|Suppressing Oriental Fruit Fly Populations with Phloxine B-Protein Bait Sprays|Pestic. Sci.55(5): 574-576|1999|10.1002/(SICI)1096-9063(199905)55:5<574::AID-PS952>3.0.CO;2-Y
89356|T||Lepiece,D., G. Rijckaert, and A. Thompson|Primus (Florasulam 50 G/L), a New Selective Triazolopyrimidine Sulfonamide Herbicide to Control Broad-Leaved Weeds in Slow Growing Grasses (Agrostis spp., Phleum spp., Koeleria spp., Festuca spp., Poa pratensis, Descham|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)65(2a): 141-149|2000|
89357|T||Lepiece,D., A. Thompson, and A. McReath|Florasulam Primus, a New Selective Triazolopyrimidine Sulfonanilide (ALS) Herbicide to Control Broad-Leaved Weeds in Cereals; Belgian Results from 1994 to 1997|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.63(3a): 735-742|1998|
89358|T||Singleton-Jones,P.R., and A.D. Bailey|GF-184 and GF-185 the Flexible Solution to Broad Leaf Weed Control in Cereals|Br. Crop Prot. Conf. Weeds2:645-650|2001|
89359|A||Ansari,B.A., R. Srivastava, and K. Kumar|Malathion Toxicity:  Pathological Changes in the Ovary of Zebrafish, Brachydanio rerio (Cyprinidae)|Bol. Fisiol. Anim.10:95-101|1986|
89360|T||Bailey,A.D., S. Jackson, C. Lye, W.S. Taylor, and V. Jacquet|A Comparison of Post Emergence Control of Galium aparine in Winter Cereals Using Florasulam, Amidosulfuron and Fluroxypyr Methyl-Heptyl Ester|Br. Crop Prot. Conf. Weeds1:205-209|1999|
89361|T||Durham,S.K., J. Gandy, and T. Imamura|Atropine Pretreatment does not Abrogate O,O,S-Trimethyl Phosphorothioate-Induced Bronchiolar Injury in Mice|Toxicol. Pathol.16(3): 392-395|1988|10.1177/019262338801600312
89362|T||Bhatia,A., M. Makkar, and N. Sohal|Effect of Subchronic and Sublethal Doses of Malathion on Some Haematological and Immunological Parameters|Int. J. Environ. Stud.51(1): 59-66|1996|10.1080/00207239608711071
89363|T||El-Hawa,M.A., N.M. Awny, M.Z. El-Fouly, and A.A.A. Zeid|Biodegradation of Malathion by Indole-3 Acetic Acid Producing Soil Microflora|Egypt. J. Microbiol.28(2): 201-213|1993|
89364|T||Lepiece,D., A. Thompson, and G. Rijckaert|Florasulam Primus, a New Selective Herbicide for the Control of Broad-Leaved Weeds in Young Grass|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)64(3b): 693-712|1999|
89365|T||Fraser,J.A., M.B. Smith, and A.D. Bailey|An Investigation into the Effect of Florasulam, Fluroxypyr and Metsulfuron-Methyl when Applied to Newly-Planted and Established Hedgerow Species|Br. Crop Prot. Conf. Weeds2:733-738|2001|
89366|A||Shah,P.H., and M.S. Dubale|Biochemical Changes Induced by Malathion in the Body Organs of Channa punctatus|J. Anim. Morphol. Physiol.30(1-2): 107-118|1983|
89367|T||Imamura,T., and L. Hasegawa|Subcellular Distribution of Malathion, Phenthoate, and Diethylsuccinate Carboxylesterases in Rat Lungs|Pestic. Biochem. Physiol.22(3): 321-328|1984|10.1016/0048-3575(84)90024-5
89368|T||Midgarden,D., S.J. Fleischer, R. Weisz, and Z. Smilowitz|Site-Specific Integrated Pest Management Impact on Development of Esfenvalerate Resistance in Colorado Potato Beetle (Coleoptera:  Chrysomelidae) and on Densities of Natural Enemies|J. Econ. Entomol.90(4): 855-867|1997|10.1093/jee/90.4.855
89369|T||Kakar,K.L., O.P. Bhalla, and A.K. Singh|Studies on Pest Complex of French Beans and Their Control Under Mid-Hill Regions in Himachal Pradesh|Indian J. Plant Prot.18(1): 71-75|1990|
89370|T||Amer,A.M.M.|Teratogenicity and Effects on Male Fertility of Thiodicarb Insecticide in Albino Rats|Vet. Med. J. Giza44(4): 663-670|1996|
89371|A||Ram,R.N., and A.G. Sathyanesan|Organophosphate-Induced Biochemical Changes in the Brain, Liver and Ovary of the Fish, Channa punctatus (Bloch)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.51(5): 537-542|1985|
89372|T||Buntin,G.D.|Aphid Control in Winter Canola Using Foliar Insecticides, 1991|Insectic. Acaric. Tests17:186-|1992|
89373|T||Rijckaert,G., and D. Lepiece|Selectivity of Florasulam in 4 Grass Species During the Seed Harvest Year|Meded. Fac. Landbouwwet. Univ. Gent66(2b): 747-752|2001|
89374|T||Paterson,E.A., Z.L. Shenton, and A.E. Straszewski|Establishment of the Baseline Sensitivity of Galium aparine Populations to Florasulam|Br. Crop Prot. Conf. Weeds2:589-594|2001|
89375|T||Rajendran,S., and M. Muthu|Post-Fumigation Productivity of Sitophilus oryzae (L.) (Coleoptera:  Curculionidae) and Tribolium castaneum (Herbst) (Coleoptera:  Tenebrionidae) Exposed to Acrylonitrile, Adjuvants of Acrylonitrile, Acrylonitrile-Adjuv|Bull. Entomol. Res.71(2): 163-169|1981|10.1017/S0007485300008208
89376|T||Labanowska,B.H., and T. Cianciara|"The Suitability of ""Electrodyn"" Sprayer for the Control of Some Pests and Weeds on Strawberry Plantations"|Fruit Sci. Rep. (Skierniewice)15(3): 137-145|1988|
89379|T||Bhamburkar,M.W.|Role of Systemic Insecticides on the Control of Sucking Pests in Relation to Cotton Yield Under Dryland Condition|Pesticides 20(3): 24-25|1986|
89380|T||Cantoni,L., M. Salmona, and M. Rizzardini|Porphyrogenic Effects of Chronic Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Female Rats.  Dose-Effect Relationship Following Urinary Excretion of Porphyrins|Toxicol. Appl. Pharmacol.57:156-163|1981|10.1016/0041-008X(81)90275-1
89381|T||Henck,J.W., M.A. New, R.J. Kociba, and K.S. Rao|2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Acute Oral Toxicity in Hamsters|Toxicol. Appl. Pharmacol.59:405-407|1981|10.1016/0041-008X(81)90212-X
89382|T||Gasiewicz,T.A., M.A. Holscher, and R.A. Neal|The Effect of Total Parenteral Nutrition on the Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|Toxicol. Appl. Pharmacol.54:469-488|1980|10.1016/0041-008X(80)90174-X
89383|T||Gasiewicz,T.A., and R.A. Neal|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Tissue Distribution, Excretion, and Effects on Clinical Chemical Parameters in Guinea Pigs|Toxicol. Appl. Pharmacol.51(2): 329-339|1979|10.1016/0041-008X(79)90475-7
89384|T||Courtney,K.D., J.P. Putnam, and J.E. Andrews|Metabolic Studies with TCDD (Dioxin) Treated Rats|Arch. Environ. Contam. Toxicol.7(4): 385-396|1978|10.1007/BF02332066
89385|T||Pohjanvirta,R., and J. Tuomisto|Han/Wistar Rats are Exceptionally Resistant to TCDD.  II|Arch. Toxicol.11:344-347|1987|
89386|T||Traag,W.A., C.A. Kan, G. Van der Weg, C. Onstenk, and L.A.P. Hoogenboom|Residues of Dioxins (PCDD/Fs) and PCBs in Eggs, Fat and Livers of Laying Hens Following Consumption of Contaminated Feed|Chemosphere65(9): 1518-1525|2006|10.1016/j.chemosphere.2006.04.001
89387|T||Sodhi,S., A.P.S. Brar, and G.S. Grewal|Biochemical Studies on Combined Immunomodulatory Effects of Aflatoxin and Malathion in Broiler Chicks|Indian J. Poult. Sci.31(2): 88-91|1996|
89388|T||Iqbal,J., I.A. Khan, and S. Ahmad|Chemical Control of Tobacco Budworm, Helecoverpa armigera Hubner, (Noctuidae:  Lepidoptera) on Tobacco Crop|Sarhad J. Agric.13(5): 497-500|1997|
89389|T||Messing,R.H., A. Asquith, and J.D. Stark|Effects of Malathion Bait Sprays on Nontarget Insects Associated with Corn in Western Kauai, Hawaii|J. Agric. Entomol.12(4): 255-265|1995|
89390|T||Deshmukh,D.T., Y.V. Raote, A.G. Bhandarkar, and S.S. Bhagwat|Study on Effect of Insecticide Toxicity on Haemogram of Chicks|Poult.Adviser24(9): 41-47|1991|
89391|T||Rajapakse,R., and K.W. Jayasena|Investigations on the Vectors of the Leaf Curl of Chilli Pepper (Capsicum annum L.) and Tomato (Lycopersicon esculentum Mill.)|Int. J. Trop. Agric.7(3/4): 274-280|1989|
89392|T||Schantz,S.L., B.W. Seo, J. Moshtaghian, R.E. Peterson, and R.W. Moore|Effects of Gestational and Lactational Exposure to TCDD or Coplanar PCBs on Spatial Learning|Neurotoxicol. Teratol.18(3): 305-313|1996|10.1016/S0892-0362(96)90033-1
89393|T||Thakur,N.S.A., and T.C. Deka|Bioefficacy and Economics of Different Insecticides Against Pieris brassicae (L.) on Cabbage in Midhills of North-East India|Indian J. Plant Prot.25(2): 109-114|1997|
89394|T||Sharma,R., S.S. Dhaliwal, and P.S. Chandurkar|Evaluation of Chemical and Botanical Nematicides for Nematode Management on Brinjal|Indian J. Plant Prot.25(1): 4-7|1997|
89395|T||Kawakami,T., R. Ishimura, K. Nohara, K. Takeda, C. Tohyama, and S. Ohsako|Differential Susceptibilities of Holtzman and Sprague-Dawley Rats to Fetal Death and Placental Dysfunction Induced by 2,3,7,8-Teterachlorodibenzo-p-Dioxin (TCDD) Despite the Identical Primary Structure of the Aryl Hydro|Toxicol. Appl. Pharmacol.212(3): 224-236|2006|10.1016/j.taap.2005.08.007
89396|T||Eriksson,P., and A. Fredriksson|Neonatal Exposure to 2,2',5,5'-Tetrachlorobiphenyl Causes Increased Susceptibility in the Cholinergic Transmitter System at Adult Age|Environ. Toxicol. Pharmacol.1:217-|1996|10.1016/1382-6689(95)00017-8
89397|T||Singh,O.P., K.J. Singh, and R.D. Thakur|Studies on the Bionomics and Chemical Control of Stink Bug, Piezodorus rubrofasciatus Fabricius, a new Pest of Soybean in Madhya Pradesh|Indian J. Plant Prot.17(1): 81-83|1989|
89398|T||Lucier,G.W., O.S. McDaniel, G.E.R. Hook, B.A. Fowler, B.R. Sonawane, and E. Faeder|TCDD-Induced Changes in Rat Liver Microsomal Enzymes|Environ. Health Perspect.5:199-209|1973|
89399|T||Maronpot,R.R., J.F. Foley, K. Takahashi, T. Goldsworthy, G. Clark, A. Tritscher, C. Portier, and G. Lucier|Dose Response for TCDD Promotion of Hepatocarcinogenesis in Rats Initiated with DEN:  Histologic, Biochemical, and Cell Proliferation Endpoints|Environ. Health Perspect.101:634-642|1993|10.1289/ehp.93101634
89400|T||Rai,K.M., R. Joshi, and B.P. Gupta|Evergestis forficalis (L) (Lepidoptera:  Pyralidae) a New Pest of Crucifers with Its Biology and Control|Prog. Hortic.18(1/2): 157-162|1986|
89401|T||Nishimura,N., J. Yonemoto, H. Nishimura, and C. Tohyama|Localization of Cytochrome P450 1A1 in a Specific Region of Hydronephrotic Kidney of Rat Neonates Lactationally Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology227(1-2): 117-126|2006|10.1016/j.tox.2006.07.020
89402|T||Rowlands,J.C., R.A. Budinsky, L.L. Aylward, A.S. Faqi, and E.W. Carney|Sex Ratio of the Offspring of Sprague-Dawley Rats Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) In Utero and Lactationally in a Three-Generation Study|Toxicol. Appl. Pharmacol.216(1): 29-33|2006|10.1016/j.taap.2006.04.003
89403|T||Patil,A.S., and S.R. Bhole|Studies on Life History and Chemical Control of Semilooper on Snake Gourd|J. Maharashtra Agric. Univ.18(2): 229-231|1993|
89404|T||Viluksela,M., B.U. Stahl, L.S. Birnbaum, K.W. Schramm, A. Kettrup, and K.K. Rozman|Subchronic/Chronic Toxicity of 1,2,3,4,6,7,8-Hepatachlorodibenzo-p-Dioxin (HpCDD) in Rats.  Part 1.  Design, General Observations, Hematology and Liver Concentrations|Toxicol. Appl. Pharmacol.146:207-216|1997|10.1006/taap.1997.8239
89405|T||Bhatia,A., and J. Kaur|Nyctanthes arbor-tristis Leaves Extract as Antagonizer of Immunotoxic Effects of Chemical Pesticides (Experimental Study)|Int. J. Environ. Stud.58(2): 197-215|2001|10.1080/00207230108711327
89406|T||Viluksela,M., B.U. Stahl, L.S. Birnbaum, K.W. Schramm, A. Kettrup, and K.K. Rozman|Subchronic/Chronic Toxicity of a Mixture of Four Chlorinated Dibenzo-p-Dioxins in Rats.  I.  Design, General Observations, Hematology and Liver Concentrations|Toxicol. Appl. Pharmacol.151:57-69|1998|10.1006/taap.1998.8384
89407|T||Rijckaert,G., and D. Lepiece|Study of the Selectivity of Primstar (Fluroxypyr + Florasulam) in Two Key Grass Species (Fesru & Lolpe) Grown for Seed Production|Commun. Agric. Appl. Biol. Sci.68(4a): 381-390|2003|
89408|T||Weinand-Harer,A., H. Lilienthal, K.A. Bucholski, and G. Winneke|Behavioral Effects of Maternal Exposure to an Ortho-chlorinated or a Coplanar PCB Congener in Rats|Environ. Toxicol. Pharmacol.3:97-103|1997|10.1016/S1382-6689(96)00145-7
89409|T||Uthamasamy,S., and S. Jayaraj|Efficacy of Certain Newer Insecticides in the Control of Major Pests of Rice|Pesticides 19(9): 37,46|1985|
89410|A||Yamauchi,M., E.Y. Kim, H. Iwata, Y. Shima, and S. Tanabe|Toxic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Developing Red Seabream (Pagrus major) Embryo:  An Association of Morphological Deformities with AHR1, AHR2 and CYP1A Expressions|Aquat. Toxicol.80(2): 166-179|2006|10.1016/j.aquatox.2006.08.006
89411|T||Sarao,P.S., and G. Singh|Sublethal Influence of Insecticides on Reproduction of Mustard Aphid, Lipaphis erysimi (Kaltenbach)|J. Insect Sci.11(1): 5-8|1998|
89413|T||Kincaid,R.R., and G.M. Volk|Effects of Soil Fumigation on Cigar-Wrapper Tobacco and on Soil Nitrogen|Fla. Agric. Exp. Stn. Bull.490:24 p.|1952|
89414|T||Panahi,P., S. Vosough-Ghanbari, S. Pournourmohammadi, S.N. Ostad, S. Nikfar, B. Minaie, and M. Abdollahi|Stimulatory Effects of Malathion on the Key Enzymes Activities of Insulin Secretion in Langerhans Islets, Glutamate Dehydrogenase and Glucokinase|Toxicol. Mech. Methods16(4): 161-167|2006|10.1080/15376520500191623
89415|AT||Ingham,E.R., and W.G. Thies|Changes in Rhizosphere Microflora and Microfauna 10 Years Following Douglas-Fir Live Tree Injection with Chloropicrin or Methylisothiocyanate|Can. J. For. Res.27(5): 724-731|1997|10.1139/x97-051
89417|T||Schlatter,C., N. Pluess, H. Poiger, C. Hohback, and M. Suter|Subchronic Toxicity of 2,3,4,7,8-Pentachlorodibenzofuran (PeCDF) in Rats|Chemosphere17(6): 1099-1110|1988|10.1016/0045-6535(88)90176-2
89418|T||Kuroki,J., N. Koga, and H. Yoshimura|High Affinity of 2,3,4,7,8-Pentachlorodibenzofuran to Cytochrome P-450 in the Hepatic Microsomes of Rats|Chemosphere15(6): 731-738|1986|10.1016/0045-6535(86)90039-1
89420|T||Krowke,R., I. Chahoud, I. Baumann-Wilschke, and D. Neubert|Pharmacokinetics and Biological Activity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin.  2.  Pharmacokinetics in Rats Using a Loading-Dose/Maintenance-Dose Regime with high Doses|Arch. Toxicol.63:356-360|1989|10.1007/BF00303123
89421|T||Nau,H., R. Bass, and D. Neubert|Transfer of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) via Plancenta and Milk, and Postnatal Toxicity in the Mouse|Arch. Toxicol.59:36-40|1986|10.1007/BF00263955
89422|T||Weber,H., and L.S. Birnbaum|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and 2,3,7,8-Tetrachlorodibenzofuran (TCDF) in Pregnant C57BL/6N Mice:  Distribution to the Embryo and Excretion|Arch. Toxicol.57:159-162|1985|10.1007/BF00290880
89423|T||Shara,M.A., and S.J. Stohs|Biochemical and Toxicological Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Congeners in Female Rats|Arch. Environ. Contam. Toxicol.16(5): 599-605|1987|10.1007/BF01055816
89424|T||Baker,F.D., B. Bush, C.F. Tumasonis, and F.C. Lo|Toxicity and Persistence of Low-Level PCB in Adult Wistar Rats, Fetuses, and Young|Arch. Environ. Contam. Toxicol.5(2): 143-156|1977|10.1007/BF02220897
89425|T||Mimura,J., K. Yamashita, K. Nakamura, M. Morita, T.N. Takagi, K. Nakao, M. Ema, K. Sogawa, M. Yasuda, M. Katsuki, and Y|Loss of Teratogenic Response to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Mice Lacking the Ah (Dioxin) Receptor|Genes Cells2:645-654|1997|10.1046/j.1365-2443.1997.1490345.x
89426|T||Bandiera,S., T. Sawyer, T. Romkes, B. Zmudzka, L. Safe, G. Mason, B. Keys, and S. Safe|Polychlorinated Dibenzofurans (PCDFs):  Effects of Structure on Binding to the 2,3,7,8-TCDD Cytosolic Receptor Protein, AHH Induction and Toxicity|Toxicology32:131-144|1984|10.1016/0300-483X(84)90132-X
89428|T||Al-Bayati,Z.A.F., Z.Z. Wahba, and S.J. Stohs|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Alterations in Lipid Peroxidation, Enzymes, and Divalent Cations in Rat Testis|Xenobiotica18(11): 1281-1289|1988|10.3109/00498258809042251
89429|T||Kamimura,H., N. Koga, K. Oguri, H. Yoshimura, Y. Honda, and M. Nakano|Enhanced Faecal Excretion of 2,3,4,7,8-Pentachlorodibenzofuran in Rats by a Long-Term Treatment with Activated Charcoal Beads|Xenobiotica18(5): 585-592|1988|10.3109/00498258809041695
89430|T||Landers,J.P., L.M. Birse, J.S. Naikai, M.J. Winhall, and N.J. Bunce|Chemically Induced Hepatic Cytosol from the Sprague-Dawley Rat:  Evidence for Specific Binding of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to Components Kinetically Distinct from the Ah Receptor|Toxicol. Lett.51:295-302|1990|10.1016/0378-4274(90)90072-T
89431|T||Randerath,K., K.L. Putman, E. Randerath, T. Zacharewski, M. Harris, and S. Safe|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on I-Compounds in Hepatic DNA of Sprague-Dawley Rats:  Sex-Specific Effects and Structure-Activity Relationships|Toxicol. Appl. Pharmacol.103:271-280|1990|10.1016/0041-008X(90)90229-N
89432|T||Walden,R., and C.M. Schiller|Comparative Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Four (Sub)Strains of Adult Male Rats|Toxicol. Appl. Pharmacol.77:490-495|1985|10.1016/0041-008X(85)90189-9
89433|T||Yoshihara,S., K. Ngata, H. Yoshimura, H. Kuroki, and Y. Masuda|Inductive Effect on Hepatic Enzymes and Acute Toxicity of Individual Polychlorinated Dibenzofuran Congeners in Rats|Toxicol. Appl. Pharmacol.59:580-588|1981|10.1016/0041-008X(81)90313-6
89434|T||Decad,G.M., L.S. Birnbaum, and H.B. Matthews|2,3,7,8-Tetrachlorodibenzofuran Tissue Distribution and Excretion in Guinea Pigs|Toxicol. Appl. Pharmacol.57:231-240|1981|10.1016/0041-008X(81)90284-2
89435|T||Vorderstrasse,B.A., J.A. Cundiff, and B.P. Lawrence|A Dose-Response Study of the Effects of Prenatal and Lactational Exposure to TCDD on the Immune Response to Influenza A Virus|J. Toxicol. Environ. Health Part A69(6): 445-463|2006|10.1080/15287390500246985
89436|T||Curtis,L.R., N.I. Kerkvliet, L. Baecher-Steppan, and H.M. Carpenter|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Pretreatment of Female Mice Altered Tissue Distribution but not Hepatic Metabolism of a Subsequent Dose|Fundam. Appl. Toxicol.14:523-531|1990|10.1016/0272-0590(90)90256-J
89437|T||Birnbaum,L.S., M.M. McDonald, P.C. Blair, A.M. Clark, and M.W. Harris|Differential Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in C57BL/6J Mice Congenic at the Ah Locus|Fundam. Appl. Toxicol.15:186-200|1990|10.1016/0272-0590(90)90175-J
89438|T||Golor,G., T. Wiesmuller, H. Hagenmaier, and D. Neubert|Biological Activity and Tissue Concentrations of TCDD and OCDD in Rats After s.c. Application Alone and in Combination|Chemosphere20(7-9): 1183-1188|1990|10.1016/0045-6535(90)90242-L
89439|T||Krowke,R., and D. Neubert|Comparison of Cleft Palate Frequency and TCDD Concentration in Mice at Different Stages of Development|Chemosphere20(7-9): 1177-1182|1990|10.1016/0045-6535(90)90241-K
89440|T||Korte,M., R. Stahlmann, and D. Neubert|Induction of Hepatic Monoxygenases in Female Rats and Offspring in Correlation with TCDD Tissue Concentrations After Single Treatment During Pregnancy|Chemosphere20(7-9): 1193-1198|1990|10.1016/0045-6535(90)90244-N
89441|T||Nagayama,J., C. Kiyohara, S. Handa, and A. Horie|Comparative Toxicologic Study of 2,3,4,7,8-Pentachlorodibenzofuran in Ah Responsive and Nonresponsive Strains of Mice|Chemosphere20(7-9): 1165-1172|1990|10.1016/0045-6535(90)90239-P
89442|A||Ekman,E., G. Akerman, L. Balk, and L. Norrgren|Impact of PCB on Resistance to Flavobacterium psychrophilum After Experimental Infection of Rainbow Trout Oncorhynchus mykiss Eggs by Nanoinjection|Dis. Aquat. Org.60(1): 31-39|2004|10.3354/dao060031
89443|T||Yoshimura,H., J. Kuroki, N. Koga, H. Kuroki, Y. Masuda, N. Fukasaku, and M. Hasegawa|High Accumulation of 2,3,4,7,8-Pentachlorodibenzofuran to Hepatic Microsomes of Rats|J. Pharmacobio-Dyn.7:414-419|1984|10.1248/bpb1978.7.414
89444|T||Gao,Y., C. Sahlberg, A. Kiukkonen, S. Alaluusua, R. Pohjanvirta, J. Tuomisto, and P.L. Lukinmaa|Lactational Exposure of Han/Wistar Rats to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Interferes with Enamel Maturation and Retards Dentin Mineralization|J. Dent. Res.83(2): 139-144|2004|10.1177/154405910408300211
89446|T||Nyska,A., K. Yoshizawa, M.P. Jokinen, A.E. Brix, D.M. Sells, M.E. Wyde, D.P. Orzech, G.E. Kissling, and N.J. Walker|Olfactory Epithelial Metaplasia and Hyperplasia in Female Harlan Sprague-Dawley Rats Following Chronic Treatment with Polychlorinated Biphenyls|Toxicol. Pathol.33(3): 371-377|2005|10.1080/01926230590930209
89447|T||Morse,D.C., R.F. Seegal, K.O. Borsch, and A. Brouwer|Long-Term Alterations in Regional Brain Serotonin Metabolism Following Maternal Polychlorinated Biphenyl Exposure in the Rat|Neurotoxicology17(3-4): 631-638|1996|
89448|T||Seegal,R.F., B. Bush, and K.O. Brosch|Sub-Chronic Exposure of the Adult Rat to Aroclor 1254 Yields Regionally-Specific Changes in Central Dopaminergic Function|Neurotoxicology12:55-66|1991|
89449|T||Hassan,M.Q., H. Mohammadpour, S.J. Hermansky, W.J. Murray, and S.J. Stohs|Comparative Effects of BHA and Ascorbic Acid on the Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Rats|Gen. Pharmacol.18(5): 547-550|1987|10.1016/0306-3623(87)90078-4
89450|T||Tritscher,A.M., J.A. Goldstein, C.J. Portier, Z. McCoy, G.C. Clark, and G.W. Lucier|Dose-Response Relationships for Chronic Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in a Rat Tumor Promotion Model: Quantification and Immunolocalization of CYP1A1 and CYP1A2 in the Liver|Cancer Res.52:3436-3442|1992|
89452|T||Muthuvel,R., P. Venkataraman, G. Krishnamoorthy, D.N. Gunadharini, P. Kanagaraj, A.Jone Stanley, N. Srinivasan, K. Bala|Antioxidant Effect of Ascorbic Acid on PCB (Aroclor 1254) Induced Oxidative Stress in Hypothalamus of Albino Rats|Clin. Chim. Acta365(1-2): 297-303|2006|10.1016/j.cca.2005.09.006
89453|AT||Dow Chemical Co.|Letter from Dow Chemical Company to USEPA Regarding Information on TCDD, Chlorinated Dioxins & Phenols, PBB and PCB Environmental Monitoring Data with Attachments|EPA/OTS Doc.#88-7800209:41 p.|1978|
89454|T||Edwards,E.E.|Experiments with D-D Mixture Against Root-Knot Eelworm, Heterodera marioni (Cornu)|J. Helminthol.24(3): 123-136|1950|10.1017/S0022149X00019192
89455|T||Staniland,L.N.|Notes on the Use of Iodine and Chlorphenol Against Certain Plant Nematodes|J. Helminthol.24(1-2): 91-99|1950|10.1017/S0022149X00019167
89456|T||Rodgers,K.E., N. Leung, and C.F. Ware|Effects of Acute Administration of O,S,S-Trimethyl Phosphorodithioate on the Generation of Cellular and Humoral Immune Responses Following In Vitro Stimulation|Toxicology51(2-3): 241-253|1988|10.1016/0300-483X(88)90153-9
89457|T||Hassan,A., and W.C. Dauterman|Studies on the Optically Active Isomers of O,O-Diethyl Malathion and O,O-Diethyl Malaoxon|Biochem. Pharmacol.17(7): 1431-1439|1968|10.1016/0006-2952(68)90079-8
89458|T||Clapham,P.A.|On Sterilizing Land Against Poultry Parasites|J. Helminthol.24(3): 137-144|1950|10.1017/S0022149X00019209
89459|T||Casida,J.E., R.L. Baron, M. Eto, and J.L. Engel|Potentiation and Neurotoxicity Induced by Certain Organophosphates|Biochem. Pharmacol.12(1): 73-83|1963|10.1016/0006-2952(63)90011-X
89460|A||Ahsan,S.M.I.|Fecundity Changes in Anabas testudineus Consequent on 30 Days Exposure to Safe Concentration of Cythion|Ann. Zool.24(3): 101-113|1986|
89461|T||Kumar,D., and S.P. Sinha|Threshold Dose of Cytogenetic Toxicity of Lindane, Malathion and Metacid in Allium cepa Root-Tip Cells|Cytologia54(3): 547-552|1989|10.1508/cytologia.54.547
89462|A||Laval-Martin,D., D. Grizeau, and R. Calvayrac|Characterization of Diuron-Resistant Euglena:  Greater Tolerance for Various Phenylurea Herbicides and Increased Sensitivity of Thylakoids to Ethyl-s-Dipropyl Thiocarbamate|Plant Sci. Lett.29(2-3): 155-167|1983|10.1016/0304-4211(83)90139-6
89463|T||Udeaan,A.S., and D.D. Narang|A Survey of Mustard Aphid, Lipaphis erysimi (Kalt.) Populations for Resistance to Insecticides in Punjab|J. Res. Punjab Agric. Univ.25(1): 77-80|1988|
89464|T||Dhamdhere,S.V., J. Bahadur, and U.S. Misra|Studies on Persistence and Toxicity of Carbamate Insecticides Against Amrasca biguttula biguttula Ishida Infesting Okra|PKV Res. J.11(1): 97-99|1987|
89465|T||Mansour,F., and W. Nentwig|Effects of Agrochemical Residues on Four Spider Taxa: Laboratory Methods for Pesticide Tests with Web-Building Spiders|Phytoparasitica16(4): 317-325|1988|10.1007/BF02979507
89466|T||Casida,J.E.|Specificity of Substituted Phenyl Phosphorus Compounds for Esterase Inhibition in Mice|Biochem. Pharmacol.5(4): 332-342|1961|10.1016/0006-2952(61)90024-7
89467|T||Townshend,J.L., C.L. Ricketson, and J. Wiebe|The Effect of Spring Application of Nematicides on Strawberry in the Niagara Peninsula|Can. J. Plant Sci.46(2): 111-114|1966|10.4141/cjps66-018
89468|T||Herbert,D.A.,Jr.|Control of Bird Cherry-Oat Aphid in Barley, 1990|Insectic. Acaric. Tests16:142-|1991|10.1093/iat/16.1.142
89469|T||Sorensen,K.A., and K.A. Kidd|Asparagus Beetle Control, 1991|Insectic. Acaric. Tests17:77-|1992|10.1093/iat/17.1.77a
89470|T||Witter,R.F., and T.B. Gaines|Relationship Between Depression of Brain or Plasma Cholinesterase and Paralysis in Chickens Caused by Certain Organic Phosphorus Compounds|Biochem. Pharmacol.12(12): 1377-1386|1963|10.1016/0006-2952(63)90207-7
89471|T||Uppal,R.P., B.D. Garg, and A. Ahmad|Effect of Malathion & DDT on Response of Mice to Pentobarbitone|Indian J. Exp. Biol.20(8): 628-629|1982|
89472|T||McLeod,R.W.|The Effectiveness of Thiabendazole, Methomyl, and Aldicarb for Control of Root Knot Nematodes|Agric. Gaz. N. S. W.83(1): 32-33|1972|
89473|T||McKeen,C.D., and W.B. Mountain|Soil Fumigation for Control of Verticillium Wilt of Eggplant|Can. J. Plant Sci.47(1): 1-10|1967|10.4141/cjps67-001
89474|T||Kulkarni,J.H., J.S. Sardeshpande, and D.J. Bagyaraj|Effect of Seed Fumigation on the Symbiosis of Rhizobium sp. with Arachis hypogaea Linn|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.130(1): 41-44|1975|10.1016/S0044-4057(75)80070-0
89475|T||Deshmukh,D.T., Y.V. Raote, A.G. Bhandarkar, and S.S. Bhagwat|Study of Effect of Insecticide Toxicity on Leucocytic Response of Chicks|PKV Res. J.15(1): 55-58|1991|
89476|T||Del,M., C. Vila, and L.C.S.M. De Viale|Effect of Parathion, Malathion, Endosulfan and Chlordane on Porphyrin Accumulation and Alasynthetase in Chick Embryo Liver|Toxicology25(4): 323-332|1982|10.1016/0300-483X(82)90110-X
89477|T||Haque,N., S.J. Rizvi, and M.B. Khan|Malathion Induced Alterations in the Lipid Profile and the Rate of Lipid Peroxidation in Rat Brain and Spinal Cord|Pharmacol. Toxicol.61(1): 12-15|1987|10.1111/j.1600-0773.1987.tb01764.x
89478|T||Francesconi,R., R. Hubbard, and M. Mager|Malathion Administration:  Effects on Physiological and Physical Performance in the Heat|Pharmacol. Biochem. Behav.19(6): 1031-1035|1983|10.1016/0091-3057(83)90411-2
89479|T||Peters,B.G.|Potato Root Eelworm, D-D, and Soil Sterilization.  III. Results for 1947|J. Helminthol.23(1/2): 73-88|1949|10.1017/S0022149X00032399
89480|T||Peters,B.G.|Potato Root Eelworm, D-D, and Soil Sterilization. II. Results for 1946|J. Helminthol.22(3/4): 128-138|1948|10.1017/S0022149X00032259
89482|A||Palanichamy,S., P. Baskaran, and M.P. Balasubramanian|Sublethal Effects of Selected Pesticides on Protein, Carbohydrate and Lipid Content of Different Tissues of Oreochromis mossambicus|In: S.C.Goel (Ed.), Insect and Environment, Pesticide Residues and Environmental Pollution, Natl.Symp., Oct.2-4, 1985, Muzaffarnagar, India, Sanatan Dharm Coll., Muzaffarnagar, India2:97-102|1986|
89484|T||Smart,G.C.,Jr., and S.J. Locascio|Influence of Nematicides and Polyethylene Mulch Color on the Control of Nematodes on Strawberry|Proc. Soil Crop Sci. Soc. Fla.28:292-299|1968|
89486|T||Chandra,S., B.P. Khare, and V.K. Sharma|Efficacy of Some Selected Fumigants on Rice Weevil, Sitophilus oryzae Linnaeous|Indian J. Agric. Res.12(2): 79-84|1978|
89488|A||Hoffman,E.R.|Biochemical and Fitness Response to Selection with DDT and Malathion in Two Populations of Chironomus riparius|Ph.D. Thesis, The Ohio State University, Columbus, OH:29-52|1995|
89489|A||Hoffman,E.R.|The Genetic and Fitness Effects of Selection with DDT and Malathion in a Field and Derived Laboratory Culture of Chironomus riparius|Ph.D. Thesis, The Ohio State University, Columbus, OH:53-83|1995|
89490|A||Hoffman,E.R.|The Effects of DDT and Malathion Selection on Genetic Structure and Respiration in Two Populations of Chironomus riparius|Ph.D. Thesis, The Ohio State University, Columbus, OH:84-105|1995|
89498|A||Nair,G.A., and N.B. Nair|Effect of Certain Organophosphate Biocides on the Juveniles of the Isopod, Alitropus typus M. Edwards (Crustacea:  Flabellifera:  Aegidae)|J. Anim. Morphol. Physiol.29(1-2): 265-271|1982|
89500|A||Njiwa,J.R.K., P. Muller, and R. Klein|Binary Mixture of DDT and Arochlor1254:  Effects on Sperm Release by Danio rerio|Ecotoxicol. Environ. Saf.58(2): 211-219|2004|10.1016/j.ecoenv.2003.11.003
89501|T||Rodriguez-Kabana,R., and C.F. Weaver|Nematicide Seed Treatments for Control of Soybean Nematodes|Nematropica17(1): 79-93|1987|
89502|T||Mazzola,M., and K. Mullinix|Comparative Field Efficacy of Management Strategies Containing Brassica napus Seed Meal or Green Manure for the Control of Apple Replant Disease|Plant Dis.89(11): 1207-1213|2005|10.1094/PD-89-1207
89503|T||Chhabra,S.K., S. Hashim, and A.R. Rao|Modulation of Hepatic Glutathione System of Enzymes in Suckling Mouse Pups Exposed Translactationally to Malathion|J. Appl. Toxicol.13(6): 411-416|1993|10.1002/jat.2550130607
89504|T||Gerik,J.S.|Evaluation of Soil Fumigants Applied by Drip Irrigation for Liatris Production|Plant Dis.89(8): 883-887|2005|10.1094/PD-89-0883
89505|T||Sengupta,P.K., A. Chakrabarti, and S.K. Banerjee|Biochemical Changes Induced by Toxic Concentration of Malathion in Germinating Wheat Seeds|Curr. Sci. (Bangalore)55(10): 492-494|1986|
89507|T||Matin,M.A., and K. Husain|Cerebral Glycogenolysis and Glycolysis in Malathion-Treated Hyperglycaemic Animals|Biochem. Pharmacol.36(11): 1815-1817|1987|10.1016/0006-2952(87)90243-7
89508|T||Ehrich,M.F.|The Effect of DDVP (Dichlorvos) on Mouse Esterases|Ph.D.Thesis, Univ.of Connecticut, Storrs, CT:113 p.|1975|
89509|T||Brodeur,J., and K.P. DuBois|Studies on Factors Influencing the Acute Toxicity of Malathion and Malaoxon in Rats|Can. J. Physiol. Pharmacol.45(4): 621-631|1967|10.1139/y67-075
89510|T||DeBoer,G.J., S. Thornburgh, and R.J. Ehr|Uptake, Translocation and Metabolism of the Herbicide Florasulam in Wheat and Broadleaf Weeds|Pest Manag. Sci.62(4): 316-324|2006|10.1002/ps.1163
89511|T||Houssien,A.A.|Extended Use of Sulfonylurea and Triazolopyrimidin Sulfonanilide Herbicides to Other Crops|Alex. Sci. Exch.26(2): 174-183|2005|
89512|T||Flockhart,I.R., and J.E. Casida|Relationship of the Acylation of Membrane Esterases and Proteins to the Teratogenic Action of Organophosphorus Insecticides and Eserine in Developing Hen Eggs|Biochem. Pharmacol.21:2591-2603|1972|10.1016/0006-2952(72)90227-4
89513|T||Verma,N., and Purnima |Malathion Induced Phytotoxicity on Seed Germination and Seedling Growth of Mustard|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.64(2): 181-187|1994|
89514|T||Cohen,S.D., and S.D. Murphy|A Simplified Bioassay for Organophosphate Detoxification and Interactions|Toxicol. Appl. Pharmacol.27(3): 537-550|1974|10.1016/0041-008X(74)90033-7
89515|T||Paterson,E.A., Z.L. Shenton, and A.E. Straszewski|Establishment of the Baseline Sensitivity and Monitoring Response of Papaver rhoeas Populations to Florasulam|Pest Manag. Sci.58(9): 964-966|2002|10.1002/ps.562
89516|T||Williams,L.M., and G.S. Miner|Effect of Urea on Yield and Quality of Flue-Cured Tobacco|Agron. J.74(3): 457-462|1982|10.2134/agronj1982.00021962007400030015x
89517|T||Panda,S., and S.K. Sahu|Assessment of Recovery of Population, Biomass and Reproduction of the Earthworm Drawida willsi Following the Application of Malathion Under Field Conditions|Biol. Fertil. Soils32(1): 82-88|2000|10.1007/s003740000221
89519|T||Easton,G.D., M.E. Nagle, and D.L. Bailey|Fumigants, Rates, and Application Methods Affecting Verticillium Wilt Incidence and Potato Yields|Am. Potato J.51(3): 71-77|1974|10.1007/BF02852015
89520|T||Benlioglu,S., O. Boz, A. Yildiz, G. Kaskavalci, and K. Benlioglu|Alternative Soil Solarization Treatments for the Control of Soil-Borne Diseases and Weeds of Strawberry in the Western Anatolia of Turkey|J. Phytopathol.153(7/8): 423-430|2005|10.1111/j.1439-0434.2005.00995.x
89521|T||Gordon,T.R., S.C. Kirkpatrick, D.V. Shaw, and K.D. Larson|Differential Infection of Mother and Runner Plant Generations by Verticillium dahliae in a High Elevation Strawberry Nursery|Hortscience37(6): 927-931|2002|10.21273/HORTSCI.37.6.927
89522|T||Kucharz,E.J., K. Kita, R. Knapek, K. Olczyk, and G. Jonderko|Influence of Long-Term Treatment with Methamidophos Upon the Cutaneous Connective Tissue of Rats|Rev. Roum. Biochim.29(2): 133-137|1992|
89523|AT||McLean,R.G., J.T. Spillane, and J.W. Miles|A Prospective Study of the Effects of Ultralow Volume (ULV) Aerial Application of Malathion on Epidemic Plasmodium falciparum Malaria III.  Ecologic Aspects|Am. J. Trop. Med. Hyg.24(2): 193-198|1975|10.4269/ajtmh.1975.24.193
89525|T||Biggs,A.R., M.M. El-Kholi, S. El-Neshawy, and R. Nickerson|Effects of Calcium Salts on Growth, Polygalacturonase Activity, and Infection of Peach Fruit by Monilinia fructicola|Plant Dis.81(4): 399-403|1997|10.1094/PDIS.1997.81.4.399
89526|T||Pereira,M.A., L.H. Barnes, V.L. Rassman, G.V. Kelloff, and V.E. Steele|Use of Azoxymethane-Induced Foci of Aberrant Crypts in Rat Colon to Identify Potential Cancer Chemopreventive Agents|Carcinogenesis15(5): 1049-1054|1994|10.1093/carcin/15.5.1049
89527|T||Wargovich,M.J., V.W.S. Eng, H.L. Newmark, and W.R. Bruce|Calcium Ameliorates the Toxic Effect of Deoxycholic Acid on Colonic Epithelium|Carcinogenesis4(9): 1205-1207|1983|10.1093/carcin/4.9.1205
89528|T||Ito,N., H. Tsuda, M. Tatematsu, T. Inoue, Y. Tagawa, T. Aoki, S. Uwagawa, M. Kagawa, T. Ogiso, T. Masui, K. Imaida, S. |Enhancing Effect of Various Hepatocarcinogens on Induction of Preneoplastic Glutathione S-Transferase Placental Form Positive Foci in Rats - An Approach for a New Medium-Term Bioassay System|Carcinogenesis9(3): 387-394|1988|10.1093/carcin/9.3.387
89529|T||Wang,A., N. Yoshimi, T. Tanaka, and H. Mori|The Inhibitory Effect of Magnesium Hydroxide on the Bile Acid-Induced Cell Proliferation of Colon Epithelium in Rats with Comparison to the Action of Calcium Lactate|Carcinogenesis15(11): 2661-2663|1994|10.1093/carcin/15.11.2661
89530|A||Tanabe,S., K. Maruyama, and R. Tatsukawa|Absorption Efficiency and Biological Half-Life of Individual Chlorobiphenyls in Carp (Cyprinus carpio) Orally Exposed to Kanechlor Products|Agric. Biol. Chem.46(4): 891-898|1982|
89531|T||Fowler,B.A., G.W. Lucier, H.W. Brown, and O.S. McDaniel|Ultrastructural Changes in Rat Liver Cells Following a Single Oral Dose of TCDD|Environ. Health Perspect.5:141-148|1973|10.1289/ehp.7305141
89533|T||Bjeldanes,L.F., J.Y. Kim, K.R. Grose, J.C. Bartholomew, and C.A. Bradfield|Aromatic Hydrocarbon Responsiveness-Receptor Agonists Generated from Indole-3-Carbinol In Vitro and In Vivo: Comparisons with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Proc. Natl. Acad. Sci. U.S.A.88:9543-9547|1991|10.1073/pnas.88.21.9543
89534|T||Swift,L.L., T.A. Gasiewicz, G.D. Dunn, P.D. Soul'e, and R.A. Neal|Characterization of the Hyperlipidemia in Guinea Pigs Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.59(3): 489-499|1981|10.1016/0041-008X(81)90302-1
89535|T||Safe,S., T. Zacharewski, L. Safe, M. Harris, C. Yao, and M. Holcomb|Validation of the AHH Induction Bioassay for the Determination of 2,3,7,8-TCDD Toxic Equivalents|Chemosphere18(1-6): 941-946|1989|10.1016/0045-6535(89)90221-X
89536|T||Brunnberg,S., P. Andersson, M. Lindstam, I. Paulson, L. Poellinger, and A. Hanberg|The Constitutively Active AH Receptor (CA-AHR) Mouse as a Potential Model for Dioxin Exposure - Effects in Vital Organs|Toxicology224(3): 191-201|2006|10.1016/j.tox.2006.04.045
89537|T||Thomae,T.L., E.A. Stevens, A.L. Liss, N.R. Drinkwater, and C.A. Bradfield|The Teratogenic Sensitivity to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin is Modified by a Locus on Mouse Chromosome 3|Mol. Pharmacol.69(3): 770-775|2006|10.1124/mol.105.019760
89538|T||Poland,A., E. Glover, and A.S. Kende|Stereospecific, High-Affinity Binding of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin by Hepatic Cytosol: Evidence that the Binding Species is a Receptor for Induction of Aryl Hydrocarbon Hydroxylase|J. Biol. Chem.251(16): 4936-4946|1976|10.1016/S0021-9258(17)33205-2
89540|AT||Lin,Y.J., H.C. Liu, Z.Y. Hseu, and W.J. Wu|Study of Transportation and Distribution of PCBs Using an Ecologically Simulated Growth Chamber|Chemosphere64(4): 565-573|2006|10.1016/j.chemosphere.2005.11.065
89541|T||Borlakoglu,J.T., and J.P.G. Wilkins|Metabolism of di-, tri-, tetra-, penta- and Hexachlorobiphenyls by Hepatic Microsomes Isolated from Control Animals and Animals Treated with Aroclor 1254, a Commerical Mixture of Polychlorinated Biphenyls (PCBs)|Comp. Biochem. Physiol. C Comp. Pharmacol.105(1): 95-106|1993|10.1016/0742-8413(93)90064-R
89542|A||Bouldin,J.L., C.D. Milam, J.L. Farris, M.T. Moore, S.,Jr. Smith, and C.M. Cooper|Evaluating Toxicity of Asana XL (Esfenvalerate) Amendments in Agricultural Ditch Mesocosms|Chemosphere56:677-683|2004|10.1016/j.chemosphere.2004.04.033
89543|A||Brock,T.C.M., S.J.H. Crum, J.W. Deneer, F. Heimbach, R.M.M. Roijackers, and J.A. Sinkeldam|Comparing Aquatic Risk Assessment Methods for the Photosynthesis-Inhibiting Herbicides Metribuzin and Metamitron|Environ. Pollut.130:403-426|2004|10.1016/j.envpol.2003.12.022
89544|A||Nystrom,B., K. Becker-Van Slooten, A. Berard, D. Grandjean, J.C. Druart, and C. Leboulanger|Toxic Effects of Irgarol 1051 on Phytoplankton and Macrophytes in Lake Geneva|Water Res.36:2020-2028|2002|10.1016/S0043-1354(01)00404-3
89545|T||Suit,R.F.|Spreading Decline of Citrus in Florida|Citrus Ind.29(2): 12-17|1948|
89548|A||Rakotondravelo,M.L., T.D. Anderson, R.E. Charlton, and K.Y. Zhu|Sublethal Effects of Three Pesticides on Larval Survivorship, Growth, and Macromolecule Production in the Aquatic Midge, Chironomus tentans (Diptera:  Chironomidae)|Arch. Environ. Contam. Toxicol.51(3): 352-359|2006|10.1007/s00244-005-0219-0
89549|T||Minuto,A., M.L. Gullino, F. Lamberti, T. D'Addabbo, E. Tescari, H. Ajwa, and A. Garibaldi|Application of an Emulsifiable Mixture of 1,3-Dichloropropene and Chloropicrin Against Root Knot Nematodes and Soilborne Fungi for Greenhouse Tomatoes in Italy|Crop Prot.25(12): 1244-1252|2006|10.1016/j.cropro.2006.03.017
89550|T||Yu,Q., L.J.S. Friesen, X.Q. Zhang, and S.B. Powles|Tolerance to Acetolactate Synthase and Acetyl-Coenzyme A Carboxylase Inhibiting Herbicides in Vulpia bromoides is Conferred by Two Co-Existing Resistance Mechanisms|Pestic. Biochem. Physiol.78(1): 21-30|2004|10.1016/j.pestbp.2003.07.004
89551|T||Rodgers,K., and S. Xiong|Contribution of Mast Cell Mediators to Alterations in Macrophage Function after Malathion Administration|Fundam. Appl. Toxicol.33(1): 100-108|1996|10.1006/faat.1996.0147
89552|T||Rodgers,K., and S. Xiong|Contribution of Inflammatory Mast Cell Mediators to Alterations in Macrophage Function After Malathion Administration|Int. J. Immunopharmacol.19(3): 149-156|1997|10.1016/S0192-0561(96)00073-2
89553|T||Assini,F.L., K.D. Zanette, P.S. Brocardo, P. Pandolfo, A.L.S. Rodrigues, and R.N. Takahashi|Behavioral Effects and ChE Measures After Acute and Repeated Administration of Malathion in Rats|Environ. Toxicol. Pharmacol.20(3): 443-449|2005|10.1016/j.etap.2005.05.007
89554|T||Lockridge,O., E.G. Duysen, T. Voelker, C.M. Thompson, and L.M. Schopfer|Life Without Acetylcholinesterase:  The Implications of Cholinesterase Inhibitor Toxicity in AChE-Knockout Mice|Environ. Toxicol. Pharmacol.19(3): 463-469|2005|10.1016/j.etap.2004.12.008
89555|T||Handley,D.T., J.F. Dill, and J.E. Pollard|Tarnished Plant Bug Injury on Six Strawberry Cultivars Treated with Differing Numbers of Insecticide Sprays|Fruit Var. J.47(3): 133-137|1993|
89556|T||Prabhaker,N., N.C. Toscano, and D.L. Coudriet|Susceptibility of the Immature and Adult Stages of the Sweetpotato Whitefly (Homoptera: Aleyrodidae) to Selected Insecticides|J. Econ. Entomol.82(4): 983-988|1989|10.1093/jee/82.4.953
89560|T||Gilreath,J.P., B.M. Santos, C.A. Chase, and S.J. Locascio|Influence of Soil Fumigation on 2,4-D and Dicamba Carryover in Fresh Market Tomato|Crop Prot.25(10): 1095-1100|2006|10.1016/j.cropro.2006.02.010
89561|T||Mazor,M., S. Gazit, G. Reuven, and H. Efrat|Unattractiveness of Three Commercial Proteinaceous Fruit Fly Baits to Honey Bees|Crop Prot.22(7): 995-997|2003|10.1016/S0261-2194(03)00089-9
89562|T||Jensen,H.J.|Observations on the Root Lesion Nematode Disease of Narcissus and Progress of Control|Plant Dis. Rep.37(1): 39-40|1953|
89563|T||Hidayat,I., and C. Preston|Cross-Resistance to Imazethapyr in a Fluazifop-p-Butyl-Resistant Population of Digitaria sanguinalis|Pestic. Biochem. Physiol.71(3): 190-195|2001|10.1006/pest.2001.2576
89564|T||Saxena,J.D., K.M. Srivastava, S. Rai, S.R. Sinha, and A.V.N. Paul|Base-Line Toxicity of Some Insecticides to a Laboratory Susceptible Strain of Heliothis armigera Hubner|Indian J. Entomol.51(3): 352-354|1989|
89568|T||Toba,H.H.|Metham-Sodium for Control of Wireworm Larvae|J. Agric. Entomol.1(4): 392-396|1984|
89569|T||Bionetics Research Laboratories Inc.|Evaluation of Carcinogenic, Teratogenic, and Mutagenic Activities of Selected Pesticides and Industrial Chemicals. Volume II. Teratogenic Study in Mice and Rats|Natl. Cancer Inst. Monogr.:150 p.|1968|
89571|T||Trumble,J.T., and N.C. Toscano|Impact of Methamidophos and Methomyl on Populations of Liriomyza species (Diptera:  Agromyzidae) and Associated Parasites in Celery|Can. Entomol.115(10): 1415-1420|1983|10.4039/Ent1151415-10
89572|T||Leidy,R.B., J.J. Domanski, P.L. Haire, and T.J. Sheets|Effects of Weathering and Flue-Curing on Methomyl Residues on Tobacco|Arch. Environ. Contam. Toxicol.5(2): 199-206|1977|10.1007/BF02220903
89573|T||McClanahan,R.J.|Susceptibility of a Migratory Population of the Corn Earworm (Heliothis zea ) (Lepidoptera:  Noctuidae) to Insecticides|Can. Entomol.114(12): 1175-1177|1982|10.4039/Ent1141175-12
89574|T||Flanders,R.V., L.W. Bledsoe, and C.R. Edwards|Effects of Insecticides on Pediobius foveolatus (Hymenoptera:  Eulophidae), a Parasitoid of the Mexican Bean Beetle (Coleoptera: Coccinellidae)|Environ. Entomol.13(3): 902-906|1984|10.1093/ee/13.3.902
89575|A||Reddy,M.S., P. Jayaprada, and K.V.R. Rao|Impact of Methylparathion and Malathion on Cholinergic and Non-Cholinergic Enzyme Systems of Penaeid Prawn, Metapenaeus monoceros|Biochem. Int.22(4): 769-780|1990|
89576|T||Hoda,Q., Badaruddoza, and M. Afzal|Impact of Vitamin B12 Against Pesticide Induced Mitoinhibition and Clastogeny|Cytologia57(3): 353-358|1992|10.1508/cytologia.57.353
89577|T||Taylor,S.K., E.S. Williams, and K.W. Mills|Effects of Malathion on Disease Susceptibility in Woodhouse's Toads|J. Wildl. Dis.35(3): 536-541|1999|10.7589/0090-3558-35.3.536
89578|T||Wilson,J.D., and M.G. Norris|Effect of Bromine Residues in Muck Soil on Vegetable Yields|Down Earth22(3): 15-18|1966|
89579|T||Daulton,R.A.C.|Effects of Soil Fumigants on Tobacco in Southern Rhodesia|Down Earth20(4): 29-32|1965|
89580|T||Turner,G.O., A.S. Greathead, and N.C. Welch|Control of Annual Weed Seeds with Soil Fumigants Containing 1,3-Dichloropropenes|Down Earth29(4): 25-28|1974|
89581|T||Haney,T.G.|Chemicals for the Control of Weeds and Nematodes in Tobacco Seed-Beds|J. Aust. Inst. Agric. Sci.16:109-|1950|
89582|T||Thorne,G., and V. Jensen|A Preliminary Report on the Control of Sugar-Beet Nematode with Two Chemicals, D-D and Dowfume W15|Proc. Gen. Meet. Am. Soc. Sugar Beet Technol.:322-326|1946|
89583|T||Greenwood,D.E.|Wireworms on Potatoes|Conn. Agric. Exp. Stn. Bull. (New Haven)512:56-59|1946|
89584|T||Lange,W.H.,Jr.|Ethylene Dibromide and Dichloropropane-Dichloropropene Mixture for Wireworm Control|J. Econ. Entomol.38(6): 643-645|1945|10.1093/jee/38.6.643
89586|T||Potter,C., M.J.R. Healy, and F. Raw|Studies on the Chemical Control of Wireworms (Agriotes spp.).  I.  The Direct and Residual Effects of BHC, DDT, D-D, and Ethylene Dibromide|Bull. Entomol. Res.46:913-923|1956|10.1017/S0007485300037135
89587|T||Potter,H.S., and O.K. Jantz|The Use of Broad Spectrum Soil Fumigants to Improve the Production of Certain Vegetable Crops|Down Earth24(4): 17-22|1969|
89588|T||Shaw,N.H., and W.J. Bisset|"Control of Johnson Grass Sorghum halepense (L) pers. by Soil Fumigation with ""D.D."""|J. Aust. Inst. Agric. Sci.17:218-219|1951|
89589|T||Browne,G.T., J.H. Connell, and S.M. Schneider|Almond Replant Disease and Its Management with Alternative Pre-Plant Soil Fumigation Treatments and Rootstocks|Plant Dis.90(7): 869-876|2006|10.1094/PD-90-0869
89590|T||Lohar,M.K., and D.J. Wright|Studies on the Possible Changes in Body Weight, Food Consumption and Frass Production in Tenebrio molitor L. Treated with Malathion|Pak. J. Zool.31(2): 117-120|1999|
89591|T||Islam,N., I.M. Bhuiyah, A. Begum, and M.A. Karim|Field Evaluation of Foliar Insecticides for the Control of the Mustard Aphid, Lipaphis erysimi Kaltenbach|Bangladesh J. Zool.18(2): 185-188|1990|
89592|A||Snawder,J.E., and J.E. Chambers|Critical Time Periods and the Effect of Tryptophan in Malathion-Induced Developmental Defects in Xenopus Embryos|Life Sci.46(23): 1635-1642|1990|10.1016/0024-3205(90)90377-4
89593|A||Mohsen,Z.H., N.A. Ouda, A.H. Al-Faisal, and N.S. Mehdi|Toxicity of Mosquito Larvicides to Backswimmer Anisop sardea H.S. (Hemiptera:  Notonectidae) and Dragonfly Corcothemt erythraea Brulle (Odonata:  Libellulidae)|J. Biol. Sci. Res.16(2): 273-282|1985|
89594|T||Senapati,B.K., J. Biswal, S.K. Sahu, and S.C. Pani|Impact of Malathion on Drawida willsi, Michaelsen, a Dominant Earthworm in Indian Rice Fields:  I.  Survival, Population Dynamics, Reproductive Strategy and Secondary Production|Pedobiologia (Multiple Languages)35(2): 117-128|1991|10.1016/S0031-4056(24)00050-7
89595|T||Pareek,B.L., and V.S. Kavadia|Field Evaluation of Insecticides Against Hadda Beetle, Henosepilachana vigintioctopunctata Fabr. Infesting Musk Melon|Indian J. Plant Prot.15(1): 105-107|1987|
89596|T||Pardo,A., F.J. Gea, J. Pardo, and M.J. Navarro|Organophosphorus Insecticide Residues in the Cultivated Mushroom, Agaricus bisporus (Lange) Imbach|Mushroom Sci.14(2): 515-524|1995|
89597|T||Bhanja,E., J.R. Mishra, and S.P. Rath|Genotoxic Effects of Two Organophosphorus Insecticides, Quinalphos and Malathion on Root Meristem of Allium cepa L.|Adv. Plant Sci.11(1): 279-284|1998|
89598|T||Tsai,T.H., L.E. Scheving, and J.E. Pauly|Circadian Stage-Dependent Variation in Host Susceptibility to Urethan and Malathion in CD2F1 Male Mice|In: E.Haus and H.F.Kabat (Eds.), Chonobiology 1982-1983, S.Karger, Basel, Switzerland:529-532|1984|
89599|T||Chellemi,D.O., and J. Mirusso|Optimizing Soil Disinfestation Procedures for Fresh Market Tomato and Pepper Production|Plant Dis.90(5): 668-674|2006|10.1094/PD-90-0668
89602|A||Moreton,R.B., and D.R. Gardner|Frescon:  Neurophysiological Action of a Molluscicide|Experientia32:611-612|1976|10.1007/BF01990192
89606|T||Thompson,A.R., A.M. McReath, C.M. Carson, R.J. Ehr, and G.J. DeBoer|Florasulam:  A New, Low Dose Herbicide for Broadleaf Weed Control in Cereals|Br. Crop Prot. Conf. Weeds1:73-80|1999|
89607|T||Ferreira,K.L., T.K. Baker, and T.F. Peeper|Factors Influencing Winter Wheat (Triticum aestivum) Injury from Sulfonylurea Herbicides|Weed Technol.4(4): 724-730|1990|10.1017/S0890037X00026294
89608|A||Bisset,J.A., E. Ortiz, M. Rodriguez, and J. Hemingway|Comparison of Microtitre Plate and Filter-Paper Assays of Elevated Esterase-Based Resistance Frequencies in Field and Laboratory Populations of the Mosquito Culex quinquefasciatus from Cuba|Med. Vet. Entomol.9(1): 94-97|1995|10.1111/j.1365-2915.1995.tb00122.x
89609|T||Rosenberg,A.M.|Antinuclear Antibodies in Mice Exposed to Pesticides|J. Agric. Saf. Health5(2): 173-177|1999|10.13031/2013.5677
89610|T||Bhatia,A., J. Kaur, and M. Makkar|The Alterations of Functional Cell Mediated Immunity by Exposure to Malathion|J. Ecotoxicol. Environ. Monit.7(1): 55-58|1997|
89611|T||Saxena,S.C., and P.N. Saxena|Combined Effect of Malathion and Piperonyl Butoxide on Periplaneta americana L.:  An Assessment Based on Knock-Down Response and Histopathological Observations|Entomon10(2): 151-158|1985|
89612|T||Anonymous|2-(2,2-Difluoroethoxy)-6-Trifluoromethyl-N-(5,8-Dimethoxy[1,2,4]Triazolo [1,5-c]Pyrimidin-2-y1)Benzenesulfonamide and Its Use as a Herbicide in Mixtures|Res. Disclosure462:1832-1833|2002|
89614|T||Roger,C., D. Coderre, and C. Vincent|Apparent Mortality of Coleomegilla maculata (Coccinellidae) Following Pesticide Treatment: Possibility of Overlooking Predators|In: L.Polgar, et al.(Eds.), Behaviour and Impact of Aphidophaga, Godollo, Hungary, The Hague, Netherlands:329-336|1991|
89615|T||Morse,J.G., and N.J. Sakovich|Control of Helix aspersa on Citrus and Avocado|J. Agric. Entomol.3(4): 342-349|1986|
89616|T||Nyirenda,G.K.C.|Field Assessment of Insecticides and Swath Widths Using Carbaryl Against the African Armyworm, Spodoptera exempta (Walk.) on Maize, Zea mays in Malawi|Int. Pest Control27(4): 97-99|1985|
89617|T||Golob,P., and A. Kilminster|The Biology and Control of Zabrotes subfasciatus (Boheman) (Coleoptera:  Bruchidae) Infesting Red Kidney Beans|J. Stored Prod. Res.18(3): 95-101|1982|10.1016/0022-474X(82)90008-X
89618|T||Thomas,J., and K.G. Phadke|Relative Toxicity of Oxydemetonmethyl, Chlorpyriphos and Quinalphos to Honey-Bee (Apis cerana indica)|Indian J. Agric. Sci.64(3): 207-209|1994|
89619|T||Hirvonen,M.R., H. Komulainen, L. Paljarvi, and K. Savolainen|Time-Course of Malaoxon-Induced Alterations in Brain Regional Inositol-1-Phosphate Levels in Convulsing and Nonconvulsing Rats|Neurochem. Res.14(2): 143-147|1989|10.1007/BF00969629
89620|T||Syed,M.A., J.H. Arshad, and S. Mat|Biological Activity and Bioavailability of Grain Bound 14C-Malathion Residues in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(4): 347-354|1992|
89621|T||Brown,C., W.B. Gross, and M. Ehrich|Effects of Social Stress on the Toxicity of Malathion in Young Chickens|Avian Dis.30(4): 679-682|1986|10.2307/1590567
89622|T||Gur,A., Y. Cohen, J. Katan, and Z. Barkai|Preplant Application of Soil Fumigants and Solarization for Treating Replant Diseases of Peaches and Apples|Sci. Hortic.45(3/4): 215-224|1991|10.1016/0304-4238(91)90066-8
89623|T||Van Eeden,C.F., J.B.J. Van Rensburg, and T.C.D.K. Van der Linde|Evaluation of Chemical Control Against the Insect Complex of Groundnuts (Arachis hypogaea L.) in the South African Highveld Region|S. Afr. J. Plant Soil12(1): 1-6|1995|10.1080/02571862.1995.10634326
89624|T||Lange,A.H., and O.V. Holtzmann|Papaya Responds to Soil Fumigation|Hawaii Farm Sci.6(4): 6-7|1958|
89625|A||Tierney,K.B., C.R. Singh, P.S. Ross, and C.J. Kennedy|Relating Olfactory Neurotoxicity to Altered Olfactory-Mediated Behaviors in Rainbow Trout Exposed to Three Currently-Used Pesticides|Aquat. Toxicol.81(1): 55-64|2007|10.1016/j.aquatox.2006.11.006
89626|A||Wan,M.T., C. Buday, G. Schroeder, J. Kuo, and J. Pasternak|Toxicity to Daphnia magna, Hyalella azteca, Oncorhynchus kisutch, Oncorhynchus mykiss, Oncorhynchus tshawytscha, and Rana catesbeiana of Atrazine, Metolachlor, Simazine, and Their Formulated Products|Bull. Environ. Contam. Toxicol.76(1): 52-58|2006|10.1007/s00128-005-0888-4
89627|A||Lawton,J.C., P.L. Pennington, K.W. Chung, and G.I. Scott|Toxicity of Atrazine to the Juvenile Hard Clam, Mercenaria mercenaria|Ecotoxicol. Environ. Saf.65(3): 388-394|2006|10.1016/j.ecoenv.2005.08.001
89628|A||Gonzalez-Barreiro,O., C. Rioboo, C. Herrero, and A. Cid|Removal of Triazine Herbicides from Freshwater Systems Using Photosynthetic Microorganisms|Environ. Pollut.144(1): 266-271|2006|10.1016/j.envpol.2005.12.014
89629|A||Guasch,H., V. Lehmann, B. Van Beusekom, S. Sabater, and W. Admiraal|Influence of Phosphate on the Response of Periphyton to Atrazine Exposure|Arch. Environ. Contam. Toxicol.52(1): 32-37|2007|10.1007/s00244-005-0186-5
89630|A||Bouldin,J.L., J.L. Farris, M.T. Moore, S.,Jr. Smith, and C.M. Cooper|Hydroponic Uptake of Atrazine and lambda-Cyhalothrin in Juncus effusus and Ludwigia peploides|Chemosphere65(6): 1049-1057|2006|10.1016/j.chemosphere.2006.03.031
89631|A||Tatarazako,N., H. Ishibashi, K. Teshima, K. Kishi, and K. Arizono|Effects of Triclosan on Various Aquatic Organisms|Environ. Sci.11(2): 133-140|2004|
89632|A||Hohnberg,D.B., P.J. Ralph, and H.A. Jones|Toxicity of the Herbicide Atrazine at Environmental Concentrations to Vallisneria gigantea, Assessed Using Chlorophyll Fluorescence|Australas. J. Ecotoxicol.9(2): 93-100|2003|
89633|A||Sandland,G.J., and N. Carmosini|Combined Effects of a Herbicide (Atrazine) and Predation on the Life History of a Pond Snail, Physa gyrina|Environ. Toxicol. Chem.25(8): 2216-2220|2006|10.1897/05-596R.1
89634|T||Su,Y.H., Y.G. Zhu, and X. Du|Co-Uptake of Atrazine and Mercury by Rice Seedlings from Water|Pestic. Biochem. Physiol.82:226-232|2005|10.1016/j.pestbp.2005.03.002
89635|A||Rider,C.V., and G.A. LeBlanc|Atrazine Stimulates Hemoglobin Accumulation in Daphnia magna:  Is it Hormonal or Hypoxic?|Toxicol. Sci.93(2): 443-449|2006|10.1093/toxsci/kfl067
89636|T||Johnson,G.R., B.L. Gartner, D. Maguire, and A. Kanaskie|Influence of Bravo Fungicide Applications on Wood Density and Moisture Content of Swiss Needle Cast Affected Douglas-Fir Trees|For. Ecol. Manag.186(1-3): 339-348|2003|10.1016/S0378-1127(03)00305-0
89637|A||Tierney,K.B., P.S. Ross, H.E. Jarrard, K.R. Delaney, and C.J. Kennedy|Changes in Juvenile Coho Salmon Electro-Olfactogram During and After Short-Term Exposure to Current-Use Pesticides|Environ. Toxicol. Chem.25(10): 2809-2817|2006|10.1897/05-629R1.1
89638|T||Rosner,E., C. Klos, and W. Dekant|Biotransformation of the Fungicide Chlorthalonil by Glutathione Conjugation|Fundam. Appl. Toxicol.33(2): 229-234|1996|10.1006/faat.1996.0160
89639|T||Smitley,D.R., and N.L. Rothwell|How the Use of Chlorothalonil on Golf Courses Impacts Paenibacillus sp., a Pathogen of Ataenius spretulus (Coleoptera:  Scarabaeidae)|J. Econ. Entomol.96(3): 792-797|2003|10.1603/0022-0493-96.3.792
89640|A||Figueiredo-Fernandes,A., A. Fontainhas-Fernandes, R. Monteiro, M.A. Reis-Henriques, and E. Rocha|Effects of the Fungicide Mancozeb on Liver Structure of Nile Tilapia, Oreochromis niloticus: Assessment and Quantification of Induced Cytological Changes Using Qualitative Histopathology and the Stereological Point-Samp|Bull. Environ. Contam. Toxicol.76(2): 249-255|2006|10.1007/s00128-006-0914-1
89641|A||Fort,D.J., R.L. Rogers, H.F. Copley, L.A. Bruning, E.L. Stover, J.C. Helgen, and J.G. Burkhart|Progress Toward Identifying Causes of Maldevelopment Induced in Xenopus by Pond Water and Sediment Extracts from Minnesota, USA|Environ. Toxicol. Chem.18(10): 2316-2324|1999|10.1002/etc.1999.18.10.2316
89642|A||Katsumata,M., T. Koike, M. Nishikawa, K. Kazumura, and H. Tsuchiya|Rapid Ecotoxicological Bioassay Using Delayed Fluorescence in the Green Alga Pseudokirchneriella subcapitata|Water Res.40(18): 3393-3400|2006|10.1016/j.watres.2006.07.016
89643|T||Kahlon,P.S., and M.R. Banerjee|Evaluation of Bravo, Phosdrin and Telvar as Possible Environmental Mutagens|Bull. Environ. Contam. Toxicol.22(3): 365-370|1979|10.1007/BF02026956
89644|T||Sanchez-Moreno,S., and H. Ferris|Suppressive Service of the Soil Food Web:  Effects of Environmental Management|Agric. Ecosyst. Environ.119(1-2): 75-87|2007|10.1016/j.agee.2006.06.012
89645|A||Weiner,J.A., M.E. DeLorenzo, and M.H. Fulton|Atrazine Induced Species-Specific Alterations in the Subcellular Content of Microalgal Cells|Pestic. Biochem. Physiol.87(1): 47-53|2007|10.1016/j.pestbp.2006.06.003
89646|T||Taylor,J.D., C.S. Bundy, M.L. Wells, and R.M. McPherson|Control of Stink Bugs and Lepidopterans on Georgia Soybeans, 1997|Arthropod Manag. Tests23:284-285|1998|10.1093/amt/23.1.284
89647|T||Szepvolgyi,J., K. Nagy, K.S. Vukan, A. Regoly-Merei, K. Soos, K. Toth, A. Pinter, and M. Antal|Subacute Toxicological Examination of Dithane M-45|Food Chem. Toxicol.27(8): 531-538|1989|10.1016/0278-6915(89)90049-5
89648|T||Shelton,A.M., and W.T. Wilsey|Control of Corn Lepidoptera with Foliar Applications, 1997|Arthropod Manag. Tests23:100-101|1998|10.1093/amt/23.1.100
89651|T||Antonious,G.F., and M.E. Byers|Esfenvalerate Residues on Pepper and Pumpkin Following Application for Control of Cucumber Beetles (Coleoptera:  Chrysomelidae)|J. Entomol. Sci.29(4): 441-449|1994|10.18474/0749-8004-29.4.441
89652|T||Villanueva,G.R., L.I. Sanchez-Abarca, P. Bravo, M.Y. El-Mir, and J.J.G. Marin|Assessment of Hepatobiliary Function and Placental Barrier Integrity in Pregnant Rats by Combination of Bromosulphophthalein and Fluorescein Isothiocyanate Plasma Disappearance Tests|Int. J. Exp. Pathol.76(3): 183-190|1995|
89653|T||French,N., A.J. Wright, W.R. Wilson, and D.B.R. Nichols|Control of Headfly on Sheep|Vet. Rec.100(3): 40-43|1977|10.1136/vr.100.3.40
89654|T||Gass,P., T. Herdegen, R. Bravo, and M. Kiessling|Induction and Suppression of Immediate Early Genes in Specific Rat Brain Regions by the Non-Competitive N-Methyl-D-Aspartate Receptor Antagonist MK-801|Neuroscience53(3): 749-758|1993|10.1016/0306-4522(93)90621-L
89655|T||Fraga,M.I., and M.G. Tasende|Mechanisms of Resistance to Simazine in Sonchus oleraceus|Weed Res. (Multiple Languages)43(5): 333-340|2003|10.1046/j.1365-3180.2003.00348.x
89656|T||Schnabel,W.E., and D.M. White|The Effect of Mycorrhizal Fungi on the Fate of Aldrin:  Phytoremediation Potential|Int. J. Phytoremediat.3(2): 221-241|2001|10.1080/15226510108500058
89659|T||Parameswaran,T.N., A. Kalra, and N.S. Ravindra|Efficacy of Different Fungicides for the Control of Leaf Blight of French Jasmine|Indian J. Mycol. Plant Pathol.26(2): 230-231|1996|
89662|T||Baur,M.E., B.J. Fitzpatrick, D.J. Boethel, S. Micinski, and J.L. Rabb|Evaluation of Soybean Looper Control Using Bacillus thuringiensis Biocides on Soybean in Louisiana, 1997|Arthropod Manag. Tests23:279-|1998|10.1093/amt/23.1.279
89663|T||Fife,J.H., B.R. Leonard, and D.J. Boethel|Control of Soybean Looper and Beet Armyworm in the Macon Ridge Region of Louisiana, 1997|Arthropod Manag. Tests23:279-280|1998|10.1093/amt/23.1.279a
89664|T||Herbert,D.A.,Jr.|Selected Insecticides for Control of Corn Earworm and Green Cloverworm in Soybean in Virginia, 1997|Arthropod Manag. Tests23:281-282|1998|10.1093/amt/23.1.281
89665|T||Mascarenhas,R.N., B.J. Fitzpatrick, M.L. Boyd, C.G. Clemens, V.J. Mascarenhas, and D.J. Boethel|Evaluation of Selected Experimental and Standard Insecticides Against Soybean Looper and Bean Leaf Beetle, 1996|Arthropod Manag. Tests22:315-|1997|
89666|T||Wilkins,R.M., M.A. Saleem, and C. Rajendran|Synergism of Insecticidal Action and Effects on Detoxifying Enzymes In Vivo of lambda-Cyhalothrin and Malathion by Some Nitrogen Heterocycles in Resistant and Susceptible Strains of Tribolium castaneum|Pestic. Sci.43(4): 321-331|1995|10.1002/ps.2780430412
89667|A||Jacomini,A.E., P.S. Bonato, and W.E.P. Avelar|HPLC Method for the Analysis of Atrazine in Freshwater Bivalves|J. Liq. Chromatogr. Related Technol.26(12): 1885-1894|2003|10.1081/JLC-120021757
89668|A||Hoffmann,J.L., S.P. Torontali, R.G. Thomason, D.M. Lee, J.L. Brill, B.B. Price, G.J. Carr, and D.J. Versteeg|Hepatic Gene Expression Profiling Using Genechips in Zebrafish Exposed to 17alpha-Ethynylestradiol|Aquat. Toxicol.79(3): 233-246|2006|10.1016/j.aquatox.2006.06.009
89670|A||Dahl,U., E. Gorokhova, and M. Breitholtz|Application of Growth-Related Sublethal Endpoints in Ecotoxicological Assessments Using a Harpacticoid Copepod|Aquat. Toxicol.77(4): 433-438|2006|10.1016/j.aquatox.2006.01.014
89671|A||Kunz,P.Y., and K. Fent|Multiple Hormonal Activities of UV Filters and Comparison of In Vivo and In Vitro Estrogenic Activity of Ethyl-4-Aminobenzoate in Fish|Aquat. Toxicol.79(4): 305-324|2006|10.1016/j.aquatox.2006.06.016
89672|A||Puinean,A.M., P. Labadie, E.M. Hill, M. Osada, M. Kishida, R. Nakao, A. Novillo, I.P. Callard, and J.M. Rotchell|Laboratory Exposure to 17beta-Estradiol Fails to Induce Vitellogenin and Estrogen Receptor Gene Expression in the Marine Invertebrate Mytilus edulis|Aquat. Toxicol.79(4): 376-383|2006|10.1016/j.aquatox.2006.07.006
89673|A||Szczerbik,P., T. Mikolajczyk, M. Sokolowska-Mikolajczyk, M. Socha, J. Chyb, and P. Epler|Influence of Long-Term Exposure to Dietary Cadmium on Growth, Maturation and Reproduction of Goldfish (Subspecies:  Prussian Carp Carassius auratus gibelio B.)|Aquat. Toxicol.77(2): 126-135|2006|10.1016/j.aquatox.2005.11.005
89674|A||Schriks,M., M.K. Van Hoorn, E.J. Faassen, J.W. Van Dam, and A.J. Murk|Real-Time Automated Measurement of Xenopus leavis Tadpole Behavior and Behavioral Responses Following Triphenyltin Exposure Using the Multispecies Freshwater Biomonitor (MFB)|Aquat. Toxicol.77(3): 298-305|2006|10.1016/j.aquatox.2005.12.011
89675|A||Shaw,B.J., and R.D. Handy|Dietary Copper Exposure and Recovery in Nile Tilapia, Oreochromis niloticus|Aquat. Toxicol.76(2): 111-121|2006|10.1016/j.aquatox.2005.10.002
89676|A||Kuiper,R.V., A.J. Murk, P.E.G. Leonards, G.C.M. Grinwis, M. Van den Berg, and J.G. Vos|In Vivo and In Vitro Ah-Receptor Activation by Commercial and Fractionated Pentabromodiphenylether Using Zebrafish (Danio rerio) and the DR-CALUX Assay|Aquat. Toxicol.79(4): 366-375|2006|10.1016/j.aquatox.2006.07.005
89677|A||Reynders,H., K. Van der Ven, L.N. Moens, P. Van Remortel, W.M. De Coen, and R. Blust|Patterns of Gene Expression in Carp Liver After Exposure to a Mixture of Waterborne and Dietary Cadmium Using a Custom-made Microarray|Aquat. Toxicol.80(2): 180-193|2006|10.1016/j.aquatox.2006.08.009
89678|A||Regoli,F., M. Nigro, M. Benedetti, D. Fattorini, and S. Gorbi|Antioxidant Efficiency in Early Life Stages of the Antarctic Silverfish, Pleuragramma antarcticum:  Responsiveness to Pro-oxidant Conditions of Platelet Ice and Chemical Exposure|Aquat. Toxicol.75(1): 43-52|2005|10.1016/j.aquatox.2005.07.003
89679|A||Cong,L., Z.F. Qin, X.N. Jing, L. Yang, J.M. Zhou, and X.B. Xu|Xenopus laevis is a Potential Alternative Model Animal Species to Study Reproductive Toxicity of Phytoestrogens|Aquat. Toxicol.77(3): 250-256|2006|10.1016/j.aquatox.2005.12.014
89680|A||Panter,G.H., T.H. Hutchinson, K.S. Hurd, J. Bamforth, R.D. Stanley, S. Duffell, A. Hargreaves, S. Gimeno, and C.R. Tyle|Development of Chronic Tests for Endocrine Active Chemicals:  Part 1.  An Extended Fish Early-Life Stage Test for Oestrogenic Active Chemicals in the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.77(3): 279-290|2006|10.1016/j.aquatox.2006.01.004
89682|T||Lindroth,R.L., and J.D.C. Hemming|Responses of the Gypsy Moth (Lepidoptera:  Lymantriidae) to Tremulacin, an Aspen Phenolic Glycoside|Environ. Entomol.19(4): 842-847|1990|10.1093/ee/19.4.842
89683|T||Hoy,J.B.|Long-Term Effects of Lindane on the Oribatid Community in a Pine Plantation|Environ. Entomol.19(4): 898-900|1990|10.1093/ee/19.4.898
89684|T||Purcell,M., and S.C. Welter|Degree-Day Model for Development of Calocoris norvegicus (Hemiptera:  Miridae) and Timing of Management Strategies|Environ. Entomol.19(4): 848-853|1990|10.1093/ee/19.4.848
89685|T||Sharp,B.L., D. Le Sueur, and P. Bekker|Effect of DDT on Survival and Blood Feeding Success of Anopheles arabiensis in Northern Kwazulu, Republic of South Africa|Am. Mosq. Control Assoc. J.6(2): 197-202|1990|
89686|A||Brooks,M.L., C.J. Boese, and J.S. Meyer|Complexation and Time-Dependent Accumulation of Copper by Larval Fathead Minnows (Pimephales promelas):  Implications for Modeling Toxicity|Aquat. Toxicol.78(1): 42-49|2006|10.1016/j.aquatox.2006.02.002
89687|A||Taylor,L.N., W.J. McFarlane, G.G. Pyle, P. Couture, and D.G. McDonald|Use of Performance Indicators in Evaluating Chronic Metal Exposure in Wild Yellow Perch (Perca flavescens)|Aquat. Toxicol.67(4): 371-385|2004|10.1016/j.aquatox.2004.01.018
89688|A||Cakmak,G., I. Togan, and F. Severcan|17beta-Estradiol Induced Compositional, Structural and Functional Changes in Rainbow Trout Liver, Revealed by FT-IR Spectroscopy:  A Comparative Study with Nonylphenol|Aquat. Toxicol.77(1): 53-63|2006|10.1016/j.aquatox.2005.10.015
89689|A||Zhu,J.Y., H.Q. Huang, X.D. Bao, Q.M. Lin, and Z. Cai|Acute Toxicity Profile of Cadmium Revealed by Proteomics in Brain Tissue of Paralichthys olivaceus:  Potential Role of Transferrin in Cadmium Toxicity|Aquat. Toxicol.78(2): 127-135|2006|10.1016/j.aquatox.2006.02.010
89690|A||Yu,R.M.K., M.M.L. Wong, R.Y.C. Kong, R.S.S. Wu, and S.H. Cheng|Induction of Hepatic Choriogenin mRNA Expression in Male Marine Medaka:  A Highly Sensitive Biomarker for Environmental Estrogens|Aquat. Toxicol.77(4): 348-358|2006|10.1016/j.aquatox.2006.01.003
89691|A||Xu,W.H., X.B. Zhu, X.T. Wang, L.P. Deng, and G. Zhang|Residues of Enrofloxacin, Furazolidone and Their Metabolites in Nile Tilapia (Oreochromis niloticus)|Aquaculture254(1-4): 1-8|2006|10.1016/j.aquaculture.2005.10.030
89692|A||Vanucci,S., D. Minerdi, K. Kadomatsu, A. Mengoni, and M. Bazzicalupo|Putative Midkine Family Protein Up-Regulation in Patella caerulea (Mollusca, Gastropoda) Exposed to Sublethal Concentrations of Cadmium|Aquat. Toxicol.75(4): 374-379|2005|10.1016/j.aquatox.2005.08.014
89693|A||Tyrpenou,A.E., E.G. Iossifidou, I.E. Psomas, and G.D. Fotis|Tissue Distribution and Depletion of Sarafloxacin Hydrochloride After In Feed Administration in Gilthead Seabream (Sparus aurata)|Aquaculture215(1-4): 291-300|2003|10.1016/S0044-8486(02)00367-8
89694|A||Prieto,A.I., A. Jos, S. Pichardo, I. Moreno, and A.M. Camean|Differential Oxidative Stress Responses to Microcystins LR and RR in Intraperitoneally Exposed Tilapia Fish (Oreochromis sp.)|Aquat. Toxicol.77(3): 314-321|2006|10.1016/j.aquatox.2005.12.012
89695|A||Pieters,B.J., and M. Liess|Maternal Nutritional State Determines the Sensitivity of Daphnia magna Offspring to Short-Term Fenvalerate Exposure|Aquat. Toxicol.76(3-4): 268-277|2006|10.1016/j.aquatox.2005.09.013
89696|A||Rosa,E., C. Barata, J. Damasio, M.P. Bosch, and A. Guerrero|Aquatic Ecotoxicity of a Pheromonal Antagonist in Daphnia magna and Desmodesmus subspicatus|Aquat. Toxicol.79(3): 296-303|2006|10.1016/j.aquatox.2006.06.019
89697|A||Roy,W.J., N. Gillan, L. Crouch, R. Parker, H. Rodger, and R. Endris|Depletion of Emamectin Residues Following Oral Administration to Rainbow Trout, Oncorhynchus mykiss|Aquaculture259(1-4): 6-16|2006|10.1016/j.aquaculture.2006.02.069
89698|A||Ruangsomboon,S., and L. Wongrat|Bioaccumulation of Cadmium in an Experimental Aquatic Food Chain Involving Phytoplankton (Chlorella vulgaris), Zooplankton (Moina macrocopa), and the Predatory Catfish Clarias macrocephalus  x  C. gariepinus|Aquat. Toxicol.78(1): 15-20|2006|10.1016/j.aquatox.2006.01.015
89699|A||Silvestre,F., J.F. Dierick, V. Dumont, M. Dieu, M. Raes, and P. Devos|Differential Protein Expression Profiles in Anterior Gills of Eriocheir sinensis During Acclimation to Cadmium|Aquat. Toxicol.76(1): 46-58|2006|10.1016/j.aquatox.2005.09.006
89700|A||Tierney,K.B., A.L. Taylor, P.S. Ross, and C.J. Kennedy|The Alarm Reaction of Coho Salmon Parr is Impaired by the Carbamate Fungicide IPBC|Aquat. Toxicol.79(2): 149-157|2006|10.1016/j.aquatox.2006.06.003
89701|T||Kerem,Z., and Y. Hadar|Effect of Manganese on Preferential Degradation of Lignin by Pleurotus Ostreatus During Solid-State Fermentation|Appl. Environ. Microbiol.61(8): 3057-3062|1995|10.1128/aem.61.8.3057-3062.1995
89702|A||Pawlik-Skowronska,B., J. Pirszel, R. Kalinowska, and T. Skowronski|Arsenic Availability, Toxicity and Direct Role of GSH and Phytochelatins in As Detoxification in the Green Alga Stichococcus bacillaris|Aquat. Toxicol.70(3): 201-212|2004|10.1016/j.aquatox.2004.09.003
89703|A||Patel,M.R., B.E. Scheffler, L. Wang, and K.L. Willett|Effects of Benzo(a)pyrene Exposure on Killifish (Fundulus heteroclitus) Aromatase Activities and mRNA|Aquat. Toxicol.77(3): 267-278|2006|10.1016/j.aquatox.2005.12.009
89704|A||Pane,E.F., A. Haque, and C.M. Wood|Mechanistic Analysis of Acute, Ni-Induced Respiratory Toxicity in the Rainbow Trout (Oncorhynchus mykiss):  An Exclusively Branchial Phenomenon|Aquat. Toxicol.69(1): 11-24|2004|10.1016/j.aquatox.2004.04.009
89705|A||Zhou,B., W. Liu, W.H.L. Siu, D. O'Toole, P.K.S. Lam, and R.S.S. Wu|Exposure of Spermatozoa to Duroquinone may Impair Reproduction of the Common Carp (Cyprinus carpio) Through Oxidative Stress|Aquat. Toxicol.77(2): 136-142|2006|10.1016/j.aquatox.2005.11.006
89706|A||Hirai,N., A. Nanba, M. Koshio, T. Kondo, M. Morita, and N. Tatarazako|Feminization of Japanese Medaka (Oryzias latipes) Exposed to 17beta-Estradiol:  Formation of Testis-Ova and Sex-Transformation During Early-Ontogeny|Aquat. Toxicol.77(1): 78-86|2006|10.1016/j.aquatox.2005.11.001
89707|A||Lavado,R., M. Sugni, M.D.C. Carnevali, and C. Porte|Triphenyltin Alters Androgen Metabolism in the Sea Urchin Paracentrotus lividus|Aquat. Toxicol.79(3): 247-256|2006|10.1016/j.aquatox.2006.06.012
89708|A||Mamaca,E., R.K. Bechmann, S. Torgrimsen, E. Aas, A. Bjornstad, T. Baussant, and S. Le Floch|The Neutral Red Lysosomal Retention Assay and Comet Assay on Haemolymph Cells from Mussels (Mytilus edulis) and Fish (Symphodus melops) Exposed to Styrene|Aquat. Toxicol.75(3): 191-201|2005|10.1016/j.aquatox.2005.08.001
89709|A||Larsen,B.K., A. Bjornstad, R.C. Sundt, I.C. Taban, D.M. Pampanin, and O.K. Andersen|Comparison of Protein Expression in Plasma from Nonylphenol and Bisphenol A-Exposed Atlantic Cod (Gadus morhua) and Turbot (Scophthalmus maximus) by use of SELDI-TOF|Aquat. Toxicol.78S(Suppl. 1): S25 - S33|2006|
89710|A||Lannig,G., J.F. Flores, and I.M. Sokolova|Temperature-Dependent Stress Response in Oysters, Crassostrea virginica:  Pollution Reduces Temperature Tolerance in Oysters|Aquat. Toxicol.79(3): 278-287|2006|10.1016/j.aquatox.2006.06.017
89711|A||Han,T., and G.W. Choi|A Novel Marine Algal Toxicity Bioassay Based on Sporulation Inhibition in the Green Macroalga Ulva pertusa (Chlorophyta)|Aquat. Toxicol.75(3): 202-212|2005|10.1016/j.aquatox.2005.08.003
89712|A||Lahnsteiner,F., B. Berger, M. Kletzl, and T. Weismann|Effect of 17beta-Estradiol on Gamete Quality and Maturation in Two Salmonid Species|Aquat. Toxicol.79(2): 124-131|2006|10.1016/j.aquatox.2006.05.011
89713|A||Lahnsteiner,F., B. Berger, M. Kletzl, and T. Weismann|Effect of Bisphenol A on Maturation and Quality of Semen and Eggs in the Brown Trout, Salmo trutta f. fario|Aquat. Toxicol.75(3): 213-224|2005|10.1016/j.aquatox.2005.08.004
89714|A||Sugiura,S.H., F.M. Dong, and R.W. Hardy|Effects of Dietary Supplements on the Availability of Minerals in Fish Meal; Preliminary Observations|Aquaculture160(3-4): 283-303|1998|10.1016/S0044-8486(97)00302-5
89715|A||Gomiero,A., D.M. Pampanin, A. Bjornstad, B.K. Larsen, F. Provan, E. Lyng, and O.K. Andersen|An Ecotoxicoproteomic Approach (SELDI-TOF Mass Spectrometry) to Biomarker Discovery in Crab Exposed to Pollutants Under Laboratory Conditions|Aquat. Toxicol.78(Suppl. 1): S34 - S41|2006|
89716|A||Bettini,S., F. Ciani, and V. Franceschini|Recovery of the Olfactory Receptor Neurons in the African Tilapia mariae Following Exposure to Low Copper Level|Aquat. Toxicol.76(3/4): 321-328|2006|10.1016/j.aquatox.2005.10.009
89717|A||Sanchez-Bayo,F., and K. Goka|Influence of Light in Acute Toxicity Bioassays of Imidacloprid and Zinc Pyrithione to Zooplankton Crustaceans|Aquat. Toxicol.78(3): 262-271|2006|10.1016/j.aquatox.2006.03.009
89718|A||Sundt,R.C., D.M. Pampanin, B.K. Larsen, C. Brede, D. Herzke, A. Bjornstad, and O.K. Andersen|The BEEP Stavanger Workshop: Mesocosm Exposures|Aquat. Toxicol.78(Suppl. 1): S5 - S12|2006|
89719|T||Li,D., M. Ic, J.A. Brown, and M.H. Gold|Regulation of Manganese Peroxidase Gene Transcription by Hydrogen Peroxide, Chemical Stress, and Molecular Oxygen|Appl. Environ. Microbiol.61(1): 341-345|1995|10.1128/aem.61.1.341-345.1995
89720|T||Page,V., and U. Feller|Selective Transport of Zinc, Manganese, Nickel, Cobalt and Cadmium in the Root System and Transfer to the Leaves in Young Wheat Plants|Ann. Bot.96(3): 425-434|2005|10.1093/aob/mci189
89721|A||Paris-Palacios,S., and S. Biagianti-Risbourg|Hepatocyte Nuclear Structure and Subcellular Distribution of Copper in Zebrafish Brachydanio rerio and Roach Rutilus rutilus (Teleostei, Cyprinidae) Exposed to Copper Sulphate|Aquat. Toxicol.77(3): 306-313|2006|10.1016/j.aquatox.2006.01.001
89722|A||Pane,E.F., M.D. McDonald, H.N. Curry, J. Blanchard, C.M. Wood, and M. Grosell|Hydromineral Balance in the Marine Gulf Toadfish (Opsanus beta) Exposed to Waterborne or Infused Nickel|Aquat. Toxicol.80(1): 70-81|2006|10.1016/j.aquatox.2006.07.015
89723|A||Niyogi,S., C.N. Kamunde, and C.M. Wood|Food Selection, Growth and Physiology in Relation to Dietary Sodium Chloride Content in Rainbow Trout (Oncorhynchus mykiss) Under Chronic Waterborne Cu Exposure|Aquat. Toxicol.77(2): 210-221|2006|10.1016/j.aquatox.2005.12.005
89724|A||Nielsen,L., and E. Baatrup|Quantitative Studies on the Effects of Environmental Estrogens on the Testis of the Guppy, Poecilia reticulata|Aquat. Toxicol.80(2): 140-148|2006|10.1016/j.aquatox.2006.08.004
89726|A||Hirai,N., A. Nanba, M. Koshio, T. Kondo, M. Morita, and N. Tatarazako|Feminization of Japanese Medaka (Oryzias latipes) Exposed to 17[beta]-Estradiol:  Effect of Exposure Period on Spawning Performance in Sex-Transformed Females|Aquat. Toxicol.79(3): 288-295|2006|10.1016/j.aquatox.2006.06.018
89728|A||Kuykendall,J.R., K.L. Miller, K.N. Mellinger, and A.V. Cain|Waterborne and Dietary Hexavalent Chromium Exposure Causes DNA-Protein Crosslink (DPX) Formation in Erythrocytes of Largemouth Bass (Micropterus salmoides)|Aquat. Toxicol.78(1): 27-31|2006|10.1016/j.aquatox.2006.01.019
89729|A||Krang,A.S., and G. Rosenqvist|Effects of Manganese on Chemically Induced Food Search Behaviour of the Norway Lobster, Nephrops norvegicus (L.)|Aquat. Toxicol.78(3): 284-291|2006|10.1016/j.aquatox.2006.04.001
89732|A||Krang,A.S., and M. Ekerholm|Copper Reduced Mating Behaviour in Male Shore Crabs (Carcinus maenas (L.))|Aquat. Toxicol.80(1): 60-69|2006|10.1016/j.aquatox.2006.07.014
89733|A||Gonzalez,H.O., J.A. Roling, W.S. Baldwin, and L.J. Bain|Physiological Changes and Differential Gene Expression in Mummichogs (Fundulus heteroclitus) Exposed to Arsenic|Aquat. Toxicol.77(1): 43-52|2006|10.1016/j.aquatox.2005.10.014
89734|A||Hoffmann,J.L., and J.T. Oris|Altered Gene Expression:  A Mechanism for Reproductive Toxicity in Zebrafish Exposed to Benzo(a)pyrene|Aquat. Toxicol.78(4): 332-340|2006|10.1016/j.aquatox.2006.04.007
89735|A||Gorbi,G., E. Torricelli, B. Pawlik-Skowronska, L.S. Di Toppi, C. Zanni, and M.G. Corradi|Differential Responses to Cr(VI)-Induced Oxidative Stress Between Cr-Tolerant and Wild-Type Strains of Scenedesmus acutus (Chlorophyceae)|Aquat. Toxicol.79(2): 132-139|2006|10.1016/j.aquatox.2006.06.002
89736|A||De Lange,H.J., W. Noordoven, A.J. Murk, M. Lurling, and E.T.H.M. Peeters|Behavioural Responses of Gammarus pulex (Crustacea, Amphipoda) to Low Concentrations of Pharmaceuticals|Aquat. Toxicol.78(3): 209-216|2006|10.1016/j.aquatox.2006.03.002
89737|A||Hiriart-Baer,V.P., C. Fortin, D.Y. Lee, and P.G.C. Campbell|Toxicity of Silver to Two Freshwater Algae, Chlamydomonas reinhardtii and Pseudokirchneriella subcapitata, Grown Under Continuous Culture Conditions:  Influence of Thiosulphate|Aquat. Toxicol.78(2): 136-148|2006|10.1016/j.aquatox.2006.02.027
89738|A||De Boeck,G., K. Van der Ven, J. Hattink, and R. Blust|Swimming Performance and Energy Metabolism of Rainbow Trout, Common Carp and Gibel Carp Respond Differently to Sublethal Copper Exposure|Aquat. Toxicol.80(1): 92-100|2006|10.1016/j.aquatox.2006.07.017
89739|A||Garcia-Reyero,N., D.S. Barber, T.S. Gross, K.G. Johnson, M.S. Sepulveda, N.J. Szabo, and N.D. Denslow|Dietary Exposure of Largemouth Bass to OCPs Changes Expression of Genes Important for Reproduction|Aquat. Toxicol.78(4): 358-369|2006|10.1016/j.aquatox.2006.05.003
89740|A||Cooper,N.L., and J.R. Bidwell|Cholinesterase Inhibition and Impacts on Behavior of the Asian Clam, Corbicula fluminea, After Exposure to an Organophosphate Insecticide|Aquat. Toxicol.76(3-4): 258-267|2006|10.1016/j.aquatox.2005.09.012
89741|A||Cazenave,J., M.A. Bistoni, S.F. Pesce, and D.A. Wunderlin|Differential Detoxification and Antioxidant Response in Diverse Organs of Corydoras paleatus Experimentally Exposed to Microcystin-RR|Aquat. Toxicol.76(1): 1-12|2006|10.1016/j.aquatox.2005.08.011
89742|A||Cooper,C.A., R.D. Handy, and N.R. Bury|The Effects of Dietary Iron Concentration on Gastrointestinal and Branchial Assimilation of both Iron and Cadmium in Zebrafish (Danio rerio)|Aquat. Toxicol.79(2): 167-175|2006|10.1016/j.aquatox.2006.06.008
89743|A||Burnison,B.K., T. Meinelt, R. Playle, M. Pietrock, A. Wienke, and C.E.W. Steinberg|Cadmium Accumulation in Zebrafish (Danio rerio) Eggs is Modulated by Dissolved Organic Matter (DOM)|Aquat. Toxicol.79(2): 185-191|2006|10.1016/j.aquatox.2006.06.010
89744|A||Blanchard,J., and M. Grosell|Copper Toxicity Across Salinities from Freshwater to Seawater in the Euryhaline Fish Fundulus heteroclitus:  Is Copper an Ionoregulatory Toxicant in High Salinities?|Aquat. Toxicol.80(2): 131-139|2006|10.1016/j.aquatox.2006.08.001
89745|A||Bolognesi,C., E. Perrone, P. Roggieri, D.M. Pampanin, and A. Sciutto|Assessment of Micronuclei Induction in Peripheral Erythrocytes of Fish Exposed to Xenobiotics Under Controlled Conditions|Aquat. Toxicol.78(Suppl. 1): 93-98|2006|
89746|A||Bouilly,K., B. Gagnaire, M. Bonnard, H. Thomas-Guyon, T. Renault, P. Miramand, and S. Lapegue|Effects of Cadmium on Aneuploidy and Hemocyte Parameters in the Pacific Oyster, Crassostrea gigas|Aquat. Toxicol.78(2): 149-156|2006|10.1016/j.aquatox.2006.02.028
89747|A||Cajaraville,M.P., and M. Ortiz-Zarragoitia|Specificity of the Peroxisome Proliferation Response in Mussels Exposed to Environmental Pollutants|Aquat. Toxicol.78(suppl. 1): S117 - S123|2006|
89748|A||Bogers,R., S. De Vries-Buitenweg, M. Van Gils, E. Baltussen, A. Hargreaves, B. Van de Waart, D. De Roode, J. Legler, an|Development of Chronic Tests for Endocrine Active Chemicals:  Part 2:  An Extended Fish Early-Life Stage Test with an Androgenic Chemical in the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.80(2): 119-130|2006|10.1016/j.aquatox.2006.07.020
89749|T||Bostanian,N.J., C. Vincent, D. Pitre, and L.G. Simard|Chemical Control of Key and Secondary Arthropod Pests of Quebec Apple Orchards|Appl. Agric. Res.4(3): 179-184|1989|
89750|T||Godard,T., V. Fessard, S. Huet, A. Mourot, E. Deslandes, D. Pottier, O. Hyrien, F. Sichel, P. Gauduchon, and J.M. Poul|Comparative In Vitro and In Vivo Assessment of Genotoxic Effects of Etoposide and Chlorothalonil by the Comet Assay|Mutat. Res.444(1): 103-116|1999|10.1016/S1383-5718(99)00100-X
89751|T||Creffield,J.W., and N. Chew|Efficacy of Chlorothalonil and Chlorothalonil plus Chlorpyrifos Against Termite Attack|For. Prod. J.45(2): 46-50|1995|
89752|T||Nikoukar,N., E.P. Kumar, B. Suresh, S.M. Sualiman, and B.V. Venkataraman|Blood Cholinesterase Activities After Malathion Poisoning in Liver Injury|Indian J. Physiol. Pharmacol.43(1): 99-103|1999|
89753|T||Balasubramanian,K., A.P. Vijayan, P.H. Ananthanarayanan, and A. Balasubramanian|Effect of Malathion on the Liver of Male Albino Rats|Med. Sci. Res.15(18): 1121-1122|1987|
89754|A||Jyoti,A., A.A. Khan, N. Haque, M. Fatima, and S.I. Barbhuyan|Studies on the Effect of Malathion on a Freshwater Fish, Channa punctatus (Bloch)|J. Environ. Biol.10(3): 251-257|1989|
89755|T||Condie,L.W., F.B. Daniel, G.R. Olson, and M. Robinson|Ten and Ninety-Day Toxicity Studies of Chloropicrin in Sprague-Dawley Rats|Drug Chem. Toxicol.17(2): 125-137|1994|10.3109/01480549409014306
89756|T||Serrano,M.A., R.I.R. Macias, M. Vallejo, O. Briz, A. Bravo, M.J. Pascual, M.V. St-Pierre, B. Stieger, P.J. Meier, and J|Effect of Ursodeoxycholic Acid on the Impairment Induced by Maternal Cholestasis in the Rat Placenta-Maternal Liver Tandem Excretory Pathway|J. Pharmacol. Exp. Ther.305(2): 515-524|2003|10.1124/jpet.102.047977
89757|T||Furstenberger,G., M. De Bravo, S. Bertsch, and F. Marks|The Effect of Indomethacin on Cell Proliferation Induced by Chemical and Mechanical Means in Mouse Epidermis In Vivo|Res. Commun. Chem. Pathol. Pharmacol.24(3): 533-541|1979|
89758|T||Perez-Martinez,C., M.J. Garcia-Iglesias, A.M. Bravo-Moral, M.C. Ferreras-Estrada, J.M. Martinez-Rodriguez, and A. Escud|Effect of Diethylstilbestrol or Zeranol on Fetal Development, Gestation Duration, and Number of Offspring in NMRI Mice|Am. J. Vet. Res.56(12): 1615-1619|1995|10.2460/ajvr.1995.56.12.1615
89760|T||Frisina,T.A., and D.M. Benson|Sensitivity of Binucleate Rhizoctonia spp. and R. solani to Selected Fungicides In Vitro and on Azalea Under Greenhouse Conditions|Plant Dis.72(4): 303-306|1988|10.1094/PD-72-0303
89761|A||Pandey,S.K., and T. Fatma|Toxicological Studies of Pesticides on Cytoplasmic Streaming in Nitella|Indian J. Exp. Biol.42(7): 732-735|2004|
89770|T||Twaroski,T.P., M.L. O'Brien, and L.W. Robertson|Effects of Selected Polychlorinated Biphenyl (PCB) Congeners on Hepatic Glutathione, Glutathione-Related Enzymes, and Selenium Status.  Implications for Oxidative Stress|Biochem. Pharmacol.62(3): 273-281|2001|10.1016/S0006-2952(01)00668-2
89771|A||Teraoka,H., W. Dong, Y. Okuhara, H. Iwasa, A. Shindo, A.J. Hill, A. Kawakami, and T. Hiraga|Impairment of Lower Jaw Growth in Developing Zebrafish Exposed to 2,3,7,8-Tetrachlorodibenzo-P-Dioxin and Reduced Hedgehog Expression|Aquat. Toxicol.78(2): 103-113|2006|10.1016/j.aquatox.2006.02.009
89772|A||Roy,N.K., S.C. Courtenay, R.C. Chambers, and I.I. Wirgin|Characterization of the Aryl Hydrocarbon Receptor Repressor and a Comparison of Its Expression in Atlantic Tomcod from Resistant and Sensitive Populations|Environ. Toxicol. Chem.25(2): 560-571|2006|10.1897/05-347R.1
89773|T||Holopainen,J.K., and R. Rikala|Abundance and Control of Lygus rugulipennis (Heteroptera: Miridae) on Scots Pine (Pinus sylvestris L.) Nursery Stock|New For. 4(1): 13-25|1990|10.1007/BF00119587
89774|T||Soroka,J.J., and P.A. Mackay|Population Growth of the Pea Aphid, Acyrthosiphon pisum (Harris) (Homoptera:  Aphididae), and Plant Response to Aphid Numbers in Commercially Grown Field Peas in Manitoba|Can. Entomol.122(11/12): 1201-1210|1990|10.4039/Ent1221201-11
89775|T||Pruitt,D.L., L.A. Meserve, and V.P. Bingman|Reduced Growth of Intra- and Infra-Pyramidal Mossy Fibers is Produced by Continuous Exposure to Polychlorinated Biphenyl|Toxicology138(1): 11-17|1999|10.1016/S0300-483X(99)00073-6
89776|T||Madra,S., F. Mann, J. Francis, M. Manson, and A. Smith|Modulation by Iron of Hepatic Microsomal and Nuclear Cytochrome P450, and Cytosolic Glutathione S-Transferase and Peroxidase in C57BL/10SCSN Mice Induced with Polychlorinated Biphenyls (Aroclor 1254)|Toxicol. Appl. Pharmacol.136(1): 79-86|1996|10.1006/taap.1996.0009
89777|T||Yilmaz,B., A.D. Seyran, S. Sandal, M. Aydin, N. Colakoglu, M. Kocer, and D.O. Carpenter|Modulatory Effects of Aroclors 1221 and 1254 on Bone Turnover and Vertebral Histology in Intact and Ovariectomized Rats|Toxicol. Lett.166(3): 276-284|2006|10.1016/j.toxlet.2006.08.003
89778|T||Rivera,S.P., H.H. Choi, B. Chapman, M.J. Whitekus, M. Terao, E. Garattini, and O. Hankinson|Identification of Aldehyde Oxidase 1 and Aldehyde Oxidase Homologue 1 as Dioxin-Inducible Genes|Toxicology207(3): 401-409|2005|10.1016/j.tox.2004.10.009
89780|T||Wells,M.L., R.M. McPherson, J.R. Ruberson, and G.A. Herzog|Coccinellids in Cotton:  Population Response to Pesticide Application and Feeding Response to Cotton Aphids (Homoptera: Aphididae)|Environ. Entomol.30(4): 785-793|2001|10.1603/0046-225X-30.4.785
89781|T||Sorensen,K.A., and C.W. Holloway|Lepidopterous Larvae Control with Insecticides, 1998|Arthropod Manag. Tests24:112-113|1999|
89782|A||Deorey,B.M., and S.B. Wagh|Effect of Salinity on Toxicity of Pesticides to the Freshwater Fish, Barilius bendelisis (Ham.)|Geobios18(5-6): 262-263|1991|
89783|T||Habte,M., T. Aziz, and J.E. Yuen|Residual Toxicity of Soil-Applied Chlorothalonil on Mycorrhizal Symbiosis in Leucaena leucocephala|Plant Soil140(2): 263-268|1992|10.1007/BF00010603
89784|T||James,D.G.|Effect of Pesticides on Survival of Amblyseius victoriensis (Womersley), an Important Predatory Mite in Southern New South Wales Peach Orchards|Plant Prot. Q.4(4): 141-143|1989|
89785|T||Sitaramaiah,K., and L.N. Hanuman|Effect of Fungicides on Phytophthora capsici Wilt Disease in Betelvine|J. Mycol. Plant Pathol.27(3): 330-331|1997|
89786|T||Worrad,D.J., and P.T.W. Wong|Efficacy and Persistence of Control of Dollar Spot in Bentgrass Turf by Fungicides|Plant Prot. Q.3(3): 100-101|1988|
89787|T||Noetzel,D.M., B. Holder, J. Miller, and C. Holen|Colorado Potato Beetle Control.; Asana-Fungicide Interactions, Crookston, MN, 1994|Arthropod Manag. Tests21:151-152|1996|10.1093/amt/21.1.151
89788|A||Teather,K., C. Jardine, and K. Gormley|Behavioral and Sex Ratio Modification of Japanese Medaka (Oryzias latipes) in Response to Environmentally Relevant Mixtures of Three Pesticides|Environ. Toxicol.20(1): 110-117|2005|10.1002/tox.20084
89789|T||Herbert,D.A.,Jr.|Effect of Leafspot Fungicides on Twospotted Spider Mite in Virginia Peanut, 1995|Arthropod Manag. Tests21:278-|1996|10.1093/amt/21.1.278
89790|T||Basallote-Ureba,M.J., A.M. Prados-Ligero, and J.M. Melero-Vara|Effectiveness of Tebuconazole and Procymidone in the Control of Stemphylium Leaf Spots in Garlic|Crop Prot.17(6): 491-495|1998|10.1016/S0261-2194(98)00046-5
89791|T||Hanks,G.R.|Control of Fusarium oxysporum f.sp. narcissi, the Cause of Narcissus Basal Rot, with Thiabendazole and Other Fungicides|Crop Prot.15(6): 549-558|1996|10.1016/0261-2194(96)00023-3
89792|T||Linduska,J.J., M. Ross, D. Baumann, and M. Lemuiex|Control of Cabbage Looper, Diamond Back Moth and Imported Cabbageworm on Cabbage with Foliar Sprays of Microbial Insecticides, 1998|Arthropod Manag. Tests24:103-104|1999|
89793|T||Khan,M.F.R., and R.P. Griffin|Control of Insect Pests on Cabbage, 1998|Arthropod Manag. Tests24:101-102|1999|
89794|T||Chapin,J.W., and J.S. Thomas|Soil Insecticide and Fungicide Treatment Effects on Peanut Pod Damage, Disease Incidence, and Yield, 1994|Arthropod Manag. Tests20:221-|1995|10.1093/amt/20.1.221
89795|T||Brandenburg,R.L., and B.M. Royals|Control of Twospotted Spider Mite in Peanuts, 1994|Arthropod Manag. Tests20:220-221|1995|10.1093/amt/20.1.220
89796|T||Tingle,C.C.D.|Sprayed Barriers of Diflubenzuron for Control of the Migratory Locust (Locusta migratoria capito (Sauss.)) [Orthoptera:  Acrididae] in Madagascar:  Short-Term Impact on Relative Abundance of Terrestrial Non-Target Inver|Crop Prot.15(6): 579-592|1996|10.1016/0261-2194(96)00029-4
89798|T||Perez-Martinez,C., M.J. Garcia-Iglesias, M.C. Ferreras-Estrada, A.M. Bravo-Moral, J. Espinosa-Alvarez, and A. Escudero-|Effects of In-Utero Exposure to Zeranol or Diethylstilboestrol on Morphological Development of the Fetal Testis in Mice|J. Comp. Pathol.114(4): 407-418|1996|10.1016/S0021-9975(96)80016-8
89799|T||Perez-Martinez,C., M.C. Ferreras-Estrada, M.J. Garcia-Iglesias, A.M. Bravo-Moral, J. Espinosa-Alvarez, and A. Escudero-|Effects of In Utero Exposure to Nonsteroidal Estrogens on Mouse Testis|Can. J. Vet. Res.61(2): 94-98|1997|
89800|T||Takahashi,Y., A. Hayashi, Y. Wada, T. Umezu, and Y. Namae|Evaluation of an Electrostatically Forced Fogging by Immunological Analysis of Chlorothalonil Deposits|J. Pestic. Sci. (Multiple Languages)21(4): 441-443|1996|10.1584/jpestics.21.441
89801|T||Hong,S.S., E.H. Ford, A.A. Alfieri, and S. Bravo|Effects of Intratumoral Injection of I-125 Iododeoxyuridine on Ehrlich Ascites Carcinoma|J. Surg. Oncol.42(3): 187-191|1989|10.1002/jso.2930420312
89803|T||Brandenburg,R.L., and B.M. Royals|Caterpillar Control on Peanuts, North Carolina, 1995|Arthropod Manag. Tests21:275-|1996|
89804|T||Lancaster,S.H., D.L. Jordan, A.C. York, J.W. Wilcut, D.W. Monks, and R.L. Brandenburg|Interactions of Clethodim and Sethoxydim with Selected Agrichemicals Applied to Peanut|Weed Technol.19(2): 456-461|2005|10.1614/WT-04-232R
89805|T||Lancaster,S.H., D.L. Jordan, A.C. York, J.W. Wilcut, R.L. Brandenburg, and D.W. Monks|Interactions of Late-Season Morningglory (Ipomoea spp.) Management Practices in Peanut (Arachis hypogaea)|Weed Technol.19(4): 803-808|2005|10.1614/WT-04-229R.1
89806|T||Briz,O., M.Y. El-Mir, P. Bravo, G.R. Villanueva, and J.J.G. Marin|Fetal Excretion of the Fluorescent Bile Acid Derivative Cholylglycylamido-Fluorescein (FITC-GC) by the Rat Placenta-Maternal Liver Tandem|Placenta19(1): 119-126|1998|10.1016/S0143-4004(98)90107-2
89807|T||Linduska,J.J., M. Ross, K. Mulford, and D. Baumann|Control of Cabbage Looper, Diamondback Moth and Imported Cabbageworm on Cabbage, 1995|Arthropod Manag. Tests21:92-93|1996|10.1093/amt/21.1.92
89808|T||Sandler,H.A., and C.C. Kusek|Influence of Spreaders, Stickers, and Antitranspirants on Chlorothalonil Residue Levels on Cranberry Fruit|J. Small Fruit Viticult.2(2): 31-40|1994|10.1300/J065v02n02_05
89809|T||De Gortari,P., F. Romero, M. Cisneros, and P. Joseph-Bravo|Acute Administration of Alcohol Modulates Pyroglutamyl Amino Peptidase II Activity and mRNA Levels in Rat Limbic Regions|Neurochem. Int.46(4): 347-356|2005|10.1016/j.neuint.2004.11.002
89811|T||Bravo,L.M., and C.E. Salas|Changes in DNA Methyltransferase Induced by Treatment with N-2-Acetylaminofluorene|Mutat. Res.215(1): 55-60|1989|10.1016/0027-5107(89)90217-0
89813|T||Chow,C.K., R. Thacker, and C. Gairola|Dietary Selenium and Levels of L-Ascorbic Acid in the Plasma, Livers, and Lungs of Polychlorinated Biphenyls-Treated Rats|Int. J. Vitam. Nutr. Res.51(3): 279-283|1981|
89814|A||Danis,B., O. Cotret, J.L. Teyssie, S.W. Fowler, and M. Warnau|Coplanar PCB 77 Uptake Kinetics in the Sea Star Asterias rubens and Subsequent Effects on Reactive Oxygen Species (ROS) Production and Levels of Cytochrome P450 Immunopositive Proteins (CYP1A-IPP)|Mar. Ecol. Prog. Ser.279:117-128|2004|10.3354/meps279117
89815|T||De Krey,G.K., N.C. Hollingshead, N.I. Kerkvliet, and B.B. Smith|Suppression of Prolactin and Cytotoxic T-Lymphocyte Activity in PCB-Treated Mice|Int. J. Immunopharmacol.16(3): 251-257|1994|10.1016/0192-0561(94)90020-5
89816|T||Sargent,L.M., G.L. Sattler, B. Roloff, Y. Xu, C.A. Sattler, L. Meisner, and H.C. Pitot|Ploidy and Specific Karyotypic Changes During Promotion with Phenobarbital 2,5,2',5'-Tetrachlorobiphenyl and/or 3,4,3',4'-Tetrachlorobiphenyl in Rat Liver|Cancer Res.52:955-962|1992|
89817|T||Beatty,P., and R.A. Neal|Factors Affecting the Induction of DT-Diaphorase by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Biochem. Pharmacol.27:505-510|1978|10.1016/0006-2952(78)90385-4
89818|T||Roelens,S.A., V. Beck, G. Aerts, S. Clerens, G. Vanden Bergh, L. Arckens, V.M. Darras, and S. Van der Geyten|Neurotoxicity of Polychlorinated Biphenyls (PCBs) by Disturbance of Thyroid Hormone-Regulated Genes|Ann. N. Y. Acad. Sci.1040:454-456|2005|10.1196/annals.1327.088
89819|T||Stohs,S.J., B.D. Abbott, F.H. Lin, and L.S. Birnbaum|Induction of Ethoxyresorufin-O-Deethylase and Inhibition of Glucocorticoid Receptor Binding in Skin and Liver of Haired and Hairless HRS/J Mice by Topically Applied 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicology65:123-136|1990|10.1016/0300-483X(90)90083-S
89820|T||Canga,L., L. Paroli, T. Blanck, R.B. Silver, and A.B. Rifkind|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Increases Cardiac Myocyte Intracellular Calcium and Progressively Impairs Ventricular Contractile Responses to Isoproterenol and to Calcium in Chick Embryo Hearts|Mol. Pharmacol.44(6): 1142-1151|1993|
89821|T||Abbott,B.D., and L.S. Birnbaum|Effects of TCDD on Embryonic Ureteric Epithelial EGF Receptor Expression and Cell Proliferation|Teratology41:71-84|1990|10.1002/tera.1420410108
89822|A||Hook,S.E., A.D. Skillman, J.A. Small, and I.R. Schultz|Gene Expression Patterns in Rainbow Trout, Oncorhynchus mykiss, Exposed to a Suite of Model Toxicants|Aquat. Toxicol.77(4): 372-385|2006|10.1016/j.aquatox.2006.01.007
89823|A||Andersen,L., R. Goto-Kazeto, J.M. Trant, J.P. Nash, B. Korsgaard, and P. Bjerregaard|Short-Term Exposure to Low Concentrations of the Synthetic Androgen Methyltestosterone Affects Vitellogenin and Steroid Levels in Adult male Zebrafish (Danio rerio)|Aquat. Toxicol.76(3-4): 343-352|2006|10.1016/j.aquatox.2005.10.008
89824|A||Dietrich,A.M., and D.L. Gallagher|Fate and Environmental Impact of Pesticides in Plastic Mulch Production Runoff:  Field and Laboratory Studies|J. Agric. Food Chem.50(15): 4409-4416|2002|10.1021/jf0107454
89825|T||Fife,J.P., and S.E. Nokes|Evaluation of the Effect of Rainfall Intensity and Duration on the Persistence of Chlorothalonil on Processing Tomato Foliage|Crop Prot.21(9): 733-740|2002|10.1016/S0261-2194(02)00030-3
89826|T||Stensvand,A., and A. Christiansen|Investigation on Fungicide Residues in Greenhouse-Grown Strawberries|J. Agric. Food Chem.48(3): 917-920|2000|10.1021/jf990418k
89827|A||Kim,J.S., J.C. Kim, S. Lee, B.H. Lee, and K.Y. Cho|Biological Activity of L-2-Azetidinecarboxylic Acid, Isolated from Polygonatum odoratum var. Pluriflorum, Against Several Algae|Aquat. Bot.85(1): 1-6|2006|10.1016/j.aquabot.2006.01.003
89828|T||Raubuch,M., A. Campos, and R.G. Joergensen|Impact of Cycloheximide Addition on Adenylates in Soil|Soil Biol. Biochem.38(2): 222-228|2006|10.1016/j.soilbio.2005.04.034
89831|T||Vidotto,F., F. Tesio, M. Tabacchi, and A. Ferrero|Herbicide Sensitivity of Echinochloa spp. Accessions in Italian Rice Fields|Crop Prot.26(3): 285-293|2007|10.1016/j.cropro.2005.07.016
89832|T||Navarro,C., M.L. Bravo, C. Carulla, and O. Bulbena|Gastrotoxic Activity and Inhibitory Effects on Gastric Mucosal PGE2 Production with Different Non-Steroidal Anti-Inflammatory Drugs:  Modifications Induced by Pretreatment with Zinc Acexamate|Prostaglandins Leukot. Essent. Fatty Acids50(6): 305-310|1994|10.1016/0952-3278(94)90238-0
89834|T||Sartorelli,E., F. Loi, and R. Gori|Lead Silicate Toxicity:  A Comparison Among Different Compounds|Environ. Res.36(2): 420-425|1985|10.1016/0013-9351(85)90035-0
89835|T||Shtienberg,D.|Rational Suppression of Sunflower Rust:  Development and Evaluation of an Action Threshold|Plant Dis.79(5): 506-510|1995|10.1094/PD-79-0506
89836|T||Bhat,A.A., D.N. Dhar, and H.L. Kher|Effect of Some Fungicides to Apis cerana indica Foragers|Environ. Ecol.7(2): 348-350|1989|
89837|T||Kumar,U., and H.C. Agarwal|Persistence, Metabolism, and Movement of Ethylenethiourea in Eggplant (Solanum melongena L.) Under Subtropical Conditions|Bull. Environ. Contam. Toxicol.51(1): 46-53|1993|10.1007/BF00200999
89838|A||Veldhoen,N., R.C. Skirrow, H. Osachoff, H. Wigmore, D.J. Clapson, M.P. Gunderson, G. Van Aggelen, and C.C. Helbing|The Bactericidal Agent Triclosan Modulates Thyroid Hormone-Associated Gene Expression and Disrupts Postembryonic Anuran Development|Aquat. Toxicol.80(3): 217-227|2006|10.1016/j.aquatox.2006.08.010
89839|A||Warner,K.E., and J.J. Jenkins|Effects of 17alpha-Ethinylestradiol and Bisphenol A on Vertebral Development in the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.26(4): 732-737|2007|10.1897/06-482R.1
89840|T||Rossini,L., I. Jepson, A.J. Greenland, and M.S. Gorla|Characterization of Glutathione S-Transferase Isoforms in Three Maize Inbred Lines Exhibiting Differential Sensitivity to Alachlor|Plant Physiol.112:1595-1600|1996|10.1104/pp.112.4.1595
89841|A||Brinkman,S., and D. Hansen|Water Pollution Studies|Federal Aid Project F-243R-11, Water Pollution Studies, Colorado Parks and Wildlife, Fort Collins, CO:37 p.|2004|
89844|AT||Index of Common Names of Pesticides|Compendium of Pesticide Common Names|http://www.alanwood.net/pesticides/:|2007|
89845|T||Mueller,D.S., S.N. Jeffers, and J.W. Buck|Effect of Timing of Fungicide Applications on Development of Rusts on Daylily, Geranium, and Sunflower|Plant Dis.88(6): 657-661|2004|10.1094/PDIS.2004.88.6.657
89846|T||Reeleder,R.D., S. Monette, R.C. Roy, and W.A. Court|Dieback of Evening Primrose: Characteristics of Septoria oenotherae, Its Interactions with Botrytis cinerea, and Use of Fungicides to Manage Disease|Can. J. Plant Pathol.18(3): 261-268|1996|10.1080/07060669609500622
89847|T||Barwal,R.N., and D.K. Gupta|Seasonal Incidence and Control of Pod Borer (Euborellia annulipes) and Cercospora Leaf Spots in Groundnut|Indian J. Plant Prot.19(2): 156-160|1991|
89848|T||Wiese,A.F., M.G. Schoenhals, B.W. Bean, and C.D. Salisbury|Effect of Tillage Timing on Herbicide Toxicity to Field Bindweed|J. Prod. Agric.10(3): 459-461|1997|10.2134/jpa1997.0459
89849|T||Watt,M.P., B.A. Gauntlett, and F.C. Blakeway|Effect of Anti-Fungal Agents on In Vitro Cultures of Eucalyptus grandis|S. Afr. For. J.175:23-27|1996|10.1080/00382167.1996.9629889
89850|T||Whiting,E.C., R.W. Roncadori, B.C. Bongarten, and K.L. Reynolds|Relationship Between Environmental Factors, Effects of Fungicide Applications, and Premature Defoliation of Black Locust Trees (Robinia pseudoacacia L.)|Int. J. Pest Manag.43(3): 213-219|1997|10.1080/096708797228708
89851|T||Loria,R., R.E. Eplee, J.H. Baier, T.M. Martin, and D.D. Moyer|Efficacy of Sweep-Shank Fumigation with 1,3-Dichloropropene Against Pratylenchus penetrans and Subsequent Groundwater Contamination|Plant Dis.70(1): 42-45|1986|10.1094/PD-70-42
89852|T||Uddin,W., M.D. Soika, A.S. McNitt, and M. Fidanza|Effects of Timing of Ethofumesate Application on Severity of Gray Leaf Spot of Perennial Ryegrass Turf|Plant Dis.88(10): 1146-1152|2004|10.1094/PDIS.2004.88.10.1146
89853|T||Wu,L., G. Liu, M.V. Yates, R.L. Green, P. Pacheco, J. Gan, and S.R. Yates|Environmental Fate of Metalaxyl and Chlorothalonil Applied to a Bentgrass Putting Green Under Southern California Climatic Conditions|Pest Manag. Sci.58(4): 335-342|2002|10.1002/ps.461
89854|T||Downham,M.C.A.|Effects of Neem Extracts and a Pyrethroid Upon Rice Insect Fauna:  Implications for the Role of Natural Enemies|J. Plant Prot. Trop.6(3): 157-172|1989|
89855|T||Takahashi,Y., A. Hayashi, A. Sakurai, T. Umezu, and Y. Wada|Immunological Analysis of Deposition of Chlorothalonil Applied by Fogging Techniques|J. Pestic. Sci. (Multiple Languages)21(1): 65-67|1996|10.1584/jpestics.21.65
89857|T||Lister,S.A., B.J. Connell, I. Chu, and A. Singh|PCB 105-Induced Ultrastructural Alterations in the Rat Liver:  A Stereological Study|Toxicol. Environ. Chem.88(2): 309-317|2006|10.1080/02772240500312214
89859|T||Strathmann,J., M. Schwarz, J.C. Tharappel, H.P. Glauert, B.T. Spear, L.W. Robertson, K.E. Appel, and A. Buchmann|PCB 153, a Non-Dioxin-Like Tumor Promoter, Selects for beta-Catenin (CATNB) -Mutated Mouse Liver Tumors|Toxicol. Sci.93(1): 34-40|2006|10.1093/toxsci/kfl041
89860|T||Ivnitski-Steele,I.D., M. Friggens, M. Chavez, and M.K. Walker|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Inhibition of Coronary Vasculogenesis is Mediated, in Part, by Reduced Responsiveness to Endogenous Angiogenic Stimuli, Including Vascular Endothelial Growth Factor A (VEGF-A)|Birth Defects Res. A Clin. Mol. Teratol.73(6): 440-446|2005|10.1002/bdra.20137
89861|T||Vecchi,A., A. Mantovani, M. Sironi, W. Luini, M. Cairo, and S. Garattini|Effect of Acute Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Humoral Antibody Production in Mice|Chem.-Biol. Interact.30:337-342|1993|10.1016/0009-2797(80)90056-3
89862|T||Lakshmanan,M.R., B.S. Campbell, S.J. Chirtel, N. Ekarohita, and M. Ezekiel|Studies on the Mechanism of Absorption and Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat|J. Pharmacol. Exp. Ther.239(3): 673-677|1986|
89863|T||Nagayama,J., C. Kiyohara, Y. Masuda, and M. Kuratsune|Inducing Potency of Aryl Hydrocarbon Hydroxylase Activity in Human Lymphoblastoid Cells and Mice by Polychlorinated Dibenzofuran Congeners|Environ. Health Perspect.59:107-112|1985|
89864|T||Nagao,T., G. Golor, H. Hagenmaier, and D. Neubert|Teratogenic Potency of 2,3,4,7,8-Pentachlorodibenzofuran and of Three Mixtures of Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans in Mice. Problems with Risk Assessment Using TCDD Toxic-Equivalency Factors|Toxicology67:591-597|1993|
89865|T||Cohen,G.M., W.M. Bracken, R.P. Iyer, D.L. Berry, J.K. Selkirk, and T.J. Slaga|Anticarcinogenic Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene Tumor Initiation and its Relationship to DNA Binding|Cancer Res.39:4027-4033|1979|
89866|T||Kato,Y., K. Haraguchi, T. Shibahara, S. Yumoto, Y. Masuda, and R. Kimura|Reduction of Thyroid Hormone Levels by Methylsulfonyl Metabolites of Tetra- and Pentachlorinated Biphenyls in Male Sprague-Dawley Rats|Toxicol. Sci.48(1): 51-54|1999|10.1093/toxsci/48.1.51
89867|T||Vinopal,J.H., and J.E. Casida|Metabolic Stability of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Mammalian Liver Microsomal Systems and in Living Mice|Arch. Environ. Contam. Toxicol.1(2): 122-132|1973|10.1007/BF01986002
89870|T||Rozman,K., J.R. Gorski, D. Dutton, and A. Parkinson|Effects of Vitamin A and/or Thyroidectomy on Liver Microsomal Enzymes and Their Induction in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Treated Rats|Toxicology46(1): 107-118|1987|10.1016/0300-483X(87)90142-9
89872|T||Berry,W.D., R.P. Gildersleeve, and J. Brake|Characterization of Different Hematological Responses During Molts Induced by Zinc or Fasting|Poult. Sci.66:1841-1845|1987|10.3382/ps.0661841
89873|T||Horst,L.E., J. Locke, C.R. Krause, R.W. McMahon, L.V. Madden, and H.A.J. Hoitink|Suppression of Botrytis Blight of Begonia by Trichoderma hamatum 382 in Peat and Compost-Amended Potting Mixes|Plant Dis.89(11): 1195-1200|2005|10.1094/PD-89-1195
89874|A||Hassan,I.M., M.A. Abdallah, M.M. Naguib, and M.A. Abou Donia|Toxicity, Distribution, Accumulation and Cooking Loss of Malathion in Tissues of Tilapia and Common Carp Fishes|Grasas Aceites44(6): 339-344|1993|10.3989/gya.1993.v44.i6.1060
89875|T||Akay,M.T., G. Yilmazoglu, P. Keskin, and D. Kolankaya|Biological Activity in Rats of Bound Residues of Malathion in Stored Wheat Grains|DOGA Turk Zool. Dergisi14(2): 167-172|1990|
89876|T||Powell,J.E., and W.P. Scott|Effect of Insecticide Residues on Survival of Microplitis croceipes Adults (Hymenoptera:  Braconidae) in Cotton|Fla. Entomol.68(4): 692-693|1985|10.2307/3494876
89877|A||Pandey,A.K.|Evaluation of Pesticides for Possible Mutagenesis in the Cyanobacterium Nostoc calcicola|Indian J. Environ. Health41(1): 1-5|1999|
89878|T||Luttrell,R.G., W.C. Yearian, and S.Y. Young|Microbial and Chemical Insecticides Against the Cotton Leafworm|Ark. Farm Res.30(2): 10-|1981|
89879|T||Settle,D., J. Fry, and N. Tisserat|Dollar Spot and Brown Patch Fungicide Management Strategies in Four Creeping Bentgrass Cultivars|Crop Sci.41(4): 1190-1197|2001|10.2135/cropsci2001.4141190x
89880|T||Dahiya,K.K., R.K. Lakra, A.S. Dahiya, and S.P. Singh|Bioefficacy of Some Insecticides Against Citrus Psylla, Diaphorina citri Kuw. (Psyllidae:  Homoptera)|Crop Res. (Hisar)8(1): 137-140|1994|
89881|T||Rao,B.N., M.A. Sultan, and K.N. Reddy|Residues of Dimethoate, Oxydemeton Methyl and Carbofuran in Grape Berries, Vitis vinifera|J. Insect Sci.3(2): 192-193|1990|
89882|T||Sandhu,S.S., M.D. Waters, V.F. Simmon, K.E. Mortelmans, A.D. Mitchell, T. Jorgenson, D.C.L. Jones, R. Valencia, and F. |Evaluation of the Genotoxic Potential of Certain Pesticides Used in Pakistan|Basic Life Sci.34:185-219|1985|
89883|T||O'Bannon,J.H., and A.T. Tomerlin|Studies on Soil Penetration of Fumigants for the Control of the Burrowing Nematode (Radopholus similis)|Proc. Soil Crop Sci. Soc. Fla.28:299-306|1968|
89884|T||Helyer,N.|Laboratory Pesticide Screening Method for the Aphid Predatory Midge Aphidoletes aphidimyza (Rondani) (Diptera:  Cecidomyiidae)|Biocontrol Sci. Technol.1(1): 53-58|1991|10.1080/09583159109355185
89885|T||Akay,M.T., and D. Kolankaya|Bioavailability of Bound Residues of 14C-Malathion in Stored Wheat Grains to Rats|DOGA Turk Zool. Dergisi13(2): 47-53|1989|
89886|A||Saradha,K., N.V. Madhav, and Vidyavati |Toxicity of Fungicide Dithane M-45 to Cladophora Crispata (Roth) Kuetz.|J. Phytol. Res.6(1-2): 67-68|1993|
89887|T||Barlas,N., and D. Kolankaya|A Histopathological Study on the Effects of Commercial and Biodegraded Malathion on Liver, Kidney and Spleen of Mice|Turk. J. Zool.20(2): 149-154|1996|10.55730/1300-0179.3025
89888|T||Takagi,K., H. Wada, and S. Yamazaki|Effect of Long-Term Application of a Fungicide, Chlorothalonil (TPN) on Upland Ecosystem|Soil Sci. Plant Nutr.37(4): 583-590|1991|10.1080/00380768.1991.10416926
89889|T||Jacob,S., and S. Verma|Persistence of Malathion on Okra|Indian J. Agric. Sci.54(11): 993-996|1984|
89890|T||Vasquez-Bravo,Y.L.A.R., M. Russo, and S. Jancar|Differential Sensitivity of Mouse Strains to Platelet Activating Factor-Induced Vasopermeability and Mortality:  Effect of Antagonists|J. Lipid Mediat.8(3): 135-144|1993|
89891|AT||Canto-Cavalheiro,M.M., A. Echevarria, C.A.C. Araujo, M.F. Bravo, L.H.S. Santos, A.M. Jansen, and L.L. Leon|The Potential Effects of new Synthetic Drugs Against Leishmania amazonensis and Trypanosoma cruzi|Microbios90(362): 51-60|1997|
89892|A||Goris,J., J. Hermann, P. Hendrix, R. Ozon, and W. Merlevede|Okadaic Acid, a Specific Protein Phosphatase Inhibitor, Induces Maturation and MPF Formation in Xenopus laevis Oocytes|FEBS Lett.245(1-2): 91-94|1989|10.1016/0014-5793(89)80198-X
89897|T||Birnbaum,L.S., D.G. Ross, and M.J. DeVito|Dose Response Relationships for EROD Induction in Liver, Lung and Skin for Dioxin and Dibenzofurans|In: H.Fiedler, H.Frank, O.Hutzinger, A.Russ and S.Safe (Eds.), Dioxin 93 -13th Intl. Symp. on Chlorinated Dioxins and Related Compounds, Fed. Environ. Agency, Austria13:237-240|1993|
89898|T||Van Logten,M.J., B.N. Gupta, E.E. McConnell, and J.A. Moore|The Influence of Malnutrition on the Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Rats|Toxicology21(1): 77-88|1981|10.1016/0300-483X(81)90018-4
89899|T||Toth,K., J. Sugar, S. Somfai-Relle, and J. Bence|Carcinogenic Bioassay of the Herbicide, 2,4,5-Trichlorophenoxyethanol (TCPE) with Different 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (Dioxin) Content in Swiss Mice|Prog. Biochem. Pharmacol.14:82-93|1978|
89900|T||Bastomsky,C.H., P.V.N. Murthy, and K. Banovac|Alterations in Thyroxine Metabolism Produced by Cutaneous Applicaton of Microscope Immersion Oil: Effects due to Polychlorinated Biphenyls|Endocrinology98:1309-1314|1976|10.1210/endo-98-5-1309
89901|T||Glauert,H., J. Tharappel, D. Stemm, H.J. Lehmler, L. Robertson, and B. Spear|Effect of Dietary Antioxidants on the Promotion of Hepatocarcinogenesis by PCBs|Organohalog. Compd.66:3148-3152|2004|
89902|T||Thurmond,T.S., J.E. Staples, A.E. Silverstone, and T.A. Gasiewicz|The Aryl Hydrocarbon Receptor has a Role in the In Vivo Maturation of Murine Bone Marrow B Lynphocytes and Their Response to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.165:227-236|2000|10.1006/taap.2000.8942
89903|T||Thurmond,T.S., and T.A. Gasiewicz|A Single Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Produces a Time- and Dose-Dependent Alteration in the Murine Bone Marrow B-Lymphocyte Maturation Profile|Toxicol. Sci.58:88-95|2000|10.1093/toxsci/58.1.88
89905|T||Santos,B.M., J.P. Gilreath, T.N. Motis, M. Von Hulten, and M.N. Siham|Effects of Mulch Types and Concentrations of 1,3-Dichloropropene plus Chloropicrin on Fumigant Retention and Nutsedge Control|HortTechnology16(4): 637-640|2006|10.21273/HORTTECH.16.4.0637
89906|T||Feys,J.L., and C. Van Assche|Field Disinfestation in Witloof Chicory Cultures|Meded. Fac. Landbouwwet. Rijksuniv. Gent42(2, Pt. 1): 1099-1104|1977|
89907|T||Bonacucina,G., S. Martelli, and G.F. Palmieri|Rheological, Mucoadhesive and Release Properties of Carbopol Gels in Hydrophilic Cosolvents|Int. J. Pharm.282(1-2): 115-130|2004|
89908|T||Bonacucina,G., M. Cespi, M. Misici-Falzi, and G.F. Palmieri|Rheological, Adhesive and Release Characterisation of Semisolid Carbopol/Tetraglycol Systems|Int. J. Pharm.307(2): 129-140|2006|
89909|T||Joseph-Bravo,P.I., M. Findley, and P.M. Newberne|Some Interactions of Light, Riboflavin, and Aflatoxin B1 In Vivo and In Vitro|J. Toxicol. Environ. Health1(3): 353-376|1976|10.1080/15287397609529336
89910|T||Gullino,M.L., A. Minuto, A. Garibaldi, and H.A. Ajwa|Technical Advances in Fumigant Application for Soil Disinfestation|Br. Crop Prot. Conf. Pests Dis.2:867-872|2002|
89911|T||Idris,A.B., and E. Grafius|Differential Toxicity of Pesticides to Diadegma insulare (Hymenoptera:  Ichneumonidae) and Its Host, the Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.86(2): 529-536|1993|10.1093/jee/86.2.529
89912|T||Hough-Goldstein,J., and C.B. Keil|Prospects for Integrated Control of the Colorado Potato Beetle (Coleoptera: Chrysomelidae) Using Perillus bioculatus (Hemiptera: Pentatomidae) and Various Pesticides|J. Econ. Entomol.84(6): 1645-1651|1991|10.1093/jee/84.6.1645
89913|T||Kirk,I.W., V.S. House, and L.F. Bouse|Ovicide Formulation and Aerial Application Parameters Influence Control of Tobacco Budworm on Cotton|ASTM Spec. Tech. Publ.1146:319-339|1993|
89914|T||Schenck,N.C.|Effect of Fumigants and Fungicides on Fungi in Soil Planted Annually in Watermelon|Proc. Soil Crop Sci. Soc. Fla.26:70-80|1966|
89915|T||Reardon,R.C., and L. Barrett|Effects of Treating Western Spruce Budworm Populations on Grand Fir and Douglas-Fir with Acephate, Carbofuran, Dimethoate, Oxydemeton-Methyl, and Methamidophos|For. Ecol. Manag.8(1): 1-10|1984|10.1016/0378-1127(84)90081-1
89916|T||Duhra,M.S., and S.F. Hameed|Evaluation of Toxicity and Persistence of Residues of Some Insecticides on Cabbage Against Brevicoryne brassicae L.|Indian J. Entomol.52(1): 146-154|1990|
89917|T||Thomas,M.R., and R.C. Shattock|Effects of Fungicides on Drechslera spp. and Leaf Surface Filamentous saprophytic Fungi on Lolium perenne|Plant Pathol.35(1): 120-125|1986|10.1111/j.1365-3059.1986.tb01990.x
89918|T||Singh,O.P., K.J. Singh, and K.N. Kapoor|Seasonal Incidence and Chemical Control of Red Spider Mite, Tetranychus telarius Linn. on Soybean in Madhya Pradesh, India|Indian J. Entomol.52(1): 57-62|1990|
89923|T||Shertzer,H.G., D.W. Nebert, A. Puga, M. Ary, D. Sonntag, K. Dixon, L.J. Robinson, E. Cianciolo, and T.P. Dalton|Dioxin Causes a Sustained Oxidative Stress Response in the Mouse|Biochem. Biophys. Res. Commun.253:44-48|1998|10.1006/bbrc.1998.9753
89924|T||Johnson,K.L., A.M. Cummings, and L.S. Birnbaum|Promotion of Endometriosis in Mice by Polychlorinated Dibenzo-p-Dioxins, Dibenzofurans, and Biphenyls|Environ. Health Perspect.105:750-755|1997|10.1289/ehp.97105750
89925|T||Hakansson,H., U.G. Ahlborg, L. Johansson, and H. Poiger|Vitamin A Storage in Rats Subchronically Exposed to PCDDs/PCDFs|Chemosphere20(7-9): 1147-1150|1990|10.1016/0045-6535(90)90235-L
89926|T||Parkinson,A., L.W. Robertson, L. Safe, and S. Safe|Polychlorinated Biphenyls as Inducers of Hepatic Microsomal Enzymes: Effects of Di-Ortho Substitution|Chem.-Biol. Interact.35(1): 1-12|1981|10.1016/0009-2797(81)90059-4
89927|T||Parkinson,A., R. Cockerline, and S. Safe|Polychlorinated Biphenyl Isomers and Congeners as Inducers of Both 3-Methylcholanthrene- and Phenobarbitone-Type Microsomal Enzyme Activity|Chem.-Biol. Interact.29(3): 277-289|1980|10.1016/0009-2797(80)90147-7
89928|T||Albro,P.W., J.T. Corbett, M. Harris, and L.D. Lawson|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Lipid Profiles in Tissue of the Fischer Rat|Chem.-Biol. Interact.23(3): 315-330|1978|10.1016/0009-2797(78)90093-5
89929|AT||Besselink,H.T., M.S. Denison, M.E. Hahn, S.I. Karchner, A.D. Vethaak, J.H. Koeman, and A. Brouwer|Low Inducibility of CYP1A Activity by Polychlorinated Biphenyls (PCBs) in Flounder (Platichthys flesus): Characterization of the Ah Receptor and the Role of CYP1A Inhibition|Toxicol. Sci.43:161-171|1998|10.1093/toxsci/43.2.161
89930|T||DiGiovanni,J., D.L. Berry, M.R. Juchau, and T.J. Slaga|2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Potent Anticarcinogenic Activity in CD-1 Mice|Biochem. Biophys. Res. Commun.86(3): 577-584|1979|10.1016/0006-291X(79)91752-2
89931|T||Lawrence,B.P., T.K. Warren, and H. Luong|Fewer T Lymphocytes and Decreased Pulmonary Influenza Virus Burden in Mice Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|J. Toxicol. Environ. Health Part A61:39-53|2000|10.1080/00984100050116771
89932|T||Clark,G., A. Tritscher, D. Bell, and G.W. Lucier|Integrated Approach for Evaluating Species and Interindividual Differences in Responsiveness to Dioxins and Structural Analogs|Environ. Health Perspect.98:125-132|1992|10.1289/ehp.9298125
89933|T||Burleson,G.R., H. Lebrec, Y.G. Yang, J.D. Ibanes, K.N. Pennington, and L.S. Birnbaum|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Influenza Virus Host Resistance in Mice|Fundam. Appl. Toxicol.29:40-47|1996|10.1006/faat.1996.0004
89934|T||Loser,E., and I. Ivens|Preliminary Results of a 3 month Toxicity Study on Rats with 2,3,7,8-Tetrabromodibenzo-p-Dioxin (2,3,7,8-TBDD)|Chemosphere19(1-6): 759-764|1989|10.1016/0045-6535(89)90404-9
89935|T||Weber,L.W., M. Lebofsky, H. Greim, and K. Rozman|Key Enzymes of Gluconeogenesis are Dose-Dependently Reduced in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Treated Rats|Arch. Toxicol.65:119-123|1991|10.1007/BF02034937
89936|T||Gorski,J.R., L.W.D. Weber, and K. Rozman|Reduced Gluconeogenesis in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Treated Rats|Arch. Toxicol.64:66-71|1990|10.1007/BF01973379
89938|T||Lawrence,B.P., and N.I. Kerkvliet|Role of Altered Arachidonic Acid Metabolism in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Immune Suppression in C57Bl/6 Mice|Toxicol. Sci.42:13-22|1998|
89939|T||Stephen,F.D., A.T. Drahushuk, and J.R. Olson|Cytochrome P450 1A1 Induction in Rat Lymphoid Tissues Following In Vivo and In Vitro Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Requires Protein Kinase C|Toxicology124:39-51|1997|10.1016/S0300-483X(97)00128-5
89940|T||De Krey,G.K., L. Baecher-Steppan, J.R. Fowles, and N.I. Kerkvliet|Polychlorinated Biphenyl-Induced Suppression of Cytotoxic T Lymphocyte Activity:  Role of Prostaglandin-E2|Toxicol. Lett.74(3): 211-220|1994|10.1016/0378-4274(94)90080-9
89941|T||Silverstone,A.E., D.E.,Jr. Frazier, N.C. Fiore, J.A. Soults, and T.A. Gasiewicz|Dexamethasone, beta-Estradiol, and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Elicit Thymic Atrophy Through Different Cellular Targets|Toxicol. Appl. Pharmacol.126:248-259|1994|10.1006/taap.1994.1114
89942|T||Blaylock,B.L., S.D. Holladay, C.E. Comment, J.J. Heindel, and M.I. Luster|Exposure to Tetrachlorodibenzo-p-Dioxin (TCDD) Alters Fetal Thymocyte Maturation|Toxicol. Appl. Pharmacol.112:207-213|1992|10.1016/0041-008X(92)90189-Y
89944|T||Ackermann,M.F., T.A. Gasiewicz, K.R. Lamm, D.R. Germolec, and M.I. Luster|Selective Inhibition of Polymorphonuclear Neutrophil Activity by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.101:470-480|1989|10.1016/0041-008X(89)90195-6
89945|T||McKinley,M.K., L.B. Kedderis, and L.S. Birnbaum|The Effect of Pretreatment on the Biliary Excretion of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin, 2,3,7,8-Tetrachlorodibenzofuran, and 3,3',4,4'-Tetrachlorobiphenyl in the Rat|Fundam. Appl. Toxicol.21:425-432|1993|10.1006/faat.1993.1118
89946|T||Shu,H., D. Paustenbach, F.J. Murray, L. Marple, B. Brunck, D. Dei Rossi, and P. Teitelbaum|Bioavailability of Soil-Bound TCDD:  Oral Bioavailability in the Rat|Fundam. Appl. Toxicol.10:648-654|1988|10.1016/0272-0590(88)90191-1
89947|T||Moore,J.A., B.N. Gupta, J.G. Zinkl, and J.G. Vos|Postnatal Effects of Maternal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Environ. Health Perspect.5:81-85|1973|10.1289/ehp.730581
89948|T||Norman,R.L., E.F. Johnson, and U. Muller-Eberhard|Identification of the Major Cytochrome P-450 Form Transplacentally Induced in Neonatal Rabbits by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biol. Chem.253(23): 8640-8647|1978|10.1016/S0021-9258(17)34339-9
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89952|T||Pegg,D.G., W.R. Hewitt, K.M. McCormack, and J.B. Hook|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Renal Function in the Rat|J. Toxicol. Environ. Health2(1): 55-65|1976|10.1080/15287397609529417
89953|T||Wermelinger,M., H. Poiger, and C. Schlatter|Results of a 9-Month Feeding Study with OCDD and OCDF in Rats|Organohalog. Compd.1:221-224|1990|
89955|T||Thomas,P.T., and R.D. Hinsdill|Effect of Polychlorinated Biphenyls on the Immune Responses of Rhesus Monkeys and Mice|Toxicol. Appl. Pharmacol.44:41-51|1978|10.1016/0041-008X(78)90282-X
89956|T||Hanberg,A., C.B. Nilsson, C. Trossvik, and H. Hakansson|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Lymphatic Absorption of a Single Oral Dose of [3H]Retinol and on the Intestinal Retinol Esterification in the Rat|J. Toxicol. Environ. Health Part A55:331-344|1998|10.1080/009841098158386
89957|T||Huang,W., and L.D. Koller|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Co-Stimulates Staphylococcal Enterotoxin beta (SEB) Cytokine Production and Phenotypic Cell Cycling in Long-Evans Rats|Int. J. Immunopharmacol.20:39-56|1998|10.1016/S0192-0561(98)00013-7
89958|T||Oughton,J.A., C.B. Pereira, G.K. DeKrey, J.M. Collier, A.A. Frank, and N.I. Kerkvliet|Phenotypic Analysis of Spleen, Thymus, and Peripheral Blood Cells in Aged C57B1/6 Mice Following Long-Term Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Fundam. Appl. Toxicol.25:60-69|1995|10.1006/faat.1995.1040
89959|T||Narasimhan,T.R., A. Craig, L. Arellano, N. Harper, L. Howie, M. Menache, L. Birnbaum, and S. Safe|Relative Sensitivities of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced CYP1A-1 and CYP1A-2 Gene Expression and Immunotoxicity in Female B6C3F1 Mice|Fundam. Appl. Toxicol.23:598-607|1994|10.1006/faat.1994.1146
89960|T||Pohjanvirta,R., T. Kulju, A.F.W. Morselt, R. Tuominen, R. Juvonen, K. Rozman, P. Mannisto, Y. Collan, E.L. Sainio, and |Target Tissue Morphology and Serum Biochemistry Following 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Exposure in a TCDD-Susceptible and a TCDD-Resistant Rat Strain|Fundam. Appl. Toxicol.12:698-712|1989|10.1016/0272-0590(89)90002-X
89961|T||Weber,L.W.D., B.U. Stahl, M. Lebofsky, R.H. Alper, L. Kerecsen, and K. Rozman|Inhibition of Phosphoenolpyruvate Carboxykinase Activity Appears to be the Key Biochemical Lesion in the Acute Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Rats|Chemosphere23(11-12): 1957-1962|1991|10.1016/0045-6535(91)90044-E
89962|T||Suter-Hofmann,M., and C. Schlatter|Subchronic Relay Toxicity Study with a Mixture of Polychlorinated Dioxins (PCDDs) and Polychlorinated Furans (PCDFs)|Chemosphere18(1-6): 277-282|1989|10.1016/0045-6535(89)90131-8
89963|T||Li,M.H., and L.G. Hansen|Uterotropic and Enzyme Induction Effects of 2,2',5-Trichlorobiphenyl|Bull. Environ. Contam. Toxicol.54:494-500|1995|
89964|T||Welsch,F.|Effects of Acute or Chronic Polychlorinated Biphenyl Ingestion on Maternal Metabolic Homeostasis and on the Manifestations of Embryotoxicity Caused by Cyclophosphamide in Mice|Arch. Toxicol.57:104-113|1985|10.1007/BF00343119
89965|T||Rhile,M.J., M. Nagarkatti, and P.S. Nagarkatti|Role of Fas Apoptosis and MHC Genes in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Immunotoxicity of T Cells|Toxicology110:153-167|1996|10.1016/0300-483X(96)83962-X
89966|T||Funseth,E., and N.G. Ilback|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Blood and Spleen Natural Killer (NK) Cell Activity in the Mouse|Toxicol. Lett.60:247-256|1992|10.1016/0378-4274(92)90282-O
89967|T||Tomar,R.S., and N.I. Kerkvliet|Reduced T-Helper Cell Function in Mice Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Toxicol. Lett.57:55-64|1991|10.1016/0378-4274(91)90119-Q
89968|T||Hermansky,S.J., T.L. Holcslaw, W.J. Murray, R.S. Markin, and S.J. Stohs|Biochemical and Functional Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on the Heart of Female Rats|Toxicol. Appl. Pharmacol.95:175-184|1988|10.1016/0041-008X(88)90154-8
89969|T||Kelling,C.K., L.A. Menahan, and R.E. Peterson|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Treatment on Mechanical Function of the Rat Heart|Toxicol. Appl. Pharmacol.91:497-501|1987|10.1016/0041-008X(87)90072-X
89970|T||Brewster,D.W., F. Matsumura, and T. Akera|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Guinea Pig Heart Muscle|Toxicol. Appl. Pharmacol.89:408-417|1987|10.1016/0041-008X(87)90160-8
89971|T||Schiller,C.M., C.M. Adcock, C.R. Shoaf, and R. Walden|Effects of Adenine and its Isomer 4-Aminopyrazolo-[3,4-d]-Pyrimidine on 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Mortality in Rats|Toxicol. Appl. Pharmacol.84:369-378|1986|10.1016/0041-008X(86)90145-6
89972|T||Lucier,G.W., B.R. Sonawane, O.S. McDaniel, and G.E.R. Hook|Postnatal Stimulation of Hepatic Microsomal Enzymes Following Administration of TCDD to Pregnant Rats|Chem.-Biol. Interact.11(1): 15-26|1975|10.1016/0009-2797(75)90062-9
89974|T||Nagao,T., D. Neubert, and E. Loser|Comparative Studies on the Induction of Ethoxyresorufin-o-Deethylase by 2,3,7,8-TCDD and 2,3,7,8-TBrDD|Chemosphere20(7-9): 1118-1192|1990|10.1016/0045-6535(90)90243-M
89975|T||Birnbaum,L.S., M.W. Harris, C.P. Miller, R.M. Pratt, and J.C. Lamb|Synergistic Interaction of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Hydrocortisone in the Induction of Cleft Palate in Mice|Teratology33:29-35|1986|10.1002/tera.1420330106
89977|A||Jensen,S., N. Johansson, and M. Olsson|PCB - Indications of Effects on Salmon|Swed.Salmon Res.Inst.LFI MEDD, July 19:9 p.|1970|
89978|T||Buu-Hoi,N.P., P.H. Chanh, G. Sesque, M.C. Azum-Gelade, and G. Saint-Ruf|"Organs as Targets of ""Dioxin"" (2,3,7,8-Tetrachlorodibenzo-p-Dioxin) Intoxication"|Naturwissenschaften59:174-175|1972|10.1007/BF00637374
89979|T||Yamamoto,H.A., and H. Yoshimura|Metabolic Studies on Polychlorinated Biphenyls. III. Complete Structure and Acute Toxicity of the Metabolites 2,4,3',4'-Tetrachlorobiphenyl|Chem. Pharm. Bull.21(10): 2237-2242|1973|10.1248/cpb.21.2237
89980|T||De Krey,G.K., L. Baecher-Steppan, J.A. Deyo, B. Smith, and N.I. Kerkvliet|Polychlorinated Biphenyl-Induced Immune Suppression:  Castration, but not Adrenalectomy, or RU 38486 Treatment, Partially Restores the Suppressed Cytotoxic T Lymphocyte Response to Alloantigen|J. Pharmacol. Exp. Ther.267:308-315|1993|
89981|T||Lakshman,M.R., S.J. Chirtel, L.L. Chambers, and P.J. Coutlakis|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Lipid Synthesis and Lipogenic Enzymes in the Rat|J. Pharmacol. Exp. Ther.248:62-66|1989|
89982|T||Yellon,S.M., D. Singh, T.M. Garrett, O.R. Fagoaga, and S.L. Nehlsen-Cannarella|Reproductive, Neuroendocrine, and Immune Consequences of Acute Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Siberian Hamster|Biol. Reprod.63:538-543|2000|10.1095/biolreprod63.2.538
89983|T||Vogel,C., S. Donat, O. Dohr, J. Kremer, C. Esser, M. Roller, and J. Abel|Effect of Subchronic 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure on Immune System and Target Gene Responses in Mice:  Calculation of Benchmark Doses for CYP1A1 and CYP1A2 Related Enzyme Activities|Arch. Toxicol.71:372-382|1997|10.1007/s002040050401
89984|T||Viluksela,M., Y. Bager, J.T. Tuomisto, G. Scheu, M. Unkila, R. Pohjanvirta, S. Flodstrom, V.K. Kosma, J. Maki-Paakkanen|Liver Tumor-Promoting Activity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in TCDD-Sensitive and TCDD-Resistant Rat Strains|Cancer Res.60:6911-6920|2000|
89985|T||Viluksela,M., B.U. Stahl, L.S. Birnbaum, and K.K. Rozman|Subchronic/Chronic Toxicity of a Mixture of Four Chlorinated Dibenzo-p-Dioxins in Rats.  II.  Biochemical Effects|Toxicol. Appl. Pharmacol.151:70-78|1998|10.1006/taap.1998.8412
89986|T||Viluksela,M., B.U. Stahl, L.S. Birnbaum, and K.K. Rozman|Subchronic/Chronic Toxicity of 1,2,3,4,6,7,8-Heptachlorodibenzo-p-Dioxin (HpCDD) in Rats.  Part II.  Biochemical Effects|Toxicol. Appl. Pharmacol.146:217-226|1997|10.1006/taap.1997.8240
89987|T||Theobald,H.M., and R.E. Peterson|In Utero and Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Effects on Development of the Male and Female Reproductive System of the Mouse|Toxicol. Appl. Pharmacol.145:124-135|1997|10.1006/taap.1997.8173
89988|T||Staples,J.E., N.C. Fiore, D.E.,Jr. Frazier, T.A. Gasiewicz, and A.E. Silverstone|Overexpression of the Anti-Apoptotic Oncogene, bcl-2 in the Thymus does not Prevent Thymic Atrophy Induced by Estradiol or 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.151:200-210|1998|10.1006/taap.1998.8446
89989|T||Shepherd,D.M., E.A. Dearstyne, and N.I. Kerkvliet|The Effects of TCDD on the Activation of Ovalbumin (OVA)-Specific DO11.10 Transgenic CD4(+) T Cells in Adoptively Transferred Mice|Toxicol. Sci.56:340-350|2000|10.1093/toxsci/56.2.340
89990|T||Roegge,C.S., B.W. Seo, K.M. Crofton, and S.L. Schantz|Gestational-Lactational Exposure to Aroclor 1254 Impairs Radial-Arm Maze Performance in Male Rats|Toxicol. Sci.57:121-130|2000|10.1093/toxsci/57.1.121
89991|T||Rice,D.C.|Effect of Exposure to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) Throughout Gestation and Lactation on Development and Spatial Delayed Alternation Performance in Rats|Neurotoxicol. Teratol.21(1): 59-69|1999|10.1016/S0892-0362(98)00031-2
89992|T||Poland,A., P. Teitelbaum, E. Glover, and A. Kende|Stimulation of In Vivo Hepatic Uptake and In Vitro Hepatic Binding of [125I]2-Iodo-3,7,8-Trichlorodibenzo-p-Dioxin by the Administration of Agonists for the Ah Receptor|Mol. Pharmacol.36:121-127|1989|
89993|T||Peters,J.M., M.G. Narotsky, G. Elizondo, P.M. Fernandez-Salguero, F.J. Gonzalez, and B.D. Abbott|Amelioration of TCDD-Induced Teratogenesis in Aryl Hydrocarbon Receptor (AhR)-Null Mice|Toxicol. Sci.47(1): 86-92|1999|10.1093/toxsci/47.1.86
89994|T||Lawrence,B.P., M. Meyer, D.J. Reed, and N.I. Kerkvliet|Role of Glutathione and Reactive Oxygen Intermediates in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Immune Suppression in C57B1/6 Mice|Toxicol. Sci.52:50-60|1999|10.1093/toxsci/52.1.50
89995|T||Altmann,L., H. Lilienthal, J. Hany, and H. Wiegand|Inhibition of Long-Term Potentiation in Developing Rat Visual Cortex but not Hippocampus by In Utero Exposure to Polychlorinated Biphenyls|Brain Res. Dev. Brain Res.110:257-260|1998|10.1016/S0165-3806(98)00112-6
89996|T||Bushnell,P.J., and D.C. Rice|Behavioral Assessments of Learning and Attention in Rats Exposed Perinatally to 3,3',4,4',5-Pentachlorobiphenyl (PCB 126)|Neurotoxicol. Teratol.21:381-392|1999|10.1016/S0892-0362(99)00006-9
89997|T||Geller,A.M., P.J. Bushnell, and D.C. Rice|Behavioral and Electrophysiological Estimates of Visual Thresholds in Awake Rats Treated with 3,3',4,4',5-Pentachlorobiphenyl (PCB 126)|Neurotoxicol. Teratol.22:521-531|2000|10.1016/S0892-0362(00)00067-2
89998|T||Suheri,H., and R.X. Latin|Retention of Fungicides for Control of Alternaria Leaf Blight of Muskmelon Under Greenhouse Conditions|Plant Dis.75(10): 1013-1015|1991|10.1094/PD-75-1013
89999|T||Smilanick,J.L., J.A. Hoffmann, N.L. Cashion, and J.M. Prescott|Evaluation of Seed and Foliar Fungicides for Control of Karnal Bunt of Wheat|Plant Dis.71(1): 94-96|1987|10.1094/PD-71-0094
90000|T||Hudler,G.W., M.T. Banik, and S.G. Miller|Unusual Epidemic of Tar Spot on Norway Maple in Upstate New York|Plant Dis.71(1): 65-68|1987|10.1094/PD-71-0065
90001|T||Arauz,L.F., and T.B. Sutton|Protectant and After-Infection Activity of Fungicides Against Botryosphaeria obtusa on Apple|Plant Dis.74(12): 1029-1034|1990|10.1094/PD-74-1029
90002|T||Moorman,G.W., and R.J. Lease|Residual Efficacy of Fungicides Used in the Management of Botrytis cinerea on Greenhouse-Grown Geraniums|Plant Dis.76(4): 374-376|1992|10.1094/PD-76-0374
90003|T||Gilbert,M.E., and K.M. Crofton|Developmental Exposure to a Commercial PCB Mixture (Aroclor 1254) Produces a Persistent Impairment in Long-Term Potentiation in the Rat Dentate Gyrus In Vivo|Brain Res.850(1-2): 87-95|1999|10.1016/S0006-8993(99)02107-1
90004|T||Kamath,A.B., I. Camacho, P.S. Nagarkatti, and M. Nagarkatti|Role of Fas-Fas Ligand Interactions in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Immunotoxicity:  Increased Resistance of Thymocytes from Fas-Deficient (lpr) and Fas Ligand-Defective (gld) Mice to TCDD-Induced |Toxicol. Appl. Pharmacol.160:141-155|1999|10.1006/taap.1999.8753
90005|T||Huang,W., and L.D. Koller|Effect of a Single or Repeated Dose of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on T Cell Subpopulations in the Long-Evans Rat|Toxicol. Lett.109:97-104|1999|10.1016/S0378-4274(99)00125-3
90006|T||Gilbert,M.E., W.R. Mundy, and K.M. Crofton|Spatial Learning and Long-Term Potentiation in the Dentate Gyrus of the Hippocampus in Animals Developmentally Exposed to Aroclor 1254|Toxicol. Sci.57(1): 102-111|2000|10.1093/toxsci/57.1.102
90007|T||Gehrs,B.C., M.M. Riddle, W.C. Williams, and R.J. Smialowicz|Alterations in the Developing Immune System of the F344 Rat After Perinatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Il.  Effects on the Fetus and the Neonate|Toxicology122:219-228|1997|10.1016/S0300-483X(97)00098-X
90008|T||Gehrs,B.C., M.M. Riddle, W.C. Williams, and R.J. Smialowicz|Alterations in the Developing Immune System of the F344 Rat After Perinatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  II.  Effects on the Pup and the Adult|Toxicology122:229-240|1997|10.1016/S0300-483X(97)00099-1
90009|T||Gao,X., P.F. Terranova, and K.K. Rozman|Effects of Polychlorinated Dibenzofurans, Biphenyls, and Their Mixture with Dibenzo-p-Dioxins on Ovulation in the Gonadotropin-Primed Immature Rat:  Support for the Toxic Equivalency Concept|Toxicol. Appl. Pharmacol.163:115-124|2000|10.1006/taap.1999.8851
90010|T||Faqi,A.S., P.R. Dalsenter, H.J. Merker, and I. Chahoud|Reproductive Toxicity and Tissue Concentrations of Low Doses of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Male Offspring Rats Exposed Throughout Pregnancy and Lactation|Toxicol. Appl. Pharmacol.150:383-392|1998|10.1006/taap.1998.8433
90011|T||Fan,F., and K.K. Rozman|Short- and Long-Term Biochemical Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Female Long-Evans Rats|Toxicol. Lett.75:209-216|1995|10.1016/0378-4274(94)03182-7
90012|T||Dunlap,D.Y., M.J. Moreno-Aliaga, Z. Wu, and F. Matsumura|Differential Toxicities of TCDD In Vivo Among Normal, c-src Knockout, Geldanamycin- and Quercetin-Treated Mice|Toxicology135:95-107|1999|10.1016/S0300-483X(99)00054-2
90013|T||Crofton,K.M., P.R.S. Kodavanti, E.C. Derr-Yellin, A.C. Casey, and L.S. Kehn|PCBs, Thyroid Hormones, and Ototoxicity in Rats: Cross-Fostering Experiments Demonstrate the Impact of Postnatal Lactation Exposure|Toxicol. Sci.57(1): 131-140|2000|10.1093/toxsci/57.1.131
90014|T||Bushnell,P.J., V.C. Moser, R.C. MacPhail, W.M. Oshiro, E.C. Derr-Yellin, P.M. Phillips, and P.R.S. Kodavanti|Neurobehavioral Assessments of Rats Perinatally Exposed to a Commercial Mixture of Polychlorinated Biphenyls|Toxicol. Sci.68:109-120|2002|10.1093/toxsci/68.1.109
90015|T||Altmann,L., A. Weinand-Haerer, H. Lilienthal, and H. Wiegand|Maternal Exposure to Polychlorinated Biphenyls Inhibits Long-Term Potentiation in the Visual Cortex of Adult Rats|Neurosci. Lett.202:53-56|1995|10.1016/0304-3940(95)12197-8
90016|T||Narbonne,J.F., M. Bourdichon, and J.L. Gallis|Polychlorinated Biphenyls:  Effect of Diet Level on ATPase Activity in Rats|Bull. Environ. Contam. Toxicol.20:184-190|1978|10.1007/BF01683507
90027|A||Seki,M., S. Fujishima, T. Nozaka, M. Maeda, and K. Kobayashi|Comparison of Response to 17beta-Estradiol and 17beta-Trenbolone Among Three Small Fish Species|Environ. Toxicol. Chem.25(10): 2742-2752|2006|10.1897/05-647R.1
90028|A||Orn,S., S. Yamani, and L. Norrgren|Comparison of Vitellogenin Induction, Sex Ratio, and Gonad Morphology Between Zebrafish and Japanese Medaka After Exposure to 17alpha-Ethinylestradiol and 17 beta-Trenbolone|Arch. Environ. Contam. Toxicol.51(2): 237-243|2006|10.1007/s00244-005-0103-y
90029|A||Miracle,A., G. Ankley, and D. Lattier|Expression of Two Vitellogenin Genes (vg1 and vg3) in Fathead Minnow (Pimephales promelas) Liver in Response to Exposure to Steroidal Estrogens and Androgens|Ecotoxicol. Environ. Saf.63(3): 337-342|2006|10.1016/j.ecoenv.2005.12.002
90030|A||Arslan,T., and R.P. Phelps|Production of Monosex Male Black Crappie, Pomoxis nigromaculatus, Populations by Multiple Androgen Immersion|Aquaculture234(1-4): 561-573|2004|10.1016/j.aquaculture.2003.12.007
90031|A||Amweg,E.L., D.P. Weston, C.S. Johnson, J. You, and M.J. Lydy|Effect of Piperonyl Butoxide on Permethrin Toxicity in the Amphipod Hyalella azteca|Environ. Toxicol. Chem.25(7): 1817-1825|2006|10.1897/05-440R.1
90032|A||Barse,A.V., T. Chakrabarti, T.K. Ghosh, A.K. Pal, and S.B. Jadhao|One-Tenth Dose of LC50 of 4-tert-Butylphenol Causes Endocrine Disruption and Metabolic Changes in Cyprinus carpio|Pestic. Biochem. Physiol.86(3): 172-179|2006|10.1016/j.pestbp.2006.03.006
90033|A||Barata,C., D.J. Baird, A.J.A. Nogueira, A.M.V.M. Soares, and M.C. Riva|Toxicity of Binary Mixtures of Metals and Pyrethroid Insecticides to Daphnia magna Straus.  Implications for Multi-Substance Risks Assessment|Aquat. Toxicol.78(1): 1-14|2006|10.1016/j.aquatox.2006.01.013
90034|A||Barsiene,J., J. Syvokiene, and A. Bjornstad|Induction of Micronuclei and Other Nuclear Abnormalities in Mussels Exposed to Bisphenol A, Diallyl Phthalate and Tetrabromodiphenyl Ether-47|Aquat. Toxicol.78(Suppl. 1): S105 - S108|2006|
90035|A||Cebrian,E., G. Agell, R. Marti, and M.J. Uriz|Response of the Mediterranean Sponge Chondrosia reniformis Nardo to Copper Pollution|Environ. Pollut.141(3): 452-458|2006|10.1016/j.envpol.2005.08.070
90036|A||Bagnyukova,T.V., O.I. Chahrak, and V.I. Lushchak|Coordinated Response of Goldfish Antioxidant Defenses to Environmental Stress|Aquat. Toxicol.78(4): 325-331|2006|10.1016/j.aquatox.2006.04.005
90037|A||Balch,G.C., L.A. Velez-Espino, C. Sweet, M. Alaee, and C.D. Metcalfe|Inhibition of Metamorphosis in Tadpoles of Xenopus laevis Exposed to Polybrominated Diphenyl Ethers (PBDEs)|Chemosphere64(2): 328-338|2006|10.1016/j.chemosphere.2005.12.019
90039|A||Anderson,B.S., B.M. Phillips, J.W. Hunt, V. Connor, N. Richard, and R.S. Tjeerdema|Identifying Primary Stressors Impacting Macroinvertebrates in the Salinas River (California, USA):  Relative Effects of Pesticides and Suspended Particles|Environ. Pollut.141(3): 402-408|2006|10.1016/j.envpol.2005.08.056
90040|A||Antognelli,C., F. Baldracchini, A. Piazzoli, R. Frosiini, V. Talesa, and E. Giovannini|Activity Changes of Glyoxalase System Enzymes and Glutathione-S-Transferase in the Bivalve Mollusc Scapharca Inaequivalvis Exposed to the Organophosphate Chlorpyrifos|Pestic. Biochem. Physiol.86(2): 72-77|2006|10.1016/j.pestbp.2006.01.007
90041|A||Ateeq,B., M.A. Farah, and W. Ahmad|Detection of DNA Damage by Alkaline Single Cell Gel Electrophoresis in 2,4-Dichlorophenoxyacetic-Acid- and Butachlor-Exposed Erythrocytes of Clarias batrachus|Ecotoxicol. Environ. Saf.62(3): 348-354|2005|10.1016/j.ecoenv.2004.12.011
90042|A||Ansaldo,M., D.E. Nahabedian, E. Holmes-Brown, M. Agote, C.V. Ansay, N.R.V. Guerrero, and E.A. Wider|Potential Use of Glycogen Level as Biomarker of Chemical Stress in Biomphalaria glabrata|Toxicology224(1-2): 119-127|2006|10.1016/j.tox.2006.04.037
90043|A||Atli,G., O. Alptekin, S. Tukel, and M. Canli|Response of Catalase Activity to Ag+, Cd2+, Cr6+, Cu2+ and Zn2+ in Five Tissues of Freshwater Fish Oreochromis niloticus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(2): 218-224|2006|10.1016/j.cbpc.2006.02.003
90044|A||Arrhenius,A., T. Backhaus, F. Gronvall, M. Junghans, M. Scholze, and H. Blanck|Effects of Three Antifouling Agents on Algal Communities and Algal Reproduction:  Mixture Toxicity Studies with TBT, Irgarol, and Sea-Nine|Arch. Environ. Contam. Toxicol.50(3): 335-345|2006|10.1007/s00244-005-1057-9
90045|A||Neethirajan,K., and S. Mathavan|Sumidon Induced Changes on Some Aspects of Metabolism in the Chosen Tissues of the Fresh Water Catfish, Mystus vittatus (Bloch)|J. Exp. Zool.7(2): 279-283|2004|
90046|A||Tierney,K.B., P.S. Ross, and C.J. Kennedy|Linuron and Carbaryl Differentially Impair Baseline Amino Acid and Bile Salt Olfactory Responses in Three Salmonids|Toxicology231(2/3): 175-187|2007|10.1016/j.tox.2006.12.001
90047|A||Zurita,J.L., A. Jos, A. Del Peso, M. Salguero, M. Lopez-Artiguez, and G. Repetto|Ecotoxicological Evaluation of the Antimalarial Drug Chloroquine|Aquat. Toxicol.75(2): 97-107|2005|10.1016/j.aquatox.2005.07.009
90048|T||Ronday,R., A.M.M. Van Kammen-Polman, A. Dekker, N.W.H. Houx, and M. Leistra|Persistence and Toxicological Effects of Pesticides in Topsoil:  Use of the Equilibrium Partitioning Theory|Environ. Toxicol. Chem.16(4): 601-607|1997|10.1002/etc.5620160401
90049|T||Bombick,D.W., B.V. Madhukar, D.W. Brewster, and F. Matsumura|TCDD (2,3,7,8-Tetrachlorodibenzo-p-Dioxin) Causes Increases in Protein Kinases Particularly Protein Kinase C in the Hepatic Plasma Membrane of the Rat and the Guinea Pig|Biochem. Biophys. Res. Commun.127:296-302|1984|10.1016/S0006-291X(85)80158-3
90050|T||Stahlmann,R., T. Schultz-Schalge, M. Korte, C. Renschler, I. Baumann-Wilschke, and D. Neubert|Clinical Chemistry and Haematology in Rats After Short-Term and After Long-Term Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Chemosphere25(7-10): 1207-1214|1992|10.1016/0045-6535(92)90131-A
90052|T||Pernezny,K., R. Nagata, R.N. Raid, J. Collins, and A. Carroll|Investigation of Seed Treatments for Management of Bacterial Leaf Spot of Lettuce|Plant Dis.86(2): 151-155|2002|10.1094/PDIS.2002.86.2.151
90053|T||Liscia,A., C. Masala, R. Crnjar, G. Sollai, and P. Solari|"Saccharin Stimulates the ""Deterrent"" Cell in the Blowfly:  Behavioral and Electrophysiological Evidence"|Physiol. Behav.80(5): 637-646|2004|10.1016/j.physbeh.2003.11.002
90055|T||Ruiz-Bravo,A., M. Perez, and M. Jimenez-Valera|The Enhancement of Growth of a Syngeneic Plasmacytoma in BALB/c Mice by Pristane Priming is not due to Immunosuppressive Effects on Antibody-Forming Cell or Mitogen-Responsive Splenocytes|Immunol. Lett.44(1): 41-44|1995|10.1016/0165-2478(94)00185-T
90056|T||Piersma,A.H., A. Verhoef, C.G.J. Sweep, W.H. De Jong, and H. Van Loveren|Developmental Toxicity but no Immunotoxicity in the Rat After Prenatal Exposure to Diethylstilbestrol|Toxicology174(3): 173-181|2002|10.1016/S0300-483X(02)00059-8
90057|T||Mahadevan,B., A. Luch, C.F. Bravo, J. Atkin, L.B. Steppan, C. Pereira, N.I. Kerkvliet, and W.M. Baird|Dibenzo(a,l)Pyrene Induced DNA Adduct Formation in Lung Tissue In Vivo|Cancer Lett.227(1): 25-32|2005|10.1016/j.canlet.2004.11.056
90058|T||Liu,L.X., T. Hsiang, K. Carey, and J.L. Eggens|Microbial Populations and Suppression of Dollar Spot Disease in Creeping Bentgrass with Inorganic and Organic Amendments|Plant Dis.79(2): 144-147|1995|10.1094/PD-79-0144
90061|A||Bellas,J.|Comparative Toxicity of Alternative Antifouling Biocides on Embryos and Larvae of Marine Invertebrates|Sci. Total Environ.367(2/3): 573-585|2006|10.1016/j.scitotenv.2006.01.028
90062|T||Mueller,D.S., S.N. Jeffers, and J.W. Buck|Toxicity of Fungicides to Urediniospores of Six Rust Fungi that Occur on Ornamental Crops|Plant Dis.89(3): 255-261|2005|10.1094/PD-89-0255
90063|T||Bowen,K.L., B. Young, and B.K. Behe|Management of Blackspot of Rose in the Landscape in Alabama|Plant Dis.79(3): 250-253|1995|10.1094/PD-79-0250
90064|T||Bowen,K.L., and R.S. Roark|Management of Black Spot of Rose with Winter Fungicide Treatment|Plant Dis.85(4): 393-398|2001|10.1094/PDIS.2001.85.4.393
90065|T||Jeffers,S.N.|Managing Cranberry Cottonball Caused by Monilinia oxycocci with Fungicides|Plant Dis.75(5): 502-506|1991|10.1094/PD-75-0502
90066|T||Pernezny,K., L.E. Datnoff, T. Mueller, and J. Collins|Losses in Fresh-Market Tomato Production in Florida due to Target Spot and Bacterial Spot and the Benefits of Protectant Fungicides|Plant Dis.80(5): 559-563|1996|10.1094/PD-80-0559
90067|T||Lodovici,M., C. Casalini, C. Briani, and P. Dolara|Oxidative Liver DNA Damage in Rats Treated with Pesticide Mixtures|Toxicology117(1): 55-60|1997|10.1016/S0300-483X(96)03553-6
90069|T||Powell,J.F., J.M. Jr. Vargas, M.G. Nair, A.R. Detweiler, and A. Chandra|Management of Dollar Spot on Creeping Bentgrass with Metabolites of Pseudomonas aureofaciens (TX-1)|Plant Dis.84(1): 19-24|2000|10.1094/PDIS.2000.84.1.19
90070|T||Chen,S.K., and C.A. Edwards|A Microcosm Approach to Assess the Effects of Fungicides on Soil Ecological Processes and Plant Growth:  Comparisons of Two Soil Types|Soil Biol. Biochem.33(14): 1981-1991|2001|10.1016/S0038-0717(01)00132-8
90071|T||Obradovic,A., J.B. Jones, M.T. Momol, B. Balogh, and S.M. Olson|Management of Tomato Bacterial Spot in the Field by Foliar Applications of Bacteriophages and SAR Inducers|Plant Dis.88(7): 736-740|2004|10.1094/PDIS.2004.88.7.736
90072|T||Khan,M.H., Q. Bano, and Nizamuddin |Pesticidal Activities of Some 3-Aryl-4-Methylpyrazolo(3,4-b)(1,5)Benzodiazepines and 4-Aryl-2-Imino-5-Methyl-1,3-Thiazino(4,5-b)(1,5)Benzodiazepines|J. Agric. Food Chem.43(10): 2719-2721|1995|10.1021/jf00058a032
90073|T||Solel,Z., Y. Oren, and M. Kimchi|Control of Alternaria Brown Spot of Minneola Tangelo with Fungicides|Crop Prot.16(7): 659-664|1997|10.1016/S0261-2194(97)00042-2
90074|T||Inglis,D.A., M.L. Powelson, and A.E. Dorrance|Effect of Registered Potato Seed Piece Fungicides on Tuber-Borne Phytophthora infestans|Plant Dis.83(3): 229-234|1999|10.1094/PDIS.1999.83.3.229
90075|T||Gilleron,L., S. Coecke, M. Sysmans, E. Hansen, S. Van Oproy, D. Marzin, H. Van Cauteren, and P. Vanparys|Evaluation of the HET-CAM-TSA Method as an Alternative to the Draize Eye Irritation Test|Toxicol. In Vitro11(5): 641-644|1997|10.1016/S0887-2333(97)00074-X
90076|T||Wong,F.P., and W.F. Wilcox|Comparative Physical Modes of Action of Azoxystrobin, Mancozeb, and Metalaxyl Against Plasmopara viticola (Grapevine Downy Mildew)|Plant Dis.85(6): 649-656|2001|10.1094/PDIS.2001.85.6.649
90077|A||Balch,G., and C. Metcalfe|Developmental Effects in Japanese Medaka (Oryzias latipes) Exposed to Nonylphenol Ethoxylates and Their Degradation Products|Chemosphere62(8): 1214-1223|2006|10.1016/j.chemosphere.2005.02.100
90078|T||Astill,B.D., R. Gingell, D. Guest, J. Hellwig, J.R. Hodgson, and K. Kuettler|Oncogenicity Testing of 2-Ethylhexanol in Fischer 344 Rats and B6C3F1 Mice|Fundam. Appl. Toxicol.31(1): 29-41|1996|10.1006/faat.1996.0073
90079|T||Romero,A.M., C.S. Kousik, and D.F. Ritchie|Resistance to Bacterial Spot in Bell Pepper Induced by Acibenzolar-S-Methyl|Plant Dis.85(2): 189-194|2001|10.1094/PDIS.2001.85.2.189
90080|T||Reddy,M.S., and K. Natarajan|Effects of the Fungicide Dithane M-45 on the Growth and Mycorrhizal Formation of Pinus patula Seedlings|Soil Biol. Biochem.27(11): 1503-1504|1995|10.1016/0038-0717(95)00071-L
90081|T||Austin,E.W., J.M. Parrish, D.H. Kinder, and R.J. Bull|Lipid Peroxidation and Formation of 8-Hydroxydeoxyguanosine from Acute Doses of Halogenated Acetic Acids|Fundam. Appl. Toxicol.31(1): 77-82|1996|10.1006/faat.1996.0078
90082|T||Osaba,L., M.J. Rey, A. Aguirre, A. Alonso, and U. Graf|Evaluation of Genotoxicity of Captan, Maneb and Zineb in the Wing Spot Test of Drosophila melanogaster:  Role of Nitrosation|Mutat. Res.518(1): 95-106|2002|10.1016/S1383-5718(02)00080-3
90083|T||Pease,H.L., and R.F. Holt|Manganese Ethylenebis (Dithiocarbamate) (Maneb)/Ethylenethiourea (ETU) Residue Studies on Five Crops Treated with Ethylenebis(Dithiocarbamate) (EBDC) Fungicides|J. Agric. Food Chem.25(3): 561-567|1977|10.1021/jf60211a043
90084|T||Asare,G.A., K.S. Mossanda, M.C. Kew, A.C. Paterson, C.P. Kahler-Venter, and K. Siziba|Hepatocellular Carcinoma Caused by Iron Overload:  A Possible Mechanism of Direct Hepatocarcinogenicity|Toxicology219(1-3): 41-52|2006|10.1016/j.tox.2005.11.006
90085|T||Samanta,S., R.K. Kole, L.K. Ganguly, and A. Chowdhury|Photochemical Transformation of the Fungicide Chlorothalonil by Ultra Violet Radiation|Bull. Environ. Contam. Toxicol.59(3): 367-374|1997|10.1007/s001289900487
90086|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Ethylene Thiourea in F344/N Rats and B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.388:1-256|1992|
90087|T||Andersen,H.R., E.C. Bonefeld-Jorgensen, F. Nielsen, K. Jarfeldt, M.N. Jayatissa, and A.M. Vinggaard|Estrogenic Effects In Vitro and In Vivo of the Fungicide Fenarimol|Toxicol. Lett.163(2): 142-152|2006|10.1016/j.toxlet.2005.10.004
90088|T||Arai,T., V.P. Kelly, O. Minowa, T. Noda, and S. Nishimura|The Study Using Wild-Type and Ogg1 Knockout Mice Exposed to Potassium Bromate Shows no Tumor Induction Despite an Extensive Accumulation of 8-Hydroxyguanine in Kidney DNA|Toxicology221(2-3): 179-186|2006|10.1016/j.tox.2006.01.004
90089|T||Augustyniak,M., A. Babczynska, P. Migula, G. Wilczek, P. Laszczyca, and A. Kafel|Joint Effects of Dimethoate and Heavy Metals on Metabolic Responses in a Grasshopper (Chorthippus brunneus) from a Heavy Metals Pollution Gradient|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(4): 412-419|2005|10.1016/j.cbpc.2005.09.007
90090|T||Awad,O.M.|Assessment of the Developmental Toxicity of In Utero Exposure of Wistar Albino Rats to Ametryne and Niclosamide|Pestic. Biochem. Physiol.53(1): 1-9|1995|10.1006/pest.1995.1049
90091|T||Auman,J.T., F.J. Seidler, and T.A. Slotkin|Neonatal Chlorpyrifos Exposure Targets Multiple Proteins Governing the Hepatic Adenylyl Cyclase Signaling Cascade: Implications for Neurotoxicity|Brain Res. Dev. Brain Res.121(1): 19-27|2000|10.1016/S0165-3806(00)00021-3
90092|T||Athanassiou,C.G.|Toxicity of beta Cyfluthrin Applied Alone or in Combination with Diatomaceous Earth Against Adults of Sitophilus oryzae (L.) (Coleoptera:  Curculionidae) and Tribolium confusum DuVal (Coleoptera:  Tenebrionidae) on Stor|Crop Prot.25(8): 788-794|2006|10.1016/j.cropro.2005.10.015
90093|T||Arukwe,A.|Organ-Specific Patterns of P450arom Gene Isoforms are Modulated by p,p'-DDE in Adult Male European Common Frog, Rana temporaria|Mar. Environ. Res.62(1): S215 - S218|2006|
90096|T||Baltaci,A.K., R. Mogulkoc, and A. Ozturk|Testosterone and Zinc Supplementation in Castrated Rats:  Effects on Plasma Leptin Levels and Relation with LH, FSH and Testosterone|Life Sci.78(7): 746-752|2006|10.1016/j.lfs.2005.05.098
90097|A||Holbech,H., K. Kinnberg, G.I. Petersen, P. Jackson, K. Hylland, L. Norrgren, and P. Bjerregaard|Detection of Endocrine Disrupters: Evaluation of a Fish Sexual Development Test (FSDT)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(1): 57-66|2006|10.1016/j.cbpc.2006.05.006
90098|T||Baille,V., P.G.H. Clarke, G. Brochier, F. Dorandeu, J.M. Verna, E. Four, G. Lallement, and P. Carpentier|Soman-Induced Convulsions:  The Neuropathology Revisited|Toxicology215(1-2): 1-24|2005|10.1016/j.tox.2005.05.028
90099|T||Baek,S.Y., M.J. Lee, H.S. Jung, H.J. Kim, C.R. Lee, C. Yoo, J.H. Lee, H. Lee, C.S. Yoon, Y.H. Kim, J. Park, J.W. Kim, B|Effect of Manganese Exposure on MPTP Neurotoxicities|Neurotoxicology24(4-5): 657-665|2003|10.1016/S0161-813X(03)00033-0
90100|T||Backstrom,B., E. Shibata, P. Nylen, and V.P. Collins|2,5-Hexanedione Concentrations and Morphological Changes Within the Eye of Albino Rat|Arch. Toxicol.72(9): 597-600|1998|10.1007/s002040050548
90101|T||Bachowski,S., Y. Xu, D.E. Stevenson, E.F.,Jr. Walborg, and J.E. Klaunig|Role of Oxidative Stress in the Selective Toxicity of Dieldrin in the Mouse Liver|Toxicol. Appl. Pharmacol.150(2): 301-309|1998|10.1006/taap.1998.8372
90102|T||Menn,J.J., J.R. DeBaun, and J.B. McBain|Recent Advances in the Metabolism of Organophosphorus Insecticides|FASEB J.35(14): 2598-2602|1976|
90109|T||Asquith,A., and R.H. Messing|Attraction of Hawaiian Ground Litter Invertebrates to Protein Hydrolysate Bait|Environ. Entomol.21(5): 1022-1028|1992|10.1093/ee/21.5.1022
90110|A||Wesson,D.M.|Susceptibility to Organophosphate Insecticides in Larval Aedes albopictus|Am. Mosq. Control Assoc. J.6(2): 258-264|1990|
90111|A||Rodger,H.D., V. Inglis, and R.H. Richards|Effect of Trenbolone Acetate on Development of Atlantic Salmon Skin and the Lack of Epidermal Protection Against Laboratory-Induced Furunculosis|J. Aquat. Anim. Health7(1): 50-53|1995|10.1577/1548-8667(1995)007<0050:EOTAOD>2.3.CO;2
90113|A||Londono,D.K.|Biochemical and Molecular Effects of Atrazine Exposure in Chironomus tentans and Pimephales promelas|Ph.D. Thesis, University of Nebraska, Lincoln, NE:99 p.|2005|
90115|T||Saillenfait,A.M., J.P. Sabate, I. Langonne, and J. De Ceaurriz|Difference in the Developmental Toxicity of Ethylenethiourea and Three N,N'-Substituted Thiourea Derivatives in Rats|Fundam. Appl. Toxicol.17(2): 399-408|1991|10.1016/0272-0590(91)90229-W
90116|AT||Daston,G.P., J.M. Rogers, D.J. Versteeg, T.D. Sabourin, D. Baines, and S.S. Marsh|Interspecies Comparisons of A/D Ratios: A/D Ratios are not Constant Across Species|Fundam. Appl. Toxicol.17(4): 696-722|1991|10.1016/0272-0590(91)90179-8
90117|T||Cicurel,L., and B.P. Schmid|Post-Implantation Embryo Culture:  Validation with Selected Compounds for Teratogenicity Testing|Xenobiotica18(6): 617-624|1988|10.3109/00498258809041699
90118|T||Tsuchiya,T., A. Nakamura, T. Iio, and A. Takahashi|Species Differences Between Rats and Mice in the Teratogenic Action of Ethylenethiourea:  In Vivo/In Vitro Tests and Teratogenic Activity of Sera Using an Embryonic Cell Differentiation System|Toxicol. Appl. Pharmacol.109(1): 1-6|1991|10.1016/0041-008X(91)90185-H
90119|T||Arnold,D.L., D.R. Krewski, D.B. Junkins, P.F. McGuire, C.A. Moodie, and I.C. Munro|Reversibility of Ethylenethiourea-Induced Thyroid Lesions|Toxicol. Appl. Pharmacol.67(2): 264-273|1983|10.1016/0041-008X(83)90233-8
90121|T||Daston,G.P., B.F. Rehnberg, B. Carver, and R.J. Kavlock|Functional Teratogens of the Rat Kidney.  II.  Nitrofen and Ethylenethiourea|Fundam. Appl. Toxicol.11(3): 401-415|1988|10.1016/0272-0590(88)90105-4
90122|T||Newsome,W.H., A.P. Yagminas, D.C. Villeneuve, and C.A. Franklin|The Effect of Sodium Bromide Ingestion on the Goitrogenic Action of Ethylenethiourea in the Male Rat|Bull. Environ. Contam. Toxicol.20(5): 678-686|1978|10.1007/BF01683585
90123|T||Lewerenz,H.J., and R. Plass|Contrasting Effects of Ethylenethiourea on Hepatic Monooxygenases in Rats and Mice|Arch. Toxicol.56(2): 92-95|1984|10.1007/BF00349078
90124|T||Kurttio,P., K. Savolainen, A. Naukkarinen, V.M. Kosma, L. Tuomisto, I. Penttila, and J. Jolkkonen|Urinary Excretion of Ethylenethiourea and Kidney Morphology in Rats After Continuous Oral Exposure to Nabam or Ethylenethiourea|Arch. Toxicol.65(5): 381-385|1991|10.1007/BF02284260
90126|T||Efiuvwevwere,B.J.O., and A.E. Eka|The Susceptibility of Fungicide-Treated and Packaged Tomato Fruits to Biodeterioration and Post-Inoculation Disease Development|Int. Biodeterior. Biodegrad.29(1): 75-85|1992|10.1016/0964-8305(92)90008-C
90127|T||Thiruchelvam,M., B.J. Brockel, E.K. Richfield, R.B. Baggs, and D.A. Cory-Slechta|Potentiated and Preferential Effects of Combined Paraquat and Maneb on Nigrostriatal Dopamine Systems:  Environmental Risk Factors for Parkinson's Disease?|Brain Res.873(2): 225-234|2000|10.1016/S0006-8993(00)02496-3
90128|T||Marchal-Segault,D., J. Seuge, and G. Lauge|Studies on the Toxicity of Some Carbamate Fungicides in Drosophila melanogaster Meig. (Insecta, Diptera)|Environ. Res.37(1): 26-32|1985|10.1016/0013-9351(85)90046-5
90129|T||Vasudev,V., G. Subramanya, and N.B. Krishnamurthy|Dominant Lethals Induced by Dithane M-45 in Silkworm Bombyx mori|Environ. Res.65(1): 145-148|1994|10.1006/enrs.1994.1027
90130|T||Ksheerasagar,R.L., and B.B. Kaliwal|Temporal Effects of Mancozeb on Testes, Accessory Reproductive Organs and Biochemical Constituents in Albino Mice|Environ. Toxicol. Pharmacol.15(1): 9-17|2003|10.1016/j.etap.2003.08.006
90131|T||Mehrotra,N.K., S. Kumar, and Y. Shukla|Enhancement of Tumor-Initiating Activity of DMBA by the Carbamate Fungicide Mancozeb|Bull. Environ. Contam. Toxicol.44(1): 39-45|1990|10.1007/BF01702359
90132|T||Munk,R., and V. Schulz|Study of Possible Teratogenic Effects of the Fungicide Maneb on Chick Embryos|Ecotoxicol. Environ. Saf.17(1): 112-118|1989|10.1016/0147-6513(89)90015-8
90134|T||Cicchetti,F., N. Lapointe, A. Roberge-Tremblay, M. Saint-Pierre, L. Jimenez, B.W. Ficke, and R.E. Gross|Systemic Exposure to Paraquat and Maneb Models Early Parkinson's Disease in Young Adult Rats|Neurobiol. Dis.20(2): 360-371|2005|10.1016/j.nbd.2005.03.018
90135|T||Thiruchelvam,M., E.K. Richfield, B.M. Goodman, R.B. Baggs, and D.A. Cory-Slechta|Developmental Exposure to the Pesticides Paraquat and Maneb and the Parkinson's Disease Phenotype|Neurotoxicology23(4-5): 621-633|2002|10.1016/S0161-813X(02)00092-X
90137|T||Van Birgelen,A.P.J.M., J.M.W. Smeets, K.M. Fase, J. Van der Kolk, and M. Van den Berg|Modulation of Hepatic Retention After Coadministration of 2,3,3',4,4',5-Hexachlorobiphenyl and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin: Possible Role of Metabolism and Cytochrome P450-1A2|Eur. J. Pharmacol.6:83-96|1994|
90138|T||Puhvel,S.M., M. Sakamoto, D.C. Ertl, and R.M. Reisner|Hairless Mice as Models for Chloracne: A Study of Cutaneous Changes Induced by Topical Application of Established Chloracnegens|Toxicol. Appl. Pharmacol.64:492-503|1982|10.1016/0041-008X(82)90247-2
90139|T||Thomas,P.E., L.M. Reik, D.E. Ryan, and W. Levin|Induction of Two Immunochemically Related Rat Liver Cytochrome P-450 Isozymes, Cytochromes P-450c and P-450d, by Structurally Diverse Xenobiotics|J. Biol. Chem.258(7): 4590-4598|1983|10.1016/S0021-9258(18)32664-4
90140|T||Van Birgelen,A.P.J.M., K.M. Fase, J. Van der Kolk, H. Poiger, A. Brouwer, W. Seinen, and M. Van den Berg|Highly Synergistic Effect of 2,2',4,4',5,5'-Hexachlorobiphenyl and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Hepatic Porphyrin Levels in the Rat|Arch. Toxicol.:109-120|1994|
90141|T||Vainio,H.|Enhancement of Microsomal Drug Oxidation and Glucuronidation in Rat Liver by an Environmental Chemical, Polychlorinated Biphenyl|Chem.-Biol. Interact.9:379-387|1974|10.1016/0009-2797(74)90132-X
90142|T||Brunner,M.J., T.M. Sullivan, A.W. Singer, M.J. Ryan, J.D. Toft II, R.S. Menton, S.W. Graves, and A.C. Peters|An Assessment of the Chronic Toxicity and Oncogenicity of Aroclor-1016, Aroclor-1242, Aroclor-1254, and Aroclor-1260 Administered in Diet to Rats|Battelle Study No.SC920192, Chronic Toxicity and Oncogenicity Report, Volume I, Battelle, Columbus, OH:583 p.|1997|
90143|T||Brunner,M.J., T.M. Sullivan, A.W. Singer, M.J. Ryan, J.D. Toft II, R.S. Menton, S.W. Graves, and A.C. Peters|An Assessment of the Chronic Toxiciity and Oncogenicity of Aroclor-1016, Aroclor-1242, Aroclor-1254, and Aroclor-1260 Administered in Diet to Rats|Battelle Study No.SC920192, Chronic Toxicity and Oncogenicity Report, Volume II, Battelle, Columbus, OH:491 p.|1997|
90145|A||Alves,L.C., and C.M. Wood|The Chronic Effects of Dietary Lead in Freshwater Juvenile Rainbow Trout (Oncorhynchus mykiss) Fed Elevated Calcium Diets|Aquat. Toxicol.78(3): 217-232|2006|10.1016/j.aquatox.2006.03.005
90146|T||Abdullah,N.M.M., J. Singh, and B.S. Sohal|Behavioral Hormoligosis in Oviposition Preference of Bemisia tabaci on Cotton|Pestic. Biochem. Physiol.84(1): 10-16|2006|10.1016/j.pestbp.2005.03.011
90147|T||Aribi,N., G. Smagghe, S. Lakbar, N. Soltani-Mazouni, and N. Soltani|Effects of Pyriproxyfen, a Juvenile Hormone Analog, on Development of the Mealworm, Tenebrio molitor|Pestic. Biochem. Physiol.84(1): 55-62|2006|10.1016/j.pestbp.2005.05.008
90148|A||Aarab,N., S. LeMaire-Gony, E. Unruh, P.D. Hansen, B.K. Larsen, O.K. Andersen, and J.F. Narbonne|Preliminary Study of Responses in Mussel (Mytilus edilus) Exposed to Bisphenol A, Diallyl Phthalate and Tetrabromodiphenyl Ether|Aquat. Toxicol.78(1): S86 - S92|2006|
90149|T||Abou-Donia,M.B., K.R. Wilmarth, A.A. Abdel-Rahman, K.F. Jensen, F.W. Oehme, and T.L. Kurt|Increased Neurotoxicity Following Concurrent Exposure to Pyridostigmine Bromide, DEET, and Chlorpyrifos|Fundam. Appl. Toxicol.34(2): 201-222|1996|10.1006/faat.1996.0190
90150|T||Abe,T., N. Takagi, M. Nakano, and S. Takeo|The Effects of Monobromobimane on Neuronal Cell Death in the Hippocampus After Transient Global Cerebral Ischemia in Rats|Neurosci. Lett.357(3): 227-231|2004|10.1016/j.neulet.2003.12.088
90152|A||Ahmad,I., M. Oliveira, M. Pacheco, and M.A. Santos|Anguilla anguilla L. Oxidative Stress Biomarkers Responses to Copper Exposure with or Without beta-Naphthoflavone Pre-Exposure|Chemosphere61(2): 267-275|2005|10.1016/j.chemosphere.2005.01.069
90153|A||Agrahari,S., K.C. Pandey, and K. Gopal|Effect of Monocrotophos on Erythropoietic Activity and Hematological Parameters of the Freshwater Fish Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.76(4): 607-613|2006|10.1007/s00128-006-0963-5
90154|T||Advani,R.|Mouse Populations and Their Control in New York City|Int. Biodeterior. Biodegrad.36(1/2): 135-141|1995|10.1016/0964-8305(95)00068-2
90155|T||Abdulla,D., K.B. Goralski, and K.W. Renton|The Regulation of Cytochrome P450 2E1 During LPS-Induced Inflammation in the Rat|Toxicol. Appl. Pharmacol.216(1): 1-10|2006|10.1016/j.taap.2006.03.012
90156|T||Abdallah,I., A.J. Fischer, C.L. Elmore, M.E. Saltveit, and M. Zaki|Mechanism of Resistance to Quinclorac in Smooth Crabgrass (Digitaria ischaemum)|Pestic. Biochem. Physiol.84(1): 38-48|2006|10.1016/j.pestbp.2005.05.003
90157|T||Anand,S.S., B.K. Philip, P.S. Palkar, M.M. Mumtaz, J.R. Latendresse, and H.M. Mehendale|Adaptive Tolerance in Mice upon Subchronic Exposure to Chloroform:  Increased Exhalation and Target Tissue Regeneration|Toxicol. Appl. Pharmacol.213(3): 267-281|2006|10.1016/j.taap.2006.02.007
90158|T||Anadon,A., M. Martinez, M.A. Martinez, M.J. Diaz, and M.R. Martinez-Larranaga|Toxicokinetics of Lambda-Cyhalothrin in Rats|Toxicol. Lett.165(1): 47-56|2006|10.1016/j.toxlet.2006.01.014
90159|T||An,Y.J.|Assessment of Comparative Toxicities of Lead and Copper Using Plant Assay|Chemosphere62(8): 1359-1365|2006|10.1016/j.chemosphere.2005.07.044
90161|A||Amado,E.M., C.A. Freire, and M.M. Souza|Osmoregulation and Tissue Water Regulation in the Freshwater Red Crab Dilocarcinus pagei (Crustacea, Decapoda), and the Effect of Waterborne Inorganic Lead|Aquat. Toxicol.79(1): 1-8|2006|10.1016/j.aquatox.2006.04.003
90162|T||Amichot,M., A. Brun, A. Cuany, G. De Souza, T. Le Mouel, J.M. Bride, M. Babault, J.P. Salaun, R. Rahmani, and J.B. Berg|Induction of Cytochrome P450 Activities in Drosophila melanogaster Strains Susceptible or Resistant to Insecticides|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.121(1-3): 311-319|1998|
90163|A||Amlund,H., K.A. Francisconi, C. Bethune, A.K. Lundebye, and M.H.G. Berntssen|Accumulation and Elimination of Dietary Arsenobetaine in Two Species of Fish, Atlantic Salmon (Salmo salar L.), and Atlantic Cod (Gadus morhua L.)|Environ. Toxicol. Chem.25(7): 1787-1794|2006|10.1897/05-107R1.1
90164|A||Amlund,H., K. Ingebrigtsen, K. Hylland, A. Ruus, D.O. Eriksen, and M.H.G. Berntssen|Disposition of Arsenobetaine in Two Marine Fish Species Following Administration of a Single Oral Dose of [14C]Arsenobetaine|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(2): 171-178|2006|10.1016/j.cbpc.2006.01.007
90165|T||Amorim,M.J.B., J. Rombke, A. Scheffczyk, and A.M.V.M. Soares|Effect of Different Soil Types on the Enchytraeids Enchytraeus albidus and Enchytraeus luxuriosus Using the Herbicide Phenmedipham|Chemosphere61(8): 1102-1114|2005|10.1016/j.chemosphere.2005.03.048
90166|T||Arreola-Mendoza,L., J.L. Reyes, E. Melendez, D. Martin, M.C. Namorado, E. Sanchez, and L.M. Del Razo|Alpha-Tocopherol Protects Against the Renal Damage Caused by Potassium Dichromate|Toxicology218(2-3): 237-246|2006|
90167|T||Arnold,L.L., M. Eldan, A. Nyska, M. Van Gemert, and S.M. Cohen|Dimethylarsinic Acid: Results of Chronic Toxicity/Oncogenicity Studies in F344 Rats and in B6C3F1 Mice|Toxicology223(1/2): 82-100|2006|10.1016/j.tox.2006.03.013
90168|T||Sakamoto,T.|Tissue Distribution and Excretion of 4,5-14C-Ethylenethiourea in Male Japanese Quail|J. Pestic. Sci. (Multiple Languages)7(1): 15-21|1982|10.1584/jpestics.7.15
90169|T||Kolankaya,D., A. Ogus, Z. Ayas, and M.T. Akay|Manganese Ethylenebisdithiocarbamate (Maneb) and Ethylenethiourea (ETU) Residues in Different Parts of Tomato Plant and Soil|Food Chem.34(3): 181-186|1989|10.1016/0308-8146(89)90138-6
90170|T||Iida,Y., Y. Tominaga, and R. Sugawara|Attractiveness of Methylcyclohexyl n-Alkanoates to the German Cockroach|Agric. Biol. Chem.45(2): 469-473|1981|
90171|T||Tajima,T., N. Watanabe, Y. Kogawa, N. Takiguchi, J. Kato, T. Ikeda, A. Kuroda, and H. Ohtake|Chemotaxis of the Nematode Caenorhabditis elegans Toward Cycloheximide and Quinine Hydrochloride|J. Biosci. Bioeng.91(3): 322-324|2001|10.1016/S1389-1723(01)80144-4
90172|T||Jessus,C., H. Rime, O. Haccard, J. Van Lint, J. Goris, W. Merlevede, and R. Ozon|Tyrosine Phosphorylation of p34cdc2 and p42 During Meiotic Maturation of Xenopus oocyte.  Antagonistic Action of Okadaic Acid and 6-DMAP|Development111(3): 813-820|1991|10.1242/dev.111.3.813
90173|T||Chernoff,N., R.J. Kavlock, E.H. Rogers, B.D. Carver, and S. Murray|Perinatal Toxicity of Maneb, Ethylene Thiourea, and Ethylenebisisothiocyanate Sulfide in Rodents|J. Toxicol. Environ. Health5(5): 821-834|1979|10.1080/15287397909529792
90174|T||Kuznetsov,D.A., and N.V. Zavijalov|On the Appearance of Polyadenylate Polymerase Activity in Blood Serum of Animals Exposed to a Short-Term Influence by N, N'- Ethylenethiourea, a Well Known Hepatic Carcinogen:  A Preliminary Report|Cancer Lett.34(1): 61-66|1987|10.1016/0304-3835(87)90074-7
90175|T||Nolte,D.L., J.R. Mason, and S.L. Lewis|Tolerance of Bitter Compounds by an Herbivore, Cavia porcellus|J. Chem. Ecol.20(2): 303-308|1994|10.1007/BF02064438
90176|T||Ramaswamy,S.B., N.E. Cohen, and F.E. Hanson|Deterrence of Feeding and Oviposition Responses of Adult Heliothis virescens by Some Compounds Bitter-Tasting to Humans|Entomol. Exp. Appl.65(1): 81-93|1992|10.1111/j.1570-7458.1992.tb01630.x
90179|T||Borg,K., and H. Tjalve|Effect of Thiram and Dithiocarbamate Pesticides on the Gastrointestinal Absorption and Distribution of Nickel in Mice|Toxicol. Lett.42(1): 87-98|1988|10.1016/0378-4274(88)90106-3
90180|T||Tizabi,Y., L.T. Russell, S.M. Nespor, D.C. Perry, and N.E. Grunberg|Prenatal Nicotine Exposure:  Effects on Locomotor Activity and Central [125i]alpha-BT Binding in Rats|Pharmacol. Biochem. Behav.66(3): 495-500|2000|10.1016/S0091-3057(00)00171-4
90181|T||Tizabi,Y., and D.C. Perry|Prenatal Nicotine Exposure is Associated with an Increase in [125i]Epibatidine Binding in Discrete Cortical Regions in Rats|Pharmacol. Biochem. Behav.67(2): 319-323|2000|10.1016/S0091-3057(00)00379-8
90183|T||Searle,A.J.F., A.C. Stewart, and M. Paul|The Measurement of Ethylenethiourea and Ethyleneurea in the Rat and Common Marmoset Callithrix jacchus After Zineb (Zinc Ethylenebisdithiocarbamate) Dosing|Xenobiotica17(6): 733-740|1987|10.3109/00498258709043980
90186|T||Koster,A.T.J., and L.J. Van der Meer|Control of Botrytis spp. in Tulip with Reduced Input of Chemical Crop Protection|Acta Hortic.:277-281|1992|
90189|T||Anonymous|Chlorothalonil|FAO Plant Prod. Prot. Paper61:127-161|1983|
90190|T||Nishimura,N., J. Yonemoto, Y. Takeuchi, C. Yokoi, and C. Tohyama|Hydronephrosis at Weaning, not During Gestation, is Caused by Lactational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Holtzman Rats|Organohalog. Compd.64:320-323|2003|
90191|T||Anderson,R.L., D.J. Lyon, and D.L. Tanaka|Weed Management Strategies for Conservation-Tillage Sunflower (Helianthus annuus)|Weed Technol.10(1): 55-59|1996|10.1017/S0890037X0004570X
90192|T||Rethwisch,M.D., E.T. Natwick, B.R. Tickes, M. Meadows, and D. Wright|Impact of Insect Feeding and Economics of Selected Insecticides on Early Summer Bermudagrass Seed Production in the Desert Southwest|Southwest. Entomol.20(2): 187-201|1995|
90193|T||Lynch,R.E.|Peanut Fungicides: Effect on Survival and Development of the Corn Earworm, Fall Armyworm, and Velvetbean Caterpillar|Peanut Sci.23(2): 116-123|1996|10.3146/i0095-3679-23-2-10
90194|T||Bravo,M.L., G. Escolar, C. Navarro, R. Fontarnau, and O. Bulbena|Morphological Study of Gastric Lesions Developing in the Rat Under Several Damaging Conditions: Modifications Induced by Pretreatment with Zinc Acexamate|Scanning Microsc.6(3): 855-864|1992|
90195|T||Antonious,G.F.|Persistence and Performance of Esfenvalerate Residues on Broccoli|Pest Manag. Sci.58(1): 85-91|2001|10.1002/ps.420
90196|T||Cho,Y.K., H.C. Lee, J.W. Kim, J.Y. Lee, H.S. Lim, C.W. Lee, W.H. Joo, and J.Y. Moon|Differences Between Genders in Susceptibility to Antioxidant Enzymes in the Rats Following Single Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Organohalog. Compd.64:308-311|2003|
90197|T||Kumar,R., and S.B. Singh|Field Evaluation of Fungitoxicants for the Control of Leaf Spot of Sunflower (Alternaria alternata (FR.) Keissler)|Adv. Plant Sci.10(1): 233-235|1997|
90198|T||Lancaster,S.H., D.L. Jordan, J.F. Spears, A.C. York, J.W. Wilcut, D.W. Monks, R.B. Batts, and R.L. Brandenburg|Sicklepod (Senna obtusifolia) Control and Seed Production After 2,4-DB Applied Alone and with Fungicides or Insecticides|Weed Technol.19(2): 451-455|2005|10.1614/WT-04-227R
90199|T||Lancaster,S.H., D.L. Jordan, A.C. York, I.C. Burke, F.T. Corbin, Y.S. Sheldon, J.W. Wilcut, and D.W. Monks|Influence of Selected Fungicides on Efficacy of Clethodim and Sethoxydim|Weed Technol.19(2): 397-403|2005|10.1614/WT-04-172R
90200|T||Kawakami,T., R. Ishimura, S. Ohsako, K. Takeda, and C. Tohyama|Strain Difference in Placental Dysfunction and Fetal Death in Rats Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Organohalog. Compd.64:278-281|2003|10.1016/S0925-8388(03)00179-8
90201|T||Miettinen,H.M., P. Pulkkinen, T. Jamsa, J. Tuomisto, J. Tuukkanen, and M. Viluksela|In Utero and Lactational TCDD Exposure Affects Rat Bone Development|Organohalog. Compd.64:274-277|2003|
90202|T||Takagi,A., A. Hirose, Y. Hirabayashi, T. Kaneko, M. Ema, and J. Kanno|Assessment of the Cleft Palate Induction by Seven PCDD/F Congeners in the Mouse Fetus|Organohalog. Compd.64:336-338|2003|
90203|A||Brambilla,G., G. Cherubini, E. Ferretti, N. Iacovella, S. Menotta, A. Ubaldi, and A. Di Domenico|Polychlorobiphenyl Clearance in Farmed Rainbow Trout:  Preliminary Study Results and Development of a Chemobiokinetic Model|Organohalog. Compd.64:349-352|2003|
90204|T||Ntiforo,C., and M. Stein|Organophosphorus Compounds and Carbamates as Perilysosomal Modifiers|Chem.-Biol. Interact.9(1): 45-55|1974|10.1016/0009-2797(74)90066-0
90209|T||O'Leary,A.L., A.L. Jones, and G.R. Ehret|Application Rates and Spray Intervals for Apple Scab Control with Flusilazol and Pyrifenox|Plant Dis.71(7): 623-626|1987|10.1094/PD-71-0623
90210|T||Andrieu,N., G. Jaworska, J.L. Genet, and G. Bompeix|Biological Mode of Action of Famoxadone on Plasmopara viticola and Phytophthora infestans|Crop Prot.20(3): 253-260|2001|10.1016/S0261-2194(00)00156-3
90211|T||Jaiswal,A.K., G.P. Rao, O.P. Pandey, and S.K. Sengupta|Efficacy of Organophosphorus Derivatives Against Fungal Pathogens of Sugarcane|J. Agric. Food Chem.46(4): 1609-1613|1998|10.1021/jf970544t
90212|T||Jones,R.K.|Assessments of Fusarium Head Blight of Wheat and Barley in Response to Fungicide Treatment|Plant Dis.84(9): 1021-1030|2000|10.1094/PDIS.2000.84.9.1021
90213|T||Precheur,R.J., M.A. Bennett, R.M. Riedel, K.L. Wiese, and J. Dudek|Management of Fungicide Residues on Processing Tomatoes|Plant Dis.76(7): 700-702|1992|10.1094/PD-76-0700
90214|T||Filajdic,N., and T.B. Sutton|Chemical Control of Alternaria Blotch of Apples Caused by Alternaria mali|Plant Dis.76(2): 126-130|1992|10.1094/PD-76-0126
90215|T||Bowen,K.L., and W.L. Pedersen|Effects of Propiconazole on Exserohilum turcicum in Laboratory and Field Studies|Plant Dis.72(10): 847-850|1988|10.1094/PD-72-0847
90216|T||Kim,Y.M., C.H. Lee, H.G. Kim, and H.S. Lee|Anthraquinones Isolated from Cassia tora (Leguminosae) Seed Show an Antifungal Property Against Phytopathogenic Fungi|J. Agric. Food Chem.52(20): 6096-6100|2004|10.1021/jf049379p
90217|T||Karadimos,D.A., G.S. Karaoglanidis, and K. Tzavella-Klonari|Biological Activity and Physical Modes of Action of the Qo Inhibitor Fungicides Trifloxystrobin and Pyraclostrobin Against Cercospora beticola|Crop Prot.24(1): 23-29|2005|10.1016/j.cropro.2004.06.004
90218|T||Khan,R.H., and R.C. Rastogi|Condensed Heterocycles: Synthesis and Antifungal Activity of Pi-Deficient Pyrimidines Linked With Pi-Rich Heterocycles|J. Agric. Food Chem.39(12): 2300-2303|1991|10.1021/jf00012a042
90219|T||Kupper,K.C., W. Bettiol, A. De Goes, P.S. De Souza, and J.A.M. Bellotte|Biofertilizer for Control of Guignardia citricarpa, the Causal Agent of Citrus Black Spot|Crop Prot.25(6): 569-573|2006|10.1016/j.cropro.2005.09.002
90220|T||Percich,J.A., and C.M. Huot|Comparison of Propiconazole and Mancozeb Applied Individually or Sequentially for Management of Fungal Brown Spot of Wild Rice|Plant Dis.73(3): 257-259|1989|10.1094/PD-73-0257
90221|A||Vasseur,P., D. Dive, Z. Sokar, and H. Bonnemain|Interactions Between Copper and Some Carbamates Used in Phytosanitary Treatments|Chemosphere17(4): 767-782|1988|10.1016/0045-6535(88)90256-1
90223|A||Aida,M., H. Ikeda, K. Itoh, and K. Usui|Effects of Five Rice Herbicides on the Growth of Two Threatened Aquatic Ferns|Ecotoxicol. Environ. Saf.63(3): 463-468|2006|10.1016/j.ecoenv.2005.02.010
90225|A||Haniffa,M.A., S. Sridhar, and M. Nagarajan|Hormonal Manipulation of Sex in Stinging Catfish Heteropneustes fossilis (Bloch)|Curr. Sci. (Bangalore)86(7): 1012-1017|2004|
90226|A||Jobling,S., D. Casey, T. Rodgers-Gray, J. Oehlmann, U. Schulte-Oehlmann, S. Pawlowski, T. Baunbeck, A.P. Turner, and C.|Comparative Responses of Molluscs and Fish to Environmental Estrogens and an Estrogenic Effluent|Aquat. Toxicol.66(2): 207-222|2004|10.1016/j.aquatox.2004.01.002
90227|A||Versonnen,B.J., G. Goemans, C. Belpaire, and C.R. Janssen|Vitellogenin Content in European Eel (Anguilla anguilla) in Flanders, Belgium|Environ. Pollut.128(3): 363-371|2004|10.1016/j.envpol.2003.09.013
90229|T||Namanda,S., O.M. Olanya, E. Adipala, J.J. Hakiza, R. El-Bedewy, A.S. Baghsari, and P. Ewell|Fungicide Application and Host-Resistance for Potato Late Blight Management:  Benefits Assessment from On-Farm Studies in S.W. Uganda|Crop Prot.23(11): 1075-1083|2004|10.1016/j.cropro.2004.03.011
90230|T||Rangaswamy,J.R., and Y.N. Vijayashankar|A Rapid Method for the Determination of Manganese Ethylenebisdithiocarbamate and Its Residues on Grains|J. AOAC Int.58(6): 1232-1234|1975|10.1093/jaoac/58.6.1232
90233|T||Arias,E., N.P. Zaffaroni, and T. Zavanella|A Study on the Genesis of Maneb-Induced Malformations of the Regenerating Limb of the Adult Crested Newt|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:223-226|1983|
90236|T||Nash,R.G.|Uptake of Ethylenebis(Dithiocarbamate) Fungicides and Ethylenethiourea by Soybeans|J. Agric. Food Chem.24(3): 596-601|1976|10.1021/jf60205a016
90237|T||Schnabel,G., and D.R. Layne|Comparison of Reduced-Application and Sulfur-Based Fungicide Programs on Scab Intensity, Fruit Quality, and Cost of Disease Control on Peach|Plant Dis.88(2): 162-166|2004|10.1094/PDIS.2004.88.2.162
90238|T||Rudgard,S.A., T.R. Pettitt, and P. Hadley|Tenacity, Biological Activity and Redistribution of Copper Fungicides on Cocoa in Controlled Environments|Crop Prot.9(4): 281-288|1990|10.1016/0261-2194(90)90106-H
90239|T||Chapin,J.W., and J.S. Thomas|Effects of Chlorpyrifos on Pod Damage, Disease Incidence, and Yield in Two Peanut Fungicide Programs|Peanut Sci.20(2): 102-106|1993|10.3146/i0095-3679-20-2-9
90241|T||Cranshaw,W., and F. Schweissing|Evaluation of Adjuvants and Co-Applied Pesticides on Onion Thrips Control, 1996|Arthropod Manag. Tests22:139-|1997|10.1093/amt/22.1.139
90242|T||Longtine,C.A., R.A. Suranyi, T. Connors, D.W. Ragsdale, and E.B. Radcliffe|Control of Green Peach Aphid on Potato, 1997|Arthropod Manag. Tests23:127-|1998|
90243|T||Ortiz,G.G., G. De la Mora-Rivas, A. Cardenas-Ortega, S. Orbach-Arbouys, A. Bravo-Cuellar, and A. Feria-Velasco|Hepatotoxicity Induced by a Single Ip Injection of Ruthenium Red|Biomed. Pharmacother.46(2-3): 115-119|1992|10.1016/0753-3322(92)90281-B
90245|T||Bravo Cuellar,A., F. Homo-Delarche, and S. Orbach-Arbouys|Phospholipase A2, an In Vivo Immunomodulator|Prostaglandins Leukot. Essent. Fatty Acids40(1): 31-38|1990|10.1016/0952-3278(90)90113-Y
90246|T||Prakash,S., S. Kumar, V. Veer, N. Gopalan, Purnanand, K.S. Pandey, and K.M. Rao|Laboratory Evaluation of Four Rodenticides Admixed in a Cereal-Based Bait Against Commensal Rat, Rattus rattus (L.) (Rodentia:  Muridae :  Murinae)|J. Stored Prod. Res.39(2): 141-147|2003|10.1016/S0022-474X(01)00026-1
90247|T||Pan,A., F. Tie, B. Ru, L. Li, and T. Shen|An Improved Method for Isolation and Identification of Zn-Metallothionein from Cadmium-Induced Rat Liver|Biomed. Chromatogr.6(4): 205-211|1992|10.1002/bmc.1130060411
90250|T||Kalra,A., T.N. Parameswaran, and N.S. Ravindra|Relative Efficacy of Chlorothalonil for Controlling Leaf Blight (Colletotrichum gloeosporioides) of Scented Geranium (Pelargonium graveolens)|Indian J. Agric. Sci.68(7): 364-366|1998|
90251|T||Latteur,G., and J.P. Jansen|Effects of 20 Fungicides on the Infectivity of Conidia of the Aphid Entomopathogenic Fungus Erynia neoaphidis|Biocontrol47(4): 435-444|2002|10.1023/A:1015639017666
90252|T||Elad,Y.|Latent Infection of Botrytis cinerea in Rose Flowers and Combined Chemical and Physiological Control of the Disease|Crop Prot.7(6): 361-366|1988|10.1016/0261-2194(88)90003-8
90253|T||Goffinet,M.C., and R.C. Pearson|Anatomy of Russeting Induced in Concord Grape Berries by the Fungicide Chlorothalonil|Am. J. Enol. Vitic.42(4): 281-289|1991|10.5344/ajev.1991.42.4.281
90254|T||Linfield,C.A., and D. Price|Effect of Fungicides on the Production of Adventitious Bulbils in the Propagation of Narcissus by the Chipping Technique|Crop Prot.9(2): 143-147|1990|10.1016/0261-2194(90)90094-N
90255|T||Al-Dosari,S.A., W.S. Cranshaw, and F.C. Schweissing|Effects on Control of Onion Thrips from Co-Application of Onion Pesticides|Southwest. Entomol.21(1): 49-54|1996|
90256|A||Gallagher,E.P., and R.T. Di Giulio|Glutathione-Mediated Chlorothalonil Detoxification in Channel Catfish Gills|Mar. Environ. Res.34(1-4): 221-226|1992|10.1016/0141-1136(92)90111-X
90257|T||Pethybridge,S.J., F.S. Hay, C.R. Wilson, and T. Groom|Development of a Fungicide-Based Management Strategy for Foliar Disease Caused by Phoma ligulicola in Tasmanian Pyrethrum Fields|Plant Dis.89(10): 1114-1120|2005|10.1094/PD-89-1114
90258|T||Latin,R.|Residual Efficacy of Fungicides for Control of Dollar Spot on Creeping Bentgrass|Plant Dis.90(5): 571-575|2006|10.1094/PD-90-0571
90259|A||Walker,W.W.|Development of a Fate/Toxicity Screening Test|EPA-600/s4-84-074, U.S.EPA, Gulf Breeze, FL:30 p.|1984|
90260|T||Lehmkuhler,J.W., E.E.D. Felton, D.A. Schmidt, K.J. Bader, H.E. Garrett, and M.S. Kerley|Tree Protection Methods During the Silvopastoral-System Establishment in Midwestern USA:  Cattle Performance and Tree Damage|Agrofor. Syst.59(1): 35-42|2003|10.1023/A:1026184902984
90261|T||Rangen,S.A., A.W.L. Hawley, and R.J. Hudson|Palatability of Anispray-Treated White Spruce to Snowshoe Hares|Can. J. For. Res.23(7): 1321-1324|1993|10.1139/x93-169
90262|T||Perera,D.R., G. Armstrong, and N. Senanayake|Effect of Antifeedants on the Diamondback Moth (Plutella xylostella) and Its Parasitoid Cotesia plutellae|Pest Manag. Sci.56(5): 486-490|2000|10.1002/(SICI)1526-4998(200005)56:5<486::AID-PS162>3.0.CO;2-O
90263|T||Shumake,S.A., R.T. Sterner, and S.E. Gaddis|Repellents to Reduce Cable Gnawing by Northern Pocket Gophers|J. Wildl. Manag.63(4): 1344-1349|1999|10.2307/3802853
90264|T||Shumake,S.A., R.T. Sterner, and S.E. Gaddis|Repellents to Reduce Cable Gnawing by Wild Norway Rats|J. Wildl. Manag.64(4): 1009-1013|2000|10.2307/3803211
90265|T||MacDonald,D.W., and S.E. Baker|Non-Lethal Control of Fox Predation:  The Potential of Generalised Aversion|Anim. Welf.13(1): 77-85|2004|10.1017/S0962728600026701
90266|T||Singh,B.P., S. Roy, S.K. Bhattacharyya, and G.S. Shekhawat|Scheduling of Oxadixyl-Based Fungicide Against Late Blight in Potato and Development of Oxadixyl Resistant Stains in Phytophthora infestans|Indian J. Plant Prot.23(1): 47-54|1995|
90267|T||Bounds,R.S., M.K. Hausbeck, and R.H. Podolsky|Comparing Disease Forecasters for Timing Fungicide Sprays to Control Foliar Blight on Carrot|Plant Dis.90(3): 264-268|2006|10.1094/PD-90-0264
90268|T||Takahashi,R.N., R. Rogerio, and M. Zanin|Maneb Enhances MPTP Neurotoxicity in Mice|Res. Commun. Chem. Pathol. Pharmacol.66(1): 167-170|1989|
90269|T||Khera,K.S.|Ethylenethiourea-Induced Hindpaw Deformities in Mice and Effects of Metabolic Modifiers on Their Occurrence|J. Toxicol. Environ. Health13(4-6): 747-756|1984|10.1080/15287398409530536
90270|T||Brisley,H.R., and W.W. Jones|Sulphur Dioxide Fumigation of Wheat with Special Reference to Its Effect on Yield|Plant Physiol.25:666-681|1950|10.1104/pp.25.4.666
90271|T||Bulger,W.H., R.M. Muccitelli, and D. Kupfer|Studies on the Estrogenic Activity of Chlordecone (Kepone) in the Rat: Effects on Uterine Estrogen Receptor|Mol. Pharmacol.15:515-524|1979|
90273|T||Crouau,Y., and C. MoIa|The Relative Sensitivity of Growth and Reproduction in the Springtail, Folsomia candida, Exposed to Xenobiotics in the Laboratory: An Indicator of Soil Toxicity|Ecotoxicol. Environ. Saf.64(2): 115-121|2006|10.1016/j.ecoenv.2005.06.002
90274|A||Kim,I.C., Y.M. Lee, C. Lee, H.M. Kim, S. Oda, Y.S. Lee, H. Mitani, and J.S. Lee|Expression Profiles of 4-Nonylphenol-Exposed Medaka (Oryzias latipes) Analyzed with a 3.4 K Microarray|Mar. Environ. Res.62(1): S141 - S146|2006|
90275|A||Komatsu,T., S. Nakamura, and M. Nakamura|Masculinization of Female Golden Rabbitfish Siganus guttatus Using an Aromatase Inhibitor Treatment During Sex Differentiation|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(4): 402-409|2006|10.1016/j.cbpc.2006.04.015
90276|A||Mkandawire,M., B. Taubert, and E.G. Dudel|Limitations of Growth-Parameters in Lemna gibba Bioassays for Arsenic and Uranium Under Variable Phosphate Availability|Ecotoxicol. Environ. Saf.65(1): 118-128|2006|10.1016/j.ecoenv.2005.05.020
90277|T||Oloffs,P.C., and E.P. Lichtenstein|Epoxidation of Aldrin by Excised Pieces of Plant Tissue|J. Agric. Food Chem.17(1): 143-147|1969|10.1021/jf60161a621
90278|T||Sheets,T.J., W.V. Campbell, and R.B. Leidy|Fall Armyworm Control and Residues of Methomyl on Coastal Bermuda Grass|J. Agric. Food Chem.30(3): 532-536|1982|10.1021/jf00111a031
90279|T||Srivastava,M., L.Q. Ma, and J.A.G. Santos|Three New Arsenic Hyperaccumulating Ferns|Sci. Total Environ.364(1-3): 24-31|2006|10.1016/j.scitotenv.2005.11.002
90280|T||Talekar,N.S., and E.P. Lichtenstein|Influence of Plant Nutrition on Lindane Penetration and Its Translocation within Pea Plants|J. Agric. Food Chem.19(5): 846-850|1971|10.1021/jf60177a056
90281|A||Temara,A., T. Bowmer, A. Rottiers, and S. Robertson|Germination and Seedling Growth of the Water Cress Rorippa sp. Exposed to the Chelant (S,S)-EDDS|Chemosphere65(4): 716-720|2006|10.1016/j.chemosphere.2006.01.067
90282|T||Wang,Q.S., C.L. Zhang, X.L. Zhao, S.F. Yu, and K.Q. Xie|Malondialdehyde and Catalase as the Serum Biomarkers of Allyl Chloride-Induced Toxic Neuropathy|Toxicology227(1-2): 36-44|2006|10.1016/j.tox.2006.07.006
90283|T||Anderson,E., G.G. Gibson, J. Lyon, and N. Plant|Coordinate Regulation of Cellular Proliferation and Apoptosis in Rodent Liver|Toxicology226(1): 41-42|2006|10.1016/j.tox.2006.05.061
90284|A||Maples,N.L., and L.J. Bain|Trivalent Chromium Alters Gene Expression in the Mummichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.23(3): 626-631|2004|10.1897/03-130
90285|A||Goka,K.|Embryotoxicity of Zinc Pyrithione, An Antidandruff Chemical, in Fish|Environ. Res.81:81-83|1999|10.1006/enrs.1998.3944
90286|T||Lein,P.J., D. Yang, A.D. Bachstetter, H.A. Tilson, G.J. Harry, R.F. Mervis, and P.R.S. Kodavanti|Ontogenetic Alterations in Molecular and Structural Correlates of Dendritic Growth after Developmental Exposure to Polychlorinated Biphenyls|Environ. Health Perspect.115(4): 556-563|2007|10.1289/ehp.9773
90287|T||Ban,M., G. Morel, I. Langonne, N. Huguet, E. Pepin, and S. Binet|TDI can Induce Respiratory Allergy with Th2-Dominated Response in Mice|Toxicology218(1): 39-47|2006|10.1016/j.tox.2005.09.013
90288|A||Balcomb,R., J.R. Hoberg, and J.M. Giddings|Fate and Toxicity of the Algicide Irgarol 1051:  A Marine Microcosm Study|Bull. Environ. Contam. Toxicol.69(5): 696-703|2002|10.1007/s00128-002-0117-3
90289|A||Andrade,S., L. Contreras, J.W. Moffett, and J.A. Correa|Kinetics of Copper Accumulation in Lessonia nigrescens (Phaeophyceae) Under Conditions of Environmental Oxidative Stress|Aquat. Toxicol.78(4): 398-401|2006|10.1016/j.aquatox.2006.04.006
90290|T||Araneda,S., S. Pelloux, J. Radicella, J. Angulo, K. Kitahama, K. Gysling, and M.,I. Forray|8-Oxoguanine DNA Glycosylase, but not Kin17 Protein, is Translocated and Differentially Regulated by Estrogens in Rat Brain Cells|Neuroscience136(1): 135-146|2005|10.1016/j.neuroscience.2005.06.080
90291|T||An,Z.Z., Z.C. Huang, M. Lei, X.Y. Liao, Y.M. Zheng, and T.B. Chen|Zinc Tolerance and Accumulation in Pteris vittata L. and Its Potential for Phytoremediation of Zn- and As-Contaminated Soil|Chemosphere62(5): 796-802|2006|10.1016/j.chemosphere.2005.04.084
90292|T||Baek,K.H., H.H. Kim, B. Bae, Y.Y. Chang, and I.S. Lee|EDTA-Assisted Phytoextraction of Lead from Lead-Contaminated Soils by Echinochloa Crusgalii var. Frumentacea|J. Environ. Biol.26(1): 151-154|2005|
90293|T||Mahadevaswami,M.P., U.C. Jadaramkunti, M.B. Hiremath, and B.B. Kaliwal|Effect of Mancozeb on Ovarian Compensatory Hypertrophy and Biochemical Constituents in Hemicastrated Albino Rat|Reprod. Toxicol.14(2): 127-134|2000|10.1016/S0890-6238(00)00064-2
90294|A||Barron,M.G., C. Gedutis, and M.O. James|Pharmacokinetics of Sulphadimethoxine in the Lobster, Homarus americanus, Following Intrapericardial Administration|Xenobiotica18(3): 269-276|1988|10.3109/00498258809041663
90296|T||Mattioli,F., A. Martelli, M. Gosmar, C. Garbero, V. Manfredi, E. Varaldo, G.C. Torre, and G. Brambilla|DNA Fragmentation and DNA Repair Synthesis Induced in Rat and Human Thyroid Cells by Chemicals Carcinogenic to the Rat Thyroid|Mutat. Res.609(2): 146-153|2006|10.1016/j.mrgentox.2006.06.028
90297|T||Araya,J.E., and S.E. Cambron|Control of Aphids on Spring Oats and Winter Wheat with slow Release Granular Systemic Insecticides|Gt. Lakes Entomol.25(3): 223-236|1992|
90298|T||Miranda-Contreras,L., R. Davila-Ovalles, P. Benitez-Diaz, Z. Pena-Contreras, and E. Palacios-Pru|Effects of Prenatal Paraquat and Mancozeb Exposure on Amino Acid Synaptic Transmission in Developing Mouse Cerebellar Cortex|Brain Res. Dev. Brain Res.160(1): 19-27|2005|10.1016/j.devbrainres.2005.08.001
90299|T||Prijono,D., M. Robinson, A. Rauf, T. Bjorksten, and A.A. Hoffmann|Toxicity of Chemicals Commonly Used in Indonesian Vegetable Crops to Liriomyza huidobrensis Populations and the Indonesian Parasitoids Hemiptarsenus varicornis, Opius sp., and Gronotoma micromorpha, as well as the Austr|J. Econ. Entomol.97(4): 1191-1197|2004|10.1093/jee/97.4.1191
90300|A||Opitz,R., S. Hartmann, T. Blank, T. Braunbeck, I. Lutz, and W. Kloas|Evaluation of Histological and Molecular Endpoints for Enhanced Detection of Thyroid System Disruption in Xenopus laevis Tadpoles|Toxicol. Sci.90(2): 337-348|2006|10.1093/toxsci/kfj083
90301|T||Baly,D.L., B. Loennerdal, and C.L. Keen|Effects of high Doses of Manganese on Carbohydrate Homeostasis|Toxicol. Lett.25(1): 95-102|1985|10.1016/0378-4274(85)90106-7
90302|T||Ahn,T., C.H. Yun, and D.B. Oh|Tissue-Specific Effect of Ascorbic Acid Supplementation on the Expression of Cytochrome P450 2E1 and Oxidative Stress in Streptozotocin-Induced Diabetic Rats|Toxicol. Lett.166(1): 27-36|2006|10.1016/j.toxlet.2006.05.009
90303|T||Aina,R., L. Palin, and S. Citterio|Molecular Evidence for Benzo(a)pyrene and Naphthalene Genotoxicity in Trifolium repens L.|Chemosphere65(4): 666-673|2006|10.1016/j.chemosphere.2006.01.071
90304|T||Adamia,G., M. Ghoghoberidze, D. Graves, G. Khatisashvili, G. Kvesitadze, E. Lomidze, D. Ugrekhelidze, and G. Zaalishvil|Absorption, Distribution, and Transformation of TNT in Higher Plants|Ecotoxicol. Environ. Saf.64(2): 136-145|2006|10.1016/j.ecoenv.2005.05.001
90305|T||Reinecke,A.J., M.S. Maboeta, L.A. Vermeulen, and S.A. Reinecke|Assessment of Lead Nitrate and Mancozeb Toxicity in Earthworms Using the Avoidance Response|Bull. Environ. Contam. Toxicol.68(6): 779-786|2002|10.1007/s00128-002-0023-8
90306|A||Arkhipchuk,V.V., C. Blaise, and M.V. Malinovskaya|Use of Hydra for Chronic Toxicity Assessment of Waters Intended for Human Consumption|Environ. Pollut.142(2): 200-211|2006|10.1016/j.envpol.2005.10.012
90307|T||Rodriguez-Arnaiz,R.|Genotoxic Activation of Hydrazine, Two Dialkylhydrazines, Thiourea and Ethylene Thiourea in the Somatic w/w+ Assay of Drosophila melanogaster|Mutat. Res.395(2-3): 229-242|1997|10.1016/S1383-5718(97)00159-9
90308|T||Rossi,G., R. Buccione, M. Baldassarre, G. Macchiarelli, M.G. Palmerini, and S. Cecconi|Mancozeb Exposure In Vivo Impairs Mouse Oocyte Fertilizability|Reprod. Toxicol.21(2): 216-219|2006|10.1016/j.reprotox.2005.08.004
90309|T||Sasaki,Y.F., F. Izumiyama, E. Nishidate, N. Matsusaka, and S. Tsuda|Detection of Rodent Liver Carcinogen Genotoxicity by the Alkaline Single-Cell Gel Electrophoresis (Comet) Assay in Multiple Mouse Organs (Liver, Lung, Spleen, Kidney, and Bone Marrow)|Mutat. Res.391(3): 201-214|1997|10.1016/S1383-5718(97)00072-7
90310|T||Miller,P.M., and G.S. Taylor|Some Effects of Transient vs. Residual Nematocides on Nematode Populations and the Connecticut Tobacco Crop|Tob. Int.6:4-6|1962|
90311|T||McCarter,S.M.|Effects of Bactericide Treatments on Bacterial Spot Severity and Yield of Different Pepper Genotypes and on Populations of Certain Insects|Plant Dis.76(10): 1042-1045|1992|10.1094/PD-76-1042
90312|T||Lee,S.E., B.S. Park, M.K. Kim, W.S. Choi, H.T. Kim, K.Y. Cho, S.G. Lee, and H.S. Lee|Fungicidal Activity of Pipernonaline, a Piperidine Alkaloid Derived from Long Pepper, Piper longum L., Against Phytopathogenic Fungi|Crop Prot.20(6): 523-528|2001|10.1016/S0261-2194(00)00172-1
90313|T||Keinath,A.P., and V.B. DuBose|Evaluation of Fungicides for Prevention and Management of Powdery Mildew on Watermelon|Crop Prot.23(1): 35-42|2004|10.1016/S0261-2194(03)00165-0
90314|T||Keinath,A.P.|Fungicide Timing for Optimum Management of Gummy Stem Blight Epidemics on Watermelon|Plant Dis.79(4): 354-358|1995|10.1094/PD-79-0354
90315|T||Jeffers,S.N.|Effects of Fungicides Applied During Bloom on Yield, Yield Components, and Storage Rots of Cranberry|Plant Dis.75(3): 244-250|1991|10.1094/PD-75-0244
90316|T||Evenhuis,A., H.G. Spits, and H.T.A.M. Schepers|Efficacy of Fungicidal Protection of Newly Developing Potato Leaves Against Phytophthora infestans|Crop Prot.25(6): 562-568|2006|10.1016/j.cropro.2005.09.001
90317|T||Carisse,O., A. Ouimet, V. Toussaint, and V. Philion|Evaluation of the Effect of Seed Treatments, Bactericides, and Cultivars on Bacterial Leaf Spot of Lettuce Caused by Xanthomonas campestris pv. vitians|Plant Dis.84(3): 295-299|2000|10.1094/PDIS.2000.84.3.295
90318|T||Bjorksten,T.A., and M. Robinson|Juvenile and Sublethal Effects of Selected Pesticides on the Leafminer Parasitoids Hemiptarsenus varicornis and Diglyphus isaea (Hymenoptera: Eulophidae) from Australia|J. Econ. Entomol.98(6): 1831-1838|2005|10.1093/jee/98.6.1831
90319|T||Bernard,M.B., P.A. Horne, and A.A. Hoffmann|Developing an Ecotoxicological Testing Standard for Predatory Mites in Australia:  Acute and Sublethal Effects of Fungicides on Euseius victoriensis and Galendromus occidentalis (Acarina:  Phytoseiidae)|J. Econ. Entomol.97(3): 891-899|2004|10.1603/0022-0493(2004)097[0891:DAETSF]2.0.CO;2
90320|T||Keinath,A.P.|Effect of Fungicide Applications Scheduled to Control Gummy Stem Blight on Yield and Quality of Watermelon Fruit|Plant Dis.85(1): 53-58|2001|10.1094/PDIS.2001.85.1.53
90321|T||Atwood,S.T., T.J. Sheets, T.B. Sutton, and R.B. Leidy|Stability of Selected Pesticide Formulations and Combinations in Aqueous Media|J. Agric. Food Chem.35(2): 169-172|1987|10.1021/jf00074a001
90322|T||Bertini,S., R. Del Carratore, M. Giorgi, G. Bronzetti, and C.D. Croce|Genotoxic and Mono-Oxygenase System Effects of the Fungicide Maneb|Arch. Toxicol.74(7): 415-420|2000|10.1007/s002040000152
90323|T||Charles,J.M., A. Tobia, and B. Van Ravenzwaay|Subchronic and Chronic Toxicological Investigations on Metiram:  The Lack of a Carcinogenic Response in Rodents|Toxicol. Sci.54(2): 481-492|2000|10.1093/toxsci/54.2.481
90324|T||Patel,S., V. Singh, A. Kumar, Y.K. Gupta, and M.P. Singh|Status of Antioxidant Defense System and Expression of Toxicant Responsive Genes in Striatum of Maneb- and Paraquat-Induced Parkinson's Disease Phenotype in Mouse:  Mechanism of Neurodegeneration|Brain Res.1081(1): 9-18|2006|10.1016/j.brainres.2006.01.060
90325|T||Naidu,P.H., and A.S. Rao|Relative Efficacy of Number of Sprays of Fungicides on the Control of Late Leaf Spot in Groundnut|Indian J. Plant Prot.25(1): 45-47|1997|
90326|T||Alagarsamy,G., G. Krishnamohan, and R. Jeyarajan|Field Evaluation of Fungicides Against Leaf Spot of Cotton Caused by Alternaria macrospora Zimm.|Indian J. Plant Prot.17(1): 105-106|1989|
90327|T||Singh,R., and V.C. Saxena|Reaction of Cauliflower Varieties Against Fusarial Wilt and Efficacy of Some Fungicides|Int. J. Trop. Plant Dis.8(1): 109-114|1990|
90328|T||Godika,S., J.P. Jain, and A.K. Pathak|Evaluation of Fungitoxicants Against Alternaria Blight and White Rust Diseases of Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.71(7): 497-498|2001|
90329|T||Kalra,A., H.B. Singh, N.K. Patra, and S. Kumar|Economic Evaluation of Fungicides for Leaf Blight (Alternaria alternata) Control in the Transplanted Crop of 'Shivalik' Menthol Mint (Mentha arvensis)|Indian J. Agric. Sci.71(7): 460-462|2001|
90330|T||Li,D.X., J. Tian, and Z.R. Shen|Effects of Pesticides on the Functional Response of Predatory Thrips, Scolothrips takahashii to Tetranychus viennensis|J. Appl. Entomol.130(5): 314-322|2006|10.1111/j.1439-0418.2006.01056.x
90333|T||Lorenzini,G., L. Guidi, and A. Panattoni|Evaluation of Fungicide Effects on Ozone Injury to Tobacco Plants|Tests Agrochem. Cultiv.8:102-103|1987|
90338|A||Hook,S.E., A.D. Skillman, J.A. Small, and I.R. Schultz|Temporal Changes in Gene Expression in Rainbow Trout Exposed to Ethynyl Estradiol|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(1): 73-85|2007|10.1016/j.cbpc.2006.10.011
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90340|A||Hook,S.E., A.D. Skillman, J.A. Small, and I.R. Schultz|Dose-Response Relationships in Gene Expression Profiles in Rainbow Trout, Oncorhynchus mykiss, Exposed to Ethynylestradiol|Mar. Environ. Res.62(suppl.): S151 - S155|2006|
90341|A||Holbech,H., L. Andersen, G.I. Petersen, B. Korsgaard, K.L. Pedersen, and P. Bjerregaard|Development of an ELISA for Vitellogenin in Whole Body Homogenate of Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.130(1): 119-131|2001|10.1016/S1532-0456(01)00229-0
90342|A||Hogan,N.S., D.R.S. Lean, and V.L. Trudeau|Exposures to Estradiol, Ethinylestradiol and Octylphenol Affect Survival and Growth of Rana pipiens and Rana sylvatica Tadpoles|J. Toxicol. Environ. Health Part A69(15-16): 1555-1569|2006|10.1080/15287390500470759
90343|A||Gutjahr-Gobell,R.E., G.E. Zaroogian, D.J.B. Horowitz, T.R. Gleason, and L.J. Mills|Individual Effects of Estrogens on a Marine Fish, Cunner (Tautogolabrus adspersus), Extrapolated to the Population Level|Ecotoxicol. Environ. Saf.63(2): 244-252|2006|10.1016/j.ecoenv.2005.05.017
90344|T||Stern,N., P.M. Lind, M. Viluksela, J.T. Tuomisto, J. Tuomisto, and H. Hakansson|TCDD Induces Trabecular Bone Loss and Bone Fragility in a TCDD-Sensitive but not in a TCDD-Resistant Rat Strain|Organohalog. Compd.64:312-315|2003|
90345|A||Gordon,D.A., G.P. Toth, D.W. Graham, J.M. Lazorchak, T.V. Reddy, C.W. Knapp, F.,Jr. DeNoyelles, S. Campbell, and D.L. L|Effects of Eutrophication on Vitellogenin Gene Expression in Male Fathead Minnows (Pimephales promelas) Exposed to 17alpha-Ethynylestradiol in Field Mesocosms|Environ. Pollut.142(3): 559-566|2006|10.1016/j.envpol.2005.10.041
90346|T||Hakk,H., and J.J. Diliberto|Comparison of Overall Metabolism of 1,2,3,7,8-PeCDD in CYP1A2 (-/-) Knockout and C57BL/6N Parental Strains of Mice|Organohalog. Compd.64:293-296|2003|
90347|A||Filby,A.L., K.L. Thorpe, G. Maack, and C.R. Tyler|Gene Expression Profiles Revealing the Mechanisms of Anti-Androgen- and Estrogen-Induced Feminization in Fish|Aquat. Toxicol.81(2): 219-231|2007|10.1016/j.aquatox.2006.12.003
90348|A||Fenske,M., G. Maack, C. Schafers, and H. Segner|An Environmentally Relevant Concentration of Estrogen Induces Arrest of Male Gonad Development in Zebrafish, Danio rerio|Environ. Toxicol. Chem.24(5): 1088-1098|2005|10.1897/04-096R1.1
90349|A||Denslow,N.D., C.J. Bowman, R.J. Ferguson, H.S. Lee, M.J. Hemmer, and L.C. Folmar|Induction of Gene Expression in Sheepshead Minnows (Cyprinodon variegatus ) Treated with 17 beta-Estradiol, Diethylstilbestrol, or Ethinylestradiol:  The Use of mRNA Fingerprints as an Indicator of Gene Regulation|Gen. Comp. Endocrinol.121(3): 250-260|2001|10.1006/gcen.2001.7605
90350|A||Brown,M., I.M. Davies, C.F. Moffat, C. Robinson, J. Redshaw, and J.A. Craft|Identification of Transcriptional Effects of Ethynyl Oestradiol in Male Plaice (Pleuronectes platessa) by Suppression Subtractive Hybridisation and a Nylon Macroarray|Mar. Environ. Res.58(2-5): 559-563|2004|10.1016/j.marenvres.2004.03.045
90351|A||Brodeur,J.C., K.B. Woodburn, and G.M. Klecka|Potentiation of the Vitellogenic Response to 17alpha -Ethinylestradiol by Cortisol in the Fathead Minnow Pimephales promelas|Environ. Toxicol. Chem.24(5): 1125-1132|2005|10.1897/04-309R.1
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90353|A||Bowman,C.J., K.J. Kroll, M.J. Hemmer, L.C. Folmar, and N.D. Denslow|Estrogen-induced Vitellogenin mRNA and Protein in Sheepshead Minnow (Cyprinodon variegatus)|Gen. Comp. Endocrinol.120(3): 300-313|2000|10.1006/gcen.2000.7565
90354|A||Bogers,R., E. Mutsaerds, J. Druke, D.F. De Roode, A.J. Murk, B. Van der Burg, and J. Legler|Estrogenic Endpoints in Fish Early Life-Stage Tests: Luciferase and Vitellogenin Induction in Estrogen-Responsive Transgenic Zebrafish|Environ. Toxicol. Chem.25(1): 241-247|2006|10.1897/05-234R.1
90355|A||Biales,A.D., D.C. Bencic, R.W. Flick, J. Lazorchak, and D.L. Lattier|Quantification and Associated Variability of Induced Vitellogenin Gene Transcripts in Fathead Minnow (Pimephales promelas) by Quantitative Real-Time Polymerase Chain Reaction Assay|Environ. Toxicol. Chem.26(2): 287-296|2007|10.1897/06-213R.1
90356|A||Balch,G.C., C.A. Mackenzie, and C.D. Metcalfe|Alterations to Gonadal Development and Reproductive Success in Japanese Medaka (Oryzias latipes) Exposed to 17alpha-Ethinylestradiol|Environ. Toxicol. Chem.23(3): 782-791|2004|10.1897/02-539
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90359|T||Ko,H.K., J.Y. Noh, H.J. Yang, H.Y. Lee, S.Y. Han, and S.W. Han|Effect on Development of Male Reproductive Organs of Mouse Offsprings After in Utero Expsure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Organohalog. Compd.64:285-288|2003|
90360|T||Ishimura,R., T. Kawakami, S. Ohsako, and C. Tohyama|Immature Angiogenesis in the Rat Placental Labyrinth After Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Organohalog. Compd.64:282-284|2003|
90361|T||Kato,Y., K. Haraguchi, S. Ikushiro, T. Yamazaki, Y. Ito, A. Fujii, A. Shiga, A. Shoji, T. Iyanagi, M. Degawa, and R. Ki|Species Difference Among Mice, Hamsters, Rats, and Guinea Pigs in 2,2',4',5,5'-Pentachlorobiphenyl and 2,2'3',4',5,6-Hexachlorobiphenyl-Induced Alterations of Serum Thyroid Hormone Level|Organohalog. Compd.64:332-335|2003|
90362|T||Haraguchi,K., Y. Kato, N. Koga, R. Aoshima, M. Degawa, and R. Kimura|Identification and Tissue Distribution of Catechol Metabolites of Polychlorinated Biphenyls in Rodents Dosed with Kanechlor 500|Organohalog. Compd.64:345-348|2003|
90368|T||Quintero,M.C., M. Silva, and D. Perez-Bendito|Stopped-Flow Determination of Maneb in Formulations and Its Residues on Grain|Anal. Chim. Acta222(1): 269-277|1989|10.1016/S0003-2670(00)81902-9
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90373|T||Hull,L.A.|Apple, Airblast Evaluation Experiment of Acaricides, 1995|Arthropod Manag. Tests21:30-32|1996|10.1093/amt/21.1.30
90374|T||Chung,A.H., and M.Y. Pyo|Effects of Mancozeb on the Activities of Murine Peritoneal Macrophages In Vitro and Ex Vivo|Arch. Pharm. Res. (Seoul)28(1): 100-105|2005|10.1007/BF02975143
90375|T||Cross,J.V., and A.M. Berrie|Effects of Repeated Foliar Sprays of Insecticides or Fungicides on Organophosphate-Resistant Strains of the Orchard Predatory Mite Typhlodromus pyri on Apple|Crop Prot.13(1): 39-44|1994|10.1016/0261-2194(94)90134-1
90376|T||Hull,L.A.|Apple, Tufted Apple Bud Moth Control Tactics, 1995|Arthropod Manag. Tests21:20-25|1996|10.1093/amt/21.1.20
90379|A||Brian,J.V., J.J. Augley, and V.A. Braithwaite|Endocrine Disrupting Effects on the Nesting Behaviour of Male Three-Spined Stickleback Gasterosteus aculeatus L.|J. Fish Biol.68(6): 1883-1890|2006|10.1111/j.0022-1112.2006.01053.x
90380|A||Ng,K.P., J.P. Datuin, and H.A. Bern|Effects of Estrogens In Vitro and In Vivo on Cartilage Growth in the Tilapia (Oreochromis mossambicus)|Gen. Comp. Endocrinol.121(3): 295-304|2001|10.1006/gcen.2001.7598
90381|A||Larsson,D.G.J., M. Adolfsson-Erici, J. Parkkonen, M. Pettersson, A.H. Berg, P.E. Olsson, and L. Forlin|Ethinyloestradiol - An Undesired Fish Contraceptive?|Aquat. Toxicol.45:91-97|1999|10.1016/S0166-445X(98)00112-X
90382|A||Labadie,P., and H. Budzinski|Alteration of Steroid Hormone Profile in Juvenile Turbot (Psetta maxima) as a Consequence of Short-Term Exposure to 17alpha-Ethynylestradiol|Chemosphere64(8): 1274-1286|2006|10.1016/j.chemosphere.2005.12.065
90383|A||Martin-Skilton,R., M.W.H. Coughtrie, and C. Porte|Sulfotransferase Activities Towards Xenobiotics and Estradiol in Two Marine Fish Species (Mullus barbatus and Lepidorhombus boscii):  Characterization and Inhibition by Endocrine Disrupters|Aquat. Toxicol.79(1): 24-30|2006|10.1016/j.aquatox.2006.04.012
90384|A||Knoebl,I., M.J. Hemmer, and N.D. Denslow|Induction of Zona radiata and Vitellogenin Genes in Estradiol and Nonylphenol Exposed Male Sheepshead Minnows (Cyprinodon variegatus)|Mar. Environ. Res.58(2-5): 547-551|2004|10.1016/j.marenvres.2004.03.043
90386|A||Parrott,J.L., C.S. Wood, P. Boutot, and S. Dunn|Changes in Growth, Secondary Sex Characteristics, and Reproduction of Fathead Minnows Exposed for a Life Cycle to Bleached Sulfite Mill Effluent|J. Toxicol. Environ. Health Part A67(20-22): 1755-1764|2004|10.1080/15287390490492467
90387|A||Parrott,J.L., C.S. Wood, P. Boutot, and S. Dunn|Changes in Growth and Secondary Sex Characteristics of Fathead Minnows Exposed to Bleached Sulfite Mill Effluent|Environ. Toxicol. Chem.22(12): 2908-2915|2003|10.1897/02-237
90388|A||Park,B.J., and K. Kidd|Effects of the Synthetic Estrogen Ethinylestradiol on Early Life Stages of Mink Frogs and Green Frogs in the Wild and In Situ|Environ. Toxicol. Chem.24(8): 2027-2036|2005|10.1897/04-227R.1
90389|A||Ortiz-Zarragoitia,M., J.M. Trant, and M.P. Cajaraville|Effects of Dibutylphthalate and Ethynylestradiol on Liver Peroxisomes, Reproduction, and Development of Zebrafish (Danio rerio)|Environ. Toxicol. Chem.25(9): 2394-2404|2006|10.1897/05-456R.1
90390|A||Lee,S.M., S.B. Lee, C.H. Park, and J. Choi|Expression of Heat Shock Protein and Hemoglobin Genes in Chironomus tentans (Diptera, Chironomidae) Larvae Exposed to Various Environmental Pollutants:  A Potential Biomarker of Freshwater Monitoring|Chemosphere65(6): 1074-1081|2006|10.1016/j.chemosphere.2006.02.042
90391|A||Moens,L.N., K. Van der Ven, P. Van Remortel, J. Del-Favero, and W.M. De Coen|Expression Profiling of Endocrine-Disrupting Compounds Using a Customized Cyprinus carpio cDNA Microarray|Toxicol. Sci.93(2): 298-310|2006|10.1093/toxsci/kfl057
90392|A||Muncke,J., and R.I.L. Eggen|Vitellogenin 1 mRNA as an Early Molecular Biomarker for Endocrine Disruption in Developing Zebrafish (Danio rerio)|Environ. Toxicol. Chem.25(10): 2734-2741|2006|10.1897/05-683R.1
90393|A||Mdegela,R.H., M. Braathen, D. Correia, R.D. Mosha, J.U. Skaare, and M. Sandvik|Influence of 17alpha-Ethynylestradiol on CYP1A, GST and Biliary FACs Responses in Male African Sharptooth Catfish (Clarias gariepinus) Exposed to Waterborne Benzo(a)pyrene|Ecotoxicology15(8): 629-637|2006|10.1007/s10646-006-0098-9
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90395|A||Lyssimachou,A., B.M. Jenssen, and A. Arukwe|Brain Cytochrome P450 Aromatase Gene Isoforms and Activity Levels in Atlantic Salmon After Waterborne Exposure to Nominal Environmental Concentrations of the Pharmaceutical Ethynylestradiol and Antifoulant Tributyltin|Toxicol. Sci.91(1): 82-92|2006|10.1093/toxsci/kfj136
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90400|A||Wunschel,D., I. Schultz, A. Skillman, and K. Wahl|Method for Detection and Quantitation of Fathead Minnow Vitellogenin (Vtg) by Liquid Chromatography and Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry|Aquat. Toxicol.73(3): 256-267|2005|10.1016/j.aquatox.2005.03.015
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90405|A||Tilton,F., W.H. Benson, and D. Schlenk|Elevation of Serum 17-beta-Estradiol in Channel Catfish Following Injection of 17-beta-Estradiol, Ethynyl Estradiol, Estrone, Estriol and Estradiol-17-beta-glucuronide|Environ. Toxicol. Pharmacol.9(4): 169-172|2001|10.1016/S1382-6689(01)00062-X
90406|A||Liao,T., S. Jin, F.X. Yang, Y. Hui, and Y. Xu|An Enzyme-Linked Immunosorbent Assay for Rare Minnow (Gobiocypris rarus) Vitellogenin and Comparison of Vitellogenin Responses in Rare Minnow and Zebrafish (Danio rerio)|Sci. Total Environ.364(1-3): 284-294|2006|10.1016/j.scitotenv.2006.02.028
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90413|T||Adam,T.|Diseases Affecting Cowpea (Vigna unguiculata (L.) Walpers) in Niger|Ambio19(8): 358-360|1990|
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90418|T||Poswal,M.A.T., and A.D. Akpa|Effects of Seed Treatment Chemicals on Emergence, Stand Establishment and Disease Control in Sesame|Tests Agrochem. Cultiv.12:86-87|1991|
90419|T||Singh,S.K., S.J. Rahman, B.R. Gupta, and C.S. Kalha|An Integrated Approach to the Management of the Major Diseases and Insect Pests of Peas in India|Trop. Pest Manag.38(3): 265-267|1992|10.1080/09670879209371706
90420|T||Krishnamoorthy,A.|Effect of Several Pesticides on Eggs, Larvae and Adults of the Green Lace-Wing Chrysopa scelestes Banks|Entomon10(1): 21-28|1985|
90421|T||Teran,A.L., R.A. Alvarez, and C.A. Orlando|Effect of Currently Used Pesticides in Citrus Orchards on Two Aphelinid Parasitoids. Laboratory Tests|J. Appl. Entomol.116(1): 20-24|1993|10.1111/j.1439-0418.1993.tb01164.x
90422|T||Hunsche,M., K. Bringe, M. Schmitz-Eiberger, and G. Noga|Leaf Surface Characteristics of Apple Seedlings, Bean Seedlings and Kohlrabi Plants and Their Impact on the Retention and Rainfastness of Mancozeb|Pest Manag. Sci.62(9): 839-847|2006|10.1002/ps.1242
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90425|T||Kern,M., Z. Tatar-Kiss, P. Kertai, and I. Foldes|Teratogenic Effect of 2'-Thiourea in the Rat|Acta. Morphol. Acad. Sci. Hung.28(3): 259-267|1980|
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90430|T||Dahmen,H., and T. Staub|Protective, Curative, and Eradicant Activity of Difenoconazole Against Venturia inaequalis, Cercospora arachidicola, and Alternaria solani|Plant Dis.76(8): 774-777|1992|10.1094/PD-76-0774
90431|T||Siddiqui,A., B. Ali, and S.P. Srivastava|Effect of Mancozeb on Hepatic Glutathione S-Transferase in Rat|Toxicol. Lett.68(3): 301-305|1993|10.1016/0378-4274(93)90021-O
90432|T||Holcomb,G.E.|Web Blight of Rosemary Caused by Rhizoctonia solani AG-1|Plant Dis.76(8): 859-860|1992|10.1094/PD-76-0859
90433|T||Cranshaw,W.S., and D.J. Liewehr|Effects of Colored Sprays on Aphid and Psyllid Colonization of Potatoes|Southwest. Entomol.15(2): 205-209|1990|
90434|T||Awadhwal,N.K., G.V.R. Rao, J.A. Wightman, D. McDonald, and T. Takenaga|A Comparison of Hand-Operated Pesticide Sprayers for the Control of Groundnut Pests in India|Plant Prot. Q.6(4): 197-199|1991|
90435|T||Farag,A.T., T.A.Z. Karkour, and A. El Okazy|Embryotoxicity of Oral Administered Chlorothalonil in Mice|Birth Defects Res. B Dev. Reprod. Toxicol.77(2): 104-109|2006|10.1002/bdrb.20074
90436|T||Woodruff,R.C., J.P. Phillips, and D. Irwin|Pesticide-Induced Complete and Partial Chromosome Loss in Screens with Repair-Defective Females of Drosophila melanogaster|Environ. Mutagen.5(6): 835-846|1983|10.1002/em.2860050608
90437|T||Sugha,S.K.|Management of Purple Blotch (Alternaria porri) of Garlic (Allium sativum) with Fungicides|Indian J. Agric. Sci.65(6): 455-458|1995|
90438|T||National Institute for Occupational Safety and Health|Final Report on Screening of Priority Chemicals for Reproductive Hazards with Cover Letter|EPA/OTS Doc.#FYI-OTS-0483-0240:156 p.|1983|
90439|A||Teisseire,H., and G. Vernet|Effects of the Fungicide Folpet on the Activities of Antioxidative Enzymes in Duckweed (Lemna minor)|Pestic. Biochem. Physiol.69(2): 112-117|2001|10.1006/pest.2000.2518
90440|T||Enoch,R.R., J.P. Stanko, S.N. Greiner, G.L. Youngblood, J.L. Rayner, and S.E. Fenton|Mammary Gland Development as a Sensitive End Point After Acute Prenatal Exposure to an Atrazine Metabolite Mixture in Female Long-Evans Rats|Environ. Health Perspect.115(4): 541-547|2007|10.1289/ehp.9612
90441|T||Van den Berg,N., T.A.S. Aveling, and S.L. Venter|The Evaluation of Six Fungicides for Reducing Alternaria cassiae on Cowpea Seed|Crop Prot.21(6): 501-505|2002|10.1016/S0261-2194(01)00140-5
90442|T||Savitri,H., M.S. Reddy, and B.M. Reddy|Effect of Seed Treatment with Fungicides and Insecticides on Seed-Borne Fungi, Storage Insect Pest, Seed Viability and Seedling Vigour of Sorghum|Seed Res.22(2): 146-155|1994|
90443|T||Raj,B.T., and A.P. Sexena|Efficacy of Dithane M-45 Against Broad Mite, Polyphagotarsonemus latus (Banks) on Potato Crop|Indian J. Entomol.49(2): 186-189|1987|
90444|T||Krishnamoorthy,A.|Effect of Some Pesticides on the Predatory Mite, Amblyseius tetranychivorus (Gupta) (Acarina: Phytoseiidae)|Entomon8(3): 229-234|1984|
90445|T||Kackar,R., M.K. Srivastava, and R.B. Raizada|Studies on Rat Thyroid After Oral Administration of Mancozeb:  Morphological and Biochemical Evaluations|J. Appl. Toxicol.17(6): 369-375|1997|10.1002/(SICI)1099-1263(199711/12)17:6<369::AID-JAT449>3.0.CO;2-Q
90446|T||Khan,P.K., and S.P. Sinha|Impact of Higher Doses of Vitamin C in Modulating Pesticide Genotoxicity|Teratog. Carcinog. Mutagen.14(4): 175-181|1994|10.1002/tcm.1770140404
90447|T||Jalali,S.K., and S.P. Singh|Effect of Pesticide on Mortality and Parasitizing Ability of Parasitoid Aphytis Species of San Jose Scale (Quadraspidiotus perniciosus)|Indian J. Agric. Sci.65(8): 617-620|1995|
90448|T||Khera,K.S., C. Whalen, and F. Iverson|Effects of Pretreatment with SKF-525A, N-Methyl-2-Thioimidazole, Sodium Phenobarbital, or 3-Methylcholanthrene on Ethylenethiourea-Induced Teratogenicity in Hamsters|J. Toxicol. Environ. Health11(2): 287-300|1983|10.1080/15287398309530342
90449|T||Sachan,I.P., and V.K. Agarwal|Efficacy of Seed Treatment of Discoloured Seeds of Rice on Seedborne Inoculum, Germination and Seedling Vigour|Seed Res.22(1): 45-49|1994|
90450|T||Samson,M.V., M. Baig, M.L. Sapru, and M.N. Narasimhanna|Efficacy of Certain Fungicides and Disinfectants for the Control of White Muscardine Disease in Mulberry Silkworm|Indian J. Seric.25(2): 78-83|1986|
90451|T||Kuberappa,G.C., and M. Jayaramaiah|Effect of Fungicidal Application Against the White Muscardine Disease on the Cocoon Weight of the Silkworm Bombyx mori L.|Mysore J. Agric. Sci.22(1): 43-47|1988|
90452|T||Thakur,J.N., U.S. Rawat, and A.D. Pawar|Effects of Commonly Used Fungicides on the Predator Chilocorus bijugus (Mulsant)|Indian J. Plant Prot.17(1): 75-78|1989|
90453|T||Srivastava,S.K., K.J. Singh, and O.P. Singh|Effect of Fungicides on the Infection of Grey Semilooper Larvae (Rivula sp.) by Beauveria bassiana (Balsamo) Vuill. in Soybean|J. Biol. Control5(1): 57-58|1991|
90454|T||Tiwari,R.K.S.|Evaluation of Different Fungicides Against Rhizoctonia solani f.sp. Sasakii Causing Sheath Blight of Rice|Adv. Plant Sci.10(1): 259-260|1997|
90455|T||Ali,S.A., R.K. Pathak, and R.K. Saraf|Fungicidal Seed Treatment in Coriander|Adv. Plant Sci.11(1): 303-304|1998|
90457|T||Ramulu,C.A., and D. Rao|Influence of Dithane M-45 on Growth, Flowering Fruiting and Seed Yield in Guar (Cyamopsis tetragonoloba) (L.) Taub.|Adv. Plant Sci.5(1): 12-16|1992|
90469|T||De Gori,N., F. Froio, M.C. Strongoli, A. De Francesco, M. Calo, and G. Nistico|Behavioural and Electrocortical Changes Induced by Paraquat After Injection in Specific Areas of the Brain of the Rat|Neuropharmacology27(2): 201-207|1988|10.1016/0028-3908(88)90171-2
90470|T||Gisi,U.|Synergistic Interaction of Fungicides in Mixtures|Phytopathology86(11): 1273-1279|1996|
90471|T||Gonzalez,A.L., and J.A. Wyman|Effect of Varying Potato Leafhopper (Homoptera:  Cicadellidae) Population Densities on Snap Bean Yield|J. Econ. Entomol.84(2): 644-649|1991|10.1093/jee/84.2.644
90472|T||Linduska,J.J., M. Ross, D. Baumann, M. Boltz, and C. Cain|Control of Cabbage Looper, Diamondback Moth and Imported Cabbageworm on Cabbage with Microbial Insecticides, 1996|Arthropod Manag. Tests22:94-95|1997|10.1093/amt/22.1.94a
90473|T||Zhou,T., and G.J. Boland|Suppression of Dollar Spot by Hypovirulent Isolates of Sclerotinia homoeocarpa|Phytopathology88(8): 788-794|1998|10.1094/PHYTO.1998.88.8.788
90474|T||Ross,D.C., and T.M. Brown|Inhibition of Larval Growth in Spodoptera frugiperda by Sublethal Dietary Concentrations of Insecticides|J. Agric. Food Chem.30(1): 193-196|1982|10.1021/jf00109a045
90475|A||Sauser,K.R., and S.J. Klaine|Activation of Promutagens by a Unicellular Green Alga|ASTM Spec. Tech. Publ.:324-332|1990|
90478|T||McMullan,P.M., and J. Nalewaja|Triallate Antidotes for Wheat (Triticum aestivum)|Weed Sci.39(1): 57-61|1991|10.1017/S0043174500057878
90481|T||Harris,M.K., B.L. Cutler, and D.R. Ring|Pecan Nut Loss from Pollination to Harvest|J. Econ. Entomol.79(6): 1653-1657|1986|10.1093/jee/79.6.1653
90482|A||Fernandez,M., J. L'Haridon, L. Gauthier, and C. Zoll-Moreux|Amphibian Micronucleus Test(s):  A Simple and Reliable Method for Evaluating In Vivo Genotoxic Effects of Freshwater Pollutants and Radiations:  Initial Assessment|Mutat. Res.292(1): 83-99|1993|10.1016/0165-1161(93)90010-W
90486|T||Nicolau,G.Y.|Environmental Chronopathology:  Circadian Dyschronism as Early Indicator of Toxicity in Chronic Pesticide Exposure|In: E.Haus and H.F.Kabat (Eds.), Chronobiology 1982-1983, S.Karger, Basel, Switzerland:379-389|1984|
90487|T||Ballal,C.R., and P. Kumar|Differential Response of Allorhogas pyralophagus (Hymenoptera:  Braconidae) to Various Pesticides|Indian J. Agric. Sci.61(1): 78-79|1991|
90488|T||Siddiqui,A., B. Ali, and S.P. Srivastava|Age-Related Effects in the Inhibition of Oxidative Metabolism of Xenobiotics by Mancozeb|Vet. Hum. Toxicol.35(1): 4-6|1993|
90489|T||Siddiqui,A., S.P. Srivastava, and B. Ali|Effect of Mancozeb on Hydrolytic Metabolism of Xenobiotics|Res. Commun. Chem. Pathol. Pharmacol.70(2): 249-252|1990|
90490|T||Szepvolgyi,J., K. Nagy, M. Bedo, A. Regoly-Merei, M. Szerletics, K. Soos, and M. Antal|Examination of the Interaction of Decis and Dithane in Rats|Toxicology53(1): 107-111|1988|10.1016/0300-483X(88)90240-5
90491|T||Morato,G.S., T. Lemos, and R.N. Takahashi|Acute Exposure to Maneb Alters Some Behavioral Functions in the Mouse|Neurotoxicol. Teratol.11(5): 421-425|1989|10.1016/0892-0362(89)90018-4
90492|T||Mitchell,J.A., S.F. Long, M.C. Wilson, and M.J. Kallman|The Behavioral Effects of Pesticides in Male Mice|Neurotoxicol. Teratol.11(1): 45-50|1989|10.1016/0892-0362(89)90084-6
90493|T||Spector,A.C., and S.L. Kopka|Rats Fail to Discriminate Quinine from Denatonium:  Implications for the Neural Coding of Bitter-Tasting Compounds|J. Neurosci.22(5): 1937-1941|2002|10.1523/JNEUROSCI.22-05-01937.2002
90494|T||Mondal,S.S., D. Acharya, S. Sarkar, and A. Ghosh|Effect of Pre-Sowing Seed Treatment on Growth, Yield, Quality and Nutrient Uptake of Indian Mustard (Brassica juncea) Under Rainfed Condition|Indian J. Agron.49(4): 262-263|2004|10.59797/ija.v49i4.5214
90495|T||Yi,W., S.E. Law, and H.Y. Wetzstein|An In Vitro Study of Fungicide Effects on Pollen Germination and Tube Growth in Almond|Hortscience38(6): 1086-1088|2003|10.21273/HORTSCI.38.6.1086
90496|T||Siddiqui,A., B. Ali, and S.P. Srivastava|Heterogeneous Effects of Ethylenebisdithiocarbamate (EBDC) Pesticides on Oxidative Metabolism of Xenobiotics|Pharmacol. Toxicol.69(1): 13-16|1991|10.1111/j.1600-0773.1991.tb00401.x
90497|T||Beck,S.L.|Prenatal and Postnatal Assessment of Maneb-Exposed CD-1 Mice|Reprod. Toxicol.4(4): 283-290|1990|10.1016/0890-6238(90)90040-3
90498|T||Clark,R.V., and D.A. Galway|Comparative Tolerance of Oat Cultivars to Septoria Leaf Blotch and Crown Rust|Can. Plant Dis. Surv.66(1): 19-22|1986|
90499|T||Singh,V.P., and P. Singh|Cytomorphological Changes Induced in Breadwheat Following Seed Treatment with Pesticides and Mutagenic Chemicals|Indian J. Genet. Plant Breed.49(3): 341-347|1989|
90501|T||Komulainen,H., and K. Savolainen|Effect of Dithiocarbamate Fungicides and Thiurams on 3H-Haloperidol Binding in Rat Brain|Arch. Toxicol.8:77-79|1985|10.1007/978-3-642-69928-3_8
90502|T||Kurttio,P., K. Savolainen, R. Tuominen, V.M. Kosma, A. Naukkarinen, P. Mannisto, and Y. Collan|Ethylenethiourea and Nabam Induced Alterations of Function and Morphology of Thyroid Gland in Rats|Arch. Toxicol.9:339-344|1986|10.1007/978-3-642-71248-7_61
90503|T||Meneguz,A., and H. Michalek|Induction of Hepatic Microsomal Mixed Function Oxidase System by Ethylenethiourea in Mice|Arch. Toxicol.9:346-350|1986|10.1007/978-3-642-71248-7_63
90505|T||Lewerenz,H.J., and D.W.R. Bleyl|Postnatal Effects of Oral Administration of Ethylenethiourea to Rats During Late Pregnancy|Arch. Toxicol.4:292-295|1980|10.1007/978-3-642-67729-8_59
90506|T||Barnard,E.L., W.N. Dixon, E.C. Ash, S.W. Fraedrich, and C.E. Cordell|Scalping Reduces Impact of Soilborne Pests and Improves Survival and Growth of Slash Pine Seedlings on Converted Agricultural Croplands|South. J. Appl. For.19(2): 49-59|1995|10.1093/sjaf/19.2.49
90507|T||Pancholy,S.K., and J.Q. Lynd|Bromacil Interactions in Plant Bioassay, Fungi Cultures, and Nitrification|Weed Sci.17(4): 460-463|1969|10.1017/S0043174500054552
90508|T||Lakoski,J.M., M.I. Arentsen, N.L. Kneisley, W.W. Au, and M.S. Legator|Evaluation of Toxic and Genotoxic Effects of Bromacil:  Part II.  Open-Field Behavioral Assessment of Locomotor Effects in the Rat|J. Occup. Med. Toxicol. (Lond.)2(2): 173-187|1993|
90509|T||Au,W.W., J.M. Lakoski, and M.S. Legator|Evaluation of Toxic and Genotoxic Effects of Bromacil:  Part I - Cytogenetic Study Using Bone Marrow Cells of B6C3/F1 Mice|J. Occup. Med. Toxicol. (Lond.)2(2): 169-171|1993|
90510|T||Saifulla,M., K. Krishnappa, and H.S. Shetty|Management of Rice Grain Discoloration|Indian J. Plant Prot.23(1): 58-60|1995|
90511|T||Bakalivanov,D., and O. Kostov|Soil Microbiological Assessment of Toxicity of Alkanoate, Amide and Other Herbicides|Acta Microbiol. Acad. Sci. Hung.28(2): 141-146|1981|
90512|T||Miah,S.A., A.K.M. Shahjahan, N.R. Sharma, and H.U. Ahmed|Field Evaluation of Fungicides for Rice Sheath Blight Control|Bangladesh J. Bot.23(2): 239-244|1994|
90513|T||Kitchin,K.T., and M.T. Ebron|Studies of Saccharin and Cyclohexylamine in a Coupled Microsomal Activating/Embryo Culture System|Food Chem. Toxicol.21(5): 537-541|1983|10.1016/0278-6915(83)90137-0
90514|T||Kenyon,D.M., G.R. Dixon, and S. Helfer|The Repression and Stimulation of Growth of Erysiphe sp. on Rhododendron by Fungicidal Compounds|Plant Pathol.46(3): 425-431|1997|10.1046/j.1365-3059.1997.d01-25.x
90515|A||Mouchet,F., L. Gauthier, C. Mailhes, V. Ferrier, and A. Devaux|Comparative Evaluation of Genotoxicity of Captan in Amphibian Larvae (Xenopus laevis and Pleurodeles waltl) Using the Comet Assay and the Micronucleus Test|Environ. Toxicol.21(3): 264-277|2006|10.1002/tox.20180
90516|T||Gautam,D.R., N.K. Sharma, and J.S. Chauhan|Herbicides and Nematode Control in Peach Nurseries|Pesticides 18(3): 11-12|1984|
90517|T||Asamoto,M., A.M. Mann, and S.M. Cohen|P53 Mutation is Infrequent and Might not give a Growth Advantage in Rat Bladder Carcinogenesis In Vivo|Carcinogenesis15(3): 455-458|1994|10.1093/carcin/15.3.455
90518|T||Suzuki,T., K. Umedzu, Y. Itagaki, and K. Tuzimura|"A Comparative Study on the Analysis of Herbicide ""Bromacil"" Using ECD-Gas Chromatography and Mass Fragmentography"|Agric. Biol. Chem.41(5): 775-779|1977|
90519|T||Heaton,J.B.|Control of Brown Rot and Transit Rot of Peaches with Post-Harvest Fungicidal Dips|Qld. J. Agric. Anim. Sci.37(2): 155-159|1980|
90520|A||Galvez,J.I., P.M. Mazik, R.P. Phelps, and D.R. Mulvaney|Masculanization of Channel Catfish Ictalurus punctatus by Oral Administration of Trenbolone Acetate|J. World Aquac. Soc.26(4): 378-383|1995|10.1111/j.1749-7345.1995.tb00832.x
90521|AT||Jones,D., E.G. Stringham, S.L. Babich, and E.P.M. Candido|Transgenic Strains of the Nematode C. elegans in Biomonitoring and Toxicology:  Effects of Captan and Related Compounds on the Stress Response|Toxicology109(2-3): 119-127|1996|10.1016/0300-483X(96)03316-1
90522|T||Anton,F., E. Laborda, and P. Laborda|Acute Toxicity of the Fungicide Captan to the Earthworm Eisenia foetida (Savigny)|Bull. Environ. Contam. Toxicol.45(1): 82-87|1990|10.1007/BF01701832
90523|AT||Kratky,B.A., and G.F. Warren|A Rapid Bioassay for Photosynthetic and Respiratory Inhibitors|Weed Sci.19(6): 658-661|1971|10.1017/S0043174500050980
90524|T||Wardle,D.A., G.W. Yeates, R.N. Watson, and K.S. Nicholson|The Detritus Food-Web and the Diversity of Soil Fauna as Indicators of Disturbance Regimes in Agro-Ecosystems|Plant Soil170(1): 35-43|1995|10.1007/BF02183053
90526|A||Stasinakis,A.S., A.V. Petalas, D. Mamais, N.S. Thomaidis, G. Gatidou, and T.D. Lekkas|Investigation of Triclosan Fate and Toxicity in Continuous-Flow Activated Sludge Systems|Chemosphere68:375-381|2007|10.1016/j.chemosphere.2007.01.047
90527|T||Sedivy,J., and F. Kocourek|Comparative Studies on Two Methods for Sampling Insects in an Alfalfa Seed Stand in Consideration of a Chemical Control Treatment|J. Appl. Entomol.106(3): 312-318|1988|10.1111/j.1439-0418.1988.tb00598.x
90528|T||Hagley,E.A.C., and A.R. Biggs|Effects of Three Fungicides on Populations of a Phytophagous and Several Predacious Mites (Acarina) on Apple|Exp. Appl. Acarol.6(3): 253-256|1989|10.1007/BF01193984
90529|T||Ioriatti,C., E. Pasqualini, and A. Toniolli|Effects of the Fungicides Mancozeb and Dithianon on Mortality and Reproduction of the Predatory Mite Amblyseius andersoni|Exp. Appl. Acarol.15(2): 109-116|1992|10.1007/BF01275521
90530|T||Auger,P., S. Kreiter, H. Mattioda, and A. Duriatti|Side Effects of Mancozeb on Typhlodromus pyri (Acari:  Phytoseiidae) in Vineyards: Results of Multi-Year Field Trials and a Laboratory Study|Exp. Appl. Acarol.33(3): 203-213|2004|10.1023/B:APPA.0000032957.42594.b3
90531|T||Cherry,A.J., N.W. Sotherton, and S.D. Wratten|The Sub-Lethal Effects of Foliar Fungicides on the Mustard Beetle, Phaedon cochleariae (F.) (Col., Chrysomelidae)|J. Appl. Entomol.114(5): 510-519|1992|10.1111/j.1439-0418.1992.tb01159.x
90533|A||Van-Moppes,D., Z. Barak, D.M. Chipman, N. Gollop, and S. Arad|An Herbicide (Sulfometuron Methyl) Resistant Mutant in Porphyridium (Rhodophyta)|J. Phycol.25(1): 108-112|1989|10.1111/j.0022-3646.1989.00108.x
90534|AT||Meepagala,K.M., K.K. Schrader, D.E. Wedge, and S.O. Duke|Algicidal and Antifungal Compounds from the Roots of Ruta graveolens and Synthesis of Their Analogs|Phytochemistry66(22): 2689-2695|2005|10.1016/j.phytochem.2005.09.019
90535|A||Lapidot,M., D. Raveh, A. Sivan, S. Arad, and M. Shapira|Stable Chloroplast Transformation of the Unicellular Red Alga Porphyridium Species|Plant Physiol.129(1): 7-12|2002|10.1104/pp.011023
90536|A||Hartnett,M.E., J.R. Newcomb, and R.C. Hodson|Mutations in Chlamydomonas reinhardtii Conferring Resistance to the Herbicide Sulfometuron Methyl|Plant Physiol.85(4): 898-901|1987|10.1104/pp.85.4.898
90537|T||Nishida,N., J.D. Farmer, P.R.S. Kodavanti, H.A. Tilson, and R.C. MacPhail|Effects of Acute and Repeated Exposures to Aroclor 1254 in Adult Rats:  Motor Activity and Flavor Aversion Conditioning|Fundam. Appl. Toxicol.40(1): 68-74|1997|10.1006/faat.1997.2352
90538|T||Peele,D.B., J.D. Farmer, and R.C. MacPhail|Behavioral Consequences of Chelator Administration in Acute Cadmium Toxicity|Fundam. Appl. Toxicol.11(3): 416-428|1988|10.1016/0272-0590(88)90106-6
90539|T||Verrett,M.J., M.K. Mutchler, W.F. Scott, E.F. Reynaldo, and J. McLaughlin|Teratogenic Effects of Captan and Related Compounds in the Developing Chicken Embryo|Ann. N. Y. Acad. Sci.160(1): 334-343|1969|10.1111/j.1749-6632.1969.tb15853.x
90541|T||Pedersen,W.L., J.D. Kline, C.A. Bradley, and D.S. Mueller|Influence of Metalaxyl Fungicide Seed Treatment on Severity of Rootworm (Diabrotica spp.) Damage to Corn (Zea mays) Under No-Tillage Conditions|Crop Prot.22(4): 647-652|2003|10.1016/S0261-2194(03)00005-X
90542|T||Koeppe,M.K., and C.F. Mucha|Metabolism of Sulfometuron Methyl in Lactating Goats|J. Agric. Food Chem.39(12): 2304-2309|1991|10.1021/jf00012a043
90543|A||Harvey,J.,Jr., J.J. Dulka, and J.J. Anderson|Properties of Sulfometuron Methyl Affecting Its Environmental Fate:  Aqueous Hydrolysis and Photolysis, Mobility and Adsorption on Soils, and Bioaccumulation Potential|J. Agric. Food Chem.33(4): 590-596|1985|10.1021/jf00064a009
90544|T||Flynn,K.M., S.A. Ferguson, K.B. Delclos, and R.R. Newbold|Effects of Genistein Exposure on Sexually Dimorphic Behaviors in Rats|Toxicol. Sci.55(2): 311-319|2000|10.1093/toxsci/55.2.311
90545|T||Boswell,K.J., M.L. Reid, J.V. Fitch, S.M. Bennett, S.P. Narciso, C.L. Hubbell, and L.D. Reid|Estradiol Valerate and Intake of Sweetened Water|Pharmacol. Biochem. Behav.80(1): 1-7|2005|10.1016/j.pbb.2004.09.024
90547|T||Ferguson,S.A., K.B. Delclos, R.R. Newbold, and K.M. Flynn|Dietary Ethinyl Estradiol Exposure During Development Causes Increased Voluntary Sodium Intake and Mild Maternal and Offspring Toxicity in Rats|Neurotoxicol. Teratol.25(4): 491-501|2003|10.1016/S0892-0362(03)00015-1
90548|T||Wilcox,W.F.|Postinfection and Antisporulant Activities of Selected Fungicides in Control of Blossom Blight of Sour Cherry Caused by Monilinia fructicola|Plant Dis.74(10): 808-811|1990|10.1094/PD-74-0808
90549|T||Xu,X., and D.J. Butt|Tests of Fungicides for Post-Germination Activity Against Nectria galligena, Causal Agent of Canker and Fruit Rot of Apple|Crop Prot.15(6): 513-519|1996|10.1016/0261-2194(96)00019-1
90551|T||Fuchs,A., and W. Ost|Translocation, Distribution and Metabolism of Triforine in Plants|Arch. Environ. Contam. Toxicol.4(1): 30-43|1976|10.1007/BF02221013
90552|T||Bristow,P.R., and G.E. Windom|Effects of Selected Fungicides, Insecticides, and Adjuvants on In Vitro Germination of Highbush Blueberry Pollen|Plant Dis.71(4): 326-328|1987|10.1094/PD-71-0326
90553|T||Mayer,D.F., and J.D. Lunden|Toxicity of Fungicides and an Acaricide to Honey Bees (Hymenoptera: Apidae) and Their Effects on Bee Foraging Behavior and Pollen Viability on Blooming Apples and Pears|Environ. Entomol.15(5): 1047-1049|1986|10.1093/ee/15.5.1047
90554|A||Harada,K., T. Miyasaki, and Y. Tamura|Chemoattractant Effects of Sugars and Their Related Compounds on Black Abalone Haliotis discus|Comp. Biochem. Physiol. A Comp. Physiol.109(1): 111-115|1994|10.1016/0300-9629(94)90316-6
90555|T||Nascimento,M.G., M.L.C.S. De Oliveira, A.S. Lima, and J.L.V. De Camargo|Effects of Diuron (3-(3,4-Dichlorophenyl)-1,1-Dimethylurea) on the Urinary Bladder of Male Wistar Rats|Toxicology224(1-2): 66-73|2006|10.1016/j.tox.2006.04.029
90556|T||Kim,H.C., S.W. Cha, C.S. Ha, J.K. Roh, Y.S. Lee, F. Furukawa, A. Nishikawa, and M. Takahashi|Reappraisal of Eight Representative Carcinogenic and Non-Carcinogenic Compounds in a new Medium-Term Rat Liver Bioassay UsingD-Galactosamine|Cancer Lett.104(1): 85-90|1996|10.1016/0304-3835(96)04236-X
90557|T||Rahden-Staron,I.|The Inhibitory Effect of the Fungicides Captan and Captafol on Eukaryotic Topoisomerases In Vitro and Lack of Recombinagenic Activity in the Wing Spot Test of Drosophila melanogaster|Mutat. Res.518(2): 205-213|2002|10.1016/S1383-5718(02)00107-9
90558|T||Witmer,G.W., M.J. Pipas, and J.C. Bucher|Field Tests of Denatonium Benzoate to Reduce Seedling Damage by Pocket Gophers (Thomomys talpoides Rich.)|Crop Prot.17(1): 35-39|1998|10.1016/S0261-2194(98)80010-0
90560|T||Wedge,D.E., and D.G. Nagle|A New 2D-TLC Bioautography Method for the Discovery of Novel Antifungal Agents to Control Plant Pathogens|J. Nat. Prod.63(8): 1050-1054|2000|10.1021/np990628r
90561|T||Dupuis,G., W. Muecke, and H.O. Esser|The Metabolic Behavior of the Insecticidal Phosphorus Ester GS-13005|J. Econ. Entomol.64(3): 588-597|1971|10.1093/jee/64.3.588
90562|A||Wigand,C., and J.C. Stevenson|Facilitation of Phosphate Assimilation by Aquatic Mycorrhizae of Vallisneria americana Michx|Hydrobiologia (Multiple Languages)342-343:35-41|1997|10.1023/A:1017071701679
90563|T||Boscolo,P., and M. Carmignani|Neurohumoral Blood Pressure Regulation in Lead Exposure|Environ. Health Perspect.78:101-106|1988|10.1289/ehp.8878101
90564|T||Kuwagata,M., and T. Nagao|Behavior and Reproductive Function of Rat Male Offspring Treated Prenatally with 5-Bromo-2'-Deoxyuridine|Reprod. Toxicol.12(5): 541-549|1998|10.1016/S0890-6238(98)00037-9
90565|T||Zhu,Y., P. Christie, and A.S. Laidlaw|Uptake of Zn by Arbuscular Mycorrhizal White Clover from Zn-Contaminated Soil|Environ. Pollut.:193-199|2001|
90566|T||Salminen,J., C.A.M. Van Gestel, and J. Oksanen|Pollution-Induced Community Tolerance and Functional Redundancy in a Decomposer Food Web in Metal-Stressed Soil|Environ. Toxicol. Chem.20(10): 2287-2295|2001|
90568|T||Zhu,D., and J.G. Scandalios|Differential Accumulation of Manganese-Superoxide Dismutase Transcripts in Maize in Response to Abscisic Acid and high Osmoticum|Plant Physiol.106(1): 173-178|1994|10.1104/pp.106.1.173
90569|T||McCrady,J.K., and S.P. Maggard|Uptake and Photodegradation of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Sorbed to Grass Foliage|Environ. Sci. Technol.27(2): 343-350|1993|10.1021/es00039a015
90570|T||Johnson,D.B., and B.L. Cox|Aerobic Soil Metabolism and Residue Uptake in Plants of an Organophosphorus Carbamate Insecticide|J. Agric. Food Chem.33(2): 255-259|1985|10.1021/jf00062a025
90572|T||Khan,M.F., I. Ahmad, M. Jahan, N. Yasmin, S.S. Qadri, and S.N.H. Naqvi|Toxicological Studies of Methoprene (ZR-515) and Dicrotophos as Compared to Neem Extract RB-B and Estimation of Cholinesterase Against Drosophila melanogaster M.|J. Exp. Zool. India10(1): 121-124|2007|
90573|A||Bisht,I., and S.K. Agarwal|Cytomorphological and Histochemical Changes in Mucous Cells of General Body Epidermis of Barilius vagra (Cyprinidae, Pisces) Following Exposure to a Herbicide - Blue Vitrol (CuSO4):  A Statistical Analysis|J. Exp. Zool. India10(1): 27-36|2007|
90574|A||Pugazhendy,K., C. Jayanthi, M.S. Devi, and D. Mohanna|Effect of Lead Intoxication on Acid and Alkaline Phosphatase Activity in a Freshwater Fish Cyprinus carpio (Linn) Fingerlings|J. Exp. Zool. India10(1): 195-198|2007|
90575|A||Twiss,M.R., J.C. Auclair, and M.N. Charlton|An Investigation into Iron-Stimulated Phytoplankton Productivity in Epipelagic Lake Erie During Thermal Stratification Using Trace Metal Clean Techniques|Can. J. Fish. Aquat. Sci.57:86-95|2000|10.1139/f99-189
90576|T||Knowles,K.R., R.H. Clothier, and M. Balls|Lesions Induced in Xenopus laevis by Exposure to Dimethylnitrosamine|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:223-226|1983|
90578|T||Clothier,R.H., K.R. Knowles, H.S. James, D.J. Whittle, and M. Balls|The Pathological Effects of N-Methyl-N-Nitrosourea in Xenopus-laevis|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:147-156|1983|
90579|T||Balls,M., R.H. Clothier, and K.R. Knowles|Tumour Incidence in NMU-Treated Xenopus laevis|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:163-172|1983|
90580|A||Shankar,D., A. Singh, A. Kumar, and J.P.N. Singh|Effect of Chlordecone on the Acidophil Cells of Gill Arch Region of Live Fish, Channa striatus|J. Exp. Zool. India10(1): 37-41|2007|
90581|A||Singh,A.P., A.K. Singh, and J.P.N. Singh|Cadmium Induced Changes on the Secretion of Branchial Mucous Cells of Peppered Loach, Lepdocephalichthys guntea|J. Exp. Zool. India10(1): 65-68|2007|
90582|AT||James,H.S., K.R. Knowles, R.H. Clothier, C.J. Groves, and M. Balls|Effects of Early Thymectomy or Exposure to N-Methyl-N-Nitrosourea on Immune Responses in Xenopus laevis|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:157-162|1983|
90585|A||Villeneuve,D.L., P. Larkin, I. Knoebl, A.L. Miracle, M.D. Kahl, E.A. Makynen, E.J. Durhan, B.J. Carter, N.D. Denslow, a|A Graphical Systems Model to Facilitate Hypothesis-Driven Ecotoxicogenomics Research on the Teleost Brain-Pituitary-Gonadal Axis|Environ. Sci. Technol.41:321-330|2007|10.1021/es061739x
90586|T||Winters,S., and B. Cartwright|Control of Lepidopterous Larvae on Cabbage, Summer, 1990|Insectic. Acaric. Tests16:65-66|1991|10.1093/iat/16.1.65a
90587|T||Foster,R.E.|Strategies for Protecting Sweet Corn Ears from Damage by Fall Armyworms (Lepidoptera:  Noctuidae) in Southern Florida|Fla. Entomol.72(1): 146-151|1989|10.2307/3494981
90588|A||Bennet,P.H., and E.R.I.C. Sandmann|The Effect of Bromacil of the Net Photosynthetic Oxygen Production of Selenastrum capricornutum|Chemosphere12(7-8): 1047-1054|1983|10.1016/0045-6535(83)90257-6
90589|T||Stojanovic,B.J., M.V. Kennedy, and F.L.,Jr. Shuman|Edaphic Aspects of the Disposal of Unused Pesticides, Pesticide Wastes, and Pesticide Containers|J. Environ. Qual.1(1): 54-62|1972|10.2134/jeq1972.00472425000100010014x
90590|T||Langeland,K.A.|Management Program for Alligatorweed in North Carolina|Report No.224, Water Resources Research Institute of the University of North Carolina:36 p.|1986|
90591|A||Tsuda,T., S. Aoki, M. Kojima, and T. Fujita|Accumulation and Excretion of Organophosphorous Pesticides by Willow Shiner|Chemosphere25(12): 1945-1951|1992|10.1016/0045-6535(92)90033-N
90594|T||Marniemi,J.|Bilirubin UDP-Glucosyl-and UDP-Glucuronosyltransferase of Rat Liver. A Comparative Study of the Effects of Membrane Perturbants In Vitro and of Chrysene Administration In Vivo|Chem.-Biol. Interact.9:135-143|1974|10.1016/0009-2797(74)90005-2
90595|T||Frei,J.V., and S.C. Maitra|Bone Marrow and Thymus Regeneration is a Condition for Thymoma Development|Chem.-Biol. Interact.9:65-69|1974|10.1016/0009-2797(74)90068-4
90596|T||Popp,J.A., and H. Shinozuka|Inhibition of Protein Synthesis and Induction of Helical Polysomes in Rat Liver by N-Hydroxy-2-Fluorenylacetamide|Chem.-Biol. Interact.9:37-43|1974|10.1016/0009-2797(74)90065-9
90598|A||Zurita,J.L., G. Repetto, A. Jos, M. Salguero, M. Lopez-Artiguez, and A.M. Camean|Toxicological Effects of the Lipid Regulator Gemfibrozil in Four Aquatic Systems|Aquat. Toxicol.81(1): 106-115|2007|10.1016/j.aquatox.2006.11.007
90599|T||Sobrado,M.A.|Effect of High External NaCl Concentration on the Osmolality of Xylem Sap, Leaf Tissue and Leaf Glands Secretion of the Mangrove Avicennia germinans (L.) L.|Flora (Multiple Languages)196(1): 63-70|2001|10.1016/S0367-2530(17)30013-0
90600|A||Escher,B.I., N. Bramaz, M. Richter, and J. Lienert|Comparative Ecotoxicological Hazard Assessment of beta-Blockers and Their Human Metabolites Using a Mode-of-Action-Based Test Battery and a QSAR Approach|Environ. Sci. Technol.40(23): 7402-7408|2006|10.1021/es052572v
90601|A||Davies,P.H., and S. Brinkman|Water Pollution Studies|Fed.Aid Proj.#F-33, Colorado Div.of Wildl., Fish Res.Sect., Fort Collins, CO:138 p.|1994|
90602|T||Bovie,C., M. Ongena, P. Thonart, and J. Dommes|Cloning and Expression Analysis of cDNAs Corresponding to Genes Activated in Cucumber Showing Systemic Acquired Resistance After BTH Treatment|BMC Plant Biol.4(15): 1-12|2004|
90603|T||Degraeve,N., M.C. Chollet, and J. Moutschen|Evaluation of the Mutagenic Potential of Four Commercial Mixtures of Insecticides|Food Chem. Toxicol.22(8): 683-687|1984|10.1016/0278-6915(84)90280-1
90604|A||Smith,R.J.F.|Testosterone Eliminates Alarm Substance in Male Fathead Minnows|Can. J. Zool.51:875-876|1973|10.1139/z73-130
90605|T||Yazdanpanah,H., F. Roshanzamir, B. Shafaghi, M. Faizi, M. Elhami, and H.R. Rasekh|Assessment of Possible Protective Roles of Selenium, Zinc, and cis-Stilbene Oxide Against Acute T-2 Toxin Poisoning:  A Preliminary Report|Nat.Toxins5(4): 133-135|1997|10.1002/19970504NT1
90606|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC to Bluegill in Dilution Water with a Total Hardness of 250 mg/L with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008507:18 p.|1992|
90607|A||Monsanto Company|Initial Submission:  Acute Toxicity of TCC to Bluegill at 15 Degrees Celsius with Cover Letter Dated 081492|Monsanto, St.Louis, MO:|1992|
90608|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC in Bluegill with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008503:18 p.|1992|
90612|A||E.G. and G. Bionomics|Initial Submission:  Acute Toxicity of TCC-1218033 in Solutions Containing LAS to the Water Flea Daphnia magna with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008329:12 p.|1992|
90613|A||E.G. and G. Bionomics|Initial Submission:  The Chronic Toxicity of 1218033 to the Water Flea Daphnia magna with Cover Letter Dated 081492|EPA/OTS Doc.#88-920007397:20 p.|1992|
90615|A||E.G. and G. Bionomics|Initial Submission:  Acute Toxicity of TCC-Qm-769 to Bluegill and Rainbow Trout With Cover Letter Dated 081492|EPA/OTS Doc.#88-920008326:18 p.|1992|
90616|A||E.G. and G. Bionomics|Initial Submission: Acute Toxicity of TCC to Bluegill (Lepomis macrochirus) with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008331:12 p.|1992|
90617|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC to Bluegill in Dilution Water With a pH of 8.0 With Cover Letter Dated 081492|EPA/OTS Doc.#88-920008508:18 p.|1992|
90618|T||Thathoo,A.K., and M.C. Prasad|Experimental Malathion Toxicity in Lambs: A Biochemical Study|Indian J. Anim. Sci.59(10): 1237-1242|1989|
90619|A||Leonte-Pena,E., E. Liculescu, S. Iliescu, A. Constantin, E. Roman, D. Tocitu, and S. Fleschin|The Mancozeb and Folpet Toxicity on the Aquatic Organisms; the Estimation of the Maximum Allowable Toxicant Concentration in the Water|Trav.Mus.Natl.Hist.Nat. (Grigore Antipa)27(0): 63-68|1985|
90620|A||Kumar,A., A.R. Deb, M.Z. Ansari, and B.N. Sahai|Control of Snail Vectors of Amphistomiasis with Various Indigenous Products|Indian J. Anim. Sci.62(2): 129-131|1992|
90621|T||Priya,E.J.S., O.S. Vivekanandan, B. Gowrishankar, and D. Rajaiah|Genotoxic Effect of an Organophosphorous Pesticide on Allium Root Meristems In Vivo|Indian J. Exp. Biol.34(4): 320-324|1996|
90622|T||Asmatullah, S.A. Mufti, A.M. Cheema, and J. Iqbal|Embryotoxicity and Teratogenicity of Malathion in Mice|Bull. Dep. Zool. Univ. Panjab8:53-61|1993|
90623|T||Sengupta,P.K., A. Chakrabarti, and S.K. Banerjee|Malathion-Induced Effects on Growth and Nitrogen Metabolizing Enzymes in Germinating Wheat|Curr. Sci. (Bangalore)58(10): 554-556|1989|
90624|T||Goyal,B.S., S.K. Garg, and B.D. Garg|Malathion-Induced Hyper-Adrenal Activity in WLH Chicks|Curr. Sci. (Bangalore)55(11): 526-528|1986|
90625|T||Meagher,R.L.,Jr., and J.R. Meyer|Highbush Blueberry Firmness Following Insecticide Applications|Hortscience24(5): 803-805|1989|10.21273/HORTSCI.24.5.803
90626|T||Hoda,Q., and S.P. Sinha|Vitamin B-Complex Mediated Minimisation of Malathion and Rogor Induced Mitoinhibition and Clastogeny|Cytologia57(4): 477-483|1992|10.1508/cytologia.57.477
90627|T||Akay,M.T., G. Yilmazoglu, D. Gokce, and D. Kolankaya|The Effects of Bound Residues of Malathion in Stored Wheat Grains on Rat Brain Acetylcholinesterase and Pseudocholinesterase Activities|DOGA Turk Zool. Dergisi14(2): 162-166|1990|
90628|T||Suranyi,R.A., C.A. Longtine, D.W. Ragsdale, and E.B. Radcliffe|Control of Potato Leafhopper on Potatoes Using Reduced Rates of Insecticides, 1997|Arthropod Manag. Tests23:137-|1998|10.1093/amt/23.1.137
90629|T||Cohen,S.D., and S.D. Murphy|Malathion Potentiation and Inhibition of Hydrolysis of Various Carboxylic Esters by Triorthotolyl Phosphate (TOTP) in Mice|Biochem. Pharmacol.20(3): 575-587|1971|10.1016/0006-2952(71)90144-4
90630|T||Banerjee,B.D., S.T. Pasha, Q.Z. Hussain, B.C. Koner, and A. Ray|A Comparative Evaluation of Immunotoxicity of Malathion After Subchronic Exposure in Experimental Animals|Indian J. Exp. Biol.36(3): 273-282|1998|
90631|T||Singh,Y., V.K. Chaudhary, S.R. Tyagi, R. Bhatnagar, and U.K. Misra|Hepatic Phosphatidylcholine Synthesis in Deficiency of Lysine and Threonine:  Effect of Malathion|Experientia44(9): 758-759|1988|10.1007/BF01959153
90632|T||Rodgers,K., and D. Ellefson|Mechanism of the Modulation of Murine Peritoneal Cell Function and Mast Cell Degranulation by Low Doses of Malathion|Agents Actions35(1-2): 57-63|1992|10.1007/BF01990952
90633|T||Zayed,S.M.A.D., S.M. Amer, M.F. Nawito, M. Farghaly, H.A. Amer, M.A. Fahmy, and F. Mahdy|Toxicological Potential of Malathion Residues in Stored Soybean Seeds|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(6): 711-729|1993|
90634|T||Dowd,P.F., G.A. Bennett, M.R. McGuire, T.C. Nelsen, B.S. Shasha, and F.W. Simmons|Adherent Malathion Flour Granules as an Environmentally Selective Control for Chewing Insect Pests of Dent Corn Ears:  Indirect Reduction of Mycotoxigenic Ear Molds|J. Econ. Entomol.92(1): 68-75|1999|10.1093/jee/92.1.68
90635|T||Hasan,H.A.H.|Fungal Utilization of Organophosphate Pesticides and Their Degradation by Aspergillus flavus and A. sydowii in Soil|Folia Microbiol. (Prague)44(1): 77-84|1999|10.1007/BF02816226
90636|T||Arne,C.N., S.A. Becker, and W.C. Bailey|Alfalfa Weevil Control, Missouri (Northern), 1989|Insectic. Acaric. Tests16:123-|1991|10.1093/iat/16.1.123
90637|T||Leonard,B.R., and J.B. Graves|Control of Tobacco Budworm and Bollworm in Late August with Post Optimal Application Timing, 1990|Insectic. Acaric. Tests16:188-189|1991|
90638|A||Verma,S.R., I.P. Tonk, and R.C. Dalela|Effects of a Few Xenobiots on Three Phosphatases of Saccobranchus fossilis and the Role of Ascorbic Acid in Their Toxicity|Toxicol. Lett.10(2/3): 287-292|1982|10.1016/0378-4274(82)90089-3
90639|T||Saigal,S., V.K. Bhatnagar, and A.N. Malviya|Effect of Selected Pesticides on Alkaline and Acid Phosphatase in the Rat|Toxicol. Lett.12(2/3): 177-180|1982|10.1016/0378-4274(82)90182-5
90640|T||Herbert,D.A.,Jr.|Corn Earworm Control in 'NC 7' Peanut in Virginia, 1990|Insectic. Acaric. Tests16:209-210|1991|
90641|T||Hirvonen,M.R., and K.M. Savolainen|Malaoxon-Induced Brain Phosphoinositide Turnover and Changes in Brain Calcium Levels by Female Gender in Pregnant and Non-Pregnant Convulsing and Non-Convulsing Rats|Hum. Exp. Toxicol.12(6): 469-477|1993|10.1177/096032719301200604
90642|T||McPherson,R.M., C.E. Perry, and R.D. McNeill IV|Control of Soybean Loopers and Velvetbean Caterpillars on Georgia Soybean, 1992|Insectic. Acaric. Tests18:272-|1993|10.1093/iat/18.1.272
90643|T||Hazarika,A., S.N. Sarkar, S. Hajare, M. Kataria, and J.K. Malik|Influence of Malathion Pretreatment on the Toxicity of Anilofos in Male Rats:  A Biochemical Interaction Study|Toxicology185(1-2): 1-8|2003|10.1016/S0300-483X(02)00574-7
90644|T||Johnson,V.J., A.M. Rosenberg, K. Lee, and B.R. Blakley|Increased T-Lymphocyte Dependent Antibody Production in Female SJL/J Mice Following Exposure to Commercial Grade Malathion|Toxicology170(1/2): 119-129|2002|10.1016/S0300-483X(01)00515-7
90645|T||Sampson,B.J., S.J. Stringer, and J.M. Spiers|Integrated Pest Management for Dasineura oxycoccana (Diptera: Cecidomyiidae) in Blueberry|Environ. Entomol.31(2): 339-347|2002|10.1603/0046-225X-31.2.339
90646|T||Micinski,S., M.L. Kirby, and J.B. Graves|Efficacy of Selected Insecticides for Plant Bug Control, 1990|Insectic. Acaric. Tests16:197-198|1991|10.1093/iat/16.1.197
90647|T||National Cancer Institute (NCI)|Bioassay of Malaoxon for Possible Carcinogenicity|Tech. Rep. Ser. No 135, National Cancer Inst, National Inst. Health, Bethesda,  MD:104 p.|1979|
90648|T||National Cancer Institute|Bioassay of Malathion for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:102 p.|1978|
90649|T||Lu,F.C., D.C. Jessup, and A. Lavallee|Toxicity of Pesticides in Young Versus Adult Rats|Food Cosmet. Toxicol.3:591-596|1965|10.1016/S0015-6264(65)80206-1
90650|T||Leonard,B.R., J.B. Graves, and D.W. Long|Control of Boll Weevil in Cotton with Selected Insecticides, 1991|Insectic. Acaric. Tests18:242-243|1993|10.1093/iat/18.1.242
90651|T||Daane,K.M., D.L. Dahlsten, and S.H. Dreistadt|Effects of Mediterranean Fruit Fly Malathion Bait Spray on the Longevity and Oviposition of Parasitoids of Linden and Tulip-Tree Aphids (Homoptera:  Aphididae)|Environ. Entomol.19(4): 1130-1134|1990|10.1093/ee/19.4.1130
90652|T||Fuller,B.W., and M.A. Boetel|Grasshopper Control in Winter Wheat in Eastern South Dakota, 1997|Arthropod Manag. Tests23:309-310|1998|10.1093/amt/23.1.309
90653|T||Shields,E.J., R.B. Sher, and P.S. Taylor|Insecticide Efficacy in Alfalfa, 1989|Insectic. Acaric. Tests16:138-139|1991|
90654|T||Mishra,P.K., R.N. Singh, A.K. Goel, J. Jayaswal, and K. Thangavelu|Toxicity of Some Insecticides on the Larvae of Red Beetles, Tricliona picea Jacoby (Coleoptera: Chrysomelidae) - A Pest of Tasar Food Plants|Indian J. Seric.33(2): 193-194|1994|
90655|T||Baweja,V., and S.S. Sehgal|Potential of Heterorhabditis bacteriophora Poinar (Nematoda, Heterorhabditidae) in Parasitizing Spodoptera litura fabricius in Response to Malathion Treatment|Acta Parasitol.42(3): 168-172|1997|
90656|T||Mohapatra,H., B.K. Mishra, P. Mishra, and G. Rout|Toxicity of Some Synthetic Pyrethroids Against Angoumois Grain Moth Sitotroga cerealella Olivier Infesting Wheat|Indian J. Plant Prot.17(1): 135-138|1989|
90657|T||Pankiw,T., and S.C. Jay|Aerially Applied Ultra-Low-Volume Malathion Effects on Colonies of Honey Bees (Hymenoptera:  Apidae)|J. Econ. Entomol.85(3): 692-699|1992|10.1093/jee/85.3.692
90658|T||Woodson,W.D., J.V. Edelson, and T.A. Royer|Control of a Carrot Weevil, Listronotus texanus (Coleoptera:  Curculionidae) Timing Pesticide Applications and Response to Selected Pesticides|J. Econ. Entomol.82(1): 209-212|1989|10.1093/jee/82.1.209
90659|T||Rishi,S., and B.D. Garg|Effect of Malathion on Immune Response to T-Dependent and T-Independent Antigen in Chicken|Indian J. Poult. Sci.28(3): 208-216|1993|
90660|T||March,R.B., T.R. Fukuto, R.L. Metcalf, and M.G. Maxon|Fate of P32-Labeled Malathion in the Laying Hen, White Mouse, and American Cockroach|J. Econ. Entomol.49:185-195|1956|10.1093/jee/49.2.185
90661|T||Ramu,A., and M. Korner|Evidence of Central Influences on Blood Glucose Level:  Malathion Hyperglycemia|Eur. J. Pharmacol.32(1): 120-123|1975|10.1016/0014-2999(75)90331-3
90662|T||Patel,B.J., and P.L. Kaul|Hypercholesterolaemia in Experimental Malathion Toxicity in Kankrej Calves|Indian J. Anim. Sci.61(11): 1204-1205|1991|
90663|T||Okwelogu,T.N.|The Toxicity of Malathion Applied to Washed Concrete|J. Stored Prod. Res.4(3): 259-260|1968|10.1016/0022-474X(68)90017-9
90664|T||Wei,H., Y. Huang, and J. Du|Sex Pheromones and Reproductive Behavior of Spodoptera litura (Fabricius) Moths Reared from Larvae Treated with Four Insecticides|J. Chem. Ecol.30(7): 1457-1466|2004|10.1023/B:JOEC.0000037751.86203.10
90665|T||Khan,A.R., S.I. Faruki, and M.R. Pramanik|The Combined Efficacy of Dipel and Malathion on the Development and Reproductive Potential of the Tropical Warehouse Moth, Cadra cautella (Walker) on Dried Mango|Entomon24(4): 315-322|1999|
90666|A||Vankhede,G.N., and R.R. Dhande|Accumulation of the Organophosphorus Pesticide Cythion by a Freshwater Snail Bellamya bengalensis and Its Effect on Oxygen Consumption|Indian J. Comp. Anim. Physiol.9(1): 12-18|1991|
90667|A||Kashiwada,S., K. Mochida, Y. Ozoe, and T. Nakamura|Contribution of Zooplankton to Disappearance of Organophosphorus Insecticides in Environmental Water|J. Pestic. Sci. (Multiple Languages)20(4): 503-512|1995|10.1584/jpestics.20.503
90668|T||White,N.D.G., and T.W. Nowicki|Persistence of Malathion and Pirimiphos-Methyl Residues in Two Species of Rapeseed Stored at Various Moisture Contents and Temperatures|Sci. Aliments6(2): 273-286|1986|
90669|T||Ma,T.H., V.A. Anderson, M.M. Harris, and J.L. Bare|Tradescantia-Micronucleus (Trad-MCN) Test on the Genotoxicity of Malathion|Environ. Mutagen.5(2): 127-137|1983|10.1002/em.2860050203
90670|T||Baier,A.H., and B.D. Webster|Control of Acanthoscelides obtectus Say (Coleoptera:  Bruchidae) in Phaseolus vulgaris L. Seed Stored on Small Farms - II.  Germination and Cooking Time|J. Stored Prod. Res.28(4): 295-299|1992|10.1016/0022-474X(92)90012-F
90671|T||Awasthi,M.D., and L. Anand|Translocation and Persistence of Soil and Foliar Insecticides in Radish|Indian J. Entomol.49(1): 131-136|1987|
90672|A||Saxena,S.C., and S. Shanmugavel|Consequences of Endosulfan and Malathion Applied to Model Aquatic Ecosystem|Indian Biol.17(1): 33-36|1985|
90673|A||Saxena,P.N., and S.C. Saxena|Acute Toxicity of 0,0-Dimethyl-S-Bis (Carboethoxy) Ethyl Phosphorodithioate to Dragon Fly (Bradinopyga geminata) Larvae, the Non Target Insect Species|Indian Biol.18(1): 18-19|1986|
90674|A||Bhatia,H.L.|Toxicity of Some Insecticides to Cirrhinus mrigala (Hamilton) and Colisa fasciata (Bloch & Schneider)|J. Inl. Fish. Soc. India3:114-116|1971|
90675|T||DuBois,K.P., and F. Kinoshita|Acute Toxicity and Anticholinesterase Action of O,O-Dimethyl O-[4-(Methylthio)-M-Tolyl] Phosphorothioate (DMTP; Baytex) and Related Compounds|Toxicol. Appl. Pharmacol.6(1): 86-95|1964|10.1016/0041-008X(64)90025-0
90676|T||Torres,M.E.H., F.J.E. Gonzalez, M.L.C. Cano, M.M. Frias, and J.L.M. Vidal|Residues of Methamidofos, Malathion, and Methiocarb in Greenhouse Crops|J. Agric. Food Chem.50(5): 1172-1177|2002|10.1021/jf0108112
90677|T||Shields,E.J., R.B. Sher, and P.S. Taylor|Alfalfa Weevil Control in Alfalfa, 1990|Insectic. Acaric. Tests16:138|1991|
90678|A||De la Torre,A.I., C. Fernandez, J.V. Tarazona, and M.J. Munoz|Detection of Aroclor, DDT, Malathion and HCB Using Semipermeable Membranes as Concentration Method|Chemosphere31(2): 2727-2737|1995|10.1016/0045-6535(95)00128-U
90680|T||Gordon,C.J.|24-Hour Control of Body Temperature in the Rat:  II.  Diisopropyl Fluorophosphate-Induced Hypothermia and Hyperthermia|Pharmacol. Biochem. Behav.49(3): 747-754|1994|10.1016/0091-3057(94)90096-5
90682|T||Desmarchelier,J.M., H.J. Banks, P. Williams, and W. Minett|Toxicity of Dichlorvos Vapour to Insects in Aerated and Non-aerated Wheat and Comparison of the Vapour Action of Dichlorvos and Malathion|J. Stored Prod. Res.13(1): 1-12|1977|10.1016/0022-474X(77)90002-9
90683|T||Costa,L.G., and S.D. Murphy|Unidirectional Cross-Tolerance Between the Carbamate Insecticide Propoxur and the Organophosphate Disulfoton in Mice|Fundam. Appl. Toxicol.3(5): 483-488|1983|10.1016/S0272-0590(83)80024-4
90684|T||Muan,B., J.U. Skare, N.E. Soli, K. Grave, and S. Odegaard|Use of Malathion Against Ectoparasites on Lactating Cows|Acta Vet. Scand.26(3): 352-362|1985|10.1186/BF03546535
90685|AT||Mukherji,S.K.|Further Studies on the Chemical Control of Algal Weeds.|World Crops22(6): 387-388|1970|
90686|T||Bhuvaneswari,K., and S. Uthamasamy|Toxicity of Alphamethrin to Beneficial Insects in Cotton Ecosystem|J. Insect Sci.7(2): 228-229|1994|
90687|T||Khan,L., C. Inayatullah, and Manzoor-Ul-Haq |Control of Melon Fly, Dacus cucurbitae (Diptera:  Trypetidae) on Melon in Pakistan|Trop. Pest Manag.38(3): 261-264|1992|10.1080/09670879209371705
90688|T||Sogorb,S.F., S.B. Damy, A.P. Rocha da Silva, U.P. Rodrigues, and L. Chaguri|Diagnosis and Treatment of Acariasis in Mice|Mem. Inst. Butantan55(1): 27-32|1993|
90691|T||Bakre,P., and M. Rajasekaran|Acute Toxicity of Certain Pesticides to House Sparrow, Passer domesticus|Geobios16(6): 249-251|1989|
90694|T||Erman,M., E.N. Yardim, and H. Kulaz|Effect of Cultivars and Insecticides on Sitonid Weevil, Sitona crinitus (Coleoptera:  Curculionidae), and on Yield, Yield Components and Nodulation of Lentil (Lens culinaris)|Indian J. Agric. Sci.75(4): 204-206|2005|
90695|T||Bhagwat,V.M., and B.V. Rama-Chandran|Malathion A and B Esterases of Mouse Liver - II Effect of EPN In Vitro and In Vivo|Biochem. Pharmacol.24(18): 1727-1729|1975|10.1016/0006-2952(75)90014-3
90697|T||Verma,N., J. Kaur, and A. Bhatia|Stimulation of Acetylcholinesterase Activity with Nyctanthes Arbor-tristis Leaves Extract in the Malathion-Treated Immunosuppressed Mice|Int. J. Environ. Stud.58(5): 645-654|2001|10.1080/00207230108711357
90698|T||Karczmar,A.G., O. Awad, and K. Blachut|Toxicity Arising from Joint Intravenous Administration of EPN and Malathion to Dogs|Toxicol. Appl. Pharmacol.4(2): 133-147|1962|10.1016/0041-008X(62)90051-0
90699|T||Varshneya,C., H.S. Bahga, and L.D. Sharma|Toxicological Effects of Dietary Malathion in Cockerels|Indian J. Anim. Sci.58(4): 411-414|1988|
90700|T||Dowd,P.F., R.W. Behle, M.R. McGuire, T.C. Nelsen, B.S. Shasha, F.W. Simmons, and F.E. Vega|Adherent Malathion Flour Granules as an Environmentally Selective Control for Chewing Insect Pests of Dent Corn Ears:  Insect Control|J. Econ. Entomol.91(5): 1058-1066|1998|10.1093/jee/91.5.1058
90702|T||Tremolada,P., I. Bernardinelli, M. Colombo, M. Spreafico, and M. Vighi|Coumaphos Distribution in the Hive Ecosystem:  Case Study for Modeling Applications|Ecotoxicology13(6): 589-601|2004|10.1023/B:ECTX.0000037193.28684.05
90703|T||Rowlands,D.G.|The Activation and Detoxification of Three Organic Phosphorothionate Insecticides Applied to Stored Wheat Grains|J. Stored Prod. Res.2(2): 105-116|1966|10.1016/0022-474X(66)90015-4
90704|T||Linduska,J.J., M. Ross, and S. Stevenson|Colorado Potato Beetle Control on Tomatoes with NTN-33893, 1991|Insectic. Acaric. Tests17:156-|1990|10.1093/iat/17.1.156
90705|T||Fukuto,T.R.|Toxicological Properties of Trialkyl Phosphorothioate and Dialkyl Alkyl- and Arylphosphonothioate Esters|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes18B(1): 89-117|1983|
90706|T||Lloyd,R.W., and D.R. Krieg|Cotton Development and Yield as Affected by Insecticides|J. Econ. Entomol.80(4): 854-858|1987|10.1093/jee/80.4.854
90707|T||Rodrigues,M.A.La R., F.R. Puga, E. Chenker, and M.T. Mazanti|Short-Term Effect of Malathion on Rats' Blood Glucose and on Glucose Utilization by Mammalian Cells In Vitro|Ecotoxicol. Environ. Saf.12(2): 110-113|1986|10.1016/0147-6513(86)90046-1
90708|T||Delmore,J.E., and A.D. Appelhans|Detection of Agricultural Chemical Residues on Plant Leaf Surfaces with Secondary Ion Mass Spectrometry|Biol. Mass Spectrom.20(5): 237-246|1991|10.1002/bms.1200200502
90711|T||Micinski,S., M.L. Kirby, and J.B. Graves|Late-Season Control of the Bollworm-Tobacco Budworm Complex, 1990|Insectic. Acaric. Tests16:196-|1991|10.1093/iat/16.1.196
90712|A||Greco,L., E. Capri, and T. Rustad|Biochemical Responses in Salmo salar Muscle Following Exposure to Ethynylestradiol and Tributyltin|Chemosphere68:564-571|2007|10.1016/j.chemosphere.2006.12.033
90713|A||Monsanto Chemical Co.|Initial Submission:  Bioconcentration, Excretion and Metabolism of 3,4,4'-Trichlorocarbanilide (TCC) in Channel Catfish, W/TSCA Hlth & Sfty Study Cvr Sht Dated 4/12/00|TCC Consortium, New York, NY:|1992|
90714|T||Inoue,K.|1986 Evaluation of Candidate Pesticides A-III Insecticides Fruit Trees |Jpn. Pestic. Inf.50:28-29|1987|
90715|T||Mehrotra,M.D., S.N. Khan, R.K. Tivari, and B.M. Misra|A Study on the Periodicity of Foliage Diseases of Albizia lebbek and Control of Camptomeris Leaf Spot in Nursery|Indian For.118(8): 594-598|1992|
90718|T||Jamaluddin, and P. Kumar|Leaf Blight of Dalbergia sissoo in Mist Chamber and Shadehouse|Indian For.123(12): 1199-1201|1997|
90719|T||Grech,N.M., P. Willers, R.T. Frean, and D.H. Marx|A New Leaf Spot of Ginger in Southern Africa and Its Control|J. Phytopathol.126(4): 323-334|1989|10.1111/j.1439-0434.1989.tb04495.x
90720|A||Monsanto|Initial Submission:  Acute Toxicity of TCC in Conjunction with 100 Micrograms per Liter LAS to Fathead Minnow (Pimpephales promelas) with Cover Letter Dated 081492|Monsanto, St.Louis, MO:11 p.|1992|
90721|A||E.G. and G. Bionomics|Initial Submission:  Chronic Toxicity of TCC in the Presence of a Sewage and Sediment Mixture to Mysid Shrimp With Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:14 p.|1992|
90723|A||Pettersson,I., and C. Berg|Environmentally Relevant Concentrations of Ethynylestradiol Cause Female-Biased Sex Ratios in Xenopus tropicalis and Rana temporaria|Environ. Toxicol. Chem.26(5): 1005-1009|2007|10.1897/06-464R.1
90724|A||Battelle Pacific Northwest Labs|Support:  Mysidopsis bahia Chronic Toxicity Test with C14-3,4,4'-Trichlorocarbanilide (TCC) with Cover Letter Dated 121892|EPA/OTS Doc.#89-930000034:72 p.|1992|
90725|A||Monsanto Co.|Init. Sub.:  Chronic Toxicity Study with Trichlorocarbanilide Administered to the Midge via Water, Food, and Sediment Exposure with Cover Letter Dated 071592 and Attachment|Monsanto Chemical Company, St.Louis, MO:43 p.|1992|
90726|A||Monsanto Co.|Initial Submission:  Acute and Chronic Toxicity of TCC to Mysid Shrimp (Mysidopsis bahia) in Flow-Through Tests with Cover Letter Dated 081492|EPA/OTS Doc.#88-920007499 :|1992|
90727|A||E.G. and G. Bionomics|Initial Submission:  The Effects of Continuous Aqueous Exposure of TCC on Hatchability of Eggs and Growth and Survival of Fry of Fathead Minnow with Cover Letter Dated 081492|EPA/OTS Doc.#88-920007745:21 p.|1992|
90728|A||E.G. and G. Bionomics|Initial Submission:  Letter from Monsanto Co to USEPA Regarding Sediment-Sorbed TCC to the Midge Paratanytarsus parthenogenica with Attachments and Cover Letter Dated 081492|EPA/OTS Doc.#88-920007763:27 p.|1992|
90729|A||Monsanto Chemical Co.|Initial Submission:  Bioaccumulation of TCC in Daphnia magna with Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:7 p.|1992|
90730|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC to Fathead Minnows with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008373:35 p.|1992|
90731|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC in Amphipods with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008374:33 p.|1992|
90732|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC in Pink Shrimp with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008379:34 p.|1992|
90733|A||Bionomics Laboratories|Initial Submission:  Acute Toxicity of TCC (1218033) in a pH 6.0 Dilution Water to Bluegill (Lepomis macrochirus) with Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:18 p.|1992|
90734|A||Monsanto Co.|Initial Submission:  Effect of TCC on Freshwater Algae with Cover Letter Dated 081492|EPA/OTS Doc.#88-920007644:66 p.|1992|
90735|A||E.G. and G. Bionomics|Initial Submission: Acute Toxicity of TCC to Bluegill with Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:18 p.|1992|
90736|A||Monsanto Co.|Initial Submission:  Acute Toxicity of TCC Plus Sediment and Sewage to Mysid Shrimp with Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:55 p.|1992|
90737|A||E.G. and G. Bionomics|Initial Submission:  Toxicity of Three Materials to Embryos of Oysters with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008058:15 p.|1992|
90738|A||Springborn Life Sciences Inc.|Initial Submission:  Static Acute Toxicity of to Isopods (Asellus Sp.) with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008065:34 p.|1992|
90739|A||E.G. and G. Bionomics|Initial Submission: the Chronic Toxicity of TCC in the Presence of Suspended Sediments & Secondary Sewage Treatment Effluent to the Water Flea with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008323:27 p.|1992|
90740|A||Union Carbide Environmental Services|Initial Submission:  Acute Toxicity of T-1219 to Bluegill Sunfish with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008333 :15 p.|1992|
90741|A||Springborn Life Sciences Inc.|Initial Submission:  Static Acute Toxicity of 3,4,4' Trichlorocarbanilide to Grass Shrimp with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008732:35 p.|1992|
90742|A||E.G. and G. Bionomics|Initial Submission:  Acute Toxicity of 3,3',4-Trichlorocarbanilide in Bluegill (Lepomis Macrochirus) with Cover Letter Dated 08/14/92|EPA/OTS Doc.#88-920008606:19 p.|1992|
90743|A||Monsanto Co.|Initial Submission:  Bioconcentration Study of 3,3',4-Trichlorocarbanilide in Bluegill Sunfish and Daphnia magna with Cover Letter Dated 08/14/92|EPA/OTS Doc.#88-920008610:17 p.|1992|
90744|A||EPA/OTS|Initial Submission:  Static Acute Toxicity of TCC to Ceriodaphnids with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008511:|1992|
90745|A||EPA/OTS|Initial Submission:  Static Acute Toxicity of TCC in Channel Catfish with Cover Letter Dated 081492|EPA/OTS Doc.#88-920008550:29 p.|1992|
90747|AT||Leader,H., and J.E. Casida|Resolution and Biological Activity of the Chiral Isomers of O-(4-Bromo-2-Chlorophenyl) O-Ethyl S-Propyl Phosphorothioate (Profenofos Insecticide)|J. Agric. Food Chem.30(3): 546-551|1982|10.1021/jf00111a034
90748|T||Muan,B., and I. Nafstad|Distribution and Elimination of [14C] Malathion in the Rat|J. Agric. Food Chem.37(1): 210-213|1989|10.1021/jf00085a048
90750|T||Bergknut,M., E. Sehlin, S. Lundstedt, P.L. Andersson, P. Haglund, and M. Tysklind|Comparison of Techniques for Estimating PAH Bioavailability:  Uptake in Eisenia fetida, Passive Samplers and Leaching Using Various Solvents and Additives|Environ. Pollut.145:154-160|2007|10.1016/j.envpol.2006.03.052
90751|T||Davison,K.L.|Calcium-45 Uptake by Shell Gland, Oviduct, Plasma and Eggshell of DDT-Dosed Ducks and Chickens|Arch. Environ. Contam. Toxicol.7:359-367|1978|10.1007/BF02332063
90752|T||Mahaffey,K.R., and R.A. Goyer|Trisodium Nitrilotriacetate in Drinking Water, Metabolic and Renal Effects in Rats|Arch. Environ. Health25:271-|1972|10.1080/00039896.1972.10666173
90755|T||Singh,S., and S.V. Chandra|Brain Monoamine Oxidase in Manganese Toxicity|Chemosphere6(2-3): 147-152|1977|10.1016/0045-6535(77)90059-5
90756|T||Dwivedi,R.S., G. Kaur, S.K. Hasan, and R.C. Srivastava|The Effect of Triethylene Tetramine upon the Selective Removal of Nickel (II), Iron (II), Manganese (II) and Tin (II) in Rats|Chemosphere7(11): 925-932|1978|10.1016/0045-6535(78)90125-X
90757|T||Tandon,S.K., and S.V. Chandra|Regional Distribution of Manganese in Brain of Experimentally Poisoned Rabbits|Chemosphere7(2): 185-191|1978|10.1016/0045-6535(78)90046-2
90759|T||Suzuki,H., and O. Wada|Role of Liver Lysosomes in Uptake and Biliary Excretion of Manganese in Mice|Environ. Res.26(2): 521-528|1981|10.1016/0013-9351(81)90227-9
90760|T||Khandelwal,S., D.N. Kachru, and S.K. Tandon|Effect of Manganese on Certain Enzymes and Constituents of Blood and Serum in Rabbits.  I|Environ. Res.24(1): 75-81|1981|10.1016/0013-9351(81)90133-X
90762|T||Shukla,G.S., K.M. Malhotra, and S.V. Chandra|Effects of Manganese on Rat Brain Microsomal Mg2+- Na+- K+-ATPase:  In Vivo and In Vitro Studies|Environ. Res.32(1): 212-219|1983|10.1016/0013-9351(83)90208-6
90763|T||Wong,M.H., W.M. Lau, S.W. Li, and C.K. Tang|Root Growth of Two Grass Species on Iron Ore Tailings at Elevated Levels of Manganese, Iron, and Copper|Environ. Res.30(1): 26-33|1983|10.1016/0013-9351(83)90162-7
90764|T||Hong,J.S., C.R. Hung, P.K. Seth, G. Mason, and S.C. Bondy|Effect of Manganese Treatment on the Levels of Neurotransmitters, Hormones, and Neuropeptides:  Modulation by Stress|Environ. Res.34(2): 242-249|1984|10.1016/0013-9351(84)90092-6
90766|T||Sohal,R.S., and R.E. Lamb|Intracellular Deposition of Metals in the Midgut of the Adult Housefly, Musca domestica|J. Insect Physiol.23:1349-1354|1977|10.1016/0022-1910(77)90156-1
90768|T||Ohtsuji,H., and M. Ikeda|The Metabolism of Styrene in Rat and the Stimulatory Effect of Phenobarbital|Toxicol. Appl. Pharmacol.18:321-328|1971|10.1016/0041-008X(71)90123-2
90769|A||De Bruijn,J., and J. Hermens|Inhibition of Acetylcholinesterase and Acute Toxicity of Organophosphorous Compounds to Fish:  A Preliminary Structure-Activity Analysis|Aquat. Toxicol.24(3/4): 257-274|1993|10.1016/0166-445X(93)90075-C
90770|T||Dzwonkowska,A., and H. Hubner|Induction of Chromosmal Aberrations in the Syrian Hamster by Insecticides Tested In Vivo|Arch. Toxicol.58(3): 152-156|1986|10.1007/BF00340974
90771|T||Tjalve,H.|A Study of the Distribution and Teratogenicity of Nitrilotriacetic Acid (NTA) in Mice|Toxicol. Appl. Pharmacol.23:216-|1972|10.1016/0041-008X(72)90185-8
90773|T||Porter,M.C., T.S. Miya, and W.F. Bosquet|Cadmium: Inability to Induce Hypertension in the Rat|Toxicol. Appl. Pharmacol.27:692-695|1974|10.1016/0041-008X(74)90049-0
90774|T||Parkki,M.G., J. Marniemi, and H. Vainio|Action of Styrene and Its Metabolites Styrene Oxide and Styrene Glycol on Activities of Xenobiotic Biotransformation Enzymes in Rat Liver In Vivo|Toxicol. Appl. Pharmacol.38:59-70|1976|10.1016/0041-008X(76)90160-5
90775|T||Casida,J.E., M. Eto, A.D. Moscioni, J.L. Engel, D.S. Milbrath, and J.G. Verkade|Structure-Toxicity Relationships of 2,6,7-Trioxabicyclo (2,2,2)-octanes and Related Compounds|Toxicol. Appl. Pharmacol.36(2): 261-279|1976|10.1016/0041-008X(76)90006-5
90776|T||Neskovic,N.K., V.Z. Karan, S.L. Vitorovic, and V.D. Vojinovic|Toxic Effects of Bound Malathion Residues in Rats|Biomed. Environ. Sci.4(4): 423-432|1991|
90779|A||Fischer,E., M. Lovas, and L. Molnar|The Effect of Benzimidazole, Carbamate and Organophosphorous Pesticides on the Oxygen-Dependent Nuclear Volume Alterations in the Chloragocytes of Tubifex tubifex Mull.|Environ. Pollut. A.28(4): 285-289|1982|10.1016/0143-1471(82)90145-3
90780|T||Johnston,G., C.H. Walker, and A. Dawson|Interactive Effects of Prochloraz and Malathion in Pigeon, Starling and Hybrid Red-Legged Partridge|Environ. Toxicol. Chem.13(1): 115-120|1994|
90785|T||Mittal,R.K.|Fungicidal Control of Cercospora Leaf Spot of Green Gram (Vigna radiata) in Kumaon Hills of Uttar Pradesh|Indian J. Mycol. Plant Pathol.21(3): 283-284|1991|
90786|T||Salako,E.A.|Fungicidal Control of Groundnut Leaf Spot and Rust in Nigeria|Crop Prot.4(1): 33-37|1985|10.1016/0261-2194(85)90003-1
90787|T||Riggs,R.D., M.L. Hamblen, and L. Rakes|Effects of Fertilizer and Pesticides on Soybean Growing in Heterodera glycines-Infested Soil|J. Nematol.21(4S): 635-639|1989|
90788|T||Sannegowda,S., and K.T. Pandurangegowda|Studies on Mode of Infection and Chemical Control of Udbatta or Agarbatti Disease of Rice|Pesticides 20(9): 22-23|1986|
90789|T||Merchant,M.E.|Twospotted Spider Mite Control on Greenhouse Marigolds, 1992|Insectic. Acaric. Tests18:333-334|1993|10.1093/iat/18.1.333a
90790|T||Johnson,D.R., and G. Studebaker|Control of Boll Weevils in Cotton, 1991|Insectic. Acaric. Tests18:228-229|1993|
90791|T||Potineni,K.|Comparative Efficacy of Conventional and New Insecticides for Control of Citrus Blackfly (Aleurocanthus woglumi) (Homoptera:  Aleyrodidae)|Indian J. Agric. Sci.63(8): 526-528|1993|
90792|T||Speese,J.|Cereal Leaf Beetle Screening 1993|Arthropod Manag. Tests19:291-|1994|10.1093/amt/19.1.291
90793|T||Garthoff,L.H., F.E. Cerra, and E.M. Marks|Blood Chemistry Alteration in Rats After Single and Multiple Gavage Administration of Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.60:33-44|1981|10.1016/0041-008X(81)90132-0
90794|T||Ragumoorthi,K.N., and R. Arumugam|Control of Guava Tea Mosquito Bug Helopeltis antonii Sign. (Miridae:  Hemiptera) with Insecticides and Botanicals|Indian J. Plant Prot.24(1/2): 1-5|1996|
90795|T||Sharma,S.S., A.S. Dahiya, and A.N. Verma|Comparative Efficacy of Various Insecticides Against Helicoverpa armigera on Tomato in Haryana|Indian J. Plant Prot.21(2): 198-200|1993|
90796|T||Beebe,L.E., Y.E. Kim, S. Amin, C.W. Riggs, R.M. Kovatch, and L.M. Anderson|Comparison of Transplacental and Neonatal Initiation of Mouse Lung and Liver Tumors by N-Nitrosodimethylamine (NDMA) and 4-(Methylnitrosamino)-1-(3-Pyridyl)-1-Butanone (NNK) and Promotability by a Polychlorinated Biphen|Carcinogenesis14(8): 1545-1548|1993|10.1093/carcin/14.8.1545
90798|T||Cerkauskas,R.F., and B.D. McGarvey|Fungicidal Control of Phoma Canker of Parsnip|Can. J. Plant Pathol.10(3): 252-258|1988|10.1080/07060668809501733
90799|T||Everett,K.R., and H.F. Neilson|Evaluation of Fungicides for Control of Alternaria Leaf Spot of Pseudopanax|N. Z. J. Crop Hortic. Sci.24(3): 267-272|1996|10.1080/01140671.1996.9513961
90800|T||Goldstein,J.A., P. Hickman, and D.L. Jue|Experimental Hepatic Porphyria Induced by Polychlorinated Biphenyls|Toxicol. Appl. Pharmacol.27:437-448|1974|10.1016/0041-008X(74)90215-4
90801|T||Bhardwaj,L.N., and V.K. Gupta|Studies on Mycoflora Affecting Pinus gerardiana (Chilgoza) Seeds and Their Management|Indian For.124(4): 252-255|1998|
90802|T||Brouwer,A., K.J. Van den Berg, W.S. Blaner, and D.S. Goodman|Transthyretin (Prealbumin) Binding of PCBs, a Model for the Mechanism of Interference with Vitamin A and Thyroid Hormone Metabolism|Chemosphere15(9-12): 1699-1706|1986|10.1016/0045-6535(86)90457-1
90803|T||Prochazkova,Z., and M. Nesrsta|Experiments Using Biological Control Agents and Fungicides Against Damping-off in Bareroot Nurseries in the Czech Republic|In: R.Perry and J.R.Sutherland (Ed.), Diseases and Insects in Forest Nurseries, INRA, Paris, France:197-211|1994|
90804|T||Klasson-Wehler,E., A. Bergman, B. Kowalski, and I. Brandt|Metabolism of 2,3,4',6-Tetrachlorobiphenyl:  Formation and Tissue Localization of Mercapturic Acid Pathway Metabolites in Mice|Xenobiotica17(4): 477-486|1987|10.3109/00498258709043954
90805|T||Dobos,J.|Possibilities of Protection Against Septoria digitalis Pass|Herba Hung.27(2-3): 81-88|1988|
90806|T||Young,J.E.B., and R. Umpelby|Evaluation of Acaricidal Fungicides for the Suppression of Fruit Tree Red Spider Mite|Br. Crop Prot. Conf. Pests Dis.:315-320|1990|
90807|T||Dodan,D.S., R. Singh, and S. Sunder|Efficacy of Fungitoxicants Against Sheath Rot of Rice|Indian J. Mycol. Plant Pathol.26(3): 283-284|1996|
90808|T||Patel,V.A., K.A. Vaishnav, B.M. Dhedhi, and B.K. Kikani|Fungicidal Management of Powdery Mildew of Mustard|Indian J. Mycol. Plant Pathol.22(2): 209-210|1992|
90809|T||Derr,S.K., and J. Dekker|Alterations of Androgenicity in Rats Exposed to PCBs (Aroclor 1254)|Bull. Environ. Contam. Toxicol.21:43-45|1979|10.1007/BF01685383
90810|T||Dodan,D.S., and R. Singh|Evaluation of Fungitoxicants Against False Smut of Rice|J. Mycol. Plant Pathol.27(1): 32-34|1997|
90811|T||Deml,E., and D. Oesterle|Dose-Response of Promotion by Polychlorinated Biphenyls and Chloroform in Rat Liver Foci Bioassay|Arch. Toxicol.60:209-211|1987|10.1007/BF00296982
90812|T||Meena,P.D., R.L. Meena, C. Chattopadhyay, and A. Kumar|Identification of Critical Stage for Disease Development and Biocontrol of Alternaria Blight of Indian Mustard (Brassica juncea)|J. Phytopathol.152(4): 204-209|2004|10.1111/j.1439-0434.2004.00828.x
90813|A||Krishnakumar,P.K., E. Casillas, R.G. Snider, A.N. Kagley, and U. Varanasi|Environmental Contaminants and the Prevalence of Hemic Neoplasia (Leukemia) in the Common Mussel (Mytilus edulis Complex) from Puget Sound, Washington, USA|J. Invertebr. Pathol.73(2): 135-146|1999|10.1006/jipa.1998.4798
90814|T||Childers,C.C.|Combination Studies of Selected Acaricides with Zineb, Mancozeb, or Carbamate for Mite Control on Citrus|Int. J. Acarol.16(1): 27-36|1990|10.1080/01647959008683861
90815|T||Abbott,B.D., and L.S. Birnbaum|TCDD-Induced Altered Expression of Growth Factors May Have a Role in Producing Cleft Palate and Enhancing the Incidence of Clefts After Coadministration of Retinoic Acid and TCDD|Toxicol. Appl. Pharmacol.106:418-432|1990|10.1016/0041-008X(90)90337-T
90816|T||Murty,V.S.T.|Studies on Chemical Control of Sheath Rot of Rice|Pesticides 20(9): 20-21|1986|
90817|T||Rao,R.S., K.C.S. Rao, S.D. Singh, M.S. Reddy, M.V.B. Rao, and K. Venkateswarlu|Fungicidal Control of Downy Mildew of Pearl Millet|Indian J. Plant Prot.15(2): 146-151|1987|
90818|T||Bacci,E., M.J. Cerejeira, C. Gaggi, G. Chemello, D. Calamari, and M. Vighi|Chlorinated Dioxins:  Volatilization from Soils and Bioconcentration in Plant Leaves|Bull. Environ. Contam. Toxicol.48:401-408|1992|10.1007/BF00195639
90819|T||Gonzalez,F.J., R.H. Tukey, and D.W. Nebert|Structural Gene Products of the Ah Locus:  Transcriptional Regulation of Cytochrome P1-450 and P3-450 mRNA Levels by 3-Methylcholanthrene|Mol. Pharmacol.26:117-121|1984|
90822|T||Abd-Elraof,T.K., W.C. Dauterman, and R.B. Mailman|In Vivo Metabolism and Excretion of Propoxur and Malathion in the Rat:  Effect of Lead Treatment|Toxicol. Appl. Pharmacol.59(2): 324-330|1981|10.1016/0041-008X(81)90204-0
90823|T||Keadtisuke,S., and T.R. Fukuto|Dysproteinuria Induced in Rats by O,O,S-Trimethyl Phosphorothioate|Toxicol. Lett.37(1): 33-39|1987|10.1016/0378-4274(87)90164-0
90824|T||Viswanathan,R., and P. Narayanasamy|Occurrence of Resistance in Rice Pathogens to Fungicides|Indian J. Mycol. Plant Pathol.21(1): 63-66|1991|
90825|T||Mittal,R.K.|Management of Early and Late Leaf Spot Diseases of Groundnut in Kumaon Hills|Indian J. Mycol. Plant Pathol.26(3): 256-258|1996|
90826|T||Sharma,I.M., and V.K. Gupta|Field Evaluation of Some Fungicides Against Almond Rust in Himachal Pradesh|Indian J. Mycol. Plant Pathol.23(2): 203-205|1993|
90827|T||Sharma,Y.P., R.S. Singh, and R.K. Tripathi|Management of Pearl Millet Ergot by Integrating Cultural Practices and Chemical Control|Indian J. Mycol. Plant Pathol.14(1): 69-79|1984|
90828|T||Mittal,R.K.|Fungicidal Control of Foliar Diseases of Black Gram (Vigna mungo)|Indian J. Mycol. Plant Pathol.24(1): 67-68|1994|
90829|T||Gangopadhyay,S., J.N. Bhatia, and S.L. Godara|Evaluation of Fungicides for the Control of Collar Rot of Groundnut|Indian J. Mycol. Plant Pathol.26(3): 278-279|1996|
90830|T||Lin,Q., and P.C. Brookes|Comparison of Substrate Induced Respiration, Selective Inhibition and Biovolume Measurements of Microbial Biomass and Its Community Structure in Unamended, Ryegrass-Amended, Fumigated and Pesticide-Treated Soils|Soil Biol. Biochem.31(14): 1999-2014|1999|10.1016/S0038-0717(99)00122-4
90831|T||Briza,J.|Estimation of Mutagenicity and Metabolic Activation After Recurrent Exposures of Nicotiana tabacum L. var. xanthi to 14 Pesticides|Biol. Plant. (Praha)31(2): 145-151|1989|10.1007/BF02907248
90832|T||Gupta,R.P., V.K. Srivastava, and U.B. Pandey|Effect of Different Fungicides on the Control of Purple Blotch Disease of Onion Bulb Crop|Pesticides 21(5): 33-34|1987|
90833|T||Barhate,B.G., and S.P. Raut|A Study on Twig Blight of Wal|J. Maharashtra Agric. Univ.15(2): 241-242|1990|
90834|T||Chen,S.K., C.A. Edwards, and S. Subler|A Microcosm Approach for Evaluating the Effects of the Fungicides Benomyl and Captan on Soil Ecological Processes and Plant Growth|Appl. Soil Ecol.18(1): 69-82|2001|10.1016/S0929-1393(01)00135-4
90835|T||Dahlberg,J.A., G.L. Peterson, G.N. Odvody, and M. Bonde|Inhibition of Germination and Sporulation of Claviceps africana from Honeydew Encrusted Sorghum with Seed Treatment Fungicides|Crop Prot.18(4): 235-238|1999|10.1016/S0261-2194(99)00020-4
90836|T||Davis,M.A., and W.W. Bockus|Evidence for a Pythium sp. as a Chronic Yield Reducer in a Continuous Grain Sorghum Field|Plant Dis.85(7): 780-784|2001|10.1094/PDIS.2001.85.7.780
90837|T||Mueller,J.P., T.S. Hall, J.F. Spears, and B.T. Penny|Winter Establishment of Eastern Gamagrass in the Southern Piedmont|Agron. J.92(6): 1184-1188|2000|10.2134/agronj2000.9261184x
90838|T||Pradhan,N.K., S. Lingappa, T.B. Anilkumar, and S. Viswanath|Fungicidal Action of Synthetic Pyrethroids and Their Interaction with Fungicides on Alternaria brassicae|Indian J. Plant Prot.16(2): 249-251|1988|
90839|T||Devi,L.R., T.S. Paul, and C. Gokulapalan|Efficacy of Different Fungicides in the Control of Sheath Blight of Rice|Indian J. Plant Prot.15(1): 69-70|1987|
90840|T||Kope,H.H., J. Sutherland, and D. Trotter|Influence of Cavity Size, Seedling Growing Density and Fungicide Applications on Keithia Blight of Western Redcedar Seedling Growth and Field Performance|New For. 11(2): 137-147|1996|10.1007/BF00033409
90841|T||Das,S.R., and N. Nayak|Efficacy of Fungicides in Controlling Sheath Rot of Rice in Orissa|Crop Res. (Hisar)14(3): 497-500|1997|
90843|T||Thangasamy,T.A., and M. Rangaswamy|Fungicide Timing to Control Rice Sheath Blight (ShB)|Int. Rice Res. Newsl.14(6): 24-|1989|
90844|T||Partha,C.K., S. Prasad, and P.C. Hiremath|Varietal Screening and Chemical Control in Fenugreek Against Foot-Rot and Damping-Off Caused by Rhizoctonia solani|Pesticides 19(5): 34-36|1985|
90845|T||Foffova,E.|Effect of Fungicide and Biological Control Treatments on Germination, Survival and Growth of Beech Seedlings|In: R.Perrin and J.R.Sutherland (Eds.), Colloques de L'Inra; Diseases and Insects in Forest Nurseries, Dijon, France:213-220|1993|
90846|T||Sutton,M.W., and S.J. Wale|The Control of Penicillium corymbiferum on Crocus and Its Effect on Corm Production|Plant Pathol.34(4): 566-570|1985|10.1111/j.1365-3059.1985.tb01408.x
90847|T||Reddy,N.P.E., and K.V. Rao|Chemical Control of Phaeoisariopsis Leafspot of Groundnut|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)106(5): 507-511|1999|
90848|T||Rao,M.A.R., S. Ramapandu, and Y. Satyanarayana|Fungicidal Control of Alternaria Leaf Spot (Alternaria alternata) of Sesame (Sesamum indicum)|Indian J. Agric. Sci.58(8): 648-649|1988|
90849|T||Mishra,D.|Fungicidal Control of Anthracnose and Fruit-Rot (Colletotrichum capsici) of Chilli (Capsicum annuum)|Indian J. Agric. Sci.58(2): 147-149|1988|
90850|T||Reddy,R.R., G.J. Moses, and M.A. Rahman|Compatibility Studies on Seed Treatment with Fungicide and Rhizobium, and Fertilizer Application in Groundnut|J. Res. APAU (Andhra Pradesh Agric. Univ.)18(1): 87-89|1990|
90851|T||Braun,W.H., J.D. Young, G.E. Blau, and P.J. Gehrin|The Pharmacokinetics and Metabolism of Pentachlorophenol in Rats|Toxicol. Appl. Pharmacol.41:395-406|1977|10.1016/0041-008X(77)90041-2
90852|T||Fraker,P.J.|The Antibody-Mediated and Delayed Type Hypersensitivity Response of Mice Exposed to Polybrominated Biphenyls|Toxicol. Appl. Pharmacol.53:1-7|1980|10.1016/0041-008X(80)90373-7
90853|T||Robertson,R.T., J.A. Majka, C.P. Peter, and D.L. Bokelman|Effects of Prenatal Exposure to Chloropromazine on Postnatal Development and Behavior of Rats|Toxicol. Appl. Pharmacol.53:541-549|1980|10.1016/0041-008X(80)90367-1
90854|T||Squibb,R.E., N.G. Carmichael, and H.A. Tilson|Behavioral and Neuromorphological Effects of Triethyl Tin Bromide in Adult Rats|Toxicol. Appl. Pharmacol.55:188-197|1980|10.1016/0041-008X(80)90235-5
90855|T||Loose,L.D., S. Mudzinski, and J.B. Silkworth|Influence of Dietary Polybrominated Biphenyl on Antibody and Host Defense Responses in Mice|Toxicol. Appl. Pharmacol.59:25-39|1981|10.1016/0041-008X(81)90449-X
90856|T||Liao,T.F., and F.W. Oehme|Tissue Distribution and Plasma Protein Binding of [14C]Phenol in Rats|Toxicol. Appl. Pharmacol.57:220-225|1981|10.1016/0041-008X(81)90282-9
90859|T||Thompson,T.N., and C.D. Klaassen|Presystemic Elimination of Manganese in Rats|Toxicol. Appl. Pharmacol.64(2): 236-243|1982|10.1016/0041-008X(82)90220-4
90861|T||Scheuhammer,A.M., and M.G. Cherian|The Distribution and Excretion of Manganese:  The Effects of Manganese Dose, L-Dopa, and Pretreatment with Zinc|Toxicol. Appl. Pharmacol.65(2): 203-213|1982|10.1016/0041-008X(82)90002-3
90863|T||Kim,Y., T.V. Ton, A.B. De Angelo, K. Morgan, T.R. Devereux, C. Anna, J.B. Collins, R.S. Paules, L.M. Crosby, and R.C. S|Major Carcinogenic Pathways Identified by Gene Expression Analysis of Peritoneal Mesotheliomas Following Chemical Treatment in F344 Rats|Toxicol. Appl. Pharmacol.214(2): 144-151|2006|10.1016/j.taap.2005.12.009
90864|T||Tiboni,G.M., F. Marotta, A. Del Corso, and F. Giampietro|Defining Critical Periods for Itraconazole-Induced Cleft Palate, Limb Defects and Axial Skeletal Malformations in the Mouse|Toxicol. Lett.167(1): 8-18|2006|10.1016/j.toxlet.2006.08.004
90865|A||Singh,A.K., A.K. Maurya, and J.P.N. Singh|Acute Toxicity of Malachite Green to Sensory Organs of a Catfish Mystus vittatus|J. Exp. Zool. India10(1): 21-25|2007|
90866|T||El-Mofty,M., R. Galal, A. El-Sebae, and A. Essawy|Liver Neoplasms in Toads (Bufo regularis) Enforced Fed with Chlordimeform|In: C.Vago and G.Matz (Eds.), Proc.1st Int.Colloq.on Pathol.of Reptiles and Amphibians, Sept.29-Oct.2, 1982, Angers, France, Presses de lUniv.dAngers, Angers, France:173-176|1983|
90867|A||Yee,K.A., E.E. Prepas, P.A. Chambers, J.M. Culp, and G. Scrimgeour|Impact of Ca(OH)2 Treatment on Macroinvertebrate Communities in Eutrophic Hardwater Lakes in the Boreal Plain Region of Alberta:  In Situ and Laboratory Experiments|Can. J. Fish. Aquat. Sci.57:125-136|2000|10.1139/f99-182
90868|T||Hogan,G.R., B.S. Cole, and J.M. Lovelace|Sex and Age Mortality Respones in Zinc Acetate-Treated Mice|Bull. Environ. Contam. Toxicol.39:156-161|1987|10.1007/BF01691804
90869|T||Turkall,R.M., G.A. Skowronski, and M.S. Abdel-Rahman|Differences in Kinetics of Pure and Soil-Adsorbed Toluene in Orally Exposed Male Rats|Arch. Environ. Contam. Toxicol.20:155-160|1991|10.1007/BF01055899
90870|T||Costa,L.G., and R. Sulaiman|Inhibition of Protein Synthesis by Trimethyltin|Toxicol. Appl. Pharmacol.86:189-196|1985|10.1016/0041-008X(86)90049-9
90872|A||Grondel,J.L., J.F.M. Nouws, and W.B. Van Muiswinkel|The Influence of Antibiotics on the Immune System:  Immuno-Pharmokinetic Investigations on the Primary Anti-SRBC Response in Carp,Cyprinus carpio L., After Oxytetracycline Injection|J. Fish Dis.10:35-43|1987|10.1111/j.1365-2761.1987.tb00716.x
90873|T||Saxena,D.K., R.C. Murthy, R.S. Srivastava, and S.V. Chandra|Manganese Induced Testicular Dysfunction in Protein-Deficient Rats|J. Environ. Biol.10(1): 13-21|1989|
90874|T||Richardson,R.J., T.B. Moore, U.S. Kayyali, and J.C. Randall|Chlorpyrifos:  Assessment of Potential for Delayed Neurotoxicity by Repeated Dosing in Adult Hens with Monitoring of Brain Acetylcholinesterase, Brain and Lymphocyte Neurotoxic Esterase, and Plasma Butyrylcholinesterase|Fundam. Appl. Toxicol.21:89-96|1993|10.1006/faat.1993.1076
90875|T||Duguay,A.B., and G.L. Plaa|Plasma Concentrations in Methyl Isobutyl Ketone-Potentiated Experimental Cholestasis After Inhalation or Oral Administration|Fundam. Appl. Toxicol.21(2): 222-227|1993|10.1006/faat.1993.1092
90876|T||Freeman,G.B., J.D. Johnson, J.M. Killinger, S.C. Liao, P.I. Feder, A.O. Davis, M.V. Ruby, R.L. Chaney, S.C. Lovre, and |Relative Bioavailability Of Lead From Mining Waste Soil In Rats|Fundam. Appl. Toxicol.19(3): 388-398|1992|10.1016/0272-0590(92)90178-K
90877|T||Boxman,A.W., H. Krabbendam, M.J.S. Bellemakers, and J.G.M. Roelofs|Effects of Ammonium and Aluminium on the Development and Nutrition of Pinus nigra in Hydroculture|Environ. Pollut.73(2): 119-136|1991|10.1016/0269-7491(91)90018-R
90878|T||Van Velsen,F.L., L.H.J.C. Danse, F.X.R. Van Leeuwen, J.A.M.A. Dormans, and M.J. Van Logten|The Subchronic Oral Toxicity of the beta-Isomer of Hexachlorocyclohexane in Rats|Fundam. Appl. Toxicol.6:697-712|1986|10.1016/0272-0590(86)90183-1
90879|T||Miller,C.P., and L.S. Birnbaum|Teratologic Evaluation of Hexabrominated Naphthalenes in C57BL/6N Mice|Fundam. Appl. Toxicol.7:398-405|1986|10.1016/0272-0590(86)90089-8
90880|T||Tanigoshi,L.K., J. Fargerlund, J.Y. Nishio-Wong, and H.J. Griffiths|Biological Control of Citrus Thrips, Scirtothrips citri (Thysanoptera:  Thripidae), in Southern California Citrus Groves|Environ. Entomol.14(6): 733-741|1985|10.1093/ee/14.6.733
90882|T||Abramson,C.I., J. Squire, A. Sheridan, and P.G.Jr. Mulder|The Effect of Insecticides Considered Harmless to Honey Bees (Apis mellifera):  Proboscis Conditioning Studies by Using the Insect Growth Regulators Tebufenozide and Diflubenzuron|Environ. Entomol.33(2): 378-388|2004|10.1603/0046-225X-33.2.378
90883|T||Shires,S.W.|Effects of Aerial Applications of Cypermethrin and Demeton-S-Methyl on Non-Target Arthropods of Wheat|Ecotoxicol. Environ. Saf.10:1-11|1985|10.1016/0147-6513(85)90002-8
90884|T||Christian,M.F., and S.J. Yu|Cytochrome P-450-Dependent Monooxygenase Activity in the Velvetbean Caterpillar, Anticarsia gemmatalis Hubner|Comp. Biochem. Physiol. C Comp. Pharmacol.83(1): 23-27|1986|10.1016/0742-8413(86)90007-1
90885|T||Robertson,L.W., A. Parkinson, M.A. Campbell, and S. Safe|Polybrominated Biphenyls as Aryl Hydrocarbon Hydroxylase Inducers: Structure-Activity Correlations|Chem.-Biol. Interact.42:53-66|1982|10.1016/0009-2797(82)90141-7
90886|T||Fisher,P.A., J.E. Laing, and D.J. Pree|Toxicity of Permethrin, Azinphosmethyl, and Methomyl to Pholetesor ornigis (Weed) and Pholetesor pedias Nixon (Hymenoptera: Braconidae), Parasites of the Spotted Tentiform Leafminer, Phyllonorycter blancardella (Fabr.) |Can. Entomol.123(6): 1175-1182|1991|10.4039/Ent1231175-6
90887|T||Marshall,D.B., D.J. Pree, and B.D. McGarvey|Effects of Benzoylphenylurea Insect Growth Regulators on Eggs and Larvae of the Spotted Tentiform Leafminer Phyllonorycter blancardella (Fabr.) (Lepidoptera: Gracillariidae)|Can. Entomol.120(1): 49-62|1988|10.4039/Ent12049-1
90888|T||Smith,R.F.|Efficacy of Selected Insecticides Against Liriomyza trifolii (Burgess) (Diptera:  Agromyzidae), a Leafminer of Chrysanthemum|Can. Entomol.118(8): 761-766|1986|10.4039/Ent118761-8
90889|T||Bhargava,H.N.|Effect of Repeated Administration of Manganese on the Striatal Cholinergic and Dopaminergic Receptors in the Rat|Toxicol. Lett.37(2): 135-141|1987|10.1016/0378-4274(87)90149-4
90891|T||Shukla,Y., S. Kumar, and N.K. Mehrota|Status of the Gamma-Glutamyl Transpeptidase Enzyme Activity in Mouse Skin Exposed to Polyaromatic Hydrocarbons and Tumor Promotor TPA|Bull. Environ. Contam. Toxicol.43:454-458|1989|10.1007/BF01701882
90892|T||Misra,M., M. Athar, S.K. Hasan, and R.C. Srivastava|Comparative Effects of Chelating Drugs on Trace Metal and Alterations in the Rat|Bull. Environ. Contam. Toxicol.41(2): 172-184|1988|10.1007/BF01705427
90895|T||Wu,F.F., R.H. Dobberstein, and R.W. Morris|The Effects of Selected Fungicides and Insecticides on Growth and Thebaine Production of Papaver bracteatum|Lloydia41(4): 355-360|1978|
90896|T||Clark,R.V., V.R. Wallen, D.A. Galway, and V.D. Burrows|Effects of Maneb Fungicide on Seed Yield and Protein Content of Oat Cultivars|Can. J. Plant Pathol.8(3): 323-327|1986|10.1080/07060668609501807
90897|T||O'Neill,T.M.|Evaluation of Fungicides Against Downy Mildew (Peronospora sparsa) on Rose|Tests Agrochem. Cultiv.15:36-37|1994|
90899|A||Perry,D.F., and J.P. Latge|The Effect of Eight Fungicides on Germination of Conidiobolus obscurus Resting Spores|J. Invertebr. Pathol.42(1): 83-86|1983|10.1016/0022-2011(83)90205-7
90900|T||Reddy,M.V.B., H.S. Shetty, and M.S. Reddy|Mobility, Distribution and Persistence of Metalaxyl Residues in Pearl Millet (Pennisetum americanum (L.) Leeke.)|Bull. Environ. Contam. Toxicol.45(2): 250-257|1990|10.1007/BF01700192
90901|T||Rosenberg,C., and H. Siltanen|Residues of Mancozeb and Ethylenethiourea in Grain Samples|Bull. Environ. Contam. Toxicol.22(4-5): 475-479|1979|10.1007/BF02026973
90902|T||Mani,M.|Studies on the Toxicity of Pesticides to Cotesia plutellae (Hymenoptera: Braconidae), a Parasitoid of Diamondback Moth, Plutella xylostella (L.)|J. Insect Sci.8(1): 31-33|1995|
90903|T||Krokene,P.|The Effect of an Insect Growth Regulator on Grasshoppers (Acrididae) and Non-Target Arthropods in Mali|J. Appl. Entomol.116(3): 248-266|1993|10.1111/j.1439-0418.1993.tb01194.x
90904|T||Hilliard,M.A., and P. Bazzicalupo|Avoidance Response in the Nematode Caenorhabditis elegans|Ser. Biophys. Biocybernetics5:168-171|1998|
90905|T||O'Neill,T.M., and D. Pye|Evaluation of Fungicides for Control of Chrysanthemum White Rust (Puccinia horiana)|Tests Agrochem. Cultiv.18:8-9|1997|
90906|T||McQuilken,M.P., A.M. Litterick, and K.E. Hopkins|Evaluation of Fungicides Against Pestalotiopsis sydowiana on Calluna vulgaris and Rhododendron|Tests Agrochem. Cultiv.18:20-21|1997|
90907|T||Saifulla,M., H.S. Shetty, and M. Krishnappa|Effect of Seed Treatment on Discolored Rice Grains|Indian J. Mycol. Plant Pathol.26(1): 89-90|1996|
90908|T||Doshi,A., and B.B.L. Thakore|Effect of Fungicidal Seed Treatment on Primary Infection of Downy Mildew and Viability of Opium Poppy Seed|Indian J. Mycol. Plant Pathol.25(3): 160-164|1995|
90909|T||Cheema,H.S., B.P. Chakravarti, and B.B.L. Thakore|Effect of Opium Poppy Seed Treatments with Dithiocarbamates on Germination; Host Vigour and Viability of Seeds in Storage|Indian J. Plant Pathol.5(2): 180-183|1987|
90910|T||Ferguson,M.W., C.L. Lay, and P.D. Evenson|Effect of Pasmo Disease on Flower Production and Yield Components of Flax|Phytopathology77(6): 805-808|1987|10.1094/Phyto-77-805
90911|T||Eswaramurthy,S., C.M. Pappiah, M. Muthusamy, S. Muthusamy, V. Mariappan, R. Jeyasekar, S. Natarajan, P.M.M. David, and |Chemical Control of Die-Back and Fruit Rot of Chillies|Pesticides 22(3): 38-40|1988|
90912|T||Zhang,X.H., Y.G. Zhu, A.J. Lin, B.D. Chen, S.E. Smith, and F.A. Smith|Arbuscular Mycorrhizal Fungi can Alleviate the Adverse Effects of Chlorothalonil on Oryza sativa L.|Chemosphere64(10): 1627-1632|2006|10.1016/j.chemosphere.2006.01.034
90913|T||Wattenberg,L.W., L.K.T. Lam, A.V. Fladmoe, and P. Borchert|Inhibitors of Colon Carcinogenesis|Cancer40(5): 2432-2435|1977|10.1002/1097-0142(197711)40:5+<2432::AID-CNCR2820400907>3.0.CO;2-8
90914|T||Rossi,G., M.G. Palmerini, G. Macchiarelli, R. Buccione, and S. Cecconi|Mancozeb Adversely Affects Meiotic Spindle Organization and Fertilization in Mouse Oocytes|Reprod. Toxicol.22(1): 51-55|2006|10.1016/j.reprotox.2005.11.005
90915|T||Benigni,M., and G. Bompeix|Post Harvest Control of Phytophthora cryptogea of Witloof Chicory with Different Fungicides and Possible Occurrence of Resistant Strains|Crop Prot.25(4): 350-355|2006|10.1016/j.cropro.2005.06.003
90916|T||Wells,M.L., R.M. McPherson, J.R. Ruberson, and G.A. Herzog|Effect of Fungicide Application on Activity of Neozygites fresenii (Entomophthorales: Neozygitacaea) and Cotton Aphid (Homoptera:  Aphididae) Suppression|J. Econ. Entomol.93(4): 1118-1126|2000|10.1603/0022-0493-93.4.1118
90917|T||Graham,S.L., W.H. Hansen, K.J. Davis, and C.H. Perry|Effects of One-Year Administration of Ethylenethiourea upon the Thyroid of the Rat|J. Agric. Food Chem.21(3): 324-329|1973|10.1021/jf60187a036
90918|T||Elliott,M.L.|Use of Fungicides to Control Blue-Green Algae on Bermuda Grass Putting-Green Surfaces|Crop Prot.17(8): 631-637|1998|10.1016/S0261-2194(98)00063-5
90919|T||Allen,T.W., S.A. Enebak, and W.A. Carey|Evaluation of Fungicides for Control of Species of Fusarium on Longleaf Pine Seed|Crop Prot.23(10): 979-982|2004|10.1016/j.cropro.2004.02.010
90920|T||Busse,M.D., G.O. Fiddler, and A.W. Ratcliff|Ectomycorrhizal Formation in Herbicide-Treated Soils of Differing Clay and Organic Matter Content|Water Air Soil Pollut.152(1-4): 23-34|2004|10.1023/B:WATE.0000015335.32888.36
90921|T||Buck,J.W., and J.L. Williams-Woodward|The Effect of Fungicides on Urediniospore Germination and Disease Development of Daylily Rust|Crop Prot.22(1): 135-140|2003|10.1016/S0261-2194(02)00123-0
90922|T||Shirasu,Y., M. Moriya, K. Kato, F. Lienard, H. Tezuka, S. Teramoto, and T. Kada|Mutagenicity Screening on Pesticides and Modification Products: A Basis of Carcinogenicity Evaluation|In: H.H.Hiatt, J.D.Watson, and J.A.Winsten (Eds.), Origins of Human Cancer, Cold Spring Harbor Lab.:267-285|1977|
90924|T||Valencia,R.|Mutagenesis Screening of Pesticides 'Drosophila'|EPA 600/1-81-017, WARF Institute, Madison, WI:71 p.|1977|
90925|T||Keinath,A.P., G.J. Holmes, K.L. Everts, D.S. Egel, and D.B.,Jr. Langston|Evaluation of Combinations of Chlorothalonil with Azoxystrobin, Harpin, and Disease Forecasting for Control of Downy Mildew and Gummy Stem Blight on Melon|Crop Prot.26(2): 83-88|2007|10.1016/j.cropro.2006.04.004
90927|T||Kankwatsa,P., J.J. Hakiza, M. Olanya, H.M. Kidenamariam, and E. Adipala|Efficacy of Different Fungicide Spray Schedules for Control of Potato Late Blight in Southwestern Uganda|Crop Prot.22(3): 545-552|2003|10.1016/S0261-2194(02)00220-X
90928|T||Newsome,W.H.|Residues of Mancozeb, 2-Imidazoline, and Ethyleneurea in Tomato and Potato Crops After Field Treatment with Mancozeb|J. Agric. Food Chem.27(6): 1188-1190|1979|10.1021/jf60226a048
90929|T||Jacobsen,H., G. Ostergaard, H.R. Lam, M.E. Poulsen, H. Frandsen, O. Ladefoged, and O. Meyer|Repeated Dose 28-Day Oral Toxicity Study in Wistar Rats with a Mixture of Five Pesticides Often Found as Residues in Food:  Alphacypermethrin, Bromopropylate, Carbendazim, Chlorpyrifos and Mancozeb|Food Chem. Toxicol.42(8): 1269-1277|2004|10.1016/j.fct.2004.03.003
90930|T||Flynn,K.M., K.B. Delclos, R.R. Newbold, and S.A. Ferguson|Long Term Dietary Methoxychlor Exposure in Rats Increases Sodium Solution Consumption but has few Effects on Other Sexually Dimorphic Behaviors|Food Chem. Toxicol.43(9): 1345-1354|2005|10.1016/j.fct.2005.03.009
90931|T||Peres,N.A., and L.W. Timmer|Evaluation of the Alter-Rater Model for Spray Timing for Control of Alternaria Brown Spot on Murcott tangor in Brazil|Crop Prot.25(5): 454-460|2006|10.1016/j.cropro.2005.07.010
90932|T||Hsieh,G.C., R.D. Parker, R.P. Sarma, and B.J. Hughes|Subclinical Effects of Groundwater Contaminants.  III.  Effects of Repeated Oral Exposure to Combinations of Benzene and Toluene on Immunologic Responses in Mice|Arch. Toxicol.64:320-328|1990|10.1007/BF01972993
90933|T||Komura,J., and M. Sakamoto|Disposition, Behavior, and Toxicity of Methylcyclopentadienyl Manganese Tricarbonyl in the Mouse|Arch. Environ. Contam. Toxicol.23(4): 473-475|1992|10.1007/BF00203812
90934|T||Gianutsos,G., M.D. Seltzer, R. Saymeh, M.L.W. Wu, and R.G. Michel|Brain Manganese Accumulation Following Systemic Different Forms|Arch. Toxicol.57(4): 272-275|1985|10.1007/BF00324791
90935|T||Shukla,G.S., and S.V. Chandra|Concurrent Exposure to Lead, Manganese, and Cadmium and Their Distribution to Various Brain Regions, Liver, Kidney, and Testis of Growing Rats|Arch. Environ. Contam. Toxicol.16(3): 303-310|1987|10.1007/BF01054947
90936|T||Mansour,S.A.|Determination of Residues of Chlorpyrifos and Its Oxygen Analog in Dates|J. Pestic. Sci. (Multiple Languages)10:677-680|1985|10.1584/jpestics.10.677
90937|T||Lehning,E.J., C.D. Balaban, J.F. Ross, and R.M. LoPachin|Acrylamide Neuropathy III.  Spatiotemporal Characteristics of Nerve Cell Damage in Forebrain|Neurotoxicology24(1): 125-136|2003|10.1016/S0161-813X(02)00155-9
90938|A||Jacobsen,M.D.|Withdrawal Times of Freshwater Rainbow Trout, Salmo gairdneri Richardson, After Treatment with Oxolinic Acid, Oxytetracycline and Trimetoprim|J. Fish Dis.12:29-36|1989|10.1111/j.1365-2761.1989.tb01287.x
90939|T||Kato,N., K. Kawai, and A. Yoshida|Effects of Dietary Polychlorinated Biphenyls and Protein Level on Liver and Serum Lipid Metabolism of Rats|Agric. Biol. Chem.46(3): 703-707|1982|
90940|T||Lucier,G.W., A. Tritscher, T. Goldsworthy, J. Foley, G. Clark, J. Goldstein, and R. Maronpot|Ovarian Hormones Enhance 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Mediated Increases in Cell Proliferation and Preneoplastic Foci in a Two-Stage Model for Rat Hepatocarcinogenesis|Cancer Res.51:1391-1397|1991|
90941|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis. Studies of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) (CAS No.1746-01-6) in Female Harlan Sprague-Dawley Rats (Gavage Studies)|Natl. Toxicol. Program Tech. Rep. Ser.521:232 p.|2006|
90942|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of 2,3,4,7,8-Pentachlorodibenzofuran (PeCDF) (CAS No. 57117-31-4) in Female Harlan Sprague-Dawley Rats (Gavage Studies)|Natl. Toxicol. Program Tech. Rep. Ser.525:198 p.|2006|
90943|T||Ikarashi,Y., T. Tsuchiya, and A. Nakamura|Detection of Contact Sensitivity of Metal Salts Using the Murine Local Lymph Node Assay|Toxicol. Lett.62(1): 53-61|1992|10.1016/0378-4274(92)90078-X
90944|A||Bello,S.M., D.G. Franks, J.J. Stegeman, and M.E. Hahn|Acquired Resistance to Ah Receptor Agonists in a Population of Atlantic Killifish (Fundulus heteroclitus) Inhabiting a Marine Superfund Site: In Vivo and In Vitro Studies on the Inducibility of Xenobiotic Metabolizing E|Toxicol. Sci.60:77-91|2001|10.1093/toxsci/60.1.77
90945|T||Fisher,S.A., G.R. Bortolotti, K.J. Fernie, D.M. Bird, and J.E. Smits|Brood Patches of American Kestrels Altered by Experimental Exposure to PCBs|J. Toxicol. Environ. Health Part A69(17): 1603-1612|2006|10.1080/15287390500470718
90946|A||Grondel,J.L., J.F.M. Nouws, M. De Jong, A.R. Schutte, and F. Driessens|Pharmacokinetics and Tissue Distribution of Oxytetracycline in Carp, Cyprinus carpio L., Following Different Routes of Administration|J. Fish Dis.10:153-163|1987|10.1111/j.1365-2761.1987.tb01057.x
90947|T||Davis,D., and S. Safe|Immunosuppressive Activities of Polychlorinated Dibenzofuran Congeners: Quantitative Structure-Activity Relationships and Interactive Effects|Toxicol. Appl. Pharmacol.94:141-149|1988|10.1016/0041-008X(88)90344-4
90948|T||Cox,D.N., G.J. Traiger, S.P. Jacober, and R.P. Hanzlik|Comparison of the Toxicity of Methylcyclopentadienyl Manganese Tricarbonyl with that of Its Two Major Metabolites|Toxicol. Lett.39(1): 1-5|1987|10.1016/0378-4274(87)90250-5
90950|T||Skowronski,G.A., R.M. Turkall, and M.S. Abdel-Rahman|Effects of Soil on Percutaneous Absorption of Toluene in Male Rats|J. Toxicol. Environ. Health26:373-384|1989|10.1080/15287398909531260
90951|T||Onyeocha,F.A., and S. Fuzeau-Braesch|Comparative Toxicity of Some Synthetic Insecticides, and a Growth Inhibitor, in the Migratory Locust, Locusta migratoria|Comp. Biochem. Physiol. C Comp. Pharmacol.100(3): 361-363|1991|10.1016/0742-8413(91)90009-I
90952|T||Neil,K.A., and H.B. Specht|Field Releases of Trichogramma pretiosum Riley (Hymenoptera:  Trichogrammatidae) for Suppression of Corn Earworm, Heliothis zea (Boddie) (Lepidoptera:  Noctuidae), Egg Populations on Sweet Corn in Nova Scotia|Can. Entomol.122(11/12): 1259-1266|1990|10.4039/Ent1221259-11
90953|A||Hasanen,E., S. Kolehmainen, and J.K. Miettinen|Biological Half-Time of 137Cs in Three Species of Fresh-Water Fish:  Perch, Roach, and Rainbow Trout|In: Proc. of an Intern. Symp. on Radioecological Concentration Processes, Apr. 25-29, 1966, Pergamon Press-Oxford, England:921-924|1967|
90954|T||Wang,S., W.G. Bottje, Z. Song, K. Beers, M. Vasques-Anon, and J.J. Dibner|Uptake of DL-2-Hydroxy-4-Methylthio-Butanoic Acid (DL-HMB) in the Broiler Liver In Vivo|Poult. Sci.80:1619-1624|2001|10.1093/ps/80.11.1619
90955|T||Colciago,A., P. Negri-Cesi, A. Pravettoni, O. Mornati, L. Casati, and F. Celotti|Prenatal Aroclor 1254 Exposure and Brain Sexual Differentiation:  Effect on the Expression of Testosterone Metabolizing Enzymes and Androgen Receptors in the Hypothalamus of Male and Female Rats|Reprod. Toxicol.22(4): 738-745|2006|10.1016/j.reprotox.2006.07.002
90956|T||Henshel,D.S.|Developmental Neurotoxic Effects of Dioxin and Dioxin-Like Compounds on Domestic and Wild Avian Species|Environ. Toxicol. Chem.17(1): 88-98|1998|
90957|T||Thomas,P.E., J.J. Hutton, and B.A. Taylor|Genetic Relationship Between Aryl Hydrocarbon Hydroxlyase Inducibility and Chemical Carcinogen Induced Skin Ulceration in Mice|Genetics74:655-659|1973|10.1093/genetics/74.4.655
90958|T||Sun,Y.V., D.R. Boverhof, L.D. Burgoon, M.R. Fielden, and T.R. Zacharewski|Comparative Analysis of Dioxin Response Elements in Human, Mouse and Rat Genomic Sequences|Nucleic Acids Res.32(15): 4512-4523|2004|10.1093/nar/gkh782
90959|T||Okino,S.T., U.R. Pendurthi, and R.H. Tukey|Phorbol Esters Inhibit the Dioxin Receptor-Mediated Transcriptional Activation of the Mouse CYP1A-1 and CYP1A-2 Genes by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biol. Chem.267(10): 6991-6998|1992|10.1016/S0021-9258(19)50526-9
90961|T||Kramers,P.G.N.|Mutagenicity of Saccharin in Drosophila:  The Possible Role of Contaminants|Mutat. Res.56(2): 163-167|1977|10.1016/0027-5107(77)90205-6
90962|T||Boyle,C., and D. Walters|Induction of Systemic Protection Against Rust Infection in Broad Bean by Saccharin:  Effects on Plant Growth and Development|New Phytol.167(2): 607-612|2005|10.1111/j.1469-8137.2005.01439.x
90963|A||Kovar,J.L., J. Zhang, R.P. Funke, and D.P. Weeks|Molecular Analysis of the Acetolactate Synthase Gene of Chlamydomonas reinhardtii and Development of a Genetically Engineered Gene as a Dominant Selectable Marker for Genetic Transformation|Plant J.29(1): 109-117|2002|10.1046/j.1365-313x.2002.01193.x
90964|A||Fedtke,C., J. Schmalfuss, and M. Couderchet|Chloroacetanilides, Oxyacetamides, Tetrazolinones: Mode of Action. 1. Cross Resistance and Oleic Acid Incorporation in Algal Model Systems|Pestic. Sci.55(5): 580-582|1999|10.1002/(SICI)1096-9063(199905)55:5<580::AID-PS955>3.0.CO;2-Q
90965|T||Fleischer,S.J., M.J. Gaylor, R. Dickens, and D.L. Turner|Roadside Management of Annual Fleabane (Erigeron annuus) and Wild Carrot (Daucus carota)|Weed Technol.3(1): 72-75|1989|10.1017/S0890037X00031341
90966|A||Landstein,D., S. Epelbaum, S. Arad, Z. Barak, and D.M. Chipman|Metabolic Response of Chlorella emersonii to the Herbicide Sulfometuron Methyl|Planta (Multiple Languages)197(2): 219-224|1995|10.1007/BF00202640
90967|AT||Bannasch,P., R.A. Griesemer, F. Anders, R. Becker, J.R. Cabral, G. Della Porta, V.J. Feron, D. Henschler, N. Ito, R. Kr|Assays for Initiating and Promoting Activities|IARC Sci. Publ.83:103-126|1986|
90968|T||Kable,P.F.|Fungicides for Control of Brown Rot of Stone Fruits|Tech.Bull., Dep.of Agric., New South Wales16:20 p.|1978|
90969|A||Bennett,P.H., and P.R. De Beer|A Rapid Quantitative Bioassay for the Determination of Biologically Available Bromacil in Soils|Pestic. Sci.15(5): 425-430|1984|10.1002/ps.2780150502
90970|T||Zutter,B.R., G.R. Glover, and D.H. Gjerstad|Effects of Herbaceous Weed Control Using Herbicides on a Young Loblolly Pine Plantation|For. Sci.32(4): 882-899|1986|
90972|T||Gray,T.J.B., and S.D. Gangolli|Aspects of the Testicular Toxicity of Phthalate Esters|Environ. Health Perspect.65:229-235|1986|
90974|T||Elsisi,A.E., D.E. Carter, and I.G. Sipes|Dermal Absorption of Phthalate Diesters in Rats|Fundam. Appl. Toxicol.12(1): 70-77|1989|10.1016/0272-0590(89)90063-8
90977|T||Kozumbo,W.J., and R.J. Rubin|Mutagenicity and Metabolism of Dimethyl Phthalate and Its Binding to Epidermal and Hepatic Macromolecules|J. Toxicol. Environ. Health33(1): 29-46|1991|10.1080/15287399109531503
90978|T||Malezieux,S., L. Lapchin, M. Pralavorio, J.C. Moulin, and D. Fournier|Toxicity of Pesticide Residues to a Beneficial Arthropod, Phytoseiulus persimilis (Acari:  Phytoseiidae)|J. Econ. Entomol.85(6): 2077-2081|1992|10.1093/jee/85.6.2077
90979|T||Fisher,H.L., L.L. Hall, M.R. Sumler, and P.V. Shah|Dermal Penetration of (14C)Captan in Young and Adult Rats|J. Toxicol. Environ. Health36(3): 251-271|1992|10.1080/15287399209531636
90980|T||El Titi,A., and B. Ulber|Significance of Biotic Interactions Between Soil Fauna and Microflora in Integrated Arable Farming|In: A.B.Beemster, et.al. (Eds.), Development in Agricultural and Managed-Forest Ecology, Biotic Interactions and Soil-Borne Diseases, Wageningen, Netherlands:1-19|1991|
90981|T||Rao,S.S., and K.G. Ranganathaiah|Control of Seed-Borne Infection of Drechslera oryzae in Paddy by Seed Treatment|Seed Res.16(2): 193-199|1988|
90982|T||Best,G.R., and V.W.L. Jordan|Evaluation of Fungicides for Control of Septoria nodorum in Winter Wheat|Tests Agrochem. Cultiv.6(6): 74-75|1985|
90983|T||Rafiq,M., and M. Afzal|Contribution of Some Sorghum Production Factors to Yield and Economic Return|Pak. J. Agric. Res.9(2): 155-160|1988|
90984|T||Levine,E., and A. Felsot|Effectiveness of Acephate and Carbofuran Seed Treatments to Control the Black Cutworm, Agrotis ipsilon (Lepidoptera:  Noctuidae), on Field Corn|J. Econ. Entomol.78(6): 1415-1420|1985|10.1093/jee/78.6.1415
90985|T||Gaikwad,S.J.|Chemical Control of Leaf Spots of Pearl Millet|PKV Res. J.14(2): 208-209|1990|
90986|T||Lindgren,A., N.G. Lindquist, A. Lyden, T. Olsson, and S. Ullberg|A Whole Body Autoradiographic Study on the Distribution of 14C-Labelled di-(2-Ethylhexyl)Phthalate in Mice|Toxicology23(2-3): 149-158|1982|10.1016/0300-483X(82)90094-4
90987|T||Beare,M.H., B.R. Pohlad, D.H. Wright, and D.C. Coleman|Residue Placement and Fungicide Effects on Fungal Communities in Conventional and No-Tillage Soils|Soil Sci. Soc. Am. J.57(2): 392-399|1993|10.2136/sssaj1993.03615995005700020018x
90988|T||Solunke,R.B., and S.S. Kore|Cotton Seed Mycoflora and Effect of Fungicidal Concentrations on Fusarium moniliforme|J. Maharashtra Agric. Univ.18(3): 496-497|1993|
90990|T||Goulart,B.L., P.E. Hammer, K.B. Evensen, W. Janisiewicz, and F. Takeda|Pyrrolnitrin, Captan + Benomyl, and high CO2 Enhance Raspberry Shelf Life at 0 or 18C|J. Am. Soc. Hortic. Sci.117(2): 265-270|1992|10.21273/JASHS.117.2.265
90991|T||Pandey,V.N., and N.K. Dubey|The Synergistic Activity of Volatile Fungitoxic Compounds from Some Higher Plants|Acta Bot. Indica19(2): 290-295|1991|
90992|T||Somashekar,R.K., and K.P. Sreenath|Effect of Carbamate Pesticide Dithane M45 on Crop Plants|Pesticides 20(4): 44-46|1986|
90993|T||Rathaiah,Y.|Control of Soft Rot of Ginger with Ridomil|Pesticides 21(12): 29-30|1987|
90995|T||Kumar,K., and D.P. Singh|Control of Alternaria brassicae Infection in Mustard and Rape Seeds|Pesticides 20(10): 22-23|1986|
90996|T||Wahby,M., L.A. Shelef, G.D. Luk, and A.P.N. Majumdar|Induction of Gastric Mucosal Cell Proliferation by the Fungicide Captan:  Role of Tyrosine Kinases|Toxicol. Lett.54(2-3): 189-198|1990|10.1016/0378-4274(90)90183-M
90997|T||Tamano,S., M. Kawabe, M. Sano, T. Masui, and N. Ito|Subchronic Oral Toxicity Study of Captafol in B6C3F1 Mice|J. Toxicol. Environ. Health38(1): 69-75|1993|10.1080/15287399309531701
90998|T||Iturri,S.J., and J. Soto|Inhibitory Effect of Captan in the Small Intestine Absorption Capacity of the Mouse|Bull. Environ. Contam. Toxicol.53(5): 648-654|1994|10.1007/BF00196935
90999|T||Jingyie,F., and L. Baoyeng|Cytogenetic Effects of an Agricultural Antibiotic, Captan, on Mouse Bone Marrow and Testicular Cells|Environ. Res.43:359-363|1987|10.1016/S0013-9351(87)80036-1
91000|T||Tamano,S., Y. Kurata, M.A. Shibata, H. Tanaka, T. Ogiso, and N. Ito|13-Week Oral Toxicity Study of Captafol in F344/DuCrj Rats|Fundam. Appl. Toxicol.17(2): 390-398|1991|10.1016/0272-0590(91)90228-V
91001|T||Mercer,P.C., H.C. McGimpsey, R. Black, and S. Norrie|The Chemical Control of Alternaria linicola on the Seed of Linseed|Tests Agrochem. Cultiv.6:56-57|1985|
91002|T||Forsythe,H.Y.,Jr.|Mite Control, 1991|Insectic. Acaric. Tests17:3-4|1992|10.1093/iat/17.1.3b
91003|T||Hasegawa,R., R. Cabral, T. Hoshiya, K. Hakoi, T. Ogiso, P. Boonyaphiphat, T. Shirai, and N. Ito|Carcinogenic Potential of Some Pesticides in a Medium-Term Multi-Organ Bioassay in Rats|Int. J. Cancer54(3): 489-493|1993|10.1002/ijc.2910540322
91004|T||Mc Laren,N.W., and F.H.J. Rijkenberg|Efficacy of Fungicide Seed Dressings in the Control of Pre- and Post-Emergence Damping-Off and Seedling Blight of Sorghum|S. Afr. J. Plant Soil6(3): 167-170|1989|10.1080/02571862.1989.10634504
91005|T||Rajarajeswari,N.V.L., and B. Satyanarayana|Control of Seed-Borne Fungi in Chillies|Indian J. Plant Prot.22(1): 115-116|1994|
91006|T||Solanke,R.B., and S.S. Kore|Effects of Fungicidal Seed Treatment on Seed Viability and Mycoflora During Storage of the Parental Lines of CSH-5|J. Maharashtra Agric. Univ.19(1): 51-54|1994|
91007|T||Fahim,M.M., A.R. Osman, A.F. Sahab, and M.M. Abd El-Kader|Agricultural Practices and Fungicide Treatments for the Control of Fusarium Wilt of Lupin|Egypt. J. Phytopathol.15(1/2): 35-46|1983|
91008|T||Joseph,L.D., I.M. Yousef, G.L. Plaa, and M. Sharkawi|Potentiation of Lithocholic-Acid-Induced Cholestasis by Methyl Isobutyl Ketone|Toxicol. Lett.61(1): 39-47|1992|10.1016/0378-4274(92)90061-N
91010|T||Kumar,A., and C.B. Sharma|Hematological Indices in Copper-Poisoned Rats|Toxicol. Lett.38:275-278|1987|10.1016/0378-4274(87)90009-9
91011|T||Vos,J.G., A. De Klerk, E.I. Krajnc, V. Van Loveren, and J. Rozing|Immunotoxicity of bis(Tri-n-Butyltin)Oxide in the Rat:  Effects on Thymus-Dependent Immunity and on Nonspecific Resistance Following Long-Term Exposure in Young Versus Aged Rats|Toxicol. Appl. Pharmacol.105:144-155|1990|10.1016/0041-008X(90)90366-3
91012|T||McGinley,P.A., J.B. Morris, R.J. Clay, and G. Gianutsos|Disposition and Toxicity of Methylcyclopentadienyl Manganese Tricarbonyl in the Rat|Toxicol. Lett.36(2): 137-145|1987|10.1016/0378-4274(87)90177-9
91014|T||Marathe,M.R., and G.P. Thomas|Embryotoxicity and Teratogenicity of Lithium Carbonate in Wistar Rat|Toxicol. Lett.34:115-120|1986|10.1016/0378-4274(86)90153-0
91015|T||Crofton,K.M., K.F. Dean, V.M. Boncek, M.B. Rosen, L.P. Sheets, N. Chernoff, and L.W. Reiter|Prenatal or Postnatal Exposure to Bis(Tri-n-Butyltin)Oxide in the Rat:  Postnatal Evaluation of Teratology and Behavior|Toxicol. Appl. Pharmacol.97:113-123|1989|10.1016/0041-008X(89)90060-4
91016|T||Clay,R.J., and J.B. Morris|Comparative Pneumotoxicity of Cyclopentadienyl Manganese Tricarbonyl and Methylcyclopentadienyl Manganese Tricarbonyl|Toxicol. Appl. Pharmacol.98(3): 434-443|1989|10.1016/0041-008X(89)90172-5
91017|T||Vezina,M., and G.L. Plaa|Methyl Isobutyl Ketone Metabolites and Potentiation of the Cholestasis Induced in Rats by a Manganese-Bilirubin Combination or Manganese Alone|Toxicol. Appl. Pharmacol.92(3): 419-427|1988|10.1016/0041-008X(88)90181-0
91018|A||Van Dyk,L.P., C.G. Greef, and J.J. Brink|Total Population Density of Crustacea and Aquatic Insecta as an Indicator of Fenthion Pollution of River Water|Bull. Environ. Contam. Toxicol.14(4): 426-431|1974|10.1007/BF01705508
91019|T||Pinkerton,M.N., R.J. Kociba, R.V. Petrella, D.L. McAllister, M.L. Willis, J.C. Fulfs, H. Thoma, and O. Hutzinger|A Preliminary Report on the Investigation of the Comparative Toxicity of Combustion Products of high Impact Polystyrene with and without Decabromodiphenyl/Oxide/Antimony Trioxide as a Flame Retardant Using 2,3,7,8-Tetra|Chemosphere18(1-6): 1243-1249|1989|10.1016/0045-6535(89)90261-0
91020|T||Blacker,A.M., R.E. Schroeder, J.C. English, S.J. Murphy, W.J. Krasavage, and G.S. Simon|A Two-Generation Reproduction Study with Hydroquinone in Rats|Fundam. Appl. Toxicol.21:420-424|1993|10.1006/faat.1993.1117
91023|T||Dhoble,S.Y., G.B. Jagadale, and A.B. Deokar|Insecticidal Control of Safflower Aphid with Dust Application|Pesticides 19(5): 53-54|1985|
91024|T||Dunley,J.E., R.H. Messing, and B.A. Croft|Levels and Genetics of Organophosphate Resistance in Italian and Oregon Biotypes of Amblyseius andersoni (Acari:  Phytoseiidae)|J. Econ. Entomol.84(3): 750-755|1991|10.1093/jee/84.3.750
91025|T||Way,M.O., and R.G. Wallace|Residual Activity of Selected Insecticides for Control of Rice Stink Bug (Hemiptera:  Pentatomidae)|J. Econ. Entomol.83(2): 591-595|1990|10.1093/jee/83.2.591
91026|T||Collart,M.G., and W.F. Hink|Development of Resistance to Malathion in Cat Flea (Siphonaptera:  Pulicidae)|J. Econ. Entomol.79(6): 1570-1572|1986|10.1093/jee/79.6.1570
91027|T||Rosenheim,J.A., and M.A. Hoy|Intraspecific Variation in Levels of Pesticide Resistance in Field Populations of a Parasitoid, Aphytis melinus (Hymenoptera:  Aphelinidae):  The Role of Past Selection Pressures|J. Econ. Entomol.79(5): 1161-1173|1986|10.1093/jee/79.5.1161
91028|T||White,N.D.G.|Residual Activity of Insecticides on Freshly Harvested and Previously Stored Wheat, and on Various Carriers Exposed to Concrete Surfaces|Proc. Entomol. Soc. Ont.119:35-42|1988|
91029|T||Mohamad,B.M., and H.F. Van Emden|Host Plant Modification to Insecticide Susceptibility in Myzus persicae (Sulz.)|Insect Sci. Appl.10(5): 699-703|1989|
91030|T||Pal,A.K., and H.S. Kushwah|Impact of Malathion Dipping on the Lipid Pattern of Kidney in Poultry|Indian Vet. J.73(9): 931-934|1996|
91031|T||Singh,R., and V.S. Kavadia|Effect of Environmental Factor on the Residual Toxicity and Persistence of Insecticides:  III.  Effect of Temperature and Humidity on the Residual Toxicity of Insecticides|Indian J. Entomol.51(4): 450-457|1989|
91032|T||Singh,R., and V.S. Kavadia|Effect of Environmental Factors on the Residual Toxicity and Persistence of Insecticides:  II.  Effect of Sunlight on Residual Toxicity and Persistence of Insecticides|Indian J. Entomol.51(3): 300-314|1989|
91033|T||Singh,R., and V.S. Kavadia|Effect of Environmental Factors on the Residual Toxicity and Persistence of Insecticides:  I.  Effect of Rainfall on Residual Toxicity and Dissipation of Insecticides|Indian J. Entomol.50(4): 513-522|1988|
91034|T||Henry,J.E., and J.A. Onsager|Large-Scale Test of Control of Grasshoppers on Rangeland with Nosema locustae|J. Econ. Entomol.75(1): 31-35|1982|10.1093/jee/75.1.31
91036|T||Sudhakar,T.R., S. Bano, and H.S.N. Rao|Management of Rice Earhead Bug in Andhra Pradesh|Indian J. Plant Prot.21(2): 141-144|1993|
91037|T||Heydens,W.F., A.G.E. Wilson, L.D. Kier, H. Lau, D.C. Thake, and M.A. Martens|An Evaluation of the Carcinogenic Potential of the Herbicide Alachlor to Man|Hum. Exp. Toxicol.18:363-391|1999|10.1191/096032799678840219
91038|T||Bochow,H.|Bacillus Subtilis T 99, A Biocontrol Agent of Soil-Borne Fungal Diseases of Greenhouse Crops|In: A.B.R.Beemster, et al.(Eds.), Developments in Agricultural and Managed-Forest Ecology.Biotic Interactions and Soil-Borne Diseases, 1st Conf.of the Eur.Found.for Plant Pathol, Feb.26-Mar.2, 1990, Wageningen, Netherlands23:236-240|1991|
91039|T||Gupta,A., D. Singh, and V.K. Maheshwari|Effect of Containers on the Viability of Fungicide Treated Chilli Seeds|Seed Res.20(2): 160-161|1992|
91040|T||Hicks,R.M., J.S.J. Wakefield, and J. Chowaniec|Evaluation of a New Model to Detect Bladder Carcinogens or Co-Carcinogens; Results Obtained with Saccharin, Cyclamate and Cyclophosphamide|Chem.-Biol. Interact.11(3): 225-233|1975|10.1016/0009-2797(75)90101-5
91041|T||Ingle,R.W., and J.G. Raut|Effect of Fungicidal Sprays on Incidence of Seed-Borne Fungi and Germination of Pearl Millet|Seed Res.22(1): 85-87|1994|
91042|T||Khan,A., P.S. Baker, and G.V. Pollard|Semi-Field Tests of the Effects of Three Insecticides on Ancylostomia stercorea|Tests Agrochem. Cultiv.23:4-5|2002|
91043|T||Teran-Vargas,A.P., and D.A. Wolfenbarger|Response of Boll Weevil (Coleoptera:  Curculionidae) to Malathion and Methyl Parathion in Southern Tamaulipas|Southwest. Entomol.Suppl. 24:69-73|2001|
91044|T||Murarkar,S.R., G.J. Deshmukh, S.N. Bodhade, and H.S. Thakre|Effect of Chemical Pest Control of Mulberry (Morus alba) on the Performance of Silkworm (Bombyx mori. L.)|PKV Res. J.20(1): 100-102|1996|
91045|T||Noetzel,D.M., and B. Holder|New Aphicides for Use in Spring Wheat, 1993|Arthropod Manag. Tests19:291-292|1993|10.1093/amt/19.1.291a
91046|T||Buck,J.W.|Combinations of Fungicides with Phylloplane Yeasts for Improved Control of Botrytis cinerea on Geranium Seedlings|Phytopathology94(2): 196-202|2004|10.1094/PHYTO.2004.94.2.196
91047|T||Wu,W.S., H.H. Chou, S.M. Lin, and H.C. Wu|The Effect of Seed-Borne Pathogens on Emergence of Globe Amaranth, Calendula and Tagetes and the Methods of Control|J. Phytopathol.149(2): 91-96|2001|10.1046/j.1439-0434.2001.00581.x
91048|T||Berisford,Y.C., and J.C. Ayres|Effect of Insecticides on Growth and Zearalenone (F-2) Production by the Fungus, Fusarium graminearum|Environ. Entomol.5(4): 644-648|1976|10.1093/ee/5.4.644
91049|T||Clifford,D.P., and C.M. Carson|The Synthesis and Biological Activity of Some Potentially Fungicidal Zinc Ethylenebis (dithiocarbamate):  Amine Complexes|Pestic. Sci.23(2): 93-102|1988|10.1002/ps.2780230202
91050|T||Singh,D.P., and V.K. Agarwal|Effect of Fungicidal Sprays on Grain Mould Incidence and Seed Quality in Sorghum|Bangladesh J. Bot.18(1): 45-50|1989|
91051|T||Highberg,L.M., and J.M. Ogawa|Yield Reduction in Almond Related to Incidence of Shot-Hole Disease|Plant Dis.70(9): 825-828|1986|10.1094/PD-70-825
91052|T||Dalvi,R.R.|Involvement of Glutathione in the Reduction of Captan-Induced In Vivo Inhibition of Monooxygenases and Liver Toxicity in the Rat|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(2): 171-178|1988|
91053|T||Paul,S.R., A.K. Choudhury, and S.C. Dey|Effect of Different Containers, Seed Protectants and Periods of Storage on Viability and Vigour of Stored Wheat Seeds|Seed Res.20(1): 14-17|1992|
91054|T||Feng,J., and A.V. Barker|Response of Different Plants to Ammonium and Nitrate as Sources of Nitrogen with Application of Fungicides|J. Plant Nutr.13(5): 495-512|1990|10.1080/01904169009364095
91055|T||Pszczolkowski,M.A., and J.J. Brown|Effect of Sugars and Non-Nutritive Sugar Substitutes on Consumption of Apple Leaves by Codling Moth Neonates|Phytoparasitica31(3): 283-291|2003|10.1007/BF02980837
91057|T||Gray,T.J.B., I.R. Rowland, P.M.D. Foster, and S.D. Gangolli|Species Differences in the Testicular Toxicity of Phthalate Esters|Toxicol. Lett.11(1-2): 141-147|1982|10.1016/0378-4274(82)90119-9
91058|T||Pimentel,D., and M. Burgess|Effects of Single Versus Combinations of Insecticides on the Development of Resistance|Environ. Entomol.14(5): 582-589|1985|10.1093/ee/14.5.582
91059|T||Singh,D.P., and V.K. Agarwal|Fungicidal Control of Grain Mold in Sorghum|Seed Res.20(1): 51-53|1992|
91060|T||Pike,K.S., G.L. Reed, G.T. Graf, and D. Allison|Compatibility of Imidacloprid with Fungicides as a Seed-Treatment Control of Russian Wheat Aphid (Homoptera: Aphididae) and Effect on Germination, Growth, and Yield of Wheat and Barley|J. Econ. Entomol.86(2): 586-593|1993|10.1093/jee/86.2.586
91061|T||Jindal,K.K., and M. Meeta|Control of Bacterial and Cercospora Leaf Spots of Zinnia (Zinnia elegans)|Indian J. Agric. Sci.61(2): 156-158|1991|
91062|T||Harsh,N.S.K., Y.P. Singh, H.K. Gupta, B.M. Mushra, D.J. McLaughlin, and B. Dentinger|A New Culm Rot Disease of Bamboo in India and Its Management|J. Bamboo Rattan4(4): 387-398|2005|10.1163/156915905775008363
91063|T||Duan,J.J., and R.J. Prokopy|Toward Developing Pesticide-Treated Spheres for Controlling Apple Maggot Flies, Rhagoletis pomonella (Walsh) (Dipt., Tephritidae): I. Carbohydrates and Amino Acids as Feeding Stimulants|J. Appl. Entomol.115(2): 176-184|1993|10.1111/j.1439-0418.1993.tb00377.x
91065|T||National Cancer Institute|Bioassay of Malathion for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:102 p.|1979|
91067|A||Yan,H., and G. Pan|Increase in Biodegradation of Dimethyl Phthalate by Closterium lunula Using Inorganic Carbon|Chemosphere55(9): 1281-1285|2004|10.1016/j.chemosphere.2003.12.019
91068|A||Yan,H., G. Pan, and P.L. Liang|Effect and Mechanism of Inorganic Carbon on the Biodegradation of Dimethyl Phthalate by Chlorella pyrenoidosa|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(4): 553-562|2002|
91069|A||Landstein,D., S. Arad, Z. Barak, and D.M. Chipman|Relationships Among the Herbicide and Functional Sites of Acetohydroxy Acid Synthase from Chlorella emersonii|Planta (Multiple Languages)191(1): 1-6|1993|10.1007/BF00240889
91070|T||Gupta,R.B.L., V.L. Majumdar, and G.C. Bhatnagar|Influence of Seed Dressing Fungicides on Mycoflora and Viability of Wheat Seed Under Storage|Seed Res.18(2): 157-159|1990|
91071|T||Tipton,J.L.|Light, Osmotic Stress, and Fungicides Affect Hulled Creosotebush Mericarp Germination|J. Am. Soc. Hortic. Sci.110(5): 615-618|1985|10.21273/JASHS.110.5.615
91072|T||Siddaramaiah,A.L., R.K. Hegde, and A.F. Habib|Studies on Leaf Spot and Veinal Necrosis of Groundnut Caused by Alternaria alternata and Testing of Fungicides Against it In Vitro in Karnataka|Mysore J. Agric. Sci.19(4): 254-259|1985|
91073|T||Sultana,N., S.A.J. Khan, and A.K. Khanzada|Studies on Seed-Borne Mycoflora of Chillies and Control of Fruit Rot Disease|Pak. J. Sci. Ind. Res.31(5): 365-368|1988|
91074|T||Mayeux,A., and G.S. Maphanyane|Groundnut Research Under Low-Rainfall Conditions in Botswana|In: K.R.Bock, et al.(Eds.), Proc.3rd Reg.Groundnut Workshop for S.Africa, Mar.13-18, 1988, Lilongwe, Malawi, Int.Crops Res.Inst.for the Semi-arid Tropics, Patancheru, Andhra Pradesh, India:149-155|1989|
91075|T||Kadian,O.P.|Studies on the Seed Microflora of Brassica campestris L. var. Sarson in Haryana, India|Int. J. Trop. Agric.11(3): 222-226|1993|
91077|T||Bishop,J.B., R.W. Morris, J.C. Seely, L.A. Hughes, K.T. Cain, and W.M. Generoso|Alterations in the Reproductive Patterns of Female Mice Exposed to Xenobiotics|Fundam. Appl. Toxicol.40(2): 191-204|1997|10.1006/faat.1997.2379
91078|T||Kitahara,K., Y. Nakagawa, T. Nishioka, and T. Fujita|Cultured Integument of Chilo suppressalis as a Bioassay System of Insect Growth Regulators|Agric. Biol. Chem.47(7): 1583-1589|1983|
91079|T||Rogers,G.D.|Control of the Molds Aspergillus sydowi and Penicillium citrinum in Laboratory Colonies of the Lone-Star Tick, Amblyomma americanum (Acari: Ixodidae)|Exp. Appl. Acarol.6(3): 257-261|1989|10.1007/BF01193985
91081|T||McCune,E.L., J.E. Savage, and B.L. O'Dell|Hydropericardium and Ascites in Chicks Fed a Chlorinated Hydrocarbon|Poult. Sci.41:295-299|1962|10.3382/ps.0410295
91082|T||Klass,S., J. Wright, and P. Felker|Influence of Auxins, Thiamine and Fungal Drenches on the Rooting of Prosopis alba Clone B2V50 Cuttings|J. Hortic. Sci.62(1): 97-100|1987|10.1080/14620316.1987.11515755
91083|T||Bordoloi,D.K., S.R. Paul, and A. Roy|Effect of Fungicidal Seed Treatment on Germination and Seedling Vigour of Sesame Seeds|PKV Res. J.21(2): 177-178|1997|
91084|T||Wali-Ur-Rahman|Damage and Control of Heliothis armigera on Nigela sativa Crop|Pak. J. For.44(1): 12-16|1994|
91086|T||Singh,D.V., and H.K. Saksena|Effect of Some Seed Dressants on Wheat Seed Mycoflora, Seed Germination, Plant Stand and Yield|Pesticides 20(10): 16-19|1986|
91087|T||Moreby,S.J.|Laboratory Screening of Pesticides Against Calocoris norvegicus, A Non-Target Heteropteran in Cereals|Tests Agrochem. Cultiv.12:8-9|1991|
91089|T||Kozlowski,T.T.|Effects on Seedling Development of Direct Contact of Pinus resinosa Seeds or Young Seedlings with Captan|Eur. J. For. Pathol.16(2): 87-90|1986|10.1111/j.1439-0329.1986.tb01260.x
91090|T||Kato,N., K. Kawai, and A. Yoshida|Effect of Dietary Level of Ascorbic Acid on the Growth, Hepatic Lipid Peroxidation, and Serum Lipids in Guinea Pigs Fed Polychlorinated Biphenyls|Bull. Environ. Contam. Toxicol.111:1727-1733|1981|
91091|T||Bouaichi,A., G.D.A. Coppen, and P.C. Jepson|Comparison of Diflubenzuron and Malathion as Blanket Sprays Against Sedentary Populations of Locusts and Grasshoppers in Moroccan Grassland|Crop Prot.13(1): 53-59|1994|10.1016/0261-2194(94)90137-6
91092|T||Wipfli,M.S., J.L. Wedberg, and D.B. Hogg|Cultural and Chemical Control Strategies for Three Plant Bug (Heteroptera:  Miridae) Pests of Birdsfoot Trefoil in Northern Wisconsin|J. Econ. Entomol.83(5): 2086-2091|1990|10.1093/jee/83.5.2086
91093|T||Gans,J.G., and S.J. Pintauro|Liver Scarring Induced by Polychlorinated Biphenyl Administration to Mice Previously Treated with Diethylnitrosamine|Proc. Soc. Exp. Biol. Med.183:207-213|1986|10.3181/00379727-183-42406
91094|A||Boike,A.H.,Jr., C.B.,Jr. Rathburn, T.G. Floore, H.M. Rodriguez, and J.S. Coughlin|Insecticide Tolerance of Culex nigripalpus in Florida|Am. Mosq. Control Assoc. J.5(4): 522-528|1989|
91095|T||Talcott,R.E., N.M. Mallipudi, N. Umetsu, and T.R. Fukuto|Inactivation of Esterases by Impurities Isolated from Technical Malathion|Toxicol. Appl. Pharmacol.49(1): 107-112|1979|10.1016/0041-008X(79)90282-5
91096|T||Faqi,A.S., P.R. Dalsenter, H.J. Merker, and I. Chahoud|Effects on Developmental Landmarks and Reproductive Capability of 3,3',4,4'-Tetrachlorobiphenyl and 3,3',4,4',5-Pentachlorobiphenyl in Offspring of Rats Exposed During Pregnancy|Hum. Exp. Toxicol.17:365-372|1998|
91097|AT||Mekuria,Y., T.A. Gwinn, D.C. Williams, and M.A. Tidwell|Insecticide Susceptibility of Aedes aegypti from Santo Domingo, Dominican Republic|J. Am. Mosq. Control Assoc.7(1): 69-72|1991|
91098|T||Murugesan,P., J. Senthilkumar, K. Balasubramanian, M.M. Aruldhas, and J. Arunakaran|Impact of Polychlorinated Biphenyl Aroclor 1254 on Testicular Antioxidant System in Adult Rats|Hum. Exp. Toxicol.24(2): 61-66|2005|10.1191/0960327105ht500oa
91099|A||Haider,S., and R.M. Inbaraj|In Vitro Effect of Malathion and Endosulfan on the LH-Induced Oocyte Maturation in the Common Carp, Cyprinus carpio (L.)|Water Air Soil Pollut.39(1-2): 27-31|1988|10.1007/BF00250945
91100|T||Singh,Y., V.K. Chaudhary, S.R. Tyagi, and U.K. Misra|Inhibition of Hepatic Phosphatidylcholine Synthesis by Malathion in Rats|Toxicol. Lett.20(2): 219-223|1984|10.1016/0378-4274(84)90150-4
91101|T||Konno,Y., and T. Shishido|Resistance Mechanism of the Rice Stem Borer to Organophosphorus Insecticides|J. Pestic. Sci. (Multiple Languages)10(2): 285-287|1985|10.1584/jpestics.10.285
91102|AT||Rawlins,S.C., and J.O.H. Wan|Resistance in Some Caribbean Populations of Aedes aegypti to Several Insecticides|Am. Mosq. Control Assoc. J.11(1): 59-65|1995|
91103|T||Conolly,R.B., S. Szabo, and R.J. Jaeger|Vinylidene Fluoride:  Acute Hepatotoxicity in Rats Pretreated with PCB or Phenobarbital|Proc. Soc. Exp. Biol. Med.162:163-169|1979|10.3181/00379727-162-40638
91104|A||Viana,S.M., and O. Rocha|The Toxicity of Copper Sulphate and Atrazine to the Diatom Aulacoseira granulata (Ehrenberg) Simmons|Acta Limnol. Brasil.17(3): 291-300|2005|
91108|T||Ema,M., E. Miyawaki, A. Harazono, and K. Kawashima|Developmental Toxicity Evaluation of Phthalic Acid, One of the Metabolites of Phthalic Acid Esters, in Rats|Toxicol. Lett.93(2-3): 109-115|1997|10.1016/S0378-4274(97)00078-7
91109|T||Futakuchi,M., R. Hasegawa, A. Yamamoto, L. Cui, T. Ogiso, N. Ito, and T. Shirai|Low Susceptibility of the Spontaneously Hypertensive Rat (SHR) to Quinoline-Induction of Hepatic Hemangioendothelial Sarcomas|Cancer Lett.104(1): 37-41|1996|10.1016/0304-3835(96)04220-6
91110|T||Jha,A.M., A.C. Singh, and M. Bharti|Germ Cell Mutagenicity of Phthalic Acid in Mice|Mutat. Res.422(2): 207-212|1998|10.1016/S0027-5107(98)00151-1
91111|T||Kim,H.C., S.W. Cha, S.W. Song, C.S. Ha, S.S. Han, J.K. Roh, Y.S. Lee, F. Furukawa, A. Nishikawa, and M. Takahashi|Enhancing Effects of Captafol on the Development of GST-P-Positive Liver Cell Foci in a Medium-Term Bioassay, and Protection by L-Cysteine of the Enhancement in Rats|Cancer Lett.111(1/2): 15-20|1997|
91112|T||Kluwe,W.M., E.E. McConnell, J.E. Huff, J.K. Haseman, J.F. Douglas, and W.V. Hartwell|Carcinogenicity Testing of Phthalate Esters and Related Compounds by the National Toxicology Program and the National Cancer Institute|Environ. Health Perspect.45:129-133|1982|10.1289/ehp.8245129
91113|T||Moreno-Aliaga,M.J., J.C. Arenas-Vidal, A. Berjon, and M.P. Fernandez-Otero|Effects of In Vivo Captan Administration on Cytotoxicity, Gluconeogenesis, ATP Levels, and Parameters Related to Oxidative Stress in Rat Liver|Pestic. Biochem. Physiol.64(3): 185-193|1999|10.1006/pest.1999.2425
91114|T||Paolini,M., J. Barillari, S. Trespidi, L. Valgimigli, G.F. Pedulli, and G. Cantelli-Forti|Captan Impairs CYP-Catalyzed Drug Metabolism in the Mouse|Chem.-Biol. Interact.123(2): 149-170|1999|10.1016/S0009-2797(99)00134-9
91115|T||Yamasaki,K., M. Sawaki, S. Noda, T. Muroi, S. Takakura, H. Mitoma, S. Sakamoto, M. Nakai, and Y. Yakabe|Comparison of the Hershberger Assay and Androgen Receptor Binding Assay of Twelve Chemicals|Toxicology195(2-3): 177-186|2004|10.1016/j.tox.2003.09.012
91116|A||Maenpaa,K.A., O.P. Penttinen, and J.V.K. Kukkonen|Pentachlorophenol (PCP) Bioaccumulation and Effect on Heat Production on Salmon Eggs at Different Stages of Development|Aquat. Toxicol.68(1): 75-85|2004|10.1016/j.aquatox.2004.02.004
91117|T||Lee,P.W., S.M. Stearns, W.R. Powell, D.W. Stoutamire, G.B. Payne, M.D. Woodward, W.B. Burton, E.J. Silveira, and A. Ehm|Metabolic Fate of Cinmethylin in Rats|J. Agric. Food Chem.34(2): 162-170|1986|10.1021/jf00068a003
91118|T||Seth,P.K.|Hepatic Effects of Phthalate Esters|Environ. Health Perspect.45:27-34|1982|10.1289/ehp.824527
91122|T||Fulcher,S.M., C.R. Willoughby, J.A. Heath, G.E. Veenstra, and N.P. Moore|Developmental Toxicity of di-(C7-C9 Alkyl) Phthalate and di-(C9-C11 Alkyl) Phthalate in the Rat|Reprod. Toxicol.15(1): 95-102|2001|10.1016/S0890-6238(00)00120-9
91127|T||Kozumbo,W.J., R. Kroll, and R.J. Rubin|Assessment of the Mutagenicity of Phthalate Esters|Environ. Health Perspect.45:103-109|1982|10.1289/ehp.8245103
91128|T||Provan,W.M., H. Eyton-Jones, G. Lappin, D. Pritchard, R.B. Moore, and T. Green|The Incorporation of Radiolabelled Sulphur from Captan into Protein and Its Impact on a DNA Binding Study|Chem.-Biol. Interact.96(2): 173-184|1995|10.1016/0009-2797(94)03592-V
91132|T||Winberg,L.D., and M.Z. Badr|Mechanism of Phthalate-Induced Inhibition of Hepatic Mitochondrial Beta-Oxidation|Toxicol. Lett.76(1): 63-69|1995|10.1016/0378-4274(94)03199-1
91133|T||Yamasaki,K., S. Noda, N. Imatanaka, and Y. Yakabe|Comparative Study of the Uterotrophic Potency of 14 Chemicals in a Uterotrophic Assay and Their Receptor-Binding Affinity|Toxicol. Lett.146(2): 111-120|2004|10.1016/j.toxlet.2003.07.003
91134|T||Bhalla,P., and D. Agrawal|Alterations in Rat Erythrocyte Membrane due to Hexachlorocyclohexane (Technical) Exposure|Hum. Exp. Toxicol.17:638-642|1998|10.1177/096032719801701109
91135|T||Osborne,G.O., and J.F. Boyd|Studies on the Insect Attractant Resin Durez 12687:  Presence of an Odor Synergist|Ann. Entomol. Soc. Am.68(2): 286-288|1975|10.1093/aesa/68.2.286
91136|T||Jager,T., R. Baerselman, E. Dijkman, A.C. De Groot, E.A. Hogendoorn, A. De Jong, A.W. Kruitbosch, and W.J.G.M. Peijnenb|Availability of Polycyclic Aromatic Hydrocarbons to Earthworms (Eisenia andrei, Oligochaeta) in Field-Polluted Soils and Soil-Sediment Mixtures|Environ. Toxicol. Chem.22(4): 767-775|2003|
91138|T||Fritzenschaf,H., M. Kohlpoth, B. Rusche, and D. Schiffmann|Testing of Known Carcinogens and Noncarcinogens in the Syrian Hamster Embryo (SHE) Micronucleus Test In Vitro; Correlations with In Vivo Micronucleus Formation and Cell Transformation|Mutat. Res.319(1): 47-53|1993|10.1016/0165-1218(93)90029-D
91139|T||Helm,F.C., E. Frankus, E. Friderichs, I. Graudums, and L. Flohe|Comparative Teratological Investigation of Compounds Structurally and Pharmacologically Related to Thalidomide|Arzneim. Forsch.3(2): 941-949|1981|
91141|T||Goff,W.D., and R.W. Miller|Persistence of Fungicides in Inhibiting Germination of Conidia of Mycosphaerella caryigena|Appl. Agric. Res.5(3): 218-222|1990|
91142|T||Phillips II,L., M. Steinberg, H.I. Maibach, and W.A. Akers|A Comparison of Rabbit and Human Skin Response to Certain Irritants|Toxicol. Appl. Pharmacol.21:369-382|1972|10.1016/0041-008X(72)90157-3
91143|T||Teramoto,S., A. Shingu, and Y. Shirasu|Induction of Dominant-Lethal Mutations After Administration of Ethylenethiourea in Combination with Nitrite of the N-Nitroso-Ethylenethiourea in Mice|Mutat. Res.56(3): 335-340|1978|10.1016/0027-5107(78)90202-6
91144|T||Ugazio,G., O. Brossa, and F. Grignolo|Hepato- and Neuro-Toxicity by Ethylenthiourea|Res. Commun. Chem. Pathol. Pharmacol.48(3): 401-414|1985|
91145|T||Ito,N., T. Ogiso, S. Fukushima, M. Shibata, and A. Hagiwara|Carcinogenicity of Captafol in B6C3F1 Mice|Gann75(10): 853-865|1984|
91149|T||Webb,D.R., and C.J. Eckenrode|Pesticide Evaluations to Selected Insect Pest of Beans, 1990|Insectic. Acaric. Tests16:54-55|1991|10.1093/iat/16.1.54a
91150|T||Webb,D.R., C.J. Eckenrode, and M.L. Hessney|Pesticide Evaluations for Selected Insect Pest of Beans, 1991|Insectic. Acaric. Tests17:79-|1992|10.1093/iat/17.1.79
91151|T||Hussain,T., and T. Mahmood|Studies on Seed Treatment of Cotton|Sarhad J. Agric.7(6): 769-772|1991|
91152|T||James,R.L.|Pathogenic Fusarium on Spruce Seed from the Towner Nursery, North Dakota|Rep.No.85-23, U.S.For.Serv.N.Reg.Coop.for Pest Manag.:9 p.|1985|
91153|T||Dwivedi,S.K., and K.P. Singh|Fungitoxicity of Some Higher Plant Products Against Macrophomina phaseolina (Tassi) Goid|Flavour Fragr. J.13(6): 397-399|1998|10.1002/(SICI)1099-1026(199811/12)13:6<397::AID-FFJ762>3.0.CO;2-L
91154|T||O'Neill,T.M., R.J. Cook, and A. Winter|Spray Timing and Control of Septoria tritici in Winter Wheat|Tests Agrochem. Cultiv.9:40-41|1988|
91155|T||Cook,R.J., and C.F. Hayward|Effect of Fungicide and Spray Timing on Control of Septoria tritici on Wheat|Tests Agrochem. Cultiv.9:42-43|1988|
91156|T||Mithyantha,M.S., S.C. Tripathi, and V. Agnihothrudu|Residues of Captafol and Captan in/on a Few Crops|In: A.Regupathy, K.Rajakkannu, and S.Chelliah (Eds.), Pesticides and Environment, Natl.Semin., Aug.4-5, 1983, Dep.of Agric.Entomol.Ctr.for Plant Prot.Stud., Coimbatore, India:90-94|1984|
91158|T||Ramanathan,A., and K. Sivaprakasam|Effect of Seed Treatment with Antagonists and Fungicides on Seed Viability and Seedling Vigour of Chilli|Seed Res.20(2): 134-137|1992|
91159|T||Singh,S., P.C. Pandey, A. Singh, R. Bahadur, and S.N. Mukherjee|Studies on Foliage Diseases of Poplars|Indian For.117(2): 135-142|1991|
91160|T||Klein,M., W. Kozera, and E. Bakuniak|The Influence of new Biologically Active Substances - Potential Pesticides on Mitotic Division in Allium cepa L.|Genet. Pol.26(3): 361-366|1985|
91161|T||Sharma,I.M., and N.K. Sharma|Efficacy of Some Fungicides Against Post-Infection Control of Downy Mildew of Onion|Indian J. Plant Prot.25(1): 32-35|1997|
91162|T||Gupta,R.P., U. Mehra, and U.B. Pandey|Effect of Various Chemicals on Viability of Onion Seed in Storage|Seed Res.17(1): 99-101|1989|
91163|T||De Hondt,H.A., A.F. El-Laithy, and S.M. Ali|Chromosomal and Biochemical Changes Following Captafol Administration to Rats|Egypt. J. Genet. Cytol.11(1): 97-103|1982|
91164|T||Mehrotra,M.D.|Corynespora cassiicola Leaf Spot of Ceiba Pentandra and Its Control in the Nursery|Indian For.115(12): 905-909|1989|
91165|T||Seery,M., and K.J. Clancy|In Vitro Assessment of Effects of Fungicides on Rhizosphaera kalkhoffii|Tests Agrochem. Cultiv.12:34-35|1991|
91166|T||Bambridge,J.M., R.B. Maude, and A. Spencer|Tests of Fungicides as Foliar Sprays for the Control of Septoria apiicola Leaf Spot of Celery|Tests Agrochem. Cultiv.6:46-47|1985|
91167|T||Somani,R.B., R.W. Ingle, D.B. Patil, S.S. Wanjari, and N.R. Potdukhe|Pre-Harvest Fungicidal Sprays on Sorghum Panicles to Control Grain Mold|Crop Res. (Hisar)8(3): 575-577|1994|
91168|T||Mantecon,J.D.|Persistence of Systemic and Non-Systemic Fungicides in the Control of Seedling Blight of Wheat (Fusarium graminearum)|Tests Agrochem. Cultiv.10(114 Suppl): 76-77|1989|
91169|T||Austin,G.E., and G.H. Moyer|Hepatic RNA Synthesis in Rats Treated with Ethylene Thiourea|Res. Commun. Chem. Pathol. Pharmacol.23(3): 639-642|1979|
91170|T||Seegmiller,R.E., M.W. Carter, W.H. Ford, and R.D. White|Induction of Maternal Toxicity in the Rat by Dermal Application of Retinoic Acid and Its Effect on Fetal Outcome|Reprod. Toxicol.4(4): 277-281|1990|10.1016/0890-6238(90)90039-X
91173|T||Dobson,S.C., and J.D.S. Clarkson|Comparison of Fungicides for the Control of White Tip (Phytophthora porri) on Leeks|Tests Agrochem. Cultiv.10:42-43|1989|
91174|T||Teviotdale,B.L., M. Viveros, M.W. Freeman, and G.S. Sibbett|Effect of Fungicides on Shot Hole Disease of Almonds|Calif. Agric.43(3): 21-23|1989|
91175|T||Bhardwaj,L.N., and S.M. Shrestha|Efficacy of Fungicide Application in the Control of Stem Gall of Coriander|Agric. Ecosyst. Environ.13(3/4): 319-323|1985|10.1016/0167-8809(85)90019-2
91176|T||Ashley,W.M., R.E. Smith, and R.R. Dalvi|Hepatotoxicity of Orally and Intraperitoneally Administered Folpet in Male Rats|J. Toxicol. Environ. Health9(5-6): 867-876|1982|10.1080/15287398209530209
91177|T||Varnagy,L.|Preliminary Toxicity and Teratogenicity Testing of Captan in Japanese Quail Embryos|Acta Vet. Hung.29(2): 193-196|1981|
91178|T||Uwagawa,S., H. Tsuda, T. Inoue, Y. Tagawa, T. Aoki, M. Kagawa, T. Ogiso, and N. Ito|Enhancing Potential of 6 Different Carcinogens on Multi-Organ Tumorigenesis After Initial Treatment with N-Methyl-N-Nitrosourea in Rats|Jpn. J. Cancer Res.82(12): 1397-1405|1991|10.1111/j.1349-7006.1991.tb01812.x
91179|T||Hampton,J.G.|Fungicidal Effects on Stem Rust, Green Leaf Area, and Seed Yield in 'Grasslands Nui' Perennial Ryegrass|N. Z. J. Exp. Agric.14(1): 7-12|1986|10.1080/03015521.1986.10426117
91180|T||Mahajan,P.D., and W.D. More|Control of Seed-Borne Diseases of Sunflower by Seed Treatment|J. Maharashtra Agric. Univ.16(2): 294-296|1991|
91181|T||Dalvi,R.R., and M.L. Mutinga|Comparative Studies of the Effects on Liver and Liver Microsomal Drug-Metabolizing Enzyme System by the Fungicides Captan, Captafol and Folpet in Rats|Pharmacol. Toxicol.66(3): 231-233|1990|10.1111/j.1600-0773.1990.tb00739.x
91182|T||Grilli,S., A. Moauro, and M. Mazzullo|In Vivo Fluorimetric Assay of DNA Unwinding as Evidence of the Damage Induced by Folpet in Rat Liver DNA|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control30(5): 1119-1127|1995|
91183|T||Cushman,J.R., and J.C. Street|Contact Sensitivity to Captafol in BALB/c Mice|Contact Dermatitis24(5): 363-365|1991|10.1111/j.1600-0536.1991.tb01751.x
91184|T||Oduor-Owino,P., and S.W. Waudo|Effects of Antagonistic Plants and Chicken Manure on the Biological Control and Fungal Parasitism of Root-Knot Nematode Eggs in Naturally Infested Field Soil|Pak. J. Nematol.13(2): 109-117|1995|
91185|T||Myers,R.F.|Nematodes Associated with Dieback Disease of Cranberries|J. Nematol.23(4S): 629-633|1991|
91187|T||Gould,A.B., and R.M. Sonoda|Damping-Off of Stylosanthes guianensis by Pythium irregulare|Trop. Grassl.23(4): 250-253|1989|
91188|T||Hashim,I., and N.Z. Radziah|Fogging with Fungicides to Control Colletotrichum Secondary Leaf Fall of Hevea Rubber in Malaysia|J. Nat. Rubber Res.2(4): 231-245|1987|
91189|T||Sarhan,A.R.T., F.A. Abdul-Hammed, M. Salam, and A.H. Ashki|Occurrence and Pathogenicity of Damping-Off Fungi of Pine Seedlings in Northern Iraq|Acta Phytopathol. Entomol. Hung.24(3-4): 277-281|1989|
91190|T||Stratton,M.L., G.L. Good, and A.V. Barker|Effects of Selected Soil Fungicides on Nitrification and Growth of Privet in a Pine Bark Medium|J. Plant Nutr.25(1): 159-168|2002|10.1081/PLN-100108787
91191|T||Murai,T., M. Miyazaki, and M. Ozuka|Changes in Insecticide Susceptibility of the Diamondback Moth in Shimane, Japan|Jpn. Agric. Res. Q.26(2): 152-156|1992|
91192|T||Maria,R.|Hinosan Tolerance Developed by Cochliobolus miyabeanus and Pyricularia oryzae|Trop. Agric.64(1): 36-40|1987|
91194|T||Hoss,S., G.F. Severin, W. Jaser, and K.W. Schramm|Effects of 17alpha-Ethinylestradiol and Trenbolone on Growth and Reproduction of Caenorhabditis elegans (Nematoda)|Organohalog. Compd.53:106-108|2001|
91195|T||Cumberland,P.F.T., M. Richold, J.F. Parsons, and M.K. Pratten|Further Evaluation of a Teratogenicity Screen Using an Intravitelline Injection Technique|Toxicol. In Vitro8(2): 153-166|1994|10.1016/0887-2333(94)90178-3
91196|T||Yoshida,A., T. Harada, and K. Maita|Tumor Induction by Concurrent Oral Administration of Ethylenethiourea and Sodium Nitrite in Mice|Toxicol. Pathol.21(3): 303-310|1993|10.1177/019262339302100306
91197|T||Purchio,A.F., and J.J. Muchovej|Organic Solvents as Vehicles of Fungicides in Seeds of Wheat|Fitopatol. Bras. (Multiple Languages)15(3): 226-228|1990|
91198|T||Shah,S.E., and V. Mariappan|Efficacy of New Fungicides Against the Diseases of Rice and Sorghum|Indian J. Mycol. Plant Pathol.22(2): 152-159|1992|
91199|T||Barbetti,M.J.|Evaluation of Fungicides for Control of Cercospora zebrina on Subterranean Clover|Aust. J. Exp. Agric.27(1): 107-111|1987|10.1071/EA9870107
91200|T||Muchovej,J.J., and R.M.C. Muchovej|Alternaria tenuissima Flower Blight of Ti Plant|Fitopatol. Bras. (Multiple Languages)14(3/4): 245-246|1989|
91201|T||Fullerton,R.A., and A. Stewart|Chemical Control of Onion White Rot (Sclerotium cepivorum Berk.) in the Pukekohe District of New Zealand|N. Z. J. Crop Hortic. Sci.19(2): 121-127|1991|10.1080/01140671.1991.10421789
91202|T||O'Neil,W.M., and W.D. Marshall|Goitrogenic Effects of Ethylenethiourea on Rat Thyroid|Pestic. Biochem. Physiol.21(1): 92-101|1984|10.1016/0048-3575(84)90077-4
91203|T||Lewis,G.C.|Effect of Soil-Borne Pathogens on Ryegrass and White Clover Seedlings and Their Control|BCPC Monogr. - Br. Crop Prot. Counc.29:82-89|1985|
91204|T||Moreno-Martinez,E., A. Rivera, and M. Vazquez Badillo|Effect of Fungi and Fungicides on the Preservation of Wheat Seed Stored with High and Low Moisture Content|J. Stored Prod. Res.34(4): 231-236|1998|10.1016/S0022-474X(97)00059-3
91205|T||Nyska,A., T. Waner, Z. Paster, P. Bracha, E.B. Gordon, and B. Klein|Induction of Gastrointestinal Tumors in Mice Fed the Fungicide Folpet: Possible Mechanisms|Jpn. J. Cancer Res.81(6-7): 545-549|1990|10.1111/j.1349-7006.1990.tb02604.x
91206|T||Tamano,S., Y. Kurata, M. Kawabe, A. Yamamoto, A. Hagiwara, R. Cabral, and N. Ito|Carcinogenicity of Captafol in F344/DuCrj Rats|Jpn. J. Cancer Res.81(12): 1222-1231|1990|10.1111/j.1349-7006.1990.tb02683.x
91207|T||Solanke,R.B., and S.S. Kore|Effects of Fungicides on Seed Mycoflora and Germination in Sorghum|J. Maharashtra Agric. Univ.18(2): 322-323|1993|
91208|T||Perane,R.R., and M.B. Joi|Studies on Seed Borne Infection of Fruit-Rot and Die-Back of Chillies|J. Maharashtra Agric. Univ.13(2): 231-232|1988|
91209|T||Kamat,S.R., K.L. Ojha, and B.P. Yadav|Micro-Organisms Associated with Onion Bulb and Their Control|Indian J. Plant Pathol.5(2): 193-194|1987|
91210|T||Dow Corning Corp.|Effects of the Antitranspirant Dow Corning XEF4-3561 on Selected Laboratory Insects and on Field Arthropods on a North Idaho Catchment, with Cover Letter Dated  4/20/94|EPA/OTS Doc.#86-940001311:25 p.|1994|
91211|T||Hall,I.R., R. Kissel, and R. Byars|Factors Affecting the Establishment and Growth of Cocksfoot Oversown into Tussock Grassland|N. Z. J. Agric. Res.30(2): 131-137|1987|10.1080/00288233.1987.10430488
91213|T||Hasan,H.A.H.|Phytotoxicity of Pathogenic Fungi and Their Mycotoxins to Cereal Seedling Viability|Mycopathologia148(3): 149-155|1999|10.1023/A:1007164617175
91215|T||Solanke,R.B., S.S. Kore, and M.M. Hussaini|Seed-Borne Fungi of Rapeseed (Mustard) and Tolerance of Fusarium moniliforme to Various Seed Dressers|J. Maharashtra Agric. Univ.22(2): 171-173|1997|
91216|T||Gupta,G.K.|Pre-Leaf Fall Spray of Chemicals and Cow Urine in Suppression of Ascospores|Pesticides 23(10): 23-24|1989|
91217|T||Vijayalakshmi,M., and A.S. Rao|Influence of Fungicides on Vesicular-Arbuscular Mycorrhizae in Sesamum indicum L.|Zentbl. Mikrobiol.148(7): 483-486|1993|10.1016/S0232-4393(11)80196-4
91218|T||Bhattacharyya,B., and R.P. Purkayastha|Alteration of Chemical Environment of Jute Phylloplane and Its Impact on Foliar Microbes and Anthracnose Disease|Int. J. Trop. Plant Dis.6(1): 77-84|1988|
91219|T||Prasad,N.V.K., and K.C. Basuchaudhary|Seed Borne Mycoflora of Ragi (Eleusine coracana (L.) Gaertn.) from Andhra Pradesh India and Their Control|Int. J. Trop. Plant Dis.5(2): 181-187|1987|
91220|T||Kumar,R., and N. Lakpale|Impact of Fungicidal Application on Some Organic Constituents of Rust Infected Groundnut Leaves|Geobios26(1): 67-68|1999|
91221|T||Murthy,B.R., P.S.S. Rao, and K.V. Mallaiah|Effect of Fungicides on Conidial Germination and Germtube Growth of Helminthosporium gossypii Tucker|Indian Bot. Rep.4(1): 79-80|1985|
91227|T||Parihar,S.K., and R.V. Kodmelwar|Effect of Fungicides on the Germination and Fungal Population of Safflower Seed During Storage|PKV Res. J.19(2): 202-203|1995|
91228|T||Khodke,S.W., and K.B. Gahukar|Fruit Rot Disease of Chilli Caused by Alternaria alternata (Fr.) Keissler in Maharashtra|PKV Res. J.17(2): 206-207|1993|
91229|A||McLeod,P.B., M.J. Van den Heuvel-Greve, R.M. Allen-King, S.N. Luoma, and R.G. Luthy|Effects of Particulate Carbonaceous Matter on the Bioavailability of Benzo[a]pyrene and 2,2',5,5'-Tetrachlorobiphenyl to the Clam, Macoma balthica|Environ. Sci. Technol.38(17): 4549-4556|2004|10.1021/es049893b
91230|T||Venkatesan,N., and W.J. Steele|Effects of Phenobarbital on Protein Synthesis and Polysome Levels in Rat Liver|Chem.-Biol. Interact.11:41-54|1975|10.1016/0009-2797(75)90065-4
91232|T||DePass,L.R., E.H. Fowler, D.R. Meckley, and C.S. Weil|Dermal Oncogenicity Bioassays of Acrylic Acid, Ethyl Acrylate, and Butyl Acrylate|J. Toxicol. Environ. Health14:115-120|1984|10.1080/15287398409530566
91233|T||Short,C.R., W. Flory, M.L. Hardy, K.M. Kerr, and T.G. Pullin|Subacute Toxicity of Methylene-Bis-(2,6-Diisopropylaniline) in the Rat and Hamster|J. Toxicol. Environ. Health14:433-451|1984|10.1080/15287398409530591
91234|T||Tsuda,H., K. Matsumoto, H. Ogino, M. Ito, I. Hirono, M. Nagao, K. Sato, R. Cabral, and H. Bartsch|Demonstration of Initiation Potential of Carcinogens by Induction of Preneoplastic Glutathione S-Transferase P-Form-Positive Liver Cell  Foci:  Possible In Vivo Assay System for Environmental Carcinogens|Jpn. J. Cancer Res.84(3): 230-236|1993|10.1111/j.1349-7006.1993.tb02861.x
91235|T||Yoshida,T., T. Oguro, S. Numazawa, and Y. Kuroiwa|Effect of Diethyl Maleate on Hipatic Ornithine Decarboxylase|Toxicol. Appl. Pharmacol.92:194-202|1988|10.1016/0041-008X(88)90379-1
91236|A||Petrocelli,S.R., J.W. Anderson, and A.R. Hanks|Controlled Food-Chain Transfer of Dieldrin Residues from Phytoplankters to Clams|Mar. Biol.31(3): 215-218|1975|10.1007/BF00387149
91237|T||Kough,J.L., V. Gianinazzi-Pearson, and S. Gianinazzi|Depressed Metabolic Activity of Vesicular-Arbuscular Mycorrhizal Fungi After Fungicide Applications|New Phytol.106(4): 707-715|1987|10.1111/j.1469-8137.1987.tb00171.x
91238|T||Solanke,R.B., and S.S. Kore|Effects of Fungicidal Seed Treatment on Germination, Vigour and Mycoflora in Cotton|J. Maharashtra Agric. Univ.16(3): 450-451|1991|
91239|T||Mukewar,P.M., S. Raj, and M.K. Meshram|Evaluation of Fungicides for the Elimination of Seed-Borne Infection of Alternaria macrospora in Gossypium arboreum|Indian J. Plant Prot.23(2): 180-184|1995|
91240|T||Le Roux,J., and D. Muller|Chemical Seed Treatments to Control Seedborne Stinking and Loose Smut Diseases of Wheat in South Africa|Phytophylactica17(3): 149-151|1985|
91241|T||Gaur,R.B.|Chemical Control of Fusarium solani (Mart.) Sacc. and Varietal Resistance to Root-Rot of Onion|Indian J. Plant Prot.18(2): 291-293|1990|
91242|A||Hughes,J.S.|The Toxicity to Fish of Different Formulations of 2,4,5-T, 2-(2,4-DP) and Silvex|Proc. South. Weed Conf.15:5 p.|1962|
91243|A||Kudo,A.|Mercury Transfer from Bed Sediments to Freshwater Fish (Guppies)|J. Environ. Qual.5(4): 427-430|1976|10.2134/jeq1976.00472425000500040022x
91244|A||Fredeen,F.J.H., J.G. Saha, and M.H. Balba|Residues of Methoxychlor and Other Chlorinated Hydrocarbons in Water, Sand, and Selected Fauna Following Injections of Methoxychlor Black Fly Larvicide into the Saskatchewan River, 1972|Pestic. Monit. J.8(4): 241-246|1975|
91245|A||Henkel Corp.|Fish Toxicity Studies on Nopcocide SQH with Cover Letter Dated 060989|EPA/OTS Doc.#86-890000414:15 p.|1989|
91246|T||Ware,G.W., B. Estesen, and W.P. Cahill|Organophosphate Residues on Cotton in Arizona|Bull. Environ. Contam. Toxicol.8(6): 361-362|1972|10.1007/BF01684775
91247|T||Menn,J.J.|The Metabolism of Phorate, an Organophosphorus Insecticide, in Three Insect Species|J. Econ. Entomol.55(1): 90-96|1962|10.1093/jee/55.1.90
91248|A||Henkel Corp.|Fish Toxicity Studies on Nopcocide 150 with Attachments and Cover Sheet Dated 060989|EPA/OTS Doc.#86-890000416:32 p.|1989|
91249|T||Yaguzhinskaya,L.V.|On the Mode of Action of Insecticides|Usp. Sovrem. Biol.45(2): 185-199|1958|
91250|A||Thomaston,W.W., P.C. Pierce, and H.N. Wyatt|Experimental Use of Silvex and Other Aquatic Herbicides in Georgia Farm Ponds|Ann. Conf. Southeast. Assoc. Game Fish Comm.13:101-107|1959|
91251|T||Tronsmo,A., S.S. Klemsdal, C.K. Hayes, M. Lorito, and G.E. Harman|The Role of Hydrolytic Enzymes Produced by Trichoderma harzianum in Biological Control of Plant Diseases|In: P.Suominen and T.Reinikainen (Eds.), Found.for Biotech.and Ind.Ferment.Res.Publ., Vol.8, Trichoderma Ressei Cellulases and Other Hydrolases: Enzyme Structures, Biochemistry, Genetics, and Applications, The Tricel93 Symp., Helsinki, Finland:159-168|1993|
91254|T||Lafarge-Frayssinet,C., and F. Decloitre|Modulatory Effect of the Pesticide Captan on the Immune Response in Rats and Mice|J. Immunopharmacol.4(1-2): 43-52|1982|10.3109/08923978209031074
91255|T||Hassan,S.M.M., and E.T. Eid|Effect of Seed Size and Seed Treatments on Fruiting Characters and Chemical Constituents of Cotton Plants|Ann. Agric. Sci.31(1): 175-188|1986|
91256|T||Luthy,C., H. Zondler, T. Rapold, G. Seifert, B. Urwyler, T. Heinis, H.C. Steinrucken, and J. Allen|7-(4,6-Dimethoxypyrimidinyl)Oxy- and -Thiophthalides as Novel Herbicides:  Part 1. CGA 279 233:  A New Grass-Killer for Rice|Pest Manag. Sci.57(3): 205-224|2001|10.1002/ps.304
91257|T||Mathur,A.K., and A.K. Sobti|Control of Clump Virus of Groundnut (Arachis hypogaea) by Fungicides and Biocides|Indian J. Agric. Sci.63(2): 134-135|1993|
91258|T||Kalra,A., N.S. Ravindra, and R.S. Chandrashekhar|Influence of Foliar Application of Fungicides on Dieback Disease Caused by Pythium aphanidermatum and Alkaloid Yield of Periwinkle (Catharanthus roseus)|Indian J. Agric. Sci.61(12): 949-951|1991|
91259|T||Chaudhari,S.M., and A.J. Patel|Chemical Control of Alternaria Blight and Ramularia Blight of Fennel (Foeniculum vulgare)|Indian J. Mycol. Plant Pathol.17(3): 348-350|1987|
91260|T||Lewis,G.C.|Factors Influencing the Effects of Fungicide Treatment on Seedling Emergence of Perennial Ryegrass (Lolium perenne)|Grass Forage Sci.44(4): 417-422|1989|10.1111/j.1365-2494.1989.tb01941.x
91261|T||Elmholt,S., and V. Smedegaard-Petersen|Side-Effects of Field Applications of 'Propiconazol' and 'Captafol' on the Composition of Non-Target Soil Fungi in Spring Barley|J. Phytopathol. (Berl.)123(1): 79-88|1988|10.1111/j.1439-0434.1988.tb01039.x
91262|T||Maronpot,R.R., M.B. Shimkin, H.P. Witschi, L.H. Smith, and J.M. Cline|Strain A Mouse Pulmonary Tumor Test Results for Chemicals Previously Tested in the National Cancer Institute Carcinogenicity Tests|J. Natl. Cancer Inst.76(6): 1101-1112|1986|
91263|T||Jordan,M.M., R.B. Maude, and R.T. Burchill|Tests of Fungicides for the Control of Leaf Blotch Diseases:  Cladosporium allii of Leek and C. allii-cepae of Onion|Crop Prot.9(5): 367-370|1990|10.1016/0261-2194(90)90009-V
91264|T||Yadav,M.S., and J.C. Duhan|Effect of Fungicidal Seed Treatment by Seed Dressers on Storage Life and Survival of Smut Spores of Pearl Millet|Crop Res. (Hisar)18(1): 124-126|1999|
91265|T||Michailides,T.J.|Russeting and Russet Scab of Prune, an Environmentally Induced Fruit Disorder: Symptomatology, Induction, and Control|Plant Dis.75(11): 1114-1123|1991|10.1094/PD-75-1114
91266|T||Hasmall,S.C., and R.A. Roberts|The Nongenotoxic Hepatocarcinogens Diethylhexylphthalate and Methylclofenapate Induce DNA Synthesis Preferentially in Octoploid Rat Hepatocytes|Toxicol. Pathol.28(4): 503-509|2000|10.1177/019262330002800401
91268|T||Jenkyn,J.F., O.J. Stedman, G.V. Dyke, and A.D. Todd|Effects of Straw Inoculum and Fungicides on Leaf Blotch (Rhynchosporium secalis), Growth and Yield of Winter Barley|J. Agric. Sci.112(1): 85-95|1989|10.1017/S0021859600084148
91269|T||Jones,H.B., D.A. Garside, R. Liu, and J.C. Roberts|The Influence of Phthalate Esters on Leydig Cell Structure and Function In Vitro and In Vivo|Exp. Mol. Pathol.58(3): 179-193|1993|10.1006/exmp.1993.1016
91270|T||Mir,N.M., A.K. Dhar, M.A. Khan, H. Dar, and M.Y. Zargar|Screening of Fungicides for Field Control of Downy Mildew (Peronospora destructor) on Onion|Indian J. Mycol. Plant Pathol.17(3): 321-322|1987|
91271|T||Kalra,A., T.N. Parameswaran, and N.S. Ravindra|Fungicidal Control of Leaf Blight of Geranium (Pelargonium graveolens)|Indian J. Agric. Sci.62(12): 844-847|1992|
91272|T||Sugha,S.K., P.D. Tyagi, and R.K. Develash|Effect of Heat Treatment of Bulb and Spray of Fungicides in Management of Purple Blotch (Alternaria porri) of Onion (Allium cepa)|Indian J. Agric. Sci.63(5): 303-305|1993|
91273|T||Mathew,G., M.A. Rahiman, and K.K. Vijayalaxmi|In Vivo Genotoxic Effects in mice of Metacid 50, an Organophosphorus Insecticide|Mutagenesis5(2): 147-149|1990|10.1093/mutage/5.2.147
91274|T||Olunloyo,O.A.|Effect of Captafol-Dimethoate Spray Combination on Inflorescence Blight Disease and Yield of Cashew|Fitopatol. Bras. (Multiple Languages)18(3): 379-383|1993|
91275|T||Kansal,S., and J.L. Kaul|Effectivity of Lay-By and No-Lay-By in Conjunction with Fungicides on Sclerotium Root Rot of Yellow Horned Poppy|Indian J. Mycol. Plant Pathol.24(3): 230-231|1994|
91276|T||Solanke,R.B., and S.S. Kore|Influence of Fungicidal Seed Treatment on Germination, Vigour and Seed Mycoflora in Sunflower Cv EC-68414 Under Storage Condition|Indian J. Mycol. Plant Pathol.23(1): 97-99|1993|
91277|T||Haskell Laboratory|Initial Submission:  4,6-Dimethyl-1-Pyrimidinamine:  Ten-Dose Oral Subacute Test in Rats with Cover Sheets and Letter Dated 082092|EPA/OTS Doc.#88-920006813:30 p.|1992|
91278|T||DuPont Chemical Corp.|Initial Submission:  Oral Approximate Lethal Dose (ALD) Study in Rats with 2-Pyrimidinamine, 4,6-Dimethyl- Submitted as a Letter Dated 020895|Du Pont, Newark, DE:3 p.|1995|
91279|T||E.I. Du Pont De Nemours|Support:  Approximate Lethal Dose (ALD) of H-20924 in Rats, with Cover Letter Dated 4/17/95 (Sanitized)|Du Pont, Newark, DE:10 p.|1995|
91280|A||Erickson,R.C.|Effects of Chronic Irradiation by Tritiated Water on Poecilia Reticulata, the Guppy|In: Proceedings of the Third National Symposium on Radioecology, Oak Ridge, TN :1091-1099|1973|
91281|A||Blaylock,B.G., and T.J. Mitchell|The Effect of Temperature on the Dose Response of Gambusia affinis affinis from Two Natural Populations|Radiat. Res.40:503-511|1969|10.2307/3573003
91282|T||DuPont Chemical Corp.|Initial Subsission:  Acute Oral Toxicity Study with IN-N976-134 in Male & Female Rats with Cover Letter Dated 082092|EPA/OTS Doc.#88-920008332:12 p.|1992|
91286|T||Tilak,K.S., K. Veeraiah, and L.V.M. Sastry|Bioaccumulation of Fenvalerate Technical Grade in Different Organs of the Frog Haplobatrachus tigerinus (Daudin)|J. Environ. Biol.24(3): 261-264|2003|
91289|T||Chauhan,H.L., and M.H. Patel|Etiology of Complex Rhizome Rot of Ginger (Zinziber officinale) in Gujarat and In-Vitro Screening of Fungicides Against Its Causal Agents|Indian J. Agric. Sci.60(1): 80-81|1990|
91290|T||Ono,H., Y. Saito, K. Imai, and M. Kato|Subcellular Distribution of di-(2-Ethylhexyl)Phthalate in Rat Testis|J. Toxicol. Sci.29(2): 113-124|2004|10.2131/jts.29.113
91291|T||Dugan,F., and G.M. Blake|Penetration and Infection of Western Larch Seedlings by Botrytis cinerea|Can. J. Bot.67(9): 2596-2599|1989|10.1139/b89-335
91292|T||Singh,P.L., and A.L. Singh|Screening of Fungicides and Fumigants for Their Use in Storage of Chilgoza (Pinus gerardiana Wall.) Seed|Indian J. Mycol. Plant Pathol.23(1): 58-63|1993|
91296|A||Vethaak,A.D., J. Lahr, S.M. Schrap, A.C. Belfroid, G.B.J. Rijs, A. Gerritsen, J. De Boer, A.S. Bulder, G.C.M. Grinwis, |An Integrated Assessment of Estrogenic Contamination and Biological Effects in the Aquatic Environment of the Netherlands|Chemosphere59(4): 511-524|2005|10.1016/j.chemosphere.2004.12.053
91299|T||Symeonidis,L.A.|The Effects of Dibrom on Shoot Esterase and Certain Stages of Development in the Genus Taeniatherum (Poaceae)|Phyton (Horn) (Multiple Languages)25(2): 233-240|1985|
91300|T||Fox,I., and D. De Leon|Efficacy of Collars Containing Dichlorvos, Naled, or Stirofos Against Fleas on Persian Cats in Puerto Rico|J. Agric. Univ. P. R.69(3): 421-427|1985|10.46429/jaupr.v69i3.7370
91301|T||Fox,I., and D. De Leon|Evaluation of Insecticides in Collars and Powders Against the Cat Fur Mite Felistrophorus radofskyi (Tenorio) on Persian Cats|J. Agric. Univ. P. R.66(2): 139-144|1982|10.46429/jaupr.v66i2.7657
91302|T||Murdoch,C.L., and W.C. Mitchell|Insect Control in 'Sunturf' Bermudagrass|Hawaii Farm Sci.21(2): 1, 11-12|1972|
91303|T||Gomez-Arroyo,S., A.M. Baiza, G. Lopez, and R. Villalobos-Pietrini|A Comparative Study of the Cytogenetic Effects of the Insecticides Heptachlor Malathion and Methyl Parathion in Vicia faba|Contam. Ambiental1(1): 7-16|1985|
91305|T||Nagymajtenyi,L., H. Schulz, and I. Desi|Changes in EEG of Freely-Moving Rats Caused by Three-Generation Organophosphate Treatment|Arch. Toxicol. Suppl.17:288-294|1995|10.1007/978-3-642-79451-3_23
91306|T||Soininen,H., L. Unni, and S. Shillcutt|Effect of Acute and Chronic Cholinesterase Inhibition on Biogenic Amines in Rat Brain|Neurochem. Res.15(12): 1185-1190|1990|10.1007/BF01208578
91307|T||Khera,K.S., C. Whalen, G. Trivett, and G. Angers|Teratological Assessment of Maleic Hydrazide and Daminozide, and Formulations of Ethoxyquin, Thiabendazole and Naled in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. WastesB14(6): 563-577|1979|
91308|T||Kumar,K.B.S., and K.S. Devi|Teratogenic Effects of Methyl Parathion in Developing Chick Embryos|Vet. Hum. Toxicol.34(5): 408-410|1992|
91309|T||Schwartz,P.H., L.A. Hickey, D.W. Hamilton, and T.L.Jr. Ladd|Combinations of Insecticides and Baits for the Japanese Beetle|J. Econ. Entomol.62(3): 738-740|1969|10.1093/jee/62.3.738
91310|A||Rao,K.S.P., and K.V.R. Rao|The Possible Role of Glucose-6-Phosphate Dehydrogenase in the Detoxification of Methyl Parathion|Toxicol. Lett.39(2-3): 211-214|1987|10.1016/0378-4274(87)90235-9
91311|A||Rambabu,J.P., and M.B. Rao|Effect of an Organochlorine and Three Organophosphate Pesticides on Glucose, Glycogen, Lipid, and Protein Contents in Tissues of the Freshwater Snail Bellamya dissimilis (Muller)|Bull. Environ. Contam. Toxicol.53(1): 142-148|1994|
91312|T||Monsanto Co.|21-Day Chick Edema with P/R Orthene Recovery in White Leghorn Chickens with Attached Letter|EPA/OTS 878211629:16 p.|1983|
91313|T||Dow Chemical Co.|Summary of Results of Toxicological Studies on p-Dichlorobenzene|EPA/OTS Doc.#878211359:12 p.|1982|
91315|T||Monsanto Co.|21-Day Chick Edema Study with P/R Dichlorobenzene in White Leghorn Chickens|EPA/OTS Doc.#878211628:16 p.|1983|
91316|A||Dow Chemical Co.|A Study to Assess the Influence of Age on the Response of Fathead Minnows in Static Acute Toxicity Tests with Cover Letter|EPA/OTS 878221113:31 p.|1982|
91320|A||Mayes,M.A., M.G. Barron, T.J. Shafer, D.P. Milazzo, P.G. Murphy, and E.A. Bartlett|Evaluation of the 7-Day Static Renewal Test for Subchronic Toxicity of Chemicals to Fathead Minnow (Pimphales promelas) Larvae (Final Report) with Cover Letter Dated 021888|EPA/OTS Doc.#86-880000148:27 p.|1988|
91321|T||Rohm and Haas Co.|Acute Toxicity Report|EPA/OTS Doc.#878212183:2 p.|1982|
91322|A||Dill,D.C., M.A. Mayes, and Q.V. Shier|The Toxicity of Chemicals to the Freshwater Green Alga, Selenastrum capricornutum Printz|EPA/OTS Doc.#878211302:28 p.|1982|
91323|T||Dow Chemical Co.|The Feeding of p-Dichlorobenzene (K1323) to Ducks in an Attempt to Produce Cataracts|EPA/OTS Doc.#878211358:17 p.|1944|
91324|A||Dow Chemical Co.|A Dynamic Toxicity Study of p-Dichlorobenzene to Bluegill|EPA/OTS Doc.#878211361:7 p.|1982|
91325|A||Dow Chemical Co.|A Modified Static Toxicity Test and Bio-Accumulation of Monochlorobenzene in Rainbow Trout|EPA/OTS Doc.#878211218:3 p.|1982|
91328|T||Haji,H.M., and J.E. Brandle|Evaluation of Host Resistance and Soil Fumigation for the Management of Black Root Rot of Tobacco in Ontario|Plant Dis.85(11): 1145-1148|2001|10.1094/PDIS.2001.85.11.1145
91329|T||Lear,B., W.F. Mai, J. Feldmesser, and F.J. Spruyt|Soil Fumigation Experiments on Long Island, New York, to Control Golden Nematode of Potatoes|Phytopathology42:193-196|1952|
91330|T||Lim,W.H.|Bunchy and Malformed Top of Papaya cv. Eksotika Caused by Thrips parvispinus and Cladosporium oxysporum|MARDI Res. J.17(2): 200-207|1989|
91331|T||Fife,J.H., B.R. Leonard, K.D. Torrey, J.B. Graves, and J.W. Holloway|Efficacy of Pirate 3SC Tank Mixtures Against Bollworm/Tobacco Budworm (BW/TBW) in Cotton, 1996|Arthropod Manag. Tests22:253-254|1997|10.1093/amt/22.1.253
91332|T||Palumbo,J.C.|Efficacy of Selected Insecticides for Control of Cabbage Looper in Cauliflower|Arthropod Manag. Tests22:116-|1997|
91333|T||Rich,J.R., and G.W. Bird|Association of Early-Season Vesicular-Arbuscular Mycorrhizae with Increased Growth and Development of Cotton|Phytopathology64(11): 1421-1425|1974|10.1094/Phyto-64-1421
91334|T||Middleton,J.T., M.W. Stone, and J.B.,Jr. Kendrick|Incidence of Lima Bean Root Rot in Soils Treated with Fumigants and Insecticides for Control of Wireworms|Phytopathology39:813-821|1949|
91335|T||Taylor,J.D., R.M. McPherson, and B.D. Crowe|Control of Insect Pests on Soybeans, 1995|Arthropod Manag. Tests22:317-318|1997|10.1093/amt/22.1.317
91336|T||Clemens,C.G., B.J. Fitzpatrick, M.L. Boyd, R.N. Mascarenhas, D.J. Boethel, D. Cook, and G. Burris|Bean Leaf Beetle and Soybean Looper Control on Soybean, 1996|Arthropod Manag. Tests22:310-|1997|10.1093/amt/22.1.310
91337|T||Shelton,A.M., and W.T. Wilsey|Control of Lepidopterous Insects on Corn with Foliar Applications, 1996|Arthropod Manag. Tests22:124|1997|10.1093/amt/22.1.124
91338|T||Spangler,S.M., T. Grove, P. Rebarchak, and D. Calvin|Control of Ear-Infesting Insects on Sweet Corn 1996|Arthropod Manag. Tests22:125-126|1997|10.1093/amt/22.1.125
91339|T||Phipps,P.M.|Control of Cylindrocladium Black Rot of Peanut with Soil Fumigants Having Methyl Isothiocyanate as the Active Ingredient|Plant Dis.74(6): 438-441|1990|10.1094/PD-74-0438
91340|T||Boyd,M.L., D.J. Boethel, B.J. Fitzpatrick, R.N. Mascarenhas, V.J. Mascarenhas, C.G. Clemens, P.R. Vidrine, and S.H. Moo|Evaluation of Microbial Insecticides for Management of Soybean Looper, 1996|Arthropod Manag. Tests22:307-308|1997|10.1093/amt/22.1.307
91341|T||Campbell,R.N., A.S. Greathead, and F.V. Westerlund|Big Vein of Lettuce: Infection and Methods of Control|Phytopathology70(8): 741-746|1980|10.1094/Phyto-70-741
91342|T||Tisdale,W.B.|Chemical Treatments of Soil for Seedbeds and Gardens|Proc. Annu. Meet. Fla. State Hortic. Soc.58:229-232|1945|
91343|T||McGovern,R.J., and C.S. Vavrina|Reduction of Fusarium Crown and Root Rot in Tomato by 1,3-Dichloropropene Plus Chloropicrin in Southwest Florida|Proc. Soil Crop Sci. Soc. Fla.63:96-99|2004|
91344|T||Fiedler,O.G.H.|Notes on the Susceptibility of Millipedes (Diplopoda) to Insecticides|J. Entomol. Soc. South. Afr.27(2): 219-225|1965|
91345|T||Biswas,S., K. Kumar, and K. Singh|The Stegomyia Survey and Susceptibility Status of Aedes aegypti to Insecticides in Calcutta Seaport Area|J. Commun. Dis.20(3): 253-259|1988|
91346|A||Omkar|Malathion Induced Changes in the Carbohydrate Metabolism of Freshwater Prawn, Macrobrachium lamarrei (H. Milne Edwards)|Biol. Mem.17(3): 111-115|1991|
91347|T||Beaudoin,A.R., and D.L. Fisher|An In Vivo/In Vitro Evaluation of Teratogenic Action|Teratology23(1): 57-61|1981|10.1002/tera.1420230108
91348|T||Vidyasekhar,S.M., G.P.V. Reddy, M.M.K. Murthy, and B. Nagalingam|Efficacy of Certain Newer Insecticides Against the Sucking Pests of Rainfed Cotton|Pesticides 23(8): 45-48|1989|
91349|T||Colburn,R.B., and G.S. Langford|Field Evaluation of Some Mosquito Adulticides with Observations on Toxicity to Honey Bees and House Flies|Mosq. News30(4): 518-522|1970|
91350|T||Draughon,F.A., M.E. Elahi, D.C. Churchville, and D.R. West|Pesticide Inhibition of Aflatoxin and Zearalenone Production in Corn and in Culture|Tenn. Farm Home Sci.140:3-7|1986|
91351|T||Pillai,K.S., A.T. Mathai, and P.B. Deshmukh|Subacute Toxicity of Naled to Glutathione Levels in the Kidney and the Liver of Pigeon, Columba livia|J. Adv. Zool.10(1): 16-19|1989|
91352|T||Pillai,K.S., A.T. Mathai, and P.B. Deshmukh|Effect of Naled on the Glutathione Levels in the Kidney and Liver of Chicken|J. Adv. Zool.11(1): 57-59|1990|
91353|T||Dhondup,P., and B.B. Kaliwal|Inhibition of Ovarian Compensatory Hypertrophy by the Administration of Methyl Parathion in Hemicastrated Albino Rats|Reprod. Toxicol.11(1): 77-84|1997|10.1016/S0890-6238(96)00199-2
91354|T||Stoltz,R.L., and N.A. Matteson|Wheat Aphid Control in Spring Wheat, 1994|Arthropod Manag. Tests20:269-|1995|10.1093/amt/20.1.269
91355|T||Swier,S.R., and J.S. Weaver III|Efficacy of Penncap M in the Control of Eastern Spruce Gall Adelgid, 1992|Arthropod Manag. Tests19:349-|1994|
91356|T||Swier,S.R., and J.S. Weaver III|Control of Balsam Twig Aphid with Penncap M, 1992|Arthropod Manag. Tests19:345-346|1994|
91357|T||Grover,I.S., and P.K. Malhi|Genotoxic Effects of Some Organophosphorus Pesticides V. Chlorophyll Deficient Mutants in Barley|J. Environ. Biol.10(1): 1-11|1989|
91358|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Thrips Control on Onions, 1994|Arthropod Manag. Tests20:100-101|1995|
91359|T||Boetel,M.A., B.W. Fuller, M.A. Brinkman, M.A. Catangui, E.M. Kahler, J.M. Jenson, D.J. Thompson, D.J. Nelson, R.W. Kiec|Foliar Rescue Insecticide Applications for Management of Russian Wheat Aphids in South Dakota Winter Wheat, 1994|Arthropod Manag. Tests20:264-265|1995|10.1093/amt/20.1.264
91360|T||Kumar,K.B.S., and K.S. Devi|Methyl Parathion Induced Teratological Study in Rats|J. Environ. Biol.17(1): 51-57|1996|
91361|A||Devi,K.M., and V. Gopal|Biomonitoring - Potential of Growth Rate of Ophiocephalus striatus|Indian J. Environ. Health33(4): 452-455|1991|
91362|A||Gopal,V., and K.M. Devi|Biomonitoring of Heavy Metal and Pesticide Pollution|Indian J. Environ. Health33(4): 488-491|1991|
91363|T||De Schryver,E., L. De Reu, F. Belpaire, and J. Willems|Toxicokinetics of Methyl Paraoxon in the Dog|Arch. Toxicol.59(5): 319-322|1987|10.1007/BF00295082
91364|T||Ceron,J.J., A. Barba, M.A. Camara, and C. Gutierrez|Lindane and Methylparathion Residue Degradation in Carnation Byproduct (Dianthus caryophyllus L.) Under Different Environmental Conditions|Bull. Environ. Contam. Toxicol.54(1): 150-157|1995|10.1007/BF00196282
91365|T||Mansour,S.A., and M.H. Zein-El-Abdin|Bioassay Evaluation of Toxicity, Persistence and Residues of Some Acaricides in Field-Laboratory Tests|Ann. Agric. Sci.30(1): 639-647|1985|
91366|T||Kerns,D.L., and T. Tellez|Efficacy of Insecticides to Lygus in Cotton, 1996|Arthropod Manag. Tests22:257-258|1997|10.1093/amt/22.1.257a
91367|T||Pillai,K.S., A.T. Mathai, and P.B. Deshmukh|Calculation of LD50 of an Organophosphorus Insecticide, Naled (Formulation) Using Less Number of Animals|Geobios17(2-3): 124-126|1990|
91368|A||Sundt,R.C., and T. Baussant|Uptake, Tissue Distribution and Elimination of C4-C7 Alkylated Phenols in Cod.  Dietary vs. Waterborne Exposure|Rep.No.AM-2--3/001,Akvamiljo,A.S.,Mekjarvik,12,4070 Randaberg:27 p.|2003|
91369|T||Matsushita,T., K. Aoyama, K. Yoshimi, Y. Fujita, and A. Ueda|Allergic Contact Dermatitis from Organophosphorus Insecticides|Ind. Health23(2): 145-153|1985|10.2486/indhealth.23.145
91370|T||Karasek,E., J. Guttner, and Angelika Polzenhagen|Severe Nephrosis by Application of Pesticides in a Mice Breeding Unit|Z. Versuch.28(6): 251-256|1986|
91371|T||Kehat,M., D. Blumberg, and S. Greenberg|Vaporisation Tests for Controlling Red Spider Mite on Greenhouse Roses|Int. Pest Control11(3): 14-17|1969|
91372|T||Reddy,V.S., and B.M. Reddy|Effect of Seed Protectants on Storability of Egg Plant (Solanum melongena L.) Seed|Seed Res.22(2): 181-183|1994|
91377|A||Deng,D.F., S.S.O. Hung, and S.J. Teh|Selenium Depuration: Residual Effects of Dietary Selenium on Sacramento Splittail (Pogonichthys macrolepidotus)|Sci. Total Environ.377:224-232|2007|10.1016/j.scitotenv.2007.02.025
91380|T||Schwab,B.W., and R.J. Richardson|Lymphocyte and Brain Neurotoxic Esterase:  Dose and Time Dependence of Inhibition in the Hen Examined with Three Organophosphorus Esters|Toxicol. Appl. Pharmacol.83(1): 1-9|1986|10.1016/0041-008X(86)90317-0
91381|T||Gentile,A.G., and K.J. Gallagher|Pollen Germination and Tube Elongation in Petunia Inhibited or Reduced by Commercial Formulations of Pesticides In Vitro|J. Econ. Entomol.65(2): 488-491|1972|10.1093/jee/65.2.488
91382|T||Draughon,F.A., M.A. Link, and J.C. Ayres|Inhibition of Patulin Production with the Insecticide Naled|J. Food Prot.43(7): 575-578|1980|10.4315/0362-028X-43.7.575
91383|T||Dutton,M.F., and M.S. Anderson|Inhibition of Aflatoxin Biosynthesis by Organophosphorus Compounds|J. Food Prot.43(5): 381-384|1980|10.4315/0362-028X-43.5.381
91384|T||Foulk,J.D., and J.G. Matthysse|Experiments on Control of the Northern Fowl Mite|J. Econ. Entomol.56(3): 321-326|1963|10.1093/jee/56.3.321
91385|T||Fujimoto,K., N. Itaya, Y. Okuno, T. Kadota, and T. Yamaguchi|A New Insecticidal Pyrethroid Ester|Agric. Biol. Chem.37(11): 2681-2682|1973|
91386|T||Toke,S.M., and G.H. Kulkarni|Esters with Larvicidal Activity:  Synthesis of 3-Phenoxybenzyl and a(RS)-Cyano-3-Phenoxybenzyl 2,2-Dihalo-1-Methylcyclopropane-1-Carboxylates|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.30B(1): 82-84|1991|
91387|T||Shimamoto,K., and K. Hattori|Effects of Chronic Feeding of the Organic Phosphorus Compounds on the Tissue Cholinesterase in Rats|Acta Sch. Med. Univ. Kioto39(3): 128-137|1966|
91388|T||Sosnierz,M., Z. Szczurek, and M. Panasiewicz|Some Histoenzymatic Reactions in Subacute and Chronic Shortened Intoxication with Naled in Rats|Acta Med. Pol.12(1): 65-72|1971|
91389|A||Tripathi,G., and S.P. Shukla|Enzymatic and Ultrastructural Studies in a Freshwater Catfish: Impact of Methyl Parathion|Biomed. Environ. Sci.3(2): 166-182|1990|
91390|T||Wills,G.D., and J.E. Street|Propanil Plus Methyl Parathion on Rice (Oryza sativa)|Weed Sci.36(3): 335-339|1988|10.1017/S004317450007497X
91391|T||Ceron,J.J., C.G. Panizo, and A. Montes|Toxicological Effects in Rabbits Induced by Endosulfan, Lindane, and Methylparathion Representing Agricultural Byproducts Contamination|Bull. Environ. Contam. Toxicol.54(2): 258-265|1995|10.1007/BF00197439
91392|T||Ortiz,D., L. Yanez, H. Gomez, J.A. Martinez-Salazar, and F. Diaz-Barriga|Acute Toxicological Effects in Rats Treated with a Mixture of Commercially Formulated Products Containing Methyl Parathion and Permethrin|Ecotoxicol. Environ. Saf.32(2): 154-158|1995|10.1006/eesa.1995.1096
91393|T||Chambers,J.E., and R.L. Carr|Inhibition Patterns of Brain Acetylcholinesterase and Hepatic and Plasma Aliesterases Following Exposures to Three Phosphorothionate Insecticides and Their Oxons in Rats|Fundam. Appl. Toxicol.21(1): 111-119|1993|10.1006/faat.1993.1079
91394|T||Crittenden,P.L., R. Carr, and S.B. Pruett|Immunotoxicological Assessment of Methyl Parathion in Female B6C3F1 Mice|J. Toxicol. Environ. Health Part A54(1): 1-20|1998|10.1080/009841098158999
91395|T||Chambers,H., B. Brown, and J.E. Chambers|Noncatalytic Detoxication of Six Organophosphorus Compounds by Rat Liver Homogenates|Pestic. Biochem. Physiol.36(3): 308-315|1990|10.1016/0048-3575(90)90040-9
91396|T||Liu,J., K. Olivier, and C.N. Pope|Comparative Neurochemical Effects of Repeated Methyl Parathion or Chlorpyrifos Exposures in Neonatal and Adult Rats|Toxicol. Appl. Pharmacol.158(2): 186-196|1999|10.1006/taap.1999.8693
91397|T||DePew,L.J.|Field Studies on Control of Lygus Bugs and Onion Thrips Infesting Safflower|J. Econ. Entomol.60(5): 1224-1226|1967|10.1093/jee/60.5.1224
91399|T||Henderson,C.F., H.G. Kinzer, and J.H. Hatchett|Effectiveness of Insecticides Against the Corn Earworm in Sorghum Heads|J. Econ. Entomol.58(2): 207-209|1965|10.1093/jee/58.2.207
91401|T||Bhudhasamai,T., P. Silapasorn, and C. Shoiwtip|Effect of Foliar Spray Insecticides on Brown Planthopper (BPH) Resurgence in Rice|Int. Rice Res. Newsl.17(3): 20-21|1992|
91402|A||Foran,C.M., B.N. Peterson, and W.H. Benson|Transgenerational and Developmental Exposure of Japanese Medaka (Oryzias latipes) to Ethyinylestradiol Results in Endocrine and Reproductive Differences in the Response to Ethinylestradiol as Adults|Toxicol. Sci.68:389-402|2002|10.1093/toxsci/68.2.389
91411|A||Jacquest,W.L., and D.D. Beatty|Visual Pigment Changes in the Rainbow Trout, Salmo gairdneri|Can. J. Zool.50:1117-1126|1972|10.1139/z72-149
91412|T||Staiger,L.E., and G.B. Quistad|Metabolism of (benzyl-U-ring-14C) Fluvalinate by Rats|J. Agric. Food Chem.32(5): 1130-1133|1984|10.1021/jf00125a050
91413|T||Khan,S.U., S. Kacew, and M.H. Akhtar|Bound 14C Residues in Stored Wheat Treated with [14C]Deltamethrin and Their Bioavailability in Rats|J. Agric. Food Chem.38(4): 1077-1082|1990|10.1021/jf00094a037
91414|T||Jin,H., and G.R.B. Webster|Persistence, Penetration, and Surface Availability of Cypermethrin and Its Major Degradation Products in Elm Bark|J. Agric. Food Chem.46(7): 2851-2857|1998|10.1021/jf970890a
91415|T||Khan,S.U., L.Z. Zhang, and M.H. Akhtar|Bound Residues of Deltamethrin in Bean Plants|J. Agric. Food Chem.32(5): 1141-1144|1984|10.1021/jf00125a053
91416|T||Ivie,G.W., and L.M. Hunt|Metabolites of Cis- and Trans-permethrin in Lactating Goats|J. Agric. Food Chem.28(6): 1131-1138|1980|10.1021/jf60232a002
91417|T||Gaughan,L.C., and J.E. Casida|Degradation of Trans- and Cis-Permethrin on Cotton and Bean Plants|J. Agric. Food Chem.26(3): 525-528|1978|10.1021/jf60217a008
91418|T||Gaughan,L.C., T. Unai, and J.E. Casida|Permethrin Metabolism in Rats|J. Agric. Food Chem.25(1): 9-17|1977|10.1021/jf60209a005
91419|T||Chen,A.W., J.M. Fink, D.J. Letinski, G.P. Barrett, and J.C. Pearsall|Residue of Cypermethrin and Its Major Acid Metabolites in Milk and Tissues from Dairy Bovines Treated with Cypermethrin|J. Agric. Food Chem.45(12): 4850-4855|1997|10.1021/jf970476a
91420|T||Boyer,A.C., P.W. Lee, and J.C. Potter|Characterization of Fenvalerate Residues in Dairy Cattle and Poultry|J. Agric. Food Chem.40(5): 914-918|1992|10.1021/jf00017a044
91421|T||Akhtar,M.H., K.E. Hartin, and H.L. Trenholm|Fate of [14C]Deltamethrin in Lactating Dairy Cows|J. Agric. Food Chem.34(4): 753-758|1986|10.1021/jf00070a041
91423|T||Shirai,T., S. Fukushima, M. Kawabe, M.A. Shibata, S. Iwasaki, M. Tada, and N. Ito|Selective Induction of Rat Urinary Bladder Tumors by Simultaneous Administration of 3,2'-Dimethyl-4-Aminobiphenyl (DMAB) and Butylated Hydroxyanisole or Butylated Hydroxytoluene is Associated with Increased DMAB-DNA Add|Carcinogenesis12(7): 1335-1339|1991|10.1093/carcin/12.7.1335
91424|A||Lindstrom-Seppa,P., and A. Oikari|Biotransformation and Other Toxicological and Physiological Responses in Rainbow Trout (Salmo gairdneri Richardson) Caged in a Lake Receiving Effluents of Pulp and Paper Industry|Aquat. Toxicol.16:187-204|1990|10.1016/0166-445X(90)90037-P
91425|T||Marti,E., J. Sierra, M. Sanchez, R. Cruanas, and M.A. Garau|Ecotoxicological Tests Assessment of Soils Polluted by Chromium (VI) or Pentachlorophenol|Sci. Total Environ.378:53-57|2007|10.1016/j.scitotenv.2007.01.012
91426|T||Pawlowska,D., J. Moniuszko-Jakoniuk, and M. Soltys|The Effect of Chronic Physical Exercise on the Activity of Hydrolytic Enzymes in Acute Poisoning with Parathion-Methyl in Rats|Pol. J. Pharmacol. Pharm.37(5): 639-646|1985|
91427|T||Asmathbanu,I., and B.B. Kaliwal|Temporal Effect of Methyl Parathion on Ovarian Compensatory Hypertrophy, Follicular Dynamics and Estrous Cycle in Hemicastrated Albino Rats|J. Basic Clin. Physiol. Pharmacol.8(4): 237-254|1997|10.1515/JBCPP.1997.8.4.237
91428|T||Nayeemunnisa, and K.S. Geeta|Impact of Methyl Parathion on Developing Mammalian Brain|Indian J. Comp. Anim. Physiol.9(2): 116-119|1991|
91429|T||Mohanty,B.N., B. Senapati, and N.C. Patnaik|Chemical Control of the Rice Hairy Caterpillar, Nisaga simplex in Orissa|Indian J. Plant Prot.22(1): 110-112|1994|
91430|T||Murthy,K.S.R.K., V.K. Sharma, V. Manohar, and M.S. Rao|Bioefficacy and Dissipation of Fenvalerate Formulations on Chilli|Indian J. Plant Prot.21(2): 208-210|1993|
91431|T||Jayarathnam,K., C.R. Nehru, and V.T. Jose|Field Evaluation of Some Newer Insecticides Against Bark Feeding Caterpillar Aetherastis circulata Infesting Rubber|Indian J. Nat. Rubber Res.4(2): 131-133|1991|
91432|T||Nagia,D.K., S. Kumar, M.L. Saini, and P. Sharma|Persistent Toxicity of Some Insecticides to Mustard Aphid, Lipaphis erysimi (Kaltenbach) and Bihar Hairy Caterpillar, Spilosoma obliqua (Walker) on Mustard|Indian J. Plant Prot.18(2): 265-269|1990|
91433|T||Jena,M., and K. Sahoo|Effect of Insecticides on the Rate of Oviposition and Larval Hatching of Yellow Stem Borer, Scirpophaga incertulas (Walk.) in Rice|Indian J. Plant Prot.23(2): 198-200|1995|
91434|T||Patel,M.M., M.M. Naik, J.G. Bapodara, U.G. Fatteh, and H.N. Vyas|Bioefficacy of Certain Insecticides Against the Castor Capsule Borer (Dichocrocis punctiferalis) Guenea|Indian J. Plant Prot.15(1): 27-30|1987|
91435|T||Nayeemunnisa, and S. Begum|Methyl Parathion Induced Regional Alterations in the Regulatory Proteins During Critical Stage of Central Nervous System Development in Albino Rat Pups|Indian J. Physiol. Pharmacol.36(2): 77-82|1992|
91436|T||Hooper,M.J., L.W. Brewer, G.P. Cobb, and R.J. Kendall|An Integrated Laboratory and Field Approach for Assessing Hazards of Pesticide Exposure to Wildlife|In: I.Somerville and C.H.Walker (Eds.), Pesticide Effects on Terrestrial Wildlife, Taylor and Francis, London, England:271-283|1990|
91437|T||Gupta,R.C., and W.L. Kadel|Methyl Parathion Acute Toxicity: Prophylaxis and Therapy with Memantine and Atropine|Arch. Int. Pharmacodyn. Ther.305:208-221|1990|
91438|T||Youssef,S.H.A., M.G.A. El-Sayed, and M. Atef|Influence of Gentamicin and Rifamycin on Toxicity and Biotransformation of Methyl Parathione in Rats|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)94(4): 203-205|1987|
91439|T||Boetel,M.A., B.W. Fuller, D.J. Thompson, T.S. Voss, and M.P. Smith|Rescue Insecticide Applications for Management of Pale Western Cutworms in Winter Wheat, 1995|Arthropod Manag. Tests21:320-|1996|10.1093/amt/21.1.320
91440|T||Yamada,T., S. Ueda, K. Yoshioka, S. Kawamura, T. Seki, Y. Okuno, and N. Mikami|Lack of Estrogenic or (Anti-)Androgenic Effects of D-Phenothrin in the Uterotrophic and Hershberger Assays|Toxicology186(3): 227-239|2003|10.1016/S0300-483X(02)00750-3
91441|T||Kumar,M.V.S., and T. Desiraju|Effect of Chronic Consumption of Methylparathion on Rat Brain Regional Acetylcholinesterase Activity and on Levels of Biogenic Amines|Toxicology75(1): 13-20|1992|10.1016/0300-483X(92)90121-T
91442|T||Schulz,H., I. Desi, and L. Nagymajtenyi|Behavioral Effects of Subchronic Intoxication with Parathion-Methyl in Male Wistar Rats|Neurotoxicol. Teratol.12(2): 125-127|1990|10.1016/0892-0362(90)90123-T
91443|A||Alam,M.N., and M. Shafi|Toxicity of Metacid to Tubifex|Bangladesh J. Zool.20(2): 355-357|1992|
91444|A||Patil,M., and R.S. Kulkarni|Ovarian and Hepatic Biochemical Response to Sumaach (a Crude Form of HCG) in Fish, Notopterus notopterus pallas) Under Pesticide Treatment|Geobios20(4): 255-259|1993|
91445|T||Patil,C.S., S.A. Pawar, U.N. Mote, and V.M. Khaire|Bioefficacy of Different Insecticides Against Cutworm Infesting Onion|J. Maharashtra Agric. Univ.16(2): 237-238|1991|
91446|A||Gopal,V., R. Parimala, R. Vasanthi, and R. Gopal|Biological Depollution Strategy of Chlorinated Hydrocarbon and Organophosphate Pesticides|Indian J. Environ. Health28(4): 279-283|1986|
91447|A||Bhunia,A.K., N.K. Basu, D. Roy, and S.K. Banerjee|Role of Calcium in the Inhibition of Nitrogenase Activity by Methylparathion and Benthiocarb in the Cyanobacterium Nostoc muscorum|World J. Microbiol. Biotechnol.10(3): 303-307|1994|10.1007/BF00414869
91448|T||Vijayaraghavan,M., and B. Nagarajan|Long Term Exposure to Pesticides Elicits Carcinogenicity in Rats|Med. Sci. Res.21(13): 483-484|1993|
91449|T||Quistad,G.B., D.K. Nomura, S.E. Sparks, Y. Segall, and J.E. Casida|Cannabinoid CB1 Receptor as a Target for Chlorpyrifos Oxon and Other Organophosphorus Pesticides|Toxicol. Lett.135(1-2): 89-93|2002|10.1016/S0378-4274(02)00251-5
91451|T||Misra,S., and C.B. Sharma|Metabolism and Bioaccumulation of Fenvalerate and Its Metabolites in Rat Organs|Biomed. Chromatogr.11(1): 50-53|1997|10.1002/(SICI)1099-0801(199701)11:1<50::AID-BMC625>3.0.CO;2-8
91452|T||Akhtar,M.H., C. Danis, H.L. Trenholm, and K.E. Hartin|Deltamethrin Residues in Milk and Tissues of Lactating Dairy Cows|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(3): 235-253|1992|
91453|T||Abu-Qare,A.W., and M.B. Abou-Donia|A Solid Phase Extraction Reversed-Phase HPLC Method for the Simultaneous Determination of Methoprene, Permethrin and Selected Metabolites in Rat Plasma and Urine|Biomed. Chromatogr.15(7): 464-470|2001|10.1002/bmc.97
91454|T||Ding,Y., C.A. White, S. Muralidhara, J.V. Bruckner, and M.G. Bartlett|Determination of Deltamethrin and Its Metabolite 3-Phenoxybenzoic Acid in Male Rat Plasma by High-Performance Liquid Chromatography|J. Chromatogr. B Anal. Technol. Biomed. Life Sci.810(2): 221-227|2004|10.1016/S1570-0232(04)00621-X
91455|A||Ghosh,T.K., and S.K. Chatterjee|Effect of Methyl Parathion on Hepatic Glucose-6-Phosphate Dehydrogenase Activity of Sarotherodon mossambicus (Trewavas)|Geobios12(1): 38-40|1985|
91456|T||Sabale,A., and B. Misal|Effect of Endosulfan and Methyl Parathion on Germination and Seedling Growth of Jowar|Geobios20(3): 166-171|1993|
91457|T||George,J., C. Andrade, and T. Joseph|Alterations in Immediate and Recent Memory Following Acute Oral and Chronic Inhalational Exposure to Methylparathion in Rats|Indian J. Pharmacol.25(2): 78-82|1993|
91458|T||Bhide,M., and S. Modi|Effect of Methyl Parathion on the Ovarian Histopathology and on Behavioural Changes in Albino Rats|J. Environ. Biol.14(3): 211-219|1993|
91468|A||Thiruvalluvan,M., A.C. Manoharan, and N. Nagendran|Acute and Genotoxic Effect of Cadmium and Methyl Parathion on Cyprinus carpio var. communis (Linn.)|Geobios24(4): 250-252|1997|
91469|T||Degraeve,N., and J. Moutschen|Absence of Genetic and Cytogenetic Effects in Mice Treated by the Organophosphorus Insecticide Parathion, Its Methyl Analogue, and Paraoxon|Toxicology32(2): 177-183|1984|10.1016/0300-483X(84)90136-7
91470|T||Mathew,G., K.K. Vijayalaxmi, and M.A. Rahiman|Methyl Parathion-Induced Sperm Shape Abnormalities in Mouse|Mutat. Res.280(3): 169-173|1992|10.1016/0165-1218(92)90045-2
91471|T||Papenburg,T.M., M.A. Muegge, and P.A. Bollich|Evaluation of Selected Insecticides for Rice Stink Bug, Blackfaced Leafhopper and Grasshopper Control, 1996|Arthropod Manag. Tests22:294-295|1997|10.1093/amt/22.1.294
91472|T||Noetzel,D.M., B. Holder, and J. Miller|Prophylactic Control of Aphids in Spring Wheat, Crookston, MN, 1994|Arthropod Manag. Tests21:317-|1996|
91473|T||Aguayo,M.I., and F.R. Villaneueva|Suceptibility of Meterorus hyphantriae Riley to Methyl Parathion|Southwest. Entomol.10(2): 107-109|1985|
91474|T||Kumar,T.P., S.K. Banerjee, S. Devasahayam, and K.M.A. Koya|Effect of Different Insecticides on the Control of 'Pollu' Beetle Longitarsus nigripennis Mots.,  A Major Pest of Black Pepper Piper nigrum L.|Entomon11(4): 219-221|1986|
91475|T||Vijayavel,K., C. Anbuselvam, and M.P. Balasubramanian|Free Radical Scavenging Activity of the Marine Mangrove Rhizophora apiculata Bark Extract with Reference to Naphthalene Induced Mitochondrial Dysfunction|Chem.-Biol. Interact.163(1/2): 170-175|2006|10.1016/j.cbi.2006.06.003
91476|A||Tintos,A., M. Gesto, J.M. Miguez, and J.L. Soengas|Naphthalene Treatment Alters Liver Intermediary Metabolism and Levels of Steroid Hormones in Plasma of Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.66(2): 139-147|2007|10.1016/j.ecoenv.2005.11.008
91478|T||Appel,A.G.|Knockdown Efficiency and Materials' Compatibility of Wasp and Hornet Spray Formulations to Honey Bees (Hymenoptera: Apidae)|J. Econ. Entomol.83(5): 1925-1931|1990|10.1093/jee/83.5.1925
91479|T||Ruzo,L.O., J.E. Casida, and D.W. Gammon|Neurophysiological Activity and Toxicity of Pyrethroids Derived by Addition of Methylene, Sulfur or Oxygen to the Chrysanthemate 2-Methyl-1-Propenyl Substituent|Pestic. Biochem. Physiol.21(1): 84-91|1984|10.1016/0048-3575(84)90076-2
91480|T||Okuno,Y., T. Yamaguchi, and Y. Fujita|Insecticidal Activity of a New Synthetic Pyrethroidal Compound, 3-Phenoxy Benzyl (+)-cis,trans-Chrysanthemate (d-Phenothrin)|Bochu-Kagaku41(1): 42-55|1976|
91481|A||Duquesne,S.|Effects of an Organophosphate on Daphnia magna at Suborganismal and Organismal Levels:  Implications for Population Dynamics|Ecotoxicol. Environ. Saf.65(2): 145-150|2006|10.1016/j.ecoenv.2006.01.008
91482|T||Levine,B.S., and S.D. Murphy|Effect of Piperonyl Butoxide on the Metabolism of Dimethyl and Diethyl Phosphorothionate Insecticides|Toxicol. Appl. Pharmacol.40(3): 393-406|1977|10.1016/0041-008X(77)90067-9
91483|A||Das,P., and G. John|Induction of Sister Chromatid Exchanges and Chromosome Aberrations In Vivo in Etroplus suratensis (Bloch) Following Exposure to Organophosphorus Pesticides|Toxicol. Lett.104(1-2): 111-116|1999|10.1016/S0378-4274(98)00355-5
91484|T||Mikami,N., Y. Baba, T. Katagi, and J. Miyamoto|Metabolism of the Synthetic Pyrethroid Fenpropathrin in Plants|J. Agric. Food Chem.33(5): 980-987|1985|10.1021/jf00065a051
91485|T||Abu-Qare,A.W., and M.B. Abou-Donia|Simultaneous Determination of Pyridostigmine Bromide, N,N-diethyl-m-toluamide, Permethrin, and Their Metabolites in Rat Plasma and Urine by High-Performance Liquid Chromatography|J. Chromatogr. B Anal. Technol. Biomed. Life Sci.749(2): 171-178|2000|
91486|T||Ruzo,L.O., R.L. Holmstead, and J.E. Casida|Pyrethroid Photochemistry:  Decamethrin|J. Agric. Food Chem.25(6): 1385-1394|1977|10.1021/jf60214a006
91487|T||Lee,P.W., S.M. Stearns, and W.R. Powell|Metabolic Fate of Fenvalerate in Wheat Plants|J. Agric. Food Chem.36(1): 189-193|1988|10.1021/jf00079a048
91488|T||Lee,P.W., S.M. Stearns, and W.R. Powell|Rat Metabolism of Fenvalerate (Pydrin Insecticide)|J. Agric. Food Chem.33(5): 988-993|1985|10.1021/jf00065a052
91489|T||Ruzo,L.O., T. Unai, and J.E. Casida|Decamethrin Metabolism in Rats|J. Agric. Food Chem.26(4): 918-925|1978|10.1021/jf60218a060
91490|A||Sharma,H.A., R. Nagabhushanam, and R. Sarojini|Effect of Organophosphate Insecticide on the Oogenesis of the Edible Crab, Scylla serrata|Uttar Pradesh J. Zool.10(2): 158-162|1990|
91491|A||Sherekar,P.Y., and K.M. Kulkarni|Studies on Acid and Alkaline Phosphatase Activity of Methyl Parathion Exposed Fish, Channa orientalis (SCH)|Uttar Pradesh J. Zool.7(2): 154-159|1987|
91492|T||Deshpande,A.A., and G.S. Swamy|Induction of Proline Accumulation by Methylparathion in Sorghum (Sorghum bicolor L.)|Curr. Sci. (Bangalore)56(20): 1068-1070|1987|
91493|T||Mulder,P.G.Jr., J.K. Collins, and M.W. Smith|Control of Pecan Nut Casebearer and Fall Webworm in Pecans, 1996|Arthropod Manag. Tests22:78-|1997|10.1093/amt/22.1.78
91494|T||Sain,M., N.V. Krishnaiah, and M.B. Kalode|Effectiveness of Spray Formulations Against Rice Leaf Folder Cnaphalocrocis medinalis Guenee (Lepidoptera:  Pyralidae)|Entomon12(1): 17-19|1987|
91495|T||Devasahayam,S.|Residual Toxicity of Certain Insecticides to Leaf Gall Thrips (Liothrips karnyi bagnall) on Black Pepper|Entomon14(1-2): 79-80|1989|
91496|A||Walters,P.A., E.A. Abbott, and A.J. Isquith|Algicidal Activity of a Surface-Bonded Organosilicon Quaternary Ammonium Chloride|Appl. Microbiol.25(2): 253-256|1973|10.1128/am.25.2.253-256.1973
91497|T||Bellows,T.S.,Jr., J.G. Morse, and L.K. Gaston|Residual Toxicity of Pesticides Used for Lepidopteran Insect Control on Citrus to Aphytis melinus DeBach (Hymenoptera:  Aphelinidae)|Can. Entomol.125(6): 995-1001|1993|10.4039/Ent125995-6
91498|T||Randad,R.S., and G.H. Kulkarni|Compounds with Larvicidal Activity: Synthesis of 3-Phenoxybenzyl 5-Chloro-5-p-Substitutedphenylpent-4-Enoates|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.23B(3): 287-288|1984|
91499|T||Randad,R.S., and G.H. Kulkarni|Synthesis of Acyclic Insecticidal Esters:  M-Phenoxybenzyl-2-Isopropyl-5-chloro/cyano-hex-4-enoates|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.24B(2): 225-227|1985|
91500|T||Miyamoto,J., T. Suzuki, and C. Nakae|Metabolism of Phenothrin or 3-Phenoxybenzyl D-Trans-Chrysanthemumate in Mammals|Pestic. Biochem. Physiol.4(4): 438-450|1974|10.1016/0048-3575(74)90068-6
91501|A||Baeza-Squiban,A., C. Meinard, and F. Marano|Metabolism of Deltamethrin in Two Cell Types In Vitro|Pestic. Biochem. Physiol.32(3): 253-261|1988|10.1016/0048-3575(88)90109-5
91502|AT||Aly,M.A.S., and W.C. Dauterman|Bioavailability, Biological Activity and Characterization of Bound Residues of Fenvalerate in Wheat|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. WastesB27(3): 223-233|1992|
91503|T||Gray,A.J., and J. Rickard|The Toxicokinetics of Deltamethrin in Rats After Intravenous Administration of a Toxic Dose|Pestic. Biochem. Physiol.18(2): 205-215|1982|10.1016/0048-3575(82)90107-9
91504|T||Crayford,J.V., and D.H. Hutson|Xenobiotic Triglyceride Formation|Xenobiotica10(5): 349-354|1980|10.3109/00498258009033767
91505|T||Nambu,K., H. Ohkawa, and J. Miyamoto|Metabolic Fate of Phenothrin in Plants and Soils|J. Pestic. Sci. (Multiple Languages)5(2): 177-197|1980|10.1584/jpestics.5.177
91506|T||Kaneko,H., H. Ohkawa, and J. Miyamoto|Comparative Metabolism of Fenvalerate and the [2S, alphaS]-Isomer in Rats and Mice|J. Pestic. Sci. (Multiple Languages)6(3): 317-326|1981|10.1584/jpestics.6.317
91507|T||Kaneko,H., H. Ohkawa, and J. Miyamoto|Absorption and Metabolism of Dermally Applied Phenothrin in Rats|J. Pestic. Sci. (Multiple Languages)6(2): 169-182|1981|10.1584/jpestics.6.169
91508|T||Ohkawa,H., K. Nambu, and J. Miyamoto|Metabolic Fate of Fenvalerate (Sumicidin) in Bean Plants|J. Pestic. Sci. (Multiple Languages)5(2): 215-223|1980|10.1584/jpestics.5.215
91509|T||Holmstead,R.L., D.G. Fullmer, and L.O. Ruzo|Pyrethroid Photodecomposition:  Pydrin|J. Agric. Food Chem.26(4): 954-959|1978|10.1021/jf60218a057
91510|A||Kuster,E.|Cholin- and Carboxylesterase Activities in Developing Zebrafish Embryos (Danio rerio) and Their Potential Use for Insecticide Hazard Assessment|Aquat. Toxicol.75(1): 76-85|2005|10.1016/j.aquatox.2005.07.005
91511|T||Brown,M.A., I. Holden, A.H. Glickman, and J.E. Casida|Biooxidation of Chrysanthemate Isobutenyl Methyl Groups Examined by Carbon-13 Nuclear Magnetic Resonance Spectroscopy|J. Agric. Food Chem.33(1): 8-13|1985|10.1021/jf00061a003
91512|T||Zhang,H.X., and L.G. Sultatos|Biotransformation of the Organophosphorus Insecticides Parathion and Methyl Parathion in Male and Female Rat Livers Perfused In Situ|Drug Metab. Dispos.19(2): 473-477|1991|
91513|T||Nomeir,A.A., Y.M. Ioannou, J.M. Sanders, and H.B. Matthews|Comparative Metabolism and Disposition of Ethyl Carbamate (Urethane) in Male Fischer 344 Rats and Male B6C3F1 Mice|Toxicol. Appl. Pharmacol.97(2): 203-215|1989|10.1016/0041-008X(89)90326-8
91514|T||Guven,K., E. Deveci, and D. De Pomerai|The Accumulation and Histological Effects of the Organometallic Fungicide Propineb on the Organs of Fetuses and Female Rats During Pregnancy|Turk. J. Biol. (Turk Biol. Derg. )23(4): 413-422|1999|
91515|T||Yadav,N., R.K.S. Dogra, M.Y. Khan, and S. Khandelwal|Prevention of Acute Cadmium Toxicity by Picroliv|Hum. Exp. Toxicol.24(10): 529-536|2005|10.1191/0960327105ht563oa
91516|T||Vargas,H., C. Castillo, F. Posadas, and B. Escalante|Acute Lead Exposure Induces Renal Haeme Oxygenase-1 and Decreases Urinary Na Excretion|Hum. Exp. Toxicol.22(5): 237-244|2003|10.1191/0960327103ht360oa
91517|T||Tanaka,M., S. Nakaya, M. Katayama, H. Leffers, S. Nozawa, R. Nakazawa, T. Iwamoto, and S. Kobayashi|Effect of Prenatal Exposure to Bisphenol A on the Serum Testosterone Concentration of Rats at Birth|Hum. Exp. Toxicol.25(7): 369-373|2006|10.1191/0960327106ht638oa
91518|T||Soltaninejad,K., A. Kebryaeezadeh, B. Minaiee, S.N. Ostad, R. Hosseini, E. Azizi, and M. Abdollahi|Biochemical and Ultrastructural Evidence for Toxicity of Lead Through Free Radicals in Rat Brain|Hum. Exp. Toxicol.22(8): 417-423|2003|
91519|T||Skoczynska,A., and H. Martynowicz|The Impact of Subchronic Cadmium Poisoning on the Vascular Effect of Nitric Oxide in Rats|Hum. Exp. Toxicol.24(7): 353-361|2005|10.1191/0960327105ht536oa
91520|T||Sivaprasad,R., M. Nagaraj, and P. Varalakshmi|Combined Efficacies of Lipoic Acid and Meso-2,3-Dimercaptosuccinic Acid on Lead-Induced Erythrocyte Membrane Lipid Peroxidation and Antioxidant Status in Rats|Hum. Exp. Toxicol.22(4): 183-192|2003|10.1191/0960327103ht335oa
91521|T||Sinha,C., and G.S. Shukla|Species Variation in Pesticide-Induced Blood-Brain Barrier Dysfunction|Hum. Exp. Toxicol.22(12): 647-652|2003|10.1191/0960327103ht405oa
91522|T||Sankaramanivel,S., R. Jeyapriya, D. Hemalatha, S. Djody, J. Arunakaran, and N. Srinivasan|Effect of Chromium on Vertebrae, Femur and Calvaria of Adult Male Rats|Hum. Exp. Toxicol.25(6): 311-318|2006|10.1191/0960327105ht627oa
91524|T||Missy,P., M.C. Lanhers, Y. Grignon, M. Joyeux, and D. Burnel|In Vitro and In Vivo Studies on Chelation of Manganese|Hum. Exp. Toxicol.19(8): 448-456|2000|10.1191/096032700682694260
91525|T||Mazur,L., A. Czyzewska, and M. Bochenek|Flow Cytometric Detection of Apoptotic Bone Marrow Cells with Fractional DNA Content After Application of WR-2721, Cyclophosphamide, Cisplatin, and Exposure of Mice to Gamma Rays|Hum. Exp. Toxicol.21(6): 335-341|2002|10.1191/0960327102ht261oa
91526|T||De lourdes Pereira,M., and F.G. Costa|Spermatogenesis Recovery in the Mouse After Iron Injury|Hum. Exp. Toxicol.22(5): 275-279|2003|10.1191/0960327103ht344oa
91527|T||Haider,S.S., A.A. Abdel-Gayoum, M. el-Fakhri, and K.M. Ghwarsha|Effect of Selenium on Vanadium Toxicity in Different Regions of Rat Brain|Hum. Exp. Toxicol.17(1): 23-28|1998|10.1177/096032719801700104
91528|T||Gurer,H., R. Neal, P. Yang, S. Oztezcan, and N. Ercal|Captopril as an Antioxidant in Lead-Exposed Fischer 344 Rats|Hum. Exp. Toxicol.18(1): 27-32|1999|10.1177/096032719901800104
91530|T||Gupta,R.C., J.T. Goad, D. Milatovic, and W.D. Dettbarn|Cholinergic and Noncholinergic Brain Biomarkers of Insecticide Exposure and Effects|Hum. Exp. Toxicol.19(5): 297-308|2000|10.1191/096032700678815927
91531|T||Flora,S.J.S., M. Pande, S. Bhadauria, and G.M. Kannan|Combined Administration of Taurine and Meso 2,3-Dimercaptosuccinic Acid in the Treatment of Chronic Lead Intoxication in Rats|Hum. Exp. Toxicol.23(4): 157-166|2004|10.1191/0960327104ht432oa
91532|T||Emara,A.M., R.S. El Kelany, and K.A. Moustafa|Comparative Study of the Protective Effect Between Deferoxamine and Deferiprone on Chronic Iron Overload Induced Cardiotoxicity in Rats|Hum. Exp. Toxicol.25(7): 375-385|2006|10.1191/0960327106ht637oa
91533|T||Dalsenter,P.R., G.M. Santana, S.W. Grande, A.J.M. Andrade, and S.L. Araujo|Phthalate Affect the Reproductive Function and Sexual Behavior of Male Wistar Rats|Hum. Exp. Toxicol.25(6): 297-303|2006|10.1191/0960327105ht624oa
91535|T||Chilcott,R.P., C.H. Dalton, I. Hill, C.M. Davison, K.L. Blohm, E.D. Clarkson, and M.G. Hamilton|In Vivo Skin Absorption and Distribution of the Nerve Agent VX (O-Ethyl-S-[2(Diisopropylamino)Ethyl] Methylphosphonothioate) in the Domestic White Pig|Hum. Exp. Toxicol.24(7): 347-352|2005|10.1191/0960327105ht537oa
91536|T||Arora,A., and Y. Shukla|Induction of Preneoplastic Altered Hepatic Foci Following Dietary Sulphur Supplementation|Hum. Exp. Toxicol.23(5): 229-234|2004|10.1191/0960327104ht435oa
91537|T||Ahmed,S., A. Rahman, M. Saleem, M. Athar, and S. Sultana|Ellagic Acid Ameliorates Nickel Induced Biochemical Alterations:  Diminution of Oxidative Stress|Hum. Exp. Toxicol.18(11): 691-698|1999|10.1191/096032799678839563
91538|T||Woutersen,R.A., D. Jonker, H. Stevenson, J.D. te Biesebeek, and W. Slob|The Benchmark Approach Applied to a 28-Day Toxicity Study with Rhodorsil Silane in Rats:  The Impact of Increasing the Number of Dose Groups|Food Chem. Toxicol.39(7): 697-707|2001|10.1016/S0278-6915(01)00015-1
91539|T||Hess,J.B., and W.M. Britton|Effects of Dietary Magnesium Excess in White Leghorn Hens|Poult. Sci.76:703-710|1997|10.1093/ps/76.5.703
91540|A||Brosier,J.S.|Dynamic Acute Toxicity of Selected Phenol and Benzene Compounds to Rainbow Trout, Salmo gairdneria, Richardson Prepared by Waste Control Dept.|EPA/OTS 878211088:11 p.|1982|
91541|A||Chouteau,C., S. Dzyadevych, C. Durrieu, and J.M. Chovelon|A Bi-Enzymatic Whole Cell Conductometric Biosensor for Heavy Metal Ions and Pesticides Detection in Water Samples|Biosens. Bioelectron.21(2): 273-281|2005|10.1016/j.bios.2004.09.032
91542|A||Kim,T.S., J.K. Kim, K. Choi, M.K. Stenstrom, and K.D. Zoh|Degradation Mechanism and the Toxicity Assessment in TiO2 Photocatalysis and Photolysis of Parathion|Chemosphere62(6): 926-933|2006|10.1016/j.chemosphere.2005.05.038
91543|T||Walker,T.W., and C.L. Meek|Long Term Effects of Riceland Agrichemicals on Postparasites and Adults of Romanomermis culicivorax (Nematoda:  Mermithidae)|J. Entomol. Sci.22(4): 302-306|1987|10.18474/0749-8004-22.4.302
91544|T||Mikami,N., N. Wakabayashi, H. Yamada, and J. Miyamoto|The Metabolism of Fenvalerate in Plants:  The Conjugation of the Acid Moiety|Pestic. Sci.16(1): 46-58|1985|10.1002/ps.2780160107
91545|T||Mikami,N., J. Yoshimura, H. Kaneko, H. Yamada, and J. Miyamoto|Metabolism in Rats of 3-Phenoxybenzyl Alcohol and 3-Phenoxybenzoic Acid Glucoside Conjugates Formed in Plants|Pestic. Sci.16(1): 33-45|1985|10.1002/ps.2780160106
91546|T||Croucher,A., D.H. Hutson, and G. Stoydin|Excretion and Residues of the Pyrethroid Insecticide Cypermethrin in Lactating Cows|Pestic. Sci.16(3): 287-301|1985|10.1002/ps.2780160312
91547|T||Crawford,M.J., and D.H. Hutson|The Metabolism of the Pyrethroid Insecticide (+-)-alpha-Cyano-3-Phenoxybenzyl 2,2,3,3-Tetramethylcyclopropanecarboxylate, WL 41706, in the Rat|Pestic. Sci.8(6): 579-599|1977|10.1002/ps.2780080602
91548|T||Hutson,D.H., L.C. Gaughan, and J.E. Casida|Metabolism of the Cis- and Trans-Isomers of Cypermethrin in Mice|Pestic. Sci.12(4): 385-398|1981|10.1002/ps.2780120405
91549|T||Crawford,M.J., A. Croucher, and D.H. Hutson|The Metabolism of the Pyrethroid Insecticide Cypermethrin in Rats; Excreted Metabolites|Pestic. Sci.12(4): 399-411|1981|10.1002/ps.2780120406
91550|T||Bear,W.H.|"""Vydate"" L - a New Compound for the Control of Leaf Miner on Tomatoes and Celery"|Annu. Meet. Fla. State Hortic. Soc.88:165-169|1976|
91551|T||Tahori,A.S., S. Sternberg, and J. Zahavy|Anticholinesterase Activity (in the Mediterranean Fruit Fly) and Mouse Toxicity of Some New Organophosphorus Compounds|Entomol. Exp. Appl.9(1): 99-104|1966|10.1111/j.1570-7458.1966.tb00981.x
91552|T||Berisford,Y.C., and J.C. Ayres|Use of the Insecticide Naled to Control Zearalenone Production|J. Agric. Food Chem.24(5): 973-975|1976|10.1021/jf60207a015
91553|T||Shono,Y., V. Jean-Francois, Y.S. Jean, and T. Itoh|Field Evaluation of Ultra-Low Volume Applications with a Mixture of Dextro-Allethrin and Dextro-Phenothrin for Control of Anopheles albimanus in Haiti|Am. Mosq. Control Assoc. J.7(3): 494-495|1991|
91554|T||Anadon,A., M.R. Martinez-Larranaga, M.J. Diaz, and P. Bringas|Toxicokinetics of Permethrin in the Rat|Toxicol. Appl. Pharmacol.110(1): 1-8|1991|10.1016/0041-008X(91)90284-L
91555|T||George,D.A.|Permethrin and Its Two Metabolite Residues in Seven Agricultural Crops|J. AOAC Int.68(6): 1160-1163|1985|10.1093/jaoac/68.6.1160
91556|T||Abu-Qare,A.W., and M.B. Abou-Donia|Simultaneous Determination of Chlorpyrifos, Permethrin, and Their Metabolites in Rat Plasma and Urine by High-Performance Liquid Chromatography|J. Anal. Toxicol.25(4): 275-279|2001|10.1093/jat/25.4.275
91557|T||Satoh,T., S. Suzuki, N. Kawai, T. Nakamura, and M. Hosokawa|Toxicological Significance in the Cleavage of Esterase-Beta-Glucuronidase Complex in Liver Microsomes by Organophosphorus Compounds|Chem.-Biol. Interact.119-120:471-478|1999|10.1016/S0009-2797(99)00060-5
91558|T||Uffindell,L.A., and A.A. Meharg|The Fate of 14C-Naphthalene in Soil Microcosms Containing Scots Pine Seedlings and Enchytraeids|Soil Biol. Biochem.39(2): 560-566|2007|10.1016/j.soilbio.2006.09.002
91559|T||Siddiqui,W.H., and R.G. York|Quaternary Silsesquioxane:  A Developmental Toxicity Study in Rats|Fundam. Appl. Toxicol.21(1): 66-70|1993|10.1006/faat.1993.1073
91560|T||Kilbride,K.M., J.A. Crawford, and B.A. Williams|Response of Female California Quail (Callipepla californica) to Methyl Parathion Treatment of Their Home Ranges During the Nesting Period|Environ. Toxicol. Chem.11(9): 1337-1343|1992|10.1002/etc.5620110914
91561|T||Stratton,G.W., and C.T. Corke|Comparative Fungitoxicity of the Insecticide Permethrin and Ten Degradation Products|Pestic. Sci.13(6): 679-685|1982|10.1002/ps.2780130615
91562|T||Dan,B., and J.N. Medda|Teratogenic Studies of Methyl Parathion on Chick Embryos|In: G.K.Manna and B.B.Jana (Eds.), Impacts of Environment on Animals and Aquaculture, Natl.Symp., May14-16, 1988, Kalyani, W.Bengal, India, Kalyani Univ.Fish.and Limnol.Res.Univ, Kalyani, W.Bengal, India:241-245|1990|
91563|T||Maitra,S.K., and K.K. Anam|Impact of an Organophosphate Pesticide (Methyl Parathion) on the Blood Glucose, Liver and Muscle Glycogen Levels in the Male Indian Weaver Bird (Ploceus philippinus)|In: G.K.Manna and B.B.Jana (Eds.), Impacts of Environment on Animals and Aquaculture, Natl.Symp., May14-16, 1988, Kalyani, W.Bengal, India, Kalyani Univ.Fish.and Limnol.Res.Univ, Kalyani, W.Bengal, India:113-116|1990|
91564|A||Patil,M., and R.S. Kulkarni|Ovarian Lipid and Cholesterol Response to Sumaach (a Crude form of HCG) Under Pesticide Treatment in the Freshwater Fish, Channa punctatus (Bloch)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.66(2): 135-137|1996|
91565|T||Trumble,J.T., J.G. Millar, D.E. Ott, and W.C. Carson|Seasonal Patterns and Pesticidal Effects on the Phototoxic Linear Furanocoumarins in Celery, Apium graveolens L.|J. Agric. Food Chem.40(9): 1501-1506|1992|10.1021/jf00021a006
91567|T||Itoh,T., G. Shinjo, and T. Kurihara|Studies on Wide Mesh Netting Impregnated with Insecticides Against Culex Mosquitoes|Am. Mosq. Control Assoc. J.2(4): 503-506|1986|
91568|T||Draughon,F.A., M.E. Elahi, and D.R. West|Insecticide Inhibition of Aflatoxin Production in Corn|J. Agric. Food Chem.31(4): 692-695|1983|10.1021/jf00118a004
91569|T||Draughon,F.A., and J.C. Ayres|Inhibition of Aflatoxin Production by Selected Insecticides|Appl. Environ. Microbiol.41(4): 972-976|1981|10.1128/aem.41.4.972-976.1981
91570|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.S. Anthony, J.E. Kolakowski, and E.A. Davis|Toxicity of Emerging Energetic Soil Contaminant CL-20 to Potworm Enchytraeus crypticus in Freshly Amended or Weathered and Aged Treatments|Chemosphere62:1282-1293|2006|10.1016/j.chemosphere.2005.07.008
91571|T||Elms,K.D., J.D. Kerr, and B.R. Champ|Breakdown of Malathion and Dichlorvos Mixtures Applied to Wheat|J. Stored Prod. Res.8(1): 55-63|1972|10.1016/0022-474X(72)90018-5
91575|T||Wang,Y., G. Li, X. Deng, S. Din, and J. Su|Susceptibility to Insecticides of Brown Planthopper Nilaparvata lugens in the Lower Yangtze Valley|Int. Rice Res. Notes22(2): 41-42|1997|
91576|T||Boskovic,B., V. Tadic, and R. Kusic|Reactivating and Protective Effects of Pro-2-PAM in Mice Poisoned with Paraoxon|Toxicol. Appl. Pharmacol.55(1): 32-36|1980|10.1016/0041-008X(80)90216-1
91577|T||Moore,L., and T.F. Watson|Trap Crop Effectiveness in Community Boll Weevil (Coleoptera:  Curculionidae) Control Programs|J. Entomol. Sci.25(4): 519-525|1990|10.18474/0749-8004-25.4.519
91578|T||Muthiah,C.|Bio-Efficacy of Insecticidal Dusts for Control of Groundnut Leafminer (Aproaerema modicella)|Indian J. Agric. Sci.63(4): 251-253|1993|
91579|T||Mandal,S.K., and S.K. Senapati|Efficacy of Insecticides and Two Organic Acids for Control of Bihar Hairy Caterpillar (Spilosoma obliqua) (Lepidoptera:  Arctiidae)|Indian J. Agric. Sci.59(6): 378-380|1989|
91580|T||Deshpande,A.A., and G.S. Swamy|Gibberellin Sensitivity in Sorghum (Sorghum bicolor L.):  Effect of Methylparathion|Indian J. Exp. Biol.28(1): 83-86|1990|
91582|T||Bayer Corp.|Initial Submission:  A Dose Range-Finding Developmental Toxicity Study with Propylene Thiourea in the Sprague-Dawley Rat, with TSCA Hlth & Sfty Study Cvr Sht Dated 8/25/1997|EPA/OTS Doc.#88970000264:84 p.|1997|
91583|T||Keil,C.B., and M.P. Parrella|Characterization of Insecticide Resistance in Two Colonies of Liriomyza trifolii (Diptera:  Agromyzidae)|J. Econ. Entomol.83(1): 18-26|1990|10.1093/jee/83.1.18
91584|T||Pangtey,V.S.|A Note on the Efficacy of Selected Insecticides Against Gundhi Bug, Leptocorisa acuta (Thunberg)|Indian J. Entomol.52(4): 715-717|1990|
91585|T||Leonard,B.R., T.C. Sparks, and J.B. Graves|Insecticide Cross-Resistance in Pyrethroid-Resistant Strains of Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.81(6): 1529-1535|1988|10.1093/jee/81.6.1529
91586|T||Ahmad,M., and R.U. Miah|Screening of Insecticides for the Control of Mustard Aphid Lipaphis pseudobrassicae Dav.|Indian J. Entomol.51(4): 366-368|1989|
91587|T||Bosco,C., R. Rodrigo, J. Moreno, and C. Munoz-Anrique|Acute Toxicity of Malathion in the Octodon degus|Med. Sci. Res.27(2): 113-115|1999|
91588|T||Sudarsono,H., J.L. Bernhardt, and N.P. Tugwell|Survival of Immature Telenomus podisi (Hymenoptera:  Scelionidae) and Rice Stink Bug (Hemiptera:  Pentatomidae) Embryos After Field Applications of Methyl Parathion and Carbaryl|J. Econ. Entomol.85(2): 375-378|1992|10.1093/jee/85.2.375
91589|T||Hussain,T., and M. Saeed|Laboratory Assessment of Some Pesticides Against Coccinella septempunctata Linn. (Coleoptera:  Coccinellidae)|Sind Univ. Res. J. (Sci. Ser. )16(2): 1-7|1984|
91590|T||Bartoli,S., B. Bonora, A. Colacci, A. Niero, and S. Grilli|DNA Damaging Activity of Methyl Parathion|Res. Commun. Chem. Pathol. Pharmacol.71(2): 209-218|1991|
91591|T||Watson,T.F., and S.E. Kelly|Response of the Tobacco Budworm to Permethrin and Methyl Parathion in Arizona, 1977-1989|Southwest. Entomol.15 Suppl:53-57|1991|
91592|T||Khurana,A.D., and A.N. Verma|Laboratory and Field Evaluation of Insecticides Against Nymphs and Gravid Females of Mango Mealy Bug, Drosicha mangiferae (Green)|Indian J. Entomol.50(3): 319-326|1988|
91593|T||Nagymajtenyi ,L., I. Desi, and R. Lorencz|Neurophysiological Markers as Early Signs of Organophosphate Neurotoxicity|Neurotoxicol. Teratol.10(5): 429-434|1988|10.1016/0892-0362(88)90004-9
91594|T||Chambers,J.E., T. Ma, J.S. Boone, and H.W. Chambers|Role of Detoxication Pathways in Acute Toxicity Levels of Phosphorothionate Insecticides in the Rat|Life Sci.54(18): 1357-1364|1994|10.1016/0024-3205(94)00515-X
91595|T||Rainsford,K.D.|Toxicity in the Brain of Organophosphate Insecticides:  Comparison of the Toxicities of Metabolites with Parent Compounds Using an Intracerebral Injection Method|Pestic. Biochem. Physiol.8(3): 302-316|1978|10.1016/0048-3575(78)90028-7
91596|A||Weinstein,J.E., and S.A. Diamond|Relating Daily Solar Ultraviolet Radiation Dose in Salt Marsh-Associated Estuarine Systems to Laboratory Assessments of Photoactivated Polycyclic Aromatic Hydrocarbon Toxicity|Environ. Toxicol. Chem.25(11): 2860-2868|2006|10.1897/06-034R.1
91597|T||Sultatos,L.G.|The Role of the Liver in Mediating the Acute Toxicity of the Pesticide Methyl Parathion in the Mouse|Drug Metab. Dispos.15(5): 613-617|1987|
91598|T||Acharya,B.N., G.P. Gupta, S. Prakash, and M.P. Kaushik|UV-Resistant, Water Repellent and Rodent Repellent Nylon Tapes for Aircraft Arrester System|Pigm. Resin Technol.34(5): 270-274|2005|10.1108/03699420510620283
91599|T||Sortur,S.M., and B.B. Kaliwal|Effect of Methyl Parathion Formulation on Estrous Cycle and Reproductive Performance in Albino Rats|Indian J. Exp. Biol.37(2): 176-178|1999|
91600|T||Basha,P.M., and Nayeemunnisa |Effect of Methyl Parathion on Na+-K+ and Mg2+ Adenosine Triphosphatase Activity in Developing Central Nervous System in Rats|Indian J. Exp. Biol.31(9): 785-787|1993|
91602|T||Patil,R.S., S.D. Bhole, and S.P. Patil|Laboratory Evaluation of Some Chemicals for Control of Swarming Caterpillar (Spodoptera litura) Infesting Rice (Oryza sativa) in Konkan Region of Maharashtra|Indian J. Agric. Sci.59(6): 381-383|1989|
91603|T||Dikshith,T.S.S., R.B. Raizada, V. Singh, M. Pandey, and M.K. Srivastava|Repeated Dermal Toxicity of Technical HCH and Methyl Parathion (50EC) to Female Rats (Rattus norvigicus)|Indian J. Exp. Biol.29(2): 149-155|1991|
91604|T||Roberts,R.H., K.F. Baldwin, J.L. Pinson, T.W. Walker, and M.V. Meisch|Effectiveness of Nine Pyrethroids Against Anopheles quadrimaculatus Say and Psorophora columbiae (Dyar and Knab) in Arkansas|Mosq. News40(1): 43-46|1980|
91605|T||Pagulayan,I.F., Z.G. Baoanan, and L.Q. Villa|The Effect of Methyl Parathion on the Sperm Head Morphology of the ICR Strain Mice|Asia Life Sci.3(1): 45-54|1994|
91606|T||Lukaszewicz-Hussain,A., J. Moniuszko-Jakoniuk, and D. Pawlowska|Blood Glucose and Insulin Concentration in Rats Subjected to Physical Exercise in Acute Poisoning with Parathion-Methyl|Pol. J. Pharmacol. Pharm.37(5): 647-651|1986|
91607|T||Pawlowska,D., J. Moniuszko-Jakoniuk, and M. Soltys|Parathion-Methyl Effect on the Activity of Hydrolytic Enzymes After Single Physical Exercise in Rats|Pol. J. Pharmacol. Pharm.37(5): 629-638|1986|
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91700|T||Monobrullah,M., and R. Singh|Efficacy of Foliar Spray of Important Insecticides Against the Mango Shoot Gall Psyllid, Apsylla cistellata Buckton (Homoptera:  Psyllidae)|J. Entomol. Res.21(4): 377-380|1997|
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91751|T||Gasiewicz,T.A., E.C. Henry, R.B. Baggs, G. Rucci, and A. Schecter|Temporal-and Dose-Related Characteristics of Biochemical and Morphological Alterations in the Hamster Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Chemosphere15(9-12): 1749-1752|1986|10.1016/0045-6535(86)90463-7
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91810|A||Hall,A.T.|Reproductive and Behavioral Toxicity of Anthracene in the Fathead Minnow (Pimephales promelas)|Ph.D.Thesis, Miami University, Oxford, OH:161 p.|1993|
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91822|T||Edwards,S.G., S.R. Pirgozliev, M.C. Hare, and P. Jenkinson|Quantification of Trichothecene-Producing Fusarium Species in Harvested Grain by Competitive PCR to Determine Efficacies of Fungicides Against Fusarium Head Blight of Winter Wheat|Appl. Environ. Microbiol.67(4): 1575-1580|2001|10.1128/AEM.67.4.1575-1580.2001
91823|T||Ioos,R., A. Belhadj, M. Menez, and A. Faure|The Effects of Fungicides on Fusarium spp. and Microdochium nivale and Their Associated Trichothecene Mycotoxins in French Naturally-Infected Cereal Grains|Crop Prot.24(10): 894-902|2005|10.1016/j.cropro.2005.01.014
91824|T||Klix,M.B., J.A. Verreet, and M. Beyer|Comparison of the Declining Triazole Sensitivity of Gibberella zeae and Increased Sensitivity Achieved by Advances in Triazole Fungicide Development|Crop Prot.26(4): 683-690|2007|10.1016/j.cropro.2006.06.006
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91835|T||Henry,E.C., and T.A. Gasiewicz|Effects of Thyroidectomy on the Ah-Receptor and Enzyme Inducibility by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Rat Liver|Chem.-Biol. Interact.59:29-42|1986|10.1016/S0009-2797(86)80053-9
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91840|T||Al-Bayati,Z.A.F., W.J. Murray, and S.J. Stohs|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Lipid Peroxidation in Hepatic and Extrahepatic Tissues of Male and Female Rats|Arch. Environ. Contam. Toxicol.16:159-166|1987|10.1007/BF01055797
91841|T||Sodergren,A., and S. Ulfstrand|DDT and PCB Relocate when Caged Robins Use Fat Reserves|Ambio1(1): 36-40|1972|
91842|T||Ebner,K., F. Matsumura, E. Enan, and H. Olsen|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Alters Pancreatic Membrane Tyrosine Phosphorylation Following Acute Treatment|J. Biochem. Toxicol.8(2): 71-81|1993|10.1002/jbt.2570080204
91843|T||Tullis,K., H. Olsen, D.W. Bombick, F. Matsumura, and J. Jankun|TCDD Causes Stimulation of c-ras Expression in the Hepatic Plasma Membranes In Vivo and In Vitro|J. Biochem. Toxicol.7(2): 107-116|1992|10.1002/jbt.2570070208
91845|T||Nelson,K., G. Sunahara, R. Ryan, and G. Lucier|Decrease Hepatic Cytosolic Glucocorticoid Receptor Binding upon Treatment of Rodents (Mice and Rats) with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Chemosphere18(1-6): 737-744|1989|10.1016/0045-6535(89)90190-2
91846|T||Wahba,Z.Z., W.J. Murray, and S.J. Stohs|Altered Hepatic Iron Distribution and Release in Rats After Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Bull. Environ. Contam. Toxicol.45:436-445|1990|10.1007/BF01701169
91847|T||Al-Bayati,Z.A.F., S.J. Stohs, and W.A. Al-Turk|TCDD, Dietary Iron and Hepatic Iron Distribution in Female Rats|Bull. Environ. Contam. Toxicol.38:300-307|1987|10.1007/BF01606678
91848|T||Derr,S.K.|In Vivo Metabolism of Exogenous Progesterone by PCB Treated Female Rats|Bull. Environ. Contam. Toxicol.19:729-732|1978|10.1007/BF01685865
91849|T||Rozman,K., B. Pfeifer, L. Kerecsen, and R.H. Alper|Is a Serotonergic Mechanism Involved in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)-Induced Appetite Suppression in the Sprague-Dawley Rat?|Arch. Toxicol.65:124-128|1991|10.1007/BF02034938
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91851|T||Bombick,D.W., J. Jankun, K. Tullis, and F. Matsumura|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Causes Increases in Expression of c-erb-A and Levels of Protein-Tyrosine Kinases in Selected Tissues of Responsive Mouse Strains|Proc. Natl. Acad. Sci. U.S.A.85:4128-4132|1988|10.1073/pnas.85.12.4128
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91854|T||Romagni,J.G., G. Meazza, N.P.D. Nanayakkara, and F.E. Dayan|The Phytotoxic Lichen Metabolite, Usnic Acid, is a Potent Inhibitor of Plant p-Hydroxyphenylpyruvate Dioxygenase|FEBS Lett.480(2-3): 301-305|2000|10.1016/S0014-5793(00)01907-4
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91860|T||Chidiac,P., and M.T. Goldberg|Lack of Induction of Nuclear Aberrations by Captan in Mouse Duodenum|Environ. Mutagen.9(3): 297-306|1987|10.1002/em.2860090309
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91869|T||Ware,G.W., B.J. Estesen, and N.A. Buck|Effects of Toxaphene on the Residual Life of Methyl Parathion on Cotton.|Bull. Environ. Contam. Toxicol.21:657-660|1979|10.1007/BF01685485
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91872|T||DuPont Chemical Corp.|Initial Submission: Acute Dermal Toxicity of Phosphonothioic Acid, Phenyl-, O-Ethyl O-(Nitrophenyl)Ester with O,O-Dimethyl O-(4-Nitrophenyl)* with Cover Letter Dated 082092|Du Pont, Wilmington, DE:7 p.|1992|
91873|T||Dow Corning Co.|Initial Submission: N,N-Dimethyl-N-(3-(Trimethoxysilyl)Propyl)-1-Octadecanaminium Chloride: an Acute Eye Irritation Study in Rabbits with Cover Letter Dated 040992 and Attachments|EPA/OTS Doc.#88-920001874:14 p.|1992|
91875|AT||DuPont Chemical Corp.|Initial Submission:  Letter from Dupont Chem Co to USEPA Regarding Toxicity Studies with Dupont 5700 with Cover Letter Dated 090192|EPA/OTS Doc.#88-920008278:26 p.|1992|
91876|T||Sato,R., E. Nagano, H. Oshio, and K. Kamoshita|Activities of the N-Phenyl Imide S-23142 in Carotenoid-Deficient Seedlings of Rice and Cucumber|Pestic. Biochem. Physiol.31(3): 213-220|1988|10.1016/0048-3575(88)90127-7
91883|T||Ahmed,R.S., V. Seth, S.T. Pasha, and B.D. Banerjee|Influence of Dietary Ginger (Zingiber officinales Rosc) on Oxidative Stress Induced by Malathion in Rats|Food Chem. Toxicol.38(5): 443-450|2000|10.1016/S0278-6915(00)00019-3
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91913|T||Lox,C.D.|Short Term Malathion Ingestion and Blood Clotting in the Rat|J. Environ. Pathol. Toxicol. Oncol.6(1): 51-56|1985|
91914|T||Johnson,G., and K. Kammerzell|Russian Wheat Aphid Control in Winter Wheat, 1990|Insectic. Acaric. Tests16:240-241|1991|10.1093/iat/16.1.240
91915|T||Fisher,G.C., G.L. Parsons, J. Williams, and J. Eickelberger|Control of European Crane Fly Infesting Pasture, Tillamook, Oreg., 1989 and 1990|Insectic. Acaric. Tests16:200-201|1991|10.1093/iat/16.1.200a
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91919|A||Shell Oil Co.|Toxicity Tests with Daphnia magna:  Acute Toxicity of Five Test Materials to a Newly-Introduced Strain of D. magna (Received October, 1984) with Cover Letter Dated 103086|Shell Oil Company, Washington, DC:16 p.|2000|
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91926|T||Sultatos,L.G., G.J. Huang, O. Jackson, K. Reed, and T.M. Soranno|The Effect of Glutathione Monoethyl Ester on the Potentiation of the Acute Toxicity of Methyl Parathion, Methyl Paraoxon or Fenitrothion by Diethyl Maleate in the Mouse|Toxicol. Lett.55(1): 77-83|1991|10.1016/0378-4274(91)90029-6
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91932|T||Scott,G.C.|Experimental Seed Treatments for the Control of Wheat Bulb Fly and Slugs|Br. Crop Prot. Conf.11(2): 441-448|1981|
91933|T||Sampson,A.J., A.F. Burnhams, and B.T. Grayson|Effect of Adjuvants on the Performance of the New Cereal Fungicide, Metconazole: II. Field Trials|Pestic. Sci.45(2): 161-166|1995|10.1002/ps.2780450210
91934|A||Tominaga,M., K. Morita, S. Sonobe, E. Yokota, and T. Shimmen|Microtubules Regulate the Organization of Actin Filaments at the Cortical Region in Root Hair Cells of Hydrocharis|Protoplasma (Multiple Languages)199(1-2): 83-92|1997|10.1007/BF02539809
91935|T||Johnston,T.P., H. Beris, Z.G. Wout, and J.L. Kennedy|Effects on Splenic, Hepatic, Hematological, and Growth Parameters Following High-Dose Poloxamer 407 Administration to Rats|Int. J. Pharmaceut.100(1-3): 279-284|1993|10.1016/0378-5173(93)90103-M
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91939|T||Davies,R.J.|The Importance of Weed Control and the Use of Tree Shelters for Establishing Broadleaved Trees on Grass-Dominated Sites in England|Forestry58(2): 167-180|1985|10.1093/forestry/58.2.167
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91942|T||Miyamoto,J., Y. Sato, K. Yamamoto, M. Endo, and S. Suzuki|Biochemical Studies on the Mode of Action of Pyrethroidal Insecticides. Part I.  Metabolic Fate of Phthalthrin in Mammals|Agric. Biol. Chem.32(5): 628-640|1968|
91943|T||Frecus,G.|Comparative Toxicological Study of Two Romanian Synthetic Pyrethroids|Stud. Univ. Babes-Bolyai, Ser. Biol. (Multiple Languages)31(2): 70-75|1986|
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91950|T||Mehri,H., R. Mehri-Kamoun, A. Ben Dhiab, and M. El Mahjoub|The Effect of Bactospeine and Three Insecticides on Olive Pollen Germination and Tube Growth|Adv. Hortic. Sci.20(2): 140-146|2006|
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91953|T||Mills,L.J., and J.M. Kotze|Control of Stem Rust of Wheat with Systemic Fungicides|Phytophylactica10(1): 17-20|1978|
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91956|T||Fejes,S., M. Keseru, P. Budai, and L. Varnagy|Comparing Two Methods of Examination in the Interaction Study of a Pesticide and a Heavy Metal|Commun. Agric. Appl. Biol. Sci.68(4b): 799-802|2003|
91957|T||Boman,A., J. Montelius, R.L. Rissanen, and C. Liden|Sensitizing Potential of Chlorothalonil in the Guinea Pig and the Mouse|Contact Dermatitis43(5): 273-279|2000|10.1034/j.1600-0536.2000.043005273.x
91958|T||Auger,P., R. Bonafos, and S. Kreiter|Mancozeb Resistance Patterns Among Kampimodromus aberrans and Typhlodromus pyri (Acari:  Phytoseiidae) Strains from French Vineyards|Can. Entomol.136(5): 663-673|2004|10.4039/n03-115
91959|T||Tate,K.G., and J.F. Seelye|Brown Rot Control in Peaches|N. Z. J. Exp. Agric.5(3): 293-296|1977|10.1080/03015521.1977.10425983
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91961|T||Singh,G., and P.S. Bedi|Control of Foot Rot of Gram Caused by Operculella padwickii|Indian Phytopathol.32(3): 491-493|1979|
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91963|T||Harwood,C.A., and R.D. Raabe|The Disease Cycle and Control of Geranium Rust|Phytopathology69(9): 923-927|1979|10.1094/Phyto-69-923
91964|T||Quinn,J.A., and C.C.,Jr. Powell|Effectiveness of New Systemic Fungicides for Control of Powdery Mildew of Begonia|Plant Dis.66(8): 718-720|1982|10.1094/PD-66-718
91965|T||Wicks,T.J., B. Hall, and P. Pezzaniti|Fungicidal Control of Anthracnose (Microdochium panattonianum) on Lettuce|Aust. J. Exp. Agric.34(2): 277-283|1994|10.1071/EA9940277
91966|T||Wicks,T., G. Lomman, and I.S. Rogers|Fungicide Control of Ringspot (Mycosphaerella brassicicola) in Brussels Sprouts|Aust. J. Exp. Agric.27(4): 597-600|1987|10.1071/EA9870597
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91968|T||Schwabe,W.F.S.|Greenhouse Evaluation of Fungicides for Apple Scab Control|Phytophylactica12(4): 195-197|1980|
91969|T||Schwabe,W.F.S.|Curative Activity of Fungicides Against Apple Leaf Injection by Venturia inaequalis|Phytophylactica12(4): 199-207|1980|
91970|T||Hood,I.A., and J.B. Van der Pas|Fungicidal Control of Phaeocryptopus gaeumannii Infection in a 19-Year-Old Douglas Fir Stand|N. Z. J. For. Sci.9(3): 272-283|1979|
91971|T||Cimanowski,J., and M. Szkolnik|Postsymptom Activity of Ergosterol Inhibitors Against Apple Powdery Mildew|Plant Dis.69(7): 562-563|1985|10.1094/PD-69-562
91972|T||Hickey,K.D., and K.S. Yoder|Field Performance of Sterol-Inhibiting Fungicides Against Apple Powdery Mildew in the Mid-atlantic Apple Growing Region|Plant Dis.65(12): 1002-1006|1981|10.1094/PD-65-1002
91973|T||Schwabe,W.F.S.|Prevention of Storage Scab of Apples|Phytophylactica12(4): 209-211|1980|
91975|T||Looney,N.E., and J.E. McKellar|Thinning Spartan Apples with Carbaryl and 1-Naphthaleneacetic Acid:  Influence of Spray Volume and Combinations of Chemicals|Can. J. Plant Sci.64:161-166|1984|10.4141/cjps84-020
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91980|T||Rattink,H., C. Zamorski, and M.C. Dil|Spread and Control of White Rust (Puccinia horiana) on Chrysanthemums on Artificial Substrate|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(3B): 1243-1249|1985|
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91982|T||Kotasthane,A.|Effect of Fungicide on Chlorophyll and Nutrient Status of Mustard Plant|Adv. Plant Sci.7(2): 410-412|1994|
91983|T||Kumar,S., and D.P. Thakur|Chemical Control of Ergot of Pearl Millet In Vitro and In Vivo|Agric. Sci. Dig.16(2): 71-74|1996|
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91985|T||Schwabe,W.F.S., A.L. Jones, and J.P. Jonker|Greenhouse Evaluation of the Curative and Protective Action of Sterol-Inhibiting Fungicides Against Apple Scab|Phytopathology74(2): 249-252|1984|10.1094/Phyto-74-249
91986|T||Pearson,R.C., M. Szkolnik, and F.W. Meyer|Suppression of Cedar Apple Rust Pycnia on Apple Leaves Following Postinfection Applications of Fenarimol and Triforine|Phytopathology68(12): 1805-1809|1978|10.1094/Phyto-68-1805
91987|T||Brown,D., and D. Woodcock|Structure-Activity Relationships in Fungitoxicants Related to Triforine and Chloraniformethan.  II.  Redistribution on Barley and Marrow Seedlings|Pestic. Sci.6(4): 363-369|1975|10.1002/ps.2780060404
91988|T||Brown,D., and D. Woodcock|Structure-Activity Relationships in Fungitoxicants Related to Triforine and Chloraniformethan.  I.  Synthesis and Fungitoxicity to Erysiphe graminis on Barley|Pestic. Sci.6(4): 347-362|1975|10.1002/ps.2780060403
91989|T||Cobb,G.S., A.K. Hagan, C.H. Gilliam, and J.M. Mullen|Fungicidal Control of Entomosporium Leaf Spot on Photinia|Plant Dis.69(8): 684-685|1985|
91990|T||Ellis,M.A., L.V. Madden, and L.L. Wilson|Evaluation of an Electronic Apple Scab Predictor for Scheduling Fungicides with Curative Activity|Plant Dis.68(12): 1055-1057|1984|10.1094/PD-69-1055
91991|T||Szkolnik,M.|Physical Modes of Action of Sterol-Inhibiting Fungicides Against Apple Diseases|Plant Dis.65(12): 981-985|1981|10.1094/PD-65-981
91993|A||Lee,S.B., and J. Choi|Effects of Bisphenol A and Ethynyl Estradiol Exposure on Enzyme Activities, Growth and Development in the Fourth Instar Larvae of Chironomus riparius (Diptera, Chironomidae)|Ecotoxicol. Environ. Saf.68:84-90|2007|10.1016/j.ecoenv.2006.07.003
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91996|T||Rathaiah,Y.|Glasshouse Control of Grey-Mildew of Upland Cotton with Fungicides|Indian J. Agric. Sci.49(4): 221-226|1979|
91997|AT||Fuchs,A., M. Viets-Verweij, and F.W. De Vries|Metabolic Conversion in Plants of the Systemic Fungicide Triforine [N,N'-bis(1-Formamido-2,2,2-Trichloroethyl)-Piperazine; CELA W 524]|Phytopathol. Z. (Multiple Languages)75(2): 111-123|1972|10.1111/j.1439-0434.1972.tb02605.x
91998|T||Sherald,J.L., N.N. Ragsdale, and H.D. Sisler|Similarities Between the Systemic Fungicides Triforine and Triarimol|Pestic. Sci.4(5): 719-727|1973|10.1002/ps.2780040514
91999|T||Ebenebe,C., V. Von Bruchhausen, and F. Grossman|Dosage-Response Curve of Wheat Brown Rust to Triforine Supplied via Root Treatment|Pestic. Sci.5(1): 17-24|1974|10.1002/ps.2780050105
92000|T||Ost,W., V. Von Bruchhausen, and C. Drandarevski|Transport of the Systemic Fungicide Cela W 524 in Barley Plants (Part I)|Pestic. Sci.2(5): 219-224|1971|10.1002/ps.2780020509
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92004|T||Hafez,M.B., A. Schmitt, and S.A. Hassan|The Side-Effects of Plant Extracts and Metabolites of Reynoutria sachalinensis (F. Schmidt) Nakai and Conventional Fungicides on the Beneficial Organism Trichogramma cacoeciae Marchal (Hym., Trichogrammatidae)|J. Appl. Entomol.123(6): 363-368|1999|10.1046/j.1439-0418.1999.00379.x
92005|T||Metcalfe,N.D.S., and D.R. Jones|Evaluation of Fungicides for Control of Net Blotch of Winter Barley|Tests Agrochem. Cultiv.6:42-43|1985|
92006|T||Nabi,M.N.|Evaluation of Cypermethrin and Fenvalerate Against Potato Moth, Phthorimaea operculella|Tests Agrochem. Cultiv.10:22-23|1989|
92007|T||Zhang,J., V.A. Fitsanakis, G. Gu, D. Jing, M. Ao, V. Amarnath, and T.J. Montine|Manganese Ethylene-bis-Dithiocarbamate and Selective Dopaminergic Neurodegeneration in Rat:  A Link Through Mitochondrial Dysfunction|J. Neurochem.84(2): 336-346|2003|10.1046/j.1471-4159.2003.01525.x
92008|T||Slimak,K.M.|Avoidance Response as a Sublethal Effect of Pesticides on Lumbricus terrestris (Oligochaeta)|Soil Biol. Biochem.29(3/4): 713-715|1997|10.1016/S0038-0717(96)00027-2
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92010|T||Milus,E.A., and C.E. Parsons|Evaluation of Foliar Fungicides for Controlling Fusarium Head Blight of Wheat|Plant Dis.78(7): 697-699|1994|10.1094/PD-78-0697
92011|T||Lorbeer,J.W., and P.C. Vincelli|Efficacy of Dicarboximide Fungicides and Fungicide Combinations for Control of Botrytis Leaf Blight of Onion in New York|Plant Dis.74(3): 235-237|1990|10.1094/PD-74-0235
92012|T||Hagan,A.K., C.H. Gilliam, D.C. Fare, and K. Bowen|Application Rates and Spray Schedules of Ergosterol-Biosynthesis Inhibitor Fungicides for Control of Black Spot of Rose|Plant Dis.75(11): 1143-1146|1991|10.1094/PD-75-1143
92013|T||Cowger,C., and C.C. Mundt|Aggressiveness of Mycosphaerella graminicola Isolates from Susceptible and Partially Resistant Wheat Cultivars|Phytopathology92(6): 624-630|2002|10.1094/PHYTO.2002.92.6.624
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92016|T||Abba,E.J., and A. Lovato|Effect of Seed Storage Temperature and Relative Humidity on Maize (Zea mays L.) Seed Viability and Vigour|Seed Sci. Technol.27(1): 101-114|1999|
92017|T||Liew,R.S.S., and R.E. Gaunt|Chemical Control of Ascochyta fabae in Vicia faba|N. Z. J. Exp. Agric.8(1): 67-70|1980|10.1080/03015521.1980.10426235
92019|T||Sobti,R.C., H. Kaur, and M. Sharma|Mutagenicity of Dithiocarbamate Herbicide Dithane M-45 (Mancozeb)|CIS (Chromosome Information Service)42:20-22|1987|
92020|T||Angeli,G., and C. Ioriatti|Susceptibility of Two Strains of Amblyseius andersoni Chant. (Acari: Phytoseiidae) to Dithiocarbamate Fungicides|Exp. Appl. Acarol.18(11/12): 669-679|1994|10.1007/BF00051534
92021|T||Zacharda,M., and M. Hluchy|Long-Term Residual Efficacy of Commercial Formulations of 16 Pesticides to Typhlodromus pyri Scheuten (Acari: Phytoseiidae) Inhabiting Commercial Vineyards|Exp. Appl. Acarol.13(1): 27-40|1991|10.1007/BF01268937
92022|T||Adamski,Z., and K. Ziemnicki|Side-Effects of Mancozeb on Spodoptera exigua (Hubn.) Larvae|J. Appl. Entomol.128(3): 212-217|2004|10.1111/j.1439-0418.2004.00840.x
92023|T||Thiruchelvam,M., E.K. Richfield, R.B. Baggs, A.W. Tank, and D.A. Cory-Slechta|The Nigrostriatal Dopaminergic System as a Preferential Target of Repeated Exposures to Combined Paraquat and Maneb:  Implications for Parkinson's Disease|J. Neurosci.20(24): 9207-9214|2000|10.1523/JNEUROSCI.20-24-09207.2000
92024|T||Teviotdale,B.L., D.M. Harper, T.J. Michailides, and G.S. Sibbett|Lack of Effect of Stone Fruit Rust on Yield of French Prune Trees and Survival of Urediniospores of the Pathogen on Leaves, Shoots, and Buds|Plant Dis.78(2): 141-145|1994|10.1094/PD-78-0141
92026|T||Kackar,R., M.K. Srivastava, and R.B. Raizada|Induction of Gonadal Toxicity to Male Rats After Chronic Exposure to Mancozeb|Ind. Health35(1): 104-111|1997|10.2486/indhealth.35.104
92027|T||Dumpe,B.D., and E.C.W. Wokoma|Factors Influencing Germination of Hybrid Plantain Seeds in Soil|Plant Foods Hum. Nutr. (Dordr.)58(3): 1-11|2003|10.1023/B:QUAL.0000040335.36708.20
92028|T||Brecht,M.O., L.E. Datnoff, T.A. Kucharek, and R.T. Nagata|Influence of Silicon and Chlorothalonil on the Suppression of Gray Leaf Spot and Increase Plant Growth in St. Augustinegrass|Plant Dis.88(4): 338-344|2004|10.1094/PDIS.2004.88.4.338
92029|T||Bowen,K.L., A.K. Hagan, J. Olive, and W. Foster|Application Rates and Spray Intervals of Ergosterol-Biosynthesis Inhibitor Fungicides for Control of Entomosporium Leaf Spot of Photinia|Plant Dis.78(6): 578-581|1994|10.1094/PD-78-0578
92030|T||Bindali,B.B., and B.B. Kaliwal|Anti-Implantation Effect of a Carbamate Fungicide Mancozeb in Albino Mice|Ind. Health40(2): 191-197|2002|10.2486/indhealth.40.191
92031|T||Belpoggi,F., M. Soffritti, M. Guarino, L. Lambertini, D. Cevolani, and C. Maltoni|Results of Long-Term Experimental Studies on the Carcinogenicity of Ethylene-bis-Dithiocarbamate (Mancozeb) in Rats|Ann. N. Y. Acad. Sci.982:123-136|2002|10.1111/j.1749-6632.2002.tb04928.x
92032|T||Baligar,P.N., and B.B. Kaliwal|Induction of Gonadal Toxicity to Female Rats After Chronic Exposure to Mancozeb|Ind. Health39(3): 235-243|2001|10.2486/indhealth.39.235
92033|T||Miles,M., and G. Kemmitt|Field Studies to Determine Mancozeb Based Spray Programmes with Minimal Impact on Predatory Mites in European Vine Cultivation|Commun. Agric. Appl. Biol. Sci.70(4): 559-567|2005|
92034|T||Nicolau,G.Y.|Circadian Rhythms of RNA, DNA and Protein Content in the Rat Thyroid, Adrenal and Testis in Chronic Pesticide Exposure.  I.  Effects of a Fungicide (Mancozeb)|Rev. Roum. Med. Endocrinol.20(4): 249-257|1982|
92035|T||Mahdy,A.M., H.N. Saada, M.M. Abbady, O.Z. Said, and K.S. Azab|Influence of Dithiocarbamate Pesticides and Radiation Exposure on Certain Liver Functions of Albino Rats|J. Med. Res. Inst.19(3): 60-69|1998|
92036|T||Keseru,M., S. Fejes, P. Budai, and L. Varnagy|Toxicity of a Mancozeb Containing Formulation and Cd-Sulphate to Chicken Embryos After Administration as Single Compounds or in Combination|Commun. Agric. Appl. Biol. Sci.68(4b): 813-815|2003|
92037|T||Khan,P.K., and S.P. Sinha|Ameliorating Effect of Vitamin C on Murine Sperm Toxicity Induced by Three Pesticides (Endosulfan, Phosphamidon and Mancozeb)|Mutagenesis11(1): 33-36|1996|10.1093/mutage/11.1.33
92039|T||Leidy,R.B., P.B. Shoemaker, T.J. Sheets, and C.E. Main|EBDC and ETU Residues in Burley Tobacco Treated with Mancozeb|Tob. Sci.33:56-60|1989|
92040|T||Sheets,T.J., R.B. Leidy, C.E. Main, and P.B. Shoemaker|Residues of EBDC and ETU on Flue-Cured Tobacco After Application of Mancozeb and Maneb|Tob. Sci.33:68-71|1989|
92041|T||Barlow,B.K., E.K. Richfield, D.A. Cory-Slechta, and M. Thiruchelvam|A Fetal Risk Factor for Parkinson's Disease|Dev. Neurosci.26(1): 11-23|2004|10.1159/000080707
92042|T||Nagia,D.K., S. Kumar, and M.L. Saini|Antifeedant Effect of Synthetic Pyrethroids to the Larvae of Bihar Hairy Caterpillar, Spilosoma obliqua Walker on Mustard and Castor Plants|Uttar Pradesh J. Zool.9(2): 282-285|1989|
92043|T||Tanaka,T., H. Kohno, M. Tanino, and Y. Yanaida|Inhibitory Effects of Estrogenic Compounds, 4-Nonylphenol and Genistein, on 7,12-Dimethylbenz(a)anthracene-Induced Ovarian Carcinogenesis in Rats|Ecotoxicol. Environ. Saf.52:38-45|2002|10.1006/eesa.2002.2159
92046|T||Muqbil,I., and N. Banu|Enhancement of Pro-Oxidant Effect of 7,12-Dimethylbenz(a)anthracene (DMBA) in Rats by Pre-Exposure to Restraint Stress|Cancer Lett.240(2): 213-220|2006|10.1016/j.canlet.2005.09.008
92047|A||Lu,X., D.D. Reible, and J.W. Fleeger|Relative Importance of Ingested Sediment Versus Pore Water Uptake Routes for PAHs to the Deposit-Feeding Oligochaete Ilyodrilus templetoni|Arch. Environ. Contam. Toxicol.47(2): 207-214|2004|10.1007/s00244-004-3053-x
92049|T||Hau,F.C., and M.K. Beute|Effects of Chlorothalonil on the Virulence and Physiology of a Nontargeted Pathogen, Sclerotinia minor|Phytopathology73(3): 475-479|1983|10.1094/Phyto-73-475
92050|T||Johnson,J.W., and J.C. Wise|Apple, Treatment Combinations for Season-Long Broad-Spectrum Insect Control, 1995|Arthropod Manag. Tests21:36-38|1996|10.1093/amt/21.1.36
92051|A||Vijayavel,K., and M.P. Balasubramanian|Changes in Oxygen Consumption and Respiratory Enzymes as Stress Indicators in an Estuarine Edible Crab Scylla serrata Exposed to Naphthalene|Chemosphere63(9): 1523-1531|2006|10.1016/j.chemosphere.2005.09.010
92052|A||Gesto,M., A. Tintos, J.L. Soengas, and J.M. Miguez|Effects of Acute and Prolonged Naphthalene Exposure on Brain Monoaminergic Neurotransmitters in Rainbow Trout (Oncorhynchus mykiss)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(2): 173-183|2006|10.1016/j.cbpc.2006.08.002
92053|A||Dos Santos,T.D.C.A., P.V. Ngan, M.J. De Arruda Campos Rocha Passos, and V. Gomes|Effects of Naphthalene on Metabolic Rate and Ammonia Excretion of Juvenile Florida Pompano, Trachinotus carolinus|J. Exp. Mar. Biol. Ecol.335(1): 82-90|2006|10.1016/j.jembe.2006.02.019
92054|A||Xie,F., S.A. Koziar, M.A. Lampi, D.G. Dixon, W.P. Norwood, U. Borgmann, X.D. Huang, and B.M. Greenberg|Assessment of the Toxicity of Mixtures of Copper, 9,10-Phenanthrenequinone, and Phenanthrene to Daphnia magna:  Evidence for a Reactive Oxygen Mechanism|Environ. Toxicol. Chem.25(2): 613-622|2006|10.1897/05-256R.1
92055|A||Tintos,A., M. Gesto, R. Alvarez, J.M. Miguez, and J.L. Soengas|Interactive Effects of Naphthalene Treatment and the Onset of Vitellogenesis on Energy Metabolism in Liver and Gonad, and Plasma Steroid Hormones of Rainbow Trout Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(2): 155-165|2006|10.1016/j.cbpc.2006.07.009
92056|A||Van Meter,R.J., J.R. Spotila, and H.W. Avery|Polycyclic Aromatic Hydrocarbons Affect Survival and Development of Common Snapping Turtle (Chelydra serpentina) Embryos and Hatchlings|Environ. Pollut.142(3): 466-475|2006|10.1016/j.envpol.2005.10.018
92057|T||Sverdrup,L.E., A. De Vaufleury, T. Hartnik, S.B. Hagen, A.P. Loibner, and J. Jensen|Effects and Uptake of Polycyclic Aromatic Compounds in Snails (Helix aspersa)|Environ. Toxicol. Chem.25(7): 1941-1945|2006|10.1897/05-620R1.1
92058|A||Sun,Y., H. Yu, J. Zhang, Y. Yin, H. Shi, and X. Wang|Bioaccumulation, Depuration and Oxidative Stress in Fish Carassius auratus Under Phenanthrene Exposure|Chemosphere63(8): 1319-1327|2006|10.1016/j.chemosphere.2005.09.032
92059|T||Shane,B.S., J. De Boer, D.E. Watson, J.K. Haseman, B.W. Glickman, and K.R. Tindall|Lacl Mutation Spectra Following Benzo[a]pyrene Treatment of Big Blue Mice|Carcinogenesis21(4): 715-725|2000|10.1093/carcin/21.4.715
92060|A||Schreurs,R.H.M.M., J. Legler, E. Artola-Garicano, T.L. Sinnige, P.H. Lanser, W. Seinen, and B. Van der Burg|In Vitro and In Vivo Antiestrogenic Effects of Polycyclic Musks in Zebrafish|Environ. Sci. Technol.38(4): 997-1002|2004|10.1021/es034648y
92061|T||Padmavathi,R., P. Senthilnathan, and D. Sakthisekaran|Therapeutic Effect of Propolis and Paclitaxel on Hepatic Phase I and II Enzymes and Marker Enzymes in Dimethylbenz(a)anthracene-Induced Breast Cancer in Female Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(3): 349-354|2006|10.1016/j.cbpc.2006.03.009
92062|T||Nebert,D.W., N.M. Jensen, J.W. Perry, and T. Oka|Association Between Ornithine Decarboxylase Induction and the Ah Locus in Mice Treated with Polycyclic Aromatic Compounds|J. Biol. Chem.255(14): 6836-6842|1980|10.1016/S0021-9258(18)43649-6
92063|A||Meucci,V., and A. Arukwe|The Xenoestrogen 4-Nonylphenol Modulates Hepatic Gene Expression of Pregnane X Receptor, Aryl Hydrocarbon Receptor, CYP3A and CYP1A1 in Juvenile Atlantic Salmon (Salmo salar)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(1/2): 142-150|2006|10.1016/j.cbpc.2005.11.011
92064|A||Di Marzio,W., and M.E. Saenz|Quantitative Structure-Activity Relationship for Aromatic Hydrocarbons on Freshwater Fish|Ecotoxicol. Environ. Saf.59(2): 256-262|2004|10.1016/j.ecoenv.2003.11.006
92066|A||De Lange,H.J., V. Sperber, and E.T.H.M. Peeters|Avoidance of Polycyclic Aromatic Hydrocarbon-Contaminated Sediments by the Freshwater Invertebrates Gammarus pulex and Asellus aquaticus|Environ. Toxicol. Chem.25(2): 452-457|2006|10.1897/05-413.1
92067|T||Babu,T.R., and G. Ramanamurthy|Residual Toxicity of Pesticides to the Adults of Cryptolaemus montrouzieri Mulsant (Coccinellidae: Coleoptera)|Int. Pest Control41(4): 137-138|1999|
92068|A||DeLorenzo,M.E., and L. Serrano|Mixture Toxicity of the Antifouling Compound Irgarol to the Marine Phytoplankton Species Dunaliella tertiolecta|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(8): 1349-1360|2006|
92069|T||Aukema,B., J.H.J. Van den Berg, A. Leopold, G.A.J.M. Jagers, and J.W. Everts|A Method for Testing the Toxicity of Residues of Pesticides on a Standardized Substrate to Erigonid and Linyphiid Spiders|J. Appl. Entomol.109(1): 76-80|1990|10.1111/j.1439-0418.1990.tb00021.x
92070|T||Maila,M.P., and T.E. Cloete|Germination of Lepidium sativum as a Method to Evaluate Polycyclic Aromatic Hydrocarbons (PAHs) Removal from Contaminated Soil|Int. Biodeterior. Biodegrad.50:107-113|2002|10.1016/S0964-8305(02)00059-8
92071|T||Smith,M.J., T.H. Flowers, H.J. Duncan, and J. Alder|Effects of Polycyclic Aromatic Hydrocarbons on Germination and Subsequent Growth of Grasses and Legumes in Freshly Contaminated Soil and Soil with Aged PAHs Residues|Environ. Pollut.141(3): 519-525|2006|10.1016/j.envpol.2005.08.061
92073|A||Dow Chemical Co.|Initial Submission:  Toxicity of Dowicide EC-7 to Daphnids (Final Report) with Cover Letter Dated 012092|EPA/OTS Doc.#88-920000683:9 p.|1992|
92076|T||Raisbeck,M.F., D. O'Toole, D.A. Sanchez, R.L. Simieon, and J.W. Waggoner|Re-Evaluation of Selenium Toxicity in Grazing Mammals|In: National Meeting of the American Society for Surface Mining and Reclamation, Gillette, WY:372-384|1995|
92077|T||Cilliers,A.J., Z.A. Pretorius, and P.S. Van Wyk|Integrated Control of Sclerotium rolfsii on Groundnut in South Africa|J. Phytopathol.151(5): 249-258|2003|10.1046/j.1439-0434.2003.00715.x
92078|T||Szabo,R., P. Budai, S. Fejes, L. Varnagy, and M. Keseru|Embryonic Toxicity of a Mancozeb Containing Fungicide Formulation and Cu-Sulphate in Pheasant After Individual or Combined Administration|Commun. Agric. Appl. Biol. Sci.68(4, Pt. B): 803-806|2003|
92079|T||Cantonwine,E.G., A.K. Culbreath, K.L. Stevenson, R.C.,Jr. Kemerait, T.B. Brenneman, N.B. Smith, and B.G.,Jr. Mullinix|Integrated Disease Management of Leaf Spot and Spotted Wilt of Peanut|Plant Dis.90(4): 493-500|2006|10.1094/PD-90-0493
92080|T||Brenneman,T.B., and A.P. Murphy|Activity of Tebuconazole on Cercosporidium personatum, a Foliar Pathogen of Peanut|Plant Dis.75(7): 699-703|1991|10.1094/PD-75-0699
92081|T||Culbreath,A.K., T.B. Brenneman, L.D. Chandler, and H.R. Sumner|Chemigation and Ground-Spray Applications of Cyproconazole for Control of Late Leaf Spot of Peanut|Plant Dis.77(5): 505-507|1993|10.1094/PD-77-0505
92082|T||Mourad,A.K.K., O.A. Zaghloul, M.B. El Kady, F.M. Nemat, and M.E. Morsy|A Novel Approach for the Management of the Chalkbrood Disease Infesting Honeybee Apis mellifera L. (Hymenoptera:  Apidae) Colonies in Egypt|Commun. Agric. Appl. Biol. Sci.70(4): 601-611|2005|
92083|T||Runion,G.B., W.D. Kelley, D.H. Land, S.P. Gilly, and D.J. Sharp|Chemical Control of Rhizoctonia Seedling Blight of Longleaf Pine|South. J. Appl. For.18(1): 5-9|1994|10.1093/sjaf/18.1.5
92084|T||Roebroeck,E.J.A., R.J.M. De Greeff, and A.T.J. Koster|Effects of Temperature and Humidity on Parameters Related to the Wound Response of Lily Bulb Scales and Their Role in Control of Penicillium Decay in Combination with a Treatment with Captan|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3 Pt. b): 1305-1310|1987|
92085|T||Nielsen,S.L.|Preventive and Curative Chemical Treatment for Control of Black Currant Leaf Spot (Drepanopeziza ribis (Kleb.) Hohnel) and American Mildew (Sphaerotheca mors-uvae (Schw.) Berk.) on Black Currant (Ribes nigrum L.)|Tidsskr. Planteavl (Multiple Languages)91(3): 291-296|1987|
92086|T||Sasaki,T., K. Yoshikawa, H. Harada, S. Arai, and T. Takita|No Immunotoxic Effect on T Cells with Di (2-Ethylhexyl) Phthalate in Male C57BL/6 Mice|Environ. Health Prevent. Med.8(2): 59-63|2003|10.1007/BF02897928
92087|T||Olszak,R.W., and A. Maciesiak|Preliminary Investigations on Apple Sawfly Control with Fungicides|Br. Crop Prot. Conf. Pests Dis.1-3:331-336|1996|
92088|T||McCaffrey,J.P., and B.L. Harmon|Flea Beetle Control in Canola, 1994B|Arthropod Manag. Tests20:156-157|1995|10.1093/amt/20.1.156a
92089|T||Hagley,E.A.C., and J.E. Laing|Effect of Pesticides on Parasitism of Artificially Distributed Eggs of the Codling Moth, Cydia pomonella (Lepidoptera: Tortricidae) by Trichogramma spp. (Hymenoptera: Trichogrammatidae)|Proc. Entomol. Soc. Ont.120:25-33|1989|
92090|T||Boyle,C., and D.R. Walters|Saccharin-Induced Protection Against Powdery Mildew in Barley:  Effects on Growth and Phenylpropanoid Metabolism|Plant Pathol.55(1): 82-91|2006|10.1111/j.1365-3059.2005.01281.x
92091|T||Ugazio,G., G. Boccuzzi, and R. Guglielmone|Failure of Phenobarbitone to Potentiate the Adverse Effects of Two Ethylene-bis-Dithiocarbamate (EBDC) Fungicides|Res. Commun. Chem. Pathol. Pharmacol.59(2): 191-200|1988|
92092|T||Stansly,P.A., and J.M. Conner|Control of Southern Armyworm Spodoptera eridania in Staked Tomato, 1995|Arthropod Manag. Tests22:186-187|1997|10.1093/amt/22.1.186
92093|T||Baligar,P.N., and B.B. Kaliwal|Morphometric Analysis of Follicular Growth and Biochemical Constituents in Albino Rats Exposed to Mancozeb|J. Basic Clin. Physiol. Pharmacol.15(3/4): 241-262|2004|10.1515/JBCPP.2004.15.3-4.241
92094|T||Magarey,R.D., R.W. Emmett, P.A. Magarey, and P.R. Franz|Evaluation of Control of Grapevine Anthracnose Caused by Elsinoe ampelina by Pre-Infection Fungicides|Australas. Plant Pathol.22(2): 48-52|1993|10.1071/APP9930048
92095|T||Mann,R.L., P.S. Kettlewell, and P. Jenkinson|Effect of Foliar-Applied Potassium Chloride on Septoria Leaf Blotch of Winter Wheat|Plant Pathol.53(5): 653-659|2004|10.1111/j.1365-3059.2004.01063.x
92096|T||Louws,F.J., M.K. Hausbeck, J.F. Kelly, and C.T. Stephens|Impact of Reduced Fungicide and Tillage on Foliar Blight, Fruit Rot, and Yield of Processing Tomatoes|Plant Dis.80(11): 1251-1256|1996|10.1094/PD-80-1251
92097|T||Culbreath,A.K., N.A. Minton, T.B. Brenneman, and B.G. Mullinix|Response of Florunner and Southern Runner Peanut Cultivars to Chemical Management of Late Leaf Spot, Southern Stem Rot, and Nematodes|Plant Dis.76(12): 1199-1203|1992|10.1094/PD-76-1199
92098|T||Lotstein,R.J., and D.D. Davis|Influence of Chronic Sulfur Dioxide Exposures on Early Blight of Tomato|Plant Dis.67(7): 797-800|1983|10.1094/PD-67-797
92100|A||Brack,W., and H. Rottler|Toxicity Testing of Highly Volatile Chemicals with Green Algae - A New Assay|Environ. Sci. Pollut. Res.1(4): 223-228|1994|10.1007/BF02986534
92101|T||Garibaldi,A., Q. Migheli, and M.L. Gullino|Evaluation of the Efficacy of Several Fungicides Against Cryptocline cyclaminis on Cyclamen|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3, Pt. a): 859-866|1987|
92102|T||Tripathy,N.K., R. Mishra, A. Anandkumar, and G.P. Sahu|Lack of Genotoxicity of Saccharin and Sodium Saccharin Studied in the Drosophila Wing Spot and Sex-Linked Recessive Lethal Tests|Rev. Int. Contam. Ambient.10(2): 89-98|1994|
92106|T||Stokker,G.E., A.A. Deana, S.J. DeSolms, E.M. Schultz, R.L. Smith, E.J.,Jr. Cragoe, J.E. Baer, C.T. Ludden, H.F. Russo, |2-(Aminomethyl)phenols, A New Class of Saluretic Agents.  1.  Effects of Nuclear Substitution|J. Med. Chem.23(12): 1414-1427|1980|10.1021/jm00186a024
92107|T||Stokker,G.E., A.A. Deana, S.J. DeSolms, E.M. Schultz, R.L. Smith, E.J.,Jr. Cragoe, J.E. Baer, H.F. Russo, and L.S. Wats|2-(Aminomethyl)phenols, A New Class of Saluretic Agents.  4.  Effects of Oxygen and/or Nitrogen Substitution|J. Med. Chem.25(6): 735-742|1982|10.1021/jm00348a024
92108|T||Oshiro,Y., Y. Sakurai, T. Tanaka, H. Ueda, T. Kikuchi, and K. Tottori|Novel Cerebroprotective Agents with Central Nervous System Stimulating Activity.  1.  Synthesis and Pharmacology of the 1-Amino-7-Hydroxyindan Derivatives|J. Med. Chem.34(7): 2004-2013|1991|10.1021/jm00111a013
92109|T||Lee,C.M., J.A. Parks, P.R. Bunnell, J.J. Plattner, M.J. Field, and G.H. Giebisch|((Aminomethyl)aryloxy)acetic Acid Esters.  A New Class of High-Ceiling Diuretics.  4.  Substituted 6,7-Dichloro-2,3-Dihydrobenzofurans Derived by Ring Annelation|J. Med. Chem.28(5): 589-594|1985|10.1021/jm50001a009
92110|T||Flesher,J.W., J. Horn, and A.F. Lehner|Comparative Carcinogenicity of Picene and Dibenz[a,h]anthracene in the Rat|Biochem. Biophys. Res. Commun.290(1): 275-279|2002|10.1006/bbrc.2001.6175
92111|T||Ekstrom,T., K.H. Mild, and B. Holmberg|Mammary Tumours in Sprague-Dawley Rats After Initiation with DMBA Followed by Exposure to 50 Hz Electromagnetic Fields in a Promotional Scheme|Cancer Lett.123(1): 107-111|1998|10.1016/S0304-3835(97)00422-9
92112|T||Chen,T., A. Aidoo, M.G. Manjanatha, R.A. Mittelstaedt, S.D. Shelton, L.E. Lyn-Cook, D.A. Casciano, and R.H. Heflich|Comparison of Mutant Frequencies and Types of Mutations Induced by Thiotepa in the Endogenous Hprt Gene and Transgenic lacI Gene of Big Blue Rats|Mutat. Res.403(1-2): 199-214|1998|10.1016/S0027-5107(98)00080-3
92113|T||Chakravarty,P.K., and D.K. Sinha|Pregnancy Induced Mammary Tumor Specific Effector Cells are Present Long After Parturition in a Breast Cancer Model in Rats|Cancer Lett.154(1): 1-7|2000|10.1016/S0304-3835(99)00435-8
92114|T||Deana,A.A., G.E. Stokker, E.M. Schultz, R.L. Smith, E.J.,Jr. Cragoe, H.F. Russo, and L.S. Watson|2-(Aminomethyl)phenols, a New Class of Saluretic Agents.  5.  Fused-Ring Analogs|J. Med. Chem.26(4): 580-585|1983|10.1021/jm00358a023
92115|T||Api,A.M., and R.H.C. San|Genotoxicity Tests with 6-Acetyl-1,1,2,4,4,7-Hexamethyltetraline and 1,3,4,6,7,8-Hexahydro-4,6,6,7,8,8-Hexamethylcyclopenta-[Gamma]-2-Benzopyran|Mutat. Res., Genet. Toxicol. Environ. Mutagen.446(1): 67-81|1999|10.1016/S1383-5718(99)00150-3
92116|T||Anisimov,V.N., M.A. Zabezhinski, I.G. Popovich, E.A. Zaripova, S.A. Musatov, V. Andre, C. Vigreux, T. Godard, and F. Si|Inhibitory Effect of Melatonin on 7,12-Dimethylbenz[a]anthracene-Induced Carcinogenesis of the Uterine Cervix and Vagina in Mice and Mutagenesis In Vitro|Cancer Lett.156(2): 199-205|2000|10.1016/S0304-3835(00)00463-8
92117|T||Zi,X., H. Mukhtar, and R. Agarwal|Novel Cancer Chemopreventive Effects of a Flavonoid Antioxidant Silymarin: Inhibition of mRNA Expression of an Endogenous Tumor Promoter TNF[alpha]|Biochem. Biophys. Res. Commun.239(1): 334-339|1997|10.1006/bbrc.1997.7375
92118|T||Wolf,T., C. Niehaus-Rolf, and N.P. Luepke|Some new Methodological Aspects of the Hen's Egg Test for Micronucleus Induction (HET-MN)|Mutat. Res., Genet. Toxicol. Environ. Mutagen.514(1-2): 59-76|2002|10.1016/S1383-5718(01)00317-5
92119|T||Walentinsson,A., and G. Levan|Ras Gene Mutations in 7,12-Dimethylbenz[a]anthracene (DMBA)-Induced Rat Sarcomas|Cancer Lett.166(1): 47-53|2001|10.1016/S0304-3835(01)00388-3
92120|T||Vrzoc,M., and M.L. Petras|Comparison of Alkaline Single Cell Gel (Comet) and Peripheral Blood Micronucleus Assays in Detecting DNA Damage Caused by Direct and Indirect Acting Mutagens|Mutat. Res., Fundam. Mol. Mech. Mutagen.381(1): 31-40|1997|10.1016/S0027-5107(97)00143-7
92121|T||Uchida,M., H. Tsuboi, T. Yamaji, N. Murata, T. Kohno, E. Sugino, S. Hibino, M. Shimamura, and T. Oikawa|Inhibition by 9[alpha]-Fluoromedoroxyprogesterone Acetate (FMPA) Against Mammary Carcinoma Induced by Dimethylbenz[a]anthracene in Rats and Angiogenesis in the Rabbit Cornea - Comparison with Medroxyprogesterone Acetate|Cancer Lett.154(1): 63-69|2000|10.1016/S0304-3835(00)00375-X
92122|T||Von Tungeln,L.S., Q. Xia, D. Herreno-Saenz, T.J. Bucci, R.H. Heflich, and P.P. Fu|Tumorigenicity of Nitropolycyclic Aromatic Hydrocarbons in the Neonatal B6C3F1 Mouse Bioassay and Characterization of ras Mutations in Liver Tumors from Treated Mice|Cancer Lett.146(1): 1-7|1999|10.1016/S0304-3835(99)00206-2
92123|A||Gensemer,R.W., D.G. Dixon, and B.M. Greenberg|Amelioration of the Photo-Induced Toxicity of Polycyclic Aromatic Hydrocarbons by a Commercial Humic Acid|Ecotoxicol. Environ. Saf.39(1): 57-64|1998|10.1006/eesa.1997.1606
92124|T||Garg,D.K.|Control of Rice Stem Borer and Leaf Folder in Hilly Region|Pesticides 20(10): 32-33|1986|
92125|T||Noetzel,D., M. Ricard, and D. Stevens|Soil Systemics Applied At-Plant and Emergence for Potato Insect Control in Irrigated Potato, 1987|Insectic. Acaric. Tests13:158-|1988|10.1093/iat/13.1.158
92126|T||Sverdrup,L.E., T. Nielsen, and P.H. Krogh|Soil Ecotoxicity of Polycyclic Aromatic Hydrocarbons in Relation to Soil Sorption, Lipophilicity, and Water Solubility|Environ. Sci. Technol.36:2429-2435|2002|10.1021/es010180s
92127|A||Sundelin,B., A.K.E. Wiklund, G. Lithner, and O. Gustafsson|Evaluation of the Role of Black Carbon in Attenuating Bioaccumulation of Polycyclic Aromatic Hydrocarbons from Field-Contaminated Sediments|Environ. Toxicol. Chem.23(11): 2611-2617|2004|10.1897/03-359
92128|T||Cortet,J., R. Joffre, S. Elmholt, M. Coeurdassier, R. Scheifler, and P.H. Krogh|Interspecific Relationships Among Soil Invertebrates Influence Pollutant Effects of Phenanthrene|Environ. Toxicol. Chem.25(1): 120-127|2006|10.1897/05-173R.1
92129|A||Aksmann,A., and Z. Tukaj|The Effect of Anthracene and Phenanthrene on the Growth, Photosynthesis, and SOD Activity of the Green Alga Scenedesmus armatus Depends on the PAR Irradiance and CO2 Level|Arch. Environ. Contam. Toxicol.47(2): 177-184|2004|10.1007/s00244-004-2297-9
92130|T||Saour,G., and H. Makee|A Kaolin-Based Particle Film for Suppression of the Olive Fruit Fly Bactrocera oleae Gmelin (Dip., Tephritidae) in Olive Groves|J. Appl. Entomol.128(1): 28-31|2004|10.1046/j.1439-0418.2003.00803.x
92131|T||Giraud,F., P. Guiraud, M. Kadri, G. Blake, and R. Steiman|Biodegradation of Anthracene and Fluoranthene by Fungi Isolated from an Experimental Constructed Wetland for Wastewater Treatment|Water Res.35(17): 4126-4136|2001|10.1016/S0043-1354(01)00137-3
92132|A||Watson,D.E., L. Menard, J.J. Stegeman, and R.T. Di Giulio|Aminoanthracene is a Mechanism-Based Inactivator of CYP1A in Channel Catfish Hepatic Tissue|Toxicol. Appl. Pharmacol.135:208-215|1995|10.1006/taap.1995.1225
92133|T||Jiang,T., B.W. Glickman, and J.G. De Boer|Protective Effect of Green Tea Against Benzo[a]pyrene-Induced Mutations in the Liver of Big Blue Transgenic Mice|Mutat. Res.480-481:147-151|2001|10.1016/S0027-5107(01)00178-6
92134|T||Mevissen,M., M. Haussler, A. Lerchl, and W. Loscher|Acceleration of Mammary Tumorigenesis by Exposure of 7,12-Dimethylbenz[a]anthracene-Treated Female Rats in a 50-hz, 100-muT Magnetic Field:  Replication Study|J. Toxicol. Environ. Health53(5): 401-418|1998|10.1080/009841098159259
92135|T||Nexo,B.A., and K. Ulrich|Activation of C-Type Virus During Chemically Induced Leukemogenesis In Mice|Cancer Res.38(3): 729-735|1978|
92136|A||Sericano,J.L., T.L. Wade, and J.M. Brooks|Accumulation and Depuration of Organic Contaminants by the American Oyster (Crassostrea virginica)|Sci. Total Environ.179:149-160|1996|10.1016/0048-9697(96)90054-6
92137|A||Robinson,D.G., and W. Herzog|Structure, Synthesis and Orientation of Microfibrils.  III.  A Survey of the Action of Microtubule Inhibitors on Microtubules and Microfibril Orientation in Oocystis solitaria|Cytobiologie15(3): 463-474|1977|
92138|T||Farag,A.T., T.A.Z. Karkour, and A. El Okazy|Developmental Toxicity of Orally Administered Technical Dimethoate in Rats|Birth Defects Res. B Dev. Reprod. Toxicol.77(1): 40-46|2006|10.1002/bdrb.20066
92139|T||Winson,S.J., M.C. Hare, and P. Jenkinson|The Interaction Between Ear Sprays and Seed Treatment for the Control of Fusarium Seedling Blight in Wheat|BCPC Symp. Proc.76:251-256|2001|
92140|T||Papp,A., L. Pecze, and T. Vezer|Comparison of the Effect of Subacute Organophosphate Exposure on the Cortical and Peripheral Evoked Activity in Rats|Pestic. Biochem. Physiol.79(3): 94-100|2004|10.1016/j.pestbp.2004.04.003
92141|T||Mahadevaswami,M.P., and B.B. Kaliwal|Effect of Different Schedules and Efficacy of Progesterone on Implantation in Dimethoate Treated Albino Mice|Environ. Toxicol. Pharmacol.20(2): 251-257|2005|10.1016/j.etap.2004.09.014
92142|T||Loureiro,S., A.M.V.M. Soares, and A.J.A. Nogueira|Terrestrial Avoidance Behaviour Tests as Screening Tool to Assess Soil Contamination|Environ. Pollut.138(2): 121-131|2006|
92143|T||Kim,S.S., S.J. Kwack, R.D. Lee, K.J. Lim, G.S. Rhee, J.H. Seok, B.H. Kim, Y.H. Won, G.S. Gee, E.B. Jeung, B.M. Lee, and|Assessment of Estrogenic and Androgenic Activities of Tetramethrin In Vitro and In Vivo Assays|J. Toxicol. Environ. Health Part A68(23/24): 2277-2289|2005|
92144|T||Kamath,V., and P.S. Rajini|Altered Glucose Homeostasis and Oxidative Impairment in Pancreas of Rats Subjected to Dimethoate Intoxication|Toxicology231(2-3): 137-146|2007|10.1016/j.tox.2006.11.072
92145|T||Farag,A.T., A.F. El-Aswad, and N.A. Shaaban|Assessment of Reproductive Toxicity of Orally Administered Technical Dimethoate in Male Mice|Reprod. Toxicol.23(2): 232-238|2007|10.1016/j.reprotox.2006.12.003
92146|T||Endlweber,K., M. Schadler, and S. Scheu|Effects of Foliar and Soil Insecticide Applications on the Collembolan Community of an Early Set-Aside Arable Field|Appl. Soil Ecol.31(1/2): 136-146|2006|10.1016/j.apsoil.2005.03.004
92147|A||Andersen,T.H., R. Tjornhoj, L. Wollenberger, T. Slothuus, and A. Baun|Acute and Chronic Effects of Pulse Exposure of Daphnia magna to Dimethoate and Pirimicarb|Environ. Toxicol. Chem.25(5): 1187-1195|2006|10.1897/05-465R1.1
92148|A||Chen,Z., P. Juneau, and B. Qiu|Effects of Three Pesticides on the Growth, Photosynthesis and Photoinhibition of the Edible Cyanobacterium Ge-Xian-Mi (Nostoc)|Aquat. Toxicol.81(3): 256-265|2007|10.1016/j.aquatox.2006.12.008
92149|T||Sampson,A.J., A. Cazenave, J.P. Laffranque, R.G. Jones, S. Kumazawa, and T. Chida|Metconazole, an Advance in Disease Control in Cereals and Other Crops|Br. Crop Prot. Conf. Pests Dis.:419-426|1992|
92150|T||Jennings,P., J.A. Turner, and P. Nicholson|Overview of Fusarium Ear Blight in the UK - Effect of Fungicide Treatment on Disease Control and Mycotoxin Production|Br. Crop Prot. Conf. Pests Dis.2:707-712|2000|
92151|T||Satake,K.|Caramba (Metconazole) - A New Systemic Azole Fungicide|Agrochem. Jpn.71:13-15|1997|
92152|T||Syversen,N., and K. Haarstad|Retention of Pesticides and Nutrients in a Vegetated Buffer Root Zone Compared to Soil with Low Biological Activity|Int. J. Environ. Anal. Chem.85(15): 1175-1187|2005|10.1080/03067310500117400
92153|AT||Lam,W.K., and A.S. Tham|A Field Evaluation of the Effectiveness of ULV Application of Malathion 96% Technical Grade and Sumithion L-40S Against Aedes aegypti (Linnaeus) and Aedes albopictus (Skuse) in Ipoh Municipality, Perak, Malaysia|Trop. Biomed.5(1): 81-88|1988|
92154|T||Segawa,T., Y. Nomura, and Y. Nakata|Pharmacological Activities of d-Isomer of Phthalthrin|Oyo Yakuri22(6): 839-845|1981|
92157|AT||Sato,Y., T. Kojima, T. Goto, R. Oomikawa, H. Watanabe, and K. Wakabayashi|Hydrolysis and Phytotoxic Activity of Cyclic Imides|Agric. Biol. Chem.55(11): 2677-2681|1991|
92158|T||Casida,J.E., I.H. Smith, and E.J. Wood|Glutathione Conjugate of the Pyrethroid Tetramethrin|J. Agric. Food Chem.30(3): 598-600|1982|10.1021/jf00111a046
92159|T||Wadibhasme,S.S., O.V. Ingole, N.K. Raut, and M.N. Asalmole|Chemical Control of Leaf Spots Caused by Alternaria helianthi (Hansf.) on Sunflower|Indian J. Plant Prot.19(2): 203-205|1991|
92160|T||Dasgupta,B., and C. Sen|Assessment of Phytophthora Root Rot of Betelvine and Its Management Using Chemicals|J. Mycol. Plant Pathol.29(1): 91-95|1999|
92161|T||Minuto,A., M.L. Gullino, and A. Garibaldi|Chemical Control of Grey Mould of Cyclamen|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)61(2a): 453-459|1996|
92162|T||Siranidou,E., and H. Buchenauer|Chemical Control of Fusarium Head Blight on Wheat|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)108(3): 231-243|2001|
92163|T||Aziz,T., M. Habte, and J.E. Yuen|Inhibition of Mycorrhizal Symbiosis in Leucaena leucocephala by Chlorothalonil|Plant Soil131(1): 47-52|1991|10.1007/BF00010418
92164|T||Lam,A., and G.C. Lewis|Chemical Control of Foliar Diseases of Perennial Ryegrass (Lolium perenne L.) and Their Effects on Yield and Quality of the Crop|Crop Prot.2(1): 75-83|1983|10.1016/0261-2194(83)90027-3
92165|T||Negron,J.A., R. Rodriguez, and L. Aviles|Fungicide Evaluation for Control of Powdery Mildew, Leveillula taurica (Lev.) Arn., of Peppers in Puerto Rico|J. Agric. Univ. P. R.75(2): 119-124|1991|10.46429/jaupr.v75i2.3574
92166|T||Mercer,P.C., and A. Ruddock|Evaluation of Azoxystrobin and a Range of Conventional Fungicides on Yield, Septoria tritici and Senescence in Winter Wheat|Tests Agrochem. Cultiv.19:24-25|1998|
92167|T||Mercer,P.C., and A. Ruddock|Evaluation of Fungicide Dosage on Yield and Incidence of Septoria tritici in Riband Wheat|Tests Agrochem. Cultiv.16:32-33|1995|
92168|T||Shahid,M.A., M. Ahmad, and M.A. Khan|Chemical Control of Collar Rot of Lentil Caused by Sclerotium rolfsii sacc.|Sarhad J. Agric.6(5): 503-507|1990|
92169|T||Ahmed,S., and S.P.S. Beniwal|Ascochyta Blight of Lentil and Its Control in Ethiopia|Trop. Pest Manag.37(4): 368-373|1991|10.1080/09670879109371616
92170|T||Runham,S.R., S.J. Town, and P. Gladders|Evaluation of Fungicides Against Crown Rot Disorder of Carrots|Tests Agrochem. Cultiv.16:12-13|1995|
92171|T||Washington,J.R.|Relationship Between the Spray Droplet Density of Two Protectant Fungicides and the Germination of Mycosphaerella fijiensis Ascospores on Banana Leaf Surfaces|Pestic. Sci.50(3): 233-239|1997|10.1002/(SICI)1096-9063(199707)50:3<233::AID-PS562>3.0.CO;2-V
92172|T||Jordan,V.W.L., G.R. Stinchcombe, and J.A. Hutcheon|Fungicide and Nitrogen Applications in Relation to the Improvement of Disease Control and Yield in Winter Barley|Plant Pathol.38(1): 26-34|1989|10.1111/j.1365-3059.1989.tb01424.x
92173|T||Mantecon,J.D.|Chemical Control of Potato Late Blight|Tests Agrochem. Cultiv.10:60-61|1989|
92174|T||Quaas,A., M. Chiong, A. Roco, R. Bravo, D. Seelenfreund, and L.M. Perez|Antibodies Against Fungal Conidia and Antibiotics Inhibit Phenylalanine Ammonia-Lyase Activation in Citrus|J. Plant Physiol.141(4): 393-397|1993|10.1016/S0176-1617(11)80184-7
92175|T||Vanachter,A., E. Van Wambeke, and C. Van Assche|Activity of Different Zinc Containing Dithiocarbamate Fungicides Against Plasmodiophora brassicae of Brassicas|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)58(3b): 1485-1491|1993|
92176|T||Gupta,G.K.|Investigations on the Effect of Urea and Fungicides in Suppressing the Ascigerous Stage of Apple Scab Pathogen|Int. J. Trop. Plant Dis.5(1): 93-97|1987|
92177|T||Hasegawa,R., Y. Nakaji, Y. Kurokawa, and M. Tobe|Acute Toxicity Tests on 113 Environmental Chemicals|Sci. Rep. Res. Inst. Tohoku Univ. Ser. C. Med.36(1-4): 10-16|1989|
92178|T||Jimenez-Valera,M., E. Moreno, M.A. Amat, and A. Ruiz-Bravo|Modification of Mitogen-Driven Lymphoproliferation by Ceftriaxone in Normal and Immunocompromised Mice|Int. J. Antimicrob. Agents22(6): 607-612|2003|10.1016/j.ijantimicag.2003.04.001
92180|A||Radha,G., S. Logaswamy, and K. Logankumar|Sublethal Toxicity of Dimethoate on Protein, Glucose and Cholesterol Contents in the Fish Cyprinus carpio|Nat. Environ. Pollut. Technol.4(2): 307-310|2005|
92181|A||Verma,P., and A. Nath|Co-relation Between Ultrastructural Changes and Thyroid Hormonal Imbalance in Ovary of Air Breathing Fish During Induced Toxicity|J. Ecophysiol. Occup. Health4(3-4): 207-215|2004|
92183|A||Sweilum,M.A.|Effect of Sublethal Toxicity of some Pesticides on Growth Parameters, Haematological Properties and Total Production of Nile Tilapia (Oreochromis niloticus L.) and Water Quality of Ponds|Aquac. Res.37(11): 1079-1089|2006|10.1111/j.1365-2109.2006.01531.x
92184|T||Ambrose,A.M.|Toxicologic Studies on Pyrethrin-Type Esters of Chrysanthemumic Acid :  I. Chrysanthemumic Acid, 6-Chloropiperonyl Ester (Barthrin)|Toxicol. Appl. Pharmacol.5(4): 414-426|1963|10.1016/0041-008X(63)90013-9
92185|T||Jao,L.T., and J.E. Casida|Esterase Inhibitors as Synergists for (+)-trans-Chrysanthemate Insecticide Chemicals|Pestic. Biochem. Physiol.4(4): 456-464|1974|10.1016/0048-3575(74)90070-4
92186|T||Kennedy,G., O.E. Fancher, and J.C. Calandra|An Investigation of the Teratogenic Potential of Captan, Folpet, and Difolatan|Toxicol. Appl. Pharmacol.13(3): 420-430|1968|10.1016/0041-008X(68)90118-X
92187|AT||Mulla,M.S., and M.F.B. Chaudhury|Ovicidal Activity of Aliphatic Amines and Petroleum Oil Against Two Species of Mosquitoes|J. Econ. Entomol.61(2): 510-515|1968|10.1093/jee/61.2.510
92188|T||Lee,H.J., M.V. Duke, J.H. Birk, M. Yamamoto, and S.O. Duke|Biochemical and Physiological Effects of Benzheterocycles and Related Compounds|J. Agric. Food Chem.43(10): 2722-2727|1995|10.1021/jf00058a033
92189|T||Pala,M., and A. Mazid|On-Farm Assessment of Improved Crop Production Practices in Northwest Syria.  II.  Lentil|Exp. Agric.28(2): 185-193|1992|10.1017/S0014479700019621
92190|T||Matsunaga,H., N. Isobe, H. Kaneko, I. Nakatsuka, and S. Yamane|Metabolism of Pentyl 2-Chloro-4-Fluoro-5-(3,4,5,6-Tetrahydrophthal-Imido)Phenoxyacetate (Flumiclorac Pentyl, S-23031) in Rats: 2. Absorption, Distribution, Biotransformation, and Excretion|J. Agric. Food Chem.45(2): 501-506|1997|10.1021/jf960312e
92191|T||Matsushita,T., and K. Aoyama|"Dose-Response Relationship in Delayed Type Contact Sensitivity with Maneb:  An Experimental Model of ""Simple Chemicals"""|Ind. Health18(1): 31-39|1980|10.2486/indhealth.18.31
92192|T||Ambrose,A.M.|Toxicologic Studies on Pyrethrin-Type Esters of Chrysanthemumic Acid II.  Chrysanthemumic Acid, 2,4-Dimethylbenzyl Ester|Toxicol. Appl. Pharmacol.6(1): 112-120|1964|10.1016/0041-008X(64)90028-6
92193|T||Kaneko,H., H. Ohkawa, and J. Miyomoto|Metabolism of Tetramethrin Isomers in Rats|Nihon Noyaku Gakkaishi (J. Pestic. Sci.)6(4): 425-435|1981|
92194|T||Masri,M.S., A.P. Hendrickson, A.J.,Jr. Cox, and F. DeEds|Subacute Toxicity of Two Chrysanthemumic Acid Esters:  Barthrin and Dimethrin|Toxicol. Appl. Pharmacol.6(6): 716-725|1964|10.1016/0041-008X(64)90123-1
92195|T||Rouchaud,J., J.R. DeCallonne, and J.A. Meyer|The Nature of Bound Residues Derived from Triforine in Barley Plants|Pestic. Sci.9(1): 74-78|1978|10.1002/ps.2780090114
92196|T||Austin,D.J., and T.M. Warman|Efficiency of Triforine and Binapacryl in Tank Mixtures with Calcium Chloride Against Apple Powdery Mildew|Pestic. Sci.13(3): 295-303|1982|10.1002/ps.2780130311
92197|T||Fuchs,A., F.W. De Vries, and A.M.J. Aalbers|Uptake, Distribution and Metabolic Fate of 3H-Triforine in Plants.  I.  Short-Term Experiments|Pestic. Sci.7(2): 115-126|1976|10.1002/ps.2780070204
92198|T||Fuchs,A., F.W. De Vries, and A.M.J. Aalbers|Uptake, Distribution and Metabolic Fate of 3H-Triforine in Plants.  II.  Long-Term Experiments|Pestic. Sci.7(2): 127-134|1976|10.1002/ps.2780070205
92199|T||Rouchaud,J., C. Moons, and J.A. Meyer|Characterisation of Bound Residues of [3H]Triforine in the Straw of Barley Grown in the Field|Pestic. Sci.10(5): 438-446|1979|10.1002/ps.2780100512
92200|T||Rouchaud,J., J.R. DeCallonne, and J.A. Meyer|Metabolism of (2,5-14C)Piperazine in Barley Plants|Pestic. Sci.9(2): 139-145|1978|10.1002/ps.2780090208
92201|A||Raghuveer,K., R. Garhwal, D.S. Wang, J. Bogerd, R. Kirubagaran, M.K. Rasheeda, G. Sreenivasulu, N. Bhattachrya, S. Thar|Effect of Methyl Testosterone- and Ethynyl Estradiol-Induced Sex Differentiation on Catfish, Clarias gariepinus: Expression Profiles of DMRT1, Cytochrome P450Aromatases and 3 beta-Hydroxysteroid Dehydrogenase|Fish Physiol. Biochem.31(2/3): 143-147|2005|10.1007/s10695-006-0016-3
92202|A||Versonnen,B.J., and C.R. Janssen|Xenoestrogenic Effects of Ethinylestradiol in Zebrafish (Danio rerio)|Environ. Toxicol.19(3): 198-206|2004|10.1002/tox.20012
92203|A||Andersen,L., P. Bjerregaard, and B. Korsgaard|Vitellogenin Induction and Brain Aromatase Activity in Adult Male and Female Zebrafish Exposed to Endocrine Disrupters|Fish Physiol. Biochem.28(1-4): 319-321|2003|10.1023/B:FISH.0000030569.11036.e1
92204|A||Hense,B.A., G.F. Severin, G. Welzl, and K.W. Schramm|Effects of 17 alpha-Ethinylestradiol on Zoo- and Phytoplankton in Lentic Microcosms|Anal. Bioanal. Chem.378(3): 716-724|2004|10.1007/s00216-003-2379-y
92205|A||Kazeto,Y., R. Goto-Kazeto, A.R. Place, and J.M. Trant|Aromatase Expression in Zebrafish and Channel Catfish Brains:  Changes in Transcript Abundance Associated with the Reproductive Cycle and Exposure to Endocrine Disrupting Chemicals|Fish Physiol. Biochem.28(1-4): 29-32|2003|10.1023/B:FISH.0000030466.23085.94
92206|A||Kiyomoto,M., A. Kikuchi, T. Unuma, and Y. Yokota|Effects of Ethynylestradiol and Bisphenol A on the Development of Sea Urchin Embryos and Juveniles|Mar. Biol.149(1): 57-63|2006|10.1007/s00227-005-0208-x
92207|A||Martyniuk,C.J., H. Xiong, K. Crump, S. Chiu, R. Sardana, A. Nadler, E.R. Gerrie, X. Xia, and V.L. Trudeau|Gene Expression Profiling in the Neuroendocrine Brain of Male Goldfish (Carassius auratus) Exposed to 17alpha-Ethinylestradiol|Physiol. Genomics27(3): 328-336|2006|10.1152/physiolgenomics.00090.2006
92208|A||Parrott,J.L., and B.R. Blunt|Life-Cycle Exposure of Fathead Minnows (Pimephales promelas) to an Ethinylestradiol Concentration Below 1 ng/L Reduces Egg Fertilization Success and Demasculinizes Males|Environ. Toxicol.20(2): 131-141|2005|10.1002/tox.20087
92215|T||Malathi,P., and R. Jeyarajan|Evaluation of Chlorothalonil for Potato Late Blight in Nilgiris|Indian J. Mycol. Plant Pathol.25(3): 211-213|1995|
92216|T||Miller,I.L., A.J. Norden, D.A. Knauft, and D.W. Gorbet|Influence of Maturity and Fruit Yield on Susceptibility of Peanut to Cercosporidium personatum (Late Leafspot Pathogen)|Peanut Sci.17(2): 52-58|1990|10.3146/i0095-3679-17-2-2
92217|T||Rathore,B.S.|Chemical Control of Downy Mildew of Isabgol|Indian J. Mycol. Plant Pathol.26(3): 284-286|1996|
92218|T||Gupta,S.K., and K.R. Shyam|Antisporulant Activity of Some Fungicides Against Pseudoperonospora cubensis on Cucumber|Indian J. Mycol. Plant Pathol.26(3): 293-295|1996|
92219|T||Smith,F.D., P.M. Phipps, and R.J. Stipes|Fluazinam: A New Fungicide for Control of Sclerotinia Blight and Other Soilborne Pathogens of Peanut|Peanut Sci.19(2): 115-120|1992|10.3146/i0095-3679-19-2-14
92220|T||Washington,W.S., N. Shanmuganathan, and C. Forbes|Fungicide Control of Strawberry Fruit Rots, and the Field Occurrence of Resistance of Botrytis cinerea to Iprodione, Benomyl and Dichlofluanid|Crop Prot.11(4): 355-360|1992|10.1016/0261-2194(92)90063-B
92221|T||Bhattacharyya,S.K., B.P. Singh, P.H. Singh, and S. Ram|Retardation of Potato Late Blight by Fungicides with Eradicant and Protectant Properties|Indian J. Plant Pathol.5(2): 169-177|1987|
92222|T||Borkar,S.G., and B.S. Patil|Chemical Control of Purple Blotch of Onion|Indian J. Mycol. Plant Pathol.25(3): 288-289|1995|
92223|T||Tiwari,P.K., and B.N. Shukla|Influence of Pesticides on Glomus fasciculatum, and Growth, Development and Nutrient Uptake of Soybean|Indian J. Mycol. Plant Pathol.21(1): 49-55|1991|
92224|T||Hundoo,S., and R.S. Dwivedi|Chemical Control of Rhizoctonia solani kuhn Causing Damping-Off of Eggplant (Solanum melongena L.)|Crop Res. (Hisar)13(2): 445-454|1997|
92225|T||Warkentin,T.D., K.Y. Rashid, and A.G. Xue|Fungicidal Control of Ascochyta Blight of Field Pea|Can. J. Plant Sci.76(1): 67-71|1996|10.4141/cjps96-011
92226|T||Mishra,A., and B.N. Shukla|Interaction Between Glomus fasciculatum, Meloidogyne incognita and Fungicide in Tomato|Indian J. Mycol. Plant Pathol.26(1): 38-44|1996|
92227|T||Jesperson,G.D., and J.C. Sutton|Evaluation of a Forecaster for Downy Mildew of Onion (Allium cepa L.)|Crop Prot.6(2): 95-103|1987|10.1016/0261-2194(87)90106-2
92231|T||Rubin,B., O. Kirino, and J.E. Casida|Chemistry and Action of N-Phenylmaleamic Acids and Their Progenitors as Selective Herbicide Antidotes|J. Agric. Food Chem.33(3): 489-494|1985|10.1021/jf00063a039
92232|T||Boger,P., and R. Miller|Protoporphyrin Accumulation Induced by Peroxidizing Herbicides is Counteracted by Safeners|Z. Naturforsch. Sect. C J. Biosci.49(11/12): 775-780|1994|10.1515/znc-1994-11-1213
92238|T||Khera,K.S., and F. Iverson|Toxicity of Ethylenethiourea in Pregnant Cats|Teratology18(3): 311-313|1978|10.1002/tera.1420180304
92239|T||Khera,K.S., and F. Iverson|Hydrocephalus Induced by N-Nitrosoethylenethiourea in the Progeny of Rats Treated During Gestation|Teratology21(3): 367-370|1980|10.1002/tera.1420210314
92240|T||MacLeod,W.J., G.C. MacNish, and C.W. Thorn|Manipulation of Ley Pastures with Herbicides to Control Take-All|Aust. J. Agric. Res.44(6): 1235-1244|1993|10.1071/AR9931235
92241|T||Slotkin,T.A., F.J. Seidler, and F. Fumagalli|Exposure to Organophosphates Reduces the Expression of Neurotrophic Factors in Neonatal Rat Brain Regions:  Similarities and Differences in the Effects of Chlorpyrifos and Diazinon on the Fibroblast Growth Factor Superf|Environ. Health Perspect.115(6): 909-916|2007|10.1289/ehp.9901
92242|A||Ashauer,R., A. Boxall, and C. Brown|Uptake and Elimination of Chlorpyrifos and Pentachlorophenol into the Freshwater Amphipod Gammarus pulex|Arch. Environ. Contam. Toxicol.51(4): 542-548|2006|10.1007/s00244-005-0317-z
92243|T||Stocker,R.K., and D.R.,Sr. Sanders|Control of Melaleuca Seedlings and Trees by Herbicides|J. Aquat. Plant Manag.35:55-59|1997|
92244|T||Rhodes,R.C., and R.A. Jewell|Metabolism of 14C-Labeled Hexazinone in the Rat|J. Agric. Food Chem.28:303-306|1980|10.1021/jf60228a003
92245|A||Horst,M.N., A.N. Walker, P. Bush, T. Wilson, E.S. Chang, T. Miller, and P. Larkin|Pesticide Induced Alterations in Gene Expression in the Lobster, Homarus americanus|Comp. Biochem. Physiol. D Genom. Proteom.2(1): 44-52|2007|10.1016/j.cbd.2006.11.004
92246|T||Campiche,S., K. Becker-Van Slooten, C. Ridreau, and J. Tarradellas|Effects of Insect Growth Regulators on the Nontarget Soil Arthropod Folsomia candida (Collembola)|Ecotoxicol. Environ. Saf.63(2): 216-225|2006|10.1016/j.ecoenv.2005.07.004
92247|A||Braga,I.A., C.B. Mello, A.A. Peixoto, and D. Valle|Evaluation of Methoprene Effect on Aedes aegypti (Diptera: Culicidae) Development in Laboratory Conditions|Mem. Inst. Oswaldo Cruz100(4): 435-440|2005|10.1590/S0074-02762005000400016
92248|T||Kataria,H.R., and P.R. Verma|Efficacy of Fungicidal Seed Treatments Against Pre-Emergence Damping-Off and Post-Emergence Seedling Root Rot of Growth Chamber Grown Canola Caused by Rhizoctonia solani AG-2-1 and AG-4|Can. J. Plant Pathol.12(4): 409-416|1990|10.1080/07060669009500982
92249|T||Barlas,N., and D. Kolankaya|Toxicological Effects of the Residual Maneb and Zineb in the Lettuces on the Albino Mice|DOGA Turk Zool. Dergisi15(1): 16-21|1991|
92250|T||Mandhan,P., S. Beasley, T. Hale, L. Ellmers, J. Roake, and M. Sullivan|Sonic Hedgehog Expression in the Development of Hindgut in ETU-Exposed Fetal Rats|Pediatr. Surg. Int.22(1): 31-36|2006|10.1007/s00383-005-1575-6
92251|T||Teramoto,S., M. Kaneda, H. Aoyama, and Y. Shirasu|Correlation Between the Molecular Structure of N-Alkylureas and N-Alkylthioureas and Their Teratogenic Properties|Teratology23(3): 335-342|1981|10.1002/tera.1420230308
92252|T||Teramoto,S., M. Moriya, K. Kato, H. Tezuka, S. Nakamura, A. Shingu, and Y. Shirasu|Mutagenicity Testing on Ethylenethiourea|Mutat. Res.56:121-129|1977|10.1016/0027-5107(77)90200-7
92253|T||Khera,K.S.|Ethylenethiourea:  Teratogenicity Study in Rats and Rabbits|Teratology7(3): 243-252|1973|10.1002/tera.1420070305
92254|T||Teramoto,S., T. Harada, and M. Kaneda|Effects of Ethylenethiourea upon Developing Brain and Limb Buds in the Rat|Congenital Anom.18(4): 241-249|1978|
92255|T||Khera,K.S., and L. Tryphonas|Nerve Cell Degeneration and Progeny Survival Following Ethylenethiourea Treatment During Pregnancy in Rats|Neurotoxicology6(3): 97-102|1985|
92256|T||Daston,G.P., M.T. Ebron, B. Carver, and J.G. Stefanadis|In Vitro Teratogenicity of Ethylenethiourea in the Rat|Teratology35(2): 239-245|1987|10.1002/tera.1420350210
92257|T||Daston,G.P., J.E. Yonker, J.F. Powers, and S.A. Heitmeyer|Difference in Teratogenic Potency of Ethylenethiourea in Rats and Mice:  Relative Contribution of Embryonic and Maternal Factors|Teratology40(6): 555-566|1989|10.1002/tera.1420400603
92258|T||Wiese,A.F., B.W. Bean, C.D. Salisbury, M.G. Schoenhals, and S. Amosson|Economic Evaluation of Field Bindweed (Convolvulus arvensis) Control|Weed Sci.45(2): 288-295|1997|10.1017/S0043174500092857
92260|T||McCullough,P.E., H. Liu, and L.B. McCarty|Trinexapac-Ethyl Application Regimens Influence Creeping Bentgrass Putting Green Performance|Hortscience40(7): 2167-2169|2005|10.21273/HORTSCI.40.7.2167
92261|T||Salunkhe,G.N.|Protection of Sorghum Seeds from Infestation of Rice Weevil|J. Maharashtra Agric. Univ.10(2): 223-|1985|
92263|T||Chadwick,R.W., S.E. George, M.J. Kohan, R.W. Williams, J.C. Allison, Y.O. Hayes, and J. Chang|Potentiation of 2,6-Dinitrotoluene Genotoxicity in Fischer-344 Rats by Pretreatment with Aroclor 1254|Toxicology80(2-3): 153-171|1993|10.1016/0300-483X(93)90178-U
92269|T||Khera,K.S.|Neuronal Degeneration Caused by Ethylenethiourea in Neuronal Monocell Layers In Vitro and in Fetal Rat Brain In Vivo|Teratology36(1): 87-93|1987|10.1002/tera.1420360112
92270|T||Stanisstreet,M., L.C. Herbert, and P.O.D. Pharoah|Effects of Thyroid Antagonists on Rat Embryos Cultured In Vitro|Teratology41(6): 721-729|1990|10.1002/tera.1420410609
92271|T||Khera,K.S.|Ethylenethiourea-Induced Hydrocephalus In Vivo and In Vitro with a Note on the Use of a Constant Gaseous Atmosphere for Rat Embryo Cultures|Teratology39(3): 277-285|1989|10.1002/tera.1420390309
92272|T||Tsuchiya,T., A. Takahashi, S. Asada, F. Takakubo, N. Ohsumi-Yamashita, and K. Eto|Comparative Studies of Embryotoxic Action of Ethylenethiourea in Rat Whole Embryo and Embryonic Cell Culture|Teratology43(4): 319-324|1991|10.1002/tera.1420430406
92273|T||Ryan,B.M., E.,Jr. Mallett, T.R. Johnson, J.R. Gauger, and D.L. McCormick|Developmental Toxicity Study of 60 Hz (Power Frequency) Magnetic Fields in Rats|Teratology54(2): 73-83|1996|10.1002/(SICI)1096-9926(199606)54:2<73::AID-TERA3>3.0.CO;2-5
92275|T||Baur,M.E., H.K. Kaya, R. Gaugler, and B. Tabashnik|Effects of Adjuvants on Entomopathogenic Nematode Persistence and Efficacy Against Plutella xylostella|Biocontrol Sci. Technol.7(4): 513-525|1997|10.1080/09583159730587
92276|T||Chakravarty,P., and S.S. Sidhu|Effect of Glyphosate, Hexazinone and Triclopyr on In Vitro Growth of Five Species of Ectomycorrhizal Fungi|Eur. J. For. Pathol.17(4-5): 204-210|1987|10.1111/j.1439-0329.1987.tb01017.x
92277|T||Kennedy,G.L.,Jr., and A.M. Kaplan|Chronic Toxicity, Reproductive, and Teratogenic Studies of Hexazinone|Fundam. Appl. Toxicol.4:960-971|1984|10.1016/0272-0590(84)90234-3
92278|T||Chakravarty,P., and S.S. Sidhu|Effect of Hexazinone (Pronone 5G) on the Seedling Growth and Mycorrhizal Incidence of Pinus contorta Var. Latifolia and Picea glauca|Eur. J. For. Pathol.17(4-5): 282-291|1987|10.1111/j.1439-0329.1987.tb01027.x
92279|T||Sidhu,S.S., and P. Chakravarty|Effect of Selected Forestry Herbicides on Ectomycorrhizal Development and Seedling Growth of Lodgepole Pine and White Spruce Under Controlled and Field Environment|Eur. J. For. Pathol.20:77-94|1990|10.1111/j.1439-0329.1990.tb01276.x
92280|A||Butler,M., R.A. Lebrun, H.S. Ginsberg, and A.D. Gettman|Efficacy of Methoprene for Mosquito Control in Storm Water Catch Basins|Am. Mosq. Control Assoc. J.22(2): 333-338|2006|10.2987/8756-971X(2006)22[333:EOMFMC]2.0.CO;2
92281|A||Floore,T.G., J.L. Petersen, and K.R. Shaffer|Efficacy Studies of Aquaprene (Emulsifiable Concentrate and Wettable Powder) Insect Growth Regulator Formulations Against Third- and Fourth-Stage Larvae of Ochlerotatus taeniorhynchus in Small-Plot Field Studies|Am. Mosq. Control Assoc. J.22(1): 119-122|2006|10.2987/8756-971X(2006)22[119:ESOAEC]2.0.CO;2
92282|T||Teramoto,S., R. Saito, and Y. Shirasu|Teratogenic Effects of Combined Administration of Ethylenethiourea and Nitrite in Mice|Teratology21(1): 71-78|1980|10.1002/tera.1420210109
92283|T||Mascarenhas,R.N., B.J. Fitzpatrick, M.L. Boyd, C.G. Clemens, D.J. Boethel, P.R. Vidrine, and S.H. Moore|Evaluation of Selected Experimental and Standard Insecticides Against Soybean Looper, 1996|Arthropod Manag. Tests22:314-|1997|10.1093/amt/22.1.314
92284|T||Hu,C.H., T.K. Tsai, and H.T. Chu|The Nematode Investigation in Sugarcane Fields of Taiwan and Effects of Soil Fumigation|Proc. Int. Soc. Sugarcane Technol.13:1262-1269|1969|
92285|T||Elfving,D.C., G.A. Lang, and D.B. Visser|Prohexadione-Ca and Ethephon Reduce Shoot Growth and Increase Flowering in Young, Vigorous Sweet Cherry Trees|Hortscience38(2): 293-298|2003|10.21273/HORTSCI.38.2.293
92286|T||Johnson,M.K.|Organophosphorus and Other Inhibitors of Brain 'Neurotoxic Esterase' and the Development of Delayed Neurotoxicity in Hens|Biochem. J. (Lond.)120(3): 523-531|1970|10.1042/bj1200523
92287|T||Quistad,G.B., and J.E. Casida|Lysophospholipase Inhibition by Organophosphorus Toxicants|Toxicol. Appl. Pharmacol.196(3): 319-326|2004|10.1016/j.taap.2004.01.005
92289|T||Wu,Y., R. Parthasarathy, H. Bai, and S.R. Palli|Mechanisms of Midgut Remodeling:  Juvenile Hormone Analog Methoprene Blocks Midgut Metamorphosis by Modulating Ecdysone Action|Mech. Dev.123(7): 530-547|2006|10.1016/j.mod.2006.05.005
92291|A||Yanase,D., A. Andoh, M. Chiba, and S. Yoshida|Chlorophyll Fluorescence Applied in the Analysis on Vertical Movement of Herbicides in Soil|Z. Naturforsch. Sect. C J. Biosci.48(3/4): 397-401|1993|10.1515/znc-1993-3-446
92292|T||Rhodes,R.C., R.L. Krause, and M.H. Williams|Microbial Activity in Soils Treated with Hexazinone|Soil Sci.129(5): 311-313|1980|10.1097/00010694-198005000-00008
92294|T||Prasad,R.|Role of Some Adjuvants in Enhancing the Efficacy of Herbicides on Forest Species|In: P.N.P.Chow (Ed.), 1st International Symposium, Adjuvants and Agrochemicals: Mode of Action and Physiological Activity, Aug.5-7, Brandon, Manitoba:159-166|1989|
92295|T||Knoche,M., and M.J. Bukovac|Surfactants Influence Foliar Absorption of Gibberellic Acid by Sour Cherry Leaves|J. Am. Soc. Hortic. Sci.117(1): 80-84|1992|10.21273/JASHS.117.1.80
92296|T||Grayson,B.T., P.J. Price, and D. Walter|Effect of the Volume Rate of Application on the Glasshouse Performance of Crop Protection Agent/Adjuvant Combinations|Pestic. Sci.48(3): 205-217|1996|10.1002/(SICI)1096-9063(199611)48:3<205::AID-PS459>3.0.CO;2-#
92297|T||Edgren,B.|The Lipolytic Activity in Dog Plasma After Intravenous Fat Emulsion|Arch. Int. Pharmacodyn. Ther.126(3/4): 255-270|1960|
92298|T||Nalewaja,J., T. Praczyk, and R. Matysiak|Salts and Surfactants Influence Nicosulfuron Activity|Weed Technol.9(3): 587-593|1995|10.1017/S0890037X00023897
92299|T||Green,J.M., and J.H. Green|Surfactant Structure and Concentration Strongly Affect Rimsulfuron Activity|Weed Technol.7(3): 633-640|1993|10.1017/S0890037X00037465
92300|T||Nita,M., M.A. Ellis, L.L. Wilson, and L.V. Madden|Evaluation of a Disease Warning System for Phomopsis Cane and Leaf Spot of Grape: A Field Study|Plant Dis.90(9): 1239-1246|2006|10.1094/PD-90-1239
92301|T||Hacault,K.M., and R.C. Van Acker|Emergence Timing and Control of Dandelion (Taraxacum officinale) in Spring Wheat|Weed Sci.54(1): 172-181|2006|10.1614/WS-05-083R.1
92302|A||Majewski,A.R., P.J. Blanchfield, V.P. Palace, and K. Wautier|Waterborne 17alpha-Ethynylestradiol Affects Aggressive Behaviour of Male Fathead Minnows (Pimephales promelas) Under Artificial Spawning Conditions|Water Qual. Res. J. Can.37(4): 697-710|2002|10.2166/wqrj.2002.047
92303|T||Hansell,M.M., D.J. Ecobichon, A.M. Comeau, and P.H. Cameron|The Relationship Between Retention of Pure Chlorobiphenyl Congeners and Hepatic Function in the Rat|Exp. Mol. Pathol.26:75-84|1977|10.1016/0014-4800(77)90067-3
92304|T||Dikshith,T.S.S., W. Rockwood, R. Abraham, and F. Coulston|Effects of a Polychlorinated Biphenyl (Aroclor 1254) on Rat Testis|Exp. Mol. Pathol.22:376-385|1975|10.1016/0014-4800(75)90082-9
92305|T||Anderson,L.M., J.M. Ward, S.D. Fox, H.J. Isaaq, and C.W. Riggs|Effects of a Single Dose of Polychlorinated Biphenyls to Infant Mice on N-Nitrosodimethylamine-Initiated Lung and Liver Tumors|Int. J. Cancer18:109-116|1986|10.1002/ijc.2910380118
92306|T||Plato,A.M., and T.A. Plato|Low Rate Multiple Application of BT+ Ovicide for Heliothis Control in Cotton|Br. Crop Prot. Conf. Pests Dis.:1073-1076|1992|
92307|T||Noetzel,D., and B. Sheets|Seedcorn Maggot Control in Edible Dry Bean, 1989|Insectic. Acaric. Tests17:78-79|1992|
92308|T||Johnson,D.R., and G. Studebaker|Control of Bollworm and Budworm in Cotton Using Insecticide Combinations in South-Central Arkansas, 1991|Insectic. Acaric. Tests18:232-233|1993|10.1093/iat/18.1.232
92309|T||Noetzel,D., M. Ricard, and B. Sheets|Seedcorn Maggot Control in Navy Bean, 1990|Insectic. Acaric. Tests17:78-|1992|
92310|T||Linduska,J.J., M. Embrey, and G. Dively|Foliar Sprays to Control Corn Earworms, Dusky Sap Beetle, Fall Armyworm and European Corn Borers in Sweet Corn, 1990|Insectic. Acaric. Tests16:76-|1991|10.1093/iat/16.1.76
92311|T||Forsythe,H.Y.,Jr.|Insect and Mite Control, 1990|Insectic. Acaric. Tests16:4-|1991|10.1093/iat/16.1.4
92312|T||El-Hamaky,M.A., A.F. Refaei, M.A. Hegazy, and N.M. Hussein|Knock-Down and Residual Activity of Certain Insecticides Bacillus thuringiensis and Their Binary Mixtures Against the Cotton Leafworm Spodoptera littoralis (Boisd.)  in Cotton Fields|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2b): 593-599|1990|
92313|T||Refaei,A.F., M.A. Hegazy, N.M. Hussein, and M.A. El-Hamaky|Efficiency of Certain Insecticides, Insect Growth Inhibitors and Their Combinations Against the Cotton Leafworm Larvae in Cotton Plantations of Egypt|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2b): 601-607|1990|
92314|T||Hussein,N.M., H.M.A. El-Hamaky, A.F. Refaei, and M.A. Hegazy|Joint Action of Certain Insecticides, Bacillus thuringiensis and Their Mixtures on the Pink Bollworm Infestation in Cotton Plantation of Egypt|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2a): 307-312|1990|
92315|T||Herbert,D.A.,Jr.|Selected Non-Pyrethroid Insecticides for Control of Bollworm on Cotton, 1996|Arthropod Manag. Tests22:257-|1997|10.1093/amt/22.1.257
92316|T||Reed,J.T., M.S. Howell, and C.S. Jackson|Evaluation of Insecticides for Control of Heliothine Larvae on Cotton (Trial 2), 1996|Arthropod Manag. Tests22:264-|1997|10.1093/amt/22.1.264
92317|T||Edelson,J.V., and M. Peters|Control of Lepidopterous Pests on Collards, 1996|Arthropod Manag. Tests22:119-|1997|10.1093/amt/22.1.119
92318|T||Adamczyk,J.J.,Jr., J.H. Fife, B.R. Leonard, and J.B. Graves|Efficacy of Selected Insecticides Against Lepidoptera in Cotton, 1996|Arthropod Manag. Tests22:236-237|1997|10.1093/amt/22.1.236a
92319|T||Linduska,J.J., M. Ross, and S. Stevenson|Foliar Sprays to Control Corn Earworms in Sweet Corn, 1991|Insectic. Acaric. Tests17:106-|1992|10.1093/iat/17.1.106
92320|T||Whalen,J., and M. Spellman|Insect Control on Sweet Corn, 1991|Insectic. Acaric. Tests17:111-|1992|
92321|T||McPherson,R.M., J.D. Taylor, and B.D. Crowe|Velvetbean Caterpillar Control on Georgia Soybeans, 1994|Arthropod Manag. Tests20:242-243|1995|10.1093/amt/20.1.242
92322|T||Horsburgh,R.L., and S.W. Kilmer|Apple, Seasonal Insecticide Evaluations, 1990|Insectic. Acaric. Tests18:24-26|1993|10.1093/iat/18.1.24
92323|T||McKenzie,C.L., B. Cartwright, and S. Rowland|Control of Broccoli Pests in Southeastern Oklahoma, 1992|Insectic. Acaric. Tests18:85-88|1993|10.1093/iat/18.1.85
92324|T||Johnson,D.R., and G. Studebaker|Early to Mid-Season Control of Bollworm and Budworm in Cotton Using BT Insecticides, 1990|Insectic. Acaric. Tests18:234-235|1993|
92325|T||Johnson,D.R., and G. Studebaker|Control of Bollworm on Cotton Using BT Combinations, 1991|Insectic. Acaric. Tests18:235-236|1993|10.1093/iat/18.1.235
92326|T||Vaughn,T.T., and C.W. Hoy|Control of Lepidoptera on Late Season Cabbage, 1992|Insectic. Acaric. Tests18:113-114|1993|10.1093/iat/18.1.113
92327|T||Leonard,B.R.|Control of Soybean Insect Pests - Macon Ridge II, 1990|Insectic. Acaric. Tests16:224-|1991|10.1093/iat/16.1.224
92328|T||Layton,B., M. Howell, and B. Head|Control of Bollworm/Budworm Complex in South Mississippi Cotton, 1991|Insectic. Acaric. Tests17:233-|1992|10.1093/iat/17.1.233
92329|T||McPherson,R.M.|Velvetbean Caterpillar and Soybean Looper Control in Georgia Soybeans, 1991|Insectic. Acaric. Tests17:265-266|1992|10.1093/iat/17.1.265
92330|T||Whalen,J., and M. Spellman|Control of Fall Armyworm on Whorl Stage Corn, 1991|Insectic. Acaric. Tests17:111-112|1992|
92331|T||Thomas,J.D., J.S. Mink, A.T. Wier, D.J. Boethel, and B.R. Leonard|Control of Soybean Looper on North Louisiana Soybean, 1991|Insectic. Acaric. Tests17:274-275|1992|10.1093/iat/17.1.274
92332|T||Thomas,J.D., J.S. Mink, A.T. Wier, D.J. Boethel, E. Burris, and B.R. Leonard|Efficacy of Selected Insecticides for Soybean Looper Control, 1991|Insectic. Acaric. Tests17:273-274|1992|10.1093/iat/17.1.273
92333|T||Winters,S., and B. Cartwright|Control of Corn Earworm on Sweet Corn, 1990|Insectic. Acaric. Tests16:83-|1991|10.1093/iat/16.1.83
92334|T||Layton,B., M. Howell, and B. Head|Control of Bollworm/Budworm Complex in Mississippi Cotton, Trial I, 1992|Insectic. Acaric. Tests18:237-|1993|10.1093/iat/18.1.237
92335|T||Whalen,J., and M. Spellman|Control of Lepidopterous Larvae on Fall Cabbage, 1992|Insectic. Acaric. Tests18:114-|1993|10.1093/iat/18.1.114
92336|T||Speese III,J.|Foliar Sprays for Bollworm Control in Cotton, 1992|Insectic. Acaric. Tests18:254-|1993|
92337|T||Rowland,S., and B. Cartwright|Harlequin Bug Control on Cabbage, Spring, 1992|Insectic. Acaric. Tests18:109-110|1993|10.1093/iat/18.1.109
92338|T||Brandenburg,R.L., and P.T. Hertl|Caterpillar Control on Peanuts, North Carolina, 1990|Insectic. Acaric. Tests16:203-|1991|
92339|T||Leonard,B.R., J.B. Graves, and D.W. Long|Ovo-Larvidical Activity of Selected Insecticides, 1990|Insectic. Acaric. Tests16:188-|1991|
92340|T||McPherson,R.M., J.D. Taylor, and B.D. Crowe|Control of Insect Pests on Georgia Soybeans, 1997|Insectic. Acaric. Tests23:283-284|1998|
92341|T||Foerster,L.A.|Control of Anticarsia gemmatalis HUB. (Lepidoptera: Noctuidae) in Soybeans with Thiodicarb|An. Soc. Entomol. Bras.22(2): 287-292|1993|10.37486/0301-8059.v22i2.849
92342|T||Srihari,B., and N.C. Patnaik|Use of New Insecticides Against Maruca vitrata (Geyer) in Blackgram|Ann. Biol.22(2): 169-172|2006|
92343|T||Fisher,D.J.|Effects of Some Fungicides on Rhizobium trifolii and Its Symbiotic Relationship with White Clover|Pestic. Sci.7(1): 10-18|1976|10.1002/ps.2780070103
92344|T||Vasudev,V., and N.B. Krishnamurthy|Non-Mutagenicity of the Fungicide Dithane M-45 as Inducer of Recessive Lethals After Larval Feeding in Drosophila melanogaster|Mutat. Res.77(2): 189-191|1980|10.1016/0165-1218(80)90138-X
92345|T||Khangura,R.K., and S.S. Sokhi|Efficacy of Ridomil MZ and Protectant Fungicides to Control White Rust (Albugo candida) and Their Effect on Seed Yield, Oil Content and Fatty Acid Composition in Mustard|Aust. J. Exp. Agric.40(5): 699-706|2000|10.1071/EA99092
92346|T||Khan,P.K., and S.P. Sinha|Antimutagenic Efficacy of Higher Doses of Vitamin C|Mutat. Res.298(3): 157-161|1993|10.1016/0165-1218(93)90036-D
92347|T||Arias,E.|Sister-Chromatid Exchanges and Chromosomal Aberrations in Chick Embryos After Treatment with the Fungicide Maneb|Mutat. Res.206(2): 271-273|1988|10.1016/0165-1218(88)90170-X
92348|T||Vyas,S.C., and L.K. Joshi|Laboratory Evaluation of Systemic and Non-Systemic Fungicides Against Sclerotium rolfsii Sacc. Causing Collar Rot of Wheat|Pesticides 11(2): 55-56|1977|
92349|T||Szkolnik,M.|Unique Post-Infection Control of Cedar-Apple Rust on Apple with Triforine|Plant Dis. Rep.58(7): 587-590|1974|
92350|T||McCain,A.H., and K. Gonot|Fungicides for Control of Chrysanthemum Rust|Calif. Agric.33(4): 7-|1979|
92351|T||Shi,B., L. Chen, K. Chou, and A. Haug|Elevation of Intracellular Free Calcium Levels in Sperm in Response to Long-Term Feeding of Fungicides to Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(1): 1-8|1992|
92352|T||Lehotay,J., and D. Kisova|HPLC Study of Mancozeb Degradation on Leaves|J. Liq. Chromatogr.16(5): 1015-1022|1993|10.1080/10826079308019568
92353|T||Locher,F.J., G. Lorenz, and K.J. Beetz|Resistance Management Strategies for Dicarboximide Fungicides in Grapes: Results of Six Years' Trial Work|Crop Prot.6(3): 139-147|1987|10.1016/0261-2194(87)90001-9
92354|T||Shaw,D.V., and K.D. Larson|Relative Performance of Strawberry Cultivars from California and Other North American Sources in Fumigated and Nonfumigated Soils|J. Am. Soc. Hortic. Sci.121(5): 764-767|1996|10.21273/JASHS.121.5.764
92355|T||Coremans-Pelseneer,J., and F. Tillemans|Effect of Seven Phytosanitary Products on the Growth of the Entomopathogenic Fungus Beauveria|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(3, Pt. A): 967-972|1988|
92356|T||Dirkse,F.B., M. Dil, R. Linders, and I. Rietstra|Resistance in White Rust (Puccinia horiana P. Hennings) of Chrysanthemum to Oxycarboxin and Benodanil in the Netherlands|Meded. Fac. Landbouwwet. Rijksuniv. Gent47(3): 793-800|1982|
92357|T||Rickard,J., and M.E. Brodie|Correlation of Blood and Brain Levels of the Neurotoxic Pyrethroid Deltamethrin with the Onset of Symptoms in Rats|Pestic. Biochem. Physiol.23(2): 143-156|1985|10.1016/0048-3575(85)90001-X
92359|T||Damicone,J.P., K.E. Jackson, J.R. Sholar, and M.S. Gregory|Evaluation of a Weather-Based Spray Advisory for Management of Early Leaf Spot of Peanut in Oklahoma|Peanut Sci.21(2): 115-121|1994|10.3146/i0095-3679-21-2-10
92360|T||Yardim,E.N., I. Ozgen, and H. Kulaz|A Comparison of Recommended and Reduced Insecticide Regimes in Alfalfa|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)66(2a): 513-518|2001|
92361|T||Itoh,K., D. Goto, K. Sueyasu, K. Suyama, and H. Yamamoto|Effect of Chloropicrin Fumigation on Microbial Communities Evaluated by Community-Level Physiological Profile and the Resistance Against Fusarium Wilt|Soil Sci. Plant Nutr.48(3): 333-339|2002|10.1080/00380768.2002.10409209
92362|T||Sahali,Y., C.M. Jett, and J.J. Murphy|Metabolic Fate of S,S,S-Tributyl Phosphorotrithioate (DEF) in the Lactating Goat|Xenobiotica24(4): 301-313|1994|10.3109/00498259409045894
92363|T||EPA/OTS|Initial Submission:  Letter from [] to USEPA Regarding Acute Oral Toxicity Study in Rats of []3-Cyclohexyl-6-(Dimethylamino)-1-Methyl-1,3,5-Triazine-2, Dated 110494 (Sanitized)|EPA/OTS Doc.#88-950000035:2 p.|1994|
92364|T||DuPont Chemical Corp.|Initial Submission:  Acute Oral Toxicity of 1,3,5-Triazine-2,4(1H,3H)-Dione, 3-Cyclohexyl-6-(Dimethylamino)-1-Methyl in Rats with Cover Letter Dated 082092|EPA/OTS Doc.#88-920008557:12 p.|1992|
92365|T||E.I. Du Pont De Nemours|Init. Sub.:  3-Cyclohexyl-1-Methyl-6-Dimethylamino-Sym-Triazine- 2,4(1H, 3H) -Dione:  Letter from Dupont Submitting Information on an  Oral Lethal Dose Test in Animals with Attachments|EPA/OTS Doc.#88-920004247:6 p.|1992|
92366|T||Shaw,D.V., and K.D. Larson|Relative Performance of Strawberry Genotypes over Four Cycles of Cultivation on Fumigated and Nonfumigated Soils|J. Am. Soc. Hortic. Sci.126(1): 78-82|2001|10.21273/JASHS.126.1.78
92367|A||Hahlbeck,E.|The Juvenile Three-Spined Stickleback: Model Organism for the Study of Estrogenic and Androgenic Endocrine Disruption in Laboratory and Field|Ph.D.Thesis, Stockholm University, Stockholm, Sweden:40 p.|2004|
92368|T||Hoy,C.W., and M.J. Dunlap|Control of Lepidoptera on Cabbage, 1995|Arthropod Manag. Tests21:91-92|1996|10.1093/amt/21.1.91
92369|T||Kerns,D.L.|Control of Lepidopterous Larvae in Lettuce, 1994|Arthropod Manag. Tests21:121-|1996|10.1093/amt/21.1.121
92370|T||Speese III,J.|Foliar Sprays to Control Worms in Soybeans, 1995|Arthropod Manag. Tests21:293-|1996|
92371|T||Mascarenhas,R.N., B.J. Fitzpatrick, D.J. Boethel, and B.R. Leonard|Evaluation of Selected Experimental and Standard Insecticides Against Soybean Looper and Beet Armyworm in Northeast LA, 1995|Arthropod Manag. Tests21:292-|1996|10.1093/amt/21.1.292
92372|T||Tugwell,N.P., and T.G. Teague|Efficacy of Selected Insecticides Against Bollworm and Tobacco Budworm in Cotton, 1995|Arthropod Manag. Tests21:272-|1996|10.1093/amt/21.1.272
92373|T||Herbert,D.A.,Jr.|Standard and Below Labeled Rates of Insecticides for Corn Earworm Control in Soybean in Virginia, 1995|Arthropod Manag. Tests21:291-292|1996|10.1093/amt/21.1.291
92374|T||Bartels,D.W., P.C. Bolin, and W.D. Hutchison|Microbial and Insecticidal Control of Lepidopteran Pests in Minnesota Cabbage, 1995|Arthropod Manag. Tests21:89-90|1996|10.1093/amt/21.1.89a
92375|T||Burris,G., D. Cook, B.R. Leonard, J.B. Graves, and J. Pankey|Control of Foliage Feeding Pests in Cotton, 1995|Arthropod Manag. Tests21:243-244|1996|
92376|A||Natarajan,G.M.|Changes in the Carbohydrate Metabolites During Acute and Chronic Exposure of Air-Breathing Fish Channa striatus to Oxydemeton-Methyl (Metasystox)|Comp. Physiol. Ecol.14(4): 181-184|1989|
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92378|T||Abou-Donia,M.B., D.G. Graham, P.R. Timmons, and B.L. Reichert|Late Acute, Delayed Neurotoxic and Cholinergic Effects of S,S,S-Tributyl Phosphorotrithioite (Merphos) in Hens|Toxicol. Appl. Pharmacol.53(3): 439-457|1980|10.1016/0041-008X(80)90357-9
92379|AT||Kennedy,G.L.,Jr.|Acute and Environmental Toxicity Studies with Hexazinone|Fundam. Appl. Toxicol.4(4): 603-611|1984|10.1016/0272-0590(84)90050-2
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92383|T||Son,A.J., K.H. Shin, J.U. Lee, and K.W. Kim|Chemical and Ecotoxicity Assessment of PAH-Contaminated Soils Remediated by Enhanced Soil Flushing|Environ. Eng. Sci.20(3): 197-206|2003|10.1089/109287503321671401
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92386|T||Lane,H.W., P. Teer, J. Dukes, J. Johnson, and M.T. White|The Effect of Four Chemical Forms of Selenium on Mammary Tumor Incidence in BALB/c Female Mice Treated with 7-12-Dimethylbenz[a]anthracene|Cancer Lett.50(1): 39-44|1990|10.1016/0304-3835(90)90176-X
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92388|A||Ortiz-Zarragoitia,M., and M.P. Cajaraville|Effects of Selected Xenoestrogens on Liver Peroxisomes, Vitellogenin Levels and Spermatogenic Cell Proliferation in Male Zebrafish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.141(2): 133-144|2005|10.1016/j.cca.2005.05.010
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92390|A||Kirby,M.F., A.J. Smith, J. Rooke, P. Neall, A.P. Scott, and I. Katsiadaki|Ethoxyresorufin-O-Deethylase (EROD) and Vitellogenin (VTG) in Flounder (Platichthys flesus): System Interaction, Crosstalk and Implications for Monitoring|Aquat. Toxicol.81(3): 233-244|2007|10.1016/j.aquatox.2006.12.004
92393|A||Melard,C.|Production of a High Percentage of Male Offspring with 17[Alpha]-Ethynylestradiol Sex-Reversed Oreochromis aureus.  I.  Estrogen Sex-Reversal and Production of F2 Pseudofemales|Aquaculture130(1): 25-34|1995|10.1016/0044-8486(94)00313-D
92394|A||Craft,J.A., M. Brown, K. Dempsey, J. Francey, M.F. Kirby, A.P. Scott, I. Katsiadaki, C.D. Robinson, I.M. Davies, P. Bra|Kinetics of Vitellogenin Protein and mRNA Induction and Depuration in Fish Following Laboratory and Environmental Exposure to Oestrogens|Mar. Environ. Res.58(2-5): 419-423|2004|10.1016/j.marenvres.2004.03.025
92395|A||Chikae,M., R. Ikeda, Q. Hasan, Y. Morita, and E. Tamiya|Effects of Tamoxifen, 17 Alpha -Ethynylestradiol, Flutamide, and Methyltestosterone on Plasma Vitellogenin Levels of Male and Female Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Pharmacol.17(1): 29-33|2004|10.1016/j.etap.2004.02.002
92396|A||Chikae,M., R. Ikeda, Q. Hasan, Y. Morita, and E. Tamiya|Effect of Alkylphenols on Adult Male Medaka: Plasma Vitellogenin Goes up to the Level of Estrous Female|Environ. Toxicol. Pharmacol.15(1): 33-36|2003|10.1016/j.etap.2003.08.005
92397|A||Brian,J.V., C.A. Harris, M. Scholze, T. Backhaus, P. Booy, M. Lamoree, G. Pojana, N. Jonkers, T. Runnalls, A. Bonfa, A.|Accurate Prediction of the Response of Freshwater Fish to a Mixture of Estrogenic Chemicals|Environ. Health Perspect.113(6): 721-728|2005|10.1289/ehp.7598
92398|A||Andersson,C., I. Katsiadaki, K. Lundstedt-Enkel, and J. Orberg|Effects of 17(alpha)-Ethynylestradiol on EROD Activity, Spiggin and Vitellogenin in Three-Spined Stickleback (Gasterosteus aculeatus)|Aquat. Toxicol.83(1): 33-42|2007|10.1016/j.aquatox.2007.03.008
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92401|A||Zeng,Z., T. Shan, Y. Tong, S.H. Lam, and Z. Gong|Development of Estrogen-Responsive Transgenic Medaka for Environmental Monitoring of Endocrine Disrupters|Environ. Sci. Technol.39(22): 9001-9008|2005|10.1021/es050728l
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92410|T||Sussmuth,R., B. Ackermann-Schmidt, and F. Lingens|Activation of Liver Microsomes by 2,3,4,5- Tetrachlorophenol|Mutat. Res.77(3): 279-282|1980|10.1016/0165-1218(80)90061-0
92411|T||Kholkute,S.D., J. Rodriguez, and W.R. Dukelow|Reproductive Toxicity of Aroclor-1254:  Effects on Oocyte, Spermatozoa, In Vitro Fertilization, and Embryo Development in the Mouse|Reprod. Toxicol.8(6): 487-493|1994|10.1016/0890-6238(94)90031-0
92412|T||Kling,D., and W. Gamble|In Vivo Inhibition of Citrate Cleavage Enzyme by Polychlorinated Biphenyls|Experientia37:1258-1259|2007|10.1007/BF01948346
92413|T||Matsui,K.A., S. Okamura, K. Yamashita, Y. Fujii-Kuriyama, and M. Yasuda|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Surgically Induced Endometriosis in Mice and the Role of Ah Receptor|Organohalog. Compd.49:345-348|2000|
92414|T||Narbonne,J.F.|"Determination of the ""No Effect Levels"" of Phenoclor DP6 on Five Microsomal Parameters in Rat Livers"|Toxicology14:91-93|1979|10.1016/0300-483X(79)90094-5
92415|T||Pelissier,M.A., C. Frayssinet, M. Boisset, and R. Albrecht|Effect of Phenoclor DP6 on Enzyme-Altered Foci and Lipid Peroxidation in Livers of Aflatoxin B1-Initiated Rats|Food Chem. Toxicol.30(2): 133-137|1992|10.1016/0278-6915(92)90148-E
92416|T||Bank,P.A., M.E. Cullum, R.K. Jensen, and M.H. Zile|Effect of Hexachlorobiphenyl on Vitamin A Homeostasis in the Rat|Biochim. Biophys. Acta990:306-314|1989|10.1016/S0304-4165(89)80050-9
92417|T||Mattison,D.R., and S.S. Thorgeirsson|Ovarian Aryl Hydrocarbon Hydroxylase Activity and Primordial Oocyte Toxicity of Polycylic Aromatic Hydrocarbons in Mice|Cancer Res.39:3471-3475|1979|
92419|T||Green,S., F.M. Sauro, and L. Friedman|Lack of Dominant Lethality in Rats Treated with Polychlorinated Biphenyls (Aroclors 1242 and 1254)|Food Cosmet. Toxicol.13:507-510|1975|10.1016/0015-6264(75)90003-6
92421|T||Sandberg,P.O., and H. Glaumann|Studies on the Cellular Toxicity of Polychlorinated Biphenyls (PCBs) Partial Block and Alteration of Intracellular Migration of Lipoprotein Particles in Rat Liver|Exp. Mol. Pathol.32:1-22|1980|10.1016/0014-4800(80)90038-6
92422|T||Anderson,L.M., K. Van Havere, and J.M. Budinger|Effects of Polychlorinated Biphenyls on Lung and Liver Tumors Initiated in Suckling Mice by N-Nitrosodimethylamine|J. Natl. Cancer Inst.71:157-163|1983|
92423|T||Bruckner,J.V., W.D. Jiang, J.M. Brown, L. Putcha, C.K. Chu, and V.J. Stella|The Influence of Ingestion of Environmentally Encountered Levels of a Commercial Polychlorinated Biphenyl Mixture (Aroclor 1254) on Drug Metabolism in the Rat|J. Pharmacol. Exp. Ther.202(1): 22-31|1977|
92424|T||Chakraborty,D., A. Bhattacharyya, J. Chatterjee, K. Chatterjee, A. Sen, S. Chatterjee, K. Majumdar, and G.C. Chatterjee|Biochemical Studies on Polychlorinated Biphenyls Toxicity in Rats:  Manipulation by Vitamin C|Int. J. Vitam. Nutr. Res.48:22-31|1978|
92425|T||Oesterle,D., and E. Deml|Dose-Dependent Promoting Effect of Polychlorinated Biphenyls on Enzyme-Altered Islands in Livers of Adult and Weanling Rats|Carcinogenesis5(3): 351-355|1984|10.1093/carcin/5.3.351
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92428|T||Shiota,K.|Postnatal Behavioral Effects of Prenatal Treatment with PCBs (Polychlorinated Biphenyls) in Rats|Okajimas Folia Anat. Jpn.53:105-114|1976|10.2535/ofaj1936.53.2-3_105
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92441|T||Roditakis,E., A. Tsagkarakou, and J. Vontas|Identification of Mutations in the Para Sodium Channel of Bemisis tabaci from Crete, Associated with Resistance to Pyrethroids|Pestic. Biochem. Physiol.85:161-166|2006|10.1016/j.pestbp.2005.11.007
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92453|T||Siddiqui,M.A., T.A. Khan, and M.M. Alam|Effect of Insecticide Metasystox-R on Some Fungi|Acta Bot. Indica15(1): 133-134|1987|
92454|T||Perera,M.T.M.D.R., G. Armstrong, and R.E.L. Naylor|Effect of Denatonium Benzoate on Myzus persicae Feeding on Chinese Cabbage, Brassica campestris spp. pekinensis|BCPC Symp. Proc.63:183-186|1995|
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92460|T||Rao,A.R.N., A.R. Rao, L.N. Jannu, and S.P. Hussain|Chemoprevention of 7,12-Dimethylbenz(a)anthracene-Induced Mammary Carcinogenesis in Rat by the Combined Actions of Selenium, Magnesium, Ascorbic Acid and Retinyl Acetate|Jpn. J. Cancer Res.81(12): 1239-1246|1990|
92462|T||Schaffer,E.M., J.Z. Liu, and J.A. Milner|Garlic Powder and Allyl Sulfur Compounds Enhance the Ability of Dietary Selenite to Inhibit 7,12-Dimethylbenz(a)Anthracene-Induced Mammary DNA Adducts|Nutr.Cancer27(2): 162-168|1997|10.1080/01635589709514519
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92464|T||Chidambaram,N., and A. Baradarajan|Influence of Selenium on Glutathione and Some Associated Enzymes in Rats with Mammary Tumor Induced by 7,12-Dimethylbenz(a)anthracene|Mol. Cell. Biochem.156(2): 101-107|1996|10.1007/BF00426331
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92466|T||Nebert,D.W., F.M. Goujon, and J.E. Gielen|Aryl Hydrocarbon Hydroxylase Induction by Polycyclic Hydrocarbons:  Simple Autosomal Dominant Trait in the Mouse|Nat.New Biol.236:107-110|1972|10.1038/newbio236107a0
92467|T||Upadhyaya,P., and K. El-Bayoumy|Effect of Dietary Soy Protein Isolate, Genistein, and 1,4-Phenylenebis(Methylene)Selenocyanate on DNA Binding of 7,12-Dimethylbenz[a]anthracene in Mammary Glands of CD Rats|Oncol. Rep.5(6): 1541-1545|1998|
92468|T||Batcioglu,K., A.A. Karagozler, M. Genc, and S. Celik|Comparison of the Chemopreventive Potentials of Melatonin and Vitamin E Plus Selenium on 7,12-Dimethylbenz[a]anthracene-Induced Inhibition of Mouse Liver Antioxidant Enzymes|Eur. J. Cancer Prev.11(1): 57-61|2002|10.1097/00008469-200202000-00008
92470|T||Raunio,H., and O. Pelkonen|Effect of Polycyclic Aromatic Compounds and Phorbol Esters on Ornithine Decarboxylase and Aryl Hydrocarbon Hydroxylase Activities in Mouse Liver|Cancer Res.43:782-786|1983|
92471|T||Schmid,F.A., I. Elmer, and G.S. Tarnowski|Genetic Determination of Differential Inflammatory Reactivity and Subcutaneous Tumor Susceptibility of AKR/J and C57BL/6J Mice to 7,12-Dimethylbenz(a)anthracene|Cancer Res.29:1585-1589|1969|
92472|A||Teles,M., M. Pacheco, and M.A. Santos|Physiological and Genetic Responses of European Eel (Anguilla anguilla L.) to Short-Term Chromium or Copper Exposure - Influence of Preexposure to a PAH-Like Compound|Environ. Toxicol.20(1): 92-99|2005|10.1002/tox.20082
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92475|A||Diamond,S.A., D.R. Mount, V.R. Mattson, L.J. Heinis, T.L. Highland, A.D. Adams, and M.F. Simcik|Photoactivated Polycyclic Aromatic Hydrocarbon Toxicity in Medaka (Oryzias latipes) Embryos:  Relevance to Environmental Risk in Contaminated Sites|Environ. Toxicol. Chem.25(11): 3015-3023|2006|10.1897/06-038R.1
92478|T||Tang,J., H.H. Liste, and M. Alexander|Chemical Assays of Availability to Earthworms of Polycyclic Aromatic Hydrocarbons in Soil|Chemosphere48(1): 35-42|2002|10.1016/S0045-6535(02)00046-2
92479|A||Mallakin,A., T.S. Babu, D.G. Dixon, and B.M. Greenberg|Sites of Toxicity of Specific Photooxidation Products of Anthracene to Higher Plants: Inhibition of Photosynthetic Activity and Electron Transport in Lemna gibba L. G-3 (Duckweed)|Environ. Toxicol.17(5): 462-471|2002|10.1002/tox.10080
92480|A||Bain,L.J.|cDNA Cloning, Sequencing, and Differential Expression of a Heart-Type Fatty Acid-Binding Protein in the Mummichog (Fundulus heteroclitus)|Mar. Environ. Res.54(3-5): 379-383|2002|10.1016/S0141-1136(02)00130-7
92481|T||Morisseau,C., M. Derbel, T.R. Lane, D. Stoutamire, and B.D. Hammock|Differential Induction of Hepatic Drug-Metabolizing Enzymes by Fenvaleric Acid in Male Rats|Toxicol. Sci.52(2): 148-153|1999|10.1093/toxsci/52.2.148
92482|T||Wang,L., X. Jiang, D. Yan, J. Wu, Y. Bian, and F. Wang|Behavior and Fate of Chlorpyrifos Introduced into Soil-Crop Systems by Irrigation|Chemosphere66(3): 391-396|2007|10.1016/j.chemosphere.2006.06.038
92483|A||Reynaldi,S., S. Duquesne, K. Jung, and M. Liess|Linking Feeding Activity and Maturation of Daphnia magna Following Short-Term Exposure to Fenvalerate|Environ. Toxicol. Chem.25(7): 1826-1830|2006|10.1897/05-469R.1
92484|T||Prasanthi,K., Muralidhara, and P.S. Rajini|Fenvalerate-Induced Oxidative Damage in Rat Tissues and Its Attenuation by Dietary Sesame Oil|Food Chem. Toxicol.43(2): 299-306|2005|10.1016/j.fct.2004.10.005
92485|T||Moniz,A.C., P.E. Cruz-Casallas, S.A. Salzgeber, F.M.F. Varoli, H.S. Spinosa, and M.M. Bernardi|Behavioral and Endocrine Changes Induced by Perinatal Fenvalerate Exposure in Female Rats|Neurotoxicol. Teratol.27(4): 609-614|2005|10.1016/j.ntt.2005.05.005
92486|T||Moniz,A.C., P.E. Cruz-Casallas, C.A. Oliveira, A. Lucisano, J.C. Florio, A.A. Nicolau, H.S. Spinosa, and M.M. Bernardi|Perinatal Fenvalerate Exposure:  Behavioral and Endocrinology Changes in Male Rats|Neurotoxicol. Teratol.21(5): 611-618|1999|10.1016/S0892-0362(99)00004-5
92488|T||Maiti,P.K., and A. Kar|Is Triiodothyronine Capable of Ameliorating Pyrethroid-Induced Thyroid Dysfunction and Lipid Peroxidation?|J. Appl. Toxicol.18(2): 125-128|1998|10.1002/(SICI)1099-1263(199803/04)18:2<125::AID-JAT483>3.0.CO;2-R
92489|T||Giri,S., G.D. Sharma, A. Giri, and S.B. Prasad|Fenvalerate-Induced Chromosome Aberrations and Sister Chromatid Exchanges in the Bone Marrow Cells of Mice In Vivo|Mutat. Res.520(1-2): 125-132|2002|10.1016/S1383-5718(02)00197-3
92490|T||De souza Spinosa,H., Y.M.A. Silva, A.A. Nicolau, M.M. Bernardi, and A. Lucisano|Possible Anxiogenic Effects of Fenvalerate, a Type II Pyrethroid Pesticide, in Rats|Physiol. Behav.67(4): 611-615|1999|10.1016/S0031-9384(99)00106-7
92491|A||Beketov,M.A., and M. Liess|The Influence of Predation on the Chronic Response of Artemia sp. Populations to a Toxicant|J. Appl. Ecol.43(6): 1069-1074|2006|10.1111/j.1365-2664.2006.01226.x
92492|T||Verma,R.S., A. Mehta, and N. Srivastava|In Vivo Chlorpyrifos Induced Oxidative Stress: Attenuation by Antioxidant Vitamins|Pestic. Biochem. Physiol.88(2): 191-196|2007|10.1016/j.pestbp.2006.11.002
92493|T||Venerosi,A., G. Calamandrei, and L. Ricceri|A Social Recognition Test for Female Mice Reveals Behavioral Effects of Developmental Chlorpyrifos Exposure|Neurotoxicol. Teratol.28(4): 466-471|2006|10.1016/j.ntt.2006.05.003
92494|A||Varo,I., F. Amat, J.C. Navarro, M. Barreda, E. Pitarch, and R. Serrano|Assessment of the Efficacy of Artemia sp (Crustacea) Cysts Chorion as Barrier to Chlorpyrifos (Organophosphorus Pesticide) Exposure. Effect on Hatching and Survival|Sci. Total Environ.366(1): 148-153|2006|10.1016/j.scitotenv.2005.10.006
92495|T||Tian,Y., H. Ishikawa, T. Yamaguchi, T. Yamauchi, and K. Yokoyama|Teratogenicity and Developmental Toxicity of Chlorpyrifos Maternal Exposure During Organogenesis in Mice|Reprod. Toxicol.20(2): 267-271|2005|10.1016/j.reprotox.2005.01.012
92496|T||Tian,Y., and T. Yamauchi|Micronucleus Formation in 3-Day Mouse Embryos Associated with Maternal Exposure to Chlorpyrifos During the Early Preimplantation Period|Reprod. Toxicol.17(4): 401-405|2003|10.1016/S0890-6238(03)00039-X
92497|A||Sturm,A., T.S. Radau, T. Hahn, and R. Schulz|Inhibition of Rainbow Trout Acetylcholinesterase by Aqueous and Suspended Particle-Associated Organophosphorous Insecticides|Chemosphere68(4): 605-612|2007|10.1016/j.chemosphere.2007.02.056
92498|A||Sparling,D.W., and G. Fellers|Comparative Toxicity of Chlorpyrifos, Diazinon, Malathion and Their Oxon Derivatives to Larval Rana boylii|Environ. Pollut.147(3): 535-539|2007|10.1016/j.envpol.2006.10.036
92499|T||Slotkin,T.A., and F.J. Seidler|Prenatal Chlorpyrifos Exposure Elicits Presynaptic Serotonergic and Dopaminergic Hyperactivity at Adolescence: Critical Periods for Regional and Sex-Selective Effects|Reprod. Toxicol.23(3): 421-427|2007|10.1016/j.reprotox.2006.07.010
92500|T||Slotkin,T.A., and F.J. Seidler|The Alterations in CNS Serotonergic Mechanisms Caused by Neonatal Chlorpyrifos Exposure are Permanent|Brain Res. Dev. Brain Res.158(1-2): 115-119|2005|10.1016/j.devbrainres.2005.06.008
92501|T||Roy,T.S., V. Sharma, F.J. Seidler, and T.A. Slotkin|Quantitative Morphological Assessment Reveals Neuronal and Glial Deficits in Hippocampus after a Brief Subtoxic Exposure to Chlorpyrifos in Neonatal Rats|Brain Res. Dev. Brain Res.155(1): 71-80|2005|10.1016/j.devbrainres.2004.12.004
92502|T||Reinecke,S.A., and A.J. Reinecke|Biomarker Response and Biomass Change of Earthworms Exposed to Chlorpyrifos in Microcosms|Ecotoxicol. Environ. Saf.66(1): 92-101|2007|10.1016/j.ecoenv.2005.10.007
92503|T||Nault,B.A., R.W. Straub, and A.G. Taylor|Performance of Novel Insecticide Seed Treatments for Managing Onion Maggot (Diptera: Anthomyiidae) in Onion Fields|Crop Prot.25(1): 58-65|2006|10.1016/j.cropro.2005.03.020
92504|T||Marable,B.R., J.P.J. Maurissen, J.L. Mattsson, and R. Billington|Differential Sensitivity of Blood, Peripheral, and Central Cholinesterases in Beagle Dogs Following Dietary Exposure to Chlorpyrifos|Regul. Toxicol. Pharmacol.47(3): 240-248|2007|10.1016/j.yrtph.2006.10.004
92505|T||Jangra,S.S., and R.S. Jaglan|Efficacy of Synthetic Pyrethroids Alone and in Combination with Dimethoate for the Control of Bollworm Pests of Cotton|Ann. Biol.11(2): 229-231|1995|
92506|T||Linz,G.M., H.J. Homan, A.A. Slowik, and L.B. Penry|Evaluation of Registered Pesticides as Repellents for Reducing Blackbird (Icteridae) Damage to Sunflower|Crop Prot.25(8): 842-847|2006|10.1016/j.cropro.2005.11.006
92507|A||Levin,E.D., H.A. Swain, S. Donerly, and E. Linney|Developmental Chlorpyrifos Effects on Hatchling Zebrafish Swimming Behavior|Neurotoxicol. Teratol.26(6): 719-723|2004|10.1016/j.ntt.2004.06.013
92510|T||Lin,F.H., G. Clark, L.S. Birnbaum, G.W. Lucier, and J.A. Goldstein|Influence of the Ah Locus on the Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Hepatic Epidermal Growth Factor Receptor|Mol. Pharmacol.39:307-313|1991|
92511|T||Benedict,W.F., N. Considine, and D.W. Nebert|Genetic Differences in Aryl Hydrocarbon Hydroxylase Induction and Benzo(a)pyrene-Produced Tumorigenesis in the Mouse|Mol. Pharmacol.6:266-277|1973|
92513|A||Van Veld,P.A., and D.J. Westbrook|Evidence for Depression of Cytochrome P4501A in a Population of Chemically Resistant Mummichog (Fundulus heteroclitus)|Environ. Sci.3:221-234|1995|
92514|T||Huang,S., and G.G. Gibson|Species and Congener Specific Induction of Hepatic Cytochrome P4504A by Polychlorinated Biphenyls|Biochem. Pharmacol.43:637-639|1992|10.1016/0006-2952(92)90588-A
92516|T||Fine,J.S., T.A. Gasiewicz, and A.E. Silverstone|Lymphocyte Stem Cell Alterations Following Perinatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Mol. Pharmacol.35:18-25|1989|
92517|T||Tucker,A.N., S.J. Vore, and M.I. Luster|Suppression of B Cell Differentiation by  2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Mol. Pharmacol.29:372-377|1986|
92519|T||Morse,D.C., and A. Brouwer|Fetal, Neonatal, and Long-Term Alterations in Hepatic Retinoid Levels Following Maternal Polychlorinated Biphenyl Exposure in Rats|Toxicol. Appl. Pharmacol.131(1): 175-182|1995|10.1006/taap.1995.1059
92520|T||Lakshman,M.R., P. Ghosh, and S.J. Chirtel|Mechanism of Action of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Intermediary Metabolism in the Rat|J. Pharmacol. Exp. Ther.258:317-319|1991|
92521|T||Carter,J.W., and I.L. Cameron|Sublethal Effects of a Pure Polychlorobiphenyl on Mice|Exp. Mol. Pathol.26:228-|1977|10.1016/0014-4800(77)90052-1
92522|T||Anderson,L.M., D. Logsdon, S. Ruskie, S.D. Fox, H.J. Issaq, R.M. Kovatch, and C.M. Riggs|Promotion by Polychlorinated Biphenyls of Lung and Liver Tumors in Mice|Carcinogenesis15(10): 2245-2248|1994|10.1093/carcin/15.10.2245
92525|T||Kato,N., and A. Yoshida|Effect of Dietary PCB on Hepatic Cholesterogenesis in Rats|Nutr. Rep. Int.21:107-112|1980|
92526|T||Miller,J.A., W.F. Chamberlain, and D.D. Oehler|Methods for Control of the Angora Goat Biting Louse|Southwest. Entomol.10(3): 181-184|1985|
92527|T||Prasad,D.|Bioefficacy of Synthetic Pyrethroids Against Root Knot Nematode, Meloidogyne incognita Larvae|Adv. Plant Sci.3(1): 131-135|1990|
92528|T||Singh,S., R. Kumar, and S.K. Gupta|Determination of Frequency of Fenvalerate Sprays Required for Tick Control in Cross-Bred Cattle|Indian Vet. Med. J.21(3): 201-204|1997|
92529|A||Nishiura,J.T., K. Ray, and J. Murray|Expression of Nuclear Receptor-Transcription Factor Genes During Aedes aegypti Midgut Metamorphosis and the Effect of Methoprene on Expression|Insect Biochem. Mol. Biol.35(6): 561-573|2005|10.1016/j.ibmb.2005.01.019
92531|A||Aubry,E., H. Rime, and G. Monod|Beta-Naphthoflavone Inhibits the Induction of Hepatic Oestrogen-Dependent Proteins by 17alpha-Ethynylestradiol in Mosquitofish (Gambusia holbrooki)|Biomarkers (Lond.)10(6): 439-455|2005|10.1080/13547500500274248
92532|A||Hopkins,K.D., W.L. Shelton, and C.R. Engle|Estrogen Sex-Reversal of Tilapia aurea|Aquaculture18(3): 263-268|1979|10.1016/0044-8486(79)90017-6
92533|A||Piferrer,F., and E.M. Donaldson|The Comparative Effectiveness of the Natural and a Synthetic Estrogen for the Direct Feminization of Chinook Salmon (Oncorhynchus tshawytscha)|Aquaculture106(2): 183-193|1992|10.1016/0044-8486(92)90202-V
92534|T||Incho,H.H.|Neo-Pynamin with NIA 17370- A New Insecticide for Aerosols|Proc. Annu. Meet. Chem. Spec. Manufact. Assoc.56:152-157|1970|
92535|T||Casteels,H., and R. De Clercq|The Impact of Some Commonly Used Pesticides on the Epigeal Arthropod Fauna in Winter Wheat|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2): 477-482|1990|
92536|T||Cocke,J.,Jr., R. Knutson, D.K. Lunt, and F.L. Mitchell|Changes in Horn Fly Response to Diazinon and Fenvalerate Following Season Long Exposure to Various Pyrethroid and Organophosphate Ear Tags on Range Cattle in Texas|Southwest. Entomol.15(3): 265-271|1990|
92537|T||Foil,L.D., D.J. Leprince, and G.E. Church|Changes in the Parity Rate of Tabanus fuscicostatus (Diptera:  Tabanidae) Populations Associated with Controlling Available Hosts|J. Med. Entomol.26(4): 306-310|1989|10.1093/jmedent/26.4.306
92538|T||Goel,S.C., and V. Kumar|Bioefficacy of Four Synthetic Pyrethroids Against Plusia orichalcea Fabr. Feeding on Sunflower|Entomon13(3/4): 207-209|1988|
92539|T||Goel,S.C., and S. Kumar|Efficacy of Synthetic Pyrethroids and Quinalphos Against Bihar Hairy Caterpillar, Spilosoma obliqua (Walker) and Sesamum Sphinx, Acherontia styx (Westwood) Infesting Sesamum (Sesamum indicum L.)|J. Entomol. Res.15(1): 15-19|1991|
92540|T||Andersen,A.|Effects of Fenvalerate and Esfenvalerate on Carabid and Staphylinid Species in Spring Barley Fields|Norw. J. Agric. Sci.6(4): 411-417|1992|
92541|T||Tohnishi,M., H. Nakao, T. Furuya, A. Seo, H. Kodama, K. Tsubata, S. Fujioka, T. Hirooka, and T. Nishimatsu|Flubendiamide, a Novel Insecticide Highly Active Against Lepidopterous Insect Pests|J. Pestic. Sci. (Multiple Languages)30(4): 354-360|2005|10.1584/jpestics.30.354
92542|T||Kumar,S., and S.C. Goel|Evaluation of Synthetic Pyrethroids for the Management of Antigastra catalaunalis (Dup.) on Sesamum|Indian J. Plant Prot.23(1): 18-22|1995|
92543|T||Mote,U.N., and J.R. Kadam|Chemical Control of Sorghum Earhead Hairy Caterpillar, Euproctis subnotata WLK.|Indian J. Plant Prot.12(2): 147-148|1984|
92544|T||Poiger,H., H. Weber, and C. Schlatter|Special Aspects of Metabolism and Kinetics of TCDD in Dogs and Rats.  Assessment of Toxicity of TCDD-Metabolite(s) in Guinea Pigs|In: O.Huntzinger, F.W.Frei, E.Merian, and F.Pocchiari (Eds.), Chlorinated Dioxins and Related Compunds, Impact on the Environment, Pergamon Press, NY:317-325|1982|
92545|T||Nau,H., R. Bass, and D. Neubert|Transfer of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) to the Mouse Embryo, Fetus and Neonate|In: O.Huntzinger, F.W.Frei, E.Merian, and F.Pocchiari (Eds.), Chlorinated Dioxins and Related Compunds, Impact on the Environment, Pergamon Press, NY:325-337|1982|
92546|T||Mote,U.N., B.D. Ghule, and S.S. Jadhav|Studies on Economic Threshold Levels of Midge on Sorghum Earheads|J. Maharashtra Agric. Univ.16(3): 349-352|1991|
92547|T||Mundiwale,S.K., J.D. Patel, U.B. Men, and H.G. Kandalkar|Efficacy of Synthetic Pyrethroids Against Sorghum Pests|Indian J. Entomol.51(2): 172-176|1989|
92548|T||Okuno,Y., S. Ito, T. Seki, T. Hiromori, M. Murakami, T. Kadota, and J. Miyamoto|Fenvalerate-Induced Granulomatous Changes in Rats and Mice|J. Toxicol. Sci.11(1): 53-66|1986|10.2131/jts.11.53
92549|T||Presley,S.M., and R.E. Wright|Field Test of Pyrethroid Ear Tags, Sprays, and a Pour-on Formulation for Control of Horse Flies on Cattle|J. Agric. Entomol.3(4): 369-373|1986|
92550|T||Rajamma,P.|Evaluation of Some Newer Insecticides for the Control of the Sweet Potato Weevil, Cylas formicarius Fab.|Entomon15(3/4): 241-243|1990|
92551|T||Ramaprasad,G., S. Sitaramaiah, B.G. Joshi, and S.N. Rao|Relative Efficacy of Neem Seed Kernel Suspension, Some Synthetic Pyrethroids and Insecticides Against Spodoptera litura F. in Tobacco Nurseries|Indian J. Plant Prot.15(2): 190-192|1987|
92552|T||Riskallah,M.R.|Influence of Posttreatment Temperature on the Toxicity of Pyrethroid Insecticides to Susceptible and Resistant Larvae of the Egyptian Cotton Leafworm, Spodoptera littoralis (Boisd.)|Experientia40(2): 188-190|1984|10.1007/BF01963592
92553|A||Sahay,N., and R.A. Agarwal|A Study on Pyrethroid and Organophosphate Synergism on the Snail Lymnaea acuminata|Malays. Appl. Biol.25(2): 9-13|1996|
92554|T||Sharma,J.P.|Evaluation of Some Synthetic Pyrethroids and Carbaryl for the Control of Bollworms and Their Effect on Yield Parameters of Cotton|Entomon13(3/4): 215-221|1988|
92555|T||Men,U.B., A.B. Subhedar, and V.B. Shekar|Efficacy of Synthetic Pyrethroids Against Sorghum Midge (Contarinia sorghicola Coq.)|PKV Res. J.17(1): 111-112|1993|
92556|T||Singh,Y.P., Z.A. Baba, B. Singh, and N.D. Pandey|Chemical Control of Sesamia inferens Wlk. Infesting Wheat Crop|Indian J. Entomol.52(3): 431-434|1990|
92557|T||Sharma,D., and D.P. Abrol|Contact Toxicity of Some Insecticides to Honeybee Apis mellifera (L.) and Apis cerana (F.)|J. Asia Pac. Entomol.8(1): 113-115|2005|10.1016/S1226-8615(08)60079-5
92558|T||Treacy,M.F., R.D. Parker, R.M. Anderson, K.M. Schmidt, and J.H. Benedict|Soybean and Cottonseed Oils as Adjuvants and Diluents for Insecticides Used to Control Sorghum Midge|Southwest. Entomol.11:39-43|1986|
92559|T||Taylor,K.S., G.D. Waller, and L.A. Crowder|Impairment of a Classical Conditioned Response of the Honey Bee (Apis mellifera L.) by Sublethal Doses of Synthetic Pyrethroid Insecticides|Apidologie18(3): 243-252|1987|10.1051/apido:19870304
92560|T||Tripathi,N.L.M., and G.C. Sachan|Effect of Concentrations of Insecticides on the Growth and Development of Mustard Aphid, Lipaphis erysimi Kalt.|Indian J. Entomol.52(1): 63-68|1990|
92561|T||Dhingra,S., and D.S. Singh|Impact of Formulation on the Level of Resistance in Mustard Aphid, Lipaphis erysimi Kalt. to Synthetic Pyrethroids|J. Entomol. Res.12(1): 56-60|1988|
92562|T||Andersen,A.|Spiders in Norwegian Spring Barley Fields and the Effects of Two Insecticides|Norw. J. Agric. Sci.4(3): 261-271|1990|
92564|T||Kumar,S., and S.C. Goel|Efficacy of Synthetic Pyrethroids and Quinalphos Against Antigastra catalaunalis (Dup.) Infesting Sesamum|J. Entomol. Res.19(1): 39-42|1995|
92565|A||Merriam,T.L., R.B. Leidy, and R.C. Axtell|Efficacy and Longevity of Controlled-Release Chlorpyrifos (Dursban 10CR) for Mosquito Control in Coastal Dredged Material Disposal Sites|Mosq. News41(3): 512-522|1981|
92566|T||Chan,V., A. Stapleton, A. Soto, K. Yu, and N. DelRaso|Identification of Gene Expression Changes in Whole Blood Indicative of Exposure to Chemicals with Different Target Organ Toxicity|AFRL-HE-WP-TP-2006-0032. Alion Science and Technology Corporation, Dayton, OH9:16 p.|2007|
92567|T||Sanchez-Amate,M.C., E. Davila, F. Canadas, P. Flores, and F. Sanchez-Santed|Chlorpyrifos Shares Stimulus Properties with Pentylenetetrazol as Evaluated by an Operant Drug Discrimination Task|Neurotoxicology23(6): 795-803|2002|10.1016/S0161-813X(02)00032-3
92568|T||Heilman,W.P., R.D. Battershell, W.J. Pyne, P.H. Goble, T.A. Magee, and R.J. Matthews|Synthesis and Antiinflammatory Evaluation of Substituted Isophthalonitriles, Trimesonitriles, Benzonitriles, and Terephthalonitriles|J. Med. Chem.21(9): 906-913|1978|10.1021/jm00207a013
92569|T||Pandey,S., and D.K. Singh|Total Bacterial and Fungal Population After Chlorpyrifos and Quinalphos Treatments in Groundnut (Arachis hypogaea L.) Soil|Chemosphere55(2): 197-205|2004|10.1016/j.chemosphere.2003.10.014
92570|T||Wu,Y.J., P. Harp, X.R. Yan, and C.N. Pope|Nicotinic Autoreceptor Function in Rat Brain During Maturation and Aging:  Possible Differential Sensitivity to Organophosphorus Anticholinesterases|Chem.-Biol. Interact.142(3): 255-268|2003|10.1016/S0009-2797(02)00121-7
92571|T||Bushnell,P.J., V.C. Moser, and T.E. Samsam|Comparing Cognitive and Screening Tests for Neurotoxicity:  Effects of Acute Chlorpyrifos on Visual Signal Detection and a Neurobehavioral Test Battery in Rats|Neurotoxicol. Teratol.23(1): 33-44|2001|10.1016/S0892-0362(00)00117-3
92572|T||Bloomquist,J.R., R.L. Barlow, J.S. Gillette, W. Li, and M.L. Kirby|Selective Effects of Insecticides on Nigrostriatal Dopaminergic Nerve Pathways|Neurotoxicology23(4-5): 537-544|2002|10.1016/S0161-813X(02)00031-1
92573|T||Ghosh,T.K.|Biochemical Changes Induced by the Insecticide Fenvalerate in the Male Gonads of Albino Rat|Environ. Ecol.8(1A): 63-67|1990|
92574|T||Navarro,H.A., P.V. Basta, F.J. Seidler, and T.A. Slotkin|Neonatal Chlorpyrifos Administration Elicits Deficits in Immune Function in Adulthood:  A Neural Effect?|Brain Res. Dev. Brain Res.130(2): 249-252|2001|10.1016/S0165-3806(01)00254-1
92575|A||Levin,E.D., E. Chrysanthis, K. Yacisin, and E. Linney|Chlorpyrifos Exposure of Developing Zebrafish:  Effects on Survival and Long-Term Effects on Response Latency and Spatial Discrimination|Neurotoxicol. Teratol.25(1): 51-57|2003|10.1016/S0892-0362(02)00322-7
92576|T||Levin,E.D., N. Addy, A. Nakajima, N.C. Christopher, F.J. Seidler, and T.A. Slotkin|Persistent Behavioral Consequences of Neonatal Chlorpyrifos Exposure in Rats|Brain Res. Dev. Brain Res.130(1): 83-89|2001|10.1016/S0165-3806(01)00215-2
92577|T||Karen,D.J., W. Li, P.R. Harp, J.S. Gillette, and J.R. Bloomquist|Striatal Dopaminergic Pathways as a Target for the Insecticides Permethrin and Chlorpyrifos|Neurotoxicology22(6): 811-817|2001|10.1016/S0161-813X(01)00063-8
92578|T||Karanth,S., and C. Pope|Age-Related Effects of Chlorpyrifos and Parathion on Acetylcholine Synthesis in Rat Striatum|Neurotoxicol. Teratol.25(5): 599-606|2003|10.1016/S0892-0362(03)00049-7
92580|T||Jett,D.A., R.V. Navoa, R.A. Beckles, and G.L. McLemore|Cognitive Function and Cholinergic Neurochemistry in Weanling Rats Exposed to Chlorpyrifos|Toxicol. Appl. Pharmacol.174(2): 89-98|2001|10.1006/taap.2001.9198
92581|T||Garcia,S.J., F.J. Seidler, D. Qiao, and T.A. Slotkin|Chlorpyrifos Targets Developing Glia: Effects on Glial Fibrillary Acidic Protein|Brain Res. Dev. Brain Res.133(2): 151-161|2002|10.1016/S0165-3806(02)00283-3
92582|T||Icenogle,L.M., N.C. Christopher, W.P. Blackwelder, D.P. Caldwell, D. Qiao, F.J. Seidler, T.A. Slotkin, and E.D. Levin|Behavioral Alterations in Adolescent and Adult Rats Caused by a Brief Subtoxic Exposure to Chlorpyrifos During Neurulation|Neurotoxicol. Teratol.26(1): 95-101|2004|10.1016/j.ntt.2003.09.001
92583|T||Won,Y.K., J. Liu, K.,Jr. Olivier, Q. Zheng, and C.N. Pope|Age-Related Effects of Chlorpyrifos on Acetylcholine Release in Rat Brain|Neurotoxicology22(1): 39-48|2001|10.1016/S0161-813X(00)00009-7
92584|T||Gordon,C.J., and B.K. Padnos|Dietary Exposure to Chlorpyrifos Alters Core Temperature in the Rat|Toxicology177(2/3): 215-226|2002|10.1016/S0300-483X(02)00227-5
92585|T||Farag,A.T., A.M. El Okazy, and A.F. El-Aswed|Developmental Toxicity Study of Chlorpyrifos in Rats|Reprod. Toxicol.17(2): 203-208|2003|10.1016/S0890-6238(02)00121-1
92586|T||Sood,A.K., and K.L. Kakar|Relative Persistence Toxicity of Some Insecticides Against Blister Beetle, Mylabris spp. on Chrysanthemum Flowers|J. Insect Sci.4(1): 97-98|1991|
92587|T||Gomaa,E.A.A., M.M.T. Abd El-Rahman, and A.E. Omar|Decay Dynamics of Fenvalerate in Mentha piperita L. and in the Resulting Oil|J. Drug Res. Egypt15(1-2): 113-119|1984|
92588|T||Herath,P.R.J., and G. Davidson|Multiple Resistance in Anopheles albimanus|Mosq. News41(3): 535-539|1981|
92589|T||Taylor,R.N., M.N. Hill, D.C. Stewart, and R. Slatter|A Field Evaluation of Permethrin (OMS 1821) and NRDC 161 (OMS 1998) for Residual Control of Mosquitoes|Mosq. News41(3): 423-434|1981|
92590|T||Lockridge,O.|Biochemical Markers for Exposure to Low Doses of Organophosphorus Insecticides|Annu. Rep., 1 Aug. 2001 - 31 Jul. 2002, Nebraska University Med. Ctr., Omaha, NE:119 p.|2002|
92592|T||Chanda,S.M., T.L. Lassiter, V.C. Moser, S.,Jr. Barone, and S. Padilla|Tissue Carboxylesterases and Chlorpyrifos Toxicity in the Developing Rat|Hum. Ecol. Risk Assess.8(1): 75-90|2002|10.1080/20028091056737
92593|T||Bulinski,J., and J.N. Matthiessen|Poor Efficacy of the Insecticide Chlorpyrifos for the Control of African Black Beetle (Heteronychus arator) in Eucalypt Plantations|Crop Prot.21(8): 621-627|2002|10.1016/S0261-2194(02)00012-1
92595|T||Attia,F.I., G.J. Shanahan, and P.B. Hughes|Synergism of Diazinon Against Susceptible and Organophosphorus Resistant Lucilia cuprina (Wiedemann)|J. Aust. Entomol. Soc.18(2): 141-142|1979|10.1111/j.1440-6055.1979.tb00827.x
92596|T||Corwin,H.O., and F.J. Gottlieb|Anthracene-Induced Melanotic Tumors in Drosophila|Environ. Res.15(3): 327-331|1978|10.1016/0013-9351(78)90114-7
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92598|T||Teel,P.D., T.W. Fuchs, J.E. Huston, M.T. Longnecker, and S.L. Pickel|Effects of Sequential Infestations of Dermacentor albipictus and Amblyomma americanum (Acari: Ixodidae) on Overwintering Beef Cows in West-Central Texas|J. Med. Entomol.27(4): 632-641|1990|10.1093/jmedent/27.4.632
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92600|T||Pati,P.C., and S.P. Bhunya|Cytogenetic Effects of Fenvalerate in Mammalian In Vivo Test System|Mutat. Res.222(3): 149-154|1989|10.1016/0165-1218(89)90130-4
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92602|T||Saad,A.S.A., M.A. Elewa, O.A. Zaghloul, H.A. Awad, and M.A. Masoud|Toxicological and Histopathological Studies on Spiny Bollworm (Earias insulana)|Meded. Fac. Landbouwwet. Rijksuniv. Gent50(2 Pt. B): 735-750|1985|
92603|T||Sorthia,B.K., and M.S. Chari|Toxicity of Some Insecticides to Honey Bees, Apis florea F. and Apis melipona L.|J. Entomol. Res.9(2): 195-197|1985|
92604|T||Cilek,J.E., and F.W. Knapp|Influence of Insecticide Mixtures Impregnated in Cattle Ear Tags for Management of Pyrethroid-Resistant Horn Flies (Diptera: Muscidae)|J. Econ. Entomol.86(2): 444-449|1993|10.1093/jee/86.2.444
92605|T||Wang,D., Y. Luo, J. Sun, D. Du, C. Wang, X. Zhou, and C. Xue|The Use of Complexes of Algae Polysaccharides and Ce4+ to Degrade Compounds Containing Peptides or Phosphate Ester Bonds|Carbohydr. Polym.62(1): 1-5|2005|10.1016/j.carbpol.2005.08.007
92606|T||Chan,H.T.|A Note on the Eradication of Acrostichum aureum Ferns in the Matang Mangroves, Perak, Peninsular Malaysia|J. Trop. For. Sci.2(2): 171-173|1989|
92609|T||El-Banhawy,E.M., and B.A. Abou-Awad|Effect of Synthetic Pyrethroids and Other Compounds on the Susceptibility and Development of the Egg Stage of the Predacious Mite Amblyseius gossipi (Mesostigmata: Phytoseiidae)|Entomophaga30(3): 265-270|1985|10.1007/BF02372227
92610|T||Chhabra,M.B., R. Kumar, and B.B. Kumar|Acaricidal Control of Mange in Rabbits|Indian Vet. Med. J.17(3/4): 154-156|1993|
92611|T||Lindroth,R.L., and M.S. Bloomer|Biochemical Ecology of the Forest Tent Caterpillar:  Responses to Dietary Protein and Phenolic Glycosides|Oceanologia (Wroc.)86(3): 408-413|1991|
92612|T||Fabacher,D.L., A.P. Kulkarni, and E. Hodgson|Pesticides as Inducers of Hepatic Drug-Metabolizing Enzymes - I.  Mixed Function Oxidase Activity|Gen. Pharmacol.11(5): 429-435|1980|10.1016/0306-3623(80)90028-2
92613|T||Kulkarni,A.P., D.L. Fabacher, and E. Hodgson|Pesticides as Inducers of Hepatic Drug-Metabolizing Enzymes -- II.  Glutathione S-Transferases|Gen. Pharmacol.11(5): 437-441|1980|10.1016/0306-3623(80)90029-4
92614|T||Abou-Donia,M.B., D.G. Graham, P.R. Timmons, and B.L. Reichert|Delayed Neurotoxic and Late Acute Effects of S,S,S-Tributyl Phosphorotrithioate on the Hen:  Effect of Route of Administration|Neurotoxicology1(2): 425-447|1979|
92615|T||Kou,J., J.S. Gillette, and J.R. Bloomquist|Neurotoxicity in Murine Striatal Dopaminergic Pathways Following Co-Application of Permethrin, Chlorpyrifos, and MPTP|Pestic. Biochem. Physiol.85(2): 68-75|2006|10.1016/j.pestbp.2005.10.008
92616|A||Key,P.B., and M.H. Fulton|Correlation Between 96-h Mortality and 24-h Acetylcholinesterase Inhibition in Three Grass Shrimp Larval Life Stages|Ecotoxicol. Environ. Saf.63(3): 389-392|2006|10.1016/j.ecoenv.2005.10.015
92617|T||Kang,H.G., S.H. Jeong, J.H. Cho, D.G. Kim, J.M. Park, and M.H. Cho|Chlorpyrifos-Methyl Shows Anti-Androgenic Activity Without Estrogenic Activity in Rats|Toxicology199(2/3): 219-230|2004|10.1016/j.tox.2004.02.025
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92619|T||Goel,A., V. Dani, and D.K. Dhawan|Zinc Mediates Normalization of Hepatic Drug Metabolizing Enzymes in Chlorpyrifos-Induced Toxicity|Toxicol. Lett.169(1): 26-33|2007|10.1016/j.toxlet.2006.07.342
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92621|T||Buntin,G.D.|Cabbage Seedpod Weevil (Ceutorhynchus assimilis, Paykull) Management by Trap Cropping and Its Effect on Parasitism by Trichomalus perfectus (Walker) in Oilseed Rape|Crop Prot.17(4): 299-305|1998|10.1016/S0261-2194(98)00015-5
92622|T||Raines,K.W., F.J. Seidler, and T.A. Slotkin|Alterations in Serotonin Transporter Expression in Brain Regions of Rats Exposed Neonatally to Chlorpyrifos|Brain Res. Dev. Brain Res.130(1): 65-72|2001|10.1016/S0165-3806(01)00211-5
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92625|T||Slotkin,T.A., C.A. Tate, M.M. Cousins, and F.J. Seidler|Functional Alterations in CNS Catecholamine Systems in Adolescence and Adulthood After Neonatal Chlorpyrifos Exposure|Brain Res. Dev. Brain Res.133(2): 163-173|2002|10.1016/S0165-3806(02)00284-5
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92627|T||Qiao,D., F.J. Seidler, Y. Abreu-Villaca, C.A. Tate, M.M. Cousins, and T.A. Slotkin|Chlorpyrifos Exposure During Neurulation: Cholinergic Synaptic Dysfunction and Cellular Alterations in Brain Regions at Adolescence and Adulthood|Brain Res. Dev. Brain Res.148(1): 43-52|2004|10.1016/j.devbrainres.2003.10.004
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92630|T||Dhawan,A.K., K. Singh, R. Singh, and T. Kumar|Field Evaluation of Flubendiamide (NNI 0001 480 SC) Against Bollworms Complex on Upland Cotton|J. Cotton Res. Dev.20(2): 232-235|2006|
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92640|T||Abdo,K.M., P.R. Timmons, D.G. Graham, and M.B. Abou-Donia|Heinz Body Production and Hematological Changes in the Hen After Administration of a Single Oral Dose of n-Butyl Mercaptan and n-Butyl Disulfide|Fundam. Appl. Toxicol.3(2): 69-74|1983|10.1016/S0272-0590(83)80058-X
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92650|T||Chen,J.S., C.J. Lee, M.G. Yao, and C.N. Sun|Effect of Pyrethroids on Knockdown and Lack of Coordination Responses of Susceptible and Resistant Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.78(6): 1198-1202|1985|10.1093/jee/78.6.1198
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92665|T||Sziraki,I., P. Rauhala, and C.C. Chiueh|Novel Protective Effect of Manganese Against Ferrous Citrate-Induced Lipid Peroxidation and Nigrostriatal Neurodegeneration In Vivo|Brain Res.698(1-2): 285-287|1995|10.1016/0006-8993(95)01056-2
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92676|T||Dimitrova,B., M. Poyre, G. Guiso, A. Badiali, and S. Caccia|Isocratic Reversed-Phase Liquid Chromatography of All-Trans-Retinoic Acid and Its Major Metabolites in New Potential Supplementary Test Systems for Developmental Toxicology|J. Chromatogr.681(1): 153-160|1996|10.1016/0378-4347(95)00573-0
92677|T||Al-Jabr,A.M.|Integrated Pest Management of Tomato/Potato Psyllid, Paratrioza cockerelli (Sulc) (Homoptera: Psyllidae) with Emphasis on Its Importance in Greenhouse Grown Tomatoes|Ph.D.Thesis, Colorado State University, Fort Collins, CO:53 p.|1999|
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92744|T||Takada,H., T. Hirooka, T. Hatano, Y. Hamada, and M. Yamamoto|Inhibition of 7,12-Dimethylbenz[a]anthracene-Induced Lipid Peroxidation and Mammary Tumor Development in Rats by Vitamin E in Conjunction with Selenium|Nutr.Cancer17(2): 115-122|1992|10.1080/01635589209514179
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92761|T||Klein,M.|Susceptibility of Strain B6AF1/J Hybrid Infant Mice to Tumorigenesis with 1,2-Benzanthracene, Deoxycholic Acid, and 3-Methylcholanthrene|Cancer Res.23:1701-1707|1963|
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92781|T||Kovacs,K., and A. Somogyi|Suppression by Spironolactone of 7,12-Dimethylbenz(a)anthracene-Induced Mammary Tumors|Eur. J. Cancer6(3): 195-201|1970|10.1016/0014-2964(70)90022-8
92782|T||Thompson,S., and T.J. Slaga|The Effects of Dexamethasone on Mouse Skin Initiation and Aryl Hydrocarbon Hydroxylase|Eur. J. Cancer12(5): 363-370|1976|10.1016/0014-2964(76)90174-2
92783|T||Terenius,L.|Effect of Anti-oestrogens on Initiation of Mammary Cancer in the Female Rat|Eur. J. Cancer7(1): 65-70|1971|10.1016/0014-2964(71)90096-X
92784|T||Fiebig,H.H., G. Eisenbrand, W.J. Zeller, and T. Deutsch-Wenzel|Water Soluble Derivatives and Bifunctional Analogs of the Anticancer Agent 1,3-bis(2-Chloroethyl)-1-Nitrosourea (BCNU)|Eur. J. Cancer13(9): 937-945|1977|10.1016/0014-2964(77)90169-4
92785|T||Asselin,J., and F. Labrie|Effects of Estradiol and Prolactin on Steroid Receptor Levels in 7,12-Dimethylbenz(a)Anthracene-Induced Mammary Tumors and Uterus in the Rat|J. Steroid Biochem.9(11): 1079-1082|1978|10.1016/0022-4731(78)90035-3
92786|T||Minet-Quinard,R., C. Moinard, F. Villie, M.P. Vasson, and L. Cynober|Metabolic Pathways Implicated in the Kinetic Impairment of Muscle Glutamine Homeostasis in Adult and Old Glucocorticoid-Treated Rats|Am. J. Physiol. Endocrinol. Metab.287(4): E671 - E676|2004|10.1152/ajpendo.00185.2003
92787|T||Brissette,L., I. Young, S. Narindrasorasak, R. Kisilevsky, and R. Deeley|Differential Induction of the Serum Amyloid A Gene Family in Response to an Inflammatory Agent and to Amyloid-Enhancing Factor|J. Biol. Chem.264(32): 19327-19332|1989|10.1016/S0021-9258(19)47305-5
92788|T||Burns,R.J., and G.E. Connolly|Toxicity of Compound 1080 to Magpies and the Relationship of Dose Rates to Residues Recovered|In: J.E.Borrecco and R.E.Marsh, (Eds.), Proc. 15th Vertebrate Pest Conf., Mar. 3-5, 1992, Hyatt Newporter, Newport Beach, CA:403-408|1992|
92789|T||Peters,B.C., and C.J. Fitzgerald|Borate Protection of Softwood from Coptotermes acinaciformis (Isoptera:  Rhinotermitidae) Damage:  Variation in Protection Thresholds Explained|J. Econ. Entomol.99(5): 1749-1756|2006|10.1093/jee/99.5.1749
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92791|T||Chernozemski,I.N., and G.P. Warwick|Liver Morphology Following a Single Injection of Dimethylnitrosamine, 7,12-Dimethylbenz(a)anthracene, and Urethan to Adult and Suckling B6AF1 Mice|Chem.-Biol. Interact.2(1): 29-39|1970|10.1016/0009-2797(70)90035-9
92792|T||Evarts,R.P., C.A. Brown, and G.J. Atta|The Effect of Hydroxylamine on the Morphology of the Rat Mammary Gland and on the Induction of Mammary Tumors by 7,12-Dimethylbenz[a]anthracene|Exp. Mol. Pathol.30(3): 337-348|1979|10.1016/0014-4800(79)90088-1
92793|T||Stenback,F.|Ultraviolet Light Irradiation as Initiating Agent in Skin Tumor Formation by the Two-Stage Method|Eur. J. Cancer11(4): 241-246|1975|10.1016/0014-2964(75)90004-3
92794|T||Wigley,C.B., and A.W. Carbonell|The Target Cell in the Chemical Induction of Carcinomas in Mouse Submandibular Gland|Eur. J. Cancer12(9): 737-741|1976|10.1016/0014-2964(76)90024-4
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92796|A||Sanchez,W., O. Palluel, L. Lagadic, S. Ait-Aissa, and J.M. Porcher|Biochemical Effects of Nonylphenol Polyethoxylate Adjuvant, Diquat Herbicide and Their Mixture on the Three-Spined Stickleback (Gasterosteus aculeatus L.)|Mar. Environ. Res.62(Suppl. 1): S29 - S33|2006|
92797|A||Jung,J.H., W.J. Shim, R.F. Addison, J.M. Baek, and C.H. Han|Protein and Gene Expression of VTG in Response to 4-Nonylphenol in Rockfish (Sebastes schlegeli)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(2): 162-170|2006|10.1016/j.cbpc.2006.01.009
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92801|A||Keen,P.L., D.A. Higgs, K.J. Hall, and M. Ikonomou|Effects of Dietary Exposure of 4-Nonylphenol on Growth and Smoltification of Juvenile Coho Salmon (Oncorhynchus kisutch)|Sci. Total Environ.349(1-3): 81-94|2005|10.1016/j.scitotenv.2005.01.035
92802|A||Vetillard,A., and T. Bailhache|Effects of 4-n-Nonylphenol and Tamoxifen on Salmon Gonadotropin-Releasing Hormone, Estrogen Receptor, and Vitellogenin Gene Expression in Juvenile Rainbow Trout|Toxicol. Sci.92(2): 537-544|2006|10.1093/toxsci/kfl015
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92810|T||Wilson,V.S., C. Lambright, J. Ostby, and L.E.,Jr. Gray|In Vitro and In Vivo Effect of 17beta-Trenbolone:  A Feedlot Effuent Contaminant|Toxicol. Sci.70:202-211|2002|10.1093/toxsci/70.2.202
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92812|T||BASF Corp.|Initial Submission:  30-Day Subacute Oral Toxicity Study with Pluronic L-72 in Albino Rats with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003027:14 p.|1992|
92813|T||Narayana,S.L., and M. Rajasri|Flubendiamide 20 WDG (RIL-038) - a New Molecule for the Management of American Bollworm Helicoverpa armigera on Cotton|Pestology30(11): 16-18|2006|
92814|T||Union Carbide Corp.|Initial Submission: Assessment of Toxicity and Pulmonary Effects of Ucon Lubricant Samples in Rats Following Single Intravenous Injection with Cover Letter Dated 060492|EPA/OTS Doc.#88-920003581:31 p.|1992|
92816|T||Tomar,S.P.S., R.K. Choudhary, and V.K. Shrivastava|Evaluation of Bioefficacy of Flubendiamide 20 WDG (Ril 038) Against Bollworms on Cotton|J. Cotton Res. Dev.19(2): 231-233|2005|
92817|T||Estevez de Jensen,C., J.A. Percich, and P.H. Graham|Integrated Management Strategies of Bean Root Rot with Bacillus subtilis and Rhizobium in Minnesota|Field Crops Res.74(2/3): 107-115|2002|10.1016/S0378-4290(01)00200-3
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92821|T||Kishore,P.|Efficacy of Fenvalerate Dust and Its Comparison with Recommended Endosulfan Dust Against Stem Borer on Sorghum|Pesticides 22(4): 38-41|1988|
92822|T||Rieth,J.P., and M.D. Levin|Repellency of Two Phenylacetate-Ester Pyrethroids to the Honeybee|J. Apic. Res.28(3): 175-179|1989|10.1080/00218839.1989.11100841
92823|T||Singh,H., V.K. Kalra, and H.R. Rohilla|Studies on the Efficacy and Economics of Sprays of Synthetic Pyrethroids Against Mustard Aphid, Lipaphis erysimi (Kalt) on Rape Seed|Indian J. Plant Prot.14(1): 1-5|1986|
92824|T||Tos-Luty,S., A. Haratym-Maj, J. Latuszynska, D. Obuchowska-Przebirowska, and M. Tokarska-Rodak|Oral Toxicity of Deltamethrin and Fenvalerate in Swiss Mice|AAEM Ann. Agric. Environ. Med.8(2): 245-254|2001|
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92828|T||Mohamed,Z.A.|Changes in Rat Blood Profile and Blood Chemistry After Repeated Dermal Application of Fenvalerate and Decamethrin|Egypt. J. Food Sci.16(1-2): 79-86|1988|
92830|T||Saleh,M.A.A., Z.A. Mohamed, F.A. Ahmed, and S.A. Ismail|Comparative Toxicity of Flucythrinate and Fenvalerate to Albino Rats|Egypt. J. Food Sci.14(1): 31-37|1986|
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92832|T||Norment,B.R., and H.W. Chambers|Joint Actions in Organophosphorus Poisoning in Boll Weevils|J. Econ. Entomol.63(2): 499-502|1970|10.1093/jee/63.2.499
92833|T||Miyata,M., K. Motoki, E. Tamura, M. Furukawa, F.J. Gonzalez, and Y. Yamazoe|Relative Importance of Maternal and Embryonic Microsomal Epoxide Hydrolase in 7,12-Dimethylbenz(a)anthracene-Induced Developmental Toxicity|Biochem. Pharmacol.63(6): 1077-1084|2002|10.1016/S0006-2952(02)00847-X
92834|T||Manjanatha,M.G., S.D. Shelton, A. Aidoo, L.E. Lyn-Cook, and D.A. Casciano|Comparison of In Vivo Mutagenesis in the Endogenous Hprt Gene and the lacI Transgene of Big Blue Rats Treated with 7,12-Dimethylbenz(a)anthracene|Mutat. Res.401(1-2): 165-178|1998|10.1016/S0027-5107(98)00006-2
92835|T||Malejka-Giganti,D., G.A. Niehans, M.A. Reichert, and R.L. Bliss|Post-Initiation Treatment of Rats with Indole-3-Carbinol or (beta)-Naphthoflavone does not Suppress 7,12-Dimethylbenz(a)anthracene-Induced Mammary Gland Carcinogenesis|Cancer Lett.160(2): 209-218|2000|10.1016/S0304-3835(00)00594-2
92836|T||Lin,C.C., Y.P. Lu, Y.R. Lou, C.T. Ho, H.H. Newmark, C. MacDonald, K.W. Singletary, and M.T. Huang|Inhibition by Dietary Dibenzoylmethane of Mammary Gland Proliferation, Formation of DMBA-DNA Adducts in Mammary Glands, and Mammary Tumorigenesis in Sencar Mice|Cancer Lett.168(2): 125-132|2001|10.1016/S0304-3835(01)00506-7
92837|T||Jang,T.J., J.H. Park, M.Y. Cho, and J.R. Kim|Chemically Induced Rat Mammary Tumor Treated with Tamoxifen Showed Decreased Expression of Cyclin D1, Cyclin E, and p21Cip1|Cancer Lett.170(2): 109-116|2001|10.1016/S0304-3835(01)00593-6
92838|T||Ito,H., M. Miyake, E. Nishitani, K. Mori, T. Hatano, T. Okuda, T. Konoshima, M. Takasaki, M. Kozuka, T. Mukainaka, H. T|Anti-Tumor Promoting Activity of Polyphenols from Cowania mexicana and Coleogyne ramosissima|Cancer Lett.143(1): 5-13|1999|10.1016/S0304-3835(99)00160-3
92839|T||Imaida,K., K. Ogawa, S. Takahashi, T. Ito, T. Yamaguchi, Y. Totsuka, K. Wakabayashi, K. Tanaka, N. Ito, and T. Shirai|Delay of DNA-Adduct Repair and Severe Toxicity in Xeroderma Pigmentosum Group A Gene (XPA) Deficient Mice Treated with 2-Amino-1-Methyl-6-Phenyl-Imidazo [4,5-b] pyridine (PhIP)|Cancer Lett.150(1): 63-69|2000|10.1016/S0304-3835(99)00377-8
92840|T||Ibanez,O.M., D. Mouton, O.G. Ribeiro, Y. Bouthillier, M. De Franco, W.H.K. Cabrera, M. Siqueira, and G. Biozzi|Low Antibody Responsiveness is Found to be Associated with Resistance to Chemical Skin Tumorigenesis in Several Lines of Biozzi Mice|Cancer Lett.136(2): 153-158|1999|10.1016/S0304-3835(98)00317-6
92841|T||Hirosawa,N., Y. Sakamoto, H. Katayama, S. Tonooka, and K. Yano|In Vivo Investigation of Progressive Alterations in Rat Mammary Gland Tumors by Near-Infrared Spectroscopy|Anal. Biochem.305(2): 156-165|2002|10.1006/abio.2002.5649
92842|T||Hashim,S., S. Banerjee, R. Madhubala, and A.R. Rao|Chemoprevention of DMBA-Induced Transplacental and Translactational Carcinogenesis in Mice by Oil from Mustard Seeds (Brassica spp.)|Cancer Lett.134(2): 217-226|1998|10.1016/S0304-3835(98)00263-8
92843|T||Gupta,S., T. Chaudhuri, D.K. Ganguly, and A.K. Giri|Anticlastogenic Effects of Black Tea (World Blend) and Its two Active Polyphenols Theaflavins and Thearubigins In Vivo in Swiss Albino Mice|Life Sci.69(23): 2735-2744|2001|10.1016/S0024-3205(01)01348-0
92844|T||Guevara,A.P., C. Vargas, H. Sakurai, Y. Fujiwara, K. Hashimoto, T. Maoka, M. Kozuka, Y. Ito, H. Tokuda, and H. Nishino|An Antitumor Promoter from Moringa oleifera Lam.|Mutat. Res., Genet. Toxicol. Environ. Mutagen.440(2): 181-188|1999|10.1016/S1383-5718(99)00025-X
92845|T||Giri,U., M. Iqbal, M.K. Agarwal, S. Khan, and M. Athar|Augmentation of 12-O-Tetradecanoyl 13-Phorbol Acetate-Mediated Tumor Promoting Response by the Porphyrin Photosensitization of 7,12-Dimethyl Benz[a]anthracene-Initiated Murine Skin:  Role of in Situ Generated Reactive O|Cancer Lett.135(1): 53-60|1998|10.1016/S0304-3835(98)00267-5
92846|T||Tanaka,R., H. Ohtsu, M. Iwamoto, T. Minami, H. Tokuda, H. Nishino, S. Matsunaga, and A. Yoshitake|Cancer Chemopreventive Agents, Labdane Diterpenoids from the Stem Bark of Thuja standishii (Gord.) Carr|Cancer Lett.161(2): 165-170|2000|10.1016/S0304-3835(00)00584-X
92847|T||Tanaka,R., T. Minami, K. Tsujimoto, S. Matsunaga, H. Tokuda, H. Nishino, Y. Terada, and A. Yoshitake|Cancer Chemopreventive Agents, Serratane-Type Triterpenoids from Picea jezoensis|Cancer Lett.172(2): 119-126|2001|10.1016/S0304-3835(01)00650-4
92848|T||Bomser,J., K. Singletary, and B. Meline|Inhibition of 12-O-Tetradecanoylphorbol-13-Acetate (TPA)-Induced Mouse Skin Ornithine Decarboxylase and Protein Kinase C by Polyphenolics from Grapes|Chem.-Biol. Interact.127(1): 45-59|2000|10.1016/S0009-2797(00)00170-8
92849|T||Bomser,J.A., K.W. Singletary, M.A. Wallig, and M.A.L. Smith|Inhibition of TPA-Induced Tumor Promotion in CD-1 Mouse Epidermis by a Polyphenolic Fraction from Grape Seeds|Cancer Lett.135(2): 151-157|1999|10.1016/S0304-3835(98)00289-4
92850|T||Besedovsky,H.O., S. Normann, M. Schardt, and A. del Rey|A Reduction in Blood Insulin Levels as a Host Endocrine Response During Tumor Development|Int. J. Immunopharmacol.22(12): 1113-1119|2000|10.1016/S0192-0561(00)00067-9
92851|T||Deshpande,S.S., A.D. Ingle, and G.B. Maru|Chemopreventive Efficacy of Curcumin-Free Aqueous Turmeric Extract in 7,12-Dimethylbenz(a)anthracene-Induced Rat Mammary Tumorigenesis|Cancer Lett.123(1): 35-40|1998|10.1016/S0304-3835(97)00400-X
92852|T||Rezazadeh,H., and M. Athar|Effect of Iron Overload on the Benzoyl Peroxide-Mediated Tumor Promotion in Mouse Skin|Cancer Lett.126(2): 135-142|1998|10.1016/S0304-3835(97)00512-0
92853|T||Randerath,E., H.P. Agrawal, J.A. Weaver, C.B. Bordelon, and K. Randerath|32P-Postlabeling Analysis of DNA Adducts Persisting for up to 42 Weeks in the Skin, Epidermis and  Dermis of Mice Treated Topically with 7,12-Dimethylbenz(a)anthracene|Carcinogenesis6(8): 1117-1126|1985|10.1093/carcin/6.8.1117
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92855|T||Ip,C., and F.B. Daniel|Effects of Selenium on 7,12-Dimethylbenz(a)Anthracene-Induced Mammary Carcinogenesis and DNA Adduct Formation|Cancer Res.45(1): 61-65|1985|
92856|T||Khaidakov,M., M.E. Bishop, M.G. Manjanatha, L.E. Lyn-Cook, V.G. Desai, J.J. Chen, and A. Aidoo|Influence of Dietary Antioxidants on the Mutagenicity of 7,12-Dimethylbenz[a]anthracene and Bleomycin in Female Rats|Mutat. Res.480/481:163-170|2001|10.1016/S0027-5107(01)00180-4
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92860|T||Peachey,J.E., and R.D. Winslow|Effects of Soil Treatments on Populations of Soil Nematodes and on Carrot Crops Grown for Two Years After Treatment|Nematologica8(1): 75-79|1962|10.1163/187529262X01052
92863|T||Jacks,H.|Soil Disinfection.  XIV.  Effect of Chemical Soil Disinfectants on Control of Weeds|N. Z. J. Sci. Technol. Sect. A34:487-491|1953|
92864|T||Jacks,H.|Soil Disinfection.  X.  Preliminary Report on Control of Head Smut (Sorosporium reilianumk (Kuhn) McAlpine) of Maize (Zea mays L.)|N. Z. J. Sci. Technol. Sect. A33(2): 37-44|1951|
92865|T||Jacks,H.|Soil Disinfection. V. Comparative Efficacy of Soil Fumigants for Control of Grass-Grub (Odontria zealandica White)|N. Z. J. Sci. Technol. Sect. A28:166-170|1946|
92866|T||Thomson,R.|Control of Weeds in Tobacco Seedling Beds|N. Z. J. Sci. Technol. Sect. A33(6): 74-77|1952|
92867|T||Kidson,E.B., and D.J. Stanton|The Ammonia and Nitrate Content of Glasshouse Tomato Soil Under Different Treatments|N. Z. J. Sci. Technol. Sect. A30:187-192|1948|
92868|T||Jacks,H.|Soil Disinfection. VIII. Chemical Control of Verticillium-Wilt of Tomatoes|N. Z. J. Sci. Technol. Sect. A30:118-123|1949|
92869|A||Ward,A.J.W., A.J. Duff, and S. Currie|The Effects of the Endocrine Disrupter 4-Nonylphenol on the Behaviour of Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.63(2): 377-382|2006|10.1139/f05-223
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92874|T||Haas,H.V., and L. Klein|Influence of Methyl Bromide Soil Fumigation Method on Fungicidal Efficacy and Bromide Residues|Phytoparasitica4(2): 123-129|1976|10.1007/BF02980342
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92877|T||Bulinski,J., J.N. Matthiessen, and R. Alexander|Development of a Cost-Effective, Pesticide-Free Approach to Managing African Black Beetle (Heteronychus arator) in Australian Eucalyptus Plantations|Crop Prot.25(11): 1161-1166|2006|10.1016/j.cropro.2005.12.006
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92883|T||Krishnaiah,N.V., M. Sain, and I.C. Pasalu|Efficacy of Synthetic Pyrethroids Against Rice Hispa (Dicladispa armigera) in Field|Indian J. Agric. Sci.58(10): 781-783|1988|
92884|T||Ramaprasad,G., B.G. Joshi, S. Sitaramaiah, and M.S. Chari|Efficacy of Insecticides in Bait Formulations for Control of Fourth Instar Larvae of Spodoptera litura Fabricius in Tobacco Nurseries|Indian J. Plant Prot.17(1): 53-57|1989|
92885|T||Masoodi, M. Amin, V.K. Koul, K.C. Bhagat, and T. Singh|Control of Lymantria obfuscata Walker on Walnut in Kashmir|Indian J. Plant Prot.15(1): 15-17|1987|
92886|T||Prasad,G.R., B.G. Joshi, and S.N. Rao|Relative Efficacy of Some Insecticides and Neem Seed Kernel Suspension Against Tobacco Caterpillar, Spodoptera litura Fabricius on Tobacco|Indian J. Plant Prot.14(2): 69-74|1986|
92887|T||Bostanian,N.J., and A. Belanger|The Toxicity of Three Pyrethroids to Amblyseius fallacis (Garman) Acari. Phytoseiidae and Their Residues on Apple Foliage|Agric. Ecosyst. Environ.14(3/4): 243-250|1985|10.1016/0167-8809(85)90039-8
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92890|T||Christie,P.T., and D.J. Wright|Activity of Abamectin Against Larval Stages of Spodoptera littoralis Boisduval and Heliothis armigera Hubner (Lepidoptera:  Noctuidae) and Possible Mechanisms Determining Differential Toxicity|Pestic. Sci.29(1): 29-38|1990|10.1002/ps.2780290105
92891|T||Espinosa,P.J., J. Contreras, V. Quinto, C. Gravalos, E. Fernandez, and P. Bielza|Metabolic Mechanisms of Insecticide Resistance in the Western Flower Thrips, Frankliniella occidentalis (Pergande)|Pest Manag. Sci.61(10): 1009-1015|2005|10.1002/ps.1069
92892|T||Furlong,M.J., and D.J. Wright|Examination of Stability of Resistance and Cross-Resistance Patterns to Acylurea Insect Growth Regulators in Field Populations of the Diamondback Moth, Plutella xylostella, from Malaysia|Pestic. Sci.42(4): 315-326|1994|10.1002/ps.2780420409
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92894|T||Rupes,V., and J. Pitnerova|Genetic Analysis of Resistance Factors in a Wild Strain of the House Fly (Musca domestica) Resistant to DDT and Some Organophosphorous Insecticides|Vestn. Cesk. Spol. Zool.40(2): 128-137|1976|
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92897|T||Jones,J.P., A.J. Overman, and C.M. Geraldson|Effect of Fumigants and Plastic Film on the Control of Several Soil-Borne Pathogens of Tomato|Phytopathology56(8): 929-932|1966|
92898|T||Hendrix,F.F.,Jr., and W.M. Powell|Control of Root Pathogens in Peach Decline Sites|Phytopathology60(1): 16-19|1970|10.1094/Phyto-60-16
92899|T||Altson,R.A.|Pathological Division Report for the Year 1946|In: Report for the Period January 1946 to December 1948, Rep.of the Rubber Res.Inst.of Malaysia:96-190|1948|
92900|T||Pree,D.J., D.E. Archibald, K.W. Ker, and K.J. Cole|Occurrence of Pyrethroid Resistance in Pear Psylla (Homoptera:  Psyllidae) Populations from Southern Ontario|J. Econ. Entomol.83(6): 2159-2163|1990|10.1093/jee/83.6.2159
92901|T||Vines,R.C., T.E. Reagan, T.C. Sparks, and D.K. Pollet|Laboratory Selection of Diatraea saccharalis (F.) (Lepidoptera: Pyralidae) for Resistance to Fenvalerate and Monocrotophos|J. Econ. Entomol.77(4): 857-863|1984|10.1093/jee/77.4.857
92902|T||Chung,T.C., and C.N. Sun|Malathion and MIPC Resistance in Nilaparvata lugens (Homoptera:  Delphacidae)|J. Econ. Entomol.76(1): 1-5|1983|10.1093/jee/76.1.1
92903|T||Loveys,B.R.|Abscisic Acid Transport and Metabolism in Grapevine (Vitis vinifera L.)|New Phytol.98(4): 575-582|1984|10.1111/j.1469-8137.1984.tb04150.x
92904|T||Quistad,G.B., C. Barlow, C.J. Winrow, S.E. Sparks, and J.E. Casida|Evidence that Mouse Brain Neuropathy Target Esterase is a Lysophospholipase|Proc. Natl. Acad. Sci. U.S.A.100(13): 7983-7987|2003|10.1073/pnas.1232473100
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92906|T||Marcacci,S., M. Raveton, P. Ravanel, and J.P. Schwitzguebel|Conjugation of Atrazine in Vetiver (Chrysopogon zizanioides Nash) Grown in Hydroponics|Environ. Exp. Bot.56(2): 205-215|2006|10.1016/j.envexpbot.2005.02.004
92907|T||Bostanian,N.J., A. Belanger, and I. Rivard|Residues of Four Synthetic Pyrethroids and Azinphos-Methyl on Apple Foliage and Their Toxicity to Amblyseius fallacis (Acari:  Phytoseiidae)|Can. Entomol.117(2): 143-152|1985|10.4039/Ent117143-2
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92909|T||Estesen,B.J., and N.A. Buck|Comparison of Dislodgable and Total Residues of Three Pyrethroids Applied to Cotton in Arizona|Bull. Environ. Contam. Toxicol.44(2): 240-245|1990|10.1007/BF01700142
92910|T||Root,R.B.|Herbivore Pressure on Goldenrods (Solidago Altissima): Its Variation and Cumulative Effects|Ecology77(4): 1074-1087|1996|10.2307/2265577
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92914|T||Riedl,H., R.W. Weires, A. Seaman, and S.A. Hoying|Seasonal Biology and Control of the Dogwood Borer, Synanthedon scitula (Lepidoptera:  Sesiidae) on Clonal Apple Rootstocks in New York|Can. Entomol.117(11): 1367-1377|1985|10.4039/Ent1171367-11
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92921|T||Reiners,J.J.,Jr., A.R. Cantu, G. Thai, and A. Scholler|Differential Expression of Basal and Hydrocarbon-Induced Cytochrome p-450 Monooxygenase and Quinone Reductase Activities in Subpopulations of Murine Epidermal Cells Differing in Their Stages of Differentiation|Drug Metab. Dispos.20(3): 360-366|1992|
92922|A||Canesi,L., C. Ciacci, L.C. Lorusso, M. Betti, G. Gallo, G. Pojana, and A. Marcomini|Effects of Triclosan on Mytilus galloprovincialis Hemocyte Function and Digestive Gland Enzyme Activities:  Possible Modes of Action on Non Target Organisms|Comp. Biochem. Physiol. C Toxicol. Pharmacol.145:464-472|2007|10.1016/j.cbpc.2007.02.002
92923|T||Takasaki,M., T. Konoshima, H. Etoh, I. Pal Singh, H. Tokuda, and H. Nishino|Cancer Chemopreventive Activity of Euglobal-G1 from Leaves of Eucalyptus grandis|Cancer Lett.155(1): 61-65|2000|10.1016/S0304-3835(00)00406-7
92924|T||Takasaki,M., T. Konoshima, K. Komatsu, H. Tokuda, and H. Nishino|Anti-Tumor-Promoting Activity of Lignans from the Aerial Part of Saussurea medusa|Cancer Lett.158(1): 53-59|2000|10.1016/S0304-3835(00)00499-7
92925|T||Suzuki,T., S. Itoh, M. Nakajima, N. Hachiya, and T. Hara|Target Organ and Time-Course in the Mutagenicity of Five Carcinogens in Muta Mouse:  A Summary Report of the Second Collaborative Study of the Transgenic Mouse Mutation Assay by JEMS/MMS|Mutat. Res., Genet. Toxicol. Environ. Mutagen.444(2): 259-268|1999|10.1016/S1383-5718(99)00104-7
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92927|T||Shirai,K., Y. Uemura, M. Fukumoto, T. Tsukamoto, R. Pascual, S. Nandi, and A. Tsubura|Synergistic Effect of MNU and DMBA in Mammary Carcinogenesis and H-ras Activation in Female Sprague-Dawley Rats|Cancer Lett.120(1): 87-93|1997|10.1016/S0304-3835(97)00293-0
92928|T||Robertson,F.M., M.L. Parrett, F.S. Joarder, M. Ross, H.M. Abou-Issa, G. Alshafie, and R.E. Harris|Ibuprofen-Induced Inhibition of Cyclooxygenase Isoform Gene Expression and Regression of Rat Mammary Carcinomas|Cancer Lett.122(1-2): 165-175|1998|10.1016/S0304-3835(97)00387-X
92929|T||Przygoda,R.T., R.H. Mckee, M.A. Amoruso, and J.J. Freeman|Assessment of the Utility of the Micronucleus Test for Petroleum-Derived Materials|Mutat. Res., Genet. Toxicol. Environ. Mutagen.438(2): 145-153|1999|10.1016/S1383-5718(98)00166-1
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92931|T||Negoro,T., F. Iinuma, T. Tobe, and M. Watanabe|Induction of CD4+ Regulatory T Cells by 12-O-Tetradecanoylphorbol 13-Acetate in Mice Part 1:  The Strain Difference in This Induction|Int. Immunopharmacol.1(6): 1153-1163|2001|10.1016/S1567-5769(01)00049-2
92932|T||Richards,A.H., and R. Hilf|Glucose-6-Phosphate Dehydrogenase and Lactate Dehydrogenase Isoenzymes in Rodent Mammary Carcinomas and the Effect of Oophorectomy|Biochim. Biophys. Acta232(4): 753-756|1971|10.1016/0005-2787(71)90771-4
92933|T||Jelinska,M., A. Tokarz, R. Oledzka, and A. Czorniuk-Sliwa|Effects of Dietary Linseed, Evening Primrose or Fish Oils on Fatty Acid and Prostaglandin E2 Contents in the Rat Livers and 7,12-Dimethylbenz[a]anthracene-Induced Tumours|Biochim. Biophys. Acta1637(3): 193-199|2003|10.1016/S0925-4439(03)00020-6
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92936|T||Asjes,C.J.|Control of Field Spread of Non-Persistent Viruses in Flower-Bulb Crops by Synthetic Pyrethroid and Pirimicarb Insecticides, and Mineral Oils|Crop Prot.4(4): 485-493|1985|10.1016/0261-2194(85)90054-7
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92938|T||Abdo,K.M., P.R. Timmons, and M.B. Abou-Donia|Effects of a Dermal Dose of S,S,S,-Tri-n-Butyl Phosphorotrithioate on Brain Acetylcholinesterase, Acid Phosphatase, and 2',3'-Cyclic Nucleotide-3' Phosphohydrolase and Plasma Butyrylcholinesterase in Hens|Dev. Toxicol. Environ. Sci.11:499-502|1983|
92939|T||Stoner,A., W.T. Wilson, and J. Harvey|Honey Bee Exposure to Beeswax Foundation Impregnated with Fenvalerate or Carbaryl|Am. Bee J.125(7): 513-516|1985|
92940|T||Sehgal,V.K., and R. Ujagir|Effect of Synthetic Pyrethroids, Neem Extracts and Other Insecticides for the Control of Pod Damage by Helicoverpa armigera (Hubner) on Chickpea and Pod Damage-Yield Relationship at Pantnagar in Northern India|Crop Prot.9(1): 29-32|1990|10.1016/0261-2194(90)90042-6
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92950|T||Husain,R., M. Malaviya, and P.K. Seth|Differential Responses of Regional Brain Polyamines Following In Utero Exposure to Synthetic Pyrethroid Insecticides:  A Preliminary Report|Bull. Environ. Contam. Toxicol.49(3): 402-409|1992|10.1007/BF01239644
92951|T||Sharma,D., V.P. Gargav, and U. Sharma|Effect of Insecticides on the Incidence of Soybean Stemfly (Ophiomyia phaseoli Tryon)|Crop Res. (Hisar)13(2): 437-443|1997|
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92953|T||Jangra,S.S., and R.S. Jaglan|Efficacy of Synthetic Pyrethroids Alone and in Combination with Copperoxychloride for the Control of Bollworm Pests of Cotton|Ann. Biol.11(2): 232-235|1995|
92954|A||Ghosh,T.K.|Synthetic Pyrethroid Intoxication on Tissue Acetylcholine and Acetylcholinesterase in the Fish Tilapia mossambica|Environ. Ecol.8(3): 950-954|1990|
92955|A||Paeporn,P., N. Komalamisra, V. Deesin, Y. Rongsriyam, Y. Eshita, and S. Thongrungkiat|Temephos Resistance in Two Forms of Aedes aegypti and Its Significance for the Resistance Mechanism|Southeast Asian J. Trop. Med. Public Health34(4): 786-792|2003|
92956|T||Reuveny,H., and E. Cohen|Evaluation of Mechanisms of Azinphos-Methyl Resistance in the Codling Moth Cydia pomonella (L.)|Arch. Insect Biochem. Physiol.57(2): 92-100|2004|10.1002/arch.20016
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92959|T||Bhasin,G., H. Kauser, and M. Athar|Low Iron State is Associated with Reduced Tumor Promotion in a Two-Stage Mouse Skin Carcinogenesis Model|Food Chem. Toxicol.40(8): 1105-1111|2002|10.1016/S0278-6915(02)00056-X
92960|T||Bhasin,G., H. Kauser, and M. Athar|Iron Augments Stage-I and Stage-II Tumor Promotion in Murine Skin|Cancer Lett.183(2): 113-122|2002|10.1016/S0304-3835(02)00116-7
92961|T||Bhasin,G., H. Kausar, M.S. Alam, and M. Athar|Progressive Iron Overload Enhances Chemically Mediated Tumor Promotion in Murine Skin|Arch. Biochem. Biophys.409(2): 262-273|2003|10.1016/S0003-9861(02)00616-1
92962|T||Christian,A.T., E.G. Snyderwine, and J.D. Tucker|Comparative Genomic Hybridization Analysis of PhIP-Induced Mammary Carcinomas in Rats Reveals a Cytogenetic Signature|Mutat. Res.506-507:113-119|2002|10.1016/S0027-5107(02)00157-4
92963|T||Krishnaiah,N.V., and M.B. Kalode|Comparative Toxicity of Synthetic Pyrethroid, Organophosphate and Carbamate Insecticides Against Nephotettix virescens (Distant) and Nilaparvata lugens (Stal) in Rice|Crop Prot.7(1): 66-71|1988|10.1016/0261-2194(88)90041-5
92964|T||Gallo,D., G. Ferrandina, S. Giacomelli, E. Fruscella, G. Zannoni, P. Morazzoni, A. Riva, E. Bombardelli, S. Mancuso, an|Dietary Soy Modulation of Biochemical Parameters in DMBA-Induced Mammary Tumors|Cancer Lett.186(1): 43-48|2002|10.1016/S0304-3835(02)00326-9
92965|T||Kausar,H., G. Bhasin, M.A. Zargar, and M. Athar|Palm Oil Alleviates 12-O-Tetradecanoyl-phorbol-13-Acetate-Induced Tumor Promotion Response in Murine Skin|Cancer Lett.192(2): 151-160|2003|10.1016/S0304-3835(02)00711-5
92966|T||Page,T.J., P.S. MacWilliams, M. Suresh, C.R. Jefcoate, and C.J. Czuprynski|7-12 Dimethylbenz(a)anthracene-Induced Bone Marrow Hypocellularity is Dependent on Signaling Through both the TNFR and PKR|Toxicol. Appl. Pharmacol.198(1): 21-28|2004|10.1016/j.taap.2004.02.014
92967|T||Satomi,Y., P. Bu, M. Okuda, H. Tokuda, and H. Nishino|H-Ras Mutations at Codon 61 or 13 in Tumors Initiated with a NO Donor in Mouse Skin|Cancer Lett.196(1): 17-22|2003|10.1016/S0304-3835(03)00188-5
92969|T||Thapliyal,R., K.N. Naresh, K.V.K. Rao, and G.B. Maru|Inhibition of Nitrosodiethylamine-Induced Hepatocarcinogenesis by Dietary Turmeric in Rats|Toxicol. Lett.139(1): 45-54|2003|10.1016/S0378-4274(02)00440-X
92970|T||Vigny,P., M. Duquesne, H. Coulomb, B. Tierney, P.L. Grover, and P. Sims|Fluorescence Spectral Studies on the Metabolic Activation of 3-Methylcholanthrene and 7,12-Dimethylbenz(a)anthracene in Mouse Skin|FEBS Lett.82(2): 278-282|1977|10.1016/0014-5793(77)80602-9
92971|T||Sun,C.N., T.C. Chung, and S.M. Dai|Insecticide Resistance in the Brown Planthopper Nilaparvata lugens Stal (Homoptera: Delphacidae)|Prot. Ecol.7(2/3): 167-181|1984|
92972|T||Wille,J.J.,Jr.|Circadian Rhythm of Tumor Promotion in the Two-Stage Model of Mouse Tumorigenesis|Cancer Lett.190(2): 143-149|2003|10.1016/S0304-3835(02)00594-3
92973|T||Kemper,G.B., and R.L. Ruben|Effect of 7,12-Dimethylbenz(a)anthracene on the Integument of the Hibernating and Nonhibernating 13-Lined Ground Squirrel|Comp. Biochem. Physiol. C Comp. Pharmacol.73(2): 445-450|1982|10.1016/0306-4492(82)90151-4
92974|T||Sparks,T.C., and B.D. Hammock|Comparative Inhibition of the Juvenile Hormone Esterases from Trichoplusia ni, Tenebrio molitor, and Musca domestica|Pestic. Biochem. Physiol.14(3): 290-302|1980|10.1016/0048-3575(80)90037-1
92975|T||Dargent,M., J.J. Bourgoin, P. Noel, and R. Weissbrod|The Influence of Azathioprine on Tumorogenesis by 7-12 Dimethylbenz(a)anthracene in Rats|Eur. J. Cancer8(6): 605-609|1972|10.1016/0014-2964(72)90140-5
92976|T||Maa,W.C.J., and S.C. Liao|Culture-Dependent Variation in Esterase Isozymes and Malathion Susceptibility of Diamondback Moth, Plutella xylostella L|Zool. Stud.39(4): 375-386|2000|
92977|T||Sinha,D., and T.L. Dao|Hyperplastic Alveolar Nodules of the Rat Mammary Gland: Tumor-Producing Capability In Vivo and In Vitro|Cancer Lett.2(3): 153-160|1977|10.1016/S0304-3835(77)80005-0
92978|T||Sehgal,C.B., and J.J. Hutton|Homogenates of Pregnant Rat and Fetal Tissues Metabolize Carcinogens to Mutagens Detected by Salmonella typhimurium TA98 and TA100|Mutat. Res.46(5): 325-344|1977|10.1016/0165-1161(77)90010-3
92979|T||Dowd,P.F., C.C. Gagne, and T.C. Sparks|Enhanced Pyrethroid Hydrolysis in Pyrethroid-Resistant Larvae of the Tobacco Budworm, Heliothis virescens (F.)|Pestic. Biochem. Physiol.28(1): 9-16|1987|10.1016/0048-3575(87)90108-8
92980|T||Riskallah,M.R.|Esterases and Resistance to Synthetic Pyrethroids in the Egyptian Cotton Leafworm|Pestic. Biochem. Physiol.19(2): 184-189|1983|10.1016/0048-3575(83)90138-4
92981|T||Delorme,R., D. Fournier, J. Chaufaux, A. Cuany, J.M. Bride, D. Auge, and J.B. Berge|Esterase Metabolism and Reduced Penetration are Causes of Resistance to Deltamethrin in Spodoptera exigua HUB (Noctuidea; Lepidoptera)|Pestic. Biochem. Physiol.32(3): 240-246|1988|10.1016/0048-3575(88)90107-1
92982|T||Moorthy,B., P. Sriram, and K. Randerath|Chemical Structure- and Time-Dependent Effects of Polycyclic Aromatic Hydrocarbon-Type Inducers on Rat Liver Cytochrome P450, DNA Adducts, and I-Compounds|Fundam. Appl. Toxicol.22(4): 549-560|1994|10.1006/faat.1994.1062
92983|A||Roy,S., J. Pellinen, C.K. Sen, and O. Hanninen|Benzo(a)anthracene and Benzo(a)pyrene Exposure in the Aquatic Plant Fontinalis antipyretica:  Uptake, Elimination and the Responses of Biotransformation and Antioxidant Enzymes|Chemosphere29(6): 1301-1311|1994|10.1016/0045-6535(94)90260-7
92984|A||Ranasinghe,L.E., and G.P. Georghiou|Comparative Modification of Insecticide-Resistance Spectrum of Culex pipiens fatigans Wied. by Selection with Temephos and Temephos/Synergist Combinations|Pestic. Sci.10(6): 502-508|1979|10.1002/ps.2780100610
92985|T||Jellinck,P.H., and G. Smith|N-Ethylmaleimide Adduct of 7,12-Dimethylbenz-Anthracene : Properties and Metabolism by Rat Liver Microsomes|Biochem. Pharmacol.21(11): 1603-1608|1972|10.1016/0006-2952(72)90310-3
92986|A||Priester,T.M., and G.P. Georghiou|Cross-Resistance Spectrum in Pyrethroid-Resistant Culex quinquefasciatus|Pestic. Sci.11(6): 617-624|1980|10.1002/ps.2780110609
92988|T||Gazit,Y., I. Ishaaya, and A.S. Perry|Detoxification and Synergism of Diflubenzuron and Chlorfluazuron in the Red Flour Beetle Tribolium castaneum|Pestic. Biochem. Physiol.34(2): 103-110|1989|10.1016/0048-3575(89)90147-8
92989|T||Slaga,T.J., L. Jecker, W.M. Bracken, and C.E. Weeks|The Effects of Weak or Non-Carcinogenic Polycyclic Hydrocarbons on 7, 12-Dimethylbenz[a]anthracene and Benzo[a]pyrene Skin Tumor-Initiation|Cancer Lett.7(1): 51-59|1979|10.1016/S0304-3835(79)80076-2
92990|T||Bigley,W.S., and S.B. Vinson|Effects of Piperonyl Butoxide and DEF on the Metabolism of Methoprene by the Imported Fire Ant, Solenopsis invicta Buren|Pestic. Biochem. Physiol.10(1): 14-22|1979|10.1016/0048-3575(79)90003-8
92991|T||Pataki,J., and C.B. Huggins|Adrenal Destruction and Cancer Induced by Hydroxyalkyl Derivatives of 7, 12-Dimethylbenz(a)Anthracene|Biochem. Pharmacol.16(4): 607-612|1967|10.1016/0006-2952(67)90070-6
92992|T||Brune,K., H. Kalin, R. Schmidt, and E. Hecker|Inflammatory, Tumor Initiating and Promoting Activities of Polycyclic Aromatic Hydrocarbons and Diterpene Esters in Mouse Skin as Compared with their Prostaglandin Releasing Potency In Vitro|Cancer Lett.4:333-342|1978|10.1016/S0304-3835(78)95612-4
92993|T||DeVries,D.H., and G.P. Georghiou|Absence of Enhanced Detoxication of Permethrin in Pyrethroid-Resistant House Flies|Pestic. Biochem. Physiol.15(3): 242-252|1981|10.1016/0048-3575(81)90006-7
92994|T||Cutler,M.G., and R. Schneider|Sensitivity of Feeding Tests in Detecting Carcinogenic Properties in Chemicals: Examination of 7,12-Dimethylbenz[a]anthracene and Oxidized Linoleate|Food Cosmet. Toxicol.11(3): 443-457|1973|10.1016/0015-6264(73)90009-6
92995|T||Stenback,F.G., J.C. Rowland, and L.A. Russell|Non-Carcinogenicity of Hair Dyes:  Lifetime Percutaneous Applications in Mice and Rabbits|Food Cosmet. Toxicol.15(6): 601-606|1977|10.1016/0015-6264(77)90076-1
92997|T||Dutta,P.K., and D. Sharma|Effect of Bacillus thuringiensis Berliner in Combination with Chemical Insecticides Against Spodoptera litura Fabricius on Cabbage|Crop Res. (Hisar)14(3): 481-486|1997|
92998|T||Shukla,A., S.C. Pathak, and R.K. Agrawal|Efficacy and Economics of Some Insecticides and Plant Products Against the Infestation of Okra Shoot and Fruit Borer, Earias vittella Fab.|Crop Res. (Hisar)12(3): 367-373|1996|
93000|T||Hastings,F.L., F.P. Hain, A. Mangini, and W.T. Huxster|Control of the Balsam Woolly Adelgid (Homoptera:  Adelgidae) in Fraser Fir Christmas Tree Plantations|J. Econ. Entomol.79(6): 1676-1680|1986|10.1093/jee/79.6.1676
93001|T||Clarke,S.R., G.L. DeBarr, and C.W. Berisford|Differential Susceptibility of Toumeyella pini (King) (Homoptera:  Coccidae) to Pyrethroid and Organophosphate Insecticides:  A Factor in Outbreaks in Southern Pine Seed Orchards|J. Econ. Entomol.81(5): 1443-1445|1988|10.1093/jee/81.5.1443
93002|T||Stone,N.D., M.E. Makela, and F.W.,Jr. Plapp|Nonlinear Optimization Analysis of Insecticide Mixtures for the Control of the Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.81(4): 989-994|1988|10.1093/jee/81.4.989
93003|T||Nord,J.C., G.L. DeBarr, L.R. Barber, J.C. Weatherby, and N.A. Overgaard|Low-Volume Applications of Azinphosmethyl, Fenvalerate, and Permethrin for Control of Coneworms (Lepidoptera:  Pyralidae) and Seed Bugs (Hemiptera:  Coreidae and Pentatomidae) in Southern Pine Seed Orchards|J. Econ. Entomol.78(2): 445-450|1985|10.1093/jee/78.2.445
93004|A||Tonkopii,V.|Bioidentification of Xenobiotics in Water as a Part of Pollution Control|In: Proceedings of the 11th World Lakes Conference, Nairobi, Kenya2:371-373|2006|
93005|T||Argentine,J.A., J.M. Clark, and H. Lin|Genetics and Biochemical Mechanisms of Abamectin Resistance in Two Isogenic Strains of Colorado Potato Beetle|Pestic. Biochem. Physiol.44:191-207|1992|10.1016/0048-3575(92)90090-M
93006|T||Huusela-Veistola,E., S. Kurppa, and J.M. Pihlava|Effects of Fenvalerate and Permethrin on Soil Arthropods and on Residues in and Decomposition of Barley Straw|Agric. Sci. Finl.3(2): 213-223|1994|
93007|T||Rao,C.G.S., and P.K. Rao|Effect of Food on the Susceptibility of Rice Weevil Sitophilus oryzae Linnaeus to Newer Insecticides|Pesticides 22(12): 17-19|1988|
93008|T||Yeung,J.M., D.D. Colwell, and J.A. Shemanchuk|Fenvalerate Residues on Cattle Hair Coat from Impregnated Ear Tags|Pestic. Sci.26(1): 21-27|1989|10.1002/ps.2780260104
93009|T||Kanga,L.H.B., F.W.,Jr. Plapp, M.L. Wall, G.W. Elzen, and J. Lopez|Resistance Monitoring and Mechanisms in the Tobacco Budworm to Organophosphate, Carbamate, and Cyclodiene Insecticides|Proc. Beltwide Cotton Conf.2:810-815|1994|
93010|T||Grafton-Cardwell,E.E., and C.A. Reagan|Effects of Acaricides on Citrus Red Mite and the Predacious Mite Euseius tularensis, 2005|Arthropod Manag. Tests31:D13|2006|
93011|T||Grafton-Cardwell,E.E., and C.A. Reagan|Efficacy of Acaricides for Citrus Red Mite in a Greenhouse, 2004|Arthropod Manag. Tests30:D7|2005|
93012|T||Liu,T.X.|Efficacy of Onager Against Two Spotted Spider Mite and Broad Mite on Watermelon, 2005|Arthropod Manag. Tests31:E85|2006|
93013|T||Palevsky,E., O. Ucko, S. Peles, S. Yablonski, and U. Gerson|Evaluation of Control Measures for Oligonychus afrasiaticus Infesting Date Palm Cultivars in the Southern Arava Valley of Israel|Crop Prot.23(5): 387-392|2004|10.1016/j.cropro.2003.09.008
93014|T||Price,J.F., and C.A. Nagle|Efficacy of Miticides for Control of Twospotted Spider Mite on Strawberry, 2004-05|Arthropod Manag. Tests31:C18|2006|
93015|T||Price,J.F., and C.A. Nagle|Efficacy of Miticides for Late Season Control of Twospotted Spider Mite in Strawberry, 2004|Arthropod Manag. Tests31:C17|2006|
93016|T||Price,J.F., and C.A. Nagle|Efficacy of Miticides for Control of Twospotted Spider Mite in Strawberry, 2003-04|Arthropod Manag. Tests31:C16|2006|
93017|T||Reissig,W.H., and D. Combs|Evaluation of Seasonal Insecticide Programs Against New York Apple Pests, 2005|Arthropod Manag. Tests31:3 p.|2006|
93018|T||Sparks,A.N.Jr., and K. Rucker|Twospotted Spider Mite Control on Cantaloupe, 2004|Arthropod Manag. Tests30:E20|2005|
93019|T||Waters,T.D., D.B. Walsh, R.P. Wight, and H.J. Ferguson|Acaricidal Efficacy Against McDaniel Mite in Timothy Hay, 2004|Arthropod Manag. Tests30:2 p.|2005|
93020|T||Wise,J.C., K. Schoenborn, and L.J. Gut|Control of European Red Mites and Apple Rust Mites, 2004|Arthropod Manag. Tests30:3 p.|2005|
93021|T||Smitley,D.R., T.W. Davis, and K.F. Newhouse|Whitefly Control in the Greenhouse on Marigold, 2005|Arthropod Manag. Tests31:G31|2006|
93022|T||Holloway,J.W., B.R. Leonard, J.A. Ottea, J.H. Pankey, J.B. Graves, and G. Snodgrass|Insecticide Resistance and Synergism of Pyrethroid Toxicity in the Tarnished Plant Bug, Lygus lineolaris|Proc. Beltwide Cotton Conf.2:947-949|1998|
93023|T||Haviland,D.R.|Yuma Spider Mite Control in Citrus, 2005|Arthropod Manag. Tests31:1 p.|2006|
93025|A||Smith,M.D., and E.M. Hill|Profiles of Short Chain Oligomers in Roach (Rutilus rutilus) Exposed to Waterborne Polyethoxylated Nonylphenols|Sci. Total Environ.356(1-3): 100-111|2006|10.1016/j.scitotenv.2005.04.020
93027|A||Hamilton,S.J., K.M. Holley, K.J. Buhl, F.A. Bullard, L.K. Weston, and S.F. McDonald|Impact of Selenium and Other Trace Elements on the Endangered Adult Razorback Sucker|Environ. Toxicol.17(4): 297-323|2002|10.1002/tox.10064
93028|T||Buchmann,A., W. Kunz, C.R. Wolf, F. Oesch, and L.W. Robertson|Polychlorinated Biphenyls, Classified as Either Phenobarbital-or 3-Methylcholanthrene-Type Inducers of Cytochrome P-450, are Both Hepatic Tumor Promoters in Diethylnitrosamine-Initiated Rats|Cancer Lett.32:243-253|1986|10.1016/0304-3835(86)90176-X
93029|T||Crofton,K.M., D.L. Ding, R. Padich, M. Taylor, and D. Henderson|Hearing Loss Following Exposure During Development to Polychlorinated Biphenyls:  A Cochlear Site of Action|Hear. Res.144(1-2): 196-204|2000|10.1016/S0378-5955(00)00062-9
93030|T||Greig,J.B.|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Drug Metabolism in the Rat|Biochem. Pharmacol.21(23): 3196-3198|1972|10.1016/0006-2952(72)90149-9
93031|T||King,M.E., and A.R. Roesler|Subacute Intubation Study on Rats with the Compound 2,3,7,8-Tetrachloridioxin|IIT Research Institute, Chicago, IL:27 p.|1974|
93032|T||Moran,R.A., C.W. Lee, J.M. Fujimoto, and N.J. Calvanico|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on IgA Serum and Bile Levels in Rats|Immunopharmacology (N. Y.)12:245-250|1986|10.1016/0162-3109(86)90009-3
93033|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of a Mixture of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) (CAS No. 1746.01-6), 2,3,4,7,8-Pentachlorodibenzofuran (PeCDF) (CAS No. 57117-31-4), and 3,3',4,4',5-Pentachlorobiphenyl (|Natl. Toxicol. Program Tech. Rep. Ser.526:180 p.|2006|
93034|T||Shen,E.S., and J.R. Olson|Relationship Between the Murine Ah Phenotype and the Hepatic Uptake and Metabolism of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Drug Metab. Dispos.15(5): 653-660|1987|
93035|T||Yang,J.Z., and W.G. Foster|Continuous Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Inhibits the Growth of Surgically Induced Endometriosis in the Ovariectomized Mouse Treated with high Dose Estradiol|Toxicol. Ind. Health13(1): 15-25|1997|10.1177/074823379701300102
93036|T||Cabral,J.R.P., and D. Galendo|Carcinogenicity Study of the Pesticide Fenvalerate in Mice|Cancer Lett.49(1): 13-18|1990|10.1016/0304-3835(90)90133-I
93037|T||Stein,J.D., and P.E. Tilden|Single and Double Application of Fenvalerate and Dimethoate for Control of Douglas-Fir Seed and Cone Insects|J. Econ. Entomol.80(5): 1076-1078|1987|10.1093/jee/80.5.1076
93038|T||Wolfenbarger,D.A., J.A. Harding, D.F. Clower, G.A. Herzog, and J.R.,Jr. Bradley|Toxicity of Isomers of Fenvalerate and Fluvalinate Against Boll Weevil (Coleoptera:  Curculionidae) and Tobacco Budworm (Lepidoptera:  Noctuidae) in the Laboratory and Heliothis Species (Lepidoptera:  Noctuidae) in Fiel|J. Econ. Entomol.82(1): 52-57|1989|10.1093/jee/82.1.52
93039|T||Gilbert,M.E., C.M. Mack, and K.M. Crofton|Pyrethroids and Enhanced Inhibition in the Hippocampus of the Rat|Brain Res.477(1/2): 314-321|1989|10.1016/0006-8993(89)91420-0
93040|T||Breslin,W.J., A.B. Liberacki, D.A. Dittenber, and J.F. Quast|Evaluation of the Developmental and Reproductive Toxicity of Chlorpyrifos in the Rat|Fundam. Appl. Toxicol.29:119-130|1996|10.1006/faat.1996.0013
93041|T||Satoh,T., and K.P. DuBois|A Liver Arylamidase Extremely Sensitive to Organophosphorus Compounds|Proc. Symp. Drug Metab. Action5:163-173|1974|
93042|T||Bareth,S.S., and H.C. Gupta|Efficacy of Six Insecticides for the Protection of Stored Wheat Seeds Against Rhizopertha dominica (Fab.)|Seed Res.17(1): 43-46|1989|
93043|T||Mwangala,F.S., L.P. Sarna, T.D. Galloway, and G.R.B. Webster|Distribution of Fenvalerate and Permethrin Residues on Cattle Hair Following Variable Application Rates of Impregnated Ear Tags|Pestic. Sci.39(3): 179-184|1993|10.1002/ps.2780390303
93044|A||Ramos,G.B., and A.A. Herrera|Changes in the Total Lipid and Total Protein Levels of the Muscle, Liver and Brain of Oreochromis niloticus Chronically-Exposed to a Fenvalerate-Containing Synthetic Pyrethroid|Asia Life Sci.5(2): 113-124|1996|
93045|A||Xuereb,B., P. Noury, V. Felten, J. Garric, and O. Geffard|Cholinesterase Activity in Gammarus pulex (Crustacea Amphipoda):  Characterization and Effects of Chlorpyrifos|Toxicology236:178-189|2007|10.1016/j.tox.2007.04.010
93046|T||Buschman,L.L., P.E. Sloderbeck, and R.S. Currie|Efficacy of Post-Tassel Miticide Applications Against Spider Mites and Field Response in Corn, 2003C|Arthropod Manag. Tests30:3 p.|2005|
93047|T||De Oliveira,R.C., and P.M.O.J. Neves|Compatibility of Beauveria bassiana with Acaricides|Neotrop. Entomol. (Multiple Languages)33(3): 353-358|2004|
93048|T||Sorensen,K.A., and D.G. Cooke|Two-Spotted Spider Mite Control with Miticides, Johnston County, NC 2004|Arthropod Manag. Tests30:3 p.|2005|
93049|T||Alsharif,N.Z., T. Lawson, and S.J. Stohs|Oxidative Stress Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin is Mediated by the Aryl Hydrocarbon (Ah) Receptor Complex|Toxicology92:39-51|1994|10.1016/0300-483X(94)90166-X
93050|T||Ebner,K., D.W. Brewster, and F. Matsumura|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Serum Insulin and Glucose Levels in the Rabbit|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(5): 427-438|1988|
93051|T||Katz,L.B., H.M. Theobald, R.C. Bookstaff, and R.E. Peterson|Characterization of the Enhanced Paw Edema Response to Carrageenan and Dextran in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Treated Rats|J. Pharmacol. Exp. Ther.230:670-677|1984|
93052|T||Kerkvliet,N.I., L. Baecher-Steppan, D.M. Shepherd, J.A. Oughton, B.A. Vorderstrasse, and G.K. DeKrey|Inhibition of TC-1 Cytokine Production, Effector Cytotoxic T Lymphocyte Development and Alloantibody Production by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Immunol.157:2310-2319|1996|10.4049/jimmunol.157.6.2310
93053|T||Hanula,J.L., G.L. DeBarr, J.C. Weatherby, L.R. Barber, and C.W. Berisford|Degree-Day Model for Timing Insecticide Applications to Control Dioryctria amatella (Lepidoptera: Pyralidae) in Loblolly Pine Seed Orchards|Can. Entomol.134(2): 255-268|2002|10.4039/Ent134255-2
93054|T||Abou-Donia,M.B.|Late Acute Effect of S,S,S-Tributyl Phosphorotrithioate (DEF) in Hens|Toxicol. Lett.4(4): 231-236|1979|10.1016/0378-4274(79)90057-2
93055|T||Majumder,S., A.K. Chakraborty, A. Bhattacharyya, and T.K. Mandal|Chronic Dermal Toxicity Study of Fenvalerate in Fowl|Toxicol. Environ. Chem.55(1-4): 103-113|1996|10.1080/02772249609358327
93056|T||Mayer,D.F., C.A. Johansen, C.H. Shanks, and K.S. Pike|Effects of Fenvalerate Insecticide on Pollinators|J. Entomol. Soc. B. C.84:39-45|1987|
93057|A||Schreiber,B., and N. Brink|Pesticide Toxicity Using Protozoans as Test Organisms|Biol. Fertil. Soils7(4): 289-296|1989|10.1007/BF00257822
93058|T||Reddy,B.N., K.S.S. Reddy, and A. Janardhan|Effect of Dimethoate and Fenvalerate on Conditioned Avoidance and Passive Avoidance Responses|Indian J. Exp. Biol.29(2): 176-177|1991|
93059|T||Islam,M.N., Z. Nessa, and M.A. Karim|Management of the Potato Cutworm, Agrotis ipsilon (HFN.) (Lepidoptera:  Noctuidae) with Insecticides Other than Organochlorinated Hydrocarbon Insecticides|Bangladesh J. Zool.19(2): 173-177|1991|
93060|T||Salama,H.S., M.R. Saleh, S. Moawed, and A.S. El-Din|Evaluation of Microbial and Chemical Insecticides for the Control of Spodoptera exigua (Lep., Noctuidae) on Soybean Plants|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)63(5): 100-102|1990|10.1007/BF01904692
93061|A||Saleh,M.S., N.L. Kelada, and M.I. Abdeen|Factors Affecting Efficacy of Bacillus thuringiensis H-14 Against Mosquito Larvae with Special Reference to the Joint Action of the Pathogen with Three Chemical Insecticides|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)63(1): 10-13|1990|10.1007/BF01903262
93062|T||Sitaramaiah,S., G.R. Prasad, and U. Sreedhar|Management of Tobacco Ground Beetle, Mesomorphus villiger with Insecticide Baits on Flue Cured Virginia Tobacco|Indian J. Agric. Sci.69(9): 660-663|1999|
93063|T||Sparks,T.C., R.M. Roe, A. Buehler, and B.D. Hammock|Bioassay of Anti Juvenile Hormone Compounds:  An Alternative Approach|ACS Symp. Ser.276:293-306|1985|10.1021/bk-1985-0276.ch021
93064|T||Wilson,B.W., C.M. Cisson, W.R. Randall, J.E. Woodrow, J.N. Seiber, and J.B. Knaak|An Animal Model for Testing Organophosphates in the Field. S,S,S-Tributyl Phosphorotrithioate and the Scaleless Chicken|ACS Symp. Ser.182:189-200|1982|10.1021/bk-1982-0182.ch015
93065|T||AliNiazee,M.T.|The European Winter Moth as a Pest of Filberts:  Damage and Chemical Control|J. Entomol. Soc. B. C.83:6-12|1986|
93066|T||Hard,J., P. Shea, and E. Holsten|Field Trials of Fenvalerate and Acephate to Control Spruce Bud Midge, Dasyneura swainei (Diptera:  Cecidomyiidae)|J. Entomol. Soc. B. C.85:40-44|1988|
93067|T||Das,A.C., and D. Mukherjee|Effect of Insecticides on the Availability of Nutrients, Nitrogen Fixation, and Phosphate Solubility in the Rhizosphere Soil of Rice|Biol. Fertil. Soils18(1): 37-41|1994|10.1007/BF00336442
93068|T||McDonald,G., R.H. Broadley, A.M. Smith, and M.D. Blackburn|Evaluation of Insecticides for Nysius vinitor Bergroth (Hemiptera:  Lygaeidae)|Gen. Appl. Entomol.18:11-16|1986|
93069|A||Verma,K.V.S.|Deterrent Effect of Synthetic Pyrethroids on the Oviposition of Mosquitoes|Curr. Sci. (Bangalore)55(7): 373-375|1986|
93070|T||Plapp,F.W.,Jr., and H.H.C. Tong|Synergism of Malathion and Parathion Against Resistant Insects:  Phosphorus Esters with Synergistic Properties|J. Econ. Entomol.59(1): 11-15|1966|10.1093/jee/59.1.11
93071|T||Kumar,R., J.C. Mahla, and V. Kumar|Effect of Gunnybag Treatment with Insecticides and Plant Extracts Against Insect-Pests of Stored Rice|Ann. Biol.10(1): 51-54|1994|
93072|T||Scott,J.G., R.T. Roush, and N. Liu|Selection of High-Level Abamectin Resistance from Field-Collected House Flies, Musca domestica|Experientia47:288-291|1990|10.1007/BF01958163
93073|T||Roger,J.C., D.G. Upshall, and J.E. Casida|Structure-Activity and Metabolism Studies on Organophosphate Teratogens and Their Alleviating Agents in Developing Hen Eggs with Special Emphasis on Bidrin|Biochem. Pharmacol.18(2): 373-392|1969|10.1016/0006-2952(69)90215-9
93074|T||DeVries,D.H.|Mechanisms of Resistance to Pyrethroid Insecticides in a Trans-Permethrin Selected Strain of the House Fly, Musca domestica L.|Ph.D Thesis, University of California, Riverside, CA:157 p.|1979|
93075|T||Rovesti,L., E.W. Heinzpeter, F. Tagliente, and K.V. Deseo|Compatibility of Pesticides with the Entomopathogenic Nematode Heterorhabditis bacteriophora Poinar (Nematoda: Heterorhabditidae)|Nematologica34(4): 462-476|1988|10.1163/002825988X00422
93078|A||Habig,C., A. Nomeir, R.T. DiGiulio, and M.B. Abou-Donia|Extraction and Determination by Gas Chromatography of S,S,S-Tri-n-Butyl Phosphorotrithioate (DEF) in Fish and Water|J. AOAC Int.70(1): 103-106|1987|10.1093/jaoac/70.1.103
93079|T||Cisneros,J., D. Goulson, L.C. Derwent, D.I. Penagos, O. Hernandez, and T. Williams|Toxic Effects of Spinosad on Predatory Insects|Biol. Control23(2): 156-163|2002|10.1006/bcon.2001.1000
93080|T||Berrada,S., D. Fournier, A. Cuany, and T.X. Nguyen|Identification of Resistance Mechanisms in a Selected Laboratory Strain of Cacopsylla pyri (Homoptera:  Psyllidae):  Altered Acetylcholinesterase and Detoxifying Oxidases|Pestic. Biochem. Physiol.48:41-47|1994|10.1006/pest.1994.1005
93081|T||Mohan,S., S. Jayaraj, and A.V. Rangarajan|Influence of Fenvalerate in Inducing Resurgence of Sorghum Aphid, Rhopalosiphum maidis Fitch|In: Jayaraj, S.(Ed.).Resurgence of Sucking Pests; National Symposium, Coimbatore, India.Tamil Nadu Agricultural University, Coimbatore, India:39-43|1987|
93082|T||Kamala Jayanthi,P.D., K. Padmavathamma, and P. Kameswara Rao|Microbial and Some Chemical Insecticides Against Tobacco Caterpillar, Spodoptera litura (Fabr.) on Groundnut|Biol. Control Ins. Pests5:151-154|1994|
93083|T||Randhawa,H.S., and R.S. Gill|Preliminary Studies on the Litchi Nut Borer (Blastobasis sp.) (Lepidoptera: Blastobasidae) on Litchi|Agric. Sci. Dig.18(3): 181-182|1998|
93084|T||Prajneshu, S. Verma, and K.G. Phadke|A New Procedure for Assessing Efficacy of Insecticides Against Aphids on Rapeseed Crop|Indian J. Entomol.52(4): 637-640|1990|
93085|T||Foil,L.D., D.J. Leprince, and R.L. Byford|Sublethal Effects and Mortality of Tabanids (Diptera: Tabanidae) Induced by Fenvalerate Treatment of Cattle|J. Entomol. Sci.25(2): 294-302|1990|10.18474/0749-8004-25.2.294
93086|T||Hall,R.D., K.E. Doisy, and F.J. Fischer|Ear Tags Containing Fenvalerate and Different Plasticizers for Control of Face Flies and Horn Flies on Pastured Cattle|Trans. Mo. Acad. Sci.19(0): 65-72|1985|
93087|T||Harvey,T.L., and J.R. Brethour|Clinical Evaluation of Insecticide-Impregnated Tags Attached to Chains and Used as Backrubbers for Control of Haematobia irritans|Vet. Parasitol.22(3-4): 303-306|1986|10.1016/0304-4017(86)90118-4
93088|T||Tarry,D.W.|Cattle Fly Control Using Controlled-Release Insecticides|Vet. Parasitol.18(3): 229-234|1985|10.1016/0304-4017(85)90048-2
93089|T||Al-Rajhi,D.H., and W.A. Brindley|Relationships Between Synergistic and Biochemical Analyses of Paraoxon Tolerance in Pea Aphids|Alex. Sci. Exch.6(2): 142-159|1985|
93090|A||Chen,C.Y., and J.H. Lin|Toxicity of Chlorophenols to Pseudokirchneriella subcapitata Under Air-Tight Test Environment|Chemosphere62(4): 503-509|2006|10.1016/j.chemosphere.2005.06.060
93091|A||Dwyer,F.J., D.K. Hardesty, C.E. Henke, C.G. Ingersoll, D.W. Whites, T. Augspurger, T.J. Canfield, D.R. Mount, and F.L. |Assessing Contaminant Sensitivity of Endangered and Threatened Aquatic Species: Part III. Effluent Toxicity Tests|Arch. Environ. Contam. Toxicol.48(2): 174-183|2005|10.1007/s00244-004-0104-2
93092|A||Farah,M.A., B. Ateeq, and W. Ahmad|Antimutagenic Effect of Neem Leaves Extract in Freshwater Fish, Channa punctatus Evaluated by Cytogenetic Tests|Sci. Total Environ.364(1-3): 200-214|2006|10.1016/j.scitotenv.2005.07.008
93093|A||Kondo,T., H. Yamamoto, N. Tatarazako, K. Kawabe, M. Koshio, N. Hirai, and M. Morita|Bioconcentration Factor of Relatively Low Concentrations of Chlorophenols in Japanese Medaka|Chemosphere61(9): 1299-1304|2005|10.1016/j.chemosphere.2005.03.058
93094|A||Marcial,J., J. Barrios-Gonzalez, and A. Tomasini|Effect of Medium Composition on Pentachlorophenol Removal by Amylomyces rouxii in Solid-State Culture|Process Biochem.41(2): 496-500|2006|10.1016/j.procbio.2005.07.010
93095|T||Meade,T., and E.M. D'Angelo|(14C)Pentachlorophenol Mineralization in the Rice Rhizosphere with Established Oxidized and Reduced Soil Layers|Chemosphere61(1): 48-55|2005|10.1016/j.chemosphere.2005.03.019
93096|A||Penttinen,O.P., and J.V.K. Kukkonen|Body Residues as Dose for Sublethal Responses in Alevins of Landlocked Salmon (Salmo salar m. sebago): A Direct Calorimetry Study|Environ. Toxicol. Chem.25(4): 1088-1093|2006|10.1897/05-304R.1
93097|A||Schroder,H.C., S.M. Efremova, B.A. Margulis, I.V. Guzhova, V.B. Itskovich, and W.E.G. Mueller|Stress Response in Baikalian Sponges Exposed to Pollutants|Hydrobiologia (Multiple Languages)568(suppl. 1): 277-287|2006|10.1007/s10750-006-0302-1
93098|A||Song,Z., and G. Huang|Toxic Effects of Pentachlorophenol on Lemna polyrhiza|Ecotoxicol. Environ. Saf.66(3): 343-347|2007|10.1016/j.ecoenv.2005.10.001
93099|A||Villela,I.V., I.M. De Oliveira, J. Da Silva, and J.A.P. Henriques|DNA Damage and Repair in Haemolymph Cells of Golden Mussel (Limnoperna fortunei) Exposed to Environmental Contaminants|Mutat. Res.605(1-2): 78-86|2006|10.1016/j.mrgentox.2006.02.006
93100|A||Zha,J., Z. Wang, and D. Schlenk|Effects of Pentachlorophenol on the Reproduction of Japanese Medaka (Oryzias latipes)|Chem.-Biol. Interact.161(1): 26-36|2006|10.1016/j.cbi.2006.02.010
93101|A||Zhao,Y., and M.C. Newman|Effects of Exposure Duration and Recovery Time During Pulsed Exposures|Environ. Toxicol. Chem.25(5): 1298-1304|2006|10.1897/05-341R.1
93102|T||Mann,B.P., S.D. Wratten, M. Poehling, and C. Borgemeister|The Economics of Reduced-Rate Insecticide Applications to Control Aphids in Winter Wheat|Ann. Appl. Biol.119(3): 451-464|1991|10.1111/j.1744-7348.1991.tb04885.x
93103|T||Kumar,S., and S.C. Goel|Per Cent Avoidable Loss and Economics of Insecticides in Controlling Antigastra catalaunalis (Dup.) on Sesamum|Uttar Pradesh J. Zool.6:169-173|1996|
93104|T||Stoner,A., W.T. Wilson, and J.O. Moffett|Effect of Long-Term Feeding of Low Doses of Fenvalerate or Fluvalinate in Sucrose Syrup on Honey Bees in Standard-Size Field Colonies|J. Ga. Entomol. Soc.19(4): 490-498|1984|
93105|T||Sirohi,A., and Siyanand |Effect of Fenvalerate, Triazophos and FMC 54800 on Hatching and Mortality of Meloidogyne incognita|Indian J. Nematol.22(2): 134-138|1992|
93106|T||Wang,Q., J.A. Cheng, Z.M. Liu, S.G. Wu, X.P. Zhao, and C.X. Wu|Influences of Insecticides on Toxicity and Cuticular Penetration of Abamectin in Helicoverpa armigera|Insect Sci.12(2): 109-119|2005|10.1111/j.1744-7917.2005.00013.x
93107|T||Malley,L.A., S.Z. Cagen, C.M. Parker, T.H. Gardiner, G.A. Van Gelder, and G.P. Rose|Effect of Vitamin E and Other Amelioratory Agents on the Fenvalerate-Mediated Skin Sensation|Toxicol. Lett.29(1): 51-58|1985|10.1016/0378-4274(85)90199-7
93108|T||Wilson,L.F., F.J. Sapio, and G.A. Simmons|Biology, Injury, and Control of the European Needle-Bending Midge (Diptera: Cecidomyiidae) on Scotch Pine in Michigan|Gt. Lakes Entomol.21(3): 97-104|1988|
93109|T||Whitford,F., W.B. Showers, and G.B. Edwards|Insecticide Tolerance of Ground- and Foliage-Dwelling Spiders (Araneae) in European Corn Borer (Lepidoptera: Pyralidae) Action Sites|Environ. Entomol.16(3): 779-785|1987|10.1093/ee/16.3.779
93110|T||Whitford,F., and W.B. Showers|Impact of Insecticides on Composition and Abundance of Ground-Dwelling Insect Fauna in Adult European Corn Borer (Lepidoptera: Pyralidae) Action Sites in Iowa|Environ. Entomol.16(1): 231-236|1987|10.1093/ee/16.1.231
93111|T||Nord,J.C., and G.L. DeBarr|Persistence of Insecticides in a Loblolly Pine Seed Orchard for Control of the Leaffooted Pine Seed Bug, Leptoglossus corculus (Say) (Hemiptera: Coreidae)|Can. Entomol.124(4): 617-629|1992|10.4039/Ent124617-4
93112|T||Horowitz,A.R.|Control Strategy for the Sweetpotato Whitefly, Bemisia tabaci, Late in the Cotton-Growing Season|Phytoparasitica21(4): 281-291|1993|10.1007/BF02981046
93113|T||Siegfried,B.D., and J.G. Scott|Mechanisms Responsible for Propoxur Resistance in the German Cockroach, Blattella germanica (L.)|Pestic. Sci.33(2): 133-146|1991|10.1002/ps.2780330202
93114|T||Collins,P.J.|A New Resistance to Pyrethroids in Tribolium castaneum (Herbst)|Pestic. Sci.28(1): 101-115|1990|10.1002/ps.2780280112
93115|T||Scott,J.G., and G.P. Georghiou|Mechanisms Responsible for High Levels of Permethrin Resistance in the House Fly|Pestic. Sci.17(3): 195-206|1986|10.1002/ps.2780170302
93116|T||Plapp,F.W.,Jr., and K.S. Rhee|Induction of Mixed Function Oxidases in House Flies by Several Insecticides|Southwest. Entomol.4(4): 330-333|1979|
93117|T||Spencer,A.G., N.R. Price, and A. Callaghan|Malathion-Specific Resistance in a Strain of the Rust Red Grain Beetle Cryptolestes ferrugineus (Coleoptera: Cucujidae)|Bull. Entomol. Res.88(2): 199-206|1998|10.1017/S0007485300025761
93118|T||MacDonald,R.S., K.R. Solomon, G.A. Surgeoner, and C.R. Harris|Laboratory Studies on the Mechanisms of Resistance to Permethrin in a Field-Selected Strain of Houseflies|Pestic. Sci.16(1): 10-16|1985|10.1002/ps.2780160103
93120|T||El-Guindy,M.A., A. Rahman, M. El-Refai, and M.M. Abdel-Sattar|The Pattern of Cross-Resistance to Insecticides and Juvenile Hormone Analogues in a Diflubenzuron-Resistant Strain of the Cotton Leaf Worm Spodoptera littoralis Boisd.|Pestic. Sci.14(3): 235-245|1983|10.1002/ps.2780140305
93121|T||Bodnaryk,R.P., P.S. Barker, and L. Kudryk|Interaction Between Synergists and Permethrin in Adults of the Red Flour Beetle, Tribolium castaneum (Herbst)|Pestic. Sci.15(5): 481-486|1984|10.1002/ps.2780150509
93122|T||Pospischil,R., K. Szomm, M. Londershausen, I. Schroder, A. Turberg, and R. Fuchs|Multiple Resistance in the Larger House Fly Musca domestica in Germany|Pestic. Sci.48(4): 333-341|1996|10.1002/(SICI)1096-9063(199612)48:4<333::AID-PS483>3.0.CO;2-2
93123|T||Mikami,N., J. Yoshimura, T. Katagi, H. Yamada, and J. Miyamoto|Metabolism of the Photo-Decarboxylated Derivative of Fenvalerate in Rats|J. Pestic. Sci. (Multiple Languages)10(2): 273-284|1985|10.1584/jpestics.10.273
93125|T||Bajwa,R.S., and J.M. Fujimoto|Effect of Colchicine and S,S,S-Tributyl Phosphorotrithioate (DEF) on the Biliary Excretion of Sucrose, Mannitol and Horseradish Peroxidase in the Rat|Biochem. Pharmacol.32(1): 85-90|1983|10.1016/0006-2952(83)90657-3
93126|A||Tripathi,G., and P. Verma|Mechanism of Fenvalerate-Withdrawal-Dependent Recovery in Metabolism of a Catfish, Clarias batrachus|Pestic. Biochem. Physiol.86(3): 167-171|2006|10.1016/j.pestbp.2006.03.005
93127|T||Jeong,S.H., B.Y. Kim, H.G. Kang, H.O. Ku, and J.H. Cho|Effect of Chlorpyrifos-Methyl on Steroid and Thyroid Hormones in Rat F0- and F1-Generations|Toxicology220(2-3): 189-202|2006|10.1016/j.tox.2006.01.005
93128|T||El-Demerdash,F.M., M.I. Yousef, F.S. Kedwany, and H.H. Baghdadi|Role of alpha-Tocopherol and beta-Carotene in Ameliorating the Fenvalerate-Induced Changes in Oxidative Stress, Hemato-Biochemical Parameters, and Semen Quality of Male Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(3): 443-459|2004|
93129|A||Ghekiere,A., N. Fockedey, T. Verslycke, M. Vincx, and C.R. Janssen|Marsupial Development in the Mysid Neomysis integer (Crustacea: Mysidacea) to Evaluate the Effects of Endocrine-Disrupting Chemicals|Ecotoxicol. Environ. Saf.66(1): 9-15|2007|10.1016/j.ecoenv.2006.02.008
93130|T||Sultatos,L.G., L.G. Costa, and S.D. Murphy|Factors Involved in the Differential Acute Toxicity of the Insecticides Chlorpyrifos and Methyl Chlorpyrifos in Mice|Toxicol. Appl. Pharmacol.65:144-152|1982|10.1016/0041-008X(82)90372-6
93131|T||Deacon,M.M., J.S. Murray, M.K. Pilny, K.S. Rao, D.A. Dittenber, T.R.,Jr. Hanley, and J.A. John|Embryotoxicity and Fetotoxicity of Orally Administered Chlorpyrifos in Mice|Toxicol. Appl. Pharmacol.54:31-40|1980|10.1016/0041-008X(80)90005-8
93132|T||Ghosh,A.K., A. Sharma, and G. Talukder|Cytotoxic Effects of Sumicidin, a Type II Synthetic Pyrethroid, on Mice In Vivo at 6, 12 and 24 h After Exposure|Cytobios71(285): 85-91|1992|
93137|T||Mandal,T.K., A.K. Chakraborty, and A. Bhattacharyya|Disposition Kinetics of Cypermethrin and Fenvalerate in Black Bengal Lactating Goats|Pestic. Sci.45(3): 215-219|1995|10.1002/ps.2780450304
93138|T||Mohamed,O.S.A., and S.E.I. Adam|Toxicity of Sumicidin (Fenvalerate) to Nubian Goats|J. Comp. Pathol.102(1): 1-6|1990|10.1016/S0021-9975(08)80001-1
93139|T||Kamei,J., C. Nozaki, and A. Saitoh|Effect of Mexiletine on Vincristine-Induced Painful Neuropathy in Mice|Eur. J. Pharmacol.536(1-2): 123-127|2006|10.1016/j.ejphar.2006.02.033
93140|T||Sheppard,D.C.|Differential Pyrethroid Resistance Selection in Horn Fly Populations Treated with Pyrethroid Cattle Ear Tags and Pyrethroid Sprays|J. Agric. Entomol.4(2): 167-178|1987|
93141|T||Singh,G., and G.S. Grewal|Effect of Insecticidal Sprays on Yield of Sesame (Sesamum indicum) Through Control of Insect Pests|Indian J. Agric. Sci.61(2): 154-155|1991|
93142|T||Clarke,S.R., J.F. Negron, and G.L. DeBarr|Effects of Four Pyrethroids on Scale Insect (Homoptera) Populations and Their Natural Enemies in Loblolly and Shortleaf Pine Seed Orchards|J. Econ. Entomol.85(4): 1246-1252|1992|10.1093/jee/85.4.1246
93143|T||Datar,V.V.|Synthetic Pyrethroids in the Control of Mango Hoppers (Amritodus atkinsoni Leth.) 1982|Pesticides 19(2): 13-14|1985|
93144|T||Devaud,L.L., P. Szot, and T.F. Murray|PK 11195 Antagonism of Pyrethroid-Induced Proconvulsant Activity|Eur. J. Pharmacol.120(2): 269-273|1986|10.1016/0014-2999(86)90499-1
93145|T||Wooten,E.L., F. Blecha, A.B. Broce, and D.S. Pollmann|The Effect of Sarcoptic Mange on Growth Performance, Leukocytes and Lymphocyte Proliferative Responses in Pigs|Vet. Parasitol.22(3/4): 315-324|1986|10.1016/0304-4017(86)90120-2
93146|T||Haydock,P.P.J., and R.J. Pooley|Evaluation of Insecticides for Control of Flax Flea Beetle in Linseed|Tests Agrochem. Cultiv.18:4-5|1997|
93147|T||Strong,W.B., S.L. Bates, and M.U. Stoehr|Feeding by Leptoglossus occidentalis (Hemiptera: Coreidae) Reduces Seed Set in Lodgepole Pine (Pinaceae)|Can. Entomol.133(6): 857-865|2001|10.4039/Ent133857-6
93148|T||Hara,A.H., and H.K. Kaya|Effects of Selected Insecticides and Nematicides on the In Vitro Development of the Entomogenous Nematode Neoaplectana carpocapsae|J. Nematol.14(4): 486-491|1982|
93149|T||Flesher,J.W.|Distribution of Radioactivity in the Tissues of Rats After Oral Administration of 7,12-Dimethylbenz(a)anthracene-3H|Biochem. Pharmacol.16(9): 1821-1831|1967|10.1016/0006-2952(67)90259-6
93150|T||Galvan,N., R. Jaskula-Sztul, P.S. MacWilliams, C.J. Czuprynski, and C.R. Jefcoate|Bone Marrow Cytotoxicity of Benzo(a)pyrene is Dependent on CYP1B1 but is Diminished by Ah Receptor-Mediated Induction of CYP1A1 in Liver|Toxicol. Appl. Pharmacol.193(1): 84-96|2003|10.1016/S0041-008X(03)00338-7
93151|T||Pryme,I.F.|The Effects of Orally Administered L-Arginine HCl on the Development of Myeloma Tumours in BABL/c Mice Following the Injection of Single Cell Suspensions, Cell Aggregates or Tumor Fragments; and on the Growth of Two Asc|Cancer Lett.5(1): 19-23|1978|10.1016/S0304-3835(78)80005-6
93153|T||Balick,R., and J. Pataki|Indirect Chromosomal Fluorescence with Antibody to 7,12-Dimethylbenz(a)anthracene|Biochem. Biophys. Res. Commun.82(1): 81-84|1978|10.1016/0006-291X(78)90579-X
93154|T||Garcia,H.|Intake of Tritiated Thymidine by Epidermal Cells of Newborn Mice Treated with 7,12-Dimethylbenz(a)anthracene|Exp. Cell Res.27(1): 182-185|1962|10.1016/0014-4827(62)90065-4
93155|T||Zhaorigetu,S., N. Yanaka, M. Sasaki, H. Watanabe, and N. Kato|Inhibitory Effects of Silk Protein, Sericin on UVB-Induced Acute Damage and Tumor Promotion by Reducing Oxidative Stress in the Skin of Hairless Mouse|J. Photochem. Photobiol. B Biol.71(1-3): 11-17|2003|10.1016/S1011-1344(03)00092-7
93156|T||Collab Study Group Micronucl Test|Micronucleus Test with Mouse Peripheral Blood Erythrocytes by Acridine Orange Supravital Staining:  The Summary Report of the 5th Collaborative Study by CSGMT/JEMS MMS|Mutat. Res.278(2-3): 83-98|1992|10.1016/0165-1218(92)90215-L
93157|T||Marquardt,H., A. Bendich, F.S. Philips, and D. Hoffmann|Binding of (G-3H)-7,12-Dimethylbenz(a)anthracene to DNA of Normal and of Rapidly Dividing Hepatic Cells of Rats|Chem.-Biol. Interact.3(1): 1-11|1971|10.1016/0009-2797(71)90021-4
93158|T||Schwarz,J.A., A. Viaje, T.J. Slaga, S.H. Yuspa, H. Hennings, and U. Lichti|Fluocinolone Acetonide: A Potent Inhibitor of Mouse Skin Tumor Promotion and Epidermal DNA Synthesis|Chem.-Biol. Interact.17(3): 331-347|1977|10.1016/0009-2797(77)90096-5
93159|T||Corbett,T.H., and P. Nettesheim|Separation of Multiple Forms of Protein-Bound Metabolites of the Carcinogenic Hydrocarbons 3-Methylcholanthrene and 7,12-Dimethylbenz(a)anthracene from Several Rodent Species|Chem.-Biol. Interact.8(5): 285-296|1974|10.1016/0009-2797(74)90007-6
93161|T||Jellinck,P.H., and B. Goudy|Effect of Pretreatment with Polycyclic Hydrocarbons on the Metabolism of Dimethylbenzanthracene-12-14C by Rat Liver and other Tissues|Biochem. Pharmacol.16(1): 131-141|1967|10.1016/0006-2952(67)90194-3
93162|T||Conney,A.H., and W. Levin|Induction of Hepatic 7,12-Dimethylbenz(a)anthracene Metabolism by Polycyclic Aromatic Hydrocarbons and Aromatic AZO Derivatives|Life Sci.5(5): 465-471|1966|10.1016/0024-3205(66)90163-9
93163|T||Constantinou,A.I., R. Mehta, and A. Husband|Phenoxodiol, a Novel Isoflavone Derivative, Inhibits Dimethylbenz(a)anthracene (DMBA)-Induced Mammary Carcinogenesis in Female Sprague-Dawley Rats|Eur. J. Cancer39(7): 1012-1018|2003|10.1016/S0959-8049(03)00124-2
93164|T||Konishi,K., A. Iida, M. Kaneko, K. Tomioka, H. Tokuda, H. Nishino, and Y. Kumeda|Cancer Preventive Potential of Trichothecenes from Trichothecium roseum|Bioorg. Med. Chem.11(12): 2511-2518|2003|10.1016/S0968-0896(03)00215-3
93165|T||Slaga,T.J., S. Thompson, D.L. Berry, J. DiGiovanni, M.R. Juchau, and A. Viaje|The Effects of Benzoflavones on Polycyclic Hydrocarbon Metabolism and Skin Tumor Initiation|Chem.-Biol. Interact.17(3): 297-312|1977|10.1016/0009-2797(77)90093-X
93166|T||Tay,L.K., K.L. Sydnor, and J.W. Flesher|Binding of 6-Hydroxymethylbenzo(a)pyrene and 6-Ace-Toxymethylbenzo(a)pyrene to DNA|Chem.-Biol. Interact.25(1): 35-44|1979|10.1016/0009-2797(79)90067-X
93167|T||Kudsk,P., K.E. Thonke, and J.C. Streibig|The Phytotoxicity of Difenzoquat to Wild Oat as Influenced by Other Pesticides|In: P.N.P. Chow (Ed.), Adjuvants and Agrochemicals, Volume I, Mode of Action and Physiological Activity, Manitoba, Canada:175-182|1989|
93168|T||Ray,D.E., and V.J. Cunningham|Hypothermia Produced by Tributyl S,S,S-Phosphorotrithioate (DEF)|Arch. Toxicol.56:279-282|1985|10.1007/BF00295168
93169|T||Abou-Donia,M.B., K.M. Abdo, P.R. Timmons, and J.E. Proctor|Brain Acetylcholinesterase, Acid Phosphatase, and 2',3'-Cyclic Nucleotide-3'-Phosphohydrolase and Plasma Butyrylcholinesterase Activities in Hens Treated with a Single Dermal Neurotoxic Dose of S,S,S-Tri-n-Butyl Phospho|Toxicol. Appl. Pharmacol.82:461-473|1986|10.1016/0041-008X(86)90281-4
93170|T||Silver,E.H., and S.D. Murphy|Effect of Carboxylesterase Inhibitors on the Acute Hepatotoxicity of Esters of Allyl Alcohol|Toxicol. Appl. Pharmacol.45:377-389|1978|10.1016/0041-008X(78)90102-3
93171|T||Scott,J.G., K. Dong, C.J. Geden, and D.A. Rutz|Evaluation of the Biochemical Basis of Insecticide Selectivity Between Host and Parasitoid Species|Environ. Entomol.19(6): 1722-1725|1990|10.1093/ee/19.6.1722
93172|T||Tripathi,N.L.M., G.C. Sachan, and S.K. Verma|Laboratory Evaluation of Some Synthetic Pyrethroids and Other Insecticides Against Lipaphis erysimi (Kaltenbach)|Indian J. Plant Prot.16(1): 53-55|1988|
93173|T||Sardana,H.R.|Chemical Control of Sugarcane Black Bug, Cavelerius sweeti Slater and Mugomoto (Distant) (Hemiptera:  Lygaeidae) with Some Insecticides|Agric. Sci. Dig.11(3): 155-158|1991|
93174|A||Nishiura,J.T., C. Burgos, S. Aya, Y. Goryacheva, and W. Lo|Modulation of Larval Nutrition Affects Midgut Neutral Lipid Storage and Temporal Pattern of Transcription Factor Expression During Mosquito Metamorphosis|J. Insect Physiol.53(1): 47-58|2007|10.1016/j.jinsphys.2006.09.014
93188|T||Takeuchi,H., H. Kojima, H. Yamamoto, and Y. Kawashima|Polymer Coating of Liposomes with a Modified Polyvinyl Alcohol and Their Systemic Circulation and RES Uptake in Rats|J. Control. Release68(2): 195-205|2000|10.1016/S0168-3659(00)00260-1
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93190|T||Nesnow,S., J.A. Ross, G.D. Stoner, and M.J. Mass|Mechanistic Linkage Between DNA Adducts, Mutations in Oncogenes and Tumorigenesis of Carcinogenic Environmental Polycyclic Aromatic Hydrocarbons in Strain A/J Mice|Toxicology105(2-3): 403-413|1995|10.1016/0300-483X(95)03238-B
93191|T||Taira,K., Y. Miyashita, K. Okamoto, S. Arimoto, E. Takahashi, and T. Negishi|Novel Antimutagenic Factors Derived from the Edible Mushroom Agrocybe cylindracea|Mutat. Res.586(2): 115-123|2005|10.1016/j.mrgentox.2005.06.007
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93193|T||Api,A.M., R.A. Ford, and R.H.C. San|An Evaluation of Musk Xylene in a Battery of Genotoxicity Tests|Food Chem. Toxicol.33(12): 1039-1045|1995|10.1016/0278-6915(95)00076-3
93194|T||Dipple,A., and T.A. Slade|Structure and Activity in Chemical Carcinogenesis:  Reactivity and Carcinogenicity of 7-Bromomethylbenz(a)anthracene and 7-Bromomethyl-12-Methylbenz(a)anthracene|Eur. J. Cancer6(5): 417-423|1970|10.1016/0014-2964(70)90040-X
93195|T||Krajka-Kuzniak,V., H. Szaefer, and W. Baer-Dubowska|Modulation of Cytochrome P450 and Phase II Enzymes by Protocatechuic Acid in Mouse Liver and Kidney|Toxicology216(1): 24-31|2005|10.1016/j.tox.2005.07.013
93196|T||Owens,I.S., D.W. Nebert, H.H. Liem, and U. Muller-Eberhard|Hemopexin and Aryl Hydrocarbon Hydroxylase Induction in the Mouse and in Cell Culture|Biochem. Pharmacol.27(12): 1665-1669|1978|10.1016/0006-2952(78)90176-4
93197|T||Osaba,L., A. Aguirre, A. Alonso, and U. Graf|Genotoxicity Testing of Six Insecticides in Two Crosses of the Drosophila Wing Spot Test|Mutat. Res.439(1): 49-61|1999|10.1016/S1383-5718(98)00173-9
93198|A||Moore,M.N.|Diet Restriction Induced Autophagy:  A Lysosomal Protective System Against Oxidative- and Pollutant-Stress and Cell Injury|Mar. Environ. Res.58(2-5): 603-607|2004|10.1016/j.marenvres.2004.03.049
93199|T||Somogyi,A., K. Kovacs, B. Solymoss, R. Kuntzman, and A.H. Conney|Suppression of 7, 12-Dimethylbenz(a)anthracene-Produced Adrenal Necrosis by Steroids Capable of Inducing Aryl Hydrocarbon Hydroxylase|Life Sci.10(22, Part 2): 1261-1271|1971|10.1016/0024-3205(71)90233-5
93200|A||Incardona,J.P., H.L. Day, T.K. Collier, and N.L. Scholz|Developmental Toxicity of 4-Ring Polycyclic Aromatic Hydrocarbons in Zebrafish is Differentially Dependent on AH Receptor Isoforms and Hepatic Cytochrome P4501A Metabolism|Toxicol. Appl. Pharmacol.217(3): 308-321|2006|10.1016/j.taap.2006.09.018
93201|A||Feldmannova,M., K. Hilscherova, B. Marsalek, and L. Blaha|Effects of N-Heterocyclic Polyaromatic Hydrocarbons on Survival, Reproduction, and Biochemical Parameters in Daphnia magna|Environ. Toxicol.21(4): 425-431|2006|10.1002/tox.20198
93204|T||Miller,J.A., D.D. Oehler, and S.E. Kunz|Release Rates from Cattle Insecticidal Ear Tags in Various Regions of the United States|Southwest. Entomol.11(1): 45-50|1986|
93206|T||Ray,D.E.|Selective Inhibition of Thermogenesis by Tributyl S,S,S-Phosphorotrithioate (DEF)|Br. J. Pharmacol.69(2): 257-264|1980|10.1111/j.1476-5381.1980.tb07898.x
93207|T||Skrinjaric-Spoljar,M., H.B. Matthews, J.L. Engel, and J.E. Casida|Response of Hepatic Microsomal Mixed-Function Oxidases to Various Types of Insecticide Chemical Synergists Administered to Mice|Biochem. Pharmacol.20(7): 1607-1618|1971|10.1016/0006-2952(71)90289-9
93208|T||DeBarr,G.L., and F.R. Matthews|Insecticide Applications During the Pollination Period do Not Adversely Affect Seed Yields of Loblolly Pine|South. J. Appl. For.9(4): 240-243|1985|10.1093/sjaf/9.4.240
93209|A||Surendranath,P., and K.V.R. Rao|A Comparative Study on the Effects of DDT and Fenvalerate on Selected Lipid Parameters in Tissues of the Penaeid Prawn, Penaeus indicus (M.H. Edwards)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.63(4): 453-457|1993|
93210|T||Reddy,M.S., and K. Natarajan|Effect of a Synthetic Pyrethroid on the Growth of Ectomycorrhizal Fungi and Mycorrhiza Formation in Pinus patula|Mycorrhiza5(2): 115-117|1994|10.1007/BF00202342
93211|T||Chugh,Y., A. Sankaranarayanan, and P.L. Sharma|Effect of Fenvalerate and Endosulfan on Behavioral Despair and Forced Locomotor Activity in Albino Mice|Asia Pac. J. Pharmacol.6(1): 31-35|1991|
93212|T||Nozaki,S., M. Takahashi, and K. Hashimoto|Effect of Pyrethroid (Allethrin and Fenvalerate) on Excitability Changes Following Nerve Impulse|J. Occup. Health37(1): 5-8|1995|
93213|T||Balbaa,M., E.M.E. Abdelhamid, and K. Bassiouny|Enhancement of Lysosomal Enzymes by the Pyrethroids, Fenvalerate and Trans-Cypermethrin|Eisei Kagaku (Multiple Languages)44(2): 83-91|1998|
93214|T||Singh,B., and I. Goel|Relative Toxicity of Insecticides Against Mustard Aphid, Lipaphis erysimi (Kalt.) (Homoptera:  Aphididae)|Uttar Pradesh J. Zool.17(3): 230-232|1997|
93215|T||Mandal,T.K., A. Bhattacharya, A.K. Chakraborty, and D.K. Basak|Disposition Kinetics, Cytotoxicity and Residues of Fenvalerate in Tissues Following Oral Administration to Goats|Pestic. Sci.35(3): 201-207|1992|10.1002/ps.2780350302
93216|T||Garg,U.K., A.K. Pal, G.J. Jha, and S.B. Jadhao|Pathophysiological Effects of Chronic Toxicity with Synthetic Pyrethroid, Organophosphate and Chlorinated Pesticides on Bone Health of Broiler Chicks|Toxicol. Pathol.32(3): 364-369|2004|10.1080/01926230490431745
93217|T||Chatterjee,K.K., G. Talukder, and A. Sharma|Effects of Synthetic Pyrethroids on Mammalian Chromosomes: I. Sumicidin|Mutat. Res.105(1/2): 101-106|1982|
93218|T||Husain,R., A. Gupta, V.K. Khanna, and P.K. Seth|Neurotoxicological Effects of a Pyrethroid Formulation, Fenvalerate in Rats|Res. Commun. Chem. Pathol. Pharmacol.73(1): 111-114|1991|
93219|T||Moniz,A.C., M.M. Bernardi, and H.S. Spinosa|Effects of a Pyrethroid Type II Pesticide on Conditioned Behaviors of Rats|Vet. Hum. Toxicol.36(2): 120-124|1994|
93220|T||Giller,P.S., B. Ryan, T. Kennedy, and J. Connery|Aphid-Parasitoid Interactions in a Winter Cereal Crop:  Field Trials Involving Insecticide Application|J. Appl. Entomol.119(3): 233-239|1995|10.1111/j.1439-0418.1995.tb01276.x
93221|T||Parker,C.M., V.J. Piccirillo, S.L. Kurtz, F.M. Garner, T.H. Gardiner, and G.A. Van Gelder|Six-Month Feeding Study of Fenvalerate in Dogs|Fundam. Appl. Toxicol.4(4): 577-586|1984|10.1016/0272-0590(84)90047-2
93222|A||Prasad,V.V.S., Z. Nazir, A.P. Mansuri, and R. Ramamurthi|Effect of Fenvalerate on Osmoregulation in Mudskipper, Periophthalmus dipus (Cuv & Val)|Indian J. Exp. Biol.33(4): 300-302|1995|
93223|T||Jhala,R.C., Z.P. Patel, K.G. Patel, M.B. Patel, and C.B. Patel|Chemical Control of Bud Boring Insects, Anarsia achrasella Bradley and Nephopteryx eugraphella Ragonot on Sapota|Int. Pest Control35(3): 75-77|1993|
93224|T||Esser,C., Z. Lai, and E. Gleichmann|Proliferation Inhibition and CD4/CD8 Thymocyte Subset Skewing by In Vivo Exposure of C57BL/6 Mice to Ah Receptor-Binding 3,3',4,4'-Tetrachlorobiphenyl|Exp. Clin. Immunogenet.11:75-85|1994|
93225|T||El-Shahaway,M.I., J.P. Chaudhary, and P.D. Sharma|Influence of Insecticidal Applications and Spray Intervals on Auxillary Plant Characters of American Cotton (Gosspium hirsutum)|Ann. Biol.7(1): 97-100|1991|
93226|A||Tilak,K.S., K. Veeraiah, and S.V. Lakshmi|Mixed Toxicity of Fenvalerate and Monocrotophos to the Freshwater Fish Catla catla, Labeo rohita and Cirrhinus mrigala|J. Ecotoxicol. Environ. Monit.11(3): 163-168|2001|
93227|T||Parthasarathy,R., and S.R. Palli|Stage- and Cell-Specific Expression of Ecdysone Receptors and Ecdysone-Induced Transcription Factors During Midgut Remodeling in the Yellow Fever Mosquito, Aedes aegypti|J. Insect Physiol.53(3): 216-229|2007|10.1016/j.jinsphys.2006.09.009
93228|T||Mount,M.E., G. Moller, J. Cook, D.M. Holstege, E.R. Richardson, and A. Ardans|Clinical Illness Associated with a Commercial Tick and Flea Product in Dogs and Cats|Vet. Hum. Toxicol.33(1): 19-27|1991|
93229|T||Tapase,J.S., S.N. Sharma, and S.P. Singh|Pathology of Fenvalerate Toxicity in Buffalo Calves|Indian J. Anim. Sci.65(5): 540-541|1995|
93230|T||Rouchaud,J., P. Roucourt, A. Vanachter, F. Benoit, and N. Ceustermans|Hydrolytic Biodegradation of Chlorothalonil in the Soil and in Cabbage Crops|Toxicol. Environ. Chem.17(1): 59-68|1988|10.1080/02772248809357278
93231|T||Sparks,T.C., and R.L. Byford|Pyrethroid-Synergist Mixtures:  Toxicity, Resistance, and Field Efficacy Toward Pyrethroid-Resistant Horn Flies (Diptera:  Muscidae)|J. Econ. Entomol.81(6): 1567-1574|1988|10.1093/jee/81.6.1567
93232|T||Lee,L.C., and C.Y. Lee|Insecticide Resistance Profiles and Possible Underlying Mechanisms in German Cockroaches, Blattella germanica (Linnaeus) (Dictyoptera: Blattellidae) from Peninsular Malaysia|Eisei Dobutsu55(2): 77-93|2004|10.7601/mez.55.77_1
93233|T||Harlow,C.D., and E.P. Lampert|Resistance Mechanisms in Two Color Forms of the Tobacco Aphid (Homoptera: Aphididae)|J. Econ. Entomol.83(6): 2130-2135|1990|10.1093/jee/83.6.2130
93234|T||Osman,A.A., T.F. Watson, and S. Sivasupramaniam|Susceptibility of Field Populations of Pink Bollworm (Lepidoptera: Gelechiidae) to Azinphosmethyl and Permethrin and Synergism of Permethrin|J. Econ. Entomol.84(2): 358-362|1991|10.1093/jee/84.2.358
93235|T||Ishaaya,I., and M. Klein|Response of Susceptible Laboratory and Resistant Field Strains of Spodoptera littoralis (Lepidoptera: Noctuidae) to Teflubenzuron|J. Econ. Entomol.83(1): 59-62|1990|10.1093/jee/83.1.59
93236|T||Van Laecke,K., and D. Degheele|Synergism of Diflubenzuron and Teflubenzuron in Larvae of Beet Armyworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.84(3): 785-789|1991|10.1093/jee/84.3.785
93237|T||Abernathy,C.O., K. Ueda, J.L. Engel, L.C. Gaughan, and J.E. Casida|Substrate-Specificity and Toxicological Significance of Pyrethroid-Hydrolyzing Esterases of Mouse Liver Microsomes|Pestic. Biochem. Physiol.3(3): 300-311|1973|10.1016/0048-3575(73)90028-X
93238|T||Majumder,S., A.K. Chakraborty, T.K. Mandal, A. Bhattacharya, and D.K. Basak|Subacute Toxicity of Fenvalerate in Broiler Chicks:  Concentration, Cytotoxicity and Biochemical Profiles|Indian J. Exp. Biol.32(10): 752-756|1994|
93239|A||Pandian,R.S., M. Benjamin, and A.C. Manoharan|Evaluation of Synthetic Pesticides and Phytochemical Against the Immature Stages of Culex quinquefasciatus Say|J. Environ. Pollut.7(1): 1-5|2000|
93240|T||Vaidya,D.N., and P.K. Mehta|Efficacy of Field-Weathered Deposits of Insecticides for Control of Gram Podborer, (Helicoverpa armigera) and Cabbage Semilooper (Plusia orichalcea) Larvae on Egyptian Clover (Trifolium alexandrinum)|Indian J. Agric. Sci.63(5): 306-309|1993|
93243|T||Murphy,S.D., K.L. Cheever, A.Y.K. Chow, and M. Brewster|Organophosphate Insecticide Potentiation by Carboxylesterase Inhibitors|Proc. Eur. Soc. Toxicol.17:292-300|1976|
93244|T||Hopkins,A.R., and R.F. Moore|Thidiazuron:  Effect of Applications on Boll Weevil and Bollworm Population Densities, Leaf Abscission, and Regrowth of the Cotton Plant|J. Econ. Entomol.73(6): 768-770|1980|10.1093/jee/73.6.768
93245|T||Norment,B.R., and H.W. Chambers|Temperature Relationships in Organophosphorus Poisoning in Boll Weevils|J. Econ. Entomol.63(2): 502-504|1970|10.1093/jee/63.2.502
93246|T||Laatikainen,T., and H. Heinonen-Tanski|Mycorrhizal Growth in Pure Cultures in the Presence of Pesticides|Microbiol. Res.157(2): 127-137|2002|10.1078/0944-5013-00139
93247|T||Thompson,M.W., M.G. Shaw, R.W. Umber, J.E. Skeen, and R.E. Thackston|Effects of Herbicides and Burning on Overstory Defoliation and Deer Forage Production|Wildl. Soc. Bull.19(2): 163-170|1991|
93248|T||Mandhane,S.N., and C.T. Chopde|Neurobehavioral Effects of Low Level Fenvalerate Exposure in Mice|Indian J. Exp. Biol.35(6): 623-627|1997|
93249|T||Sandhir,R., S. Parwani, and R. Kiran|Effect of Fenvalerate Exposure on Erythrocyte Antioxidant Status in Protein Malnourished Rats|Toxicol. Environ. Chem.83(1-4): 99-106|2002|10.1080/716067231
93250|T||Gaffar,S.A.|Management of Phyllody Through Vector Control in Mustard Crop|J. Insect Sci.7(1): 14-15|1994|
93251|A||Romani,R., G. Isani, A. De Santis, E. Giovannini, and G. Rosi|Effects of Chlorpyrifos on the Catalytic Efficiency and Expression Level of Acetylcholinesterases in the Bivalve Mollusk Scapharca inaequivalvis|Environ. Toxicol. Chem.24(11): 2879-2886|2005|10.1897/04-555R3.1
93252|T||Chakravarty,P., and L. Chatarpaul|The Effects of Velpar L (Hexazinone) on Seedling Growth and Ectomycorrhizal Symbiosis of Pinus resinosa|Can. J. For. Res.18(7): 917-921|1988|10.1139/x88-139
93253|T||Tipping,P.W.|Effects of Mowing or Spraying Carduus thoermeri on Rhinocyllus conicus|Weed Technol.5(3): 628-631|1991|10.1017/S0890037X00027457
93254|T||Litt,A.R., L. Provencher, G.W. Tanner, and R. Franz|Herpetofaunal Responses to Restoration Treatments of Longleaf Pine Sandhills in Florida|Restor. Ecol.9(4): 462-474|2001|10.1046/j.1526-100X.2001.94015.x
93255|T||Pressland,A.J., and F.J. Keenan|Lignum (Muehlenbeckia cunninghamii) Control in the Channel Country|Plant Prot. Q.1(2): 62-66|1985|
93256|T||Rangoonwala,S.P., S.A. Suryawanshi, and A.K. Pandey|Alterations in Serum Calcium and Inorganic Phosphate Levels as Well as Ultrastructures of Parathyroid Gland and C Cells of Rattus norvegicus in Response to Sublethal Administration of Fenvalerate|J. Ecophysiol. Occup. Health2(3/4): 215-224|2002|
93257|T||Scott,J.G., B.A. Croft, and S.W. Wagner|Studies on the Mechanism of Permethrin Resistance in Amblyseius fallacis (Acarina: Phytoseiidae) Relative to Previous Insecticide Use on Apple|J. Econ. Entomol.76(1): 6-10|1983|10.1093/jee/76.1.6
93258|T||Easton,E.R.|Evaluation of the Fly Buster, a Combination Mineral-Salt Feeder/Aerosol Spray Device for Suppression of Horn Fly, Haematobia irritans and Face Fly, Musca autumnalis, on Range Cattle|J. Agric. Entomol.4(2): 179-182|1987|
93259|T||Urrelo,R., and H. Chambers|Synergism of Anticholinesterase Insecticides by Non-Insecticidal Phosphorus Esters in the Boll Weevil Anthonomus grandis Boheman|Turrialba28(1): 71-76|1978|
93260|T||Kakar,K.L.|Repellent Effect of Synthetic Pyrethroids on Indian Honey Bee, Apis cerana indica Fab.|J. Insect Sci.7(2): 191-193|1994|
93261|T||Laroche,F.B.|Managing Melaleuca (Melaleuca quinquenervia) in the Everglades|Weed Technol.12(4): 726-732|1998|10.1017/S0890037X00044626
93262|T||Dai,S.M., and C.N. Sun|Pyrethroid Resistance and Synergism in Nilaparvata lugens Stal (Homoptera:  Delphacidae) in Taiwan|J. Econ. Entomol.77(4): 891-897|1984|10.1093/jee/77.4.891
93263|T||Barkworth,M.E., J. Valdes-Reyna, and R.Q.,Jr. Landers|Stipa clandestina:  New Weed Threat on Southwestern Rangelands|Weed Technol.3(4): 699-702|1989|10.1017/S0890037X00033078
93264|T||Attia,F.I., G.J. Shanahan, and E. Shipp|Synergism Studies with Organophosphorus Resistant Strains of the Indianmeal Moth|J. Econ. Entomol.73(2): 184-185|1980|10.1093/jee/73.2.184
93265|T||Liu,M.Y., J.S. Chen, and C.N. Sun|Synergism of Pyrethroids by Several Compounds in Larvae of the Diamondback Moth (Lepidoptera: Plutellidae)|J. Econ. Entomol.77(4): 851-856|1984|10.1093/jee/77.4.851
93266|T||Ganyard,M.C.,Jr., and J.R. Brazzel|Phosphate Insecticides and Defoliants Applied Singly and in Combination for Control of Boll Weevils|J. Econ. Entomol.60(4): 1027-1029|1967|10.1093/jee/60.4.1027
93267|T||Granett,J., and M.J. Hejazi|Synergism of Two Benzoylphenyl Urea Insect Growth Regulators|J. Econ. Entomol.76(3): 403-406|1983|10.1093/jee/76.3.403
93268|T||Miller,K.V., and and B.R.Chapman |Responses of Vegetation, Birds, and Small Mammals to Chemical and Mechanical Site Preparation|FRI Bull.192:146-148|1995|
93269|T||Nelson,T.E., and K.M.R. Bertun|Synergism of Malathion Against the Northern Fowl Mite|J. Econ. Entomol.58(6): 1117-1118|1965|10.1093/jee/58.6.1117
93270|T||Konno,Y., T. Shishido, and F. Tanaka|Effect of Organophosphorus Synergists on Fenitrothion Resistance in Rice Stem Borer, Chilo suppressalis (Walker) (Lepidoptera:   Pyralidae)|Appl. Entomol. Zool.23(1): 99-102|1988|10.1303/aez.23.99
93271|T||Chen,J.S., and C.N. Sun|Resistance of Diamondback Moth (Lepidoptera:  Plutellidae) to a Combination of Fenvalerate and Piperonyl Butoxide|J. Econ. Entomol.79(1): 22-30|1986|10.1093/jee/79.1.22
93272|T||Knowles,C.O., and J.E. Casida|Mode of Action of Organophosphate Anthelmintics.  Cholinesterase Inhibition in Ascaris lumbricoides|J. Agric. Food Chem.14(6): 566-572|1966|10.1021/jf60148a006
93275|T||Butler,E.G., T. Tanaka, T. Ichida, H. Maruyama, A.P. Leber, and G.M. Williams|Induction of Hepatic Peroxisome Proliferation in Mice by Lactofen, a Diphenyl Ether Herbicide|Toxicol. Appl. Pharmacol.93(1): 72-80|1988|10.1016/0041-008X(88)90026-9
93276|A||Belden,J.B., and M.J. Lydy|Joint Toxicity of Chlorpyrifos and Esfenvalerate to Fathead Minnows and Midge Larvae|Environ. Toxicol. Chem.25(2): 623-629|2006|10.1897/05-370R.1
93277|T||Maiti,P.K., and A. Kar|Dual Role of Testosterone in Fenvalerate-Treated Mice with Respect to Thyroid Function and Lipid Peroxidation|J. Appl. Toxicol.17(2): 127-131|1997|10.1002/(SICI)1099-1263(199703)17:2<127::AID-JAT418>3.0.CO;2-5
93278|T||Moser,V.C., and S. Padilla|Age- and Gender-Related Differences in the Time Course of Behavioral and Biochemical Effects Produced by Oral Chlorpyrifos in Rats|Toxicol. Appl. Pharmacol.149(1): 107-119|1998|10.1006/taap.1997.8354
93279|T||Cross,J.V., and A.M. Berrie|Further Field Evaluation of the Effects of Repeated Foliar Sprays of Insecticides or Fungicides Alone and in Admixture on an Organophosphate-Resistant Strain of the Orchard Predatory Mite Typhlodromus pyri on Apple|Crop Prot.15(7): 637-639|1996|10.1016/0261-2194(96)00030-0
93285|T||Lin,W.Q., and K.L.,Jr. White|Production of Complement Component C3 In Vivo Following 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure|J. Toxicol. Environ. Health39(2): 273-285|1993|10.1080/15287399309531751
93288|T||Thomas,C.F.G., and P.C. Jepson|Field-Scale Effects of Farming Practices on Linyphiid Spider Populations in Grass and Cereals|Entomol. Exp. Appl.84(1): 59-69|1997|10.1046/j.1570-7458.1997.00198.x
93291|A||Tilak,K.S., and K. Yacobu|Toxicity and Effect of Fenvalerate on Fish Ctenopharyngodon idellus|J. Ecotoxicol. Environ. Monit.12(1): 9-15|2002|
93292|A||Matozzo,V., A. Tomei, and M.G. Marin|Effects of 4-Nonylphenol (Xenoestrogen) and Chlorpyrifos (Organophosphorus Pesticide) on Acetylcholinesterase Activity in the Clam Tapes philippinarum|Fresenius Environ. Bull.15(8a): 710-714|2006|
93293|A||Marcial,H.S., A. Hagiwara, and T.W. Snell|Effect of Some Pesticides on Reproduction of Rotifer Brachionus plicatilis Muller|Hydrobiologia (Multiple Languages)546(1): 569-575|2005|10.1007/s10750-005-4302-3
93294|T||Gordon,C.J., and Y.L. Yang|Reduction in Open Field-Induced Hyperthermia in the Rat Exposed to Chlorpyrifos, an Anticholinesterase Pesticide|J. Therm. Biol.26(4-5): 313-318|2001|10.1016/S0306-4565(01)00036-5
93295|T||Gordon,C.J., and P.J. Rowsey|Role of Vagal Afferents in the Mediation of Chlorpyrifos-Induced Fever in the Rat|J. Therm. Biol.25(1-2): 91-97|2000|10.1016/S0306-4565(99)00050-9
93296|T||Horowitz,A.R., N.C. Toscano, R.R. Youngman, and G.P. Georghiou|Synergism of Insecticides with DEF in Sweetpotato Whitefly (Homoptera:  Aleyrodidae)|J. Econ. Entomol.81(1): 110-114|1988|10.1093/jee/81.1.110
93297|T||Abd-Elghafar,S.F., C.O. Knowles, and M.L. Wall|Pyrethroid Resistance in Two Field Strains of Helicoverpa zea (Lepidoptera:  Noctuidae)|J. Econ. Entomol.86(6): 1651-1655|1993|10.1093/jee/86.6.1651
93298|T||Timchalk,C., A. Busby, J.A. Campbell, L.L. Needham, and D.B. Barr|Comparative Pharmacokinetics of the Organophosphorus Insecticide Chlorpyrifos and Its Major Metabolites Diethylphosphate, Diethylthiophosphate and 3,5,6-Trichloro-2-Pyridinol in the Rat|Toxicology237:145-157|2007|10.1016/j.tox.2007.05.007
93300|T||Cochran,D.G.|Selection for Pyrethroid Resistance in the German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.80(6): 1117-1121|1987|10.1093/jee/80.6.1117
93301|T||Moss,J.I.|Synergism of Toxicity of N,N-Diethyl-m-Toluamide to German Cockroaches (Orthoptera: Blattellidae) by Hydrolytic Enzyme Inhibitors|J. Econ. Entomol.89(5): 1151-1155|1996|10.1093/jee/89.5.1151
93302|A||Vijayalakshmi,S., and K.S. Tilak|Effect of Pesticides on the Gill Morphology of Labeo rohita|J. Ecotoxicol. Environ. Monit.6(1): 59-64|1996|
93303|T||Thomas,J., K.G. Phadke, and S. Verma|Efficacy of Some Insecticides Against Mustard Aphids, Safety to Predator, Pollinator and Persistence of Residues on Rapeseed Mustard Crop|Shashpa1(2): 39-44|1994|
93304|T||Riskallah,M.R., M.R. Abo-Elghar, H.S.A. Radwan, M.E. Nassar, and S.F. Abd-Elghafar|Effects of Different Synergists on the Toxicities of Fenvalerate and Decamethrin to Susceptible and Pyrethroid-Resistant Larvae of Spodoptera littoralis (Boisd.)|Int. Pest Control26(2): 38-40|1984|
93305|T||Wang,J., S.N. Lu, R. Chen, and L. Wang|Relative Fitness of Three Organophosphate-Resistant Strains of Culex pipiens pallens (Diptera: Culicidae)|J. Med. Entomol.35(5): 716-719|1998|10.1093/jmedent/35.5.716
93306|T||Gentile,J.M., and M.J. Plewa|The Maize-Microbe Bioassay:  A Unique Approach to Environmental Mutagenesis|NATO Conf. Ser. I. Ecol.5a(1983): 151-165|1983|
93307|T||Keiding,J.|Resistance to Fenitrothion in Danish Houseflies, Musca domestica|J. Hyg. Epidemiol. Microbiol. Immunol.20(2): 171-185|1976|
93309|T||Pree,D.J., D.B. Marshall, and B.D. McGarvey|Residual Toxicity of Dicofol, Formetanate HCI, Propargite, Hexythiazox, and Clofentezine to European Red Mite on Peach|Can. Entomol.124(1): 59-67|1992|10.4039/Ent12459-1
93310|T||Smitley,D.R., and T.W. Davis|Spider Mite Control on Outdoor Roses, 1998|Arthropod Manag. Tests24:378-379|1999|
93311|T||Lindquist,R.K., M.L. Casey, T. Moore, and R.A.J. Taylor|Control of Spider Mite on Dahlia, 1998|Arthropod Manag. Tests24:367-|1999|
93312|T||Tanigoshi,L.K., J.R. Bergen, and J.D. Chamberlain|Twospotted Spider Mite Insecticide Efficacy in Strawberry, 1998|Arthropod Manag. Tests24:78-|1999|
93313|T||Aguirrezabalaga,I., I. Santamaria, and M.A. Comendador|The w/w+ SMART is a Useful Tool for the Evaluation of Pesticides|Mutagenesis9(4): 341-346|1994|10.1093/mutage/9.4.341
93314|T||Walsh,D., F. Zalom, C. Tobia, and D. Shaw|Acaricide Efficacy and Effects on Predatory Mites in Central Coast Strawberries, 1998|Arthropod Manag. Tests24:79-80|1999|10.1093/amt/24.1.C24
93315|T||Tanigoshi,L.K., J.D. Chamberlain, and G.W. Menzies|Twospotted and Yellow Spider Mite Acaricide Control in Red Raspberry, 1998|Arthropod Manag. Tests24:76-77|1999|
93316|T||Wurtz,T.L.|Domestic Geese:  Biological Weed Control in an Agricultural Setting|Ecol. Appl.5(3): 570-578|1995|10.2307/1941967
93317|T||Walton,V.M., and K.L. Pringle|Effects of Pesticides Used on Table Grapes on the Mealybug Parasitoid Coccidoxenoides peregrinus (Timberlake) (Hymenoptera: Encyrtidae)|S. Afr. J. Enol. Vitic.20(1): 31-34|1999|
93318|T||Mizell III,R.F., and D.E. Schiffhauer|Effects of Pesticides on Pecan Aphid Predators Chrysoperla rufilabris (Neuroptera:  Chrysopidae), Hippodamia convergens, Cycloneda sanguinea (L.), Olla v-nigrum (Coleoptera:  Coccinellidae), and Aphelinus perpallidus (H|J. Econ. Entomol.83(5): 1806-1812|1990|10.1093/jee/83.5.1806
93319|T||Rosenheim,J.A., and M.A. Hoy|Sublethal Effects of Pesticides on the Parasitoid Aphytis melinus (Hymenoptera:  Aphelinidae)|J. Econ. Entomol.81(2): 476-483|1988|10.1093/jee/81.2.476
93320|T||Vyas,S.C., and S. Vyas|Arbuscular Mycorrhizal Fungi and Agrichemical Interaction|In: H.H.Schmidt and H.Zschaler (Eds.), Modern Fungicides and Antifungal Compounds, Chapter 54, Intercept Ltd., U.K.:439-444|1995|
93321|T||Tadros,M.S., and W.F. Carey|Effect of a Single Application of Chlorpyrifos on Soil Microarthropods Existing in a Turf Plot, with Reference to Existing Residues of Chlordane, Dursban, and DDT|In: D.A.Griffiths and C.E.Bowman (Eds.), Acarology VI, Ellis Horwood, Chichester, UK2:941-950|1984|
93322|T||Gordon,C.J.|Thermoregulatory Effects of Chlorpyrifos in the Rat:  Long-Term Changes in Cholinergic and Noradrenergic Sensitivity|Neurotoxicol. Teratol.16(1): 1-9|1994|10.1016/0892-0362(94)90002-7
93323|T||Sinclair,P.J., R.J. Neeson, and P.A. Williams|Phytotoxicity of Some Organophosphate Insecticides to Onions and Carrots During Germination and Emergence|Plant Prot. Q.7(1): 23-25|1992|
93324|A||Moraes,B.S., V.L. Loro, L. Glusczak, A. Pretto, C. Menezes, E. Marchezan, and S. De oliveira Machado|Effects of Four Rice Herbicides on Some Metabolic and Toxicology Parameters of Teleost Fish (Leporinus obtusidens)|Chemosphere68(8): 1597-1601|2007|10.1016/j.chemosphere.2007.03.006
93325|A||Bionomics Laboratories|Initial Submission:  Toxicity Study of Pydrin Alone and in Combination with Poal, CPIA, and CPIN in Fathead Minnows with Attach. and Cover Letter Dated 061092|Shell Oil Company, Houston, TX:15 p.|1992|
93326|T||Dow Chemical Co.|The Clinical Toxicity of Dursban in the Dog After Multiple Applications of an Aerosol Formulation (Final Report) with Cover Sheet Dated 121668|EPA/OTS Doc.#86-890001108s:21 p.|2000|
93327|A||Analytical Bio-Chemistry Laboratories Inc.|Initial Submission:  Acute Toxicity of SD 92459 to Bluegill Sunfish (Lepomis macrochirus) (Final Report) with Cover Letter Dated 041492|EPA/OTS Doc.#88-920001965:46 p.|1992|
93328|T||Dow Chemical Co.|The Clinical Toxicity of Dursban in the Dog After Multiple Applications of a Formulation (Final Report) with Cover Sheet (Sanitized)|EPA/OTS Doc.#86-890001110s:19 p.|2000|
93329|T||Shell Oil Co.|Skin Sensory Stimulation Resulting from Impurities Contained in Technical Pydrin with Cover Sheet and Letter Dated 112791|EPA/OTS Doc.#86-920000476:22 p.|1991|
93331|A||Shell Oil Co.|Initial Submission:  Acute Toxicity of Benzeneacetic Acid-4-Chloro-Alpha-(1-Methylethyl)-Cyany(3-Phenoxyphenyl)Methyl Ester: to Rainbow Trout (Salmo gairdneri) W-Cover Letter 041092|Analytical Bio-Chemistry Lab.Inc., Columbia, MO:60 p.|1992|
93332|T||Valarmathi,K., and R. Sundararajan|Biology of Chelonus blackburni Cameron and Comparative Toxicity of Certain Pesticides to Bracon brevicornis Wesmael and Chelonus blackburni Cameron (Hymenoptera: Braconidae)|Entomol. Ser.1:47-51|1986|
93333|T||Sohi,A.S., H.S. Mann, J. Singh, K.S. Brar, and M. Shenbmar|Effect of Insecticides on the Emergence of Trichogramma chilonis Ishii (Hymenoptera: Trichogramatidae), an Egg Parasitoid of Cotton Bollworms|J. Res. Punjab Agric. Univ.34(2): 153-155|1997|
93334|T||Patel,H.M., P.U. Patel, J.F. Dodia, M.C. Patel, D.M. Korat, and K.G. Mehta|Effect of Insecticides on Natural Enemies of Major Insect Pests of Paddy|Gujarat Agric. Univ. Res. J.22(2): 147-151|1997|
93335|T||Owczarek,M., A. De Marco, C. De Simone, and C. D'Ambrosio|Evaluation of Toxic and Genotoxic Activity of Some Pesticides in a Soil-Plant System|In: Proceedings of the 11th Symposium Pesticide Chemistry, Cremona, Italy:755-762|1999|
93336|T||Masoodi,M.A., A.M. Bhat, and V.K. Koul|Toxicity of Insecticide to Adults of Encarsia (= Prospaltella) perniciosi (Hymenoptera:  Aphilinidae)|Indian J. Agric. Sci.59(1): 50-52|1988|
93337|T||Latha,N.A., T.R. Babu, R. Saxena, M. Sriramulu, and D.D.R. Reddy|Evaluation of the Effects of Insecticides on the Egg Larval Parasitoid Chelonus blackburni Cameron (Hymenoptera: Braconidae)|Int. Pest Control40(6): 202-203|1998|
93338|A||Khalil,Z., E.F. Shabana, I.A. Kobbia, and F.T. Zaki|Phosphatase Activities and Phosphorus Fractions in Two Periphytic Cyanobacteria, in Response to Some Pesticides|Egypt. J. Microbiol.26(3): 429-441|1993|
93339|T||Usha,K., and C. Kandasamy|Comparative Toxicity of Certain Pesticides to the Honey Bee Apis indica F.|Pest Manag. Sci.1:31-35|1986|
93340|T||Patel,J.A., M.F. Raj, J.G. Talati, and B.K. Patel|Residues of Quinalphos and Chlorpyriphos from Bidi Tobacco|Tob. Res.21(1/2): 76-78|1995|
93341|A||Jimenez,E.C., and G.N. Pocsidio|Blood Glucose Levels of Oreochromis niloticus Exposed to Chloropyriphos|Philipp. J. Sci.123(2): 171-175|1994|
93342|T||Glez,C.O., A.G. Hernandez, M.P.O. Rodriguez, R.M. Suarez, and M.G. Vila|Degradation Studies of Commonly Used Pesticides in Banana Plantations in the Canary Islands|Acta Hortic.490:395-405|1998|10.17660/ActaHortic.1998.490.40
93343|T||El-Okda,M.M.K., M.A.S. Elewa, K.E.H. Youssef, and N.M. Ali|The Toxicity of Certain Insecticides Against the Full Grown Larvae and Pupae of Cotton Leafworm and Its Phytotoxic Effect on Cotton Cowpea and Maize Germination|Agric. Res. Rev.58(1): 87-95|1982|
93344|T||Belal,M., S. Riad, O. El-Husseiny, and M. Awaad|The Toxicity of Some Insecticides to Fayoumi Chicks|Egypt. J. Anim. Prod.22(2): 127-131|1982|10.21608/ejap.1982.129093
93345|A||Stebbins-Boaz,B., K. Fortner, J. Frazier, S. Piluso, S. Pullen, M. Rasar, W. Reid, K. Sinclair, and E. Winger|Oocyte Maturation in Xenopus laevis is Blocked by the Hormonal Herbicide, 2,4-Dichlorophenoxy Acetic Acid|Mol. Reprod. Dev.67(2): 233-242|2004|10.1002/mrd.10396
93346|T||Ahmed,M.T., Y.M. Ahmed, and A.S. Moustafa|Some Studies on the Development of Resistance to Diflubenzuron in the Egyptian Cotton Leafworm|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(2a): 477-483|1987|
93347|T||Rees,N.E., and P.K. Fay|Survival of Leafy Spurge Hawk Moths (Hyles euphorbiae) when Larvae are Exposed to 2,4-D or Picloram|Weed Technol.3(2): 429-431|1989|10.1017/S0890037X00032085
93348|T||Miranda,S., V. Vollrath, A.M. Wielandt, G. Loyola, M. Bronfman, and J. Chianale|Overexpression of mdr2 Gene by Peroxisome Proliferators in the Mouse Liver|J. Hepatol.26(6): 1331-1339|1997|10.1016/S0168-8278(97)80469-2
93358|T||Celetti,M.J., and R. Hall|Effects of Maneb, Carbathiin and Triadimenol as Seed Treatments on Yield of Winter Wheat and on Infection of the Crown by Fusarium spp.|Phytoprotection (Multiple Languages)68(1): 49-55|1987|
93359|T||Campiche,S., G. L'Ambert, J. Tarradellas, and K. Becker-Van Slooten|Multigeneration Effects of Insect Growth Regulators on the Springtail Folsomia candida|Ecotoxicol. Environ. Saf.67(2): 180-189|2007|10.1016/j.ecoenv.2006.11.009
93360|T||Davis,D.A.M.P.|Immunotoxicity of the Halogenated Aromatic Hydrocarbons-QSARS and Interactive Effects|Ph.D. Thesis, Texas A&M University, College Station TX:181 p.|1989|
93361|T||Mikov,I., M. Milosevic, A. Mikov, and M. Mikov|Increased Urinary Excretion of Thioethers as a Marker for Detecting Exposure to Herbicide Containing 2,4-Dichlorophenoxyacetic Acid Dimethylamine - Experimental Study on Mice|AAEM Ann. Agric. Environ. Med.7(1): 61-63|2000|
93362|T||Dimitrov,B., and P. Gadeva|Genotoxic Effects of Five Pesticides in Crepis capillaris Root Meristem Cells|In: I.Tsekos and M.Moustakas (Eds.), Progress in Botanical Research, Balkan Botanical Congress, Dordrecht, Netherlands:477-480|1998|
93363|T||El-Daly,F.A.|Role of Fenvalerate (Pyrethroid) and Cyanox (Organophosphorus) Insecticides on Growth and Some Metabolic Activities During Seedling Growth of Raphanus sativus L.|Pak. J. Biol. Sci.9(12): 2313-2317|2006|10.3923/pjbs.2006.2313.2317
93364|T||Cometa,M.F., F.M. Buratti, S. Fortuna, P. Lorenzini, M.T. Volpe, L. Parisi, E. Testai, and A. Meneguz|Cholinesterase Inhibition and Alterations of Hepatic Metabolism by Oral Acute and Repeated Chlorpyrifos Administration to Mice|Toxicology234(1-2): 90-102|2007|10.1016/j.tox.2007.02.008
93367|T||Juhasz,E., R. Szabo, M. Keseru, P. Budai, and L. Varnagy|Teratogenicity Testing of a 2,4-D Containing Herbicide Formulation and Three Heavy Metals in Chicken Embryos|Commun. Agric. Appl. Biol. Sci.71(2 pt a): 111-114|2006|
93368|AT||Brooker,M.P.|The Ecological Effects of the Use of Dalapon and 2,4-D for Drainage Channel Management II. Fauna|Arch. Hydrobiol.78(4): 507-525|1976|
93369|A||Mushigeri,S.B., and M. David|Accumulation of Fenvalerate and Related Changes in Lactate and Succinate Dehydrogenases Activity in Functionally Different Tissues of the Freshwater Fish, Cirrhinus mrigala (Hamilton)|J. Basic Clin. Physiol. Pharmacol.15(3/4): 143-152|2004|10.1515/JBCPP.2004.15.3-4.143
93370|T||Ripley,B.D., G.M. Ritcey, C.R. Harris, M.A. Denomme, and P.D. Brown|Pyrethroid Insecticide Residues on Vegetable Crops|Pest Manag. Sci.57(8): 683-687|2001|10.1002/ps.325
93371|T||Nishimatsu,T., T. Hirooka, H. Kodama, M. Tohnishi, and A. Seo|Flubendiamide - a New Insecticide for Controlling Lepidopterous Pests|In: BCPC International Congress: Crop Science and Technology. Glasgow, Scotland, UK:57-64|2005|
93375|T||Khalatkar,A.S., and Y.R. Bhargava|2,4-Dichlorophenoxyacetic Acid - A New Environmental Mutagen|Mutat. Res.103(2): 111-114|1982|
93376|T||Helyer,N.L.|Evaluation of Phytotoxicity of Pesticides to Protected Edible Crops|Tests Agrochem. Cultiv.11:82-83|1990|
93377|T||Singh,S., L. Bhushan, J.K. Ladha, R.K. Gupta, A.N. Rao, and B. Sivaprasad|Weed Management in Dry-Seeded Rice (Oryza sativa) Cultivated in the Furrow-Irrigated Raised-Bed Planting System|Crop Prot.25(5): 487-495|2006|10.1016/j.cropro.2005.08.004
93378|A||Micic,M., N. Bihari, and I. Mlinaric-Rascan|Influence of Herbicide, 2,4-Dichlorophenoxy Acetic Acid, on Haemocyte DNA of In Vivo Treated Mussel|J. Exp. Mar. Biol. Ecol.311(1): 157-169|2004|10.1016/j.jembe.2004.05.007
93379|A||LaChapelle,A.M., M.L. Ruygrok, M. Toomer, J.J. Oost, M.L. Monnie, J.A. Swenson, A.A. Compton, and B. Stebbins-Boaz|The Hormonal Herbicide, 2,4-Dichlorophenoxyacetic Acid, Inhibits Xenopus Oocyte Maturation by Targeting Translational and Post-Translational Mechanisms|Reprod. Toxicol.23(1): 20-31|2007|10.1016/j.reprotox.2006.08.013
93380|A||Edginton,A.N., C. Rouleau, G.R. Stephenson, and H.J. Boermans|2,4-D Butoxyethyl Ester Kinetics in Embryos of Xenopus laevis: The Role of the Embryonic Jelly Coat in Reducing Chemical Absorption|Arch. Environ. Contam. Toxicol.52(1): 113-120|2007|10.1007/s00244-005-0215-4
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93382|T||De la Rosa,P., J.B. Barnett, and R. Schafer|Loss of Pre-B and IgM+ B Cells in the Bone Marrow After Exposure to a Mixture of Herbicides|J. Toxicol. Environ. Health Part A66(24): 2299-2313|2003|10.1080/716100638
93383|T||Sukul,P.|Effect of Synthetic Pyrethroids on Leaf Chlorophyll and Grain Nutrient Element Content of Green Gram (Vigna radiata L.) Wilczek|Agric. Biol. Res.10(1-2): 8-11|1994|
93384|T||Graf,U., and F.E. Wurgler|The Somatic White-Ivory Eye Spot Test does not Detect the Same Spectrum of Genotoxic Events as the Wing Somatic Mutation and Recombination Test in Drosophila melanogaster|Environ. Mol. Mutagen.27(3): 219-226|1996|10.1002/(SICI)1098-2280(1996)27:3<219::AID-EM7>3.0.CO;2-9
93385|T||Evangelista De Duffard,A.M., A. Fabra de Peretti, S. Castro de Cantarini, and R. Duffard|Effects of 2,4-Dichlorophenoxyacetic Acid Butyl Ester on Chick Lliver|Arch. Environ. Contam. Toxicol.25(2): 204-211|1993|10.1007/BF00212131
93386|T||Castro de Cantarini,S., R. Duffard, and A. Evangelista de Duffard|Esterase Activities During Chick Embryonic Development and Its Relationship with the Metabolism of 2,4-Dichlorophenoxyacetic Acid Butyl Ester|Bull. Environ. Contam. Toxicol.49(4): 520-526|1992|10.1007/BF00196293
93387|T||Elo,H.A., and E. MacDonald|Effects of 2,4-Dichlorophenoxyacetic Acid (2,4-D) on Biogenic Amines and Their Acidic Metabolites in Brain and Cerebrospinal Fluid of Rats|Arch. Toxicol.63(2): 127-130|1989|10.1007/BF00316434
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93390|T||Florsheim,W.H., S.M. Velcoff, and A.D. Williams|Some Effects of 2,4-Dichlorophenoxyacetic Acid on Thyroid Function in the Rat:  Effects on Peripheral Thyroxine|Endocrinology72:327-333|1963|10.1210/endo-72-2-327
93391|T||Estok,D., B. Freedman, and D. Boyle|Effects of the Herbicides 2,4-D, Glyphosate, Hexazinone, and Triclopyr on the Growth of Three Species of Ectomycorrhizal Fungi|Bull. Environ. Contam. Toxicol.42(6): 835-839|1989|10.1007/BF01701623
93392|T||Wang,J., D.M. Seliskar, and J.L. Gallagher|Plant Regeneration via Somatic Embryogenesis in the Brackish Wetland Monocot Scirpus robustus|Aquat. Bot.79(2): 163-174|2004|10.1016/j.aquabot.2004.02.003
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93413|T||Arias,E.|Acute Toxicity to Chick Embryos of a Formulated Product Containing the Phenoxy Herbicide 2,4-Dichlorophenoxyacetic Acid (2,4-D)|Med. Sci. Res.22(1): 11-12|1994|
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93429|T||Wise,L.D., H.L. Allen, C.M.L. Hoe, D.R. Verbeke, and R.J. Gerson|Developmental Neurotoxicity Evaluation of the Avermectin Pesticide, Emamectin Benzoate, in Sprague-Dawley Rats|Neurotoxicol. Teratol.19(4): 315-326|1997|10.1016/S0892-0362(97)00002-0
93430|T||Alpoz,A.R., N. Tosun, C. Eronat, N. Delen, and B.H. Sen|Effects of 2,4-Dichlorophenoxy Acetic Acid Dimethyl Amine Salt on Dental Hard Tissue Formation in Rats|Environ. Int.26(3): 137-142|2001|10.1016/S0160-4120(00)00095-7
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93433|T||Kaioumova,D., F. Kaioumov, G. Opelz, and C. Susal|Toxic Effects of the Herbicide 2,4-Dichlorophenoxyacetic Acid on Lymphoid Organs of the Rat|Chemosphere43(4-7): 801-805|2001|10.1016/S0045-6535(00)00436-7
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93435|T||Ohmori,H., K. Yamashita, T. Hatta, S. Yamasaki, M. Kawamura, Y. Higashi, N. Yata, and M. Yasuda|Effects of Low-Dose Phenytoin Administered to Newborn Mice on Developing Cerebellum|Neurotoxicol. Teratol.19(3): 205-211|1997|10.1016/S0892-0362(97)00014-7
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93499|T||Flocco,C.G., A. Lobalbo, M.P. Carranza, M. Bassi, A.M. Giulietti, and W.P. MacCormack|Some Physiological, Microbial, and Toxicological Aspects of the Removal of Phenanthrene by Hydroponic Cultures of Alfalfa (Medicago sativa L.)|Int. J. Phytoremediat.4(3): 169-186|2002|10.1080/15226510208500081
93500|A||EPA/OTS|Summary of a Study on the Environmental Fate and Effects of the Pesticide Chlorpyrifos|EPA/OTS Doc.#40-84421597:2 p.|2000|
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93502|A||Mortimer,M.R., and H.F. Chapman|Acute Toxic Effects of (S)-Methoprene and Temephos to Some Australian Non-target Aquatic Crustacean Species|Australas. J. Ecotoxicol.1(2): 107-111|1995|
93503|A||Harford,A.J., K. O'Halloran, and P.F.A. Wright|Effect of In Vitro and In Vivo Organotin Exposures on the Immune Functions of Murray Cod (Maccullochella peelii peelii)|Environ. Toxicol. Chem.26(8): 1649-1656|2007|10.1897/06-449R.1
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93506|T||Badawi,A.F., E.L. Cavalieri, and E.G. Rogan|Effect of Chlorinated Hydrocarbons on Expression of Cytochrome P450 1A1, 1A2 and 1B1 and 2- and 4-Hydroxylation of 17beta -Estradiol in Female Sprague-Dawley Rats|Carcinogenesis21(8): 1593-1599|2000|10.1093/carcin/21.8.1593
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93514|T||Garcia,G., P. Tagliaferro, A. Bortolozzi, M.J. Madariaga, A. Brusco, A.M. Evangelista De Duffard, R. Duffard, and J.P. |Morphological Study of 5-HT Neurons and Astroglial Cells on Brain of Adult Rats Perinatal or Chronically Exposed to 2,4-Dichlorophenoxyacetic Acid|Neurotoxicology22(6): 733-741|2001|10.1016/S0161-813X(01)00059-6
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93520|T||Remmen,L.N., and N.Y. Su|Time Trends in Mortality for Thiamethoxam and Fipronil Against Formosan Subterranean Termites and Eastern Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.98(3): 911-915|2005|10.1603/0022-0493-98.3.911
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93525|T||Yilmaz,H.R., and E. Yuksel|Effect of 2,4-Dichlorophenoxyacetic Acid on the Activities of Some Metabolic Enzymes for Generating Pyridine Nucleotide Pool of Cells from Mouse Liver|Toxicol. Ind. Health21(9): 231-237|2005|10.1191/0748233705th231oa
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93529|T||Quistad,G.B., R. Klintenberg, P. Caboni, S.N. Liang, and J.E. Casida|Monoacylglycerol Lipase Inhibition by Organophosphorus Compounds Leads to Elevation of Brain 2-Arachidonoylglycerol and the Associated Hypomotility in Mice|Toxicol. Appl. Pharmacol.211(1): 78-83|2006|10.1016/j.taap.2005.10.007
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93531|T||Xia,X.J., Y.Y. Huang, L. Wang, L.F. Huang, Y.L. Yu, Y.H. Zhou, and J.Q. Yu|Pesticides-Induced Depression of Photosynthesis was Alleviated by 24-Epibrassinolide Pretreatment in Cucumis sativus L|Pestic. Biochem. Physiol.86(1): 42-48|2006|10.1016/j.pestbp.2006.01.005
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93589|T||Fischer,W.H., and W.K. Lutz|Influence of Diet Restriction and Tumor Promoter Dose on Cell Proliferation, Oxidative DNA Damage and Rate of Papilloma Appearance in the Mouse Skin After Initiation with DMBA and Promotion with TPA|Toxicol. Lett.98(1-2): 59-69|1998|10.1016/S0378-4274(98)00105-2
93590|A||Frouin,H., J. Pellerin, M. Fournier, E. Pelletier, P. Richard, N. Pichaud, C. Rouleau, and F. Garnerot|Physiological Effects of Polycyclic Aromatic Hydrocarbons on Soft-Shell Clam Mya arenaria|Aquat. Toxicol.82(2): 120-134|2007|10.1016/j.aquatox.2007.02.005
93591|A||Leney,J.L., K.G. Drouillard, and G.D. Haffner|Metamorphosis Increases Biotransformation of Polychlorinated Biphenyls:  A Comparative Study of Polychlorinated Biphenyl Metabolism in Green Frogs (Rana clamitans) and Leopard Frogs (Rana pipiens) at Various Life Stages|Environ. Toxicol. Chem.25(11): 2971-2980|2006|10.1897/05-561R1.1
93592|A||Shailaja,M.S., R. Rajamanickam, and S. Wahidulla|Formation of Genotoxic Nitro-PAH Compounds in Fish Exposed to Ambient Nitrite and PAH|Toxicol. Sci.91(2): 440-447|2006|10.1093/toxsci/kfj151
93593|T||Minton,E.B., and W.R.,Jr. Meredith|Root-Knot Nematode Effect on Nine Cotton Cultivars in Mississippi|Crop Sci.27(5): 1001-1004|1987|10.2135/cropsci1987.0011183X002700050036x
93594|T||Kaya,B., A. Yanikoglu, and R. Marcos|Genotoxicity Studies on the Phenoxyacetates 2,4-D and 4-CPA in the Drosophila Wing Spot Test|Teratog. Carcinog. Mutagen.19(4): 305-312|1999|10.1002/(SICI)1520-6866(1999)19:4<305::AID-TCM7>3.0.CO;2-X
93595|T||Saito-Suzuki,R., S. Teramoto, and Y. Shirasu|Dominant Lethal Studies in Rats with 1,2-Dibromo-3-Chloropropane and Its Structurally Related Compounds|Mutat. Res.101(4): 321-327|1982|10.1016/0165-1218(82)90125-2
93596|T||Zehr,E.I., and J.K. Golden|Strip and Broadcast Treatments of Dichloropropene Compared for Controlling Criconemella xenoplax and Short Life in a Peach Orchard|Plant Dis.70(11): 1064-1066|1986|10.1094/PD-70-1064
93597|T||O'Sullivan,J., and A.A. Reyes|Effects of Soil Fumigation, Rotation, and Nitrogen on Yield, Petiole NO3-N, and Verticillium Wilt of Potatoes|J. Am. Soc. Hortic. Sci.105(6): 809-812|1980|10.21273/JASHS.105.6.809
93598|T||Bortolozzi,A., R.O. Duffard, M. Rubio, N. Sturtz, and A.M. Evangelista De Duffard|Regionally Specific Changes in Central Brain Monoamine Levels by 2,4-Dichlorophenoxyacetic Acid in Acute Treated Rats|Neurotoxicology19(6): 839-851|1998|
93599|T||Mori de Moro,G.M., R. Duffard, and A.M. Evangelista De Duffard|Changes in Fatty Acid Composition in Myelin Lipids After 2,4-Dichlorophenoxyacetic Butyl Ester Treatment|Neurotoxicology7(3): 173-180|1986|
93600|T||Kim,C.S., R.F. Keizer, and J.B. Pritchard|2,4-Dichlorophenoxyacetic Acid Intoxication Increases Its Accumulation Within the Brain|Brain Res.440(2): 216-226|1988|10.1016/0006-8993(88)90989-4
93601|T||Shipp,M.P.|Phytotoxicity and Efficacy Using Tank Mixtures of Harmony Extra with Growth Regulating Herbicides on Selected Southern Turfgrasses|M.S. Thesis, Stephen F. Austin State University, Nacogdoches, TX:92 p.|2001|
93603|T||Dinamarca,V.M., M.E. Hidalgo, and M.F. Cavieres|Lack of Effects of 2,4-Dichlorophenoxyacetic Acid Administration on Markers of Oxidative Stress During Early Pregnancy in Mice|Toxicology237:104-110|2007|10.1016/j.tox.2007.05.002
93605|A||Crestani,M., C. Menezes, L. Glusczak, D. dos Santos Miron, R. Lazzari, M.F. Duarte, V.M. Morsch, A.L. Pippi, and V.P. V|Effects of Clomazone Herbicide on Hematological and Some Parameters of Protein and Carbohydrate Metabolism of Silver Catfish Rhamdia quelen|Ecotoxicol. Environ. Saf.65(1): 48-55|2006|10.1016/j.ecoenv.2005.06.008
93606|A||Crestani,M., C. Menezes, L. Glusczak, D. dos Santos Miron, R. Spanevello, A. Silveira, F.F. Goncalves, R. Zanella, and |Effect of Clomazone Herbicide on Biochemical and Histological Aspects of Silver Catfish (Rhamdia quelen) and Recovery Pattern|Chemosphere67(11): 2305-2311|2007|10.1016/j.chemosphere.2006.09.070
93607|T||Sauls,B.T.|Pesticide Risk Mitigation of Avian Wildlife in Iowa Agroecosystems|Ph.D Thesis, Texas Tech University, Lubbock, TX:119 p.|1999|
93608|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of 1,2-Dichloropropane (Propylene Dichloride) (Cas No. 78-87-5) in F344/N Rats and B6C3F1 Mice (Gavage Studies)|Natl. Toxicol. Program Tech. Rep. Ser.263:182 p.|1986|
93611|A||Shell Oil Co.|Initial Submission:  Determination of Acute Toxicity to Fish of Shell Chemicals I.  (Including Tetrahydrothiophene 1,1-Dioxide), with Cover Letter Dated 2/7/84|Shell Oil Company, Houston, TX:24 p.|1994|
93616|T||Dow Chemical Co.|Telone C-17 Soil Fungicide and Nematicide:  Primary Dermal Irritation Study in New Zealand White Rabbits (Final Report) with Cover Letter Dated 092688|EPA/OTS Doc.#86-890000001:14 p.|2000|
93617|T||Dow Chemical Co.|Telone C-17 Soil Fungicide and Nematicide: Dermal Sensitization Potential in the Hartley Albino Guinea Pig with Attachments and Cover Letter Dated 091388|EPA/OTS Doc.#86-880000357:17 p.|2000|
93618|T||Arias,E.|Sister Chromatid Exchange Induction by the Herbicide 2,4-Dichlorophenoxyacetic Acid in Chick Embryos|Ecotoxicol. Environ. Saf.55(3): 338-343|2003|10.1016/S0147-6513(02)00131-8
93620|A||Rodriguez,E.M., M. Schuldt, and L. Romano|Chronic Histopathological Effects of Parathion and 2,4-D on Female Gonads of Chasmagnathus granulata (Decapoda, Brachyura)|Food Chem. Toxicol.32(9): 811-818|1994|10.1016/0278-6915(94)90157-0
93622|T||Jonathan,S.G., and I.O. Fasidi|Studies on Phytohormones, Vitamins and Mineral Element Requirements of Lentinus subnudus (Berk) and Schizophyllum Commune (Fr. Ex. Fr) from Nigeria|Food Chem.75(3): 303-307|2001|10.1016/S0308-8146(01)00154-6
93623|T||Jonathan,S.G., I.O. Fasidi, and E.J. Ajayi|Physico-Chemical Studies on Volvariella esculenta (Mass) Singer, a Nigerian Edible Fungus|Food Chem.85(3): 339-342|2004|10.1016/j.foodchem.2003.06.014
93624|T||Jonathan,S.G., and I.O. Fasidi|Studies on Psathyerella atroumbonata (Pegler), a Nigerian Edible Fungus|Food Chem.81(4): 481-484|2003|10.1016/S0308-8146(02)00237-6
93626|T||Mattsson,J.L., R.R. Albee, K.A. Johnson, and J.F. Quast|Neurotoxicologic Examination of Rats Dermally Exposed to 2,4-D Amine for Three Weeks|Neurobehav. Toxicol. Teratol.8(3): 255-263|1986|
93627|T||Blakley,B.R., M.J. Yole, P. Brousseau, H. Boermans, and M. Fournier|Effect of 2,4-Dichlorophenoxyacetic Acid, Trifluralin and Triallate Herbicides on Immune Function|Vet. Hum. Toxicol.40(1): 5-10|1998|
93628|T||Duffard,R.O., G.B. Mori de Moro, and A.M. Evangelista De Duffard|Vulnerability of Myelin Development of the Chick to the Herbicide 2,4-Dichlorophenoxyacetic Butyl Ester|Neurochem. Res.12(12): 1077-1080|1987|10.1007/BF00971707
93629|T||Rosso,S.B., G.B. Garcia, M.J. Madariaga, A.M. Evangelista De Duffard, and R.O. Duffard|2,4-Dichlorophenoxyacetic Acid in Developing Rats Alters Behaviour, Myelination and Regions Brain Gangliosides Pattern|Neurotoxicology21(1-2): 155-163|2000|
93630|T||Calhoun,M.C., D.N. Ueckert, C.W.,Jr. Livingston, and B.J. Camp|Effect of 2,4-D on Hymenoxon Concentration and Toxicity of Bitterweed (Hymenoxys odorata ) Force-Fed to Sheep|J. Range Manag.35(4): 489-492|1982|10.2307/3898612
93631|T||Sanatagostino,A., M.P. Leone, R. Maci, A. Casale, and L. Marabini|Effects of Phenoxyacetic Acid Herbicides on Chicken Embryo Liver Drug Metabolizing Enzyme|Pharmacol. Toxicol.68(2): 110-114|1991|10.1111/j.1600-0773.1991.tb02046.x
93632|T||Schulze,G.E.|Formulation and Food Deprivation Affects 2,4-D Neurobehavioral Toxicity in Rats|Neurotoxicol. Teratol.9(5): 363-367|1987|10.1016/0892-0362(87)90032-8
93633|T||Oliveira,G.H., and J. Palermo-Neto|Effects of 2,4-Dichlorophenoxyacetic Acid (2,4-D) on Open-Field Behaviour and Neurochemical Parameters of Rats|Pharmacol. Toxicol.73(2): 79-85|1993|10.1111/j.1600-0773.1993.tb01540.x
93634|T||Linnainmaa,K.|Induction of Sister Chromatid Exchanges by the Peroxisome Proliferators 2,4-D, MCPA, and Clofibrate In Vivo and In Vitro|Carcinogenesis5(6): 703-707|1984|10.1093/carcin/5.6.703
93635|T||Morrell,J.J., M.E. Corden, A.R. Zahora, and M.Y. Giron|Application of Fumigants to Control Decay Fungi that Colonize Scots Pine, Eucalyptus, Apitong, and Tangile|Mater. Org.21(4): 265-272|1986|
93636|T||Roslycky,E.B.|Fungicidal Activity of Vorlex and Accumulation of Linuron in a Vorlex-Linuron Treated Soil|Can. J. Soil Sci.60(4): 651-656|1980|10.4141/cjss80-074
93637|T||Hinz,J.R.R., and M.D.K. Owen|Acetolactate Synthase Resistance in a Common Waterhemp (Amaranthus rudis) Population|Weed Technol.11(1): 13-18|1997|10.1017/S0890037X00041269
93641|T||Ristaino,J.B., and C.W. Averre|Effects of Irrigation, Sulfur, and Fumigation on Streptomyces Soil Rot and Yield Components in Sweetpotato|Phytopathology82(6): 670-677|1992|10.1094/Phyto-82-670
93642|T||Terrill,J.B., M. Robinson, G.W. Wolfe, and L.H. Billups|The Subacute and Subchronic Oral Toxicity of 1,3-Dichloropropane in the Rat|J. Am. Coll. Toxicol.10(4): 421-430|1991|10.3109/10915819109078640
93643|T||Tu,C.M., C.F. Marks, P.W. Johnson, S.K. Gayed, and J.M. Elliot|Effects of Pesticides on Soil Enzymatic Activities, Pratylenchus penetrans Populations, Black Root Rot, and Growth of Flue-Cured Tobacco|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(2): 141-162|1995|
93644|T||Tu,C.M., C.F. Marks, P.W. Johnson, and J.M. Elliot|Effects of Nematicides on Population of Pratylenchus penetrans and Growth of Flue-Cured Tobacco|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(4): 499-512|1995|
93645|T||Tu,C.M.|Influence of Pesticides on Acetylene Reduction and Growth of Microorganisms in an Organic Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(6): 617-624|1979|
93646|T||Tu,C.M.|Effects of Pesticides on Activities of Enzymes and Microorganisms in a Clay Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(2): 179-191|1981|
93647|T||Thies,W.G., and E.E. Nelson|Reduction of Phellinus weirii Inoculum in Douglas-Fir Stumps by the Fumigants Chloropicrin, Vorlex, or Methylisothiocyanate|For. Sci.33(2): 316-329|1987|
93648|T||Schmitt,D.P.|Susceptibility of Soybean to Scutellonema brachyurum|Ann. Appl. Nematol.2:137-139|1988|
93649|T||Trevisan,A., E. Rizzi, A. Scapinello, F. Gioffre, and P. Chiesura|Liver Toxicity due to 1,2-Dichloropropane in the Rat|Arch. Toxicol.63(6): 445-449|1989|10.1007/BF00316446
93650|T||Imberti,R., A. Mapelli, P. Colombo, P. Richelmi, F. Berte, and G. Bellomo|1,2-Dichloropropane (DCP) Toxicity is Correlated with DCP-Induced Glutathione (GSH) Depletion and is Modulated by Factors Affecting Intracellular GSH|Arch. Toxicol.64(6): 459-465|1990|10.1007/BF01977627
93651|T||Bruckner,J.V., W.F. Mackenzie, R. Ramanathan, S. Muralidhara, H.J. Kim, and C.E. Dallas|Oral Toxicity of 1,2-Dichloropropane:  Acute, Short-Term, and Long-Term Studies in Rats|Fundam. Appl. Toxicol.12(4): 713-730|1989|10.1016/0272-0590(89)90003-1
93652|T||Kirk,H.D., N.M. Berdasco, W.J. Breslin, and T.R.,Jr. Hanley|Developmental Toxicity of 1,2-Dichloropropane (PDC) in Rats and Rabbits Following Oral Gavage|Fundam. Appl. Toxicol.28(1): 18-26|1995|10.1006/faat.1995.1141
93653|T||Osterloh,J., and H. Xiwen|Effects of 1,3-Dichloropropene on the Kidney of Fisher 344 Rats After Pretreatment with Diethyl Maleate, Buthionine Sulfoximine, and Aminooxyacetic Acid|J. Toxicol. Environ. Health28(3): 247-255|1990|10.1080/15287399009531388
93654|T||Yang,R.S.H., J.E. Huff, G.A. Boorman, J.K. Haseman, M. Kornreich, and J.L. Stookey|Chronic Toxicology and Carcinogenesis Studies of Telone II by Gavage in Fischer-344 Rats and B6C3F1 Mice|J. Toxicol. Environ. Health18(3): 377-392|1986|10.1080/15287398609530879
93655|T||Knopp,D., and F. Schiller|Oral and Dermal Application of 2,4-Dichlorophenoxyacetic Acid Sodium and Dimethylamine Salts to Male Rats: Investigations on Absorption and Excretion as Well as Induction of Hepatic Mixed-Function Oxidase Activities|Arch. Toxicol.66(3): 170-174|1992|10.1007/BF01974010
93656|T||Stoyer,T.L., and L.T. Kok|Oviposition by Trichosirocalus horridus (Coleoptera:  Curculionidae), a Biological Control Agent for Carduus Thistles, on Plants Treated with low Dosages of 2,4-Dichlorophenoxyacetic Acid|Environ. Entomol.18(4): 715-718|1989|10.1093/ee/18.4.715
93657|T||Snodgrass,G.L., and E.A. Stadelbacher|Population Levels of Tarnished Plant Bugs (Heteroptera: Miridae) and Beneficial Arthropods Following Early-Season Treatments of Geranium dissectum for Control of Bollworms and Tobacco Budworms (Lepidoptera: Noctuidae)|Environ. Entomol.23(5): 1091-1096|1994|10.1093/ee/23.5.1091
93658|T||Mattsson,J.L., K.A. Johnson, and R.R. Albee|Lack of Neuropathologic Consequences of Repeated Dermal Exposure to  2,4-Dichlorophenoxyacetic Acid in Rats|Fundam. Appl. Toxicol.6(1): 175-181|1986|10.1016/0272-0590(86)90274-5
93659|A||Ma,J., N. Lu, W. Qin, R. Xu, Y. Wang, and X. Chen|Differential Responses of Eight Cyanobacterial and Green Algal Species, to Carbamate Insecticides|Ecotoxicol. Environ. Saf.63(2): 268-274|2006|10.1016/j.ecoenv.2004.12.002
93660|T||Nelson,E.E., W.G. Thies, and M.G. McWilliams|Trichoderma spp. from Roots of Fumigated Douglas-Fir Trees Infected with Phellinus weirii|Mycologia87(5): 639-642|1995|10.1080/00275514.1995.12026579
93661|T||Giron,M.Y., and J.J. Morrell|Fungi Colonizing Preservative-Treated Douglas-Fir Poles After Remedial Treatment with Fumigants|Can. J. Microbiol.35(2): 283-288|1989|10.1139/m89-042
93662|T||Grove,I.G., S.R. Woods, and P.P.J. Haydock|Toxicity of 1,3-Dichloropropene and Fosthiazate to Wireworms (Agriotes spp.)|Ann. Appl. Biol.137(1): 1-6|2000|10.1111/j.1744-7348.2000.tb00051.x
93663|T||Mateille,T., P. Queneherve, and R. Hugon|The Development of Plant-Parasitic Nematode Infestations on Micro-Propagated Banana Plants Following Field Control Measures in Cote d'Ivoire|Ann. Appl. Biol.125(1): 147-159|1994|10.1111/j.1744-7348.1994.tb04956.x
93664|T||Roslycky,E.B.|Response of Soil Microflora and Certain Crops to Vorlex and Linuron|Can. J. Soil Sci.57(2): 103-108|1977|10.4141/cjss77-014
93665|T||Kerstiens,G.|In Vivo Manipulation of Cuticular Water Permeance and Its Effect on Stomatal Response to Air Humidity|New Phytol.137(3): 473-480|1997|10.1046/j.1469-8137.1997.00847.x
93671|T||Fortnum,B.A., and R.E. Currin III|Crop Rotation and Nematicide Effects on the Frequency of Meloidogyne spp. in a Mixed Population|Phytopathology83(3): 350-355|1993|10.1094/Phyto-83-350
93672|T||Csinos,A.S., A.W. Johnson, and A.M. Golden|Management of the Tobacco Black Shank-Root-Knot Complex with Combinations of Soil Fumigants and Metalaxyl|Plant Dis.78(6): 565-568|1994|10.1094/PD-78-0565
93673|T||Morrell,J.J., P.G. Forsyth, and W.G. Thies|Distribution of Methylisothiocyanate and Chloropicrin in Boles or Roots of Douglas-Fir Trees|Can. J. For. Res.24(12): 2324-2329|1995|10.1139/x94-300
93674|T||Barnekow,D.E., S.M. Brown, S.L. Byrne, A.W. Hamburg, M.A. Huskin, and A.M. Leisure|Characterization of Residues in Soybeans Grown in Soil Treated with 1,3-Dichloropropene Soil Fumigant|Pestic. Sci.43(3): 211-219|1995|10.1002/ps.2780430306
93675|T||Barker,A.D.P., K. Evans, M.D. Russell, P.D. Halford, J.A. Dunn, and P.B. Blaylock|Evaluation of the Combined Use of Fumigation and Granular Nematicide Treatment for the Control of Globodera pallida in Potatoes|Tests Agrochem. Cultiv.19:6-7|1998|
93676|T||Choie,D.D., and G.W. Richter|Cell Proliferation in Mouse Kidney Induced by Lead.  I. Synthesis of Deoxyribonucleic Acid|Lab. Invest.30(5): 647-651|1974|
93677|T||Hartz,T.K., W.W. Carter, and B.D. Bruton|Failure of Fumigation and Solarization to Control Macrophomina phaseolina and Subsequent Muskmelon Vine Decline|Crop Prot.6(4): 261-264|1987|10.1016/0261-2194(87)90048-2
93678|T||McAllister,K.H.|N-Methyl-D-Aspartate Receptor Antagonists and Channel Blockers have Different Effects upon a Spinal Seizure Model in Mice|Eur. J. Pharmacol.211(1): 105-108|1992|10.1016/0014-2999(92)90269-A
93679|T||Mojtahedi,H., G.S. Santo, J.H. Wilson, and A.N. Hang|Managing Meloidogyne chitwoodi on Potato with Rapeseed as Green Manure|Plant Dis.77(1): 42-46|1993|10.1094/PD-77-0042
93680|T||Kotcon,J.B., and R. Loria|Fall Fumigation of Potato with 1,3-Dichloropropene:  Efficacy Against Pratylenchus crenatus, Yield Response, and Groundwater Contamination Potential|Plant Dis.71(12): 1122-1124|1987|10.1094/PD-71-1122
93681|T||Harveson,R.M., and C.M. Rush|Evaluation of Fumigation and Rhizomania-Tolerant Cultivars for Control of a Root Disease Complex of Sugar Beets|Plant Dis.78(12): 1197-1202|1994|10.1094/PD-78-1197
93682|T||Griffin,G.D.|Comparative Nematicidal Control of Heterodera schachtii on Sugar Beet as Affected by Soil Temperature and Soil Type|Plant Dis.72(7): 617-621|1988|10.1094/PD-72-617
93683|T||Graham,J.H., R.G. McGuire, and J.W. Miller|Survival of Xanthomas campestris pv. citri in Citrus Plant Debris and Soil in Florida and Argentina|Plant Dis.71(12): 1094-1098|1987|10.1094/PD-71-1094
93684|T||Crebelli,R., A. Carere, P. Leopardi, L. Conti, F. Fassio, F. Raiteri, D. Barone, P. Ciliutti, S. Cinelli, and J.A. Veri|Evaluation of 10 Aliphatic Halogenated Hydrocarbons in the Mouse Bone Marrow Micronucleus Test|Mutagenesis14(2): 207-215|1999|10.1093/mutage/14.2.207
93685|T||Fraser,R.G., J.D. Beale, and R.J. Nevill|Reduction of Phellinus weirii Inoculum in Douglas-Fir Stumps by the Fumigant Telone II-B|Can. J. For. Res.25(1): 63-68|1995|10.1139/x95-008
93686|T||Chew,P.S., and R. Hall|Effect of Pythium Root Rot on Yield of White Bean, Phaseolus vulgaris L.|Crop Prot.3(4): 423-429|1984|10.1016/0261-2194(84)90024-3
93687|T||Larson,K.D., and D.V. Shaw|Soil Fumigation and Runner Plant Production:  A Synthesis of Four Years of Strawberry Nursery Field Trials|Hortscience35(4): 642-646|2000|10.21273/HORTSCI.35.4.642
93688|T||Thom,E.R., and R.A. Prestidge|Use of Italian Ryegrass on Seasonal Dairy Farms in Northern New Zealand. 1. Feed Production and Persistence|N. Z. J. Agric. Res.39(2): 223-236|1996|10.1080/00288233.1996.9513181
93689|T||Novotny,C., K. Svobodova, P. Erbanova, T. Cajthaml, A. Kasinath, E. Lang, and V. Sasek|Ligninolytic Fungi in Bioremediation:  Extracellular Enzyme Production and Degradation Rate|Soil Biol. Biochem.36(10): 1545-1551|2004|10.1016/j.soilbio.2004.07.019
93690|T||Sanders,C.L., C. Skinner, and R.A. Gelman|Percutaneous Absorption of 7,10 14C-Benzo(a)Pyrene and 7,12 14C-Dimethylbenz(a)Anthracene in Mice|J. Environ. Pathol. Toxicol. Oncol.7(1-2): 25-34|1986|
93691|T||Boyle,S.P., and J.A. Craft|The Effect of Gender, Sexual Maturation and Xenobiotic Treatment on the Formation of Hydroxymethyl Metabolites from 7,12-Dimethylbenz[a]Anthracene in Rat Liver Microsomes|Toxicol. Lett.117(1-2): 1-9|2000|10.1016/S0378-4274(00)00230-7
93692|T||Nuosiainen,U., and O. Hanninen|Effect of Polycyclic Aromatic Hydrocarbons on Carboxylesterase Activity in Rat Liver and Duodenum|In: Mozsik,G., O.Hanninen, and T.Javor (Eds), Adv.Physiol.Sci., Proc.Int.Congr.28, Gastrointest.Def.Mech.29:415-420|1981|
93696|T||Chaturapit,S., and G.M. Holder|Studies on the Hepatic Microsomal Metabolism of [14C]Phenanthrene|Biochem. Pharmacol.27(14): 1865-1871|1978|10.1016/0006-2952(78)90034-5
93697|T||Ng,K.M.E., I. Chu, R.L. Bronaugh, C.A. Franklin, and D.A. Somers|Percutaneous Absorption/Metabolism of Phenanthrene in the Hairless Guinea Pig:  Comparison of In Vitro and In Vivo Results|Fundam. Appl. Toxicol.16(3): 517-524|1991|10.1016/0272-0590(91)90092-I
93698|A||Solbakken,J.E., A.H. Knap, and K.H. Palmork|Disposition of (9-14C) Phenanthrene in a Subtropical Marine Teleost (Haemulon sciurus)|Bull. Environ. Contam. Toxicol.28(3): 285-289|1982|10.1007/BF01608509
93699|T||Cooper,S., J.R. Latendresse, D.R. Doerge, N.C. Twaddle, X. Fu, and K.B. Delclos|Dietary Modulation of p-Nonylphenol-Induced Polycystic Kidneys in Male Sprague-Dawley Rats|Toxicol. Sci.91(2): 631-642|2006|10.1093/toxsci/kfj171
93700|T||Tyl,R.W., C.B. Myers, M.C. Marr, N.P. Castillo, J.C. Seely, C.S. Sloan, M.M. Veselica, R.L. Joiner, J.P. Van Miller, an|Three-Generation Evaluation of Dietary para-Nonylphenol in CD (Sprague-Dawley) Rats|Toxicol. Sci.92(1): 295-310|2006|10.1093/toxsci/kfj203
93701|A||Correa-Reyes,G., M.T. Viana, F.J. Marquez-Rocha, A.F. Licea, E. Ponce, and R. Vazquez-Duhalt|Nonylphenol Algal Bioaccumulation and Its Effect Through the Trophic Chain|Chemosphere68(4): 662-670|2007|10.1016/j.chemosphere.2007.02.030
93702|T||Widarto,T.H., P.H. Krogh, and V.E. Forbes|Nonylphenol Stimulates Fecundity but not Population Growth Rate (lambda) of Folsomia candida|Ecotoxicol. Environ. Saf.67(3): 369-377|2007|10.1016/j.ecoenv.2006.11.005
93703|T||Hernandez,J.P., L.M. Chapman, X.C. Kretschmer, and W.S. Baldwin|Gender-Specific Induction of Cytochrome P450s in Nonylphenol-Treated FVB/NJ Mice|Toxicol. Appl. Pharmacol.216(2): 186-196|2006|10.1016/j.taap.2006.05.014
93704|A||Madsen,S.S., S. Skovbolling, C. Nielsen, and B. Korsgaard|17-beta Estradiol and 4-Nonylphenol Delay Smolt Development and Downstream Migration in Atlantic Salmon, Salmo salar|Aquat. Toxicol.68(2): 109-120|2004|10.1016/j.aquatox.2004.03.008
93705|A||Hughes,E.M., and E.P. Gallagher|Effects of 17-beta Estradiol and 4-Nonylphenol on Phase II Electrophilic Detoxification Pathways in Largemouth Bass (Micropterus salmoides) Liver|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(3): 237-247|2004|10.1016/j.cca.2004.01.006
93706|A||Wenzel,A., C. Schafers, G. Vollmer, H. Michna, and P. Diel|Research Efforts Towards the Development and Validation of a Test Method for the Identification of Endocrine Disrupting Chemicals|Final Rep., Contract B6-7920/98/000015, Fraunhofer-Inst.fur Umweltchemie und Okotoxikologie, Schamallenberg, Germany:81 p.|2001|
93712|T||Batty,L.C., and P.L. Younger|Critical Role of Macrophytes in Achieving Low Iron Concentrations in Mine Water Treatment Wetlands|Environ. Sci. Technol.36:3997-4002|2002|10.1021/es020033+
93714|T||Neher,D.A., and S.R. Sturzenbaum|Extra-long PCR, an Identifier of DNA Adducts in Single Nematodes (Caenorhabditis elegans)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(3): 279-285|2006|10.1016/j.cbpc.2006.10.005
93715|T||Mustafa,A., A.M. Gado, O.A. Al-Shabanah, and A.M. Al-Bekairi|Protective Effect of Aminoguanidine Against Paraquat-Induced Oxidative Stress in the Lung of Mice|Comp. Biochem. Physiol. C Toxicol. Pharmacol.132:391-397|2002|10.1016/S1532-0456(02)00095-9
93718|T||Ko,M.H., W.P. Chen, and S.T. Hsieh|Cutaneous Nerve Degeneration Induced by Acrylamide in Mice|Neurosci. Lett.293(3): 195-198|2000|10.1016/S0304-3940(00)01523-8
93719|T||Kertesz,V., and I. Hlubik|Plasma ALP Activity and Blood PCV Value Changes in Chick Fetuses due to Exposure of the Egg to Different Xenobiotics|Environ. Pollut.117(2): 323-327|2002|10.1016/S0269-7491(01)00179-8
93720|A||Forni,C., A. Cascone, M. Fiori, and L. Migliore|Sulphadimethoxine and Azolla filiculoides Lam.:  A Model for Drug Remediation|Water Res.36:3398-3403|2002|10.1016/S0043-1354(02)00015-5
93721|A||Fargasova,A.|Structure-Affected Algicidal Activity of Triorganotin Compounds|Bull. Environ. Contam. Toxicol.69(5): 756-762|2002|10.1007/s00128-002-0125-3
93722|T||Ericksen,J.A., M.S. Gustin, D.E. Schorran, D.W. Johnson, S.E. Lindberg, and J.S. Coleman|Accumulation of Atmospheric Mercury in Forest Foliage|Atmos. Environ.37:1613-1622|2003|10.1016/S1352-2310(03)00008-6
93723|T||Dueck,T.A., C.J. Van Dijk, C. Grashoff, J. Groenwold, A.H.C.M. Schapendonk, and A.E.G. Tonneijck|Response of Potato to Discontinuous Exposures of Atmospheric Ethylene:  Results of a Long-term Experiment in Open-top Chambers and Crop Growth Modelling|Atmos. Environ.37:1645-1654|2003|10.1016/S1352-2310(03)00016-5
93724|T||Zhang,S., Z. Zhou, and J. Fu|Effect of Manganese Chloride Exposure on Liver and Brain Mitochondria Function in Rats|Environ. Res.93(2): 149-157|2003|10.1016/S0013-9351(03)00109-9
93725|T||Wistuba,J., M.H. Brinkworth, S. Schlatt, I. Chahoud, and E. Nieschlag|Intrauterine Bisphenol A Exposure Leads to Stimulatory Effects on Sertoli Cell Number in Rats|Environ. Res.91:95-103|2003|10.1016/S0013-9351(02)00019-1
93726|A||Wicks,B.J., and D. Randall|The Effect of Sub-lethal Ammonia Exposure on Fed and Unfed Rainbow Trout:  The Role of Glutamine in Regulation of Ammonia|Comp. Biochem. Physiol. A Mol. Integr. Physiol.132:275-285|2002|10.1016/S1095-6433(02)00034-X
93727|A||Wibe,A.E., G. Rosenqvist, and B.M. Jenssen|Disruption of Male Reproductive Behavior in Threespine Stickleback Gasterosteus aculeatus Exposed to 17 beta-Estradiol|Environ. Res.90(2): 136-141|2002|10.1006/enrs.2002.4392
93728|T||Vitarella,D., B.A. Wong, O.R. Moss, and D.C. Dorman|Pharmacokinetics of Inhaled Manganese Phosphate in Male Sprague-Dawley Rats Following Subacute (14-Day) Exposure|Toxicol. Appl. Pharmacol.163(3): 279-285|2000|10.1006/taap.1999.8874
93729|A||Viarengo,A., E. Bettella, R. Fabbri, B. Burlando, and M. LaFaurie|Heavy Metal Inhibition of EROD Activity in Liver Microsomes from the Bass Dicentrarchus labrax Exposed to Organic Xenobiotics:  Role of GSH in the Reduction of Heavy Metal Effects|Mar. Environ. Res.44(1): 1-11|1997|10.1016/S0141-1136(96)00097-9
93730|T||Toyoda,K., M. Shibutani, T. Tamura, T. Koujitani, C. Uneyama, and M. Hirose|Repeated Dose (28 Days) Oral Toxicity Study of Flutamide in Rats, Based on the Draft Protocol for the 'Enhanced OECD Test Guideline 407' for Screening for Endocrine-Disrupting Chemicals|Arch. Toxicol.74(3): 127-132|2000|10.1007/s002040050664
93731|T||Tarnay,L.W., A. Gertler, and G.E.,Jr. Taylor|The Use of Inferential Models for Estimating Nitric Acid Vapor Deposition to Semi-arid Coniferous Forests|Atmos. Environ.36(20): 3277-3287|2002|10.1016/S1352-2310(02)00303-5
93732|T||Tan,B.L.L., N.M. Kassim, and M.A. Mohd|Assessment of Pubertal Development in Juvenile Male Rats After Sub-Acute Exposure to Bisphenol A and Nonylphenol|Toxicol. Lett.143(3): 261-270|2003|10.1016/S0378-4274(03)00172-3
93733|T||Betts,C.J., K. Ratcliffe, F.L. Lim, R.A. Currie, R.J. Dearman, and I. Kimber|Changes in Gene Expression Profiles Following Topical Exposure of Mice to Chemical Respiratory Allergen|Toxicology226(1): 45-46|2006|10.1016/j.tox.2006.05.066
93734|T||Schroder,J.L., N.T. Basta, J. Si, S.W. Casteel, T. Evans, and M. Payton|In Vitro Gastrointestinal Method to Estimate Relative Bioavailable Cadmium in Contaminated Soil|Environ. Sci. Technol.37:1365-1370|2003|10.1021/es026105e
93735|A||Roditi,H.A., N.S. Fisher, and S.A. Sanudo-Wilhelmy|Uptake of Dissolved Organic Carbon and Trace Elements by Zebra Mussels|Nature407(7): 78-80|2000|10.1038/35024069
93736|T||Ohta,T., S. Nakatsugi, K. Watanabe, T. Kawamori, F. Ishikawa, M. Morotomi, S. Sugie, T. Toda, T. Sugimura, and K. Wakab|Inhibitory Effects of Bifidobacterium-fermented Soy Milk on 2-Amino-1-Methyl-6-Phenylimidazoc(4,5-b)pyridine-induced Rat Mammary Carcinogenesis, with a Partial Contribution of Its Component Isoflavones|Carcinogenesis21(5): 937-941|2000|10.1093/carcin/21.5.937
93737|T||Onyango,D.W., E.O. Wango, and G. Werner|Epididymal Epithelial Cell Involution Following a Single Intraperitoneal Administration of Ethane Dimethanesulfonate in the Goat (Capra hircus)|Toxicol. Appl. Pharmacol.175(1): 19-27|2001|10.1006/taap.2001.9225
93738|T||Caprio,M.A., T. Nowatzki, B. Siegfried, L.J. Meinke, R.J. Wright, and L.D. Chandler|Assessing Risk of Resistance to Aerial Applications of Methyl-Parathion in Western Corn Rootworm (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.99(2): 483-493|2006|10.1093/jee/99.2.483
93739|T||Ashley,J.L., D.A. Herbert, E.E. Lewis, C.C. Brewster, and R. Huckaba|Toxicity of Three Acaricides to Tetranychus urticae (Tetranychidae: Acari) and Orius insidiosus (Anthocoridae: Hemiptera)|J. Econ. Entomol.99(1): 54-59|2006|10.1603/0022-0493(2006)099[0054:TOTATT]2.0.CO;2
93740|A||Ball,A.L., U. Borgmann, and D.G. Dixon|Toxicity of a Cadmium-Contaminated Diet to Hyalella azteca|Environ. Toxicol. Chem.25(9): 2526-2532|2006|10.1897/05-650R.1
93741|T||Bouaziz,H., S. Ketata, K. Jammoussi, T. Boudawara, F. Ayedi, F. Ellouze, and N. Zeghal|Effects of Sodium Fluoride on Hepatic Toxicity in Adult Mice and Their Suckling Pups|Pestic. Biochem. Physiol.86(3): 124-130|2006|10.1016/j.pestbp.2006.02.004
93742|A||Bellas,J., A. Hilvarsson, G. Birgersson, and A. Granmo|Effects of Medetomidine, a Novel Antifouling Agent, on the Burrowing Bivalve Abra nitida (Muller)|Chemosphere65(4): 575-582|2006|10.1016/j.chemosphere.2006.02.045
93743|A||Bielmyer,G.K., M. Grosell, and K.V. Brix|Toxicity of Silver, Zinc, Copper, and Nickel to the Copepod Acartia tonsa Exposed via a Phytoplankton Diet|Environ. Sci. Technol.40(6): 2063-2068|2006|10.1021/es051589a
93744|A||Betancourt-Lozano,M., D.J. Baird, R.S. Sangha, and F. Gonzalez-Farias|Induction of Morphological Deformities and Moulting Alterations in Litopenaeus vannamei (Boone) Juveniles Exposed to the Triazole- Derivative Fungicide Tilt|Arch. Environ. Contam. Toxicol.51(1): 69-78|2006|10.1007/s00244-005-0149-x
93745|T||Best,E.P.H., K.N. Geter, H.E. Tatem, and B.K. Lane|Effects, Transfer, and Fate of RDX from Aged Soil in Plants and Worms|Chemosphere62(4): 616-625|2006|10.1016/j.chemosphere.2005.05.039
93746|A||Boudjelida,H., A. Bouaziz, T. Soin, G. Smagghe, and N. Soltani|Effects of Ecdysone Agonist Halofenozide Against Culex pipiens|Pestic. Biochem. Physiol.83(2-3): 115-123|2005|10.1016/j.pestbp.2005.04.003
93747|A||Bini,G., A.M. Pugliese, G. Pepeu, and G. Chelazzi|Tetrodotoxin Prevents Copper-Induced Bradycardia in Gastropod Limpets|Environ. Pollut.139(1): 79-85|2006|10.1016/j.envpol.2005.04.029
93748|A||Bowen,A.T., J.M. Conder, and T.W. La Point|Solid Phase Microextraction of Aminodinitrotoluenes in Tissue|Chemosphere63(1): 58-63|2006|10.1016/j.chemosphere.2005.07.057
93749|T||Bartlett,J.R., and M.O. Smith|Effects of Different Levels of Zinc on the Performance and Immunocompetence of Broilers Under Heat Stress|Poult. Sci.82:1580-1588|2003|10.1093/ps/82.10.1580
93751|A||Bernhardt,R.R., F.A. Von Hippel, and W.A. Cresko|Perchlorate Induces Hermaphroditism in Threespine Sticklebacks|Environ. Toxicol. Chem.25(8): 2087-2096|2006|10.1897/05-454R.1
93752|A||Bears,H., J.G. Richards, and P.M. Schulte|Arsenic Exposure Alters Hepatic Arsenic Species Composition and Stress-Mediated Gene Expression in the Common Killifish (Fundulus heteroclitus)|Aquat. Toxicol.77(3): 257-266|2006|10.1016/j.aquatox.2005.12.008
93753|T||Bondada,B.R., S. Tu, and L.Q. Ma|Absorption of Foliar-Applied Arsenic by the Arsenic Hyperaccumulating Fern (Pteris vittata L.)|Sci. Total Environ.332(1-3): 61-70|2004|10.1016/j.scitotenv.2004.05.001
93754|A||Bearr,J.S., J. Diamond, H. Latimer, and M. Bowersox|Effects of Pulsed Copper Exposures on Early Life-Stage Pimephales promelas|Environ. Toxicol. Chem.25(5): 1376-1382|2006|10.1897/05-259R.1
93755|T||Bedard,L.L., M. Alessi, S. Davey, and T.E. Massey|Susceptibility to Aflatoxin B Sub(1)-Induced Carcinogenesis Correlates with Tissue-Specific Differences in DNA Repair Activity in Mouse and in Rat|Cancer Res.65(4): 1265-1270|2005|10.1158/0008-5472.CAN-04-3373
93756|A||Alves,L.C., C.N. Glover, and C.M. Wood|Dietary Pb Accumulation in Juvenile Freshwater Rainbow Trout (Oncorhynchus mykiss)|Arch. Environ. Contam. Toxicol.51(4): 615-625|2006|10.1007/s00244-005-0212-7
93757|T||Boetel,M.A., B.W. Fuller, L.D. Chandler, J.J. Tollefson, B.L. McManus, N.D. Kadakia, P.D. Evenson, and T.P. Mishra|Nontarget Arthropod Abundance in Areawide-Managed Corn Habitats Treated with Semiochemical-Based Bait Insecticide for Corn Rootworm (Coleoptera:  Chrysomelidae) Control|J. Econ. Entomol.98(6): 1957-1968|2005|10.1093/jee/98.6.1957
93758|A||Bolton-Warberg,M., L.D. Coen, and J.E. Weinstein|Acute Toxicity and Acetylcholinesterase Inhibition in Grass Shrimp (Palaemonetes pugio) and Oysters (Crassostrea virginica) Exposed to the Organophosphate Dichlorvos:  Laboratory and Field Studies|Arch. Environ. Contam. Toxicol.52(2): 207-216|2007|10.1007/s00244-005-0325-z
93760|T||Tariq,M., and C.J.B. Mott|Influence of Boron on the Concentration and Uptake of Anions by Radish (Raphanus sativus L.)|Asian J. Plant Sci.5(6): 963-969|2006|10.3923/ajps.2006.963.969
93761|T||Celik,A., B. Mazmanci, Y. Camlica, A. Askin, and U. Comelekoglu|Induction of Micronuclei by lambda-Cyhalothrin in Wistar Rat Bone Marrow and Gut Epithelial Cells|Mutagenesis20(2): 125-129|2005|10.1093/mutage/gei020
93762|T||McGregor,W.S., and W.O. Miller|Trolene and Korlan Show Promise for Parasite Control in Sheep|Down Earth14(2): 7-9|1958|
93763|T||Smith,G.N., B.S. Watson, and F.S. Fischer|Investigations on Dursban Insecticide.  Metabolism of (36Cl) O,O-Diethyl O-3,5,6-Trichloro-2-Pyridyl Phosphorothioate in Rats|J. Agric. Food Chem.15(1): 132-138|1967|10.1021/jf60149a017
93764|T||Mohamed,O.S.A., S.E.I. Adam, and N.I. El Dirdira|The Combined Effect of Dursban and Reldan on Nubian Goats|Vet. Hum. Toxicol.32(1): 47-48|1990|
93765|A||Petit,F., P. Le Goff, J.P. Cravedi, O. Kah, Y. Valotaire, and F. Pakdel|Trout Oestrogen Receptor Sensitivity to Xenobiotics as Tested by Different Bioassays|Aquaculture177:353-365|1999|10.1016/S0044-8486(99)00098-8
93766|T||Rhone-Poulenc|Initial Submission:  Letter from Rhone-Poulenc Inc. Submitting the Results from a Chronic Toxicity Study with M&B 46030 in Rats|EPA/OTS Doc.#88-920004633:4 p.|1992|
93769|T||Mellon Institute of Industrial Research|Toxicity Data on Ten Chemicals|EPA/OTS Doc.#86-870001413:8 p.|1987|
93770|T||Union Carbide Corp.|Range Finding Tests on Pyrene (PUS-42)|Mellon Institute, Pittsburgh, PA:4 p.|1987|
93771|A||Olivieri,C.E.|Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Embryos and Larvae of the Fathead Minnow (Pimephales promelas Rafinesque)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:128 p.|1996|
93772|T||Rodriguez,J.|Reproductive Toxicity of 3,3',4,4'-Tetrachlorobiphenyl in Mice|M.S. Thesis, Michigan State University, East Lansing, MI:50 p.|1994|
93773|T||Standard Oil Co.|Life Time Skin Painting Study of Test Material A on Swiss-Webster Mice with Cover Letter|EPA/OTS Doc.#878210495:18 p.|1983|
93776|T||Elliot,J.M., C.F. Marks, and C.M. Tu|Effects of Certain Nematicides on Soil Nitrogen, Soil Nitrifiers, and Populations of Pratylenchus penetrans in Flue-Cured Tobacco|Can. J. Plant Sci.57(1): 143-154|1977|10.4141/cjps77-021
93777|T||Martin,F.N., and E.D. Whitney|In-Bed Fumigation for Control of Rhizomania of Sugar Beet|Plant Dis.74(1): 31-35|1990|10.1094/PD-74-0031
93778|T||Raski,D.J., and A.C. Goheen|Comparison of 1,3-Dichloropropene and Methyl Bromide for Control of Xiphinema index and Grapevine Fanleaf Degeneration Complex|Am. J. Enol. Vitic.39(4): 334-336|1988|10.5344/ajev.1988.39.4.334
93780|T||Belair,G.|Effects of Preplant Soil Fumigation on Nematode Population Densities and on Growth and Yield of Raspberry|Phytoprotection (Multiple Languages)72(1): 21-25|1991|10.7202/705999ar
93781|T||Bachrein,S., G.M. Prine, and R.A. Dunn|Nematode Population and Nematicides in Relation to Yield of Several Pigeonpea Lines|Proc. Soil Crop Sci. Soc. Fla.46:137-140|1987|
93782|T||Belair,G., and Y. Fournier|Plant Bed Treatment with 1,3-Dichloropropene for Meloidogyne hapla Control in Carrots Grown in Organic Soil|Phytoprotection (Multiple Languages)78(1): 35-39|1997|10.7202/706117ar
93783|T||Biles,C.L., D.L. Lindsey, and C.M. Liddell|Control of Phytophthora Root Rot of Chile Peppers by Irrigation Practices and Fungicides|Crop Prot.11(3): 225-228|1992|10.1016/0261-2194(92)90041-3
93784|A||Pesonen,M., M. Celander, L. Forlin, and T. Andersson|Comparison of Xenobiotic Biotransformation Enzymes in Kidney and Liver of Rainbow Trout (Salmo gairdneri)|Toxicol. Appl. Pharmacol.91:75-84|1987|10.1016/0041-008X(87)90195-5
93785|A||Fries,C.R., and R.F. Lee|Pollutant Effects on the Mixed Function Oxygenase (MFO) and Reproductive Systems of the Marine Polychaete Nereis virens|Mar. Biol.79:187-193|1984|10.1007/BF00951827
93786|A||Darwish,A.M., B.R. Griffin, D.L. Straus, and A.J. Mitchell|Histological and Hematological Evaluation of Potassium Permanganate Exposure in Channel Catfish|J. Aquat. Anim. Health14(2): 134-144|2002|10.1577/1548-8667(2002)014<0134:HAHEOP>2.0.CO;2
93787|A||Haasch,M.L., L.A. Sutherland, P.J. Wejksnora, and J.J. Lech|Effect of Acrylamide Monomer on Hepatic CYP1A1 Monooxygenase Induction in Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol.102(2): 281-286|1992|10.1016/0742-8413(92)90112-K
93788|A||Elskus,A.A., and J.J. Stegeman|Further Consideration of Phenobarbital Effects on Cytochrome P-450 Activity in the Killifish, Fundulus heteroclitus|Comp. Biochem. Physiol. C Comp. Pharmacol.92(2): 223-230|1989|10.1016/0742-8413(89)90045-5
93789|A||Oikari,A., and P. Lindstrom-Seppa|Responses of Biotransformation Enzymes in Fish Liver:  Experiments with Pulpmill Effluents and Their Components|Chemosphere20(7-9): 1079-1085|1990|10.1016/0045-6535(90)90224-H
93790|A||Egaas,E., A. Christiansen, O.M. Eklo, O. Lode, and T. Kallqvist|Effects of a Fungicide on Glutathione Transferase in Gill of Brown Trout (Salmo trutta)|Chem.-Biol. Interact.133(1-3): 328-330|2001|
93791|A||Waddy,S.L., L.E. Burridge, M.N. Hamilton, S.M. Mercer, D.E. Aiken, and K. Haya|Emamectin Benzoate Induces Molting in American Lobster, Homarus americanus|Can. J. Fish. Aquat. Sci.59(7): 1096-1099|2002|10.1139/f02-106
93793|T||Helton,D.R., D.W. Osborne, S.K. Pierson, M.H. Buonarati, and R.A. Bethem|Pharmacokinetic Profiles in Rats After Intravenous, Oral, or Dermal Administration of Dapsone|Drug Metab. Dispos.28(8): 925-929|2000|
93796|T||Pyykko,K., H. Tahti, and H. Vapaatalo|Toluene Concentrations in Various Tissues of Rats After Inhalation and Oral Administration|Arch. Toxicol.38(3): 169-176|1977|10.1007/BF00293651
93799|T||Runge-Morris,M., K. Rose, C.N. Falany, and T.A. Kocarek|Differential Regulation of Individual Sulfotransferase Isoforms by Phenobarbital in Male Rat Liver|Drug Metab. Dispos.26(8): 795-801|1998|
93800|T||Den Besten,C., M.H.J. Bennik, I. Bruggeman, P. Schielen, F. Kuper, A. Brouwer, J.H. Koeman, J.G. Vos, and P.J. Van Blad|The Role of Oxidative Metabolism in Hexachlorobenzene-Induced Porphyria and Thyroid Hormone Homeostasis:  A Comparison with Pentachlorobenzene in a 13-Week Feeding Study|Toxicol. Appl. Pharmacol.119:181-194|1993|10.1006/taap.1993.1059
93801|A||Villeneuve,D.L., A.L. Miracle, K.M. Jensen, S.J. Degitz, M.D. Kahl, J.J. Korte, K.J. Greene, L.S. Blake, A.L. Linnum, a|Development of Quantitative Real-time PCR Assays for Fathead Minnow (Pimephales promelas) Gonadotropin beta Subunit mRNAs to Support Endocrine Disruptor Research|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(2): 171-183|2007|10.1016/j.cbpc.2006.11.003
93803|T||Markaverich,B.M., M. Alejandro, T. Thompson, S. Mani, A. Reyna, W. Portillo, J. Sharp, J. Turk, and J.R. Crowley|Tetrahydrofurandiols (THF-Diols), Leukotoxindiols (LTX-Diols), and Endocrine Disruption in Rats|Environ. Health Perspect.115(5): 702-708|2007|10.1289/ehp.9311
93804|T||Owens,W., L.E.,Jr. Gray, E. Zeiger, M. Walker, K. Yamasaki, J. Ashby, and E. Jacob|The OECD Program to Validate the Rat Hershberger Bioassay to Screen Compounds for In Vivo Androgen and Antiandrogen Responses:  Phase 2 Dose-Response Studies|Environ. Health Perspect.115(5): 671-678|2007|10.1289/ehp.9666
93805|T||Kos,B., and D. Lestan|Induced Phytoextraction/Soil Washing of Lead Using Biodegradable Chelate and Permeable Barriers|Environ. Sci. Technol.37:624-629|2003|10.1021/es0200793
93806|A||Collins,P., and S. Cappello|Cypermethrin Toxicity to Aquatic Life:  Bioassays for the Freshwater Prawn Palaemonetes argentinus|Arch. Environ. Contam. Toxicol.51(1): 79-85|2006|10.1007/s00244-005-0072-1
93807|A||Fuji,T.|Biotic and Abiotic Factors Influencing the Bioavailability of Sediment-Associated Phenanthrene to Marine Amphipods|Ph.D.Thesis, Oregon State University, Corvallis, OR:101 p.|1997|
93808|T||Coelho,C.A.A., N.A. De Souza, M.D. Feder, C.E. Da Silva, E.D.S. Garcia, P. Azambuja, M.S. Gonzalez, and E.F. Rangel|Effects of Azadirachtin on the Development and Mortality of Lutzomyia longipalpis Larvae (Diptera:  Psychodidae:  Phlebotominae)|J. Med. Entomol.43(2): 262-266|2006|10.1093/jmedent/43.2.262
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93810|T||Cloutier,S., M.R. Forquer, and B.A. Sorg|Low Level Lindane Exposure Alters Extinction of Conditioned Fear in Rats|Toxicology217(2-3): 147-154|2006|10.1016/j.tox.2005.09.003
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93812|T||Clerici,C., D. Castellani, S. Asciutti, R. Pellicciari, K.D.R. Setchell, N.C. O'Connell, B. Sadeghpour, E. Camaioni, S.|3alpha-6alpha-Dihydroxy-7alpha-Fluoro-5beta-Cholanoate (UPF-680), Physicochemical and Physiological Properties of a New Fluorinated Bile Acid that Prevents 17alpha-Ethynyl-Estradiol-Induced Cholestasis in Rats|Toxicol. Appl. Pharmacol.214(2): 199-208|2006|10.1016/j.taap.2005.12.017
93813|T||Chung,H., H.J. Kim, K.S. Jang, M. Kim, J. Yang, K.S. Kang, H.L. Kim, B.I. Yoon, M.O. Lee, B.H. Lee, J.H. Kim, Y.S. Lee,|Comprehensive Analysis of Differential Gene Expression Profiles on d-Galactosamine-Induced Acute Mouse Liver Injury and Regeneration|Toxicology227(1-2): 136-144|2006|10.1016/j.tox.2006.07.026
93814|T||Chung,H., H.J. Kim, K.S. Jang, M. Kim, J. Yang, J.H. Kim, Y.S. Lee, and G. Kong|Comprehensive Analysis of Differential Gene Expression Profiles on Diclofenac-Induced Acute Mouse Liver Injury and Recovery|Toxicol. Lett.166(1): 77-87|2006|10.1016/j.toxlet.2006.05.016
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93820|T||Cohen,L.A., Z. Zhao, B. Pittman, and J.A. Scimeca|Effect of Intact and Isoflavone-depleted Soy Protein on NMU-Induced Rat Mammary Tumorigenesis|Carcinogenesis21(5): 929-935|2000|10.1093/carcin/21.5.929
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93822|T||Leder,A., A. Kuo, R.D. Cardiff, E. Sinn, and P. Leder|v-Ha-ras Transgene Abrogates the Initiation Step in Mouse Skin Tumorigenesis:  Effects of Phorbol Esters and Retinoic Acid|Proc. Natl. Acad. Sci. U.S.A.87:9178-9182|1990|10.1073/pnas.87.23.9178
93823|T||Bam,R.K., F.K. Kumaga, K. Ofori, and E.A. Asiedu|Germination, Vigour and Dehydrogenase Activity of Naturally Aged Rice (Oryza sativa L.) Seeds Soaked in Potassium and Phosphorus Salts|Asian J. Plant Sci.5(6): 948-955|2006|10.3923/ajps.2006.948.955
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93827|T||Chitra,K.C., C. Latchoumycandane, and P.P. Mathur|Effect of Nonylphenol on the Antioxidant System in Epididymal Sperm of Rats|Arch. Toxicol.76(9): 545-551|2002|10.1007/s00204-002-0372-4
93828|T||Chaney,L.A., R.W. Wineman, R.W. Rockhold, and A.S. Hume|Acute Effects of an Insect Repellent, N,N-Diethyl-m-Toluamide, on Cholinesterase Inhibition Induced by Pyridostigmine Bromide in Rats|Toxicol. Appl. Pharmacol.165(2): 107-114|2000|10.1006/taap.2000.8936
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93831|T||Bennett,G.D., B. Wlodarczyk, J.A. Calvin, J.C. Craig, and R.H. Finnell|Valproic Acid-Induced Alterations in Growth and Neurotrophic Factor|Reprod. Toxicol.14:1-11|2000|10.1016/S0890-6238(99)00064-7
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93834|T||Khan,S.N., R.K. Tivari, B.M. Misra, and D.S. Rawat|Control of Cladosporium Leaf Spot of Poplars in the Nursery|Indian For.116(1): 83-86|1990|
93835|T||Jones,D.R.|Control of Rust (Uromyces viciae-fabae) on Winter Field Beans|Tests Agrochem. Cultiv.7:46-47|1986|
93836|T||Banerjee,M.R., and B.K. Dey|Effects of Different Pesticides on Microbial Populations, Nitrogen Mineralisation, and Thiosulphate Oxidation in the Rhizosphere of Jute (Corchorus capsularis L. cv.)|Biol. Fertil. Soils14(3): 213-218|1992|10.1007/BF00346063
93837|T||Gelbic,I., and F. Sehnal|Failure of Some Individuals of Spodoptera littoralis (Lepidoptera) to Produce Superlarvae|Acta Entomol. Bohemoslov.83(3): 161-170|1986|
93838|T||Carranza,M.R.|Chemical Control of Wheat Spike Blight|Tests Agrochem. Cultiv.9:38-39|1988|
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93840|T||Talekar,N.S., L.T. Sun, E.M. Lee, J.S. Chen, T.M. Lee, and S.N. Lu|Residual Behavior of Several Insecticides on Chinese Cabbage|J. Econ. Entomol.70(6): 689-692|1977|10.1093/jee/70.6.689
93841|T||Baronia,A.K., and Y.N. Sahai|Effect on Blood Serum Proteins in Malathion Treated Male Albino Rat - a Electrophoretic Study|J. Nat. Conserv.2(2): 173-175|1990|
93842|A||Johal,M.S., and A.K. Sawhney|Lepidontal Alterations of the Circuli on the Scales of Freshwater Snakehead, Channa punctatus (Bloch) Upon Exposure to Malathion|Curr. Sci. (Bangalore)72(6): 367-369|1997|
93843|T||Imamura,T., J. Gandy, and T.R. Fukuto|Selective Inhibition of Rat Pulmonary Monooxygenase by O,O,S-Trimethyl Phosphorothioate Treatment|Biochem. Pharmacol.32(21): 3191-3195|1983|10.1016/0006-2952(83)90203-4
93844|AT||Fields,M.L., and D.D. Hemphill|Influence of Siduron and Its Degradation Products on Soil Microflora|Weed Sci.16(4): 417-420|1968|10.1017/S0043174500047603
93845|T||Hodges,C.F.|Preemergence Herbicides and the Severity of Leaf Spot Caused by Drechslera sorokiniana on Poa pratensis|Phytopathology71(7): 720-722|1981|10.1094/Phyto-71-720
93847|T||Hodges,C.F.|Influence of Preemergence Herbicides on Pathogenesis by Drechslera sorokiniana on Sequentially Senescent Leaves of Poa pratensis|Can. J. Bot.60(2): 186-190|1982|10.1139/b82-023
93849|T||Garcia,G., P. Tagliaferro, A. Ferri, A.M. Evangelista De Duffard, R. Duffard, and A. Brusco|Study of Tyrosine Hydroxylase Immunoreactive Neurons in Neonate Rats Lactationally Exposed to 2,4-Dichlorophenoxyacetic Acid|Neurotoxicology25(6): 951-957|2004|10.1016/j.neuro.2004.05.004
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93851|T||Khan,M.Z.|Effects of Agro Pesticides Cypermethrin and Malathion on Cholinesterase Activity in Liver and Kidney of Calotes versicolor Daudin (Agamidae:  Reptilia)|Turk. J. Zool.29:77-81|2005|
93855|T||Crebelli,R., C. Andreoli, A. Carere, L. Conti, B. Crochi, M. Cotta-Ramusino, and R. Benigni|Toxicology of Halogenated Aliphatic Hydrocarbons: Structural and Molecular Determinants for the Disturbance of Chromosome Segregation and the Induction of Lipid Peroxidation|Chem.-Biol. Interact.98(2): 113-129|1995|10.1016/0009-2797(95)03639-3
93857|T||Tu,C.M.|Effect of Nematicides, Telone II and Vorlex on Microflora and Nitrification in Tobacco Soil|Bull. Environ. Contam. Toxicol.50(1): 43-48|1993|10.1007/BF00196539
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93859|T||Mosjidis,C.O., C.M. Peterson, B. Truelove, and R.R. Dute|Stimulation of Pod and Ovule Growth of Soybean, Glycine max (L.) Merr. by 6-Benzylaminopurine|Ann. Bot.71(3): 193-199|1993|10.1006/anbo.1993.1024
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93863|T||Bigelow,S.W., A.C. Collins, and D.W. Nebert|Selective Mouse Breeding for Short Ethanol Sleep Time has led to high Levels of Hepatic Aromatic Hydrocarbon (Ah) Receptor|Biochem. Pharmacol.38(20): 3565-3572|1989|10.1016/0006-2952(89)90129-9
93864|T||Griffin,G.D.|Host-Parasite Relationship of Meloidogyne chitwoodi on Potato|J. Nematol.17(4): 395-399|1985|
93865|T||Rich,J.R., R.A. Dunn, W.D. Thomas, J.W. Breman, and R.S. Tervola|Evaluation of Fosthiazate for Management of Meloidogyne javanica in Florida Flue-Cured Tobacco|J. Nematol.26(4 suppl.): 701-704|1994|
93866|T||Thomas,S.H., and D.W. Smith|Effects of 1,3-Dichloropropene for Meloidogyne incognita Management on Cotton Produced Under Furrow Irrigation|J. Nematol.25(4 suppl.): 752-757|1993|
93867|T||Sipes,B.S., D.P. Schmitt, and C.H. Oda|Comparison of Single- and Double-Chisel Injection Methods for the Control of Rotylenchulus reniformis in Pineapple|J. Nematol.25(4 suppl.): 773-777|1993|
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93869|T||Perez,E.E., J.D. Mueller, and S.A. Lewis|Effect of Planting Date on Population Densities of Hoplolaimus columbus and Yield of Soybean|J. Nematol.28(4): 569-574|1996|
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93871|T||Kinay,P., F. Yildiz, F. Sen, M. Yildiz, and I. Karacali|Integration of Pre- and Postharvest Treatments to Minimize Penicillium Decay of Satsuma Mandarins|Postharvest Biol. Technol.37(1): 31-36|2005|10.1016/j.postharvbio.2005.02.008
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93876|T||Choie,D.D., and G.W. Richter|Cell Proliferation in Rat Kidneys After Prolonged Treatment with Lead|Am. J. Pathol.68(2): 359-370|1972|
93885|A||Dow Chemical Co.|Fish Toxicity Studies|EPA/OTS 86-870002097:5 p.|1975|
93887|A||Dow Chemical Co.|Internal Letters Within Dow Chemical USA Regarding Fish Toxicity Studies|EPA/OTS Doc.#44-7530279:5 p.|2000|
93889|T||Levene,B.C., M.D.K. Owen, and G.L. Tylka|Influence of Herbicide Application to Soybeans on Soybean Cyst Nematode Egg Hatching|J. Nematol.30(3): 347-352|1998|
93890|T||Noe,J.P.|Efficacy of Fumigant Nematicides to Control Hoplolaimus columbus on Cotton|J. Nematol.22(4 suppl.): 718-723|1990|
93891|A||Shell Oil Co.|Acute Toxicity of 1,3-Dichloropropene in the Golden Orfe (Idus idus melanotus)|Shell Oil Company, Washington, DC:8 p.|1987|
93892|T||Dow Chemical Co.|Evaluation of Telone II Soil Fumigant in the Mouse Bone Marrow Micronucleus Test|EPA/OTS Doc.#86-870002289:18 p.|1987|
93893|A||Hunter/ESE Inc.|1,2-Dichloropropane: Chronic Toxicity to the Mysid Under Flow-Through Conditions with Cover Letter|EPA/OTS Doc.#40-8967199:46 p.|1989|
93894|T||Shell Oil Co.|Toxicity of Fine Chemicals:  Preliminary Studies for the Detection of Testicular Changes in Rats with Cover Letter Dated 042586|EPA/OTS Doc.#878216424:75 p.|1986|
93895|T||Dow Chemical Co.|Neurotoxicologic Examination of Fischer 344 Rats Exposed to 1,2-Dichloropropane via Gavage for 2 Weeks with Cover Letter Dated 022389|EPA/OTS Doc.#86-890000125:53 p.|1989|
93896|T||Dow Corning Chemical Co.|1,3-Dichloropropene:  Mechanism of Tumorigenicity Studies in Male B6C3F1 Mice and Fisher 344 Rats, with Cover Letter Dated 9/1/1998|Dow Chemical Co., Midland, MI:201 p.|1998|
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93898|T||Selan,F.M., and M.A. Evans|Effect of Chlorinated Alkanes on Hepatic Triglyceride Secretion|Res. Commun. Chem. Pathol. Pharmacol.55(2): 249-269|1987|
93899|T||Nelson,E.E., B. Goldfarb, and W.G. Thies|Trichoderma Species from Fumigated Douglas-Fir Roots Decayed by Phellinus weirii|Mycologia79(3): 370-374|1987|10.1080/00275514.1987.12025392
93900|A||Elias,E.E., E. Kalombo, and S.D. Mercurio|Tamoxifen Protects Against 17alpha-Ethynylestradiol-Induced Liver Damage and the Development of Urogenital Papillae in the Rainbow Darter (Etheostoma caeruleum)|Environ. Toxicol. Chem.26(9): 1879-1889|2007|10.1897/06-170R.1
93901|T||Hausbeck,M.K., J. Bell, C. Medina-Mora, R. Podolsky, and D.W. Fulbright|Effect of Bactericides on Population Sizes and Spread of Clavibacter michiganensis subsp. michiganensis on Tomatoes in the Greenhouse and on Disease Development and Crop Yield in the Field|Phytopathology90(1): 38-44|2000|10.1094/PHYTO.2000.90.1.38
93902|T||Ohnishi,M., H. Yajima, T. Takeuchi, M. Saito, K. Yamazaki, T. Kasai, K. Nagano, S. Yamamota, T. Matsushima, and T. Ishi|Mechanism of Urinary Tract Crystal Formation Following Biphenyl Treatment|Toxicol. Appl. Pharmacol.174(2): 122-129|2001|10.1006/taap.2001.9192
93904|T||Hood,A., and C.D. Klaassen|Differential Effects of Microsomal Enzyme Inducers on In Vitro Thyroxine (T4) and Triiodothyronine (T3) Glucuronidation|Toxicol. Sci.55(1): 78-84|2000|10.1093/toxsci/55.1.78
93905|T||Ikeda,M., Y. Ishii, H. Kato, D. Akazawa, M. Hatsumura, T. Ishida, K. Matsusue, H. Yamada, and K. Oguri|Suppression of Carbonic Anhydrase III in Rat Liver by a Dioxin-Related Toxic Compound, Coplanar Polychlorinated Biphenyl, 3,3',4,4',5- Pentachlorobiphenyl|Arch. Biochem. Biophys.380(1): 159-164|2000|10.1006/abbi.2000.1911
93906|T||Kato,Y., K. Haraguchi, T. Shibahara, Y. Shinmura, Y. Masuda, and R. Kimura|The Induction of Hepatic Microsomal UDP-Glucuronosyltransferase by the Methylsulfonyl Metabolites of Polychlorinated Biphenyl Congeners in Rats|Chem.-Biol. Interact.125(2): 107-115|2000|10.1016/S0009-2797(99)00168-4
93907|T||Lilienthal,H., A. Fastabend, J. Hany, H. Kaya, A. Roth-Harer, L. Dunemann, and G. Winneke|Reduced Levels of 1,25-Dihydroxyvitamin D3 in Rat Dams and Offspring After Exposure to a Reconstituted PCB Mixture|Toxicol. Sci.57(2): 292-301|2000|10.1093/toxsci/57.2.292
93908|T||Oakley,G.G., A.L. Roe, R.A. Blouin, T.P. Twaroski, T.C. Ganguly, M. Vore, H.J. Lehmler, and L.W. Robertson|2,4,4'-Trichlorobiphenyl Increases STAT5 Transcriptional Activity|Mol. Carcinog.30(4): 199-208|2001|10.1002/mc.1029
93909|T||Ohnishi,M., H. Yajima, S. Yamamoto, T. Matsushima, and T. Ishii|Sex Dependence of the Components and Structure of Urinary Calculi Induced by Biphenyl Administration in Rats|Chem. Res. Toxicol.13(8): 727-735|2000|10.1021/tx0000163
93910|T||Schilderman,P.A.E.L., L.M. Maas, D.M.F.A. Pachen, T.M.C.M. De Kok, J.C.S. Kleinjans, and F.J. Van Schooten|Induction of DNA Adducts by Several Polychlorinated Biphenyls|Environ. Mol. Mutagen.36(2): 79-86|2000|10.1002/1098-2280(2000)36:2<79::AID-EM1>3.0.CO;2-E
93911|A||Schlezinger,J.J., J. Keller, L.A. Verbrugge, and J.J. Stegeman|3,3',4,4'-Tetrachlorobiphenyl Oxidation in Fish, Bird and Reptile Species:  Relationship to Cytochrome P450 1A Inactivation and Reactive Oxygen Production|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.125C(3): 273-286|2000|
93913|T||Thomas,R.S., D.R. Rank, S.G. Penn, G.M. Zastrow, K.R. Hayes, K. Pande, E. Glover, T. Silander, M.W. Craven, J.K. Reddy,|Identification of Toxicologically Predictive Gene sets Using cDNA Microarrays|Mol. Pharmacol.60(6): 1189-1194|2001|10.1124/mol.60.6.1189
93914|T||Vansell,N.R., and C.D. Klaassen|Effect of Microsomal Enzyme Inducers on the Biliary Excretion of Triiodothyronine (T3) and Its Metabolites|Toxicol. Sci.65(2): 184-191|2002|10.1093/toxsci/65.2.184
93916|T||Shepelskaya,N.R.|The Effect of Pesticides Decis, Polyram, 2,4-D Complex on the Reproductive System.  Communication 1.  Reproductive Toxicity of Decis|Fresenius Environ. Bull.5(7/8): 380-385|1996|
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93918|T||Patil,I.S., S. Kulkarni, and R.K. Hegde|Bioassay of Fungicides Against Drechslera sorokiniana (Sacc)|Pesticides 20(9): 30-31|1986|
93919|T||Conway,K.E., J.E. Motes, and C.J. Foor|Comparison of Chemical and Cultural Controls for Cercospora Blight on Asparagus and Correlations Between Disease Levels and Yield|Phytopathology80(10): 1103-1108|1990|10.1094/Phyto-80-1103
93920|T||Sannegowda,S., and K.T. Pandurangegowda|Economic Schedule for Chemical Control of Rice Blast Disease|Pesticides 20(9): 33-34|1986|
93921|T||Fernando,T., B.B. Jarvis, and G. Bean|A Comparison of the Effect of Three Fungicides on Growth and Roridin E Production by Myrothecium roridum|Mycopathologia95(3): 155-158|1986|10.1007/BF00437120
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93923|T||Thomas,J., R.S. Bhai, and R. Naidu|Comparative Efficacy of Fungicides Against Phytophthora Rot of Small Cardamom|Pesticides 23(9): 40-42|1989|
93924|T||Labuschagne,N., J.M. Kotze, and R.J. Grimbeek|Control of Chalara elegans Seed-Borne Infection of Groundnuts|Phytophylactica23(4): 309-313|1991|
93925|T||Upadhyay,V.K.|Chemical Control of Macrophomina Leaf Spot of Mung|Pesticides 20(1): 47-|1986|
93926|T||Sastry,M.N.L., S. Lingaraju, and S.T. Naik|Efficacy of Some Fungicides in the Control of Anthracnose of Grapevines|Pesticides 23(3): 29-30|1989|
93927|T||Gupta,G.K., and K.D. Verma|Efficacy, Phytotoxicity and Post-Symptom Activity of Fungicides in the Control of Apple Scab (Venturia inaequalis (cke.) Wint)|Pesticides 22(2): 40-43|1988|
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93940|T||Johnson,D.L., K.L. Maguire, D.R. Anderson, and S.P. McGrath|Enhanced Dissipation of Chrysene in Planted Soil:  The Impact of a Rhizobial Inoculum|Soil Biol. Biochem.36(1): 33-38|2004|10.1016/j.soilbio.2003.07.004
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93943|T||Davies,R., B. Clothier, and A.G. Smith|Mutation Frequency in the lacI Gene of Liver DNA from Iambda/lacI Transgenic Mice Following the Interaction of PCBs with Iron Causing Hepatic Cancer and Porphyria|Mutagenesis15(5): 379-383|2000|10.1093/mutage/15.5.379
93944|T||De Matteis,F., S.J. Dawson, N. Pons, and S. Pipino|Bilirubin and Uroporphyrinogen Oxidation by Induced Cytochrome P4501A and Cytochrome P4502B Role of Polyhalogenated Biphenyls of Different Configuration|Biochem. Pharmacol.63(4): 615-624|2002|10.1016/S0006-2952(01)00851-6
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93946|T||Freeman,G.B., R.A. Lordo, A.W. Singer, A.C. Peters, B.H. Neal, E.E. McConnell, and B.A. Mayes|An Assessment of Neurotoxicity of Aroclors 1016, 1242, 1254, and 1260 Administered in Diet to Sprague-Dawley Rats for One Year|Toxicol. Sci.53(2): 377-391|2000|10.1093/toxsci/53.2.377
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93952|T||Sonoki,S., A. Kobayashi, S. Matsumoto, S. Nitta, and S. Hisamatsu|Analysis of Plant Gene Response to the Stress of Coplanar PCB Using the Transgenic Arabidopsis thaliana|Organohalog. Compd.49:450-453|2000|
93953|T||Seegal,R.F., R.J. Okoniewski, and J.C. Bemis|Aroclor 1254 Alters Extra-Cellular Dopamine Concentrations in Adult Rat Striatum|Organohalog. Compd.49:1-4|2000|
93954|T||Riyaz,B.M., N.S. Braddy, P.S. Kodavanti, and N.H. Zawia|Changes in the DNA-Binding of Several Transcription Factors in the Developing Rat Cerebellum by PCBs|Organohalog. Compd.57:381-383|2002|
93955|T||Haraguchi,K., Y. Kato, N. Koga, M. Degawa, R. Kimura, and Y. Masuda|Species Difference in Tissue Retention of PCB Metabolites After In Vivo Exposure to 2,4,5,2',5'-Penta- and 2,3,4,2',3',6'-Hexachlorobiphenyls|Organohalog. Compd.56:33-36|2002|
93957|T||Dow Chemical Co.|Propylene Dichloride:  A 13-Day Repeated Oral Gavage Study in New Zealand White Rabbits with Attached Appendix and Cover Letter Dated 011389|Dow Chemical Co., Midland, MI:43 p.|1989|
93958|T||Rohm and Haas Co.|Initial Submission:  NTP (Draft) Technical Report on the Carcinogenesis Bioassay with 1,2-Dichloropropane in Rats and Mice with Cover Letter Dated 080492|EPA/OTS Doc.#88-920005680:136 p.|1992|
93959|T||Dow Chemical Co.|Propylene Dichloride:  Dominant Lethal Study in Sprague-Dawley Rats (Final) with Cover Letters|EPA/OTS Doc.#40-8967206:113 p.|1989|
93960|T||Dow Chemical Co.|Initial Submission:  104-Week Chronic Toxicity and Oncogenicity Study with 1,3-Dichlor-Propan-2-OL in the Rat with Cover Letter Dated 041092|Hercules Inc., Wilmington, DE:40 p.|1992|
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93973|T||Platt,K.L., H.P. Dienes, M. Tommasone, and A. Luch|Tumor Formation in the Neonatal Mouse Bioassay Indicates that the Potent Carcinogen Dibenzo(def,p)chrysene (Dibenzo(a,l)pyrene) is Activated In Vivo via Its Trans-11,12-Dihydrodiol|Chem.-Biol. Interact.148(1-2): 27-36|2004|10.1016/j.cbi.2004.04.001
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93976|T||Paul,K., P.K. Moitra, I. Mukherjee, C. Maity, and S.K. Ghosal|Teratogenicity of Arecoline Hydrobromide on Developing Chick Embryos:  A Preliminary Report|Bull. Environ. Contam. Toxicol.62(3): 356-362|1999|10.1007/s001289900882
93977|T||Hernandez,J.P., W. Huang, L.M. Chapman, S. Chua, D.D. Moore, and W.S. Baldwin|The Environmental Estrogen, Nonylphenol, Activates the Constitutive Androstane Receptor|Toxicol. Sci.98(2): 416-426|2007|10.1093/toxsci/kfm107
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93979|T||Kumar,T., E.M. Mohan, N. Ramesh, K.S. Pillai, and B.P.K. Murthy|Toxicity of Combination of Fluoride and Monocrotophos 36% SL to Wistar Rat.|J. Environ. Biol.19(4): 305-311|1998|
93980|T||Wu,P.J., E.H. Greeley, L.G. Hansen, and M. Segre|Immunological, Hematological, and Biochemical Responses in Immature White-Footed Mice Following Maternal Aroclor 1254 Exposure:  A Possible Bioindicator|Arch. Environ. Contam. Toxicol.36(4): 469-476|1999|10.1007/PL00006620
93981|T||Saghir,S.A., and L.G. Hansen|Toxicity and Tissue Distribution of 2,2',4,4'- and 3,3',4,4'-Tetrachlorobiphenyls in Houseflies|Ecotoxicol. Environ. Saf.42(2): 177-184|1999|10.1006/eesa.1998.1748
93982|T||Helsby,N.A., J.K. Chipman, A. Gescher, and D. Kerr|Inhibition of Mouse and Human CYP 1A- and 2E1-dependent Substrate Metabolism by the Isoflavonoids Genistein and Equol|Food Chem. Toxicol.36(5): 375-382|1998|10.1016/S0278-6915(97)00171-3
93984|T||Pawar,R.N., P.G. Utikar, and P.A. Shinde|Field Evaluation and Economics of Fungicidal Control of Powdery Mildew (Leveillula taurica (Lev.) Arn.) of Chilli|Pesticides 19(8): 69-70|1985|
93985|T||De Bertoldi,M., M. Griselli, M. Giovannetti, and R. Barale|Mutagenicity of Pesticides Evaluated by Means of Gene-Conversion in Saccharomyces cerevisiae and in Aspergillus nidulans|Environ. Mutagen.2(3): 359-370|1980|10.1002/em.2860020306
93986|T||Samoucha,Y., and U. Gisi|Use of Two- and Three-Way Mixtures to Prevent Buildup of Resistance to Phenylamide Fungicides in Phytophthora and Plasmopara|Phytopathology77(10): 1405-1409|1987|10.1094/Phyto-77-1405
93987|T||Peshney,N.L., N.N. Khune, and P.G. Moghe|Laboratory Screening of Some Fungicides Against Puccinia recondita|Pesticides 14(2): 21-23|1980|
93988|T||Giovannetti,M., and S. Riess|Effects of Soil Applications of Systemic Fungicides on Bulb Formation in Onions|Plant Soil57(2-3): 463-465|1980|10.1007/BF02211703
93989|T||Sanders,P.L., W.J. Houser, P.J. Parish, and H.,Jr. Cole|Reduced-Rate Fungicide Mixtures to Delay Fungicide Resistance and to Control Selected Turfgrass Diseases|Plant Dis.69(11): 939-943|1985|
93990|T||Clarke,G.S., B.C. Baldwin, and H.H. Rees|Inhibition of the Fucosterol-24(28)-Epoxide Cleavage Enzyme of Sitosterol Dealkylation in Spodoptera littoralis Larvae|Pestic. Biochem. Physiol.24(2): 220-230|1985|10.1016/0048-3575(85)90132-4
93991|T||Hodges,C.F.|Growth and Reproduction of Drechslera sorokiniana as Influenced by Preemergence Herbicides|Mycologia73(2): 244-251|1981|10.1080/00275514.1981.12021341
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93993|T||Wang,H., S. Taketa, A. Miyao, H. Hirochika, and M. Ichii|Isolation of a Novel Lateral-Rootless Mutant in Rice (Oryza sativa L.) with Reduced Sensitivity to Auxin|Plant Sci.170(1): 70-77|2006|10.1016/j.plantsci.2005.08.005
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93998|T||Jones,D.R.|Control of Rust (Uromyces viciae-fabae) on Spring Field Beans|Tests Agrochem. Cultiv.7:44-45|1986|
93999|T||O'Brien,R.G.|Control of Onion Downy Mildew in the Presence of Phenylamide-Resistant Strains of Peronospora destructor (Berk.) Caspary|Aust. J. Exp. Agric.32(5): 669-674|1992|10.1071/EA9920669
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94001|A||Sutherland,D.J.|Toxicity of Insecticides to Aedes aegypti Larvae|Proc. Annu. Meet. N. J. Mosq. Exterm. Assoc.51:107-110|1964|
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94009|A||Unger,M.A., M.C. Newman, and G.G. Vadas|Predicting Survival of Grass Shrimp (Palaemonetes pugio) During Ethylnaphthalene, Demethylnapthalene, and Phenanthrene Exposures Differing in Concentration and Duration|Environ. Toxicol. Chem.26(3): 528-534|2007|10.1897/06-242R.1
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94013|T||Squibb,E.R.|Testolactone Aqueous Suspension (Teslac)|Clin. Pharmacol. Ther.11(2): 302-306|1970|10.1002/cpt1970112302
94015|T||Pocar,P., T.A.L. Brevini, F. Perazzoli, F. Cillo, S. Modina, and F. Gandolfi|Cellular and Molecular Mechanisms Mediating the Effects of Polychlorinated Biphenyls on Oocyte Developmental Competence in Cattle|Mol. Reprod. Dev.60(4): 535-541|2001|10.1002/mrd.1118
94016|T||Pocar,P., F. Perazzoli, A.M. Luciano, and F. Gandolfi|In Vitro Reproductive Toxicity of Polychlorinated Biphenyls:  Effects on Oocyte Maturation and Developmental Competence in Cattle|Mol. Reprod. Dev.58(4): 411-416|2001|10.1002/1098-2795(20010401)58:4<411::AID-MRD8>3.0.CO;2-R
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94018|T||Oda,H., Y. Suzuki, M. Wakayama, and A. Yoshida|Apolipoprotein A-I Gene Expression is Upregulated by Polychlorinated Biphenyls in Rat Liver|J. Nutr. Biochem.11(11-12): 568-573|2000|10.1016/S0955-2863(00)00121-2
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94021|T||Giles,A.S., A. Seidel, and D.H. Phillips|Covalent DNA Adducts Formed by Benzo(c)chrysene in Mouse Epidermis and by Benzo(c)chrysene Fjord-Region Diol Epoxides Reacted with DNA and Polynucleotides|Chem. Res. Toxicol.10(11): 1276-1284|1997|10.1021/tx970114x
94022|T||Rice,J.E., M.C. Defloria, C. Sensenhauser, and E.J. LaVoie|The Influence of Fluoranthene on the Metabolism and DNA Binding of Benzo(a)pyrene In Vivo in Mouse Skin|Chem.-Biol. Interact.68(1-2): 127-136|1988|10.1016/0009-2797(88)90011-7
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94026|T||Bogan,B.W., B. Schoenike, R.T. Lamar, and D. Cullen|Manganese Peroxidase mRNA and Enzyme Activity Levels During Bioremediation of Polycyclic Aromatic Hydrocarbon-Contaminated Soils with Phanerochaete chrysosporium|Appl. Environ. Microbiol.62(7): 2381-2386|1996|10.1128/aem.62.7.2381-2386.1996
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94031|A||Chi,J., H. Liu, B. Li, and G.L. Huang|Accumulation and Biodegradation of Dibutyl Phthalate in Chlorella vulgaris|Bull. Environ. Contam. Toxicol.77(1): 21-29|2006|10.1007/s00128-006-1027-6
94032|A||Cherkosov,A.S., A.H. Ringwood, and I.M. Sokolova|Combined Effects of Temperature Acclimation and Cadmium Exposure on Mitochondrial Function in Eastern Oysters Crassostrea virginica Gmelin (Bivalvia:  Ostreidae)|Environ. Toxicol. Chem.25(9): 2461-2469|2006|10.1897/05-584R.1
94033|T||Cheng,P.W., S.H. Liu, Y.H. Young, and S.Y. Lin-Shiau|d-Methionine Attenuated Cisplatin-Induced Vestibulotoxicity Through Altering ATPase Activities and Oxidative Stress in Guinea Pigs|Toxicol. Appl. Pharmacol.215(2): 228-236|2006|10.1016/j.taap.2006.02.014
94034|T||Chen,Y.H., D.X. Xu, L. Zhao, H. Wang, J.P. Wang, and W. Wei|Ascorbic Acid Protects Against Lipopolysaccharide-Induced Intra-uterine Fetal Death and Intra-uterine Growth Retardation in Mice|Toxicology217(1): 39-45|2006|10.1016/j.tox.2005.08.010
94035|T||Chen,C.M., H.C. Chou, H.H. Hsu, and L.F. Wang|Transforming Growth Factor-beta1 Upregulation is Independent of Angiotensin in Paraquat-Induced Lung Fibrosis|Toxicology216(2-3): 181-187|2005|10.1016/j.tox.2005.08.004
94036|T||Chen,Z., H. Meng, G. Xing, C. Chen, Y. Zhao, G. Jia, T. Wang, H. Yuan, C. Ye, F. Zhao, Z. Chai, C. Zhu, X. Fang, B. Ma,|Acute Toxicological Effects of Copper Nanoparticles In Vivo|Toxicol. Lett.163(2): 109-120|2006|10.1016/j.toxlet.2005.10.003
94037|T||Chen,L., N. Mei, L. Yao, and T. Chen|Mutations Induced by Carcinogenic Doses of Aristolochic Acid in Kidney of Big Blue Transgenic Rats|Toxicol. Lett.165(3): 250-256|2006|10.1016/j.toxlet.2006.04.008
94038|A||Chen,C.M., and M.C. Liu|Ecological Risk Assessment on a Cadmium Contaminated Soil Landfill - a Preliminary Evaluation Based on Toxicity Tests on Local Species and Site-Specific Information|Sci. Total Environ.359(1-3): 120-129|2006|10.1016/j.scitotenv.2005.04.041
94039|T||Chen,K.L., and P.W.S. Chiou|Oral Treatment of Mule Ducks with Arsenicals for Inducing Fatty Liver|Poult. Sci.80(3): 295-301|2001|10.1093/ps/80.3.295
94040|A||Chaufan,G., A. Juarez, S. Basack, E. Ithuralde, S.E. Sabatini, G. Genovese, M.L. Oneto, E. Kesten, and M.C. Rios de Mol|Toxicity of Hexachlorobenzene and Its Transference from Microalgae (Chlorella kessleri) to Crabs (Chasmagnathus granulatus)|Toxicology227(3): 262-270|2006|10.1016/j.tox.2006.08.011
94041|A||Charles,A.L., S.J. Markich, and P. Ralph|Toxicity of Uranium and Copper Individually, and in Combination, to a Tropical Freshwater Macrophyte (Lemna aequinoctialis)|Chemosphere62(8): 1224-1233|2006|10.1016/j.chemosphere.2005.04.089
94042|T||Wei,C., C. Jun, W. Qing-yi, and C. Xue-min|Effects of BRN-3A Protein and RNA Expression in Rat Brain Following Low-Level Lead Exposure During Development on Spatial Learning and Memory|Toxicol. Lett.164(1): 63-70|2006|10.1016/j.toxlet.2005.11.011
94043|T||Chang,H.R., D.A. Tsao, H.S. Yu, and C.K. Ho|Beta-Adrenergic Receptor Density and Adenylate Cyclase Activity in Lead-Exposed Rat Brain After Cessation of Lead Exposure|Arch. Toxicol.79(1): 1-6|2005|10.1007/s00204-004-0605-9
94044|T||Sekhar,K.C., C.T. Kamala, N.S. Chary, V. Balaram, and G. Garcia|Potential of Hemidesmus Indicus for Phytoextraction of Lead from Industrially Contaminated Soils|Chemosphere58(4): 507-514|2005|10.1016/j.chemosphere.2004.09.022
94045|T||Chan,M.H., C.C. Lee, and H.H. Chen|Effects of Toluene on Seizures Induced by Convulsants Acting at Distinct Ligand-Gated Ion Channels|Toxicol. Lett.160(3): 179-184|2006|10.1016/j.toxlet.2005.07.002
94046|A||Chan,K.M., L.L. Ku, P.C.Y. Chan, and W.K. Cheuk|Metallothionein Gene Expression in Zebrafish Embryo-Larvae and ZFL Cell-Line Exposed to Heavy Metal Ions|Mar. Environ. Res.62(suppl.1): S83 - S87|2006|
94047|T||Cetiner,M., G. Sener, A.O. Sehirli, E. Eksioglu-Demiralp, F. Ercan, S. SirvancI, N. Gedik, S. Akpulat, T. Tecimer, and |Taurine protects against methotrexate-induced toxicity and inhibits leukocyte death|Toxicol. Appl. Pharmacol.209(1): 39-50|2005|10.1016/j.taap.2005.03.009
94048|T||Casimiro,S., M. Coleman, J. Hemingway, and B. Sharp|Insecticide Resistance in Anopheles arabiensis and Anopheles gambiae from Mozambique|J. Med. Entomol.43(2): 276-282|2006|10.1093/jmedent/43.2.276
94049|T||Casimiro,S., M. Coleman, P. Mohloai, J. Hemingway, and B. Sharp|Insecticide Resistance in Anopheles funestus (Diptera:  Culicidae) from Mozambique|J. Med. Entomol.43(2): 267-275|2006|10.1093/jmedent/43.2.267
94050|T||Casalino,E., C. Sblano, G. Calzaretti, and C. Landriscina|Acute Cadmium Intoxication Induces alpha-Class Glutathione S-Transferase Protein Synthesis and Enzyme Activity in Rat Liver|Toxicology217(2-3): 240-245|2006|10.1016/j.tox.2005.09.020
94051|A||Capkin,E., I. Altinok, and S. Karahan|Water Quality and Fish Size Affect Toxicity of Endosulfan, an Organochlorine Pesticide, to Rainbow Trout|Chemosphere64(10): 1793-1800|2006|10.1016/j.chemosphere.2005.12.050
94052|T||Capowiez,Y., and A. Berard|Assessment of the Effects of Imidacloprid on the Behavior of two Earthworm Species (Aporrectodea nocturna and Allolobophora icterica) Using 2D Terraria|Ecotoxicol. Environ. Saf.64(2): 198-206|2006|10.1016/j.ecoenv.2005.02.013
94053|A||Capaldo,A., F. Gay, M. De Falco, F. Virgilio, S. Valiante, V. Laforgia, and L. Varano|The Newt Triturus carnifex as a Model for Monitoring the Ecotoxic Impact of the Fungicide Thiophanate Methyl: Adverse Effects on the Adrenal Gland|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(1): 86-93|2006|10.1016/j.cbpc.2005.12.005
94054|T||Callegari,F., S. Sosa, S. Ferrari, M.R. Soranzo, S. Pierotti, T. Yasumoto, A. Tubaro, and G.P. Rossini|Oral Administration of Yessotoxin Stabilizes E-Cadherin in Mouse Colon|Toxicology227(1-2): 145-155|2006|10.1016/j.tox.2006.07.023
94055|T||Calic,M., A.L. Vrdoljak, B. Radic, D. Jelic, D. Jun, K. Kuca, and Z. Kovarik|In Vitro and In Vivo Evaluation of Pyridinium Oximes:  Mode of Interaction with Acetylcholinesterase, Effect on Tabun- and Soman-Poisoned Mice and Their Cytotoxicity|Toxicology219(1-3): 85-96|2006|10.1016/j.tox.2005.11.003
94058|A||Ateeq,B., M.A. Farah, and W. Ahmad|Evidence of Apoptotic Effects of 2,4-D and Butachlor on Walking Catfish, Clarias batrachus, by Transmission Electron Microscopy and DNA Degradation Studies|Life Sci.78(9): 977-986|2006|10.1016/j.lfs.2005.06.008
94059|T||Burger,J., and M. Gochfeld|Effects of Lead on Learning in Herring Gulls:  An Avian Wildlife Model for Neurobehavioral Deficits|Neurotoxicology26(4): 615-624|2005|10.1016/j.neuro.2005.01.005
94060|T||Burdan,F., J. Szumilo, B. Marzec, R. Klepacz, and J. Dudka|Skeletal Developmental Effects of Selective and Nonselective Cyclooxygenase-2 Inhibitors Administered Through Organogenesis and Fetogenesis in Wistar CRL:(WI)WUBR Rats|Toxicology216(2-3): 204-223|2005|10.1016/j.tox.2005.08.009
94061|A||Brown,M., I.M. Davies, C.F. Moffat, and J.A. Craft|Application of SSH and a Macroarray to Investigate Altered Gene Expression in Mytilus edulis in Response to Exposure to Benzo[a]pyrene|Mar. Environ. Res.62(suppl.1): S128 - S135|2006|
94063|A||Brausch,J.M., and P.N. Smith|Toxicity of Three Polyethoxylated Tallowamine Surfactant Formulations to Laboratory and Field Collected Fairy Shrimp, Thamnocephalus platyurus|Arch. Environ. Contam. Toxicol.52(2): 217-221|2007|10.1007/s00244-006-0151-y
94065|T||Kerins,G.M., and A.D. MacNicoll|Comparison of the Half-lives and Regeneration Rates of Blood Clotting Factors II, VII, and X in Anticoagulant-resistant and Susceptible Norway Rats (Rattus norvegicus Berk.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.122(3): 307-316|1999|
94066|T||Brady,S., M. York, S. Guionaud, C. Gayner, W. Griffiths, I. Roman, C. Stamp, T. Williams, and J. Turton|Cardiotoxicity of Allylamine and Levels of Serum Cardiac Troponin I in the Han Wistar rat:  Proceedings of the British Toxicology Society & the United Kingdom Environmental Mutagen Society Joint Congress. University of |Toxicology226(1): 54-55|2006|10.1016/j.tox.2006.05.076
94068|T||Cargnelutti,D., L.A. Tabaldi, R.M. Spanevello, G. De Oliveira Jucoski, V. Battisti, M. Redin, C.E.B. Linares, V.L. Dres|Mercury Toxicity Induces Oxidative Stress in Growing Cucumber Seedlings|Chemosphere65(6): 999-1006|2006|10.1016/j.chemosphere.2006.03.037
94069|T||Carfrae,J.A., K.R. Skene, L.J. Sheppard, K. Ingleby, and A. Crossley|Effects of Nitrogen with and Without Acidified Sulphur on an Ectomycorrhizal Community in a Sitka Spruce (Picea sitchensis Bong. Carr) Forest|Environ. Pollut.141(1): 131-138|2006|10.1016/j.envpol.2005.08.020
94070|A||Brix,K.V., R.M. Gerdes, W.J. Adams, and M. Grosell|Effects of Copper, Cadmium, and Zinc on the Hatching Success of Brine Shrimp (Artemia franciscana)|Arch. Environ. Contam. Toxicol.51(4): 580-583|2006|10.1007/s00244-005-0244-z
94071|T||Fung,K.H., R.S. Belcher, and W.A. Downie|Foliar Damage, Residue Levels and Tuber Yield in Potato Treated with Various Concentrations of 2,4-D at Three Stages of Growth|Aust. J. Exp. Agric.16:423-427|1976|10.1071/EA9760423
94072|A||Martins,J., M.L. Soares, M.L. Saker, L. OlivaTeles, and V.M. Vasconcelos|Phototactic Behavior in Daphnia magna Straus as an Indicator of Toxicants in the Aquatic Environment|Ecotoxicol. Environ. Saf.67(3): 417-422|2007|10.1016/j.ecoenv.2006.11.003
94073|T||Balansky,R., L. Novikov, P. Giannoni, A. Izzotti, and S. De Flora|No Effect of Treatment with Carcinogens on Cytosine Methylation of Mitochondrial DNA Isolated from Rat Organs by Phenol-Free Alkaline Extraction|Cancer Lett.97(1): 17-23|1995|10.1016/0304-3835(95)03943-Q
94074|T||Garon,D., S. Krivobok, and F. Seigle-Murandi|Fungal Degradation of Fluorene|Chemosphere40(1): 91-97|2000|10.1016/S0045-6535(99)00250-7
94075|T||Garon,D., L. Sage, D. Wouessidjewe, and F. Seigle-Murandi|Enhanced Degradation of Fluorene in Soil Slurry by Absidia cylindrospora and Maltosyl-cyclodextrin|Chemosphere56(2): 159-166|2004|10.1016/j.chemosphere.2004.02.019
94076|A||Hellou,J., J. Leonard, and C. Anstey|Dietary Exposure of Finfish to Aromatic Contaminants and Tissue Distribution|Arch. Environ. Contam. Toxicol.42(4): 470-476|2002|10.1007/s00244-001-0038-x
94077|T||Barber,J.L., P.B. Kurt, G.O. Thomas, G. Kerstiens, and K.C. Jones|Investigation into the Importance of the Stomatal Pathway in the Exchange of PCBs Between Air and Plants|Environ. Sci. Technol.36(20): 4282-4287|2002|10.1021/es025623m
94078|T||Amirova,Z., B. Katsnelson, and O. Beresneva|"""Sovtol"" (Commercial PCBs) Neutralisation:  Toxicological Assessment of Technology"|Organohalog. Compd.54:167-170|2001|
94079|T||Kato,Y., T. Yamazaki, K. Haraguchi, K. Nemoto, Y. Masuda, M. Degawa, and R. Kimura|Effects of Polychlorinated Biphenyls (Kanechlor-500) on Serum Hormone Levels in Rats and Mice|Organohalog. Compd.53:47-49|2001|
94080|T||Diliberto,J.J., D. Burgin, and L.S. Birnbaum|Interactions of Polychlorinated Dioxins, Dibenzofurans and Biphenyls in Wild Type C57BL/6J and CYP1A2 Null Mice|Organohalog. Compd.53:306-308|2001|
94081|T||Ip,C., and D.J. Lisk|Characterization of Tissue Selenium Profiles and Anticarcinogenic Responses in Rats Fed Natural Sources of Selenium-Rich Products|Carcinogenesis15(4): 573-576|1994|10.1093/carcin/15.4.573
94082|A||Bradford,C.M., J.W. Park, J. Rinchard, T.A. Anderson, F. Liu, and C.W. Theodorakis|Uptake and Elimination of Perchlorate in Eastern Mosquitofish|Chemosphere63(9): 1591-1597|2006|10.1016/j.chemosphere.2005.08.073
94083|A||Al-Sabri,I.Y.N., J.D. Smith, and J.D. Thomas|Copper Molluscicides for Control of Schistosomiasis. 3. Adsorption by Clay Suspensions|Environ. Sci. Technol.27(2): 299-303|1993|10.1021/es00039a009
94084|T||Llorens,J., and E. Rodriguez-Farre|Comparison of Behavioral, Vestibular, and Axonal Effects of Subchronic IDPN in the Rat|Neurotoxicol. Teratol.19(2): 117-127|1997|10.1016/S0892-0362(96)00216-4
94085|T||Davies,M.J., E.A. Bowey, H. Adlercreutz, I.R. Rowland, and P.C. Rumsby|Effects of Soy or Rye Supplementation of High-Fat Diets on Colon Tumour Development in Azoxymethane-Treated Rats|Carcinogenesis20(6): 927-931|1999|10.1093/carcin/20.6.927
94086|T||Liu,S.H., J.H. Wang, J.J. Kang, R.H. Lin, and S.Y. Lin-Shiau|Alterations in the Properties and Isoforms of Sciatic Nerve Na +,K+-ATPase in Methylcyclopentadienyl Manganese Tricarbonyl-Treated Mice|Environ. Res.82(3): 239-244|2000|10.1006/enrs.1999.4026
94087|T||Masaphy,S., B. Krinfeld, and D. Levanon|Induction of Linoleic Acid-Supported Benzo(a)pyrene Hydroxylase Activity by Manganese in the White Rot Fungus Pleurotus pulmonarius|Chemosphere36(14): 2933-2940|1998|10.1016/S0045-6535(97)10249-1
94088|A||Chen,C.Y., S.L. Chen, and E.R. Christensen|Individual and Combined Toxicity of Nitriles and Aldehydes to Raphidocelis subcapitata|Environ. Toxicol. Chem.24(5): 1067-1073|2005|10.1897/04-147R.1
94089|T||Elsenhans,B., G. Hunder, G. Strugala, and K. Schuemann|Longitudinal Pattern of Enzymatic and Absorptive Functions in the Small Intestine of Rats After Short-Term Exposure to Dietary Cadmium Chloride|Arch. Environ. Contam. Toxicol.36(3): 341-346|1999|10.1007/s002449900480
94090|A||Mayer,L.P., C.A. Dyer, and C.R. Propper|Exposure to 4-Tert-Octylphenol Accelerates Sexual Differentiation and Disrupts Expression of Steroidogenic Factor 1 in Developing Bullfrogs|Environ. Health Perspect.111(4): 557-561|2003|10.1289/ehp.5304
94091|T||Lina,B.A.R., and A. Bar|Subchronic Oral Toxicity Studies with gamma-Cyclodextrin in Rats|Regul. Toxicol. Pharmacol.27(2): 178-188|1998|10.1006/rtph.1998.1223
94092|T||Chamberlain,M.P., E.A. Lock, B.A. Gaskell, and C.J. Reed|The Role of Glutathione S-Transferase- and Cytochrome P450-Dependent Metabolism in the Olfactory Toxicity of Methyl Iodide in the Rat|Arch. Toxicol.72(7): 420-428|1998|10.1007/s002040050522
94093|T||Donaubauer,H.H., H. Fuchs, K.H. Langer, and A. Bar|Subchronic Intravenous Toxicity Studies with gamma-Cyclodextrin in Rats|Regul. Toxicol. Pharmacol.27(2): 189-198|1998|10.1006/rtph.1998.1224
94094|T||Jiang,S., Z. Liu, and X. Zhuang|Effect of Procaine Hydrochloride on Cyanide Intoxication and Its Effect on Neuronal Calcium in Mice|Toxicol. Appl. Pharmacol.150(1): 32-36|1998|10.1006/taap.1998.8408
94096|T||Liu,J., Y. Liu, S.S.M. Habeebu, and C.D. Klaassen|Metallothionein (MT)-Null Mice are Sensitive to Cisplatin-Induced Hepatotoxicity|Toxicol. Appl. Pharmacol.149(1): 24-31|1998|10.1006/taap.1997.8325
94097|T||MacKenzie,K.M., P.J. Tisdel, R.L. Hall, B.G. Boysen, W.E. Field, and C.I. Chappel|Oral Toxicity and Carcinogenicity Studies of Sucrose Acetate Isobutyrate (SAIB) in the Fischer 344 Rat and B6C3F1 Mouse|Food Chem. Toxicol.36(2): 111-120|1998|10.1016/S0278-6915(97)00124-5
94098|T||Nagao,T., M. Kuwagata, and Y. Saito|Effects of Prenatal Exposure to 5-Bromo-2'-Deoxyuridine on the Developing Brain and Reproductive Function in Male Mouse Offspring|Reprod. Toxicol.12(4): 477-487|1998|10.1016/S0890-6238(98)00020-3
94100|T||Khan,M.F., P.J. Boor, Y. Gu, N.W. Alcock, and G.A.S. Ansari|Oxidative Stress in the Splenotoxicity of Aniline|Fundam. Appl. Toxicol.35(1): 22-30|1997|10.1006/faat.1996.2259
94101|T||Dix,K.J., G.L. Kedderis, and S.J. Borghoff|Vehicle-Dependent Oral Absorption and Target Tissue Dosimetry of Chloroform in Male Rats and Female Mice|Toxicol. Lett.91(3): 197-209|1997|10.1016/S0378-4274(97)00023-4
94102|T||Durnam,D.M., and R.D. Palmiter|Transcriptional Regulation of the Mouse Metalothionein-I Gene by Heavy Metals|J. Biol. Chem.256(11): 5712-5716|1981|10.1016/S0021-9258(19)69264-1
94103|A||Chandrasekera,L.K.H.U., and A. Pathiratne|Response of Brain and Liver Cholinesterases of Nile Tilapia, Oreochromis niloticus, to Single and Multiple Exposures of Chlorpyrifos and Carbosulfan|Bull. Environ. Contam. Toxicol.75(6): 1228-1233|2005|10.1007/s00128-005-0880-z
94104|T||Fawcett,R.S., and F.W. Slife|Effects of 2,4-D and Dalapon on Weed Seed Production and Dormancy|Weed Sci.26(6): 543-547|1978|10.1017/S004317450006450X
94105|T||Thilenius,J.F., and G.R. Brown|Effect of 2,4-D on Digestibility and Production of Subalpine Herbage|J. Range Manag.29(1): 63-65|1976|10.2307/3897697
94106|T||Thilenius,J.F., G.R. Brown, and C.C. Kaltenbach|Treating Forb-Dominated Subalpine Range with 2,4-D:  Effects on Herbage and Cattle Diets|J. Range Manag.28(4): 311-315|1975|10.2307/3897785
94107|T||Di Toppi,L.S., R. Marabottini, Z. Vattuone, R. Musetti, M.A. Favali, A. Sorgona, and M. Badiani|Cell Wall Immobilisation and Antioxidant Status of Xanthoria parietina Thalli Exposed to Cadmium|Funct. Plant Biol.32(7): 611-618|2005|10.1071/FP04237
94108|T||Hoque,M.S., J. Masle, M.K. Udvardi, P.R. Ryan, and N.M. Upadhyaya|Over-Expression of the Rice OsAMT1-1 Gene Increases Ammonium Uptake and Content, but Impairs Growth and Development of Plants Under high Ammonium Nutrition|Funct. Plant Biol.33(2): 153-163|2006|10.1071/FP05165
94109|A||Notch,E.G., D.M. Miniutti, and G.D. Mayer|17 alpha-Ethinylestradiol Decreases Expression of Multiple Hepatic Nucleotide Excision Repair Genes in Zebrafish (Danio rerio)|Aquat. Toxicol.84(3): 301-309|2007|10.1016/j.aquatox.2007.06.006
94111|T||Sen,S.|The Level of Action of 2,4-D on Transcription|Experientia34:724-|1978|10.1007/BF01947282
94112|T||Tu,C.M., C.F. Marks, and J.M. Elliot|Effects of Nematicides on Pratylenchus penetrans, Soil Nitrification, and Growth of Flue-Cured Tobacco|Bull. Environ. Contam. Toxicol.57(6): 924-931|1996|10.1007/s001289900278
94113|T||Choie,D.D., G.W. Richter, and L.B. Young|Biogenesis of Intranuclear Lead-Protein Inclusions in Mouse Kidney|Beitr.Pathol.155(2): 197-203|1975|10.1016/S0005-8165(75)80193-4
94114|T||Kessler,E.|Documentation of a 2,4-D Accident|Environ. Conserv.7(2): 139-144|1980|10.1017/S0376892900007177
94116|T||Seibert,K., F. Fuhr, and W. Mittelstaedt|Experiments on the Influence of Roots and Soils on 2,4-D Degradation|Landwirtsch. Forsch. (Non-English)35(1-2): 5-13|1982|
94117|T||Nicholaichuk,W., and R. Grover|Loss of Fall-Applied 2,4-D in Spring Runoff from a Small Agricultural Watershed|J. Environ. Qual.12(3): 412-414|1983|10.2134/jeq1983.00472425001200030020x
94118|T||Gile,J.D.|2,4-D - Its Distribution and Effects in a Ryegrass Ecosystem|J. Environ. Qual.12(3): 406-412|1983|10.2134/jeq1983.00472425001200030019x
94119|T||Martin,R.A., and L.V. Edgington|Comparative Systemic Translocation of Several Xenobiotics and Sucrose|Pestic. Biochem. Physiol.16(2): 87-96|1981|10.1016/0048-3575(81)90040-7
94120|T||Castro de Cantarini,S.M., A.M. Evangelista De Duffard, and R.O. Duffard|Penetration Studies and Residue Determinations of 2,4-Dichlorophenoxyacetic Acid Butyl Ester in Fertile Hen Eggs and Chicks Hatched from Treated Eggs|Drug Chem. Toxicol.12(2): 137-146|1989|10.3109/01480548908999150
94121|A||Ali,M.N., and W. Ahmad|Genotoxicity of 2, 4-Dichlorophenoxyacetic Acid (2, 4-D) on Filarial Vector, Culex pipiens fatigans|J. Environ. Biol.17(4): 331-337|1996|
94122|T||Lin,W., X. Hu, W. Zhang, J.W. Rogers, and W. Cai|Hydrogen Peroxide Mediates Defence Responses Induced by Chitosans of Different Molecular Weights in Rice|J. Plant Physiol.162(8): 937-944|2005|10.1016/j.jplph.2004.10.003
94123|T||Lutts,S., M. Almansouri, and J.M. Kinet|Salinity and Water Stress have Contrasting Effects on the Relationship Between Growth and Cell Viability During and After Stress Exposure in Durum Wheat Callus|Plant Sci.167(1): 9-18|2004|10.1016/j.plantsci.2004.02.014
94124|A||Gangstad,E.O.|Dissipation of 2,4-D Residues in Large Reservoirs|J. Aquat. Plant Manag.20:13-16|1982|
94125|T||Fofana,D., H. Kobae, K. Sameshima, and K. Miyata|Postnatal Survival of Rat Offspring Prenatally Exposed to Pure 2,4-Dichlorophenoxyacetic Acid (2,4-D)|Congenital Anom.42(1): 32-35|2002|10.1111/j.1741-4520.2002.tb00852.x
94126|T||Thiffault,C., W.J. Langston, and D.A. Di Monte|Acute Exposure to Organochlorine Pesticides does not Affect Striatal Dopamine in Mice|Neurotox. Res.3(6): 537-543|2001|10.1007/BF03033209
94127|T||Dow Chemical Co.|Propylene Dichloride:  Two-Generation Reproduction Study in Sprague-Dawley Rats (Final) with Cover Letter|EPA/OTS Doc.#40-9067215:170 p.|1990|
94129|T||Dow Chemical Co.|Initial Submission:  Neurotoxicologic Examination of Fischer 344 Rats Exposed to 1,2-Dichloropropane (DCP) via Gavage for Two Weeks (Final Report) with Cover Letter Dated 080792|EPA/OTS Doc.#88-920006313:26 p.|1993|
94132|T||Dow Chemical Co.|Initial Submission:  Propylene Dichloride:  A 13 Day Repeated Oral Gavage Study in New Zealand White Rabbits with Cover Letter Dated 043092|EPA/OTS Doc.#88-920002270:20 p.|1992|
94133|T||Dow Chemical Co.|Sub-Chronic (90-Day) Toxicity Study with Telone (1,3-Dichloropropene) in Albino Rats (Final Report)|EPA/OTS Doc.#86-870002301:13 p.|1987|
94134|T||Dow Chemical Co.|1,3-Dichloropropene:  Pharmacokinetics, Effect on Tissue Non-Protein Sulfhydryls, and Macromolecular Binding in Fischer 344 Rats and B6C3F1 Mice Following Oral Administration|Dow Chemical Co., Midland, MI:50 p.|1987|
94135|T||Dow Chemical Co.|1,3-Dichloropropene:  Effects on Tissue Non-Protein Sulfhydryl Content and Blood Concentration Time Profile - Probe Study|Dow Chemical Co., Midland, MI:17 p.|1987|
94136|T||Dow Chemical Co.|Propylene Dichloride: Oral Teratology Probe Study in New Zealand White Rabbits with Cover Letter Dated 100188|EPA/OTS Doc.#86-890000004:78 p.|2000|
94137|T||E.I. Du Pont De Nemours|Initial Submission:  Chronic Feeding and Oncogenicity Study in Mice with NA-73 (Interim Report:  78-Weeks) with Cover Sheets and Letter Dated 081892|Nippon Soda Company, Tokyo, Japan:141 p.|1992|
94150|T||Schweizer,E.E., J.F. Swink, and P.E. Heikes|Field Bindweed (Convolvulus arvensis) Control in Corn (Zea mays) and Sorghum (Sorghum bicolor) with Dicamba and 2,4-D|Weed Sci.26(6): 665-668|1978|10.1017/S004317450006478X
94151|A||Lech,J.J.|Induction of Chemical Biomarkers in Fish|Final Report.Medical College of Wisconsin, Milwaukee, WI:6 p.|1998|
94154|T||Smith,A.G., P. Carthew, B. Clothier, D. Constantin, J.E. Francis, and S. Madra|Synergy of Iron in the Toxicity and Carcinogenicity of Polychlorinated Biphenyls (PCBs) and Related Chemicals|Toxicol. Lett.82-83(1-6): 945-950|1995|10.1016/0378-4274(95)03530-3
94155|A||Ryan,R.L., K.L. Lachmayr, J.A. Jay, and T.E. Ford|Developmental Effects of PCBs on the Hard Clam (Mercenaria mercenaria)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance ControlA36(9): 1571-1578|2001|
94156|T||Kato,Y., K. Haraguchi, M. Kawashima, S. Yamada, Y. Masuda, and R. Kimura|Induction of Hepatic Microsomal Drug-Metabolizing Enzymes by Methylsulphonyl Metabolites of Polychlorinated Biphenyl Congeners in Rats|Chem.-Biol. Interact.95(3): 257-268|1995|10.1016/0009-2797(94)03564-O
94157|A||Jessen-Eller,K., J.A. Kreiling, G.S. Begley, M.E. Steele, C.W. Walker, R.E. Stephens, and C.L. Reinisch|A New Invertebrate Member of the p53 Gene Family is Developmentally Expressed and Responds to Polychlorinated Biphenyls|Environ. Health Perspect.110(4): 377-385|2002|10.1289/ehp.02110377
94159|T||Butterworth,F.M., P. Pandey, R.M. McGowen, S. Ali-Sadat, and S. Walia|Genotoxicity of Polychlorinated Biphenyls (PCBs):  Recombinogenesis by Biotransformation Products|Mutat. Res., Genet. Toxicol. Environ. Mutagen.342(1-2): 61-69|1995|10.1016/0165-1218(95)90090-X
94160|T||Borlak,J.T., A. Scott, C.J. Henderson, H.J. Jenke, and C.R. Wolf|Transfer of PCBs via Lactation Simultaneously Induces the Expression of P450 Isoenzymes and the Protooncogenes c-Ha-ras and c-raf in Neonates|Biochem. Pharmacol.51(4): 517-529|1996|10.1016/0006-2952(95)02228-7
94161|T||Beebe,L.E., L.W. Fornwald, W.L. Alworth, K.H. Dragnev, and R.A. Lubet|Effect of Dietary Aroclor 1254 Exposure on Lung and Kidney Cytochromes P450 in Female Rats:  Evidence for P4501A2 Expression in Kidney|Chem.-Biol. Interact.97(3): 215-227|1995|10.1016/0009-2797(95)03617-U
94162|T||Beebe,L.E., L.W. Fornwald, B.A. Diwan, M.R. Anver, and L.M. Anderson|Promotion of N-Nitrosodiethylamine-Initiated Hepatocellular Tumors and Hepatoblastomas by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin or Aroclor 1254 in C57BL/6, DBA/2, and B6D2F1 Mice|Cancer Res.55(21): 4875-4880|1995|
94163|A||American Petroleum Institute|Potential for Transfer of Polynuclear Aromatic Hydrocarbons from Contaminated Fish (Progress Report) with Cover Letter Dated 021286 & EPA Acknowlegement Letter|New York University Medical Center, New York, NY:10 p.|1986|
94164|T||Mellon Institute|Range Finding Toxicity Tests on Rabbits and Rats|EPA/OTS Doc.#86-870001568:5 p.|2000|
94165|T||E.I. Du Pont De Nemours|Two Stage (Initiation Promotion) Skin Tumorigenicity Testing on Mice|EPA/OTS Doc.#86-870001032:3 p.|1987|
94166|T||Ross,D.G., K.M. Crofton, and M.J. DeVito|Changes in Thyroxine Glucuronidation and Total Serum Thyroxine in Rats Treated with Polychlorinated Biphenyls and Dibenzofurans|Organohalog. Compd.49:243-246|2000|
94170|AT||Dow Chemical Co.|Letter from Dow Chem. Co. to U.S. EPA Regarding Submission of Final Study Reports for 1,2-Dichloropropane with Attachments|EPA/OTS Doc.#40-8867156:673 p.|1988|
94182|T||Grafius,E., and J. Hayden|Insecticide and Growth Regulator Effects on the Leafminer, Liriomyza trifolii (Diptera:  Agromyzidae), in Celery and Observations on Parasitism|Gt. Lakes Entomol.21(2): 49-54|1988|
94183|T||Kagiwada,S., I. Nakamae, M. Kayukawa, and S. Kato|Cytoskeleton-Dependent Polarized Secretion of Arylsulfatase in the Unicellular Green Alga, Chlamydomonas reinhardtii|Plant Sci.166(6): 1515-1524|2004|10.1016/j.plantsci.2004.02.003
94184|T||Dvorakova,K., R.T. Dorr, A. Gallegos, T. McClure, and G. Powis|Pharmacokinetic Studies of the Herbicide and Antitumor Compound Oryzalin in Mice|J. Chromatogr. B Anal. Technol. Biomed. Life Sci.696(2): 275-281|1997|
94185|A||Rengel,D., and A. Pisano|Teratogenic Effects and Cannibalism Caused by Melamine on Bufo arenarum Larvae|Biocell18(2): 13-19|1994|
94186|T||Williams,D.R., M.J. Fisher, and H.H. Rees|Characterization of Ecdysteroid 26-Hydroxylase:  An Enzyme Involved in Molting Hormone Inactivation|Arch. Biochem. Biophys.376(2): 389-398|2000|10.1006/abbi.2000.1731
94188|A||Soetaert,A., K. Van der Ven, L.N. Moens, T. Vandenbrouck, P. Van Remortel, and W.M. De Coen|Daphnia magna and Ecotoxicogenomics:  Gene Expression Profiles of the Anti-Ecdysteroidal Fungicide Fenarimol Using Energy-, Molting- and life Stage-Related cDNA Libraries|Chemosphere67(1): 60-71|2007|10.1016/j.chemosphere.2006.09.076
94189|T||Munkvold,G.P., and J.J. Marois|The Effects of Fungicides on Eutypa lata Germination, Growth, and Infection of Grapevines|Plant Dis.77(1): 50-55|1993|10.1094/PD-77-0050
94190|T||Serfontein,S., and P.S. Knox-Davies|Leaf Spot of Protea Magnifica and Copper Leaf of Leucospermum Cordifolium Associated with Coleroa senniana|Phytophylactica22(1): 103-107|1990|
94191|T||Fiume,F.|Evaluation of Some Fungicides for Control of Powdery Mildew on Sweet Pepper Plants in Protected Cultivations|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.59(3a): 1149-1158|1994|
94192|T||Manandhar,J.B., G.L. Hartman, and T.C. Wang|Semiselective Medium for Colletotrichum gloeosporioides and Occurrence of Three Colletotrichum spp. on Pepper Plants|Plant Dis.79(4): 376-379|1995|10.1094/PD-79-0376
94193|T||Liu,T.X.|Efficacy of Selected Insecticides Against Pepper Pests on Bell Pepper, Fall 2003|Arthropod Manag. Tests30:2 p.|2005|
94194|T||Liu,T.X.|Efficacy of Selected Insecticides Against Melon Pests on Cantaloupe, Spring 2004|Arthropod Manag. Tests30:E15|2005|
94195|T||Liu,T.X.|Efficacy of Selected Insecticides Against Pepper Pests on Jalapeno Pepper, 2004|Arthropod Manag. Tests30:E53|2005|
94196|T||Kuhar,T.P., E.M. Hitchner, and A.V. Chapman|Evaluation of Foliar Insecticides on Potatoes, 2005|Arthropod Manag. Tests31:2 p.|2006|
94197|T||National Toxicology Program (NTP)|Carcinogenesis Bioassay of Melamine (Cas No. 108-78-1) in F344/N Rats and B6C3F1 Mice (Feed Study)|Natl. Toxicol. Program Tech. Rep. Ser.245:168 p.|1983|
94199|T||Latham,A.J., W.A.,Jr. Dozier, J.W. Knowles, and M.H. Hollingsworth|Suppression of Apple Bloom by Fungicides that Inhibit Sterol Synthesis|Plant Dis.69(9): 776-778|1985|
94200|T||Nelson,E.E.|Lethal Effects of Chloropicrin and Vorlex on Phellinus weirii and Nine Trichoderma Species|Eur. J. For. Pathol.19(5/6): 358-362|1989|10.1111/j.1439-0329.1989.tb00270.x
94201|T||Generoso,W.M., J.C. Rutledge, K.T. Cain, L.A. Hughes, and D.J. Downing|Mutagen-Induced Fetal Anomalies and Death Following Treatment of Females Within Hours After Mating|Mutat. Res.199(1): 175-181|1988|10.1016/0027-5107(88)90243-6
94202|A||Tye,C.K., G. Kasinathan, M.P. Barrett, R. Brun, V.E. Doyle, A.H. Fairlamb, R. Weaver, and I.H. Gilbert|An Approach to Use an Unusual Adenosine Transporter to Selectively Deliver Polyamine Analogues to Trypanosomes|Bioorg. Med. Chem. Lett.8(7): 811-816|1998|10.1016/S0960-894X(98)00095-X
94203|T||E.I. Du Pont De Nemours|Initial Submission:  Letter from E.I. Dupont De Nemours & Co. to U.S.EPA Submitting a Summary on a Two-Generation Reproduction Study with Na-73 in Rats (Interim Report) W-Cover Sheets|Du Pont, Wilmington, DE:10 p.|1992|
94204|T||Balinova,A.|Extension of the Bioautograph Technique for Multiresidue Determination of Fungicide Residues in Plants and Water|Anal. Chim. Acta311(3): 423-427|1995|10.1016/0003-2670(95)00198-9
94205|T||Bettiol,W.|Effectiveness of Cow's Milk Against Zucchini Squash Powdery Mildew (Sphaerotheca fuliginea) in Greenhouse Conditions|Crop Prot.18(8): 489-492|1999|10.1016/S0261-2194(99)00046-0
94206|T||Burpee,L.L.|Control of Dollar Spot of Creeping Bentgrass Caused by an Isolate of Sclerotinia homoeocarpa Resistant to Benzimidazole and Demethylation-Inhibitor Fungicides|Plant Dis.81(11): 1259-1263|1997|10.1094/PDIS.1997.81.11.1259
94207|T||Cabras,P., F. Cabitza, M. Meloni, and F.M. Pirisi|Behavior of Some Pesticide Residues on Greenhouse Tomatoes. 2. Fungicides, Acaricides, and Insecticides|J. Agric. Food Chem.33(5): 935-937|1985|10.1021/jf00065a040
94208|T||Gubler,W.D., H.L. Ypema, D.G. Ouimette, and L.J. Bettiga|Occurrence of Resistance in Uncinula necator to Triadimefon, Myclobutanil, and Fenarimol in California Grapevines|Plant Dis.80(8): 902-909|1996|10.1094/PD-80-0902
94209|T||Wilcox,W.F., D.I. Wasson, and J. Kovach|Development and Evaluation of an Integrated, Reduced-Spray Program Using Sterol Demethylation Inhibitor Fungicides for Control of Primary Apple Scab|Plant Dis.76(7): 669-677|1992|10.1094/PD-76-0669
94211|T||Yildirim,E., and C.W. Hoy|Cyromazine Seed Treatments to Control Onion Maggot, Delia antiqua, on Green Onions|J. Econ. Entomol.96(5): 1494-1499|2003|10.1603/0022-0493-96.5.1494
94212|T||Dow Chemical Co.|Propylene Dichloride: Oral Teratology Probe Study in Sprague-Dawley Rats with Cover Letter|EPA/OTS Doc.#40-8967191:149 p.|1989|
94213|T||Dow Chemical Co.|Propylene Dichloride: Oral Teratology Study in Sprague-Dawley Rats (Final) with Cover Letter|EPA/OTS Doc.#40-8967207:226 p.|1989|
94215|T||Bortolozzi,A., R. Duffard, M. Antonelli, and A.M. Evangelista De Duffard|Increased Sensitivity in Dopamine D2-Like Brain Receptors from 2,4-Dichlorophenoxyacetic Acid (2,4-D)-Exposed and Amphetamine-Challenged Rats|Ann. N. Y. Acad. Sci.965:314-323|2002|10.1111/j.1749-6632.2002.tb04173.x
94216|T||Hirsch,K.S., E.R. Adams, D.G. Hoffman, J.K. Markham, and N.V. Owen|Studies to Elucidate the Mechanism of Fenarimol-Induced Infertility in Male Rats|Toxicol. Appl. Pharmacol.86(3): 391-399|1986|10.1016/0041-008X(86)90366-2
94217|A||Block,D.S.|Assessment of Biochemical, Developmental, and Reproductive Responses in Meiobenthic Copepods and Estuarine Amphipods Exposed to Potential Endocrine-Modulating Chemicals|Ph.D.Thesis, University of South Carolina, Columbia, SC:137 p.|2006|
94218|T||Aydemir,N., and R. Bilaloglu|The Investigation of the Genotoxic Effects of Fenarimol and Propamocarb in Mouse Bone Marrow In Vivo|Toxicol. Lett.147(1): 73-78|2004|10.1016/j.toxlet.2003.10.015
94219|T||De Castro,V.L.S.S., M.A. De Mello, P. Poli, and T.M.A.D. Zucchi|Prenatal and Perinatal Fenarimol-Induced Genotoxicity in Leukocytes of In Vivo Treated Rats|Mutat. Res.583(1): 95-104|2005|10.1016/j.mrgentox.2005.02.001
94220|T||Sugar,D., R.A. Spotts, W.D. Gubler, and G.T. McGourty|Effect of Fenarimol Application Timing on Fruit Shape of Bartlett Pear|Plant Dis.84(2): 182-184|2000|10.1094/PDIS.2000.84.2.182
94221|T||Mommaerts,V., G. Sterk, and G. Smagghe|Hazards and Uptake of Chitin Synthesis Inhibitors in Bumblebees Bombus terrestris|Pest Manag. Sci.62(8): 752-758|2006|10.1002/ps.1238
94223|T||Dow Chemical Co.|Propylene Dichloride: Oral Teratology Study in New Zealand White Rabbits with Cover Letter|EPA/OTS Doc.#40-8967189:225 p.|1989|
94224|A||Shell Oil Co.|The Acute Toxicity of 1,3-Dichloropropane to Rainbow Trout and Daphnia magna with Cover Letter Dated 042586|EPA/OTS Doc.#878216426:6 p.|1986|
94225|T||Koller,W., and W.F. Wilcox|Evaluation of Tactics for Managing Resistance of Venturia inaequalis to Sterol Demethylation Inhibitors|Plant Dis.83(9): 857-863|1999|10.1094/PDIS.1999.83.9.857
94226|T||Karras,G., D. Savvas, G. Patakioutas, P. Pomonis, and T. Albanis|Fate of Cyromazine Applied in Nutrient Solution to a Gerbera (Gerbera jamesonii) Crop Grown in a Closed Hydroponic System|Crop Prot.26(5): 721-728|2007|10.1016/j.cropro.2006.06.011
94227|T||Hoy,C.W., M.J. Dunlap, and M.F.A. Jallow|Control of Onion Maggot on Seed Treated dry Bulb Onions, 2005|Arthropod Manag. Tests31:E36|2006|
94228|T||Ferreira,J.F., and W.G. Nevill|Evaluation of Bitertanol and Triadimefon for the Control of Gladiolus Rust Caused by Uromyces transversalis|Plant Dis.73(12): 987-990|1989|10.1094/PD-73-0987
94229|T||Davis,J.A., E.B. Radcliffe, and D.W. Ragsdale|Control of Colorado Potato Beetle Using Multiple Applications of Foliar Insecticides 2004|Arthropod Manag. Tests30:3 p.|2005|
94230|T||Civelek,H.S., and P.G. Weintraub|Effects of Bensultap on Larval Serpentine Leafminers, Liriomyza tirfolii (Burgess) (Diptera: Agromyzidae), in Tomatoes|Crop Prot.22(3): 479-483|2003|10.1016/S0261-2194(02)00197-7
94231|T||Byrne,A.M., E. Grafius, and W. Pett|Colorado Potato Beetle Control, 2005|Arthropod Manag. Tests31:3 p.|2006|10.1093/amt/31.1.E54
94232|T||Elad,Y., O. Ziv, N. Ayish, and J. Katan|The Effect of Film-Forming Polymers on Powdery Mildew of Cucumber|Phytoparasitica17(4): 279-288|1989|10.1007/BF02980757
94233|T||Paolini,M., R. Mesirca, L. Pozzetti, A. Sapone, and G. Cantelli-Forti|Molecular Non-genetic Biomarkers Related to Fenarimol Cocarcinogenesis:  Organ- and Sex-Specific CYP Induction in Rat|Cancer Lett.101(2): 171-178|1996|10.1016/0304-3835(96)04130-4
94234|T||Johnson,K.B., J.W. Pscheidt, and J.N. Pinkerton|Evaluation of Chlorothalonil, Fenarimol, and Flusilazole for Control of Eastern Filbert Blight|Plant Dis.77(8): 831-837|1993|10.1094/PD-77-0831
94235|T||Hoy,C.W., M.J. Dunlap, and M.F.A. Jallow|Onion Thrips Control on Green Onion, 2005|Arthropod Manag. Tests31:2 p.|2006|
94236|T||De Castro,V.L.S.S., M.A. De Mello, C. Diniz, L. Morita, T. Zucchi, and P. Poli|Neurodevelopmental Effects of Perinatal Fenarimol Exposure on Rats|Reprod. Toxicol.23(1): 98-105|2007|10.1016/j.reprotox.2006.09.001
94237|T||Cantelli-Forti,G., M. Paolini, and P. Hrelia|Multiple End Point Procedure to Evaluate Risk from Pesticides|Environ. Health Perspect.101(suppl. 3): 15-20|1993|
94238|T||Poli,P., M.A. De Mello, A. Buschini, V.L.S.S. De Castro, F.M. Restivo, C. Rossi, and T.M.A.D. Zucchi|Evaluation of the Genotoxicity Induced by the Fungicide Fenarimol in Mammalian and Plant Cells by Use of the Single-Cell Gel Electrophoresis Assay|Mutat. Res.540(1): 57-66|2003|10.1016/S1383-5718(03)00165-7
94239|T||Abdellatif,A.G., V. Preat, J. Vamecq, R. Nilsson, and M. Roberfroid|Peroxisome Proliferation and Modulation of Rat Liver Carcinogenesis by 2,4-Dichlorophenoxyacetic Acid, 2,4,5-Trichlorophenoxyacetic Acid, Perfluorooctanoic Acid and Nafenopin|Carcinogenesis11(11): 1899-1902|1990|10.1093/carcin/11.11.1899
94240|T||Shahin,S.A., and K.H. El-Amoodi|Induction of Numerical Chromosomal Aberrations During DNA Synthesis Using the Fungicides Nimrod and Rubigan-4 in Root Tips of Vicia faba L.|Mutat. Res.261(3): 169-176|1991|10.1016/0165-1218(91)90064-S
94242|T||Zheng,Z., and J.P. Obbard|Removal of Surfactant Solubilized Polycyclic Aromatic Hydrocarbons by Phanerochaete chrysosporium in a Rotating Biological Contactor Reactor|J. Biotechnol.96(3): 241-249|2002|10.1016/S0168-1656(02)00050-0
94243|T||Ou,X., and K.S. Ramos|Modulation of Aortic Protein Phosphorylation by Benzo(a)pyrene: Implications in PAH-Induced Atherogenesis|J. Biochem. Toxicol.7(3): 147-154|1992|10.1002/jbt.2570070303
94244|A||Balch,G.C., C.D. Metcalfe, and S.Y. Huestis|Identification of Potential Fish Carcinogens in Sediment from Hamilton Harbour, Ontario, Canada|Environ. Toxicol. Chem.14(1): 79-91|1995|10.1002/etc.5620140110
94246|T||Brooks,T.M., and S.W. Dean|Detection of Gene Mutation in Skin, Stomach and Liver of Mutamouse Following Oral or Topical Treatment with N-Methyl-N'-Nitro-N-Nitrosoguanidine or 1-Chloromethylpyrene: Some Preliminary Observations|Mutagenesis11(5): 529-532|1996|10.1093/mutage/11.5.529
94247|T||Rice,J.E., A. Rivenson, J. Braley, and E.J. LaVoie|Methylated Derivatives of Pyrene and Fluorene:  Evaluation of Genotoxicity in the Hepatocyte/DNA Repair Test and Tumorigenic Activity in Newborn Mice|J. Toxicol. Environ. Health21(4): 525-532|1987|10.1080/15287398709531040
94248|T||Lambert,L.A., F.A. Hines, and R.M. Eppley|Lack of Initiation and Promotion Potential of Deoxynivalenol for Skin Tumorigenesis in Sencar Mice|Food Chem. Toxicol.33(3): 217-222|1995|10.1016/0278-6915(94)00132-8
94249|T||Maddalena,R.L., T.E. McKone, and N.Y. Kado|Exposure Chamber Measurements of Mass Transfer and Partitioning at the Plant/Air Interface|Environ. Sci. Technol.36(16): 3577-3585|2002|10.1021/es0255554
94250|T||Bouchard,M., K. Krishman, and C. Viau|Kinetics of Tissue Distribution and Elimination of Pyrene and 1-Hydroxypyrene Following Intravenous Administration of [14C]Pyrene in Rats|Toxicol. Sci.46(1): 11-20|1998|10.1093/toxsci/46.1.11
94251|A||Rantamaki,P.|Release and Retention of Selected Polycyclic Aromatic Hydrocarbons (PAH) and Their Methylated Derivatives by the Common Mussel (Mytilus edulis) in the Brackish Water of the Baltic Sea|Chemosphere35(3): 487-502|1997|10.1016/S0045-6535(97)00114-8
94252|T||Wolf,T., and N.P. Luepke|Formation of Micronuclei in Incubated Hen's Eggs as a Measure of Genotoxicity|Mutat. Res.394(1-3): 163-175|1997|10.1016/S1383-5718(97)00136-8
94253|T||Yu,M., M.L. Jones, M. Gong, R. Sinha, H.A.J. Schut, and E.G. Snyderwine|Mutagenicity of 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]pyridine (PhIP) in the Mammary Gland of Big Blue Rats on High- and Low-Fat Diets|Carcinogenesis23(5): 877-884|2002|10.1093/carcin/23.5.877
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94256|A||Perminova,I.V., N.Y. Grechishcheva, D.V. Kovalevskii, A.V. Kudryavtsev, V.S. Petrosyan, and D.N. Matorin|Quantification and Prediction of the Detoxifying Properties of Humic Substances Related to Their Chemical Binding to Polycyclic Aromatic Hydrocarbons|Environ. Sci. Technol.35(19): 3841-3848|2001|10.1021/es001699b
94257|T||Harper,N., M. Steinberg, and S. Safe|Immunotoxicity of a Reconstituted Polynuclear Aromatic Hydrocarbon Mixture in B6C3F1 Mice|Toxicology109(1): 31-38|1996|10.1016/0300-483X(95)03302-V
94258|T||Roos,P.H., M. Van Afferden, D. Strotkamp, D. Tappe, F. Pfeifer, and W.G. Hanstein|Liver Microsomal Levels of Cytochrome P450IA1 as Biomarker for Exposure and Bioavailability of Soil-Bound Polycyclic Aromatic Hydrocarbons|Arch. Environ. Contam. Toxicol.30(1): 107-113|1996|10.1007/BF00211335
94259|T||Jackson,C.D., C. Weis, and T.E. Shellenberger|Tissue Binding of 2-Acetylaminofluorene in BALB/c and C57B1/6 Mice During Chronic Oral Administration|Chem.-Biol. Interact.32(1-2): 63-81|1980|10.1016/0009-2797(80)90068-X
94260|T||Feng,Y., T.D. Rustan, R.J. Ferguson, M.A. Doll, and D.W. Hein|Acetylator Genotype-Dependent Formation of 2-Aminofluorene-Hemoglobin Adducts in Rapid and Slow Acetylator Syrian Hamsters Congenic at the NAT2 Locus|Toxicol. Appl. Pharmacol.124(1): 10-15|1994|10.1006/taap.1994.1002
94261|A||Nelson,F.R.S., D. Holloway, and A.K.A. Mohamed|A Laboratory Study of Cyromazine on Aedes aegypti and Culex quinquefasciatus and Its Activity on Selected Predators of Mosquito Larvae|Am. Mosq. Control Assoc. J.2(3): 296-299|1986|
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94263|T||Yasuhara,K., T. Shimo, K. Mitsumori, H. Onodera, K. Kitaura, and M. Takahashi|Lack of Carcinogenicity of Cyanoguanidine in F344 Rats|Food Chem. Toxicol.35(5): 475-480|1997|10.1016/S0278-6915(97)00004-5
94264|T||Cremonezzi,D.C., M.P. Diaz, M.A. Valentich, and A.R. Eynard|Neoplastic and Preneoplastic Lesions Induced by Melamine in Rat Urothelium are Modulated by Dietary Polyunsaturated Fatty Acids|Food Chem. Toxicol.42(12): 1999-2007|2004|10.1016/j.fct.2004.06.020
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94266|T||Wilcox,W.F.|Influence of Dinitroanaline Herbicides on Growth, Sporulation, and Infectivity of Four Phytophthora spp. Pathogenic to Deciduous Fruit Trees|Phytopathology86(9): 906-913|1996|10.1094/Phyto-86-906
94267|T||Grilli,S., G. Ancora, P. Rani, A.M. Valenti, M. Mazzullo, and A. Colacci|In Vivo Unwinding Fluorimetric Assay as Evidence of the Damage Induced by Fenarimol and DNOC in Rat Liver DNA|J. Toxicol. Environ. Health34(4): 485-494|1991|10.1080/15287399109531584
94268|T||Hrelia,P., F. Maffei, F. Vigagni, C. Fimognari, P. Flori, R. Stanzani, and G.C. Forti|Interactive Effects Between Trichloroethylene and Pesticides at Metabolic and Genetic Level in Mice|Environ. Health Perspect.102(suppl. 9): 31-34|1994|10.1289/ehp.94102s931
94269|T||Melnick,R.L., G.A. Boorman, J.K. Haseman, R.J. Montali, and J. Huff|Urolithiasis and Bladder Carcinogenicity of Melamine in Rodents|Toxicol. Appl. Pharmacol.72(2): 292-303|1984|10.1016/0041-008X(84)90314-4
94271|A||Huang,X., S. Fong, L. Deanovic, and T.M. Young|Toxicity of Herbicides in Highway Runoff|Environ. Toxicol. Chem.24(9): 2336-2340|2005|10.1897/04-174R.1
94272|T||Lim,L.O., S.J. Scherer, K.D. Shuler, and J.P. Toth|Disposition of Cyromazine in Plants Under Environmental Conditions|J. Agric. Food Chem.38(3): 860-864|1990|10.1021/jf00093a057
94273|T||Civelek,H.S., and P.G. Weintraub|Effects of Two Plant Extracts on Larval Leafminer Liriomyza trifolii (Diptera: Agromyzidae) in Tomatoes|J. Econ. Entomol.97(5): 1581-1586|2004|10.1603/0022-0493-97.5.1581
94274|A||Cohen,J.|Observations on the Effect of Cyromazine on Inhibition of Larval Mosquito Development in Diluted Wastewater|Am. Mosq. Control Assoc. J.2(3): 367-368|1986|
94275|T||Eckenrode,C.J., M.L. Hessney, D. Webb, and A.G. Taylor|Onion Maggot Control, 1998|Arthropod Manag. Tests24:140-|1999|
94276|T||Eckberg,T., and R. McQueen|Control of Boxwood Leafminers with Systemic Insecticides, 1997|Arthropod Manag. Tests24:364-|1999|
94277|A||Goldberg,B., D. Rattendi, D. Lloyd, J.R. Sufrin, and C.J. Bacchi|Effects of Intermediates of Methionine Metabolism and Nucleoside Analogs on S-Adenosylmethionine Transport by Trypanosoma brucei brucei and a Drug-Resistant Trypanosoma brucei rhodesiense|Biochem. Pharmacol.56(1): 95-103|1998|10.1016/S0006-2952(98)00118-X
94278|A||Ikawa,M., J.J. Sasner, and J.F. Haney|Activity of Cyanobacterial and Algal Odor Compounds Found in Lake Waters on Green Alga Chlorella pyrenoidosa Growth|Hydrobiologia (Multiple Languages)443(1-3): 19-22|2001|10.1023/A:1017535801766
94279|T||De Cal,A., A. Martinez-Treceno, T. Salto, J.M. Lopez-Aranda, and P. Melgarejo|Effect of Chemical Fumigation on Soil Fungal Communities in Spanish Strawberry Nurseries|Appl. Soil Ecol.28(1): 47-56|2005|10.1016/j.apsoil.2004.06.005
94280|T||Giani,S., X. Qin, F. Faoro, and D. Breviario|Rice, Oryzalin and Abscisic Acid Differentially Affect Tubulin mRNA and Protein Levels|Planta (Multiple Languages)205(3): 334-341|1998|10.1007/s004250050328
94281|T||Stokkermans,T.J.W., J.D. Schwartzman, K. Keenan, N.S. Morrissette, L.G. Tilney, and D.S. Roos|Inhibition of Toxoplasma gondii Replication by Dinitroaniline Herbicides|Exp. Parasitol.84(3): 355-370|1996|10.1006/expr.1996.0124
94282|T||Davis,M., E. Grafius, J. McDaniel, and P. Kolarik|Onion Maggot Control, 1993|Arthropod Manag. Tests19:102-103|1994|
94283|T||Davis,M., W. Pett, and E. Grafius|Onion Maggot Control, 1992|Arthropod Manag. Tests19:102-|1994|
94284|T||Morita,M., M. Hatakoshi, and S. Tojo|Hormonal Control of Cuticular Melanization in the Common Cutworm, Spodoptera litura|J. Insect Physiol.34(8): 751-758|1988|10.1016/0022-1910(88)90148-5
94286|A||James,S.W., L.P.W. Ranum, C.D. Silflow, and P.A. Lefebvre|Mutants Resistant to Anti-Microtubule Herbicides Map to a Locus on the Uni Linkage Group in Chlamydomonas reinhardtii|Genetics118(1): 141-148|1988|10.1093/genetics/118.1.141
94287|T||Kunz,S., H. Deising, and K. Mendgen|Acquisition of Resistance to Sterol Demethylation Inhibitors by Populations of Venturia inaequalis|Phytopathology87(12): 1272-1278|1997|10.1094/PHYTO.1997.87.12.1272
94288|T||Nowacka,H., J. Cimanowski, J. Dadej, M. Lewandowska, and K. Olszewski|Effectiveness of EBI Systemic Fungicides and Their Mixtures in the Control of Apple Scab|Fruit Sci. Rep. (Skierniewice)18(4): 173-183|1991|
94290|T||Granberg,L., B. Brunstrom, and I. Brandt|Formation of Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene Adducts in Vascular Endothelia of Cytochrome P4501A-Induced Chicken Embryos|Environ. Toxicol. Chem.22(10): 2393-2399|2003|10.1897/02-420
94291|T||Robertson,L.W., P. Espandiari, H.J. Lehmler, D. Pereg, A. Srinivasan, N. Tampal, T. Twaroski, G. Ludewig, H.P. Glauert,|Metabolism and Activation of Polychlorinated Biphenyls (PCBs)|Cent. Eur. J. Publ. Health8(suppl.): 14-15|2000|
94292|A||Sijm,D.T.H.M., J. Middelkoop, and K. Vrisekoop|Algal Density Dependent Bioconcentration Factors of Hydrophobic Chemicals|Chemosphere31(9): 4001-4012|1995|10.1016/0045-6535(95)80001-2
94294|T||Thorgeirsson,S.S., J.R. Mitchell, H.A. Sasame, and W.Z. Potter|Biochemical Changes After Hepatic Injury by Allyl Alcohol and N-Hydroxy-2-Acetylaminofluorene|Chem.-Biol. Interact.15(2): 139-147|1976|10.1016/0009-2797(76)90159-9
94296|T||Glatt,H., and F. Oesch|Inactivation of Electrophilic Metabolites by Glutathione S-Transferases and Limitation of the System due to Subcellular Localization|Arch. Toxicol.39(1-2): 87-96|1977|10.1007/BF00343278
94298|T||Russell,L.B.|Validation of the In Vivo Somatic Mutation Method in the Mouse as a Prescreen for Germinal Point Mutations|Arch. Toxicol.38(1-2): 75-85|1977|10.1007/BF00293665
94299|T||Donnelly,K.C., P. Davol, K.W. Brown, M. Estiri, and J.C. Thomas|Mutagenic Activity of Two Soils Amended with a Wood-Preserving Waste|Environ. Sci. Technol.21(1): 57-64|1987|10.1021/es00155a006
94301|A||Halter,M.T., and H.E. Johnson|A Model System to Study the Desorption and Biological Availability of PCB in Hydrosoils|In: F.L.Mayer and J.L.Hamelink, (Eds.) Amer.Soc.Testing and Materials:178-195|1977|
94302|T||Hennig,B., P. Meerarani, M. Toborek, A. Daugherty, A.E. Silverstone, and L.W. Robertson|Proinflammatory Properties of Coplanar PCBs|Organohalog. Compd.55:355-358|2002|
94303|A||Clarkson,N., and L.V. Evans|Evaluation of a Potential Non-Leaching Biocide Using the Marine Fouling Diatom Amphora coffeaeformis|Biofouling7(3): 187-195|1993|10.1080/08927019309386253
94304|T||Subramoniam,A., D. Agrawal, S.P. Srivastava, and P.K. Seth|Influence of Mancozeb on Mitogenically Responsive Lipids in Rat Cerebrum and Liver|Indian J. Exp. Biol.29(10): 943-945|1991|
94306|T||Trivedi,N., R. Kakkar, M.K. Srivastava, A. Mithal, and R.B. Raizada|Effect of Oral Administration of Fungicide-Mancozeb on Thyroid Gland of Rat|Indian J. Exp. Biol.31(6): 564-566|1993|
94307|T||Renaud,A., N. Poinsot-Balaguer, J. Cortet, and J. Le Petit|Influence of Four Soil Maintenance Practices on Collembola Communities in a Mediterranean Vineyard|Pedobiologia (Multiple Languages)48(5/6): 623-630|2004|10.1016/j.pedobi.2004.07.002
94308|T||Thiruchelvam,M., A. McCormack, E.K. Richfield, R.B. Baggs, A.W. Tank, D.A. Di Monte, and D.A. Cory-Slechta|Age-Related Irreversible Progressive Nigrostriatal Dopaminergic Neurotoxicity in the Paraquat and Maneb Model of the Parkinson's Disease Phenotype|Eur. J. Neurosci.18(3): 589-600|2003|10.1046/j.1460-9568.2003.02781.x
94310|T||Knuteson,S.L.|Comparative Phytotoxicity of Herbicides to Agronomic Crops and Their Wild Relatives|Ph.D. Thesis, Clemson University, Clemson, SC:150 p.|2004|
94311|T||Hassanali,A., M.D. Bentley, E.N. Ole Sitayo, P.E.W. Njoroge, and M. Yatagai|Studies on Limonoid Insect Antifeedants|Insect Sci. Appl.7(4): 495-499|1986|
94312|T||Mitchell,J.A., M.C. Wilson, and M.J. Kallman|Behavioral Effects of Pydrin and Ambush in Male Mice|Neurotoxicol. Teratol.10(2): 113-119|1988|10.1016/0892-0362(88)90074-8
94313|T||Hermans,R.H.M., L.D. Longo, and R.F. McGivern|Decreased Postnatal Testosterone and Corticosterone Concentrations in Rats Following Acute Intermittent Prenatal Hypoxia Without Alterations in Adult Male Sex Behavior|Neurotoxicol. Teratol.16(2): 201-206|1994|10.1016/0892-0362(94)90118-X
94314|T||Etscorn,F., G.A. Moore, L.S. Hagen, T.M. Caton, and D.L. Sanders|Saccharin Aversions in Hamsters as a Result of Nicotine Injections|Pharmacol. Biochem. Behav.24(3): 567-570|1986|10.1016/0091-3057(86)90559-9
94315|T||Wood,R.I.|Oral Testosterone Self-Administration in Male Hamsters:  Dose-Response, Voluntary Exercise, and Individual Differences|Horm. Behav.41(3): 247-258|2002|10.1006/hbeh.2002.1769
94316|T||Mason,J.R., R.F.,Jr. Reidinger, and Y. Katz|Flavor Avoidance Expressed in Grooming by Pine Voles Microtus-pinetorum Importance of Context and Hormonal Factors|Physiol. Behav.35(6): 979-983|1985|10.1016/0031-9384(85)90269-0
94317|T||Ebenezar,E.G., and D. Alice|Field Evaluation of Fungicides Against Fruit Rot and Dieback of Chillies|Indian J. Plant Prot.24(1/2): 50-52|1996|
94318|T||Rao,B.N., K.N. Reddy, and M.A. Sultan|Residues of Metalaxyl MZ and Mancozeb in Grape Berries|Indian J. Plant Prot.21(2): 211-213|1993|
94319|T||Colson,E.S., G.J. Platz, and T.R. Usher|Fungicidal Control of Pyrenophora tritici-repentis in Wheat|Aust. Plant Pathol.32(2): 241-246|2003|10.1071/AP03010
94320|T||Daelemans,A., and W. Steurbaut|Residue Studies of Maneb on Different Crops Under the Agro-Climatic Conditions of the Western Highlands of Cameroon at Dschang|Meded. Fac. Landbouwwet. Rijksuniv. Gent59(3b): 1447-1453|1994|
94321|T||Fravel,D.R., K.L. Deahl, and J.R. Stommel|Compatibility of the Biocontrol Fungus Fusarium oxysporum Strain CS-20 with Selected Fungicides|Biol. Control34(2): 165-169|2005|10.1016/j.biocontrol.2005.04.007
94322|T||Lam,C.H., and T.K. Lim|Efficacy of Hexaconazole for the Control of White Rust on Chrysanthemum and Powdery Mildew on Roses|Int. J. Pest Manag.39(2): 156-160|1993|10.1080/09670879309371782
94323|A||Hamed,M.S., A. Shoukry, M.A. Said, M.A. Kenawy, A.M. Gad, and S. El-Said|Selection for Fenitrothion-Resistance in Culex pipiens L. Larvae (Diptera:  Culicidae)|J. Egypt. Soc. Parasitol.21(1): 243-251|1991|
94324|T||Mathur,K., and G.C. Bhatnagar|Efficacy of Fungicides for the Control of Grey Leaf Spot of Tomato|Indian J. Mycol. Plant Pathol.23(2): 141-144|1993|
94325|T||Melendez,P.L., R. Rodriguez, and L. Wessel-Beaver|Bean Rust Control Under Field Conditions with Systemic and Contact Fungicides|J. Agric. Univ. P. R.70(1): 45-55|1986|10.46429/jaupr.v70i1.7074
94326|T||Eijsackers,H., C.A.M. Van Gestel, S. De Jonge, B. Muijs, and D. Slijkerman|Polycyclic Aromatic Hydrocarbon-Polluted Dredged Peat Sediments and Earthworms:  A Mutual Interference|Ecotoxicology10(1): 35-50|2001|10.1023/A:1008954706150
94327|A||Kakiichi,N., H. Matsumoto, N. Nihei, M. Mano, Y. Ando, A. Kabutoya, and S.I. Kamata|Toxicity of Five Fungicides Against the Ciliate Colpoda aspera|Biocontrol Sci.3(1): 43-46|1998|10.4265/bio.3.43
94328|A||Audit,C.O., K. Eger, and C. Aimar|Possible Involvement of an Acylation Mechanism in Thalidomide-Induced Teratogenesis of the Newt (Pleurodeles Waltl)|Dev. Growth Differ.38(1): 47-57|1996|10.1046/j.1440-169X.1996.00007.x
94329|T||Duso,C., A. Pozzebon, C. Capuzzo, P.M. Bisol, and S. Otto|Grape Downy Mildew Spread and Mite Seasonal Abundance in Vineyards:  Evidence for the Predatory Mites Amblyseius andersoni and Typhlodromus pyri|Biol. Control27(3): 229-241|2003|10.1016/S1049-9644(03)00016-1
94330|T||Clark,N.G.|The Fungicidal Activity of Substituted 1,4-Naphthoquinones.  Part III:  Amino, Anilino and Acylamino Derivatives|Pestic. Sci.16(1): 23-32|1985|10.1002/ps.2780160105
94331|T||Tepedino,V.J.|Repulsion of Three Chalcid Parasitoids of the Alfalfa Leafcutting Bee, Megachile rotundata (F.) by the Fungicides Captan and DPX|Pan-Pac. Entomol.65(4): 403-409|1989|
94332|A||Anderson,L.W.J.|Use of Bioassays for Allelochemicals in Aquatic Plants|ACS Symp. Ser.268:351-370|1985|10.1021/bk-1985-0268.ch023
94333|T||Somlyay,I.M., and L.E. Varnagy|Changes in Blood Plasma Biochemistry of Chicken Embryos Exposed to Various Pesticide Formulations|Acta Vet. Hung.37(1/2): 179-183|1989|
94334|T||Varnagy,L.|Teratological Examination of the Insecticide Methyl-Parathion (Wofatox 50 EC) on Pheasant Embryos  2.  Biochemical Study|Acta Vet. Hung.40(3): 203-206|1992|
94335|T||Varnagy,L.|Biochemical Examination of Muscle Samples from Pheasant Embryos Affected by Wofatox 50 EC (50% Parathion-Methyl)|Acta Vet. Hung.41(3-4): 409-413|1993|
94336|T||Parker,F.D.|Influence of Wood, Paper, and Plastic Nesting Units on Efficacy of Three Candidate Fungicides for Control of Chalkbrood in the Alfalfa Leafcutting Bee (Hymenoptera: Megachilidae)|J. Econ. Entomol.81(3): 789-795|1988|10.1093/jee/81.3.789
94337|T||Lingappa,S., A. Jagadish, K. Shivaramu, and H.P. Prabhuswamy|Relative Intrinsic Toxicity of Seven Insecticides to Foragers of the Indian Hive Bee, Apis cerana indica F.|Insect Sci. Appl.6(5): 567-568|1985|
94338|T||Bleyl,D., H.J. Lewerenz, and R. Plass|Prenatal Toxicological Study of Rapeseed Meal and of the Fungicide Maneb in Dependence of Maternal Ages|Nahrung32(10): 1007-1010|1988|10.1002/food.19880321027
94339|T||Sugavanam,V., K. Udaiyan, and S. Manian|Effect of Fungicides on Vesicular-Arbuscular Mycorrhizal Infection and Nodulation in Groundnut (Arachis hypogea L.)|Agric. Ecosyst. Environ.48(3): 285-293|1994|10.1016/0167-8809(94)90110-4
94340|A||Dharmagadda,V.S.S., S.N. Naik, P.K. Mittal, and P. Vasudevan|Larvicidal Activity of Tagetes patula Essential Oil Against Three Mosquito Species|Bioresour. Technol.96(11): 1235-1240|2005|10.1016/j.biortech.2004.10.020
94341|A||Koura,S., K. Takasuka, N. Katsuyama, C. Ogino, Y. Sato, and K. Wakabayashi|Mode for Herbicidal Action of 2-Amino-3-Chloro-1,4-Naphthoquinone (ACN)|Biosci. Biotechnol. Biochem.58(7): 1210-1212|1994|10.1271/bbb.58.1210
94342|T||Hodnett,E.M., C. Wongwiechintana, W.J. Dunn III, and P. Marrs|Substituted 1,4-Naphthoquinones vs. the Ascitic sarcoma 180 of Mice|J. Med. Chem.26(4): 570-574|1983|10.1021/jm00358a021
94343|T||Greenwood,M.S., F. Xu, and K.W. Hutchison|The Role of Auxin-Induced Peaks of (alpha)-Expansin Expression During Lateral Root Primordium Formation in Pinus taeda|Physiol. Plant. (Multiple Languages)126(2): 279-288|2006|10.1111/j.1399-3054.2006.00616.x
94346|T||Sakai,S., G. Saito, K. Minoda, S. Akagi, and A. Sato|Studies on Chemotherapy of Trichophyton Infections, (VI) Therapeutic Efficiency of 1,4-Naphthoquinone Derivatives|J. Sci. Res. Inst.50:102-105|1956|
94348|T||Kohn,H., B.A. Kohn, M.L. Steenberg, and J.P. Buckley|Syntheses and Pharmacological Activity of Substituted Imidazolidinethiones and Thiomidazolines|J. Med. Chem.20(1): 158-160|1977|10.1021/jm00211a034
94350|A||Poulsen,N.C., I. Spector, T.P. Spurck, T.F. Schultz, and R. Wetherbee|Diatom Gliding is the Result of an Actin-Myosin Motility System|Cell Motil. Cytoskelet.44(1): 23-33|1999|10.1002/(SICI)1097-0169(199909)44:1<23::AID-CM2>3.0.CO;2-D
94353|T||Johnson,B.J., and T.H. Bowyer|Management of Herbicide and Fertility Levels on Weeds and Kentucky Bluegrass Turf|Agron. J.74(5): 845-850|1982|10.2134/agronj1982.00021962007400050018xa
94355|T||Miele,J., R.A. Rosellini, and B. Svare|Estradiol Benzoate can Function as an Unconditioned Stimulus in a Conditioned Taste Aversion Paradigm|Horm. Behav.22(1): 116-130|1988|10.1016/0018-506X(88)90035-9
94356|T||Prasad,O., and G. Rai|Induction of Papillary Adenocarcinoma of Thyroid in Albino Mice by Saccharin Feeding|Indian J. Exp. Biol.24(3): 197-199|1986|
94357|T||Church,R.M., B.K. Cooke, and R.R. Williams|Testing the Toxicity of Fungicides to Apple Pollen|J. Hortic. Sci.58(2): 161-163|1983|10.1080/00221589.1983.11515104
94358|T||Shakoori,A.R., M.Z. Iqbal, and S.S. Ali|Biochemical and Histopathological Effects of Saccharin on Mouse Liver|Pak. J. Zool.27(1): 1-13|1995|
94359|T||Shakoori,A.R., M.Z. Iqbal, and S.S. Ali|Hepatic Dysfunction Following Continuous Long Term Feeding of Saccharin in Albino Mice|Pak. J. Zool.15(2): 157-162|1983|
94360|T||Kennedy,G.L., O.E. Fancher, and J.C. Calandra|Subacute Toxicity Studies with Sodium Saccharin and Two Hydrolytic Derivatives|Toxicology6(2): 133-138|1976|10.1016/0300-483X(76)90015-9
94361|T||Bai,Y., H. Chen, Z.W. Yuan, and W. Wang|Normal and Abnormal Embryonic Development of the Anorectum in Rats|J. Pediatr. Surg.39(4): 587-590|2004|10.1016/j.jpedsurg.2003.12.002
94362|T||Yuan,Z.W., V.C.H. Lui, and P.K.H. Tam|Deficient Motor Innervation of the Sphincter Mechanism in Fetal Rats with Anorectal Malformation:  A Quantitative Study by Fluorogold Retrograde Tracing|J. Pediatr. Surg.38(9): 1383-1388|2003|10.1016/S0022-3468(03)00401-9
94363|T||Arana,J., A. Villanueva, R. Guarch, P. Aldazabal, and M. Barriola|Anorectal Atresia.  An Experimental Model in the Rat|Eur. J. Pediatr. Surg.11(3): 192-195|2001|10.1055/s-2001-15489
94364|T||Graham,S.L., K.J. Davis, W.H. Hansen, and C.H. Graham|Effects of Prolonged Ethylene Thiourea Ingestion on the Thyroid of the Rat|Food Cosmet. Toxicol.13(5): 493-499|1975|10.1016/0015-6264(75)90001-2
94365|T||Korhonen,A., K. Hemminki, and H. Vainio|Embryotoxicity of Industrial Chemicals on the Chicken Embryo:  Thiourea Derivatives|Acta Pharmacol. Toxicol.51(1): 38-44|1982|10.1111/j.1600-0773.1982.tb01060.x
94366|T||Mocioni,M., P. Titone, A. Garibaldi, and M.L. Gullino|Efficacy of Different Fungicides Against Rhizoctonia Brown Patch and Pythium Blight on Turfgrass in Italy|Commun. Agric. Appl. Biol. Sci.68(4b): 511-517|2003|
94367|T||Sachithanandam,S., R.J. Rabindra, and S. Jayaraj|Compatibility of NPV of Spodoptera litura (Fabricius) with Certain Fungicides|J. Biol. Control2(2): 137-138|1988|
94368|T||Somlyay,I.M., and A. Virgula|Study of Mancozeb-Ethanol Interaction During a Model Teratogenicity Test in Rats|Meded. Fac. Landbouwwet. Univ. Gent60(2b): 571-576|1995|
94369|T||Taborsky,V., G.I. Zohdy, P. Hejzlar, J. Kazda, and J. Hruska|The Toxic Effect of Different Pesticides on the Predatory Bug, Orius majusculus (Heteroptera: Anthocoridae)|Ochr. Rostl. (Multiple Languages)31(4): 257-263|1995|
94370|T||Hung,C.F.|The Relationship Between Hydrocephalus and Chiari Type II Malformation in the Experimental Rat Fetuses with Arnold-Chiari Malformation|Proc. Natl. Sci. Counc. Repub. China, Part B Life Sci.10(2): 118-125|1986|
94373|T||Ciba-Geigy Corp.|Initial Submission:  Letter Submitting Results from a Previously Submitted Acute Toxicity Study in Rats on Technical CGA-72662 (EPA Accession Number 098384)|EPA/OTS Doc.#88-920001431:3 p.|1992|
94374|T||Ciba-Geigy Corp.|Initial Submission:  Letter from Ciba-Geigy Corp Submitting Information on a Guinea Pig Sensitization Study with Cyromazine|EPA/OTS Doc.#88-920004329:3 p.|1992|
94375|T||Eli Lilly and Co.|Initial Submission:  Additional Cross-Over Reproduction Studies with Fenarimol in Wistar and Sprague-Dawley Rats with Cover Letter Dated 081792|EPA/OTS Doc.#88-920005153:5 p.|1992|
94376|T||Eli Lilly and Co.|Initial Submission:  Acute Rat Oral Toxicity Study with Isouron & Oryzalin with Cover Letter Dated 080392|EPA/OTS Doc.#88-920006213:13 p.|1992|
94377|T||Eli Lilly and Co.|Initial Submission:  Acute Rat Oral Toxicity Study with Isouron & Oryzalin with Cover Letter Dated 080392|EPA/OTS Doc.#88-920006214:13 p.|1992|
94379|T||Jones,A.L., G.R. Ehret, S.M. Garcia, C.D. Kesner, and W.M. Klein|Control of Cherry Leaf Spot and Powdery Mildew on Sour Cherry with Alternate-Side Applications of Fenarimol, Myclobutanil, and Tebuconazole|Plant Dis.77(7): 703-706|1993|10.1094/PD-77-0703
94380|T||Sancho,J.V., M. Ibanez, S. Grimalt, O.J. Pozo, and F. Hernandez|Residue Determination of Cyromazine and Its Metabolite Melamine in Chard Samples by Ion-Pair Liquid Chromatography Coupled to Electrospray Tandem Mass Spectrometry|Anal. Chim. Acta530(2): 237-243|2005|10.1016/j.aca.2004.09.038
94381|T||Sewell,G.H., and A. Alyokhin|Control of Colorado Potato Beetle on Potato, 2004|Arthropod Manag. Tests30:4 p.|2005|
94382|T||White,J.G.|The Effects of Previous Cropping and Fungicides on Field Populations of Pythium oligandrum|Phytoparasitica20(suppl.): 117S - 120S|1992|
94383|T||Samoucha,Y., G. Ben-Hador, and Y. Cohen|Chemical Control of Late Blight Epidemics Incited by Metalaxyl-Resistant Phytophthora infestans in Potato Crops in Israel|Phytoparasitica17(3): 185-196|1989|10.1007/BF02979536
94384|T||Daughtrey,M.L., C.R. Hibben, and G.W. Hudler|Cause and Control of Dogwood Anthracnose in Northeastern United States|J. Arboric.14(6): 159-164|1988|
94385|T||Van Zon,A.Q., and M. Wysoki|The Effect of Some Fungicides on Phytoseiulus persimilis [Acarina:  Phytoseiidae]|Entomophaga23(4): 371-378|1978|10.1007/BF02373055
94386|T||Smith,P.M., and D.M. Spencer|Evaluation of Systemic Fungicides for Use in the Glasshouse Industry|Pestic. Sci.2(5): 201-206|1971|10.1002/ps.2780020505
94387|T||Shellenberger,T.E., G.W. Newell, R.M. Bridgman, and J. Barbaccia|A Subacute Toxicity Study of N-(2-Mercaptoethyl) Benzenesulfonamide S-(O,O-Diisopropyl Phosphorodithioate) and Phthalimidomethyl-O,O-Dimethyl Phosphorodithioate with Japanese Quail|Toxicol. Appl. Pharmacol.7(4): 550-558|1965|10.1016/0041-008X(65)90040-2
94388|T||Schepers,H.T.A.M.|Changes During a Three-Year Period in the Sensitivity to Ergosterol Biosynthesis Inhibitors of Sphaerotheca fuliginea in the Netherlands|Neth. J. Plant Pathol.91(3): 105-118|1985|10.1007/BF01976385
94389|T||Samsoe-Petersen,L.|Laboratory Method for Testing Side Effects of Pesticides on Juvenile Stages of the Predatory Mite, Phytoseiulus persimilis [Acarina, Phytoseiidae] Based on Detached Bean Leaves|Entomophaga28(2): 167-178|1983|10.1007/BF02372141
94390|T||Hall,R.A.|Laboratory Studies on the Effects of Fungicides, Acaricides and Insecticides on the Entomopathogenic Fungus, Verticillium lecanii|Entomol. Exp. Appl.29(1): 39-48|1981|10.1111/j.1570-7458.1981.tb03040.x
94391|T||Brokenshire,T.|Control of Strawberry Mildew in S.E. Scotland 1979|Tests Agrochem. Cultiv.1:38-39|1981|
94392|T||Shukla,A.K., and R.R. Mishra|Response of Microbial Population and Enzyme Activities to Fungicides in Potato Field Soil|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.62(5): 435-438|1996|
94393|T||Kaloyanova,F., L. Ivanova, and B. Alexiev|The Influence of Large Doses of Maneb on the Progeny of Albino Rats|Dokl. Bolg. Akad. Nauk20(10): 1109-1112|1967|
94394|T||Sumner,D.R.|Interactions of Herbicides and Ethoprop with Root Diseases of Cucumber|Plant Dis. Rep.62(12): 1093-1097|1978|
94395|A||Tjeerdema,R.S.|Biotransformation and Detoxication of Molinate (Ordram) in Fish|Ph.D. Thesis, University of California, Davis:121 p.|1987|
94396|T||Rodgers,K.E., N. Leung, C.F. Ware, B.H. Devens, and T. Imamura|Lack of Immunosuppressive Effects of Acute and Subacute Administration of Malathion on Murine Cellular and Humoral Immune Responses|Pestic. Biochem. Physiol.25(3): 358-365|1986|10.1016/0048-3575(86)90009-X
94397|T||Bristow,P.R., and A.Y. Shawa|The Influence of Fungicides on Pollen Germination and Yield of Cranberry|J. Am. Soc. Hortic. Sci.106(3): 290-292|1981|10.21273/JASHS.106.3.290
94398|T||Kackar,R., M.K. Srivastava, and R.B. Raizada|Assessment of Toxicological Effects of Mancozeb in Male Rats After Chronic Exposure|Indian J. Exp. Biol.37(6): 553-559|1999|
94399|T||Khera,K.S.|Reduction of Teratogenic Effects of Ethylenethiourea in Rats by Interaction with Sodium Nitrite In Vivo|Food Chem. Toxicol.20(3): 273-278|1982|10.1016/S0278-6915(82)80293-7
94400|T||Contreras-Ramos,S.M., D. Alvarez-Bernal, and L. Dendooven|Eisenia fetida Increased Removal of Polycyclic Aromatic Hydrocarbons from Soil|Environ. Pollut.141(3): 396-401|2006|10.1016/j.envpol.2005.08.057
94401|A||Okay,O.S., L. Tolun, V. Tufekci, F. Telli-Karakoc, and P. Donkin|Effects of Pyrene on Mussels in Different Experimental Conditions|Environ. Int.32(4): 538-544|2006|10.1016/j.envint.2005.12.005
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94403|T||Ke,L., T.W.Y. Wong, A.H.Y. Wong, Y.S. Wong, and N.F.Y. Tam|Negative Effects of Humic Acid Addition on Phytoremediation of Pyrene-Contaminated Sediments by Mangrove Seedlings|Chemosphere52(9): 1581-1591|2003|10.1016/S0045-6535(03)00498-3
94404|T||Sable,H.J.K., B.E. Powers, V.C. Wang, J.J. Widholm, and S.L. Schantz|Alterations in DRH and DRL Performance in Rats Developmentally Exposed to an Environmental PCB Mixture|Neurotoxicol. Teratol.28(5): 548-556|2006|10.1016/j.ntt.2006.06.005
94405|A||Schroder,H.C., R. Batel, S. Lauenroth, H.M.A. Hassanein, M. Lacorn, T. Simat, H. Steinhart, and W.E.G. Mueller|Induction of DNA Damage and Expression of Heat Shock Protein HSP70 by Polychlorinated Biphenyls in the Marine Sponge Suberites domuncula olivi|J. Exp. Mar. Biol. Ecol.233(2): 285-300|1999|10.1016/S0022-0981(98)00134-8
94406|A||Vega-Lopez,A., M. Galar-Martinez, F.A. Jimenez-Orozco, E. Garcia-Latorre, and M.L. Dominguez-Lopez|Gender Related Differences in the Oxidative Stress Response to PCB Exposure in an Endangered Goodeid Fish (Girardinichthys viviparus)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.146A(4): 672-678|2007|10.1016/j.cbpa.2006.04.022
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94408|A||Yawetz,A., B. Zilberman, B. Woodin, and J.J. Stegeman|Cytochromes P-4501A, P-4503A and P-4502B in Liver and Heart of Mugil capito Treated with CYP1A Inducers|Environ. Toxicol. Pharmacol.6(1): 13-25|1998|10.1016/S1382-6689(98)00014-3
94409|T||Zhang,Y., C. Gandini, A. Sabuneti, M. Fasola, S. Lambiase, and A. Grigolo|Differential Retention of PCB Congeners in Cockroaches Blattella germanica|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(6): 721-727|2007|
94410|A||Jonsson,G., R.K. Bechmann, S.D. Bamber, and T. Baussant|Bioconcentration, Biotransformation, and Elimination of Polycyclic Aromatic Hydrocarbons in Sheepshead Minnows (Cyprinodon Variegatus) Exposed to Contaminated Seawater|Environ. Toxicol. Chem.23(6): 1538-1548|2004|10.1897/03-173
94411|A||Narro,M.L., C.E. Cerniglia, C. Van Baalen, and D.T. Gibson|Metabolism of Phenanthrene by the Marine Cyanobacterium Agmenellum quadruplicatum PR-6|Appl. Environ. Microbiol.58(4): 1351-1359|1992|10.1128/aem.58.4.1351-1359.1992
94413|T||Greaves,P., B. Clothier, R. Davies, F.M. Higginson, R.E. Edwards, T.P. Dalton, D.W. Nebert, and A.G. Smith|Uroporphyria and Hepatic Carcinogenesis Induced by Polychlorinated Biphenyls-Iron Interaction:  Absence in the Cyp1a2(-/-) Knockout Mouse|Biochem. Biophys. Res. Commun.331(1): 147-152|2005|10.1016/j.bbrc.2005.03.136
94414|T||Oberg,M., A. Sjodin, H. Casabona, I. Nordgren, E. Klasson-Wehler, and H. Hakansson|Tissue Distribution and Half-Lives of Individual Polychlorinated Biphenyls and Serum Levels of 4-Hydroxy-2,3,3',4',5-Pentachlorobiphenyl in the Rat|Toxicol. Sci.70(2): 171-182|2002|10.1093/toxsci/70.2.171
94415|A||Qin,Z.F., J.M. Zhou, S.G. Chu, and X.B. Xu|Effects of Chinese Domestic Polychlorinated Biphenyls (PCBs) on Gonadal Differentiation in Xenopus laevis|Environ. Health Perspect.111(4): 553-556|2003|10.1289/ehp.5620
94417|A||Zapata-Perez,O., G. Castaneda, L. Cruz, V. Ceja, G. Gold-Bouchot, and A. Albores|Toxicokinetics of Pyrene in Tilapias Oreochromis niloticus Following an Intraperitoneal Administration|Bull. Environ. Contam. Toxicol.72(6): 1253-1259|2004|10.1007/s00128-004-0378-0
94418|T||Banudevi,S., G. Krishnamoorthy, P. Venkataraman, C. Vignesh, M.M. Aruldhas, and J. Arunakaran|Role of alpha-Tocopherol on Antioxidant Status in Liver, Lung and Kidney of PCB Exposed Male Albino Rats|Food Chem. Toxicol.44(12): 2040-2046|2006|10.1016/j.fct.2006.07.017
94419|A||Berntssen,M.H.G., T.A. Giskegjerde, G. Rosenlund, B.E. Torstensen, and A.K. Lundebye|Predicting World Health Organization Toxic Equivalency Factor Dioxin and Dioxin-Like Polychlorinated Biphenyl Levels in Farmed Atlantic Salmon (Salmo salar) Based on Known Levels in Feed|Environ. Toxicol. Chem.26(1): 13-23|2007|10.1897/06-122R.1
94420|A||Billsson,K., L. Westerlund, M. Tysklind, and P.E. Olsson|Developmental Disturbances Caused by Polychlorinated Biphenyls in Zebrafish (Brachydanio rerio)|Mar. Environ. Res.46(1-5): 461-464|1998|10.1016/S0141-1136(97)00041-X
94421|A||Caroppo,C., L. Stabili, M. Aresta, C. Corinaldesi, and R. Danovaro|Impact of Heavy Metals and PCBs on Marine Picoplankton|Environ. Toxicol.21(6): 541-551|2006|10.1002/tox.20215
94422|A||Kostel,J.A., H. Wang, A.L. St.Amand, and K.A. Gray|1.  Use of a Novel Laboratory Stream System to Study the Ecological Impact of PCB Exposure in a Periphytic Biolayer|Water Res.33(18): 3735-3748|1999|10.1016/S0043-1354(99)00125-6
94423|T||Krishnamoorthy,G., P. Venkataraman, A. Arunkumar, R.C. Vignesh, M.M. Aruldhas, and J. Arunakaran|Ameliorative Effect of Vitamins (alpha-Tocopherol and Ascorbic Acid) on PCB (Aroclor 1254) Induced Oxidative Stress in Rat Epididymal Sperm|Reprod. Toxicol.23(2): 239-245|2007|10.1016/j.reprotox.2006.12.004
94424|A||Lebeuf,M., C.M. Couillard, B. Legare, and S. Trottier|Effects of DeBDE and PCB-126 on Hepatic Concentrations of PBDEs and Methoxy-PBDEs in Atlantic Tomcod|Environ. Sci. Technol.40(10): 3211-3216|2006|10.1021/es0521829
94425|A||Lee,Y.M., T.J. Park, S.O. Jung, J.S. Seo, H.G. Park, A. Hagiwara, Y.D. Yoon, and J.S. Lee|Cloning and Characterization of Glutathione S-Transferase Gene in the Intertidal Copepod Tigriopus japonicus and Its Expression after Exposure to Endocrine-Disrupting Chemicals|Mar. Environ. Res.62(suppl.1): S219 - S223|2006|
94426|A||LeRoy,K.D., P. Thomas, and I.A. Khan|Thyroid Hormone Status of Atlantic Croaker Exposed to Aroclor 1254 and Selected PCB Congeners|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(3): 263-271|2006|10.1016/j.cbpc.2006.09.005
94427|T||Ma,R., and D.A. Sassoon|PCBs Exert an Estrogenic Effect Through Repression of the Wnt7a Signaling Pathway in the Female Reproductive Tract|Environ. Health Perspect.114(6): 898-904|2006|10.1289/ehp.8748
94428|T||Mojzisova,J., I. Valocky, M. Goldova, V. Letkova, and V. Bajova|The Effect of Polychlorinated Biphenyls on Some Parameters of Non-Specific Immunity in Ovis musimon and Postpartum Changes of Enzyme Activity in the Glandular Cells of the Uterine Endometrium|Vet. Arh. (Tisak)76(suppl.): S151 - S159|2006|
94429|A||Palstra,A.P., V.J.T. Van Ginneken, A.J. Murk, and G.E.E.J.M. Van den Thillart|Are Dioxin-Like Contaminants Responsible for the Eel (Anguilla anguilla) Drama?|Naturwissenschaften93(3): 145-148|2006|10.1007/s00114-005-0080-z
94430|A||Quabius,E.S., D.T. Nolan, P.H.M. Balm, and S.E. Wendelaar Bonga|The Influence of Polychlorinated Biphenyl 126 on Tilapia (Oreochromis mossambicus) Liver|Comp. Biochem. Physiol. A Mol. Integr. Physiol.120(1): 57-63|1998|10.1016/S1095-6433(98)10010-7
94431|A||Paterson,G., K.G. Drouillard, and G.D. Haffner|PCB Elimination by Yellow Perch (Perca flavescens) During an Annual Temperature Cycle|Environ. Sci. Technol.41(3): 824-829|2007|10.1021/es060266r
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94434|T||Rao,G.S., A. Dhasmana, J.L. Kaw, K.P. Pandya, and S.H. Zaidi|Toxicological Studies on Hydrocarbons-Iomex|Arch. Environ. Contam. Toxicol.6(1): 57-62|1977|10.1007/BF02097749
94435|T||Meerman,J.H.N., F.A. Beland, B. Ketterer, S.K.S. Srai, A.P. Bruins, and G.J. Mulder|Identification of Glutathione Conjugates Formed from N-Hydroxy-2-Acetylaminofluorene in the Rat|Chem.-Biol. Interact.39(2): 149-168|1982|10.1016/0009-2797(82)90118-1
94436|T||Boutin,J.A., A.M. Batt, and G. Siest|Effect of Pretreatment with Hydroxylated Xenobiotics on the Activities of Rat Liver UDP-Glucuronosyl-Transferases|Xenobiotica13(12): 755-761|1983|10.3109/00498258309052237
94437|T||Murray,M., C.F. Wilkinson, and C.E. Dube|Effects of Dihydrosafrole on Cytochromes P-450 and Drug Oxidation in Hepatic Microsomes from Control and Induced Rats|Toxicol. Appl. Pharmacol.68(1): 66-76|1983|10.1016/0041-008X(83)90355-1
94438|T||Watkins,J.B., Z. Gregus, T.N. Thompson, and C.D. Klaassen|Induction Studies on the Functional Heterogeneity of Rat Liver UDP-Glucuronosyltransferases|Toxicol. Appl. Pharmacol.64(3): 439-446|1982|10.1016/0041-008X(82)90240-X
94439|T||Keimig,S.D., K.W. Kirby, D.P. Morgan, J.E. Keiser, and T.D. Hubert|Identification of 1-Hydroxypyrene as a Major Metabolite of Pyrene in Pig Urine|Xenobiotica13(7): 415-420|1983|10.3109/00498258309052279
94441|T||Platt,H.W.|Foliar Application of Fungicides Affects Occurrence of Potato Tuber Rots Caused by Four Foliar Pathogens|Can. J. Plant Pathol.16(4): 341-346|1994|10.1080/07060669409500741
94442|T||Mills,A.A.S., H.W. Platt, and R.A.R. Hurta|Salt Compounds as Control Agents of Late Blight and Pink Rot of Potatoes in Storage|Can. J. Plant Pathol.27(2): 204-209|2005|10.1080/07060660509507217
94443|T||Northover,J.|Effect of Fungicides on Incidence of Leucostoma Canker of Peach and Fungal Microflora of Pruning Wounds|Can. J. Plant Pathol.14(1): 22-29|1992|10.1080/07060669209500902
94444|T||Drinkall,M.J., and T.V. Price|Chemical Control of False Rust of Winged Bean|Trop. Agric.61(4): 293-296|1984|
94445|T||Griffee,P.J., and J.A. Pinegar|Fungicides for Control of the Banana Crown Rot Complex:  In Vivo and In Vitro Studies|Trop. Sci.16(3): 107-120|1974|
94446|T||Chandler,W.A.|Control of Peach Diseases with Systemic Fungicides|Plant Dis. Rep.58(3): 208-211|1974|
94447|T||Van Zon,A.Q., and L.P.S. Van der Geest|Effect of Pesticides on Predacious Mites|Integr. Control Insect Pests Neth.:227-230|1980|
94448|T||Szkolnik,M.|Unusual Post-Infection Activity of a Piperazine Derivative Fungicide for the Control of Cherry Leaf Spot|Plant Dis. Rep.58(4): 326-329|1974|
94450|A||Matsumura,F.|Biochemical Studies on Malathion-Resistance in Culex tarsalis Coq.|Ph.D.Thesis, Univ.of Western Ontario, Canada:105 p.|1961|
94451|T||Dheranetra,W., S. Keadtisuke, F.E. Swatek, and T.R. Fukuto|Renal Effects in the Delayed Toxicity of O,S,S-Trimethyl Phosphorodithioate|Pestic. Biochem. Physiol.30(1): 95-100|1988|10.1016/0048-3575(88)90064-8
94452|T||Ryan,D.L., and T.R. Fukuto|The Effect of Impurities on the Toxicokinetics of Malathion in Rats|Pestic. Biochem. Physiol.23(3): 413-424|1985|10.1016/0048-3575(85)90103-8
94453|T||DeVaney,J.A., K.R. Beerwinkle, and G.W. Ivie|Residual Activity of Selected Pesticides on Laying Hens Treated for Northern Fowl Mite Control by Dipping|Poult. Sci.61(8): 1630-1636|1982|10.3382/ps.0611630
94454|T||Meissner,R.|Herbicidal Weed Control in Sweet Potatoes|Agroplantae9(1): 31-|1977|
94455|T||Shattock,R.C., and M.H.R. Bhatti|Fungicides for Control of Phragmidium mucronatum on Rosa laxa Hort.|Plant Pathol.32(1): 67-72|1983|10.1111/j.1365-3059.1983.tb01302.x
94456|T||Jamart,G., G. De Prest, and O. Kamoen|Control of Pythium spp. on Ornamental Plants in a Nutrient-Film System|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(2b): 625-634|1988|
94457|T||Blake,P.S., L.D. Hunter, and R.D. Souter|Glasshouse Tests of Fungicides for Apple Powdery Mildew Control.  II.  Eradicant and Anti-Sporulant Activity|J. Hortic. Sci.57(4): 407-411|1982|10.1080/00221589.1982.11515071
94458|T||Pathak,V.N., and P.S. Shekhawat|Efficacy of Some Fungicides and Hot Water in Control of Anthracnose and Aspergillus Rot of Mango Fruits|Indian Phytopathol.29(3): 315-317|1976|
94460|T||Arceneaux,J.H., H. Kohn, M.L. Steenberg, and J.P. Buckley|Syntheses and Pharmacological Activity of N-Acyl-Substituted Imidazolidinethiones and Thioimidazolines|J. Pharm. Sci.67(5): 600-602|1978|10.1002/jps.2600670506
94461|T||Blake,P.S., L.D. Hunter, and R.D. Souter|Glasshouse Tests of Fungicides for Apple Powdery Mildew Control.  I.  Dose/Response, Curative and Protectant Action|J. Hortic. Sci.57(4): 401-406|1982|10.1080/00221589.1982.11515070
94462|T||Walash,M.I., F. Belal, M.E. Metwally, and M.M. Hefnawy|Spectrophotometric Determination of Maneb, Zineb and Their Decomposition Products in Some Vegetables and Its Application to Kinetic Studies After Greenhouse Treatment|Food Chem.47(4): 411-416|1993|10.1016/0308-8146(93)90188-L
94463|T||Hildebrand,P.D., and K.B. McRae|Protectant and Postinfection Activity of Triforine Against Ascospore Infections of Monilinia Vaccinii-Corymbosi in Lowbush Blueberries|Can. J. Plant Pathol.17(3): 215-222|1995|10.1080/07060669509500683
94464|T||Siltanen,H., and C. Rosenberg|Residue Analyses of the Official Testing of Pesticides, 1976|Publ. State Inst. Agric. Chem.12:68 p.|1977|
94465|A||Padhy,R.N., and K. Mohapatra|Toxicity of Two Carbamate Insecticides to the Cyanobacterium Anabaena PCC 7120 and Computations of Partial Lethal Concentrations by the Probit Method|Microbios106(414): 81-95|2001|
94466|T||Srivastava,L.S., D.K. Gupta, and R.N. Verma|Chemical Control of Cercospora Blight Disease of Okra in Sikkim|Indian J. Mycol. Plant Pathol.22(1): 73-74|1992|
94467|T||Reddy,M.N., and C. Bharathudu|Effect of Some Fungicides on Rhizoctonia solani Causing Damping-Off of Groundnut|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.46(3): 405-409|1980|
94468|T||Forgie,C.D., and D.J.B. Thompson|Control of Powdery Mildew in Wheat with Thiophanate-Methyl, Biformylchlorazin, and Tridemorph|Proc. N. Z. Weed Pest Control Conf.25:169-172|1972|10.30843/nzpp.1972.25.8999
94469|T||Sharma,K.K., and V.K. Gupta|Influence of Fungicides on Spore Germination, Sporulation and Control of Apple Powdery Mildew|Indian J. Mycol. Plant Pathol.24(1): 24-28|1994|
94470|T||Kumar,R., K.K. Srivastava, and J.C. Pandey|Economic Spray Schedule for Apple Powdery Mildew Control|Int. J. Trop. Plant Dis.5(1): 59-65|1987|
94471|T||Samoucha,Y., A. Baider, Y. Cohen, and U. Gisi|Control of Late Blight in Potato by Full and Reduced Rates of Oxadixyl Mixtures|Phytoparasitica21(1): 69-73|1993|10.1007/BF02980873
94472|T||Singh,S.N., and S.K. Srivastava|Efficacy of Different Fungicides Against Phomopsis Leaf Spot of Soybean|Indian J. Plant Prot.22(1): 113-114|1994|
94473|T||Gupta,S.K., P. Gupta, and G.K. Gupta|Efficacy of Ergosterol Biosynthesis Inhibitor Fungicides in Pre Harvest Sprays Against Sooty Blotch and Fly Speck Diseases of Apple|Indian J. Plant Prot.20(2): 237-238|1992|
94474|T||Mahrishi,R.P., and B.S. Siradhana|Metalaxyl and Mancozeb Mixtures - Fungicide for the Control of Downy Mildew of Muskmelon (Cucumis melo) in India|Summa Phytopathol.16(2): 174-177|1990|
94475|T||Holey,N.R., G.N. Satpute, N.L. Peshney, and B.N. Ghoderao|Chemical Control of Grey Mildew of Cotton|PKV Res. J.18(1): 144-146|1994|
94476|T||Aujla,S.S., A.K. Basandrai, and G.S. Rattan|Chemical Control of Leaf Rust (Puccinia recondita Rob. ex. Desm. f sp. tritici Rob) of Wheat|Indian J. Mycol. Plant Pathol.23(2): 209-213|1993|
94477|T||Delon,R., B. Cailleteau, J.L. Verrier, M.N. Tanne, and M. Sylvestre|Evaluation of the Efficacy of CGA 245704 Combined or not with CGA 329 351 (Mefenoxam) for the Control of Tobacco Blue Mold (Peronospora tabacina): Results of Four Years of Experiments|Beitr. Tabakforsch. Int.18(2): 55-62|1998|10.2478/cttr-2013-0670
94478|T||Cimanowski,J., M. Rejnus, and A. Bielenin|Effectiveness of Systemic Fungicides Used in Different Programmes in the Control of Black Currant Diseases|J. Fruit Ornam. Plant Res.3(4): 177-186|1995|
94479|T||Choulwar,A.B., and V.V. Datar|Efficacy of Fungitoxicants on the Mycelial Growth of Alternaria solani|J. Maharashtra Agric. Univ.18(2): 319-320|1993|
94480|T||Chastagner,G.A., and K. Riley|Occurrence and Control of Benzimidazole and Dicarboximide Resistant Botrytis spp. on Bulb Crops in Western Washington and Oregon|Acta Hortic.266:437-446|1990|10.17660/ActaHortic.1990.266.59
94481|T||Devi,G.U.|Chemical Control of Ragi Blast|Indian J. Plant Prot.25(1): 73-74|1997|
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94511|T||Wojdyla,A.T.|Chemical Control of Rose Diseases:  IV.  Effectiveness of Fungicides in the Control of Powdery Mildew in Relation to Period of Leaf Wetness or Atpolan 80 EC Addition|J. Fruit Ornam. Plant Res.6(3-4): 147-155|1998|
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94516|T||Van de Veire,M., G. Sterk, and L. Tirry|Ovicidal and Nymphicidal Effects of Some Fungicides on the Greenhouse Whitefly Trialeurodes vaporariorum|Phytoparasitica32(3): 218-220|2004|10.1007/BF02979815
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94535|T||Letouze,A., and J. Gasquez|Inheritance of Fenoxaprop-P-Ethyl Resistance in a Blackgrass (Alopecurus myosuroides Huds.) Population|Theor. Appl. Genet.103(2/3): 288-296|2001|10.1007/s001220100607
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94552|T||Agarwal,R., K.A. Canella, H. Yagi, D.M. Jerina, and A. Dipple|Benzo(c)phenanthrene-DNA Adducts in Mouse Epidermis in Relation to the Tumorigenicities of Four Configurationally Isomeric 3,4-Dihydrodiol 1,2-Epoxides|Chem. Res. Toxicol.9(3): 586-592|1996|10.1021/tx950148+
94553|T||Alkio,M., T.M. Tabuchi, X. Wang, and A. Colon-Carmona|Stress Responses to Polycyclic Aromatic Hydrocarbons in Arabidopsis Include Growth Inhibition and Hypersensitive Response-Like Symptoms|J. Exp. Bot.56(421): 2983-2994|2005|10.1093/jxb/eri295
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94562|T||Bruchovsky,N., and J.D. Wilson|The Conversion of Testosterone to 5alpha-Androstan-17beta-ol-3-One by Rat Prostate in Vivo and In Vitro|J. Biol. Chem.243(8): 2012-2021|1968|10.1016/S0021-9258(18)93542-8
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94565|T||Kaur,A., K. Joshi, R.W. Minz, and K.D. Gill|Neurofilament Phosphorylation and Disruption: A Possible Mechanism of Chronic Aluminium Toxicity in Wistar Rats|Toxicology219(1-3): 1-10|2006|10.1016/j.tox.2005.09.015
94566|T||Juranic,I.O., B.J. Drakulic, S.D. Petrovic, D.Z. Mijin, and M.V. Stankovic|A QSAR Study of Acute Toxicity of N-Substituted Fluoroacetamides to Rats|Chemosphere62(4): 641-649|2006|10.1016/j.chemosphere.2005.05.005
94567|T||Ito,K., N. Kiyosawa, K. Kumagai, S. Manabe, N. Matsunuma, and T. Yamoto|Molecular Mechanism Investigation of Cycloheximide-Induced Hepatocyte Apoptosis in Rat Livers by Morphological and Microarray Analysis|Toxicology219(1-3): 175-186|2006|10.1016/j.tox.2005.11.017
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94569|T||Hussain,M., S. Ijaz, and M. Bibi|Accumulation of Nutrients and Metal Ions by Two Mung Bean (Vigna radiata (L.) Wilczek) Cultivars Treated with Copper and Lead|Bull. Environ. Contam. Toxicol.77(4): 581-589|2006|10.1007/s00128-006-1103-y
94570|T||Idinger,J., T. Coja, and S. Blumel|Effects of the Benzoxazoid DIMBOA, Selected Degradation Products, and Structure-Related Pesticides on Soil Organisms|Ecotoxicol. Environ. Saf.65(1): 1-13|2006|10.1016/j.ecoenv.2005.03.006
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94572|T||Hirashima,A., M. Matsushita, H. Ohta, K. Nakazono, E. Kuwano, and M. Eto|Prevention of Progeny Formation in Drosophila melanogaster by 1-Arylimidazole-2(3H)-Thiones|Pestic. Biochem. Physiol.85(1): 15-20|2006|10.1016/j.pestbp.2005.09.005
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94597|A||Kuhl,A.J.|The Effects of Endocrine Disrupting Chemicals on Sex Differentiation in Japanese Medaka (Oryzias latipes) and the Role of Brain Aromatase|Ph.D Thesis, University of Southern Mississippi, Hattiesburg, MS:157 p.|2005|
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94616|T||Lavoie,E.T.|Immunotoxicity of Organochlorine Contaminants in Juvenile Chickens and Fish-Eating Birds from the Great Lakes|Ph.D.Thesis, Wright State Univ., Dayton, OH:173 p.|2005|
94617|T||Reaves,M.E.|Effects of Persistent Organic Contaminants on the Developing Reproductive Organs of Fish-Eating Birds and the Domestic Chicken|Ph.D.Thesis, Wright State Univ., Dayton, OH:205 p.|2004|
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94701|T||LaVoie,E.J., Z.W. Cai, R.L. Meegalla, and E.H. Weyand|Evaluation of the Tumor-Initiating Activity of 4-, 5-, 6-, and 7-Fluorobenzo[b]fluoranthene in Mouse Skin|Chem.-Biol. Interact.89(2-3): 129-139|1993|10.1016/0009-2797(93)90004-I
94702|T||Tominaga,N., M. Tomoeda, S. Kohra, Y. Takao, M. Nagae, K. Ueda, Y. Ishibashi, T. Kai, and K. Arizono|A Convenient Sublethal Assay of Alkylphenol and Organotin Compounds Using the Nematode Caenorhabditis elegans|J. Health Sci.48(6): 555-559|2002|10.1248/jhs.48.555
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94704|T||Instanes,C., M.D.W. Ward, and G. Hetland|The Fungal Biopesticide Metarhizium anisopliae has an Adjuvant Effect on the Allergic Response to Ovalbumin in Mice|Toxicol. Lett.161(3): 219-225|2006|10.1016/j.toxlet.2005.09.006
94705|T||Itoh,T., M. Moto, M. Takahashi, H. Sakai, and K. Mitsumori|Liver Initiation Activity of Norfloxacin but not Nalidixic Acid, Pipemidic Acid, and Ciprofloxacin on In Vivo Short-Term Liver Initiation Assay in Rats|Toxicology222(3): 240-246|2006|10.1016/j.tox.2006.02.019
94706|T||Ivnitsky,J.J., V.L. Rejniuk, T.V. Schafer, and V.N. Malakhovsky|Fulminant Hyperammonaemia Induced by Thiopental Coma in Rats|Toxicology224(3): 184-190|2006|10.1016/j.tox.2006.04.002
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94709|T||Jaszek,M., K. Grzywnowicz, E. Malarczyk, and A. Leonowicz|Enhanced Extracellular Laccase Activity as a Part of the Response System of White Rot Fungi:  Trametes versicolor and Abortiporus biennis to Paraquat-caused Oxidative Stress Conditions|Pestic. Biochem. Physiol.85(3): 147-154|2006|10.1016/j.pestbp.2006.01.002
94710|T||Jensen,P.D., L.R. Johnson, and J.T. Trumble|Individual and Joint Actions of Selenate and Methylmercury on the Development and Survival of Insect Detritivore Megaselia scalaris (Diptera: Phoridae)|Arch. Environ. Contam. Toxicol.50(4): 523-530|2006|10.1007/s00244-005-0111-y
94711|T||Jiang,X., and M. Puschenreiter|EDTA Influences Time and Concentration Dependent Cadmium Uptake Characteristics of Indian Mustard|Bull. Environ. Contam. Toxicol.77(3): 437-444|2006|10.1007/s00128-006-1084-x
94713|T||Johri,A., A. Dhawan, R.L. Singh, and D. Parmar|Effect of Prenatal Exposure of Deltamethrin on the Ontogeny of Xenobiotic Metabolizing Cytochrome P450s in the Brain and Liver of Offsprings|Toxicol. Appl. Pharmacol.214(3): 279-289|2006|10.1016/j.taap.2006.01.006
94714|T||Israr,M., S. Sahi, R. Datta, and D. Sarkar|Bioaccumulation and Physiological Effects of Mercury in Sesbania drummondii|Chemosphere65(4): 591-598|2006|10.1016/j.chemosphere.2006.02.016
94715|T||Ingle,R.A., S.T. Mugford, J.D. Rees, M.M. Campbell, and J.A.C. Smith|Constitutively High Expression of the Histidine Biosynthetic Pathway Contributes to Nickel Tolerance in Hyperaccumulator Plants|Plant Cell17(7): 2089-2106|2005|10.1105/tpc.104.030577
94716|T||Imai,T., J.I. Onose, M. Hasumura, T. Takizawa, and M. Hirose|Indomethacin Induces Small Intestinal Damage and Inhibits Amitrole-Associated Thyroid Carcinogenesis in Rats Initiated with N-bis(2-Hydroxypropyl)Nitrosamine|Toxicol. Lett.164(1): 71-80|2006|10.1016/j.toxlet.2005.11.012
94717|T||Islam,Z., and J.J. Pestka|LPS Priming Potentiates and Prolongs Proinflammatory Cytokine Response to the Trichothecene Deoxynivalenol in the Mouse|Toxicol. Appl. Pharmacol.211(1): 53-63|2006|10.1016/j.taap.2005.04.031
94718|T||Irmler,S., H. Rogniaux, D. Hess, and C. Pillonel|Induction of OS-2 Phosphorylation in Neurospora crassa by Treatment with Phenylpyrrole Fungicides and Osmotic Stress|Pestic. Biochem. Physiol.84(1): 25-37|2006|10.1016/j.pestbp.2005.05.001
94719|T||Irtelli,B., and F. Navari-Izzo|Influence of Sodium Nitrilotriacetate (NTA) and Citric Acid on Phenolic and Organic Acids in Brassica juncea Grown in Excess of Cadmium|Chemosphere65(8): 1348-1354|2006|10.1016/j.chemosphere.2006.04.014
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94723|T||Bose,R., and S. Bhattacharya|C-Reactive Protein in the Hemolymph of Achatina fulica:  Interrelationship with Sex Steroids and Metallothionein|Comp. Biochem. Physiol. A Mol. Integr. Physiol.125:485-495|2000|10.1016/S1095-6433(00)00176-8
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94725|T||Jyoti,A., and D. Sharma|Neuroprotective Role of Bacopa monniera Extract Against Aluminium-Induced Oxidative Stress in the Hippocampus of Rat Brain|Neurotoxicology27(4): 451-457|2006|10.1016/j.neuro.2005.12.007
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94773|T||Borzsonyi,M., A. Pinter, G. Torok, A. Surjan, and L. Nadasdi|Formation and Biological Effect of N-Nitroso Compound from Piperazine Pesticide Triforine|IARC Sci. Publ.19:477-484|1978|
94774|A||Gust,K.A.|Joint Toxicity of Cadmium and Phenanthrene in the Freshwater Amphipod Hyalella azteca|Arch. Environ. Contam. Toxicol.50(1): 7-13|2006|10.1007/s00244-004-4163-1
94775|A||Jee,J.H., S.G. Kim, and J.C. Kang|Effects of Phenanthrene on Growth and Basic Physiological Functions of the Olive Flounder, Paralichthys olivaceus|J. Exp. Mar. Biol. Ecol.304(1): 123-136|2004|10.1016/j.jembe.2003.12.001
94776|A||Lu,X., D.D. Reible, J.W. Fleeger, and Y. Chai|Bioavailability of Desorption-Resistant Phenanthrene to the Oligochaete Ilyodrilus templetoni|Environ. Toxicol. Chem.22(1): 153-160|2003|
94777|T||Matsubara,M., J.M. Lynch, and F.A.A.M. De Leij|A Simple Screening Procedure for Selecting Fungi with Potential for Use in the Bioremediation of Contaminated Land|Enzyme Microb. Technol.39(7): 1365-1372|2006|10.1016/j.enzmictec.2005.04.025
94778|A||Oliveira,M., M. Pacheco, and M.A. Santos|Cytochrome P4501A, Genotoxic and Stress Responses in Golden Grey Mullet (Liza aurata) Following Short-Term Exposure to Phenanthrene|Chemosphere66(7): 1284-1291|2007|10.1016/j.chemosphere.2006.07.024
94779|A||Olmstead,A.W., and G.A. LeBlanc|Joint Action of Polycyclic Aromatic Hydrocarbons:  Predictive Modeling of Sublethal Toxicity|Aquat. Toxicol.75(3): 253-262|2005|10.1016/j.aquatox.2005.08.007
94780|A||Shailaja,M.S., and A. Rodrigues|Nitrite-Induced Enhancement of Toxicity of Phenanthrene in Fish and Its Implications for Coastal Waters|Estuar. Coast. Shelf Sci.56(5/6): 1107-1110|2003|10.1016/S0272-7714(02)00311-6
94781|T||Sheng,X.F., and J.X. Gong|Increased Degradation of Phenanthrene in Soil by Pseudomonas sp. GF3 in the Presence of Wheat|Soil Biol. Biochem.38(9): 2587-2592|2006|10.1016/j.soilbio.2006.03.014
94782|A||Coldham,N.G., M.J. Sauer, S. Sivapathasundaram, L. Ashfield, T. Pottinger, and C. Goodall|Tissue Distribution, Metabolism and Excretion of 4-Nonylphenol in Rainbow Trout|J. Vet. Pharmacol. Ther.20(suppl.1): 256-257|1997|
94783|T||Watts,A.W., T.P. Ballestero, and K.H. Gardner|Uptake of Polycyclic Aromatic Hydrocarbons (PAHs) in Salt Marsh Plants Spartina alterniflora Grown in Contaminated Sediments|Chemosphere62(8): 1253-1260|2006|10.1016/j.chemosphere.2005.07.006
94796|T||Parametrix Inc.|TSCA 8(e) Submission - Trichloromethylstannane CAS # 993-16-8|U.S.EPA, OPPT, 8EHQ - 010H - 15511:2 p.|2004|
94797|T||Phipps,T.|TSCA 8(e) Submission - Dichlorodioctylstannane CAS # 3542-36-7|Parametrix, Kirkland, WA:2 p.|2004|
94798|T||Phipps,T.|TSCA 8(e) Submission - Trichlorooctylstannane CAS # 3091-25-6|Parametrix, Kirkland, WA:2 p.|2004|
94799|T||Deveci,E., K. Guven, M. Bashan, A. Onen, and D. De Pomerai|The Accumulation and Histological Effects of Organometallic Fungicides Propineb and Maneb in the Livers of Pregnant Rats and Their Offspring|J. Toxicol. Sci.24(2): 79-85|1999|10.2131/jts.24.79
94800|T||Parrella,M.P.|Evaluations of Selected Insecticides for Control of Permethrin-Resistant Liriomyza trifolii (Diptera: Agromyzidae) on Chrysanthemum|J. Econ. Entomol.76(6): 1460-1464|1983|10.1093/jee/76.6.1460
94801|T||Ingram,K.T., D.C. Herzog, K.J. Boote, J.W. Jones, and C.S. Barfield|Effects of Defoliating Pests on Soybean Canopy CO2 Exchange and Reproductive Growth|Crop Sci.21(6): 961-968|1981|10.2135/cropsci1981.0011183X002100060038x
94802|T||Sharma,I.D., A. Nath, and J.K. Dubey|Persistence of Mancozeb (Dithane M-45) in Some Vegetables and Efficacy of Decontamination Processes|J. Food Sci. Technol.31(3): 215-218|1994|
94804|T||Raabe,R.D., and L. Pyeatt|Control of Rust of China Aster and Comments on the Name of the Pathogen|J. Environ. Hortic.8(2): 89-92|1990|10.24266/0738-2898-8.2.89
94805|T||Pierce,L., and A.H. McCain|Anthracnose of Piggyback Plant Caused by Colletotrichum gloeosporioides (Penz.) Sacc.|J. Environ. Hortic.8(4): 207-209|1990|10.24266/0738-2898-8.4.207
94806|T||Utkhede,R.S., and E.M. Smith|Long-Term Effects of Chemical and Biological Treatments on Crown and Root Rot of Apple Trees Caused by Phytophthora cactorum|Soil Biol. Biochem.25(3): 383-386|1993|10.1016/0038-0717(93)90138-2
94807|T||Fravel,D.R., J.J. Marois, M.T. Dunn, and G.C. Papavizas|Compatibility of Talaromyces flavus with Potato Seedpiece Fungicides|Soil Biol. Biochem.17(2): 163-166|1985|10.1016/0038-0717(85)90109-9
94808|T||Zhang,L., H. Wang, and H. Mo|Radiotracer Study on Mancozeb Residues in Tomato Plants|Biomed. Environ. Sci.4(4): 409-414|1991|
94809|T||Hare,R.C.|Soil Applications of Systemics for Prevention and Eradication of Fusiform Rust|Plant Dis. Rep.57(9): 776-780|1973|
94810|T||Foster,R.E., and C.A. Sanchez|Effect of Liriomyza trifolii (Diptera:  Agromyzidae) Larval Damage on Growth, Yield, and Cosmetic Quality of Celery in Florida|J. Econ. Entomol.81(6): 1721-1725|1988|10.1093/jee/81.6.1721
94811|T||Sirota,J.M., and E. Grafius|Effects of Cyromazine on Larval Survival, Pupation, and Adult Emergence of Colorado Potato Beetle (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.87(3): 577-582|1994|10.1093/jee/87.3.577
94812|T||Moreno,D.S., A.J. Martinez, and M.R. Sanchez|Cyromazine Effects on the Reproduction of Anastrepha ludens (Diptera:  Tephritidae) in the Laboratory and in the Field|J. Econ. Entomol.87(1): 202-211|1994|10.1093/jee/87.1.202
94813|T||Miller,R.W., E.T. Schmidtmann, R.D. Wauchope, C.M. Clegg, A.E. Herner, and H. Weber|Urine Delivery of Cyromazine for Suppressing House and Stable Flies (Diptera: Muscidae) in Outdoor Dairy Calf Hutches|J. Econ. Entomol.89(3): 689-694|1996|10.1093/jee/89.3.689
94814|T||Mulla,M.S., and H. Axelrod|Evaluation of the IGR Larvadex as a Feed-Through Treatment for the Control of Pestiferous Flies on Poultry Ranches|J. Econ. Entomol.76(3): 515-519|1983|10.1093/jee/76.3.515
94815|T||Bryant,E.H., and J.R. Cowles|Differential Responses of Wild and Laboratory Strains of the Housefly to PCBs|J. Chem. Ecol.26(4): 1001-1011|2000|10.1023/A:1005416410643
94816|T||Hellman,B., R. D'Argy, and S. Ullberg|The In Vivo Uptake of Tritiated Thymidine as a Potential Short-Term Test of Toxic Effects of Polycyclic Aromatic Hydrocarbons in Different Organs|Toxicology29(3): 183-194|1984|10.1016/0300-483X(84)90020-9
94817|T||Stocker,K.J., W.R. Howard, J. Statham, and R.J. Proudlock|Assessment of the Potential In Vivo Genotoxicity of Fluoranthene|Mutagenesis11(5): 493-496|1996|10.1093/mutage/11.5.493
94818|T||He,S., and R. Baker|Micronuclei in Mouse Skin Cells Following In Vivo Exposure to Benzo(a)Pyrene, 7,12-Dimethylbenz(a) Anthracene, Chrysene, Pyrene and Urethane|Environ. Mol. Mutagen.17(3): 163-168|1991|10.1002/em.2850170305
94819|A||Traczewska,T.M.|Changes of Toxicological Properties of Biodegradation Products of Anthracene and Phenanthrene|Water Sci. Technol.41(12): 31-38|2000|10.2166/wst.2000.0234
94820|T||Mackenzie,P.I., M. Vaisanen, and O. Hanninen|Differential Induction of UDP Glucuronosyltransferase Activities Towards Various Substrates After Polycyclic Aromatic Hydrocarbon Administration to Rats|Toxicol. Lett.12(4): 259-263|1982|10.1016/0378-4274(82)90249-1
94821|T||Chaloupka,K., M. Santostefano, I.S. Goldfarb, G. Liu, M.J. Myers, I.B. Tsyrolv, H.V. Gelboin, V. Krishnan, and S. Safe|Aryl Hydrocarbon (Ah) Receptor-Independent Induction of CYP1A2 Gene Expression by Acenaphthylene and Related Compounds in B6C3F1 Mice|Carcinogenesis15(12): 2835-2840|1994|10.1093/carcin/15.12.2835
94822|A||Lee,C., S.H. Jeon, J.G. Na, and K. Park|Sequence Analysis of Choriogenin H Gene of Medaka (Oryzias latipes) and mRNA Expression|Environ. Toxicol. Chem.21(8): 1709-1714|2002|10.1002/etc.5620210824
94823|A||Yamani,S.|Zebrafish (Danio rerio) and Japanese Medaka (Orysias latipes) as Model Species for Evalution of Endocrine Disrupting Chemicals|M.S.Thesis, Swedish University of Agricultural Sciences, Uppsala, Sweden:59 p.|2004|
94824|T||Annamalai,P., and D. Lalithakumari|Development of Resistance in Bipolaris oryzae Against Edifenphos|Mycol. Res.96(6): 454-460|1992|10.1016/S0953-7562(09)81090-3
94825|T||Broscious,S.C., and H.W. Kirby|Economic Evaluation of Fungicides for Control of Alfalfa Foliar Diseases|Phytopathology78(7): 934-939|1988|10.1094/Phyto-78-934
94826|T||Samoucha,Y., U. Hugelshofer, and U. Gisi|Effects of Disease Intensity and Application Type on Efficacy and Synergy of Fungicide Mixtures Against Phytophthora infestans|J. Phytopathol.120(1): 44-52|1987|10.1111/j.1439-0434.1987.tb04413.x
94827|T||Diriwachter,G., D. Sozzi, C. Ney, and T. Staub|Cross-Resistance in Phytophthora infestans and Plasmopara viticola Against Different Phenylamides and Unrelated Fungicides|Crop Prot.6(4): 250-255|1987|10.1016/0261-2194(87)90046-9
94828|T||Goodwin,S.|Laboratory Evaluation of Pesticides on an Australian Strain of the Chilean Predatory Mite, Phytoseiulus persimilis Athias-Henriot|In: D.A.Griffiths and C.E.Bowman (Eds.), Acarology VI, Ellis Horwood, Chichester, UK2:647-654|1984|
94829|T||Carisse,O., D. Rolland, and D.M. Tremblay|Effect of Microsphaeropsis ochracea on Production of Sclerotia-Borne and Airborne Conidia of Botrytis squamosa|Biocontrol51(1): 107-126|2006|10.1007/s10526-005-5807-4
94830|T||Hwang,C.H., Y.S. Lin, and C.M. Pan|Seedling Blight of Bitter Gourd-Loofah Graft Caused by Alternaria alternata F. sp. Cucurbitae and Its Control in Taiwan|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))40(2): 109-120|1998|
94831|T||Saleh,M.A., A.E. Ahmed, A. Kamel, and C. Dary|Determination of the Distribution of Malathion in Rats Following Various Routes of Administration by Whole-Body Electronic Autoradiography|Toxicol. Ind. Health13(6): 751-758|1997|10.1177/074823379701300605
94832|T||Jiu,G.D., and J.K. Waage|The Effect of Insecticides on the Distribution of Foraging Parasitoids, Diaeretiella rapae (Hym:  Braconidae) on Plants|Entomophaga35(1): 49-56|1990|10.1007/BF02374300
94833|T||Spiers,A.G.|An Agar Leaf-Disc Technique for Screening the Effectiveness and Persistence of Fungicides for Control of Marssonina on Populus|Plant Dis. Rep.62(2): 148-152|1978|
94834|T||Prasad,K.S.K., and Y.S. Rao|Chemotherapy of the Root-Knot Nematode (Meloidogyne graminicola) in Rice. III. Evaluation of Pesticides as Soil Drench|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)83(12): 736-741|1976|
94835|T||Raj,K., L. Wati, S. Kumar, and G.S. Saharan|Effect of Head Rot Infection on Sunflower Seed Viability, Seedling Vigour and Its Control|Crop Res. (Hisar)9(3): 423-427|1995|
94836|T||Paulus,A.O., R.A. Brendler, J. Nelson, T. Whitaker, and B.J. Hall|Fungicides for Control of Cucurbit Powdery Mildew|Calif. Agric.30(8): 13-|1976|
94837|T||Pandey,R.S., D.V.S. Khati, D.N. Shukla, and S.N. Bhargava|Fungicidal Control of Two Post-Harvest Diseases of Apple Fruit|Natl. Acad. Sci. Lett.3(4): 107-108|1980|
94838|T||Malone,J.P., and H.C. McGimpsey|Fungicidal Control of Foliar Diseases of Barley in Northern Ireland|Rec. Agric. Res. (Belfast)25:45-52|1977|
94839|T||Ibrahim,I.A., M.K. El-Kazzaz, M.R.A. Shehata, and A.A. Samia|Comparative Corn Rust Control Experiments by Certain New Fungicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent40(2, Pt. 1): 745-750|1975|
94840|T||Bhargava,S.N., R.S. Pandey, D.K. Dwivedi, and D.N. Shukla|Chemical Control of Botryodiplodia Rot of Banana|Biol. Bull. India5(1): 52-53|1983|
94841|T||Abol-Wafa,M.T., S.A. Farag, A.M. Kamara, and M.R. Shehata|Fungicidal Control of Cucumber Powdery Mildew|Egypt. J. Phytopathol.8:47-54|1976|
94842|T||Haverty,M.I., P.J. Shea, and L.E. Stipe|Single and Multiple Applications of Fenvalerate to Protect Western White Pine Cones from Dioryctria abietivorella (Lepidoptera:  Pyralidae)|J. Econ. Entomol.79(1): 158-161|1986|10.1093/jee/79.1.158
94843|T||Fletcher,J.T., B.J. Smewin, and R.T.A. Cook|Tomato Powdery Mildew|Plant Pathol.37(4): 594-598|1988|10.1111/j.1365-3059.1988.tb02121.x
94844|T||Johnsen,N.M., P.E. Schwarze, S.H. Nyholm, M. Lag, R. Becher, G. Brunborg, and J.A. Holme|Genotoxic Effects of Cyclopenta-Fused Polycyclic Aromatic Hydrocarbons in Different Types of Isolated Rat Lung Cells|Carcinogenesis18(1): 193-199|1997|10.1093/carcin/18.1.193
94845|T||Rifkind,A.B., M. Troeger, and H. Muschick|Kinetic Evidence for Heterogeneous Responsiveness of Mixed Function Oxidase Isozymes to Inhibition and Induction by Allylisopropylaetamide in Chick Embryo Liver|J. Biol. Chem.257(19): 11717-11727|1982|10.1016/S0021-9258(18)33822-5
94846|T||Sun,B., M. Fukuhara, T. Kinoshita, M. Kimura, and F. Ushio|Differential Induction of Isozymes of Drug-Metabolizing Enzymes by Butylated Hydroxytoluene in Mice and Chinese Hamsters|Food Chem. Toxicol.34(7): 595-601|1996|10.1016/0278-6915(96)00020-8
94847|A||Pan,L., J. Ren, and J. Liu|Effects of Benzo(k)fluoranthene Exposure on the Biomarkers of Scallop Chlamys farreri|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(3): 248-256|2005|10.1016/j.cca.2005.07.005
94848|T||Mayeaux,M.H., and G.W. Winston|Antibiotic Effects on Cytochromes P450 Content and Mixed-Function Oxygenase (MFO) Activities in the American Alligator, Alligator mississippiensis|J. Vet. Pharmacol. Ther.21(4): 274-281|1998|10.1046/j.1365-2885.1998.00134.x
94849|T||Platt,K.L., E. Pfeiffer, P. Petrovic, H. Friesel, D. Beermann, E. Hecker, and F. Oesch|Comparative Tumorigenicity of Picene and Dibenz(a,h)anthracene in the Mouse|Carcinogenesis11(10): 1721-1726|1990|10.1093/carcin/11.10.1721
94850|T||Miscalencu,D., F. Mailat, M. El Alfy, and D. Georgescu|Ultrastructural Modifications of Chalcides ocellatus Hepatocytes After Dibenzanthracene Administration|Rev. Roumaine Biol. Ser. Biol. Anim.26(1): 31-33|1981|
94851|T||Watanabe,M., Y. Tamura, and T. Abe|Sex-Dependent Difference in Aryl Hydrocarbon Hydroxylase Activity in Mouse Liver|Toxicol. Lett.5(1): 55-60|1980|10.1016/0378-4274(80)90148-4
94852|T||Watanuki,M., M. Sakai, K. Tohyama, and M. Mutai|Effect of Indole on the Mono-oxygenase System in Rat Liver Microsomes|Agric. Biol. Chem.46(1): 215-220|1982|
94853|T||Van Schooten,F.J., E.J.C. Moonen, L. Van der Wal, P. Levels, and J.C.S. Kleinjans|Determination of Polycyclic Aromatic Hydrocarbons (PAH) and Their Metabolites in Blood, Feces, and Urine of Rats Orally Exposed to PAH Contaminated Soils|Arch. Environ. Contam. Toxicol.33(3): 317-322|1997|10.1007/s002449900259
94854|T||Raunio,H., and O. Pelkonen|Independent Induction and Inhibition of Ornithine Decarboxylase and Aryl Hydrocarbon Hydroxylase Activities in Rat Epidermis|J. Invest. Dermatol.79(4): 246-249|1982|10.1111/1523-1747.ep12500071
94855|T||Phillipson,C.E., P.M.M. Godden, P.Y. Lum, C. Ioannides, and D.V. Parke|Determination of Cytochrome P-448 Activity in Biological Tissues|Biochem. J. (Lond.)221(1): 81-88|1984|10.1042/bj2210081
94856|T||Byus,C.V., M.G.S. Costa, I.G. Sipes, B.B. Brodie, and D.H. Russell|Activation of 3':5'-Cyclic AMP Dependent Protein Kinase and Induction of Ornithine Decarboxylase as Early Events in Induction of Mixed Function Oxygenases|Proc. Natl. Acad. Sci. U.S.A.73(4): 1241-1245|1976|10.1073/pnas.73.4.1241
94857|T||Sadek,I.A., and F. Abdul-Salam|Effect of Diallyl Sulfide on Toad Liver Tumor Induced by 7,12-Dimethylbenz(a)anthracene|Nutr. Res.14(10): 1513-1521|1994|10.1016/S0271-5317(05)80230-1
94858|T||Jeyapaul,J., and R.A. Bhisey|Effects of 12-O-Tetradecanoylphorbol-13-Acetate on Macromolecular Synthesis in Epidermis, Dermis and Subcutis from Mouse Skin Initiated with 7,12-Dimethylbenz(a)anthracene|Indian J. Exp. Biol.26(9): 671-678|1988|
94859|T||Albert,R.E., M. Vanderlaan, F.J. Burns, and M. Nishizumi|Effect of Carcinogens on Chicken Atherosclerosis|Cancer Res.37(7 Pt. 1): 2232-2235|1977|
94860|T||Stohs,S.J., R.C. Grafstrom, M.D. Burke, and S. Orrenius|Xenobiotic Metabolism and Enzyme Induction in Isolated Rat Intestinal Microsomes|Drug Metab. Dispos.4(6): 517-521|1976|
94861|T||Shiosaki,K., K.E. Asin, D.R. Britton, W.J. Giardina, L. Bednarz, L. Mahan, J. Mikusa, A. Nikkel, and C. Wismer|Hyperactivity and Behavioral Seizures in Rodents Following Treatment with the Dopamine D1 Receptor Agonists A-86929 and ABT-431|Eur. J. Pharmacol.317(2-3): 183-190|1996|10.1016/S0014-2999(96)00718-2
94863|T||McFee,A.F., and R.R. Tice|Influence of Treatment to Sacrifice Time and the Presence of BrdUrd on Chemically-Induced Aberration Rates in Mouse Marrow Cells|Mutat. Res.241(1): 95-108|1990|10.1016/0165-1218(90)90112-F
94864|T||Iwasaki,K., P.Y. Lum, C. Ioannides, and D.V. Parke|Induction of Cytochrome P-448 Activity as Exemplified by the O-Deethylation of Ethoxyresorufin.  Effects of Dose, Sex, Tissue and Animal Species|Biochem. Pharmacol.35(21): 3879-3884|1986|10.1016/0006-2952(86)90679-9
94865|AT||Cerniglia,C.E., G.L. White, and R.H. Heflich|Fungal Metabolism and Detoxification of Polycyclic Aromatic Hydrocarbons|Arch. Microbiol.143(2): 105-110|1985|10.1007/BF00411031
94866|T||Bhattacharya,S.K., R. Bose, P. Ghosh, V.J. Tripathi, A.B. Ray, and B. Dasgupta|Psychopharmacological Studies on (--)-Nuciferine and Its Hofmann Degradation Product Atherosperminine|Psychopharmacology59(1): 29-33|1978|10.1007/BF00428026
94867|T||Lu,A.Y.H., M. Jacobson, W. Levin, S.B. West, and R. Kuntzman|Reconstituted Liver Microsomal Enzyme System that Hydroxylates Drugs, Other Foreign Compounds, and Endogenous Substrates IV. Hydroxylation of Aniline|Arch. Biochem. Biophys.153(1): 294-297|1972|10.1016/0003-9861(72)90447-X
94868|T||Wurgler,F.E., and A. Kagi|Genotoxicity Testing with the Somatic White-Ivory System in the Eye of Drosophila melanogaster|Mutat. Res.263(1): 33-39|1991|
94869|T||Wolff,T., and M. Strecker|Lack of Relationship Between Debrisoquine 4-Hydroxylation and Other Cytochrome P-450 Dependent Reactions in Rat and Human Liver|Biochem. Pharmacol.34(15): 2593-2598|1985|10.1016/0006-2952(85)90553-2
94870|T||Rogers,C.G., B.G. Boyes, and E. Lok|Comparative Genotoxicity of 3 Procarcinogens in V79 Cells as Related to Glutathione S-Transferase Activity of Hepatocytes from Untreated Rats and Those Fed 2% Butylated Hydroxyanisole|Mutat. Res.244(2): 163-171|1990|
94871|T||Proudlock,R.J., and J.A. Allen|Micronuclei and Other Nuclear Anomalies Induced in Various Organs by Diethylnitrosamine and 7,12-Dimethylbenz(a)anthracene|Mutat. Res.174(2): 141-143|1986|
94872|T||Yawetz,A., B.R. Woodin, and J.J. Stegeman|Cytochromes P450 in Liver of the Turtle Chrysemys picta picta and the Induction and Partial Purification of CYP1A-like Proteins|Biochim. Biophys. Acta1381(1): 12-26|1998|10.1016/S0304-4165(97)00154-2
94873|T||Grimmer,G., K.W. Naujack, G. Dettbarn, H. Brune, R. Deutsch-Wenzel, and J. Misfeld|Characterization of Polycyclic Aromatic Hydrocarbons as Essential Carcinogenic Constituents of Coal Combustion and Automobile Exhaust Using Mouse-Skin-Painting as a Carcinogen-Specific Detector|Toxicol. Environ. Chem.6(2): 97-107|1983|10.1080/02772248309356998
94874|T||Martson,L.V., and V.M. Voronina|Experimental Study of the Effect of a Series of Phosphoroorganic Pesticides (Dipterex and Imidan) on Embryogenesis|Environ. Health Perspect.13:121-125|1976|10.1289/ehp.7613121
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94877|T||De Castro,V.L., K.P. Goes, and S.H. Chiorato|Developmental Toxicity Potential of Paclobutrazol in the Rat|Int. J. Environ. Health Res.14(5): 371-380|2004|10.1080/09603120400004055
94878|T||Shehane,R.H., and M.H. Bass|Growth and Yield of Soybeans Following Treatment with Phorate, Carbofuran, Methomyl or Disulfoton|Environ. Entomol.3(3): 574-575|1974|10.1093/ee/3.3.574
94879|T||Crofton,K.M.|A Structure-Activity Relationship for the Neurotoxicity of Triazole Fungicides|Toxicol. Lett.84(3): 155-159|1996|10.1016/0378-4274(95)03618-0
94880|T||Van Birgelen,A.P.J.M.|NTP Technical Report on the Toxicity Studies of 3,3',4,4'-Tetrachloroazobenzene (Cas No. 14047-09-7) Administered by Gavage to F344 Rats and B6C3F1 Mice|TOX65, Natl.Toxicol.Prog., Research Triangle Park, NC:124 p.|1999|
94881|T||Schuster,D.J., and P.H. Everett|Response of Liriomyza trifolii (Diptera:  Agromyzidae) to Insecticides on Tomato|J. Econ. Entomol.76(5): 1170-1174|1983|10.1093/jee/76.5.1170
94883|T||Rawn,D.F.K., S.C. Quade, J.B. Shields, G. Conca, W.F. Sun, G.M.A. Lacroix, M. Smith, A. Fouquet, and A. Belanger|Organophosphate Levels in Apple Composites and Individual Apples from a Treated Canadian Orchard|J. Agric. Food Chem.54(5): 1943-1948|2006|10.1021/jf052413v
94884|T||McBain,J.B., J.J. Menn, and J.E. Casida|Metabolism of Carbonyl-C14-Labeled Imidan, N-(Mercaptomethyl) Phthalimide S-(O,O-Dimethyl Phosphorodithioate), in Rats and Cockroaches|J. Agric. Food Chem.16(5): 813-820|1968|10.1021/jf60159a030
94886|T||Szeto,S.Y., and M.J. Brown|Gas-Liquid Chromatographic Methods for the Determination of Disulfoton, Phorate, Oxydemeton-Methyl, and Their Toxic Metabolites in Asparagus Tissue and Soil|J. Agric. Food Chem.30(6): 1082-1086|1982|10.1021/jf00114a019
94887|T||Yim,K.O., Y.W. Kwon, and D.E. Bayer|Growth Responses and Allocation of Assimilates of Rice Seedlings by Paclobutrazol and Gibberellin Treatment|J. Plant Growth Regul.16(1): 35-41|1997|10.1007/PL00006972
94888|A||Steffens,B., J. Wang, and M. Sauter|Interactions Between Ethylene, Gibberellin and Abscisic Acid Regulate Emergence and Growth Rate of Adventitious Roots in Deepwater Rice|Planta (Multiple Languages)223(3): 604-612|2006|10.1007/s00425-005-0111-1
94889|T||Naik,P.K., and P.K. Mohapatra|Ethylene Inhibitors Promote Male Gametophyte Survival in Rice|Plant Growth Regul.28(1): 29-39|1999|10.1023/A:1006285615853
94892|T||Yoshikawa,T., W. Flory, L.P. Ruhr, D. Giamalva, D.F. Church, and W.A. Pryor|Toxicity of Polycyclic Aromatic Hydrocarbons. II. Effect of NO2-Nitrated Phenanthrene and Pyrene on Blood Chemistry in Rats|Vet. Hum. Toxicol.29(1): 25-30|1987|
94893|AT||Stabenau,E.K., D.T. Giczewski, and K.Y. Maillacheruvu|Uptake and Elimination of Naphthalene From Liver, Lung, and Muscle Tissue in the Leopard Frog (Rana pipiens)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(8): 1449-1461|2006|
94894|T||Tozan,A., O. Sehirli, G.Z. Omurtag, S. Cetinel, N. Gedik, and G. Sener|Ginkgo biloba Extract Reduces Naphthalene-Induced Oxidative Damage in Mice|PTR. Phytother.Res.21(1): 72-77|2007|10.1002/ptr.2027
94895|T||Wang,J.S., and W.F.,Jr. Busby|Induction of Lung and Liver Tumors by Fluoranthene in a Preweanling CD-1 Mouse Bioassay|Carcinogenesis14(9): 1871-1874|1993|10.1093/carcin/14.9.1871
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94897|T||Yaksh,T.L., and G.J. Harty|Pharmacology of the Allodynia in Rats Evoked by high Dose Intrathecal Morphine|J. Pharmacol. Exp. Ther.244(2): 501-507|1988|
94898|T||Giles,A.S., A. Seidel, and D.H. Phillips|Covalent DNA Adducts Formed in Mouse Epidermis by Benzo(g)Chrysene|Carcinogenesis17(6): 1331-1336|1996|10.1093/carcin/17.6.1331
94899|A||Gust,K.A., and J.W. Fleeger|Exposure-Related Effects on Cd Bioaccumulation Explain Toxicity of Cd-Phenanthrene Mixtures in Hyalella azteca|Environ. Toxicol. Chem.24(11): 2918-2926|2005|10.1897/05-005R.1
94900|T||Jiang,X., A. Yediler, S. Yufang, T. Sun, and A. Kettrup|Effect of Linear Alkylbenzene Sulphonate (LAS) on the Mineralization, Metabolism and Uptake of 14C-Phenanthrene in a Model Ecosystem (Water-Lava-Plant-Air)|Chemosphere61(5): 741-751|2005|10.1016/j.chemosphere.2005.03.098
94901|T||Lajide,L., P. Escoubas, and J. Mizutani|Comparative Effects of Aristolochic Acids, Phenanthrene, and 1,3-Benzodioxole Derivatives on the Behavior and Survival of Spodoptera litura Larvae|J. Agric. Food Chem.41(12): 2426-2430|1993|10.1021/jf00036a040
94902|T||Laurent,C., C. Feidt, E. Lichtfouse, N. Grova, F. Laurent, and G. Rychen|Milk-Blood Transfer of 14C-Tagged Polycyclic Aromatic Hydrocarbons (PAHs) in Pigs|J. Agric. Food Chem.49(5): 2493-2496|2001|10.1021/jf0014011
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94904|T||Mayura,K., H.J. Huebner, M.R. Dwyer, K.S. McKenzie, K.C. Donnelly, L.F. Kubena, and T.D. Phillips|Multi-bioassay Approach for Assessing the Potency of Complex Mixtures of Polycyclic Aromatic Hydrocarbons|Chemosphere38(8): 1721-1732|1999|10.1016/S0045-6535(98)00389-0
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94906|A||Henry,L.|Sorption of Organic Chemicals on Natural Organic Matter in the Water Column and Effects on the Toxicity of the Chemicals to Daphnia magna|Ph.D.Thesis, Drexel University, Philadelphia, PA:130 p.|1988|
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94909|T||Nita,M., M.A. Ellis, L.L. Wilson, and L.V. Madden|Effects of Application of Fungicide During the Dormant Period on Phomopsis Cane and Leaf Spot of Grape Disease Intensity and Inoculum Production|Plant Dis.90(9): 1195-1200|2006|10.1094/PD-90-1195
94910|T||Zhu,J., Z.Y. Zhao, and Y.T. Lu|Evaluation of Genotoxicity of Combined Soil Pollution by Cadmium and Phenanthrene on Earthworm|J. Environ. Sci.18(6): 1210-1215|2006|10.1016/S1001-0742(06)60064-8
94911|A||Sanders,M.B., Z. Billinghurst, M.H. Depledge, and A.S. Clare|Larval Development and Vitellin-like Protein Expression in Palaemon elegans Larvae Following Xeno-Oestrogen Exposure|Integr. Comp. Biol.45(1): 51-60|2005|10.1093/icb/45.1.51
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94913|T||Acar,N., G.F. Barbato, and P.H. Patterson|2.  The Effect of Feeding Excess Methionine on Live Performance, Carcass Traits, and Ascitic Mortality|Poult. Sci.80:1585-1589|2001|10.1093/ps/80.11.1585
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94915|A||Ikuta,K., K. Aida, N. Okumoto, and I. Hanyu|Effects of Thyroxine and Methyltestosterone on Smoltification of Masu Salmon (Oncorhynchus masou)|Aquaculture45:289-303|1985|10.1016/0044-8486(85)90276-5
94916|A||Balls,H., B. Moss, and K. Irvine|The Loss of Submerged Plants with Eutrophication  I. Experimental Design, Water Chemistry, Aquatic Plant and Phytoplankton Biomass in Experiments Carried out in Ponds in the Norfolk Broadland|Freshw. Biol.22:71-87|1989|10.1111/j.1365-2427.1989.tb01085.x
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94918|T||Cagen,S.Z., and C.D. Klaassen|Protection of Carbon Tetrachloride-Induced Hepatotoxicity by Zinc:  Role of Metallothionein|Toxicol. Appl. Pharmacol.51:107-116|1979|10.1016/0041-008X(79)90013-9
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94921|T||Gray,L.E.,Jr., J.S. Ostby, R.J. Kavlock, and R. Marshall|Gonadal Effects of Fetal Exposure to the Azo Dye Congo Red in Mice:  Infertility in Female but not Male Offspring|Fundam. Appl. Toxicol.19:411-422|1992|10.1016/0272-0590(92)90180-P
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94926|T||Ashby,J., C.R. Richardson, P.A. Lefevre, R.D. Callander, and J.A. Styles|Chloracetamide-N-Metholol:  An Example of an In Vitro and In Vivo Clastogen Which is Non-Mutagenic to Salmonella|Mutat. Res.156(1/2): 19-32|1985|10.1016/0165-1218(85)90003-5
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94928|T||Neilsen,G.H., and J. Yorston|Soil Disinfection and Monoammonium Phosphate Fertilization Increase Precocity of Apples on Replant Problem Soils|J. Am. Soc. Hortic. Sci.116(4): 651-654|1991|10.21273/JASHS.116.4.651
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94940|T||Novotny,C., P. Erbanova, V. Sasek, A. Kubatova, T. Cajthaml, E. Lang, J. Krahl, and F. Zadrazil|Extracellular Oxidative Enzyme Production and PAH Removal in Soil by Exploratory Mycelium of White Rot Fungi|Biodegradation (Dordr.)10(3): 159-168|1999|10.1023/A:1008324111558
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94943|T||Forbes,C.|Sex-Linked Lethal Frequencies Produced by 7,12-Dimethylbenz[a]anthracene in Five Drosophila melanogaster Wild Strains|Mutat. Res.90(3): 255-260|1981|10.1016/0165-1218(81)90005-7
94944|T||Field,J.A., F. Boelsma, H. Baten, and W.H. Rulkens|Oxidation of Anthracene in Water/Solvent Mixtures by the White-Rot Fungus, Bjerkandera sp. Strain BOS55|Appl. Microbiol. Biotechnol.44(1-2): 234-240|1995|10.1007/BF00164508
94945|T||Barale,R., C. Scapoli, A. Falezza, L. Ventura, F. Bernacchi, N. Loprieno, and I. Barrai|Skin Cytogenetic Assay for the Detection of Clastogens-Carcinogens Topically Administered to Mice|Mutat. Res.271(3): 223-230|1992|10.1016/0165-1161(92)90017-G
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94948|T||Murota,T., and T. Shibuya|Modifying Effects of the Enzyme Inducers, Phenobarbital and 3-Methylcholanthrene, on Dominant Lethal Events Induced by 7,12- Dimethylbenza(a)Anthracene in Mice|Mutat. Res.107(2): 329-336|1983|10.1016/0027-5107(83)90174-4
94949|T||Hamilton,J.W., C.A. Louis, K.A. Doherty, S.R. Hunt, M.J. Reed, and M.D. Treadwell|Preferential Alteration of Inducible Gene Expression In Vivo by Carcinogens that Induce Bulky DNA Lesions|Mol. Carcinog.8(1): 34-43|1993|10.1002/mc.2940080109
94950|T||Maliszewska-Kordybach,B., and B. Smreczak|Ecotoxicological Activity of Soils Polluted with Polycyclic Aromatic Hydrocarbons (PAHs) - Effect on Plants|Environ. Technol.21(10): 1099-1110|2000|10.1080/09593330.2000.9618996
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94953|T||Shimada,T., H. Yamazaki, M. Mimura, and F.P. Guengerich|Rat Pulmonary Microsomal Cytochrome P-450 Enzymes Involved in the Activation of Procarcinogens|Mutat. Res.284(2): 233-241|1992|10.1016/0027-5107(92)90007-O
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94959|T||Bowman,M.C., M. Beroza, and C.R. Gentry|GLC Determination of Residues of Disulfoton, Oxydemetonmethyl, and Their Metabolites in Tobacco Plants|J. AOAC Int.52(1): 157-162|1969|10.1093/jaoac/52.1.157
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94966|T||Veena,P., and P.B. Murthy|Effect of Starvation on Organophosphorus Pesticide Induced Genotoxicity in Rats|Int. J. Food Sci. Nutr.45(1): 71-77|1994|10.3109/09637489409167019
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94968|T||Ross,D.C., and U.E. Brady|Organophosphate Pesticides and DMSO Affect Mycelial Growth and Phosphatidylcholine Biosynthesis in an Entomopathic Fungus|J. Entomol. Sci.20(3): 287-293|1985|10.18474/0749-8004-20.3.287
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94984|T||Goon,D., and C.D. Klaassen|Effects of Microsomal Enzyme Inducers upon UDP-Glucuronic Acid Concentration and UDP-Glucuronosyltransferase Activity in the Rat Intestine and Liver|Toxicol. Appl. Pharmacol.115(2): 253-260|1992|10.1016/0041-008X(92)90330-U
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94986|T||Koza,R.A., L.C. Megosh, M. Palmieri, and T.G. O'Brien|Constitutively Elevated Levels of Ornithine and Polyamines in Mouse Epidermal Papillomas|Carcinogenesis12(9): 1619-1625|1991|10.1093/carcin/12.9.1619
94987|T||Betlach,C.J., and T.N. Tozer|Biodisposition of Theophylline.  II.  Effect of Aromatic Hydrocarbon Treatment in Mice|Drug Metab. Dispos.8(4): 271-273|1980|
94988|T||Hanausek-Walaszek,M., Z. Walaszek, and T.E. Webb|Chemical Carcinogens as Specific Inducers of a 60-Kilodalton Oncofetal Protein in Rats|Carcinogenesis6(12): 1725-1730|1985|10.1093/carcin/6.12.1725
94989|T||Kramer,R.E., J.W. Greiner, R.C. Rumbaugh, T.D. Sweeney, and H.D. Colby|Requirement of the Pituitary Gland for Gonadal Hormone Effects on Hepatic Drug Metabolism in Rats|J. Pharmacol. Exp. Ther.208(1): 19-23|1979|
94991|T||Schor,N.A., K. Morgan, N. Epstein, and R. Knight|The Influence of Polycyclic Hydrocarbons on the Activity of NAD(P)H-Dehydrogenating Enzymes in Rat Thymus. A Biochemical and Histochemical Study.|Enzyme Protein29(3): 167-174|1983|10.1159/000469629
94992|T||Bayer,U., and T. Bauknecht|The Dose-Dependence of Sister Chromatid Exchanges Induced By 3 Hydrocarbons, in the In Vivo Bone Marrow test with Chinese Hamsters|Experientia33:25-|1977|10.1007/BF01936731
94993|T||Carbonell,F., J. Eul, V. Anselstetter, H. Hameister, H.J. Seidel, and L. Kreja|Trisomy 15 as a Regular Finding in Chemically Induced Murine T-Cell Leukemogenesis|Int. J. Cancer39(4): 534-537|1987|10.1002/ijc.2910390422
94994|T||Schmoldt,A., J. Jacob, and G. Grimmer|On the Metabolism of Various Polycyclic Aromatic Hydrocarbons (PAH) by Liver Microsomes of Variously Pretreated Rats|Dev. Toxicol. Environ. Sci.8:255-258|1980|
94996|T||Jones,R.D., T.F. Hastings, and A.M. Landes|Absence of Neurovisual Effects due to Tissue and Blood Cholinesterase Depression in a Chronic Disulfoton Feeding Study in Dogs|Toxicol. Lett.106(2-3): 181-190|1999|10.1016/S0378-4274(99)00064-8
94997|T||Costa,L.G., M. Shao, K. Basker, and S.D. Murphy|Chronic Administration of an Organophosphorus Insecticide to Rats Alters Cholinergic Muscarinic Receptors in the Pancreas|Chem.-Biol. Interact.48(3): 261-269|1984|10.1016/0009-2797(84)90139-X
94998|T||Fitzgerald,B.B., and L.G. Costa|Modulation of Muscarinic Receptors and Acetylcholinesterase Activity in Lymphocytes and in Brain Areas Following Repeated Organophosphate Exposure in Rats|Fundam. Appl. Toxicol.20(2): 210-216|1993|10.1006/faat.1993.1028
94999|T||Llorens,J., K.M. Crofton, H.A. Tilson, S.F. Ali, and W.R. Mundy|Characterization of Disulfoton-Induced Behavioral and Neurochemical Effects Following Repeated Exposure|Fundam. Appl. Toxicol.20(2): 163-169|1993|10.1006/faat.1993.1022
95000|T||Mengs,U., and M. Klein|Genotoxic Effects of Aristolochic Acid in the Mouse Micronucleus Test|Planta Med.54(6): 502-503|1988|10.1055/s-2006-962529
95001|T||Bengtsson,M., J. Montelius, L. Mankowitz, and J. Rydstrom|Metabolism of Polycyclic Aromatic Hydrocarbons in the Rat Ovary. Comparison with Metabolism in Adrenal and Liver Tissues|Biochem. Pharmacol.32(1): 129-136|1983|10.1016/0006-2952(83)90664-0
95002|T||Ward,J.M., T. Anjo, L. Ohannesian, L.K. Keefer, D.E. Devor, P.J. Donovan, G.T. Smith, J.R. Henneman, A.J. Streeter, N. |Inactivity of Fecapentaene-12 as a Rodent Carcinogen or Tumor Initiator|Cancer Lett.42(1-2): 49-59|1988|10.1016/0304-3835(88)90238-8
95004|T||Hayashi,M.|Micronucleus Test with Mouse Peripheral Blood Erythrocytes by Acridine Orange Supravital Staining:  The Summary Report of the 5th Collaborative Study by CSGMT/JEMS.MMS:  The Collaborative Study Group for the Micronucleu|Mutat. Res.278(2-3): 83-98|1992|10.1016/0165-1218(92)90236-S
95005|T||Vanparys,P., G. Deknudt, F. Vermeiren, M. Sysmans, and R. Marsboom|Sampling Times in Micronucleus Testing|Mutat. Res.282(3): 191-196|1992|
95006|T||Sadek,I.A., and N. Abdelmegid|Ascorbic Acid and Its Effect on the Skin of Bufo regularis|Oncology39(6): 399-400|1982|10.1159/000225679
95007|T||Yoshikawa,K., T. Nohmi, R. Miyata, M.,Jr. Ishidate, N. Ozawa, M. Isobe, T. Watabe, T. Kada, and T. Kawachi|Differences in Liver Homogenates from Donryu, Fischer, Sprague-Dawley and Wistar Strains of Rat in the Drug-Metabolizing Enzyme Assay and the Salmonella/Hepatic S9 Activation test|Mutat. Res.96(2-3): 167-186|1982|10.1016/0027-5107(82)90085-9
95009|T||Ito,Y., S. Ohnishi, and K. Fujie|Chromosome Aberrations Induced by Aflatoxin B1 in Rat Bone Marrow Cells In Vivo and Their Suppression by Green Tea|Mutat. Res.222(3): 253-261|1989|10.1016/0165-1218(89)90141-9
95010|T||Rice,J.E., T.J.,Jr. Hosted, and E.J. LaVoie|Fluoranthene and Pyrene Enhance Benzo[a]pyrene--DNA Adduct Formation In Vivo in Mouse Skin|Cancer Lett.24(3): 327-333|1984|10.1016/0304-3835(84)90030-2
95011|T||Schulte-Hermann,R., and W. Parzefall|Adaptive Responses of Rat Liver to the Gestagen and Anti-Androgen Cyproterone Acetate and Other Inducers I. Induction of Drug-Metabolizing Enzymes|Chem.-Biol. Interact.31(3): 279-286|1980|10.1016/0009-2797(80)90016-2
95012|T||Khudoley,V.V., I.V. Mizgireuv, and I.G. Majorova|The Phenomenon of Enzymic Imprinting in Adult Animals|Curr. Toxicol.1(3-4): 253-256|1993|
95013|T||Hewer,A., and D.H. Phillips|Effect of Tissue Fixation on Recovery of DNA Adducts in the 32P-Postlabelling Assay|IARC Sci. Publ.(124): 211-214|1993|
95014|T||Severson,R.F., M.E. Snook, H.C. Higman, O.T. Chortyk, and F.J. Akin|Isolation, Identification, and Quantitation of the Polynuclear Aromatic Hydrocarbons in Tobacco Smoke|In: R.Freudenthal and P.W.Jones (Eds.), Polynuclear Aromatic Hydrocarbons Chemistry, Metabolism, and Carcinogenesis, Raven Press, New York1:253-270|1976|
95015|T||Bolognesi,C., E. Ognio, L. Ferreri-Santi, and L. Rossi|Modulation of DNA Damage by Vitamin A in Developing Sprague-Dawley Rats|Anticancer Res.12(5): 1587-1591|1992|
95016|T||Bloom,S.E.|Sister Chromatid Exchange Studies in the Chick Embryo and Neonate:  Actions of Mutagens in a Developing System|Basic Life Sci.29B:509-533|1984|
95018|T||Skinner,M.J., and C.A. Schreiner|Unscheduled DNA Synthesis in Rat Lymphocytes Treated with Mutagens In Vivo|In: B.A.Bridges, B.E.Butterworth and I.B.Weinstein (Eds.), Banbury Report, Indicators of Genotoxic Exposure, Conf.April 18-21, 1982, Cold Spring Harbor, NY, Cold Spring Harbor Laboratory, Cold Spring Harbor, NY13:115-122|1982|
95019|T||Penn,A., F.C.,Jr. Hubbard, and J.L. Parkes|Transforming Potential is Detectable in Arteriosclerotic Plaques of Young Animals|Arterioscler. Thromb.11(4): 1053-1058|1991|
95020|T||Shimada,T., and R. Sato|Inhibition of Mono-Oxygenase Activities by 1,1,1-Trichloropropene 2,3-Oxide, an Inhibitor of Epoxide Hydrase, in Rat Liver Microsomes|Biochem. Pharmacol.28(11): 1777-1781|1979|10.1016/0006-2952(79)90540-9
95021|T||Popov,V.B.|The Role of Genetic Differences in the Mother-Fetus System in Biotransformation of Proteratogens|Biull. Eksp. Biol. Med. (Non-English)122(10): 449-452|1996|
95022|T||Dankovic,D.A., C.W. Wright, R.C. Zangar, and D.L. Springer|Complex Mixture Effects on the Dermal Absorption of Benzo[a]pyrene and Other Polycyclic Aromatic Hydrocarbons from Mouse Skin|J. Appl. Toxicol.9(4): 239-244|1989|10.1002/jat.2550090407
95023|T||Schmidt,S.H., and S. Hellstrom|Experimental Cholesteatoma in the Rat|Acta Oto-Laryngol.114(4): 430-434|1994|10.3109/00016489409126082
95024|T||American Cyanamid Co.|Initial Submission:  Evaluation of Urolithiasis Induction by Melamine [CAS108-78-1] in Male Weanling Fischer 344 Rats (Final Report) [3 Parts] W-Attachments & Letter Dated 010992|EPA/OTS Doc.#88-920000641:171 p.|1992|
95025|T||Atochem North America Inc.|Repeated-Dose (28-Day) Dermal Toxicity Study with Dimethyl Disulfide (DMDS) in Rabbits with Cover Letter Dated 041890|EPA/OTS Doc.#FYI-OTS-0490-0696:313 p.|1990|
95026|T||Krijt,J., I. Van Holsteijn, I. Hassing, M. Vokurka, and B.J. Blaauboer|Effect of Diphenyl Ether Herbicides and Oxadiazon on Porphyrin Biosynthesis in Mouse Liver, Rat Primary Hepatocyte Culture and HepG2 Cells|Arch. Toxicol.67(4): 255-261|1993|10.1007/BF01974344
95028|A||Jenny,M.J., A.H. Ringwood, K. Schey, G.W. Warr, and R.W. Chapman|Diversity of Metallothioneins in the American Oyster, Crassostrea virginica, Revealed by Transcriptomic and Proteomic Approaches|Eur. J. Biochem.271(9): 1702-1712|2004|10.1111/j.1432-1033.2004.04071.x
95029|T||Navickiene,S., and M.L. Ribeiro|Determination of Fluquinconazole, Pyrimethanil, and Clofentezine Residues in Fruits by Liquid Chromatography with Ultraviolet Detection|J. AOAC Int.87(2): 435-438|2004|10.1093/jaoac/87.2.435
95030|T||Youssef,A.F., and B.W. Santi|Simple Neurobehavioral Functional Observational Battery and Objective Gait Analysis Validation by the Use of Acrylamide and Methanol with a Built-in Recovery Period|Environ. Res.73(1/2): 52-62|1997|10.1006/enrs.1997.3718
95031|AT||Steffens,B., and M. Sauter|Epidermal Cell Death in Rice is Regulated by Ethylene, Gibberellin, and Abscisic Acid|Plant Physiol.139(2): 713-721|2005|10.1104/pp.105.064469
95033|T||Kodsi,M.H., and N.R. Swerdlow|Mitochondrial Toxin 3-Nitropropionic Acid Produces Startle Reflex Abnormalities and Striatal Damage in Rats That Model Some Features of Huntington's Disease|Neurosci. Lett.231(2): 103-107|1997|10.1016/S0304-3940(97)00482-5
95034|T||Swinburne,T.R., N.J. Flack, and A.E. Brown|The Effect of Fungicides on the Microflora of Apple Leaf Scars|Ann. Appl. Biol.81(1): 87-89|1975|10.1111/j.1744-7348.1975.tb00499.x
95035|T||Sharma,J.K., and C. Mohanan|In Vitro Evaluation of Fungicides Against Cylindrocladium spp. Causing Diseases of Eucalyptus in Kerala, India|Eur. J. For. Pathol.21(1): 17-26|1991|10.1111/j.1439-0329.1991.tb00298.x
95036|T||Mayer,D.F., J.D. Lunden, and E.R. Miliczky|Effects of Fungicides on Chalkbrood Disease of Alfalfa Leafcutting Bee|Appl. Agric. Res.5(3): 223-226|1990|
95037|T||Thakur,V.S., and G.K. Gupta|Post-Infection Fungicidal Inhibition of Apple Scab (Venturia inaequalis) Sporulation|Indian J. Agric. Sci.62(9): 629-636|1992|
95038|T||Field,R.P., and M.A. Hoy|Evaluation of Genetically Improved Strains of Metaseiulus occidentalis (Nesbitt) (Acarina: Phytoseiidae) for Integrated Control of Spider Mites on Roses in Greenhouses|Hilgardia54(2): 1-32|1986|10.3733/hilg.v54n02p024
95040|T||Nemec,S.|Influence of Selected Pesticides on Glomus Species and Their Infection in Citrus|Plant Soil84(1): 133-137|1985|10.1007/BF02197875
95041|T||Darda,S.|Absorption, Metabolism and Excretion of the Fungicide Triforine in the Rat|Pestic. Sci.8(3): 193-202|1977|10.1002/ps.2780080303
95042|T||Chakraborty,S.K., B.K. Jana, and D.C. Khatua|Effect of Fungicides on Rhizobia, Nodulation and Seeding Pathogen of Legumes|Pesticides 19(8): 74-77|1985|
95044|A||Bauer,J.E., R.P. Kerr, M.F. Bautista, C.J. Decker, and D.G. Capone|Stimulation of Microbial Activities and Polycyclic Aromatic Hydrocarbon Degradation in Marine Sediments Inhabited by Capitella capitata|Mar. Environ. Res.25(1): 63-84|1988|10.1016/0141-1136(88)90361-3
95045|T||Kanoh,T., T. Suzuki, M. Ishimori, S. Ikeda, M. Ohasawa, H. Ohkuni, and Y. Tunetoshi|Adjuvant Activities of Pyrene, Anthracene, Fluoranthene and Benzo(a)Pyrene in Production of Anti-IgE Antibody to Japanese Cedar Pollen Allergen in Mice|J. Clin. Lab. Immunol.48(4): 133-147|1996|
95046|T||Roszinsky-Kocher,G., A. Basler, and G. Rohrborn|Mutagenicity of Polycyclic Hydrocarbons. V. Induction of Sister-Chromatid Exchanges In Vivo|Mutat. Res.66:65-67|1979|10.1016/0165-1218(79)90008-9
95047|T||Rahman,A., J.A. Barrowman, and A. Rahimtula|The Influence of Bile on the Bioavailability of Polynuclear Aromatic Hydrocarbons from the Rat Intestine|Can. J. Physiol. Pharmacol.64(9): 1214-1218|1986|10.1139/y86-205
95048|A||Lee,R., and G.B. Kim|Comet Assays to Assess DNA Damage and Repair in Grass Shrimp Embryos Exposed to Phototoxicants|Mar. Environ. Res.54(3-5): 465-469|2002|10.1016/S0141-1136(02)00128-9
95049|A||Cheek,A.O., J.A. Fentress, S.L. Steele, H.L.,Jr. Bart, and M. Brouwer|Models and Murkiness:  Evaluating Fish Endocrine Disruption in the Laboratory and the Field|In: Proceedings of the 3rd International Conference on Pharmaceuticals and Endocrine Disrupting Chemicals in Water. Minneapolis, MN:141-150|2003|
95050|T||Friedman,M.A., and J. Staub|Inhibition of Mouse Testicular DNA Synthesis by Mutagens and Carcinogens as a Potential Simple Mammalian Assay for Mutagenesis|Mutat. Res.37(1): 67-76|1976|10.1016/0027-5107(76)90055-5
95051|AT||Protic-Sabljic,M.|Metabolism of Carcinogens in the Liver of Common Carp: Induction of Drug-Metabolizing Enzymes and Formation of Mutagenic Metabolites|Mar. Environ. Res.14(1-4): 437-438|1984|10.1016/0141-1136(84)90104-1
95052|A||Holland,H.L., S.H. Khan, D. Richards, and E. Riemland|Biotransformation of Polycyclic Aromatic Compounds by Fungi|Xenobiotica16(8): 733-741|1986|10.3109/00498258609043564
95053|A||Richardson,B.J., E.S.C. Tse, S.B. De Luca-Abbott, M. Martin, and P.K.S. Lam|Uptake and Depuration of PAHs and Chlorinated Pesticides by Semi-Permeable Membrane Devices (SPMDs) and Green-Lipped Mussels (Perna viridis)|Mar. Pollut. Bull.51(8-12): 975-993|2005|10.1016/j.marpolbul.2005.04.028
95054|T||Singer,A.C., T. Bell, C.A. Heywood, J.A.C. Smith, and I.P. Thompson|Phytoremediation of Mixed-Contaminated Soil Using the Hyperaccumulator Plant Alyssum lesbiacum:  Evidence of Histidine as a Measure of Phytoextractable Nickel|Environ. Pollut.147(1): 74-82|2007|10.1016/j.envpol.2006.08.029
95055|T||Wild,E., J. Dent, G.O. Thomas, and K.C. Jones|Visualizing the Air-to-Leaf Transfer and Within-Leaf Movement and Distribution of Phenanthrene: Further Studies Utilizing Two-Photon Excitation Microscopy|Environ. Sci. Technol.40(3): 907-916|2006|10.1021/es0515046
95056|A||Pipe,R.K., and M.N. Moore|An Ultrastructural Study on the Effects of Phenanthrene on Lysosomal Membranes and Distribution of the Lysosomal Enzyme Beta Glucuronidase in Digestive Cells of the Periwinkle Littorina littorea|Aquat. Toxicol.8(1): 65-76|1986|10.1016/0166-445X(86)90073-1
95057|T||Sato,T., H. Inaba, K. Kawai, H. Furukawa, I. Hirono, and T. Miyazawa|Low-Level Chemiluminescence from Drosophila melanogaster Fed with Chemical Mutagens Polycyclic Aromatic Hydrocarbon Quinones and a Carcinogenic Bracken Fern|Mutat. Res.251(1): 91-97|1991|10.1016/0027-5107(91)90218-D
95058|T||Fujikawa,K., F.L. Fort, K. Samejima, and Y. Sakamoto|Genotoxic Potency in Drosophila melanogaster of Selected Aromatic Amines and Polycyclic Aromatic Hydrocarbons as Assayed in the DNA Repair Test|Mutat. Res.290(2): 175-182|1993|10.1016/0027-5107(93)90157-B
95059|A||Roch,P.|Behaviour of Defense Peptides in Environmentally Stressed Mussels|Rev. Med. Vet. (Multiple Languages)153(7): 517-520|2002|
95060|T||Xue,Y.J., F.L. Xie, and Z.M. Yang|Negative Regulation of Aluminum-Responsive Citrate Efflux from Roots of Cassia tora by an Anion Channel Antagonist|Bot. Stud.47(2): 137-144|2006|
95061|A||Gramss,G., B. Kirsche, K.D. Voigt, T. Gunther, and W. Fritsche|Conversion Rates of Five Polycyclic Aromatic Hydrocarbons in Liquid Cultures of Fifty-Eight Fungi and the Concomitant Production of Oxidative Enzymes|Mycol. Res.103(8): 1009-1018|1999|10.1017/S0953756298008144
95062|T||Gass,F., S. Gillet, and J.F. Ponge|The Use of Directional Traps for the Assessment of Short-Term Phenanthrene Effects upon Soil Springtail Communities|Environ. Pollut.140(2): 364-370|2006|10.1016/j.envpol.2005.06.027
95063|A||Bumpus,J.A.|Biodegradation of Polycyclic Aromatic Hydrocarbons by Phanerochaete chrysosporium|Appl. Environ. Microbiol.55(1): 154-158|1989|10.1128/aem.55.1.154-158.1989
95064|T||Bogan,B.W., B. Schoenike, R.T. Lamar, and D. Cullen|Expression of lip Genes During Growth in Soil and Oxidation of Anthracene by Phanerochaete chrysosporium|Appl. Environ. Microbiol.62(10): 3697-3703|1996|10.1128/aem.62.10.3697-3703.1996
95065|A||Brack,W., R. Altenburger, E. Kuster, B. Meissner, K.D. Wenzel, and G. Schuurmann|Identification of Toxic Products of Anthracene Photomodification in Simulated Sunlight|Environ. Toxicol. Chem.22(10): 2228-2237|2003|10.1897/02-450
95066|A||Bezalel,L., Y. Hadar, P.P. Fu, J.P. Freeman, and C.E. Cerniglia|Initial Oxidation Products in the Metabolism of Pyrene, Anthracene, Fluorene, and Dibenzothiophene by the White Rot Fungus Pleurotus ostreatus|Appl. Environ. Microbiol.62(7): 2554-2559|1996|10.1128/aem.62.7.2554-2559.1996
95067|A||Kotterman,M.J.J., R.A. Wasseveld, and J.A. Field|Hydrogen Peroxide Production as a Limiting Factor in Xenobiotic Compound Oxidation by Nitrogen-Sufficient Cultures of Bjerkandera sp. Strain BOS55 Overproducing Peroxidases|Appl. Environ. Microbiol.62(3): 880-885|1996|10.1128/aem.62.3.880-885.1996
95068|AT||Black,J., H. Fox, P. Black, and F. Bock|Carcinogenic Effects of River Sediment Extracts in Fish and Mice|In: R.L.Jolley, W.A.Brungs, R.B.Cumming and V.A.Jacobs (Eds.), Water Chlorination: Environmental Impact and Health Effects, Ann Arbor, MI5:415-428|1985|
95071|T||Brunstrom,B., D. Broman, and C. Naf|Toxicity and EROD-Inducing Potency of 24 Polycyclic Aromatic Hydrocarbons (PAHs) in Chick Embryos|Arch. Toxicol.65(6): 485-489|1991|10.1007/BF01977361
95072|T||Yoshikawa,T., L.P. Ruhr, W. Flory, D. Giamalva, D.F. Church, and W.A. Pryor|Toxicity of Polycyclic Aromatic Hydrocarbons I. Effect of Phenanthrene, Pyrene, and Their Ozonized Products on Blood Chemistry in Rats|Toxicol. Appl. Pharmacol.79(2): 218-226|1985|10.1016/0041-008X(85)90343-6
95074|T||Majesky,M.W., M. Silver, H.L. Yang, M.A. Reidy, and M.R. Juchau|Elicitation of Raised Aortic Smooth Muscle Lesions with an Initiation-Promotion Regimen|Dev. Toxicol. Environ. Sci.11:367-370|1983|
95075|T||Shou,M., and S.K. Yang|Regioselective and Stereoselective Metabolisms of Pyrene and 1-Bromopyrene by Rat Liver Microsomes and Effects of Enzyme Inducers|Drug Metab. Dispos.16(2): 173-183|1988|
95076|A||Tse,H.G., M.C. Galvao Gomes, M.C. Tse, M.D. Cesario, H. Medina, and T. Medina|A Comparative Anlaysis of the Effects of Acridine Orange, Hycanthone, Lucanthone and Promethazine on the Embryonic Development of Sea-Urchin Eggs, Lytechinus variegatus, Lamarck, var. atlanticus|Rev. Cienc. Biomed.3:33-38|1982|
95078|T||Houser,W.H., R. Zielinski, and E. Bresnick|Further Characterization of the Polycyclic Aromatic Hydrocarbon Binding Properties of the 4S Protein|Arch. Biochem. Biophys.251(1): 361-368|1986|10.1016/0003-9861(86)90083-4
95079|T||Horn,L.R., L.J. Machlin, M.O. Barker, and M. Brin|Drug Metabolism and Hepatic Heme Proteins in the Vitamin E Deficient Rat|Arch. Biochem. Biophys.172(1): 270-277|1976|10.1016/0003-9861(76)90076-X
95080|T||Oesch,F., H. Glatt, and H. Schmassmann|The Apparent Ubiquity of Epoxide Hydratase in Rat Organs|Biochem. Pharmacol.26(7): 603-607|1977|10.1016/0006-2952(77)90032-6
95081|T||Irving,C.C., R.A. Veazey, and L.T. Russell|Possible Role of the Glucuronide Conjugate in the Biochemical Mechanism of Binding of the Carcinogen N-Hydroxy-2-Acetylaminofluorene to Rat-Liver Deoxyribonucleic Acid In Vivo|Chem.-Biol. Interact.1(1): 19-26|1969|10.1016/0009-2797(69)90016-7
95082|T||Lu,A.Y.H., R. Kuntzman, S. West, and A.H. Conney|Reconstituted Liver Microsomal Enzyme System that Hydroxylates Drugs, Other Foreign Compounds and Endogenous Substrates. I. Determination of Substrate Specificity by the Cytochrome P-450 and Cytochrome P-448 Fractions|Biochem. Biophys. Res. Commun.42(6): 1200-1206|1971|10.1016/0006-291X(71)90033-7
95083|A||Williams,D.E., R.C. Bender, M.T. Morrissey, D.P. Selivonchick, and D.R. Buhler|Cytochrome P-450 Isozymes in Salmonids Determined with Antibodies to Purified Forms of P-450 from Rainbow Trout|Mar. Environ. Res.14(1-4): 13-21|1984|10.1016/0141-1136(84)90067-9
95084|A||Sadler,M.C., K.W. Renton, and R.F. Addison|Turnover of Hepatic Hemoproteins in Rainbow Trout|Mar. Environ. Res.17(2-4): 91-93|1985|10.1016/0141-1136(85)90047-9
95086|T||Denison,M.S., and C.F. Wilkinson|Identification of the Ah Receptor in Selected Mammalian Species and Induction of Aryl Hydrocarbon Hydroxylase|Eur. J. Biochem.147(2): 429-435|1985|10.1111/j.1432-1033.1985.tb08767.x
95087|T||Robinson,J.R., and D.W. Nebert|Genetic Expression of Aryl Hydrocarbon Hydroxylase Induction. Presence or Absence of Association with Zoxazolamine, Diphenylhydantoin, and Hexobarbital Metabolism|Mol. Pharmacol.10(3): 484-493|1974|
95088|T||Schlede,E., and H.J. Merker|Effect of Benzo(a)pyrene Treatment on the Benzo(a)pyrene Hydroxylase Activity in Maternal Liver, Placenta, and Fetus of the Rat During Day 13 to Day 18 of Gestation|Naunyn-Schmiedeberg's Arch. Pharmacol.272(1): 89-100|1972|10.1007/BF00498796
95089|T||McLean,A.E.M., and P.A. Day|The Use of new Methods to Measure:  The Effect of Diet and Inducers of Microsomal Enzyme Synthesis on Cytochrome P-450 in Liver Homogenates, and on Metabolism of Dimethyl Nitrosamine|Biochem. Pharmacol.23(7): 1173-1180|1974|10.1016/0006-2952(74)90291-3
95090|T||LaVoie,E.J., J. Braley, J.E. Rice, and A. Rivenson|Tumorigenic Activity of Non-Alternant Polynuclear Aromatic Hydrocarbons in Newborn Mice|Cancer Lett.34(1): 15-20|1987|10.1016/0304-3835(87)90068-1
95091|T||Danz,M., A. Hartmann, M. Otto, and H. Blaszyk|Hitherto Unknown Additive Growth Effects of Fluorene and 2-Acetylaminofluorene on Bile Duct Epithelium and Hepatocytes in Rats|Arch. Toxicol.14:71-75|1991|10.1007/978-3-642-74936-0_14
95092|T||Lupp,A., M. Tralls, U. Fuchs, N. Lucas, M. Danz, and W. Klinger|Transplantation of Fetal Liver Tissue Suspension into the Spleens of Adult Syngenic Rats: Effects of Various Mitogens and Cytotoxins on Cytochrome P450 (P450) Isoforms Expression and on P450 Mediated Monooxygenase Funct|Exp. Toxicol. Pathol.51(4/5): 375-388|1999|10.1016/S0940-2993(99)80025-6
95093|T||LaVoie,E.J., Z.W. Cai, C.L. Meschter, and E.H. Weyand|Tumorigenic Activity of Fluoranthene, 2-Methylfluoranthene and 3-Methylfluoranthene in Newborn CD-1 Mice|Carcinogenesis15(10): 2131-2135|1994|10.1093/carcin/15.10.2131
95094|T||Danz,M., A. Hartmann, and H. Blaszyk|Mitogenic Short-Term Effects on Hepatocytes and Adrenocortical Cells: Phenobarbital and Reserpine Compared to Carcinogenic and Non-Carcinogenic Fluorene Derivatives|Exp. Toxicol. Pathol.50(4-6): 416-424|1998|10.1016/S0940-2993(98)80028-6
95095|T||Dobrovolskaya,M.A., V.S. Spiegelman, and G.A. Belitsky|Newly Constructed Insecticide-Resistant D. Melanogaster Strains with Elevated Sensitivity to the Mutagenic Effect of Benzo(a)Pyrene and 2-Acethylaminofluorene|Eksp. Onkol.19(3): 185-190|1997|
95096|T||McPhillips,J.J.|Altered Sensitivity to Drugs Following Repeated Injections of a Cholinesterase Inhibitor to Rats|Toxicol. Appl. Pharmacol.14(1): 67-73|1969|10.1016/0041-008X(69)90165-3
95097|T||Costa,L.G., B.W. Schwab, H. Hand, and S.D. Murphy|Reduced [3H]Quinuclidinyl Benzilate Binding to Muscarinic Receptors in Disulfoton-Tolerant Mice|Toxicol. Appl. Pharmacol.60(3): 441-450|1981|10.1016/0041-008X(81)90329-X
95098|T||Costa,L.G., and S.D. Murphy|Passive Avoidance Retention in Mice Tolerant to the Organophosphorus Insecticide Disulfoton|Toxicol. Appl. Pharmacol.65(3): 451-458|1982|10.1016/0041-008X(82)90390-8
95099|T||McDonald,B.E., L.G. Costa, and S.D. Murphy|Spatial Memory Impairment and Central Muscarinic Receptor Loss Following Prolonged Treatment with Organophosphates|Toxicol. Lett.40(1): 47-56|1988|10.1016/0378-4274(88)90182-8
95100|A||Russo,J., L. Lefeuvre-Orfila, and L. Lagadic|Hemocyte-Specific Responses to the Peroxidizing Herbicide Fomesafen in the Pond Snail Lymnaea stagnalis (Gastropoda, Pulmonata)|Environ. Pollut.146(2): 420-427|2007|10.1016/j.envpol.2006.06.032
95101|T||Lynch,D.W., R.L. Schuler, R.D. Hood, and D.G. Davis|Evaluation of Drosophila for Screening Developmental Toxicants: Test Results with Eighteen Chemicals and Presentation of a New Drosophila Bioassay|Teratog. Carcinog. Mutagen.11(3): 147-173|1991|10.1002/tcm.1770110304
95102|T||Woodruff,R.C., J.M. Mason, R. Valencia, and S. Zimmering|Chemical Mutagenesis Testing in Drosophila. V. Results of 53 Coded Compounds Tested for the National Toxicology Program|Environ. Mutagen.7:677-702|1985|10.1002/em.2860070507
95103|T||Fisher,D.J., and A.L. Hayes|Effects of Some Fungicides Used Against Cereal Pathogens on the Growth of Rhizobium trifolii and Its Capacity to Fix Nitrogen in White Clover|Ann. Appl. Biol.98(1): 101-107|1981|10.1111/j.1744-7348.1981.tb00427.x
95105|A||Kitajima,F., C.G. Satuito, H. Hirota, I. Katsuyama, and N. Fusetani|A New Screening Method for Antifouling Substances Against the Young Mussels Mytilus edulis galloprovincialis|Fish. Sci.61(4): 578-583|1995|10.2331/fishsci.61.578
95106|T||Khan,W.A., P. Asokan, S.S. Park, H.V. Gelboin, D.R. Bickers, and H. Mukhtar|Use of Monoclonal Antibodies to Characterize the Induction Response of the Cytochrome P-450-Dependent Mixed Function Oxidase System to Nitrofluoranthenes|Carcinogenesis8(11): 1679-1684|1987|10.1093/carcin/8.11.1679
95107|T||Hany,J., H. Lilienthal, A. Roth-Harer, G. Ostendorp, B. Henzow, and G. Winneke|Behavioral Effects Following Single and Combined Maternal Exposure to PCB 77 (3,4,3',4'-Tetrachlorobiphenyl) and PCB 47 (2,4,2',4'- Tetrachlorobiphenyl) in Rats|Neurotoxicol. Teratol.21(2): 147-156|1999|10.1016/S0892-0362(98)00038-5
95108|A||Walter,H., F. Consolaro, P. Gramatica, M. Scholze, and R. Altenburger|Mixture Toxicity of Priority Pollutants at No Observed Effect Concentrations (NOECs)|Ecotoxicology11(5): 299-310|2002|10.1023/A:1020592802989
95109|T||Busby,W.F.,Jr., M.E. Goldman, P.M. Newberne, and G.N. Wogan|Tumorigenicity of Fluoranthene in a Newborn Mouse Lung Adenoma Bioassay|Carcinogenesis5(10): 1311-1316|1984|10.1093/carcin/5.10.1311
95110|T||Astrom,A., W. Birberg, A. Pilotti, and J.W. DePierre|Induction of Different Isozymes of Cytochrome P-450 and of Microsomal Epoxide Hydrolase in Rat Liver by 2-Acetylaminofluorene and Structurally Related Compounds|Eur. J. Biochem.154(1): 125-134|1986|10.1111/j.1432-1033.1986.tb09367.x
95111|T||Schoket,B., and I. Vincze|Induction of Rat Hepatic Drug Metabolizing Enzymes by Substituted Urea Herbicides|Acta Pharmacol. Toxicol.56(4): 283-288|1985|10.1111/j.1600-0773.1985.tb01291.x
95112|T||Morrison,V.M., A.K. Burnett, L.M. Forrester, C.R. Wolf, and J.A. Craft|The Contribution of Specific Cytochromes P-450 in the Metabolism of 7,12-Dimethylbenz(a)Anthracene in Rat and Human Liver Microsomal Membranes|Chem.-Biol. Interact.79(2): 179-196|1991|10.1016/0009-2797(91)90081-H
95113|T||Tsubura,A., H. Senzaki, N. Shikata, Y. Oishi, and S. Morii|Induction of Tumors in the Japanese House Musk Shrew, Suncus murinus (Insectivora), by Dimethylbenz(a)Anthracene|Carcinogenesis12(8): 1433-1436|1991|10.1093/carcin/12.8.1433
95114|T||Iversen,O.H.|Urethan (Ethyl Carbamate) is an Effective Promoter of 7,12-Dimethylbenz(a)Anthracene-Induced Carcinogenesis in Mouse Skin Two-Stage Experiments|Carcinogenesis12(5): 901-903|1991|10.1093/carcin/12.5.901
95115|A||Lowe,D.M., and R.K. Pipe|Contaminant Induced Lysosomal Membrane Damage in Marine Mussel Digestive Cells:  An In Vitro Study|Aquat. Toxicol.30(4): 357-365|1994|10.1016/0166-445X(94)00045-X
95116|T||Salamone,M.F., and D.M. Logan|Abnormal Sperm Test Results for Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene, and 4- Acetylaminofluorene Using Hybrid Mice. I. Intraperitoneal Treatment|In: Eval.Short-Term Tests Carcinol., Rep.Int.Prog.Chem.Safetys Collaborative Study In Vivo Assays(2): 235-242|1988|
95117|T||Piekoszewski,W., and J. Brandys|Effect of Phenobarbital and Chrysene on Theophylline Elimination Determined by Noncompartmental Analysis|Pol. J. Pharmacol. Pharm.39(2): 143-146|1987|
95119|T||Campbell,S., D. Paquin, J.D. Awaya, and Q.X. Li|Remediation of Benzo(a)pyrene and Chrysene-Contaminated Soil with Industrial Hemp (Cannabis Sativa)|Int. J. Phytoremediat.4(2): 157-168|2002|10.1080/15226510208500080
95120|T||You,L., D. Wang, A.J. Galati, J.A. Ross, M.J. Mass, G.B. Nelson, K.H. Wilson, S. Amin, J.C. Stoner, S. Nesnow, and G.D.|Tumor Multiplicity, DNA Adducts and K-Ras Mutation Pattern of 5-Methylchrysene in Strain A/J Mouse Lung|Carcinogenesis15(11): 2613-2618|1994|10.1093/carcin/15.11.2613
95121|T||Glatt,H., A. Seidel, F. Oesch, and A. Gumbsch|Fjord-Region Diol-Epoxides of benzo(c)chrysene are Potent Inducers of Micronuclei in Murine Bone Marrow|Mutat. Res., Fundam. Mol. Mech. Mutagen.309(1): 37-43|1994|10.1016/0027-5107(94)90040-X
95122|T||Pfau,W., A. Seidel, D.H. Phillips, F. Oesch, and P.L. Grover|32P-Postlabeling/HPLC Analysis of DNA Adducts Formed from Chrysene and Its Metabolites|Polycycl. Aromat. Compd.10(1-4): 219-226|1996|10.1080/10406639608034700
95125|T||Wang,C.Y., K. Imaida, K. Zukowski, and M.S. Lee|Lack of Carcinogenicity of 2-Aminofluorene, Its Glucuronide and the Glucuronide of N-Hydroxy-2-Acetylaminofluorene in Heterotopic Bladder of the Rat|Cancer Lett.56(2): 153-157|1991|10.1016/0304-3835(91)90090-5
95126|T||Moller,L., U.B. Torndal, L.C. Eriksson, and J.A. Gustafsson|The Air Pollutant 2-Nitrofluorene as Initiator and Promoter in a Liver Model for Chemical Carcinogenesis|Carcinogenesis10(3): 435-440|1989|10.1093/carcin/10.3.435
95127|T||Rana,B.D.|Comparative Repellency of Five Fungicide Toxicants to the House Sparrow (Passer domesticus indicus)|Pavo29(1/2): 55-59|1991|
95128|T||Moller,L., J. Rafter, and J.A. Gustafsson|Metabolism of the Carcinogenic Air Pollutant 2-Nitrofluorene in the Rat|Carcinogenesis8(5): 637-645|1987|10.1093/carcin/8.5.637
95129|T||Gawecki,J., M. Urbanowicz, M. Buchowski, and T. Borowicz|The Effect of Poisoning with Dithane M-45 on Oxygen Uptake and Energy Balance in Adult Rats|Acta Physiol. Pol.27(2): 169-174|1976|
95131|T||Hirai,Y., and N. Kuwabara|Transplacentally Induced Anorectal Malformations in Rats|J. Pediatr. Surg.25(7): 812-816|1990|10.1016/S0022-3468(05)80028-4
95132|T||Rahman,Y.E., E.A. Cerny, and C. Peraino|Studies on Rat Liver Ribonucleases :  IV. Liver Ribonucleases in Developing, 2-Acetylamino-fluorene Fed and Partially Hepatectomized Rats|Biochim. Biophys. Acta178(1): 68-73|1969|10.1016/0005-2744(69)90132-6
95133|T||Dikshith,T.S.S., M.K. Srivastava, R.B. Raizada, and S.N. Kumar|Interaction of Hexachlorocyclohexane and Malathion in Male Guinea Pigs After Repeated Dermal Application|Vet. Hum. Toxicol.29(2): 138-142|1987|
95134|T||Perocco,P., C. Franceschi, A.T. Di Marco, and G. Prodi|Synergistic Immunodepressive Effect of 7,12-Dimethylbenz(a)Anthracene and Urethan in the Rat (35420)|Proc. Soc. Exp. Biol. Med.136(4): 1024-1026|1971|10.3181/00379727-136-35420
95135|T||Gupta,R.C., N. Singh, B.S. Paul, and M.S. Kwatra|Role of Residual Estimation, and Clinico-Biochemical and Pathological Changes in the Diagnosis of Toxicity in Bubalus bubalis Caused by Malathion|Indian J. Anim. Sci.51(6): 616-622|1981|
95136|T||Olson,J.W.|Liver Tyrosine Kinase Activation During Early Stages of Chemical Hepatocarcinogenesis|J. Cell. Biochem.27(2): 175-180|1985|10.1002/jcb.240270211
95137|T||Francova,V., S. Smolik, M. Schlehrova, K. Raz, A. Selecka, Z. Franc, M. Fruhaufova-Auskova, K. Rezabek, I. Vancurova, a|Derivatives of Benzo(c)fluorene.  XVI. Absorption, Distribution and Elimination of 3H-Benflurone, 5-(2-(N,N-Dimethylamino)Ethoxy)-7-Oxo- 7H-Benzo(c)fluorene Hydrochloride in Rats After Oral and Intravenous Administratio|Neoplasma32(5): 529-536|1985|
95138|T||Christoffersen,T., and T. Berg|Altered Hormone Control of Cyclic AMP Formation in Isolated Parenchymal Liver Cells from Rats Treated with 2 Acetylaminofluorene|Biochim. Biophys. Acta381(1): 72-77|1975|10.1016/0304-4165(75)90190-7
95139|T||Berger,J.|Age-Associated Sensitivity to Experimental, Drug-Induced Marrow Hypoplasia in Laboratory Rats|Haematologia20(3): 171-178|1987|
95140|T||Widlak,P., W. Widlak, and J. Rzeszowska-Wolny|Partial Hepatectomy of Rats 3 Weeks Before or Simultaneously with 2-Aminofluorene Injection can Affect the Amounts of Adducts Induced in Hepatic DNA|Carcinogenesis14(11): 2427-2429|1993|10.1093/carcin/14.11.2427
95141|T||Evans,H.J., and S.M. Tonkinson|A Paradoxical Effect of Aeration on the Accumulation of Root-Tip Metaphase Cells by Spindle Inhibitors|Exp. Cell Res.17(2): 262-271|1959|10.1016/0014-4827(59)90218-6
95142|T||Liu,W.F.|A Symptomatological Assessment of Organophosphate-Induced Lethality in Mice:  Comparison of Atropine and Clonidine Protection|Toxicol. Lett.56(1-2): 19-32|1991|10.1016/0378-4274(91)90086-L
95143|T||Carrera,V., J. Barril, M. Mauricio, M. Pellin, and E. Vilanova|Local Application of Neuropathic Organophosphorus Compounds to Hen Sciatic Nerve: Inhibition of Neuropathy Target Esterase and Peripheral Neurological Impairments|Toxicol. Appl. Pharmacol.117(2): 218-225|1992|10.1016/0041-008X(92)90240-S
95144|T||Crofton,K.M., K.F. Dean, M.G. Menache, and R. Janssen|Trimethyltin Effects on Auditory Function and Cochlear Morphology|Toxicol. Appl. Pharmacol.105(1): 123-132|1990|10.1016/0041-008X(90)90364-Z
95147|T||Crofton,K.M., K.F. Dean, R.C. Hamrick, and W.K. Boyes|The Effects of 2,4-Dithiobiuret on Sensory and Motor Function|Fundam. Appl. Toxicol.16(8): 469-481|1991|10.1016/0272-0590(91)90087-K
95148|T||Moser,V.C.|Investigations of Amitraz Neurotoxicity in Rats:  IV. Assessment of Toxicity Syndrome Using a Functional Observational Battery|Fundam. Appl. Toxicol.17(1): 7-16|1991|10.1016/0272-0590(91)90234-U
95149|T||Rosenstein,L., and N. Chernoff|Spontaneous and Evoked EEG Changes in Perinatal Rats Following In Utero Exposure to Baygon:  A Preliminary Investigation|Bull. Environ. Contam. Toxicol.20(5): 624-632|1978|10.1007/BF01683575
95151|T||Olson,K.L., G.M. Boush, and F. Matsumura|Behavioral Effects of Perinatal Exposure of Chlordimeform in Rats|Bull. Environ. Contam. Toxicol.20(6): 760-768|1978|10.1007/BF01683597
95152|T||Hoffmann,P., S. Muller, and G. Zbinden|Decrease of Epinephrine-Induced Arrhythmia Threshold in Ethanol Exposed Rats|Arch. Toxicol.66(6): 430-434|1992|10.1007/BF02035134
95153|T||Goldstein,B.D.|Changes in Spinal Cord Reflexes Following Subchronic Exposure to Soman and Sarin|Toxicol. Lett.47(1): 1-8|1989|10.1016/0378-4274(89)90080-5
95154|T||Goldstein,B.D., and D.R. Fincher|Paradoxical Changes in Spinal Cord Reflexes Following the Acute Administration of Acrylamide|Toxicol. Lett.31(2): 93-99|1986|10.1016/0378-4274(86)90001-9
95156|T||De Rojas,T.C., and B.D. Goldstein|Primary Afferent Terminal Function Following Acrylamide:  Alterations in the Dorsal Root Potential and Reflex|Toxicol. Appl. Pharmacol.88(2): 175-182|1987|10.1016/0041-008X(87)90003-2
95157|T||Day,J.S., B.R. Loveys, and D. Aspinall|Manipulation of Flowering and Vegetative Growth of Brown Boronia (Boronia megastigma Nees.) and White Myrtle (Hypocalymma angustifolium endl.) Using Plant Growth Regulators|Sci. Hortic.56(4): 309-320|1994|10.1016/0304-4238(94)90049-3
95158|T||Kizer,D.E., J.A. Clouse, D.P. Ringer, O. Hanson-Painton, A.D. Vaz, R.B. Palakodety, and M.J. Griffin|Assessment of Rat Liver Microsomal Epoxide Hydrolase as a Marker of Hepatocarcinogenesis|Biochem. Pharmacol.34(10): 1795-1800|1985|10.1016/0006-2952(85)90651-3
95159|T||Ringer,D.P., K. Kampschmidt, R.L.,Jr. King, S. Jackson, and D.E. Kizer|Rapid Decrease in N-Hydroxy-2-Acetylaminofluorene Sulfotransferase Activity of Liver Cytosols from Rats Fed Carcinogen|Biochem. Pharmacol.32(2): 315-319|1983|10.1016/0006-2952(83)90561-0
95160|T||Yamazoe,Y., K. Ishii, N. Yamaguchi, T. Kamataki, and R. Kato|Reduction of N-Hydroxy-2-Acetylaminofluorene by Liver Microsomes|Biochem. Pharmacol.29(16): 2183-2188|1980|10.1016/0006-2952(80)90196-3
95161|T||Yang,H.Y.L., M.J. Namkung, and M.R. Juchau|Immunodetection, Immunoinhibition, Immunoquantitation and Biochemical Analyses of Cytochrome P-450IA1 in Tissues of the Rat Conceptus During the Progression of Organogenesis|Biochem. Pharmacol.38(22): 4027-4036|1989|10.1016/0006-2952(89)90683-7
95163|T||Gorelick,N.J., D.A. Hutchins, S.R. Tannenbaum, and G.N. Wogan|Formation of DNA and Hemoglobin Adducts of Fluoranthene After Single and Multiple Exposures|Carcinogenesis10(9): 1579-1587|1989|10.1093/carcin/10.9.1579
95164|T||Alldrick,A.J., and W.K. Lutz|Covalent Binding of (2-14C)2-Amino-3,8-Dimethylimidazo(4,5-f)-Quinoxaline (MeIQx) to Mouse DNA In Vivo|Carcinogenesis10(8): 1419-1423|1989|10.1093/carcin/10.8.1419
95165|T||Kitada,Y., T. Miyauchi, Y. Kanazawa, H. Nakamichi, and S. Satoh|Involvement of [alpha]- and [beta]1-Adrenergic Mechanisms in the Immobility-Reducing Action of Desipramine in the Forced Swimming Test|Neuropharmacology22(9): 1055-1060|1983|10.1016/0028-3908(83)90024-2
95166|T||Hiramatsu,N., T. Kishida, and M. Natake|Effect of Autoxidized Linoleic Acid on the Contents of Cytochrome P-450 and Cytochrome b5, and Drug-Metabolizing Enzyme Activities in Rat Liver|J. Nutr. Sci. Vitaminol.33(1): 37-48|1987|10.3177/jnsv.33.37
95167|T||Laitinen,M., M. Lang, and O. Hanninen|Changes in the Protein-Lipid Interaction in Rat Liver Microsomes After Pretreatment of the Rat with Barbiturates and Polycyclic Hydrocarbons|Int. J. Biochem.5(9-10): 747-751|1974|10.1016/0020-711X(74)90062-7
95168|A||Kure,L.K., and T.L. Forbes|Impact of Bioturbation by Arenicola marina on the Fate of Particle-Bound Fluoranthene|Mar. Ecol. Prog. Ser.156:157-166|1997|10.3354/meps156157
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95170|T||Viaje,A., J.Y.L. Lu, N.E. Hopkins, A.N. Nettikumara, J. DiGiovanni, W.L. Alworth, and T.J. Slaga|Inhibition of the Binding of 7,12-Dimethylbenz[a]anthracene and Benzo[a]pyrene to DNA in Mouse Skin Epidermis by 1-Ethynylpyrene|Carcinogenesis11(7): 1139-1143|1990|10.1093/carcin/11.7.1139
95171|T||Shehata,M.R.A., A.M. Tarabeih, and A.F. Samia|Gutting Rot and Die-Back of Geranium|Egypt. J. Phytopathol.9:23-27|1977|
95172|T||Reuveni,M., T. Zahavi, and Y. Cohen|Controlling Downy Mildew (Plasmopara viticola) in Field-Grown Grapevine with (Beta)-Aminobutyric Acid (BABA)|Phytoparasitica29(2): 125-133|2001|10.1007/BF02983956
95173|T||Peshney,N.L., N.N. Khune, and P.G. Moghe|In-Vitro Evaluation of Some Fungicides Against Puccinia arachidis Speg.|Trop. Grain Legume Bull.20:27-30|1980|
95174|T||Miles,A.K., S.L. Willingham, and A.W. Cooke|Field Evaluation of a Plant Activator, Captan, Chlorothalonil, Copper Hydroxide, Iprodione, Mancozeb and Strobilurins for the Control of Citrus Brown Spot of Mandarin|Aust. Plant Pathol.34(1): 63-71|2005|10.1071/AP04085
95175|T||Ingle,R.W., and J.G. Raut|Management of Seed-Borne Fungi in Pearl Millet (Pennisetum glaucum)|PKV Res. J.21(2): 172-174|1997|
95176|T||Denman,S., P.W. Crous, A. Sadie, and M.J. Wingfield|Evaluation of Fungicides for the Control of Botryosphaeria protearum on Protea magnifica in the Western Cape Province of South Africa|Aust. Plant Pathol.33(1): 97-102|2004|10.1071/AP03080
95177|T||Chinnaswamy,K.P., and M.C. Devaiah|Studies on the Control of Aspergillosis of the Silkworm Bombyx mori L.|Indian J. Seric.25(2): 69-73|1986|
95178|T||Hata,T.Y., A.H. Hara, and B.K.S. Hu|Insecticidal Trials Against Vanda Thrips on Orchids, Hawaii, 1994|Arthropod Manag. Tests21:381-|1996|10.1093/amt/21.1.381
95179|T||Dauterman,W.C., and A.R. Main|Relationship Between Acute Toxicity and In Vitro Inhibition and Hydrolysis of a Series of Carbalkoxy Homologs of Malathion|Toxicol. Appl. Pharmacol.9(2): 408-418|1966|10.1016/0041-008X(66)90137-2
95180|T||Cedars-Sinai Medical Center|Chenodeoxycholic Acid Animal Teratology and Reproductive Performance Studies - Rat, Hamster|Interim Report, 4/75-7/75, National Cooperative Gallstone Study, Cedars-Sinai Medical Center, Los Angeles, CA:98 p.|1975|
95184|T||Darias,V., L. Bravo, S.S. Abdallah, C.C. Sanchez Mateo, M.A. Exposito-Orta, J. Lissavetsky, and J. Manzanares|Synthesis and Preliminary Pharmacological Study of Thiophene Analogues of the Antipyretic and Analgesic Agent Ethenzamide|Arch. Pharm. (Weinh.)325(2): 83-87|1992|10.1002/ardp.19923250206
95185|T||Pandey,R., and V. Kumar|Effect of Short Term Fungicidal Programme on Non-Target Phylloplane Fungi of Soybean|Cryptogam. Mycol.9(4): 363-372|1988|
95186|T||Koelsch,M.C., J.C. Cole, and S.L. Von Broembsen|Effectiveness of Selected Fungicides in Controlling Foliar Diseases of Common Periwinkle (Vinca minor L.)|Hortscience30(3): 554-557|1995|10.21273/HORTSCI.30.3.554
95187|T||Mali,A.R., S.G. Rajput, and B.H. Mogal|Relative Efficacy of Insecticides Against Onion Thrips (Thrips tabaci, Lindemann)|Pesticides 19(10): 34-35|1985|
95188|T||Ajayi,F.O., and L.L. Fleckenstein|Intramuscular Toxicity and Absorbance of a Parenteral Formulation of Halofantrine-HCL|Clin. Res. Regul. Aff.11(3-4): 193-205|1994|10.3109/10601339409035942
95189|T||Kaplowitz,N., J. Kuhlekamp, and G. Clifton|Drug Induction of Hepatic Glutathione S-Transferases in Male and Female Rats|Biochem. J. (Lond.)146(2): 351-356|1975|10.1042/bj1460351
95190|T||Wattenberg,L.W., and W.D. Loub|Inhibition of Polycyclic Aromatic Hydrocarbon-Induced Neoplasia by Naturally Occurring Indoles|Cancer Res.38(5): 1410-1413|1978|
95191|T||Wattenberg,L.W.|Inhibition of Polycyclic Aromatic Hydrocarbon-Induced Neoplasia by Sodium Cyanate|Cancer Res.40(2): 232-234|1980|
95192|T||Marshall,M.V., J.O. Kuhn, C.F. Torrey, S.L. Fischman, and L.P. Cancro|Hamster Cheek Pouch Bioassay of Dentifrices Containing Hydrogen Peroxide and Baking Soda|J. Am. Coll. Toxicol.15(1): 45-61|1996|10.3109/10915819609008706
95193|T||Szarek,I., and K. Trebacz|The Role of Light-Induced Membrane Potential Changes in Guttation in Gametophytes of Asplenium trichomanes|Plant Cell Physiol.40(12): 1280-1286|1999|10.1093/oxfordjournals.pcp.a029516
95194|T||Shen,H., X.L. Yan, X.R. Wang, and S.L. Zheng|Exudation of Citrate in Common Bean in Response to Aluminum Stress|J. Plant Nutr.25(9): 1921-1932|2002|10.1081/PLN-120013284
95195|T||Holscher,C., and S.P.R. Rose|Inhibitors of Phospholipase A2 Produce Amnesia for a Passive Avoidance Task in the Chick|Behav. Neural Biol.61(3): 225-232|1994|10.1016/S0163-1047(05)80005-6
95196|T||Wilson,P.D., I.C. Summerhayes, G.M. Hodges, L.K. Trejdosiewicz, and W.J. Nathrath|Cytochemical Markers of Bladder Carcinogenesis|Histochem. J.13(6): 989-1007|1981|10.1007/BF01002639
95197|T||Surh,Y.J., J.C. Blomquist, A. Liem, and J.A. Miller|Metabolic Activation of 9-Hydroxymethyl-10-Methylanthracene and 1-Hydroxymethylpyrene to Electrophilic, Mutagenic and Tumorigenic Sulfuric Acid Esters by Rat Hepatic Sulfotransferase Activity|Carcinogenesis11(9): 1451-1460|1990|10.1093/carcin/11.9.1451
95198|A||James,M.O., and J.R. Bend|Effect of Polynuclear Aromatic Hydrocarbons and Polyhalogenated Biphenyls on Hepatic Mixed-Function Oxidase Activity in Marine Fish|U.S.EPA, EPA-600/9-82-013, Gulf Breeze,FL:172-190|1982|
95199|T||Zhao,W.Q., G.M. Polya, B.H. Wang, M.E. Gibbs, G.L. Sedman, and K.T. Ng|Inhibitors of cAMP-Dependent Protein Kinase Impair Long-Term Memory Formation in Day-Old Chicks|Neurobiol. Learn. Mem.64(2): 106-118|1995|10.1006/nlme.1995.1049
95200|T||Fujiki,H., M. Suganuma, H. Suguri, S. Yoshizawa, K. Takagi, N. Uda, K. Wakamatsu, K. Yamada, M. Murata, T. Yasumoto, an|Diarrhetic Shellfish Toxin, Dinophysistoxin-1, is a Potent Tumor Promoter on Mouse Skin|Jpn. J. Cancer Res.79(10): 1089-1093|1988|10.1111/j.1349-7006.1988.tb01531.x
95201|T||Boersma,D.C., L.J. Brownlee, and B.R. Hollebone|A Total Hepatic Induction Index of Metabolism for Lipophilic Xenobiotics|J. Appl. Toxicol.4(4): 187-193|1984|10.1002/jat.2550040406
95202|T||Kaplowitz,N., and G. Clifton|The Glutathione S-Transferases in Rat Liver and Kidney:  Drug Induction, Hormonal Influences, and Organic Anion-Binding|In: I.M.Arias and W.B.Jakoby (Eds.), Kroc Foundation Series.Glutathione: Metabolism and Function Workshop, June 2-3, 1975,Santa Ynez, CA, Raven Press, New York, NY6:301-308|1976|
95203|T||Balhorn,R., J.A. Mazrimas, and M. Corzett|Application of HPLC to the Isolation of Molecular Targets in Dosimetry Studies|Environ. Health Perspect.62:73-79|1985|10.1289/ehp.856273
95204|T||Goshman,L.M., and C. Heidelberger|Binding of Tritium-Labeled Polycyclic Hydrocarbons to DNA of Mouse Skin|Cancer Res.27:1678-1688|1967|
95205|T||Shen,H., X. Yan, K. Cai, and H. Matsumoto|Differential Al Resistance and Citrate Secretion in the Tap and Basal Roots of Common Bean Seedlings|Physiol. Plant. (Multiple Languages)121(4): 595-603|2004|10.1111/j.1399-3054.2004.00357.x
95206|T||Gomez-Serranillos,M.P., O.M. Palomino, E. Carretero, and A. Villar|Analytical Study and Analgesic Activity of Oripavine from Papaver somniferum L.|PTR. Phytother.Res.12(5): 346-349|1998|10.1002/(SICI)1099-1573(199808)12:5<346::AID-PTR307>3.0.CO;2-A
95208|T||Fujita,S., M. Suzuki, J. Peisach, and T. Suzuki|Induction of Hepatic Microsomal Drug Metabolism by AZO Compounds:  A Structure-Activity Relationship|Chem.-Biol. Interact.52(1): 15-37|1984|10.1016/0009-2797(84)90080-2
95209|T||Perchellet,J.P., and R.K. Boutwell|Comparison of the Effects of 3-Isobutyl-1-Methylxanthine and Adenosine Cyclic 3':5'-Monophosphate on the Induction of Skin Tumors by the Initiation-Promotion Protocol and by the Complete Carcinogenesis Process|Carcinogenesis3(1): 53-60|1982|10.1093/carcin/3.1.53
95210|T||Felton,J.S., and R.L. Dobson|The Mouse Oocyte Toxicity Assay|Technical Report, UCRL-86654, Lawrence Livermore National Lab., CA:14 p.|1982|
95212|T||Ruben,R.L.|Early Skin Responses of Hibernating and Nonhibernating Ground Squirrels to Topical Applications of DMBA|Experientia38(5): 612-614|1982|10.1007/BF02327079
95213|T||Mattison,D.R., and M.S. Nightingale|Oocyte Destruction by Polycyclic Aromatic Hydrocarbons is not Linked to the Inducibility of Ovarian Aryl Hydrocarbon (Benzo(a)pyrene) Hydroxylase Activity In (DBA/2N X C57BL/6N) F1 X DBA/2N Backcross Mice|Pediatr. Pharmacol.2(1): 11-21|1982|
95214|T||Vogel,E.W., J.A. Zijlstra, and W.G.H. Blijleven|Mutagenic Activity of Selected Aromatic Amines and Polycyclic Hydrocarbons in Drosophila melanogaster|Mutat. Res.107(1): 53-77|1983|10.1016/0027-5107(83)90078-7
95215|T||Skisak,C.|The Role of Chronic Acanthosis and Subacute Inflammation in Tumor Promotion in CD-1 Mice by Petroleum Middle Distillates|Toxicol. Appl. Pharmacol.109(3): 399-411|1991|10.1016/0041-008X(91)90003-W
95216|T||Modica,R., M. Fiume, A. Guaitani, and I. Bartosek|Comparative Kinetics of Benz(a)anthracene, Chrysene and Triphenylene in Rats After Oral Administration.  I. Study with Single Compounds|Toxicol. Lett.18(1-2): 103-109|1983|10.1016/0378-4274(83)90078-4
95217|T||Cresteil,T., and P. Lesca|Enhancement of DNA Binding, Mutagenicity and Carcinogenicity of Polycyclic Aromatic Hydrocarbons After Induction of Cytochrome P-450 by Ellipticines in Rats and Mice|Chem.-Biol. Interact.47(2): 145-156|1983|10.1016/0009-2797(83)90154-0
95225|T||Beebe,L.E., and L.M. Anderson|Tumor-Promotive and Biochemical Effects of Single-Dose Polychlorinated Biphenyls and Dioxin in Mice|Organohalog. Compd.4:69-72|1990|
95226|T||Seegal,R.F.|Neurochemical Effects of PCBs are Structure and Recipient Age-Dependent|Organohalog. Compd.25:425-430|1995|
95227|T||Connor,K., and S. Safe|Development and Validation of Toxic Equivalency Factors (TEFs) for PCBs in Female Sprague-Dawley Rats|Organohalog. Compd.25:323-326|1995|
95228|T||Connor,K., N. Harper, and S. Safe|Toxic Equivalency Factors for Mono- and Diortho-Substituted PCB Congeners in B6C3F1 Mice|Organohalog. Compd.25:319-322|1995|
95229|T||Lorenzen,A., and S.W. Kennedy|Sensitivities of Chicken and Pheasant Embryos and Cultured Embryonic Hepatocytes to Cytochrome P4501A Induction and Porphyrin Accumulation by TCDD, TCDF, and PCBs|Organohalog. Compd.25:65-68|1995|
95230|T||Van Birgelen,A.P.J.M., M.J. DeVito, D.G. Ross, V.M. Richardson, and L.S. Birnbaum|Relative Potencies Derived from Hepatic Porphyrin Accumulation Following Subchronic Exposure to Polychlorinated Dibenzo-p-Dioxins, Dibenzofurans, or Biphenyls in Female B6C3F1 Mice|Organohalog. Compd.25:1-6|1995|
95231|T||Hemming,H., Y. Bager, S. Flodstrom, L. Warngard, and U.G. Ahlborg|Tumour Promoting Activity of Different Polychlorinated Biphenyls and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Organohalog. Compd.14:77-80|1993|
95232|T||Whysner,J., F. Montandon, R.M. McClain, J. Downing, L.K. Verna, R.E. Steward III, and G.M. Williams|Absence of DNA Adduct Formation by Phenobarbital, Polychlorinated Biphenyls, and Chlordane in Mouse Liver Using the 32P-Postlabeling Assay|Toxicol. Appl. Pharmacol.148(1): 14-23|1998|10.1006/taap.1997.8311
95233|T||Marczylo,T., and C. Ioannides|Induction of the Rat Hepatic Cytosolic Arylamine Oxidase by a Series of Polychlorinated Biphenyls:  Association with the Ah Locus|Toxicol. Lett.92(2): 81-91|1997|10.1016/S0378-4274(97)00042-8
95234|T||Schiestl,R.H., J. Aubrecht, W.Y. Yap, S. Kandikonda, and S. Sidhom|Polychlorinated Biphenyls and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induce Intrachromosomal Recombination In Vitro and In Vivo|Cancer Res.57(19): 4378-4383|1997|
95235|T||Younger Laboratories Inc.|Initial Submission:  Toxicological Investigation of: MCS 1572 with Cover Letter Dated 081392|EPA/OTS Doc.#88-920008114:10 p.|1992|
95236|T||Field,J.A., E. De Jong, G.F. Costa, and J.A.M. De Bont|Biodegradation of Polycyclic Aromatic Hydrocarbons by New Isolates of White Rot Fungi|Appl. Environ. Microbiol.58(7): 2219-2226|1992|10.1128/aem.58.7.2219-2226.1992
95237|T||Hood,A., R. Hashmi, and C.D. Klaassen|Effects of Microsomal Enzyme Inducers on Thyroid-Follicular Cell Proliferation, Hyperplasia, and Hypertrophy|Toxicol. Appl. Pharmacol.160(2): 163-170|1999|10.1006/taap.1999.8752
95238|T||Nakanishi,Y., Y. Nomoto, A. Matsuki, R. Kunitake, and N. Hara|Effect of Polychlorinated Biphenyls and Polychlorinated Dibenzofurans on Leukocyte in Peripheral Blood and Bronchoalveolar Lavage Fluid|Fukuoka-Igaku-Zasshi (Multiple Languages)86(5): 261-266|1995|
95239|T||Madra,S., J. Styles, and A.G. Smith|Perturbation of Hepatocyte Nuclear Populations Induced by Iron and Polychlorinated Biphenyls in C57BL/10ScSn Mice During Carcinogenesis|Carcinogenesis16(4): 719-727|1995|10.1093/carcin/16.4.719
95240|T||Koster,A.S., G. Schirmer, and K.W. Bock|Immunochemical and Functional Characterization of UDP-Glucuronosyltransferases from Rat Liver, Intestine and Kidney|Biochem. Pharmacol.35(22): 3971-3975|1986|10.1016/0006-2952(86)90013-4
95241|T||Halouzka,R., V. Jurajda, and E. Minksova|Effects of Polychlorinated Biphenyls on Humoral Immunity and Blood Serum Vitamin A and E Concentration of Chicks|Acta Vet. Brno63(3-4): 141-144|1994|10.2754/avb199463030141
95242|T||Halouzka,R., V. Jurajda, and M. Vavrova|Experimental Chronic Intoxication of Chickens with Polychlorinated Biphenyls (Delor 103)|Acta Vet. Brno62(3-4): 151-157|1993|10.2754/avb199362030151
95243|T||Dhami,M.S.I., M. Menon, R. Aliling, M. Afzal, C.J. DiFonzo, B. Ali, and G. Feuer|Effect of Environmental Pollutants on Hepatocellular Function in Rats:  3-Methylcholanthrene and Aroclor-1254|Drug Metab. Drug Interact.11(4): 283-299|1994|10.1515/DMDI.1994.11.4.283
95244|T||Berberian,I., L.C. Chen, F.R. Robinson, H.P. Glauert, C.K. Chow, and L.W. Robertson|Effect of Dietary Retinyl Palmitate on the Promotion of Altered Hepatic Foci by 3,4',4,4'-Tetrachlorobiphenyl and 2,2',4,4',5,5'- Hexachlorobiphenyl in Rats Initiated with Diethylnitrosamine|Carcinogenesis16(2): 393-398|1995|10.1093/carcin/16.2.393
95245|A||Bohacenko,I., and Z. Kopicova|Influence of Polychlorinated Biphenyls on the Content and Composition of Fatty Acids in Fish Fat|Czech J. Food Sci.15(3): 173-186|1997|
95246|T||Jacob,J., H. Brune, G. Gettbarn, D. Grimmer, U. Heinrich, E. Mohtashamipur, K. Norpoth, F. Pott, and R. Wenzel-Hartung|Urinary and Faecal Excretion of Pyrene and Hydroxypyrene by Rats After Oral, Intraperitoneal, Intratracheal or Intrapulmonary Application|Cancer Lett.46(1): 15-20|1989|10.1016/0304-3835(89)90209-7
95247|A||Grote,M., W. Brack, and R. Altenburger|Identification of Toxicants from Marine Sediment Using Effect-Directed Analysis|Environ. Toxicol.20(5): 475-486|2005|10.1002/tox.20135
95248|T||Donovan,P.J., G.T. Smith, and R. Nardone|The Mutagenic Effects of 7,12-Dimethylbenz[a]anthacene, 3-Methylcholanthrene and Benzo[a]pyrene to the Developing Syrian Hamster Fetus Measured by an In Vivo/In Vitro Mutation Assay|Mutat. Res.554(1-2): 111-120|2004|10.1016/j.mrfmmm.2004.04.003
95249|T||Blanton,R.H., M. Lyte, M.J. Myers, and P.H. Bick|Immunomodulation by Polyaromatic Hydrocarbons in Mice and Murine Cells|Cancer Res.46(6): 2735-2739|1986|
95250|T||Arif,J.M., W.A. Smith, and R.C. Gupta|Tissue Distribution of DNA Adducts in Rats Treated by Intramammillary Injection with Dibenzo[a,l]Pyrene, 7,12-Dimethylbenz[a]Anthracene and Benzo[a]pyrene|Mutat. Res.378(1-2): 31-39|1997|10.1016/S0027-5107(97)00095-X
95251|T||Kawabata,T.T., and K.L.,Jr. White|Benzo(a)pyrene Metabolism by Murine Spleen Microsomes|Cancer Res.49(21): 5816-5822|1989|
95252|T||Gregus,Z., F. Varga, and A. Schmelas|Age-Development and Inducibility of Hepatic Glutathione S-Transferase Activities in Mice, Rats, Rabbits and Guinea-Pigs|Comp. Biochem. Physiol. C Comp. Pharmacol.80(1): 85-90|1985|10.1016/0742-8413(85)90135-5
95253|T||Chaturvedi,A.K.|Biochemical and Toxicological Studies on the Mixtures of Three Commonly-Used Herbicides in Mice|Arch. Environ. Contam. Toxicol.24(4): 449-454|1993|10.1007/BF01146160
95255|T||Mattison,D.R., and M.R. Nightingale|The Biochemical and Genetic Characteristics of Murine Ovarian Aryl Hydrocarbon (Benzo(a)pyrene) Hydroxylase Activity and Its Relationship to Primordial Oocyte Destruction by Polycyclic Aromatic Hydrocarbons|Toxicol. Appl. Pharmacol.56(3): 399-408|1980|10.1016/0041-008X(80)90074-5
95257|T||Rojas,M., and K. Alexandrov|In Vivo Formation and Persistence of DNA Adducts in Mouse and Rat Skin Exposed to ( Plus or Minus )-Trans-7,8-Dihydroxy-7,8- Dihydrobenzo(a)pyrene and ( Plus or Minus )-7 beta ,8 alpha -Dihydroxy-9 alpha ,10 alpha -Epox|Carcinogenesis7(9): 1553-1560|1986|10.1093/carcin/7.9.1553
95258|T||Murray,M., and C.F. Wilkinson|Interactions of Nitrogen Heterocycles with Cytochrome P-450 and Monooxygenase Activity|Chem.-Biol. Interact.50(3): 267-275|1984|10.1016/0009-2797(84)90036-X
95259|T||Clifton,G., N. Kaplowitz, J.D. Wallin, and J. Kuhlenkamp|Drug Induction and Sex Differences of Renal Glutathione S-Transferases in the Rat|Biochem. J. (Lond.)150(2): 259-262|1975|10.1042/bj1500259
95260|T||Sasaki,Y.F., E. Nishidate, F. Izumiyama, N. Matsusaka, and S. Tsuda|Simple Detection of Chemical Mutagens by the Alkaline Single-Cell Gel Electrophoresis (Comet) Assay in Multiple Mouse Organs (Liver, Lung, Spleen, Kidney, and Bone Marrow)|Mutat. Res.391(3): 215-231|1997|10.1016/S1383-5718(97)00073-9
95261|T||Ryan,D.E., S. Iida, A.W. Wood, P.E. Thomas, C.S. Lieber, and W. Levin|Characterization of Three Highly Purified Cytochromes P-450 from Hepatic Microsomes of Adult Male Rats|J. Biol. Chem.259(2): 1239-1250|1984|10.1016/S0021-9258(17)43594-0
95262|T||Rompelberg,C.J.M., M.J.S.T. Steenwinkel, J.G. Van Asten, J.H.M. Van Delft, R.A. Baan, and H. Verhagen|Effect of Eugenol on the Mutagenicity of Benzo(a)pyrene and the Formation of Benzo(a)pyrene-DNA Adducts in the Lambda-lacZ-Transgenic Mouse|Mutat. Res.369(1-2): 87-96|1996|10.1016/S0165-1218(96)90052-X
95265|T||Grafstrom,R., P. Moldeus, B. Andersson, and S. Orrenius|Xenobiotic Metabolism by Isolated Rat Small Intestinal Cells|Igaku to seibutsugaku (Multiple Languages)57(5): 287-293|1979|
95266|T||Kusunose,E., K. Ogita, K. Ichihara, and M. Kusunose|Effect of Cytochrome b5 on Fatty Acid omega- and (omega-1)-Hydroxylation Catalyzed by Partially Purified Cytochrome P-450 from Rabbit Kidney Cortex Microsomes|J. Biochem. (Tokyo)90(4): 1069-1076|1981|10.1093/oxfordjournals.jbchem.a133558
95267|T||Schreck,R.R., I.J. Paika, and S.A. Latt|Differences in Murine Procarcinogen Activation Enzymes are not Accompanied by Parallel Differences in Procarcinogen-Induced Sister- Chromatid Exchange|Mutat. Res.94(1): 143-153|1982|10.1016/0027-5107(82)90177-4
95268|T||Adler,I.D., and I. Ingwersen|Evaluation of Chromosomal Aberrations in Bone Marrow of 1C3F1 Mice|Mutat. Res.224(3): 343-345|1989|10.1016/0165-1218(89)90176-6
95269|T||Krevsky,B., and M. Hitchcock|Alteration of In Vivo Zoxazolamine Metabolism by Carbon Monoxide in Normal and Polycyclic Hydrocarbon-Treated Immature Male Rats|Drug Metab. Dispos.5(5): 451-453|1977|
95271|T||Linder,M.W., and R.A. Prough|Developmental Aspects of Glucocorticoid Regulation of Polycyclic Aromatic Hydrocarbon-Inducible Enzymes in Rat Liver|Arch. Biochem. Biophys.302(1): 92-102|1993|10.1006/abbi.1993.1185
95272|T||Hecht,S.S., M. Loy, R.R. Maronpot, and D. Hoffmann|A Study of Chemical Carcinogenesis:  Comparative Carcinogenicity of 5-Methylchrysene, Benzo(a)pyrene, and Modified Chrysenes|Cancer Lett.1:147-153|1975|10.1016/S0304-3835(75)96166-2
95273|T||Phillips,D.H., A. Hewer, and P.L. Grover|Formation of DNA Adducts in Mouse Skin Treated with Metabolites of Chrysene|Cancer Lett.35(2): 207-214|1987|10.1016/0304-3835(87)90046-2
95274|T||Harris,M., C. Kamps, and S. Safe|Role of the 4-5S Binding Protein in the Induction of Aryl Hydrocarbon Hydroxylase in the Rat|Carcinogenesis9(8): 1475-1479|1988|10.1093/carcin/9.8.1475
95275|T||Smith,B.J., D.R. Plowchalk, I.G. Sipes, and D.R. Mattison|Comparison of Random and Serial Sections in Assessment of Ovarian Toxicity|Reprod. Toxicol.5(4): 379-383|1991|10.1016/0890-6238(91)90097-Y
95276|T||Keefe,R.T., P.M. Newberne, and T. Myers|Serum Alkaline Phosphatase and Microsomal Enzymes in the Beagle Dog|Food Cosmet. Toxicol.15(2): 135-137|1977|10.1016/S0015-6264(77)80319-2
95277|T||Savela,K., L. King, J. Gallagher, and J. Lewtas|32P-Postlabeling and HPLC Separation of DNA Adducts Formed by Diesel Exhaust Extracts In Vitro and in Mouse Skin and Lung After Topical Treatment|Carcinogenesis16(9): 2083-2089|1995|10.1093/carcin/16.9.2083
95278|A||Dow Chem.Co.|Init Sub: Static Acute Toxicity Tests with Freshwater Organisms Exposed to Biphenyl, 2-, 3-, and 4-Monochlorobiphenyl and 2,2',4,4'-Tetrachlorobiphenyl (Final) W-Letter (Sanitized)|EPA/OTS Doc.#88-920001708S:38 p.|1992|
95279|A||Chevron Chem.Corp.|Biphenyl:  Oyster Shell Deposition Test (Final Report) with Cover Letter Dated 120988|Chevron Chemical Corp., The Woodlands, TX:31 p.|2000|
95280|A||Dow Chem.Co.|Biphenyl:  Flow-Through Chronic Toxicity Test with Daphnia magna Straus (Final Report) with Cover Letter Dated 021088|Dow Chemical Co., Midland, MI:26 p.|2000|
95281|T||Anderson,C., A. Hehr, R. Robbins, R. Hasan, M. Athar, H. Mukhtar, and C.A. Elmets|Metabolic Requirements for Induction of Contact Hypersensitivity to Immunotoxic Polyaromatic Hydrocarbons|J. Immunol.155(7): 3530-3537|1995|10.4049/jimmunol.155.7.3530
95282|T||Nikonova,T.V.|Transplacental Action of Benzo(a)pyrene and Pyrene|Bull. Exp. Biol. Med. Ussr84:1025-1027|1977|
95283|T||Neubert,D., and S. Tapken|Prenatal Induction of Benzo(a)pyrene Hydroxylases in Mice|Arch. Toxicol.62(2/3): 192-199|1988|10.1007/BF00570139
95284|T||El-Bayoumy,K., S.S. Hecht, and D. Hoffmann|Comparative Tumor Initiating Activity on Mouse Skin of 6-Nitrobenzo[a]pyrene, 6-Nitrochrysene, 3-Nitroperylene, 1-Nitropyrene and Their Parent Hydrocarbons|Cancer Lett.16(3): 333-337|1982|10.1016/0304-3835(82)90015-5
95285|T||Fuchs,S.Y., R.D. Safaev, E.M. Khovanova, H.G. Ugnivenko, V.S. Spiegelman, T.A. Lytcheva, I.A. Khitrovo, and G.A. Belits|A Drosophila simulans Mutant Strain Sensitive to Benzo(a)pyrene and 2-Acetylaminofluorene|Mutat. Res.268(1): 155-163|1992|10.1016/0027-5107(92)90092-G
95286|A||Barata,C., A. Calbet, E. Saiz, L. Ortiz, and J.M. Bayona|Predicting Single and Mixture Toxicity of Petrogenic Polycyclic Aromatic Hydrocarbons to the Copepod Oithona davisae|Environ. Toxicol. Chem.24(11): 2992-2999|2005|10.1897/05-189R.1
95287|T||Dorough,H.W., N.M. Randolph, and G.H. Wimbish|Residual Nature of Certain Organophosphorus Insecticides in Grain Sorghum and Coastal Bermudagrass|Bull. Environ. Contam. Toxicol.1(2): 46-58|1966|10.1007/BF01683665
95289|T||Roslycky,E.B.|Response of Soil Microbiota to Selected Herbicide Treatments|Can. J. Microbiol.23(4): 426-433|1977|10.1139/m77-063
95291|T||Varsik,P., D. Buranova, M. Kondas, P. Kucera, Z. Goldenberg, and V. Pokorna|Chronic Toxic Neuropathy After Organophosphorus Poisoning in Quails (Coturnix coturnix japponica)|Bratisl. Lek. Listy106(10): 293-296|2005|
95292|T||Velisek,L., L. Roztocilova, R. Kusa, and P. Mares|Excitatory Amino Acid Antagonists and Pentylenetetrazole-Induced Seizures During Ontogenesis: III. The Action of Kynurenic Acid and Glutamic Acid Diethylester|Brain Res. Bull.38(6): 525-529|1995|10.1016/0361-9230(95)02019-3
95293|A||Galli,R., C.D. Munz, and R. Scholtz|Evaluation and Application of Aquatic Toxicity Tests: Use of the Microtox Test for the Prediction of Toxicity Based upon Concentrations of Contaminants in Soil|Hydrobiologia (Multiple Languages)273(3): 179-189|1994|10.1007/BF00005641
95295|T||Maggi,C.A., A. Meli, and P. Santicioli|Four Motor Effects of Capsaicin on Guinea-Pig Distal Colon|Br. J. Pharmacol.90(4): 651-660|1987|10.1111/j.1476-5381.1987.tb11217.x
95296|T||Bouldin,T.W., and J.B. Cavanagh|Organophosphorus Neuropathy. I. A. Teased-Fiber Study of the Spatio-Temporal Spread of Axonal Degeneration|Am. J. Pathol.94(2): 241-252|1979|
95297|T||Hazelwood,J.C., G.E. Stefan, and J.M. Bowen|Motor Unit Irritability in Beagles Before and After Exposure to Cholinesterase Inhibitors|Am. J. Vet. Res.40(6): 852-856|1979|
95300|T||Sharma,A.K.|Integrated Management of Buck-Eye Rot of Summer Tomatoes in the Hills|Indian J. Mycol. Plant Pathol.22(3): 287-288|1992|
95302|A||EPA/OTS|Acute Toxicity of Biphenyl to Daphnia magna|EPA/OTS Doc.#40-7859048:16 p.|1982|
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95402|T||Randhawa,K.S., K.S. Sandhu, and V.P.S. Chahal|Effect of Different Herbicides on Rhizesphere Soil Bacteria, Actinomycetes and Fungi in Chemical Weed Control Studies in Onion (Allium cepa L.)|Pesticides 13(12): 25-28|1979|
95403|A||Bakthavathsalam,R., and Y.S. Reddy|Lipid Kinetics in Relation to the Toxicity of Three Pesticides in the Climbing Perch, Anabas testudineus (Bloch)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.47(5): 670-676|1981|
95404|T||Singh,K.J., R.C. Thakur, and O.P. Singh|Toxicity of Insecticides on Eggs, Nymphs and Adults of Tur-Pod Bug (Clavigralla gibbosa) and Its Ovipositional Behaviour on Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.58(8): 621-623|1988|
95405|A||Bakthavathsalam,R.|Protein Metabolism During Disyston Exposure in Anabas testudineus (Bloch)|Pollut. Res.6(1): 1-4|1987|
95406|T||Sircar,P., V.S. Srivastava, D.S. Singh, and S. Dhingra|Effect of Formulation of Insecticidal Granules on Seed Viability|Indian J. Entomol.42(1): 34-43|1980|
95407|T||Caudle,R.M., and L. Isaac|Influence of Dynorphin (1-13) on Spinal Reflexes in the Rat|J. Pharmacol. Exp. Ther.246(2): 508-513|1988|
95408|T||Matsuzawa,T., and M. Suzuki|The Effects of Kanamycin and Other Ototoxic Agents on the Audiometry of Different Rat Strains|Anim. Technol.36(2): 151-160|1985|
95409|T||Sandler,A.D., J.F. Schlegel, M.R. Karin, and J.W. Maher|Mechanisms of Sensory Responses to a Noxious Chemical Stimulus (Capsaicin) of the Canine Distal Esophagus|In: 44th Annu.Sessions of the Forum on Fundamental Surgical Problems, 1988 Clin.Congr., Oct.23-28, 1988, Chicago, IL, Surg.Forum39:119-121|1988|
95410|T||Santos,J.B., A. Jakelaitis, A.A. Silva, M.D. Costa, A. Manabe, and M.C.S. Silva|Action of Two Herbicides on the Microbial Activity of Soil Cultivated with Common Bean (Phaseolus vulgaris) in Conventional-Till and No-Till Systems|Weed Res. (Multiple Languages)46(4): 284-289|2006|10.1111/j.1365-3180.2006.00510.x
95411|T||Ramisz,A., Z. Szankowska, and R. Spaldonowa|A Histochemical Study of the Effect of Phosphoro-Organic Esters on the Cholinesterase Activity in the Course of Experimental Trichinellosis in Mice.  I.  The Effect of Maretin, Neguvon and Eustidil on the Muscle Phase o|Acta Parasitol.19(37): 407-416|1971|
95412|A||Falk,H.F., R.D. Negele, and R. Goerlich|Phagocytosis Activity as an In Vitro Test for the Effects of Chronic Exposure of Rainbow Trout to Linuron, a Herbicide|J. Appl. Ichthyol.6(4): 231-236|1990|10.1111/j.1439-0426.1990.tb00583.x
95413|T||Bakalivanov,D.|Biological Activity of Certain Herbicides on Microscopic Soil Fungi|Symp. Biol. Hung.11:373-377|1972|
95414|T||Sivasubramaniam,W., and S.D. Wratten|Effects of Insecticides on the Abundance of Arthropod Predators in Carrots in Canterbury, New Zealand|Proc. N. Z. Plant Prot. Conf.:302-307|1995|10.30843/nzpp.1995.48.11518
95416|T||Bull,D.L.|Metabolism of Di-Syston by Insects, Isolated Cotton Leaves, and Rats|J. Econ. Entomol.58(2): 249-254|1965|10.1093/jee/58.2.249
95417|T||Kandaswamy,D., R. Bhaskaran, G. Oblisami, and T.R. Subramaniam|Changes in the Rhizosphere Microflora of Bhendi as Influenced by Application of Disyston|Madras Agric. J.61(10-12): 1017-1019|1974|
95418|T||Uga,S., S. Ishikawa, and K. Mukuno|Histopathological Study of Canine Optic Nerve and Retina Treated by Organophosphate Pesticide|Investig.Ophthalmol.Vis.Sci.16(9): 877-881|1977|
95419|T||White,D.H., and J.T. Seginak|Brain Cholinesterase Inhibition in Songbirds from Pecan Groves Sprayed with Phosalone and Disulfoton|J. Wildl. Dis.26(1): 103-106|1990|10.7589/0090-3558-26.1.103
95420|T||Gopal,P.K., A. Chopra, and S.P. Ahuja|Effect of Fenitrothion and Disulfoton on Lipid Metabolism in Tissues of White Leghorn Chicks (Gallus domesticus)|J. Nucl. Agric. Biol.19(3): 199-204|1990|
95421|T||Tiwari,H.K., V.K. Sharma, and R.S. Sidhu|Effect of Insecticides on Microbial Flora of Groundnut Field Soil|Indian J. Microbiol.17(4): 208-210|1977|
95422|T||Tjosvold,S.A., and S.T. Koike|Evaluation of Reduced Risk and Other Biorational Fungicides on the Control of Powdery Mildew on Greenhouse Roses|Acta Hortic.547:59-67|2001|10.17660/ActaHortic.2001.547.7
95423|T||Werbrouck,S.P.O., Jumli, K. De Roeck, T.G.R. Eeckhaut, and P.C. Debergh|Screening Hormonal Effects of Fungicides with a Ficus benjamina L. Chimera|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(3b): 1103-1107|1997|
95424|T||Reuven,M., Y. Szmulewich, I. Kolesnik, A. Gamliel, V. Zilberg, M. Mor, Y. Cahlon, and Y. Ben-Yephet|Methyl Bromide Alternatives for Controlling Fusarium Wilt and Root Knot Nematodes in Carnations|Acta Hortic.698:99-104|2005|10.17660/ActaHortic.2005.698.12
95425|A||Begum,A., and J. Begum|Relative Toxicity of Some Insecticides to the Fourth Instar Larvae of Aedes aegypti (L.) (Diptera, Culicidae)|Dhaka Univ. Stud. Part B Sci. 21:1-7|1973|
95427|T||Morato,G.S., and E.F. Morato|Differential Effects of Ethanol in Mouse Lines Genetically Selected for high and Low Antibody Production|Brain Behav. Immun.7(3): 224-230|1993|10.1006/brbi.1993.1023
95428|T||Misra,S.S., and H.O. Agrawal|Phorate and Disulfoton Residues in Potatoes Grown in North-Western Plains of India|Trop. Agric.66(4): 317-320|1989|
95429|T||Stavinoha,W.B., J.A.,Jr. Rieger, L.C. Ryan, and P.W. Smith|Effects of Chronic Poisoning by an Organophosphorus Cholinesterase Inhibitor on Acetylcholine and Norepinephrine Content of the Brain|Adv. Chem. Ser.60:79-88|1966|10.1021/ba-1966-0060.ch006
95430|T||Bagga,H.S.|A Simple Technique for Evaluating Systemic Fungicides and Insecticides for Control of Cotton Boll Rot|Plant Dis. Rep.52(11): 835-837|1968|
95431|T||Scrimshaw,J.|Possible Future Herbicide Options in Green Beans, Phaseolus vulgaris|In: BCPC International Congress: Crop Science and Technology. Glasgow, Scotland, UK2:933-938|2003|
95432|T||Krijt,J., P. Maruna, P. Petrovicky, and V. Janousek|The Effect of Protoporphyrinogen Oxidase Inhibitors on Microsomal and Mitochondrial Cytochromes|Obesity Res.3(suppl. 5): 785S - 788S|1995|
95433|T||Singh,J., S.S. Sajjan, and G.S. Dhaliwal|Studies on the Chemical Control of Rice Root Weevil Echinocnemus oryzae Marshall in the Punjab|Pesticides 17(11): 40-42|1983|
95434|T||Bakalivanov,D., and S. Hlebarova|Relationship Between Soil Microflora and Afalon and Patoran Herbicides Under Fertilizer Application|Acta. Phytopathol. Acad. Sci. Hung.12(1/2): 101-108|1977|
95435|T||Baruah,K., B.B. Sharma, E. Khan, and H.S. Gaur|Relation Between Weed Density and Nematode Populations in Citrus Nursery|Indian J. Nematol.18(1): 150-152|1988|
95436|T||Niklasson,M., K. Stengard, and R. Tham|Are the Effects of Toluene on the Vestibulo and Opto-Ocular Motor System Inhibited by the Action of GABAB Antagonist CGP 35348?|Neurotoxicol. Teratol.17(3): 351-357|1995|10.1016/0892-0362(94)00075-O
95437|T||Liu,Y., and R.A. Deitrich|Role of GABA in the Actions of Ethanol in Rats Selectively Bred for Ethanol Sensitivity|Pharmacol. Biochem. Behav.60(4): 793-801|1998|10.1016/S0091-3057(97)00479-6
95447|T||Eastman Kodak Co.|Toxicity and Health Hazard Summary|EPA/OTS Doc.#878214406:1 p.|1984|
95448|T||General Electric Corp.|Developmental Toxicity Study with 4-NBPI in Rabbits with Cover Letter|General Electric, Petersburg, WV:386 p.|1990|
95450|T||Chiu,Y.C., A. Hassan, F.E. Guthrie, and W.C. Dauterman|Studies on a Series of Branched-Chain Analogs of Diethyl Malathion and Malaoxon with Regard to Toxicity and In Vitro Enzymatic Reactions|Toxicol. Appl. Pharmacol.12(2): 219-228|1968|10.1016/0041-008X(68)90034-3
95451|T||Kassim,M.Y.|A Study on Seed-Borne Fungi of Barley in Saudi Arabia|Phyton (Buenos Aires)47(1-2): 115-120|1987|
95452|T||Kassim,M.Y.|Seed-Borne Fungi of Sorghum in Saudi Arabia|Pak. J. Bot.17(2): 263-266|1985|
95453|T||Rao,A.N.S.|Seed Treatment of Groundnut with Mancozeb Against Seed and Soil Borne Diseases|Pesticides 20(4): 48-|1986|
95454|T||Mitchell,J.K., and R.A. Taber|Factors Affecting the Biological Control of Cercosporidium Leaf Spot of Peanuts by Dicyma pulvinata|Phytopathology76(10): 990-994|1986|10.1094/Phyto-76-990
95455|T||Jeffers,S.N.|Seasonal Incidence of Fungi in Symptomless Cranberry Leaves and Fruit Treated with Fungicides During Bloom|Phytopathology81(6): 636-644|1991|10.1094/Phyto-81-636
95456|A||Loomis,A.K., and P. Thomas|Binding Characteristics of Estrogen Receptor (ER) in Atlantic Croaker (Micropogonias undulatus) Testis: Different Affinity for Estrogens and Xenobiotics from that of Hepatic ER|Biol. Reprod.61:51-60|1999|10.1095/biolreprod61.1.51
95458|T||Hales,B.F.|Modification of the Mutagenicity and Teratogenicity of Cyclophosphamide in Rats with Inducers of the Cytochromes P-450|Teratology24(1): 1-11|1981|10.1002/tera.1420240102
95459|T||Kaul,K.L., and R.F. Novak|Induction of Rabbit Hepatic Microsomal Cytochrome P-450 by Imidazole:  Enhanced Metabolic Activity and Altered Substrate Specificity|Arch. Biochem. Biophys.235(2): 470-481|1984|10.1016/0003-9861(84)90220-0
95460|T||Van der Plas,S.A., H. Sundberg, H. Van den Berg, G. Scheu, L. Warngard, S. Jenssen, A. Bergman, and A. Brouwer|Tumour Promotion Induction by Complex Mixtures of 2-4 and 0-1 Ortho Polychlorinated Biphenyls in Female Sprague Dawley Rats|Organohalog. Compd.37:187-190|1998|
95461|T||Van den Brenk,H.A.S., H. Kelly, and M.G. Stone|Innate and Drug-Induced Resistance to Acute Lung Damage Caused in Rats by alpha-Naphthyl Thiourea (ANTU) and Related Compounds|Br. J. Exp. Pathol.57(6): 621-636|1976|
95462|T||Seegal,R.F., G.A.S. Park, K.O. Brosch, and E. Jakobsson|Estrogen-Like Neurochemical and Reproductive Effects of the Major Metabolite of 3,4,3',4'-Tetrachlorobiphenyl (3,5,3',4'-Tetrachloro-4- Biphenylol)|Organohalog. Compd.34:125-128|1997|
95463|T||Ross,D.G., A.P.J.M. Van Birgelen, M.J. DeVito, and L.S. Birnbaum|Relative Potency Factors Derived from CYP1A Induction in Mice are Predictive for Alterations in Retinoid Concentrations After Subchronic Exposure to Mixtures of PCDDs, PCDFs, and PCBs in Female Sprague Dawley Rats|Organohalog. Compd.34:281-286|1997|
95464|T||Bunce,N.J., and K. Hu|In Vitro Metabolism of PCDD and PCB Congeners Using Rat Hepatic Microsomes Induced by 3-Methylcholanthrene|Organohalog. Compd.34:182-187|1997|
95465|T||Connor,K., K. Ramamoorthy, and S. Safe|The Effects of Hydroxylated Polychlorinated Biphenyls (PCBs) on the Immature Rat and Mouse Uterus|Organohalog. Compd.29:312-315|1996|
95467|T||Davletov,E.G., S.A. Bashkatov, A.A. Naimushin, and V.O. Shchepansky|The Peculiarities of Membranotoxic Effect of Polychlorinated Biphenyl and Trichlorbenzenes|Organohalog. Compd.37:109-112|1998|
95468|T||Davletov,E.G., S.A. Bashkatov, and V.O. Shchepansky|Carbohydrate Metabolism Changes in Experimental Rats Poisoned with 2,4-D and Polychlorinated Biphenyls|Organohalog. Compd.34:178-181|1997|
95469|T||DeVito,M.J., D.G. Ross, A.P.J.M. Van Birgelen, and L.S. Birnbaum|The Effects of Mixtures of PCDDs, PCDFs, and PCBs on Hepatic Retinyl Palmitate Concentrations in Mice|Organohalog. Compd.34:49-54|1997|
95470|T||Eriksson,P., and A. Fredriksson|Neonatal Exposure to 2,2',4,4',5,5'-Hexachlorobiphenyl or 3,3',4,4',5,5'-Hexachlorobiphenyl Causes Behavioural Derangements in Mouse that Deteriorate with Age|Organohalog. Compd.37:117-119|1998|
95471|T||Fish,K.M., J.B. Silkworth, and J.F.,Jr. Brown|The Induction of Oxidizing Agents in S-D Rats Chronically Dosed with Aroclors 1016, 1242, 1254, and 1260|Organohalog. Compd.34:296-300|1997|
95472|T||Lilienthal,H., A. Weinand-Harer, L. Altmann, J. Hany, and G. Winneke|Neurobehavioral Effects in Adult Rats After Maternal Exposure to Coplanar and Ortho-Chlorinated PCB Congeners|Organohalog. Compd.34:129-133|1997|
95473|T||Turner,K.J., B.S. McIntyre, S.L. Phillips, N.J. Barlow, C.J. Bowman, and P.M.D. Foster|Altered Gene Expression During Rat Wolffian Duct Development in Response to In Utero Exposure to the Antiandrogen Linuron|Toxicol. Sci.74(1): 114-128|2003|10.1093/toxsci/kfg096
95474|T||Xie,H.S., A.I. Hsiao, and W.A. Quick|Effect of Environment on Wild Oat (Avena fatua) Control with Imazamethabenz or Fenoxaprop Tank-Mixed with Additives or MCPA|J. Plant Growth Regul.16(2): 63-67|1997|10.1007/PL00006979
95475|A||Slijkerman,D.M.E., M. Moreira-Santos, R.G. Jak, R. Ribeiro, A.M.V.M. Soares, and N.M. Van Straalen|Functional and Structural Impact of Linuron on a Freshwater Community of Primary Producers: The Use of Immobilized Algae|Environ. Toxicol. Chem.24(10): 2477-2485|2005|10.1897/04-658R.1
95476|T||Scassellati-Sforzolini,G., R. Pasquini, M. Moretti, M. Villarini, C. Fatigoni, P. Dolara, S. Monarca, G. Caderni, F. Ku|In Vivo Studies on Genotoxicity of Pure and Commercial Linuron|Mutat. Res.390(3): 207-221|1997|10.1016/S1383-5718(97)00012-0
95477|T||Lambright,C., J. Ostby, K. Bobseine, V. Wilson, A.K. Hotchkiss, P.C. Mann, and L.E.,Jr. Gray|Cellular and Molecular Mechanisms of Action of Linuron:  An Antiandrogenic Herbicide that Produces Reproductive Malformations in Male Rats|Toxicol. Sci.56(2): 389-399|2000|10.1093/toxsci/56.2.389
95478|T||Kang,I.H., H.S. Kim, J.H. Shin, T.S. Kim, H.J. Moon, I.Y. Kim, K.S. Choi, K.S. Kil, Y.I. Park, M.S. Dong, and S.Y. Han|Comparison of Anti-Androgenic Activity of Flutamide, Vinclozolin, Procymidone, Linuron, and p,p'-DDE in Rodent 10-Day Hershberger Assay|Toxicology199(2/3): 145-159|2004|10.1016/j.tox.2004.02.019
95479|T||Ashby,J., P.A. Lefevre, H. Tinwell, J. Odum, and W. Owens|Testosterone-Stimulated Weanlings as an Alternative to Castrated Male Rats in the Hershberger Anti-Androgen Assay|Regul. Toxicol. Pharmacol.39(2): 229-238|2004|10.1016/j.yrtph.2004.02.001
95480|A||James,D.E., S.L. Manley, M.C. Carter, and W.J. North|Effects of PCBs and Hydrazine on Life Processes in Microscopic Stages of Selected Brown Seaweeds|Hydrobiologia (Multiple Languages)151-152:411-415|1987|10.1007/BF00046161
95481|T||Brown,S.L., and E.A. Curl|Rhizosphere Effect of Herbicide-Stressed Sicklepod (Cassia obtusifolia) on Chlamydospores of Fusarium oxysporum f. sp. Vasinfectum|Plant Dis.71(10): 919-922|1987|10.1094/PD-71-0919
95482|T||Olsen,W.M., and O.H. Iversen|Cell Kinetic Effects of Low Doses of the Skin Carcinogen 7,12-Dimethylbenz(a) Anthracene on Hairless Mouse Epidermis|Carcinogenesis8(10): 1411-1415|1987|10.1093/carcin/8.10.1411
95484|T||Lafarge Frayssinet,C., K. Alexandrov, C. Rimbaut, P.M. Dansette, S. Mousset, and C. Frayssinet|Presence of Benzo[a]pyrene Metabolizing Activities in Isolated Rat Liver Nucleoli|Carcinogenesis2(11): 1189-1193|1981|10.1093/carcin/2.11.1189
95485|T||Napalkov,N., A. Likhachev, V. Anisimov, A. Loktionov, M. Zabezhinski, A. Ovsyannikov, J. Wahrendorf, H. Becher, and L. |Promotion of Skin Tumours by TPA in the Progeny of Mice Exposed Pre-Natally to DMBA|Carcinogenesis8(3): 381-385|1987|10.1093/carcin/8.3.381
95486|T||McCord,A., A.K. Burnett, C.R. Wolf, V. Morrison, and J.A. Craft|Role of Specific Cytochrome P-450 Isoenzymes in the Regio-Selective Metabolism of 7,12-Dimethylbenz(a)Anthracene in Microsomes from Rats Treated with Phenobarbital or Sudan III|Carcinogenesis9(8): 1485-1491|1988|10.1093/carcin/9.8.1485
95487|T||Crowe,S.F., and S. Kempton|Both Ethanol Toxicity and Thiamine Deficiency are Necessary to Produce Long-Term Memory Deficits in the Young Chick|Pharmacol. Biochem. Behav.58(2): 461-470|1997|10.1016/S0091-3057(97)10001-6
95488|T||Carpenedo,R., G. Mannaioni, and F. Moroni|Oxindole, a Sedative Tryptophan Metabolite, Accumulates in Blood and Brain of Rats with Acute Hepatic Failure|J. Neurochem.70(5): 1998-2003|1998|10.1046/j.1471-4159.1998.70051998.x
95489|T||Williams,K.L., A.P. Ferko, E.J. Barbieri, and G.J. Digregorio|Glycine Enhances the Central Depressant Properties of Ethanol in Mice|Pharmacol. Biochem. Behav.50(2): 199-205|1995|10.1016/0091-3057(94)00288-T
95490|T||Mills,D., and R. Ledger|The Effects of Oral Selegiline Hydrochloride on Learning and Training in the Dog:  A Psychobiological Interpretation|Prog. Neuro-Psychopharmacol. Biol. Psychiatry25(8): 1597-1613|2001|10.1016/S0278-5846(01)00205-6
95492|T||Jagger,A., J. Grahn, and R.C. Ritter|Reduced Vagal Sensory Innervation of the Small Intestinal Myenteric Plexus Following Capsaicin Treatment of Adult Rats|Neurosci. Lett.236(2): 103-106|1997|10.1016/S0304-3940(97)00767-2
95493|T||Miyake,Y., K. Hashimoto, H. Matsuki, M. Ono, and R. Tajima|Fate of Insecticide and Fungicide Residues on Barley During Storage and Malting|J. Am. Soc. Brew. Chem.60(3): 110-115|2002|10.1094/ASBCJ-60-0110
95494|T||Owens,L.B.|Nitrate-Nitrogen Concentrations in Percolate from Lysimeters Planted to a Legume-Grass Mixture|J. Environ. Qual.19(1): 131-135|1990|10.2134/jeq1990.00472425001900010019x
95495|T||Mangiafico,S.S., and K. Guillard|Fall Fertilization Timing Effects on Nitrate Leaching and Turfgrass Color and Growth|J. Environ. Qual.35(1): 163-171|2006|10.2134/jeq2005.0061
95496|T||Jackson,M.J., M.A. Line, and O. Hasan|Microbial Degradation of a Recalcitrant Plant Growth Retardant--Paclobutrazol (PP333)|Soil Biol. Biochem.28(9): 1265-1267|1996|10.1016/0038-0717(96)00125-3
95497|T||Liburd,O.E., E.M. Finn, K.L. Pettit, and J.C. Wise|Response of Blueberry Maggot Fly (Diptera: Tephritidae) to Imidacloprid-Treated Spheres and Selected Insecticides|Can. Entomol.135(3): 427-438|2003|10.4039/n02-080
95498|T||Wojciechowska,M., C. Bajan, and K. Kmitowa|The Effects of Carbamide Herbicides, Linuron and Monolinuron, on Three Species of Entomopathogenic Fungi. I. Laboratory Studies|Pol. Ecol. Stud.3(2): 29-42|1977|
95499|T||Fife,J.H., B.R. Leonard, K.D. Torrey, and J.B. Graves|Evaluation of an Insecticide Rescue Treatment Against Bollworm, 1997|Arthropod Manag. Tests23:227-228|1998|10.1093/amt/23.1.227
95500|T||DeVries,T.A., and R.J. Wright|Evaluation of Microbial and Conventional Insecticides for Control of Larval European Corn Borer on Whorl Stage Corn, Clay Center, NE, 1995|Arthropod Manag. Tests21:218-|1996|10.1093/amt/21.1.218
95501|T||Haas,M.J., and D.A. Landis|1st Generation European Corn Borer Larvicide Trial, 1995|Arthropod Manag. Tests21:219-|1996|10.1093/amt/21.1.219
95502|A||Vijayan,M.M., S. Raptis, and R. Sathiyaa|Cortisol Treatment Affects Glucocorticoid Receptor and Glucocorticoid-Responsive Genes in the Liver of Rainbow Trout|Gen. Comp. Endocrinol.132(2): 256-263|2003|10.1016/S0016-6480(03)00092-3
95503|T||Schmera,D., M. Toth, M. Subchev, I. Sredkov, I. Szarukan, T. Jermy, and A. Szentesi|Importance of Visual and Chemical Cues in the Development of an Attractant Trap for Epicometis (Tropinota) hirta Poda (Coleoptera: Scarabaeidae)|Crop Prot.23(10): 939-944|2004|10.1016/j.cropro.2004.02.006
95504|T||Kim,K.B., and B.M. Lee|Oxidative Stress to DNA, Protein, and Antioxidant Enzymes (Superoxide Dismutase and Catalase) in Rats Treated with Benzo(a)pyrene|Cancer Lett.113(1-2): 205-212|1997|10.1016/S0304-3835(97)04610-7
95505|T||Sakuraba,H., Y. Ishiguro, K. Yamagata, A. Munakata, and A. Nakane|Blockade of TGF-[beta] Accelerates Mucosal Destruction Through Epithelial Cell Apoptosis|Biochem. Biophys. Res. Commun.359(3): 406-412|2007|10.1016/j.bbrc.2007.05.117
95506|T||Wilson,V.S., C. Lambright, J. Furr, J. Ostby, C. Wood, G. Held, and L.E.,Jr. Gray|Phthalate Ester-Induced Gubernacular Lesions are Associated with Reduced ins13 Gene Expression in the Fetal Rat Testis|Toxicol. Lett.146(3): 207-215|2004|10.1016/j.toxlet.2003.09.012
95507|T||Tamura,H., S.C. Maness, K. Reischmann, D.C. Dorman, L.E. Gray, and K.W. Gaido|Androgen Receptor Antagonism by the Organophosphate Insecticide Fenitrothion|Toxicol. Sci.60(1): 56-62|2001|10.1093/toxsci/60.1.56
95508|A||Kreslavsky,V.D., E.F. Kobzar, and E.N. Muzafarov|Effect of Red Radiation, Kinetin and Linuron on Growth and Ethylene Production in Chlorella|Biol. Plant. (Praha)39(3): 427-430|1997|10.1023/A:1001092529160
95513|T||Kamei,M., S. Ohgaki, T. Kanbe, M. Shimizu, S. Morita, I. Niiya, I. Matsui-Yuasa, and S. Otani|Highly Hydrogenated Dietary Soybean Oil Modifies the Responses to Polychlorinated Biphenyls in Rats|Lipids31(11): 1151-1156|1996|10.1007/BF02524289
95514|T||Connell,B.J., A. Singh, and I. Chu|Interaction of PCB Congeners and 2,3,7,8-TCDD in the Rat Liver:  An Electron Microscope Study|J. Submicrosc. Cytol. Pathol.30(1): 157-163|1998|
95515|T||Roch,P., P. Ville, E.L. Cooper, and J.F. Narbonne|Differential Modulation of Earthworm Cellular and Humoral Immune-Related Functions by Polychlorinated Biphenyls (PCB)|In: J.S.Stolen, T.C.Fletcher, C.J.Bayne, C.J.Secombes, J.T.Zelikoff, L.E.Twerdok and D.P.Anderson (Eds.), Modulators/of Immune Responses: The Evolutionary Trail, SOS Publ., Fair Haven, NJ:515-522|1996|
95516|T||Dunnick,J.K., J.E. Heath, D.R. Farnell, J.D. Prejean, J.K. Haseman, and M.R. Elwell|Carcinogenic Activity of the Flame Retardant, 2,2-bis(Bromomethyl)-1,3- Propanediol in Rodents, and Comparison with the Carcinogenicity of Other NTP Brominated Chemicals|Toxicol. Pathol.25(6): 541-548|1997|10.1177/019262339702500602
95517|T||Shimada,M., N. Murayama, Y. Yamazoe, T. Kamataki, and R. Kato|Further Studies on the Persistence of Neonatal Androgen Imprinting on Sex-Specific Cytochrome P-450, Testosterone and Drug Oxidations|Jpn. J. Pharmacol.45(4): 467-478|1987|10.1016/S0021-5198(19)43367-2
95518|T||Kuntzman,R., E.J. Pantuck, S.A. Kaplan, and A.H. Conney|Phenacetin Metabolism:  Effect of Hydrocarbons and Cigarette Smoking|Clin. Pharmacol. Ther.22(5 Pt. 2): 757-764|1977|10.1002/cpt1977225part2757
95520|T||Ohta,K., M. Motoya, M. Komori, T. Miura, M. Kitada, and T. Kamataki|A Novel Form of Cytochrome P-450 in Beagle Dogs.  P-450-D3 is a Low Spin Form of Cytochrome P-450 but with Catalytic and Structural  Properties Similar to P-450d|Biochem. Pharmacol.38(1): 91-96|1989|10.1016/0006-2952(89)90154-8
95521|T||Fuchs,S.Y., V.S. Spiegelman, and G.A. Belitsky|Inducibility of Various Cytochrome P450 Isozymes by Phenobarbital and Some Other Xenobiotics in Drosophila melanogaster|Biochem. Pharmacol.47(10): 1867-1873|1994|10.1016/0006-2952(94)90317-4
95522|T||Kashfi,K., J.A. Rimarachin, B.B. Weksler, and A.J. Dannenberg|Differential Induction of Glutathione S-Transferase in Rat Aorta Versus Liver|Biochem. Pharmacol.47(10): 1903-1907|1994|10.1016/0006-2952(94)90321-2
95523|T||Mostafa,M.H., M. Ruchirawat, and E.K. Weisburger|Comparative Studies on the Effects of Various Microsomal Enzyme Inducers on the N-Demethylation of Dimethylnitrosamine|Biochem. Pharmacol.30(14): 2007-2011|1981|10.1016/0006-2952(81)90212-4
95524|T||Uemura,T., and E. Chiesara|NADH-Dependent Aryl Hydrocarbon Hydroxylase in Rat Liver Mitochondrial Outer Membrane|Eur. J. Biochem.66(2): 293-307|1976|10.1111/j.1432-1033.1976.tb10519.x
95525|T||Ashida,H., K. Kanazawa, and G. Danno|Hepatic Phosphoglucomutase Activity as a Marker of Oxidative Stress Induced by Pro-Oxidative Drugs|Biosci. Biotechnol. Biochem.58(1): 55-59|1994|10.1271/bbb.58.55
95526|T||Guengerich,F.P., and P.S. Mason|Immunological Comparison of Hepatic and Extrahepatic Cytochromes P-450|Mol. Pharmacol.15(1): 154-164|1979|
95527|T||Sesardic,D., R.J. Edwards, D.S. Davies, P.E. Thomas, W. Levin, and A.R. Boobis|High Affinity Phenacetin O-Deethylase is Catalysed Specifically by Cytochrome P450d (P450IA2) in the Liver of the Rat|Biochem. Pharmacol.39(3): 489-498|1990|10.1016/0006-2952(90)90055-P
95528|T||Cresteil,T., E. Le Provost, J.P. Leroux, and P. Lesca|Enzymatic and Immunological Characterization of Cytochromes P-450 from Ellipticine-Treated Rat Liver|Biochem. Biophys. Res. Commun.107(3): 1037-1045|1982|10.1016/0006-291X(82)90626-X
95529|T||Usanov,S.A., A.N. Erjomin, I.V. Tishchenko, and D.I. Metelitza|Comparative Study on Oxidation of Aromatic Compounds by Rat Liver and Rabbit Lung Microsomes|Acta Biol. Med. Ger. (Multiple Languages)41(9): 759-769|1982|
95530|T||Mostafa,M.H., E.A. El-Bassiuni, S.M. El-Sewedy, S.M. El-Zoghby, M. Ramadan, G.A. Abdel-Tawab, and A.H. El-Sebae|Effect of Some Xenobiotics on Kynurenine Hydrolase and Kynurenine Aminotransferase of Mouse Liver|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes18B(3): 393-399|1983|
95531|T||Celier,C., and T. Cresteil|Induction of Drug-Metabolizing Enzymes in Gunn Rat Liver.  Effect of Polycyclic Aromatic Hydrocarbons on Cytochrome P-450 Regulation|Biochem. Pharmacol.38(17): 2825-2832|1989|10.1016/0006-2952(89)90437-1
95532|T||Yeh,S.Y.|Localization and Characterization of Meperidine Esterase of Rats|Drug Metab. Dispos.10(4): 319-325|1982|
95533|T||Toftgard,R., J. Halpert, and J.A. Gustafsson|Xylene Induces a Cytochrome P-450 Isozyme in Rat Liver Similar to the Major Isozyme Induced by Phenobarbital|Mol. Pharmacol.23(1): 265-271|1983|
95534|T||Orlov,S.N., P.V. Gulak, I.S. Litvinov, and Y.V. Postnov|Evidence of Altered Structure of the Erythrocyte Membrane in Spontaneously Hypertensive Rats|Clin. Sci. (Lond.)63(1): 43-45|1982|10.1042/cs0630043
95536|T||Szeto,S.Y., J.R. Mackenzie, R.S. Vernon, and M.J. Brown|The Degradation of Disulfoton in Lettuce After Applications for Control of the Lettuce Aphid, Nasonovia ribisnigri (Mosley)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes18(6): 725-734|1983|
95537|T||Stevens,J.T., R.E. Stitzel, and J.J. McPhillips|The Effects of Subacute Administration of Anticholinesterase Insecticides on Hepatic Microsomal Metabolism|Life Sci.11(2): 423-431|1972|10.1016/0024-3205(72)90250-0
95538|T||Nemoto,M.C.M., E. Nahas, R.A. Pitelli, and L. Coelho|Germination and Mycelial Growth of Bipolaris euphorbiae Muchovej & Carvalho as Influenced by Herbicides and Surfactants|Braz. J. Microbiol.33(4): 352-357|2002|10.1590/S1517-83822002000400015
95539|T||Masiunas,J.B.|Tomato (Lycopersicon esculentum) Tolerance to Diphenyl Ether Herbicides Applied Postemergence|Weed Technol.3(4): 602-607|1989|10.1017/S0890037X00032887
95540|T||Gupta,G.P.|Efficacy of Soil Insecticides Against Jassids and Their Effect on Non-Target Soil Organisms|Pesticides 23(8): 37-41|1989|
95541|T||Minton,N.A., and L.W. Morgan|Evaluation of Systemic and Nonsystemic Pesticides for Insect and Nematode Control in Peanuts|Peanut Sci.1(2): 91-98|1974|10.3146/i0095-3679-1-2-13
95542|T||Mathur,S.P., A. Belanger, H.A. Hamilton, and S.U. Khan|Influence on Microflora and Persistence of Field-Applied Disulfoton, Permethrin and Prometryne in an Organic Soil|Pedobiologia (Multiple Languages)20(4): 237-242|1980|10.1016/S0031-4056(23)03535-7
95543|T||Eversole,J.W., J.H. Lilly, and F.R. Shaw|Toxicity of Droppings from Coumaphos-Fed Hens to Little House Fly Larvae|J. Econ. Entomol.58(4): 709-710|1965|10.1093/jee/58.4.709
95544|T||Suzuki,H., and S. Ishikawa|Ultrastructure of the Ciliary Muscle Treated by Organophosphate Pesticide in Beagle Dogs|Br. J. Ophthalmol.58(11): 931-940|1974|10.1136/bjo.58.11.931
95545|T||Koizuka,I., N. Takeda, T. Kubo, T. Matsunaga, and C.I. Cha|Effects of Ethyl Alcohol and Heavy-Water Administration on Vestibulo-Ocular Reflex in Rabbits|ORL  J. Otorhinolaryngol. Relat. Spec.51(3): 151-155|1989|10.1159/000276050
95546|T||Koizuka,I., N. Takeda, T. Kubo, and T. Matsunaga|Effects of Deuterium Oxide and Ethyl Alcohol on Vestibulo-Ocular Reflex in Rabbits|Adv. Oto-Rhino-Laryngol. 42:238-241|1988|10.1159/000416114
95547|T||Maggi,C.A., F. Santicioli, and A. Meli|Evidence for the Involvement of a Capsaicin-Sensitive Innervation in the Afferent Branch of Micturition Reflex in Rats|Acta Physiol. Hung.69(3-4): 425-435|1987|
95548|T||Maggi,C.A., L. Abelli, S. Giuliani, V. Somma, M. Furio, R. Patacchini, and A. Meli|Motor and Inflammatory Effect of Hyperosmolar Solutions on the Rat Urinary Bladder in Relation to Capsaicin-Sensitive Sensory Nerves|Gen. Pharmacol.21(1): 97-103|1990|10.1016/0306-3623(90)90602-I
95549|T||Skofitsch,G., and D.M. Jacobowitz|Calcitonin Gene-Related Peptide Coexists with Substance P in Capsaicin Sensitive Neurons and Sensory Ganglia of the Rat|Peptides6(4): 747-754|1985|10.1016/0196-9781(85)90179-2
95550|T||Satchell,P.|Reversible Abnormalities of the Hering Breuer Reflex in Acrylamide Neuropathy|J. Neurol., Neurosurg. Psychiatry48(7): 670-675|1985|10.1136/jnnp.48.7.670
95551|T||Hernandez,L.L., and D.A. Powell|Ethanol Enhancement of Pavlovian Conditioning:  Comparison with Instrumental Conditioning|Psychopharmacology88(1): 75-81|1986|10.1007/BF00310516
95552|A||Sandmann,G., I.E. Clarke, P.M. Bramley, and P. Boger|Inhibition of Phytoene Desaturase - the Mode of Action of Certain Bleaching Herbicides|Z. Naturforsch. Sect. C J. Biosci.39(5): 443-449|1984|10.1515/znc-1984-0528
95553|T||Sharkawi,M., C. Granvil, A. Faci, and G.L. Plaa|Pharmacodynamic and Metabolic Interactions Between Ethanol and Two Industrial Solvents (Methyl N-Butyl Ketone and Methyl Isobutyl Ketone) and Their Principal Metabolites in Mice|Toxicology94(1-3): 187-195|1994|10.1016/0300-483X(94)90037-X
95554|T||Vorhees,C.V., K.D. Acuff-Smith, M.S. Moran, and D.R. Minck|A New Method for Evaluating Air-Righting Reflex Ontogeny in Rats Using Prenatal Exposure to Phenytoin to Demonstrate Delayed Development|Neurotoxicol. Teratol.16(6): 563-573|1994|10.1016/0892-0362(94)90034-5
95555|T||Hoeffding,V., and L.D. Fechter|Trimethyltin Disrupts Auditory Function and Cochlear Morphology in Pigmented Rats|Neurotoxicol. Teratol.13(2): 135-145|1991|10.1016/0892-0362(91)90003-F
95556|T||Khanna,V.K., R. Husain, J.P. Hanig, and P.K. Seth|Increased Neurobehavioral Toxicity of Styrene in Protein-Malnourished Rats|Neurotoxicol. Teratol.13(2): 153-159|1991|10.1016/0892-0362(91)90005-H
95557|T||Holder,M.D.|Effects of Perinatal Exposure to Aspartame on Rat Pups|Neurotoxicol. Teratol.11(1): 1-6|1989|10.1016/0892-0362(89)90078-0
95558|T||Priola,D.V., X. Cao, C. Anagnostelis, and E. Bassenge|Intrinsic Neural Regulation of the Heart in the Chronic, Conscious Dog|Am. J. Physiol. Heart Circ. Physiol.274(6, Pt.2): H2074 - H2084|1998|10.1152/ajpheart.1998.274.6.H2074
95559|T||Cheng,C.L., C.P. Ma, and W.C. De Groat|Effects of Capsaicin on Micturition and Associated Reflexes in Rats|Am. J. Physiol., Regul. Integr. Comp. Physiol.265(1, Pt.2): R132 - R138|1993|10.1152/ajpregu.1993.265.1.R132
95560|T||Zanoli,P., and W. Ferrari|Effect of Colchicine on Micturition Reflex in Rats|Neurotoxicol. Teratol.10(6): 579-584|1988|10.1016/0892-0362(88)90095-5
95561|T||Eastman,C.L., J.S. Young, and L.D. Fechter|Trimethyltin Ototoxicity in Albino Rats|Neurotoxicol. Teratol.9(5): 329-332|1987|10.1016/0892-0362(87)90026-2
95562|T||Verberne,A.J.M., S.J. Lewis, B. Jarrott, and W.J. Louis|Bezold-Jarisch Reflex is Inhibited by Excitotoxin-Induced Destruction of Vagal Primary Afferent Neurons|Eur. J. Pharmacol.139(3): 365-367|1987|10.1016/0014-2999(87)90599-1
95563|T||Ravi,K.|Role of Vagal and Sympathetic Afferents in Reflex Respiratory Responses to Capsaicin in Dogs|Can. J. Physiol. Pharmacol.66(7): 946-950|1988|10.1139/y88-154
95566|T||Sadek,I.A., A.A. Ismail, H.M. Ismail, and A.A. Abdel-Latif|Implications of Fructose in Liver Tumours of the Egyptian Toad|East. Mediterr. Health J.4(3): 571-574|1998|10.26719/1998.4.3.571
95567|T||Hydar-Ali,M.M., and G.A. Fakir|Control of Seed-Borne Fungi of Wheat with Fungicides|Bangladesh J. Bot.22(2): 135-141|1993|
95568|T||Banihashemi,Z.|Biology and Control of Polystigma ochraceum, the Cause of Almond Red Leaf Blotch|Plant Pathol.39(2): 309-315|1990|10.1111/j.1365-3059.1990.tb02508.x
95569|T||Blaszkowski,J.|The Effect of Fungicides on the Mycoflora of Leaves of Triticum aestivum L.|Acta Myol.29(2): 147-157|1994|10.5586/am.1994.015
95570|T||Blaszkowski,J.|The Effect of Foliar Fungicides on the Mycoflora of Seeds of Triticum aestivum|Acta Myol.29(2): 141-145|1994|10.5586/am.1994.014
95571|T||Blaszkowski,J.|Effects of Foliar Fungicides on the Mycoflora of Glumes of Triticum aestivum|Acta Myol.30(1): 41-48|1995|10.5586/am.1995.004
95572|T||Bradshaw,N.J., and T.B. Vaughan|The Effect of Phenylamide Fungicides on the Control of Potato Late-Blight (Phytophthora infestans) in England and Wales from 1978 to 1992|Plant Pathol.45(2): 249-269|1996|10.1046/j.1365-3059.1996.d01-113.x
95573|T||Li,T.S.C., R.S. Utkhede, and D.A. Wardle|Chemical and Biological Control of Leaf Blight and Root Rot Caused by Phytophthora cactorum in American Ginseng|Can. J. Plant Pathol.19(3): 297-300|1997|10.1080/07060669709500527
95574|T||Mondal,M.F.|Controlling Purple Blotch Disease of Onion Seed Crop|Bangladesh J. Bot.22(1): 99-100|1993|
95575|A||Sikka,H.C., J. Carroll, and G. Zweig|Effect of Certain Quinone Pesticides on Acetate Photometabolism and Dark CO2 Fixation in Chlorella|Pestic. Biochem. Physiol.1(3/4): 381-388|1971|10.1016/0048-3575(71)90170-2
95577|T||Monsato Polymer Products Co.|Acute Toxicity Screen on PVI Materials and Intermediates with Cover Letter 021174|EPA/OTS Doc.#FYI-OTS-1084-0346:6 p.|1984|
95578|T||Dow Chemical Co.|Initial Submission:  Teratogenic Effects of the Plant Hormone Indole-3-Acetic Acid in Mice and Rats with Cover Letter Dated 043092 and Attachments|EPA/OTS Doc.#88-920002257:49 p.|1992|
95580|T||Ingham,E.R., R. Parmelee, D.C. Coleman, and D.A.,Jr. Crossley|Reduction of Microbial and Faunal Groups Following Application of Streptomycin and Captan in Georgia No-Tillage Agroecosystems|Pedobiologia (Multiple Languages)35(5): 297-304|1991|10.1016/S0031-4056(24)00070-2
95581|T||Fichter,B.L., and W.P. Stephen|Efficacy of Selected Fungicides Against Chalkbrood of the Leafcutting Bee|J. Apic. Res.26(3): 137-143|1987|10.1080/00218839.1987.11100750
95582|T||Rice,J.E., K. Jordan, P. Little, and N. Hussain|Comparative Tumor-Initiating Activity of Methylene-Bridged and Bay-Region Methylated Derivatives of Benz(a)anthracene and Chrysene|Carcinogenesis9(12): 2275-2278|1988|10.1093/carcin/9.12.2275
95583|T||Corey,D.A., L.M. Juarez de Ku, V.P. Bingman, and L.A. Meserve|Effects of Exposure to Polychlorinated Biphenyl (PCB) from Conception on Growth, and Development of Endocrine, Neurochemical, and Cognitive Measures in 60 Day old Rats|Growth Dev. Aging60(3/4): 131-143|1996|
95584|T||Pinkel,D., B.L. Gledhill, M.A. Van Dilla, S. Lake, and A.J. Wyrobek|Radiation-Induced DNA Content Variability in Mouse Sperm|Radiat. Res.95(3): 550-565|1983|10.2307/3576100
95585|T||Robbins,M.S., and G.J. Mannering|Effects of the Interferon Inducing Agents Tilorone and Polyriboinosinic Acid Polyribocytidylic Acid (Poly IC) on the Hepatic Monooxygenase  Systems of the Developing Neonatal Rat|Biochem. Pharmacol.33(8): 1223-1227|1984|10.1016/0006-2952(84)90173-4
95586|T||Sesardic,D., K.J. Cole, R.J. Edwards, D.S. Davies, P.E. Thomas, W. Levin, and A.R. Boobis|The Inducibility and Catalytic Activity of Cytochromes P450c (P450IA1) and P450d (P450IA2) in Rat Tissues|Biochem. Pharmacol.39(3): 499-506|1990|10.1016/0006-2952(90)90056-Q
95587|T||Sawyer,T.W., W. Baer-Dubowska, K. Chang, S.B. Crysup, R.G. Harvey, and J. DiGiovanni|Tumor-Initiating Activity of the Bay-Region Dihydrodiols and Diolepoxides of Dibenz(a,j)Anthracene and Cholanthrene on Mouse Skin|Carcinogenesis9(12): 2203-2207|1988|10.1093/carcin/9.12.2203
95588|T||Krijt,J., O. Psenak, M. Vokurka, A. Chlumska, and F. Fakan|Experimental Hepatic Uroporphyria Induced by the Diphenyl-Ether Herbicide Fomesafen in Male DBA/2 Mice|Toxicol. Appl. Pharmacol.189(1): 28-38|2003|10.1016/S0041-008X(03)00087-5
95589|T||Krijt,J., M. Vokurka, J. Sanitrak, and V. Janousek|Effect of Protoporphyrinogen Oxidase Inhibitors on Mammalian Porphyrin Metabolism|ACS Symp. Ser.559:247-254|1994|10.1021/bk-1994-0559.ch017
95590|A||Russo,J., and L. Madec|Haemocyte Apoptosis as a General Cellular Immune Response of the Snail, Lymnaea stagnalis, to a Toxicant|Cell Tissue Res.328(2): 431-441|2007|10.1007/s00441-006-0353-7
95591|T||McIntosh,A.H., and D.W. Eveling|Tests of Aphicides for Possible Systemic Control of Potato Blight|Eur.Potato J.8(2): 98-103|1965|10.1007/BF02366986
95592|T||Matin,M.A., and K. Hussain|The Effect of Certain Drugs on Glycogen and Acetylcholine Levels in Cerebral and Peripheral Tissues in Rats with Malathion Induced Hyperglycaemia|Arh. Hig. Rada Toksikol.35(4): 325-332|1984|
95593|T||Pal,A.K., A. Kushwah, and H.S. Kushwah|Impact of Malathion Dipping on Some Carbohydrate Constituents in Poultry Birds|Indian Vet. Med. J.15(2): 104-107|1991|
95594|T||Lange,A.H.|The Effect of Fumigation on the Papaya Replant Problem in Two Hawaiian Soils|Proc. Am. Soc. Hortic. Sci.75:305-312|1960|
95595|T||Nettles,V.F., and S. Hamdi|Influence of Soil Fumigants on Total Nitrogen, Potassium, Magnesium and Calcium Content of Tomato Leaves|Proc. Am. Soc. Hortic. Sci.61:343-345|1953|
95597|T||Lipman,N.S., L.J. Trudel, J.C. Murphy, and Y. Sahali|Comparison of Immune Response Potentiation and In Vivo Inflammatory Effects of Freund's and RIBI Adjuvants in Mice|Lab. Anim. Sci.42(2): 193-197|1992|
95598|T||Fiume,M., A. Guaitani, R. Modica, and I. Bartosek|Effect of Fasting, Induction, Sex and Age on Clearance of Benz(a)anthracene and Chrysene by Isolated Perfused Rat Liver|Toxicol. Lett.19(1-2): 73-79|1983|10.1016/0378-4274(83)90264-3
95599|T||Boll,M., L.W.D. Weber, and A. Stampfl|The Response of Rat Serum Lipids to Diets of Varying Composition or Contaminated with Organochlorine Pesticides|Z. Naturforsch. Sect. C J. Biosci.51(1/2): 91-100|1996|10.1515/znc-1996-1-216
95600|T||Lloyd,R.A.|Assessing the Impact of Glyphosate and Liquid Hexazinone on Moose Browse Species in the Skeena Region|Second Year Rep., Fish and Wildl.Branch, Br.Columbia Minist.of the Environ., Victoria BC:76 p.|1989|
95602|T||Means,N.E., R.J. Kremer, and C. Ramsier|Effects of Glyphosate and Foliar Amendments on Activity of Microorganisms in the Soybean Rhizosphere|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(2): 125-132|2007|
95603|T||Elliott,R., and D.G. Armstrong|The Effect of Urea and Urea plus Sodium Sulphate on Microbial Protein Production in the Rumens of Sheep Given Diets high in Alkali-Treated Barley Straw|J. Agric. Sci.99(1): 51-60|1982|10.1017/S0021859600055027
95604|T||Revzin,A.M.|Effects of Organophosphate Pesticides and Other Drugs on Subcortical Mechanisms of Visual Integration|Aviat. Space Environ. Med.47(6): 627-629|1976|
95605|T||Sundar,N.S., and K.S. Malik|Clinical Signs in Amprolium Induced Polioencephalomalacia (PEM) in Buffalo Calves|J. Vet. Anim. Sci.22(2): 64-69|1991|
95606|T||Strong,M.J., R.M. Garruto, A.V. Wolff, S.M. Chou, S.D. Fox, and R. Yanagihara|N-Butyl Benzenesulfonamide:  A Neurotoxic Plasticizer Inducing a Spastic Myelopathy in Rabbits|Acta Neuropathol.81(3): 235-241|1991|10.1007/BF00305863
95607|T||Wu,P.H., J.F. Liu, W.L. Wu, A.J. Lanca, and H. Kalant|Development of Alcohol Tolerance in the Rat After a Single Exposure to Combined Treatment with Arginine8-Vasopressin and Ethanol|J. Pharmacol. Exp. Ther.276(3): 1283-1291|1996|
95608|T||Brewer,T.G., J.O. Peggins, S.J. Grate, J.M. Petras, B.S. Levine, P.J. Weina, J. Swearengen, M.H. Heiffer, and B.G. Schu|Neurotoxicity in Animals due to Arteether and Artemether|Walter Reed Army Inst.of Research, Washington, DC:5 p.|1994|
95609|T||Markel,E., C. Nyakas, and S. Ormai|Nitrate Induced Changes in Sensoro-Motor Development and Learning Behaviour in Rats|Acta Physiol. Hung.74(1): 69-75|1989|
95610|T||Matsuki,N., Y. Torii, T. Kaji, N. Nishiyama, J.I. Ishiyama, N. Chida, and H. Saito|Emetic Responses of Sorex unguiculatus|Exp. Anim.42(2): 225-228|1993|10.1538/expanim1978.42.2_225
95611|T||Palermo-Neto,J., M. Sakate, and J.C. Florio|Developmental and Behavioral Effects of Postnatal Amitraz Exposure in Rats|Braz. J. Med. Biol. Res.30(8): 989-997|1997|10.1590/S0100-879X1997000800013
95612|T||Robinson,C.P., V.J. Christiansen, C.H. Hsu, and L. Zhang|Antidotes for Ricin Intoxication.  Effects of Ricin on the Vascular Neuroeffector System|Final Report, 26 Sep 1990-25 Sep 1992, Oklahoma Univ.Health Sciences Center, Oklahoma City:187 p.|1992|
95615|T||Leonard,B.R., and D.J. Boethel|Control of Soybean Insect Pests in Louisiana - Macon Ridge I, 1990|Insectic. Acaric. Tests16:223-|1991|10.1093/iat/16.1.223
95616|T||Backman,C.B., and T.P. Mack|Evaluation of Insecticides for Insect Control in Alabama Soybeans, 1990|Insectic. Acaric. Tests16:216-217|1991|10.1093/iat/16.1.216a
95617|T||Kolodny-Hirsch,D.M., and R.A. Daoust|Efficacy of Condor OF and Dipel 8 L Against the Gypsy Moth, 1988|Insectic. Acaric. Tests17:363-|1992|10.1093/iat/17.1.363
95618|T||De Bleecker,J., D. Lison, K. Van den Abeele, J. Willems, and J. De Reuck|Acute and Subacute Organophosphate Poisoning in the Rat|Neurotoxicology15(2): 341-348|1994|
95619|T||Tilson,H.A., J.S. Hong, and T.J. Sobotka|High Doses of Aspartame have no Effects on Sensorimotor Function or Learning and Memory in Rats|Neurotoxicol. Teratol.13(1): 27-35|1991|10.1016/0892-0362(91)90024-Q
95620|T||Balduini,W., G. Lombardelli, G. Peruzzi, and F. Cattabeni|Treatment with Methylazoxymethanol at Different Gestational Days:  Physical, Reflex Development and Spontaneous Activity in the Offspring|Neurotoxicology12(2): 179-188|1991|
95621|T||Stein,R.D., S. Genovesi, K.T. Demarest, and L.C. Weaver|Capsaicin Treatment Attenuates the Reflex Excitation of Sympathetic Activity Caused by Chemical Stimulation of Intestinal Afferent Nerves|Brain Res.397(1): 145-151|1986|10.1016/0006-8993(86)91378-8
95622|T||Raabe,W.|The H-Reflex in the Encephalopathy due to Ammonia Intoxication|Exp. Neurol.96(3): 601-611|1987|10.1016/0014-4886(87)90222-6
95623|T||Woodruff,M.L., R.H. Baisden, and D.L. Whittington|Effects of Electrical Stimulation of the Pontine A5 Cell Group on Blood Pressure and Heart Rate in the Rabbit|Brain Res.379(1): 10-23|1986|10.1016/0006-8993(86)90250-7
95624|T||Fechter,L.D., J.S. Young, and A.L. Nuttall|Trimethyltin Ototoxicity:  Evidence for a Cochlear Site of Injury|Hear. Res.23(3): 275-282|1986|10.1016/0378-5955(86)90116-4
95625|A||Basso,A., L. Matera, G. Elia, L. Ambrosi, F. Vitiello, and C. Di Benedetta|Alterations of Aplysia Feeding Behavior Following Acute Carbamate Intoxication|Boll. Soc. Ital. Biol. Sper. (Non-English)62(8): 993-1000|1986|
95626|T||Cohen,R., and D. Shtienberg|Seed Treatment for the Control of Sphaerotheca fuliginea in Muskmelon Seedlings|Plant Pathol.43(2): 316-320|1994|10.1111/j.1365-3059.1994.tb02690.x
95627|T||Burris,E., and B.R. Leonard|Soybean Looper Control with Reduced Rates of Selected Biological Insecticides, 1991|Insectic. Acaric. Tests18:268-|1993|10.1093/iat/18.1.268
95628|T||Hazzard,R.V., and J. Gault|Microbial Control of Second Generation European Corn Borer and Fall Armyworm, 1992|Insectic. Acaric. Tests18:122-123|1993|
95629|T||Klein,C.D., D.R. Johnson, and A.M. Jordan|The Role of Bacillus thuringiensis plus Ovicides in Management of the Heliothine Complex|Proc. Beltwide Cotton Conf.2:880-881|1995|
95630|T||White,C.A., J.A. Graves, B.R. Leonard, and E. Burris|Evaluation of Selected Bt Compounds for Bollworm and Tobacco Budworm Control, 1992|Insectic. Acaric. Tests18:257-|1993|
95631|T||Wright,N.S.|Evaluation of Terraclor and Terraclor Super-X for the Control of Rhizoctonia on Potato in British Columbia|Can. Plant Dis. Surv.48(3): 77-81|1968|
95632|T||Barry,D.W., and J.S. Bowman|Leaf-Dip Bioassays of Chitin Inhibitors and ABG-6178 for Control of Colorado Potato Beetle on Potatoes, 1991|Insectic. Acaric. Tests18:372-373|1993|10.1093/iat/18.1.372
95633|T||Elzen,G.W.|Evaluation of Biological Insecticides for Control of Lepidopterous Pests, 1992|Insectic. Acaric. Tests18:366-367|1993|
95634|T||Hazzard,R.V., and J. Gault|Microbial Insecticides for Control of First Generation European Corn Borer, 1992|Insectic. Acaric. Tests18:122-|1993|
95635|T||McKenzie,C.L., and B. Cartwright|Effectiveness of Bacillus thuringiensis Formulations for Control of Lepidopterous Pests on Fall Cabbage, 1992|Insectic. Acaric. Tests18:106-108|1993|10.1093/iat/18.1.106
95636|T||Isakeit,T., and J.L. Lockwood|Increased Exudation of Carbon Compounds from 14C-Labelled Ungerminated Cochliobolus sativus Conidia in Response to Several Herbicides|Mycol. Res.94(6): 857-861|1990|10.1016/S0953-7562(09)81393-2
95637|T||Ashby,J., D. Brusick, B.C. Myhr, N.J. Jones, J.M. Parry, S. Nesnow, D. Paton, H. Tinwell, H.S. Rosenkranz, S. Curti, D.|Correlation of Carcinogenic Potency with Mouse-Skin 32P-Postlabeling and Muta-Rmouse lac Z- Mutation Data for DMBA and Its K-Region Sulphur Isostere:  Comparison with Activities Observed in Standard Genotoxicity Assays|Mutat. Res.292(1): 25-40|1993|10.1016/0165-1161(93)90005-K
95642|A||Synthetic Organic Chemical Manufacturers Association Inc.|Letter from SOCMA to USEPA Regarding Information on the Preliminary Data from Embryo Larval Toxicity Test|EPA/OTS Doc.#40-8759234:1 p.|1987|
95643|T||Coman,N., and M. Dordea|Testing the Possible Mutagenic Effects of Captan in Drosophila melanogaster|Stud. Univ. Babes-Bolyai, Ser. Biol. (Multiple Languages)33(1): 30-34|1988|
95644|T||Oleson,J.D., J.R. Rouse, P.J. Boeve, A.R. Warshaw, and J.J. Tollefson|Field Corn, Wireworm Larval Control, 1992|Insectic. Acaric. Tests18:208-209|1993|10.1093/iat/18.1.208
95645|T||Landis,D.A., and F. Gould|Screening for Phyto-Protectants to Guard Corn Seeds/Seedlings from Southern Corn Rootworm Feeding Injury|J. Entomol. Sci.23(3): 201-211|1988|10.18474/0749-8004-23.3.201
95648|T||Oleson,J.D., J.J. McNutt, J.J. Tollefson, and X. Wang|Seedcorn Maggot Control, 1996|Arthropod Manag. Tests22:224-|1997|10.1093/amt/22.1.224
95649|A||White,R., S. Jobling, S.A. Hoare, J.P. Sumpter, and M.G. Parker|Environmentally Persistent Alkylphenolic Compounds are Estrogenic|Endocrinology135(1): 175-182|1994|10.1210/endo.135.1.8013351
95651|T||Oleson,J.D., J.J. McNutt, J.J. Tollefson, and X. Wang|Field Corn, Wireworm Larval Control, 1996|Arthropod Manag. Tests22:225-|1997|10.1093/amt/22.1.225
95652|T||Williams III,L., D.J. Schotzko, and L.E. O'Keeffe|Herbivory, Seed Priming, and Tillage Systems:  Impacts on the Growth Response of Pisum sativum L.|J. Entomol. Sci.33(2): 196-211|1998|10.18474/0749-8004-33.2.196
95653|T||Thakur,J.N., U.S. Rawat, and A.D. Pawar|Effects of Commonly Used Fungicides on Longevity and Mortality of Encarsia perniciosi (Tower) and Aphytis sp. proclia Group (Hymenoptera: Aphelinidae)|J. Biol. Control2(2): 72-73|1988|
95654|A||Luo,F., Y. Liu, X. Li, Z. Xuan, and J. Ma|Biosorption of Lead Ion by Chemically-modified Biomass of Marine Brown Algae Laminaria japonica|Chemosphere64(7): 1122-1127|2006|10.1016/j.chemosphere.2005.11.076
95655|T||Arya,A., D.K. Dwivedi, R.S. Pandey, D.N. Shukla, S.N. Bhargava, and B. Lal|Chemical Control of Aspergillus Rot of Guava|Indian Phytopathol.34(3): 359-360|1981|
95656|T||Bielenin,A., J. Cimanowski, K. Bystydzienska, and Z. Puchala|Control of Black Currant Diseases|Fruit Sci. Rep. (Skierniewice)12(1): 41-50|1985|
95657|T||Cheah,L.H., J.B. Corbin, and W.F.T. Hartill|Control of Light Leaf Spot of Brassicas (Pyrenopeziza brassicae Sutton & Rawlinson) with Fungicides|N. Z. J. Agric. Res.24(3/4): 391-395|1981|10.1080/00288233.1981.10423404
95659|T||Ma,X., and J.G. Burken|TCE Diffusion to the Atmosphere in Phytoremediation Applications|Environ. Sci. Technol.37:2534-2539|2003|10.1021/es026055d
95660|A||Lv,X., J. Shao, M. Song, Q. Zhou, and G.Z. Jiang|Vitellogenic Effects of 17beta-Estradiol in Male Chinese Loach (Misgurnus anguillicaudatus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(1): 127-133|2006|10.1016/j.cbpc.2006.01.002
95661|T||Krishnappa,M., and H.S. Shetty|Control of Seed-Borne Fungi in Sunflower|Geobios14(5): 204-208|1987|
95662|T||Majumdar,M.|Efficacy of Systemic and Non-Systemic Fungicides in the Control of Foot and Stem-Rot Disease of Roselle (Hibiscus sabdariffa) Caused by Phytophthora parasitica|Indian Phytopathol.37(3): 486-489|1984|
95663|T||Mathur,A.K., A.K. Sobti, and B.S. Siradhana|Management of Rose Powdery Mildew with Fungicides|Indian J. Mycol. Plant Pathol.21(2): 200-202|1991|
95664|A||Lurling,M.|Effects of a Surfactant (FFD-6) on Scenedesmus Morphology and Growth Under Different Nutrient Conditions|Chemosphere62(8): 1351-1358|2006|10.1016/j.chemosphere.2005.07.031
95665|A||Luo,Y., Y. Su, R.Z. Lin, H.H. Shi, and X.R. Wang|2-Chlorophenol Induced ROS Generation in Fish Carassius auratus Based on the EPR Method|Chemosphere65(6): 1064-1073|2006|10.1016/j.chemosphere.2006.02.054
95666|T||Peshney,N.L., N.N. Khune, and P.G. Moghe|Evaluation of Some Fungicides Against Puccinia arachidis|Indian J. Plant Prot.7(1): 69-72|1980|
95667|T||Vollekova,A., and V. Vollek|The Effect of Some Fungicides on Mycelial Biomass Growth of the Soil Keratinophilic Fungi|Biologia (Bratisl.)48(6): 611-614|1993|
95668|T||Mahmoud,A.A., S.H. Karam, and M.A. Abdel-Wahhab|Chromium-Picolinate Induced Ocular Changes:  Protective Role of Ascorbic Acid|Toxicology226(2-3): 143-151|2006|10.1016/j.tox.2006.06.014
95669|T||Thakur,V.S., and G.K. Gupta|Studies on the Effect of Sterol Inhibitors on Apple Scab Venturia inaequalis (Cke.) Winter Pathogenesis|Indian J. Plant Prot.19(2): 185-190|1991|
95670|T||Mahjoubi-Samet,A., H. Fetoui, G. Boujelben, K. Jamoussi, E. Ammar, F. Ellouze, F. Guermazi, and N. Zeghal|Effects of Dimethoate on Bone Maturation of Young Rats During the Suckling Period|Pestic. Biochem. Physiol.83(2-3): 132-139|2005|10.1016/j.pestbp.2005.04.005
95671|T||Maiti,P.K., A. Kar, P. Gupta, and S.S. Chaurasia|Loss of Membrane Integrity and Inhibition of Type-I Iodothyronine 5'-Monodeiodinase Activity by Fenvalerate in Female Mouse|Biochem. Biophys. Res. Commun.214(3): 905-909|1995|10.1006/bbrc.1995.2372
95672|T||Mahieu,S., N. Millen, M.D.C. Contini, M. Gonzalez, S.M. Molinas, and M.M. Elias|Urinary Concentrating Mechanism and Aquaporin-2 Abundance in Rats Chronically Treated with Aluminum Lactate|Toxicology223(3): 209-218|2006|10.1016/j.tox.2006.03.018
95674|A||Madison,B.N., and Y.S. Wang|Haematological Responses of Acute Nitrite Exposure in Walleye (Sander vitreus)|Aquat. Toxicol.79(1): 16-23|2006|10.1016/j.aquatox.2006.04.011
95675|A||Majmudar,K., and M.L. Burleson|An Evaluation of Cobalt Chloride as an O2-Sensitive Chemoreceptor Stimulant in Channel Catfish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(1/2): 136-141|2006|10.1016/j.cbpc.2005.11.010
95676|A||Madsen,L.L., B. Korsgaard, and P. Bjerregaard|Oral Single Pulse Exposure of Flounder Platichthys flesus to 4-tert-Octylphenol:  Relations Between Tissue Levels and Estrogenic Effects|Mar. Environ. Res.61(3): 352-362|2006|10.1016/j.marenvres.2005.11.002
95677|T||Marques,A.P.G.C., R.S. Oliveira, A.O.S.S. Rangel, and P.M.L. Castro|Zinc Accumulation in Solanum nigrum is Enhanced by Different Arbuscular mycorrhizal Fungi|Chemosphere65(7): 1256-1263|2006|10.1016/j.chemosphere.2006.03.022
95678|A||Madoni,P., and M.G. Romeo|Acute Toxicity of Heavy Metals Towards Freshwater Ciliated Protists|Environ. Pollut.141(1): 1-7|2006|10.1016/j.envpol.2005.08.025
95679|T||Maddox,J.F., J.P. Luyendyk, G.N. Cosma, A.P. Breau, R.H.,Jr. Bible, G.G. Harrigan, R. Goodacre, P.E. Ganey, G.H. Cantor|Metabonomic Evaluation of Idiosyncrasy-Like Liver Injury in Rats Cotreated with Ranitidine and Lipopolysaccharide|Toxicol. Appl. Pharmacol.212(1): 35-44|2006|10.1016/j.taap.2005.06.021
95680|A||Marquis,O., A. Millery, S. Guittonneau, and C. Miaud|Solvent Toxicity to Amphibian Embryos and Larvae|Chemosphere63(5): 889-892|2006|10.1016/j.chemosphere.2005.07.063
95681|A||Ma,J., F. Lin, W. Qin, and P. Wang|Differential Response of Four Cyanobacterial and Green Algal Species to Triazophos, Fentin Acetate, and Ethephon|Bull. Environ. Contam. Toxicol.73(5): 890-897|2004|10.1007/s00128-004-0510-1
95683|A||MacFarlane,G.R., S.J. Markich, K. Linz, S. Gifford, R.H. Dunstan, W. O'Connor, and R.A. Russell|The Akoya Pearl Oyster Shell as an Archival Monitor of Lead Exposure|Environ. Pollut.143(1): 166-173|2006|10.1016/j.envpol.2005.10.042
95684|T||Ryu,J.M., S.J. Chung, M.H. Lee, C.K. Kim, and C.K. Shim|Increased Bioavailability of Propranolol in Rats by Retaining Thermally Gelling Liquid Suppositories in the Rectum|J. Control. Release59(2): 163-172|1999|10.1016/S0168-3659(98)00189-8
95685|T||Lee,H.S., H.C. Ahn, and S.K. Ku|Hypolipemic Effect of Water Extracts of Picrorrhiza rhizoma in PX-407 Induced Hyperlipemic ICR Mouse Model with Hepatoprotective Effects:  A Prevention Study|J. Ethnopharmacol.105(3): 380-386|2006|10.1016/j.jep.2005.11.010
95689|T||Manjunath,K., and V. Venkateswarlu|Pharmacokinetics, Tissue Distribution and Bioavailability of Clozapine Solid Lipid Nanoparticles After Intravenous and Intraduodenal Administration|J. Control. Release107(2): 215-228|2005|10.1016/j.jconrel.2005.06.006
95690|T||Li,C., W.K. Palmer, and T.P. Johnston|Disposition of Poloxamer 407 in Rats Following a Single Intraperitoneal Injection Assessed Using a Simplified Colorimetric Assay|J. Pharm. Biomed. Anal.14(5): 659-665|1996|10.1016/0731-7085(95)01621-X
95693|T||Leach,S.S., C.W. Murdoch, and C. Gordon|Response of Selected Soilborne Fungi and Bacteria to Herbicides Utilized in Potato Crop Management Systems in Maine|Am. Potato J.68(5): 269-278|1991|10.1007/BF02853665
95694|T||Bilalis,D., P. Efthimiadis, and G. Karagiannis|The Phytotoxicity of Various Graminicides in Durum Wheat in Greece|J. Agron. Crop Sci.187(2): 121-126|2001|10.1046/j.1439-037X.2001.00470.x
95695|A||Schuler,L.J., P.F. Landrum, and M.J. Lydy|Response Spectrum of Fluoranthene and Pentachlorobenzene for the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.26(1): 139-148|2007|10.1897/06-169R.1
95696|T||Grant,N.T., E. Prusinkiewicz, R.M.D. Makowski, B. Holmstrom-Ruddick, and K. Mortensen|Effect of Selected Pesticides on Survival of Colletotrichum gloeosporioides f. sp. malvae, a Bioherbicide for Round-Leaved Mallow (Malva pusilla)|Weed Technol.4(4): 701-715|1990|10.1017/S0890037X00026270
95697|T||Scassellati-Sforzolini,G., M. Moretti, M. Villarini, S. Monarca, C. Fatigoni, and R. Pasquini|In Vivo Studies on Enzymatic Induction Activity of Linuron|J. Environ. Pathol. Toxicol. Oncol.13(1): 11-17|1994|
95698|A||Pimpao,C.T., A.R. Zampronio, and H.C. Silva de Assis|Effects of Deltamethrin on Hematological Parameters and Enzymatic Activity in Ancistrus multispinis (Pisces, Teleostei)|Pestic. Biochem. Physiol.88(2): 122-127|2007|10.1016/j.pestbp.2006.10.002
95699|T||Cook,J.C., L.S. Mullin, S.R. Frame, and L.B. Biegel|Investigation of a Mechanism for Leydig Cell Tumorigenesis by Linuron in Rats|Toxicol. Appl. Pharmacol.119(2): 195-204|1993|10.1006/taap.1993.1060
95700|A||Prevodnik,A., K. Lilja, and T. Bollner|Benzo(a)pyrene Up-Regulates the Expression of the Proliferating Cell Nuclear Antigen (PCNA) and Multixenobiotic Resistance Polyglycoprotein (P-gp) in Baltic Sea Blue Mussels (Mytilus edulis L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(2): 265-274|2007|10.1016/j.cbpc.2006.12.014
95701|T||Pasco,D.S., K.W. Boyum, S.N. Merchant, S.C. Chalberg, and J.B. Fagan|Transcriptional and Post-Transcriptional Regulation of the Genes Encoding Cytochromes P-450c and P-450d In Vivo and in Primary Hepatocyte Cultures|J. Biol. Chem.263(18): 8671-8676|1988|10.1016/S0021-9258(18)68357-7
95702|A||Robinson,C.D., E. Brown, J.A. Craft, I.M. Davies, C. Megginson, C. Miller, and C.F. Moffat|Bioindicators and Reproductive Effects of Prolonged 17beta-Oestradiol Exposure in a Marine Fish, the Sand Goby (Pomatoschistus minutus)|Aquat. Toxicol.81(4): 397-408|2007|10.1016/j.aquatox.2006.12.020
95703|A||Santos,M.M., L.F.C. Castro, M.N. Vieira, J. Micael, R. Morabito, P. Massanisso, and M.A. Reis-Henriques|New Insights into the Mechanism of Imposex Induction in the Dogwhelk Nucella lapillus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(1): 101-109|2005|10.1016/j.cca.2005.05.008
95704|A||Lugo,R.S., G. Nathali, L.B. Villalobos De B, and L. Mairin|Immunological Response of the Freshwater Fish Colossoma macropomum as a Biomarker of Copper Exposure|Bull. Environ. Contam. Toxicol.77(6): 925-930|2006|10.1007/s00128-006-1232-3
95705|A||Sanderson,H., T.M. Boudreau, S.A. Mabury, and K.R. Solomon|Effects of Perfluorooctane Sulfonate and Perfluorooctanoic Acid on the Zooplanktonic Community|Ecotoxicol. Environ. Saf.58(1): 68-76|2004|10.1016/j.ecoenv.2003.09.012
95706|A||Sandrini,J.Z., R. Regoli, D. Fattorini, A. Notti, A.F. Inacio, A.R. Linde-Arias, J. Laurino, A.C.D. Bainy, L.F.F. Marin|Short-Term Responses to Cadmium Exposure in the Estuarine Polychaete Laeonereis acuta (Polychaeta, Nereididae):  Subcellular Distribution and Oxidative Stress Generation|Environ. Toxicol. Chem.25(5): 1337-1344|2006|10.1897/05-275R.1
95707|A||Saito,M.A., G. Rocap, and J.W. Moffett|Production of Cobalt Binding Ligands in a Synechococcus Feature at the Costa Rica Upwelling Dome|Limnol. Oceanogr.50(1): 279-290|2005|10.4319/lo.2005.50.1.0279
95708|T||Roitto,M., P. Rautio, R. Julkunen-Tiitto, E. Kukkola, and S. Huttunen|Changes in the Concentrations of Phenolics and Photosynthates in Scots Pine (Pinus sylvestris L.) Seedlings Exposed to Nickel and Copper|Environ. Pollut.137(3): 603-609|2005|10.1016/j.envpol.2005.01.046
95709|T||Rowsey,P.J., B.L. Metzger, J. Carlson, and C.J. Gordon|Effects of Chronic Exercise Conditioning on Thermal Responses to Lipopolysaccharide and Turpentine Abscess in Female Rats|Arch. Toxicol.80(2): 81-87|2006|10.1007/s00204-005-0036-2
95710|T||Ryokkynen,A., A.M. Mustonen, T. Pyykonen, and P. Nieminen|Endocrine and Metabolic Alterations in the Mink (Mustela vison) due to Chronic Phytoestrogen Exposure|Chemosphere64(10): 1753-1760|2006|10.1016/j.chemosphere.2005.12.037
95711|A||Marie,V., M. Baudrimont, and A. Boudou|Cadmium and Zinc Bioaccumulation and Metallothionein Response in Two Freshwater Bivalves (Corbicula fluminea and Dreissena polymorpha) Transplanted Along a Polymetallic Gradient|Chemosphere65(4): 609-617|2006|10.1016/j.chemosphere.2006.01.074
95712|A||Marshalonis,D., R.E. Knowlton, and H. Merchant|Acute Toxicity of Permethrin to Four Populations of Ovigerous Grass Shrimp, Palaemonetes pugio Holthuis|Bull. Environ. Contam. Toxicol.77(4): 543-550|2006|10.1007/s00128-006-1098-4
95714|T||Masubuchi,Y., M. Kawasaki, and T. Horie|Down-Regulation of Hepatic Cytochrome P450 Enzymes Associated with Cisplatin-Induced Acute Renal Failure in Male Rats|Arch. Toxicol.80(6): 347-353|2006|10.1007/s00204-006-0079-z
95715|T||Martinez,J.P., J.M. Kinet, M. Bajji, and S. Lutts|NaCl Alleviates Polyethylene Glycol-Induced Water Stress in the Halophyte Species Atriplex halimus L.|J. Exp. Bot.56(419): 2421-2431|2005|10.1093/jxb/eri235
95717|A||Manzo,S., S. Buono, and C. Cremisini|Toxic Effects of Irgarol and Diuron on Sea Urchin Paracentrotus lividus Early Development, Fertilization, and Offspring Quality|Arch. Environ. Contam. Toxicol.51(1): 61-68|2006|10.1007/s00244-004-0167-0
95718|A||Fagerlund,U.H.M., D.A. Higgs, J.R. McBride, M.D. Plotnikoff, and B.S. Dosanjh|The Potential for Using the Anabolic Hormones 17alpha-Methyltestosterone and (or) 3,5,3'-Triiodo-L-Thyronine in the Fresh Water Rearing of Coho Salmon (Oncorhynchus kisutch) and the Effects on Subsequent Seawater Perfor|Can. J. Zool.58:1424-1432|1980|10.1139/z80-196
95719|A||Cyr,D.G., and J.G. Eales|Influence of Short-Term Oestradiol Treatment on Plasma Thyroid Hormone Kinetics in Rainbow Trout, Salmo gairdneri|J. Fish Biol.36:391-400|1990|10.1111/j.1095-8649.1990.tb05619.x
95720|A||Buckley,J.A.|The Susceptibility of Superoxide Dismutase in Lemna minor to Systemic Copper Concentrated from Wastewater|Water Res.28(12): 2469-2476|1994|10.1016/0043-1354(94)90065-5
95721|T||Mecklenburg,L., A. Heuser, T. Juengling, M. Kohler, R. Foell, D. Ockert, K. Tuch, and G. Bode|Mesenteritis Precedes Vasculitis in the Rat Mesentery After Subacute Administration of a Phosphodiesterase Type 4 Inhibitor|Toxicol. Lett.163(1): 54-64|2006|10.1016/j.toxlet.2005.09.037
95722|A||Veldhoen,N., and C.C. Helbing|Monitoring Gene Expression in Rana catesbeiana Tadpoles Using a Tail Fin Biopsy Technique and Its Application to the Detection of Environmental Endocrine Disruptor Effects in Wildlife Species|Aquat. Toxicol.18:315-327|2005|
95723|T||Roig,J.L., S. Fuentes, M.T. Colomina, P. Vicens, and J.L. Domingo|Aluminum, Restraint Stress and Aging:  Behavioral Effects in Rats After 1 and 2 Years of Aluminum Exposure|Toxicology218(2-3): 112-124|2006|10.1016/j.tox.2005.10.006
95724|T||Ruley,A.T., N.C. Sharma, S.V. Sahi, S.R. Singh, and K.S. Sajwan|Effects of Lead and Chelators on Growth, Photosynthetic Activity and Pb Uptake in Sesbania drummondii Grown in Soil|Environ. Pollut.144(1): 11-18|2006|10.1016/j.envpol.2006.01.016
95725|T||Sabolic,I., C.M. Herak-Kramberger, R. Antolovic, S. Breton, and D. Brown|Loss of Basolateral Invaginations in Proximal Tubules of Cadmium-Intoxicated Rats is Independent of Microtubules and Clathrin|Toxicology218(2-3): 149-163|2006|10.1016/j.tox.2005.10.009
95726|T||Rinderknecht,A.L., M.T. Kleinman, and J.E. Ericson|Pb Enamel Biomarker:  Deposition of Pre- and Postnatal Pb Isotope Injection in Reconstructed Time Points Along Rat Enamel Transect|Environ. Res.99(2): 169-176|2005|10.1016/j.envres.2005.01.005
95727|T||Richburg,J.H., and K. Boekelheide|Mono-(2-ethylhexyl) Phthalate Rapidly Alters both Sertoli Cell Vimentin Filaments and Germ Cell Apoptosis in Young Rat Testes|Toxicol. Appl. Pharmacol.137:42-50|1996|10.1006/taap.1996.0055
95728|T||Rocheleau,S., R.G. Kuperman, M. Martel, L. Paquet, G. Bardai, S. Wong, M. Sarrazin, S. Dodard, P. Gong, J. Hawari, R.T.|Phytotoxicity of Nitroaromatic Energetic Compounds Freshly Amended or Weathered and Aged in Sandy Loam Soil|Chemosphere62(4): 545-558|2006|10.1016/j.chemosphere.2005.06.057
95729|T||Reid,B.J., and R. Watson|Lead Tolerance in Aporrectodea rosea Earthworms from a Clay Pigeon Shooting Site|Soil Biol. Biochem.37(3): 609-612|2005|10.1016/j.soilbio.2004.09.003
95731|T||Bock,K.W., W. Lilienblum, and H. Pfeil|Functional Heterogeneity of UDP-Glucuronosyltransferase Activities in C57BL/6 and DBA/2 Mice|Biochem. Pharmacol.31(7): 1273-1277|1982|10.1016/0006-2952(82)90015-6
95732|T||Parimi,S., L.J. Meinke, B.W. French, L.D. Chandler, and B.D. Siegfried|Stability and Persistence of Aldrin and Methyl-parathion Resistance in Western Corn Rootworm Populations (Coleoptera:  Chrysomelidae)|Crop Prot.25(3): 269-274|2006|10.1016/j.cropro.2005.04.017
95733|T||Sakazaki,F., H. Ueno, and K. Nakamuro|17beta-Estradiol Enhances Contact Hypersensitivity and IFN-gamma Expression in Inflamed Skin of BALB/c Mice|Toxicol. Lett.166(1): 60-66|2006|10.1016/j.toxlet.2006.05.013
95734|T||Pauluhn,J., W.E. Brown, P. Hext, E. Leibold, and G. Leng|Analysis of Biomarkers in Rats and Dogs Exposed to Polymeric Methylenediphenyl Diisocyanate (pMDI) and Its Glutathione Adduct|Toxicology222(3): 202-212|2006|10.1016/j.tox.2006.02.014
95736|T||Patisaul,H.B., A.E. Fortino, and E.K. Polston|Neonatal Genistein or Bisphenol-A Exposure Alters Sexual Differentiation of the AVPV|Neurotoxicol. Teratol.28(1): 111-118|2006|10.1016/j.ntt.2005.11.004
95737|T||Pelegrino,J.R., E.E. Calore, P.H.N. Saldiva, V.F. Almeida, N.M. Peres, and L. Vilela-de-Almeida|Morphometric Studies of Specific Brain Regions of Rats Chronically Intoxicated with the Organophosphate Methamidophos|Ecotoxicol. Environ. Saf.64(2): 251-255|2006|10.1016/j.ecoenv.2005.05.002
95738|T||Padmanabhan,M., and P.S.M. Prince|Preventive Effect of S-Allylcysteine on Lipid Peroxides and Antioxidants in Normal and Isoproterenol-Induced Cardiotoxicity in Rats:  A Histopathological Study|Toxicology224(1-2): 128-137|2006|10.1016/j.tox.2006.04.039
95739|T||Patsoukis,N., and C.D. Georgiou|Effect of Sulfite-Hydrosulfite and Nitrite on Thiol Redox State, Oxidative Stress and Sclerotial Differentiation of Filamentous Phytopathogenic Fungi|Pestic. Biochem. Physiol.88(2): 226-235|2007|10.1016/j.pestbp.2006.11.009
95740|T||Pathak,N., and S. Khandelwal|Role of Oxidative Stress and Apoptosis in Cadmium Induced Thymic Atrophy and Splenomegaly in Mice|Toxicol. Lett.169(2): 95-108|2007|10.1016/j.toxlet.2006.12.009
95741|T||Pedersen,S.A., E. Kristiansen, R.A. Andersen, and K.E. Zachariassen|Isolation and Preliminary Characterization of a Cd-Binding Protein from Tenebrio molitor (Coleoptera)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 457-463|2007|10.1016/j.cbpc.2007.02.003
95743|T||Sahi,S.V., M. Israr, A.K. Srivastava, J.L. Gardea-Torresdey, and J.G. Parsons|Accumulation, Speciation and Cellular Localization of Copper in Sesbania drummondii|Chemosphere67(11): 2257-2266|2007|10.1016/j.chemosphere.2006.12.006
95744|T||Sanfilippo,S., and R.M. Imbesi|Toxic Effects on Mammalian Liver, Adrenal Cortex and Testis from Subacute Poisoning with Polychlorinated Biphenyls (PCBs).  A Morphological and Functional Study in Adult Male Rats|In: C.Reiss (Ed.), Ad.Mol.Toxicol./Pap.Presented at the Eur.Workshop on Molecular Toxicology, Oct., 1996, Sophia Antipolis, Fr., VSP, Zeist, Neth.:373-408|1998|
95745|T||Leonzio,C., F. Monaci, M.C. Fossi, L. Lari, N. Mattei, and S. Corsolini|Multiresponse Biomarker Evaluation of Interactions Between Methylmercury and Arochlor 1260 in Quail|Ecotoxicology5(6): 365-376|1996|10.1007/BF00351952
95746|T||Benning,V., D. Brault, C. Duvinage, V. Thybaud, and C. Melcion|Validation of the In Vivo CD1 Mouse Splenocyte Micronucleus Test|Mutagenesis9(3): 199-204|1994|10.1093/mutage/9.3.199
95747|T||Moody,R.P., and L. Ritter|An Automated In Vitro Dermal Absorption Procedure:  II. Comparative In Vivo and In Vitro Dermal Absorption of the Herbicide Fenoxaprop-Ethyl (Hoe 33171) in Rats|Toxicol. In Vitro6(1): 53-59|1992|10.1016/0887-2333(92)90085-6
95748|T||Gaivao,I., and M.A. Comendador|The w/w+ Somatic Mutation and Recombination Test (SMART) of Drosophila melanogaster for Detecting Reactive Oxygen Species: Characterization of 6 Strains|Mutat. Res.360(2): 145-151|1996|10.1016/0165-1161(96)00003-9
95749|T||Akhtar,M.A., and L.K. Khokhar|Effect of Agrochemicals for Control of Complete Bunt of Wheat|Pak. J. Agric. Res.8(1): 119-120|1987|
95750|T||Albourie,J.M., J. Tourvieille, and D.T. De Labrouhe|Resistance to Metalaxyl in Isolates of the Sunflower Pathogen Plasmopara halstedii|Eur. J. Plant Pathol.104(3): 235-242|1998|10.1023/A:1008691123239
95751|T||Sudisha,J., S.R. Niranjana, S. Umesha, H.S. Prakash, and H.S. Shetty|Transmission of Seed-Borne Infection of Muskmelon by Didymella bryoniae and Effect of Seed Treatments on Disease Incidence and Fruit Yield|Biol. Control37(2): 196-205|2006|10.1016/j.biocontrol.2005.11.018
95752|T||Wicks,T.G., B. Hall, and P. Pezzaniti|Fungicidal Control of Metalaxyl-Insensitive Strains of Bremia lactucae on Lettuce|Crop Prot.13(8): 617-623|1994|10.1016/0261-2194(94)90008-6
95754|T||Kumarasamy,R., and K. Raghu|Conversion of the Fungicide, Ziram in Rice Plants|Agric. Biol. Chem.40(11): 2297-2298|1976|
95755|A||Rouleau,C., H. Tjalve, J. Gottofrey, and E. Pelletier|Effects of Some Chelating Agents on the Uptake and Distribution of 54Mn(II) in the Brown Trout (Salmo trutta)|Pharmacol. Toxicol.74(4-5): 271-279|1994|10.1111/j.1600-0773.1994.tb01111.x
95756|T||Masood,N., M.M. Ahmad, and W. Ahmad|In Vivo Genotoxic Activity of Malathion in Mice|Pak. J. Zool.33(3): 257-258|2001|
95757|T||Chambers,J.|Deodorised Malathion and Resistance Testing|J. Stored Prod. Res.13(2): 99-101|1977|10.1016/0022-474X(77)90068-6
95758|T||Satoh,T.|A Liver Arylamidase Extremely Sensitive to Organophosphorus Compounds|Life Sci.13(9): 1181-1188|1973|10.1016/0024-3205(73)90003-9
95759|T||Maljaja,E.G.E.P.|Chemical Control of Black Spot Disease of Rose|J. Mycol. Plant Pathol.27(1): 93-94|1997|
95761|T||Hassan,G., G. Mueller-Warrant, and S. Griffith|Differential Sensitivity of Italian Ryegrass (Lolium multiflorum) Cultivars to Fenoxaprop|Weed Sci.50(5): 567-575|2002|10.1614/0043-1745(2002)050[0567:DSOIRL]2.0.CO;2
95762|T||Iwase,T., M. Yamamoto, M. Shirai, F. Akahori, T. Masaoka, T. Takizawa, K. Arishima, and Y. Eguchi|Effect of Ethylene Thiourea on Cultured Rat Embryos in the Presence of Hepatic Microsomal Fraction|J. Vet. Med. Sci.59(1): 59-61|1997|10.1292/jvms.59.59
95763|T||Mandhan,P., Q.B. Quan, S. Beasley, and M. Sullivan|Sonic Hedgehog, BMP4, and Hox Genes in the Development of Anorectal Malformations in Ethylenethiourea-Exposed Fetal Rats|J. Pediatr. Surg.41(12): 2041-2045|2006|10.1016/j.jpedsurg.2006.08.035
95764|T||Dernoeden,P.H., M.J. Mahoney, and M.J. Carroll|Smooth Crabgrass Control in Perennial Ryegrass with Repeated Low Fenoxaprop Application Rates|Hortscience27(9): 1001-1003|1992|10.21273/HORTSCI.27.9.1001
95765|T||Mullens,B.A., and J.L. Rodriguez|Insecticide Effects on Entomophthora muscae (Zygomycetes:  Entomophthorales)|Entomophaga31(4): 377-383|1986|10.1007/BF02373154
95770|T||Machala,M., K. Nezveda, R. Ulrich, and L. Matlova|Toxicity Potential Estimation and Biochemical Monitoring of Aromatic Contaminants by the Measurement of Monooxygenase Activities in Chick Embryo Liver|In: M.Richardson (Ed.), Int.Symp.June 17, 1992, London, England, Ecotoxicology Monitoring, VCH Publ.Weinheim, Germany:173-182|1993|
95771|T||Sulakhe,S.J.|(gamma) -Glutamyltranspeptidase in Dimethylbenz(a)anthracene-Induced Mammary Adenocarcinomas and in Livers of Tumor Bearing Rats|Int. J. Biochem.19(6): 509-515|1987|10.1016/0020-711X(87)90134-0
95772|T||Lambotte-Vandepaer,M., M. Duverger-Van Bogaert, C. De Meester, G. Noel, F. Poncelet, M. Roberfroid, and M. Mercier|Styrene Induced Modifications of Some Rat Liver Enzymes Involved in the Activation and Inactivation of Xenobiotics|Biochem. Pharmacol.28(10): 1653-1659|1979|10.1016/0006-2952(79)90179-5
95773|T||Kolassa,N., E. Tuisl, and O. Kraupp|Effects of the Carboxylesterase Inhibitor Bis-(p-nitrophenyl)-Phosphate on Disposition and Metabolism of Hexobendine|Biochem. Pharmacol.26(3): 223-228|1977|10.1016/0006-2952(77)90307-0
95774|T||Symes,A.L., and T.L. Sourkes|Pharmacological and Biochemical Actions of the Hemolytic Agents Acetylphenylhydrazine and Phenylhydrazine on Monoamine Oxidase in the Rat|Biochem. Pharmacol.23(14): 2045-2056|1974|10.1016/0006-2952(74)90263-9
95775|T||Wu,W.N., L.A. McKown, and P.J. O'Neill|In Vitro and In Vivo Metabolism of the Antianxiolytic Agent Fenobam in the Rat|J. Pharm. Sci.84(2): 185-189|1995|10.1002/jps.2600840212
95776|T||Srivastava,V.K., M.L. Pall, and A.L. Schroeder|Deoxyribunucleoside Triphosphate Pools in Neurospora crassa:  Effects of Histadine and Hydroxyurea|Mutat. Res.200(1-2): 45-53|1988|10.1016/0027-5107(88)90070-X
95777|T||Roy,B.N., D.A. Van Vugt, G.E. Weagle, R.H. Pottier, and R.L. Reid|Effect of Continuous and Multiple Doses of 5-Aminolevulinic Acid on Protoporphyrin IX Concentrations in the Rat Uterus|J. Photochem. Photobiol. B Biol.41(1/2): 122-127|1997|10.1016/S1011-1344(97)00093-6
95778|T||Furrer,P., B. Plazonnet, J.M. Mayer, and R. Gurny|Application of In Vivo Confocal Microscopy to the Objective Evaluation of Ocular Irritation Induced by Surfactants|Int. J. Pharm.207(1-2): 89-98|2000|
95779|T||De lima Nechet,K., R.W. Barreto, and E.S.G. Mizubuti|Bipolaris euphorbiae as a Biological Control Agent for Wild Poinsettia (Euphorbia heterophylla):  Host-Specificity and Variability in Pathogen and Host Populations|Biocontrol51(2): 259-275|2006|10.1007/s10526-005-1519-z
95780|T||Kumagai,H., C. Kiyohara, S. Komiyama, Y. Guo, S. Hirose, Y. Ichikawa, J. Endo, and H. Ikari|Absorption, Translocation and Metabolism of Polycarbamate, a Dithiocarbamate Fungicide, in Kidney Bean Seedlings|J. Pestic. Sci. (Multiple Languages)16(4): 641-649|1991|10.1584/jpestics.16.641
95781|A||Gottofrey,J., and H. Tjalve|Effect of Lipophilic Complex Formation on the Uptake and Distribution of Hg2+ and CH3-Hg+ in Brown Trouts (Salmo trutta): Studies with Some Compounds Containing Sulphur Ligands|Water Air Soil Pollut.56:521-532|1991|10.1007/BF00342296
95782|T||Zhan,J., C.C. Mundt, and B.A. McDonald|Sexual Reproduction Facilitates the Adaptation of Parasites to Antagonistic Host Environments:  Evidence from Empirical Study in the Wheat-Mycosphaerella graminicola System|Int. J. Parasitol.37(8-9): 861-870|2007|10.1016/j.ijpara.2007.03.003
95783|T||Steinkraus,D.C., and S.Y. Young|Evaluation of Microbial Insecticides for Control of Armyworms on Winter Wheat, 1993|Arthropod Manag. Tests19:297-|1994|10.1093/amt/19.1.297
95784|T||Speese III,J.|Foliar Sprays to Control Worms in Sweet Corn, 1993|Insectic. Acaric. Tests19:96-97|1994|
95785|T||Schuster,D.J.|Influence of Bacillus thuringiensis Products on the Tomato Pinworm in the Laboratory, Summer 1992|Arthropod Manag. Tests19:153-|1994|10.1093/amt/19.1.153
95786|T||White,C.A., B.R. Leonard, D.J. Boethel, J.D. Thomas, and A.T. Wier|Soybean Looper Control in the Macon Ridge Region of Louisiana with Selected Bt Insecticides, 1993|Arthropod Manag. Tests19:273-274|1994|10.1093/amt/19.1.273
95787|T||White,C.A., B.R. Leonard, M.E. Barfield, S.H. Martin, and J.B. Graves|Evaluation of Selected Bt Compounds for Bollworm and Tobacco Budworm Control, 1993|Arthropod Manag. Tests19:242-|1994|
95788|T||White,C.A., B.R. Leonard, E. Burris, S.H. Martin, and J.B. Graves|Evaluation of Condor OF Against Bollworm-Tobacco Budworm, 1993|Arthropod Manag. Tests19:242-243|1994|
95789|T||McPherson,R.M., A.L. Lambert, J.D. Taylor, and M.L. Padgett|Control of Velvetbean Caterpillars on Georgia Soybeans, 1993|Arthropod Manag. Tests19:271-|1994|10.1093/amt/19.1.271
95790|T||Wolf,S.P., and T.P. Mack|Evaluation of Insecticides for Control of Velvetbean Caterpillar on Peanuts, 1993|Arthropod Manag. Tests19:251-252|1994|
95791|T||Bartels,D.W., and W.D. Hutchison|Insecticidal Control of European Corn Borer and Corn Earworm in Minnesota, 1994|Arthropod Manag. Tests20:84-|1995|10.1093/amt/20.1.84
95792|T||White,C.A., B.R. Leonard, G. Burris, and J.B. Graves|Laboratory Bioassay of Selected Bt Insecticides Against Tobacco Budworm, 1994|Arthropod Manag. Tests20:331-|1995|
95793|T||Brunner,J.F., M.D. Doerr, and L.O. Smith|Bioassay, Laboratory Tests of Bacillus thuringiensis Products on Leafroller Larvae, 1994|Arthropod Manag. Tests20:348-|1995|10.1093/amt/20.1.348
95794|T||Young,S.Y.|Control of Soybean Looper on Soybean with Bacillus thuringiensis, 1994|Arthropod Manag. Tests20:253-|1995|10.1093/amt/20.1.253
95795|T||Fitzpatrick,B.J., M.E. Baur, and D.J. Boethel|Evaluation of Insecticides Against Soybean Looper on Soybean in Central Louisiana, 1998|Arthropod Manag. Tests24:285-286|1999|
95796|T||Young,S.Y.|Control of Soybean Looper on Soybean with Bacillus thuringiensis, 1993|Arthropod Manag. Tests19:275-276|1994|10.1093/amt/19.1.275
95797|T||Johnson,D.R., and A.M. Jordan|Control of Bollworm and Budworm in Cotton Using BT's in Combination with Larvin|Arthropod Manag. Tests19:224-225|1994|10.1093/amt/19.1.224a
95798|T||Mascarenhas,R.N., A.T. Wier, D.J. Boethel, P.S. Lingren, and B.R. Leonard|Evaluation of Selected Bacillus thuringiensis Insecticides for Control of Soybean Looper in North Louisiana, 1994|Arthropod Manag. Tests20:238-|1995|10.1093/amt/20.1.238
95800|T||Elliott,R.H., D. Cmiralova, and W.G. Wellington|Olfactory Repellency of Herbicides to Foraging Honey Bees (Hymenoptera, Apidae)|Can. Entomol.111(10): 1131-1135|1979|10.4039/Ent1111131-10
95802|T||Thomas,J.D., A.T. Wier, M.L. Boyd, S. Lingren, and D.J. Boethel|Velvetbean Caterpillar Control on Louisiana Soybean, 1993|Arthropod Manag. Tests19:271-273|1994|10.1093/amt/19.1.271a
95803|T||Rodriguez,L.M., A.E. Woolwine, E.A. Ostheimer, T.E. Reagan, and W.H. White|Small Plot Insecticide Trial Against SCB, 1994|Arthropod Manag. Tests20:256-|1995|10.1093/amt/20.1.256
95804|T||Larson,L.L.|Laboratory Toxicity of Spinosad to Late Second Instar Tobacco Budworm Compared to Commercial Standards, 1994|Arthropod Manag. Tests20:356-|1995|10.1093/amt/20.1.356
95805|T||Speese III,J.|Foliar Sprays to Control Insects on Peppers, 1993|Insectic. Acaric. Tests19:105-106|1994|
95806|T||Leonard,B.R., P.A. Clay, D.J. Boethel, J. Thomas, and A.T. Weir|Control of Soybean Insect Pests in the Macon Ridge Region of Louisiana, 1993|Arthropod Manag. Tests19:270-271|1993|10.1093/amt/19.1.270
95807|T||Bhaskaran,R., D. Kandasamy, G. Oblisami, and T.R. Subramaniam|Utilization of Disyston as Carbon and Phosphorus Sources by Soil Microflora|Curr. Sci. (Bangalore)42(23): 835-836|1973|
95808|A||Roling,J.A., and W.S. Baldwin|Alterations in Hepatic Gene Expression by Trivalent Chromium in Fundulus heteroclitus|Mar. Environ. Res.62(suppl.1): S122 - S127|2006|
95809|A||Roling,J.A., L.J. Bain, J. Gardea-Torresdey, J. Bader, and W.S. Baldwin|Hexavalent Chromium Reduces Larval Growth and Alters Gene Expression in Mummichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.25(10): 2725-2733|2006|10.1897/05-659R.1
95810|A||Romeo,M., S. Gharbi-Bouraoui, M. Gnassia-Barelli, M. Dellali, and P. Aissa|Responses of Hexaplex (Murex) trunculus to Selected Pollutants|Sci. Total Environ.359(1-3): 135-144|2006|10.1016/j.scitotenv.2005.09.071
95811|A||Roy,S., A. Chattoraj, and S. Bhattacharya|Arsenic-Induced Changes in Optic Tectal Histoarchitecture and Acetylcholinesterase-Acetylcholine Profile in Channa punctatus:  Amelioration by Selenium|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(1): 16-24|2006|10.1016/j.cbpc.2006.04.018
95812|A||Reynaud,S., D. Marrionet, L. Taysse, and P. Deschaux|Interleukin-1alpha and Tumor Necrosis Factor alpha Modulate Cytochrome P450 Activities in Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.62(3): 355-362|2005|10.1016/j.ecoenv.2004.12.013
95813|A||Roberts,J.F., S.J. Marshall, and D.W. Roberts|Aquatic Toxicity of Ethoxylated and Propoxylated Alcohols to Daphnia magna|Environ. Toxicol. Chem.26(1): 68-72|2007|10.1897/07-023R.1
95814|A||Roberts,D.A., A.G.B. Poore, and E.L. Johnston|Ecological Consequences of Copper Contamination in Macroalgae:  Effects on Epifauna and Associated Herbivores|Environ. Toxicol. Chem.25(9): 2470-2479|2006|10.1897/05-661R.1
95815|A||Rocchetta,I., M. Mazzuca, V. Conforti, L. Ruiz, V. Balzaretti, and M.D.C.R. De Molina|Effect of Chromium on the Fatty Acid Composition of Two Strains of Euglena gracilis|Environ. Pollut.141(2): 353-358|2006|10.1016/j.envpol.2005.08.035
95816|AT||Pandey,D.K., N. Mishra, and P. Singh|Relative Phytotoxicity of Hydroquinone on Rice (Oryza sativa L.) and Associated Aquatic Weed Green Musk Chara (Chara zeylanica Willd.)|Pestic. Biochem. Physiol.83(2/3): 82-96|2005|10.1016/j.pestbp.2005.03.013
95817|A||Pandey,S., N.S. Nagpure, R. Kumar, S. Sharma, S.K. Srivastava, and M.S. Verma|Genotoxicity Evaluation of Acute Doses of Endosulfan to Freshwater Teleost Channa punctatus (Bloch) by Alkaline Single-Cell Gel Electrophoresis|Ecotoxicol. Environ. Saf.65(1): 56-61|2006|10.1016/j.ecoenv.2005.06.007
95818|T||Pillania,S.S., K.S. Chauhan, A.K. Narwal, and S.S. Jakhar|Effect of Pre-Harvest Spray of Dithane M-45 and Dithane Z-78 on Shelf Life of Grapes cv. Perlette|Ann. Biol.9(1): 127-130|1993|
95819|T||Roberti,R., P. Flori, and L. Busi|Evaluation of Chemical Seed Treatment for the Control of Seed-Borne Fusarium culmorum and Bipolaris sorokiniana on Wheat|Meded. Fac. Landbouwwet. Rijksuniv. Gent57(2a): 223-230|1992|
95820|T||Aubert,C., R. Baumes, Z. Gunata, J.P. Lepoutre, J.F. Cooper, and C. Bayonove|Effects of Sterol Biosynthesis Inhibiting Fungicides on the Aroma of Grape|Sci. Aliments18(1): 41-58|1998|
95821|T||Wojdyla,A.T., L.B. Orlikowski, A. Niekraszewicz, and H. Struszczyk|Effectiveness of Chitosan in the Control of Sphaerotheca pannosa var. Rosae and Peronospora sparsa on Roses and Myrothecium roridum on Dieffenbachia|Meded. Fac. Landbouwwet. Rijksuniv. Gent61(2a): 461-464|1996|
95822|T||Samoucha,Y., and Y. Cohen|Toxicity of Propamocarb to the Late Blight Fungus on Potato|Phytoparasitica18(1): 27-40|1990|10.1007/BF02980824
95823|T||Mehta,N., G.S. Saharan, and C.D. Kaushik|Efficacy and Economics of Fungicidal Management of White Rust and Downy Mildew Complex in Mustard|Indian J. Mycol. Plant Pathol.26(3): 243-247|1996|
95824|T||Gupta,S.K., and K.R. Shyam|Anti-Sporulant Activity of Fungicides on Downy Mildew (Peronospora parasitica) of Cabbage (Brassica oleracea Convar Capitata Var Capitata)|Indian J. Agric. Sci.64(12): 891-893|1994|
95825|T||Hutton,D.G.|The Appearance of Dicarboximide Resistance in Alternaria alternata in Passionfruit in South-East Queensland|Australas. Plant Pathol.17(2): 34-36|1988|10.1071/APP9880034
95826|T||Jain,S.K., S. Kumar, and M.C. Sharma|Effect of Foliar Sprays of Antibiotics and Fungicides on the Rhizosphere Mycoflora of Ocimum basilicum L|Geobios14(1): 36-38|1987|
95827|T||Jiang,D.K.|Chemical Control of Sugarcane Rust (Puccinia melanocephala Sydow)|Rep. Taiwan Sugar Res. Inst.0(108): 25-34|1985|
95828|T||Khan,S.N., P.S. Rehill, R.K. Tivari, D.S. Rawat, and B.M. Misra|Control of Poplar Rust, Melampsora ciliata in Nurseries|Indian J. For.11(1): 77-79|1988|
95829|T||Platt,H.W.|Controlling Potato Late Blight with Systemic-Protectant Fungicide Combinations of Metalaxyl and Mancozeb|Am. Potato J.62(10): 499-510|1985|10.1007/BF02854396
95830|T||Shrestha,S.K., S.B. Mathur, and L. Munk|Alternaria brassicae in Seeds of Rapeseed and Mustard, Its Location in Seeds, Transmission from Seeds to Seedlings and Control|Seed Sci. Technol.28(1): 75-84|2000|
95831|A||Peixoto,F., D. Alves-Fernandes, D. Santos, and A. Fontainhas-Fernandes|Toxicological Effects of Oxyfluorfen on Oxidative Stress Enzymes in Tilapia Oreochromis niloticus|Pestic. Biochem. Physiol.85(2): 91-96|2006|10.1016/j.pestbp.2005.10.007
95832|T||Singh,S.K., and B.R. Gupta|Economic Management of Foliar Diseases of Groundnut Under Dryland Conditions|Indian J. Mycol. Plant Pathol.25(3): 308-|1995|
95833|A||Pavlic,Z., B. Stjepanovic, J. Horvatic, V. Persic, D. Puntaric, and J. Culig|Comparative Sensitivity of Green Algae to Herbicides Using Erlenmeyer Flask and Microplate Growth-Inhibition Assays|Bull. Environ. Contam. Toxicol.76(5): 883-890|2006|10.1007/s00128-006-1001-3
95834|A||Pavlic,Z., Z. Vidakovic-Cifrek, and D. Puntaric|Toxicity of Surfactants to Green Microalgae Pseudokirchneriella subcapitata and Scenedesmus subspicatus and to Marine Diatoms Phaeodactylum tricornutum and Skeletonema costatum|Chemosphere61(8): 1061-1068|2005|10.1016/j.chemosphere.2005.03.051
95835|T||Khune,N.N., S.O. Kolte, P.D. Wangikar, and B.B. Bhombe|Chemical Control of Brown Rust of Wheat in Vidarbha Region Under Natural Conditions of Infection|PKV Res. J.12(2): 133-135|1988|
95836|T||El-Sayed,S.F., M.A. Badawi, I.M. Mahmoud, and M.H. Motawa|Some Morphological Characters and Yield of Broad Bean (Vicia faba) as Affected by Pesticide Treatments|J. Agric. Sci.126(4): 463-469|1996|10.1017/S0021859600075559
95837|A||Patyna,P.J., R.P. Brown, R.A. Davi, D.J. Letinski, P.E. Thomas, K.R. Cooper, and T.F. Parkerton|Hazard Evaluation of Diisononyl Phthalate and Diisodecyl Phthalate in a Japanese Medaka Multigenerational Assay|Ecotoxicol. Environ. Saf.65(1): 36-47|2006|10.1016/j.ecoenv.2005.05.023
95838|A||Park,J.W., J. Rinchard, F. Liu, T.A. Anderson, R.J. Kendall, and C.W. Theodorakis|The Thyroid Endocrine Disruptor Perchlorate Affects Reproduction, Growth, and Survival of Mosquitofish|Ecotoxicol. Environ. Saf.63(3): 343-352|2006|10.1016/j.ecoenv.2005.04.002
95840|T||Eleftherohorinos,I.G., and K.V. Dhima|Red Rice (Oryza sativa) Control in Rice (O. sativa) with Preemergence and Postemergence Herbicides|Weed Technol.16(3): 537-540|2002|10.1614/0890-037X(2002)016[0537:RROSCI]2.0.CO;2
95841|T||Wale,S.J., and E.A. Hunter|A Comparison of Fungicides for the Control of Mildew on Spring Barley|J. Agric. Sci.105(3): 573-579|1985|10.1017/S0021859600059463
95842|T||Dickens,J.S.W.|Studies on the Chemical Control of Chrysanthemum White Rust Caused by Puccinia horiana|Plant Pathol.39(3): 434-442|1990|10.1111/j.1365-3059.1990.tb02519.x
95843|A||Peters,L.E., M. MacKinnon, T. Van Meer, M.R. Van den Heuvel, and D.G. Dixon|Effects of Oil Sands Process-Affected Waters and Naphthenic Acids on Yellow Perch (Perca flavescens) and Japanese Medaka (Orizias latipes) Embryonic Development|Chemosphere67(11): 2177-2183|2007|10.1016/j.chemosphere.2006.12.034
95844|T||Locke,T., and L. Andrews|Effects of Fungicides on Powdery Mildew, Tree Growth and Cropping of Apple|Plant Pathol.35(2): 241-248|1986|10.1111/j.1365-3059.1986.tb02009.x
95845|A||Perales-Vela,H.V., S. Gonzalez-Moreno, C. Montes-Horcasitas, and R.O. Canizares-Villanueva|Growth, Photosynthetic and Respiratory Responses to Sub-lethal Copper Concentrations in Scenedesmus incrassatulus (Chlorophyceae)|Chemosphere67(11): 2274-2281|2007|10.1016/j.chemosphere.2006.11.036
95846|A||Fulton,M.H., D.W. Moore, E.F. Wirth, G.T. Chandler, P.B. Key, J.W. Daugomah, E.D. Strozier, J. Devane, J.R. Clark, M.A.|Assessment of Risk Reduction Strategies for the Management of Agricultural Nonpoint Source Pesticide Runoff in Estuarine Ecosystems|Toxicol. Ind. Health15:201-214|1999|10.1177/074823379901500118
95847|T||Spencer,D.M.|Pelargonium Rust and Its Control by Fungicides|Plant Pathol.25(3): 156-161|1976|10.1111/j.1365-3059.1976.tb01947.x
95848|T||Penrose,L.J.|A Rational Approach to Apple Scab Control - The Role of Disease Warning Systems and Curative Spraying|Plant Prot. Q.4(3): 115-118|1989|
95849|A||Pierron,F., M. Baudrimont, A. Bossy, J.P. Bourdineaud, D. Brethes, P. Elie, and J.C. Massabuau|Impairment of Lipid Storage by Cadmium in the European Eel (Anguilla anguilla)|Aquat. Toxicol.81(3): 304-311|2007|10.1016/j.aquatox.2006.12.014
95850|T||Wagih,E.E., M.R.A. Shehata, S.A. Farag, and M.D. Dawood|Dracaena Leaf Proliferosis, a Newly Recorded Disease Affecting Dracaena sanderiana in Egypt|J. Phytopathol.126(1): 7-16|1989|10.1111/j.1439-0434.1989.tb01084.x
95851|T||Wojdyla,A.T.|Effectiveness of Fungicides in the Control of Powdery Mildew on Roses in Relation to Different Abiotic Factors|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(3b): 1135-1139|1997|
95854|T||Parvez,S., H. Tabassum, H. Rehman, B.D. Banerjee, M. Athar, and S. Raisudden|Catechin Prevents Tamoxifen-Induced Oxidative Stress and Biochemical Perturbations in Mice|Toxicology225(2-3): 109-118|2006|10.1016/j.tox.2006.05.009
95855|A||Milne,R.S., and J.F. Leatherland|Changes in Plasma Thyroid Hormones Following Administration of Exogenous Pituitary Hormones and Steroid Hormones to Rainbow Trout (Salmo gairdneri)|Comp. Biochem. Physiol. A Comp. Physiol.66:679-686|1980|10.1016/0300-9629(80)90017-1
95856|T||Mattioli,F., L. Robbiano, L. Fazzuoli, and P. Baracchini|Studies on the Mechanism of the Carcinogenic Activity of Amitrole|Fundam. Appl. Toxicol.23:101-106|1994|10.1006/faat.1994.1085
95857|T||Oliver,J.B., M.E. Reding, J.J. Moyseenko, M.G. Klein, C.M. Mannion, and B. Bishop|Survival of Adult Tiphia vernalis (Hymenoptera: Tiphiidae) After Insecticide, Fungicide, and Herbicide Exposure in Laboratory Bioassays|J. Econ. Entomol.99(2): 288-294|2006|10.1093/jee/99.2.288
95858|T||Oubaassine,R., P. Bilbault, J.C. Roegel, E. Alexandre, S. Sigrist, T. Lavaux, A. Jaeger, M. Pinget, and L. Kessler|Cardio Protective Effect of Glucose-Insulin Infusion on Acute Digoxin Toxicity in Rat|Toxicology224(3): 238-243|2006|10.1016/j.tox.2006.04.035
95859|T||Huang,H., Z. Xiong, M. Li, S. Xiong, S. Li, and F.O. Mba|Effect of Cadmium and Herbicides on the Growth, Chlorophyll, and Soluble Sugar Content in Rice Seedlings|Wuhan Univ. J. Nat. Sci.11(3): 742-748|2006|10.1007/BF02836701
95861|A||Legler,J., L.M. Zeinstra, F. Schuitemaker, P.H. Lanser, J. Bogerd, A. Brouwer, A.D. Vethaak, P. De Voogt, A.J. Murk, an|Comparison of In Vivo and In Vitro Reporter Gene Assays for Short-Term Screening of Estrogenic Activity|Environ. Sci. Technol.36(40): 4410-4415|2002|10.1021/es010323a
95862|T||Salokhe,S., A. Sarkar, A. Kulkarni, S. Mukherjee, and J.K. Pal|Flufenoxuron, an Acylurea Insect Growth Regulator, Alters Development of Tribolium castaneum (Herbst) (Coleoptera:  Tenebrionidae) by Modulating Levels of Chitin, Soluble Protein Content, and HSP70 and p34cdc2 in the La|Pestic. Biochem. Physiol.85(2): 84-90|2006|10.1016/j.pestbp.2005.10.006
95863|T||Saghir,S.A., A.L. Mendrala, M.J. Bartels, S.J. Day, S.C. Hansen, J.M. Sushynski, and J.S. Bus|Strategies to Assess Systemic Exposure of Chemicals in Subchronic/Chronic Diet and Drinking Water Studies|Toxicol. Appl. Pharmacol.211(3): 245-260|2006|10.1016/j.taap.2005.06.010
95864|T||Petroianu,G.A., M.Y. Hasan, S.M. Nurulain, K. Arafat, R. Sheen, and N. Nagelkerke|Comparison of Two Pre-Exposure Treatment Regimens in Acute Organophosphate (Paraoxon) Poisoning in Rats: Tiapride vs. Pyridostigmine|Toxicol. Appl. Pharmacol.219(2/3): 235-240|2007|10.1016/j.taap.2006.09.002
95865|T||Rajadurai,M., and P.S.M. Prince|Preventive Effect of Naringin on Isoproterenol-Induced Cardiotoxicity in Wistar Rats:  An In Vivo and In Vitro Study|Toxicology232(3): 216-225|2007|10.1016/j.tox.2007.01.006
95866|T||Roman,S.S., A. Nava, A.M. Favero, S.N. Weis, G. Zeni, J.B.T. Rocha, and C.W. Nogueira|Diphenyl Ditelluride Effect on Embryo/Fetal Development in Mice:  Interspecies Differences|Toxicology231(2-3): 243-249|2007|10.1016/j.tox.2006.11.070
95869|T||Salzman,R.A., J.A. Brady, S.A. Finlayson, C.D. Buchanan, E.J. Summer, F. Sun, P.E. Klein, R.R. Klein, L.H. Pratt, M.M. |Transcriptional Profiling of Sorghum Induced by Methyl Jasmonate, Salicylic Acid, and Aminocyclopropane Carboxylic Acid Reveals Cooperative Regulation and Novel Gene Responses|Plant Physiol.138(1): 352-368|2005|10.1104/pp.104.058206
95870|A||McGurk,M.D., F. Landry, A. Tang, and C.C. Hanks|Acute and Chronic Toxicity of Nitrate to Early Life Stages of Lake Trout (Salvelinus namaycush) and Lake Whitefish (Coregonus clupeaformis)|Environ. Toxicol. Chem.25(8): 2187-2196|2006|10.1897/05-270R.1
95871|A||Islinger,M., H. Yuan, A. Voelkl, and T. Braunbeck|Measurement of Vitellogenin Gene Expression by RT-PCR as a Tool to Identify Endocrine Disruption in Japanese Medaka (Oryzias latipes)|Biomarkers (Lond.)7(1): 80-93|2002|10.1080/13547500110086919
95872|A||Nice,H.E., D. Morritt, M. Crane, and M. Thorndyke|Long-Term and Transgenerational Effects of Nonylphenol Exposure at a Key Stage in the Development of Crassostrea gigas.  Possible Endocrine Disruption?|Mar. Ecol. Prog. Ser.256:293-300|2003|10.3354/meps256293
95873|A||Matozzo,V., and M.G. Marin|4-Nonylphenol Induces Immunomodulation and Apoptotic Events in the Clam Tapes philippinarum|Mar. Ecol. Prog. Ser.285:97-106|2005|10.3354/meps285097
95874|A||Parvez,S., and S. Raisuddin|Copper Modulates Non-Enzymatic Antioxidants in the Freshwater Fish Channa punctata (Bloch) Exposed to Deltamethrin|Chemosphere62(8): 1324-1332|2006|10.1016/j.chemosphere.2005.07.025
95875|A||Pagan,O.R., A.L. Rowlands, and K.R. Urban|Toxicity and Behavioral Effects of Dimethylsulfoxide in Planaria|Neurosci. Lett.407(3): 274-278|2006|10.1016/j.neulet.2006.08.073
95876|A||Pan,L.Q., J. Ren, and J. Liu|Responses of Antioxidant Systems and LPO Level to Benzo(a)pyrene and Benzo(k)fluoranthene in the Haemolymph of the Scallop Chlamys ferrari|Environ. Pollut.141(3): 443-451|2006|10.1016/j.envpol.2005.08.069
95877|A||Pan,L., and H. Zhang|Metallothionein, Antioxidant Enzymes and DNA Strand Breaks as Biomarkers of Cd Exposure in a Marine Crab, Charybdis japonica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(1): 67-75|2006|10.1016/j.cbpc.2006.06.001
95878|A||Rao,J.V.|Biochemical Alterations in Euryhaline Fish, Oreochromis mossambicus Exposed to Sub-lethal Concentrations of an Organophosphorus Insecticide, Monocrotophos|Chemosphere65(10): 1814-1820|2006|10.1016/j.chemosphere.2006.04.015
95879|A||Rakotondravelo,M.L., T.D. Anderson, R.E. Charlton, and K.Y. Zhu|Sublethal Effects of Three Pesticides on Activities of Selected Target and Detoxification Enzymes in the Aquatic Midge, Chironomus tentans (Diptera:  Chironomidae)|Arch. Environ. Contam. Toxicol.51(3): 360-366|2006|10.1007/s00244-005-0227-0
95880|A||Rawson,C.A., Lim.R.P., M.S.J. Warne, and C.J. Doyle|The Effect of 17 beta-Estradiol on the Development of Modified Hemal Spines in Early-Life Stage Gambusia holbrooki|Arch. Environ. Contam. Toxicol.51(2): 253-262|2006|10.1007/s00244-005-0171-z
95881|A||Kunz,P.Y., H.F. Galicia, and K. Fent|Comparison of In Vitro and In Vivo Estrogenic Activity of UV Filters in Fish|Toxicol. Sci.90(2): 349-361|2006|10.1093/toxsci/kfj082
95882|A||Thibaut,R., E. Perdu, and J.P. Cravedi|Testosterone Metabolism as a Possible Biomarker of Exposure of Fish to Nonylphenol|Rev. Med. Vet. (Multiple Languages)153(8/9): 589-590|2002|
95883|A||Prodocimo,V., and C.A. Freire|The Na+, K+, 2Cl- Cotransporter of Estuarine Pufferfishes (Sphoeroides testudineus and S. greeleyi) in Hypo- and Hyper-regulation of Plasma Osmolality|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(3-4): 347-355|2006|10.1016/j.cbpc.2005.11.013
95884|A||Rajagopal,S., V.P. Venugopalan, G. Van der Velde, and H.A. Jenner|Control of Modiolid Mussels in Cooling Water Systems by Continuous Chlorination|Arch. Environ. Contam. Toxicol.51(2): 215-222|2006|10.1007/s00244-005-0257-7
95885|A||Pettersson,M., and N.G.A. Ekelund|Effects of the Herbicides Roundup and Avans on Euglena gracilis|Arch. Environ. Contam. Toxicol.50(2): 175-181|2006|10.1007/s00244-004-0042-z
95886|A||Pennati,R., S. Groppelli, G. Zega, M. Biggiogero, F. De Bernardi, and C. Sotgia|Toxic Effects of Two Pesticides, Imazalil and Triadimefon, on the Early Development of the Ascidian Phallusia mammillata (Chordata, Ascidiacea)|Aquat. Toxicol.79(3): 205-212|2006|10.1016/j.aquatox.2006.05.012
95887|A||Helbing,C.C., K. Ovaska, and L. Ji|Evaluation of the Effect of Acetochlor on Thyroid Hormone Receptor Gene Expression in the Brain and Behavior of Rana catesbeiana Tadpoles|Aquat. Toxicol.80(1): 42-51|2006|10.1016/j.aquatox.2006.07.011
95888|A||Liu,Y., Y. Zhang, J. Liu, and D. Huang|The Role of Reactive Oxygen Species in the Herbicide Acetochlor-Induced DNA Damage on Bufo raddei Tadpole Liver|Aquat. Toxicol.78(1): 21-26|2006|10.1016/j.aquatox.2006.01.016
95889|A||Turque,N., K. Palmier, S. Le Mevel, C. Alliot, and B.A. Demeneix|A Rapid, Physiologic Protocol for Testing Transcriptional Effects of Thyroid-Disrupting Agents in Premetamorphic Xenopus Tadpoles|Environ. Health Perspect.113(11): 1588-1593|2005|10.1289/ehp.7992
95890|T||Narwal,S., S. Singh, K.S. Panwar, and R.K. Malik|Performance of Acetachlor and Anilofos + Ethoxysulfuron for Weed Control in Transplanted Rice (Oryza sativa)|Indian J. Agron.47(1): 67-71|2002|
95891|A||Ortiz-Zarragoitia,M., and M.P. Cajaraville|Biomarkers of Exposure and Reproduction-Related Effects in Mussels Exposed to Endocrine Disruptors|Arch. Environ. Contam. Toxicol.50(3): 361-369|2006|10.1007/s00244-005-1082-8
95892|A||Opitz,R., I. Lutz, N.H. Nguyen, T.S. Scanlan, and W. Kloas|Analysis of Thyroid Hormone Receptor betaA mRNA Expression in Xenopus laevis Tadpoles as a Means to Detect Agonism and Antagonism of Thyroid Hormone Action|Toxicol. Appl. Pharmacol.212(1): 1-13|2006|10.1016/j.taap.2005.06.014
95893|T||Kummerova,M., J. Krulova, S. Zezulka, and J. Triska|Evaluation of Fluoranthene Phytotoxicity in Pea Plants by Hill Reaction and Chlorophyll Fluorescence|Chemosphere65(3): 489-496|2006|10.1016/j.chemosphere.2006.01.052
95894|T||Reddy,R.N., J.R. Latendresse, and H.M. Mehendale|Colchicine Antimitosis Causes Progression of S-(1,2-Dichlorovinyl)-L-Cysteine-Induced Injury Leading to Acute Renal Failure and Death in Mice|Toxicology220(2-3): 147-159|2006|10.1016/j.tox.2005.12.012
95895|A||Ramirez,O.A.B., and F.P. Garcia|Genotoxic Damage in Zebra Fish (Danio rerio) by Arsenic in Waters from Zimapan, Hidalgo, Mexico|Mutagenesis20(4): 291-295|2005|10.1093/mutage/gei039
95896|T||Rajendram,R., J.S. Marway, and V.R. Preedy|The Toxic Effects of Acute Ethanol and Endotoxin on Skeletal Muscle (Gastrocnemius) and Smooth Muscle (Jejunal Seromuscular) Protein Synthesis|Toxicology226(1): 62-63|2006|10.1016/j.tox.2006.05.085
95897|T||Rajamani,R., A. Muthuvel, M. Senthilvelan, and R. Sheeladevi|Oxidative Stress Induced by Methotrexate Alone and in the Presence of Methanol in Discrete Regions of the Rodent Brain, Retina and Optic Nerve|Toxicol. Lett.165(3): 265-273|2006|10.1016/j.toxlet.2006.05.005
95898|T||National Cancer Institute|Bioassay of Endosulfan for Possible Carcinogenicity|Natl. Cancer Inst. Carcinog. Tech. Rep. Ser.:100 p.|1978|
95899|T||Ashida,H., K. Kanazawa, and G.I. Danno|Relationship Between Hepatic Phosphoglucomutase Activity and Oxidative Stress Caused by Dietary Products of Lipid Peroxidation|Agric. Biol. Chem.55(7): 1765-1770|1991|
95900|T||Pilon,A.M., M.G.A. Oliveira, and R.N.C. Guedes|Protein Digestibility, Protease Activity, and Post-embryonic Development of the Velvetbean Caterpillar (Anticarsia gemmatalis) Exposed to the Trypsin-Inhibitor Benzamidine|Pestic. Biochem. Physiol.86(1): 23-29|2006|10.1016/j.pestbp.2005.11.005
95901|T||Pina-Guzman,B., M.J. Solis-Heredia, A.E. Rojas-Garcia, M. Uriostegui-Acosta, and B. Quintanilla-Vega|Genetic Damage Caused by Methyl-Parathion in Mouse Spermatozoa is Related to Oxidative Stress|Toxicol. Appl. Pharmacol.216(2): 216-224|2006|10.1016/j.taap.2006.05.001
95902|T||Philip,B.K., S.S. Anand, P.S. Palkar, M.M. Mumtaz, J.R. Latendresse, and H.M. Mehendale|Subchronic Chloroform Priming Protects Mice from a Subsequently Administered Lethal Dose of Chloroform|Toxicol. Appl. Pharmacol.216(1): 108-121|2006|10.1016/j.taap.2006.04.012
95903|A||Pickhardt,P.C., M. Stepanova, and N.S. Fisher|Contrasting Uptake Routes and Tissue Distributions of Inorganic and Methylmercury in Mosquitofish (Gambusia affinis) and Redear Sunfish (Lepomis microlophus)|Environ. Toxicol. Chem.25(8): 2132-2143|2006|10.1897/05-595R.1
95904|T||Petroianu,G.A., S.M. Nurulain, K. Arafat, S. Rajan, and M.Y. Hasan|Effect of Pyridostigmine, Pralidoxime and Their Combination on Survival and Cholinesterase Activity in Rats Exposed to the Organophosphate Paraoxon|Arch. Toxicol.80(11): 777-784|2006|10.1007/s00204-006-0098-9
95905|T||Rai,V., S. Khatoon, S.S. Bisht, and S. Mehrotra|Effect of Cadmium on Growth, Ultramorphology of Leaf and Secondary Metabolites of Phyllanthus amarus Schum. and Thonn.|Chemosphere61(11): 1644-1650|2005|10.1016/j.chemosphere.2005.04.052
95906|T||Perez,M.J., E. Velasco, M.J. Monte, J.M. Gonzalez-Buitrago, and J.J.G. Marin|Maternal Ethanol Consumption During Pregnancy Enhances Bile Acid-Induced Oxidative Stress and Apoptosis in Fetal Rat Liver|Toxicology225(2-3): 183-194|2006|10.1016/j.tox.2006.05.015
95907|T||Pustylnyak,V.O., L.F. Gulyaeva, and V.V. Lyakhovich|CAR Expression and Inducibility of CYP2B Genes in Liver of Rats Treated with PB-like Inducers|Toxicology216(2-3): 147-153|2005|10.1016/j.tox.2005.08.002
95908|T||Poon,R., M. Wade, V.E. Valli, and I. Chu|Short-Term Oral Toxicity of Butyl Ether, Ethyl Hexyl Ether, Methyl Heptyl Ether and 1,6-Dimethoxyhexane in Male Rats and the Role of 2-Methoxyacetic Acid|Toxicology214(1-2): 99-112|2005|10.1016/j.tox.2005.06.024
95909|T||Poland,T.M., R.A. Haack, T.R. Petrice, D.L. Miller, and L.S. Bauer|Laboratory Evaluation of the Toxicity of Systemic Insecticides for Control of Anoplophora glabripennis and Plectrodera scalator (Coleoptera:  Cerambycidae)|J. Econ. Entomol.99(1): 85-93|2006|10.1603/0022-0493(2006)099[0085:LEOTTO]2.0.CO;2
95910|T||Preetha,S.P., M. Kanniappan, E. Selvakumar, M. Nagaraj, and P. Varalakshmi|Lupeol Ameliorates Aflatoxin B1-Induced Peroxidative Hepatic Damage in Rats|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(3): 333-339|2006|10.1016/j.cbpc.2006.03.008
95911|T||Reddy,P.S., T. Pushpalatha, and P.S. Reddy|Reduction of Spermatogenesis and Steroidogenesis in Mice After Fentin and Fenbutatin Administration|Toxicol. Lett.166(1): 53-59|2006|10.1016/j.toxlet.2006.05.012
95913|A||Croce,V., S. De Angelis, L. Patrolecco, S. Polesello, and S. Valsecchi|Uptake and Accumulation of Sediment-Associated 4-Nonylphenol in a Benthic Invertebrate (Lumbriculus variegatus, Freshwater Oligochaete)|Environ. Toxicol. Chem.24(5): 1165-1171|2005|10.1897/04-337R.1
95915|T||Mezzari,M.P., K. Walters, M. Jelinkova, M.C. Shih, C.L. Just, and J.L. Schnoor|Gene Expression and Microscopic Analysis of Arabidopsis Exposed to Chloroacetanilide Herbicides and Explosive Compounds. A Phytoremediation Approach|Plant Physiol.138(2): 858-869|2005|10.1104/pp.104.056168
95916|A||Mitsou,K., A. Koulianou, D. Lambropoulou, P. Pappas, T. Albanis, and M. Lekka|Growth Rate Effects, Responses of Antioxidant Enzymes and Metabolic Fate of the Herbicide Propanil in the Aquatic Plant Lemna minor|Chemosphere62(2): 275-284|2006|10.1016/j.chemosphere.2005.05.026
95917|A||Mgbenka,B.O., N.S. Oluah, and A.A. Arungwa|Erythropoietic Response and Hematological Parameters in the Catfish Clarias albopunctatus Exposed to Sublethal Concentrations of Actellic|Ecotoxicol. Environ. Saf.62(3): 436-440|2005|10.1016/j.ecoenv.2005.03.031
95918|A||Miao,A.J., and W.X. Wang|Cadmium Toxicity to Two Marine Phytoplankton Under Different Nutrient Conditions|Aquat. Toxicol.78(2): 114-126|2006|10.1016/j.aquatox.2006.02.008
95919|T||Miyata,K., K. Shiraishi, S. Houshuyama, N. Imatanaka, T. Umano, Y. Minobe, and K. Yamasaki|"Subacute Oral Toxicity Study of Di(2-ethylhexyl)adipate Based on the Draft Protocol for the ""Enhanced OECD Test Guideline No. 407"""|Arch. Toxicol.80(4): 181-186|2006|10.1007/s00204-005-0030-8
95920|T||Matsumoto,K., S. Horie, H. Takayama, H. Ishikawa, N. Aimi, D. Ponglux, T. Murayama, and K. Watanabe|Antinociception, Tolerance and Withdrawal Symptoms Induced by 7-Hydroxymitragynine, an Alkaloid from the Thai Medicinal Herb Mitragyna speciosa|Life Sci.78(1): 2-7|2005|10.1016/j.lfs.2004.10.086
95921|A||Mendoza-Cozatl,D.G., E. Rangel-Gonzalez, and R. Moreno-Sanchez|Simultaneous Cd2+, Zn2+, and Pb2+ Uptake and Accumulation by Photosynthetic Euglena gracilis|Arch. Environ. Contam. Toxicol.51(4): 521-528|2006|10.1007/s00244-005-0207-4
95922|A||Maul,J.D., L.J. Schuler, J.B. Belden, M.R. Whiles, and M.J. Lydy|Effects of the Antibiotic Ciprofloxacin on Stream Microbial Communities and Detritivorous Macroinvertebrates|Environ. Toxicol. Chem.25(6): 1598-1606|2006|10.1897/05-441R.1
95923|A||Maul,J.D., J.L. Farris, and M.J. Lydy|Interaction of Chemical Cues from Fish Tissues and Organophosphorous Pesticides on Ceriodaphnia dubia Survival|Environ. Pollut.141(1): 90-97|2006|10.1016/j.envpol.2005.08.013
95924|A||Matz,C.J., R.G. Treble, and P.H. Krone|Accumulation and Elimination of Cadmium in Larval Stage Zebrafish Following Acute Exposure|Ecotoxicol. Environ. Saf.66(1): 44-48|2007|10.1016/j.ecoenv.2005.11.001
95925|A||Bistodeau,T.J., L.B. Barber, S.E. Bartell, R.A. Cediel, K.J. Grove, J. Klaustermeier, J.C. Woodard, K.E. Lee, and H.L. |Larval Exposure to Environmentally Relevant Mixtures of Alkylphenolethoxylates Reduces Reproductive Competence in Male Fathead Minnows|Aquat. Toxicol.79(3): 268-277|2006|10.1016/j.aquatox.2006.06.015
95926|A||Andreassen,T.K., K. Skjoedt, and B. Korsgaard|Upregulation of Estrogen Receptor alpha and Vitellogenin in Eelpout (Zoarces viviparus) by Waterborne Exposure to 4-tert-Octylphenol and 17beta-Estradiol|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(3-4): 340-346|2005|10.1016/j.cca.2005.03.003
95927|A||Bohne,V.J.B., K. Hamre, and A. Arukwe|Hepatic Metabolism, Phase I and II Biotransformation Enzymes in Atlantic Salmon (Salmo Salar, L) During a 12 Week Feeding Period with Graded Levels of the Synthetic Antioxidant, Ethoxyquin|Food Chem. Toxicol.45(5): 733-746|2007|10.1016/j.fct.2006.10.020
95928|A||Bangsgaard,K., S.S. Madsen, and B. Korsgaard|Effect of Waterborne Exposure to 4-tert-Octylphenol and 17beta-Estradiol on Smoltification and Downstream Migration in Atlantic Salmon, Salmo salar|Aquat. Toxicol.80(1): 23-32|2006|10.1016/j.aquatox.2006.07.009
95929|A||Baek,H.J., M.H. Park, Y.D. Lee, and H.B. Kim|Effect of in Vitro Xenoestrogens on Steroidogenesis in Mature Female Fish, Chasmichthys dolichognathus|Fish Physiol. Biochem.28(1-4): 413-414|2003|10.1023/B:FISH.0000030609.71170.f9
95930|A||Barsiene,J., V. Dedonyte, A. Rybakovas, L. Andreikenaite, and O.K. Andersen|Investigation of Micronuclei and Other Nuclear Abnormalities in Peripheral Blood and Kidney of Marine Fish Treated with Crude Oil|Aquat. Toxicol.78(suppl. 1): S99 - S104|2006|
95931|A||Burgess,R.M., M.C. Pelletier, J.L. Gundersen, M.M. Perron, and S.A. Ryba|Effects of Different Forms of Organic Carbon on the Partitioning and Bioavailability of Nonylphenol|Environ. Toxicol. Chem.24(7): 1609-1617|2005|10.1897/04-445R.1
95932|A||Arukwe,A., S.W. Kullman, K. Berg, A. Goksoyr, and D.E. Hinton|Molecular Cloning of Rainbow Trout (Oncorhynchus mykiss) Eggshell Zona radiata Protein Complementary DNA:  MRNA Expression in 17 beta-Estradiol- and Nonylphenol-Treated Fish|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.132(2): 315-326|2002|10.1016/S1096-4959(02)00009-X
95934|A||Cionna,C., F. Maradonna, I. Olivotto, G. Pizzonia, and O. Carnevali|Effects of Nonylphenol on Juveniles and Adults in the Grey Mullet, Liza aurata|Reprod. Toxicol.22(3): 449-454|2006|10.1016/j.reprotox.2006.04.025
95935|A||Caquet,T.|Use of Carbon and Nitrogen Stable Isotope Ratios to Assess the Effects of Environmental Contaminants on Aquatic Food Webs|Environ. Pollut.141(1): 54-59|2006|10.1016/j.envpol.2005.08.029
95936|A||Chikae,M., R. Ikeda, Y. Hatano, Q. Hasan, Y. Morita, and E. Tamiya|Effects of bis(2-Ethylhexyl) Phthalate, gamma-Hexachlorocyclohexane, and 17beta-Estradiol on the Fry Stage of Medaka (Oryzias latipes)|Environ. Toxicol. Pharmacol.18(1): 9-12|2004|10.1016/j.etap.2004.04.004
95937|A||Buhler,D.R., C.L. Miranda, M.C. Henderson, Y.H. Yang, S.J. Lee, and J.L. Wang-Buhler|Effects of 17beta-Estradiol and Testosterone on Hepatic mRNA/Protein Levels and Catalytic Activities of CYP2M1, CYP2K1, and CYP3A27 in Rainbow Trout (Oncorhynchus mykiss)|Toxicol. Appl. Pharmacol.168(2): 91-101|2000|10.1006/taap.1999.9016
95938|A||Kitamura,S., M. Yoshida, K. Sugihara, S. Ohta, and A. Hara|Effect of Fenthion on the Level of Vitellogenin in Goldfish, Carassius auratus|J. Health Sci.45(5): 262-265|1999|10.1248/jhs.45.262
95939|A||Mochida,K., K. Fujii, A. Kakuno, T. Matsubara, N. Ohkubo, S. Adachi, and K. Yamauchi|Expression of Ubiquitin C-Terminal Hydrolase is Regulated by Estradiol-17 beta in Testis and Brain of the Japanese Common Goby|Fish Physiol. Biochem.28(1-4): 435-436|2003|10.1023/B:FISH.0000030619.30746.6b
95940|A||Larkin,P., T. Sabo-Attwood, J. Kelso, and N.D. Denslow|Gene Expression Analysis of Largemouth Bass Exposed to Estradiol, Nonylphenol, and p,p'-DDE|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.133(4): 543-557|2002|10.1016/S1096-4959(02)00155-0
95941|A||Meier,S., T.E. Andersen, B. Norberg, A. Thorsen, G.L. Taranger, O.S. Kjesbu, R. Dale, H.C. Morton, J. Klungsoyr, and A.|Effects of Alkylphenols on the Reproductive System of Atlantic Cod (Gadus morhua)|Aquat. Toxicol.81(2): 207-218|2007|10.1016/j.aquatox.2006.12.002
95942|A||Maradonna,F., V. Polzonetti, S.M. Bandiera, B. Migliarini, and O. Carnevali|Modulation of the Hepatic CYP1A1 System in the Marine Fish Gobius niger, Exposed to Xenobiotic Compounds|Environ. Sci. Technol.38(23): 6277-6282|2004|10.1021/es049786h
95943|A||Min,J., S.K. Lee, and M.B. Gu|Effects of Endocrine Disrupting Chemicals on Distinct Expression Patterns of Estrogen Receptor, Cytochrome P450 Aromatase and p53 Genes in Oryzias latipes Liver|J. Biochem. Mol. Toxicol.17(5): 272-277|2003|10.1002/jbt.10089
95944|A||Lee,Y.M., S.O. Jung, J.S. Seo, Y.D. Yoon, and J.S. Lee|Cloning of Ki-ras and Ha-ras cDNAs from the Hermaphroditic Fish Rivulus marmoratus (Cyprinodontiformes, Rivulidae) and Its Expression After Exposure to 4-Nonylphenol|Mar. Environ. Res.62(suppl. 1): S136 - S140|2006|
95945|A||Martin-Skilton,R., R. Thibaut, and C. Porte|Endocrine Alteration in Juvenile Cod and Turbot Exposed to Dispersed Crude Oil and Alkylphenols|Aquat. Toxicol.78(Suppl. 1): S57 - S64|2006|
95946|A||Jung,J.H., Y.C. Sohn, J.Y. Lee, D.J. Kim, J.S. Lee, J.K. Jeon, and C.H. Han|Molecular Cloning of Vitellogenin cDNA in Rockfish (Sebastes schlegeli) and Effects of Estrogenic Substances on Its Gene Expression|Fish Physiol. Biochem.28(1-4): 419-420|2003|10.1023/B:FISH.0000030612.97338.35
95947|A||Jobling,S., D. Casey, T. Rodgers-Gray, J. Oehlmann, U. Schulte-Oehlmann, S. Pawlowski, T. Baunbeck, A.P. Turner, and C.|Comparative Responses of Molluscs and Fish to Environmental Estrogens and an Estrogenic Effluent|Aquat. Toxicol.65(2): 205-220|2003|10.1016/S0166-445X(03)00134-6
95948|A||Hasselberg,L., S. Meier, A. Svardal, T. Hegelund, and M.C. Celander|Effects of Alkylphenols on CYP1A and CYP3A Expression in First Spawning Atlantic Cod (Gadus morhua)|Aquat. Toxicol.67(4): 303-313|2004|10.1016/j.aquatox.2003.12.007
95949|A||Park,S.Y., and J. Choi|Cytotoxicity, Genotoxicity and Ecotoxicity Assay Using Human Cell and Environmental Species for the Screening of the Risk from Pollutant Exposure|Environ. Int.33(6): 817-822|2007|10.1016/j.envint.2007.03.014
95950|A||Janer,G., R. Lavado, R. Thibaut, and C. Porte|Effects of 17beta-Estradiol Exposure in the Mussel Mytilus galloprovincialis: A Possible Regulating Role for Steroid Acyltransferases|Aquat. Toxicol.75(1): 32-42|2005|10.1016/j.aquatox.2005.01.012
95951|A||Pachura,S., J.P. Cambon, C. Blaise, and P. Vasseur|4-Nonylphenol-Induced Toxicity and Apoptosis in Hydra attenuata|Environ. Toxicol. Chem.24(12): 3085-3091|2005|10.1897/04-669R.1
95952|A||Nice,H.E.|Sperm Motility in the Pacific Oyster (Crassostrea gigas) is Affected by Nonylphenol|Mar. Pollut. Bull.50(12): 1668-1674|2005|10.1016/j.marpolbul.2005.07.006
95953|A||Oppen-Berntsen,D.O., A. Arukwe, F. Yadetie, J.B. Lorens, and R. Male|Salmon Eggshell Protein Expression:  A Marker for Environmental Estrogens|Mar. Biotechnol.1(3): 252-260|1999|10.1007/PL00011774
95954|A||Muncke,J., M. Junghans, and R.I.L. Eggen|Testing Estrogenicity of Known and Novel (Xeno-)Estrogens in the MolDarT Using Developing Zebrafish (Danio rerio)|Environ. Toxicol.22(2): 185-193|2007|10.1002/tox.20255
95955|A||Lee,Y.M., S.Y. Chang, S.O. Jung, H.S. Kweon, and J.S. Lee|Cloning and Expression of alpha Class Glutathione S-Transferase Gene from the Small Hermaphroditic Fish Rivulus marmoratus (Cyprinodontiformes, Rivulidae)|Mar. Pollut. Bull.51(8-12): 776-783|2005|10.1016/j.marpolbul.2005.06.016
95956|T||Nation,J.L., F.A. Robinson, S.J. Yu, and A.B. Bolten|Influence upon Honeybees of Chronic Exposure to Very Low Levels of Selected Insecticides in Their Diet|J. Apic. Res.25(3): 170-177|1986|10.1080/00218839.1986.11100712
95957|T||Reynolds,S.L., R.J. Fussell, and R. MacArthur|Investigation into the Validity of Extrapolation in Setting Maximum Residue Levels for Pesticides in Crops of Similar Morphology|Food Addit. Contam.22(1): 31-38|2005|10.1080/02652030400028050
95958|T||Walgenbach,J.F., D.M. Borchert, and C.R. Palmer|Apple, Mite Control with Fluazinam, 1992|Insectic. Acaric. Tests18:55-|1993|10.1093/iat/18.1.55
95959|T||De Rooij,F., and R.O. Clements|Enhancement of Sward Establishment Through Use of Carbosulfan, Oxamyl, or Benomyl plus Captan|Tests Agrochem. Cultiv.9:70-71|1988|
95960|T||Schwab,B.W.|Studies of Disulfoton Tolerance in Rats|Ph.D.Thesis, Univ.of Texas Grad.School of Biomed.Sci., Houston, TX:117 p.|1981|
95961|T||Foley,D.J.|A Comparison of the Effects of Acute and Subacute Inhibition of Cholinesterase on the Sensitivity of Rat Tissues to Drugs|Ph.D Thesis, West Virginia University, Morgantown, WV:93 p.|1972|
95962|T||Corey,S.E.|Changes in the Sensitivity of the Rat Heart to Drugs After Chronic Cholinesterase Inhibition|Ph.D Thesis, West Virginia University, Morgantown, WV:66 p.|1970|
95963|T||Aldridge,J.E.|Developmental Neurotoxicity of Chlorpyrifos:  Effects on the Serotonergic System|Ph.D. Thesis, Duke University, Raleigh, NC:139 p.|2005|
95964|T||Hassan,G.|Differential Sensitivity of Italian Ryegrass and Rice Cultivars to Fenoxaprop|Ph.D.Thesis, Oregon State University, Corvallis, OR:219 p.|1992|
95965|T||Goldman,J.M., M.B. Parrish, R.L. Cooper, and W.K. McElroy|Blockade of Ovulation in the Rat by Systemic and Ovarian Intrabursal Administration of the Fungicide Sodium Dimethyldithiocarbamate|Reprod. Toxicol.11(2-3): 185-190|1997|10.1016/S0890-6238(97)00005-1
95966|AT||Yun,M.S., Y. Yogo, R. Miura, Y. Yamasue, and A.J. Fischer|Cytochrome P-450 Monooxygenase Activity in Herbicide-Resistant and -Susceptible Late Watergrass (Echinochloa phyllopogon)|Pestic. Biochem. Physiol.83(2/3): 107-114|2005|10.1016/j.pestbp.2005.04.002
95967|T||Strider,D.L.|Resistance of Rieger elatior Begonias to Powdery Mildew and Efficacy of Fungicides for Control of the Disease|Plant Dis. Rep.58(10): 875-878|1974|
95968|T||Ryan,L.C., B.R. Endecott, G.D. Hanneman, and P.W. Smith|Effects of an Organophosphorus Pesticide on Reproduction in the Rat|Report 0723907, Federal Aviation Administration, Civil Aeromedical Institute, Oklahoma, OK:6 p.|1970|
95969|T||King,J.E., R.G. Price, K.N. Pinkston, and C.E. Whitcomb|Control of the Nantucket Pine Tip Moth, Rhyacionia frustrana (Comstock), on Nursery-Grown Pine with Granular Systemic Insecticides|J. Environ. Hortic.1(2): 42-45|1983|10.24266/0738-2898-1.2.42
95970|T||Olson,K.L.|Effects of Chronic Pre- and Postnatal Exposure to Pesticides on the Behavior and Learning Ability in Rats|Ph.D Thesis, University of Wisconsin, Madison, WI:96 p.|1977|
95971|T||Xie,H.S.|Influence of Environmental Factors on the Performance of Imazamethabenz and Fenoxaprop in Wild Oat (Avena fatua L.) and Crops|Ph.D Thesis, University of Regina, Canada:231 p.|1994|
95972|T||Isakeit,T.S.|Deleterious Effect of Atrazine on Ungerminated Conidia of Cochliobolus sativus in Soil|Ph.D. Thesis, Michigan State University, East Lansing, MI:140 p.|1988|
95973|A||Leffler,C.W.|Ionic and Osmotic Regulation, Metabolic Response to Salinity, and Physiological Response to Pesticides of Juvenile Callinectes sapidus Rathbun|Ph.D Thesis, University of Florida, Gainesville, FL:65 p.|1974|
95974|A||Thomas,B.V.|Organophosphate Insecticides:  Metabolism, Excretion, Forensic and Mechanistic Investigations in Fish|Ph.D. Thesis, Clemson University, Clemson, SC:149 p.|1996|
95975|T||McGregor,J.T.,Jr.|Interference and Control of Broadleaf Signalgrass (Brachiaria platyphylla) in Rice (Oryza sativa)|Ph.D. Thesis, University of Arkansas, Fayetteville, AR:85 p.|1986|
95977|T||Wetzel,C., H. Krczal, and S.A. Hassan|Investigations to Evaluate the Side Effects of Pesticides on the Green Lacewing Chrysoperla carnea Steph. (Neuroptera, Chrysopidae) in the Field|J. Appl. Entomol.111(3): 217-224|1991|10.1111/j.1439-0418.1991.tb00315.x
95978|T||Bhujbal,B.G., and D.S. Kolhe|Comparative Efficacy of Some Fungicides Against Powdery Mildew of Grape|J. Maharashtra Agric. Univ.13(2): 217-218|1988|
95979|T||Anwar,N., S.I. Ahmed, and A. Askari|Laboratory Evaluation of Six Systemic Fungicides for the Control of Root-Rot in Duboisia leichardtii F. Muell|Pak. J. Sci. Ind. Res.34(10): 402-403|1991|
95980|T||Anusuya,D.|Effect of Seed Treatment with Fungicides on Nodulation and Growth of Groundnut (Arachis hypogaea L.) Plants|Pesticides 20(6): 21-22|1986|
95981|T||Sharma,S.K., and V.K. Gupta|Movement of Bavistin, Thiabendazore and Saprol in Apple Seedlings|Pesticides 20(4): 32-33|1986|
95982|T||Jones,A.L.|Control of Brown Rot of Cherry with a New Hydantoin Fungicide and with Selected Fungicide Mixtures|Plant Dis. Rep.59(2): 127-130|1975|
95983|T||Tiwari,A., and S.R. Kotasthane|Chemical Control of Fungal Foliar Diseases of Moong Bean|Pesticides 20(12): 47-48|1986|
95984|T||Chee,K.H., T.W. Darmono, and A.F. dos Santos|Laboratory Screening of Fungicides Using Cellulose Film and Leaf Discs Against South American Leaf Blight Pathogen, Microcyclus ulei|J. Nat. Rubber Res.1(2): 98-103|1986|
95985|T||Sundheim,L., and T. Amundsen|Fungicide Tolerance in the Hyperparasite Ampelomyces quisqualis and Integrated Control of Cucumber Powdery Mildew|Acta Agric. Scand.32(3): 349-355|1982|10.1080/00015128209435331
95986|T||Iwasa,T., N. Motoyama, J.T. Ambrose, and R.M. Roe|Mechanism for the Differential Toxicity of Neonicotinoid Insecticides in the Honey Bee, Apis mellifera|Crop Prot.23(5): 371-378|2004|10.1016/j.cropro.2003.08.018
95987|T||Volkel,W., T. Colnot, U.M.D. Schauer, T.H. Broschard, and W. Dekant|Toxicokinetics and Biotransformation of 3-(4-Methylbenzylidene)Camphor in Rats After Oral Administration|Toxicol. Appl. Pharmacol.216(2): 331-338|2006|10.1016/j.taap.2006.05.012
95988|T||Bhat,Z., and A.M. Shah|Management of Uromyces phaseoli with Fungicides|Int. J. Trop. Plant Dis.9(2): 231-235|1991|
95989|T||Pepin,H.S., and D.J. Ormrod|Control of Mummy Berry of Highbush Blueberry|Plant Dis. Rep.58(9): 840-843|1974|
95990|T||Koffman,W., and P.F. Kable|Improved Control of Brown Rot in Harvested Sweet Cherries by Triforine Dip Treatments|Plant Dis. Rep.59(7): 586-591|1975|
95991|A||Jung,J.H., J.K. Jeon, W.J. Shim, J.R. Oh, J.Y. Lee, B.K. Kim, and C.H. Han|Molecular Cloning of Vitellogenin cDNA in Rockfish (Sebastes schlegeli) and Effects of 2,2'4,4'5,5'-Hexachlorobiphenyl (PCB 153) on Its Gene Expression|Mar. Pollut. Bull.51(8-12): 794-800|2005|10.1016/j.marpolbul.2005.07.013
95992|A||Gutleb,A.C., L. Mossink, M. Schriks, H.J.H. Van den Berg, and A.J. Murk|Delayed Effects of Environmentally Relevant Concentrations of 3,3',4,4'-Tetrachlorobiphenyl (PCB-77) and Non-polar Sediment Extracts Detected in the Prolonged-FETAX|Sci. Total Environ.381(1-3): 307-315|2007|10.1016/j.scitotenv.2007.03.002
95993|A||Lampi,M.A., J. Gurska, X.D. Huang, D.G. Dixon, and B.M. Greenberg|A Predictive Quantitative Structure-Activity Relationship Model for the Photoinduced Toxicity of Polycyclic Aromatic Hydrocarbons to Daphnia magna with the Use of Factors for Photosensitization and Photomodification|Environ. Toxicol. Chem.26(3): 406-415|2007|10.1897/06-295R.1
95994|T||Ryan,D.E., A.W. Wood, P.E. Thomas, F.G.,Jr. Walz, P.M. Yuan, J.E. Shively, and W. Levin|Comparisons of Highly Purified Hepatic Microsomal Cytochromes P-450 from Holtzman and Long-Evans Rats|Biochim. Biophys. Acta709(2): 273-283|1982|10.1016/0167-4838(82)90470-8
95995|T||Sansone,E.B., and A.M. Losikoff|Contamination from Skin-Painting Test Chemicals|Food Cosmet. Toxicol.17(4): 349-352|1979|10.1016/0015-6264(79)90328-6
95996|T||Arcaro,K.F., L. Yi, R.F. Seegal, D.D. Vakharia, Y. Yang, D.C. Spink, K. Brosch, and J.F. Gierthy|2,2',6,6'-Tetrachlorobiphenyl is Estrogenic In Vitro and In Vivo|J. Cell. Biochem.72(1): 94-102|1999|10.1002/(SICI)1097-4644(19990101)72:1<94::AID-JCB10>3.0.CO;2-Y
95998|T||Ringer,D.P., P.L. Panzeter, and L.A. DeCicco|Alterations in Epidermal Growth Factor Binding to Hepatic Membranes Following Dietary Exposure of Rats to Known Hepatocarcinogens|Toxicol. Lett.91(1): 7-12|1997|10.1016/S0378-4274(96)03866-0
95999|T||Deng,L., J. Dai, H. Cao, and M. Xu|Effects of Methamidophos on the Predating Behavior of Hylyphantes graminicola (Sundevall) (Araneae:  Linyphiidae)|Environ. Toxicol. Chem.26(3): 478-482|2007|10.1897/06-344R.1
96000|A||De Schamphelaere,K.A.C., B.T.A. Bossuyt, and C.R. Janssen|Variability of the Protective Effect of Sodium on the Acute Toxicity of Copper to Freshwater Cladocerans|Environ. Toxicol. Chem.26(3): 535-542|2007|10.1897/06-247R.1
96001|A||Barillet,S., C. Adam, O. Palluel, and A. Devaux|Bioaccumulation, Oxidative Stress, and Neurotoxicity in Danio rerio Exposed to Different Isotopic Compositions of Uranium|Environ. Toxicol. Chem.26(3): 497-505|2007|10.1897/06-243R.1
96002|T||Auman,J.T., J. Chou, K. Gerrish, Q. Huang, S. Jayadev, K. Blanchard, and R.S. Paules|Identification of Genes Implicated in Methapyrilene-Induced Hepatotoxicity by Comparing Differential Gene Expression in Target and Nontarget Tissue|Environ. Health Perspect.115(4): 572-578|2007|10.1289/ehp.9396
96003|A||Imai,S., J. Koyama, and K. Fujii|Effects of Estrone on Full Life Cycle of Java Medaka (Oryzias javanicus), a New Marine Test Fish|Environ. Toxicol. Chem.26(4): 726-731|2007|10.1897/05-539R2.1
96004|T||Liu,Y., Y.G. Zhu, B.D. Chen, P. Christie, and X.L. Li|Yield and Arsenate Uptake of Arbuscular Mycorrhizal Tomato Colonized by Glomus mosseae BEG167 in As Spiked Soil Under Glasshouse Conditions|Environ. Int.31(6): 867-873|2005|10.1016/j.envint.2005.05.041
96005|T||Pumo,R.L., M. Bellia, A. Nicosia, V. Micale, and F. Drago|Long-Lasting Neurotoxicity of Prenatal Benzene Acute Exposure in Rats|Toxicology223(3): 227-234|2006|10.1016/j.tox.2006.04.001
96006|A||Knechtges,P.L., R.L. Sprando, K.L. Porter, L.M. Brennan, M.F. Miller, D.M. Kumsher, W.E. Dennis, C.C. Brown, and E.D. C|A Novel Amphibian Tier 2 Testing Protocol:  A 30-Week Exposure of Xenopus tropicalis to the Antiandrogen Flutamide|Environ. Toxicol. Chem.26(3): 555-564|2007|10.1897/06-210R.1
96008|T||Loumbourdis,N.S., and G. Danscher|Autometallographic Tracing of Mercury in Frog Liver|Environ. Pollut.129(2): 299-304|2004|10.1016/j.envpol.2003.10.010
96009|T||Chen,C.Y., J.T. Hamm, J.R. Hass, and L.S. Birnbaum|Time-Course Transfer of PCDD/Fs and Non-Ortho PCBs to Fetal and Neonatal Long Evans Rats|Organohalog. Compd.48:334-337|2000|
96011|T||Darling,C.T.R., and V.G. Thomas|Lead Bioaccumulation in Earthworms, Lumbricus Terrestris, from Exposure to Lead Compounds of Differing Solubility|Sci. Total Environ.346(1-3): 70-80|2005|10.1016/j.scitotenv.2004.11.011
96012|T||Kodavanti,P.R.S., W.R. Mundy, and H.A. Tilson|Neurochemical Effects of Non-coplanar PCBs:  In Vitro and In Vivo Correlations on Calcium Homeostasis and Protein Kinase C|Organohalog. Compd.37:9-12|1998|
96013|T||Holene,E., I. Nafstad, J.U. Skaare, and T. Sagvolden|Behavioral Effects of Selected PCB Congeners in Rats|Organohalog. Compd.37:29-32|1998|
96014|T||Chu,I., P. Lecavalier, T. Valli, H. Hakansson, and A. Bergman|Toxicity of Polychlorinated Biphenyl Congeners in Rats|Organohalog. Compd.37:105-107|1998|
96015|T||Dakhel,Y., and F. Jamali|Erythromycin Potentiates PR Interval Prolonging Effect of Verapamil in the Rat:  A Pharmacodynamic Drug Interaction|Toxicol. Appl. Pharmacol.214(1): 24-29|2006|10.1016/j.taap.2005.11.012
96016|T||Schuur,A.G., P.H. Cenijn, H. Van Toor, T.J. Visser, and A. Brouwer|Effect of Aroclor 1254 on Thyroid Hormone Sulfation in Fetal Rats|Organohalog. Compd.37:249-252|1998|
96017|A||Del pilar Corena,M., P. Van den Hurk, H. Zhong, C. Brock, R. Mowery, J.V. Johnson, and P.J. Linser|Degradation and Effects of the Potential Mosquito Larvicides Methazolamide and Acetazolamide in Sheepshead Minnow (Cyprinodon variegatus)|Ecotoxicol. Environ. Saf.64(3): 369-376|2006|10.1016/j.ecoenv.2005.05.015
96018|A||Das,B.K., and N. Das|Impacts of Quicklime (CaO) on the Toxicity of Copper (CuSO4, 5H2O) to Fish and Fish Food Organisms|Chemosphere61(2): 186-191|2005|10.1016/j.chemosphere.2005.02.064
96019|T||Demuynck,S., F. Grumiaux, V. Mottier, D. Schikorski, S. Lemiere, and A. Lepretre|Metallothionein Response Following Cadmium Exposure in the Oligochaete Eisenia fetida|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(1): 34-46|2006|10.1016/j.cbpc.2006.05.004
96020|T||Crofton,K.M., E.S. Craft, D.J. Ross, and M.J. DeVito|Detecting the Effects of Environmental Contaminants on Thyroid Hormones:  A Preliminary Report on a Short-Term Dosing Model in the Rat|Organohalog. Compd.37:285-288|1998|
96021|T||De Avila,D.S., M.C. Beque, V. Folmer, A.L. Braga, G. Zeni, C.W. Nogueira, F.A.A. Soares, and J.B.T. Rocha|Diethyl 2-Phenyl-2 Tellurophenyl Vinylphosphonate:  An Organotellurium Compound with Low Toxicity|Toxicology224(1-2): 100-107|2006|10.1016/j.tox.2006.04.027
96023|T||Deepa,P.R., and P. Varalakshmi|Influence of a Low-Molecular-Weight Heparin Derivative on the Nitric Oxide Levels and Apoptotic DNA Damage in Adriamycin-Induced Cardiac and Renal Toxicity|Toxicology217(2-3): 176-183|2006|10.1016/j.tox.2005.09.009
96025|A||Davies,T.D.|Sulphate Toxicity to the Aquatic Moss, Fontinalis antipyretica|Chemosphere66(3): 444-451|2007|10.1016/j.chemosphere.2006.06.021
96026|T||Provost,T.L., L.M. Juarez de Ku, C. Zender, and L.A. Meserve|Dose- and Age-Dependent Alterations in Choline Acetyltransferase (ChAT) Activity, Learning and Memory, and Thyroid Hormones in 15- and 30-day old Rats Exposed to 1.25 or 12.5 ppm Polychlorinated Biphenyl (PCB) Beginning|Prog. Neuro-Psychopharmacol. Biol. Psychiatry23(5): 915-928|1999|10.1016/S0278-5846(99)00035-4
96027|T||Dasgupta,R., I. Saha, S. Pal, A. Bhattacharyya, G. Sa, T.C. Nag, T. Das, and B.R. Maiti|Immunosuppression, Hepatotoxicity and Depression of Antioxidant Status by Arecoline in Albino Mice|Toxicology227(1-2): 94-104|2006|10.1016/j.tox.2006.07.016
96028|A||Del carmen Alvarez,M., and L.A. Fuiman|Ecological Performance of Red Drum (Sciaenops ocellatus) Larvae Exposed to Environmental Levels of the Insecticide Malathion|Environ. Toxicol. Chem.25(5): 1426-1432|2006|10.1897/05-301R.1
96030|T||Danicke,S., T. Goyarts, S. Doll, N. Grove, M. Spolders, and G. Flachowsky|Effects of the Fusarium Toxin Deoxynivalenol on Tissue Protein Synthesis in Pigs|Toxicol. Lett.165(3): 297-311|2006|10.1016/j.toxlet.2006.05.006
96031|T||Currie,R.A., J. Dow, C. Sadler, F.L. Lim, A. Hargreaves, T. Aldridge, J. Wright, C.J. Waterfield, J. Ashby, I. Kimber, |Molecular Mechanisms Associated with Aberrant Liver Growth and Carcinogenesis in F344 Rats Treated with Phenobarbital|Toxicology226(1): 44-45|2006|10.1016/j.tox.2006.05.065
96032|A||Monteiro,M., C. Quintaneiro, M. Pastorinho, M.L. Pereira, F. Morgado, L. Guilhermino, and A.M.V.M. Soares|Acute Effects of 3,4-Dichloroaniline on Biomarkers and Spleen Histology of the Common Goby Pomatoschistus microps|Chemosphere62(8): 1333-1339|2006|10.1016/j.chemosphere.2005.07.038
96033|A||Monteiro,D.A., J.A.D. Almeida, F.T. Rantin, and A.L. Kalinin|Oxidative Stress Biomarkers in the Freshwater Characid Fish, Brycon cephalus, Exposed to Organophosphorus Insecticide Folisuper 600 (Methyl Parathion)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(2): 141-149|2006|10.1016/j.cbpc.2006.01.004
96034|A||Monnet,F., F. Bordas, V. Deluchat, P. Chatenet, M. Botineau, and M. Baudu|Use of the Aquatic Lichen Dermatocarpon luridum as Bioindicator of Copper Pollution:  Accumulation and Cellular Distribution Tests|Environ. Pollut.138(3): 455-461|2005|10.1016/j.envpol.2005.04.019
96035|T||Moors,S., P. Diel, and G.H. Degen|Toxicokinetics of Bisphenol A in Pregnant DA/Han Rats After Single I.V. Application|Arch. Toxicol.80(10): 647-655|2006|10.1007/s00204-006-0097-x
96036|T||Mohammad,F.K., G.A.M. Faris, M.S.H. Rhayma, and K. Ahmed|Neurobehavioral Effects of Tetramisole in Mice|Neurotoxicology27(2): 153-157|2006|10.1016/j.neuro.2005.08.003
96037|A||Mladineo,I., J. Marsic-Lucic, and M. Buzancic|Toxicity and Gross Pathology of Ivermectin Bath Treatment in Sea Bream Sparus aurata, L.|Ecotoxicol. Environ. Saf.63(3): 438-442|2006|10.1016/j.ecoenv.2005.02.015
96038|A||Mkandawire,M., and E.G. Dudel|Accumulation of Arsenic in Lemna gibba L. (Duckweed) in Tailing Waters of Two Abandoned Uranium Mining Sites in Saxony, Germany|Sci. Total Environ.336(1-3): 81-89|2005|10.1016/j.scitotenv.2004.06.002
96039|T||Mollaoglu,H., A. Gokcimen, F. Ozguner, F. Oktem, A. Koyu, A. Kocak, H. Demirin, O. Gokalp, and E. Cicek|Caffeic Acid Phenethyl Ester Prevents Cadmium-Induced Cardiac Impairment in Rat|Toxicology227(1-2): 15-20|2006|10.1016/j.tox.2006.06.020
96040|T||Paul,V., E. Balasubramaniam, S. Sheela, and M.S. Krishnamoorthy|Effects of Endosulfan and Aldrin on Muscle Coordination and Conditioned Avoidance Response in Rats|Pharmacol. Toxicol.71(4): 254-257|1992|10.1111/j.1600-0773.1992.tb00979.x
96041|T||Miller,R.R.,Jr., C.M. Hay, T.R. Striegnitz, L.E. Honsey, C.E. Coykendall, and K.D. Blacquiere|Exogenous Glycine Partially Attenuates Homocysteine-Induced Apoptosis and Membrane Peroxidation in Chick Embryos|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(1): 25-33|2006|10.1016/j.cbpc.2006.05.005
96042|T||Goldey,E.S., L.S. Kehn, and K.M. Crofton|The Sensitivity to 3,3'-Iminodipropionitrile Differs for High-and Midfrequency Hearing Loss in the Developing Rat|Hear. Res.69(1/2): 221-228|1993|10.1016/0378-5955(93)90111-D
96043|T||Mitchell,J.M., U. Mengs, S. McPherson, J. Zijlstra, P. Dettmar, R. Gregson, and J.C. Tigner|An Oral Carcinogenicity and Toxicity Study of Senna (Tinnevelly senna Fruits) in the Rat|Arch. Toxicol.80(1): 34-44|2006|10.1007/s00204-005-0021-9
96044|T||Donnerer,J., R. Amann, G. Skofitsch, and F. Lembeck|Region-Specific Noradrenaline Depletion by Neonatal DSP-4: Functional Consequences and Effect on a Coexisting Neurotransmitter|Eur. J. Pharmacol.181(1-2): 147-150|1990|10.1016/0014-2999(90)90257-7
96047|T||Jain,R.K., and S.P. Sehgal|Effect of Certain Pesticides on Soil Microflora|Indian J. Mycol. Plant Pathol.10(1): 88-89|1980|
96048|A||Contreras,L., M.H. Medina, S. Andrade, V. Oppliger, and J.A. Correa|Effects of Copper on Early Developmental Stages of Lessonia nigrescens Bory (Phaeophyceae)|Environ. Pollut.145(1): 75-83|2007|10.1016/j.envpol.2006.03.051
96049|T||Cordova,D., E.A. Benner, M.D. Sacher, J.J. Rauh, J.S. Sopa, G.P. Lahm, T.P. Selby, T.M. Stevenson, L. Flexner, S. Gutte|Anthranilic Diamides:  A New Class of Insecticides with a Novel Mode of Action, Ryanodine Receptor Activation|Pestic. Biochem. Physiol.84(3): 196-214|2006|10.1016/j.pestbp.2005.07.005
96050|T||Cortina-Ramirez,G.E., J. Cerbon-Solorzano, and J.V. Calderon-Salinas|Effects of 1,25-Dihydroxicolecalciferol and Dietary Calcium-Phosphate on Distribution of Lead to Tissues During Growth|Toxicol. Appl. Pharmacol.210(1-2): 123-127|2006|10.1016/j.taap.2005.09.002
96051|T||Crowell,J.A., J.G. Page, B.S. Levine, M.J. Tomlinson, and C.D. Hebert|Indole-3-Carbinol, but not Its Major Digestive Product 3,3'-Diindolylmethane, Induces Reversible Hepatocyte Hypertrophy and Cytochromes P450|Toxicol. Appl. Pharmacol.211(2): 115-123|2006|10.1016/j.taap.2005.06.011
96052|T||Copple,B.L., R.A. Roth, and P.E. Ganey|Anticoagulation and Inhibition of Nitric Oxide Synthase Influence Hepatic Hypoxia After Monocrotaline Exposure|Toxicology225(2-3): 128-137|2006|10.1016/j.tox.2006.05.016
96053|T||Cooper,S.G., D.S. Douches, and E.J. Grafius|Insecticidal Activity of Avidin Combined with Genetically Engineered and Traditional Host Plant Resistance Against Colorado Potato Beetle (Coleoptera:  Chrysomelidae) Larvae|J. Econ. Entomol.99(2): 527-536|2006|10.1093/jee/99.2.527
96054|T||Cook,D.L., J. David, and G.D. Griffiths|Retrospective Identification of Ricin in Animal Tissues Following Administration by Pulmonary and Oral Routes|Toxicology223(1-2): 61-70|2006|10.1016/j.tox.2006.03.010
96055|A||Corbel,V., M. Stankiewicz, J. Bonnet, F. Grolleau, J.M. Hougard, and B. Lapied|Synergism Between Insecticides Permethrin and Propoxur Occurs Through Activation of Presynaptic Muscarinic Negative Feedback of Acetylcholine Release in the Insect Central Nervous System|Neurotoxicology27(4): 508-519|2006|10.1016/j.neuro.2006.01.011
96056|T||Ikeda,T., H. Mashimoto, K. Iwasaki, I. Shimokawa, and T. Matsuo|A Sequential Ultrastructural and Histoautoradiographic Study of Early Neoplastic Lesions in Ethylnitrosourea-Induced Rat Glioma|Acta Pathol. Jpn.39(8): 487-495|1989|10.1111/j.1440-1827.1989.tb01514.x
96057|A||Santos,M.M., M.A. Reis-Henriques, M.N. Vieira, and M. Sole|Triphenyltin and Tributyltin, Single and in Combination, Promote Imposex in the Gastropod Bolinus brandaris|Ecotoxicol. Environ. Saf.64(2): 155-162|2006|10.1016/j.ecoenv.2005.02.003
96058|T||Chekman,I.S., and M.V. Natsyuk|Effect of Dipyroxime on Content of Nicotinamide Coenzymes and Adenine Nucleotides in the Myocardium and Liver of Rats Poisoned with Phthalaphos|Bull. Exp. Biol. Med. Ussr84(11): 1600-1602|1978|
96059|T||De Assis,H.C.D.S., A. Sanchez-Chardi, R.C. Dos Reis, L. Nicaretta, C. Mencinauski, S.C.G. Jakobi, P.H. Da Silva, A.R. Z|Subchronic Toxic Effects of Tributyltin (TBT) and Inorganic Lead (PbII) in Rats|Environ. Toxicol. Pharmacol.19(1): 113-120|2005|10.1016/j.etap.2004.05.006
96060|A||Mohammad,M., K. Itoh, K. Suyama, and H. Yamamoto|Recovery of Lemna sp. After Exposure to Sulfonylurea Herbicides|Bull. Environ. Contam. Toxicol.76(2): 256-263|2006|10.1007/s00128-006-0915-0
96061|T||De Araujo,B.S., J. Dec, J.M. Bollag, and M. Pletsch|Uptake and Transformation of Phenol and Chlorophenols by Hairy Root Cultures of Daucus carota, Ipomoea batatas and Solanum aviculare|Chemosphere63(4): 642-651|2006|10.1016/j.chemosphere.2005.08.005
96062|A||Kim I.Y., and C.K. Hyun|Comparative Evaluation of the Alkaline Comet Assay with the Micronucleus Test for Genotoxicity Monitoring Using Aquatic Organisms|Ecotoxicol. Environ. Saf.64(3): 288-297|2006|10.1016/j.ecoenv.2005.05.019
96063|A||Hulsen,K., V. Minne, P. Lootens, P. Vandecasteele, and M. Hofte|A Chlorophyll a Fluorescence-Based Lemna minor Bioassay to Monitor Microbial Degradation of Nanomolar to Micromolar Concentrations of Linuron|Environ. Microbiol.4(6): 327-337|2002|10.1046/j.1462-2920.2002.00309.x
96064|T||Raj,B.T., and K.K. Nirula|Soil Treatment for the Control of Root-Knot Nematode on Potato (Solanum tuberosum L.)|Indian J. Agric. Sci.40(10): 878-882|1970|
96065|T||Gupta,P.R., R.C. Mishra, and G.S. Dogra|Efficacy of Granular and Seedling-Dip Treatments Against Mandibulate Pests Infesting Cauliflower|Indian J. Agric. Sci.51(7): 514-516|1981|
96066|T||Hargreaves,J.R., and L.P. Cooper|Control of Gladiolus Thrips, Taeniothrips simplex (Morison), with Granular Insecticides in South-East Queensland|Qld. J. Agric. Anim. Sci.39(1): 23-26|1982|
96067|T||Himelrick,D.G., and G.E. Boyhan|Evaluation of Metam-Potassium as Fumigant and Potassium Source for Tomato|J. Plant Nutr.21(2): 253-261|1998|10.1080/01904169809365400
96068|T||Hotchkiss,A.K.|The Effect of Androgens and Antiandrogens on Sexual Differentiation in Male and Female Rats|Ph.D.Thesis, North Carolina State University, Raleigh, NC:156 p.|2001|
96069|T||Meisch,M.V., N.M. Randolph, and G.L. Teetes|Phytotoxicity and Effectiveness of Insecticides Applied to Corn for Control of Corn Earworms|Tex. Agric. Exp. Stn. Prog. Rep.:9 p.|1970|
96070|T||Specht,H.B., and D. Chisholm|Pea Aphid Control and Di-Syston Residues in Greenhouse Peas as Affected by Rates of Application, Soil Type, and Soil Moisture|Can. J. Plant Sci.45(6): 571-577|1965|10.4141/cjps65-108
96071|T||Romanow,L.R., G.G. Kennedy, and D.C. Sanders|Plug-Mix and Banded-and-Incorporated Application of Systemic Insecticides for Control of the Colorado Potato Beetle (Coleoptera:  Chrysomelidae) on Direct-Seeded Tomatoes|J. Econ. Entomol.77(5): 1245-1250|1984|10.1093/jee/77.5.1245
96072|T||Shaw,J.G.|Effectiveness of Fourteen Systemic Insecticides Against the Citrus Red Mite on Orange Seedlings|J. Econ. Entomol.63(5): 1590-1592|1970|10.1093/jee/63.5.1590
96073|T||Landis,B.J., D.M. Powell, and G.T. Hagel|Attempt to Suppress Curly Top and Beet Western Yellows by Control of the Beet Leafhopper and the Green Peach Aphid with Insecticide-Treated Sugarbeet Seed|J. Econ. Entomol.63(2): 493-496|1970|10.1093/jee/63.2.493
96074|T||Cate,J.R.,Jr.|Evaluation of Azodrin and Disulfoton Seed Treatments for Controlling Greenbugs, Schizaphis graminum (Rondani), on Winter Wheat, Lubbock, Texas|Texas Agric. Exp. Stn. Prog. Rep.:13 p.|1970|
96075|T||Ahmed,M.T., Y.M. Ahmed, and A.M.A. Mostafa|Feeding Cyromazine to Luhmann Hens:  Residues in Tissues and Effects on Some Biochemical Constituents|Nahrung36(1): 84-86|1992|10.1002/food.19920360112
96076|T||Guzzella,L., S. Rullo, E. Capri, F. Ferrari, A. Di Corcia, M. Nazzari, A. Barra Caracciolo, P. Grenni, and G. Giuliano|Fate and Effects of Diuron and Linuron in Field Lysimeters|In: Proceedings of the Symposium Pesticide Chemistry, Piacenza, Italy:145-152|2003|
96077|T||Konecny,V.|Synthesis and Biological Properties of Dithiocarbamic Acid Esters.  XI.  Pesticidal Activity of N-(alkyl or aryl)-3,4-bis(N',N'-Dialkylthiocarbamoylthio)Maleimides|Chem. Zvesti38(4): 523-530|1984|
96078|T||Emmett,B.J.|Effects on Carrot Fly Larvae and Growth of Celery of Some Insecticide Formulations Applied to Peat Blocks Used for Raising Plants|Br. Crop Prot. Conf. Pests Dis.2:495-501|1981|
96079|T||Yadava,C.P.S., R.C. Saxena, R.K. Mishra, and L.N. Dadheech|Evaluation of Some Granular Insecticides for Control of Grubs of Holotrichia consanguinea Blanch|Indian J. Agric. Sci.47(3): 139-142|1977|
96080|T||Kring,J.B.|Chemical Control of Cyclodiene-Resistant Tobacco Root Maggots (Hylemya spp., Diptera:  Anthomyiidae)|Tob. Sci.13:105-106|1969|
96081|T||Sinha,S.N., A.K. Chakrabarti, and K.M. Peshwani|Control of Red Pumpkin Beetle, Rhaphidopalpa foveicollis Lucas, Infesting Cucurbit Seedlings in the Field|Seed Res.5(1): 44-48|1977|
96082|T||Sandhu,G.S., and W.R. Young|Chemical Control of Sorghum Shoot Fly in India|Pesticides 8(6): 35-36|1974|
96083|A||Warr,J.R., and S. Durber|Studies on the Expression of a Mutant with Abnormal Cell Division in Chlamydomonas reinhardi|Exp. Cell Res.64(2): 463-469|1971|10.1016/0014-4827(71)90101-7
96084|T||Root,D.S., T. Hongtrakul, and W.C. Dauterman|Studies on the Absorption, Residues and Metabolism of Cyromazine in Tomatoes|Pestic. Sci.48(1): 25-30|1996|10.1002/(SICI)1096-9063(199609)48:1<25::AID-PS404>3.0.CO;2-Q
96085|T||Williams,M.D., and G. Gill|Evaluation of Pesticides for Side Effects on the Leafhopper Parasitoid Anagrus atomus with Particular Reference to Protected Crops|Tests Agrochem. Cultiv.17:98-99|1996|
96086|T||Herbert,D.A.,Jr.|Evaluation of Granular Insecticides, with and Without Vapam, for Control of Tobacco Thrips in Peanut, 1994|Arthropod Manag. Tests20:224-225|1995|10.1093/amt/20.1.224
96087|T||Herbert,D.A.,Jr.|Effects of Insecticides, with and Without Vapam, on Thrips Injury and Peanut Growth and Yield, 1994|Arthropod Manag. Tests20:223-224|1995|10.1093/amt/20.1.223
96088|T||Gopal,P.K., and S.P. Ahuja|Lipid & Growth Changes in Organs of Chicks (Gallus domesticus) During Acute & Chronic Toxicity with Disyston & Folithion|Indian J. Exp. Biol.17(10): 1153-1154|1979|
96089|T||Abdel-Rahman,A.A.|Differential Effects of Ethanol on Baroreceptor Heart Rate Responses of Conscious Spontaneously Hypertensive and Normotensive Rats|Alcohol. Clin. Exp. Res.18(6): 1515-1522|1994|10.1111/j.1530-0277.1994.tb01459.x
96090|T||Jenkyn,J.F., and R.D. Prew|Activity of Six Fungicides Against Cereal Foliage and Root Diseases|Ann. Appl. Biol.75(2): 241-252|1973|10.1111/j.1744-7348.1973.tb07304.x
96091|T||Jenkyn,J.F., and R.D. Prew|The Effect of Fungicides on Incidence of Sporobolomyces spp. and Cladosporium spp. on Flag Leaves of Winter Wheat|Ann. Appl. Biol.75(2): 253-256|1973|10.1111/j.1744-7348.1973.tb07305.x
96092|T||Daniels,N.E.|A Wheat Seed Treatment for Greenbug Control|Texas Agric. Exp. Stn. Prog. Rep.:2 p.|1969|
96093|T||Hagel,G.T.|Systematic Insecticides and Control of Insects and Mites on Beans|J. Econ. Entomol.63(5): 1486-1489|1970|10.1093/jee/63.5.1486
96094|T||Dutt,N., and B.B. Maiti|Studies on the Control of Banana Pseudostem Weevil, Odoiporus longicollis Oliv.|Indian J. Entomol.34(4): 272-289|1972|
96095|T||Fitzpatrick,B.J., R.N. Mascarenhas, M.L. Boyd, D.J. Boethel, E. Burris, and D. Cook|Soybean Looper and Beet Armyworm Control on Soybean in Louisiana, 1995|Arthropod Manag. Tests21:289-291|1997|10.1093/amt/21.1.289
96096|T||Fife,J.H., B.R. Leonard, K.D. Torrey, and D.J. Boethel|Control of Soybean Looper and Beet Armyworm in the Macon Ridge Region of Louisiana, 1995|Arthropod Manag. Tests21:288-289|1996|10.1093/amt/21.1.288
96097|T||Reid,J.C., and D.E. Robinson|Assessment of Different Insecticides for the Suppression of an Outbreak of Leucoptera coffeella in Jamaica|Turrialba44(2): 112-116|1994|
96099|T||Chandler,L.D.|Response of Liriomyza trifolii (Burgess) to Selected Insecticides with Notes on Hymenopterous Parasites|Southwest. Entomol.10(3): 228-235|1985|
96100|T||Hughes,P.B., and G.W. Levot|Simulation of Fly-Waves to Assess the Ability of Diflubenzuron to Protect Sheep Against Flystrike by Lucilia cuprina|Vet. Parasitol.24(3/4): 275-284|1987|10.1016/0304-4017(87)90049-5
96101|T||Miller,R.W., C. Corley, C.F. Cohen, W.E. Robbins, and E.P. Marks|CGA-19255 and CGA-72662:  Efficacy Against Flies and Possible Mode of Action and Metabolism|Southwest. Entomol.6(3): 272-278|1981|
96102|T||Johnson,J.W., R.D. Kriegel, and J.C. Wise|Blueberry, Early Season Control of Cranberry Fuitworm and Cherry Fruitworm, 1995|Arthropod Manag. Tests21:59-60|1996|10.1093/amt/21.1.59a
96103|T||McPherson,R.M., J.D. Taylor, and D. Griffin|Budworm and Aphid Control in Tobacco, 1992|Arthropod Manag. Tests18:284-285|1993|
96104|T||Smolka,S., and G. Wolf|Cytological Studies on the Mode of Action of Systemic Fungicides on the Host Pathogen Complex Barley-Powdery Mildew (Erysiphe graminis f.sp.hordei Marchal)|Pestic. Sci.17(3): 249-255|1986|10.1002/ps.2780170308
96105|T||Muller-Enoch,D., N. Sato, and H. Thomas|O-Demethylation of Scoparone and Studies on the Scoparone-Induced Spectral Change of Cytochrome P-450 in Rat Liver Microsomes|Hoppe-Seyler's Z. Physiol. Chem.362(8): 1091-1099|1981|10.1515/bchm2.1981.362.2.1091
96106|T||Belanger,P.M., M. Lalande, and A. Atitse-Gbeassor|Differential Properties of the Microsomal Deamination and Hydroxylation Reactions|Res. Commun. Chem. Pathol. Pharmacol.40(3): 429-442|1983|
96107|T||Wolff,T., E. Deml, and H. Wanders|Aldrin Epoxidation, a Highly Sensitive Indicator Specific for Cytochrome P-450-Dependent Mono-Oxygenase Activities|Drug Metab. Dispos.7(5): 301-305|1979|
96108|T||Fujisaki,H., M. Mise, Y. Ishii, H. Yamada, and K. Oguri|Strychnine and Brucine as the Potent Inducers of Drug Metabolizing Enzymes in Rat Liver:  Different Profiles from Phenobarbital on the Induction of Cytochrome P450 and UDP-Glucuronosyltransferase|J. Pharmacol. Exp. Ther.268(2): 1024-1031|1994|
96109|T||Johnson,E.F., and U. Muller-Eberhard|Multiple Forms of Cytochrome P-450:  Resolution and Purification of Rabbit Liver Aryl Hydrocarbon Hydroxylase|Biochem. Biophys. Res. Commun.76(3): 644-651|1977|10.1016/0006-291X(77)91549-2
96110|T||Raina,V., H.L. Gurtoo, M. Berrigan, and B. Paigen|Genetic Dependence of Hepatic Microsome-Mediated Depression of Aflatoxin B1 Activation to Mutagens in Ames Salmonella Typhimurium TA-98 System|Biochem. Biophys. Res. Commun.94(3): 737-743|1980|10.1016/0006-291X(80)91297-8
96111|T||Tripathi,S.K., U.S. Bose, and K.L. Tiwari|Economics of Fungicidal Control of Cercospora Leaf Spot of Sesamum|Crop Res. (Hisar)12(1): 71-75|1996|
96112|T||Jain,A.K., and J.C. Gupta|Chemical Control of Sorosporium paspali thunbergii MCALP Causing Head Smut of Kodo-Millet|Adv. Plant Sci.6(1 suppl.): 164-167|1993|
96113|T||Sundarvelu,S., T. Muthukrishnana, and S. Arumugam|Effect of Fungicides on the Growth, Chlorophyll Content and Yield of Okra (Abelmoschus esculentus (L) Moench)|Adv. Plant Sci.11(1): 33-36|1998|
96115|T||Hendrix,J.W., and H. Murakishi|Influence of Soil Soft Treatments on the Rooting and Survival of Carnation Slips in Hawaii|Proc. Am. Soc. Hortic. Sci.56:491-497|1950|
96116|T||Patel,R.L., and M.U. Vaishnav|Efficacy of Different Fungicides in Controlling the Tuber Skin Spot Disease of Potato Caused by Coleophoma empetri (Rostrup) Petrak|Indian J. Mycol. Plant Pathol.22(2): 146-151|1992|
96117|T||Kapoor,A.S., and S.K. Sugha|Efficacy of Some Fungicides in Controlling White Rust of Mustard|Indian J. Mycol. Plant Pathol.25(3): 285-286|1995|
96118|T||Cohen,Y., and Y. Samoucha|Competition Between Oxadixyl-Sensitive and -Resistant Field Isolates of Phytophthora infestans on Fungicide-Treated Potato Crops|Crop Prot.9(1): 15-20|1990|10.1016/0261-2194(90)90040-E
96119|T||King,C.M., N.R. Traub, Z.M. Lortz, and M.R. Thissen|Metabolic Activation of Arylhydroxamic Acids by N-O-Acyltransferase of Rat Mammary Gland|Cancer Res.39(9): 3369-3372|1979|
96120|T||Rathor,H.R., G. Toqir, S. Rashid, S.M. Mujtaba, and S.M. Nasir|Insecticide Resistance in Anopheline Mosquitoes of Punjab Province Pakistan|Pak. J. Zool.17(1): 35-49|1986|
96121|T||Anthony,J., C.B. McLean, and A.C. Lawrie|In Vitro Propagation of Epacris impressa (Epacridaceae) and the Effects of Clonal Material|Aust.J.Bot.48(2): 215-221|2000|10.1071/BT98026
96122|T||Vakalounakis,D.J., and N.E. Malathrakis|A Cucumber Disease Caused by Alternaria alternata and Its Control|J. Phytopathol.121(4): 325-336|1988|10.1111/j.1439-0434.1988.tb00976.x
96123|T||Pandey,R.R.|Effect of Foliar Applications of Fungicides on the Phylloplane Mycoflora and Fungal Pathogens of Guava|J. Phytopathol.123(1): 52-62|1988|10.1111/j.1439-0434.1988.tb01036.x
96125|T||Oda,H., Y. Suzuki, T. Shibata, and A. Yoshida|Glucocorticoid-Dependent Induction of HMG-CoA Reductase and Malic Enzyme Gene Expression by Polychlorinated Biphenyls in Rat Hepatocytes|J. Nutr. Biochem.10(11): 644-653|1999|10.1016/S0955-2863(99)00055-8
96126|T||Hayashi,M., H. Norppa, T. Sofuni, and M.,Jr. Ishidate|Flow Cytometric Micronucleus Test with Mouse Peripheral Erythrocytes|Mutagenesis7(4): 257-264|1992|10.1093/mutage/7.4.257
96127|T||Mattison,D.R., K. Shiromizu, J.A. Pendergrass, and S.S. Thorgeirsson|Ontogeny of Ovarian Glutathione and Sensitivity to Primordial Oocyte Destruction by Cyclophosphamide|Pediatr. Pharmacol.3(1): 49-55|1983|
96128|T||Bayer,U.|In Vivo Induction of Sister Chromatid Exchanges by Three Polyaromatic Hydrocarbons|Carcinogenesis3:423-428|1978|
96129|T||Vrecl,M., A. Pogacnik, J. Lorger, and S.V. Bavdek|Morphometric Analysis of Fetal Rat Lung After the Administration of Pyralene-3000|Pflug. Arch. Eur. J. Phy.431(6, Suppl.2): R213 - R214|1996|
96130|T||Burke,M.D., R.A. Prough, and R.T. Mayer|Characteristics of a Microsomal Cytochrome P-448 Mediated Reaction Ethoxyresorufin O-De-Ethylation|Drug Metab. Dispos.5(1): 1-8|1977|
96131|T||Ryan,D.E., P.E. Thomas, and W. Levin|Hepatic Microsomal Cytochrome P-450 from Rats Treated with Isosafrole. Purification and Characterization of Four Enzymic Forms|J. Biol. Chem.255(16): 7941-7955|1980|10.1016/S0021-9258(19)43925-2
96133|T||Plummer,J.L., B.R. Smith, L.M. Ball, and J.R. Bend|Metabolism and Biliary Excretion of Benzo(a)pyrene 4,5-Oxide in the Rat|Drug Metab. Dispos.8(2): 68-72|1980|
96134|A||Chung,K.W., M.H. Fulton, and G.I. Scott|Use of the Juvenile Clam, Mercenaria mercenaria, as a Sensitive Indicator of Aqueous and Sediment Toxicity|Ecotoxicol. Environ. Saf.67(3): 333-340|2007|10.1016/j.ecoenv.2006.10.009
96135|T||Hallstrom,I., A. Blanck, and S. Atuma|Genetic Variation in Cytochrome P-450 and Xenobiotic Metabolism in Drosophila melanogaster|Biochem. Pharmacol.33(1): 13-20|1984|10.1016/0006-2952(84)90364-2
96136|T||Kuchenhoff,A., R. Eckard, K. Buff, and B. Fischer|Stage-Specific Effects of Defined Mixtures of Polychlorinated Biphenyls on In Vitro Development of Rabbit Preimplantation Embryos|Mol. Reprod. Dev.54(2): 126-134|1999|10.1002/(SICI)1098-2795(199910)54:2<126::AID-MRD4>3.0.CO;2-B
96137|A||Ahrens,M.J., R. Nieuwenhuis, and C.W. Hickey|Sensitivity of Juvenile Macomona liliana (Bivalvia) to UV-Photoactivated Fluoranthene Toxicity|Environ. Toxicol.17(6): 567-577|2002|10.1002/tox.10093
96138|T||Sztejnberg,A.|Etiology and Control of Cherry Leaf Spot Disease in Israel Caused by Cercospora circumscissa|Plant Dis.70(4): 349-351|1986|10.1094/PD-70-349
96139|T||Siegel,M.R., D.R. Varney, M.C. Johnson, W.C. Nesmith, R.C. Buckner, L.P. Bush, P.B. Burrus II, and J.R. Hardison|A Fungal Endophyte of Tall Fescue:  Evaluation of Control Methods|Phytopathology74(8): 937-941|1984|10.1094/Phyto-74-937
96140|T||Olien,W.C., R.W.,Jr. Miller, C.J. Graham, E.R.,Jr. Taylor, and M.E. Hardin|Effects of Combined Applications of Ammonium Thiosulphate and Fungicides on Fruit Load and Blossom Blight and Their Phytotoxicity to Peach Trees|J. Hortic. Sci.70(5): 847-854|1995|
96141|T||Wysocka-Paruszewska,B.|The Changes in the Urine Level of 4-Hydroxy-3-Methoxymandelic Acid in Rats Related to the Degree of Intoxication with Di-Syston|Diss. Pharm. Pharmacol.23(3): 271-274|1971|
96142|T||Mostafa,A.M.A., Y.M. Ahmed, and M.T. Ahmed|Feeding Cyromazine to Luhmann Hens:  Residues in Tissues and Effects on Some Biochemical Constituents|J. Egypt. Soc. Parasitol.24(2): 259-269|1994|
96143|T||Cabras,P., M.G. Lalli, M. Melis, L. Spanedda, F. Cabitza, and M. Cubeddu|The Deposition and Persistence of Cyromazine in Celery in Relation to the Methods of Application|Mobility Degrad.Xenobiot., Proc.- Simp.Pestic.Chem., 9th:545-551|1993|
96144|T||Gaikwad,S.K., and V.M. Pawar|Effect of Systemic Insecticides on the Germination and Seedling Development of Okra (Abelmoschus esculentus (L) Moench)|Seed Res.7(1): 28-33|1979|
96145|T||Bessin,R.T., and L.H. Townsend|Western Corn Rootworm Larval Control, 1993|Arthropod Manag. Tests19:183-184|1994|10.1093/amt/19.1.183a
96146|T||Bacheler,J.S., and D.W. Mott|Evaluation of High Rates of Selected Insecticides Against Fall Armyworm in Southern North Carolina, 1993|Arthropod Manag. Tests19:218-|1994|10.1093/amt/19.1.218
96152|A||Shim,W.J., S.H. Hong, I.G. Agafonova, and D.L. Aminin|Comparative Toxicities of Organotin Compounds on Fertilization and Development of Sea Urchin (Anthocidaris crassispina)|Bull. Environ. Contam. Toxicol.77(5): 755-762|2006|10.1007/s00128-006-1128-2
96153|A||Shimasaki,Y., Y. Oshima, S. Inoue, Y. Inoue, I.J. Kang, K. Nakayama, H. Imoto, and T. Honjo|Effect of Tributyltin on Reproduction in Japanese Whiting, Sillago japonica|Mar. Environ. Res.62:S245 - S248|2006|10.1016/j.marenvres.2006.04.030
96154|A||Ohkubo,N., K. Mochida, S. Adachi, A. Hara, K. Hotta, Y. Nakamura, and T. Matsubara|Estrogenic Activity in Coastal Areas Around Japan Evaluated by Measuring Male Serum Vitellogenins in Japanese Common Goby Acanthogobius flavimanus|Fish. Sci.69(6): 1135-1145|2003|10.1111/j.0919-9268.2003.00738.x
96157|T||Sato,T., H. Yamamoto, N. Sawada, K. Nashiki, M. Tsuji, K. Muto, H. Kume, H. Sasaki, H. Arai, T. Nikawa, Y. Taketani, an|Restraint Stress Alters the Duodenal Expression of Genes Important for Lipid Metabolism in Rat|Toxicology227(3): 248-261|2006|10.1016/j.tox.2006.08.009
96158|A||Schaffer,P., C. Reeves, D.R. Casper, and C.R. Davis|Absence of Neurotoxic Effects in Leopard Sharks, Triakis semifasciata, Following Domoic Acid Exposure|Toxicon47(7): 747-752|2006|10.1016/j.toxicon.2006.01.030
96159|T||Sawant,S.P., A.V. Dnyanmote, A. Warbritton, J.R. Latendresse, and H.M. Mehendale|Type 2 Diabetic Rats are Sensitive to Thioacetamide Hepatotoxicity|Toxicol. Appl. Pharmacol.211(3): 221-232|2006|10.1016/j.taap.2005.07.019
96160|T||Schlecht,C., H. Klammer, W. Wuttke, and H. Jarry|A Dose-Response Study on the Estrogenic Activity of Benzophenone-2 on Various Endpoints in the Serum, Pituitary and Uterus of Female Rats|Arch. Toxicol.80(10): 656-661|2006|10.1007/s00204-006-0085-1
96161|T||Scheirs,J., I. Vandevyvere, K. Wollaert, R. Blust, and L. De Bruyn|Plant-Mediated Effects of Heavy Metal Pollution on Host Choice of a Grass Miner|Environ. Pollut.143(1): 138-145|2006|10.1016/j.envpol.2005.11.001
96162|A||Schiff,J.A., M.H. Zeldin, and J. Rubman|Chlorophyll Formation and Photosynthetic Competence in Euglena During Light-Induced Chloroplast Development in the Presence of 3, (3,4-Dichlorophenyl) 1,1-Dimethyl Urea (DCMU)|Plant Physiol.42:1716-1725|1967|10.1104/pp.42.12.1716
96163|A||Schirling,M., A. Bohlen, R. Triebskorn, and H.R. Kohler|An Invertebrate Embryo Test with the Apple Snail Marisa cornuarietis to Assess Effects of Potential Developmental and Endocrine Disruptors|Chemosphere64(10): 1730-1738|2006|10.1016/j.chemosphere.2006.01.015
96164|A||Seo,J.S., T.J. Park, Y.M. Lee, H.G. Park, Y.D. Yoon, and J.S. Lee|Small Heat Shock Protein 20 Gene (Hsp20) of the Intertidal Copepod Tigriopus japonicus as a Possible Biomarker for Exposure to Endocrine Disruptors|Bull. Environ. Contam. Toxicol.76(4): 566-572|2006|10.1007/s00128-006-0957-3
96165|T||Shelton,A.M., J.Z. Zhao, B.A. Nault, J. Plate, F.R. Musser, and E. Larentzaki|Patterns of Insecticide Resistance in Onion Thrips (Thysanoptera:  Thripidae) in Onion Fields in New York|J. Econ. Entomol.99(5): 1798-1804|2006|10.1093/jee/99.5.1798
96166|T||Boetel,M.A., B.W. Fuller, and J.M. Jenson|Evaluation of Furadan 4F as a Cultivation Treatment for Control of Corn Rootworm Larvae, 1991 and 1992|Arthropod Manag. Tests19:185-186|1993|10.1093/amt/19.1.185
96167|T||Bowman,J.S., and M.D. Campbell|Control on Late Season Sweet Corn with Foliar Sprays, 1993|Arthropod Manag. Tests19:88-89|1994|10.1093/amt/19.1.88
96168|T||Anderson,R.M., and G.L. Teetes|Greenhouse Evaluation of Insecticides for Control of Yellow Sugarcane Aphid on Sorghum Seedlings, 1992|Arthropod Manag. Tests19:260-|1994|10.1093/amt/19.1.260
96169|T||Boyd,M.L., C.A. White, A.T. Weir, J.D. Thomas, D.J. Boethel, and E. Burris|Control of Soybean Looper on Soybean in Louisiana, 1992|Arthropod Manag. Tests19:266-|1994|10.1093/amt/19.1.266
96170|T||Buschman,L.L., L. Wildman, and P.E. Sloderbeck|Second Generation European Corn Borer Control, 1993|Arthropod Manag. Tests19:190-|1994|
96171|A||Kikuchi,M., Y. Sasaki, and M. Wakabayashi|Screening of Organophosphate Insecticide Pollution in Water by Using Daphnia magna|Ecotoxicol. Environ. Saf.47(3): 239-245|2000|10.1006/eesa.2000.1958
96172|T||Boyd,M.L., A.T. Wier, J.D. Thomas, S. Lingren, and D.J. Boethel|Geocorid and Nabid Response to Insecticides on Soybean in Louisiana, 1993|Arthropod Manag. Tests19:265-266|1994|10.1093/amt/19.1.265a
96173|T||Buntin,G.D.|Insecticidal Control of Cabbage Seedpod Weevil in Winter Canola, 1993|Arthropod Manag. Tests19:179-180|1994|10.1093/amt/19.1.179a
96174|T||Brandenburg,R.L., and B.M. Royals|Caterpillar Control on Peanuts, North Carolina, 1993|Arthropod Manag. Tests19:244-|1994|
96176|T||Gonzaga,M.I.S., J.A.G. Santos, and L.Q. Ma|Arsenic Chemistry in the Rhizosphere of Pteris vittata L. and Nephrolepis exaltata L.|Environ. Pollut.143(2): 254-260|2006|10.1016/j.envpol.2005.11.037
96177|T||Shiraiwa,T., N. Kamiyama, and M. Kashiwayanagi|Decreases in Urinary Pheromonal Activities in Male Mice After Exposure to 3-Methylchoranthrene|Toxicol. Lett.169(2): 137-144|2007|10.1016/j.toxlet.2006.12.010
96178|T||Shiraishi,K., K. Miyata, S. Houshuyama, N. Imatanaka, T. Umano, Y. Minobe, and K. Yamasaki|"Subacute Oral Toxicity Study of Diethylphthalate Based on the Draft Protocol for ""Enhanced OECD Test Guideline No. 407"""|Arch. Toxicol.80(1): 10-16|2006|10.1007/s00204-005-0008-6
96179|A||Shukla,S., V.K. Singh, and D.K. Singh|The Effect of Single, Binary, and Tertiary Combination of Few Plant Derived Molluscicides Alone or in Combination with Synergist on Different Enzymes in the Nervous Tissues of the Freshwater Snail Lymnaea (Radix) acumin|Pestic. Biochem. Physiol.85(3): 167-173|2006|10.1016/j.pestbp.2006.01.003
96180|T||Singh,N., and L.Q. Ma|Arsenic Speciation, and Arsenic and Phosphate Distribution in Arsenic Hyperaccumulator Pteris vittata L. and Non-hyperaccumulator Pteris ensiformis L.|Environ. Pollut.141(2): 238-246|2006|10.1016/j.envpol.2005.08.050
96181|T||Sinha,P., B.K. Dube, P. Srivastava, and C. Chatterjee|Alteration in Uptake and Translocation of Essential Nutrients in Cabbage by Excess Lead|Chemosphere65(4): 651-656|2006|10.1016/j.chemosphere.2006.01.068
96182|T||Shih,T.M., O.U. Scremin, M. Roch, L. Huynh, W. Sun, and D.J. Jenden|Cerebral Acetylcholine and Choline Contents and Turnover Following Low-Dose Acetylcholinesterase Inhibitors Treatment in Rats|Arch. Toxicol.80(11): 761-767|2006|10.1007/s00204-006-0101-5
96183|T||Sharma,N., Q. He, and R.P. Sharma|Amelioration of Fumonisin B1 Hepatotoxicity in Mice by Depletion of T cells with anti-Thy-1.2|Toxicology223(3): 191-201|2006|10.1016/j.tox.2006.03.021
96184|T||Sharma,Y., S. Bashir, M. Irshad, T.C. Nag, and T.D. Dogra|Dimethoate-Induced Effects on Antioxidant Status of Liver and Brain of Rats Following Subchronic Exposure|Toxicology215(3): 173-181|2005|10.1016/j.tox.2005.06.029
96185|A||Senger,M.R., E.P. Rico, M. De bem Arizi, A.P.G. Frazzon, R.D. Dias, M.R. Bogo, and C.D. Bonan|Exposure to Hg2+ and Pb2+ Changes NTPDase and ecto-5'-Nucleotidase Activities in Central Nervous System of Zebrafish (Danio rerio)|Toxicology226(2/3): 229-237|2006|10.1016/j.tox.2006.07.012
96186|T||Sharma,R.P., Q. He, and R.T. Riley|Lupus-Prone NZBWF1/J Mice, Defective in Cytokine Signaling, are Resistant to Fumonisin Hepatotoxicity Despite Accumulation of Liver Sphinganine|Toxicology216(1): 59-71|2005|10.1016/j.tox.2005.07.024
96187|A||Shah,S.L., and A. Altindag|Hematological Parameters of Tench (Tinca tinca L.) After Acute and Chronic Exposure to Lethal and Sublethal Mercury Treatments|Bull. Environ. Contam. Toxicol.73(5): 911-918|2004|10.1007/s00128-004-0513-y
96188|A||Sellin,M.K., and A.S. Kolok|Cd Exposures in Fathead Minnows:  Effects on Adult Spawning Success and Reproductive Physiology|Arch. Environ. Contam. Toxicol.51(4): 594-599|2006|10.1007/s00244-006-0026-2
96189|A||Seki,M., H. Yokota, M. Maeda, and K. Kobayashi|Fish Full Life-Cycle Testing for 17beta-Estradiol on Medaka (Oryzias latipes)|Environ. Toxicol. Chem.24(5): 1259-1266|2005|10.1897/04-379R.1
96190|T||Selvakumar,E., C. Prahalathan, P.T. Sudharsan, and P. Varalakshmi|Chemoprotective Effect of Lipoic Acid Against Cyclophosphamide-Induced Changes in the Rat Sperm|Toxicology217(1): 71-78|2006|10.1016/j.tox.2005.08.020
96191|A||Schulz,R., C. Hahn, E.R. Bennett, J.M. Dabrowski, G. Thiere, and S.K.C. Peall|Fate and Effects of Azinphos-Methyl in a Flow-Through Wetland in South Africa|Environ. Sci. Technol.37:2139-2144|2003|10.1021/es026029f
96192|T||Seidlova-Wuttke,D., J. Christoffel, G. Rimoldi, H. Jarry, and W. Wuttke|Comparison of Effects of Estradiol with Those of Octylmethoxycinnamate and 4-Methylbenzylidene Camphor on Fat Tissue, Lipids and Pituitary Hormones|Toxicol. Appl. Pharmacol.214(1): 1-7|2006|10.1016/j.taap.2005.11.002
96193|T||Scoccianti,V., R. Crinelli, B. Tirillini, V. Mancinelli, and A. Speranza|Uptake and Toxicity of Cr(III) in Celery Seedlings|Chemosphere64(10): 1695-1703|2006|10.1016/j.chemosphere.2006.01.005
96194|A||Schultz,I.R., S. Reed, A. Pratt, and A.D. Skillman|Quantitative Oral Dosing of Water Soluble and Lipophilic Contaminants in the Japanese Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(1): 86-95|2007|10.1016/j.cbpc.2006.09.006
96195|A||Cheng,J., E. Flahaut, and S.H. Cheng|Effect of Carbon Nanotubes on Developing Zebrafish (Danio rerio) Embryos|Environ. Toxicol. Chem.26(4): 708-716|2007|10.1897/06-272R.1
96196|T||Lapanje,A., M. Rupnik, and D. Drobne|Gut Bacterial Community Structure (Porcellio scaber, Isopoda, Crustacea) as a Measure of Community Level Response to Long-Term and Short-Term Metal Pollution|Environ. Toxicol. Chem.26(4): 755-763|2007|10.1897/06-099R.1
96197|T||Lorenzo,M., D. Moldes, and M.A. Sanroman|Effect of Heavy Metals on the Production of Several Laccase Isoenzymes by Trametes Versicolor and on their Ability to Decolourise Dyes|Chemosphere63(6): 912-917|2006|10.1016/j.chemosphere.2005.09.046
96199|T||Lock,E.A., P. Gaskin, M. Ellis, W.M. Provan, and L.L. Smith|Tyrosinemia Produced by 2-(2-Nitro-4-Trifluoromethylbenzoyl)-Cyclohexane-1,3-Dione (NTBC) in Experimental Animals and Its Relationship to Corneal Injury|Toxicol. Appl. Pharmacol.215(1): 9-16|2006|10.1016/j.taap.2006.01.015
96200|T||Shin,J.H., H.J. Moon, T.S. Kim, I.H. Kang, H.Y. Ki, K.S. Choi, and S.Y. Han|"Repeated 28-Day Oral Toxicity Study of Vinclozolin in Rats Based on the Draft Protocol for the ""Enchanced OECD Test Guideline No. 407"" to Detect Endocrine Effects"|Arch. Toxicol.80(9): 547-554|2006|10.1007/s00204-006-0080-6
96201|T||Brandenburg,R.L., and B.M. Royals|Thrips Control in Peanuts, North Carolina, 1993|Arthropod Manag. Tests19:244-245|1994|
96202|T||Lopez,M.L., J.R. Peralta-Videa, T. Benitez, and J.L. Gardea-Torresdey|Enhancement of Lead Uptake by Alfalfa (Medicago Sativa) Using EDTA and a Plant Growth Promoter|Chemosphere61(4): 595-598|2005|10.1016/j.chemosphere.2005.02.028
96203|A||Lopes,R.B., L.C. Paraiba, P.S. Ceccarelli, and V.L. Tornisielo|Bioconcentration of Trichlorfon Insecticide in Pacu (Piaractus mesopotamicus)|Chemosphere64(1): 56-62|2006|10.1016/j.chemosphere.2005.11.029
96205|T||Long,S.M., A. Dawson, and R.F. Shore|A Comparison of the Effects of Single and Repeated Exposure to an Organophosphate Insecticide on Acetylcholinesterase Activity in Mammals|Environ. Toxicol. Chem.25(7): 1857-1863|2006|10.1897/05-533R.1
96209|A||Loucks,E., and M.J. Carvan III|Strain-Dependent Effects of Developmental Ethanol Exposure in Zebrafish|Neurotoxicol. Teratol.26(6): 745-755|2004|10.1016/j.ntt.2004.06.017
96212|T||Karasov,W.H., K.P. Kenow, M.W. Meyer, and F. Fournier|Bioenergetic and Pharmacokinetic Model for Exposure of Common Loon (Gavia immer) Chicks to Methylmercury|Environ. Toxicol. Chem.26(4): 677-685|2007|10.1897/06-262.1
96214|T||She,J.Q., M. Wang, D.M. Zhu, L.G. Sun, and D.Y. Ruan|Effect of Ganglioside on Synaptic Plasticity of Hippocampus in Lead-Exposed Rats In Vivo|Brain Res.1060(1-2): 162-169|2005|10.1016/j.brainres.2005.08.044
96217|A||Singh,R.K., and B. Sharma|In Vivo Alteration in Protein Metabolism by Subacute Carbofuran Intoxication in the Freshwater Teleost, Clarias batrachus|Bull. Environ. Contam. Toxicol.73(5): 919-926|2004|10.1007/s00128-004-0514-x
96218|T||Simoglou,K.B., and C. Dordas|Effect of Foliar Applied Boron, Manganese and Zinc on Tan Spot in Winter Durum Wheat|Crop Prot.25(7): 657-663|2006|10.1016/j.cropro.2005.09.007
96220|T||Showler,A.T., and J.R.C. Robinson|Proactive Spraying Against Boll Weevils (Coleoptera:  Curculionidae) Reduces Insecticide Applications and Increases Cotton Yield and Economic Return|J. Econ. Entomol.98(6): 1977-1983|2005|10.1093/jee/98.6.1977
96222|A||Dow Chemical Co.|Static Acute Fish Toxicities Comparison|EPA/OTS Doc.#878213738:25 p.|1983|
96223|T||Dow Chemical Co.|Toxicological Study of Diphenyl in Citrus Wraps with Cover Letter|EPA/OTS Doc.#878213721:210 p.|1983|
96224|A||Dow Chemical Co.|Bioconcentration of Diphenyl in Trout:  Data Analysis|EPA/OTS Doc.#878213736:15 p.|1983|
96225|T||Shamsi,S.P., N.H. Khan, and S.S.A. Rizvi|Repellency Effects of Phenol, Phenyl Phenol, Biphenyl and Acetone on Chrysomyia rufifacies (Macq.) and Lucilia cuprina (Wied.)|Indian J. Entomol.52(4): 669-674|1990|
96226|T||Shibata,M.A., H. Tanaka, M. Yamada, S. Tamano, and S. Fukushima|Proliferative Response of Renal Pelvic Epithelium in Rats to Oral Administration of Ortho-Phenylphenol, Sodium Ortho-Phenylphenate and Diphenyl|Cancer Lett.48(1): 19-28|1989|10.1016/0304-3835(89)90198-5
96227|T||Kurata,Y., M. Asamoto, A. Hagiwara, T. Masui, and S. Fukushima|Promoting Effects of Various Agents in Rat Urinary Bladder Carcinogenesis Initiated by N-Butyl-N-(4-Hydroxybutyl)Nitrosamine|Cancer Lett.32(2): 125-135|1986|10.1016/0304-3835(86)90110-2
96228|A||Theegala,C.S., P.E. Carriere, A. Francis, T. Tate, and A.A. Suleiman|Influence of Primary Producers on Biovailability of Desorption Resistant Organic Pollutants in the Sediments|Soil Sediment Contam.15(3): 299-314|2006|10.1080/15320380600646373
96229|T||Birnbaum,L.S.|Altered Hepatic Drug Metabolism in Senescent Mice|Exp. Gerontol.15(4): 259-267|1980|10.1016/0531-5565(80)90030-3
96230|T||Mukhtar,H., and D.R. Bickers|Drug Metabolism in Skin.  Comparative Activity of the Mixed-Function Oxidases, Epoxide Hydratase, and Glutathione S-Transferase in Liver and Skin of the Neonatal Rat|Drug Metab. Dispos.9(4): 311-314|1981|
96231|T||Forkert,P.G., H.A. Barton, M.G. Costantini, and M.A. Marletta|The 4S Polycyclic Aromatic Hydrocarbon-Binding Protein : Immunohistochemical Localization in Mice|Carcinogenesis11(10): 1831-1835|1990|10.1093/carcin/11.10.1831
96232|T||Sutou,S.|Sex Difference in the Micronucleus Test. The Collaborative Study Group for the Micronucleus Test|Mutat. Res.172(2): 151-163|1986|10.1016/0165-1218(86)90071-6
96233|T||Gontovnick,L.S., G. Sunahara, and G.D. Bellward|Nonadditive Effects of Combined In Vivo Hepatic Microsomal Enzyme Inducers in the Wistar Rat|Can. J. Physiol. Pharmacol.61(9): 983-988|1983|10.1139/y83-147
96234|T||Nalecz,M.J., A. Wroniszewska, K.S. Famulski, and L. Wojtczak|Changes of the Mitochondrial Surface Potential During Cuprizone-Induced Formation of Megamitochondria|Eur. J. Cell Biol.27(2): 289-295|1982|
96235|T||Carlson,R.P., L. O' Neill-Davis, W. Calhoun, L. Datko, J.H. Musser, A.F. Kreft, and J.Y. Chang|Effect of a 5-Lipoxygenase (5-LO)/Cyclooxygenase (CO) Inhibitor, WY-47, 288, on Cutaneous Models of Inflammation|Agents Actions26(3-4): 319-328|1989|10.1007/BF01967296
96236|T||Silkworth,J.B., and A. Vecchi|Role of the Ah Receptor in Halogenated Aromatic Hydrocarbon Immunotoxicity|In: J.H.Dean (Ed.), Target Organ Toxicology Series: Immunotoxicology and Immunopharmacology, New York, NY, Raven Press Book:263-276|1985|
96237|T||Anderson,R.M., and G.L. Teetes|Evaluation of Insecticides for Suppression of Sorghum Midge on Sorghum, 1994|Arthropod Manag. Tests20:231-|1995|10.1093/amt/20.1.231
96241|T||Monsanto Co.|Toxicological Investigation of Biphenyl|EPA/OTS Doc.#878213572:3 p.|1983|
96242|A||Monsanto Co.|Acute Toxicity of Biphenyl to Daphnia magna|EPA/OTS Doc.#878213570:3 p.|1983|
96243|T||Monsanto Co.|Chronic Oral Administration Metabolic Studies on Dogs|EPA/OTS Doc.#878213568:41 p.|1983|
96244|T||Monsanto Co.|Final Report on the Physiological Response of Experimental Animals to the Absorption of Diphenyl, and Several Resins, Elastomers and Plastics with Cover Letter|EPA/OTS Doc.#878213563:201 p.|1983|
96245|A||Monsanto Co.|Acute Toxicity of Therminol (AB-79-1384355-1A) to Fathead Minnows (Pimephales promelas)|EPA/OTS Doc.#878213565:36 p.|1983|
96246|A||Monsanto Co.|Acute Toxicity of Therminol (AB-79-1384355-1B) to Rainbow Trout (Salmo gairdneri)|EPA/OTS Doc.#878213566:27 p.|1983|
96247|A||Monsanto Co.|Acute Toxicity of Therminol VPI (AB-79-1384355-1C) to Daphnia magna|EPA/OTS Doc.#878213567:20 p.|1983|
96248|A||Monsanto Co.|Toxicity of Therminol (VPI) (BN-79-1384355-1D) to the Freshwater Alga Selenastrum capricornutum|EPA/OTS Doc.#878213564:10 p.|1983|
96249|T||Kawachi,T., C. Nishijo, H. Fujikake, S. Abdel-Latif, N. Ohtake, K. Sueyoshi, T. Ohyama, N. Shigeta-Ishioka, S. Watanabe|Effects of Anion Channel Blockers on Xylem Nitrate Transport in Barley Seedlings|Soil Sci. Plant Nutr.48(2): 271-277|2002|10.1080/00380768.2002.10409200
96250|T||Binet,P., J.M. Portal, and C. Leyval|Fate of Polycyclic Aromatic Hydrocarbons (PAH) in the Rhizosphere and Mycorrhizosphere of Ryegrass|Plant Soil227(1-2): 207-213|2000|10.1023/A:1026587418611
96251|T||Sakaguchi,T., N.K. Nishizawa, H. Nakanishi, E. Yoshimura, and S. Mori|The Role of Potassium in the Secretion of Mugineic Acids Family Phytosiderophores from Iron-Deficient Barley Roots|Plant Soil215(2): 221-227|1999|10.1023/A:1004546112140
96253|A||Dow Chemical Co.|Acute Toxicity of Dowtherm A to Fishes and Aquatic Invertebrates|EPA/OTS Doc.#878213732:21 p.|1983|
96254|T||Blumel,S.|Results of a Direct Contact Test for the Evaluation of Side-Effects of Pesticides on the Pupal Stage of Encarsia formosa (Gah.)|Pflanzenschutzberichte (Multiple Languages)51(3): 139-142|1990|
96255|AT||Bernhardt,J.L.|Control of Rice Water Weevil with Fipronil, 1995|Arthropod Manag. Tests21:280-281|1996|10.1093/amt/21.1.280a
96256|T||Swaminathan,K., and A. Selvaraj|Effect of Various Fungicides and Their Mode of Application on the Incidence of Paddy Brown Spot Disease|Trop. Agric.71(3): 204-207|1994|
96257|T||Yeoman,D.P., D.H. Lapwood, and J. McEwen|Effects of a Range of Fungicides Used to Control Rust (Uromyces viciae-fabae) on Spring-Sown Field Beans (Vicia faba) in the UK|Crop Prot.6(2): 90-94|1987|10.1016/0261-2194(87)90105-0
96258|T||Shtienberg,D., and J. Dreishpoun|Suppression of Alternaria Leaf Spot in Pima Cotton by Systemic Fungicides|Crop Prot.10(5): 381-385|1991|10.1016/S0261-2194(06)80028-1
96260|T||Wier,A.T., D.J. Boethel, and J.S. Mink|Control of Soybean Loopers in Central Louisiana, 1990|Insectic. Acaric. Tests16:226-227|1991|10.1093/iat/16.1.226
96261|T||Van de Vrie,M., J.F. Price, and J. De Jong|Behaviour of Liriomyza trifolii Leafminer Flies and Responses to Hostplants and Insecticides|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(3A): 879-884|1986|
96262|T||Van der Staay,M.|Chemical Control of the Larvae of the Leafminer Liriomyza huidobrensis (Blanchard) in Lettuce|Meded. Fac. Landbouwwet. Rijksuniv. Gent57(2b): 473-478|1992|
96263|T||Jukes,A.A., R.H. Collier, and S. Finch|Cabbage Root Fly Control Using Non-Organophosphorus Insecticides|Meded. Fac. Landbouwwet. Rijksuniv. Gent66(2a): 395-402|2001|
96264|T||Jukes,A.A., R.H. Collier, and S. Finch|Evaluation of Non-Organophosphorus Insecticides for Controlling the Cabbage Root Fly.  The Insecticide Conundrum|Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2a): 167-173|2000|
96265|T||Gomyo,T., Y. Morishima, S. Yamazaki, H. Dairiki, and S. Ono|Analytical Method for the Total Content of Residues of Triflumizole Fungicide and Its Metabolites in Crops by high Performance Liquid and Gas Chromatography|Anal. Sci.7(4): 579-584|1991|10.2116/analsci.7.579
96266|T||Wicks,T.J.|Fungicidal Control of Leaf Spot (Septoria apiicola) of Celery|Aust. J. Exp. Agric.29(2): 261-266|1989|10.1071/EA9890261
96267|T||McConnell,D.B., and D.E. Short|Efficacy of Fertilizer-Insecticide Spikes in Foliage Plant Production|Annu. Meet. Fla. State Hortic. Soc.99:263-265|1986|
96268|T||Riedel,R.M., D.Q. Peirson, and C.C. Powell|Chemical Control of Foliar Nematodes (Aphelenchoides fragariae) on Rieger begonia|Plant Dis. Rep.57(7): 603-605|1973|
96269|T||Swinburne,T.R., J. Cartwright, N.J. Flack, and A.E. Brown|The Control of Apple Canker (Nectria galligena) in a Young Orchard with Established Infections|Ann. Appl. Biol.81(1): 61-73|1975|10.1111/j.1744-7348.1975.tb00495.x
96270|T||Wallace,D.B., W.E. MacHardy, and E.M. Meader|Control of Mummy Berry of Highbush Blueberry in New Hampshire|Plant Dis. Rep.60(2): 97-101|1976|
96271|T||Anwar,N., S.I. Ahmed, and N. Sultana|Laboratory Evaluation of Systemic Fungicides for the Control of Root-Rot Fungi in Piper betle L. (Pan)|Pak. J. Sci. Ind. Res.29(6): 435-438|1986|
96272|T||Memane,S.A., K.E. Lawande, and P.N. Kale|Systematic Fungicides for Control of Powdery Mildew of Ridge Gourd|J. Maharashtra Agric. Univ.15(3): 329-331|1990|
96273|T||Yoder,K.S., and K.D. Hickey|Sterol-Inhibiting Fungicides for Control of Certain Diseases of Apple in the Cumberland-Shenandoah Region|Plant Dis.65(12): 998-1001|1981|10.1094/PD-65-998
96274|T||Luz,W.C., and J.C. Vieira|Seed Treatment with Systemic Fungicides to Control Cochliobolus sativus on Barley|Plant Dis.66(2): 135-136|1982|10.1094/PD-66-135
96275|T||O'Leary,A.L., and T.B. Sutton|Effects of Postinfection Applications of Ergosterol Biosynthesis-Inhibiting Fungicides on Lesion Formation and Pseudothecial Development of Venturia inaequalis|Phytopathology76(1): 119-124|1986|10.1094/Phyto-76-119
96276|T||Pathak,V.N., and S.C. Gaur|Chemical Control of Pearl Millet Smut|Plant Dis. Rep.59(7): 537-538|1975|
96277|T||Delen,N.|Studies on the Control Possibilities of Chestnut Blight [Endothia parasitica (Murr.) A. and A.] in Turkey.  I.  Possible Uses of Some Systemic Fungicides Against the Pathogen|J. Turk. Phytopathol.8(2-3): 51-76|1979|
96278|T||Carter,G.A., L.A. Summers, and R.L. Wain|Investigations on Fungicides:  XIV.  Fungitoxicity of N-(2,2,2-Trichloro-1-Methoxyethyl)-Formamide and Related Compounds|Ann. Appl. Biol.70(3): 233-243|1972|10.1111/j.1744-7348.1972.tb04709.x
96279|T||Ferhatoglu,Y.|Basis for the Safening of the Cotton from Herbicide Clomazone by the Organophosphate Insecticide Phorate and Studies of the Clomazone Mode of Action|Ph.D.Thesis, University of Kentucky, Lexington, KY:60 p.|2002|
96280|T||Bickers,U., E.C. Oerke, and H.W. Dehne|Methods for Characterizing the Effect of Formulations on the Biological Availability of Systemic Fungicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent61(2b): 599-605|1996|
96281|T||Fadzil,M., and A.A.R. Nazri|Field Trial of Cyromazine (CGA-72662) as a Feed Additive to Control Breeding of Flies in Cattle Manure|Trop. Biomed.5(1): 95-96|1988|
96282|T||De Klerk,C.A.|Chemical Control of the Vine Phylloxera with Hexachlorobutadiene|Phytophylactica11(2): 83-85|1979|
96283|T||Buehring,N.W., R.E. Talbert, and F.L. Baldwin|Rice (Oryza sativa) Response and Annual Grass Control with Graminicides|Weed Technol.20(3): 738-744|2006|10.1614/WT-05-153R.1
96284|T||Wysocka-Paruszewska,B.|The Urine Level of 4-Hydroxy-3-Methoxymandelic Acid in Urine of Rats Poisoned with Phosphorus Organic Insecticides|Diss. Pharm. Pharmacol.22(6): 485-489|1970|
96285|T||Brzezinski,J.|The Effect of Poisoning with Phosphorus Organic Insecticides on the Catecholamine Levels in Rat Plasma Brain and Adrenals|Diss. Pharm. Pharmacol.24(2): 217-220|1972|
96286|T||Brzezinski,J.|Catecholamines in Urine of Rats Intoxicated with Phosphororganic Insecticides|Diss. Pharm. Pharmacol.21(4): 381-385|1969|
96287|T||Brzezinski,J., and W. Rusiecki|The Excretion of Catecholamines in Rat Urine Related to Disyston Poisoning|Diss. Pharm. Pharmacol.22(6): 507-511|1970|
96288|T||Tran,D.H., V.H. Le, T.B.P. Luong, and M. Takagi|Field Evaluation of Cartap, Cyromazine, Permethrin and Phenthoate for Control of the Stone Leek Leafminer Liriomyza chinensis (Diptera: Agromyzidae)|J. Fac. Agric. Kyushu Univ.51(2): 265-268|2006|10.5109/9240
96289|T||Mink,J.S., A.T. Wier, D.J. Boethel, and B.R. Leonard|Control of Soybean Looper on Soybean in North Louisiana Under Rainy Conditions, 1990|Insectic. Acaric. Tests16:222-|1991|10.1093/iat/16.1.222
96290|T||Wier,A.T., J.S. Mink, D.J. Boethel, and B.R. Leonard|Control of Bean Leaf Beetle, Banded Cucumber Beetle, and Threecornered Alfalfa Hopper on Soybean in Louisiana, 1990|Insectic. Acaric. Tests16:227-228|1991|10.1093/iat/16.1.227
96292|T||Layton,B., J. Hamer, T. Rector, and D. Ingram|Velvetbean Caterpillar and Soybean Looper Control, 1990|Insectic. Acaric. Tests16:218-|1991|10.1093/iat/16.1.218
96293|T||Tappan,W.B.|Insecticides Tested for Wireworm Control on Cigar-Wrapper Tobacco|J. Econ. Entomol.59(5): 1161-1163|1966|10.1093/jee/59.5.1161
96294|T||Barras,S.J., D.F. Clower, and R.G. Merrifield|Control of the Nantucket Pine Tip Moth on Loblolly Pine with Systemic Insecticides in Louisiana|J. Econ. Entomol.60(1): 185-190|1967|10.1093/jee/60.1.185
96295|T||Onsager,J.A.|Nonpersistent Insecticides for Control of Pacific Coast Wireworm|J. Econ. Entomol.62(5): 1065-1067|1969|10.1093/jee/62.5.1065
96296|A||Sorensen,M.A., P.D. Jensen, W.E. Walton, and J.T. Trumble|Acute and Chronic Activity of Perchlorate and Hexavalent Chromium Contamination on the Survival and Development of Culex quinquefasciatus Say (Diptera:  Culicidae)|Environ. Pollut.144(3): 759-764|2006|10.1016/j.envpol.2006.02.025
96298|A||Parvez,S., and S. Raisuddin|Effects of Paraquat on the Freshwater Fish Channa punctata (Bloch):  Non-Enzymatic Antioxidants as Biomarkers of Exposure|Arch. Environ. Contam. Toxicol.50(3): 392-397|2006|10.1007/s00244-005-5083-4
96299|A||Sun,Y., H. Yu, J. Zhang, Y. Yin, H. Shen, H. Liu, and X. Wang|Bioaccumulation and Antioxidant Responses in Goldfish Carassius auratus Under HC Orange No. 1 Exposure|Ecotoxicol. Environ. Saf.63(3): 430-437|2006|10.1016/j.ecoenv.2005.02.001
96300|T||Su,N.Y.|Response of the Formosan Subterranean Termites (Isoptera: Rhinotermitidae) to Baits or Nonrepellent Termiticides in Extended Foraging Arenas|J. Econ. Entomol.98(6): 2143-2152|2005|10.1093/jee/98.6.2143
96301|T||Sinha,S., and R. Saxena|Effect of Iron on Lipid Peroxidation, and Enzymatic and Non-enzymatic Antioxidants and Bacoside-A Content in Medicinal Plant Bacopa monnieri L.|Chemosphere62(8): 1340-1350|2006|10.1016/j.chemosphere.2005.07.030
96302|A||Suicmez,M., M. Kayim, D. Koseoglu, and E. Hasdemir|Toxic Effects of Lead on the Liver and Gills of Oncorhynchus mykiss WALBAUM 1792|Bull. Environ. Contam. Toxicol.77(4): 551-558|2006|10.1007/s00128-006-1099-3
96303|A||Sheader,D.L., T.D. Williams, B.P. Lyons, and J.K. Chipman|Oxidative Stress Response of European Flounder (Platichthys flesus) to Cadmium Determined by a Custom cDNA Microarray|Mar. Environ. Res.62(1): 33-44|2006|10.1016/j.marenvres.2006.03.001
96304|T||Sivapiriya,V., Jayanthisakthisekaran, and S. Venkatraman|Effects of Dimethoate (O,O-Dimethyl S-Methyl Carbamoyl Methyl Phosphorodithioate) and Ethanol in Antioxidant Status of Liver and Kidney of Experimental Mice|Pestic. Biochem. Physiol.85(2): 115-121|2006|10.1016/j.pestbp.2005.12.001
96306|T||Scibior,A., H. Zaporowska, and J. Ostrowski|Selected Haematological and Biochemical Parameters of Blood in Rats After Subchronic Administration of Vanadium and/or Magnesium in Drinking Water|Arch. Environ. Contam. Toxicol.51(2): 287-295|2006|10.1007/s00244-005-0126-4
96307|T||Smith,J.N., J. Liu, M.A. Espino, and G.P. Cobb|Age Dependent Acute Oral Toxicity of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) and Two Anaerobic N-Nitroso Metabolites in Deer Mice (Peromyscus maniculatus)|Chemosphere67(11): 2267-2273|2007|10.1016/j.chemosphere.2006.12.005
96308|T||Skoczynska,A., and E. Stojek|The Impact of Subchronic Lead Poisoning on the Vascular Effect of Nitric Oxide in Rats|Environ. Toxicol. Pharmacol.19(1): 99-106|2005|10.1016/j.etap.2004.05.004
96309|A||Smith,C.J., B.J. Shaw, and R.D. Handy|Toxicity of Single Walled Carbon Nanotubes to Rainbow Trout, (Oncorhynchus mykiss):  Respiratory Toxicity, Organ Pathologies, and Other Physiological Effects|Aquat. Toxicol.82(2): 94-109|2007|10.1016/j.aquatox.2007.02.003
96310|T||Skamarauskas,J., W. Carter, M. Fowler, A. Madjd, T. Lister, G. Mavroudis, and D.E. Ray|The Selective Neurotoxicity Produced by 3-Chloropropanediol in the Rat is not a Result of Energy Deprivation|Toxicology232(3): 268-276|2007|10.1016/j.tox.2007.01.013
96312|T||Sourma,S., M. Sekimoto, and M. Degawa|Species Difference in the Induction of Hepatic CYP1A Subfamily Enzymes, Especially CYP1A2, by 2-Methoxy-4-Nitroaniline Among Rats, Mice, and Guinea Pigs|Arch. Toxicol.80(11): 739-747|2006|10.1007/s00204-006-0103-3
96313|A||Soucek,D.J.|Comparison of Hardness- and Chloride-Regulated Acute Effects of Sodium Sulfate on Two Freshwater Crustaceans|Environ. Toxicol. Chem.26(4): 773-779|2007|10.1897/06-229R.1
96314|A||Sofyan,A., G. Rosita, D.J. Price, and W.J. Birge|Cadmium Uptake by Ceriodaphnia dubia from Different Exposures:  Relevance to Body Burden and Toxicity|Environ. Toxicol. Chem.26(3): 470-477|2007|10.1897/06-232R.1
96315|T||Sobel,E.S., F. Wang, E. Butfiloski, B. Croker, and S.M. Roberts|Comparison of Chlordecone Effects on Autoimmunity in (NZBxNZW) F1 and BALB/c Mice|Toxicology218(2-3): 81-89|2006|10.1016/j.tox.2005.03.018
96316|A||Song,S.B., Y. Xu, and B.S. Zhou|Effects of Hexachlorobenzene on Antioxidant Status of Liver and Brain of Common Carp (Cyprinus carpio)|Chemosphere65(4): 699-706|2006|10.1016/j.chemosphere.2006.01.033
96317|T||Srivastava,A., and T. Shivanandappa|Hexachlorocyclohexane Differentially Alters the Antioxidant Status of the Brain Regions in Rat|Toxicology214(1-2): 123-130|2005|10.1016/j.tox.2005.06.005
96318|A||Spokas,E.G., B.W. Spur, H. Smith, F.W. Kemp, and J.D. Bogden|Tissue Lead Concentration During Chronic Exposure of Pimephales promelas (Fathead Minnow) to Lead Nitrate in Aquarium Water|Environ. Sci. Technol.40(21): 6852-6858|2006|10.1021/es060811o
96319|A||Dutta,H.M., D. Misquitta, and S. Khan|The Effects of Endosulfan on the Testes of Bluegill Fish, Lepomis macrochirus:  A Histopathological Study|Arch. Environ. Contam. Toxicol.51(1): 149-156|2006|10.1007/s00244-005-1061-0
96320|A||Duquesne,S., S. Reynaldi, and M. Liess|Effects of the Organophosphate Paraoxon-Methyl on Survival and Reproduction of Daphnia magna:  Importance of Exposure Duration and Recovery|Environ. Toxicol. Chem.25(5): 1196-1199|2006|10.1897/05-032R1.1
96321|T||Domijan,A.M., D. Zeljezic, N. Kopjar, and M. Peraica|Standard and Fpg-Modified Comet Assay in Kidney Cells of Ochratoxin A- and Fumonisin B1-Treated Rats|Toxicology222(1-2): 53-59|2006|10.1016/j.tox.2006.01.024
96323|T||Duan,G., Y.G. Zhu, Y.P. Tong, C. Cai, and R. Kneer|Characterization of Arsenate Reductase in the Extract of Roots and Fronds of Chinese Brake Fern, an Arsenic Hyperaccumulator|Plant Physiol.138(1): 461-469|2005|10.1104/pp.104.057422
96324|A||Dowling,V., P.C. Hoarau, M. Romeo, J. O'Halloran, F. Van Pelt, N. O'Brien, and D. Sheehan|Protein Carbonylation and Heat Shock Response in Ruditapes decussatus Following p,p'-Dichlorodiphenyldichloroethylene (DDE) Exposure: A Proteomic Approach Reveals that DDE Causes Oxidative Stress|Aquat. Toxicol.77(1): 11-18|2006|10.1016/j.aquatox.2005.10.011
96325|A||Drevnick,P.E., M.B. Sandheinrich, and J.T. Oris|Increased Ovarian Follicular Apoptosis in Fathead Minnows (Pimephales promelas) Exposed to Dietary Methylmercury|Aquat. Toxicol.79(1): 49-54|2006|10.1016/j.aquatox.2006.05.007
96326|T||Di Gregorio,S., M. Barbafieri, S. Lampis, A.M. Sanangelantoni, E. Tassi, and G. Vallini|Combined Application of Triton X-100 and Sinorhizobium sp. Pb002 Inoculum for the Improvement of Lead Phytoextraction by Brassica juncea in EDTA Amended Soil|Chemosphere63(2): 293-299|2006|10.1016/j.chemosphere.2005.07.020
96327|T||Diaz,S., A. Martin-Gonzalez, and J.C. Gutierrez|Evaluation of Heavy Metal Acute Toxicity and Bioaccumulation in Soil Ciliated Protozoa|Environ. Int.32(6): 711-717|2006|10.1016/j.envint.2006.03.004
96328|T||Dinis-Oliveira,R.J., J.A. Duarte, F. Remiao, A. Sanchez-Navarro, M.L. Bastos, and F. Carvalho|Single High Dose Dexamethasone Treatment Decreases the Pathological Score and Increases the Survival Rate of Paraquat-Intoxicated Rats|Toxicology227(1-2): 73-85|2006|10.1016/j.tox.2006.07.025
96329|A||Doig,L.E., and K. Liber|Influence of Dissolved Organic Matter on Nickel Bioavailability and Toxicity to Hyalella azteca in Water-Only Exposures|Aquat. Toxicol.76(3-4): 203-216|2006|10.1016/j.aquatox.2005.05.018
96330|T||Dnyanmote,A.V., S.P. Sawant, E.A. Lock, J.R. Latendresse, A.A. Warbritton, and H.M. Mehendale|Diabetic Mice are Protected from Normally Lethal Nephrotoxicity of S-1,2-Dichlorovinyl-L-Cysteine (DCVC):  Role of Nephrogenic Tissue Repair|Toxicol. Appl. Pharmacol.211(2): 133-147|2006|10.1016/j.taap.2005.07.015
96331|T||Doerge,D.R., J.F. Young, L.P. McDaniel, N.C. Twaddle, and M.I. Churchwell|Toxicokinetics of Acrylamide and Glycidamide in Fischer 344 Rats|Toxicol. Appl. Pharmacol.208(3): 199-209|2005|10.1016/j.taap.2005.03.003
96333|T||Deng,H., Z.H. Ye, and M.H. Wong|Lead and Zinc Accumulation and Tolerance in Populations of Six Wetland Plants|Environ. Pollut.141(1): 69-80|2006|10.1016/j.envpol.2005.08.015
96334|T||Desneux,N., R. Denoyelle, and L. Kaiser|A Multi-Step Bioassay to Assess the Effect of the Deltamethrin on the Parasitic Wasp Aphidius ervi|Chemosphere65(10): 1697-1706|2006|10.1016/j.chemosphere.2006.04.082
96335|A||Dewes,L.J., J.Z. Sandrini, J.M. Monserrat, and J.S. Yunes|Biochemical and Physiological Responses After Exposure to Microcystins in the Crab Chasmagnathus granulatus (Decapoda, Brachyura)|Ecotoxicol. Environ. Saf.65(2): 201-208|2006|10.1016/j.ecoenv.2005.07.013
96336|A||Desouky,M.M.A.|Tissue Distribution and Subcellular Localization of Trace Metals in the Pond Snail Lymnaea stagnalis with Special Reference to the Role of Lysosomal Granules in Metal Sequestration|Aquat. Toxicol.77(2): 143-152|2006|10.1016/j.aquatox.2005.11.009
96337|T||Devi,A., and H. Devaraj|Induction and Expression of GST-Pi Foci in the Liver of Cyclophosphamide-Administered Rats|Toxicology217(2/3): 120-128|2006|10.1016/j.tox.2005.09.007
96338|A||Devi,S.S., and H.M. Mehendale|Microarray Analysis of Thioacetamide-Treated Type 1 Diabetic Rats|Toxicol. Appl. Pharmacol.212(1): 69-78|2006|10.1016/j.taap.2005.09.004
96339|A||Doig,L.E., and K. Liber|Nickel Partitioning in Formulated and Natural Freshwater Sediments|Chemosphere62(6): 968-979|2006|10.1016/j.chemosphere.2005.06.016
96341|T||Fayiga,A.O., and L.Q. Ma|Using Phosphate Rock to Immobilize Metals in Soil and Increase Arsenic Uptake by Hyperaccumulator Pteris vittata|Sci. Total Environ.359(1-3): 17-25|2006|10.1016/j.scitotenv.2005.06.001
96342|A||Fabbri,E., and A. Capuzzo|Adenylyl Cyclase Activity and Its Modulation in the Gills of Mytilus galloprovincialis Exposed to Cr6+ and Cu2+|Aquat. Toxicol.76(1): 59-68|2006|10.1016/j.aquatox.2005.09.007
96343|T||Evangelou,M.W.H., M. Ebel, and A. Schaeffer|Evaluation of the Effect of Small Organic Acids on Phytoextraction of Cu and Pb from Soil with Tobacco Nicotiana tabacum|Chemosphere63(6): 996-1004|2006|10.1016/j.chemosphere.2005.08.042
96345|T||Eybl,V., D. Kotyzova, and J. Koutensky|Comparative Study of Natural Antioxidants - Curcumin, Resveratrol and Melatonin - in Cadmium-Induced Oxidative Damage in Mice|Toxicology225(2-3): 150-156|2006|10.1016/j.tox.2006.05.011
96347|A||Faucher,K., D. Fichet, P. Miramand, and J.P. Lagardere|"Impact of Acute Cadmium Exposure on the Trunk Lateral Line Neuromasts and Consequences on the ""C-Start"" Response Behaviour of the Sea Bass (Dicentrarchus labrax L.; Teleostei, Moronidae)"|Aquat. Toxicol.76(3-4): 278-294|2006|10.1016/j.aquatox.2005.10.004
96348|A||Farag,A.M., T. May, G.D. Marty, M. Easton, D.D. Harper, E.E. Little, and L. Cleveland|The Effect of Chronic Chromium Exposure on the Health of Chinook Salmon (Oncorhynchus tshawytscha)|Aquat. Toxicol.76(3-4): 246-257|2006|10.1016/j.aquatox.2005.09.011
96349|T||Errampalli,D., R.D. Peters, K. MacIsaac, D. Darrach, and P. Boswall|Effect of a Combination of Chlorine Dioxide and Thiophanate-Methyl Pre-Planting Seed Tuber Treatment on the Control of Black Scurf of Potatoes|Crop Prot.25(12): 1231-1237|2006|10.1016/j.cropro.2006.03.002
96350|T||Elwan,M.A., J.R. Richardson, T.S. Guillot, W.M. Caudle, and G.W. Miller|Pyrethroid Pesticide-Induced Alterations in Dopamine Transporter Function|Toxicol. Appl. Pharmacol.211(3): 188-197|2006|10.1016/j.taap.2005.06.003
96351|T||El-Sokkary,G.H., G.H. Abdel-Rahman, and E.S. Kamel|Melatonin Protects Against Lead-Induced Hepatic and Renal Toxicity in Male Rats|Toxicology213(1-2): 25-33|2005|10.1016/j.tox.2005.05.003
96353|A||Emmanouil,C., D.J. Smart, N.J. Hodges, and J.K. Chipman|Oxidative Damage Produced by Cr(VI) and Repair in Mussel (Mytilus edulis L.) Gill|Mar. Environ. Res.62(suppl.1): S292 - S296|2006|
96354|A||Estevam,E.C., E. Nakano, T. Kawano, C.A.D.B. Pereira, F.F. Amancio, and A.M.M.D.A. Melo|Dominant Lethal Effects of 2,4-D in Biomphalaria glabrata|Mutat. Res.611(1-2): 83-88|2006|10.1016/j.mrgentox.2006.07.001
96355|T||El-Nahhal,Y., G. Lagaly, and O. Rabinovitz|Organoclay Formulations of Acetochlor:  Effect of high Salt Concentration|J. Agric. Food Chem.53(5): 1620-1624|2005|10.1021/jf040383a
96356|T||Engell,M.D., J. Godwin, L.J. Young, and J.G. Vandenbergh|Perinatal Exposure to Endocrine Disrupting Compounds Alters Behavior and Brain in the Female Pine Vole|Neurotoxicol. Teratol.28(1): 103-110|2006|10.1016/j.ntt.2005.10.002
96357|A||Elumalai,M., C. Antunes, and L. Guilhermino|Alterations of Reproductive Parameters in the Crab Carcinus maenas After Exposure to Metals|Water Air Soil Pollut.160(1-4): 245-258|2005|10.1007/s11270-005-2992-9
96358|T||Fellows,R.J., C.R. Driver, D.A. Cataldo, and S.D. Harvey|Bioavailability of Hexahydro-1,3,5,-Trinitro-1,3,5-Triazine (RDX) to the Prairie Vole (Microtus ochrogaster)|Environ. Toxicol. Chem.25(7): 1881-1886|2006|10.1897/05-446R1.1
96361|A||Dwivedi,J., and L.D. Trombetta|Acute Toxicity and Bioaccumulation of Tributyltin in Tissues of Urolophus jamaicensis (Yellow Stingray)|J. Toxicol. Environ. Health69(13-14): 1311-1323|2006|10.1080/15287390500356800
96362|T||Eldhuset,T.D., H. Lange, and H.A. De Wit|Fine Root Biomass, Necromass and Chemistry During Seven Years of Elevated Aluminium Concentrations in the Soil Solution of a Middle-Aged Picea abies Stand|Sci. Total Environ.369(1-3): 344-356|2006|10.1016/j.scitotenv.2006.05.011
96363|T||Ellis,J.K., P.L. Carmichael, and N.J. Gooderham|DNA Adduct Levels in the Liver of the F344 Rat Treated with the Natural Flavour Methyl Eugenol|Toxicology226(1): 73-74|2006|10.1016/j.tox.2006.05.098
96364|A||Elia,A.C., V. Anastasi, and A.J.M. Dorr|Hepatic Antioxidant Enzymes and Total Glutathione of Cyprinus carpio Exposed to Three Disinfectants, Chlorine Dioxide, Sodium Hypochlorite and Peracetic Acid, for Superficial Water Potabilization|Chemosphere64(10): 1633-1641|2006|10.1016/j.chemosphere.2006.01.035
96365|T||Ekmekci,Y., and S. Terzioglu|Effects of Oxidative Stress Induced by Paraquat on Wild and Cultivated Wheats|Pestic. Biochem. Physiol.83(2-3): 69-81|2005|10.1016/j.pestbp.2005.03.012
96367|T||Gruss,B., and B.J. Janse van Rensburg|Propetamphos:  A Comparison of Three Formulations in Preventing Blowfly Strike in Sheep|J. S. Afr. Vet. Assoc.59(2): 77-80|1988|
96368|A||Rodriguez-Ortega,M.J., A. Rodriguez-Ariza, O. Amezcua, and J. Lopez-Barea|Mutagenic Activation of Arylamines by Subcellular Fractions of Chamaelea gallina Clams Exposed to Environmental Pollutants|Environ. Mol. Mutagen.41(1): 55-63|2003|10.1002/em.10130
96371|T||Cabello,G., M. Valenzuela, A. Vilaxa, V. Duran, I. Rudolph, N. Hrepic, and G. Calaf|A Rat Mammary Tumor Model Induced by the Organophosphorous Pesticides Parathion and Malathion, Possibly Through Acetylcholinesterase Inhibition|Environ. Health Perspect.109(5): 471-479|2001|10.1289/ehp.01109471
96372|A||Alam,N.M., and M. Shafi|Toxicity of Metacid to Tubifex|Bangladesh J. Zool.20(1): 203-205|1992|
96373|A||Schuler,L.J., P.F. Landrum, and M.J. Lydy|Time-Dependent Toxicity of Fluoranthene to Freshwater Invertebrates and the Role of Biotransformation on Lethal Body Residues|Environ. Sci. Technol.38(23): 6247-6255|2004|10.1021/es049844z
96374|A||Hubner,T.M., S. Tischer, H. Tanneberg, and P. Kuschk|Influence of Phenol and Phenanthrene on the Growth of Phalaris arundinacea and Phragmites australis|Int. J. Phytoremediat.2(4): 331-342|2000|10.1080/15226510008500042
96375|A||Safonova,E., K. Kvitko, P. Kuschk, M. Moder, and W. Reisser|Biodegradation of Phenanthrene by the Green Alga Scenedesmus obliquus ES-55|Eng. Life Sci.5(3): 234-239|2005|10.1002/elsc.200520077
96376|A||Tekere,M., J.S. Read, and B. Mattiasson|Polycyclic Aromatic Hydrocarbon Biodegradation in Extracellular Fluids and Static Batch Cultures of Selected Sub-Tropical White Rot Fungi|J. Biotechnol.115(4): 367-377|2005|10.1016/j.jbiotec.2004.09.012
96377|T||Von Tungeln,L.S., and P.P. Fu|Stereoselective Metabolism of 9-Methyl-, 9-Hydroxymethyl- and 9,10-Dimethylanthracenes:  Absolute Configurations and Optical Purities of  Trans-Dihydrodiol Metabolites.|Carcinogenesis7(7): 1135-1141|1986|10.1093/carcin/7.7.1135
96378|T||Zhang,C.Q., and H.L. Qiao|Effect of Polychlorinated Biphenyls on Spermatogenesis and Testosterone Secretion in Adult Cocks|J. Zhejiang Univ., Sci. A5(2): 193-197|2004|10.1631/jzus.2004.0193
96379|A||Thomas,D.R., K.S. Carswell, and G. Georgiou|Mineralization of Biphenyl and PCBs by the White Rot Fungus Phanerochaete chrysosporium|Biotechnol. Bioeng.40(11): 1395-1402|1992|10.1002/bit.260401114
96380|A||Monsanto Polymer Prods.Co.|Acute (96 Hour) Toxicity of Phthalimide to Rainbow Trout and Bluegill with Cover Letter Dated 021077|EPA/OTS Doc.#FYI-OTS-1084-0346:5 p.|1982|
96382|T||Dwivedi,C., and S.J. Sitzman|Effects of Polychlorinated Biphenyls on Skin Tumor Development and Epidermal Ornithine Decarboxylase Activity|Res. Commun. Pharmacol. Toxicol.3(1-2): 65-75|1998|
96383|T||Snipes,C.E., J.E. Street, and D.L. Boykin|Influence of Flood Interval and Cultivar on Rice (Oryza sativa) Tolerance to Fenoxaprop|Weed Sci.35(6): 842-845|1987|10.1017/S0043174500079443
96384|T||Griffin,J.L., and J.B. Baker|Tolerance of Rice (Oryza sativa) Cultivars to Fenoxaprop, Sethoxydim, and Haloxyfop|Weed Sci.38(6): 528-531|1990|10.1017/S0043174500051420
96385|A||Van den Brink,P.J.|Ecological and Statistical Evaluation of Effects of Pesticides in Freshwater Model Ecosystems|Ph.D.Thesis., Agricultural Univ., Wageningen, Netherlands:178 p.|2002|
96386|T||Braverman,M.P.|Control of Mannagrass (Glyceria declinata) and Southern Watergrass (Luziola fluitans) in Water-Seeded Rice (Oryza sativa)|Weed Technol.10(1): 68-71|1996|10.1017/S0890037X00045723
96387|T||Exxon Chemical Co.|Support:  Final Report, In Vivo Mammalian Bone Marrow and Blood Micronucleus Assay-Dermal and Inhalation Exposure (to Dimethyldithiocarbamic Acid Sodium Salt W/*, W/Cvr Ltr Dt'd 6/12/98|EPA/OTS Doc.#89980000231:92 p.|1998|
96388|T||Oosterhuis,D.M., S.D. Wullschleger, R.E. Hampton, and R.A. Ball|Physiological Response of Rice (Oryza sativa) to Fenoxaprop|Weed Sci.38(6): 459-462|1990|10.1017/S0043174500051298
96389|T||Goldman,J.M., R.L. Cooper, and A.S. Murr|Reproductive Functions and Hypothalamic Catecholamines in Response to the Soil Fumigant Metam Sodium:  Adaptations to Extended Exposures|Neurotoxicol. Teratol.29(3): 368-376|2007|10.1016/j.ntt.2006.11.011
96391|A||Torokne,A.|Sensitivity Evaluation of the Daphtoxkit and Thamnotoxkit Microbiotests on Blind Samples|J. Appl. Toxicol.24(5): 323-326|2004|10.1002/jat.1018
96392|T||Goldman,J.M., A.S. Murr, A.R. Buckalew, J.M. Ferrell, and R.L. Cooper|Moderating Influence of the Drinking Water Disinfection By-Product Dibromoacetic Acid on a Dithiocarbamate-Induced Suppression of the Luteinizing Hormone Surge in Female Rats|Reprod. Toxicol.23(4): 541-549|2007|10.1016/j.reprotox.2007.03.001
96393|T||Dailey,R.E., C.L. Leavens, and M.S. Walton|Effect of Certain Dimethyldithiocarbamate Salts on Some Intermediates of the Glycolytic Pathway In Vivo|J. Agric. Food Chem.17(4): 827-828|1969|10.1021/jf60164a041
96394|T||Neel,W.W., and E.W.,Jr. Belcher|Use of Systemic Insecticides as Seed Treatments to Control Cowpea Aphids on Black Locust Seedlings|J. Econ. Entomol.60(4): 964-968|1967|10.1093/jee/60.4.964
96395|A||Marengo,T., A.D. Brown, and R.M. Lilley|The Response of the Green Halotolerant Alga dunaliella to Osmotic Stress:  Effects on Adenine Nucleotide Contents|Biochim. Biophys. Acta - Bioenergetics976(1): 102-108|1989|10.1016/S0005-2728(89)80194-X
96396|T||Varma,A., S.P. Raychaudhuri, V.C. Lele, and A. Ram|Preliminary Investigations on Epidemiology and Control of Mango Malformation|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.37(5): 291-300|1971|
96397|T||Mayzlish,E., and Y. Steinberger|Effects of Chemical Inhibitors on Soil Protozoan Dynamics in a Desert Ecosystem|Biol. Fertil. Soils39(6): 415-421|2004|10.1007/s00374-004-0723-9
96398|T||Hopkins,A.R., and H.M. Taft|Control of Certain Cotton Pests with a New Systemic Insecticide, UC-21149|J. Econ. Entomol.58(4): 746-749|1965|10.1093/jee/58.4.746
96399|T||McEwen,F.L., and A.C. Davis|Tests with Insecticides for Seed-Corn Maggot Control in Lima Beans|J. Econ. Entomol.58(2): 369-370|1965|10.1093/jee/58.2.369a
96401|T||Van Steenis,G., and M.J. Van Logten|Neurotoxic Effect of the Dithiocarbamate Tecoram on the Chick Embryo|Toxicol. Appl. Pharmacol.19(4): 675-686|1971|10.1016/0041-008X(71)90299-7
96402|T||McLennan,S.R., G.S. Wright, and G.W. Blight|Effects of Supplements of Urea, Molasses and Sodium Sulfate on the Intake and Liveweight of Steers Fed Rice Straw|Aust. J. Exp. Agric. Anim. Husb.21(111): 367-370|1981|10.1071/EA9810367
96403|T||Lamberti,F., T. D'addabbo, N. Sasanelli, A. Carella, and P. Greco|Chemical Control of Root-Knot Nematodes|Acta Hortic.532:183-187|2000|10.17660/ActaHortic.2000.532.23
96404|T||Werbrouck,S.P.O., and P.C. Debergh|Imidazole Fungicides and Paclobutrazol Enhance Cytokinin-Induced Adventitious Shoot Proliferation in Araceae|J. Plant Growth Regul.15(2): 81-85|1996|10.1007/BF00192936
96406|T||EPA/OTS|Toluene Diamine Lethality-50-Acute Toxicity Study with Attachments|EPA/OTS Doc.#40-8336132 :333 p.|2000|
96407|T||Hazleton Laboratories America Inc.|Acute Oral Toxicity in Rats with p-Tert-Butyl Benzoic Acid with Cover Letter Dated 082186|EPA/OTS Doc.#86860000121:148 p.|1986|
96408|T||Morgan,E.W., G.M. Zaucha, P.P. Waring, Y. Letellier, and J.B. Seewald|One Hundred Eighty Day Subchronic Oral Toxicity Study of Pyridostigmine Bromide in Rats.  Volume 1|Report 21 Oct 86-2 Jun 87.Letterman Army Inst.of Research, Presidio of San Francisco, CA:156 p.|1990|
96409|T||Morgan,E.W., G.M. Zaucha, P.P. Waring, Y. Letellier, and J.B. Seewald|Ninety-Day Subchronic Oral Toxicity Study of Pyridostigmine Bromide in Rats. Volume 2|Letterman Army Inst.of Research, Presidio of San Francisco, CA:307 p.|1990|
96410|T||Morgan,E.W., G.M. Zaucha, P.P. Waring, Y. Letellier, and J.B. Seewald|Ninety-Day Subchronic Oral Toxicity Study of Pyridostigmine Bromide in Rats.  Volume 1|Letterman Army Inst.of Research, Presidio of San Francisco, CA:258 p.|1990|
96411|T||Morgan,E.W., G.M. Zaucha, P.P. Waring, Y. Letellier, and J.B. Seewald|One Hundred Eighty Day Subchronic Oral Toxicity Study of Pyridostigmine Bromide in Rats.  Volume 2|Letterman Army Inst.of Research, Presidio of San Francisco, CA:155 p.|1990|
96412|T||Argus Research Labs, Inc.|Embryo-Fetal Toxicity and Teratogenicity Study of Acetonitrile in New Zealand White Rabbits (Segment II Evaluation) Project No H19-001 with Cover Letter to Timm G|Bioasasy Systems Corp., Toronto, Canada:236 p.|1984|
96413|T||Kosinova,A., E. Ginter, E. Gornerova, U. Mlynarcikova, and A. Madaric|Biochemical Response in Rats Exposed to Delor 105|Biologia (Bratisl.)40(8): 785-790|1985|
96414|A||Mahmoud,M.A., S.H. Abdel-Aziem, and M.A. Abdel-Wahhab|Protective Effects of HSCAS and Montmorillonite Against PCBS-Induced Histopathological and Cytogenetical Changes in Nile Tilapia Fish (Oreochromis niloticus)|Vet. Med. J. Giza52(3): 397-414|2004|
96415|T||Morkunas,V., and R. Lekevicius|Investigation of Natural Genetic Variability and Mutations in Common Voles (Microtus arvalis Pallas) and Laboratory Mice Induced by Polychlorinated Biphenyls and Ammonium Nitrate|Biologija(2): 20-22|2003|
96416|A||American Petroleum Institute|Bioaccumulation of Polycyclic Aromatic Hydrocarbons and Metals in Estuarine Organisms (Final Report) with Cover Letter Dated 040488|EPA/OTS Doc.#fFYI-AX-0488-0369:69 p.|1988|
96417|A||Fowler,M.C.|Laboratory Trials of a New Triazine Herbicide (DPX 3674) on Various Aquatic Species of Macrophytes and Algae|Weed Res. (Multiple Languages)17:191-195|1977|10.1111/j.1365-3180.1977.tb00465.x
96418|T||Chalfant,R.B., S.C. Phatak, and E.D. Threadgill|Protection of Direct-Seeded Tomatoes from Early Insect Injury with Systemic Insecticides in Georgia|J. Econ. Entomol.72(4): 587-589|1979|10.1093/jee/72.4.587
96419|T||Schuster,D.J.|Tomato Pinworm:  Chemical Control on Tomato Seedlings for Transplant|J. Econ. Entomol.71(2): 195-196|1978|10.1093/jee/71.2.195
96420|T||Stevenson,J.H.|Laboratory Studies on the Acute Contact and Oral Toxicities of Insecticides to Honeybees|Ann. Appl. Biol.61:467-472|1968|10.1111/j.1744-7348.1968.tb04548.x
96421|T||Hixson,E.J.|Acute Delayed Neurotoxicity Study on Disulfoton|Toxicol.Rep.No.365 (Study No.82-418-01), Mobay Chem.Corp., Environ.Health Res.Inst., Stilwell, KS:34 p.|1983|
96422|T||Lamb,D.W., and E.J. Hixson|Embryotoxic and Teratogenic Effects of Disulfoton|Study No.81-611-02, Mobay Chem.Corp., Kansas City, MO:79 p.|1983|
96423|A||Cauble,K., and R.S. Wagner|Sublethal Effects of the Herbicide Glyphosate on Amphibian Metamorphosis and Development|Bull. Environ. Contam. Toxicol.75(3): 429-435|2005|10.1007/s00128-005-0771-3
96424|T||Freudenthal,R.I., G. Kerchner, R. Persing, and R.L. Baron|Dietary Subacute Toxicity of Ethylene Thiourea in the Laboratory Rat|J. Environ. Pathol. Toxicol.1:147-161|1977|
96425|T||Tanaka,K., K. Kobayashi, Y. Fujita, C. Fukuhara, S. Onosaka, and K. Min|Effects of Chelators on Copper Therapy of Macular Mouse, a Model Animal of Menkes' Kinky Disease|Res. Commun. Chem. Pathol. Pharmacol.69(2): 217-227|1990|
96426|T||Short,R.D., J.L. Minor, T.M. Unger, B. Breeden, and D. Van Goethem|The Effect of Imidan Administered to Pregnant Rats|EPA/600/1-80/008, U.S.Environmental Protection Agency, Washington, D.C.:23 p.|1980|
96427|T||McDonald,S.J., P.H. Dernoeden, and C.A. Bigelow|Dollar Spot and Gray Leaf Spot Severity as Influenced by Irrigation, Chlorothalonil, Paclobutrazol, and a Wetting Agent|Crop Sci.46(6): 2675-2684|2006|10.2135/cropsci2005.12.0495
96428|A||Romanowska-Duda,Z., M. Tarczynska, and M. Zalewski|The Control of Cyanobacterial Blooms by Plant Growth Retardants (Ancymidol, Paclobutrazol, Uniconazole)|Water Sci. Technol.1(2): 247-250|2001|
96429|T||Boone,J.S., J.W. Tyler, M.K. Davis, and J.E. Chambers|Effects of Topical Phosmet on Fur Residue and Cholinesterase Activity of Dogs|Toxicol. Mech. Methods16(5): 275-280|2006|10.1080/15376520500195566
96430|T||Zhang,P.G., J.C. Sutton, and R.A. Fletcher|Paclobutrazol Protects Black Spruce Seedlings Against Predisposition to Gray Mold Induced by High Temperature and Drought|Can. J. For. Res.24(5): 1033-1038|1994|10.1139/x94-135
96431|T||Latimer,J.G., and R.D. Oetting|Conditioning Treatments Affect Insect and Mite Populations on Bedding Plants in the Greenhouse|Hortscience34(2): 235-238|1999|10.21273/HORTSCI.34.2.235
96432|T||Shaul,O., Y. Elad, and N. Zieslin|Suppression of Botrytis Blight in Cut Rose Flowers with Gibberellic Acid.  Effects of Exogenous Application of Abscisic Acid and Paclobutrazol|Postharvest Biol. Technol.7(1-2): 145-150|1996|10.1016/0925-5214(95)00021-6
96433|A||Das,K.K., R.K. Sarkar, and A.M. Ismail|Elongation Ability and Non-Structural Carbohydrate Levels in Relation to Submergence Tolerance in Rice|Plant Sci.168(1): 131-136|2005|10.1016/j.plantsci.2004.07.023
96434|T||Dow Chemical Co.|Acute Oral Lethality, Percutaneous Absorption and Inhalation Toxicity of Biphenyl 99|EPA/OTS Doc.#878213747:4 p.|1983|
96435|T||Dow Chemical Co.|Toxicity of Diphenyl|EPA/OTS Doc.#878213739:3 p.|1983|
96436|T||Johnston,R.H., and D.E. Mathre|Control of Flea Beetles on Canola with Insecticides Applied as Seed Treatments, 1992|Insectic. Acaric. Tests18:193-|1993|10.1093/iat/18.1.193
96437|A||Singh,K., S.J. Rahman, and K. Kumar|Incipient Resistance to Malathion in Culex (Culex) tritaeniorhynchus Larvae from Arthala (U.P.)|J. Commun. Dis.18(1): 65-67|1986|
96438|T||Slapsyte,G., and J. Aikaite|Genotoxic Activity of the Pesticides Chlordane, Endosulfan, Allethrin and Fenvalerate in the Drosophila melanogaster Wing Spot Test|Biologija:62-64|2000|
96439|T||McCullough,P.E., L.B. McCarty, and H. Liu|Response of 'TifEagle' Bermudagrass (Cynodon dactylon x C. transvaalensis) to Fenarimol and Trinexapac-Ethyl|Weed Technol.20(1): 1-5|2006|10.1614/WT-04-168R2.1
96440|T||Mast,R.W., A.R. Jeffcoat, B.M. Sadler, R.C. Kraska, and M.A. Friedman|Metabolism, Disposition and Excretion of (14C)Melamine in Male Fischer 344 Rats|Food Chem. Toxicol.21(6): 807-810|1983|10.1016/0278-6915(83)90216-8
96441|T||Sijpesteijn,A.K., and G.J.M. Van der Kerk|Investigations on Organic Fungicides. X. Pyruvic Acid Accumulation and Its Relation to the Phenomenon of Inversion Growth as Effected by Sodium Dimethyldithiocarbamate|Biochim. Biophys. Acta19:280-288|1956|10.1016/0006-3002(56)90429-2
96442|T||Sijpesteijn,A.K., M.J. Janssen, and G.J.M. Van der Kerk|Investigations on Organic Fungicides.  XI.  The Role of Metals and Chelating Agents in the Fungitoxic Action of Sodium Dimethyldithiocarbamate (NaDDC)|Biochim. Biophys. Acta23:550-557|1957|10.1016/0006-3002(57)90376-1
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96444|T||Ulmer,B.J., S.L. Lapointe, J.E. Pena, and R.E. Duncan|Toxicity of Pesticides Used in Citrus to Aprostocetus vaquitarum (Hymenoptera: Eulophidae), an Egg Parasitoid of Diaprepes abbreviatus (Coleoptera: Curculionidae)|Fla. Entomol.89(1): 10-19|2006|10.1653/0015-4040(2006)89[10:TOPUIC]2.0.CO;2
96445|T||Tanimoto,T.|Modification of Sex Expression in Sagittaria latifolia by the Application of Gibberellic Acid and Paclobutrazol|J. Jpn. Soc. Hortic. Sci.76(1): 47-53|2007|10.2503/jjshs.76.47
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96447|T||Neel,W.W.|Comparison of Systemic Insecticides by Dip Treatments for Control of the Cottonwood Leaf Beetle|J. Econ. Entomol.62(1): 265-267|1969|10.1093/jee/62.1.265
96448|T||Pike,K.S.|Greenbug Protection in Seed-Treated Winter Wheat|J. Econ. Entomol.71(5): 827-832|1978|10.1093/jee/71.5.827
96449|T||Taylor,R.E.|Di-Syston, Three Generation Rat Breeding Studies|Harris Lab.Inc., Rep.No.17164:34 p.|1965|
96450|T||Stevenson,J.H.|Laboratory and Field Assessment of Pesticide Poisoning of Honeybees (Apis mellifera)|Proc. Br. Insectic. Fungic. Conf.2:378-385|1970|
96451|T||Harrison,F.P., and A.W. Wooldridge|Green Peach Aphid Control on Tobacco with Systemic Insecticide|J. Econ. Entomol.59(2): 270-272|1966|10.1093/jee/59.2.270
96453|T||Alston,D.G., and S.V. Thomson|Effects of Fungicide Residues on the Survival, Fecundity, and Predation of the Mites Tetranychus urticae (Acari: Tetranychidae) and Galendromus occidentalis (Acari: Phytoseiidae)|J. Econ. Entomol.97(3): 950-956|2004|10.1603/0022-0493(2004)097[0950:EOFROT]2.0.CO;2
96454|T||Kummerova,M., and E. Kmentova|Photoinduced Toxicity of Fluoranthene on Germination and Early Development of Plant Seedling|Chemosphere56(4): 387-393|2004|10.1016/j.chemosphere.2004.01.007
96455|A||Barata,C., D.J. Baird, M. Medina, A. Albalat, and A.M.V.M. Soares|Determining the Ecotoxicological Mode of Action of Toxic Chemicals in Meiobenthic Marine Organisms:  Stage-Specific Short Test with Tisbe battagliai|Mar. Ecol. Prog. Ser.230:183-194|2002|10.3354/meps230183
96456|T||Hamawi,H., M.T. Mahdi, M.A. El Ghandour, A. Eid, and E. Sheltawi|Effect of Seed Treatment with Pesticides on Germination of Seeds of Some Egyptian Cotton Cultivars|Seed Sci. Technol.5(1): 97-103|1977|
96457|T||Mayer,O., and V. Eybl|Dithiocarbamate Central Effects in Relation to Their Possible Influence on Drug Metabolizing Enzymes|J. Pharm. Pharmacol.25(8): 672-676|1973|10.1111/j.2042-7158.1973.tb10664.x
96458|T||Hendrix,P.F., and R.W. Parmelee|Decomposition, Nutrient Loss and Microarthropod Densities in Herbicide-Treated Grass Litter in a Georgia Piedmont Agroecosystem|Soil Biol. Biochem.17(4): 421-428|1985|10.1016/0038-0717(85)90003-3
96459|T||Heyns,A.J., G.A. Carter, K. Rothwell, and R.L. Wain|Investigations on Fungicides.  XIII.  The Systemic Fungicidal Activity of Certain N-Carboxymethyl Dithiocarbamic Acid Derivatives|Ann. Appl. Biol.57(1): 33-51|1966|10.1111/j.1744-7348.1966.tb06864.x
96460|T||Cook,J.C., A.M. Kaplan, L.G. Davis, and J.C. O'Connor|Development of a Tier I Screening Battery for Detecting Endocrine-Active Compounds (EACs)|Regul. Toxicol. Pharmacol.26(1, Pt.1): 60-68|1997|10.1006/rtph.1997.1120
96461|T||Leibee,G.L., R.K. Jansson, G. Nuessly, and J.L. Taylor|Efficacy of Emamectin Benzoate and Bacillus thuringiensis at Controlling Diamondback Moth (Lepidoptera:  Plutellidae) Populations on Cabbage in Florida|Fla. Entomol.78(1): 82-96|1995|10.2307/3495671
96462|T||Kabachnik,M.O., T.A. Mastryukova, Y.M. Polikarpov, D.M. Paikin, M.P. Shabanova, N.M. Gamper, and L.F. Efimova|Organophosphorus Compounds. Some Analogs of O,O-Diethyl beta-Ethylmercaptoethyldithiophosphate (M-74), Less Toxic for Warm-Blooded Animals|Proc. Acad. Sci. U.S.S.R., Sect. Chem.109:491-494|1956|
96463|T||Ram,A., H.M. Rocha, and C. Ram|Screening of Fungicides Against Phytophthora palmivora (Butl.) Butl. In Vitro|Rev. Theobroma (Non-English)3(1): 14-21|1973|
96464|T||Bevan,W.J.|Control of Carrot Fly on Celery, with Notes on Other Pests|Plant Pathol.15(3): 101-108|1966|10.1111/j.1365-3059.1966.tb00324.x
96465|A||Madsen,S.D., T.L. Forbes, and V.E. Forbes|Particle Mixing by the Polychaete Capitella Species 1: Coupling Fate and Effect of a Particle-Bound Organic Contaminant (Fluoranthene) in a Marine Sediment|Mar. Ecol. Prog. Ser.147(1-3): 129-142|1997|10.3354/meps147129
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96468|T||Ana'yeva,N.D., B.P. Strekozov, and G.K. Tyuryukanova|Change in the Microbial Biomass of Soils Caused by Pesticides|Sov. Soil Sci.18(4): 56-62|1986|
96469|T||Ketring,A.R., D.E. Troutner, T.J. Hoffman, D.K. Stanton, W.A. Volkert, and R.A. Holmes|Biodistribution of Lipophilic 99mTc Complexes of Cyclam Derivatives|Int. J. Nucl. Med. Biol.11(2): 113-119|1984|10.1016/0047-0740(84)90046-9
96470|T||Field,L., J.A.R.,Jr. Grimaldi, W.S. Hanley, M.W. Holladay, R. Ravichandran, L.J. Schaad, and C.E. Tate|Biologically Oriented Organic Sulfur Chemistry.  15.  Organic Disulfides and Related Substances.  41.  Inhibition of the Fungal Pathogen Histoplasma capsulatum by Some Organic Disulfides|J. Med. Chem.20(8): 996-1001|1977|10.1021/jm00218a002
96471|T||Werbrouck,S.P.O., P. Redig, H.A. Van Onckelen, and P.C. Debergh|Gibberellins Play a Role in the Interaction Between Imidazole Fungicides and Cytokinins in Araceae|J. Plant Growth Regul.15(2): 87-93|1996|10.1007/BF00192937
96473|T||Bach,E.E., M.J.G. Beretta, O. Giannotti, P. Pigatti, M.T.S. Ungaro, P.R. Almeida, and W.B.C. Moraes|Induced Protection to Frost in Coffea arabica by Systemic Phosphorilated Insecticides|Phytopathol. Z. (Multiple Languages)95(1): 87-92|1979|10.1111/j.1439-0434.1979.tb01581.x
96474|T||Hauser,E.W., G.A. Buchanan, W.J. Ethredge, M.D. Jellum, and S.R. Cecil|Interactions Among Peanut Cultivars, Herbicide Sequences, and a Systemic Insecticide|Peanut Sci.3(2): 56-62|1976|10.3146/i0095-3679-3-2-1
96475|T||Hauser,E.W., G.A. Buchanan, J.E. Harvey, W.L. Currey, D.W. Gorbet, and N.A. Minton|Pesticide Interactions with Peanut Cultivars|Peanut Sci.8(2): 142-144|1981|10.3146/i0095-3679-8-2-16
96476|A||Lugthart,G.J., J.B. Wallace, and A.D. Huryn|Secondary Production of Chironomid Communities in Insecticide-Treated and Untreated Headwater Streams|Freshw. Biol.24:417-427|1990|10.1111/j.1365-2427.1990.tb00721.x
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96478|A||Sinha,N., B. Lal, and T.P. Singh|Pesticides Induced Changes in Circulating Thyroid Hormones in the Freshwater Catfish Clarias batrachus|Comp. Biochem. Physiol. C Comp. Pharmacol.100(1/2): 107-110|1991|10.1016/0742-8413(91)90133-E
96480|A||Schauberger,C.W., and R.B. Wildman|Accumulation of Aldrin and Dieldrin by Blue-Green Algae and Related Effects on Photosynthetic Pigments|Bull. Environ. Contam. Toxicol.17(5): 534-541|1977|10.1007/BF01685975
96481|T||Sawyer,C., R. Peto, L. Bernstein, and M.C. Pike|Calculation of Carcinogenic Potency from Long-Term Animal Carcinogenesis Experiments|Biometrics40:27-40|1984|10.2307/2530741
96482|A||Shelbourn,J.E., W.C. Clarke, J.R. McBride, U.H.M. Fagerlund, and E.M. Donaldson|The Use of 17alpha-Methyltestosterone and 3,5,3'-Triiodo-L-Thyronine for Sterilizing and Accelerating the Growth of Zero-Age Coho Salmon Smolts (Oncorhynchus kisutch)|Aquaculture103:85-99|1992|10.1016/0044-8486(92)90281-O
96484|T||Raizada,R.B., K.K. Datta, and T.S.S. Dikshith|Effect of Zineb on Male Rats|Bull. Environ. Contam. Toxicol.22:208-213|1979|10.1007/BF02026931
96486|T||Reuber,M.D.|3-Methylcholanthrene Induced Thyroiditis in Buffalo Strain Rats|Arch. Environ. Health21:734-739|1970|10.1080/00039896.1970.10667327
96487|T||Olson,K.L., F. Matsumura, and G.M. Boush|Behavioral Effects on Juvenile Rats from Perinatal Exposure to Low levels of Toxaphene, and Its Toxic Components, Toxicant A, and Toxicant B|Arch. Environ. Contam. Toxicol.9:247-257|1980|10.1007/BF01055378
96489|T||Reuber,M.D.|Carcinogenicity of Heptachlor and Heptachlor Epoxide|J. Environ. Pathol. Toxicol. Oncol.7(3): 85-114|1987|
96490|T||Reuber,M.D.|Carcinogenicity of Lindane|Environ. Res.19:460-481|1979|10.1016/0013-9351(79)90071-9
96491|AT||Phetsombat,S., M. Kruatrachue, P. Pokethitiyook, and S. Upatham|Toxicity and Bioaccumulation of Cadmium and Lead in Salvinia cucullata|J. Environ. Biol.27(4): 645-652|2006|
96492|T||Sverdrup,L.E., T. Hartnik, E. Mariussen, and J. Jensen|Toxicity of Three Halogenated Flame Retardants to Nitrifying Bacteria, Red Clover (Trifolium pratense), and a Soil Invertebrate (Enchytraeus crypticus)|Chemosphere64(1): 96-103|2006|10.1016/j.chemosphere.2005.11.056
96493|T||Sutiakova,I., N. Kovalkovicova, J. Pistl, J. Novotny, J. Legath, G. Kovac, S. Hlincikova, and V. Sutiak|Chromosomal Aberrations and Frequency of Micronuclei in Sheep Subchronically Exposed to the Fungicide Euparen Multi(Tolylfluanid)|Ecotoxicol. Environ. Saf.64(3): 312-320|2006|10.1016/j.ecoenv.2005.04.011
96494|T||Szabo,A., A. Papp, and L. Nagymajtenyi|Functional Neurotoxic Effects in Rats Elicited by 3-Nitropropionic Acid in Acute and Subacute Administration|Environ. Toxicol. Pharmacol.19(3): 811-817|2005|10.1016/j.etap.2004.12.062
96495|T||Taggart,M.A., R. Cuthbert, D. Das, C. Sashikumar, D.J. Pain, R.E. Green, Y. Feltrer, S. Shultz, A.A. Cunningham, and A.|Diclofenac Disposition in Indian Cow and Goat with Reference to Gyps Vulture Population Declines|Environ. Pollut.147(1): 60-65|2007|10.1016/j.envpol.2006.08.017
96497|T||Tang,L., H. Guan, X. Ding, and J.S. Wang|Modulation of Aflatoxin Toxicity and Biomarkers by Lycopene in F344 Rats|Toxicol. Appl. Pharmacol.219(1): 10-17|2007|10.1016/j.taap.2006.12.001
96498|A||Templeton,R.C., P.L. Ferguson, K.M. Washburn, W.A. Scrivens, and G.T. Chandler|Life-Cycle Effects of Single-Walled Carbon Nanotubes (SWNTs) on an Estuarine Meiobenthic Copepod|Environ. Sci. Technol.40(23): 7387-7393|2006|10.1021/es060407p
96499|A||Teien,H.C., W.J.F. Standring, and B. Salbu|Mobilization of River Transported Colloidal Aluminium upon Mixing with Seawater and Subsequent Deposition in Fish Gills|Sci. Total Environ.364(1-3): 149-164|2006|10.1016/j.scitotenv.2006.01.005
96500|T||Taysse,L., S. Daulon, S. Delamanche, B. Bellier, and P. Breton|Protection Against Soman-Induced Neuropathology and Respiratory Failure:  A Comparison of the Efficacy of Diazepam and Avizafone in Guinea Pig|Toxicology225(1): 25-35|2006|10.1016/j.tox.2006.04.043
96502|T||Suntres,Z.E., and E.M.K. Lui|Prooxidative Effect of Copper - Metallothionein in the Acute Cytotoxicity of Hydrogen Peroxide in Ehrlich ascites Tumour Cells|Toxicology217(2-3): 155-168|2006|10.1016/j.tox.2005.09.004
96503|A||Straub,J.O., and K.M. Stewart|Deterministic and Probabilistic Acute-Based Environmental Risk Assessment for Naproxen for Western Europe|Environ. Toxicol. Chem.26(4): 795-806|2007|10.1897/06-212R.1
96504|A||Sternberg,E., D. Tang, T.Y. Ho, C. Jeandel, and F.M.M. Morel|Barium Uptake and Adsorption in Diatoms|Geochim. Cosmochim. Acta69(11): 2745-2752|2005|10.1016/j.gca.2004.11.026
96507|A||Svecevicius,G.|Acute Toxicity of Hexavalent Chromium to European Freshwater Fish|Bull. Environ. Contam. Toxicol.77(5): 741-747|2006|10.1007/s00128-006-1126-4
96508|A||Tang,J., X.L. Yang, Z.L. Zheng, W.J. Yu, K. Hu, and H.J. Yu|Pharmacokinetics and the Active Metabolite of Enrofloxacin in Chinese Mitten-Handed Crab (Eriocheir sinensis)|Aquaculture260(1-4): 69-76|2006|10.1016/j.aquaculture.2006.05.036
96509|T||Takahashi,O., and S. Oishi|Male Reproductive Toxicity of Four Bisphenol Antioxidants in Mice and Rats and Their Estrogenic Effect|Arch. Toxicol.80(4): 225-241|2006|10.1007/s00204-005-0033-5
96510|T||Tandy,S., R. Schulin, and B. Nowack|The Influence of EDDS on the Uptake of Heavy Metals in Hydroponically Grown Sunflowers|Chemosphere62(9): 1454-1463|2006|10.1016/j.chemosphere.2005.06.005
96511|T||Szabo,A., A. Papp, L. Nagymajtenyi, and T. Vezer|Alterations in the Cortical and Peripheral Somatosensory Evoked Activity of Rats Treated with 3-Nitropropionic Acid|Toxicol. Lett.160(3): 212-217|2006|10.1016/j.toxlet.2005.07.006
96512|A||Tront,J.M., and F.M. Saunders|Role of Plant Activity and Contaminant Speciation in Aquatic Plant Assimilation of 2,4,5-Trichlorophenol|Chemosphere64(3): 400-407|2006|10.1016/j.chemosphere.2005.12.025
96513|A||Tripathi,B.N., S.K. Mehta, A. Amar, and J.P. Gaur|Oxidative Stress in Scenedesmus sp. During Short- and Long-Term Exposure to Cu2+ and Zn2+|Chemosphere62(4): 538-544|2006|10.1016/j.chemosphere.2005.06.031
96514|T||Toscano,C.D., J.P. O'Callaghan, and T.R. Guilarte|Calcium/Calmodulin-Dependent Protein Kinase II Activity and Expression are Altered in the Hippocampus of Pb2+-Exposed Rats|Brain Res.1044(1): 51-58|2005|10.1016/j.brainres.2005.02.076
96515|A||Timme-Laragy,A.R., E.D. Levin, and R.T. Di Giulio|Developmental and Behavioral Effects of Embryonic Exposure to the Polybrominated Diphenylether Mixture DE-71 in the Killifish (Fundulus heteroclitus)|Chemosphere62(7): 1097-1104|2006|10.1016/j.chemosphere.2005.05.037
96516|A||Carriquiriborde,P., J. Diaz, H. Mugni, C. Bonetto, and A.E. Ronco|Impact of Cypermethrin on Stream Fish Populations Under Field-Use in Biotech-Soybean Production|Chemosphere68(4): 613-621|2007|10.1016/j.chemosphere.2007.02.051
96517|T||Timchalk,C., J.A. Campbell, G. Liu, Y. Lin, and A.A. Kousba|Development of a Non-Invasive Biomonitoring Approach to Determine Exposure to the Organophosphorus Insecticide Chlorpyrifos in Rat Saliva|Toxicol. Appl. Pharmacol.219(2/3): 217-225|2007|10.1016/j.taap.2006.10.002
96518|T||Tolson,J.K., D.J. Dix, R.W. Voellmy, and S.M. Roberts|Increased Hepatotoxicity of Acetaminophen in Hsp70i Knockout Mice|Toxicol. Appl. Pharmacol.210(1-2): 157-162|2006|10.1016/j.taap.2005.10.001
96519|T||Tissandie,E., Y. Gueguen, J.M.A. Lobaccaro, J. Aigueperse, P. Gourmelon, F. Paquet, and M. Souidi|Chronic Contamination with 137Cesium Affects Vitamin D3 Metabolism in Rats|Toxicology225(1): 75-80|2006|10.1016/j.tox.2006.05.006
96520|A||Topperwien,S., R. Behra, and L. Sigg|Competition Among Zinc, Manganese, and Cadmium Uptake in the Freshwater Alga Scenedesmus vacuolatus|Environ. Toxicol. Chem.26(3): 483-490|2007|10.1897/06-181R.1
96521|T||Thomas,D.B., and R.L. Mangan|Nontarget Impact of Spinosad GF-120 Bait Sprays for Control of the Mexican Fruit Fly (Diptera:  Tephritidae) in Texas Citrus|J. Econ. Entomol.98(6): 1950-1956|2005|10.1093/jee/98.6.1950
96522|A||TenBrook,P.L., and R.S. Tjeerdema|Biotransformation of Clomazone in Rice (Oryza sativa) and Early Watergrass (Echinochloa oryzoides)|Pestic. Biochem. Physiol.85(1): 38-45|2006|10.1016/j.pestbp.2005.09.004
96523|T||Teran-Vargas,A., J.C. Rodriguez, C.A. Blanco, J.L. Martinez-Carrillo, J. Cibrian-Tovar, H. Sanchez-Arroyo, L.A. Rodrigu|Bollgard Cotton and Resistance of Tobacco Budworm (Lepidoptera:  Noctuidae) to Conventional Insecticides in Southern Tamaulipas, Mexico|J. Econ. Entomol.98(6): 2203-2209|2005|10.1603/0022-0493-98.6.2203
96524|A||Thangavel,P., K. Sumathiral, S. Karthikeyan, and M. Ramaswamy|Endocrine Response of the Freshwater Teleost, Sarotherodon mossambicus (Peters) to Dimecron Exposure|Chemosphere61(8): 1083-1092|2005|10.1016/j.chemosphere.2005.03.045
96525|T||Testylier,G., H. Lahrech, O. Montigon, A. Foquin, C. Delacour, D. Bernabe, C. Segebarth, F. Dorandeu, and P. Carpentier|Cerebral Edema Induced in Mice by a Convulsive Dose of Soman.  Evaluation Through Diffusion-Weighted Magnetic Resonance Imaging and Histology|Toxicol. Appl. Pharmacol.220(2): 125-137|2007|10.1016/j.taap.2007.01.013
96526|T||Timchalk,C., Y. Lin, K.K. Weitz, H. Wu, R.A. Gies, D.A. Moore, and W. Yantasee|Disposition of Lead (PB) in Saliva and Blood of Sprague-Dawley Rats Following a Single or Repeated Oral Exposure to PB-Acetate|Toxicology222(1-2): 86-94|2006|10.1016/j.tox.2006.01.030
96527|T||Thompson,K., R. Molina, T. Donaghey, J.D. Brain, and M. Wessling-Resnick|The Influence of high Iron Diet on Rat Lung Manganese Absorption|Toxicol. Appl. Pharmacol.210(1/2): 17-23|2006|10.1016/j.taap.2005.05.014
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96530|T||Harper,B.L., and M.S. Legator|Sperm Morphology Test Results for Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene, and 4- Acetylaminofluorene in ICR Swiss Mice|Eval.Short-Term Tests Carcinog.Rep.Int.Prog.Chem.Safetys Collaborative Study2:254-257|1988|
96531|T||Lasne,C., and I. Chouroulinkov|Activity of Benzo(a)pyrene and of Pyrene in Mouse Sebaceous Gland and Epidermal Hyperplasia Tests|Eval Short-Term Tests Carcinog, Rep.Int.Prog.Chem.Safetys Collaborative Study In Vivo Assays2:48-51|1988|
96532|T||Salamone,M.F., S. Chiu, and D.M. Logan|Abnormal Sperm Test Results for Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene, and 4- Acetylaminofluorene Using both Hybrid and Outbred Mice II. Gavage Treatment|In: Eval.Short-Term Tests Carcinol., Rep.Int.Prog.Chem.Safetys Collaborative Study In Vivo Assays2:243-250|1988|
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96534|T||Tamano,S., E. Asakawa, P. Boomyaphiphat, T. Masui, and S. Fukushima|Lack of Promotion of N-Butyl-N-(4-Hydroxybutyl)Nitrosamine-Initiated Urinary Bladder Carcinogenesis in Mice by Rat Cancer Promoters|Teratog. Carcinog. Mutagen.13(2): 89-96|1993|10.1002/tcm.1770130205
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96544|T||Kapitulnik,J., and J.D. Ostrow|Stimulation of Bilirubin Catabolism in Jaundiced Gunn Rats by an Inducer of Microsomal Mixed-Function Monooxygenases|Proc. Natl. Acad. Sci. U.S.A.75(2): 682-685|1978|10.1073/pnas.75.2.682
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96546|T||Generoso,W.M., K.T. Cain, M. Krishna, and S.W. Huff|Genetic Lesions Induced by Chemicals in Spermatozoa and Spermatids of Mice are Repaired in the Egg|Proc. Natl. Acad. Sci. U.S.A.76(1): 435-437|1979|10.1073/pnas.76.1.435
96547|T||Kawai-Kobayashi,K., and A. Yoshida|Effect of Polychlorinated Biphenyls on Lipids and Ascorbic Acid Metabolism in Streptozotocin-Induced Diabetic Rats|J. Nutr. Sci. Vitaminol.34(3): 281-291|1988|10.3177/jnsv.34.281
96548|T||Liu,J., Y. Liu, R.A. Barter, and C.D. Klaassen|Alteration of Thyroid Homeostasis by UDP-Glucuronosyltransferase Inducers in Rats:  A Dose-Response Study|J. Pharmacol. Exp. Ther.273(2): 977-985|1995|
96549|T||Atlas,S.A., and D.W. Nebert|Genetic Association of Increases in Naphthalene, Acetanilide, and Biphenyl Hydroxylations with Inducible Aryl Hydrocarbon Hydroxylase in  Mice|Arch. Biochem. Biophys.175(2): 495-506|1976|10.1016/0003-9861(76)90537-3
96550|T||Sims,P.|Qualitative and Quantitative Studies on the Metabolism of a Series of Aromatic Hydrocarbons by Rat-Liver Preparations|Biochem. Pharmacol.19(3): 795-818|1970|10.1016/0006-2952(70)90243-1
96551|T||Muller,L.|Stage-Related Induction of Chromosomal Aberrations and SCE in Mouse Embryos Treated Transplacentally During Organogenesis with MMC and DMBA|Teratog. Carcinog. Mutagen.8(2): 95-105|1988|10.1002/tcm.1770080204
96552|T||Tanaka,N., and M. Katoh|Unscheduled DNA Synthesis in the Germ Cells of Male Mice In Vivo|Idengaku Zasshi54(6): 405-414|1979|
96553|A||Solbakken,J.E., K. Ingebrigtsen, and K.H. Palmork|Comparative Study on the Fate of the Polychlorinated Biphenyl 2,4,5,2',4',5'-Hexachlorobiphenyl and the Polycyclic Aromatic Hydrocarbon Phenanthrene in Flounder (Platichthys flesus), Determined by Liquid Scintillation C|Mar. Biol.83(3): 239-246|1984|10.1007/BF00397455
96554|T||Rezazadeh,H., A.R. Nayebi, and M. Athar|Role of Iron-Dextran on 7,12-Dimethylbenz(a) Anthracene-Initiated and Croton Oil-Promoted Cutaneous Tumorigenesis in Normal and Pregnant Mice|Hum. Exp. Toxicol.20(9): 471-476|2001|10.1191/096032701682693044
96555|T||Mitchel,R.E.J., and R.A. McCann|Skin Tumor Promotion by Vitamin E in Mice:  Amplification by Ionizing Radiation and Vitamin C|Cancer Detect. Prev.27(2): 102-108|2003|10.1016/S0361-090X(03)00028-X
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96564|T||Barbagallo,R.P., K. Oxborough, K.E. Pallett, and N.R. Baker|Rapid, Noninvasive Screening for Perturbations of Metabolism and Plant Growth Using Chlorophyll Fluorescence Imaging|Plant Physiol.132(2): 485-493|2003|10.1104/pp.102.018093
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96568|A||Burlinson,F.C., and A.J. Lawrence|Development and Validation of a Behavioural Assay to Measure the Tolerance of Hediste diversicolor to Copper|Environ. Pollut.145(1): 274-278|2007|10.1016/j.envpol.2005.03.014
96569|A||Albert,A., K. Drouillard, G.D. Haffner, and B. Dixon|Dietary Exposure to Low Pesticide Doses Causes Long-Term Immunosuppression in the Leopard Frog (Rana pipiens)|Environ. Toxicol. Chem.26(6): 1179-1185|2007|10.1897/05-622R.1
96571|A||Agrahari,S., K.C. Pandey, and K. Gopal|Biochemical Alteration Induced by Monocrotophos in the Blood Plasma of Fish, Channa punctatus (Bloch)|Pestic. Biochem. Physiol.88(3): 268-272|2007|10.1016/j.pestbp.2007.01.001
96572|A||Bartolome,M.C., and S. Sanchez-Fortun|Acute Toxicity and Inhibition of Phototaxis Induced by Benzalkonium Chloride in Artemia franciscana Larvae|Bull. Environ. Contam. Toxicol.75(6): 1208-1213|2005|10.1007/s00128-005-0877-7
96573|A||Barnhill,M.L., M.V.M. Rosemond, and L.R. Curtis|Dieldrin Stimulates Biliary Excretion of 14C-Benzo(a)pyrene Polar Metabolites but does not Change the Biliary Metabolite Profile in Rainbow Trout (Oncorhyncus mykiss)|Toxicol. Sci.75(2): 249-259|2003|10.1093/toxsci/kfg192
96574|T||Devi,S.S., B.K. Philip, A. Warbritton, J.R. Latendresse, and H.M. Mehendale|Prior Administration of a Low Dose of Thioacetamide Protects Type 1 Diabetic Rats from Subsequent Administration of Lethal Dose of Thioacetamide|Toxicology226(2-3): 107-117|2006|10.1016/j.tox.2006.06.007
96575|A||Alonso,A., and J.A. Camargo|Toxicity of Nitrite to Three Species of Freshwater Invertebrates|Environ. Toxicol.21(1): 90-94|2006|10.1002/tox.20155
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96580|A||Bawardi,O., J. Rimoldi, and D. Schlenk|Impacts of Hypersaline Water on the Biotransformation and Toxicity of Fenthion on Rainbow Trout (Oncorhynchus mykiss), Striped Bass (Morone saxatilis X Morone chrysops) and Tilapia (Oreochromis mossambicus)|Pestic. Biochem. Physiol.88(3): 321-327|2007|10.1016/j.pestbp.2007.01.008
96581|A||Bohne,V.J.B., K. Hamre, and A. Arukwe|Hepatic Biotransformation and Metabolite Profile During a 2-Week Depuration Period in Atlantic Salmon Fed Graded Levels of the Synthetic Antioxidant, Ethoxyquin|Toxicol. Sci.93(1): 11-21|2006|10.1093/toxsci/kfl044
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96583|A||Bellas,J.|Toxicity of the Booster Biocide Sea-Nine to the Early Developmental Stages of the Sea Urchin Paracentrotus lividus|Aquat. Toxicol.83(1): 52-61|2007|10.1016/j.aquatox.2007.03.011
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96586|A||Bringolf,R.B., B.A. Morris, C.J. Boese, R.C. Santore, H.E. Allen, and J.S. Meyer|Influence of Dissolved Organic Matter on Acute Toxicity of Zinc to Larval Fathead Minnows (Pimephales promelas)|Arch. Environ. Contam. Toxicol.51(3): 438-444|2006|10.1007/s00244-005-0088-6
96587|A||Breitholtz,M., N. Ricklund, B.E. Bengtsson, and N.J. Persson|Silica Gel as a Particulate Carrier of Poorly Water-Soluble Substances in Aquatic Toxicity Testing|Aquat. Toxicol.82(4): 251-264|2007|10.1016/j.aquatox.2007.02.016
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96589|A||Blanar,C.A., M.A. Curtis, and H.M. Chan|Environmental Dose of Toxaphene Does not Affect the Growth, Stress Response, and Selected Physiological Parameters in Juvenile Arctic Charr, (Salvelinus alpinus)|Bull. Environ. Contam. Toxicol.75(3): 436-442|2005|10.1007/s00128-005-0772-2
96590|A||Choi,C.Y., K.W. An, E.R. Nelson, and H.R. Habibi|Cadmium Affects the Expression of Metallothionein (MT) and Glutathione Peroxidase (GPX) mRNA in Goldfish, Carassius auratus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(4): 595-600|2007|10.1016/j.cbpc.2007.02.007
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96592|A||Chen,C.Y., C.W. Ko, and P.I. Lee|Toxicity of Substituted Anilines to Pseudokirchneriella subcapitata and Quantitative Structure-Activity Relationship Analysis for Polar Narcotics|Environ. Toxicol. Chem.26(6): 1158-1164|2007|10.1897/06-293R.1
96593|A||Cai,X., W. Liu, M. Jin, and K. Lin|Relation of Diclofop-Methyl Toxicity and Degradation in Algae Cultures|Environ. Toxicol. Chem.26(5): 970-975|2007|10.1897/06-440R.1
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96596|A||Walker,T.W., C.L. Meek, V.L. Wright, and J.S. Billodeaux|Susceptibility of Romanomermis culicivorax (Nematoda:  Mermithidae) Postparasites to Agrichemicals Used in Louisiana Rice Production|Am. Mosq. Control Assoc. J.1(4): 477-481|1985|
96597|A||Chen,P.J., S.W. Kullman, D.E. Hinton, and K.G. Linden|Comparisons of Polychromatic and Monochromatic UV-Based Treatments of Bisphenol-A in Water via Toxicity Assessments|Chemosphere68(6): 1041-1049|2007|10.1016/j.chemosphere.2007.02.020
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96599|T||Gao,P., J.R. Thornton-Manning, and R.A. Pegram|Protective Effects of Glutathione on Bromodichloromethane In Vivo Toxicity and In Vitro Macromolecular Binding in Fischer 344 Rats|J. Toxicol. Environ. Health49(2): 145-159|1996|10.1080/009841096160899
96600|T||Baroncelli,S., D. Karrer, and P.G. Turillazzi|Oral bis(Tri-n-Butyltin) Oxide in Pregnant Mice.  I.  Potential Influence of Maternal Behavior on Postnatal Mortality|J. Toxicol. Environ. Health46:355-367|1995|10.1080/15287399509532041
96601|T||Villalobos,V., F. Castro, E. Bonilla, J. Estevez, and J.O. Davila|Manganese Toxicity:  Muscarinic Receptor Binding in the Mouse Brain|J. Toxicol. Environ. Health42(2): 185-191|1994|10.1080/15287399409531872
96602|T||Kato,S., S. Shimano, A. Masui, and S. Ishida|Insecticidal Activity of 2-Alkylthio-4-Thiazolyl Methanesulfonates|J. Pestic. Sci. (Multiple Languages)14(3): 307-313|1989|10.1584/jpestics.14.307
96603|T||Usui,M., and N. Umetsu|Metabolism of the Insecticide Benfuracarb in the Housefly|J. Pestic. Sci. (Multiple Languages)11(3): 401-408|1986|10.1584/jpestics.11.401
96604|T||Ingersoll,R.T., E.B.,Jr. Montgomery, and H.V. Aposhian|Central Nervous System Toxicity of Manganese.  I.  Inhibition of Spontaneous Motor Activity in Rats After Intrathecal Administration of Manganese Chloride|Fundam. Appl. Toxicol.27(1): 106-113|1995|10.1006/faat.1995.1113
96605|T||Biegel,L.B., J.C. Cook, J.C. O'Connor, M. Aschiero, A.J. Arduengo III, and T.W. Slone|Subchronic Toxicity Study in Rats with 1-Methyl-3-Propylimidazole-2-Thione (PTI):  Effects on the Thyroid|Fundam. Appl. Toxicol.27:185-194|1995|10.1006/faat.1995.1123
96606|T||Maheshwari,D.K., S.P. Singh, and S.N. Chaturvedi|Phytotoxicity of Nematicides and Their Interaction with Growth Hormones on Root Knot of Spinach|J. Environ. Biol.9(2): 141-147|1988|
96607|T||Tripathi,S.R., and A.K. Tripathi|Toxicity of Some Pesticides to the Green Semilooper Plusia eriosoma (Doubleday) (Lepidoptera:  Noctuidae)|J. Environ. Biol.11(4): 427-429|1990|
96608|T||Vorhees,C.V., K.D. Acuff-Smith, M.A. Schilling, J.E. Fisher, M.S. Moran, and J. Buelke-Sam|A Developmental Neurotoxicity Evaluation of the Effects of Prenatal Exposure to Fluoxetine in Rats|Fundam. Appl. Toxicol.23:194-205|1994|10.1006/faat.1994.1098
96609|T||Linder,R.E., G.R. Klinefelter, L.F. Strader, M.G. Narotsky, J.D. Suarez, N.L. Roberts, and S.D. Perreault|Dibromoacetic Acid Affects Reproductive Competence and Sperm Quality in the Male Rat|Fundam. Appl. Toxicol.28(1): 9-17|1995|10.1006/faat.1995.1140
96610|T||Brewer,M.J., T. Meade, and J.T. Trumble|Development of Insecticide-Resistant and -Susceptible Spodoptera exigua (Lepidoptera: Noctuidae) Exposed to Furanocoumarins Found in Celery|Environ. Entomol.24(2): 392-401|1995|10.1093/ee/24.2.392
96611|T||Fisher,S.W.|Joint Action Between Binary Mixtures of Chlordimeform and Insecticides|Ecotoxicol. Environ. Saf.23(1): 11-21|1992|10.1016/0147-6513(92)90017-W
96612|T||Gallez,B., C. Baudelet, J. Adline, M. Geurts, and N. Delzenne|Accumulation of Manganese in the Brain of Mice After Intravenous Injection of Manganese-Based Contrast Agents|Chem. Res. Toxicol.10(4): 360-363|1997|10.1021/tx960194p
96613|T||Latheef,M.A., R.C. Berberet, J.F. Stritzke, J.L. Caddel, and R.W. McNew|Productivity and Persistence of Declining Alfalfa Stands as Influenced by the Alfalfa Weevil, Weeds, and Early First Harvest in Oklahoma|Can. Entomol.124(1): 135-144|1992|10.4039/Ent124135-1
96614|T||Kanbe,Y., M.H. Kim, M. Nishimoto, Y. Ohtake, N. Kato, T. Tsunenari, K. aniguchi, I. hizumi, S.I. aiho, K. orikawa, J.C.|Discovery of Thiochroman and Chroman Derivatives as Pure Antiestrogens and Their Structure-Activity Relationship|Bioorg. Med. Chem.14:4803-4819|2006|10.1016/j.bmc.2006.03.020
96615|T||Jaques,R.P., and D.R. Laing|Effectiveness of Microbial and Chemical Insecticides in Control of the Colorado Potato Beetle (Coleoptera:  Chrysomelidae) on Potatoes and Tomatoes|Can. Entomol.120(12): 1123-1131|1989|10.4039/Ent1201123-12
96616|T||Vernon,R.S., and J.R. Mackenzie|Granular Insecticides Against Overwintered Tuber Flea Beetle, Epitrix tuberis Gentner (Coleoptera:  Chrysomelidae), on Potato|Can. Entomol.123(2): 333-343|1991|10.4039/Ent123333-2
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96619|T||Soffritti,M., F. Belpoggi, E. Tibaldi, D.D. Esposti, and M. Lauriola|Life-Span Exposure to Low Doses of Aspartame Beginning During Prenatal Life Increases Cancer Effects in Rats|Environ. Health Perspect.115(9): 1293-1297|2007|10.1289/ehp.10271
96620|T||Yang,R.S.H., L.W. Chang, J.P. Wu, M.H. Tsai, H.J. Wang, Y.C. Kuo, T.K. Yeh, C.S. Yang, and P. Lin|Persistent Tissue Kinetics and Redistribution of Nanoparticles, Quantum Dot 705, in Mice:  ICP-MS Quantitative Assessment|Environ. Health Perspect.115(9): 1339-1343|2007|10.1289/ehp.10290
96621|T||Prasad,K., B. Winnik, M.J. Thiruchelvam, B. Buckley, O. Mirochnitchenko, and E.K. Richfield|Prolonged Toxicokinetics and Toxicodynamics of Paraquat in Mouse Brain|Environ. Health Perspect.115(10): 1448-1453|2007|10.1289/ehp.9932
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96624|T||Ashizawa,N., T. Shimo, K. Matsumoto, K. Oba, T. Nakazawa, and O. Nagata|Strain Differences in the Responsiveness Between Sprague-Dawley and Fischer Rats to Nephropathy Induced by FYX-051, a Xanthine Oxidoreductase Inhibitor|Toxicol. Appl. Pharmacol.217(3): 260-265|2006|10.1016/j.taap.2006.09.015
96625|T||Asare,G.A., M. Bronz, V. Naidoo, and M.C. Kew|Interactions Between Aflatoxin B1 and Dietary Iron Overload in Hepatic Mutagenesis|Toxicology234(3): 157-166|2007|10.1016/j.tox.2007.02.009
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96629|T||Arle,H.F.|Trifluralin-Systemic Insecticide Interactions on Seedling Cotton|Weed Sci.16(4): 430-432|1968|10.1017/S0043174500047640
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96632|T||Copas,L., and R.R. Williams|Effect of Paclobutrazol on the Inoculum Potential of Chondrostereum purpureum and Silverleaf Symptoms in Cider Apple cvs Michelin and Sweet Coppin|J. Hortic. Sci.62(3): 287-290|1987|10.1080/14620316.1987.11515782
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96634|T||Arnold,R.E., and M.E. Hodson|Effect of Time and Mode of Depuration on Tissue Copper Concentrations of the Earthworms Eisenia andrei, Lumbricus rubellus and Lumbricus terrestris|Environ. Pollut.148(1): 21-30|2007|10.1016/j.envpol.2006.11.003
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96636|T||Shellenberger,T.E.|Organophosphate Pesticide Inhibition of Cholinesterase in Laboratory Animals and Man and Effects of Oxine Reactivators|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(6): 795-822|1980|
96637|T||Sherman,M., R.B. Herrick, M.T.Y. Chang, and J.J. Menn|Comparative Toxicity of Imidan and Homologs Containing Asymmetrical Esters to the Chick, Rat, and House Fly|J. Med. Entomol.4(4): 451-455|1967|10.1093/jmedent/4.4.451
96638|T||Natarajan,P., and T.R. Subramanian|Systemic Granular Insecticides vs. Nicotine Content in Tobacco|Pesticides 11(8): 13-14|1977|
96641|T||Barlow,N.J., S.L. Phillips, D.G. Wallace, M. Sar, K.W. Gaido, and P.M.D. Foster|Quantitative Changes in Gene Expression in Fetal Rat Testes following Exposure to Di(n-Butyl) Phthalate|Toxicol. Sci.73(2): 431-441|2003|10.1093/toxsci/kfg087
96642|T||Basu,N., A.M. Scheuhammer, K. Rouvinen-Watt, N. Grochowina, K. Klenavic, R.D. Evans, and H.M. Chan|Methylmercury Impairs Components of the Cholinergic System in Captive Mink (Mustela vison)|Toxicol. Sci.91(1): 202-209|2006|10.1093/toxsci/kfj121
96643|T||Bhuller,Y., W. Jeng, and P.G. Wells|Variable In Vivo Embryoprotective Role for Ataxia-Telangiectasia-Mutated Against Constitutive and Phenytoin-Enhanced Oxidative Stress in ATM Knockout Mice|Toxicol. Sci.93(1): 146-155|2006|10.1093/toxsci/kfl022
96644|T||Bezchlebova,J., J. Cernohlavkova, K. Kobeticova, J. Lana, I. Sochova, and J. Hofman|Effects of Short-Chain Chlorinated Paraffins on Soil Organisms|Ecotoxicol. Environ. Saf.67(2): 206-211|2007|10.1016/j.ecoenv.2006.12.015
96646|T||Bell,R.R., T.N. Merriman, W.M. Vogel, J.M. Phillips, and N.K. Khan|Evaluation of the Effects of Subchronic Oral Administration of n-butyl Maleate in Sprague-Dawley Rats|J. Toxicol. Environ. Health Part A70(12): 1038-1045|2007|10.1080/15287390601172072
96647|T||Bonnet,N., P. Bernard, H. Beaupied, J.C. Bizot, F. Trovero, D. Courteix, and C.L. Benhamou|Various Effects of Antidepressant Drugs on Bone Microarchitectecture, Mechanical Properties and Bone Remodeling|Toxicol. Appl. Pharmacol.221(1): 111-118|2007|10.1016/j.taap.2007.02.005
96648|T||Buscemi,D.M., D.J. Hoffman, N.B. Vyas, J.W. Spann, and W.J. Kuenzel|Effects of Phos-Chek G75-F and Silv-Ex on Red-Winged Blackbird (Agelaius phoeniceus) Embryos|Environ. Pollut.148(1): 312-315|2007|10.1016/j.envpol.2006.10.015
96649|T||Bull,K., N. Basu, S. Zhang, J.W. Martin, S. Bursian, P. Martin, and L.H.M. Chan|Dietary and In Utero Exposure to a Pentabrominated Diphenyl Ether Mixture did not Affect Cholinergic Parameters in the Cerebral Cortex of Ranch Mink (Mustela vison)|Toxicol. Sci.96(1): 115-122|2007|10.1093/toxsci/kfl179
96650|T||Brunjes,K.J., S.A. Severt, J. Liu, X. Pan, J. Brausch, S.A. Cox, G.P. Cobb, S.T. McMurry, R.J. Kendall, and P.N. Smith|Effects of Octahydro-1,3,5,7-Tetranitro-1,3,5,7-Tetrazocine (HMX) Exposure on Reproduction and Hatchling Development in Northern Bobwhite Quail|J. Toxicol. Environ. Health Part A70(8): 682-687|2007|10.1080/15287390600974684
96652|T||Brocardo,P.S., F. Assini, J.L. Franco, P. Pandolfo, Y.M.R. Muller, R.N. Takahashi, A.L. Dafre, and A.L.S. Rodriques|Zinc Attenuates Malathion-Induced Depressant-like Behavior and Confers Neuroprotection in the Rat Brain|Toxicol. Sci.97(1): 140-148|2007|10.1093/toxsci/kfm024
96654|T||Carvajal,F., M. Lopez-Grancha, M. Navarro, M.D.C. Sanchez-Amate, and I. Cubero|Long-Lasting Reductions of Ethanol Drinking, Enhanced Ethanol-Induced Sedation, and Decreased c-fos Expression in the Edinger-Westphal Nucleus in Wistar Rats Exposed to the Organophosphate Chlorpyrifos|Toxicol. Sci.96(2): 310-320|2007|10.1093/toxsci/kfl194
96656|T||Chamkhia,N., M. Sakly, and K.B. Rhouma|Male Reproductive Impacts of Styrene in Rat|Toxicol. Ind. Health22(8): 349-355|2006|10.1177/0748233706071739
96658|T||Clayton,T.A., J.C. Lindon, J.R. Everett, C. Charuel, G. Hanton, J.L.L. Net, J.P. Provost, and J.K. Nicholson|Hepatotoxin-Induced Hypertyrosinemia and Its Toxicological Significance|Arch. Toxicol.81(3): 201-210|2007|10.1007/s00204-006-0136-7
96659|T||Chen,G.D., L.H. Chi, P.J. Kostyniak, and D. Henderson|Styrene Induced Alterations in Biomarkers of Exposure and Effects in the Cochlea:  Mechanisms of Hearing Loss|Toxicol. Sci.98(1): 167-177|2007|10.1093/toxsci/kfm078
96660|T||Chen,M,K., and T.R. Guilarte|Imaging the Peripheral Benzodiazepine Receptor Response in Central Nervous System Demyelination and Remyelination|Toxicol. Sci.91(2): 532-539|2006|10.1093/toxsci/kfj172
96663|A||Christianson-Heiska,I., P. Smeds, N. Granholm, E. Bergelin, and B. Isomaa|Endocrine Modulating Actions of a Phytosterol Mixture and Its Oxidation Products in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(4): 518-527|2007|10.1016/j.cbpc.2007.01.016
96664|A||Clubbs,R.L., and B.W. Brooks|Daphnia magna Responses to a Vertebrate Estrogen Receptor Agonist and an Antagonist:  A Multigenerational Study|Ecotoxicol. Environ. Saf.67(3): 385-398|2007|10.1016/j.ecoenv.2007.01.009
96665|A||McClellan-Green,P., J. Romano, and D. Rittschof|Imposex Induction in the Mud Snail, Ilyanassa obsoleta by Three Tin Compounds|Bull. Environ. Contam. Toxicol.76(4): 581-588|2006|10.1007/s00128-006-0959-1
96666|T||Wyss,G.S., R. Charudattan, E.N. Rosskopf, and R.C. Littell|Effects of Selected Pesticides and Adjuvants on Germination and Vegetative Growth of Phomopsis amaranthicola, a Biocontrol Agent for Amaranthus spp.|Weed Res. (Multiple Languages)44(6): 469-482|2004|10.1111/j.1365-3180.2004.00425.x
96667|T||Brake,J., W.D. Berry, E.D. Peebles, J.F. Ort, and W.R. Campbell|Effect of Feeding CGA-72662 (Larvadex) During Growth on Body Weight, Feed Consumption, Livability, Production, and Egg Quality of Single Comb White Leghorn Layers|Poult. Sci.64(2): 247-252|1985|10.3382/ps.0640247
96668|T||Kundu,G.G., and Trimohan |Effect of Rhizobium in Association with Granular Insecticides on Nodulation and Yield in Soybean|Curr. Sci. (Bangalore)58(23): 1340-1342|1989|
96669|T||Rogoff,W.M., G. Brody, A.R. Roth, G.H. Batchelder, G.D. Meyding, W.S. Bigley, G.H. Gretz, and R. Orchard|Efficacy, Cholinesterase Inhibition, and Residue Persistence of Imidan for the Control of Cattle Grubs|J. Econ. Entomol.60(3): 640-646|1967|10.1093/jee/60.3.640
96670|A||Van,T.K., and T.D. Center|Effect of Paclobutrazol and Waterhyacinth Weevil (Neochetina eichhorniae) on Plant Growth and Leaf Dynamics of Waterhyacinth (Eichhornia crassipes)|Weed Sci.42(4): 665-672|1994|10.1017/S0043174500077110
96671|T||Foott,W.H., and P.R. Timmins|An Examination of Possible Side Effects in Peppers Side-Dressed with Disulfoton|Proc. Entomol. Soc. Ont.100:97-100|1970|
96672|T||Kalshetti,C.N., and S.B. Varade|Growth Responses of Wheat (Triticum sativum), Variety Sonalika-308 to Granular Systemic Soil Insecticides|Pesticides 9(8): 46-47|1975|
96673|T||Savage,K.E., and H.W. Ivy|Fluometuron-Disulfoton Interactions in Cotton as Affected by Soil Properties|Weed Sci.21(4): 275-278|1973|10.1017/S0043174500026965
96674|T||Vargova,M., M. Gajdova, J. Jakubovsky, and L. Wsolova|Estrogenic Effects of Some Xenobiotics|In: G.H.Degen, J.P.Seiler and P.Bentley (Eds.), Archives of Toxicology Suppl., 17 Toxicology in Transition:148-152|1995|
96675|T||Mulla,M.S.|Effectiveness and Residual Activity of New Compounds in Soil Against the Eye Gnat, Hippelates collusor|J. Econ. Entomol.57(6): 873-878|1964|10.1093/jee/57.6.873
96676|T||Madsen,H.F., L.A. Falcon, and T.T.Y. Wong|Control of the Walnut Aphid and Codling Moth on Walnuts in Northern California|J. Econ. Entomol.57(6): 950-952|1964|10.1093/jee/57.6.950
96677|T||Miller,D.E., F.R. Shaw, and C.T. Smith|The Comparative Residual Life of Two Formulations of Imidan on Alfalfa|J. Econ. Entomol.62(3): 720-721|1969|10.1093/jee/62.3.720
96678|T||Loomis,E.C., L.L. Dunning, and L.A. Riehl|Control of Hypoderma lineatum and H. bovis in California, 1970-72, Using Crufomate, Fenthion, and Imidan in New Low-Volume and Usual Pour-on Formulations|J. Econ. Entomol.66(2): 439-443|1973|10.1093/jee/66.2.439
96679|T||Mount,G.A., J.B. Gahan, and C.S. Lofgren|Laboratory Tests with Promising Insecticides for Control of Adult and Larval Stable Flies|J. Econ. Entomol.60(6): 1600-1602|1967|10.1093/jee/60.6.1600
96680|T||Stanley,R.L., N.M. Randolph, and G.L. Teetes|Control of the Clover Head Weevil on Crimson Clover|J. Econ. Entomol.63(1): 256-258|1970|10.1093/jee/63.1.256
96681|T||Lammerink,J., and R.A. Banfield|Effect of Disulfoton on Growth of Aphid-Free Oilseed Rape|N. Z. J. Exp. Agric.7(2): 221-223|1979|10.1080/03015521.1979.10426193
96682|T||Graham-Bryce,I.J., J.H. Stevenson, and P. Etheridge|Factors Affecting the Performance of Granular Insecticides Applied to Field Beans|Pestic. Sci.3(6): 781-797|1972|10.1002/ps.2780030615
96683|T||Mepsted,R., J. Flood, and R.M. Cooper|Fusarium Wilt of Oil Palm I.  Possible Causes of Stunting|Physiol. Mol. Plant Pathol.46(5): 361-372|1995|10.1006/pmpp.1995.1028
96684|T||Singh,V.K., N. Garg, and S.R. Bhriguvanshi|Effect of Paclobutrazol Doses on Nutritional and Microbiological Properties of Mango (Mangifera indica) Orchard Soils|Indian J. Agric. Sci.75(11): 738-739|2005|
96685|T||Kappelman,A.J.,Jr.|Effect of Fungicides and Insecticides Applied at Planting on Cotton Emergence, Seedling Survival, and Vigor|Plant Dis. Rep.61(8): 703-706|1977|
96686|T||Rajukkannu,K., P. Vasudevan, K. Saivaraj, and K.K. Krishnamoorthy|Insecticides Residues in Greengram, Blackgram and Cowpea|Pesticides 11(10): 25-26|1977|
96687|T||Natarajan,P., and T.R. Subramaniam|Estimation of Residues of Some Granular Insecticides in Tobacco|Pesticides 11(2): 35-36|1977|
96688|T||Loomis,E.C., A. Noorderhaven, and W.J. Roulston|Control of the Southern Cattle Tick by Pour-on Animal Systemic Insecticides|J. Econ. Entomol.65(6): 1638-1641|1972|10.1093/jee/65.6.1638
96689|A||Del carmen Alvarez,M., C.A. Murphy, K.A. Rose, I.D. McCarthy, and L.A. Fuiman|Maternal Body Burdens of Methylmercury Impair Survival Skills of Offspring in Atlantic Croaker (Micropogonias undulatus)|Aquat. Toxicol.80(4): 329-337|2006|10.1016/j.aquatox.2006.09.010
96692|T||Michelini,S., L.E. Chinnery, and J.P. Thomas|The Effect of Paclobutrazol on the Vesicular-Arbuscular Mycorrhizae of Alemow, Citrus macrophylla Wester, Rootstocks|Acta Hortic.239:427-430|1989|10.17660/ActaHortic.1989.239.70
96693|T||Avery,M.L., P. Nol, and J.S. Humphrey|Responses of Three Species of Captive Fruit-Eating Birds to Phosmet-Treated Food|Pestic. Sci.41(1): 49-53|1994|10.1002/ps.2780410109
96695|T||Swamiappan,M., S. Jayaraj, and T.R. Subramaniam|Influence of Two Systemic Granular Insecticides on Growth of Cotton|Madras Agric. J.63(5-7): 334-337|1976|
96697|T||Berrie,A.M.|The Effects of DMI Fungicides on Growth Yield Quality and Mildew Control in Apple cv. Cox's Orange Pippin|Acta Phytopathol. Entomol. Hung.27(1-4): 111-117|1992|
96698|T||Reddy,M.K.|Effect of Certain Chemicals on Growth and Pectin Trans Eliminase of Fusarium oxysporum f. Vasinfectum|AUARA (Annamalainagar) 2:53-59|1970|
96699|T||Sivan,J., and R. Barkai-Golan|In Vitro and In Vivo Evaluation of Fungicides for Control of Stemphylium botryosum f. lactucae on Lettuce Leaves|Phytoparasitica4(1): 33-39|1976|10.1007/BF02981077
96700|T||Vesicol Chemical Corp.|Acute Toxicity Studies in Rabbits and Rats with Neutral Oils with Cover Sheets and Letter Dated 072078|EPA/OTS Doc.#88-7800220:88 p.|1978|
96701|T||Hazleton Laboratories America Inc.|Up and Down Procedure for Estimating Acute Oral Toxicity (LD50) in Rats with Cover Letter Dated 082186|EPA/OTS Doc.#86860000122:85 p.|1986|
96702|T||General Electric Corp.|Dichloromethane Fourteen Day Range Finding Study in Rats|EPA/OTS Doc.#878210707:109 p.|1982|
96704|T||Hazleton Laboratories Inc.|Acute Oral Toxicity (Up/Down Method) Report with Cover Letter Dated 020987|EPA/OTS Doc.#86870000160:100 p.|2000|
96705|T||ICI Americas Inc.|Initial Submission: Subacute Oral Dosing Study with PP021 in Dogs with Cover Letter Dated 082892|EPA/OTS Doc.#88-920006945:139 p.|1992|
96706|T||Morgan,E.W., G.F.S. Hiatt, C.M. Lewis, and D.W.,Jr. Korte|Acute Oral Toxicity of (E)-1,2,3,4-Tetrahydro-6-Methyl-1-(2-Methyl-1-Oxo-2-Butenyl) Quinoline (Chr5) in Male and Female Rats|Final Report18.Nov-16 Dec 83, 25 Apr-16 May 84, Letterman Army Inst.of Research, Presidio of San Francisco, CA:98 p.|1986|
96707|T||Coffelt,M.A., P.B. Schultz, and T.J. Banko|Tree Growth Regulator Influences Orangestriped Oakworm (Lepidoptera: Saturniidae) Development and Survival|J. Econ. Entomol.86(5): 1446-1452|1993|10.1093/jee/86.5.1446
96708|T||Morgan,E.W., J.R.G. Ryabik, C. Wheeler, and D.W.,Jr. Korte|Acute Oral Toxicity of Triethyleneglycol Dinitrate (TEGDN) in ICR Mice|Report.23 Jan-26-Apr 85, Letterman Army Inst.of Res., Presidio of San Francisco, CA:81 p.|1989|
96709|T||Velsicol Chemical Corp.|Acute Toxicity Studies in Rabbits and Rats wth Attachments, Cover Sheet and Letter Dated 071978|EPA/OTS Doc.#88-7800227:96 p.|1978|
96710|T||Maraschin,R., R. Bussi, A. Conz, L. Orlando, R. Pirovano, and A. Nyska|Toxicological Evaluation of U-hEGF|Toxicol. Pathol.23(3): 356-366|1995|10.1177/019262339502300312
96712|T||Misra,S.G., and A.K. Gupta|Effect of Pesticides on Protein Fractions During Germination of Mung|Natl. Acad. Sci. Lett.5(12): 411-414|1982|
96713|T||Suett,D.L., and C.E. Padbury|Influence of Some New Application Variables on Insecticide Behavior and Availability in Soil|Br. Crop Prot. Conf. Pests Dis.11th(1): 157-164|1981|
96714|T||Singaram,P., and T.S. Manickam|Influence of Some Pesticides on the Availability of Nutrients to Brinjal (Solanum melongena)|Madras Agric. J.67(1): 24-27|1980|
96715|T||Chendrayan,K., and N.N. Prasad|Effect of Soil Application of Phorate and Disulfoton on Rhizobium-Groundnut Symboisis|Madras Agric. J.63(8-10): 528-530|1976|
96716|T||Sivaprakasam,K., K. Pillayarsamy, A.V. Rangarajan, N.R. Mahadevan, and S. Iyemperumal|Efficacy of Certain Insecticides in the Control of Chilli Mosaic|Madras Agric. J.63(4): 236-237|1976|
96717|T||Sithanantham,S.|Effect of Seed Treatment with Systemic Insecticides on Germination and Seedling Development in Cotton|Madras Agric. J.60(4): 280-284|1973|
96718|T||Narayanasamy,P., and M. Ramiah|Insecticidal Control of Groundnut Ring Mosaic Disease|Madras Agric. J.63(5-7): 417-419|1976|
96719|T||Saivaraj,K., K. Rajukkannu, T.R. Subramaniam, and K.K. Krishnamoorthy|Residues of Insecticidal Application in Sorghum|Madras Agric. J.63(5-7): 375-377|1976|
96720|T||Singaram,P., and T.S. Manickam|Influence of Some Pesticides on the Availability of Nutrients to Sorghum (Sorghum vulgare)|Madras Agric. J.67(7): 429-432|1980|
96721|T||Quinto,I., and E. De Marinis|Evaluation of Propineb, a Dithiocarbamate Pesticide, in the Mouse-Sperm Morphology Assay|Mutat. Res.124(3-4): 235-240|1983|10.1016/0165-1218(83)90194-5
96722|T||Mahmoud,S.A.Z., S.M. Taha, A.M. Abdel-Hafez, and A.S. Hamed|Effect of Some Pesticides on Rhizosphere Microflora of Cotton Plants.  I.  Insecticides and Fungicides|Egypt. J. Microbiol.7(1-2): 39-52|1972|
96724|T||Ivy,H.W.|Response of Cotton to Combinations of Herbicides and Disulfoton|Weed Sci.19(4): 338-340|1971|10.1017/S0043174500049092
96725|T||Clark,G., and W.B. Stavinoha|A Permeability Change in CNS Tissue in Chronic Poisoning with Disulfoton|Life Sci.10(Pt.1): 421-423|1971|10.1016/0024-3205(71)90106-8
96726|T||Oblisami,G., K. Balaraman, T. Natarajan, and R. Kulandaivelu|Effect of Organophosphorus Insecticides on Soil Microflora, Nodulation and Yield of Groundnut|Madras Agric. J.64(6): 375-378|1977|
96727|T||Sorour,F.A.|Effect of Thimet and Di-Syston on Emergence, Growth and Fruiting of Cotton|Agric. Res. Rev.46(1): 99-103|1968|
96728|T||Love,J.L., D.L. Keating, and A.M. Ferguson|Residues of Phosmet on Kiwifruit|N. Z. J. Exp. Agric.6(2): 123-126|1978|10.1080/03015521.1978.10426027
96729|T||Treece,R.E.|Evaluation of Some Chemicals as Feed Additives to Control Face Fly Larvae|J. Econ. Entomol.57(6): 962-963|1964|10.1093/jee/57.6.962
96730|T||Chamberlain,W.F.|A Study of the Dermal Treatment of a Steer with C14-Labeled Imidan|J. Econ. Entomol.58(1): 51-55|1965|10.1093/jee/58.1.51
96731|T||Loomis,E.C., G.L. Crenshaw, and L.L. Dunning|Systemic Insecticide Study on Livestock in California, 1967-68.  2.  Evaluation of Imidan for Cattle Grub Control|J. Econ. Entomol.65(2): 450-453|1972|10.1093/jee/65.2.450
96732|T||Matolcsy,G., M. Hamran, and B. Bordas|Synthesis and Antifungal Properties of Dithiocarboxylic Acid Derivatives.  III.  Dimethylaminomethyl-Dithiocarboxylates and Beta-Dithiocarbamates|Acta. Phytopathol. Acad. Sci. Hung.8(1-2): 255-259|1973|
96733|T||El-Samadisy,A.M., and G. Matolcsy|Effect of Copper and Chelating Agents on the Toxicity of Chelating Fungicides|Acta. Phytopathol. Acad. Sci. Hung.10(3-4): 447-453|1975|
96734|T||Foley,D.J., and J.J. McPhillips|Response of the Rat Ileum, Uterus and Vas Deferens to Carbachol and Acetylcholine Following Repeated Daily Administration of a Cholinesterase Inhibitor|Br. J. Pharmacol.48(3): 418-425|1973|10.1111/j.1476-5381.1973.tb08350.x
96735|T||Johnson,B.J.|Combinations of Herbicides and Other Pesticides on Soybeans|Weed Sci.18(1): 128-131|1970|10.1017/S0043174500077511
96736|T||Cargill,R.L., and P.W. Santelmann|Response of Peanuts to Combinations of Herbicides with Other Pesticides|Weed Sci.19(1): 24-27|1971|10.1017/S0043174500048190
96737|T||Foley,D.J., R.E. Stitzel, and J.J. McPhillips|The Relationship Between Inhibition of Acetylcholinesterase and Sensitivity of the Rat Ileum to Carbachol|Pharmacology10(5): 298-305|1973|10.1159/000136450
96738|T||McPhillips,J.J.|Subsensitivity of the Rat Ileum to Cholinergic Drugs|J. Pharmacol. Exp. Ther.166(2): 249-254|1969|
96739|T||Costa,L.G., B.W. Schwab, and S.D. Murphy|Differential Alterations of Cholinergic Muscarinic Receptors During Chronic and Acute Tolerance to Organophosphorus Insecticides|Biochem. Pharmacol.31(21): 3407-3413|1982|10.1016/0006-2952(82)90619-0
96740|T||Giurgea,R.|Reaction of the Thymus of Wistar Rats Treated with Alar and Disulfoton|Rev. Roum. Biol.24(1): 59-61|1979|
96741|T||Costa,L.G., and S.D. Murphy|Cholinergic and Opiate Involvement in the Antinociceptive Effect of Diisopropylfluorophosphate|Pharmacol. Biochem. Behav.24(3): 733-736|1986|10.1016/0091-3057(86)90582-4
96742|T||Malm,N.R., and R.E. Finkner|The Use of Systemic Insecticides to Reduce the Incidence of Curly Top Virus Disease in Sugarbeets|J. Am. Soc. Sugar Beet Technol.15(3): 246-254|1968|10.5274/jsbr.15.3.246
96743|T||Schwab,B.W., H. Hand, L.G. Costa, and S.D. Murphy|Reduced Muscarinic Receptor Binding in Tissues of Rats Tolerant to the Insecticide Disulfoton|Neurotoxicology2(4): 635-647|1981|
96744|T||Yagle,K., and L.G. Costa|Effects of Organophosphate Exposure on Muscarinic Acetylcholine Receptor Subtype mRNA Levels in the Adult Rat|Neurotoxicology17(2): 523-530|1996|
96745|T||Mundy,W.R., T.R. Ward, V.F. Dulchinos, and H.A. Tilson|Effect of Repeated Organophosphate Administration on Carbachol-Stimulated Phosphoinositide Hydrolysis in the Rat Brain|Pharmacol. Biochem. Behav.45(2): 309-314|1993|10.1016/0091-3057(93)90244-N
96747|T||Cole,H., D. MacKenzie, C.B. Smith, and E.L. Bergman|Influence of Various Soil Incorporated Fungicides and Nematocides on Macro and Micro Element Constituents of Zea mays and Phaseolus vulgaris|Bull. Environ. Contam. Toxicol.3(2): 116-126|1968|10.1007/BF01723733
96748|T||Schwab,B.W., and S.D. Murphy|Induction of Anticholinesterase Tolerance in Rats with Doses of Disulfoton that Produce no Cholinergic Signs|J. Toxicol. Environ. Health8(1-2): 199-204|1981|10.1080/15287398109530063
96749|T||Carter,W.W.|Postharvest Treatment for Control of Stem-Scar, Rind, and Decay Fungi on Cantaloup|Plant Dis.65(10): 815-816|1981|10.1094/PD-65-815
96750|T||Frans,R.E., M. McClelland, and E. Terhune|Herbicide Field Evaluation Trials on Field Crops, 1979|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.:66 p.|1980|
96751|T||Morgan,E.W., D.F. Frost, C.R. Wheeler, and D.W.,Jr. Korte|Acute Oral Toxicity of JA-2 Solid Propellant in ICR Mice|Institute Report No.414, Letterman Army Inst.of Research, Presidio of San Francisco, CA:73 p.|1990|
96754|T||Richmond Research Center|Initial Submission:  Imidan: 21-Day Sub-Acute Dermal Toxicity in Rabbits with Cover Letter Dated 082892|EPA/OTS Doc.#88-920007426:50 p.|1992|
96755|T||Brown,L.D., C.R. Wheeler, Y.C. LeTellier, and D.W.,Jr. Korte|Acute Oral Toxicity of DIGL-RP Solid Propellant in ICR Mice|Toxicology Series No.178, Letterman Army Inst.of Research, Presidio of San Francisco, CA:68 p.|1990|
96756|T||Hiatt,G.F.S., M. Goldman, and D.W.,Jr. Korte|Acute Oral Toxicity of Methyl-N,N'-Dihexylethylene Diaminemonocarbamate (CHR4) in Sprague-Dawley Rats|Toxicology Series No.83, Letterman Army Inst.of Research, Presidio of San Francisco, CA:72 p.|1991|
96757|T||Shirkot,C.K., D. Mann, S. Dhawan, A.K. Gupta, and K.G. Gupta|Effect of Dithiocarbamates on Cellulase Activity in Culture Filtrates of Trichoderma reesei|Biotechnol. Bioeng.24(6): 1233-1240|1982|10.1002/bit.260240602
96758|T||Gamar,Y.|Determination of Di-Syston and Its Oxidative Metabolite Residues in Eggplants (Solanum melongena) and Onions (Allium cepa)|Sudan J. Food Sci. Technol.8:32-39|1976|
96759|A||Kajdasz,R., R.V. Einstman, and L. Young-Bandala|Biocidal Efficacy with Respect to Sessile and Planktonic Organisms|In: Dearborn Chemical Co., Nashville, TN (IWC-84-60):85-93|1984|
96761|T||Spyker-Cranmer,J.M., J.B. Barnett, D.L. Avery, and M.F. Cranmer|Immunoteratology of Chlordane:  Cell-Mediated and Humoral Immune Responses in Adult Mice Exposed In Utero|Toxicol. Appl. Pharmacol.62:402-408|1982|10.1016/0041-008X(82)90141-7
96762|T||Swarnakar,A., and S. Mukherji|Amelioration of Arsenic Toxicity by Phosphate Salts in Mungbean Seedlings|J. Environ. Biol.26(3): 551-555|2005|
96763|T||Kummerova,M., J. Gloser, L. Slovak, and I. Holoubek|Project TOCOEN.  The Fate of Selected Organic Compounds in the Environment.  The Growth Response of Maize to Increasing Concentrations of Fluoranthene|Toxicol. Environ. Chem.54(1-4): 99-106|1996|10.1080/02772249609358301
96764|T||Miller,R.W., and J.A. Miller|Feed-Through Chemicals for Insect Control in Animals|Beltsville Symp. Agric. Res.8:355-364|1985|
96765|T||Myers,S.C., A. King, and A.T. Savelle|Bloom Thinning of 'Winblo' Peach and 'Fantasia' Nectarine with Monocarbamide Dihydrogensulfate|Hortscience28(6): 616-617|1993|10.21273/HORTSCI.28.6.616
96766|T||Sleeth,B.|Fungistatic Effect of Certain Chemicals on Hyphal Growth of Phymatotrichum omnivorum, the Cotton Root-Rot Fungus|Plant Dis.51(2): 138-142|1967|
96767|T||Ohkawa,H., N. Mikami, A. Mine, and J. Miyamoto|Synthesis and Herbicidal Activity of the Optical Isomers of O-Ethyl O-2-Nitro-5-Methylphenyl N-Isopropyl Phosphoramidothioate|Agric. Biol. Chem.39(11): 2265-2267|1975|
96768|T||Tarabula,T.|Seasonal Changes in Foliage Biomass and Age Composition of Live and Falling Needles in Scots Pine Saplings Treated with Sulphuric Acid, Urea, or Lime|Pol. J. Ecol.50(3): 371-380|2002|
96769|T||Speese III,J.|Foliar Sprays to Control Spider Mites on Soybeans, 1996|Arthropod Manag. Tests22:316-|1997|10.1093/amt/22.1.316a
96770|T||Chakravarty,P., and L. Chatarpaul|Non-Target Effect of Herbicides:  II. The Influence of Glyphosate on Ectomycorrhizal Symbiosis of Red Pine (Pinus resinosa) Under Greenhouse and Field Conditions|Pestic. Sci.28(3): 243-247|1990|10.1002/ps.2780280303
96771|T||Drees,B.M.|Red Imported Fire Ant Predation on Nestlings of Colonial Waterbirds|Southwest. Entomol.19(4): 355-360|1994|
96772|T||Sadek,I.A., and F. Abdul-Salam|Effect of Dietary Fat on Toad Liver Tumor Induced by DMBA:  Ultrastructural Studies|Histol. Histopathol.9(3): 423-426|1994|
96773|T||Munir,K.M., K.V.K. Rao, and S.V. Bhide|Effect of Hexachlorocyclohexane on Diethylnitrosamine-Induced Hepatocarcinogenesis in Rat and Its Failure to Promote Skin Tumors on Dimethylbenz(a)anthracene Initiation in Mouse|Carcinogenesis5(4): 479-481|1984|10.1093/carcin/5.4.479
96774|T||Henderson,D.|Combined Treatment of Cattle with the Anthelmintic Levamisole and Prolate Warble Dressings|Vet. Rec.110(8): 181-182|1982|10.1136/vr.110.8.181
96775|T||Darvas,B., H.H. Rees, N. Hoggard, M.H.T. El-Din, E. Kuwano, I. Belai, and T. Timar|Cytochrome P-450 Inducers and Inhibitors Interfering with Ecdysone 20-Monooxygenases and Their Activities During Postembryonic Development of Neobellieria bullata Parker|Pestic. Sci.36(2): 135-142|1992|10.1002/ps.2780360209
96776|A||Pulsford,A., M.G. Tomlinson, S. LeMaire-Gony, and P.J. Glynn|Development and Immunocompetence of Juvenile Flounder Platichthys flesus, L.|Fish Shellfish Immunol.4(1): 63-78|1994|10.1006/fsim.1994.1006
96778|T||Thomas,S.H., J. Schroeder, and L.W. Murray|Cyperus Tubers Protect Meloidogyne incognita from 1,3-Dichloropropene|J. Nematol.36(2): 131-136|2004|
96779|T||Raltech Scientific Services Inc.|Acute Oral Toxicity (LD50) in Albino Rats|EPA/OTS Doc.#40-7952012:10 p.|2000|
96780|T||Ryabik,J.R.G., L.D. Brown, C.R. Wheeler, and D.W.,Jr. Korte|Acute Oral Toxicity of Diethyleneglycol Dinitrate (DEGDN) in ICR Mice|Toxicology Series 137, Letterman Army Inst.of Research, Presidio of San Francisco, CA:73 p.|1985|
96783|T||Rohm and Haas Co.|The Acute Oral Toxicity Study of Tris (Chloroethyl) Phosphite in Rats with Cover Letter|EPA/OTS Doc.#878213618:43 p.|1983|
96784|T||Olin Corp.|Report on Oral LD 50 in Rats with Cover Letter|EPA/OTS Doc.#878216041:16 p.|1985|
96785|T||EPA/OTS|Initial Submission:  Letter from [] to USEPA Re Results of Eye Irritation Screening Study in Rabbits with [], a Substituted Nitrogen Containing Aromatic, Dated 102299 (Sanitized)|EPA/OTS Doc.# 88000000013S:6 p.|1999|
96786|T||Hazleton Laboratories Inc.|Acute Oral Dose Range-Rats with Cover Letter Dated 062587|EPA/OTS Doc.#86870000413:10 p.|1987|
96787|T||Brown,L.D., C.R. Wheeler, and D.W.,Jr. Korte|Acute Oral Toxicity of DIGL-RP Solid Propellant in Sprague-Dawley Rats|Toxicology Series 167, Letterman Army Inst.of Research, Presidio of San Francisco, CA:82 p.|1989|
96789|T||Ditommaso,A., and R.E. Nurse|Impact of Sodium Hypochlorite Concentration and Exposure Period on Germination and Radicle Elongation of Three Annual Weed Species|Seed Sci. Technol.32(2): 377-391|2004|10.15258/sst.2004.32.2.10
96790|T||Perez-Fernandez,M.A., E. Calvo-Magro, and D. Ferrer-Castan|Simulation of Germination of Pioneer Species Along an Experimental Drought Gradient|J. Environ. Biol.27(4): 679-685|2006|
96791|A||Johnson,C.G.|Effects of pH and Hardness on Acute and Chronic Toxicity of Un-Ionized Ammonia to Ceriodaphnia dubia|M.S.Thesis, University of Wisconsin, Stevens Point, WI:69 p.|1995|
96792|A||Dugan,P.R., R.M. Pfister, and M.L. Sprague|Evaluation of the Extent and Nature of Pesticide and Detergent Involvement in Surface Waters of a Selected Watershed|Proj.No.GL-WP-3.Res.Rep.No.10,Pt.I Prepared by NY State Dept.Health by Syracuse,Univ.Res.Corp.:74 p.|1963|
96793|T||Frans,R.E., T.O. Blythe, and J.T. Richardson|Herbicide Field Evaluation Trials on Field Crops, 1975|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.240:51 p.|1976|
96794|T||Awan,T.H., Z. Manzoor, M.M. Ashraf, M. Yaqub, and M. Ahmad|Evaluation of Methods and Herbicides for Reducing Their Phytotoxic Effects on Rice Nursery with Efficient Weeds Control|Pak. J. Sci.58(1-2): 50-54|2006|
96795|T||Esitken,A., S. Ercisli, C. Eken, and D. Tay|Seed Priming Effect on Symbiotic Germination and Seedling Development of Orchis palustris Jacq.|Hortscience39(7): 1700-1701|2004|10.21273/HORTSCI.39.7.1700
96796|T||Uchida,M., T. Asai, and T. Sugimoto|Inhibition of Cuticle Deposition and Chitin Biosynthesis by a New Insect Growth Regulator, Buprofezin, in Nilaparvata lugens Stal|Agric. Biol. Chem.49(4): 1233-1234|1985|
96797|T||Hegedus,A., S. Erdei, T. Janda, E. Toth, G. Horvath, and D. Dudits|Transgenic Tobacco Plants Overproducing Alfalfa Aldose/Aldehyde Reductase Show Higher Tolerance to Low Temperature and Cadmium Stress|Plant Sci.166(5): 1329-1333|2004|10.1016/j.plantsci.2004.01.013
96798|T||Whiting,S.N., P.M. Neumann, and A.J.M. Baker|Nickel and Zinc Hyperaccumulation by Alyssum murale and Thlaspi caerulescens (Brassicaceae) do not Enhance Survival and Whole-Plant Growth Under Drought Stress|Plant Cell Environ.26(3): 351-360|2003|10.1046/j.1365-3040.2003.00959.x
96799|T||Palazzo,A.J., T.J. Cary, S.E. Hardy, and C.R. Lee|Root Growth and Metal Uptake in Four Grasses Grown on Zinc-Contaminated Soils|J. Environ. Qual.32(3): 834-840|2003|
96800|T||Kift,N.B., A. Mead, K. Reynolds, S. Sime, M.D. Barber, I. Denholm, and G.M. Tatchell|The Impact of Insecticide Resistance in the Currant-Lettuce Aphid, Nasonovia ribisnigri, on Pest Management in Lettuce|Agric. For. Entomol.6(4): 295-309|2004|10.1111/j.1461-9555.2004.00226.x
96801|T||Kuwano,E., R. Takeya, and M. Eto|Synthesis and Anti-Juvenile Hormone Activity of 1-Substituted-5-((E)-2,6-Dimethyl-1,5-Heptadienyl)Imidazoles|Agric. Biol. Chem.49(2): 483-486|1985|
96802|T||Keith,J.O.|Insecticide Contaminations in Wetland Habitats and Their Effects on Fish-Eating Birds|J. Appl. Ecol.3(suppl.): 71-85|1966|10.2307/2401446
96803|T||Brown,L.D., and E.F. Marshall|Field Evaluation of Quintox (Cholecalciferol) for Controlling Com-Mensal Rodents|In: A.C. Crabb and R.E.Marsh (Eds.) Vertebrate Pest Conference, Proceedings of the Thirteenth Vertebrate Pest Conference, Digital Commons@University of Nebraska  Lincoln, NE:69-74|1988|
96804|T||Marshall,E.F.|Cholecalciferol:  A Unique Toxicant for Rodent Control|In:  Proc. 11th Vertebrate Pest Conf., Univ. of Calif., Davis, CA:94-98|1984|
96805|T||Singaravelan,N., M. Inbar, G. Ne'eman, M. Distl, M. Wink, and I. Izhaki|The Effects of Nectar-Nicotine on Colony Fitness of Caged Honeybees|J. Chem. Ecol.32(1): 49-58|2006|10.1007/s10886-006-9350-2
96807|T||Cha'on,U., N. Valmas, P.J. Collins, P.E.B. Reilly, B.D. Hammock, and P.R. Ebert|Disruption of Iron Homeostasis Increases Phosphine Toxicity in Caenorhabditis elegans|Toxicol. Sci.96(1): 194-201|2007|10.1093/toxsci/kfl187
96808|T||Baas,J., B.P.P. Van Houte, C.A.M. Van Gestel, and S.A.L.M. Kooijman|Modeling the Effects of Binary Mixtures on Survival in Time|Environ. Toxicol. Chem.26(6): 1320-1327|2007|10.1897/06-437R.1
96809|T||Attia,S.M.|Chromosomal Composition of Micronuclei in Mouse Bone Marrow Treated with Rifampicin and Nicotine, Analyzed by Multicolor Fluorescence In Situ Hybridization with Pancentromeric DNA Probe|Toxicology235(1-2): 112-118|2007|10.1016/j.tox.2007.03.011
96810|T||Milesi-Halle,A., H.P. Hendrickson, E.M. Laurenzana, W.B. Gentry, and S.M. Owens|Sex- and Dose-Dependency in the Pharmacokinetics and Pharmacodynamics of (+)-Methamphetamine and Its Metabolite (+)-Amphetamine in Rats|Toxicol. Appl. Pharmacol.209(3): 203-213|2005|10.1016/j.taap.2005.04.007
96811|T||Crossgrove,J.S., and R.A. Yokel|Manganese Distribution Across the Blood-Brain Barrier IV.  Evidence for Brain Influx Through Store-Operated Calcium Channels|Neurotoxicology26(3): 297-307|2005|10.1016/j.neuro.2004.09.004
96812|T||Bale,A.S., M.D. Jackson, Q.T. Krantz, V.A. Benignus, P.J. Bushnell, T.J. Shafer, and W.K. Boyes|Evaluating the NMDA-Glutamate Receptor as a Site of Action for Toluene, In Vivo|Toxicol. Sci.98(1): 159-166|2007|10.1093/toxsci/kfm080
96813|A||Stuchal,L.D., K.M. Kleinow, J.J. Stegeman, and M.O. James|Demethylation of the Pesticide Methoxychlor in Liver and Intestine from Untreated, Methoxychlor-Treated, and 3-Methylcholanthrene-Treated Channel Catfish (Ictalurus punctatus): Evidence for Roles of CYP1 and CYP3A Famil|Drug Metab. Dispos.34(6): 932-938|2006|10.1124/dmd.105.009068
96814|T||Eastman Kodak Co.|Toxicity and Health Hazard Summary with Cover Letters|EPA/OTS Doc.#878214294:51 p.|1984|
96816|T||Knight,A.L., E.H. Beers, S.C. Hoyt, and H. Riedl|Acaricide Bioassays with Spider Mites (Acari: Tetranychidae) on Pome Fruits:  Evaluation of Methods and Selection of Discriminating Concentrations for Resistance Monitoring|J. Econ. Entomol.83(5): 1752-1760|1990|10.1093/jee/83.5.1752
96817|T||Flexner,J.L., P.H. Westigard, R. Hilton, and B.A. Croft|Experimental Evaluation of Resistance Management for Twospotted Spider Mite (Acari: Tetranychidae) on Southern Oregon Pear: 1987-1993|J. Econ. Entomol.88(6): 1517-1524|1995|10.1093/jee/88.6.1517
96818|T||Reissig,W.H., and L.A. Hull|Hexythiazox Resistance in a Field Population of European Red Mite (Acari: Tetranychidae) on Apples|J. Econ. Entomol.84(3): 727-735|1991|10.1093/jee/84.3.727
96819|T||Jellinck,P.H., and G. Smith|Aryl Hydroxylase Induction in the Chick Embryo by Polycyclic Hydrocarbons|Biochim. Biophys. Acta304(2): 520-525|1973|10.1016/0304-4165(73)90272-9
96820|T||Chou,M.W., B. Wang, L.S. Von Tungeln, F.A. Beland, and P.P. Fu|Induction of Rat Hepatic Cytochromes P-450 by Environmental Nitropolycyclic Aromatic Hydrocarbons|Biochem. Pharmacol.36(11): 2449-2554|1987|10.1016/0006-2952(87)90515-6
96821|T||Chikoye,D., U.E. Udensi, and S. Ogunyemi|Integrated Management of Cogongrass (Imperata cylindrica (L.) Rauesch.) in Corn Using Tillage, Glyphosate, Row Spacing, Cultivar, and Cover Cropping|Agron. J.97(4): 1164-1171|2005|10.2134/agronj2003.0279
96827|T||McElroy,J.S., R.H. Walker, G.R. Wehtje, and E. Van Santen|Annual Bluegrass (Poa annua) Populations Exhibit Variation in Germination Response to Temperature, Photoperiod, and Fenarimol|Weed Sci.52(1): 47-52|2004|10.1614/P2002-090
96828|A||Mushigeri,S.B., and M. David|Gas-Liquid Chromatography for Fenvalerate Residue Analysis:  Alterations in the Ionic Concentration and Associated Adinosine Triphosphatases in Fish, Cirrhinus mrigala (Hamilton)|Toxicol. Environ. Chem.88(3): 469-478|2006|10.1080/02772240500414788
96829|T||Koehler,P.G., and R.S. Patterson|Effects of Chitin Synthesis Inhibitors on German Cockroach (Orthoptera: Blattellidae) Mortality and Reproduction|J. Econ. Entomol.82(1): 143-148|1989|10.1093/jee/82.1.143
96831|T||Poitou,P., and B. Marignac|Sensitizing Effect of Grotan BK in the Guinea Pig|Contact Dermatitis4(3): 166-|1978|10.1111/j.1600-0536.1978.tb03766.x
96832|A||Andersson,P.L., S. Orn, B. Van Bavel, L. Norrgren, and M. Tysklind|Biomagnification Factors of 20 Selected PCBs After Oral Exposure in Zebrafish (Danio rerio)|Organohalog. Compd.39:31-34|1998|
96833|T||Arffmann,E., and J. Glavind|Carcinogenicity in Mice of Some Fatty Acid Methyl Esters.  1.  Skin Application|Acta Pathol. Microbiol. Scand.82(1): 127-136|1974|
96834|T||Hassing,J.M., W.A. Al-Turk, and S.J. Stohs|Induction of Intestinal Microsomal Enzymes by Polycyclic Aromatic Hydrocarbons|Gen. Pharmacol.20(5): 695-700|1989|10.1016/0306-3623(89)90109-2
96835|T||Phillipson,C.E., C. Ioannides, D.C.A. Barrett, and D.V. Parke|The Homogeneity of Rat Liver Microsomal Cytochrome P-448 Activity and Its Role in the Activation of Benzo(a)Pyrene to Mutagens|Int. J. Biochem.17(1): 37-42|1985|10.1016/0020-711X(85)90083-7
96836|T||Ryan,D.E., P.E. Thomas, L.M. Reik, and W. Levin|Purification, Characterization and Regulation of Five Rat Hepatic Microsomal Cytochrome P-450 Isozymes|Xenobiotica12(11): 727-744|1982|10.3109/00498258209038947
96837|T||Scopes,N.E.A.|Some Quantitative Effects of Soil-Applied Organophosphorus Insecticides on Crop Growth|Plant Pathol.18(1): 10-15|1969|10.1111/j.1365-3059.1969.tb00456.x
96838|T||Vetulani,J., and K. Reichenberg|Effect of Dopamine-beta-Hydroxylase Inhibitors 1,1-Dimethyl-3-Phenyl-2-Thiourea, Fusaric Acid and Dimethyldithiocarbamate, on the Rat Brain Monoamine Content Following Intraventricular Injection of L-Dopa|Biochem. Pharmacol.22(11): 1263-1268|1973|10.1016/0006-2952(73)90300-6
96839|T||Maj,J., and J. Vetulani|Some Pharmacological Properties of N,N-Disubstituted Dithiocarbamates and Their Effect on the Brain Catecholamine Levels|Eur. J. Pharmacol.9(2): 183-189|1970|10.1016/0014-2999(70)90298-0
96840|T||Kuiper,J.|Investigations on Chemical Control of Common Bunt of Wheat. 1|Aust. J. Exp. Agric. Anim. Husb.7(26): 275-282|1967|10.1071/EA9670275
96841|T||Rathman,R.J., E.H. Beers, J.L. Flexner, H. Riedl, S.C. Hoyt, P.H. Westigard, and A.L. Knight|Baseline Bioassays with Hexythiazox and Clofentezine of Three Mite Species (Acari: Tetranychidae) Occurring on Washington and Oregon Tree Fruits|J. Econ. Entomol.83(5): 1711-1714|1990|10.1093/jee/83.5.1711
96842|T||Swift,F.C.|Effect of Fenvalerate on Control of European Red Mite (Acari: Tetranychidae) on Peaches with Acaricides|J. Econ. Entomol.84(4): 1348-1352|1991|10.1093/jee/84.4.1348
96843|T||Sims,B.D., S.J. Stringer, H.R. Mitchell, and H.G. Hancock|Utilization of Reduced Rates of Organophosphate Insecticide for Safening Cotton to Command 3 ME|Proc. Beltwide Cotton Conf.1:858-860|1998|
96844|T||Clarke,A.J., and A.M. Shepherd|The Action of Nabam, Metham-Sodium, and Other Sulphur Compounds on Heterodera schachtii Cysts|Ann. Appl. Biol.57(2): 241-255|1966|10.1111/j.1744-7348.1966.tb03819.x
96846|A||Fangstrom,I.|The Effects of Some Chelating Agents and Their Copper Complexes on Photosynthesis in Scenedesmus quadricauda|Physiol. Plant. (Multiple Languages)27(3): 389-397|1972|10.1111/j.1399-3054.1972.tb03633.x
96847|A||Lindahl,P.E.B.|On the Reversal of the Inhibition of Photosynthesis Induced by Sodium Dimethyldithiocarbamate and Tetramethylthiuram Disulphide|Physiol. Plant. (Multiple Languages)19(1): 87-98|1966|10.1111/j.1399-3054.1966.tb09078.x
96848|T||Eccles,P.J., H.R. Hudson, C.N. Mavrommatis, and M. Pianka|Organophosphorus Compounds as Potential Fungicides.  Part IV. The Preparation and Properties of Some Novel N-(1-Substituted-2,2,2-Trichloroethyl)phosphoramidates|Phosphorus Sulfur Silicon Relat. Elem.105(1-4): 33-44|1995|10.1080/10426509508042043
96849|T||Hudson,H.R., C.N. Mavrommatis, and M. Pianka|"Organophosphorus Compounds as Potential Fungicides.  Part V.  The Preparation and Properties of Some Novel N,N,N',N'-Tetramethyl-N""-(1-Substituted-2,2,2-Trichloroethyl)Phosphoric Triamide"|Phosphorus Sulfur Silicon Relat. Elem.108(1-4): 141-153|1996|10.1080/10426509608029647
96850|T||Greene,D.W.|Blossom Thinning as a Strategy in Chemical Thinning of Apples in New England|Acta Hortic.636:331-337|2004|10.17660/ActaHortic.2004.636.40
96851|T||Fallahi,E., and B. Fallahi|Comparison of New Blossom Thinners for Apples Under Conditions of Intermountain West of the United States|Acta Hortic.636:311-315|2004|10.17660/ActaHortic.2004.636.37
96852|A||Derycke,S., F. Hendrickx, T. Backeljau, S. D'Hondt, L. Camphijn, M. Vincx, and T. Moens|Effects of Sublethal Abiotic Stressors on Population Growth and Genetic Diversity of Pellioditis marina (Nematoda) from the Westerschelde Estuary|Aquat. Toxicol.82(2): 110-119|2007|10.1016/j.aquatox.2007.02.002
96853|A||Datta,S., D.R. Saha, D. Ghosh, T. Majumdar, S. Bhattacharya, and S. Mazumder|Sub-Lethal Concentration of Arsenic Interferes with the Proliferation of Hepatocytes and Induces In Vivo Apoptosis in Clarias batrachus L.|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 339-349|2007|10.1016/j.cbpc.2007.01.005
96854|A||DellaGreca,M., M.R. Iesce, M. Isidori, A. Nardelli, L. Previtera, and M. Rubino|Phototransformation Products of Tamoxifen by Sunlight in Water. Toxicity of the Drug and Its Derivatives on Aquatic Organisms|Chemosphere67(10): 1933-1939|2007|10.1016/j.chemosphere.2006.12.001
96855|T||Dannan,G.A., R.W. Moore, and S.D. Aust|Studies on the Microsomal Metabolism and Binding of Polybrominated Biphenyls (PBBs)|Environ. Health Perspect.(23): 51-61|1978|
96856|A||Deane,E.E., and N.Y.S. Woo|Impact of Nitrite Exposure on Endocrine, Osmoregulatory and Cytoprotective Functions in the Marine Teleost Sparus sarba|Aquat. Toxicol.82(2): 85-93|2007|10.1016/j.aquatox.2007.02.004
96857|T||Dekundy,A., R.M. Kaminski, E. Zielinska, and W.A. Turski|NMDA Antagonists Exert Distinct Effects in Experimental Organophosphate or Carbamate Poisoning in Mice|Toxicol. Appl. Pharmacol.219(2-3): 114-121|2007|10.1016/j.taap.2006.10.030
96858|A||Deleebeeck,N.M.E., K.A.C. De Schamphelaere, and C.R. Janssen|A Bioavailability Model Predicting the Toxicity of Nickel to Rainbow Trout (Oncorhynchus mykiss) and Fathead Minnow (Pimephales promelas) in Synthetic and Natural Waters|Ecotoxicol. Environ. Saf.67(1): 1-13|2007|10.1016/j.ecoenv.2006.10.001
96859|A||De Schamphelaere,K.A.C., I. Forrez, K. Dierckens, P. Sorgeloos, and C.R. Janssen|Chronic Toxicity of Dietary Copper to Daphnia magna|Aquat. Toxicol.81(4): 409-418|2007|10.1016/j.aquatox.2007.01.002
96860|T||Daxenberger,A., I.G. Lange, K. Meyer, and H.H.D. Meyer|Detection of Anabolic Residues in Misplaced Implantation Sites in Cattle|J. AOAC Int.83(4): 809-819|2000|10.1093/jaoac/83.4.809
96861|T||Corton,J.C., L.Q. Fan, S. Brown, S.P. Anderson, C. Bocos, R.C. Cattley, A. Mode, and J.A. Gustafsson|Down-Regulation of Cytochrome P450 2C Family Members and Positive Acute-Phase Response Gene Expression by Peroxisome Proliferator Chemicals|Mol. Pharmacol.54(3): 463-473|1998|10.1124/mol.54.3.463
96862|T||Mercer,P.C., S.H. Crothers, T.W. Fraser, and B.M.R. Harvey|Pre-Harvest Retting of Flax with Glyphosate - Effects of Moisture and Microbial Colonization on Retting|Int.Biodeterior.26(5): 289-301|1990|10.1016/0265-3036(90)90022-Y
96863|T||Ferro,C.R., C.B. Hill, M.R. Miles, and G.L. Hartman|Evaluation of Soybean Cultivars with the Rps1k Gene for Partial Resistance or Field Tolerance to Phytophthora sojae|Crop Sci.46(6): 2427-2436|2006|10.2135/cropsci2005.11.0429
96864|AT||Cole,E.C., W.C. McComb, M. Newton, C.L. Chambers, and J.P. Leeming|Response of Small Mammal and Amphibian Capture Rates to Clearcutting, Burning, and Glyphosphate Application in the Oregon Coast Range|FRI Bull.192:155-157|1995|
96865|T||Lautenschlager,R.A., C. Hollstedt, and F.W. Bell|Effects of Herbicide, Manual, and Annual Release of Young Jack Pine on Vegetation and Small Mammals in Northwestern Ontario|FRI Bull.192:149-151|1995|
96866|T||Asteraki,E.J., C.B. Hanks, and R.O. Clements|The Impact of the Chemical Removal of the Hedge-Base Flora on the Community Structure of Carabid Beetles (Col., Carabidae) and Spiders (Araneae) of the Field and Hedge Bottom|Z. Angew. Entomol. (Multiple Languages)113(4): 398-406|1992|
96867|T||Jeffery,S., and L.W. Burgess|Growth of Fusarium graminearum Schwabe Group 1 on Media Amended with Atrazine, Chlorsulfuron or Glyphosate in Relation to Temperature and Osmotic Potential|Soil Biol. Biochem.22(5): 665-670|1990|10.1016/0038-0717(90)90013-P
96868|T||Kreiter,S., F. Brian, C. Magnien, G. Sentenac, and G. Valentin|Spider Mites and Chemical Control of Weeds:  Interactions|In: F.Dusbabek and V.Bukva (Eds.), Modern Acarology, Academica, Prague and SPB Academic Publishing, The Hague:725-736|1991|
96869|A||Melnichuk,S.D., E.P. Shcherban, and V.I. Lokhanskaya|Estimation of Toxicity of Glyphosate-Based Herbicides by Biotesting Method Using Cladocera|Hydrobiol. J.43(3): 80-91|2007|10.1615/HydrobJ.v43.i3.60
96870|T||Samson,P.R., R.J. Parker, and E.A. Hall|Efficacy of the Insect Growth Regulators Methoprene, Fenoxycarb and Diflubenzuron Against Rhyzopertha dominica (F.) (Coleoptera: Bostrichidae) on Maize and Paddy Rice|J. Stored Prod. Res.26(4): 215-222|1990|10.1016/0022-474X(90)90025-N
96871|A||Amalraj,D., and R. Velayudhan|Insect Growth Regulator XRD-473 (OMS 3031), a Prospective Compound for Control of Mosquito Vectors|Proc. Indian Acad. Sci. Anim. Sci.98(5): 325-329|1989|10.1007/BF03179958
96872|T||Arzone,A., M. Dolci, F. Marletto, and C. Minero|Translocation of Fenoxycarb in the Agro-Ecosystem|Biosci. Biotechnol. Biochem.59(7): 1318-1319|1995|10.1271/bbb.59.1318
96873|T||Saarma,K., M.T. Tarkka, M. Itavaara, and K.V. Fagerstedt|Heat Shock Protein Synthesis is Induced by Diethyl Phthalate but not by Di(2-Ethylhexyl) Phthalate in Radish (Raphanus sativus)|J. Plant Physiol.160(9): 1001-1010|2003|10.1078/0176-1617-00525
96874|T||De Wael,L., M. De Greef, and O. Van Laere|Toxicity of Pyriproxifen and Fenoxycarb to Bumble Bee Brood Using a New Method for Testing Insect Growth Regulators|J. Apic. Res.34(1): 3-8|1995|10.1080/00218839.1995.11100879
96875|A||Tokishita,S., Y. Kato, T. Kobayashi, S. Nakamura, T. Ohta, and H. Yamagata|Organization and Repression by Juvenile Hormone of a Vitellogenin Gene Cluster in the Crustacean, Daphnia magna|Biochem. Biophys. Res. Commun.345(1): 362-370|2006|10.1016/j.bbrc.2006.04.102
96876|A||Key,P.B., and G.I. Scott|The Chronic Toxicity of Fenoxycarb to Larvae of the Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes29(5): 873-894|1994|
96877|T||Lautenschlager,R.A., W.J. Dalton, M.L. Cherry, and J.L. Graham|Conifer Release Alternatives Increase Aspen Forage Quality in Northwestern Ontario|J. Wildl. Manag.63(4): 1320-1326|1999|10.2307/3802850
96879|T||Johnson,G., and D.J. Leopold|Habitat Management for the Eastern Massasauga in a Central New York Peatland|J. Wildl. Manag.62(1): 84-97|1998|10.2307/3802266
96880|A||Szarek,J., I. Babinska, M. Truszczynska, R. Kolman, A.K. Siwicki, I.M. Kowalski, J. Wojtacka, H. Kolman, T. Banaszkiewi|Effect of the Herbicide Avans 330 SL on the Liver Pathomorphology of Clinically Healthy Carp (Cyprinus carpio L.) and Carp Infected by Ichthyophthirius multifiliis|Arch. Pol. Fish. 14(2): 169-182|2006|
96881|T||Hall,F.R., R.A. Downer, T.M. Wolf, and A.C. Chapple|"The ""Double Nozzle"" - A New Way of Reducing Drift and Improving Dose-Transfer?"|In: M.J.Hopkinson,H.M.Collins and G.R.Goss (Eds.), Pesticide Formulations and Applications Systems, 16th Symposium on Pesticide Formulations and Application Systems, Nov.14-15, 1995, Norfolk,VA, ASTM16(1312): 114-126|1996|
96882|T||Caicedo,A., and S.D. Roper|Taste Receptor Cells that Discriminate Between Bitter Stimuli|Science291(5508): 1557-1560|2001|10.1126/science.1056670
96883|T||Fairlamb,A.H., N.S. Carter, M. Cunningham, and K. Smith|Characterisation of Melarsen-Resistant Trypanosoma brucei brucei with Respect to Cross-Resistance to Other Drugs and Trypanothione Metabolism|Mol. Biochem. Parasitol.53(1/2): 213-222|1992|10.1016/0166-6851(92)90023-D
96884|T||Robbins,P.S., M.L. Hessney, and C.J. Eckenrode|Cabbage Maggot Control in Direct-Seeded Cabbage, 1990|Insectic. Acaric. Tests16:61-62|1991|10.1093/iat/16.1.61a
96885|T||Shilling,D.G., W.T. Haller, and M.A. Mossler|Influence of Diluent Ions on Glyphosate Activity on Torpedo Grass (Panicum repens L.)|In: Conf., 8th Int.Symp.on Aqauatic Weeds, Aug.13-17, 1990, Uppsala, Sweden, Eur.Weed Res.Soc., Wageningen, Netherlands:187-192|1990|
96886|A||Hernando,F., M. Royuela, A. Munoz-Rueda, and C. Gonzalez-Murua|Effect of Glyphosate on the Greening Process and Photosynthetic Metabolism in Chlorella pyrenoidosa|J. Plant Physiol.134(1): 26-31|1989|10.1016/S0176-1617(89)80197-X
96887|T||Moore,J.D., and P.A. Banks|Interactions of Foliarly Applied Herbicides on Three Weed Species in Peanut (Arachis hypogaea)|Weed Sci.39(4): 614-621|1991|10.1017/S0043174500088469
96888|T||Eberlein,C.V., M.J. Guttieri, and F.N. Fletcher|Broadleaf Weed Control in Potatoes (Solanum tuberosum) with Postemergence Directed Herbicides|Weed Technol.7(2): 298-303|1993|10.1017/S0890037X00027627
96889|T||Shaner,D.L., P. Westra, and S. Nissen|AMADS Increases the Efficacy of Glyphosate Formulations on Corn|Weed Technol.20(1): 179-183|2006|10.1614/WT-04-332R3.1
96890|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Study of the Effect of a Formulation of Fenoxaprop-Ethyl in Brown Trout in a Static Test|EPA/OTS Doc.#88-920006605:4 p.|1992|
96891|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Study of the Effect of a Formulation of Fenoxaprop-Ethyl in Lepomis macrochirus (Bluegill)|Hoechst Celanese, Somerville, NJ:4 p.|1992|
96892|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Study of the Effect of a Formulation of Fenoxaprop-Ethyl in Pumpkinseed Sunfish in a Static Test|Hoechst Celanese, Somerville, NJ:4 p.|1992|
96893|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Range-Finding Toxicity Test of a Formulation of Fenoxaprop-Ethyl in a 30-Day Study in SPF Mice|EPA/OTS Doc.#88-920006610:4 p.|1992|
96894|T||Rodrigues,R.R., J.E. Lane, C.E. Carter, B.J. Bogitsh, P.K. Singh, L.J. Zimmerman, J.J. Molenda, and M.M. Jones|Chelating Agent Inhibition of Trypanosoma cruzi Epimastigotes In Vitro|J. Inorg. Biochem.60(4): 277-288|1995|10.1016/0162-0134(95)00027-5
96900|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Range-Finding Toxicity Test of a Formulation of Fenoxaprop-Ethyl in a 32-Day Study in SPF Mice|EPA/OTS Doc.#88-920006609:4 p.|1992|
96902|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Range-Finding Test with a Formulation of Fenoxaprop-Ethyl in a 32-Day Study in SPF Wistar Rats|EPS/OTS Doc #88-920006608:4 p.|1992|
96903|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on a Repeated Dose (30 Days) Oral Toxicity Study with Formulation of Fenoxaprop-Ethyl in Beagle Dogs|EPA/OTS Doc.#88-920006593:4 p.|1992|
96904|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on an Oral Embryotoxicity Study with a Formulation of Fenoxaprop-Ethyl in Wistar Rats|EPA/OTS Doc.#88-920006600:5 p.|1992|
96906|AT||Londershausen,M., B. Alig, R. Pospischil, and A. Turberg|Activity of Novel Juvenoids on Arthropods of Veterinary Importance|Arch. Insect Biochem. Physiol.32(3-4): 651-658|1996|10.1002/(SICI)1520-6327(1996)32:3/4<651::AID-ARCH36>3.0.CO;2-9
96907|T||Di Meglio,M., J.I. Morrell, and D.W. Pfaff|Localization of Steroid-Concentrating Cells in the Central Nervous System of the Frog Rana esculenta|Gen. Comp. Endocrinol.67(2): 149-154|1987|10.1016/0016-6480(87)90142-0
96908|A||Jaworski,E.G.|Mode of Action of N-Phosphonomethylglycine:  Inhibition of Aromatic Amino Acid Biosynthesis|J. Agric. Food Chem.20(6): 1195-1198|1972|10.1021/jf60184a057
96909|A||Marchand,J., A. Tanguy, G. Charrier, L. Quiniou, E. Plee-Gauthier, and J. Laroche|Molecular Identification and Expression of Differentially Regulated Genes of the European Flounder, Platichthys flesus, Submitted to Pesticide Exposure|Mar. Biotechnol.8(3): 275-294|2006|10.1007/s10126-005-0099-3
96910|T||Palitti,F., R. Cozzi, M. Fiore, F. Palombo, C. Polcaro, G. Perez, and E. Possagno|An In Vitro and In Vivo Study on Mutagenic Activity of Fluoranthene: Comparison Between Cytogenetic Studies and HPLC Analysis|Mutat. Res.174(2): 125-130|1986|
96911|A||Hektoen,H., J.A. Berge, K. Ingebrigtsen, J. Knutzen, and M. Oehme|Elimination of Polychlorinated Dibenzofurans and Dibenzo-p-Dioxins from Blue Mussel (Mytilus edulis) and Tissue Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (2,3,7,8-TCDD)|Chemosphere29(7): 1491-1499|1994|10.1016/0045-6535(94)90280-1
96912|T||Gibb,T.J., and W.G. Buhler|Infectivity of Steinernema carpocapsae (Rhabditida: Steinernematidae) in Sterilized and Herbicide-Treated Soil|J. Entomol. Sci.33(2): 152-157|1998|10.18474/0749-8004-33.2.152
96913|T||Jackson,R.E., and H.N. Pitre|Influence of Roundup Ready Soybean Production Systems and Glyphosate Application on Pest and Beneficial Insects in Narrow-Row Soybean|J. Entomol. Sci.39(1): 62-70|2004|10.18474/0749-8004-39.1.62
96914|T||Jackson,R.E., and H.N. Pitre|Influence of Roundup Ready Soybean and Roundup Ultra Herbicide on Geocoris punctipes (Say) (Heteroptera:  Lygaeidae) in the Laboratory|J. Entomol. Sci.39(1): 56-61|2004|10.18474/0749-8004-39.1.56
96915|A||Gettys,L.A., and D.L. Sutton|Comparison of Torpedograss and Pickerelweed Susceptibility to Glyphosate|J. Aquat. Plant Manag.42(14): 1-4|2004|
96916|T||Njiti,V.N., O.,Jr. Myers, D. Schroeder, and D.A. Lightfoot|Roundup Ready Soybean:  Glyphosate Effects on Fusarium solani Root Colonization and Sudden Death Syndrome|Agron. J.95:1140-1145|2003|10.2134/agronj2003.1140
96917|A||Jiraungkoorskul,W., E.S. Upatham, M. Kruatrachue, S. Sahaphong, S. Vichasri-Grams, and P. Pokethitiyook|Biochemical and Histopathological Effects of Glyphosate Herbicide on Nile Tilapia (Oreochromis niloticus)|Environ. Toxicol.18(4): 260-267|2003|10.1002/tox.10123
96918|A||Howe,C.M., M. Berrill, B.D. Pauli, C.C. Helbing, K. Werry, and N. Veldhoen|Toxicity of Glyphosate-Based Pesticides to Four North American Frog Species|Environ. Toxicol. Chem.23(8): 1928-1938|2004|10.1897/03-71
96919|T||ELF Atochem North America Inc.|Determination of the Maximum Dose Tolerated by Mice of Dithiocarbamates, Candidate Compounds Submitted for Chemotherapeutic Trial in Mice with Cover Letter Dated 031594|ELF Atochem, King of Prussia, PA:18 p.|1994|
96920|T||Alco Chemical|Letter from Alco Chemical to US EPA Submitting Information on the Pancreatic Effects of Sodium Dimethyldithiocarbamate with Attachment|EPA/OTS Doc.#FYI-OTS-0791-0816:3 p.|1991|
96921|T||ELF Atochem North America Inc.|In Vivo Test with Sarcoma 180 - Toxicity and Inhibition of Sarcoma 180 Development with Intraperitoneal Injections of Metal Dithiocarbomates in Mice with Cover Letter Dated 031594|ELF Atochem, King of Prussia, PA:9 p.|1994|
96922|T||Sherwin Williams Co.|Acute Oral Administration of Benzatriazole to Rats with Cover Letter Dated 061289|EPA/OTS Doc.#86-890000592:8 p.|1989|
96924|T||Brown,L.D., J.R.G. Ryabik, C.R. Wheeler, and D.W.,Jr. Korte|Acute Oral Toxicity of Diethyleneglycol Dinitrate (DEGDN) in Rats|Toxicology Series 136, Letterman Army Inst.of Research, Presidio of San Francisco, CA:81 p.|1989|
96925|T||Exxon Chemical Co.|Initial Submission: Ltr fr Exxon Chemical Co. to USEPA re In Vivo Mammalian Bone Marrow Micronucleus Assay of DMDTC w/ & w/out 1,3-Butadiene Exposure w/Attchmts, Dated 1/29/1998|Exxon Chemical Co., Baton Rouge, LA:8 p.|1998|
96926|T||Wildlife International Inc.|Initial Submission:  A Dietary LC50 Study with the Northern Bobwhite Quail with Cover Letter Dated 120792|EPA/OTS Doc.#88-930000113:58 p.|1992|
96927|A||Toxicon Environmental Sciences|Initial Submission:  SDDC:  Acute Toxicity to the Water Flea, Daphnia Magna, Under Flow-Through Test Conditions with Cover Letter Dated 103092|EPA/OTS Doc.#88-930000039:86 p.|1992|
96928|T||Al-Uqaili,J.K.|The Influence of Rates and Sources of Nitrogen with and Without a Nitrification Inhibitor on Corn Nutrition and Soil Nitrogen|Ph.D. Thesis, University of Nebraska, Lincoln, NE:202 p.|1981|
96930|T||Jain,R.|Physiological Aspects of Broomrape (Orobanche spp.) Parasitism, Host Specificity and Selective Control by Glyphosate|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:144 p.|1987|
96931|T||Bufogle,A.,Jr.|Nitrogen Accumulation by Rice|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:162 p.|1996|
96932|T||Ansari,M.E.|Effect of Accel, Ethephon, and Wilthin on Apple Fruit Set, Fruit Yield and Quality|Ph.D. Thesis, Mississippi State University, Starkville, MS:80 p.|1998|
96933|T||Clay,D.E., R.L. Mahler, and H.A. Menser|The Influence of N Sources and Rates on Soil N Parameters Related to Strawberry Production in Northern Idaho|Commun. Soil Sci. Plant Anal.15(7): 819-832|1984|10.1080/00103628409367521
96934|T||Liphadzi,K.B., K. Al-Khatib, C.N. Bensch, P.W. Stahlman, J.A. Dille, T. Todd, C.W. Rice, M.J. Horak, and G. Head|Soil Microbial and Nematode Communities as Affected by Glyphosate and Tillage Practices in a Glyphosate-Resistant Cropping System|Weed Sci.53(4): 536-545|2005|10.1614/WS-04-129R1
96935|A||Cooley,W.E., and C.L. Foy|Effects of SC-0224 and Glyphosate on Inflated Duckweed (Lemna gibba) Growth and EPSP-Synthase Activity from Klebsiella pneumoniae|Pestic. Biochem. Physiol.26:365-374|1986|10.1016/0048-3575(86)90077-5
96938|T||De Bellefeuille,S., L. Belanger, J. Huot, and A. Cimon|Clear-Cutting and Regeneration Practices in Quebec Boreal Balsam Fir Forest:  Effects on Snowshoe Hare|Can. J. For. Res.31(1): 41-51|2001|10.1139/x00-140
96939|T||Eschholz,W.E., F.A. Servello, B. Griffith, K.S. Raymond, and W.B. Krohn|Winter Use of Glyphosate-Treated Clearcuts by Moose in Maine|J. Wildl. Manag.60(4): 764-769|1996|10.2307/3802375
96940|T||Santillo,D.J., P.W. Brown, and D.M.,Jr. Leslie|Response of Songbirds to Glyphosate-Induced Habitat Changes on Clearcuts|J. Wildl. Manag.53(1): 64-71|1989|10.2307/3801307
96941|T||Sullivan,T.P., C. Nowotny, R.A. Lautenschlager, and R.G. Wagner|Silvicultural Use of Herbicide in Sub-Boreal Spruce Forest:  Implications for Small Mammal Population Dynamics|J. Wildl. Manag.62(4): 1196-1206|1998|10.2307/3801983
96943|T||Cumming,H.G.|First Year Effects on Moose Browse from Two Silvicultural Applications of Glyphosate in Ontario|Alces25:118-132|1989|
96944|T||Cantonwine,E.G., A.K. Culbreath, and K.L. Stevenson|Effects of Cover Crop Residue and Preplant Herbicide on Early Leaf Spot of Peanut|Plant Dis.91(7): 822-827|2007|10.1094/PDIS-91-7-0822
96945|T||Santillo,D.J.|Observations on Moose, Alces alces, Habitat and Use on Herbicide-Treated Clearcuts in Maine|Can. Field Nat.108(1): 22-25|1994|10.5962/p.356711
96946|A||Licht,O., D. Jungmann, K.U. Ludwichowski, and R. Nagel|Long-Term Effects of Fenoxycarb on Two Mayfly Species in Artificial Indoor Streams|Ecotoxicol. Environ. Saf.58(2): 246-255|2004|10.1016/j.ecoenv.2003.08.021
96948|A||Mohsen,Z.H., and H.H. Zayia|Long-Term Sublethal Effects of Fenoxycarb Against Culex Mosquitoes (Diptera: Culicidae)|Eisei Dobutsu46(2): 151-154|1995|10.7601/mez.46.151
96949|T||Darvas,B., A.I.A. El-Kareim, P. Camporese, A.I. Farag, G. Matolcsy, and I. Ujvary|Effects of Some New Proinsecticide Type Fenoxycarb Derivatives and Related Compounds on Some Scale Insects and Their Hymenopterous Parasitoids|J. Appl. Entomol.118(1): 51-58|1994|10.1111/j.1439-0418.1994.tb00778.x
96950|T||Leroux,P., and M. Gredt|Negative Cross-Resistance of Benzimidazole-Resistant Strains of Botrytis cinerea, Fusarium nivale and Pseudocercosporella herpotrichoides to Various Pesticides|Neth. J. Plant Pathol.95(suppl. 1): 121-127|1989|10.1007/BF01974291
96951|T||Barrett,P.R.F., and M.T. Gibson|The Control of Some Emergent Weeds with Glyphosate|In: Conf.8th Int.Symp.on Aquatic Weeds, Aug.13-17, 1990, Uppsala, Sweden, European Weed Research Society, Wageningen, Netherlands:21-25|1990|
96952|AT||Meier,G.A., T.G. Cullen, S. Sehgel, J.F. Engel, S.E. Burkart, S.M. Sieburth, and C.M. Langevine|Highly Efficacious Non-Ester Pyrethroid Insecticides with Low Toxicity to Fish|ACS Symp. Ser.504:258-270|1992|10.1021/bk-1992-0504.ch023
96953|A||Pieterse,A.H., and P.J. Van Rijn|A Preliminary Study on the Response of Eichhornia crassipes, Salvinia auriculata and Pistia stratotes to Glyphosate|Meded. Fac. Landbouwwet. Univ. Gent39(2, Pt.1): 423-427|1974|
96954|T||Bazzaz,A.A., I.I. Madhloom, R.S. Al-Alucy, S.S. Muhsin, and D.M. Ensor|Effect of Fenoxycarb, an Insect Growth Regulator (IGR), on Blood Parameters in Mice|Dirasat Ser. B Pure Appl. Sci.22(6): 1359-1368|1995|
96958|A||Singh,A.K., M.V. Sailaja, and H.N. Singh|A Class of Glyphosate-Selected Mutants of the Cyanobacterium Nostoc muscorum Showing Loss of Ammonium Transport Activity (Amt-), Heterocyst Formation (Het-) and Nitrogenase Activity (Nif-)|FEMS Microbiol. Lett.60(2): 187-192|1989|
96959|T||Chandrasena,J.P.N.R.|Torpedograss (Panicum repens L.) Control with Lower Rates of Glyphosate|Trop. Pest Manag.36(4): 336-342|1990|10.1080/09670879009371505
96960|A||Issa,A.A.|Interference of Glyphosate with the Shikimate Pathway by Cyanobacteria in Chemostat Culture|Microbios100(395): 47-55|1999|
96961|T||Orlander,G., U. Nilsson, and J.E. Hallgren|Competition for Water and Nutrients Between Ground Vegetation and Planted Picea abies|N. Z. J. For. Sci.26(1-2): 99-117|1996|
96962|T||Franceschi,C., P. Perocco, A.T. Di Marco, and G. Prodi|Lack of Correlation Between Immunodepression and Reticuloendothelial System Activity in Urethan- or 7, 12-Dimethylbenz-(a)-Anthracene- Treated Rats|J. Reticuloendothel. Soc.12(6): 592-603|1972|
96963|T||Bergvinson,D.J., and J.H. Borden|Enhanced Colonization by the Blue Stain Fungus Ophiostoma clavigerum in Glyphosate-Treated Sapwood of Lodgepole Pine|Can. J. For. Res.22(2): 206-209|1992|10.1139/x92-027
96964|AT||Solberg,K.L., and K.F. Higgins|Effects of Glyphosate Herbicide on Cattails, Invertebrates, and Waterfowl in South Dakota Wetlands|Wildl. Soc. Bull.21(3): 299-307|1993|
96965|T||Rush,C.M., and T.J. Gerik|Relationship Between Postharvest Management of Grain Sorghum and Phymatotrichum Root Rot in the Subsequent Cotton Crop|Plant Dis.73(4): 304-305|1989|10.1094/PD-73-0304
96966|T||Pegram,R.A., and M.W. Chou|Effect of Nitro-Substitution of Environmental Polycyclic Aromatic Hydrocarbons on Activities of Hepatic Phase II Enzymes in Rats|Drug Chem. Toxicol.12(3-4): 313-326|1989|10.3109/01480548908999161
96967|T||Deutsch-Wenzel,R.P., H. Brune, G. Grimmer, G. Dettbarn, and J. Misfeld|Experimental Studies in Rat Lungs on the Carcinogenicity and Dose-Response Relationships of Eight Frequently Occurring Environmental Polycyclic Aromatic Hydrocarbons|J. Natl. Cancer Inst.71(3): 539-544|1983|
96968|T||Weyand,E.H., and Y. Wu|Genotoxicity of Manufactured Gas Plant Residue (MGP) in Skin and Lung of Mice Following MGP Ingestion or Topical Administration|Polycycl. Aromat. Compd.6(1-4): 35-42|1994|10.1080/10406639408031165
96970|T||Pitot,H.C., T.L. Goldsworthy, S. Moran, W. Kennan, H.P. Glauert, R.R. Maronpot, and H.A. Campbell|A Method to Quantitate the Relative Initiating and Promoting Potencies of Hepatocarcinogenic Agents in Their Dose-Response Relationships to Altered Hepatic Foci|Carcinogenesis8(10): 1491-1499|1987|10.1093/carcin/8.10.1491
96971|T||Kleihues,P., G. Doerjer, M. Ehret, and J. Guzman|Reaction of Benzo(a)Pyrene and 7,12-Dimethylbenz(a)Anthracene with DNA of Various Rat Tissues In Vivo|Arch. Toxicol.3:237-246|1980|10.1007/978-3-642-67389-4_18
96973|T||Edelman,A.S., B. Xue, J.E. Galton, P. Sanchez, and G.J. Thorbecke|Cross-Reactive Cellular and Humoral Immunity to Carcinogen-Induced Chicken Fibrosarcomas.  II. Effect of Prior Immunization with  Transplantable Tumors on Primary Tumor Incidence|J. Immunol.135(3): 2213-2219|1985|10.4049/jimmunol.135.3.2213
96974|T||Edelman,A.S., B. Xue, P. Sanchez, and G.J. Thorbecke|Cross-Reactive Cellular and Humoral Immunity to Carcinogen-Induced Chicken Fibrosarcomas.  I. Protective Cross-Immunity Between  Transplantable Tumor Lines|J. Immunol.135(3): 2206-2212|1985|10.4049/jimmunol.135.3.2206
96975|T||Platt,K.L., and I. Reischmann|Regio- and Stereoselective Metabolism of Dibenz(a,h)Anthracene:  Identification of 12 new Microsomal Metabolites|Mol. Pharmacol.32(5): 710-722|1987|
96976|T||Das,M., D.R. Bickers, and H. Mukhtar|Epidermis:  The Major Site of Cutaneous Benzo(a)Pyrene and Benzo(a)Pyrene 7,8-Diol Metabolism in Neonatal Balb/c Mice|Drug Metab. Dispos.14(6): 637-642|1986|
96977|A||Ferreira,A.M., and C. Vale|PCB Accumulation and Alterations of Lipids in Two Length Classes of the Oyster Crassostrea angulata and of the Clam Ruditapes decussatus|Mar. Environ. Res.45(3): 259-268|1998|10.1016/S0141-1136(97)00130-X
96978|T||Kutlu,S., N. Colakoglu, I. Halifeoglu, S. Sandal, A.D. Seyran, M. Aydin, and B. Yilmaz|Comparative Evaluation of Hepatotoxic and Nephrotoxic Effects of Aroclors 1221 and 1254 in Female Rats|Cell Biochem. Funct.25(2): 167-172|2007|10.1002/cbf.1289
96979|A||Otto,D.M.E., C.K. Sen, W.L. Casley, and T.W. Moon|Regulation of Cytochrome P4501A Metabolism by Glutathione|Pharmacol. Toxicol.84(5): 201-210|1999|10.1111/j.1600-0773.1999.tb01484.x
96980|T||MacGregor,J.T., C.M. Wehr, and D.H. Gould|Clastogen-Induced Micronuclei in Peripheral Blood Erythrocytes:  The Basis of an Improved Micronucleus Test|Environ. Mutagen.2(4): 509-514|1980|10.1002/em.2860020408
96981|T||Grimmer,G., H. Brune, G. Dettbarn, J. Jacob, E. Mohtashamipur, K. Norpoth, and R. Wenzel-Hartung|Urinary and Faecal Excretion of Phenanthrene and Phenanthrols by Rats Following Oral, Intraperitoneal, or Intrapulmonary Application|Polycycl. Aromat. Compd.2(1): 39-47|1991|10.1080/10406639108047856
96989|T||Linz,G.M., D.L. Bergman, D.C. Blixt, and W.J. Bleier|Response of Black Terns (Chlidonias niger) to Glyphosate-Induced Habitat Alterations on Wetlands|Colon. Waterbirds17(2): 160-167|1994|10.2307/1521294
96990|T||Biederbeck,V.O., C.A. Campbell, and J.H. Hunter|Tillage Effects on Soil Microbial and Biochemical Characteristics in a Fallow-Wheat Rotation in a Dark Brown Soil|Can. J. Soil Sci.77(2): 309-316|1997|10.4141/S96-054
96991|T||Sullivan,T.P., R.G. Wagner, D.G. Pitt, R.A. Lautenschlager, and D.G. Chen|Changes in Diversity of Plant and Small Mammal Communities After Herbicide Application in Sub-Boreal Spruce Forest|Can. J. For. Res.28(2): 168-177|1998|10.1139/x97-205
96992|T||Brassett,P.R., and C.A. Gilligan|Effects of Self-Sown Wheat on Levels of the Take-all Disease on Seedlings of Winter Wheat Grown in a Model System|J. Phytopathol.129(1): 46-57|1990|10.1111/j.1439-0434.1990.tb04288.x
96993|T||Meriles,J.M., S.V. Gil, R.J. Haro, G.J. March, and C.A. Guzman|Glyphosate and Previous Crop Residue Effect on Deleterious and Beneficial Soil-Borne Fungi from a Peanut-Corn-Soybean Rotations|J. Phytopathol.154(5): 309-316|2006|10.1111/j.1439-0434.2006.01098.x
96994|T||Mekwatanakarn,P., and K. Sivasithamparam|Effect of Certain Herbicides on Saprophytic Survival and Biological Suppression of the Take-All Fungus|New Phytol.106(1): 153-159|1987|10.1111/j.1469-8137.1987.tb04799.x
96995|T||Petrie,G.A.|Effects of Chemicals on Ascospore Production by Leptosphaeria maculans on Blackleg-Infected Canola Stubble in Saskatchewan|Can. Plant Dis. Surv.75(1): 45-50|1995|
96996|T||Toubia-Rahme,H., D.E. Ali-Haimoud, G. Barrault, and L. Albertini|Inhibition of Drechslera teres Sclerotioid Formation in Barley Straw by Application of Glyphosate or Paraquat|Plant Dis.79(6): 595-598|1995|10.1094/PD-79-0595
96997|T||Jess,S., and D.J. Mowat|Transmission of Barley Yellow Dwarf Virus by Larvae of Frit Fly, Oscinella frit (L.), and the Effects of Sward-Killing Herbicides on Transmission|Rec. Agric. Res. (Belfast)34:57-60|1986|
96998|T||Barker,G.M.|Pasture Renovation:  Interactions of Vegetation Control with Slug and Insect Infestations|J. Agric. Sci.115(2): 195-202|1990|10.1017/S0021859600075122
96999|T||Wardle,D.A., and D. Parkinson|The Influence of the Herbicide Glyphosate on Interspecific Interactions Between Four Soil Fungal Species|Mycol. Res.96(3): 180-186|1992|10.1016/S0953-7562(09)80963-5
97000|T||Levesque,C.A., K. Beckenbach, D.L. Baillie, and J.E. Rahe|Pathogenicity and DNA Restriction Fragment Length Polymorphisms of Isolates of Pythium spp. from Glyphosate-Treated Seedlings|Mycol. Res.97(3): 307-312|1993|10.1016/S0953-7562(09)81125-8
97001|T||Levesque,C.A., J.E. Rahe, and D.M. Eaves|Fungal Colonization of Glyphosate-Treated Seedlings Using a New Root Plating Technique|Mycol. Res.97(3): 299-306|1993|10.1016/S0953-7562(09)81124-6
97002|T||Descalzo,R.C., Z.K. Punja, C.A. Levesque, and J.E. Rahe|Identification and Role of Phythium Species as Glyphosate Synergists on Bean (Phaseolus vulgaris) Grown in Different Soils|Mycol. Res.100(8): 971-978|1996|10.1016/S0953-7562(96)80050-5
97003|T||Gagne,N., L. Belanger, and J. Huot|Comparative Responses of Small Mammals, Vegetation, and Food Sources to Natural Regeneration and Conifer Release Treatments in Boreal Balsam Fir Stands of Quebec|Can. J. For. Res.29(7): 1128-1140|1999|10.1139/x99-095
97004|T||Runciman,J.B., and T.P. Sullivan|Influence of Alternative Conifer Release Treatments on Habitat Structure and Small Mammal Populations in South Central British Columbia|Can. J. For. Res.26(11): 2023-2034|1996|10.1139/x26-228
97005|T||Linz,G.M., D.L. Bergman, D.C. Blixt, and C. McMurl|Response of American Coots and Soras to Herbicide-Induced Vegetation Changes in Wetlands|J. Field Ornithol.68(3): 450-457|1997|
97007|A||Coors,A., J. Kuckelkorn, M. Hammers-Wirtz, and T. Strauss|Application of In-Situ Bioassays with Macrophytes in Aquatic Mesocosm Studies|Ecotoxicology15(7): 583-591|2006|10.1007/s10646-006-0095-z
97008|T||Crawford,M.J., A. Croucher, and D.H. Hutson|Metabolism of Cis- and Trans-Cypermethrin in Rats.  Balance and Tissue Retention Study|J. Agric. Food Chem.29:130-135|1981|10.1021/jf00103a033
97009|T||Cory-Slechta,D.A., M.B. Virgolini, M. Thiruchelvam, D.D. Weston, and M.R. Bauter|Maternal Stress Modulates the Effects of Developmental Lead Exposure|Environ. Health Perspect.112(6): 717-731|2004|10.1289/ehp.6481
97010|T||Dams,R.I., G.I. Paton, and K. Killham|Rhizoremediation of Pentachlorophenol by Sphingobium chlorophenolicum ATCC 39723|Chemosphere68(5): 864-870|2007|10.1016/j.chemosphere.2007.02.014
97011|T||Commissaris,R.L., M. Tavakoli-Nezhad, A.J. Barron, and D.K. Pitts|Effects of Chronic Low-Level Oral Lead Exposure on Prepulse Inhibition of Acoustic Startle in the Rat|Neurotoxicol. Teratol.22(1): 55-60|2000|10.1016/S0892-0362(99)00042-2
97013|T||Collins,T.F.X., R.L. Sprando, T.N. Black, N. Olejnik, R.M. Eppley, F.A. Hines, J. Rorie, and D.I. Ruggles|Effects of Deoxynivalenol (DON, Vomitoxin) on In Utero Development in Rats|Food Chem. Toxicol.44(6): 747-757|2006|10.1016/j.fct.2005.10.007
97014|T||Coccini,T., C. Fenoglio, L. Maestri, L.G. Costa, and L. Manzo|Effect of Subchronic Ethanol Ingestion on Styrene-Induced Damage to the Tracheal and Pulmonary Epithelium of the Rat|J. Appl. Toxicol.18(5): 349-356|1998|10.1002/(SICI)1099-1263(1998090)18:5<349::AID-JAT520>3.0.CO;2-W
97017|T||Chilakapati,J., M.C. Korrapati, K. Shankar, R.A. Hill, A. Warbritton, J.R. Latendresse, and H.M. Mehendale|Role of CYP2E1 and Saturation Kinetics in the Bioactivation of Thioacetamide:  Effects of Diet Restriction and Phenobarbital|Toxicol. Appl. Pharmacol.219(1): 72-84|2007|10.1016/j.taap.2006.11.036
97018|A||Choi,H.J., J. Ji, K.H. Chung, and I.Y. Ahn|Cadmium Bioaccumulation and Detoxification in the Gill and Digestive Gland of the Antarctic Bivalve Laternula elliptica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(2): 227-235|2007|10.1016/j.cbpc.2006.12.005
97019|T||Cheng,P.Y., Y.M. Lee, Y.S. Wu, T.W. Chang, J.S. Jin, and M.H. Yen|Protective Effect of Baicalein Against Endotoxic Shock in Rats In Vivo and In Vitro|Biochem. Pharmacol.73(6): 793-804|2007|10.1016/j.bcp.2006.11.025
97020|T||Chen,H.H., T. Ma, and I.K. Ho|Effects of Developmental Lead Exposure on Inhibitory Avoidance Learning and Glutamate Receptors in Rats|Environ. Toxicol. Pharmacol.9(4): 185-191|2001|10.1016/S1382-6689(01)00067-9
97021|T||Chen,H.M., T. Qin, L.X. Zhao, and X.B. Xu|Effects of Lead on 4-Aminobiphenyl Pharmacokinetics in Liver, Kidney, Spleen, Testes, Heart, Lung and Hemoglobin Adduct for Rat Model|Ecotoxicology11(4): 255-264|2002|10.1023/A:1016396121312
97022|A||Choi,J., and H. Roche|Effect of Potassium Dichromate and Fenitrothion on Hemoglobins of Chironomus riparius MG. (Diptera, Chironomidae) Larvae:  Potential Biomarker of Environmental Monitoring|Environ. Monit. Assess.92(1-3): 229-239|2004|10.1023/B:EMAS.0000014503.23761.77
97023|A||Chowdhury,M.J., and C.M. Wood|Renal Function in the Freshwater Rainbow Trout After Dietary Cadmium Acclimation and Waterborne Cadmium Challenge|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 321-332|2007|10.1016/j.cbpc.2007.01.004
97024|A||Garrett,W.|Mosquito Control in the Aquatic Environment with Monomolecular Organic Surface Films|Manuscr., NRL Rep.#8020, Naval Res.Lab.,Washington, DC:13 p.|1976|
97025|A||Boulton,A.P., A.K. Huggins, and K.A. Munday|The Effects of Organometallic Antifouling Agents on the Metabolism of the Barnacle Elminius modestus|Toxicol. Appl. Pharmacol.20:487-501|1971|10.1016/0041-008X(71)90253-5
97026|T||Shelby,M.D., R.R. Newbold, D.B. Tully, K. Chae, and V.L. Davis|Assessing Environmental Chemicals for Estrogenicity Using a Combination of In Vitro and In Vivo Assays|Environ. Health Perspect.104(12): 1296-1300|1996|10.1289/ehp.961041296
97027|T||Crouch,L.S., and R.E. Ebel|Influence of Chlordecone and Mirex Exposure on Benzo(a)pyrene Metabolism of Rat-Liver Microsomes|Xenobiotica17(1): 25-34|1987|10.3109/00498258709047172
97028|T||Crouch,L.S., and R.E. Ebel|Benzo(a)pyrene Metabolism in the Mongolian Gerbil:  Influence of Chlordecone and Mirex Induction|Xenobiotica17(7): 859-867|1987|10.3109/00498258709043995
97029|T||Beyer,B.K., K.L. Stark, A.G. Fantel, and M.R. Juchau|Biotransformation, Estrogenicity, and Steroid Structure as Determinants of Dysmorphogenic and Generalized Embryotoxic Effects of Steroidal and Nonsteroidal Estrogens|Toxicol. Appl. Pharmacol.98(1): 113-127|1989|10.1016/0041-008X(89)90139-7
97030|T||Dannan,G.A., S.D. Sleight, P.J. Fraker, J.D. Krehbiel, and S.D. Aust|Liver Microsomal Enzyme Induction and Toxicity Studies with 2,4,5,3',4'-Pentabromobiphenyl|Toxicol. Appl. Pharmacol.64(2): 187-203|1982|10.1016/0041-008X(82)90215-0
97031|T||Bhattacharyya,M.H., B.D. Whelton, and D.P. Peterson|Gastrointestinal Absorption of Cadmium in Mice During Gestation and Lactation  II. Continuous Exposure Studies|Toxicol. Appl. Pharmacol.66:368-375|1982|10.1016/0041-008X(82)90303-9
97032|T||Bhattacharyya,M.H., B.D. Whelton, and D.P. Peterson|Gastrointestinal Absorption of Cadmium in Mice During Gestation and Lactation  I. Short-Term Exposure Studies|Toxicol. Appl. Pharmacol.61:335-342|1981|10.1016/0041-008X(81)90354-9
97033|T||Capel-Edwards,K., D.E. Hall, and A.G. Sansom|Hematological Changes Observed in Female Beagle Dogs Given Ethynylestradiol|Toxicol. Appl. Pharmacol.20(3): 319-326|1971|10.1016/0041-008X(71)90275-4
97034|T||Campen,D., R. Maronpot, and G. Lucier|Dose-Response Relationships in Promotion of Rat Hepatocarcinogenesis by 17alpha -Ethinylestradiol|J. Toxicol. Environ. Health29(3): 257-268|1990|10.1080/15287399009531389
97035|T||Baker,P.R., G.C. Vitale, and Y.F. Siow|Medroxyprogesterone Acetate- and Ethinylestradiol-Induced Changes in Biliary Bile Acids of the Rat Studied by High-Performance Liquid Chromatography|J. Chromatogr.423:63-73|1987|10.1016/0378-4347(87)80328-6
97036|T||Benkirane,M., J.M. Meignen, L. Mercier, J. Boyer, and A. Verine|Lipoprotein Lipase in Rat Heart--III.  Effects of Sex Steroid Hormones on tri-, di- and Monoacylglycerol Lipase Activities in Post-Heparin Effluents|Comp. Biochem. Physiol. B Comp. Biochem.94(1): 27-30|1989|10.1016/0305-0491(89)90005-9
97037|T||Asplund,L., E. Jacobsson, P. Haglund, and A. Bergman|1,2,3,5,6,7-Hexachloronaphthalene and 1,2,3,4,6,7-Hexachloronaphthalene-Selective Retention in Rat Liver and Appearance in Wildlife|Chemosphere28(12): 2075-2086|1994|10.1016/0045-6535(94)90177-5
97038|T||Das,M., P.K. Seth, and H. Mukhtar|Distribution of Benzo(a)pyrene in Discrete Regions of Rat Brain|Bull. Environ. Contam. Toxicol.35(4): 500-504|1985|10.1007/BF01636545
97039|T||Apelgren,L.D., D.L. Bailey, R.L. Fouts, L. Short, N. Bryan, G.F. Evans, G.E. Sandusky, S.H. Zuckerman, A. Glasebrook, a|The Effect of a Selective Estrogen Receptor Modulator on the Progression of Spontaneous Autoimmune Disease in MRL lpr/lpr Mice|Cell. Immunol.173(1): 55-63|1996|10.1006/cimm.1996.0251
97040|T||Ceccarelli,I., D. Della Seta, P. Fiorenzani, F. Farabollini, and A.M. Aloisi|Estrogenic Chemicals at Puberty Change ERalpha in the Hypothalamus of Male and Female Rats|Neurotoxicol. Teratol.29(1): 108-115|2007|10.1016/j.ntt.2006.10.011
97041|T||Biau,S., S. Bayle, P.D. Santa Barbara, and B. Roig|The Chick Embryo:  An Animal Model for Detection of the Effects of Hormonal Compounds|Anal. Bioanal. Chem.387(4): 1397-1403|2007|10.1007/s00216-006-0870-y
97042|T||Atanassova,N., C. McKinnell, M. Walker, K.J. Turner, J.S. Fisher, M. Morley, M.R. Millar, N.P. Groome, and R.M. Sharpe|Permanent Effects of Neonatal Estrogen Exposure in Rats on Reproductive Hormone Levels, Sertoli Cell Number, and the Efficiency of Spermatogenesis in Adulthood|Endocrinology140(11): 5364-5373|1999|10.1210/endo.140.11.7108
97044|T||Arika,T., M. Yokoo, T. Hase, T. Maeda, K. Amemiya, and H. Yamaguchi|Effects of Butenafine Hydrochloride, a New Benzylamine Derivative, on Experimental Dermatophytosis in Guinea Pigs|Antimicrob. Agents Chemother.34(11): 2250-2253|1990|10.1128/AAC.34.11.2250
97045|T||Arabo,A., M. Lefebvre, M. Fermanel, and J. Caston|Administration of 17 alpha-Ethinylestradiol During Pregnancy Elicits Modifications of Maternal Behavior and Emotional Alteration of the Offspring in the Rat|Brain Res. Dev. Brain Res.156(1): 93-103|2005|10.1016/j.devbrainres.2005.02.003
97046|T||Aley,K.O., and J.D. Levine|Dissociation of Tolerance and Dependence for Opioid Peripheral Antinociception in Rats|J. Neurosci.17(10): 3907-3912|1997|10.1523/JNEUROSCI.17-10-03907.1997
97047|T||Chaube,S.|Protective Effects of Thymidine, 5-Aminiomidazolecarboxamide, and Riboflavin Against Fetal Abnormalities Produced in Rats by 5-(3,3-Dimethyl-1-Triazeno)Imidazole-4-Carboxamide|Cancer Res.33:2231-2240|1973|
97049|T||Chan,M.H., T.H. Chien, P.Y. Lee, and H.H. Chen|Involvement of NO/cGMP Pathway in Toluene-Induced Locomotor Hyperactivity in Female Rats|Psychopharmacology176(3-4): 435-439|2004|10.1007/s00213-004-1900-0
97050|T||Ailstock,M.S., C.M. Norman, and P.J. Bushmann|Common Reed Phragmites australis:  Control and Effects Upon Biodiversity in Freshwater Nontidal Wetlands|Restor. Ecol.9(1): 49-59|2001|10.1046/j.1526-100x.2001.009001049.x
97051|T||Chen,H.H., T. Ma, and I.K. Ho|Protein Kinase C in Rat Brain is Altered by Developmental Lead Exposure|Neurochem. Res.24(3): 415-421|1999|10.1023/A:1020993802239
97052|T||Chen,X., G.Y. Yang, W.Y. Ding, F. Bondoc, S.K. Curtis, and C.S. Yang|An Esophagogastroduodenal Anastomosis Model for Esophageal Adenocarcinogenesis in Rats and Enhancement by Iron Overload|Carcinogenesis20(9): 1801-1808|1999|10.1093/carcin/20.9.1801
97053|T||Feller,M.C.|Effects of Forest Herbicide Applications on Streamwater Chemistry in Southwestern British Columbia|Water Resour. Bull.25(3): 607-616|1989|10.1111/j.1752-1688.1989.tb03098.x
97054|T||Chen,H.H., T. Ma, I.A. Paul, J.L. Spencer, and I.K. Ho|Developmental Lead Exposure and Two-Way Active Avoidance Training Alter the Distribution of Protein Kinase C Activity in the Rat Hippocampus|Neurochem. Res.22(9): 1119-1125|1997|10.1023/A:1027365202328
97055|T||Leys,A.R., B.R. Cullis, and B. Plater|Effect of Spraytopping Applications of Paraquat and Glyphosate on the Nutritive Value and Regeneration of Vulpia (Vulpia bromoides (L.) S. F. Gray)|Aust. J. Agric. Res.42(8): 1405-1415|1991|10.1071/AR9911405
97056|T||Chen,J., D.A. Schwartz, T.A. Young, J.S. Norris, and J.D. Yager|Identification of Genes Whose Expression is Altered During Mitosuppression in Livers of Ethinyl Estradiol-Treated Female Rats|Carcinogenesis17(12): 2783-2786|1996|10.1093/carcin/17.12.2783
97057|T||Hartley,M.J., J.B. Reid, A. Rahman, and J.A. Springett|Effect of Organic Mulches and a Residual Herbicide on Soil Bioactivity in an Apple Orchard|N. Z. J. Crop Hortic. Sci.24(2): 183-190|1996|10.1080/01140671.1996.9513951
97058|T||Rognstad,R., and J. Katz|The Effect of 2,4-Dinitrophenol on Adipose-Tissue Metabolism|Biochem. J. (Lond.)111:431-444|1969|10.1042/bj1110431
97059|T||Budai,P., L.E. Varnagy, I.M. Somlyay, and T. Varga|Ocular Irritation Study of Some Pesticides in HET-CAM Test|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(2a): 265-268|1997|
97060|T||Doerge,D.R., N.C. Twaddle, M.I. Boettcher, L.P. McDaniel, and J. Angerer|Urinary Excretion of Acrylamide and Metabolites in Fischer 344 Rats and B6C3F1 Mice Administered a Single Dose of Acrylamide|Toxicol. Lett.169(1): 34-42|2007|10.1016/j.toxlet.2006.12.002
97062|T||Di Renzo,F., G. Cappelletti, M.L. Broccia, E. Giavini, and E. Menegola|Boric Acid Inhibits Embryonic Histone Deacetylases:  A Suggested Mechanism to Explain Boric Acid-Related Teratogenicity|Toxicol. Appl. Pharmacol.220(2): 178-185|2007|10.1016/j.taap.2007.01.001
97063|T||McDonald,D.|Insect Pest Control in Urban Areas:  Some Novel Approaches|Int. Pest Control35(6): 151-152|1993|
97065|T||Spurgeon,D.W., and A.J. Mueller|Temporal Effects of Threecornered Alfalfa Hopper (Homoptera: Membracidae) Girdling on Translocation in Soybean|J. Econ. Entomol.84(4): 1203-1207|1991|10.1093/jee/84.4.1203
97066|T||Johal,G.S., and J.E. Rahe|Glyphosate Hypersensitivity and Phytoalexin Accumulation in the Incompatible Bean Anthracnose Host-Parasite Interaction|Physiol. Mol. Plant Pathol.32(2): 267-281|1988|10.1016/S0885-5765(88)80022-5
97068|T||DeWitt,J.C., C.B. Copeland, and R.W. Luebke|Immune Function is not Impaired in Sprague-Dawley Rats Exposed to Dimethyltin Dichloride (DMTC) During Development or Adulthood|Toxicology232(3): 303-310|2007|10.1016/j.tox.2007.01.017
97069|T||Sarvari,E., L. Gaspar, F. Fodor, E. Cseh, K. Kropfl, A. Varga, and M. Baron|Comparison of the Effects of Pb Treatment on Thylakoid Development in Poplar and Cucumber Plants|Acta Biol. Szeged.46(3-4): 163-165|2002|
97070|T||Dugard,M.L., H. Tremblay-Leveau, D. Mellier, and J. Caston|Prenatal Exposure to Ethinylestradiol Elicits Behavioral Abnormalities in the Rat|Brain Res. Dev. Brain Res.129(2): 189-199|2001|10.1016/S0165-3806(01)00205-X
97071|T||Domijan,A.M., D. Zeljezic, M. Milic, and M. Peraica|Fumonisin B1:  Oxidative Status and DNA Damage in Rats|Toxicology232(3): 163-169|2007|10.1016/j.tox.2007.01.007
97073|T||Duff,S.M.G., Y.C.S. Chen, B.J. Fabbri, G. Yalamanchili, B.C. Hamper, D.M. Walker, F.A. Brookfield, E.A. Boyd, M.R. Asht|The Carboxyterminal Processing Protease of D1 Protein:  Herbicidal Activity of Novel Inhibitors of the Recombinant and Native Spinach Enzymes|Pestic. Biochem. Physiol.88(1): 1-13|2007|10.1016/j.pestbp.2006.08.014
97074|T||Dorough,H.W.|Metabolism of Furadan (NIA-10242) in Rats and Houseflies|J. Agric. Food Chem.16(2): 319-325|1968|10.1021/jf60156a035
97075|T||Colpaert,J.V., K. Adriaensen, L.A.H. Muller, M. Lambaerts, C. Faes, R. Carleer, and J. Vangronsveld|Element Profiles and Growth in Zn-Sensitive and Zn-Resistant Suilloid Fungi|Mycorrhiza15(8): 628-634|2005|10.1007/s00572-005-0009-6
97080|T||Bowmer,K.H., and P.L. Eberbach|Uptake and Translocation of 14C-Glyphosate in Alternanthera philoxeroides (Mart.) Griseb. (Alligator Weed):  II. Effect of Plant Size and Photoperiod|Weed Res. (Multiple Languages)33(1): 59-67|1993|10.1111/j.1365-3180.1993.tb01918.x
97081|T||Kawate,M.K., S.C. Kawate, A.G.,Jr. Ogg, and J.M. Kraft|Response of Fusarium solani f. sp. pisi and Pythium ultimum to Glyphosate|Weed Sci.40(3): 497-502|1992|10.1017/S0043174500051973
97082|T||Crawford,M.C., and R.J. Simpson|Manipulation of the Feeding Value of Senescing Annual Ryegrass (Lolium rigidum Gaud.) with Imazethapyr and Glyphosphate|Aust. J. Agric. Res.44(7): 1653-1666|1993|10.1071/AR9931653
97083|T||Wardle,D.A., and D. Parkinson|Influence of the Herbicide Glyphosate on Soil Microbial Community Structure|Plant Soil122(1): 29-37|1990|10.1007/BF02851907
97084|T||Wallace,R.W., and R.R. Bellinder|Glyphosate Absorption and Translocation in Rust-Infected Quackgrass (Elytrigia repens)|Weed Sci.43(1): 1-6|1995|10.1017/S0043174500080735
97085|T||Vreeland,J.K., F.A. Servello, and B. Griffith|Effects of Conifer Release with Glyphosate on Summer Forage Abundance for Deer in Maine|Can. J. For. Res.28(10): 1574-1578|1998|10.1139/x98-144
97086|T||Eberbach,P.L., and L.A. Douglas|Herbicide Effects on the Growth and Nodulation Potential of Rhizobium trifolii with Trifolium subterraneum L.|Plant Soil119(1): 15-23|1989|10.1007/BF02370265
97087|T||Bruhn,J.N., and R.L. Heyd|Reforestation Trials on Harsh Sandy Sites in Michigan's Upper Peninsula - White Grub Interactions|Research Note No.40 - Ford Forestry Center, School of Forestry and Wood Products, Michigan Technological University:1-7|1985|
97088|T||Bowmer,K.H., P.L. Eberbach, and G. McCorkelle|Uptake and Translocation of 14C-Glyphosate in Alternanthera philoxeroides (Mart.) Griseb. (Alligator Weed):  I. Rhizome Concentrations Required for Inhibition|Weed Res. (Multiple Languages)33(1): 53-57|1993|10.1111/j.1365-3180.1993.tb01917.x
97089|T||Umeda,Y., S. Aiso, K. Yamazaki, M. Ohnishi, H. Arito, K. Nagano, S. Yamamoto, and T. Matsushima|Carcinogenicity of Biphenyl in Mice by Two Years Feeding|J. Vet. Med. Sci.67(4): 417-424|2005|10.1292/jvms.67.417
97093|T||Haleem,A.A., W.B. Anderson, M.K. Sadik, and A.A. Abdel Salam|Iron Availability as Influenced by Phosphate and Ferrous- and Ferric-Sulfate Fertilizers|J. Plant Nutr.15(10): 1955-1970|1992|10.1080/01904169209364450
97094|T||Abdel-Mallek,A.Y., M.I.A. Abdel-Kader, and A.M.A. Shonkeir|Effect of Glyphosate on Fungal Population, Respiration and the Decay of Some Organic Matters in Egyptian Soil|Microbiol. Res.149(1): 69-73|1994|10.1016/S0944-5013(11)80139-4
97096|T||Fernandez,M.R., B.G. McConkey, and R.P. Zentner|Tillage and Summerfallow Effects on Leaf Spot Diseases of Wheat in the Semiarid Canadian Prairies|Can. J. Plant Pathol.20(4): 376-379|1998|10.1080/07060669809500406
97097|T||Dewar,A.M., L.A. Haylock, M.J. May, J. Beane, and R.N. Perry|Glyphosate Applied to Genetically Modified Herbicide-Tolerant Sugar Beet and 'Volunteer' Potatoes Reduces Populations of Potato Cyst Nematodes and the Number and Size of Daughter Tubers|Ann. Appl. Biol.136(3): 179-187|2000|10.1111/j.1744-7348.2000.tb00024.x
97099|T||Sharon,A., Z. Amsellem, and J. Gressel|Glyphosphate Suppression of an Elicited Defense Response: Increased Susceptibility of Cassia obtusifolia to a Mycoherbicide|Plant Physiol.98(2): 654-659|1992|10.1104/pp.98.2.654
97100|A||Marc,J., M. Le Breton, P. Cormier, J. Morales, R. Belle, and O. Mulner-Lorillon|A Glyphosate-Based Pesticide Impinges on Transcription|Toxicol. Appl. Pharmacol.203(1): 1-8|2005|10.1016/j.taap.2004.07.014
97101|T||Koger,C.H., D.L. Shaner, L.J. Krutz, T.W. Walker, N. Buehring, W.B. Henry, W.E. Thomas, and J.W. Wilcut|Rice (Oryza sativa) Response to Drift Rates of Glyphosate|Pest Manag. Sci.61(12): 1161-1167|2005|10.1002/ps.1113
97102|T||Kay,S.H.|Efficacy of Wipe-on Applications of Glyphosate and Imazapyr on Common Reed in Aquatic Sites|J. Aquat. Plant Manag.33:25-26|1995|
97103|T||Nandula,V.K.|Selective Control of Egyptian Broomrape (Orobanche aegyptiaca Pers.) by Glyphosate and Its Amino Acid Status in Relation to Selected Hosts|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:125 p.|1998|
97104|T||Bujacz,B., P. Wieczorek, T. Krzysko-Lupicka, Z. Golab, B. Lejczak, and P. Kavfarski|Organophosphonate Utilization by the Wild-Type Strain of Penicillium notatum|Appl. Environ. Microbiol.61(8): 2905-2910|1995|10.1128/aem.61.8.2905-2910.1995
97105|T||MacKinnon,D.S., and B. Freedman|Effects of Silvicultural Use of the Herbicide Glyphosate on Breeding Birds of Regenerating Clearcuts in Nova Scotia, Canada|J. Appl. Ecol.30(3): 395-406|1993|10.2307/2404181
97107|T||Westra,P.H., D.L. Wyse, and E.F. Cook|Weevil (Notaris bimaculatus ) Feeding Reduces Effectiveness of Glyphosate on Quackgrass (Agropyron repens )|Weed Sci.29(5): 540-547|1981|10.1017/S0043174500063694
97108|T||Mekwatanakarn,P., and K. Sivasithamparam|Effect of Certain Herbicides on Growth and Pathogenicity of Take-All Fungus on Wheat (Triticum aestivum L.)|Biol. Fertil. Soils5(1): 31-35|1987|
97109|T||Mekwatanakarn,P., and K. Sivasithamparam|Effect of Certain Herbicides on Soil Microbial Populations and Their Influence on Saprophytic Growth in Soil and Pathogenicity of Take-All Fungus|Biol. Fertil. Soils5(2): 175-180|1987|10.1007/BF00257655
97110|T||Santillo,D.J., D.M.,Jr. Leslie, and P.W. Brown|Responses of Small Mammals and Habitat to Glyphosate Application on Clearcuts|J. Wildl. Manag.53(1): 164-172|1989|10.2307/3801324
97111|A||Li,S.N., and R.K. Kole|Response of Gill ATPase and Liver Esterase of Pseudorasobora parva to a Two Month Exposure to Glyphosate and Metsulfuron Methyl|Toxicol. Environ. Chem.86(4): 239-245|2004|10.1080/02772240400007112
97114|T||Sullivan,T.P., D.S. Sullivan, R.A. Lautenschlager, and R.G. Wagner|Long-Term Influence of Glyphosate Herbicide on Demography and Diversity of Small Mammal Communities in Coastal Coniferous Forest|Northwest Sci.71(1): 6-17|1997|
97115|T||Houston,A.P.C., S. Visser, and R.A. Lautenschlager|Response of Microbial Processes and Fungal Community Structure to Vegetation Management in Mixedwood Forest Soils|Can. J. Bot.76(12): 2002-2010|1998|10.1139/b98-186
97116|T||Stratton,G.W., and K.E. Stewart|Glyphosate Effects on Microbial Biomass in a Coniferous Forest Soil|Environ. Toxicol. Water Qual.7(3): 223-236|1992|10.1002/tox.2530070303
97117|T||Haughton,A.J., J.R. Bell, N.D. Boatman, and A. Wilcox|The Effects of Different Rates of the Herbicide Glyphosate on Spiders in Arable Field Margins|J. Arachnol.27(1): 249-254|1999|
97118|T||Kawate,M.K., S.G. Colwell, A.G.,Jr. Ogg, and J.M. Kraft|Effect of Glyphosate-Treated Henbit (Lamium amplexicaule) and Downy Brome (Bromus tectorum) on Fusarium solani f. sp. pisi and Pythium ultimum|Weed Sci.45(5): 739-743|1997|
97120|T||Linz,G.M., D.L. Bergman, H.J. Homan, and W.J. Bleier|Effects of Herbicide-Induced Habitat Alterations on Blackbird Damage to Sunflower|Crop Prot.14(8): 625-629|1995|10.1016/0261-2194(95)00072-0
97121|T||Larson,R.L., A.L. Hill, A. Fenwick, A.R. Kniss, L.E. Hanson, and S.D. Miller|Influence of Glyphosate on Rhizoctonia and Fusarium Root Rot in Sugar Beet|Pest Manag. Sci.62(12): 1182-1192|2006|10.1002/ps.1297
97122|AT||Linz,G.M., W.J. Bleier, J.D. Overland, and H.J. Homan|Response of Invertebrates to Glyphosate-Induced Habitat Alterations in Wetlands|Wetlands19(1): 220-227|1999|10.1007/BF03161751
97124|T||Suzuki,T., I. Horibe, N. Uchida, K. Ezumi, K. Uchida, K. Takeda, A. Tanaka, Y. Nishizawa, and K. Matsumoto|Effects of Antiandrogens on Growth of Androgen-Dependent Mouse Mammary Tumor (Shionogi Carcinoma 115) In Vivo and In Vitro|J. Steroid Biochem. Mol. Biol.37(4): 559-567|1990|10.1016/0960-0760(90)90401-6
97125|T||Reddy,T.V., J.A. Stober, G.R. Olson, and F.B. Daniel|Induction of Nuclear Anomalies in the Gastrointestinal Tract by Polycyclic Aromatic Hydrocarbons|Cancer Lett.56(3): 215-224|1991|10.1016/0304-3835(91)90005-3
97126|T||Chen,S.W., P.J. Dziuk, and B.M. Francis|Effect of Four Environmental Toxicants on Plasma Ca and Estradiol 17beta and Hepatic P450 in Laying Hens|Environ. Toxicol. Chem.13(5): 789-796|1994|10.1002/etc.5620130514
97127|T||Chu,W.K., M.H. Wong, and J. Zhang|Accumulation, Distribution and Transformation of DDT and PCBs by Phragmites australis and Oryza sativa L.:  I.  Whole Plant Study|Environ. Geochem. Health28(1-2): 159-168|2006|10.1007/s10653-005-9027-8
97128|A||Cooper,K.R., H. Liu, P.A. Bergqvist, and C. Rappe|Evaluation of Baltic Herring and Icelandic Cod Liver Oil for Embryo Toxicity, Using the Japanese Medaka (Oryzias latipes) Embryo Larval Assay|Environ. Toxicol. Chem.10:707-714|1991|10.1002/etc.5620100602
97130|T||Graham,G.L., G. Peng, K.L. Bailey, and F.A. Holm|Interactions of Colletotrichum truncatum with Herbicides for Control of Scentless Chamomile (Matricaria perforata)|Weed Technol.20(4): 877-884|2006|10.1614/WT-05-026.1
97131|A||Chatterjee,A., S. Adhikari, S.P. Adhikary, and S. Ayyappan|Fish as Bioindicators for Waiting Period of Pesticides|Indian J. Fish.51(3): 271-276|2004|
97132|T||Kisseberth,W.C., W.B. Buck, M.E. Mansfield, and R.K. Manuel|Preferential Grazing by Cattle on Glyphosate-Treated Fescue Pastures|Am. J. Vet. Res.47(3): 696-698|1986|
97133|A||Gabriel,U.U., and A.D.I. George|Plasma Enzymes in Clarias gariepinus Exposed to Chronic Levels of Roundup (Glyphosate)|Environ. Ecol.23(2): 271-276|2005|
97134|T||Sullivan,T.P., D.S. Sullivan, P.M.F. Lindgren, and J.O. Boateng|Influence of Conventional and Chemical Thinning on Stand Structure and Diversity of Plant and Mammal Communities in Young Lodgepole Pine Forest|For. Ecol. Manag.170(1-3): 173-187|2002|10.1016/S0378-1127(01)00775-7
97135|T||Sullivan,T.P., D.S. Sullivan, E.J. Hogue, R.A. Lautenschlager, and R.G. Wagner|Population Dynamics of Small Mammals in Relation to Vegetation Management in Orchard Agroecosystems: Compensatory Responses in Abundance and Biomass|Crop Prot.17(1): 1-11|1998|10.1016/S0261-2194(98)80006-9
97136|T||Oliveira,A.G., L.F. Telles, R.A. Hess, G.A.B. Mahecha, and C.A. Oliveira|Effects of the Herbicide Roundup on the Epididymal Region of Drakes Anas platyrhynchos|Reprod. Toxicol.23(2): 182-191|2007|10.1016/j.reprotox.2006.11.004
97137|T||Lindgren,C.J., T.S. Gabor, and H.R. Murkin|Compatibility of Glyphosate with Galerucella calmariensis; a Biological Control Agent for Purple Loosestrife (Lythrum salicaria)|J. Aquat. Plant Manag.37:44-48|1999|
97138|T||Harikrishnan,R., and X.B. Yang|Effects of Herbicides on Root Rot and Damping-Off Caused by Rhizoctonia solani in Glyphosate-Tolerant Soybean|Plant Dis.86(12): 1369-1373|2002|10.1094/PDIS.2002.86.12.1369
97139|T||Liu,L., Z.K. Punja, and J.E. Rahe|Altered Root Exudation and Suppression of Induced Lignification as Mechanisms of Predisposition by Glyphosate of Bean Roots (Phaseolus vulgaris L.) to Colonization by Pythium spp.|Physiol. Mol. Plant Pathol.51(2): 111-127|1997|10.1006/pmpp.1997.0113
97140|T||Sharma,U., E.A. Adee, and W.F. Pfender|Effect of Glyphosate Herbicide on Pseudothecia Formation by Pyrenophora tritici-repentis in Infested Wheat Straw|Plant Dis.73(8): 647-650|1989|10.1094/PD-73-0647
97141|T||Berner,D.K., G.T. Berggren, and J.P. Snow|Effects of Glyphosate on Calonectria crotalariae and Red Crown Rot of Soybean|Plant Dis.75(8): 809-813|1991|10.1094/PD-75-0809
97142|T||Adam,A., A. Marzuki, H.A. Rahman, and M.A. Aziz|The Oral and Intratracheal Toxicities of Roundup and Its Components to Rats|Vet. Hum. Toxicol.39(3): 147-151|1997|
97143|T||Kremer,R.J., N.E. Means, and S. Kim|Glyphosate Affects Soybean Root Exudation and Rhizosphere Micro-Organisms|Int. J. Environ. Anal. Chem.85(15): 1165-1174|2005|10.1080/03067310500273146
97144|T||Dilday,R.H., W. Yan, F.L. Baldwin, K.A. Gravois, F.N. Lee, K.A. Moldenhauer, and B.R. Wells|Herbicide Tolerance in Rice to Glyphosate and Sulfosate|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.453:55-60|1996|
97145|T||Feber,R.E., H. Smith, and D.W. MacDonald|The Effects of Field Margin Restoration on the Meadow Brown Butterfly (Maniola jurtina)|BCPC Monogr. - Br. Crop Prot. Counc.58:295-300|1994|
97146|T||Aplada-Sarlis,P., K.S. Liapis, and G.E. Miliadis|Study of Procymidone and Propargite Residue Levels Resulting from Application to Greenhouse Tomatoes|J. Agric. Food Chem.42(7): 1575-1577|1994|10.1021/jf00043a036
97147|A||Newman,J.R., and F.H. Dawson|Ecology, Distribution and Chemical Control of Hydrocotyle ranunculoides in the UK|Hydrobiologia (Multiple Languages)415:295-298|1999|10.1023/A:1003877613462
97148|A||Marc,J., O. Mulner-Lorillon, S. Boulben, D. Hureau, G. Durand, and R. Belle|Pesticide Roundup Provokes Cell Division Dysfunction at the Level of CDK1/Cyclin B Activation|Chem. Res. Toxicol.15(3): 326-331|2002|10.1021/tx015543g
97149|T||Koenning,S.R.|Tolerance to Hoplolaimus columbus in Glyphosate-Resistant, Transgenic Soybean Cultivars|J. Nematol.34(4): 370-373|2002|
97150|T||Klimek,M., B. Lejczak, P. Kafarski, and G. Forlani|Metabolism of the Phosphonate Herbicide Glyphosate by a Non-Nitrate-Utilizing Strain of Penicillium chrysogenum|Pest Manag. Sci.57(9): 815-821|2001|10.1002/ps.366
97151|A||Kilbride,K.M., and F.L. Paveglio|Long-Term Fate of Glyphosate Associated with Repeated Rodeo Applications to Control Smooth Cordgrass (Spartina alterniflora) in Willapa Bay, Washington|Arch. Environ. Contam. Toxicol.40(2): 179-183|2001|10.1007/s002440010161
97152|T||Kaya,B., A. Creus, A. Yanikoglu, O. Cabre, and R. Marcos|Use of the Drosophila Wing Spot Test in the Genotoxicity Testing of Different Herbicides|Environ. Mol. Mutagen.36(1): 40-46|2000|10.1002/1098-2280(2000)36:1<40::AID-EM6>3.0.CO;2-K
97153|T||Ibbotson,T., M.J. Field, and P.R. Boden|Effect of Chronic Ethanol Treatment In Vivo on Excitability in Mouse Cortical Neurones In Vitro|Br. J. Pharmacol.122(5): 956-962|1997|10.1038/sj.bjp.0701471
97154|T||Easton,W.E., and K. Martin|The Effect of Vegetation Management on Breeding Bird Communities in British Columbia|Ecol. Appl.8(4): 1092-1103|1998|10.1890/1051-0761(1998)008[1092:TEOVMO]2.0.CO;2
97155|T||Busse,M.D., A.W. Ratcliff, C.J. Shestak, and R.F. Powers|Glyphosate Toxicity and the Effects of Long-Term Vegetation Control on Soil Microbial Communities|Soil Biol. Biochem.33(12/13): 1777-1789|2001|10.1016/S0038-0717(01)00103-1
97157|T||Davis,S.F., L.A. Cunningham, T.J. Burke, M.M. Richard, W.M. Langley, and J. Theis|A Preliminary Analysis of the Suppressive Effects of Denatonium Saccharide|Bull. Psychol. Scol. d'Orient.24(3): 229-232|1986|
97158|T||Means,N.E., and R.J. Kremer|Influence of Soil Moisture on Root Colonization of Glyphosate-Treated Soybean by Fusarium Species|Commun. Soil Sci. Plant Anal.38(13/14): 1713-1720|2007|10.1080/00103620701435472
97159|T||Quimby,P.C.,Jr., and K.E. Frick|Evaluation of Herbicide-Coated Larvae of Bactra verutana (Lep.: Tortricidae) to Control Nutsedges (Cyperus rotundus L. and C. esculentus L.)|Entomophaga30(3): 287-292|1985|10.1007/BF02372230
97160|T||Mietkiewski,R.T., J.K. Pell, and S.J. Clark|Influence of Pesticide Use on the Natural Occurrence of Entomopathogenic Fungi in Arable Soils in the UK:  Field and Laboratory Comparisons|Biocontrol Sci. Technol.7(4): 565-575|1997|10.1080/09583159730622
97161|A||Broderius,S., D. Hammermeister, C. Russom, D. Barnidge, D. Brooke, G. Elonen, M. Hoglund, M. Kahl, G. Mielke, and J. Th|Toxicity of Eight Terpenes to Fathead Minnows (Pimephales promelas), Daphnids (Daphnia magna), and Algae (Selanastrum capricornutum).|Manuscript: ASCI Corporation and the U.S.EPA Environmental Research Laboratory-Duluth, MN:57 p.|1990|
97163|T||Raymond,K.S., F.A. Servello, B. Griffith, and W.E. Eschholz|Winter Foraging Ecology of Moose on Glyphosate-Treated Clearcuts in Maine|J. Wildl. Manag.60(4): 753-763|1996|10.2307/3802374
97164|T||Paveglio,F.L., and K.M. Kilbride|Response of Vegetation to Control of Reed Canarygrass in Seasonally Managed Wetlands of Southwestern Washington|Wildl. Soc. Bull.28(3): 730-740|2000|
97165|T||Washburn,B.E., T.G. Barnes, and J.D. Sole|Improving Northern Bobwhite Habitat by Converting Tall Fescue Fields to Native Warm-Season Grasses|Wildl. Soc. Bull.28(1): 97-104|2000|
97166|T||Madison,L.A., T.G. Barnes, and J.D. Sole|Effectiveness of Fire, Disking, and Herbicide to Renovate Tall Fescue Fields to Northern Bobwhite Habitat|Wildl. Soc. Bull.29(2): 706-712|2001|
97167|T||Henriksen,B., and O. Elen|Natural Fusarium Grain Infection Level in Wheat, Barley and Oat After Early Application of Fungicides and Herbicides|J. Phytopathol.153(4): 214-220|2005|10.1111/j.1439-0434.2005.00955.x
97168|T||Clements,R.O., B.R. Bentley, and E.J. Asteraki|Origin of Frit-Fly (Oscinella spp.) Attack on Newly Sown Grass, Effect of Pesticides on Frit-Fly Larvae and Benefit of Using Glyphosate Herbicide Pre-Ploughing|Crop Prot.9(2): 105-110|1990|10.1016/0261-2194(90)90087-N
97169|T||Francis,J.E., and A.G. Smith|Polycyclic Aromatic Hydrocarbons Cause Hepatic Porphyria in Iron-Loaded C57BL/10 Mice:  Comparison of Uroporphyrinogen Decarboxylase Inhibition with Induction of Alkoxyphenoxazone Dealkylations|Biochem. Biophys. Res. Commun.146(1): 13-20|1987|10.1016/0006-291X(87)90683-8
97170|T||Zajdela,F., O. Perin-Roussel, and S. Saguem|Marked Differences Between Mutagenicity in Salmonella and Tumour-Initiating Activities of Dibenzo(a,e)fluoranthene Proximate Metabolites; Initiation Inhibiting Activity of Norharman|Carcinogenesis8(3): 461-464|1987|10.1093/carcin/8.3.461
97171|T||Hecht,S.S., S. Amin, J.M. Lin, A. Rivenson, C. Kurtzke, and K. El-Bayoumy|Mammary Carcinogenicity in Female CD Rats of a Diol Epoxide Metabolite of Fluoranthene, a Commonly Occurring Environmental Pollutant|Carcinogenesis16(6): 1433-1435|1995|10.1093/carcin/16.6.1433
97172|T||Cusack,M., A.K. Burnett, V.M. Morrison, and J.A. Craft|Metabolic Activation of 7,12-Dimethylbenz(a)Anthracene:  Role of Cytochrome P-450 Isoenzymes in the Formation of DNA and Protein Adducts In Vitro|Biochem. Soc. Trans.17(6): 1014-1015|1989|10.1042/bst0171014
97173|T||Hamilton,J.W., and S.E. Bloom|Correlation Between Induction of Xenobiotic Metabolism and DNA Damage from Chemical Carcinogens in the Chick Embryo In Vivo|Carcinogenesis7(7): 1101-1106|1986|10.1093/carcin/7.7.1101
97174|T||Frolich,A., and F.E. Wurgler|Drosophila Wing-Spot Test:  Improved Detectability of Genotoxicity of Polycyclic Aromatic Hydrocarbons|Mutat. Res.234(2): 71-80|1990|10.1016/0165-1161(90)90033-K
97175|T||Graf,U., and N. Van Schaik|Improved high Bioactivation Cross for the Wing Somatic Mutation and Recombination Test in Drosophila melanogaster|Mutat. Res.271(1): 59-67|1992|10.1016/0165-1161(92)90032-H
97176|T||Heo,M.Y., K.S. Yu, K.H. Kim, H.P. Kim, and W.W. Au|Anticlastogenic Effect of Flavonoids Against Mutagen-Induced Micronuclei in Mice|Mutat. Res.284(2): 243-249|1992|10.1016/0027-5107(92)90008-P
97177|T||Marcus,C.B., N.M. Wilson, I.M. Keith, C.R. Jefcoate, and C.J. Omiecinski|Selective Expression of Cytochrome P450 Isozymes by 4-n-Alkyl-Methylenedioxybenzenes in Rat Lung Cells|Arch. Biochem. Biophys.277(1): 17-25|1990|10.1016/0003-9861(90)90544-9
97178|T||Martelli,A., G.B. Campart, F. Benvenuto, A.M. Fresu, and G. Brambilla|Comparison of Micronucleus Formation in Mouse Bone Marrow and Spleen|Mutat. Res.292(1): 63-67|1993|10.1016/0165-1161(93)90008-N
97179|T||Tice,R.R., J.L. Ivett, and A.F. McFee|The Effect of Agent Treatment Time on the Induction of Sister-Chromatid Exchanges in Mouse Bone Marrow Cells In Vivo|Mutat. Res.182(1): 15-29|1987|10.1016/0165-1161(87)90004-5
97180|T||Vogel,E.W., and J.A. Zijlstra|Somatic Cell Mutagenicity in Drosophila melanogaster in Comparison with Genetic Damage in Early Germ-Cell Stages|Mutat. Res.180(2): 189-200|1987|10.1016/0027-5107(87)90214-4
97181|T||Vogel,E.W.|Somatic Cell Mutagenesis in Drosophila:  Recovery of Genetic Damage in Relation to the Types of DNA Lesions Induced in Mutationally Unstable and Stable X-Chromosomes|Mutat. Res.211(1): 153-170|1989|10.1016/0027-5107(89)90116-4
97182|T||Zijlstra,J.A., and E.W. Vogel|Metabolic Inactivation of Mutagens in Drosophila melanogaster|Mutat. Res.198(1): 73-83|1988|10.1016/0027-5107(88)90042-5
97183|T||Chizhova,S.I., V.V. Pavlova, and L.D. Prusakova|Abscisic Acid Content and Growth of Spring Barley Plants Treated with Triazoles|Russ. J. Plant Physiol.52(1): 93-98|2005|10.1007/s11183-005-0014-9
97184|T||Butler,T.J., J.P. Muir, and J.T. Ducar|Weed Control and Response to Herbicides During Tifton 85 Bermudagrass Establishment from Rhizomes|Agron. J.98(3): 788-794|2006|10.2134/agronj2005.0282
97185|T||Al-Assiuty,A.I.M., and M.A. Khalil|Effects of the Herbicide Atrazine on Entomobrya musatica (Collembola) in Field and Laboratory Experiments|Appl. Soil Ecol.4:139-146|1996|10.1016/0929-1393(96)00107-2
97186|T||Carr,S.M., and M.J. Jaffe|Pith Autolysis in Herbaceous, Dicotyledonous Plants:  Experimental Manipulation of Pith Autolysis in Several Cultivated Species|Ann. Bot.75(6): 587-592|1995|10.1006/anbo.1995.1063
97187|T||Foster,R.E., and W.G. Buhler|Control of Lepidopterous Larvae in Sweet Corn, 1993|Arthropod Manag. Tests19:89-|1994|10.1093/amt/19.1.89
97188|T||Fuller,B.W., M.A. Boetel, B.A. Boetel, and J. Jenson|Grasshopper Control in Alfalfa, 1993|Arthropod Manag. Tests19:168-|1994|10.1093/amt/19.1.168
97189|T||House,R.V., L.D. Lauer, L.M. Thurmond, J.B. Cornacoff, and J.H. Dean|Selective Immunosuppression Following Exposure to a Novel Anthraquinone, 1,4-bis[(2-aminoethyl)amino]-5,8-dihydroxy-9, 10-Anthracenedione Dihydrochloride (AEAD)|Int. Immunopharmacol.11(1): 95-101|1989|10.1016/0192-0561(89)90104-5
97190|T||Parekh,D., R.M. Puranik, and H.S. Srivastava|Inhibition of Chlorophyll Biosynthesis by Cadmium in Greening Maize Leaf Segments|Biochem. Physiol. Pflanzen (Multiple Languages)186(4): 239-242|1990|10.1016/S0015-3796(11)80078-8
97191|T||Hartwig,E.E.|Identification and Utilization of Variation in Herbicide Tolerance in Soybean (Glycine max) Breeding|Weed Sci.35(suppl. 1): 4-8|1987|10.1017/S0043174500060963
97192|T||El-Kareim,A.I.A., B. Darvas, and F. Kozar|Effects of the Juvenoids Fenoxycarb, Hydroprene, Kinoprene and Methoprene on First Instar Larvae of Epidiaspis leperii Sign.  (Hom. Diaspididae) and on Its Ectoparasitoid, Aphytis mytilaspidis (Le Baron) (Hym., Aphelini|J. Appl. Entomol.106(3): 270-275|1988|10.1111/j.1439-0418.1988.tb00593.x
97193|T||Abdulsalam,K.S., M.I. Abdel-Megeed, and M.I. Mohamed|Relative Toxicity of Certain Pesticides Against Honey Bees|Ann. Agric. Sci.33(2): 1309-1320|1988|
97194|A||Fodor,A., and T. Timar|Effects of Precocene Analogs on the Nematode Caenorhabditis remanei (var. Bangaloreiensis):  II.  Competitions with a Juvenile Hormone Analog (Methoprene)|Gen. Comp. Endocrinol.74(1): 32-44|1989|10.1016/0016-6480(89)90111-1
97198|T||Belles,D., D. Shaner, P. Westra, and G. Brunk|Comparison of Efficacy, Absorption and Translocation of Three Glyphosate Formulations on Velvetleaf (Abutilon theophrasti)|Pest Manag. Sci.62(12): 1177-1181|2006|10.1002/ps.1296
97199|T||Hogmire,H.W., T. Winfield, C. Grove, K. Collins, and J. Jilek|Insecticide Evaluation, 1993|Arthropod Manag. Tests19:5-7|1994|10.1093/amt/19.1.5
97200|T||Jarvi,K.J.|Potato Leafhopper Control in Alfalfa, 1993|Arthropod Manag. Tests19:172-|1994|10.1093/amt/19.1.172
97201|T||Wakelin,A.M., D.F. Lorraine-Colwill, and C. Preston|Glyphosate Resistance in Four Different Populations of Lolium rigidum is Associated with Reduced Translocation of Glyphosate to Meristematic Zones|Weed Res. (Multiple Languages)44(6): 453-459|2004|10.1111/j.1365-3180.2004.00421.x
97202|T||Garcia,S.J., K. Gellein, T. Syversen, and M. Aschner|A Manganese-Enhanced Diet Alters Brain Metals and Transporters in the Developing Rat|Toxicol. Sci.92(2): 516-525|2006|10.1093/toxsci/kfl017
97203|A||Laufer,H., W.J. Biggers, and J.S.B. Ahl|Stimulation of Ovarian Maturation in the Crayfish Procambarus clarkii by Methyl Farnesoate|Gen. Comp. Endocrinol.111:113-118|1998|10.1006/gcen.1998.7109
97204|T||Lasley,S.M., and M.E. Gilbert|Presynaptic Glutamatergic Function in Dentate Gyrus In Vivo is Diminished by Chronic Exposure to Inorganic Lead|Brain Res.736(1-2): 125-134|1996|10.1016/0006-8993(96)00666-X
97205|T||Laurenzana,E.M., C.C. Weis, C.W. Bryant, R. Newbold, and K.B. Delclos|Effect of Dietary Administration of Genistein, Nonylphenol or Ethinyl Estradiol on Hepatic Testosterone Metabolism, Cytochrome P-450 Enzymes, and Estrogen Receptor Alpha Expression|Food Chem. Toxicol.40(1): 53-63|2002|10.1016/S0278-6915(01)00095-3
97206|A||Law,K., V.P. Palace, T. Halldorson, R. Danell, K. Wautier, B. Evans, M. Alaee, C. Marvin, and G.T. Tomy|Dietary Accumulation of Hexabromocyclododecane Diastereoisomers in Juvenile Rainbow Trout (Oncorhynchus mykiss) I: Bioaccumulation Parameters and Evidence of Bioisomerization|Environ. Toxicol. Chem.25(7): 1757-1761|2006|10.1897/05-445R.1
97207|T||Laurenzana,E.M., G. Balasubramanian, C. Weis, B. Blaydes, R.R. Newbold, and K.B. Delclos|Effect of Nonylphenol on Serum Testosterone Levels and Testicular Steroidogenic Enzyme Activity in Neonatal, Pubertal, and Adult Rats|Chem.-Biol. Interact.139(1): 23-41|2002|10.1016/S0009-2797(01)00291-5
97208|A||Leanos-Castaneda,O., G. Van der Kraak, R. Rodriguez-Canul, and G. Gold|Endocrine Disruption Mechanism of o,p'-DDT in Mature Male Tilapia (Oreochromis niloticus)|Toxicol. Appl. Pharmacol.221(2): 158-167|2007|10.1016/j.taap.2007.03.011
97209|A||Le Cadre,V., and J.P. Debenay|Morphological and Cytological Responses of Ammonia (Foraminifera) to Copper Contamination:  Implication for the Use of Foraminifera as Bioindicators of Pollution|Environ. Pollut.143(2): 304-317|2006|10.1016/j.envpol.2005.11.033
97210|A||Lazur,A., S. Early, and J.M. Jacobs|Acute Toxicity of 5% Rotenone to Northern Snakeheads|N. Am. J. Fish. Manag.26(3): 628-630|2006|10.1577/M05-074.1
97211|T||Fujita,S., and J. Peisach|Liver Microsomal Cytochromes P-450 and Azoreductase Activity|J. Biol. Chem.253(13): 4512-4513|1978|10.1016/S0021-9258(17)30415-5
97213|T||Jernstrom,B., H. Vadi, and S. Orrenius|Formation in Isolated Rat Liver Microsomes and Nuclei of Benzo(a)pyrene Metabolites that Bind to DNA|Cancer Res.36(11 Pt. 1): 4107-4113|1976|
97214|T||Lawler,T.L., J.B. Taylor, J.W. Finley, and J.S. Caton|Effect of Supranutritional and Organically Bound Selenium on Performance, Carcass Characteristics, and Selenium Distribution in Finishing Beef Steers|J. Anim. Sci.82(5): 1488-1493|2004|10.2527/2004.8251488x
97215|T||Layton,B., and D. Varner|Control of Bollworm/Budworm Complex in Mississippi Cotton, 1993|Arthropod Manag. Tests19:228-229|1994|
97216|T||Layton,B., and D. Varner|Evaluation of Recommended Insecticides for Control of Cotton Aphid in Mississippi Cotton, 1993|Arthropod Manag. Tests19:228-|1994|
97219|A||Vaisberg,A.J., and J.A. Schiff|Events Surrounding the Early Development of Euglena Chloroplast  7. Inhibition of Carotenoid Biosynthesis by the Herbicide SAN-9789 (4-Chloro-5-(Methylamino)-2-(alpha,alpha,alpha,-Trifluoro-m-Tolyl)-3(2H)-Pyridazinone) |Plant Physiol.57:260-269|1976|10.1104/pp.57.2.260
97220|T||Unger,M., O. Andersen, and J. Clausen|Effect of 2-Aminonaphthalene on Glutathione Content and Cytochrome P-450 P-Nitroanisole O-Demethylation Activity in Mouse Liver|Cancer Res.37(5): 1264-1265|1977|
97221|T||Cory-Slechta,D.A., C.L. Flaugher, S.B. Evans, M.J. Pokora, and J.T. Greenamyre|Susceptibility of Adult Rats to Lead-Induced Changes in NMDA Receptor Complex Function|Neurotoxicol. Teratol.19(6): 517-530|1997|10.1016/S0892-0362(97)00047-0
97222|T||Boyle,D.|Effects of pH and Cyclodextrins on Pentachlorophenol Degradation (Mineralization) by White-Rot Fungi|J. Environ. Manag.80(4): 380-386|2006|10.1016/j.jenvman.2005.09.017
97223|T||Chauvat,M., and J.F. Ponge|Colonization of Heavy Metal-Polluted Soils by Collembola:  Preliminary Experiments in Compartmented Boxes|Appl. Soil Ecol.21:91-106|2002|10.1016/S0929-1393(02)00087-2
97224|T||Chen,J., M. Gokhale, Y. Li, M.A. Trush, and J.D. Yager|Enhanced Levels of Several Mitochondrial mRNA Transcripts and Mitochondrial Superoxide Production During Ethinyl Estradiol-Induced Hepatocarcinogenesis and After Estrogen Treatment of HepG2 Cells|Carcinogenesis19(12): 2187-2193|1998|10.1093/carcin/19.12.2187
97225|T||Chen,J., Y. Li, J.A. Lavigne, M.A. Trush, and J.D. Yager|Increased Mitochondrial Superoxide Production in Rat Liver Mitochondria, Rat Hepatocytes, and HepG2 Cells Following Ethinyl Estradiol Treatment|Toxicol. Sci.51(2): 224-235|1999|10.1093/toxsci/51.2.224
97227|T||Friedel,A., H. Geyer, M. Kamber, U. Laudenbach-Leschowsky, W. Schanzer, M. Thevis, G. Vollmer, O. Zierau, and P. Diel|17beta-Hydroxy-5alpha-Androst-1-en-3-One (1-Testosterone) is a Potent Androgen with Anabolic Properties|Toxicol. Lett.165(2): 149-155|2006|10.1016/j.toxlet.2006.03.001
97228|T||Lee,H.J., Y.I. Jeong, T.H. Lee, I.D. Jung, J.S. Lee, C.M. Lee, J.I. Kim, H. Joo, J.D. Lee, and Y.M. Park|Rosmarinic Acid Inhibits Indoleamine 2,3-Dioxygenase Expression in Murine Dendritic Cells|Biochem. Pharmacol.73(9): 1412-1421|2007|10.1016/j.bcp.2006.12.018
97230|T||Pawlowski,A., H.F. Haberman, and I.A. Menon|Junctional and Compound Pigmented Nevi Induced by 9,10-Dimethyl-1,2-Benzanthracene in Skin of Albino Guinea Pigs|Cancer Res.36(8): 2813-2821|1976|
97231|T||Sell,J.L., W. Guenter, and M. Sifri|Distribution of Mercury Among Components of Eggs Following the Administration of Methylmercuric Chloride to Chickens|J. Agric. Food Chem.22(2): 248-251|1974|10.1021/jf60192a031
97232|T||Stoner,G.D., M.B. Shimkin, M.C. Troxell, T.L. Thompson, and L.S. Terry|Test for Carcinogenicity of Metallic Compounds by the Pulmonary Tumor Response in Strain A Mice|Cancer Res.36:1744-1747|1976|
97233|T||Rumsey,T.S., and J. Bond|Effect of Urea, Diethylstilbestrol, and Type of Diet on the Distribution of Aldrin and Dieldrin Residues in Finished Beef Heifers|J. Agric. Food Chem.22(4): 664-667|1974|10.1021/jf60194a034
97234|T||Suda,T., N. Horiuchi, E. Ogata, I. Ezawa, N. Otaki, and M. Kimura|Prevention by Metallothionein of Cadmium-Induced Inhibition of Vitamin D Activation Reaction in Kidney|FEBS Lett.42(1): 23-|1974|10.1016/0014-5793(74)80270-X
97235|AT||McCormack,K.M., W.M. Kluwe, V.L. Sanger, and J.B. Hook|Effects of Polybrominated Biphenyls on Kidney Function and Activity of Renal Microsomal Enzymes|Environ. Health Perspect.23:153-157|1978|
97236|T||Rice,K.C., B.J. Boone, A.B. Rubin, and T.J. Rauls|Synthesis, Antimalarial Activity, and Phototoxicity of Some Benzo(h)quinoline-4-Methanols|J. Med. Chem.19(7): 887-892|1976|10.1021/jm00229a006
97237|T||Lebed'ko,O.A., and B.Y. Ryzhavskii|Effect of Administration of Lead Nitrate to Pregnant Rats on the Lungs in Their Offspring|Bull. Exp. Biol. Med.139(6): 655-657|2005|10.1007/s10517-005-0369-0
97238|T||Lee,P.C., P. Ho, B.H. Jelinek, and M. Struve|Modulation of Rat Epididymal gamma-Glutamyl Transpeptidase by Nonylphenols|Xenobiotica30(8): 771-779|2000|10.1080/00498250050119835
97239|T||Lee,M.H., I. Hong, M. Kim, B.H. Lee, J.H. Kim, K.S. Kang, H.L. Kim, B.I. Yoon, H. Chung, G. Kong, and M.O. Lee|Gene Expression Profiles of Murine Fatty Liver Induced by the Administration of Valproic Acid|Toxicol. Appl. Pharmacol.220(1): 45-59|2007|10.1016/j.taap.2006.12.016
97240|T||Lee,M., K. Lee, J. Lee, E.W. Noh, and Y. Lee|AtPDR12 Contributes to Lead Resistance in Arabidopsis|Plant Physiol.138(2): 827-836|2005|10.1104/pp.104.058107
97241|T||Wang,C.Y., and L.H. Lee|Mutagenic Activity of Carcinogenic and Noncarcinogenic Nitrofurans and of Urine of Rats Fed These Compounds|Chem.-Biol. Interact.15:69-75|1976|10.1016/0009-2797(76)90129-0
97243|T||Koller,L.D., and J.A. Brauner|Decreased B-Lymphocyte Response After Exposure to Lead and Cadmium|Toxicol. Appl. Pharmacol.42:621-624|1977|10.1016/S0041-008X(77)80050-1
97244|T||Kotsonis,F.N., and C.D. Klaassen|Toxicity and Distribution of Cadmium Administered to Rats at Sublethal Doses|Toxicol. Appl. Pharmacol.41:667-680|1977|10.1016/S0041-008X(77)80020-3
97248|T||Lacombe,R., and J. Brodeur|The Effect of Pretreatment with Dieldrin on Certain In Vivo Parameters of Enzyme Induction in Mice|Toxicol. Appl. Pharmacol.27(1): 70-85|1974|10.1016/0041-008X(74)90174-4
97249|T||Seinen,W., and M.I. Willems|Toxicity of Organotin Compounds. I. Atrophy of Thymus and Thymus-Dependent Lymphoid Tissue in Rats fed Di-n-Octyltindichloride|Toxicol. Appl. Pharmacol.35:63-75|1976|10.1016/0041-008X(76)90111-3
97250|T||Lauriault,V.V., S. Khan, and P.J. O'Brien|Hepatocyte Cytotoxicity Induced by Various Hepatotoxins Mediated by Cytochrome P-450IIE1:  Protection with Diethyldithiocarbamate Administration|Chem.-Biol. Interact.81(3): 271-289|1992|10.1016/0009-2797(92)90082-V
97251|T||Johnson,E.F., and U. Muller-Eberhard|Resolution of Two Forms of Cytochrome P-450 from Liver Microsomes of Rabbits Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Biol. Chem.252(9): 2839-2845|1977|10.1016/S0021-9258(17)40439-X
97252|T||Krause,W., and S. Homola|Alterations of the Seminiferous Epithelium and the Leydig Cells of the Rat Testis After the Application of Dichlorvos (DDVP)|Bull. Environ. Contam. Toxicol.11(5): 429-433|1974|10.1007/BF01685299
97254|T||Fiorella,P.D., J.R. Olson, and J.L. Napoli|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Induces Diverse Retinoic Acid Metabolites in Multiple Tissues of the Sprague-Dawley Rat|Toxicol. Appl. Pharmacol.134:222-228|1995|10.1006/taap.1995.1187
97255|T||Haeger-Aronsen,B., A. Schutz, and M. Abdulla|Antagonistic Effect In Vivo of Zinc on Inhibition of delta-Aminolevulinic Acid Dehydratase by Lead|Arch. Environ. Health31:215-220|1976|10.1080/00039896.1976.10667222
97256|T||Ryder,T.A., and I.D. Bowen|The Slug Foot as a Site of Uptake of Copper Molluscicide|J. Invertebr. Pathol.30:381-386|1977|10.1016/0022-2011(77)90149-5
97257|T||Hiles,R.A.|Absorption, Distribution and Excretion of Inorganic Tin in Rats|Toxicol. Appl. Pharmacol.27:366-379|1974|10.1016/0041-008X(74)90208-7
97258|T||Bowman,F.J., J.F. Borzelleca, and A.E. Munson|The Toxicity of Some Halomethanes in Mice|Toxicol. Appl. Pharmacol.44(1): 213-215|1978|10.1016/0041-008X(78)90300-9
97259|T||Sasser,L.B., and G.E. Jarboe|Intestinal Absorption and Retention of Cadmium in Neonatal Rat|Toxicol. Appl. Pharmacol.41:423-431|1977|10.1016/0041-008X(77)90043-6
97260|A||Fujita,M., K. Iwasaki, and E. Takabatake|Intracellular Distribution of Mercury in Freshwater Diatom, Synedra Cells|Environ. Res.14:1-13|1977|10.1016/0013-9351(77)90060-3
97261|A||Alberti,M., U. Kausch, S. Haindl, and M. Seifert|Gene Expression Analysis for Exposure to Estrogenic Substances|Acta Hydrochim. Hydrobiol. (Multiple Languages)33(1): 38-44|2005|10.1002/aheh.200400553
97263|T||Gambi,N., A. Pasteris, and E. Fabbri|Acetylcholinesterase Activity in the Earthworm Eisenia andrei at Different Conditions of Carbaryl Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(4): 678-685|2007|10.1016/j.cbpc.2007.03.002
97264|A||Gavel,A., and B. Marsalek|A Novel Approach for Phytotoxicity Assessment by CCD Fluorescence Imaging|Environ. Toxicol.19(4): 429-432|2004|10.1002/tox.20043
97265|T||Prough,R.A., V.W. Patrizi, and R.W. Estabrook|The Direct Spectrophotometric Observation of Benzo(a)pyrene Phenol Formation by Liver Microsomes|Cancer Res.36(12): 4439-4443|1976|
97266|A||Barber,L.B., K.E. Lee, D.L. Swackhamer, and H.L. Schoenfuss|Reproductive Responses of Male Fathead Minnows Exposed to Wastewater Treatment Plant Effluent, Effluent Treated with XAD8 Resin, and an Environmentally Relevant Mixture of Alkylphenol Compounds|Aquat. Toxicol.82(1): 36-46|2007|10.1016/j.aquatox.2007.01.003
97267|A||Gravenmier,J.J., D.W. Johnston, R.C. Santore, and W.R. Arnold|Acute Toxicity of Copper to the Threespine Stickleback, Gasterosteus aculeatus|Environ. Toxicol.20(2): 150-159|2005|10.1002/tox.20089
97268|A||Gopalakrishnan,S., H. Thilagam, and P.V. Raja|Toxicity of Heavy Metals on Embryogenesis and Larvae of the Marine Sedentary Polychaete Hydroides elegans|Arch. Environ. Contam. Toxicol.52(2): 171-178|2007|10.1007/s00244-006-0038-y
97269|T||Ghaznavi,R., and M. Kadkhodaee|Comparative Effects of Selective and Non-Selective Nitric Oxide Synthase Inhibition in Gentamicin-Induced Rat Nephrotoxicity|Arch. Toxicol.81(6): 453-457|2007|10.1007/s00204-006-0157-2
97270|A||Ferrer,L., S. Andrade, R. Asteasuain, and J. Marcovecchio|Acute Toxicities of Four Metals on the Early Life Stages of the Crab Chasmagnathus granulata from Baha Blanca Estuary, Argentina|Ecotoxicol. Environ. Saf.65(2): 209-217|2006|10.1016/j.ecoenv.2005.06.010
97271|T||Freyberger,A., E. Hartmann, H. Hildebrand, and F. Krotlinger|Differential Response of Immature Rat Uterine Tissue to Ethinylestradiol and the Red Wine Constituent Resveratrol|Arch. Toxicol.74(11): 709-715|2001|10.1007/s002040000186
97272|T||Glas,S., S. Tyroller, W. Zwickenpflug, K. Steiner, G. Kiefer, and E. Richter|Tissue Distribution and Excretion of Myosmine After I.V. Administration to Long-Evans Rats Using Quantitative Whole-Body Autoradiography|Arch. Toxicol.81(3): 151-161|2007|10.1007/s00204-006-0137-6
97273|T||Finch,J.M., T.G. Osimitz, K.L. Gabriel, T. Martin, W.J. Henderson, C.C. Capen, W.H. Butler, and B.G. Lake|A Mode of Action for Induction of Thyroid Gland Tumors by Pyrethrins in the Rat|Toxicol. Appl. Pharmacol.214(3): 253-262|2006|10.1016/j.taap.2006.01.009
97274|A||Diekmann,M., V. Hultsch, and R. Nagel|On the Relevance of Genotoxicity for Fish Populations I:  Effects of a Model Genotoxicant on Zebrafish (Danio rerio) in a Complete Life-Cycle Test|Aquat. Toxicol.68(1): 13-26|2004|10.1016/j.aquatox.2004.01.020
97275|A||Ferreira,C.S.G., B.A. Nunes, J.M.D.M. Henriques-Almeida, and L. Guilhermino|Acute Toxicity of Oxytetracycline and Florfenicol to the Microalgae Tetraselmis chuii and to the Crustacean Artemia parthenogenetica|Ecotoxicol. Environ. Saf.67(3): 452-458|2007|10.1016/j.ecoenv.2006.10.006
97276|A||Diekmann,M., P. Waldmann, A. Schnurstein, T. Grummt, T. Braunbeck, and R. Nagel|On the Relevance of Genotoxicity for Fish Populations II:  Genotoxic Effects in Zebrafish (Danio rerio) Exposed to 4-Nitroquinoline-1-Oxide in a Complete Life-Cycle Test|Aquat. Toxicol.68(1): 27-37|2004|10.1016/j.aquatox.2004.01.019
97277|A||Brion,F., C.R. Tyler, X. Palazzi, B. Laillet, J.M. Porcher, J. Garric, and P. Flammarion|Impacts of 17beta-Estradiol, Including Environmentally Relevant Concentrations, on Reproduction After Exposure During Embryo-Larval-, Juvenile- and Adult-Life Stages in Zebrafish (Danio rerio)|Aquat. Toxicol.68(3): 193-217|2004|10.1016/j.aquatox.2004.01.022
97278|A||Brucka-Jastrzebska,E., and M. Protasowicki|Elimination Dynamics of Nickel, Administered by a Single Intraperitoneal Injection, in Common Carp, Cyprinus carpio L.|Acta Ichthyol. Piscat.34(2): 181-192|2004|10.3750/AIP2004.34.2.06
97279|A||Carlsson,G., and L. Norrgren|The Impact of the Goitrogen 6-Propylthiouracil (PTU) on West-African Clawed Frog (Xenopus tropicalis) Exposed During Metamorphosis|Aquat. Toxicol.82(1): 55-62|2007|10.1016/j.aquatox.2007.01.005
97281|A||Simon,O., and J. Garnier-Laplace|Kinetic Analysis of Uranium Accumulation in the Bivalve Corbicula fluminea: Effect of pH and Direct Exposure Levels|Aquat. Toxicol.68(2): 95-108|2004|10.1016/j.aquatox.2004.03.002
97282|A||Ural,M.S., and N. Saglam|A Study on the Acute Toxicity of Pyrethroid Deltamethrin on the Fry Rainbow Trout (Oncorhynchus mykiss Walbaum, 1792)|Pestic. Biochem. Physiol.83(2/3): 124-131|2005|10.1016/j.pestbp.2005.04.004
97283|T||Takagi,H., M. Shibutani, N. Masutomi, C. Uneyama, N. Takahashi, K. Mitsumori, and M. Hirose|Lack of Maternal Dietary Exposure Effects of Bisphenol A and Nonylphenol During the Critical Period for Brain Sexual Differentiation on the Reproductive/Endocrine Systems in Later Life|Arch. Toxicol.78(2): 97-105|2004|10.1007/s00204-003-0517-0
97284|T||Scheding,S., M. Loeffler, V. Anselstetter, and H.E. Wichmann|A Mathematical Approach to Benzo(a)pyrene-Induced Hematotoxicity|Arch. Toxicol.66(8): 546-550|1992|10.1007/BF01973384
97286|T||Rombke,J., S. Jansch, T. Junker, B. Pohl, A. Scheffczyk, and H.J. Schallnass|The Effect of Tributyltin-Oxide on Earthworms, Springtails, and Plants in Artificial and Natural Soils|Arch. Environ. Contam. Toxicol.52(4): 525-534|2007|10.1007/s00244-006-0099-y
97287|T||Sakamoto,J., and K. Hashimoto|Reproductive Toxicity of Acrylamide and Related Compounds in Mice - Effects on Fertility and Sperm Morphology|Arch. Toxicol.59:201-205|1986|10.1007/BF00290538
97288|T||Reddy,G.V.P., C. Quero, and A. Guerrero|Activity of Octylthiotrifluoropropan-2-One, a Potent Esterase Inhibitor, on Growth, Development, and Intraspecific Communication in Spodoptera littoralis and Sesamia nonagrioides|J. Agric. Food Chem.50(24): 7062-7068|2002|10.1021/jf020255r
97289|A||Ural,M.S., and S.S. Koprucu|Acute Toxicity of Dichlorvos on Fingerling European Catfish, Silurus glanis|Bull. Environ. Contam. Toxicol.76(5): 871-876|2006|10.1007/s00128-006-0999-6
97290|T||Spollen,W.G., M.E. LeNoble, T.D. Samuels, N. Bernstein, and R.E. Sharp|Abscisic Acid Accumulation Maintains Maize Primary Root Elongation at Low Water Potentials by Restricting Ethylene Production|Plant Physiol.122(3): 967-976|2000|10.1104/pp.122.3.967
97291|T||Pagano,E.A., R.L. Benech-Arnold, M. Wawrzkiewicz, and H.S. Steinbach|Alpha-Amylase Activity in Developing Sorghum Caryopses from Sprouting Resistant and Susceptible Varieties. The Role of ABA and GAs on Its Regulation|Ann. Bot.79(1): 13-17|1997|10.1006/anbo.1996.0296
97292|A||Oka,T., N. Mitsui, M. Hinago, M. Miyahara, T. Fujii, O. Tooi, N. Santo, H. Urushitani, T. Iguchi, Y. Hanaoka, and H. Mi|All ZZ Male Xenopus laevis Provides a Clear Sex-Reversal Test for Feminizing Endocrine Disruptors|Ecotoxicol. Environ. Saf.63(2): 236-243|2006|10.1016/j.ecoenv.2005.07.018
97293|A||Norman,A., H. Borjeson, F. David, B. Tienpont, and L. Norrgren|Studies of Uptake, Elimination, and Late Effects in Atlantic Salmon (Salmo salar) Dietary Exposed to Di-2-Ethylhexyl Phthalate (DEHP) During Early Life|Arch. Environ. Contam. Toxicol.52(2): 235-242|2007|10.1007/s00244-005-5089-y
97294|A||Pawlowski,S., A. Sauer, J.A. Shears, C.R. Tyler, and T. Braunbeck|Androgenic and Estrogenic Effects of the Synthetic Androgen 17alpha-Methyltestosterone on Sexual Development and Reproductive Performance in the Fathead Minnow (Pimephales promelas) Determined Using the Gonadal Recrudes|Aquat. Toxicol.68(3): 277-291|2004|10.1016/j.aquatox.2004.03.018
97295|T||Tojo,T., K. Tsuda, T.S. Wada, and K.I. Yamazaki|A Simple and Extremely Sensitive System for Detecting Estrogenic Activity Using Transgenic Arabidopsis thaliana|Ecotoxicol. Environ. Saf.64(2): 106-114|2006|10.1016/j.ecoenv.2005.03.014
97296|T||Tanaka,T., H. Makita, K. Kawabata, H. Mori, and K. El-Bayoumy|1,4-Phenylenebis(Methylene)Selenocyanate Exerts Exceptional Chemopreventive Activity in Rat Tongue Carcinogenesis|Cancer Res.57(17): 3644-3648|1997|
97297|A||Banko,L., M. Ordog, and L. Erdei|The Role of Rhizome System in the Distribution of Cadmium Load Among Ramets of Phragmites australis|Acta Biol. Szeged.46(3-4): 81-82|2002|
97298|T||Nishiyama,S., M. Okudaira, and N. Saito|Mechanisms of Rolipram-Induced Increase in the Incidence of Mammary Adenocarcinoma:  Histopathological Study of a 104-Week Oral Carcinogenicity Study in Female Sprague-Dawley Rats|Arch. Toxicol.80(2): 88-97|2006|10.1007/s00204-005-0016-6
97299|T||Papp,A., L. Nagymajtenyi, and I. Desi|A Study on Electrophysiological Effects of Subchronic Cadmium Treatment in Rats|Environ. Toxicol. Pharmacol.13(3): 181-186|2003|10.1016/S1382-6689(02)00160-6
97301|T||Shin,J.H., H.J. Moon, I.H. Kang, T.S. Kim, I.Y. Kim, I.S. Park, H.S. Kim, E.B. Jeung, and S.Y. Han|"Repeated 28-Day Oral Toxicity Study of Ketoconazole in Rats Based on the Draft Protocol for the ""Enhanced OECD Test Guideline No. 407"" to Detect Endocrine Effects"|Arch. Toxicol.80(12): 797-803|2006|10.1007/s00204-006-0116-y
97302|T||Schmidt,S., G.H. Degen, J. Seibel, T. Hertrampf, G. Vollmer, and P. Diel|Hormonal Activity of Combinations of Genistein, Bisphenol A and 17beta-Estradiol in the Female Wistar Rat|Arch. Toxicol.80(12): 839-845|2006|10.1007/s00204-006-0102-4
97303|T||Sahoo,A., and G.B.N. Chainy|Acute Hexachlorocyclohexane-Induced Oxidative Stress in Rat Cerebral Hemisphere|Neurochem. Res.23(8): 1079-1084|1998|10.1023/A:1020760119541
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97305|T||Hundley,S.G., and R.I. Freudenthal|A Comparison of Benzo(a)pyrene Metabolism by Liver and Lung Microsomal Enzymes from 3-Methylcholanthrene-Treated Rhesus Monkeys and Rats|Cancer Res.37:3120-3125|1977|
97306|T||Petrovich,Y.A., R.P. Podorozhnaya, and S.M. Kichenko|A New Method for Evaluation of Radioactive Label Transport Intensity in the Predominant Direction Between Blood and Liver|Bull. Exp. Biol. Med.140(1): 102-105|2005|10.1007/s10517-005-0423-y
97307|T||Pezzarossa,B., G. Petruzzelli, F. Petacco, F. Malorgio, and T. Ferri|Absorption of Selenium by Lactuca sativa as Affected by Carboxymethylcellulose|Chemosphere67(2): 322-329|2007|10.1016/j.chemosphere.2006.09.073
97308|T||Rao,K.V.N., and S.D. Vesselinovitch|Age- and Sex-Associated Diethylnitrosamine Dealkylation Activity of the Mouse Liver and Hepatocarcinogenesis|Cancer Res.33:1625-1627|1973|
97309|T||Harris,S.J., H.C. Cecil, and J. Bitman|Effect of Several Dietary Levels of Technical Methoxychlor on Reproduction in Rats|J. Agric. Food Chem.22(6): 969-973|1974|10.1021/jf60196a018
97310|T||Buchi,R.|Induced Dominant Lethal Mutations and Cytotoxic Effects in Germ Cells of Drosophila melanogaster with Trenimon, PDMT and Sodium Monofluorophosphate|Genetics87:67-81|1977|10.1093/genetics/87.1.67
97311|T||Lau,P.P., and H.W. Strobel|Multiple Forms of Cytochrome P-450 in Liver Microsomes From beta-Naphthoflavone-Pretreated Rats.  Separation, Purification, and Characterization of Five Forms|J. Biol. Chem.257(9): 5257-5262|1982|10.1016/S0021-9258(18)34664-7
97312|T||Kerkvliet,N.I., and D.J. Kimeldorf|Inhibition of Tumor Growth in Rats by Feeding a Polychlorinated Biphenyl, Aroclor 1254|Bull. Environ. Contam. Toxicol.18(2): 243-246|1977|10.1007/BF01686073
97313|T||Thigpen,J.E., R.E. Faith, E.E. McConnell, and J.A. Moore|Increased Susceptibility to Bacteria Infection as a Sequela of Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Infect. Immun.12(6): 1319-1324|1975|10.1128/iai.12.6.1319-1324.1975
97314|T||Shirota,M., T. Kaneko, M. Okuyama, Y. Sakurada, K. Shirota, and Y. Matsuki|Internal Dose-Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in Gonadotropin-Primed Weanling Rat Model|Arch. Toxicol.81(4): 261-269|2007|10.1007/s00204-006-0146-5
97315|T||Bustnes,J.O., K.E. Erikstad, S.A. Hanssen, T. Tveraa, I. Folstad, and J.U. Skaare|Anti-Parasite Treatment Removes Negative Effects of Environmental Pollutants on Reproduction in an Arctic Seabird|Proc. R. Soc. Lond. Ser. B Biol. Sci.273(1605): 3117-3122|2006|
97316|T||Torronen,R.|Isolation and Characterization of Rat Liver Cytosolic Aldehyde Dehydrogenases Induced by Phenanthrene or Benzo[a]Pyrene|Int. J. Biochem.17(1): 101-106|1985|10.1016/0020-711X(85)90092-8
97317|T||Negishi,T., H. Nakano, A. Kitamura, C. Itome, T. Shiotani, and H. Hayatsu|Inhibitory Activity of Chlorophyllin on the Genotoxicity of Carcinogens in Drosophila|Cancer Lett.83(1-2): 157-164|1994|10.1016/0304-3835(94)90313-1
97318|T||Halliday,G.M., and H.K. Muller|Sensitization Through Carcinogen-Induced Langerhans Cell-Deficient Skin Activates Specific Long-Lived Suppressor Cells for both Cellular and Humoral Immunity|Cell. Immunol.109(1): 206-221|1987|10.1016/0008-8749(87)90305-4
97319|T||Baumgartner,D., L. Hoesch, and D.M. Rast|The Biogenesis of beta -N-(Gamma -Glutamyl)-4-Hydroxymethylphenylhydrazine (Agaritine) in Agaricus bisporus|Phytochemistry49(2): 465-474|1998|10.1016/S0031-9422(98)00250-7
97320|T||McLeod,K.W., M.R. Reed, and L.D. Wike|Elevation, Competition Control, and Species Affect Bottomland Forest Restoration|Wetlands20(1): 162-168|2000|10.1672/0277-5212(2000)020[0162:ECCASA]2.0.CO;2
97321|T||Schoenholtz,S.H., J.A. Burger, and J.L. Torbert|Natural Mycorrhizal Colonization of Pines on Reclaimed Surface Mines in Virginia|J. Environ. Qual.16(2): 143-146|1987|10.2134/jeq1987.00472425001600020009x
97322|T||Rodriguez,J.B., L. Zhong, R. Docampo, Z. Wimmer, and E.G. Gros|Growth Inhibitory Effect of Juvenile Hormone Analogues on Epimastigotes of Trypanosoma cruzi|Bioorg. Med. Chem. Lett.8(22): 3257-3260|1998|10.1016/S0960-894X(98)00590-3
97324|T||EPA/OTS|Support:  Letter from Rohm & Haas Co. to U.S.EPA Regarding Corrections to Acute Parenteral LD50 Range-Finding Study in Rats.  (Report No. 79R-70)|EPA/OTS Doc.#89-930000219:5 p.|1992|
97325|T||Gillette,J.S., and J.R. Bloomquist|Differential Up-Regulation of Striatal Dopamine Transporter and alpha-Synuclein by the Pyrethroid Insecticide Permethrin|Toxicol. Appl. Pharmacol.192:287-293|2003|10.1016/S0041-008X(03)00326-0
97326|T||Pittman,J.T., C.A. Dodd, and B.G. Klein|Immunohistochemical Changes in the Mouse Striatum Induced by the Pyrethroid Insecticide Permethrin|Int. J. Toxicol.22:359-370|2003|10.1177/109158180302200504
97327|T||McPherson,R.M., W.C. Johnson, B.G.,Jr. Mullinix, W.A. Mills III, and F.S. Peebles|Influence of Herbicide Tolerant Soybean Production Systems on Insect Pest Populations and Pest-Induced Crop Damage|J. Econ. Entomol.96(3): 690-698|2003|10.1093/jee/96.3.690
97329|T||Burrows,M.E.L., C.M. Boerboom, J.M. Gaska, and C.R. Grau|The Relationship Between Aphis glycines and Soybean mosaic virus Incidence in Different Pest Management Systems|Plant Dis.89(9): 926-934|2005|10.1094/PD-89-0926
97330|T||Jiang,W., K.A. Garrett, D.E. Peterson, T.L. Harvey, R.L. Bowden, and L. Fang|The Window of Risk for Emigration of Wheat Streak Mosaic Virus Varies with Host Eradication Method|Plant Dis.89(8): 853-858|2005|10.1094/PD-89-0853
97331|T||Bloomquist,J.R., and B.G. Klein|Insecticide Exposure in Parkinsonism|Annu. Rep., 1 Jan. 2002 - 31 Dec. 2003, Virginia Polytechnic Inst. and State University, Blacksburg, VA:61 p.|2003|
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97333|A||Tanguy,A., I. Boutet, J. LaRoche, and D. Moraga|Molecular Identification and Expression Study of Differentially Regulated Genes in the Pacific Oyster Crassostrea gigas in Response to Pesticide Exposure|FEBS J.272(2): 390-403|2005|10.1111/j.1742-4658.2004.04479.x
97334|T||Fenn,M.E., and M.D. Coffey|Further Evidence for the Direct Mode of Action of Fosetyl-Al and Phosphorous Acid|Phytopathology75(9): 1064-1068|1985|10.1094/Phyto-75-1064
97336|T||Arora,A., D. Sud, J.R. Sharma, and C.L. Arora|Transition Metal Dialkyldithiocarbamates and Their Antifungal Activity|Asian J. Chem.15(2): 715-719|2003|
97337|A||DellaGreca,M., M.R. Iesce, F. Cermola, M. Rubino, and M. Isidori|Phototransformation of Carboxin in Water. Toxicity of the Pesticide and Its Sulfoxide to Aquatic Organisms|J. Agric. Food Chem.52(20): 6228-6232|2004|10.1021/jf049737o
97338|T||Fischer,A.J., D.P. Cheetham, F. Vidotto, and R. De Prado|Enhanced Effect of Thiobencarb on Bispyribacsodium Control of Echinochloa phyllopogon (Stapf) Koss. in California Rice (Oryza sativa L.)|Weed Biol. Manag.4(4): 206-212|2004|10.1111/j.1445-6664.2004.00139.x
97339|A||DeLorenzo,M.E., L. Serrano, K.W. Chung, J. Hoguet, and P.B. Key|Effects of the Insecticide Permethrin on Three Life Stages of the Grass Shrimp, Palaemonetes pugio|Ecotoxicol. Environ. Saf.64(2): 122-127|2006|10.1016/j.ecoenv.2006.02.001
97340|T||Desai,V.G., D. Casciano, R.J. Feuers, and A. Aidoo|Activity Profile of Glutathione-Dependent Enzymes and Respiratory Chain Complexes in Rats Supplemented With Antioxidants and Treated with Carcinogens|Arch. Biochem. Biophys.394(2): 255-264|2001|10.1006/abbi.2001.2548
97341|T||Diao,X., J. Jensen, and A.D. Hansen|Toxicity of the Anthelmintic Abamectin to Four Species of Soil Invertebrates|Environ. Pollut.148(2): 514-519|2007|10.1016/j.envpol.2006.12.002
97342|T||De la Rosa,G., J.R. Peralta-Videa, G. Cruz-Jimenez, M. Duarte-Gardea, A. Martinez-Martinez, I. Cano-Aguilera, N.C. Shar|Role of Ethylenediaminetetraacetic Acid on Lead Uptake and Translocation by Tumbleweed (Salsola kali L.)|Environ. Toxicol. Chem.26(5): 1033-1039|2007|10.1897/06-239R.1
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97344|T||Neubert,D., and S. Tapken|Transfer of Benzo(a)pyrene into Mouse Embryos and Fetuses|Arch. Toxicol.62(2-3): 236-239|1988|10.1007/BF00570149
97345|T||Molliere,M., H. Foth, R. Kahl, and G.F. Kahl|Comparison of Benzo(a)pyrene Metabolism in Isolated Perfused Rat Lung and Liver|Arch. Toxicol.60(4): 270-277|1987|10.1007/BF01234665
97346|T||Mellert,W., K. Deckardt, W. Kaufmann, and B. Van Ravenzwaay|Ethylbenzene:  4- and 13-Week Rat Oral Toxicity|Arch. Toxicol.81(5): 361-370|2007|10.1007/s00204-006-0154-5
97347|T||Magnucka,E.G., Y. Suzuki, S.J. Pietr, A. Kozubek, and R. Zarnowski|Action of Benzimidazole Fungicides on Resorcinolic Lipid Metabolism in Rye Seedlings Depends on Thermal and Light Growth Conditions|Pestic. Biochem. Physiol.88(2): 219-225|2007|10.1016/j.pestbp.2006.11.008
97348|T||Liu,P., X. Song, W. Yuan, W. Wen, X. Wu, J. Li, and X. Chen|Effects of Cypermethrin and Methyl Parathion Mixtures on Hormone Levels and Immune Functions in Wistar Rats|Arch. Toxicol.80(7): 449-457|2006|10.1007/s00204-006-0071-7
97349|T||Linduska,J.J., M. Ross, S. Stevenson, and N. McShane|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1993|Arthropod Manag. Tests19:91-|1994|10.1093/amt/19.1.91
97350|A||Li,K., L.Q. Chen, E.C. Li, and Z.K. Zhou|Acute Toxicity of the Pesticides Chlorpyrifos and Atrazine to the Chinese Mitten-Handed Crab, Eriocheir sinensis|Bull. Environ. Contam. Toxicol.77(6): 918-924|2006|10.1007/s00128-006-1231-4
97352|T||Le Guen-Le Saos,F., A. Hourmant, F. Esnault, and J.E. Chauvin|In Vitro Bulb Development in Shallot (Allium cepa L. Aggregatum Group):  Effects of Anti-Gibberellins, Sucrose and Light|Ann. Bot.89(4): 419-425|2002|10.1093/aob/mcf063
97353|T||Kinoshita,Y., H. Matsumura, H. Igisu, and A. Yokota|Brain of Rats Intoxicated with Acrylamide: Observation with 4.7 Tesla Magnetic Resonance|Arch. Toxicol.74:487-489|2000|10.1007/s002040000143
97354|T||Khan,M.F., S. Kannan, and J. Wang|Activation of Transcription Factor AP-1 and Mitogen-Activated Protein Kinases in Aniline-Induced Splenic Toxicity|Toxicol. Appl. Pharmacol.210(1-2): 86-93|2006|10.1016/j.taap.2005.08.006
97355|T||Klein,J.D., I. Mufradi, S. Cohen, Y. Hebbe, S. Asido, B. Dolgin, and D.J. Bonfil|Establishment of Wheat Seedlings After Early Sowing and Germination in an Arid Mediterranean Environment|Agron. J.94(3): 585-593|2002|10.2134/agronj2002.5850
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97357|T||Forster,W.A., J.A. Zabkiewicz, and Z. Liu|Cuticular Uptake of Xenobiotics into Living Plants. Part 2: Influence of the Xenobiotic Dose on the Uptake of Bentazone,Epoxiconazole and Pyraclostrobin, Applied in the Presence of Various Surfactants, into Chenopodium |Pest Manag. Sci.62:664-672|2006|10.1002/ps.1227
97358|T||Kim,J.C., J.Y. Shin, Y.S. Yang, D.H. Shin, C.J. Moon, S.H. Kim, S.C. Park, Y.B. Kim, H.C. Kim, and M.K. Chung|Evaluation of Developmental Toxicity of Amitraz in Sprague-Dawley Rats|Arch. Environ. Contam. Toxicol.52(1): 137-144|2007|10.1007/s00244-006-0021-7
97359|A||Jencic,V., M. Cerne, N.K. Erzen, S. Kobal, and V. Cerkvenik-Flajs|Abamectin Effects on Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicology15(3): 249-257|2006|10.1007/s10646-006-0056-6
97360|T||Johnson,J.W., and J.C. Wise|Blueberry, Early Season Control of Cranberry Fruitworm and Cherry Fruitworm, 1993|Arthropod Manag. Tests19:41-|1994|
97361|T||Horsburgh,R.L., J.R. Warren, and S.W. Kilmer|Apple, Insecticide Evaluations, 1993|Arthropod Manag. Tests19:11-14|1994|10.1093/amt/19.1.11
97362|T||Hower,A.A., and S. Alexander|Potato Leafhopper Control, 1993|Arthropod Manag. Tests19:168-169|1994|10.1093/amt/19.1.168a
97363|T||Horsburgh,R.L., and J.R. Warren|Apple, Insecticide Dip Test (TABM vs. Insecticides), 1993|Arthropod Manag. Tests19:369-|1994|10.1093/amt/19.1.369
97365|T||Green,T., C. Swain, J.P. Van Miller, and R.L. Joiner|Absorption, Bioavailability, and Metabolism of Para-nonylphenol in the Rat|Regul. Toxicol. Pharmacol.38(1): 43-51|2003|10.1016/S0273-2300(03)00048-5
97366|T||Harikumar,K.B., A.M. Jesil, M.C. Sabu, and R. Kuttan|A Preliminary Assessment of the Acute and Subchronic Toxicity Profile of Phase2:  An alpha-Amylase Inhibitor|Int. J. Toxicol.24(2): 95-102|2005|10.1080/10915810590936364
97367|A||Isidori,M., A. Nardelli, A. Parrella, L. Pascarella, and L. Previtera|A Multispecies Study to Assess the Toxic and Genotoxic Effect of Pharmaceuticals:  Furosemide and Its Photoproduct|Chemosphere63(5): 785-793|2006|10.1016/j.chemosphere.2005.07.078
97368|T||Josephine,A., C.K. Veena, G. Amudha, S.P. Preetha, and P. Varalakshmi|Protective Role of Sulphated Polysaccharides in Abating the Hyperlipidemic Nephropathy Provoked by Cyclosporine A|Arch. Toxicol.81(5): 371-379|2007|10.1007/s00204-006-0151-8
97369|T||Kamata,R., S. Takahashi, A. Shimizu, and F. Shiraishi|Avian Transgenerational Reproductive Toxicity Test with In Ovo Exposure|Arch. Toxicol.80(12): 846-856|2006|10.1007/s00204-006-0118-9
97370|T||Jezek,D., L. Simunic-Banek, and R. Pezerovic-Panijan|Effects of high Doses of Testosterone Propionate and Testosterone Enanthate on Rat Seminiferous Tubules - a Stereological and Cytological Study|Arch. Toxicol.67:131-140|1993|10.1007/BF01973684
97371|A||Lam,I.K.S., and W.X. Wang|Accumulation and Elimination of Aqueous and Dietary Silver in Daphnia magna|Chemosphere64(1): 26-35|2006|10.1016/j.chemosphere.2005.12.023
97372|T||Kamata,R., S. Takahashi, A. Shimizu, M. Morita, and F. Shiraishi|In Ovo Exposure Quail Assay for Risk Assessment of Endocrine Disrupting Chemicals|Arch. Toxicol.80(12): 857-867|2006|10.1007/s00204-006-0113-1
97373|T||Kim,D.W., K.Y. Kim, B.S. Choi, P. Youn, D.Y. Ryu, C.D. Klaassen, and J.D. Park|Regulation of Metal Transporters by Dietary Iron, and the Relationship Between Body Iron Levels and Cadmium Uptake|Arch. Toxicol.81(5): 327-334|2007|10.1007/s00204-006-0160-7
97374|A||Kashiwada,S., K. Goka, H. Shiraishi, K. Arizono, K. Ozato, Y. Wakamatsu, and D.E. Hinton|Age-Dependent In Situ Hepatic and Gill CYP1A Activity in the See-Through Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(1): 96-102|2007|10.1016/j.cbpc.2006.07.005
97375|T||Forster,W.A., J.A. Zabkiewicz, and M. Riederer|Mechanisms of Cuticular Uptake of Xenobiotics into Living Plants: 1.  Influence of Xenobiotic Dose on the Uptake of Three Model Compounds Applied in the Absence and Presence of Surfactants into Chenopodium album, Hedera|Pest Manag. Sci.60(11): 1105-1113|2004|10.1002/ps.918
97376|A||Kuiper,R.V., E.J. Van den Brandhof, P.E.G. Leonards, L.T.M. van der Ven, P.W. Wester, and J.G. Vos|Toxicity of Tetrabromobisphenol A (TBBPA) in Zebrafish (Danio rerio) in a Partial Life-Cycle Test|Arch. Toxicol.81(1): 1-9|2007|10.1007/s00204-006-0117-x
97377|A||Kolts,J.M., C.J. Boese, and J.S. Meyer|Acute Toxicity of Copper and Silver to Ceriodaphnia dubia in the Presence of Food|Environ. Toxicol. Chem.25(7): 1831-1835|2006|10.1897/05-501R.1
97378|T||Kuroiwa,Y., T. Umemura, A. Nishikawa, K. Kanki, Y. Ishii, Y. Kodama, K.I. Masumura, T. Nohmi, and M. Hirose|Lack of In Vivo Mutagenicity and Oxidative DNA Damage by Flumequine in the Livers of gpt delta Mice|Arch. Toxicol.81(1): 63-69|2007|10.1007/s00204-006-0126-9
97379|A||Morris,J.M., E. Snyder-Conn, J.S. Foott, R.A. Holt, M.J. Suedkamp, H.M. Lease, S.J. Clearwater, and J.S. Meyer|Survival of Lost River Suckers (Deltistes luxatus) Challenged with Flavobacterium columnare During Exposure to Sublethal Ammonia Concentrations at pH 9.5|Arch. Environ. Contam. Toxicol.50(2): 256-263|2006|10.1007/s00244-004-0194-x
97380|A||Mochida,K., K. Ito, H. Harino, A. Kakuno, and K. Fujii|Acute Toxicity of Pyrithione Antifouling Biocides and Joint Toxicity with Copper to Red Sea Bream (Pagrus major) and Toy Shrimp (Heptacarpus futilirostris)|Environ. Toxicol. Chem.25(11): 3058-3064|2006|10.1897/05-688R.1
97381|A||Michel,K., C. Brinkmann, S. Hahn, W. Dott, and A. Eisentraeger|Acute Toxicity Investigations of Ester-Based Lubricants by Using Biotests with Algae and Bacteria|Environ. Toxicol.19(4): 445-448|2004|10.1002/tox.20032
97382|T||Meng,X.M., D.Y. Ruan, L.D. Kang, D.M. Zhu, J.Q. She, L. Luo, Y. Zheng, and X.H. Li|Age-Related Morphological Impairments in the Rat Hippocampus Following Developmental Lead Exposure:  an MRI, LM and EM Study|Environ. Toxicol. Pharmacol.13(3): 187-197|2003|10.1016/S1382-6689(02)00159-X
97383|A||De Nicola,E., S. Meric, M. Gallo, M. Iaccarino, C. Della Rocca, G. Lofrano, T. Russo, and G. Pagano|Vegetable and Synthetic Tannins Induce Hormesis/Toxicity in Sea Urchin Early Development and in Algal Growth|Environ. Pollut.146(1): 46-54|2007|10.1016/j.envpol.2006.06.018
97384|A||Devlin,E.W.|Acute Toxicity, Uptake and Histopathology of Aqueous Methyl Mercury to Fathead Minnow Embryos|Ecotoxicology15(1): 97-110|2006|10.1007/s10646-005-0051-3
97385|T||Dix,K.J., K. Ghanbari, and B.M. Hedtke-Weber|Disposition of [14C]N,N-Dimethyl-p-Toluidine in F344 Rats and B6C3F1 Mice|J. Toxicol. Environ. Health Part A70(10): 789-798|2007|10.1080/15287390701206291
97386|A||Ding,B., G. Shi, Y. Xu, J. Hu, and Q. Xu|Physiological Responses of Alternanthera philoxeroides (Mart.) Griseb Leaves to Cadmium Stress|Environ. Pollut.147(3): 800-803|2007|10.1016/j.envpol.2006.10.016
97388|T||Dorman,D.C., M.F. Struve, D. Vitarella, F.L. Byerly, J. Goetz, and R. Miller|Neurotoxicity of Manganese Chloride in Neonatal and Adult Cd Rats Following Subchronic (21-Day) High-Dose Oral Exposure|J. Appl. Toxicol.20(3): 179-187|2000|10.1002/(SICI)1099-1263(200005/06)20:3<179::AID-JAT631>3.0.CO;2-C
97389|T||Utmazian,M.N.D.S., G. Wieshammer, R. Vega, and W.W. Wenzel|Hydroponic Screening for Metal Resistance and Accumulation of Cadmium and Zinc in Twenty Clones of Willows and Poplars|Environ. Pollut.148(1): 155-165|2007|10.1016/j.envpol.2006.10.045
97390|T||Junior,A.M.D., M.A. Oliva, C.A. Martinez, and J. Cambraia|Effects of Fluoride Emissions on Two Tropical Grasses:  Chloris gayana and Panicum maximum cv. Coloniao|Ecotoxicol. Environ. Saf.67(2): 247-253|2007|10.1016/j.ecoenv.2006.06.002
97391|T||Ayongwa,G.C., T.J. Stomph, A.M. Emechebe, and T.W. Kuyper|Root Nitrogen Concentration of Sorghum Above 2% Produces Least Striga hermonthica Seed Stimulation|Ann. Appl. Biol.149(3): 255-262|2006|10.1111/j.1744-7348.2006.00094.x
97392|T||Archambault,D.J., E. Marentes, W. Buckley, J. Clarke, and G.J. Taylor|A Rapid, Seedling-Based Bioassay for Identifying Low Cadmium-Accumulating Individuals of Durum Wheat (Triticum turgidum L.)|Euphytica 117(2): 175-182|2001|10.1023/A:1004037901460
97393|A||Davies,T.D., and K.J. Hall|Importance of Calcium in Modifying the Acute Toxicity of Sodium Sulphate to Hyalella azteca and Daphnia magna|Environ. Toxicol. Chem.26(6): 1243-1247|2007|10.1897/06-510R.1
97394|T||Dani,V., and D.K. Dhawan|Radioprotective Role of Zinc Following Single Dose Radioiodine (131I) Exposure to Red Blood Cells of Rats|Indian J. Med. Res.122(4): 338-342|2005|
97395|T||Davey,J.C., J.E. Bodwell, J.A. Gosse, and J.W. Hamilton|Arsenic as an Endocrine Disruptor:  Effects of Arsenic on Estrogen Receptor-Mediated Gene Expression In Vivo and in Cell Culture|Toxicol. Sci.98(1): 75-86|2007|10.1093/toxsci/kfm013
97396|T||Danadevi,K., R. Rozati, B.S. Banu, and P. Grover|In Vivo Genotoxic Effect of Nickel Chloride in Mice Leukocytes Using Comet Assay|Food Chem. Toxicol.42(5): 751-757|2004|10.1016/j.fct.2003.12.013
97397|T||Demuynck,S., F. Grumiaux, V. Mottier, D. Schikorski, S. Lemiere, and A. Lepretre|Cd/Zn Exposure Interactions on Metallothionein Response in Eisenia fetida (Annelida, Oligochaeta)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(4): 658-668|2007|10.1016/j.cbpc.2007.03.001
97398|T||Arts,C.J.M., and H. Van den Berg|Multi-Residue Screening of Bovine Urine on Xenobiotic Oestrogens with an Oestrogen Radioreceptor Assay|J. Chromatogr. B Anal. Technol. Biomed. Life Sci.489(1): 225-234|1989|
97399|AT||Doherty,M.J., and M.A.Q. Khan|Hepatic Microsomal Mixed-Function Oxidase in the Frog, Xenopus laevis|Comp. Biochem. Physiol. C Comp. Pharmacol.68(2): 221-228|1981|10.1016/0306-4492(81)90019-8
97400|T||Nakazawa,T., T. Shimo, N. Chikamatsu, T. Igarashi, O. Nagata, and M. Yamamoto|Study on the Mechanism of Photosensitive Dermatitis Caused by Ketoprofen in the Guinea Pig|Arch. Toxicol.80(7): 442-448|2006|10.1007/s00204-006-0063-7
97401|A||Mouchet,F., M. Baudrimont, P. Gonzalez, Y. Cuenot, J.P. Bourdineaud, A. Boudou, and L. Gauthier|Genotoxic and Stress Inductive Potential of Cadmium in Xenopus laevis Larvae|Aquat. Toxicol.78(2): 157-166|2006|10.1016/j.aquatox.2006.02.029
97402|T||Moto,M., T. Umemura, M. Okamura, M. Muguruma, T. Ito, M. Jin, Y. Kashida, and K. Mitsumori|Possible Involvement of Oxidative Stress in Dicyclanil-Induced Hepatocarcinogenesis in Mice|Arch. Toxicol.80(10): 694-702|2006|10.1007/s00204-006-0086-0
97403|A||Muller,J.K., K.G. Johnson, M.S. Sepulveda, C.J. Borgert, and T.S. Gross|Accumulation of Dietary DDE and Dieldrin by Largemouth Bass, Micropterus salmoides floridanus|Bull. Environ. Contam. Toxicol.73(6): 1078-1085|2004|10.1007/s00128-004-0535-5
97404|T||Nampoothiri,L.P., A. Agarwal, and S. Gupta|Effect of Co-Exposure to Lead and Cadmium on Antioxidant Status in Rat Ovarian Granulose Cells|Arch. Toxicol.81(3): 145-150|2007|10.1007/s00204-006-0133-x
97405|T||Myhrer,T., N.H.T. Nugyen, S. Enger, and P. Aas|Anticonvulsant Effects of GABAA Modulators Microinfused into Area Tempestas or Substantia Nigra in Rats Exposed to Soman|Arch. Toxicol.80(8): 502-507|2006|10.1007/s00204-006-0070-8
97406|A||Nichols,J.W., S. Brown, C.M. Wood, P.J. Walsh, and R.C. Playle|Influence of Salinity and Organic Matter on Silver Accumulation in Gulf Toadfish (Opsanus beta)|Aquat. Toxicol.78(3): 253-261|2006|10.1016/j.aquatox.2006.03.008
97407|A||Muyssen,B.T.A., K.A.C. De Schamphelaere, and C.R. Janssen|Mechanisms of Chronic Waterborne Zn Toxicity in Daphnia magna|Aquat. Toxicol.77(4): 393-401|2006|10.1016/j.aquatox.2006.01.006
97408|T||Moto,M., T. Mori, M. Okamura, Y. Kahida, and K. Mitsumori|Absence of Liver Tumor-Initiating Activity of Kojic Acid in Mice|Arch. Toxicol.80(5): 299-304|2006|10.1007/s00204-005-0034-4
97409|T||Palut,D., J. Ludwicki, and J. Szlezak-Kopec|The Influence of Fenarimol on DNA Synthesis and Mitotic Activity in Rat Liver|J. Appl. Toxicol.12(4): 275-279|1992|10.1002/jat.2550120411
97410|T||Flodstrom,S., H. Hemming, L. Warngard, and U.G. Ahlborg|Promotion of Altered Hepatic Foci Development in Rat Liver, Cytochrome P450 Enzyme Induction and Inhibition of Cell - Cell Communication by DDT and Some Structurally Related Organohalogen Pesticides|Carcinogenesis11(8): 1413-1417|1990|10.1093/carcin/11.8.1413
97411|T||Paolini,M., L. Pozzetti, R. Mesirca, A. Sapone, and G. Cantelli-Forti|Testosterone Hydroxylase in Evaluating Induction and Suppression of Murine CYP Isoenzymes by Fenarimol|Arch. Toxicol.70(7): 451-456|1996|10.1007/s002040050298
97412|A||Awad,T.I., and M.S. Mulla|Morphogenetic and Histopathological Effects of the Insect Growth Regulator Cyromazine in Larvae of Culex quinquefasciatus (Diptera: Culicidae)|J. Med. Entomol.21(4): 427-431|1984|10.1093/jmedent/21.4.427
97413|T||Radcliffe,E.B., C.D. DiFonzo, C.A. Longtine, K.L. Flanders, and R. Hansen|Control of Colorado Potato Beetle, 1992|Insectic. Acaric. Tests18:150-152|1993|10.1093/iat/18.1.150
97414|T||Cornwell,R.L., and R.M. Jones|Immunity to Dictyocaulus viviparus Infection in the Guinea Pig Produced by Normal and Triethylene Melamine-Attenuated Larvae|J. Comp. Pathol.81(1): 97-103|1971|10.1016/0021-9975(71)90060-0
97415|A||Cornwell,R.L.|Attenuation of Infective Nippostrongylus brasiliensis Larvae with Triethylene Melamine and the Production of Immunity in Rats|J. Comp. Pathol.81(1): 105-110|1971|10.1016/0021-9975(71)90061-2
97416|T||Hart,R.J., W.A. Cavey, K.J. Ryan, M.B. Strong, B. Moore, P.L. Thomas, J.C. Boray, and M. Von Orelli|CGA-72662 - a New Sheep Blowfly Insecticide|Aust. Vet. J.59(4): 104-109|1982|10.1111/j.1751-0813.1982.tb02741.x
97417|T||Todorova,S.I., D. Coderre, R.M. Duchesne, and J.C. Cote|Compatibility of Beauveria bassiana with Selected Fungicides and Herbicides|Environ. Entomol.27(2): 427-433|1998|10.1093/ee/27.2.427
97418|T||Shah,S.J.A., S. Hussain, A. Ali, and I. Khattak|Efficacy of Different Seed Dressing Fungicides on Recovery of Seedborne Mycoflora of Soybean|Sarhad J. Agric.8(6): 683-687|1992|
97420|T||Ratnayake,W., C. Strachan, and C. Auerbach|Genetical Analysis of the Storage Effect of Triethylene Melamine (TEM) on Chromosome Breakage in Drosophila|Mutat. Res.4(3): 380-381|1967|10.1016/0027-5107(67)90035-8
97421|T||Brink,N.G.|Complete and Mosaic Visible Mutations Produced by Ethyl Methanesulphonate in Drosophila melanogaster|Mutat. Res.10(3): 227-236|1970|10.1016/0027-5107(70)90119-3
97422|T||Pittaway,P.A.|Opportunistic Association Between Pythium Species and Weed Residues Causing Seedling Emergence Failure in Cereals|Aust. J. Agric. Res.46(3): 655-662|1995|10.1071/AR9950655
97423|T||Buxton,J.H., and O.C. MacDonald|Chemical Control of the South American Leaf Miner, Liriomyza huidobrensis|Br. Crop Prot. Conf. Pests Dis.2:731-736|1994|
97424|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Colorado Potato Beetle, 1993|Insectic. Acaric. Tests19:122-123|1994|
97425|T||Speese III,J.|Foliar Sprays for Insect Control in Tomatoes, 1993|Arthropod Manag. Tests19:154-155|1994|10.1093/amt/19.1.154a
97426|T||Sparks,A.N.Jr.|Efficacy of Selected Insecticides for Control of Leafminers on Melons, 1993|Insectic. Acaric. Tests19:81-82|1994|
97427|T||Hall,M., and R. Shelton|Control of Twospotted Mites on Greenhouse Tomatoes, 1997|Arthropod Manag. Tests23:155-156|1998|10.1093/amt/23.1.155
97428|T||Tanigoshi,L.K., and J.D. Chamberlain|McDaniel Spider Mite Control on Red Raspberry, 1997|Arthropod Manag. Tests23(1): 55-|1998|10.1093/amt/22.1.55
97429|T||Smitley,D.R., T.W. Davis, and M.M. Williams|Spider Mite Control on Rose Plants, 1997|Arthropod Manag. Tests23:351-|1998|10.1093/amt/23.1.351a
97430|T||Reissig,H., M. Dunham, and C. Smith|Cyhexatin (TD-2383-01) Test on Apple, 1997|Arthropod Manag. Tests23:26-27|1998|10.1093/amt/23.1.26
97431|T||Agnello,A., H. Reissig, D. Dunham, and M. Dunham|Early Season Acaricide Test on Apple, 1997|Arthropod Manag. Tests23:1-|1998|10.1093/amt/23.1.1
97432|T||Abbey,T., and L. Pundt|Evaluation of Miticides and Predatory Mites for Managing Twospotted Spider Mites on a Herbaceous Perennial Goutweed, 1997|Arthropod Manag. Tests23:345-346|1998|10.1093/amt/23.1.345a
97433|T||Eelen,H., B. Gobin, and M. Miles|Field Studies to Determine the Effects of Spinosad on the Predatory Bugs Anthocoris nemoralis and A. nemorum|Commun. Agric. Appl. Biol. Sci.71(2b): 429-432|2006|
97434|T||Vogt,H.|Acaricide Tests in Apple Orchards with Special Regard to Their Effects on Beneficials and on the Apple Rust Mite|Acta Phytopathol. Entomol. Hung.27(1-4): 659-667|1992|
97435|T||Kadono,F.|Historical Changes in Species of Spider Mites in Deciduous Fruit Orchards and Its Status of Resistance to Acaricides in Japan|Agrochem. Jpn.72:4-7|1998|
97436|T||Tkaczuk,C., and R. Mietkiewski|Effects of Selected Pesticides on the Growth of Fungi from Hirsutella genus Isolated from Phytophagous Mites|J. Plant Prot. Res.45(3): 171-179|2005|
97437|T||Walgenbach,J.F., and C.R. Palmer|Apple, Pre-Bloom Control of European Red Mite with Apollo and Savey, 1995|Arthropod Manag. Tests21:46-47|1996|10.1093/amt/21.1.46a
97438|T||Labanowska,B.H.|Effectiveness of Some New Acaricides in the Control of the Twospotted Spider Mite (Tetranychus urticae Koch) on Strawberries|Fruit Sci. Rep. (Skierniewice)17(3): 137-148|1990|
97439|T||Redak,R.A., and J.A. Bethke|Control of Rose Aphids in a Landscape Setting, Summer 1996|Arthropod Manag. Tests22:389-|1997|10.1093/amt/22.1.389
97440|T||Bortolotti,L., E. Grazioso, C. Porrini, and G. Sbrenna|Effect of Pesticides on the Bumblebee Bombus terrestris L. in the Laboratory|Colloq. I'INRA98:217-225|2001|
97441|T||Duchesne,L.C., R.A. Lautenschlager, and F.W. Bell|Effects of Clear-Cutting and Plant Competition Control Methods on Carabid (Coleoptera: Carabidae) Assemblages in Northwestern Ontario|Environ. Monit. Assess.56(1): 87-96|1999|10.1023/A:1005963508085
97442|T||Stavinoha,W.B., L.C. Ryan, and P.W. Smith|Biochemical Effects of an Organophosphorus Cholinesterase Inhibitor on the Rat Brain|Ann. N. Y. Acad. Sci.160(1): 378-382|1969|10.1111/j.1749-6632.1969.tb15859.x
97443|T||Hoepting,C.A., C.D. Scott-Dupree, C.R. Harris, G. Ritcey, and M.R. McDonald|Evaluation of Insecticide and Fungicide Combinations for the Control of Onion Maggot (Delia antiqua) and Onion Smut (Urocystis cepulae) in Ontario|Br. Crop Prot. Conf. Pests Dis.1:279-284|2000|
97444|T||Linduska,J.J., M. Ross, and N. McShane|Colorado Potato Beetle Control on Potatoes, 1993|Insectic. Acaric. Tests19:112-|1994|
97445|T||Gough,N.|Evaluation of Miticides for the Control of Two-Spotted Mite Tetranychus urticae Koch on Field Roses in Southern Queensland|Crop Prot.9(2): 119-127|1990|10.1016/0261-2194(90)90090-T
97446|T||Tkaczuk,C., B.H. Labanowska, and R. Mietkiewski|The Influence of Pesticides on the Growth of Fungus Hirsutella nodulosa (Petch) - Entomopathogen of Strawberry Mite (Phytonemus pallidus ssp. fragariae Zimm.)|J. Fruit Ornam. Plant Res.12:119-126|2004|
97447|T||Sinha,M.M., S.S. Yazdani, A. Kumar, I.D.N. Singh, and R. Singh|Effect of Some Granular Insecticides on Soil Microorganisms and Nodule Formation in Green Gram (Phaseolus aureus Roxb)|Indian J. Entomol.50(2): 223-225|1988|
97448|T||George,D.A., L.I. Butler, J.C. Maitlen, H.W. Rusk, and K.C. Walker|Insecticide Residues on Forage Crops|Report No. ARS-33-112, United States Agricultural Research Service:18 p.|1967|
97449|T||Debnath,N.C., A. Ghoshal, and R.K. Basak|Effect of Pesticides on Ammonification, Nitrification, Microbial Population and Legume Nodulation in Soil|Environ. Ecol.4(4): 667-670|1986|
97450|T||Fawade,M.M., and S.S. Pawar|Effect of NiCl2, CoCl2 & Cycloheximide on Microsomal Drug Metabolism & ALA-Synthetase During Thiodemeton Toxicity|Indian J. Exp. Biol.21(6): 343-346|1983|
97451|T||Pitre,H.N., R.H. Pluenneke, K.M. Bhirud, and S.E. Palmer|Dimethyl Sulfoxide (DMSO):  Influence on Bean Pod Mottle Disease and Interaction with Disulfoton and Phorate|J. Econ. Entomol.65(4): 1195-1197|1972|10.1093/jee/65.4.1195
97452|T||Newman,S.E., M.J. Roll, and R.J. Harkrader|A Naturally Occurring Compound for Controlling Powdery Mildew of Greenhouse Roses|Hortscience34(4): 686-689|1999|10.21273/HORTSCI.34.4.686
97453|T||Vico,I., Z. Jakovljevic, and M. Tosic|Investigations on Colletotrichum coccodes Control on Potato|Zast. Bilja (Non-English)44(3): 235-242|1993|
97454|T||McCarty,L.B., L.T. Lucas, and J.M. DiPaola|Spring Dead Spot Occurrence in Bermudagrass Following Fungicide and Nutrient Applications|Hortscience27(10): 1092-1093|1992|10.21273/HORTSCI.27.10.1092
97455|T||Melvin,B.P., M.G. Nair, J.M. Vargas, and A.R. Detweiler|Controlling Annual Bluegrass (Poa annua L.) Summer Patch Disease with Faeriefungin|Hortscience28(3): 195-196|1993|10.21273/HORTSCI.28.3.195
97456|T||Otto,D., I. Behnisch, K. Dietrich, and H.J. Korner|A Novel Type of Microencapsulated Parathion-Methyl Formulations and the Evaluation of Its Biological Efficacy to Colorado Potato Beetles and Other Insect Pests|Arch. Phytopathol. Plant Prot.26(2): 177-187|1990|10.1080/03235409009438963
97457|T||Hutcheon,J.A., J. Coyle, M.E. Holgate, and R.J.W. Byrde|Effects of Fungicides on Long-Term Cropping and Fruit Quality of Apple|Plant Pathol.35(2): 249-253|1986|10.1111/j.1365-3059.1986.tb02010.x
97458|T||Perrella,F.W., and R.K. Boutwell|Triethylenemelamine:  An Initiator of Two-Stage Carcinogenesis in Mouse Skin Which Lacks the Potential of a Complete Carcinogen|Cancer Lett.21(1): 37-41|1983|10.1016/0304-3835(83)90080-0
97459|T||Bielenin,A., R. Bachnacki, J. Cimanowski, J. Karczewski, M. Olszak, and H. Rechnio|Effectiveness of Several New Fungicides in the Control of Cherry Leaf Spot|Fruit Sci. Rep. (Skierniewice)18(3): 133-137|1991|
97460|T||Nowacka,H.|The Influence of Temperature on the Effectiveness of Some Fungicides in Apple Scab Control|Fruit Sci. Rep. (Skierniewice)15(4): 177-180|1988|
97462|T||Gancheva,J., and M. Vitanov|Resistance to Fungicides of Sphaerotheca fuliginea Pollacci on Greenhouse Cucumbers|Pochvozn. Agrokhim. Rastit. Zasht.21(4): 94-101|1986|
97463|T||Berenbaum,M.C.|The Effect of Cytotoxic Agents on the Production of Antibody to T.A.B. Vaccine in the Mouse|Biochem. Pharmacol.11(1): 29-44|1962|10.1016/0006-2952(62)90088-6
97465|T||Berenbaum,M.C.|Histochemical Evidence for Cross-Linking of DNA by Alkylating Agents In Vivo|Biochem. Pharmacol.11(11): 1035-1042|1962|10.1016/0006-2952(62)90162-4
97466|T||Neft,R.E., H.M. Schol, and D.A. Casciano|Triethylene Melamine-Induced Sister-Chromatid Exchange in Murine Lymphocytes Exposed In Vivo|Mutat. Res.222(4): 323-328|1989|10.1016/0165-1218(89)90107-9
97467|T||Brindley,C., A. Gescher, S.P. Langdon, M. Broggini, T. Colombo, and M. D'incalci|Studies of the Mode of Action of Antitumour Triazenes and Triazines--III.  Metabolism Studies on Hexamethylmelamine|Biochem. Pharmacol.31(5): 625-631|1982|10.1016/0006-2952(82)90441-5
97468|T||Inoue,Y.|Chromosomal Mutation in Drosophila melanogaster and Drosophila simulans|Mutat. Res.197(1): 85-92|1988|10.1016/0027-5107(88)90143-1
97469|T||Heindorff,K., O. Aurich, R. Rieger, and A. Michaelis|Pretreatment of Vicia faba Root-Tip Meristems with Hydrazines Results in 'Clastogenic Adaptation' to Maleic Hydrazide|Mutat. Res.142(4): 183-186|1985|
97470|T||Zijlstra,J.A., and E.W. Vogel|The Ratio of Induced Recessive Lethals to Ring-X Loss has Prognostic Value in Terms of Functionality of Chemical Mutagens in Drosophila melanogaster|Mutat. Res.201(1): 27-38|1988|10.1016/0027-5107(88)90108-X
97471|T||Bishop,J.B., R.L. Kodell, E.B. Whorton, and O.E. Domon|Dominant Lethal Test Response with IMS and TEM Using Different Combinations of Male and Female Stocks of Mice|Mutat. Res.121(3-4): 273-280|1983|
97473|T||Rutty,C.J., T.A. Connors, Nguyen-Hoang-Nam, Do-Cao-Thang, and H. Hoellinger|In Vivo Studies with Hexamethylmelamine|Eur. J. Cancer14(6): 713-720|1978|10.1016/0014-2964(78)90308-0
97474|T||Singh,H., and D. Newton|Mithramycin- and Triethylene Melamine- Induced Sperm Abnormalities in Lakeview Hamsters|Environ. Mutagen.4(3): 231-237|1982|10.1002/em.2860040305
97475|T||Linduska,J.J., M. Ross, and R. Rouse|Colorado Potato Beetle Control on Potatoes, 1992|Insectic. Acaric. Tests18:145-|1993|10.1093/iat/18.1.145
97476|T||Linduska,J.J., M. Ross, and S. Stevenson|Potato, Colorado Potato Beetle Control, 1991|Insectic. Acaric. Tests17:131-|1992|10.1093/iat/17.1.131a
97477|T||Bera,B., G. Doruchowski, and Z. Michalak|Use of Standard Air-Blast Sprayers for Apple Scab Control in Multiple Row Orchard|Fruit Sci. Rep. (Skierniewice)17(2): 87-94|1990|
97478|T||Paulus,A.O., S.T. Besemer, and J. Nelson|Controlling Powdery Mildew in Greenhouse Roses|Calif. Agric.41(7-8): 19-|1987|
97479|T||Corda,P., L. Maddau, and F. Marras|Systemic Fungicide Residues in Oil from Field-Treated Olive|Bull. OEPP/EPPO23(3): 399-404|1993|10.1111/j.1365-2338.1993.tb01343.x
97480|T||Bera,B., Z. Michalak, and G. Doruchowski|Usability of Tunnel Sprayers in Orchard Protection in the First Years After Planting|Fruit Sci. Rep. (Skierniewice)17(2): 95-100|1990|
97481|T||Martin,P.|The Post-Symptom and Pre-Leaf Fall, Post-Harvest Activities of Several Commercial Fungicides Against Apple Scab (Venturia inaequalis)|Fruit Sci. Rep. (Skierniewice)16(1): 27-32|1989|
97482|T||Hirsch,K.S., C.D. Jones, T.D. Lindstrom, N.B. Stamm, G.P. Sutton, H.M. Taylor, and D.E. Weaver|Discovery and Development of a Novel Class of Nonsteroidal Aromatase Inhibitors|Steroids50(1-3): 201-218|1987|10.1016/0039-128X(83)90072-7
97483|T||White,P.F.|The Potential of Cyromazine for Mushroom Pest Control|Br. Crop Prot. Conf. Pests Dis.1:193-198|1988|
97484|T||Whalen,J., and M. Spellman|Colorado Potato Beetle Control with Soil Insecticides, 1992|Insectic. Acaric. Tests18:166-|1993|10.1093/iat/18.1.166
97485|T||Sorensen,K.A., and C.W. Holloway|Colorado Potato Beetle Control with Insecticides, Pasquotank Co., NC, 1992|Insectic. Acaric. Tests18:159-160|1993|10.1093/iat/18.1.159
97486|T||Sorensen,K.A., and K.A. Kidd|Colorado Potato Beetle Control with Traditional Insecticides, 1991|Insectic. Acaric. Tests17:140-|1992|10.1093/iat/17.1.140
97487|T||Webb,D.R., C.J. Eckenrode, M.L. Hessney, and A.G. Taylor|Seed Maggot Control, 1992|Insectic. Acaric. Tests18:83-84|1993|
97488|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control with Seed Furrow Treatments, 1992|Insectic. Acaric. Tests18:138-|1993|
97489|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Onion, Maggot Control, 1991|Insectic. Acaric. Tests17:119-120|1992|10.1093/iat/17.1.119a
97490|T||Webb,D.R., A.G. Taylor, M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control with Trigard Seed Treatments, 1992|Insectic. Acaric. Tests18:137-|1993|10.1093/iat/18.1.137
97491|T||Sirota,J.M., E. Grafius, B. Ferrari, P. Kolarik, B. Scriber, S. Simstad, and W. Boylan-Pett|Control of Colorado Potato Beetle with Trigard, 1991|Insectic. Acaric. Tests18:155-156|1993|10.1093/iat/18.1.155
97492|T||Redak,R.A., and J.A. Bethke|Control of Spider Mites on Oleander Under Greenhouse Conditions, Fall 1996|Arthropod Manag. Tests22:385-386|1997|10.1093/amt/22.1.385a
97493|T||Sterk,G., and P. Meesters|IPM on Strawberries in Glasshouses and Plastic Tunnels in Belgium, New Possibilities|Acta Hortic.439(2): 905-912|1997|10.17660/ActaHortic.1997.439.148
97494|T||Thakur,V.S., and R. Malhotra|The Protective Action of Ergosterol-Biosynthesis Inhibiting Fungicides in the Management of Apple Scab, Venturia inaequalis (Cke.) Wint.|Adv. Plant Sci.8(1): 157-163|1995|
97495|T||Nasef,O.B., S.M.I. Kassem, and M.I. Zeid|Effect of Certain Insecticides and Mixtures on Chlorophyll A and B Content in Seedlings of Some Crops|Alex. Sci. Exch.3(2): 166-173|1982|
97496|T||Aust,W.M., S.H. Schoenholtz, T.W. Zaebst, and B.A. Szabo|Recovery Status of a Tupelo-Cypress Wetland Seven Years After Disturbance:  Silvicultural Implications|For. Ecol. Manag.90(2): 161-169|1997|10.1016/S0378-1127(96)03899-6
97497|T||Bora,T., and B. Bezbaruah|Accelerated Transformation of Leaf-Litter Through Cellulolytic Bacteria and Fungi|Indian J. Agric. Sci.62(10): 678-683|1992|
97498|T||Beyrle,H.F., S.E. Smith, R.L. Peterson, and C.M.M. Franco|Colonization of Orchis morio Protocorms by a Mycorrhizal Fungus:  Effects of Nitrogen Nutrition and Glyphosate in Modifying the Responses|Can. J. Bot.73(8): 1128-1140|1995|10.1139/b95-123
97499|T||Gorlach-Lira,K., O. Stefaniak, W. Slizak, and I. Owedyk|The Response of Forest Soil Microflora to the Herbicide Formulations Fusilade and Roundup|Microbiol. Res.152(4): 319-329|1997|10.1016/S0944-5013(97)80047-X
97500|T||Campos,F.J., and C. Omoto|Resistance to Hexythiazox in Brevipalpus phoenicis (Acari: Tenuipalpidae) from Brazilian Citrus|Exp. Appl. Acarol.26(3-4): 243-251|2002|10.1023/A:1021103209193
97501|T||Yamamoto,A., H. Yoneda, R. Hatano, and M. Asada|Stability of Hexythiazox Resistance in the Citrus Red Mite, Panonychus citri (McGregor) Under Laboratory and Field Conditions|J. Pestic. Sci. (Multiple Languages)21(1): 37-42|1996|10.1584/jpestics.21.37
97502|T||French,J.V., and J. Villarreal|Evaluation of Avermectin B1 and Hexythiazox for Spider Mite Control on Texas Citrus|J. Rio Grande Val. Hortic. Soc.41:75-81|1988|
97503|T||Labanowska,B.H., and C. Tkaczuk|Effectiveness of Some New Generation Acaricides in the Control of the Twospotted Spider Mite (Tetranychus urticae Koch) on Black Currant|Fruit Sci. Rep. (Skierniewice)18(4): 185-197|1991|
97504|A||Mudge,C.R., E.P. Webster, W. Zhang, and C.T. Leon|Rice (Oryza sativa) Response to Clomazone plus Bensulfuron and Halosulfuron|Weed Technol.19(4): 879-884|2005|10.1614/WT-04-284R.1
97505|T||Mudge,C.R., E.P. Webster, C.T. Leon, and W. Zhang|Rice (Oryza sativa) Cultivar Tolerance to Clomazone in Water-Seeded Production|Weed Technol.19(4): 907-911|2005|10.1614/WT-04-280R2.1
97506|T||Maciesiak,A., and R.W. Olszak|Effectiveness of Acaricide Mixtures in the Control of Phytophagous Mites on Apple Trees|J. Fruit Ornam. Plant Res.7(2): 91-96|1999|
97507|T||Generoso,W.M., S.K. Stout, and S.W. Huff|Effects of Alkylating Chemicals on Reproductive Capacity of Adult Female Mice|Mutat. Res.13(2): 171-184|1971|10.1016/0027-5107(71)90010-8
97508|T||Dyer,K.F.|Mutagenic Activity of Trimethylphosphate in Drosophila at Low Doses|Mutat. Res.28(3): 465-468|1975|10.1016/0027-5107(75)90241-9
97509|T||Yamamura,E., H. Hirono, M. Takeuchi, M. Kojima, and S. Aoki|The Micronucleus Assay with Mouse Peripheral Blood Reticulocytes Using Acridine Orange-Coated Slides with Triethylenemelamine|Mutat. Res.278(2/3): 127-130|1992|
97510|T||Snyder,L.A., and I.I. Oster|A Comparison of Genetic Changes Induced by a Monofunctional and a Polyfunctional Alkylating Agent in Drosophila melanogaster|Mutat. Res.1(4): 437-445|1964|10.1016/0027-5107(64)90036-3
97511|T||Giometti,C.S., S.L. Tollaksen, M.A. Gemmell, J. Taylor, N. Hawes, and T. Roderick|The Analysis of Recessive Lethal Mutations in Mice by Using Two-Dimensional Gel Electrophoresis of Liver Proteins|Mutat. Res.242(1): 47-55|1990|10.1016/0165-1218(90)90098-M
97512|T||Ratnayake,W.E.|Effects of Storage on Dominant Lethals Induced by Alkylating Agents (Triethylene Melamine and Ethylenimine)|Mutat. Res.5(2): 271-278|1968|10.1016/0027-5107(68)90025-0
97513|T||Slizynska,H.|The Progressive Approximation, with Storage, of the Spectrum of the Tem-Induced Chromosomal Changes in Drosphila Sperm to that Found After Irradiation|Mutat. Res.8(1): 165-175|1969|10.1016/0027-5107(69)90151-1
97514|T||Ong,T.M., and F.J. De Serres|Mutagenic Activity of Ethylenimine in Neurospora crassa|Mutat. Res.18(3): 251-258|1973|10.1016/0027-5107(73)90208-X
97515|T||Slizynska,H.|Cytological Analysis of Storage Effects on Various Types of Complete and Mosaic Change Induced in Drosophila Chromosomes by Some Chemical Mutagens|Mutat. Res.19(2): 199-213|1973|10.1016/0027-5107(73)90078-X
97516|T||Schenk,A.M.E., C. Dekker, and H. Veijer|Population of Mites in Three Different Fruit Production Systems|Meded. Fac. Landbouwwet. Rijksuniv. Gent59(2b): 571-577|1994|
97517|AT||Zhang,W., E.P. Webster, and D.C. Blouin|Response of Rice and Barnyardgrass (Echinochloa crus-galli) to Rates and Timings of Clomazone|Weed Technol.19(3): 528-531|2005|10.1614/WT-03-126.1
97518|T||Cox,W.J., R.R. Hahn, P.J. Stachowski, and J.H. Cherney|Weed Interference and Glyphosate Timing Affect Corn Forage Yield and Quality|Agron. J.97(3): 847-853|2005|10.2134/agronj2004.0203
97519|T||Henne,D.C., C.J. Lindgren, T.S. Gabor, H.R. Murkin, and R.E. Roughley|An Integrated Management Strategy for the Control of Purple Loosestrife Lythrum salicaria L. (Lythraceae) in the Netley-Libau Marsh, Southern Manitoba|Biol. Control32(2): 319-325|2005|10.1016/j.biocontrol.2004.10.012
97523|A||Mallick,N., F.H. Mohn, L. Rai, and C.J. Soeder|Impact of Physiological Stresses on Nitric Oxide Formation by Green Alga, Scenedesmus obliquus|J. Microbiol. Biotechnol.10(3): 300-306|2000|
97524|T||Leidi,E.O., M. Gomez, and LA Del Rio|Peroxidase Isozyme Patterns Developed by Soybean Genotypes in Response to Manganese and Iron Stress|Biochem. Physiol. Pflanzen (Multiple Languages)185(5-6): 391-396|1989|10.1016/S0015-3796(89)80060-5
97525|T||Naguib,N.A., F.K. El-Baz, and R. El-Masry|Effect of Glyphosate on the Amino Acids and Mineral Contents of Vicia faba and Orobanche crenata and Its Influence on the Host-Parasite Relationship|Egypt. J. Physiol. Sci.12(1): 91-102|1985|
97526|A||Powell,H.A., N.W. Kerby, and P. Rowell|Natural Tolerance of Cyanobacteria to the Herbicide Glyphosate|New Phytol.119(3): 421-426|1991|10.1111/j.1469-8137.1991.tb00042.x
97527|T||Olofintoye,J.A.|Tillage and Weed Control Practices for Upland Rice (Oryza sativa L.) on a Hydromorphic Soil in the Guinea Savanna of Nigeria|Trop. Agric.66(1): 43-48|1989|
97528|T||Messersmith,C.G., K.M. Christianson, and K.B. Thorsness|Influence of Glyphosate Rate, Application Date, and Spray Volume on Cattail Control|N. D. Farm Res.49(5): 27-28|1992|
97529|T||Morandi,D.|Effect of Xenobiotics on Endomycorrhizal Infection and Isoflavonoid Accumulation in Soybean Roots|Plant Physiol. Biochem.27(5): 697-701|1989|
97530|T||Mercer,P.C., and T.W. Fraser|Microorganisms Associated with the Retting of Flax Treated with the Herbicide Glyphosate|Ann. Appl. Biol.109(3): 509-521|1986|10.1111/j.1744-7348.1986.tb03208.x
97531|T||Beas-Zarate,C., M.Y. Sanchez-Ruiz, M.E. Urena-Guerrero, and A. Feria-Velasco|Effect of Neonatal Exposure to Monosodium L-Glutamate on Regional GABA Release During Postnatal Development|Neurochem. Int.33(3): 217-232|1998|10.1016/S0197-0186(98)00002-3
97532|T||Dilday,R.H., R.S. Helms, B.R. Wells, K.A. Gravois, W. Yan, J. Lin, M. Price, M. Jalaluddin, C. Guy, and K.A. Moldenhaue|Genetic, Physiological and Biochemical Enhancement of Exotic Rice Germplasm|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.446:9-15|1995|
97533|T||Grosscurt,A.C., R.A.J. Wixley, and M. Ter Haar|Cross-Resistance Between Flucycloxuron, Clofentezine and Hexythiazox in Panonychus ulmi (Fruit Tree Red Spider Mite)|Exp. Appl. Acarol.18(8): 445-458|1994|10.1007/BF00051467
97534|T||Brake,J., J.F. Ort, D.P. Wages, and W.R. Campbell|Effects of CGA-72662 (Larvadex) in Turkeys During Rearing and Reproduction|Poult. Sci.68(6): 731-738|1989|10.3382/ps.0680731
97535|T||Olson,D.L., and R.D. Oetting|Compatibility of Insect Growth Regulators and Beauveria bassiana (Balsamo) Vuillemin in Controlling Green Peach Aphid (Homoptera: Aphididae) on Greenhouse Chrysanthemums|J. Entomol. Sci.34(3): 286-294|1999|10.18474/0749-8004-34.3.286
97536|T||Cantelo,W.W.|Effect of Insecticide Treatment of Compost and Casing on Mushroom Yield|J. Entomol. Sci.27(2): 158-163|1992|10.18474/0749-8004-27.2.158
97537|T||Royer,T.A., J.V. Edelson, C.R. Bogle, and S. McCrate|Insecticide Application and Insect Control Using a Drip Irrigation Delivery System|Pestic. Sci.25(3): 231-240|1989|10.1002/ps.2780250304
97538|A||Bhatnagar,M.C.|Durmet and Mortal as Protein Depleters in Clarias batrachus|Proc. Acad. Environ. Biol.8(1): 79-82|1999|
97539|A||Timmermann,K., and O. Andersen|Bioavailability of Pyrene to the Deposit-Feeding Polychaete Arenicola marina:  Importance of Sediment Versus Water Uptake Routes|Mar. Ecol. Prog. Ser.246:163-172|2003|10.3354/meps246163
97540|T||Szczygiel,A., and Z. Rebandel|Control of Replanting Problem in Raspberry|Acta Hortic.233:81-84|1988|10.17660/ActaHortic.1988.233.13
97541|T||Coffin,D.E.|Oxidative Metabolism and Persistence of Parathion and Malathion on Field-Sprayed Lettuce|J. AOAC Int.49(5): 1018-1021|1966|10.1093/jaoac/49.5.1018
97542|T||Olvang,H.|Benomyl Resistance in Gerlachia nivalis. III. Alternatives to the Benzimidazole-Fungicides for Foliar Application|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)94(3): 242-249|1987|
97543|T||Batsell,W.R.,Jr., H.W. Ludvigson, and P.M. Kunko|Odor from Rats Tasting a Signal of Illness|J. Exp. Psychol. Anim. Behav. Process.16(2): 193-199|1990|10.1037/0097-7403.16.2.193
97544|T||Langley,W.M., J. Theis, S.F. Davis, M.M. Richard, and C.A. Grover|Effects of Denatonium Saccharide on the Drinking Behavior of the Grasshopper Mouse (Onychomys leucogaster)|Bull. Psychol. Scol. d'Orient.25(1): 17-19|1987|
97545|T||Davis,S.F., K.J. Hoskinson, K.A. Wilder, J.A. Sander, R.K. Larsen, and M. Knapp|A Cross-Species Analysis of the Aversiveness of Denatonium Saccharide and Quinine|Bull. Psychol. Scol. d'Orient.26(5): 419-422|1988|
97546|T||Vythilingam,I., and T.H. Chua|The Effects of Herbicides on Soil Collembola in Oil Palm Estates|Trop. Ecol.23(2): 165-172|1982|
97547|AT||Sieburth,S.M., C.J. Manly, and D.W. Gammon|Organosilane Insecticides.  Part I:  Biological and Physical Effects on Isosteric Replacement of Silicon for Carbon in Etofenprox and MTI-800|Pestic. Sci.28(3): 289-307|1990|10.1002/ps.2780280308
97548|T||Black,B.D., J.S. Russin, J.L. Griffin, and J.P. Snow|Herbicide Effects on Rhizoctonia solani In Vitro and Rhizoctonia Foliar Blight of Soybean (Glycine max)|Weed Sci.44(3): 711-716|1996|10.1017/S0043174500094583
97549|A||Cooley,W.E., and C.L. Foy|Effects of SC-0224 and Glyphosate on Free Amino Acids, Soluble Protein, and Protein Synthesis in Inflated Duckweed (Lemna gibba)|Weed Sci.40(3): 345-350|1992|10.1017/S0043174500051729
97550|T||Khalko,S., T. Subhalaksmi, S. Jash, S. Bose, and S.K. Pan|Herbicidal Tolerance of Trichoderma spp - a Potential Biocontrol Agent of Soil Borne Plant Pathogens|Indian J. Agric. Sci.76(7): 443-446|2006|
97551|T||Bergvinson,D.J., and J.H. Borden|Glyphosate-Induced Changes in the Attack Success and Development of the Mountain Pine Beetle and Impact of Its Natural Enemies|Entomol. Exp. Appl.60(2): 203-212|1991|10.1111/j.1570-7458.1991.tb01539.x
97560|A||Bianchini,A., and J.M. Monserrat|Effects of Methyl Parathion on Chasmagnathus granulatus Hepatopancreas:  Protective Role of Sesamol|Ecotoxicol. Environ. Saf.67(1): 100-108|2007|10.1016/j.ecoenv.2006.03.006
97561|T||Barros,J.F.C., G. Basch, and M. De Carvalho|Effect of Reduced Doses of a Post-Emergence Graminicide Mixture to Control Lolium rigidum G. in Winter Wheat Under Direct Drilling in Mediterranean Environment|Crop Prot.24(10): 880-887|2005|10.1016/j.cropro.2005.01.020
97564|T||Clark,G., and D.W. Pearson|Learning in Chronic Disulfoton Poisoning|J. Gen. Psychol.89:305-311|1973|10.1080/00221309.1973.9710833
97565|T||Mukhopadhyay,A.N., and R.P. Thakur|Effect of Some Soil Insecticides on Sclerotium Root-Rot of Sugarbeet|Indian J. Agric. Sci.47(11): 533-536|1977|
97566|T||Ranney,C.D.|Multiple Chemical Treatment of Cotton Seed, Effects on Seedling Survival|Crop Sci.10(6): 684-686|1970|10.2135/cropsci1970.0011183X001000060025x
97567|T||Fawade,M.M., and S.S. Pawar|Alteration in Mixed Function Oxidase System During Thiodemeton (O,O-Diethyl S-2(Ethylthio) Ethyl Phosphorothioate) Toxicity|Indian J. Exp. Biol.16(4): 481-484|1978|
97568|T||Fawade,M.M., and S.S. Pawar|Effect of Phenobarbital Pretreatment on Mixed Function Oxidases & Lipid Peroxidation During Thiodemeton Toxicity|Indian J. Exp. Biol.18(6): 645-647|1980|
97569|T||Clark,G., A.G. Koester, and D.W. Pearson|Exploratory Behavior in Chronic Disulfoton Poisoning in Mice|Psychopharmacologia20(2): 169-171|1971|10.1007/BF00404370
97570|T||Holt,T.M., and R.K. Hawkins|Rat Hippocampal Norepinephrine Response to Cholinesterase Inhibition|Res. Commun. Chem. Pathol. Pharmacol.20(2): 239-251|1978|
97571|T||Chandrapatya,A.|Bionomics and Chemical Control of Tetranychus hydrangeae Pritchard et Baker|In: F.Dusbabek and V.Bukva (Eds.), Modern Acarology, Academica, Prague and SPB Academic Publishing, The Hague:505-511|1991|
97572|T||Saito,T.|Insecticide Susceptibility of the Leafminer, Chromatomyia horticola (Goureau) (Diptera: Agromyzidae)|Appl. Entomol. Zool.39(2): 203-208|2004|10.1303/aez.2004.203
97573|T||Bowen,F.L., P. Fisara, P. Junquera, D.T. Keevers, R.H. Mahoney, and H.R. Schmid|Long-Lasting Prevention Against Blowfly Strike Using the Insect Growth Regulator Dicyclanil|Aust. Vet. J.77(7): 454-460|1999|10.1111/j.1751-0813.1999.tb12092.x
97574|T||Drummond,R.O.|Further Evaluation of Animal Systemic Insecticides, 1964|J. Econ. Entomol.58(4): 773-776|1965|10.1093/jee/58.4.773
97576|T||Parish,J.C., and B.W. Arthur|Chemosterilization of House Flies Fed Certain Ethylenimine Derivatives|J. Econ. Entomol.58(4): 699-702|1965|10.1093/jee/58.4.699
97577|T||Thomas,C.S., W.D. Gubler, M.W. Silacci, and R. Miller|Changes in Elemental Sulfur Residues on Pinot Noir and Cabernet Sauvignon Grape Berries During the Growing Season|Am. J. Enol. Vitic.44(2): 205-210|1993|10.5344/ajev.1993.44.2.205
97578|A||Reiff,B., R. Lloyd, M.J. How, D. Brown, and J.S. Alabaster|The Acute Toxicity of Eleven Detergents to Fish:  Results of an Interlaboratory Exercise|Water Res.13(2): 207-210|1979|10.1016/0043-1354(79)90094-0
97585|T||Kuroda,M., K. Oikawa, T. Ohbayashi, K. Yoshida, K. Yamada, J. Mimura, Y. Matsuda, Y. Fujii-Kuriyama, and K. Mukai|A Dioxin Sensitive Gene, Mammalian WAPL, is Implicated in Spermatogenesis|FEBS Lett.579(1): 167-172|2005|
97586|A||Analytical Bio-Chemistry Laboratories|Early Life Stage Toxicity of Para-tert-Octylphenol to Rainbow Trout in a Flow-Through System (Final)|EPA/OTS Doc.#40-8618137:33 p.|2000|
97587|A||Chemical Manufacturers Association|Chronic Toxicity of Nonylphenol to Ceriodaphnia dubia with Cover Letter Dated 02/28/1997|EPA/OTS Doc.#86970000610:26 p.|2000|
97588|A||Chemical Manufacturing Association|Chronic Toxicity of NPE 1.5 to Ceriodaphnia dubia with Cover Letter Dated 02/28/1997|EPA/OTS Doc.#86970000611:21 p.|2000|
97589|A||General Electric Corp.|Nonylphenol:  A Perturbant Additive to an Aquatic Ecosystem with Cover Letter Dated 02/24/1997|General Electric, Petersburg, WV:15 p.|2000|
97590|A||Analytical Bio-Chemistry Laboratories|Dynamic 14-Day Acute Toxicity of Octylphenol to Rainbow Trout (Final)|EPA/OTS Doc.#40-8418133:19 p.|2000|
97591|A||Rhone-Poulenc|Acute Toxicity of SFK-73-SAA-2 to Bluegill (Lepomis macrochirus) Under Dynamic Conditions with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000625:13 p.|2000|
97592|A||Rhone-Poulenc|Acute Toxicity of Rohm & Haas Compound SFK-73-SAA-1 to Bluegill (Lepomis macrochirus) with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000624:13 p.|2000|
97593|A||Rhone-Poulenc|Acute Toxicity of Rohm & Haas Compound SFK-73-SAA-3 to Bluegill (Lepomis macrochirus) with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000626:13 p.|2000|
97594|A||Monsanto Co.|Acute Toxicity of Nonylphenol to Fathead Minnows|Monsanto Chemical Company, St.Louis, MO:10 p.|2000|
97595|T||Comes,R.D., and A.D. Kelley|Control of Common Cattail with Postemergence Herbicides|J. Aquat. Plant Manag.27:20-23|1989|
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97602|T||Smith,B.E., K.A. Langeland, and C.G. Hanlon|Influence of Foliar Exposure, Adjuvants, and Rain-Free Period on the Efficacy of Glyphosate for Torpedograss Control|J. Aquat. Plant Manag.37:13-16|1999|
97603|A||Union Carbide Corp.|Ecological Effects Data on (0.42% Nonylphenol Ethoxylate)|EPA/OTS Doc.#86970000563:9 p.|2000|
97604|T||Sreenivasulu,S., and G. Rangaswami|Studies on the Effect of Three Granular Organophosphorus Insecticides on Soil Microflora|Indian J. Microbiol.13:89-95|1973|
97606|T||Baek,S.Y., J.H. Cho, E.S. Kim, H.J. Kim, S. Yoon, B.S. Kim, J.B. Kim, C.R. Lee, C. Yoo, J.H. Lee, H. Lee, J. Park, J.W.|cDNA Array Analysis of Gene Expression Profiles in Brain of Mice Exposed to Manganese|Ind. Health42(3): 315-320|2004|10.2486/indhealth.42.315
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97610|T||Badary,O.A., M.F. Abd-Ellah, M.A. El-Mahdy, S.A. Salama, and F.M. Hamada|Anticlastogenic Activity of Thymoquinone Against Benzo(a)pyrene in Mice|Food Chem. Toxicol.45(1): 88-92|2007|10.1016/j.fct.2006.08.004
97611|T||Badraoui,R., Z. Sahnoun, N.B. Abdelmoula, A. Hakim, M. Fki, and T. Rebai|May Antioxidants Status Depletion by Tetradifon Induce Secondary Genotoxicity in Female Wistar Rats via Oxidative Stress?|Pestic. Biochem. Physiol.88(2): 149-155|2007|10.1016/j.pestbp.2006.10.007
97612|AT||Aruoja,V., I. Kurvet, H.C. Dubourguier, and A. Kahru|Toxicity Testing of Heavy-Metal-Polluted Soils with Algae Selenastrum capricornutum:  A Soil Suspension Assay|Environ. Toxicol.19(4): 396-402|2004|10.1002/tox.20046
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97614|A||Atienzar,F.A., and A.N. Jha|The Random Amplified Polymorphic DNA (RAPD) Assay to Determine DNA Alterations, Repair and Transgenerational Effects in B(a)P Exposed Daphnia magna|Mutat. Res.552(1-2): 125-140|2004|10.1016/j.mrfmmm.2004.06.009
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97618|T||Barbieri,O., E. Ognio, O. Rossi, S. Astigiano, and L. Rossi|Embryotoxicity of Benzo(a)pyrene and Some of Its Synthetic Derivatives in Swiss Mice|Cancer Res.46:94-98|1986|
97619|A||Barber,D.S., A.J. McNally, N. Garcia-Reyero, and N.D. Denslow|Exposure to p,p'-DDE or Dieldrin During the Reproductive Season Alters Hepatic CYP Expression in Largemouth Bass (Micropterus salmoides)|Aquat. Toxicol.81(1): 27-35|2007|10.1016/j.aquatox.2006.10.008
97620|A||Barse,A.V., T. Chakrabarti, T.K. Ghosh, A.K. Pal, and S.B. Jadhao|Endocrine Disruption and Metabolic Changes Following Exposure of Cyprinus carpio to Diethyl Phthalate|Pestic. Biochem. Physiol.88(1): 36-42|2007|10.1016/j.pestbp.2006.08.009
97622|T||Barak,P., and I.L. Goldman|Antagonistic Relationship Between Selenate and Sulfate Uptake in Onion (Allium cepa):  Implications for the Production of Organosulfur and Organoselenium Compounds in Plants|J. Agric. Food Chem.45(4): 1290-1294|1997|10.1021/jf960729k
97623|T||Banerjee,B., H. Pathak, and P.K. Aggarwal|Effects of Dicyandiamide, Farmyard Manure and Irrigation on Crop Yields and Ammonia Volatilization from an Alluvial Soil Under a Rice (Oryza sativa L.)-Wheat (Triticum aestivum L.) Cropping System|Biol. Fertil. Soils36:207-214|2002|10.1007/s00374-002-0528-7
97624|T||Berova,M., and Z. Zlatev|Physiological Response and Yield of Paclobutrazol Treated Tomato Plants (Lycopersicon esculentum Mill.)|Plant Growth Regul.30(2): 117-123|2000|10.1023/A:1006300326975
97625|T||Cruz,A., M. Serrano, E. Navarro, B. Luna, and J.M. Moreno|Effect of a Long-Term Fire Retardant (Fire Trol 934) on the Germination of Nine Mediterranean-Type Shrub Species|Environ. Toxicol.20(6): 543-548|2005|10.1002/tox.20143
97626|T||Berova,M., and Z. Zlatev|Physiological Response of Paclobutrazol-Treated Triticale Plants to Water Stress|Biol. Plant. (Praha)46(1): 133-136|2003|10.1023/A:1022360809008
97628|T||Bashir,F., Mahmooduzzafar, T.O. Siddiqi, and M. Iqbal|The Antioxidative Response System in Glycine max (L.) Merr. Exposed to Deltamethrin, a Synthetic Pyrethroid Insecticide|Environ. Pollut.147(1): 94-100|2007|10.1016/j.envpol.2006.08.013
97629|T||Belyaeva,O.N., R.J. Haynes, and O.A. Birukova|Barley Yield and Soil Microbial and Enzyme Activities as Affected by Contamination of Two Soils with Lead, Zinc or Copper|Biol. Fertil. Soils41(2): 85-94|2005|10.1007/s00374-004-0820-9
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97631|T||Chatzivasileiadis,E.A., and M.W. Sabelis|Variability in Susceptibility Among Cucumber and Tomato Strains of Tetranychus urticae Koch to 2-Tridecanone from Tomato Trichomes:  Effects of Host Plant Shift|Exp. Appl. Acarol.22(8): 455-466|1998|10.1023/A:1006077521610
97632|T||Brady,C.A.L., R.A. Gill, and P.T. Lynch|Preliminary Evidence for the Metabolism of Benzo(a)pyrene by Plantago lanceolata|Environ. Geochem. Health25:131-137|2003|10.1023/A:1021240730266
97633|T||Boyd,R.S., M.A. Davis, M.A. Wall, and K. Balkwill|Nickel Defends the South African Hyperaccumulator Senecio coronatus (Asteraceae) Against Helix aspersa (Mollusca:  Pulmonidae)|Chemoecology12(2): 91-97|2002|10.1007/s00049-002-8331-3
97634|T||Bandara,M.S., K.K. Tanino, and D.R. Waterer|Effect of Pot Size and Timing of Plant Growth Regulator Treatments on Growth and Tuber Yield in Greenhouse-Grown Norland and Russet Burbank Potatoes|J. Plant Growth Regul.17(2): 75-79|1998|10.1007/PL00007020
97635|A||Bonnet,J.L., F. Bonnemoy, M. Dusser, and J. Bohatier|Assessment of the Potential Toxicity of Herbicides and Their Degradation Products to Nontarget Cells Using Two Microorganisms, the Bacteria Vibrio fischeri and the Ciliate Tetrahymena pyriformis|Environ. Toxicol.22(1): 78-91|2007|10.1002/tox.20237
97637|A||Cunha,I., E. Mangas-Ramirez, and L. Guilhermino|Effects of Copper and Cadmium on Cholinesterase and Glutathione S-Transferase Activities of Two Marine Gastropods (Monodonta lineata and Nucella lapillus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(4): 648-657|2007|10.1016/j.cbpc.2007.02.014
97638|A||Madsen,J.D., C.S. Owens, and K.D. Getsinger|Evaluation of Four Herbicides for Management of American Frogbit (Limnobium spongia)|J. Aquat. Plant Manag.36:148-150|1998|
97639|T||Culp,S.J., P.W. Mellick, R.W. Trotter, K.J. Greenlees, R.L. Kodell, and F.A. Beland|Carcinogenicity of Malachite Green Chloride and Leucomalachite Green in B6C3F1 Mice and F344 Rats|Food Chem. Toxicol.44(8): 1204-1212|2006|10.1016/j.fct.2006.01.016
97640|A||Major III,W.W., C.E. Grue, J.M. Grassley, and L.L. Conquest|Non-Target Impacts to Eelgrass from Treatments to Control Spartina in Willapa Bay, Washington|J. Aquat. Plant Manag.42(1): 11-17|2004|
97641|A||Corsi,S.R., S.W. Geis, J.E. Loyo-Rosales, and C.P. Rice|Aquatic Toxicity of Nine Aircraft Deicer and Anti-icer Formulations and Relative Toxicity of Additive Package Ingredients Alkylphenol Ethoxylates and 4,5-methyl-1H-benzotriazoles|Environ. Sci. Technol.40(23): 7409-7415|2006|10.1021/es0603608
97642|A||Costa,J.R.M.A., M. Mela, H.C.D. Silva de Assis, E. Pelletier, M.A.F. Randi, and C.A.D.O. Ribeiro|Enzymatic Inhibition and Morphological Changes in Hoplias malabaricus from Dietary Exposure to Lead(II) or Methylmercury|Ecotoxicol. Environ. Saf.67(1): 82-88|2007|10.1016/j.ecoenv.2006.03.013
97643|T||Dagues,N., V. Pawlowski, G. Guigon, D. Ledieu, C. Sobry, G. Hanton, J.L. Freslon, and S. Chevalier|Altered Gene Expression in Rat Mesenteric Tissue Following In Vivo Exposure to a Phosphodiesterase 4 Inhibitor|Toxicol. Appl. Pharmacol.218(1): 52-63|2007|10.1016/j.taap.2006.10.018
97644|A||Dai,L.P., Z.T. Xiong, Y. Huang, and M.J. Li|Cadmium-Induced Changes in Pigments, Total Phenolics, and Phenylalanine Ammonia-lyase Activity in Fronds of Azolla imbricata|Environ. Toxicol.21(5): 505-512|2006|10.1002/tox.20212
97646|T||Dallinger,R., B. Lagg, M. Egg, R. Schipflinger, and M. Chabicovsky|Cd Accumulation and Cd-Metallothionein as a Biomarker in Cepaea hortensis (Helicidae, Pulmonata) from Laboratory Exposure and Metal-Polluted Habitats|Ecotoxicology13(8): 757-772|2004|10.1007/s10646-003-4474-4
97647|T||Hutchinson,J.J., S.D. Young, S.P. McGrath, H.M. West, C.R. Black, and A.J.M. Baker|Determining Uptake of 'Non-labile' Soil Cadmium by Thlaspi caerulescens Using Isotopic Dilution Techniques|New Phytol.146(3): 453-460|2000|10.1046/j.1469-8137.2000.00657.x
97648|T||Speese III,J.|Use of Biorational and Standard Insecticides to Control Insects in Potatoes, 1995|Arthropod Manag. Tests21:162-163|1996|10.1093/amt/21.1.162
97649|T||Macnair,M.R.|Within and Between Population Genetic Variation for Zinc Accumulation in Arabidopsis halleri|New Phytol.155(1): 59-66|2002|10.1046/j.1469-8137.2002.00445.x
97650|A||Bowen,L., I. Werner, and M.L. Johnson|Physiological and Behavioral Effects of Zinc and Temperature on Coho Salmon (Oncorhynchus kisutch)|Hydrobiologia (Multiple Languages)559(1): 161-168|2006|10.1007/s10750-005-1095-3
97651|A||Crane,H.M., D.B. Pickford, T.H. Hutchinson, and J.A. Brown|The Effects of Methimazole on Development of the Fathead Minnow, Pimephales promelas, from Embryo to Adult|Toxicol. Sci.93(2): 278-285|2006|10.1093/toxsci/kfl063
97652|T||Dhillon,S.K., B.K. Hundal, and K.S. Dhillon|Bioavailability of Selenium to Forage Crops in a Sandy Loam Soil Amended with Se-Rich Plant Materials|Chemosphere66(9): 1734-1743|2007|10.1016/j.chemosphere.2006.07.006
97653|AT||Liguoro,M.D., C. Poltronieri, F. Capolongo, and C. Montesissa|Use of Sulfadimethoxine in Intensive Calf Farming:  Evaluation of Transfer to Stable Manure and Soil|Chemosphere68(4): 671-676|2007|10.1016/j.chemosphere.2007.02.009
97654|T||Weber,R.P., J.M. Coon, and A.J. Triolo|Effect of the Organophosphate Insecticide Parathion and Its Active Metabolite Paraoxon on the  Metabolism of Benzo(a)pyrene in the Rat|Cancer Res.34:947-952|1974|
97655|T||Davis,M.E., D.C. Brown, C.V. Maxwell, Z.B. Johnson, E.B. Kegley, and R.A. Dvorak|Effect of Phosphorylated Mannans and Pharmacological Additions of Zinc Oxide on Growth and Immunocompetence of Weanling Pigs|J. Anim. Sci.82(2): 581-587|2004|10.2527/2004.822581x
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97657|T||Ducoulombier-Crepineau,C., C. Feidt, and G. Rychen|Platinum and Palladium Transfer to Milk, Organs and Tissues After a Single Oral Administration to Lactating Goats|Chemosphere68(4): 712-715|2007|10.1016/j.chemosphere.2007.01.029
97658|T||Ikebuchi,M., and Y. Teranishi|Storage Effects on Sex-Chromosome Losses Induced by Triethylene Melamine (TEM) and Ethyl Methane-Sulfonate (EMS) in Drosophila melanogaster|Idengaku Zasshi56(2): 145-153|1981|
97659|T||Durst,H.I., L.B. Willett, F.L. Schanbacher, and P.D. Moorhead|Effects of PBBs on Cattle. I. Clinical Evaluations and Clinical Chemistry|Environ. Health Perspect.23:83-89|1978|10.1289/ehp.782383
97660|T||Dunagan,S.C., M.S. Gilmore, and J.C. Varekamp|Effects of Mercury on Visible/near-Infrared Reflectance Spectra of Mustard Spinach Plants (Brassica rapa P.)|Environ. Pollut.148(1): 301-311|2007|10.1016/j.envpol.2006.10.023
97661|T||Nowacka,H.|A Decrease of Venturia inaequalis (Cke) Aderh. Sensitivity to Fenarimol|Fruit Sci. Rep. (Skierniewice)18(3): 139-142|1991|
97662|T||Drake,V.J., S.L. Koprowski, N. Hu, S.M. Smith, and J. Lough|Cardiogenic Effects of Trichloroethylene and Trichloroacetic Acid Following Exposure During Heart Specification of Avian Development|Toxicol. Sci.94(1): 153-162|2006|10.1093/toxsci/kfl083
97663|T||El-Sharaky,A.S., A.A. Newairy, M.M. Badreldeen, S.M. Eweda, and S.A. Sheweita|Protective Role of Selenium Against Renal Toxicity Induced by Cadmium in Rats|Toxicology235(3): 185-193|2007|10.1016/j.tox.2007.03.014
97664|A||Ek,H., E. Nilsson, G. Birgersson, and G. Dave|TNT Leakage Through Sediment to Water and Toxicity to Nitocra spinipes|Ecotoxicol. Environ. Saf.67(3): 341-348|2007|10.1016/j.ecoenv.2006.10.011
97665|A||Ekelund,N.G.A., and R.A. Danilov|"The Influence of Selenium on Photosynthesis and ""Light-Enhanced Dark Respiration"" (LEDR) in the Flagellate Euglena gracilis After Exposure to Ultraviolet Radiation"|Aquat. Sci.63(4): 457-465|2001|10.1007/s00027-001-8044-7
97666|T||Fabro de Bem,A., R.D.L. Portella, J. Perottoni, E. Becker, D. Bohrer, M.W. Paixao, C.W. Nogueira, G. Zeni, and J.B.T. R|Changes in Biochemical Parameters in Rabbits Blood After Oral Exposure to Diphenyl Diselenide for Long Periods|Chem.-Biol. Interact.162(1): 1-10|2006|10.1016/j.cbi.2006.04.005
97667|T||El-Bayoumy,K.|Effects of Organoselenium Compounds on Induction of Mouse Forestomach Tumors by Benzo(a)pyrene|Cancer Res.45(8): 3631-3635|1985|
97668|T||Evangelou,M.W.H., U. Bauer, M. Ebel, and A. Schaeffer|The Influence of EDDS and EDTA on the Uptake of Heavy Metals of Cd and Cu from Soil with Tobacco Nicotiana tabacum|Chemosphere68(2): 345-353|2007|10.1016/j.chemosphere.2006.12.058
97669|T||Limpens,J., and F. Berendse|Growth Reduction of Sphagnum magellanicum Subjected to High Nitrogen Deposition:  The Role of Amino Acid Nitrogen Concentration|Oceanologia (Wroc.)135(3): 339-345|2003|
97670|T||Engelhardt,G.|In Vivo Micronucleus Test in Mice with 1-Phenylethanol|Arch. Toxicol.80(12): 868-872|2006|10.1007/s00204-006-0122-0
97671|A||Gheorghiu,C., J. Cable, D.J. Marcogliese, and M.E. Scott|Effects of Waterborne Zinc on Reproduction, Survival and Morphometrics of Gyrodactylus turnbulli (Monogenea) on Guppies (Poecilia reticulata)|Int. J. Parasitol.37(3/4): 375-381|2007|10.1016/j.ijpara.2006.09.004
97674|T||Huang,C., and C.P. Huang|Application of Aspergillus oryzae and Rhizopus oryzae for Cu(II) Removal|Water Res.30(9): 1985-1990|1996|10.1016/0043-1354(96)00020-6
97675|A||Koschnick,T.J., W.T. Haller, V.V. Vandiver, and U. Santra|Efficacy and Residue Comparisons Between Two Slow-Release Formulations of Fluridone|J. Aquat. Plant Manag.41:25-27|2003|
97676|T||Dosdall,L.M., and F.C. Stevenson|Managing Flea Beetles (Phyllotreta spp.) (Coleoptera: Chrysomelidae) in Canola with Seeding Date, Plant Density, and Seed Treatment|Agron. J.97(6): 1570-1578|2005|10.2134/agronj2005.0097
97677|T||Bragg,D.E., and J.W. Burns|Control of Insects in Spring Peas, 1998|Arthropod Manag. Tests24:259-|1999|
97678|T||Bisges,A., and R. Berberet|Control of Insect Pests in the First Alfalfa Crop, 1993|Arthropod Manag. Tests19:167-|1994|10.1093/amt/19.1.167
97679|T||Haidukowski,M., M. Pascale, G. Perrone, D. Pancaldi, C. Campagna, and A. Visconti|Effect of Fungicides on the Development of Fusarium Head Blight, Yield and Deoxynivalenol Accumulation in Wheat Inoculated Under Field Conditions with Fusarium graminearum and Fusarium culmorum|J. Sci. Food Agric.85(2): 191-198|2005|10.1002/jsfa.1965
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97682|T||Rank,J., A.G. Jensen, B. Skov, L.H. Pedersen, and K. Jensen|Genotoxicity Testing of the Herbicide Roundup and Its Active Ingredient Glyphosate Isopropylamine Using the Mouse Bone Marrow Micronucleus Test, Salmonella Mutagenicity Test, and Allium Anaphase-Telophase Test|Mutat. Res.300(1): 29-36|1993|10.1016/0165-1218(93)90136-2
97683|T||Hemingway,J.|Efficacy of Etofenprox Against Insecticide Susceptible and Resistant Mosquito Strains Containing Characterized Resistance Mechanisms|Med. Vet. Entomol.9(4): 423-426|1995|10.1111/j.1365-2915.1995.tb00017.x
97685|T||Takahashi,M.|Oviposition Site Selection:  Pesticide Avoidance by Gray Treefrogs|Environ. Toxicol. Chem.26(7): 1476-1480|2007|10.1897/06-511R.1
97686|T||Hantzschel,A., and K. Andreas|Non-N-Methyl-D-Aspartate (NMDA) Receptor Antagonist 1,2,3,4-Tetrahydro-6-Nitro-2,3-Dioxo-Benzo(F)Quinoxaline-7-Sulphonamide (NBQX) Decreases Functional Disorders in Cytotoxic Brain Oedema|Arch. Toxicol.73(10-11): 581-587|2000|10.1007/s002040050011
97687|T||Dimitrov,B.D., P.G. Gadeva, D.K. Benova, and M.V. Bineva|Comparative Genotoxicity of the Herbicides Roundup, Stomp and Reglone in Plant and Mammalian Test Systems|Mutagenesis21(6): 375-382|2006|10.1093/mutage/gel044
97688|T||Dinelli,G., I. Marotti, A. Bonetti, M. Minelli, P. Catizone, and J. Barnes|Physiological and Molecular Insight on the Mechanisms of Resistance to Glyphosate in Conyza canadensis (L.) Cronq. Biotypes|Pestic. Biochem. Physiol.86(1): 30-41|2006|10.1016/j.pestbp.2006.01.004
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97693|T||McLaughlin,J.R., E.R. Mitchell, and P. Kirsch|Mating Disruption of Diamondback Moth (Lepidoptera: Plutellidae) in Cabbage:  Reduction of Mating and Suppression of Larval Populations|J. Econ. Entomol.87(5): 1198-1204|1994|10.1093/jee/87.5.1198
97695|A||Vaishampayan,A.|Potent Mutagenicity of a Bipyridylium Herbicide in a Nitrogen-Fixing Blue-Green Alga Nostoc muscorum|Biochem. Physiol. Pflanzen (Multiple Languages)180(4): 327-331|1985|10.1016/S0015-3796(85)80010-X
97696|A||Sagova-Mareckova,M., and J. Kvet|Effects of Rooting Medium on the Growth and Nutrient Accumulation in Potamogeton natans L.|Acta Bot. Gall.142(6): 693-706|1995|10.1080/12538078.1995.10515294
97697|T||Yonglin,R., J.M. Desmarchelier, and F. Watson|Effect of Grain Fumigants on Lipids In Vivo and In Vitro|J. Agric. Food Chem.45(7): 2626-2629|1997|10.1021/jf960917a
97704|A||Singh,S., and M.S. Gill|Evapo-Transpiration Loss of Water Hyacinth (Eichhornia crassipes) and Chemical Control of Weed|Indian J. Agric. Sci.66(8): 487-489|1996|
97706|T||Daruich,J., F. Zirulnik, and M.S. Gimenez|Effect of the Herbicide Glyphosate on Enzymatic Activity in Pregnant Rats and Their Fetuses|Environ. Res.85(3): 226-231|2001|10.1006/enrs.2000.4229
97707|T||Dallegrave,E., F.D. Mantese, R.S. Coelho, J.D. Pereira, P.R. Dalsenter, and A. Langeloh|The Teratogenic Potential of the Herbicide Glyphosate-Roundup in Wistar Rats|Toxicol. Lett.142(1/2): 45-52|2003|10.1016/S0378-4274(02)00483-6
97708|T||Beuret,C.J., F. Zirulnik, and M.S. Gimenez|Effect of the Herbicide Glyphosate on Liver Lipoperoxidation in Pregnant Rats and Their Fetuses|Reprod. Toxicol.19(4): 501-504|2005|10.1016/j.reprotox.2004.09.009
97709|T||Caglar,S., and D. Kolankaya|The Effect of Sub-Acute and Sub-Chronic Exposure of Rats to the Glyphosate-Based Herbicide Roundup|Environ. Toxicol. Pharmacol.PRESS:|2007|
97710|A||Cavas,T., and S. Konen|Detection of Cytogenetic and DNA Damage in Peripheral Erythrocytes of Goldfish (Carassius auratus) Exposed to a Glyphosate Formulation Using the Micronucleus Test and the Comet Assay|Mutagenesis22(4): 263-268|2007|10.1093/mutage/gem012
97711|T||Sparling,D.W., C. Matson, J. Bickham, and P. Doelling-Brown|Toxicity of Glyphosate as Glypro and LI700 to Red-Eared Slider (Trachemys scripta elegans) Embryos and Early Hatchlings|Environ. Toxicol. Chem.25(10): 2768-2774|2006|10.1897/05-152.1
97712|T||Schooler,S.S., A.G. Yeates, J.R.U. Wilson, and M.H. Julien|Herbivory, Mowing, and Herbicides Differently Affect Production and Nutrient Allocation of Alternanthera philoxeroides|Aquat. Bot.86(1): 62-68|2007|10.1016/j.aquabot.2006.09.004
97713|T||Bergvinson,D.J., and J.H. Borden|Enhanced Woodpecker Predation on the Mountain Pine Beetle, Dendroctonus ponderosae Hopk., in Glyphosate-Treated Lodgepole Pines|Can. Entomol.124(1): 159-165|1992|10.4039/Ent124159-1
97714|A||Morgan,M.J., and J.W. Kiceniuk|Response of Rainbow Trout to a Two Month Exposure to Vision, a Glyphosate Herbicide|Bull. Environ. Contam. Toxicol.48(5): 772-780|1992|10.1007/BF00196001
97716|T||Descalzo,R.C., Z.K. Punja, C.A. Levesque, and J.E. Rahe|Assessment of Host Specificity Among Different Species of Glyphosate Synergistic Pythium|Mycol. Res.100(12): 1445-1453|1996|10.1016/S0953-7562(96)80076-1
97718|T||Butt,D.J., A.A.J. Swait, and J.D. Robinson|Effect of Fungicides on Germination of Apple and Pear Pollen|Tests Agrochem. Cultiv.6:110-111|1985|
97719|T||Parshad,V.R.|Carbon Disulphide for Improving the Efficacy of Rodenticide Baiting and Trapping of the House Rat, Rattus rattus L.|Int. Biodeterior. Biodegrad.49(2-3): 151-155|2002|10.1016/S0964-8305(02)00041-0
97720|T||Hoffmann,P.|Cardiotoxicity Testing of Organic Solvents by Coronary Artery Ligation in Closed-Chest Rats|Arch. Toxicol.61(1): 79-82|1987|10.1007/BF00324553
97721|T||Chouly,C., D. Pouliquen, I. Lucet, J.J. Jeune, and P. Jallet|Development of Superparamagnetic Nanoparticles for MRI: Effect of Particle Size, Charge and Surface Nature on Biodistribution|J. Microencapsul.13(3): 245-255|1996|10.3109/02652049609026013
97722|T||Madkour,M.A., M.R.A. Shehata, S.A. Farag, and E.E. Wagih|Ethylene as a Mediator of Rubigan Biological Action in Cowpea Plants|J. Phytopathol.121(3): 224-232|1988|10.1111/j.1439-0434.1988.tb04448.x
97723|T||Wicks,T.J., and L.F. Nitschke|Control of Apple Diseases and Pests with Low Spray Volumes and Reduced Chemical Rates|Crop Prot.5(4): 283-287|1986|10.1016/0261-2194(86)90064-5
97724|T||Klein,T.A., and L.W. Burgess|Effect of Seed Treatment on Infection of Wheat by Seedborne Inoculum of Fusarium graminearum Group 1|Australas. Plant Pathol.16(4): 79-81|1987|10.1071/APP9870079
97725|T||Rana,D.P.S., P.K. Bharadwaj, M.V.B. Rao, and D. Chatterjee|Field Evaluation of Fenarimol and Triadimefon for Control of Powdery Mildew (Erysiphe polygoni DC.) of Pea|Indian J. Plant Prot.19(1): 31-35|1991|
97726|T||Radcliffe,E.B., R.A. Suranyi, M.P. Samuelson, C.D. DiFonzo, C.A. Longtine, T.L. Kleven, K.L. Flanders, and R.A. Hansen|Control of Colorado Potato Beetle in the Red River Valley, Grand Forks, ND, 1993|Arthropod Manag. Tests19:119-120|1994|10.1093/amt/19.1.119
97727|T||Linduska,J.J., M. Ross, and N. McShane|Colorado Potato Beetle Control on Potatoes, 1993|Arthropod Manag. Tests19:113-|1994|
97728|T||Hoy,C.W., and M.J. Dunlap|Colorado Potato Beetle Control, 1993|Arthropod Manag. Tests19:110-111|1994|10.1093/amt/19.1.110
97729|T||Davis,M.K., E. Grafius, and P. Garvin|Onion Maggot Control, 1995|Arthropod Manag. Tests21:128-129|1996|10.1093/amt/21.1.128a
97730|T||Linduska,J.J., M. Ross, and N. McShane|Colorado Potato Beetle Control on Potatoes, 1993|Arthropod Manag. Tests19:111-|1994|10.1093/amt/19.1.111
97731|T||Speese III,J.|Use of Cyromazine (Trigard 75W) in a Foliar Spray Program to Control Insects in Potatoes, 1995|Arthropod Manag. Tests21:163-164|1996|10.1093/amt/21.1.163
97732|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle Control with Foliar Sprays, 1995|Arthropod Manag. Tests21:168-169|1996|10.1093/amt/21.1.168
97733|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle Control with Foliar Sprays of Conventional and Biorational Insecticides, 1992|Arthropod Manag. Tests19:141-|1994|10.1093/amt/19.1.141
97734|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle Control with Trigard, 1993|Arthropod Manag. Tests19:138-139|1994|10.1093/amt/19.1.138
97735|A||Beehler,J.W., T.C. Quick, and G.R. DeFoliart|Residual Toxicity of Four Insecticides to Aedes triseriatus in Scrap Tires|Am. Mosq. Control Assoc. J.7(1): 121-122|1991|
97736|A||Hayashi,T., H. Iwamura, and T. Fujita|Development of 4-Alkylphenyl Aralkyl Ethers and Related Compounds as Potent Insect Juvenile Hormone Mimetics and Structural Aspects of Their Activity|J. Agric. Food Chem.38(10): 1965-1971|1990|10.1021/jf00100a019
97738|T||Krzysko-Lupicka,T., W. Strof, K. Kubs, M. Skorupa, P. Wieczorek, B. Lejczak, and P. Kafarski|The Ability of Soil-Borne Fungi to Degrade Organophosphonate Carbon-to-Phosphorus Bonds|Appl. Microbiol. Biotechnol.48(4): 549-552|1997|10.1007/s002530051095
97739|T||Bonet,J.A., C.R. Fischer, and C. Colinas|Cultivation of Black Truffle to Promote Reforestation and Land-Use Stability|Agron. Sustain. Dev.26(1): 69-76|2006|10.1051/agro:2005059
97740|A||Mulla,M.S., and H.A. Darwazeh|Efficacy of New Insect Growth Regulators Against Mosquito Larvae in Dairy Wastewater Lagoons|J. Am. Mosq. Control Assoc.4(3): 322-325|1988|
97741|A||Mulla,M.S., H.A. Darwazeh, B. Kennedy, and D.M. Dawson|Evaluation of New Insect Growth Regulators Against Mosquitoes with Notes on Nontarget Organisms|J. Am. Mosq. Control Assoc.2(3): 314-320|1986|
97742|A||Walker,E.D., and J.D. Edman|Evaluation of Fenoxycarb Against Spring Aedes Mosquitoes in Massachusetts|Am. Mosq. Control Assoc. J.6(4): 725-726|1990|
97743|T||Tan,W.Z., Q.J. Li, and L. Qing|Biological Control of Alligatorweed (Alternanthera philoxeroides) with a Fusarium sp.|Biocontrol47(4): 463-479|2002|10.1023/A:1015606224100
97744|A||Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi|Genetic Differences in the Production of Male Neonates in Daphnia magna Exposed to Juvenile Hormone Analogs|Chemosphere63(9): 1477-1484|2006|10.1016/j.chemosphere.2005.09.026
97745|A||Oda,S., N. Tatarazako, H. Watanabe, M. Morita, and T. Iguchi|Production of Male Neonates in Daphnia magna (Cladocera, Crustacea) Exposed to Juvenile Hormones and Their Analogs|Chemosphere61(8): 1168-1174|2005|10.1016/j.chemosphere.2005.02.075
97746|A||Prasad,R.|Effects of Nonylphenol Adjuvant on Macrophytes|In: P.N.P.Chow (Ed.), Adjuvants and Agrochemicals, Vol.I, Chapter 6, Mode of Action and Physiological Activity, 1st Int.Symp., Aug.5-7, Brandon, Manitoba, Canada1:51-61|1989|
97751|T||Linz,G.M., D.C. Blixt, D.L. Bergman, and W.J. Bleier|Responses of Red-Winged Blackbirds, Yellow-Headed Blackbirds and Marsh Wrens to Glyphosate-Induced Alterations in Cattail Density|J. Field Ornithol.67(1): 167-176|1996|
97752|T||Herr,D.W., W.K. Boyes, and R.S. Dyer|Alterations in Rat Flash and Pattern Reversal Evoked Potentials After Acute or Repeated Administration of Carbon Disulfide (CS2)|Fundam. Appl. Toxicol.18(3): 328-342|1992|10.1016/0272-0590(92)90131-Z
97753|T||De Gandarias,J.M., E. Echevarria, J. Mugica, R. Serrano, and L. Casis|Changes in Brain Enkephalin Immunostaining After Acute Carbon Disulfide Exposure in Rats|J. Biochem. Toxicol.9(2): 59-62|1994|10.1002/jbt.2570090202
97754|T||Brady,J.F., F. Xiao, M.H. Wang, Y. Li, S.M. Ning, J.M. Gapac, and C.S. Yang|Effects of Disulfiram on Hepatic P450IIE1, Other Microsomal Enzymes, and Hepatotoxicity in Rats|Toxicol. Appl. Pharmacol.108(2): 366-373|1991|10.1016/0041-008X(91)90125-X
97755|T||Green,E.C., and A. Hunter|Toxicity of Carbon Disulfide in Developing Rats:  LD50 Values and Effects on the Hepatic Mixed-Function Oxidase Enzyme System|Toxicol. Appl. Pharmacol.78(1): 130-138|1985|10.1016/0041-008X(85)90312-6
97756|T||Erve,J.C.L., V. Amarnath, D.G. Graham, R.C. Sills, A.L. Morgan, and W.M. Valentine|Carbon Disulfide and N,N-Diethyldithiocarbamate Generate Thiourea Cross-Links on Erythrocyte Spectrin In Vivo|Chem. Res. Toxicol.11(5): 544-549|1998|10.1021/tx980007i
97757|A||Dohler,G.|Uptake of 15N-Ammonium and 15N-Nitrate by Antarctic Diatoms:  Dependence on the Daytime and Effect of UV-B Radiation|Biochem. Physiol. Pflanzen (Multiple Languages)187(5): 347-355|1991|10.1016/S0015-3796(11)80039-9
97758|T||Walton,V.M., and K.L. Pringle|Effects of Pesticides and Fungicides Used on Grapevines on the Mealybug Predatory Beetle Nephus 'boschianus' (Coccinellidae, Scymnini)|S. Afr. J. Enol. Vitic.22(2): 107-110|2001|
97759|T||Dalvi,R.R., and R.A. Neal|Metabolism In Vivo of Carbon Disulfide to Carbonyl Sulfide and Carbon Dioxide in the Rat|Biochem. Pharmacol.27(11): 1608-1609|1978|10.1016/0006-2952(78)90494-X
97760|T||Clements,R.O., J. Gilbey, B.R. Bentley, N. French, and I.A. Cragg|Effects of Pesticide Combinations on the Herbage Yield of Permanent Pasture in England & Wales|Tests Agrochem. Cultiv.6:126-127|1985|
97761|T||D'Arcy-Lameta,A., and G. Bompeix|Systemic Transport of Tritiated Phosphonate in Tomato Plantlets (Lycopersicon esculentum Mill)|Pestic. Sci.32(1): 7-14|1991|10.1002/ps.2780320103
97762|T||Kivisto,H., E. Elovaara, V. Riihimaki, and A. Aitio|Effect of Cytochrome P450 Isozyme Induction and Glutathione Depletion on the Metabolism of CS2 to TTCA in Rats|Arch. Toxicol.69(3): 185-190|1995|10.1007/s002040050156
97763|T||Anthony,D.C., K. Boekelheide, and D.G. Graham|The Effect of 3,4-Dimethyl Substitution on the Neurotoxicity of 2,5-Hexanedione. I. Accelerated Clinical Neuropathy is Accompanied by More Proximal Axonal Swellings|Toxicol. Appl. Pharmacol.71(3): 362-371|1983|10.1016/0041-008X(83)90023-6
97764|T||Opacka,J., T. Wronska-Nofer, J. Kolakowski, and B. Opalska|Effect of Alcohol Intake on Some Disturbances Induced by Chronic Exposure to Carbon Disulphide in Rats, II.  Biochemical and Ultrastructural Alterations in the Peripheral Nerves|Toxicol. Lett.24(2-3): 171-177|1985|10.1016/0378-4274(85)90054-2
97765|T||Jonsson,M., and P. Anderson|Electrophysiological Response to Herbivore-Induced Host Plant Volatiles in the Moth Spodoptera littoralis|Physiol. Entomol.24(4): 377-385|1999|10.1046/j.1365-3032.1999.00154.x
97766|T||Masuda,Y., and N. Nakayama|Protective Action of Diethyldithiocarbamate and Carbon Disulfide Against Acute Toxicities Induced by 1,1-Dichloroethylene in Mice|Toxicol. Appl. Pharmacol.71(1): 42-53|1983|10.1016/0041-008X(83)90043-1
97767|T||Lim,J., J.C. DeWitt, R.A. Sanders, J.B. Watkins III, and D.S. Henshel|Suppression of Endogenous Antioxidant Enzymes by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Oxidative Stress in Chicken Liver During Development|Arch. Environ. Contam. Toxicol.52(4): 590-595|2007|10.1007/s00244-006-0168-2
97768|T||McKernan,M.A., B.A. Rattner, R.C. Hale, and M.A. Ottinger|Egg Incubation Position Affects Toxicity of Air Cell Administered Polychlorinated Biphenyl 126 (3,3',4,4',5-Pentachlorobiphenyl) in Chicken (Gallus gallus) Embryos|Environ. Toxicol. Chem.26(12): 2724-2727|2007|10.1897/07-291.1
97769|T||Nilsson,C.B., A. Hanberg, C. Trossvik, and H. Hakansson|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Affects Retinol Esterification in Rat Hepatic Stellate Cells and Kidney|Environ. Toxicol. Pharmacol.2:17-23|1996|10.1016/1382-6689(96)00023-3
97770|AT||McKinney,J.D., J. Fawkes, S. Jordan, K. Chae, S. Oatley, R.E. Coleman, and W. Briner|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) as a Potent and Persistent Thyroxine Agonist:  A Mechanistic Model for Toxicity Based on Molecular Reactivity|Environ. Health Perspect.61:41-53|1985|10.1289/ehp.856141
97771|A||Hiraizumi,Y., M. Takahashi, and H. Nishimura|Adsorption of Polychlorinated Biphenyl onto Sea Bed Sediment, Marine Plankton, and Other Adsorbing Agents|Environ. Sci. Technol.13(5): 580-584|1979|10.1021/es60153a015
97772|T||De Flora,S., A. Morelli, C. Basso, M. Romano, D. Serra, and A. De Flora|Prominent Role of DT-Diaphorase as a Cellular Mechanism Reducing Chromium (VI) and Reverting Its Mutagenicity|Cancer Res.45:3188-3196|1985|
97773|T||De Krey,G.K., and N.I. Kerkvliet|Suppression of Cytotoxic T Lymphocyte Activity by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Occurs In Vivo, but not In Vitro, and is Independent of Corticosterone Elevation|Toxicology97:105-112|1995|10.1016/0300-483X(94)02929-O
97774|A||Doyen,P., P. Vasseur, and F. Rodius|Identification, Sequencing and Expression of Selenium-Dependent Glutathione Peroxidase Transcript in the Freshwater Bivalve Unio tumidus Exposed to Aroclor 1254|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(2): 122-129|2006|10.1016/j.cbpc.2006.07.002
97775|T||Costera,A., C. Feidt, P. Marchand, B.L. Bizec, and G. Rychen|PCDD/F and PCB Transfer to Milk in Goats Exposed to a Long-Term Intake of Contaminated Hay|Chemosphere64(4): 650-657|2006|10.1016/j.chemosphere.2005.10.052
97776|A||DiPinto,L.M., B.C. Coull, and G.T. Chandler|Lethal and Sublethal Effects of the Sediment-Associated PCB Aroclor 1254 on a Meiobenthic Copepod|Environ. Toxicol. Chem.12(10): 1909-1918|1993|
97777|T||Cloete,T.E., and L. Celliers|Removal of Aroclor 1254 by the White Rot Fungus Coriolus versicolor in the Presence of Different Concentrations of Mn(IV)Oxide|Int. Biodeterior. Biodegrad.44(4): 243-253|1999|10.1016/S0964-8305(99)00085-2
97778|A||Bodin,N., T. Burgeot, J.Y. Stanisiere, G. Bocquene, D. Menard, C. Minier, I. Boutet, A. Amat, Y. Cherel, and H. Budzins|Seasonal Variations of a Battery of Biomarkers and Physiological Indices for the Mussel Mytilus galloprovincialis Transplanted into the Northwest Mediterranean Sea|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.138(4): 411-427|2004|10.1016/j.cca.2004.04.009
97779|T||Schuster,D.J.|Control of Leafminers, Armyworms and Tomato Pinworms on Fresh Market Tomatoes in West-Central Florida, Fall 1991|Arthropod Manag. Tests18:179-|1993|
97780|T||Linduska,J.J., M. Ross, K. Mulford, and D. Baumann|Colorado Potato Beetle Control on Potatoes with Foliar Insecticide Sprays, 1995|Arthropod Manag. Tests21:143-144|1996|
97781|T||McEnhill,E., E. Grafius, J. Sirota, C. Brunt, J. Ferrigan, P. Garvin, L. Haas, and J. Ricci|Colorado Potato Beetle Control, 1995|Arthropod Manag. Tests21:144-145|1996|10.1093/amt/21.1.144
97782|T||Noetzel,D.M., and J. Miller|Control of Resistant Colorado Potato Beetle, Blaine, MN, 1995|Arthropod Manag. Tests21:149-|1996|
97783|T||Noetzel,D.M., B. Holder, J. Miller, and C. Holen|Colorado Potato Beetle Control, Crookston, MN, 1994|Arthropod Manag. Tests21:150-151|1996|10.1093/amt/21.1.150
97784|T||Noetzel,D.M., J. Miller, and C. Holen|Colorado Potato Beetle Control; Furadan 4F Comparisons, Grand Forks, ND, 1994|Arthropod Manag. Tests21:153-|1996|
97785|T||Noetzel,D.M., and B. Holder|Colorado Potato Beetle Control, Crookston, MN, 1995|Arthropod Manag. Tests21:147-148|1996|
97786|T||Stansly,P.A., and B.M. Cawley|Control of Immature Sweetpotato Whitefly (SPWF) on Staked Tomato, Spring, 1992|Arthropod Manag. Tests19:156-158|1994|
97787|T||Chu,C.C., T.J. Henneberry, and D.H. Akey|Insecticide Control of Sweetpotato Whitefly on Spring Cantaloupe, 1992|Arthropod Manag. Tests19:78-79|1994|10.1093/amt/19.1.78
97788|T||Chu,C.C., T.J. Henneberry, and D.H. Akey|Insecticide Control of Sweetpotato Whitefly on Cotton, 1992|Arthropod Manag. Tests19:221-|1994|10.1093/amt/19.1.221
97789|T||Westerdahl,B.B., H.L. Carlson, J. Grant, J.D. Radewald, N. Welch, C.A. Anderson, J. Darso, D. Kirby, and F. Shibuya|Management of Plant-Parasitic Nematodes with a Chitin-Urea Soil Amendment and Other Materials|J. Nematol.24(suppl.4S): 669-680|1992|
97790|T||Das,Y.T., and A.P. Gupta|Non-Repellency of Two Insect Growth Regulators with Juvenile Hormone Activity to Blattella germanica|Entomol. Exp. Appl.20(2): 195-198|1976|10.1111/j.1570-7458.1976.tb02633.x
97791|T||Adams,C.M., and E.A. Bernays|The Effect of Combinations of Deterrents on the Feeding Behavior of Locusta migratoria|Entomol. Exp. Appl.23(2): 101-109|1978|10.1111/j.1570-7458.1978.tb03011.x
97792|T||Shelley,M.D.|Selenium:  Toxicological and Nutritional Aspects for Humans|Ph.D. Thesis, University of Nebraska, Lincoln, NE:196 p.|1982|
97793|A||Chapman,J.|Development of Model Stream Ecosystem to Monitor the Fate and Effects of Persistent Organic Molecules|M.S. Thesis, Michigan State University, East Lansing, MI:88 p.|1985|
97794|A||Kleinow,K.M., A.S. Brooks, and W.N. Bennett|The Biochemical Speciation of Selenium Compounds in Aquatic Organisms|Final Report Submitted to Carolina Power and Light Company:59 p.|1988|
97795|A||Paulson,R.L.|Effects of Fluorene on Zooplankton Communities|M.S. Thesis, University of Missouri, Columbia, MO:114 p.|1984|
97796|T||Franklin,J.A., J.J. Zwiazek, S. Renault, and C. Croser|Growth and Elemental Composition of Jack Pine (Pinus banksiana) Seedlings Treated with Sodium Chloride and Sodium Sulfate|Trees16(4/5): 325-330|2002|10.1007/s00468-002-0175-5
97798|A||Lewis,D.L.|An Investigation into the Decline of the Wyoming Toad (Bufo hemiophrys baxteri)|M.S.Thesis, University of Wyoming, Laramie, WY:58 p.|1984|
97799|T||Albany,N.R., J.A. Vilchez, L. Garcia, and E. Jimenez|Comparative Study of Morphological Parameters of Grand Nain Banana (Musa AAA) After In Vitro Multiplication with Growth Retardants|Plant Cell Tissue Organ Cult.83(3): 357-361|2005|10.1007/s11240-005-6307-z
97800|T||Arnott,D.G., and I. Doniach|The Effect of Compounds Allied to Resorcinol upon the Uptake of Radioactive Iodine (131I) by the Thyroid of the Rat|Biochem. J. (Lond.)50:473-479|1952|10.1042/bj0500473
97801|T||Alonso-Prados,J.L., E. Hernandez-Sevillano, S. Llanos, M. Villarroya, and J.M. Garcia-Baudin|Effects of Sulfosulfuron Soil Residues on Barley (Hordeum vulgare), Sunflower (Helianthus annuus) and Common Vetch (Vicia sativa)|Crop Prot.21(10): 1061-1066|2002|10.1016/S0261-2194(02)00090-X
97802|T||Ahmad,M., M.I. Arif, and Z. Ahmad|Resistance to Carbamate Insecticides in Helicoverpa armigera (Lepidoptera:  Noctuidae) in Pakistan|Crop Prot.20(5): 427-432|2001|10.1016/S0261-2194(00)00168-X
97804|A||Allnutt,F.C.T., and W.D.,Jr. Bonner|Characterization of Iron Uptake from Ferrioxamine B by Chlorella vulgaris|Plant Physiol.85:746-750|1987|10.1104/pp.85.3.746
97806|T||Acharya,S., and U.R. Acharya|In Vivo Lipid Peroxidation Responses of Tissues in Lead-Treated Swiss Mice|Ind. Health35(4): 542-544|1997|10.2486/indhealth.35.542
97807|T||Adriaenssens,P.I., C.M. White, and M.W. Anderson|Dose-Response Relationships for the Binding of Benzo(a)pyrene Metabolites to DNA and Protein In Lung, Liver, and Forestomach of Control and Butylated Hydroxyanisole-Treated Mice|Cancer Res.43(8): 3712-3719|1983|
97808|A||Allnutt,F.C.T., and W.D.,Jr. Bonner|Evaluation of Reductive Release as a Mechanism for Iron Uptake from Ferrioxamine B by Chlorella vulgaris|Plant Physiol.85:751-756|1987|10.1104/pp.85.3.751
97809|T||Banskota,A.H., N.T. Nguyen, Y. Tezuka, Q.L. Tran, T. Nobukawa, Y. Kurashige, M. Sasahara, and S. Kadota|Secoisolariciresinol and Isotaxiresinol Inhibit Tumor Necrosis Factor-alpha-Dependent Hepatic Apoptosis in Mice|Life Sci.74(22): 2781-2792|2004|10.1016/j.lfs.2003.10.021
97810|T||Acharya,U.R., M. Mishra, R.R. Tripathy, and I. Mishra|Testicular Dysfunction and Antioxidative Defense System of Swiss Mice After Chromic Acid Exposure|Reprod. Toxicol.22(1): 87-91|2006|10.1016/j.reprotox.2005.11.004
97811|T||Adhami,V.M., R. Husain, A.K. Agarwal, and P.K. Seth|Intrahippocampal Cholinergic-Rich Transplants Restore Lead-Induced Deficits:  A Preliminary Study in Rats|Neurotoxicol. Teratol.22(1): 41-53|2000|10.1016/S0892-0362(99)00047-1
97812|T||Aburto,E.M., A. Cribb, I.C. Fuentealba, B.O. Ikede, F.S.B. Kibenge, and F. Markham|The Failure of Selenium Supplementation to Prevent Copper-Induced Liver Damage in Fischer 344 Rats|Can. J. Vet. Res.65(2): 104-110|2001|
97814|T||Adhikari,N., N. Sinha, R. Narayan, and D.K. Saxena|Lead-Induced Cell Death in Testes of Young Rats|J. Appl. Toxicol.21(4): 275-277|2001|10.1002/jat.754
97815|T||Agar,G., M. Turker, P. Battal, and M.E. Erez|Phytohormone Levels in Germinating Seeds of Zea mays L. Exposed to Selenium and Aflatoxines|Ecotoxicology15(5): 443-450|2006|10.1007/s10646-006-0079-z
97816|T||Ali,N.A., D. Dewez, P.Y. Robidoux, and R. Popovic|Photosynthetic Parameters as Indicators of Trinitrotoluene (TNT) Inhibitory Effect:  Change in Chlorophyll a Fluorescence Induction upon Exposure of Lactuca sativa to TNT|Ecotoxicology15(5): 437-441|2006|10.1007/s10646-006-0065-5
97817|A||Aldegunde,M., J.L. Soengas, C. Ruibal, and M.D. Andres|Effects of Chronic Exposure to gamma-HCH (Lindane) on Brain Serotonergic and Gabaergic Systems, and Serum Cortisol and Thyroxine Levels of Rainbow Trout, Oncorhynchus mykiss|Fish Physiol. Biochem.20:325-330|1999|10.1023/A:1007795121340
97818|T||Antonio,M.T., S. Martinez, M.L. Leret, and I. Corpas|Neurotoxic Effects of Gestational Administration of Low-Dose Lead Acetate|J. Appl. Toxicol.16(5): 431-436|1996|10.1002/(SICI)1099-1263(199609)16:5<431::AID-JAT372>3.0.CO;2-H
97819|T||Ana,M.G.S., H.S. Spinosa, J.C. Florio, M.M. Bernardi, C.A. Oliveira, J.E.S. Sarkis, and M.H. Kakazu|Role of Early GnRH Administration in Sexual Behavior Disorders of Rat Pups Perinatally Exposed to Lead|Neurotoxicol. Teratol.23(2): 203-212|2001|10.1016/S0892-0362(01)00118-0
97820|A||Andersen,L., K. Kinnberg, H. Holbech, B. Korsgaard, and P. Bjerregaard|Evaluation of a 40 day Assay for Testing Endocrine Disrupters:  Effects of an Anti-Estrogen and an Aromatase Inhibitor on Sex Ratio and Vitellogenin Concentrations in Juvenile Zebrafish (Danio rerio)|Fish Physiol. Biochem.30(3-4): 257-266|2004|10.1007/s10695-005-8246-3
97821|T||Arriagada,C.A., M.A. Herrera, F. Borie, and J.A. Ocampo|Contribution of Arbuscular Mycorrhizal and Saprobe Fungi to the Aluminum Resistance of Eucalyptus globulus|Water Air Soil Pollut.182(1-4): 383-394|2007|10.1007/s11270-007-9349-5
97823|T||Botha,J.H., A.J. Scholtz, A. Marais, and A.M. Van den Berg|Preliminary Tests on the Contact Toxicity of Some Pesticides to Tetranychus urticae Females, with Reference to the Situation in Field Cotton|Phytophylactica20(3): 277-279|1988|
97824|T||Smitley,D.R., and T.W. Davis|Twospotted Spider Mite Efficacy on Burning Bush, 1996|Arthropod Manag. Tests22:373-|1997|10.1093/amt/22.1.373
97825|T||Smitley,D.R., and T.W. Davis|Honeylocust Spider Mite Efficacy on Honeylocust, 1996|Arthropod Manag. Tests22:395-|1997|10.1093/amt/22.1.395
97826|T||Sclar,C., D. Gerace, W.S. Cranshaw, A. Tupy, and M. Al-Doghairi|Control of Spruce Spider Mite with Foliar-Applied Insecticides, 1996|Arthropod Manag. Tests22:396-|1997|10.1093/amt/22.1.396
97827|T||Walgenbach,J.F., and C.R. Palmer|European Red Mite Control on Apples, 1996|Arthropod Manag. Tests22:31-32|1997|10.1093/amt/22.1.31
97828|A||Garrett,W.R.,Jr.|Toxic Effects of Nitrite on Channel Catfish|M.S.Thesis, Auburn University, Auburn, AL:62 p.|1983|
97829|T||Blumbach,K., A. Pahler, H.M. Deger, and W. Dekant|Biotransformation and Male Rat-Specific Renal Toxicity of Diethyl Ethyl- and Dimethyl Methylphosphonate|Toxicol. Sci.53(1): 24-32|2000|10.1093/toxsci/53.1.24
97831|T||Hull,L.A.|Apple, Early Season Mite and Insect Control, 1996|Arthropod Manag. Tests22:18-19|1997|10.1093/amt/22.1.18
97833|T||Dow Chemical Co.|Results of Skin Absorption Test of Carbon Disulfide on Rabbit Skin with Cover Letter Dated 05/10/94 (Sanitized)|Dow Chemical Co., Midland, MI:6 p.|1994|
97834|T||Masuda,Y., and N. Nakayama|Protective Effect of Diethyldithiocarbamate and Carbon Disulfide Against Liver Injury Induced by Various Hepatotoxic Agents|Biochem. Pharmacol.31(17): 2713-2725|1982|10.1016/0006-2952(82)90124-1
97835|T||E.I. Du Pont De Nemours|Etiologic Studies on the Formation of Blisters in Doffers in Rayon Spinning Operations Upon Exposure to Stabilite in Rubber Gloves with Carbon Disulfide W/Cvr Ltr Dated 05/11/94|Du Pont, Wilmington, DE:33 p.|1994|
97836|T||ELF Atochem North America Inc.|Primary Skin Irritation of Purified Diphenylamine in Albino Rabbits with Cover Letter Dated 04/13/94|ELF Atochem, King of Prussia, PA:12 p.|1994|
97837|T||ELF Atochem North America Inc.|Determination of the Acute Oral Toxicity of Diphenylamine in Rats with Cover Letter Dated 04/13/94|ELF Atochem, King of Prussia, PA:20 p.|1994|
97838|T||ELF Atochem North America Inc.|Acute Dermal Toxicity of Purified Diphenylamine in Albino Rabbits wth Cover Letter Dated 04/13/94|ELF Atochem, King of Prussia, PA:11 p.|1994|
97839|T||Rhone-Poulenc|Initial Submission:  Letter Summarizing Study of Effects of LS 74-783 (Fosetyl-Al) in Pregnant Rats Dated 080792|EPA/OTS Doc.#88-920004902:3 p.|1992|
97840|T||Frank,N., B. Bertram, H.R. Scherf, and M. Wiessler|Influence of Dithiocarbamates on the Metabolism and Toxicity of N-Nitrosodimethylamine in Rats|Carcinogenesis11(2): 199-203|1990|10.1093/carcin/11.2.199
97842|T||Lu,Nancy C., C. Newton, and E.L.R. Stokstad|The Requirement of Sterol and Various Sterol Precursors in Free-Living Nematodes|Nematologica23(1): 57-61|1977|10.1163/187529277X00228
97843|A||Juttner,F., and O. Bogenschutz|Geranyl Derivatives as Inhibitors of the Carotenogenesis in Synechococcus PCC 6911 (Cyanobacteria)|Z. Naturforsch.38C(5-6): 387-392|1983|10.1515/znc-1983-5-609
97845|A||Sandmann,G., H. Reck, and P. Boger|Herbicidal Mode of Action on Chlorophyll Formation|J. Agric. Food Chem.32(4): 868-872|1984|10.1021/jf00124a044
97846|A||Lambert,R., and P. Boger|Peroxidative Activity of Oxyfluorfen with Regard to Carotenoids in Scenedesmus|J. Agric. Food Chem.32(3): 523-526|1984|10.1021/jf00123a026
97847|T||Adler,I.L., B.M. Jones, and J.P.,Jr. Wargo|Fate of 2-Chloro-1-(3-Ethoxy-4-Nitrophenoxy)-4-(Trifluoromethyl)Benzene (Oxyfluorofen) in Rats|J. Agric. Food Chem.25(6): 1339-1341|1977|10.1021/jf60214a010
97848|A||Ensminger,M.P., and F.D. Hess|Action Spectrum of the Activity of Acifluorfen-Methyl, a Diphenyl Ether Herbicide, in Chlamydomonas eugametos|Plant Physiol.77(2): 503-505|1985|10.1104/pp.77.2.503
97849|T||Wilkie,I.W., A.A. Seawright, and J. Hrdlicka|The Hepatotoxicity of Carbon Disulphide in Sheep|J. Appl. Toxicol.5(6): 360-367|1985|10.1002/jat.2550050605
97850|T||Snyderwine,E.G., R. Kroll, and R.J. Rubin|The Possible Role of the Ethanol-Inducible Isozyme of Cytochrome P450 in the Metabolism and Distribution of Carbon Disulfide|Toxicol. Appl. Pharmacol.93(1): 11-21|1988|10.1016/0041-008X(88)90021-X
97851|T||De Matteis,F., and A.A. Seawright|Oxidative Metabolism of Carbon Disulphide by the Rat:  Effect of Treatments Which Modify the Liver Toxicity of Carbon Disulphide|Chem.-Biol. Interact.7(6): 375-388|1973|10.1016/0009-2797(73)90037-9
97852|T||Masuda,Y., and N. Nakayama|Prevention of Butylated Hydroxytoluene-Induced Lung Damage by Diethyldithiocarbamate and Carbon Disulfide in Mice|Toxicol. Appl. Pharmacol.75(1): 81-90|1984|10.1016/0041-008X(84)90078-4
97853|T||Jones-Price,C., R. Wolkowski-Tyl, M.C. Marr, and C.A. Kimmel|Teratologic Evaluation of Carbon Disulfide (CAS No. 75-15-0) Administered to CD Rats on Gestational Days 6 Through 15|Research Triangle Institute, Research Triangle Park, NC:250 p.|1984|
97854|T||Jones-Price,C., R. Wolkowski-Tyl, M.C. Marr, and C.A. Kimmel|Teratologic Evaluation of Carbon Disulfide (CAS No. 75-15-0) Administered to New Zealand White Rabbits on Gestational Days 6 Through 19|Research Triangle Institute, Research Triangle Park, NC:181 p.|1984|
97855|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Sodium Fluoride (CAS No. 7681-49-4) in F344/N Rats and B6C3F1 Mice (Drinking Water Studies)|Natl. Toxicol. Program Tech. Rep. Ser.393:448 p.|1990|
97856|T||Chengelis,C.P.|Paradoxical Effect of Cobaltous Chloride on Carbon Disulfide Induced Hepatotoxicity in Rats|Res. Commun. Chem. Pathol. Pharmacol.61(1): 83-96|1988|
97857|T||Torres,M., G. Feldmann, M.A. Perrault, J. Jarvisalo, and J. Hakim|Morphological and Biochemical Effects of Carbon Disulfide on Rat Liver|Exp. Mol. Pathol.33(3): 333-344|1980|10.1016/0014-4800(80)90031-3
97864|T||Cohen,R., D. Shtienberg, and M. Edelstein|Suppression of Powdery Mildew (Sphaerotheca fuliginea) in Cucumber by the Detergent Zohar LQ-215|Eur. J. Plant Pathol.102(1): 69-75|1996|10.1007/BF01877117
97865|T||Levot,G.W., and N. Sales|Effectiveness of a Mixture of Cyromazine and Diazinon for Controlling Flystrike on Sheep|Aust. Vet. J.76(5): 343-344|1998|10.1111/j.1751-0813.1998.tb12364.x
97866|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control, Prattsburg, 1995|Arthropod Manag. Tests21(1): 131-|1996|10.1093/amt/21.1.131
97867|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control, Oswego, 1995|Arthropod Manag. Tests21:131-132|1996|10.1093/amt/21.1.131a
97868|T||Johnson,B.J.|Fenarimol Tolerance of Roughstalk Bluegrass Overseeded in Bermudagrass Greens|Agron. J.86(3): 519-522|1994|10.2134/agronj1994.00021962008600030012x
97869|T||Darvas,B., A. Fonagy, and P. Kulcsar|The Effects of Two Fungicides, Fenarimol and Nuarimol, on Larval Stages of Neobellieria bullata (Dipt., Sarcophagidae)|Acta Phytopathol. Entomol. Hung.26(3/4): 437-449|1991|
97870|T||Hetrick,B.A.D., G.T. Wilson, D.G. Kitt, and A.P. Schwab|Effects of Soil Microorganisms on Mycorrhizal Contribution to Growth of Big Bluestem Grass in Non-Sterile Soil|Soil Biol. Biochem.20(4): 501-507|1988|10.1016/0038-0717(88)90065-X
97871|T||Dernoeden,P.H.|Residual Stripe Smut Control in Kentucky Bluegrass with Reduced Fungicide Levels|Hortscience24(5): 796-798|1989|10.21273/HORTSCI.24.5.796
97872|T||Tryon,E.H., K.L. Carvell, and C.K. Dorsey|Germination of Acorns from Oaks Treated with Systemic Insecticides|For. Sci.14(4): 427-428|1968|
97873|T||Mollet,P., and F.E. Wurgler|Detection of Somatic Recombination and Mutation in Drosophila. A Method for Testing Genetic Activity of Chemical Compounds|Mutat. Res.25(3): 421-424|1974|10.1016/0027-5107(74)90074-8
97874|T||White,P.F.|Comparative Effects of Three Insect Growth Regulator Insecticides and a Dipteran-Active Strain of Bacillus thuringiensis on Cropping of the Cultivated Mushroom Agaricus bisporus|Ann. Appl. Biol.134(1): 35-43|1999|10.1111/j.1744-7348.1999.tb05233.x
97875|T||Wier,A.T., D.J. Boethel, J.D. Thomas, B.R. Leonard, and E. Burris|Control of Soybean Looper and Beet Armyworm on Soybean in North Louisiana, 1993|Arthropod Manag. Tests19:274-275|1994|10.1093/amt/19.1.274
97876|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of Corn Earworm on Sweet Corn in Wisconsin, 1993|Arthropod Manag. Tests19(1): 98-|1994|10.1093/amt/19.1.98
97877|T||Wilson,H.R., and J.B. Eisley|Evaluation of Soil Insecticides in Ohio, 1993|Arthropod Manag. Tests19:213-214|1994|10.1093/amt/19.1.213
97879|A||Yanbo,W., Z. Wenju, L. Weifen, and X. Zirong|Acute Toxicity of Nitrite on Tilapia (Oreochromis niloticus) at Different External Chloride Concentrations|Fish Physiol. Biochem.32(1): 49-54|2006|10.1007/s10695-005-5744-2
97880|T||Zhan,X.A., M. Wang, Z.R. Xu, W.F. Li, and J.X. Li|Evaluation of Caspase-Dependent Apoptosis During Fluoride-Induced Liver Lesion in Pigs|Arch. Toxicol.80(2): 74-80|2006|10.1007/s00204-005-0019-3
97881|T||Gordon,R., J. Chippett, and J. Tilley|Effects of Two Carbamates on Infective Juveniles of Steinernema carpocapsae All Strain and Steinernema feltiae Umea Strain|J. Nematol.28(3): 310-317|1996|
97882|T||Jorge,R.A., and M. Menossi|Effect of Anion Channel Antagonists and La3+ on Citrate Release, A1 Content and A1 Resistance in Maize Roots|J. Inorg. Biochem.99:2039-2045|2005|10.1016/j.jinorgbio.2005.07.002
97883|T||Bojarczuk,K., and K. Przybyl|Effect of Polluted Substrate on Growth and Health of Silver Birch (Betula pendula Roth.)|Pol. J. Environ. Stud.14(5): 677-684|2005|
97884|T||Bojarczuk,K., and K. Szczygiel|Effect of Aluminium and Copper on the Development of Birch (Betula pendula Roth.) Cultured In Vitro and In Vivo|Dendrobiology51:3-8|2004|
97885|T||Lloveras,J., J. Ferran, J. Boixadera, and J. Bonet|Potassium Fertilization Effects on Alfalfa in a Mediterranean Climate|Agron. J.93(1): 139-143|2001|10.2134/agronj2001.931139x
97886|T||Llamas,A., C.I. Ullrich, and A. Sanz|Cd2+  Effects on Transmembrane Electrical Potential Difference, Respiration and Membrane Permeability of Rice (Oryza sativa L) Roots.|Plant Soil219(1-2): 21-28|2000|10.1023/A:1004753521646
97887|T||Lombi,E., F.J. Zhao, S.P. McGrath, S.D. Young, and G.A. Sacchi|Physiological Evidence for a High-Affinity Cadmium Transporter Highly Expressed in a Thlaspi caerulescens Ecotype|New Phytol.149(1): 53-60|2001|10.1046/j.1469-8137.2001.00003.x
97888|T||Wang,B., W.Y. Feng, T.C. Wang, G. Jia, M. Wang, J.W. Shi, F. Zhang, Y.L. Zhao, and Z.F. Chai|Acute Toxicity of Nano- and Micro-Scale Zinc Powder in Healthy Adult Mice|Toxicol. Lett.161(2): 115-123|2006|10.1016/j.toxlet.2005.08.007
97889|T||Vernon,R.S.|Aggregation and Mortality of Agriotes obscurus (Coleoptera:  Elateridae) at Insecticide-Treated Trap Crops of Wheat|J. Econ. Entomol.98(6): 1999-2005|2005|10.1093/jee/98.6.1999
97890|T||Villanueva,R., R. Albaladejo, P. Ortega, P. Astasio, M.E. Calle, A. Gil, B. Granados, and V. Dominguez-Rojas|Adherence of Mouse Peritoneal Macrophages Following Exposure to Lead|Ind. Health35(2): 291-293|1997|10.2486/indhealth.35.291
97891|T||Wang,W., K. Ameno, M. Jamal, M. Kumihashi, I. Uekita, S. Ameno, and I. Ijiri|Effect of Direct Infusion of Acetaldehyde on Dopamine and Dopamine-Derived Salsolinol in the Striatum of Free-Moving Rats Using a Reverse Microdialysis Technique|Arch. Toxicol.81(2): 121-126|2007|10.1007/s00204-006-0131-z
97892|T||Wason,S., G. Pohlmeyer-Esch, C. Pallen, X. Palazzi, G. Espuna, and R. Bars|"17alpha-Methyltestosterone: 28-day Oral Toxicity Study in the Rat Based on the ""Enhanced OECD Test Guideline 407"" to Detect Endocrine Effects"|Toxicology192(2-3): 119-137|2003|10.1016/S0300-483X(03)00265-8
97893|T||Van den Steen,E., A. Covaci, V.L.B. Jaspers, T. Dauwe, S. Voorspoels, M. Eens, and R. Pinxten|Accumulation, Tissue-Specific Distribution and Debromination of Decabromodiphenyl Ether (BDE 209) in European Starlings (Sturnus vulgaris)|Environ. Pollut.148(2): 648-653|2007|10.1016/j.envpol.2006.11.017
97894|T||Woehrmann,T., J. Volland, K. Tuch, G. Bode, and U. Hubel|Teratogenic Effects of Nitroimidazopyridazine on the CNS in Fetal Wistar (WU) Rats|Arch. Toxicol.80(7): 458-464|2006|10.1007/s00204-006-0057-5
97895|A||Wu,S.M., Y.C. Ho, and M.J. Shih|Effects of Ca2+ or Na+ on Metallothionein Expression in Tilapia Larvae (Oreochromis mossambicus) Exposed to Cadmium or Copper|Arch. Environ. Contam. Toxicol.52(2): 229-234|2007|10.1007/s00244-006-0112-5
97896|A||Wind,T., and S.E. Belanger|Acute and Chronic Toxicity of Alcohol Ethoxylates to the Green Alga, Desmodesmus (=Scenedesmus) subspicatus, and the Subsequent Development of Structure Activity Relationships|Bull. Environ. Contam. Toxicol.76(2): 218-225|2006|10.1007/s00128-006-0910-5
97897|T||Yan,Y.P., J.Y. He, C. Zhu, C. Cheng, X.B. Pan, and Z.Y. Sun|Accumulation of Copper in Brown Rice and Effect of Copper on Rice Growth and Grain Yield in Different Rice Cultivars|Chemosphere65(10): 1690-1696|2006|10.1016/j.chemosphere.2006.05.022
97898|T||Yamasaki,K., M. Sawaki, S. Noda, and M. Takatsuki|Uterotrophic and Hershberger Assays for N-Butylbenzene in Rats|Arch. Toxicol.75(11-12): 703-706|2002|10.1007/s00204-001-0296-4
97899|A||Yildirim,M.Z., A.C.K. Benli, M. Selvi, A. Ozkul, F. Erkoc, and O. Kocak|Acute Toxicity, Behavioral Changes, and Histopathological Effects of Deltamethrin on Tissues (Gills, Liver, Brain, Spleen, Kidney, Muscle, Skin) of Nile Tilapia (Oreochromis niloticus L.) Fingerlings|Environ. Toxicol.21(6): 614-620|2006|10.1002/tox.20225
97900|T||Yalin,S., U. Comelekoglu, S. Bagis, N.O. Sahin, O. Ogenler, and R. Hatungil|Acute Effect of Single-Dose Cadmium Treatment on Lipid Peroxidation and Antioxidant Enzymes in Ovariectomized Rats|Ecotoxicol. Environ. Saf.65(1): 140-144|2006|10.1016/j.ecoenv.2005.06.006
97901|T||Xu,Y., S. Agrawal, T.J. Cook, and G.T. Knipp|Di-(2-Ethylhexyl)-Phthalate Affects Lipid Profiling in Fetal Rat Brain upon Maternal Exposure|Arch. Toxicol.81(1): 57-62|2007|10.1007/s00204-006-0143-8
97902|T||Yu,X.Z., and J.D. Gu|Accumulation and Distribution of Trivalent Chromium and Effects on Hybrid Willow (Salix matsudana Koidz x alba L.) Metabolism|Arch. Environ. Contam. Toxicol.52(4): 503-511|2007|10.1007/s00244-006-0155-7
97904|T||Wenzl,P., A. Arango, A.L. Chaves, M.E. Buitrago, G.M. Patino, J. Miles, and I.M. Rao|A Greenhouse Method to Screen Brachiariagrass Genotypes for Aluminum Resistance and Root Vigor|Crop Sci.46(2): 968-973|2006|10.2135/cropsci2005.07.0209
97905|T||Farag,A.T., A.M. El-Okazy, and A.H. Radwan|Evaluation of the Developmental Toxicity of Aldicarb in the Rat|Int. J. Biol. Biotechnol.2(1): 139-145|2005|
97906|T||Keller,R.K., Z. Zhao, C. Chambers, and G.C. Ness|Farnesol is not the Nonsterol Regulator Mediating Degradation of HMG-CoA Reductase in Rat Liver|Arch. Biochem. Biophys.328(2): 324-330|1996|10.1006/abbi.1996.0180
97907|T||Lopez,D., C.M. Chambers, and G.C. Ness|3-Hydroxy-3-Methylglutaryl Coenzyme A Reductase Inhibitors Unmask Cryptic Regulatory Mechanisms|Arch. Biochem. Biophys.343(1): 118-122|1997|10.1006/abbi.1997.0162
97908|T||Parmryd,I., and G. Dallner|In Vivo Prenylation of Rat Proteins:  Modification of Proteins with Penta- and Hexaprenyl Groups|Arch. Biochem. Biophys.364(2): 153-160|1999|10.1006/abbi.1999.1134
97909|T||Schiestl,F.P., M. Ayasse, H.F. Paulus, C. Lofstedt, B.S. Hansson, F. Ibarra, and W. Francke|Sex Pheromone Mimicry in the Early Spider Orchid (Ophrys sphegodes): Patterns of Hydrocarbons as the Key Mechanism for Pollination by Sexual Deception|J. Comp. Physiol.186(6): 567-574|2000|10.1007/s003590000112
97910|T||Shipton,C.A., I. Parmryd, E. Swiezewska, B. Andersson, and G. Dallner|Isoprenylation of Plant Proteins In Vivo.  Isoprenylated Proteins are Abundant in the Mitochondria and Nuclei of Spinach|J. Biol. Chem.270(2): 566-572|1995|10.1074/jbc.270.2.566
97911|T||Tominaga,Y., M. Yamamoto, Y. Kuwahara, and R. Sugawara|Behavioral Responses of the Pine Wood Nematode to Terpenes|Agric. Biol. Chem.48(2): 519-520|1984|
97912|T||Wilkinson,R.E.|CDAA Reversal of Fluorochloridone Carotenogenic Inhibition|Pestic. Biochem. Physiol.36(2): 168-174|1990|10.1016/0048-3575(90)90008-P
97913|T||Rogers,W.P.|The Action of Insect Juvenile Hormone on the Hatching of Eggs of the Nematode, Haemonchus contortus, and Its Role in the Development of Infective and Non-Infective Stages|Comp. Biochem. Physiol. A Comp. Physiol.66(4): 631-635|1980|10.1016/0300-9629(80)90010-9
97914|T||Rogers,W.P.|The Interaction of Insect Juvenile Hormone and Carbon Dioxide in the Hatching of Nematode Eggs:  Its Significance in the Physiology of Infective Stages|Comp. Biochem. Physiol. A Comp. Physiol.64(1): 77-80|1979|10.1016/0300-9629(79)90433-X
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97917|A||Barakat,K.K.|Effect of Cypermethrin on Protein Metabolism of the Nile Carp (Labeo niloticus) Selected from El-Nzha Airport Channel, Alexandria|Int. J. Biol. Biotechnol.1(1): 105-109|2004|
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97921|T||Conner,R.L., D.W. McAndrew, F.A. Kiehn, S.R. Chapman, and N.T. Froese|Effect of Foliar Fungicide Application Timing on the Control of Bean Anthracnose in the Navy Bean 'Navigator'|Can. J. Plant Pathol.26(3): 299-303|2004|10.1080/07060660409507147
97922|T||Vaughn,K.C., M.D. Marks, and D.P. Weeks|A Dinitroaniline-Resistant Mutant of Eleusine indica Exhibits Cross-Resistance and Supersensitivty to Antimicrotubule Herbicides and Drugs|Plant Physiol.83:956-964|1987|
97923|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomato, 1993|Arthropod Manag. Tests19:161-162|1994|10.1093/amt/19.1.161
97924|T||Witherell,P.C., and W.A. Bruce|Control of Varroa Mites on Caged Honey Bees, 1993|Arthropod Manag. Tests19:353-|1994|10.1093/amt/19.1.353
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97927|T||Zhan,X.M., H.J. Liu, Y.G. Miao, and W.P. Liu|A Comparative Study of rac- and S-Metolachlor on Some Activities and Metabolism of Silkworm, Bombyx mori L.|Pestic. Biochem. Physiol.85(3): 133-138|2006|10.1016/j.pestbp.2005.12.003
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97949|T||Hoffman,D.J., J.W. Spann, L.J. LeCaptain, C.M. Bunck, and B.A. Rattner|Developmental Toxicity of Diphenyl Ether Herbicides in Nestling American Kestrels|J. Toxicol. Environ. Health34(3): 323-336|1991|10.1080/15287399109531571
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97954|T||Saxena,K.N., and A. Basit|Inhibition of Oviposition by Volatiles of Certain Plants and Chemicals in the Leafhopper Amrasca devastans (Distant)|J. Chem. Ecol.8(2): 329-338|1982|10.1007/BF00987781
97955|T||Riley,D.|Insecticide Control of Sweetpotato Whitefly in South Texas|Subtrop. Plant Sci.46:45-49|1994|
97956|T||Maurer,J.K., A. Molai, R.D. Parker, L. Li, G.J. Carr, W.M. Petroll, H.D. Cavanagh, and J.V. Jester|Pathology of Ocular Irritation with Bleaching Agents in the Rabbit Low-Volume Eye Test|Toxicol. Pathol.29(3): 308-319|2001|10.1080/019262301316905264
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97962|T||Sar,A., S.P. Bhattacharya, A. Kumbhakar, and M. Bhattacharya|Weed Control Efficiency of Some Herbicides in Transplanted Rice (Rabi)|Environ. Ecol.10(4): 790-793|1992|
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97965|T||Wattenberg,L.W.|Inhibition of Azoxymethane-Induced Neoplasia of the Large Bowel by 3-Hydroxy-3,7,11-Trimethyl-1,6,10-Dodecatriene (Nerolidol)|Carcinogenesis12(1): 151-152|1991|10.1093/carcin/12.1.151
97966|T||Ren,Y.|Is Carbonyl Sulfide a Precursor for Carbon Disulfide in Vegetation and Soil?  Interconversion of Carbonyl Sulfide and Carbon Disulfide in Fresh Grain Tissues In Vitro|J. Agric. Food Chem.47(5): 2141-2144|1999|10.1021/jf980838u
97968|T||Zhou,R., A.E. Zaki, and D.R. Eisenmann|Morphometry and Autoradiography of Altered Rat Enamel Protein Processing due to Chronic Exposure to Fluoride|Arch. Oral Biol.41(8-9): 739-747|1996|10.1016/S0003-9969(96)00078-7
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97970|T||Nigg,H.N., L.L. Mallory, S.E. Simpson, S.B. Callaham, J.P. Toth, S. Fraser, M. Klim, S. Nagy, J.L. Nation, and J.A. Att|Caribbean Fruit Fly, Anastrepha suspensa (Loew), Attraction to Host Fruit and Host Kairomones|J. Chem. Ecol.20(3): 727-743|1994|10.1007/BF02059609
97971|T||Sisk,C.B., H.H. Shorey, R.G. Gerber, and L.K. Gaston|Semiochemicals that Disrupt Foraging by the Argentine Ant (Hymenoptera: Formicidae): Laboratory Bioassays|J. Econ. Entomol.89(2): 381-385|1996|10.1093/jee/89.2.381
97972|T||James,D.G., K. Mori, J.R. Aldrich, and J.E. Oliver|Flight-Mediated Attraction of Biprorulus bibax Breddin (Hemiptera: Pentatomidae) to Natural and Synthetic Aggregation Pheromone|J. Chem. Ecol.20(1): 71-80|1994|10.1007/BF02065991
97973|AT||Klocke,J.A., M.F. Balandrin, R.P. Adams, and E. Kingsford|Insecticidal Chromenes from the Volatile Oil of Hemizonia fitchii|J. Chem. Ecol.11(6): 701-712|1985|10.1007/BF00988299
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97978|T||Saxena,K.N., and H. Kumar|Interference of Sonic Communication and Mating in Leafhopper Amrasca devastans (Distant) by Certain Volatiles|J. Chem. Ecol.10(10): 1521-1531|1984|10.1007/BF00990321
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97981|T||Mani,M., and A. Krishnamoorthy|Further Studies on the Safety of Pesticides to Anagyrus dactylopii (Hym., Encyrtidae) and Cryptolaemus montrouzieri (Coleop., Coccinellidae)|J. Biol. Control4(2): 80-85|1990|
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97983|T||Kaur,H., and V.R. Parshad|Laboratory and Field Evaluation of Three Odorant Compounds for Improving Attraction of the Lesser Bandicoot Rat, Bandicota bengalensis (Gray) to 0.0375% Coumatetralyl Bait|Int. Biodeterior. Biodegrad.56(3): 135-142|2005|10.1016/j.ibiod.2005.06.003
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97986|T||De Biasi,M.G., S. Astolfi, A. Acampora, S. Zuchi, V. Fonzo, E. Santangelo, R. Caccia, M. Badiani, and G.P. Soressi|A H2O2-Forming Peroxidase Rather than a NAD(P)H-Dependent O2- Synthase may be the Major Player in Cell Death Responses Controlled by the Pto-Fen Complex Following Fenthion Treatment|Funct. Plant Biol.30(4): 409-417|2003|10.1071/FP02187
97987|T||Allain-Boule,N., C.A. Levesque, C. Martinez, R.R. Belanger, and R.J. Tweddell|Identification of Pythium Species Associated with Cavity-Spot Lesions on Carrots in Eastern Quebec|Can. J. Plant Pathol.26(3): 365-370|2004|10.1080/07060660409507154
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97990|A||Baer,K.N., and P. Thomas|Isolation of Novel Metal-Binding Proteins Distinct from Metallothionein from Spotted Seatrout (Cynoscion nebulosus) and Atlantic Croaker (Micropogonias undulatus) Ovaries|Mar. Biol.108:31-37|1991|10.1007/BF01313468
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97993|T||Blaylock,B.L., L.S.F. Soderberg, J. Gandy, J.H. Menna, R. Denton, and J.B. Barnett|Cytotoxic T-Lymphocyte and NK Responses in Mice Treated Prenatally with Chlordane|Toxicol. Lett.51:41-49|1990|10.1016/0378-4274(90)90223-9
97994|T||Sprando,R.L., T.F.X. Collins, T.N. Black, J. Rorie, M.J. Ames, and M. O'Donnell|Testing the Potential of Sodium Fluoride to Affect Spermatogenesis in the Rat|Food Chem. Toxicol.35(9): 881-890|1997|10.1016/S0278-6915(97)88938-7
97995|T||Usuda,K., K. Kono, T. Dote, K. Nishiura, K. Miyata, H. Nishiura, M. Shimahara, and K. Sugimoto|Urinary Biomarkers Monitoring for Experimental Fluoride Nephrotoxicity|Arch. Toxicol.72(2): 104-109|1998|10.1007/s002040050475
97996|T||Bentley,P., W. Staubli, F. Bieri, W. Muecke, and F. Waechter|Induction of Hepatic Drug-Metabolising Enzymes Following Treatment of Rats and Mice with Chlordimeform|Toxicol. Lett.28(2-3): 143-149|1985|10.1016/0378-4274(85)90023-2
97997|T||Boekelheide,K.|Rat Testis During 2,5-Hexanedione Intoxication and Recovery. I. Dose Response and the Reversibility of Germ Cell Loss|Toxicol. Appl. Pharmacol.92:18-27|1988|10.1016/0041-008X(88)90223-2
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97999|T||Arnold,D.L., C.A. Moddie, H.C. Grice, S.M. Charboneau, B. Stavric, B.T. Collins, P.F. McGuire, Z.Z. Zawidzka, and I.C. |Long-Term Toxicity of Ortho-Toluenesulfonamide and Sodium Saccharin in the Rat|Toxicol. Appl. Pharmacol.52:113-152|1980|10.1016/0041-008X(80)90253-7
98000|T||Ajami,A.M.|Inhibitors of Ester Hydrolysis as Synergists for Biological Activity of Cecropia Juvenile Hormone|J. Insect Physiol.21(5): 1017-1025|1975|10.1016/0022-1910(75)90112-2
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98003|T||Asplund,L., B. Jansson, G. Sundstrom, I. Brandt, and U.A.T. Brinkman|Characterisation of a Strongly Bioaccumulating Hexachloronaphthalene|Chemosphere15(5): 619-628|1986|10.1016/0045-6535(86)90010-X
98004|T||Abu,J.F., and C.R. Ellis|Toxicity of Five Insecticides to the Alfalfa Weevil, Hypera postica, and Its Parasites, Bathyplectes curculionis and Microctonus aethiopoides|Environ. Entomol.6(3): 385-389|1977|10.1093/ee/6.3.385
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98008|T||Locke,J.M., J.H. Bryce, and P.C. Morris|Contrasting Effects of Ethylene Perception and Biosynthesis Inhibitors on Germination and Seedling Growth of Barley (Hordeum vulgare L.)|J. Exp. Bot.51(352): 1843-1849|2000|10.1093/jexbot/51.352.1843
98009|T||Hohenegger,M., I. Huber, H. Echsel, R. Skolek-Winnisch, and M. Vermes|Metabolism of Free Fatty Acids (FA) and Triacylglycerol (TG) in Acute and Subacute Fluoride Intoxication of the Rat|Arch. Toxicol.59(4): 285-289|1986|10.1007/BF00290552
98010|A||Dosdall,L.M., and D.M. Lehmkuhl|Drift of  Aquatic Insects Following Methoxychlor Treatment of the Saskatchewan River System|Can. Entomol.121:1077-1096|1989|10.4039/Ent1211077-12
98011|T||Cullum,M.E., and M.H. Zile|Acute Polybrominated Biphenyl Toxicosis Alters Vitamin A Homeostasis and Enhances Degradation of Vitamin A|Toxicol. Appl. Pharmacol.81:177-181|1985|10.1016/0041-008X(85)90133-4
98012|T||El-Refai,A., and T.L. Hopkins|Malathion Absorption, Translocation, and Conversion to Malaoxon in Bean Plants|J. AOAC Int.55(3): 526-531|1972|10.1093/jaoac/55.3.526
98013|T||Evering,W.E.N.D., S. Haywood, I. Bremner, and J. Trafford|The Protective Role of Metallothionein in Copper Overload:  I.  Differential Distribution of Immunoreactive Metallothionein in Copper-Loaded Rat Liver and Kidney|Chem.-Biol. Interact.78(3): 283-295|1991|10.1016/0009-2797(91)90059-G
98014|T||Buschman,L.L., L. Wildman, and P.E. Sloderbeck|Spider Mite Control in Corn, 1993|Arthropod Manag. Tests19:191-192|1994|10.1093/amt/19.1.191
98015|A||John,P.J.|Alteration of Certain Blood Parameters of Freshwater Teleost Mystus vittatus After Chronic Exposure to Metasystox and Sevin|Fish Physiol. Biochem.33(1): 15-20|2007|10.1007/s10695-006-9112-7
98016|T||Johnson,J.W., and J.C. Wise|Apple, Early Season European Red Mite Control, 1993|Arthropod Manag. Tests19:26-27|1994|10.1093/amt/19.1.26
98017|A||Hong,H.N., H.N. Kim, K.S. Park, S.K. Lee, and M.B. Gu|Analysis of the Effects Diclofenac has on Japanese Medaka (Oryzias latipes) Using Real-Time PCR|Chemosphere67(11): 2115-2121|2007|10.1016/j.chemosphere.2006.12.090
98018|T||Johnson,J.W., and J.C. Wise|Apple, Treatment Combinations for Season Long Broad Spectrum Insect Control, 1994|Arthropod Manag. Tests20:26-28|1995|10.1093/amt/20.1.26
98019|T||Hotchkiss,A.K., and R.J. Nelson|An Environmental Androgen, 17beta-Trenbolone, Affects Delayed-Type Hypersensitivity and Reproductive Tissues in Male Mice|J. Toxicol. Environ. Health Part A70(2): 138-140|2007|10.1080/15287390600755091
98020|T||Hull,L.A.|Apple, Tufted Apple Bud Moth Management Tactics, 1994|Arthropod Manag. Tests20:20-24|1995|10.1093/amt/20.1.20
98022|T||Hull,L.A., and D.J. Biddinger|Apple, Tufted Apple Bud Moth Control Tactics, 1993|Arthropod Manag. Tests19:16-19|1994|10.1093/amt/19.1.16
98023|T||Hasan,M.Y., W.B. Alshuaib, A. Adem, S. Singh, and M.A. Fahim|alpha-Tocopherol Modifies Lead Induced Functional Changes at Murine Neuromuscular Junction|Free Radic. Res.38(12): 1321-1328|2004|10.1080/10715760400017236
98025|T||Hogmire,H.W., and T. Winfield|Acaricide Evaluation, 1998|Arthropod Manag. Tests24:17-18|1999|
98026|T||Henson-Ramsey,H., S. Kennedy-Stoskopf, J. Levine, D. Shea, S.K. Taylor, and M.K. Stoskopf|A Comparison of Two Exposure Systems to Apply Malathion to Lumbricus terrestris L.|Bull. Environ. Contam. Toxicol.78(6): 427-431|2007|10.1007/s00128-007-9194-7
98027|A||Hassler,C.S., R.D. Chafin, M.B. Klinger, and M.R. Twiss|Application of the Biotic Ligand Model to Explain Potassium Interaction with Thallium Uptake and Toxicity to Plankton|Environ. Toxicol. Chem.26(6): 1139-1145|2007|10.1897/06-315R.1
98028|A||Franco,J.L., D.B.B. Trivella, R. Trevisan, D.F. Dinslaken, M.R.F. Marques, A.C.D. Bainy, and A.L. Dafre|Antioxidant Status and Stress Proteins in the Gills of the Brown Mussel Perna perna Exposed to Zinc|Chem.-Biol. Interact.160(3): 232-240|2006|10.1016/j.cbi.2006.02.002
98029|A||Hong,L., and M.H. Li|Acute Toxicity of 4-Nonylphenol to Aquatic Invertebrates in Taiwan|Bull. Environ. Contam. Toxicol.78(6): 445-449|2007|10.1007/s00128-007-9216-5
98030|A||Guha,B., J.K. Das, and A.R. Khuda-Bukhsh|Ameliorative Effects of Vitamin Supplementation on Ethyl Methane Sulphonate-Induced Genotoxicity in a Fish, Anabas testudineus|Ecotoxicol. Environ. Saf.68(1): 63-70|2007|10.1016/j.ecoenv.2006.06.001
98032|T||Gastaldi,L., E. Ranzato, F. Capri, P. Hankard, G. Peres, L. Canesi, A. Viarengo, and G. Pons|Application of a Biomarker Battery for the Evaluation of the Sublethal Effects of Pollutants in the Earthworm Eisenia andrei|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(3): 398-405|2007|10.1016/j.cbpc.2007.04.014
98033|A||Chen,L.H., and J.L. Yang|Acute Toxicity of Antimony Chloride and Its Effects on Oxygen Consumption of Common Carp (Cyprinus carpio )|Bull. Environ. Contam. Toxicol.78(6): 459-462|2007|10.1007/s00128-007-9205-8
98034|T||Csinos,A.S., T.M. Webster, D.R. Sumner, A.W. Johnson, C.C. Dowler, and K.W. Seebold|Application and Crop Safety Parameters for Soil Fumigants|Crop Prot.21(10): 973-982|2002|10.1016/S0261-2194(02)00077-7
98035|T||Brown,S., B. Christensen, E. Lombi, M. McLaughlin, S. McGrath, J. Colpaert, and J. Vangronsveld|An Inter-laboratory Study to Test the Ability of Amendments to Reduce the Availability of Cd, Pb, and Zn In Situ|Environ. Pollut.138(1): 34-45|2005|10.1016/j.envpol.2005.02.020
98036|A||Amlund,H., A.K. Lundebye, and M.H.G. Berntssen|Accumulation and Elimination of Methylmercury in Atlantic Cod (Gadus morhua L.) Following Dietary Exposure|Aquat. Toxicol.83(4): 323-330|2007|10.1016/j.aquatox.2007.05.008
98037|T||Favero,A.M., S.N. Weis, E.C. Stangherlin, G. Zeni, J.B.T. Rocha, and C.W. Nogueira|Adult Male Rats Sub-Chronically Exposed to Diphenyl Diselenide:  Effects on Their Progeny|Reprod. Toxicol.23(1): 119-123|2007|10.1016/j.reprotox.2006.09.004
98038|A||Brausch,J.M., B. Beall, and P.N. Smith|Acute and Sub-Lethal Toxicity of Three POEA Surfactant Formulations to Daphnia magna|Bull. Environ. Contam. Toxicol.78(6): 510-514|2007|10.1007/s00128-007-9091-0
98039|A||Coors,A., M. Hammers-Wirtz, and H.T. Ratte|Adaptation to Environmental Stress in Daphnia magna Simultaneously Exposed to a Xenobiotic|Chemosphere56(4): 395-404|2004|10.1016/j.chemosphere.2004.04.025
98040|T||Hodge,H.C., E.A. Maynard, W.L. Downs, J.K. Ashton, and L.L. Salerno|Tests on Mice for Evaluating Carcinogenicity|Toxicol. Appl. Pharmacol.9(3): 583-596|1966|10.1016/0041-008X(66)90019-6
98042|T||Oser,B.L., and M. Oser|2-(p-tert-Butylphenoxy)Isopropyl 2-Chloroethyl Sulfite (Aramite). I. Acute, Subacute, and Chronic Oral Toxicity|Toxicol. Appl. Pharmacol.2(4): 441-457|1960|10.1016/0041-008X(60)90011-9
98044|T||Groussol,J., S. Delrot, S. Houngbossa, P. Caruhel, and J.L. Bonnemain|Use of an Improved Exudation Method for the Study of Phloem Mobility of Pesticides|Plant Biol.1:619-626|1986|
98045|T||Williams,D.J., B.G.W. Beach, D. Horriere, and G. Marechal|LS 74-783, a New Systemic Fungicide with Activity Against Phycomycete Diseases|Br. Crop Prot. Conf. Pests Dis.2:565-573|1977|
98046|T||Steurbaut,W., J. Barbe, G. Melkebeke, and W. Dejonckheere|Influence of Surfactants on the Uptake and Activity of Fungicides by Plants in Hydroponic Culture|Meded. Fac. Landbouwwet. Rijksuniv. Gent48(4): 955-959|1983|
98047|T||Johnson,D.J., D.G. Graham, V. Amarnath, K. Amarnath, and W.M. Valentine|Release of Carbon Disulfide is a Contributing Mechanism in the Axonopathy Produced by N,N-Diethyldithiocarbamate|Toxicol. Appl. Pharmacol.148(2): 288-296|1998|10.1006/taap.1997.8344
98049|T||Opacka,J., B. Opalska, J. Kolakowski, and T. Wronska-Nofer|Neurotoxic Effects of the Combined Exposure to Carbon Disulphide and Ethanol in Rats|Toxicol. Lett.32(1-2): 9-18|1986|10.1016/0378-4274(86)90043-3
98050|T||Valentine,W.M., H.L. Valentine, K. Amarnath, and V. Amarnath|Toluene-3,4-Dithiol Analysis of Blood for Assessing Carbon Disulfide Exposure|Toxicol. Sci.50(2): 155-163|1999|10.1093/toxsci/50.2.155
98051|T||Shashi|Fluoride-Induced Changes in Rabbit Lens During Experimental Fluorosis|J. Environ. Biol.11(2 suppl.): 247-251|1990|
98052|T||Chen,H.S., and S.T. Huang|Effects of Fluoride on Deciduous Teeth Resorption of Young Rabbits|Bull. Environ. Contam. Toxicol.52(2): 212-219|1994|10.1007/BF00198490
98053|T||Jain,S.K., and A.K. Susheela|Effect of Sodium Fluoride on Antibody Formation in Rabbits|Environ. Res.44(1): 117-125|1987|10.1016/S0013-9351(87)80091-9
98056|A||Lone,K.P., and A.J. Matty|The Effect of Feeding Methyltestosterone on the Growth and Body Composition of Common Carp (Cyprinus carpio L.)|Gen. Comp. Endocrinol.40(4): 409-424|1980|10.1016/0016-6480(80)90004-0
98057|A||Monsanto Co.|Acute Toxicity of Nonylphenol to Daphnia magna|Monsanto Chemical Company, St.Louis, MO:8 p.|2000|
98058|A||General Electric Corp.|Daphnia magna:  Prolonged Toxicity with Nonylphenol with Cover Letter Dated 02/24/1997|EPA/OTS Doc.#86970000257:70 p.|2000|
98060|A||Chemical Manufacturers Association|Chronic Toxicity of Nonylphenol to the Mysid, Mysidopis bahia & the Early Life Stage Toxicity of Nonylphenol to the Fathead Minnow Pimephales promelas (Final Reports) with Letter|EPA/OTS Doc.#40-9118170:59 p.|2000|
98061|A||Chemical Manufacturers Association|Letter from Chem MFGS ASSN to U.S. EPA Regarding Submission of Aquatic Toxicity Study on Octylphenol with Attachments|Chemical Manufacturers Association, Washington, DC:30 p.|2000|
98063|T||Leiva-Presa,A., A.S. Mortensen, A. Arukwe, and B.M. Jenssen|Altered Hepatic Retinol and CYP26 Levels in Adult European Common Frogs (Rana temporaria) Exposed to P,P'-DDE|Mar. Environ. Res.62(suppl.1): S10 - S15|2006|
98064|T||Khattab,A.D., C.H. Walker, G. Johnston, M.K. Siddiqui, and P.W. Saphier|An ELISA Assay for Avian Serum Butyrylcholinesterase:  A Biomarker for Organophosphates|Environ. Toxicol. Chem.13(10): 1661-1667|1994|10.1002/etc.5620131016
98065|T||McDaneld,T.G., D.L. Hancock, and D.E. Moody|Altered mRNA Abundance of ASB15 and Four Other Genes in Skeletal Muscle Following Administration of beta-Adrenergic Receptor Agonists|Physiol. Genomics16(2): 275-283|2004|10.1152/physiolgenomics.00127.2003
98066|T||Mayer,D.F., and S.J. Bradley|Apple Aphid Control, 1994|Arthropod Manag. Tests20:30-|1995|10.1093/amt/20.1.30
98067|A||Lyssimachou,A., and A. Arukwe|Alteration of Brain and Interrenal StAR Protein, P450scc, and Cyp11beta mRNA Levels in Atlantic Salmon After Nominal Waterborne Exposure to the Synthetic Pharmaceutical Estrogen Ethynylestradiol|J. Toxicol. Environ. Health Part A70(7): 606-613|2007|10.1080/10937400600882905
98068|A||Nakayama,K., Y. Oshima, T. Tachibana, M. Furuse, and T. Honjo|Alteration of Monoamine Concentrations in the Brain of Medaka, Oryzias latipes, Exposed to Tributyltin|Environ. Toxicol.22(1): 53-57|2007|10.1002/tox.20233
98069|A||Pickhardt,P.C., and N.S. Fisher|Accumulation of Inorganic and Methylmercury by Freshwater Phytoplankton in Two Contrasting Water Bodies|Environ. Sci. Technol.41(1): 125-131|2007|10.1021/es060966w
98070|T||Kuwano,E., and M. Eto|Anti-Juvenile Hormone Effects of an Imidazole Compound (KK-42) in Different Larval Instars of Bombyx mori|Agric. Biol. Chem.50(11): 2919-2920|1986|
98071|T||Nomura,T., T. Enomoto, K. Shibata, T. Kanzaki, H. Tanaka, S. Hata, S. Kimura, T. Kusafuka, K. Sobue, S. Miyamoto, H. Na|Antiteratogenic Effects of Tumor Inhibitors, Caffeine, Antipain, and Retinoic Acid in Mice|Cancer Res.43(11): 5156-5162|1983|
98072|T||Obata,T.|Allopurinol Suppresses 2-Bromoethylamine and 1-Methyl-4-Phenylpyridinium Ion (MPP+)-Induced Hydroxyl Radical Generation in Rat Striatum|Toxicology218(1): 75-79|2006|10.1016/j.tox.2005.09.012
98074|T||Pereira,C., K. Mapuskar, and C.V. Rao|A Two Generation Chronic Mixture Toxicity Study of Clophen A60 and Diethyl Phthalate After Gestational and Lactational Exposure in Female Wistar Rats|Pestic. Biochem. Physiol.88(2): 156-166|2007|10.1016/j.pestbp.2006.10.008
98075|A||Nickell,L.G., and A.C. Finlay|Growth Modifiers:  Antibiotics and Their Effects on Plant Growth|J. Agric. Food Chem.2(4): 178-182|1954|10.1021/jf60024a003
98076|T||Anderson,P., M. Hilker, B.S. Hansson, S. Bombosch, B. Klein, and H. Schildknecht|Oviposition Deterring Components in Larval Frass of Spodoptera littoralis (Boisd.) (Lepidoptera:Noctuidae):  A Behavioral and Electrophysiological Evaluation|J. Insect Physiol.39(2): 129-137|1993|10.1016/0022-1910(93)90104-Y
98077|T||Nakaune,R., K. Adachi, O. Nawata, M. Tomiyama, K. Akutsu, and T. Hibi|A Novel ATP-Binding Cassette Transporter Involved in Multidrug Resistance in the Phytopathogenic Fungus Penicillium digitatum|Appl. Environ. Microbiol.64(10): 3983-3988|1998|10.1128/AEM.64.10.3983-3988.1998
98078|T||Regev,S., and W.W. Cone|Analyses of Pharate Female Twospotted Spider Mites for Nerolidol and Geraniol:  Evaluation for Sex Attraction of Males|Environ. Entomol.5(1): 133-138|1976|10.1093/ee/5.1.133
98079|T||Solis-Dominguez,F.A., M.C. Gonzalez-Chavez, R. Carrillo-Gonzalez, and R. Rodriguez-Vazquez|Accumulation and Localization of Cadmium in Echinochloa polystachya Grown Within a Hydroponic System|J. Hazard. Mater.141(3): 630-636|2007|10.1016/j.jhazmat.2006.07.014
98081|T||Meyer,A., F.J. Seidler, and T.A. Slotkin|Developmental Effects of Chlorpyrifos Extend Beyond Neurotoxicity:  Critical Periods for Immediate and Delayed-Onset Effects on Cardiac and Hepatic Cell Signaling|Environ. Health Perspect.112(2): 170-178|2004|10.1289/ehp.6690
98082|T||Trotta,A., P. Falaschi, L. Cornara, V. Minganti, A. Fusconi, G. Drava, and G. Berta|Arbuscular Mycorrhizae Increase the Arsenic Translocation Factor in the As Hyperaccumulating Fern Pteris vittata L.|Chemosphere65(1): 74-81|2006|10.1016/j.chemosphere.2006.02.048
98085|T||Uchida,M., Y. Izawa, and T. Sugimoto|Antagonistic Effect of 20-Hydroxyecdysone to an Insect Growth Regulator, Buprofezin, in Nilaparvata lugens Stal|Agric. Biol. Chem.50(7): 1913-1915|1986|
98086|A||Richards,S.M., and S.E. Cole|A Toxicity and Hazard Assessment of Fourteen Pharmaceuticals to Xenopus laevis Larvae|Ecotoxicology15(8): 647-656|2006|10.1007/s10646-006-0102-4
98087|T||Yousef,M.I., A.M.A. El-Morsy, and M.S. Hassan|Aluminium-Induced Deterioration in Reproductive Performance and Seminal Plasma Biochemistry of Male Rabbits:  Protective Role of Ascorbic Acid|Toxicology215(1-2): 97-107|2005|10.1016/j.tox.2005.06.025
98088|T||Bates,J.F.|Preliminary Trials with Desiccants in Sugar Cane|Proc. Br. West Indies Sugar Technol.:43-48|1960|
98089|T||Yokoyama,K., S. Araki, A. Akabayashi, T. Kato, T. Sakai, and H. Sato|Alteration of Glucose Metabolism in the Spinal Cord of Experimental Lead Poisoning Rats: Microdetermination of Glucose Utilization Rate and Distribution Volume|Ind. Health38(2): 221-223|2000|10.2486/indhealth.38.221
98090|T||Yokel,R.A., and R.L. Florence|Aluminum Bioavailability from the Approved Food Additive Leavening Agent Acidic Sodium Aluminum Phosphate, Incorporated into a Baked Good, is Lower than from Water|Toxicology227(1-2): 86-93|2006|10.1016/j.tox.2006.07.014
98091|T||Halabisky,D.D., and G. Ifju|Use of Respirometry for Fast and Accurate Evaluation of Wood Preservatives|Proc. Annu. Meet. Am. Wood-Preservers' Assoc.64:215-223|1968|
98092|A||Parent,L., and P.G.C. Campbell|Aluminum Bioavailability to the Green Alga Chlorella pyrenoidosa in Acidified Synthetic Soft Water|Environ. Toxicol. Chem.13(4): 587-598|1994|10.1002/etc.5620130407
98093|T||Wang,X.J., E. Bartolucci-Page, S.E. Fenton, and L. You|Altered Mammary Gland Development in Male Rats Exposed to Genistein and Methoxychlor|Toxicol. Sci.91(1): 93-103|2006|10.1093/toxsci/kfj120
98094|T||Shorey,H.H., L.K. Gaston, R.G. Gerber, C.B. Sisk, and D.L. Wood|Disruption of Foraging by Formica aerata (Hymenoptera: Formicidae) Through the Use of Semiochemicals and Related Chemicals|Environ. Entomol.22(5): 920-924|1993|10.1093/ee/22.5.920
98095|T||Wen,C.K., and C. Chang|Arabidopsis RGL1 Encodes a Negative Regulator of Gibberellin Responses|Plant Cell14(1): 87-100|2002|10.1105/tpc.010325
98096|T||Vecera,J., N. Krishnan, G. Alquicer, D. Kodrik, and R. Socha|Adipokinetic Hormone-Induced Enhancement of Antioxidant Capacity of Pyrrhocoris apterus Hemolymph in Response to Oxidative Stress|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(3): 336-342|2007|10.1016/j.cbpc.2007.04.005
98097|T||Schuster,D.J.|Management of the Sweetpotato Whitefly and Geminivirus on Fresh Market Tomatoes in West-Central Florida, Spring 1992|Insectic. Acaric. Tests18:177-179|1993|10.1093/iat/18.1.177
98098|T||Virgolini,M.B., M. Volosin, A.S. Fulginiti, and L.M. Cancela|Amphetamine and Stress Responses in Developmentally Lead-Exposed Rats|Neurotoxicol. Teratol.26(2): 291-303|2004|10.1016/j.ntt.2003.11.001
98099|T||Van den Hurk,P., F.E. Wiley, E.T. Lavoie, K.A. Grasman, and W.W. Bowerman|Activity Patterns of Biotransformation Enzymes in Juvenile Chickens After In Ovo Dosage of PCB126|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(3): 301-307|2007|10.1016/j.cbpc.2007.03.004
98101|T||Melki,K.C., I.O. Giannakou, B. Pembroke, and S.R. Gowen|The Cumulative Build-Up of Pasteuria penetrans Spores in Root-Knot Nematode Infested Soil and the Effect of Soil Applied Fungicides on Its Infectivity|Fundam. Appl. Nematol.21(6): 679-683|1998|
98102|T||Palumbo,J.C., C.H. Mullis, and F.J. Reyes|Control of Sweetpotato Whitefly in Cantaloupe with Various Pesticides, 1992|Insectic. Acaric. Tests18:117|1993|10.1093/iat/18.1.117
98105|T||Sharma,R.N., V. Tare, P. Pawar, and P.H. Vartak|Toxic Effects of Some Plant Oils and Their Common Constituents on the Psyllid Pest, Heteropsylla cubana (Homoptera:  Psyllidae) of Social Forestry Tree Leucaena leucocephala|Appl. Entomol. Zool.27(2): 285-287|1992|10.1303/aez.27.285
98106|T||Lochnit,G., R. Bongaarts, and R. Geyer|Searching new Targets for Anthelminthic Strategies:  Interference with Glycosphingolipid Biosynthesis and Phosphorylcholine Metabolism Affects Development of Caenorhabditis elegans|Int. J. Parasitol.35(8): 911-923|2005|10.1016/j.ijpara.2005.02.015
98107|T||Novak,V.J.A.|Morphogenetic Analysis of the Effects of Juvenile Hormone Analogues and Other Morphogenetically Active Substances on Embryos of Schistocerca gregaria (Forskal)|J. Embryol. Exp. Morphol.21(1): 1-21|1969|
98108|T||Bhattacharya,S.P., M. Mandal, P.K. Mukherjee, and S. Banerjee|Bioefficacy of Some Herbicides on Transplanted Rice Culture|Environ. Ecol.19(3): 500-503|2001|
98109|T||Peter,S., G.E. Palme, and G. Rohrborn|Mutagenicity of Polycyclic Hydrocarbons III.  Monitoring Genetic Hazards of Benz(a)anthracene|Acta. Morphol. Acad. Sci. Hung.27(3): 199-204|1979|
98111|T||Smith,C.E., A. Nanci, and P.K. Denbesten|Effects of Chronic Fluoride Exposure on Morphometric Parameters Defining the Stages of Amelogenesis and Ameloblast Modulation in Rat Incisors|Anat. Rec.237(2): 243-258|1993|10.1002/ar.1092370212
98112|AT||Takahashi,H., A. Ohki, M. Kanzaki, A. Tanaka, Y. Sato, B. Matthes, P. Boger, and K. Wakabayashi|Very-Long-Chain Fatty Acid Biosynthesis is Inhibited by Cafenstrole, N,N-Diethyl-3-Mesitylsulfonyl-1H-1,2,4-Triazole-1-Carboxamide and Its Analogs|Z. Naturforsch.56C(9/10): 781-786|2001|10.1515/znc-2001-9-1016
98113|AT||Rao,K.N., and K.M. Gupta|Studies on Weed Control in Rice with Herbicides|Pesticides 16(10): 19-21|1982|
98114|T||Sugha,S.K., and B.M. Singh|Effect of Herbicides on the Exudation of Sugar, Amino Acids and the Severity of Glume Blight of Rice|Pesticides 21(10): 46-48|1987|
98115|AT||Kathiresan,R.M., K. Ramah, and C. Sivakumar|Integration of Azolla, Fish and Herbicides for Rice Weed Management|Br. Crop Prot. Conf. Weeds2:625-632|2001|
98116|T||Ahmed,M., and S.C. Vyas|Effect of Herbicides on Soil- and Seed-Borne Nature of Fungi|J. Mycol. Plant Pathol.27(2): 191-194|1997|
98117|T||Ahmad,M., and S.C. Vyas|Control of Dry Rot and Leaf Blight of Sesame by Herbicides|J. Mycol. Plant Pathol.27(2): 222-224|1997|
98118|A||Ravindran,C.R.M., S. Suguna, and S. Shanmugasundaram|Tolerance of Oscillatoria Isolates to Agrochemicals and Pyrethroid Components|Indian J. Exp. Biol.38(4): 402-404|2000|
98119|A||Prakash,P., H.V. Nanjappa, and B.K. Ramachandrappa|Chemical Weed Control in Direct Seeded Puddled Rice (Oryza sativa (L.)|Crop Res. (Hisar)9(2): 197-202|1995|
98120|A||Geoffroy,L., M. Couderchet, and G. Vernet|Catalase Activity of Scenedesmus obliquus as a Biomarker of Environmental Pollution by Herbicides and Copper|Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2B): 843-852|2000|
98121|T||Verma,O.P.S., S.K. Katyal, and V.M. Bhan|Studies on Relative Efficiency of Promising Herbicides in Transplanted Rice|Indian J. Agron.32(4): 374-377|1987|
98122|T||Ramiah,S., and P. Muthukrishnan|Effect of Weed Control on Weed Growth and Grain Yield of Semi-Dry Rice (Oryza sativa)|Indian J. Agron.37(2): 317-319|1992|
98123|T||Mishra,R.K., M.R. Deshmukh, V.K. Paradkar, and K.L. Tiwari|Efficiency of Herbicides in Direct Seeded Rice (Oryza sativa L.)|Pesticides 22(4): 10-12|1988|
98124|T||Prasad,K., and A. Rafey|Effect of Integrated Weed Management on Weed Growth, Nutrient Uptake, Economics and Energetics in Rainfed Upland Rice (Oryza sativa)|Indian J. Agric. Sci.65(4): 260-264|1995|
98126|T||Howard,J.J., J.,Jr. Cazin, and D.F. Wiemer|Toxicity of Terpenoid Deterrents to the Leafcutting Ant Atta cephalotes and Its Mutualistic Fungus|J. Chem. Ecol.14(1): 59-69|1988|10.1007/BF01022531
98127|T||Donaldson,J.M.I., T.P. McGovern, and T.L.Jr. Ladd|Trapping Techniques and Attractants for Cetoniinae and Rutelinae (Coleoptera:  Scarabaeidae)|J. Econ. Entomol.79(2): 374-377|1986|10.1093/jee/79.2.374
98128|T||Lwande,W., A.J. Ndakala, A. Hassanali, L. Moreka, E. Nyandat, M. Ndungu, H. Amiani, P.M. Gitu, M.M. Malonza, and D.K. P|Gynandropsis gynandra Essential Oil and Its Constituents as Tick (Rhipicephalus appendiculatus) Repellents|Phytochemistry50(3): 401-405|1998|10.1016/S0031-9422(98)00507-X
98129|T||Dawson,G.W., D.C. Griffiths, J.A. Pickett, M.C. Smith, and C.M. Woodcock|Improved Preparation of (E)-Beta-Farnesene and Its Activity with Economically Important Aphids|J. Chem. Ecol.8(8): 1111-1117|1982|10.1007/BF00986981
98130|T||Oms,P., N. Assie, F. Bruniquel, A.D. Degryse, G. Van Haverbeke, and A. Delhon|Biochemical Changes and Morphological Alterations of Liver and Kidney in Hamsters After Administration of the HMG-Coenzyme A Reductase Inhibitor, Simvastatin:  Prevention and Reversibility by Mevalonate|Pharmacol. Toxicol.77(6): 391-396|1995|10.1111/j.1600-0773.1995.tb01048.x
98131|AT||Sumida,M., H. Kohno, K. Shouda, H. Fukami, T. Tanaka, K. Wakabayashi, and P. Boger|Protoporphyrinogen-IX Oxidase Inhibition of new Diphenyl Ethers|J. Pestic. Sci. (Multiple Languages)21(3): 317-321|1996|10.1584/jpestics.21.317
98132|T||Gogoi,A.K.|Weed Control in Late-Transplanted, Lowland Rice (Oryza sativa)|Indian J. Agron.43(2): 298-301|1998|
98133|T||Angiras,N.N., and V.K. Sharma|Effect of Seed Rates, Interculture and Weed-Control Methods to Manage Weeds in Direct-Seeded Upland Rice (Oryza sativa)|Indian J. Agron.43(3): 431-436|1998|
98134|T||Dalvi,R.R., and C.D. Howell|Interaction of Parathion and Malathion with Hepatic Cytochrome P-450 from Rats Treated with Phenobarbital and Carbon Disulfide|Drug Chem. Toxicol.1(2): 191-202|1978|10.3109/01480547809034435
98135|T||Kathiresan,G., and M.L. Manoharan|Effect of Seed Rate and Methods of Weed Control on Weed Growth and Yield of Direct-Sown Rice (Oryza sativa)|Indian J. Agron.47(2): 212-215|2002|
98137|T||Mizutani,T., H. Nomura, K. Nakanishi, and S. Fujita|Hepatotoxicity of Butylated Hydroxytoluene and Its Analogs in Mice Depleted of Hepatic Glutathione|Toxicol. Appl. Pharmacol.87(1): 166-176|1987|10.1016/0041-008X(87)90094-9
98138|T||Snyderwine,E.G., and A. Hunter|Metabolism and Distribution of 14C- and 35S-Labeled Carbon Disulfide in Immature Rats of Different Ages|Drug Metab. Dispos.15(3): 289-294|1987|
98139|T||Reed,D.K., M. Jacobson, J.D.,Jr. Warthen, E.C. Uebel, N.J. Tromley, L. Jurd, and B. Freedman|Cucumber Beetle Antifeedants:  Laboratory Screening of Natural Products|USDA Tech.Bull.1641:13 p.|1981|
98140|T||Kowalski,J.C., and R.E. Thorson|Effects of Certain Lipid Compounds on Growth and Asexual Multiplication of Mesocestoides corti (Cestoda) Tetrathyridia|Int. J. Parasitol.6(4): 327-331|1976|10.1016/0020-7519(76)90055-2
98141|T||Curry,E.A.|Farnesene and Squalene Reduce Scald in Apples and Pears|Acta Hortic.518:137-144|2000|10.17660/ActaHortic.2000.518.18
98142|T||Undeen,A.H., and S.W. Avery|Effect of Anions on the Germination of Nosema algerae (Microspora:  Nosematidae) Spores|J. Invertebr. Pathol.52(1): 84-89|1988|10.1016/0022-2011(88)90106-1
98143|A||Marsalek,B., and M. Simek|Abscisic Acid and Its Synthetic Analog in Relation to Growth and Nitrogenase Activity of Azotobacter chroococcum and Nostoc muscorum|Folia Microbiol. (Prague)37(2): 159-160|1992|10.1007/BF02836623
98144|T||Punj,G.K., and A.N. Verma|Susceptibility to Certain Fumigants of Male and Female Pupae of Trogoderma granarium Everts (Coleoptera, Dermestidae)|J. Stored Prod. Res.6(3): 263-267|1970|10.1016/0022-474X(70)90016-0
98145|T||Lovell,D.P., S.P. Tucker, and V.J. Cunningham|Variation in the Hepatotoxic Effects of Carbon Disulphide in the Rat:  Evidence for Polygenic Inheritance|Toxicol. Lett.10(1): 11-16|1982|10.1016/0378-4274(82)90260-0
98146|T||Mostafa,S.A.S., A.H. Kamel, A.K.M. El-Nahal, and F.M. El-Borollosy|Toxicity of Carbon Bisulphide and Methyl Bromide to the Eggs of Four Stored Product Insects|J. Stored Prod. Res.8(3): 193-198|1972|10.1016/0022-474X(72)90039-2
98147|T||Masuda,Y., and N. Nakayama|Protective Action of Diethyldithiocarbamate and Carbon Disulfide Against Renal Injury Induced by Chloroform in Mice|Biochem. Pharmacol.32(21): 3127-3135|1983|10.1016/0006-2952(83)90194-6
98148|T||Kumar,S., K.G. Patel, A.K. Gautam, K. Agarwal, B.A. Shah, and H.N. Saiyed|Detection of Germ Cell Genotoxic Potential of Carbon Disulphide Using Sperm Head Shape Abnormality Test|Hum. Exp. Toxicol.18(12): 731-734|1999|10.1191/096032799678839608
98149|T||Pongo,E., Z. Balla, K. Mubagwa, W. Flameng, I. Edes, Z. Szilvassy, and P. Ferdinandy|Deterioration of the Protein Kinase C-KATP Channel Pathway in Regulation of Coronary Flow in Hypercholesterolaemic Rabbits|Eur. J. Pharmacol.418(3): 217-223|2001|10.1016/S0014-2999(01)00954-2
98150|T||Jahangir,T., T.H. Khan, L. Prasad, and S. Sultana|Farnesol Prevents Fe-NTA-Mediated Renal Oxidative Stress and Early Tumour Promotion Markers in Rats|Hum. Exp. Toxicol.25(5): 235-242|2006|10.1191/0960327106ht616oa
98151|T||Szilvassy,Z., R. Sari, J. Nemeth, I. Nagy, S. Csati, and J. Lonovics|Improvement of Nitrergic Relaxation by Farnesol of the Sphincter of Oddi from Hypercholesterolaemic Rabbits|Eur. J. Pharmacol.353(1): 75-78|1998|10.1016/S0014-2999(98)00449-X
98152|T||Peterson,C., J. Zhu, and J.R. Coats|Identification of Components of Osage Orange Fruit (Maclura pomifera) and Their Repellency to German Cockroaches|J. Essent. Oil Res.14(3): 233-236|2002|10.1080/10412905.2002.9699833
98153|T||Vatner,D.E., S.F. Vatner, J. Nejima, N. Uemura, E.E. Susanni, T.H. Hintze, and C.J. Homcy|Chronic Norepinephrine Elicits Desensitization by Uncoupling the beta-Receptor|J. Clin. Invest.84(6): 1741-1748|1989|10.1172/JCI114357
98154|T||Parke,D.V., and H. Rahman|The Effects of Some Terpenoids and Other Dietary Anutrients on Hepatic Drug-Metabolizing Enzymes|Biochem. J. (Lond.)113(2): 12P|1969|
98155|A||Thorpe,J.L., M. Doitsidou, S.Y. Ho, E. Raz, and S.A. Farber|Germ Cell Migration in Zebrafish is Dependent on HMGCoA Reductase Activity and Prenylation|Dev. Cell6(2): 295-302|2004|10.1016/S1534-5807(04)00032-2
98156|T||Sharma,S.R., and A. Varma|Control of Yellow Mosaic of Mungbean Through Insecticides and Oils|J. Entomol. Res.6(2): 130-136|1982|
98157|T||Singh,A.K., D.S. Gupta, and S.F. Hameed|Translocation and Dissipation of Disulfoton in Mung Bean, Vigna radiata var. aureus Hubn.|J. Entomol. Res.7(2): 127-132|1983|
98158|T||Marei,A.E.S.M., L.O. Ruzo, and J.E. Casida|Analysis and Persistence of Permethrin, Cypermethrin, Deltamethrin, and Fenvalerate in the Fat and Brain of Treated Rats|J. Agric. Food Chem.30(3): 558-562|1982|10.1021/jf00111a037
98162|T||Ferdinandy,P., C. Csonka, T. Csont, Z. Szilvassy, and L. Dux|Rapid Pacing-Induced Preconditioning is Recaptured by Farnesol Treatment in Hearts of Cholesterol-Fed Rats:  Role of Polyprenyl Derivatives and Nitric Oxide|Mol. Cell. Biochem.186(1-2): 27-34|1998|10.1023/A:1006832929044
98163|T||Lee,B.H., W.S. Choi, S.E. Lee, and B.S. Park|Fumigant Toxicity of Essential Oils and Their Constituent Compounds Towards the Rice Weevil, Sitophilus oryzae (L.)|Crop Prot.20(4): 317-320|2001|10.1016/S0261-2194(00)00158-7
98164|T||Sharma,C.B.S.R., R.N. Rao, D.S.S. Raju, and K.V. Murty|Cytogenetic Hazards from Agricultural Chemicals.  6.  Persisting Impact of Organophosphorus Insecticides on the Chiasma Frequencies in Barley|Biol. Zentbl. (Multiple languages)102(5): 567-570|1983|
98165|T||Yang,Z., M. Bengtsson, and P. Witzgall|Host Plant Volatiles Synergize Response to Sex Pheromone in Codling Moth, Cydia pomonella|J. Chem. Ecol.30(3): 619-629|2004|10.1023/B:JOEC.0000018633.94002.af
98166|T||Wojtyla-Kuchta,B., and B. Gabara|Changes in the Content of DNA of NYS-Stained Nuclear, Nucleolar and Cytoplasmic Proteins in Cortex Cells of Pea (Pisum sativum cv. De Grace) Roots Treated with Cadmium|Biochem. Physiol. Pflanzen (Multiple Languages)187(1): 67-76|1991|10.1016/S0015-3796(11)80191-5
98167|T||Obrenovic,S.|Effects of Respiratory Inhibitors on Red Light and Lumiflavin Induced Betacyanin Formation in Amaranthus caudatus L. Seedlings|Biochem. Physiol. Pflanzen (Multiple Languages)187(5): 373-384|1991|10.1016/S0015-3796(11)80043-0
98168|T||Ranieri,A., M. Durante, A. Volterrani, G. Lorenzini, and G.F. Soldatini|Effects of Low SO2 Levels on Superoxide Dismutase and Peroxidase Isoenzymes in Two Different Wheat Cultivars|Biochem. Physiol. Pflanzen (Multiple Languages)188(1): 67-71|1992|10.1016/S0015-3796(11)80265-9
98169|T||Przymusinski,R., M. Spychala, and E.A. Gwozdz|Inorganic Lead Changes Growth and Polypeptide Pattern of Lupin Roots|Biochem. Physiol. Pflanzen (Multiple Languages)187(1): 51-57|1991|10.1016/S0015-3796(11)80187-3
98170|T||Upadhyaya,A., T.D. Davis, and R.H. Walser|Alleviation of Sulfur Dioxide-Induced Phytotoxicity in Cucumber Plants by Uniconazole|Biochem. Physiol. Pflanzen (Multiple Languages)187(1): 59-65|1991|10.1016/S0015-3796(11)80189-7
98171|T||Chu,I., V.E. Valli, and C.G. Rousseaux|Combined Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Polychlorinated Biphenyl Congeners in Rats|Toxicol. Environ. Chem.89(1): 71-87|2007|10.1080/02772240600942548
98172|T||Vorderstrasse,B.A., and N.I. Kerkvliet|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Affects the Number and Function of Murine Splenic Dendritic Cells and Their Expression of Accessory  Molecules|Toxicol. Appl. Pharmacol.171:117-125|2001|10.1006/taap.2000.9119
98173|T||Kapoor,V., and T. Prasad|Effect of Dietary Fluorine on Growth, Nutrient Digestibility and Mineral Balances in Calves|Indian J. Anim. Sci.61(12): 1326-1329|1991|
98174|T||Jagannath,D.R., and C.R. Bhatia|Effect of Sodium Fluoride on Radiation Sensitivity of Barley Seeds|Mutat. Res.22(1): 51-56|1974|10.1016/0027-5107(74)90159-6
98175|T||Cicek,E., G. Aydin, M. Akdogan, and H. Okutan|Effects of Chronic Ingestion of Sodium Fluoride on Myocardium in a Second Generation of Rats|Hum. Exp. Toxicol.24(2): 79-87|2005|10.1191/0960327105ht505oa
98176|T||Kao,W.F., J.F. Deng, S.C. Chiang, K. Heard, D.H.T. Yen, M.C. Lu, B.I.T. Kuo, C.C. Kuo, T.Y. Liu, and C.H. Lee|A Simple, Safe, and Efficient way to Treat Severe Fluoride Poisoning - Oral Calcium or Magnesium|J. Toxicol. Clin. Toxicol.42(1): 33-40|2004|10.1081/CLT-120028742
98177|T||Khalatkar,A.S., A.R. Gopal-Ayengar, and C.R. Bhatia|Modification of Mutagenic Efficiency of Ethyl Methanesulfonate with Ethidium Bromide, Iodoacetamide and Sodium Fluoride in Barley|Mutat. Res.27(3): 331-340|1975|10.1016/0027-5107(75)90290-0
98178|T||Chinoy,N.J., M.V. Rao, M.V. Narayana, and E. Neelakanta|Microdose Vasal Injection of Sodium Fluoride in the Rat|Reprod. Toxicol.5(6): 505-512|1991|10.1016/0890-6238(91)90022-8
98179|T||Chinoy,N.J., and E. Sequeira|Effects of Fluoride on the Histoarchitecture of Reproductive Organs of the Male Mouse|Reprod. Toxicol.3(4): 261-267|1989|10.1016/0890-6238(89)90020-8
98180|T||Rathore,S., and P.K. Agrawal|Modification of Fluoride Toxicity on Root Nodules Development, Growth and Productivity of Vicia faba Linn, by Varying Doses of Nitrogen, Phosphorus and Potassium Nutrition|Indian J. Environ. Health31(4): 345-353|1989|
98181|T||Shayiq,R.M., H. Raza, and A.M. Kidwai|Effects of Fluoride on Membrane Permeability and Brush Border Enzymes of Rat Intestine In Situ|Food Chem. Toxicol.24(1): 33-36|1986|10.1016/0278-6915(86)90261-9
98182|T||Sondhi,H., M.L. Gupta, and G.L. Gupta|Effects of Sodium Fluoride on Swiss Albino Mice|Geobios22(1): 18-21|1995|
98183|A||Bowser,P.R., R.B. Landy, G.A. Wooster, and J.G. Babish|Efficacy of Elevated Dietary Fluoride for the Control of Renibacterium salmoninarum Infection in Rainbow Trout Salmo gairdneri|J. World Aquac. Soc.19(1): 1-7|1988|10.1111/j.1749-7345.1988.tb00445.x
98185|T||Boink,A.B.T.J., J. Meulenbelt, J. Wemer, H.A.M.G. Vaessen, P. Dortant, and D.J. De Wildt|Systemic Fluoride Poisoning Following Dermal Hydrofluoric Acid Exposure: Development of an Intravenous Sodium Fluoride Infusion Model in Rats|J. Toxicol. Cutan. Ocul. Toxicol.14(2): 75-87|1995|10.3109/15569529509068342
98186|T||Grafe,C., and G. Wricke|Increase of In Vitro Regeneration in Malus domestica by the Application of Phosphatase Inhibitors|Plant Breed.117(6): 563-566|1998|10.1111/j.1439-0523.1998.tb02208.x
98187|T||Chinoy,N.J., B.C. Patel, D.K. Patel, and A.K. Sharma|Fluoride Toxicity in the Testis and Cauda Epididymis of Guinea Pig and Reversal by Ascorbate|Med. Sci. Res.25(2): 97-100|1997|
98188|T||Kucharz,E., M. Drozdz, and A. Jendryczko|Influence of Fluoride Compounds on Lysosomal Enzymes Activity in Blood Serum of Growing Rats|Rev. Roum. Biochim.23(2): 115-118|1986|
98189|A||Kunert,K.J., C. Homrighausen, H. Bohme, and P. Boger|Oxyfluorfen and Lipid Peroxidation: Protein Damage as a Phytotoxic Consequence|Weed Sci.33(6): 766-770|1985|10.1017/S0043174500083314
98190|A||Kohno,H., K. Hirai, M. Hori, Y. Sato, P. Boger, and K. Wakabayashi|New Peroxidizing Herbicides:  Activity Compared with X-Ray Structure|Z. Naturforsch.48C(3-4): 334-338|1993|10.1515/znc-1993-3-435
98191|T||Zaki,M.J., S. Javed, M. Abid, H. Khan, and M. Moinuddin|Evaluation of Some Chemicals Against Root Knot Nematodes, Meloidogyne incognita|Int. J. Biol. Biotechnol.1(4): 613-618|2004|
98192|T||Shorey,H.H., L.K. Gaston, R.G. Gerber, C.B. Sisk, and P.A. Phillips|Formulating Farnesol and Other Ant-Repellent Semiochemicals for Exclusion of Argentine Ants (Hymenoptera: Formicidae) from Citrus Trees|Environ. Entomol.25(1): 114-119|1996|10.1093/ee/25.1.114
98194|T||Bryant,P.J., and J.H. Sang|Physiological Genetics of Melanotic Tumors in Drosophila melanogaster.  VI.  The Tumorigenic Effects of Juvenile Hormone-Like Substances|Genetics62(2): 321-336|1969|10.1093/genetics/62.2.321
98195|T||Bowen,M.F.|Terpene-Sensitive Receptors in Female Culex pipiens Mosquitoes:  Electrophysiology and Behaviour|J. Insect Physiol.38(10): 759-764|1992|10.1016/0022-1910(92)90028-C
98196|T||Patterson,J.W., and M. Schwarz|Chemical Structure, Juvenile Hormone Activity and Persistence Within the Insect of Juvenile Hormone Mimics for Rhodnius prolixus|J. Insect Physiol.23(1): 121-129|1977|10.1016/0022-1910(77)90117-2
98197|T||Ajami,A.M.|Approaches to the Biosynthesis of the Cecropia C18-Juvenile Hormone|J. Insect Physiol.20(12): 2497-2511|1974|10.1016/0022-1910(74)90034-1
98198|T||Madhavan,K.|Morphogenetic Effects of Juvenile Hormone and Juvenile Hormone Mimics on Adult Development of Drosophila|J. Insect Physiol.19(2): 441-453|1973|10.1016/0022-1910(73)90119-4
98199|T||Nair,K.S.S.|Studies on the Diapause of Trogoderma granarium:  Effects of Juvenile Hormone Analogues on Growth and Metamorphosis|J. Insect Physiol.20(2): 231-244|1974|10.1016/0022-1910(74)90055-9
98200|T||Romanuk,M., K. Slama, and F. Sorm|Constitution of a Compound with a Pronounced Juvenile Hormone Aactivity|Proc. Natl. Acad. Sci. U.S.A.57(2): 349-352|1967|10.1073/pnas.57.2.349
98201|T||Czaja-Topinska,J., Z. Stepien, and R. Sterzycki|The Effect of Some Juvenile Hormone Analogs on Tyrophagus putrescentiae|Recent Adv. Acarol.1:231-241|1979|
98202|T||Iwabuchi,K.|Effect of Juvenile Hormone on the Embryogenesis of a Polyembryonic Wasp, Copidosoma floridanum, In Vitro|In Vitro Cell. Dev. Biol., Anim.31(10): 803-805|1995|10.1007/BF02634123
98203|T||Hirashima,A., Y. Yoshii, K. Kumamoto, K. Oyama, and M. Eto|Structure-Activity Studies of Insecticidal 2-Methoxy-1,3,2-Oxazaphospholidine 2-Sulfides Against Musca domestica and Tribolium castaneum|J. Pestic. Sci. (Multiple Languages)15(4): 539-551|1990|10.1584/jpestics.15.539
98204|A||Sbrilli,G., B. Bimbi, F. Cioni, L. Pagliai, F. Luchi, and E. Lanciotti|Surface and Ground Waters Characterization in Tuscany (Italy) by Using Algal Bioassay and Pesticide Determinations:  Comparative Evaluation of the Results and Hazard Assessment of the Pesticides Impact on Primary Produc|Chemosphere58(5): 571-578|2005|10.1016/j.chemosphere.2004.07.012
98206|A||Sameshima,M., K. Ito, and M. Iwabuchi|Effect of Sodium Fluoride on the Amount of Polyribosomes, Single Ribosomes and Ribosomal Subunits in a Cellular Slime Mold, Dictyostelium discoideum|Biochim. Biophys. Acta281(1): 79-85|1972|10.1016/0005-2787(72)90189-X
98207|T||Susheela,A.K., and T.K. Das|Chronic Fluoride Toxicity:  A Scanning Electron Microscopic Study of Duodenal Mucosa|Clin. Toxicol.26(7): 467-476|1988|
98208|T||Smith,R.E., J.K. Maurer, P.H. Long, J.E. Proctor, and J.L. Torgersen|Assessment of the Influence of NaF or 1,25-(OH)2 Vitamin D3 on the Proliferative Bone Effect of an Avian Osteopetrosis Virus, MAV-2(O)|Toxicol. Pathol.18(3): 380-386|1990|10.1177/019262339001800304
98209|T||Belandria,G., J. Asta, and F. Nurit|Effects of Sulphur Dioxide and Fluoride on Ascospore Germination of Several Lichens|Lichenologist21(1): 79-86|1989|10.1017/S0024282989000095
98210|T||Chaso,A., R. Pascual, J.A. Madrid, and G.M. Salido|Bioavailability of Fluoride from Dietary Sepiolite in the Lamb|Ann. Rech. Vet. (Non-English)22(1): 71-75|1991|
98211|A||McNall,S.J., and T.E. Mansour|Forskolin Activation of Serotonin-Stimulated Adenylate Cyclase in the Liver Fluke Fasciola hepatica|Biochem. Pharmacol.34(10): 1683-1688|1985|10.1016/0006-2952(85)90634-3
98212|A||App,A.A., and A.T. Jagendorf|Purification of Alkaline Fructose Diphosphatase from Euglena gracilis|Biochim. Biophys. Acta85(3): 427-434|1964|
98213|T||Susheela,A.K., and A. Kumar|A Study of the Effect of high Concentrations of Fluoride on the Reproductive Organs of Male Rabbits, Using Light and Scanning Electron Microscopy|J. Reprod. Fertil.92(2): 353-360|1991|10.1530/jrf.0.0920353
98214|T||Karlik,J.F., J.O. Becker, and U.K. Schuch|IPM for Field-Grown Rose Plants in California|Acta Hortic.547:97-102|2001|10.17660/ActaHortic.2001.547.12
98215|T||Madhu,M., H.V. Nanjappa, and H.R. Naik|Economics of Weed Control Treatments in Puddled Seeded Rice|Crop Res. (Hisar)12(2): 133-137|1996|
98216|A||Kunert,K.J., and P. Boger|The Bleaching Effect of the Diphenyl Ether Oxyfluorfen|Weed Sci.29(2): 169-173|1981|10.1017/S0043174500061749
98217|T||Garber,N., and P.J. Cotty|Timing of Herbicide Applications may Influence Efficacy of Aflatoxin Biocontrol|Proc. Beltwide Cotton Conf.:1-6|2006|
98218|AT||Sandmann,G., B. Nicolaus, and P. Boger|Typical Peroxidative Parameters Verified with Mung-Bean Seedlings, Soybean Cells and Duckweed|Z. Naturforsch.45C(5): 512-517|1990|10.1515/znc-1990-0536
98219|A||Sandmann,G., and P. Boger|Accumulation of Protoporphyrin IX in the Presence of Peroxidizing Herbicides|Z. Naturforsch. Sect. C J. Biosci.43(9/10): 699-704|1988|10.1515/znc-1988-9-1011
98220|A||Lambert,R., G. Sandmann, and P. Boger|Binding and Peroxidative Action of Oxyfluorfen in Sensitive and Tolerant Algal Species|Z. Naturforsch.42C(6): 819-823|1987|10.1515/znc-1987-7-813
98221|T||Bartlett,B.R.|Toxicity and Acceptance of Some Pesticides Fed to Parasitic Hymenoptera and Predatory Coccinellids|J. Econ. Entomol.59(5): 1142-1149|1966|10.1093/jee/59.5.1142
98222|T||Ohno,Y., M. Sunouchi, A. Miyajima, Y. Ogawa, T. Umemura, T. Inoue, and K. Nagamatsu|Lack of Preneoplastic Changes and Induction of CYP2B11 in the Liver of Dogs Treated with CNP|In: Joint U.S.Jpn.Semin., Pesticides and the Future: Minimizing Chronic Exposure of Humans and the Environment, May 26-30, 1997, Kisarazu, Japan:47-51|1998|
98223|T||Jones,V.P., R.R. Youngman, and M.P. Parrella|Effect of Selected Acaricides on Photosynthetic Rates of Lemon and Orange Leaves in California|J. Econ. Entomol.76(5): 1178-1180|1983|10.1093/jee/76.5.1178
98224|T||Sharma,D.P., D.C. Feree, and F.O. Hartman|Influence of Pesticides on Photosynthesis in Apple (Malus domestica Bork)|Pesticides 12(7): 16-19|1978|
98225|T||Chinoy,N.J., H.P. Sorathia, and D.D. Jhala|Fluoride+Aluminium Induced Toxicity in Mice Testis with Giant Cells and Its Reversal by Vitamin C|Fluoride38(2): 109-114|2005|
98226|T||Engstrom,K., A.K. Widmark, S. Brishammar, and S. Helmersson|Antifungal Activity to Phytophthora infestans of Sesquiterpenoids from Infected Potato Tubers|Potato Res.42(1): 43-50|1999|10.1007/BF02358390
98227|T||Eigenbrode,S.D., and A.M. Shelton|Survival and Behavior of Plutella xylostella Larvae on Cabbages with Leaf Waxes Altered by Treatment with S-Ethyl Dipropylthiocarbamate|Entomol. Exp. Appl.62(2): 139-145|1992|10.1111/j.1570-7458.1992.tb00653.x
98228|T||Eigenbrode,S.D., A.M. Shelton, W.C. Kain, H. Leichtweis, and T.D. Spittler|Managing Lepidopteran Pests in Cabbage with Herbicide-Induced Resistance, in Combination with a Pyrethroid Insecticide|Entomol. Exp. Appl.69(1): 41-50|1993|10.1111/j.1570-7458.1993.tb01726.x
98229|T||Casana-Giner,V., A. Gandia-Balaguer, M.M. Hernandez-Alamos, C. Mengod-Puerta, A. Garrido-Vivas, J. Primo-Millo, and E. |Attractiveness of 79 Compounds and Mixtures to Wild Ceratitis capitata (Diptera: Tephritidae) in Field Trials|J. Econ. Entomol.94(4): 898-904|2001|10.1603/0022-0493-94.4.898
98230|T||Umeda,Y., S. Aiso, H. Arito, K. Nagano, and T. Matsushima|Induction of Peroxisome Proliferation in the Liver of Biphenyl-Fed Female Mice|J. Occup. Health46(6): 486-488|2004|10.1539/joh.46.486
98231|T||Kiran,S.R., A.S. Reddy, P.S. Devi, and K.J. Reddy|Insecticidal, Antifeedant and Oviposition Deterrent Effects of the Essential Oil and Individual Compounds from Leaves of Chloroxylon swietenia DC|Pest Manag. Sci.62(11): 1116-1121|2006|10.1002/ps.1266
98232|T||Opacka,J., B. Baranski, and T. Wronska-Nofer|Effect of Alcohol Intake on Some Disturbances Induced by Chronic Exposure to Carbon Disulphide in Rats. I. Behavioural Alterations|Toxicol. Lett.23(1): 91-97|1984|10.1016/0378-4274(84)90014-6
98233|T||Sokovic,M., and L.J.L.D. Van Griensven|Antimicrobial Activity of Essential Oils and Their Components Against the Three Major Pathogens of the Cultivated Button Mushroom, Agaricus bisporus|Eur. J. Plant Pathol.116(3): 211-224|2006|10.1007/s10658-006-9053-0
98234|A||Schmidt,K., C.E.W. Steinberg, G.B.O. Staaks, and S. Pflugmacher|Influence of a Xenobiotic Mixture (PCB and TBT) Compared to Single Substances on Swimming Behavior or Reproduction of Daphnia magna|Acta Hydrochim. Hydrobiol. (Multiple Languages)33(4): 287-300|2005|10.1002/aheh.200400579
98235|T||Alborn,H.T., T.C.J. Turlings, T.H. Jones, G. Stenhagen, J.H. Loughrin, and J.H. Tumlinson|An Elicitor of Plant Volatiles from Beet Armyworm Oral Secretion|Science276(5314): 945-949|1997|10.1126/science.276.5314.945
98236|A||Filby,A.L., T. Neuparth, K.L. Thorpe, R. Owen, T.S. Galloway, and C.R. Tyler|Health Impacts of Estrogens in the Environment, Considering Complex Mixture Effects|Environ. Health Perspect.115(12): 1704-1710|2007|10.1289/ehp.10443
98237|T||Susheela,A.K., and M. Jha|Cellular and Histochemical Characteristics of Osteoid Formed in Experimental Fluoride Poisoning|Toxicol. Lett.16(1-2): 35-40|1983|10.1016/0378-4274(83)90007-3
98238|T||Soni,M.G., and S.S. Pawar|Effect of Sodium Fluoride on Hepatic Microsomal Mixed-Function Oxidase System in Newborn and Adult Male Rats|Toxicol. Lett.21(2): 163-166|1984|10.1016/0378-4274(84)90200-5
98239|T||Soni,M.G., M.S. Kachole, and S.S. Pawar|Alterations in Drug Metabolising Enzymes and Lipid Peroxidation in Different Rat Tissues by Fluoride|Toxicol. Lett.21(2): 167-172|1984|10.1016/0378-4274(84)90201-7
98240|T||Shargel,L., and J. Masnyj|Effect of Stannous Fluoride and Sodium Fluoride on Hepatic Mixed-Function Oxidase Activities in the Rat|Toxicol. Appl. Pharmacol.59(3): 452-456|1981|10.1016/0041-008X(81)90297-0
98241|T||Sharma,Y.D.|Serum Sialic Acid and Ceruloplasmin Levels in Experimental Fluorosis|Toxicol. Lett.15(1): 1-5|1983|10.1016/0378-4274(83)90160-1
98242|T||Maxwell,J.A., J.L. Caffrey, T. Yorio, and R.J. Sinclair|Fluoride-Induced Changes in Renal Papillary Cyclic-AMP|Toxicol. Appl. Pharmacol.69(1): 138-142|1983|10.1016/0041-008X(83)90129-1
98243|T||Yamazaki,H., T. Nishijima, Y. Yamato, M. Hamano, M. Koshioka, and H. Miura|Involvement of Abscisic Acid in Bulb Dormancy of Allium wakegi Araki. II. A Comparison Between Dormant and Nondormant Cultivars|Plant Growth Regul.29(3): 195-200|1999|10.1023/A:1006241101936
98244|T||Watanabe,H., and K. Takahashi|Effects of Abscisic Acid and Its Related Compounds on Rice Seedling Growth|Plant Growth Regul.28(1): 5-8|1999|10.1023/A:1006270514827
98245|T||Watanabe,H., and K. Takahashi|Effects of Abscisic Acid, Fusicoccin, and Potassium on Growth and Morphogenesis of Leaves and Internodes in Dark-Grown Rice Seedlings|Plant Growth Regul.21(2): 109-114|1997|10.1023/A:1005783425363
98246|T||Wan,X., and J.J. Zwiazek|Root Water Flow and Leaf Stomatal Conductance in Aspen (Populus tremuloides) Seedlings Treated with Abscisic Acid|Planta (Multiple Languages)213(5): 741-747|2001|10.1007/s004250100547
98247|T||Verma,R.J., and D.M.G. Sherlin|Hypocalcaemia in Parental and F1 Generation Rats Treated with Sodium Fluoride|Food Chem. Toxicol.40(4): 551-554|2002|10.1016/S0278-6915(01)00100-4
98248|T||Verma,R.J., and D.M.G. Sherlin|Sodium Fluoride-Induced Hypoproteinemia and Hypoglycemia in Parental and F1-Generation Rats and Amelioration by Vitamins|Food Chem. Toxicol.40(12): 1781-1788|2002|10.1016/S0278-6915(02)00170-9
98249|T||Usuda,K., K. Kono, T. Dote, H. Nishiura, and T. Tagawa|Usefulness of the Assessment of Urinary Enzyme Leakage in Monitoring Acute Fluoride Nephrotoxicity|Arch. Toxicol.73(6): 346-351|1999|10.1007/s002040050628
98250|T||Tsai,Y.C., and C.H. Kao|The Involvement of Hydrogen Peroxide in Abscisic Acid-Induced Activities of Ascorbate Peroxidase and Glutathione Reductase in Rice Roots|Plant Growth Regul.43(3): 207-212|2004|10.1023/B:GROW.0000046001.24746.df
98251|T||Todorov,D., V. Alexieva, and E. Karanov|Effect of Putrescine, 4-PU-30, and Abscisic Acid on Maize Plants Grown Under Normal, Drought, and Rewatering Conditions|J. Plant Growth Regul.17(4): 197-203|1998|10.1007/PL00007035
98252|T||Sprando,R.L., T.F.X. Collins, T. Black, N. Olejnik, and J. Rorie|Testing the Potential of Sodium Fluoride to Affect Spermatogenesis:  A Morphometric Study|Food Chem. Toxicol.36(12): 1117-1124|1998|10.1016/S0278-6915(98)00085-4
98253|T||Sprando,R.L., T.N. Black, M.J. Ames, J.I. Rorie, and T.F.X. Collins|Effect of Intratesticular Injection of Sodium Fluoride on Spermatogenesis|Food Chem. Toxicol.34(4): 377-384|1996|10.1016/0278-6915(96)84542-X
98254|T||Sherlin,D.M.G., and R.J. Verma|Vitamin D Ameliorates Fluoride-Induced Embryotoxicity in Pregnant Rats|Neurotoxicol. Teratol.23(2): 197-201|2001|10.1016/S0892-0362(00)00123-9
98255|T||Raikhel,N.V., B.A. Palevitz, and C.H. Haigler|Abscisic Acid Control of Lectin Accumulation in Wheat Seedlings and Callus Cultures. Effects of Exogenous ABA and Fluridone|Plant Physiol.80(1): 167-171|1986|10.1104/pp.80.1.167
98256|T||Paul,V., P. Ekambaram, and A.R. Jayakumar|Effects of Sodium Fluoride on Locomotor Behavior and a few Biochemical Parameters in Rats|Environ. Toxicol. Pharmacol.6(3): 187-191|1998|10.1016/S1382-6689(98)00033-7
98257|T||Mittal,M., and S.J.S. Flora|Effects of Individual and Combined Exposure to Sodium Arsenite and Sodium Fluoride on Tissue Oxidative Stress, Arsenic and Fluoride Levels in Male Mice|Chem.-Biol. Interact.162(2): 128-139|2006|10.1016/j.cbi.2006.05.018
98258|T||Starek,A.|Activity of Phenacetin O-Deethylase in Rat Liver: Effect of Inducers and Inhibitors In Vivo|Pol. J. Occup. Med. Environ. Health4(1): 67-75|1991|
98259|T||Chao,S.T., C.J. Omiecinski, M.J. Namkung, S.D. Nelson, B.H. Dvorchik, and M.R. Juchau|Catechol Estrogen Formation in Placental and Fetal Tissues of Humans, Macaques, Rats and Rabbits|Dev. Pharmacol. Ther.2(1): 1-16|1981|10.1159/000481041
98260|T||Ikeda,R., K. Miyazawa, M.T. Moriyama, and K. Suzuki|Cancer-Promoting Potential of the Endocrine Active Compounds in Rat Bladder|J. Kanazawa Med. Univ.28(1): 26-31|2003|
98261|A||Bishop,N.I., and H. Gaffron|The Inhibition of Photosynthesis by Sodium Fluoride. I. The Sodium Fluoride-Induced Carbon Dioxide Burst from Chlorella|Biochim. Biophys. Acta28:35-44|1958|10.1016/0006-3002(58)90424-4
98262|T||Gaugl,J.F., and B. Wooldridge|Cardiopulmonary Response to Sodium Fluoride Infusion in the Dog|J. Toxicol. Environ. Health11(4-6): 765-782|1983|10.1080/15287398309530383
98263|A||Young,R.S.|Fluoride Inhibition of Skeleton Formation in the Sea Urchin|Exp. Cell Res.15(2): 398-404|1958|10.1016/0014-4827(58)90040-5
98265|A||Evans,D.L., and L. Jaso-Freidmann|Role of Protein Phosphatases in the Regulation of Nonspecific Cytotoxic Cell Activity|Dev. Comp. Immunol.18(2): 137-146|1994|10.1016/0145-305X(94)90241-0
98266|T||Yamazaki,H., T. Nishijima, Y. Yamato, M. Koshioka, and H. Miura|Involvement of Abscisic Acid (ABA) in Bulb Dormancy of Allium wakegi Araki I. Endogenous Levels of ABA in Relation to Bulb Dormancy and Effects of Exogenous ABA and Fluridone|Plant Growth Regul.29(3): 189-194|1999|10.1023/A:1006212427997
98267|T||Wijayanti,L., S. Fujioka, M. Kobayashi, and A. Sakurai|Involvement of Abscisic Acid and Indole-3-Acetic Acid in the Flowering of Pharbitis nil|J. Plant Growth Regul.16(2): 115-119|1997|10.1007/PL00006977
98268|T||Von Aderkas,P., R. Rohr, B. Sundberg, M. Gutmann, N. Dumont-BeBoux, and M.A. Lelu|Abscisic Acid and Its Influence on Development of the Embryonal Root Cap, Storage Product and Secondary Metabolite Accumulation in Hybrid Larch Somatic Embryos|Plant Cell Tissue Organ Cult.69(2): 111-120|2002|10.1023/A:1015245627220
98269|T||Tsai,F.Y., C.C. Lin, and C.H. Kao|A Comparative Study of the Effects of Abscisic Acid and Methyl Jasmonate on Seedling Growth of Rice|Plant Growth Regul.21(1): 37-42|1997|10.1023/A:1005761804191
98270|T||Sodkiewicz,W., and T. Sodkiewicz|Inhibition of alpha-Amylase Acting in Hexaploid Triticale Lines by Exogenous Abscisic Acid|Biol. Plant. (Praha)46(3): 419-422|2003|10.1023/A:1024333723167
98271|T||Rakwal,R., and S. Komatsu|Abscisic Acid Promoted Changes in the Protein Profiles of Rice Seedling by Proteome Analysis|Mol. Biol. Rep.31(4): 217-230|2004|10.1007/s11033-005-2710-0
98272|T||Shashi,A.|Histopathological Investigation of Fluoride-Induced Neurotoxicity in Rabbits|Fluoride36(2): 95-105|2003|
98273|T||Seawright,A.A., J. Hrdlicka, and F. DeMatteis|The Hepatotoxicity of O,O-Diethyl, O-Phenyl Phosphorothionate (SV1) for the Rat|Br. J. Exp. Pathol.57(1): 16-22|1976|
98275|T||Cerkauskas,R.F., P.R. Verma, and D.L. McKenzie|Effects of Herbicides on In Vitro Growth and Carpogenic Germination of Sclerotinia sclerotiorum|Can. J. Plant Pathol.8(2): 161-166|1986|10.1080/07060668609501821
98276|T||Sugiyama,K., A. Tanaka, H. Kawagishi, F. Ojima, H. Sakamoto, and Y. Ishiguro|Hypocholesterolemic Action of Dietary Grifolin on Rats Fed with a High-Cholesterol Diet|Biosci. Biotechnol. Biochem.58(1): 211-212|1994|10.1271/bbb.58.211
98277|T||Vandewaa,E.A., G. Mills, G.Z. Chen, L.A. Foster, and J.L. Bennett|Physiological Role of HMG-CoA Reductase in Regulating Egg Production by Schistosoma mansoni|Am. J. Physiol.257(3, Pt. 2): R618 - R625|1989|
98279|T||Coracini,M., M. Bengtsson, I. Liblikas, and P. Witzgall|Attraction of Codling Moth Males to Apple Volatiles|Entomol. Exp. Appl.110(1): 1-10|2004|10.1111/j.0013-8703.2004.00124.x
98280|T||Wilkinson,R.E.|Carotenogenic Inhibition by Norflurazon in Wheat|Pestic. Biochem. Physiol.23(3): 370-377|1985|10.1016/0048-3575(85)90098-7
98281|T||Hoffmann,P., and S. Muller|Subacute Carbon Disulfide Exposure Modifies Adrenergic Cardiovascular Actions in Rats|Biomed. Biochim. Acta49(1): 115-120|1990|
98282|AT||Ikeuchi,M., S. Yasuda, and S. Matsunaka|Mode of Action of Diphenylethers and Related Herbicides on Mosquito Larvae|In: H.Geissbuhler (Ed.), Advances in Pesticide Science, IUPAC Publications, Pergamon Press, Oxford3:470-474|1979|
98283|A||Lambert,R., G. Sandmann, and P. Boger|Correlation Between Structure and Phytotoxic Activities of Nitrodiphenyl Ethers|Pestic. Biochem. Physiol.19(3): 309-320|1983|10.1016/0048-3575(83)90059-7
98284|T||Varma,R.S., A. Shukla, and R.K. Chatterjee|4-Aminomethyl-2(4'-Arylamino-3'-Nitrophenyl)-1,3,4-D2-Oxadiazoline-5-Thiones as DEC Analogs and Their Antifilarial Activity|Indian J. Chem.32B(6): 697-699|1993|
98285|T||Peeples,J.L., E.A. Curl, and R. Rodriguez-Kabana|Effect of the Herbicide EPTC on the Biocontrol Activity of Trichoderma viride Against Sclerotium rolfsii|Plant Dis. Rep.60(12): 1050-1054|1976|
98286|A||Boisvenue,R.J., T.L. Emmick, and R.B. Galloway|Haemonchus contortus:  Effects of Compounds with Juvenile Hormone Activity on the In Vitro Development of Infective Larvae|Exp. Parasitol.42(1): 67-72|1977|10.1016/0014-4894(77)90062-5
98287|T||Wardle,K., and K.C. Short|Enhancement of Root Growth and Alteration in Cytokinin Distribution in Farnesol-Treated Barley Seedlings|Z. Pflanzenphysiol. (Multiple Languages)102(2): 183-188|1981|10.1016/S0044-328X(81)80197-3
98288|T||Farih,A., P.H. Tsao, and J.A. Menge|Fungitoxic Activity of Efosite Aluminum on Growth, Sporulation and Germination of Phytophthora parasitica and P. citrophthora|Phytopathology71:934-936|1981|10.1094/Phyto-71-934
98289|T||Chandran,R.S., M. Singh, and S. Salihu|Thiazopyr Stimulates Hairy Beggarticks (Bidens pilosa) Germination|Weed Technol.13(3): 576-580|1999|10.1017/S0890037X00046224
98290|A||Mancini,P.E., and C.L. Patton|Cyclic 3',5'-Adenosine Monophosphate Levels During the Developmental Cycle of Trypanosoma brucei brucei in the Rat|Mol. Biochem. Parasitol.3(1): 19-31|1981|10.1016/0166-6851(81)90074-8
98291|T||Andric,S.A., N.L. Andric, S.N. Zoric, T.S. Kostic, and R.Z. Kovacevic|Effects of Polychlorinated Biphenyl- Containing and - Free Transformer Fluids on Testicular Enzyme Activities|Fresenius Environ. Bull.12(2): 245-249|2003|
98292|T||Piekoszewski,W., J. Brandys, and M. Lipniak|Studies on Sex Related Differences in Elimination of Theophylline in the Rat After Pretreatment with Phenobarbital, Chrysene, Aroclor 1254 or Lindane|Acta Pol. Pharm.48(1-2): 9-12|1991|
98293|T||Barwe,S.P., M. Sathiyabama, and C. Jayabaskaran|Induction of Chitinase Activity by Exogenous Cytokinins in Excised Dark-Grown Cucumber Cotyledons:  Involvement of Ca2+ and Staurosporine-Sensitive Protein Kinase(s) in Cytokinin Signaling|J. Plant Physiol.158(1): 1-7|2001|10.1078/0176-1617-00060
98294|T||Suttie,J.W., R.J. Hamilton, A.C. Clay, M.L. Tobin, and W.G. Moore|Effects of Fluoride Ingestion on White-Tailed Deer (Odocoileus virginianus )|J. Wildl. Dis.21(3): 283-288|1985|10.7589/0090-3558-21.3.283
98295|T||Agrawal,P.K., C.S. Bhatt, and L. Viswanathan|Effect of Some Metabolic Inhibitors on Citric Acid Production by Aspergillus niger|Enzyme Microb. Technol.5(5): 373-376|1983|10.1016/0141-0229(83)90011-X
98296|T||O'Hara,P.J., A.J. Fraser, and M.P. James|Superphosphate Poisoning of Sheep:  The Role of Fluoride|N. Z. Vet. J.30(12): 199-201|1982|10.1080/00480169.1982.34940
98298|T||Hassan,H.F., and G.H. Coombs|Phosphomonoesterases of Leishmania mexicana mexicana and Other Flagellates|Mol. Biochem. Parasitol.23(3): 285-296|1987|10.1016/0166-6851(87)90035-1
98299|T||Feyereisen,R., K.C. Langry, and P.R. Ortiz de Montellano|Self-Catalyzed Destruction of Insect Cytochrome P-450|Insect Biochem.14(1): 19-26|1984|10.1016/0020-1790(84)90079-9
98300|T||Komatsu,S., H. Karibe, and T. Masuda|Effect of Abscisic Acid on Phosphatidylserine-Sensitive Calcium Dependent Protein Kinase Activity and Protein Phosphorylation in Rice|Biosci. Biotechnol. Biochem.61(3): 418-423|1997|10.1271/bbb.61.418
98301|T||Nagl,W.|Selective Inhibition of Cell Cycle Stages in the Allium Root Meristem by Colchicine and Growth Regulators|Am. J. Bot.59(4): 346-351|1972|10.1002/j.1537-2197.1972.tb10103.x
98302|T||Weidhase,R.A., and B. Parthier|Peptide Hydrolase Activities in Seedlings and Hormone-Treated Cotyledons of Pumpkin (Cucurbita pepo)|Biomed. Biochim. Acta42(7-8): 897-906|1983|
98303|T||Kiyota,H., T. Masuda, J. Chiba, and T. Oritani|2-Fluoro and 2-Methoxycarbonyl Epoxy-beta-Ionylideneacetic Acids as Abscisic Acid Analogs|Biosci. Biotechnol. Biochem.60(7): 1076-1080|1996|10.1271/bbb.60.1076
98304|T||Rathore,S.|Effect of Fluoride Toxicity on Leaf Area, Net Assimilation Rate and Relative Growth Rate of Hordeum vulgare and Zea mays|Fluoride25(4): 175-182|1992|
98305|AT||Maine Department of Conservation|Environmental Monitoring of Cooperative Spruce Budworm Control Projects, Maine 1976 and 1977|Bureau of Forestry, Maine Department of Conservation, Augusta, ME:242 p.|1978|
98306|T||Dunipace,A.J., W. Zhang, T.W. Noblitt, Y. Li, and G.K. Stookey|Genotoxic Evaluation of Chronic Fluoride Exposure:  Micronucleus and Sperm Morphology Studies|J. Dent. Res.68(11): 1525-1528|1989|10.1177/00220345890680111101
98307|T||Shupe,J.L., C.V. Bagley, M.H. Karram, and R.J. Callan|Placental Transfer of Fluoride in Holstein Cows|Vet. Hum. Toxicol.34(1): 1-4|1992|
98308|T||Zwiazek,J.J., and J.M. Shay|Sodium Fluoride Induced Metabolic Changes in Jack Pine Seedlings. II. Effect on Growth, Acid Phosphatase, Cytokinins, and Pools of Soluble Proteins, Amino Acids, and Organic Acids|Can. J. For. Res.18(10): 1311-1317|1988|10.1139/x88-202
98309|T||Zwiazek,J.J., and J.M. Shay|Sodium Fluoride Induced Metabolic Changes in Jack Pine Seedlings. I.  Effect on Gas Exchange, Water Content, and Carbohydrates|Can. J. For. Res.18(10): 1305-1310|1988|10.1139/x88-201
98310|AT||Rai,L.C., Y. Husaini, and N. Mallick|Physiological and Biochemical Responses of Nostoc linckia to Combined Effects of Aluminium, Fluoride and Acidification|Environ. Exp. Bot.36(1): 1-12|1996|10.1016/0098-8472(95)00049-6
98311|T||Carroll,J.F.|Feeding Deterrence of Northern Fowl Mites (Acari: Macronyssidae) by Some Naturally Occurring Plant Substances|Pestic. Sci.41(3): 203-207|1994|10.1002/ps.2780410306
98312|T||Atkins,E.L., R.L. MacDonald, T.P. McGovern, M. Beroza, and E.A. Greywood-Hale|Repellent Additives to Reduce Pesticide Hazards to Honeybees: Laboratory Testing|J. Apic. Res.14(2): 85-97|1975|10.1080/00218839.1975.11099808
98314|T||Aspinall,D., T.N. Singh, and L.G. Paleg|Stress Metabolism.  V.  Abscisic Acid and Nitrogen Metabolism in Barley and Lolium temulentum L.|Aust. J. Biol. Sci.26(2): 319-327|1973|10.1071/BI9730319
98315|T||McWha,J.A., and H.J. Langer|The Effects of Exogenously Applied Abscisic Acid on Bud Burst in Salix spp.|Ann. Bot.44(1): 47-55|1979|10.1093/oxfordjournals.aob.a085704
98316|T||Minter,T.C., and E.M. Lord|Effects of Water Stress, Abscisic Acid, and Gibberellic Acid on Flower Production and Differentiation in the Cleistogamous Species Collomia grandiflora Dougl. ex Lindl. (Polemoniaceae)|Am. J. Bot.70(4): 618-624|1983|10.1002/j.1537-2197.1983.tb07890.x
98317|T||Klein,J.D., and Y. Hebbe|Tetcyclacis and Abscisic Acid Differentially Affect Growth of Wheat (Triticum aestivum L.) Seedlings Isogenic for Reduced-Height Genes|Crop Sci.40(6): 1702-1705|2000|10.2135/cropsci2000.4061702x
98318|T||Lazova,G.N., M.I. Kicheva, and L.P. Popova|The Effect of Abscisic Acid and Methyl Jasmonate on Carbonic Anhydrase Activity in Pea|Photosynthetica (Praha)36(4): 631-634|1999|10.1023/A:1007016810034
98319|T||Lee,Y.H., and J.Y. Chun|A New Homeodomain-Leucine Zipper Gene from Arabidopsis thaliana Induced by Water Stress and Abscisic Acid Treatment|Plant Mol. Biol.37(2): 377-384|1998|
98320|T||Jebara,M., S. Harzalli-Jebara, H. Payre, M.E. Aouani, and J.J. Drevon|Influence of Salinity and Abscisic Acid on the O2 Uptake by N2-Fixing Nodules of Common Bean|Biol. Plant. (Praha)50(4): 717-721|2006|10.1007/s10535-006-0114-1
98321|A||Hsu,T.C., H.C. Liu, J.S. Wang, R.W. Chen, Y.C. Wang, and B.L. Lin|Early Genes Responsive to Abscisic Acid During Heterophyllous Induction in Marsilea quadrifolia|Plant Mol. Biol.47(6): 703-715|2001|10.1023/A:1013612331583
98322|T||Hooker,T.S., and T.A. Thorpe|Effects of Fluridone and Abscisic Acid on Lateral Root Initiation and Root Elongation of Excised Tomato Roots Cultured In Vitro|Plant Cell Tissue Organ Cult.52(3): 199-203|1998|10.1023/A:1006033430898
98323|T||Himi,E., D.J. Mares, A. Yanagisawa, and K. Noda|Effect of Grain Colour Gene (R) on Grain Dormancy and Sensitivity of the Embryo to Abscisic Acid (ABA) in Wheat|J. Exp. Bot.53(374): 1569-1574|2002|10.1093/jxb/erf005
98324|T||Garciarrubio,A., J.P. Legaria, and A.A. Covarrubias|Abscisic Acid Inhibits Germination of Mature Arabidopsis Seeds by Limiting the Availability of Energy and Nutrients|Planta (Multiple Languages)203(2): 182-187|1997|10.1007/s004250050180
98325|T||Franks,P.J., and G.D. Farquhar|The Effect of Exogenous Abscisic Acid on Stomatal Development, Stomatal Mechanics, and Leaf Gas Exchange in Tradescantia virginiana|Plant Physiol.125(2): 935-942|2001|10.1104/pp.125.2.935
98326|T||Dunlap,J.R., and M.L. Binzel|NaCl Reduces Indole-3-Acetic Acid Levels in the Roots of Tomato Plants Independent of Stress-Induced Abscisic Acid|Plant Physiol.112(1): 379-384|1996|10.1104/pp.112.1.379
98327|T||Lin,B.L., H.J. Wang, J.S. Wang, L.I. Zaharia, and S.R. Abrams|Abscisic Acid Regulation of Heterophylly in Marsilea quadrifolia L.:  Effects of R-(-) and S-(+) Isomers|J. Exp. Bot.56(421): 2935-2948|2005|10.1093/jxb/eri290
98328|A||Jana,S., and M.A. Choudhuri|Glycolate Metabolism of Three Submersed Aquatic Angiosperms During Ageing|Aquat. Bot.12(4): 345-354|1982|10.1016/0304-3770(82)90026-2
98329|AT||Jana,S., and M.A. Choudhuri|Effects of Plant Growth Regulators on Hill Activity of Submerged Aquatic Plants During Induced Senescence|Aquat. Bot.18(4): 371-376|1984|10.1016/0304-3770(84)90057-3
98330|T||Johnson,A.W., D.A. Smittle, D.R. Sumner, and N.C. Glaze|Efficacy and Compatibility for Fenamiphos and EPTC Applied in Irrigation Water for Nematode and Weed Control in Snapbean Production|J. Nematol.26(4): 690-696|1994|
98331|T||Heindel,J.J., H.K. Bates, C.J. Price, M.C. Marr, C.B. Myers, and B.A. Schwetz|Developmental Toxicity Evaluation of Sodium Fluoride Administered to Rats and Rabbits in Drinking Water|Fundam. Appl. Toxicol.30(2): 162-177|1996|10.1006/faat.1996.0053
98332|T||Gonzalez,E.M., L. Galvez, and C. Arrese-Igor|Abscisic Acid Induces a Decline in Nitrogen Fixation that Involves Leghaemoglobin, but is Independent of Sucrose Synthase Activity|J. Exp. Bot.52(355): 285-293|2001|10.1093/jxb/52.355.285
98333|T||Ghosh,D., S.S. Das, R. Maiti, D. Jana, and U.B. Das|Testicular Toxicity in Sodium Fluoride Treated Rats:  Association with Oxidative Stress|Reprod. Toxicol.16(4): 385-390|2002|10.1016/S0890-6238(02)00038-2
98334|T||Fellner,M., R. Zhang, R.P. Pharis, and V.K. Sawhney|Reduced De-Etiolation of Hypocotyl Growth in a Tomato Mutant is Associated with Hypersensitivity to, and high Endogenous Levels of, Abscisic Acid|J. Exp. Bot.52(357): 725-738|2001|10.1093/jexbot/52.357.725
98335|T||Ekambaram,P., and V. Paul|Calcium Preventing Locomotor Behavioral and Dental Toxicities of Fluoride by Decreasing Serum Fluoride Level in Rats|Environ. Toxicol. Pharmacol.9(4): 141-146|2001|10.1016/S1382-6689(00)00063-6
98336|T||Daston,G.P., B.F. Rehnberg, B. Carver, and R.J. Kavlock|Toxicity of Sodium Fluoride to the Postnatally Developing Rat Kidney|Environ. Res.37(2): 461-474|1985|10.1016/0013-9351(85)90128-8
98337|T||Das,T.K., and A.K. Susheela|Effect of Long-Term Administration of Sodium Fluoride on Plasma Calcium Level in Relation to Intestinal Absorption and Urinary Excretion in Rabbits|Environ. Res.62(1): 14-18|1993|10.1006/enrs.1993.1084
98338|T||Conine,D.L., G.K. Stookey, and R.B. Forney|Toxicity of Sodium Pentafluorostannite, a new Anticariogenic Agent. II. Contribution of Tin to the Acute Toxicity of Sodium Pentafluorostannite in the Rat|Toxicol. Appl. Pharmacol.37(3): 445-453|1976|10.1016/0041-008X(76)90206-4
98339|T||Das,S.S., R. Maiti, and D. Ghosh|Management of Fluoride Induced Testicular Disorders by Calcium and Vitamin-E Co-Administration in the Albino Rat|Reprod. Toxicol.22(4): 606-612|2006|10.1016/j.reprotox.2006.05.001
98340|T||Cheon,Y.S., and V. Distefano|Effect of Sodium Fluoride on Catecholamine Concentrations in Tissues from Developing Rats|Toxicol. Appl. Pharmacol.24(3): 468-473|1973|10.1016/0041-008X(73)90053-7
98341|T||Kamaluddin,M., and J.J. Zwiazek|Fluoride Inhibits Root Water Transport and Affects Leaf Expansion and Gas Exchange in Aspen (Populus tremuloides) Seedlings|Physiol. Plant. (Multiple Languages)117(3): 368-375|2003|10.1034/j.1399-3054.2003.00040.x
98342|T||Maurer,J.K., M.C. Cheng, B.G. Boysen, R.A. Squire, J.D. Strandberg, S.E. Weisbrode, J.L. Seymour, and R.L. Anderson|Confounded Carcinogenicity Study of Sodium Fluoride in CD-1 Mice|Regul. Toxicol. Pharmacol.18(2): 154-168|1993|10.1006/rtph.1993.1050
98343|T||Shashi,A.|Preliminary Observations on Alterations in Rabbit Ovary DNA and RNA Content in Experimental Fluorosis|Fluoride27(2): 76-80|1994|
98344|T||Shashi,A.|Nucleic Acid Levels in Thyroid Gland in Acute and Chronic Fluoride Intoxication|Fluoride26(3): 191-196|1993|
98345|T||Bely,M.|The Inhibited Enchondral Ossification in Experimental Osteofluorosis in Rats|Fluoride24(1): 17-22|1991|
98346|T||Czarnowski,W., J. Krechniak, and K. Wrzesniowska|The Influence of Sodium Hydrogen Carbonate on the Elimination of Fluoride in Rats|Fluoride25(3): 129-134|1992|
98347|T||Shashi,A.|Biochemical Effects of Fluoride on Lipid Metabolism in the Reproductive Organs of Male Rabbits|Fluoride25(3): 149-154|1992|
98348|T||Rastogi,R., R.K. Upreti, and A.M. Kidwai|Alteration in Gastric Enzymes of Rats Following In Situ Administration of NaF|Fluoride20(2): 71-74|1987|
98349|T||Shashi, J.P. Singh, and S.P. Thapar|Changes in Glycogen Content in Some Tissues During Fluorosis - An Experimental Study on Rabbits|Fluoride21(2): 82-86|1988|
98350|T||Chinoy,N.J., M. Sharma, and M. Michael|Beneficial Effects of Ascorbic Acid and Calcium on Reversal of Fluoride Toxicity in Male Rats|Fluoride26(1): 45-56|1993|
98351|T||Wang,J., Z.A. Zheng, L.S. Zhang, D.M. Cao, K.Z. Chen, and D. Lu|An Experimental Study for Early Diagnostic Features in Fluorosis|Fluoride26(1): 61-65|1993|
98352|T||Chinoy,N.J., and E. Sequeira|Fluoride Induced Biochemical Changes in Reproductive Organs of Male Mice|Fluoride22(2): 78-85|1989|
98353|T||Kaur,J., and C. Duffus|The Effect of Sodium Fluoride on Cereal Seed Germination and Seedling Growth|Plant Cell Environ.12(2): 155-161|1989|10.1111/j.1365-3040.1989.tb01928.x
98356|T||Pang,Y.X., Y.Q. Guo, P. Zhu, K.W. Fu, Y.F. Sun, and R.Q. Tang|The Effects of Fluoride, Alone and in Combination with Selenium, on the Morphology and Histochemistry of Skeletal Muscle|Fluoride29(2): 59-62|1996|
98357|T||Chinoy,N.J., S. Shukla, A.S. Walimbe, and S. Bhattacharya|Fluoride Toxicity on Rat Testis and Cauda Epididymal Tissue Components and Its Reversal|Fluoride30(1): 41-50|1997|
98358|T||Grucka-Mamczar,E., Z. Machoy, R. Tarnawski, E. Birkner, and A. Mamczar|Influence of Long-Term Sodium Fluoride Administration on Selected Parameters of Rat Blood Serum and Liver Function|Fluoride30(3): 157-164|1997|
98359|T||Patel,D., and N.J. Chinoy|Ameliorative Role of Amino Acids on Fluoride-Induced Alterations in Mice (Part II):  Ovarian and Uterine Nucleic Acid Metabolism|Fluoride31(3): 143-148|1998|
98360|T||Inkielewicz,I., and J. Krechniak|Fluoride Effects on Glutathione Peroxidase and Lipid Peroxidation in Rats|Fluoride37(1): 7-12|2004|
98361|T||Ouchi,K., M.H. Yu, and A. Shigematsu|Response of Mung Bean Invertase to Fluoride|Fluoride32(3): 171-178|1999|
98362|T||Da Motta,M.V., D.N. De Souza, and J. Nicolau|Effects of Subtoxic Doses of Fluoride on Some Enzymes of the Glucose Metabolism in Submandibular Salivary Glands of Fed and Overnight-Fasted Rats|Fluoride32(1): 20-26|1999|
98363|T||Eraslan,G., M. Kanbur, and S. Silici|Evaluation of Propolis Effects on Some Biochemical Parameters in Rats Treated with Sodium Fluoride|Pestic. Biochem. Physiol.88(3): 273-283|2007|10.1016/j.pestbp.2007.01.002
98364|T||Honda,K., H. Omura, and N. Hayashi|Identification of Floral Volatiles from Ligustrum japonicum that Stimulate Flower-Visiting by Cabbage Butterfly, Pieris rapae|J. Chem. Ecol.24(12): 2167-2180|1998|10.1023/A:1020750029362
98365|T||Milborrow,B.V.|Antitranspirants and the Regulation of Abscisic Acid Content|Aust. J. Plant Physiol.6(3): 249-254|1979|
98366|AT||Zolotovitch,G.D., S. Michailova-Koleva, and M.V. Georgieva|Biological Effect of Some Alcohols Isolated from Concrete of Freshwater Cultivated Microalgae|6th Int.Congr.Essent.Oils:12 p.|1974|
98367|T||Warne,T.R., and L.G. Hickok|Control of Sexual Development in Gametophytes of Ceratopteris richardii:  Antheridiogen and Abscisic Acid|Bot. Gaz.152(2): 148-153|1991|10.1086/337874
98368|A||Sandmann,G., R. Lambert, and P. Boger|Multifunctional Mode of Action of Substituted Nitrodiphenylethers in Scenedesmus Cells|Z. Naturforsch.36C(7-8): 633-637|1981|10.1515/znc-1981-7-822
98369|T||Ramachandran,K., and T.K. Walker|The Formation of Pyruvic and Dimethylpyruvic Acids by Aspergillus niger|Arch. Biochem. Biophys.35(1): 195-203|1952|10.1016/S0003-9861(52)80065-7
98370|T||Taybi,T., B. Sotta, H. Gehrig, S. Guclu, M. Kluge, and J. Brulfert|Differential Effects of Abscisic Acid on Phosphoenolpyruvate Carboxylase and CAM Operation in Kalanchoe blossfeldiana|Bot. Acta108(3): 240-246|1995|10.1111/j.1438-8677.1995.tb00856.x
98371|A||Beffagna,N., G. Romani, and L. Gatti|Changes in Chloride Fluxes and Cytosolic pH Induced by Abscisic Acid in Elodea densa Leaves|Bot. Acta108(2): 74-79|1995|10.1111/j.1438-8677.1995.tb00834.x
98372|T||Mugnier,J.|Mycorrhizal Interactions and the Effects of Fungicides, Nematicides and Herbicides on Hairy Root Cultures|In: P.M.Doran (Ed.), Hairy Roots Culture and Applications, Harwood Academic, Amsterdam, the Netherlands:123-131|1997|
98373|T||Cakir,A., S. Kordali, H. Zengin, S. Izumi, and T. Hirata|Composition and Antifungal Activity of Essential Oils Isolated from Hypericum hyssopifolium and Hypericum heterophyllum|Flavour Fragr. J.19(1): 62-68|2004|10.1002/ffj.1279
98374|T||Lopes,N.P., M.J. Kato, E.H.D.A. Andrade, J.G.S. Maia, M. Yoshida, A.R. Planchart, and A.M. Katzin|Antimalarial Use of Volatile Oil from Leaves of Virola surinamensis (Rol.) by Waiapi Amazon Indians|J. Ethnopharmacol.67(3): 313-319|1999|10.1016/S0378-8741(99)00072-0
98375|T||Sharp,D.W.|The Sensitization Potential of Some Perfume Ingredients Tested Using a Modified Draize Procedure|Toxicology9(3): 261-271|1978|10.1016/0300-483X(78)90009-4
98376|T||Doskotch,R.W., H.Y. Cheng, T.M. Odell, and L. Girard|Nerolidol:  An Antifeeding Sesquiterpene Alcohol for Gypsy Moth Larvae from Melaleuca leucadendron|J. Chem. Ecol.6(4): 845-851|1980|10.1007/BF00990408
98377|AT||Nakamura,A., Y. Ohori, K. Watanabe, Y. Sato, P. Boger, and K. Wakabayashi|Peroxidative Formation of Lipid Hydroperoxides in Etiolated Leaves|Pestic. Biochem. Physiol.66(3): 206-212|2000|10.1006/pest.1999.2469
98378|T||Ha,S.B., S.B. Lee, D.E. Lee, J.O. Guh, and K. Back|Transgenic Rice Plants Expressing Bacillus subtilis Protoporphyrinogen Oxidase Gene Show Low Herbicide Oxyfluorfen Resistance|Biol. Plant. (Praha)47(2): 277-280|2003|10.1023/B:BIOP.0000022265.66891.73
98379|T||Lee,Y., S. Jung, and K. Back|Expression of Human Protoporphyrinogen Oxidase in Transgenic Rice Induces both a Photodynamic Response and Oxyfluorfen Resistance|Pestic. Biochem. Physiol.80(2): 65-74|2004|10.1016/j.pestbp.2004.06.008
98381|T||Czerny,B., Z. Juzyszyn, Z. Mysliwiec, and A. Put|Effects of Tamoxifen and NaF on Serum and Hepatic Enzymes|Fluoride36(3): 170-176|2003|
98382|T||Ekambaram,P., and V. Paul|Effect of Vitamin D on Chronic Behavioral and Dental Toxicities of Sodium Fluoride in Rats|Fluoride36(3): 189-197|2003|
98383|T||Suska,M., R. Nowak, and B. Machalinski|Serum Fluoride and the Content of Adenine Nucleotides and 2,3-Bisphosphoglycerate in Erythrocytes of Rats Exposed to Sodium Fluoride|Fluoride36(2): 113-121|2003|
98384|T||Snow,G.R., and C. Anderson|Short-Term Chronic Fluoride Administration and Trabecular Bone Remodeling in Beagles:  A Pilot Study|Calcif. Tissue Int.38(4): 217-221|1986|10.1007/BF02556713
98385|T||Suresh,B., and P.K. Hiradhar|Toxicity of NaF on Tail Regeneration in Gekkonid Lizard Hemidactylus flaviviridis|Indian J. Exp. Biol.28(11): 1086-1087|1990|
98386|A||Bhatnagar,M., and A. Bhatnagar|Physiology of Anabaena khannae and Chlorococcum humicola Under Fluoride Stress|Folia Microbiol. (Prague)49(3): 291-296|2004|10.1007/BF02931045
98387|T||Singh,J., D. Singh, and S.V.S. Chauhan|Effect of Sodium Fluoride on Growth and Yield in Wheat (Triticum aestivum)|Indian J. Agric. Sci.71(1): 41-43|2001|
98388|A||Komala,Z.|The Effect of Sodium Fluoride on the Rate of Vegetative Reproduction of Paramecium primaurelia|Folia Biol. (Krakow)34(4): 387-392|1986|
98389|T||Chinoy,N.J., and D. Patel|Ameliorative Role of Amino Acids on Fluoride-Induced Alterations in Uterine Carbohydrate Metabolism in Mice|Fluoride29(4): 217-226|1996|
98390|T||Shashi,A.|Fluoride and Adrenal Gland Function in Rabbits|Fluoride36(4): 241-251|2003|
98391|T||Inkielewicz,I., and J. Krechniak|Fluoride Content in Soft Tissues and Urine of Rats Exposed to Sodium Fluoride in Drinking Water|Fluoride36(4): 263-266|2003|
98392|T||Schoff,P.K., and H.A. Lardy|Effects of Fluoride and Caffeine on the Metabolism and Motility of Ejaculated Bovine Spermatozoa|Biol. Reprod.37(4): 1037-1046|1987|10.1095/biolreprod37.4.1037
98393|T||Chang,S.C., and P.B. Kaufman|Effects of Staurosporine, Okadaic Acid and Sodium Fluoride on Protein Phosphorylation in Graviresponding Oat Shoot Pulvini|Plant Physiol. Biochem.38(4): 315-323|2000|10.1016/S0981-9428(00)00745-2
98394|A||Bradbeer,C.|Transport of Vitamin B12 in Ochromonas malhamensis|Arch. Biochem. Biophys.144(1): 184-192|1971|10.1016/0003-9861(71)90467-X
98395|T||Yang,Z., and M.B. Dickman|Regulation of cAMP and cAMP Dependent Protein Kinase During Conidial Germination and Appressorium Formation in Colletotrichum trifolii|Physiol. Mol. Plant Pathol.50(2): 117-127|1997|10.1006/pmpp.1996.0077
98396|T||Grover,M., A. Dhingra, A.K. Sharma, S.C. Maheshwari, and A.K. Tyagi|Involvement of Phytochrome(s), Ca2+ and Phosphorylation in Light-Dependent Control of Transcript Levels for Plastid Genes (psbA, psaA and rbcL) in Rice (Oryza sativa)|Physiol. Plant. (Multiple Languages)105(4): 701-707|1999|10.1034/j.1399-3054.1999.105415.x
98397|T||Krupanidhi,S., and T.M. Dhanarajan|Teratogenic Effects of Fluoride on Chick Embryo|Fluoride27(1): 25-31|1994|
98398|T||Kapoor,V., T. Prasad, and K.C. Bhatia|Effect of Dietary Fluorine on Histopathological Changes in Calves|Fluoride26(2): 105-110|1993|
98399|T||Tanaka,A., K. Morimoto, and T. Yamaha|Small Scale Synthesis of Labeled Diphenyl and Its Binding to Mouse Liver Microsomes|Radioisotopes42(10): 564-568|1993|10.3769/radioisotopes.42.10_564
98401|T||Goulart,H.R., E.A. Kimura, V.J. Peres, A.S. Couto, F.A.A. Duarte, and A.M. Katzin|Terpenes Arrest Parasite Development and Inhibit Biosynthesis of Isoprenoids in Plasmodium falciparum|Antimicrob. Agents Chemother.48(7): 2502-2509|2004|10.1128/AAC.48.7.2502-2509.2004
98402|T||Conine,D.L., M. Yum, R.C. Martz, G.K. Stookey, J.C. Muhler, and R.B. Forney|Toxicity of Sodium Pentafluorostannite, a New Anticariogenic Agent. I. Comparison of the Acute Toxicity of Sodium Pentafluorostannite, Sodium Fluoride, and Stannous Chloride in Mice and/or Rats|Toxicol. Appl. Pharmacol.33(1): 21-26|1975|10.1016/0041-008X(75)90239-2
98403|T||Brodeur,J., P. Paquin, L. Authier, D. Geadah, M. Yamauchi, and M.G. Cote|Influence of Phenobarbital Pretreatment on Methoxyflurane and Sodium Fluoride Nephropathy in Fischer 344 Rats|Toxicol. Appl. Pharmacol.37(2): 349-361|1976|10.1016/0041-008X(76)90098-3
98404|T||Aydin,G., E. Cicek, M. Akdogan, and O. Gokalp|Histopathological and Biochemical Changes in Lung Tissues of Rats Following Administration of Fluoride Over Several Generations|J. Appl. Toxicol.23(6): 437-446|2003|10.1002/jat.935
98405|T||Collins,T.F.X., R.L. Sprando, M.E. Shackelford, T.N. Black, M.J. Ames, J.J. Welsh, M.F. Balmer, N. Olejnik, and D.I. Ru|Developmental Toxicity of Sodium Fluoride in Rats|Food Chem. Toxicol.33(11): 951-960|1995|10.1016/0278-6915(95)00066-B
98406|T||Kristinsson,J., E. Gunnarsson, P. Johannesson, P.A. Palsson, and H. Pormar|Experimental Fluoride Poisoning in Icelandic Sheep|Buvisindi Icel.Agr.Sci.11:107-112|1997|
98407|T||Hoshi,S., N. Saito, K. Kusanagi, T. Ihara, and S. Ueda|Adjuvant Effects of Fluoride on Oral Immunization of Chickens|Vet. Immunol. Immunopathol.63(3): 253-263|1998|10.1016/S0165-2427(98)00103-2
98408|T||Chinoy,N.J., A.S. Walimbe, H.A. Vyas, and P. Mangla|Transient and Reversible Fluoride Toxicity in Some Soft Tissues of Female Mice|Fluoride27(4): 205-214|1994|
98409|A||Lajmanovich,R., E. Lorenzatti, M.I. Maitre, S. Enrique, and P. Peltzer|Comparative Acute Toxicity of the Commercial Herbicides Glyphosate to Neotropical Tadpoles Scinax nasicus (Anura:  Hylidae)|Fresenius Environ. Bull.12(4): 364-367|2003|
98410|T||Sondheimer,E., D.S. Tzou, and E.C. Galson|Abscisic Acid Levels and Seed Dormancy|Plant Physiol.43(9): 1443-1447|1968|10.1104/pp.43.9.1443
98411|A||Puce,S., G. Basile, G. Bavestrello, S. Bruzzone, C. Cerrano, M. Giovine, A. Arillo, and E. Zocchi|Abscisic Acid Signaling Through Cyclic ADP-Ribose in Hydroid Regeneration|J. Biol. Chem.279(38): 39783-39788|2004|10.1074/jbc.M405348200
98412|A||Kataoka,M., R. Sato, and H. Oshio|Isolation and Partial Characterization of Mutant Chlamydomonas reinhardtii Resistant to Herbicide S-23142|J. Pestic. Sci. (Multiple Languages)15(3): 449-451|1990|10.1584/jpestics.15.449
98413|T||Dost,F.N., D.J. Reed, T.D. Cooper, and C.H. Wang|Fluorine Distribution in Rats Following Acute Intoxication with Nitrogen and Halogen Fluorides and with Sodium Fluoride|Toxicol. Appl. Pharmacol.17(3): 573-584|1970|10.1016/0041-008X(70)90032-3
98414|T||Barkla,B.J., R. Vera-Estrella, M. Maldonado-Gama, and O. Pantoja|Abscisic Acid Induction of Vacuolar H+ -ATPase Activity in Mesembryanthemum crystallinum is Developmentally Regulated|Plant Physiol.120(3): 811-819|1999|10.1104/pp.120.3.811
98415|T||Bensen,R.J., J.S. Boyer, and J.E. Mullet|Water Deficit-Induced Changes in Abscisic Acid, Growth, Polysomes, and Translatable RNA in Soybean Hypocotyls|Plant Physiol.88(2): 289-294|1988|10.1104/pp.88.2.289
98416|T||Gujarathi,S.R., B. Singh, and A.U. Bhikane|Clinico-Pathological Observations in Experimental Acute Fluorine Poisoning in Buffalo Calves|Indian Vet. J.68(2): 167-169|1991|
98417|T||Mohiuddin,S.M., and M.V. Reddy|Haematological and Biochemical Studies on Fluoride Toxicity in Sheep|Indian Vet. J.66(11): 1089-1091|1989|
98418|T||Choudhary,S., K.K. Bora, and S.P. Bohra|Enzyme Activities and Proline Content in Sorghum vulgare Seedlings Grown in the Presence of Sodium Fluoride|Ann. Biol.5(1): 39-42|1989|
98419|T||Vijaywargiya,A., and G.P. Pandey|Effect of Sodium Fluoride on Sorghum|Bionature11(2): 71-76|1991|
98420|A||Ikeda,M., and Y. Watanabe|Studies on Protein-Bound Sulfhydryl Groups in Synchronous Cell Division of Tetrahymena pyriformis|Exp. Cell Res.39(2-3): 584-590|1965|10.1016/0014-4827(65)90060-1
98421|T||Choudhary,S., and S.P. Bohra|Effect of Sodium Fluoride on Certain Enzymes and Proline Content in Cenchrus Leaves|Bot. Bull. Acad. Sin. (Taipei)30(1): 9-14|1989|
98422|A||Anderson,L.W.J.|Effects of Abscisic Acid on Growth and Leaf Development in America Pondweed (Potamogeton nodosus Poir.)|Aquat. Bot.13(1): 29-44|1982|10.1016/0304-3770(82)90038-9
98423|T||Chen,Y.M., and A.R. Wellburn|Enhanced Ethylene Emissions from Red and Norway Spruce Exposed to Acidic Mists|Plant Physiol.91(1): 357-361|1989|10.1104/pp.91.1.357
98424|T||Bustos,M.M., M. Iyer, and S.J. Gagliardi|Induction of a beta -Phaseolin Promoter by Exogenous Abscisic Acid in Tobacco:  Developmental Regulation and Modulation by External Sucrose and Ca2+ Ions|Plant Mol. Biol.37(2): 265-274|1998|10.1023/A:1005999725715
98428|T||Gosling,P.G., and C. Baker|Six Chemicals with Animal Repellent or Insecticide Properties are Screened for Phytotoxic Effects on the Germination and Viability of Ash, Birch, Corsican Pine and Sycamore Seeds|Forestry77(5): 397-403|2004|10.1093/forestry/77.5.397
98429|T||Gooding,M.J., J.P.R.E. Dimmock, J. France, and S.A. Jones|Green Leaf Area Decline of Wheat Flag Leaves: The Influence of Fungicides and Relationships with Mean Grain Weight and Grain Yield|Environ. Toxicol. Chem.136(1): 77-84|2000|
98433|T||Kilic,N., S. Sandal, N. Colakoglu, S. Kutlu, A. Seyran, and B. Yilmaz|Endocrine Disruptive Effects of Polychlorinated Biphenyls on the Thyroid Gland in Female Rats|Tohoku J. Exp. Med.206(4): 327-332|2005|10.1620/tjem.206.327
98434|T||Moore,M.S.|Insecticide Screening for Blue-Green Lucerne Aphid Control|Proc. N. Z. Weed Pest Control Conf.30:165-167|1977|10.30843/nzpp.1977.30.9045
98435|A||Aoshima,H., and K. Hamamoto|Potentiation of GABAA Receptors Expressed in Xenopus Oocytes by Perfume and Phytoncid|Int. Congr. Ser.1208:385-390|2000|
98436|T||Shashi, J.P. Singh, and S.P. Thapar|Fluoride-Induced Pathological Changes in Trachea - an Experimental Study in Rabbits|J. Anat. Soc. India36(3): 179-183|1987|
98437|T||Xu,F., E.S. Lagudah, S.P. Moose, and D.E. Riechers|Tandemly Duplicated Safener-Induced Glutathione S-Transferase Genes from Triticum tauschii Contribute to Genome- and Organ-Specific Expression in Hexaploid Wheat|Plant Physiol.130(1): 362-373|2002|10.1104/pp.004796
98438|T||Wilmer,J.A., S.R. Abrams, J.P.F.G. Helsper, and L.H.W. Van der Plas|Role of the Ring Methyl Groups in Abscisic Acid Activity in Erucic Acid Accumulation in Oilseed Rape (Brassica napus L.)|J. Plant Growth Regul.17(1): 19-23|1998|10.1007/PL00007007
98439|T||White,C.N., and C.J. Rivin|Gibberellins and Seed Development in Maize.  II.  Gibberellin Synthesis Inhibition Enhances Abscisic Acid Signaling in Cultured Embryos|Plant Physiol.122(4): 1089-1097|2000|10.1104/pp.122.4.1089
98440|T||Weiss,D., A. Van der Luit, E. Knegt, E. Vermeer, J.N.M. Mol, and J.M. Kooter|Identification of Endogenous Gibberellins in Petunia Flowers.  Induction of Anthocyanin Biosynthetic Gene Expression and the Antagonistic Effect of Abscisic Acid|Plant Physiol.107(3): 695-702|1995|10.1104/pp.107.3.695
98441|T||Utama,I.M.S., R.B.H. Wills, S. Ben-Yehoshua, and C. Kuek|In Vitro Efficacy of Plant Volatiles for Inhibiting the Growth of Fruit and Vegetable Decay Microorganisms|J. Agric. Food Chem.50(22): 6371-6377|2002|10.1021/jf020484d
98442|T||Xiong,L., M. Ishitani, and J.K. Zhu|Interaction of Osmotic Stress, Temperature, and Abscisic Acid in the Regulation of Gene Expression in Arabidopsis|Plant Physiol.119(1): 205-211|1999|10.1104/pp.119.1.205
98443|T||Wilen,R.W., G.J.H. Van Rooijen, D.W. Pearce, R.P. Pharis, L.A. Holbrook, and M.M. Moloney|Effects of Jasmonic Acid on Embryo-Specific Processes in Brassica and Linum Oilseeds|Plant Physiol.95(2): 399-405|1991|10.1104/pp.95.2.399
98444|T||Olinevich,O.V., and L.P. Khokhlova|Cytoskeleton-Dependent Changes in the Structural Organization of Reticuloplasmins in Triticum aestivum Cells During Cold Acclimation and Treatment with Abscisic Acid|Russ. J. Plant Physiol.49(2): 196-203|2002|10.1023/A:1014845405575
98445|T||Leubner-Metzger,G.|Seed After-Ripening and Over-Expression of Class I Beta-1,3-Glucanase Confer Maternal Effects on Tobacco Testa Rupture and Dormancy Release|Planta (Multiple Languages)215(6): 959-968|2002|10.1007/s00425-002-0837-y
98446|T||Hong,S.W., J.H. Jon, J.M. Kwak, and H.G. Nam|Identification of a Receptor-Like Protein Kinase Gene Rapidly Induced by Abscisic Acid, Dehydration, high Salt, and Cold Treatments in Arabidopsis thaliana|Plant Physiol.113(4): 1203-1212|1997|10.1104/pp.113.4.1203
98447|T||Haralampidis,K., D. Milioni, J. Sanchez, M. Baltrusch, E. Heinz, and P. Hatzopoulos|Temporal and Transient Expression of Stearoyl-ACP Carrier Protein Desaturase Gene During Olive Fruit Development|J. Exp. Bot.49(327): 1661-1669|1998|10.1093/jxb/49.327.1661
98448|T||De Bruxelles,G.L., W.J. Peacock, E.S. Dennis, and R. Dolferus|Abscisic Acid Induces the Alcohol Dehydrogenase Gene in Arabidopsis|Plant Physiol.111(2): 381-391|1996|10.1104/pp.111.2.381
98449|A||Simek,M., and B. Marsalek|Response of the Cyanobacterium Nostoc muscorum to Abscisic Acid and Its Analogue LAB|Algol. Stud.71:75-79|1993|
98450|T||Whitford,G.M., N.L. Birdsong-Whitford, and C. Finidori|Acute Oral Toxicity of Sodium Fluoride and Monofluorophosphate Separately or in Combination in Rats|Caries Res.24(2): 121-126|1990|10.1159/000261252
98451|T||Zhang,A., M. Jiang, J. Zhang, M. Tan, and X. Hu|Mitogen-Activated Protein Kinase is Involved in Abscisic Acid-Induced Antioxidant Defense and Acts Downstream of Reactive Oxygen Species Production in Leaves of Maize Plants|Plant Physiol.141(2): 475-487|2006|10.1104/pp.105.075416
98452|T||Trouverie,J., S. Chateau-Joubert, C. Thevenot, M.P. Jacquemot, and J.L. Prioul|Regulation of Vacuolar Invertase by Abscisic Acid or Glucose in Leaves and Roots from Maize Plantlets|Planta (Multiple Languages)219(5): 894-905|2004|10.1007/s00425-004-1289-3
98453|T||Sarath,G., G. Hou, L.M. Baird, and R.B. Mitchell|Reactive Oxygen Species, ABA and Nitric Oxide Interactions on the Germination of Warm-Season C4-Grasses|Planta (Multiple Languages)226(3): 697-708|2007|10.1007/s00425-007-0517-z
98454|T||Sarath,G., P.C. Bethke, R. Jones, L.M. Baird, G. Hou, and R.B. Mitchell|Nitric Oxide Accelerates Seed Germination in Warm-Season Grasses|Planta (Multiple Languages)223(6): 1154-1164|2006|10.1007/s00425-005-0162-3
98456|T||Rudus,I., E. Kepczynska, and J. Kepczynski|Comparative Efficacy of Abscisic Acid and Methyl Jasmonate for Indirect Somatic Embryogenesis in Medicago sativa L.|Plant Growth Regul.48(1): 1-11|2006|10.1007/s10725-005-5136-8
98457|T||Kuwabara,A., K. Ikegami, T. Koshiba, and T. Nagata|Effects of Ethylene and Abscisic Acid Upon Heterophylly in Ludwigia arcuata (Onagraceae)|Planta (Multiple Languages)217(6): 880-887|2003|10.1007/s00425-003-1062-z
98460|A||Newton,F., A. Thum, B. Davidson, A. Valkirs, and P. Seligman|Effects on the Growth and Survival of Eggs and Embryos of the California Grunion (Leuresthes tenuis) Exposed to Trace Levels of Tributyltin|Tech.Rep.No.NOSC-TR-1040 or AD-A162-445-1, Naval Ocean Syst.Ctr., San Diego, CA:17 p.|1985|
98461|A||Valkirs,A., B. Davidson, and P. Seligman|Sublethal Growth Effects and Mortality to Marine Bivalves and Fish from Long-Term Exposure to Tributyltin|NOSC-TR-1042, Natl.Tech.Inf.Serv., Springfield, VA:63 p.|1985|
98462|T||Wu,J.C., J.X. Xu, J.L. Liu, S.Z. Yuan, J.A. Cheng, and K.L. Heong|Effects of Herbicides on Rice Resistance and on Multiplication and Feeding of Brown Planthopper (BPH), Nilaparvata lugens (Stal) (Homoptera:  Delphacidae)|Int. J. Pest Manag.47(2): 153-159|2001|10.1080/09670870151130697
98463|T||McCaffery,A.R., and K.C. Highnam|Effects of Corpus Aliatum Hormone and Its Mimics on the Activity of the Cerebral Neurosecretory System of Locusta migratoria migratorioides R. & F.|Gen. Comp. Endocrinol.25(3): 373-386|1975|10.1016/0016-6480(75)90127-6
98464|A||Kojima,S., H. Matsumoto, and K. Ishizuka|Protoporphyrin IX Accumulation in Lemna paucicostata Hegelm. Caused by Diphenyl Ether Herbicides and Their Herbicidal Activity|Zasso Kenkyu36(4): 318-323|1991|10.3719/weed.36.318
98465|T||Morpurgo,G., F. Aulicino, M. Bignami, L. Conti, A. Velcich, and S.G. Montalenti|Relationship Between Structure and Mutagenicity of Dichlorvos and Other Pesticides|Atti Accad.Naz.Lincei Rend.,Cl.Sci.Fis.,Mat.Nat.62(5): 692-701|1977|
98466|T||Rajoo,R.K., and C.P. Ghonsikar|Herbicidal Influence on the Uptake of Phosphorus by Paddy (Oryza sativa L.) and Maize (Zea mays L.)|Plant Soil50(2): 479-484|1978|10.1007/BF02107196
98467|T||Moorthy,B.T.S., and G.B. Manna|Weed Control in Puddle-Seeded Rice by Some Pre-Emergence Herbicides|Sci. Cult.55(6): 215-216|1989|
98468|T||Tang,L.C., and R.F. Hou|Potential Application of the Entomopathogenic Fungus, Nomuraea rileyi, for Control of the Corn Earworm, Helicoverpa armigera|Entomol. Exp. Appl.88(1): 25-30|1998|10.1046/j.1570-7458.1998.00342.x
98469|A||Zotin,A.I., L.S. Milman, and V.S. Faustov|ATP Level and Cleavage of Sea Urchin Eggs Strongylocentrotus drobachiensis (O. F. Muller)|Exp. Cell Res.39(2/3): 567-576|1965|10.1016/0014-4827(65)90058-3
98470|T||Rademacher,W., R. Maisch, J. Liessegang, and J. Jung|Water Consumption and Yield Formation in Crop Plants Under the Influence of Synthetic Analogues of Abscisic Acid|BCPC Monogr. - Br. Crop Prot. Counc.36:53-66|1987|
98472|T||Zhao,X.L., and J.H. Wu|Actions of Sodium Fluoride on Acetylcholinesterase Activities in Rats|Biomed. Environ. Sci.11(1): 1-6|1998|
98473|T||Mishina,G.N., M.N. Talieva, A.V. Babosha, G.V. Serezhkina, and L.N. Andreev|Influence of Phytohormones on Development of Conidial Inoculum of Causative Agents of the Phlox and Barley Powdery Mildew|Biol. Bull.29(1): 46-52|2002|10.1023/A:1013289802130
98474|T||Kepczynska,E., and S. Zielinska|Regulation of Medicago sativa L. Somatic Embryos Regeneration by Gibberellin A3 and Abscisic Acid in Relation to Starch Content and (alpha)-Amylase Activity|Plant Growth Regul.49(2-3): 209-217|2006|10.1007/s10725-006-9106-6
98475|T||Jiang,M., and J. Zhang|Involvement of Plasma-Membrane NaDPH Oxidase in Abscisic Acid- and Water Stress-Induced Antioxidant Defense in Leaves of Maize Seedlings|Planta (Multiple Languages)215(6): 1022-1030|2002|10.1007/s00425-002-0829-y
98476|A||EPA/OTS|Toxicity of Carbondisulphide to Poecilia reticulata and Bracydanio rerio, with Cover Letter Dated 05/24/94 (Sanitized)|EPA/OTS Doc.#86940001024s:22 p.|1994|
98477|T||Jahangir,T., T.H. Khan, L. Prasad, and S. Sultana|Alleviation of Free Radical Mediated Oxidative and Genotoxic Effects of Cadmium by Farnesol in Swiss Albino Mice|Redox Rep.10(6): 303-310|2005|10.1179/135100005X83671
98478|T||Rhone-Poulenc|Initial Submission:  Letter Summarizing Results of Two-Year Dietary Study of Fosetyl-Al in Dogs Dated 080792|EPA/OTS Doc.#88-920004905:3 p.|1992|
98479|T||Monsanto Co.|Initial Submission:  A Developmental Toxicity Study with Aminomethylphosphonic Acid in Rats (Final Report) with Cover Letter Dated 071092|EPA/OTS Doc.#88-920004838:261 p.|1992|
98480|T||Aroca,R., A. Ferrante, P. Vernieri, and M.J. Chrispeels|Drought, Abscisic Acid and Transpiration Rate Effects on the Regulation of PIP Aquaporin Gene Expression and Abundance in Phaseolus vulgaris Plants|Ann. Bot.98(6): 1301-1310|2006|10.1093/aob/mcl219
98481|T||Aroca,R.|Exogenous Catalase and Ascorbate Modify the Effects of Abscisic Acid (ABA) on Root Hydraulic Properties in Phaseolus vulgaris L. Plants|J. Plant Growth Regul.25(1): 10-17|2006|10.1007/s00344-005-0075-1
98482|T||Agarwal,S., R.K. Sairam, G.C. Srivastava, and R.C. Meena|Changes in Antioxidant Enzymes Activity and Oxidative Stress by Abscisic Acid and Salicylic Acid in Wheat Genotypes|Biol. Plant. (Praha)49(4): 541-550|2005|10.1007/s10535-005-0048-z
98483|T||Kikuchi,A., N. Sanuki, K. Higashi, T. Koshiba, and H. Kamada|Abscisic Acid and Stress Treatment are Essential for the Acquisition of Embryogenic Competence by Carrot Somatic Cells|Planta (Multiple Languages)223(4): 637-645|2006|10.1007/s00425-005-0114-y
98484|T||Schutte,G.C., J.J. Bezuidenhout, and J.M. Kotze|Timing of Application of Phosphonate Fungicides Using Different Application Methods as Determined by Means of Gas-Liquid-Chromatography for Phytophthora Root Rot Control of Citrus|Phytophylactica23(1): 69-71|1991|
98485|T||Legaria,J., R. Rajsbaum, R.A. Munoz-Clares, N. Villegas-Sepulveda, J. Simpson, and G. Iturriaga|Molecular Characterization of Two Genes Encoding Betaine Aldehyde Dehydrogenase from Amaranth. Expression in Leaves Under Short-Term Exposure to Osmotic Stress or Abscisic Acid|Gene281(1-2): 69-76|1998|10.1016/S0378-1119(98)00381-3
98486|T||Moons,A., J. Gielen, J. Vandekerckhove, D. Van der Straeten, G. Gheysen, and M. Van Montagu|An Abscisic-Acid- and Salt-Stress-Responsive Rice cDNA from a Novel Plant Gene Family|Planta (Multiple Languages)202(4): 443-454|1997|10.1007/s004250050148
98487|T||Naidu,M.M., and C.S. Sreenivasan|Effect of Abscisic Acid and Cytokinins on Cultured Zygotic Embryos of Coffea arabica cv.Cauvery (Catimor)|Plant Cell Tissue Organ Cult.79(3): 279-284|2004|10.1007/s11240-004-4607-3
98488|T||Idaomar,M., R. El Hamss, F. Bakkali, N. Mezzoug, A. Zhiri, D. Baudoux, A. Munoz-Serrano, V. Liemans, and A. Alonso-Mora|Genotoxicity and Antigenotoxicity of Some Essential Oils Evaluated by Wing Spot Test of Drosophila melanogaster|Mutat. Res.513(1-2): 61-68|2002|10.1016/S1383-5718(01)00287-X
98489|T||Huber,D.P.W., R. Gries, J.H. Borden, and H.D.,Jr. Pierce|A Survey of Antennal Responses by Five Species of Coniferophagous Bark Beetles (Coleoptera: Scolytidae) to Bark Volatiles of Six Species of Angiosperm Trees|Chemoecology10(3): 103-113|2000|10.1007/PL00001811
98490|A||Ciba-Geigy Corp.|Initial Submission:  Letter from Ciba-Geigy Corporation to USEPA Submitting a Summary on Fenoxycarb 48-Hour Acute Toxicity Study in Daphnia magna|EPA/OTS Doc.#88-920005354:3 p.|1992|
98491|T||WIL Research Laboratories Inc.|Initial Submission:  Acute Eye Irritation Study in Albino Rabbits of Aluminum Tris (Ethyl Phosphonate) with Cover Letter Dated 09/08/92|EPA/OTS Doc.#88-920009357:14 p.|1992|
98492|T||Rhone-Poulenc|Initial Submission:  Letter Summarizing Results of Chronic Toxicity (2 Year) & Carcinogenicity Study of Fosetyl-Al (LS 74-783) in Rats Dated 080792|EPA/OTS Doc.#88-920004906:3 p.|1992|
98493|T||Rhone-Poulenc|Initial Submission:  Letter Summarizing Study of Effects of Monoethylphophonic Acid, Aluminum Salt (LS 74-783) in a Number of Pharmacological Tests in Mice Dated 080792|EPA/OTS Doc.#88-920004903:3 p.|1992|
98494|T||Shell Oil Co.|Initial Submission: Letter Submitting Chronic Behavioral Toxicology of Hexane and Cs2 and Morphological Effects of Cs2 with Attachments|EPA/OTS Doc.#88-920003440:35 p.|1992|
98495|T||BassiriRad,H., and J.W. Radin|Temperature-Dependent Water and Ion Transport Properties of Barley and Sorghum Roots.  II.  Effects of Abscisic Acid|Plant Physiol.99(1): 34-37|1992|10.1104/pp.99.1.34
98496|T||Pandey,G.K., Y.H. Cheong, K.N. Kim, J.J. Grant, L. Li, W. Hung, C. D'Angelo, S. Weinl, J. Kudla, and S. Luan|The Calcium Sensor Calcineurin B-Like 9 Modulates Abscisic Acid Sensitivity and Biosynthesis in Arabidopsis|Plant Cell16(7): 1912-1924|2004|10.1105/tpc.021311
98497|T||Gonzalez-Garcia,M.P., D. Rodriguez, C. Nicolas, P.L. Rodriguez, G. Nicolas, and O. Lorenzo|Negative Regulation of Abscisic Acid Signaling by the Fagus sylvatica FsPP2C1 Plays a Role in Seed Dormancy Regulation and Promotion of Seed Germination|Plant Physiol.133(1): 135-144|2003|10.1104/pp.103.025569
98498|T||Han,B., P. Berjak, N. Pammenter, J. Farrant, and A.R. Kermode|The Recalcitrant Plant Species, Castanospermum australe and Trichilia dregeana, Differ in Their Ability to Produce Dehydrin-Related Polypeptides During Seed Maturation and in Response to ABA or Water-Deficit-Related Str|J. Exp. Bot.48(314): 1717-1726|1997|10.1093/jexbot/48.314.1717
98499|T||Gryndler,M., H. Hrselova, I. Chvatalova, and J. Jansa|The Effect of Selected Plant Hormones on In Vitro Proliferation of Hyphae of Glomus fistulosum|Biol. Plant. (Praha)41(2): 255-263|1998|10.1023/A:1001874832669
98500|T||Fravel,D.R., W.J.,Jr. Connick, C.C. Grimm, and S.W. Lloyd|Volatile Compounds Emitted by Sclerotia of Sclerotinia minor, Sclerotinia sclerotiorum, and Sclerotium rolfsii|J. Agric. Food Chem.50(13): 3761-3764|2002|10.1021/jf0117098
98501|A||Flores,S., and C.C. Smart|Abscisic Acid-Induced Changes in Inositol Metabolism in Spirodela polyrrhiza|Planta (Multiple Languages)211(6): 823-832|2000|10.1007/s004250000348
98502|T||D'Arcy-Lameta,A., R. Ferrari-Iliou, D. Contour-Ansel, A.T. Pham-Thi, and Y. Zuily-Fodil|Isolation and Characterization of Four Ascorbate Peroxidase cDNAs Responsive to Water Deficit in Cowpea Leaves|Ann. Bot.97(1): 133-140|2006|10.1093/aob/mcj010
98503|A||Chaloupkova,K., and C.C. Smart|The Abscisic Acid Induction of a Novel Peroxidase is Antagonized by Cytokinin in Spirodela polyrrhiza L.|Plant Physiol.105(2): 497-507|1994|10.1104/pp.105.2.497
98504|T||Clerkx,E.J.M., H. Blankestijn-De Vries, G.J. Ruys, S.P.C. Groot, and M. Koornneef|Characterization of Green Seed, an Enhancer of abi3-1 in Arabidopsis that Affects Seed Longevity|Plant Physiol.132(2): 1077-1084|2003|10.1104/pp.103.022715
98505|A||Casati,P., M.V. Lara, and C.S. Andreo|Induction of a C4-Like Mechanism of CO2 Fixation in Egeria densa, a Submersed Aquatic Species|Plant Physiol.123(4): 1611-1621|2000|10.1104/pp.123.4.1611
98506|A||Hilden,S.|Sodium and Potassium Levels in Blepharisma intermedium|Exp. Cell Res.61(2-3): 246-254|1970|10.1016/0014-4827(70)90444-1
98507|T||Nayyar,H., and D.P. Walia|Water Stress Induced Proline Accumulation in Contrasting Wheat Genotypes as Affected by Calcium and Abscisic Acid|Biol. Plant. (Praha)46(2): 275-279|2003|10.1023/A:1022867030790
98508|A||Arruda,D.C., F.L. D'Alexandri, A.M. Katzin, and S.R.B. Uliana|Antileishmanial Activity of the Terpene Nerolidol|Antimicrob. Agents Chemother.49(5): 1679-1687|2005|10.1128/AAC.49.5.1679-1687.2005
98509|T||Anderson,J.P., E. Badruzsaufari, P.M. Schenk, J.M. Manners, O.J. Desmond, C. Ehlert, D.J. Maclean, P.R. Ebert, and K. K|Antagonistic Interaction Between Abscisic Acid and Jasmonate-Ethylene Signaling Pathways Modulates Defense Gene Expression and Disease Resistance in Arabidopsis|Plant Cell16(12): 3460-3479|2004|10.1105/tpc.104.025833
98510|T||Omura,H., and K. Honda|Priority of Color Over Scent During Flower Visitation by Adult Vanessa indica Butterflies|Oceanologia (Wroc.)142(4): 588-596|2005|
98511|T||Reddy,R.V., M.M.R. Eldeib, and C.S. Reddy|Inhibition of Adenylate Cyclase in Prefusion Mouse Palate by Secalonic Acid D|J. Toxicol. Environ. Health41(2): 175-185|1994|10.1080/15287399409531835
98512|T||Wang,H., H. Huang, and X. Huang|Differential Effects of Abscisic Acid and Ethylene on the Fruit Maturation of Litchi chinensis Sonn.|Plant Growth Regul.52(3): 189-198|2007|10.1007/s10725-007-9189-8
98513|T||Noda,K., T. Matsuura, M. Maekawa, and S. Taketa|Chromosomes Responsible for Sensitivity of Embryo to Abscisic Acid and Dormancy in Wheat|Euphytica 123(2): 203-209|2002|10.1023/A:1014948712848
98514|T||Pospisilova,J.|Interaction of Cytokinins and Abscisic Acid During Regulation of Stomatal Opening in Bean Leaves|Photosynthetica (Praha)41(1): 49-56|2003|10.1023/A:1025852210937
98515|T||Audenaert,K., G.B. De Meyer, and M.M. Hofte|Abscisic Acid Determines Basal Susceptibility of Tomato to Botrytis cinerea and Suppresses Salicylic Acid-Dependent Signaling Mechanisms|Plant Physiol.128(2): 491-501|2002|10.1104/pp.010605
98516|T||Wheeler,G.S., L.M. Massey, and I.A. Southwell|Dietary Influences on Terpenoids Sequestered by the Biological Control Agent Oxyops vitiosa:  Effect of Plant Volatiles from Different Melaleuca quinquenervia Chemotypes and Laboratory Host Species|J. Chem. Ecol.29(1): 189-208|2003|10.1023/A:1021941000399
98517|T||Wheeler,G.S., L.M. Massey, and I.A. Southwell|Antipredator Defense of Biological Control Agent Oxyops vitiosa is Mediated by Plant Volatiles Sequestered from the Host Plant Melaleuca quinquenervia|J. Chem. Ecol.28(2): 297-315|2002|10.1023/A:1017982007812
98518|T||Abraham,E., G. Rigo, G. Szekely, R. Nagy, C. Koncz, and L. Szabados|Light-Dependent Induction of Proline Biosynthesis by Abscisic Acid and Salt Stress is Inhibited by Brassinosteroid in Arabidopsis|Plant Mol. Biol.51(3): 363-372|2003|10.1023/A:1022043000516
98519|T||Chu,C., Z. Dai, M.S.B. Ku, and G.E. Edwards|Induction of Crassulacean Acid Metabolism in the Facultative Halophyte Mesembryanthemum crystallinum by Abscisic Acid|Plant Physiol.93(3): 1253-1260|1990|10.1104/pp.93.3.1253
98520|T||Pacheco-Moises,F., L. Valencia-Turcotte, M. Altuzar-Martinez, and R. Rodriguez-Sotres|Regulation of Acyltransferase Activity in Immature Maize Embryos by Abscisic Acid and the Osmotic Environment|Plant Physiol.114(3): 1095-1101|1997|10.1104/pp.114.3.1095
98521|T||Nishiwaki,M., K. Fujino, Y. Koda, K. Masuda, and Y. Kikuta|Somatic Embryogenesis Induced by the Simple Application of Abscisic Acid to Carrot (Daucus carota L.) Seedlings in Culture|Planta (Multiple Languages)211(5): 756-759|2000|10.1007/s004250000387
98522|T||Sharma,N., S.R. Abrams, and D.R. Waterer|Uptake, Movement, Activity, and Persistence of an Abscisic Acid Analog (8' Acetylene ABA Methyl Ester) in Marigold and Tomato|J. Plant Growth Regul.24(1): 28-35|2005|10.1007/s00344-004-0438-z
98523|T||Zenkteler,E., and A. Bagniewska-Zadworna|Ultrastructural Changes in Rhizome Parenchyma of Polypodium vulgare During Dehydration with or Without Abscisic Acid Pretreatment|Biol. Plant. (Praha)49(2): 209-214|2005|10.1007/s10535-005-0214-3
98524|A||Jana,S.|Effects of Plant Growth Regulators on Some Biochemical Parameters in Leaves of Submerged Aquatic Plants During Induced Senescence|Environ. Ecol.7(3): 634-637|1989|
98525|T||Feurtado,J.A., J. Yang, S.J. Ambrose, A.J. Cutler, S.R. Abrams, and A.R. Kermode|Disrupting Abscisic Acid Homeostasis in Western White Pine (Pinus monticola Dougl. Ex D. Don) Seeds Induces Dormancy Termination and Changes in Abscisic Acid Catabolites|J. Plant Growth Regul.26(1): 46-54|2007|10.1007/s00344-006-0035-4
98526|T||Fellner,M., and V.K. Sawhney|The 7B-1 Mutant in Tomato Shows Blue-Light-Specific Resistance to Osmotic Stress and Abscisic Acid|Planta (Multiple Languages)214(5): 675-682|2002|10.1007/s004250100671
98527|T||Debeaujon,I., and M. Koornneef|Gibberellin Requirement for Arabidopsis Seed Germination is Determined Both by Testa Characteristics and Embryonic Abscisic Acid|Plant Physiol.122(2): 415-424|2000|10.1104/pp.122.2.415
98528|A||Boger,P., and B. Nicolaus|Ethane Formation by Peroxidizing Herbicides|In: P.Boger and G.Sandmann (Eds), Chapter 8, Target Assays Modern Herbicides and Related Phytotoxic Compounds: Lewis Publ:51-60|1993|
98529|A||Ogino,C., T. Hoshi, T. Iida, S. Koura, H. Ogawa, H. Kohno, Y. Sato, M. Takai, and K. Wakabayashi|Peroxidizing Phytotoxic Activity of Thiadiazolidine and Triazolidine Compounds|J. Pestic. Sci. (Multiple Languages)18(4): 369-373|1993|10.1584/jpestics.18.4_369
98530|A||Sandmann,G., and P. Boger|Structure and Activity in Herbicidal Bleaching|In: P.Doyle, T.Fujita, J.Miyamoto, P.C.Kearney (Eds.) Pesticide Chemistry: Human Welfare and the Environment, Pergamon Press, NY1:321-326|1983|
98531|T||Jose-Estanyol,M., P. Perez, and P. Puigdomenech|Expression of the Promoter of HyPRP, an Embryo-Specific Gene from Zea mays in Maize and Tobacco Transgenic Plants|Gene356:146-152|2005|10.1016/j.gene.2005.04.024
98532|T||El-Amry,M.I., and B.E. Michel|Effects of Abscisic Acid Application to Roots on Water and Ion Uptake and Leaf Conductance of Soybean|Arab Gulf J. Sci. Res.13(3): 621-636|1995|
98533|T||Parker,C., and M.L. Dean|Control of Wild Rice in Rice|Pestic. Sci.7(4): 403-416|1976|10.1002/ps.2780070412
98534|A||Sandmann,G., and P. Boger|Comparison of the Bleaching Activity of Norflurazon and Oxyfluorfen|Weed Sci.31(3): 338-341|1983|10.1017/S0043174500069125
98535|T||Khurana,A.D.|Evaluation of Gossyplure and Neem Oil Formulation Along wth Insecticidal Spray Schedule for the Control of Pink Bollworm on Cotton|J. Insect Sci.6(2): 303-304|1993|
98536|T||Guest,D.I.|Modification of Defence Responses in Tobacco and Capsicum Following Treatment with Fosetyl-Al [Aluminum tris (0-ethyl Phosophonate)]|Physiol. Plant Pathol.25:125-134|1984|10.1016/0048-4059(84)90051-1
98537|A||Kohno,H., C. Ogino, T. Iida, S. Takasuka, Y. Sato, B. Nicolaus, P. Boger, and K. Wakabayashi|Peroxidizing Phytotoxic Activity of Pyrazoles|J. Pestic. Sci. (Multiple Languages)20(2): 137-143|1995|10.1584/jpestics.20.137
98538|T||Guh,J.O., E.K. Lee, Y.I. Kuk, and R.D. Park|Absorption, Translocation, and Metabolism of Oxyfluorfen in Rice (Oryza sativa) and Barnyard Grass (Echinochloa crus-galli)|Weed Res. (Multiple Languages)40(4): 245-251|1995|
98539|A||Nair,K.K.|Susceptibility of Mosquito Larvae to a Synthetic Juvenile Hormone, Farnesyl Diethylamine|Naturwissenschaften54(18): 494-495|1967|10.1007/BF00702519
98540|T||Shukla,A.K.|Effect of Herbicides Butachlor, Fluchloralin, 2,4-D and Oxyfluorfen on Microbial Population and Enzyme Activities of Rice Field Soil|Indian J. Ecol.24(2): 189-192|1997|
98541|AT||Savithri,K.E., M.R.C. Pillai, and P.J. Tomy|Efficiency of Pre-Emergence Herbicides in Transplanted Rice|J. Trop. Agric.32(1): 27-29|1994|
98542|T||Pillai,K.G., K. Krishnamurthy, and A.S. Ramprasad|Performance of Granular Herbicides in Wetland Rice|Oryza20(1): 23-30|1983|
98543|AT||Walia,U.S., L.S. Brar, and H.S. Gill|Efficacy of Herbicides Against Grassy Weeds in Transplanted Rice|J. Res. Punjab Agric. Univ.29(3): 321-326|1992|
98544|T||Xu,Y., S. Yuan, and Q. Xie|Effects of Fluorosis on Induced Secretion of Rat Prolactin In Vivo and In Vitro|Fluoride30(3): 173-178|1997|
98545|T||Swamy,A.V.S.R., and V.K. Khanna|A Study of Pollen Viability After Storage and the Effect of Some Growth Regulators on In Vitro Pollen Germination and Pollen Tube Growth in Cicer|Acta Agron. Hung.41(1/2): 25-32|1992|
98546|T||Naqvi,S.S.M., S. Mumtaz, A. Shereen, A.H. Khan, M.A. Khan, and M.Y. Ashraf|Salinity and Abscisic Acid Effects on the Nitrate Reductase Activity in Wheat Seedlings|Acta Physiol. Plant.18(2): 107-110|1996|
98547|T||Pot-Deprun,J., and I. Chouroulinkov|Micronuclei Induction in Mouse Bone Marrow Cells with Benzo(a)pyrene, Pyrene, 2- Acetylaminofluorene and 4-Acetylaminofluorene|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:158-161|1988|
98548|T||Guenter,W., and P.H.B. Hahn|Fluorine Toxicity and Laying Hen Performance|Poult. Sci.65(4): 769-778|1986|10.3382/ps.0650769
98550|T||Jiang,M., and J. Zhang|Cross-Talk Between Calcium and Reactive Oxygen Species Originated from NaDPH Oxidase in Abscisic Acid-Induced Antioxidant Defence in Leaves of Maize Seedlings|Plant Cell Environ.26(6): 929-939|2003|10.1046/j.1365-3040.2003.01025.x
98551|T||Benschop,J.J., F.F. Millenaar, M.E. Smeets, M. Van Zanten, L.A.C.J. Voesenek, and A.J.M. Peeters|Abscisic Acid Antagonizes Ethylene-Induced Hyponastic Growth in Arabidopsis|Plant Physiol.143(2): 1013-1023|2007|10.1104/pp.106.092700
98552|T||Ye,Q., and E. Steudle|Oxidative Gating of Water Channels (Aquaporins) in Corn Roots|Plant Cell Environ.29(4): 459-470|2006|10.1111/j.1365-3040.2005.01423.x
98553|T||Carroll,M.J., E.A. Schmelz, R.L. Meagher, and P.E.A. Teal|Attraction of Spodoptera frugiperda Larvae to Volatiles from Herbivore-Damaged Maize Seedlings|J. Chem. Ecol.32(9): 1911-1924|2006|10.1007/s10886-006-9117-9
98554|A||Matsumoto,H., S. Kojima, and K. Ishizuka|Characteristics of Herbicidal Injury by Diphenyl Ether Herbicides Oxyfluorfen and Bifenox in Lemna pausicostata Hegelm|Weed Res. (Multiple Languages)35(1): 36-43|1990|
98556|T||Drudge,J.H., E.T. Lyons, S.C. Tolliver, and E.H. Fallon|Phenothiazine in the Origin of Benzimidazole Resistance in Population-B Equine Strongyles|Vet. Parasitol.35(1/2): 117-130|1990|10.1016/0304-4017(90)90121-Q
98557|T||Nejad,A.R., and U. Van Meeteren|The Role of Abscisic Acid in Disturbed Stomatal Response Characteristics of Tradescantia virginiana During Growth at high Relative Air Humidity|J. Exp. Bot.58(3): 627-636|2007|10.1093/jxb/erl234
98558|T||Knobloch,K., A. Pauli, B. Iberl, N. Weis, and H. Weigand|Mode of Action of Essential Oil Components on Whole Cells of Bacteria and Fungi in Plate Tests|In: P.Schreier (Ed.), Bioflavor '87, Walter de Gruyther, Berlin:287-299|1988|
98559|T||Williams,P.M., and I. Arias|"Physio-Ecological Studies of Plant Species from the Arid and Semi-Arid Regions of Venezuela.  I.  The Role of Endogenous Inhibitors in the Germination of the Seeds of ""Cereus griseus"" (Haw.) Br. & R. (Cactaceae)"|Acta Cient. Venez.29(2): 93-97|1978|
98560|T||Schopfer,P., C. Plachy, and G. Frahry|Release of Reactive Oxygen Intermediates (Superoxide Radicals, Hydrogen Peroxide, and Hydroxyl Radicals) and Peroxidase in Germinating Radish Seeds Controlled by Light, Gibberellin, and Abscisic Acid|Plant Physiol.125(4): 1591-1602|2001|10.1104/pp.125.4.1591
98562|T||Ventura,M.U., M.C. Martins, and A. Pasini|Responses of Diabrotica speciosa and Cerotoma arcuata tingomariana (Coleoptera: Chrysomelidae) to Volatile Attractants|Fla. Entomol.83(4): 403-410|2000|10.2307/3496715
98563|T||Rodriguez-Saona,C., S.J. Crafts-Brandner, P.W. Pare, and T.J. Henneberry|Exogenous Methyl Jasmonate Induces Volatile Emissions in Cotton Plants|J. Chem. Ecol.27(4): 679-695|2001|10.1023/A:1010393700918
98564|T||Santos,S., M.L.L. De Moraes, A.P.S.S. Filho, and M.O.O. Rezende|Allelopathic Potential and Systematic Evaluation of Organic Extracts from Canavalia ensiformis Leaves (Jack Beans)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40:77-84|2005|
98565|T||Horiuchi,J.I., D.V. Badri, B.A. Kimball, F. Negre, N. Dudareva, M.W. Paschke, and J.M. Vivanco|The Floral Volatile, Methyl Benzoate, from Snapdragon (Antirrhinum majus) Triggers Phytotoxic Effects in Arabidopsis thaliana|Planta (Multiple Languages)226(1): 1-10|2007|10.1007/s00425-006-0464-0
98566|T||Fraser,A.M., W.L. Mechaber, and J.G. Hildebrand|Electroantennographic and Behavioral Responses of the Sphinx Moth Manduca sexta to Host Plant Headspace Volatiles|J. Chem. Ecol.29(8): 1813-1833|2003|10.1023/A:1024898127549
98567|A||AFEAS|Comparison of the Toxicity of Sodium Trifluoroacetate, Sodium Difluoroacetate, Sodium Monofluoroacetate and Sodium Fluoride to the Alga with Cover Letter Dated 05/12/95|EPA/OTS Doc.#86950000255:32 p.|1995|
98568|A||AFEAS|Comparison of the Toxicity of Sodium Trifluoroacetate, Difluoroacetic Acid, Sodium Monofluoroacetate & Sodium Fluoride to the Alga with Cover Letter Dated 05/12/95|EPA/OTS Doc.#86950000254:31 p.|1995|
98569|T||Lou,Y., M. Du, T.C.J. Turlings, J. Cheng, and W. Shan|Exogenous Application of Jasmonic Acid Induces Volatile Emissions in Rice and Enhances Parasitism of Nilaparvata lugens Eggs by the Parasitoid Anagrus nilaparvatae|J. Chem. Ecol.31(9): 1985-2002|2005|10.1007/s10886-005-6072-9
98570|T||Pophof,B., G. Stange, and L. Abrell|Volatile Organic Compounds as Signals in a Plant-Herbivore System: Electrophysiological Responses in Olfactory Sensilla of the Moth Cactoblastis cactorum|Chem. Senses30(1): 51-68|2005|10.1093/chemse/bji001
98571|T||Cardoza,Y.J., H.T. Alborn, and J.H. Tumlinson|In Vivo Volatile Emissions from Peanut Plants Induced by Simultaneous Fungal Infection and Insect Damage|J. Chem. Ecol.28(1): 161-174|2002|10.1023/A:1013523104853
98572|T||Wan,S., J. Zhang, and J. Wang|Effects of High Fluoride on Sperm Quality and Testicular Histology in Male Rats|Fluoride39(1): 17-21|2006|
98573|T||Pushpalatha,T., M. Srinivas, and P. Sreenivasula Reddy|Exposure to High Fluoride Concentration in Drinking Water Will Affect Spermatogenesis and Steroidogenesis in Male Albino Rats|BioMetals18(3): 207-212|2005|10.1007/s10534-005-0336-2
98574|T||Grucka-Mamczar,E., E. Birkner, J. Zalejska-Fiolka, and Z. Machoy|Disturbances of Kidney Function in Rats with Fluoride-Induced Hyperglycemia After Acute Poisoning by Sodium Fluoride|Fluoride38(1): 48-51|2005|
98575|T||Noble,R.M., J. Herdlicka, M.D. Sutherland, and A.A. Seawright|Induction of Hepatic Microsomal Oxidative Metabolism in Mice by Essential Oil Components from Some Eucalyptus spp. and Queensland Fodder Trees|Qld. J. Agric. Anim. Sci.39(1): 9-14|1982|
98576|T||Tripathi,S.K., and S.C. Vyas|Uptake and Translocation of Herbicides by Soybean Seedlings in Relation to Fungitoxicity|Indian J. Plant Sci.4(1): 1-4|1986|
98577|T||Woodward,A.J., and I.J. Bennett|The Effect of Salt Stress and Abscisic Acid on Proline Production, Chlorophyll Content and Growth of In Vitro Propagated Shoots of Eucalyptus camaldulensis|Plant Cell Tissue Organ Cult.82(2): 189-200|2005|10.1007/s11240-005-0515-4
98578|T||Tamura,F., K. Tanabe, and A. Itai|Regulation of Endodormancy in Japanese Pear|Acta Hortic.587:325-336|2002|10.17660/ActaHortic.2002.587.44
98579|T||Aldrich,J.R., W.R. Lusby, and J.P. Kochansky|Identification of a New Predaceous Stink Bug Pheromone and Its Attractiveness to the Eastern Yellowjacket|Experientia42(5): 583-585|1986|10.1007/BF01946714
98580|T||Prusty,J.C., B. Behera, A.K. Parida, and D. Lenka|Effect of Herbicides of Fertiliser Use Economy in Jute-Rice Cropping System|Indian J. Agron.33(3): 315-316|1988|
98584|T||Genevois,C., H.C.A. Brandt, H. Bartsch, S. Obrecht-Pflumio, C.P. Wild, and M. Castegnaro|Formation of DNA Adducts in Skin, Lung, and Lymphocytes After Skin Painting of  Rats with Undiluted Bitumen or Coal-Tar Fume Condensates|Polycycl. Aromat. Compd.8:75-92|1996|10.1080/10406639608048337
98586|T||Atienza,J., J.J. Jimenez, J. Alvarez, M.T. Martin, and L. Toribio|Extraction with EDTA/Methanol and Supercritical Carbon Dioxide for the Analysis of Ziram Residues on Spinach|Toxicol. Environ. Chem.45(3/4): 179-187|1994|10.1080/02772249409358082
98587|T||Hull,L.A.|Apple, Pest and Natural Enemy Effects Under TABM Control Tactics, 1996|Arthropod Manag. Tests22:13-17|1997|10.1093/amt/22.1.13
98588|T||Hull,L.A.|Apple, Prebloom Evaluation of Insecticides, 1995|Arthropod Manag. Tests21:29-30|1996|10.1093/amt/21.1.29
98589|T||Hull,L.A.|Apple, Evaluation of Insecticides on Indirect Pests, 1996|Arthropod Manag. Tests22:19-21|1997|10.1093/amt/22.1.19
98590|T||McKay,H.V., and D. Parrott|Mute Swan Grazing on Winter Crops:  Evaluation of Three Grazing Deterrents on Oilseed Rape|Int. J. Pest Manag.48(3): 189-194|2002|10.1080/09670870110102585
98591|A||Mishra,M., S. Maharana, and R.N. Padhy|Monitoring the Influence of Chemical Fertilizers on Toxicity of Carbamate Fungicides to the Rice Field Cyanobacterium Cylindrospermum sp.|Fresenius Environ. Bull.14(9): 788-794|2005|
98592|T||Hemavathy,K.C., and N.B. Krishnamurthy|Cytogenetic Effects of Cuman L, a Dithiocarbamate Fungicide|Mutat. Res.208(1): 57-60|1988|
98593|T||Gebhardt,D.O.E., and M.J. Van Logten|The Chick Embryo Test as Used in the Study of the Toxicity of Certain Dithiocarbamates|Toxicol. Appl. Pharmacol.13(3): 316-324|1968|10.1016/0041-008X(68)90105-1
98594|T||Schering,A.G.|Initial Submission:  Systemic Toxicity Study in Rats After Administration via the Feed over 13-14 Weeks Using Tributyltin Oxide with Cover Letter Dated 090992|EPA/OTS Doc.#88-920010810:21 p.|1992|
98595|T||Schering,A.G.|Initial Submission:  System Toxicity Study in Beagle Dogs with Daily Oral (Intragastric) Administration over a Total of 18-19 Weeks|EPA/OTS Doc.#88-920010861:36 p.|1992|
98596|T||Krajnc,E.I., J.G. Vos, P.W. Wester, J.G. Loeber, and C.A. Van der Heijden|Toxicity of bis(Tri-n-Butyltin)Oxide (TBTO) in Rats|EPA/OTS Doc.#88-920010768:28 p.|1992|
98597|A||E.G. and G. Bionomics|Comparative Toxicity of Tri-n-Butyltin Oxide (TBTO) Produced by two Different Chemical Processes to Pink Shrimp (Penaeus duorarum)|EPA/OTS Doc.#88-920010841:17 p.|1981|
98598|A||E.G. and G. Bionomics|Acute Toxicity of Three Samples of TBTO (Tributyltin Oxide) to Juvenile Sheepshead Minnows|EPA/OTS Doc.#88-920010873:19 p.|1979|
98599|A||E.G. and G. Bionomics|Initial Submission:  Acute Toxicity of Tributyltin Oxide (TBTO)-Alkyl Sourced to Eastern Oysters (Crassostrea virginica) with Cover Letter Dated 091092|EPA/OTS Doc.#88-920010877:17 p.|1992|
98600|AT||Yang,J., J. Zhang, Z. Wang, K. Liu, and P. Wang|Post-Anthesis Development of Inferior and Superior Spikelets in Rice in Relation to Abscisic Acid and Ethylene|J. Exp. Bot.57(1): 149-160|2006|10.1093/jxb/erj018
98601|T||Hodge,H.C., E.A. Maynard, W. Downs, H.J.,Jr. Blanchet, and C.K. Jones|Acute and Short-Term Oral Toxicity Tests of Ferric Dimethyldithiocarbamate (Ferbam) and Zinc Dimethyldithiocarbamate (Ziram)|J. Am. Pharm. Assoc.41(12): 662-665|1952|10.1002/jps.3030411213
98602|T||R.T.Vanderbilt Co.Inc.|Support:  Acute and Subchronic (13-Week) Neurotoxicity Studies of Ziram in Rats with Cover Letter Dated 111594|EPA/OTS Doc.#89-950000047:266 p.|1994|
98603|T||ELF Atochem North America Inc.|Initial Submission:  Systemic Toxicity Testing (LD50), Single Dose Administered Intra-Gastrically of Tributyltin Oxide in Rats with Cover Letter Dated 091092|EPA/OTS Doc.#88-920010875:7 p.|1992|
98604|T||ELF Atochem North America Inc.|Initial Submission:  Systemic Toxicity Testing in Rats:  Single Dose Applied to the Skin (LD50) of Hexabutyl di-Stannoxane with Cover Letter Dated 091192|EPA/OTS Doc.#88-920010769:14 p.|1992|
98606|T||The Hine Laboratories Inc.|Primary Skin Irritation of Tributyltin Oxide|EPA/OTS Doc.#88-920010868, Confidential Report to M&T Chemicals Inc.:9 p.|1966|
98607|T||International Research and Development Corp.|Two Week Subacute Dermal Application in the Albino Rabbit|EPA/OTS Doc.#88-920010874:19 p.|1967|
98608|T||The Hine Laboratories Inc.|Primary Eye Irritation Study on Tributyltin Oxide|EPA/OTS Doc.#88-920010866:11 p.|1965|
98609|T||The Hine Laboratories Inc.|Eye Irritation Range-Find:  Tributyltin Oxide|EPA/OTS Doc.#88-920010871:7 p.|1964|
98610|T||E.I. Du Pont De Nemours|Initial Submission:  Clinical Studies of Materials Impregnated with Tributyltin Oxide with Cover Letter Dated 101592|EPA/OTS Doc.#88-920010324:38 p.|1992|
98611|A||E.G. and G. Bionomics|Effect of Tri-n-Butyltin Oxide (TBTO)-Alkyl Sourced on the Marine Alga Dunaliella tertiolecta|Project Number R52, Report Number BP-81-12-193, EPA/OTS Doc.#88-920010870:20 p.|1981|
98612|T||Dow Chemical Co.|Toxicological Properties of bis(Tri-n-Butyltin) Oxide|EPA/OTS Doc.#88-920010811:14 p.|1961|
98613|T||BioDynamics Inc.|A Dermal Sensitization Study in Guinea Pigs.  Compound:  TBTO|EPA/OTS Doc.#88-920010869:14 p.|1978|
98614|T||Lou,Y., X. Hua, T.C.J. Turlings, J. Cheng, X. Chen, and G. Ye|Differences in Induced Volatile Emissions Among Rice Varieties Result in Differential Attraction and Parasitism of Nilaparvata lugens Eggs by the Parasitoid Anagrus nilaparvatae in the Field|J. Chem. Ecol.32(11): 2375-2387|2006|10.1007/s10886-006-9151-7
98615|A||Post,A.F., A. Gal, I. Ohad, K.M. Milbauer, and G.S. Bullerjahn|Characterization of Light-Activated Reversible Phosphorylation of a Chlorophyll a/b Antenna Apoprotein in the Photosynthetic Prokaryote Prochlorothrix hollandica|Biochim. Biophys. Acta1100(1): 75-82|1992|10.1016/0005-2728(92)90128-O
98616|A||Yano,I.|Induced Ovarian Maturation and Spawning in Greasyback Shrimp, Metapenaeus ensis, by Progesterone|Aquaculture47:223-229|1985|10.1016/0044-8486(85)90068-7
98617|T||Young,B.G., J.M. Young, J.L. Matthews, M.D.K. Owen, I.A. Zelaya, R.G. Hartzler, L.M. Wax, K.W. Rorem, and G.A. Bollero|Soybean Development and Yield as Affected by Three Postemergence Herbicides|Agron. J.95:1152-1156|2003|10.2134/agronj2003.1152
98618|T||Ciecko,Z., S. Kalembasa, M. Wyszkowski, and E. Rolka|The Effect of Elevated Cadmium Content in Soil on the Uptake of Nitrogen by Plants|Plant Soil Environ.50(7): 283-294|2004|10.17221/4034-PSE
98619|T||Tavori,G., S. Abbo, U. Kafkafi, and E. Schnug|Influence of Nitrate and Sodium Chloride on Concentration and Internal Distribution of Mineral Elements in Broad Bean (Vicia faba L.) and Chickpea (Cicer arietinum L.)|Landbauforsch. Volkenrode54(4): 189-197|2004|
98620|T||Reuveni,M., and R. Reuveni|Foliar Applications of Mono-Potassium Phosphate Fertilizer Inhibit Powdery Mildew Development in Nectarine Trees|Can. J. Plant Pathol.20(3): 253-258|1998|10.1080/07060669809500391
98621|T||Zabalza,A., L. Orcaray, S. Gaston, and M. Royuela|Carbohydrate Accumulation in Leaves of Plants Treated with the Herbicide Chlorsulfuron or Imazethapyr is due to a Decrease in Sink Strength|J. Agric. Food Chem.52:7601-7606|2004|10.1021/jf0486996
98622|T||Ylivainio,K., A. Jaakkola, and R. Aksela|Effects of Fe Compounds on Nutrient Uptake by Plants Grown in Sand Media with Different pH|J. Plant Nutr. Soil Sci.167(5): 602-608|2004|10.1002/jpln.200420412
98623|T||Zabalza,A., S. Gaston, L.M. Sandalio, L.A. Del Rio, and M. Royuela|Oxidative Stress is not Related to the Mode of Action of Herbicides that Inhibit Acetolactate Synthase|Environ. Exp. Bot.59:150-159|2007|10.1016/j.envexpbot.2005.11.003
98624|T||Zabalza,A., E.M. Gonzalez, C. Arrese-Igor, and M. Royuela|Fermentative Metabolism is Induced by Inhibiting Different Enzymes of the Branched-Chain Amino Acid Biosynthesis `Pathway in Pea Plants|J. Agric. Food Chem.53:7486-7493|2005|10.1021/jf050654x
98625|T||Zabalza,A., S. Gaston, M. Ribas-Carbo, L. Orcaray, M. Igal, and M. Royuela|Nitrogen Assimilation Studies Using 15N in Soybean Plants Treated with Imazethapyr, an Inhibitor of Branched-Chain Amino Acid  Biosynthesis|J. Agric. Food Chem.54:8818-8823|2006|10.1021/jf0618224
98626|T||Kevresan,S., N. Petrovic, M. Popovic, and J. Kandrac|Effect of Heavy Metals on Nitrate and Protein Metabolism in Sugar Beet|Biol. Plant. (Praha)41(2): 235-240|1998|10.1023/A:1001818714922
98627|T||Shi,Z.H., S.J. Guo, W.C. Lin, and S.S. Liu|Evaluation of Selective Toxicity of Five Pesticides Against Plutella xylostella (Lep: Plutellidae) and Their Side-Effects Against Cotesia plutellae (Hym: Braconidae) and Oomyzus sokolowskii (Hym: Eulophidae)|Pest Manag. Sci.60(12): 1213-1219|2004|10.1002/ps.946
98628|T||Creech,J.E., T.A. Monaco, and J.O. Evans|Photosynthetic and Growth Responses of Zea mays L and Four Weed Species Following Post-Emergence Treatments with Mesotrione and Atrazine|Pest Manag. Sci.60(11): 1079-1084|2004|10.1002/ps.924
98629|T||Gaston,S., M. Ribas-Carbo, S. Busquets, J.A. Berry, A. Zabalza, and M. Royuela|Changes in Mitochondrial Electron Partitioning in Response to Herbicides Inhibiting Branched-Chain Amino Acid Biosynthesis in Soybean|Plant Physiol.133:1351-1359|2003|10.1104/pp.103.027805
98630|T||Gaston,S., A. Zabalza, E.M. Gonzalez, C. Arrese-Igor, P.M. Aparicio-Tejo, and M. Royuela|Imazethapyr, an Inhibitor of the Branched-Chain Amino Acid Biosynthesis, Induces Aerobic Fermentation in Pea Plants|Physiol. Plant. (Multiple Languages)114(4): 524-532|2002|10.1034/j.1399-3054.2002.1140404.x
98631|T||Castle,S.J., F.J. Byrne, J.L. Bi, and N.C. Toscano|Spatial and Temporal Distribution of Imidacloprid and Thiamethoxam in Citrus and Impact on Homalodisca coagulata Populations|Pest Manag. Sci.61(1): 75-84|2005|10.1002/ps.949
98632|T||Arthurs,S.P., L.A. Lacey, and E.R. Miliczky|Evaluation of the Codling Moth Granulovirus and Spinosad for Codling Moth Control and Impact on Non-Target Species in Pear Orchards|Biol. Control41:99-109|2007|10.1016/j.biocontrol.2007.01.001
98633|T||Duso,C., A. Pozzebon, C. Capuzzo, V. Malagnini, S. Otto, and M. Borgo|Grape Downy Mildew Spread and Mite Seasonal Abundance in Vineyards: Effects on Tydeus caudatus and Its Predators|Biol. Control32(1): 143-154|2005|10.1016/j.biocontrol.2004.09.004
98634|T||De Dorlodot,S., S. Lutts, and P. Bertin|Effects of Ferrous Iron Toxicity on the Growth and Mineral Composition of an Interspecific Rice|J. Plant Nutr.28(1): 1-20|2005|10.1081/PLN-200042144
98635|T||Picchioni,G.A., C.J. Graham, and A.L. Ulery|Gypsum Effects on Growth and Macroelement Uptake of Field-Grown Asimina triloba (Pawpaw) Irrigated with Low-Saline, Sodic Water|Hortscience39(5): 1104-1109|2004|10.21273/HORTSCI.39.5.1104
98636|T||Gerendas,J., and B. Sattelmacher|Influence of Ni Supply on Growth and Nitrogen Metabolism of Brassica napus L. Grown with NH4,NO3 or Urea as N Source|Ann. Bot.83(1): 65-71|1999|10.1006/anbo.1998.0789
98637|T||Hirano,Y., E.G. Pannatier, S. Zimmermann, and I. Brunner|Induction of Callose in Roots of Norway Spruce Seedlings After Short-Term Exposure to Aluminum|Tree Physiol.24(11): 1279-1283|2004|10.1093/treephys/24.11.1279
98638|T||Pataky,J.K., J.N. Nordby, M.M. Williams II, and D.E. Riechers|Inheritance of Cross-Sensitivity in Sweet Corn to Herbicides Applied Postemergence|J. Am. Soc. Hortic. Sci.131(6): 744-751|2006|10.21273/JASHS.131.6.744
98639|A||Pena-Llopis,S., M.D. Ferrando, and J.B. Pena|Increased Recovery of Brain Acetylcholinesterase Activity in Dichlorvos-Intoxicated European Eels Anguilla anguilla by Bath Treatment with N-Acetylcysteine|Dis. Aquat. Org.55(3): 237-245|2003|10.3354/dao055237
98640|T||Kobe,R.K., G.E. Likens, and C. Eagar|Tree Seedling Growth and Mortality Responses to Manipulations of Calcium and Aluminum in a Northern Hardwood Forest|Can. J. For. Res.32(6): 954-966|2002|10.1139/x02-018
98641|T||Kobayashi,K., N. Oonaka, and I.S. Shim|Role of Underground Parts of Barnyardgrass (Echinochloa crus-galli (L.) Beauv. var. formosensis Ohwi) in Its Sensitivity to Thenylchlor in Soil|Weed Biol. Manag.4(3): 142-147|2004|10.1111/j.1445-6664.2004.00131.x
98642|T||Ivany,J.A.|Comparison of Weed Control Strategies in Glyphosate-Resistant Soybean [Glycine max (L.) Merr.] in Atlantic Canada|Can. J. Plant Sci.84(4): 1199-1204|2004|10.4141/P03-110
98643|T||Ivany,J.A.|Comparison of Glyphosate Formulations with and Without Sequential Herbicides for No-Till Soybean in Narrow Rows|Phytoprotection (Multiple Languages)85(2): 95-100|2004|10.7202/009835ar
98644|T||Trdan,S., N. Valic, J. Jerman, D. Ban, and D. Znidarcic|Efficacy of Three Natural Chemicals to Reduce the Damage of Erysiphe cichoracearum on Chicory in Two Meteorologically Different Growing Seasons|J. Phytopathol.152(10): 567-574|2004|10.1111/j.1439-0434.2004.00897.x
98645|T||Thrall,K.D., R.A. Gies, A.M. Cartmell, H. Wu, J.J. Soelberg, and J.A. Klein|A Liquid Chromatographic-Mass Spectrometric Method to Evaluate the Distribution Kinetics of 1,3-Diethylbenzene and Its Metabolite 1,2-Diacetylbenzene in the F344 Male Rat|J. Toxicol. Environ. Health Part A70(1): 67-72|2007|10.1080/15287390600751173
98646|T||Ben-Oliel,G., S. Kant, M. Naim, H.D. Rabinowitch, G.R. Takeoka, R.G. Buttery, and U. Kafkafi|Effects of Ammonium to Nitrate Ratio and Salinity on Yield and Fruit Quality of Large and Small Tomato Fruit Hybrids|J. Plant Nutr.27(10): 1795-1812|2004|10.1081/PLN-200026430
98647|T||Kohriyama,K., M. Matsuoka, and H. Igisu|Effects of Acrylamide and Acrylic Acid on Creatine Kinase Activity in the Rat Brain|Arch. Toxicol.68:67-70|1994|10.1007/BF03035711
98648|T||Kimbrough,R.D., and T.B. Gaines|Hexachlorophene Effects on the Rat Brain|Arch. Environ. Health23:114-118|1971|10.1080/00039896.1971.10665966
98649|T||Bingham,E., and H.L. Falk|Environmental Carcinogens.  The Modifying Effect of Cocarcinogens on the Threshold Response|Arch. Environ. Health19(6): 779-783|1969|10.1080/00039896.1969.10666930
98650|T||Cohen,J.E., K. Schoenly, K.L. Heong, H. Justo, G. Arida, A.T. Barrion, and J.A. Litsinger|A Food Web Approach to Evaluating the Effect of Insecticide Spraying on Insect Pest Population Dynamics in a Philippines Irrigated Rice Ecosystem|J. Appl. Ecol.31:747-763|1994|10.2307/2404165
98651|AT||Hogstrand,C., and C. Haux|A Radioimmunoassay for Perch (Perca fluviatilis) Metallothionein|Toxicol. Appl. Pharmacol.103:56-65|1990|10.1016/0041-008X(90)90262-S
98652|T||Aoki,Y., K.T. Suzuki, and K. Kubota|Accumulation of Cadmium and Induction of Its Binding Protein in the Digestive Tract of Fleshfly (Sarcophaga peregrina) Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol.77:279-282|1984|10.1016/0742-8413(84)90013-6
98653|T||Blackburn,D.M., A.J. Gray, S.C. Lloyd, C.M. Sheard, and P.M.D. Foster|A Comparison of the Effects of the Three Isomers of Dinitrobenzene on the Testis in the Rat|Toxicol. Appl. Pharmacol.92:54-64|1988|10.1016/0041-008X(88)90227-X
98654|T||Narotsky,M.G., and R.J. Kavlock|A Multidisciplinary Approach to Toxicological Screening: II. Developmental Toxicity|J. Toxicol. Environ. Health45:145-171|1995|10.1080/15287399509531987
98655|T||Qureshi,M.I., M.Z. Abdin, S. Qadir, and M. Iqbal|Lead-Induced Oxidative Stress and Metabolic Alterations in Cassia angustifolia Vahl.|Biol. Plant. (Praha)51(1): 121-128|2007|10.1007/s10535-007-0024-x
98656|T||Qureshi,M.I., M. Israr, M.Z. Abdin, and M. Iqbal|Responses of Artemisia annua L. to Lead and Salt-Induced Oxidative Stress|Environ. Exp. Bot.53(2): 185-193|2005|10.1016/j.envexpbot.2004.03.014
98658|T||Gulden,R.H., S. Chiwocha, S. Abrams, I. McGregor, A. Kermode, and S. Shirtliffe|Response to Abscisic Acid Application and Hormone Profiles in Spring Brassica napus Seed in Relation to Secondary Dormancy|Can. J. Bot.82(11): 1618-1624|2004|10.1139/b04-119
98659|T||Xu,H.J., A. Shida, F. Futatsuya, and A. Kumura|Effects of Epibrassinolide and Abscisic Acid on Sorghum Plants Growing Under Soil Water Deficit. I. Effects on Growth and Survival|Jpn. J. Crop Sci. (Multiple Languages)63(4): 671-675|1994|10.1626/jcs.63.671
98660|A||Chippaux,J.P., K.P. Yovo, Y. Soakoude, and M. Akogbeto|Efficacy of Selected Compounds on Thermocyclops oblongatus, One of the Main Intermediate Hosts of Guinea Worm in Africa|Acta Hydrochim. Hydrobiol. (Multiple Languages)24(6): 283-285|1996|10.1002/aheh.19960240606
98661|T||Wester,P.W., E.I. Krajnc, F.X.R. Van Leeuwen, J.G. Loeber, C.A. Van der Heijden, H.A.M.G. Vaessen, and P.W. Hellemen|Two-Year Feeding Study in Rats with Bis(Tri-n-Butyltin)Oxide (TBTO)|Rep.No.658112 002, Natl.Inst.of Public Health and Environ.Hygiene, Bilthoven, The Netherlands:96 p.|1988|
98662|T||Maita,K., A. Enomoto, N. Nakashima, T. Yoshida, K. Sugimoto, M. Kuwahara, and T. Harada|Chronic Toxicity Studies with Ziram in F344 Rats and Beagle Dogs|J. Pestic. Sci. (Multiple Languages)22(3): 193-207|1997|10.1584/jpestics.22.193
98663|T||Tripathy,N.K., B. Majhi, L. Dey, and C.C. Das|Genotoxicity of Ziram Established Through Wing, Eye and Female Germ-Line Mosaic Assays and the Sex-Linked Recessive Lethal Test in Drosophila melanogaster|Mutat. Res.224(2): 161-169|1989|10.1016/0165-1218(89)90152-3
98664|T||Aggarwal,R.A.K., B. Singh, and D.S. Wagle|Phorate Induced Alterations.  In Vitro Absorption of Nutrients in Rats|J. Nat. Conserv.3(1): 102-105|1991|
98665|T||Sinha,A.K., M.S. Mehra, and G.K. Sinha|Study of Some Aromatic Medicinal Plants|Indian Perfum.21(3): 129-131|1977|
98666|T||Potomati,A., and M.S. Buckeridge|Effect of Abscisic Acid on the Mobilisation of Galactomannan and Embryo Development of Sesbania virgata (Cav.) Pers. (Leguminosae - Faboideae)|Braz. J. Bot.25(3): 303-310|2002|
98668|A||Hiraki,M., K. Matsunari, T. Fujita, and K. Wakabayashi|Mode of Action of Herbicidal N-Benzyl-4-Chloro-N-Isobutyl-2-Pentenamides|J. Pestic. Sci. (Multiple Languages)27(3): 272-274|2002|10.1584/jpestics.27.272
98669|T||Vogel,J., and G. Seifert|Histological Changes in the Chloragogen Tissue of the Earthworm Eisenia fetida After Administration of Sublethal Concentrations of Different Fluorides|J. Invertebr. Pathol.60(2): 192-196|1992|10.1016/0022-2011(92)90096-M
98670|T||Eraslan,G., A. Bilgili, D. Essiz, M. Akdogan, and F. Sahindokuyucu|The Effects of Deltamethrin on Some Serum Biochemical Parameters in Mice|Pestic. Biochem. Physiol.87(2): 123-130|2007|10.1016/j.pestbp.2006.07.001
98671|T||Abdelmegid,N., A. Ismail, and I.A. Sadek|Effect of Vitamin A Palmitate on Diphosphopyridine Nucleotide Activity in DMBA-Induced Hyperplastic Toad Skin|Folia Morphol. (Prague)33(2): 156-158|1985|
98672|T||Zhao,F.J., R.E. Hamon, and M.J. McLaughlin|Root Exudates of the Hyperaccumulator Thlaspi caerulescens do not Enhance Metal Mobilization|New Phytol.151(3): 613-620|2001|10.1046/j.0028-646x.2001.00213.x
98673|T||Bond,E.J., and F. De Matteis|Biochemical Changes in Rat Liver After Administration of Carbon Disulphide, with Particular Reference to Microsomal Changes|Biochem. Pharmacol.18(10): 2531-2549|1969|10.1016/0006-2952(69)90368-2
98674|T||Darmani,H., A.S. Al-Hiyasat, and A.M. Elbetieha|Effects of Sodium Fluoride in Drinking Water on Fertility in Female Mice|Fluoride34(4): 242-249|2001|
98675|T||Chinoy,N.J., and S.D. Shah|Biochemical Effects of Sodium Fluoride and Arsenic Trioxide Toxicity and Their Reversal in the Brain of Mice|Fluoride37(2): 80-87|2004|
98676|T||Chavassieux,P., P. Pastoureau, G. Boivin, M.C. Chapuy, P.D. Delmas, and P.J. Meunier|Dose Effects on Ewe Bone Remodeling of Short-Term Sodium Fluoride Administration - A Histomorphometric and Biochemical Study|Bone (New York)12(6): 421-427|1991|
98677|T||Kolodziejczyk,L., A. Put, and P. Grzela|Liver Morphology and Histochemistry in Rats Resulting from Ingestion of Sodium Selenite and Sodium Fluoride|Fluoride33(1): 6-16|2000|
98678|T||Mathur,R., and S. Purohit|Enzymes, Proline and Protein Content in Eruca sativa Var T-23 Seedlings Germinated in Presence of Sodium Fluoride|J. Phytol. Res.5(1-2): 79-81|1992|
98679|T||Tates,A.D., and I. Neuteboom|Micronucleus Test with Rat Hepatocytes to Detect Induction of Clastogenic Damage|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK66:1.400 - 1.404|1988|
98680|T||Bermudez,E., and L.L. Delehanty|DNA Strand Break Induction in Fischer-344 Rat Hepatocytes as Assessed by the Alkaline Elution Assay|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK68:1.410 - 1.414|1988|
98681|T||Russo,P., M. Pala, A. Zunino, A. Melchiori, L. Santi, and S. Parodi|Alkaline Elution of Rat Liver DNA for Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene, and 4-Acetylaminofluorene|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK70:1.420 - 1.426|1988|
98682|T||Birnboim,H.C.|Use of the Fluorometric Analysis of DNA Unwinding (FADU) Assay to Detect DNA Strand Breaks in the Liver of CD-1 Mice Exposed to Carcinogens and a Repair Inhibitor|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK:1.427 - 1.431|1988|
98683|T||Zhurkov,V.S., and I.F. Vyskubenko|Analysis of Chromosomal Aberrations in Bone Marrow Cells of C57BL/6 Mice Treated with Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene and 4-Acetylaminofluorene|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.104 - 1.107|1988|
98684|T||Coton,C., A. Leonard, and G. Decat|Induction of Chromosomal Aberrations in BALB/c Mouse Bone Marrow Cells|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.108 - 1.111|1988|
98685|T||Styles,J.A., C.E. Phillips, J. Shaw, and D. Hart|The Clastogenic Activity of Benzo(a)pyrene, Pyrene, 2-Acetylaminofluorene and 4- Acetylaminofluorene in the Mouse Bone Marrow Micronucleus Test|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.196 - 1.202|1988|
98686|T||Pot-Deprun,J., and I. Chouroulinkov|Mutagenic Activity of Four Compounds in Chromosomal Aberrations Assay Using Chinese Hamster Bone Marrow Cells|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.135 - 1.138|1988|
98687|T||Suter,K.E.|Micronucleus Incidences Induced in Bone Marrow Erythrocytes of Pregnant NMRI Mice and in Liver-Derived Erythrocytes of Their Foetuses|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.209 - 1.211|1988|
98688|T||Elliott,B.M., and E. Riley|DNA Strand Breakage Monitored by Alkaline Elution in the Livers of Male Wistar-Derived Rats Administered Carcinogenic/Noncarcinogenic Analogues|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK69:1.415 - 1.419|1988|
98689|T||Jensen,J.C.|Micronucleus Test on Benzo(a)pyrene and Pyrene Performed in NMRI Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.173 - 1.176|1988|
98690|T||Mirsalis,J.C., C.K. Tyson, E.K.N. Loh, J.P. Bakke, M.J. Ramsey, C.M. Hamilton, and K.L. Steinmetz|An Evaluation of the Ability of Benzo(a)pyrene, Pyrene, 2- And 4-Acetylaminofluorene to Induce Unscheduled DNA Synthesis and Cell Proliferation in the Livers of Male Rats and Mice Treated In Vivo|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.361 - 1.366|1988|
98691|A||Newton,R.J.|Abscisic Acid Effects on Growth and Metabolism in the Roots of Lemna minor|Physiol. Plant. (Multiple Languages)30(2): 108-112|1974|10.1111/j.1399-3054.1974.tb05000.x
98692|T||Goossens,J.F., A. Stabel, and J.C. Vendrig|Relationships Between Kievitone and Phaseollin Accumulation in Different Tissues of Phaseolus vulgaris in Response to Treatment with Mercuric Chloride, a Fungal Cell Wall Elicitor and Abscisic Acid|Physiol. Mol. Plant Pathol.30(1): 1-12|1987|10.1016/0885-5765(87)90078-6
98693|T||Sheoran,I.S., T. Dumonceaux, R. Datla, and V.K. Sawhney|Anthocyanin Accumulation in the Hypocotyl of an ABA-Over Producing Male-Sterile Tomato (Lycopersicon esculentum) Mutant|Physiol. Plant. (Multiple Languages)127(4): 681-689|2006|10.1111/j.1399-3054.2006.00697.x
98694|T||Weidner,S., E. Fraczek, M. Romanowska, R. Amarowicz, S. Abe, and E. Davies|The Influence of Abscisic Acid on Different Polysomal Populations in Embryonal Tissue During Pea Seeds Germination|Acta Physiol. Plant.25(1): 5-12|2003|10.1007/s11738-003-0030-3
98696|T||Salt,S.D., S. Tuzun, and J. Kuc|Effects of beta-Ionone and Abscisic Acid on the Growth of Tobacco and Resistance to Blue Mold. Mimicry of Effects of Stem Infection by Peronospora tabacina Adam|Physiol. Mol. Plant Pathol.28(2): 287-297|1986|10.1016/S0048-4059(86)80071-6
98697|T||Cho,M.J., and J.E. Harper|Effect of Abscisic Acid Application on Root Isoflavonoid Concentration and Nodulation of Wild-Type and Nodulation-Mutant Soybean Plants|Plant Soil152(1): 145-149|1993|10.1007/BF00010552
98698|T||Heckenberger,U., U. Schurr, and E.D. Schulze|Stomatal Response to Abscisic Acid fed into the Xylem of Intact Helianthus annuus (L.) Plants|J. Exp. Bot.47(302): 1405-1412|1996|10.1093/jxb/47.9.1405
98699|T||Dietz,S., and W. Hartung|Abscisic Acid in Lichens:  Variation, Water Relations and Metabolism|New Phytol.138(1): 99-106|1998|10.1046/j.1469-8137.1998.00881.x
98700|T||Tartoura,K.A.H.|Effect of Abscisic Acid on Endogenous IAA, Auxin Protector Levels and Peroxidase Activity During Adventitious Root Initiation in Vigna radiata Cuttings|Acta Physiol. Plant.23(2): 149-156|2001|10.1007/s11738-001-0002-4
98701|T||Deitrich,R.A., P.A. Troxell, W.S. Worth, and V.G. Erwin|Inhibition of Aldehyde Dehydrogenase in Brain and Liver by Cyanamide|Biochem. Pharmacol.25(24): 2733-2737|1976|10.1016/0006-2952(76)90265-3
98702|T||Ghanayem,B.I., L.T. Burka, and H.B. Matthews|Metabolic Basis of Ethylene Glycol Monobutyl Ether (2-Butoxyethanol) Toxicity:  Role of Alcohol and Aldehyde Dehydrogenases|J. Pharmacol. Exp. Ther.242(1): 222-231|1987|
98703|T||Menargues,A., R. Obach, and J.M. Valles|An Evaluation of the Mutagenic Potential of Cyanamide Using the Micronucleus Test|Mutat. Res.136(2): 127-129|1984|10.1016/0165-1218(84)90154-X
98704|T||Yoshizuka,M., N. Haramaki, M. Yokoyama, K. Hara, A. Kawahara, Y. Umezu, H. Araki, N. Mori, and S. Fujimoto|Corneal Edema Induced by bis (Tributyltin) Oxide|Arch. Toxicol.65(8): 651-655|1991|10.1007/BF02098031
98705|T||Smith,E.R., and K.L. Barker|Effect of Sodium Fluoride on Glucose-6-Phosphate Dehydrogenase Activity in the Rat Uterus|Biochim. Biophys. Acta451(1): 223-237|1976|10.1016/0304-4165(76)90273-7
98708|T||Brown,R.A., C.M. Nazario, R.S. De Tirado, J. Castrillon, and E.T. Agard|A Comparison of the Half-Life of Inorganic and Organic Tin in the Mouse|Environ. Res.13(1): 56-61|1977|10.1016/0013-9351(77)90004-4
98709|T||Yamamoto,O., Y. Doi, H. Kudo, M. Yoshizuka, and S. Fujimoto|Sweat Gland Toxicity Induced by bis (Tributyltin)Oxide:  An Ultrastructural and X-Ray Microanalysis Study|Arch. Toxicol.74(10): 627-631|2000|10.1007/s002040000174
98710|T||Tryphonas,H., G. Cooke, D. Caldwell, G. Bondy, M. Parenteau, S. Hayward, and O. Pulido|Oral (Gavage), In Utero and Post-Natal Exposure of Sprague-Dawley Rats to Low Doses of Tributyltin Chloride:  Part II:  Effects on the Immune System|Food Chem. Toxicol.42(2): 221-235|2004|10.1016/j.fct.2003.08.019
98711|T||Qiao,L.Y., and J.R. Grider|Up-Regulation of Calcitonin Gene-Related Peptide and Receptor Tyrosine Kinase TrkB in Rat Bladder Afferent Neurons Following TNBS Colitis|Exp. Neurol.204(2): 667-679|2007|10.1016/j.expneurol.2006.12.024
98712|T||Harada,J.J., A.J. DeLisle, C.S. Baden, and M.L. Crouch|Unusual Sequence of an Abscisic Acid-Inducible mRNA Which Accumulates Late in Brassica napus Seed Development|Plant Mol. Biol.12(4): 395-401|1989|10.1007/BF00017579
98713|A||Yoshida,K., E. Igarashi, E. Wakatsuki, K. Miyamoto, and K. Hirata|Mitigation of Osmotic and Salt Stresses by Abscisic Acid Through Reduction of Stress-Derived Oxidative Damage in Chlamydomonas reinhardtii|Plant Sci.167(6): 1335-1341|2004|10.1016/j.plantsci.2004.07.002
98714|T||Chen,S., S. Wang, A. Altman, and A. Huttermann|Genotypic Variation in Drought Tolerance of Poplar in Relation to Abscisic Acid|Tree Physiol.17(12): 797-803|1997|10.1093/treephys/17.12.797
98715|T||Xu,Q., R.L. Henry, J.A. Guikema, and G.M. Paulsen|Association of High-Temperature Injury with Increased Sensitivity of Photosynthesis to Abscisic Acid in Wheat|Environ. Exp. Bot.35(4): 441-454|1995|10.1016/0098-8472(95)00040-2
98716|A||Andres,J., and H. Smith|Evidence for a Rapid Effect of Abscisic Acid on Amino Acid Metabolism in Lemna|Plant Sci. Lett.6(5): 315-318|1976|10.1016/0304-4211(76)90101-2
98717|T||Aasamaa,K., A. Sober, W. Hartung, and U. Niinemets|Rate of Stomatal Opening, Shoot Hydraulic Conductance and Photosynthetic Characteristics in Relation to Leaf Abscisic Acid Concentration in Six Temperate Deciduous Trees|Tree Physiol.22(4): 267-276|2002|10.1093/treephys/22.4.267
98718|T||Kim,J.S., Y.O. Kim, H.J. Ryu, Y.S. Kwak, J.Y. Lee, and H. Kang|Isolation of Stress-Related Genes of Rubber Particles and Latex in Fig Tree (Ficus carica) and Their Expressions by Abiotic Stress or Plant Hormone Treatments|Plant Cell Physiol.44(4): 412-419|2003|10.1093/pcp/pcg058
98719|T||Qu,R., V.B. Vance, and A.H.C. Huang|Expression of Genes Encoding Oleosin Isoforms in the Embryos of Maturing Maize Kernels|Plant Sci.72(2): 223-232|1990|10.1016/0168-9452(90)90086-4
98720|T||Donald,E.C., J.M. Lawrence, and I.J. Porter|Influence of Particle Size and Application Method on the Efficacy of Calcium Cyanamide for Control of Clubroot of Vegetable Brassicas|Crop Prot.23(4): 297-303|2004|10.1016/j.cropro.2003.08.016
98721|T||Huang,H.C., and S.K. Sun|Effects of S-H Mixture or Perlka on Carpogenic Germination and Survival of Sclerotia of Sclerotinia sclerotiorum|Soil Biol. Biochem.23(9): 809-813|1991|10.1016/0038-0717(91)90090-7
98722|T||Takenaka,S.|Hemicellulose in Rice Bran Fibre Reduces Thymus Atrophy in Rats Treated with Bis(Tri-n-Butyltin)Oxide|Chemosphere25(3): 327-334|1992|10.1016/0045-6535(92)90549-7
98723|T||Raffray,M., and G.M. Cohen|Thymocyte Apoptosis as a Mechanism for Tributyltin-Induced Thymic Atrophy In Vivo|Arch. Toxicol.67(4): 231-236|1993|10.1007/BF01974341
98724|T||Karrer,D., S. Baroncelli, and P.G. Turillazzi|Oral bis(Tri-n-Butyltin) Oxide in Pregnant Mice.  II.  Alterations in Hematological Parameters|J. Toxicol. Environ. Health46(3): 369-377|1995|10.1080/15287399509532042
98725|T||De Waal,E.J., H.J. Schuurman, L.H.P.M. Rademakers, H. Van Loveren, and J.G. Vos|The Cortical Epithelium of the Rat Thymus After In Vivo Exposure to Bis(Tri-n-Butyltin)Oxide (TBTO).  An (Immuno)Histological and Ultrastructural Study|Arch. Toxicol.67(3): 186-192|1993|10.1007/BF01973306
98726|T||Coenen,T.M.M., A. Brouwer, I.C. Enninga, and J.H. Koeman|Subchronic Toxicity and Reproduction Effects of Tri-n-Butyltin Oxide in Japanese Quail|Arch. Environ. Contam. Toxicol.23(4): 457-463|1992|10.1007/BF00203809
98727|T||Baroncelli,S., D. Karrer, and P.G. Turillazzi|Embryotoxic Evaluation of Bis(Tri-n-Butyltin)Oxide (TBTO) in Mice|Toxicol. Lett.50(2-3): 257-262|1990|10.1016/0378-4274(90)90018-H
98728|A||Myers,J.H., L. Gunthorpe, G. Allinson, and S. Duda|Effects of Antifouling Biocides to the Germination and Growth of the Marine Macroalga, Hormosira banksii (Turner) Desicaine|Mar. Pollut. Bull.52(9): 1048-1055|2006|10.1016/j.marpolbul.2006.01.010
98729|T||Coleman,J.S., and K.M. Schneider|Evidence that Abscisic Acid does not Regulate a Centralized Whole-Plant Response to Low Soil-Resource Availability|Oceanologia (Wroc.)106(3): 277-283|1996|
98730|T||Takeno,K., and T. Maeda|Abscisic Acid Both Promotes and Inhibits Photoperiodic Flowering of Pharbitis nil|Physiol. Plant. (Multiple Languages)98(3): 467-470|1996|10.1111/j.1399-3054.1996.tb05700.x
98731|T||Matiru,V.N., and F.D. Dakora|Xylem Transport and Shoot Accumulation of Lumichrome, a Newly Recognized Rhizobial Signal, Alters Root Respiration, Stomatal Conductance, Leaf Transpiration and Photosynthetic Rates in Legumes and Cereals|New Phytol.165(3): 847-855|2005|10.1111/j.1469-8137.2004.01254.x
98732|T||Finch-Savage,W.E., and H.A. Clay|Evidence that Ethylene, Light and Abscisic Acid Interact to Inhibit Germination in the Recalcitrant Seeds of Quercus robur L.|J. Exp. Bot.45(278): 1295-1299|1994|10.1093/jxb/45.9.1295
98733|T||Cramer,G.R., and R.L. Jones|Osmotic Stress and Abscisic Acid Reduce Cytosolic Calcium Activities in Roots of Arabidopsis thaliana|Plant Cell Environ.19(11): 1291-1298|1996|10.1111/j.1365-3040.1996.tb00007.x
98734|T||Jacqmard,A., C. Houssa, and G. Bernier|Abscisic Acid Antagonizes the Effect of Cytokinin on DNA-Replication Origins|J. Exp. Bot.46(287): 663-666|1995|10.1093/jxb/46.6.663
98735|A||Ansari,M.A., R.K. Razdan, and U. Sreehari|Laboratory and Field Evaluation of Hilmilin Against Mosquitoes|Am. Mosq. Control Assoc. J.21(4): 432-436|2005|10.2987/8756-971X(2006)21[432:LAFEOH]2.0.CO;2
98737|T||Fiala,E.S., G. Bobotas, C. Kulakis, L.W. Wattenberg, and J.H. Weisburger|Effects of Disulfiram and Related Compounds on the Metabolism In Vivo of the Colon Carcinogen, 1,2-Dimethylhydrazine|Biochem. Pharmacol.26(19): 1763-1768|1977|10.1016/0006-2952(77)90343-4
98738|T||Masuda,Y., M. Yasoshima, and N. Nakayama|Early, Selective and Reversible Suppression of Cytochrome P-450-Dependent Monooxygenase of Liver Microsomes Following the Administration of Low Doses of Carbon Disulfide in Mice|Biochem. Pharmacol.35(22): 3941-3947|1986|10.1016/0006-2952(86)90008-0
98739|T||Tabacova,S., L. Balabaeva, and G. Kurchatova|Carbon Disulphide Effect on the Maternal Organism During Gestation|Arh. Hig. Rada Toksikol.30:497-502|1979|
98742|T||Feyaerts,H., J. Coosemans, and I. Vander Elst|Synergistic Activity of Thiocarbamate Herbicides, Used Together with Carbamate Nematicides in the Control of Root Knot Nematodes (Meloidogyne)|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2b): 745-752|1990|
98743|T||Priestley,C.M., I.F. Burgess, and E.M. Williamson|Lethality of Essential Oil Constituents Towards the Human Louse, Pediculus humanus, and Its Eggs|Fitoterapia77(4): 303-309|2006|10.1016/j.fitote.2006.04.005
98744|T||Shirota,F.N., J.M. Stevens-Johnk, E.G. DeMaster, and H.T. Nagasawa|Novel Prodrugs of Cyanamide that Inhibit Aldehyde Dehydrogenase In Vivo|J. Med. Chem.40(12): 1870-1875|1997|10.1021/jm9606296
98745|T||Huang,H.C., R.S. Erickson, L.M. Phillippe, C.A. Mueller, S.K. Sun, and J.W. Huang|Control of Apothecia of Sclerotinia sclerotiorum by Soil Amendment with S-H Mixture or Perlka in Bean, Canola and Wheat Fields|Soil Biol. Biochem.38(6): 1348-1352|2006|10.1016/j.soilbio.2005.10.015
98746|T||Badawy,M.E.I., E.I. Rabea, W. Steurbaut, T.M. Rogge, C.V. Stevens, and G. Smagghe|Insecticidal and Growth Inhibitory Effects of New O-Acyl Chitosan Derivatives on the Cotton Leafworm Spodoptera littoralis|Commun. Agric. Appl. Biol. Sci.70(4): 817-821|2005|
98747|T||Krajnc,E.I., P.W. Wester, F.X.R. Van Leeuwen, J.G. Vos, H.A.M.G. Vaessen, and C.A. Van der Heijden|Sub-Acute Feeding Study with Bis(Tri-n-butyltin)Oxide in Rats|Rep.No.658112 001, Natl Inst.of Public Health, Bilthoven, The Netherlands:45 p.|1982|
98748|T||Rath,N.C., W.E. Huff, G.R. Huff, and L. Kannan|Induction of Tibial Dyschondroplasia by Carbamate and Thiocarbamate Pesticides|Avian Dis.51(2): 590-593|2007|10.1637/0005-2086(2007)51[590:IOTDBC]2.0.CO;2
98749|T||Badawy,M.E.I., E.I. Rabea, W. Steurbaut, T.M. Rogge, C.V. Stevens, G. Smagghe, and M. Hofte|Insecticidal and Fungicidal Activity of New N,O-Acyl Chitosan Derivatives|Commun. Agric. Appl. Biol. Sci.69(4): 793-797|2004|
98750|T||Amira,S., S. Soufane, and K. Gharzouli|Effect of Sodium Fluoride on Gastric Emptying and Intestinal Transit in Mice|Exp. Toxicol. Pathol.57(1): 59-64|2005|10.1016/j.etp.2005.04.002
98751|T||Ammann,P., R. Rizzoli, J. Caverzasio, and J.P. Bonjour|Fluoride Potentiates the Osteogenic Effects of IGF-I in Aged Ovariectomized Rats|Bone (New York)22(1): 39-43|1998|
98752|T||Bouaziz,H., F. Croute, T. Boudawara, J.P. Soleilhavoup, and N. Zeghal|Oxidative Stress Induced by Fluoride in Adult Mice and Their Suckling Pups|Exp. Toxicol. Pathol.58(5): 339-349|2007|10.1016/j.etp.2006.11.004
98753|T||Sogaard,C.H., L. Mosekilde, W. Schwartz, G. Leidig, H.W. Minne, and R. Ziegler|Effects of Fluoride on Rat Vertebral Body Biomechanical Competence and Bone Mass|Bone (New York)16(1): 163-169|1995|
98754|T||Lai,F.M., T. Senaratna, and B.D. McKersie|Glutamine Enhances Storage Protein Synthesis in Medicago sativa L. Somatic Embryos|Plant Sci.87(1): 69-77|1992|10.1016/0168-9452(92)90194-Q
98755|T||Finkelstein,R., and C. Somerville|Abscisic Acid or High Osmoticum Promote Accumulation of Long-Chain Fatty Acids in Developing Embryos of Brassica napus|Plant Sci.61(2): 213-217|1989|10.1016/0168-9452(89)90227-6
98756|T||Park,J.A., S.K. Cho, J.E. Kim, H.S. Chung, J.P. Hong, B. Hwang, C.B. Hong, and W.T. Kim|Isolation of cDNAs Differentially Expressed in Response to Drought Stress and Characterization of the Ca-LEAL1 Gene Encoding a New Family of Atypical LEA-Like Protein Homologue in Hot Pepper (Capsicum annuum L. cv. Puka|Plant Sci.165(3): 471-481|2003|10.1016/S0168-9452(03)00165-1
98757|T||Ha,S.B., S.B. Lee, Y. Lee, K. Yang, N. Lee, S.M. Jang, J.S. Chung, S. Jung, Y.S. Kim, S.G. Wi, and K. Back|The Plastidic Arabidopsis Protoporphyrinogen IX Oxidase Gene, with or Without the Transit Sequence, Confers Resistance to the Diphenyl Ether Herbicide in Rice|Plant Cell Environ.27(1): 79-88|2003|10.1046/j.0016-8025.2003.01127.x
98758|T||Kim,C.S., H.J. Lee, O. Han, K. Back, E. Choi, J.O. Guh, Y.T. Chi, and D.J. Lee|An Efficient Method to Identify Oxyfluorfen Resistant Rice Lines by Seed Germination and Mortality of Seedlings|J. Pestic. Sci. (Multiple Languages)25(2): 144-146|2000|10.1584/jpestics.25.144
98759|T||Jamal,M., K. Ameno, I. Uekita, M. Kumihashi, W. Wang, and I. Ijiri|Catalase Mediates Acetaldehyde Formation in the Striatum of Free-Moving Rats|Neurotoxicology28(6): 1245-1248|2007|10.1016/j.neuro.2007.05.002
98760|T||Ruder,F.J., and H. Kayser|The Carbodiimide Product of Diafenthiuron Inhibits Mitochondria In Vivo|Pestic. Biochem. Physiol.46(2): 96-106|1993|10.1006/pest.1993.1041
98761|T||Bowman,J.S., and J.E. Casida|Metabolism of the Systemic Insecticide O,O-Diethyl S-Ethylthiomethyl Phosphorodithioate (Thimet) in Plants|J. Agric. Food Chem.5:192-197|1957|10.1021/jf60073a002
98762|T||Rabea,E.I., M.E.I. Badawy, W. Steurbaut, T.M. Rogge, C.V. Stevens, and G. Smagghe|Insecticidal and Growth Inhibition Effects of Chitosan Derivatives Containing an N-Alkyl Group on the Cotton Leafworm Spodoptera littoralis|Commun. Agric. Appl. Biol. Sci.70(4): 823-827|2005|
98764|T||Siedlecka,M., and E. Romanowska|Effect of Abscisic Acid and Blue Radiation on Photosynthesis and Growth of Pea Plants|Photosynthetica (Praha)28(4): 583-587|1993|
98765|T||Oh,J.E., S.W. Hong, Y. Lee, E.J. Koh, K. Kim, Y.W. Seo, N. Chung, M. Jeong, C.S. Jang, B. Lee, K.H. Kim, and H. Lee|Modulation of Gene Expressions and Enzyme Activities of Methionine Sulfoxide Reductases by Cold, ABA or High Salt Treatments in Arabidopsis|Plant Sci.169(6): 1030-1036|2005|10.1016/j.plantsci.2005.05.033
98766|T||Linossier,L., P. Veisseire, F. Cailloux, and A. Coudret|Effects of Abscisic Acid and high Concentrations of PEG on Hevea brasiliensis Somatic Embryos Development|Plant Sci.124(2): 183-191|1997|10.1016/S0168-9452(97)04597-4
98767|T||Holm,R.E., and M.R. Miller|Weed Seed Germination Responses to Chemical and Physical Treatments|Weed Sci.20(2): 150-153|1972|10.1017/S0043174500035220
98768|T||Unyayar,S., and F.O. Cekic|Changes in Antioxidative Enzymes of Young and Mature Leaves of Tomato Seedlings Under Drought Stress|Turk. J. Biol. (Turk Biol. Derg. )29(4): 211-216|2005|
98769|T||Zacarias,L., M. Talon, W. Ben-Cheikh, M.T. Lafuente, and E. Primo-Millo|Abscisic Acid Increases in Non-Growing and Paclobutrazol-Treated Fruits of Seedless Mandarins|Physiol. Plant. (Multiple Languages)95(4): 613-619|1995|10.1111/j.1399-3054.1995.tb05530.x
98772|T||Finch-Savage,W.E., P.S. Blake, and H.A. Clay|Desiccation Stress in Recalcitrant Quercus robur L. Seeds Results in Lipid Peroxidation and Increased Synthesis of Jasmonates and Abscisic Acid|J. Exp. Bot.47(298): 661-667|1996|10.1093/jxb/47.5.661
98773|T||Guan,L., and J.G. Scandalios|Effects of the Plant Growth Regulator Abscisic Acid and high Osmoticum on the Developmental Expression of the Maize Catalase Genes|Physiol. Plant. (Multiple Languages)104(3): 413-422|1998|10.1034/j.1399-3054.1998.1040317.x
98774|T||Dunstan,D.I., T.D. Bethune, and S.R. Abrams|Racemic Abscisic Acid and Abscisyl Alcohol Promote Maturation of White Spruce (Picea glauca) Somatic Embryos|Plant Sci.76(2): 219-228|1991|10.1016/0168-9452(91)90144-W
98775|T||Hoekstra,S., S. Van Bergen, I.R. Van Brouwershaven, R.A. Schilperoort, and M. Wang|Androgenesis in Hordeum vulgare L.:  Effects of Mannitol, Calcium and Abscisic Acid on Anther Pretreatment|Plant Sci.126(2): 211-218|1997|10.1016/S0168-9452(97)00096-4
98776|T||De Souza,L., and P.J. King|Mutants of Nicotiana plumbaginifolia with Increased Sensitivity to Auxin|Mol. Gen. Genet.231(1): 65-75|1991|10.1007/BF00293823
98777|T||Bonham-Smith,P.C., M. Kapoor, and J.D. Bewley|Exogenous Application of Abscisic Acid or Triadimefon Affects the Recovery of Zea mays Seedlings from Heat Shock|Physiol. Plant. (Multiple Languages)73(1): 27-30|1988|10.1111/j.1399-3054.1988.tb09188.x
98778|T||Van Beckum,J.M.M., K.R. Libbenga, and M. Wang|Abscisic Acid and Gibberellic Acid-Regulated Responses of Embryos and Aleurone Layers Isolated from Dormant and Nondormant Barley Grains|Physiol. Plant. (Multiple Languages)89(3): 483-489|1993|10.1111/j.1399-3054.1993.tb05202.x
98779|T||Barlow,P.W., and P.E. Pilet|The Effect of Abscisic Acid on Cell Growth, Cell Division and DNA Synthesis in the Maize Root Meristem|Physiol. Plant. (Multiple Languages)62(2): 125-132|1984|10.1111/j.1399-3054.1984.tb00359.x
98780|T||Gutterman,Y., T.H. Thomas, and W. Heydecker|Effect on the Progeny of Applying Different Day Length and Hormone Treatments to Parent Plants of Lactuca scariola|Physiol. Plant. (Multiple Languages)34(1): 30-38|1975|10.1111/j.1399-3054.1975.tb01851.x
98781|T||Oka,Y., I. Chet, and Y. Spiegel|An Immunoreactive Protein to Wheat-Germ Agglutinin Antibody is Induced in Oat Roots Following Invasion of the Cereal Cyst Nematode Heterodera avenae, and by Jasmonate|Mol. Plant-Microbe Interact.10(8): 961-969|1997|10.1094/MPMI.1997.10.8.961
98782|T||Williamson,J.D., R.S. Quatrano, and A.C. Cuming|Em Polypeptide and Its Messenger RNA Levels are Modulated by Abscisic Acid During Embryogenesis in Wheat|Eur. J. Biochem.152(2): 501-507|1985|10.1111/j.1432-1033.1985.tb09224.x
98783|T||Downs,C.A., S.L. Ryan, and S.A. Heckathorn|The Chloroplast Small Heat-Shock Protein:  Evidence for a General Role in Protecting Photosystem II Against Oxidative Stress and Photoinhibition|J. Plant Physiol.155(4-5): 488-496|1999|10.1016/S0176-1617(99)80043-1
98784|T||Dunstan,D.I., F. Bekkaoui, M. Pilon, L.C. Fowke, and S.R. Abrams|Effects of Abscisic Acid and Analogues on the Maturation of White Spruce (Picea glauca) Somatic Embryos|Plant Sci.58(1): 77-84|1988|10.1016/0168-9452(88)90156-2
98785|T||Tates,A.D., N. De Vogel, and A.H.M. Rotteveel|Detection of Micronucleated Polychromatic Erythrocytes in Bone Marrow of Male Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK33:1.212 - 1.214|1988|
98786|T||Hunt,J.M.|A Liver Cell Transplantation Assay for Promoting Activity in Rats|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK54:1.338 - 1.342|1988|
98787|T||Butterworth,B.E., and T. Smith-Oliver|A Comparison of the Response of Carcinogen/Noncarinogen Pairs in the Rat and Mouse Hepatocyte DNA Repair Assays In Vivo and In Vitro|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK56:1.352 - 1.357|1988|
98788|T||Badei,A.Z.M.|Antimycotic Effect of Cardamom Essential Oil Components on Toxigenic Molds|Egypt. J. Food Sci.20(3): 441-452|1992|
98789|T||Qin,J., J. Zhao, K. Zuo, Y. Cao, H. Ling, X. Sun, and K. Tang|Isolation and Characterization of an ERF-Like Gene from Gossypium barbadense|Plant Sci.167(6): 1383-1389|2004|10.1016/j.plantsci.2004.07.012
98790|T||Harper,B.L., and M.S. Legator|Metaphase Analysis Test Results in Male ICR Swiss Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK1:1.112 - 1.114|1988|
98791|T||Adler,I.D., and I. Ingwersen|Evaluation of Chromosomal Aberrations in Bone Marrow of Male IC3F1 Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK8:1.99 - 1.103|1988|
98792|T||Luke,C.A., R.R. Tice, V.M. Miller, B.G. Ormiston, A.C. Wilton, and M.D. Shelby|A Comparative Analysis of the Induction of Chromosomal Aberrations in the Bone Marrow Cells of B6C3F1 Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK14:1.123 - 1.131|1988|
98793|T||Albanese,R.|An In Vivo Cytogenetic Test in Bone-Marrow Cells of the Alderley Park Wistar-Derived Rat|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK15:1.132 - 1.134|1988|
98794|T||Allen,J.A., and R.J. Proudlock|Examination of Metaphase Chromosomes Obtained from the Bone Marrow of Chinese Hamsters (Cricetulus griseus)|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK17:1.139 - 1.141|1988|
98795|T||Blakey,D.H., G.R. Douglas, R.D.L. Bell, and M. Goddard|Bone Marrow Nicronucleus Induction in HPBBL Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK20:1.153 - 1.157|1988|
98796|T||Harper,B.L., and M.S. Legator|Micronucleus Test Results for Two Carcinogen/Noncarcinogen Chemical Pairs in Male ICR Swiss Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK22:1.162 - 1.164|1988|
98797|T||Hayashi,M., T. Sofuni, and M.,Jr. Ishidate|The Micronucleus Test in Mutagen Sensitive MS/Ae Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK23:1.165 - 1.169|1988|
98798|T||Ivanov,V.I., V.S. Zhurkov, L.M. Konstantinova, Y.V. Korogodina, and E.G. Feldt|The Micronucleus Test in Strain C57BL/6J Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK24:1.170 - 1.172|1988|
98799|T||Jenssen,D.|Micronucleus Test in Bone Marrow Cells of CBA Male Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK26:1.177 - 1.178|1988|
98800|T||Coton,C., A. Leonard, and G. Decat|Induction of Micronuclei in BALB/c Mouse Bone Marrow Cells|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK27:1.179 - 1.182|1988|
98801|T||Kliesch,U., and I.D. Adler|Induction of Micronuclei in Polychromatic Erythrocytes in Bone Marrow of Adult IC3F1 Hybrid Male Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK28:1.183 - 1.186|1988|
98802|T||Salamone,M.F., S. Chiu, and D.M. Logan|Tests on Two Pairs of Structural Analogues in the Mouse In Vivo Micronucleus Assay|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK29:1.187 - 1.195|1988|
98803|T||Chauhan,P.S., R.C. Chaubey, and K. Sundaram|Bone-Marrow Micronucleus Test in Swiss Male Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK31:1.203 - 1.208|1988|
98804|T||MacGregor,J.T., C.M. Wehr, and P.R. Henika|The Peripheral Blood Erythrocyte Micronucleus Assay in Weanling and Foetal Swiss Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK34:1.215 - 1.223|1988|
98805|T||Watkins,P.A.|Micronucleus Test in the Alderley Park Wistar-Derived Albino Rat|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK36:1.227 - 1.230|1988|
98806|T||Tice,R.R., C.A. Luke, V.M. Miller, B.G. Ormiston, A.C. Wilton, and M.D. Shelby|A Comparative Analysis of the Induction of Sister Chromatid Exchanges in the Bone Marrow Cells of B6C3F1 Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK38:1.254 - 1.259|1988|
98807|T||Allen,J.W., L.C. Backer, J. Campbell, Y. Sharief, and B. Westbrook-Collins|Analysis of Sister Chromatid Exchange in C57BL/6 Mouse Bone Marrow Cells Following In Vivo Exposure to Carcinogen/Noncarcinogen Chemical Pairs|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK39:1.260 - 1.265|1988|
98808|T||Tates,A.D., N. De Vogel, I. Neuteboom, and A.H.M. Rotteveel|Detection of Sister Chromated Exchanges in Bone Marrow of Male Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK40:1.266 - 1.270|1988|
98809|T||Galloway,S.M., C.L. Bean, M.J. Armstrong, L. Oppenheimer, and T. Schofield|In Vivo Sister Chromatid Exchanges in Mouse Bone Marrow:  Test of Four Compounds in Male and Female CD-1 Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK41:1.271 - 1.277|1988|
98810|T||Palitti,F., M. Fiore, R. Cozzi, R. Ricordy, C. Tanzarella, P. Mosesso, and N. Loprieno|Tests with Swiss Albino Mice to Detect the Induction of Sister Chromatid Exchanges in Bone Marrow Cells|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK42:1.278 - 1.280|1988|
98811|T||Vlachos,D.A., L.B. Rickard, G.J. Graepel, and N.C. Chromey|In Vivo Sister Chromatid Exchange Evaluation in Sprague-Dawley Rats|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK44:1.285 - 1.289|1988|
98812|T||Neal,S.B., and G.S. Probst|Discrimination of Structurally Similar Carcinogen/Noncarcinogen Analogues by Analysis of Sister Chromatid Exchange In Vivo in Bone Marrow and Intestinal Epithelium of Chinese Hamsters|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK46:1.294 - 1.301|1988|
98813|T||Clare,M.G., A.L. Meyer, A.V. Ruck, and B.J. Dean|Chromosome Studies in Hepatic Cells from Rats Exposed to Genotoxic Chemicals|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK65:1.393 - 1.399|1988|
98814|T||Ito,N., H. Tsuda, and T. Masui|In Vivo Promotion Assay of Four Compounds on Enhancement of the Development of gamma-Glutamyl Transpeptidase-Positive Liver Cell Foci in Male F344 Rats|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK53:1.334 - 1.337|1988|
98815|T||Glauert,H.P., and H.C. Pitot|Ability of the Test Chemicals to Initiate gamma-Glutamyltranspeptidase-Positive Foci in Female Rats|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK52:1.329 - 1.333|1988|
98816|T||Kligerman,A.D., G.L. Erexson, B. Westbrook-Collins, and J.W. Allen|Analysis of Sister Chromatid Exchange in C57BL/6 Mouse Peripheral Blood Lymphocytes Following In Vivo Exposure to Carcinogen/Noncarcinogen Pairs|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK45:1.290 - 1.293|1988|
98817|T||Zunino,A., P. Russo, M. Pala, M. De Ferrari, S. Parodi, and L. Santi|Sister-Chromatid Exchange Induction in Bone Marrow Cells of Swiss Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK43:1.281 - 1.284|1988|
98818|T||Wild,D.|Bone Marrow Micronucleus Tests on NMRI Mice|In: J.Ashby (Ed.), Eval.Short-Term Tests Carcinog., Cambridge Univ.Press, Cambridge, UK19:1.149 - 1.152|1988|
98819|T||Bittner,S., M. Gorodetsky, I. Har-Paz, Y. Mizrahi, and A.E. Richmond|Synthesis and Biological Effects of Aromatic Analogs of Abscisic Acid|Phytochemistry16(8): 1143-1151|1977|10.1016/S0031-9422(00)94349-8
98820|T||Chowdhury,S.R., and M.A. Choudhuri|Effects of Calcium Ions on Responses of Two Jute Species Under Water-Deficit Stress|Physiol. Plant. (Multiple Languages)68(1): 86-92|1986|10.1111/j.1399-3054.1986.tb06600.x
98821|T||Yin,C., B. Duan, X. Wang, and C. Li|Morphological and Physiological Responses of Two Contrasting Poplar Species to Drought Stress and Exogenous Abscisic Acid Application|Plant Sci.167(5): 1091-1097|2004|10.1016/j.plantsci.2004.06.005
98822|A||Chantraine,J.M., D. Laurent, C. Ballivian, G. Saavedra, R. Ibanez, and L.A. Vilaseca|Insecticidal Activity of Essential Oils on Aedes aegypti Larvae|PTR. Phytother.Res.12(5): 350-354|1998|10.1002/(SICI)1099-1573(199808)12:5<350::AID-PTR311>3.0.CO;2-7
98823|AT||Takahashi,H., A. Ohki, S. Kato, A. Tanaka, Y. Sato, B. Matthes, P. Boger, and K. Wakabayashi|Inhibition of Very-Long-Chain Fatty Acid Biosynthesis by 2-Chloro-N-(3-Methoxy-2-Thenyl)-2',6'-Dimethylacetanilide, Thenylchlor, and Its Analogs|Pestic. Biochem. Physiol.71(3): 140-146|2001|10.1006/pest.2001.2570
98824|AT||Wakabayashi,K., G. Sandmann, H. Ohta, and P. Boger|Peroxidizing Herbicides:  Comparison of Dark and Light Effects|J. Pestic. Sci. (Multiple Languages)13(3): 461-471|1988|10.1584/jpestics.13.461
98825|T||Jordaan,E.M., and D. De Waele|Effects of Four Herbicides on the Infestation of Maize by the Nematode Pratylenchus zeae|S. Afr. J. Plant Soil5(3): 165-|1988|10.1080/02571862.1988.10634281
98826|T||Kowalska-Wochna,E., and D. Pawlowska|In Vivo Analysis of Eptam Genotoxic Action on Mouse (Mus musculus) Chromosomes|Genet. Pol.29(2): 171-180|1988|
98827|T||Kamm,J.A., and R.G. Buttery|Response of the Alfalfa Seed Chalcid, Bruchophagus roddi, to Alfalfa Volatiles|Entomol. Exp. Appl.33(2): 129-134|1983|10.1111/j.1570-7458.1983.tb03248.x
98829|T||Rebert,C.S., S.S. Sorenson, and G.T. Pryor|Effects of Intraperitoneal Carbon Disulfide on Sensory-Evoked Potentials of Fischer-344 Rats|Neurobehav. Toxicol. Teratol.8(5): 543-549|1986|
98830|T||El-Nahal,A.K.M., and F.M. El-Borollosy|The Relative Toxicity of Carbon Disulphide to the Different Larval Instars and Pupae of Corcyra cephalonica Stain. and Ephestia kuehniella Zeller|Bull. Soc. Entomol. Egypte41:555-576|1957|
98831|T||Chester,A.E., and F.H. Meyers|Central Sympathoplegic and Norepinephrine-Depleting Effects of Antioxidants (42638)|Proc. Soc. Exp. Biol. Med.187(1): 62-68|1988|10.3181/00379727-187-42638
98832|T||Hoffmann,P., and M. Klapperstuck|Effects of Carbon Disulfide on Cardiovascular Function After Acute and Subacute Exposure of Rats|Biomed. Biochim. Acta49(1): 121-128|1990|
98833|T||Masuda,Y., and M. Yasoshima|Loss of 3-Methylcholanthrene-Inducible Form of Cytochrome P-450 in Liver Microsomes Following Administration of Carbon Disulfide in C57BL/6 Cr Mice|Biochem. Pharmacol.37(12): 2363-2371|1988|10.1016/0006-2952(88)90362-0
98834|T||Binder,B.F., J.C. Robbins, and R.L. Wilson|Chemically Mediated Ovipositional Behaviors of the European Corn Borer, Ostrinia nubilalis (Lepidoptera: Pyralidae)|J. Chem. Ecol.21(9): 1315-1327|1995|10.1007/BF02027564
98835|T||Shorey,H.H., L.K. Gaston, R.G. Gerber, P.A. Phillips, and D.L. Wood|Disruption of Foraging by Argentine Ants, Iridomyrmex humilis (Mayr) (Hymenoptera: Formicidae), in Citrus Trees Through the Use of Semiochemicals and Related Chemicals|J. Chem. Ecol.18(11): 2131-2142|1992|10.1007/BF00981933
98836|T||Dearden,M.|Experiments on the Effect of Farnesol on the Development of Normal and Bar-Eyed Drosophila|J. Insect Physiol.10(2): 195-210|1964|10.1016/0022-1910(64)90003-4
98837|T||Neese,P.A., D.E. Sonenshine, V.L. Kallapur, C.S. Apperson, and R.M. Roe|Absence of Insect Juvenile Hormones in the American Dog Tick, Dermacentor variabilis (Say) (Acari: Ixodidae), and in Ornithodoros parkeri Cooley (Acari:Argasidae)|J. Insect Physiol.46(4): 477-490|2000|10.1016/S0022-1910(99)00134-1
98838|T||Opacka,J., and T. Wronska-Nofer|Biochemical Alterations in the Peripheral Nerves of Rats Intoxicated with Carbon Disulphide|Toxicol. Lett.10(2-3): 139-144|1982|10.1016/0378-4274(82)90065-0
98839|T||Van Hezewijk,M.J., and J.A.C. Verkleij|The Effect of Nitrogenous Compounds on In Vitro Germination of Orobanche crenata Forsk|Weed Res. (Multiple Languages)36(5): 395-404|1996|10.1111/j.1365-3180.1996.tb01669.x
98840|T||James,D.G., R. Heffer, and M. Amaike|Field Attraction of Biprorulus bibax Breddin (Hemiptera: Pentatomidae) to Synthetic Aggregation Pheromone and (E)-2-Hexenal, a Pentatomid Defense Chemical|J. Chem. Ecol.22(9): 1697-1708|1996|10.1007/BF02272408
98841|T||Yang,Y., K. Kinoshita, K. Koyama, K. Takahashi, T. Tai, Y. Nunoura, and K. Watanabe|Anti-Emetic Principles of Alpinia katsumadai|Int. Congr. Ser.1157:313-317|1998|
98842|T||Ruppel,E.G., R.L. Gilbertson, and E.E. Schweizer|Population Densities of Selected Soil-Borne Fungi and Disease Incidence in a Crop Rotation Under Varied Weed-Management Systems|Agric. Ecosyst. Environ.21(3-4): 163-169|1988|10.1016/0167-8809(88)90085-0
98843|T||Gilbertson,R.L., E.G. Ruppel, and E.E. Schweizer|Effects of Herbicides on Root Rot of Pinto Bean, Weeds, and Two Soilborne Fungi|Plant Dis.71(7): 627-629|1987|10.1094/PD-71-0627
98844|T||Kidder,L.S., G.L. Klein, C.A. Stuart, T.C. Lee, C.M. Gundberg, N. Alcock, C.W. Cooper, and D.J. Simmons|Skeletal Effects of Sodium Fluoride During Hypokinesia|Bone Miner.11(3): 305-318|1990|
98845|T||Sogaard,C.H., L. Mosekilde, J.S. Thomsen, A. Richards, and J.E. McOsker|A Comparison of the Effects of Two Anabolic Agents (Fluoride and PTH) on Ash Density and Bone Strength Assessed in an Osteopenic Rat Model|Bone (New York)20(5): 439-449|1997|
98846|T||Highnam,K.C., O. Lusis, and L. Hill|The Role of the Corpora allata During Oocyte Growth in the Desert Locust, Schistocerca gregaria Forsk|J. Insect Physiol.9(5): 587-596|1963|10.1016/0022-1910(63)90004-0
98847|T||House,H.L.|Effects of Vitamin A Acetate and Structurally Related Substances on Growth and Reproduction of Agria affinis (Fallen) (Diptera: Sarcophagidae)|J. Insect Physiol.11(7): 1039-1045|1965|10.1016/0022-1910(65)90207-6
98848|T||Slama,K.|The Effect of Hormone Mimetic Substances on the Ovarian Development and Oxygen Consumption in Allatectomized Adult Females of Pyrrhocoris apterus L. (Hemiptera)|J. Insect Physiol.11(8): 1121-1129|1965|10.1016/0022-1910(65)90182-4
98849|T||Williams,I.H., J.A. Pickett, and A.P. Martin|The Nasonov Pheromone of the Honeybee Apis mellifera L. (Hymenoptera, Apidae).  Part II.  Bioassay of the Components Using Foragers|J. Chem. Ecol.7(2): 225-237|1981|10.1007/BF00995745
98850|T||Dutcher,J.D., and R.W. Beaver|Butyl Carbitol Acetate as an Ant Repellent on the Pecan Tree Trunk|J. Entomol. Sci.40(4): 401-408|2005|10.18474/0749-8004-40.4.401
98851|T||Sutton,R.M., W.A. Gardner, D.W. Kraus, and R. Noblet|Effects of Ecdysone, Juvenile Hormone, and Structurally-Related Compounds on Nomuraea rileyi, Beauveria bassiana, and Tritirachium dependens In Vitro|J. Ga. Entomol. Soc.14(4): 364-373|1979|
98853|T||Gowda,P.H.R., and C.S. Prakash|Herbicide Glyphosate at Sublethal Concentrations Enhances Somatic Embryo Development in Sweetpotato (Ipomoea batatas L.)|Curr. Sci. (Bangalore)75(5): 508-510|1998|
98854|T||Chen,G.Z., and J.L. Bennett|Characterization of Mevalonate-Labeled Lipids Isolated from Parasite Proteins in Schistosoma mansoni|Mol. Biochem. Parasitol.59(2): 287-292|1993|10.1016/0166-6851(93)90226-N
98855|T||Bowers,W.S., M.J. Thompson, and E.C. Uebel|Juvenile and Gonadotropic Hormone Activity of 10,11-Epoxyfarnesenic Acid Methyl Ester|Life Sci.4(23): 2323-2331|1965|10.1016/0024-3205(65)90256-0
98856|T||Wigglesworth,V.B.|The Juvenile Hormone Effect of Farnesol and Some Related Compounds:  Quantitative Experiments|J. Insect Physiol.9(1): 105-119|1963|10.1016/0022-1910(63)90087-8
98857|T||Wigglesworth,V.B.|Some Observations on the Juvenile Hormone Effect of Farnesol in Rhodnius prolixus stal (Hemiptera)|J. Insect Physiol.7(1): 73-78|1961|10.1016/0022-1910(61)90045-2
98858|T||Abou Zeid,A.H., and A.A. Sleem|Natural and Stress Constituents from Spinacia oleracea L. Leaves and Their Biological Activities|Bull. Fac. Pharm. Cairo Univ.40(2): 153-167|2002|
98859|T||Gibb,K.S., and J.M. Fisher|Factors Affecting the Fourth Moult of Contortylenchus grandicolli (Nematoda:  Allantonematidae) to the Free-Living Sexual Forms|Nematologica35(1): 125-128|1989|10.1163/002825989X00133
98860|T||Baker,F.C., C.A. Miller, L.W. Tsai, G.C. Jamieson, D.C. Cerf, and D.A. Schooley|The Effect of Juvenoids, Anti-Juvenile Hormone Agents, and Several Intermediates of Juvenile Hormone Biosynthesis on the In Vivo Juvenile Hormone Levels in Manduca sexta Larvae|Insect Biochem.16(5): 741-747|1986|10.1016/0020-1790(86)90109-5
98861|T||Martini,M.R.|Acute Effects of Carbon Disulphide on Hepatic Lipid Metabolism in Fischer Rats|Acta Cient. Venez.38(3): 362-365|1987|
98862|T||Rigalli,A., J.C. Ballina, and R.C. Puche|Bone Mass Increase and Glucose Tolerance in Rats Chronically Treated with Sodium Fluoride|Bone Miner.16(2): 101-108|1992|
98863|T||Singh,P.P., A.S. Basra, and P.P.S. Pannu|Abscisic Acid is a Potent Inhibitor of Growth and Sporidial Formation in Neovossia indica Cultures:  Dual Mode of Action via Loss of Polyamines and Cellular Turgidity|Phytoparasitica25(2): 111-116|1997|10.1007/BF02981191
98864|T||Weathers,P.J., G. Bunk, and M.C. McCoy|The Effect of Phytohormones on Growth and Artemisinin Production in Artemisia annua Hairy Roots|In Vitro Cell. Dev. Biol., Plant41(1): 47-53|2005|10.1079/IVP2004604
98865|T||Torres,A.C., N. Mfe'e Ze, and D.J. Cantliffe|Abscisic Acid and Osmotic Induction of Synchronous Somatic Embryo Development of Sweet Potato|In Vitro Cell. Dev. Biol., Plant37(2): 262-267|2001|10.1007/s11627-001-0047-5
98866|T||Torres,M., J. Jarvisalo, and J. Hakim|Effects of In Vivo Carbon Disulfide Administration on the Hepatic Monooxygenase Systems of Microsomes from Rats|Exp. Mol. Pathol.35(1): 36-41|1981|10.1016/0014-4800(81)90005-8
98868|T||Wronska-Nofer,T., J. Klimczak, J.M. Wisniewska-Knypl, J. Jajte, and B. Opalska|Combined Effect of Ethanol and Carbon Disulphide on Cytochrome P-450 Monooxygenase, Lipid Peroxidation and Ultrastructure of the Liver in Chronically Exposed Rats|J. Appl. Toxicol.6(4): 297-302|1986|10.1002/jat.2550060412
98869|T||Bean,N.J., B.G.,Jr. Galef, and J.R. Mason|The Effect of Carbon Disulfide on Food Consumption by House Mice|J. Wildl. Manag.52(3): 502-507|1988|10.2307/3801599
98870|T||Moorman,M.P., R.C. Sills, B.J. Collins, and D.L. Morgan|Carbon Disulfide Neurotoxicity in Rats:  II.  Toxicokinetics|Neurotoxicology19(1): 89-97|1998|
98871|T||Albanus,L., E. Heilbronn, and A. Sundwall|Antidote Effect of Sodium Fluoride in Organophosphorus Anticholinesterase Poisoning|Biochem. Pharmacol.14(9): 1375-1381|1965|10.1016/0006-2952(65)90121-8
98872|T||Van den Wijngaard,P.W.J., M.P. Sinnige, I. Roobeek, A. Reumer, P.J. Schoonheim, J.N.M. Mol, M. Wang, and A.H. De Boer|Abscisic Acid and 14-3-3 Proteins Control K+ Channel Activity in Barley Embryonic Root|Plant J.41(1): 43-55|2005|10.1111/j.1365-313X.2004.02273.x
98873|T||Sivakumar,T., Virendranath, and G.C. Srivastava|Effects of Benzyl Adenine and Abscisic Acid on Grain Yield and Yield Components in Triticale and Wheat|J. Agron. Crop Sci.186(1): 43-46|2001|10.1046/j.1439-037x.2001.00450.x
98874|T||Pareek,A., S.L. Singla, and A. Grover|Proteins Alterations Associated with Salinity, Desiccation, high and Low Temperature Stresses and Abscisic Acid Application in Seedling of Pusa 169, a High-Yielding Rice (Oryza sativa L.) Cultivar|Curr. Sci. (Bangalore)75(10): 1023-1035|1998|
98875|T||Nicolas,C., D. Rodriguez, F. Poulsen, E.N. Eriksen, and G. Nicolas|The Expression of an Abscisic Acid-Responsive Glycine-Rich Protein Coincides with the Level of Seed Dormancy in Fagus sylvatica|Plant Cell Physiol.38(12): 1303-1310|1997|10.1093/oxfordjournals.pcp.a029122
98876|T||Li,B., and D.J. Wolyn|The Effects of Ancymidol, Abscisic Acid, Uniconazole and Paclobutrazol on Somatic Embryogenesis of Asparagus|Plant Cell Rep.14(8): 529-533|1995|10.1007/BF00232789
98877|T||Lang,V., and E.T. Palva|The Expression of a rab-Related Gene, Rab18, is Induced by Abscisic Acid During the Cold Acclimation Process of Arabidopsis thaliana (L.) Heynh|Plant Mol. Biol.20(5): 951-962|1992|10.1007/BF00027165
98878|T||Ishitani,M., T. Nakamura, S.Y. Han, and T. Takabe|Expression of the Betaine Aldehyde Dehydrogenase Gene in Barley in Response to Osmotic Stress and Abscisic Acid|Plant Mol. Biol.27(2): 307-315|1995|10.1007/BF00020185
98879|T||Hong,B., R. Barg, and T.H.D. Ho|Developmental and Organ-Specific Expression of an ABA- and Stress-Induced Protein in Barley|Plant Mol. Biol.18(4): 663-674|1992|10.1007/BF00020009
98880|A||Higham,B.M., and H. Smith|The Induction of Flowering by Abscisic Acid in Lemna perpusilla 6746|Life Sci.8(2): 1061-1065|1969|
98881|T||Godoy,J.A., R. Lunar, S. Torres-Schumann, J. Moreno, R.M. Rodrigo, and J.A. Pintor-Toro|Expression, Tissue Distribution and Subcellular Localization of Dehydrin TAS14 in Salt-Stressed Tomato Plants|Plant Mol. Biol.26(6): 1921-1934|1994|10.1007/BF00019503
98882|T||Cao,X., L.M. Costa, C. Biderre-Petit, B. Kbhaya, N. Dey, P. Perez, D.R. McCarty, J.F. Gutierrez-Marcos, and P.W. Becraf|Abscisic Acid and Stress Signals Induce Viviparous1 Expression in Seed and Vegetative Tissues of Maize|Plant Physiol.143(2): 720-731|2007|10.1104/pp.106.091454
98883|T||Baudo,M.M., L.A. Meza-Zepeda, E.T. Palva, and P. Heino|Induction of Homologous Low Temperature and ABA-Responsive Genes in Frost Resistant (Solanum commersonii) and Frost-Sensitive (Solanum tuberosum cv. Bintje) Potato Species|Plant Mol. Biol.30(2): 331-336|1996|10.1007/BF00020118
98884|T||Akiyama,T., and M.A. Pillai|Isolation and Characterization of a Gene for a Repetitive Proline Rich Protein (OsPRP) Down-Regulated During Submergence in Rice (Oryza sativa)|Physiol. Plant. (Multiple Languages)118(4): 507-513|2003|10.1034/j.1399-3054.2003.00104.x
98885|T||Pliego-Alfaro,F., R.E. Litz, P.A. Moon, and D.J. Gray|Effect of Abscisic Acid, Osmolarity and Temperature on In Vitro Development of Recalcitrant Mango Nucellar Embryos|Plant Cell Tissue Organ Cult.44(1): 53-61|1996|10.1007/BF00045913
98886|T||Pearson,J.A.|Abscisic Acid Effects on Chromatin Thermal Denaturation|Phytochemistry12(5): 1025-1026|1973|10.1016/0031-9422(73)85009-5
98887|T||Garello,G., and M.T. Le Page-Degivry|Desiccation-Sensitive Hopea odorata Seeds:  Sensitivity to Abscisic Acid, Water Potential and Inhibitors of Gibberellin Biosynthesis|Physiol. Plant. (Multiple Languages)95(1): 45-50|1995|10.1111/j.1399-3054.1995.tb00806.x
98888|T||Pan,Q.H., M.J. Li, C.C. Peng, N. Zhang, X. Zou, K.Q. Zou, X.L. Wang, X.C. Yu, X.F. Wang, and D.P. Zhang|Abscisic Acid Activates Acid Invertases in Developing Grape Berry|Physiol. Plant. (Multiple Languages)125(2): 157-170|2005|10.1111/j.1399-3054.2005.00552.x
98889|T||Pilet,P.E., and J.E. Rebeaud|Effect of Abscisic Acid on Growth and Indolyl-3-Acetic Acid Levels in Maize Roots|Plant Sci. Lett.31(2-3): 117-122|1983|10.1016/0304-4211(83)90047-0
98890|T||Kim,T.H., M.C. Kim, J.H. Park, S.S. Han, B.R. Kim, B.Y. Moon, M.C. Suh, and S.H. Cho|Differential Expression of Rice Lipid Transfer Protein Gene (LTP) Classes in Response to Abscisic Acid, Salt, Salicylic Acid, and the Fungal Pathogen Magnaporthe grisea|J. Plant Biol.49(5): 371-375|2006|10.1007/BF03178814
98892|T||Chandra,S.V., W.H. Butler, and L. Magos|The Effect of Carbon Disulphide on the Myocardium of the Rat|Exp. Mol. Pathol.17(2): 249-259|1972|10.1016/0014-4800(72)90073-1
98893|T||Gopinath,C., and E.J.H. Ford|The Effect of Induced Hepatic Microsomal Amidopyrine Demethylase Activity on the Susceptibility of the Liver of the Calf and Horse to Carbon Disulphide|J. Comp. Pathol.86(2): 251-258|1976|10.1016/0021-9975(76)90049-9
98894|T||Gupta,R.P., and M.B. Abou-Donia|Alterations in the Neutral Proteinase Activities of Central and Peripheral Nervous Systems of Acrylamide-, Carbon Disulfide-, or 2,5-Hexanedione-Treated Rats|Mol. Chem. Neuropathol.29(1): 53-66|1996|10.1007/BF02815193
98895|T||Reading,H.W., and A. Sorsby|Retinal Toxicity and Tissue - SH Levels|Biochem. Pharmacol.15(9): 1389-1393|1966|10.1016/0006-2952(66)90049-9
98896|T||Burschka,C., O.L. Lange, and W. Hartung|Effects of Abscisic Acid on Stomatal Conductance and Photosynthesis in Leaves of Intact Arbutus unedo Plants Under Natural Conditions|Oceanologia (Wroc.)67(4): 593-595|1985|
98897|T||Sabala,I., U. Egertsdotter, H. Von Fircks, and S. Von Arnold|Abscisic Acid-Induced Secretion of an Antifreeze-Like Protein in Embryogenic Cell Lines of Picea abies|J. Plant Physiol.149(1-2): 163-170|1996|10.1016/S0176-1617(96)80190-8
98898|T||Ban,T., M. Ishimaru, S. Kobayashi, S. Shiozaki, N. Goto-Yamamoto, and S. Horiuchi|Abscisic Acid and 2,4-Dichlorophenoxyacetic Acid Affect the Expression of Anthocyanin Biosynthetic Pathway Genes in 'Kyoho' Grape Berries|J. Hortic. Sci. Biotechnol.78(4): 586-589|2003|10.1080/14620316.2003.11511668
98899|T||Chopra,R.N., and A. Kapur|Effect of Abscisic Acid and Kinetin on Protonemal Differentiation in Timmiella anomala|Plant Sci.61(2): 203-206|1988|10.1016/0168-9452(89)90225-2
98900|T||Juricic,S., S. Orlando, and M.T. Le Page-Degivry|Genetic and Ontogenic Changes in Sensitivity to Abscisic Acid in Brassica napus Seeds|Plant Physiol. Biochem.33(5): 593-598|1995|
98901|T||Soderman,E., J. Mattsson, and P. Engstrom|The Arabidopsis Homeobox Gene ATHB-7 is Induced by Water Deficit and by Abscisic Acid|Plant J.10(2): 375-381|1996|10.1046/j.1365-313X.1996.10020375.x
98902|T||Parry,A.D., A.D. Blonstein, M.J. Babiano, P.J. King, and R. Horgan|Abscisic-Acid Metabolism in a Wilty Mutant of Nicotiana plumbaginifolia|Planta (Multiple Languages)183(2): 237-243|1991|10.1007/BF00197794
98903|T||Raschke,K., and R. Hedrich|Simultaneous and Independent Effects of Abscisic Acid on Stomata and the Photosynthetic Apparatus in Whole Leaves|Planta (Multiple Languages)163(1): 105-118|1985|10.1007/BF00395904
98904|A||Devilla,R.A., M.T. Brown, M. Donkin, G.A. Tarran, J. Aiken, and J.W. Readman|Impact of Antifouling Booster Biocides on Single Microalgal Species and on a Natural Marine Phytoplankton Community|Mar. Ecol. Prog. Ser.286:1-12|2005|10.3354/meps286001
98905|T||Luoranen,J., and H. Viiri|Insecticides Sprayed on Seedlings of Picea abies During Active Growth:  Damage to Plants and Effect on Pine Weevils in Bioassay|Scand. J. For. Res.20(1): 47-53|2005|10.1080/02827580510008194
98906|T||Gao,J.R., K.S. Yoon, R.K. Frisbie, G.C. Coles, and J.M. Clark|Esterase-Mediated Malathion Resistance in the Human Head Louse, Pediculus capitis (Anoplura:  Pediculidae)|Pestic. Biochem. Physiol.85(1): 28-37|2006|10.1016/j.pestbp.2005.09.003
98907|T||Bunyan,P.J., and A. Taylor|Esterase Inhibition in Pheasants Poisoned by O,O-Diethyl S-(Ethylthiomethyl)-Phosphorodithioate (Thimet)|J. Agric. Food Chem.14:132-137|1966|10.1021/jf60144a010
98908|A||Abrams,S.R., and B.V. Milborrow|Synthesis and Biological Activity of Allenic Analogues of Abscisic Acid|Phytochemistry30(10): 3189-3195|1991|10.1016/0031-9422(91)83174-J
98909|T||Blochl,A., G. Grenier-De March, M. Sourdioux, T. Peterbauer, and A. Richter|Induction of Raffinose Oligosaccharide Biosynthesis by Abscisic Acid in Somatic Embryos of Alfalfa (Medicago sativa L.)|Plant Sci.168(4): 1075-1082|2005|10.1016/j.plantsci.2004.12.004
98910|T||Niazi,B.H., J. Rozema, and M. Athar|Effect of Pre-germination and Post-Germination Treatment with Growth Hormones (Kinetine and Abscisic Acid) on Ion Concentration and Biochemical Contents of Fodderbeet and Seabeet Under Saline Conditions|Gen. Appl. Plant Physiol.31(1/2): 89-104|2005|
98911|T||Muller,M.L., P.W. Barlow, and P.E. Pilet|Effect of Abscisic Acid on the Cell Cycle in the Growing Maize Root|Planta (Multiple Languages)195(1): 10-16|1994|10.1007/BF00206285
98912|T||Berryman,C.A., D. Eamus, and G.A. Duff|Stomatal Responses to a Range of Variables in Two Tropical Tree Species Grown with CO2 Enrichment|J. Exp. Bot.45(274): 539-546|1994|10.1093/jxb/45.5.539
98913|T||Bunce,J.A.|Species-Specific Responses to Water Stress of Gas Exchange Parameters Mimicked by Applied Abscisic Acid|Can. J. Bot.65(1): 103-106|1987|10.1139/b87-014
98914|T||Kasai,M., M. Sasaki, S. Tanakamaru, Y. Yamamoto, and H. Matsumoto|Possible Involvement of Abscisic Acid in Increases in Activities of Two Vacuolar H+ -Pumps in Barley Roots Under Aluminum Stress|Plant Cell Physiol.34(8): 1335-1338|1993|
98915|T||Suzuki,A., M. Akune, M. Kogiso, Y. Imagama, K.I. Osuki, T. Uchiumi, S. Higashi, S.Y. Han, S. Yoshida, T. Asami, and M. |Control of Nodule Number by the Phytohormone Abscisic Acid in the Roots of Two Leguminous Species|Plant Cell Physiol.45(7): 914-922|2004|10.1093/pcp/pch107
98916|T||Dai,Z., M.S.B. Ku, D. Zhang, and G.E. Edwards|Effects of Growth Regulators on the Induction of Crassulacean Acid Metabolism in the Facultative Halophyte Mesembryanthemum crystallinum L.|Planta (Multiple Languages)192(3): 287-294|1994|10.1007/BF00198562
98917|T||Wakabayashi,K., T. Hoson, and S. Kamisaka|Abscisic Acid Suppresses the Increases in Cell Wall-Bound Ferulic and Diferulic Acid Levels in Dark-Grown Wheat (Triticum aestivum L.) Coleoptiles|Plant Cell Physiol.38(7): 811-817|1997|10.1093/oxfordjournals.pcp.a029239
98918|T||Bell,L.M., R.N. Trigiano, and B.V. Conger|Relationship of Abscisic Acid to Somatic Embryogenesis in Dactylis glomerata|Environ. Exp. Bot.33(4): 495-499|1993|10.1016/0098-8472(93)90022-8
98919|T||Hirasawa,E., T. Yoshida, and I. Yoshida|Effects of Wounding, Ethylene and Abscisic Acid on the Development of alpha-Amylase Activity in Detached Cotyledons of Pisum sativum|J. Plant Physiol.143(3): 359-362|1994|10.1016/S0176-1617(11)81645-7
98920|T||Mohr,P.G., and D.M. Cahill|Abscisic Acid Influences the Susceptibility of Arabidopsis thaliana to Pseudomonas syringae pv. Tomato and Peronospora parasitica|Funct. Plant Biol.30(4): 461-469|2003|10.1071/FP02231
98921|T||Hu,X., M. Jiang, J. Zhang, A. Zhang, F. Lin, and M. Tan|Calcium-Calmodulin is Required for Abscisic Acid-Induced Antioxidant Defense and Functions Both Upstream and Downstream of H2O2 Production in Leaves of Maize (Zea mays) Plants|New Phytol.173(1): 27-38|2007|10.1111/j.1469-8137.2006.01888.x
98922|T||Herrera-Medina,M.J., S. Steinkellner, H. Vierheilig, J.A. Ocampo Bote, and J.M. Garcia Garrido|Abscisic Acid Determines Arbuscule Development and Functionality in the Tomato Arbuscular mycorrhiza|New Phytol.175(3): 554-564|2007|10.1111/j.1469-8137.2007.02107.x
98923|A||Plaixats,J., M. Rodes, and J. Andres|Effect of Abscisic Acid on Pool Sizes of Free Amino Acids in Lemna minor L. Cultures|J. Plant Physiol.131(3-4): 259-266|1987|10.1016/S0176-1617(87)80165-7
98924|T||Cerana,M., M.C. Bonza, R. Harris, D. Sanders, and M.I. De Michelis|Abscisic Acid Stimulates the Expression of Two Isoforms of Plasma Membrane Ca2+-ATPase in Arabidopsis thaliana Seedlings|Plant Biol.8(5): 572-578|2006|10.1055/s-2006-924111
98925|A||Azuma,T., T. Hirano, Y. Deki, N. Uchida, T. Yasuda, and T. Yamaguchi|Involvement of the Decrease in Levels of Abscisic Acid in the Internodal Elongation of Submerged Floating Rice|J. Plant Physiol.146(3): 323-328|1995|10.1016/S0176-1617(11)82062-6
98926|T||Zhang,W., F. Diao, B. Yu, and Y. Liu|H+ -ATPase and H+ -Transport Activities in Tonoplast Vesicles from Barley Roots Under Salt Stress and Influence of Calcium and Abscisic Acid|J. Plant Nutr.21(3): 447-458|1998|10.1080/01904169809365416
98927|T||Xu,X., and H. Zhu|Effect of Nonionic Surfactants on Stomatal Movement and Transpiration of Seedlings of Ten Plant Species|In: P.N.P.Chow (Ed.), Adjuvants and Agrochemicals, Vol.1, Mode of Action and Physiological Activity, 1st Int.Symp., Aug.5-7, 1986, Brandon, Manitoba, Can., CRC Press Inc., Boca Raton, FL:41-50|1989|
98928|T||Li,C., C. Yin, and S. Liu|Different Responses of Two Contrasting Populus davidiana Populations to Exogenous Abscisic Acid Application|Environ. Exp. Bot.51(3): 237-246|2004|10.1016/j.envexpbot.2003.11.001
98930|T||Szykula,J., and A. Zabza|The Syntheses of Spin Labelled Juvenoids|Experientia36(2): 149-150|1980|10.1007/BF01953699
98934|T||Goldmark,P.J., J. Curry, C.F. Morris, and M.K. Walker-Simmons|Cloning and Expression of an Embryo-Specific mRNA Up-Regulated in Hydrated Dormant Seeds|Plant Mol. Biol.19(3): 433-441|1992|10.1007/BF00023391
98935|T||Schwachtje,J., and I.T. Baldwin|Smoke Exposure Alters Endogenous Gibberellin and Abscisic Acid Pools and Gibberellin Sensitivity While Eliciting Germination in the Post-Fire Annual, Nicotiana attenuata|Seed Sci. Res.14(1): 51-60|2004|10.1079/SSR2003154
98936|AT||Lahuta,L.B., R.J. Gorecki, E. Gojlo, and M. Horbowicz|Effect of Exogenous Abscisic Acid on Accumulation of Raffinose Family Oligosaccharides and Galactosyl Cyclitols in Tiny Vetch Seeds (Vicia hirsuta [L.] S.F. Gray)|Acta Soc. Bot. Pol.73(4): 277-283|2004|10.5586/asbp.2004.035
98937|AT||Benschop,J.J., M.B. Jackson, K. Guhl, R.A.M. Vreeburg, S.J. Croker, A.J.M. Peeters, and L.A.C.J. Voesenek|Contrasting Interactions Between Ethylene and Abscisic Acid in Rumex Species Differing in Submergence Tolerance|Plant J.44(5): 756-768|2005|10.1111/j.1365-313X.2005.02563.x
98938|T||Hellwege,E.M., K.J. Dietz, and W. Hartung|Abscisic Acid Causes Changes in Gene Expression Involved in the Induction of the Landform of the Liverwort Riccia fluitans L.|Planta (Multiple Languages)198(3): 423-432|1996|10.1007/BF00620059
98940|T||Jimenez,J.A., D. Rodriguez, O. Lorenzo, G. Nicolas, and C. Nicolas|Characterization of a Protein Kinase (FsPK4) with an Acidic Domain, Regulated by Abscisic Acid and Specifically Located in Fagus sylvatica L. Seeds|J. Plant Physiol.163(7): 761-769|2006|10.1016/j.jplph.2005.07.010
98941|T||Atkinson,C.J.|The Influence of Increasing Rhizospheric Calcium on the Ability of Lupinus luteus L. to Control Water Use Efficiency|New Phytol.119(2): 207-215|1991|10.1111/j.1469-8137.1991.tb01023.x
98942|T||Hsu,Y.T., M.C. Kuo, and C.H. Kao|Cadmium-Induced Ammonium Ion Accumulation of Rice Seedlings at High Temperature is Mediated Through Abscisic Acid|Plant Soil287(1): 267-277|2006|10.1007/s11104-006-9076-5
98943|T||Mutui,T.M., H. Mibus, and M. Serek|Effects of Thidiazuron, Ethylene, Abscisic Acid and Dark Storage on Leaf Yellowing and Rooting of Pelargonium Cuttings|J. Hortic. Sci. Biotechnol.80(5): 543-550|2005|10.1080/14620316.2005.11511975
98944|T||Casaretto,J.A., G.E. Zuniga, and L.J. Corcuera|Abscisic Acid and Jasmonic Acid Affect Proteinase Inhibitor Activities in Barley Leaves|J. Plant Physiol.161(4): 389-396|2004|10.1078/0176-1617-01236
98945|T||Chai,M.F., P.C. Wei, Q.J. Chen, R. An, J. Chen, S. Yang, and X.C. Wang|NADK3, a Novel Cytoplasmic Source of NADPH, is Required Under Conditions of Oxidative Stress and Modulates Abscisic Acid Responses in Arabidopsis|Plant J.47(5): 665-674|2006|10.1111/j.1365-313X.2006.02816.x
98946|T||Strubelt,O., H. Iven, and M. Younes|The Pathophysiological Profile of the Acute Cardiovascular Toxicity of Sodium Fluoride|Toxicology24(3-4): 313-323|1982|10.1016/0300-483X(82)90013-0
98950|T||Chinoy,N.J., and S.D. Shah|Beneficial Effects of Some Antidotes in Fluoride and Arsenic Induced Toxicity in Kidney of Mice|Fluoride37(3): 151-161|2004|
98951|T||Chinoy,N.J., S.B. Nair, and D.D. Jhala|Arsenic and Fluoride Induced Toxicity in Gastrocnemius Muscle of Mice and Its Reversal by Therapeutic Agents|Fluoride37(4): 243-248|2004|
98952|T||Nair,S.B., D.D. Jhala, and N.J. Chinoy|Beneficial Effects of Certain Antidotes in Mitigating Fluoride and/or Arsenic Induced Hepatotoxicity in Mice|Fluoride37(2): 60-70|2004|
98953|T||Fujii,A., and T. Tamura|Deleterious Effect of Sodium Fluoride on Gastrointestinal Tract|Gen. Pharmacol.20(5): 705-710|1989|10.1016/0306-3623(89)90111-0
98954|T||Mikami,K., T. Katagiri, S. Iuchi, K. Yamaguchi-Shinozaki, and K. Shinozaki|A Gene Encoding Phosphatidylinositol-4-Phosphate 5-Kinase is Induced by Water Stress and Abscisic Acid in Arabidopsis thaliana|Plant J.15(4): 563-568|1998|10.1046/j.1365-313X.1998.00227.x
98955|A||Bhatnagar,C., M. Bhatnagar, and B.C. Regar|Fluoride-Induced Histopathological Changes in Gill, Kidney, and Intestine of Fresh Water Teleost, Labeo rohita|Fluoride40(1): 55-61|2007|
98956|T||Monsour,P.A., B.J. Kruger, and J.R. Smid|Effects of a Single Intravenous Dose of Sodium Fluoride on Plasma Electrolytes and Metabolites in Rats, Rabbits, and Cockerels|J. Dent. Res.64(11): 1281-1285|1985|10.1177/00220345850640110501
98957|T||Talmage,R.V., and S.B. Doty|The Effect of Sodium Fluoride on Parathyroid Function in the Rat as Studied by Peritoneal Lavage|Gen. Comp. Endocrinol.2(5): 473-479|1962|10.1016/0016-6480(62)90045-X
98958|T||Mysliwiec,Z., A. Machoy-Mokrzynska, Z. Juzyszyn, B. Czerny, and A. Put|Effects of Selenium on Serum Lipids and Enzyme Activities in Fluoride-Intoxicated Rats|Fluoride35(3): 168-175|2002|
98959|T||Shashi,A., J.P. Singh, and S.P. Thapar|Effect of Long-Term Administration of Fluoride on Levels of Protein, Free Amino Acids and RNA in Rabbit Brain|Fluoride27(3): 155-159|1994|
98960|T||Chinoy,N.J., K. Tewari, and D.D. Jhala|Fluoride and/or Arsenic Toxicity in Mice Testis with Formation of Giant Cells and Subsequent Recovery by Some Antidotes|Fluoride37(3): 172-184|2004|
98961|T||Shah,S.D., and N.J. Chinoy|Adverse Effects of Fluoride and/or Arsenic on the Cerebral Hemisphere of Mice and Recovery by Some Antidotes|Fluoride37(3): 162-171|2004|
98962|T||Suresh,B., and B. Pilo|Acute Toxicity of Fluoride to Post-Hatched Developing Chicks of Domestic Fowl, Gallus domesticus|J. Anim. Morphol. Physiol.44(1): 21-24|1997|
98963|T||Mammen,N., and R.V. Nene|Effect of Sublethal Dose of Fluoride on Carbohydrate Metabolism of Glycogen Body in Post-Hatched Developing Chicks, Gallus domesticus|J. Anim. Morphol. Physiol.41(2): 139-143|1994|
98964|T||Jhala,D.D., S.B. Nair, and N.J. Chinoy|Reversible Toxicity of Fluoride and Arsenic in Ovary of Mice|Fluoride37(2): 71-79|2004|
98965|T||Sharma,S.K., and B. Choudhary|Effect of Some Growth Regulators on Pollen of Physalis peruviana G.|Geobios24(4): 287-288|1997|
98966|T||Sharma,N., S.R. Abrams, and D.R. Waterer|Evaluation of Abscisic Acid Analogs as Holding Agents for Bedding Plant Seedlings|HortTechnology16(1): 71-77|2006|10.21273/HORTTECH.16.1.0071
98967|T||Cline,M.G., and M.M. Rehm|Effects of Auxin and Abscisic Acid on Polydisperse RNA in Avena coleoptiles|In: 8th Proc.Int.Conf., Plant Growth Subst.:582-592|1974|
98968|T||Pyun,M.S., and S. Shin|Antifungal Effects of the Volatile Oils from Allium Plants Against Trichophyton Species and Synergism of the Oils with Ketoconazole|Phytomedicine13(6): 394-400|2006|10.1016/j.phymed.2005.03.011
98969|T||Semighini,C.P., J.M. Hornby, R. Dumitru, K.W. Nickerson, and S.D. Harris|Farnesol-Induced Apoptosis in Aspergillus nidulans Reveals a Possible Mechanism for Antagonistic Interactions Between Fungi|Mol. Microbiol.59(3): 753-764|2006|10.1111/j.1365-2958.2005.04976.x
98970|T||Su,W.R., K.L. Huang, R.S. Shen, and W.S. Chen|Abscisic Acid Affects Floral Initiation in Polianthes tuberosa|J. Plant Physiol.159(5): 557-559|2002|10.1078/0176-1617-00732
98971|T||Taybi,T., and J.C. Cushman|Abscisic Acid Signaling and Protein Synthesis Requirements for Phosphoenolpyruvate Carboxylase Transcript Induction in the Common Ice Plant|J. Plant Physiol.159(11): 1235-1243|2002|10.1078/0176-1617-00834
98972|T||Ragolsky,E., and T.A. Thorpe|Physiological Effects of Fluridone on Shoot Cultures of Brassica napus L. and Beta vulgaris L.|J. Plant Physiol.134(5): 613-618|1989|10.1016/S0176-1617(89)80157-9
98973|T||Maeda,T., T. Asami, S. Yoshida, and K. Takeno|The Processes Inhibited and Promoted by Abscisic Acid in Photoperiodic Flowering of Pharbitis nil|J. Plant Physiol.157(4): 421-427|2000|10.1016/S0176-1617(00)80027-9
98974|T||Mehta,B., N.S. Govind, M. Sharma, and V.V. Modi|Proteases & Stimulation of Carotenogenesis by Abscisic Acid & Related Compounds in Blakeslea trispora|Indian J. Exp. Biol.19(12): 1142-1145|1981|
98975|T||Xiong,Y.C., G.M. Xing, F.M. Li, S.M. Wang, X.W. Fan, Z.X. Li, and Y.F. Wang|Abscisic Acid Promotes Accumulation of Toxin ODAP in Relation to Free Spermine Level in Grass Pea Seedlings (Lathyrus sativus L.)|Plant Physiol. Biochem.44(2/3): 161-169|2006|10.1016/j.plaphy.2006.03.002
98976|T||Sanchez-Hernandez,C., N. Martinez-Gallardo, A. Guerrero-Rangel, S. Valdes-Rodriguez, and J. Delano-Frier|Trypsin and alpha-Amylase Inhibitors are Differentially Induced in Leaves of Amaranth (Amaranthus hypochondriacus) in Response to Biotic and Abiotic Stress|Physiol. Plant. (Multiple Languages)122(2): 254-264|2004|10.1111/j.0031-9317.2004.00398.x
98977|T||Kondo,S., and K. Inoue|Abscisic Acid (ABA) and 1-Aminocyclopropane-1-Carboxylic Acid (ACC) Content During Growth of 'Satohnishiki' Cherry Fruit, and the Effect of ABA and Ethephon Application on Fruit Quality|J. Hortic. Sci.72(2): 221-227|1997|10.1080/14620316.1997.11515509
98978|T||Atkinson,C.J., L.P. Ruiz, and T.A. Mansfield|Calcium in Xylem Sap and the Regulation of Its Delivery to the Shoot|J. Exp. Bot.43(255): 1315-1324|1992|10.1093/jxb/43.10.1315
98979|T||Timofeeva,O., L. Khokhlova, N. Belyaeva, Y. Chulkova, and L. Garaeva|Cytoskeleton-Induced Alterations of the Lectin Activity in Winter Wheat Under Cold Hardening and Abscisic Acid (ABA)|Cell Biol. Int.24(6): 375-381|2000|10.1006/cbir.1999.0520
98980|T||Hung,K.T., and C.H. Kao|Nitric Oxide Counteracts the Senescence of Rice Leaves Induced by Abscisic Acid|J. Plant Physiol.160(8): 871-879|2003|10.1078/0176-1617-01118
98981|T||Moons,A., R. Valcke, and M. Van Montagu|Low-Oxygen Stress and Water Deficit Induce Cytosolic Pyruvate Orthophosphate Dikinase (PPDK) Expression in Roots of Rice, a C3 Plant|Plant J.15(1): 89-98|1998|10.1046/j.1365-313X.1998.00185.x
98982|T||Liu,W., Z.H. Xu, D. Luo, and H.W. Xue|Roles of OsCK/1, a Rice Casein Kinase I, in Root Development and Plant Hormone Sensitivity|Plant J.36(2): 189-202|2003|10.1046/j.1365-313X.2003.01866.x
98983|T||Regupathy,A., and N.R. Mahadevan|Management of Pink Bollworm of Cotton Through Gossyplure and Insecticides|Indian J. Plant Prot.21(2): 230-233|1993|
98984|T||Savoure,A., X.J. Hua, N. Bertauche, M. Van Montagu, and N. Verbruggen|Abscisic Acid-Independent and Abscisic Acid-Dependent Regulation of Proline Biosynthesis Following Cold and Osmotic Stresses in Arabidopsis thaliana|Mol. Gen. Genet.254(1): 104-109|1997|10.1007/s004380050397
98985|T||Siegel,M.R., A. Kerkenaar, and A.K. Sijpesteijn|Antifungal Activity of the Systemic Fugicide Imazalil|Neth. J. Plant Pathol.83(suppl. 1): 121-133|1977|10.1007/BF03041427
98986|T||Free,J.B., A.W. Ferguson, and J.A. Pickett|Effect of the Components of the Nasonov Pheromone on Its Release by Honeybees at the Hive Entrance|J. Apic. Res.22(3): 155-157|1983|10.1080/00218839.1983.11100580
98987|T||Free,J.B., A.W. Ferguson, and J.A. Pickett|A Synthetic Pheromone Lure to Induce Worker Honeybees to Consume Water and Artificial Forage|J. Apic. Res.22(4): 224-228|1983|10.1080/00218839.1983.11100591
98988|A||Biggers,W.J., and H. Laufer|Detection of Juvenile Hormone-Active Compounds by Larvae of the Marine Annelid Capitella sp. I|Arch. Insect Biochem. Physiol.32(3/4): 475-484|1996|10.1002/(SICI)1520-6327(1996)32:3/4<475::AID-ARCH19>3.0.CO;2-9
98989|T||Jakobsen,K.S., D.W. Hughes, and G.A. Galau|Simultaneous Induction of Postabscission and Germination mRNAs in Cultured Dicotyledonous Embryos|Planta (Multiple Languages)192(3): 384-394|1994|
98990|T||Eisenberg,A.J., and J.P. Mascarenhas|Abscisic Acid and the Regulation of Synthesis of Specific Seed Proteins and Their Messenger RNAs During Culture of Soybean Embryos|Planta (Multiple Languages)166(4): 505-514|1985|10.1007/BF00391275
98991|T||Long,S.R., R.M.K. Dale, and I.M. Sussex|Maturation and Germination of Phaseolus vulgaris Embryonic Axes in Culture|Planta (Multiple Languages)153(5): 405-415|1981|10.1007/BF00394978
98992|T||Hellwege,E.M., and W. Hartung|Synthesis, Metabolism and Compartmentation of Abscisic Acid in Riccia fluitans L.|J. Plant Physiol.150(3): 287-291|1997|10.1016/S0176-1617(97)80122-8
98993|T||Smart,C.C., and A.J. Fleming|A Plant Gene with Homology to D-myo-Inositol-3-Phosphate Synthase is Rapidly and Spatially Up-Regulated During an Abscisic-Acid-Induced Morphogenic Response in Spirodela polyrrhiza|Plant J.4(2): 279-293|1993|10.1046/j.1365-313X.1993.04020279.x
98994|T||Bertossi,F.A., N. Chabrillange, and Y. Duval|Abscisic Acid and Desiccation Tolerance in Oil Palm (Elaeis guineensis Jacq.) Somatic Embryos|Genet. Sel. Evol.33(suppl.1): S75 - S84|2001|
98995|T||Nadolska-Orczyk,A.|Somatic Embryogenesis of Agriculturally Important Lupin Species (Lupinus angustifolius, L. albus, L. mutabilis)|Plant Cell Tissue Organ Cult.28(1): 19-25|1992|10.1007/BF00039911
98996|T||Hintze-Podufal,C., and F. Fricke|The Effect of Farnesol Derivatives on the Mature Larva of Cerura vinula L. (Lepidoptera)|J. Insect Physiol.17(10): 1925-1932|1971|10.1016/0022-1910(71)90137-5
98997|T||Tesh,R.B., H. Guzman, and M.L. Wilson|Trans-Beta-Farnesene as a Feeding Stimulant for the Sand Fly Lutzomyia longipalpis (Diptera: Psychodidae)|J. Med. Entomol.29(2): 226-231|1992|10.1093/jmedent/29.2.226
98998|T||Sharma,R.N., and K.N. Saxena|Orientation and Developmental Inhibition in the Housefly by Certain Terpenoids|J. Med. Entomol.11(5): 617-621|1974|10.1093/jmedent/11.5.617
98999|T||Ishii,S., and C. Hirano|Inability of Chilo suppressalis Larvae (Lepidoptera: Pyralidae) to Utilize Farnesol for Synthesizing Cholesterol|Nihon Oyo Dobutsu Konchu Gakkaishi (Non-English)8(1): 84-86|1964|10.1303/jjaez.8.84
99000|T||Tripathi,N.N., A. Asthana, and S.N. Dixit|Toxicity of Some Terpenoids Against Fungi Infesting Fruits and Seeds of Capsicum annuum L. During Storage|Phytopathol. Z. (Multiple Languages)110(4): 328-335|1984|10.1111/j.1439-0434.1984.tb00072.x
99001|T||Puri,S.K., J. Cochin, and L. Volicer|Effect of Morphine Sulfate on Adenylate Cyclase and Phosphodiesterase Activities in Rat Corpus Striatum|Life Sci.16(5): 759-767|1975|10.1016/0024-3205(75)90352-5
99002|T||Wheeler,G.S., and K.M. Ordung|Secondary Metabolite Variation Affects the Oviposition Preference but has Little Effect on the Performance of Boreioglycaspis melaleucae: A Biological Control Agent of Melaleuca quinquenervia|Biol. Control35(2): 115-123|2005|10.1016/j.biocontrol.2005.07.006
99003|T||Xu,Y., and Q.H. Ma|Medicago truncatula Mt-ZFP1 Encoding a Root Enhanced Zinc Finger Protein Is Regulated by Cytokinin, Abscisic Acid and Jasmonate, but not Cold|DNA Seq.15(2): 104-109|2004|10.1080/1042517042000199951
99004|T||Manickam,A., E.J.M. Van Damme, K. Kalaiselvi, P. Verhaert, and W.J. Peumans|Isolation and cDNA Cloning of an Em-like Protein from Mung Bean (Vigna radiata) Axes|Physiol. Plant. (Multiple Languages)97(3): 524-530|1996|10.1111/j.1399-3054.1996.tb00512.x
99005|T||Malmquist,E., and H. Low|Electron Microscopic Changes in Mitochondria of the Intestinal Epithelium and the Liver in Mice and D-Avitaminotic Rats After Peroral Distribution of Sodium Fluoride|J. Ultrastruct. Res.29(3-4): 276-280|1969|10.1016/S0022-5320(69)90106-3
99006|T||Carthew,P., R.E. Edwards, and B.M. Dorman|The Immunotoxicity of Tributyltin Oxide (TBTO) does not Increase the Susceptibility of Rats to Experimental Respiratory Infection|Hum. Exp. Toxicol.11(2): 71-75|1992|10.1177/096032719201100202
99007|T||Gonzalez,E.M., L. Galvez, M. Royuela, P.M. Aparicio-Tejo, and C. Arrese-Igor|Insights into the Regulation of Nitrogen Fixation in Pea Nodules:  Lessons from Drought, Abscisic Acid and Increased Photoassimilate Availability|Agronomie (Multiple Languages)21(6-7): 607-613|2001|10.1051/agro:2001151
99008|T||Marshall,J., T. Beardmore, C.A. Whittle, B. Wang, R.G. Rutledge, and E. Blumwald|The Effects of Paclobutrazol, Abscisic Acid, and Gibberellin on Germination and Early Growth in Silver, Red, and Hybrid Maple|Can. J. For. Res.30(4): 557-565|2000|10.1139/x99-254
99009|A||Naik,D.G., A.A. Babrekar, and B.B. Nath|'Pheromone-Like' Compounds in the Cuticle of Aquatic Chironomus Larva|Chem. Ecol.22(6): 501-508|2006|10.1080/02757540601025014
99010|T||Leonard,B.E.|Effect of Phentolamine on the Increase in Brain Glycolysis Following the Intraventricular Administration of Dibutyryl-3,5-Cyclic Adenosine Monophosphate and Sodium Fluoride to Mice|Biochem. Pharmacol.21(1): 115-117|1972|10.1016/0006-2952(72)90257-2
99011|A||Walker,W.W., C.S. Heard, K. Lotz, T.F. Lytle, W.E. Hawkins, C.S. Barnes, D.H. Barnes, and R.M. Overstreet|Tumorigenic, Growth, Reproductive, and Developmental Effects in Medaka Exposed to bis(Tri-n-Butyltin) Oxide|In: Oceans 89, IEEE Publishing Services, New York, NY:516-524|1989|
99012|T||Fargasova,A., and J. Kizlink|Determination of Toxicity of Organotin Compounds on Root Growth of Sinapis alba Seeds|Biologia (Bratisl.)50(6): 601-604|1995|
99013|T||Simek,M., and B. Marsalek|Evidence for Abscisic Acid-Caused Enhancement of Nitrogenase Activity in Trichormus variabilis|Arch. Hydrobiol.95(suppl.): 91-102|1992|
99014|T||Hemphill,D.D.,Jr., and H.B.,Jr. Tukey|The Effect of Intermittent Mist on Abscisic Acid Content of Euonymus alatus Sieb. 'Compactus'|J. Am. Soc. Hortic. Sci.98(4): 416-420|1973|10.21273/JASHS.98.4.416
99015|A||DeKock,P.C., D. Vaughan, and A. Hall|Effect of Abscisic Acid and Benzyl Adenine on the Inorganic and Organic Composition of the Duckweed, Lemna gibba L.|New Phytol.81(3): 505-511|1978|10.1111/j.1469-8137.1978.tb01623.x
99016|T||Kojima,K., Y. Yamada, and M. Yamamoto|Effects of Abscisic Acid Injection on Sugar and Organic Acid Contents of Citrus Fruit|J. Jpn. Soc. Hortic. Sci.64(1): 17-21|1995|10.2503/jjshs.64.17
99017|T||Taylor,G.E.,Jr., S.B.,Jr. McLaughlin, D.S. Shriner, and W.J. Selvidge|The Flux of Sulfur-Containing Gases to Vegetation|Atmos. Environ.17(4): 789-796|1983|10.1016/0004-6981(83)90428-6
99018|T||Kang,S.G., J.H. Choi, and S.G. Suh|A Leaf-Specific 27 kDa Protein of Potato Kunitz-Type Proteinase Inhibitor is Induced in Response to Abscisic Acid, Ethylene, Methyl Jasmonate, and Water Deficit|Mol. Cells13(1): 144-147|2002|10.1016/S1016-8478(23)15016-3
99019|T||Toorop,P.E., J.D. Bewley, S.R. Abrams, and H.W.M. Hilhorst|Structure-Activity Studies with ABA Analogs on Germination and Endo-beta-Mannanase Activity in Tomato and Lettuce Seeds|J. Plant Physiol.154(5-6): 679-685|1999|10.1016/S0176-1617(99)80244-2
99021|T||Anita,C.V., and G.M. Reddy|Hormonal Response and Seed Viability of Porteresia coarctata, a Brackish Water Species|J. Plant Biochem. Biotechnol.2(2): 127-129|1993|10.1007/BF03262940
99022|T||Sawada,K., L. Tokuda, and A. Shinmyo|Characterization of the Rice Blast Fungal Elicitor - Responsive Gene OsSBP Encoding a Homolog to the Mammalian Selenium - Binding Proteins|Plant Biotechnol.20(2): 177-181|2003|10.5511/plantbiotechnology.20.177
99023|T||Bano,A., and M. Sanaullah|Effects of Plant Growth Regulators on Neurotoxin Content in Leaves of Lathyrus sativus|Pak. J. Bot.27(1): 139-141|1995|
99024|T||Shen,G., Y. Pang, W. Wu, Z. Deng, X. Liu, J. Lin, L. Zhao, X. Sun, and K. Tang|Molecular Cloning, Characterization and Expression of a Novel Asr Gene from Ginkgo biloba|Plant Physiol. Biochem.43(9): 836-843|2005|10.1016/j.plaphy.2005.06.010
99025|T||Kobata,T., and S. Hara|A Convenient Method for Determining the Effect of Abscisic Acid on the Stomatal Aperture of Rice (Oryza sativa L.) by Feeding Solution to the Leaf Tip|Jpn. J. Crop Sci. (Multiple Languages)63(4): 638-642|1994|10.1626/jcs.63.638
99026|T||Gadallah,M.A.A.|Abscisic Acid, Temperature and Salinity Interactions on Growth and Some Mineral Elements in Carthamus Plants|Plant Growth Regul.20(3): 225-236|1996|10.1007/BF00043312
99027|T||Kobashi,K., H. Gemma, and S. Iwahori|Sugar Accumulation in Peach Fruit as Affected by Abscisic Acid (ABA) Treatment in Relation to Some Sugar Metabolizing Enzymes|J. Jpn. Soc. Hortic. Sci.68(3): 465-470|1999|10.2503/jjshs.68.465
99028|A||Ullrich,W.R., and G. Kunz|Effect of Abscisic Acid on Nitrate Uptake, Respiration and Photosynthesis in Green Algae|Plant Sci. Lett.37(1-2): 9-14|1984|10.1016/0304-4211(84)90195-0
99029|T||Ting,I.P.|Effects of Abscisic Acid on CAM in Portulacaria afra|Photosynth. Res. (Dordr., Online)2(1): 39-48|1981|10.1007/BF00036164
99030|T||Oster,U., I. Blos, and W. Rudiger|Natural Inhibitors of Germination and Growth.  IV.  Compounds from Fruit and Seeds of Mountain Ash (Sorbus aucuparia)|Z. Naturforsch.42(11-12): 1179-1184|1987|10.1515/znc-1987-11-1207
99035|T||Bressa,G., R.H. Hinton, S.C. Price, M. Isbir, R.S. Ahmed, and P. Grasso|Immunotoxicity of Tri-n-Butyltin Oxide (TBTO) and Tri-n-Butyltin Chloride (TBTC) in the Rat|J. Appl. Toxicol.11(6): 397-402|1991|10.1002/jat.2550110604
99036|A||Fargasova,A., and J. Kizlink|Acute Toxic Effects of Organotin Compounds on Benthic Organisms:  Tubifex tubifex and Chironomus plumosus|Biologia (Bratisl.)51(6): 677-681|1996|
99037|T||Elsabbagh,H.S., S.Z. Moussa, and O.S. El-Tawil|Neurotoxicologic Sequelae of Tributyltin Intoxication in Rats|Pharmacol. Res.45(3): 201-206|2002|10.1006/phrs.2001.0909
99038|T||Smialowicz,R.J., M.M. Riddle, R.R. Rogers, R.W. Luebke, C.B. Copeland, and G.G. Ernst|Immune Alterations in Rats Following Subacute Exposure to Tributyltin Oxide|Toxicology64(2): 169-178|1990|10.1016/0300-483X(90)90133-2
99039|T||Garssen,J., H. Van der Vliet, A. De Klerk, W. Goettsch, J.A.M.A. Dormans, C.A. Bruggeman, A.D.M.E. Osterhaus, and H. Va|A Rat Cytomegalovirus Infection Model as a Tool for Immunotoxicity Testing|Eur. J. Pharmacol.292(3-4): 223-231|1995|
99040|T||Hara,K., M. Yoshizuka, and S. Fujimoto|Toxic Effects of bis (Tributyltin) Oxide on the Synthesis and Secretion of Zymogen Granules in the Rat Exocrine Pancreas|Arch. Histol. Cytol.57(3): 201-212|1994|10.1679/aohc.57.201
99041|A||Ohji,M., T. Arai, and N. Miyazaki|Effects of Tributyltin on the Survival in the Caprellid Amphipod Caprella danilevskii|J. Mar. Biol. Assoc. U.K.84(2): 345-349|2004|10.1017/S0025315404009269h
99042|T||Yoshizuka,M., K. Hara, N. Haramaki, M. Yokoyama, N. Mori, Y. Doi, A. Kawahara, and S. Fujimoto|Studies on the Hepatotoxicity Induced by Bis (Tributyltin) Oxide|Arch. Toxicol.66(3): 182-187|1992|10.1007/BF01974012
99043|A||Shah,D.S.M., V. Rojaramani, O. Sathick, and R.S. Priya|Effect of Tributyltin Oxide (TBTO) on Lipid Metabolism in Estuarine Edible Blood Clam, Anadara rhombea (Born)|J. Environ. Pollut.8(1): 7-11|2001|
99044|T||Funahashi,N., I. Iwasaki, and G. Ide|Effects of Bis (Tri-n-Butyltin) Oxide on Endocrine and Lymphoid Organs of Male Rats|Acta Pathol. Jpn.30(6): 955-966|1980|10.1111/j.1440-1827.1980.tb03283.x
99045|T||Rosenberg,D.W., and A. Kappas|Actions of Orally Administered Organotin Compounds on Heme Metabolism and Cytochrome P-450 Content and Function in Intestinal Epithelium|Biochem. Pharmacol.38(7): 1155-1161|1989|10.1016/0006-2952(89)90262-1
99049|T||Crebelli,R., A. Zijno, L. Conti, B. Crochi, P. Leopardi, F. Marcon, L. Renzi, and A. Carere|Further In Vitro and In Vivo Mutagenicity Assays with Thiram and Ziram Fungicides:  Bacterial Reversion Assays and Mouse Micronucleus Test|Teratog. Carcinog. Mutagen.12(3): 97-112|1992|10.1002/tcm.1770120302
99051|T||De Waal,E.J., L.H.P.M. Rademakers, H.J. Schuurman, H. Van Loveren, and J.G. Vos|Atrophy of the Rat Thymus. Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on the Epithelial Microenvironment Assessed at the Ultrastructural Level:  A Comparison with bis(Tri-n-Butyltin)Oxide|In: B.A.Imhof, S.Berrih-Aknin, and S.Ezine (Eds.), 10th Int.Conf.on Lymphatic Tissues and Germinal Centres in Immune Reactions, Jul.1-5, 1990, Compiegne, France, Lymphatic Tissues and In Vivo Immune Responses, Marcel Dekker Inc., New York:117-121|1991|
99052|A||Watanabe,N., A. Watanabe, C. Ogura, H. Etoh, K. Sakata, K. Okamoto, T. Kimura, and K. Ina|Efficient Screening Method for Antifouling Substances|Biosci. Biotechnol. Biochem.57(10): 1747-1749|1993|10.1271/bbb.57.1747
99053|T||Barthelemy,J., A. Adeeko, B. Robaire, and D.G. Cyr|In Utero Exposure to Tributyltin Alters the Expression of E-Cadherin and Localization of Claudin-1 in Intercellular Junctions of the Rat Ventral Prostate|Mol. Reprod. Dev.74(4): 455-467|2007|10.1002/mrd.20537
99054|A||Toledo,J.V., C.S. Monteiro Da Silva, M.S. Bulhoes, L.A. Paes Leme, J.A. Da Silva Netto, and B. Gilbert|Snail Control in Urban Sites in Brazil with Slow-Release Hexabutyldistannoxane and Pentachlorophenol|Bull. W. H. O.54(4): 421-425|1976|
99055|A||Thomas,T.E., and M.G. Robinson|The Role of Bacteria in the Metal Tolerance of the Fouling Diatom Amphora coffeaeformis Ag.|J. Exp. Mar. Biol. Ecol.107(3): 291-297|1987|10.1016/0022-0981(87)90045-1
99056|A||Nudelman,M.A., C. Carro, and N.S. Nudelman|Effects of Tin(IV) Chloride and of Organotin Compounds on Aquatic Micro-Organisms|Appl. Organomet. Chem.12(1): 67-75|1998|10.1002/(SICI)1099-0739(199801)12:1<67::AID-AOC673>3.0.CO;2-#
99058|T||Villa,P., F. Orecchio, and S. Piersanti|Dithiocarbamate Pollution of Vegetables. Experimental Study|Acta Med. Rom.14(1-2): 97-103|1976|
99059|A||Suzuki,T., N. Takahashi, K. Fukunaga, M. Okamura, T. Tanaka, and K. Takama|Intoxication of Euglena Cells by Tributyltin Chloride and Its Detoxication by Pretreatment with high Electric Field Loaded Water|Environ. Toxicol. Water Qual.8(2): 207-222|1993|10.1002/tox.2530080208
99060|T||Socaciu,C., A. Baba, and O. Rotaru|Histopathologic Investigations of Acute and Subchronic Toxicities of Some Organotin Compounds in Chickens|Vet. Hum. Toxicol.36(6): 535-539|1994|
99062|T||Nakamura,M., K. Naoi, T. Shoji, and T. Hashimoto|Low Concentrations of Propyzamide and Oryzalin Alter Microtubule Dynamics in Arabidopsis Epidermal Cells|Plant Cell Physiol.45(9): 1330-1334|2004|10.1093/pcp/pch300
99064|T||Yang,X., T.G. Owens, B.E. Scheffler, and L.A. Weston|Manipulation of Root Hair Development and Sorgoleone Production in Sorghum Seedlings|J. Chem. Ecol.30(1): 199-213|2004|10.1023/B:JOEC.0000013191.35181.03
99065|T||Nyitrai,P., K. Boka, L. Gaspar, E. Sarvari, and A. Keresztes|Rejuvenation of Ageing Bean Leaves Under the Effect of Low-Dose Stressors|Plant Biol.6(6): 708-714|2004|10.1055/s-2004-830385
99066|T||Yang,J., J. Zhang, Z. Wang, Q. Zhu, and W. Wang|Remobilization of Carbon Reserves in Response to Water Deficit During Grain Filling of Rice|Field Crops Res.71(1): 47-55|2001|10.1016/S0378-4290(01)00147-2
99067|T||Tolra,R.P., C. Poschenrieder, R. Alonso, D. Barcelo, and J. Barcelo|Influence of Zinc Hyperaccumulation on Glucosinolates in Thlaspi caerulescens|New Phytol.151(3): 621-626|2001|10.1046/j.0028-646x.2001.00221.x
99068|AT||Novak,J., and S. Trapp|Growth of Plants on TBT-Contaminated Harbour Sludge and Effect on TBT Removal|Environ. Sci. Pollut. Res.12(6): 332-341|2005|10.1065/espr2005.08.282
99069|T||D'Anjou,B.|Growth Response of Several Vegetation Species to Herbicides and Manual Cutting Treatments in the Vancouver Forest Region|FRDA Rep.No.135, For.Sci., Vancouver For.Reg., Burnaby, BC(14): 13 p.|1990|
99070|T||Blanc,M.P., C. Panighini, F. Gadani, and L. Rossi|Activity of Spinosad on Stored-Tobacco Insects and Persistence on Cured Tobacco Strips|Pest Manag. Sci.60(11): 1091-1098|2004|10.1002/ps.930
99072|T||Chaffei,C., K. Pageau, A. Suzuki, H. Gouia, M.H. Ghorbel, and C. Masclaux-Daubresse|Cadmium Toxicity Induced Changes in Nitrogen Management in Lycopersicon esculentum Leading to a Metabolic Safeguard Through an Amino Acid Storage Strategy|Plant Cell Physiol.45(11): 1681-1693|2004|10.1093/pcp/pch192
99073|A||Kovriznych,J.A., and M. Urbancikova|Acute Toxicity of Selected Chemicals in Adult Zebrafish (Danio rerio) and Its Early Life Stages - The Comparative Study|Biologia (Bratisl.)56(3): 297-302|2001|
99074|T||Geter,D.R., M.H. George, T.M. Moore, S. Kilburn, G. Huggins-Clark, and A.B. DeAngelo|Vehicle and Mode of Administration Effects on the Induction of Aberrant Crypt Foci in the Colons of Male F344/N Rats Exposed to Bromodichloromethane|J. Toxicol. Environ. Health Part A67(1): 23-29|2004|10.1080/15287390490253642
99075|T||Hervieux,V., E.S. Yaganza, J. Arul, and R.J. Tweddell|Effect of Organic and Inorganic Salts on the Development of Helminthosporium solani, the Causal Agent of Potato Silver Scurf|Plant Dis.86(9): 1014-1018|2002|10.1094/PDIS.2002.86.9.1014
99076|T||Carroll,J.F., M. Kramer, P.J. Weldon, and R.G. Robbins|Anointing Chemicals and Ectoparasites:  Effects of Benzoquinones from Millipedes on the Lone Star Tick, Amblyomma americanum|J. Chem. Ecol.31(1): 63-75|2005|10.1007/s10886-005-0974-4
99077|T||Ray,R.V., P. Jenkinson, and S.G. Edwards|Effects of Fungicides on Eyespot, Caused Predominantly by Oculimacula acuformis, and Yield of Early-Drilled Winter Wheat|Crop Prot.23(12): 1199-1207|2004|10.1016/j.cropro.2004.05.003
99078|T||Pollard,A.J., and A.J.M. Baker|Deterrence of Herbivory by Zinc Hyperaccumulation in Thlaspi caerulescens (Brassicaceae)|New Phytol.135(4): 655-658|1997|10.1046/j.1469-8137.1997.00689.x
99079|T||Komolpis,K., P.B. Kaufman, and H.Y. Wang|Chemical Permeabilization and In Situ Removal of Daidzein from Biologically Viable Soybean (Glycine max) Seeds|Biotechnol. Tech.12(9): 697-700|1998|10.1023/A:1008817104926
99080|T||Sadiq,M., M. Jamil, S.M. Mehdi, and G. Shabbir|Machete and Acetochlor Weedicides Effectiveness on Weed Control and Paddy Yield Parameters|Sci. Int.18(3): 239-240|2006|
99081|T||Qin,R., Y. Hirano, and I. Brunner|Exudation of Organic Acid Anions from Poplar Roots After Exposure to Al, Cu and Zn|Tree Physiol.27:313-320|2006|10.1093/treephys/27.2.313
99082|T||Hirano,Y., L. Walthert, and I. Brunner|Callose in Root Apices of European Chestnut Seedlings: A Physiological Indicator of Aluminum Stress|Tree Physiol.26:431-440|2005|10.1093/treephys/26.4.431
99083|T||Chen,Z., Y.G. Zhu, W.J. Liu, and A.A. Meharg|Direct Evidence Showing the Effect of Root Surface Iron Plaque on Arsenite and Arsenate Uptake into Rice (Oryza sativa) Roots|New Phytol.165(1): 91-97|2005|10.1111/j.1469-8137.2004.01241.x
99084|A||Das,P.C., S. Ayyappan, J.K. Jena, and B.K. Das|Effect of Sub-Lethal Nitrite on Selected Haematological Parameters in Fingerling Catla catla (Hamilton)|Aquac. Res.35(9): 874-880|2004|10.1111/j.1365-2109.2004.01079.x
99085|T||Franzen,D.W., J.H. O'Barr, and R.K. Zollinger|Interaction of a Foliar Application of Iron HEDTA and Three Postemergence Broadleaf Herbicides with Soybeans Stressed from Chlorosis|J. Plant Nutr.26(12): 2365-2374|2004|10.1081/PLN-120025465
99087|T||Kohler,E.A., C.S. Throssell, and Z.J. Reicher|Cultural and Chemical Control of Ground Ivy (Glechoma hederacea)|Hortscience39(5): 1148-1152|2004|10.21273/HORTSCI.39.5.1148
99088|T||Kim,Y.B., C. Garbisu, I.J. Pickering, R.C. Prince, G.N. George, M.J. Cho, J.H. Wong, and B.B. Buchanan|Thioredoxin h Overexpressed in Barley Seeds Enhances Selenite Resistance and Uptake During Germination and Early Seedling Development|Planta (Multiple Languages)218(2): 186-191|2003|10.1007/s00425-003-1102-8
99089|T||Lou,L.Q., Z.G. Shen, and X.D. Li|The Copper Tolerance Mechanisms of Elsholtzia haichowensis, a Plant from Copper-Enriched Soils|Environ. Exp. Bot.51(2): 111-120|2004|10.1016/j.envexpbot.2003.08.002
99090|T||Oka,E., Y. Tagami, T. Oohashi, and N. Kondo|A Physiological and Morphological Study on the Injury Caused by Exposure to the Air Pollutant, Peroxyacetyl Nitrate (PAN), Based on the Quantitative Assessment of the Injury|J. Plant Res.117(1): 27-36|2004|10.1007/s10265-003-0127-1
99091|T||Moncalean,P., P. Alonso, M.L. Centeno, M. Cortizo, A. Rodriguez, B. Fernandez, and R.J. Ordas|Organogenic Responses of Pinus pinea Cotyledons to Hormonal Treatments:  BA Metabolism and Cytokinin Content|Tree Physiol.25(1): 1-9|2005|10.1093/treephys/25.1.1
99092|T||Chen,F., F. Wu, J. Dong, E. Vincze, G. Zhang, F. Wang, Y. Huang, and K. Wei|Cadmium Translocation and Accumulation in Developing Barley Grains|Planta (Multiple Languages)227:223-232|2007|10.1007/s00425-007-0610-3
99093|T||Pan,J.W., D. Ye, L.L. Wang, J. Hua, G.F. Zhao, W.H. Pan, N. Han, and M.Y. Zhu|Root Border Cell Development is a Temperature-Insensitive and Al-Sensitive Process in Barley|Plant Cell Physiol.45(6): 751-760|2004|10.1093/pcp/pch090
99094|T||Sobkowiak,R., and J. Deckert|Cadmium-Induced Changes in Growth and Cell Cycle Gene Expression in Suspension-Culture Cells of Soybean|Plant Physiol. Biochem.41(8): 767-772|2003|10.1016/S0981-9428(03)00101-3
99095|T||Pinel,F., E. Leclerc-Cessac, and S. Staunton|Relative Contributions of Soil Chemistry, Plant Physiology and Rhizosphere Induced Changes in Speciation on Ni Accumulation in Plant Shoots|Plant Soil255(2): 619-629|2003|10.1023/A:1026052228609
99096|A||Sarkar,B., A. Chatterjee, S. Adhikari, and S. Ayyappan|Carbofuran- and Cypermethrin-Induced Histopathological Alterations in the Liver of Labeo rohita (Hamilton) and Its Recovery|J. Appl. Ichthyol.21(2): 131-135|2005|10.1111/j.1439-0426.2004.00590.x
99097|T||Wu,H., F. Wu, G. Zhang, and D.M. Bachir|Effect of Cadmium on Uptake and Translocation of Three Microelements in Cotton|J. Plant Nutr.27(11): 2019-2032|2004|10.1081/PLN-200030106
99098|T||Wu,F., and G. Zhang|Alleviation of Cadmium-Toxicity by Application of Zinc and Ascorbic Acid in Barley|J. Plant Nutr.25(12): 2745-2761|2002|10.1081/PLN-120015536
99099|T||Wu,F.B., J. Dong, Q.Q. Qian, and G.P. Zhang|Subcellular Distribution and Chemical Form of Cd and Cd-Zn Interaction in Different Barley Genotypes|Chemosphere60(10): 1437-1446|2005|10.1016/j.chemosphere.2005.01.071
99100|T||Zornoza,P., S. Robles, and N. Martin|Alleviation of Nickel Toxicity by Ammonium Supply to Sunflower Plants|Plant Soil208(2): 221-226|1999|10.1023/A:1004517414730
99101|T||Zhu,Z., G. Wei, J. Li, Q. Qian, and J. Yu|Silicon Alleviates Salt Stress and Increases Antioxidant Enzymes Activity in Leaves of Salt-Stressed Cucumber (Cucumis sativus L.)|Plant Sci.167(3): 527-533|2004|10.1016/j.plantsci.2004.04.020
99102|T||Meinke,P.T., M.M. Smith, and W.L. Shoop|Nodulisporic Acid:  Its Chemistry and Biology|Curr. Top. Med. Chem.2(7): 664-674|2002|10.2174/1568026023393714
99103|A||Ohki,A., S.T. Ohki, K. Koizumi, Y. Sato, H. Kohno, P. Boger, and K. Wakabayashi|Phytotoxicity Caused by Peroxidizing Herbicides is Alleviated by 2-Substituted 4,6-bis(Ethylamino)-1,3,5-Triazines|J. Pestic. Sci. (Multiple Languages)22(4): 309-313|1997|10.1584/jpestics.22.309
99104|A||Peebua,P., P. Kosiyachinda, P. Pokethitiyook, and M. Kruatrachue|Evaluation of Alachlor Herbicide Impacts on Nile Tilapia (Oreochromis niloticus) Using Biochemical Biomarkers|Bull. Environ. Contam. Toxicol.78(2): 138-141|2007|10.1007/s00128-007-9027-8
99105|T||Reifenrath,W.G.|Enhanced Skin Absorption and Fly Toxicity of Permethrin in Emulsion Formulation|Bull. Environ. Contam. Toxicol.78(5): 299-303|2007|10.1007/s00128-007-9159-x
99106|T||Rajasekaran,K., M.B. Hein, and I.K. Vasil|Endogenous Abscisic Acid and Indole-3-Acetic Acid and Somatic Embryogenesis in Cultured Leaf Explants of Pennisetum purpureum Schum.  Effects In Vivo and In Vitro of Glyphosate, Fluridone, and Paclobutrazol|Plant Physiol.84(1): 47-51|1987|10.1104/pp.84.1.47
99107|T||Yao,J., J.P. Zhou, Q.N. Ping, Y. Lu, and L. Chen|Distribution of Nobiletin Chitosan-Based Microemulsions in Brain Following I.V. Injection in Mice|Int. J. Pharmaceut.PRESS:7 p.|2007|
99108|T||Durkut,S., Y.M. Elcin, and A.E. Elcin|Biodegradation of Chitosan-Tripolyphosphate Beads:  In Vitro and In Vivo Studies|Artif. Cells Blood Substit. Immobil. Biotechnol.34(2): 263-276|2006|10.1080/10731190600581866
99109|T||Elcin,Y.M., V. Dixit, and G. Gitnick|Controlled Release of Endothelial Cell Growth Factor from Chitosan-Albumin Microspheres for Localized Angiogenesis:  In Vitro and In Vivo Studies|Artif. Cells Blood Substit. Immobil. Biotechnol.24(3): 257-271|1996|10.3109/10731199609117438
99110|T||Langton,S.J.|Field Corn Tolerance to Acetolactate Synthase Inhibiting Herbicides and Weed Control in Sethoxydim Resistant Field Corn|Ph.D Thesis, University of Wisconsin, Madison, WI:209 p.|1997|
99111|T||Stone,J.D.|Fatty Liver and Metabolism of Xenobiotics in the Rat|Ph.D.Thesis, Univ. of Tennessee, TN:117 p.|1983|
99112|T||Hassawy,G.S.|Effects of Trifluralin and/or Phorate on Cotton Roots|Ph.D Thesis, The University of Arizona:152 p.|1970|
99113|T||Mori,Y., K. Iesato, S. Ueda, T. Mori, I. Iwasaki, K. Ohnishi, Y. Seino, Y. Wakashin, M. Wakashin, and K. Okuda|Renal Tubular Disturbances Induced by Tributyl-Tin Oxide in Guinea Pigs:  A Secondary Fanconi Syndrome|Clin. Nephrol.21(2): 118-125|1984|
99114|A||Springborn Bionomics Inc.|Chronic Toxicity of Tributyltin Fluoride to the Pacific Oyster (Crassostrea gigas Thunberg)|Proj.No.1462.8000, Report No.BP-84-8-66, to M&T Chemicals Co., Rahway, NJ:41 p.|1984|
99115|A||Walker,W.W.|Acute Effect of bis(Tributyltin) Oxide on New Shell Deposition by the Eastern Oyster (Crassostrea virginica) Under Flow-Through Conditions|Contract No.ES-7339-Task 3, Guideline 72-3, Draft Rep.:25 p.|1989|
99116|A||Walker,W.W.|Acute Toxicity of bis(Tributyltin) Oxide to the Sheepshead Minnow (Cyprinodon variegatus) in a Flow-Through System|Contract ES-7339, Task 2A, Guideline 72-3, Final Rep.:94 p.|1989|
99117|A||E.G. and G. Bionomics|Acute Toxicity of Tri-n-Butyltin Oxide to Channel Catfish (Ictalurus punctatus), the Fresh Water Clam (Elliptio complanatus), the Common Mummichog (Fundulus heteroclitus) and the American Oyster (Crassostrea virginica)|EPA Acc.No.136470, Final Rep.to M&T Chem.Co., Rahway, NJ:14 p.|1976|
99118|A||E.G. and G. Bionomics|Toxicity of Tri-n-Butyltin Oxide (TBTO) to Embryos of Eastern Oysters (Crassostrea virginica)|EPA Acc.No.114085, Final Rep.to M&T Chem.Co., Rahway, NJ:9 p.|1977|
99119|T||Chamberlain,W.F.|On the Insecticidal Principle and Timing of Treatment of Stable Fly Larvae with Calcium Cyanamide|Southwest. Entomol.13(4): 235-241|1988|
99120|T||Benitz,K.F., A.W.,Jr. Kramer, and G. Dambach|Comparative Studies on the Morphologic Effects of Calcium Carbimide, Propylthiouracil, and Disulfiram in Male Rats|Toxicol. Appl. Pharmacol.7(1): 128-162|1965|10.1016/0041-008X(65)90084-0
99121|T||Kramer,A.W.,Jr., G. Dambach, and W.A. Pridgen|The Efects of Calcium Carbimide and Thyroid Powder on Thyroid Morphology and Feed Efficiency in Rats|Toxicol. Appl. Pharmacol.11(3): 432-441|1967|10.1016/0041-008X(67)90044-0
99122|T||Murakami,H., S. Tsushima, Y. Kuroyanagi, and Y. Shishido|Reduction of Resting Spore Density of Plasmodiophora brassicae and Clubroot Disease Severity by Liming|Soil Sci. Plant Nutr.48(5): 685-691|2002|10.1080/00380768.2002.10409258
99123|T||Piera,J.P., R. Obach, M.L. Sagrista, and J. Bozal|Inhibition of Rat Hepatic Mitochondrial Aldehyde Dehydrogenase Isozymes by Repeated Cyanamide Administration: Pharmacokinetic-Pharmacodynamic Relationships|Biopharm. Drug Dispos.14(5): 419-428|1993|10.1002/bdd.2510140508
99124|T||Kim,Y.H., Y.B. Roh, K.Y. Kim, H.S. Bom, and J.Y. Kim|Reducing Fetal Contamination of Radiostrontium by Water Soluble Chitosan|Korean J. Biol. Sci.1(2): 337-340|1997|10.1080/12265071.1997.9647375
99125|T||Kimura,Y., N. Sawai, and H. Okuda|Antitumour Activity and Adverse Reactions of Combined Treatment with Chitosan and Doxorubicin in Tumour-Bearing Mice|J. Pharm. Pharmacol.53(10): 1373-1378|2001|10.1211/0022357011777873
99127|T||Santhosh,S., T.K. Sini, R. Anandan, and P.T. Mathew|Hepatoprotective Activity of Chitosan Against Isoniazid and Rifampicin-Induced Toxicity in Experimental Rats|Eur. J. Pharmacol.572(1): 69-73|2007|10.1016/j.ejphar.2007.05.059
99128|T||Cummings,J.L., J.R. Mason, D.L. Otis, J.E.,Jr. Davis, and T.J. Ohashi|Evaluation of Methiocarb, Ziram, and Methyl Anthranilate as Bird Repellents Applied to Dendrobium Orchids|Wildl. Soc. Bull.22(4): 633-638|1994|
99129|T||Vagts,I., M. Kinder, and J. Muller|The Effect of Agrochemicals on the Growth of Cladonia furcata|Lichenologist26(1): 73-82|1994|10.1006/lich.1994.1006
99130|T||Sanchis-Segura,C., M. Miquel, M. Correa, and C.M.G. Aragon|Daily Injections of Cyanamide Enhance Both Ethanol-Induced Locomotion and Brain Catalase Activity|Behav. Pharmacol.10(5): 459-465|1999|10.1097/00008877-199909000-00004
99131|T||Llor,J., and J.J. Vazquez|Effect of Cyanamide on Transaminases and Other Serum Proteins in the Rat|Rev. Esp. Fisiol.45 suppl:49-54|1989|
99132|T||DeMaster,E.G., B. Redfern, F.N. Shirota, and H.T. Nagasawa|Differential Inhibition of Rat Tissue Catalase by Cyanamide|Biochem. Pharmacol.35(13): 2081-2085|1986|10.1016/0006-2952(86)90574-5
99133|T||Eriksson,C.J.P.|Endogenous Acetaldehyde in Rats.  Effects of Exogenous Ethanol, Pyrazole, Cyanamide and Disulfiram|Biochem. Pharmacol.34(22): 3979-3982|1985|10.1016/0006-2952(85)90375-2
99134|T||Niemela,O., S. Parkkila, M. Koll, and V.R. Preedy|Generation of Protein Adducts with Malondialdehyde and Acetaldehyde in Muscles with Predominantly Type I or Type II Fibers in Rats Exposed to Ethanol and the Acetaldehyde Dehydrogenase Inhibitor Cyanamide|Am. J. Clin. Nutr.76(3): 668-674|2002|10.1093/ajcn/76.3.668
99135|T||Buchheim,J.A.T., L.F. Burkhart, and M.M.,Jr. Meyer|Effect of Exogenous Gibberellic Acid, Abscisic Acid, and Benzylaminopurine on Epicotyl Dormancy of Cultured Herbaceous Peony Embryos|Plant Cell Tissue Organ Cult.36(1): 35-43|1994|10.1007/BF00048313
99136|T||Sasseville,D.N.|Pesticide and Nitrogen Interactions and Tomato Nutrition|Ph.D. Thesis, University of Missouri, Columbia, MO:186 p.|1993|
99137|T||Kunstman,J.L.|Effects of Plant Pathogens, Soil Temperature, Photoperiod and Soil Nutrients on the Uptake and Metabolism of (Carbon-14-) Insecticides in Crop Plants|Ph.D Thesis, University of Wisconsin, Madison, WI:167 p.|1981|
99138|T||Anderson,M.A.|Biological and Electrometric Evaluations of Phorate (Thimet) Residues in Treated Plants|Ph.D.Thesis, Iowa State University, Ames, IA:176 p.|1959|
99139|A||Springborn Bionomics Inc.|Effects of Tributyltin Fluoride on Survival, Growth, and Development of Sheepshead Minnow (Cyprinodon variegatus)|Proj.No.1462.8001, Rep.No.BP-84-7-59:6-8|1984|
99140|T||Koyama,N., and K. Kurihara|Modification by Chemical Reagents of Proteins in the Gustatory and Olfactory Organs of the Fleshfly and Cockroach|J. Insect Physiol.17(12): 2435-2440|1971|10.1016/0022-1910(71)90090-4
99141|T||Hayes,B.B., P.C. Gerber, S.S. Griffey, and B.J. Meade|Contact Hypersensitivity to Dicyclohexylcarbodiimide and Diisopropylcarbodiimide in Female B6C3F1 Mice|Drug Chem. Toxicol.21(2): 195-206|1998|10.3109/01480549809011647
99142|T||Pascual,A., and A. Rindlisbacher|N-(Pyrid-3-yl) Thioureas and Derivatives as Acaricides.  I. Synthesis and Biological Properties|Pestic. Sci.42(4): 253-263|1994|10.1002/ps.2780420402
99143|T||Richardson,S.C.W., H.V.J. Kolbe, and R. Duncan|Potential of Low Molecular Mass Chitosan as a DNA Delivery System:  Biocompatibility, Body Distribution and Ability to Complex and Protect DNA|Int. J. Pharm.178(2): 231-243|1999|
99144|T||Obach,V.R., P.J.M. Valles, and F.A. Rives|Cyanamide, Ethanol, and Liver Cell Inclusion Bodies|Lab. Invest.53(1): 116-117|1985|
99145|T||Yang,C.Y., T.W. Oh, D. Nakajima, A. Maeda, T. Naka, C.S. Kim, S. Igawa, and F. Ohta|Effects of Habitual Chitosan Intake on Bone Mass, Bone-Related Metabolic Markers and Duodenum CaBP D9K mRNA in Ovariectomized SHRSP Rats|J. Nutr. Sci. Vitaminol.48(5): 371-378|2002|10.3177/jnsv.48.371
99146|T||Schlaman,H.R.M., A.A. Gisel, N.E.M. Quaedvlieg, G.V. Bloemberg, B.J.J. Lugtenberg, J.W. Kijne, I. Potrykus, H.P. Spaink|Chitin Oligosaccharides can Induce Cortical Cell Division in Roots of Vicia sativa when Delivered by Ballistic Microtargeting|Development124(23): 4887-4895|1997|10.1242/dev.124.23.4887
99147|AT||Viyanant,V., S. Thirachantra, and S. Sornmani|The Effect of Controlled Release Copper Sulphate and Tributyltin Fluoride on the Mortality and Infectivity of Schistosoma mansoni Cercariae|J. Helminthol.56(2): 85-92|1982|10.1017/S0022149X00034271
99148|A||Nagabhushanam,R., P.S. Reddy, and R. Sarojini|Tributyltin Oxide Induced Alterations in Exuvial Weight and Calcium Content of the Prawn, Caridina rajadhari|Proc. Indian Acad. Sci. Anim. Sci.99(5): 397-400|1990|10.1007/BF03191873
99149|T||Pandey,S.Y., H.K. Jain, N.P. Agnihotri, and R.S. Dewan|Persistence of Disulfoton in Soil and Its Residues in Mung (Phaseolus aureus) and Cow Pea (Vigna sinensis)|Indian J. Agric. Chem.9(1-2): 61-66|1976|
99151|T||Holtby,L.B., and S.J. Baillie|Litter-Fall and Detrital Decomposition Rates in a Tributary of Carnation Creek, British Columbia, Over-Sprayed with the Herbicide Roundup (Glyphosate)|FRDA Rep.63:232-249|1989|
99152|T||Holtby,L.B.|Changes in the Temperature Regime of a Valley-Bottom Tributary of Carnation Creek, British Columbia, Over-Sprayed with the Herbicide Roundup (Glyphosate)|FRDA Rep.63:212-223|1989|
99153|T||Singh,R.A., S.N. Gurha, D.P. Misra, and L.L. Gangal|Role of Systemic Insecticides in Augmenting Yields with Reduced Yellow Mosaic Virus Incidence in Mung Bean|Indian J. Plant Prot.8(2): 167-169|1980|
99154|T||Truhaut,R., J.R. Claude, J.M. Warnet, V.N. Huyen, and F. Blanc-Habets|Aramite: Experimental Cancerogenicity and Metabolism|Meded. Fac. Landbouwwet. Rijksuniv. Gent43(2, Pt. 2): 1225-1231|1978|
99155|T||Corbaz,R.|Research on the Control of Blue Mould of Tobacco|Bull. Inform. Coresta(1): 9-19|1962|
99156|T||Pordesimo,A.N., and F.C. Barredo|Effect of Fungicide and Insecticide Sprays on Mango Fruit Setting and Post-Harvest Rots|Philipp. Phytopathol.12(1/2): 51-59|1976|
99157|T||Kumar,C.N., and A. Visalakshi|Residues of Phorate, Disulfoton and Carbofuran Applied by Different Methods of Placements|Proc. Pestic. Environ. Seminar:11-13|1984|
99158|T||Sterk,G., and D.J. Peregrine|The Influence of Application Timing on the Activity of Two Ovolarvicidal Acaricides Against the Fruit Tree Red Spider Mite Panonychus ulmi Koch|Meded. Fac. Landbouwwet. Rijksuniv. Gent54(3, Pt. B): 965-968|1989|
99159|T||Zieve,L., R. Dozeman, D. LaFontaine, and K. Draves|Effect of Hepatic Failure Toxins on Liver Thymidine Kinase Activity and Ornithine Decarboxylase Activity After Massive Necrosis with Acetaminophen in the Rat|J. Lab. Clin. Med.106(5): 583-588|1985|
99160|T||Akashe,V.B., D.V. Indi, A.J. Patil, M.A. Gud, V.Y. Kankal, and S.M. Ghadge|Residues of Miticides in Rose Flowers|J. Maharashtra Agric. Univ.31(3): 375-377|2006|
99161|T||Kandasamy,D., T. Marimuthu, G. Oblisami, K. Rajukkannu, and R. Raghuraj|A Correlation Between the Dissipation of Insecticides and Rhizosphere Microflora of Abelmoschus esculentus (L.) Moench|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.132(4): 340-344|1977|10.1016/S0044-4057(77)80024-5
99162|T||Oomen,P.A., G. Romeijn, and G.L. Wiegers|Side-Effects of 100 Pesticides on the Predatory Mite Phytoseiulus persimilis, Collected and Evaluated According to the EPPO Guideline|Bull. OEPP/EPPO21(4): 701-712|1991|10.1111/j.1365-2338.1991.tb01304.x
99163|T||Van Steekelenburg,N.A.M.|Factors Influencing the Occurrence of Stem Lesions on Tomato Caused by Didymella lycopersici and Chemical Control of the Disease|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(2, Pt. B): 651-656|1988|
99164|T||Paternotte,S.J.|Occurrence and Chemical Control of Powdery Mildew (Oidium sp.) in Tomatoes|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(2, Pt. B): 657-661|1988|
99165|T||Sugita,T., H. Ishiwata, and A. Maekawa|Intestinal Absorption and Urinary Excretion of Melamine in Male Wistar Rats|Shokuhin Eiseigaku Zasshi (Multiple Languages)32(5): 439-443|1991|10.3358/shokueishi.32.439
99166|T||Rajakannu,K., K.A. Ali, R. Raguraj, S. Thirumurthi, T.R. Subramaniam, and K.K. Krishnamoorthy|Estimation of Disulfoton Residues in Bhendi Fruits by Chemical and Bioassay Methods and Dissipation of Disulfoton in Soil|Madras Agric. J.60(7): 534-536|1973|
99167|T||Smitley,D.R., T.W. Davis, K.A. Kearns, and C.M. Papp|Greenhouse Whitefly Control on Marigolds, Michigan, 1991|Insectic. Acaric. Tests17:348-|1992|10.1093/iat/17.1.348
99168|T||Gyrd-Hansen,N., L. Brimer, and F. Rasmussen|Percutaneous Absorption of Organophosphorus Insecticides in Pigs - the Influence of Different Vehicles|J. Vet. Pharmacol. Ther.16(2): 174-180|1993|10.1111/j.1365-2885.1993.tb00161.x
99170|T||Van de Veire,M.|Chemical Control of the Cecid, Heteropeza pygmaea in the Culture of the Oyster Mushroom Pleurotus ostreatus|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(2b): 681-683|1990|
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99173|T||Hosoki,T.|Drastic Changes of Endogenous Phytohormones in Dormant Gladiolus Corms Treated with Methyl Disulfide|Hortscience30(6): 1251-1252|1995|10.21273/HORTSCI.30.6.1251
99174|T||El-Kadi,M., M. Zaki, M. Abo-Elghar, and A. Shaaban|Effect of Seed Coating with Phorate and Disyston on the Growth and Mineral Contents of Cotton Seedlings|Ann. Agric. Sci.9(2): 45-62|1964|
99176|T||Hsu,Y.T., and C.H. Kao|Abscisic Acid Accumulation and Cadmium Tolerance in Rice Seedlings|Physiol. Plant. (Multiple Languages)124(1): 71-80|2005|10.1111/j.1399-3054.2005.00490.x
99177|A||Bakthavathsalam,R., and Y.S. Reddy|Glycogen Metabolism During Disyston Exposure in Anabas testudineus (Bloch)|Indian J. Environ. Health27(2): 159-164|1985|
99178|T||Zieve,L., W.R. Anderson, and D. LaFontaine|Hepatic Failure Toxins Depress Liver Regenerative Enzymes After Periportal Injury with Allyl Alcohol in the Rat|J. Lab. Clin. Med.111(6): 725-730|1988|
99180|A||Lavado,R., A. Barbaglio, M.D.C. Carnevali, and C. Porte|Steroid Levels in Crinoid Echinoderms are Altered by Exposure to Model Endocrine Disruptors|Steroids71(6): 489-497|2006|10.1016/j.steroids.2006.01.009
99181|A||Janer,G., A. Lyssimachou, J. Bachmann, J. Oehlmann, U. Schulte-Oehlmann, and C. Porte|Sexual Dimorphism in Esterified Steroid Levels in the Gastropod Marisa cornuarietis:  The Effect of Xenoandrogenic Compounds|Steroids71(6): 435-444|2006|10.1016/j.steroids.2006.01.012
99182|T||Larsen,F.E., and S.S. Higgins|Abscisic Acid as a Potential Deciduous Fruit Tree Nursery Stock Defoliant|HortTechnology8(1): 47-51|1998|10.21273/HORTTECH.8.1.47
99183|T||Shi,W.B., Y. Jiang, and M.G. Feng|Compatibility of Ten Acaricides with Beauveria bassiana and Enhancement of Fungal Infection to Tetranychus cinnabarinus (Acari: Tetranychidae) Eggs by Sublethal Application Rates of Pyridaben|Appl. Entomol. Zool.40(4): 659-666|2005|10.1303/aez.2005.659
99184|T||Hirano,S., and Y. Noishiki|The Blood Compatibility of Chitosan and N-Acylchitosans|J. Biomed. Mater. Res.19(4): 413-417|1985|10.1002/jbm.820190406
99185|T||Chellat,F., M. Tabrizian, S. Dumitriu, E. Chornet, P. Magny, C.H. Rivard, and L. Yahia|In Vitro and In Vivo Biocompatibility of Chitosan-Xanthan Polyionic Complex|J. Biomed. Mater. Res.51(1): 107-116|2000|10.1002/(SICI)1097-4636(200007)51:1<107::AID-JBM14>3.0.CO;2-F
99186|T||Meshali,M.M., E.Z. El-Dien, S.A. Omar, and L.A. Luzzi|A New Approach to Encapsulating Nonsteroidal Anti-Inflammatory Drugs.  IV.  Effect of Cellulose Derivatives with Different Functional Groups on the Bioavailability and Gastric Ulcerogenic Activity of Acidic as well as B|J. Microencapsul.6(3): 355-360|1989|10.3109/02652048909019917
99187|T||Tokura,S., and H. Tamura|O-Carboxymethyl-Chitin Concentration in Granulocytes During Bone Repair|Biomacromolecules2(2): 417-421|2001|10.1021/bm0001345
99188|T||Suett,D.L.|Persistence and Degradation of Chlorfenvinphos, Diazinon, Fonofos and Phorate in Soils and Their Uptake by Carrots|Pestic. Sci.2:105-112|1971|10.1002/ps.2780020304
99189|A||Gangawane,L.V.|Tolerance of Thimet by Nitrogen Fixing Blue-Green Algae|Pesticides 13:33-34|1979|
99195|T||Yamaki,K., S. Taneda, R. Yanagisawa, K. Inoue, H. Takano, and S. Yoshino|Enhancement of Allergic Responses In Vivo and In Vitro by Butylated Hydroxytoluene|Toxicol. Appl. Pharmacol.223(2): 164-172|2007|10.1016/j.taap.2007.05.007
99196|T||Yamamoto,Y., R. Moore, H.A. Hess, G.L. Guo, F.J. Gonzalez, K.S. Korach, R.R. Maronpot, and M. Negishi|Estrogen Receptor alpha Mediates 17alpha-Ethynylestradiol Causing Hepatotoxicity|J. Biol. Chem.281(24): 16625-16631|2006|10.1074/jbc.M602723200
99197|A||Zirong,X., and B. Shijun|Effects of Waterborne Cd Exposure on Glutathione Metabolism in Nile Tilapia (Oreochromis niloticus) Liver|Ecotoxicol. Environ. Saf.67(1): 89-94|2007|10.1016/j.ecoenv.2006.04.006
99198|T||Zumbado,M., L.D. Boada, S. Torres, J.G. Monterde, B.N. Diaz-Chico, J.L. Afonso, J.J. Cabrera, and A. Blanco|Evaluation of Acute Hepatotoxic Effects Exerted by Environmental Estrogens Nonylphenol and 4-Octylphenol in Immature Male Rats|Toxicology175(1-3): 49-62|2002|10.1016/S0300-483X(02)00046-X
99199|T||Yamada,H., N. Gohyama, S.I. Honda, T. Hara, N. Harada, and K. Oguri|Estrogen-Dependent Regulation of the Expression of Hepatic Cyp2b and 3a Isoforms:  Assessment Using Aromatase-Deficient Mice|Toxicol. Appl. Pharmacol.180(1): 1-10|2002|10.1006/taap.2002.9366
99200|A||Whitehead,C., and J.A. Brown|Endocrine Responses of Brown Trout, Salmo trutta L., to Acid, Aluminum, and Lime Dosing in a Welsh Hill Stream|J. Fish Biol.35:59-71|1989|10.1111/j.1095-8649.1989.tb03393.x
99201|T||Wentzel,P., and U.J. Eriksson|Ethanol-Induced Fetal Dysmorphogenesis in the Mouse is Diminished by High Antioxidative Capacity of the Mother|Toxicol. Sci.92(2): 416-422|2006|10.1093/toxsci/kfl024
99202|T||Webb,J.D., and F.W. Knapp|Efficacy of Insecticide Ear Tags on Cattle in Central Kentucky, 1994|Arthropod Manag. Tests20:323-324|1995|10.1093/amt/20.1.323
99203|T||Walgenbach,J.F., and C.R. Palmer|European Red Mite Control on Apples, 1998|Arthropod Manag. Tests24:44-45|1999|
99205|T||Villani,P., E. Cordelli, P. Leopardi, E. Siniscalchi, E. Veschetti, A.M. Fresegna, and R. Crebelli|Evaluation of Genotoxicity of Oral Exposure to Tetravalent Vanadium In Vivo|Toxicol. Lett.170(1): 11-18|2007|10.1016/j.toxlet.2006.07.343
99206|T||Vickers,A.E.M., and G.W. Lucier|Estrogen Receptor Levels and Occupancy in Hepatic Sinusoidal Endothelial and Kupffer Cells are Enhanced by Initiation with Diethylnitrosamine and Promotion with 17alpha-Ethinylestradiol in Rats|Carcinogenesis17(6): 1235-1242|1996|10.1093/carcin/17.6.1235
99207|A||Vega-Lopez,A., E. Ramon-Gallegos, M. Galar-Martinez, F.A. Jimenez-Orozco, E. Garcia-Latorre, and M.L. Dominguez-Lopez|Estrogenic, Anti-Estrogenic and Cytotoxic Effects Elicited by Water from the Type Localities of the Endangered Goodeid Fish Girardinichthys viviparus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 394-403|2007|10.1016/j.cbpc.2007.01.008
99208|T||Van Meeuwen,J.A., M. Van den Berg, J.T. Sanderson, A. Verhoef, and A.H. Piersma|Estrogenic Effects of Mixtures of Phyto- and Synthetic Chemicals on Uterine Growth of Prepubertal Rats|Toxicol. Lett.170(2): 165-176|2007|10.1016/j.toxlet.2007.03.003
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99210|A||Teles,M., M. Oliveira, M. Pacheco, and M.A. Santos|Endocrine and Metabolic Changes in Anguilla anguilla L. Following Exposure to beta-Naphthoflavone -- a Microsomal Enzyme Inducer|Environ. Int.31(1): 99-104|2005|10.1016/j.envint.2004.07.003
99211|T||Truscott,R.B.|Endotoxin Studies in Chicks:  Effect of Lead Acetate|Can. J. Comp. Med.34:134-137|1970|
99212|T||Story,R.N., and A.M. Hammond|Efficacy of Foliar Applied Insecticides for Control of Banded Cucumber Beetle and June Beetles on Sweet Potato, 1998|Arthropod Manag. Tests24:176-|1999|
99213|A||Stanley,J.K., A.J. Ramirez, M. Mottaleb, C.K. Chambliss, and B.W. Brooks|Enantiospecific Toxicity of the beta-Blocker Propranolol to Daphnia magna and Pimephales promelas|Environ. Toxicol. Chem.25(7): 1780-1786|2006|10.1897/05-298R1.1
99214|A||Stanley,J.K., A.J. Ramirez, C.K. Chambliss, and B.W. Brooks|Enantiospecific Sublethal Effects of the Antidepressant Fluoxetine to a Model Aquatic Vertebrate and Invertebrate|Chemosphere69(1): 9-16|2007|10.1016/j.chemosphere.2007.04.080
99215|T||Sharpe,R.R., C.C. Reilly, A.P. Nyczepir, and W.R. Okie|Establishment of Peach in a Replant Site as Affected by Soil Fumigation, Rootstock, and Pruning Date|Plant Dis.73(5): 412-415|1989|10.1094/PD-73-0412
99216|T||Schlumpf,M., H. Jarry, W. Wuttke, R. Ma, and W. Lichtensteiger|Estrogenic Activity and Estrogen Receptor beta Binding of the UV Filter 3-Benzylidene Camphor. Comparison with 4-Methylbenzylidene Camphor|Toxicology199(2-3): 109-120|2004|10.1016/j.tox.2004.02.015
99217|T||Schuster,D.J., M.J. Brewer, B. Alvarado-Rodriguez, K.A. Sorensen, and J.T. Trumble|Estimating Resistance to Methomyl in the Tomato Pinworm (Lepidoptera:  Gelechiidae) Using a Pheromone Trap Bioassay|Crop Prot.15(3): 283-287|1996|10.1016/0261-2194(95)00140-9
99218|A||Schulz,R.W., J. Bogerd, R. Male, J. Ball, M. Fenske, L.C. Olsen, and C.R. Tyler|Estrogen-Induced Alterations in amh and dmrt1 Expression Signal for Disruption in Male Sexual Development in the Zebrafish|Environ. Sci. Technol.41(17): 6305-6310|2007|10.1021/es070785+
99219|T||Seike,N., H. Wanibuchi, K. Morimura, M. Wei, T. Nishikawa, K. Hirata, J. Yoshikawa, and S. Fukushima|Enhancement of Lung Carcinogenesis by Nonylphenol and Genistein in a F344 Rat Multiorgan Carcinogenesis Model|Cancer Lett.192(1): 25-36|2003|10.1016/S0304-3835(02)00684-5
99220|T||Rosa,J.G.V., B. Prokopczyk, D.H. Desai, S.G. Amin, and K. El-Bayoumy|Elevated 8-Hydroxy-2'-Deoxyguanosine Levels in Lung DNA of A/J Mice and F344 Rats Treated with 4-(Methylnitrosamino)-1-(3-Pyridyl)-1-Butanone and Inhibition by Dietary 1,4-Phenylenebis(Methylene)Selenocyanate|Carcinogenesis19(10): 1783-1788|1998|10.1093/carcin/19.10.1783
99221|T||Santos,F.W., G. Zeni, J.B.T. Rocha, P.C. Do Nascimento, M.S. Marques, and C.W. Nogueira|Efficacy of 2,3-Dimercapto-1-Propanesulfonic Acid (DMPS) and Diphenyl Diselenide on Cadmium Induced Testicular Damage in Mice|Food Chem. Toxicol.43(12): 1723-1730|2005|10.1016/j.fct.2005.05.015
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99224|T||Yoshizuka,M., K. Hara, Y. Doi, N. Mori, M. Yokoyama, E. Ono, and S. Fujimoto|The Toxic Effects of Bis (Tributyltin) Oxide on the Rat Thoracic Aorta|Histol. Histopathol.7(3): 445-449|1992|
99225|A||Shah,D.S.M., S.V.S.A. Hameed, S. Raveendran, and A. Amsath|TBTO Induced Alterations in the Histomorphology of Digestive Gland of Clam Mactra violacea|J. Ecotoxicol. Environ. Monit.13(3): 219-226|2003|
99226|T||Tantawi,A.M., and A.L. Isa|Effect of Calcium Cyanamide on the Overwintering Larvae of the Rice Stem Borer Chilo agamemnon Bles., in Rice Stubbles|Bull. Entomol. Soc. Egypt12:83-86|1984|
99227|A||Berrios-Duran,L.A., and L.S. Ritchie|Molluscicidal Activity of bis(Tri-n-Butyltin) Oxide Formulated in Rubber|Bull. W. H. O.39:310-312|1968|
99228|AT||Gambetta,A., E. Orlandi, C.R. Cramer, D. Maier, and H.P. Tscholl|Organotin Compounds as Wood Preservatives in Ground Contact and Sea Water - a Long-Term Study|Mater. Org.23(1): 61-80|1988|
99229|T||Hacskaylo,J., D.A. Lindquist, T.B. Davich, and H.L. Morton|Accumulation of Phorate by Cotton Plants from Solution and Sand Culture|Bot. Gaz.123(1): 46-50|1961|10.1086/336128
99230|T||Ameen,A., W. Kaakeh, and G. Bennett|Integration of Chlorfenapyr Into a Management Program for the German Cockroach (Dictyoptera:  Blattellidae)|J. Agric. Urban Entomol.17(3): 135-142|2000|
99231|A||E.G. and G. Bionomics|Acute Toxicity of BioMet 204 Red to Mysid Shrimp (Mysidopsis bahia)|Project Number L89, Rep.BP-81-2-15:2 p.|1981|
99232|T||Hoover,D.J., and J.F. Brien|Acetaldehyde Concentration in Rat Blood and Brain During the Calcium Carbimide - Ethanol Interaction|Can. J. Physiol. Pharmacol.59(1): 65-70|1981|10.1139/y81-011
99233|T||Kadir,H.A., and C.O. Knowles|Toxicological Studies of the Thiourea Diafenthiuron in Diamondback Moths (Lepidoptera: Yponomeutidae), Twospotted Spider Mites (Acari: Tetranychidae), and Bulb Mites (Acari: Acaridae)|J. Econ. Entomol.84(3): 780-784|1991|10.1093/jee/84.3.780
99234|T||Wang,W.Y., W.S. Chen, W.H. Chen, L.S. Hung, and P.S. Chang|Influence of Abscisic Acid on Flowering in Phalaenopsis hybrida|Plant Physiol. Biochem.40(1): 97-100|2002|10.1016/S0981-9428(01)01339-0
99235|T||Stringer,C.P., R. Hicks, and P.A. Botham|Contact Sensitivity (Allergic Contact Dermatitis) to Bis(Tri-N-Butyltin) Oxide in Mice|Contact Dermatitis24(3): 210-215|1991|10.1111/j.1600-0536.1991.tb01700.x
99236|T||Guta-Socaciu,C., R. Giurgea, and C. Rosioru|Modifications in Thymus and Bursa fabricii, Induced by N-Butiltin Pesticides Treatment in Chickens|Agressologie27(2): 123-125|1986|
99237|T||Faqi,A.S., H. Schweinfurth, and I. Chahoud|Determination of the No-Effect Dose of bis(Tri-n-Butyltin)Oxide (TBTO) for Maternal Toxicity and Teratogenicity in Mice|Congenital Anom.37(3): 251-258|1997|10.1111/j.1741-4520.1997.tb00550.x
99238|T||Valles,J., R. Obach, A. Menargues, J.M. Valles, and A. Rives|A Two-Generation Reproduction-Fertility Study of Cyanamide in the Rat|Pharmacol. Toxicol.61(1): 20-25|1987|10.1111/j.1600-0773.1987.tb01766.x
99239|T||Gilani,S., and T.V.N. Persaud|Embryonic Development in the Chick Following Exposure to Ethanol, Acetaldehyde and Cyanamide|Ann. Anat.174(4): 305-308|1992|10.1016/S0940-9602(11)80289-X
99240|A||Alkhail,A.R.A.A., A.I. Askar, L.K. Younis, K.S. El-Gendy, M.M. Abbas, and A.S.M. Marei|Risk Assessment of Tributyltin Oxide in Aquatic Environment:  A. Toxicity and Sublethal Effects on Brain AChE and Gill ATPases Activity of Tilapia Fish, Oreochromis niloticus|Pak. J. Biol. Sci.7(7): 1117-1120|2004|10.3923/pjbs.2004.1117.1120
99241|T||Hara,K., M. Yoshizuka, Y. Doi, and S. Fujimoto|Effect of bis (Tributyl Tin) Oxide on Permeability of the Blood-Brain Barrier:  A Transient Increase|Occup. Environ. Med.51(11): 735-738|1994|10.1136/oem.51.11.735
99242|T||Pronko,P., S. Zimatkin, and A. Kuzmich|Effect of Aldehyde Dehydrogenase and Alcohol Dehydrogenase Inhibitors and Ethanol on Blood and Liver Ketone Bodies in the Rat|Pol. J. Pharmacol.46(5): 445-449|1994|
99243|T||Kumar,R., S.K. Singh, K.S. Khokhar, and M.S. Jaglan|Effect of Insecticidal Seed Treatments on the Germination and Vigour of Okra Seeds|Seed Res.24(1): 73-74|1996|
99244|T||Rosenberg,D.W., K.E. Anderson, and A. Kappas|The Potent Induction of Intestinal Heme Oxygenase by the Organotin Compound, Bis(Tri-N-Butyltin)Oxide|Biochem. Biophys. Res. Commun.119(3): 1022-1027|1984|10.1016/0006-291X(84)90876-3
99245|T||Penttila,K.E., J. Makinen, and K.O. Lindros|Allyl Alcohol Liver Injury:  Suppression by Ethanol and Relation to Transient Glutathione Depletion|Pharmacol. Toxicol.60(5): 340-344|1987|10.1111/j.1600-0773.1987.tb01523.x
99246|T||Robens,J.F.|Carcinogenicity Studies of Selected Herbicides|Vet. Hum. Toxicol.22(5): 328-334|1980|
99247|A||Arredondo,L.A., K.V. Brix, and R.D. Cardwell|Chronic Toxicity of bis(Tributyltin) Oxide to the Early Life-Stages of Oncorhynchus mykiss|Parametrix Inc.:47 p.|1996|
99249|T||Wu,W.S.|Control of Sclerotinia Rot of Sunflower and Chrysanthemum|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))33(1): 45-55|1991|
99250|T||Verdam,B., M. Gerlagh, and H.M. Van de Geijn|Biological Control of Sclerotinia sclerotiorum in Caraway (Carum carvi)|Meded. Fac. Landbouwwet. Univ. Gent58(3b): 1343-1347|1993|
99251|T||Kato,Y., H. Onishi, and Y. Machida|Biological Fate of Highly-Succinylated N-Succinyl-Chitosan and Antitumor Characteristics of Its Water-Soluble Conjugate with Mitomycin C at I.V. and I.P. Administration into Tumor-Bearing Mice|Biol. Pharm. Bull.23(12): 1497-1503|2000|10.1248/bpb.23.1497
99252|T||Fujita,M., M. Sano, K. Yoshino, and I. Tomita|Effects of Aldehyde Dehydrogenase and Glutathione on the Degradation of (E)-4-Hydroxy-2-nal and N-Hexanal in Rat Liver|Biochem. Mol. Biol. Int.32(3): 429-434|1994|
99253|T||Obach,R., A. Rives, J.M. Valles, A. Menargues, J. Prunonosa, and J. Valles|Lack of Hepatotoxicity After Long-Term Administration of Cyanamide in Rats:  A Histological and Biochemical Study|Acta Pharmacol. Toxicol.57(4): 279-284|1985|10.1111/j.1600-0773.1985.tb00043.x
99254|A||E.G. and G. Bionomics|Comparative Toxicity of Tri-n-Butyltin Oxide (TBTO) Produced by Two Different Chemical Processes to the Marine Alga Skeletonema costatum|Project Number R11, Rep.BP-81-6-109:19 p.|1981|
99255|A||E.G. and G. Bionomics|Comparative Toxicity of Tri-n-Butyltin Oxide (TBTO) Produced by Two Different Chemical Processes to Pink Shrimp (Penaeus duorarum)|Project Number R11, Rep.BP-81-4-55:2 p.|1981|
99256|A||E.G. and G. Bionomics|Acute Toxicity of Three Samples of TBTO (Tributyltin Oxide) to Juvenile Sheepshead Minnows (Cyprinodon variegatus)|Project Number L14-500, Rep.Number BP-79-9-151:2 p.|1979|
99257|T||Chamberlain,W.F., and J.J. Matter|Control of Stable Flies (Diptera: Muscidae) with a Unique Nitrogen Fertilizer, Calcium Cyanamide|J. Econ. Entomol.79(6): 1573-1576|1986|10.1093/jee/79.6.1573
99258|T||Rikans,L.E.|The Oxidation of Acrolein by Rat Liver Aldehyde Dehydrogenases.  Relation to Allyl Alcohol Hepatotoxicity|Drug Metab. Dispos.15(3): 356-362|1987|
99259|T||Obach,R., A. Menargues, J. Valles, J.M. Valles, and J.A. Garcia-Sevilla|Effects of Cyanamide on Body Weight and Brain Monoamines and Metabolites in Rats|Eur. J. Pharmacol.127(3): 225-231|1986|10.1016/0014-2999(86)90368-7
99260|T||Ostrovskii,S.Y.|Mechanism of Hepatotoxicity of Teturam and Cyanamide|Pharm. Chem. J.22(8): 597-599|1989|10.1007/BF00763622
99261|T||Fox,R.B., R.N. Harada, R.M. Tate, and J.E. Repine|Prevention of Thiourea-Induced Pulmonary Edema by Hydroxyl-Radical Scavengers|J. Appl. Physiol.55(5): 1456-1459|1983|10.1152/jappl.1983.55.5.1456
99262|A||Zhang,X., H. Sun, Z. Zhang, Q. Niu, Y. Chen, and J.C. Crittenden|Enhanced Bioaccumulation of Cadmium in Carp in the Presence of Titanium Dioxide Nanoparticles|Chemosphere67:160-166|2007|10.1016/j.chemosphere.2006.09.003
99263|A||Federici,G., B.J. Shaw, and R.D. Handy|Toxicity of Titanium Dioxide Nanoparticles to Rainbow Trout (Oncorhynchus mykiss):  Gill Injury, Oxidative Stress, and Other Physiological Effects|Aquat. Toxicol.84(4): 415-430|2007|10.1016/j.aquatox.2007.07.009
99264|A||Pan,G., H. Zou, H. Chen, and X. Yuan|Removal of Harmful Cyanobacterial Blooms in Taihu Lake Using Local Soils. III.  Factors Affecting the Removal Efficiency and an In Situ Field Experiment Using Chitosan-Modified Local Soils|Environ. Pollut.141(2): 206-212|2006|10.1016/j.envpol.2005.08.047
99265|T||Wallstrom,S., E. Stromberg, and S. Karlsson|Microbiological Growth Testing of Polymeric Materials:  An Evaluation of New Methods|Polym. Test.24(5): 557-563|2005|10.1016/j.polymertesting.2005.02.005
99266|T||Desai,S., C. Narayanaiah, C.K. Kumari, M.S. Reddy, S.S. Gnanamanickam, G.R. Rao, and B. Venkateswarlu|Seed Inoculation with Bacillus spp. Improves Seedling Vigour in Oil-Seed Plant Jatropha curcas L.|Biol. Fertil. Soils44(1): 229-234|2007|10.1007/s00374-007-0209-7
99267|A||Gopalakannan,A., and V. Arul|Immunomodulatory Effects of Dietary Intake of Chitin, Chitosan and Levamisole on the Immune System of Cyprinus carpio and Control of Aeromonas hydrophila Infection in Ponds|Aquaculture255(1-4): 179-187|2006|10.1016/j.aquaculture.2006.01.012
99268|T||Ikeda,I., M. Sugano, K. Yoshida, E. Sasaki, Y. Iwamoto, and K. Hatano|Effects of Chitosan Hydrolysates on Lipid Absorption and on Serum and Liver Lipid Concentration in Rats|J. Agric. Food Chem.41(3): 431-435|1993|10.1021/jf00027a016
99269|T||Lee,K.Y., M. Shibutani, H. Takagi, T. Arimura, S. Takigami, C. Uneyama, N. Kato, and M. Hirose|Subchronic Toxicity Study of Dietary N-Acetylglucosamine in F344 Rats|Food Chem. Toxicol.42(4): 687-695|2004|10.1016/j.fct.2003.12.005
99270|A||Mosleh,Y.Y., S. Paris-Palacios, M.T. Ahmed, F.M. Mahmoud, M.A. Osman, and S. Biagianti-Risbourg|Effects of Chitosan on Oxidative Stress and Metallothioneins in Aquatic Worm Tubifex tubifex (Oligochaeta, Tubificidae)|Chemosphere67(1): 167-175|2007|10.1016/j.chemosphere.2006.09.019
99271|A||Powell,A., and A.F. Rowley|The Effect of Dietary Chitin Supplementation on the Survival and Immune Reactivity of the Shore Crab, Carcinus maenas|Comp. Biochem. Physiol. A Mol. Integr. Physiol.147(1): 122-128|2007|10.1016/j.cbpa.2006.12.027
99272|T||Qin,C., J. Gao, L. Wang, L. Zeng, and Y. Liu|Safety Evaluation of Short-Term Exposure to Chitooligomers from Enzymic Preparation|Food Chem. Toxicol.44(6): 855-861|2006|10.1016/j.fct.2005.11.009
99273|T||Santhosh,S., T.K. Sini, R. Anandan, and P.T. Mathew|Effect of Chitosan Supplementation on Antitubercular Drugs-Induced Hepatotoxicity in Rats|Toxicology219(1-3): 53-59|2006|10.1016/j.tox.2005.11.001
99274|T||Shibata,Y., L.A. Foster, W.J. Metzger, and Q.N. Myrvik|Alveolar Macrophage Priming by Intravenous Administration of Chitin Particles, Polymers of N-Acetyl-D-Glucosamine, in Mice|Infect. Immun.65(5): 1734-1741|1997|10.1128/iai.65.5.1734-1741.1997
99275|T||Tago,K., Y. Naito, T. Nagata, T. Morimura, M. Furuya, T. Seki, H. Kato, and N. Ohara|A Ninety-Day Feeding, Subchronic Toxicity Study of Oligo-N-Acetylglucosamine in Fischer 344 Rats|Food Chem. Toxicol.45(7): 1186-1193|2007|10.1016/j.fct.2006.12.027
99276|T||Torzsas,T.L., C.W.C. Kendall, M. Sugano, Y. Iwamoto, and A.V. Rao|The Influence of High and Low Molecular Weight Chitosan on Colonic Cell Proliferation and Aberrant Crypt foci Development in CF1 Mice|Food Chem. Toxicol.34(1): 73-77|1996|10.1016/0278-6915(95)00083-6
99277|T||Woo,G.H., M. Shibutani, K. Kuroiwa, K.Y. Lee, M. Takahashi, K. Inoue, H. Fujimoto, and M. Hirose|Lack of Preventive Effects of Dietary Fibers or Chlorophyllin Against Acrylamide Toxicity in Rats|Food Chem. Toxicol.45(8): 1507-1515|2007|10.1016/j.fct.2007.02.010
99278|T||Cloyd,R.A., and N.L. Cycholl|Phytotoxicity of Selected Insecticides on Greenhouse-Grown Herbs|Hortscience37(4): 671-672|2002|10.21273/HORTSCI.37.4.671
99279|T||Grace,J.K.|Response of Eastern and Formosan Subterranean Termites (Isoptera:  Rhinotermitidae) to Borate Dust and Soil Treatments|J. Econ. Entomol.84(6): 1753-1757|1991|10.1093/jee/84.6.1753
99280|T||Tsunoda,K., H. Watanabe, K. Fukuda, and K. Hagio|Effects of Zinc Borate on the Properties of Medium Density Fiberboard|For. Prod. J.52(11-12): 62-65|2002|
99281|T||Sean,T., G. Brunette, and F. Cote|Protection of Oriented Strandboard with Borate|For. Prod. J.49(6): 47-51|1999|
99282|T||Seong,S.K., J.M. Ryu, D.H. Shin, E.J. Bae, A. Shigematsu, Y. Hatori, J. Nishigaki, C. Kwak, S.E. Lee, and K.B. Park|Biodistribution and Excretion of Radioactivity After the Administration of 166Ho-Chitosan Complex (DW-166HC) into the Prostate of Rat|Eur. J. Nucl. Med. Mol. Imaging32(8): 910-917|2005|
99283|T||Renbutsu,E., M. Hirose, Y. Omura, F. Nakatsubo, Y. Okamura, Y. Okamoto, H. Saimoto, Y. Shigemasa, and S. Minami|Preparation and Biocompatibility of Novel UV-Curable Chitosan Derivatives|Biomacromolecules6(5): 2385-2388|2005|10.1021/bm0500796
99284|T||Kofuji,K., T. Ito, Y. Murata, and S. Kawashima|Effect of Chondroitin Sulfate on the Biodegradation and Drug Release of Chitosan Gel Beads in Subcutaneous Air Pouches of Mice|Biol. Pharm. Bull.25(2): 268-271|2002|10.1248/bpb.25.268
99285|T||Kofuji,K., T. Ito, Y. Murata, and S. Kawashima|Biodegradation and Drug Release of Chitosan Gel Beads in Subcutaneous Air Pouches of Mice|Biol. Pharm. Bull.24(2): 205-208|2001|10.1248/bpb.24.205
99286|T||Lindquist,D.A., J. Hacskaylo, and T.B. Davich|Absorption and Translocation of Phorate and Phosphorus by Cotton Seedlings|Bot. Gaz.123:137-140|1960|10.1086/336139
99287|T||Van Loveren,H., H.J. Schuurman, J. Kampinga, and J.G. Vos|Reversibility of Thymic Atrophy Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) and Bis(Tri-n-Butyltin) Oxide (TBTO)|Int. J. Immunopharmacol.13(4): 369-377|1991|10.1016/0192-0561(91)90006-S
99288|T||Doyle,O.P.E., and K.J. Clancy|Glasshouse Evaluation of Fungicides for Control of Clubroot|Tests Agrochem. Cultiv.7:50-51|1986|
99289|T||Rabea,E.I., M. El Badawy, T.M. Rogge, C.V. Stevens, M. Hofte, W. Steurbaut, and G. Smagghe|Insecticidal and Fungicidal Activity of New Synthesized Chitosan Derivatives|Pest Manag. Sci.61(10): 951-960|2005|10.1002/ps.1085
99290|T||Badawy,M.E.I., E.I. Rabea, T.M. Rogge, C.V. Stevens, W. Steurbaut, M. Hofte, and G. Smagghe|Fungicidal and Insecticidal Activity of O-Acyl Chitosan Derivatives|Polym. Bull.54:279-289|2005|10.1007/s00289-005-0396-z
99291|T||Rabea,E.I., M. El Badawy, T.M. Rogge, C.V. Stevens, W. Steurbaut, M. Hofte, and G. Smagghe|Enhancement of Fungicidal and Insecticidal Activity by Reductive Alkylation of Chitosan|Pest Manag. Sci.62(9): 890-897|2006|10.1002/ps.1263
99292|T||Ester,A., and P.M.T.M. Geelen|Integrated Control of Slugs in a Sugar Beet Crop Growing in a Rye Cover Crop|BCPC Symp. Proc.66:445-450|1996|
99293|T||Stach,R., J. Vetulani, J. Trabka, and J. Slominska-Zurek|The Effect of Dimethyldithiocarbamate on the Bioelectric Activity and Monoamine Content in the Rabbit Brain|Diss. Pharm. Pharmacol.23(4): 353-362|1971|
99294|T||Geremias,R., R.C. Pedrosa, C. Locatelli, V.T. De Favere, R. Coury-Pedrosa, and M.C.M. Laranjeira|Lipid Lowering Activity of Hydrosoluble Chitosan and Association with Aloe vera L. and Brassica olearaceae L.|PTR. Phytother.Res.20(4): 288-293|2006|10.1002/ptr.1854
99295|T||Zeng,L., C. Qin, W. Wang, W. Chi, and W. Li|Absorption and Distribution of Chitosan in Mice After Oral Administration|Carbohydr. Polym.71(3): 435-440|2008|10.1016/j.carbpol.2007.06.016
99296|T||Kojima,K., Y. Okamoto, K. Miyatake, Y. Tamai, Y. Shigemasa, and S. Minami|Optimum Dose of Chitin and Chitosan for Organization of Non-Woven Fabric in the Subcutaneous Tissue|Carbohydr. Polym.46(3): 235-239|2001|10.1016/S0144-8617(00)00326-X
99297|T||Nakade,T., H. Yokota, H. Taniyama, Y. Hori, N. Agata, T. Ikeda, H. Furusaki, Y. Yamada, Y. Uchida, A. Yuasa, M. Yamaguc|Matrix Metalloproteinase (MMP) 9 Induced in Skin and Subcutaneous Tissue by Implanted Chitin in Rats|Carbohydr. Polym.41(4): 327-329|2000|10.1016/S0144-8617(99)00118-6
99298|T||Sonawane,V.R., V.S. Jagtap, D.N. Pahuja, M.G.R. Rajan, and A.M. Samuel|Difficulty in Dislodging In Vivo Fixed Radiostrontium|Health Phys.87(1): 46-50|2004|10.1097/00004032-200407000-00005
99301|T||Pandey,M., R.B. Raizada, and T.S.S. Dikshith|90-Day Oral Toxicity of Ziram:  A Thyrostatic and Hepatotoxic Study|Environ. Pollut.65(4): 311-322|1990|10.1016/0269-7491(90)90123-T
99302|T||De Jong,W.H., M. Tentij, S.W. Spiekstra, R.J. Vandebriel, and H. Van Loveren|Determination of the Sensitising Activity of the Rubber Contact Sensitisers TMTD, ZDMC, MBT and DEA in a Modified Local Lymph Node Assay and the Effect of Sodium Dodecyl Sulfate Pretreatment on Local Lymph Node Response|Toxicology176(1-2): 123-134|2002|10.1016/S0300-483X(02)00131-2
99304|T||National Toxicology Program (NTP)|Carcinogenesis Bioassay of Ziram (CAS No. 137-30-4) in F344/N Rats and B6C3F1 Mice (Feed Study)|Natl. Toxicol. Program Tech. Rep. Ser.238:150 p.|1983|
99305|T||Minami,S., M. Oh-Oka, Y. Okamoto, K. Miyatake, A. Matsuhashi, Y. Shigemasa, and Y. Fukumoto|Chitosan-Inducing Hemorrhagic Pneumonia in Dogs|Carbohydr. Polym.29(3): 241-246|1996|10.1016/0144-8617(95)00157-3
99306|T||Molinaro,G., J.C. Leroux, J. Damas, and A. Adam|Biocompatibility of Thermosensitive Chitosan-Based Hydrogels:  An In Vivo Experimental Approach to Injectable Biomaterials|Biomaterials23(13): 2717-2722|2002|10.1016/S0142-9612(02)00004-2
99307|T||Tanaka,Y., S. Tanioka, M. Tanaka, T. Tanigawa, Y. Kitamura, S. Minami, Y. Okamoto, M. Miyashita, and M. Nanno|Effects of Chitin and Chitosan Particles on BALB/c Mice by Oral and Parenteral Administration|Biomaterials18(8): 591-595|1997|10.1016/S0142-9612(96)00182-2
99309|T||Xu,J., X. Zhao, X. Wang, Z. Zhao, and Y. Du|Oligochitosan Inhibits Phytophthora capsici by Penetrating the Cell Membrane and Putative Binding to Intracellular Targets|Pestic. Biochem. Physiol.88(2): 167-175|2007|10.1016/j.pestbp.2006.10.010
99310|T||Pereira,A.O., D.J. Cartucho, A.S. Duarte, M.H. Gil, A.M.S. Cabrita, J.A. Patricio, and M.M.T. Barros|Immobilisation of Cardosin A in Chitosan Sponges as a Novel Implant for Drug Delivery|Curr. Drug Discov. Technol.2(4): 231-238|2005|10.2174/157016305775202973
99311|T||Jiang,X., H. Dai, K.W. Leong, S.H. Goh, H.Q. Mao, and Y.Y. Yang|Chitosan-g-PEG/DNA Complexes Deliver Gene to the Rat Liver via Intrabiliary and Intraportal Infusions|J. Gene Med.8(4): 477-487|2006|10.1002/jgm.868
99312|T||Lazarova,M., J. Labaj, G. Kogan, and D. Slamenova|Carboxymethyl Chitin-Glucan Enriched Diet Exhibits Protective Effects Against Oxidative DNA Damage Induced in Freshly Isolated Rat Cells|Neoplasma53(5): 434-439|2006|
99313|T||Kuribayashi,R., J. Chanda, and T. Abe|Efficacy of the Chitosan Posttreatment in Calcification Prevention of the Glutaraldehyde-Treated Porcine Aortic Noncoronary Cusp Implanted in the Right Ventricular Outflow Tract in Dogs|Artif. Organs20(7): 761-766|1996|10.1111/j.1525-1594.1996.tb04537.x
99314|T||Tomihata,K., and Y. Ikada|In Vitro and In Vivo Degradation of Films of Chitin and Its Deacetylated Derivatives|Biomaterials18(7): 567-575|1997|10.1016/S0142-9612(96)00167-6
99315|T||Rattanatayarom,W., and S. Wattanasirichaigoon|Evaluation of Dermal Irritancy Potential of Carboxymethyl-Chitosan Hydrogel and Poly-(Acrylic Acid) Chitin Hydrogel|J. Med. Assoc. Thailand90(4): 724-729|2007|
99316|T||Nakajima,M., K. Atsumi, K. Kifune, K. Miura, and H. Kanamaru|Chitin is an Effective Material for Sutures|Jpn. J. Surg.16(6): 418-424|1986|
99318|A||Esteban,M.A., A. Cuesta, J. Ortuno, and J. Meseguer|Immunomodulatory Effects of Dietary Intake of Chitin on Gilthead Seabream (Sparus aurata L.) Innate Immune System|Fish Shellfish Immunol.11(4): 303-315|2001|10.1006/fsim.2000.0315
99319|T||Tang,Z.R., Y.L. Yin, C.M. Nyachoti, R.L. Huang, T.J. Li, C. Yang, X.J. Yang, J. Gong, J. Peng, D.S. Qi, J.J. Xing, Z.H.|Effect of Dietary Supplementation of Chitosan and Galacto-mannan-Oligosaccharide on Serum Parameters and the Insulin-Like Growth Factor-I mRNA Expression in Early-Weaned Piglets|Domest. Anim. Endocrinol.28(4): 430-441|2005|10.1016/j.domaniend.2005.02.003
99320|T||Onishi,H., and Y. Machida|Biodegradation and Distribution of Water-Soluble Chitosan in Mice|Biomaterials20(2): 175-182|1999|10.1016/S0142-9612(98)00159-8
99321|T||Okamoto,Y., K. Kawakami, K. Miyatake, M. Morimoto, Y. Shigemasa, and S. Minami|Analgesic Effects of Chitin and Chitosan|Carbohydr. Polym.49(3): 249-252|2002|10.1016/S0144-8617(01)00316-2
99322|T||Anandan,R., P.G. Viswanathan Nair, and S. Mathew|Anti-Ulcerogenic Effect of Chitin and Chitosan on Mucosal Antioxidant Defence System in HCl-Ethanol-Induced Ulcer in Rats|J. Pharm. Pharmacol.56(2): 265-269|2004|10.1211/0022357023079
99323|T||Lee,W.Y., E.Y. Moon, J. Lee, C.H. Choi, S.C. Nam, K.B. Park, J.M. Ryu, Y.H. Chung, S.J. Yoon, and D.K. Lee|Toxicities of 166Holmium-Chitosan in Mice|Arzneim. Forsch.48(3): 300-304|1998|
99324|T||Koguchi,T., H. Koguchi, H. Nakajima, S. Takano, Y. Yamamoto, S. Innami, A. Maekawa, and T. Tadokoro|Dietary Fiber Suppresses Elevation of Uric Acid and Urea Nitrogen Concentrations in Serum of Rats with Renal Dysfunction Induced by Dietary Adenine|Int. J. Vitam. Nutr. Res.74(4): 253-263|2004|10.1024/0300-9831.74.4.253
99325|T||Aoyama,Y., H. Matsumoto, T. Tsuda, E. Ohmura, and A. Yoshida|Effect on Liver and Serum Lipids in Rats of Dietary Additions of Fibers and Cholestyramine to a Cystine-Excess Diet|Agric. Biol. Chem.52(11): 2811-2816|1988|
99331|T||Chorvatovicova,D., E. Machova, and J. Sandula|Ultrasonication:  The Way to Achieve Antimutagenic Effect of Carboxymethyl-Chitin-Glucan by Oral Administration|Mutat. Res.412(1): 83-89|1998|10.1016/S1383-5718(97)00176-9
99332|T||Tokura,S., O. Hasegawa, S. Nishimura, N. Nishi, and T. Takatori|Induction of Methamphetamine-Specific Antibody Using Biodegradable Carboxymethyl-Chitin|Anal. Biochem.161(1): 117-122|1987|10.1016/0003-2697(87)90660-9
99333|T||Okamura,T., E.M. Garland, R.J. Taylor, S.L. Johansson, and S.M. Cohen|The Effect of Cyclophosphamide Administration on the Kidney of the Rat|Toxicol. Lett.63(3): 261-276|1992|10.1016/0378-4274(92)90089-3
99334|T||ELF Atochem North America Inc.|Initial Submission:  Acute Irritation Tests with 3809-42-1 Formula Z (0.8% Tributyltin Oxide) in Albino Rabbits with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:24 p.|1992|
99335|T||Food and Drug Research Laboratories|Initial Submission:  Acute Oral Toxicity in Rats with Tributyltin Methacrylate with Cover Letter Dated 102792|Rhone-Poulenc, Cranbury, NJ:5 p.|1992|
99336|T||American Cyanamid Co.|Initial Submission:  Oral LD50 Study in Albino Rats with CL 18,177 Technical (Final Report) with Cover Letter Dated 112091|EPA/OTS Doc.#88-920000259:18 p.|1991|
99337|T||Bayer Corp.|Initial Submission:  YRC 2894, Study for Acute Oral Toxicity in Rats, w/TSCA Hlth & Sfty Study Cover Sheet Dated 2/1/1999|Bayer Corporation, Pittsburgh, PA:44 p.|1999|
99338|T||Bayer Corp.|Support: Determination of Aromatase Activity in Ovary & Liver Tissue of a Modified 1-Generation Reproductive Study in Sprague-Dawley Rats of YRC 2894, w/TSCA Cvr Sht Dated 9/24/98|EPA/OTS Doc.#89990000012:131 p.|1998|
99339|T||U.S. Environmental Protection Agency|U.S.EPA Submission Summary Report:  Carbamic Acid Nitrile (Sanitized)|EPA/OTS Doc.#8EHQ-0490-0952S:4 p.|2000|
99340|A||ELF Atochem North America Inc.|Initial Submission:  Study on the Effects of Antifouling Paints on Filtering Mollusks with Cover Letter Dated 090992|ELF Atochem, King of Prussia, PA:28 p.|1992|
99341|T||ELF Atochem North America Inc.|Initial Submission:  Primary Skin and Acute Eye Irritation Studies of Three Samples Containing Tributyltin Oxide in Rabbits with Cover Letter Dated 092892|ELF Atochem, King of Prussia, PA:17 p.|1992|
99342|T||ELF Atochem North America Inc.|Initial Submission:  Range-Finding Study to Evaluate the Toxicity of Tributyltin Oxide in Rats with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:27 p.|1992|
99343|T||ELF Atochem North America Inc.|Initial Submission:  Chronic Dermal Application of Permachem PB-13 Mixture Containing 25% Tributyltin Oxide in Rabbits with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:31 p.|1992|
99344|T||ELF Atochem North America Inc.|Initial Submission:  2-Generation Reproduction Study in Rats with bis(Tri-n-Butyltin)Oxide with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:143 p.|1992|
99345|T||ELF Atochem North America Inc.|Initial Submission:  2-Year Feeding Study in Rats with bis(Tri-n-Butyltin)Oxide (TBTO) with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:35 p.|1992|
99346|A||Parama,A., A. Luzardo, J. Blanco-Mendez, M.L. Sanmartin, and J. Leiro|In Vitro Efficacy of Glutaraldehyde-Crosslinked Chitosan Microspheres Against the Fish-Pathogenic Ciliate Philasterides dicentrarchi|Dis. Aquat. Org.64(2): 151-158|2005|10.3354/dao064151
99347|T||Takeuchi,H., Y. Matsui, H. Yamamoto, and Y. Kawashima|Mucoadhesive Properties of Carbopol or Chitosan-Coated Liposomes and Their Effectiveness in the Oral Administration of Calcitonin to Rats|J. Control. Release86(2-3): 235-242|2003|10.1016/S0168-3659(02)00411-X
99348|AT||Patterson,G.M.L., and C.M. Bolis|Fungal Cell-Wall Polysaccharides Elicit an Antifungal Secondary Metabolite (Phytoalexin) in the Cyanobacterium Scytonema ocellatum|J. Phycol.33(1): 54-60|1997|10.1111/j.0022-3646.1997.00054.x
99349|T||Ge,Y., D. Chen, L. Xie, and R. Zhang|Optimized Preparation of Daidzein-Loaded Chitosan Microspheres and In Vivo Evaluation After Intramuscular Injection in Rats|Int. J. Pharm.338(1-2): 142-151|2007|
99350|T||Oosegi,T., H. Onishi, and Y. Machida|Gastrointestinal Distribution and Absorption Behavior of Eudragit-Coated Chitosan-Prednisolone Conjugate Microspheres in Rats with TNBS-Induced Colitis|Int. J. Pharm.348(1-2): 80-88|2008|
99351|T||Ruder,F., and H. Kayser|The Thiourea Insecticides Diafenthiuron Inhibits Mitochondrial ATPase In Vitro and In Vivo by Its Carbodiimide Product|Biochem. Soc. Trans.22(1): 241-244|1994|10.1042/bst0220241
99352|T||Borges,O., A. Cordeiro-da-Silva, S.G. Romeijn, M. Amidi, A. De Sousa, G. Borchard, and H.E. Junginger|Uptake Studies in Rat Peyer's Patches, Cytotoxicity and Release Studies of Alginate Coated Chitosan Nanoparticles for Mucosal Vaccination|J. Control. Release114(3): 348-358|2006|10.1016/j.jconrel.2006.06.011
99353|T||Loreti,E., D. Bellincampi, C. Millet, A. Alpi, and P. Perata|Elicitors of Defence Responses Repress a Gibberellin Signalling Pathway in Barley Embryos|J. Plant Physiol.159(12): 1383-1386|2002|10.1078/0176-1617-00747
99354|T||Nilsson,U., and G. Orlander|Vegetation Management on Grass-Dominated Clearcuts Planted with Norway Spruce in Southern Sweden|Can. J. For. Res.29(7): 1015-1026|1999|10.1139/x99-071
99355|T||Omar,D., and G.A. Matthews|The Rainfastness of Permethrin Deposits of Emulsifiable Concentrate (EC) and Ultra-Low-Volume (ULV) Formulation on Brussels Sprout Leaves|Trop. Pest Manag.36(2): 159-161|1990|10.1080/09670879009371464
99356|A||Jenner,H.A., G.H.F.M. Van Aerssen, and J. Terwoert|Valve Movement Behaviour of the Mussel Dreissena polymorpha and the Clam Unio pictorum for Use in an Early Warning System|Limnol. Aktuell4:115-126|1992|
99357|T||Sinswat,P., and P. Tengamnuay|Enhancing Effect of Chitosan on Nasal Absorption of Salmon Calcitonin in Rats:  Comparison with Hydroxypropyl- and Dimethyl-beta-Cyclodextrins|Int. J. Pharm.257(1-2): 15-22|2003|
99371|T||ELF Atochem North America Inc.|Initial Submission:  Detection of Effects of Tributyltin Oxide on Natural Killer-Activity in the Rat Lung, Using a Newly Developed Method with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:40 p.|1992|
99372|T||ELF Atochem North America Inc.|Initial Submission:  Resistance to Listeria Monocytogenes Infection Following a 34-Day Oral Toxicity Study of Tributyltin Oxide in the Rat with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:41 p.|1992|
99373|T||ELF Atochem North America Inc.|Initial Submission:  Systemic Tolerance Study of MEBTO/TBTO in Rats After Intragastric Application for 10-11 Days with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:31 p.|1992|
99374|A||ABC Laboratories|Initial Submission:  Acute Toxicity of Methasan to Rainbow Trout with Cover Letter Dated 081492|Monsanto Chemical Company, St.Louis, MO:53 p.|1992|
99375|T||Akashe,V.B., D.V. Indi, A.J. Patil, M.A. Gud, and S.M. Ghadge|Persistence and Toxicity of Some Miticides Against Tetranychus urticae Koch. on Rose Foliage|J. Maharashtra Agric. Univ.31(3): 318-320|2006|
99376|A||Baktharatchagan,R., and B.V. David|Evaluation of Trebon (Ethofenprox) for Insecticidal Efficacy Against Mosquito Larvae and on Non-Target Organisms|Indian J. Malariol.28(4): 249-253|1991|
99377|T||Cabral,R., T. Hoshiya, K. Hakoi, R. Hasegawa, S. Fukushima, and N. Ito|A Rapid In Vivo Bioassay for the Carcinogenicity of Pesticides|Tumori77(3): 185-188|1991|10.1177/030089169107700301
99378|T||Brzezinski,J.|The Effect of Atropine on the Levels of Adrenaline and Noradrenaline Changed by Acute Poisoning with Disyston in Rats|Pol. J. Pharmacol. Pharm.25(6): 611-615|1973|
99379|T||Mogilnicka,E., and B. Przewlocka|Influence of Dopamine-beta-Hydroxylase Inhibitors on Avoidance Reaction in Rat|Pol. J. Pharmacol. Pharm.27(5): 513-519|1975|
99380|T||Gretenkord,C., and W. Drescher|Laboratory and Cage Test Methods for the Evaluation of the Effects of Insect Growth Regulators (Insegar, Dimilin) on the Brood of Bombus terrestris L.|In: Proceedings of the 6th International Symposium on Hazard of Pesticides to Bees, Braunschweig, Germany:5 p.|1996|
99381|A||Mohsen,Z.H., and B.M. Al-Chalabi|Biological Activity of Fenoxycarb Against Culex quinquefasciatus|J. Biol. Sci. Res.20(2): 323-331|1989|
99382|T||Sorour,F.A., and J. Hacskaylo|Effect of Di-Syston and Monuron on Growth and Carbohydrate, Nitrogen and Phosphorus Levels of Cotton Plants|Agric. Res. Rev.46(1): 81-90|1968|
99383|T||Minton,E.B.|Neutralizers and Pesticides and Their Sequence of Application to Acid-Delinted Cottonseed:  Effects on Germination, Stand, and Verticillium Wilt of Cotton|Crop Sci.18(5): 831-835|1978|10.2135/cropsci1978.0011183X001800050037x
99384|T||Tarjan,A.C., and J.J. Frederick|Comparative Nematicidal Efficacies of Several Commercial Products on Bermudagrass|Annu. Meet. Fla. State Hortic. Soc.97:300-304|1984|
99385|T||Overman,A.J., and J.F. Price|Application of Avermectin and Cyromazine via Drip Irrigation and Fenamiphos by Soil Incorporation for Control of Insect and Nematode Pests in Chrysanthemums|Proc. Annu. Meet. Fla. State Hortic. Soc.97:304-306|1984|
99386|T||Singh,B.D., Y. Singh, R.B. Singh, R.M. Singh, N.D.R.K. Sarma, and J. Singh|Cytogenetic Aberrations & Morphological Changes Induced by Insecticide Treatments of Barley Seeds|Indian J. Exp. Biol.15(8): 688-691|1977|
99387|T||Helmer,J.D., F.A. Harris, C.D. Hobbs, J.A. Keaton, J.L. Pafford, J.H. Watson, and W.J. Polzin|The Effects of Seed Quality, Systemic Insecticides and Trifluralin on Cotton and Spanish Peanuts|Proc. South. Weed Sci. Soc.22:132-137|1969|
99388|T||Libby,J.L., and T.J. Hartberg|Effect of Soil Applied Systemic Insecticides on Yield of Norland Potato|Am. Potato J.49(11): 438-443|1972|10.1007/BF02861647
99389|T||Smith,J.A., A.M. Bryson, D.M. John, and A. Anderson|A Study of the Effect of Ziram on Pregnancy of the Rat|EPA/OTS Doc.#88-920010770:163 p.|1990|
99390|A||Douglas,M.T., R.O. Stonehewer, and I.A. MacDonald|The Acute Toxicity of Ziram Technical to Bluegill Sunfish (Lepomis macrochirus)|EPA/OTS Doc.#88-920010770:28 p.|1990|
99391|A||Douglas,M.T., R.O. Stonehewer, and I.A. MacDonald|The Acute Toxicity of Ziram Technical to Daphnia magna|EPA/OTS Doc.#88-920010770:25 p.|1990|
99394|T||Hensley,J.R., and J.A. Norton|Effect of Profluralin, Environmental Conditions and Soil Applied Insecticides on Cotton Tolerance|Proc. South. Weed Sci. Soc.29:115-124|1976|
99395|T||Ozkirimli,S., T.I. Apak, M. Kiraz, and Y. Yegenoglu|Synthesis of new Triazolyl-N,N-Dialkyldithiocarbamates as Antifungal Agents|Arch. Pharm. Res. (Seoul)28(11): 1213-1218|2005|10.1007/BF02978200
99396|A||Licht,O., D. Jungmann, and R. Nagel|Method Development on Aufwuchs and Mayfly Larvae to Determine the Effects of Chemicals in Artificial Indoor Streams|Fresenius Environ. Bull.12(6): 594-600|2003|
99397|T||Matsuda,H., Y. Seo, E. Kakizaki, and K. Takahama|Changes in mRNA Expression Levels of Synaptic- and Target Tissue-Specific Proteins After Organophosphate Exposure|Legal Med.2(2): 55-63|2000|10.1016/S1344-6223(00)80024-3
99398|T||El-Nawawy,A.S., M.A. Ashry, and S. Hassan|Relation Between Chemical Structure and Biological Activity.  XVI. - Inversion Phenomenon and Effect of Different Concentrations of Copper Sulphate on Relative Toxicities of Sodium and Several S-Alkylisothio-uronium N :|J. Microbiol. U. A. R.1(2): 243-254|1966|
99399|T||Khanna,V., and K.G. Gupta|Effect of Dithiocarbamates on Citric Acid Production by Aspergillus niger|Folia Microbiol. (Prague)31(4): 288-292|1986|10.1007/BF02926953
99401|T||Chapman,R.A., C.R. Harris, J.H. Tolman, D. DuBois, and C. Cole|The Persistence of Insecticidal Chemicals in Soils Treated with Granular Formulations of Disulfoton and Their Uptake by Potato Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes29(2): 233-245|1994|
99402|T||Price,J.F.|Field Evaluations of New Pesticides for Control of Leafminers, Mites and Aphids on Flower Crops|Proc. Annu. Meet. Fla. State Hortic. Soc.96:287-291|1983|
99403|T||Penner,D.|Effect of Disulfoton, Diazinon, and Fensulfothion on Atrazine Absorption by Soybean|Agron. J.66(1): 107-109|1974|10.2134/agronj1974.00021962006600010030x
99404|T||Schuster,D.J.|Control of Armyworms on Bell Pepper in West-Central Florida, Fall 1991|Arthropod Manag. Tests18:140-|1993|
99405|T||Blom,H.J., R.A.F.M. Chamuleau, J. Rothuizen, N.E.P. Deutz, and A. Tangerman|Methanethiol Metabolism and Its Role in the Pathogenesis of Hepatic Encephalopathy in Rats and Dogs|Hepatology11(4): 682-689|1990|10.1002/hep.1840110424
99406|T||Harris,C.R., H.J. Svec, J.H. Tolman, and R.A. Chapman|Laboratory and Field Studies on the Effectiveness and Persistence of Some Insecticides Used to Control the Tomato Hornworm|Tob. Int.185(15): 178-182|1983|
99407|T||Hoskinson,P.E.|Effects of Selected Seed Treatments on Deterioration of Carryover Cottonseed and Influence of Fungicide and Fungicide-Insecticide Granules and Seedling Insect Sprays on Subsequent Field Performance|Tenn. Farm Home Sci.118:4-7|1981|
99408|T||Chambers,A.Y., W.G. Russell, J.R. Overton, and H. Andrews|Interactions of Recommended Preemergence Herbicides, Systemic Insecticides, and Soil Fungicides on Cotton:  Two Years' Results|Proc. South. Weed Sci. Soc.22:83-87|1969|
99409|T||Tanigoshi,L.K., J.D. Chamberlain, and T.A. Murray|Yellow Spider Mite Control on Red Raspberry, 1996|Arthropod Manag. Tests22:57-|1997|
99410|T||Handa,S.K., A.K. Dikshit, M.D. Awasthi, and N.S. Bhattacharjee|Residues of Phorate, Disulfoton and Carbofuran in Soybean Crop|Indian J. Entomol.39(4): 354-356|1977|
99411|T||Singh,K., K.C. Gulati, and R.S. Dewan|Persistence of Disyston Residues in Soil and Plant|Indian J. Agric. Sci.42(12): 1135-1138|1972|
99412|T||Agnihotri,N.P., H.K. Jain, S.Y. Pandey, R.S. Dewan, A.N. Sexena, and K.M. Peshwani|Influence of Soil Moisture on the Dissipation of Phorate and Disulfoton in Soil and Mustard Crop (Brassica campestris Linn.)|Indian J. Entomol.37(1): 68-71|1975|
99413|T||Satpathy,J.M., P.K. Dash, and B. Misra|Insecticidal Residues in Some Vegetable Crops Grown in Treated Soils|Indian J. Agric. Sci.44(2): 113-115|1974|
99414|T||Zeringue,H.J.,Jr.|Effects of Methyl Jasmonate on Phytoalexin Production and Aflatoxin Control in the Developing Cotton Boll|Biochem. Syst. Ecol.30(6): 497-503|2002|10.1016/S0305-1978(01)00125-9
99415|T||Degim,I.T., F. Acarturk, D. Erdogan, and N.D. Lortlar|Transdermal Administration of Bromocriptine|Biol. Pharm. Bull.26(4): 501-505|2003|10.1248/bpb.26.501
99416|T||Wu,Z., Z. Cai, Z. Lu, J. Yan, and R. Xu|Diacetylchitin Coated Resin Hemoperfusion in Dog Acute Pentobarbital Intoxication|Chin. Med. J.99(11): 924-926|1986|
99417|T||National Institute of Public Health|Chronic Toxicity and Carcinogenicity Study with Bis(Tri-N- Butyltin)Oxide in Rats with Attachments and Cover Letter Dated 051887|EPA/OTS Doc.#FYI-OTS-0687-0550:43 p.|1987|
99418|A||ABC Laboratories|Initial Submission:  Acute Toxicity of Methasan to Daphnia magna with Cover Letter Dated 081492|EPA/OTS Doc.#88-920007310,Monsanto Chemical Company, St.Louis, MO:37 p.|1992|
99419|A||ELF Atochem North America Inc.|Initial Submission:  Toxicity of Tri-Butyl Oxide to Hydra littoralis and Chlorohydra viridissima. Draft Report of Testing: Second Round with Cover Letter Dated 092992|EPA/OTS Doc.#88-920009621:28 p.|1992|
99420|A||Davies,R.J., R.L. Fletcher, and S.E.J. Furtado|The Effects of Tributyltin Compounds on Spore Development in the Green Alga Enteromorpha intestinalis (L.) Link|In: Proc.of the Sixth Int.Congr.on Mar.Corrosion and Fouling, Bologne, Ctr.des Rech.et dEtude Oceanogr.:557-565|1984|
99421|T||Cabaret,J., and N. Mangeon|Fertilizers on Pastures in Relation to Infestation of Goats with Strongyles, Small Lungworms and Moniezia|Small Ruminant Res.13(3): 269-276|1994|10.1016/0921-4488(94)90075-2
99422|A||Kawamata,M., K. Kon-Ya, and W. Miki|5,6-Dichloro-1-Methylgramine, a Non-Toxic Antifoulant Derived from a Marine Natural Product|Prog. Mol. Subcell. Biol.42:125-139|2006|
99423|T||Yamada,H., and Y.F. Sasaki|Organotins are Co-clastogens in a Whole Mammalian System|Mutat. Res.301(3): 195-200|1993|
99424|A||E.G. and G. Bionomics|Acute Toxicity of Tributyltin to Sheepshead Minnow, Cyprinodon variegatus|Report L14-500 Submitted to M&T Chemicals, Inc., Unpubl.Lab.Data, Pensacola, FL:16 p.|1981|
99425|T||American Cyanamid Co.|Initial Submission:  Range Finding Toxicity Tests:  Skin Irritation, Eye Irritation, and 4-Hr D.O.T. Corrosive Test (Final Report) with Cover Letter Dated 111591|EPA/OTS Doc.#88-920000297:6 p.|1977|
99426|T||Food and Drug Research Laboratories|Initial Submission:  Eye Irritation Test of Tributyltin Methacrylate in Rabbits with Cover Letter Dated 060592|EPA/OTS Doc.#88-920003568:9 p.|1992|
99428|T||Food and Drug Research Laboratories Inc.|Initial Submission:  Dermal Toxicity Tests of Hexabutyl Distannoxane in Rabbits with Cover Letter Dated 08/17/92|EPA/OTS Doc.#88-920008625:7 p.|1992|
99429|T||ELF Atochem North America Inc.|Initial Submission:  Primary Eye and Skin Irritation Study of Bis-Tributyltin Maleate in Rabbits with Cover Letter Dated 08/17/92|EPA/OTS Doc.#88-920008629:7 p.|1992|
99430|T||Industrial Bio-Test Laboratories Inc.|Initial Submission:  Rabbit Eye Irritation Study of bis-Tributyltin Maleate with Cover Letter Dated 07/28/92|EPA/OTS Doc.#88-920008691:7 p.|1992|
99431|T||ELF Atochem North America Inc.|Initial Submission:  Systemic Toxicity Testing:  Single Dose Administration (LD50) of Tributyltin Oxide in Rats with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:16 p.|1992|
99432|T||ELF Atochem North America Inc.|Initial Submission:  A Range-Finding Teratology Study in Rabbits with Tributyltin Oxide with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:26 p.|1992|
99433|T||ELF Atochem North America Inc.|Initial Submission:  Acute Irritation Tests with 3809-42-2 Solvent for Formula Z (Containing 5% Tributyltin Oxide) in Albino Rabbits with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:25 p.|1992|
99434|A||Ross,J.G., M. Morphy, and S.M. Taylor|Preliminary Investigations of the Use of Calcium Cyanamide as a Molluscicide to Control Fascioliasis in Northern Ireland|Vet. Rec.87(13): 373-375|1970|10.1136/vr.87.13.373
99435|A||Ross,J.G.|The Use of Molluscicides to Control Fascioliasis in Northern Ireland; Investigation of the Application Rate of Calcium Cyanamide|Vet. Rec.86(6): 180-181|1970|10.1136/vr.86.6.180
99436|T||Waid,A.F.M., N.M. Hilmy, and O.M. El-Monairy|New Copolymer with Pendent Organotin Moieties as Controlled Release Mosquito Larvicide|J. Egypt. Soc. Parasitol.15(2): 665-673|1985|
99437|A||Grant,C., and A.F. Bravery|Laboratory Evaluation of Algicidal Biocides for Use on Constructional Materials.  3.  Use of the Vermiculite bed Technique to Evaluate Toxic Washes, Surface Coatings and Surface Treatments|Int.Biodeterior.21(4): 285-293|1985|
99438|T||Sharma,V.K., J.S. Aulakh, S. Bansal, A.K. Malik, and R.K. Mahajan|Fourth Derivative Spectrophotometric Determination of Fungicide Ziram (Zinc(II) Dimethyldithiocarbamate) in Commercial Samples and Wheat Grains|Int. J. Environ. Anal. Chem.84(14-15): 1105-1110|2004|10.1080/03067310412331315601
99439|T||Hata,H., H. Onishi, and Y. Machida|Preparation of CM-Chitin Microspheres by Complexation with Iron(III) in w/o Emulsion and Their Biodisposition Characteristics in Mice|Biomaterials21(17): 1779-1788|2000|10.1016/S0142-9612(00)00069-7
99440|T||Chorvatovicova,D., and J. Sandula|Effect of Carboxymethyl-Chitin-Glucan on Cyclophosphamide Induced Mutagenicity|Mutat. Res.346(1): 43-48|1995|
99441|T||Kim,S.K., P.J. Park, H.P. Yang, and S.S. Han|Subacute Toxicity of Chitosan Oligosaccharide in Sprague-Dawley Rats|Arzneim. Forsch.51(9): 769-774|2001|
99442|T||Aurangabadkar,J.H., V.Y. Bhagwat, and S.K. Parihar|Efficacy of Different Fungicides Alone and in Combination with Conventional Insecticides on Development of Sooty Mould of Citrus|PKV Res. J.16(2): 254-256|1992|
99443|T||Wolford,S.T., D.L. Novicki, and B. Kelly|Comparative Skin Phototoxicity in Mice with Two Photosensitizing Drugs:  Benzoporphyrin Derivative Monoacid Ring A and Porfimer Sodium (Photofrin)|Fundam. Appl. Toxicol.24(1): 52-56|1995|10.1006/faat.1995.1007
99444|A||Grigolava,I.V., and J.D. McKenzie|Carbodiimide-Induced Labelling of Sea Urchin Surfaces (Echinoidea, Echinodermata)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.110(3): 477-482|1995|10.1016/0305-0491(94)00206-A
99445|T||Ayers,C.W.|The Determination of Dithiocarbamate Residues in Tobacco|Beitr. Tabakforsch. Int.9(5): 289-296|1978|10.2478/cttr-2013-0459
99446|A||Benitez,J.C., C.A. Giudice, and V.J.D. Rascio|Bioactivity of Antifouling Paints Based on Organotin Toxicants|J. Chem. Technol. Biotechnol.35A(8): 387-394|1985|10.1002/jctb.5040350802
99447|T||Pascual,A., A. Rindlisbacher, H. Schmidli, and E. Stamm|N-(Pyrid-3-yl)Thioureas and Derivatives as Acaricides . II. Quantitative Structure-Activity Relationships and Chemodynamic Behaviour|Pestic. Sci.44(4): 369-379|1995|10.1002/ps.2780440409
99448|A||Srikanth,S., and S.G. Berk|Adaptation of Amoebae to Cooling Tower Biocides|Microb. Ecol.27(3): 293-301|1994|10.1007/BF00182412
99449|T||Ghanayem,B.I., J.M. Sanders, A.M. Clark, J. Bailer, and H.B. Matthews|Effects of Dose, Age, Inhibition of Metabolism and Elimination on the Toxicokinetics of 2-Butoxyethanol and Its Metabolites|J. Pharmacol. Exp. Ther.253(1): 136-143|1990|
99450|T||Wu,W.S., M.H. Kuo, J. Tschen, and S.D. Liu|Integrated Control of Chrysanthemum Stem Rot|Zhiwu Baohu Xuehui Huikan (Plant Prot. Bull. (Taichung))32(1): 77-90|1990|
99451|T||Ishaaya,I., J.L. Engel, and J.E. Casida|Dietary Triorganotins Affect Lymphatic Tissues and Blood Composition of Mice|Pestic. Biochem. Physiol.6(3): 270-279|1976|10.1016/0048-3575(76)90070-5
99452|T||Vallini,G., A. Pera, and M. De Bertoldi|Genotoxic Effects of Some Agricultural Pesticides In Vitro Tested with Aspergillus nidulans|Environ. Pollut. A.30(1): 39-58|1983|10.1016/0143-1471(83)90030-2
99453|T||Abe,T., Y. Yamada, Y. Shigematsu, J. Fukami, Y. Fujimoto, and T. Tatsuno|Synthesis of Phosphotriester by DCC and Its Biological Activities|Comp. Biochem. Physiol. C Comp. Pharmacol.79(2): 237-242|1984|10.1016/0742-8413(84)90192-0
99454|T||Witt,K.L., R.R. Tice, M.D. Shelby, R.S. Chhabra, and E. Zeiger|Induction of Micronucleated Erythrocytes in Rodents by Diisopropylcarbodiimide and Dicyclohexylcarbodiimide:  Dependence on Exposure Protocol|Environ. Mol. Mutagen.33(1): 65-74|1999|10.1002/(SICI)1098-2280(1999)33:1<65::AID-EM8>3.0.CO;2-7
99455|A||Reyes,J.C., and F.J. Florencio|A Novel Mechanism of Glutamine Synthetase Inactivation by Ammonium in the Cyanobacterium Synechocystis sp. PCC 6803.  Involvement of an Inactivating Protein|FEBS Lett.367(1): 45-48|1995|10.1016/0014-5793(95)00544-J
99456|T||Losi-Guembarovski,R., F.V. Santos, F.L. Dias, R.G. Frederico, and I.M.S. Colus|Assessment of the Ability of Imazaquin Herbicide to Induce Chromosomal Aberrations In Vitro in Cultured Chinese Hamster Ovary Cells and Micronuclei In Vivo in Mice|Food Chem. Toxicol.42(8): 1245-1249|2004|10.1016/j.fct.2004.03.001
99457|T||Kato,H., M. Hayashi, Y. Fukumori, and H. Kaneko|MHC Restriction in Contact Hypersensitivity to Dicyclohexylcarbodiimide|Food Chem. Toxicol.40(11): 1713-1718|2002|10.1016/S0278-6915(02)00132-1
99458|A||Viyanant,V., S. Thirachantra, and S. Sornmani|The Effect of Controlled Release Copper Sulfate and Tributyltin Fluoride on the Mortality and Infectivity of Schistosoma mansoni Miracidia|Southeast Asian J. Trop. Med. Public Health13(2): 225-230|1982|
99459|A||Smith,K.L., T.S. Galloway, and M.H. Depledge|Neuro-Endocrine Biomarkers of Pollution-Induced Stress in Marine Invertebrates|Sci. Total Environ.262(1-2): 185-190|2000|10.1016/S0048-9697(00)00599-4
99460|T||Seitz,H.K., U.A. Simanowski, F.T. Garzon, J.M. Rideout, T.J. Peters, A. Koch, M.R. Berger, H. Einecke, and M. Maiwald|Possible Role of Acetaldehyde in Ethanol-Related Rectal Cocarcinogenesis in the Rat|Gastroenterology98(2): 406-413|1990|10.1016/0016-5085(90)90832-L
99461|T||Altomare,E., I. Grattagliano, G. Vendemiale, V. Palmieri, and G. Palasciano|Acute Ethanol Administration Induces Oxidative Changes in Rat Pancreatic Tissue|Gut38(5): 742-746|1996|10.1136/gut.38.5.742
99462|T||Sano,M., P.A. Motchnik, and A.L. Tappel|Halogenated Hydrocarbon and Hydroperoxide-Induced Peroxidation in Rat Tissue Slices|J. Free Radic. Biol. Med.2(1): 41-48|1986|10.1016/0748-5514(86)90122-4
99463|T||Wester,P.W., E.I. Krajnc, F.X.R. Van Leeuwen, J.G. Loeber, C.A. Van der Heijden, H.A.M.G. Vaessen, and P.W. Helleman|Chronic Toxicity and Carcinogenicity of Bis(Tri-N-Butyltin)Oxide (TBTO) in the Rat|Food Chem. Toxicol.28(3): 179-196|1990|10.1016/0278-6915(90)90006-9
99464|T||Tremblay,N., C. Belec, J. Coulombe, and C. Godin|Evaluation of Calcium Cyanamide and Liming for Control of Clubroot Disease in Cauliflower|Crop Prot.24(9): 798-803|2005|10.1016/j.cropro.2004.12.013
99465|T||Yoon,H.J., M.E. Moon, H.S. Park, H.W. Kim, S.Y. Im, J.H. Lee, and Y.H. Kim|Effects of Chitosan Oligosaccharide (COS) on the Glycerol-Induced Acute Renal Failure In Vitro and In Vivo|Food Chem. Toxicol.46(2): 710-716|2008|10.1016/j.fct.2007.09.111
99467|T||Je,J.Y., P.J. Park, B. Kim, and S.K. Kim|Antihypertensive Activity of Chitin Derivatives|Biopolymers83(3): 250-254|2006|10.1002/bip.20553
99468|AT||Envirosphere Co.|A Risk Assessment Concerning Potential Aquatic Environmental and Public Health Consequences Associated with the Use of Tributyltin Compounds in Antifouling Coatings|Prepared for US EPA Special Review of Tributyltin Compounds (FR 51, No.5: 778-779, Jan.8, 1986), Volume 1:144 p.|1986|
99469|A||Bringolf,R.B., W.G. Cope, M.C. Barnhart, S. Mosher, P.R. Lazaro, and D. Shea|Acute and Chronic Toxicity of Pesticide Formulations (Atrazine, Chlorpyrifos, and Permethrin) to Glochidia and Juveniles of Lampsilis siliquoidea|Environ. Toxicol. Chem.26(10): 2101-2107|2007|10.1897/06-555R.1
99470|T||Jamal,M., K. Ameno, M. Kumihashi, W. Wang, S. Ameno, T. Kubota, and I. Ijiri|Failure of Ethanol and Acetaldehyde to Alter In Vivo Norepinephrine Release in the Striatum and Hippocampus of Rats|Arch. Toxicol.78(12): 723-727|2004|10.1007/s00204-004-0600-1
99471|T||Kamiyama,K., H. Onishi, and Y. Machida|Biodisposition Characteristics of N-Succinyl-Chitosan and Glycol-Chitosan in Normal and Tumor-Bearing Mice|Biol. Pharm. Bull.22(2): 179-186|1999|10.1248/bpb.22.179
99472|T||Siqueira-Junior,C.L., K.V.S. Fernandes, O.L.T. Machado, M. Da Cunha, V.M. Gomes, D. Moura, and T. Jacinto|87 kDa Tomato Cystatin Exhibits Properties of a Defense Protein and Forms Protein Crystals in Prosystemin Overexpressing Transgenic Plants|Plant Physiol. Biochem.40(3): 247-254|2002|10.1016/S0981-9428(02)01364-5
99473|A||Romoren,K., B.J. Thu, and O. Evensen|Immersion Delivery of Plasmid DNA.  II.  A Study of the Potentials of a Chitosan Based Delivery System in Rainbow Trout (Oncorhynchus mykiss) Fry|J. Control. Release85(1-3): 215-225|2002|10.1016/S0168-3659(02)00278-X
99474|T||Yarmo,M.A., C.R.C. Mat, M.R. Zainuddin, Y.K. Samah, and A. Alimuniar|Study on the Effect of Protein Chitin as a Chicken Feed Additive|In: M.B.Zakaria, W.Mohamed wan Muda, and M.P.Abdullah (Eds.), Collection of Working Pap.No.28, Chitin and Chitosan: The Versatile Environmentally Friendly Modern Materials, The Asia-Pacific Chitin and Chitosan Symp., May 23-27, 1994, Kebangsaan:259-264|1995|
99475|T||Rabea,E.I., M.E.I. Badawy, W. Steurbaut, T.M. Rogge, C.V. Stevens, and G. Smagghe|Insect Growth Inhibition by N-Benzyl Chitosan Derivatives in the Cotton Leafworm Spodoptera littoralis|Commun. Agric. Appl. Biol. Sci.69(2): 123-126|2004|
99476|T||Libault,M., J. Wan, T. Czechowski, M. Udvardi, and G. Stacey|Identification of 118 Arabidopsis Transcription Factor and 30 Ubiquitin-Ligase Genes Responding to Chitin, a Plant-Defense Elicitor|Mol. Plant-Microbe Interact.20(8): 900-911|2007|10.1094/MPMI-20-8-0900
99477|T||Fajardo,J.E., R.D. Waniska, R.G. Cuero, and R.E. Pettit|Effects of Chitosan and Aspergillus flavus on Isozymes Related to Phenolic Compound Synthesis and Protein Profiles of Peanut Seeds|Food Biotechnol.8(2-3): 213-228|1994|10.1080/08905439409549876
99478|T||Azab,A.K., V. Doviner, B. Orkin, J. Kleinstern, M. Srebnik, A. Nissan, and A. Rubinstein|Biocompatibility Evaluation of Crosslinked Chitosan Hydrogels After Subcutaneous and Intraperitoneal Implantation in the Rat|J. Biomed. Mater. Res.83(2): 414-422|2007|10.1002/jbm.a.31256
99479|T||Didier,E.S., J.A. Maddry, C.D. Kwong, L.C. Green, K.F. Snowden, and J.A. Shadduck|Screening of Compounds for Antimicrosporidial Activity In Vitro|Folia Parasitol.45(2): 129-139|1998|
99480|T||Abdullah,N., A. Hamzah, J. Ramli, and M. Mardan|Identification of Nasonov Pheromones and the Effects of Synthetic Pheromones on the Clustering Activity of the Asiatic Honeybee (Apis cerana)|Pertanika13(2): 189-194|1990|
99481|T||Pauli,A., and K. Knobloch|Inhibitory Effects of Essential Oil Components on Growth of Food-Contaminating Fungi|Z. Lebensm. -Unters. -Forsch.185(1): 10-13|1987|10.1007/BF01083332
99482|T||Brieger,G.|Juvenile Hormone Mimics:  Structure-Activity Relations for Oncopeltus fasciatus|J. Insect Physiol.17(11): 2085-2093|1971|10.1016/0022-1910(71)90169-7
99483|T||Thiery,D., and F. Marion-Poll|Electroantennogram Responses of Douglas-Fir Seed Chalcids to Plant Volatiles|J. Insect Physiol.44(5-6): 483-490|1998|10.1016/S0022-1910(97)00164-9
99484|T||Mishra,D.N., V. Dixit, and R. Tiwari|Fungitoxic Activity of Some Terpenoids Against Ringworm Fungus, Microsporum gypseum|Natl. Acad. Sci. Lett.14(4): 169-170|1991|
99485|T||Safrankova,I., V. Hejnak, K. Stuchlikova, and J. Ceska|The Effect of Abscisic Acid on Rate of Photosynthesis and Transpiration in Six Barley Genotypes Under Water Stress|Cereal Res. Commun.35(2): 1013-1016|2007|10.1556/CRC.35.2007.2.212
99486|T||Tawatsin,A., P. Asavadachanukorn, U. Thavara, P. Wongsinkongman, J. Bansidhi, T. Boonruad, P. Chavalittumrong, N. Soont|Repellency of Essential Oils Extracted from Plants in Thailand Against Four Mosquito Vectors (Diptera: Culicidae) and Oviposition Deterrent Effects Against Aedes aegypti (Diptera: Culicidae)|Southeast Asian J. Trop. Med. Public Health37(5): 915-931|2006|
99487|A||Gonzalez Romero,M.A., L. Villaescusa Castillo, A.M. Diaz Lanza, C. Bartolome Esteban, and L. Fernandez Matellano|Phytochemistry and Pharmacological Studies of Inula montana L.|Recent Res. Dev. Phytochem.5:255-268|2001|
99488|T||Raina,R., M. Joseph, and A. Sen|Electroantennogram Responses of Chrysoperla carnea (Stephens) to Volatiles|Indian J. Exp. Biol.42(12): 1230-1234|2004|
99489|T||Buta,J.G., and D.W. Spaulding|Effect of Paclobutrazol on Abscisic Acid Levels in Wheat Seedlings|J. Plant Growth Regul.10(2): 59-61|1991|10.1007/BF02279312
99490|T||Meltzer,J., and S. Van Heijnsbergen|Experiments with Neotenine and Isoprenoids on the Colorado Potato Beetle, Leptinotarsa decemlineata Say|Meded. Landbouwhogesch. Opzoekingsstn. Staat Gent30(3): 1599-1608|1965|
99491|T||Ogundero,V.W., and L.O. Adebajo|The Effects of Selected Herbicides on the Survival in Soil of the Fungal Pathogens of Sorghum guineense|Niger. J. Bot.5:15-18|1992|
99492|T||Krishnakumaran,A., and H.A. Schneiderman|Prothoracotrophic Activity of Compounds that Mimic Juvenile Hormone|J. Insect Physiol.11(12): 1517-1532|1965|10.1016/0022-1910(65)90019-3
99493|T||Schneiderman,H.A., A. Krishnakumaran, V.G. Kulkarni, and L. Friedman|Juvenile Hormone Activity of Structurally Unrelated Compounds|J. Insect Physiol.11(12): 1641-1649|1965|10.1016/0022-1910(65)90031-4
99494|T||Granshaw,T., M. Tsukamoto, and S. Brody|Circadian Rhythms in Neurospora crassa:  Farnesol or Geraniol Allow Expression of Rhythmicity in the Otherwise Arrhythmic Strains frq10, wc-1, and wc-2|J. Biol. Rhythms18(4): 287-296|2003|10.1177/0748730403255934
99495|T||Wigglesworth,V.B.|Chemical Structure and Juvenile Hormone Activity:  Comparative Tests on Rhodnius prolixus|J. Insect Physiol.15(1): 73-94|1969|10.1016/0022-1910(69)90213-3
99496|T||Mahmoud,A.L.E.|Antifungal Action and Antiaflatoxigenic Properties of Some Essential Oil Constituents|Lett. Appl. Microbiol.19(2): 110-113|1994|10.1111/j.1472-765X.1994.tb00918.x
99497|T||Mehta,R.C.|Inhibition of Embryonic Development in Earias vittella by Terpenoids|Naturwissenschaften66(1): 56-57|1979|10.1007/BF00369366
99498|T||Jarolim,V., K. Hejno, F. Sehnal, and F. Sorm|Natural and Synthetic Materials with Insect Hormones Activity 8.  Juvenile Activity of the Farnesane-Type Compounds on Galleria mellonella|Life Sci.8(2): 831-841|1969|10.1016/0024-3205(69)90101-5
99499|T||Bryant,P., and J.H. Sang|Drosophila:  Lethal Derangements of Metamorphosis and Modifications of Gene Expression Caused by Juvenile Hormone Mimics|Nature220(5165): 393-394|1968|10.1038/220393a0
99500|T||Hintze-Podufal,C.|The Juvenile Hormone-Like Effect of Farnesol Derivatives on the Pupal Development of Cerura vinula L.|Z. Naturforsch.26b(2): 154-157|1971|10.1515/znb-1971-0220
99501|T||Bodnaryk,R.P.|Potent Effect of Jasmonates on Indole Glucosinolates in Oilseed Rape and Mustard|Phytochemistry35(2): 301-305|1994|10.1016/S0031-9422(00)94752-6
99502|T||Levinson,H.Z.|Studies on the Juvenile Hormone (Neotenin) Activity of Various Hormonomimetic Materials|Riv. Parassitol.27(1): 47-63|1966|
99503|T||Yu,S.J.|Allelochemical Induction of Hormone-Metabolizing Microsomal Monooxygenases in the Fall Armyworm|Zool. Stud.39(3): 243-249|2000|
99504|A||Willemsen,P.R., K. Overbeke, and A. Suurmond|Repetitive Testing of TBTO, Sea-Nine 211 and Farnesol Using Balanus amphitrite (Darwin) Cypris Larvae:  Variability in Larval Sensitivity|Biofouling12(1-3): 133-147|1998|10.1080/08927019809378350
99505|T||Bracken,G.K., and K.K. Nair|Stimulation of Yolk Deposition in an Ichneumonid Parasitoid by Feeding Synthetic Juvenile Hormone|Nature216(5114): 483-484|1967|10.1038/216483a0
99506|T||Pitta-Alvarez,S.I., and A.M. Giulietti|Influence of Chitosan, Acetic Acid and Citric Acid on Growth and Tropane Alkaloid Production in Transformed Roots of Brugmansia candida.  Effect of Medium pH and Growth Phase|Plant Cell Tissue Organ Cult.59(1): 31-38|1999|10.1023/A:1006359429830
99507|T||Vandebriel,R.J., C. Meredith, M.P. Scott, P.J.M. Roholl, and H. Van Loveren|Effects of In Vivo Exposure to bis(Tri-n-Butyltin)Oxide, Hexachlorobenzene, and Benzo(a)pyrene on Cytokine (Receptor) mRNA Levels in Cultured Rat Splenocytes and on IL-2 Receptor Protein Levels|Toxicol. Appl. Pharmacol.148(1): 126-136|1998|10.1006/taap.1997.8294
99508|T||Ramonell,K., M. Berrocal-Lobo, S. Koh, J. Wan, H. Edwards, G. Stacey, and S. Somerville|Loss-of-Function Mutations in Chitin Responsive Genes Show Increased Susceptibility to the Powdery Mildew Pathogen Erysiphe cichoracearum|Plant Physiol.138(2): 1027-1036|2005|10.1104/pp.105.060947
99509|T||Salinas-Mondragon,R.E., C. Garciduenas-Pina, and P. Guzman|Early Elicitor Induction in Members of a Novel Multigene Family Coding for Highly Related Ring-H2 Proteins in Arabidopsis thaliana|Plant Mol. Biol.40(4): 579-590|1999|10.1023/A:1006267201855
99510|T||Stratmann,J.W., and C.A. Ryan|Myelin Basic Protein Kinase Activity in Tomato Leaves is Induced Systemically by Wounding and Increases in Response to Systemin and Oligosaccharide Elicitors|Proc. Natl. Acad. Sci. U.S.A.94(20): 11085-11089|1997|10.1073/pnas.94.20.11085
99511|T||Walker,S.A., V. Viprey, and J.A. Downie|Dissection of Nodulation Signaling Using Pea Mutants Defective for Calcium Spiking Induced by Nod Factors and Chitin Oligomers|Proc. Natl. Acad. Sci. U.S.A.97(24): 13413-13418|2000|10.1073/pnas.230440097
99512|T||Escarabajal,M.D., and C.M.G. Aragon|The Effect of Cyanamide and 4-Methylpyrazole on the Ethanol-Induced Locomotor Activity in Mice|Pharmacol. Biochem. Behav.72(1-2): 389-395|2002|10.1016/S0091-3057(01)00762-6
99513|T||De Zwart,L.L., N.P.E. Vermeulen, R.C.A. Hermanns, J.N.M. Commandeur, P.J.M. Salemink, and J.H.N. Meerman|Urinary Excretion of Biomarkers for Radical-Induced Damage in Rats Treated with NDMA or Diquat and the Effects of Calcium Carbimide Co-Administration|Chem.-Biol. Interact.117(2): 151-172|1999|10.1016/S0009-2797(98)00106-9
99514|T||Choi,H.W., I.M. Chung, M.H. Sin, Y.S. Kim, J.B. Sim, J.W. Kim, K.D. Kim, and S.C. Chun|The Effect of Spent Mushroom Sawdust Compost Mixes, Calcium Cyanamide and Solarization on Basal Stem Rot of the Cactus Hylocereus trigonus Caused by Fusarium oxysporum|Crop Prot.26(2): 162-168|2007|10.1016/j.cropro.2006.04.017
99515|T||Bourbos,V.A., M.T. Skoudridakis, G.A. Darakis, and M. Koulizakis|Calcium Cyanamide and Soil Solarization for the Control of Fusarium solani f.sp. Cucurbitae in Greenhouse Cucumber|Crop Prot.16(4): 383-386|1997|10.1016/S0261-2194(96)00110-X
99517|A||Liu,L.L., and I.J. Suen|Organotins Promoting the Development of Imposex in the Oyster Drill Thais clavigera|J. Fish. Soc. Taiwan23(2): 149-154|1996|
99518|T||Liu,J., J. Zhang, and W. Xia|Hypocholesterolaemic Effects of Different Chitosan Samples In Vitro and In Vivo|Food Chem.107(1): 419-425|2008|10.1016/j.foodchem.2007.08.044
99519|A||Esteban,M.A., V. Mulero, A. Cuesta, J. Ortuno, and J. Meseguer|Effects of Injecting Chitin Particles on the Innate Immune Response of Gilthead Seabream (Sparus aurata L.)|Fish Shellfish Immunol.10(6): 543-554|2000|10.1006/fsim.2000.0271
99520|A||Soltanian,S., J.M. Francois, J. Dhont, S. Arnouts, P. Sorgeloos, and P. Bossier|Enhanced Disease Resistance in Artemia by Application of Commercial beta-Glucans Sources and Chitin in a Gnotobiotic Artemia Challenge Test|Fish Shellfish Immunol.23(6): 1304-1314|2007|10.1016/j.fsi.2007.07.004
99524|T||Lapointe,G., M.D. Luckevich, M. Cloutier, and A. Seguin|14-3-3 Gene Family in Hybrid Poplar and Its Involvement in Tree Defence Against Pathogens|J. Exp. Bot.52(359): 1331-1338|2001|
99525|A||Martins,J.C., M.L. Saker, L.F. Oliva Teles, and V.M. Vasconcelos|Oxygen Consumption by Daphnia magna Straus as a Marker of Chemical Stress in the Aquatic Environment|Environ. Toxicol. Chem.26(9): 1987-1991|2007|10.1897/07-051R.1
99531|T||Moraes,R.A., M.P. Sales, and J. Xavier-Filho|The Performance of Callosobruchus maculatus F. (Coleoptera:  Bruchidae) in Chitin Containing Artificial Seeds|An. Soc. Entomol. Bras.27(2): 303-305|1998|10.1590/S0301-80591998000200019
99532|T||Abdel-Rahman,A., A.K. Shetty, and M.B. Abou-Donia|Subchronic Dermal Application of N,N-Diethyl M-Toluamide (DEET) and Permethrin to Adult Rats, Alone or in Combination, Causes Diffuse Neuronal Cell Death and Cytoskeletal Abnormalities in the Cerebral Cortex and the Hip|Exp. Neurol.172(1): 153-171|2001|10.1006/exnr.2001.7807
99533|T||Van Haaren,F., B. Cody, J.B. Hoy, J.L. Karlix, C.J. Schmidt, I.R. Tebbett, and D. Wielbo|The Effects of Pyridostigmine Bromide and Permethrin, Alone or in Combination, on Response Acquisition in Male and Female Rats|Pharmacol. Biochem. Behav.66(4): 739-746|2000|10.1016/S0091-3057(00)00282-3
99534|T||Abou-Donia,M.B., A.M. Dechkovskaia, L.B. Goldstein, A. Abdel-Rahman, S.L. Bullman, and W.A. Khan|Co-Exposure to Pyridostigmine Bromide, DEET, and/or Permethrin Causes Sensorimotor Deficit and Alterations in Brain Acetylcholinesterase Activity|Pharmacol. Biochem. Behav.77(2): 253-262|2004|10.1016/j.pbb.2003.10.018
99535|T||Zhang,S.Y., Y. Ito, O. Yamanoshita, Y. Yanagiba, M. Kobayashi, K. Taya, C. Li, A. Okamura, M. Miyata, J. Ueyama, C.H. L|Permethrin may Disrupt Testosterone Biosynthesis via Mitochondrial Membrane Damage of Leydig Cells in Adult Male Mouse|Endocrinology148(8): 3941-3949|2007|10.1210/en.2006-1497
99536|T||Nasuti,C., R. Gabbianelli, M.L. Falcioni, A. Di Stefano, P. Sozio, and F. Cantalamessa|Dopaminergic System Modulation, Behavioral Changes, and Oxidative Stress After Neonatal Administration of Pyrethroids|Toxicology229(3): 194-205|2007|10.1016/j.tox.2006.10.015
99537|T||McCain,W.C., R. Lee, M.S. Johnson, J.E. Whaley, J.W. Ferguson, P. Beall, and G. Leach|Acute Oral Toxicity Study of Pyridostigmine Bromide, Permethrin, and DEET in the Laboratory Rat|J. Toxicol. Environ. Health50(2): 113-124|1997|10.1080/009841097160528
99538|T||Kou,J., and J.R. Bloomquist|Neurotoxicity in Murine Striatal Dopaminergic Pathways Following Long-Term Application of Low Doses of Permethrin and MPTP|Toxicol. Lett.171(3): 154-161|2007|10.1016/j.toxlet.2007.05.005
99539|AT||Upatham,E.S., J. Seeyave, and J. Engelhart|Studies on the Effects of Organotin Compounds on St. Lucian Bananas and Biomphalaria glabrata|Controlled Release Pestic.Symp., Univ.of Akron, Akron, OH:9 p.|1974|
99540|T||Imamura,L., H. Hasegawa, K. Kurashina, T. Matsuno, and M. Tsuda|Neonatal Exposure of Newborn Mice to Pyrethroid (Permethrin) Represses Activity-Dependent C-Fos mRNA Expression in Cerebellum|Arch. Toxicol.76(7): 392-397|2002|10.1007/s00204-002-0358-2
99541|T||Chang,M.M., D. Horovitz, D. Culley, and L.A. Hadwiger|Molecular Cloning and Characterization of a Pea Chitinase Gene Expressed in Response to Wounding, Fungal Infection and the Elicitor Chitosan|Plant Mol. Biol.28(1): 105-111|1995|10.1007/BF00042042
99542|T||Savoure,A., C. Sallaud, J. El-Turk, J. Zuanazzi, P. Ratet, M. Schultze, A. Kondorosi, R. Esnault, and E. Kondorosi|Distinct Response of Medicago Suspension Cultures and Roots to Nod Factors and Chitin Oligomers in the Elicitation of Defense-Related Responses|Plant J.11(2): 277-287|1997|10.1046/j.1365-313X.1997.11020277.x
99543|T||Agrawal,G.K., N.S. Jwa, S.K. Agrawal, S. Tamogami, H. Iwahashi, and R. Rakwal|Cloning of Novel Rice Allene Oxide Cyclase (OsAOC):  mRNA Expression and Comparative Analysis with Allene Oxide Synthase (OsAOS) Gene Provides Insight into the Transcriptional Regulation of Octadecanoid Pathway Biosynth|Plant Sci.164(6): 979-992|2003|10.1016/S0168-9452(03)00082-7
99544|T||Rothe,G., U. Garske, and B. Drager|Calystegines in Root Cultures of Atropa belladonna Respond to Sucrose, not to Elicitation|Plant Sci.160(5): 1043-1053|2001|10.1016/S0168-9452(01)00355-7
99545|T||Zhang,B., K. Ramonell, S. Somerville, and G. Stacey|Characterization of Early, Chitin-Induced Gene Expression in Arabidopsis|Mol. Plant-Microbe Interact.15(9): 963-970|2002|10.1094/MPMI.2002.15.9.963
99546|T||Tada,Y., S. Hata, Y. Takata, H. Nakayashiki, Y. Tosa, and S. Mayama|Induction and Signaling of an Apoptotic Response Typified by DNA Laddering in the Defense Response of Oats to Infection and Elicitors|Mol. Plant-Microbe Interact.14(4): 477-486|2001|10.1094/MPMI.2001.14.4.477
99547|T||Khanal,D.R., K. Miyatake, Y. Okamoto, T. Shinobu, M. Morimoto, H. Saimoto, Y. Shigemasa, S. Tokura, and S. Minami|Phosphated Chitin (P-Chitin) Exerts Protective Effects by Restoring the Deformability of Polymorphonuclear Neutrophil (PMN) Cells|Carbohydr. Polym.48(3): 305-311|2002|10.1016/S0144-8617(01)00262-4
99548|T||Pletsch,M., and B.V. Charlwood|Accumulation of Diterpenoids in Cell and Root-Organ Cultures of Jatropha Species|J. Plant Physiol.150(1-2): 37-45|1997|10.1016/S0176-1617(97)80178-2
99549|T||Okamoto,Y., S. Minami, A. Matsuhashi, H. Sashiwa, H. Saimoto, Y. Shigemasa, T. Tanigawa, Y. Tanaka, and S. Tokura|Polymeric N-Acetyl-D-Glucosamine (Chitin) Induces Histionic Activation in Dogs|J. Vet. Med. Sci.55(5): 739-742|1993|10.1292/jvms.55.739
99550|A||Wang,D.Y., and B.Q. Huang|TBT (Tributyltin) Toxicity to the Visual and Olfactory Functions of Tigerperch (Terapon jarbua Forsskal)|Zool. Stud.38(2): 189-195|1999|
99551|T||Van Haaren,F., S.C. Haworth, S.M. Bennett, B.A. Cody, J.B. Hoy, J.L. Karlix, and I.R. Tebbett|The Effects of Pyridostigmine Bromide, Permethrin, and DEET Alone, or in Combination, on Fixed-Ratio and Fixed-Interval Behavior in Male and Female Rats|Pharmacol. Biochem. Behav.69(1/2): 23-33|2001|10.1016/S0091-3057(01)00504-4
99552|T||McLaughlin,R.E., D.A. Focks, and D.A. Dame|Residual Activity of Permethrin on Cattle as Determined by Mosquito Bioassays|Am. Mosq. Control Assoc. J.5(1): 60-63|1989|
99553|T||Saxena,P.N., and V. Tomar|Assessment of Comparative Hemotoxicity of Cybil and Fenvalerate in Rattus norvegicus|Bull. Environ. Contam. Toxicol.70(4): 839-846|2003|10.1007/s00128-003-0058-5
99554|T||Lee,K.T., T. Yamakawa, T. Kodama, and K. Shimomura|Effects of Chemicals on Alkaloid Production by Transformed Roots of Belladonna|Phytochemistry49(8): 2343-2347|1998|10.1016/S0031-9422(97)01074-1
99555|T||Pearce,G., P.A. Marchand, J. Griswold, N.G. Lewis, and C.A. Ryan|Accumulation of Feruloyltyramine and P-Coumaroyltyramine in Tomato Leaves in Response to Wounding|Phytochemistry47(4): 659-664|1998|10.1016/S0031-9422(97)00620-1
99556|T||Osuji,G.O., and W.C. Madu|Ammonium Ion Salvage by Glutamate Dehydrogenase During Defence Response in Maize|Phytochemistry42(6): 1491-1498|1996|10.1016/0031-9422(96)00169-0
99557|T||Elliott,M., N.F. Janes, D.A. Pulman, L.C. Gaughan, T. Unai, and J.E. Casida|Radiosynthesis and Metabolism in Rats of the 1R Isomers of the Insecticide Permethrin|J. Agric. Food Chem.24:270-276|1976|10.1021/jf60204a007
99558|A||Kungolos,A., S. Hadjispyrou, M. Petala, V. Tsiridis, P. Samaras, and G.P. Sakellaropoulos|Toxic Properties of Metals and Organotin Compounds and Their Interactions on Daphnia magna and Vibrio fischeri|Water Air Soil Pollut. Focus4(4-5): 101-110|2004|10.1023/B:WAFO.0000044790.41200.04
99559|T||Reed,J.T., B. Layton, C.S. Jackson, and E.,Jr. Flint|Evaluation of Insecticide and Insecticide Combinations for Beet Armyworm Control, 1993|Insectic. Acaric. Tests19:237-238|1994|
99560|A||Mountfort,D., V. Beuzenberg, L. Mackenzie, and L. Rhodes|Enhancement of Growth and Gymnodimine Production by the Marine Dinoflagellate, Karenia selliformis|Harmful Algae5(6): 658-664|2006|10.1016/j.hal.2006.02.001
99562|T||Munoz-Castaneda,J.R., J. Muntane, M.C. Munoz, I. Bujalance, P. Montilla, and I. Tunez|Estradiol and Catecholestrogens Protect Against Adriamycin-Induced Oxidative Stress in Erythrocytes of Ovariectomized Rats|Toxicol. Lett.160(3): 196-203|2006|10.1016/j.toxlet.2005.07.003
99563|A||Neuparth,T., J.W. Bickham, C.W. Theodorakis, F.O. Costa, and M.H. Costa|Endosulfan-Induced Genotoxicity Detected in the Gilthead Seabream, Sparus aurata L., by Means of Flow Cytometry and Micronuclei Assays|Bull. Environ. Contam. Toxicol.76(2): 242-248|2006|10.1007/s00128-006-0913-2
99565|T||McGovern,R.J., C.S. Vavrina, J.W. Noling, L.A. Datnoff, and H.D. Yonce|Evaluation of Application Methods of Metam Sodium for Management of Fusarium Crown and Root Rot in Tomato in Southwest Florida|Plant Dis.82(8): 919-923|1998|10.1094/PDIS.1998.82.8.919
99566|A||Milam,C.D., J.L. Bouldin, J.L. Farris, R. Schulz, M.T. Moore, E.R. Bennett, C.M. Cooper, and S.,Jr. Smith|Evaluating Acute Toxicity of Methyl Parathion Application in Constructed Wetland Mesocosms|Environ. Toxicol.19(5): 471-479|2004|10.1002/tox.20052
99567|T||Luchese,C., R. Brandao, R. De Oliveira, C.W. Nogueira, and F.W. Santos|Efficacy of Diphenyl Diselenide Against Cerebral and Pulmonary Damage Induced by Cadmium in Mice|Toxicol. Lett.173(3): 181-190|2007|10.1016/j.toxlet.2007.07.011
99568|T||Liu,D., T. Li, X. Yang, E. Islam, X. Jin, and Q. Mahmood|Enhancement of Lead Uptake by Hyperaccumulator Plant Species Sedum alfredii Hance Using EDTA and IAA|Bull. Environ. Contam. Toxicol.78(3): 280-283|2007|10.1007/s00128-007-9121-y
99569|T||Noetzel,D.N., and D. Warnes|Efficacy Comparison of Some New Materials for Aphid Control in Small Grain, 1993|Arthropod Manag. Tests19:295-|1994|10.1093/amt/19.1.295
99571|T||Liu,T.X.|Efficacy of Some Insecticides on Poplar Petiole Gall Aphid on Cabbage in the Lower Rio Grande Valley, Texas, 1997-1998|Arthropod Manag. Tests24:104-105|1999|
99572|A||Lin,K., S. Zhou, C. Xu, and W. Liu|Enantiomeric Resolution and Biotoxicity of Methamidophos|J. Agric. Food Chem.54(21): 8134-8138|2006|10.1021/jf061547l
99573|T||Leibelt,D.A., O.R. Hedstrom, K.A. Fischer, C.B. Pereira, and D.E. Williams|Evaluation of Chronic Dietary Exposure to Indole-3-Carbinol and Absorption-Enhanced 3,3'-Diindolylmethane in Sprague-Dawley Rats|Toxicol. Sci.74:10-21|2003|10.1093/toxsci/kfg103
99575|T||Kunimatsu,T., T. Yamada, K. Miyata, S. Yabushita, T. Seki, Y. Okuno, and M. Matsuo|Evaluation for Reliability and Feasibility of the Draft Protocol for the Enhanced Rat 28-Day Subacute Study (OECD Guideline 407) Using Androgen Antagonist Flutamide|Toxicology200(1): 77-89|2004|10.1016/j.tox.2004.03.007
99576|T||Kim,K.B., K.W. Seo, Y.J. Kim, M. Park, C.W. Park, P.Y. Kim, J.I. Kim, and S.H. Lee|Estrogenic Effects of Phenolic Compounds on Glucose-6-Phosphate Dehydrogenase in MCF-7 Cells and Uterine Glutathione Peroxidase in Rats|Chemosphere50(9): 1167-1173|2003|10.1016/S0045-6535(02)00628-8
99577|T||Kaneto,M., S. Kanamori, A. Hishikawa, and K. Kishi|Epididymal Sperm Motion as a Parameter of Male Reproductive Toxicity:  Sperm Motion, Fertility, and Histopathology in Ethinylestradiol-Treated Rats|Reprod. Toxicol.13(4): 279-289|1999|10.1016/S0890-6238(99)00021-0
99578|A||Julius,M.L., J. Stepanek, O. Tedrow, C. Gamble, and H.L. Schoenfuss|Estrogen-Receptor Independent Effects of Two Ubiquitous Environmental Estrogens on Melosira varians Agardh, a Common Component of the Aquatic Primary Production Community|Aquat. Toxicol.85(1): 19-27|2007|10.1016/j.aquatox.2007.07.010
99579|T||Jaeger,W., M.A. Correia, L.M. Bornheim, A. Mahnke, W.G. Hanstein, L. Xue, and L.Z. Benet|Ethynylestradiol-Mediated Induction of Hepatic CYP3A9 in Female Rats:  Implication for Cyclosporine Metabolism|Drug Metab. Dispos.27(12): 1505-1511|1999|
99580|AT||Wallstrom,S., A.D. Dernfalk, M. Bengtsson, S. Kroll, S.M. Gubanski, and S. Karlsson|Image Analysis and Laser Induced Fluorescence Combined to Determine Biological Growth on Silicone Rubber Insulators|Polym. Degrad. Stabil.88(3): 394-400|2005|10.1016/j.polymdegradstab.2004.12.009
99581|A||Mendis,A.H.W., A. Armson, R.C.A. Thompson, and W.B. Grubb|The Response of Intact Strongyloides ratti Infective (L3) Larvae to Substrates and Inhibitors of Respiratory Electron Transport|Int. J. Parasitol.21(8): 965-968|1991|10.1016/0020-7519(91)90174-6
99582|A||McFerren,M.A., and E. Rodriguez|Piscicidal Properties of Piperovatine from Piper piscatorum (Piperaceae)|J. Ethnopharmacol.60(2): 183-187|1998|10.1016/S0378-8741(97)00154-2
99583|T||Alia, and P.P. Saradhi|Suppression in Mitochondrial Electron Transport is the Prime Cause Behind Stress Induced Proline Accumulation|Biochem. Biophys. Res. Commun.193(1): 54-58|1993|10.1006/bbrc.1993.1589
99584|T||Fix,L.A., and F.W.,Jr. Plapp|Effect of Parasitism on Several Detoxification Enzymes in the Tobacco Budworm (Lepidoptera: Noctuidae)|J. Kans. Entomol. Soc.60(3): 421-425|1987|
99585|A||Allan,I.J., W.A. House, A. Parker, and J.E. Carter|Diffusion of the Synthetic Pyrethroid Permethrin into Bed-Sediments|Environ. Sci. Technol.39(2): 523-530|2005|10.1021/es040054z
99586|A||Yang,W., J. Gan, W. Hunter, and F. Spurlock|Effect of Suspended Solids on Bioavailability of Pyrethroid Insecticides|Environ. Toxicol. Chem.25(6): 1585-1591|2006|10.1897/05-448R.1
99587|T||Braun,H.E., G.A. Surgeoner, J. Stanek, and W.E. Ralley|Efficacy and Dissipation of Permethrin for the Control of the Northern Fowl Mite in Hens|Can. Vet. J.22(9): 291-294|1981|
99588|T||Bartlett,G.R., and C.B.O. Keil|Identification and Characterization of a Permethrin Resistance Mechanism in Populations of the Fungus Gnat Lycoriella mali (Fitch) (Diptera:  Sciaridae)|Pestic. Biochem. Physiol.58(3): 173-181|1997|10.1006/pest.1997.2306
99592|A||Lawrence,J.M.|Preliminary Results on the Use of Potassium Permanganate to Counteract the Effects of Rotenone on Fish|Prog. Fish-Cult.18:15-17|1956|10.1577/1548-8659(1956)18[15:PROTUO]2.0.CO;2
99593|T||Amer,S.M., and E.I. Aboul-Ela|Cytogenetic Effects of Pesticides  III. Induction of Micronuclei in Mouse Bone Marrow by the Insecticides Cypermethrin and Rotenone|Mutat. Res.155(3): 135-142|1985|10.1016/0165-1218(85)90132-6
99594|T||Hegde,N.S., T.S. Thontadarya, and K.J. Rao|Effect of Pyrethroids on the Activity of Rogas aligarhensis Qadri (Hym:  Braconidae), a Larval Parasite of the Cotton Spotted Bollworm, Earias vittella (Fabricius)|Mysore J. Agric. Sci.21(3): 305-308|1987|
99595|T||Lockley,T.C.|Tests of Candidates Insecticides for Imported Fire Ant (IFA) Quarantine Treatments in Commercial Grass Sod, 1989|Insectic. Acaric. Tests16:247-248|1991|10.1093/iat/16.1.247a
99596|A||Ocampo,C.B., W.G. Brogdon, C.M. Orrego, G. Toro, and J. Montoya-Lerma|Insecticide Susceptibility in Anopheles pseudopunctipennis from Colombia:  Comparison Between Bioassays and Biochemical Assays|Am. Mosq. Control Assoc. J.16(4): 331-338|2000|
99597|T||Rai,S., N.P. Agnihotri, and H.K. Jain|Persistence of Residues of Synthetic Pyrethroids on Cauliflower and Their Residual Toxicity Against Aphids|Indian J. Agric. Sci.56(9): 667-670|1986|
99598|AT||Ritchie,S.A.|Efficacy of Australian Quarantine Procedures Against the Mosquito Aedes aegypti|Am. Mosq. Control Assoc. J.17(2): 114-117|2001|
99599|AT||Romi,R., L. Toma, F. Severini, and M. Di Luca|Susceptibility of Italian Populations of Aedes albopictus to Temephos and to Other Insecticides|Am. Mosq. Control Assoc. J.19(4): 419-423|2003|
99600|T||Corn,J.L., B.D. Snyder, N. Barre, and G.I. Garris|Effect of Acaricide Treatment of Cattle on Amblyomma variegatum (Acari:  Ixodidae) Infestation of Mongooses (Carnivora:  Viverridae:  Herpestes auropunctatus) in Guadeloupe, French West Indies|J. Med. Entomol.31(3): 490-495|1994|10.1093/jmedent/31.3.490
99601|T||Ogunwolu,O., and O. Idowu|Potential of Powdered Zanthoxylum zanthoxyloides (Rutaceae) Root Bark and Azadirachta indica (Meliaceae) Seed for Control of the Cowpea Seed Bruchid, Callosobruchus maculatus (Bruchidae) in Nigeria|J. Afr. Zool.108(6): 521-528|1994|
99602|A||Yang,W.C., W. Hunter, F. Spurlock, and J. Gan|Bioavailability of Permethrin and Cyfluthrin in Surface Waters with Low Levels of Dissolved Organic Matter|J. Environ. Qual.36(6): 1678-1685|2007|10.2134/jeq2007.0164
99603|A||Yang,W., F. Spurlock, W. Liu, and J. Gan|Effects of Dissolved Organic Matter on Permethrin Bioavailability to Daphnia Species|J. Agric. Food Chem.54(11): 3967-3972|2006|10.1021/jf060217y
99604|A||Wheelock,C.E., J.L. Miller, M.J. Miller, B.M. Phillips, S.A. Huntley, S.J. Gee, R.S. Tjeerdema, and B.D. Hammock|Use of Carboxylesterase Activity to Remove Pyrethroid-Associated Toxicity to Ceriodaphnia dubia and Hyalella azteca in Toxicity Identification Evaluations|Environ. Toxicol. Chem.25(4): 973-984|2006|10.1897/05-334R.1
99605|T||Mullens,B.A., A.C. Gerry, and R.K. Velten|Failure of a Permethrin Treatment Regime to Protect Cattle Against Bluetongue Virus|J. Med. Entomol.38(5): 760-762|2001|10.1603/0022-2585-38.5.760
99606|T||Giles,D.K., T.C. Blewett, S.G. Saiz, A.M. Welsh, and R.I. Krieger|Foliar and Nontarget Deposition from Conventional and Reduced-Volume Pesticide Application in Greenhouses|J. Agric. Food Chem.40(12): 2510-2516|1992|10.1021/jf00024a034
99608|T||Owiny,J.R., and E.D. French|Ectoparasites in a Pigeon Colony|Comp. Med.50(2): 229-230|2000|
99609|T||Bourgaud,F., V. Bouque, and A. Guckert|Production of Flavonoids by Psoralea Hairy Root Cultures|Plant Cell Tissue Organ Cult.56(2): 97-104|1999|10.1023/A:1006206104795
99610|T||Eilenberg,H., S. Pnini-Cohen, S. Schuster, A. Movtchan, and A. Zilberstein|Isolation and Characterization of Chitinase Genes from Pitchers of the Carnivorous Plant Nepenthes khasiana|J. Exp. Bot.57(11): 2775-2784|2006|10.1093/jxb/erl048
99611|T||Hirano,S., M. Hayashi, and S. Okuno|Soybean Seeds Surface-Coated with Depolymerised Chitins:  Chitinase Activity as a Predictive Index for the Harvest of Beans in Field Culture|J. Sci. Food Agric.81(2): 205-209|2001|10.1002/1097-0010(20010115)81:2<205::AID-JSFA798>3.0.CO;2-P
99612|T||Howe,G.A., J. Lightner, J. Browse, and C.A. Ryan|An Octadecanoid Pathway Mutant (JL5) of Tomato is Compromised in Signaling for Defense Against Insect Attack|Plant Cell8(11): 2067-2077|1996|
99613|T||Inbar,M., H. Doostdar, R.M. Sonoda, G.L. Leibee, and R.T. Mayer|Elicitors of Plant Defensive Systems Reduce Insect Densities and Disease Incidence|J. Chem. Ecol.24(1): 135-149|1998|10.1023/A:1022397130895
99614|T||Kim,S.Y., M. Sivaguru, and G. Stacey|Extracellular ATP in Plants.  Visualization, Localization, and Analysis of Physiological Significance in Growth and Signaling|Plant Physiol.142(3): 984-992|2006|10.1104/pp.106.085670
99615|T||Kneer,R., A.A. Poulev, A. Olesinski, and I. Raskin|Characterization of the Elicitor-Induced Biosynthesis and Secretion of Genistein from Roots of Lupinus luteus L.|J. Exp. Bot.50(339): 1553-1559|1999|10.1093/jxb/50.339.1553
99616|T||Purcell,M.F., J.D. Stark, and R.H. Messing|Insecticide Effect on Three Tephritid Fruit Flies and Associated Braconid Parasitoids in Hawaii|J. Econ. Entomol.87(6): 1455-1462|1994|10.1093/jee/87.6.1455
99617|T||Idris,A.B., and E. Grafius|Field Studies on the Effect of Pesticides on the Diamondback Moth (Lepidoptera: Plutellidae) and Parasitism by Diadegma insulare (Hymenoptera: Ichneumonidae)|J. Econ. Entomol.86(4): 1196-1202|1993|10.1093/jee/86.4.1196
99618|T||Sukul,P., and S.K. Handa|Persistence of Permethrin on Chickpea|Indian J. Agric. Sci.56(8): 605-608|1986|
99619|T||Orr,D.B., D.J. Boethel, and M.B. Layton|Effect of Insecticide Applications in Soybeans on Trissolcus basalis (Hymenoptera:  Scelionidae)|J. Econ. Entomol.82(4): 1078-1084|1989|10.1093/jee/82.4.1078
99620|T||Estesen,B.J., N.A. Buck, G.D. Waller, K.S. Taylor, and A. Mamood|Residual Life and Toxicity to Honey Bees (Hymenoptera:  Apidae) of Selected Insecticides Applied to Cotton in Arizona|J. Econ. Entomol.85(3): 700-709|1992|10.1093/jee/85.3.700
99621|T||Southwick,L.M., D.J. Boethel, G.H. Willis, D.C. Rester, J.,Jr. Yanes, N.N.,Jr. Troxclair, and A.N.Jr. Sparks|Deposits and Persistence of Permethrin ULV and EC Applications on Soybean Leaves|J. Econ. Entomol.79(1): 202-207|1986|10.1093/jee/79.1.202
99622|T||Culbreath,A.K., R. Rodriguez-Kabana, and G. Morgan-Jones|The Use of Hemicellulosic Waste Matter for Reduction of the Phytotoxic Effects of Chitin and Control of Root-Knot Nematodes|Nematropica15(1): 49-76|1985|
99623|T||Das,A.C., and D. Mukherjee|Soil Application of Insecticides Influences Microorganisms and Plant Nutrients|Appl. Soil Ecol.14(1): 55-62|2000|10.1016/S0929-1393(99)00042-6
99624|T||Liu,W.J., Y.G. Zhu, Y. Hu, P.N. Williams, A.G. Gault, A.A. Meharg, J.M. Charnock, and F.A. Smith|Arsenic Sequestration in Iron Plaque, Its Accumulation and Speciation in Mature Rice Plants (Oryza sativa L.)|Environ. Sci. Technol.40:5730-5736|2006|10.1021/es060800v
99625|T||Hu,Y., J.H. Li, Y.G. Zhu, Y.Z. Huang, H.Q. Hu, and P. Christie|Sequestration of As by Iron Plaque on the Roots of Three Rice (Oryza sativa L.) Cultivars in a Low-P Soil with or Without P Fertilizer|Environ. Geochem. Health27:169-176|2005|10.1007/s10653-005-0132-5
99626|T||Liu,W.J., Y.G. Zhu, and F.A. Smith|Effects of Iron and Manganese Plaques on Arsenic Uptake by Rice Seedlings (Oryza sativa L.) Grown in Solution Culture Supplied with Arsenate and Arsenite|Plant Soil277(1-2): 127-138|2005|10.1007/s11104-005-6453-4
99627|T||Liu,W.J., Y.G. Zhu, F.A. Smith, and S.E. Smith|Do Iron Plaque and Genotypes Affect Arsenate Uptake and Translocation by Rice Seedlings (Oryza sativa L.) Grown in Solution Culture?|J. Exp. Bot.55(403): 1707-1713|2004|10.1093/jxb/erh205
99628|T||Kucht,S., J. Gross, Y. Hussein, T. Grothe, U. Keller, S. Basar, W.A. Konig, U. Steiner, and E. Leistner|Elimination of Ergoline Alkaloids Following Treatment of Ipomoea asarifolia (Convolvulaceae) with Fungicides|Planta (Multiple Languages)219(4): 619-625|2004|10.1007/s00425-004-1261-2
99629|T||Liu,Z.Q.|Bentazone Uptake into Plant Foliage as Influenced by Surfactants and Carrier pH|Aust. J. Agric. Res.55(9): 967-971|2004|10.1071/AR04046
99630|T||Gisbert,C., R. Ros, A. De Haro, D.J. Walker, M.P. Bernal, R. Serrano, and J. Navarro-Avino|A Plant Genetically Modified that Accumulates Pb is Especially Promising for Phytoremediation|Biochem. Biophys. Res. Commun.303(2): 440-445|2003|10.1016/S0006-291X(03)00349-8
99631|T||Eun,S.O., H.S. Youn, and Y. Lee|Lead Disturbs Microtubule Organization in the Root Meristem of Zea mays|Physiol. Plant. (Multiple Languages)110(3): 357-365|2000|10.1111/j.1399-3054.2000.1100310.x
99632|A||Larkin,P., D.L. Villeneuve, I. Knoebl, A.L. Miracle, B.J. Carter, L. Liu, N.D. Denslow, and G.T. Ankley|Development and Validation of a 2,000-Gene Microarray for the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.26(7): 1497-1506|2007|10.1897/06-501R.1
99633|T||Albers,P.H., M.T. Koterba, R. Rossmann, W.A. Link, J.B. French, R.S. Bennett, and W.C. Bauer|Effects of Methylmercury on Reproduction in American Kestrels|Environ. Toxicol. Chem.26(9): 1856-1866|2007|10.1897/06-592R.1
99634|T||Tsipouridis,C., and T. Thomidis|Sprouting Elimination of Decapitated Peach Trees|Aust. J. Exp. Agric.43(10): 1261-1262|2003|10.1071/EA02147
99635|T||Lalancette,N., R.D. Belding, P.W. Shearer, J.L. Frecon, and W.H. Tietjen|Evaluation of Hydrophobic and Hydrophilic Kaolin Particle Films for Peach Crop, Arthropod and Disease Management|Pest Manag. Sci.61(1): 25-39|2005|10.1002/ps.943
99636|T||Bastias,E.I., M.B. Gonzalez-Moro, and C. Gonzalez-Murua|Zea mays L. amylacea from the Lluta Valley (Arica-Chile) Tolerates Salinity Stress when high Levels of Boron are Available|Plant Soil267(1-2): 73-84|2004|10.1007/s11104-005-4292-y
99637|T||Zhang,N., and K.H. Hasenstein|4,4,4-Trifluoro-3-(Indole-3-)Butyric Acid Promotes Root Elongation in Lactuca sativa Independent of Ethylene Synthesis and pH|Physiol. Plant. (Multiple Languages)116(3): 383-388|2002|10.1034/j.1399-3054.2002.1160314.x
99638|A||Bell,H.E.|Bioaccumulation and Photoinduced Toxicity of Fluoranthene at Different Life-Stages of Chironomus tentans|M.S.Thesis, University of Wisconsin, Madison, WI:138 p.|1995|
99639|A||Bleeker,E.A.J.|Toxicity of Azaarenes:  Mechanisms and Metabolism|Ph.D.Thesis, Univ.of Amsterdam, The Netherlands:148 p.|1999|
99640|A||Bubien,J.K.|A Hypothesis for the Toxic Mechanism of Ammonia to Fish|Ph.D.Thesis, Univ.of Rhode Island, RI:138 p.|1982|
99642|T||Tu,C.M.|Influence of Five Pyrethroid Insecticides on Microbial Populations and Activities in Soil|Microb. Ecol.5(4): 321-327|1980|10.1007/BF02020339
99645|A||Lee,H.L., and R. Winita|Laboratory and Field Evaluation of Permethrin Against Aedes (Stegomyia) albopictus Skuse Larvae|Mosq. Borne Dis. Bull.10(3): 77-82|1993|
99646|AT||Komalamisra,N., Y. Trongtokit, K. Palakul, S. Prummongkol, Y. Samung, C. Apiwathnasorn, T. Phanpoowong, A. Asavanich, a|Insecticide Susceptibility of Mosquitoes Invading Tsunami-Affected Areas of Thailand|Southeast Asian J. Trop. Med. Public Health37(suppl. 3): 118-122|2006|
99647|A||Reza,F.M., and V.A. Vijayan|Differential Tolerance of Two Morphological Variants of Culex tritaeniorhynchus (Diptera: Culicidae), a Japanese Encephalitis Vector, to Pyrethroid Insecticides in Mysore, India|Southeast Asian J. Trop. Med. Public Health37(suppl 3): 128-131|2006|
99648|AT||Sharma,S.N., V.K. Saxena, and S. Lal|Study on Susceptibility Status in Aquatic and Adult Stages of Aedes aegypti and Ae. albopictus Against Insecticides at International Airports of South India|J. Commun. Dis.36(3): 177-181|2004|
99649|T||Luo,C., A.H. Rajput, S. Akhtar, and A. Rajput|alpha-Synuclein and Tyrosine Hydroxylase Expression in Acute Rotenone Toxicity|Int. J. Mol. Med.19(3): 517-521|2007|
99650|A||Vehovszky,A., H. Szabo, L. Hiripi, C.J.H. Elliott, and L. Hernadi|Behavioural and Neural Deficits Induced by Rotenone in the Pond Snail Lymnaea stagnalis.  A Possible Model for Parkinson's Disease in an Invertebrate|Eur. J. Neurosci.25(7): 2123-2130|2007|10.1111/j.1460-9568.2007.05467.x
99651|T||Sances,F.V., N.C. Toscano, and L.K. Gaston|Minimization of Pesticide Residues on Head Lettuce:  Within-Head Residue Distribution of Selected Insecticides|J. Econ. Entomol.85(1): 202-207|1992|10.1093/jee/85.1.202
99652|T||Waller,G.D., B.J. Estesen, N.A. Buck, K.S. Taylor, and L.A. Crowder|Residual Life and Toxicity to Honey Bees (Hymenoptera:  Apidae) of Selected Pyrethroid Formulations Applied to Cotton in Arizona|J. Econ. Entomol.81(4): 1022-1026|1988|10.1093/jee/81.4.1022
99653|T||Abou-Donia,M.B., L.B. Goldstein, K.H. Jones, A.A. Abdel-Rahman, T.V. Damodaran, A.M. Dechkovskaia, S.L. Bullman, B.E. A|Locomotor and Sensorimotor Performance Deficit in Rats Following Exposure to Pyridostigmine Bromide, DEET, and Permethrin, Alone and in Combination|Toxicol. Sci.60(2): 305-314|2001|10.1093/toxsci/60.2.305
99654|T||Abou-Donia,M.B., L.B. Goldstein, A. Dechovskaia, S. Bullman, K.H. Jones, E.A. Herrick, A.A. Abdel-Rahman, and W.A. Khan|Effects of Daily Dermal Application of DEET and Permethrin, Alone and in Combination, on Sensorimotor Performance, Blood-Brain Barrier, and Blood-Testis Barrier in Rats|J. Toxicol. Environ. Health Part A62(7): 523-541|2001|10.1080/152873901300007824
99655|T||Kadota,T., Y. Okuno, H. Kohda, and J. Miyamoto|Mammalian Toxicological Study of Permethrin, 3-Phenoxybenzyl (+ -) -cis, Trans-2-2,Dimethyl-3-(2,2-Dichlorovinyl)-Cyclopropane-1-Carboxylate|Bochu-Kagaku41:143-151|1976|
99656|T||Turner,J.C., V. Shanks, P.J. Osborn, and S.M. Gower|Copper Absorption in Sheep|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 147-150|1987|10.1016/0742-8413(87)90157-5
99657|A||Shapiro,J., and D.I. Wright|Lake Restoration by Biomanipulation:  Round Lake, Minnesota, the First Two Years|Freshw. Biol.14(4): 371-383|1984|10.1111/j.1365-2427.1984.tb00161.x
99658|A||Rosa,R., D. Ocampos, O. Crivellaro, and M. Bacila|Effect of Inhibitors of the Respiratory Chain and Oxidative Phosphorylation on the Endogenous Respiration of the Sea-Urchin Lytechinus variegatus Spermatozoa|Comp. Biochem. Physiol. B Comp. Biochem.58(1): 13-16|1977|10.1016/0305-0491(77)90118-3
99659|A||Sanni,S., and S.B. Waervagen|Oligotrophication as a Result of Planktivorous Fish Removal with Rotenone in the Small, Eutrophic, Lake Mosvatn, Norway|Hydrobiologia (Multiple Languages)200-201(1): 263-274|1990|10.1007/BF02530345
99660|A||Limaverde,A.M., A.L.R. Wagener, M.A. Fernandez, A.L. Scofield, and R. Coutinho|Stramonita haemastoma as a Bioindicator for Organotin Contamination in Coastal Environments|Mar. Environ. Res.64(3): 384-398|2007|10.1016/j.marenvres.2007.03.001
99661|T||Yang,J., L.F. Hu, X. Liu, F. Zhou, J.H. Ding, and G. Hu|Effects of Iptakalim on Extracellular Glutamate and Dopamine Levels in the Striatum of Unilateral 6-Hydroxydopamine-Lesioned Rats:  A Microdialysis Study|Life Sci.78(17): 1940-1944|2006|10.1016/j.lfs.2005.08.001
99662|T||Shono,Y., R. Arakawa, M. Hirano, and Y. Abe|Effect of Pyriproxyfen, Fenitrothion and Permethrin on the Fly Pupal Parasitoids, Spalangia endius and Nasonia vitripennis|Eisei Dobutsu44(1): 29-32|1993|10.7601/mez.44.29
99663|A||Higashi,S., and K. Kawai|Properties and Function of the Respiratory Chain of Freshwater Mussel Spermatozoa in Relation to Motility|Biochim. Biophys. Acta216(2): 274-281|1970|10.1016/0005-2728(70)90219-7
99664|A||Chadderton,L., S. Kelleher, A. Brow, T. Shaw, B. Studholme, and R. Barrier|Testing the Efficacy of Rotenone as a Piscicide for New Zealand Pest Fish Species|In: Managing Invasive Freshwater Fish in New Zealand, Proc. of a Workshop Hosted by Dep. of Conserv., May 10-12, 2001, Hamilton:113-130|2003|
99665|A||Lintermans,M., and T. Raadik|Local Eradication of Trout from Streams Using Rotenone:  The Australian Experience|In: Managing Invasive Freshwater Fish in New Zealand, Proc. of a Workshop Hosted by Dep. of Conserv., May 10-12, 2001, Hamilton:95-111|2003|
99666|T||Stavroulakis,G., K.A. Adediran, A. Nikoloudi, C. Petrakis, A. Kalaitzaki, and S. Michelakis|Rotenone: Efficiency Against Olive Fly (Bactrocera oleae Gmelin) and Residual Activity in Olive Oil|Biol. Agric. Hortic.19(3): 207-217|2001|10.1080/01448765.2001.9754925
99668|T||Cutkomp,L.K.|Toxicity of Rotenone and Derris Extract Administered Orally to Birds|J. Pharmacol. Exp. Ther.77(3): 238-246|1943|
99669|AT||Yap,H.H., T.C. Khoo, H.T. Tan, K.K. Chung, A.M. Yahaya, and V.S. Narayanan|Comparative Adulticidal and Larvicidal Effects of Thermal Fogging Formulations of Resigen and Malathion Against Aedes aegypti (Linnaeus) and Culex quinquefasciatus (Say) in Urban Areas, Malaysia|Trop. Biomed.5(2): 125-130|1988|
99670|A||Hamdan,H., M. Sofian-Azirun, W.A. Nazni, and H.L. Lee|Insecticide Resistance Development in Culex quinquefasciatus (Say), Aedes aegypti (L.) and Aedes albopictus (Skuse) Larvae Against Malathion, Permethrin and Temephos|Trop. Biomed.22(1): 45-52|2005|
99671|AT||Abbassy,M.A., O.A. El-Gougary, S. El-Hamady, and M.A. Sholo|Insecticidal, Acaricidal and Synergistic Effects of Soosan, Pancratium maritimum Extracts and Constituents|J. Egypt. Soc. Parasitol.28(1): 197-205|1998|
99672|A||Verma,K.V.S., and S.J. Rahman|Comparative Efficacy of Synthetic Pyrethroids, Natural Pyrethrins and DDT Against Mosquito Larvae|J. Commun. Dis.16(2): 144-147|1984|
99673|A||Tompkins,W.A.|An Apparent Case of Rotenone Tolerance in a Bluegill, Lepomis macrochirus|Trans. Ky. Acad. Sci.14:43 p.|1953|
99675|T||Qiu,H.M., J.C. Wu, G.Q. Yang, B. Dong, and D.H. Li|Changes in the Uptake Function of the Rice Root to Nitrogen, Phosphorus and Potassium Under Brown Planthopper, Nilaparvata lugens (Stal) (Homoptera:  Delphacidae) and Pesticide Stresses, and Effect of Pesticides on Rice|Crop Prot.23(11): 1041-1048|2004|10.1016/j.cropro.2004.03.005
99676|A||Prato,E., A. Di Leo, F. Biandolino, and N. Cardellicchio|Sediment Toxicity Tests Using Two Species of Marine Amphipods:  Gammarus aequicauda and Corophium insidiosum|Bull. Environ. Contam. Toxicol.76(4): 629-636|2006|10.1007/s00128-006-0966-2
99677|T||Qasem,J.R.|Weed Control in Cauliflower (Brassica oleracea var. botrytis L.) with Herbicides|Crop Prot.26(7): 1013-1020|2007|10.1016/j.cropro.2006.09.010
99678|T||Qasem,J.R.|Chemical Control of Branched Broomrape (Orobanche ramosa) in Glasshouse Grown Tomato|Crop Prot.17(8): 625-630|1998|10.1016/S0261-2194(98)00062-3
99679|T||Qasem,J.R.|Chemical Control of Prosopis farcta (Banks and Sol.) Macbride in the Jordan Valley|Crop Prot.26(4): 572-575|2007|10.1016/j.cropro.2006.04.025
99681|A||Pyle,G.G., C.N. Kamunde, D.G. McDonald, and C.M. Wood|Dietary Sodium Inhibits Aqueous Copper Uptake in Rainbow Trout (Oncorhynchus mykiss)|J. Exp. Biol.206:609-618|2003|10.1242/jeb.00114
99682|T||Pullman,G.S., J. Mein, S. Johnson, and Y. Zhang|Gibberellin Inhibitors Improve Embryogenic Tissue Initiation in Conifers|Plant Cell Rep.23(9): 596-605|2005|10.1007/s00299-004-0880-1
99683|T||Pullen,A.J., P.C. Jepson, and N.W. Sotherton|Terrestrial Non-Target Arthropods and the Autumn Application of Synthetic Pyrethroids:  Experimental Methodology and the Trade-Off Between Replication and Plot Size|Arch. Environ. Contam. Toxicol.23:246-258|1992|10.1007/BF00212283
99684|A||Puglis,H.J., and M.D. Boone|Effects of a Fertilizer, an Insecticide, and a Pathogenic Fungus on Hatching and Survival of Bullfrog (Rana catesbeiana) Tadpoles|Environ. Toxicol. Chem.26(10): 2198-2201|2007|10.1897/07-237R.1
99685|T||Prostak,D.J.|Foliar Sprays to Control European Corn Borer and Fall Armyworm on Sweet Corn, 1994|Arthropod Manag. Tests20:87-|1995|10.1093/amt/20.1.87a
99687|T||Prostak,D.J.|Insecticidal, Biological, and Botanical Control with Foliar Sprays for Whorl-Infesting Insects in Sweet Corn, 1993|Insectic. Acaric. Tests19:92-93|1994|
99688|T||Prostak,D.J.|Foliar Sprays to Control Fall Armyworm on Late Planted Sweet Corn, 1993|Arthropod Manag. Tests19:92-|1994|
99689|T||Pree,D.J., K.J. Whitty, and L. Van Driel|Baseline Susceptibility and Cross Resistance of Some New Acaricides in the European Red Mite, Panonychus ulmi|Exp. Appl. Acarol.37(3/4): 165-171|2005|10.1007/s10493-005-1423-3
99690|T||Pree,D.J., L.A. Bittner, and K.J. Whitty|Characterization of Resistance to Clofentezine in Populations of European Red Mite from Orchards in Ontario|Exp. Appl. Acarol.27(3): 181-193|2002|10.1023/A:1021624421016
99691|T||Pree,D.J., E.A.C. Hagley, C.M. Simpson, and A. Hikichi|Resistance of the Spotted Tentiform Leafminer, Phyllonorycter blancardella (Lepidoptera:  Gracillariidae), to Organophosphorous Insecticides in Southern Ontario|Can. Entomol.112(5): 469-474|1980|10.4039/Ent112469-5
99692|T||Pree,D.J.|Toxicity of Phosmet, Azinphosmethyl, and Permethrin to the Oriental Fruit Moth and Its Parasite, Macrocentrus ancylivorus|Environ. Entomol.8(5): 969-972|1979|10.1093/ee/8.5.969
99693|T||Prasad,B.R., V.S. Singh, S. Chander, and J. Kumar|Residue Evaluation of Controlled-Release Formulations of Imidacloprid Against Rice Leaf Folder|Bull. Environ. Contam. Toxicol.78(3): 235-238|2007|10.1007/s00128-007-9139-1
99694|T||Prabhaker,N., S. Castle, F. Byrne, T.J. Henneberry, and N.C. Toscano|Establishment of Baseline Susceptibility Data to Various Insecticides for Homalodisca coagulata (Homoptera: Cicadellidae) by Comparative Bioassay Techniques|J. Econ. Entomol.99(1): 141-154|2006|10.1603/0022-0493(2006)099[0141:EOBSDT]2.0.CO;2
99695|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Control of Japanese Beetle Larvae on a Golf Couse Fairway in Medina County, Ohio, 1993|Arthropod Manag. Tests19:301-302|1994|10.1093/amt/19.1.301a
99697|T||Pournourmohammadi,S., S.N. Ostad, E. Azizi, M.H. Ghahremani, B. Farzami, B. Minaie, B. Larijani, and M. Abdollahi|Induction of Insulin Resistance by Malathion:  Evidence for Disrupted Islets Cells Metabolism and Mitochondrial Dysfunction|Pestic. Biochem. Physiol.88(3): 346-352|2007|10.1016/j.pestbp.2007.02.001
99698|T||Guerrero-Rodriguez,E., S. Davalos-Luna, and J. Corrales-Reynaga|Response of Mexican Corn Rootworm to Insecticides, 1991|Arthropod Manag. Tests20:329-|1995|10.1093/amt/20.1.329
99699|A||Rasowo,J., O.E. Okoth, and C.C. Ngugi|Effects of Formaldehyde, Sodium Chloride, Potassium Permanganate and Hydrogen Peroxide on Hatch Rate of African Catfish Clarias gariepinus Eggs|Aquaculture269:271-277|2007|10.1016/j.aquaculture.2007.04.087
99700|T||Faruki,S.I., A. Miyanoshita, K. Takahashi, T. Misumi, T. Imamura, H. Naito, M. Goto, and Y. Soma|Susceptibility of Various Developmental Stages of the Maize Weevil, Sitophilus zeamais Motschulsky (Col., Curculionidae) to Methyl Iodide in Brown Rice|J. Appl. Entomol.129(1): 12-16|2005|10.1111/j.1439-0418.2005.00917.x
99702|T||Kania,A., N. Langlade, E. Martinoia, and G. Neumann|Phosphorus Deficiency-Induced Modifications in Citrate Catabolism and in Cytosolic pH as Related to Citrate Exudation in Cluster Roots of White Lupin|Plant Soil248(1/2): 117-127|2003|10.1023/A:1022371115788
99703|T||Fung,K.F., and M.H. Wong|Application of Different Forms of Calcium to Tea Soil to Prevent Aluminium and Fluorine Accumulation|J. Sci. Food Agric.84(12): 1469-1477|2004|10.1002/jsfa.1842
99704|T||Hagley,E.A.C., and M. Chiba|Efficacy of Phosmet and Azinphosmethyl for Control of Major Insect Pests of Apple in Ontario|Can. Entomol.112(10): 1075-1083|1980|10.4039/Ent1121075-10
99705|T||Gadallah,M.A.A., and T. Ramadan|Effects of Zinc and Salinity on Growth and Anatomical Structure of Carthamus tinctorius L.|Biol. Plant. (Praha)39(3): 411-418|1997|10.1023/A:1001036411413
99706|T||Yamamoto,Y., Y. Kobayashi, S.R. Devi, S. Rikiishi, and H. Matsumoto|Aluminum Toxicity is Associated with Mitochondrial Dysfunction and the Production of Reactive Oxygen Species in Plant Cells|Plant Physiol.128:63-72|2002|10.1104/pp.010417
99707|T||Piechalak,A., B. Tomaszewska, and D. Baralkiewicz|Enhancing Phytoremediative Ability of Pisum sativum by EDTA Application|Phytochemistry64(7): 1239-1251|2003|10.1016/S0031-9422(03)00515-6
99708|T||Piechalak,A., B. Tomaszewska, D. Baralkiewicz, and A. Malecka|Accumulation and Detoxification of Lead Ions in Legumes|Phytochemistry60(2): 153-162|2002|10.1016/S0031-9422(02)00067-5
99709|A||Mercado,J.M., J.R. Andria, J.L. Perez-Llorens, J.J. Vergara, and L. Axelsson|Evidence for a Plasmalemma-Based CO2 Concentrating Mechanism in Laminaria saccharina|Photosynth. Res. (Dordr., Online)88(3): 259-268|2006|10.1007/s11120-006-9039-y
99710|A||Mehta,S.K., B.N. Tripathi, and J.P. Gaur|Enhanced Sorption of Cu2+ and Ni2+ by Acid-Pretreated Chlorella vulgaris from Single and Binary Metal Solutions|J. Appl. Phycol.14(4): 267-273|2002|10.1023/A:1021149119472
99711|A||Axelsson,L., J.M. Mercado, and F.L. Figueroa|Utilization of HCO3- at high pH by the Brown Macroalga Laminaria saccharina|Eur. J. Phycol.35(1): 53-59|2000|10.1080/09670260010001735621
99712|A||Planello,R., J.L. Martinez-Guitarte, and G. Morcillo|Ribosomal Genes as Early Targets of Cadmium-Induced Toxicity in Chironomus riparius Larvae|Sci. Total Environ.373(1): 113-121|2007|10.1016/j.scitotenv.2006.10.038
99713|T||Piyachaturawat,P., C. Tubtim, A. Chuncharunee, P. Komaratat, and A. Suksamrarn|Evaluation of the Acute and Subacute Toxicity of a Choleretic Phloracetophenone in Experimental Animals|Toxicol. Lett.129(1-2): 123-132|2002|10.1016/S0378-4274(02)00006-1
99715|T||Podprasart,V., J. Satayavivad, S. Riengrojpitak, P. Wilairat, W. Wananukul, P. Chavalittumrong, S. Chivapat, and K. Yoo|No Direct Hepatotoxic Potential Following a Multiple-Low Dose Paraquat Exposure in Rat as Related to Its Bioaccumulation|Toxicol. Lett.170(3): 193-202|2007|10.1016/j.toxlet.2007.03.006
99716|T||Podwyszynska,M.|Micropropagation of Calathea ornata Koern.|Biol. Plant. (Praha)39(2): 179-186|1997|10.1023/A:1000376400006
99717|T||Poirier,L.A., G.D. Stoner, and M.B. Shimkin|Bioassay of Alkyl Halides and Nucleotide Base Analogs by Pulmonary Tumor Response in Strain A Mice|Cancer Res.35:1411-1415|1975|
99718|A||Poirier,L., F. Quiniou, N. Ruiz, M. Montagu, J.C. Amiard, and Y.F. Pouchus|Toxicity Assessment of Peptaibols and Contaminated Sediments on Crassostrea gigas Embryos|Aquat. Toxicol.83(4): 254-262|2007|10.1016/j.aquatox.2007.04.009
99719|T||Polak,M., D.E. Kroeger, I.L. Cartwright, and C.P. DeLeon|Genotype-Specific Responses of Fluctuating Asymmetry and of Preadult Survival to the Effects of Lead and Temperature Stress in Drosophila melanogaster|Environ. Pollut.127(1): 145-155|2004|10.1016/S0269-7491(03)00238-0
99720|A||Pollino,C.A., E. Georgiades, and D.A. Holdway|Use of the Australian Crimson-Spotted Rainbowfish (Melanotaenia fluviatilis) as a Model Test Species for Investigating the Effects of Endocrine Disruptors|Environ. Toxicol. Chem.26(10): 2171-2178|2007|10.1897/06-603R.1
99721|A||Poovey,A.G., K.D. Getsinger, and A.B. Stewart|Comparative Response of Two Hydrilla Strains to Fluridone|J. Aquat. Plant Manag.43(2): 85-90|2005|
99722|T||Mizutani,A., S. Hirose, H. Imazaki, K. Ohba, T. Ishiguro, and Y. Hayashi|Miticidal Activity of a New Organotin Compound Against Tetranychidae Species|J. Pestic. Sci. (Multiple Languages)17(1): 87-89|1992|10.1584/jpestics.17.87
99723|T||Kabir,K.E., H. Sugimoto, H. Tado, K. Endo, A. Yamanaka, S. Tanaka, and D. Koga|Effect of Bombyx mori Chitinase Against Japanese Pine Sawyer (Monochamus alternatus) Adults as a Biopesticide|Biosci. Biotechnol. Biochem.70(1): 219-229|2006|10.1271/bbb.70.219
99724|T||Tu,C.M.|Effect of Pyrethroid Insecticides on Soybean and Its Pathogen Rhizoctonia solani Kuehn|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(1): 43-50|1982|
99725|T||Brown,M.W.|Resilience of the Natural Arthropod Community on Apple to External Disturbance|Ecol. Entomol.18(3): 169-183|1993|10.1111/j.1365-2311.1993.tb01087.x
99726|T||Prater,M.R., B.L. Blaylock, and S.D. Holladay|Combined Dermal Exposure to Permethrin and cis-Urocanic Acid Suppresses the Contact Hypersensitivity Response in C57BL/6N Mice in an Additive Manner|J. Photochem. Photobiol. B Biol.78(1): 29-34|2005|10.1016/j.jphotobiol.2004.09.004
99727|T||Rice,M.E., and C.D. Pilcher|Imported Longhorned Weevil, Calomycterus setarius, Defoliation and Damage to Soybean in Iowa|J. Kans. Entomol. Soc.70(4): 272-280|1997|
99728|T||Bayer Corp.|Support:  Oncogenicity Study in B6C3F1-Mice (Chlornicotinyl) - Admin in the Food over 2 Years, with TSCA Hlth & Sfty Study Cvr Sht & Continuation Sht Dated 6/12/1998 (Sanitized)|EPA/OTS Doc.# 89980000239S:1-190, 375-395, 412-459, 622-653 -|1998|
99729|T||ELF Atochem North America Inc.|Initial Submission:  Summary of Toxicokinetic Studies on Bis(Tributyltin) Oxide (TBTO) Performed at Schering with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:32 p.|1992|
99730|T||Santhamma,K.R., and A. Bhaduri|Characterization of the Respiratory Chain of Leishmania donovani Promastigotes|Mol. Biochem. Parasitol.75(1): 43-53|1995|10.1016/0166-6851(95)02510-3
99731|T||Ratnasabapathy,R., M. Tom, and C. Post|Modulation of the Hepatic Expression of the Estrogen-Regulated mRNA Stabilizing Factor by Estrogenic and Antiestrogenic Nonsteroidal Xenobiotics|Biochem. Pharmacol.53(10): 1425-1434|1997|10.1016/S0006-2952(97)00084-1
99732|A||Manley,S.L., and P.E. Barbero|Physiological Constraints on Bromoform (CHBr3) Production by Ulva lactuca (Chlorophyta)|Limnol. Oceanogr.46(6): 1392-1399|2001|10.4319/lo.2001.46.6.1392
99733|T||Mao,Y.R., L. Jiang, Y.L. Duan, L.J. An, and B. Jiang|Efficacy of Catalpol as Protectant Against Oxidative Stress and Mitochondrial Dysfunction on Rotenone-Induced Toxicity in Mice Brain|Environ. Toxicol. Pharmacol.23(3): 314-318|2007|10.1016/j.etap.2006.11.012
99734|T||Samantaray,S., V.H. Knaryan, M.K. Guyton, D.D. Matzelle, S.K. Ray, and N.L. Banik|The Parkinsonian Neurotoxin Rotenone Activates Calpain and Caspase-3 Leading to Motoneuron Degeneration in Spinal Cord of Lewis Rats|Neuroscience146(2): 741-755|2007|10.1016/j.neuroscience.2007.01.056
99735|T||Terzi,A., M. Iraz, S. Sahin, A. Ilhan, N. Idiz, and E. Fadillioglu|Protective Effects of Erdosteine on Rotenone-Induced Oxidant Injury in Liver Tissue|Toxicol. Ind. Health20(6-10): 141-147|2004|10.1191/0748233704th208oa
99736|T||Kumasaka,K., M. Miyazawa, T. Fujimaki, H. Tao, B.R. Ramaswamy, H. Nakazawa, T. Makino, and S. Satoh|Toxicity of the Tributyltin Compound on the Testis in Premature Mice|J. Reprod. Dev.48(6): 591-597|2002|10.1262/jrd.48.591
99737|T||ELF Atochem North America Inc.|Initial Submission:  Sub-Acute Feeding Study with bis(Tri-n-Butyltin)Oxide in Rats with Cover Letter Dated 092992|ELF Atochem, King of Prussia, PA:49 p.|1992|
99738|T||Bayer Corp.|Initial Submission:  YRC 2894, Developmental Toxicity Study in Rabbits After Oral Administration, with TSCA Hlth & Sfty Cvr Sht Dated 02/01/99|Bayer Corporation, Pittsburgh, PA:95 p.|1999|
99739|T||Bayer Corp.|Support:  YRC 2894, Developmental Toxicity Study in Rats After Oral Administration, with TSCA Hlth & Sfty Study Cvr Sht Dated 1/29/1999|EPA/OTS Doc.#89990000107:102 p.|1999|
99740|AT||Svestka,M.|Results and Problems of Aerial Application of Pesticides and Biopreparations in Czechoslovak Forestry|Lesnictvi35(11): 1003-1014|1989|
99741|T||Awasthi,M.D.|Chemical Treatments for the Decontamination of Brinjal Fruit from Residues of Synthetic Pyrethroids|Pestic. Sci.17(2): 89-92|1986|10.1002/ps.2780170204
99742|A||Kreutzweiser,D.P., and G.A. Wood|Permethrin Treatments in Canadian Forests. Part 3:  Environmental Fate and Distribution in Streams|Pestic. Sci.33(1): 35-46|1991|10.1002/ps.2780330105
99743|T||Chiba,M.|A Gas Chromatographic Determination of Permethrin Isomers on Peach Foliage|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes13(3): 261-268|1978|
99744|T||Allen,J.G.|Some Patterns of Distribution of Systemic Pesticides in Small Trees and Hops|In: H.Geissbuhler (Ed.), Advances in Pesticide Science, IUPAC Publications, Pergamon Press, Oxford3:443-447|1979|
99745|T||Almeida,A.M., E. Villalobos, S.S. Araujo, B. Leyman, P. Van Dijck, L. Alfaro-Cardoso, P.S. Fevereiro, J.M. Torne, and D|Transformation of Tobacco with an Arabidopsis thaliana Gene Involved in Trehalose Biosynthesis Increases Tolerance to Several Abiotic Stresses|Euphytica 146:165-176|2005|10.1007/s10681-005-7080-0
99747|T||Hoy,J.B., J.A. Cornell, J.L. Karlix, I.R. Tebbett, and F. Van Haaren|Repeated Coadministrations of Pyridostigmine Bromide, DEET, and Permethrin Alter Locomotor Behavior of Rats|Vet. Hum. Toxicol.42(2): 72-76|2000|
99748|T||Hoy,J.B., J.A. Cornell, J.L. Karlix, C.J. Schmidt, I.R. Tebbett, and F. Van Haaren|Interactions of Pyridostigmine Bromide, DEET and Permethrin Alter Locomotor Behavior of Rats|Vet. Hum. Toxicol.42(2): 65-71|2000|
99749|T||Knight,R.L., and M.K. Rust|Repellency and Efficacy of Insecticides Against Foraging Workers in Laboratory Colonies of Argentine Ants (Hymenoptera:  Formicidae)|J. Econ. Entomol.83(4): 1402-1408|1990|10.1093/jee/83.4.1402
99750|T||Rust,M.K., K. Haagsma, and D.A. Reierson|Barrier Sprays to Control Argentine Ants (Hymenoptera:  Formicidae)|J. Econ. Entomol.89(1): 134-137|1996|10.1093/jee/89.1.134
99751|T||Helson,B., W. Kaupp, A. Ceccarelli, and J.T. Arnason|Variation in Susceptibility of Tree-Feeding Insect Species to Photoactivated Thiophene Insecticides|J. Econ. Entomol.89(4): 820-825|1996|10.1093/jee/89.4.820
99753|T||Kubota,N., Y. Yamane, K. Toriu, K. Kawazu, T. Higuchi, and S. Nishimura|Identification of Active Substances in Garlic Responsible for Breaking Bud Dormancy in Grapevines|J. Jpn. Soc. Hortic. Sci.68(6): 1111-1117|1999|10.2503/jjshs.68.1111
99754|T||Barros,R.S., and C.A. Delatorre|1-Aminocyclopropane-1-Carboxylic Acid-Stimulated Germination of Dormant Seeds of Stylosanthes humilis is Inhibited by Abscisic Acid|Seed Sci. Technol.26(2): 319-324|1998|
99755|T||Gemishev,O.T., I.I. Vaseva, and A.P. Atev|Abscisic Acid and Ethylen Influence on Endo-1,4-B-Glucanase Activity in Trichoderma reesei I-27|Biotechnol. Biotechnol. Equip.19(3): 106-112|2005|10.1080/13102818.2005.10817236
99756|T||Gaspar,T., M. Bouchet, A.A. Khan, and D. Fries|Cytokinin Interaction with Abscisic Acid and Coumarin in Relation to Growth and Isoperoxidases of Lentil|Bull. Soc. R. Bot. Belg. (Multiple Languages)108(1): 5-15|1975|
99757|T||Chen,J., W.L. Li, J.L. Wu, B.R. Ren, and H.Q. Zhang|Hypoglycemic Effects of a Sesquiterpene Glycoside Isolated from Leaves of Loquat (Eriobotrya japonica (Thunb.) Lindl.)|Phytomedicine15:98-102|2007|10.1016/j.phymed.2006.12.014
99759|T||Odalo,J.O., M.O. Omolo, H. Malebo, J. Angira, P.M. Njeru, I.O. Ndiege, and A. Hassanali|Repellency of Essential Oils of Some Plants from the Kenyan Coast Against Anopheles gambiae|Acta Trop.95(3): 210-218|2005|10.1016/j.actatropica.2005.06.007
99760|T||Baig,M.H.|Pesticide Residues in Rice|In: CENTO Seminar on the Toxicology of Pesticides:108-112|1974|
99761|T||Suett,D.L.|Factors Influencing the Accumulation of Organophosphorus Insecticides by Carrots|Environ. Qual. Saf.3:140-145|1975|
99762|A||Kokel,D., and D. Xue|A Class of Benzenoid Chemicals Suppresses Apoptosis in C. elegans|Chembiochem7(12): 2010-2015|2006|10.1002/cbic.200600262
99763|T||Benassi,T.E.|Effects of Mowing, Herbicides, and Burning on Plant Community Diversity and Woody Growth Suppression in a Wet Meadow Community|In: G.D.Therres (Ed.), Conservation of Biological Diversity: A Key to the Restoration of the Chesapeake Bay Ecosystem and Beyond:269-273|2001|
99764|T||Giavaresi,G., M. Fini, S. Gnudi, N. Nicoli Aldini, M. Rocca, A. Carpi, and R. Giardino|Comparison of Calcitonin, Alendronate and Fluorophosphate Effects on Ovariectomized Rat Bone|Biomed. Pharmacother.55(7): 397-403|2001|10.1016/S0753-3322(01)00069-5
99765|T||Webb,D.R., A.G. Taylor, M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control Using Pelleted Trigard Seed Treatments, 1991|Insectic. Acaric. Tests17:120-|1992|10.1093/iat/17.1.120
99766|T||Drummond,R.O., S.E. Ernst, J.L. Trevino, W.J. Gladney, and O.H. Graham|Tests of Acaricides for Control of Boophilus annulatus and B. microplus|J. Econ. Entomol.69(1): 37-40|1976|10.1093/jee/69.1.37
99767|T||Brown,L.R., C.O. Eads, C.E. Crisp, and M. Page|Control of a Jeffrey Pine Needleminer by Spraying and Trunk Implantation and Resultant Acephate Residues|J. Econ. Entomol.72(1): 51-54|1979|10.1093/jee/72.1.51
99768|T||O'Keeffe,M., J.F. Eades, and K.L. Strickland|Phosmet Residues in Milk Following Treatment of Dairy Cows for Warble-Fly|J. Sci. Food Agric.34(5): 463-465|1983|10.1002/jsfa.2740340507
99769|T||Fent,G., R. Kubiak, and K.W. Eichhorn|Fate of the New Sulfonylurea Amidosulfuron in Soil|Sci. Total Environ.132(2-3): 201-215|1993|10.1016/0048-9697(93)90132-P
99771|T||Ashburner,M.|Effects of Juvenile Hormone on Adult Differentiation of Drosophila melanogaster|Nature227(5254): 187-189|1970|10.1038/227187a0
99772|T||Okayama,K., T. Nakano, S. Matsutani, and T. Sugimura|A Simple and Reliable Method for Evaluating the Effectiveness of Fungicides for Control of Powdery Mildew (Sphaerotheca macularis) on Strawberry|Nippon Shokubutsu Byori Gakkaiho (Multiple Languages)61(6): 536-540|1995|
99773|T||Ozmen,M., S.F. Topcuoglu, S. Bozcuk, and A.N. Bozcuk|Effects of Abscisic Acid and Gibberellic Acid on Sexual Differentiation and Some Physiological Parameters of Laboratory Mice|Turk. J. Biol. (Turk Biol. Derg. )19(4): 357-364|1995|
99774|T||Hassawi,D.S., and M. Al-Nsour|Abscisic Acid Effects on Maize (Zea mays L.) Embryo Culture|J. Agron.6(1): 204-207|2007|
99775|T||Lee,S.J., J.I. Han, G.S. Lee, M.J. Park, I.G. Choi, K.J. Na, and E.B. Jeung|Antifungal Effect of Eugenol and Nerolidol Against Microsporum gypseum in a Guinea Pig Model|Biol. Pharm. Bull.30(1): 184-188|2007|10.1248/bpb.30.184
99776|T||Cathey,H.M., F.F. Smith, L.E. Campbell, J.G. Hartsock, and J.U. McGuire|Response of Acer rubrum L. to Supplemental Lighting, Reflective Aluminum Soil Mulch, and Systemic Soil Insecticide|J. Am. Soc. Hortic. Sci.100(3): 234-237|1975|10.21273/JASHS.100.3.234
99777|A||Jonsson,C.M., A.H.N. Maia, C.J.A. Ferreira, and E.O. Ribeiro|Risk Assessment of the Herbicide Clomazone to Aquatic Life|Verh. Int. Ver. Theor. Angew. Limnol.26:1724-1726|1998|
99778|T||Qujeq,D., B. Laghaie, A. Gholipour, N. Solimani, and S. Hassenzadeh|Effects of Sodium Fluoride on Total Serum Protein Levels and Transaminase Activity in Rats|Biomed. Pharmacother.56(4): 169-172|2002|10.1016/S0753-3322(02)00172-5
99779|T||Li,Y., N.A. Heerema, A.J. Dunipace, and G.K. Stookey|Genotoxic Effects of Fluoride Evaluated by Sister-Chromatid Exchange|Mutat. Res.192(3): 191-201|1987|
99780|T||Sorensen,K.A., and C.W. Holloway|Colorado Potato Beetle and European Corn Borer Control with Insecticides, Pasquotank Co., NC, 1993|Arthropod Manag. Tests19:131-133|1994|10.1093/amt/19.1.131
99781|T||Thompson,L.S.|Field Evaluation of Insecticides for Control of the Alfalfa Blotch Leafminer and Its Effect on Alfalfa Yield in Prince Edward Island|J. Econ. Entomol.74(3): 363-365|1981|10.1093/jee/74.3.363
99782|T||Schwinghammer,K.A., F.W. Knapp, and J.A. Boling|Physiological Response of Grub-Infested (Diptera:  Oestridae) and Grub-Free Steers to Treatments of Systemic Insecticides|J. Econ. Entomol.78(1): 96-101|1985|10.1093/jee/78.1.96
99783|T||Hauser,E.W., G.A. Buchanan, W.L. Currey, W.J. Ethredge, D.W. Gorbet, J.W. Slaughter, and C.W. Swann|Response of Florunner Peanuts to Planting Dates, Herbicide Sequences, and a Systemic Insecticide|Weed Sci.25(3): 203-211|1977|10.1017/S0043174500033312
99784|T||Abd El-Lateef Gharib,F.|Effect of Salicylic Acid on the Growth, Metabolic Activities and Oil Content of Basil and Marjoram|Int. J. Agric. Biol.8(4): 485-492|2006|
99785|T||Fewkes,D.W.|The Effect of Farnesol on the Eggs of Aeneolamia varia saccharina (Homoptera, Cercopidae)|Naturwissenschaften50(18): 601-602|1963|10.1007/BF00632704
99786|T||Sharma,R.N., and R.M. Raina|Evaluating Chemicals for Eco-Friendly Pest Management-I:  Terpenoids and Fatty Acids for Building Termites|J. Sci. Ind. Res.57(6): 306-309|1998|
99787|T||El-Banhawy,E.M., and B.A. Abou-Awad|Toxicity of the Organophosphate, Methamidophos and Pyrethroid, Cypermethrin, and the Systemic Fungicide, Fenarimol to Adult and Egg Stages of the Datura Mite, Eriophyes datura (Acari:  Eriophyidae)|Bull. Entomol. Soc. Egypt14:199-206|1984|
99788|T||Moody,R., and J.C. Bailey|Soybean Plant Responses to Certain Systemic Insecticides Applied as Granular In-Furrow at Planting|J. Econ. Entomol.67(3): 442-444|1974|10.1093/jee/67.3.442
99789|T||Ellis,P.E., and D.B. Carlisle|Desert Locusts:  Sexual Maturation Delayed by Feeding on Senescent Vegetation|Science149(3683): 546-547|1965|10.1126/science.149.3683.546
99792|T||Vogel,J.S., B.A. Buchholz, N.H. Pawley, R.E. Mauthe, K. Dingley, and K. Turtletaub|Attomole Detection of Isotope-Labeled Compounds in Chemical Defense Research|Report UCRL-JC-125921, Lawrence Livermore National Lab.Edgewood Res., Development and Engineering Center (RDEC).Prepared for Scientific Conference on Obsuration and Areosol Research, Aberdeen Proving Ground, MD, Sponsored by DOE, Washington, D.C.:11 p.|1996|
99793|T||Abou-Donia,M.B.|Toxic Interactions of Prophylactic Drugs and Pesticides|Annual 2001 Report, Duke Univ.Medical Center, Durham, NC:221 p.|2001|
99794|T||Adams,A.J., and A. Palmer|Air-Assisted Electrostatic Application of Permethrin to Glasshouse Tomatoes:  Droplet Distribution and Its Effect upon Whiteflies (Trialeurodes vaporariorum) in the Presence of Encarsia formosa|Crop Prot.8(1): 40-48|1989|10.1016/0261-2194(89)90098-7
99795|T||Ware,G.W., B.J. Estesen, and N.A. Buck|Dislodgable Insecticide Residues on Cotton Foliage: Acephate, AC 222,705, EPN, Fenvalerate, Methomyl, Methyl Parathion, Permethrin, and Thiodicarb|Bull. Environ. Contam. Toxicol.25(4): 608-615|1980|10.1007/BF01985579
99796|T||Ware,G.W., B. Estesen, and W.P. Cahill|Dislodgable Insecticide Residues on Cotton (1975)|Bull. Environ. Contam. Toxicol.20(1): 17-19|1978|10.1007/BF01683478
99797|T||Trimble,R.M., D.J. Pree, and P.M. Vickers|Survey for Insecticide Resistance in Some Ontario Populations of the Apple Leafminer Parasite, Pholetesor ornigis (Weed) (Hymenoptera:  Braconidae)|Can. Entomol.122(9/10): 969-973|1990|10.4039/Ent122969-9
99798|T||Tidwell,M.A., D.C. Williams, T.A. Gwinn, C.J. Pena, S.H. Tedders, G.E. Gonzalvez, and Y. Mekuria|Emergency Control of Aedes aegypti in the Dominican Republic Using the Scorpion 20 ULV Forced-Air Generator|Am. Mosq. Control Assoc. J.10(3): 403-406|1994|
99799|T||Sulaiman,S., B. Omar, J. Jeffery, and V. Busparani|Evaluation of Pyrethroids Lambda-Cyhalothrin, Deltamethrin and Permethrin Against Aedes albopictus in the Laboratory|Am. Mosq. Control Assoc. J.7(2): 322-323|1991|
99800|A||Gibbs,P.E., G.W. Bryan, and P.L. Pascoe|TBT-Induced Imposex in the Dogwhelk, Nucella lapillus:  Geographical Uniformity of the Response and Effects|Mar. Environ. Res.32:79-87|1991|10.1016/0141-1136(91)90035-7
99801|T||Reed,J.P., R.J. Kremer, and A.J. Keaster|Characterization of Microorganisms in Soils Exhibiting Accelerated Pesticide Degradation|Bull. Environ. Contam. Toxicol.39(5): 776-782|1987|10.1007/BF01855854
99802|T||Respicio,N.C., and A.J. Forgash|Contact Toxicity of Six Insecticides to the Gypsy Moth (Lepidoptera:  Lymantriidae) and Its Parasites Brachymeria intermedia (Hymenoptera:  Chalcididae) and Compsilura concinnata (Diptera:  Tachinidae)|Environ. Entomol.13(5): 1357-1360|1984|10.1093/ee/13.5.1357
99803|T||Lyons,D.B., B.V. Helson, G.C. Jones, and J.W. McFarlane|Development of a Chemical Control Strategy for the Pine False Webworm, Acantholyda erythrocephala (L.) (Hymenoptera:  Pamphiliidae)|Can. Entomol.125(3): 499-511|1993|10.4039/Ent125499-3
99804|T||Buck,N.A., B.J. Estesen, and G.W. Ware|Dislodgable Insecticide Residues on Cotton Foliage:  Fenvalarate, Permethrin, Sulprofos, Chlorpyrifos, Methyl Parathion, EPN, Oxamyl, and Profenofos|Bull. Environ. Contam. Toxicol.24(1): 283-288|1980|10.1007/BF01608110
99805|T||Tu,C.M.|Influence of Pesticides and Some of the Oxidized Analogues on Microbial Populations, Nitrification and Respiration Activities in Soil|Bull. Environ. Contam. Toxicol.24(1): 13-19|1980|10.1007/BF01608068
99806|A||Taylor,W.G., and J.A. Shemanchuk|Synthesis and Some Larvicidal Properties of 2,3-Secopermethrin|J. Agric. Food Chem.32(2): 250-253|1984|10.1021/jf00122a018
99807|T||Symington,C.A.|Lethal and Sublethal Effects of Pesticides on the Potato Tuber Moth, Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae) and Its Parasitoid Orgilus lepidus Muesebeck (Hymenoptera: Braconidae)|Crop Prot.22(3): 513-519|2003|10.1016/S0261-2194(02)00204-1
99808|T||Summerlin,B., R. Gold, and J. Cook|Field Evaluation of Gard Star (Permethrin 40% EC) on Red Imported Fire Ant (Rifa), 1995|Arthropod Manag. Tests24:390-|1999|
99809|AT||Vatandoost,H., M. Mashayekhi, M.R. Abaie, M.R. Aflatoonian, A.A. Hanafi-Bojd, and I. Sharifi|Monitoring of Insecticides Resistance in Main Malaria Vectors in a Malarious Area of Kahnooj District, Kerman Province, Southeastern Iran|J. Vector Borne Dis.42(3): 100-108|2005|
99810|T||Sundaram,K.M.S., B.V. Helson, and N.J. Payne|Distribution and Persistence of Aerially Sprayed Permethrin in Some Terrestrial Components of a Boreal Plantation Forest|J. Agric. Food Chem.40(12): 2523-2529|1992|10.1021/jf00024a036
99811|T||Hodjati,M.H., and C.F. Curtis|Evaluation of the Effect of Mosquito Age and Prior Exposure to Insecticide on Pyrethroid Tolerance in Anopheles Mosquitoes (Diptera:  Culicidae)|Bull. Entomol. Res.89(4): 329-337|1999|10.1017/S0007485399000462
99812|T||Van der Kerk,G.J.M., and J.G.A. Luijten|Investigations on Organo-Tin Compounds. III. The Biocidal Properties of Organo-Tin Compounds|J. Appl. Chem.4:314-319|1954|10.1002/jctb.5010040607
99814|T||Horton,D.L., D.C. Sheppard, M.P.,Jr. Nolan, R.J. Ottens, and J.A. Joyce|House Fly (Diptera:  Muscidae) Resistance to Permethrin in a Georgia Caged Layer Poultry Operation|J. Agric. Entomol.2(2): 196-199|1985|
99815|T||Cardarelli,N.F., B.M. Cardarelli, E.P. Libby, and E. Dobbins|Organotin Implications in Anticarcinogenesis.  Effects of Several Organotins on Tumour Growth Rate in Mice|Aust. J. Exp. Biol. Med. Sci.62(Pt. 2): 209-214|1984|10.1038/icb.1984.21
99817|T||Matsushima,S., N. Tsuchiya, K. Fujisawa-Imura, M. Hoshimoto, N. Takasu, M. Torii, K. Ozaki, I. Narana, and T. Kotani|Ultrastructural and Morphometrical Evaluation of the Parathyroid Gland in Iron-Lactate-Overloaded Rats|Toxicol. Pathol.33(5): 533-539|2005|10.1080/01926230591034438
99818|T||Giesecke,D., and P.V. Wallenberg|Metabolism of D(-)Lactic Acid in Rats Given high Intragastral Doses|Comp. Biochem. Physiol. B Comp. Biochem.82(2): 255-258|1985|10.1016/0305-0491(85)90235-4
99819|A||Oak Ridge National Laboratory|Coal Technology Program Quarterly Progress Report for the Period Ending December 31, 1975|Contract No.W-7405-eng-26, Oak Ridge Natl.Lab., Oak Ridge, TN:78 p.|1976|
99822|A||Ponlawat,A., J.G. Scott, and L.C. Harrington|Insecticide Susceptibility of Aedes aegypti and Aedes albopictus Across Thailand|J. Med. Entomol.42(5): 821-825|2005|10.1093/jmedent/42.5.821
99823|A||Liu,H., E.W. Cupp, A. Guo, and N. Liu|Insecticide Resistance in Alabama and Florida Mosquito Strains of Aedes albopictus|J. Med. Entomol.41(5): 946-952|2004|10.1603/0022-2585-41.5.946
99824|A||Taylor,W.G., T.W. Hall, and D.D. Vedres|Synthesis and Larvicidal Properties of Some Cyclopropylcarboxamides Related to cis-Permethrin|J. Agric. Food Chem.46(4): 1572-1576|1998|10.1021/jf9705375
99825|T||Fuxa,J.R., and A.R. Richter|Effects of Soil Moisture and Composition and Fungal Isolate on Prevalence of Beauveria bassiana in Laboratory Colonies of the Red Imported Fire Ant (Hymenoptera:  Formicidae)|Environ. Entomol.33(4): 975-981|2004|10.1603/0046-225X-33.4.975
99827|T||Chen,J.|Digging Behavior of Solenopsis invicta Workers when Exposed to Contact Insecticides|J. Econ. Entomol.99(3): 634-640|2006|10.1093/jee/99.3.634
99828|T||Vargas,A.M., M.J. Lupiani, J.A. Lupianez, and F. Sanchez-Medina|Stimulation of Rat Renal Phosphoenolpyruvate Carboxykinase Activity After an Intravenous Lactic Acid Load|FEBS Lett.127(1): 121-124|1981|10.1016/0014-5793(81)80356-0
99829|T||Shirai,Y., K. Kamimura, T. Seki, and M. Morohashi|L-Lactic Acid as a Mosquito (Diptera:  Culicidae) Repellent on Human and Mouse Skin|J. Med. Entomol.38(1): 51-54|2001|10.1603/0022-2585-38.1.51
99830|T||McLoughlin,P., R.A.F. Linton, and D.M. Band|Effects of Potassium and Lactic Acid on Chemoreceptor Discharge in Anaesthetized Cats|Respir. Physiol.99(3): 303-312|1995|10.1016/0034-5687(94)00108-C
99831|T||Hebert,C.D., H.D. Giles, J.E. Heath, D.B. Hogan, J.P. Modderman, and R.E. Conn|Toxicity of Lactide in Dogs after 2 and 13 Weeks of Daily Oral Dosing|Food Chem. Toxicol.37(4): 335-342|1999|10.1016/S0278-6915(99)00014-9
99832|T||Branco,L.G.S., and A.A. Steiner|Central Thermoregulatory Effects of Lactate in the Toad Bufo paracnemis|Comp. Biochem. Physiol. A Mol. Integr. Physiol.122(4): 457-461|1999|10.1016/S1095-6433(99)00032-X
99833|T||McFarlane,J.E., and I. Alli|The Effect of Lactic Acid and the Volatile Fatty Acids on the Aggregation Behavior of Periplaneta americana (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol.86(1): 45-47|1987|10.1016/0742-8413(87)90142-3
99834|A||De Zwart,D., K.J.M. Kramer, and H.A. Jenner|"Practical Experiences with the Biological Early Warning System ""Mosselmonitor"""|Environ. Toxicol. Water Qual.10(4): 237-247|1995|10.1002/tox.2530100403
99836|T||Smal,D., P. Jasmin, and P. Mercier|Treatment of Neotrombicula autumnalis Dermatitis in Dogs Using Two Topical Permethrin-Pyriproxyfen Combinations|J. Small Anim. Pract.45(2): 98-103|2004|10.1111/j.1748-5827.2004.tb00210.x
99837|T||Panella,N.A., J. Karchesy, G.O. Maupin, J.C.S. Malan, and J. Piesman|Susceptibility of Immature Ixodes scapularis (Acari:  Ixodidae) to Plant-Derived Acaricides|J. Med. Entomol.34(3): 340-345|1997|10.1093/jmedent/34.3.340
99838|T||Hogsette,J.A., J.P. Ruff, and C.J. Jones|Stable Fly Biology and Control in Northwest Florida|J. Agric. Entomol.4(1): 1-11|1987|
99839|T||Barakat,A.A., P. Khan, and A.M.A. Karim|Residual Behavior of the Insecticide Permethrin in Tomatoes, Soil and Different pH Emulsions|Pak. J. Sci. Ind. Res.30(12): 922-924|1987|
99840|T||Newton,J., and D.S. Coombes|A Comparison of a Range of Novel and Conventional Insecticides for Pharaoh's Ant Control|Int. Pest Control29(2): 45-47|1987|
99841|T||Cavaliere,M.J., M.Y.S. Maeda, L.W.S. Shih, and F.R. Puga|Changes in Myelinated Nerve Fibers and Skeletal Muscle of Rats Exposed to high Doses of Permethrin|Biomed. Environ. Sci.3(2): 139-145|1990|
99842|T||Williams,M.A.|Insecticidal Control of Myrmecia pilosula F. Smith (Hymenoptera:  Formicidae)|J. Aust. Entomol. Soc.30(1): 93-94|1991|10.1111/j.1440-6055.1991.tb02202.x
99844|T||Mamood,A.N., and G.D. Waller|Recovery of Learning Responses by Honeybees Following a Sublethal Exposure to Permethrin|Physiol. Entomol.15(1): 55-60|1990|10.1111/j.1365-3032.1990.tb00492.x
99846|A||Corbel,V., M. Raymond, F. Chandre, F. Darriet, and J.M. Hougard|Efficacy of Insecticide Mixtures Against Larvae of Culex quinquefasciatus (Say) (Diptera:  Culicidae) Resistant to Pyrethroids and Carbamates|Pest Manag. Sci.60(4): 375-380|2003|10.1002/ps.809
99847|A||Payne,N.J., B.V. Helson, K.M.S. Sundaram, and R.A. Fleming|Estimating Buffer Zone Widths for Pesticide Applications|Pestic. Sci.24(2): 147-161|1988|10.1002/ps.2780240206
99848|T||Spomer,S.M., L.G. Higley, F.J. Haile, and W.W. Hoback|Alfalfa Insect Control, 1996|Arthropod Manag. Tests22:200-201|1997|10.1093/amt/22.1.200
99849|T||Spomer,S.M., L.G. Higley, F.J. Haile, and W.W. Hoback|Alfalfa Insect Control, 1997|Arthropod Manag. Tests23:175-178|1998|10.1093/amt/23.1.175a
99850|T||Harris,J.P.|Imported Fire Ant Control on Non-cropland, 1996|Arthropod Manag. Tests23:312-|1998|10.1093/amt/23.1.312
99851|T||Shannag,H.K., S.E. Webb, and J.L. Capinera|Entomopathogenic Nematode Effect on Pickleworm (Lepidoptera: Pyralidae) Under Laboratory and Field Conditions|J. Econ. Entomol.87(5): 1205-1212|1994|10.1093/jee/87.5.1205
99852|T||Guichon,P.T., G.K. Jim, C.W. Booker, O.C. Schunicht, B.K. Wildman, and J.R. Brown|Relative Cost-Effectiveness of Treatment of Feedlot Calves with Ivermectin Versus Treatment with a Combination of Fenbendazole, Permethrin, and Fenthion|J. Am. Vet. Med. Assoc.216(12): 1965-1969|2000|10.2460/javma.2000.216.1965
99853|T||Anadon,A., M.J. Diez, M. Sierra, J.A. Sanchez, and M.T. Teran|Microsomal Enzyme Induction by Permethrin in Rats|Vet. Hum. Toxicol.30(4): 309-312|1988|
99854|T||Shashi,A., and S.P. Thapar|Histopathology of Myocardial Damage in Experimental Fluorosis in Rabbits|Fluoride34(1): 43-50|2001|
99855|T||Shashi,A.|Histopathological Effects of Sodium Fluoride on the Duodenum of Rabbits|Fluoride35(1): 28-37|2002|
99856|T||Shayiq,R.M., H. Raza, and A.M. Kidwai|Alteration in Gastric Secretion of Rats Administered NaF|Fluoride17(3): 178-182|1984|
99857|T||Shashi,A., and S.P. Thapar|Histopathology of Fluoride-Induced Hepatotoxicity in Rabbits|Fluoride34(1): 34-42|2001|
99858|T||Clement,J.G., and M. Filbert|Antidote Effect of Sodium Fluoride Against Organophosphate Poisoning in Mice|Life Sci.32(16): 1803-1810|1983|10.1016/0024-3205(83)90057-7
99859|T||Boulet,A.P., M.A. Fortier, and R.D. Lambert|The Embryo Influences Adenylate Cyclase Activity and Hormonal Response in Rabbit Myometrium During Early Pregnancy|Life Sci.43(20): 1653-1662|1988|10.1016/0024-3205(88)90538-3
99860|T||Cerklewski,F.L., and J.W. Ridlington|Influence of Type and Level of Dietary Calcium on Fluoride Bioavailability in the Rat|Nutr. Res.7(10): 1073-1083|1987|10.1016/S0271-5317(87)80178-1
99861|T||Trabelsi,M., F. Guermazi, and N. Zeghal|Effect of Fluoride on Thyroid Function and Cerebellar Development in Mice|Fluoride34(3): 165-173|2001|
99862|T||Shivarajashankara,Y.M., A.R. Shivashankara, P.G. Bhat, and S.H. Rao|Brain Lipid Peroxidation and Antioxidant Systems of Young Rats in Chronic Fluoride Intoxication|Fluoride35(3): 197-203|2002|
99863|T||Machalinska,A., B. Wiszniewska, J. Tarasiuk, and B. Machalinski|Morphological Effects of Sodium Fluoride on Hematopoietic Organs in Mice|Fluoride35(4): 231-238|2002|
99864|T||Shashi,A.|In Vivo Studies Concerning Toxic Effects of Sodium Fluoride on Hepatic Function in Rabbits|Fluoride36(1): 30-37|2003|
99865|T||Shashi|Biochemical Effects of Fluoride on Thyroid Gland During Experimental Fluorosis|Fluoride21(3): 127-130|1988|
99866|T||Shashi,A.|Studies on Alterations in Brain Lipid Metabolism Following Experimental Fluorosis|Fluoride25(2): 77-84|1992|
99867|T||Narayana,M.V., and N.J. Chinoy|Effect of Fluoride on Rat Testicular Steroidogenesis|Fluoride27(1): 7-12|1994|
99868|T||Sondhi,H., M.L. Gupta, and G.L. Gupta|Intestinal Effects of Sodium Fluoride in Swiss Albino Mice|Fluoride28(1): 21-24|1995|
99870|T||Gharzouli,K., A. Gharzouli, L. Aiouaz, and A. Berais|Effect of Sodium Fluoride on the Transmural Potential Difference of the Rat Stomach|Fluoride29(1): 13-19|1996|
99871|T||Chinoy,N.J., and A. Sharma|Amelioration of Fluoride Toxicity by Vitamins E and D in Reproductive Functions of Male Mice|Fluoride31(4): 203-216|1998|
99872|T||Chinoy,N.J., and T.N. Patel|Reversible Toxicity of Fluoride and Aluminium in Liver and Gastrocnemius Muscle of Female Mice|Fluoride32(4): 215-229|1999|
99873|T||Al-Hiyasat,A.S., A.M. Elbetieha, and H. Darmani|Reproductive Toxic Effects of Ingestion of Sodium Fluoride in Female Rats|Fluoride33(2): 79-84|2000|
99874|T||Stolarska,K., W. Czarnowski, B. Urbanska, and J. Krechniak|Fluoride in Hair as an Indicator of Exposure to Fluorine Compounds|Fluoride33(4): 174-181|2000|
99875|T||Birkner,E., E. Grucka-Mamczar, Z. Machoy, R. Tarnawski, and R. Polaniak|Disturbance of Protein Metabolism in Rats After Acute Poisoning with Sodium Fluoride|Fluoride33(4): 182-186|2000|
99876|T||Chinoy,N.J., and T.N. Patel|Effects of Sodium Fluoride and Aluminium Chloride on Ovary and Uterus of Mice and Their Reversal by Some Antidotes|Fluoride34(1): 9-20|2001|
99877|T||Dote,T., K. Kono, K. Usuda, H. Nishiura, and T. Tagawa|Acute Renal Damage Dose Response in Rats to Intravenous Infusion of Sodium Fluoride|Fluoride33(4): 210-217|2000|
99878|T||Chinoy,N.J., and M.R. Memon|Beneficial Effects of Some Vitamins and Calcium on Fluoride and Aluminium Toxicity on Gastrocnemius Muscle and Liver of Male Mice|Fluoride34(1): 21-33|2001|
99879|T||Elbetieha,A., H. Darmani, and A.S. Al-Hiyasat|Fertility Effects of Sodium Fluoride in Male Mice|Fluoride33(3): 128-134|2000|
99880|T||Zeiger,E., D.K. Gulati, P. Kaur, A.H. Mohamed, J. Revazova, and T.G. Deaton|Cytogenetic Studies of Sodium Fluoride in Mice|Mutagenesis9(5): 467-471|1994|10.1093/mutage/9.5.467
99881|T||Sharma,Y.D.|Effect of Sodium Fluoride on Collagen Biosynthesis and Degradation|Toxicol. Environ. Chem.9(3): 237-246|1985|10.1080/02772248509357081
99882|T||Lu,F.C., I.M. Mazurkiewicz, R.S. Grewal, M.G. Allmark, and P. Boivin|The Effect of Sodium Fluoride on Responses to Various Central Nervous System Agents in Rats|Toxicol. Appl. Pharmacol.3(1): 31-38|1961|10.1016/0041-008X(61)90005-9
99883|T||Taylor,J.M., J.K. Scott, E.A. Maynard, F.A. Smith, and H.C. Hodge|Toxic Effects of Fluoride on the Rat Kidney.  I. Acute Injury from Single Large Doses|Toxicol. Appl. Pharmacol.3(3): 278-289|1961|10.1016/0041-008X(61)90067-9
99884|T||Taylor,J.M., D.E. Gardner, J.K. Scott, E.A. Maynard, W.L. Downs, F.A. Smith, and H.C. Hodge|Toxic Effects of Fluoride on the Rat Kidney. II. Chronic Effects|Toxicol. Appl. Pharmacol.3(3): 290-314|1961|10.1016/0041-008X(61)90068-0
99885|T||Suska,M.|The Effect of Sodium Fluoride on the Adenine Nucleotide Pool in Erythrocytes of Wistar Rats|Int. J. Occup. Med. Environ. Health14(4): 369-373|2001|
99886|T||Marie,P.J., and M. Hott|Short-Term Effects of Fluoride and Strontium on Bone Formation and Resorption in the Mouse|Metab. Clin. Exp.35(6): 547-551|1986|10.1016/0026-0495(86)90013-2
99888|T||Sharma,Y.D.|Effect of Sodium Fluoride on Collagen Cross-Link Precursors|Toxicol. Lett.10(1): 97-100|1982|10.1016/0378-4274(82)90274-0
99889|T||Kessabi,M., J.P. Braun, P. Benard, V. Burgat-Sacaze, and A.G. Rico|Acute Kidney Toxicity of Sodium Fluoride in the Rat|Toxicol. Lett.5(2): 169-174|1980|10.1016/0378-4274(80)90168-X
99890|T||Dowd,P.F., and T.C. Sparks|Inhibition of Trans-Permethrin Hydrolysis in Pseudoplusia includens (Walker) and Use of Inhibitors as Pyrethroid Synergists|Pestic. Biochem. Physiol.27(2): 237-245|1987|10.1016/0048-3575(87)90051-4
99891|T||Sidon,E.W., R.P. Moody, and C.A. Franklin|Percutaneous Absorption of cis- and trans-Permethrin in Rhesus Monkeys and Rats:  Anatomic Site and Interspecies Variation|J. Toxicol. Environ. Health23(2): 207-216|1988|10.1080/15287398809531107
99892|T||Leahey,J.P., and P.K. Carpenter|The Uptake of Metabolites of Permethrin by Plants Grown in Soil Treated with [14C]Permethrin|Pestic. Sci.11(2): 279-289|1980|10.1002/ps.2780110221
99893|T||Costa,G., F. Spinelli, E. Sabatini, and W. Rademacher|Incidence of Scab (Venturia inaequalis) in Apple as Affected by Different Plant Growth Retardants|Acta Hortic.653:133-137|2004|10.17660/ActaHortic.2004.653.17
99895|AT||Sibley,P.K., and C. Fortin|Visual Detection of Microencapsulated Insecticides with Selective Staining and Scanning Electron Microscopy|J. Econ. Entomol.82(5): 1323-1327|1989|10.1093/jee/82.5.1323
99896|T||Hogsette,J.A., and J.P. Ruff|Evaluation of Flucythrinate and Fenvalerate-Impregnated Ear Tags and Permethrin Ear Tapes for Fly (Diptera:  Muscidae) Control on Beef and Dairy Cattle in Northwest Florida|J. Econ. Entomol.79(1): 152-157|1986|10.1093/jee/79.1.152
99897|A||Fritzsche,U.I., and G. Cleffmann|The Insecticide Azadirachtin Reduces Predominantly Cellular RNA in Tetrahymena|Naturwissenschaften74:191-192|1987|10.1007/BF00372926
99898|A||Cardol,P., R.F. Matagne, and C. Remacle|Impact of Mutations Affecting ND Mitochondria-Encoded Subunits on the Activity and Assembly of Complex I in Chlamydomonas.  Implication for the Structural Organization of the Enzyme|J. Mol. Biol.319(5): 1211-1221|2002|10.1016/S0022-2836(02)00407-2
99899|T||Charalambous,A., L. Tluczek, K.A. Frey, D.S.,Jr. Higgins, T.J. Greenamyre, and M.R. Kilbourn|Synthesis and Biological Evaluation in Mice of (2-[11C]Methoxy)-6',7'-Dihydrorotenol, a Second Generation Rotenoid for Marking Mitochondrial Complex I Activity|Nucl. Med. Biol.22(4): 491-496|1995|10.1016/0969-8051(94)00129-8
99902|T||Brealey,C.J., P.L. Crampton, P.R. Chadwick, and F.E. Rickett|Resistance Mechanisms to DDT and Transpermethrin in Aedes aegypti|Pestic. Sci.15:121-132|1984|10.1002/ps.2780150205
99903|T||Kaakeh,W., and G.W. Bennett|Developmental Stage- and Gender-Dependent Differential Susceptibility of German Cockroaches (Dictyoptera:  Blattellidae) to Various Commercial Baits|J. Agric. Urban Entomol.16(1): 9-24|1999|
99904|T||Peele,D.B., and K.M. Crofton|Pyrethroid Effects on Schedule-Controlled Behavior:  Time and Dosage Relationships|Neurotoxicol. Teratol.9(5): 387-394|1987|10.1016/0892-0362(87)90035-3
99905|A||Cragg,S.M., and R.A. Eaton|Evaluation of Creosote Fortified with Synthetic Pyrethroids as Wood Perservatives for Use in the Sea. II. Effects on Wood-Degrading Micro-Organisms and Fouling Invertebrates|Mater. Org.31(3): 197-216|1997|
99906|T||Mahboob,M., M.K.J. Siddiqui, and K. Jamil|The Effect of Subacute Administration of a Neem Pesticide on Rat Metabolic Enzymes|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes33(4): 425-438|1998|
99907|AT||Gayathri,V., and P.B. Murthy|Reduced Susceptibility to Deltamethrin and KDR Mutation in Anopheles stephensi Liston, a Malaria Vector in India|Am. Mosq. Control Assoc. J.22(4): 678-688|2006|10.2987/8756-971X(2006)22[678:RSTDAK]2.0.CO;2
99908|T||Mason,G.A., and M.W. Johnson|Tolerance to Permethrin and Fenvalerate in Hymenopterous Parasitoids Associated with Liriomyza spp. (Diptera:  Agromyzidae)|J. Econ. Entomol.81(1): 123-126|1988|10.1093/jee/81.1.123
99909|T||Beard,M.L., G.O. Maupin, R.B. Craven, C.E. Montman, and A.M. Barnes|Laboratory and Field Trials of Permethrin-Treated Cotton Used as Nesting Material to Control Fleas (Insecta:  Siphonaptera) on Cricetid Rodents|J. Med. Entomol.29(2): 338-342|1992|10.1093/jmedent/29.2.338
99910|T||Buchholz,B.A., N.H. Pawley, J.S. Vogel, and R.J. Mauthe|Pyrethroid Decrease in Central Nervous System from Nerve Agent Pretreatment|J. Appl. Toxicol.17(4): 231-234|1977|10.1002/(SICI)1099-1263(199707)17:4<231::AID-JAT434>3.0.CO;2-J
99911|T||Hudson,P.M., H.A. Tilson, P.H. Chen, and J.S. Hong|Neurobehavioral Effects of Permethrin are Associated with Alterations in Regional Levels of Biogenic Amine Metabolites and Amino Acid Neurotransmitters|Neurotoxicology7(1): 143-154|1986|
99912|T||Herr,D.W., J.S. Hong, P. Chen, H.A. Tilson, and G.J. Harry|Pharmacological Modification of DDT-Induced Tremor and Hyperthermia in Rats:  Distributional Factors|Psychopharmacology89(3): 278-283|1986|10.1007/BF00174359
99913|T||Lindquist,R.K., D.E. Simonet, and H.R. Krueger|Comparison of Permethrin Applied as a Foliar Spray and Root Soak for Cabbage Looper Control on Greenhouse Chrysanthemum Cuttings and Celery Transplants|J. Econ. Entomol.73(3): 381-384|1980|10.1093/jee/73.3.381
99914|T||Bloom,A.S., C.G. Staatz, and T. Dieringer|Pyrethroid Effects on Operant Responding and Feeding|Neurobehav. Toxicol. Teratol.5(3): 321-324|1983|
99915|T||Prater,M.R., R.M.,Jr. Gogal, B.L. Blaylock, and S.D. Holladay|Cis-Urocanic Acid Increases Immunotoxicity and Lethality of Dermally Administered Permethrin in C57BL/6N Mice|Int. J. Toxicol.22(1): 35-42|2003|10.1080/10915810305070
99916|T||Punareewattana,K., B.J. Smith, B.L. Blaylock, J.L. Robertson, R.M.,Jr. Gogal, M.R. Prater, J. Longstreth, H.L. Snodgras|Topical Permethrin Exposure Causes Thymic Atrophy and Persistent Inhibition of the Contact Hypersensitivity Response in C57Bl/6 Mice|Int. J. Toxicol.19(6): 383-389|2000|10.1080/109158100750058730
99917|T||Hong,J.S., D.W. Herr, P.M. Hudson, and H.A. Tilson|Neurochemical Effects of DDT in Rat Brain In Vivo|Arch. Toxicol.Suppl. 9:14-26|1986|10.1007/978-3-642-71248-7_2
99918|T||Papadopoulou-Mourkidou,E., and T. Tomazou|Persistence and Activity of Permethrin in Stored Wheat and Its Residues in Wheat Milling Fractions|J. Stored Prod. Res.27(4): 249-254|1991|10.1016/0022-474X(91)90008-Z
99919|T||Franz,T.J., P.A. Lehman, S.F. Franz, and J.D. Guin|Comparative Percutaneous Absorption of Lindane and Permethrin|Arch.Dermatol.132(8): 901-905|1996|10.1001/archderm.1996.03890320049007
99920|T||Glinsukon,T., R. Somjaree, P. Piyachaturawat, and Y. Thebtaranonth|Acute Toxicity of Nimbolide and Nimbic Acid in Mice, Rats and Hamsters|Toxicol. Lett.30(2): 159-166|1986|10.1016/0378-4274(86)90098-6
99921|T||Gonzalez,M.S., and E.S. Garcia|Effect of Azadirachtin on the Development of Trypanosoma cruzi in Different Species of Triatomine Insect Vectors:  Long-Term and Comparative Studies|J. Invertebr. Pathol.60(2): 201-205|1992|10.1016/0022-2011(92)90098-O
99922|T||Ebenso,I.E.|Molluscicidal Effects of Neem (Azadirachta indica) Extracts on Edible Tropical Land Snails|Pest Manag. Sci.60(2): 178-182|2004|10.1002/ps.810
99923|T||Zasada,I.A., H. Ferris, and L.Q. Zheng|Plant Sources of Chinese Herbal Remedies:  Laboratory Efficacy, Suppression of Meloidogyne javanica in Soil, and Phytotoxicity Assays|J. Nematol.34(2): 124-129|2002|
99924|T||Weathersbee III,A.A., and C.L. McKenzie|Effect of a Neem Biopesticide on Repellency, Mortality, Oviposition, and Development of Diaphorina citri (Homoptera:  Psyllidae)|Fla. Entomol.88(4): 401-407|2005|10.1653/0015-4040(2005)88[401:EOANBO]2.0.CO;2
99925|A||Udeinya,I.J., N. Brown, E.N. Shu, F.I. Udeinya, and I. Quakeyie|Fractions of an Antimalarial Neem-Leaf Extract have Activities Superior to Chloroquine, and are Gametocytocidal|Ann. Trop. Med. Parasitol.100(1): 17-22|2006|10.1179/136485906X78508
99926|T||Makita,Y., M. Omura, A. Tanaka, and C. Kiyohara|Effects of Concurrent Exposure to Tributyltin and 1,1-Dichloro-2,2 bis (p-Chlorophenyl) Ethylene (p,p'-DDE) on Immature Male Wistar Rats|Basic Clin. Pharmacol. Toxicol.97(6): 364-368|2005|10.1111/j.1742-7843.2005.pto_199.x
99927|T||Javed,N., S. El-Hassan, S. Gowen, B. Pemproke, and M. Inam-ul-Haq|The Potential of Combining Pasteuria penetrans and Neem (Azadirachta indica) Formulations as a Management System for Root-Knot Nematodes on Tomato|Eur. J. Plant Pathol.120(1): 53-60|2008|10.1007/s10658-007-9196-7
99928|T||Majumdar,D., S. Kumar, H. Pathak, M.C. Jain, and U. Kumar|Reducing Nitrous Oxide Emission from an Irrigated Rice Field of North India with Nitrification Inhibitors|Agric. Ecosyst. Environ.81(3): 163-169|2000|10.1016/S0167-8809(00)00156-0
99929|T||Papaioannou,K.Z., R.P. Murphy, R.S. Monks, N. Hynes, M.P. Ryan, M.P. Boland, and J.F. Roche|Assessment of Viability and Mitochondrial Function of Equine Spermatozoa Using Double Staining and Flow Cytometry|Theriogenology48(2): 299-312|1997|10.1016/S0093-691X(97)84077-0
99930|A||Hernandez,F.R., and J.F. Turrens|Rotenone at high Concentrations Inhibits NADH-Fumarate Reductase and the Mitochondrial Respiratory Chain of Trypanosoma brucei and T. cruzi|Mol. Biochem. Parasitol.93(1): 135-137|1998|10.1016/S0166-6851(98)00015-2
99931|T||Charleston,D.S., R. Gols, K.A. Hordijk, R. Kfir, L.E.M. Vet, and M. Dicke|Impact of Botanical Pesticides Derived from Melia azedarach and Azadirachta indica Plants on the Emission of Volatiles that Attract Parasitoids of the Diamondback Moth to Cabbage Plants|J. Chem. Ecol.32(2): 325-349|2006|10.1007/s10886-005-9004-9
99932|T||Allameh,A., M.R. Abyaneh, M. Shams, M.B. Rezaee, and K. Jaimand|Effects of Neem Leaf Extract on Production of Aflatoxins and Activities of Fatty Acid Synthetase, Isocitrate Dehydrogenase and Glutathione S-Transferase in Aspergillus parasiticus|Mycopathologia154(2): 79-84|2001|10.1023/A:1015550323749
99933|T||Al Charchafchi,F.M.R., I. Al-Nabhani, H. Al-Kharousi, F. Al-Quraini, and A. Al-Hanai|Effect of Aqueous Extract of Azadirachta indica (Neem) Leaves on Germination and Seedling Growth of Vigna radiata (L.)|Pak. J. Biol. Sci.10(21): 3885-3889|2007|10.3923/pjbs.2007.3885.3889
99934|T||Reniprabha,A., S. Muralidharan, and M.A. Subramanian|Impact of Plant Extracts on Molting in the Larvae of Mosquito Culex sp.|Environ. Ecol.17(4): 1022-1024|1999|
99935|T||Nehnevajova,E., R. Herzig, K.H. Erismann, and J.P. Schwitzguebel|In Vitro Breeding of Brassica juncea L. to Enhance Metal Accumulation and Extraction Properties|Plant Cell Rep.26(4): 429-437|2007|10.1007/s00299-006-0264-9
99936|A||Dragun,Z., M. Erk, B. Raspor, D. Ivankovic, and J. Pavicic|Metal and Metallothionein Level in the Heat-Treated Cytosol of Gills of Transplanted Mussels Mytilus galloprovincialis Lmk|Environ. Int.30(8): 1019-1025|2004|10.1016/j.envint.2004.05.001
99937|T||Erenoglu,B., I. Cakmak, V. Romheld, R. Derici, and Z. Rengel|Uptake of Zinc by Rye, Bread Wheat and Durum Wheat Cultivars Differing in Zinc Efficiency|Plant Soil209(2): 245-252|1999|10.1023/A:1004684102704
99938|T||Fuentes,D., K.B. Disante, A. Valdecantos, J. Cortina, and V.R. Vallejo|Sensitivity of Mediterranean Woody Seedlings to Copper, Nickel and Zinc|Chemosphere66(3): 412-420|2007|10.1016/j.chemosphere.2006.06.027
99939|A||McGeer,J.C., S. Nadella, D.H. Alsop, L. Hollis, L.N. Taylor, D.G. McDonald, and C.M. Wood|Influence of Acclimation and Cross-Acclimation of Metals on Acute Cd Toxicity and Cd Uptake and Distribution in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.84(2): 190-197|2007|10.1016/j.aquatox.2007.03.023
99940|T||Mehta,A., S.C. Pant, and S.J.S. Flora|Monoisoamyl Dimercaptosuccinic Acid Induced Changes in Pregnant Female Rats During Late Gestation and Lactation|Reprod. Toxicol.21(1): 94-103|2006|10.1016/j.reprotox.2005.05.008
99941|A||Norwood,W.P., U. Borgmann, and D.G. Dixon|Interactive Effects of Metals in Mixtures on Bioaccumulation in the Amphipod Hyalella azteca|Aquat. Toxicol.84(2): 255-267|2007|10.1016/j.aquatox.2007.02.023
99942|A||Nunez-Nogueira,G., P.S. Rainbow, and B.D. Smith|Assimilation Efficiency of Zinc and Cadmium in the Decapod Crustacean Penaeus indicus|J. Exp. Mar. Biol. Ecol.332(1): 75-83|2006|10.1016/j.jembe.2005.11.004
99943|T||O'Dell,R., W. Silk, P. Green, and V. Claassen|Compost Amendment of Cu-Zn Minespoil Reduces Toxic Bioavailable Heavy Metal Concentrations and Promotes Establishment and Biomass Production of Bromus carinatus (Hook and Arn.)|Environ. Pollut.148(1): 115-124|2007|10.1016/j.envpol.2006.10.037
99944|T||Paschke,M.W., L.G. Perry, and E.F. Redente|Zinc Toxicity Thresholds for Reclamation Forb Species|Water Air Soil Pollut.170(1-4): 317-330|2006|10.1007/s11270-006-3139-3
99945|T||Phillips,J.P., S.D. Campbell, D. Michaud, M. Charbonneau, and A.J. Hilliker|Null Mutation of Copper/Zinc Superoxide Dismutase in Drosophila Confers Hypersensitivity to Paraquat and Reduced Longevity|Proc. Natl. Acad. Sci. U.S.A.86(8): 2761-2765|1989|10.1073/pnas.86.8.2761
99946|T||Shute,T., and S.M. MacFie|Cadmium and Zinc Accumulation in Soybean:  A Threat to Food Safety?|Sci. Total Environ.371(1-3): 63-73|2006|10.1016/j.scitotenv.2006.07.034
99947|T||Slaba,M., M. Bizukojc, B. Palecz, and J. Dlugonski|Kinetic Study of the Toxicity of Zinc and Lead Ions to the Heavy Metals Accumulating Fungus Paecilomyces marquandii|Bioprocess Biosyst. Eng.28(3): 185-197|2005|10.1007/s00449-005-0026-z
99948|T||Sun,Q., X.R. Wang, S.M. Ding, and X.F. Yuan|Effects of Interactions Between Cadmium and Zinc on Phytochelatin and Glutathione Production in Wheat (Triticum aestivum L.)|Environ. Toxicol.20(2): 195-201|2005|10.1002/tox.20095
99949|T||Tandon,S.K., S. Singh, S. Prasad, K. Khandekar, V.K. Dwivedi, M. Chatterjee, and N. Mathur|Reversal of Cadmium Induced Oxidative Stress by Chelating Agent, Antioxidant or Their Combination in Rat|Toxicol. Lett.145(3): 211-217|2003|10.1016/S0378-4274(03)00265-0
99950|T||Tani,F.H., and S. Barrington|Zinc and Copper Uptake by Plants Under Two Transpiration Rates.  Part I.  Wheat (Triticum aestivum L.)|Environ. Pollut.138(3): 538-547|2005|10.1016/j.envpol.2004.06.005
99953|A||Punzo,F., and M. Parker|Effects of Azadirachtin on Mortality, Fertilization, and Swimming Speed in Larvae of the Cane Toad, Bufo marinus (Anura:  Bufonidae)|J. Environ. Biol.26(4): 687-692|2005|
99955|T||Srivastava,M.K., and R.B. Raizada|Lack of Toxic Effect of Technical Azadirachtin During Postnatal Development of Rats|Food Chem. Toxicol.45(3): 465-471|2007|10.1016/j.fct.2006.09.010
99956|A||Wandscheer,C.B., J.E. Duque, M.A.N. Da Silva, Y. Fukuyama, J.L. Wohlke, J. Adelmann, and J.D. Fontana|Larvicidal Action of Ethanolic Extracts from Fruit Endocarps of Melia azedarach and Azadirachta indica Against the Dengue Mosquito Aedes aegypti|Toxicon44(8): 829-835|2004|10.1016/j.toxicon.2004.07.009
99957|A||Singh,A., and D.K. Singh|Effect of Herbal Molluscicides and Their Combinations on the Reproduction of the Snail Lymnaea acuminata|Arch. Environ. Contam. Toxicol.46(4): 470-477|2004|10.1007/s00244-003-1181-3
99958|T||Rao,I.G., A. Singh, V.K. Singh, and D.K. Singh|Effect of Single and Binary Combinations of Plant-Derived Molluscicides on Different Enzyme Activities in the Nervous Tissue of Achatina fulica|J. Appl. Toxicol.23(1): 19-22|2003|10.1002/jat.874
99959|A||Goktepe,I., and L.C. Plhak|Acute Toxicity Assessment of Azadirachtin-Based Pesticides Using Murine Hybridoma and Oyster Cells|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(2): 169-180|2003|
99960|T||Somda,I., V. Leth, and P. Sereme|Antifungal Effect of Cymbopogon citratus, Eucalyptus camaldulensis and Azadirachta indica Oil Extracts on Sorghum Seed-Borne Fungi|Asian J. Plant Sci.6(8): 1182-1189|2007|10.3923/ajps.2007.1182.1189
99961|A||Harikrishnan,R., M. Nisha Rani, and C. Balasundaram|Hematological and Biochemical Parameters in Common Carp, Cyprinus carpio, Following Herbal Treatment for Aeromonas hydrophila Infection|Aquaculture221(1-4): 41-50|2003|10.1016/S0044-8486(03)00023-1
99962|T||Javed,N., S.R. Gowen, S.A. El-Hassan, M. Inam-ul-Haq, F. Shahina, and B. Pembroke|Efficacy of Neem (Azadirachta indica) Formulations on Biology of Root-Knot Nematodes (Meloidogyne javanica) on Tomato|Crop Prot.27(1): 36-43|2008|10.1016/j.cropro.2007.04.006
99963|T||Javed,N., S.R. Gowen, M. Inam-ul-Haq, and S.A. Anwar|Protective and Curative Effect of Neem (Azadirachta indica) Formulations on the Development of Root-Knot Nematode Meloidogyne javanica in Roots of Tomato Plants|Crop Prot.26(4): 530-534|2007|10.1016/j.cropro.2006.05.003
99965|T||Phinney,A.L., G. Andringa, J.G.J.M. Bol, E.C. Wolters, F.L. Van Muiswinkel, A.M.W. Van Dam, and B. Drukarch|Enhanced Sensitivity of Dopaminergic Neurons to Rotenone-Induced Toxicity with Aging|Parkinsonism Relat. Disord.12(4): 228-238|2006|10.1016/j.parkreldis.2005.12.002
99967|T||Inden,M., Y. Kitamura, H. Takeuchi, T. Yanagida, K. Takata, Y. Kobayashi, T. Taniguchi, K. Yoshimoto, M. Kaneko, Y. Oku|Neurodegeneration of Mouse Nigrostriatal Dopaminergic System Induced by Repeated Oral Administration of Rotenone is Prevented by 4-Phenylbutyrate, a Chemical Chaperone|J. Neurochem.101(6): 1491-1504|2007|10.1111/j.1471-4159.2006.04440.x
99968|T||Depieri,R.A., S.S. Martinez, and A.O.,Jr. Menezes|Compatibility of the Fungus Beauveria bassiana (Bals.) Vuill. (Deuteromycetes) with Extracts of Neem Seeds and Leaves and the Emulsible Oil|Neotrop. Entomol. (Multiple Languages)34(4): 601-606|2005|10.1590/S1519-566X2005000400010
99969|T||Amadioha,A.C.|Controlling Rice Blast In Vitro and In Vivo with Extracts of Azadirachta indica|Crop Prot.19(5): 287-290|2000|10.1016/S0261-2194(99)00080-0
99970|T||Akhtar,M., and I. Mahmood|Control of Plant-Parasitic Nematodes with Organic and Inorganic Amendments in Agricultural Soil|Appl. Soil Ecol.4(3): 243-247|1996|10.1016/S0929-1393(96)00114-X
99971|T||Diaz-Corrales,F.J., M. Asanuma, I. Miyazaki, K. Miyoshi, and N. Ogawa|Rotenone Induces Aggregation of gamma-Tubulin Protein and Subsequent Disorganization of the Centrosome:  Relevance to Formation of Inclusion Bodies and Neurodegeneration|Neuroscience133(1): 117-135|2005|10.1016/j.neuroscience.2005.01.044
99972|A||Cheng,W.W., and A.P. Farrell|Acute and Sublethal Toxicities of Rotenone in Juvenile Rainbow Trout (Oncorhynchus mykiss):  Swimming Performance and Oxygen Consumption|Arch. Environ. Contam. Toxicol.52(3): 388-396|2007|10.1007/s00244-006-0051-1
99973|T||Betarbet,R., R.M. Canet-Aviles, T.B. Sherer, P.G. Mastroberardino, C. McLendon, J.H. Kim, S. Lund, H.M. Na, G. Taylor, |Intersecting Pathways to Neurodegeneration in Parkinson's Disease:  Effects of the Pesticide Rotenone on DJ-1, alpha-Synuclein, and the Ubiquitin-Proteasome System|Neurobiol. Dis.22(2): 404-420|2006|10.1016/j.nbd.2005.12.003
99974|T||Behrouz,B., R.E. Drolet, Z.A. Sayed, K.J. Lookingland, and J.L. Goudreau|Unique Responses to Mitochondrial Complex I Inhibition in Tuberoinfundibular Dopamine Neurons may Impart Resistance to Toxic Insult|Neuroscience147(3): 592-598|2007|10.1016/j.neuroscience.2007.05.007
99975|T||Akpinar,M.B., H. Erdogan, S. Sahin, F. Ucar, and A. Ilhan|Protective Effects of Caffeic Acid Phenethyl Ester on Rotenone-Induced Myocardial Oxidative Injury|Pestic. Biochem. Physiol.82(3): 233-239|2005|10.1016/j.pestbp.2005.03.003
99976|T||Hoglinger,G.U., A. Lannuzel, M.E. Khondiker, P.P. Michel, C. Duyckaerts, J. Feger, P. Champy, A. Prigent, F. Medja, A. |The Mitochondrial Complex I Inhibitor Rotenone Triggers a Cerebral Tauopathy|J. Neurochem.95(4): 930-939|2005|10.1111/j.1471-4159.2005.03493.x
99977|A||Blanck,H., W. Admiraal, R.F.M.J. Cleven, H. Guasch, M.A.G.T. Van den Hoop, N. Ivorra, B. Nystrom, M. Paulsson, R.P. Pet|Variability in Zinc Tolerance, Measured as Incorporation of Radio-Labeled Carbon Dioxide and Thymidine, in Periphyton Communities Sampled from 15 European River Stretches|Arch. Environ. Contam. Toxicol.44(1): 17-29|2003|10.1007/s00244-002-1258-4
99978|T||Carlson,M.S., C.A. Boren, C. Wu, C.E. Huntington, D.W. Bollinger, and T.L. Veum|Evaluation of Various Inclusion Rates of Organic Zinc Either as Polysaccharide or Proteinate Complex on the Growth Performance, Plasma, and Excretion of Nursery Pigs|J. Anim. Sci.82(5): 1359-1366|2004|10.2527/2004.8251359x
99979|T||Carreras,H.A., and M.L. Pignata|Effects of the Heavy Metals Cu2+, Ni2+, Pb2+, and Zn2+ on Some Physiological Parameters of the Lichen Usnea amblyoclada|Ecotoxicol. Environ. Saf.67(1): 59-66|2007|10.1016/j.ecoenv.2006.05.005
99980|T||Chandran,R., A.A. Sivakumar, S. Mohandass, and M. Aruchami|Effect of Cadmium and Zinc on Antioxidant Enzyme Activity in the Gastropod, Achatina fulica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.140(3-4): 422-426|2005|10.1016/j.cca.2005.04.007
99981|A||Wilde,K.L., J.L. Stauber, S.J. Markich, N.M. Franklin, and P.L. Brown|The Effect of pH on the Uptake and Toxicity of Copper and Zinc in a Tropical Freshwater Alga (Chlorella sp.)|Arch. Environ. Contam. Toxicol.51(2): 174-185|2006|10.1007/s00244-004-0256-0
99982|T||Yoshida,M., Y. Saegusa, A. Fukuda, Y. Akama, and S. Owada|Measurement of Radical-Scavenging Ability in Hepatic Metallothionein of Rat Using In Vivo Electron Spin Resonance Spectroscopy|Toxicology213(1-2): 74-80|2005|10.1016/j.tox.2005.05.008
99984|A||Chen,W.Y., J.A.C. John, C.H. Lin, and C.Y. Chang|Expression Pattern of Metallothionein, MTF-1 Nuclear Translocation, and Its DNA-Binding Activity in Zebrafish (Danio rerio) Induced by Zinc and Cadmium|Environ. Toxicol. Chem.26(1): 110-117|2007|10.1897/06-153R.1
99985|T||Verret,F., A. Gravot, P. Auroy, N. Leonhardt, P. David, L. Nussaume, A. Vavasseur, and P. Richaud|Overexpression of AtHMA4 Enhances Root-to-Shoot Translocation of Zinc and Cadmium and Plant Metal Tolerance|FEBS Lett.576(3): 306-312|2004|10.1016/j.febslet.2004.09.023
99986|T||Vivas,A., J.M. Barea, and R. Azcon|Brevibacillus brevis Isolated from Cadmium- or Zinc-Contaminated Soils Improves In Vitro Spore Germination and Growth of Glomus mosseae Under high Cd or Zn Concentrations|Microb. Ecol.49(3): 416-424|2005|10.1007/s00248-004-0044-4
99987|A||Wang,W.X., R.C.H. Dei, and H. Hong|Seasonal Study on the Cd, Se, and Zn Uptake by Natural Coastal Phytoplankton Assemblages|Environ. Toxicol. Chem.24(1): 161-169|2005|10.1897/04-125R.1
99988|T||Zhang,H., E. Lombi, E. Smolders, and S. McGrath|Kinetics of Zn Release in Soils and Prediction of Zn Concentration in Plants Using Diffusive Gradients in Thin Films|Environ. Sci. Technol.38(13): 3608-3613|2004|10.1021/es0352597
99989|A||Zhang,L., and W.X. Wang|Waterborne Cadmium and Zinc Uptake in a Euryhaline Teleost Acanthopagrus schlegeli Acclimated to Different Salinities|Aquat. Toxicol.84(2): 173-181|2007|10.1016/j.aquatox.2007.03.027
99990|T||Zheng,H., J. Liu, K.H.A. Choo, A.E. Michalska, and C.D. Klaassen|Metallothionein-I and -II Knock-Out Mice are Sensitive to Cadmium-Induced Liver mRNA Expression of c-jun and p53|Toxicol. Appl. Pharmacol.136(2): 229-235|1996|10.1006/taap.1996.0029
99991|T||Chmielnicka,J., E.M. Bem, E.A. Brzeznicka, and M. Kasperek|The Tissue Disposition of Zinc and Copper Following Repeated Administration of Cadmium and Selenium to Rats|Environ. Res.37(2): 419-424|1985|10.1016/0013-9351(85)90123-9
99993|T||Dorian,C., and C.D. Klaassen|Protection by Zinc-Metallothionein (ZnMT) Against Cadmium-Metallothionein-Induced Nephrotoxicity|Fundam. Appl. Toxicol.26(1): 99-106|1995|10.1006/faat.1995.1079
99994|A||Hayward,J.|Studies on the Growth of Phaeodactylum tricornutum.  V.  The Relationship to Iron, Manganese and Zinc|J. Mar. Biol. Assoc. U.K.49:439-446|1969|10.1017/S0025315400036018
99995|T||Margeli,A.P., S.E. Theocharis, N.N. Yannacou, C. Spiliopoulou, and A. Koutselinis|Metallothionein Expression During Liver Regeneration After Partial Hepatectomy in Cadmium-Pretreated Rats|Arch. Toxicol.68:637-642|1994|10.1007/BF03208343
99996|T||Matsubara,J., K. Ishioka, Y. Shibata, and K. Katoh|Risk Analysis of Multiple Environmental Factors:  Radiation, Zinc, Cadmium, and Calcium|Environ. Res.40(2): 525-530|1986|10.1016/S0013-9351(86)80127-X
99997|T||Matsubara,J., Y. Tajima, and M. Karasawa|Promotion of Radioresistance by Metallothionein Induction Prior to Irradiation|Environ. Res.43(1): 66-74|1987|10.1016/S0013-9351(87)80058-0
99998|T||Ohsawa,M., K. Masuko-Sato, K. Takahashi, and F. Otsuka|Strain Differences in Cadmium-Mediated Suppression of Lymphocyte Proliferation in Mice|Toxicol. Appl. Pharmacol.84(2): 379-388|1986|10.1016/0041-008X(86)90146-8
99999|A||Overnell,J., R. McIntosh, and T.C. Fletcher|The Levels of Liver Metallothionein and Zinc in Plaice, Pleuronectes platessa L., During the Breeding Season, and the Effect of Oestradiol Injection|J. Fish Biol.30:539-546|1987|10.1111/j.1095-8649.1987.tb05781.x
100000|A||Shears,M.A., and G.L. Fletcher|The Relationship Between Metallothionein and Intestinal Zinc Absorption in the Winter Flounder|Can. J. Zool.62:2211-2220|1984|10.1139/z84-322
100001|T||Suzuki,C.A.M., and M.G. Cherian|Renal Glutathione Depletion and Nephrotoxicity of Cadmium-Metallothionein in Rats|Toxicol. Appl. Pharmacol.98(3): 544-552|1989|10.1016/0041-008X(89)90182-8
100002|T||Waalkes,M.P., A. Perantoni, M.R. Bhave, and S. Rehm|Strain Dependence in Mice of Resistance and Susceptibility to the Testicular Effects of Cadmium:  Assessment of the Role of Testicular Cadmium-Binding Proteins|Toxicol. Appl. Pharmacol.93(1): 47-61|1988|10.1016/0041-008X(88)90024-5
100003|A||Kjoss,V.A., C.M. Wood, and D.G. McDonald|Effects of Different Ligands on the Bioaccumulation and Subsequent Depuration of Dietary Cu and Zn in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.63(2): 412-422|2006|10.1139/f05-230
100004|T||Lehman-McKeeman,L.D., and C.D. Klaassen|Induction of Metallothionein-I and Metallothionein-II in Rats by Cadmium and Zinc|Toxicol. Appl. Pharmacol.88:195-202|1987|10.1016/0041-008X(87)90005-6
100005|T||Zimny,S., F. Gogolin, J. Abel, and H. Gleichmann|Metallothionein in Isolated Pancreatic Islets of Mice:  Induction by Zinc and Streptozotocin, a Naturally Occurring Diabetogen|Arch. Toxicol.67(1): 61-65|1993|10.1007/BF02072037
100006|A||Moran,B.M., and M.L. Otte|Innate Zinc Tolerance in the Wetland Grass Glyceria fluitans?|Phyton (Horn) (Multiple Languages)44:95-108|2004|
100007|A||Fugare,S.H., M.P. Deshmukh, B.B. Waykar, and B.K. Pardeshi|Acute Toxicity of Chlorides of Zinc, Copper and Mercury to Fresh Water Bivalve, Parreysia cylindrica (Annandale and Prashad)|Nat. Environ. Pollut. Technol.3(2): 147-150|2004|
100008|T||Kupper,H., A. Mijovilovich, W. Meyer-Klaucke, and P.M.H. Kroneck|Tissue- and Age-Dependent Differences in the Complexation of Cadmium and Zinc in the Cadmium/Zinc Hyperaccumulator Thlaspi caerulescens (Ganges Ecotype) Revealed by X-Ray Absorption Spectroscopy|Plant Physiol.134(2): 748-757|2004|10.1104/pp.103.032953
100009|T||Lai,H.Y., and Z.S. Chen|Effects of EDTA on Solubility of Cadmium, Zinc, and Lead and Their Uptake by Rainbow Pink and Vetiver Grass|Chemosphere55(3): 421-430|2004|10.1016/j.chemosphere.2003.11.009
100010|T||Ma,J.F., D. Ueno, F.J. Zhao, and S.P. McGrath|Subcellular Localisation of Cd and Zn in the Leaves of a Cd-Hyperaccumulating Ecotype of Thlaspi caerulescens|Planta (Multiple Languages)220(5): 731-736|2005|10.1007/s00425-004-1392-5
100011|A||De paiva Magalhaes,D., R. Armando da Cunha, J.A. Albuquerque dos Santos, D.F. Buss, and D.F. Baptista|Behavioral Response of Zebrafish Danio rerio Hamilton 1822 to Sublethal Stress by Sodium Hypochlorite:  Ecotoxicological Assay Using an Image Analysis Biomonitoring System|Ecotoxicology16(5): 417-422|2007|10.1007/s10646-007-0144-2
100012|T||Tsipouridis,C., T. Thomidis, I. Zakinthinos, Z. Michailidis, and T. Michailides|Treatment of Pistachios with Boric Acid, Zn-Sulfate and Zn-Chelate|Agron. Sustain. Dev.25(3): 377-379|2005|10.1051/agro:2005032
100013|T||Hayes,D.J., A.B. O'Dowd, D.L. Selwood, J.N. Stables, J.C.W. Comley, and M.J. Rees|The Effect of Two Novel Analogues of Antimycin A on Oxygen Consumption and Survival of Filarial Nematodes In Vitro|Mol. Biochem. Parasitol.38(2): 159-168|1990|10.1016/0166-6851(90)90019-I
100014|T||Yudkin,J., and R.D. Cohen|The Contribution of the Kidney to the Removal of a Lactic Acid Load Under Normal and Acidotic Conditions in the Conscious Rat|Clin. Sci. Mol. Med.48(2): 121-131|1975|
100015|T||Nakaoka,R., Y. Tabata, and Y. Ikada|Antibody Production by Administration of Biodegradable Granules Incorporating Antigen Through Different Injection Routes|J. Control. Release40(1/2): 11-21|1996|10.1016/0168-3659(95)00133-6
100016|A||Oberlies,N.H., L.L. Rogers, J.M. Martin, and J.L. McLaughlin|Cytotoxic and Insecticidal Constituents of the Unripe Fruit of Persea americana|J. Nat. Prod.61(6): 781-785|1998|10.1021/np9800304
100017|AT||Ioset,J.R., A. Marston, M.P. Gupta, and K. Hostettmann|Five New Prenylated Stilbenes from the Root Bark of Lonchocarpus chiricanus|J. Nat. Prod.64(6): 710-715|2001|10.1021/np000597w
100018|A||Alali,F.Q., Y. Zhang, L. Rogers, and J.L. McLaughlin|Mono-Tetrahydrofuran Acetogenins from Goniothalamus giganteus|Phytochemistry49(3): 761-768|1998|10.1016/S0031-9422(97)00922-9
100019|A||Alali,F.Q., Y. Zhang, L. Rogers, and J.L. McLaughlin|(2,4-cis and trans)-Gigantecinone and 4-Deoxygigantecin, Bioactive Nonadjacent bis-Tetrahydrofuran Annonaceous Acetogenins, from Goniothalamus giganteus|J. Nat. Prod.60(9): 929-933|1997|10.1021/np970211q
100020|A||Deng,Y., J. Ye, and H. Mi|Effects of Low CO2 on NAD(P)H Dehydrogenase, a Mediator of Cyclic Electron Transport Around Photosystem I in the Cyanobacterium Synechocystis PCC6803|Plant Cell Physiol.44(5): 534-540|2003|10.1093/pcp/pcg067
100022|T||Berry,M.N., D.C. Fanning, A.R. Grivell, and P.G. Wallace|Ethanol Oxidation by Isolated Hepatocytes from Fed and Starved Rats and from Rats Exposed to Ethanol, Phenobarbitone or 3-Amino-Triazole. No Evidence for a Physiological Role of a Microsomal Ethanol Oxidation System|Biochem. Pharmacol.29(16): 2161-2168|1980|10.1016/0006-2952(80)90193-8
100023|T||Mendis,A.H.W., and S. Townson|Evidence for the Occurrence of Respiratory Electron Transport in Adult Brugia pahangi and Dipetalonema viteae|Mol. Biochem. Parasitol.14(3): 337-354|1985|10.1016/0166-6851(85)90061-1
100024|T||Ramp,T., R. Bachmann, and P. Kohler|Respiration and Energy Conservation in the Filarial Worm Litomosoides carinii|Mol. Biochem. Parasitol.15(1): 11-20|1985|10.1016/0166-6851(85)90025-8
100025|A||Kraemer,L.D., P.G.C. Campbell, and L. Hare|Dynamics of Cd, Cu and Zn Accumulation in Organs and Sub-Cellular Fractions in Field Transplanted Juvenile Yellow Perch (Perca flavescens)|Environ. Pollut.138(2): 324-337|2005|10.1016/j.envpol.2005.03.006
100026|A||Lazorchak,J.M., and M.E. Smith|Rainbow Trout (Oncorhynchus mykiss ) and Brook Trout (Salvelinus fontinalis ) 7-Day Survival and Growth Test Method|Arch. Environ. Contam. Toxicol.53(3): 397-405|2007|10.1007/s00244-006-0227-8
100027|T||Li,X., and P. Christie|Changes in Soil Solution Zn and pH and Uptake of Zn by Arbuscular mycorrhizal Red Clover in Zn-Contaminated Soil|Environ. Pollut.42(2): 201-207|2001|
100028|T||Li,T.Q., X.E. Yang, X.F. Jin, Z.L. He, P.J. Stoffella, and Q.H. Hu|Root Responses and Metal Accumulation in Two Contrasting Ecotypes of Sedum alfredii Hance Under Lead and Zinc Toxic Stress|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control40(5): 1081-1096|2005|
100029|A||Liao,C.M., B.C. Chen, M.C. Lin, H.M. Chiu, and Y.H. Chou|Coupling Toxicokinetics and Pharmacodynamics for Predicting Survival of Abalone (Haliotis diversicolor supertexta) Exposed to Waterborne Zinc|Environ. Toxicol.17(5): 478-486|2002|10.1002/tox.10082
100030|T||Liao,B.H., H.Y. Liu, Q.R. Zeng, P.Z. Yu, A. Probst, and J.L. Probst|Complex Toxic Effects of Cd2+, Zn2+, and Acid Rain on Growth of Kidney Bean (Phaseolus vulgaris L.)|Environ. Int.31(6): 891-895|2005|10.1016/j.envint.2005.05.029
100031|A||Lin,K.C., Y.L. Lee, and C.Y. Chen|Metal Toxicity to Chlorella pyrenoidosa Assessed by a Short-Term Continuous Test|J. Hazard. Mater.142(1-2): 236-241|2007|10.1016/j.jhazmat.2006.08.009
100032|A||Loayza-Muro,R., and R. Elias-Letts|Responses of the Mussel Anodontites trapesialis (Unionidae) to Environmental Stressors:  Effect of pH, Temperature and Metals on Filtration Rate|Environ. Pollut.149(2): 209-215|2007|10.1016/j.envpol.2007.01.003
100034|A||Verma,Y.|Retardation of Fin Regeneration in Freshwater Fish Oreochromis mossambicus by Zinc|Acta Hydrochim. Hydrobiol. (Multiple Languages)32(6): 429-433|2005|10.1002/aheh.200400545
100035|T||Paivoke,A.E.A.|Soil Pollution Alters ATP and Chlorophyll Contents in Pisum sativum Seedlings|Biol. Plant. (Praha)46(1): 145-148|2003|10.1023/A:1022311902355
100036|A||Alvarado,N.E., A. Buxens, L.I. Mazon, I. Marigomez, and M. Soto|Cellular Biomarkers of Exposure and Biological Effect in Hepatocytes of Turbot (Scophthalmus maximus) Exposed to Cd, Cu and Zn and After Depuration|Aquat. Toxicol.74(2): 110-125|2005|10.1016/j.aquatox.2005.03.024
100037|A||Besser,J.M., C.A. Mebane, D.R. Mount, C.D. Ivey, J.L. Kunz, I.E. Greer, T.W. May, and C.G. Ingersoll|Sensitivity of Mottled Sculpins (Cottus bairdi) and Rainbow Trout (Oncorhynchus mykiss) to Acute and Chronic Toxicity of Cadmium, Copper, and Zinc|Environ. Toxicol. Chem.26(8): 1657-1665|2007|10.1897/06-571R.1
100038|A||Gioda,C.R., L.A. Lissner, A. Pretto, J.B.T. Da Rocha, M.R.C. Schetinger, J.R. Neto, V.M. Morsch, and V.L. Loro|Exposure to Sublethal Concentrations of Zn(II) and Cu(II) Changes Biochemical Parameters in Leporinus obtusidens|Chemosphere69(1): 170-175|2007|10.1016/j.chemosphere.2007.04.008
100039|T||Gonzalez-Reimers,E., M.C. Duran-Castellon, R. Martin-Olivera, A. Lopez-Lirola, F. Santolaria-Fernandez, M.J. De la Vega|Effect of Zinc Supplementation on Ethanol-Mediated Bone Alterations|Food Chem. Toxicol.43(10): 1497-1505|2005|10.1016/j.fct.2005.04.003
100040|T||Gunnarsson,D., M. Svensson, G. Selstam, and G. Nordberg|Pronounced Induction of Testicular PGF 2alpha and Suppression of Testosterone by Cadmium - Prevention by Zinc|Toxicology200(1): 49-58|2004|10.1016/j.tox.2004.03.003
100041|A||Hattink,J., G. De Boeck, and R. Blust|Toxicity, Accumulation, and Retention of Zinc by Carp Under Normoxic and Hypoxic Conditions|Environ. Toxicol. Chem.25(1): 87-96|2006|10.1897/04-355R.1
100042|A||Kashian,D.R., B.A. Prusha, and W.H. Clements|Influence of Total Organic Carbon and UV-B Radiation on Zinc Toxicity and Bioaccumulation in Aquatic Communities|Environ. Sci. Technol.38(23): 6371-6376|2004|10.1021/es049756e
100043|A||Khan,M.A.Q., S.A. Ahmed, B. Catalin, A. Khodadoust, O. Ajayi, and M. Vaughn|Effect of Temperature on Heavy Metal Toxicity to Juvenile Crayfish, Orconectes immunis (Hagen)|Environ. Toxicol.21(5): 513-520|2006|10.1002/tox.20213
100044|A||Guan,R., and W.X. Wang|Cd and Zn Uptake Kinetics in Daphnia magna in Relation to Cd Exposure History|Environ. Sci. Technol.38(22): 6051-6058|2004|10.1021/es049562z
100045|T||Pagano,R.L., S.C. Sampaio, L. Juliano, M.A. Juliano, and R. Giorgi|The C-Terminus of Murine S100A9 Inhibits Spreading and Phagocytic Activity of Adherent Peritoneal Cells|Inflamm. Res.54(5): 204-210|2005|10.1007/s00011-005-1344-y
100046|T||Pande,M., A. Mehta, B.P. Pant, and S.J.S. Flora|Combined Administration of a Chelating Agent and an Antioxidant in the Prevention and Treatment of Acute Lead Intoxication in Rats|Environ. Toxicol. Pharmacol.9(4): 173-184|2001|10.1016/S1382-6689(01)00064-3
100047|A||Guan,R., and W.X. Wang|Dietary Assimilation and Elimination of Cd, Se, and Zn by Daphnia magna at Different Metal Concentrations|Environ. Toxicol. Chem.23(11): 2689-2698|2004|10.1897/03-503
100048|T||Harris,N.S., and G.J. Taylor|Cadmium Uptake and Translocation in Seedlings of Near Isogenic Lines of Durum Wheat that Differ in Grain Cadmium Accumulation|BMC Plant Biol.4:12 p.|2004|10.1186/1471-2229-4-4
100049|T||Harris,N.S., and G.J. Taylor|Remobilization of Cadmium in Maturing Shoots of Near Isogenic Lines of Durum Wheat that Differ in Grain Cadmium Accumulation|J. Exp. Bot.52(360): 1473-1481|2001|10.1093/jexbot/52.360.1473
100050|T||Jiang,H.M., J.C. Yang, and J.F. Zhang|Effects of External Phosphorus on the Cell Ultrastructure and the Chlorophyll Content of Maize Under Cadmium and Zinc Stress|Environ. Pollut.147(3): 750-756|2007|10.1016/j.envpol.2006.09.006
100052|T||Chu,K.W., S.K.W. Chan, and K.L. Chow|Improvement of Heavy Metal Stress and Toxicity Assays by Coupling a Transgenic Reporter in a Mutant Nematode Strain|Aquat. Toxicol.74(4): 320-332|2005|10.1016/j.aquatox.2005.06.006
100053|A||Da Cruz,A.C.S., B.C. Couto, I.A. Nascimento, S.A. Pereira, M.B.N.L. Leite, E. Bertoletti, and P. Zagatto|Estimation of the Critical Effect Level for Pollution Prevention Based on Oyster Embryonic Development Toxicity Test: The Search for Reliability|Environ. Int.33(4): 589-595|2007|10.1016/j.envint.2006.09.003
100054|A||Gallego,A., A. Martin-Gonzalez, R. Ortega, and J.C. Gutierrez|Flow Cytometry Assessment of Cytotoxicity and Reactive Oxygen Species Generation by Single and Binary Mixtures of Cadmium, Zinc and Copper on Populations of the Ciliated Protozoan Tetrahymena thermophila|Chemosphere68(4): 647-661|2007|10.1016/j.chemosphere.2007.02.031
100055|A||Miao,A.J., W.X. Wang, and P. Juneau|Comparison of Cd, Cu, and Zn Toxic Effects on Four Marine Phytoplankton by Pulse-Amplitude-Modulated Fluorometry|Environ. Toxicol. Chem.24(10): 2603-2611|2005|10.1897/05-009R.1
100056|A||Neuberger-Cywiak,L., Y. Achituv, and E.M. Garcia|Sublethal Effects of Zn++ and Cd++ on Respiration Rate, Ammonia Excretion, and O:N Ratio of Donax trunculus (Bivalvia; Donacidae)|Bull. Environ. Contam. Toxicol.75(3): 505-514|2005|10.1007/s00128-005-0781-1
100057|T||Noret,N., G. Josens, J. Escarre, C. Lefebvre, S. Panichelli, and P. Meerts|Development of Issoria lathonia (Lepidoptera:  Nymphalidae) on Zinc-Accumulating and Nonaccumulating Viola Species (Violaceae)|Environ. Toxicol. Chem.26(3): 565-571|2007|10.1897/06-413R.1
100058|T||Odendaal,J.P., and A.J. Reinecke|Evidence of Metal Interaction in the Bioaccumulation of Cadmium and Zinc in Porcellio laevis (Isopoda) After Exposure to Individual and Mixed Metals|Water Air Soil Pollut.156(1): 145-161|2004|10.1023/B:WATE.0000036795.78360.78
100059|T||Odendaal,J.P., and A.J. Reinecke|Quantitative Assessment of Effects of Zinc on the Histological Structure of the Hepatopancreas of Terrestrial Isopods|Arch. Environ. Contam. Toxicol.53(3): 359-364|2007|10.1007/s00244-006-0080-9
100060|T||Peixoto,N.C., T. Roza, E.M.M. Flores, and M.E. Pereira|Effects of Zinc and Cadmium on HgCl2-delta-ALA-D Inhibition and Hg Levels in Tissues of Suckling Rats|Toxicol. Lett.146(1): 17-25|2003|10.1016/j.toxlet.2003.08.006
100061|A||Pestana,J.L.T., A. Re, A.J.A. Nogueira, and A.M.V.M. Soares|Effects of Cadmium and Zinc on the Feeding Behaviour of Two Freshwater Crustaceans:  Atyaephyra desmarestii (Decapoda) and Echinogammarus meridionalis (Amphipoda)|Chemosphere68(8): 1556-1562|2007|10.1016/j.chemosphere.2007.02.053
100063|T||Shuai,Y., J.B. Guo, S.Q. Peng, L.S. Zhang, J. Guo, G. Han, and Y.S. Dong|Metallothionein Protects Against Doxorubicin-Induced Cardiomyopathy Through Inhibition of Superoxide Generation and Related Nitrosative Impairment|Toxicol. Lett.170(1): 66-74|2007|10.1016/j.toxlet.2007.02.010
100064|T||Smit,C.E., E.M. Stam, N. Baas, R. Hollander, and C.A.M. Van Gestel|Effects of Dietary Zinc Exposure on the Life History of the Parthenogenetic Springtail Folsomia candida (Collembola:  Isotomidae)|Environ. Toxicol. Chem.23(7): 1719-1724|2004|10.1897/03-287
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100066|A||Van Dyk,J.C., G.M. Pieterse, and J.H.J. Van Vuren|Histological Changes in the Liver of Oreochromis mossambicus (Cichlidae) After Exposure to Cadmium and Zinc|Ecotoxicol. Environ. Saf.66(3): 432-440|2007|10.1016/j.ecoenv.2005.10.012
100067|T||Sinha,M.P., M. Kumar, and R. Srivastava|Bioaccumulation of Zinc in Earthworm Perionyx sansibaricus and Its Impacts on Growth and Metabolism|J. Ecophysiol. Occup. Health1(3-4): 265-274|2001|
100068|T||Luchese,R.H., and W.F. Harrigan|Growth of, and Aflatoxin Production by Aspergillus parasiticus when in the Presence of Either Lactococcus lactis or Lactic Acid and at Different Initial pH Values|J. Appl. Bacteriol.69(4): 512-519|1990|10.1111/j.1365-2672.1990.tb01543.x
100069|A||Mukherjee,S.N., P. Deshpande, and R.N. Sharma|Effect of Azadirachtin on Mesocyclops leuckarti sensu lato, Vector of Dracunculiasis|Indian J. Med. Res. Sect. A91:461-463|1990|
100070|T||Garcia,E.S., M.S. Gonzales, P. Azambuja, and H. Rembold|Chagas' Disease and Its Insect Vector.  Effect of Azadirachtin A on the Interaction of Triatomine Host (Rhodnius prolixuz) and Its Parasite (Trypanosoma cruzi)|Z. Naturforsch.44C:317-322|1989|10.1515/znc-1989-3-422
100071|A||Bakthavathsalam,R.|Toxicity of Neem Oil and Its Impact on Some Blood Parameters of the Fish, Tilapia mossambica|Environ. Ecol.21(4): 864-868|2003|
100072|T||Reddy,V.R., P.V. Rao, and C.V. Reddy|Utilization of Chemically Treated Neem-Oil in Broiler Chicks|Indian J. Anim. Sci.58(7): 830-834|1988|
100073|A||Saha,N.C., F. Bhunia, and A. Kaviraj|Comparative Toxicity of Three Organic Acids to Freshwater Organisms and Their Impact on Aquatic Ecosystems|Hum. Ecol. Risk Assess.12(1): 192-202|2006|10.1080/10807030500430625
100075|T||Ma,D.L., Y. Suzuki, H. Takeuchi, T. Watanabe, and M. Ishizaki|Ovicidal and Ovipositional Effects of Neem (Azadirachta indica A. Juss.) Extracts on Rice Bug, Leptocorisa chinensis (Dallas)|Int. J. Pest Manag.51(4): 265-271|2005|10.1080/09670870500270638
100076|T||Schenk,P., A. Imdorf, and P. Fluri|Effects of Neem Oil on Varroa Mites and Bees|Am. Bee J.141(12): 878-879|2001|
100077|T||Prakash,A.O., R.K. Tewari, and R. Mathur|Non-Hormonal Post-Coital Contraceptive Action of Neem Oil in Rats|J. Ethnopharmacol.23(1): 53-59|1988|10.1016/0378-8741(88)90114-6
100078|T||Charleston,D.S., R. Kfir, M. Dicke, and L.E.M. Vet|Impact of Botanical Extracts Derived from Melia azedarach and Azadirachta indica on Populations of Plutella xylostella and Its Natural Enemies:  A Field Test of Laboratory Findings|Biol. Control39(1): 105-114|2006|10.1016/j.biocontrol.2006.05.012
100079|T||Shah,F.A., M. Gaffney, M.A. Ansari, M. Prasad, and T.M. Butt|Neem Seed Cake Enhances the Efficacy of the Insect Pathogenic Fungus Metarhizium anisopliae for the Control of Black Vine Weevil, Otiorhynuchs sulcatus (Coleoptera: Curculionidae)|Biol. Control44(1): 111-115|2008|10.1016/j.biocontrol.2007.09.009
100080|T||Charleston,D.S., R. Kfir, M. Dicke, and L.E.M. Vet|Impact of Botanical Pesticides Derived from Melia azedarach and Azadirachta indica on the Biology of Two Parasitoid Species of the Diamondback Moth|Biol. Control33(2): 131-142|2005|10.1016/j.biocontrol.2005.02.007
100081|A||Oti,E.E.|Selenium Toxicity in the Early Life Stages of African Catfish, Clarias gariepinus (Burchell)|Pak. J. Zool.37(2): 127-132|2005|
100082|T||Deepak,S.A., G. Oros, S.G. Sathyanarayana, N.P. Shetty, H.S. Shetty, and S. Sashikanth|Antisporulant Activity of Leaf Extracts of Indian Plants Against Sclerospora graminicola Causing Downy Mildew Disease of Pearl Millet|Arch. Phytopathol. Plant Prot.38(1): 31-39|2005|10.1080/03235400400007558
100083|T||Weslien,J., and L.M. Schroeder|Population Levels of Bark Beetles and Associated Insects in Managed and Unmanaged Spruce Stands|For. Ecol. Manag.115(2-3): 267-275|1999|10.1016/S0378-1127(98)00405-8
100084|T||Ikeda,Y., A. Ueno, H. Naraba, and S. Oh-ishi|Involvement of Vanilloid Receptor VR1 and Prostanoids in the Acid-Induced Writhing Responses of Mice|Life Sci.69(24): 2911-2919|2001|10.1016/S0024-3205(01)01374-1
100085|T||Govindachari,T.R., G. Suresh, and S. Masilamani|Antifungal Activity of Azadirachta indica Leaf Hexane Extract|Fitoterapia70(4): 417-420|1999|10.1016/S0367-326X(99)00038-6
100086|T||Ahmad,S.K., and J.S. Prasad|Efficacy of Foliar Extracts Against Pre- and Post-Harvest Diseases of Sponge-Gourd Fruits|Lett. Appl. Microbiol.21(6): 373-375|1995|10.1111/j.1472-765X.1995.tb01084.x
100087|T||Govindachari,T.R., G. Suresh, G. Gopalakrishnan, S. Masilamani, and B. Banumathi|Antifungal Activity of Some Tetranortriterpenoids|Fitoterapia71(3): 317-320|2000|10.1016/S0367-326X(99)00155-0
100088|T||Rugutt,J.K., A.N. Ngigi, K.J. Rugutt, and P.K. Ndalut|Native Kenyan Plants as Possible Alternatives to Methyl Bromide in Soil Fumigation|Phytomedicine13(8): 576-583|2006|10.1016/j.phymed.2003.08.005
100089|T||Andersson,L.|An Attempt to Induce Laminitis in Cows by Intraruminal Infusion of Lactic Acid|Acta Vet. Scand.22(1): 140-142|1981|10.1186/BF03547216
100090|T||Balentine,J.D., and W.B. Greene|Myelopathy Induced by Lactic Acid|Acta Neuropathol.73(3): 233-239|1987|10.1007/BF00686616
100091|T||Colbert,N.K.W., N.C. Pelletier, J.M. Cote, J.B. Concannon, N.A. Jurdak, S.B. Minott, and V.P. Markowski|Perinatal Exposure to Low Levels of the Environmental Antiandrogen Vinclozolin Alters Sex-Differentiated Social Play and Sexual Behaviors in the Rat|Environ. Health Perspect.113(6): 700-707|2005|10.1289/ehp.7509
100092|A||Yenesew,A., J.T. Kiplagat, S. Derese, J.O. Midiwo, J.M. Kabaru, M. Heydenreich, and M.G. Peter|Two Unusual Rotenoid Derivatives, 7a-o-Methyl-12a-Hydroxydeguelol and Spiro-13-homo-13-Oxaelliptone, from the Seeds of Derris trifoliata|Phytochemistry67(10): 988-991|2006|10.1016/j.phytochem.2006.01.002
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100094|T||Hoy,J.B., B.A. Cody, J.L. Karlix, C.J. Schmidt, I.R. Tebbett, S. Toffollo, F. Van Haaren, and D. Wielbo|Pyridostigmine Bromide Alters Locomotion and Thigmotaxis of Rats:  Gender Effects|Pharmacol. Biochem. Behav.63(3): 401-406|1999|10.1016/S0091-3057(99)00014-3
100096|AT||Thomas,T.G., S.K. Sharma, A. Prakash, J. Sokhey, and B.R. Sharma|Insecticide Susceptibility Status of Culex tritaeniorhynchus Giles, Vector of Japanese Encephalitis in Delhi|Jpn. J. Infect. Dis.53(1): 11-14|2000|
100097|T||Brooks,I.C., and R.W. Price|Studies on the Chronic Toxicity of Pro-Noxfish, a Proprietary Synergized Rotenone Fish-Toxicant|Toxicol. Appl. Pharmacol.3(1): 49-56|1961|10.1016/0041-008X(61)90007-2
100098|AT||Panigrahy,K.C., and R.N. Padhy|Toxicity of Carbamate Pesticides to Cells, Heterocysts and Akinetes of the Cyanobacterium Cylindrospermum sp.|Algol. Stud.99:95-115|2000|
100099|T||Redak,R.A., and J.A. Bethke|Control of Silverleaf Whitefly on Poinsettia Under Greenhouse Conditions, Fall 1996|Arthropod Manag. Tests22:387-|1997|10.1093/amt/22.1.387
100100|T||Dogan,E.B., J.W. Ayres, and P.A. Rossignol|Behavioural Mode of Action of Deet:  Inhibition of Lactic Acid Attraction|Med. Vet. Entomol.13(1): 97-100|1999|10.1046/j.1365-2915.1999.00145.x
100102|T||Chinnasamy,N., N. Harishankar, P.U. Kumar, and C. Rukmini|Toxicological Studies on Debitterized Neem Oil (Azadirachta indica)|Food Chem. Toxicol.31(4): 297-301|1993|10.1016/0278-6915(93)90079-E
100103|T||Owolade,O.F., A.N. Amusa, and Y.O.K. Osikanlu|Efficacy of Certain Indigenous Plant Extracts Against Seed-Borne Infection of Fusarium moniliforme on Maize (Zea mays L.) in South Western Nigeria|Cereal Res. Commun.28(3): 323-327|2000|10.1007/BF03543611
100104|T||Saravanakumar,D., S. Harish, M. Loganathan, R. Vivekananthan, L. Rajendran, T. Raguchander, and R. Samiyappan|Rhizobacterial Bioformulation for the Effective Management of Macrophomina Root Rot in Mungbean|Arch. Phytopathol. Plant Prot.40(5): 323-337|2007|10.1080/03235400600587326
100105|T||Maji,M.D., S. Chattopadhyay, P. Kumar, and B. Saratchandra|In Vitro Screening of Some Plant Extracts Against Fungal Pathogens of Mulberry (Morus spp.)|Arch. Phytopathol. Plant Prot.38(3): 157-164|2005|10.1080/03235400500094290
100106|T||Jha,M.M., S. Kumar, and S. Hasan|Effects of Botanicals on Maydis Leaf Blight of Maize In Vitro|Ann. Biol.20(2): 173-176|2004|
100107|T||Rao,M.S.L., S. Kulkarni, V.R. Kulkarni, and R.K. Mesta|Efficacy of Seed Dressing Fungicides, Bio-Agents and Storage Containers Against Seed-Borne Infections of Sunflower in Storage|Ann. Biol.23(1): 57-63|2007|
100108|T||Feng,Y., D.M. Stoeckel, E. Van Santen, and R.H. Walker|Effects of Subsurface Aeration and Trinexapac-Ethyl Application on Soil Microbial Communities in a Creeping Bentgrass Putting Green|Biol. Fertil. Soils36(6): 456-460|2002|10.1007/s00374-002-0558-1
100109|T||Giesecke,D., A. Fabritius, and P.V. Wallenberg|A Quantitative Study on the Metabolism of D(-) Lactic Acid in the Rat and the Rabbit|Comp. Biochem. Physiol. B Comp. Biochem.69(1): 85-89|1981|10.1016/0305-0491(81)90213-3
100111|T||Plazek,A., K. Hura, and I. Zur|Reaction of Winter Oilseed Rape Callus to Different Concentrations of Elicitors: Pectinase or Chitosan|Acta Physiol. Plant.25(1): 83-89|2003|10.1007/s11738-003-0040-1
100112|T||Yehia,M.A.H., S.G. El-Banna, and A.B. Okab|Diazinon Toxicity Affects Histophysiological and Biochemical Parameters in Rabbits|Exp. Toxicol. Pathol.59(3-4): 215-225|2007|10.1016/j.etp.2007.09.003
100113|T||Crutchfield,K.C., and D.E. Dluzen|Rotenone Produces Opposite Effects Upon Mouse Striatal Dopamine Function as a Result of Environmental Temperature|Neurotox. Res.9(1): 15-21|2006|10.1007/BF03033303
100114|T||Ghorbanian,M., M. Razzaghi-Abyaneh, A. Allameh, M. Shams-Ghahfarokhi, and M. Qorbani|Study on the Effect of Neem (Azadirachta indica A. Juss) Leaf Extract on the Growth of Aspergillus parasiticus and Production of Aflatoxin by It at Different Incubation Times|Mycoses51(1): 35-39|2007|10.1111/j.1439-0507.2007.01440.x
100115|T||Lakshmi,V.J., G. Katti, N.V. Krishnaiah, and T. Lingaiah|Laboratory Evaluation of Commercial Neem Formulations vis-a-vis Insecticides Against Egg Parasitoid, Trichogramma japonicum Ashmead (Hymonoptera:  Trichogrammatidae)|J. Biol. Control11(1-2): 29-32|1997|
100117|T||Graham,R., Y. Jammes, S. Delpierre, C. Grimaud, and C. Roussos|The Effects of Ischemia, Lactic Acid and Hypertonic Sodium Chloride on Phrenic Afferent Discharge During Spontaneous Diaphragmatic Contraction|Neurosci. Lett.67(3): 257-262|1986|10.1016/0304-3940(86)90318-6
100118|T||Morrow,L.L., M.E. Tumbleson, L.D. Kintner, W.H. Pfander, and R.L. Preston|Laminitis in Lambs Injected with Lactic Acid|Am. J. Vet. Res.34(10): 1305-1307|1973|
100119|T||Farag,A.T., N.F. Goda, A.H. Mansee, and N.A. Shaaban|Effects of Permethrin Given Before Mating on the Behavior of F1-Generation in Mice|Neurotoxicology27(3): 421-428|2006|10.1016/j.neuro.2005.12.001
100120|T||Garcinuno,R.M., P.F. Hernando, and C. Camara|Removal of Carbaryl, Linuron, and Permethrin by Lupinus angustifolius Under Hydroponic Conditions|J. Agric. Food Chem.54(14): 5034-5039|2006|10.1021/jf060850j
100121|T||Ebihara,K.|Effect of Lactic Acid on Postprandial Plasma-Glucose and -Insulin Responses in Rats Administered Glucose Solution|Nutr. Res.16(9): 1575-1585|1996|10.1016/0271-5317(96)00170-4
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100123|T||El-Garawany,A.A., H.A. Samaan, and M. Sadek|Comparative Hepatorenal Toxicity of Some Commonly Used Chemical Environmental Polutants|Egypt. J. Pharm. Sci.31(1-4): 331-336|1990|
100124|T||Gupta,H.C.L., and V.S. Kavadia|Bioefficacy and Residues of Permethrin and Acephate in Cotton|Pesticides 18(12): 39-42|1984|
100125|T||Moussa,M., K.G. Iskander, and A.A. Gorgy|Scanning Electron Microscopic Investigation on the Effect of Chronic Toxicity of Permethrin on the Tongue Papillae of Albino Rats|Egypt. Dent. J.35(2): 107-115|1989|
100126|T||Hill,W.A., M.M. Randolph, K.L. Boyd, and T.D. Mandrell|Use of Permethrin Eradicated the Tropical Rat Mite (Ornithonyssus bacoti) from a Colony of Mutagenized and Transgenic Mice|Contemp. Top. Lab. Anim. Sci.44(5): 31-34|2005|
100127|T||Thorsen,A., S. Mattsson, and J. Weslien|Influence of Stem Diameter on the Survival and Growth of Containerized Norway Spruce Seedlings Attacked by Pine Weevils (Hylobius spp.)|Scand. J. For. Res.16(1): 54-66|2001|10.1080/028275801300004415
100128|T||Abu-Qare,A.W., and M.B. Abou-Donia|High Performance Liquid Chromatographic Determination of Diazinon, Permethrin, DEET (N, N-Diethyl-M-Toluamide), and Their Metabolites in Rat Plasma and Urine|Fresenius' J. Anal. Chem.370(4): 403-407|2001|10.1007/s002160100780
100129|T||Toth,L.A., C. Oberbeck, C.M. Straign, S. Frazier, and J.E. Rehg|Toxicity Evaluation of Prophylactic Treatments for Mites and Pinworms in Mice|Contemp. Top. Lab. Anim. Sci.39(2): 18-21|2000|
100130|A||Yasmeen,N., and Nayeemunnisa |Insecticide Induced Disruptions in Functioning of Developing Brain of Rana cyanophlictis|Indian J. Exp. Biol.30(8): 701-704|1992|
100131|T||Solberg,V.B., J.A. Miller, T. Hadfield, R. Burge, J.M. Schech, and J.M. Pound|Control of Ixodes scapularis (Acari:  Ixodidae) with Topical Self-Application of Permethrin by White-Tailed Deer Inhabiting NASA, Beltsville, Maryland|J. Vector Ecol.28(1): 117-134|2003|
100132|T||Tilson,H.A., J.S. Hong, and C.F. Mactutus|Effects of 5,5-Diphenylhydantoin (Phenytoin) on Neurobehavioral Toxicity of Organochlorine Insecticides and Permethrin|J. Pharmacol. Exp. Ther.233(2): 285-289|1985|
100133|A||Komala,Z.|The Effect of Ambush 25 EC, a Pyrethroid Insecticide, on Paramecium primaurelia|Folia Biol. (Krakow)37(1-2): 21-24|1989|
100134|A||Wildlife International Ltd.|Methyl Tertiary-Butyl Ether a 48-Hour Flow-Through Acute Toxicity Test with the Cladoceran (Daphnia magna)|Final Rep., Wildl.Int.Ltd.Proj.No.472A-105, Prepared for the Am.Petroleum Inst., by Wildl.Int.Ltd., Easton, MD:61 p.|1999|
100135|A||ENSR Toxicology Laboratory|Acute Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to the Mayfly Hexagenia limbata Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-040-008, Conducted for Am.Petroleum Inst., ENSR Toxicol.Lab., Ft.Collins, CO:129 p.|1999|
100136|A||ENSR Environmental Toxicology Laboratory|Early-Life Stage Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to the Fathead Minnow (Pimephales promelas) Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-041-002, Conducted for Am.Petroleum Inst., ENSR Toxicol.Lab., Ft.Collins, CO:273 p.|1999|
100137|A||ENSR Environmental Toxicology Laboratory|Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to Selenastrum capricornutum Under Static Test Conditions|ENSR Project ID No.0300-036-042-002, ENSR Environmental Toxicology Laboratory, Ft.Collins, CO:110 p.|1999|
100138|A||ENSR Environmental Toxicology Laboratory|Acute Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to Bluegill Sunfish (Lepomis macrochirus) Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-040-002, Prepared for Am.Petroleum Inst., by ENSR Environ.Toxicol.Lab., Ft.Collins, CO:138 p.|1999|
100139|A||ENSR Environmental Toxicology Laboratory|Acute Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to the Snail (Physa gyrina) Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-040-001, Prepared for Am.Petroleum Inst., by ENSR Environ.Toxicol.Lab., Ft.Collins, CO:128 p.|1999|
100140|A||ENSR Environmental Toxicology Laboratory|Acute Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to the Dipteran Chironomus tentans Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-040-005, Prepared for the Am.Petroleum Inst., by ENSR Environ.Toxicol.Lab., Ft.Collins, CO:128 p.|1999|
100141|A||ENSR Environmental Toxicology Laboratory|Acute Toxicity of Methyl Tertiary-Butyl Ether (MTBE) to the Freshwater Amphipod Hyalella azteca Under Flow-Through Test Conditions|Final Rep., ENSR Proj.ID No.0300-036-040-006, Prepared for Am.Petroleum Inst., by ENSR Environ.Toxicol.Lab., Ft.Collins, CO:117 p.|1999|
100142|T||Dyck,P.J., M. Shimono, G.P. Schoening, A.C. Lais, K.F. Oviatt, and M.F. Sparks|The Evaluation of a new Synthetic Pyrethroid Pesticide (Permethrin) for Neurotoxicity|J. Environ. Pathol. Toxicol. Oncol.5(4-5): 109-117|1984|
100143|A||Oberg,K.E.|The Inhibition of the Respiration of Brain Mitochondria of Rotenone-Poisoned Fish|Exp. Cell Res.36(2): 407-410|1964|10.1016/0014-4827(64)90219-8
100144|T||Buckingham,D.E.|Action of Rotenone upon Mammals when Taken by Mouth - Preliminary Report|J. Ind. Eng. Chem.22:1133-1134|1930|10.1021/ie50250a032
100145|AT||Kamal,R., and M. Mangla|In Vivo and In Vitro Investigations on Rotenoids from Indigofera tinctoria and Their Bioefficacy Against the Larvae of Anopheles stephensi and Adults of Callosbruchus chinensis|J. Biosci.18(1): 93-101|1993|10.1007/BF02703041
100146|A||Oberg,K.E.|The Reversibility of the Respiratory Inhibition in Gills and the Ultrastructural Changes in Chloride Cells from the Rotenone-Poisoned Marine Teleost, Gadus callarias L.|Exp. Cell Res.45(3): 590-602|1967|10.1016/0014-4827(67)90162-0
100147|A||Diehn,B., and G. Tollin|Phototaxis in Euglena. IV.  Effect of Inhibitors of Oxidative and Photophosphorylation on the Rate of Phototaxis|Arch. Biochem. Biophys.121(1): 169-177|1967|10.1016/0003-9861(67)90021-5
100148|A||Denis,S., and T.M. Devlin|The Effect of Oligomycin on the Development of Amphibian Eggs|Exp. Cell Res.52(2-3): 308-318|1968|10.1016/0014-4827(68)90472-2
100149|A||Willey,R.G., M.J. Doskocil, and C.A. Lembi|Potential of the White Amur (Ctenopharyngodon idella Val.) as a Biological Control for Aquatic Weeds in Indiana|Proc. Indiana Acad. Sci83:173-178|1973|
100151|T||De Smet,I., L. Signora, T. Beeckman, D. Inze, C.H. Foyer, and H. Zhang|An Abscisic Acid-Sensitive Checkpoint in Lateral Root Development of Arabidopsis|Plant J.33(3): 543-555|2003|10.1046/j.1365-313X.2003.01652.x
100152|T||Yang,J.C., J.H. Zhang, Z.Q. Wang, Q.S. Zhu, and L.J. Liu|Involvement of Abscisic Acid and Cytokinins in the Senescence and Remobilization of Carbon Reserves in Wheat Subjected to Water Stress During Grain Filling|Plant Cell Environ.26(10): 1621-1631|2003|10.1046/j.1365-3040.2003.01081.x
100153|T||Chen,S., S. Wang, A. Huttermann, and A. Altman|Xylem Abscisic Acid Accelerates Leaf Abscission by Modulating Polyamine and Ethylene Synthesis in Water-Stressed Intact Poplar|Trees16(1): 16-22|2002|10.1007/s00468-001-0138-2
100154|T||Tari,I., and M. Nagy|Abscisic Acid and Ethrel Abolish the Inhibition of Adventitious Root Formation of Paclobutrazol-Treated Bean Primary Leaf Cuttings|Biol. Plant. (Praha)38(3): 369-375|1996|10.1007/BF02896664
100156|T||Achuo,E.A., E. Prinsen, and M. Hofte|Influence of Drought, Salt Stress and Abscisic Acid on the Resistance of Tomato to Botrytis cinerea and Oidium neolycopersici|Plant Pathol.55(2): 178-186|2006|10.1111/j.1365-3059.2006.01340.x
100157|A||Morris,J.M., and J.S. Meyer|Extracellular and Intracellular Uptake of Zinc in a Photosynthetic Biofilm Matrix|Bull. Environ. Contam. Toxicol.77(1): 30-35|2006|10.1007/s00128-006-1028-5
100158|A||Morris,J.M., A.M. Farag, D.A. Nimick, and J.S. Meyer|Light-Mediated Zn Uptake in Photosynthetic Biofilm|Hydrobiologia (Multiple Languages)571(1): 361-371|2006|10.1007/s10750-006-0261-6
100159|A||Kara,Y.O.|Phytoremediation:  Using Nasturtium officinale to Clean up Zn++-Contaminated Wastewater|Fresenius Environ. Bull.11(12): A1084 - A1086|2002|
100161|T||Yulia,E., W.A. Shipton, and R.J. Coventry|Activity of Some Plant Oils and Extracts Against Colletotrichum gloeosporioides|Plant Pathol. J.5(2): 253-257|2006|10.3923/ppj.2006.253.257
100162|T||Bharadwaj,A., and S. Sharma|Biocontrol of Meloidogyne incognita in Lycopersicon esculentum with AM Fungi and Oil Cakes|Plant Pathol. J.5(2): 166-172|2006|10.3923/ppj.2006.166.172
100163|T||Berry,M.N., A.R. Grivell, and P.G. Wallace|Biological Significance of Compartmentation of Hepatic Ethanol Oxidation|Pharmacol. Biochem. Behav.18(suppl. 1): 201-207|1983|10.1016/0091-3057(83)90172-7
100164|T||Ved,R., S. Saha, B. Westlund, C. Perier, L. Burnam, A. Sluder, M. Hoener, C.M.P. Rodrigues, A. Alfonso, C. Steer, L. Li|Similar Patterns of Mitochondrial Vulnerability and Rescue Induced by Genetic Modification of alpha-Synuclein, Parkin, and DJ-1 in Caenorhabditis elegans|J. Biol. Chem.280(52): 42655-42668|2005|10.1074/jbc.M505910200
100165|A||Vijayan,V.A., and N. Ningegowda|Susceptibility Difference in Two Populations of Culex quinquefasciatus Say (Diptera: Culicidae) to Three Synthetic Pyrethroids|Southeast Asian J. Trop. Med. Public Health24(3): 540-543|1993|
100166|T||Balasubramani,V., and A. Regupathy|Effect of Neem Oil 50 EC and NSKE on the Ovipositional Preference and Fecundity of Trichogramma chilonis (Ishii) (Hymenoptera:  Trichogrammatidae)|Biol. Control Ins. Pests5:166-168|1994|
100167|T||Aboellil,A.H.|Trilogy, a Product of Neem (Azadirachta indica) Induces Resistance in Cucumber Against Podosphaera xanthii|Res. J. Microbiol.2(5): 402-414|2007|10.3923/jm.2007.402.414
100168|T||Awasthy,K.S.|Genotoxicity of a Crude Leaf Extract of Neem in Male Germ Cells of Mice|Cytobios106(S2): 151-164|2001|
100171|T||Jones,E.M., and J.B. Kissam|The Effectiveness of Polyvinyl Chloride Plastic Bands Impregnated with Permethrin as a Control for the Northern Fowl Mite, Ornithonyssus sylviarum (Canestrini and Fanzago), Infesting Caged Laying Chickens|Poult. Sci.62(6): 1113-1116|1983|10.3382/ps.0621113
100172|T||He,W., L. Van Puyvelde, N. De Kimpe, L. Verbruggen, K. Anthonissen, M. Van der Flaas, J. Bosselaers, S.G. Mathenge, and|Chemical Constituents and Biological Activities of Zanthoxylum usambarense|PTR. Phytother.Res.16(1): 66-70|2002|10.1002/ptr.849
100173|T||Chandra,R., and B.R. Freed|Tissue Distribution of DL-Lactic Acid-1[14C] in Tumor-Bearing Rats|Int. J. Nucl. Med. Biol.6(2): 122-123|1979|10.1016/0047-0740(79)90008-1
100174|T||Colorado,P., A. Rodriguez, G. Nicolas, and D. Rodriguez|Abscisic Acid and Stress Regulate Gene Expression During Germination of Chick-Pea Seeds.  Possible Role of Calcium|Physiol. Plant. (Multiple Languages)91(3): 461-467|1994|10.1111/j.1399-3054.1994.tb02975.x
100175|A||Dudler,T., and M.H. Gelb|Replacement of the H-Ras Farnesyl Group by Lipid Analogues:  Implications for Downstream Processing and Effector Activation in Xenopus Oocytes|Biochemistry (Wash.)36(41): 12434-12441|1997|10.1021/bi971054x
100176|A||Kobayashi,M., Y. Todoroki, N. Hirai, Y. Kurimura, H. Ohigashi, and Y. Tsuji|Biological Activities of Abscisic Acid Analogs in the Morphological Change of the Green Alga Haematococcus pluvialis|J. Ferment. Bioeng.85(5): 529-531|1998|10.1016/S0922-338X(98)80076-7
100177|T||Rasmussen,R.D., D. Hole, J.R. Hess, and J.G. Carman|Wheat Kernel Dormancy and +Abscisic Acid Level Following Exposure to Fluridone|J. Plant Physiol.150(4): 440-445|1997|10.1016/S0176-1617(97)80095-8
100178|T||Sharma,S.S., and V. Kumar|Responses of Wild Type and Abscisic Acid Mutants of Arabidopsis thaliana to Cadmium|J. Plant Physiol.159(12): 1323-1327|2002|10.1078/0176-1617-00601
100179|T||Gao,X.P., Q.H. Pan, M.J. Li, L.Y. Zhang, X.F. Wang, Y.Y. Shen, Y.F. Lu, S.W. Chen, Z. Liang, and D.P. Zhang|Abscisic Acid is Involved in the Water Stress-Induced Betaine Accumulation in Pear Leaves|Plant Cell Physiol.45(6): 742-750|2004|10.1093/pcp/pch089
100180|T||Chen,C.W., Y.W. Yang, H.S. Lur, Y.G. Tsai, and M.C. Chang|A Novel Function of Abscisic Acid in the Regulation of Rice (Oryza sativa L.) Root Growth and Development|Plant Cell Physiol.47(1): 1-13|2006|10.1093/pcp/pci216
100181|T||Goh,C.H., H. Gil Nam, and Y. Shin Park|Stress Memory in Plants:  A Negative Regulation of Stomatal Response and Transient Induction of rd22 Gene to Light in Abscisic Acid-Entrained Arabidopsis Plants|Plant J.36(2): 240-255|2003|10.1046/j.1365-313X.2003.01872.x
100182|T||Saez,A., N. Apostolova, M. Gonzalez-Guzman, M.P. Gonzalez-Garcia, C. Nicolas, O. Lorenzo, and P.L. Rodriguez|Gain-of-Function and Loss-of-Function Phenotypes of the Protein Phosphatase 2C HAB1 Reveal Its Role as a Negative Regulator of Abscisic Acid Signalling|Plant J.37(3): 354-369|2004|10.1046/j.1365-313X.2003.01966.x
100183|T||Lin,C.C., and C.H. Kao|Abscisic Acid Induced Changes in Cell Wall Peroxidase Activity and Hydrogen Peroxide Level in Roots of Rice Seedlings|Plant Sci.160(2): 323-329|2001|10.1016/S0168-9452(00)00396-4
100184|T||Kang,J., S. Mehta, and F.J. Turano|The Putative Glutamate Receptor 1.1 (AtGLR1.1) In Arabidopsis thaliana Regulates Abscisic Acid Biosynthesis and Signaling to Control Development and Water Loss|Plant Cell Physiol.45(10): 1380-1389|2004|10.1093/pcp/pch159
100185|T||Tonini,P.P., C.G.S. Lisboa, L. Freschi, H. Mercier, S.C. Mazzoni-Viveiros, and M.S. Buckeridge|Effect of Abscisic Acid on Galactomannan Degradation and Endo-beta-Mannanase Activity in Seeds of Sesbania virgata (Cav.) Pers. (Leguminosae)|Trees20(6): 669-678|2006|10.1007/s00468-006-0082-2
100186|T||Abe,T., and T. Kameya|Promotion of Flower Formation by Atrazine and Diuron in Seedlings of Asparagus|Planta (Multiple Languages)169(2): 289-291|1986|10.1007/BF00392327
100187|T||Unyayar,S., E. Aktoklu, and Y. Buyukasik|The Response to Exogenous Abscisic Acid of the Roots of Notabilis and Its Wild-Type Tomato Under Drought Stress|Isr. J. Plant Sci.52(4): 293-299|2004|
100188|T||Dunlap,J.R., Y.T. Wang, and A. Skaria|Abscisic Acid- and Ethylene-Induced Defoliation of Radermachera sinica L.|Plant Growth Regul.14(3): 243-248|1994|10.1007/BF00024799
100189|T||Roth-Bejerano,N., N.J.A. Sedee, R.M. Van der Meulen, and M. Wang|The Role of Abscisic Acid in Germination of Light-Sensitive and Light-Insensitive Lettuce Seeds|Seed Sci. Res.9(2): 129-134|1999|10.1017/S0960258599000148
100190|T||Wang,A., X. Wang, Y. Ren, X. Gong, and J.D. Bewley|Endo-beta-Mannanase and Beta-Mannosidase Activities in Rice Grains During and Following Germination, and the Influence of Gibberellin and Abscisic Acid|Seed Sci. Res.15(3): 219-227|2005|10.1079/SSR2005212
100191|T||Szabo,P., and E. Ceglarska-Hodi|Western Flower Thrips (Frankliniella occidentalis) - Occurrence and Possibilities for Its Control in Hungary|Bull. OEPP/EPPO22(3): 377-382|1992|10.1111/j.1365-2338.1992.tb00514.x
100192|A||Sfara,V., S.A. De Licastro, H.M. Masuh, E.A. Seccacini, R.A. Alzogaray, and E.N. Zerba|Synergism Between cis-Permethrin and Benzoyl Phenyl Urea Insect Growth Regulators Against Aedes aegypti Larvae|Am. Mosq. Control Assoc. J.23(1): 24-28|2007|10.2987/8756-971X(2007)23[24:SBCABP]2.0.CO;2
100193|T||Aitken,R.J., A.L. Ryan, M.A. Baker, and E.A. McLaughlin|Redox Activity Associated with the Maturation and Capacitation of Mammalian Spermatozoa|Free Radic. Biol. Med.36(8): 994-1010|2004|10.1016/j.freeradbiomed.2004.01.017
100194|T||Kawahigashi,H., S. Hirose, K. Ozawa, Y. Ido, M. Kojima, H. Ohkawa, and Y. Ohkawa|Analysis of Substrate Specificity of Pig CYP2B22 and CYP2C49 Towards Herbicides by Transgenic Rice Plants|Transgenic Res.14(6): 907-917|2005|10.1007/s11248-005-0199-x
100196|T||Hamilton,J.R.|Prolonged Infusion of the Small Intestine of the Rat - Effect of Dilute Solutions of Lactic Acid on Fat Absorption and Mucosal Morphology|Pediatr. Res.1(5): 341-353|1967|10.1203/00006450-196709000-00002
100197|T||Bechtel,W., K.C. Wright, S. Wallace, B. Mosier, D. Mosier, S. Mir, and S. Kudo|An Experimental Evaluation of Microcapsules for Arterial Chemoembolization|Radiology161(3): 601-604|1986|10.1148/radiology.161.3.2947261
100198|T||Skrinjar,M., D. Jovic, and G. Dimic|Effect of Lactic Acid and pH Value on the Growth of Some Penicillium Species and Ochratoxin A Production|Mikrobiologija33(1): 19-26|1996|
100199|T||Billker,O., M.K. Shaw, I.W. Jones, S.V. Ley, A.J. Mordue, and R.E. Sinden|Azadirachtin Disrupts Formation of Organised Microtubule Arrays During Microgametogenesis of Plasmodium berghei|J. Eukaryot. Microbiol.49(6): 489-497|2002|10.1111/j.1550-7408.2002.tb00234.x
100200|T||Garg,S., G.P. Talwar, and S.N. Upadhyay|Immunocontraceptive Activity Guided Fractionation and Characterization of Active Constituents of Neem (Azadirachta indica) Seed Extracts|J. Ethnopharmacol.60(3): 235-246|1998|10.1016/S0378-8741(97)00157-8
100201|A||Singh,A., and D.K. Singh|Molluscicidal Activity of Lawsonia inermis and Its Binary and Tertiary Combinations with Other Plant Derived Molluscicides|Indian J. Exp. Biol.39(3): 263-268|2001|
100202|A||Mohanraj,R.S., and B. Dhanakkodi|Ovicidal Effects of Neem Products on Mosquito Eggs|J. Ecotoxicol. Environ. Monit.15(1): 73-77|2005|
100203|T||Fraser,L.H.|Top-Down vs Bottom-Up Control Influenced by Productivity in a North Derbyshire, UK, Dale|Oikos81(1): 99-108|1998|
100205|A||Fleming,R.J., D. Holmes, and S.J. Nixon|Toxicity of Permethrin to Chironomus riparius in Artificial and Natural Sediments|Environ. Toxicol. Chem.17(7): 1332-1337|1998|10.1002/etc.5620170718
100206|A||Lyche,A., B.A. Faafeng, and A. Brabrand|Predictability and Possible Mechanisms of Plankton Response to Reduction of Planktivorous Fish|Hydrobiologia (Multiple Languages)200-201(1): 251-261|1990|10.1007/BF02530344
100207|T||Edwards,G.R., M.J. Crawley, and M.S. Heard|Factors Influencing Molehill Distribution in Grassland:  Implications for Controlling the Damage Caused by Molehills|J. Appl. Ecol.36(3): 434-442|1999|10.1046/j.1365-2664.1999.00411.x
100208|A||Schroder,P., and M. Kahnert|Mosquito Control by Neem Azal - a Pilot Study in the Seychelles|In: H.Kleeberg (Ed.), Practice Oriented Results on Use and Production of Neem-Ingredients and Pheromones, Hohensolms, Germany:155-160|1997|
100209|T||Kamalakannan,A., V. Shanmugam, and M. Surendran|Effect of Plant Extracts on Susceptibility of Rice Seedlings to Blast Disease and Consequent Biochemical Changes in Rice Plants|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)108(5): 536-543|2001|
100210|T||Tadesse,A., and T. Basedow|Laboratory and Field Studies on the Effect of Natural Control Measures Against Insect Pests in Stored Maize in Ethiopia|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(2): 156-172|2005|
100213|T||Makundi,R.H., and S. Kashenge|Comparative Efficacy of Neem, Azadirachta indica, Extract Formulations and the Synthetic Acaricide, Amitraz (Mitac), Against the Two Spotted Spider Mites, Tetranychus urticae (Acari: Tetranychidae), on Tomatoes, Lycoper|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)109(1): 57-63|2002|
100214|T||Abatan,M.O., and M.J. Makinde|Screening Azadirachta indica and Pisum sativum for Possible Antimalarial Activities|J. Ethnopharmacol.17(1): 85-93|1986|10.1016/0378-8741(86)90075-9
100218|T||Prithiviraj,B., U.P. Singh, K.P. Singh, and K. Plank-Schumacher|Field Evaluation of Ajoene, a Constituent of Garlic (Allium sativum) and Neemazal, a Product of Neem (Azadirachta indica) for the Control of Powdery Mildew (Erysiphe pisi) of Pea (Pisum sativum)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)105(3): 274-278|1998|
100221|A||Oti,E.E., and U.H. Ukpabi|Acute Toxicity of Water Extracts of Barks of Yellow Oleander, Thevetia peruviana (Persoon), and Neem Plant, Azadirachta indica (Lodd) to Mormyrids, Hyperopisus bebe occidentalis (Gunther)|J. Appl. Aquacult.16(3-4): 183-190|2005|10.1300/J028v16n03_13
100225|A||Hordegen,P., J. Cabaret, H. Hertzberg, W. Langhans, and V. Maurer|In Vitro Screening of Six Anthelmintic Plant Products Against Larval Haemonchus contortus with a Modified Methyl-Thiazolyl-Tetrazolium Reduction Assay|J. Ethnopharmacol.108(1): 85-89|2006|10.1016/j.jep.2006.04.013
100227|A||Kirira,P.G., G.M. Rukunga, A.W. Wanyonyi, F.M. Muregi, J.W. Gathirwa, C.N. Muthaura, S.A. Omar, F. Tolo, G.M. Mungai, a|Anti-Plasmodial Activity and Toxicity of Extracts of Plants Used in Traditional Malaria Therapy in Meru and Kilifi Districts of Kenya|J. Ethnopharmacol.106(3): 403-407|2006|10.1016/j.jep.2006.01.017
100231|T||Mishra,R.K., and S.K. Singh|Effect of Aqueous Leaf Extract of Azadirachta indica on the Reproductive Organs in Male Mice|Indian J. Exp. Biol.43(11): 1093-1103|2005|
100234|T||Vogel,J.S., G.A. Keating II, and B.A. Buchholz|Protein Binding of Isofluorophate In Vivo After Coexposure to Multiple Chemicals|Environ. Health Perspect.110(suppl. 6): 1031-1036|2002|10.1289/ehp.02110s61031
100237|T||Bhaskar,A.V., K.C.S. Rao, and M.A. Rahman|Occurrence and Management of Dry Corm Rot Disease (Fusarium solani) in Colocasia|Ann. Biol.21(2): 221-230|2005|
100238|T||Remblier,C., R. Pontcharraud, B. Vandel, A. Piriou, and F. Huguet|Origin of Extracellular Dopamine Increase Induced by Lactic Acid Striatal Perfusion Monitored by Microdialysis in the Awake Rat|Neuroreport10(9): 1961-1964|1999|10.1097/00001756-199906230-00031
100247|T||West,R.J.|Notes on the Biology and Control of the Black Army Cutworm, Actebia fennica (Lepidoptera:  Noctuidae), in Black Spruce Plantations|Proc. Entomol. Soc. Ont.122:53-63|1991|
100248|T||Renoux,G., and M. Renoux|Immunopotentiation and Anabolism Induced by Sodium Diethyldithiocarbamate|J. Immunopharmacol.1(2): 247-267|1979|10.3109/08923977909026375
100249|T||Fang,J.Y., C.F. Hung, H.C. Chiu, J.J. Wang, and T.F. Chan|Efficacy and Irritancy of Enhancers on the In-Vitro and In-Vivo Percutaneous Absorption of Curcumin [Erratum to Efficacy and Irritancy of Enhancers on the In-Vitro and In-Vivo Percutaneous Absorption of Curcumin|J. Pharm. Pharmacol.55(5): 593-601|2003|10.1211/002235703765344496
100252|T||Sherman,M., and M. Tamashiro|Toxicity of Insecticides and Acaricides to the Papaya, Carica papaya L.|Hawaii Agric. Exp. Stn. Tech. Bull.40:56 p.|1959|
100253|T||Rhoades,H.L.|The Effects and Control of Sting and Stubby-Root Nematodes on Onions|Annu. Meet. Fla. State Hortic. Soc.79:175-180|1966|
100254|A||Malcolm,C.A.|Location of a Gene Conferring DDT Resistance but no Pyrethroid Cross-Resistance in Larvae of Anopheles stephensi|Genetica ('S-Gravenhage)82(1): 51-55|1990|
100255|T||Pleass,R.J., J.R.M. Armstrong, C.F. Curtis, M. Jawara, and S.W. Lindsay|Comparison of Permethrin Treatments for Bednets in the Gambia|Bull. Entomol. Res.83(1): 133-139|1993|10.1017/S0007485300041870
100256|T||Hammerschmidt,R.|Rapid Deposition of Lignin in Potato Tuber Tissue as a Response to Fungi Non-pathogenic on Potato|Physiol. Plant Pathol.24(1): 33-42|1984|10.1016/0048-4059(84)90071-7
100257|T||Yatagai,M., H. Makihara, and K. Oba|Volatile Components of Japanese Cedar Cultivars as Repellents Related to Resistance to Cryptomeria Bark Borer|J. Wood Sci.48(1): 51-55|2002|10.1007/BF00766238
100258|T||Park,K.C., J. Zhu, J. Harris, S.A. Ochieng, and T.C. Baker|Electroantennogram Responses of a Parasitic Wasp, Microplitis croceipes, to Host-Related Volatile and Anthropogenic Compounds|Physiol. Entomol.26(1): 69-77|2001|
100259|T||Howes,M.J.R., P.J. Houghton, D.J. Barlow, V.J. Pocock, and S.R. Milligan|Assessment of Estrogenic Activity in Some Common Essential Oil Constituents|J. Pharm. Pharmacol.54(11): 1521-1528|2002|10.1211/002235702216
100260|A||Haley,M.V., J.S. Anthony, E.A. Davis, C.W. Kurnas, R.G. Kuperman, and R.T. Checkai|Toxicity of the Cyclic Nitramine Energetic Material CL-20 to Aquatic Receptors|Final Rep., Oct.2002- Mar.2005.ECBC-TR-560, Edgewood Chem.Biol.Ctr., Aberdeen Proving Ground, MD:22 p.|2007|
100262|T||Nira,R., T. Hashimoto, M. Matsuzaki, and A. Nishimune|Nitrogen Transformations and Availability in Soils with Application of Fumigants|Soil Sci. Plant Nutr.42(2): 261-268|1996|10.1080/00380768.1996.10415096
100263|T||Dorman,S.C., and P.A. Minges|Results on the Control of Rootknot Nematode in Vegetable Plant Beds|Proc. Am. Soc. Hortic. Sci.50:317-320|1947|
100264|T||Hopkins,D.L., and G.W. Elmstrom|Evaluation of Soil Fumigants and Application Methods for the Control of Fusarium Wilt of Watermelon|Plant Dis. Rep.63(12): 1003-1006|1979|
100265|T||Borders,H.I.|Sclerotinioses of Snap Beans and Other Vegetable Crops|Annu. Meet. Fla. State Hortic. Soc.58:219-223|1945|
100270|T||Singh,I.P., and R.L. Kalra|Dissipation of Permethrin in Brinjal Fruits, Leaves and Soil|Indian J. Entomol.51(3): 246-252|1989|
100271|T||Hesler,L.S., and F.W.,Jr. Plapp|Combinations of Oils and Similar Compounds with Insecticides:  Effects on Toxicity and on Leaf Residues|Southwest. Entomol.Suppl.11:75-82|1986|
100272|A||Enayati,A.A., H. Vatandoost, H. Ladonni, H. Townson, and J. Hemingway|Molecular Evidence for a KDR-Like Pyrethroid Resistance Mechanism in the Malaria Vector Mosquito Anopheles stephensi|Med. Vet. Entomol.17(2): 138-144|2003|10.1046/j.1365-2915.2003.00418.x
100273|T||Lockley,T.C.|Evaluation of Various Candidate Insecticides for Quarantine Treatments Against Imported Fire Ants, Solenopsis invicta Buren, 1990|Insectic. Acaric. Tests16:257-258|1991|10.1093/iat/16.1.257a
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100275|T||Reid,B.L., and J.H. Klotz|Oral Toxicity of Various Insecticides, 1990-1991|Insectic. Acaric. Tests17:376-|1992|10.1093/iat/17.1.376
100276|AT||Peiris,H.T.R., and J. Hemingway|Temephos Resistance and the Associated Cross-Resistance Spectrum in a Strain of Culex quinquefasciatus Say (Diptera:  Culicidae) from Peliyagoda, Sri Lanka|Bull. Entomol. Res.80(1): 49-55|1990|10.1017/S0007485300045910
100277|T||Gold,R., H. Howell, and B. Summerlin|Field Evaluation of Eradicator for Fire Ant Control, 1992|Arthropod Manag. Tests21:387-|1996|10.1093/amt/21.1.387
100278|AT||U.S. Environmental Protection Agency|Ammonia Aquatic Life Criteria Re-Evaluation|http://www.epa.gov/waterscience/criteria/ammonia/:15 p.|2004|
100280|T||VanBrocklin,H.F., S.M. Hanrahan, J.D. Enas, E. Nandanan, and J.P. O'Neil|Mitochondrial Avid Radioprobes.  Preparation and Evaluation of 7'(Z)-[125I]Iodorotenone and 7'(Z)-[125I]Iodorotenol|Nucl. Med. Biol.34(1): 109-116|2007|10.1016/j.nucmedbio.2006.10.005
100281|T||Martinez-Pardo,R., J. Ribo, and E. Primo-Yufera|Activity of Juvenile Hormone Mimics Against the Mediterranean Fruit Fly|J. Econ. Entomol.72(3): 437-440|1979|10.1093/jee/72.3.437
100282|A||Alali,F., L. Zeng, Y. Zhang, Q. Ye, D.C. Hopp, J.T. Schwedler, and J.L. McLaughlin|4-Deoxyannomontacin (2,4-cis and trans)-Annomontacinone, New Bioactive Mono-tetrahydrofuran Annonaceous Acetogenins from Goniothalamus giganteus|Bioorg. Med. Chem.5(3): 549-555|1997|10.1016/S0968-0896(96)00268-4
100283|AT||Mostafa,A.A., and K.A.M. Allam|Studies on the Present Status of Insecticides Resistance on Mosquitoes Using the Diagnostic Dosages in El-Fayium Governorate, a Spot Area of Malaria in Egypt|J. Egypt. Soc. Parasitol.31(1): 177-186|2001|
100284|T||Golembiewski,R.C., and T.K. Danneberger|Dollar Spot Severity as Influenced by Trinexapac-Ethyl, Creeping Bentgrass Cultivar, and Nitrogen Fertility|Agron. J.90(4): 466-470|1998|10.2134/agronj1998.00021962009000040004x
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100287|T||El-Gazzar,F.E., G. Rusul, and E.H. Marth|Growth and Aflatoxin Production by Aspergillus parasiticus NRRL 2999 in the Presence of Lactic Acid and at Different Initial pH Values|J. Food Prot.50(11): 940-944|1987|10.4315/0362-028X-50.11.940
100288|T||Koul,O., G. Singh, R. Singh, J. Singh, W.M. Daniewski, and S. Berlozecki|Bioefficacy and Mode-of-Action of Some Limonoids of Salannin Group from Azadirachta indica A. Juss and Their Role in a Multicomponent System Against Lepidopteran Larvae|J. Biosci.29(4): 409-416|2004|10.1007/BF02712112
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100291|T||Sundaram,K.M.S.|Permethrin Deposition and Persistence in Canopy Foliage of a Plantation Forest|ASTM Spec. Tech. Publ.12:272-285|1993|
100292|T||Kotze,A.C., R.J. Dobson, and D. Chandler|Synergism of Rotenone by Piperonyl Butoxide in Haemonchus contortus and Trichostrongylus colubriformis In Vitro:  Potential for Drug-Synergism Through Inhibition of Nematode Oxidative Detoxification Pathways|Vet. Parasitol.136(3-4): 275-282|2006|10.1016/j.vetpar.2005.11.001
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100294|T||Beck,N.G., and P.J. Cameron|Developing a Reduced Spray Program for Brassicas in New Zealand|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan:341-350|1992|
100295|T||Bandyopadhyay,R.|Inhibition of Acetylcholine Esterase by Permethrin & Its Reversion by Acetylthiocholine|Indian J. Exp. Biol.20(6): 488-491|1982|
100297|T||Leidy,R.B., T.J. Sheets, and L.A. Nelson|Residues of Fluvalinate and Permethrin on Flue-Cured Tobacco|Beitr. Tabakforsch. Int.13(4): 191-204|1986|10.2478/cttr-2013-0568
100299|T||Verma,S.V.S., S.K. Gowda, and A.V. Elangovan|Response of Single Comb White Leghorn Layers to Dietary Inclusion of Raw or Alkali-Treated Neem (Azadirachta indica) Kernel Meal|Anim. Feed Sci. Technol.76(1-2): 169-175|1998|10.1016/S0377-8401(98)00203-X
100300|T||Gopal,M., A. Gupta, V. Arunachalam, and S.P. Magu|Impact of Azadirachtin, an Insecticidal Allelochemical from Neem on Soil Microflora, Enzyme and Respiratory Activities|Bioresour. Technol.98(16): 3154-3158|2007|10.1016/j.biortech.2006.10.010
100301|A||Kasai,S., T. Shono, O. Komagata, Y. Tsuda, M. Kobayashi, M. Motoki, I. Kashima, T. Tanikawa, M. Yoshida, I. Tanaka, G. |Insecticide Resistance in Potential Vector Mosquitoes for West Nile Virus in Japan|J. Med. Entomol.44(5): 822-829|2007|10.1093/jmedent/44.5.822
100302|T||Al-Zubaidy,M.H.I., and F.K. Mohammad|Metoclopramide Protection of Diazinon-Induced Toxicosis in Chickens|J. Vet. Sci.8(3): 249-254|2007|10.4142/jvs.2007.8.3.249
100303|T||Teimouri,F., N. Amirkabirian, H. Esmaily, A. Mohammadirad, A. Aliahmadi, and M. Abdollahi|Alteration of Hepatic Cells Glucose Metabolism as a Non-Cholinergic Detoxication Mechanism in Counteracting Diazinon-Induced Oxidative Stress|Hum. Exp. Toxicol.25(12): 697-703|2006|10.1177/0960327106075064
100304|T||Sutcu,R., I. Altuntas, B. Buyukvanli, O. Akturk, O. Ozturk, H. Koylu, and N. Delibas|The Effects of Diazinon on Lipid Peroxidation and Antioxidant Enzymes in Rat Erythrocytes: Role of Vitamins E and C|Toxicol. Ind. Health23(1): 13-17|2007|10.1177/0748233707076758
100305|T||Slotkin,T.A., and F.J. Seidler|Comparative Developmental Neurotoxicity of Organophosphates In Vivo:  Transcriptional Responses of Pathways for Brain Cell Development, Cell Signaling, Cytotoxicity and Neurotransmitter Systems|Brain Res. Bull.72(4-6): 232-274|2007|10.1016/j.brainresbull.2007.01.005
100306|T||Jameson,R.R., F.J. Seidler, and T.A. Slotkin|nzymatic Functions of Acetylcholinesterase Splice Variants in the Developmental Neurotoxicity of Organophosphates:  Chlorpyrifos, Chlorpyrifos Oxon, and Diazinon|Environ. Health Perspect.115(1): 65-70|2007|10.1289/ehp.9487
100308|T||Tank,S.L., L.W. Brewer, M.J. Hooper, G.P. Cobb III, and R.J. Kendall|Survival and Pesticide Exposure of Northern Bobwhites (Colinus virginianus) and Eastern Cottontails (Sylvilagus floridanus) on Agricultural Fields Treated with Counter 15G|Environ. Toxicol. Chem.12(11): 2113-2120|1993|10.1002/etc.5620121119
100309|T||Kim,J.R., H.J. Kim, and O.S. Kwon|Acetylcholinesterase and Neuropathy Target Esterase Activity in Female and Male Rats Exposed to Pesticide Terbufos|Environ. Toxicol. Pharmacol.20(1): 149-156|2005|10.1016/j.etap.2004.12.054
100310|T||Brewer,R.A., L.L. Carlock, M.J. Hooper, L.W. Brewer, G.P. Cobb III, and R.J. Kendall|Toxicity, Survivability, and Activity Patterns of Northern Bobwhite Quail Dosed with the Insecticide Terbufos|Environ. Toxicol. Chem.15(5): 750-753|1996|
100311|A||Imai,C., H. Yamugi, and W. Panjaitan|Efficacy of Several Larvicides in Laboratory and Field Tests Against Anopheles sundaicus in a Village, North Sumatra, Indonesia|Eisei Dobutsu38(2): 93-102|1987|10.7601/mez.38.93
100312|T||Stapleton,J.J., and C.G. Summers|Reflective Mulches for Management of Aphids and Aphid-Borne Virus Diseases in Late-Season Cantaloupe (Cucumis melo L. var. cantalupensis)|Crop Prot.21(10): 891-898|2002|10.1016/S0261-2194(02)00055-8
100313|A||Benoit-Vical,F., A. Valentin, V. Cournac, Y. Pelissier, M. Mallie, and J.M. Bastide|In Vitro Antiplasmodial Activity of Stem and Root Extracts of Nauclea latifolia S.M. (Rubiaceae)|J. Ethnopharmacol.61(3): 173-178|1998|10.1016/S0378-8741(98)00036-1
100314|T||Ahrens,F.A.|Histamine, Lactic Acid, and Hypertonicity as Factors in the Development of Rumenitis in Cattle|Am. J. Vet. Res.28(126): 1335-1342|1967|
100315|T||Tokuda,K., S. Natsugoe, M. Shimada, T. Kumanohoso, M. Baba, S. Takao, K. Nakamura, K. Yamada, H. Yoshizawa, Y. Hatate, |Design and Testing of a New Cisplatin Form Using a Base Material by Combining Poly-D,L-Lactic Acid and Polyethylene Glycol Acid Against Peritoneal Metastasis|Int. J. Cancer76(5): 709-712|1998|10.1002/(SICI)1097-0215(19980529)76:5<709::AID-IJC16>3.0.CO;2-Z
100316|A||Genupur,A., J.L.R. Jesu, N. Srinivasan, A.S. Kamalakaran, and R.S. Sundar|Synthesis and Cytotoxicity of Novel Isomeric C-seco Limonoids|Eur. J. Med. Chem.41(8): 997-1002|2006|10.1016/j.ejmech.2006.04.003
100318|T||Monsanto Co.|Initial Submission:  Toxicological Investigation of:  Lactic Acid with Cover Letter Dated 081392|Younger Laboratories, St. Louis, MO:6 p.|1992|
100319|T||Lee,D.H., K. Tsunoda, and M. Takahashi|Laboratory Evaluation of Triiodoallyl Alcohol as a Wood Preservative|Mater. Org.25(2): 145-159|1990|
100320|A||Engstrom-Heg,R.|Kinetics of Rotenone-Potassium Permanganate Reactions as Applied to the Protection of Trout Streams|N. Y. Fish Game J.19(1): 47-58|1972|
100322|A||Walsh,M.J., and J.J. Blum|Effects of Hypoxia and Acute Osmotic Stress on Intermediary Metabolism in Leishmania promastigotes|Mol. Biochem. Parasitol.50(2): 205-214|1992|10.1016/0166-6851(92)90217-8
100323|A||Hart,D.T., K. Vickerman, and G.H. Coombs|Respiration of Leishmania mexicana Amastigotes and Promastigotes|Mol. Biochem. Parasitol.4(1-2): 39-51|1981|10.1016/0166-6851(81)90027-X
100324|T||Marchi,A., A. Folchi, G.C. Pratella, and D. Caccioni|In Vitro Relationship Between Dithiocarbamate Residue and Stemphylium vesicarium Infection on Pear Fruit|Crop Prot.14(4): 321-326|1995|10.1016/0261-2194(95)00001-3
100325|T||Boermans,H.J., W.D. Black, J. Chesney, W. Robb, and W. Shewfelt|Effect of Terbufos Poisoning on the Blood Cholinesterase and Hematological Values in a Dairy Herd|Can. Vet. J.26(11): 350-353|1985|
100326|T||Singh,R., and B.S. Dahiya|The Assessment of Larvicidal Impact on Malaria and Malaria Vector Anopheles culicifacies (Diptera:  Culicidae) in Gurgaon Urban|Entomon9(2): 173-176|1984|
100332|T||Liu,J.H., and R.D. Hill|Post-Transcriptional Regulation of Bifunctional alpha-Amylase/Subtilisin Inhibitor Expression in Barley Embryos by Abscisic Acid|Plant Mol. Biol.29(5): 1087-1091|1995|10.1007/BF00014980
100333|T||Hixson,E.J., and T.R. Hathaway|Effect of Disulfoton (Di-Syston) on Reproduction in Rats|Study No.82-671-02, Rep.No.90965, Mobay Corp., Corporate Toxicol.Dep., Stilwell, KS:84 p.|1986|
100334|T||Hayes,R.M., K.V. Yeargan, W.W. Witt, and H.G. Raney|Interaction of Selected Insecticide-Herbicide Combinations on Soybeans (Glycine max)|Weed Sci.27(1): 51-54|1979|10.1017/S0043174500043472
100335|T||Gradis,W.H., and T.B. Sutton|Effect of Insecticides, Nutrients, and Adjuvants on In Vitro Fungistatic and Fungicidal Activity of Captan and Mancozeb|Plant Dis.65(4): 356-358|1981|10.1094/PD-65-356
100336|T||Abou-Awad,B.A., and E.M. El-Banhawy|Susceptibility of the Tomato Russet Mite, Aculops lycopersici (Acari:  Eriophyidae), in Egypt to Methamidophos, Pyridaphenthion, Cypermethrin, Dicofol and Fenarimol|Exp. Appl. Acarol.1(1): 11-15|1985|10.1007/BF01262195
100337|T||Javaregowda, and L.K. Naik|Bio-Efficacy of Flubendiamide 20 WDG (RIL-038) Against Paddy Pests and Their Natural Enemies|Pestology29(11): 58-60|2005|
100338|T||Meena,R.S., C.P. Srivastava, and N. Joshi|Bioefficacy of Some Newer Insecticides Against the Major Insect Pests of Short Duration Pigeonpea|Pestology30(9): 13-16|2006|
100339|T||Biggs,A.R., and J. Warner|Full-Season and Post-Harvest Applications of Sterol-Inhibiting Fungicides to Reduce Ascospore Formation in Venturia inaequalis|Phytoprotection (Multiple Languages)71(1): 9-15|1990|10.7202/705977ar
100345|T||Kubota,S.|Evaluation of the Effect of Some Chitin Synthesis Inhibitors Against Thrips palmi Karny (Thysanoptera:  Thripidae) Infesting Musk Melons|Appl. Entomol. Zool.24(4): 349-357|1989|10.1303/aez.24.349
100346|T||Culpepper,A.S., A.C. York, J.L. Marth, and F.T. Corbin|Effect of Insecticides on Clomazone Absorption, Translocation, and Metabolism in Cotton|Weed Sci.49(5): 613-616|2001|10.1614/0043-1745(2001)049[0613:EOIOCA]2.0.CO;2
100347|T||Thakur,V.S., P.K. Gupta, and R. Malhotra|Management of Symptoms Developed After Infection of Scab (Venturia inaequalis) in Apple (Malus domestica)|Indian J. Agric. Sci.64(2): 117-122|1994|
100349|T||Elbert,A., E. Bruck, J. Melgarejo, H.J. Schnorbach, and S. Sone|Field Development of Oberon for Whitefly and Mite Control in Vegetables, Cotton, Corn, Strawberries, Ornamentals and Tea|Pflanzenschutz-Nachr. Bayer (German Edition)58(3): 441-468|2005|
100350|T||Dekker,J., and A.J. Gielink|Decreased Sensitivity to Pyrazophos of Cucumber and Gherkin Powdery Mildew|Neth. J. Plant Pathol.85(3): 137-142|1979|10.1007/BF01982976
100352|T||Kalyanasundaram,M., C.M.R. Reddy, T. Mariappan, and P.K. Das|Evaluation of Controlled Release Formulations of Mosquito Larvicides|Indian J. Med. Res.80:649-652|1984|
100353|T||Kudo,N., S. Yamashina, and K. Waku|Protection Against Cadmium Toxicity by Zinc:  Decrease in the Cd-high Molecular Weight Protein Fraction in Rat Liver and Kidney on Zn Pretreatment|Toxicology40(3): 267-277|1986|10.1016/0300-483X(86)90059-4
100354|T||Fleming,J., H. Miller, and J.G. Joshi|Insulin or Increased Concentration of Zinc in Liver, Kidney or Muscle does not Alter the Phosphoglucomutase Activity In Vivo|Toxicology36(2-3): 151-158|1985|10.1016/0300-483X(85)90050-2
100355|A||Reddy,M.N., V. Srivastava, and V. Patil|Effect of Cadmium, Lead and Zinc on Growth of Some Cyanobacteria|J. Ecobiol.14(3): 161-167|2002|
100356|T||Gonzalez,B.P.E., R.N. Fong, C.J. Gibson, I.C. Fuentealba, and M.G. Cherian|Zinc Supplementation Decreases Hepatic Copper Accumulation in LEC Rat:  A Model of Wilson's Disease|Biol. Trace Elem. Res.105(1-3): 117-134|2005|10.1385/BTER:105:1-3:117
100357|T||Lastra,M.D., L. Saldivar, K. Martinez, N. Munguia, C. Marquez, and A.E. Aguilar|Zinc Concentrations During Mice Gestation|Biol. Trace Elem. Res.105(1-3): 205-214|2005|10.1385/BTER:105:1-3:205
100358|T||Guo,C.H., G.S.W. Hsu, L.Y. Lin, Y.H. Wang, C.Y. Lin, and M.S. Yeh|Distribution Patterns of Trace Metals and of Lipid Peroxidation in Plasma and Erythrocytes of Rat Exposed to Aluminum|Biol. Trace Elem. Res.101(1): 61-72|2004|10.1385/BTER:101:1:61
100359|A||Zafarullah,M., P.E. Olson, and L. Gedamu|Endogenous and Heavy-Metal-Ion-Induced Metallothionein Gene Expression in Salmonid Tissues and Cell Lines|Gene83:85-93|1989|10.1016/0378-1119(89)90406-X
100360|T||Goel,A., D.P. Chauhan, and D.K. Dhawan|Protective Effects of Zinc in Chlorpyrifos Induced Hepatotoxicity. A Biochemical and Trace Elemental Study|Biol. Trace Elem. Res.74(2): 171-183|2000|10.1385/BTER:74:2:171
100361|T||Chopra,R.K., S. Sehgal, and R. Nath|Cadmium an Inhibitor of Lymphocyte Transformation and Stimulator of Antibody-Dependent Cell-Mediated Cytotoxicity (ADCC) in Rats:  The Role of Zinc|Toxicology33(3-4): 303-310|1984|10.1016/0300-483X(84)90046-5
100362|A||Srivastava,N., and M. Agrawal|Effects of Zinc on Haematological Parameters of the Fish, Channa punctatus|J. Ecobiol.17(4): 377-382|2005|
100363|T||Martinez,M.M., J.E. Link, and G.M. Hill|Dietary Pharmacological or Excess Zinc and Phytase Effects on Tissue Mineral Concentrations, Metallothionein, and Apparent Mineral Retention in the Newly Weaned Pig|Biol. Trace Elem. Res.105(1-3): 97-115|2005|10.1385/BTER:105:1-3:097
100364|T||Hill,C.H., G. Matrone, W.L. Payne, and C.W. Barber|In Vivo Interactions of Cadmium with Copper, Zinc and Iron|J. Nutr.80:227-235|1963|10.1093/jn/80.3.227
100365|T||Powell,G.W., W.J. Miller, J.D. Morton, and C.M. Clifton|Influence of Dietary Cadmium Level and Supplemental Zinc on Cadmium Toxicity in the Bovine|J. Nutr.84:205-214|1964|10.1093/jn/84.3.205
100366|T||Sidhu,P., M.L. Garg, P. Morgenstern, J. Vogt, T. Butz, and D.K. Dhawan|Role of Zinc in Regulating the Levels of Hepatic Elements Following Nickel Toxicity in Rats|Biol. Trace Elem. Res.102(1-3): 161-172|2004|10.1385/BTER:102:1-3:161
100367|T||Pathak,A., A. Mahmood, R. Pathak, and D. Dhawan|Role of Zinc on Lipid Peroxidation and Antioxidative Enzymes in Intestines of Ethanol-Fed Rats|Biol. Trace Elem. Res.100(3): 247-257|2004|10.1385/BTER:100:3:247
100368|T||Baltaci,A.K., F. Sunar, R. Mogulkoc, and E. Oztekin|Effect of Zinc Deficiency and Supplementation on Lipid Peroxidation of Renal Tissue in Ovariectomized Rats|Biol. Trace Elem. Res.101(3): 231-239|2004|10.1385/BTER:101:3:231
100369|T||Ertekin,M.V., I. Karslioglu, F. Erdem, O. Sezen, A. Gepdiremen, and K. Serifoglu|Zinc Sulfate in the Prevention of Total-Body Irradiation-Induced Early Hematopoietic Toxicity. A Controlled Study in a Rat Model|Biol. Trace Elem. Res.100(1): 63-73|2004|10.1385/BTER:100:1:063
100371|T||Sun,J.Y., M.Y. Jing, X.Y. Weng, L.J. Fu, Z.R. Xu, N.T. Zi, and J.F. Wang|Effects of Dietary Zinc Levels on the Activities of Enzymes, Weights of Organs, and the Concentrations of Zinc and Copper in Growing Rats|Biol. Trace Elem. Res.107(2): 153-165|2005|10.1385/BTER:107:2:153
100372|A||Pilli,H.G., F. Ozkanli, S. Unlu, C. Safak, H. Erdogan, and U. Abbasoglu|S-(4-Fluorobenzoylmethyl) N,N-Disubstituted Dithiocarbamate Derivatives:  Synthesis and Antimicrobial Activity|Hacettepe Univ. J. Fac. Pharm.13(2): 17-24|1993|
100373|T||Van Haaren,F., R. De Jongh, J.B. Hoy, J.L. Karlix, C.J. Schmidt, I.R. Tebbett, and D. Wielbo|The Effects of Acute and Repeated Pyridostigmine Bromide Administration on Response Acquisition with Immediate and Delayed Reinforcement|Pharmacol. Biochem. Behav.62(2): 389-394|1999|10.1016/S0091-3057(98)00184-1
100374|T||Van Haaren,F., S.C. Haworth, S.M. Bennett, and B.A. Cody|The Effects of Pyridostigmine Bromide on Progressive Ratio Performance in Male and Female Rats|Pharmacol. Biochem. Behav.68(1): 81-85|2001|10.1016/S0091-3057(00)00438-X
100375|AT||Hatakoshi,M., H. Kawada, S. Nishida, H. Kisida, and I. Nakayama|Laboratory Evaluation of 2-(1-Methyl-2-(4-Phenoxyphenoxy)-Ethoxy)Pyridine Against Larvae of Mosquitoes and Housefly|Eisei Dobutsu38(4): 271-274|1987|10.7601/mez.38.271
100376|A||Vijayan,V.A., M.A. Revanna, K.S. Vasudeva, N. Pushpalatha, and Poornima |Comparative Susceptibility of Two Japanese Encephalitis Vectors from Mysore to Six Insecticides|Indian J. Med. Res. Sect. A97:215-217|1993|
100377|AT||Sweeney,K.J.|Organophosphorus Insecticide Susceptibility of Mosquitoes in Maryland, 1985-89|Am. Mosq. Control Assoc. J.9(1): 8-12|1993|
100378|A||Reyes-Villanueva,F., M. Juarez-Eguia, and A. Flores-Leal|Effects of Sublethal Dosages of Abate upon Adult Fecundity and Longevity of Aedes aegypti|Am. Mosq. Control Assoc. J.6(4): 739-741|1990|
100379|A||El-Sebae,A.H., A.S. El-Bakary, J. Le Patourel, E. Kadous, and M.F. Macklad|Effect of Photoperiodism on Fish Susceptibility to Insecticides|In: Proceedings of the 2nd International Conference on Photochemistry and Photobiology, Alexandria, Egypt2:961-966|1983|
100380|T||Collins,A.M., J.S. Pettis, R. Wilbanks, and M. Feldlaufer|Performance of Honey Bee (Apis mellifera) Queens Reared in Beeswax Cells Impregnated with Coumaphos|J. Apic. Res.43(3): 128-134|2004|10.1080/00218839.2004.11101123
100381|T||Cheng,H.H.|Darksided Cutworm (Lepidoptera: Noctuidae): Field Evaluation of Pyrethroid Insecticides for Protection of Tobacco in Ontario|Tob. Int.182(11): 64-66|1980|
100382|T||Pardio,V.T., N. Ibarra, M.A. Rodriguez, and K.N. Waliszewski|Use of Cholinesterase Activity in Monitoring Organophosphate Pesticide Exposure of Cattle Produced in Tropical Areas|J. Agric. Food Chem.49(12): 6057-6062|2001|10.1021/jf010431g
100383|T||Senthalir,P., S. Sharanya, and M. Paramathma|Suppression of Branches in Eucalyptus Trees|Am. J. Bot.91(6): 1002-1004|2004|10.3732/ajb.91.6.1002
100384|T||Kumari,J., and N.B. Krishnamurthy|Mutagenicity Studies with Safrotin in Drosophila melanogaster and Mice|Environ. Res.41(1): 44-52|1986|10.1016/S0013-9351(86)80166-9
100385|A||Rao,J.V., D. Shilpanjali, K. Pathakoti, and S.S. Madhavendra|Toxic Effects of Profenofos on Tissue Acetylcholinesterase and Gill Morphology in a Euryhaline Fish, Oreochromis mossambicus|Arch. Toxicol.77(4): 227-232|2003|10.1007/s00204-002-0432-9
100386|T||Moustafa,G.G., Z.S. Ibrahim, Y. Hashimoto, A.M. Alkelch, K.Q. Sakamoto, M. Ishizuka, and S. Fujita|Testicular Toxicity of Profenofos in Matured Male Rats|Arch. Toxicol.81(12): 875-881|2007|10.1007/s00204-007-0217-2
100387|T||McDaniel,K.L., and V.C. Moser|Differential Profiles of Cholinesterase Inhibition and Neurobehavioral Effects in Rats Exposed to Fenamiphos or Profenofos|Neurotoxicol. Teratol.26(3): 407-415|2004|10.1016/j.ntt.2004.01.001
100388|T||Habiba,R.A., H.M. Ali, and S.M.M. Ismail|Biochemical Effects of Profenofos Residues in Potatoes|J. Agric. Food Chem.40(10): 1852-1855|1992|10.1021/jf00022a600
100389|T||Sjogren,R.D., D.P. Batzer, and M.A. Juenemann|Evaluation of Methoprene, Temephos and Bacillus thuringiensis var. israelensis Against Coquillettidia perturbans Larvae in Minnesota|Am. Mosq. Control Assoc. J.2(3): 276-279|1986|
100390|A||Kamimura,K., T. Suzuki, T. Okazawa, T. Inaoka, and J.O. Ochoa|Effect of Temephos Against the Blackfly Larvae in Stream Tests in Guatemala|Eisei Dobutsu36(3): 189-195|1985|10.7601/mez.36.189
100391|A||Pierce,R.H., R.C. Brown, K.R. Hardman, M.S. Henry, C.L.P. Palmer, T.W. Miller, and G. Wichterman|Fate and Toxicity of Temephos Applied to an Intertidal Mangrove Community|Am. Mosq. Control Assoc. J.5(4): 569-578|1989|
100392|T||Rao,J.V., A.N. Swamy, and S. Yamin|Rat Brain Acetylcholinesterase Response to Monocrotophos and Abate|Bull. Environ. Contam. Toxicol.48(6): 850-856|1992|10.1007/BF00201145
100393|A||Back,C., J.G. Lanouette, and A. Aubin|Preliminary Tests on the Use of Temephos for the Control of Black Flies (Diptera:  Simuliidae) in Northern Quebec|Mosq. News39(4): 762-767|1979|
100394|A||Antwi,L.A.K.|Fish Head Acetylcholinesterase Activity After Aerial Application of Temephos in Two Rivers in Burkina Faso, West Africa|Bull. Environ. Contam. Toxicol.38(3): 461-466|1987|10.1007/BF01606615
100395|AT||Moustafa,F.I., and G.P. Georghiou|Extension of Resistance to Adults as a Result of Selection in Mosquito Larvae with Temephos, and the Cross-Resistance to Other Organophosphorus Insecticides|Int. Pest Control31(3): 61-65|1989|
100396|T||Azza, M. Aboul El Wafa, T. Abdel-Azize, Eglal, and E.A. Salem|Effect of Profenofos Feeding on Biochemical Changes in Chicken|J. Egypt. Publ. Health Assoc.65(5-6): 481-494|1994|
100397|T||Eglal, A.G. Salem, T. Abdel-Azize, Azza, M.A. Aboul El Wafa, Hesham, and B. El-Derea|Effect of Profenofos Feeding on Food Consumption, Body Weight and Tissue Residues in Chickens|J. Egypt. Publ. Health Assoc.69(5-6): 495-511|1994|
100398|T||El-Sebae,A.H., E.E. Enan, S.A. Soliman, S. El-Fiki, and E. Khamees|Biochemical Effects of Some Organophosphorus Insecticides on New Targets in White Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(4): 475-491|1981|
100399|T||Mohan,E.M., M.R. Gayathri, D.A. Ganesh, C.A.Y.B. Priya, A.A.S. Lal, V.A. Stanley, K.S. Pillai, and P. Balakrishnamurthy|Elucidation of Tumor-Promoting Potential of a Combination Pesticide by Short-Term, In Vivo Bioassay|J. Environ. Pathol. Toxicol. Oncol.20(3): 229-236|2001|
100400|T||Enan,E.E., O.H. Enan, and A.E. El-Sebae|Biochemical Targets Affected by Sublethal Doses of Organophosphorus Insecticides|Int. Pest Control24(5): 120-122|1982|
100401|T||Das,P.K., T. Mariappan, and N. Somachary|Susceptibility of Pondicherry Strain of Anopheles culicifacies Giles to Different Insecticides|Indian J. Med. Res.74:385-387|1981|
100402|A||Mizutani,K.|Basic Studies of Vector Control of Onchocerciasis in Guatemala. 1.  Flowing Behaviour of Larvicides in Minute Streamlets|Dokkyo J. Med. Sci.18(2): 95-109|1991|
100403|A||Mizutani,K.|Basic Studies of Vector Control of Onchocerciasis in Guatemala.  2.  Susceptibility Level of Blackfly Larvae to Insecticides|Dokkyo J. Med. Sci.18(2): 111-116|1991|
100404|T||Elzen,P.J., D. Westervelt, and R. Lucas|Formic Acid Treatment for Control of Varroa destructor (Mesostigmata:  Varroidae) and Safety to Apis mellifera (Hymenoptera:  Apidae) Under Southern United States Conditions|J. Econ. Entomol.97(5): 1509-1512|2004|10.1603/0022-0493-97.5.1509
100405|T||Dix,K., L.T. Burka, and W.C. Dauterman|Pharmacokinetics of Propetamphos Following Intravenous Administration in the F344 Rat|J. Biochem. Toxicol.7(4): 199-204|1992|10.1002/jbt.2570070402
100406|A||Nillos,M.G., G. Rodriguez-Fuentes, J. Gan, and D. Schlenk|Enantioselective Acetylcholinesterase Inhibition of the Organophosphorous Insecticides Profenofos, Fonofos, and Crotoxyphos|Environ. Toxicol. Chem.26(9): 1949-1954|2007|10.1897/07-001R.1
100407|T||Capps,T.M., V.M. Barringer, W.J. Eberle, D.R. Brown, and D.R. Sanson|Identification of a Unique Glucosylsulfate Conjugate Metabolite of Profenofos in Cotton|J. Agric. Food Chem.44(8): 2408-2411|1996|10.1021/jf950559w
100408|T||Vasenius,J., A. Majola, E.L. Miettinen, P. Tormala, and P. Rokkanen|Do Intramedullary Rods of Self-Reinforced Poly-L-Lactide or Poly-DL/L-Lactide Cause Lactic Acid Acidosis in Rabbits?|Clin. Mater.10(4): 213-218|1992|10.1016/0267-6605(92)90013-J
100409|T||Skinner,W.A., F. Fuhrmann, L.C. Rutledge, M.A. Moussa, and C.E. Schreck|Topical Mosquito Repellents XIII:  Cyclic Analogs of Lactic Acid|J. Pharm. Sci.69(2): 196-198|1980|10.1002/jps.2600690221
100410|T||Schakenraad,J.M., P. Nieuwenhuis, I. Molenaar, J. Helder, P.J. Dijkstra, and J. Feijen|In Vivo and In Vitro Degradation of Glycine/DL-Lactic Acid Copolymers|J. Biomed. Mater. Res.23(11): 1271-1288|1989|10.1002/jbm.820231105
100412|T||Garg,D.K., and V.K. Baranwal|An Integrated Approach for Pest Management in Basmati Rice in Haryana|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India:216-221|1998|
100413|T||Upadhyay,S.N., S. Dhawan, S. Garg, and G.P. Talwar|Immunomodulatory Effects of Neem (Azadirachta indica) Oil|Int. J. Immunopharmacol.14(7): 1187-1193|1992|10.1016/0192-0561(92)90054-O
100414|A||Nicholson,S.|Tachycardia in the Mussel, Perna viridis (Mytilidae) on Exposure to Tributyltin Antifouling Paint|Australas. J. Ecotoxicol.9(2): 137-140|2003|
100415|T||Presberg,K.W., J.I. Sznajder, J. Melendres, T. Lewis, C. Abrahams, and L.D.H. Wood|Distribution of Pulmonary Vascular Resistance During Lactic Acid Infusion in Dogs|J. Appl. Physiol.68(4): 1328-1336|1990|10.1152/jappl.1990.68.4.1328
100416|T||Rinder,J., A. Szallasi, and J.M. Lundberg|Capsaicin-, Resiniferatoxin-, and Lactic Acid-Evoked Vascular Effects in the Pig Nasal Mucosa In Vivo with Reference to Characterization of the Vanilloid Receptor|Pharmacol. Toxicol.78(5): 327-335|1996|10.1111/j.1600-0773.1996.tb01384.x
100417|T||McLoughlin,P., R.A.F. Linton, and D.M. Band|Effects of Potassium and Lactic Acid on Ventilation in Anaesthetized Cats|Respir. Physiol.95(2): 171-179|1994|10.1016/0034-5687(94)90114-7
100418|T||Kraus,B., and S. Berg|Effect of a Lactic Acid Treatment During Winter in Temperate Climate upon Varroa jacobsoni Oud. and the Bee (Apis mellifera L.) Colony|Exp. Appl. Acarol.18(8): 459-468|1994|10.1007/BF00051468
100419|T||Dawson,L.E.R., and C.S. Mayne|The Effect of Infusion of Putrescine and gamma Amino Butyric Acid on the Intake of Steers Offered Grass Silage Containing Three Levels of Lactic Acid|Anim. Feed Sci. Technol.66(1-4): 15-29|1997|10.1016/S0377-8401(96)01149-2
100420|T||Petkevicius,S., K.D. Murrell, K.E. Bach Knudsen, H. Jorgensen, A. Roepstorff, A. Laue, and H. Wachmann|Effects of Short-Chain Fatty Acids and Lactic Acids on Survival of Oesophagostomum dentatum in Pigs|Vet. Parasitol.122(4): 293-301|2004|10.1016/j.vetpar.2004.03.008
100421|T||Musabyimana,T., and R.C. Saxena|Efficacy of Neem Seed Derivatives Against Nematodes Affecting Banana|Phytoparasitica27(1): 43-49|1999|10.1007/BF02980726
100422|T||Visalakshy,P.N.G., A. Krishnamoorthy, and A. Manoj Kumar|Effects of Plant Oils and Adhesive Stickers on the Mycelia Growth and Conidiation of Verticillium lecanii, a Potential Entomopathogen|Phytoparasitica33(4): 367-369|2005|10.1007/BF02981303
100423|T||Dhaliwal,P.K., J.K. Roop, and S.S. Guraya|Antifertility Activity of Neem-Seed Oil in Cyclic Female Rats|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India:340-346|1998|
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100425|T||Singh,U.P., and B. Prithiviraj|Neemazal, a Product of Neem (Azadirachta indica), Induces Resistance in Pea (Pisum sativum) Against Erysiphe pisi|Physiol. Mol. Plant Pathol.51(3): 181-194|1997|10.1006/pmpp.1997.0112
100426|T||Ludlum,C.T., and K.P. Sieber|Effects of Azadirachtin on Oogenesis in Aedes aegypti|Physiol. Entomol.13(2): 177-184|1988|10.1111/j.1365-3032.1988.tb00921.x
100427|T||Khatre,V.M., B.V. Kachare, and U.N. Mote|Effect of Vegetable Oils on Mortality of Pulse Beetle in Pigeonpea Seeds|Seed Res.21(2): 78-81|1993|
100428|T||Rahman,M.F., M.K.J. Siddiqui, and K. Jamil|Effects of Vepacide (Azadirachta indica) on Aspartate and Alanine Aminotransferase Profiles in a Subchronic Study with Rats|Hum. Exp. Toxicol.20(5): 243-249|2001|10.1191/096032701678227730
100429|T||Kim,S.S., R.D. Lee, K.J. Lim, S.J. Kwack, G.S. Rhee, J.H. Seok, G.S. Lee, B.S. An, E.B. Jeung, and K.L. Park|Potential Estrogenic and Antiandrogenic Effects of Permethrin in Rats|J. Reprod. Dev.51(2): 201-210|2005|10.1262/jrd.16060
100430|T||Leonova,I.N., and N.M. Slynko|Life Stage Variations in Insecticidal Susceptibility and Detoxification Capacity of the Beet Webworm, Pyrausta sticticalis L. (Lep., Pyralidae)|J. Appl. Entomol.128(6): 419-425|2004|10.1111/j.1439-0418.2004.00866.x
100432|T||Baltaci,A.K., R. Mogulkoc, and I. Halifeoglu|Effects of Zinc Deficiency and Supplementation on Plasma Leptin Levels in Rats|Biol. Trace Elem. Res.104(1): 41-46|2005|10.1385/BTER:104:1:041
100433|A||Khan,S.M.M.K., C. Yoshimura, M. Arikawa, G. Omura, S. Nishiyama, Y. Suetomo, S. Kakuta, and T. Suzaki|Axopodial Degradation in the Heliozoon Raphidiophrys contractilis:  A Novel Bioassay System for Detecting Heavy Metal Toxicity in an Aquatic Environment|Environ. Sci.13(4): 193-200|2006|
100434|T||Wright,C.L., and J.W. Spears|Effect of Zinc Source and Dietary Level on Zinc Metabolism in Holstein Calves|J. Dairy Sci.87(4): 1085-1091|2004|10.3168/jds.S0022-0302(04)73254-3
100435|A||Svecevicius,G.|Acute Toxicity of Zinc to Common Freshwater Fishes of Lithuania|Acta Zool. Litu.9(2): 114-118|1999|10.1080/13921657.1999.10512294
100436|T||Smalinskiene,A., R. Gaileviciute, V. Lesauskaite, I. Sadauskiene, O. Abdrakhmanov, and L. Ivanov|Effects of Cadmium and Zinc Ions on Mitotic Activity and Protein Synthesis in Mouse Liver|Medicina (Kaunas)41(6): 506-511|2005|
100437|T||Rodovicius,H., D. Viezeliene, I. Sadauskiene, S. Valentukonyte, and L. Ivanov|The Effects of Zinc Ions on Activities of tRNALeu and Leucyl-tRNA Synthetase of Mice Liver|Medicina (Kaunas)40(10): 982-986|2004|
100438|T||Behm,J.E., G.L. Tylka, T.L. Niblack, W.J. Wiebold, and P.A. Donald|Effects of Zinc Fertilization of Corn on Hatching of Heterodera Glycines in Soil|J. Nematol.27(2): 164-171|1995|
100439|T||Land,P.W., and E. Aizenman|Zinc Accumulation After Target Loss:  An Early Event in Retrograde Degeneration of Thalamic Neurons|Eur. J. Neurosci.21(3): 647-657|2005|10.1111/j.1460-9568.2005.03903.x
100440|T||Swain,S.C., K. Keusekotten, R. Baumeister, and S.R. Sturzenbaum|C. elegans Metallothioneins:  New Insights into the Phenotypic Effects of Cadmium Toxicosis|J. Mol. Biol.341(4): 951-959|2004|10.1016/j.jmb.2004.06.050
100441|T||Yonekura,L., and H. Suzuki|Effects of Dietary Zinc Levels, Phytic Acid and Resistant Starch on Zinc Bioavailability in Rats|Eur. J. Nutr.44(6): 384-391|2005|10.1007/s00394-004-0540-9
100442|T||Persia,M.E., D.H. Baker, and C.M. Parsons|Tolerance for Excess Basic Zinc Chloride and Basic Copper Chloride in Chicks|Br. Poult. Sci.45(5): 672-676|2004|10.1080/00071660400006172
100443|A||Singh,J., and R.K. Sinha|Toxic Effect of Zinc Sulphate on the Olfactory Epithelium of Channa gachua Ham|J. Mendel.8(3-4): 225-226|1991|
100444|T||Szymanska,J.A., E.M. Bem, J.K. Piotrowski, S. Brzeznicki, and T. Baran|Renal Binding of Cadmium in the Rat Following Intragastric Exposure|Toxicology55(3): 339-348|1989|10.1016/0300-483X(89)90023-1
100445|T||Suzuki,K.T., H. Tamagawa, K. Takahashi, and N. Shimojo|Pregnancy-Induced Mobilization of Copper and Zinc Bound to Renal Metallothionein in Cadmium-Loaded Rats|Toxicology60(3): 199-210|1990|10.1016/0300-483X(90)90143-5
100446|T||Kudo,N., Y. Nakagawa, K. Waku, Y. Kawashima, and H. Kozuka|Prevention by Zinc of Cadmium Inhibition of Stearoyl-CoA Desaturase in Rat Liver|Toxicology68(2): 133-142|1991|10.1016/0300-483X(91)90016-T
100447|T||Miller,G.D., T.F. Massaro, E. Koperek, and E.J. Massaro|Low-Level Lead Exposure and the Time-Dependent Organ-Tissue Distribution of Essential Elements in the Neonatal Rat|Biol. Trace Elem. Res.6(6): 519-530|1984|10.1007/BF02987205
100448|T||Sugihira,N., C. Tohyama, M. Murakami, and H. Saito|Significance of Increase in Urinary Metallothionein of Rats Repeatedly Exposed to Cadmium|Toxicology41(1): 1-9|1986|10.1016/0300-483X(86)90099-5
100449|T||Sugihira,N., M. Sagai, and K.T. Suzuki|Renal Damage Induced by Cadmium-Metallothionein:  Effects on Biochemical Indicators|Toxicology44(1): 1-11|1987|10.1016/0300-483X(87)90042-4
100450|AT||Itoh,T.|Control of DF/DHF Vector, Aedes Mosquito, with Insecticides|Trop. Med.35(4): 259-267|1993|
100451|T||Tandon,S.K., S. Singh, S. Prasad, and N. Mathur|Influence of L-Lysine and Zinc Administration During Exposure to Lead or Lead and Ethanol in Rats|Biol. Trace Elem. Res.57(1): 51-58|1997|10.1007/BF02803869
100452|T||Rivera,O.E., N. Belmonte, and J. Herkovits|Zinc Protection Against Cadmium Effect on Estrual Cycle of Wistar Rat|Biol. Trace Elem. Res.25(1): 35-38|1990|10.1007/BF02990261
100453|T||Sidhu,P., and B. Nehru|Relationship Between Lead-Induced Biochemical and Behavioral Changes with Trace Element Concentrations in Rat Brain|Biol. Trace Elem. Res.92(3): 245-256|2004|10.1385/BTER:92:3:245
100454|T||Hashmi,N.S., D.N. Kachru, S. Khandelwal, and S.K. Tandon|Interrelationship Between Iron Deficiency and Lead Intoxication (Part 2)|Biol. Trace Elem. Res.22(3): 299-308|1989|10.1007/BF02916618
100455|T||Hashmi,N.S., D.N. Kachru, and S.K. Tandon|Interrelationship Between Iron Deficiency and Lead Intoxication (Part 1)|Biol. Trace Elem. Res.22(3): 287-298|1989|10.1007/BF02916617
100458|T||Van Rensburg,E., L.P. Van Dyk, and G.H. De Swardt|Role of Temperature in the Activity of Acetanilide Herbicides on Three Phaseolus Taxa|S. Afr. J. Plant Soil5(3): 131-133|1988|10.1080/02571862.1988.10634271
100459|T||Spence,C.D., J.P. Coghlan, D.A. Denton, E.H. Mills, J.A. Whitworth, and B.A. Scoggins|The Effect of Nivazol and Cortivazol, Novel Synthetic Steroids Containing a Phenylpyrazolo A-Ring Substitution, on Blood Pressure in Sheep|J. Steroid Biochem.25(3): 411-415|1986|10.1016/0022-4731(86)90254-2
100460|T||Sundaram,K.M.S., and J. Curry|Initial Deposits and Persistence of Azadirachtin in Fir and Oak Foliage After Spray Application of 'Margosan-O' Formulation|Pestic. Sci.41(2): 129-138|1994|10.1002/ps.2780410209
100461|T||Stark,J.D., T.T.Y. Wong, R.I. Vargas, and R.K. Thalman|Survival, Longevity, and Reproduction of Tephritid Fruit Fly Parasitoids (Hymenoptera:  Braconidae) Reared from Fruit Flies Exposed to Azadirachtin|J. Econ. Entomol.85(4): 1125-1129|1992|10.1093/jee/85.4.1125
100462|A||Jones,I.W., A.A. Denholm, S.V. Ley, H. Lovell, A. Wood, and R.E. Sinden|Sexual Development of Malaria Parasites is Inhibited In Vitro by the Neem Extract Azadirachtin, and Its Semi-synthetic Analogues|FEMS Microbiol. Lett.120(3): 267-273|1994|10.1111/j.1574-6968.1994.tb07044.x
100463|T||Singh,U.P., B. Prithiviraj, K.P. Singh, and B.K. Sarma|Control of Powdery Mildew (Erysiphe pisi) of Pea (Pisum sativum) by Combined Application of Plant Growth-Promoting Rhizobacteria and Neemazal|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)107(1): 59-66|2000|
100464|T||Mitchell,G.S., and T.T. Gleeson|Acid-Base Balance During Lactic Acid Infusion in the Lizard Varanus salvator|Respir. Physiol.60(2): 253-266|1985|10.1016/0034-5687(85)90108-2
100467|T||Reffett,J.K., J.W. Spears, P.A. Hatch, and T.T.,Jr. Brown|Influence of Selenium and Zinc on Performance, Blood-Constituents, and Immune Response in Stressed Calves|Biol. Trace Elem. Res.9(3): 139-149|1986|10.1007/BF02916522
100469|T||Burrell,A.L., W.A. Dozier III, A.J. Davis, M.M. Compton, M.E. Freeman, P.F. Vendrell, and T.L. Ward|Responses of Broilers to Dietary Zinc Concentrations and Sources in Relation to Environmental Implications|Br. Poult. Sci.45(2): 255-263|2004|10.1080/00071660410001715867
100470|A||Oronsaye,J.A.O., N.F. Okolo, and E.E. Obano|The Toxicity of Zinc and Cadmium to Clarias submaginatus|J. Aquat. Sci.18(1): 65-69|2003|10.4314/jas.v18i1.19945
100471|T||Combs,G.F.,Jr., Q. Su, C.H. Liu, and S.B. Combs|Effects of Dietary Selenite, Copper, and Zinc on Tissue Trace Mineral Levels in Chicks|Biol. Trace Elem. Res.11:51-64|1986|10.1007/BF02795524
100472|T||Hostetler,C.E., and R.L. Kincaid|Gestational Changes in Concentrations of Selenium and Zinc in the Porcine Fetus and the Effects of Maternal Intake of Selenium|Biol. Trace Elem. Res.97(1): 57-70|2004|10.1385/BTER:97:1:57
100473|T||Chen,R.W., E.J. Vasey, and P.D. Whanger|Accumulation and Depletion of Zinc in Rat Liver and Kidney Metallothioneins|J. Nutr.107(5): 805-813|1977|10.1093/jn/107.5.805
100474|T||Yavuz,N., E. Unal, M. Dogan, A.R. Kiziler, B. Aydemir, and I. Titiz|Serum Free Prostate-Specific Antigen and Zinc Levels in Experimental Acute Pancreatitis|Biol. Trace Elem. Res.106(3): 205-209|2005|10.1385/BTER:106:3:205
100475|A||Kobbia,I.A., W. Hofner, M.I. Naguib, and K.I. Zeinab|Use of Laboratory Cultures of Some Algae to Predict Heavy Metal Toxicity. IV.  Effect of Various Concentration of Cadmium, Chromium, Nickel and Zinc on the Composition of Amino Acids and Soluble Proteins in Chlorella fu|Bull. Fac. Sci. Cairo Univ.53(1): 249-263|1985|
100476|T||Dove,C.R., and R.C. Ewan|Effect of Excess Dietary Copper, Iron or Zinc on the Tocopherol and Selenium Status of Growing Pigs|J. Anim. Sci.68(8): 2407-2413|1990|10.2527/1990.6882407x
100477|T||Batra,N., B. Nehru, and M.P. Bansal|Reproductive Potential of Male Portan Rats Exposed to Various Levels of Lead with Regard to Zinc Status|Br. J. Nutr.91(3): 387-391|2004|10.1079/BJN20031066
100478|T||Santon,A., V. Albergoni, G. Santovito, G.C. Sturniolo, and P. Irato|Relationship Between Metallothionine and Zinc in the Protection Against DNA Damage in Zinc-Treated Long-Evans Cinnamon Rat Liver|Eur. J. Histochem.48(3): 317-320|2004|
100479|T||Andrews,G.K., Y.M. Huet, L.D. Lehman, and S.K. Dey|Metallothionein Gene Regulation in the Preimplantation Rabbit Blastocyst|Development100(3): 463-469|1987|10.1242/dev.100.3.463
100480|T||Calderone,A., T. Jover, T. Mashiko, K.M. Noh, H. Tanaka, M.V.L. Bennett, and R.S. Zukin|Late Calcium EDTA Rescues Hippocampal CA1 Neurons from Global Ischemia-Induced Death|J. Neurosci.24(44): 9903-9913|2004|10.1523/JNEUROSCI.1713-04.2004
100481|T||Flora,S.J.S., U. Gubrelay, G.M. Kannan, and R. Mathur|Effects of Zinc Supplementation During Chelating Agent Administration in Cadmium Intoxication in Rats|J. Appl. Toxicol.18(5): 357-362|1998|10.1002/(SICI)1099-1263(1998090)18:5<357::AID-JAT519>3.0.CO;2-B
100482|T||Kornegay,E.T., J.B. Meldrum, and W.R. Chickering|Influence of Floor Space Allowance and Dietary Selenium and Zinc on Growth Performance, Clinical Pathology Measurements and Liver Enzymes, and Adrenal Weights of Weanling Pigs|J. Anim. Sci.71(12): 3185-3198|1993|10.2527/1993.71123185x
100484|T||Pasteur,N., and G.P. Georghiou|Improved Filter Paper Test for Detecting and Quantifying Increased Esterase Activity in Organophosphate-Resistant Mosquitoes (Diptera:  Culicidae)|J. Econ. Entomol.82(2): 347-353|1989|10.1093/jee/82.2.347
100485|A||Palmer,R.W., M. Edwardes, and E.M. Nevill|Downstream Carry of Larvicides Used in the Control of Pest Black Flies (Diptera:  Simuliidae) in the Orange River, South Africa|J. Vector Ecol.21(1): 37-47|1996|
100486|T||Ennin,M.A., and C.S. Franklin|Some Sub-Cellular Effects of an Organophosphorus Insecticide, Abate|Br. J. Pharmacol.68(1): 72P - 73P|1979|
100487|A||Anadu,D.I., H.U. Anaso, and O.N.D. Onyeka|Acute Toxicity of the Insect Larvicide Abate (Temephos) on the Fish Tilapia melanopleura and the Dragonfly Larvae Neurocordelia virginiensis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(6): 1363-1375|1996|
100488|A||Manonmani,A.M., V. Vasuki, and K. Balaraman|Establishment of a Standard Test Method for Determining Susceptibility of Mesocyclops to Different Insecticides|Indian J. Med. Res.89:43-47|1989|
100489|A||Rawlins,S.C., R. Martinez, S. Wiltshire, D. Clarke, P. Prabhakar, and M. Spinks|Evaluation of Caribbean Strains of Macrocyclops and Mesocyclops (Cyclopoida:  Cyclopidae) as Biological Control Tools for the Dengue Vector Aedes aegypti|Am. Mosq. Control Assoc. J.13(1): 18-23|1997|
100490|A||Yap,H.H., A.E.S. Foo, C.Y. Lee, N.L. Chong, A.H. Awang, R. Baba, and A.M. Yahaya|Laboratory and Field Trials of Fenthion and Cyfluthrin Against Mansonia uniformis Larvae|J. Vector Ecol.21(2): 146-149|1996|
100491|T||Mohammad,F.K., A.S. Alias, G.A.M. Faris, and B.K. Al-Baggou|Application of an Electrometric Method for Measurement of Blood Cholinesterase Activities in Sheep, Goats and Cattle Treated with Organophosphate Insecticides|J. Vet. Med. Ser. A54(3): 140-143|2007|10.1111/j.1439-0442.2007.00867.x
100492|A||Giron-Perez,M.I., A. Santerre, F. Gonzalez-Jaime, J. Casas-Solis, M. Hernandez-Coronado, J. Peregrina-Sandoval, A. Take|Immunotoxicity and Hepatic Function Evaluation in Nile Tilapia (Oreochromis niloticus) Exposed to Diazinon|Fish Shellfish Immunol.23(4): 760-769|2007|10.1016/j.fsi.2007.02.004
100493|T||Dahl,B.E., R.E. Sosebee, J.P. Goen, and C.S. Brumley|Will Mesquite Control with 2,4,5-T Enhance Grass Production?|J. Range Manag.31(2): 129-131|1978|10.2307/3897661
100494|T||LaHue,D.W., and A. Kadoum|Residual Effectiveness of Emulsion and Encapsulated Formulations of Malathion and Fenitrothion Against Four Stored Grain Beetles|J. Econ. Entomol.72:234-237|1979|10.1093/jee/72.2.234
100495|T||Sutherland,D.J., M. Siewierski, and R. Kent|Microencapsulated Formulation of Malathion for Control of Aedes sollicitans|Mosq. News38(1): 15-19|1978|
100496|T||Weeks,M.H., M.A. Lawson, R.A. Angerhofer, C.D. Davenport, and N.E. Pennington|Preliminary Assessment of the Acute Toxicity of Malathion in Animals|Arch. Environ. Contam. Toxicol.6:23-31|1977|10.1007/BF02097746
100497|T||Gilliam,M., H.L. Morton, D.B. Prest, R.D. Martin, and L.J. Wickerham|The Mycoflora of Adult Worker Honeybees, Apis mellifera:  Effects of 2,4,5-T and Caging of Bee Colonies|J. Invertebr. Pathol.30:50-54|1977|10.1016/0022-2011(77)90036-2
100498|T||Blais,J.R.|Comparative Appraisal of Insecticidal Operations Against Spruce Budworm in Quebec During Two Outbreaks|For. Chron.53(2): 1-6|1977|10.5558/tfc53071-2
100499|T||Hyari,S., A.M. Kadoum, and D.W. LaHue|Laboratory Evaluations of Emulsifiable and Encapsulated Formulations of Malathion and Fenitrothion on Soft Red Winter Wheat Against Attack by Adults of Four Species of Stored-Product Insects|J. Econ. Entomol.70(4): 480-482|1977|10.1093/jee/70.4.480
100501|T||Scifres,C.J., H.G. McCall, R. Maxey, and H. Tai|Residual Properties of 2,4,5-T and Picloram in Sandy Rangeland Soils|J. Environ. Qual.6(1): 36-42|1977|10.2134/jeq1977.00472425000600010010x
100503|T||Ciba-Geigy Corp.|Initial Submission:  Letter from Ciba-Geigy Corporation to U.S.EPA Submitting a Summary on Cimectacarb 13-Week Feeding Study in Dogs|EPA/OTS Doc.#88-920005348:4 p.|1992|
100504|T||Ciba-Geigy Corp.|Initial Submission:  Letter from Ciba-Geigy Corporation to U.S.EPA Submitting a Summary on Cimectacarb 13-Week Oral Feeding Study in Rats|EPA/OTS Doc.#88-920005347:4 p.|1992|
100505|T||Ciba-Geigy Corp.|Initial Submission:  Letter from Ciba-Geigy Corporation to U.S.EPA Submitting a Summary on Cimectacarb Dermal Sensitization Study in Guinea Pigs|EPA/OTS Doc.#88-920005346:4 p.|1992|
100507|T||DuPont Chemical Corp.|Initial Submission:  Acute Oral Test of Zinc Chloride in Rats with Cover Letter Dated 101592|Du Pont, Wilmington, DE:13 p.|1992|
100508|T||Padro Sanz,A.|Activity of Extracted Neem Seed Oil and Ground Drupes of Melia azedarach L. in Thaumetopoea Pityocampa Schiff. Control|In: H.Kleeberg (Ed.), Practice Oriented Results on Use and Production of Neem-Ingredients and Pheromones, Hohensolms, Germany:7-13|1994|
100509|T||Proctor and Gamble Co.|Initial Submission:  The Effect of Dietary Zinc Concentration on the Renal Tubular Cell Response to Nitrilotriacetate in Rats with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006758:20 p.|1992|
100512|T||Eli Lilly and Co.|Initial Submission:  Letter from Eli Lilly & Co to U.S.EPA Submitting Results on an Acute Oral Study with R-O-546-79 in Rats with Attachments|EPA/OTS Doc.#88-920005869:11 p.|1992|
100514|A||Jaap,W.C., and J. Wheaton|Observations on Florida Reef Corals Treated with Fish-Collecting Chemicals|Fla. Mar. Res. Publ.10:1-18|1975|
100515|T||Tewari,R.K., R. Mathur, and A.O. Prakash|Post-coital Antifertility Effect of Neem Oil in Female Albino Rats|IRCS (Int. Res. Commun. Syst.) Med. Sci.14(10): 1005-1006|1986|
100516|T||Saxena,P.N., and A.J. Crowe|An Investigation of the Efficacy of Organotin Compounds for the Control of the Cotton Stainer, Dysdercus cingulatus, the Mosquito, Anophelese stephensi, and the Common House Fly, Musca domestica|Appl. Organomet. Chem.2:185-187|1988|10.1002/aoc.590020214
100517|T||Mohamed,A.A.|Comparative Effectiveness of Various Acaricides on Varroasis in Honeybee Colonies in Minia, Egypt|Shashpa5(1): 83-90|1998|
100518|T||Wan,M.T., J.E. Rahe, and C. Wong|Persistence of Azadirachtin-A in Two Biological Systems Used for Culturing Mycorrhizal Fungus Glomus intraradices|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(6): 929-953|1997|
100519|A||Cilek,J.E., and F.W. Knapp|Residual Activity of Three Slow-Release Temephos Formulations Against Aedes aegypti Larvae|Am. Mosq. Control Assoc. J.11(3): 358-359|1995|
100520|T||Eli Lilly|Initial Submission:  Acute Oral Toxicity of Isoxaben in Bobwhite Quail with Cover Letter Dated 081892|EPA/OTS Doc.#88-920008414:93 p.|1992|
100521|T||Eli Lilly and Co.|Initial Submission: Subchronic Oral Toxicity Pilot Study of Benzamide, N-[3-(1-Ethyl-1-Methylpropyl)-5-Isoxazolyl]-2,6-Dimethoxy in the Dog with Cover Letter Dated 08/18/92|EPA/OTS Doc.#88-920008645:113 p.|1992|
100522|T||Eli Lilly|Initial Submission:  A Teratology Study with Isoxaben Administered Orally in Dutch-Belted Rabbits with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006703:116 p.|1992|
100523|T||Eli Lilly|Initial Submission: A Subchronic Liver Toxicity Study with N-(3-(1-Ethyl-1-Methylpropyl)-5-Isoxazolyl)-2,6-Dimethoxy- Benzamide with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006485:76 p.|1992|
100527|A||Attri,B.S., and R. Prasad|Neem Oil Extractive - an Effective Mosquito Larvicide|Indian J. Entomol.42(3): 371-374|1980|
100529|T||Costa,C.T.C., C.M.L. Bevilaqua, A.L.F. Camurca-Vasconcelos, M.V. Maciel, S.M. Morais, C.M.S. Castro, R.R. Braga, and L.|In Vitro Ovicidal and Larvicidal Activity of Azadirachta indica Extracts on Haemonchus contortus|Small Ruminant Res.74(1-3): 284-287|2008|10.1016/j.smallrumres.2007.09.003
100531|T||Awasthy,K.S., O.P. Chaurasia, and S.P. Sinha|Genotoxic Effects of Crude Extract of Neem (Azadirachta indica) in Bone Marrow Cells of Mice|Cytologia60(2): 189-193|1995|10.1508/cytologia.60.189
100532|A||Jin,P., X. Pan, and S. Zhao|Toxicity and Growth-Regulating Activity of a Neem Seed Kernel Extract (Azal-S) to the Larvae of Culex quinquefasciatus|Entomol. Sin.2(1): 64-69|1995|
100533|A||Bansal,S.K., and K.V. Singh|Efficacy of Different Organophosphate and Synthetic Pyrethroid Insecticides to the Larvae of Malaria Vector Anopheles stephensi, Liston|J. Environ. Biol.25(4): 485-488|2004|
100534|T||Rahman,M.F., M.K.J. Siddiqui, and K. Jamil|Sub-Chronic Effect of Neem Based Pesticide (Vepacide) on Acetylcholinesterase and ATPases in Rat|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(5): 873-884|1999|
100536|T||Singla,N., and V.R. Parshad|Antifeeding Effects of a Neem (Azadirachta indica)-Based Formulation Botanical Bird Repellent Against the House Rat (Rattus rattus)|Indian J. Agric. Sci.77(8): 502-504|2007|
100537|T||Gopal,M., A. Gupta, and S.P. Magu|Effect of Neem (Azadirachta indica)-Based Granules on Growth Attributes of Soybean (Glycine max) on Inoculation with Rhizobia and Fluorescent Pseudomonads|Indian J. Agric. Sci.69(7): 509-512|1999|
100539|A||Wolverton,B.C., and M.M. McKown|Water Hyacinths for Removal of Phenols from Polluted Waters|Aquat. Bot.2:191-201|1976|10.1016/0304-3770(76)90020-6
100540|T||Martinez,M.M., G.M. Hill, J.E. Link, N.E. Raney, R.J. Tempelman, and C.W. Ernst|Pharmacological Zinc and Phytase Supplementation Enhance Metallothionein mRNA Abundance and Protein Concentration in Newly Weaned Pigs|J. Nutr.134(3): 538-544|2004|10.1093/jn/134.3.538
100541|T||Ashraf,M.H., and G.J. Fosmire|Effects of Marginal Zinc Deficiency on Subclinical Lead Toxicity in the Rat Neonate|J. Nutr.115(3): 334-346|1985|10.1093/jn/115.3.334
100542|T||Maitani,T., and K.T. Suzuki|Effect of Cadmium on Essential Metal Concentrations in Testis, Liver and Kidney of Five Inbred Strains of Mice|Toxicology42(2-3): 121-130|1986|10.1016/0300-483X(86)90003-X
100543|T||Rosenberg,D.W., and A. Kappas|Trace Metal Interactions In Vivo:  Inorganic Cobalt Enhances Urinary Copper Excretion Without Producing an Associated Zincuresis in Rats|J. Nutr.119(9): 1259-1268|1989|10.1093/jn/119.9.1259
100544|T||Blalock,T.L., M.A. Dunn, and R.J. Cousins|Metallothionein Gene Expression in Rats:  Tissue-Specific Regulation by Dietary Copper and Zinc|J. Nutr.118:222-228|1988|10.1093/jn/118.2.222
100545|T||Schroeder,H.A., A.P. Nason, and M. Mitchener|Action of a Chelate of Zinc on Trace Metals in Hypertensive Rats|Am. J. Physiol.214(4): 796-800|1968|10.1152/ajplegacy.1968.214.4.796
100546|T||Tripathy,N.K., L. Dey, B. Majhi, and C.C. Das|Genotoxicity of Zineb Detected Through the Somatic and Germ-Line Mosaic Assays and the Sex-Linked Recessive-Lethal Test in Drosophila melanogaster|Mutat. Res.206(1): 25-31|1988|10.1016/0165-1218(88)90137-1
100547|A||Jasso-Chavez,R., and R. Moreno-Sanchez|Cytosol-Mitochondria Transfer of Reducing Equivalents by a Lactate Shuttle in Heterotrophic Euglena|Eur. J. Biochem.270(24): 4942-4951|2003|10.1046/j.1432-1033.2003.03896.x
100548|A||Detaille,D., B. Guigas, X. Leverve, N. Wiernsperger, and P. Devos|Obligatory Role of Membrane Events in the Regulatory Effect of Metformin on the Respiratory Chain Function|Biochem. Pharmacol.63(7): 1259-1272|2002|10.1016/S0006-2952(02)00858-4
100549|T||Eli Lilly|Initial Submission:  A Subchronic Toxicity Study with EL-107 Administered Orally to Beagle Dogs for Three Months with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006494:248 p.|1992|
100550|T||Eli Lilly|Initial Submission:  A Three-Month Subchronic Toxicity Study with Isoxaben Administered Orally to Beagle Dogs with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006493:236 p.|1992|
100551|T||Helms,R.S., C.B. Guy, H.L. Black, J.A. Grove, and W.T. Fox|Weed Management in Rice|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.446:47-51|1995|
100552|T||Howe,D., and J. Clements|The White-Ivory Somatic Mutation Test in Drosophila. The Effects of Larval Age, Increasing the Number of Copies of wi and the Response to Some Reference Mutagens|Mutat. Res.228(2): 193-202|1990|10.1016/0027-5107(90)90076-G
100553|T||Blanchflower,W.J., R.J. McCracken, D.A. Rice, and A. Clements|Survey of Levels of Propetamphos and Diazinon Used to Control Sheep Scab in Northern Ireland|Vet. Rec.126(11): 263-265|1990|
100554|T||Khan,M.A.|Efficacy of Homologous Antigens and Coumaphos.  Comparative Effects Against the Cattle Grubs Hypoderma spp. and a Discussion of Coumaphos Toxicity|Vet. Rec.83(14): 345-349|1968|10.1136/vr.83.14.345
100555|A||Kim,K.U., S.T. Kwon, D.H. Shin, and N.W. Jung|Effect of Herbicide Safener on Rice (Oryza sativa L.) Sprouted Seedlings for Machine Transplanting in Korea|Acta Phytopathol. Entomol. Hung.28(2-4): 485-493|1993|
100556|A||Chun,J.C., K.W. Han, and J.K. Yeo|Effect of Mineral Nutrition and Herbicide Mixtures on the Absorption and Translocation of Bensulfuron Methyl in Rice|Acta Phytopathol. Entomol. Hung.28(2-4): 461-468|1993|
100557|T||Helms,R.S., C.B. Guy, H.L. Black, W.T. Fox, and J.A. Grove|Weed Management Studies in Stale-Seedbed Rice Production|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.449:20-25|1994|
100558|A||Irisarri,P., S. Gonnet, and J. Monza|Cyanobacteria in Uruguayan Rice Fields:  Diversity, Nitrogen Fixing Ability and Tolerance to Herbicides and Combined Nitrogen|J. Biotechnol.91(2-3): 95-103|2001|10.1016/S0168-1656(01)00334-0
100559|T||Wing,K.D., A.H. Glickman, and J.E. Casida|Oxidative Bioactivation of S-Alkyl Phosphorothiolate Pesticides:  Stereospecificity of Profenofos Insecticide Activation|Science219(4580): 63-65|1983|10.1126/science.6849116
100560|A||Rosemarin,A., M. Notini, M. Soderstrom, S. Jensen, and L. Landner|Fate and Effects of Pulp Mill Chlorophenolic 4,5,6-Trichloroguaiacol in a Model Brackish Water Ecosystem|Sci. Total Environ.92:69-89|1990|10.1016/0048-9697(90)90322-L
100561|T||Johnson,B.J., and R.R. Duncan|Influence of Herbicides on Establishment of Eight Seashore Paspalum Cultivars|J. Environ. Hortic.16(2): 79-81|1998|10.24266/0738-2898-16.2.79
100562|T||Johnson,B.J., and R.R. Duncan|Tolerance of Four Seashore Paspalum (Paspalum vaginatum) Cultivars to Postemergence Herbicides|Weed Technol.11(4): 689-692|1997|10.1017/S0890037X00043268
100563|T||Street,J.E., and T.C. Mueller|Rice (Oryza sativa) Weed Control with Soil Applications of Quinclorac|Weed Technol.7(3): 600-604|1993|10.1017/S0890037X00037404
100564|T||Grossmann,K., and J. Kwiatkowski|Selective Induction of Ethylene and Cyanide Biosynthesis Appears to be Involved in the Selectivity of the Herbicide Quinclorac Between Rice and Barnyardgrass|J. Plant Physiol.142(4): 457-466|1993|10.1016/S0176-1617(11)81252-6
100565|A||Rao,J.V., G. Begum, N.M. Jakka, K. Srikanth, and R.N. Rao|Sublethal Effects of Profenofos on Locomotor Behavior and Gill Architecture of the Mosquito Fish, Gambusia affinis|Drug Chem. Toxicol.29(3): 255-267|2006|10.1080/01480540600651543
100566|T||Lu,Z.M., H. Min, and Y.F. Ye|Influences of Quinclorac on Culturable Microorganisms and Soil Respiration in Flooded Paddy Soil|Biomed. Environ. Sci.16(4): 314-322|2003|
100567|T||National Cancer Institute|Bioassay of Coumaphos for Possible Carcinogenicity|NCI Tech.Rep.Ser.#96, Natl.Cancer Inst., Bethesda, MD:100 p.|1979|
100568|T||Inokuchi,K., H. Kogaku, Y. Imai, S. Wakai, H. Yokouchi, N. Taniguchi, K. Abe, K. Kawamura, and K. Fujita|General Pharmacological Effects of Ethyl 2-[4-(6-Chloro-2-Quinoxalyloxy)Phenoxy]Propionate (NC-302)|Oyo Yakuri30(3): 509-526|1985|
100569|A||Resgalla,C.,Jr., J.A. Noldin, M.S. Tamanaha, F.C. Deschamps, D.S. Eberhardt, and L.R. Rorig|Risk Analysis of Herbicide Quinclorac Residues in Irrigated Rice Areas, Santa Catarina, Brazil|Ecotoxicology16(8): 565-571|2007|10.1007/s10646-007-0165-x
100570|T||Rao,A.N., and K. Moody|Weed Control in Rice Seedling Nurseries|Crop Prot.7(3): 202-206|1988|10.1016/0261-2194(88)90071-3
100571|T||Thomidis,T.|Influence of Three Herbicides on Vitality, Growth, Sporangium Formation and Germination of Two Phytophthora Species Pathogenic to Fruit Trees (Einfluss Dreier Herbizide auf die Vitalitat, das Wachstum und die Sporangien|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)109(3): 311-317|2002|
100572|T||Sakata,G., K. Makino, K. Morimoto, T. Ikai, and S. Hasebe|Synthesis and Herbicidal Activity of Optically Active Ethyl 2-[4-(6-Chloro-2-Quinoxalinyloxy)Phenoxy]Propanoate|J. Pestic. Sci. (Multiple Languages)10(1): 69-73|1985|10.1584/jpestics.10.69
100573|T||Makino,K., G. Sakata, Y. Kawamura, and T. Ikai|Quantitative Structure-Activity Relationships of 2-[4-(2-Quinoxalinyloxy)Phenoxy]Propanoic Acid Derivatives, Using a Convenient Parameter, Retention Volume, in High-Performance Liquid Chromatography|J. Pestic. Sci. (Multiple Languages)11(3): 469-472|1986|10.1584/jpestics.11.469
100574|T||Sakata,G., K. Makino, K. Kusano, J. Satow, T. Ikai, and K. Suzuki|Preparation of Optically Pure Ethyl (R)-(+) and (S)-(-)-2-(4-(6-Chloro-2-Quinoxalinyloxy)Phenoxy]Propanoate by Resolution Method and Their Herbicidal Activities|J. Pestic. Sci. (Multiple Languages)10:75-79|1985|10.1584/jpestics.10.75
100575|A||Markey,K.L., A.H. Baird, C. Humphrey, and A.P. Negri|Insecticides and a Fungicide Affect Multiple Coral Life Stages|Mar. Ecol.330:127-137|2007|10.3354/meps330127
100576|T||Elwy,E.A., A.M. Abou-Zeid, and M. Metwally|In Vitro Studies of Pesticides Effect on Certain Fungi Isolated from Locusts (Schistocerca gregaria)|Afr. J. Mycol. Biotechnol.7(1): 65-79|1999|
100578|T||Shukla,G.S., and S.V. Chandra|Effect of Interaction of Mn2+ with Zn2+, Hg2+ and Cd2+ on Some Neurochemicals in Rats|Toxicol. Lett.10(2-3): 163-168|1982|10.1016/0378-4274(82)90069-8
100579|A||Gifford,S.P., G.R. MacFarlane, W.A. O'Connor, and R.H. Dunstan|Effect of the Pollutants Lead, Zinc, Hexadecane and Octocosane on Total Growth and Shell Growth in the Akoya Pearl Oyster, Pinctada imbricate|J. Shellfish Res.25(1): 159-165|2006|10.2983/0730-8000(2006)25[159:EOTPLZ]2.0.CO;2
100580|T||Asokan,P., and M.G. Cherian|Turnover of Parenterally Administered Zinc and Cadmium and the Redistribution of Metallothionein Bound Zinc in Newborn Rats|Toxicology36(1): 1-13|1985|10.1016/0300-483X(85)90002-2
100582|A||Othman,M.S., and M.N. Azwa|Acute Toxicity and Bioaccumulation of Zinc and Lead in the Freshwater Prawn Macrobrachium lanchesteri|Malays. J. Sci.23(2): 11-18|2004|
100583|T||Jacquillet,G., O. Barbier, M. Cougnon, M. Tauc, M.C. Namorado, D. Martin, J.L. Reyes, and P. Poujeol|Zinc Protects Renal Function During Cadmium Intoxication in the Rat|Am. J. Physiol., Renal Fluid Electrolyte Physiol.290(1): F127 - F137|2006|10.1152/ajprenal.00366.2004
100584|T||Barbier,O., G. Jacquillet, M. Tauc, P. Poujeol, and M. Cougnon|Acute Study of Interaction Among Cadmium, Calcium, and Zinc Transport Along the Rat Nephron In Vivo|Am. J. Physiol., Renal Fluid Electrolyte Physiol.287(6): F1067 - F1075|2004|
100586|T||Waalkes,M.P., K.S. Kasprzak, M. Ohshima, and L.A. Poirier|Protective Effects of Zinc Acetate Toward the Toxicity of Nickelous Acetate in Rats|Toxicology34(1): 29-41|1985|10.1016/0300-483X(85)90076-9
100587|T||Sword,J.T.,Jr., A.M. Ataja, A.L. Pope, and W.G. Hoekstra|Effect of Calcium Phosphates and Zinc in Salt-Mineral Mixtures on ad Libitum Salt-Mix Intake and on Zinc and Selenium Status of Sheep|J. Anim. Sci.59(6): 1594-1600|1984|10.2527/jas1984.5961594x
100588|T||Poole,B., W. Wang, Y.C. Chen, E. Zolty, S. Falk, A. Mitra, and R. Schrier|Role of Heme Oxygenase-1 in Endotoxemic Acute Renal Failure|Am. J. Physiol., Renal Fluid Electrolyte Physiol.289(6): F1382 - F1385|2005|10.1152/ajprenal.00402.2004
100589|A||Ministry of Technology|Effects of Pollution on Fish. Report of the Director 1962|In: Water Pollution Research 1962, H.M.Stationery Office, London, UK:76-83|1963|
100590|T||Atterberry,T.T., W.T. Burnett, and J.E. Chambers|Age-Related Differences in Parathion and Chlorpyrifos Toxicity in Male Rats:  Target and Nontarget Esterase Sensitivity and Cytochrome P450-Mediated Metabolism|Toxicol. Appl. Pharmacol.147(2): 411-418|1997|10.1006/taap.1997.8303
100591|A||King,C.K., S.A. Gale, and J.L. Stauber|Acute Toxicity and Bioaccumulation of Aqueous and Sediment-Bound Metals in the Estuarine Amphipod Melita plumulosa|Environ. Toxicol.21(5): 489-504|2006|10.1002/tox.20211
100592|T||Odjegba,V.J., and I.O. Fasidi|Accumulation of Trace Elements by Pistia stratiotes:  Implications for Phytoremediation|Ecotoxicology13(7): 637-646|2004|10.1007/s10646-003-4424-1
100593|T||Soltani,N., D.E. Robinson, C. Shropshire, and P.H. Sikkema|Adzuki Bean (Vigna angularis) Responses to Post-Emergence Herbicides|Crop Prot.25(6): 613-617|2006|10.1016/j.cropro.2005.09.013
100594|T||Adriaensen,K., J. Vangronsveld, and J.V. Colpaert|Zinc-Tolerant Suillus bovinus Improves Growth of Zn-Exposed Pinus sylvestris Seedlings|Mycorrhiza16:553-558|2006|10.1007/s00572-006-0072-7
100595|T||Adriaensen,K., D. Van der Lelie, A. Van Laere, J. Vangronsveld, and J.V. Colpaert|A Zinc-Adapted Fungus Protects Pines from Zinc Stress|New Phytol.161(2): 549-555|2004|10.1046/j.1469-8137.2003.00941.x
100596|T||Salminen,J., B.T. Anh, and C.A.M. Van Gestel|Enchytraeids and Microbes in Zn Polluted Soil: No Link Between Organism-Level Stress Responses and Ecosystem Functioning|Ecotoxicology10(6): 351-361|2001|10.1023/A:1012266829555
100597|A||Bringolf,R.B., W.G. Cope, C.B. Eads, P.R. Lazaro, M.C. Barnhart, and D. Shea|Acute and Chronic Toxicity of Technical-Grade Pesticides to Glochidia and Juveniles of Freshwater Mussels (Unionidae)|Environ. Toxicol. Chem.26(10): 2086-2093|2007|10.1897/06-522R.1
100598|A||Fisher,D.J., D.T. Burton, and R.L. Paulson|Acute Toxicity of a Complex Mixture of Synthetic Hexachloroethane (HC) Smoke Combustion Products: II. Determination of Component Toxicity|Environ. Toxicol. Chem.9(6): 755-760|1990|10.1002/etc.5620090609
100599|T||Ciba-Geigy Ltd.|Initial Submission:  28-Day Oral Cumulative Toxicity Study with Cimectacarb in Rats (Gavage) (Final Report) with Attachments and Cover Letter Dated 073192|EPA/OTS Doc.#88-920005296:228 p.|1992|
100600|T||Bry,R.E., R.E. Boatright, J.H. Lang, and R.A. Simonaitis|Spray Applications of Permethrin Against Fabric Pests|Pest Control47(4): 14-19|1979|
100601|T||Hollinger,M.A., S.N. Giri, and M. Freywald|Effect of Parenteral Zinc on Paraquat Toxicity in the Rat|Res. Commun. Chem. Pathol. Pharmacol.18(4): 689-696|1977|
100602|T||Lim,K.P., W.N. Yule, and C.R. Harris|The Toxicity of Ten Insecticides to Third Stage Grubs of Phyllophaga anxia (Leconte) (Coleoptera:  Scarabaeidae)|Phytoprotection (Multiple Languages)61(2): 55-60|1980|
100604|T||Mount,G.A., D.G. Haile, N.W. Pierce, and K.F. Baldwin|Aerosols of Permethrin and Propoxur for Control of Adult Mosquitoes|Mosq. News38(1): 39-42|1978|
100605|T||Abdel-Fattah,H.M., M.I.A. Abdel-Kader, and S. Hamida|Effect of Bavistin, Cotoran and Curacron on Egyptian Soil Fungi|Mycopathologia80(2): 101-106|1982|10.1007/BF02993851
100606|T||De,R.K., R.K. Mandal, S. Sarkar, and A.K. Ghorai|Non-Target Effect of Herbicides on Macrophomina phaseolina Causing Stem Rot of Jute|Environ. Ecol.25S(2): 475-478|2007|
100607|T||Kemme,P.A., A.W. Jongbloed, Z. Mroz, J. Kogut, and A.C. Beynen|Digestibility of Nutrients in Growing-Finishing Pigs is Affected by Aspergillus niger Phytase, Phytate and Lactic Acid Levels:  1.  Apparent Ileal Digestibility of Amino Acids|Livest. Prod. Sci.58(2): 107-117|1999|10.1016/S0301-6226(98)00203-6
100608|T||Kemme,P.A., A.W. Jongbloed, Z. Mroz, J. Kogut, and A.C. Beynen|Digestibility of Nutrients in Growing-Finishing Pigs is Affected by Aspergillus niger Phytase, Phytate and Lactic Acid Levels:  2.  Apparent Total Tract Digestibility of Phosphorus, Calcium and Magnesium and Ileal Degra|Livest. Prod. Sci.58(2): 119-127|1999|10.1016/S0301-6226(98)00202-4
100609|T||Oard,J., M.A. Cohn, S. Linscombe, D. Gealy, and K. Gravois|Field Evaluation of Seed Production, Shattering, and Dormancy in Hybrid Populations of Transgenic Rice (Oryza sativa) and the Weed, Red Rice (Oryza sativa)|Plant Sci.157(1): 13-22|2000|10.1016/S0168-9452(00)00245-4
100610|T||Eli Lilly and Co.|Initial Submission:  Letter from Eli Lilly & Company to U.S.EPA Submitting Results on Compound #121607 Acute Rat Oral Study with Attachments|EPA/OTS Doc.#88-920006224:15 p.|1992|
100611|T||Eli Lilly|Initial Submission:  A Three-Generation Reproduction Study with Isoxaben in Wistar Rats (Interim Report) with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006552:460 p.|1992|
100612|A||Ray,S., D.W. McLeese, and V. Zitko|Sediment Sorption and Toxicity of Organochlorine Pesticides to Marine Invertebrates|In: Khan,M.A.Q.(Ed.), Toxicology of Halogenated Hydrocarbons, New York, NY:356-364|1981|
100613|A||Miles,J.R.W., C.R. Harris, and C.M. Tu|Influence of Temperature on the Persistence of Chlorpyrifos and Chlorfenvinphos in Sterile and Natural Mineral and Organic Soils|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes18(6): 705-712|1983|
100614|T||Harris,C.R., and B.T. Bowman|The Relationship of Insecticide Solubility in Water to Toxicity in Soil|J. Econ. Entomol.74:210-212|1981|10.1093/jee/74.2.210
100615|A||Yap,H.H., B.L. Lau, and Y.P. Leong|Laboratory and Field Tests of Temephos (Abate) on Mosquito Larvae and Non-Target Organisms in Rice Fields in Malaysia|Southeast Asian J. Trop. Med. Public Health13(4): 646-653|1982|
100616|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Rotenone in F344/N Rats and B6C3F1 Mice (Feed Studies)|Tech.Rep.Ser.No.320,NIEHS,NC:159 p.|1988|
100617|A||Lowe,R.E., J.E. Fowler, C.S. Lofgren, D.A. Dame, K.E. Savage, and D.L. Bailey|Field and Laboratory Assessment of Temephos for Larval Control of Anopheles albimanus in El Salvador and Evidence for Resistance|Mosq. News40:418-423|1980|
100618|A||Chadee,D.D.|An Evaluation of Temephos in Water Drums in Trinidad, W.I.|Mosq. News44(1): 51-53|1984|
100620|T||Ishaaya,I., S. Yablonski, K.R.S. Ascher, and J.E. Casida|Pyrethroid Synergism and Prevention of Emergence in Tribolium castaneum and Musca domestica vicina by the Insect Growth Regulator RO 13-5223|Phytoparasitica12(2): 99-108|1984|10.1007/BF02980803
100621|A||Kingsbury,P.D., and D.P. Kreutzweiser|The Impact of Permethrin on Aquatic Ecosystems in Canadian Forests|Pestic. Sci.16(2): 202-203|1985|
100622|A||MacKenzie,D.L., H.E. Braun, and R. Frank|Municipal Larviciding Programs with Temephos to Control Early and Mid-Season Mosquitoes in Ontario, 1974-80|Mosq. News43(2): 187-194|1983|
100627|T||Morrissey,C.A., C.A. Albert, P.L. Dods, W.R. Cullen, V.W.M. Lai, and J.E. Elliott|Arsenic Accumulation in Bark Beetles and Forest Birds Occupying Mountain Pine Beetle Infested Stands Treated with Monosodium Methanearsonate|Environ. Sci. Technol.41(4): 1494-1500|2007|10.1021/es061967r
100628|T||Yousef,M.I.|Aluminium-Induced Changes in Hemato-Biochemical Parameters, Lipid Peroxidation and Enzyme Activities of Male Rabbits:  Protective Role of Ascorbic Acid|Toxicology199(1): 47-57|2004|10.1016/j.tox.2004.02.014
100629|A||Wee,N.L.J., Y.Y.M. Tng, H.T. Cheng, S.M.L. Lee, S.F. Chew, and Y.K. Ip|Ammonia Toxicity and Tolerance in the Brain of the African Sharptooth Catfish, Clarias gariepinus|Aquat. Toxicol.82(3): 204-213|2007|10.1016/j.aquatox.2007.02.015
100630|T||Wilczek,G.|Apoptosis and Biochemical Biomarkers of Stress in Spiders from Industrially Polluted Areas Exposed to high Temperature and Dimethoate|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(2): 194-206|2005|10.1016/j.cca.2005.06.007
100631|A||Woo,S.P.S., W. Liu, D.W.T. Au, D.M. Anderson, and R.S.S. Wu|Antioxidant Responses and Lipid Peroxidation in Gills and Erythrocytes of Fish (Rhabdosarga sarba) upon Exposure to Chattonella marina and Hydrogen Peroxide:  Implications on the Cause of Fish Kills|J. Exp. Mar. Biol. Ecol.336(2): 230-241|2006|10.1016/j.jembe.2006.05.013
100632|A||Wang,N., C.G. Ingersoll, D.K. Hardesty, C.D. Ivey, J.L. Kunz, T.W. May, F.J. Dwyer, A.D. Roberts, T. Augspurger, C.M. K|Acute Toxicity of Copper, Ammonia, and Chlorine to Glochidia and Juveniles of Freshwater Mussels (Unionidae)|Environ. Toxicol. Chem.26(10): 2036-2047|2007|10.1897/06-523R.1
100633|A||Wang,Z., H. Kong, and D. Wu|Acute and Chronic Copper Toxicity to a Saltwater Cladoceran Moina monogolica Daday|Arch. Environ. Contam. Toxicol.53(1): 50-56|2007|10.1007/s00244-006-0206-0
100635|T||Wang,P., S. Bi, L. Ma, and W. Han|Aluminum Tolerance of Two Wheat Cultivars (Brevor and Atlas66) in Relation to Their Rhizosphere pH and Organic Acids Exuded from Roots|J. Agric. Food Chem.54(26): 10033-10039|2006|10.1021/jf0611769
100636|T||Sato,M.E., M.Z. Da Silva, A. Raga, and M.F. De souza Filho|Abamectin Resistance in Tetranychus urticae Koch (Acari:  Tetranychidae):  Selection, Cross-Resistance and Stability of Resistance|Neotrop. Entomol. (Multiple Languages)34(6): 991-998|2005|10.1590/S1519-566X2005000600016
100637|T||Uchida,K., A. Fukuda, S. Kawakishi, H. Hiai, and S. Toyokuni|A Renal Carcinogen Ferric Nitrilotriacetate Mediates a Temporary Accumulation of Aldehyde-Modified Proteins Within Cytosolic Compartment of Rat Kidney|Arch. Biochem. Biophys.317(2): 405-411|1995|10.1006/abbi.1995.1181
100638|A||Tsai,K.P., and C.Y. Chen|An Algal Toxicity Database of Organic Toxicants Derived by a Closed-System Technique|Environ. Toxicol. Chem.26(9): 1931-1939|2007|10.1897/06-612R.1
100639|A||Tsai,J.W., and C.M. Liao|A Dose-Based Modeling Approach for Accumulation and Toxicity of Arsenic in Tilapia Oreochromis mossambicus|Environ. Toxicol.21(1): 8-21|2006|10.1002/tox.20150
100640|A||Stoiber,T.L., M.M. Shafer, D.A.K. Perkins, J.D.C. Hemming, and D.E. Armstrong|Analysis of Glutathione Endpoints for Measuring Copper Stress in Chlamydomonas reinhardtii|Environ. Toxicol. Chem.26(8): 1563-1571|2007|10.1897/06-534R.1
100641|A||Shaw,J.R., S.P. Glaholt, N.S. Greenberg, R. Sierra-Alvarez, and C.L. Folt|Acute Toxicity of Arsenic to Daphnia pulex: Influence of Organic Functional Groups and Oxidation State|Environ. Toxicol. Chem.26(7): 1532-1537|2007|10.1897/06-389R.1
100642|A||Sandahl,J.F., D.H. Baldwin, J.J. Jenkins, and N.L. Scholz|A Sensory System at the Interface Between Urban Stormwater Runoff and Salmon Survival|Environ. Sci. Technol.41(8): 2998-3004|2007|10.1021/es062287r
100643|T||Rufyikiri,G., L. Huysmans, J. Wannijn, M. Van Hees, C. Leyval, and I. Jakobsen|Arbuscular Mycorrhizal Fungi can Decrease the Uptake of Uranium by Subterranean Clover Grown at High Levels of Uranium in Soil|Environ. Pollut.130(3): 427-436|2004|10.1016/j.envpol.2003.12.021
100644|A||Roy,S., and S. Bhattacharya|Arsenic-Induced Histopathology and Synthesis of Stress Proteins in Liver and Kidney of Channa punctatus|Ecotoxicol. Environ. Saf.65(2): 218-229|2006|10.1016/j.ecoenv.2005.07.005
100645|T||Rahman,H., S. Sabreen, S. Alam, and S. Kawai|Effects of Nickel on Growth and Composition of Metal Micronutrients in Barley Plants Grown in Nutrient Solution|J. Nutr.28(3): 393-404|2005|
100646|A||Romano,N., and C. Zeng|Acute Toxicity of Sodium Nitrate, Potassium Nitrate, and Potassium Chloride and Their Effects on the Hemolymph Composition and Gill Structure of Early Juvenile Blue Swimmer Crabs (Portunus pelagicus Linnaeus, 1758) (Dec|Environ. Toxicol. Chem.26(9): 1955-1962|2007|10.1897/07-144R.1
100647|A||Rosenegger,D., S. Roth, and K. Lukowiak|Learning and Memory in Lymnaea are Negatively Altered by Acute Low-Level Concentrations of Hydrogen Sulphide|J. Exp. Biol.207(15): 2621-2630|2004|10.1242/jeb.01073
100648|A||Roussel,H., S. Joachim, S. Lamothe, O. Palluel, L. Gauthier, and J.M. Bonzom|A Long-Term Copper Exposure on Freshwater Ecosystem Using Lotic Mesocosms:  Individual and Population Responses of Three-Spined Sticklebacks (Gasterosteus aculeatus)|Aquat. Toxicol.82(4): 272-280|2007|10.1016/j.aquatox.2007.02.018
100649|T||Ohlson-Kiehn,C., W. Pariona, and T.S. Fredericksen|Alternative Tree Girdling and Herbicide Treatments for Liberation and Timber Stand Improvement in Bolivian Tropical Forests|For. Ecol. Manag.34(1-3): 207-212|2006|10.1016/j.foreco.2005.10.075
100650|A||Pedroso,M.S., J.G.F. Bersano, and A. Bianchini|Acute Silver Toxicity in the Euryhaline Copepod Acartia tonsa:  Influence of Salinity and Food|Environ. Toxicol. Chem.26(10): 2158-2165|2007|10.1897/06-485R.1
100651|A||Nimptsch,J., and S. Pflugmacher|Ammonia Triggers the Promotion of Oxidative Stress in the Aquatic Macrophyte Myriophyllum mattogrossense|Chemosphere66(4): 708-714|2007|10.1016/j.chemosphere.2006.07.064
100652|T||Nurse,R.E., D.E. Robinson, A.S. Hamill, and P.H. Sikkema|Annual Broadleaved Weed Control in Transplanted Tomato with Clomazone in Canada|Crop Prot.25(8): 795-799|2006|10.1016/j.cropro.2005.10.014
100653|A||Mosslacher,F.|Sensitivity of Groundwater and Surface Water Crustaceans to Chemical Pollutants and Hypoxia:  Implications for Pollution Management|Arch. Hydrobiol.149(1): 51-66|2000|10.1127/archiv-hydrobiol/149/2000/51
100654|A||Maria,V.L., A.C. Correia, and M.A. Santos|Anguilla anguilla L. Genotoxic and Liver Biotransformation Responses to Abietic Acid Exposure|Ecotoxicol. Environ. Saf.58(2): 202-210|2004|10.1016/j.ecoenv.2003.12.005
100655|A||Lin,M.C., H.H. Cheng, H.Y. Lin, Y.C. Chen, Y.P. Chen, G.P. Chang-Chien, Y.H. Chou, C.M. Liao, C.F. Dai, B.C. Han, and C|Arsenic Accumulation and Acute Toxicity in Aquacultural Juvenile Milkfish (Chanos chanos) from Blackfoot Disease Area in Taiwan|Bull. Environ. Contam. Toxicol.72(2): 248-254|2004|10.1007/s00128-003-9041-4
100656|A||Maltais,D., and R.L. Roy|A Lateral Flow Immunoassay for Rapid Evaluation of Vitellogenin Levels in Plasma and Surface Mucus of the Copper Redhorse (Moxostoma hubbsi)|Environ. Toxicol. Chem.26(8): 1672-1676|2007|10.1897/06-481R.1
100657|AT||Liu,C.P., Z.G. Shen, and X.D. Li|Accumulation and Detoxification of Cadmium in Brassica pekinensis and B. chinensis|Biol. Plant. (Praha)51(1): 116-120|2007|10.1007/s10535-007-0023-y
100658|T||Kuhajek,J.M., S.N. Jeffers, M. Slattery, and D.E. Wedge|A Rapid Microbioassay for Discovery of Novel Fungicides for Phytophthora spp.|Phytopathology93(1): 46-53|2003|10.1094/PHYTO.2003.93.1.46
100659|T||Langston,R.|Activities and Residues of Sulfur-35-Labeled bis(Ethyl Xanthic) Disulfide|J. Agric. Food Chem.3(10): 849-851|1955|10.1021/jf60056a005
100663|A||Hii,Y.S., M.Y. Lee, and T.S. Chuah|Acute Toxicity of Organochlorine Insecticide Endosulfan and Its Effect on Behaviour and Some Hematological Parameters of Asian Swamp Eel (Monopterus albus, Zuiew)|Pestic. Biochem. Physiol.89(1): 46-53|2007|10.1016/j.pestbp.2007.02.009
100664|A||Leon,A., S.J. Teh, L.C. Hall, and F.C. Teh|Androgen Disruption of Early Development in Qurt Strain Medaka (Oryzias latipes)|Aquat. Toxicol.82(3): 195-203|2007|10.1016/j.aquatox.2007.02.012
100665|A||Lerner,D.T., B.T. Bjornsson, and S.D. McCormick|Aqueous Exposure to 4-Nonylphenol and 17beta-Estradiol Increases Stress Sensitivity and Disrupts Ion Regulatory Ability of Juvenile Atlantic Salmon|Environ. Toxicol. Chem.26(7): 1433-1440|2007|10.1897/06-451R1.1
100666|A||Kater,B.J., M. Dubbeldam, and J.F. Postma|Ammonium Toxicity at high pH in a Marine Bioassay Using Corophium volutator|Arch. Environ. Contam. Toxicol.51(3): 347-351|2006|10.1007/s00244-005-0163-z
100668|T||Kotze,A.C., and S.E. Reynolds|An Examination of Cuticle Chitin and Protein in Cyromazine-Affected Manduca sexta Larvae|Pestic. Biochem. Physiol.41(1): 14-20|1991|10.1016/0048-3575(91)90055-Q
100669|T||Joseph-Horne,T., D. Hollomon, R.S.T. Loeffler, and S.L. Kelly|Altered P450 Activity Associated with Direct Selection for Fungal Azole Resistance|FEBS Lett.374(2): 174-178|1995|10.1016/0014-5793(95)01102-K
100670|T||Guo,W., Y.L. Hou, S.G. Wang, and Y.G. Zhu|Effect of Silicate on the Growth and Arsenate Uptake by Rice (Oryza sativa L.) Seedlings in Solution Culture|Plant Soil272(1/2): 173-181|2005|10.1007/s11104-004-4732-0
100672|A||Gravenmier,J.J., D.W. Johnston, and W.R. Arnold|Acute Toxicity of Vanadium to the Threespine Stickleback, Gasterosteus aculeatus|Environ. Toxicol.20(1): 18-22|2005|10.1002/tox.20073
100673|A||Baillieul,M., L. Bervoets, R. Blust, and G. De Boeck|Assessment of the Toxicity of an Industrial Effluent with a Two-Generation Reproduction Test Using Daphnia magna|Sci. Total Environ.Suppl:1159-1164|1993|10.1016/S0048-9697(05)80120-2
100674|T||Ahonen-Jonnarth,U., P.A.W. Van Hees, U.S. Lundstrom, and R.D. Finlay|Organic Acids Produced by Mycorrhizal Pinus sylvestris Exposed to Elevated Aluminium and Heavy Metal Concentrations|New Phytol.146(3): 557-567|2000|10.1046/j.1469-8137.2000.00653.x
100677|T||Faize,M., L. Faize, N. Koike, M. Ishizaka, and H. Ishii|Acibenzolar-S-Methyl-Induced Resistance to Japanese Pear Scab is Associated with Potentiation of Multiple Defense Responses|Phytopathology94(6): 604-612|2004|10.1094/PHYTO.2004.94.6.604
100678|T||Fairbrother,A., W.G. Landis, S. Dominquez, T. Shiroyama, P. Buchholz, M.J. Roze, and G.B. Matthews|A Novel Nonmetric Multivariate Approach to the Evaluation of Biomarkers in Terrestrial Field Studies|Ecotoxicology7(1): 1-10|1998|
100679|T||Estabrooks,T., R. Browne, and Z.D. Dong|2,4,5-Trichlorophenoxyacetic Acid Promotes Somatic Embryogenesis in the Rose Cultivar 'Livin' Easy' (Rosa sp.)|Plant Cell Rep.26(2): 153-160|2007|10.1007/s00299-006-0231-5
100680|A||Elron,E., M. Goren, D. Milstein, and A. Gasith|Ammonia Toxicity to Juvenile Acanthobrama telavivensis (Cyprinidae), a Critically Endangered Endemic Fish in the Coastal Plain of Israel|Isr. J. Zool.50(4): 321-331|2004|10.1560/LRQ7-0C2F-YFG4-PB3K
100681|T||Chun,J.C., J.C. Kim, I.T. Hwang, and S.E. Kim|Acteoside from Rehmannia glutinosa Nullifies Paraquat Activity in Cucumis sativus|Pestic. Biochem. Physiol.72(3): 153-159|2002|10.1016/S0048-3575(02)00008-1
100682|T||De Mendonca,C.G., V.L. Tornisielo, R.V. Filho, and A.L. De souza Lacerda|Absorption and Translocation of 2,4-D in Plants of Memora peregrina|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 137-143|2005|
100683|T||Cohen,S.M., M. Cano, R.A. Earl, S.D. Carson, and E.M. Garland|A Proposed Role for Silicates and Protein in the Proliferative Effects of Saccharin on the Male Rat Urothelium|Carcinogenesis12(9): 1551-1555|1991|10.1093/carcin/12.9.1551
100684|A||Chen,T.H., J.A. Gross, and W.H. Karasov|Adverse Effects of Chronic Exposure in Larval Northern Leopard Frogs (Rana pipiens)|Environ. Toxicol. Chem.26(7): 1470-1475|2007|10.1897/06-487R.1
100686|T||Buzalaf,M.A.R., D.M.F. Salvadori, M.E.A. Marques, E.E. Caroselli, A.L. Leite, E.A. Camargo, and D.A. Ribeiro|Absence of DNA Damage in Multiple Organs after Oral Exposure to Fluoride in Wistar Rats|Bull. Environ. Contam. Toxicol.77(5): 700-706|2006|10.1007/s00128-006-1119-3
100687|A||Bringolf,R.B., W.G. Cope, S. Mosher, M.C. Barnhart, and D. Shea|Acute and Chronic Toxicity of Glyphosate Compounds to Glochidia and Juveniles of Lampsilis siliquoidea (Unionidae)|Environ. Toxicol. Chem.26(10): 2094-2100|2007|10.1897/06-519R1.1
100688|T||Belinsky,S.A., C.M. White, J.A. Boucheron, F.C. Richardson, J.A. Swenberg, and M. Anderson|Accumulation and Persistence of DNA Adducts in Respiratory Tissue Following Multiple Dose Administrations of the Tobacco Specific Carcinogen 4-(N-Methyl-N-Nitrosamino)-1-(3-Pyridyl)-1-Butanone|Cancer Res.46:1280-1284|1986|
100689|A||Prakash,O., S.V. Goswami, and N. Sehgal|Establishment of ELISA for Murrel Vitellogenin and Choriogenin, as Biomarkers of Potential Endocrine Disruption|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(4): 540-551|2007|10.1016/j.cbpc.2007.06.008
100690|A||Mortensen,A.S., and A. Arukwe|Effects of 17alpha-Ethynylestradiol on Hormonal Responses and Xenobiotic Biotransformation System of Atlantic Salmon (Salmo salar)|Aquat. Toxicol.85:113-123|2007|10.1016/j.aquatox.2007.08.004
100691|A||Peters,R.E.M., S.C. Courtenay, S. Cagampan, M.L. Hewitt, and D.L. MacLatchy|Effects on Reproductive Potential and Endocrine Status in the Mummichog (Fundulus heteroclitus) After Exposure to 17alpha-Ethynylestradiol in a Short-Term Reproductive Bioassay|Aquat. Toxicol.85:154-166|2007|10.1016/j.aquatox.2007.08.010
100692|T||Zuo,G.C., J.Y. Yang, Y. Hao, Y.X. Dong, and C.F. Wu|Ethanol and Acetaldehyde Induce Similar Changes in Extracellular Levels of Glutamate, Taurine and GABA in Rat Anterior Cingulate Cortex|Toxicol. Lett.169(3): 253-258|2007|10.1016/j.toxlet.2006.09.016
100693|T||Kolaja,K.L., D.E. Stevenson, E.F.,Jr. Walborg, and J.E. Klaunig|Selective Dieldrin Promotion of Hepatic Focal Lesions in Mice|Carcinogenesis17(6): 1243-1250|1996|10.1093/carcin/17.6.1243
100694|T||Kotyk,A., and J. Zahradnicek|Specific Uptake of 6-Deoxy-D-Glucose and of 2-Aminoisobutyric Acid by Sugar Beet Leaves and Roots|Biol. Plant. (Praha)39(4): 591-597|1997|10.1023/A:1000934916439
100695|T||Woo,S.Y., K.W. Kwon, J.C. Lee, P.G. Kim, J.H. Choi, and B.S. Gang|Comparison of Net Photosynthesis on Four Tree Species After SO2 Exposure|J. Korean For. Soc.92(5): 451-456|2003|
100696|A||Leistra,M., A.J. Zweers, J.S. Warinton, S.J.H. Crum, L.H. Hand, W.H.J. Beltman, and S.J. Maund|Fate of the Insecticide Lambda-Cyhalothrin in Ditch Enclosures Differing in Vegetation Density|Pest Manag. Sci.60(1): 75-84|2004|10.1002/ps.780
100697|T||Ruiz,M.L., S.S.M. Villanueva, M.G. Luquita, M. Vore, A.D. Mottino, and V.A. Catania|Ethynylestradiol Increases Expression and Activity of Rat Liver MRP3|Drug Metab. Dispos.34(6): 1030-1034|2006|10.1124/dmd.106.009316
100699|T||Dickey,C.A., K.V. Heal, R.T. Stidson, R. Koren, P. Schroder, J.N. Cape, and M.R. Heal|Trichloroacetic Acid Cycling in Sitka Spruce Saplings and Effects on Sapling Health Following Long Term Exposure|Environ. Pollut.130(2): 165-176|2004|10.1016/j.envpol.2003.12.013
100700|T||Dogeroglu,T., A. Cicek, and S. Kara|Short-Term Effects of Hydrogen Fluoride on Nicotiana tabacum L|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(5): 561-570|2003|
100701|T||Dunn,B.P.|Wide-Range Linear Dose-Response Curve for DNA Binding of Orally Administered Benzo(a)pyrene in Mice|Cancer Res.43:2654-2658|1983|
100702|T||Ertunc,T., B. Schmidt, H. Kuhn, M. Bertmer, and A. Schaffer|Investigation on the Chemical Structure of xtractable Residues of the Fungicide Cyprodinil in Spring Wheat Using 13C-C1-Phenyl-Cyprodinil on 13C-Depleted Plants - an Alternative Approach to Investigate xtractabl|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(5-6): 689-707|2004|
100703|A||Fujisawa,T., M. Kurosawa, and T. Katagi|Uptake and Transformation of Pesticide Metabolites by Duckweed (Lemna gibba)|J. Agric. Food Chem.54(17): 6286-6293|2006|10.1021/jf061301g
100704|T||Furlong,M.J., and E. Groden|Evaluation of Synergistic Interactions Between the Colorado Potato Beetle (Coleoptera: Chrysomelidae) Pathogen Beauveria bassiana and the Insecticides, Imidacloprid, and Cyromazine|J. Econ. Entomol.94(2): 344-356|2001|10.1603/0022-0493-94.2.344
100705|T||Garcia-Sanchez,F., J.P. Syvertsen, V. Martinez, and J.C. Melgar|Salinity Tolerance of 'Valencia' Orange Trees on Rootstocks with Contrasting Salt Tolerance is not Improved by Moderate Shade|J. Exp. Bot.57(14): 3697-3706|2006|10.1093/jxb/erl121
100706|T||Gauba,N., Mahmooduzzafar, T.O. Siddiqi, S. Umar, and M. Iqbal|Leaf Biochemistry of Lycopersicon esculentum Mill. at Different Stages of Plant Development as Affected by Mercury Treatment|J. Environ. Biol.28(2): 303-306|2007|
100707|T||Halladay,A.K., D.T. Wilson, G.C. Wagner, and K.R. Reuhl|Trimethyltin-Induced Alterations in Behavior are Linked to Changes in PSA-NCAM Expression|Neurotoxicology27(2): 137-146|2006|10.1016/j.neuro.2005.06.005
100708|T||Hamid,M.M., and R.R. Williams|Translocation of Paclobutrazol and Gibberellic Acid in Sturt's Desert Pea (Swainsona formosa)|Plant Growth Regul.23(3): 167-171|1997|10.1023/A:1005982002914
100709|T||Hang,M., C. Zhongyun, Z. Yuhua, and C. Meichi|Effects of Trifluralin on Soil Microbial Populations and the Nitrogen Fixation Activities|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(5): 569-579|2001|
100710|A||Blum,J.L., I. Knoebl, P. Larkin, K.J. Kroll, and N.D. Denslow|Use of Suppressive Subtractive Hybridization and cDNA Arrays to Discover Patterns of Altered Gene Expression in the Liver of Dihydrotestosterone and 11-Ketotestosterone Exposed Adult Male Largemouth Bass (Micropterus sa|Mar. Environ. Res.58(2-5): 565-569|2004|10.1016/j.marenvres.2004.03.046
100711|T||Camper,N.D., R.J. Keese, and P.S. Coker|MSMA Resistance Studies|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(4): 665-673|2004|
100712|T||Buntin,G.D., K.L. Flanders, R.W. Slaughter, and Z.D. DeLamar|Damage Loss Assessment and Control of the Cereal Leaf Beetle (Coleoptera: Chrysomelidae) in Winter Wheat|J. Econ. Entomol.97(2): 374-382|2004|10.1093/jee/97.2.374
100713|T||Christoffoleti,P.J., R. Trentin, S. Tocchetto, A. Marochi, A.J.B. Galli, R.F. Lopez-Ovejero, and M. Nicolai|Alternative Herbicides to Manage Italian Ryegrass (Lolium multiflorum Lam) Resistant to Glyphosate at Different Phenological Stages|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 59-67|2005|
100714|T||Barry,J.D., W.J. Sciarappa, L.A.F. Teixeira, and S. Polavarapu|Comparative Effectiveness of Different Insecticides for Organic Management of Blueberry Maggot (Diptera: Tephritidae)|J. Econ. Entomol.98(4): 1236-1241|2005|10.1603/0022-0493-98.4.1236
100715|T||Arora,S., and M. Gopal|Bioefficacy of Iprodione Against Two Desapers, Its Compatibility with T. harzianum and Residues on Cabbage Crop|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(6): 949-963|2006|
100716|T||Antonious,G.F., Z.M. Ray, and L.,Jr. Rivers|Mobility of Dimethoate Residues from Spring Broccoli Field|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(1): 9-14|2007|
100717|T||Angioni,A., G. Sarais, F. Dedola, and P. Caboni|Pyrimethanil Residues on Table Grapes Italia After Field Treatment|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(6): 833-841|2006|
100718|T||Aamil,M., A. Zaidi, and M.S. Khan|Fungicidal Impact on Chickpea-Mesorhizobium Symbiosis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(5/6): 779-790|2004|
100719|A||Quiniou,F., G. Damiens, M. Gnassia-Barelli, A. Geffard, C. Mouneyrac, H. Budzinski, and M. Romeo|Marine Water Quality Assessment Using Transplanted Oyster Larvae|Environ. Int.33(1): 27-33|2007|10.1016/j.envint.2006.06.020
100721|A||Rees,C.B., H. Wu, and W. Li|Cloning of CYP1A in Atlantic Salmon (Salmo salar)|Aquaculture246(1-4): 11-23|2005|10.1016/j.aquaculture.2004.12.025
100722|A||Rabergh,C.M.I., G. Bylund, and J.E. Eriksson|Histopathological Effects of Microcystin-LR, a Cyclic Peptide Toxin from the Cyanobacterium (Blue-Green Alga), Microcystis aeruginosa, on Common Carp (Cyprinus carpio L.)|Aquat. Toxicol.20:131-146|1991|10.1016/0166-445X(91)90012-X
100723|T||Rafael,A.I., A. Almeida, P. Santos, I. Parreira, V.M.S. Madeira, R. Alves, A.M.S. Cabrita, and M.C. Alpoim|A Role for Transforming Growth Factor-beta Apoptotic Signaling Pathway in Liver Injury Induced by Ingestion of Water Contaminated with High Levels of Cr(VI)|Toxicol. Appl. Pharmacol.224(2): 163-173|2007|10.1016/j.taap.2007.07.004
100724|A||Rahman,M.A., H. Hasegawa, K. Ueda, T. Maki, C. Okumura, and M.M. Rahman|Arsenic Accumulation in Duckweed (Spirodela polyrhiza L.): A Good Option for Phytoremediation|Chemosphere69(3): 493-499|2007|10.1016/j.chemosphere.2007.04.019
100725|A||Raikow,D.F., P.F. Landrum, and D.F. Reid|Aquatic Invertebrate Resting Egg Sensitivity to Glutaraldehyde and Sodium Hypochlorite|Environ. Toxicol. Chem.26(8): 1770-1773|2007|10.1897/06-582R.1
100726|T||Rajapaksa,K.S., E.A. Cannady, I.G. Sipes, and P.B. Hoyer|Involvement of CYP 2E1 Enzyme in Ovotoxicity Caused by 4-Vinylcyclohexene and Its Metabolites|Toxicol. Appl. Pharmacol.221(2): 215-221|2007|10.1016/j.taap.2007.03.009
100727|A||Ramachandra Reddy,P., P. Kiranmayi, K.T. Kumari, and P.S. Reddy|17alpha-Hydroxyprogesterone Induced Ovarian Growth and Vitellogenesis in the Freshwater Rice Field Crab Oziotelphusa senex senex|Aquaculture254(1-4): 768-775|2006|10.1016/j.aquaculture.2005.11.023
100728|T||Ramesh,G.T., and A.L. Jadhav|Region-Specific Alterations in Tyrosine Hydroxylase Activity in Rats Exposed to Lead|Mol. Cell. Biochem.189(1-2): 19-24|1998|10.1023/A:1006896111280
100729|A||Ramesh,A., S. Sathiyanarayanan, and L. Chandran|Dissipation of Sulfosulfuron in Water - Bioaccumulation of Residues in Fish - LC-MS/MS-ESI Identification and Quantification of Metabolites|Chemosphere68(3): 495-500|2007|10.1016/j.chemosphere.2006.12.060
100730|T||Rankin,G.O., D.K. Anestis, M.A. Valentovic, H. Sun, and W.E. Triest|Nephrotoxicity Induced by the R- and S-Enantiomers of N-(3,5-Dichlorophenyl)-2-Hydroxysuccinimide (NDHS) and Their Sulfate Conjugates in Male Fischer 344 Rats|Toxicology240(1-2): 38-47|2007|10.1016/j.tox.2007.07.013
100731|T||Rao,K.P., and B.D. Nandan|Modification of Benzo(a)pyrene Induced Chromosomal Damage in Mouse Bone Marrow by Vitamin A|Bull. Environ. Contam. Toxicol.45(6): 829-832|1990|10.1007/BF01701079
100732|A||Rao,J.V.|Toxic Effects of Novel Organophosphorus Insecticide (RPR-V) on Certain Biochemical Parameters of Euryhaline Fish, Oreochromis mossambicus|Pestic. Biochem. Physiol.86(2): 78-84|2006|10.1016/j.pestbp.2006.01.008
100733|T||Raudonis,L., E. Surviliene, and A. Valiuskaite|Toxicity of Pesticides to Predatory Mites and Insects in Apple-Tree Site Under Field Conditions|Environ. Toxicol.19(4): 291-295|2004|10.1002/tox.20036
100734|T||Quartacci,M.F., B. Irtelli, A.J.M. Baker, and F. Navari-Izzo|The Use of NTA and EDDS for Enhanced Phytoextraction of Metals from a Multiply Contaminated Soil by Brassica carinata|Chemosphere68(10): 1920-1928|2007|10.1016/j.chemosphere.2007.02.058
100735|T||Razia,S., Y. Maegawa, S. Tamotsu, and T. Oishi|Histological Changes in Immune and Endocrine Organs of Quail Embryos:  Exposure to Estrogen and Nonylphenol|Ecotoxicol. Environ. Saf.65(3): 364-371|2006|10.1016/j.ecoenv.2005.07.026
100736|A||Readman,J.W., R.A. Devilla, G. Tarran, C.A. Llewellyn, T.W. Fileman, A. Easton, P.H. Burkill, and R.F.C. Mantoura|Flow Cytometry and Pigment Analyses as Tools to Investigate the Toxicity of Herbicides to Natural Phytoplankton Communities|Mar. Environ. Res.58(2-5): 353-358|2004|10.1016/j.marenvres.2004.03.081
100737|T||Reaney,S.H., G. Bench, and D.R. Smith|Brain Accumulation and Toxicity of Mn(II) and Mn(III) Exposures|Toxicol. Sci.93(1): 114-124|2006|10.1093/toxsci/kfl028
100740|T||Reddy,T.V., G.R. Olson, B. Wiechman, G. Reddy, M. Robinson, J.A. Torsella, and F.B. Daniel|Fourteen-Day Toxicity Study of 1,3,5-Trinitrobenzene in Fischer 344 Rats|J. Appl. Toxicol.16(4): 289-295|1996|10.1002/(SICI)1099-1263(199607)16:4<289::AID-JAT349>3.0.CO;2-I
100741|T||Reding,M.E., and E.H. Beers|Campylomma Control, 1993|Arthropod Manag. Tests19:37-|1994|10.1093/amt/19.1.37
100742|T||Rehm,S., J.M. Ward, A.A.W. Ten Have-Opbroek, L.M. Anderson, G. Singh, S.L. Katyal, and J.M. Rice|Mouse Papillary Lung Tumors Transplacentally Induced by N-Nitrosoethylurea: Evidence for Alveolar Type II Cell Origin by Comparative Light Microscopic, Ultrastructural, and Immunohistochemical Studies|Cancer Res.48:148-160|1988|
100743|A||Reinhold,D.M., and F.M. Saunders|Development and Application of Oxygen Production Rate Assessment to Uptake of Fluorinated Organics by Lemna minor|Environ. Toxicol. Chem.25(11): 3039-3045|2006|10.1897/06-006R.1
100744|A||Reynders,H., K. Van Campenhout, L. Bervoets, W.M. De Coen, and R. Blust|Dynamics of Cadmium Accumulation and Effects in Common Carp (Cyprinus carpio) During Simultaneous Exposure to Water and Food (Tubifex tubifex)|Environ. Toxicol. Chem.25(6): 1558-1567|2006|10.1897/05-239R.1
100745|T||Qiu,Z.H., J.C. Wu, B. Dong, D.H. Li, and H.N. Gu|Two-Way Effect of Pesticides on Zeatin Riboside Content in Both Rice Leaves and Roots|Crop Prot.23(11): 1131-1136|2004|10.1016/j.cropro.2004.04.005
100746|A||Qiu,A., C.N. Glover, and C. Hogstrand|Regulation of Branchial Zinc Uptake by 1alpha,25-(OH)2D3 in Rainbow Trout and Associated Changes in Expression of ZIP1 and ECaC|Aquat. Toxicol.84(2): 142-152|2007|10.1016/j.aquatox.2007.02.020
100747|T||Quinn,M.J.,Jr., E.T. Lavoie, and M.A. Ottinger|Reproductive Toxicity of Trenbolone Acetate in Embryonically Exposed Japanese Quail|Chemosphere66(7): 1191-1196|2007|10.1016/j.chemosphere.2006.07.085
100748|T||Quinn,M.J.,Jr., M.A. Bazar, C.A. McFarland, E.J. Perkins, K.A. Gust, R.M.,Jr. Gogal, and M.S. Johnson|Effects of Subchronic Exposure to 2,6-Dinitrotoluene in the Northern Bobwhite (Colinus viginianus)|Environ. Toxicol. Chem.26(10): 2202-2207|2007|10.1897/07-123R.1
100749|T||Quinn,M.J.,Jr., M. McKernan, E.T. Lavoie, and M.A. Ottinger|Immunotoxicity of Trenbolone Acetate in Japanese Quail|J. Toxicol. Environ. Health Part A70(1): 88-93|2007|10.1080/15287390600755026
100750|A||Quiros,L., D. Raldua, A. Navarro, M. Casado, D. Barcelo, and B. Pina|A Noninvasive Test of Exposition to Toxicants:  Quantitative Analysis of Cytochrome P4501A Expression in Fish Scales|Environ. Toxicol. Chem.26(10): 2179-2186|2007|10.1897/07-027R.1
100751|T||Desprez,T., S. Vernhettes, M. Fagard, G. Refregier, T. Desnos, E. Aletti, N. Py, S. Pelletier, and H. Hofte|Resistance Against Herbicide Isoxaben and Cellulose Deficiency Caused by Distinct Mutations in Same Cellulose Synthase Isoform CESA6|Plant Physiol.128(2): 482-490|2002|10.1104/pp.010822
100752|T||Lanigan,R.S., and F.A. Andersen|Final Report on the Safety Assessment of Isostearamidopropyl Morpholine Lactate|Int. J. Toxicol.18(suppl. 3): 51-56|1999|
100753|A||Das,S.C., D.R. Nath, M. Bhuyan, N.G. Das, and S. Hazarika|Field Trial of Abate and Teknar for Simulium (Diptera:  Simuliidae) Control in India|Am. Mosq. Control Assoc. J.6(1): 135-137|1990|
100754|A||Campos,J., C.F. Andrade, and S.M. Recco-Pimentel|Chromosomal Comparisons Among and Within Populations of Simulium (Chirostilbia) Pertinax (Diptera, Simuliidae)|Mem. Inst. Oswaldo Cruz96(3): 365-369|2001|10.1590/S0074-02762001000300014
100755|A||Michaelakis,A., A.P. Mihou, G. Koliopoulos, and E.A. Couladouros|Attract-and-Kill Strategy.  Laboratory Studies on Hatched Larvae of Culex pipiens|Pest Manag. Sci.63(10): 954-959|2007|10.1002/ps.1418
100756|A||Macoris,M.L.G., M.T.M. Andrighetti, L. Takaku, C.M. Glasser, V.C. Garbeloto, and J.E. Bracco|Resistance of Aedes aegypti from the State of Sao Paulo, Brazil, to Organophosphates Insecticides|Mem. Inst. Oswaldo Cruz98(5): 703-708|2003|10.1590/S0074-02762003000500020
100757|T||Harold,J.A., and J.A. Ottea|Toxicological Significance of Enzyme Activities in Profenofos-Resistant Tobacco Budworms, Heliothis virescens (F.)|Pestic. Biochem. Physiol.58(1): 23-33|1997|10.1006/pest.1997.2283
100758|T||Estesen,B.J., N.A. Buck, and G.W. Ware|Dislodgable Insecticide Residues on Cotton Foliage:  Permethrin, Curacron, Fenvalarate, Sulprofos, Decis, and Endosulfan|Bull. Environ. Contam. Toxicol.22(1/2): 245-248|1979|10.1007/BF02026937
100759|T||Kay,S.H.|Response of Two Alligatorweed Biotypes to Quinclorac|J. Aquat. Plant Manag.30:35-40|1992|
100760|T||Kieczka,H.|Report on the Study of the Acute Oral Toxicity on the Rat Based on OECD and EPA (FIFRA) of BAS 514 00 H.|BASF Corporation, Parsippany, NJ:15 p.|1986|
100761|T||Ayala,L., M.A.A. Tillmann, L.B. Dode, F.A. Villela, A.M. Magalhaes, and M.P. Silva|Tetrazolium Test for Identification of Transgenic Rice Seeds Tolerant to Herbicide|Seed Sci. Technol.30(2): 431-436|2002|
100762|A||Vartak,P.H., V.B. Tungikar, S.B. Bhonde, and R.N. Sharma|Laboratory Evaluation of Toxic Baits for Mosquito (Aedes aegypti) Larvae|Indian J. Exp. Biol.34(3): 272-273|1996|
100764|A||Montada,D., R. Tang, A. Navarro, and F.A. Garcia|Susceptibility Status of Aedes taeniorhynchus to Organochlorine and Organophosphate Insecticides|Mem. Inst. Oswaldo Cruz89(2): 251-252|1994|10.1590/S0074-02761994000200025
100765|T||Ciba-Geigy Ltd.|Initial: Submission:  Pilot 7-Week Oral Feeding Study with Cimectacarb in Dogs with Attachments and Cover Letter Dated 073192|EPA/OTS Doc.#88-920005297:389 p.|1992|
100766|T||Ducros,G., and T. Trippenbach|Respiratory Effects of Lactic Acid Injected into the Jugular Vein of Newborn Rabbits|Pediatr. Res.29(6): 548-552|1991|10.1203/00006450-199106010-00006
100767|T||Lapouble,E., C. Montecot, A. Sevestre, and J. Pichon|Phosphinothricin Induces Epileptic Activity via Nitric Oxide Production Through NMDA Receptor Activation in Adult Mice|Brain Res.957(1): 46-52|2002|10.1016/S0006-8993(02)03597-7
100768|T||Gebel,T., S. Kevekordes, K. Pav, R. Edenharder, and H. Dunkelberg|In Vivo Genotoxicity of Selected Herbicides in the Mouse Bone-Marrow Micronucleus Test|Arch. Toxicol.71(3): 193-197|1997|10.1007/s002040050375
100769|A||Hurst,T.P., B.H. Kay, P.A. Ryan, and M.D. Brown|Sublethal Effects of Mosquito Larvicides on Swimming Performance of Larvivorous Fish Melanotaenia duboulayi (Atheriniformes:  Melanotaeniidae)|J. Econ. Entomol.100(1): 61-65|2007|10.1093/jee/100.1.61
100770|A||Jeffery,J.A.L., B.H. Kay, and P.A. Ryan|Control of Arbovirus Vector Verrallina funerea (Diptera:  Culicidae) in Southeast Queensland, Australia|J. Econ. Entomol.100(5): 1512-1518|2007|10.1093/jee/100.5.1512
100771|T||Kang,S., W. Choi II, and M. Ryoo II|Demography of Paronychiurus kimi (Lee) (Collembola:  Onychiuridae) Under the Influence of Glufosinate-Ammonium on Plaster Charcoal Substrate and in Artificial Soil|Appl. Soil Ecol.18(1): 39-45|2001|10.1016/S0929-1393(01)00150-0
100772|A||Ansari,M.A., P.K. Mittal, R.K. Razdan, R.C. Dhiman, and A. Kumar|Evaluation of Pirimiphos-Methyl (50% EC) Against the Immatures of Anopheles stephensi/An. culicifacies (Malaria Vectors) and Culex quinquefasciatus (Vector of Bancroftian Filariasis)|J. Vector Borne Dis.41(1-2): 10-16|2004|
100773|A||Huang,S., and L.B. Brattsten|Effect of Salinity on Temephos Toxicity to Larvae of Aedes sollicitans (Diptera:  Culicidae)|J. Med. Entomol.44(4): 705-708|2007|10.1603/0022-2585(2007)44[705:EOSOTT]2.0.CO;2
100774|A||Da Cunha de Araujo-Coutinho,C.J.P., A.B.P.V. Cunha, N.M. Serra-Freire, and R.P. De Mello|Evaluation of the Impact of Bacillus thuringiensis Serovar israelensis and Temephos, Used for the Control of Simulium (Chirostilbia) pertinax Kollar, 1832 (Diptera, Simuliidae) on the Associated Entomofauna, Paraty, Sta|Mem. Inst. Oswaldo Cruz98(5): 697-702|2003|10.1590/S0074-02762003000500019
100775|A||Champakaew,D., W. Choochote, Y. Pongpaibul, U. Chaithong, A. Jitpakdi, B. Tuetun, and B. Pitasawat|Larvicidal Efficacy and Biological Stability of a Botanical Natural Product, Zedoary Oil-Impregnated Sand Granules, Against Aedes aegypti (Diptera, Culicidae)|Parasitol. Res.100(4): 729-737|2007|10.1007/s00436-006-0350-5
100776|T||Cecil,H.C., J. Bitman, and S.J. Harris|Effects of Different Classes of Pesticides on Pentobarbital Anesthesia and Toxicity in Japanese Quail|J. Agric. Food Chem.21(1): 114-117|1973|10.1021/jf60185a029
100777|A||Rao,J.V., K. Pathakoti, N.M. Jakka, V. Sridhar, and P.K. Usman|Toxicity of Organophosphates on Morphology and Locomotor Behavior in Brine Shrimp, Artemia salina|Arch. Environ. Contam. Toxicol.53(2): 227-232|2007|10.1007/s00244-006-0226-9
100778|A||Mathur,K.K.|Relative Susceptibility of Common Vector Mosquito Larvae and Larvivorous Fish, Gambusia affinis and Poecilia reticulata to Three New Insecticides|J. Commun. Dis.17(3): 219-226|1985|
100779|T||Nashwa,A.A.A., H.H. Kamel, and F.M. Karima|Cytogenetic and Clinicopathologic Changes Associated with Exposure of Male Baladi Goat to Low Dose of Organophosphorus Pesticide Selecron|Vet. Med. J. Giza53(2): 713-729|2005|
100780|T||Lin,L., X.L. Zeng, and J. Zhang|Effect of Profenofos Poisoning on Liver Lipid Peroxidation and Liver Function in Rabbits|Chin. J. Clin. Rehab.8(21): 4380-4381|2004|
100781|T||Timofeeva,O.A., C.S. Roegge, F.J. Seidler, T.A. Slotkin, and E.D. Levin|Persistent Cognitive Alterations in Rats After Early Postnatal Exposure to Low Doses of the Organophosphate Pesticide, Diazinon|Neurotoxicol. Teratol.30(1): 38-45|2008|10.1016/j.ntt.2007.10.002
100782|A||Osterauer,R., and H.R. Kohler|Temperature-Dependent Effects of the Pesticides Thiacloprid and Diazinon on the Embryonic Development of Zebrafish (Danio rerio)|Aquat. Toxicol.86:485-494|2008|10.1016/j.aquatox.2007.12.013
100783|A||Smith,S.,Jr., R.E.,Jr. Lizotte, and M.T. Moore|Toxicity Assessment of Diazinon in a Constructed Wetland Using Hyalella azteca|Bull. Environ. Contam. Toxicol.79(1): 58-61|2007|10.1007/s00128-007-9215-6
100784|A||Marcial,H.S., and A. Hagiwara|Effect of Diazinon on Life Stages and Resting Egg Hatchability of Rotifer Brachionus plicatilis|Hydrobiologia (Multiple Languages)593(1): 219-225|2007|10.1007/s10750-007-9070-9
100785|A||Sucahyo,D., N.M. Van Straalen, A. Krave, and C.A.M. Van Gestel|Acute Toxicity of Pesticides to the Tropical Freshwater Shrimp Caridina laevis|Ecotoxicol. Environ. Saf.69:421-427|2008|10.1016/j.ecoenv.2007.06.003
100786|A||Bouldin,J.L., J.L. Farris, M.T. Moore, S.,Jr. Smith, and C.M. Cooper|Assessment of Diazinon Toxicity in Sediment and Water of Constructed Wetlands Using Deployed Corbicula fluminea and Laboratory Testing|Arch. Environ. Contam. Toxicol.53(2): 174-182|2007|10.1007/s00244-006-0180-6
100787|T||Fujii,T., T. Ohata, and M. Horinaka|Alterations in the Response to Kainic Acid in Rats Exposed to Glufosinate Ammonium, a Herbicide During Infantile Period|Proc. Jpn. Acad. Ser. B72(1): 7-10|1996|
100789|A||Wirth,M.C., M. Marquine, G.P. Georghiou, and N. Pasteur|Esterases A2 and B2 in Culex quinquefasciatus (Diptera:  Culicidae):  Role in Organophosphate Resistance and Linkage|J. Med. Entomol.27(2): 202-206|1990|10.1093/jmedent/27.2.202
100790|A||Laskowski,H.P., A.C. Larsen, G.F. O'Shea, and B.R. Pittendrigh|Effect of Xanthan Gum and Traditional Mosquito Larvicides on Chironomid Larvae|Wildl. Soc. Bull.27(3): 741-745|1999|
100791|A||Rey,D., J.P. David, G. Besnard, J.L. Jullien, C. Lagneau, and J.C. Meyran|Comparative Sensitivity of Larval Mosquitoes to Vegetable Polyphenols Versus Conventional Insecticides|Entomol. Exp. Appl.98(3): 361-367|2001|10.1046/j.1570-7458.2001.00793.x
100792|A||Muse,W.A., T.O. Kehinde, O.A. Oloidi, M.B. Sosan, and E.M. Obuotor|Effect of Some Pulverized Plant Extracts on Oviposition, Hatching and Development of Larvae of Aedes aegypti (L.)|Environ. Ecol.20(4): 810-817|2002|
100793|A||Paulino,A.T., L.B. Santos, and J. Nozaki|Protective Action of Zinc Against Lead Poisoning in Tilapia Oreochromis niloticus|Toxicol. Environ. Chem.89(2): 363-370|2007|10.1080/02772240601056686
100794|T||Wahba,Z.Z., M.S. Miller, and M.P. Waalkes|Absence of Changes in Metallothionein RNA in the Rat Testes made Refractory to Cadmium Toxicity by Zinc Pretreatment|Hum. Exp. Toxicol.13(1): 65-67|1994|10.1177/096032719401300110
100795|T||Flora,S.J.S.|Influence of Simultaneous Supplementation of Zinc and Copper During Chelation of Lead in Rats|Hum. Exp. Toxicol.10(5): 331-336|1991|10.1177/096032719101000506
100796|T||Watanabe,Y., F. Nonomura, N. Tanahashi, A. Sugitani, and F. Yamada|Preventive Effect of Pretreatment with Zinc on Cadmium Nephrotoxicity in Rats - Evaluation by Changes of Urinary Enzyme Activities|Ind. Health23(1): 25-36|1985|10.2486/indhealth.23.25
100797|T||Szabo,J., M. Hegedus, G. Bruckner, E. Kosa, E. Andrasofszky, and E. Berta|Large Doses of Zinc Oxide Increases the Activity of Hydrolases in Rats|J. Nutr. Biochem.15(4): 206-209|2004|10.1016/j.jnutbio.2003.09.005
100798|A||Otitoloju,A.A., and K.N. Don-Pedro|Determination of Types of Interactions Exhibited by Binary Mixtures of Heavy Metals Tested Against the Hermit Crab, Clibanarius africanus|Toxicol. Environ. Chem.88(2): 331-343|2006|10.1080/02772240600619583
100799|T||Sakai,T., F. Miki, M. Wariishi, and S. Yamamoto|Comparative Study of Zinc, Copper, Manganese, and Iron Concentrations in Organs of Zinc-Deficient Rats and Rats Treated Neonatally with L-Monosodium Glutamate|Biol. Trace Elem. Res.97(2): 163-182|2004|10.1385/BTER:97:2:163
100800|T||Carageorgiou,H., V. Tzotzes, A. Sideris, A. Zarros, and S. Tsakiris|Cadmium Effects on Brain Acetylcholinesterase Activity and Antioxidant Status of Adult Rats:  Modulation by Zinc, Calcium and L-Cysteine Co-Administration|Basic Clin. Pharmacol. Toxicol.97(5): 320-324|2005|10.1111/j.1742-7843.2005.pto_174.x
100801|A||Zhou,Q., P.S. Rainbow, and B.D. Smith|Tolerance and Accumulation of the Trace Metals Zinc, Copper and Cadmium in Three Populations of the Polychaete Nereis diversicolor|J. Mar. Biol. Assoc. U.K.83:65-72|2003|10.1017/S0025315403006817h
100802|T||Lambert,J.C., Z. Zhou, L. Wang, Z. Song, C.J. McClain, and Y.J. Kang|Preservation of Intestinal Structural Integrity by Zinc is Independent of Metallothionein in Alcohol-Intoxicated Mice|Am. J. Pathol.164(6): 1959-1966|2004|10.1016/S0002-9440(10)63756-X
100803|T||Zhou,Z., L. Wang, Z. Song, J.T. Saari, C.J. McClain, and Y.J. Kang|Zinc Supplementation Prevents Alcoholic Liver Injury in Mice Through Attenuation of Oxidative Stress|Am. J. Pathol.166(6): 1681-1690|2005|10.1016/S0002-9440(10)62478-9
100804|T||Patel,A.B., and H. Venkatakrishna-Bhatt|Influence of Trace Metals on Serum Total Sialic Acids and Perchloric Acid - Soluble Proteins and Sialic Acids in Mice|J. Appl. Toxicol.9(1): 67-68|1989|10.1002/jat.2550090112
100805|T||Afonne,O.J., O.E. Orisakwe, E. Obi, C.E. Dioka, and G.I. Ndubuka|Nephrotoxic Actions of Low-Dose Mercury in Mice:  Protection by Zinc|Arch. Environ. Health57(2): 98-102|2002|10.1080/00039890209602923
100806|T||Ovesen,J., G. Danscher, J.S. Thomsen, L. Mosekilde, and B. Moller-Madsen|Autometallographic Tracing of Zinc Ions in Growing Bone|J. Musculoskelet. Neuronal Interact.4(4): 428-435|2004|
100807|T||Tran,C.D., M.A.F. Campbell, Y. Kolev, S. Chamberlain, H.Q. Huynh, and R.N. Butler|Short-Term Zinc Supplementation Attenuates Helicobacter felis-Induced Gastritis in the Mouse|J. Infect.50(5): 417-424|2005|10.1016/j.jinf.2004.07.008
100808|T||Pedersen,S.A., E. Kristiansen, B.H. Hansen, R.A. Andersen, and K.E. Zachariassen|Cold Hardiness in Relation to Trace Metal Stress in the Freeze-Avoiding Beetle Tenebrio molitor|J. Insect Physiol.52(8): 846-853|2006|10.1016/j.jinsphys.2006.05.004
100809|T||Flora,S.J.S., S. Singh, and S.K. Tandon|Thiamine and Zinc in Prevention or Therapy of Lead Intoxication|J. Int. Med. Res.17(1): 68-75|1989|10.1177/030006058901700110
100810|T||Berzina,N., and M. Apsite|Zinc and Selenium are Components of the Antioxidant Defense System in Chicks During Cadmium Toxicosis|In: A.Manfred (Ed.), Mengen- und Spurenelemente, Arbeitstagung, Verlag Harald Schubert, Leipzig, Germany:651-657|1999|
100811|T||Cui,Y., and Q. Wang|Interaction Effect of Zinc and Elemental Sulfur on Their Uptake by Spring Wheat|J. Plant Nutr.28(4): 639-649|2005|10.1081/PLN-200052637
100812|A||Bellas,J.|Toxicity Assessment of the Antifouling Compound Zinc Pyrithione Using Early Developmental Stages of the Ascidian Ciona intestinalis|Biofouling21(5-6): 289-296|2005|10.1080/08927010500456589
100813|T||Sim,M.J., D.R. Choi, and Y.J. Ahn|Vapor Phase Toxicity of Plant Essential Oils to Cadra cautella (Lepidoptera:  Pyralidae)|J. Econ. Entomol.99(2): 593-598|2006|10.1093/jee/99.2.593
100815|A||Rau,S., J. Miersch, D. Neumann, E. Weber, and G.J. Krauss|Biochemical Responses of the Aquatic Moss Fontinalis antipyretica to Cd, Cu, Pb and Zn Determined by Chlorophyll Fluorescence and Protein Levels|Environ. Exp. Bot.59(3): 299-306|2007|10.1016/j.envexpbot.2006.03.001
100816|A||Gray,H.M.|The Ecotoxicology of Zinc on a Freshwater Leech, Nephelopsis obscura|M.S.Thesis, Univ.of Calgary, Canada:118 p.|1995|
100817|T||Yu,Z.P., G.W. Le, and Y.H. Shi|Effect of Zinc Sulphate and Zinc Methionine on Growth, Plasma Growth Hormone Concentration, Growth Hormone Receptor and Insulin-Like Growth Factor-I Gene Expression in Mice|Clin. Exp. Pharmacol. Physiol.32(4): 273-278|2005|10.1111/j.1440-1681.2005.04183.x
100818|T||Nguyen,Q., and A. Furst|Acute Toxicity of Cadmium and Zinc in Earthworms (Lumbricus terrestris)|Biol. Trace Elem. Res.18:81-83|1988|10.1007/BF02917491
100819|T||Joshi,S., S.K. Hasan, R. Chandra, M.M. Husain, and R.C. Srivastava|Scavenging Action of Zinc and Green Tea Polyphenol on Cisplatin and Nickel Induced Nitric Oxide Generation and Lipid Peroxidation in Rats|Biomed. Environ. Sci.17(4): 402-409|2004|
100820|T||Jiang,W., P.C. Struik, J. Lingna, H. Van Keulen, Z. Ming, and T.J. Stomph|Uptake and Distribution of Root-Applied or Foliar-Applied 65Zn After Flowering in Aerobic Rice|Ann. Appl. Biol.150(3): 383-391|2007|10.1111/j.1744-7348.2007.00138.x
100821|T||Kumar,P., G.P. Rai, and S.J.S. Flora|Immunomodulation Following Zinc Supplementation During Chelation of Lead in Male Rats|BioMetals7(1): 41-44|1994|
100822|T||Tylko,G., Z. Banach, J. Borowska, M. Niklinska, and E. Pyza|Elemental Changes in the Brain, Muscle, and Gut Cells of the Housefly, Musca domestica, Exposed to Heavy Metals|Microsc. Res. Tech.66(5): 239-247|2005|10.1002/jemt.20164
100823|T||Plonka,P.M., B. Handjiski, M. Popik, D. Michalczyk, and R. Paus|Zinc as an Ambivalent but Potent Modulator of Murine Hair Growth In Vivo - Preliminary Observations|Exp. Dermatol.14(11): 844-853|2005|10.1111/j.1600-0625.2005.00365.x
100824|T||Villanueva,O., R.M. Vigueras, R. Hernandez, R. Chavira, M. Cardenas, A. Villa, and E. Murphy|Zinc-Induced Survival of Leydig Cells in Fischer Rats (Rattus norvegicus) Treated with Cadmium Chloride|Comp. Med.55(6): 533-538|2005|
100825|T||Mehra,R.K., and I. Bremner|Induction of Synthesis and Degradation of Metallothionein-I in the Tissues of Rats Injected with Zinc|Experientia52(Suppl): 565-572|1987|
100826|T||Xiao,P., X.D. Jia, W.J. Zhong, X.P. Jin, and G. Nordberg|Restorative Effects of Zinc and Selenium on Cadmium-Induced Kidney Oxidative Damage in Rat|Biomed. Environ. Sci.15(1): 67-74|2002|
100827|T||Santon,A., V. Albergoni, G.C. Sturniolo, and P. Irato|Evaluation of MT Expression and Detection of Apoptotic Cells in LEC Rat Kidneys|Biochim. Biophys. Acta1688(3): 223-231|2004|10.1016/j.bbadis.2003.12.009
100828|T||Jamieson,J.A.|Effects of Marginal Zinc Deficiency and Zinc Supplementation on Lead Toxicity, Metallothionein and Skeletal Development in Growing Rats|M.S.Thesis, University of Manitoba, Canada:251 p.|2006|
100830|T||Afsana,K., K. Shiga, S. Ishizuka, and H. Hara|Reducing Effect of Ingesting Tannic Acid on the Absorption of Iron, but not of Zinc, Copper and Manganese by Rats|Biosci. Biotechnol. Biochem.68(3): 584-592|2004|10.1271/bbb.68.584
100831|T||Eli Lilly|Initial Submission:  A Two-Year Toxicity/Oncogenicity Study with Isoxaben Administered in the Diet of Fischer 344 Rats with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006544:1632 p.|1992|
100832|T||Eli Lilly|Init. Sub.:  A Subchronic Toxicity Study with Isoxaben Administered in the Diet to B6C3F1 Mice for Three Months with a One-Month Reversibility Phase with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006525:426 p.|1992|
100833|T||Eli Lilly|Initial Submission:  A One-Year Toxicity Study with Isoxaben Administered Orally to Beagle Dogs with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006549:555 p.|1992|
100834|T||Eli Lilly|Initial Submission:  A Subchronic Toxicity Study in Fischer 344 Rats Maintained for Three Months on Diets Containing Isoxaben with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006550:53 p.|1992|
100835|T||Eli Lilly|Init. Sub.:  A Subchronic Toxicity Study with Isoxaben Administered in the Diet to Fischer 344 Rats for 3 Months with a 1-Month Reversibility Phase with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006700:743 p.|1992|
100836|T||Eli Lilly|Initial Submission:  Chronic Toxicity Study with Isoxaben Administered in the Diet to Fischer 344 Rats for up to One Year (Final Report) with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006521:559 p.|1992|
100837|T||Eli Lilly|Initial Submission:  A Two-Year Chronic Oncogenic Toxicity Study with Isoxaben Administered in the Diet to B6C3F1 Mice with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006545:1462 p.|1992|
100838|A||George,T.K., and K. Liber|Laboratory Investigation of the Toxicity and Interaction of Pesticide Mixtures in Daphnia magna|Arch. Environ. Contam. Toxicol.52(1): 64-72|2007|10.1007/s00244-005-0271-9
100839|T||Pardio,V.T., N.J. De Ibarra, K.N. Waliszewski, and K.M. Lopez|Effect of Coumaphos on Cholinesterase Activity, Hematology, and Biochemical Blood Parameters of Bovines in Tropical Regions of Mexico|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(4): 359-366|2007|
100840|T||Ueyama,J., D. Wang, T. Kondo, I. Saito, K. Takagi, M. Kamijima, T. Nakajima, K.I. Miyamoto, S. Wakusawa, and T. Hasegaw|Toxicity of Diazinon and Its Metabolites Increases in Diabetic Rats|Toxicol. Lett.170(3): 229-237|2007|10.1016/j.toxlet.2007.03.010
100841|A||Machova,J., M. Prokes, Z. Svobodova, V. Zlabek, M. Penaz, and V. Barus|Toxicity of Diazinon 60 EC for Cyprinus carpio and Poecilia reticulata|Aquac. Int.15(3-4): 267-276|2007|10.1007/s10499-007-9078-1
100842|A||Jemec,A., D. Drobne, T. Tisler, P. Trebse, M. Ros, and K. Sepcic|The Applicability of Acetylcholinesterase and Glutathione S-Transferase in Daphnia magna Toxicity Test|Comp. Biochem. Physiol. C Toxicol. Pharmacol.144(4): 303-309|2007|10.1016/j.cbpc.2006.10.002
100843|T||Gokcimen,A., K. Gulle, H. Demirin, D. Bayram, A. Kocak, and I. Altuntas|Effects of Diazinon at Different Doses on Rat Liver and Pancreas Tissues|Pestic. Biochem. Physiol.87(2): 103-108|2007|10.1016/j.pestbp.2006.06.011
100844|A||Jemec,A., T. Tisler, D. Drobne, K. Sepcic, D. Fournier, and P. Trebse|Comparative Toxicity of Imidacloprid, of Its Commercial Liquid Formulation and of Diazinon to a Non-Target Arthropod, the Microcrustacean Daphnia magna|Chemosphere68(8): 1408-1418|2007|10.1016/j.chemosphere.2007.04.015
100845|T||Bruce,R.B., J.W. Howard, and J.R. Elsea|Toxicity of O,O-Diethyl O-(2-Isopropyl-6-Methyl-4-Pyrimidyl) Phosphorothioate (Diazinon)|J. Agric. Food Chem.3(12): 1017-1021|1955|10.1021/jf60058a004
100846|T||Brasel,J.M., A.C. Collier, and C.A. Pritsos|Differential Toxic Effects of Carbofuran and Diazinon on Time of Flight in Pigeons (Columba livia):  Potential for Pesticide Effects on Migration|Toxicol. Appl. Pharmacol.219(2/3): 241-246|2007|10.1016/j.taap.2006.11.028
100847|T||Parker,C.M., G.A. Van Gelder, E.Y. Chai, J.B.M. Gellatly, D.G. Serota, R.W. Voelker, and S.D. Vesselinovitch|Oncogenic Evaluation of Tetrachlorvinphos in the B6C3F1 Mouse|Fundam. Appl. Toxicol.5(5): 840-854|1985|10.1016/0272-0590(85)90167-8
100848|T||Moroi,K., S. Ushiyama, T. Satoh, and T. Kuga|Enzyme Induction by Repeated Administration of Tetrachlorvinphos in Rats|Toxicol. Appl. Pharmacol.37(2): 377-386|1976|10.1016/0041-008X(76)90101-0
100849|T||Gromysz-Kalkowska,K., and E. Szubartowska|Toxicity of Tetrachlorvinphos to Rana temporaria L.|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 285-290|1993|10.1016/0742-8413(93)90209-4
100850|T||Karanth,S., T. Holbrook, C. MacAllister, and C.N. Pope|Selective Inhibition of Butyrylcholinesterase In Vivo in Horses by the Feed-Through Larvacide Equitrol|Regul. Toxicol. Pharmacol.50(2): 200-205|2008|10.1016/j.yrtph.2007.11.006
100851|A||Kalinga,A.K., C.N. Mweya, T. Barro, and B.T.A. Maegga|Susceptibility of Simulium damnosum Complex Larvae to Temephos in the Tukuyu onchocerciasis Focus, Southwest Tanzania|Tanzania Health Res. Bull.9(1): 19-24|2007|
100852|A||Upatham,E.S., and P. Sa-Nguankul|Controlled Release Ecopro 1707 as Mosquito Larvicide and Molluscicide|Southeast Asian J. Trop. Med. Public Health13(2): 231-237|1982|
100853|A||Wirth,M.C., and G.P. Georghiou|Organophosphate Resistance in Culex pipiens from Cyprus|Am. Mosq. Control Assoc. J.12(1): 112-118|1996|
100854|T||Soliman,M.M.M., F.A.M. Kwaiz, and S.E.M. Shalby|Efficiency of Certain Miscible Oils and Chlorpyriphos Methyl Insecticide Against the Soft Scale Insect, Kilifia acuminata Signoret (Homoptera:  Coccidae) and Their Toxicities on Rats|Arch. Phytopathol. Plant Prot.40(4): 237-245|2007|10.1080/03235400500383875
100855|A||Sathyapalan,P., P.K. Dutta, A.C. Urmil, and S.S. Ganguly|Laboratory Evaluation of Some Larvicidal Agents Against Anopheles culicifacies in Pune|J. Commun. Dis.22(3): 218-222|1990|
100857|T||Malik,J.K., J.P. Lay, W. Klein, and F. Korte|Biotransformation and Disposition of the Coumaphos Metabolite 3-Chloro-4-Methyl-(4-14C)-7-Hydroxycoumarin in Rats|Arch. Toxicol.48(1): 51-59|1981|10.1007/BF00297075
100858|T||Malik,J.K., J.P. Lay, W. Klein, and F. Korte|Does Phenobarbital Reduce Retention of Non-accumulating Compounds in the Rat?|Chemosphere10(9): 1061-1066|1981|10.1016/0045-6535(81)90217-4
100859|T||Watanabe,P.G., and R.P. Sharma|Inhibition of Subcellular Cholinesterases by 2-Carbomethoxy-l-Methylvinyl Dimethyl Phosphate (Mevinphos) In Vitro and In Vivo|Toxicol. Appl. Pharmacol.23(4): 692-700|1972|10.1016/0041-008X(72)90109-3
100860|T||Pardue,J.R., E.A. Hansen, R.P. Barron, and J.Y.T. Chen|Diazinon Residues on Field-Sprayed Kale.  Hydroxydiazinon - a New Alteration Product of Diazinon|J. Agric. Food Chem.18(3): 405-408|1970|10.1021/jf60169a031
100861|T||Kaakeh,W., B.L. Reid, G.W. Bennett, and T.J. Bohnert|Residual Activity of Diazinon and Chlorpyrifos Formulations, 1991-1993|Arthropod Manag. Tests19:359-|1994|10.1093/amt/19.1.359
100862|T||Ikeda,T., S. Tsuda, and Y. Shirasu|Metabolic Induction of the Hepatic Cytochrome P450 System by Chlorfenvinphos in Rats|Fundam. Appl. Toxicol.17(2): 361-367|1991|10.1016/0272-0590(91)90225-S
100863|T||Akhtar,M.H., and T.S. Foster|Tetrachlorvinphos Metabolism in Laying Hens|J. Agric. Food Chem.29(4): 766-771|1981|10.1021/jf00106a020
100864|A||Gupta,A.K., P. Pandey, and S. Srivastava|Effect of Pesticides on Biological and Haematological Parameters in the Fish, Channa striatus|Nat. Environ. Pollut. Technol.6(4): 673-676|2007|
100865|T||Jadhav,G.D., V.M. Pawar, K.M. Chavan, and M. Aleemuddin|Dissipation Pattern of Permethrin, Cypermethrin, Acephate and Endosulfan in/on Okra Fruits|J. Maharashtra Agric. Univ.15(3): 277-278|1990|
100866|A||Yap,H.H., and S. Hanapi|Laboratory Insecticide Susceptibility Tests Against Mansonia Larvae|Southeast Asian J. Trop. Med. Public Health7(4): 575-580|1976|
100867|AT||Zayed,A.B.B., D.E. Szumlas, H.A. Hanafi, D.J. Fryauff, A.A. Mostafa, K.M. Allam, and W.G. Brogdon|Use of Bioassay and Microplate Assay to Detect and Measure Insecticide Resistance in Field Populations of Culex pipiens from Filariasis Endemic Areas of Egypt|Am. Mosq. Control Assoc. J.22(3): 473-482|2006|10.2987/8756-971X(2006)22[473:UOBAMA]2.0.CO;2
100868|A||Thavara,U., A. Tawatsin, W. Kong-Ngamsuk, and M.S. Mulla|Efficacy and Longevity of a New Formulation of Temephos Larvicide Tested in Village-Scale Trials Against Larval Aedes aegypti in Water-Storage Containers|Am. Mosq. Control Assoc. J.20(2): 176-182|2004|
100869|A||Mulla,M.S., U. Thavara, A. Tawatsin, and J. Chompoosri|Procedures for the Evaluation of Field Efficacy of Slow-Release Formulations of Larvicides Against Aedes aegypti in Water-Storage Containers|Am. Mosq. Control Assoc. J.20(1): 64-73|2004|
100870|A||Chen,Y.P., and K.I. Sudderuddin|Toxicological Studies of Insecticides on Culex quinquefasciatus Say and Aedes aegypti (L.)|Southeast Asian J. Trop. Med. Public Health9(3): 378-383|1978|
100871|T||Rao,C.K., S. Kumar, M.L. Jain, D. Jairaj, M.V.V.L. Narasimham, A.B.L. Mathur, and M.C. Appa Roa|Control of Cyclops with Temephos in Guineaworm Endemic Villages in Andhra Pradesh and Rajasthan|J. Commun. Dis.14(1): 36-40|1982|
100872|T||Morsy,F.A.|Protective Effect of Vitamin C and Ginseng on Experimental Liver and Kidney Injuries Induced by Insecticide Profenophos in Male Rats|Egypt. J. Hosp. Med.10:34-51|2003|10.21608/ejhm.2003.18727
100873|A||Kaul,S.M., A. Chandrasekharan, M. Das, and C.K. Rao|Attempted Control of Mansonioides Breeding with Temephos (Abate) and Fenthion (Baytex) in Kerala|J. Commun. Dis.12(1): 42-45|1980|
100874|T||Patnaik,S.K., L.J. Kanhekar, P.K. Rao, V.K. Raina, and A. Kumar|A Study to Evaluate the Impact of Different Dose/Frequency of Temephos 50% EC for Control of Cx. quinquefasciatus Vector of Bancroftian filariasis|J. Commun. Dis.29(2): 171-174|1997|
100875|T||Parvez,S.D., and S.S. Al-Wahaibi|Comparison of Three Larviciding Options for Malaria Vector Control|East. Mediterr. Health J.9(4): 627-636|2003|10.26719/2003.9.4.627
100876|A||Tawatsin,A., U. Thavara, J. Chompoosri, P. Bhakdeenuan, and P. Asavadachanukorn|Larvicidal Efficacy of New Formulations of Temephos in Non-Woven Sachets Against Larvae of Aedes aegypti (L.) (Diptera:  Culicidae) in Water-Storage Containers|Southeast Asian J. Trop. Med. Public Health38(4): 641-645|2007|
100877|A||Mathur,K.K., S.J. Rahman, and B.L. Wattal|Integration of Larvivorous Fish and Temephos for the Control of Culex tritaeniorhynchus Breeding|J. Commun. Dis.13(1): 58-63|1981|
100879|T||Tako,E., P.R. Ferket, and Z. Uni|Changes in Chicken Intestinal Zinc Exporter mRNA Expression and Small Intestinal Functionality Following Intra-Amniotic Zinc-Methionine Administration|J. Nutr. Biochem.16(6): 339-346|2005|10.1016/j.jnutbio.2005.01.002
100882|A||Wildlife International|Methyl Tertiary-Butyl Ether a Flow-Through Life-Cycle Toxicity Test with the Cladoceran (Daphnia magna)|Final Report No.372A-108, Wildlife International Ltd., Easton, MD:90 p.|1999|
100883|A||Kurtak,D.C.|Maintenance of Effective Control of Simulium damnosum in the Face of Insecticide Resistance|Acta Leiden.59(1-2): 95-112|1990|
100884|A||Wagstaff,K., and R. Merrell|Status of Organophosphorous Mosquito Larvicide Resistance in Utah, 1978|Proc. Annu. Meet. Utah Mosq. Abat. Assoc.31:21-27|1978|
100885|A||Thavara,U., A. Tawatsin, R. Srithommarat, M. Zaim, and M.S. Mulla|Sequential Release and Residual Activity of Temephos Applied as Sand Granules to Water-Storage Jars for the Control of Aedes aegypti Larvae (Diptera:  Culicidae)|J. Vector Ecol.30(1): 62-72|2005|
100886|A||Shililu,J.I., G.M. Tewolde, E. Brantly, J.I. Githure, C.M. Mbogo, J.C. Beier, R. Fusco, and R.J. Novak|Efficacy of Bacillus thuringiensis israelensis, Bacillus sphaericus and Temephos for Managing Anopheles Larvae in Eritrea|Am. Mosq. Control Assoc. J.19(3): 251-258|2003|
100887|AT||Mitchell,C.J., P.S. Chen, and T. Okuno|Preliminary Studies on the Control of Japanese Encephalitis Vectors in Taiwan by Chemical Means|J. Formosan Med. Assoc.73(6): 295-312|1974|
100888|A||Novak,D.|Granular Abate for Control of Mosquitoes Larvae|Arch. Roum Pathol. Exp. Microbiol.31(4): 579-581|1972|
100889|A||Nair,C.R., and A. Palavesam|Toxic Impact of Curacron on Lactate Dehydrogenase Activities in the Tissues of Cyprinus carpio and Oreochromis mossambicus|Pollut. Res.25(4): 817-820|2006|
100890|T||Buholzer,F.|Profenofos - a New Insecticide for the Control of Cotton and Vegetable Pests|Proc. Br. Insectic. Fungic. Conf.:659-665|1975|
100891|T||Train,C.T., R.G. White, and M.F. Hansen|Efficacy of Coumaphos and Naphthalophos Against Nematodes of Lambs|Am. J. Vet. Res.29(12): 2331-2335|1968|
100892|T||Wright,F.C., L.M. Hunt, and J.S. Palmer|The Biochemical Effects of Coumaphos and Three Oximes on Certain Enzyme Systems and Blood Protein Elements in Cattle|Am. J. Vet. Res.27(116): 177-185|1966|
100893|T||Valenciano,J.B., and B. Reinoso|Evaluation of Different Seed Treatment for Control of Bean Seed Fly (Delia platura [Meigen]) on Bean in Spain (Untersuchung von Verschiedenen Samen zur Kontrolle der Bohnensaastenfliege (Delia platura (Meigen)) bei Span|Bodenkultur56(3): 179-182|2005|
100894|T||Hegazy,M.E.A., M.A. Kandil, M. Abdel-Razik, and M.M. Diab|Residual Fate of Three Organophosphorus Pesticides on Onion|Ann. Agric. Sci.33(2): 1299-1307|1988|
100896|A||Bonning,B.C., J. Hemingway, R. Romi, and G. Majori|Interaction of Insecticide Resistance Genes in Field Populations of Culex pipiens (Diptera:  Culicidae) from Italy in Response to Changing Insecticide Selection Pressure|Bull. Entomol. Res.81(1): 5-10|1991|10.1017/S0007485300053177
100898|A||Orshan,L., M. Kelbert, and H. Pener|Patterns of Insecticide Resistance in Larval Culex pipiens Populations in Israel:  Dynamics and Trends|J. Vector Ecol.30(2): 289-294|2005|
100899|AT||Rawlins,S.C.|Spatial Distribution of Insecticide Resistance in Caribbean Populations of Aedes aegypti and Its Significance|Rev. Panam Salud Publica4(4): 243-251|1998|
100900|T||De Andrade,C.F.S., and A.,Jr. Castello Branco|Methods for Field Detection of Resistance to Temephos in Simuliids. Larval Esterase Level and Topical Application of the Insecticide to Adults|Mem. Inst. Oswaldo Cruz85(3): 291-297|1990|10.1590/S0074-02761990000300005
100901|T||Reed,J.P., A.J. Keaster, R.J. Kremer, and H.D. Kerr|Activities and Degradation of Several Insecticides and Herbicides in Soils Poised for Enhanced Carbamate and Thiocarbamate Degradation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(1): 23-35|1989|
100902|T||Singh,P., A.K. Srivastava, and A.K. Singh|Comparative Sensitivity of Barley (Hordeum vulgare L.) to Insecticide and Fungicide on Different Stages of Cell Cycle|Pestic. Biochem. Physiol.89(3): 216-219|2007|10.1016/j.pestbp.2007.06.008
100903|T||Verschoyle,R.D., and W.N. Aldridge|The Interaction Between Phosphorothionate Insecticides, Pneumotoxic Trialkyl Phosphorothiolates and Effects on Lung 7-Ethoxycoumarin O-Deethylase Activity|Arch. Toxicol.60(4): 311-318|1987|10.1007/BF01234671
100904|A||Anderson,T.D.|Toxicological, Biochemical, and Molecular Effects of Atrazine to the Aquatic Midge Chironomus tentans (Diptera:  Chironomidae)|Ph.D. Thesis, Kansas State University, Manhattan, KS:155 p.|2006|
100906|A||Sadek,S., A.M. Gad, M.A. Rifaat, and H.M. Khalil|Effect of Sublethal Concentrations of the Insecticides DDT, Abate and Sevin, Applied to 3rd Stage Larvae of Culex pipiens molestus on Certain Biological Aspects of the Mosquito|J. Egypt. Publ. Health Assoc.49(6): 314-328|1974|
100907|A||Rifaat,M.A., H.M. Khalil, A.M. Gad, and S. Sadek|Effect of Sublethal Concentrations of the Insecticides DDT, Abate and Sevin Applied to 3rd Stage Larvae of Anopheles pharoensis on Malaria Cycle in the Adult Mosquito|J. Egypt. Publ. Health Assoc.49(6): 329-340|1974|
100908|T||Murphy,S.D., and K.L. Cheever|Carboxylesterase and Cholinesterase Inhibition in Rats.  Abate and Interaction with Malathion|Arch. Environ. Health24:107-114|1972|10.1080/00039896.1972.10666059
100909|T||Kaczynska,A., and M. Cycon|Adaptation of Acute Toxicity Test for Earthworms to Studies of Plant Protection Products and Other Chemical Substances|Pestycydy1/2:105-111|2004|
100910|T||Pettis,J.S., A.M. Collins, R. Wilbanks, and M.F. Feldlaufer|Effects of Coumaphos on Queen Rearing in the Honey Bee, Apis mellifera|Apidologie35(6): 605-610|2004|10.1051/apido:2004056
100911|T||Enan,E., I.G. Berberian, S. El-Fiki, M. El-Masry, and O.H. Enan|Effects of Two Organophosphorus Insecticides on Some Biochemical Constituents in the Nervous System and Liver of Rabbits|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes22(2): 149-170|1987|
100912|T||El Nahas,S.M., H.A. De Hondt, and H.E. Abdou|Chromosome Aberrations in Spermatogonia and Sperm Abnormalities in Curacron-Treated Mice|Mutat. Res.222(4): 409-414|1989|10.1016/0165-1218(89)90116-X
100913|T||Abdel-Mallek,A.Y., A.M. Moharram, M.I.A. Abdel-Kader, and S.A. Omar|Effect of Soil Treatment with the Organophosphorus Insecticide Profenfos on the Fungal Flora and Some Microbial Activities|Microbiol. Res.149(2): 167-171|1994|10.1016/S0944-5013(11)80114-X
100914|T||Cox,D.D., M.T. Mullee, and A.D. Allen|Effect of Coumaphos and Fenthion Feed Additives on Gastrointestinal Nematode Egg Counts in Feedlot Cattle|Am. J. Vet. Res.30(11): 1933-1943|1969|
100915|A||Ahmed,M.T., L.A. Reda, N.M. Loutfy, and T. Ali|The Toxicity of Fenvalerate, Niclosamide and Profenfos and Some of Their Mixtures with a Domestic Detergent to Nile Tilapia Fish with Special Reference to Gill Uptake and Toxicokinetics of Fenvalerate and Fenvalerate-De|Toxicol. Environ. Chem.81(1-2): 81-96|2001|10.1080/02772240109359021
100916|T||Cox,D.D., M.T. Mullee, and A.D. Allen|Anthelmintic Activity of Two Organic Phosphorus Compounds, Coumaphos and Naphthalophos, Against Gastrointestinal Nematodes of Cattle|Am. J. Vet. Res.28(122): 79-88|1967|
100917|T||Watson,A.M.|Time-Course Studies of Hepatic Microsomal Metabolism of Organophosphorus Insecticides in Rats Treated with beta-Naphthoflavone|Ph.D. Thesis, Mississippi State University, Starkville, MS:89 p.|1996|
100918|T||Mortensen,S.R.|Toxicodynamic and Toxicokinetic Factors Which may Influence the Increased Sensitivity of Young Rats to Chlorpyrifos Relative to Adults|Ph.D. Thesis, Clemson University, Clemson, SC:106 p.|1998|
100922|T||Myers,S.W., D.B. Hogg, and J.L. Wedberg|Determining the Optimal Timing of Foliar Insecticide Applications for Control of Soybean Aphid (Hemiptera:  Aphididae) on Soybean|J. Econ. Entomol.98(6): 2006-2012|2005|10.1093/jee/98.6.2006
100923|T||Kong,W.D., Y.G. Zhu, Y.C. Liang, J. Zhang, F.A. Smith, and M. Yang|Uptake of Oxytetracycline and Its Phytotoxicity to Alfalfa (Medicago sativa L.)|Environ. Pollut.147(1): 187-193|2007|10.1016/j.envpol.2006.08.016
100925|T||Kristensen,M., and J.B. Jespersen|Larvicide Resistance in Musca domestica (Diptera:  Muscidae) Populations in Denmark and Establishment of Resistant Laboratory Strains|J. Econ. Entomol.96(4): 1300-1306|2003|10.1603/0022-0493-96.4.1300
100926|T||Kurepa,J., M. Van Montagu, and D. Inze|Expression of sodCp and sodB Genes in Nicotiana tabacum:  Effects of Light and Copper Excess|J. Exp. Bot.48(317): 2007-2014|1997|10.1093/jexbot/48.317.2007
100927|T||Labra,M., E. Gianazza, R. Waitt, I. Eberini, A. Sozzi, S. Regondi, F. Grassi, and E. Agradi|Zea mays L. Protein Changes in Response to Potassium Dichromate Treatments|Chemosphere62(8): 1234-1244|2006|10.1016/j.chemosphere.2005.06.062
100928|A||Lam,I.K.S., and W.X. Wang|Transgenerational Retention and Maternal Transfer of Selenium in Daphnia magna|Environ. Toxicol. Chem.25(9): 2519-2526|2006|10.1897/05-631R.1
100929|A||Lefebvre,K.A., D.P. Noren, I.R. Schultz, S.M. Bogard, J. Wilson, and B.T.L. Eberhart|Uptake, Tissue Distribution and Excretion of Domoic Acid After Oral Exposure in Coho Salmon (Oncorhynchus kisutch)|Aquat. Toxicol.81(3): 266-274|2007|10.1016/j.aquatox.2006.12.009
100930|T||Liu,C.P., Z.G. Shen, and X.D. Li|Uptake of Cadmium by Different Cultivars of Brassica pekinens (Lour.) Rupr. and Brassica chinensis L., and Their Potential for Phytoremediation|Bull. Environ. Contam. Toxicol.76(4): 732-739|2006|10.1007/s00128-006-0981-3
100932|A||Liu,F.J., G.P. Cobb, T.A. Anderson, Q.Q. Cheng, and C.W. Theodorakis|Uptake, Accumulation and Depuration of Sodium Perchlorate and Sodium Arsenate in Zebrafish (Danio rerio)|Chemosphere65(10): 1679-1689|2006|10.1016/j.chemosphere.2006.05.030
100934|T||Lloyd,S.C., D.M. Blackburn, and P.M.D. Foster|Trifluoroethanol and Its Oxidative Metabolites:  Comparison of In Vivo and In Vitro Effects in Rat Testis|Toxicol. Appl. Pharmacol.92:390-401|1988|10.1016/0041-008X(88)90179-2
100935|A||Mandrillon,A.L., and P. Saglio|Waterborne Amitrole Affects the Predator-Prey Relationship Between Common Frog Tadpoles (Rana temporaria ) and Larval Spotted Salamander (Salamandra salamandra)|Arch. Environ. Contam. Toxicol.53(2): 233-240|2007|10.1007/s00244-006-0229-6
100936|A||Meyer,J.S., C.J. Boese, and J.M. Morris|Use of the Biotic Ligand Model to Predict Pulse-Exposure Toxicity of Copper to Fathead Minnows (Pimephales promelas)|Aquat. Toxicol.84(2): 268-278|2007|10.1016/j.aquatox.2006.12.022
100937|A||Mitchelmore,C.L., E.A. Verde, and V.M. Weis|Uptake and Partitioning of Copper and Cadmium in the Coral Pocillopora damicornis|Aquat. Toxicol.85(1): 48-56|2007|10.1016/j.aquatox.2007.07.015
100938|T||Thiel,R., E. Koch, B. Ulbrich, and I. Chahoud|Peri- and Postnatal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  Effects on Physiological Development, Reflexes, Locomotor Activity and Learning Behaviour in Wistar Rats|Arch. Toxicol.69:79-86|1994|10.1007/s002040050141
100939|T||Roth,W., R. Voorman, and S.D. Aust|Activity of Thyroid Hormone-Inducible Enzymes Following Treatment with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.92:65-74|1988|10.1016/0041-008X(88)90228-1
100940|T||Kitchin,K.T., and J.S. Woods|2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Effects on Hepatic Microsomal Cytochrome P-448-Mediated Enzyme Activities|Toxicol. Appl. Pharmacol.47(3): 537-546|1979|10.1016/0041-008X(79)90524-6
100941|T||Umbreit,T.H., D. Patel, and M.A. Gallo|Acute Toxicity of TCDD Contaminated Soil from an Industrial Site|Chemosphere14(6-7): 945-947|1985|10.1016/0045-6535(85)90221-8
100942|T||Cole,M.A., P.B. Reichart, and D.K. Button|Reversible Bioconcentration of Monochlorobiphenyls by Rhodotorula rubra:  Correlations with Aqueous Solubility of Substrate|Bull. Environ. Contam. Toxicol.23:44-50|1979|10.1007/BF01769914
100943|T||Borchard,R.E., L.G. Hansen, W.G. Huber, R.L. Metcalf, and M.E. Welborn|Pharmacokinetics of Aroclor 1254 Components After Intravenous Administration to Swine and Sheep|Arch. Environ. Contam. Toxicol.2(2): 179-192|1974|10.1007/BF01975471
100944|T||Sipes,I.G., M.L. Slocumb, D.F. Perry, and D.E. Carter|2,4,5,2',4',5'-Hexachlorobiphenyl:  Distribution, Metabolism, and Excretion in the Dog and the Monkey|Toxicol. Appl. Pharmacol.65:264-272|1982|10.1016/0041-008X(82)90009-6
100945|T||Prasad,R., and H. Dixon-Warren|Bioherbicides for Forestry:  Development of Some Procedures for Bioassay of Phytotoxins|Plant Prot. Q.7(4): 154-156|1992|
100946|T||Park,S.H., S.R.M. Pinson, and R.H. Smith|T-DNA Integration into Genomic DNA of Rice Following Agrobacterium Inoculation of Isolated Shoot Apices|Plant Mol. Biol.32(6): 1135-1148|1996|10.1007/BF00041397
100947|T||Natchev,I.A.|Synthesis, Enzyme Hydrolysis and Chemical Transformation of L-Phosphinotricines and Bialphos.  N-Phosphinotricylurea and Ponh-Peptide Analogue of Bialphos|In: Bulg.Acad.of Sci.(Ed.), F.E.C.S.3rd Int.Conf.on Chemistry and Biotechnology of Biologically Active Natural Products, Vol.4, Communications: Synthesis of Natural Products and Biotechnology, Sept.16-21, 1985, Sofia, Bulgaria:421-426|1988|
100948|T||Park,S.H., J. Park, and R.H. Smith|Herbicide and Insect Resistant Elite Transgenic Rice|J. Plant Physiol.158(9): 1221-1226|2001|10.1078/0176-1617-00426
100949|T||Sipes,I.G., M.L. Slocumb, H.S.G. Chen, and D.E. Carter|2,3,6,2',3',6'-Hexachlorobiphenyl:  Distribution, Metabolism, and Excretion in the Dog and the Monkey|Toxicol. Appl. Pharmacol.62:317-324|1982|10.1016/0041-008X(82)90130-2
100954|T||Fu,D., N.A. Tisserat, Y. Xiao, D. Settle, S. Muthukrishnan, and G.H. Liang|Overexpression of Rice TLPD34 Enhances Dollar-Spot Resistance in Transgenic Bentgrass|Plant Sci.168(3): 671-680|2005|10.1016/j.plantsci.2004.09.032
100955|AT||Tadano,T.|Genetics of Cross-Resistance to Organophosphates, Abate, Fenitrothion and Malathion in Larvae of Culex pipiens pallens Coquillett|Jpn. J. Exp. Med.40(1): 59-66|1970|
100956|A||Sastry,S.C., K. Jayakumar, V. Lakshminarayana, and V.N. Seethapathi Rao|Abate - Its Value as a Cyclopscide|J. Trop. Med. Hyg.81(8): 156-158|1978|
100957|A||Yamagata,Y., J.O. Ochoa, P.A. Molina, H. Sato, K. Uemoto, and T. Suzuki|Chemical Control of Simulium ochraceum Walker (Diptera:  Simuliidae) Larvae in an Onchocerciasis Endemic Area of Guatemala|Trop. Med. Parasitol.38(3): 205-210|1987|
100958|A||Garris,G.I., and R. Noblet|Notes on Parasitism of Black Flies (Diptera:  Simuliidae) in Streams Treated with Abate|J. Med. Entomol.12(4): 481-482|1975|10.1093/jmedent/12.4.481
100959|A||Boakye,D.A., and S.E.O. Meredith|Introgression Between Members of the Simulium damnosum Complex:  Larvicidal Implications|Med. Vet. Entomol.7(4): 393-397|1993|10.1111/j.1365-2915.1993.tb00714.x
100960|A||Aflalo,C., W. Bing, A. Zarka, and S. Boussiba|The Effect of the Herbicide Glufosinate (BASTA) on Astaxanthin Accumulation in the Green Alga Haematococcus pluvialis|Z. Naturforsch. Sect. C J. Biosci.54(1/2): 49-54|1999|10.1515/znc-1999-1-209
100961|T||Kamo,K., and J. Van Eck|Effect of Bialaphos and Phosphinothricin on Plant Regeneration from Long- and Short-Term Callus Cultures of Gladiolus|In Vitro Cell. Dev. Biol., Plant33(3): 180-183|1997|10.1007/s11627-997-0018-6
100962|T||Yarema,C., H. McLean, and S. Caveney|L-Glutamate Retrieved with the Moulting Fluid is Processed by a Glutamine Synthetase in the Pupal Midgut of Calpodes ethlius|J. Insect Physiol.46(11): 1497-1507|2000|10.1016/S0022-1910(00)00075-5
100963|A||Mansour,S.A., and T.M. Hassan|Pesticides and Daphnia.  3.  An Analytical Bioassay Method, Using Ceriodaphnia quadrangula, for Measuring Extremely Low Concentrations of Insecticides in Waters|Int. J. Toxicol.2(2): 34-39|1993|
100964|T||Watanabe,T., and T. Iwase|Developmental and Dysmorphogenic Effects of Glufosinate Ammonium on Mouse Embryos in Culture|Teratog. Carcinog. Mutagen.16(6): 287-299|1996|10.1002/(SICI)1520-6866(1996)16:6<287::AID-TCM1>3.0.CO;2-E
100966|T||Sankula,S., M.P. Braverman, and S.D. Linscombe|Glufosinate-Resistant, BAR-Transformed Rice (Oryza sativa) and Red Rice (Oryza sativa) Response to Glufosinate Alone and in Mixtures|Weed Technol.11(4): 662-666|1997|10.1017/S0890037X00043219
100967|T||Wherrett,A.D., K. Sivasithamparam, and M.J. Barbetti|Establishing the Relationship of Ascospore Loads with Blackleg (Leptosphaeria maculans) Severity on Canola (Brassica napus)|Aust. J. Agric. Res.55(8): 849-854|2004|10.1071/AR04026
100968|T||Pampulha,M.E., M.A.S.S. Ferreira, and A. Oliveira|Effects of a Phosphinothricin Based Herbicide on Selected Groups of Soil Microorganisms|J. Basic Microbiol.47(4): 325-331|2007|10.1002/jobm.200610274
100969|T||Tsai,C.J., C.S. Wang, and C.Y. Wang|Physiological Characteristics of Glufosinate Resistance in Rice|Weed Sci.54(4): 634-640|2006|10.1614/WS-06-017R.1
100970|T||Sankula,S., M.P. Braverman, and S.D. Linscombe|Response of BAR-Transformed Rice (Oryza sativa) and Red Rice (Oryza sativa) to Glufosinate Application Timing|Weed Technol.11(2): 303-307|1997|10.1017/S0890037X00042998
100971|T||Sankula,S., M.P. Braverman, and J.H. Oard|Genetic Analysis of Glufosinate Resistance in Crosses Between Transformed Rice (Oryza sativa) and Red Rice (Oryza sativa)|Weed Technol.12(2): 209-214|1998|10.1017/S0890037X00043700
100972|A||Sankula,S., M.P. Braverman, F. Jodari, S.D. Linscombe, and J.H. Oard|Evaluation of Glufosinate on Rice (Oryza sativa) Transformed with the BAR Gene and Red Rice (Oryza sativa)|Weed Technol.11(1): 70-75|1997|10.1017/S0890037X00041361
100973|T||DeFelice,M.S., and J.C. Henning|Renovation of Endophyte (Acremonium coenophialum)-Infected Tall Fescue (Festuca arundinacea) Pastures with Herbicides|Weed Sci.38(6): 628-633|1990|10.1017/S0043174500051614
100974|T||Hack,R., E. Ebert, G. Ehling, and K.H. Leist|Glufosinate Ammonium - Some Aspects of Its Mode of Action in Mammals|Food Chem. Toxicol.32(5): 461-470|1994|10.1016/0278-6915(94)90043-4
100975|T||Liu,C.A., H. Zhong, J. Vargas, D. Penner, and M. Sticklen|Prevention of Fungal Diseases in Transgenic, Bialaphos- and Glufosinate-Resistant Creeping Bentgrass (Agrostis palustris)|Weed Sci.46(1): 139-146|1998|10.1017/S0043174500090305
100976|T||Wang,Y., M. Browning, B.A. Ruemmele, J.M. Chandlee, A.P. Kausch, and N. Jackson|Glufosinate Reduces Fungal Diseases in Transgenic Glufosinate-Resistant Bentgrasses (Agrostis spp.)|Weed Sci.51(1): 130-137|2003|10.1614/0043-1745(2003)051[0130:GRFDIT]2.0.CO;2
100977|A||Cilek,J.E., J.D. Webb, and F.W. Knapp|Residual Concentration and Efficacy of Three Temephos Formulations for Control of Larval Aedes aegypti|Am. Mosq. Control Assoc. J.7(2): 310-312|1991|
100978|A||Perez,C.M., C.F. Marina, J.G. Bond, J.C. Rojas, J. Valle, and T. Williams|Spinosad, a Naturally Derived Insecticide, for Control of Aedes aegypti (Diptera:  Culicidae):  Efficacy, Persistence, and Elicited Oviposition Response|J. Med. Entomol.44(4): 631-638|2007|10.1603/0022-2585(2007)44[631:SANDIF]2.0.CO;2
100979|A||Stevens,M.M., and G.N. Warren|Field Evaluation of Plaster-Based Temephos Pellets for Residual Control of Midge Larvae (Diptera:  Chironomidae) in Establishing Rice Crops|Aust. J. Exp. Agric.34(5): 659-664|1994|10.1071/EA9940659
100980|A||Bond,J.G., C.F. Marina, and T. Williams|The Naturally Derived Insecticide Spinosad is Highly Toxic to Aedes and Anopheles Mosquito Larvae|Med. Vet. Entomol.18(1): 50-56|2004|10.1111/j.0269-283X.2004.0480.x
100981|A||Moore,M.T., R.E.,Jr. Lizotte, and S.,Jr. Smith|Toxicity Evaluation of Diazinon Contaminated Leaf Litter|Bull. Environ. Contam. Toxicol.78(2): 168-171|2007|10.1007/s00128-007-9032-y
100982|AT||Mukhopadhyay,A.K., S.K. Patnaik, and P.S. Babu|Susceptibility Status of Some Culicine Mosquitoes to Insecticides in Rajahmundry Town of Andhra Pradesh, India|J. Vector Borne Dis.43(1): 39-41|2006|
100983|A||Wiwatanaratanabutr,S., and P. Kittayapong|Effects of Temephos and Temperature on Wolbachia Load and Life History Traits of Aedes albopictus|Med. Vet. Entomol.20(3): 300-307|2006|10.1111/j.1365-2915.2006.00640.x
100984|AT||Arredondo-Jimenez,J.I., and K.M. Valdez-Delgado|Effect of Novaluron (Rimon 10 EC) on the Mosquitoes Anopheles albimanus, Anopheles pseudopunctipennis, Aedes aegypti, Aedes albopictus and Culex quinquefasciatus from Chiapas, Mexico|Med. Vet. Entomol.20(4): 377-387|2006|10.1111/j.1365-2915.2006.00656.x
100985|A||Vittal,M., R.B. Deobhankar, and V.T. Pandore|Static Bioassay Tests on the Toxicity of Abate 50% E.C. to Poecilia reticulata (Peters) Guppy Fish with Different Types of Water from Breeding Habitats|Indian J. Public Health28(4): 208-212|1984|
100986|A||Sumroiphon,S., C. Yuwaree, C. Arunlertaree, N. Komalamisra, and Y. Rongsriyam|Bioactivity of Citrus Seed for Mosquito-Borne Diseases Larval Control|Southeast Asian J. Trop. Med. Public Health37(suppl. 3): 123-127|2006|
100987|A||Vatandoost,H., H. Shahi, M.R. Abai, A.A. Hanafi-Bojd, M.A. Oshaghi, and G. Zamani|Larval Habitats of Main Malaria Vectors in Hormozgan Province and Their Susceptibility to Different Larvicides|Southeast Asian J. Trop. Med. Public Health35(suppl. 2): 22-25|2004|
100988|T||Vezzani,D., S.M. Velazquez, and N. Schweigmann|Control of Aedes aegypti with Temephos in a Buenos Aires Cemetery, Argentina|Rev. Saude Publica38(5): 738-740|2004|10.1590/S0034-89102004000500020
100989|A||Ali,A., L.C. Barbato, G. Ceretti, S.D. Sala, R. Riso, G. Marchese, and F. D'Andrea|Efficacy of Two Temephos Formulations Against Chironomus salinarius (Diptera:  Chironomidae) in the Saltwater Lagoon of Venice, Italy|Am. Mosq. Control Assoc. J.8(4): 353-356|1992|
100990|T||Morris,C.D., D.A. Dame, and J.W. Robinson|Control of Aedes albopictus in Waste Tire Piles with Reduced Rates of Temephos-Treated Granules|Am. Mosq. Control Assoc. J.12(3): 472-476|1996|
100991|A||Boyer,S., M. Tilquin, and P. Ravanel|Differential Sensitivity to Bacillus thuringiensis var. israelensis and Temephos in Field Mosquito Populations of Ochlerotatus cataphylla (Diptera:  Culicidae):  Toward Resistance?|Environ. Toxicol. Chem.26(1): 157-162|2007|10.1897/06-205R.1
100992|T||Piskorz,B.|The Effect of Quackgrass (Agropyron repens L.) Controlling Herbicides on Soil Microorganisms|Ann. Wars. Agric. Univ. SGGW-AR Hortic.32:59-64|1998|
100993|A||Sztankay-Gulyas,M., and F. Lang|Mosquito Control with Integrated Method|Wiad. Parazytol.18(4): 629-633|1972|
100994|A||Takahashi,M., and K. Yasutomi|Insecticidal Resistance of Culex tritaeniorhynchus (Diptera:  Culicidae) in Japan:  Genetics and Mechanisms of Resistance to Organophosphorus Insecticides|J. Med. Entomol.24(6): 595-603|1987|10.1093/jmedent/24.6.595
100995|T||Power,K.T., H.D. Niemczyk, V.K. Rice, M.G. Belcher, and D.J. Shetlar|Control of Ant Mounds on a Golf Course Fairway, 1991|Insectic. Acaric. Tests17:328-|1992|
100996|T||Saelim,V., W.G. Brogdon, J. Rojanapremsuk, S. Suvannadabba, W. Pandii, J.W. Jones, and R. Sithiprasasna|Bottle and Biochemical Assays on Temephos Resistance in Aedes aegypti in Thailand|Southeast Asian J. Trop. Med. Public Health36(2): 417-425|2005|
100997|T||Nomura,D.K., K.A. Durkin, K.P. Chiang, G.B. Quistad, B.F. Cravatt, and J.E. Casida|Serine Hydrolase KIAA1363:  Toxicological and Structural Features with Emphasis on Organophosphate Interactions|Chem. Res. Toxicol.19(9): 1142-1150|2006|10.1021/tx060117m
100998|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on an Acute Percutaneous Toxicity Study with a Formulation of Glufosinate NH4 in Female Rats|EPA/OTS Doc.#88-920006601:5 p.|1992|
100999|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Submitting Information on an Oral Study of the Embryotoxic Effect with a Formulation of Glufosinate NH4 in Wistar Rats|EPA/OTS Doc.#88-920006596:5 p.|1992|
101000|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Acute Oral Toxicity Study with Glufosinate NH4 in Female Rats|EPA/OTS Doc.#88-920006595:5 p.|1992|
101001|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Acute Oral Toxicity Study with a Formulation of Glufosinate NH4 in Male Rats|EPA/OTS Doc.#88-920006594:5 p.|1992|
101002|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Testing for Embryotoxicity in Himalayan Rabbits Following Oral Administration|EPA/OTS Doc.#88-920003678:5 p.|1992|
101003|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Acute Oral Toxicity in Male Mice|EPA/OTS Doc.#88-920003675:5 p.|1992|
101004|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Acute Oral Toxicity in Female Mice|EPA/OTS Doc.#88-920003674:5 p.|1992|
101005|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Acute Oral Toxicity in Male and Female Beagle Dogs|EPA/OTS Doc.#88-920003673:5 p.|1992|
101006|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Acute Oral Toxicity in Female Rats|EPA/OTS Doc.#88-920003672:5 p.|1992|
101007|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  HOE 39866:  Acute Oral Toxicity in Male Rats|EPA/OTS Doc.#88-920003671:5 p.|1992|
101008|T||Talebi,K., and M.R. Ghassami|Residues of Profenofos in Spring Onion|Commun. Agric. Appl. Biol. Sci.69(4): 799-802|2004|
101009|T||Snodgrass,H.L.,Jr.|Toxicological Assessment of Abate, Dermal Penetration of Radio-Labeled Abate|U.S.NTIS Rep.No.AD-A083661/9661(9): 8 p.|1980|
101010|A||Yebakima,A., M. Marquine, J. Rosine, M.M. Yp-Tcha, and N. Pasteur|Evolution of Resistance Under Insecticide Selection Pressure in Culex pipiens quinquefasciatus (Diptera, Culicidae) from Martinique|J. Med. Entomol.41(4): 718-725|2004|10.1603/0022-2585-41.4.718
101011|A||Ott,D.E., R.B. March, and M.S. Mulla|Adsorption and Desorption Dynamics of Aqueous Temephos Emulsions onto and from Riverbed Silt Particles|Bull. Soc. Vector Ecol.14(2): 282-290|1989|
101012|T||Cantone,F.A., and J.D. Vandenberg|Genetic Transformation and Mutagenesis of the Entomopathogenic Fungus Paecilomyces fumosoroseus|J. Invertebr. Pathol.74(3): 281-288|1999|10.1006/jipa.1999.4885
101014|T||Fujioka,K., and J.E. Casida|Glutathione S-Transferase Conjugation of Organophosphorus Pesticides Yields S-Phospho-, S-Aryl-, and S-Alkylglutathione Derivatives|Chem. Res. Toxicol.20(8): 1211-1217|2007|10.1021/tx700133c
101015|T||Inglis,P.W., F.J.L. Aragao, H. Frazao, B.P. Magalhaes, and M.C. Valadares-Inglis|Biolistic Co-transformation of Metarhizium anisopliae var. acridum Strain CG423 with Green Fluorescent Protein and Resistance to Glufosinate Ammonium|FEMS Microbiol. Lett.191(2): 249-254|2000|10.1111/j.1574-6968.2000.tb09347.x
101016|AT||Corbel,V., S. Duchon, M. Zaim, and J.M. Hougard|Dinotefuran: A Potential Neonicotinoid Insecticide Against Resistant Mosquitoes|J. Med. Entomol.41(4): 712-717|2004|10.1603/0022-2585-41.4.712
101017|T||Ikeda,T., T. Kojima, M. Yoshida, H. Takahashi, S. Tsuda, and Y. Shirasu|Pretreatment of Rats with an Organophosphorus Insecticide, Chlorfenvinphos, Protects Against Subsequent Challenge with the Same Compound|Fundam. Appl. Toxicol.14(3): 560-567|1990|10.1016/0272-0590(90)90260-Q
101018|A||Ullrich,W.R., C.I. Ullrich-Eberius, and H. Kocher|Uptake of Glufosinate and Concomitant Membrane Potential Changes in Lemna gibba G1|Pestic. Biochem. Physiol.37(1): 1-11|1990|10.1016/0048-3575(90)90103-9
101019|A||Neely,W.B., and G.E. Blau|The Use of Laboratory Data to Predict the Distribution of Chlorpyrifos in a Fish Pond|In: M.A.Q.Khan, (Ed.), Pesticides in Aquatic Environments, Plenum Press, NY:145-163|1977|
101021|T||Webster,E.P., F.L. Baldwin, and T.L. Dillon|The Potential for Clomazone Use in Rice (Oryza sativa)|Weed Technol.13(2): 390-393|1999|10.1017/S0890037X00041919
101022|T||Abdoon,A.S.S., W.M. Ahmed, and K.F. Mahrou|Effect of Chronic Exposure to the Pesticide Selecron on Ovulation Rate, Progesterone Level and Chromosomal Abnormalities in Ewes|Vet. Med. J. Giza49(1): 5-15|2001|
101023|T||Fakhr,I.M.I., A.S.M. Fouzy, and N.I. Hazzaa|Effect of C14 Ethoxy Profenofos Insecticides on Liver and Kidney Functions of Lactating Goats|Egypt. J. Vet. Sci.34:49-58|2000|
101024|T||Pewnim,T., and J. Seifert|Structural Requirements for Altering the L-Tryptophan Metabolism in Mice by Organophosphorous and Methylcarbamate Insecticides|Eur. J. Pharmacol. Environ. Toxicol. Pharmacol. Sect.248(3): 237-241|1993|10.1016/0926-6917(93)90050-Z
101025|T||El Nahas,S.M., H.A. De Hondt, and H.A.I. Ramadan|In Vivo Evaluation of the Genotoxic Potential of Curacron in Somatic Cells of Mice|Environ. Mol. Mutagen.11(4): 515-522|1988|10.1002/em.2850110412
101026|T||Heimbach,F.|Effect of Long-Term Use of Tribunil and Sencor on Earthworm Populations|Pflanzenschutz-Nachr. Bayer (English Ed.)36:177-183|1983|
101027|AT||Sundaram,K.M.S.|Persistence Characteristics of Operationally Sprayed Fenitrothion in Nearby Unsprayed Areas of a Conifer Forest Ecosystem in New Brunswick|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes22(4): 413-438|1987|
101028|A||Mitrovic,S.M., M.F. Amandi, L. McKenzie, A. Furey, and K.J. James|Effects of Selenium, Iron and Cobalt Addition to Growth and Yessotoxin Production of the Toxic Marine Dinoflagellate Protoceratium reticulatum in Culture|J. Exp. Mar. Biol. Ecol.313(2): 337-351|2004|10.1016/j.jembe.2004.08.014
101029|A||Mohammed,A., and J.B.R. Agard|Comparative Sensitivity of Three Tropical Cladoceran Species (Diaphanosoma brachyurum, Ceriodaphnia rigaudii and Moinodaphnia macleayi) to Six Chemicals|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(12): 2713-2720|2006|
101030|A||Montufar-Melendez,A.I., J.R. Sanchez-Ortiz, S.S.S. Sarma, and S. Nandini|Combined Effects of Temperature and Lead Concentration on the Competition Between the Rotifers Brachionus havanaensis and Brachionus rubens (Rotifera:  Brachionidae)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(3): 393-398|2007|
101031|T||Noetzel,D.M., and J. Miller|Value of Di-Syston for Control of Colorado Potato Beetle, 1993|Arthropod Manag. Tests19:117-|1994|
101032|A||Key,P.B., S.L. Meyer, and K.W. Chung|Lethal and Sub-Lethal Effects of the Fungicide Chlorothalonil on Three Life Stages of the Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(5): 539-549|2003|
101033|T||Kim,M.N., J.C. Jang, I.M. Lee, H.S. Lee, and J.S. Yoon|Toxicity and Biodegradation of Diamines|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(1): 53-64|2002|
101034|A||Kim,E.J., and S.K. Lee|Reduced Viability of F1 Egg Ropes in Chironomus riparius Exposed to Di-2-Ethylhexyl Phthalate (DEHP)|J. Environ. Biol.25(3): 259-261|2004|
101035|T||Kitamura,T., S. Nishimura, K. Sasahara, M. Yoshida, J. Ando, M. Takahashi, T. Shirai, and A. Maekawa|Transplacental Administration of Diethylstilbestrol (DES) Causes Lesions in Female Reproductive Organs of Donryu Rats, Including Endometrial Neoplasia|Cancer Lett.141:219-228|1999|10.1016/S0304-3835(99)00108-1
101036|A||Hano,T., Y. Oshima, S.G. Kim, H. Satone, Y. Oba, T. Kitano, S. Inoue, Y. Shimasaki, and T. Honjo|Tributyltin Causes Abnormal Development in Embryos of Medaka, Oryzias latipes|Chemosphere69(6): 927-933|2007|10.1016/j.chemosphere.2007.05.093
101037|A||Huang,Q., Q. Wang, W. Tan, G. Song, G. Lu, and F. Li|Biochemical Responses of Two Typical Duckweeds Exposed to Dibutyl Phthalate|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(8): 1615-1626|2006|
101038|A||Jayaweera,M.W., J.C. Kasturiarachchi, R.K.A. Kularatne, and S.L.J. Wijeyekoon|Removal of Aluminium by Constructed Wetlands with Water Hyacinth (Eichhomia crassipes (Mart.) Solms) Grown Under Different Nutritional Conditions|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(2): 185-193|2007|
101039|T||Johnson III,W.C., and B.G.,Jr. Mullinix|Yellow Nutsedge (Cyperus esculentus) Control with Metham-Sodium in Transplanted Cantaloupe (Cucumis melo)|Crop Prot.26(6): 867-871|2007|10.1016/j.cropro.2006.08.010
101041|A||Kawar,N.S., S.M. Dagher, and G.I. Chammas|Comparison of Gas Chromatography and Immunoassay Methods in Measuring the Distribution of Dieldrin in Rainbow Trout Tissues|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(6): 765-774|2001|
101042|T||Kertesz,V., G. Bakonyi, and B. Farkas|Water Pollution by Cu and Pb can Adversely Affect Mallard Embryonic Development|Ecotoxicol. Environ. Saf.65(1): 67-73|2006|10.1016/j.ecoenv.2005.05.016
101043|T||Keese,R.J., and N.D. Camper|Effect of Monosodium Methanarsonate Application on Cuticle Wax Content of Cocklebur and Cotton Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(6): 965-971|2006|
101044|A||Bellas,J., A. Hilvarsson, and A. Granmo|Sublethal Effects of a new Antifouling Candidate on Lumpfish (Cyclopterus lumpus L.) and Atlantic Cod (Gadus morhua L.) Larvae|Biofouling21(3-4): 207-216|2005|10.1080/08927010500285236
101046|T||Pollmeier,M., G. Pengo, M. Longo, and P. Jeannin|Effective Treatment and Control of Biting Lice, Felicola subrostratus (Nitzsch in Burmeister, 1838), on Cats Using Fipronil Formulations|Vet. Parasitol.121(1/2): 157-165|2004|10.1016/j.vetpar.2004.02.012
101047|A||Sayim,F., and U. Kaya|Effects of Dimethoate on Tree Frog (Hyla arborea) Larvae|Turk. J. Zool.30(3): 261-266|2006|
101048|T||Khan,A.S., and N.Y. Chaudhry|Peroxidase Activity (POX) in Some Cucurbits Under the Stress of Mercury and Lead|J. Food Agric. Environ.4(2): 274-276|2006|
101049|A||Apraiz,I., J. Mi, and S. Cristobal|Identification of Proteomic Signatures of Exposure to Marine Pollutants in Mussels (Mytilus edulis)|Mol. Cell. Proteomics5(7): 1274-1285|2006|10.1074/mcp.M500333-MCP200
101050|T||Baysal,O., C. Turgut, and G. Mao|Acibenzolar-S-Methyl Induced Resistance to Phytophthora capsici in Pepper Leaves|Biol. Plant. (Praha)49(4): 599-604|2005|10.1007/s10535-005-0055-0
101051|T||Ochs,H., B. Dusterberg, P. Gunzel, and R. Schulte-Hermann|Effect of Tumor Promoting Contraceptive Steroids on Growth and Drug Metabolizing Enzymes in Rat Liver|Cancer Res.46:1224-1232|1986|
101052|T||Saladin,G., C. Magne, and C. Clement|Effects of Fludioxonil and Pyrimethanil, Two Fungicides Used Against Botrytis cinerea, on Carbohydrate Physiology in Vitis vinifera L|Pest Manag. Sci.59(10): 1083-1092|2003|10.1002/ps.733
101053|T||Tak,J.H., H.K. Kim, S.H. Lee, and Y.J. Ahn|Acaricidal Activities of Paeonol and Benzoic Acid from Paeonia suffruticosa Root Bark and Monoterpenoids Against Tyrophagus putrescentiae (Acari: Acaridae)|Pest Manag. Sci.62:551-557|2006|10.1002/ps.1212
101054|T||Smagghe,G.|Synergism of Diacylhydrazine Insecticides with Metyrapone and Diethylmaleate|J. Appl. Entomol.128(7): 465-468|2004|10.1111/j.1439-0418.2004.00830.x
101055|A||Casco,V.H., M.F. Izaguirre, L. Marin, M.N. Vergara, R.C. Lajmanovich, P. Peltzer, and A.P. Soler|Apoptotic Cell Death in the Central Nervous System of Bufo arenarum Tadpoles Induced by Cypermethrin|Cell Biol. Toxicol.22:199-211|2006|10.1007/s10565-006-0174-1
101056|T||Kim,D.H., and Y.J. Ahn|Contact and Fumigant Activities of Constituents of Foeniculum vulgare Fruit Against Three Coleopteran Stored-Product Insects|Pest Manag. Sci.57:301-306|2001|10.1002/ps.274
101057|T||Kim,E.H., H.K. Kim, and Y.J. Ahn|Acaricidal Activity of Plant Essential Oils Against Tyrophagus putrescentiae (Acari:  Acaridae)|J. Asia Pac. Entomol.6(1): 77-82|2003|10.1016/S1226-8615(08)60171-5
101059|T||Pope,C.N., and J. Liu|Age-Related Differences in Sensitivity to Organophosphorus Pesticides|Environ. Toxicol. Pharmacol.4(3-4): 309-314|1997|10.1016/S1382-6689(97)10029-1
101060|T||Daglish,G.J.|Effect of Exposure Period on Degree of Dominance of Phosphine Resistance in Adults of Rhyzopertha dominica (Coleoptera:  Bostrychidae) and Sitophilus oryzae (Coleoptera:  Curculionidae)|Pest Manag. Sci.60(8): 822-826|2004|10.1002/ps.866
101061|T||Blossom,S.J., N.R. Pumford, and K.M. Gilbert|Activation and Attenuation of Apoptosis of CD4+ T Cells Following In Vivo Exposure to Two Common Environmental Toxicants, Trichloroacetaldehyde Hydrate and Trichloroacetic Acid|J. Autoimmun.23(3): 211-220|2004|10.1016/j.jaut.2004.06.007
101062|A||Belda-Baillie,C.A., W. Leggat, and D. Yellowlees|Growth and Metabolic Responses of the Giant Clam - Zooxanthellae Symbiosis in a Reef-Fertilisation Experiment|Mar. Ecol. Prog. Ser.170:131-141|1998|10.3354/meps170131
101063|T||Huang,X.M., J.M. Lu, H.C. Wang, C.L. Zhang, L. Xie, R.T. Yang, J.G. Li, and H.B. Huang|Nitrate Reduces the Detrimental Effect of Potassium Chlorate on Longan (Dimocarpus longan Lour.) Trees|Sci. Hortic.108(2): 151-156|2006|10.1016/j.scienta.2006.01.015
101064|T||Daglish,G.J., R.A. Kopittke, M.C. Cameron, and H. Pavic|Predicting Mortality of Phosphine-Resistant Adults of Sitophilus oryzae (L) (Coleoptera:  Curculionidae) in Relation to Changing Phosphine Concentration|Pest Manag. Sci.60(7): 655-659|2004|10.1002/ps.800
101065|A||Lajmanovich,R., E. Lorenzatti, P. De la Sierra, F. Marino, G. Stringhini, and P. Peltzer|Reduction in the Mortality of Tadpoles (Physalaemus biligonigerus; Amphibia: Leptodactylidae) Exposed to Cypermethrin in Presence of Aquatic Ferns|Fresenius Environ. Bull.12(12): 1558-1561|2003|
101066|T||Peng,H.Y., X.E. Yang, M.J. Yang, and S.K. Tian|Responses of Antioxidant Enzyme System to Copper Toxicity and Copper Detoxification in the Leaves of Elsholtzia splendens|J. Plant Nutr.29(9): 1619-1635|2006|10.1080/01904160600851478
101067|A||Cabagna,M.C., R.C. Lajmanovich, P.M. Peltzer, A.M. Attademo, and E. Ale|Induction of Micronuclei in Tadpoles of Odontophrynus americanus (Amphibia:  Leptodactylidae) by the Pyrethroid Insecticide Cypermethrin|Toxicol. Environ. Chem.88(4): 729-737|2006|10.1080/02772240600903805
101068|T||Thomidis,T., and C. Tsipouridis|Influence of Rootstocks, pH, Iron Supply (in Nutrient Solutions) and Agrobacterium radiobacter on Chlorophyll and Iron Concentration in Leaves of a Peach Variety|J. Plant Nutr.28(10): 1-10|2005|10.1080/01904160500251241
101069|T||Urbanek,H., H. Majorowicz, M. Zalewski, and M. Saniewski|Induction of Glutathione S-Transferase and Glutathione by Toxic Compounds and Elicitors in Reed Canary Grass|Biotechnol. Lett.27(13): 911-914|2005|10.1007/s10529-005-7181-9
101070|A||Ma,J.F., R. Shen, Z. Zhao, M. Wissuwa, Y. Takeuchi, T. Ebitani, and M. Yano|Response of Rice to Al Stress and Identification of Quantitative Trait Loci for Al Tolerance|Plant Cell Physiol.43(6): 652-659|2002|10.1093/pcp/pcf081
101071|A||Gul,H.I., M. Gul, and E. Erciyas|Toxicity of Some bis Mannich Bases and Corresponding Piperidinols in the Brine Shrimp (Artemia salina) Bioassay|J. Appl. Toxicol.23(1): 53-57|2003|10.1002/jat.887
101072|A||Natale,G.S., L.L. Ammassari, N.G. Basso, and A.E. Ronco|Acute and Chronic Effects of Cr(VI) on Hypsiboas pulchellus Embryos and Tadpoles|Dis. Aquat. Org.72(3): 261-267|2006|10.3354/dao072261
101073|A||Shaw,J.R., K. Gabor, E. Hand, A. Lankowski, L. Durant, R. Thibodeau, C.R. Stanton, R. Barnaby, B. Coutermarsh, K.H. Kar|Role of Glucocorticoid Receptor in Acclimation of Killifish (Fundulus heteroclitus) to Seawater and Effects of Arsenic|Am. J. Physiol., Regul. Integr. Comp. Physiol.292(2): R1052 - R1060|2007|10.1152/ajpregu.00328.2006
101074|T||Seth,R.K., J.J. Kaur, D.K. Rao, and S.E. Reynolds|Effects of Larval Exposure to Sublethal Concentrations of the Ecdysteroid Agonists RH-5849 and Tebufenozide (RH-5992) on Male Reproductive Physiology in Spodoptera litura|J. Insect Physiol.50(6): 505-517|2004|10.1016/j.jinsphys.2004.03.007
101075|T||Roiloa,S.R., and R. Retuerto|Development, Photosynthetic Activity and Habitat Selection of the Clonal Plant Fragaria vesca Growing in Copper-Polluted Soil|Funct. Plant Biol.33(10): 961-971|2006|10.1071/FP06018
101076|T||Wu,K., and Y. Guo|Changes in Susceptibility to Conventional Insecticides of a Cry1Ac-Selected Population of Helicoverpa armigera (Hubner) (Lepidoptera:  Noctuidae)|Pest Manag. Sci.60(7): 680-684|2004|10.1002/ps.848
101077|T||Sridokchan,W., S. Markich, and P. Visoottiviseth|Arsenic Tolerance, Accumulation and Elemental Distribution in Twelve Ferns:  A Screening Study|Australas. J. Ecotoxicol.11(2): 101-110|2005|
101078|A||Tierney,K.B., E. Stockner, and C.J. Kennedy|Changes in Immunological Parameters and Disease Resistance in Juvenile Coho Salmon (Oncorhynchus kisutch) in Response to Dehydroabietic Acid Exposure Under Varying Thermal Conditions|Water Qual. Res. J. Can.39(3): 176-184|2004|
101079|T||Park,I.K., S.G. Lee, D.H. Choi, J.D. Park, and Y.J. Ahn|Insecticidal Activities of Constituents Identified in the Essential Oil from Leaves of Chamaecyparis obtusa Against Callosobruchus chinensis (L.) and Sitophilus oryzae (L.)|J. Stored Prod. Res.39(4): 375-384|2003|10.1016/S0022-474X(02)00030-9
101080|T||Kwon,J.H., and Y.J. Ahn|Acaricidal Activity of Cnidium officinale Rhizome-Derived Butylidenephthalide Against Tyrophagus putrescentiae (Acari:  Acaridae)|Pest Manag. Sci.59(1): 119-123|2002|10.1002/ps.607
101081|A||Qin,J.G., and P. Dong|Acute Toxicity of Trichlorfon to Juvenile Yabby Cherax destructor (Clark) and Selected Zooplankton Species|Aquac. Res.35(11): 1104-1107|2004|10.1111/j.1365-2109.2004.01116.x
101082|A||Turgut,C.|The Growth Stability and Sensitivity of Parrotfeather to a Reference Toxicant (3,5-Dichlorphenol) Throughout a 1-Year Period|Fresenius Environ. Bull.15(5): 462-464|2006|
101083|T||Kim,H.K., J.R. Kim, and Y.J. Ahn|Acaricidal Activity of Cinnamaldehyde and Its Congeners Against Tyrophagus putrescentiae (Acari: Acaridae)|J. Stored Prod. Res.40:55-63|2004|10.1016/S0022-474X(02)00075-9
101084|A||MacGregor III,R., N. Sears, and M. Arheiger|The Effects of the Total Hardness on Potassium Dichromate and Sodium Dichloride Acute Toxicity to Daphnia pulex and Ceriodaphnia reticulata|EPA/OTS Doc.#40-84421610:2 p.|1989|
101085|T||Kim,S.I., J.Y. Roh, D.H. Kim, H.S. Lee, and Y.J. Ahn|Insecticidal Activities of Aromatic Plant Extracts and Essential Oils Against Sitophilus oryzae and Callosobruchus chinensis|J. Stored Prod. Res.39:293-303|2003|10.1016/S0022-474X(02)00017-6
101086|T||Kim,S.I., C. Park, M.H. Ohh, H.C. Cho, and Y.J. Ahn|Contact and Fumigant Activities of Aromatic Plant Extracts and Essential Oils Against Lasioderma serricorne (Coleoptera:  Anobiidae)|J. Stored Prod. Res.39:11-19|2003|10.1016/S0022-474X(02)00013-9
101087|T||Park,C., S.I. Kim, and Y.J. Ahn|Insecticidal Activity of Asarones Identified in Acorus gramineus Rhizome Against Three Coleopteran Stored-Product Insects|J. Stored Prod. Res.39:333-342|2003|10.1016/S0022-474X(02)00027-9
101088|T||Yuan,S., and M. Zhou|A Major Gene for Resistance to Carbendazim, in Field Isolates of Gibberella zeae|Can. J. Plant Pathol.27(1): 58-63|2005|10.1080/07060660509507194
101089|T||Prell,R.A., E. Dearstyne, L.G. Steppan, A.T. Vella, and N.I. Kerkvliet|CTL Hyporesponsiveness Induced by 2,3,7,8-Tetrachlorodibenzo-p-Dioxins:  Role of Cytokines and Apoptosis|Toxicol. Appl. Pharmacol.166:214-221|2000|10.1006/taap.2000.8971
101090|A||Drouillard,K.G., S. Chan, S. O'Rourke, G.D. Haffner, and R.J. Etcher|Elimination of 10 Polybrominated Diphenyl Ether (PBDE) Congeners and Selected Polychlorinated Biphenyls (PCBs) from the Freshwater Mussel, Elliptio complanata|Chemosphere69(3): 362-370|2007|10.1016/j.chemosphere.2007.05.027
101091|A||Qin,Z.F., X.F. Qin, L. Yang, L. Han-Ting, X.R. Zhao, and X.B. Xu|Feminizing/Demasculinizing Effects of Polychlorinated Biphenyls on the Secondary Sexual Development of Xenopus laevis|Aquat. Toxicol.84(3): 321-327|2007|10.1016/j.aquatox.2007.06.011
101094|T||Sandhu,S.S., C.R. Bastos, L.E. Azini, A. Tulmann Neto, and C. Colombo|RAPD Analysis of Herbicide-Resistant Brasilian Rice Lines Produced via Mutagenesis|Genet. Mol. Res.1(4): 359-370|2002|
101095|T||Zakaria,A.H., and A.A. Shoukfeh|Control of Poultry Ascariasis.  II.  Studies of the Effect of Some Available Chemicals on Ascaridia galli Eggs|J. Egypt. Vet. Med. Assoc.40(4): 37-46|1980|
101096|A||Altenburger,R., R. Callies, L.H. Grimme, D. Leibfritz, and A. Mayer|The Mode of Action of Glufosinate in Algae:  The Role of Uptake and Nitrogen Assimilation Pathways|Pestic. Sci.45(4): 305-310|1995|10.1002/ps.2780450403
101097|T||Ismail,B.S., Y. Jokha, and O. Omar|Effects of Glufosinate-Ammonium on Microbial Populations and Enzyme Activities in Soils|Microbios83(336): 185-190|1995|
101098|T||Elzen,P.J.|Suitability of Formic Acid to Control Varroa destructor and Safety to Apis mellifera in the Southwestern U.S.|Southwest. Entomol.28(4): 261-266|2003|
101099|T||Matocha,J.E., and F.L. Hopper|Influence of Terbufos and Nicosulfuron on Iron Chlorosis and Growth of Corn|J. Plant Nutr.24(9): 1445-1455|2001|10.1081/PLN-100106994
101100|T||Krueger,H.R., R.D. O'Brien, and W.C. Dauterman|Relationship Between Metabolism and Differential Toxicity in Insects and Mice of Diazinon, Dimethoate, Parathion, and Acethion|J. Econ. Entomol.53(1): 25-31|1960|10.1093/jee/53.1.25
101101|A||Amin,A.M., and H.T.R. Peiris|Detection and Selection of Organophosphate and Carbamate Resistance in Culex quinquefasciatus from Saudi Arabia|Med. Vet. Entomol.4(3): 269-273|1990|10.1111/j.1365-2915.1990.tb00439.x
101102|A||Gillott,M.A., G.L. Floyd, and D.V. Ward|The Role of Sediment as a Modifying Factor in Pesticide-Algae Interactions|Environ. Entomol.4(4): 621-624|1975|10.1093/ee/4.4.621
101103|T||Ono,M.A., E.N. Itano, L.T. Mizuno, E.H.F. Mizuno, and Z.P. Camargo|Inhibition of Paracoccidioides brasiliensis by Pesticides:  Is this a Partial Explanation for the Difficulty in Isolating this Fungus from the Soil?|Med. Mycol.40(5): 493-499|2002|10.1080/mmy.40.5.493.499
101104|T||Ganguly,S., and S. Bhattacharya|Cytogenetic Effects of Pesticides in Mice (Mus musculus)|Cytologia71(4): 419-423|2006|10.1508/cytologia.71.419
101105|A||Ganesh,K., C. Janaiah, and P. Venkateshwarlu|Specific Activity Levels of Proteases, Aminases and GDH in Fresh Water Fish, Clarias batrachus (Linn) on Exposure to Profenofos|J. Aquat. Biol.21(2): 196-199|2006|
101106|T||Nakaki,T., A. Mishima, E. Suzuki, F. Shintani, and T. Fujii|Glufosinate Ammonium Stimulates Nitric Oxide Production Through N-Methyl D-Aspartate Receptors in Rat Cerebellum|Neurosci. Lett.290(3): 209-212|2000|10.1016/S0304-3940(00)01363-X
101107|T||Abou-Donia,M.B., H.A. Makkawy, and D.G. Graham|Coumaphos:  Delayed Neurotoxic Effect Following Dermal Administration in Hens|J. Toxicol. Environ. Health10(1): 87-99|1982|10.1080/15287398209530233
101108|T||Dawe,D.L., J. Brown, R.B. Davis, and F.E. Kellogg|Effectiveness of Maretin and Meldane as Treatments for Capillariasis in Bobwhites|Avian Dis.13(3): 662-667|1969|10.2307/1588540
101109|A||Pierce,M.E.|Further Study of the Effect of the Weedicide Kuron upon the Flora and Fauna of Long Pond, Dutchess County, New York|Proc. Northeast. Weed Control Conf.:310-314|1959|
101110|A||Tsai,Y.C., and C.H. Kao|Light-Dependent Ammonium Ion Toxicity of Rice Leaves in Response to Phosphinothricin Treatment|Biol. Plant. (Praha)45(4): 569-573|2002|10.1023/A:1022381226965
101111|T||Toldi,O., S. Toth, A.S. Oreifig, E. Kiss, and B. Jenes|Production of Phosphinothricin-Tolerant Rice (Oryza sativa L.) Through the Application of Phosphinothricin as Growth Regulator|Plant Cell Rep.19(12): 1226-1231|2000|10.1007/s002990000276
101112|T||Koyama,K., and K. Goto|Cardiovascular Effects of a Herbicide Containing Glufosinate and a Surfactant:  In Vitro and In Vivo Analyses in Rats|Toxicol. Appl. Pharmacol.145(2): 409-414|1997|10.1006/taap.1997.8196
101113|T||Ahmad,I., and D. Malloch|Interaction of Soil Microflora with the Bioherbicide Phosphinothricin|Agric. Ecosyst. Environ.54(3): 165-174|1995|10.1016/0167-8809(95)00603-P
101114|T||Fujii,T.|Transgenerational Effects of Maternal Exposure to Chemicals on the Functional Development of the Brain in the Offspring|Cancer Causes Control8(3): 524-528|1997|10.1023/A:1018477809755
101117|T||Jahoubjan,G.T., and I.N. Minkov|Enhanced Chlorophyllide Accumulation After Flash Irradiation of Etiolated Wheat Plants Treated with SAN-9789|J. Plant Physiol.151(6): 649-653|1997|10.1016/S0176-1617(97)80060-0
101118|T||Rammell,C.G., G.R. Bentley, and A.C.G. Heath|Organophosphate Residues in the Wool of Sheep Dipped for Flystrike Control|N. Z. J. Agric. Res.31(2): 151-154|1988|10.1080/00288233.1988.10417939
101119|T||Rammell,C.G., and G.R. Bentley|Decay Rates of Organophosphate Residues in the Fleeces of Sheep Dipped for Flystrike Control|N. Z. J. Agric. Res.32(2): 213-218|1989|10.1080/00288233.1989.10423456
101120|T||Reddy,K.D., K.N. Reddy, and P.B. Mahalingappa|Dissipation of Fipronil and Profenofos Residues in Chillies (Capsicum annum L.)|Pestic. Res. J.19(1): 106-107|2007|
101121|AT||El-Sebae,A.H., S.A. Soliman, A. Khalil, and S. El-Fiki|Comparative Selective Toxicity of Some Insecticides to Insects and Mammals|Br. Crop Prot. Conf. Pests Dis.3:731-736|1979|
101122|T||Salem,L.E.M., R.M. Sherif, M.M. Machsut, and Y.M. Mohamad|Teratogenic Effect of Commercial Organophosphate Insecticide Selecron (Profenofos) on Albino Rats|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(2a): 251-258|1997|
101123|T||Kharbade,S.B., B.V. Gondhali, C.B. Wayal, and R.N. Kate|Efficacy of New Insecticidal Poison Baits Against Slugs Under Shade Net Condition|Pestology31(11): 35-37|2007|
101124|T||Oreifig,A.S., G. Kovacs, B. Jenes, E. Kiss, P. Scott, and O. Toldi|Development of a Non-Lethal Selection System by Using the aadA Marker Gene for Efficient Recovery of Transgenic Rice (Oryza sativa L.)|Plant Cell Rep.22(7): 490-496|2004|10.1007/s00299-003-0715-5
101125|A||Kornyeyev,D.Y.|Inhibition of Glutamine Synthetase Activity by Phosphinothricin Results in Disappearance of the Peak M2 of the Chlorophyll Fluorescence Induction Curve|Photosynthetica (Praha)36(4): 601-604|1999|10.1023/A:1007004507308
101126|A||Bang,Y.H., R.J. Tonn, and S. Jatanasen|Pilot Studies of Abate as a Larvicide for Control of Aedes aegypti in Bangkok, Thailand|Southeast Asian J. Trop. Med. Public Health3(1): 106-115|1972|
101127|T||Peiris,H.T.R., and J. Hemingway|Mechanisms of Insecticide Resistance in a Temephos Selected Culex quinquefasciatus (Diptera:  Culicidae) Strain from Sri Lanka|Bull. Entomol. Res.80(4): 453-457|1990|10.1017/S0007485300050719
101128|A||Levy,R., M.A. Nichols, and T.W.,Jr. Miller|Culigel Controlled-Release and Pest-Management Systems|ASTM Spec. Tech. Publ.12:214-232|1993|
101129|A||Franco,A.R., F.J. Lopez-Siles, and J. Cardenas|Resistance to Phosphinothricin (Glufosinate) and Its Utilization as a Nitrogen Source by Chlamydomonas reinhardtii|Appl. Environ. Microbiol.62(10): 3834-3839|1996|10.1128/aem.62.10.3834-3839.1996
101130|T||Khalil,H.M., M.A. Rifaat, A.M. Gad, and S. Sadek|Filarial Infectivity Rate of Culex pipiens molestus Subjected to Sublethal Concentrations of Insecticides Abate and Sevin and Distribution of Infective Filaria Larvae in Mosquito Body Regions|J. Egypt. Publ. Health Assoc.49(4/5): 221-224|1974|
101131|T||Malik,J.K., and A.K. Srivastava|Effects of Cholinesterase Reactivators and Atropine on Fenitrothion-Induced Hypothermia in Bubalus bubalis|Toxicol. Lett.36(3): 289-295|1987|10.1016/0378-4274(87)90198-6
101132|A||Ganesh,K., C. Janaiah, and V.J.S. Rani|Kinetic Study of Acetylcholine Esterase and Dehydrogenase Enzymes in Clarias batrachus (Linn) on Exposure to Organophosphorus Pesticides|J. Aquat. Biol.21(2): 200-205|2006|
101133|T||Pickering,W.R., and J.C. Malone|The Acute Toxicity of Dichloroalkyl Aryl Phosphates in Relation to Chemical Structure|Biochem. Pharmacol.16(7): 1183-1194|1967|10.1016/0006-2952(67)90150-5
101134|T||Palmer,J.S.|Oximes for Treatment of Coumaphos Poisoning in Cattle|J. Am. Vet. Med. Assoc.145(12): 1206-1210|1964|
101135|T||Borges,M.L., O.C. Matos, I. Pais, J.S. De Melo, C.P. Ricardo, A. Macanita, and R.S. Becker|Evaluation of a Broad Variety of Coumarins, Chromones, Their Furohomologues and Thione Analogues as Phototoxins Activated by UVA and Visible Light|Pestic. Sci.44(2): 155-162|1995|10.1002/ps.2780440208
101138|T||Van Buren,N.W.M., and J.W. Stegeman|The Distribution of the Acaricide Perizin in the Honeybee (Apis mellifera L.)|In: M.J.Sommeijer and J.Van der Blom (Eds.), Proc.of the Sect.of Exp.and Appl.Entomol.Netherlands Entomol.Soc., Vol.1, Meet., Dec.15, 1989, Utrecht, Netherlands, Nederlandse Entomol.Vereniging, Amsterdam, Netherlands:57-60|1990|
101139|A||Baker,R.H.A., and O.M. Abdelnur|Localized Onchocerciasis Vector Control in the Bahr El Ghazal Region of South-Western Sudan.  II.  Control|Trop. Med. Parasitol.37(2): 135-142|1986|
101140|T||Baxter,J.R., J. Ibarra, W.T. Wilson, R.G. Arther, J.D. Kellerby, and J. Stewart|Amitraz or Coumaphos Efficacy Tests in Guatemala for Control of Varroa jacobsoni in Honey Bees|Southwest. Entomol.24(4): 309-313|1999|
101142|T||BASF Aktiengesellschaft|Initial Submission:  Report on the Toxicity Study of 3,7-Dichloro-8-Quinoline Carboxylic Acid in Beagle Dogs After 4-Week Administration in the Diet with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003073:278 p.|1992|
101143|T||Konar,A., and G.W. Ivie|Fate of (14C)Coumaphos After Dermal Application to Lactating Goats as a Pour-On Formulation|Am. J. Vet. Res.49(4): 488-492|1988|
101144|T||Zeakes,S.J., J.O. Mozier, R.G. White, and M.F. Hansen|Efficacy of Coumaphos Crumbles and Naftalofos Boluses Against Nematodes of Cattle|Am. J. Vet. Res.37(6): 709-710|1976|
101145|T||Baker,N.F., R.A. Fisk, and C. Stormont|Acute Oral Median Lethal Dose of Haloxon and Coumaphos in Sheep as Influenced by Plasma A Esterase|Am. J. Vet. Res.41(11): 1857-1859|1980|
101146|T||Leland,S.E.,Jr., R.K. Ridley, G.F. Slonka, and G.L. Zimmerman|Detection of Activity for Various Anthelmintics Against In Vitro-Produced Cooperia punctata|Am. J. Vet. Res.36(4): 449-456|1975|
101147|T||Gopal,T., F.W. Oehme, and V. St.Omer|Influence of Dietary Protein on the Effect on Coumaphos and Triflupromazine Interaction in Sheep|Am. J. Vet. Res.37(10): 1143-1152|1976|
101148|T||Castro,B.A., T.J. Riley, and B.R. Leonard|Evaluation of Selected Insecticides for Control of Red Imported Fire Ant in Grain Sorghum, 1994|Arthropod Manag. Tests20:232-233|1995|10.1093/amt/20.1.232
101149|T||BASF Corp.|Initial Submission:  Toxicity of 3,7-Dichloro-8-Quinoline Carboxylic Acid in Rats After 4 Week Administration in the Diet with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003011:286 p.|1992|
101150|T||BASF Aktiengesellschaft|Initial Submission:  Report on Study of Toxicity of 3,7-Dichloro-8-Quinoline Carboxylic Acid in Beagle Dogs After 12 Month Administration in the Diet with Cover Letter Dated 052692|EPA/OTS Doc.#88-920003071:237 p.|1992|
101151|T||Younger,R.L., and F.C. Wright|Acute Coumaphos Toxicosis in Cattle:  Antidotal Therapy with Pralidoxime Chloride and Atropine, and Related Alterations of Blood and Serum Enzymatic Activities|Am. J. Vet. Res.32(7): 1053-1063|1971|
101152|T||Miller,J.E., N.F. Baker, and T.B. Farver|Anthelmintic Treatment of Pastured Dairy Cattle in California|Am. J. Vet. Res.47(9): 2036-2040|1986|
101153|A||Ali,D., N.S. Nagpure, S. Kumar, R. Kumar, and B. Kushwaha|Genotoxicity Assessment of Acute Exposure of Chlorpyrifos to Freshwater Fish Channa punctatus (Bloch) Using Micronucleus Assay and Alkaline Single-Cell Gel Electrophoresis|Chemosphere71:1823-1831|2008|10.1016/j.chemosphere.2008.02.007
101154|A||Das,P.K., and P.K. Rajagopalan|Susceptibility of Larvae of Culex fatigans (Wiedmann), Anopheles stephensi (Liston) and Aedes aegypti (Linn.) to Insecticides in Pondicherry|Indian J. Med. Res.70:412-416|1979|
101155|A||Holbrook,F.R.|Evaluations of Three Insecticides Against Colonized and Field-Collected Larvae of Culicoides variipennis (Diptera:  Ceratopogonidae)|J. Econ. Entomol.75(4): 736-737|1982|10.1093/jee/75.4.736
101156|A||Bowman,M.C., H.R. Ford, C.S. Lofgren, and D.E. Weidhaas|Residues of Abate:  Analysis in Mosquito Larvae and Larvicide Suspensions by Flame Photometric Gas Chromatography|J. Econ. Entomol.61(6): 1586-1589|1968|10.1093/jee/61.6.1586
101157|T||Jennings,E.R., A.J. Beland, J.A. Cope, M.H. Ellestad, C. Monroe, and O.W. Shadle|Citrate Toxicity and the Use of Anticoagulant Acid Citrate Dextrose Blood for Extracorporeal Circulation|Surg. Gynecol. Obstet.120(5): 997-1008|1965|
101158|A||Lyons,G.R.L.|The Control of Guineaworm with Abate:  A Trial in a Village of North-West Ghana|Bull. W. H. O.49(2): 215-216|1973|
101159|A||Geevarghese,G., V. Dhanda, P.N. Ranga Rao, and R.B. Deobhankar|Field Trials for the Control of Aedes aegypti with Abate in Poona City and Suburbs|Indian J. Med. Res.65(4): 466-473|1977|
101160|T||Kissam,J.B., R. Noblet, and G.I. Garris|Large-Scale Aerial Treatment of an Endemic Area with Abate Granular Larvicide to Control Black Flies (Diptera:  Simuliidae) and Suppress Leucocytozoon smithi of Turkeys|J. Med. Entomol.12(3): 359-362|1975|10.1093/jmedent/12.3.359
101161|A||Takaoka,H., J.O. Ochoa, M. Takahashi, and H. Takahasi|Evaluation of Temephos as a Larvicide Against Simulium ochraceum (Diptera:  Simuliidae) in Guatemala|J. Med. Entomol.18(2): 145-152|1981|10.1093/jmedent/18.2.145
101162|A||Petersen,J.L., A.J. Adames, and L. De Leon|Bionomics and Control of Black Flies (Diptera:  Simuliidae) at the Fortuna Hydroelectric Project, Panama|J. Med. Entomol.20(4): 399-408|1983|10.1093/jmedent/20.4.399
101163|T||Modi,D.R., A.K. Singh, K.S. Rao, D. Chakravarty, and H.N. Singh|Construction of Multiple Herbicide Resistant Ammonia Excreting Strains of Cyanobacterium Nostoc muscorum|Biotechnol. Lett.13(11): 793-798|1991|10.1007/BF01026761
101164|A||Kaul,S.M., G.C. Joshi, and P.N. Sehgal|Field Evaluation of Temephos One per Cent Sand Granule Formulation Against Cyclops|J. Commun. Dis.19(2): 168-171|1987|
101165|T||Sharma,R.S., S.N. Sharma, and A. Kumar|Susceptibility Status of Japanese Encephalitis Vectors in Kurnool and Mehboobnagar Districts of Andhra Pradesh, India|J. Commun. Dis.35(2): 118-122|2003|
101166|T||Gunner,H.B., B.M. Zuckerman, R.W. Walker, C.W. Miller, K.H. Deubert, and R.E. Longley|The Distribution and Persistence of Diazinon Applied to Plant and Soil and Its Influence on Rhizosphere and Soil Microflora|Plant Soil25(2): 249-265|1966|10.1007/BF01347822
101167|A||Kumar,A., V.P. Sharma, P.K. Sumodan, D. Thavaselvam, and R.H. Kamat|Malaria Control Utilizing Bacillus sphaericus Against Anopheles stephensi in Panaji, Goa|Am. Mosq. Control Assoc. J.10(4): 534-539|1994|
101168|T||Ruiz-Santaella,J.P., A.J. Fisher, and R. De Prado|Alternative Control of Two Biotypes of Echinochloa phyllopogon Susceptible and Resistant to Fenoxaprop-Ethyl|Commun. Agric. Appl. Biol. Sci.68(4a): 403-407|2003|
101169|T||Moroi,K., and T. Kuga|Inhibitory Effect of Leptophos on Carboxylesterase (Isocarboxazid Amidase) in Rat Liver|Toxicol. Lett.11(1-2): 81-85|1982|10.1016/0378-4274(82)90110-2
101170|A||Folz,S.D., R.A. Pax, E.M. Thomas, J.L. Bennett, B.L. Lee, and G.A. Conder|Development and Validation of an In Vitro Trichostrongylus colubriformis Motility Assay|Int. J. Parasitol.17(8): 1441-1444|1987|10.1016/0020-7519(87)90080-4
101171|A||Baruah,K.|Laboratory Bio-assay of Temephos and Fenthion Against Some Vector Species of Public Health Importance|J. Commun. Dis.36(2): 100-104|2004|
101172|T||Fayez,M.|Interactions of Some Nematicides with Azospirillum lipoferum and the Growth of Zea maize|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)153(4): 219-223|1990|10.1002/jpln.19901530404
101173|T||Barrett,G.W., C.S. Haviland, and D.H. Taylor|Perturbation Effects on Deer Mouse Populations in Corn Agroecosystems|Ohio J. Sci.90(4): 125-129|1990|
101175|T||Van Buren,N.W.M., A.G.H. Marien, R.C.H.M. Oudejans, and H.H.W. Velthuis|Perizin, an Acaricide to Combat the Mite Varroa jacobsoni:  Its Distribution in and Influence on the Honeybee Apis mellifera|Physiol. Entomol.17(3): 288-296|1992|10.1111/j.1365-3032.1992.tb01024.x
101177|T||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate Z Tank-Mixed with Selected Herbicides, 1998|Arthropod Manag. Tests24:275-276|1999|
101178|A||Vittal,M., M.R. Bhate, V.S. Joshi, and L.B. Deshpande|Study of Larviciding as a Supplementary Malaria Control Measure in a Rural Area of Maharashtra|Indian J. Public Health26(3): 155-162|1982|
101179|A||Zimmerman,W.J.|Ammonium Uptake and Excretion in Azolla - Anabaena Symbiosis|Biol. Fertil. Soils13(3): 192-194|1992|10.1007/BF00336279
101180|T||Bostanian,N.J., and G. Racette|Indirect Effect of BASF 490 on Adult Amblyseius fallacis, 1997|Arthropod Manag. Tests23:2-|1998|
101181|T||Ahmad,I., J. Bissett, and D. Malloch|Influence of the Bioherbicide Phosphinothricin on Interactions Between Phytopathogens and Their Antagonists|Can. J. Bot.73(11): 1750-1760|1995|10.1139/b95-187
101182|T||Folz,S.D., R.A. Pax, E.M. Thomas, J.L. Bennett, B.L. Lee, and G.A. Conder|Detecting In Vitro Anthelmintic Effects with a Micromotility Meter|Vet. Parasitol.24(3/4): 241-250|1987|10.1016/0304-4017(87)90045-8
101183|T||Adzhemyan,L.A.|Effects of the Insecticides Phosalone and Gardona on Content of Sugars, Organic Acids, and Amino Acids in Apple Leaves|Sov. Plant Physiol.27(1): 119-122|1980|
101184|T||Nayudu,P.L., P.S. Kiesel, M.A. Nowshari, and J.K. Hodges|Abnormal In Vitro Development of Ovarian Follicles Explanted from Mice Exposed to Tetrachlorvinphos|Reprod. Toxicol.8(3): 261-268|1994|10.1016/0890-6238(94)90010-8
101185|T||Brown,M.A., and V.J. Maniscalco|Effects on Milk Production and Internal Parasites of Dairy Cattle from a Ration Supplemented with a Parasiticide|Southwest. Vet.27(1): 51-53|1974|
101186|A||Low-Goh,N.K., P.S.J. Edwards, S. Frost, and M.P. Thomas|The Effect of Abate on the Growth of Vibrio natriegens and Chlorella vulgaris|Int. J. Environ. Stud.17:135-139|1981|10.1080/00207238108709898
101187|T||Annamalai,P., and D. Lalithakumari|Development of Resistance in Drechslera oryzae to Edifenphos - Monitoring and Control Strategies|Trop. Pest Manag.38(4): 349-353|1992|10.1080/09670879209371725
101188|T||Zayed,S.M.A.D., and M. Farghaly|Distribution and Degradation of Tetrachlorvinphos on Stored Faba Beans and Soya Beans|J. Stored Prod. Res.21(4): 199-205|1985|10.1016/0022-474X(85)90016-5
101189|T||Takade,D.Y., T. Allsup, A. Khasawinah, T.S. Kao, and T.R. Fukuto|Metabolism of O,O-Dimethyl S-[[alpha]-Carboethoxy)Benzyl]Phosphorodithioate (Phenthoate) in the White Mouse and House Flies|Pestic. Biochem. Physiol.6(4): 367-376|1976|10.1016/0048-3575(76)90047-X
101190|T||Amer,S.M., and M.A. Fahmy|Cytogenetic Effects of Pesticides:  II.  Induction of Micronuclei in Mouse Bone Marrow by the Insecticide Gardona|Mutat. Res.117(3/4): 329-336|1983|10.1016/0165-1218(83)90132-5
101191|T||El-Sebae,A.H., N.S. Ahmed, and S.A. Soliman|Effect of Pre-Exposure on Acute Toxicity of Organophosphorus Insecticides to White Mice|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes13(1): 11-24|1978|
101192|T||Faulkner,L.C., E.J. Carroll, and M. Benjamin|Effect of Coumaphos on Bulls|J. Am. Vet. Med. Assoc.145(5): 456-459|1964|
101193|T||Bojadziev,S.B., and K.G. Manolov|On the Mechanism of Some Organophosphorus Compounds Influence on the Functional State of the Rat Thyroid|Agressologie16:67-72|1975|
101194|T||Gaines,T.B., R. Kimbrough, and E.R.,Jr. Laws|Toxicology of Abate in Laboratory Animals|Arch. Environ. Health14(2): 283-288|1967|10.1080/00039896.1967.10664732
101195|T||Cox,D.D., M.T. Mullee, and A.D. Allen|Cattle Grub Control with Feed Additives (Coumaphos and Fenthion) and Pour-ons (Fenthion and Trichlorfon)|J. Econ. Entomol.60(2): 522-527|1967|10.1093/jee/60.2.522
101196|T||Cox,D.D., A.D. Allen, and E.M. Maurer|Control of Cattle Grubs with Organic Phosphorus Compounds Administered in Feed|J. Econ. Entomol.60(1): 105-109|1967|10.1093/jee/60.1.105
101197|T||Bliss,D., and A.C. Todd|Milk Production by Wisconsin Dairy Cattle After Deworming with Baymix|In: Vet.Med.Small Anim.Clin.68(9): 1034, 1036 - 1038|1973|
101199|A||Pinheiro,V.C.S., and W.P. Tadei|Evaluation of the Residual Effect of Temephos on Aedes aegypti (Diptera, Culicidae) Larvae in Artificial Containers in Manaus, Amazonas State, Brazil|Cad. Saud. Publ.18(6): 1529-1536|2002|10.1590/S0102-311X2002000600005
101200|AT||Bang,Y.H., N. Gratz, and C.P. Pant|Suppression of a Field Population of Aedes aegypti by Malathion Thermal Fogs and Abate Larvicide|Bull. W. H. O.46(4): 554-558|1972|
101201|A||Favier,C., N. Degallier, P.T.R. Vilarinhos, M.S. Laurentino de Carvalho, M.A.C. Yoshizawa, and M.B. Knox|Effects of Climate and Different Management Strategies on Aedes aegypti Breeding Sites:  A Longitudinal Survey in Brasilia (DF, Brazil)|Trop. Med. Int. Health11(7): 1104-1118|2006|10.1111/j.1365-3156.2006.01653.x
101202|T||Oehler,D.D., J.L. Eschle, J.A. Miller, H.V. Claborn, and M.C. Ivey|Residues in Milk Resulting from Ultra-low-Volume Sprays of Malathion, Methoxychlor, Coumaphos, Ronnel, or Gardona for Control of the Horn Fly|J. Econ. Entomol.62(6): 1481-1483|1969|10.1093/jee/62.6.1481
101203|T||Bowman,M.C., M. Beroza, C.H. Gordon, R.W. Miller, and N.O. Morgan|A Method of Analyzing the Milk and Feces of Cows for Coumaphos and Its Oxygen Analog After Feeding Coumaphos for Control of House Fly Larvae|J. Econ. Entomol.61(2): 358-362|1968|10.1093/jee/61.2.358
101204|T||Krogh,P.H., B. Griffiths, D. Demsar, M. Bohanec, M. Debeljak, M.N. Andersen, C. Sausse, A.N.E. Birch, S. Caul, M. Holms|Responses by Earthworms to Reduced Tillage in Herbicide Tolerant Maize and Bt Maize Cropping Systems|Pedobiologia (Multiple Languages)51(3): 219-227|2007|10.1016/j.pedobi.2007.04.003
101205|AT||Chen,H., W. Tang, C. Xu, X. Li, Y. Lin, and Q. Zhang|Transgenic Indica Rice Plants Harboring a Synthetic cry2A Gene of Bacillus thuringiensis Exhibit Enhanced Resistance Against Lepidopteran Rice Pests|Theor. Appl. Genet.111(7): 1330-1337|2005|10.1007/s00122-005-0062-8
101206|A||De Carvalho,R.F., R.H. Bromilow, and R. Greenwood|Uptake of Pesticides from Water by Curly Waterweed Lagarosiphon major and Lesser Duckweed Lemna minor|Pest Manag. Sci.63(8): 789-797|2007|10.1002/ps.1389
101207|A||Crespo,J.L., M.G. Guerrero, and F.J. Florencio|Mutational Analysis of Asp51 of Anabaena azollae Glutamine Synthetase.  D51E Mutation Confers Resistance to the Active Site Inhibitors L-Methionine-DL-Sulfoximine and Phosphinothricin|Eur. J. Biochem.266(3): 1202-1209|1999|10.1046/j.1432-1327.1999.00992.x
101208|T||Ahmad,I., J. Bissett, and D. Malloch|Effect of Phosphinothricin on Nitrogen Metabolism of Trichoderma Species and Its Implications for Their Control of Phytopathogenic Fungi|Pestic. Biochem. Physiol.53(1): 49-59|1995|10.1006/pest.1995.1054
101209|T||Chen,W.P., and Z.K. Punja|Transgenic Herbicide- and Disease-Tolerant Carrot (Daucus carota L.) Plants Obtained Through Agrobacterium-Mediated Transformation|Plant Cell Rep.20(10): 929-935|2002|10.1007/s00299-001-0419-7
101210|T||Doohan,D.J., J. Felix, J. Jasinski, C. Welty, and M.D. Kleinhenz|Insect Management and Herbicide Tolerance in Near-Isogenic Sister Lines of Transgenic and Non-Transgenic Sweet Corn|Crop Prot.21(5): 375-381|2002|10.1016/S0261-2194(01)00106-5
101211|A||Boisvenue,R.J., M.C. Brandt, R.B. Galloway, and J.C. Hendrix|In Vitro Activity of Various Anthelmintic Compounds Against Haemonchus contortus Larvae|Vet. Parasitol.13(4): 341-347|1983|10.1016/0304-4017(83)90050-X
101212|T||Tecles,F., S.M. Subiela, L.J. Bernal, and J.J. Ceron|Use of Whole Blood for Spectrophotometric Determination of Cholinesterase Activity in Dogs|Vet. J.160(3): 242-249|2000|10.1053/tvjl.2000.0499
101213|T||Enriquez-Obregon,G.A., D.L. Prieto-Samsonov, G.A. De la Riva, M. Perez, G. Selman-Housein, and R.I. Vazquez-Padron|Agrobacterium-Mediated Japonica Rice Transformation:  A Procedure Assisted by an Antinecrotic Treatment|Plant Cell Tissue Organ Cult.59(3): 159-168|1999|10.1023/A:1006307527449
101214|A||Hemingway,J., A. Callaghan, and D.C. Kurtak|Temephos Resistance in Simulium damnosum Theobald (Diptera:  Simuliidae):  A Comparative Study Between Larvae and Adults of the Forest and Savanna Strains of this Species Complex|Bull. Entomol. Res.79(4): 659-669|1989|10.1017/S0007485300018812
101215|T||Zeng,R.S., Z. Wen, G. Niu, M.A. Schuler, and M.R. Berenbaum|Allelochemical Induction of Cytochrome P450 Monooxygenases and Amelioration of Xenobiotic Toxicity in Helicoverpa zea|J. Chem. Ecol.33(3): 449-461|2007|10.1007/s10886-006-9238-1
101216|T||Post,R.J., and D. Kurtak|Identity of the OP-Insecticide Resistant Species in the Simulium sanctipauli Subcomplex|Ann. Soc. Belge Med. Trop.67(1): 71-73|1987|
101217|A||Kurtak,D., R. Meyer, M. Ocran, M. Ouedraogo, P. Renaud, R.O. Sawadogo, and B. Tele|Management of Insecticide Resistance in Control of the Simulium damnosum Complex by the Onchocerciasis Control Programme, West Africa:  Potential Use of Negative Correlation Between Organophosphate Resistance and Pyreth|Med. Vet. Entomol.1(2): 137-146|1987|10.1111/j.1365-2915.1987.tb00334.x
101219|T||Norton,C.C., and L.P. Joyner|Experimental Chemotherapy of Infection with Capillaria obsignata|J. Comp. Pathol.75(2): 137-145|1965|10.1016/0021-9975(65)90004-6
101220|T||Hemingway,J., A. Callaghan, and A.M. Amin|Mechanisms of Organophosphate and Carbamate Resistance in Culex quinquefasciatus from Saudi Arabia|Med. Vet. Entomol.4(3): 275-282|1990|10.1111/j.1365-2915.1990.tb00440.x
101221|T||Zhang,N., S. Linscombe, and J. Oard|Out-Crossing Frequency and Genetic Analysis of Hybrids Between Transgenic Glufosinate Herbicide-Resistant Rice and the Weed, Red Rice|Euphytica 130(1): 35-45|2003|10.1023/A:1022371104679
101222|T||Rumsey,T.S., R.W. Miller, and D.A. Dinius|Residue Content of Beef Feedlot Manure After Feeding Diethylstilbestrol, Chlortetracycline and Ronnel and the Use of Stirofos to Reduce Population of Fly Larvae in Feedlot Manure|Arch. Environ. Contam. Toxicol.6(2/3): 203-212|1977|10.1007/BF02097761
101223|A||Lakwo,T.L., R. Ndyomugyenyi, A.W. Onapa, and C. Twebaze|Transmission of Onchocerca volvulus and Prospects for the Elimination of Its Vector, the Blackfly Simulium neavei in the Mpamba-Nkusi Focus in Western Uganda|Med. Vet. Entomol.20(1): 93-101|2006|10.1111/j.1365-2915.2006.00603.x
101224|A||Mouchet,F., P. Landois, E. Sarremejean, G. Bernard, P. Puech, E. Pinelli, E. Flahaut, and L. Gauthier|Characterisation and In Vivo Ecotoxicity Evaluation of Double-Wall Carbon Nanotubes in Larvae of the Amphibian Xenopus laevis|Aquat. Toxicol.87:127-137|2008|10.1016/j.aquatox.2008.01.011
101225|T||Crofton,K.M., K.B. Paul, M.J. DeVito, and J.M. Hedge|Short-Term In Vivo Exposure to the Water Contaminant Triclosan:  Evidence for Disruption of Thyroxine|Environ. Toxicol. Pharmacol.24:194-197|2007|10.1016/j.etap.2007.04.008
101226|A||Chen,X., V.W.T. Li, R.M.K. Yu, and S.H. Cheng|Choriogenin mRNA as a Sensitive Molecular Biomarker for Estrogenic Chemicals in Developing Brackish Medaka (Oryzias melastigma)|Ecotoxicol. Environ. Saf.71(1): 200-208|2008|10.1016/j.ecoenv.2007.10.005
101227|A||Lutz,I., W. Kloas, T.A. Springer, L.R. Holden, J.C. Wolf, H.O. Krueger, and A.J. Hosmer|Development, Standardization and Refinement of Procedures for Evaluating Effects of Endocrine Active Compounds on Development and Sexual Differentiation of Xenopus laevis|Anal. Bioanal. Chem.390:2031-2048|2008|10.1007/s00216-008-1973-4
101228|A||Paull,G.C., K.J.W. Van Look, E.M. Santos, A.L. Filby, D.M. Gray, J.P. Nash, and C.R. Tyler|Variability in Measures of Reproductive Success in Laboratory-kept Colonies of Zebrafish and Implications for Studies Addressing Population-Level Effects of Environmental Chemicals|Aquat. Toxicol.87:115-126|2008|10.1016/j.aquatox.2008.01.008
101229|A||Zha,J., L. Sun, P.A. Spear, and Z. Wang|Comparison of Ethinylestradiol and Nonylphenol Effects on Reproduction of Chinese Rare Minnows (Gobiocypris rarus)|Ecotoxicol. Environ. Saf.71(2): 390-399|2008|10.1016/j.ecoenv.2007.11.017
101230|A||Janssen,P.A.H., J.G.D. Lambert, A.D. Vethaak, and H.J.T. Goos|Environmental Pollution Caused Elevated Concentrations of Oestradiol and Vitellogenin in the Female Flounder, Platichthys flesus (L.)|Aquat. Toxicol.39:195-214|1997|10.1016/S0166-445X(97)00036-2
101233|T||Forrester,N.W., R.V. Gunning, and G. Singh|Insecticidal Control and Economic Damage of Sugar-Cane Wireworm, Agrypnus variabilis (Candeze) in Maize|Crop Prot.3(2): 253-259|1984|10.1016/0261-2194(84)90059-0
101234|A||Bailey,D.L., G.C. LaBrecque, and T.L. Whitfield|Slow-Release and Emulsifiable Formulations of Dursban and Abate for Controlling Larvae of Culex pipiens quinquefasciatus Say|Mosq. News30(3): 465-467|1970|
101235|T||Oard,J.H., S.D. Linscombe, M.P. Braverman, F. Jodari, D.C. Blouin, M. Leech, A. Kohli, P. Vain, J.C. Cooley, and P. Chr|Development, Field Evaluation, and Agronomic Performance of Transgenic Herbicide Resistant Rice|Mol. Breed.2(4): 359-368|1996|10.1007/BF00437914
101236|T||Ward,J.M., E. Bernal, B. Buratto, D.G. Goodman, J.D. Strandberg, and R. Schueler|Histopathology of Neoplastic and Nonneoplastic Hepatic Lesions in Mice Fed Diets Containing Tetrachlorvinphos|J. Natl. Cancer Inst.63(1): 111-118|1979|
101237|T||Tubajika,K.M., and K.E.,Jr. Damann|Glufosinate-Ammonium Reduces Growth and Aflatoxin B1 Production by Aspergillus flavus|J. Food Prot.65(9): 1483-1487|2002|10.4315/0362-028X-65.9.1483
101238|T||Knapp,F.W.|The Effect of Free-Choice Coumaphos Salt Mixtures on Cattle and Cattle Parasites|J. Econ. Entomol.58(2): 197-199|1965|10.1093/jee/58.2.197
101239|T||Glenn,J.S., N.F. Baker, C.E. Franti, and J.D. Ver Steeg|Anthelmintic Treatment of Nonpastured Dairy Cows in California|J. Dairy Sci.65(10): 2006-2010|1982|10.3168/jds.S0022-0302(82)82451-X
101240|T||Leland,S.E.,Jr., R.K. Ridley, J.W. Dick, G.F. Slonka, and G.L. Zimmerman|Anthelmintic Activity of Trichlorfon, Coumaphos, and Naphthalophos Against the In Vitro Grown Parasitic Stages of Cooperia punctata|J. Parasitol.57(6): 1190-1197|1971|10.2307/3277965
101241|T||Brody,G., and T.E. Elward|Comparative Activity of 29 Known Anthelmintics Under Standarized Drug-Diet and Gavage Medication Regimens Against Four Helminth Species in Mice|J. Parasitol.57(5): 1068-1077|1971|10.2307/3277866
101242|T||Miller,R.W., and L.G. Pickens|Feeding of Coumaphos, Ronnel, and Rabon to Dairy Cows:  Larvicidal Activity Against House Flies and Effect on Insect Fauna and Biodegradation of Fecal Parts|J. Econ. Entomol.66(5): 1077-1079|1973|10.1093/jee/66.5.1077
101243|T||Pfadt,R.E.|Sheep Bot Fly Control Tests|J. Econ. Entomol.57(6): 928-931|1964|10.1093/jee/57.6.928
101244|T||Harbour,H.E.|Experience with Organo-Phosphorus Compounds as Anthelmintics|In: Proc. World Vet. Congr.1:751-756|1963|
101245|A||Daka,E.R., and S.J. Hawkins|Tolerance to Heavy Metals in Littorina saxatilis from a Metal Contaminated Estuary in the Isle of Man|J. Mar. Biol. Assoc. U.K.84(2): 393-400|2004|10.1017/S0025315404009336h
101248|A||Larsen,M.G., K.B. Hansen, P.G. Henriksen, and E. Baatrup|Male Zebrafish (Danio rerio) Courtship Behaviour Resists the Feminising Effects of 17alpha-Ethinyloestradiol - Morphological Sexual Characteristics Do Not|Aquat. Toxicol.87:234-244|2008|10.1016/j.aquatox.2008.02.003
101249|T||Castro-Escobar,A., J.J. Kells, and D. Penner|Evaluation of a Rapid Method to Detect Terbufos Residue Levels in Corn (Zea mays) Seedlings|Weed Technol.10(4): 842-846|1996|10.1017/S0890037X00040896
101250|T||Kapusta,G., and R.F. Krausz|Interaction of Terbufos and Nicosulfuron on Corn (Zea mays)|Weed Technol.6(4): 999-1003|1992|10.1017/S0890037X00036617
101251|T||Morton,C.A., R.G. Harvey, J.J. Kells, W.E. Lueschen, and V.A. Fritz|Effect of DPX-V9360 and Terbufos on Field and Sweet Corn (Zea mays) Under Three Environments|Weed Technol.5(1): 130-136|1991|10.1017/S0890037X0003339X
101252|T||Diehl,K.E., and E.W. Stoller|Effect of Simulated Rainfall, Insecticide Formulation, and Insecticide Application Method on the Interaction Between Nicosulfuron and Terbufos in Corn (Zea mays)|Weed Technol.9(1): 80-85|1995|10.1017/S0890037X00022995
101253|T||Morton,C.A., R.G. Harvey, J.J. Kells, D.A. Landis, W.E. Lueschen, and V.A. Fritz|In-Furrow Terbufos Reduces Field and Sweet Corn (Zea mays) Tolerance to Nicosulfuron|Weed Technol.7(4): 934-939|1993|10.1017/S0890037X00038033
101254|T||Simpson,D.M., K.E. Diehl, and E.W. Stoller|2,4-D Safening of Nicosulfuron and Terbufos Interaction in Corn (Zea mays)|Weed Technol.8(3): 547-552|1994|10.1017/S0890037X0003966X
101255|A||Schriks,M.|Novel In Vitro, Ex Vivo and In Vivo Assays Elucidating the Effects of Endocrine Disrupting Compounds (EDCs) on Thyroid Hormone Action|Ph.D.Thesis, Wageningen Univ.The Netherlands:159 p.|2006|
101256|T||Nelson,D.L., J.O. Mozier, R.G. White, and A.D. Allen|The Pharmacological Effect of Baymix (Coumaphos) on Poultry|Poult. Sci.47(3): 960-962|1968|10.3382/ps.0470960
101257|T||Holshouser,D.L., J.M. Chandler, and H.R. Smith|The Influence of Terbufos on the Response of Five Corn (Zea mays) Hybrids to CGA-136872|Weed Technol.5(1): 165-168|1991|10.1017/S0890037X00033455
101258|T||Osman,A.Z., S.M.A.D. Zayed, and N.I. Hazzaa|"Fate and Metabolism of Radiolabelled Insecticide ""Coumaphos"" in Egyptian Lactating Goats"|Isot. Radiat. Res.18(2): 139-146|1986|
101259|T||Rosenberg,D.W., and A. Kappas|Comparative Ability of Exogenously Administered Metals to Alter Tissue Levels and Urinary Output of Copper and Zinc|Pharmacology38(3): 159-166|1989|10.1159/000138533
101260|T||Krones,C.J., B. Klosterhalfen, V. Fackeldey, K. Junge, R. Rosch, R. Schwab, M. Stumpf, U. Klinge, and V. Schumpelick|Deleterious Effect of Zinc in a Pig Model of Acute Endotoxemia|J. Investig. Surg.17(5): 249-256|2004|10.1080/08941930490502817
101261|T||Takeda,A., A. Minami, Y. Seki, and N. Oku|Differential Effects of Zinc on Glutamatergic and GABAergic Neurotransmitter Systems in the Hippocampus|J. Neurosci. Res.75(2): 225-229|2004|10.1002/jnr.10846
101262|T||Broom,L.J., H.M. Miller, K.G. Kerr, and J.S. Knapp|Effects of Zinc Oxide and Enterococcus faecium SF68 Dietary Supplementation on the Performance, Intestinal Microbiota and Immune Status of Weaned Piglets|Res. Vet. Sci.80(1): 45-54|2006|10.1016/j.rvsc.2005.04.004
101263|T||Schott-Ohly,P., A. Lgssiar, H.J. Partke, M. Hassan, N. Friesen, and H. Gleichmann|Prevention of Spontaneous and Experimentally Induced Diabetes in Mice with Zinc Sulfate-Enriched Drinking Water is Associated with Activation and Reduction of NF-kappa B and AP-1 in Islets, Respectively|Exp. Biol. Med.229(11): 1177-1185|2004|10.1177/153537020422901113
101264|T||Mandal,B., G.C. Hazra, and L.N. Mandal|Soil Management Influences on Zinc Desorption for Rice and Maize Nutrition|Soil Sci. Soc. Am. J.64(5): 1699-1705|2000|10.2136/sssaj2000.6451699x
101265|T||Goering,P.L., and B.A. Fowler|Metal Constitution of Metallothionein Influences Inhibition of delta Aminolaevulinic Acid Dehydratase (Porphobilinogen Synthase) by Lead|Biochem. J. (Lond.)245(2): 339-345|1987|10.1042/bj2450339
101266|T||Chen,C.H., Y.L. Huang, and C.M. Yen|The Influence of Zinc in Mice on Infection with Angiostrongylus cantonensis|Parasitol. Res.94(1): 74-81|2004|10.1007/s00436-004-1176-7
101267|T||Meldrum,J.B., H.R. Troutt, E.T. Kornegay, W.R. Chickering, and M.F. Ehrich|Influence of Restricted Floor Space, Selenium and Zinc on Production Performance and Glutathione Peroxidase Activity in Weanling Pigs|Animal Science Research Report No.3, Virginia Polytechnic Institute, State University Virginia, Agricultural Experiment Station, Blacksburg, VA:45-53|1984|
101268|T||Lai,Y.L., and M. Yamaguchi|Effects of Copper on Bone Component in the Femoral Tissues of Rats:  Anabolic Effect of Zinc is Weakened by Copper|Biol. Pharm. Bull.28(12): 2296-2301|2005|10.1248/bpb.28.2296
101270|T||Yanagisawa,H., M. Sato, M. Nodera, and O. Wada|Excessive Zinc Intake Elevates Systemic Blood Pressure Levels in Normotensive Rats - Potential Role of Superoxide-Induced Oxidative Stress|J. Hypertens.22(3): 543-550|2004|10.1097/00004872-200403000-00017
101271|T||Towers,N.R.|Effect of Zinc on the Toxicity of the Mycotoxin sporidesmin to the Rat|Life Sci.20(3): 413-418|1977|10.1016/0024-3205(77)90381-2
101272|T||Van Barneveld,A.A., C.J.A. Van den Hamer, and J.P.W. Houtman|Drinking Water Hardness, Trace Elements and Cardiovascular Diseases:  Influence of Ca and Mg on Metabolism of Cd, Co, Cu, Zn and Se in Mice|Trace Subst. Environ. Health16:196-204|1983|
101273|T||Meldrum,J.B., H.F. Troutt, E.T. Kornegay, M.F. Ehrich, and W.R. Chickering|Influence of Selenium, Zinc and Restricted Floor Space on Glutathione Peroxidase and Creatine Phosphokinase Activities and on Production Performance in Weanling Pigs|In: M.E.Tumbleson (Ed.), Swine in Biomedical Research. New York2:1069-1076|1986|
101275|T||Arriazu,R., J.M. Pozuelo, R. Martin, R. Rodriguez, and L. Santamaria|Quantitative and Immunohistochemical Evaluation of PCNA, Androgen Receptors, Apoptosis, and Glutathione-S-Transferase P1 on Preneoplastic Changes Induced by Cadmium and Zinc Chloride in the Rat Ventral Prostate|Prostate63(4): 347-357|2005|10.1002/pros.20192
101276|T||Wigle,R.L.|The Reaction of Copper and Other Projectile Metals in Body Tissues|J. Trauma33(1): 14-18|1992|10.1097/00005373-199207000-00004
101278|T||Bingham,D., J.D. Harrison, and A.W. Phipps|Biokinetics and Dosimetry of Chromium, Cobalt, Hydrogen, Iron and Zinc Radionuclides in Male Reproductive Tissues of the Rat|Int. J. Radiat. Biol.72(2): 235-248|1997|10.1080/095530097143464
101279|A||Khosravi,M., M.T. Ganji, and R. Rakhshaee|Toxic Effect of Pb, Cd, Ni and Zn on Azolla filiculoides in the International Anzali Wetland|Int. J. Environ. Sci. Technol. (Tehran)2(1): 35-40|2005|10.1007/BF03325855
101280|T||Graham,T.W., C.A. Holmberg, C.L. Keen, M.C. Thurmond, and M.S. Clegg|A Pathologic and Toxicologic Evaluation of Veal Calves Fed Large Amounts of Zinc|Vet. Pathol.25:484-491|1988|10.1177/030098588802500612
101281|T||Stowe,H.D.|Biliary Excretion of Cadmium by Rats:  Effects of Zinc, Cadmium, and Selenium Pretreatments|J. Toxicol. Environ. Health2(1): 45-53|1976|10.1080/15287397609529416
101282|T||Welch,R.M., and W.A. House|Effect of Dietary Zinc and Cadmium on Selenium and Cadmium Availability to Rats Fed Lettuce Leaves with Varying Selenium Levels|In: Proceedings of the International Symposium on Trace Elements in Man and Animals:568-571|1982|
101283|T||Balasubramanian,S., V. Elangovan, and S. Govindasamy|Studies on Trace Elements in Progressive Pathology of DMBA-Induced Hamster Buccal Pouch Carcinogenesis|J. Clin. Biochem. Nutr20(1): 49-53|1996|10.3164/jcbn.20.49
101284|T||Schnell,R.C., M.H. Davies, D.A. McMillan, and B.A. Merrick|Amelioration of Bromobenzene Toxicity by Selenium and Zinc|Trace Subst. Environ. Health18:107-123|1984|
101285|T||Lentz,G.L., R.M. Hayes, and A.Y. Chambers|Interactions of Insecticide-Nematicides, Metribuzin, and Environment on Soybean Injury and Yield|J. Econ. Entomol.78(6): 1217-1221|1985|10.1093/jee/78.6.1217
101286|T||Chanda,S.M.|Comparative Maternal and Developmental Neurotoxicity Following Gestational Exposure to Chlorpyrifos in Rats|Ph.D.Thesis, Northeast Louisiana University, Monroe, LA:118 p.|1995|
101287|T||Zheng,Q., K. Olivier, Y.K. Won, and C.N. Pope|Comparative Cholinergic Neurotoxicity of Oral Chlorpyrifos Exposures in Preweanling and Adult Rats|Toxicol. Sci.55(1): 124-132|2000|10.1093/toxsci/55.1.124
101288|T||Yano,B.L., J.T. Young, and J.L. Mattsson|Lack of Carcinogenicity of Chlorpyrifos Insecticide in a High-Dose, 2-Year Dietary Toxicity Study in Fischer 344 Rats|Toxicol. Sci.53:135-144|2000|10.1093/toxsci/53.1.135
101289|A||Widder,P.D., and J.R. Bidwell|Cholinesterase Activity and Behavior in Chlorpyrifos-Exposed Rana sphenocephala Tadpoles|Environ. Toxicol. Chem.25(9): 2446-2454|2006|10.1897/05-522R.1
101290|T||Whitney,K.D., F.J. Seidler, and T.A. Slotkin|Developmental Neurotoxicity of Chlorpyrifos:  Cellular Mechanisms|Toxicol. Appl. Pharmacol.134(1): 53-62|1995|10.1006/taap.1995.1168
101291|A||Tilak,K.S., K. Veeraiah, and D.K. Rao|Toxicity and Bioaccumulation of Chlorpyrifos in Indian Carp Catla catla (Hamilton), Labeo rohita (Hamilton), and Cirrhinus mrigala (Hamilton)|Bull. Environ. Contam. Toxicol.73(5): 933-941|2004|10.1007/s00128-004-0516-8
101292|T||Song,X., F.J. Seidler, J.L. Saleh, J. Zhang, S. Padilla, and T.A. Slotkin|Cellular Mechanisms for Developmental Toxicity of Chlorpyrifos:  Targeting the Adenylyl Cyclase Signaling Cascade|Toxicol. Appl. Pharmacol.145(1): 158-174|1997|10.1006/taap.1997.8171
101293|A||Sherrard,R.M., C.L. Murray-Gulde, J.H.,Jr. Rodgers, and Y.T. Shah|Comparative Toxicity of Chlorothalonil and Chlorpyrifos:  Ceriodaphnia dubia and Pimephales promelas|Environ. Toxicol.17(6): 503-512|2002|10.1002/tox.10091
101294|T||Rowsey,P.J., and C.J. Gordon|Tumor Necrosis Factor is Involved in Chlorpyrifos-Induced Changes in Core Temperature in the Female Rat|Toxicol. Lett.109(1/2): 51-59|1999|10.1016/S0378-4274(99)00122-8
101296|T||Patidar,B.K.|Phytotoxicity of Profenofos and Roket on Cabbage Plants|Acta Ecol. (Kota)26(1): 41-45|2004|
101297|T||Bergman,M.K., C.R. Ellis, and L.W. Bledsoe|Influence of Wind Speed and Placement of Granules on Efficacy of Soil Insecticides Against Corn Rootworm (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.84(1): 256-259|1991|10.1093/jee/84.1.256
101298|T||Noblet,G.P.|Tetrachlorvinphos as an Ineffective Feed Additive in Control of Gastrointestinal Nematodes of Beef Cattle|Am. J. Vet. Res.39(6): 1033-1036|1978|
101299|T||Jayachandran,S.|Influence of Insecticides on IAA Metabolism in Paddy Soil|Curr. Sci. (Bangalore)48(12): 538-540|1979|
101300|T||Getzin,L.W.|Chemical Control of the Springtail Onychiurus pseudarmatus (Collembola:  Onychiuridae)|J. Econ. Entomol.78(6): 1337-1340|1985|10.1093/jee/78.6.1337
101301|T||Radeleff,R.D.|Assessment of the Safety of Drugs as Used in Animal Feeds|In: Publ.No.1679, Natl.Acad.of Sci.Natl.Res.Counc.:193-195|1969|
101302|T||Achik,J., M. Schiavon, and G. Houpert|Persistence of Biological Activity of Four Insecticides in Two Soil Types Under Field and Laboratory Conditions|J. Econ. Entomol.82(6): 1572-1575|1989|10.1093/jee/82.6.1572
101303|T||Lockwood,L.M., S.K. Majumder, and D.R. Lineback|Degradation of Organophosphate Pesticides in Cereal Grains During Milling and Cooking in India|Cereal Sci. Today19(8): 330-333|1974|
101305|T||Whanger,P.D., J.W. Ridlington, and C.L. Holcomb|Interactions of Zinc and Selenium on the Binding of Cadmium to Rat Tissue Proteins|Ann. N. Y. Acad. Sci.355(1): 333-346|1980|10.1111/j.1749-6632.1980.tb21351.x
101306|T||Boran,C., and K.U. Ozkan|The Effect of Zinc Therapy on Damaged Testis in Pre-Pubertal Rats|Pediatr. Surg. Int.20(6): 444-448|2004|10.1007/s00383-004-1173-z
101308|T||Suzuki,C.A.M., and M.G. Cherian|Renal Toxicity of Cadmium-Metallothionein and Enzymuria in Rats|J. Pharmacol. Exp. Ther.240(1): 314-319|1987|
101309|T||Borowska,J., B. Sulima, M. Niklinska, and E. Pyza|Heavy Metal Accumulation and Its Effects on Development, Survival and Immuno-Competent Cells of the Housefly Musca domestica from Closed Laboratory Populations as Model Organism|Fresenius Environ. Bull.13(12a): 1402-1409|2004|
101310|T||Basinger,M.A., and M.M. Jones|Chelate Antidotal Efficacy in Acute Zinc Intoxication|Res. Commun. Chem. Pathol. Pharmacol.33(2): 263-272|1981|
101311|A||Aravind,P., and M.N.V. Prasad|Zinc Mediated Protection to the Conformation of Carbonic Anhydrase in Cadmium Exposed Ceratophyllum demersum L.|Plant Sci.169(1): 245-254|2005|10.1016/j.plantsci.2005.03.028
101315|T||Omura,S., M. Murata, H. Hanaki, K. Hinotozawa, R. Oiwa, and H. Tanaka|Phosalacine, a New Herbicidal Antibiotic Containing Phosphinothricin.  Fermentation, Isolation, Biological Activity and Mechanism of Action|J. Antibiot.37(8): 829-835|1984|10.7164/antibiotics.37.829
101316|T||Moser,V.C., S.M. Chanda, S.R. Mortensen, and S. Padilla|Age- and Gender-Related Differences in Sensitivity to Chlorpyrifos in the Rat Reflect Developmental Profiles of Esterase Activities|Toxicol. Sci.46(2): 211-222|1998|10.1093/toxsci/46.2.211
101317|T||McKellar,R.L., H.J. Dishburger, J.R. Rice, L.F. Craig, and J. Pennington|Residues of Chlorpyrifos, Its Oxygen Analogue, and 3,5,6-Trichloro-2-Pyridinol in Milk and Cream from Cows Fed Chlorpyrifos|J. Agric. Food Chem.24(2): 283-286|1976|10.1021/jf60204a047
101318|T||Hunter,D.L., T.L. Lassiter, and S. Padilla|Gestational Exposure to Chlorpyrifos:  Comparative Distribution of Trichloropyridinol in the Fetus and Dam|Toxicol. Appl. Pharmacol.158(1): 16-23|1999|10.1006/taap.1999.8689
101319|T||Dishburger,H.J., R.L. McKellar, J.Y. Pennington, and J.R. Rice|Determination of Residues of Chlorpyrifos, Its Oxygen Analogue, and 3,5,6-Trichloro-2-Pyridinol in Tissues of Cattle Fed Chlorpyrifos|J. Agric. Food Chem.25(6): 1325-1329|1977|10.1021/jf60214a003
101320|T||Cohn,J., and R.C. MacPhail|Chlorpyrifos Produces Selective Learning Deficits in Rats Working Under a Schedule of Repeated Acquisition and Performance|J. Pharmacol. Exp. Ther.283(1): 312-320|1997|
101321|T||Saravanakumar,D., K. Muthumeena, N. Lavanya, S. Suresh, L. Rajendran, T. Raguchander, and R. Samiyappan|Pseudomonas-Induced Defence Molecules in Rice Plants Against Leaffolder (Cnaphalocrocis medinalis) Pest|Pest Manag. Sci.63(7): 714-721|2007|10.1002/ps.1381
101322|T||Mutze,G., and R. Sinclair|Efficacy of Zinc Phosphide, Strychnine and Chlorpyrifos as Rodenticides for the Control of House Mice in South Australian Cereal Crops|Wildl. Res.31(3): 249-257|2004|10.1071/WR02027
101323|A||Munkegaard,M., M. Abbaspoor, and N. Cedergreen|Organophosphorous Insecticides as Herbicide Synergists on the Green Algae Pseudokirchneriella subcapitata and the Aquatic Plant Lemna minor|Ecotoxicology17(1): 29-35|2008|10.1007/s10646-007-0173-x
101326|A||Anderson,B.S., S. Lowe, B.M. Phillips, J.W. Hunt, J. Vorhees, S. Clark, and R.S. Tjeerdema|Relative Sensitivities of Toxicity Test Protocols with the Amphipods Eohaustorius estuarius and Ampelisca abdita|Ecotoxicol. Environ. Saf.69(1): 24-31|2008|10.1016/j.ecoenv.2007.05.005
101327|T||Mertin,D., I. Tocka, and E. Oravcova|Effect of Zn, Se on Some Morphological Fur Properties in Silver Foxes in Period of Fur Maturity|Scientifur15(4): 287-293|1991|
101328|T||Padilla,S., S. Chiappa, C. Koenigsberger, V. Moser, and S. Brimijoin|Repeated Dosing with Chlorpyrifos Increases Acetylcholinesterase Immunoreactivity in Rat Brain|In: D.M.Quinn (Ed.), Proc.Int.Meet.Cholinesterase, Enzymes Cholinesterase Farm., 5th Meet., 1994, Plenum Plenum, New York, NY:337-343|1995|
101329|T||Hooser,S.B., V.R. Beasley, J.P. Sundberg, and K. Harlin|Toxicologic Evaluation of Chlorpyrifos in Cats|Am. J. Vet. Res.49(8): 1371-1375|1988|
101330|T||Chakraborti,T.K., J.D. Farrar, and C.N. Pope|Comparative Neurochemical and Neurobehavioral Effects of Repeated Chlorpyrifos Exposures in Young and Adult Rats|Pharmacol. Biochem. Behav.46(1): 219-224|1993|10.1016/0091-3057(93)90344-S
101331|T||Amer,S.M., and M.A. Fahmy|Cytogenetic Effects of Pesticides:  I.  Induction of Micronuclei in Mouse Bone Marrow by the Insecticide Dursban|Mutat. Res.101(3): 247-255|1982|10.1016/0165-1218(82)90156-2
101332|T||Mohora,M., L. Boghianu, C. Muscurel, C. Duta, and D. Georgescu|Influence of Selenium on Redox State in Rat Liver Treated with Chlorpyrifos|Rom. J. Biophys.11(1/2): 25-32|2001|
101333|T||Chanda,S.M., P. Harp, J. Liu, and C.N. Pope|Comparative Developmental and Maternal Neurotoxicity Following Acute Gestational Exposure to Chlorpyrifos in Rats|J. Toxicol. Environ. Health44(2): 189-202|1995|10.1080/15287399509531954
101335|T||Burkholder,W.E., C.P. Schwalbe, and G.M. Boush|Antimicrobial Food Additives and Their Effects on Trogoderma variabile and Attagenus megatoma (Coleoptera, Dermestidae)|J. Stored Prod. Res.9(3): 205-211|1973|10.1016/0022-474X(73)90029-5
101336|T||De Sousa,S.M.G., C.M. Bramante, and E.M. Taga|Biocompatibility of EDTA, EGTA and Citric Acid|Braz. Dent. J.16(1): 3-8|2005|10.1590/S0103-64402005000100001
101337|A||Penna,A., M. Magnani, I. Fenoglio, B. Fubini, C. Cerrano, M. Giovine, and G. Bavestrello|Marine Diatom Growth on Different Forms of Particulate Silica:  Evidence of Cell/Particle Interaction|Aquat. Microb. Ecol.32(3): 299-306|2003|10.3354/ame032299
101339|T||Markovska,T., S. Koshlukova, A. Momchilova, R. Pankov, and E. Yanev|Influence of Carbicron (O-((2-Butenoic Acid)-N,N-Dimethylamide-3-yl) O,O-Dimethylphosphate) on Some Biochemical and Biophysical Parameters of Rat Liver Membranes|Int. J. Biochem.25(2): 253-257|1993|10.1016/0020-711X(93)90014-6
101340|T||Singh,O.P., and R.R. Rawat|Toxicity of Some Insecticides Against Pupae and Adults of Dicladispa armigera (Oliv.) (Coleoptera:  Chrysomelidae) on Rice|Indian J. Agric. Sci.50(3): 271-272|1980|
101341|T||Maxwell,I.C., and P.M. Le Quesne|Neuromuscular Effects of Chronic Administration of Two Organophosphorus Insecticides to Rats|Neurotoxicology3(1): 1-10|1982|
101342|T||Muto,M.A., F.,Jr. Lobelle, J.H. Bidanset, and J.N.D. Wurpel|Embryotoxicity and Neurotoxicity in Rats Associated with Prenatal Exposure to Dursban|Vet. Hum. Toxicol.34(6): 498-501|1992|
101343|T||Blakley,B.R., M.J. Yole, P. Brousseau, H. Boermans, and M. Fournier|Effect of Chlorpyrifos on Immune Function in Rats|Vet. Hum. Toxicol.41(3): 140-144|1999|
101344|T||Vodela,J.K., and R.R. Dalvi|Comparative Toxicological Studies of Chlorpyrifos in Rats and Chickens|Vet. Hum. Toxicol.37(1): 1-3|1995|
101345|A||Tachimoto,M., M. Kobayashi, and E. Takahashi|Bioassay of Decomposed Products of Rapeseed Cake Using Lemna paucicostata 6746|Soil Sci. Plant Nutr.32(2): 223-231|1986|10.1080/00380768.1986.10557499
101346|T||Ten Lohuis,M., H. Galliano, I. Heidmann, and P. Meyer|Treatment with Propionic and Butyric Acid Enhances Expression Variegation and Promoter Methylation in Plant Transgenes|Biol. Chem. Hoppe-Seyler376(5): 311-320|1995|
101347|T||Singh,P.P., P.S. Bedi, and D. Singh|Use of Organic Acids for Protecting Moist Wheat Grains from Microbial Colonization During Storage|J. Stored Prod. Res.23(3): 169-172|1987|10.1016/0022-474X(87)90047-6
101348|T||Widdowson,P.S., A. Gyte, M.G. Simpson, M. Farnworth, D. Dunn, R.B. Moore, I. Wyatt, and E.A. Lock|Possible Role of Nitric Oxide in the Development of L-2-Chloropropionic Acid-Induced Cerebellar Granule Cell Necrosis|Br. J. Pharmacol.117(8): 1761-1767|1996|10.1111/j.1476-5381.1996.tb15351.x
101349|T||Iqbal,Z.M., and R.E. Menzer|Metabolism of O-Ethyl S,S-Dipropyl Phosphorodithioate in Rats and Liver Microsomal Systems|Biochem. Pharmacol.21:1569-1584|1972|10.1016/0006-2952(72)90307-3
101350|T||Bulman,R.A., and R.J. Griffin|Citric Acid Derivatives Fail to Enhance Plutonium Clearance from the Hamster|Health Phys.40(1): 104-105|1981|
101351|T||Tiburcio,A.F., R. Ingersoll, and A.W. Galston|Modified Alkaloid Pattern in Developing Tobacco Callus|Plant Sci.38:207-212|1985|10.1016/0168-9452(85)90040-8
101352|T||Martins,T., J. Pauluhn, and L. Machemer|Analysis of Alternative Methods for Determining Ocular Irritation|Food Chem. Toxicol.30(12): 1061-1067|1992|10.1016/0278-6915(92)90118-5
101353|T||Rajkovic,A., M. Uyttendaele, and J. Debevere|Computer Aided Boar Semen Motility Analysis for Cereulide Detection in Different Food Matrices|Int. J. Food Microbiol.114(1): 92-99|2007|10.1016/j.ijfoodmicro.2006.09.031
101354|T||Duman,J.G.|The Inhibition of Ice Nucleators by Insect Antifreeze Proteins is Enhanced by Glycerol and Citrate|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.172(2): 163-168|2002|10.1007/s00360-001-0239-7
101355|T||Emerick,R.J.|Animal Age and Duration of Exposure to a Urolithic Diet as Factors Influencing Silica urolithiasis Incidence in an Animal Model|Nutr. Rep. Int.34(5): 907-914|1986|
101356|T||Schmidt,R.E., X. Zhang, and D.R. Chalmers|Response of Photosynthesis and Superoxide Dismutase to Silica Applied to Creeping Bentgrass Grown Under Two Fertility Levels|J. Plant Nutr.22(11): 1763-1773|1999|10.1080/01904169909365752
101357|A||Sandmann,G., M. Kuhn, and P. Boger|Carotenoids in Photosynthesis:  Protection of D1 Degradation in the Light|Photosynth. Res. (Dordr., Online)35(2): 185-190|1993|10.1007/BF00014749
101358|A||Grunewald,K., C. Hagen, and W. Braune|Secondary Carotenoid Accumulation in Flagellates of the Green Alga Haematococcus lacustris|Eur. J. Phycol.32(4): 387-392|1997|10.1080/09670269710001737329
101359|A||Cohen,Z., and Y.M. Heimer|Linoleic Acid Desaturase Inhibitors as Tools for Selection of GLA Over-Producing Cell Lines|In: P.J.Quinn and J.L.Harwood (Eds.), Plant Lipid Biochemistry, Structure, and Utilization, Portland Press, London:414-417|1990|
101360|A||Dimier,C., F. Corato, G. Saviello, and C. Brunet|Photophysiological Properties of the Marine Picoeukaryote Picochlorum RCC 237 (Trebouxiophyceae, Chlorophyta)|J. Phycol.43(2): 275-283|2007|10.1111/j.1529-8817.2007.00327.x
101361|T||Watanabe,T., and J.E. Casida|Response of Reticulitermes flavipes to Fractions from Fungus-Infected Wood and Synthetic Chemicals|J. Econ. Entomol.56(3): 300-307|1963|10.1093/jee/56.3.300
101362|T||Meiniel,R.|Neuromuscular Blocking Agents and Axial Teratogenesis in the Avian Embryo.  Can Axial Morphogenetic Disorders be Explained by Pharmacological Action upon Muscle Tissue?|Teratology23(2): 259-271|1981|10.1002/tera.1420230211
101363|T||Elgar,K.E., and I.A. MacDonald|Analysis of Crops for Residues of 'Bidrin' and Its Metabolites|J. Sci. Food Agric.17(11): 500-505|1966|10.1002/jsfa.2740171105
101364|T||Garrison,J.C., and C.R. Wyttenbach|Notochordal Development as Influenced by the Insecticide Dicrotophos (Bidrin)|J. Exp. Zool.234(2): 243-250|1985|10.1002/jez.1402340210
101365|T||Natoff,I.L.|Influence of the Route of Administration on the Toxicity of Some Cholinesterase Inhibitors|J. Pharm. Pharmacol.19(9): 612-616|1967|10.1111/j.2042-7158.1967.tb09598.x
101366|T||Chen,P.R.S., and W.C. Dauterman|Studies on the Toxicity of Dimethoate Analogs and Their Hydrolysis by Sheep Liver Amidase|Pestic. Biochem. Physiol.1(3-4): 340-348|1971|10.1016/0048-3575(71)90165-9
101368|T||Clinch,P.G., and J.G.M. Ross|Laboratory Assessment of the Speed of Action on Honey Bees of Orally Dosed Insecticides|N. Z. J. Agric. Res.13(3): 717-725|1970|10.1080/00288233.1970.10421619
101369|T||Clinch,P.G., and T. Palmer-Jones|Effect on Honey Bees of Dicrotophos Applied as a Pre-Blossom Spray to Raspberries (Rubus idaeus L.)|N. Z. J. Agric. Res.14(4): 927-930|1971|10.1080/00288233.1971.10421685
101370|T||Long,G.G., A.B. Scheidt, R.J. Everson, and F.W. Oehme|Age Related Susceptibility of Newborn Pigs to the Cutaneous Application of Chlorpyrifos|Vet. Hum. Toxicol.28(4): 297-299|1986|
101371|T||Summers,B.L., A.M. Rofe, and P. Coyle|Prenatal Zinc Treatment at the Time of Acute Ethanol Exposure Limits Spatial Memory Impairments in Mouse Offspring|Pediatr. Res.59(1): 66-71|2006|10.1203/01.pdr.0000190573.23893.13
101372|T||Jensen,L.S.|Precipitation of a Selenium Deficiency by High Dietary Levels of Copper and Zinc|Proc. Soc. Exp. Biol. Med.149(1): 113-116|1975|10.3181/00379727-149-38754
101373|A||Barbieri,E.|Use of Oxygen Consumption and Ammonium Excretion to Evaluate the Sublethal Toxicity of Cadmium and Zinc on Litopenaeus schmitti (Burkenroad, 1936, Crustacea)|Water Environ. Res.79(6): 641-646|2007|10.2175/106143006X136775
101374|T||Krones,C.J., B. Klosterhalfen, N. Butz, F. Hoelzl, K. Junge, M. Stumpf, C. Peiper, U. Klinge, and V. Schumpelick|Effect of Zinc Pretreatment on Pulmonary Endothelial Cells In Vitro and Pulmonary Function in a Porcine Model of Endotoxemia|J. Surg. Res.123(2): 251-256|2005|10.1016/j.jss.2004.08.024
101375|T||Roberts,K.R., W.J. Miller, P.E. Stake, R.P. Gentry, and M.W. Neathery|High Dietary Cadmium and Zinc Absorption and Metabolism in Calves Fed for Comparable Nitrogen Balances|Proc. Soc. Exp. Biol. Med.144:906-908|1973|10.3181/00379727-144-37708
101376|T||Sato,F., T. Watanabe, E. Hoshi, and A. Endo|Teratogenic Effect of Maternal Zinc Deficiency and Its Co-Teratogenic Effect with Cadmium|Teratology31(1): 13-18|1985|10.1002/tera.1420310103
101377|A||Nhan,D.D., F.P. Carvalho, and B.Q. Nam|Fate of 14C-Chlorpyrifos in the Tropical Estuarine Environment|Environ. Technol.23(11): 1229-1234|2002|10.1080/09593332308618325
101378|T||Fakhr,I.M.I., M. El-Dardery, I.Y. Mostafa, and S.M.A.D. Zayed|Short Term Toxicity Studies of Dursban and Gardona in Mice|J. Egypt. Med. Assoc.65(1-4): 71-83|1982|
101379|T||Gutenmann,W.H., L.E.,Jr. St.John, and D.J. Lisk|Metabolic Studies with O,O-Diethyl O-(3,5,6-Trichloro-2-Pyridyl) Phosphorothioate (Dursban) Insecticide in a Lactating Cow|J. Agric. Food Chem.16(1): 45-47|1968|10.1021/jf60155a023
101380|A||Putnam,R.A., J.O. Nelson, and J.M. Clark|The Persistence and Degradation of Chlorothalonil and Chlorpyrifos in a Cranberry Bog|J. Agric. Food Chem.51(1): 170-176|2003|10.1021/jf020744r
101381|T||Bengston,M., M. Connell, R.A.H. Davies, J.M. Desmarchelier, W.B. Elder, R.J. Hart, M.P. Phillips, E.G. Ridley, B.E. Rip|Chlorpyrifos-Methyl plus Bioresmethrin; Methacrifos; Pirimiphos-Methyl plus Bioresmethrin; and Synergised Bioresmethrin as Grain Protectants for Wheat|Pestic. Sci.11(1): 61-76|1980|10.1002/ps.2780110111
101382|T||Dishburger,H.J., J.R. Rice, W.S. McGregor, and J. Pennington|Residues of Dursban Insecticide in Tissues from Turkeys Confined on Soil Treated for Chigger Control|J. Econ. Entomol.62(1): 181-183|1969|10.1093/jee/62.1.181
101383|T||Struble,D.L., and S. McDonald|Residue Analysis of Chlorpyrifos and Its Oxygen Analogue in Field-Treated Wheat Plants|J. Econ. Entomol.66(3): 769-772|1973|10.1093/jee/66.3.769
101384|T||Ivey,M.C.|Chlorpyrifos and 3,5,6-Trichloro-2-Pyridinol: Residues in the Body Tissues of Cattle Wearing Chlorpyrifos-Impregnated Plastic Ear Tags|J. Econ. Entomol.72(6): 909-911|1979|10.1093/jee/72.6.909
101385|T||Ivey,M.C., and J.S. Palmer|Chlorpyrifos and 3,5,6-Trichloro-2-Pyridinol:  Residues in Body Tissues of Swine Treated with Chlorpyrifos for Hog Louse and Itch Mite Control|J. Econ. Entomol.72(6): 837-838|1979|10.1093/jee/72.6.837
101386|T||Upshall,D.G., J.C. Roger, and J.E. Casida|Biochemical Studies on the Teratogenic Action on Bidrin and Other Neuroactive Agents in Developing Hen Eggs|Biochem. Pharmacol.17:1529-1542|1968|10.1016/0006-2952(68)90212-8
101387|T||Graves,J.B., and O. Mackensen|Topical Application and Insecticide Resistance Studies on the Honey Bee|J. Econ. Entomol.58(5): 990-993|1965|10.1093/jee/58.5.990
101388|T||Alam,S., M.N. Amin, and M.A. Islam|Cytological Effect of Pesticides.  II.  Cyto-Morphological Changes in Barley Induced by Carbicron and Vapona|Bangladesh J. Agric. Sci.11(2): 135-145|1984|
101389|T||Singh,O.P., and S.R. Yadav|Effect of Pesticides on the Wilt of Sugarcane|Indian Sugar26(9): 615-619|1976|
101390|T||Das,D.K.|Dynamics of Nutrients Transformation and Yield of Rice as Affected by the Soil Application of Insecticides in Flooded Rice Ecosystem|Crop Res. (Hisar)13(2): 307-319|1997|
101391|T||Hertl,P.T., and R.L. Brandenburg|Evaluation of Beauveria bassiana Spore Applications for Control of Mole Cricket Nymphs in Turf, 1997|Arthropod Manag. Tests23:323-|1998|
101392|T||Reaven,G.M., P.D. Reaven, and E.P. Reaven|Hypercalcemia in Acute Uremia and Following Citric Acid Administration:  Differential Effect on Parathyroid Gland Microtubule Content|Metab. Clin. Exp.25(2): 203-209|1976|10.1016/0026-0495(76)90050-0
101393|T||Wright,E., and R.E. Hughes|The Influence of a Dietary Citric Acid Supplement on the Reproduction and Survival Time of Mice and Rats|Nutr. Rep. Int.13(6): 563-566|1976|
101394|T||Patel,A., and H. Koenig|Some Neurochemical Aspects of Fluorocitrate Intoxication|J. Neurochem.18(4): 621-628|1971|10.1111/j.1471-4159.1971.tb11992.x
101395|A||Horvat,T., M. Kalafatic, N. Kopjar, and G. Kovacevic|Toxicity Testing of Herbicide Norflurazon on an Aquatic Bioindicator Species - the Planarian Polycelis felina (Daly.)|Aquat. Toxicol.73(4): 342-352|2005|10.1016/j.aquatox.2005.03.023
101396|A||Ma,J., F. Lin, S. Wang, and L. Xu|Acute Toxicity Assessment of 20 Herbicides to the Green Alga Scenedesmus quadricauda (Turp.) Breb.|Bull. Environ. Contam. Toxicol.72(6): 1164-1171|2004|10.1007/s00128-004-0366-4
101397|A||Wilson,P.C., S. Wilson, and D. Haunert|Toxicity of the Norflurazon to the Aquatic Macrophtye Vallisneria americana (Michx.)|J. Toxicol. Environ. Health69(12): 1167-1179|2006|10.1080/15287390600630070
101398|A||Tkalec,M., Z. Perincic, Z. Vidakovic-Cifrek, B. Pevalek-Kozlina, and I. Regula|Physiological Response of Duckweed (Lemna minor L.) to Herbicide Norflurazon|Period. Biol.105(3): 269-274|2003|
101399|T||Singh,M., R.C. Bullock, and J.E. Eger|Compatibility of Chlorpyrifos (Lorsban 4E) with Several Herbicides as Tank-Mix|Annu. Meet. Fla. State Hortic. Soc.99:48-51|1986|
101400|A||Tlili,A., U. Dorigo, B. Montuelle, C. Margoum, N. Carluer, V. Gouy, A. Bouchez, and A. Berard|Responses of Chronically Contaminated Biofilms to Short Pulses of Diuron. An Experimental Study Simulating Flooding Events in a Small River|Aquat. Toxicol.87:252-263|2008|10.1016/j.aquatox.2008.02.004
101401|T||Morgan,F.D., N.C. Stewart, and D.W. Horwood|Translocation of Insecticides in Radiata Pine and Effectiveness on Sirex noctilio|Aust.For.35(3): 133-142|1971|10.1080/00049158.1971.10675547
101402|T||Reiff,B., S.M. Lambert, and I.L. Natoff|Inhibition of Brain Cholinesterase by Organophosphorus Compounds in Rats|Arch. Int. Pharmacodyn. Ther.192(1): 48-60|1971|
101403|T||Shaw,F.R., R.A. Callahan, and F.R. Holbrook|The Disappearance of Residues of Bidrin from Alfalfa|J. Econ. Entomol.59(2): 487-|1966|10.1093/jee/59.2.487
101404|T||Shellenberger,T.E., G.W. Newell, S.S. Okamoto, and A. Sarros|Response of Rabbit Whole-Blood Cholinesterase In Vivo After Continuous Intravenous Infusion and Percutaneous Application of Dimethyl Organophosphate Inhibitors|Biochem. Pharmacol.14(6): 943-952|1965|10.1016/0006-2952(65)90246-7
101405|T||Sherman,M., and G.H. Komatsu|Toxicity to Fly Larvae of Droppings from Chicks Reared on Insecticide-Treated Feed|J. Econ. Entomol.58(2): 203-206|1965|10.1093/jee/58.2.203
101406|T||Singh,O.P., and R.R. Rawat|Note on the Safety of Some Insecticides for Diaeretus rapae M'Intosh, a Parasite of the Mustard Aphid|Indian J. Agric. Sci.51(3): 204-205|1981|
101407|T||Wene,G.P.|Evaluation of Systemic Drenches and Trunk Injections as Controls for the Elm Leaf Beetle in Arizona|J. Econ. Entomol.63(4): 1326-1328|1970|10.1093/jee/63.4.1326
101408|T||Werner,R.A.|Penetration and Persistence of Systemic Insecticides in Seeds and Seedlings of Southern Pines|J. Econ. Entomol.67(1): 81-84|1974|10.1093/jee/67.1.81
101409|T||Hrabowska,M., A. Ledochowski, and K. Onoszko|A Search for Antitumor Compounds.  XI.  Biologic Studies.  Antitumor Properties of 19 New 9-Aminoacridine and 1- or 3-Nitro-9-Aminoacridine Derivatives|Arch. Immunol. Ther. Exp.24(2): 249-258|1976|
101410|T||Wainwright,H., and C. Ndunge|Effect of Applying Nematicides Before Sowing in Carrot and Lettuce|Trop. Sci.41(2): 104-107|2001|
101411|T||Duarte,B., M. Delgado, and I. Cacador|The Role of Citric Acid in Cadmium and Nickel Uptake and Translocation, in Halimione portulacoides|Chemosphere69(5): 836-840|2007|10.1016/j.chemosphere.2007.05.007
101412|T||Turgut,C., M.K. Pepe, and T.J. Cutright|The Effect of EDTA and Citric Acid on Phytoremediation of Cd, Cr, and Ni from Soil Using Helianthus annuus|Environ. Pollut.131(1): 147-154|2004|10.1016/j.envpol.2004.01.017
101413|T||Yeh,S.H., and J.P. Kriss|Distribution and Scintiphotography of a New Complex, Pentavalent Technetium-99m Citrate:  Studies in the Rodent|J. Nucl. Med.8(9): 666-677|1967|
101414|T||Koster,A.T.J., and L.J. Meer|Control of Rhizoctonia solani in the Field with a low Dosage of Tolclofos-Methyl or Flutolanil|Acta Hortic.266:419-424|1990|10.17660/ActaHortic.1990.266.56
101415|A||Wejnar,R., and K.J. Appenroth|Studies on Photosynthetic Pigments in Lemnaceae.  XI.  The Bleaching Effect of Norflurazon (SAN 9789) in De-Etiolating and Autotrophically Cultivated Fronds of Spirodela polyrhiza (L.) Schleiden in Comparison with Lemna|Angew. Bot. (Multiple Languages)64(5-6): 401-410|1990|
101416|T||Tanaka,S., M. Takahashi, Y. Funaki, K. Izumi, H. Takano, and M. Miyakado|Hydrophobicity and Systemic Activities of Fungicidal Triazoles and Bleaching Herbicidal Compounds|ACS Symp. Ser.606:107-119|1995|10.1021/bk-1995-0606.ch008
101417|A||Clarke,I.E., P.M. Bramley, G. Sandmann, and P. Boger|Herbicide Action on Carotenogenesis in a Photosynthetic Cell-Free System|Dev. Plant Biol.8:549-554|1982|
101418|T||Kawahigashi,H., S. Hirose, H. Ohkawa, and Y. Ohkawa|Evaluation of Herbicide Metabolism in Transgenic Rice Plants Expressing CYP1A1 and CYP2B6|ACS Symp. Ser.892:18-27|2005|10.1021/bk-2005-0892.ch002
101419|A||Zboray,E.P., and M.C. Gutierrez|Insecticide Susceptibility of Mosquitoes in California:  Status of Organophosphorus Resistance in Larval Culex tarsalis Through 1978, with Notes on Mitigating the Problem|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.47:26-28|1979|
101421|A||Montagna,M.C., and P.A. Collins|Survival and Growth of Palaemonetes argentinus (Decapoda; Caridea) Exposed to Insecticides with Chlorpyrifos and Endosulfan as Active Element|Arch. Environ. Contam. Toxicol.53(3): 371-378|2007|10.1007/s00244-006-0209-x
101422|A||Mezin,L.C., and R.C. Hale|Effect of Humic Acids on Toxicity of DDT and Chlorpyrifos to Freshwater and Estuarine Invertebrates|Environ. Toxicol. Chem.23(3): 583-590|2004|10.1897/02-431
101423|T||Liu,J., and C.N. Pope|Effects of Chlorpyrifos on High-Affinity Choline Uptake and (3H)Hemicholinium-3 Binding in Rat Brain|Fundam. Appl. Toxicol.34(1): 84-90|1996|10.1006/faat.1996.0178
101424|T||Li,W.F., C.E. Furlong, and L.G. Costa|Paraoxonase Protects Against Chlorpyrifos Toxicity in Mice|Toxicol. Lett.76(3): 219-226|1995|10.1016/0378-4274(95)80006-Y
101425|T||Lassiter,T.L., S.,Jr. Barone, V.C. Moser, and S. Padilla|Gestational Exposure to Chlorpyrifos:  Dose Response Profiles for Cholinesterase and Carboxylesterase Activity|Toxicol. Sci.52(1): 92-100|1999|10.1093/toxsci/52.1.92
101426|T||Khan,S.M., and G. Kour|Subacute Oral Toxicity of Chlorpyriphos and Protective Effect of Green Tea Extract|Pestic. Biochem. Physiol.89(2): 118-123|2007|10.1016/j.pestbp.2007.04.005
101427|T||Gordon,C.J., and P.J. Rowsey|Delayed Febrile Effects of Chlorpyrifos:  Is There Cross-Tolerance to Bacterial Lipopolysaccharide?|Toxicology130(1): 17-28|1998|10.1016/S0300-483X(98)00094-8
101428|T||Gordon,C.J., T.A. Grantham, and Y. Yang|Hypothermia and Delayed Fever in the Male and Female Rat Exposed to Chlorpyrifos|Toxicology118(2-3): 149-158|1997|10.1016/S0300-483X(96)03609-8
101429|T||Gordon,C.J.|Behavioral Thermoregulatory Response to Chlorpyrifos in the Rat|Toxicology124(3): 165-171|1997|10.1016/S0300-483X(97)00147-9
101430|T||Chiappa,S., S. Padilla, C. Koenigsberger, V. Moser, and S. Brimijoin|Slow Accumulation of Acetylcholinesterase in Rat Brain During Enzyme Inhibition by Repeated Dosing with Chlorpyrifos|Biochem. Pharmacol.49(7): 955-963|1995|10.1016/0006-2952(95)00004-J
101431|T||Chaudhuri,J., T.K. Chakraborti, S. Chanda, and C.N. Pope|Differential Modulation of Organophosphate-Sensitive Muscarinic Receptors in Rat Brain by Parathion and Chlorpyrifos|J. Biochem. Toxicol.8(4): 207-216|1993|10.1002/jbt.2570080406
101432|T||Chanda,S.M., S.R. Mortensen, V.C. Moser, and S. Padilla|Tissue-Specific Effects of Chlorpyrifos on Carboxylesterase and Cholinesterase Activity in Adult Rats:  An In Vitro and In Vivo Comparison|Fundam. Appl. Toxicol.38(2): 148-157|1997|10.1006/faat.1997.2329
101433|T||Chanda,S.M., and C.N. Pope|Neurochemical and Neurobehavioral Effects of Repeated Gestational Exposure to Chlorpyrifos in Maternal and Developing Rats|Pharmacol. Biochem. Behav.53(4): 771-776|1996|10.1016/0091-3057(95)02105-1
101434|A||El-Shenawy,N.S., I.M. Abdel-Nabi, T.I. Moawad, and I.A. Taha|Physiological and Behavioural Responses of Ruditapes decussatus to Roundup and Reldan|Egypt. J. Biol.5:108-119|2003|
101435|A||Tierney,K.B., M. Casselman, S. Takeda, T. Farrell, and C. Kennedy|The Relationship Between Cholinesterase Inhibition and Two Types of Swimming Performance in Chlorpyrifos-Exposed Coho Salmon (Oncorhynchus kisutch)|Environ. Toxicol. Chem.26(5): 998-1004|2007|10.1897/06-459R.1
101436|A||Daam,M.A., and P.J. Van den Brink|Effects of Chlorpyrifos, Carbendazim, and Linuron on the Ecology of a Small Indoor Aquatic Microcosm|Arch. Environ. Contam. Toxicol.53(1): 22-35|2007|10.1007/s00244-006-0001-y
101437|T||Pope,C.N., T.K. Chakraborti, M.L. Chapman, and J.D. Farrar|Long-Term Neurochemical and Behavioral Effects Induced by Acute Chlorpyrifos Treatment|Pharmacol. Biochem. Behav.42(2): 251-256|1992|10.1016/0091-3057(92)90523-I
101438|T||Chu,L., T.S. Wang, H.Y. Jiang, Y.B. Hu, and Q.F. Zeng|In Vivo and In Vitro Silica Induces Nuclear Factor EGR-1 Activation Mediated by ERK 1/2 in RAW264.7 Cell Line|Toxicol. Mech. Methods15(2): 93-99|2005|10.1080/15376520590918775
101439|T||Inoue,T., K. Imaida, E. Suzuki, M. Okada, and S. Fukushima|Combined Effects of L-Ascorbic Acid, Citric Acid or Their Sodium Salts on Tumor Induction by N-Butyl-N-(4-Hydroxybutyl)Nitrosamine or N-Ethyl-N-(4-Hydroxybutyl)Nitrosamine in the Rat Urinary Bladder|Cancer Lett.40(3): 265-273|1988|10.1016/0304-3835(88)90085-7
101440|T||Winter,S.M., G.L. Weber, P.R. Gooley, N.E. MacKenzie, and I.G. Sipes|Identification and Comparison of the Urinary Metabolites of (1,2,3-13C3) Acrylic Acid and (1,2,3-1C3) Propionic Acid in the Rat by Homonuclear 13C Nuclear Magnetic Resonance Spectroscopy|Drug Metab. Dispos.20(5): 665-672|1992|
101441|A||Orset,S., M. Harker, A.J. Tsavalos, P. Rijo, K. McGovern, and A.J. Young|Inhibition of Astaxanthin Synthesis in the Green Alga, Haematococcus pluvialis|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:59-62|1995|
101442|A||Blahaut,B., and P. Olesen|Effects of SAN-9789 on Ultrastructure and Pigmentation of Marine Microalgae|In: C.Sybesma (Ed.), Advances in Photosynthesis Research, Martinus Nijhoff Publishers, The Hague, Netherlands:741-744|1984|
101443|AT||Laskay,G., E. Lehoczki, M. Somogyi, and L. Szalay|Activity of Photosystem II and Oxygen Evolution in Barley and Chlamydomonas After Treatment with Pyridazinone Herbicides|In: C.Sybesma (Ed.), Advances in Photosynthesis Research, Martinus Nijhoff Publishers, The Hague, Netherlands:49-52|1984|
101444|T||Lamboy,J.S., and J.D. Paxton|Metalaxyl Sensitivity Selection Within Phytophthora megasperma f. sp. glycinea|Plant Dis.76(9): 932-936|1992|10.1094/PD-76-0932
101445|T||Rathore,K.S., V.K. Chowdhury, and T.K. Hodges|Use of Bar as a Selectable Marker Gene and for the Production of Herbicide-Resistant Rice Plants from Protoplasts|Plant Mol. Biol.21(5): 871-884|1993|10.1007/BF00027118
101446|T||Brown,J.K.M., and N. Evans|Selection on Responses of Barley Powdery Mildew to Morpholine and Piperidine Fungicides|Crop Prot.11(5): 449-457|1992|10.1016/0261-2194(92)90029-5
101447|T||Chapman,P.A., D.P. Webb, and S.J. Walker|The Potential of Some Newer Photostable Pyrethroids to Select for Resistance in the Housefly Musca domestica (Diptera:  Muscidae)|Bull. Entomol. Res.83(4): 517-521|1993|10.1017/S0007485300039936
101449|T||Salim,K.M., and S. Sultana|The Influence of External Factors on the Imbibition and Germination Percentage in Maize|Pak. J. Sci.21(3/4): 51-60|1969|
101450|AT||Friend,M., and J.H.,Jr. Abel|Inhibition of Mallard Salt Gland Function by DDE and Organophosphates|In: L.A.Page (Ed.), International Wildlife Disease Conference, Wildlife Diseases:261-269|1976|
101451|T||Carey III,V.F., R.J.,Jr. Smith, and R.E. Talbert|Reduced and Standard Herbicide Rates for Grass Control in Rice (Oryza sativa)|Weed Technol.6(2): 409-414|1992|10.1017/S0890037X00034965
101452|A||Steiger,S., L. Schafer, and G. Sandmann|High-Light-Dependent Upregulation of Carotenoids and Their Antioxidative Properties in the Cyanobacterium Synechocystis PCC 6803|J. Photochem. Photobiol. B Biol.52(1-3): 14-18|1999|10.1016/S1011-1344(99)00094-9
101453|T||Kwon,C.S., and D. Penner|Response of a Chlorsulfuron-Resistant Biotype of Kochia scoparia to ALS Inhibiting Herbicides and Piperonyl Butoxide|Weed Sci.43(4): 561-565|1995|10.1017/S0043174500081649
101454|T||Fukushima,S., W. Thamavit, Y. Kurata, and N. Ito|Sodium Citrate:  A Promoter of Bladder Carcinogenesis|Jpn. J. Cancer Res.77(1): 1-4|1986|
101455|T||Beuchee,A., E. Nsegbe, M. St.Hilaire, G. Carrault, B. Branger, P. Pladys, and J.P. Praud|Prolonged Dynamic Changes in Autonomic Heart Rate Modulation Induced by Acid Laryngeal Stimulation in Non-Sedated Lambs|Neonatology91(2): 83-91|2007|10.1159/000097124
101456|T||Ahmad,M.M., and S. Sarvat|Effects of Endosulfan and Chlorpyrifos on the Reproductive Organs and Sex Hormones of Neonatal Rats|Pak. J. Zool.25(1): 11-14|1993|
101457|A||El-Sebae,A.H., N. Shaker, and F.I. Moustafa|Selective Toxicity of Mono- and Dicrotophos in Relation to Cholinesterase Isozyme Pattern|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(2A): 211-217|1986|
101458|T||Gary,N.E.|Flight of Honey Bee Colonies, as Affected by Bidrin Applied on Ladino Clover|J. Econ. Entomol.60(3): 677-680|1967|10.1093/jee/60.3.677
101459|T||Johnson,N.E., and J.G. Zingg|Effective Translocation of Four Systemic Insecticides Following Application to the Foliage and Cones of Douglas-Fir|J. Econ. Entomol.60(2): 575-578|1967|10.1093/jee/60.2.575
101460|T||Lowrey,R.S., M.C. Bowman, and F.E. Knox|Effect of Bidrin on the Metabolism of Dietary Components by the Bovine|J. Dairy Sci.52(9): 1460-1463|1969|10.3168/jds.S0022-0302(69)86776-7
101461|T||Mote,U.N.|Phytotoxicity of Modern Insecticides to Cucurbits|J. Maharashtra Agric. Univ.1(1): 39-42|1976|
101462|T||Nadarajan,L., and G.P. Channabasavanna|Trunk Injection of Systemic Insecticides Against the Coconut Black Headed Caterpillar Nephantis serinopa Meyrick (Lepidoptera:   Cryptophasidae)|Oleagineux (Multiple Languages)36(5): 239-245|1981|
101463|T||Jain,R.K., and D.S. Bhatti|Effect of Some Pesticides on Hatching in Meloidogyne javanica (Treub, 1885) Chitwood, 1949|Haryana Agric. Univ. J. Res.9(2): 156-157|1979|
101464|T||Sivakumar,C.V., P. Lakshmanan, and S. Jayaraj|Effect of Foliar Application of Certain Systemic Insecticides on the Reniform Nematode, Rotylenchulus reniformis Linford & Oliveira, 1940 Infesting Tomato|Madras Agric. J.63(4): 237-238|1976|
101465|T||Menzer,R.E., and N.H. Best|Effect of Phenobarbital on the Toxicity of Several Organophosphorus Insecticides|Toxicol. Appl. Pharmacol.13(1): 37-42|1968|10.1016/0041-008X(68)90131-2
101466|A||Cosper,E.M., R.T. Garry, A.J. Milligan, and M.H. Doall|"Iron, Selenium and Citric Acid are Critical to the Growth of the ""Brown Tide"" Microalga, Aureococcus anophagefferens"|In: T.J.Smayda and Y.Shimizy (Eds.), Toxic Phytoplankton Blooms in the Sea, Elsevier, Amsterdam, Netherlands3:667-674|1993|
101467|T||Kawahigashi,H., S. Hirose, H. Ohkawa, and Y. Ohkawa|Transgenic Rice Plants Expressing Human CYP1A1 Exude Herbicide Metabolites from Their Roots|Plant Sci.165(2): 373-381|2003|10.1016/S0168-9452(03)00197-3
101468|A||Sandmann,G., and M. Albrecht|Accumulation of Colorless Carotenes and Derivatives During Interaction of Bleaching Herbicides with Phytoene Desaturation|Z. Naturforsch. Sect. C J. Biosci.45c(5): 487-491|1990|10.1515/znc-1990-0532
101469|AT||Sandmann,G., K.J. Kunert, and P. Boger|Biological Systems to Assay Herbicidal Bleaching|Z. Naturforsch. C Biosci.34(11): 1044-1046|1979|10.1515/znc-1979-1132
101470|A||Salguero,A., B. De la Morena, J. Vigara, J.M. Vega, C. Vilchez, and R. Leon|Carotenoids as Protective Response Against Oxidative Damage in Dunaliella bardawil|Biomol. Eng.20(4-6): 249-253|2003|10.1016/S1389-0344(03)00065-0
101471|A||Kunert,K.J., and P. Boger|Influence of Bleaching Herbicides on Chlorophyll and Carotenoids|Z. Naturforsch. Sect. C J. Biosci.34(11): 1047-1051|1979|10.1515/znc-1979-1133
101472|A||Chamovitz,D., I. Pecker, G. Sandmann, P. Boger, and J. Hirschberg|Cloning a Gene Coding for Norflurazon Resistance in Cyanobacteria|Z. Naturforsch. Sect. C J. Biosci.45(5): 482-486|1990|10.1515/znc-1990-0531
101473|AT||Carpentier,R., R.M. LeBlanc, and G. Bellemare|Chlorophyll Photobleaching in Pigment-Protein Complexes|Z. Naturforsch. Sect. C J. Biosci.41(3): 284-290|1986|10.1515/znc-1986-0307
101474|T||Bus,J.S., and J.E. Gibson|Bidrin:  Perinatal Toxicity and Effect on the Development of Brain Acetylcholinesterase and Choline Acetyltransferase in Mice|Food Cosmet. Toxicol.12(3): 313-322|1974|10.1016/0015-6264(74)90003-0
101475|T||Coppel,H.C., and D.M.,Jr. Norris|Bark Penetration and Uptake of Systemic Insecticides from Several Treatment Formulations in White Pines|J. Econ. Entomol.59(4): 928-931|1966|10.1093/jee/59.4.928
101476|T||Easwaramoorthy,S., and S. Jayaraj|Control of Guava Scale, Pulvinaria psidii Mask., and Chilli Aphid, Myzus persicae (Sulz.), with Cephalosporium lecanii Zimm. and Insecticides|Indian J. Agric. Sci.47(3): 136-139|1977|
101477|T||Forsythe,H.Y.,Jr.|Present Status in Control of the European Red Mite in Ohio with Summer Acaricides|J. Econ. Entomol.58(5): 811-814|1965|10.1093/jee/58.5.811
101478|T||Austara,O.|Severe Outbreaks of the Ash Sawfly Tomostethus nigritus F. (Hymenoptera:  Tenthredinidae) on Ornamental Trees in Oslo|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)64(4): 70-72|1991|10.1007/BF01906165
101479|T||Mani,M., and S. Jayaraj|Control of Rice Leafhopper, Nephotettix virescens (Dist.) with Insecticides in Three Methods of Application|Madras Agric. J.63(5-7): 312-316|1976|
101480|T||Misra,S.S.|Residual Toxicity of Sprays of Contact Insecticides to Henosepilachna ocellata Redt. on Potato Crop|Indian J. Plant Prot.12(2): 119-122|1985|
101481|T||Garrison,J.C., and C.R. Wyttenbach|Teratogenic Effects of the Organophosphate Insecticide Dicrotophos (Bidrin):  Histological Characterization of Defects|Anat. Rec.213(3): 464-472|1985|10.1002/ar.1092130312
101482|T||McClure,M.S.|Effects of Implanted and Injected Pesticides and Fertilizers on the Survival of Adelges tsugae (Homoptera:  Adelgidae) and on the Growth of Tsuga canadensis|J. Econ. Entomol.85(2): 468-472|1992|10.1093/jee/85.2.468
101483|T||Pandey,S.Y., H.K. Jain, N.P. Agnihotri, R.S. Dewan, and H.P. Saxena|Residues from Foliar Application of Carbophenothion, Tetrachlorvinphos, Dicrotophos, Trichlorfon and Endosulfan on Bengalgram (Cicer arietinum)|Indian J. Plant Prot.5(1): 47-50|1977|
101490|A||Arad,S., E. Cohen, and A.B. Amotz|Accumulation of Canthaxanthin in Chlorella emersonii|Physiol. Plant. (Multiple Languages)87(2): 232-236|1993|10.1034/j.1399-3054.1993.870217.x
101491|A||Garcia-Plazaola,J.I., A. Hernandez, U. Artetxe, and J.M. Becerril|Regulation of the Xanthophyll Cycle Pool Size in Duckweed (Lemna minor) Plants|Physiol. Plant. (Multiple Languages)116(1): 121-126|2002|10.1034/j.1399-3054.2002.1160115.x
101492|A||Tjahjono,A.E., T. Kakizono, Y. Hayama, N. Nishio, and S. Nagai|Isolation of Resistant Mutants Against Carotenoid Biosynthesis Inhibitors for a Green Alga Haematococcus pluvialis, and Their Hybrid Formation by Protoplast Fusion for Breeding of Higher Astaxanthin Producers|J. Ferment. Bioeng.77(4): 352-357|1994|10.1016/0922-338X(94)90003-5
101493|A||Miller,P.W., B.L. Russell, and R.R. Schmidt|Transcription Initiation Site of a NADP-Specific Glutamate Dehydrogenase Gene and Potential Use of Its Promoter Region to Express Foreign Genes in Ammonium-Cultured Chlorella sorokiniana Cells|J. Appl. Phycol.6(2): 211-223|1994|10.1007/BF02186074
101494|A||De Swaaf,M.E., T.C. De Rijk, P. Van der Meer, G. Eggink, and L. Sijtsma|Analysis of Docosahexaenoic Acid Biosynthesis in Crypthecodinium cohnii by 13C Labelling and Desaturase Inhibitor Experiments|J. Biotechnol.103(1): 21-29|2003|10.1016/S0168-1656(03)00070-1
101495|A||Madhusudhan,R., T. Ishikawa, Y. Sawa, S. Shigeoka, and H. Shibata|Post-transcriptional Regulation of Ascorbate Peroxidase During Light Adaptation of Euglena gracilis|Plant Sci.165(1): 233-238|2003|10.1016/S0168-9452(03)00164-X
101496|A||Martinez-Ferez,I., A. Vioque, and G. Sandmann|Mutagenesis of an Amino Acid Responsible in Phytoene Desaturase from Synechocystis for Binding of the Bleaching Herbicide Norflurazon|Pestic. Biochem. Physiol.48(3): 185-190|1994|10.1006/pest.1994.1019
101497|A||Trebst,A., and B. Depka|Role of Carotene in the Rapid Turnover and Assembly of Photosystem II in Chlamydomonas reinhardtii|FEBS Lett.400(3): 359-362|1997|10.1016/S0014-5793(96)01419-6
101498|A||Windhovel,U., B. Geiges, G. Sandmann, and P. Boger|Expression of Erwinia uredovora Phytoene Desaturase in Synechococcus PCC7942 Leading to Resistance Against a Bleaching Herbicide|Plant Physiol.104(1): 119-125|1994|10.1104/pp.104.1.119
101499|A||Windhovel,U., G. Sandmann, and P. Boger|Genetic Engineering of Resistance to Bleaching Herbicides Affecting Phytoene Desaturase and Lycopene Cyclase in Cyanobacterial Carotenogenesis|Pestic. Biochem. Physiol.57(1): 68-78|1997|10.1006/pest.1997.2261
101500|A||Thomas,D.J., T.J. Avenson, J.B. Thomas, and S.K. Herbert|A Cyanobacterium Lacking Iron Superoxide Dismutase is Sensitized to Oxidative Stress Induced with Methyl Viologen but is not Sensitized to Oxidative Stress Induced with Norflurazon|Plant Physiol.116(4): 1593-1602|1998|10.1104/pp.116.4.1593
101501|A||Steinbrenner,J., and G. Sandmann|Transformation of the Green Alga Haematococcus pluvialis with a Phytoene Desaturase for Accelerated Astaxanthin Biosynthesis|Appl. Environ. Microbiol.72(12): 7477-7484|2006|10.1128/AEM.01461-06
101502|T||St.Laurent,A., I.A. Merwin, and J.E. Thies|Long-Term Orchard Groundcover Management Systems Affect Soil Microbial Communities and Apple Replant Disease Severity|Plant Soil304(1/2): 209-225|2008|10.1007/s11104-008-9541-4
101503|A||Schoefs,B., N.E. Rmiki, J. Rachadi, and Y. Lemoine|Astaxanthin Accumulation in Haematococcus Requires a Cytochrome P450 Hydroxylase and an Active Synthesis of Fatty Acids|FEBS Lett.500(3): 125-128|2001|10.1016/S0014-5793(01)02596-0
101504|T||Quistad,G.B., A.L. Saunders, W.S. Skinner, C.C. Reuter, and K.D. Collier|Metabolism of Norflurazon by Rats|J. Agric. Food Chem.37(5): 1412-1416|1989|10.1021/jf00089a045
101505|A||Orset,S.C., and A.J. Young|Exposure to Low Irradiances Favors the Synthesis of 9-cis beta,beta-Carotene in Dunaliella salina (Teod.)|Plant Physiol.122(2): 609-617|2000|10.1104/pp.122.2.609
101506|A||Maeda,H., Y. Sakuragi, D.A. Bryant, and D. DellaPenna|Tocopherols Protect Synechocystis sp. Strain PCC 6803 from Lipid Peroxidation|Plant Physiol.138(3): 1422-1435|2005|10.1104/pp.105.061135
101507|A||Levy,H., T. Tal, A. Shaish, and A. Zamir|Cbr, an Algal Homolog of Plant Early Light-Induced Proteins, is a Putative Zeaxanthin Binding Protein|J. Biol. Chem.268(28): 20892-20896|1993|10.1016/S0021-9258(19)36870-X
101508|A||Leon,R., M. Vila, D. Hernanz, and C. Vilchez|Production of Phytoene by Herbicide-Treated Microalgae Dunaliella bardawil in Two-Phase Systems|Biotechnol. Bioeng.92(6): 695-701|2005|10.1002/bit.20660
101509|A||Tilak,K.S., D.K. Rao, and K. Veeraiah|Effects of Chlorpyrifos on Histopathology of the Fish Catla catla|J. Ecotoxicol. Environ. Monit.15(2): 127-140|2005|
101510|T||Rouchaud,J., F. Gustin, F. Van de Steene, C. Pelerents, F. Benoit, N. Ceustermans, L. Van Parys, E. Seutin, M. De Proft|Plant Absorption and Metabolism of the Soil Applied Chlorpyrifos, Chlorfenvinphos and Carbofuran Insecticides in Cabbage and Sugar Beet Crops|Meded. Fac. Landbouwwet. Rijksuniv. Gent55(3, Pt. B): 1291-1300|1990|
101511|T||Afifi,F.A., and A.A. Zidan|Aminotransaminases Activity in Relation to the Oral Administration of a Single Dose of Chlorpyrifos Insecticide|Egypt. J. Physiol. Sci.13(1/2): 145-152|1986|
101512|T||Sivasithamparam,K.|"Some Effects of an Insecticide (""Dursban"") and a Weedicide (""Linuron"") on the Microflora of a Submerged Soil"|Riso19:339-346|1970|
101513|T||Mostafa,I.Y., Y.M. Adam, and S.M.A.D. Zayed|Bioalkylation of Nucleic Acids in Mice by Insecticides.  I.  Alkylation of Liver RNA and DNA by Chlorpyrifos|Z. Naturforsch. Sect. C J. Biosci.38(5/6): 461-464|1983|10.1515/znc-1983-5-622
101514|T||Voss,G., and H. Geissbuhler|Automated Residue Determinations of Insecticidal Enolphosphates|Meded. Rijksfac. Landbouwwet. Gent (Multiple Languages)32(3-4): 877-889|1967|
101515|T||Mascarenhas,V.J., and J.L. Griffin|Weed Control Interactions Associated with Roundup and Insecticide Mixtures|Proc. Beltwide Cotton Conf.1:799-801|1997|
101522|A||Devlin,R.M., and S.J. Karczmarczyk|The Influence of Norflurazon on Chlorophyll Content and Growth of Potamogeton pectinatus|In: Proc.Annu.Meet.Northeast.Weed Sci.29:118-123|1975|
101523|T||Mohan,E.M., C.A.Y. Banupriya, K. Anitha, S. Ramamoorthy, K.S. Pillai, and P. Balakrishnamurthy|Effect of Sublethal Dose of Chlorpyrifos 48% EC and Cypermethrin 25% EC in Wistar Rats|Pollut. Res.17(1): 13-16|1998|
101525|T||Bushnell,P.J., C.N. Pope, and S. Padilla|Behavioral and Neurochemical Effects of Acute Chlorpyrifos in Rats:  Tolerance to Prolonged Inhibition of Cholinesterase|J. Pharmacol. Exp. Ther.266(2): 1007-1017|1993|
101526|T||Bushnell,P.J., K.L. Kelly, and T.R. Ward|Repeated Inhibition of Cholinesterase by Chlorpyrifos in Rats:  Behavioral, Neurochemical and Pharmacological Indices of Tolerance|J. Pharmacol. Exp. Ther.270(1): 15-25|1994|
101527|T||Stanton,M.E., W.R. Mundy, T. Ward, V. Dulchinos, and C.C. Barry|Time-Dependent Effects of Acute Chlorpyrifos Administration on Spatial Delayed Alternation and Cholinergic Neurochemistry in Weanling Rats|Neurotoxicology15(1): 201-208|1994|
101528|T||Wurpel,J.N.D., P.C. Hirt, and J.H. Bidanset|Amygdala Kindling in Immature Rats:  Proconvulsant Effect of the Organophosphate Insecticide - Chlorpyrifos|Neurotoxicology14(4): 429-436|1993|
101529|T||Jett,D.A., and R.V. Navoa|In Vitro and In Vivo Effects of Chlorpyrifos on Glutathione Peroxidase and Catalase in Developing Rat Brain|Neurotoxicology21(1-2): 141-145|2000|
101530|T||Gordon,C.J., and Y.L. Yang|Chlorpyrifos-Induced Hypothermia and Vasodilation in the Tail of the Rat:  Blockade by Scopolamine|Pharmacol. Toxicol.87(1): 6-10|2000|10.1111/j.0901-9928.2000.870102.x
101531|T||Fikes,J.D., J.F. Zachary, A.J. Parker, and V.R. Beasley|Clinical, Biochemical, Electrophysiologic, and Histologic Assessment of Chlorpyrifos Induced Delayed Neuropathy in the Cat|Neurotoxicology13(3): 663-678|1992|
101532|T||Hamza,S.M., A.A. Hegazy, and H.H. Bakry|Effects of Ektafos, Ratak and Agrosan on Pregnancy and Foetal Development in White Rats|Egypt. J. Vet. Sci.21(2): 253-260|1984|
101533|T||Massey,F.P., and S.E. Hartley|Experimental Demonstration of the Antiherbivore Effects of Silica in Grasses:  Impacts on Foliage Digestibility and Vole Growth Rates|Proc. R. Soc. Lond. Ser. B Biol. Sci.273(1599): 2299-2304|2006|
101534|T||Massey,F.P., A.R. Ennos, and S.E. Hartley|Grasses and the Resource Availability Hypothesis:  The Importance of Silica-Based Defences|J. Ecol.95(3): 414-424|2007|10.1111/j.1365-2745.2007.01223.x
101535|T||Cotterill,J.V., R.W. Watkins, C.B. Brennon, and D.P. Cowan|Boosting Silica Levels in Wheat Leaves Reduces Grazing by Rabbits|Pest Manag. Sci.63(3): 247-253|2007|10.1002/ps.1302
101536|T||Blaich,R., and H. Grundhofer|The Influence of Silica Fertilization on the Resistance of Grapevines to Powdery Mildew|Vitis (Multiple Languages)37(1): 21-26|1998|
101537|T||Davenas,E., B. Poitevin, and J. Benveniste|Effect on Mouse Peritoneal Macrophages of Orally Administered Very High Dilutions of Silica|Eur. J. Pharmacol.135(3): 313-319|1987|10.1016/0014-2999(87)90680-7
101538|T||Okura,A., M. Nakadaira, K. Naito, M. Ishizuka, T. Takeuchi, and H. Umezawa|Effect of Forphenicinol on gamma-Interferon Production in Mice Sensitized with BCG|J. Antibiot.39(4): 569-574|1986|10.7164/antibiotics.39.569
101539|T||Radin,S., G. El-Bassyouni, E.J. Vresilovic, E. Schepers, and P. Ducheyne|In Vivo Tissue Response to Resorbable Silica Xerogels as Controlled-Release Materials|Biomaterials26(9): 1043-1052|2005|10.1016/j.biomaterials.2004.04.004
101540|A||Dias,J., C. Huelvan, M.T. Dinis, and R. Metailler|Influence of Dietary Bulk Agents (Silica, Cellulose and a Natural Zeolite) on Protein Digestibility, Growth, Feed Intake and Feed Transit Time in European Seabass (Dicentrarchus labrax) Juveniles|Aquat. Living Resour.11(4): 219-226|1998|10.1016/S0990-7440(98)89004-9
101541|A||Levine,S.N., A.D. Shambaugh, S.E. Pomeroy, and M. Braner|Phosphorus, Nitrogen, and Silica as Controls on Phytoplankton Biomass and Species Composition in Lake Champlain (USA-Canada)|J. Great Lakes Res.23(2): 131-148|1997|10.1016/S0380-1330(97)70891-8
101542|A||Muller,H.G.|Interference of Insoluble Particles with the Reproduction Toxicity Test Using Daphnia magna|Bull. Environ. Contam. Toxicol.29(2): 127-129|1982|10.1007/BF01606139
101543|A||Vartak,V., and S. Bhargava|Characterization of a Norflurazon-Resistant Mutant of Chlamydomonas reinhardtii|Weed Sci.45(3): 374-377|1997|10.1017/S0043174500093000
101544|A||Sandmann,G., K.J. Kunert, and P. Boger|Bleaching Activity and Chemical Constitution of Phenylpyridazinones|Pestic. Biochem. Physiol.15(3): 288-293|1981|10.1016/0048-3575(81)90013-4
101545|A||Lambert,R., and P. Boger|Inhibition of Carotenogenesis by Substituted Diphenyl Ethers of the m-Phenoxybenzamide Type|Pestic. Biochem. Physiol.20(2): 183-187|1983|10.1016/0048-3575(83)90022-6
101546|T||Hewlett,T.E., D.W. Dickson, D.J. Mitchell, and M.E. Kannwischer-Mitchell|Evaluation of Paecilomyces lilacinus as a Biocontrol Agent of Meloidogyne javanica on Tobacco|J. Nematol.20(4): 578-584|1988|
101547|T||Knaak,J.B., M. Al-Bayati, F. Gielow, G.S. Simon, and O.G. Raabe|Safety Related to Exposure: Dermal Dose-Red Cell Cholinesterase Response Relationships for Ethoprop and Mocap 6EC|Bull. Environ. Contam. Toxicol.38(5): 834-839|1987|10.1007/BF01616709
101548|T||Bidochka,M.J., and G.G. Khachatourians|The Implication of Metabolic Acids Produced by Beauveria bassiana in Pathogenesis of the Migratory Grasshopper, Melanoplus sanguinipes|J. Invertebr. Pathol.58(1): 106-117|1991|10.1016/0022-2011(91)90168-P
101549|A||Nelson,A.C., and T.A. Kursar|Interactions Among Plant Defense Compounds.  A Method for Analysis|Chemoecology9(2): 81-92|1999|10.1007/s000490050037
101550|T||Goto,T., M. Miyazaki, and M. Oku|Stimulation of Protoplast Division of Spinach (Spinacia oleracea L.) by the Addition of Citric Acid|J. Jpn. Soc. Hortic. Sci.68(4): 762-767|1999|10.2503/jjshs.68.762
101551|T||Mehra,H.O., P.K. Sareen, and R.K. Aggarwal|Cytogenetic Effects of Food Additives in Barley.  2.  Citric Acid, Acetic Acid and Potassium Metabisulphite|Haryana Agric. Univ. J. Res.15(3): 271-278|1985|
101552|T||Hartung,A.C., M.G. Nair, and A.R. Putnam|Isolation and Characterization of Phytotoxic Compounds from Asparagus (Asparagus officinalis L.) Roots|J. Chem. Ecol.16(5): 1707-1718|1990|10.1007/BF01014102
101553|T||Durrett,T.P., W. Gassmann, and E.E. Rogers|The FRD3-Mediated Efflux of Citrate into the Root Vasculature is Necessary for Efficient Iron Translocation|Plant Physiol.144(1): 197-205|2007|10.1104/pp.107.097162
101554|T||Johnson,A.W., N.A. Minton, T.B. Brenneman, G.W. Burton, A.K. Culbreath, G.J. Gascho, and S.H. Baker|Bahiagrass, Corn, Cotton Rotations, and Pesticides for Managing Nematodes, Diseases, and Insects on Peanut|J. Nematol.31(2): 191-200|1999|
101555|A||Ter Meulen,U., and E.A. El-Harith|Effects of Oral Administration of beta-N(3-Hydroxy-4-Pyridone)-alpha-amino Propionic Acid (Mimosine), in Carps (Cyprinus carpio L.)|Tropenlandwirt84:29-37|1983|
101556|T||Sanderson,M.A., D.W. Meyer, and H.H. Casper|Dicoumarol Concentrations in Sweet Clover Hay Treated with Preservatives and in Spoiled Hay of High- and Low-Coumarin Cultivars of Sweetclover|Anim. Feed Sci. Technol.14(3/4): 221-230|1986|10.1016/0377-8401(86)90095-7
101557|A||Hunt,D.W.C., and J.G. Eales|The Influence of Testosterone Propionate on Thyroid Function of Immature Rainbow Trout, Salmo gairdneri Richardson|Gen. Comp. Endocrinol.37:115-121|1979|10.1016/0016-6480(79)90053-4
101558|T||Bergstrand,H., I. Andersson, I. Nystrom, R. Pauwels, and H. Bazin|The Non-Specific Enhancement of Allergy. II. Precipitation of Anaphylactic In Vitro Response Capacity and Serum IgE and IgG2a Antibody Synthesis in Primed but Non-Responding Rats by Injection of Alum|Allergy38(4): 247-260|1983|10.1111/j.1398-9995.1983.tb01618.x
101559|T||Blaich,R., and H. Grundhofer|Uptake of Silica by Grapevines from Soil and Recirculating Nutrient Solutions|Vitis (Multiple Languages)36(4): 161-166|1997|
101560|AT||Werman,M.J., S. Mokady, and A. Ben-Amotz|Bioavailability of the Isomer Mixture of Phytoene and Phytofluene-Rich Alga Dunaliella bardawil in Rat Plasma and Tissues|J. Nutr. Biochem.13(10): 585-591|2002|10.1016/S0955-2863(02)00210-3
101561|A||Shaish,A., M. Avron, and A. Ben-Amotz|Effect of Inhibitors on the Formation of Stereoisomers in the Biosynthesis of beta-Carotene in Dunaliella bardawil|Plant Cell Physiol.31(5): 689-696|1990|
101562|A||Cohen,Z., H.A. Norman, and Y.M. Heimer|Potential Use of Substituted Pyridazinones for Selecting Polyunsaturated Fatty Acid Overproducing Cell Lines of Algae|Phytochemistry32(2): 259-264|1993|10.1016/S0031-9422(00)94978-1
101563|T||Daub,M.E., and G.A. Payne|The Role of Carotenoids in Resistance of Fungi to Cercosporin|Phytopathology79(2): 180-185|1989|10.1094/Phyto-79-180
101564|A||Tschiersch,H., E. Ohmann, and M. Doege|Modification of the Thylakoid Structure of Euglena gracilis by Norflurazon-Treatment:  Consequences for Fluorescence Quenching|Environ. Exp. Bot.47(3): 259-270|2002|10.1016/S0098-8472(01)00132-0
101565|AT||Matsumoto,H., M. Mizutani, T. Yamaguchi, and J. Kadotani|Herbicide Pyrazolate Causes Cessation of Carotenoids Synthesis in Early Watergrass by Inhibiting 4-Hydroxyphenylpyruvate Dioxygenase|Weed Biol. Manag.2(1): 39-45|2002|10.1046/j.1445-6664.2002.00046.x
101566|T||Zhang,W., E.P. Webster, and M.P. Braverman|Rice (Oryza sativa) Response to Rotational Crop and Rice Herbicide Combinations|Weed Technol.16(2): 340-345|2002|10.1614/0890-037X(2002)016[0340:ROSRTR]2.0.CO;2
101567|A||Hirsch,R., W. Hartung, and H. Gimmler|Abscisic Acid Content of Algae Under Stress|Bot. Acta102(4): 326-334|1989|10.1111/j.1438-8677.1989.tb00113.x
101568|A||Braune,W., and N.G.A. Ekelund|Phototactic Responses in Haematococcus lacustris and Its Modification by Light Intensity and the Carotenoid Biosynthesis Inhibitor Norflurazon|Arch. Microbiol.154(5): 448-452|1990|10.1007/BF00245226
101569|A||Naes,H., H.C. Utkilen, and A.F. Post|Geosmin Production in the Cyanobacterium Oscillatoria brevis|Arch. Microbiol.151(5): 407-410|1989|10.1007/BF00416598
101570|A||Marquardt,J.|Effects of Carotenoid-Depletion on the Photosynthetic Apparatus of a Galdieria sulphuraria (Rhodophyta) Strain that Retains Its Photosynthetic Apparatus in the Dark|J. Plant Physiol.152(4-5): 372-380|1998|10.1016/S0176-1617(98)80250-2
101571|A||Vechtel,B., U. Kahmann, and H.G. Ruppel|Secondary Carotenoids of Eremosphaera viridis De Bary (Chlorophyceae) Under Nitrogen Deficiency|Bot. Acta105(3): 219-222|1992|10.1111/j.1438-8677.1992.tb00290.x
101572|T||Cisar,J.L., and G.H. Snyder|Mobility and Persistence of Pesticides Applied to a USGA Green.  III:  Organophosphate Recovery in Clippings, Thatch, Soil, and Percolate|Crop Sci.36(6): 1433-1438|1996|10.2135/cropsci1996.0011183X003600060002x
101573|T||Cantelo,W.W.|Control of Megaselia halterata, a Phorid Fly Pest of Commercial Mushroom Production, by Insecticidal Treatment of the Compost or Casing Material|J. Entomol. Sci.20(1): 50-54|1985|10.18474/0749-8004-20.1.50
101574|T||Evans,E.W.|Experimental Manipulation of Herbivores in Native Tallgrass Prairie: Responses of Aboveground Arthropods|Am. Midl. Nat.125(1): 37-46|1991|10.2307/2426367
101575|T||Tashiro,S., H. Miyagawa, N. Sugita, and Y. Okada|Metabolism of Pyraclofos in Rats|J. Pestic. Sci. (Multiple Languages)18(2): 155-162|1993|10.1584/jpestics.18.2_155
101576|T||Hunt,T.W., R.B. Leidy, T.J. Sheets, and H.E. Duncan|Residues of Ethoprop in Eight Vegetables|Bull. Environ. Contam. Toxicol.27(1): 84-89|1981|10.1007/BF01610991
101577|A||Holy,J.|Chlorpropham (Isopropyl N-(3-Chlorophenyl) Carbamate) Disrupts Microtubule Organization, Cell Division, and Early Development of Sea Urchin Embryos|J. Toxicol. Environ. Health Part A54(4): 319-333|1998|10.1080/009841098158872
101578|T||Chadwick,R.W., S.E. George, J. Chang, M.J. Kohan, J.P. Dekker, J.E. Long, M.C. Duffy, and R.W. Williams|Potentiation of 2,6-Dinitrotoluene Genotoxicity in Fischer 344 Rats by Pretreatment with Pentachlorophenol|Pestic. Biochem. Physiol.39(2): 168-181|1991|10.1016/0048-3575(91)90137-B
101579|T||Palomo,L., N. Claassen, and D.L. Jones|Differential Mobilization of P in the Maize Rhizosphere by Citric Acid and Potassium Citrate|Soil Biol. Biochem.38(4): 683-692|2006|10.1016/j.soilbio.2005.06.019
101580|T||Reilly,S.|Reinforcement Value of Gustatory Stimuli Determined by Progressive Ratio Performance|Pharmacol. Biochem. Behav.63(2): 301-311|1999|10.1016/S0091-3057(99)00009-X
101581|T||McDowell,E.M.|Light- and Electron-Microscope Studies of the Rat Kidney After Administration of Inhibitors of the Citric Acid Cycle In Vivo:  Changes in the Proximal Convoluted Tubule During Fluorocitrate Poisoning|J. Pathol.108(4): 303-318|1972|10.1002/path.1711080406
101582|A||Sun,F., and H.S. Chen|Monitoring of Pesiticide Chlorpyrifos Residue in Farmed Fish:  Investigation of Possible Sources|Chemosphere71:1866-1869|2008|10.1016/j.chemosphere.2008.01.034
101583|T||Bruins,B.G., W. Scharloo, and G.E.W. Thorig|Light-Induced Vitamin Deficiency in Drosophila melanogaster|Arch. Insect Biochem. Physiol.36(1): 51-67|1997|10.1002/(SICI)1520-6327(1997)36:1<51::AID-ARCH5>3.0.CO;2-Z
101584|T||De Mattos-Dutra,A., M.S. De Freitas, M. Wajner, and R. Pessoa-Pureur|Propionic and Methylmalonic Acids Inhibit the In Vitro Phosphorylation of a 85 kDa Cytoskeletal Protein from Cerebral Cortex of Rats|Neurochem. Int.33(5): 407-414|1998|10.1016/S0197-0186(98)00044-8
101585|T||Basler,A., W. Von der Hude, and M. Scheutwinkel|Screening of the Food Additive Propionic Acid for Genotoxic Properties|Food Chem. Toxicol.25(4): 287-290|1987|10.1016/0278-6915(87)90124-4
101586|T||Brusque,A.M., S.T. Terracciano, F.U. Fontella, C. Vargas, C.G. Da Silva, A.T. Wyse, V.M.T. Trindade, C.M.D. Wannmacher,|Chronic Administration of Propionic Acid Reduces Ganglioside N-Acetylneuraminic Acid Concentration in Cerebellum of Young Rats|J. Neurol. Sci.158(2): 121-124|1998|10.1016/S0022-510X(98)00109-9
101587|T||De Mattos-Dutra,A., M.S. De Freitas, C.S.F. Lisboa, R. Pessoa-Pureur, and M. Wajner|Effects of Acute and Chronic Administration of Methylmalonic and Propionic Acids on the In Vitro Incorporation of 32P into Cytoskeletal Proteins from Cerebral Cortex of Young Rats|Neurochem. Int.33(1): 75-82|1998|10.1016/S0197-0186(05)80011-7
101588|T||Devaud,J.M., J. Keane, and A. Ferrus|Blocking Sensory Inputs to Identified Antennal Glomeruli Selectively Modifies Odorant Perception in Drosophila|J. Neurobiol.56:1-12|2003|10.1002/neu.10216
101589|T||Ebihara,K., T. Miyada, and A. Nakajima|Hypocholesterolemic Effect of Cecally Infused Propionic Acid in Rats Fed a Cholesterol-Free, Casein Diet|Nutr. Res.13(2): 209-217|1993|10.1016/S0271-5317(05)80442-7
101590|T||Ebihara,K., T. Miyada, and A. Nakajima|Comparision of Propionic Acid and Sodium Propionate Infused to the Cecum and Stomach on Hypocholesterolemic Effect in Rat Fed a Cholesterol-Free, Casein Protein Diet|Nutr. Res.13(11): 1305-1311|1993|10.1016/S0271-5317(05)80815-2
101591|T||Eischen,F.A., J.S. Pettis, and A. Dietz|A Rapid Method of Evaluating Compounds for the Control of Acarapis woodi (Rennie)|Am. Bee J.127(2): 99-101|1987|
101592|T||Germinara,G.S., G. Rotundo, and A. De Cristofaro|Repellence and Fumigant Toxicity of Propionic Acid Against Adults of Sitophilus granarius (L.) and S. oryzae (L.)|J. Stored Prod. Res.43(3): 229-233|2007|10.1016/j.jspr.2006.06.002
101593|T||Harrison,P.T.C., P. Grasso, and V. Badescu|Early Changes in the Forestomach of Rats, Mice and Hamsters Exposed to Dietary Propionic and Butyric Acid|Food Chem. Toxicol.29(6): 367-371|1991|10.1016/0278-6915(91)90075-I
101594|AT||Hwang,Y.S., W.L. Kramer, and M.S. Mulla|Oviposition Attractants and Repellents of Mosquitoes.  Isolation and Identification of Oviposition Repellents for Culex Mosquitoes|J. Chem. Ecol.6(1): 71-80|1980|10.1007/BF00987528
101595|T||Ma,T.H., M.M. Harris, V.A. Anderson, I. Ahmed, K. Mohammad, J.L. Bare, and G. Lin|Tradescantia-Micronucleus (Trad-MCN) Tests on 140 Health-Related Agents|Mutat. Res.138(2/3): 157-167|1984|10.1016/0165-1218(84)90039-9
101596|T||Manoukas,A.G., and B. Mazomenos|Effect of Antimicrobials upon Eggs and Larvae of Dacus oleae (Diptera:  Tephritidae) and the Use of Propionates for Larval Diet Preservation|Ann. Zool. (Multiple Languages)9(2): 277-285|1977|
101597|T||Rodrigues,C., E. Lok, E. Nera, F. Iverson, D. Page, K. Karpinski, and D.B. Clayson|Short-Term Effects of Various Phenols and Acids on the Fischer 344 Male Rat Forestomach Epithelium|Toxicology38(1): 103-117|1986|10.1016/0300-483X(86)90176-9
101598|T||Singh,P., and H.L. House|Antimicrobials: 'Safe' Levels in a Synthetic Diet of an Insect, Agria affinis|J. Insect Physiol.16(9): 1769-1782|1970|10.1016/0022-1910(70)90275-1
101599|T||Wyse,A.T.S., A.M. Brusque, C.G. Silva, E.L. Streck, M. Wajner, and C.M.D. Wannmacher|Inhibition of Na+,K+-ATPase from Rat Brain Cortex by Propionic Acid|Neuroreport9(8): 1719-1721|1998|10.1097/00001756-199806010-00009
101600|T||Wallace,J.M., and L.C. Whitehand|Adverse Synergistic Effects Between Acetic, Propionic, Butyric and Valeric Acids on the Growth of Wheat Seedling Roots|Soil Biol. Biochem.12(4): 445-446|1980|10.1016/0038-0717(80)90024-3
101601|T||Pinchasov,Y., and S. Elmaliah|Broiler Chick Responses to Anorectic Agents:  1. Dietary Acetic and Propionic Acids and the Digestive System|Pharmacol. Biochem. Behav.48(2): 371-376|1994|10.1016/0091-3057(94)90540-1
101602|T||Lynch,J.M.|Effects of Organic Acids on the Germination of Seeds and Growth of Seedlings|Plant Cell Environ.3(4): 255-259|1980|10.1111/1365-3040.ep11581824
101603|A||Dawson,D.A.|Additive Incidence of Developmental Malformation for Xenopus Embryos Exposed to a Mixture of Ten Aliphatic Carboxylic Acids|Teratology44(5): 531-546|1991|10.1002/tera.1420440507
101604|T||Levrat,M.A., M.L. Favier, C. Moundras, C. Remesy, C. Demigne, and C. Morand|Role of Dietary Propionic Acid and Bile Acid Excretion in the Hypocholesterolemic Effects of Oligosaccharides in Rats|J. Nutr.124(4): 531-538|1994|10.1093/jn/124.4.531
101605|T||Goff,J.P., and R.L. Horst|Oral Administration of Calcium Salts for Treatment of Hypocalcemia in Cattle|J. Dairy Sci.76(1): 101-108|1993|10.3168/jds.S0022-0302(93)77328-2
101606|T||Bueld,J.E., G. Bannenberg, and K.J. Netter|Effects of Propionic Acid and Pravastatin on HMG-CoA Reductase Activity in Relation to Forestomach Lesions in the Rat|Pharmacol. Toxicol.78(4): 229-234|1996|10.1111/j.1600-0773.1996.tb00210.x
101614|T||Badra,T., M.A. Saleh, and B.A. Oteifa|Nematicidal Activity and Composition of Some Organic Fertilizers and Amendments|Rev. Nematol.2(1): 29-36|1979|
101615|T||Crisosto,C.H., P.B. Lombard, D.G. Richardson, and R. Tetley|Putrescine Extends Effective Pollination Period in `Comice' Pear (Pyrus communis L.) Irrespective of Post-Anthesis Ethylene Levels|Sci. Hortic.49(3-4): 211-221|1992|10.1016/0304-4238(92)90158-9
101616|T||Watson,A.J.M., E.J. Elliott, D.D.K. Rolston, M.M. Borodo, M.J.G. Farthing, and P.D. Fairclough|Acetate Absorption in the Normal and Secreting Rat Jejunum|Gut31(2): 170-174|1990|10.1136/gut.31.2.170
101617|T||Banage,W.B., and S.A. Visser|The Effect of Some Fatty Acids and pH on a Soil Nematode|Nematologica11(2): 255-262|1965|10.1163/187529265X00159
101618|T||Etheridge,P., and F.T. Phillips|Laboratory Evaluation of New Insecticides and Bait Matrices for the Control of Leaf-Cutting Ants (Hymenoptera, Formicidae)|Bull. Entomol. Res.66(4): 569-578|1976|10.1017/S0007485300010671
101619|T||Kowalczyk-Bronisz,S.H., J. Pomorski, and R. Zabska|Studies on Aziridine Derivatives. III. Synthesis and Immunopharmacological Activity of Aziridine Derivatives of Propionic Acid|Arch. Immunol. Ther. Exp.36(3): 249-267|1988|
101620|T||O'Gorman,E., G. Beutner, T. Wallimann, and D. Brdiczka|Differential Effects of Creatine Depletion on the Regulation of Enzyme Activities and on Creatine-Stimulated Mitochondrial Respiration in Skeletal Muscle, Heart, and Brain|Biochim. Biophys. Acta1276(2): 161-170|1996|10.1016/0005-2728(96)00074-6
101621|T||Ramakrishna,B.S., S.H. Nance, I.C. Roberts-Thomson, and W.E.W. Roediger|The Effects of Enterotoxins and Short-Chain Fatty Acids on Water and Electrolyte Fluxes in Ileal and Colonic Loops In Vivo in the Rat|Digestion45(2): 93-101|1990|10.1159/000200229
101622|A||Di Marzo,V., R.R. Vardaro, L. De Petrocellis, G. Villani, R. Minei, and G. Cimino|Cyercenes, Novel Pyrones from the Ascoglossan Mollusk Cyerce cristallina.  Tissue Distribution, Biosynthesis and Possible Involvement in Defense and Regenerative Processes|Experientia47(11-12): 1221-1227|1991|10.1007/BF01918390
101623|T||Rowlands,D.G., and C.E. Dyte|Effects of Aliphatic Acids on the Metabolism and Potency of Fenitrothion in Flour Beetles|Pestic. Sci.3(2): 191-195|1972|10.1002/ps.2780030213
101624|T||Levi-Minzi,R., A. Saviozzi, and R. Riffaldi|Organic Acids as Seed Germination Inhibitors|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control29(10): 2203-2217|1994|
101625|A||Tichy,M., M. Rucki, I. Hanzlikova, and Z. Roth|The Tubifex tubifex Assay for the Determination of Acute Toxicity|Alt. Lab. Anim. (ATLA)35(2): 229-237|2007|10.1177/026119290703500210
101626|T||Stoner,A., and W.T. Wilson|Toxicity Effects and Chalkbrood Incidence in Honey Bee Colonies Fed Controlled Doses of Fungicides|J. Entomol. Sci.20(2): 172-178|1985|10.18474/0749-8004-20.2.172
101627|T||Yajima,T.|Effect of Sodium Propionate on the Contractile Response of the Rat Ileum In Situ|Jpn. J. Pharmacol.35(3): 265-271|1984|10.1254/jjp.35.265
101628|T||Tramontano,W.A., P. Gelardi, and D. Jouve|Incorporation and Cell-Cycle Effects of Short-Chain Fatty Acids in Pea Root Meristems|Phytochemistry36(1): 19-21|1994|10.1016/S0031-9422(00)97004-3
101629|T||Bueld,J.E., and K.J. Netter|Factors Affecting the Distribution of Ingested Propionic Acid in the Rat Forestomach|Food Chem. Toxicol.31(3): 169-176|1993|10.1016/0278-6915(93)90090-L
101630|T||Bassetti,L., and J. Tramper|Organic Solvent Toxicity in Morinda citrifolia Cell Suspensions|Enzyme Microb. Technol.16(8): 642-648|1994|10.1016/0141-0229(94)90084-1
101631|T||Tosh,J.E., E. Senior, J.E. Smith, and I.A. Watson-Craik|Ectomycorrhizal Seedling Response to Selected Components of Landfill Leachate|Mycol. Res.97(2): 129-135|1993|10.1016/S0953-7562(09)80233-5
101633|T||Prueksaritanont,T., X. Xu, P. Deluna, M. Yamazaki, and J.H. Lin|Stereoselective Hepatic Disposition of a Diastereomeric Pair of Propanoic Acid Antagonists in Rat|Xenobiotica33(11): 1125-1137|2003|10.1080/00498250310001609174
101634|T||Janovicek,K.J., T.J. Vyn, R.P. Voroney, and O.B. Allen|Early Corn Seedling Growth Response to Acetic, Propionic and Butyric Acids|Can. J. Plant Sci.77(3): 333-337|1997|10.4141/P96-122
101635|T||Leal,J.A., and B. Gomez-Miranda|Effect of Amino Acids and Organic Acids on the Sexual Reproduction of Species of Phytophthora and Pythium|Trans. Br. Mycol. Soc.50(1): 77-84|1967|10.1016/S0007-1536(67)80066-4
101636|A||Valentincic,T., and J. Caprio|Visual and Chemical Release of Feeding Behavior in Adult Rainbow Trout|Chem. Senses22(4): 375-382|1997|10.1093/chemse/22.4.375
101637|T||Turkoglu,S.|Genotoxicity of Five Food Preservatives Tested on Root Tips of Allium cepa L.|Mutat. Res.626(1-2): 4-14|2007|10.1016/j.mrgentox.2006.07.006
101641|T||Heungens,A.|The Influence of Some Acids, Bases and Salts on an Enchytraeid Population of a Pine Litter Substrate|Pedobiologia (Multiple Languages)26(2): 137-141|1984|10.1016/S0031-4056(23)05967-X
101642|T||Gopalakrishnan,S.|Effect of Organic Complexants on the Uptake and Utilization of Phosphorus by Jute|Fert. Technol.12(3): 216-224|1975|
101643|T||Timper,P., N.A. Minton, A.W. Johnson, T.B. Brenneman, A.K. Culbreath, G.W. Burton, S.H. Baker, and G.J. Gascho|Influence of Cropping Systems on Stem Rot (Sclerotium rolfsii), Meloidogyne arenaria, and the Nematode Antagonist Pasteuria penetrans in Peanut|Plant Dis.85(7): 767-772|2001|10.1094/PDIS.2001.85.7.767
101644|T||Stromborg,K.L., C.E. Grue, J.D. Nichols, G.R. Hepp, J.E. Hines, and H.C. Bourne|Postfledging Survival of European Starlings Exposed as Nestlings to an Organophosphorus Insecticide|Ecology69(3): 590-601|1988|10.2307/1941008
101645|T||Powell,J.E., and W.P. Scott|Survival of Microplitis croceipes (Hymenoptera:  Braconidae) in Contact with Residues of Insecticides on Cotton|Environ. Entomol.20(1): 346-348|1991|10.1093/ee/20.1.346
101646|T||Kishinevsky,B.D., R. Lobel, D. Gurfel, and C. Nemas|Soil Fumigation with Methyl Bromide as a Means of Increasing the Occurrence of the Inoculum Strain in Peanut Nodules|Soil Biol. Biochem.24(9): 845-848|1992|10.1016/0038-0717(92)90004-H
101647|T||Klink,K.J., and B.J. Meade|Dermal Exposure to 3-Amino-5-Mercapto-1,2,4-Triazole (AMT) Induces Sensitization and Airway Hyperreactivity in BALB/c Mice|Toxicol. Sci.75:89-98|2003|10.1093/toxsci/kfg171
101648|T||Yu,L., R. Ma, and T. Yu|Antitumor and Antitumor-Promoting Actions of Macrophages and Their Relationship with Estrogen|Oncology53(4): 322-326|1996|10.1159/000227581
101649|T||Landauer,W., and N. Salam|Aspects of Dimethyl Sulfoxide as Solvent for Teratogens|Dev. Biol.28(1): 35-46|1972|10.1016/0012-1606(72)90124-8
101650|T||Meiniel,R., and C. Autissier-Navarro|Teratogenic Activity of Organophosphate Pesticide in Chick Embryos|Acta Embryol. Morphol. Exp.1(1): 33-41|1980|
101652|T||Waldroup,A., S. Kaniawati, and A. Mauromoustakos|Performance Characteristics and Microbiological Aspects of Broilers Fed Diets Supplemented with Organic Acids|J. Food Prot.58(5): 482-489|1995|10.4315/0362-028X-58.5.482
101653|T||Natoff,I.L., and B. Reiff|Quantitative Studies of the Effect of Antagonists on the Acute Toxicity of Organophosphates in Rats|Br. J. Pharmacol.40(1): 124-134|1970|10.1111/j.1476-5381.1970.tb10617.x
101654|T||Kabir,G., and S. Alam|Cytological Effects of Insecticides (Carbicron-100 EC and Vapona-50) on Barley (Hordeum vulgare L.)|Cytologia51(4): 885-892|1986|10.1508/cytologia.51.885
101655|T||Kemerait,R.C., K.W. Seebold, P.M. Roberts, P.H. Jost, S.N. Brown, F.J. Connelly, J.L. Jacobs, and S.M. Brown|Assessment of Dicrotophos and Thiophanate Methyl in Cotton Production in Georgia|Proc. Beltwide Cotton Conf.:221-224|2005|
101656|T||Natoff,I.L.|Influence of the Route of Exposure on the Acute Toxicity of Cholinesterase Inhibitors|Arh. Hig. Rada Toksikol.21(4): 347-352|1970|
101658|A||Kramer,V.C., D.J. Schnell, and K.W. Nickerson|Relative Toxicity of Organic Solvents to Aedes aegypti Larvae|J. Invertebr. Pathol.42(2): 285-287|1983|10.1016/0022-2011(83)90076-9
101659|T||Wu,H., J. Pratley, and T. Haig|Phytotoxic Effects of Wheat Extracts on a Herbicide-Resistant Biotype of Annual Ryegrass (Lolium rigidum)|J. Agric. Food Chem.51(16): 4610-4616|2003|10.1021/jf026010w
101660|T||Trindade,V.M.T., A.M. Brusque, J.R. Raasch, L.F. Pettenuzzo, H.P. Rocha, C.M.D. Wannmacher, and M. Wajner|Ganglioside Alterations in the Central Nervous System of Rats Chronically Injected with Methylmalonic and Propionic Acids|Metab. Brain Dis.17(2): 93-102|2002|10.1023/A:1015464028616
101661|T||Sharma,S., A. Chanemougasoundharam, D. Sarkar, and S.K. Pandey|Carboxylic Acids Affect Induction, Development and Quality of Potato (Solanum tuberosum L.) Microtubers Grown In Vitro from Single-Node Explants|Plant Growth Regul.44(3): 219-229|2004|10.1007/s10725-004-5827-6
101662|T||Rigo,F.K., L. Pasquetti, C.R.M. Malfatti, M.R. Fighera, R.C. Coelho, C.Z. Petri, and C.F. Mello|Propionic Acid Induces Convulsions and Protein Carbonylation in Rats|Neurosci. Lett.408(2): 151-154|2006|10.1016/j.neulet.2006.08.075
101663|T||Pettenuzzo,L.F., P.F. Schuck, F. Fontella, C.M.D. Wannmacher, A.T. Wyse, C.S. Dutra-Filho, C.A. Netto, and M. Wajner|Ascorbic Acid Prevents Cognitive Deficits Caused by Chronic Administration of Propionic Acid to Rats in the Water Maze|Pharmacol. Biochem. Behav.73(3): 623-629|2002|10.1016/S0091-3057(02)00856-0
101664|T||Pelacho,A.M., L. Martin-Closas, and J.L.I. Sanfeliu|In Vitro Induction of Potato Tuberization by Organic Acids|Potato Res.42(3/4): 585-591|1999|10.1007/BF02358175
101665|T||Kane,M.T.|Fatty Acids as Energy Sources for Culture of One-Cell Rabbit Ova to Viable Morulae|Biol. Reprod.20(2): 323-332|1979|10.1095/biolreprod20.2.323
101666|T||Heimbeck,G., V. Bugnon, N. Gendre, C. Haberlin, and R.F. Stocker|Smell and Taste Perception in Drosophila melanogaster Larva:  Toxin Expression Studies in Chemosensory Neurons|J. Neurosci.19(15): 6599-6609|1999|10.1523/JNEUROSCI.19-15-06599.1999
101667|T||Duncan,A.J., and S.A. Young|Can Goats Learn About Foods Through Conditioned Food Aversions and Preferences when Multiple Food Options are Simultaneously Available?|J. Anim. Sci.80(8): 2091-2098|2002|
101668|T||Brusque,A.M., C.F. Mello, D.N. Buchanan, S.T. Terracciano, M.P. Rocha, C.R. Vargas, C.M.D. Wannmacher, and M. Wajner|Effect of Chemically Induced Propionic Acidemia on Neurobehavioral Development of Rats|Pharmacol. Biochem. Behav.64(3): 529-534|1999|10.1016/S0091-3057(99)00127-6
101669|T||Larsen,B.R.|Synergistic Effects of Acid Rain and (+/-)-2-(2,4-Dichlorophenoxy)-Propanoic Acid (2,4-DP) on Growth, Mineral Content and Stress-Induced Ethylene in Lettuce|Environ. Pollut. A.41(2): 179-196|1986|10.1016/0143-1471(86)90092-9
101670|T||Sano,H., N. Hattori, Y. Todome, J. Tsuruoka, H. Takahashi, and Y. Terashima|Plasma Insulin and Glucagon Responses to Intravenous Infusion of Propionate and Their Autonomic Control in Sheep|J. Anim. Sci.71(12): 3414-3422|1993|10.2527/1993.71123414x
101671|T||Sakata,T., and H. Setoyama|Local Stimulatory Effect of Short-Chain Fatty Acids on the Mucus Release from the Hindgut Mucosa of Rats (Rattus norvegicus)|Comp. Biochem. Physiol. A Comp. Physiol.111(3): 429-432|1995|10.1016/0300-9629(95)00033-4
101672|T||Lock,E.A., A. Gyte, N.C. Sturgess, S. Duffell, and I. Wyatt|2-Halopropionic Acid-Induced Cerebellar Granule Cell Necrosis in the Rat:  In Vivo and In Vitro Studies|Neurotoxicology22(3): 363-374|2001|10.1016/S0161-813X(01)00027-4
101674|T||Cho,Y., S.K. Suh, H.K. Park, and A. Wood|Impact of 2,4-DP and BAP upon Pod Set and Seed Yield in Soybean Treated at Reproductive Stages|Plant Growth Regul.36(3): 215-221|2002|10.1023/A:1016590505449
101675|T||Chakir,M., O. Peridy, P. Capy, E. Pla, and J.R. David|Adaptation to Alcoholic Fermentation in Drosophila:  A Parallel Selection Imposed by Environmental Ethanol and Acetic Acid|Proc. Natl. Acad. Sci. U.S.A.90(8): 3621-3625|1993|10.1073/pnas.90.8.3621
101676|A||Thomas,J.D., B. Assefa, C. Cowley, and J. Ofosu-Barko|Behavioural Responses to Amino Acids and Related Compounds, Including Propionic Acid, by Adult Biomphalaria glabrata (Say), a Snail Host of Schistosoma mansoni|Comp. Biochem. Physiol. C Comp. Pharmacol.66(1): 17-27|1980|10.1016/0306-4492(80)90067-2
101677|T||Lee,K.P., J.R. Gibson, and H. Sherman|Retinopathic Effects of 2-Aminooxy Propionic Acid Derivatives in the Rat|Toxicol. Appl. Pharmacol.51(2): 219-232|1979|10.1016/0041-008X(79)90464-2
101678|T||Kennah II,H.E., S. Hignet, P.E. Laux, J.D. Dorko, and C.S. Barrow|An Objective Procedure for Quantitating Eye Irritation Based upon Changes of Corneal Thickness|Fundam. Appl. Toxicol.12(2): 258-268|1989|10.1016/0272-0590(89)90043-2
101680|T||Shepherd,T., and H.V. Davies|Effect of Exogenous Amino Acids, Glucose and Citric Acid on the Patterns of Short-Term Accumulation and Loss of Amino Acids in the Root-Zone of Sand-Cultured Forage Rape (Brassica napus L.)|Plant Soil158(1): 111-118|1994|10.1007/BF00007923
101681|T||Bosakowski,T., and A.A. Levin|Comparative Acute Toxicity of Chlorocitrate and Fluorocitrate in Dogs|Toxicol. Appl. Pharmacol.89(1): 97-104|1987|10.1016/0041-008X(87)90180-3
101682|T||Herzog,A., and R.E. Monroe|Effect of Synthetic Juvenile Hormone and Citric Acid on Housefly Pupae, Musca domestica L.|Comp. Biochem. Physiol. A Comp. Physiol.41(3): 481-486|1972|10.1016/0300-9629(72)90006-0
101683|T||Fukuda,T., Y. Nakashima, M. Harada, S. Toyoshima, O. Koshitani, Y. Kawaguchi, and M. Nakayama|Effect of Whole Blood Clotting Time in Rats with Ionized Hypocalcemia Induced by Rapid Intravenous Citrate Infusion|J. Toxicol. Sci.31(3): 229-234|2006|10.2131/jts.31.229
101684|T||Quartacci,M.F., A.J.M. Baker, and F. Navari-Izzo|Nitrilotriacetate- and Citric Acid-Assisted Phytoextraction of Cadmium by Indian Mustard (Brassica juncea (L.) Czernj, Brassicaceae)|Chemosphere59(9): 1249-1255|2005|10.1016/j.chemosphere.2004.11.053
101685|T||Mendez-Albores,A., J.C. Del Rio-Garcia, and E. Moreno-Martinez|Decontamination of Aflatoxin Duckling Feed with Aqueous Citric Acid Treatment|Anim. Feed Sci. Technol.135(3-4): 249-262|2007|10.1016/j.anifeedsci.2006.07.009
101686|T||Bucher,K., K.E. Bucher, and D. Walz|The Topically Irritant Substance:  Essentials - Bio-Tests - Predictions|Agents Actions11(5): 515-519|1981|10.1007/BF02004715
101687|T||Brenneman,T.B., D.R. Sumner, R.E. Baird, G.W. Burton, and N.A. Minton|Suppression of Foliar and Soilborne Peanut Diseases in Bahiagrass Rotations|Phytopathology85(9): 948-952|1995|10.1094/Phyto-85-948
101688|T||Jordan,D.L., A.S. Culpepper, W.J. Grichar, J.T. Ducar, B.J. Brecke, and A.C. York|Weed Control with Combinations of Selected Fungicides and Herbicides Applied Postemergence to Peanut (Arachis hypogaea L.)|Peanut Sci.30(1): 1-7|2003|10.3146/pnut.30.1.0001
101689|T||Uchida,M., H. Nishizawa, and T. Suzuki|Hydrophobicity of Buprofezin and Flutolanil in Relation to Their Soil Adsorption and Mobility in Rice Plants|J. Pestic. Sci. (Multiple Languages)7(3): 397-400|1982|10.1584/jpestics.7.397
101690|AT||Araki,F.|Moncut (Flutolanil), a New Systemic Fungicide|Jpn. Pestic. Inf.47:23-25|1985|
101691|T||Lee,J.K., F. Fuhr, K.S. Kyung, K.C. Ahn, and J.W. Kwon|Fate of the Soil Residues of the Fungicide Flutolanil in a Microecosystem Planted with Rice Plants|Agric. Chem. Biotechnol.45(1): 31-36|2002|
101692|T||Gullino,M.L., G. Lento, and A. Garibaldi|Control of Rhizoctonia solani of Vegetables with New Fungicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent49(2a): 363-371|1984|
101693|T||Uchida,M., and T. Suzuki|Affinity and Mobility of Fungicides in Soils and Rice Plants|Pestic. Chem.1:371-376|1983|
101694|T||Mochizuki,H., F. Araki, and K. Yabutani|Rice Sheath Blight Control with Flutolanil|J. Pestic. Sci. (Multiple Languages)12(1): 29-33|1987|10.1584/jpestics.12.29
101695|T||Uchida,M., K. Ogawa, T. Sugimoto, and H. Aizawa|Metabolism of Flutolanil in Rice Plant and Cucumber|J. Pestic. Sci. (Multiple Languages)8(4): 537-544|1983|10.1584/jpestics.8.537
101696|T||Murakami,N., M. Uchida, K. Yabutani, M. Okada, and H. Aizawa|Metabolism of Flutolanil in Rats|J. Pestic. Sci. (Multiple Languages)8(4): 483-491|1983|10.1584/jpestics.8.483
101697|T||Osman,A.Z., S.A.D. Zayed, and N.I. Hazzaa|Fate and Metabolism of Radiolabelled Dicrotophos in Egyptian Lactating Cows|Isot. Radiat. Res.17(1): 19-26|1985|
101698|A||Ritter,P.O., and F.M. Strong|Residues in Tissues of Fish Killed by Antimycin|J. Agric. Food Chem.14(4): 403-407|1966|10.1021/jf60146a020
101699|T||Merkel,E.P.|Trunk-Implanted Systemic Insecticides for Slash Pine Cone Insect Control|Fla. Entomol.53(3): 143-146|1970|10.2307/3493360
101700|T||Kilpatrick,A.L., A.M. Hagerty, S.G. Turnipseed, M.J. Sullivan, and W.C.,Jr. Bridges|Activity of Selected Neonicotinoids and Dicrotophos on Nontarget Arthropods in Cotton: Implications in Insect Management|J. Econ. Entomol.98(3): 814-820|2005|10.1603/0022-0493-98.3.814
101701|T||Bommireddy,P.L., K.D. Emfinger, R. Gable, and B.R. Leonard|Evaluation of Selected Foliar Insecticides Against Two Species of Thrips in Cotton, 2004|Arthropod Manag. Tests30:1 p.|2005|
101702|T||Price,P., K.D. Emfinger, and B.R. Leonard|Evaluation of Insecticides Against Cotton Aphid, 2005|Arthropod Manag. Tests31:F25|2006|
101703|T||Tindall,K.V., K. Emfinger, B.R. Leonard, and J. Temple|Evaluation of Insecticide Efficacy Against Late-Season Hemipteran Pests on Cotton, 2004|Arthropod Manag. Tests30:1 p.|2005|
101704|T||Bommireddy,P.L., R. Gable, K. Tindall, and B.R. Leonard|Evaluation of Neonicotinoids Against Cotton Aphid, 2004|Arthropod Manag. Tests30:1 p.|2005|
101705|T||Pickering,C.E., and R.G. Pickering|"The Interference by Erythrocyte ""Acetylthiocholinesterase"" in the Estimation of the Blood Cholinesterase Activity of the Chicken"|Toxicol. Appl. Pharmacol.39(2): 229-237|1977|10.1016/0041-008X(77)90156-9
101706|AT||Kleschick,W.A., B.C. Gerwick, C.M. Carson, W.T. Monte, and S.W. Snider|DE-498, a New Acetolactate Synthase Inhibiting Herbicide with Multicrop Selectivity|J. Agric. Food Chem.40:1083-1085|1992|10.1021/jf00018a035
101707|T||Tamai,K., and J.F. Ma|Characterization of Silicon Uptake by Rice Roots|New Phytol.158(3): 431-436|2003|10.1046/j.1469-8137.2003.00773.x
101708|T||Goel,A., V. Dani, and D.K. Dhawan|Role of Zinc in Mitigating the Toxic Effects of Chlorpyrifos on Hematological Alterations and Electron Microscopic Observations in Rat Blood|BioMetals19(5): 483-492|2006|10.1007/s10534-005-5148-x
101709|A||Marie,V., P. Gonzalez, M. Baudrimont, J.P. Bourdineaud, and A. Boudou|Metallothionein Response to Cadmium and Zinc Exposures Compared in Two Freshwater Bivalves, Dreissena polymorpha and Corbicula fluminea|BioMetals19(4): 399-407|2006|10.1007/s10534-005-4064-4
101710|A||Achard-Joris,M., P. Gonzalez, V. Marie, M. Baudrimont, and J.P. Bourdineaud|Cytochrome C Oxydase Subunit I Gene is Up-Regulated by Cadmium in Freshwater and Marine Bivalves|BioMetals19(3): 237-244|2006|10.1007/s10534-005-5671-9
101711|T||Summers,B.L., C.M.A. Henry, A.M. Rofe, and P. Coyle|Dietary Zinc Supplementation During Pregnancy Prevents Spatial and Object Recognition Memory Impairments Caused by Early Prenatal Ethanol Exposure|Behav. Brain Res.186(2): 230-238|2008|10.1016/j.bbr.2007.08.011
101712|T||Kizilkaya,R.|Dehydrogenase Activity in Lumbricus terrestris Casts and Surrounding Soil Affected by Addition of Different Organic Wastes and Zn|Bioresour. Technol.99(5): 946-953|2008|10.1016/j.biortech.2007.03.004
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101714|T||Flora,G.J.S., R. Mathur, N. Sandhu, and K.K. Dua|Time Dependent Preventive Effects of Simultaneous Administration of Selenium or Zinc During Mercury Exposure in Rats|Indian J. Pharmacol.26(3): 209-212|1994|
101715|T||Wyska,E., J. Szymura-Oleksiak, W. Opoka, B. Bas, E. Niewiara, L. Pomierny, M. Dybala, and G. Nowak|Pharmacokinetic Interaction After Joint Administration of Zinc and Imipramine in Forced Swim Test in Mice|Pol. J. Pharmacol.56(4): 479-484|2004|
101716|A||Romera,E., F. Gonzalez, A. Ballester, M.L. Blazquez, and J.A. Munoz|Comparative Study of Biosorption of Heavy Metals Using Different Types of Algae|Bioresour. Technol.98(17): 3344-3353|2007|10.1016/j.biortech.2006.09.026
101717|T||Jamieson,J.A., D.M. Stringer, P. Zahradka, and C.G. Taylor|Dietary Zinc Attenuates Renal Lead Deposition but Metallothionein is not Directly Involved|BioMetals21(1): 29-40|2008|10.1007/s10534-007-9090-y
101719|A||Hasan,S.H., M. Talat, and S. Rai|Sorption of Cadmium and Zinc from Aqueous Solutions by Water Hyacinth (Eichchornia crassipes)|Bioresour. Technol.98(4): 918-928|2007|10.1016/j.biortech.2006.02.042
101720|T||Van Molle,W., M. Van Roy, T. Van Bogaert, L. Dejager, P. Van Lint, I. Vanlaere, K. Sekikawa, G. Kollias, and C. Libert|Protection of Zinc Against Tumor Necrosis Factor-Induced Lethal Inflammation Depends on Heat Shock Protein 70 and Allows Safe Antitumor Therapy|Cancer Res.67(15): 7301-7307|2007|10.1158/0008-5472.CAN-06-4010
101726|T||Yanev,E., T. Markovska, A. Momchilova, R. Pankov, T. Sedloev, and K. Koumanov|Alterations in Rat Alveolar Surfactant System Induced by Treatment with Carbicron (O-((2-Butenoic Acid)-N,N-Dimethylamide-3-Yl)-O,O-Dimethylphosphate)|Comp. Biochem. Physiol. C Comp. Pharmacol.103(3): 553-555|1992|10.1016/0742-8413(92)90180-F
101727|A||Widder,P.D., and J.R. Bidwell|Tadpole Size, Cholinesterase Activity, and Swim Speed in Four Frog Species after Exposure to Sub-lethal Concentrations of Chlorpyrifos|Aquat. Toxicol.88:9-18|2008|10.1016/j.aquatox.2008.02.008
101728|T||Saleem,R., M. Ahmad, A. Naz, H. Siddiqui, S.I. Ahmad, and S. Faizi|Hypotensive and Toxicological Study of Citric Acid and Other Constituents from Tagetes patula Roots|Arch. Pharm. Res. (Seoul)27(10): 1037-1042|2004|10.1007/BF02975428
101729|T||Weissinger,W.R., and L.R. Beuchat|Comparison of Aqueous Chemical Treatments to Eliminate Salmonella on Alfalfa Seeds|J. Food Prot.63(11): 1475-1482|2000|10.4315/0362-028X-63.11.1475
101730|A||Chrysayi-Tokousbalides,M., K. Machera, K. Kyriakopoulou, K.A. Aliferis, K.K. Schrader, I. Tsoutsanis, and P. Anastasiad|Comparative Toxicity of the Phytotoxins (8R,16R)-(-)-Pyrenophorin and (5S,8R,13S,16R)-(-)-Pyrenophorol on Aquatic Organisms|Bull. Environ. Contam. Toxicol.79(5): 499-503|2007|10.1007/s00128-007-9223-6
101731|A||Weston,D.P., and E.L. Amweg|Whole-Sediment Toxicity Identification Evaluation Tools for Pyrethroid Insecticides:  II.  Esterase Addition|Environ. Toxicol. Chem.26(11): 2397-2404|2007|10.1897/07-018R.1
101732|T||Sultatos,L.G.|Factors Affecting the Hepatic Biotransformation of the Phosphorothioate Pesticide Chlorpyrifos|Toxicology51(2-3): 191-200|1988|10.1016/0300-483X(88)90149-7
101733|A||Amweg,E.L., and D.P. Weston|Whole-Sediment Toxicity Identification Evaluation Tools for Pyrethroid Insecticides:  I.  Piperonyl Butoxide Addition|Environ. Toxicol. Chem.26(11): 2389-2396|2007|10.1897/07-017R.1
101734|A||Grunewald,K., C. Hagen, and W. Braune|Insights into Secondary Carotenoid Synthesis in the Green Algae Haematococcus pluvialis|In: Proc. 11th Int. Congr. on Photosynthesis, Aug. 17-22, 1998, Photosynthesis: Mechanisms and Effects, Budapest4:3285-3288|1998|
101735|T||Seichert,V., J. Kacirkova, and R. Jelinek|Developmental View of the Origination of Limb Malformations.  II.|Folia Morphol. (Prague)32(2): 415-423|1984|
101736|T||Nonneman,A.J., T. Elder, B.T. Farmer II, and D.A. Butterfield|Hippocampal Neurotoxicity Produced by Quinolinic Acid and Related Neurotoxins|Biochem. Arch.4(2): 209-215|1988|
101737|A||Kundu,M.K., N. Sundar, S.K. Kumar, S.V. Bhat, S. Biswas, and N. Valecha|Antimalarial Activity of 3-Hydroxyalkyl-2-Methylene-Propionic Acid Derivatives|Bioorg. Med. Chem. Lett.9(5): 731-736|1999|10.1016/S0960-894X(99)00057-8
101738|A||Katz,A., C. Jimenez, and U. Pick|Isolation and Characterization of a Protein Associated with Carotene Globules in the Alga Dunaliella bardawil|Plant Physiol.108(4): 1657-1664|1995|10.1104/pp.108.4.1657
101739|T||Hirose,S., H. Kawahigashi, K. Ozawa, N. Shiota, H. Inui, H. Ohkawa, and Y. Ohkawa|Transgenic Rice Containing Human CYP2B6 Detoxifies Various Classes of Herbicides|J. Agric. Food Chem.53(9): 3461-3467|2005|10.1021/jf050064z
101740|A||Herczeg,T., E. Lehoczki, and L. Szalay|The Prompt Effect of Pyridazinone Herbicides on the Primary Processes of Photosynthesis|FEBS Lett.108(1): 226-228|1979|10.1016/0014-5793(79)81215-6
101741|A||Deng,T.S., and T. Roenneberg|Photobiology of the Gonyaulax Circadian System. II. Allopurinol Inhibits Blue-Light Effects|Planta (Multiple Languages)202(4): 502-509|1997|10.1007/s004250050155
101742|A||Cohen,Z., and Y.M. Heimer|Delta6 Desaturase Inhibition:  A Novel Mode of Action of Norflurazone|Plant Physiol.93(1): 347-349|1990|10.1104/pp.93.1.347
101743|A||Chamovitz,D., G. Sandmann, and J. Hirschberg|Molecular and Biochemical Characterization of Herbicide-Resistant Mutants of Cyanobacteria Reveals that Phytoene Desaturation is a Rate-Limiting Step in Carotenoid Biosynthesis|J. Biol. Chem.268(23): 17348-17353|1993|10.1016/S0021-9258(19)85341-3
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101746|A||Ben-Amotz,A., A. Lers, and M. Avron|Stereoisomers of beta-Carotene and Phytoene in the Alga Dunaliella bardawil|Plant Physiol.86(4): 1286-1291|1988|10.1104/pp.86.4.1286
101747|A||Babczinski,P., U. Heinemann, G. Sandmann, S. Kawamura, T. Hamada, R. Sato, and Y. Sanemitsu|Inhibition of Carotenoid Biosynthesis by Interaction of 2,6-Diphenylpyridine Derivatives with Phytoene Desaturation|J. Agric. Food Chem.40(12): 2497-2499|1992|10.1021/jf00024a031
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101750|A||Linden,H., G. Sandmann, D. Chamovitz, J. Hirschberg, and P. Boger|Biochemical Characterization of Synechococcus Mutants Selected Against the Bleaching Herbicide Norflurazon|Pestic. Biochem. Physiol.36(1): 46-51|1990|10.1016/0048-3575(90)90019-X
101752|A||Tlalka,M., M. Runquist, and M. Fricker|Light Perception and the Role of the Xanthophyll Cycle in Blue-Light-Dependent Chloroplast Movements in Lemna trisulca L.|Plant J.20(4): 447-459|1999|10.1046/j.1365-313x.1999.00614.x
101753|A||Fong,F., and J.A. Schiff|Blue-Light-Induced Absorbance Changes Associated with Carotenoids in Euglena|Planta (Multiple Languages)146(2): 119-127|1979|10.1007/BF00388221
101754|T||Berzina,N., J. Markovs, S. Isajevs, M. Apsite, and G. Smirnova|Cadmium-Induced Enteropathy in Domestic Cocks:  A Biochemical and Histological Study After Subchronic Exposure|Basic Clin. Pharmacol. Toxicol.101(1): 29-34|2007|10.1111/j.1742-7843.2007.00072.x
101755|T||Dabrowska,E., B. Szynaka, and E. Kulikowska-Karpinska|Ultrastructural Study of the Submandibular Gland of the Rat After 6-Month Exposure to Cadmium and Zinc in Drinking Water|Adv. Med. Sci.51:245-249|2006|
101756|A||Mandal,S.K., H.V. Joshi, D.C. Bhatt, B. Jha, and T. Ishimaru|Experiences with Some Toxic and Relatively Accessible Heavy Metals on the Survival and Biomass Production of Amphora costata W. Smith|Algae21(4): 471-477|2006|10.4490/ALGAE.2006.21.4.471
101757|T||Adachi,Y., J. Yoshida, Y. Kodera, T. Kiss, T. Jakusch, E.A. Enyedy, Y. Yoshikawa, and H. Sakurai|Oral Administration of a Zinc Complex Improves Type 2 Diabetes and Metabolic Syndromes|Biochem. Biophys. Res. Commun.351(1): 165-170|2006|10.1016/j.bbrc.2006.10.014
101758|A||Lin,Y.H., Y.Y. Shie, and S.Y. Shiau|Dietary Copper Requirements of Juvenile Grouper, Epinephelus malabaricus|Aquaculture274(1): 161-165|2008|10.1016/j.aquaculture.2007.11.006
101759|T||Shivay,Y.S., D. Kumar, R. Prasad, and I.P.S. Ahlawat|Relative Yield and Zinc Uptake by Rice from Zinc Sulphate and Zinc Oxide Coatings onto Urea|Nutr. Cycl. Agroecosyst.80(2): 181-188|2008|10.1007/s10705-007-9131-5
101760|A||Van Campenhout,K., L. Bervoets, and R. Blust|Assimilation Efficiencies of Cd and Zn in the Common Carp (Cyprinus carpio):  Effects of Metal Concentration, Temperature and Prey Type|Environ. Pollut.145(3): 905-914|2007|10.1016/j.envpol.2006.05.002
101761|A||Gundogdu,A., and M. Erdem|The Accumulation of the Heavy Metals (Copper and Zinc) in the Tissues of Rainbow Trout (Onchorhyncus mykiss, Walbaum, 1792)|J. Fish. Sci.2(1): 41-50|2008|
101763|A||Novakova,J., D. Danova, K. Striskova, R. Hromada, H. Mickova, and M. Rabiskova|Zinc and Cadmium Toxicity Using a Biotest with Artemia franciscana|Acta Vet. Brno76(4): 635-642|2007|10.2754/avb200776040635
101764|T||Plonka,P.M., B. Handjiski, D. Michalczyk, M. Popik, and R. Paus|Oral Zinc Sulphate Causes Murine Hair Hypopigmentation and is a Potent Inhibitor of Eumelanogenesis In Vivo|Br. J. Dermatol.155(1): 39-49|2006|10.1111/j.1365-2133.2006.07376.x
101765|T||Zhou,Z., X. Kang, Y. Jiang, Z. Song, W. Feng, C.J. McClain, and Y.J. Kang|Preservation of Hepatocyte Nuclear Factor-4alpha is Associated with Zinc Protection Against TNF-alpha Hepatotoxicity in Mice|Exp. Biol. Med.232(5): 622-628|2007|
101766|A||Loganathan,K., B. Velmurugan, J.H. Howrelia, M. Selvanayagam, and B.B. Patnaik|Zinc Induced Histological Changes in Brain and Liver of Labeo rohita (Ham.)|J. Environ. Biol.27(1): 107-110|2006|
101767|T||Brzoska,M.M., J. Rogalska, M. Galazyn-Sidorczuk, M. Jurczuk, A. Roszczenko, E. Kulikowska-Karpinska, and J. Moniuszko-J|Effect of Zinc Supplementation on Bone Metabolism in Male Rats Chronically Exposed to Cadmium|Toxicology237(1-3): 89-103|2007|10.1016/j.tox.2007.05.001
101768|AT||Fjallborg,B., B. Li, E. Nilsson, and G. Dave|Toxicity Identification Evaluation of Five Metals Performed with Two Organisms (Daphnia magna and Lactuca sativa)|Arch. Environ. Contam. Toxicol.50(2): 196-204|2006|10.1007/s00244-005-7017-6
101769|A||Koukal,B., P. Rosse, A. Reinhardt, B. Ferrari, K.J. Wilkinson, J.L. Loizeau, and J. Dominik|Effect of Pseudokirchneriella subcapitata (Chlorophyceae) Exudates on Metal Toxicity and Colloid Aggregation|Water Res.41(1): 63-70|2007|10.1016/j.watres.2006.09.014
101770|T||Liu,Y., J. Liu, R.D. Palmiter, and C.D. Klaassen|Metallothionein-I-Transgenic Mice are not Protected from Acute Cadmium-Metallothionein-Induced Nephrotoxicity|Toxicol. Appl. Pharmacol.137(2): 307-315|1996|10.1006/taap.1996.0085
101771|T||Augustyniak,M., J. Juchimiuk, W.J. Przybylowicz, J. Mesjasz-Przybylowicz, A. Babczynska, and P. Migula|Zinc-Induced DNA Damage and the Distribution of Metals in the Brain of Grasshoppers by the Comet Assay and Micro-PIXE|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(3): 242-251|2006|10.1016/j.cbpc.2006.09.003
101772|T||Bhalla,P., V.D. Chadha, and D.K. Dhawan|Effectiveness of Zinc in Modulating Lithium Induced Biochemical and Behavioral Changes in Rat Brain|Cell. Mol. Neurobiol.27(5): 595-607|2007|10.1007/s10571-007-9146-0
101773|A||Brinkman,S.F., and W.D. Johnston|Acute Toxicity of Aqueous Copper, Cadmium, and Zinc to the Mayfly Rhithrogena hageni|Arch. Environ. Contam. Toxicol.54(3): 466-472|2008|10.1007/s00244-007-9043-z
101774|T||Chua,J.S.C., A.M. Rofe, and P. Coyle|Dietary Zinc Supplementation Ameliorates LPS-Induced Teratogenicity in Mice|Pediatr. Res.59(3): 355-358|2006|10.1203/01.pdr.0000199906.37619.9c
101775|A||Drost,W., M. Matzke, and T. Backhaus|Heavy Metal Toxicity to Lemna minor:  Studies on the Time Dependence of Growth Inhibition and the Recovery After Exposure|Chemosphere67(1): 36-43|2007|10.1016/j.chemosphere.2006.10.018
101776|A||Elumalai,M., C. Antunes, and L. Guilhermino|Enzymatic Biomarkers in the Crab Carcinus maenas from the Minho River Estuary (NW Portugal) Exposed to Zinc and Mercury|Chemosphere66(7): 1249-1255|2007|10.1016/j.chemosphere.2006.07.030
101777|A||Evans,R.D., G.C. Balch, H.E. Evans, and P.M. Welbourn|Uptake and Elimination of Lead, Zinc, and Copper by Caddisfly Larvae (Trichoptera:  Hydropsychidae) Using Stable Isotope Tracers|Arch. Environ. Contam. Toxicol.51(1): 35-42|2006|10.1007/s00244-005-2080-6
101778|A||Gopalakrishnan,S., H. Thilagam, and P.V. Raja|Comparison of Heavy Metal Toxicity in Life Stages (Spermiotoxicity, Egg Toxicity, Embryotoxicity and Larval Toxicity) of Hydroides elegans|Chemosphere71(3): 515-528|2008|10.1016/j.chemosphere.2007.09.062
101779|A||Guy,C.P., A.E. Pinkney, and M.H. Taylor|Effects of Sediment-Bound Zinc Contamination on Early Life Stages of the Mummichog (Fundulus heteroclitus L.) in the Christina Watershed, Delaware, USA|Environ. Toxicol. Chem.25(5): 1305-1311|2006|10.1897/05-249R.1
101780|A||Horvatic,J., and V. Persic|The Effect of Ni2+,Co2+, Zn2+, Cd2+ and Hg2+ on the Growth Rate of Marine Diatom Phaeodactylum tricornutum Bohlin:  Microplate Growth Inhibition Test|Bull. Environ. Contam. Toxicol.79(5): 494-498|2007|10.1007/s00128-007-9291-7
101781|A||King,C.K., S.A. Gale, R.V. Hyne, J.L. Stauber, S.L. Simpson, and C.W. Hickey|Sensitivities of Australian and New Zealand Amphipods to Copper and Zinc in Waters and Metal-Spiked Sediments|Chemosphere63(9): 1466-1476|2006|10.1016/j.chemosphere.2005.09.020
101782|A||Le Faucheur,S., F. Schildknecht, R. Behra, and L. Sigg|Thiols in Scenedesmus vacuolatus upon Exposure to Metals and Metalloids|Aquat. Toxicol.80(4): 355-361|2006|10.1016/j.aquatox.2006.10.002
101783|A||Neuberger-Cywiak,L., Y. Achituv, and E.M. Garcia|Effects of Sublethal Zn++ and Cd++ Concentrations on Filtration Rate, Absorption Efficiency and Scope for Growth in Donax trunculus (Bivalvia; Donacidae)|Bull. Environ. Contam. Toxicol.79(6): 622-627|2007|10.1007/s00128-007-9306-4
101785|A||Redeker,E.S., K. Van Campenhout, L. Bervoets, H. Reijnders, and R. Blust|Subcellular Distribution of Cd in the Aquatic Oligochaete Tubifex tubifex, Implications for Trophic Availability and Toxicity|Environ. Pollut.148(1): 166-175|2007|10.1016/j.envpol.2006.10.031
101786|A||Spijkerman,E., D. Barua, A. Gerloff-Elias, J. Kern, U. Gaedke, and S.A. Heckathorn|Stress Responses and Metal Tolerance of Chlamydomonas acidophila in Metal-Enriched Lake Water and Artificial Medium|Extremophiles (Tokyo)11(4): 551-562|2007|10.1007/s00792-007-0067-0
101787|A||Zhang,L., and W.X. Wang|Gastrointestinal Uptake of Cadmium and Zinc by a Marine Teleost Acanthopagrus schlegeli|Aquat. Toxicol.85(2): 143-153|2007|10.1016/j.aquatox.2007.08.008
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101789|T||Yein,B.R.|Relative Efficacy of Some Insecticides Against Red Ant (Dorylus orientalis Westwood) on Potato|J. Res. Assam Agric. Univ.5(1): 68-71|1984|
101790|T||Buker III,R.S., B. Rathinasabapathi, W.M. Stall, G. MacDonald, and S.M. Olson|Physiological Basis for Differential Tolerance of Tomato and Pepper to Rimsulfuron and Halosulfuron:  Site of Action Study|Weed Sci.52(2): 201-205|2004|10.1614/WS-03-046R
101791|T||Frazier,T.L., S.J. Nissen, D.A. Mortensen, and L.J. Meinke|The Influence of Terbufos on Primisulfuron Absorption and Fate in Corn (Zea mays)|Weed Sci.41(4): 664-668|1993|10.1017/S0043174500076487
101792|T||Siminszky,B., F.T. Corbin, and Y. Sheldon|Nicosulfuron Resistance and Metabolism in Terbufos- and Naphthalic Anhydride-Treated Corn|Weed Sci.43(2): 163-168|1995|10.1017/S0043174500081005
101793|T||Robinson,D.K., D.W. Monks, and J.D. Burton|Safening Influence of LAB 145 138 on Nicosulfuron, Terbufos and Bentazon Interactions in Sweet Corn (Zea mays)|Weed Sci.44(2): 339-344|1996|10.1017/S0043174500093978
101794|T||Westcott,N.D.|Terbufos Residues in Wheat and Barley|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(4): 317-330|1988|
101795|T||Mori,M., H. Kobayashi, C. Sugiyama, Y. Katsumura, and C. Furihata|Induction of Unscheduled DNA Synthesis in Hairless Mouse Epidermis by Skin Carcinogens|J. Toxicol. Sci.24(3): 217-226|1999|10.2131/jts.24.3_217
101796|T||Ozdemir,G., and F. Inanc|Zinc may Protect Remote Ocular Injury Caused by Intestinal Ischemia Reperfusion in Rats|Tohoku J. Exp. Med.206(3): 247-251|2005|10.1620/tjem.206.247
101797|T||Sobel,H., M. Sideman, and R. Arce|Effect of Co++, Ni++, and Zn++ on Corticoid Excretion by the Guinea Pig|Proc. Soc. Exp. Biol. Med.104:86-88|1960|10.3181/00379727-104-25736
101798|T||Frazier,T.L., and S.J. Nissen|Influence of Crop Safeners on the Interaction of Primisulfuron and Terbufos in Corn (Zea mays)|Weed Sci.42(2): 168-171|1994|10.1017/S004317450008022X
101799|T||Wilcut,J.W., J.S. Richburg III, and F.R.,Jr. Walls|Response of Johnsongrass (Sorghum halepense) and Imidazolinone-Resistant Corn (Zea mays) to AC 263,222|Weed Technol.13(3): 484-488|1999|10.1017/S0890037X00046078
101800|A||Kreutzweiser,D.P., and P.D. Kingsbury|Recovery of Stream Benthos and Its Utilization by Native Fish Following High Dosage Permethrin Applications|Rep.No.FPM-X-59, For.Pest Manag.Inst., Sault St.Marie, Ont.:18 p.|1980|
101801|T||Takagi,H., and E. Block|Effects of Feeding Coumaphos to Dairy Cows at Various Stages of Lactation on Subclinical Parasite Infection and Milk Production|Can. J. Anim. Sci.66(1): 141-150|1986|10.4141/cjas86-015
101802|T||Diehl,K.E., S.L. Taylor, D.M. Simpson, and E.W. Stoller|Effect of Soil Organic Matter on the Interaction Between Nicosulfuron and Terbufos in Corn (Zea mays)|Weed Sci.43(2): 306-311|1995|10.1017/S0043174500081224
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101804|T||Stinner,B.R., D.A. McCartney, and D.M.,Jr. Van Doren|Soil and Foliage Arthropod Communities in Conventional, Reduced and No-Tillage Corn (Maize, Zea mays L.) Systems:  A Comparison After 20 Years of Continuous Cropping|Soil Tillage Res.11(2): 147-158|1988|10.1016/0167-1987(88)90022-0
101805|T||Andow,D.A., and K.R. Ostlie|First-Generation European Corn Borer (Lepidoptera:  Pyralidae) Response to Three Conservation Tillage Systems in Minnesota|J. Econ. Entomol.83(6): 2455-2461|1990|10.1093/jee/83.6.2455
101806|A||Marigomez,J.A., V. Saez, M.P. Cajaraville, and E. Angulo|A Planimetric Study of the Mean Epithelial Thickness (MET) of the Molluscan Digestive Gland over the Tidal Cycle and Under Environmental Stress Conditions|Helgol. Wiss. Meeresunters.44(1): 81-94|1990|10.1007/BF02365432
101807|T||Kemerait,R.C., P.M. Roberts, W.D. Shurley, S.N. Brown, and G. Beard|An Assessment of Thiophanate Methyl and Dicrotophos to Reduce Boll Damage and Rot to Stinkbugs in Georgia|Proc. Beltwide Cotton Conf.:126-129|2006|
101808|T||Hardke,J.T., G.M. Lorenz III, K. Colwell, and C. Shelton|Effects of Tank Mixes of MON 3539 and Selected Compounds in Roundup Ready Flex Cotton - 2005|Summaries of Arkansas Cotton Research: AAES Research Series 543:150-155|2005|
101811|T||Gong,Y.F., H.R. Liao, J.F. Wang, and H.Y. Li|Effect of Wheat Middlings, Microbial Phytase, and Citric Acid on Phytate-Phosphorus, Calcium, and Protein Utilization of Broilers|Agric. Sci. China5(4): 318-322|2006|10.1016/S1671-2927(06)60056-4
101813|A||Daka,E.R., and S.J. Hawkins|Interactive Effects of Copper, Cadmium and Lead on Zinc Accumulation in the Gastropod Mollusc Littorina saxatilis|Water Air Soil Pollut.171(1-4): 19-28|2006|10.1007/s11270-005-9009-6
101814|T||Jamieson,J.A., C.G. Taylor, and H.A. Weiler|Marginal Zinc Deficiency Exacerbates Bone Lead Accumulation and high Dietary Zinc Attenuates Lead Accumulation at the Expense of Bone Density in Growing Rats|Toxicol. Sci.92(1): 286-294|2006|10.1093/toxsci/kfj201
101815|A||John,S.G., R.W. Geis, M.A. Saito, and E.A. Boyle|Zinc Isotope Fractionation During High-Affinity and Low-Affinity Zinc Transport by the Marine Diatom Thalassiosira oceanica|Limnol. Oceanogr.52(6): 2710-2714|2007|10.4319/lo.2007.52.6.2710
101816|A||Morris,J.M., and J.S. Meyer|Photosynthetically Mediated Zn Removal from the Water Column in High Ore Creek, Montana|Water Air Soil Pollut.179(1-4): 391-395|2007|10.1007/s11270-006-9232-9
101817|A||Paixao,S.M., L. Silva, A. Fernandez, K. O'Rourke, E. Mendonca, and A. Picado|Performance of a Miniaturized Algal Bioassay in Phytotoxicity Screening|Ecotoxicology17(3): 165-171|2008|10.1007/s10646-007-0179-4
101818|A||Poynton,H.C., J.R. Varshavsky, B. Chang, G. Cavigiolio, S. Chan, P.S. Holman, A.V. Loguinov, D.J. Bauer, K. Komachi, E.|Daphnia magna Ecotoxicogenomics Provides Mechanistic Insights into Metal Toxicity|Environ. Sci. Technol.41(3): 1044-1050|2007|10.1021/es0615573
101819|AT||Sanchez-Moreno,S., J.A. Camargo, and A. Navas|Ecotoxicological Assessment of the Impact of Residual Heavy Metals on Soil Nematodes in the Guadiamar River Basin (Southern Spain)|Environ. Monit. Assess.116(1-3): 245-262|2006|10.1007/s10661-006-7398-7
101820|A||Zhang,L., and W.X. Wang|Alteration of Dissolved Cadmium and Zinc Uptake Kinetics by Metal Pre-Exposure in the Black Sea Bream (Acanthopagrus schlegeli)|Environ. Toxicol. Chem.25(5): 1312-1321|2006|10.1897/05-262R.1
101821|A||Gouvea,S.P., G.L. Boyer, and M.R. Twiss|Influence of Ultraviolet Radiation, Copper, and Zinc on Microcystin Content in Microcystis aeruginosa (Cyanobacteria)|Harmful Algae7(2): 194-205|2008|10.1016/j.hal.2007.07.003
101822|T||Jamalomidi,M., M. Esfahani, and J. Carapetian|Zinc and Salinity Interaction on Agronomical Traits, Chlorophyll and Proline Content in Lowland Rice (Oryza sativa L.) Genotypes|Pak. J. Biol. Sci.9(7): 1315-1319|2006|10.3923/pjbs.2006.1315.1319
101823|T||Khan,A.T., T.C. Graham, L. Ogden, S. Ali, Salwa, S.J. Thompson, K.F. Shireen, and M. Mahboob|A Two-Generational Reproductive Toxicity Study of Zinc in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(4): 403-415|2007|
101824|T||Kultima,K., E.L. Fernandez, B. Scholz, A.L. Gustafson, L. Dencker, and M. Stigson|Cadmium-Induced Gene Expression Changes in the Mouse Embryo, and the Influence of Pretreatment with Zinc|Reprod. Toxicol.22(4): 636-646|2006|10.1016/j.reprotox.2006.05.007
101825|T||Lahr,J., S.A.E. Kools, A. Van der Hout, and J.H. Faber|Combined Effects of Zinc and Earthworm Density on Soil Ecosystem Functioning|Soil Biol. Biochem.40(2): 334-341|2008|10.1016/j.soilbio.2007.08.012
101826|A||Nandini,S., E.A. Picazo-Paez, and S.S.S. Sarma|The Combined Effects of Heavy Metals (Copper and Zinc), Temperature and Food (Chlorella vulgaris) Level on the Demographic Characters of Moina macrocopa (Crustacea:  Cladocera)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1433-1442|2007|
101827|A||Oner,M., G. Atli, and M. Canli|Changes in Serum Biochemical Parameters of Freshwater Fish Oreochromis niloticus Following Prolonged Metal (Ag, Cd, Cr, Cu, Zn) Exposures|Environ. Toxicol. Chem.27(2): 360-366|2008|10.1897/07-281R.1
101828|T||Bandhu,H.K., V. Dani, M.L. Garg, and D.K. Dhawan|Hepatoprotective Role of Zinc in Lead-Treated, Protein-Deficient Rats|Drug Chem. Toxicol.29(1): 11-24|2006|10.1080/01480540500408507
101829|A||Choudhary,M., U.K. Jetley, M.A. Khan, S. Zutshi, and T. Fatma|Effect of Heavy Metal Stress on Proline, Malondialdehyde, and Superoxide Dismutase Activity in the Cyanobacterium Spirulina platensis-S5|Ecotoxicol. Environ. Saf.66(2): 204-209|2007|10.1016/j.ecoenv.2006.02.002
101830|T||Feng,Z., D. Carlson, and H.D. Poulsen|Zinc Attenuates Forskolin-Stimulated Electrolyte Secretion Without Involvement of the Enteric Nervous System in Small Intestinal Epithelium from Weaned Piglets|Comp. Biochem. Physiol. A Mol. Integr. Physiol.145(3): 328-333|2006|10.1016/j.cbpa.2006.07.006
101831|A||Giarratano,E., L. Comoglio, and O. Amin|Heavy Metal Toxicity in Exosphaeroma gigas (Crustacea, Isopoda) from the Coastal Zone of Beagle Channel|Ecotoxicol. Environ. Saf.68(3): 451-462|2007|10.1016/j.ecoenv.2006.11.008
101832|A||Muyssen,B.T.A., and C.R. Janssen|Age and Exposure Duration as a Factor Influencing Cu and Zn Toxicity Toward Daphnia magna|Ecotoxicol. Environ. Saf.68(3): 436-442|2007|10.1016/j.ecoenv.2006.12.003
101833|T||Pathak,A., A. Mahmood, R. Pathak, and D. Dhawan|Effect of Zinc on Hepatic Drug Metabolism Under Ethanol Toxicity|Drug Chem. Toxicol.31(1): 163-173|2008|10.1080/01480540701688899
101834|T||Peixoto,N.C., and M.E. Pereira|Effectiveness of ZnCl2 in Protecting Against Nephrotoxicity Induced by HgCl2 in Newborn Rats|Ecotoxicol. Environ. Saf.66(3): 441-446|2007|10.1016/j.ecoenv.2006.02.012
101835|A||Shuhaimi-Othman,M., and D. Pascoe|Bioconcentration and Depuration of Copper, Cadmium, and Zinc Mixtures by the Freshwater Amphipod Hyalella azteca|Ecotoxicol. Environ. Saf.66(1): 29-35|2007|10.1016/j.ecoenv.2006.03.003
101836|A||Wegwu,M.O., and J.O. Akaninwor|Assessment of Heavy-Metal Profile of the New Calabar River and Its Impact on Juvenile Clarias gariepinus|Chem. Biodivers.3(1): 79-87|2006|10.1002/cbdv.200690010
101837|A||Debenest,T., J. Silvestre, M. Coste, F. Delmas, and E. Pinelli|Herbicide Effects on Freshwater Benthic Diatoms:  Induction of Nucleus Alterations and Silica Cell Wall Abnormalities|Aquat. Toxicol.88:88-94|2008|10.1016/j.aquatox.2008.03.011
101838|T||Tinwell,H., C. Friry-Santini, D. Rouquie, S. Belluco, L. Elies, C. Pallen, and R. Bars|Evaluation of the Antiandrogenic Effects of Flutamide, DDE, and Linuron in the Weanling Rat Assay Using Organ Weight, Histopathological, and Proteomic Approaches|Toxicol. Sci.100(1): 54-65|2007|10.1093/toxsci/kfm208
101839|A||Barka,S.|Insoluble Detoxification of Trace Metals in a Marine Copepod Tigriopus brevicornis (Muller) Exposed to Copper, Zinc, Nickel, Cadmium, Silver and Mercury|Ecotoxicology16(7): 491-502|2007|10.1007/s10646-007-0155-z
101840|A||Achard-Joris,M., P. Gonzalez, V. Marie, M. Baudrimont, and J.P. Bourdineaud|cDNA Cloning and Gene Expression of Ribosomal S9 Protein Gene in the Mollusk Corbicula fluminea:  A New Potential Biomarker of Metal Contamination Up-Regulated by Cadmium and Repressed by Zinc|Environ. Toxicol. Chem.25(2): 527-533|2006|10.1897/05-211R.1
101841|A||Guimaraes-Soares,L., C. Pascoal, and F. Cassio|Effects of Heavy Metals on the Production of Thiol Compounds by the Aquatic Fungi Fontanospora fusiramosa and Flagellospora curta|Ecotoxicol. Environ. Saf.66(1): 36-43|2007|10.1016/j.ecoenv.2005.10.005
101842|A||Hoang,T.C., J.R. Tomasso, and S.J. Klaine|An Integrated Model Describing the Toxic Responses of Daphnia magna to Pulsed Exposures of Three Metals|Environ. Toxicol. Chem.26(1): 132-138|2007|10.1897/06-081R.1
101843|A||Martin-Diaz,M.L., S.R. Tuberty, C.L.,Jr. McKenney, J. Blasco, C. Sarasquete, and T.A. DelValls|The Use of Bioaccumulation, Biomarkers and Histopathology Diseases in Procambarus clarkii to Establish Bioavailability of Cd and Zn After a Mining Spill|Environ. Monit. Assess.116(1-3): 169-184|2006|10.1007/s10661-006-7234-0
101845|T||Olchawa,E., M. Bzowska, S.R. Sturzenbaum, A.J. Morgan, and B. Plytycz|Heavy Metals Affect the Coelomocyte-Bacteria Balance in Earthworms:  Environmental Interactions Between Abiotic and Biotic Stressors|Environ. Pollut.142(2): 373-381|2006|10.1016/j.envpol.2005.09.023
101846|A||Hoang,T.C., and S.J. Klaine|Influence of Organism Age on Metal Toxicity to Daphnia magna|Environ. Toxicol. Chem.26(6): 1198-1204|2007|10.1897/06-515R.1
101847|A||Daldorph,P., and R. Price|Long Term Phosphorus Control at Three Eutrophic Reservoirs in South-Eastern England|Ergeb.Limnol.40:231-243|1994|
101848|T||Schoene,P., B. Lennartz, and E.C. Oerke|Fungicide Sensitivity of Fungi Used for Biocontrol of Perthotrophic Pathogens|In: H.Lyr, P.E.Russell, H.W.Dehne and H.D.Sisler (Eds.), Modern Fungicides and Antifungal Compounds II, Friedrichroda, Germany:477-482|1999|
101849|T||Engelhardt,R., J.H. Langkowski, R. Fischer, P. Nielsen, H. Kooijman, H.C. Heinrich, and E. Bucheler|Liver Iron Quantification:  Studies in Aqueous Iron Solutions, Iron Overloaded Rats, and Patients with Hereditary Hemochromatosis|Magn. Reson. Imaging12(7): 999-1007|1994|
101850|A||Rastogi,N., and D. Knappe|Treatment of Algae-Laden Waters with Potassium Permanganate:  A Case Study for the Taste and Odor Causing Species Synura petersenii|In: Proc.Annu.Conf., Am.Water Works Assoc.:1658-1668|2000|
101852|T||Simpson,R.J., K.B. Raja, M. Peruzzi, and P. Cremonesi|Absorption of Iron from Iron Succinyl-Protein Complexes by Mouse Small Intestine|J. Pharm. Pharmacol.43(6): 388-391|1991|10.1111/j.2042-7158.1991.tb03494.x
101853|T||Bowen,T.E., and T.W. Sullivan|Influence of Dietary Cupric Sulfate on the Response of Young Turkeys to Penicillin-Streptomycin (1:3)|Poult. Sci.50(1): 273-278|1971|10.3382/ps.0500273
101854|T||Horvath,D.J.|Consumption of Simulated Acid Mine Water by Sheep|J. Anim. Sci.61(2): 474-479|1985|10.2527/jas1985.612474x
101857|T||Calore,E.E., N.M. Perez, and M.M. Herman|Morphometric Studies of Cardiac Miocytes of Rats Chronically Treated with an Organophosphate|Ecotoxicol. Environ. Saf.66(3): 447-450|2007|10.1016/j.ecoenv.2006.04.001
101858|T||Lin,Y.W., G. Wu, and T. Miyata|Insecticide Susceptibility of Surviving Cotesia plutellae (Hym: Braconidae) and Diaeretiella rapae (M'Intosh) (Hym: Aphidiidae) as Affected by Sublethal Insecticide Dosages on Host Insects|Pest Manag. Sci.63(9): 841-850|2007|10.1002/ps.1402
101859|T||Scherholz de Castro,V.L., and S.H. Chiorato|Effects of Separate and Combined Exposure to the Pesticides Methamidophos and Chlorothalonil on the Development of Suckling Rats|Int. J. Hyg. Environ. Health210(2): 169-176|2007|10.1016/j.ijheh.2006.09.003
101860|T||Wang,M.C., Y.H. Liu, Q. Wang, M. Gong, X.M. Hua, Y.J. Pang, S. Hu, and Y.H. Yang|Impacts of Methamidophos on the Biochemical, Catabolic, and Genetic Characteristics of Soil Microbial Communities|Soil Biol. Biochem.40(3): 778-788|2008|10.1016/j.soilbio.2007.10.012
101861|T||Johnson,S.A., S.W. Nicolson, and S. Jackson|The Effect of Different Oral Antibiotics on the Gastrointestinal Microflora of a Wild Rodent (Aethomys namaquensis)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.138(4): 475-483|2004|10.1016/j.cbpb.2004.06.010
101862|T||Knaak,J.B., K.C. Jacobs, and G.M. Wang|Estimating the Hazard to Humans Applying Nemacur 3EC with Rat Dermal-Dose ChE Response Data|Bull. Environ. Contam. Toxicol.37(2): 159-163|1986|10.1007/BF01607743
101863|T||Hoover,K., C.M. Schultz, S.S. Lane, B.C. Bonning, B.D. Hammock, and S.S. Duffey|Effects of Diet-Age and Streptomycin on Virulence of Autographa californica M Nucleopolyhedrovirus Against the Tobacco Budworm|J. Invertebr. Pathol.69(1): 46-50|1997|10.1006/jipa.1996.4620
101864|T||Kinouchi,T., K. Kataoka, K. Miyanishi, S. Akimoto, and Y. Ohnishi|Biological Activities of the Intestinal Microflora in Mice Treated with Antibiotics or Untreated and the Effects of the Microflora on Absorption and Metabolic Activation of Orally Administered Glutathione Conjugates of |Carcinogenesis14(5): 869-874|1993|10.1093/carcin/14.5.869
101865|T||Lemeire,K., V. Van Merris, and R. Cortvrindt|The Antibiotic Streptomycin Assessed in a Battery of In Vitro Tests for Reproductive Toxicology|Toxicol. In Vitro21(7): 1348-1353|2007|10.1016/j.tiv.2007.05.004
101866|T||Myhre,J.L., A. DePaoli, and G.R. Keim|Ototoxicity of Subcutaneously Administered Aztreonam in Neonatal Rats|Toxicol. Appl. Pharmacol.77(1): 108-115|1985|10.1016/0041-008X(85)90272-8
101867|T||Sipes,B.S., and K.M. Delate|Potential of Biologically-Derived Nematicides for Control of Anthurium Decline|Nematropica26(2): 171-175|1996|
101868|T||Megharaj,M., I. Singleton, R. Kookana, and R. Naidu|Persistence and Effects of Fenamiphos on Native Algal Populations and Enzymatic Activities in Soil|Soil Biol. Biochem.31(11): 1549-1553|1999|10.1016/S0038-0717(99)00078-4
101869|T||McPherson,R.M., and A.L. Lambert|Control of Hornworms in Georgia Flue-Cured Tobacco, 1993|Arthropod Manag. Tests19:283-284|1994|
101870|T||Johnson,A.W., G.W. Burton, D.R. Sumner, and Z. Handoo|Coastal Bermudagrass Rotation and Fallow for Management of Nematodes and Soilborne Fungi on Vegetable Crops|J. Nematol.29(suppl.4): 710-716|1997|
101871|T||Johnson,A.W., A.M. Golden, D.L. Auld, and D.R. Sumner|Effects of Rapeseed and Vetch as Green Manure Crops and Fallow on Nematodes and Soil-Borne Pathogens|J. Nematol.24(1): 117-126|1992|
101872|A||Caceres,T., M. Megharaj, and R. Naidu|Toxicity of Fenamiphos and Its Metabolites to the Cladoceran Daphnia carinata:  The Influence of Microbial Degradation in Natural Waters|Chemosphere66(7): 1264-1269|2007|10.1016/j.chemosphere.2006.07.027
101873|T||Schaider,L.A., D.R. Parker, and D.L. Sedlak|Uptake of EDTA-Complexed Pb, Cd and Fe by Solution- and Sand-Cultured Brassica juncea|Plant Soil286(1-2): 377-391|2006|10.1007/s11104-006-9049-8
101874|T||Egli,D., H. Yepiskoposyan, A. Selvaraj, K. Balamurugan, R. Rajaram, A. Simons, G. Multhaup, S. Mettler, A. Vardanyan, O|A Family Knockout of all Four Drosophila Metallothioneins Reveals a Central Role in Copper Homeostasis and Detoxification|Mol. Cell. Biol.26(6): 2286-2296|2006|10.1128/MCB.26.6.2286-2296.2006
101875|A||Azevedo,M.M., A. Carvalho, C. Pascoal, F. Rodrigues, and F. Cassio|Responses of Antioxidant Defenses to Cu and Zn Stress in Two Aquatic Fungi|Sci. Total Environ.377(2/3): 233-243|2007|10.1016/j.scitotenv.2007.02.027
101876|A||Azuara-Garcia,R., S.S.S. Sarma, and S. Nandini|The Combined Effects of Zinc and Alga on the Life Table Demography of Anuraeopsis fissa and Brachionus rubens (Rotifera)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control41(4): 559-572|2006|
101878|A||Franklin,N.M., N.J. Rogers, S.C. Apte, G.E. Batley, G.E. Gadd, and P.S. Casey|Comparative Toxicity of Nanoparticulate ZnO, Bulk ZnO, and ZnCl2 to a Freshwater Microalga (Pseudokirchneriella subcapitata):  The  Importance of Particle Solubility|Environ. Sci. Technol.41(24): 8484-8490|2007|10.1021/es071445r
101879|A||Guimaraes-Soares,L., H. Felicia, M.J. Bebianno, and F. Cassio|Metal-Binding Proteins and Peptides in the Aquatic Fungi Fontanospora fusiramosa and Flagellospora curta Exposed to Severe Metal Stress|Sci. Total Environ.372(1): 148-156|2006|10.1016/j.scitotenv.2006.09.017
101880|A||Juarez-Franco,M.F., S.S.S. Sarma, and S. Nandini|Effect of Cadmium and Zinc on the Population Growth of Brachionus havanaensis (Rotifera:  Brachionidae)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1489-1493|2007|
101881|A||Liu,H.J., J.L. Zhang, P. Christie, and F.S. Zhang|Influence of External Zinc and Phosphorus Supply on Cd Uptake by Rice (Oryza sativa L.) Seedlings with Root Surface Iron Plaque|Plant Soil300(1-2): 105-115|2007|10.1007/s11104-007-9393-3
101883|A||Nunez-Nogueira,G., C. Mouneyrac, J.C. Amiard, and P.S. Rainbow|Subcellular Distribution of Zinc and Cadmium in the Hepatopancreas and Gills of the Decapod Crustacean Penaeus indicus|Mar. Biol.150(2): 197-211|2006|10.1007/s00227-006-0350-0
101884|T||Peixoto,N.C., M.A. Serafim, E.M.M. Flores, M.J. Bebianno, and M.E. Pereira|Metallothionein, Zinc, and Mercury Levels in Tissues of Young Rats Exposed to Zinc and Subsequently to Mercury|Life Sci.81(16): 1264-1271|2007|10.1016/j.lfs.2007.08.038
101885|A||Tripathi,B.N., and J.P. Gaur|Physiological Behavior of Scenedesmus sp. During Exposure to Elevated Levels of Cu and Zn and After Withdrawal of Metal Stress|Protoplasma (Multiple Languages)229(1): 1-9|2006|10.1007/s00709-006-0196-9
101886|A||Zhu,X., L. Zhu, Z. Duan, R. Qi, Y. Li, and Y. Lang|Comparative Toxicity of Several Metal Oxide Nanoparticle Aqueous Suspensions to Zebrafish (Danio rerio) Early Developmental Stage|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3): 278-284|2008|
101888|T||Pannacci,E., F. Graziani, and G. Covarelli|Use of Herbicide Mixtures for Pre and Post-Emergence Weed Control in Sunflower (Helianthus annuus)|Crop Prot.26(8): 1150-1157|2007|10.1016/j.cropro.2006.10.008
101889|T||Bebe,F.N., and M. Panemangalore|Exposure to Low Doses of Endosulfan and Chlorpyrifos Modifies Endogenous Antioxidants in Tissues of Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(3): 349-363|2003|
101890|T||Rowsey,P.J., and C.J. Gordon|Tolerance to the Hypothermic and Hyperthermic Effects of Chlorpyrifos|Toxicology121(3): 215-221|1997|10.1016/S0300-483X(97)00068-1
101891|T||Richardson,R.J., T.B. Moore, U.S. Kayyali, J.H. Fowke, and J.C. Randall|Inhibition of Hen Brain Acetylcholinesterase and Neurotoxic Esterase by Chlorpyrifos In Vivo and Kinetics of Inhibition by Chlorpyrifos Oxon In Vitro:  Application to Assessment of Neuropathic Risk|Fundam. Appl. Toxicol.20(3): 273-279|1993|10.1006/faat.1993.1036
101892|T||Ricceri,L., A. Venerosi, F. Capone, M.F. Cometa, P. Lorenzini, S. Fortuna, and G. Calamandrei|Developmental Neurotoxicity of Organophosphorous Pesticides:  Fetal and Neonatal Exposure to Chlorpyrifos Alters Sex-Specific Behaviors at Adulthood in Mice|Toxicol. Sci.93(1): 105-113|2006|10.1093/toxsci/kfl032
101893|T||Costa,L.G., B.E. McDonald, S.D. Murphy, G.S. Omenn, R.J. Richter, A.G. Motulsky, and C.E. Furlong|Serum Paraoxonase and Its Influence on Paraoxon and Chlorpyrifos-Oxon Toxicity in Rats|Toxicol. Appl. Pharmacol.103(1): 66-76|1990|10.1016/0041-008X(90)90263-T
101894|T||Crumpton,T.L., F.J. Seidler, and T.A. Slotkin|Developmental Neurotoxicity of Chlorpyrifos In Vivo and In Vitro:  Effects on Nuclear Transcription Factors Involved in Cell Replication and Differentiation|Brain Res.857(1-2): 87-98|2000|10.1016/S0006-8993(99)02357-4
101895|T||Dam,K., S.J. Garcia, F.J. Seidler, and T.A. Slotkin|Neonatal Chlorpyrifos Exposure Alters Synaptic Development and Neuronal Activity in Cholinergic and Catecholaminergic Pathways|Brain Res. Dev. Brain Res.116(1): 9-20|1999|10.1016/S0165-3806(99)00067-X
101896|T||Dam,K., F.J. Seidler, and T.A. Slotkin|Developmental Neurotoxicity of Chlorpyrifos:  Delayed Targeting of DNA Synthesis After Repeated Administration|Brain Res. Dev. Brain Res.108(1-2): 39-45|1998|10.1016/S0165-3806(98)00028-5
101897|T||Jortner,B.S., S.K. Hancock, J. Hinckley, L. Flory, L. Colby, L. Tobias, L. Williams, and M. Ehrich|Neuropathological Studies of Rats Following Multiple Exposure to Tri-Ortho-Tolyl Phosphate, Chlorpyrifos and Stress|Toxicol. Pathol.33(3): 378-385|2005|10.1080/01926230590930254
101898|A||Tilak,K.S., K. Veeraiah, and D.K. Rao|Biochemical Changes Induced by Chlorpyrifos, an Organophosphate Compound in Sublethal Concentrations to the Freshwater Fish Catla catla, Labeo rohita and Cirrhinus mrigala|J. Environ. Biol.26(Suppl.2): 341-347|2005|
101899|T||White,J.C., Z.D. Parrish, M. Isleyen, M.P.N. Gent, W. Iannucci-Berger, B.D. Eitzer, J.W. Kelsey, and M.I. Mattina|Influence of Citric Acid Amendments on the Availability of Weathered PCBs to Plant and Earthworm Species|Int. J. Phytoremediat.8(1): 63-79|2005|10.1080/15226510500507102
101900|A||Ford,L.A., S.K. Alexander, K.M. Cooper, and R.T. Hanlon|Bacterial Populations of Normal and Ulcerated Mantle Tissue of the Squid, Lolliguncula brevis|J. Invertebr. Pathol.48(1): 13-26|1986|10.1016/0022-2011(86)90138-2
101901|T||Katz,S.E., C.A. Fassbender, D. Dorfman, and J.J.,Jr. Dowling|Chlortetracycline Residues in Broiler Tissue and Organs|J. AOAC Int.55(1): 134-138|1972|10.1093/jaoac/55.1.134
101903|A||Katharios,P., R.P. Smullen, and V. Inglis|The Use of the Polychaete Worm Nereis virens Eggs as Vehicle for the Delivery of Oxytetracycline in Solea solea Larvae|Aquaculture243(1-4): 1-7|2005|10.1016/j.aquaculture.2004.09.031
101904|T||Jarosz,J.|Yeastlike Fungi from Greater Wax Moth Larvae (Galleria mellonella) Fed Antibiotics|J. Invertebr. Pathol.34(3): 257-262|1991|10.1016/0022-2011(79)90071-5
101905|A||Kerry,J., S. NicGabhainn, and P. Smith|Changes in Oxytetracycline Resistance of Intestinal Microflora Following Oral Administration of this Agent to Atlantic Salmon (Salmo salar L.) Smolts in a Marine Environment|Aquaculture157(3/4): 187-195|1997|10.1016/S0044-8486(97)00159-2
101906|A||Malvisi,J., G.D. Rocca, P. Anfossi, and G. Giorgetti|Tissue Distribution and Residue Depletion of Oxytetracycline in Sea Bream (Sparus aurata) and Sea Bass (Dicentrarchus labrax) After Oral Administration|Aquaculture147(3/4): 159-168|1996|10.1016/S0044-8486(96)01383-X
101907|A||Refstie,S., A.M. Bakke-McKellep, M.H. Penn, A. Sundby, K.D. Shearer, and A. Krogdahl|Capacity for Digestive Hydrolysis and Amino Acid Absorption in Atlantic Salmon (Salmo salar) Fed Diets with Soybean Meal or Inulin with or Without Addition of Antibiotics|Aquaculture261(1): 392-406|2006|10.1016/j.aquaculture.2006.08.005
101908|A||Reed,L.A., T.C. Siewicki, and J.C. Shah|Pharmacokinetics of Oxytetracycline in the White Shrimp, Litopenaeus setiferus|Aquaculture232(1-4): 11-28|2004|10.1016/S0044-8486(03)00451-4
101909|A||Rigos,G., M. Alexis, A. Andriopoulou, and I. Nengas|Pharmacokinetics and Tissue Distribution of Oxytetracycline in Sea Bass, Dicentrarchus labrax, at Two Water Temperatures|Aquaculture210(1-4): 59-67|2002|10.1016/S0044-8486(01)00868-7
101910|A||Rogstad,A., V. Hormazabal, O.F. Ellingsen, and K.E. Rasmussen|Pharmacokinetic Study of Oxytetracycline in Fish.  I.  Absorption, Distribution and Accumulation in Rainbow Trout in Freshwater|Aquaculture96(3/4): 219-226|1991|10.1016/0044-8486(91)90151-V
101912|A||Saeed,M.O.|Association of Vibrio harveyi with Mortalities in Cultured Marine Fish in Kuwait|Aquaculture136(1/2): 21-29|1995|10.1016/0044-8486(95)01045-9
101913|A||Uno,K., T. Aoki, W. Kleechaya, V. Tanasomwang, and L. Ruangpan|Pharmacokinetics of Oxytetracycline in Black Tiger Shrimp, Penaeus monodon, and the Effect of Cooking on the Residues|Aquaculture254(1-4): 24-31|2006|10.1016/j.aquaculture.2005.10.031
101914|A||Uno,K.|Pharmacokinetic Study of Oxytetracycline in Healthy and Vibriosis-Infected Ayu (Plecoglossus altivelis)|Aquaculture143(1): 33-42|1996|10.1016/0044-8486(95)01225-7
101915|A||Hustvedt,S.O., T. Storebakken, and R. Salte|Does Oral Administration of Oxolinic Acid or Oxytetracycline Affect Feed Intake of Rainbow Trout?|Aquaculture92:109-113|1991|10.1016/0044-8486(91)90012-V
101916|A||Lucchesi,D.O.|Evaluating the Contribution of Stocked Walleye Fry and Fingerlings to South Dakota Walleye Populations Through Mass Marking with Oxytetracycline|N. Am. J. Fish. Manag.22(3): 985-994|2002|10.1577/1548-8675(2002)022<0985:ETCOSW>2.0.CO;2
101917|T||Morrisey,R.E., R.W. Tyl, C.J. Price, T.A. Ledoux, J.R. Reel, L.L. Paschke, M.C. Marr, and C.A. Kimmel|The Developmental Toxicity of Orally Administered Oxytetracycline in Rats and Mice|Fundam. Appl. Toxicol.7(3): 434-443|1986|10.1016/0272-0590(86)90093-X
101918|A||Rijkers,G.T., A.G. Teunissen, R. Van Oosterom, and W.B. Van Muiswinkel|The Immune System of Cyprinid Fish.  The Immunosuppressive Effect of the Antibiotic Oxytetracycline in Carp (Cyprinus carpio L.)|Aquaculture19(2): 177-189|1980|10.1016/0044-8486(80)90018-6
101919|A||Wexler,J.B., V.P. Scholey, R.J. Olson, D. Margulies, A. Nakazawa, and J.M. Suter|Tank Culture of Yellowfin Tuna, Thunnus albacares:  Developing a Spawning Population for Research Purposes|Aquaculture220(1-4): 327-353|2003|10.1016/S0044-8486(02)00429-5
101920|T||Sviderskii,V.L., A.E. Khovanskikh, E.V. Rozengart, S.N. Moralev, O.V. Yagodina, V.S. Gorelkin, I.N. Basova, B.N. Kormil|Study of Biochemical Mechanism of Action and Toxic Properties of a Zinc-Containing Derivative of Chlorophyll|Dokl. Biochem. Biophys.401:142-144|2005|10.1007/s10628-005-0055-1
101921|T||Donmez,H.H., M.A. Karsl, I. Meral, N. Donmez, and N. Simsek|Effects of Increasing Zinc Supplementation in Drinking Water on Growth and Thyroid Gland Function and Histology in Broiler Chicks|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)109(10): 438-442|2002|
101922|T||Henderson,I.F., and A.P. Martin|Control of Slugs with Contact-Action Molluscicides|Ann. Appl. Biol.116(2): 273-278|1990|10.1111/j.1744-7348.1990.tb06607.x
101923|T||Khan,M.S., and P. Maliga|Fluorescent Antibiotic Resistance Marker for Tracking Plastid Transformation in Higher Plants|Nat. Biotechnol.17(9): 910-915|1999|10.1038/12907
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101926|T||Tu,C.M.|Effects of Some Experimental Insecticides on Microbial Activities in Mineral and Organic Soils|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(1): 57-64|1989|
101927|T||Hendrich,S., M. Fan, S.W. Sung, R.C. Brown, S. Lebepe-Mazur, R. Myers, and G. Osweiler|Toxicity Evaluation of Polymeric Ferric Sulphate|Int. J. Environ. Technol. Manag.1(4): 464-471|2001|10.1504/IJETM.2001.000775
101928|T||Bashan,Y., and L.E. De-Bashan|Reduction of Bacterial Speck (Pseudomonas syringae pv. Tomato) of Tomato by Combined Treatments of Plant Growth-Promoting Bacterium, Azospirillum brasilense, Streptomycin Sulfate, and Chemo-Thermal Seed Treatment|Eur. J. Plant Pathol.108(9): 821-829|2002|10.1023/A:1021274419518
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101932|T||Argauer,R.J., and M. Gilliam|A Fluorometric Method for Determining Oxytetracycline in Treated Colonies of the Honey Bee, Apis mellifera|J. Invertebr. Pathol.23(1): 51-54|1974|10.1016/0022-2011(74)90072-X
101933|A||Bruun,M.S., L. Madsen, and I. Dalsgaard|Efficiency of Oxytetracycline Treatment in Rainbow Trout Experimentally Infected with Flavobacterium psychrophilum Strains Having Different In Vitro Antibiotic Susceptibilities|Aquaculture215(1-4): 11-20|2003|10.1016/S0044-8486(01)00897-3
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101941|A||Sahul Hameed,A.S., and G. Balasubramanian|Antibiotic Resistance in Bacteria Isolated from Artemia nauplii and Efficacy of Formaldehyde to Control Bacterial Load|Aquaculture183(3-4): 195-205|2000|10.1016/S0044-8486(99)00293-8
101942|A||Kobayashi,K., Y. Fuse, and I.S. Shim|Relationship of Phytotoxic Activity of Cumyluron on the Growth of Eleochais kurogawa Ohwi Seedling to Its Behavior Under Water Leakage Conditions|Weed Biol. Manag.3(3): 189-192|2003|10.1046/j.1445-6664.2003.00103.x
101943|T||Dhawan,D., A. Pathak, V. Dani, R. Pathak, and A. Mahmood|Influence of Zinc on the Status of Hepatic Trace Elements and Biokinetics of 65Zn in Ethanol Treated Rats|Indian J. Exp. Biol.43(3): 259-263|2005|
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101948|T||Stevens,M.M., R.F. Reinke, N.E. Coombes, S. Helliwell, and J. Mo|Influence of Imidacloprid Seed Treatments on Rice Germination and Early Seedling Growth|Pest Manag. Sci.64(3): 215-222|2008|10.1002/ps.1499
101949|T||Faucon,J.P., C. Aurieres, P. Drajnudel, L. Mathieu, M. Ribiere, A.C. Martel, S. Zeggane, M.P. Chauzat, and M.F.A. Auber|Experimental Study on the Toxicity of Imidacloprid Given in Syrup to Honey Bee (Apis mellifera) Colonies|Pest Manag. Sci.61(2): 111-125|2005|10.1002/ps.957
101950|T||Demsia,G., D. Vlastos, M. Goumenou, and D.P. Matthopoulos|Assessment of the Genotoxicity of Imidacloprid and Metalaxyl in Cultured Human Lymphocytes and Rat Bone-Marrow|Mutat. Res.634(1/2): 32-39|2007|10.1016/j.mrgentox.2007.05.018
101951|T||Rust,M.K., D.A. Reierson, and J.H. Klotz|Delayed Toxicity as a Critical Factor in the Efficacy of Aqueous Baits for Controlling Argentine Ants (Hymenoptera: Formicidae)|J. Econ. Entomol.97(3): 1017-1024|2004|10.1093/jee/97.3.1017
101952|T||Santos,A.V., B.L. De Oliveira, and R.I. Samuels|Selection of Entomopathogenic Fungi for Use in Combination with Sub-Lethal Doses of Imidacloprid: Perspectives for the Control of the Leaf-Cutting Ant Atta sexdens rubropilosa Forel (Hymenoptera: Formicidae)|Mycopathologia163(4): 233-240|2007|10.1007/s11046-007-9009-8
101953|T||Ramirez-Romero,R., N. Desneux, A. Decourtye, A. Chaffiol, and M.H. Pham-Delegue|Does Cry1Ab Protein Affect Learning Performances of the Honey Bee Apis mellifera L. (Hymenoptera, Apidae)?|Ecotoxicol. Environ. Saf.70:327-333|2008|10.1016/j.ecoenv.2007.12.002
101954|T||Rogers,M.E., and D.A. Potter|Effects of Spring Imidacloprid Application for White Grub Control on Parasitism of Japanese Beetle (Coleoptera: Scarabaeidae) by Tiphia vernalis (Hymenoptera: Tiphiidae)|J. Econ. Entomol.96(5): 1412-1419|2003|10.1603/0022-0493-96.5.1412
101955|T||Medina,P., J.J. Morales, F. Budia, A. Adan, P. Del Estal, and E. Vinuela|Compatibility of Endoparasitoid Hyposoter didymator (Hymenoptera: Ichneumonidae) Protected Stages with Five Selected Insecticides|J. Econ. Entomol.100(6): 1789-1796|2007|10.1603/0022-0493(2007)100[1789:COEHDH]2.0.CO;2
101956|T||Guez,D., L.P. Belzunces, and R. Maleszka|Effects of Imidacloprid Metabolites on Habituation in Honeybees Suggest the Existence of Two Subtypes of Nicotinic Receptors Differentially Expressed During Adult Development|Pharmacol. Biochem. Behav.75(1): 217-222|2003|10.1016/S0091-3057(03)00070-4
101957|T||Decourtye,A., E. Lacassie, and M.H. Pham-Delegue|Learning Performances of Honeybees (Apis mellifera L.) are Differentially Affected by Imidacloprid According to the Season|Pest Manag. Sci.59(3): 269-278|2003|10.1002/ps.631
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101960|T||Kunkel,B.A., D.W. Held, and D.A. Potter|Impact of Halofenozide, Imidacloprid, and Bendiocarb on Beneficial Invertebrates and Predatory Activity in Turfgrass|J. Econ. Entomol.92(4): 922-930|1999|10.1093/jee/92.4.922
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102102|T||Carey III,V.F., S.O. Duke, R.E. Hoagland, and R.E. Talbert|Resistance Mechanism of Propanil-Resistant Barnyardgrass. I. Absorption, Translocation, and Site of Action Studies|Pestic. Biochem. Physiol.52(3): 182-189|1995|10.1006/pest.1995.1043
102103|T||Leah,J.M., J.C. Caseley, C.R. Riches, and B.E. Valverde|Effect of Mono-Oxygenase Inhibitors on Uptake, Metabolism and Phytotoxicity of Propanil in Resistant Biotypes of Jungle-Rice, Echinochloa colona|Pestic. Sci.49(2): 141-147|1997|10.1002/(SICI)1096-9063(199702)49:2<141::AID-PS514>3.0.CO;2-3
102105|T||National Toxicology Program (NTP)|NTP Technical Report on the Toxicity Studies of 3,3',4, 4'-Tetrachloroazoxybenzene (CAS No. 21232-47-3) Adminstered by Gavage to F344/N Rats and B6C3F1 Mice|Toxicol.Rep.Ser.#66, U.S.Dep.of Health and Hum.Serv., Natl.Toxicol.Prog., Research Triangle Park, NC:132 p.|1998|
102106|A||Joliot,P., P. Bennoun, and A. Joliot|New Evidence Supporting Energy Transfer Between Photosynthetic Units|Biochim. Biophys. Acta305(2): 317-328|1973|10.1016/0005-2728(73)90179-5
102107|T||Thomas,S.H.|Influence of 1,3-Dichloropropene, Fenamiphos, and Carbofuran on Meloidogyne incognita Populations and Yield of Chile Peppers|J. Nematol.26(4S): 683-689|1994|
102108|A||Farineau,J., and D. Laval-Martin|Characteristics of Thermoluminescence Bands of Euglena Cells Belonging to 2 Lines Presenting Different Degrees of Diuron-Resistance|Z. Naturforsch. Sect. C J. Biosci.50(1/2): 86-92|1995|10.1515/znc-1995-1-213
102109|A||Bagchi,S.N., V.S. Chauhan, and J.B. Marwah|Effect of an Antibiotic from Oscillatoria late-virens on Growth, Photosynthesis, and Toxicity of Microcystis aeruginosa|Curr. Microbiol.26(4): 223-228|1993|10.1007/BF01577380
102110|A||New,P.B., and A.C.M. Chiou|Use of Bioluminescence to Study the Inhibition of Algal Photosynthetic Oxygen Evolution, Using Diuron as a Test Chemical|Acta. Phytopathol. Acad. Sci. Hung.19(3/4): 315-325|1984|
102111|A||Reisman,S., A. Michaels, and I. Ohad|Lack of Recovery from Photoinhibition in a Temperature-Sensitive Chlamydomonas reinhardtii Mutant T44 Unable to Synthesize and/or Integrate the QB Protein of Photosystem II at 37C|Biochim. Biophys. Acta849(1): 41-50|1986|10.1016/0005-2728(86)90094-0
102112|A||Prokowski,Z.|Effect of DCMU on Induction Kinetics of Long-Lived Delayed Luminescence in Green Algae|Photosynthetica (Praha)25(2): 223-226|1991|
102113|A||Rai,A.K., A.K. Kashyap, and S.L. Gupta|ATP-Dependent Uptake of Nitrate in Nostoc muscorum and Inhibition by Ammonium Ions|Biochim. Biophys. Acta674(1): 78-86|1981|10.1016/0304-4165(81)90349-4
102114|A||Troton,D., R. Calvayrac, A.T.P. Thi, and D. Laval-Martin|Modifications of Thylakoid Lipids in Euglena gracilis During Diuron-Adaptation|Phytochemistry25(2): 393-399|1986|10.1016/S0031-9422(00)85487-4
102115|A||Oren,A., E. Padan, and S. Malkin|Sulfide Inhibition of Photosystem II in Cyanobacteria (Blue-Green Algae) and Tobacco Chloroplasts|Biochim. Biophys. Acta546(2): 270-279|1979|10.1016/0005-2728(79)90045-8
102116|A||Troton,D., R. Calvayrac, and D. Laval-Martin|Adaptive Plasticity of the Thylakoid Lipids in Diuron-Resistant Euglena gracilis|Biochim. Biophys. Acta878(1): 71-78|1986|10.1016/0005-2760(86)90345-0
102117|A||Perschbacher,P.W., and G.M. Ludwig|Effects of Diuron and Other Aerially Applied Cotton Herbicides and Defoliants on the Plankton Communities of Aquaculture Ponds|Aquaculture233(1-4): 197-203|2004|10.1016/j.aquaculture.2003.09.029
102118|T||Hunt,T.W.|Residue Studies with Alachlor, Ethoprop, and Cyhexatin on Several Horticultural Crops|Ph.D.Thesis, North Carolina State University, Raleigh, NC:77 p.|1979|
102119|T||Flores,J.M., I. Gutierrez, and F. Puerta|Oxytetracycline as a Predisposing Condition for Chalkbrood in Honeybee|Vet. Microbiol.103(3-4): 195-199|2004|10.1016/j.vetmic.2004.07.012
102120|T||Padilla,I.M.G., and C.L. Encina|Micropropagation of Adult Cherimoya (Annona cherimola Mill.) cv. Fino de Jete|In Vitro Cell. Dev. Biol., Plant40(2): 210-214|2004|10.1079/IVP2003521
102121|T||Nakoneczna,I., J.C. Forbes, and K.S. Rogers|The Arthritogenic Effect of Indole, Skatole and Other Tryptophan Metabolites in Rabbits|Am. J. Pathol.57(3): 523-538|1969|
102122|A||Gong,H., and I. Ohad|Rapid Turnover of the RCII-D1 Protein in the Dark Induced by Photoinactivation of Photosystem II in Scenedesmus Wild Type and the PS-II-Donor Defective LF-1 Mutant Cells|Biochim. Biophys. Acta1228(2-3): 181-188|1995|10.1016/0005-2728(94)00170-A
102123|A||Govindjee,G., P. Eggenberg, K. Pfister, and R.J. Strasser|Chlorophyll a Fluorescence Decay in Herbicide-Resistant D1 Mutants of Chlamydomonas reinhardtii and the Formate Effect|Biochim. Biophys. Acta1101(3): 353-358|1992|10.1016/0005-2728(92)90092-G
102124|A||Laval-Martin,D., and D. Troton|Chilling Resistance of Photosynthetic Performances in Diuron-Adapted Euglena gracilis|Plant Sci.72(2): 213-222|1990|10.1016/0168-9452(90)90085-3
102125|A||Lim,M., Y.C. Wee, and C.S. Hew|Laboratory Evaluation of Biocides Against Chlorococcum sp. on Orchid|Tests Agrochem. Cultiv.11:56-57|1990|
102126|A||Sonoike,K., Y. Hihara, and M. Ikeuchi|Physiological Significance of the Regulation of Photosystem Stoichiometry Upon high Light Acclimation of Synechocystis sp. PCC 6803|Plant Cell Physiol.42(4): 379-384|2001|10.1093/pcp/pce046
102127|T||Duah-Yentumi,S., M. Tsutsumi, and K. Kurihara|Intensification of Arsenic Toxicity to Paddy Rice by Hydrogen Sulfide and Ferrous Iron. II. Effects of Ferric Sulfate and Ferric Hydroxide Application on Arsenic Toxicity to Rice Plants|Soil Sci. Plant Nutr.26(4): 571-580|1980|10.1080/00380768.1980.10431244
102128|A||Holz,J.C., and K.D. Hoagland|Experimental Microcosm Study of the Effects of Phosphorus Reduction on Plankton Community Structure|Can. J. Fish. Aquat. Sci.53(8): 1754-1764|1996|10.1139/f96-104
102129|T||Appel,M.J., C.F. Kuper, and R.A. Woutersen|Disposition, Accumulation and Toxicity of Iron Fed as Iron (II) Sulfate or as Sodium Iron EDTA in Rats|Food Chem. Toxicol.39(3): 261-269|2001|10.1016/S0278-6915(00)00137-X
102130|T||Franke,S.I.R., D. Pra, J. Da Silva, B. Erdtmann, and J.A.P. Henriques|Possible Repair Action of Vitamin C on DNA Damage Induced by Methyl Methanesulfonate, Cyclophosphamide, FeSO4 and CuSO4 in Mouse Blood Cells In Vivo|Mutat. Res.583(1): 75-84|2005|10.1016/j.mrgentox.2005.03.001
102131|A||Randall,S., D. Harper, and B. Brierley|Ecological and Ecophysiological Impacts of Ferric Dosing in Reservoirs|Hydrobiologia (Multiple Languages)395-396:355-364|1999|10.1023/A:1017046913027
102132|A||Robertson,L.J., A.T. Campbell, and H.V. Smith|Survival of Cryptosporidium parvum Oocysts Under Various Environmental Pressures|Appl. Environ. Microbiol.58(11): 3494-3500|1992|10.1128/aem.58.11.3494-3500.1992
102133|AT||Grigarick,A.A., M.J. Oraze, L.S. Hesler, and K.A. Smith|Greenhouse Evaluation of Insecticides for Rice Water Weevil Larval Control, 1987|Arthropod Manag. Tests19:254-255|1994|
102134|T||Oleson,J.D., B. Kaeb, N. Richtman, and J.J. Tollefson|Evaluation of Products for Control of Corn Rootworm Larvae, 2004|Arthropod Manag. Tests30:3 p.|2005|
102135|T||Tindall,K.V., R. Gable, K. Emfinger, and B.R. Leonard|Evaluation of Selected Insecticides Treatments Against Soil Insects in Field Corn, 2004|Arthropod Manag. Tests30:2 p.|2005|
102136|T||Verma,L.R., and R.W. Shuel|Respiratory Metabolism of the Semen of the Honey-Bee, Apis mellifera|J. Insect Physiol.19(1): 97-103|1973|10.1016/0022-1910(73)90225-4
102137|T||Still,C.C., T.S. Hsu, and R. Bartha|Soil-Bound 3,4-Dichloroaniline:  Source of Contamination in Rice Grain|Bull. Environ. Contam. Toxicol.24:550-554|1980|10.1007/BF01608154
102138|T||Habte,M., and A. Manjunath|Influence of Phenamiphos on the Vesicular-Arbuscular Mycorrhizal Symbiosis in Leucaena leucocephala|Biol. Fertil. Soils5(4): 313-316|1988|10.1007/BF00262138
102139|T||Choo,L.P.D., and G.H. Baker|Influence of Four Commonly Used Pesticides on the Survival, Growth, and Reproduction of the Earthworm Aporrectodea trapezoides (Lumbricidae)|Aust. J. Agric. Res.49(8): 1297-1303|1998|10.1071/A98021
102140|A||Eullaffroy,P., C. Frankart, and S. Biagianti|Toxic Effect Assessment of Pollutant Mixtures in Lemna minor by Using Polyphasic Fluorescence Kinetics|Toxicol. Environ. Chem.89(4): 683-696|2007|10.1080/02772240701561585
102141|A||Chen,C., and S.C. Chen|Effects of Some Physico-Chemical Treatments on the Cadmium Uptake by the Alga Chlorella sp. CS-10|J. Chin. Agric. Chem. Soc.32(2): 132-140|1994|
102142|T||Corthay,J., P. Medilanski, and A. Benakis|Induction of Hepatic Microsomal Enzymes by Diuron, Phenobenzuron, and Metabolites in Rats|Ecotoxicol. Environ. Saf.1(2): 197-202|1977|10.1016/0147-6513(77)90035-5
102143|T||Uthus,E.O., and F.H. Nielsen|Effects in Rats of Iron on Lead Deprivation|Biol. Trace Elem. Res.16(2): 155-163|1988|10.1007/BF02797100
102144|T||Boczek,J., S. Ignatowicz, and R. Davis|Some Effects of Mineral Salts in the Diet of the Mold Mite, Tyrophagus putrescentiae (Schrank)|J. Ga. Entomol. Soc.19(2): 235-248|1984|
102145|T||Ignatowicz,S.|"Effect of Inorganic Salts upon Biology and Development of Acarid Mites.  I.  Effect of Mineral Salts on Fecundity and Egg Viability of ""Copra Mite"", Tyrophagus putrescentiae (Schrank) (Acarina:  Acaridae)"|Zesz. Probl. Postepow Nauk Roln.252:207-229|1983|
102146|T||Rodriguez-Arnaiz,R., P. Ramos Morales, J.C. Gaytan Oyarzun, D.L. Rodriguez Zuniga, and S. Zimmering|The Herbicides Dalapon and Diuron Tested for Genotoxicity in Drosophila melanogaster|Rev. Int. Contam. Ambient.5(1): 59-64|1989|
102147|A||Lin,M.C., and C.M. Liao|65Zn(II) Accumulation in the Soft Tissue and Shell of Abalone Haliotis diversicolor supertexta via the Alga Gracilaria tenuistipitata var. liui and the Ambient Water|Aquaculture178:89-101|1999|10.1016/S0044-8486(99)00128-3
102148|A||Melo,S.L.R., and M. Nipper|Sediment Toxicity Tests Using the Burrowing Amphipod Tiburonella viscana (Amphipoda:  Platyischnopidae)|Ecotoxicol. Environ. Saf.66(3): 412-420|2007|10.1016/j.ecoenv.2005.12.003
102149|A||Zhang,L., and W.X. Wang|Size-Dependence of the Potential for Metal Biomagnification in Early Life Stages of Marine Fish|Environ. Toxicol. Chem.26(4): 787-794|2007|10.1897/06-348R.1
102150|A||Wilding,J., and L. Maltby|Relative Toxicological Importance of Aqueous and Dietary Metal Exposure to a Freshwater Crustacean:  Implications for Risk Assessment|Environ. Toxicol. Chem.25(7): 1795-1801|2006|10.1897/05-316R1.1
102152|T||Hagiwara,M., E. Watanabe, J.C. Barrett, and T. Tsutsui|Assessment of Genotoxicity of 14 Chemical Agents Used in Dental Practice:  Ability to Induce Chromosome Aberrations in Syrian Hamster Embryo Cells|Mutat. Res.603(2): 111-120|2006|10.1016/j.mrgentox.2005.08.011
102153|A||Barber,I., D.J. Baird, and P. Calow|Clonal Variation in General Responses of Daphnia magna Straus to Toxic Stress.  II.  Physiological Effects|Funct. Ecol.4(3): 409-414|1990|10.2307/2389603
102154|T||Stephan,Z.A., A.H. El-Behadli, H.H. Al-Zahroom, B.G. Antoon, and M.S. Georgees|Control of Root Knot - Wilt Disease Complex on Tomato Plants (Research Note)|Dirasat Agric. Sci.23(1): 13-16|1996|
102155|A||Bates,S.B., and G.F. Cota|Fluorescence Induction and Photosynthetic Responses of Arctic Ice Algae to Sample Treatment and Salinity|J. Phycol.22(4): 421-429|1986|10.1111/j.1529-8817.1986.tb02484.x
102156|A||Chu,H.A., A.P. Nguyen, and R.J. Debus|Site-Directed Photosystem II Mutants with Perturbed Oxygen-Evolving Properties.  1.  Instability or Inefficient Assembly of the Manganese Cluster In Vivo|Biochemistry (Wash.)33(20): 6137-6149|1994|10.1021/bi00186a013
102157|A||Pohl,P., and H. Wagner|Control of Fatty Acid and Lipid Biosynthesis in Euglena gracilis by Ammonia, Light and DCMU|Z. Naturforsch. B, J. Chem. Sci. (Multiple Languages)27(1): 53-61|1972|10.1515/znb-1972-0111
102158|A||Jeanjean,R., and E. Broda|Dependence of Sulphate Uptake by Anacystis nidulans on Energy, on Osmotic Shock and on Sulphate Starvation|Arch. Microbiol.114(1): 19-23|1977|10.1007/BF00429625
102159|T||Golden,S.S., and R. Haselkorn|Mutation to Herbicide Resistance Maps Within the psbA Gene of Anacystis nidulans R2|Science229:1104-1107|1985|10.1126/science.3929379
102160|A||Kless,H., M. Oren-Shamir, S. Malkin, L. McIntosh, and M. Edelman|The D-E Region of the D1 Protein is Involved in Multiple Quinone and Herbicide Interactions in Photosystem II|Biochemistry (Wash.)33(34): 10501-10507|1994|10.1021/bi00200a035
102161|A||Knoepfle,N., T.M. Bricker, and C. Putnam-Evans|Site-Directed Mutagenesis of Basic Arginine Residues 305 and 342 in the CP 43 Protein of Photosystem II Affects Oxygen-Evolving Activity in Synechocystis 6803|Biochemistry (Wash.)38(5): 1582-1588|1999|10.1021/bi9821418
102162|A||Overbaugh,J.M.|Initial Observations on the Role of Glutathione Peroxidases in Euglena|J. Free Radic. Biol. Med.1(3): 187-193|1985|10.1016/0748-5514(85)90117-5
102163|A||Jahnke,L.L., B. Lee, M.J. Sweeney, and H.P. Klein|Anaerobic Biosynthesis of Unsaturated Fatty Acids in the Cyanobacterium, Oscillatoria limnetica|Arch. Microbiol.152:215-217|1989|10.1007/BF00409653
102164|A||He,Y.Y., and D.P. Hader|Involvement of Reactive Oxygen Species in the UV-B Damage to the Cyanobacterium Anabaena sp.|J. Photochem. Photobiol. B Biol.66(1): 73-80|2002|10.1016/S1011-1344(01)00278-0
102165|A||Singh,D.P., R. Gothalwal, and P.S. Bisen|Action of Sodium Diethyldithiocarbamate (NaDDC) on the Hill Activity and Chlorophyll Fluorescence in Anacystis nidulans IU 625|J. Basic Microbiol.32(2): 119-128|1992|10.1002/jobm.3620320211
102166|T||Salama,A.K., M.A. Radwan, and F.I. El-Shahawi|Pharmacokinetic Profile and Anticholinesterase Properties of Phenamiphos in Male Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(3): 307-323|1992|
102168|A||Awasthi,A.|Role of Non-Cyclic Photophosphorylation in Nitrogen Fixation in Nostoc muscorum|J. Phytol. Res.7(1): 17-20|1994|
102169|A||Shneyour,A., Y. Ben-Shaul, and M. Avron|Structural Changes in Euglena gracilis Grown Autotrophically in the Light with 3-(3,4-Dichlorophenyl)-1,1-Dimethyl Urea (DCMU)|Exp. Cell Res.58:1-9|1969|10.1016/0014-4827(69)90110-4
102170|T||Kalra,S.K., and K.S. Chahal|Degradation of Diuron (3-(3,4-Dichlorophenyl)-1,1-Dimethylurea) in Cows|Ecotoxicol. Environ. Saf.3(4): 362-368|1979|10.1016/0147-6513(79)90025-3
102171|A||Sumida,S., R. Yoshida, and M. Ueda|Studies of Pesticides Effects on Chlorella Metabolism  II.  Effect of DCMU on Galactolipid Metabolism|Plant Cell Physiol.16:257-264|1975|
102172|A||Ajlani,G., D. Kirilovsky, M. Picaud, and C. Astier|Molecular Analysis of psbA Mutations Responsible for Various Herbicide Resistance Phenotypes in Synechocystis 6714|Plant Mol. Biol.13(5): 469-479|1989|10.1007/BF00027307
102173|A||Tutundjian,R., and C. Minier|Effect of Temperature on the Expression of P-Glycoprotein in the Zebra Mussel, Dreissena polymorpha|J. Therm. Biol.32(3): 171-177|2007|10.1016/j.jtherbio.2007.01.008
102174|A||Shul'pin,G.B., M.M. Bochkova, G.V. Nizova, and N.B. Kozlova|Aerobic Photodegradation of Phenols in Aqueous Solutions Promoted by Metal Compounds|Appl. Catal. B Environ.12(1): 1-19|1997|10.1016/S0926-3373(96)00064-1
102175|T||MacNab,R.K., and P.M. Nollen|The Effects of Gossypol on Spermatogenesis and Development of the Eyefluke, Philophthalmus gralli, and Its Chicken Host|J. Parasitol.73(4): 749-755|1987|10.2307/3282407
102177|A||Gothalwal,R., and P.S. Bisen|Isolation and Physiological Characterization of Synechococcus cedrorum 1191 Strain Tolerant to Heavy Metals and Pesticides|Biomed. Environ. Sci.6(2): 187-194|1993|
102178|A||Anbudurai,P.R., and H.B. Pakrasi|Mutational Analysis of the PsbL Protein of Photosystem II in the Cyanobacterium Synechocystis sp. PCC 6803|Z. Naturforsch. Sect. C J. Biosci.48(3/4): 267-274|1993|10.1515/znc-1993-3-424
102179|AT||Boichenko,V.A., V.V. Klimov, S.R. Mayes, and J. Barber|Characterization of the Light-Induced Oxygen Gas Exchange from the IC2 Deletion Mutant of Synechocystis PCC 6803 Lacking the Photosystem II 33 kDa Extrinsic Protein|Z. Naturforsch. Sect. C J. Biosci.48(3/4): 224-233|1993|10.1515/znc-1993-3-418
102180|T||Jansen,M.A.K., S. Malkin, and M. Edelman|Differential Sensitivity of 32-kDa-D1 Protein Degradation and Photosynthetic Electron Flow to Photosystem II Herbicides|Z. Naturforsch. C Biosci.45(5): 408-411|1990|10.1515/znc-1990-0516
102181|A||Mukhamadiev,B.T., K.V. Kvitko, and O.V. Zalenskii|Chlorella Mutants Resistant to the Photophosphorylation Inhibitor 3(3,4)- Dichlorophenyl-1,1-Dimethylurea (DCMU).  Communication II.  Mutagenic Effect of DCMU on Different Strains|Genetika (Non-English)7(5): 580-584|1971|
102182|A||Avramescu,A., R. Rouillon, and R. Carpentier|Potential for Use of a Cyanobacterium Synechocystis sp. Immobilized in Poly(vinylalcohol):  Application to the Detection of Pollutants|Biotechnol. Tech.13(8): 559-562|1999|10.1023/A:1008991531206
102183|A||Williams,W.P., D. Furtado, and A.R. Nutbeam|Comparison Between State I/State II Adaptation in a Unicellular Green Alga and high Energy State Quenching in Isolated Intact Spinach Chloroplasts|Photobiochem. Photobiophys.1(2): 91-102|1980|
102184|A||Vicentini,C.B., D. Mares, A. Tartari, M. Manfrini, and G. Forlani|Synthesis of Pyrazole Derivatives and Their Evaluation as Photosynthetic Electron Transport Inhibitors|J. Agric. Food Chem.52(7): 1898-1906|2004|10.1021/jf035115b
102185|T||Pappu,H.R., A.S. Csinos, R.M. McPherson, D.C. Jones, and M.G. Stephenson|Effect of Acibenzolar-S-Methyl and Imidacloprid on Suppression of Tomato Spotted Wilt Tospovirus in Flue-Cured Tobacco|Crop Prot.19(5): 349-354|2000|10.1016/S0261-2194(00)00028-4
102186|A||Feng,S., Z. Kong, X. Wang, L. Zhao, and P. Peng|Acute Toxicity and Genotoxicity of Two Novel Pesticides on Amphibian, Rana n. Hallowell|Chemosphere56(5): 457-463|2004|10.1016/j.chemosphere.2004.02.010
102187|T||Sato,I., N. Matsusaka, S. Tsuda, H. Kobayashi, K. Sera, S. Futatsugawa, and Y. Nishimura|Effect of Ca-DTPA and Zn-DTPA on Essential Metal Contents in the Fetal Liver of Mice|Radioisotopes46(7): 439-442|1997|10.3769/radioisotopes.46.439
102188|AT||Koeypudsa,W., A. Yakupitiyage, and J. Tangtrongpiros|The Fate of Chlortetracycline Residues in a Simulated Chicken-Fish Integrated Farming Systems|Aquac. Res.36(6): 570-577|2005|10.1111/j.1365-2109.2005.01255.x
102189|T||Delaplane,K.S.|Effects of Terramycin Antibiotic and Apistan Acaricide on Colonies of Honey Bees (Hymenoptera:  Apidae) Infested with Varroa jacobsoni (Parasitiformes:  Varroidae)|J. Econ. Entomol.88(5): 1206-1210|1995|10.1093/jee/88.5.1206
102190|T||Al-Ankari,A.S., and A.M. Homeida|Effect of Antibacterial Growth Promoters on the Immune System of Broiler Chicks|Vet. Immunol. Immunopathol.53(3-4): 277-283|1996|10.1016/S0165-2427(96)05609-7
102191|T||Martinez,M.F., A.A. Arteaga, and A.D. Barth|Intraglandular Injection of Antibiotics for the Treatment of Vesicular Adenitis in Bulls|Anim. Reprod. Sci.104(2-4): 201-211|2008|10.1016/j.anireprosci.2007.02.025
102192|A||Grondel,J.L., J.F.M. Nouws, A.R. Schutte, and F. Driessens|Comparative Pharmacokinetics of Oxytetracycline in Rainbow Trout (Salmo gairdneri) and African Catfish (Clarias gariepinus)|J. Vet. Pharmacol. Ther.12:157-162|1989|10.1111/j.1365-2885.1989.tb00657.x
102193|A||Cetin,H., and A. Yanikoglu|A Study of the Larvicidal Activity of Origanum (Labiatae) Species from Southwest Turkey|J. Vector Ecol.31(1): 118-122|2006|10.3376/1081-1710(2006)31[118:ASOTLA]2.0.CO;2
102195|T||Ye,Z., and K. Van Dyke|Interaction of Artemisinin and Tetracycline or Erythromycin Against Plasmodium falciparum In Vitro|Parasite1(3): 211-218|1994|10.1051/parasite/1994013211
102197|T||McPherson,J.C.,Jr., R.G. Ellison, H.N. Davis, F.M.,Jr. Hawkridge, and L.T. Ellison|The Metabolic Acidosis Resulting from Intravenous Tetracycline Administration|Proc. Soc. Exp. Biol. Med.145(2): 450-455|1974|10.3181/00379727-145-37829
102198|T||Larsen,C., M. Acha, and M. Ehrich|Research Note:  Chlortetracycline and Aflatoxin Interaction in Two Lines of Chicks|Poult. Sci.67(8): 1229-1232|1988|10.3382/ps.0671229
102199|T||Onifade,A.A.|Growth Performance, Carcass Characteristics, Organs Measurement and Haematology of Broiler Chickens Fed a high Fibre Diet Supplemented with Antibiotics or Dried Yeast|Nahrung41(6): 370-374|1997|10.1002/food.19970410612
102200|T||Ison,A.E., and C.M. Davis|Phototoxicity of Quinoline Methanols and Other Drugs in Mice and Yeast|J. Invest. Dermatol.52(2): 193-198|1969|10.1038/jid.1969.30
102201|T||Ison,A., and H. Blank|Testing Drug Phototoxicity in Mice|J. Invest. Dermatol.49(5): 508-511|1967|10.1038/jid.1967.171
102203|T||Tarara,R.P., L.G. Hansen, and J. Simon|Effects of Repeated Administration of Oxytetracycline on Kidney, Liver and Liver Mixed-Function Oxidases in the Rat|Toxicol. Appl. Pharmacol.35:321-331|1976|10.1016/0041-008X(76)90291-X
102204|A||Cravedi,J.P., G. Choubert, and G. Delous|Digestibility of Chloramphenicol, Oxolinic Acid and Oxytetracycline in Rainbow Trout and Influence of These Antibiotics on Lipid Digestibility|Aquaculture60(2): 133-141|1987|10.1016/0044-8486(87)90305-X
102205|T||Pagnini,G., R. Di Carlo, and G.V. Pelagalli|Comparative Evaluation of the Influence of Some Tetracyclines on Chick Embryo|Toxicol. Appl. Pharmacol.22(3): 427-431|1972|10.1016/0041-008X(72)90249-9
102206|T||Shaddad,S.A.I., I.A. Wasfi, M.A. Maglad, and S.E.I. Adam|The Effect of Oxytetracycline on Growth and Lipid Metabolism in Poultry|Comp. Biochem. Physiol. C Comp. Pharmacol.80(2): 375-380|1985|10.1016/0742-8413(85)90071-4
102207|A||Mohney,L.L., R.R. Williams, T.A. Bell, and D.V. Lightner|Residues of Oxytetracycline in Cultured Juvenile Blue Shrimp, Penaeus stylirostris (Crustacea:  Decapod), Fed Medicated Feed for 14 Days|Aquaculture149(3-4): 193-202|1997|10.1016/S0044-8486(96)01449-4
102208|T||Wongkaew,P., and J. Fletcher|Sugarcane White Leaf Phytoplasma in Tissue Culture:  Long-Term Maintenance, Transmission, and Oxytetracycline Remission|Plant Cell Rep.23(6): 426-434|2004|10.1007/s00299-004-0847-2
102209|A||Uno,K.|Pharmacokinetics of Oxolinic Acid and Oxytetracycline in Kuruma Shrimp, Penaeus japonicus|Aquaculture230(1-4): 1-11|2004|10.1016/j.aquaculture.2003.10.007
102211|T||Vogin,E.E., S. Carson, A. Palanker, G.E. Cannon, and M. Pindell|Toxicologic, Reproductive, and Teratogenic Studies with a Tetracycline Phosphate Complex-Sulfamethizole Formulation|Toxicol. Appl. Pharmacol.16(2): 453-458|1970|10.1016/0041-008X(70)90018-9
102212|A||Theriault,R.J.|Heterotrophic Growth and Production of Xanthophylls by Chlorella pyrenoidosa|Appl. Microbiol.13(3): 402-416|1965|10.1128/am.13.3.402-416.1965
102213|T||Richardson,P.M., W.P. Holmes, and G.B. Saul II|The Effect of Tetracycline on Nonreciprocal Cross Incompatibility in Mormoniella (= Nasonia) vitripennis|J. Invertebr. Pathol.50(3): 176-183|1987|10.1016/0022-2011(87)90080-2
102214|T||Westergaard,J.|Structural Changes Induced by Tetracycline in Secretory Ameloblasts in Young Rats|Scand. J. Dent. Res.88(6): 481-495|1980|
102215|A||Rigos,G., Tyrpenou, I. Nengas, A.E.M. Alexis, F. Athanassopoulou, and G.M. Troisi|Poor Bioavailability of Oxytetracycline in Sharpsnout Sea Bream Diplodus puntazzo|Aquaculture235(1-4): 489-497|2004|10.1016/j.aquaculture.2003.10.016
102216|A||Diamond,J.M., S.J. Klaine, and J.B. Butcher|Implications of Pulsed Chemical Exposures for Aquatic Life Criteria and Wastewater Permit Limits|Environ. Sci. Technol.40(16): 5132-5138|2006|10.1021/es0604358
102217|A||Balcaen,L.I.L., K.A.C. De Schamphelaere, C.R. Janssen, L. Moens, and F. Vanhaecke|Development of a Method for Assessing the Relative Contribution of Waterborne and Dietary Exposure to Zinc Bioaccumulation in Daphnia magna by Using Isotopically Enriched Tracers and ICP-MS Detection|Anal. Bioanal. Chem.390(2): 555-569|2008|10.1007/s00216-007-1620-5
102218|A||Dash,B., R. Metz, H.J. Huebner, W. Porter, and T.D. Phillips|Molecular Characterization of Phospholipid Hydroperoxide Glutathione Peroxidases from Hydra vulgaris|Gene381:1-12|2006|10.1016/j.gene.2006.04.026
102219|A||Dash,B., R. Metz, H.J. Huebner, W. Porter, and T.D. Phillips|Molecular Characterization of Two Superoxide Dismutases from Hydra vulgaris|Gene387(1/2): 93-108|2007|10.1016/j.gene.2006.08.020
102223|T||Seymour,E.H., G.M. Jones, and M.L. McGilliard|Persistence of Residues in Milk Following Antibiotic Treatment of Dairy Cattle|J. Dairy Sci.71(8): 2292-2296|1988|10.3168/jds.S0022-0302(88)79806-9
102224|T||Shor,A.L., A. Abbey, and G.O. Gale|Disappearance of Chlortetracycline Residues from Edible Tissues. II. Chickens and Turkeys|Antimicrob. Agents Chemother.7:757-762|1967|
102225|T||Redpath,J.L., E. Zabilansky, and M. Colman|Radiation, Adriamycin, and Skin Reactions:  Effects of Radiation and Drug Fractionation, Hyperthermia, and Tetracycline|Radiat. Res.86(3): 459-466|1981|10.2307/3575462
102226|T||Miller,B.L., and R.D. Wyatt|Effect of Dietary Aflatoxin on the Uptake and Elimination of Chlortetracycline in Broiler Chicks|Poult. Sci.64(9): 1637-1643|1985|10.3382/ps.0641637
102227|T||Sparano,B.M.|Sex Difference in Chlortetracycline-Induced Fatty Livers in Rats|Lab. Invest.14(11): 1931-1938|1965|
102228|T||Shauer,B.A., L. Lukacs, and H.J. Zimmerman|Biochemical Indices of Tetracycline Hepatic Injury in Rats|Proc. Soc. Exp. Biol. Med.147(3): 868-872|1974|10.3181/00379727-147-38458
102229|T||Sams,W.M.,Jr., and J.H. Epstein|The Experimental Production of Drug Phototoxicity in Guinea Pigs.  I.  Using Sunlight|J. Invest. Dermatol.48(1): 89-94|1967|10.1038/jid.1967.12
102230|T||Droumev,D., K. Koychev, D. Pashov, S. Vangelov, I. Borisov, L. Lashev, R. Moutafchieva, I. Kanelov, D. Dimitrova, M. Dr|Slow Release Bolus with Tetracycline for Small Ruminants:  Pharmacokinetics, Residues, Effectivity|Acta Vet. Scand. Suppl.87:106-108|1991|
102231|T||Donoghue,D.J., F.J. Schenck, H. Hairston, and L.V. Podhorniak|Modeling Drug Residue Uptake by Eggs:  Evidence of a Consistent Daily Pattern of Contaminant Transfer into Developing Preovulatory Yolks|J. Food Prot.60(10): 1251-1255|1997|10.4315/0362-028X-60.10.1251
102232|T||Fujita,K., Y. Ohtawara, K. Suzuki, A. Tajima, and Y. Aso|A Comparative Electron Microscopic Study of Antibiotic Nephrotoxicity|Nihon Jinzo Gakkai Shi (Jpn. J. Nephrol)25(1): 5-19|1983|
102233|T||Gozar,M.M.G., W.J. O'Sullivan, and A.S. Bagnara|Mitochondrial Function in Babesia bovis|Int. J. Parasitol.22(2): 165-171|1992|10.1016/0020-7519(92)90097-5
102234|T||Kumi-Diaka,J., and J. Townsend|Toxic Potential of Dietary Genistein Isoflavone and beta-Lapachone on Capacitation and Acrosome Reaction of Epididymal Spermatozoa|J. Med. Food6(3): 201-208|2003|10.1089/10966200360716616
102235|T||El-Nahal,A.K.M.|Toxicity of Carbon Bisulphide to Sitophilus granaria L., Sitophilus oryzae L., Tribolium confusum Duv., and Rhizopertha dominica Fab., Under Reduced Pressure|Bull. Entomol. Soc. Egypt Econ. Ser.40(1): 457-465|1957|
102236|A||Chansang,H., and K.E. Cooksey|Mannose Transport in Amphora coffeaeformis var. perpusilla (Bacillariophyceae)|Can. J. Microbiol.25(5): 605-610|1979|10.1139/m79-087
102237|T||Arase,S., R. Fukuyama, K. Tokizawa, S. Ikegami, Y. Honda, and M. Nozu|The Effects of Light and Photo- and Protein-Synthetic Inhibitors on the Sekiguchi Lesion Formation by Magnaporthe grisea in Rice cv. Sekiguchi-asahi|J. Phytopathol.145(1): 31-35|1997|10.1111/j.1439-0434.1997.tb00338.x
102238|A||Gingrich,J.C., J.S. Buzby, V.L. Stirewalt, and D.A. Bryant|Genetic Analysis of Two New Mutations Resulting in Herbicide Resistance in the Cyanobacterium Synechococcus sp. PCC 7002|Photosynth. Res. (Dordr., Online)16(1/2): 83-99|1988|10.1007/BF00039487
102239|A||Samson,G., and R. Popovic|Inhibitory Effects of Mercury on Photosystem II Photochemistry in Dunaliella tertiolecta Under In Vivo Conditions|J. Photochem. Photobiol. B Biol.5(3-4): 303-310|1990|10.1016/1011-1344(90)85046-Y
102240|A||Kuhn,M.G., and W.F.J. Vermaas|Deletion Mutations in a Long Hydrophilic Loop in the Photosystem II Chlorophyll-Binding Protein CP43 in the Cyanobacterium Synechocystis sp. PCC 6803|Plant Mol. Biol.23(1): 123-133|1993|10.1007/BF00021425
102241|A||Ducruet,J.M., and J. Lavorel|Effect of System II Inhibitors on Luminescence in NH2OH - Pretreated Chlorella|Biochem. Biophys. Res. Commun.58(1): 151-158|1974|10.1016/0006-291X(74)90904-8
102242|A||Misra,H.S., and T.S. Desai|Involvement of Acceptor Side Components of PSII in the Regulatory Mechanism of Plectonema boryanum Grown Photoautotrophically Under Diazotrophic Condition|Biochem. Biophys. Res. Commun.194(3): 1001-1007|1993|10.1006/bbrc.1993.1920
102243|A||Murthy,S.D.S., N.G. Bukhov, and Prasanna Mohanty|Mercury-Induced Alterations of Chlorophyll a Fluorescence Kinetics in Cyanobacteria: Multiple Effects of Mercury on Electron Transport|J. Photochem. Photobiol. B Biol.6(4): 373-380|1990|10.1016/1011-1344(90)85111-9
102244|A||Nicolaus,B., G. Sandmann, H. Watanabe, K. Wakabayashi, and P. Boger|Herbicide-Induced Peroxidation:  Influence of Light and Diuron on Protoporphyrin IX Formation|Pestic. Biochem. Physiol.35(2): 192-201|1989|10.1016/0048-3575(89)90117-X
102245|A||Jursinic,P., and G. Govindjee|Thermoluminescence and Temperature Effects on Delayed Light Emission (Corrected for Changes in Quantum Yield of Fluorescence) in DCMU-Treated Algae|Photochem. Photobiol.15(4): 331-348|1972|10.1111/j.1751-1097.1972.tb06244.x
102246|A||David,K.A.V., S.S. Rane, M. Mathur, and S.K. Bhattacharjee|Herbicide Mediated UV-Resistance in Cyanobacteria:  On the Role of Photosynthetic Electron Transport System Rather than Replicative DNA as Lethal Target Determining Dark-Survival of Anacystis nidulans|Photochem. Photobiol.47(1): 107-113|1988|10.1111/j.1751-1097.1988.tb02701.x
102247|A||Bartsevich,V.V., and S.V. Shestakov|The dspA Gene Product of the Cyanobacterium Synechocystis sp. Strain PCC 6803 Influences Sensitivity to Chemically Different Growth Inhibitors and has Amino Acid Similarity to Histidine Protein Kinases|Microbiology141(11): 2915-2920|1995|10.1099/13500872-141-11-2915
102248|A||Kumar,A., R.P. Sinha, and D.P. Hader|Effect of UV-B on Enzymes of Nitrogen Metabolism in the Cyanobacterium Nostoc calcicola|J. Plant Physiol.148(1-2): 86-91|1996|10.1016/S0176-1617(96)80298-7
102249|A||Voigt,J., K. Nagel, and D. Wrann|A Cadmium-Tolerant Chlamydomonas Mutant Strain Impaired in Photosystem II Activity|J. Plant Physiol.153(5-6): 566-573|1998|10.1016/S0176-1617(98)80205-8
102250|A||Miskiewicz,E., A.G. Ivanov, J.P. Williams, M.U. Khan, S. Falk, and N.P.A. Huner|Photosynthetic Acclimation of the Filamentous Cyanobacterium, Plectonema boryanum UTEX 485, to Temperature and Light|Plant Cell Physiol.41(6): 767-775|2000|10.1093/pcp/41.6.767
102251|A||Wu,J., C. Putnam-Evans, and T.M. Bricker|Site-Directed Mutagenesis of the CP 47 Protein of Photosystem II:  167W in the Lumenally Exposed Loop C is Required for Photosystem II Assembly and Stability|Plant Mol. Biol.32(3): 537-542|1996|10.1007/BF00019106
102252|A||Perewoska,I., C. Vernotte, M. Picaud, and C. Astier|Mutations in the D1 Subunit of Photosystem II and Resistance to the Phenol Type Herbicide Ioxynil in Synechocystis PCC 6714 and 6803|Z. Naturforsch. Sect. C J. Biosci.47(7/8): 580-584|1992|10.1515/znc-1992-7-815
102253|A||Wildner,G.F., U. Heisterkamp, U. Bodner, U. Johanningmeier, and W. Haehnel|An Amino Acid Substitution in the QB-Protein Causes Herbicide Resistance Without Impairing Electron Transport from QA to QB|Z. Naturforsch. Sect. C J. Biosci.44(5/6): 431-434|1989|10.1515/znc-1989-5-615
102254|A||Ajlani,G., I. Meyer, C. Astier, and C. Vernotte|Inhibition of Photosystem II by Ioxynil in Wild Type and Resistant Mutant of Synechocystis 6714|Z. Naturforsch. Sect. C J. Biosci.44(11/12): 979-984|1989|10.1515/znc-1989-11-1218
102255|T||Ellis,S.A., B.J. Emmett, and J.R. Kelly|A Comparison of Demeton-S-Methyl, Disulfoton, Imidacloprid and Pirimicarb Against Cabbage Aphid on Brussels Sprouts|Tests Agrochem. Cultiv.15:2-3|1994|
102257|T||Freyberger,A., H. Ellinger-Ziegelbauer, and F. Krotlinger|Evaluation of the Rodent Hershberger Bioassay: Testing of Coded Chemicals and Supplementary Molecular-Biological and Biochemical Investigations|Toxicology239(1-2): 77-88|2007|10.1016/j.tox.2007.06.093
102258|T||Cohen,H., V. Solomon, I.S. Alferiev, E. Breuer, A. Ornoy, N. Patlas, N. Eidelman, G. Hagele, and G. Golomb|Bisphosphonates and Tetracycline: Experimental Models for Their Evaluation in Calcium-Related Disorders|Pharm. Res.15(4): 606-613|1998|10.1023/A:1011990129437
102259|A||Divo,A.A., T.G. Geary, and J.B. Jensen|Oxygen- and Time-Dependent Effects of Antibiotics and Selected Mitochondrial Inhibitors on Plasmodium falciparum in Culture|Antimicrob. Agents Chemother.27(1): 21-27|1985|10.1128/AAC.27.1.21
102260|T||McKibbin,R.S., N.G. Halford, and D. Francis|Expression of Fission Yeast cdc25 Alters the Frequency of Lateral Root Formation in Transgenic Tobacco|Plant Mol. Biol.36(4): 601-612|1998|10.1023/A:1005937011095
102261|T||Sen,A., N.S. Chatterjee, M.A. Akbar, N. Nandi, and P. Das|The 29-Kilodalton Thiol-Dependent Peroxidase of Entamoeba histolytica is a Factor Involved in Pathogenesis and Survival of the Parasite During Oxidative Stress|Eukaryotic Cell6(4): 664-673|2007|10.1128/EC.00308-06
102262|T||Puga,F.R., M.A.L.R. Rodrigues, and M. Doki|Effects of Phenobarbital, Chlordane, and Oxytetracycline on DDT Excretion in Rats|Ecotoxicol. Environ. Saf.12(3): 261-266|1986|10.1016/0147-6513(86)90017-5
102263|T||Lewis,M., S. Schenker, and B. Combes|Studies on the Pathogenesis of Tetracycline-Induced Fatty Liver|Am. J. Dig. Dis.12(5): 429-438|1967|10.1007/BF02233174
102264|T||Dubin,N.H., T.H. Parmley, R.B. Ghodgaonkar, and T.M. King|Comparative Effects of Intrauterine Instillation of Analogues of Quinacrine and Tetracycline on Uterine Morphology in the Rat|Contraception29(6): 553-559|1984|10.1016/S0010-7824(84)80017-7
102265|T||Jones,V.P., P.A. Follett, R.H. Messing, W.B. Borth, J.S. Hu, and D.E. Ullman|Effect of Sophonia rufofascia (Homoptera:  Cicadellidae) on Guava Production in Hawaii|J. Econ. Entomol.91(3): 693-698|1998|10.1093/jee/91.3.693
102267|T||Clausen,G., Z. Nagy, L. Szalay, and K. Aukland|Mechanisms in Acute Oliguric Renal Failure Induced by Tetracycline Infusion|Scand. J. Clin. Lab. Investig.35(7): 625-633|1975|10.3109/00365517509095789
102268|T||Smith,J.W., C.H. Hill, and P.B. Hamilton|The Effect of Dietary Modifications on Aflatoxicosis in the Broiler Chicken|Poult. Sci.50(3): 768-774|1971|10.3382/ps.0500768
102269|T||Rosenberg,P.H., and T. Wahlstrom|Renal and Hepatic Toxicity of Methoxyflurane in Combination with Tetracycline or Oxytetracycline Treatment in Rats|Acta Pharmacol. Toxicol.34(1): 46-57|1974|10.1111/j.1600-0773.1974.tb02012.x
102270|T||Bocker,R., B. Strobel, G. Hopf, and C.J. Estler|Effect of Toxic Doses of Progesterone on Hepatotoxic Effects of Tetracycline|Acta Pharmacol. Toxicol.56(4): 327-330|1985|10.1111/j.1600-0773.1985.tb01298.x
102271|A||Monsanto Chemical Co.|Static Acute Bioassay Report - Acute Toxicity of ACD to Daphnia magna|EPA/OTS Doc.#40-7976432:30 p.|2000|
102273|A||Shell Oil Co.|Initial Submission:  Chronic Toxicity of 3,4-Dichloroaniline in Populations of Daphnia with Attachments and Cover Letter Dated 053092|EPA/OTS Doc.#88-920003445:42 p.|1992|
102274|A||Sittingbourne Research Center|Letter from Shell Oil Company to U.S.EPA Submitting Enclosed Health and Safety Study on Sulfolane and N-Butyl Glycidyl Ether with Attachments and Cover Sheet|EPA/OTS Doc.#86-920000472:46 p.|2000|
102275|A||Shell Oil Co.|Effects of Copper Chloride, Potassium Dichromate, 3,4-Dichloroaniline, Nonylphenol Ethoxylate and Phenol on the Growth Rate of Populations of Hydra littoralis with Cover Letter|EPA/OTS Doc.#878214955:13 p.|1985|
102276|A||Shell Oil Co.|Effects of 3,4-Dichloroaniline on the Growth Rate of Rainbow Trout, Salmo gairdneri with Cover Letter Dated 103086|EPA/OTS Doc.#86870000020:29 p.|2000|
102277|A||Shell Oil Co.|The Chronic Toxicity of 3,4-Dichloroaniline to Algae, Invertebrates and Fish in Outdoor Ponds with Cover Letter Dated 103086|EPA/OTS Doc.#86870000019:40 p.|2000|
102278|A||Shell Oil Co.|The Effect of 3,4-Dichloroaniline on the Growth of Rainbow Trout, Salmo gairdneri with Cover Letter Dated 103086|EPA/OTS Doc.#86870000027:23 p.|2000|
102279|A||Shell Oil Co.|Use of Lemna perpusilla for Phytotoxicity Tests|EPA/OTS Doc.#86-870001654:30 p.|1987|
102280|A||Shell Oil Co.|3,4-Dichloroaniline: Chronic Toxicity to Daphnia magna - Submission of Lists and Copies of Health and Safety Studies (FR 47 38780)|EPA/OTS Doc.#40-8376327:28 p.|2000|
102281|A||Shell Oil Co.|3,4-Dichloroaniline:  Acute Toxicity to Daphnia magna and Selenastrum capricornutum - Submission of Lists and Copies of Health and Safety Studies (47 FR 38780)|EPA/OTS Doc.#40-8376326:17 p.|2000|
102282|T||Yokoyama,M.T., C. Tabori, E.R. Miller, and M.G. Hogberg|The Effects of Antibiotics in the Weanling Pig Diet on Growth and the Excretion of Volatile Phenolic and Aromatic Bacterial Metabolites|Am. J. Clin. Nutr.35(6): 1417-1424|1982|10.1093/ajcn/35.6.1417
102283|T||Bloodworth,J.M.,Jr., J.L. Morton, D. Shoffstall, and G.J. Hamwi|The Effect of Somatotropic Hormone and Oxytetracycline on Weight and Mortality of Irradiated Rats|Cancer10(5): 884-888|1957|10.1002/1097-0142(195709/10)10:5<884::AID-CNCR2820100505>3.0.CO;2-A
102284|A||Cusack,R.R., D.B. Groman, A.M. MacKinnon, F.S.B. Kibenge, D. Wadowska, and N. Brown|Pathology Associated with an Aquareovirus in Captive Juvenile Atlantic Halibut Hippoglossus hippoglossus and an Experimental Treatment Strategy for a Concurrent Bacterial Infection|Dis. Aquat. Org.44(1): 7-16|2001|10.3354/dao044007
102285|T||Divo,A.A., A.C. Sartorelli, C.L. Patton, and F.J. Bia|Activity of Fluoroquinolone Antibiotics Against Plasmodium falciparum in Vitro|Antimicrob. Agents Chemother.32(8): 1182-1186|1988|10.1128/AAC.32.8.1182
102287|T||LeMieux,F.M., L.L. Southern, and T.D. Bidner|Effect of Mannan Oligosaccharides on Growth Performance of Weanling Pigs|J. Anim. Sci.81:2482-2487|2003|10.2527/2003.81102482x
102288|T||Li,J., S. Zhou, H. Huynh, W. Duan, and E. Chan|Alteration of the Pharmacokinetics of COL-3, a Matrix Metalloproteinase Inhibitor, due to Acute Gastrointestinal Toxicity of Doxorubicin|Pharm. Res.22(11): 1954-1963|2005|10.1007/s11095-005-6096-4
102289|T||Tobin,M.E., R.T. Sugihara, and A.E. Koehler|Bait Placement and Acceptance by Rats in Macadamia Orchards|Crop Prot.16(6): 507-510|1997|10.1016/S0261-2194(97)00035-5
102290|T||Yang,Q., A. Yamada, S. Kimura, J.M. Peters, and F.J. Gonzalez|Alterations in Skin and Stratified Epithelia by Constitutively Activated PPARa|J. Invest. Dermatol.126(2): 374-385|2006|10.1038/sj.jid.5700056
102291|T||Stott,C.W., J. Stasse, R. Bonomo, and A.H. Campbell|Evaluation of the Phototoxic Potential of Topically Applied Agents Using Long-Wave Ultraviolet Light|J. Invest. Dermatol.55(5): 335-338|1970|10.1111/1523-1747.ep12260208
102292|T||Meijer,L.A., K.G.F. Ceyssens, W.T. De Jong, and B.I.J.A.C. De Greve|Correlation Between Tissue and Plasma Concentrations of Oxytetracycline in Veal Calves|J. Toxicol. Environ. Health40(1): 35-45|1993|10.1080/15287399309531774
102293|A||Wang,W., H. Lin, C. Xue, and J. Khalid|Elimination of Chloramphenicol, Sulphamethoxazole and Oxytetracycline in Shrimp, Penaeus chinensis Following Medicated-Feed Treatment|Environ. Int.30(3): 367-373|2004|10.1016/j.envint.2003.08.006
102294|T||Shear,L., R.E.,Jr. Blount, R.C. Doberneck, and K.G. Barry|Intraperitoneal Antibiotic Administration:  Rate of Absorption Across Normal Peritoneum|Am. J. Med. Sci.249:1-7|1965|10.1097/00000441-196501000-00001
102295|T||Deichmann,W.B., E. Bernal, W.A.D. Anderson, M. Keplinger, K. Landeen, W. MacDonald, R. Mc Mahon, and R. Stebbins|The Chronic Oral Toxicity of Oxytetracycline HCl and Tetracycline HCl in the Rat, Dog and Pig|Ind. Med. Surg.33:787-806|1964|
102297|T||Yagi,K., Y. Yamamoto, and M. Kobayashi|Effect of Chlortetracycline to Cause Deficiency of Flavins|J. Vitaminol.14(4): 271-277|1968|10.5925/jnsv1954.14.271
102298|T||Gyrd-Hansen,N., F. Rasmussen, and M. Smith|Cardiovascular Effects of Intravenous Administration of Tetracycline in Cattle|J. Vet. Pharmacol. Ther.4(1): 15-25|1981|10.1111/j.1365-2885.1981.tb00705.x
102299|A||Daniels,E.W., and E.P. Breyer|Recovery of Supralethally X-Irradiated and Nitrogen Mustard (HN2)-Treated Amoebae|Int. J. Radiat. Biol.18(2): 179-187|1970|
102300|T||Baylink,D., E. Morey, and C. Rich|Effect of Calcitonin on the Rates of Bone Formation and Resorption in the Rat|Endocrinology84(2): 261-269|1969|10.1210/endo-84-2-261
102301|T||Tsai,Y.H., R.S. Hirth, and F. Leitner|A Murine Model for Listerial Meningitis and Meningoencephalomyelitis:  Therapeutic Evaluation of Drugs in Mice|Chemotherapy26(3): 196-206|1980|10.1159/000237905
102302|T||Kahan,I.L., G.L. Szepesy, R. Pusztai, and I. Joo|Tri-minocycline:  A Minocycline Complex for Parenteral Use.  I.  Antibacterial Activity and Toxicity Data|Chemotherapy24(1): 17-23|1978|10.1159/000237754
102303|T||Kallenbach,E.|Microscopy of Tetracycline-Induced Lesions in the Rat Incisor Enamel Organ|Arch. Oral Biol.24(12): 869-876|1979|10.1016/0003-9969(79)90211-5
102304|T||Summers,J.D., E.T.,Jr. Moran, and W.F. Pepper|A Chloride Deficiency in a Practical Diet Encountered as a Result of Using a Common Sodium Sulfate Antibiotic Potentiating Procedure|Poult. Sci.46(6): 1557-1560|1967|10.3382/ps.0461557
102306|T||Sharma,Y.P., and Y.P. Bhutani|Influence of Nitrogen Levels and Weed Management on Soil Microflora of Peach (Prunus persica) Orchard|Indian J. Agric. Sci.60(12): 810-813|1990|
102307|T||Valentovic,M.A., T. Yahia, J.G. Ball, S.K. Hong, P.I. Brown, and G.O. Rankin|3,4-Dicholoroaniline Acute Toxicity in Male Fischer 344 Rats|Toxicology124:125-134|1997|10.1016/S0300-483X(97)00143-1
102308|A||Zidau,Z.H., A.K. Sobeiha, A.A. Zidan, A.A. Abou-El-Hassan, and F.M. Ragab|Effect of Pre-Exposure to Certain Molluscicides on the Performance of Some Herbicides Against Schistosomiasis Snail Vectors|Egypt. J. Bilharz.12(1-2): 145-155|1990|
102309|T||Guo,L.Y., and W.H. Ko|Nature of Enhanced Severity of Anthurium Root Rot by Diuron Treatment for Weed Control|J. Phytopathol.144(1): 7-11|1996|10.1111/j.1439-0434.1996.tb01480.x
102310|T||Lopez,C.E., and J.I. Kirkwood|Isolation of Microorganisms from a Texas Soil Capable of Degrading Urea Derivative Herbicides|Proc. Soil Sci. Soc. Am.38(2): 309-312|1974|10.2136/sssaj1974.03615995003800020028x
102311|T||Rovesti,L., and K.V. Deseo|Compatibility of Pesticides with the Entomopathogenic Nematode, Heterorhabditis heliothidis|Nematologica37(1): 113-116|1991|10.1163/187529291X00114
102312|T||Flores,M., and M. Barbachano|Effects of Herbicides Gramoxone, Diuron and Totacol on Growth and Nodulation of Three Strains of Rhizobium meliloti|Sci. Total Environ.123-124:249-260|1992|10.1016/0048-9697(92)90150-Q
102313|T||Sharma,N.|Relative Efficacy of Mocap and Nemacur on Some Fungi|Acta Bot. Indica18(2): 298-299|1990|
102314|A||Quinn,B., F. Gagne, and C. Blaise|An Investigation into the Acute and Chronic Toxicity of Eleven Pharmaceuticals (and Their Solvents) Found in Wastewater Effluent on the Cnidarian, Hydra attenuata|Sci. Total Environ.389(2-3): 306-314|2008|10.1016/j.scitotenv.2007.08.038
102315|A||Delepee,R., H. Pouliquen, and H. Le Bris|The Bryophyte Fontinalis antipyretica Hedw. Bioaccumulates Oxytetracycline, Flumequine and Oxolinic Acid in the Freshwater Environment|Sci. Total Environ.322(1-3): 243-253|2004|10.1016/j.scitotenv.2003.09.018
102317|A||Campbell,D.A., P. Pantazis, and M.S. Kelly|Impact and Residence Time of Oxytetracycline in the Sea Urchin, Psammechinus miliaris, a Potential Aquaculture Species|Aquaculture202(1-2): 73-87|2001|10.1016/S0044-8486(01)00600-7
102318|A||Braid,B.A., J.D. Moore, T.T. Robbins, R.P. Hedrick, R.S. Tjeerdema, and C.S. Friedman|Health and Survival of Red Abalone, Haliotis rufescens, Under Varying Temperature, Food Supply, and Exposure to the Agent of Withering Syndrome|J. Invertebr. Pathol.89(3): 219-231|2005|10.1016/j.jip.2005.06.004
102319|A||Hanson,M.L., C.W. Knapp, and D.W. Graham|Field Assessment of Oxytetracycline Exposure to the Freshwater Macrophytes Egeria densa Planch. and Ceratophyllum demersum L.|Environ. Pollut.141(3): 434-442|2006|10.1016/j.envpol.2005.08.068
102320|A||Bray,W.A., R.R. Williams, D.V. Lightner, and A.L. Lawrence|Growth, Survival and Histological Responses of the Marine Shrimp, Litopenaeus vannamei, to Three Dosage Levels of Oxytetracycline|Aquaculture258(1-4): 97-108|2006|10.1016/j.aquaculture.2006.04.018
102321|A||Isidori,M., M. Lavorgna, A. Nardelli, L. Pascarella, and A. Parrella|Toxic and Genotoxic Evaluation of Six Antibiotics on Non-Target Organisms|Sci. Total Environ.346(1-3): 87-98|2005|10.1016/j.scitotenv.2004.11.017
102322|A||Metcalf,J.S., J. Lindsay, K.A. Beattie, S. Birmingham, M.L. Saker, A.K. Torokne, and G.A. Codd|Toxicity of Cylindrospermopsin to the Brine Shrimp Artemia salina: Comparisons with Protein Synthesis Inhibitors and Microcystins|Toxicon40(8): 1115-1120|2002|10.1016/S0041-0101(02)00105-8
102323|A||Lunden,T., E.M. Lilius, and G. Bylund|Respiratory Burst Activity of Rainbow Trout (Oncorhynchus mykiss) Phagocytes is Modulated by Antimicrobial Drugs|Aquaculture207(3/4): 203-212|2002|10.1016/S0044-8486(01)00760-8
102324|A||Gomez-Gil,B., J. Cabanillas-Ramos, S. Paez-Brambila, and A. Roque|Standardization of the Bioencapsulation of Enrofloxacin and Oxytetracycline in Artemia franciscana Kellogg, 1906|Aquaculture196(1/2): 1-12|2001|10.1016/S0044-8486(00)00568-8
102325|A||Le Bris,H., and H. Pouliquen|Experimental Study on the Bioaccumulation of Oxytetracycline and Oxolinic Acid by the Blue Mussel (Mytilus edulis).  An Evaluation of Its Ability to Bio-monitor Antibiotics in the Marine Environment|Mar. Pollut. Bull.48(5/6): 434-440|2004|10.1016/j.marpolbul.2003.08.018
102326|T||Haskell Laboratory|Initial Submission:  Toxicity of Urea Herbicides, Intermediates and Catalysts with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010581:31 p.|1992|
102327|T||E.I. Du Pont De Nemours|Mouse Bone Marrow Micronucleus Assay of 3,4-Dichlorobenzenamine with Attachments and Cover Letter from SOCMA Dated 100289|EPA/OTS Doc.#40-8976501:21 p.|1989|
102328|A||Shell Oil Co.|Initial Submission:  An Early Life Stage Test with 3,4-Dichloroaniline in the Fathead Minnow (Pimephales promelas) with Cover Letter Dated 052892|EPA/OTS Doc.#88-920003418:28 p.|1992|
102329|A||Shell Oil Co.|Initial Submission:  Chronic Toxicity Study with 3,4-Dichloroaniline in Algae, Invertebrates, and Fish in Outdoor Ponds with Cover Letter Dated 053092|EPA/OTS Doc.#88-920003377:36 p.|1992|
102331|A||Pan,Y., A. Vaivoda, and E. Foster|Effects of Bromacil, Diuron, Glyphosate, and Sulfometuron-Methyl on Periphyton Assemblages and Rainbow Trout|Final Rep., State Planning and Res.No.392, Environ.Sci.and Resour., Portland State Univ., Portland, OR:36 p.|2003|
102333|A||Shell Oil Co.|Toxicity Tests with Daphnia magna:  Acute Toxicity of Eight Test Materials to a Newly-Introduced Strain of D. magna in Reconstituted Fresh Water|EPA/OTS Doc.#878214957:15 p.|1985|
102334|A||Kersting,K.|The Use of Microsystems for the Evaluation of the Effect of Toxicants|Hydrobiol. Bull.9(3): 102-108|1975|10.1007/BF02263327
102335|A||Urbach,W., and W. Simonis|Further Evidence for the Existence of Cyclic and Non-cyclic Photophosphorylation In Vivo by Means of Desaspidin and DCMU|Z. Naturforsch. B, J. Chem. Sci. (Multiple Languages)22(5): 537-540|1967|10.1515/znb-1967-0517
102339|T||Anonymous|Initial Submission:  Letter from [] to U.S. EPA Regarding Acute Oral Toxicity Study of a Mixture Containing N1-(2,4-Dichlorophenyl)-N,N-Dimethylurea in Rats Dated 112994|EPA/OTS Doc.#88-950000055s:3 p.|1994|
102343|T||SOCMA|Methemoglobin Inducing Potential of Various Substituted Anilines with Cover Letter Dated 121984|EPA/OTS Doc.#40-8476328:52 p.|2000|
102344|T||Agrawal,R.C., and S. Kumar|Hepato-Toxic Effect of Diuron in Albino Rats|Indian J. Exp. Biol.37(5): 503-504|1999|
102345|T||Solecki,R., T.V. Zglinicki, H.M. Muller, and P. Clausing|Iron Overload of Spleen, Liver and Kidney as a Consequence of Hemolytic Anaemia|Exp. Pathol.  (Jena)23(4): 227-235|1983|10.1016/S0232-1513(83)80062-0
102346|A||Pedersen,T., and B. Carlsen|Marking Cod (Gadus morhua L.) Juveniles with Oxytetracycline Incorporated into the Feed|Fish. Res.12(1): 57-64|1991|10.1016/0165-7836(91)90049-L
102347|T||Martel,A.C., S. Zeggane, P. Drajnudel, J.P. Faucon, and M. Aubert|Tetracycline Residues in Honey After Hive Treatment|Food Addit. Contam.23(3): 265-273|2006|10.1080/02652030500469048
102348|T||Mitchell,I.D.G., P.J. Gilbert, A.J. Brice, and D.J. White|Somatic Eye Mutation in Drosophila melanogaster as a Short-Term Test for Mutagens and Carcinogens|Carcinogenesis2(8): 783-786|1981|10.1093/carcin/2.8.783
102349|T||Maritim,A.C., S. Sohlberg, K. Lindqvist, and P. Lokken|A Comparison of the Oxytetracycline Preparations Aquacycline and Terramycin-100 with Regard to Absorption Characteristics, Local Tissue Reactions and Residues Following Dewlap Injections in Calves|Acta Vet. Scand.27(3): 361-368|1986|10.1186/BF03548150
102350|T||Hartsook,E.W., R.V. Boucher, and T.V. Hershberger|The Effect of Dietary Antibiotics upon Hepatic and Renal Xanthine Dehydrogenase Activity in Chicks|Arch. Biochem. Biophys.82(2): 310-318|1959|10.1016/0003-9861(59)90126-2
102351|T||Furusawa,N.|Transference of Dietary Veterinary Drugs into Eggs|Vet. Res. Commun.25(8): 651-662|2001|10.1023/A:1012743230180
102352|T||Boleas,S., C. Alonso, J. Pro, C. Fernandez, G. Carbonell, and J.V. Tarazona|Toxicity of the Antimicrobial Oxytetracycline to Soil Organisms in a Multi-Species-Soil System (MS-3) and Influence of Manure Co-Addition|J. Hazard. Mater.122(3): 233-241|2005|10.1016/j.jhazmat.2005.03.003
102354|T||Coetzee,J.F., M.D. Apley, K.M. Kocan, F.R. Rurangirwa, and J. Van Donkersgoed|Comparison of Three Oxytetracycline Regimens for the Treatment of Persistent Anaplasma marginale Infections in Beef Cattle|Vet. Parasitol.127(1): 61-73|2005|10.1016/j.vetpar.2004.08.017
102355|T||Premila,K.S., and D. Dale|Induction of Resistance in Rice Plants to Insect Pests by the Application of Chelated Metal Complexes|Crop Prot.3(2): 187-192|1984|10.1016/0261-2194(84)90053-X
102356|T||Beacom,S.E., Z. Mir, G.O. Korsrud, W.D.G. Yates, and J.D. MacNeil|Effect of the Feed Additives Chlortetracycline, Monensin and Lasalocid on Feedlot Performance of Finishing Cattle Liver Lesions and Tissue Levels of Chlortetracycline|Can. J. Anim. Sci.68(4): 1131-1142|1988|10.4141/cjas88-129
102358|T||Tapp,E., and B. Lowe|Tetracycline Toxicity in Haemoglobinuria|Br. Med. J. (Clin. Res. Ed.)1(5480): 143-144|1966|10.1136/bmj.1.5480.143
102359|T||Rollin,R.E., K.N. Mero, P.B. Kozisek, and R.W. Phillips|Diarrhea and Malabsorption in Calves Associated with Therapeutic Doses of Antibiotics:  Absorptive and Clinical Changes|Am. J. Vet. Res.47(5): 987-991|1986|
102361|T||Pickles,J.O., and G.W. Rouse|Effects of Streptomycin on Development of the Apical Structures of Hair Cells in the Chick Basilar papilla|Hear. Res.55(2): 244-254|1991|10.1016/0378-5955(91)90109-M
102362|T||Cilievici,O., E. Ghidus, T. Traistaru, and V. Sima|Effects of Antibiotics on the Chick Embryo Development|Rev. Roumaine Biol. Ser. Biol. Anim.26(1): 41-48|1981|
102363|T||Benzo,C.A.|Effects of Oxytetracycline Treatment on Enzymes of Hepatic Glycogen Metabolism in Genetically Diabetic (db/db) Mice|Biochem. Med. Metab. Biol.37(1): 42-50|1987|10.1016/0885-4505(87)90008-9
102364|T||Vijayalekshmy,K.S., V.P. Menon, and S. Leelamma|Role of Antibiotics in Lipid Peroxidation|Indian J.Biochem.29(4): 371-374|1992|
102365|T||Seo,M.L., A. Yamatodani, A. Mizutani, and S. Kiyono|Short-Term, Preweaning Treatment with Tetracycline Affects Physical Development and Behavior in Rats|Neurotoxicology14(1): 65-75|1993|
102367|T||Touvay,C., M. Chapelat, A. Etienne, J. Baranes, F. Clostre, and F.V. DeFeudis|Effects of Different Diuretics on Tetracycline-Induced Hyperuraemia and Hypercreatininaemia in the Rat|Arch. Int. Pharmacodyn. Ther.257(2): 307-318|1982|
102368|T||Greenberger,N.J., R.L. Perkins, F.E. Cuppage, and R.D. Ruppert|Severe Metabolic Acidosis in the Rat Induced by Toxic Doses of Tetracycline|Proc. Soc. Exp. Biol. Med.125(4): 1194-1197|1967|10.3181/00379727-125-32311
102369|T||Benitz,K.F., and H.F. Diermeier|Renal Toxicity of Tetracycline Degradation Products|Proc. Soc. Exp. Biol. Med.115:930-935|1964|10.3181/00379727-115-29082
102370|T||Polec,R.B., S.D.J. Yeh, and M.E. Shils|Protective Effect of Ascorbic Acid, Isoascorbic Acid and Mannitol Against Tetracycline-Induced Nephrotoxicity|J. Pharmacol. Exp. Ther.178(1): 152-158|1971|
102371|T||Clary,B.D., R.J. Terry, and C.R. Creger|The Potentiation Effect of Citric Acid on Aureomycin in Turkeys|Poult. Sci.60(6): 1209-1212|1981|10.3382/ps.0601209
102372|T||Harbers,L.H., A.P. Alvares, A.I. Jacobson, and W.J. Visek|Effect of Barbituric Acid and Chlortetracycline Upon Growth, Ammonia Concentration, and Urease Activity in the Gastrointestinal Tract of Chicks|J. Nutr.80:75-79|1963|
102374|T||Selikowitz,S.M., and C.A. Olsson|Effect of Tetracycline on Calcium Oxalate Calculi:  In Vivo and In Vitro Studies|Investig. Urol.14(2): 124-127|1976|
102375|T||Zinn,R.A.|Influence of Oral Antibiotics on Digestive Function in Holstein Steers Fed a 71% Concentrate Diet|J. Anim. Sci.71(1): 213-217|1993|10.2527/1993.711213x
102376|T||Ternus,G.S., R.L. Vetter, and M.M. Danley|Feeder Lamb Response to Chlortetracycline-Sulfamethazine Supplementation|J. Anim. Sci.33(4): 878-880|1971|10.2527/jas1971.334878x
102377|T||Obek,A., I. Petorak, L. Eroglu, and A. Gurkan|Effects of Tetracycline on the Dog Kidney.  A Functional and Ultrastructural Study|Isr. J. Med. Sci.10(7): 765-771|1974|
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102382|T||Dessau,F.I., and W.J. Sullivan|A Two-Year Study of the Toxicity of Chlortetracycline Hydrochloride in Rats|Toxicol. Appl. Pharmacol.3:654-677|1961|10.1016/0041-008X(61)90030-8
102383|T||Letteron,P., B. Fromenty, B. Terris, C. Degott, and D. Pessayre|Acute and Chronic Hepatic Steatosis Lead to In Vivo Lipid Peroxidation in Mice|J. Hepatol.24(2): 200-208|1996|10.1016/S0168-8278(96)80030-4
102384|T||Einheber,A., H. Rosen, R.E. Wren, and N.N. Beaudry|The Role of Microbial Flora in the Hepatotoxicity of Chlortetracycline In Vivo:  A Study with Germfree Mice|Biochem. Pharmacol.15(8): 1093-1104|1966|10.1016/0006-2952(66)90274-7
102385|T||Miller,S.E.P., R.N.M. MacSween, A.C.A. Glen, K. Tribedi, and F.M.L. Moore|Experimental Studies on the Hepatic Effects of Tetracycline|Br. J. Exp. Pathol.48(1): 51-57|1967|
102386|T||Miller,E.J., O. Kajikawa, S. Pueblitz, R.W. Light, K.K. Koenig, and S. Idell|Chemokine Involvement in Tetracycline-Induced Pleuritis|Eur. Respir. J.14(6): 1387-1393|1999|10.1183/09031936.99.14613879
102387|A||Lunden,T., S. Miettinen, L.G. Lonnstrom, E.M. Lilius, and G. Bylund|Influence of Oxytetracycline and Oxolinic Acid on the Immune Response of Rainbow Trout (Oncorhynchus mykiss)|Fish Shellfish Immunol.8(3): 217-230|1998|10.1006/fsim.1998.0142
102388|T||Singh,D.R., and S. Prasad|Laboratory Studies on the Effectiveness of Boric Acid and Antibiotic Combinations Against Adults of Tribolium confusum|Geobios12(1): 33-36|1985|
102389|A||Toften,H., and M. Jobling|Development of Spinal Deformities in Atlantic Salmon and Arctic Charr Fed Diets Supplemented with Oxytetracycline|J. Fish Biol.49(4): 668-677|1996|10.1111/j.1095-8649.1996.tb00063.x
102390|T||Altura,B.M., and A. Gebrewold|Chemical Blockade of the Reticuloendothelial System Results in Arteriolar Spasms:  Possible Role of Endothelial Cells|Microcirc. Endothelium Lymphatics2(2): 151-159|1985|
102391|T||Asha,K.K., T.V. Sankar, and P.G. Viswanathan Nair|Effect of Tetracycline on Pancreas and Liver Function of Adult Male Albino Rats|J. Pharm. Pharmacol.59(9): 1241-1248|2007|10.1211/jpp.59.9.0008
102392|T||Breen,K.J., S. Schenker, and M. Heimberg|Fatty Liver Induced by Tetracycline in the Rat.  Dose-Response Relationships and Effect of Sex|Gastroenterology69(3): 714-723|1975|10.1016/S0016-5085(19)32474-6
102393|T||Rosen,H., A. Einheber, N.D. Brown, and R.E. Wren|Chlortetracycline and Mouse Intestinal Wall|Nature214(5089): 671-674|1967|10.1038/214671a0
102394|T||Roudaut,B., J.P. Moretain, and J. Boisseau|Excretion of Tetracycline and Chlortetracycline in Eggs After Oral Medication of Laying Hens|Food Addit. Contam.6(1): 71-78|1989|10.1080/02652038909373740
102395|T||Sahn,S.A., and J.T.,Jr. Good|The Effect of Common Sclerosing Agents on the Rabbit Pleural Space|Am. Rev. Respir. Dis.124(1): 65-67|1981|
102396|T||Van den Bogert,C., M. Lont, M. Mojet, and A.M. Kroon|Impairment of Liver Regeneration During Inhibition of Mitochondrial Protein Synthesis by Oxytetracycline|Biochim. Biophys. Acta722(3): 393-400|1983|10.1016/0005-2728(83)90054-3
102397|T||Hetem,S.|The Effect of Transplacentally Acquired Tetracycline on Calcium and Phosphorus Content of the Long Bones of Newborn and 15-Day-Old Mice|Rev. Fac. Odontol. Aracatuba4(2): 245-250|1975|
102398|T||Estler,C.J., and R. Bocker|Age Dependency of Rolitetracycline-Induced Hepatic Steatosis|Dev. Pharmacol. Ther.3(4): 189-196|1981|10.1159/000457442
102399|T||Farid,M.|Alterations Induced by Nesdonal and Revrin on the Hepatic and Nervous Tissues of Chick Embryo|Pediatr. Pharmacol.1(4): 357-364|1981|
102400|T||Hakkinen,I., and I. Lindgren|The Localization of Tetracycline in the Metastatic Calcifications in the Stomach of Rat Induced by Overdosage of Dihydrotachysterol and Vitamin D3|Acta Pathol. Microbiol. Scand.59:428-434|1963|10.1111/j.1699-0463.1963.tb01242.x
102401|T||Immelman,A., W.S. Botha, and D. Grib|Muscle Irritation Caused by Different Products Containing Oxytetracycline|J. S. Afr. Vet. Assoc.49(2): 103-105|1978|
102402|A||Kim,S., H.S. Chung, J.Y. Ha, W.C. Jung, S.H. Heo, and H.J. Lee|Application of a Solid-Phase Fluorescence Immunoassay to Determine Oxytetracycline and Tetracycline Residues in Tissue of Olive Flounder (Paralichthys olivaceus)|J. Vet. Med. Sci.68(11): 1243-1245|2006|10.1292/jvms.68.1243
102403|T||Kuhne,M., S. Wegmann, A. Kobe, and R. Fries|Tetracycline Residues in Bones of Slaughtered Animals|Food Cont.11(3): 175-180|2000|10.1016/S0956-7135(99)00092-4
102405|A||Namdari,R., S. Abedini, L. Albright, and F.C.P. Law|Tissue Distribution and Elimination of Oxytetracycline in Sea-Pen Cultured Chinook Salmon, Oncorhynchus tshawytscha, and Atlantic Salmon, Salmo salar, Following Medicated-Feed Treatment|J. Appl. Aquacult.8(1): 39-52|1998|10.1300/J028v08n01_03
102408|T||Idell,S., A. Azghani, S. Chen, K. Koenig, A. Mazar, L. Kodandapani, K. Bdeir, D. Cines, I. Kulikovskaya, and T. Allen|Intrapleural Low-Molecular-Weight Urokinase or Tissue Plasminogen Activator Versus Single-Chain Urokinase in Tetracycline-Induced Pleural Loculation in Rabbits|Exp. Lung Res.33(8-9): 419-440|2007|10.1080/01902140701703333
102410|T||Hansen,C.H., L.H. Pearson, S. Schenker, and B. Combes|Impaired Secretion of Triglycerides by the Liver; a Cause of Tetracycline-Induced Fatty Liver|Proc. Soc. Exp. Biol. Med.128(1): 143-146|1968|10.3181/00379727-128-32964
102411|T||Backman,T., and M.A. Larmas|Chronic Metabolic Alkalosis, Sucrose Diet and Dentine Formation in Young Rats|Arch. Oral Biol.42(4): 299-304|1997|10.1016/S0003-9969(97)00011-3
102412|T||Galtier,P., and M. Alvinerie|Incidence of Experimental Ochratoxicosis on Hepatic Disposition of (3H)Tetracycline and Chloramphenicol in Rats|Toxicol. Lett.18(3): 263-267|1983|10.1016/0378-4274(83)90104-2
102413|T||Moretto,A., L. Tesolin, F. Marsilio, M. Schiavon, M. Berna, and F.M. Veronese|Slow Release of Two Antibiotics of Veterinary Interest from PVA Hydrogels|Farmaco (Pavia) (Multiple Languages)59(1): 1-5|2004|10.1016/j.farmac.2003.11.003
102414|T||Van den Bogert,C., M. Holtrop, T.E. Melis, P.R. Roefsema, and A.M. Kroon|Different Effects of Oxytetracycline and Doxycycline on Mitochondrial Protein Synthesis in Rat Liver After Long-Term Treatment|Biochem. Pharmacol.36(9): 1555-1559|1987|10.1016/0006-2952(87)90126-2
102415|T||Didierjean,L., L. Gondet, R. Perkins, S.M.C. Lau, H. Schaller, D.P. O'Keefe, and D. Werck-Reichhart|Engineering Herbicide Metabolism in Tobacco and Arabidopsis with CYP76B1, a Cytochrome P450 Enzyme from Jerusalem Artichoke|Plant Physiol.130(1): 179-189|2002|10.1104/pp.005801
102417|A||Maenpaa,P., K. Sippola, A. Rokka, and E.M. Aro|Substitution of Ala-251 of the D1 Reaction Centre Polypeptide with a Charged Residue Results in Impaired Function of Photosystem II|Plant Mol. Biol.38(6): 1191-1200|1998|10.1023/A:1006051615081
102418|A||Hanh,N.N., and T.M. Canh|Fluorescent Biosensor Using Whole Cells in an Inorganic Translucent Matrix|Anal. Chim. Acta583(1): 161-165|2007|10.1016/j.aca.2006.10.005
102419|A||Pant,A., S.C. Srivastava, and S.P. Singh|Factors Regulating Methyl Mercury Uptake in a Cyanobacterium|Ecotoxicol. Environ. Saf.32(1): 87-92|1995|10.1006/eesa.1995.1089
102420|A||Papageorgiou,G., and G. Govindjee|Changes in Intensity and Spectral Distribution of Fluorescence.  Effect of Light Treatment on Normal and DCMU-Poisoned Anacystis nidulans|Biophys. J.7(4): 375-389|1967|10.1016/S0006-3495(67)86595-0
102421|A||Peschek,G.A., D. Alge, S. Fromwald, and B. Mayer|Transient Accumulation of Heme O (Cytochrome O) in the Cytoplasmic Membrane of Semi-Anaerobic Anacystis nidulans.  Evidence for Oxygenase-Catalyzed Heme O/A Transformation|J. Biol. Chem.270(46): 27937-27941|1995|10.1074/jbc.270.46.27937
102422|A||Pelroy,R.A., and J.A. Bassham|Kinetics of Glucose Incorporation by Aphanocapsa 6714|J. Bacteriol.115(3): 943-948|1973|10.1128/jb.115.3.943-948.1973
102423|A||Rouillon,R., M. Tocabens, and R. Carpentier|A Photoelectrochemical Cell for Detecting Pollutant-Induced Effects on the Activity of Immobilized Cyanobacterium Synechococcus sp. PCC 7942|Enzyme Microb. Technol.25(3-5): 230-235|1999|10.1016/S0141-0229(99)00033-2
102424|A||Schreiber,U., J.F. Muller, A. Haugg, and R. Gademann|New Type of Dual-Channel PAM Chlorophyll Fluorometer for Highly Sensitive Water Toxicity Biotests|Photosynth. Res. (Dordr., Online)74(3): 317-330|2002|10.1023/A:1021276003145
102425|A||Tsuji,N., T. Hirooka, H. Nagase, K. Hirata, and K. Miyamoto|Photosynthesis-Dependent Removal of 2,4-Dichlorophenol by Chlorella fusca var. vacuolata|Biotechnol. Lett.25(3): 241-244|2003|10.1023/A:1022333406348
102426|A||Wilde,E.W., and B.D. McLaughlin|Selecting an Algicide for Use with Aluminum Alloys|Water Res.15(9): 1117-1124|1981|10.1016/0043-1354(81)90081-6
102427|A||Werner,D., O. Behrsing, G. Scharte, J. Woller, M. Steup, and B. Micheel|Monoclonal Anti-Diuron Antibodies Prevent Inhibition of Photosynthesis by Diuron|FEBS Lett.523(1-3): 95-98|2002|10.1016/S0014-5793(02)02952-6
102428|A||Trubitsin,B.V., M.D. Mamedov, L.A. Vitukhnovskaya, A.Y. Semenov, and A.N. Tikhonov|EPR Study of Light-Induced Regulation of Photosynthetic Electron Transport in Synechocystis sp. Strain PCC 6803|FEBS Lett.544(1-3): 15-20|2003|10.1016/S0014-5793(03)00429-0
102429|A||Bower,S.M.|Disinfectants and Therapeutic Agents for Controlling Labyrinthuloides haliotidis (Protozoa: Labyrinthomorpha), an Abalone Pathogen|Aquaculture78(3/4): 207-215|1989|10.1016/0044-8486(89)90098-7
102430|A||Bjorklund,H.V., and G. Bylund|Comparative Pharmacokinetics and Bioavailability of Oxolinic Acid and Oxytetracycline in Rainbow Trout (Oncorhynchus mykiss)|Xenobiotica21(11): 1511-1520|1991|10.3109/00498259109044401
102431|A||Rigos,G., I. Nengas, M. Alexis, and F. Athanassopoulou|Bioavailability of Oxytetracycline in Sea Bass, Dicentrarchus labrax (L.)|J. Fish Dis.27(2): 119-122|2004|10.1046/j.1365-2761.2003.00510.x
102432|A||Faroongsarng,D., A. Chandumpai, S. Chiayvareesajja, and Y. Theapparat|Bioavailability and Absorption Analysis of Oxytetracycline Orally Administered to the Standardized Moulting Farmed Pacific White Shrimps (Penaeus vannamei)|Aquaculture269(1-4): 89-97|2007|10.1016/j.aquaculture.2007.04.019
102433|A||Cao,J., B. Bian, and M. Li|Ingestion and Excretion of Several Antibacterial Drugs by the Brine Shrimp (Artemia parthenogenetica) II.  Ingestion and Excretion of Water-Insoluble Drugs|Zhongguo Shuichan Kexue (Non-English)3(4): 74-81|1996|
102434|A||Reja,A., L. Moreno, J.M. Serrano, D. Santiago, and F. Soler|Concentration-Time Profiles of Oxytetracycline in Blood, Kidney and Liver of Tench (Tinca tinca L) After Intramuscular Administration|Vet. Hum. Toxicol.38(5): 344-347|1996|
102435|A||Salte,R., and K. Liestol|Drug Withdrawal from Farmed Fish. Depletion of Oxytetracycline, Sulfadiazine, and Trimethophrim from Muscular Tissue of Rainbow Trout (Salmo gairdneri)|Acta Vet. Scand.24:418-430|1983|10.1186/BF03546715
102436|A||Salte,R.|Oxytetracycline Residues in Rainbow Trout (Salmo gairdneri) Fed a Commercial Medicated Feed|Acta Vet. Scand.23:150-152|1982|10.1186/BF03546833
102437|T||Jayachandran,C., M.K. Singh, and N.C. Banerjee|Disposition Kinetics of Oxytetracycline in Plasma, Milk and Uterine Fluid After I.V. Administration in Female Buffaloes|Indian J. Pharmacol.27(1): 30-33|1995|
102438|T||Van Donkersgoed,J., M. Vanderkop, C. Salisbury, L. Sears, and J. Holowath|The Effect of Administering Long-Acting Oxytetracycline and Tilmicosin Either by Dart Gun or by Hand on Injection Site Lesions and Drug Residues in Beef Cattle|Can. Vet. J.40(8): 583-587|1999|
102439|T||Capolongo,F., A. Santi, L. Tomasi, P. Anfossi, M. Missagia, and C. Montesissa|Residues of Oxytetracycline and Its 4'-Epimer in Edible Tissues from Turkeys|J. AOAC Int.85(1): 8-14|2002|10.1093/jaoac/85.1.8
102440|T||Black,W.D., A.L. Mackay, P.A. Doig, and M.J. Claxton|A Study of Drug Residues in Milk Following Intrauterine Infusion of Antibacterial Drugs in Lactating Cows|Can. Vet. J.20(12): 354-357|1979|
102441|T||Ranney,R.E., and S.J. Eich|The Metabolism of Sodium Amylopectin Sulfate in the Rat|Toxicol. Appl. Pharmacol.15(3): 593-603|1969|10.1016/0041-008X(69)90061-1
102443|T||Lindquist,R.R., and F.X. Fellers|Degraded Tetracycline Nephropathy.  Functional, Morphologic, and Histochemical Observations|Lab. Invest.15(5): 864-876|1966|
102444|T||Tubaro,E., M. Barletta, and F. Banci|Some Pharmacological Aspects of a New Water-Soluble Tetracycline|J. Pharm. Pharmacol.16:33-37|1964|10.1111/j.2042-7158.1964.tb07373.x
102445|T||Ames,T.R., F.W. Hyde, and C.P. Marabella|Oxytetracycline-Containing Bovine Serum Albumin Microspheres for Treatment of Calves with Experimentally Induced Pasteurella haemolytica Pneumonia|J. Control. Release22(3): 219-222|1992|10.1016/0168-3659(92)90096-A
102446|T||Lewicki,Z., J. Wutzen, E. Hagel-Lewicka, A. Sulikowska, and R. Figurski|Histological and Histochemical Evidence of Tetracycline Hydrochloride Hepatoxicity in Young Rats|Mater. Med. Pol.12(4): 252-258|1980|
102447|T||Bugyei,K., W. Black, S. McEwen, and A.H. Meek|Detecting Oxytetracycline Residues in Chicken Tissues Using the Delvotest P System|J. Food Prot.57(2): 141-145|1994|10.4315/0362-028X-57.2.141
102448|T||Elsheikh,H.A., A.M.O. Intisar, I.B. Eltayeb, and A.S. Abdullah|Effect of Dehydration on the Pharmacokinetics of Oxytetracycline Hydrochloride Administered Intravenously in Goats (Capra hircus)|Gen. Pharmacol.31(3): 455-458|1998|10.1016/S0306-3623(98)00013-5
102449|T||Rumbos,I.C.|Control of Plum Chlorotic Leaf Roll Disease by Trunk Pressure Injection of Oxytetracycline HCl|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)92(6): 581-587|1986|
102450|T||Wanner,M., W. Walker, H.M. Sutter, J.L. Riond, and J. Broz|Influence of Dietary Citric Acid and Calcium on the Bioavailability of Orally Administered Chlortetracycline in Piglets|J. Vet. Med. Ser. A38(10): 755-762|1991|10.1111/j.1439-0442.1991.tb01075.x
102451|T||Hokanson,J.F., G.H.,Jr. Watrous, G. Burch, and R.J. Eberhart|Persistence of Antibacterial Agents in Milk After Intravenous Treatment of Acute Bovine Mastitis|J. Am. Vet. Med. Assoc.143:395-397|1963|
102452|T||Messersmith,R.E., B. Sass, H. Berger, and G.O. Gale|Safety and Tissue Residue Evaluations in Swine Fed Rations Containing Chlortetracycline, Sulfamethazine, and Penicillin|J. Am. Vet. Med. Assoc.151(6): 719-724|1967|
102453|T||McEvoy,J.D.G., S.R.H. Crooks, C.T. Elliott, W.J. McCaughey, and D.G. Kennedy|Origin of Chlortetracycline in Pig Tissue|Analyst (Lond.)119(12): 2603-2606|1994|10.1039/an9941902603
102454|T||Pollet,R.A., C.E. Glatz, D.C. Dyer, and H.J. Barnes|Pharmacokinetics of Chlortetracycline Potentiation with Citric Acid in the Chicken|Am. J. Vet. Res.44(9): 1718-1721|1983|
102455|T||Gregorc,A., and I.D. Bowen|Histochemical Characterization of Cell Death in Honeybee Larvae Midgut After Treatment with Paenibacillus Larvae, Amitraz and Oxytetracycline|Cell Biol. Int.24(5): 319-324|2000|10.1006/cbir.1999.0490
102456|A||Sangrungruang,K., A. Chotchuang, and R. Ueno|Comparative Pharmacokinetics and Bioavailability of Oxytetracycline in Giant Tiger Prawn|Fish. Sci.70(3): 467-472|2004|10.1111/j.1444-2906.2004.00827.x
102457|T||Ahmed,S.S.|The Effects of X-Irradiation and Antibiotics on the Susceptibility of Aedes togoi and A. aegypti to Subperiodic Brugia malayi and B. pahangi|Ann. Trop. Med. Parasitol.63(3): 353-357|1969|10.1080/00034983.1969.11686636
102458|T||Matsuka,M., and J. Nakamura|Oxytetracycline Residues in Honey and Royal Jelly|J. Apic. Res.29(2): 112-117|1990|10.1080/00218839.1990.11101206
102459|A||Studnicka,M., A.K. Siwicki, M. Morand, A. Rymuszka, A. Bownik, and E. Terech-Majewska|Modulation of Nonspecific Defence Mechanisms and Specific Immune Responses After Suppression Induced by Xenobiotics|J. Appl. Ichthyol.16(1): 1-7|2000|10.1046/j.1439-0426.2000.00143.x
102460|T||Tubaro,E.|Possible Relationship Between Tetracycline Stability and Effect on Foetal Skeleton|Br. J. Pharmacol. Chemother.23:445-448|1964|10.1111/j.1476-5381.1964.tb01601.x
102461|T||Steiner,G., W. Bradford, and J.M. Craig|Tetracycline-Induced Abortion in the Rat|Lab. Invest.14(8): 1456-1463|1965|
102462|T||De Jonge,H.R.|Toxicity of Tetracyclines in Rat-Small-Intestinal Epithelium and Liver|Biochem. Pharmacol.22(21): 2659-2677|1973|10.1016/0006-2952(73)90127-5
102463|T||Prabhu,V.G.|Effect of Chronic Treatment with Therapeutically Useful Antibiotics on the Response of Certain Pharmacologic Agents in the Rat|J. Am. Osteopath. Assoc.69(10): 1022-1023|1970|
102464|T||Gijzel,W.P., M. Strating, and A.M. Kroon|The Biogenesis of Mitochondria During Proliferation and Maturation of the Intestinal Epithelium of the Rat.  Effects of Oxytetracycline|Cell Differ.1(3): 191-198|1972|10.1016/0045-6039(72)90028-0
102465|T||Zussman,W.V.|Hepatic Alterations Following Experimental Tetracycline Toxicity in Rats|Anat. Rec.162(3): 301-311|1968|10.1002/ar.1091620305
102466|T||Tubaro,E., and F. Banci|The Pharmacology of Chlormethylenecycline, a New Chlortetracycline|Arzneim. Forsch.14:95-100|1964|
102467|T||Tubaro,E.|Some Aspects of the Absorption and Excretion of N-Methylol-Chlortetracycline|Arzneim. Forsch.14:1355-1359|1964|
102468|T||Tonelli,G., L. Alfano, and E. Takesue|The Effect of 2,2'-Phosphinicodilactic Acid on the Absorption of Tetracyclines with Notes on Pharmacology and Toxicity|J. Pharmacol. Exp. Ther.145:386-392|1964|
102469|T||Setnikar,I., M. Conti, and R. Guerci|Pharmacology of Moquizone, a New Choleretic Drug|Arzneim. Forsch.22(11): 1894-1903|1972|
102470|T||Fanelli,G.M., and S.L. Halliday|Relative Toxicity of Chlortetracycline and Sodium Benzoate After Oral Administration to Rats|Arch. Int. Pharmacodyn. Ther.144(1/2): 120-125|1963|
102471|T||Oh,Y.H., and H.K. Han|Pharmacokinetic Interaction of Tetracycline with Non-Steroidal Anti-Inflammatory Drugs via Organic Anion Transporters in Rats|Pharmacol. Res.53(1): 75-79|2006|10.1016/j.phrs.2005.09.003
102472|T||Colinas,C., D. Perry, R. Molina, and M. Amaranthus|Survival and Growth of Pseudotsuga menziesii Seedlings Inoculated with Biocide-Treated Soils at Planting in a Degraded Clearcut|Can. J. For. Res.24(8): 1741-1749|1994|10.1139/x94-225
102473|T||Colinas,C., R. Molina, J. Trappe, and D. Perry|Ectomycorrhizas and Rhizosphere Microorganisms of Seedlings of Pseudotsuga menziesii (Mirb.) Franco Planted on a Degraded Site and Inoculated with Forest Soils Pretreated with Selective Biocides|New Phytol.127(3): 529-537|1994|10.1111/j.1469-8137.1994.tb03971.x
102474|T||Villasenor,I.M., P. Finch, C.Y. Lim-Sylianco, and F. Dayrit|Structure of a Mutagen from Roasted Seeds of Moringa oleifera|Carcinogenesis10(6): 1085-1087|1989|10.1093/carcin/10.6.1085
102475|T||Wolke,R.E., H.D. Eaton, S.W. Nielsen, and C.F. Helmboldt|Qualitative and Quantitative Osteoblastic Activity in Chronic Porcine Hypervitaminosis A|J. Pathol.98:677-686|1969|10.1002/path.1710970413
102476|T||Rolle,G.K.|Histochemistry of Bone Formation in Normal and Tetracycline-Treated Chick Embryos - I. Lipids|Arch. Oral Biol.10(3): 393-405|1965|10.1016/0003-9969(65)90105-6
102477|T||Benzi,G., L. Sanguinetti, C. Consonno, A. Ferrara, and E. Arrigoni|Action of Some Antibiotics on the Extra-Hepatic Biliary Tract.  IX.  Chloramphenicol|Arch. Int. Pharmacodyn. Ther.189(1): 156-167|1971|
102478|T||Mallick,K.P., S. Dhar, D.V. Malhotra, C. Bhushan, and O.P. Gautam|Immunization of Neonatal Bovines Against Theileria annulata by an Infection and Treatment Method|Vet. Parasitol.24(3-4): 169-173|1987|10.1016/0304-4017(87)90037-9
102479|T||Lee,H., and R.G. Nagele|Toxic and Teratologic Effects of Verapamil on Early Chick Embryos:  Evidence for the Involvement of Calcium in Neural Tube Closure|Teratology33(2): 203-211|1986|10.1002/tera.1420330207
102480|T||Mutugi,J.J., A.S. Young, A.C. Maritim, S.G. Ndungu, D.A. Stagg, J.G. Grootenhuis, and B.L. Leitch|Immunization of Cattle Against Theileriosis Using Varying Doses of Theileria parva lawrencei and T. parva parva Sporozoites and Oxytetracycline Treatments|Int. J. Parasitol.18(4): 453-461|1988|10.1016/0020-7519(88)90008-2
102481|T||Noble,J.F., L.A. Kanegis, and D.W. Hallesy|Short-Term Toxicity and Observations on Certain Aspects of the Pharmacology of a Unique Tetracycline-Minocycline|Toxicol. Appl. Pharmacol.11(1): 128-149|1967|10.1016/0041-008X(67)90034-8
102482|T||Jennings,P.B., G.E.,Jr. Lewis, M.H. Crumrine, T.S. Coppinger, and M.A. Stedham|Glossitis of Military Working Dogs in Vietnam:  Experimental Production of Tongue Lesions|Am. J. Vet. Res.35(10): 1295-1299|1974|
102483|T||Davis,R.W., R.A. Kainer, and E.E. Flamboe|The Effects of an Oxytetracycline Preparation on the Thyroid Gland:  A Preliminary Report|Am. J. Vet. Res.27(116): 166-171|1966|
102484|T||Poiger,H., and C. Schlatter|Interaction of Cations and Chelators with the Intestinal Absorption of Tetracycline|Naunyn-Schmiedeberg's Arch. Pharmacol.306(1): 89-92|1979|10.1007/BF00515599
102486|T||Ciccarelli,R.B., and K.E. Wetterhahn|Nickel-Bound Chromatin, Nucleic Acids, and Nuclear Proteins from Kidney and Liver of Rats Treated with Nickel Carbonate In Vivo|Cancer Res.44(9): 3892-3897|1984|
102487|T||Melikian,A.A., K. Bagheri, and S.S. Hecht|Contrasting Disposition and Metabolism of Topically Applied Benzo(a)pyrene, trans-7,8-Dihydroxy-7,8-Dihydrobenzo(a)pyrene, and 7beta,8alpha-Dihydroxy-9alpha,10alpha-Epoxy-7,8,9,10- Tetrahydrobenzo(a)pyrene in Mouse Epid|Cancer Res.47:5354-5360|1987|
102488|T||Berchev,K., and N. Mollova|Effect of Chlortetracycline on the Pathogenesis of Experimental Atherosclerosis|Nauchni Tr. Vissh. Med. Inst. Sofia49(4): 43-47|1970|
102489|T||Del Castillo,J.R.E., G. Beauchamp, G.P. Martineau, and J.G. Besner|Short-Term Effects of In-Feed Supplementation of Tetracyclines for Disease Control on Feed Intake Pattern and Growth in Weaned Pigs|Livest. Prod. Sci.76(1-2): 115-124|2002|10.1016/S0301-6226(02)00011-8
102490|A||Koshy,B., M.K. Shivaprakash, and V. Kulkarni|Effect of Antibacterial and Antifungal Agents on Mega Sporocarp Germination in Azolla filiculoides|J. Ecobiol.13(2): 119-122|2001|
102491|A||Hipkiss,A.R.|The Effect of Streptomycin on Gametogenesis in Chlamydomonas reinhardi|Life Sci.6(6): 669-672|1967|10.1016/0024-3205(67)90105-1
102492|T||Horiike,O., H. Shimogori, T. Ikeda, and H. Yamashita|Protective Effect of Edaravone Against Streptomycin-Induced Vestibulotoxicity in the Guinea Pig|Eur. J. Pharmacol.464(1): 75-78|2003|10.1016/S0014-2999(03)01367-0
102493|T||Carey,J.P., A.F. Fuchs, and E.W. Rubel|Hair Cell Regeneration and Vestibulo-Ocular Reflex Recovery|Ann. N. Y. Acad. Sci.781:47-58|1996|10.1111/j.1749-6632.1996.tb15692.x
102494|T||Muranishi,S., N. Muranushi, and H. Sezaki|Improvement of Absolute Bioavailability of Normally Poorly Absorbed Drugs:  Inducement of the Intestinal Absorption of Streptomycin and Gentamycin by Lipid-Bile Salt Mixed Micelles in Rat and Rabbit|Int. J. Pharm.2(2): 101-111|1979|
102495|T||Maliga,P., A. Sz-Breznovits, L. Marton, and F. Joo|Non-Mendelian Streptomycin-Resistant Tobacco Mutant with Altered Chlorplasts and Mitochondria|Nature255(5507): 401-402|1975|10.1038/255401a0
102496|T||Noriyuki,M., K. Mariko, N. Yasuko, M. Shozo, and S. Hitoshi|Mechanism for the Inducement of the Intestinal Absorption of Poorly Absorbed Drugs by Mixed Micelles I.  Effects of Various Lipid - Bile Salt Mixed Micelles on the Intestinal Absorption of Streptomycin in Rat|Int. J. Pharm.4(4): 271-279|1980|
102497|T||Selimoglu,E., S. Kalkandelen, and F. Erdogan|Comparative Vestibulotoxicity of Different Aminoglycosides in the Guinea Pigs|Yonsei Med. J.44(3): 517-522|2003|10.3349/ymj.2003.44.3.517
102498|T||Al-Lami,A.H.H., M. Hayawi, and E.M.H. Jaffar|Effect of Antibiotics on Intestinal Glucose Absorption|J. Biol. Sci. (Faisalabad)13(2): 3-12|1982|
102499|T||Venkataiah,P., T. Christopher, and K. Subhash|Induction and Characterization of Streptomycin-Resistant Mutants in Capsicum praetermissum|J. Appl. Genet.46(1): 19-24|2005|
102500|A||Vlcek,D., S. Podstavkova, E. Miadokova, G.M.W. Adams, and G.D. Small|General Characteristics, Molecular and Genetic Analysis of Two New UV-Sensitive Mutants of Chlamydomonas reinhardtii|Mutat. Res.183(2): 169-175|1987|10.1016/0167-8817(87)90059-9
102502|T||Mohawed,S.M., E.A. Kassim, and A.S. El-Shahed|Studies on the Effects of Different pH Values, Vitamins, Indoles and Giberellic Acid on Production of Lipase by Aspergillus anthecieus|Agric. Wastes17:307-312|1986|10.1016/0141-4607(86)90139-3
102503|T||Bosin,T.R., E. Campaigne, A. Dinner, R.B. Rogers, and R.P. Maickel|Comparative Toxicological Studies of Indole, Benzo[b]Thiophene, and 1-Methylindole Derivatives|J. Toxicol. Environ. Health1:515-520|1976|10.1080/15287397609529350
102504|T||Steward,V.B., and T.A. Horner|Control of Hemlock Woolly Adelgid with Soil Injections Using Merit 2F (Imidacloprid) and Metasystox-R2 (Oxydemeton-Methyl), 1993|Arthropod Manag. Tests19:348-|1994|10.1093/amt/19.1.348
102505|T||Tojo,K., N. Hatae, K. Nakagawa, and A. Yoshida|Adhesive Systems for Pesticide Delivery Through Plant Stems|Pestic. Sci.49(1): 35-39|1997|10.1002/(SICI)1096-9063(199701)49:1<35::AID-PS468>3.0.CO;2-9
102506|T||Schnier,H.F., G. Wenig, F. Laubert, V. Simon, and R. Schmuck|Honey Bee Safety of Imidacloprid Corn Seed Treatment|Bull. Insectol.56(1): 73-75|2003|
102507|T||Mowry,T.M., and J.D. Ophus|Effects of Sub-Lethal Imidacloprid Levels on Potato Leafroll Virus Transmission by Myzus persicae|Entomol. Exp. Appl.103(3): 249-255|2002|10.1046/j.1570-7458.2002.00979.x
102508|T||Bozsik,A.|Susceptibility of Adult Coccinella septempunctata (Coleoptera:  Coccinellidae) to Insecticides with Different Modes of Action|Pest Manag. Sci.62(7): 651-654|2006|10.1002/ps.1221
102509|T||Clark,A.M.|The Effects of Chloramphenicol, Streptomycin and Penicillin on the Induction of Mutations by X-Rays in Drosophila melanogaster|Z. Vererbungsl.94:121-125|1963|
102510|T||Alleva,F.R., and T. Balazs|Age-Dependent Sensitivity of the Rat to Neurotoxic Effects of Streptomycin|Toxicol. Lett.6(6): 385-389|1980|10.1016/0378-4274(80)90111-3
102511|T||Zhou,H., S.H. McKiernan, W. Ji, and B.D. Bavister|Effect of Antibiotics on Development In Vitro of Hamster Pronucleate ova|Theriogenology54(7): 999-1006|2000|10.1016/S0093-691X(00)00408-8
102512|AT||Kreutzweiser,D.P., K.P. Good, D.T. Chartrand, T.A. Scarr, and D.G. Thompson|Are Leaves that Fall from Imidacloprid-Treated Maple Trees to Control Asian Longhorned Beetles Toxic to Non-Target Decomposer Organisms?|J. Environ. Qual.37(3): 639-646|2008|10.2134/jeq2007.0278
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102602|T||Dow Chemical Co.|Initial Submission:  Two-Year Chronic/Oncogenic Dietary Toxicity Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline in Fischer 344 Rats with Cover Letter Dated 081792|EPA/OTS Doc.#88-920005185:29 p.|1992|
102603|T||Dow Chemical Co.|Initial Submission:  A Subchronic Toxicity Study in Syrian Golden Hamsters Treated Orally with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:25 p.|1992|
102604|T||Dow Chemical Co.|Initial Submission:  A Subchronic Toxicity Study in Fischer 344 Rats Given 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:23 p.|1992|
102605|T||Dow Chemical Co.|Initial Submission:  A Teratology Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline Administered to CD Rats with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:25 p.|1992|
102606|T||Dow Chemical Co.|Initial Submission:  Rat Oral Pilot Teratology Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|EPA/OTS Doc.#88-920005212:15 p.|1992|
102607|T||Eli Lilly|Initial Submission:  19-Day Acute Oral Toxicity Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline in Bobwhite with Cover Letter Dated 081792|Eli Lilly and Co., Greenfield, IN:27 p.|1992|
102608|T||Dow Chemical Co.|Initial Submission:  Subchronic Mouse Oral Pilot Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792 and Attachments|EPA/OTS Doc.#88-920005189:7 p.|1992|
102609|T||Dow Chemical Co.|Initial Submission:  Subchronic Rat Oral Pilot Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792 and Attachment|EPA/OTS Doc.#88-920005192:6 p.|1992|
102610|T||Dow Chemical Co.|Initial Submission:  Subchronic Toxicity Study in Fischer 344 Rats Treated Orally with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:24 p.|1992|
102611|T||Dow Chemical Co.|Initial Submission:  Teratology Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline in New Zealand White Rabbits with Cover Letter Dated 080792 and Attachment|Dow Chemical Co., Midland, MI:30 p.|1992|
102612|T||Dow Chemical Co.|Initial Submission:  Subchronic Rat Oral Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|EPA/OTS Doc.#88-920005147:27 p.|1992|
102613|T||Dow Chemical Co.|Initial Submission:  5-Day Dietary Toxicity Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline in Juvenile Bobwhite with Cover Letter Dated 081792|Eli Lilly and Co., Greenfield, IN:24 p.|1992|
102614|T||Dumont,L., P. Stanley, and C. Chartrand|Peroperative Myocardial Ischemia and Citrate Administration:  Cardiovascular Adaptability in Conscious Dogs|Eur. Surg. Res.17(4): 221-229|1985|10.1159/000128470
102615|T||Anuradha,S., and S.S.R. Rao|Effect of Brassinosteroids on Salinity Stress Induced Inhibition of Seed Germination and Seedling Growth of Rice (Oryza sativa L.)|Plant Growth Regul.33(2): 151-153|2001|10.1023/A:1017590108484
102616|T||Fariduddin,Q., A. Ahmad, and S. Hayat|Responses of Vigna radiata to Foliar Application of 28-Homobrassinolide and Kinetin|Biol. Plant. (Praha)48(3): 465-468|2004|10.1023/B:BIOP.0000041106.77930.d6
102617|T||Hasan,S.A., S. Hayat, B. Ali, and A. Ahmad|28-Homobrassinolide Protects Chickpea (Cicer arietinum) from Cadmium Toxicity by Stimulating Antioxidants|Environ. Pollut.151(1): 60-66|2008|10.1016/j.envpol.2007.03.006
102618|T||Hayat,S., A. Ahmad, M. Mobin, A. Hussain, and Q. Fariduddin|Photosynthetic Rate, Growth, and Yield of Mustard Plants Sprayed with 28-Homobrassinolide|Photosynthetica (Praha)38(3): 469-471|2000|10.1023/A:1010954411302
102619|T||Hayat,S., A. Ahmad, M. Mobin, Q. Fariduddin, and Z.M. Azam|Carbonic Anhydrase, Photosynthesis, and Seed Yield in Mustard Plants Treated with Phytohormones|Photosynthetica (Praha)39(1): 111-114|2001|10.1023/A:1012456205819
102620|T||Masidur Alam,M., S. Hayat, B. Ali, and A. Ahmad|Effect of 28-Homobrassinolide Treatment on Nickel Toxicity in Brassica juncea|Photosynthetica (Praha)45(1): 139-142|2007|10.1007/s11099-007-0022-4
102621|T||Rajasekaran,L.R., and T.J. Blake|New Plant Growth Regulators Protect Photosynthesis and Enhance Growth Under Drought of Jack Pine Seedlings|J. Plant Growth Regul.18(4): 175-181|1999|10.1007/PL00007067
102622|T||Upreti,K.K., and G.S.R. Murti|Effects of Brassinosteroids on Growth, Nodulation, Phytohormone Content and Nitrogenase Activity in French Bean Under Water Stress|Biol. Plant. (Praha)48(3): 407-411|2004|10.1023/B:BIOP.0000041094.13342.1b
102623|T||Vidya Vardhini,B., and S.S. Ram Rao|Effect of Brassinosteroids on Nodulation and Nitrogenase Activity in Groundnut (Arachis hypogaea L.)|Plant Growth Regul.28(3): 165-167|1999|10.1023/A:1006227417688
102624|T||Tapp,E., and M.B. Lowe|Tetracycline Toxicity|Experientia22(8): 530-531|1966|10.1007/BF01898673
102625|T||Ward,G.S., C.C. Guiry, and L.L. Alexander|Tetracycline-Induced Anaphylactic Shock in a Dog|J. Am. Vet. Med. Assoc.180(7): 770-771|1982|
102626|A||Marwah,J.B., T.M. Shakila, N.S. Rao, and S.N. Bagchi|Detoxification of a Local Microcystis Bloom by an Algicidal Antibiotic from Oscillatoria Late-Virens|Indian J. Exp. Biol.33(2): 97-100|1995|
102627|T||Naguib,M.I., N.Z. Haikal, and F.F. Ali|Effect of Large Doses of Patoran and Diuron on Growth and Nitrogen Metabolism During the Formation of Fungal Felts of Cunninghamella echinulata|Egypt. J. Bot.25(1-3): 13-22|1982|
102628|A||Eichenberger,W.|Lipids of Chlamydomonas reinhardi Under Different Growth Conditions|Phytochemistry15(4): 459-463|1976|10.1016/S0031-9422(00)88947-5
102629|T||Dow Chemical Co.|Initial Submission:  Acute Bobwhite Oral Pilot Study with 4-(2-(4-(1,1-Dimethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|EPA/OTS Doc.#88-920005188:9 p.|1992|
102634|A||Siwicki,A.K., D.P. Anderson, and O.W. Dixon|Comparisons of Nonspecific and Specific Immunomodulation by Oxolinic Acid, Oxytetracycline and Levamisole in Salmonids|Vet. Immunol. Immunopathol.23(1-2): 195-200|1989|10.1016/0165-2427(89)90122-0
102635|T||Idell,S., T. Allen, S. Chen, K. Koenig, A. Mazar, and A. Azghani|Intrapleural Activation, Processing, Efficacy, and Duration of Protection of Single-Chain Urokinase in Evolving Tetracycline-Induced Pleural Injury in Rabbits|Am. J. Physiol., Lung Cell. Mol. Physiol.292(1): L25 - L32|2007|10.1152/ajplung.00118.2006
102636|T||Walsh,M.C., D.M. Sholly, R.B. Hinson, K.L. Saddoris, A.L. Sutton, J.S. Radcliffe, R. Odgaard, J. Murphy, and B.T. Riche|Effects of Water and Diet Acidification with and Without Antibiotics on Weanling Pig Growth and Microbial Shedding|J. Anim. Sci.85(7): 1799-1808|2007|10.2527/jas.2006-049
102637|T||Yoshimura,H., N. Osawa, F.S.C. Rasa, D. Hermawati, S. Werdiningsih, N.M.R. Isriyanthi, and T. Sugimori|Residues of Doxycycline and Oxytetracycline in Eggs After Medication via Drinking Water to Laying Hens|Food Addit. Contam.8(1): 65-69|1991|10.1080/02652039109373956
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102640|T||Damjanov,I., and D. Solter|Ultrastructure of Acute Tetracycline Induced Liver Change|Experientia27(10): 1204-1205|1971|10.1007/BF02286930
102641|T||Smith,M., N. Gyrd-Hansen, and F. Rasmussen|Tetracycline Intravenously to Cattle - Cardiovascular Side-Effects|Nord. Vetmed.33(4-5): 272-273|1981|
102642|A||Suenaga,O.|Treatment of Wolbachia pipientis Infection with Tetracycline Hydrochloride and the Change of Cytoplasmic Incompatibility in a Strain of Culex pipiens quinquefasciatus from Bangkok, Thailand|Trop. Med.34(1): 15-19|1992|
102643|T||Faraj,B.A., F.M. Ali, J.T. Fulenwider, E.J. Malveaux, and W.M. Stacciarini|Hepatorenal Failure Induced by Tetracycline in Dogs with Portacaval Shunt|J. Pharmacol. Exp. Ther.22(3): 558-563|1982|
102644|T||Saleem,M., R. Nazli, N. Afza, A. Sami, and M.S. Ali|Biological Significance of Essential Oil of Zataria multiflora Boiss|Nat. Prod. Res.18(6): 493-497|2004|10.1080/14786410310001608064
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102648|T||Yuangklang,C., T. Wensing, L. Van den Broek, S. Jittakhot, and A.C. Beynen|Effect of Oxytetracycline Supplementation on Nutrient Digestibility in Veal Calves|Anim. Feed Sci. Technol.118(1-2): 161-166|2005|10.1016/j.anifeedsci.2004.08.015
102649|T||Wivagg,R.T., J.M. Jaffe, and J.L. Colaizzi|Influence of pH and Route of Injection on Acute Toxicity of Tetracycline in Mice|J. Pharm. Sci.65(6): 916-918|1976|10.1002/jps.2600650630
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102651|T||Choi,W.S., B.S. Park, S.K. Ku, and S.E. Lee|Repellent Activities of Essential Oils and Monoterpenes Against Culex pipiens Pallens|Am. Mosq. Control Assoc. J.18(4): 348-351|2002|
102652|T||Park,B.S., W.S. Choi, J.H. Kim, K.H. Kim, and S.E. Lee|Monoterpenes from Thyme (Thymus vulgaris) as Potential Mosquito Repellents|Am. Mosq. Control Assoc. J.21(1): 80-83|2005|10.2987/8756-971X(2005)21[80:MFTTVA]2.0.CO;2
102653|T||Arras,G., and M. Usai|Fungitoxic Activity of 12 Essential Oils Against Four Postharvest Citrus Pathogens: Chemical Analysis of Thymus capitatus Oil and Its Effect in Subatmospheric Pressure Conditions|J. Food Prot.64(7): 1025-1029|2001|10.4315/0362-028X-64.7.1025
102654|T||Rice,P.J., and J.R. Coats|Insecticidal Properties of Monoterpenoid Derivatives to the House Fly (Diptera: Muscidae) and Red Flour Beetle (Coleoptera: Tenebrionidae)|Pestic. Sci.41(3): 195-202|1994|10.1002/ps.2780410305
102655|T||Akhtar,Y., and M.B. Isman|Feeding Responses of Specialist Herbivores to Plant Extracts and Pure Allelochemicals:  Effects of Prolonged Exposure|Entomol. Exp. Appl.111(3): 201-208|2004|10.1111/j.0013-8703.2004.00169.x
102656|T||Jeong,E.Y., J.H. Lim, H.G. Kim, and H.S. Lee|Acaricidal Activity of Thymus vulgaris Oil and Its Main Components Against Tyrophagus putrescentiae, a Stored Food Mite|J. Food Prot.71(2): 351-355|2008|10.4315/0362-028X-71.2.351
102657|T||Kamashi,K., A.G. Reddy, K.S. Reddy, and V.R. Reddy|Evaluation of Zinc Against Salinomycin Toxicity in Broilers|Indian J. Physiol. Pharmacol.48(1): 89-95|2004|
102658|A||Moolman,L., J.H.J. Van Vuren, and V. Wepener|Comparative Studies on the Uptake and Effects of Cadmium and Zinc on the Cellular Energy Allocation of Two Freshwater Gastropods|Ecotoxicol. Environ. Saf.68(3): 443-450|2007|10.1016/j.ecoenv.2006.12.017
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102660|T||Sidhu,P., M.L. Garg, and D.K. Dhawan|Time Dependent Study to Evaluate the Efficacy of Zinc on Hepatic Marker Enzymes and Elemental Profile in Serum and Liver of Protein Deficient Rats|BioMetals18(1): 97-106|2005|10.1007/s10534-004-1960-y
102661|T||Garg,M.L., H.K. Bandhu, A. Kumar, and D.K. Dhawan|Lead-Induced Alterations in Protein Deficient Rat Liver - Role of Zinc|Toxicol. Environ. Chem.89(1-4): 523-533|2007|10.1080/02772240701191839
102662|A||Mohammed,A.|Comparative Sensitivities of the Tropical Cladoceran, Ceriodaphnia rigaudii and the Temperate Species Daphnia magna to Seven Toxicants|Toxicol. Environ. Chem.89(2): 347-352|2007|10.1080/02772240601035888
102663|T||Sikorowski,P.P., and A.C. Thompson|Residual Quantities of Streptomycin Sulfate in Haemolymph and Tissue of Heliothis virescens Reared on Treated Diet|Pharmacol. Biochem. Behav.23(4): 525-528|1985|10.1016/0091-3057(85)90413-7
102664|T||Soloviev,V.N., A.A. Firsov, and V.V. Berezhinskaya|Relationship Between the Blood Concentration of the Drug and Its Cumulative Effect:  A Pharmacokinetic Analysis of the Nephrotoxic Action of Gentamicin and Streptomycin|Pharmazie33(2-3): 113-116|1978|
102665|T||Timmons,A.M., and P.J. Dix|Influence of Ploidy on Plastome Mutagenesis in Nicotiana|Mol. Gen. Genet.227(2): 330-333|1991|10.1007/BF00259686
102666|T||Tsang,Y.C., and T.C. Chin|Neurotoxicity of Streptomycin|Sci. Sin.12(7): 1019-1040|1963|
102667|T||Wieczorek,Z.|The Influence of Streptomycin on Immunologic Response in Rabbits Sensitized to Heterologous Antigen|Arch. Immunol. Ther. Exp.17(6): 763-769|1969|
102668|T||Feinmesser,M., and H. Sohmer|Influence of Streptomycin and Dihydrostreptomycin on the Cochlear Potentials of the Guinea Pig|Ann. Otol. Rhinol. Laryngol.74:48-58|1965|10.1177/000348946507400104
102669|A||Diamond,J., and J.A. Schiff|Isolation and Characterization of Mutants of Euglena Resistant to Streptomycin|Plant Sci. Lett.3(4): 289-295|1974|10.1016/0304-4211(74)90101-1
102670|T||Sekeris,C.E., and P. Karlson|On the Mechanism of Hormone Action.  II.  Ecdysone and Protein Biosynthesis|Arch. Biochem. Biophys.105:483-487|1964|10.1016/0003-9861(64)90039-6
102671|T||Duvall III,A.J., and C.A. Quick|Tracers and Endogenous Debris in Delineating Cochlear Barriers and Pathways. An Experimental Study|Ann. Otol. Rhinol. Laryngol.78(5): 1041-1057|1969|10.1177/000348946907800510
102672|T||Duvall,A.J., and J. Wersall|Site of Action of Streptomycin upon Inner Ear Sensory Cells|Acta Oto-Laryngol.57:581-598|1964|10.3109/00016486409137120
102673|T||Dye,M.H., and D.W. Mossop|Streptomycin Residues and Natural Antibacterial Compounds in Fruit|N. Z. J. Agric. Res.17(2): 157-164|1974|10.1080/00288233.1974.10420995
102674|T||Yamazaki,H.|Studies on Antimicrobial Substance B 44 P (Streptovaricin) Produced by a Strain of Actinomycetes. II. Microbiological and Pharmacological Studies|J. Antibiot.21(3): 209-221|1968|10.7164/antibiotics.21.209
102675|T||Baggot,J.D., D.N. Love, R.J. Rose, and J. Raus|The Pharmacokinetics of Some Aminoglycoside Antibiotics in the Horse|J. Vet. Pharmacol. Ther.4(4): 277-284|1981|10.1111/j.1365-2885.1981.tb00863.x
102676|T||Moran,T.J.|Weight Loss in Cortisone-Treated Rabbits.  Effects of Streptomycin and Penicillin|Arch. Pathol.76:330-332|1963|
102677|T||Banerjee,S., S.C. Maiti, S.K. Banerjee, B. Pradhan, C.R. Maity, and S.K. Ghosal|Scanning Electron Microscope Study of the Effect of Gentamicin and Streptomycin on the Intestine of White Rat|Environ. Ecol.19(2): 340-342|2001|
102678|T||Iwamori,M., N. Tayama, Y. Nomura, and Y. Nagai|Hormone-Dependent Enhancement in Binding of Oto- and Nephrotoxic Aminoglycoside Antibiotics|Acta Oto-Laryngol. Suppl.514:117-121|1994|10.3109/00016489409127574
102679|T||Usami,S.I., J. Hozawa, H. Shinkawa, S.I. Saito, A. Matsubara, and S. Fujita|Immunocytochemical Localization of Intermediate Filaments in the Guinea Pig Vestibular Periphery with Special Reference to Their Alteration After Ototoxic Drug Administration|Acta Oto-Laryngol. Suppl.506:7-13|1993|10.3109/00016489309130231
102680|T||Watanuki,K., and A. Meyer zum Gottesberge|Toxic Effects of Streptomycin and Kanamycin upon the Sensory Epithelium of the Crista ampullaris|Acta Oto-Laryngol.72(1): 59-67|1971|10.3109/00016487109122456
102681|T||DeGreef,I.|The Ototoxicity of Kanamycin.  A Theoretical and Experimental Study|Acta Oto-Rhino-Laryngol. Belg.18:415-427|1964|
102682|T||Parker,D.E., H.E. Von Gierke, and M. Reschke|Studies of Acoustical Stimulation of the Vestibular System|Aerosp. Med.39(12): 1321-1325|1968|
102683|T||Wenzel,F.J., and S. Epstein|Cross-Sensitivity Between Streptomycin and Dihydrostreptomycin|J. Invest. Dermatol.43:99-101|1964|10.1038/jid.1964.123
102684|T||Singh,N.K., and S.V.S. Chauhan|Induced Pollen Sterility in Brassica juncea var. pusa Bold.|J. Phytol. Res.7(1): 25-28|1994|
102685|A||Johnsen,G., B.B. Prezelin, and R.V.M. Jovine|Fluorescence Excitation Spectra and Light Utilization in Two Red Tide Dinoflagellates|Limnol. Oceanogr.42(5, Pt. 2): 1166-1177|1997|10.4319/lo.1997.42.5_part_2.1166
102686|T||Sayim,F.|Histopathological Effects of Dimethoate on Testes of Rats|Bull. Environ. Contam. Toxicol.78(6): 479-484|2007|10.1007/s00128-007-9196-5
102687|T||Sayim,F.|Dimethoate-induced Biochemical and Histopathological Changes in the Liver of Rats|Exp. Toxicol. Pathol.59:237-243|2007|10.1016/j.etp.2007.05.008
102688|T||Stouthamer,R.|Effectiveness of Several Antibiotics in Reverting Thelytoky to Arrhenotoky in Trichogramma spp.|Colloq. I'INRA:119-122|1991|
102689|T||Tzanakakis,M.E., D.A. Prophetou, G.N. Vassiliou, and J.J. Papadopoulos|Inhibition of Larval Growth of Dacus oleae by Topical Application of Streptomycin to Olives|Entomol. Hell.1(2): 65-70|1983|
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102691|T||Nakagawa,T., H. Yamane, M. Takayama, K. Sunami, and Y. Nakai|Time-Dependent Response of Vestibular Hair Cells of Guinea Pigs Following High-Dose Applications of Streptomycin|Acta Oto-Laryngol. Suppl.538:32-35|1998|10.1080/00016489850182701-1
102692|T||Gallais,A., J. Caston, and A. Zittoun|Vestibular Effects of Antibiotics Introduced in the Inner Ear.  Behavioral and Electrophysiological Studies in the Frog|Acta Oto-Laryngol.87(5-6): 517-527|1979|10.3109/00016487909126460
102693|T||Polito,V.S., K. Pinney, R. Buchner, and W. Olson|Streptomycin Applications to Control Walnut Blight Disease can Prevent Fertilization and Increase Fruit Drop|Hortscience37(6): 940-942|2002|10.21273/HORTSCI.37.6.940
102694|T||Hara,A.H., T.Y. Hata, and B.K.S. Hu|Phytotoxicity of Insecticides on Dendrobium Orchids, HI, 1994|Arthropod Manag. Tests20:296-|1995|10.1093/amt/20.1.296
102695|T||Yavuz,T., N. Delibas, B. Yildirim, I. Altuntas, O. Candir, A. Cora, N. Karaman, E. Ibrisim, and A. Kutsal|Vascular Wall Damage in Rats Induced by Methidathion and Ameliorating Effect of Vitamins E and C|Arch. Toxicol.78(11): 655-659|2004|10.1007/s00204-004-0593-9
102696|T||Christensen,M.J., A.L. Hancock, and A.H. Ford|Modifying Effects of Supplemental Selenium and Sulfur on Cadmium Toxicity in Rats|Arch. Environ. Contam. Toxicol.16(6): 717-722|1987|10.1007/BF01055422
102697|T||Li,W., and M.J. Correia|Recovery of Semicircular Canal Primary Afferent Activity in the Pigeon After Streptomycin Ototoxicity|J. Neurophysiol.80(6): 3297-3311|1998|10.1152/jn.1998.80.6.3297
102698|T||Mittler,T.E.|Some Effects on the Aphid Myzus persicae of Ingesting Antibiotics Incorporated into Artificial Diets|J. Insect Physiol.17(7): 1333-1347|1971|10.1016/0022-1910(71)90198-3
102699|T||Schaeppi,U., G. Krinke, R.E. FitzGerald, and W. Classen|Impaired Tunnel-Maze Behavior in Rats with Sensory Lesions:  Vestibular and Auditory Systems|Neurotoxicology12(3): 445-454|1991|
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102701|A||Knio,K.M., J. Usta, S. Dagher, H. Zournajian, and S. Kreydiyyeh|Larvicidal Activity of Essential Oils Extracted from Commonly Used Herbs in Lebanon Against the Seaside Mosquito, Ochlerotatus caspius|Bioresour. Technol.99(4): 763-768|2008|10.1016/j.biortech.2007.01.026
102702|A||Satoh,A., L.Q. Vudikaria, N. Kurano, and S. Miyachi|Evaluation of the Sensitivity of Marine Microalgal Strains to the Heavy Metals, Cu, As, Sb, Pb and Cd|Environ. Int.31(5): 713-722|2005|10.1016/j.envint.2005.01.001
102703|T||Nishimura,H., K. Shiota, C. Uwabe, and T. Nomura|Joint Study on the Teratogenic Sensitivity of the Pika (Ochotona rufescens rufescens) to Selected Drugs|Exp. Anim.35(4): 387-408|1986|10.1538/expanim1978.35.4_387
102704|T||Hassan,A.M.A.|Induction of Phenolic Compounds in Wheat (Triticum aestivum L.) Tissue Cultures by Streptomycin|Z. Naturforsch. Sect. C J. Biosci.62(1/2): 50-54|2007|10.1515/znc-2007-1-209
102705|T||Prescott,B., and H.J. Stone|Means of Increasing the Tolerated Dose of Streptomycin in Mice.  Certain Sulfonic Acids|Farmaco (Pavia) (Multiple Languages)21(7): 471-475|1966|
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102707|A||Colorni,A., R. Avtalion, W. Knibb, E. Berger, B. Colorni, and B. Timan|Histopathology of Sea Bass (Dicentrarchus labrax) Experimentally Infected with Mycobacterium marinum and Treated with Streptomycin and Garlic (Allium sativum) Extract|Aquaculture160(1-2): 1-17|1998|10.1016/S0044-8486(97)00234-2
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102709|T||DeSalva,S.J., R.A. Evans, and H.W. Marcussen|Lethal Effects of Antibiotics in Hamsters|Toxicol. Appl. Pharmacol.14(3): 510-514|1969|10.1016/0041-008X(69)90012-X
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102713|T||Stajcic,Z.|The Effects of Streptomycin on Autotomy|IASP Newsl.48(2): 257-259|1992|
102714|T||Faruqi,N.A., N.A. Khan, and M. Naim|Ganglioside Content in the Central Nervous System after Streptomycin & Kanamycin Intoxication in Rat|Indian J. Med. Res.83:629-632|1986|
102715|T||Seth,P.K., F.R. Alleva, and T. Balazs|Alteration of High-Affinity Binding Sites of Neurotransmitter Receptors in Rats After Neonatal Exposure to Streptomycin|Neurotoxicology3(3): 13-19|1982|
102716|T||Boyle,R., S.M. Highstein, J.P. Carey, and J. Xu|Functional Recovery of Anterior Semicircular Canal Afferents Following Hair Cell Regeneration in Birds|J. Assoc. Res. Otolaryngol.3(2): 149-166|2001|10.1007/s101620020018
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102725|T||Savkovic,N., J. Pecevski, and A. Gelineo|Cytogenetics Analysis of Meiotic Chromosomes of Irradiated Mice and Their Progeny After Treatment with Streptomycin and Dihydrodeoxystreptomycin|Strahlentherapie150(6): 597-602|1975|
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102768|A||Mego,J.L.|Inhibition of Greening of Heat-Bleached Euglena by Streptomycin|Biochim. Biophys. Acta88(3): 663-665|1964|
102769|T||Ho,H.H.|A Selective Medium for the Isolation of Saprolegnia spp. from Freshwater|Can. J. Microbiol.21(7): 1126-1128|1975|10.1139/m75-165
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102819|T||Rillig,M.C., M.F. Allen, J.N. Kilronomos, N.R. Chiariello, and C.B. Field|Plant Species-Specific Changes in Root-Inhabiting Fungi in a California Annual Grassland:  Responses to Elevated CO2 and Nutrients|Oecologia113(2): 252-259|1998|10.1007/s004420050376
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102822|A||Ural,M.S., and M. Calta|Acute Toxicity of Dichlorvos (DDVP) to Fingerling Mirror Carp, Cyprinus carpio L.|Bull. Environ. Contam. Toxicol.75(2): 368-373|2005|10.1007/s00128-005-0763-3
102823|A||Printes,L.B., M.D.E. Fellowes, and A. Callaghan|Clonal Variation in Acetylcholinesterase Biomarkers and Life History Traits Following OP Exposure in Daphnia magna|Ecotoxicol. Environ. Saf.PRESS:8 p. |2008|
102824|A||Venkateswara Rao,J., K. Srikanth, S.K. Arepalli, and V.G. Gunda|Toxic Effects of Acephate on Paramecium caudatum with Special Emphasis on Morphology, Behaviour, and Generation Time|Pestic. Biochem. Physiol.86(3): 131-137|2006|10.1016/j.pestbp.2006.02.005
102825|T||Fukuda,T., S. Toyoshima, Y. Nakashima, O. Koshitani, Y. Kawaguchi, and A. Momii|Tolerable Infusion Rate of Citrate Based on Clinical Signs and the Electrocardiogram in Conscious Dogs|Clin. Nutr.25(6): 984-993|2006|10.1016/j.clnu.2006.01.011
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102827|T||Julia,V., T. Mezzasalma, and L. Bueno|Influence of Bradykinin in Gastrointestinal Disorders and Visceral Pain Induced by Acute or Chronic Inflammation in Rats|Dig. Dis. Sci.40(9): 1913-1921|1995|10.1007/BF02208656
102828|T||Leung,F.W., and A. Koo|Mucosal Vascular Stasis Precedes loss of Viability of Endothelial Cells in Rat Acetic Acid Colitis|Dig. Dis. Sci.36(6): 727-732|1991|10.1007/BF01311228
102829|T||Argenzio,R.A., and D.J. Meuten|Short-Chain Fatty Acids Induce Reversible Injury of Porcine Colon|Dig. Dis. Sci.36(10): 1459-1468|1991|10.1007/BF01296816
102830|T||Owen,R.E.|Utilization and Tolerance of Ethanol, Acetic-Acid and Acetaldehyde Vapour by Asobara persimilis, a Parasitoid of Drosophila|Entomol. Exp. Appl.39(2): 143-147|1985|10.1111/j.1570-7458.1985.tb03555.x
102831|T||Donoghue,D.J., and H. Hairston|Food Safety Implication:  Certain Antibiotics may Rapidly Contaminate Egg Albumen During the Process of Its Formation|Br. Poult. Sci.41(2): 174-177|2000|10.1080/713654912
102832|T||Singh,M., and N. Singh|Effect of Sulphur and Selenium on Sulphur Containing Amino Acids and Quality of Oil in Raya (Brassica juncea Coss.) in Normal and Sodic Soil|Indian J. Plant Physiol.20(1): 56-62|1977|
102833|T||Saraswat,B., P.K. Visen, G.K. Patnaik, and B.N. Dhawan|Protective Effect of Picroliv, Active Constituent of Picrorhiza Kurrooa, Against Oxytetracycline Induced Hepatic Damage|Indian J. Exp. Biol.35(12): 1302-1305|1997|
102834|T||Robb,C.A., P.T. Carroll, J.B. Langston, and R.L. Zellers|Evidence that Nutritional State and Well-Being are Involved in the Prostate Response to Certain Polyene Macrolides|Investig. Urol.9(1): 47-54|1971|
102835|T||Davis,A.R., K.R. Solomon, and R.W. Shuel|Laboratory Studies of Honeybee Larval Growth and Development as Affected by Systemic Insecticides at Adult-Sublethal Levels|J. Apic. Res.27(3): 146-161|1988|10.1080/00218839.1988.11100795
102837|T||Scroggs,D.M., D.K. Miller, J.L. Griffin, J.P. Geaghan, P.R. Vidrine, and A.M. Stewart|Glyphosate Efficacy on Selected Weed Species is Unaffected by Chemical Coapplication|Weed Technol.19(4): 1012-1016|2005|10.1614/WT-05-043R.1
102838|T||Lai,C.Y., S.W. Wang, L.Y. Tsay, and C.J. Wang|Mechanism of Hematological Toxicity of Phenylurea Herbicides in Rats:  Evidence for Adduct Formation Between Hemoglobin and Aromatic Amines Released From the Parent Compound In Vivo|J. Chin. Biochem. Soc.21(1): 26-35|1992|
102839|T||Nannelli,R., M. Castagnoli, S. Simoni, M. Liguori, P. Cioni, I. Morelli, and F. Macchioni|Toxicity of the Main Monoterpenoids of Some Essential Oils to Lepidoglyphus destructor (Schrank)|Phytophaga14:721-726|2004|
102840|T||Christ,R.A., and C. Korner|Responses of Shoot and Root Gas Exchange, Leaf Blade Expansion and Biomass Production to Pulses of Elevated CO2 in Hydroponic Wheat|J. Exp. Bot.46(292): 1661-1667|1995|10.1093/jxb/46.11.1661
102841|T||Newton,P.C.D., H. Clark, C.C. Bell, and E.M. Glasgow|Interaction of Soil Moisture and Elevated CO2 on the Above-Ground Growth Rate, Root Length Density and Gas Exchange of Turves from Temperate Pasture|J. Exp. Bot.47(299): 771-779|1996|10.1093/jxb/47.6.771
102842|T||Wechsung,G., F. Wechsung, G.W. Wall, F.J. Adamsen, B.A. Kimball, R.L. Garcia, P.J.,Jr. Pinter, and T. Kartschall|Biomass and Growth Rate of a Spring Wheat Root System Grown in Free-Air CO2 Enrichment (Face) and Ample Soil Moisture|J. Biogeogr.22(4-5): 623-634|1995|10.2307/2845963
102843|T||Thomas,S.M., D. Whitehead, J.B. Reid, F.J. Cook, J.A. Adams, and A.C. Leckie|Growth, Loss, and Vertical Distribution of Pinus radiata Fine Roots Growing at Ambient and Elevated CO2 Concentration|Global Change Biol.5(1): 107-121|1999|10.1046/j.1365-2486.1998.00210.x
102844|T||Campbell,C.D., and R.F. Sage|Interactions Between Atmospheric CO2 Concentration and Phosphorus Nutrition on the Formation of Proteoid Roots in White Lupin (Lupinus albus L.)|Plant Cell Environ.25(8): 1051-1059|2002|10.1046/j.1365-3040.2002.00883.x
102845|T||McMaster,G.S., D.R. LeCain, J.A. Morgan, L. Aiguo, and D.L. Hendrix|Elevated CO2 Increases Wheat CER, Leaf and Tiller Development, and Shoot and Root Growth|J. Agron. Crop Sci.183(2): 119-128|1999|10.1046/j.1439-037x.1999.00325.x
102846|T||Watling,J.R., and M.C. Press|How Is the Relationship Between the C4 Cereal Sorghum Bicolor and the C3 Root Hemi-Parasites Striga hermonthica and Striga asiatica Affected by Elevated Co2?|Plant Cell Environ.20(10): 1292-1300|1997|10.1046/j.1365-3040.1997.d01-19.x
102847|T||Arnone III,J.A.|Temporal Responses of Community Fine Root Populations to Long-Term Elevated Atmospheric CO2 and Soil Nutrient Patches in Model Tropical Ecosystems|Acta Oecol. Oecol. Appl. (Multiple Languages)18(3): 367-376|1997|10.1016/S1146-609X(97)80027-6
102848|T||Rillig,M.C., M.F. Allen, J.N. Klironomos, and C.B. Field|Arbuscular Mycorrhizal Percent Root Infection and Infection Intensity of Bromus hordeaceus Grown in Elevated Atmospheric Co2|Mycologia90(2): 199-205|1998|10.1080/00275514.1998.12026899
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102850|A||Frasco,M.F., and L. Guilhermino|Effects of Dimethoate and beta-Naphthoflavone on Selected Biomarkers of Poecilia reticulata|Fish Physiol. Biochem.26(2): 149-156|2002|10.1023/A:1025457831923
102851|T||Amorim,M.J.B., S. Novais, J. Rombke, and A.M.V.M. Soares|Enchytraeus albidus (Enchytraeidae): A Test Organism in a Standardised Avoidance Test?  Effects of Different Chemical Substances|Environ. Int.34(3): 363-371|2008|10.1016/j.envint.2007.08.010
102852|T||Aupinel,P., D. Fortini, B. Michaud, F. Marolleau, J.N. Tasei, and J.F. Odoux|Toxicity of Dimethoate and Fenoxycarb to Honey Bee Brood (Apis Mellifera), Using a new In Vitro Standardized Feeding Method|Pest Manag. Sci.63(11): 1090-1094|2007|10.1002/ps.1446
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102854|T||Mahjoubi-Samet,A., H. Fetoui, and N. Zeghal|Nephrotoxicity Induced by Dimethoate in Adult Rats and Their Suckling Pups|Pestic. Biochem. Physiol.91:96-103|2008|10.1016/j.pestbp.2008.01.009
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102862|T||Barrett,D.J., A.E. Richardson, and R.M. Gifford|Elevated Atmospheric CO2 Concentrations Increase Wheat Root Phosphatase Activity when Growth is Limited by Phosphorus|Aust. J. Plant Physiol.25(1): 87-93|1998|
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102866|T||Schaffer,B., A.W. Whiley, C. Searle, and R.J. Nissen|Leaf Gas Exchange, dry Matter Partitioning, and Mineral Element Concentrations in Mango as Influenced by Elevated Atmospheric Carbon Dioxide and Root Restriction|J. Am. Soc. Hortic. Sci.122(6): 849-855|1997|10.21273/JASHS.122.6.849
102867|T||Lal,O.P., and T.P.S. Teotia|Influence of Nine Surfactants on the Activity of Oxytetracycline Hydrochloride Against Lipaphis erysimi Kalt|J. Antibiot.28(12): 993-996|1975|10.7164/antibiotics.28.993
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102872|T||Ellison,A.C., and E. Newmark|Intraocular Effects of Pimaricin|Ann. Ophthalmol.8(8): 987-995|1976|
102873|T||Foster,C.S., and M. Stefanyszyn|Intraocular Penetration of Miconazole in Rabbits|Arch. Ophthalmol.97(9): 1703-1706|1979|10.1001/archopht.1979.01020020271017
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102875|A||Silverman,J., and S. Pennisi|Evaluation of Tetrahymena thermophila as an In Vitro Alternative to Ocular Irritation Studies in Rabbits|J. Toxicol. Cutan. Ocul. Toxicol.6(1): 33-42|1987|10.3109/15569528709052163
102876|T||Berndtson,W.E., and R.H. Foote|Survival and Fertility of Antibiotic-Treated Bovine Spermatozoa|J. Dairy Sci.59(12): 2130-2133|1976|10.3168/jds.S0022-0302(76)84498-0
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102878|T||Wieriks,J., and H.E. Schornagel|Animal Reactions to, and Tolerance of, Two Local Anesthetic-Free Tetracycline Preparations Injected by Various Routes.  A Comparison of Vendarcin with Rolitetracycline|Chemotherapy16(2): 85-108|1971|10.1159/000220717
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102880|T||Steffan,S.A., K.M. Daane, and D.L. Mahr|15N-Enrichment of Plant Tissue to Mark Phytophagous Insects, Associated Parasitoids, and Flower-Visiting Entomophaga|Entomol. Exp. Appl.98(1): 173-180|2001|10.1046/j.1570-7458.2001.00772.x
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102883|T||Liang,P., J.Z. Cui, X.Q. Yang, and X.W. Gao|Effects of Host Plants on Insecticide Susceptibility and Carboxylesterase Activity in Bemisia tabaci Biotype B and Greenhouse Whitefly, Trialeurodes vaporariorum|Pest Manag. Sci.63(4): 365-371|2007|10.1002/ps.1346
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102886|T||Datta,M., and A. Bhattacharya|Sterility Effect of Acetic Acid on the Stored Grain Pests|Environ. Ecol.8(1B): 320-323|1990|
102887|T||Itoh,H., P.L. Beck, N. Inoue, R. Xavier, and D.K. Podolsky|A Paradoxical Reduction in Susceptibility to Colonic Injury upon Targeted Transgenic Ablation of Goblet Cells|J. Clin. Invest.104(11): 1539-1547|1999|10.1172/JCI6211
102888|T||Karan,D., R. Parkash, and J.R. David|Microspatial Genetic Differentiation for Tolerance and Utilization of Various Alcohols and Acetic Acid in Drosophila Species from India|Genetica ('S-Gravenhage)105(3): 249-258|1999|
102889|T||Santos,F.W., J.B.T. Rocha, and C.W. Nogueira|2,3-Dimercaptopropanol, 2,3-Dimercaptopropane-1-Sulfonic Acid and Meso- 2,3-Dimercaptosuccinic Acid Increase Lead-Induced Inhibition of delta-Aminolevulinate Dehydratase In Vitro and Ex Vivo|Toxicol. In Vitro20(3): 317-323|2006|10.1016/j.tiv.2005.08.006
102890|T||Kaplan,M., S. Orman, I. Kadar, and J. Koncz|Heavy Metal Accumulation in Calcareous Soil and Sorghum Plants After Addition of Sulphur-Containing Waste as a Soil Amendment in Turkey|Agric. Ecosyst. Environ.111(1-4): 41-46|2005|10.1016/j.agee.2005.04.023
102891|T||Khoshgoftar,A.H., H. Shariatmadari, N. Karimian, M. Kalbasi, S.E.A.T.M. Van der Zee, and D.R. Parker|Salinity and Zinc Application Effects on Phytoavailability of Cadmium and Zinc|Soil Sci. Soc. Am. J.68(6): 1885-1889|2004|10.2136/sssaj2004.1885
102892|T||Sveistyte,A., and J. Matuliene|Effect of NaNO3 on Changes in Self-Protecting Behaviour Induced by Dopaminergic and Noradrenergic Agents in Birds|Ekologija1:31-38|1995|
102893|A||Lunden,T., and G. Bylund|The Influence of In Vitro and In Vivo Exposure to Antibiotics on Mitogen-Induced Proliferation of Lymphoid Cells in Rainbow Trout (Oncorhynchus mykiss)|Fish Shellfish Immunol.10(5): 395-404|2000|10.1006/fsim.1999.0247
102894|T||Phillips,P.A., D. Machlitt, and M. Mead|Non-Target Effects of Dimethoate and Acephate Against Eusieus tularensis Congdon and Aphytis melinus DeBach on Lemons in California|Crop Prot.6(6): 388-392|1987|10.1016/0261-2194(87)90072-X
102895|T||Bostanian,N.J., and M. Akalach|The Effect of Indoxacarb and Five Other Insecticides on Phytoseiulus persimilis (Acari:  Phytoseiidae), Amblyseius fallacis (Acari: Phytoseiidae) and Nymphs of Orius insidiosus (Hemiptera:  Anthocoridae)|Pest Manag. Sci.62(4): 334-339|2006|10.1002/ps.1171
102896|T||Farbenfabriken Bayer Agricultral Institute|Initial Submission:  Subchronic Oral Toxicity Study of O,O-Dimethyl S-[2-(Methyl-Amino)-2-Oxoethyl]Phosphorothioate in Rats with Cover Letter Dated 08/17/92|EPA/OTS Doc.#88-920009438:23 p.|1992|
102897|T||Miles Inc.|Initial Submission:  Letter from Miles Inc. to U.S. EPA Submitting Results on S 6876 Enclosed Submission with Attachments|Miles Incorporated, Pittsburgh, PA:12 p.|1992|
102898|T||Miles Inc.|Initial Submission:  Letter from Miles Inc. to U.S.EPA Submitting Enclosed Results on an Evaluation of S 6876 for Embryotoxic & Teratogenic Effects in Rats Following Oral Administration w-Attach|EPA/OTS Doc.#88-920005834:14 p.|1992|
102900|T||Hou,J.Q., and J.T. Romo|Effects of Chemical Stimulators on Germination of Winterfat (Ceratoides lanata (Pursh) J.T. Howell)|Seed Sci. Technol.26(1): 9-16|1998|
102901|T||Sveistyte,A.|The Effect of Sodium Nitrate on Escaping Behaviour-Rapid Feather Release Regulation in Japanese Quail (Coturnix coturnix japonica)|Ekologija2:19-26|2001|
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102904|A||Geng,B.R., D. Yao, and Q.Q. Xue|Acute Toxicity of the Pesticide Dichlorvos and the Herbicide Butachlor to Tadpoles of Four Anuran Species|Bull. Environ. Contam. Toxicol.75(2): 343-349|2005|10.1007/s00128-005-0759-z
102905|A||Ma,J., P. Wang, C. Huang, N. Lu, W. Qin, and Y. Wang|Toxicity of Organophosphorus Insecticides to Three Cyanobacterial and Five Green Algal Species|Bull. Environ. Contam. Toxicol.75(3): 490-496|2005|10.1007/s00128-005-0779-8
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102910|T||Zhou,W., S.T. Li, H. Wang, P. He, and B. Lin|Mineralization of Organic Sulfur and Its Importance as a Reservoir of Plant-Available Sulfur in Upland Soils of North China|Biol. Fertil. Soils30(3): 245-250|1999|10.1007/s003740050615
102911|T||Zhou,W., S. Li, P. He, and B. Lin|Transformation of Sulfate and Organic S in Rice Straw in Flooded Paddy Soils and Its Availability to Plants Using Sulfur-35 Labeling|Geoderma (Amst.)132(1/2): 1-8|2006|
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102913|T||Shan,X.Q., B. Chen, T.H. Zhang, F.L. Li, B. Wen, and J. Qian|Relationship Between Sulfur Speciation in Soils and Plant Availability|Sci. Total Environ.199(3): 237-246|1997|10.1016/S0048-9697(97)05465-X
102914|T||Horton,A.W., E.L. Bingham, M.J.G. Burton, and R. Tye|Carcinogenesis of the Skin.  III.  The Contribution of Elemental Sulfur and of Organic Sulfur Compounds|Cancer Res.25(10): 1759-1763|1965|
102915|T||Cui,Y., Y. Dong, H. Li, and Q. Wang|Effect of Elemental Sulphur on Solubility of Soil Heavy Metals and Their Uptake by Maize|Environ. Int.30(3): 323-328|2004|10.1016/S0160-4120(03)00182-X
102916|T||Bloem,E., A. Riemenschneider, J. Volker, J. Papenbrock, A. Schmidt, I. Salac, S. Haneklaus, and E. Schnug|Sulphur Supply and Infection with Pyrenopeziza brassicae Influence L-Cysteine Desulphydrase Activity in Brassica napus L.|J. Exp. Bot.55(406): 2305-2312|2004|10.1093/jxb/erh236
102918|T||Gavito,M.E., P.S. Curtis, and I. Jakobsen|Neither Mycorrhizal Inoculation nor Atmospheric CO2 Concentration has Strong Effects on Pea Root Production and Root Loss|New Phytol.149(2): 283-290|2001|10.1046/j.1469-8137.2001.00013.x
102919|T||Azevedo,R.A., R.M. Alas, R.J. Smith, and P.J. Lea|Response of Antioxidant Enzymes to Transfer from Elevated Carbon Dioxide to Air and Ozone Fumigation, in the Leaves and Roots of Wild-Type and a Catalase-Deficient Mutant of Barley|Physiol. Plant. (Multiple Languages)104(2): 280-292|1998|10.1034/j.1399-3054.1998.1040217.x
102920|T||Lee,J.M., Y.H. Lee, Y.K. Kim, S.W. Kim, S.H. Kim, J.K. Han, and B.I. Choi|Combined Treatment of Radiofrequency Ablation and Acetic Acid Injection:  An In Vivo Feasibility Study in Rabbit Liver|Eur. Radiol.14(7): 1303-1310|2004|10.1007/s00330-003-2140-0
102921|T||Serraj,R., and J.J. Drevon|Effects of Salinity and Nitrogen Source on Growth and Nitrogen Fixation in Alfalfa|J. Plant Nutr.21(9): 1805-1818|1998|10.1080/01904169809365525
102922|T||Gomurgen,A.N.|Cytological Effect of the Potassium Metabisulphite and Potassium Nitrate Food Preservative on Root Tips of Allium cepa L.|Cytologia70(2): 119-128|2005|10.1508/cytologia.70.119
102923|T||Karam,N.S., and M.M. Al-Salem|Breaking Dormancy in Arbutus andrachne L. Seeds by Stratification and Gibberellic Acid|Seed Sci. Technol.29(1): 51-56|2001|
102924|T||Gebre,G.H., and N.S. Karam|Germination of Cercis siliquastrum Seeds in Response to Gibberellic Acid and Stratification|Seed Sci. Technol.32(1): 255-260|2004|10.15258/sst.2004.32.1.29
102925|A||Domozych,D.S.|Exopolymer Production by the Green Alga Penium margaritaceum:  Implications for Biofilm Residency|Int. J. Plant Sci.168(6): 763-774|2007|10.1086/513606
102926|A||Ogawa,T., H. Fukuoka, and Y. Ohkawa|Effects of Reduced Nitrogen Source and Sucrose Concentration on Varietal Differences in Rice Cell Culture|Breed. Sci.46(2): 179-184|1996|
102928|A||Keffer,J.E., and G.T. Kleinheinz|Use of Chlorella vulgaris for CO2 Mitigation in a Photobioreactor|J. Ind. Microbiol. Biotechnol.29(5): 275-280|2002|10.1038/sj.jim.7000313
102929|T||Kreitinger,J.P., A. Quinones-Rivera, E.F. Neuhauser, M. Alexander, and S.B. Hawthorne|Supercritical Carbon Dioxide Extraction as a Predictor of Polycyclic Aromatic Hydrocarbon Bioaccumulation and Toxicity by Earthworms in Manufactured-Gas Plant Site Soils|Environ. Toxicol. Chem.26(9): 1809-1817|2007|10.1897/06-608R.1
102930|A||Tran,D., J.C. Massabuau, and J. Garnier-Laplace|Effect of Carbon Dioxide on Uranium Bioaccumulation in the Freshwater Clam Corbicula fluminea|Environ. Toxicol. Chem.23(3): 739-747|2004|10.1897/03-75
102931|T||Kimpinski,J., and J.B. Sanderson|Effect of Aldicarb, Aldoxycarb and Oxamyl on Potato Tuber Yields and Root Lesion Nematodes|Can. J. Plant Sci.69(2): 611-615|1989|10.4141/cjps89-075
102932|T||Windrich,W.A.|Control of Stem Nematode, Ditylenchus dipsaci, in Tulip Bulbs with Aldicarb and Oxamyl|Crop Prot.4(4): 458-463|1985|10.1016/0261-2194(85)90050-X
102933|T||Fraedrich,S.W., and L.D. Dwinell|Effects of Dazomet, Metam Sodium, and Oxamyl on Longidorus Populations and Loblolly Pine Seedling Production|South. J. Appl. For.29(3): 117-122|2005|10.1093/sjaf/29.3.117
102934|T||De Ruyck,H., H. De Ridder, R. Van Renterghem, and F. Van Wambeke|Validation of HPLC Method of Analysis of Tetracycline Residues in Eggs and Broiler Meat and Its Application to a Feeding Trial|Food Addit. Contam.16(2): 47-56|1999|10.1080/026520399284190
102935|T||Jayaraj,S., and A.M. Chinnarajan|Effect of Oxytetracycline and Sulphanilamide on the Reproductive Organs and Fecundity of Melon Fly, Dacus cucurbitae Coq.|Hindustan Antibiot. Bull.17(3/4): 111-114|1975|
102937|T||Kopsell,D.A., and W.M. Randle|Short-Day Onion Cultivars Differ in Bulb Selenium and Sulfur Accumulation Which can Affect Bulb Pungency|Euphytica 96(3): 385-390|1997|10.1023/A:1003065618315
102938|T||Hu,Z.Y., Y.G. Zhu, M. Li, L.G. Zhang, Z.H. Cao, and F.A. Smith|Sulfur (S)-Induced Enhancement of Iron Plaque Formation in the Rhizosphere Reduces Arsenic Accumulation in Rice (Oryza sativa L.) Seedlings|Environ. Pollut.147(2): 387-393|2007|10.1016/j.envpol.2006.06.014
102939|T||Garty,J., O. Tamir, T. Levin, and H. Lehr|The Impact of UV-B and Sulphur- or Copper-Containing Solutions in Acidic Conditions on Chlorophyll Fluorescence in Selected Ramalina Species|Environ. Pollut.145(1): 266-273|2007|10.1016/j.envpol.2006.03.022
102940|T||Denis,M., E. Krebbers, and M. Renard|Effect of Sulphur Levels on Transgenic Double-low Brassica napus Plants Expressing a Seed-Specific Gene Encoding a Methionine-Rich 2S Albumin|Plant Breed.115(3): 145-151|1996|10.1111/j.1439-0523.1996.tb00891.x
102941|T||De Saint Georges-Gridelet,D.|Destruction of Eggs of Dermatophagoides Pteronyssinus (Acari:  Pyroglyphidae) by Natamycin and Imidazoles In Vitro|Int. J. Acarol.13(1): 5-14|1987|10.1080/01647958708683476
102942|AT||Bednarova,M., T. Kalina, and V. Sasek|Selection and Application of Antibiotics for the Removal of Fungal and Bacterial Contamination in Algal Cultures (Vyber a Pouziti Antibiotik pri Odstraneni Houbove a Bakterialni Kontaminace Rasovych Kultur)|Preslia48(3): 259-272|1976|
102943|T||Coolong,T.W., D.A. Kopsell, D.E. Kopsell, and W.M. Randle|Nitrogen and Sulfur Influence Nutrient Usage and Accumulation in Onion|J. Plant Nutr.27(9): 1667-1686|2004|10.1081/PLN-200026010
102944|A||Jayashree,M., B. Muthukumar, and D.I. Arockiasamy|Efficiency of Spirodela polyrhiza (L.) Schleiden in Absorbing and Utilizing Different Forms of Nitrogen|J. Environ. Biol.17(3): 227-233|1996|
102946|T||Nojavan-Asghari,M., and Y. Esashi|Different Growth Responses of the Axial and Cotyledonary Tissues of Sunflower Seeds to C2H4 Under Water and Salt Stresses|J. Sci. I. R. Iran4(2): 90-96|1993|
102947|T||Lakshmana,R.P.V., J. Das, A.K. Das, and B. Singh|Evaluation of Nematicidal Properties of Common Chemicals Against Root Knot Nematode, Meloidogyne javanica (Treub.) Chitwood|Geobios (Jodhpur)17(5-6): 251-254|1990|
102948|T||Holopainen,T., and L. Karenlampi|Characteristic Ultrastructural Symptoms Caused in Lichens by Experimental Exposure to Nitrogen Compounds and Fluorides|Ann. Bot. Fenn.22(4): 333-342|1985|
102951|T||Haskell Laboratory|Initial Submission:  Acute Skin Absorption Study (LD50) of Formimidic Acid, 1-(Dimethyl-Carbamoyl)-N(Methylcarbamoyl) in Rats with Cover Letter Dated 08/20/92|EPA/OTS Doc.#88-920008267:18 p.|1992|
102952|T||Westerdahl,B.B., D. Giraud, J.D. Radewald, and C.A. Anderson|Management of Ditylenchus dipsaci in Daffodils with Foliar Applications of Oxamyl|J. Nematol.23(Suppl.4): 706-711|1991|
102953|T||Olthof,T.H.A., and J.L. Townshend|Effect of Oxamyl Treatment of Potato Seed Pieces on Pratylenchus penetrans and Yield|J. Nematol.23(4S): 699-705|1991|
102954|T||Haskell Laboratory|Initial Submission:  Oral Lethal Dose Toxicity Test with IND-1410-207 in Rats with Cover Letter Dated 061592 and Attachments|EPA/OTS Doc.#88-920004167:16 p.|1992|
102956|A||Hoque,M.M., K. Inubushi, S. Miura, K. Kobayashi, H.Y. Kim, M. Okada, and S. Yabashi|Biological Dinitrogen Fixation and Soil Microbial Biomass Carbon as Influenced by Free-Air Carbon Dioxide Enrichment (FACE) at Three Levels of Nitrogen Fertilization in a Paddy Field|Biol. Fertil. Soils34(6): 453-459|2001|10.1007/s00374-001-0430-8
102957|A||Korb,R.E., J.A. Raven, and A.M. Johnston|Relationship Between Aqueous CO2 Concentrations and Stable Carbon Isotope Discrimination in the Diatoms Chaetoceros calcitrans and Ditylum brightwellii|Mar. Ecol. Prog. Ser.171:303-305|1998|10.3354/meps171303
102958|T||Hansen,R.A., R.S. Williams, D.C. Degenhardt, and D.E. Lincoln|Non-litter Effects of Elevated CO2 on Forest Floor Microarthropod Abundances|Plant Soil236(2): 139-144|2001|10.1023/A:1012705231992
102960|T||Verburg,P.S.J., A. Gorissen, and W.J. Arp|Carbon Allocation and Decomposition of Root-Derived Organic Matter in a Plant-Soil System of Calluna vulgaris as Affected by Elevated CO2|Soil Biol. Biochem.30(10-11): 1251-1258|1998|10.1016/S0038-0717(98)00055-8
102961|T||Fujitani,Y., K. Kasai, S. Ohtani, K. Nishimura, M. Yamada, and K. Utsumi|Effect of Oxygen Concentration and Free Radicals on In Vitro Development of In Vitro-Produced Bovine Embryos|J. Anim. Sci.75(2): 483-489|1997|10.2527/1997.752483x
102962|A||Rexach,J., B. Montero, E. Fernandez, and A. Galvan|Differential Regulation of the High Affinity Nitrite Transport Systems III and IV in Chlamydomonas reinhardtii|J. Biol. Chem.274(39): 27801-27806|1999|10.1074/jbc.274.39.27801
102963|T||Zhao,Z.Q., Y.G. Zhu, H.Y. Li, S.E. Smith, and F.A. Smith|Effects of Forms and Rates of Potassium Fertilizers on Cadmium Uptake by Two Cultivars of Spring Wheat (Triticum aestivum, L.)|Environ. Int.29(7): 973-978|2003|10.1016/S0160-4120(03)00081-3
102964|A||Durmaz,Y.|Vitamin E (alpha-Tocopherol) Production by the Marine Microalgae Nannochloropsis oculata (Eustigmatophyceae) in Nitrogen Limitation|Aquaculture272(1-4): 717-722|2007|10.1016/j.aquaculture.2007.07.213
102965|T||Cordoba,D., S. Cadavid, D. Angulo, and I. Ramos|Organophosphate Poisoning:  Modifications in Acid Base Equilibrium and Use of Sodium Bicarbonate as an Aid in the Treatment of Toxicity in Dogs|Vet. Hum. Toxicol.25(1): 1-3|1983|
102966|T||Wennerberg,R., and G. Lofroth|Formation of 7-Methylguanine by Dichlorvos in Bacteria and Mice|Chem.-Biol. Interact.8(5): 339-348|1974|10.1016/0009-2797(74)90012-X
102967|T||Nordgren,I., M. Bergstrom, B. Holmstedt, and M. Sandoz|Transformation and Action of Metrifonate|Arch. Toxicol.41(1): 31-41|1978|10.1007/BF00351767
102968|T||Yamanaka,S., M. Hashimoto, M. Tobe, K. Kobayashi, J. Sekizawa, and M. Nishimura|A Simple Method for Screening Assessment of Acute Toxicity of Chemicals|Arch. Toxicol.64(4): 262-268|1990|10.1007/BF01972985
102969|T||Caroldi,S., and M. Lotti|Delayed Neurotoxicity Caused by a Single Massive Dose of Dichlorvos to Adult Hens|Toxicol. Lett.9(2): 157-159|1981|10.1016/0378-4274(81)90033-3
102970|T||Dambska,M., and D. Maslinska|Effect of Dichlorvos (DDVP) Intoxication of Rabbit Brain|Neuropatol. Pol.20(1-2): 77-84|1982|
102971|T||Carver,D.K., J.L. Grimes, V.L. Christensen, K.A. Joyce, B.D. Fairchild, and A.S. Fairchild|A Novel Delivery of Oxytetracycline in Turkey Breeder Hens|Avian Dis.45(2): 437-441|2001|10.2307/1592984
102973|A||Tesh,A.E.C., O.K. Wilby, and J.M. Tesh|Effects of Inorganic Nitrates on Growth and Development of Hydra|Toxicol. In Vitro4(4-5): 614-615|1990|10.1016/0887-2333(90)90127-F
102974|T||Atique,M., A. Khan, and A. Hasan|In Vitro Test of Certain Inorganic Fertilizers on Mortality of Stunt Nematode Tylenchorhynchus brassicae Siddiqi-1961|J. Sci. Res.3(3): 179-180|1981|
102975|T||Hespe,W., Y.J. Blankwater, and J. Wieriks|A Combined Study on the Distribution of Oxytetracycline and Polyvinylpyrrolidone in Rats|Arzneim. Forsch.25(10): 1561-1567|1975|
102976|T||Stevenson,S.|Oxytetracycline Nephrotoxicosis in Two Dogs|J. Am. Vet. Med. Assoc.176(6): 530-531|1980|
102977|T||Walston,A.T., C. Nance, L. Nance, M. Richardson, L. Smith, G. McCarty, and H. Riedl|Seasonal Codling Moth Control on 'Bartlett' and 'D'Anjou' Pears with Assail, Guthion, Imidan, NNI-2302, Proclaim and Warrior, 2005|Arthropod Manag. Tests31:3 p.|2006|
102978|T||Segade,L.A.G., J.L. Relova, and R. Gallego|Fos Expression in the Trigeminal Sensory Nuclei After a Chemical Lesion of the Lower Lip Mucosa|Neuroreport3(8): 665-668|1992|10.1097/00001756-199208000-00002
102979|T||Verdejo-Lucas,S., F.J. Sorribas, C. Ornat, and M. Galeano|Evaluating Pochonia chlamydosporia in a Double-Cropping System of Lettuce and Tomato in Plastic Houses Infested with Meloidogyne javanica|Plant Pathol.54(4): 521-528|2003|10.1046/j.1365-3059.2003.00873.x
102980|T||De Vries,H., and A.M. Kroon|On the Effect of Chloramphenicol and Oxytetracycline on the Biogenesis of Mammalian Mitochondria|Biochim. Biophys. Acta204(2): 531-541|1970|10.1016/0005-2787(70)90173-5
102981|T||Dinsmore,R.P., R.D. Stevens, M.B. Cattell, M.D. Salman, and S.F. Sundlof|Oxytetracycline Residues in Milk After Intrauterine Treatment of Cows with Retained Fetal Membranes|J. Am. Vet. Med. Assoc.209(10): 1753-1755|1996|10.2460/javma.1996.209.10.1753
102982|T||Mcelroy,D.E., W.R. Ravis, and C.H. Clark|Pharmacokinetics of Oxytetracycline Hydrochloride in Rabbits|Am. J. Vet. Res.48(8): 1261-1263|1987|
102983|T||MacNeil,J.D., G.O. Korsrud, J.M. Naylor, and W.D.G. Yates|Bioassay Techniques and High-Performance Liquid Chromatography for Detection of Oxytetracycline Residues in Tissues from Calves|Am. J. Vet. Res.50(1): 72-74|1989|
102984|T||Stallcup,O.T., and H.K. McCartney|Toxicity of Terramycin to Bull Spermatozoa|Fertil. Steril.4(3): 236-238|1953|10.1016/S0015-0282(16)31266-3
102986|A||Camargo,J.A., and J.V. Ward|Nitrate (NO3-N) Toxicity to Aquatic Life: A Proposal of Safe Concentrations for Two Species of Nearctic Freshwater Invertebrates|Chemosphere31(5): 3211-3216|1995|10.1016/0045-6535(95)00182-8
102987|T||Bania,T.C., J. Chu, D. Bailes, and M. O'Neill|Jimson Weed Extract as a Protective Agent in Severe Organophosphate Toxicity|Acad. Emerg. Med.11(4): 335-338|2004|10.1197/j.aem.2003.12.002
102989|T||Harvey,J.,Jr., and J.C.Y. Han|Metabolism of Oxamyl and Selected Metabolites in the Rat|J. Agric. Food Chem.26(4): 902-910|1978|10.1021/jf60218a059
102990|T||Lamb,K., Y.M. Kang, G.F. Gebhart, and K. Bielefeldt|Nerve Growth Factor and Gastric Hyperalgesia in the Rat|Neurogastroenterol. Motil.15(4): 355-361|2003|10.1046/j.1365-2982.2003.00427.x
102991|T||Leung,F.W.|Role of Capsaicin-Sensitive Afferent Nerves in Mucosal Injury and Injury-Induced Hyperemia in Rat Colon|Am. J. Physiol. Gasterointest. Liver Physiol.262(2, Pt. 1): G332 - G337|1992|10.1152/ajpgi.1992.262.2.G332
102992|T||Sterri,S.H.|Factors Modifying the Toxicity of Organophosphorus Compounds Including Dichlorvos|Acta Pharmacol. Toxicol.49(suppl. 5): 67-71|1981|10.1111/j.1600-0773.1981.tb03254.x
102993|T||Limcumpao,J.A., and V.C. Esguerra|Studies on Changes in Serum Cholinesterase Activity in Dichlorvos Poisoning and Its Treatment in Dogs|Philipp. J. Vet. Med.18(2): 94-116|1980|
102994|T||Bruel,M.T., and D. David|Effects of the Organophosphate Pesticide Dichlorvos on Quail Embryo Germ Population.  Numerical Study and Ultrastructural Cytochemistry|Prog. Clin. Biol. Res.85(Pt. A): 417-426|1982|
102995|A||Lahav,M.|The Occurrence and Control of Parasites Infesting Mugilidae in Fish Ponds in Israel|Bamidgeh26(4): 99-103|1974|
102996|T||Snow,D.H.|Studies on the Action of an Anthelmintic Preparation of Dichlorvos in Horses|Vet. Rec.95(11): 231-233|1974|10.1136/vr.95.11.231
102997|T||Bird,S.B., R.J. Gaspari, and E.W. Dickson|Early Death due to Severe Organophosphate Poisoning is a Centrally Mediated Process|Acad. Emerg. Med.10(4): 295-298|2003|10.1197/aemj.10.4.295
102998|T||Hammond,D.L., R. Presley, K.R. Gogas, and A.I. Basbaum|Morphine or U-50,488 Suppresses Fos Protein-like Immunoreactivity in the Spinal Cord and Nucleus Tractus solitarii Evoked by a Noxious Visceral Stimulus in the Rat|J. Comp. Neurol.315(2): 244-253|1992|10.1002/cne.903150210
102999|T||Jian,T., and F. Zhiying|Chronotoxicologic Studies on Dichlorphos in Mice and Humans|Prog. Clin. Biol. Res.341:503-510|1990|
103000|T||Sivilotti,M.L.A., S.B. Bird, J.C.Y. Lo, and E.W. Dickson|Multiple Centrally Acting Antidotes Protect Against Severe Organophosphate Toxicity|Acad. Emerg. Med.13(4): 359-364|2006|10.1197/j.aem.2005.10.018
103001|T||Ali,S.F., O. Chandra, and M. Hasan|Effects of an Organophosphate (Dichlorvos) on open Field Behavior and Locomotor Activity:  Correlation with Regional Brain Monoamine Levels|Psychopharmacology68(1): 37-42|1980|10.1007/BF00426647
103002|T||Sonawane,B.R., and S.N. Baksi|Altered Thyroid Hormone Status and Dichlorvos Toxicity in Rats|Res. Commun. Chem. Pathol. Pharmacol.30(2): 369-372|1980|
103003|T||Bryant,S.M., J.W. Rhee, T.M. Thompson, and S.E. Aks|Pretreating Rats with Parenteral Ophthalmic Antimuscarinic Agents Decreases Mortality from Lethal Organophosphate Poisoning|Acad. Emerg. Med.14(4): 370-372|2007|10.1197/j.aem.2006.10.099
103004|T||Gross,D.R., J.V. Kitzman, and H.R. Adams|Cardiovascular Effects of Intravenous Administration of Propylene Glycol and of Oxytetracycline in Propylene Glycol in Calves|Am. J. Vet. Res.40(6): 783-791|1979|
103005|T||El-Sayed,E.I., M.M. Abdel-Sattar, and H.H. Mohanna|Influence of Three Synergists on the Action of Some Insecticides Against Parental and Resistant Strains of the Egyptian Cotton Leafworm|Bull. Entomol. Soc. Egypt Econ. Ser.38(9): 1083-1084|1982|
103006|A||Satoh,K., S. Katoh, R. Dostatni, and W. Oettmeier|Herbicide and Plastoquinone-Binding Proteins of Photosystem II Reaction Center Complexes from the Thermophilic Cyanobacterium, Synechococcus sp.|Biochim. Biophys. Acta851(2): 202-208|1986|10.1016/0005-2728(86)90126-X
103007|T||Albert,J.R., and S.M. Stearns|Safety and Toxicity of a Gel Formulation of Dichlorvos in the Foal|Am. J. Vet. Res.34(10): 1359-1361|1973|
103008|T||Alford,B.T., G.T. Wang, T.R. Garces, R.B. Dougherty, and R.E. Bradley|The Efficacy and Safety of Injectable Butamisole in Dogs|Vet. Med. Small Anim. Clin.74(4): 487-495|1979|
103009|T||Hutson,D.H., and E.C. Hoadley|The Metabolism of (14C-Methyl)Dichlorovos in the Rat and the Mouse|Xenobiotica2:107-116|1972|10.3109/00498257209111042
103010|T||Hutson,D.H., E.C. Hoadley, and B.A. Pickering|The Metabolic Fate of (Vinyl-I-14C)Dichlorvos in the Rat After Oral and Inhalation Exposure|Xenobiotica1(6): 593-611|1971|10.3109/00498257109112270
103011|T||National Cancer Institute|Bioassay of Dimethoate for Possible Carcinogenicity|Technical Report Series No.4, National Cancer Institute, Bethesda, MD:76 p.|1977|
103012|T||Bart,J.|The Effects of Orthene, Sevin and Dimilin on Birds|M.S.Thesis, Cornell University, Ithaca, NY:46 p.|1976|
103013|T||Sagi,M., A. Dovrat, T. Kipnis, and H. Lips|Nitrate Reductase, Phosphoenolpyruvate Carboxylase, and Glutamine Synthetase in Annual Ryegrass as Affected by Salinity and Nitrogen|J. Plant Nutr.21(4): 707-723|1998|10.1080/01904169809365437
103014|T||Boczek,J.H., K. Wolska, and R. Davis|Effects of Mineral Salts in the Diet of the Mediterranean Flour Moth, Anagasta kuehniella (Zeller)|J. Entomol. Sci.22(1): 61-69|1987|10.18474/0749-8004-22.1.61
103015|T||Yucel,E.|Effects of Different Salt (NaCl), Nitrate (KNO3) and Acid (H2SO4) Concentrations on the Germination of Some Salvia Species Seeds|Seed Sci. Technol.28(3): 853-860|2000|
103016|T||Hung,L.Q., T.D. Hong, and R.H. Ellis|Factors Influencing the Germination of Myrtle (Lagerstroemia speciosa (L.) Pers. and L. floribunda Jack) Seeds|Seed Sci. Technol.32(1): 35-41|2004|10.15258/sst.2004.32.1.05
103017|T||Alaboudi,A.R., and G.A. Jones|Effect of Acclimation to High Nitrate Intakes on Some Rumen Fermentation Parameters in Sheep|Can. J. Anim. Sci.65(4): 841-849|1985|10.4141/cjas85-099
103018|T||Bahrani,M.J., and H. Niknejad-Kazempour|Effect of Dormancy Breaking Treatments and Salinity on Seed Germination of Two Desert Shrubs|Arid Land Res. Manag.21(2): 107-118|2007|10.1080/15324980701236242
103019|T||Shinde,A.K., S.P. Birari, and B.B. Jadhav|Effect of Potassium Nitrate and Urea on Growth and Yield of Cowpea (Vigna unguiculata)|Indian J. Agric. Sci.64(7): 490-491|1994|
103020|T||Ramsay,A.J.|Effect of the Nematicides Oxamyl and Phenamiphos on Numbers of Bacteria and Algae in Soil Under Pasture and on Foliage|N. Z. J. Sci.27(2): 197-207|1984|
103021|T||Moyer,J.L., and G.M. Paulsen|Nitrogen Use in Winter Wheat in Response to Systematic Pesticides|Agron. J.69(1): 58-60|1977|10.2134/agronj1977.00021962006900010015x
103022|T||Omija,B., E.S. Mitema, and T.E. Maitho|Oxytetracycline Residue Levels in Chicken Eggs After Oral Administration of Medicated Drinking Water to Laying Chickens|Food Addit. Contam.11(6): 641-647|1994|10.1080/02652039409374265
103023|T||Juhasz,E., R. Szabo, M. Keseru, S. Fejes, P. Budai, V. Kertesz, and L. Varnagy|Early Embryogenesis Study on a Dimethoate Containing Formulation and Cd-Sulphate in Chicken Embryos|Commun. Agric. Appl. Biol. Sci.70(4): 1075-1078|2005|
103024|T||Julin,A.M., and F.J. Gramlich|Effects of Orthene on Songbird Brain Cholinesterase in Maine, 1977|For.Insect and Disease Management Evaluation Rep., U.S.Dep.of Agric., Broomal, PA:5 p.|1978|
103025|T||Rolon,M., E.M. Seco, C. Vega, J.J. Nogal, J.A. Escario, A. Gomez-Barrio, and F. Malpartida|Selective Activity of Polyene Macrolides Produced by Genetically Modified Streptomyces on Trypanosoma cruzi|Int. J. Antimicrob. Agents28(2): 104-109|2006|10.1016/j.ijantimicag.2006.02.025
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103027|T||Salas,M.L., L.J. Corcuera, and V.H. Argandona|Effect of Potassium Nitrate on Gramine Content and Resistance of Barley Against the Aphid Schizaphis graminum|Phytochemistry29(12): 3789-3791|1990|10.1016/0031-9422(90)85332-A
103029|T||Chauhan,B.S., G. Gill, and C. Preston|Factors Affecting Seed Germination of Threehorn Bedstraw (Galium tricornutum) in Australia|Weed Sci.54(3): 471-477|2006|10.1614/WS-05-176R1.1
103030|A||Paterson,B.D., M.A. Rimmer, G.M. Meikle, and G.L. Semmens|Physiological Responses of the Asian Sea Bass, Lates calcarifer to Water Quality Deterioration During Simulated Live Transport:  Acidosis, Red-Cell Swelling, and Levels of Ions and Ammonia in the Plasma|Aquaculture218(1-4): 717-728|2003|10.1016/S0044-8486(02)00564-1
103031|A||Kurihara,H., S. Shimode, and Y. Shirayama|Effects of Raised CO2 Concentration on the Egg Production Rate and Early Development of Two Marine Copepods (Acartia steueri and Acartia erythraea)|Mar. Pollut. Bull.49(9-10): 721-727|2004|10.1016/j.marpolbul.2004.05.005
103032|A||Martens,L.G., P.E. Witten, S. Fivelstad, A. Huysseune, B. Saevareid, V. Vikesa, and A. Obach|Impact of High Water Carbon Dioxide Levels on Atlantic Salmon Smolts (Salmo salar L.):  Effects on Fish Performance, Vertebrae Composition and Structure|Aquaculture261(1): 80-88|2006|10.1016/j.aquaculture.2006.06.031
103033|A||Fivelstad,S., R. Waagbo, S.F. Zeitz, A.C.D. Hosfeld, A.B. Olsen, and S. Stefansson|A Major Water Quality Problem in Smolt Farms:  Combined Effects of Carbon Dioxide, Reduced pH and Aluminium on Atlantic Salmon (Salmo salar L.) Smolts:  Physiology and Growth|Aquaculture215(1-4): 339-357|2003|10.1016/S0044-8486(02)00197-7
103034|T||Mayer,K.L., H.S. Ho, K.A. Mathiesen, and B.M. Wolfe|Cardiopulmonary Responses to Experimental Venous Carbon Dioxide Embolism|Surg. Endosc.12(8): 1025-1030|1998|10.1007/s004649900773
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103036|A||Siikavuopio,S.I., A. Mortensen, T. Dale, and A. Foss|Effects of Carbon Dioxide Exposure on Feed Intake and Gonad Growth in Green Sea Urchin, Stronglyocentrotus droebachiensis|Aquaculture266(1-4): 97-101|2007|10.1016/j.aquaculture.2007.02.044
103037|T||Van der Westhuizen,M.M., and M.D. Cramer|The Influence of Elevated Rhizosphere Dissolved Inorganic Carbon Concentrations on Respiratory O2 and CO2 Flux in Tomato Roots|J. Exp. Bot.49(329): 1977-1985|1998|10.1093/jexbot/49.329.1977
103038|A||Bearden,C.M.|"Field Tests Concerning the Effects of ""Dibrom 14 Concentrate"" (Naled) on Estuarine Animals"|Contrib.No.45, U.S.DOI, Bears Bluff, Lab., SC:14 p.|1967|
103039|T||Gooneratne,S.R., A.A. Olkowski, and D.A. Christensen|Sulfur-Induced Polioencephalomalacia in Sheep:  Some Biochemical Changes|Can. J. Vet. Res.53(4): 462-467|1989|
103040|T||Zhou,W., M. Wan, P. He, S. Li, and B. Lin|Oxidation of Elemental Sulfur in Paddy Soils as Influenced by Flooded Condition and Plant Growth in Pot Experiment|Biol. Fertil. Soils36(5): 384-389|2002|10.1007/s00374-002-0547-4
103041|T||Holb,I.J., and G. Schnabel|Effect of Fungicide Treatments and Sanitation Practices on Brown Rot Blossom Blight Incidence, Phytotoxicity, and Yield for Organic Sour Cherry Production|Plant Dis.89(11): 1164-1170|2005|10.1094/PD-89-1164
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103044|T||Nosal'ova,V., M. Zeman, S. Cerna, J. Navarova, and M. Zakalova|Protective Effect of Melatonin in Acetic Acid Induced Colitis in Rats|J. Pineal Res.42(4): 364-370|2007|10.1111/j.1600-079X.2007.00428.x
103045|T||Schober,G., G. Wetter, E. Bischoff, J.E.M.H. Van Bronswijk, and F.M. Kniest|Control of House-Dust Mites (Pyroglyphidae) with Home Disinfectants|Exp. Appl. Acarol.3(3): 179-190|1987|10.1007/BF01270453
103046|T||Hamilton,G.C., J.H. Lashomb, and J.M. Patt|Impact of Selected Insecticides Used in Eggplant Production on Edovum puttleri Grissell (Hymenoptera:  Eulophidae)|J. Entomol. Sci.31(4): 432-439|1996|10.18474/0749-8004-31.4.432
103047|T||Ahmed,S., and R.M. Wilkins|Studies on Some Enzymes Involved in Insecticide Resistance in Fenitrothion-Resistant and -Susceptible Strains of Musca domestica L. (Dipt, Muscidae)|J. Appl. Entomol.126(9): 510-516|2002|10.1046/j.1439-0418.2002.00698.x
103048|T||Kim,H.S., J.H. Eom, H.Y. Cho, Y.J. Cho, J.Y. Kim, J.K. Lee, S.H. Kim, and K.L. Park|Evaluation of Immunotoxicity Induced by Pirimiphos-Methyl in Male Balb/c Mice Following Exposure to for 28 Days|J. Toxicol. Environ. Health Part A70(15): 1278-1287|2007|10.1080/15287390701434372
103049|T||Leonova,I.N., and N.M. Slynko|Comparative Study of Insecticide Susceptibility and Activities of Detoxification Enzymes in Larvae and Adults of Cotton Bollworm, Heliothis armigera|Arch. Insect Biochem. Physiol.32(2): 157-172|1996|10.1002/(SICI)1520-6327(1996)32:2<157::AID-ARCH1>3.0.CO;2-W
103050|A||Straus,D.L., and J.E. Chambers|Effects of Piperonyl Butoxide on the Metabolism of DEF (S,S,S-TributyI Phosphorotrithioate) in Fingerling Channel Catfish|Toxicol. Mech. Methods16(4): 235-239|2006|10.1080/15376520500191730
103051|T||Bynum,E.D.,Jr., and T.L. Archer|Susceptibility of Populations of Banks Grass Mites (Acari:  Tetranychidae) Suspected of Developing Bifenthrin Resistance from Three Maize Fields|Exp. Appl. Acarol.27(4): 303-312|2002|10.1023/A:1023328804511
103052|T||Alves,A.P., W.J. Allgeier, and B.D. Siegfried|Effects of the Synergist S,S,S-Tributyl Phosphorotrithioate on Indoxacarb Toxicity and Metabolism in the European Corn Borer, Ostrinia nubilalis (Hubner)|Pestic. Biochem. Physiol.90(1): 26-30|2008|10.1016/j.pestbp.2007.07.005
103053|T||Dow Chemical Co.|Initial Submission:  Subchronic Mouse Oral Pilot Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:40 p.|1992|
103054|T||Dow Chemical Co.|Initial Submission:  Subchronic Hamster Oral Pilot Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:49 p.|1992|
103055|T||Dow Chemical Co.|Initial Submission:  Subchronic Mouse Oral Study with 4-(2-(4-(1,1-Dimethylethyl)Phenyl)Ethoxy)-Quinazoline with Cover Letter Dated 081792|Dow Chemical Co., Midland, MI:38 p.|1992|
103056|T||Kokshareva,N.V., S.D. Kovtun, Y.U.S. Kagan, I.G. Mizyukova, and B.M. Medvedev|Action of Diethixime, a New Cholinesterase Reactivator, on the Central Nervous System|Bull. Exp. Biol. Med. Ussr83(1): 32-35|1977|
103057|T||Peixoto,N.C., L.C. Rocha, D.P. Moraes, M.J. Bebianno, V.L. Dressler, E.M.M. Flores, and M.E. Pereira|Changes in Levels of Essential Elements in Suckling Rats Exposed to Zinc and Mercury|Chemosphere72:1327-1332|2008|10.1016/j.chemosphere.2008.04.027
103058|T||Akay,M.T., G. Yilmazoglu, S. Yasacan, H. Turk, and D. Kolanyaka|Bioavailability and Toxicological Potential of Wheat-Bound Pirimiphos-Methyl Residues in Rats|Xenobiotica22(3): 293-302|1992|10.3109/00498259209046641
103059|A||McCarthy,I.D., and L.A. Fuiman|Growth and Protein Metabolism in Red Drum (Sciaenops ocellatus) Larvae Exposed to Environmental Levels of Atrazine and Malathion|Aquat. Toxicol.88:220-229|2008|10.1016/j.aquatox.2008.05.001
103060|T||Fatranska,M., M. Vargova, L.B. Rosival, V.N. Tora, S. Meth, and D. Janekova|Circadian Susceptibility Rhythms to Some Organophosphate Compounds in the Rat|Chronobiologia5(1): 39-44|1978|
103061|T||Roberson,E.L., W.I. Anderson, and D.K. Hass|Anthelmintic Drug Evaluation:  Dichlorvos-Medicated Dry Dog Feed|Am. J. Vet. Res.38(5): 597-600|1977|
103062|T||Faris,G.A.M., and F.K. Mohammad|Prevention and Treatment of Dichlorvos-Induced Toxicosis in Mice by Diphenhydramine|Vet. Hum. Toxicol.39(1): 22-25|1997|
103063|T||Sakaguchi,K., M. Nagayama, T. Masaoka, A. Nishimura, K. Kageyama, M. Shirai, and F. Akahori|Effects of Fenthion, Isoxathion, Dichlorvos and Propaphos on the Serum Cholinesterase Isoenzyme Patterns of Dogs|Vet. Hum. Toxicol.39(1): 1-5|1997|
103064|T||Harlin,K.S., and J.A. Dellinger|Retina, Brain and Blood Cholinesterase Levels in Cats Treated with Oral Dichlorvos|Vet. Hum. Toxicol.35(3): 201-203|1993|
103065|T||Bakima,M., H.M. Baudet, P. Lekeux, and F. Lomba|Respiratory and Pulmonary Haemodynamic Changes During Experimental Organophosphate Poisoning in Goats|Vet. Res. Commun.13(2): 127-133|1989|10.1007/BF00346722
103066|T||Dellinger,J.A., B.C. McKiernan, G.D. Koritz, and B.C. Richardson|Latent Dichlorvos Neurotoxicity Detected by Vagal Tone Monitoring in Dogs|Neurotoxicol. Teratol.9(3): 197-201|1987|10.1016/0892-0362(87)90003-1
103067|T||Dube,S.N., A.K. Ghosh, K. Jeevarathinam, D. Kumar, S. Das Gupta, B.P. Pant, B.S. Batra, and D.K. Jaiswal|Studies on the Efficacy of Diethyxime as an Antidote Against Organophosphorus Intoxication in Rats|Jpn. J. Pharmacol.41(3): 267-271|1986|10.1254/jjp.41.267
103068|T||Rao,H.R.G., and P.K. Harein|Dichlorvos as an Inhibitor of Aflatoxin Production on Wheat, Corn, Rice, and Peanuts|J. Econ. Entomol.65(4): 988-990|1972|10.1093/jee/65.4.988
103069|T||Raina,R., A.K. Srivastava, and J.K. Malik|The Influence of 2,3-Butanedione Monoxime on Dichlorvos-Induced Enzymatic Changes in Buffalo Calves|Vet. Hum. Toxicol.34(3): 218-220|1992|
103070|A||Egea-Serrano,A., M. Tejedo, and M. Torralva|Analysis of the Avoidance of Nitrogen Fertilizers in the Water Column by Juvenile Iberian Water Frog, Pelophylax perezi (Seoane, 1885), in Laboratory Conditions|Bull. Environ. Contam. Toxicol.80(2): 178-183|2008|10.1007/s00128-007-9341-1
103071|A||Pandey,A.K., and K. Pandey|Biochemical Estimation of Lipid in Liver and Muscle of Some Fresh Water Fishes|Environ. Ecol.12(4): 880-883|1994|
103072|A||Forson,D.D., and A. Storfer|Atrazine Increases Ranavirus Susceptibility in the Tiger Salamander, Ambystoma tigrinum|Ecol. Appl.16(6): 2325-2332|2006|10.1890/1051-0761(2006)016[2325:AIRSIT]2.0.CO;2
103073|T||Tari,I., and J. Csiszar|Effects of NO2- or NO3- Supply on Polyamine Accumulation and Ethylene Production of Wheat Roots at Acidic and Neutral pH: Implications for Root Growth|Plant Growth Regul.40(2): 121-128|2003|10.1023/A:1024235211395
103074|T||Sarikaya,R., and S. Cakir|Genotoxicity Testing of Four Food Preservatives and Their Combinations in the Drosophila Wing Spot Test|Environ. Toxicol. Pharmacol.20(3): 424-430|2005|10.1016/j.etap.2005.05.002
103075|T||Samater,A.H., O. Van Cleemput, and T. Ertebo|Influence of the Presence of Nitrite and Nitrate in Soil on Maize Biomass Production, Nitrogen Immobilization and Nitrogen Recovery|Biol. Fertil. Soils27(2): 211-218|1998|10.1007/s003740050422
103076|T||Pari,L., and M. Gnanasoundari|Influence of Naringenin on Oxytetracycline Mediated Oxidative Damage in Rat Liver|Basic Clin. Pharmacol. Toxicol.98(5): 456-461|2006|10.1111/j.1742-7843.2006.pto_351.x
103077|T||Himms-Hagen,J.|Inhibition by Oxytetracycline of the Development of the Enhanced Response to Noradrenaline in Cold-Acclimated Rats:  A New Approach to the Study of Nonshivering Thermogenesis|Can. J. Physiol. Pharmacol.49(6): 545-553|1971|10.1139/y71-070
103078|T||Terhune,T.N., and D.W. Upson|Oxytetracycline Pharmacokinetics, Tissue Depletion, and Toxicity After Administration of a Long-Acting Preparation at Double the Label Dosage|J. Am. Vet. Med. Assoc.194(7): 911-917|1989|
103079|T||Chang,J.C.F., J.A. Walberg, and W.R. Campbell|One-Year Dietary Toxicity Study with Methidathion in Beagle Dogs|Fundam. Appl. Toxicol.19(2): 307-314|1992|10.1016/0272-0590(92)90165-E
103080|A||Nemcsok,J., Z. Rakonczay, P. Kasa, B. Asztalos, and A. Szabo|Effects of Methidathion on Distribution of Molecular Forms of Acetylcholinesterase in Carp, as Revealed by Density Gradient Centrifugation|Pestic. Biochem. Physiol.37(2): 140-144|1990|10.1016/0048-3575(90)90119-M
103081|T||Gokalp,O., K. Gulle, O. Sulak, E. Cicek, and I. Altuntas|The Effects of Methidathion on Liver:  Role of Vitamins E and C|Toxicol. Ind. Health19(2-6): 63-67|2003|10.1191/0748233703th176oa
103082|T||Sulak,O., I. Altuntas, N. Karahan, B. Yildirim, O. Akturk, H.R. Yilmaz, and N. Delibas|Nephrotoxicity in Rats Induced by Organophosphate Insecticide Methidathion and Ameliorating Effects of Vitamins E and C|Pestic. Biochem. Physiol.83(1): 21-28|2005|10.1016/j.pestbp.2005.03.008
103083|T||Sutcu,R., I. Altuntas, B. Yildirim, N. Karahan, H. Demirin, and N. Delibas|The Effects of Subchronic Methidathion Toxicity on Rat Liver:  Role of Antioxidant Vitamins C and E|Cell Biol. Toxicol.22(3): 221-227|2006|10.1007/s10565-006-0039-7
103084|T||Costa,H.S., D.E. Ullman, M.W. Johnson, and B.E. Tabashnik|Antibiotic Oxytetracycline Interferes with Bemisia tabaci (Homoptera:  Aleyrodidae) Oviposition, Development, and Ability to Induce Squash Silverleaf|Ann. Entomol. Soc. Am.86(6): 740-748|1993|10.1093/aesa/86.6.740
103085|T||Britt,J.S., M.C. Carson, J.D. Von Bredow, and R.J. Condon|Antibiotic Residues in Milk Samples Obtained from Cows After Treatment for Papillomatous Digital Dermatitis|J. Am. Vet. Med. Assoc.215(6): 833-836|1999|10.2460/javma.1999.215.06.833
103086|T||Anderson,K.L., W.A. Moats, J.E. Rushing, D.P. Wesen, and M.G. Papich|Potential for Oxytetracycline Administration by Three Routes to Cause Milk Residues in Lactating Cows, as Detected by Radioimmunoassay (Charm II) and High-Performance Liquid Chromatography Test Methods|Am. J. Vet. Res.56(1): 70-77|1995|10.2460/ajvr.1995.56.01.70
103087|T||Wood,B.W., J.A. Payne, and M.T. Smith|Suppressing Pecan Aphid Populations Using Potassium Nitrate Plus Surfactant Sprays|Hortscience30(3): 513-516|1995|10.21273/HORTSCI.30.3.513
103088|T||Sveistyte,A.|The Effect of Sodium Nitrate on Dopamine Receptors Mediated or Modulated Behaviour in Quails (Coturnix coturnix japonica); The Role of Serotonergic and Noradrenergic Transmissions in this Process|Ekologija3:30-39|1998|
103090|T||Kanosue,K., R. Gerstberger, C. Simon-Oppermann, and E. Simon|Ionic Responsiveness in Third Ventricular Hypertonic Stimulation of Antidiuresis in Ducks|Brain Res.569(2): 268-274|1992|10.1016/0006-8993(92)90638-P
103092|T||Dollahite,J.W., and L.D. Rowe|Nitrate and Nitrite Intoxication in Rabbits and Cattle|Southwest. Vet.27(3): 246-248|1974|
103093|T||Wolf,J.C., and C.J. Mirocha|Regulation of Sexual Reproduction in Gibberella zeae (Fusarium roseum 'Graminearum') by F-2 (Zearalenone)|Can. J. Microbiol.19(6): 725-734|1973|10.1139/m73-117
103094|T||Ribeiro,R.A., M.L. Vale, S.M. Thomazzi, A.B.P. Paschoalato, S. Poole, S.H. Ferreira, and F.Q. Cunha|Involvement of Resident Macrophages and Mast Cells in the Writhing Nociceptive Response Induced by Zymosan and Acetic Acid in Mice|Eur. J. Pharmacol.387(1): 111-118|2000|10.1016/S0014-2999(99)00790-6
103095|T||Gross,D.R., K.T. Dodd, J.D. Williams, and H.R. Adams|Adverse Cardiovascular Effects of Oxytetracycline Preparations and Vehicles in Intact Awake Calves|Am. J. Vet. Res.42(8): 1371-1377|1981|
103096|A||Ferrari,A., A. Venturino, and A.M. Pechen de D'Angelo|Effects of Carbaryl and Azinphos Methyl on Juvenile Rainbow Trout (Oncorhynchus mykiss) Detoxifying Enzymes|Pestic. Biochem. Physiol.88(2): 134-142|2007|10.1016/j.pestbp.2006.10.005
103097|T||Hathaway,C.A., C.B. Appleyard, W.H. Percy, and J.L. Williams|Experimental Colitis Increases Blood-Brain Barrier Permeability in Rabbits|Am. J. Physiol. Gasterointest. Liver Physiol.276(5, Pt. 1): 1174-1880|1999|10.1152/ajpgi.1999.276.5.G1174
103098|A||Ferrari,A., A. Venturino, and A.M. Pechen de D'Angelo|Muscular and Brain Cholinesterase Sensitivities to Azinphos Methyl and Carbaryl in the Juvenile Rainbow Trout Oncorhynchus mykiss|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(3): 308-313|2007|10.1016/j.cbpc.2007.04.002
103100|AT||Ghosh,S., D. Majumdar, and M.C. Jain|Methane and Nitrous Oxide Emissions from an Irrigated Rice of North India|Chemosphere51(3): 181-195|2003|10.1016/S0045-6535(02)00822-6
103101|T||Goh,K.M., and J. Pamidi|Plant Uptake of Sulphur as Related to Changes in the HI-Reducible and Total Sulphur Fractions in Soil|Plant Soil250(1): 1-13|2003|10.1023/A:1022823319406
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103103|T||Roudaut,B., J.P. Moretain, and J. Boisseau|Excretion of Oxytetracycline in Eggs After Medication of Laying Hens|Food Addit. Contam.4(3): 297-307|1987|10.1080/02652038709373639
103104|T||Baksi,S.N.|Effect of Dichlorvos on Embryonal and Fetal Development on Thyro Parathyroidectomized, Thyroxine-Treated and Euthyroid Rats|Toxicol. Lett.2(4): 213-216|1978|10.1016/0378-4274(78)90069-3
103105|T||McHugh,K.J., H.P. Weingarten, C. Keenan, J.L. Wallace, and S.M. Collins|On the Suppression of Food Intake in Experimental Models of Colitis in the Rat|Am. J. Physiol., Regul. Integr. Comp. Physiol.264(5, Pt. 2): 871-876|1993|10.1152/ajpregu.1993.264.5.R871
103106|T||Singh,P.P., A.Y. Junnarkar, C.S. Rao, R.K. Varma, and D.R. Shridhar|Acetic Acid and Phenylquinone Writhing Test: A Critical Study in Mice|Methods Find. Exp. Clin. Pharmacol.5(9): 601-606|1983|
103107|T||Popov,S.V., P.A. Markov, I.R. Nikitina, S. Petrishev, V. Smirnov, and Y.S. Ovodov|Preventive Effect of a Pectic Polysaccharide of the Common Cranberry Vaccinium oxycoccos L. on Acetic Acid-Induced Colitis in Mice|World J. Gastroenterol.12(41): 6646-6651|2006|10.3748/wjg.v12.i41.6646
103108|T||Ozaki,N., K. Bielefeldt, J.N. Sengupta, and G.F. Gebhart|Models of Gastric Hyperalgesia in the Rat|Am. J. Physiol. Gasterointest. Liver Physiol.283(3): G666 - G676|2002|10.1152/ajpgi.00001.2002
103109|T||Sinniger,V., C. Porcher, P. Mouchet, A. Juhem, and B. Bonaz|C-fos and CRF Receptor Gene Transcription in the Brain of Acetic Acid-induced Somato-Visceral Pain in Rats|IASP Newsl.110(3): 738-750|2004|
103110|A||Sneddon,L.U., V.A. Braithwaite, and M.J. Gentle|Do Fishes have Nociceptors?  Evidence for the Evolution of a Vertebrate Sensory System|Proc. R. Soc. Lond. Ser. B Biol. Sci.270(1520): 1115-1121|2003|10.1098/rspb.2003.2349
103111|A||Spencer,D.F., and G.G. Ksander|Differential Effects of the Microbial Metabolite, Acetic Acid, on Sprouting of Aquatic Plant Propagules|Aquat. Bot.52(1/2): 107-119|1995|10.1016/0304-3770(95)00488-L
103112|T||Hasan,M., and S.F. Ali|Organophosphate Pesticide Dichlorvos-Induced Increase in the Rate of Lipid Peroxidation in the Different Regions of the Rat Brain:  Supporting Ultrastructural Findings|Neurotoxicology2(1): 43-52|1981|
103113|T||Fayez,V., and W.W. Kilgore|Acute Toxic Effects of Oxamyl in the Rat|Fundam. Appl. Toxicol.18(1): 155-159|1992|10.1016/0272-0590(92)90209-Z
103114|T||Kennedy,G.L.,Jr.|Acute Toxicity Studies with Oxamyl|Fundam. Appl. Toxicol.6(3): 423-429|1986|10.1016/0272-0590(86)90215-0
103115|T||Williams III,L., and L.D. Price|A Space-Efficient Contact Toxicity Bioassay for Minute Hymenoptera, Used to Test the Effects of Novel and Conventional Insecticides on the Egg Parasitoids Anaphes iole and Trichogramma pretiosum|Biocontrol49(2): 163-185|2004|10.1023/B:BICO.0000017287.50875.de
103116|T||Westlake,G.E., P.J. Bunyan, A.D. Martin, P.I. Stanley, and L.C. Steed|Carbamate Poisoning.  Effects of Selected Carbamate Pesticides on Plasma Enzymes and Brain Esterases of Japanese Quail (Coturnix coturnix japonica)|J. Agric. Food Chem.29(4): 779-785|1981|10.1021/jf00106a022
103118|T||Kobayashi,H., A. Yuyama, S. Imajo, and N. Matsusaka|Effects of Acute and Chronic Administration of DDVP (Dichlorvos) on Distribution of Brain Acetylcholine in Rats|J. Toxicol. Sci.5(4): 311-319|1980|10.2131/jts.5.311
103119|T||Kozlowska,A., B. Sadurska, and T. Szymczyk|Effect of Dichlorvos on the Activity of Lipoprotein Lipase from Adipose Tissue, on Plasma Lipids and Postheparin Lipolytic Plasma Activity in Rats|Arch. Toxicol.62(2-3): 227-229|1988|10.1007/BF00570146
103120|T||Lekeux,P., A. Kyavu, C. Clercx, and M. Ansay|Pulmonary Function Changes Induced by Experimental Dichlorvos Toxicosis in Calves|Res. Vet. Sci.40(3): 318-321|1986|10.1016/S0034-5288(18)30542-3
103121|T||Maslinska,D., M. Dambska, and S. Maslinski|Dichlorvos Penetration Through Rabbit Placenta|Neuropatol. Pol.17(2): 237-241|1979|
103122|T||Michalek,H., and W.B. Stavinoha|Effect of Chlorpromazine Pre-Treatment on the Inhibition of Total Cholinesterases and Butyrylcholinesterase in Brain of Rats Poisoned by Physostigmine or Dichlorvos|Toxicology9(3): 205-218|1978|10.1016/0300-483X(78)90003-3
103123|T||Pachecka,J., A. Sulinski, and K. Traczykiewicz|The Effect of Acute Intoxication by Dichlorvos and Trichlorphon on the Activities of Some Rat Brain Esterases|Neuropatol. Pol.15(1): 85-92|1977|
103124|T||Panda,B.B., and C.B.S.R. Sharma|Cytogenic Hazards from Agricultural Chemicals.  3.  Monitoring the Cytogenic Activity of Trichlorfon and Dichlorvos in Hordeum vulgare|Mutat. Res.78(4): 341-345|1980|10.1016/0165-1218(80)90039-7
103125|T||Zalewska,Z., I. Rakowska, G. Matraszek, and D. Sitkiewicz|Effect of Dichlorvos on Some Enzyme Activities of the Rat Brain During Postnatal Development.  I.  Cholinesterases|Neuropatol. Pol.15(2): 255-262|1977|
103126|T||Zalewska,Z., B. Wolna, D. Sitkiewicz, and W. Bicz|Effect of Dichlorvos on Some Enzyme Activities of the Rat Brain During Postnatal Development.  II.  Oxidoreductases|Neuropatol. Pol.15(3): 367-372|1977|
103127|AT||Chohan,Z.H., M. Arif, Z. Shafiq, M. Yaqub, and C.T. Supuran|In Vitro Antibacterial, Antifungal & Cytotoxic Activity of Some Isonicotinoylhydrazide Schiff's Bases and Their Cobalt (II), Copper (II), Nickel (II) and Zinc (II) Complexes|J. Enzyme Inhib. Med. Chem.21(1): 95-103|2006|10.1080/14756360500456806
103128|A||Trivedi,S., and D.N. Saksena|Acute Toxicity and Behavioural Response of an Organophosphorus Pesticide, Nuvan (DDVP) to Freshwater Catfish Clarias batrachus (Linnaeus)|J. Environ. Pollut.6(1): 53-57|1999|
103129|T||Moretto,A., M. Lotti, M.I. Sabri, and P.S. Spencer|Progressive Deficit of Retrograde Axonal Transport is Associated with the Pathogenesis of Di-n-Butyl Dichlorvos Axonopathy|J. Neurochem.49(5): 1515-1522|1987|10.1111/j.1471-4159.1987.tb01022.x
103130|T||Abdul Awal,M.|The Influence of Single Topical Application of Dichlorvos on Blood Esterases and Toxicity in Male Calves|Vet. Hum. Toxicol.34(3): 229-231|1992|
103131|T||Peraica,M., E. Capodicasa, A. Moretto, and M. Lotti|Organophosphate Polyneuropathy in Chicks|Biochem. Pharmacol.45(1): 131-135|1993|10.1016/0006-2952(93)90385-A
103132|T||Choudhary,S., S.K. Verma, G. Raheja, P. Kaur, K. Joshi, and K.D. Gill|The L-Type Calcium Channel Blocker Nimodipine Mitigates Cytoskeletal Proteins Phosphorylation in Dichlorvos-Induced Delayed Neurotoxicity in Rats|Basic Clin. Pharmacol. Toxicol.98(5): 447-455|2006|10.1111/j.1742-7843.2006.pto_270.x
103133|T||Stefanovic,D., B. Antonijevic, D. Bokonjic, M.P. Stojiljkovic, Z.A. Milovanovic, and M. Nedeljkovic|Effect of Sodium Bicarbonate in Rats Acutely Poisoned with Dichlorvos|Basic Clin. Pharmacol. Toxicol.98(2): 173-180|2006|10.1111/j.1742-7843.2006.pto_68.x
103134|T||Savic,M.M., A.I. Obradovic, N.D. Ugresic, and D.R. Bokonjic|The Influence of Diazepam on Atropine Reversal of Behavioural Impairment in Dichlorvos-Treated Rats|Pharmacol. Toxicol.93(5): 211-218|2003|10.1046/j.1600-0773.2003.pto930503.x
103135|T||Ehrich,M., and S.D. Cohen|Effect of Dichlorvos (DDVP) on Mouse Liver Glutathione Levels and Lack of Potentiation by Methyl Iodide and TOTP|Biochem. Pharmacol.26(10): 997-1000|1977|10.1016/0006-2952(77)90484-1
103136|T||Luty,S., J. Latuszynska, J. Halliop, A. Tochman, D. Obuchowska, E. Przylepa, E. Korczak, and E. Bychawski|Toxicity of Dermally Absorbed Dichlorvos in Rats|AAEM Ann. Agric. Environ. Med.5(1): 57-64|1998|
103137|T||Robertson,D.G., A.M. Mattson, L.L. Bestervelt, R.J. Richardson, and R.J. Anderson|Time Course of Electrophysiologic Effects Induced by Di-n-Butyl-2,2-Dichlorovinyl Phosphate (DBCV) in the Adult Hen|J. Toxicol. Environ. Health23(3): 283-294|1988|10.1080/15287398809531114
103138|T||Zabrodskii,P.F., and V.G. Germanchuk|Role of Activation of the Sympathoadrenal System in the Realization of Immune Reactions During Acute Poisoning with Organophosphorus Compounds|Bull. Exp. Biol. Med.132(4): 966-968|2001|10.1023/A:1013667227881
103139|A||Varo,I., F. Amat, and J.C. Navarro|Acute Toxicity of Dichlorvos to Aphanius iberus (Cuvier & Valenciennes, 1846) and Its Anti-Cholinesterase Effects on this Species|Aquat. Toxicol.88(1): 53-61|2008|10.1016/j.aquatox.2008.03.004
103140|A||Varo,I., J.C. Navarro, B. Nunes, and L. Guilhermino|Effects of Dichlorvos Aquaculture Treatments on Selected Biomarkers of Gilthead Sea Bream (Sparus aurata L.) Fingerlings|Aquaculture266(1-4): 87-96|2007|10.1016/j.aquaculture.2007.02.045
103141|T||Schroeder,H.W., R.J. Cole, R.D. Grigsby, and H.,Jr. Hein|"Inhibition of Aflatoxin Production and Tentative Identification of an Aflatoxin Intermediate ""Versiconal Acetate"" from Treatment with Dichlorvos"|Appl. Microbiol.27(2): 394-399|1974|10.1128/am.27.2.394-399.1974
103142|A||Murison,D.J., D.C. Moore, J.G. McHenery, N.A. Robertson, and I.M. Davies|Epiphytic Invertebrate Assemblages and Dichlorvos Usage at Salmon Farms|Aquaculture159(1-2): 53-66|1997|10.1016/S0044-8486(97)00211-1
103144|T||Faff,J., G. Borkowska, and W. Bak|Therapeutic Effects of Some Cholinolytics in Organophosphate Intoxications|Arch. Toxicol.36(2): 139-146|1976|10.1007/BF00351973
103145|T||Campbell,P.I., and O.O. Ofurum|Serum and Liver Enzyme Changes in Rats After Short Term Exposure to Dichlorvos|Comp. Biochem. Physiol. C Comp. Pharmacol.83(2): 443-446|1986|10.1016/0742-8413(86)90151-9
103146|T||Johnson,M.K.|The Anomalous Behaviour of Dimethyl Phosphates in the Biochemical Test for Delayed Neurotoxicity|Arch. Toxicol.41(1): 107-110|1978|10.1007/BF00351775
103147|T||Purshottam,T., and R.K. Srivastava|Effect of High-Fat and High-Protein Diets on Toxicity of Parathion and Dichlorvos|Arch. Environ. Health39(6): 425-430|1984|10.1080/00039896.1984.10545876
103148|T||Tayyaba,K., and M. Hasan|Organophosphate Insecticide DDVP-Induced Increment in Regional Total Lipids and Cholesterol Levels:  Diminution of Phospholipid Concentration in Different Regions of the Rat Brain|Curr. Sci. (Bangalore)49(16): 617-619|1980|
103149|T||D'Souza,A.V., and B.K. Batra|A Study of the Effects of DDVP (Propoxure) on Laboratory Mouse|Curr. Sci. (Bangalore)45(10): 377-379|1976|
103150|T||Cao,J.Y., B.Z. Zhao, S.Q. Jiang, and X.Y. Chen|Experimental Study of Acute Organophosphorus Compound Poisoning in Rabbit Kidneys by Ultrasonic Tissue Characterization|J. Ultrasound. Med.25(7): 891-895|2006|10.7863/jum.2006.25.7.891
103151|T||Civen,M., E. Lifrak, and C.B. Brown|Studies on the Mechanism of Inhibition of Adrenal Steroidogenesis by Organophosphate and Carbamate Compounds|Pestic. Biochem. Physiol.7(2): 169-182|1977|10.1016/0048-3575(77)90029-3
103152|T||Costa,L.G., and S.D. Murphy|Interaction Between Acetaminophen and Organophosphates in Mice|Res. Commun. Chem. Pathol. Pharmacol.44(3): 389-400|1984|
103153|T||Dambska,M., L. Iwanowski, and P. Kozlowski|The Effect of Transplacental Intoxication with Dichlorvos on the Development of Cerebral Cortex in Newborn Rabbits|Neuropatol. Pol.17(4): 571-576|1979|
103154|T||Dean,B.J., and D. Blair|Dominant Lethal Assay in Female Mice After Oral Dosing with Dichlorvos or Exposure to Atmospheres Containing Dichlorvos|Mutat. Res.40(1): 67-72|1976|10.1016/0165-1218(76)90025-2
103155|T||Desi,I., and L. Nagymajtenyi|Neurotoxicologic Investigations of the Pesticide Dichlorvos (DDVP).  Effects on the Central and Peripheral Nervous System|Toxicology49(1): 141-148|1988|10.1016/0300-483X(88)90186-2
103157|T||Benigni,R., M. Bignami, I. Camoni, A. Carere, G. Conti, R. Iachetta, G. Morpurgo, and V.A. Ortali|A New In Vitro Method for Testing Plant Metabolism in Mutagenicity Studies|J. Toxicol. Environ. Health5(5): 809-819|1979|
103159|T||Mohammad,F.K., and V.V. St.Omer|Toxicity and Interaction of Topical Organophosphate Insecticide Dichlorvoscrotoxyphos and Phenothiazine Anthelmintic in Sheep Previously Exposed to Both Drugs|Vet. Hum. Toxicol.27(3): 181-184|1985|
103160|T||Tarnawski,A., D. Hollander, J. Stachura, W.J. Krause, M. Eltorai, W. Dabros, and H. Gergely|Vascular and Microvascular Changes - Key Factors in the Development of Acetic Acid-Induced Gastric Ulcers in Rats|J. Clin. Gastroenterol.12(suppl. 1): S148 - S157|1990|
103161|T||Tanimoto,S., T. Nakagawa, Y. Yamauchi, M. Minami, and M. Satoh|Differential Contributions of the Basolateral and Central Nuclei of the Amygdala in the Negative Affective Component of Chemical Somatic and Visceral Pains in Rats|Eur. J. Neurosci.18(8): 2343-2350|2003|10.1046/j.1460-9568.2003.02952.x
103162|T||Avelino,A., F. Cruz, and A. Coimbra|Intravesical Resiniferatoxin Desensitizes Rat Bladder Sensory Fibres Without Causing Intense Noxious Excitation.  A c-fos Study|Eur. J. Pharmacol.378(1): 17-22|1999|10.1016/S0014-2999(99)00451-3
103163|T||Yamada,T., B.J. Zimmerman, R.D. Specian, and M.B. Grisham|Role of Neutrophils in Acetic Acid-Induced Colitis in Rats|Inflammation15(5): 399-411|1991|10.1007/BF00917356
103165|T||Lucier,G.W., and R.E. Menzer|Nature of Oxidative Metabolites of Dimethoate Formed in Rats, Liver Microsomes, and Bean Plants|J. Agric. Food Chem.18:698-704|1970|10.1021/jf60170a034
103166|T||Singh,A.K.|Kinetic Analysis of Acetylcholinesterase Inhibition by Combinations of Acephate and Methamidophos|Toxicology42(2-3): 143-156|1986|10.1016/0300-483X(86)90005-3
103167|T||Levinskas,G.J., W.E. Ribelin, and C.B. Shaffer|Acute and Chronic Toxicity of Pimaricin|Toxicol. Appl. Pharmacol.8(1): 97-109|1966|10.1016/0041-008X(66)90105-0
103169|T||Miles Inc.|Initial Submission:  Letter from Miles Inc. to U.S.EPA Submitting Results on S-(2-(Methyl-amino)-2-Oxoethyl) Phosphorothioate Enclosed Submission with Attachments|EPA/OTS Doc.#88-920005817:11 p.|1992|
103170|T||Greenfield,J., and C.H. Bigland|Translocation of Antibiotics in Developing Avian Embryos|Avian Dis.15(3): 572-580|1971|10.2307/1588734
103171|T||Sandercock,D.A.|Putative Nociceptor Responses to Mechanical and Chemical Stimulation in Skeletal Muscles of the Chicken Leg|Brain Res. Rev.46(2): 155-162|2004|10.1016/j.brainresrev.2004.07.020
103172|T||Arizzi,M.N., M. Correa, A.J. Betz, A. Wisniecki, and J.D. Salamone|Behavioral Effects of Intraventricular Injections of Low Doses of Ethanol, Acetaldehyde, and Acetate in Rats:  Studies with Low and High Rate Operant Schedules|Behav. Brain Res.147(1-2): 203-210|2003|10.1016/S0166-4328(03)00158-X
103173|T||Srivastava,R.K., A.K. Ghosh, S. Prakash, R. Shukla, R.C. Srimal, and B.N. Dhawan|Protective Effect of beta2-Adrenoceptor Agonists Against DDVP Toxicity in Mice|Eur. J. Pharmacol.97(3-4): 339-340|1984|10.1016/0014-2999(84)90474-6
103174|A||Wessel,N., S. Rousseau, X. Caisey, F. Quiniou, and F. Akcha|Investigating the Relationship Between Embryotoxic and Genotoxic Effects of Benzo[a]pyrene, 17alpha-Ethinylestradiol and Endosulfan on Crassostrea gigas Embryos|Aquat. Toxicol.85(2): 133-142|2007|10.1016/j.aquatox.2007.08.007
103176|T||Lairmore,M.D., A.F. Alexander, B.E. Powers, W.B. Milisen, A.E. Mcchesney, and T.S. Spraker|Oxytetracycline-Associated Nephrotoxicosis in Feedlot Calves|J. Am. Vet. Med. Assoc.185(7): 793-795|1984|
103177|T||Rindfleisch,J.|Aerial Application of Dibrom 14: Honey Bee Mortality in Relation to Hive Placement and Protection by Misting with Water|Am. Bee J.123(2): 121-122|1983|
103179|A||Rintamaki-Kinnunen,P., M. Rahkonen, A.L. Mannermaa-Keranen, L.R. Suomalainen, H. Mykra, and E.T. Valtonen|Treatment of Ichthyophthiriasis After Malachite Green. I. Concrete Tanks at Salmonid Farms|Dis. Aquat. Org.64(1): 69-76|2005|10.3354/dao064069
103180|A||Hamaker,T.L.|Effects of Endosulfan on Mysidopsis bahia|March 14th Memo to D.J.Hansen, U.S.EPA:3 p.|1980|
103181|T||Benford,D.J., S.C. Price, J.N. Lawrence, P. Grasso, and J.N. Bremmer|Investigations of the Genotoxicity and Cell Proliferative Activity of Dichlorvos in Mouse Forestomach|Toxicology92(1-3): 203-215|1992|10.1016/0300-483X(94)90178-3
103182|T||Koczanowski,B.|The Assessment of Acetylcholinesterase Activity in the Brain Stem and Muscles After Administering Reserpine and Dichlorvos to Animals|Acta Biol. Crac., Ser. Zool.39:49-55|1997|
103183|T||Teichert-Kuliszewska,K., J. Lawecki, and T. Szymczyk|Glycaemia and Insulinaemia Resulting from Dichlorvos Intoxication|Acta Med. Pol.22(4): 303-308|1981|
103184|T||Antonijevic,B., D. Bokonjic, M.P. Stojiljkovic, V. Kilibarda, Z.A. Milovanovic, M. Nedeljkovic, and M. Maksimovic|Efficacy of Trimedoxime in Mice Poisoned with Dichlorvos, Heptenophos or Monocrotophos|Basic Clin. Pharmacol. Toxicol.96(2): 111-117|2005|10.1111/j.1742-7843.2005.pto960204.x
103186|T||Badru,A.A., B.I. Kukoyi, and O.E. Ukponmwan|Some Effects of Zinc on Maternal and Fetal Intergrity in Pregnancy|Niger. J. Physiol. Sci.21(1-2): 91-97|2006|
103187|T||Wang,R., X. Zhu, F. Guo, W. Zhang, and Z. Jia|Influence of Different Dietary Levels of Zinc on Performance, Vitamin B12, and Blood Parameters in Lambs|Int. J. Vitam. Nutr. Res.76(6): 353-358|2006|10.1024/0300-9831.76.6.353
103188|T||Arda-Pirincci,P., S. Bolkent, and R. Yanardag|The Role of Zinc Sulfate and Metallothionein in Protection Against Ethanol-Induced Gastric Damage in Rats|Dig. Dis. Sci.51(12): 2353-2360|2006|10.1007/s10620-006-9301-3
103189|T||Ren,M., R. Rajendran, P. Ning, B.T.K. Huat, O.C. Nam, F. Watt, A. Jenner, and B. Halliwell|Zinc Supplementation Decreases the Development of Atherosclerosis in Rabbits|Free Radic. Biol. Med.41(2): 222-225|2006|10.1016/j.freeradbiomed.2006.03.017
103190|T||Hirashima,A., Y. Yoshii, and M. Eto|Action of 2-Aryliminothiazolidines on Octopamine-Sensitive Adenylate Cyclase in the American Cockroach Nerve Cord and on the Two-Spotted Spider Mite Tetranychus urticae Koch|Pestic. Biochem. Physiol.44(2): 101-107|1992|10.1016/0048-3575(92)90107-B
103191|T||Karoly,E.D., R.L. Rose, D.M. Thompson, E. Hodgson, G.C. Rock, and R.M. Roe|Monooxygenase, Esterase, and Glutathione Transferase Activity Associated With Azinphosmethyl Resistance in the Tufted Apple Bud Moth, Platynota idaeusalis|Pestic. Biochem. Physiol.55(2): 109-121|1996|10.1006/pest.1996.0040
103192|A||Liu,H., Q. Xu, L. Zhang, and N. Liu|Chlorpyrifos Resistance in Mosquito Culex quinquefasciatus|J. Med. Entomol.42(5): 815-820|2005|10.1093/jmedent/42.5.815
103193|T||Natsuhara,K., K. Shimada, T. Tanaka, and T. Miyata|Phenobarbital Induction of Permethrin Detoxification and Phenobarbital Metabolism in Susceptible and Resistant Strains of the Beet Armyworm Spodoptera exigua (Hubner)|Pestic. Biochem. Physiol.79(2): 33-41|2004|10.1016/j.pestbp.2004.04.002
103194|A||Fu,C., and W. Miao|Cloning and Characterization of a New Multi-Stress Inducible Metallothionein Gene in Tetrahymena pyriformis|Protist157(2): 193-203|2006|10.1016/j.protis.2006.02.006
103195|T||Jondreville,C., P. Schlegel, S. Hillion, A.M. Chagneau, and Y. Nys|Effects of Additional Zinc and Phytase on Zinc Availability in Piglets and Chicks Fed Diets Containing Different Amounts of Phytates|Livest. Sci.109(1-3): 60-62|2007|10.1016/j.livsci.2007.01.061
103196|T||Oliveira,E.C.S., M.R. Moura, V.A.,Jr. Silva, C.A. Peixoto, K.L.A. Saraiva, M.J. Cavalcanti de Sa, R.H. Douglas, and A.,|Intratesticular Injection of a Zinc-Based Solution as a Contraceptive for Dogs|Theriogenology68(2): 137-145|2007|10.1016/j.theriogenology.2007.03.026
103197|A||Liu,C.H., S.P. Yeh, P.Y. Hsu, and W. Cheng|Peroxinectin Gene Transcription of the Giant Freshwater Prawn Macrobrachium rosenbergii Under Intrinsic, Immunostimulant, and Chemotherapeutant Influences|Fish Shellfish Immunol.22(4): 408-417|2007|10.1016/j.fsi.2006.06.015
103198|A||El-Ansary,A., and L. Faddah|Comparative Metabolic Study of Three Potent Organophosphorus Insecticides on Biomphalaria alexandrina Snails|Egypt. J. Bilharz.15(1-2): 101-109|1993|
103199|T||Nguyen,S.N., C. Song, and M.E. Scharf|Toxicity, Synergism, and Neurological Effects of Novel Volatile Insecticides in Insecticide-Susceptible and -Resistant Drosophila Strains|J. Econ. Entomol.100(2): 534-544|2007|10.1603/0022-0493(2007)100[534:TSANEO]2.0.CO;2
103200|A||Holdway,D.A., J. Hefferman, and A. Smith|Multigeneration Assessment of Nonylphenol and Endosulfan Using a Model Australian Freshwater Fish, Melanotaenia fluviatilis|Environ. Toxicol.23(2): 253-262|2008|10.1002/tox.20329
103201|A||Palma,P., V.L. Palma, R.M. Fernandes, A.M.V.M. Soares, and I.R. Barbosa|Endosulfan Sulphate Interferes with Reproduction, Embryonic Development and Sex Differentiation in Daphnia magna|Ecotoxicol. Environ. Saf.72(2): 344-350|2007|10.1016/j.ecoenv.2008.04.018
103202|A||Giron-Perez,M.I., M. Montes-Lopez, L.A. Garcia-Ramirez, C.A. Romero-Banuelos, and M.L. Robledo-Marenco|Effect of Sub-lethal Concentrations of Endosulfan on Phagocytic and Hematological Parameters in Nile Tilapia (Oreochromis niloticus)|Bull. Environ. Contam. Toxicol.80(3): 266-269|2008|10.1007/s00128-008-9358-0
103203|A||Ramaneswari,K., and L.M. Rao|Influence of Endosulfan and Monocrotophos Exposure on the Activity of NADPH Cytochrome C Reductase (NCCR) of Labeo rohita (Ham)|J. Environ. Biol.29(2): 183-185|2008|
103205|A||Singh,P.B., and V. Singh|Endosulfan Induced Changes in Phospholipids in the Freshwater Female Catfish, Heteropneustes fossilis (Bloch)|J. Environ. Biol.28(3): 605-610|2007|
103206|A||Campero,M., S. Slos, F. Ollevier, and R. Stoks|Sublethal Pesticide Concentrations and Predation Jointly Shape Life History: Behavioral and Physiological Mechanisms|Ecol. Appl.17(7): 2111-2122|2007|10.1890/07-0442.1
103207|A||Ballesteros,M.L., G.E. Bianchi, M. Carranza, and M.A. Bistoni|Endosulfan Acute Toxicity and Histomorphological Alterations in Jenynsia multidentata (Anablepidae, Cyprinodontiformes)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(4): 351-357|2007|
103208|A||Chuah,T.S., J.Y. Loh, and Y.S. Hii|Acute and Chronic Effects of the Insecticide-Endosulfan on Freshwater Cladoceran, Moina macrocopa Straus|Bull. Environ. Contam. Toxicol.79(5): 557-561|2007|10.1007/s00128-007-9234-3
103209|A||Saravana Bhavan,P., and P. Geraldine|Biochemical Stress Responses in Tissues of the Prawn Macrobrachium malcomsonii on Exposure to Endosulfan|Pestic. Biochem. Physiol.70(1): 27-41|2001|10.1006/pest.2001.2531
103210|A||Xi,Y.L., Z.X. Chu, and X.P. Xu|Effect of Four Organochlorine Pesticides on the Reproduction of Freshwater Rotifer Brachionus calyciflorus pallas|Environ. Toxicol. Chem.26(8): 1695-1699|2007|10.1897/06-415R.1
103211|T||Cabaleiro,T., A. Caride, A. Romero, and A. Lafuente|Effects of In Utero and Lactational Exposure to Endosulfan in Prefrontal Cortex of Male Rats|Toxicol. Lett.176(1): 58-67|2008|10.1016/j.toxlet.2007.10.007
103212|A||Perez,D.J., M.L. Menone, E.L. Camadro, and V.J. Moreno|Genotoxicity Evaluation of the Insecticide Endosulfan in the Wetland Macrophyte Bidens laevis L.|Environ. Pollut.153(3): 695-698|2008|10.1016/j.envpol.2007.09.014
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103221|T||Beldomenico,P.M., F. Rey, W.S. Prado, J.C. Villarreal, M. Munoz-de-Toro, and E.H. Luque|In Ovum Exposure to Pesticides Increases the Egg Weight Loss and Decreases Hatchlings Weight of Caiman latirostris (Crocodylia:  Alligatoridae)|Ecotoxicol. Environ. Saf.68(2): 246-251|2007|10.1016/j.ecoenv.2006.12.018
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103263|T||Hiremath,M.B., and B.B. Kaliwal|Effect of Endosulfan on Ovarian Compensatory Hypertrophy in Hemicastrated Albino Mice|Reprod. Toxicol.16(6): 783-790|2002|10.1016/S0890-6238(02)00060-6
103264|T||Su,Y.H., Y.G. Zhu, A.J. Lin, and X.H. Zhang|Effects of Exposure Time and Co-Existing Organic Compounds on Uptake of Atrazine from Nutrient Solution by Rice Seedlings (Oryza sativa L.)|J. Hazard. Mater.141(1): 223-229|2007|10.1016/j.jhazmat.2006.06.115
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103266|A||Muller,R., U. Schreiber, B.I. Escher, P. Quayle, S.M.B. Nash, and J.F. Mueller|Rapid Exposure Assessment of PSII Herbicides in Surface Water Using a Novel Chlorophyll a Fluorescence Imaging Assay|Sci. Total Environ.401(1-3): 51-59|2008|10.1016/j.scitotenv.2008.02.062
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103281|T||Baumans,V., R. Havenaar, H. Van Herck, and T.P. Rooymans|The Effectiveness of Ivomec and Neguvon in the Control of Murine Mites|Lab. Anim. (Lond.)22(3): 243-245|1988|10.1258/002367788780746368
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103287|T||Zhao,G., R.L. Rose, E. Hodgson, and R.M. Roe|Biochemical Mechanisms and Diagnostic Microassays for Pyrethroid, Carbamate, and Organophosphate Insecticide Resistance/Cross-Resistance in the Tobacco Budworm, Heliothis virescens|Pestic. Biochem. Physiol.56(3): 183-195|1996|10.1006/pest.1996.0072
103288|T||Anspaugh,D.D., G.G. Kennedy, and R.M. Roe|Purification and Characterization of a Resistance-Associated Esterase from the Colorado Potato Beetle, Leptinotarsa decemlineata (Say)|Pestic. Biochem. Physiol.53(2): 84-96|1995|10.1006/pest.1995.1057
103289|T||Tanigoshi,L.K., and T.A. Murray|Flea Beetle Control in Canola, 1994|Arthropod Manag. Tests20:158-|1995|
103290|T||Shamiyeh,N.B., E.E. Burgess, and R.A. Follum|Control of Tobacco Aphids in Burley Tobacco, 1998|Arthropod Manag. Tests24:315-316|1999|
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103299|T||Ismail,F., and D.J. Wright|Synergism of Teflubenzuron and Chlorfluazuron in an Acylurea-Resistant Field Strain of Plutella xylostella L. (Lepidoptera:  Yponomeutidae)|Pestic. Sci.34(3): 221-226|1992|10.1002/ps.2780340306
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103436|A||Maw,M.G.|Capric Acid as a Larvicide and an Oviposition Stimulant for Mosquitoes|Nature227(5263): 1154-1155|1970|10.1038/2271154a0
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103455|A||Devi,K.V.L.|The Effects of Turbidity and of Light on the Toxicity of Two Rotenone Formulations to the Fathead Minnow|Diss. Abstr. Int. :6 p.|1962|
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103474|T||Taneja,S.K., R. Mandal, and S. Girhotra|Long Term Excessive Zn-Supplementation Promotes Metabolic Syndrome-X in Wistar Rats Fed Sucrose and Fat Rich Semisynthetic Diet|Indian J. Exp. Biol.44(9): 705-718|2006|
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103512|A||Soso,A.B., L.J.G. Barcellos, M.J. Ranzani-Paiva, L.C. Kreutz, R.M. Quevedo, D. Anziliero, M. Lima, L.B. Da Silva, F. Ri|Chronic Exposure to Sub-lethal Concentration of a Glyphosate-Based Herbicide Alters Hormone Profiles and Affects Reproduction of Female Jundia (Rhamdia quelen)|Environ. Toxicol. Pharmacol.23(3): 308-313|2007|10.1016/j.etap.2006.11.008
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103516|T||Kamboj,A., and R. Sandhir|Perturbed Synaptosomal Calcium Homeostasis and Behavioral Deficits Following Carbofuran Exposure:  Neuroprotection by N-Acetylcysteine|Neurochem. Res.32(3): 507-516|2007|10.1007/s11064-006-9264-y
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103522|T||C-D-I-C Society for Paint Technology|Three-Year Study of Mildew Growth on Coated Surfaces|J. Paint Technol.43(554): 76-80|1971|
103523|T||Drisko,R.W., and J.B. Crilly|Control of Algal Growth on Paints at Tropical Locations|J. Paint Technol.46(595): 48-55|1974|
103524|T||Kunstman,J.L., and E.P. Lichtenstein|Effects of Plant Pathogens on the Fate of Soil-Applied (14C)Carbofuran in Corn Plants|J. Econ. Entomol.76(5): 1014-1021|1983|10.1093/jee/76.5.1014
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103526|T||Rajkkannu,K., and K.K. Krishnamoorthy|Uptake and Persistence of Phorate and Carbofuran in I.R. 20 Rice|Riso28(4): 339-343|1979|
103527|T||Lambkin,T.A., and S.J. Rice|Baseline Responses of Alphitobius diaperinus (Coleoptera:  Tenebrionidae) to Spinosad, and Susceptibility of Broiler Populations in Eastern and Southern Australia|J. Econ. Entomol.100(4): 1423-1427|2007|10.1093/jee/100.4.1423
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103529|T||Modak,A.T., W.B. Stavinoha, and S.T. Weintraub|Dichlorvos and the Cholinergic System:  Effects on Cholinesterase and Acetylcholine and Choline Contents of Rat Tissues|Arch. Int. Pharmacodyn. Ther.217(2): 293-301|1975|
103530|T||Singh,R.M., A.K. Singh, R.B. Singh, J. Singh, and B.D. Singh|Chlorophyll Mutations Induced by Seed Treatment with Certain Insecticides in Barley Hordeum vulgare|Indian J. Exp. Biol.18(12): 1396-1397|1980|
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103535|T||Drudge,J.H., and E.T. Lyons|Critical Tests of a Resin-Pellet Formulation of Dichlorvos Against Internal Parasites of the Horse|Am. J. Vet. Res.33(7): 1365-1375|1972|
103536|T||Bello,T.R., G.F. Amborski, and B.J. Torbert|Effects of Organic Phosphorus Anthelmintics on Blood Cholinesterase Values in Horses and Ponies|Am. J. Vet. Res.35(1): 73-78|1974|
103537|T||Poeschel,G.P., and A.C. Todd|Controlled Evaluation of Formulated Dichlorvos for Use in Cattle|Am. J. Vet. Res.33(5): 1071-1074|1972|
103538|T||Hasan,M., S.C. Maitra, and S.F. Ali|Organophosphate Pesticide DDVP-Induced Alterations in the Rat Cerebellum and Spinal Cord - an Electron Microscopic Study|Exp. Pathol.  (Jena)17(2): 88-94|1979|
103539|T||Hsu,W.H.|Drug Interactions of Levamisole with Pyrantel Tartrate and Dichlorvos in Pigs|Am. J. Vet. Res.42(11): 1912-1914|1981|
103540|T||Brown,J.R., C.R. Rutledge, W. Reynolds, and D.A. Dame|Impact of Low Aerial Application Rates of Dibrom 14 on Potential Vectors|Am. Mosq. Control Assoc. J.22(1): 87-92|2006|10.2987/8756-971X(2006)22[87:IOLAAR]2.0.CO;2
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103544|T||Dambska,M., L. Iwanowski, D. Maslinska, and M. Ostenda|Blood-Brain Barrier in Young Rabbit Brain After Dichlorvos Intoxication|Neuropatol. Pol.22(1): 129-137|1984|
103545|T||Haseeb,A., A. Sharma, and P.K. Shukla|Studies on the Management of Root-Knot Nematode, Meloidogyne incognita-Wilt Fungus, Fusarium oxysporum Disease Complex of Green Gram, Vigna radiata cv ML-1108|J. Zhejiang Univ., Sci. B6B(8): 736-742|2005|10.1631/jzus.2005.B0736
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103549|AT||Kumar,S., V. Sharma, R.V. Bhoyar, J.K. Bhattacharyya, and T. Chakrabarti|Effect of Heavy Metals on Earthworm Activities During Vermicomposting of Municipal Solid Waste|Water Environ. Res.80(2): 154-161|2008|10.1002/j.1554-7531.2008.tb00339.x
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103582|T||Bell,T.G., R.K. Farrell, G.A. Padgett, and L.W. Leendertsen|Ataxia, Depression, and Dermatitis Associated with the Use of Dichlorvos-Impregnated Collars in the Laboratory Cat|J. Am. Vet. Med. Assoc.167(7): 579-586|1975|
103583|T||Nicolau,G.Y.|Circadian Rhythms of RNA, DNA and Protein in the Rat Thyroid, Adrenal and Testis in Chronic Pesticide Exposure.  III.  Effects of the Insecticides (Dichlorvos and Trichlorphon)|Physiologie20(2): 93-101|1983|
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103588|T||Pachecka,J., K. Grzadkowska, and K. Gajewski|The Activity of Plasma Phosphatases in Rats Treated with Single Doses of Dichlorvos and Trichlorphon|Acta Physiol. Pol.31(5): 555-559|1980|
103589|T||Nakamura,J., T. Miwa, H. Sasaki, J. Shibasaki, and H. Kaneto|Effect of Straight Chain Fatty Acids on Seizures Induced by Picrotoxin and Pentylenetetrazole in Mice|J. Pharmacobio-Dyn.13(1): 76-81|1990|10.1248/bpb1978.13.76
103590|T||Szubartowska,E.|Peripheral Blood Picture in Rabbits Poisoned by the Pesticide Trichlorfon|Folia Biol. (Krakow)31(4): 407-418|1983|
103591|T||Tewari,R.K., and Y.K. Mathur|Loss of Water in the Adults of Pyrilla perpusilla Wlk. (Lophopidae: Homoptera) Treated with Insecticides|Z. Angew. Zool. (Multiple Languages)71(4): 399-404|1985|
103592|T||Sinha,N., R. Narayan, R. Shanker, and D.K. Saxena|Endosulfan-Induced Biochemical Changes in the Testis of Rats|Vet. Hum. Toxicol.37(6): 547-549|1995|
103593|T||Zaidi,N.F., A.K. Agrawal, M. Anand, and P.K. Seth|Neonatal Endosulfan Neurotoxicity:  Behavioral and Biochemical Changes in Rat Pups|Neurobehav. Toxicol. Teratol.7(5): 439-442|1985|
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103597|T||All,A.A., G.F. Antonious, M.M. Khattab, and M.A.S. Othman|Analysis of Carbofuran Residues and Metabolites on Faba Beans (Vicia faba) in Relation to Quality Related Properties|Alex. Sci. Exch.9(3): 221-241|1988|
103598|T||Miyamoto,J.|Mechanism of Low Toxicity of Sumithion Toward Mammals|Residue Rev.25:251-265|1969|
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103600|T||Yule,W.N.|The Persistence and Fate of Fenitrothion Insecticide in a Forest Environment.  II.  Accumulation of Residues in Balsam Fir Foliage|Bull. Environ. Contam. Toxicol.12(2): 249-252|1974|10.1007/BF01684970
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103602|T||Cockrell,B.Y., B.V. Hall, and J. Simon|Morphometric Analysis of Anthelmintic- and Prednisolone-Induced Alterations in the Ultrastructure of Beagle Liver Parenchymal Cells|Am. J. Vet. Res.33(4): 687-698|1972|
103603|T||Wei,Y.C., Y.l. Bai, J.Y. Jin, L.P. Yang, Z. Yao, S.X. Xu, G.A. Luo, W. Song, and C.M. Zhu|Sufficiency and Deficiency Indices of Soil Available Zinc for Rice in the Alluvial Soil of the Coastal Yellow Sea|Rice Sci.14(3): 223-228|2007|10.1016/S1672-6308(07)60031-6
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103608|T||Holmes,S.B., and P.T. Boag|Effects of the Organophosphorus Pesticide Fenitrothion on Behavior and Reproduction in Zebra Finches|Environ. Res.53(1): 62-75|1990|10.1016/S0013-9351(05)80130-6
103609|T||Szubartowska,E., and K. Gromysz-Kalkowska|Blood Morphology in Quails After Poisoning with Fenitrothion|Comp. Biochem. Physiol. C Comp. Pharmacol.101(2): 263-267|1992|10.1016/0742-8413(92)90271-8
103610|T||Busby,D.G., P.A. Pearce, and N.R. Garrity|Effect of Ultra ULV Fenitrothion Spraying on Brain Cholinesterase Activity in Forest Songbirds|Bull. Environ. Contam. Toxicol.39(2): 304-311|1987|10.1007/BF01689422
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103612|T||Ali,S.F., M. Hasan, and M. Tariq|Levels of Dopamine, Norepinephrine & 5-Hydroxytryptamine in Different Regions of Rat Brain & Spinal Cord Following Chronic Administration of Organophosphate Pesticide Dichlorvos|Indian J. Exp. Biol.17(4): 424-426|1979|
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103617|T||Padilla,S., J. Buzzard, and V.C. Moser|Comparison of the Role of Esterases in the Differential Age-Related Sensitivity to Chlorpyrifos and Methamidophos|Neurotoxicology21(1/2): 49-56|2000|
103618|T||Das,P.K., T. Mariappan, and N. Somachary|Contact and Vapour Toxicity of Bendiocarb and Pirimiphosmethyl Against Culex quinquefasciatus and Anopheles stephensi|Indian J. Med. Res.74:380-384|1981|
103619|T||Wilcox,J.C., M.T. Healy, and J.B. Zedler|Restoring Native Vegetation to an Urban Wet Meadow Dominated by Reed Canarygrass (Phalaris arundinacea L.) in Wisconsin|Nat. Areas J.27(4): 354-365|2007|10.3375/0885-8608(2007)27[354:RNVTAU]2.0.CO;2
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103625|T||Michalek,H., and W.B. Stavinoha|Differential Dose-Dependent Inhibition of Acetylcholine and Butyrylcholine Hydrolysis in Rat Brain by Dichlorvos:  Potentiation of Dichlorvos Effects by Chlorpromazine|Proc. Eur. Soc. Toxicol.18:258-261|1977|
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103629|T||Owczarczyk,H., D. Gajewski, and T. Kisielinski|Effect of Preceding Physostigmine Administration on Neuromuscular Transmission Disturbances in Rats Caused by Dichlorphos and Phospholine|Acta Physiol. Pol.31(4): 431-438|1980|
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103663|T||Hillesheim,E., W. Ritter, and D. Bassand|First Data on Resistance Mechanisms of Varroa jacobsoni (Oud.) Against Tau-Fluvalinate|Exp. Appl. Acarol.20(5): 283-296|1996|10.1007/BF00052878
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103670|T||Shankar,N., V. Radhakrishnan, S. Datta, and K.N. Sharma|Chemically Induced Cardiorespiratory Reflexes Arising from the Gut Serosa of Dogs|Indian J. Exp. Biol.25(12): 848-852|1987|
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103672|T||Jeffay,S.C., B.L. Libbus, R.R. Barbee, and S.D. Perreault|Acute Exposure of Female Hamsters to Carbendazim (MBC) During Meiosis Results in Aneuploid Oocytes with Subsequent Arrest of Embryonic Cleavage and Implantation|Reprod. Toxicol.10(3): 183-189|1996|10.1016/0890-6238(96)00020-2
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103677|T||Peterson,D.V., C.A. Mullins, D.A. Lietzke, and D.E. Deyton|Effects of Soil-Applied Elemental Sulfur, Aluminum Sulfate, and Sawdust on Growth of Rabbiteye Blueberries|J. Am. Soc. Hortic. Sci.112(4): 612-616|1987|10.21273/JASHS.112.4.612
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103679|T||Ryhanen,R., P. Honkakoski, M. Harri, P. Ylitalo, and O. Hanninen|Effect of the Cold Environment on Organophosphate Toxicity and Inhibition of Cholinesterase Activity|Gen. Pharmacol.19(5): 741-745|1988|10.1016/0306-3623(88)90139-5
103680|A||Rettich,F.|Use of Granulated Fertilizers with Actellic EC 50 Insecticide in the Control of Mosquito Larvae|J. Hyg. Epidemiol. Microbiol. Immunol.25(1): 6-11|1981|
103681|T||Ganje,T.J.|The Role of Anions in Influencing the Accumulation and Distribution of Selenium 75, Phosphorus 32 and Sulfur 35 in the Leaves of Wheat Seedlings|M.S.Thesis, South Dakota State University, Brookings, SD:89 p.|1959|
103682|T||Smith,H., G.N. Stradling, R.A. Bulman, and G.J. Ham|Experimental Studies on the Use of Citrate to Enhance the Urinary Excretion of Plutonium in Rat|Health Phys.30(3): 318-320|1976|
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103779|A||Forcella,M., E. Berra, R. Giacchini, B. Rossaro, and P. Parenti|Increased Alanine Concentration is Associated with Exposure to Fenitrothion but not Carbamates in Chironomus riparius Larvae|Ecotoxicol. Environ. Saf.66(3): 326-334|2007|10.1016/j.ecoenv.2006.10.015
103780|T||Rosival,L., M. Vargova, J. Szokolayova, K. Cerey, A. Hladka, V. Batora, J. Kovacicova, and S. Truchlik|Contribution to the Toxic Action of S-Methyl Fenitrothion|Pestic. Biochem. Physiol.6(3): 280-286|1976|10.1016/0048-3575(76)90071-7
103781|A||Hughes,J.S., J.S. Reed, and S.K. Krishnaswami|The Toxicity of Atrazine, Lot No. FL-850612, to Four Species of Aquatic Plants|Final Rep.from Malcom Pirnie, Inc.to Giba-Geigy Corp., Greensboro, NC: MRID No.410652-03, U.S.EPA, Duluth, MN:71 p.|1986|
103782|AT||Booth,G.M.|The Usefulness of Model Ecosystems in Insecticide Development|Environ. Qual. Saf.3:351-358|1975|
103783|T||Kant,P., S. Kant, M. Gordon, R. Shaked, and S. Barak|Stress Response Suppressor1 and Stress Response Suppressor2, Two DEAD-Box RNA Helicases that Attenuate Arabidopsis Responses to Multiple Abiotic Stresses|Plant Physiol.145(3): 814-830|2007|10.1104/pp.107.099895
103784|T||Yu,J.N., J. Huang, Z.N. Wang, J.S. Zhang, and S.Y. Chen|An Na+/H+ Antiporter Gene from Wheat Plays an Important Role in Stress Tolerance|J. Biosci.32(6): 1153-1161|2007|10.1007/s12038-007-0117-x
103785|T||Jung,C., J.S. Seo, S.W. Han, Y.J. Koo, C.H. Kim, S.I. Song, B.H. Nahm, Y.D. Choi, and J.J. Cheong|Overexpression of AtMYB44 Enhances Stomatal Closure to Confer Abiotic Stress Tolerance in Transgenic Arabidopsis|Plant Physiol.146(2): 623-635|2008|10.1104/pp.107.110981
103786|T||Zuo,K.J., J. Qin, J.Y. Zhao, H. Ling, L.D. Zhang, Y.F. Cao, and K.X. Tang|Over-Expression GbERF2 Transcription Factor in Tobacco Enhances Brown Spots Disease Resistance by Activating Expression of Downstream Genes|Gene391(1-2): 80-90|2007|10.1016/j.gene.2006.12.019
103787|T||Fresneau,C., J. Ghashghaie, and G. Cornic|Drought Effect on Nitrate Reductase and Sucrose-Phosphate Synthase Activities in Wheat (Triticum durum L.):  Role of Leaf Internal CO2|J. Exp. Bot.58(11): 2983-2992|2007|10.1093/jxb/erm150
103788|T||Liu,C., and M.C. Mehdy|A Nonclassical Arabinogalactan Protein Gene Highly Expressed in Vascular Tissues, AGP31, is Transcriptionally Repressed by Methyl Jasmonic Acid in Arabidopsis|Plant Physiol.145(3): 863-874|2007|10.1104/pp.107.102657
103789|T||Brogdon,W.G., R.F. Beach, A.M. Barber, and C. Cordon-Rosales|A Generalized Approach to Detection of Organophosphate Resistance in Mosquitoes|Med. Vet. Entomol.6(2): 110-114|1992|10.1111/j.1365-2915.1992.tb00585.x
103790|T||Bar-Zeev,M., and P. Bracha|A Village-Scale Trial with the Insecticides Carbaryl and Folithion in Southern Nigeria|Bull. W. H. O.33(4): 461-470|1965|
103791|T||Dambska,M., and D. Maslinska|Morphological Changes After Acetylcholinesterase (AChE) Inhibition by Dichlorvos (DDVP) in Young Rabbit Brain|J. Hirnforsch.29(5): 569-571|1988|
103792|T||Valecha,N., S. Prabhu, and V.L. Mehta|Influence of Clonidine, Methyldopa and Propranolol on Acute Toxicity of Fenitrothion in Mice|Indian J. Physiol. Pharmacol.34(1): 39-41|1990|
103793|T||Pant,C.P., and H.L. Mathis|Residual Effectiveness of ULV Aerosols Against Aedes aegypti in Bangkok:  A Study of Sumithion and Malathion Applied by a Portable ULV Machine|Southeast Asian J. Trop. Med. Public Health4(2): 231-237|1973|
103794|T||Kingsbury,P.D., and B.B. McLead|The Impact of Spruce Budworm (Choristonuera fumiferana clemens) Control Operations Involving Sequential Insecticide Applications upon Forest Avifauna in the Lower St. Lawrence Region of Quebec|For.Pest Manag.Inst.Rep.No.FPM-X-34:64 p.|1980|
103795|T||Singh,P., R.S. Bhandari, M. Fasih, G. Prasad, B.D.S. Tyagi, B.M. Mishra, and R.K. Mishra|Epidemic of Deodar Defoliator Ectropis deodarae Prout (Lepidoptera:  Geometridae) in Kamraj Forest Division (J & K) and Its Control by Aerial Spraying of Fenitrothion|Indian For.115(7): 459-474|1989|
103796|T||Hoffmann,E., R.K. Hill, and A. Saracz|Fungus-Resistant Paints for Breweries and the Humid Tropics|J. Oil Colour Chem. Assoc.56(1): 17-27|1973|
103797|T||Hoffman,E., R.K. Hill, and J.R. Barned|Fungus-Resistant Paints for the Humid Tropics|J. Oil Colour Chem. Assoc.59(2): 62-68|1976|
103798|A||Fairchild,W.L., D.C. Eidt, and C.A.A. Weaver|Effects of Fenitrothion Insecticide on Inhabitants of Leaves of the Pitcher Plant, Sarracenia purpurea L.|Can. Entomol.119(7-8): 647-652|1987|10.4039/Ent119647-7
103800|T||Mechant,E., and R. Bulcke|Metamitron-Resistant Chenopodium album from Sugar Beet:  Cross-Resistance Profile|Commun. Agric. Appl. Biol. Sci.71(3A): 725-732|2006|
103801|T||Imaishi,H., and M. Petkova-Andonova|Molecular Cloning of CYP76B9, a Cytochrome P450 from Petunia hybrida, Catalyzing the omega-Hydroxylation of Capric Acid and Lauric Acid|Biosci. Biotechnol. Biochem.71:104-113|2007|10.1271/bbb.60396
103802|A||Segnini de Bravo,M.I., J. Medina, S. Marcano, H.J. Finol, and A. Boada-Sucre|Effects of Herbicide on the Kidneys of Two Venezuelan Cultured Fish:  Caquetaia kraussii and Colossoma macropomum (Pisces:  Ciclidae and Characeae)|Rev. Biol. Trop.53(suppl. 1): 55-60|2005|
103803|A||Sarojini,R., B.S. Yadav, and R. Nagabhushanam|Changes in Ascorbic Acid Levels in Tissues of Freshwater Prawn, Caridina weberi After Lethal Exposure to Endosulfan|Uttar Pradesh J. Zool.10(2): 137-139|1990|
103804|T||Varma,G.C., M. Shenhmar, and K.S. Brar|Studies of the Effect of Insecticides on Trichogramma achaeae Nagaraja and Nagarkatti (Hymenoptera:  Trichogrammatidae)|J. Biol. Control2(1): 5-8|1988|
103809|A||Schimmel,S.C.|Results of Toxicity Tests Conducted with Cyanide at ERL, Narragansett|U.S.EPA, Narragansett, RI, (Memo to John H.Gentile, U.S.EPA, Narragansett, RI):2 p.|1981|
103810|T||Yu,X., S. Trapp, and P. Zhou|Phytotoxicity of Cyanide to Weeping Willow Trees|Environ. Sci. Pollut. Res.12(2): 109-113|2005|10.1065/espr2005.02.237
103811|A||Schreier,T.M., J.J. Rach, and G.E. Howe|Efficacy of Formalin, Hydrogen Peroxide, and Sodium Chloride on Fungal-Infected Rainbow Trout Eggs|Aquaculture140:323-331|1996|10.1016/0044-8486(95)01182-X
103812|A||Sarma,S.S.S., S. Nandini, J. Morales-Ventura, I. Delgado-Martinez, and L. Gonzalez-Valverde|Effects of NaCl Salinity on the Population Dynamics of Freshwater Zooplankton (Rotifers and Cladocerans)|Aquat. Ecol.40:349-360|2006|10.1007/s10452-006-9039-1
103813|T||Huang,Z., Q. Zheng, X. Wu, Z. Su, H.J. Xu, Y. Tan, W. Feng, X. Li, and L. Cai|Enhanced Protection of Modified Human Acidic Fibroblast Growth Factor with Polyethylene Glycol Against Ischemia/Reperfusion-Induced Retinal Damage in Rats|Toxicol. Lett.170(2): 146-156|2007|10.1016/j.toxlet.2007.03.001
103814|T||Ito,N., R. Hasegawa, T. Shirai, S. Fukushima, K. Hakoi, K. Takaba, S. Iwasaki, K. Wakabayashi, M. Nagao, and T. Sugimur|Enhancement of GST-P Positive Liver Cell Foci Development by Combined Treatment of Rats with Five Heterocyclic Amines at Low Doses|Carcinogenesis12:767-772|1991|10.1093/carcin/12.5.767
103815|T||Holm,L., A. Blomqvist, I. Brandt, B. Brunstrom, Y. Ridderstrale, and C. Berg|Embryonic Exposure to O,P'-DDT Causes Eggshell Thinning and Altered Shell Gland Carbonic Anhydrase Expression in the Domestic Hen|Environ. Toxicol. Chem.25(10): 2787-2793|2006|10.1897/05-619R.1
103817|AT||Vollner,L., R. Kutscher, J. Dombovari, and M. Oncsik|Distribution and Metabolism of Carbofuran in Paddy Rice from Controlled Release Formulations|In: Pesticides: Food and Environmental Implication. Vienna, International Atomic Energy Agency:257-266|1988|
103818|A||Han,Y.S., M.T. Brown, G.S. Park, and T. Han|Evaluating Aquatic Toxicity by Visual Inspection of Thallus Color in the Green Macroalga Ulva: Testing a Novel Bioassay|Environ. Sci. Technol.41(10): 3667-3671|2007|10.1021/es062158a
103819|A||Sun,J., J. Gan, and Y. Zhang|Fate of 14C-Carbofuran in Model Rice/Fish and Rice/Fish/Azolla Ecosystems|In: Pesticides: Food and Environmental Implication. Vienna, International Atomic Energy Agency:235-245|1988|
103820|T||Fulzele,S.V., R.J. Babu, E. Ahaghotu, and M. Singh|Estimation of Proinflammatory Biomarkers of Skin Irritation by Dermal Microdialysis Following Exposure with Irritant Chemicals|Toxicology237(1-3): 77-88|2007|10.1016/j.tox.2007.05.005
103821|T||Engwall,M., B. Brunstrom, and E. Jakobsson|Ethoxyresorufin O-Deethylase (EROD) and Aryl Hydrocarbon Hydroxylase (AHH)-Inducing Potency and Lethality of Chlorinated Naphthalenes in Chicken (Gallus domesticus) and Eider Duck (Somateria mollissima) Embryos|Arch. Toxicol.68(1): 37-42|1994|
103823|T||Kitchin,K.T., and J.L. Brown|Biochemical Studies of Promoters of Carcinogenesis in Rat Liver|Teratog. Carcinog. Mutagen.9(5): 273-285|1989|10.1002/tcm.1770090503
103824|T||Eraslan,G., S. Saygi, D. Essiz, A. Aksoy, H. Gul, and E. Macit|Evaluation of Aspect of Some Oxidative Stress Parameters Using Vitamin E, Proanthocyanidin and N-Acetylcysteine Against Exposure to Cyfluthrin in Mice|Pestic. Biochem. Physiol.88(1): 43-49|2007|10.1016/j.pestbp.2006.08.010
103825|T||DuRant,S.E., W.A. Hopkins, and L.G. Talent|Energy Acquisition and Allocation in an Ectothermic Predator Exposed to a Common Environmental Stressor|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 442-448|2007|10.1016/j.cbpc.2007.01.014
103826|T||Chappell,G.F., and D.A.,Jr. Herbert|Evaluation of At-Planting and Fall Insecticide Treatments for Aphid Control, Impact on Barley Yellow Dwarf Virus Symptoms, and Wheat Yield in Conventional and No-Till Systems, 1998|Arthropod Manag. Tests24:321-322|1999|10.1093/amt/24.1.F142
103827|T||Wasti,S.S., F.R. Shaw, and C.T. Smith|Detection of Residues of Rabon in Manure of Rhode Island Red Hens|J. Econ. Entomol.63(4): 1355-1356|1970|
103828|T||Brzoska,M., K. Majewska, and J. Moniuszko-Jakoniuk|Weakness in the Mechanical Properties of the Femurs of Growing Female Rats Exposed to Cadmium; ERRATUM Weakness in the Mechanical Properties of the Femur of Growing Female Rats Exposed to Cadmium|Arch. Toxicol.79:519-530|2005|
103829|T||Jayashree,I.V., K.K. Vijayalaxmi, and M.A. Rahiman|The Genotoxicity of Hinosan, an Organophosphorus Pesticide in the In Vivo Mouse|Mutat. Res.322(2): 77-85|1994|10.1016/0165-1218(94)00011-5
103830|T||Hurwood,I.S.|Studies on Pesticide Residues.  1.  Excretion of Pesticides in Milk Following Dermal Treatment of Dairy Cattle with Coumaphos and Dioxathion|Qld. J. Agric. Anim. Sci.23(4): 555-562|1967|
103831|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Fall Armyworm, European Corn Borer and Bollworm on Cotton in Southern North Carolina, 1993|Arthropod Manag. Tests19:219-|1994|10.1093/amt/19.1.219
103832|A||Elangovan,R., C.R. McCrohan, S. Ballance, J.J. Powell, and K.N. White|Localization and Fate of Aluminium in the Digestive Gland of the Freshwater Snail Lymnaea stagnalis|Tissue Cell32(1): 79-87|2000|10.1054/tice.1999.0089
103834|T||Dorough,H.W., U.E.,Jr. Brady, J.A. Timmerman, and B.W. Arthur|Residues in Tissues and Eggs of Poultry Receiving Co-Ral (Bayer 21/199) in the Feed|J. Econ. Entomol.54:97-100|1961|10.1093/jee/54.1.97
103836|T||Shmidl,J.A., D.D. Cox, and J.O. Mozier|Toxicology Studies Conducted in Laboratory Animals and Cattle with a Coumaphos Flowable Formulation|Vet. Hum. Toxicol.24(2): 87-90|1982|
103837|AT||Zhou,Q., Y. Cheng, Q. Zhang, and J. Liang|Quantitative Analyses of Relationships Between Ecotoxicological Effects and Combined Pollution|Sci. China Ser. C, Life Sci.47(4): 332-339|2004|10.1360/03yc0042
103838|AT||Montella,I.R., A.J. Martins, P.F. Viana-Medeiros, J.B.P. Lima, I.A. Braga, and D. Valle|Insecticide Resistance Mechanisms of Brazilian Aedes aegypti Populations from 2001 to 2004|Am. J. Trop. Med. Hyg.77(3): 467-477|2007|10.4269/ajtmh.2007.77.467
103839|T||Komarkova,A., I. Bilyk, Z. Zahor, and V. Czabanova|Thyrocalcitonin and Citric Acid|Experientia26(2): 196-198|1970|10.1007/BF01895580
103840|A||Thornton,K.W., and J.L. Wilhm|The Use of Life Tables in Demonstrating the Effects of pH, Phenol, and NaCl on Chironomus attenuatus Populations|Environ. Entomol.4:325-328|1975|10.1093/ee/4.2.325
103841|AT||Barredo-Medina,M.J., S.M.F. Calumpang, A.W. Tejada, J.R. Medina, and E.D. Magallona|Fate of Chlopyrifos in a Model Rice-Fish Ecosystem|Tech. Doc. Int. Atomic Energy Agency695:83-93|1993|
103842|T||Musser,F.R., and A.M. Shelton|The Influence of Post-Exposure Temperature on the Toxicity of Insecticides to Ostrinia nubilalis (Lepidoptera: Crambidae)|Pest Manag. Sci.61(5): 508-510|2005|10.1002/ps.998
103843|T||Murphy,A., and L. Taiz|Correlation Between Potassium Efflux and Copper Sensitivity in 10 Arabidopsis Ecotypes|New Phytol.136(2): 211-222|1997|10.1046/j.1469-8137.1997.00738.x
103844|T||Lin,G., Y.Y. Cui, and X.Q. Liu|Gender Differences in Microsomal Metabolic Activation of Hepatotoxic Clivorine in Rat|Chem. Res. Toxicol.16(6): 768-774|2003|10.1021/tx0340302
103845|T||Chang,Y.S., and H.C. Chen|Variability Between Silver Thiosulfate and 1-Naphthaleneacetic Acid Applications in Prolonging Bract Longevity of Potted Bougainvillea|Sci. Hortic.87(3): 217-224|2001|10.1016/S0304-4238(00)00179-5
103847|T||Smirle,M.J., D.T. Lowery, and C.L. Zurowski|Chemical Residues and Bioactivity of Tebufenozide Applied to Apple Foliage|Pest Manag. Sci.60(11): 1137-1142|2004|10.1002/ps.929
103848|T||Trapp,S., G. Ciucani, and M. Sismilich|Toxicity of Tributyltin to Willow Trees|Environ. Sci. Pollut. Res.11(5): 327-330|2004|10.1007/BF02979647
103849|T||Miller,R.W., C.H. Gordon, N.O. Morgan, M.C. Bowman, and M. Beroza|Coumaphos as a Feed Additive for the Control of House Fly Larvae in Cow Manure|J. Econ. Entomol.63(3): 853-855|1970|10.1093/jee/63.3.853
103850|T||Taylor,S.I., and F. Levy|Responses to Soils and a Test for Preadaptation to Serpentine in Phacelia dubia (Hydrophyllaceae)|New Phytol.155(3): 437-447|2002|10.1046/j.1469-8137.2002.00478.x
103851|T||Pastor,J., A.J. Hernandez, N. Prieto, and M. Fernandez-Pascual|Accumulating Behaviour of Lupinus albus L. Growing in a Normal and a Decalcified Calcic luvisol Polluted with Zn|J. Plant Physiol.160(12): 1457-1465|2003|10.1078/0176-1617-01007
103852|A||Adekoya,B.B.|Chemical Control of Water Hyacinth (Eichhornia crassipes) at Ere, Ogun State, Nigeria: Implications for Aquatic and Terrestrial Biodiversity Conservation|In: B.M.B.Ladu, K.Kusemiju and F.Daddy (Eds.), Nigerian-German (GTZ) Kainji Lake Fisheries Promotion Project, National Institute for Freshwater Fisheries Research, (New Bussa) Nigeria:86-98|2002|
103853|T||Nova Scotia Forest Research Section|Control of Raspberry and Grass with Liquid Hexazinone in Nova Scotia|Research Report No.9, Nova Scotia Department of Lands and Forests, Truro, NS, Canada(3): 6 p.|1989|
103854|T||Saha,D., S. Dasgupta, and A. Saha|Antifungal Activity of Some Plant Extracts Against Fungal Pathogens of Tea (Camellia sinensis)|Pharm. Biol.43(1): 87-91|2005|10.1080/13880200590903426
103855|A||Jagadeesan,Y., M.D. Bindhuja, C. Rajagopalan, and P. Subramanian|Energy Expenditure Towards the Insecticide (Profenofos) Induced Stress Management in Macrobrachium rosenbergii|Biochem. Cell. Arch.6(2): 257-262|2006|
103856|T||Chauhan,S.V.S., and J. Singh|Effect of Sodium Fluoride on Pollen Physiology in Triticum aestivum L.|Physiol. Mol. Biol. Plants8(1): 149-152|2002|
103857|T||Costa,L.G., and S.D. Murphy|(3H)Nicotine Binding in Rat Brain:  Alteration After Chronic Acetylcholinesterase Inhibition|J. Pharmacol. Exp. Ther.226(2): 392-397|1983|
103858|AT||Lima,J.B.P., M.P. Da-Cunha, R.C.,Jr. Da Silva, A.K.R. Galardo, S.D.S. Soares, I.A. Braga, R.P. Ramos, and D. Valle|Resistance of Aedes aegypti to Organophosphates in Several Municipalities in the State of Rio de Janeiro and Espirito Santo, Brazil|Am. J. Trop. Med. Hyg.68(3): 329-333|2003|10.4269/ajtmh.2003.68.329
103859|T||Anand,M., A. Gulati, K. Gopal, G.S.D. Gupta, and S.V. Chandra|Role of Neurotransmitters in Fenitrothion-Induced Aggressive Behaviour in Normal and Lesioned Rats|Toxicol. Lett.45(2-3): 215-220|1989|10.1016/0378-4274(89)90012-X
103860|T||Ali,H.M., M.H. Attia, and K.A. Mohamed|Biodisposition and Biochemical Effects of a New Phosphoramidate Series in Rat Tissues|Bull. Environ. Contam. Toxicol.70(6): 1197-1204|2003|10.1007/s00128-003-0109-y
103861|T||Hiraoka,Y., A. Imada, and J. Tanaka|Biological Activity of MEP Emulsion and Its Degradation|In: K.Sumino (Ed.), Environmental and Occupational Chemical Hazards, No.8, Asia-Pacific Symp.on the Environmental and Occupational Toxicology, Oct.4-7, 1987, Singapore, Kobe Univ.Schl.of Med., Kobe, Japan:461-466|1988|
103862|T||Das,N.M., and S. Chandrika|Effect of Seed Treatment with Systemic Insecticides on the Germination of Paddy and the Growth of Seedlings|Agric. Res. J. Kerala10(2): 152-156|1973|
103863|T||Bhat,P.K., M.J. Chacko, and K. Sreedharan|Further Studies on Phytotoxic Effect of Systemic Granular Insecticides on Coffee Grown in Polythene Bags|J. Coffee Res.8(4): 103-105|1978|
103864|T||El-Leboudi,A., T. El-Kobbia, and A.A. Dahroug|Pesticides in Relation to Ion Absorption by Cotton Seedlings|Egypt. J. Soil Sci.14(1): 55-64|1974|
103865|T||Karlen,D.L., and D.T. Gooden|Intensive Management Practices for Wheat in the Southeastern Coastal Plains|J. Prod. Agric.3(4): 558-563|1990|10.2134/jpa1990.0558
103866|T||Leidy,R.B., and T.J. Sheets|Residues of Ethoprop and Disulfoton in Soils and Flue-Cured Tobacco|Beitr. Tabakforsch.10(2): 127-133|1980|
103867|T||Van Buren,N.W.M., A.G.H. Marien, and H.H.W. Velthuis|The Role of Trophallaxis in the Distribution of Perizin in a Honeybee Colony with Regard to the Control of the Varroa Mite|Entomol. Exp. Appl.65(2): 157-164|1992|10.1111/j.1570-7458.1992.tb01639.x
103869|T||Svendsen,A., L.E.K. Pedersen, and P.D. Klemmensen|Synthesis and Insecticidal Activities of Unsymmetrical bis-Arylakyl Ketones. A New Structural Concept in Pyrethroids|Pestic. Sci.17(2): 93-102|1986|10.1002/ps.2780170205
103870|T||Chen,Y.P., G.M. Woods, G.W. Dandie, and H.K. Muller|Down-Regulation of an Established Immune Response Via Chemical Carcinogen or UVB-Altered Skin|Immunol. Cell Biol.75(3): 238-244|1997|10.1038/icb.1997.37
103871|A||Lazaras,A.D., P.K. Mishra, K.D. Mishra, and K. Khasdeo|Histopathological Study of Neemax Induced Gills of Rasbora daniconius|J. Exp. Zool. India7(2): 361-364|2004|
103872|T||Jain,H.K., S.Y. Pandey, N.P. Agnihotri, and K.P. Srivastava|Residues of Insecticides in Rice Crop|Indian J. Entomol.42(4): 675-679|1980|
103873|T||Brooks,W.M., J.D. Cranford, and L.W. Pearce|Benomyl:  Effectiveness Against the Microsporidian Nosema heliothidis in the Corn Earworm, Heliothis zea|J. Invertebr. Pathol.31(2): 239-245|1978|10.1016/0022-2011(78)90013-7
103874|T||Briese,D.T., and R.J. Milner|Effect of the Microsporidian Pleistophora schubergi on Anaitis efformata (Lepidoptera:  Geometridae) and Its Elimination from a Laboratory Colony|J. Invertebr. Pathol.48(1): 107-116|1986|10.1016/0022-2011(86)90149-7
103875|T||Derr,J.F.|Common Reed (Phragmites australis) Response to Mowing and Herbicide Application|Invasive Plant Sci. Manag.1(1): 12-16|2008|10.1614/IPSM-07-001.1
103876|T||Mundy,R.L., M.C. Bowman, J.H. Farmer, and T.J. Haley|Quantitative Structure Activity Study of a Series of Substituted O,O-Dimethyl O-(P-Nitrophenyl) Phosphorothioates and O-Analogs|Arch. Toxicol.41(2): 111-123|1978|10.1007/BF00302523
103877|T||Regente,M., G.C. Monzon, and L. De la Canal|Phospholipids are Present in Extracellular Fluids of Imbibing Sunflower Seeds and are Modulated by Hormonal Treatments|J. Exp. Bot.59(3): 553-562|2008|10.1093/jxb/erm329
103878|T||Bechtold,U., O. Richard, A. Zamboni, C. Gapper, M. Geisler, B. Pogson, S. Karpinski, and P.M. Mullineaux|Impact of Chloroplastic- and Extracellular-Sourced ROS on high Light-Responsive Gene Expression in Arabidopsis|J. Exp. Bot.59(2): 121-133|2008|10.1093/jxb/erm289
103879|T||Raafat,A., M.A. Abdel-Halim, M.A. Amer, and M.F. El-Hadidy|Growth and Physiological Responses of Bean Plants to Some Herbicides, Insecticides and Their Combinations|Ann. Agric. Sci.20(2): 141-150|1977|
103880|T||Denniston,D.J., J.J. Crabb, J.E. Bruemmer, and E.L. Squires|Effects of a Gonadotropin-Releasing Hormone Antagonist and Altrenogest on Luteinizing Hormone Concentration and Ovulation in the Mare|J. Equine Vet. Sci.26(3): 95-101|2006|10.1016/j.jevs.2006.01.004
103881|A||Rosenthal,S.K., D.M. Lodge, K.M. Mavuti, W. Muohi, P. Ochieng, B.N. Mungai, and G.M. Mkoji|Comparing Macrophyte Herbivory by Introduced Louisiana Crayfish (Procambarus clarkii) (Crustacea:  Cambaridae) and Native Dytiscid Beetles (Cybister tripunctatus) (Coleoptera:  Dytiscidae), in Kenya|Afr. J. Aquat. Sci.30(2): 157-162|2005|10.2989/16085910509503850
103882|T||Patel,I.S., B.G. Prajapati, G.M. Patel, and A.R. Pathak|Relative Toxicity of Insecticides to Diaeretiella rapae, a Hymenopterous Parasite of Mustard Aphid (Lipaphis erysimi)|Indian J. Agric. Sci.66(8): 507-508|1996|
103883|T||Kadota,T., and J. Miyamoto|Acute and Sub-Acute Toxicity of Sumithion in Japanese Quails|Sci. Pest Control (Botyu-Kagaku)40(2): 54-58|1975|
103884|T||Kadota,T., Y. Okuno, and J. Miyamoto|Acute Oral Toxicity and Delayed Neurotoxicity of 5 Organophosphorus Compounds, Salithion, Cyanox, Surecide, Sumithion and Sumioxon in Adult Hens|Sci. Pest Control (Botyu-Kagaku)40(2): 49-53|1975|
103885|T||Farage-Elawar,M., and B.M. Francis|The Effect of Three Organophosphorus Esters on Brain and Blood Neurotoxic Esterase and Acetylcholinesterase|Pestic. Biochem. Physiol.31(2): 175-181|1988|10.1016/0048-3575(88)90019-3
103886|T||Holmes,S.B., and K.M.S. Sundaram|Insecticide Residues and Cholinesterase Inhibition in Zebra Finches Orally Dosed with Fenitrothion|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control27(3): 889-902|1992|
103887|T||Mandal,A., and P. Lahiri|Hematological Responses to Sumithion (Fenitrothion) in the Blue-Rock Pigeon Columba livia Gmelin|Indian J. Exp. Biol.23(12): 702-705|1985|
103888|T||Kusterer,K., G. Pihan, and S. Szabo|Role of Lipid Peroxidation in Gastric Mucosal Lesions Induced by HCl, NaOH, or Ischemia|Am. J. Physiol. Gasterointest. Liver Physiol.252(6): G811 - G816|1987|10.1152/ajpgi.1987.252.6.G811
103889|T||Karlsmark,T., L. Danielsen, H.K. Thomsen, O. Aalund, K.G. Nielsen, O. Nielsen, and I.K. Genefke|The Effect of Sodium Hydroxide and Hydrochloric Acid on Pig Dermis.  A Light Microscopic Study|Forensic Sci. Int.39(3): 227-233|1988|10.1016/0379-0738(88)90125-9
103890|T||Bazan,H.E.P., S.T.K. Reddy, and N. Lin|Platelet-Activating Factor (PAF) Accumulation Correlates with Injury in the Cornea|Exp. Eye Res.52(4): 481-491|1991|10.1016/0014-4835(91)90046-H
103891|T||Wang,H., and M.F. Slavik|Bacterial Penetration into Eggs Washed with Various Chemicals and Stored at Different Temperatures and Times|J. Food Prot.61(3): 276-279|1998|10.4315/0362-028X-61.3.276
103892|T||Robert,A., J.E. Nezamis, C. Lancaster, J.P. Davis, S.O. Field, and A.J. Hanchar|"Mild Irritants Prevent Gastric Necrosis Through ""Adaptive Cytoprotection"" Mediated by Prostaglandins"|Am. J. Physiol. Gasterointest. Liver Physiol.245(1): G113 - G121|1983|10.1152/ajpgi.1983.245.1.G113
103893|T||Wahlberg,J.E.|Measurement of Skin-Fold Thickness in the Guinea Pig.  Assessment of Edema-Inducing Capacity of Cutting Fluids, Acids, Alkalis, Formalin and Dimethyl Sulfoxide|Contact Dermatitis28(3): 141-145|1993|10.1111/j.1600-0536.1993.tb03374.x
103894|T||Mozsik,G., M. Garamszegi, T. Javor, L. Nagy, M. Nemeth, G. Suto, and A. Vincze|Chemical (Alcohol, NaOH, NaCl and HCl)-Induced Changes in the Gastric Mucosal Membrane-Bound ATP-Dependent Energy Systems|Acta Physiol. Hung.75(Suppl.): 217-218|1990|
103895|T||Roseman,M.J., and R.M. Hill|Aerobic Responses of the Cornea to Isopropyl Alcohol, Measured In Vivo|Acta Ophthalmol. Scand.65(3): 306-312|1987|10.1111/j.1755-3768.1987.tb08511.x
103896|T||Singh,S.P., and A.N. Verma|Extent of Losses Caused by Stem Borer, Chilo partellus (Swinhoe) in Forage Sorghum|Pesticides 23(2): 19-22|1989|
103897|T||Santelmann,P.W.|Influence of Seed Quality and Environment on Peanut Injury by Herbicides|J. Am. Peanut Res. Educ. Assoc.4(1): 171-176|1972|
103898|T||Chapman,R.A., J.H. Tolman, and C. Cole|The Effect of Multiple Soil Applications of Disulfoton on Enhanced Microbial Degradation in Soil and Subsequent Uptake of Insecticidal Chemicals by Potato Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes29(3): 485-506|1994|
103899|T||Adams,R.G.,Jr., J.H. Lilly, and A.G. Gentile|Effects of Certain Systemic Insecticides on Gladiolus Growth and Spike Production|J. Econ. Entomol.68(5): 727-728|1975|10.1093/jee/68.5.727
103901|T||Hameed,S.F., and J.G. Allen|Toxicity and Persistence of Some Organophosphorus Insecticides and Permethrin on Apple Fruits for the Control of Codling Moth, Laspeyresia pomonella (L.)|J. Hortic. Sci.51(1): 105-115|1976|10.1080/00221589.1976.11514670
103902|T||Egwuatu,R.I.|Field Trials with Systemic and Contact Insecticides for the Control of Podagrica uniforma and P. sjostedti (Coleoptera, Chrysomelidae) on Okra|Trop. Pest Manag.28(2): 115-121|1982|10.1080/09670878209370687
103903|A||Naqvi,S.N.H., M.A. Azmi, K. Akthar, and I. Ahmad|Effect of DDT and Malathion on the Protein Pattern of Culicine Mosquitoes of Karachi Region|Pak. J. Entomol. Karachi2(2): 73-85|1987|
103904|T||Hwa,C.M., and X.C. Yang|The AtMKK3 Pathway Mediates ABA and Salt Signaling in Arabidopsis|Acta Physiol. Plant.30(3): 277-286|2008|10.1007/s11738-007-0117-3
103905|T||Roy,R.G., and F. Samson|Results of Insecticide Susceptibility Tests with Culex gelidus in Bangalore City|Indian J. Med. Res.70:715-717|1979|
103906|T||Yoshida,T., Y. Suzuki, and M. Uchiyama|Effect of Fenitrothion on delta-Aminolevulinic Acid Synthetase Activity of Mouse Liver|Biochem. Pharmacol.24(21): 1996-1997|1975|10.1016/0006-2952(75)90389-5
103907|A||Wijeyaratne,M.J.S., and R.S. Gunawardene|Chemotherapy of Ectoparasite, Ergasilus ceylonensis of Asian Cichlid, Etroplus suratensis|J. Appl. Ichthyol.4(2): 97-100|1988|10.1111/j.1439-0426.1988.tb00472.x
103908|A||Azmi,M.A., S.N.H. Naqvi, K. Akhtar, and I. Ahmad|Determination of Cholinesterase in Standard and Wild Culicine Mosquito Larvae of Karachi Region After Treatment with DDT and Malathion|Pak. J. Entomol. Karachi3(2): 115-124|1988|
103909|AT||Lagunes Tejeda,A.|Impact of the Use of Mixtures and Sequences of Insecticides in the Evolution of Resistance in Culex quinquefasciatus Say (Diptera:  Culicidae)|Ph.D Thesis, University of California, Riverside, CA:229 p.|1980|
103910|T||Hammond,R.B.|Phytotoxicity of Soybean Caused by the Interaction of Insecticide-Nematicides and Metribuzin|J. Econ. Entomol.76(1): 17-19|1983|10.1093/jee/76.1.17
103911|T||Belanger,A., and H.A. Hamilton|Determination of Disulfoton and Permethrin Residues in an Organic Soil and Their Translocation into Lettuce, Onion and Carrot|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes14(2): 213-226|1979|
103912|T||Lefever,G.S., and R.D. Green|The Effects of Chronic Ganglion Blockade and Chronic Cholinesterase Inhibition on the Sensitivity of Rabbit Stomach Muscularis to Cholinergic and Adrenergic Agonists|J. Pharmacol. Exp. Ther.193(3): 739-747|1975|
103913|T||Pedersen,H.L., and B. Loschenkohl|Implementation of a Warning System to Control Cherry Leaf Spot (Blumeriella jaapii) Under European Conditions|Gartenbauwissenschaft (Multiple Languages)62(5): 197-201|1997|
103916|T||Liu,H.H., J. Liu, S.L. Fan, M.Z. Song, X.L. Han, F. Liu, and F.F. Shen|Molecular Cloning and Characterization of a Salinity Stress-Induced Gene Encoding DEAD-Box Helicase from the Halophyte Apocynum venetum|J. Exp. Bot.59(3): 633-644|2008|10.1093/jxb/erm355
103917|T||Soucek,P., P. Klima, A. Rekova, and B. Brzobohaty|Involvement of Hormones and KNOXI Genes in Early Arabidopsis Seedling Development|J. Exp. Bot.58(13): 3797-3810|2007|10.1093/jxb/erm236
103918|T||Warren,B.C., and G.H. Yeoman|Phosmet as a Warble Control Agent|Vet. Rec.101(25): 504-505|1977|
103919|T||Tabata,K., and E. Kitahara|Effects of Fenitrothion (Sumithion) Spraying on the Population Density and the Blood Cholinesterase Activity of the Japanese Wood Mouse, Apodemus speciosus temmink|Appl. Entomol. Zool.15(3): 242-248|1980|10.1303/aez.15.242
103920|T||Kalberer,P., and E. Vogel|Residues of Carbofuran and 2,3-Dihydro-3-Hydroxy-2,2-Dimethylbenzofuran-7-yl Methylcarbamate in the Mushroom, Agaricus bisporus, Cultivated in Casing Soils Treated with the Insecticide|Pestic. Sci.9(2): 146-150|1978|10.1002/ps.2780090209
103921|T||Brealey,C.J.|Comparative Metabolism of Pirimiphos Methyl in Rat and Japanese Quail|Ph.D.Thesis, University of Reading, United Kingdom:413 p.|1980|
103922|T||Maurer,J.K., and R.D. Parker|Microscopic Changes with Acetic Acid and Sodium Hydroxide in the Rabbit Low-Volume Eye Test|Toxicol. Pathol.28(5): 679-687|2000|10.1177/019262330002800507
103923|T||Sharma,I.D., J.K. Dubey, and S.K. Patyal|Persistence of Fenazaquin in Apple Fruits and Soils|Pestic. Res. J.18(1): 79-81|2006|
103924|T||Azuka,C., and G.P. Daston|Developmental Toxicity Evaluation of Trimethylolpropane Caprylate Caprate in Sprague-Dawley Rats|Birth Defects Res. B Dev. Reprod. Toxicol.71(8): 374-379|2004|10.1002/bdrb.20026
103925|T||Bhattacharyya,J., H. Banerjee, S.P. Das, and A. Bhattacharyya|Metabolism of Fenazaquin, an Acaricide in Tea Plant|Bull. Environ. Contam. Toxicol.75(3): 569-573|2005|10.1007/s00128-005-0789-6
103926|T||Rosenbruch,M., and A. Holst|The Chick Embryo Yolk-Sac Blood Vessel System as an Experimental Model for Irritation and Inflammation|Toxicol. In Vitro4(4-5): 327-331|1990|10.1016/0887-2333(90)90075-5
103928|T||Mattos,G.M., D.D. Lopes, R.C.M. Mamede, H. Ricz, F.V. Mello-Filho, and J.B. Neto|Effects of Time of Contact and Concentration of Caustic Agent on Generation of Injuries|Laryngoscope116(3): 456-460|2006|10.1097/01.mlg.0000199935.74009.60
103929|T||Singh,G., O.P. Singh, V. Kumar, and T. Kumar|Effect of Methods of Establishment and Tillage Practices on Productivity of Rice (Oryza sativa) - Wheat (Triticum aestivum) Cropping System in Lowlands|Indian J. Agric. Sci.78(2): 163-166|2008|
103930|T||Harder,D.B., C.L. Sprague, C.D. DiFonzo, K.A. Renner, E.J. Ott, and W.G. Johnson|Influence of Stem-Boring Insects on Common Lambsquarters (Chenopodium album) Control in Soybean with Glyphosate|Weed Technol.21(1): 241-248|2007|10.1614/WT-06-106.1
103931|T||Bednarek,A., E. Popowska-Nowak, E. Pezowicz, and M. Kamionek|Integrated Methods in Pest Control:  Effect of Insecticides on Entomopathogenic Fungi (Beauveria bassiana (Bals) Vuill., B. brongniartii (Sacc.)) and Nematodes (Heterorhabditis megidis Poinar, Jackson, Klein, Steinernem|Pol. J. Ecol.52(2): 223-228|2004|
103934|T||Al-Bekairi,A.M., S. Qureshi, M.M. Ahmed, M. Afzal, and A.H. Shah|A Study of Uric Acid Pretreatment for the Protection of Rat Gastric Mucosa Against Toxic Damage|Food Chem. Toxicol.30(6): 525-531|1992|10.1016/0278-6915(92)90105-T
103936|T||Dixit,A.K., N.S. Bhattacharjee, S.K. Handa, M.D. Awasthi, and R.S. Dewan|Dissipation of Phorate, Disulfoton and Endosulfan in/on Soybean Crop|Indian J. Plant Prot.5(1): 70-74|1977|
103937|T||Woods,R.A., K.M.B. Malone, A.M. Spence, W.J. Sigurdson, and E.H. Byard|The Genetics, Ultrastructure, and Tubulin Polypeptides of Mebendazole-Resistant Mutants of Caenorhabditis elegans|Can. J. Zool.67(10): 2422-2431|1989|10.1139/z89-343
103939|T||Paul,A.L., C. Semer, T. Kucharek, and R.J. Ferl|The Fungicidal and Phytotoxic Properties of Benomyl and PPM in Supplemented Agar Media Supporting Transgenic Arabidopsis Plants for a Space Shuttle Flight Experiment|Appl. Microbiol. Biotechnol.55(4): 480-485|2001|10.1007/s002530000521
103940|T||Philomena,P.A., and B.V. David|Effect of Pesticides on In Vitro Pollen Germination and Growth and Yield of Okra|Curr. Sci. (Bangalore)54(18): 927-928|1985|
103942|T||Wilson,J.M., and J.S. Frank|The Effect of Systemic Pesticides on Total Glycoalkaloid Content of Potato Tubers at Harvest|Am. Potato J.52(6): 179-184|1975|10.1007/BF02838109
103944|T||Uchiyama,M., T. Yoshida, K. Homma, and T. Hongo|Inhibition of Hepatic Drug-Metabolizing Enzymes by Thiophosphate Insecticides and Its Toxicological Evaluation|Environ. Qual. Saf.4:109-116|1975|
103945|AT||Ramsdale,C.D., P.R.J. Herath, and G. Davidson|Recent Developments of Insecticide Resistance in Some Turkish Anophelines|J. Trop. Med. Hyg.83(1): 11-19|1980|
103946|T||Brogdon,W.G., J.H. Hobbs, Y. St.Jean, J.R. Jacques, and L.B. Charles|Microplate Assay Analysis of Reduced Fenitrothion Susceptibility in Haitian Anopheles albimanus|Am. Mosq. Control Assoc. J.4(2): 152-158|1988|
103948|T||Kolarik,P., A. Byrne, B. Bishop, W. Pett, E. Grafius, N. Nelson, M. Osborn, E. Schilling, L. Julien, A. Ayotte, and S. |Colorado Potato Beetle Control, 1998|Arthropod Manag. Tests24:152-153|1999|
103949|AT||Dobsikova,R.|Acute Toxicity of Carbofuran to Selected Species of Aquatic and Terrestrial Organisms|Plant Prot. Sci.39(3): 103-108|2003|10.17221/3865-PPS
103950|T||Greaves,A.J., A.R. Tomkins, C.P. Malcolm, M.P. Upsdell, C. Thomson, and D.J. Wilson|"Distribution and Decay of Phosmet Residues in the Canopy of ""T-Bar"" Trellised Kiwifruit"|N. Z. J. Crop Hortic. Sci.20(3): 313-318|1992|10.1080/01140671.1992.10421773
103951|T||Lim,J., and M.G. Miller|Role of Testis Exposure Levels in the Insensitivity of Prepubertal Rats to Carbendazim-Induced Testicular Toxicity|Fundam. Appl. Toxicol.37(2): 158-167|1997|10.1006/faat.1997.2315
103952|T||Lim,J., and M.G. Miller|The Role of the Benomyl Metabolite Carbendazim in Benomyl-Induced Testicular Toxicity|Toxicol. Appl. Pharmacol.142(2): 401-410|1997|10.1006/taap.1996.8042
103953|T||Gough,N., and A. Qayyum|Trials of Miticides Against Twospotted Mite and Broad Mite on Fuchsias with Comments on Phytotoxicity|Qld. J. Agric. Anim. Sci.44(1): 21-30|1987|
103954|T||McPhillips,J.J., and M.S. Dar|Resistance to the Effect of Carbachol on the Cardiovascular System and on the Isolated Ileum of Rats After Subacute Administration of an Organophosphorus Cholinesterase Inhibitor|J. Pharmacol. Exp. Ther.156(3): 507-513|1967|
103955|T||Perrine,S.E., and J.J. McPhillips|Specific Subsensitivity of the Rat Atrium to Cholinergic Drugs|J. Pharmacol. Exp. Ther.175(2): 496-502|1970|
103956|T||Moody,R., and J.C. Bailey|Foliar Shading as an Estimate of Plant Height in Evaluating Systemic Insecticides on Soybeans|J. Econ. Entomol.67(2): 302-303|1974|10.1093/jee/67.2.302
103957|T||Sequeira,E., and N.J. Chinoy|Studies on Sodium Fluoride Ingestion in Male Rodents|In: Proceedings of the National Symposium on Current Status of Genetics and Comparative Endocrinology. University of Delhi:71-73|1988|
103958|T||Zeman,F.J., E.R. Hoogenboom, R.J. Kavlock, and J.L. Semple|Effects on the Fetus of Maternal Benomyl Exposure in the Protein-Deprived Rat|J. Toxicol. Environ. Health17(4): 405-417|1986|10.1080/15287398609530835
103959|A||Yoon,C.S., J.H. Jin, J.H. Park, H.J. Youn, and S.W. Cheong|The Fungicide Benomyl Inhibits Differentiation of Neural Tissue in the Xenopus Embryo and Animal Cap Explants|Environ. Toxicol.18(5): 327-337|2003|10.1002/tox.10133
103960|T||Way,M.O., N.G. Whitney, and R.G. Wallace|Evaluation of Dimilin and Benlate for Soybean Insect Pest and Disease Control, 1991|Arthropod Manag. Tests20:250-252|1995|10.1093/amt/20.1.250
103961|T||Way,M.O., N.G. Whitney, and R.G. Wallace|Evaluation of Dimilin and Benlate for Soybean Insect Pest and Disease Control, 1992|Arthropod Manag. Tests20:248-249|1995|10.1093/amt/20.1.248
103962|T||Natal-da-Luz,T., M.J.B. Amorim, J. Rombke, and J.P. Sousa|Avoidance Tests with Earthworms and Springtails:  Defining the Minimum Exposure Time to Observe a Significant Response|Ecotoxicol. Environ. Saf.71(2): 545-551|2008|10.1016/j.ecoenv.2007.09.005
103963|T||Perreault,S.D., S. Jeffay, P. Poss, and J.W. Laskey|Use of the Fungicide Carbendazim as a Model Compound to Determine the Impact of Acute Chemical Exposure During Oocyte Maturation and Fertilization on Pregnancy Outcome in the Hamster|Toxicol. Appl. Pharmacol.114(2): 225-231|1992|10.1016/0041-008X(92)90072-Z
103964|T||Rajeswary,S., B. Kumaran, R. Ilangovan, S. Yuvaraj, M. Sridhar, P. Venkataraman, N. Srinivasan, and M.M. Aruldhas|Modulation of Antioxidant Defense System by the Environmental Fungicide Carbendazim in Leydig Cells of Rats|Reprod. Toxicol.24(3-4): 371-380|2007|10.1016/j.reprotox.2007.03.010
103965|T||Pimienta-Barrios,E., M.E. Gonzalez Del Castillo-Aranda, A. Munoz-Urias, and P.S. Nobel|Effects of Benomyl and Drought on the Mycorrhizal Development and Daily Net CO2 Uptake of a Wild Platyopuntia in a Rocky Semi-Arid Environment|Ann. Bot.92(2): 239-245|2003|10.1093/aob/mcg133
103966|T||Ruess,L., I.K. Schmidt, A. Michelsen, and S. Jonasson|Manipulations of a Microbial Based Soil Food Web at Two Arctic Sites - Evidence of Species Redundancy Among the Nematode Fauna?|Appl. Soil Ecol.17(1): 19-30|2001|10.1016/S0929-1393(00)00131-1
103967|T||Schmidt,I.K., L. Ruess, E. Baath, A. Michelsen, F. Ekelund, and S. Jonasson|Long-Term Manipulation of the Microbes and Microfauna of Two Subarctic Heaths by Addition of Fungicide, Bactericide, Carbon and Fertilizer|Soil Biol. Biochem.32(5): 707-720|2000|10.1016/S0038-0717(99)00207-2
103968|T||Sewall,D.K., and B.A. Croft|Chemotherapeutic and Nontarget Side Effects of Benomyl to Orange Tortrix, Argyrotaenia citrana (Lepidoptera:  Tortricidae), and Braconid Endoparasite Apanteles aristoteliae (Hymenoptera:  Braconidae)|Environ. Entomol.16(2): 507-512|1987|10.1093/ee/16.2.507
103969|T||Shukla,Y., M. Antony, and N.K. Mehrotra|Studies on Gamma-Glutamyl Transpeptidase in Rodents Exposed to Benomyl|Bull. Environ. Contam. Toxicol.42(2): 301-306|1989|10.1007/BF01699415
103970|T||Singhal,L.K., S. Bagga, R. Kumar, and R.S. Chauhan|Down Regulation of Humoral Immunity in Chickens due to Carbendazim|Toxicol. In Vitro17(5-6): 687-692|2003|10.1016/S0887-2333(03)00103-6
103971|T||Spencer,F., L. Chi, and M.X. Zhu|Effect of Benomyl and Carbendazim on Steroid and Molecular Mechanisms in Uterine Decidual Growth in Rats|J. Appl. Toxicol.16(3): 211-214|1996|10.1002/(SICI)1099-1263(199605)16:3<211::AID-JAT334>3.0.CO;2-X
103972|T||Tates,A.D.|Microtus oeconomus (Rodentia), a Useful Mammal for Studying the Induction of Sex-Chromosome Nondisjunction and Diploid Gametes in Male Germ Cells|Environ. Health Perspect.31:151-159|1979|
103973|T||Terse,P.S., S.G. Sawant, and R.R. Dalvi|Benomyl Toxicity in Chickens|Bull. Environ. Contam. Toxicol.50(6): 817-822|1993|10.1007/BF00209944
103975|T||Traina,M.E., P. Fazzi, C. Macri, C. Ricciardi, A.V. Stazi, E. Urbani, and A. Mantovani|In Vivo Studies on Possible Adverse Effects on Reproduction of the Fungicide Methyl Thiophanate|J. Appl. Toxicol.18(4): 241-248|1998|10.1002/(SICI)1099-1263(199807/08)18:4<241::AID-JAT500>3.0.CO;2-Q
103976|T||Van Iersel,M.W., and B. Bugbee|Increased Organic Matter in the Growing Medium Decreases Benlate DF Phytotoxicity|Plant Dis.81(7): 743-748|1997|10.1094/PDIS.1997.81.7.743
103977|T||Sherman,M., and R.B. Herrick|Fly Control, Chronic Toxicity, and Residues from Feeding Rabon to Laying Hens|J. Econ. Entomol.64(5): 1159-1164|1971|10.1093/jee/64.5.1159
103978|A||Jacomini,A.E., W.E.P. Avelar, A.S. Martinez, and P.S. Bonato|Bioaccumulation of Atrazine in Freshwater Bivalves Anodontites trapesialis (Lamarck, 1819) and Corbicula fluminea (Muller, 1774)|Arch. Environ. Contam. Toxicol.51(3): 387-391|2006|10.1007/s00244-005-0238-x
103979|T||Wilhelms,K.W., K.F. Fitzpatrick, C.G. Scanes, and L.L. Anderson|In Ovo Exposure to a Triazine Herbicide:  Effects of Atrazine on Circulating Reproductive Hormones and Gonadal Histology in Young Japanese Quail|Arch. Environ. Contam. Toxicol.51(1): 117-122|2006|10.1007/s00244-005-0165-x
103981|T||Oohara,T., H. Sadatsuki, M. Kaminishi, and Y. Mitarai|Simple Alkaline Treatment Induces Intestinal Metaplasia in the Stomach of Rats|Pathol. Res. Pract.175(4): 365-372|1982|10.1016/S0344-0338(82)80049-6
103982|T||Reboud,X., N. Majerus, J. Gasquez, and S. Powles|Chlamydomonas reinhardtii as a Model System for Pro-Active Herbicide Resistance Evolution Research|Biol. J. Linn. Soc.91(2): 257-266|2007|10.1111/j.1095-8312.2007.00787.x
103983|T||Degraeve,N., M.C. Chollet, and J. Moutschen|Genetic and Cytogenetic Effects of Fenitrothion|Arch. Environ. Health39(1): 24-26|1984|10.1080/00039896.1984.10545829
103984|A||Berra,E., M. Forcella, R. Giacchini, B. Rossaro, and P. Parenti|Biomarkers in Caddisfly Larvae of the Species Hydropsyche pellucidula (Curtis, 1834) (Trichoptera:  Hydropsychidae) Measured in Natural Populations and After Short Term Exposure to Fenitrothion|Bull. Environ. Contam. Toxicol.76(5): 863-870|2006|10.1007/s00128-006-0998-7
103985|T||Ginsberg,G.L., M.E. Placke, D.S. Wyand, and S.D. Cohen|Protection Against Acetaminophen-Induced Hepatotoxicity by Prior Treatment with Fenitrothion|Toxicol. Appl. Pharmacol.66(3): 383-399|1982|10.1016/0041-008X(82)90305-2
103987|T||Kunimatsu,T., Y. Kamita, N. Isobe, and H. Kawasaki|Immunotoxicological Insignificance of Fenitrothion in Mice and Rats|Fundam. Appl. Toxicol.33(2): 246-253|1996|10.1006/faat.1996.0162
103988|T||Malik,J.K., and A.K. Srivastava|Modification of Fenitrothion-Induced Circulating Enzymatic Alterations in Bubalus bubalis by 2,3-Butanedione Monoxime|Bull. Environ. Contam. Toxicol.51(1): 115-121|1993|10.1007/BF00201009
103989|T||Meyer,S.L.F., R.M. Sayre, and R.N. Huettel|Benomyl Tolerance of Ten Fungi Antagonistic to Plant-Parasitic Nematodes|J. Nematol.23(4): 402-408|1991|
103990|T||Monico-Pifarre,A., and M. Xirau-Vayreda|Study of Carbendazin Residue Accumulation on Greenhouse and Field-Grown Strawberries, After Successive Treatments with Benomyl|J. AOAC Int.73(4): 553-556|1990|10.1093/jaoac/73.4.553
103993|T||Clark,P.H., and M.M. Cole|Systemic Insecticides for Control of Oriental Rat Fleas:  Tests in Guinea Pigs|J. Econ. Entomol.61(2): 420-423|1968|10.1093/jee/61.2.420
103995|T||Rothberg,S.|Skin Sensitization Potential of the Riot Control Agents BBC, DM, CN and CS in Guinea Pigs|Military Med.135:552-556|1970|10.1093/milmed/135.7.552
103996|T||Knapp,F.W.|Paramite Dip for Control of Sarcoptic Mange on Dogs|Vet. Med. Small Anim. Clin.73(9): 1161-1163|1978|
103997|T||Campbell,W.C., and A.C. Cuckler|Therapeutic Trial of Selected Organophosphates Against Schistosoma mansoni Infections in Mice|J. Parasitol.52(4): 827-828|1966|10.2307/3276469
103998|T||Leuck,D.B., and M.C. Bowman|Imidan Insecticide Residues (Imidan and Imidoxon):  Their Persistence in Corn, Grass, and Soybeans|J. Econ. Entomol.61(3): 705-707|1968|10.1093/jee/61.3.705
103999|T||Quinto,I., E. De Marinis, M. Mallardo, A. Arcucci, R. Della Morte, and N. Staiano|Effect of DNOC, Ferbam and Imidan Exposure on Mouse Sperm Morphology|Mutat. Res.224(4): 405-408|1989|10.1016/0165-1218(89)90064-5
104000|T||Rai,D.K., and B. Sharma|Carbofuran-Induced Oxidative Stress in Mammalian Brain|Appl. Biochem. Biotechnol. Part B Mol. Biotechnol.37(1): 66-71|2007|
104001|T||Lammler,G., and D. Gruner|Chemotherapeutic Studies on Litomosoides carinii Infection of Mastomys natalensis.  6.  The Filaricidal Activity of Organophosphorus Compounds|Tropenmed. Parasitol.26(3): 359-369|1975|
104002|A||Yoon,C.S., J.H. Jin, J.H. Park, C.Y. Yeo, S.J. Kim, Y.G. Hwang, S.J. Hong, and S.W. Cheong|Toxic Effects of Carbendazim and n-Butyl Isocyanate, Metabolites of the Fungicide Benomyl, on Early Development in the African Clawed Frog, Xenopus laevis|Environ. Toxicol.23(1): 131-144|2008|10.1002/tox.20338
104003|T||Vanhauwaert,A., P. Vanparys, and M. Kirsch-Volders|The In Vivo Gut Micronucleus Test Detects Clastogens and Aneugens Given by Gavage|Mutagenesis16(1): 39-50|2001|10.1093/mutage/16.1.39
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104007|T||Reay,R.C., and D.K. Lewis|Evidence for Differences in Mode of Action Between Two Related Carbamate Insecticides|J. Sci. Food Agric.17(1): 17-19|1966|10.1002/jsfa.2740170105
104008|T||Becker,J.M., and T. Nakatsugawa|Significance of Hepatic Breakthrough Thresholds in Fenitrothion Toxicity in Male Rats and Female Mice|Pestic. Biochem. Physiol.38(1): 34-40|1990|10.1016/0048-3575(90)90145-R
104009|T||Choo,H.Y., H.K. Kaya, J. Huh, D.W. Lee, H.H. Kim, S.M. Lee, and Y.M. Choo|Entomopathogenic Nematodes (Steinernema spp. and Heterorhabditis bacteriophora) and a Fungus Beauveria brongniartii for Biological Control of the White Grubs, Ectinohoplia rufipes and Exomala orientalis, in Korean Golf |Biocontrol47(2): 177-192|2002|10.1023/A:1014559729607
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104011|T||LaPierre,L.E.|Persistence of Fenitrothion Insecticide in Poplar Populus tremuloides and Gray Birch Betula populifolia|Bull. Environ. Contam. Toxicol.35(4): 471-475|1985|10.1007/BF01636540
104012|T||Rajukkannu,K., K. Saivaraj, P. Vasudevan, and M. Balasubramanian|Residues of Methyl Parathion, Quinalphos, Phosalone and Fenitrothion in/on Okra|Curr. Sci. (Bangalore)47(20): 782-783|1978|
104013|T||Ohtsubo,T., S. Tsuda, H. Takeda, and K. Tsuji|Formulation Factors Affecting the Efficacy, Phytotoxicity and Rainfastness of Fenitrothion Microcapsules for Agricultural Use|J. Pestic. Sci. (Multiple Languages)16(4): 609-614|1991|10.1584/jpestics.16.609
104014|T||Singh,S.P., and S.F. Hameed|Harvest Time Residues of Monocrotophos and Fenitrothion in/on Pigeonpea|Curr. Sci. (Bangalore)58(12): 700-701|1989|
104015|T||Cranshaw,W.S., D. Gerace, A. Tupy, and C. Sclar|Control of Honeylocust Pod Gall Midge with Foliar-Applied Insecticides, 1996|Arthropod Manag. Tests22:393-|1997|10.1093/amt/22.1.393a
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104017|T||Davis,M.G.K., E. Grafius, and S. Ebert|Onion Maggot Control, 1996|Arthropod Manag. Tests22:143-|1997|10.1093/amt/22.1.143
104018|T||Blank,R.H., P.T. Holland, G.S.C. Gill, M.H. Olson, and C.P. Malcolm|Efficacy and Persistence of Insecticide Residues on Fruit of Kiwifruit to Prevent Greedy Scale (Hemiptera:  Diaspididae) Crawler Settlement|N. Z. J. Crop Hortic. Sci.23(1): 13-23|1995|10.1080/01140671.1995.9513863
104020|T||Jauregui,J., B. Valderrama, and R. Vazquez-Duhalt|Biocatalytic Oxidation of Organophosphorous Pesticides by White Rot Fungi|In: 6th International Symposium, International In Situ and On-Site Bioremediation, June 4-7, 2001, San Diego, CA6:17-25|2001|
104021|T||Mount,M.E.|Measurement of Dialkyl Phosphates in Urine as an Aid to Recognize Exposure to Organophosphate Insecticides|Proc. Annu. Meet. Am. Assoc. Vet. Lab. Diagn.27:383-402|1984|
104022|T||Arunachalam,K., and M. Lakshmanan|Translocation, Accumulation and Persistence of Carbofuran in Paddy, Ground Nut, and Cotton|Bull. Environ. Contam. Toxicol.28(2): 230-238|1982|10.1007/BF01608581
104023|T||Arunachalam,K.D., and M. Lakshmanan|Microbial Uptake and Accumulation of (14C Carbofuran) 1,3-Dihydro-2,2-Dimethyl-7-Benzofuranylmethyl Carbamate in Twenty Fungal Strains Isolated by Miniecosystem Studies|Bull. Environ. Contam. Toxicol.41(1): 127-134|1988|10.1007/BF01689069
104024|T||Yule,W.N., and I.W. Varty|The Persistence and Fate of Fenitrothion Insecticide in a Forest Environment.  III.  Deposit and Residue Studies with Black Spruce and Red Maple|Bull. Environ. Contam. Toxicol.13(6): 678-680|1975|10.1007/BF01721935
104025|T||Bahadir,M., and G. Pfister|Uptake of Carbofuran-14C by Rice Plants After Root Zone Application as a Controlled Release Formulation|Chemosphere16(6): 1273-1279|1987|10.1016/0045-6535(87)90063-4
104026|T||Somers,J.D., M.W. Barrett, and A.A. Khan|Simulated Field Ingestion of Carbofuran-Contaminated Feedstuffs by Pheasants|Bull. Environ. Contam. Toxicol.47(4): 521-528|1991|10.1007/BF01700940
104027|T||McDaniel,K.L., S. Padilla, R.S. Marshall, P.M. Phillips, L. Podhorniak, Y. Qian, and V.C. Moser|Comparison of Acute Neurobehavioral and Cholinesterase Inhibitory Effects of N-Methylcarbamates in Rat|Toxicol. Sci.98(2): 552-560|2007|10.1093/toxsci/kfm114
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104029|T||Forsyth,D.J., C.F. Hinks, and N.D. Westcott|Feeding by Clay-Colored Sparrows on Grasshoppers and Toxicity of Carbofuran Residues|Environ. Toxicol. Chem.13(5): 781-788|1994|
104030|T||Linder,G., and M.E. Richmond|Feed Aversion in Small Mammals as a Potential Source of Hazard Reduction for Environmental Chemicals:  Agrichemical Case Studies|Environ. Toxicol. Chem.9(1): 95-105|1990|10.1002/etc.5620090112
104031|T||Kononen,D.W., J.R. Hochstein, and R.K. Ringer|Avoidance Behavior of Mallards and Northern Bobwhite Exposed to Carbofuran-Contaminated Food and Water|Environ. Toxicol. Chem.6(1): 41-50|1987|
104032|T||Cambon,C., C. Declume, and R. Derache|Effect of the Insecticidal Carbamate Derivatives (Carbofuran, Pirimicarb, Aldicarb) on the Activity of Acetylcholinesterase in Tissues from Pregnant Rats and Fetuses|Toxicol. Appl. Pharmacol.49:203-208|1979|10.1016/0041-008X(79)90242-4
104033|T||Gupta,R.C., D. Milatovic, and W.D. Dettbarn|Nitric Oxide Modulates High-Energy Phosphates in Brain Regions of Rats Intoxicated with Diisopropylphosphorofluoridate or Carbofuran: Prevention by N-tert-butyl-alpha-Phenylnitrone or Vitamin E|Arch. Toxicol.75(6): 346-356|2001|10.1007/s002040100249
104034|T||Rajukkannu,K., K. Saivaraj, P. Vasudevan, and M. Balasubramanian|Insecticides Residues in Sweet Potato Tubers (Ipomoea batatas)|Pesticides 12(8): 21-22|1978|
104035|T||Weinberger,P., L. Pomber, and R. Prasad|The Effect of Spray Treatments on Some Germination Characteristics of White Pine and Yellow Birch|Bull. Environ. Contam. Toxicol.21(3): 365-370|1979|10.1007/BF01685437
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104039|T||Reynolds,S.E.|The Integument as a Target for Insecticides:  Disruption of Cuticle Chemistry, Structure, and Function|BCPC Monogr. - Br. Crop Prot. Counc.:73-88|1989|
104040|T||Hoffman,S.M., R. Snetsinger, R. Tetrault, R. Kielbasa, D.L. Rinker, and C. Bucholz|Laboratory and Cropping Tests with Cyromazine for Mushroom Sciarid Control in Mushroom Compost|Dev. Crop Sci.10:599-606|1987|10.1016/B978-0-444-42747-2.50070-1
104041|T||Wall,R., N.P. French, and K.L. Morgan|Population Suppression for Control of the Blowfly Lucilia sericata and Sheep Blowfly Strike|Ecol. Entomol.20(1): 91-97|1995|10.1111/j.1365-2311.1995.tb00433.x
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104043|T||Maciesiak,A.|Evaluation of Acyl-Urea Insecticides for the Control of Stigmella malella Stt.|Fruit Sci. Rep. (Skierniewice)12(3): 119-126|1985|
104044|T||Anderson,N., J.A. McKenzie, R.H. Laby, M.B. Strong, and R.G. Jarrett|Intraruminal Controlled Release of Cyromazine for the Prevention of Lucilia cuprina myiasis in Sheep|Res. Vet. Sci.46(2): 131-138|1989|10.1016/S0034-5288(18)31134-2
104045|T||Park,K.C., and A. Cork|Electrophysiological Responses of Antennal Receptor Neurons in Female Australian Sheep Blowflies, Lucilia cuprina, to Host Odours|J. Insect Physiol.45(1): 85-91|1999|10.1016/S0022-1910(98)00102-4
104046|T||Moreno,L.P., J.R.S. Pale, and A.R. Entwistle|Effects of Metham Sodium, Diallyl Disulphide and Thiocyanomethylbenzothiasol on Sclerotium cepivorum Sclerotia in the Bajio Region of Mexico|Ann. Appl. Biol.128(suppl.): 6-7|1996|10.1111/j.1744-7348.1996.tb07882.x
104047|A||Kimball,R.F.|The Induction of Reparable Premutational Damage in Paramecium aurelia by the Alkylating Agent Triethylene Melamine|Mutat. Res.2(5): 413-425|1965|10.1016/0027-5107(65)90053-9
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104056|T||Louisville Society for Coatings Technology|Continuing Study of Non-Mercurial Mildewcides in Alkyd and Acrylic House Paints|J. Coat. Technol.48(618): 62-67|1976|
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104060|T||Lin,R., W. Zhao, X. Meng, M. Wang, and Y. Peng|Rice Gene OsNAC19 Encodes a Novel NAC-Domain Transcription Factor and Responds to Infection by Magnaporthe grisea|Plant Sci.172(1): 120-130|2007|10.1016/j.plantsci.2006.07.019
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104062|T||Verslues,P.E., Y.S. Kim, and J.K. Zhu|Altered ABA, Proline and Hydrogen Peroxide in an Arabidopsis Glutamate:  Glyoxylate Aminotransferase Mutant|Plant Mol. Biol.64(1-2): 205-217|2007|10.1007/s11103-007-9145-z
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104065|T||Ribot,C., Y. Wang, and Y. Poirier|Expression Analyses of Three Members of the AtPHO1 Family Reveal Differential Interactions Between Signaling Pathways Involved in Phosphate Deficiency and the Responses to Auxin, Cytokinin, and Abscisic Acid|Planta (Multiple Languages)227(5): 1025-1036|2008|10.1007/s00425-007-0677-x
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104069|T||Pawar,N.B., and J.N. Ghulghule|Compatibility Study of Pesticides and Rhizobium of Gram (Cicer arietinum L.)|Trop. Grain Legume Bull.11/12:40-42|1978|
104070|T||Kristek,S., A. Kristek, V. Guberac, R. Glavas Tokic, and H. Pavlovic|Influence of Sugar Beet Seed Treatment with Pseudomonas fluorescens and Low Fungicide Doses on Infection with Pythium and Plant Yield and Quality|J. Phytopathol. (Berl.)154(10): 622-625|2006|10.1111/j.1439-0434.2006.01157.x
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104072|T||Hammond,R.B., and R.L. Cooper|Interaction of Planting Times Following the Incorporation of a Living, Green Cover Crop and Control Measures on Seedcorn Maggot Populations in Soybean|Crop Prot.12(7): 539-543|1993|10.1016/0261-2194(93)90096-2
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104075|A||Hiraoka,Y.|Levels of Fenitrothion in Medaka Eggs and the Effects on Hatchability|Jpn. J. Hyg. (Non-English)44(5): 987-992|1989|
104076|T||Zhou,P., B. Liu, and Y. Lu|DNA Damaging Effects of Carbofuran and Its Main Metabolites on Mice by Micronucleus Test and Single Cell Gel Electrophoresis|Sci. China Ser. C, Life Sci.48(suppl. 1): 40-47|2005|10.1007/BF02889800
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104078|T||Goreta,S., D.I. Leskovar, and J.L. Jifon|Gas Exchange, Water Status, and Growth of Pepper Seedlings Exposed to Transient Water Deficit Stress are Differentially Altered by Antitranspirants|J. Am. Soc. Hortic. Sci.132(5): 603-610|2007|10.21273/JASHS.132.5.603
104079|T||Niazi,B.H., J. Rozema, and M. Athar|Effect of Pre-Treatment and Post-Treatment of Growth Hormones (Kinetine and Abscisic Acid) on Germination and Growth of Fodderbeet and Seabeet Under Saline Soil Conditions|Bull. Pol. Acad. Sci. Biol. Sci.50(4): 233-244|2002|
104080|T||Kuhn,J.M., A. Boisson-Dernier, M.B. Dizon, M.H. Maktabi, and J.I. Schroeder|The Protein Phosphatase AtPP2CA Negatively Regulates Abscisic Acid Signal Transduction in Arabidopsis, and Effects of abh1 on AtPP2CA mRNA|Plant Physiol.140(1): 127-139|2006|10.1104/pp.105.070318
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104086|T||Hosokawa,S., and J. Miyamoto|Effect of Subchronic Feeding of Sumithion, Sumioxon and p-Nitrocresol on Rat Hepatic Oxidative Phosphorylation and Mixed Function Oxidases|Sci. Pest Control (Botyu-Kagaku)40(2): 33-38|1975|
104087|T||Myatt,G.L., D.J. Ecobichon, and R. Greenhalgh|Fenitrooxon and S-Methyl Fenitrothion:  Acute Toxicity and Hydrolysis in Mammals|Environ. Res.10(3): 407-414|1975|10.1016/0013-9351(75)90036-5
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104089|T||Singh,K.V., and S.K. Bansal|Present Susceptibility of Culex tritaeniorhynchus, to Conventional and Some Other Insecticides in Kota (Rajasthan)|J. Commun. Dis.28(1): 64-66|1996|
104090|T||Zhang,Y., and D.S. Shih|Isolation of an Osmotin-Like Protein Gene from Strawberry and Analysis of the Response of this Gene to Abiotic Stresses|J. Plant Physiol.164(1): 68-77|2007|10.1016/j.jplph.2006.02.002
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104092|T||Planelles,J.J., and Z.A. Popenenkova|Effects of Monoamine Oxidase Inhibitors on Bacterial Infections|Nature222(5199): 1192-1193|1969|10.1038/2221192a0
104093|T||Jansson,R.K., S.H. Lecrone, and J.G. Castillo|Management of Thrips on Potato, 1992|Insectic. Acaric. Tests18:142-143|1993|10.1093/iat/18.1.142
104094|T||Robbins,P.S., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control Using Pelleted Seed Treatments, 1990|Insectic. Acaric. Tests16:88-89|1991|
104095|T||Nowacka,H.|Application of Fenarimol for Control of Orchard Fungal Infections|Fruit Sci. Rep. (Skierniewice)6(3): 135-142|1979|
104096|T||Lynch,J.M., S.H.T. Harper, and M. Sladdin|Alleviation, by a Formulation Containing Calcium Peroxide and Lime, of Microbial Inhibition of Cereal Seedling Establishment|Curr. Microbiol.5(1): 27-30|1981|10.1007/BF01566593
104097|T||Thwaite,W.G.|Resistance to Clofentezine and Hexythiazox in Panonychus ulmi from Apples in Australia|Exp. Appl. Acarol.11(1): 73-80|1991|10.1007/BF01193730
104098|T||Crump,D.H., and B.R. Kerry|Studies on the Population Dynamics and Fungal Parasitism of Heterodera schachtii in Soil from a Sugar-Beet Monoculture|Crop Prot.6(1): 49-55|1987|10.1016/0261-2194(87)90028-7
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104101|A||Kalair,J.S., V.S. Mishra, and R.K. Singh|Pesticide Sumithion Induced Haematological Changes in Mud-Eel, Amphipnous cuchia|Biol. Mem.19(1): 41-48|1993|
104102|T||Tsuda,S., T. Miyaoka, M. Iwasaki, and Y. Shirasu|Pharmacokinetic Analysis of Increased Toxicity of 2-sec-Butylphenyl Methylcarbamate (BPMC) by Fenitrothion Pretreatment in Mice|Fundam. Appl. Toxicol.4(5): 724-730|1984|10.1016/0272-0590(84)90093-9
104104|T||Cheng,C.C., and T.L. Chao|Effects of Certain Drugs on Permeability of Blood-Aqueous Barrier to UREA|Chin. Med. J.85(4): 223-228|1966|
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104109|A||Lee,E.L.|Measurement of Pesticide Toxicity by Fish Respiration Rate|Ph.D.Thesis, Washington University, St.Louis, MO:124 p.|1969|
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104112|T||Mehl,A., T.M. Schanke, A. Torvik, and F. Fonnum|The Effect of Trichlorfon and Methylazoxymethanol on the Development of Guinea Pig Cerebellum|Toxicol. Appl. Pharmacol.219(2-3): 128-135|2007|10.1016/j.taap.2006.10.024
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104118|T||Badr,A.|Cytogenetic Activities of Some Fungicides|Cytologia (Tokyo)53(4): 635-640|1988|10.1508/cytologia.53.635
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104121|T||Chevron Corp.|Initial Sub:  Ortho & Preliminary Toxicity Screen Data Release Sheet on (E)-2{1-((3-Chloro-2-Proponyl)Oxy)Imino)Propyl 5-{2-(Ethylthio)Propyl}-3-Hydroxy-2-Cyclohexene-1-One W-Letter|EPA/OTS Doc #88-920002345:5 p.|1992|
104122|T||Younger Laboratories|Initial Submission:  Toxicological Investigation of:  CP 66423 with Cover Letter Dated 081392|EPA/OTS Doc.#88-920007558:7 p.|1992|
104123|T||Tan,X., Y.J. Huang, Y.W. Jiang, and S.H. Hu|Persistence of Oxytetracycline Residues in Milk After the Intrauterine Treatment of Lactating Cows for Endometritis|Vet. Rec.161(17): 585-586|2007|10.1136/vr.161.17.585
104124|A||Orus,M.I., E. Marco, and F. Martinez|Effect of Trichlorfon on N2-Fixing Cyanobacterium Anabaena PCC 7119|Arch. Environ. Contam. Toxicol.19(3): 297-301|1990|10.1007/BF01054968
104125|T||Huang,H., S. Zhang, X.Q. Shan, B.D. Chen, Y.G. Zhu, and J.N.B. Bell|Effect of Arbuscular Mycorrhizal Fungus (Glomus caledonium) on the Accumulation and Metabolism of Atrazine in Maize (Zea mays L.) and Atrazine Dissipation in Soil|Environ. Pollut.146(2): 452-457|2007|10.1016/j.envpol.2006.07.001
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104134|T||Ecobichon,D.J., A.M. Comeau, and P.H. Cameron|Chronic Toxicity of Technical Fenitrothion in Male Rats|Toxicol. Appl. Pharmacol.56:409-417|1980|10.1016/0041-008X(80)90075-7
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104136|T||Anaso,A.B., and S.A. Olatunde|Control of Yellow Sigatoka of Banana (Mycosphaerella musicola, Leach) by Spray of Fungicides in Nigeria|Appl. Agric. Res.4(4): 253-257|1989|
104137|T||Singh,K.V., and S.K. Bansal|Current Status of Anopheles stephensi Response to Various Insecticides in Some Areas of the Thar Desert|Indian J. Med. Res.103:299-303|1996|
104138|AT||Singh,A.L., and P.K. Singh|Effect of Carbofuran Application on the Growth and Nitrogen Fixation of Azolla During Its Cultivation with Rice|Curr. Sci. (Bangalore)55(21): 1102-1103|1986|
104139|T||Mrlina,G., G. Lemperiere, and J.P. Calmon|Determination and Uptake of Carbosulfan and Carbofuran in Young Douglas Firs (Pseudotsuga menziesii Mirb.)|J. Agric. Food Chem.42(7): 1569-1571|1994|10.1021/jf00043a034
104140|T||Knaak,J.B., D.M. Munger, J.F. McCarthy, and L.D. Satter|Metabolism of Carbofuran Alfalfa Residues in the Dairy Cow|J. Agric. Food Chem.18:832-837|1970|10.1021/jf60171a012
104141|T||Khan,S.U., S. Kacew, S. Dupont, G.D.,Jr. Stratton, and W.B. Wheeler|Bioavailability in Rats of Bound Residues from Radishes Treated with Either Radiolabeled Dieldrin or Carbofuran|J. Agric. Food Chem.35(1): 89-93|1987|10.1021/jf00073a021
104142|T||Goto,T., N. Yasudomi, A.K. Tanaka, N. Osaki, H. Takao, M. Kawata, J. Imada, Y. Endo, and N. Umetsu|Synthesis and Biological Activity of new Aminosulfenyl Derivaties of the Methylcarbamate Insecticide, Carbofuran|J. Pestic. Sci. (Multiple Languages)13(1): 39-47|1988|10.1584/jpestics.13.39
104143|T||Bryant,S.M., B.K. Wills, J.W. Rhee, S.E. Aks, and G. Maloney|Intramuscular Ophthalmic Homatropine vs. Atropine to Prevent Lethality in Rates with Dichlorvos Poisoning|J. Med. Toxicol.2(4): 156-159|2006|10.1007/BF03161184
104144|AT||Zikic,R.V., A. Stajn, and N. Veljkovic|The Activity of Esterases in Liver of the Frog (Rana esculenta L.) Under the Influence of Insecticide Fenitrothion|Acta Biol. Med. Exp.13(2): 101-104|1988|
104145|T||Chen,M.H., Z.J. Han, X.F. Qiao, and M.J. Qu|Mutations in Acetylcholinesterase Genes of Rhopalosiphum padi Resistant to Organophosphate and Carbamate Insecticides|Genome50(2): 172-179|2007|10.1139/G07-021
104146|T||Fukuoka,N., and T. Enomoto|Effects of Sulfur Application on Enzyme Activities in Relation to the Ascorbate-Glutathione Cycle and the Occurrence of Internal Browning in Raphanus Roots|J. Jpn. Soc. Hortic. Sci.76(4): 305-309|2007|10.2503/jjshs.76.305
104147|T||Hassan,M.J., Z. Wang, and G. Zhang|Sulfur Alleviates Growth Inhibition and Oxidative Stress Caused by Cadmium Toxicity in Rice|J. Plant Nutr.28(10): 1785-1800|2005|10.1080/01904160500251092
104148|T||Giovannini,M.G., C. Scali, L. Bartolini, B. Schmidt, and G. Pepeu|Effect of Subchronic Treatment with Metrifonate and Tacrine on Brain Cholinergic Function in Aged F344 Rats|Eur. J. Pharmacol.354(1): 17-24|1998|10.1016/S0014-2999(98)00429-4
104149|T||Lucena,J.J., A. Garate, and O. Carpena|Iron-Chelates Evaluation in a Calcareous Soil|Plant Soil103(1): 134-138|1987|10.1007/BF02370679
104150|T||Caro,A., and S. Puntarulo|Effect of In Vivo Iron Supplementation on Oxygen Radical Production by Soybean Roots|Biochim. Biophys. Acta1291(3): 245-251|1996|10.1016/S0304-4165(96)00071-2
104151|T||Ramirez,D., and H.J. Lang|Effect of Applied Iron Concentration on Growth and Phylloclade Marginal Chlorosis of Holiday Cactus (Schlumbergera sp.)|J. Am. Soc. Hortic. Sci.122(3): 438-444|1997|10.21273/JASHS.122.3.438
104152|T||Poindessous-Jazat,F., B.H. Schmidt, and M.H. Bassant|Effect of Subchronic Metrifonate Treatment on Cerebral Glucose Metabolism in Young and Aged Rats|Eur. J. Pharmacol.363(1): 17-28|1998|10.1016/S0014-2999(98)00782-1
104153|T||Badawi,A.F.|O6-Methylguanine and O6-Methylguanine-DNA Methyltransferase Activity in Tissues of BDF-1 Mice Treated with Antiparasitic Drugs|Toxicol. Lett.94(3): 199-208|1998|10.1016/S0378-4274(98)00008-3
104154|T||Ikonen,S., B.H. Schmidt, and P.,Jr. Riekkinen|Characterization of Learning and Memory Behaviors and the Effects of Metrifonate in the C57BL Strain of Mice|Eur. J. Pharmacol.372(2): 117-126|1999|10.1016/S0014-2999(99)00203-4
104155|T||Mehri,H., R. Mehri-Kamoun, A. Ben Dhiab, and M. El Mahjoub|Adverse Effects of Insecticidal Sprays on Bloom Onset, Pollen Germination and Fruit Set of Three Olive Cultivars|Int. J. Agric. Res.2(2): 102-114|2007|10.3923/ijar.2007.102.114
104156|T||Mehri,H., R. Mehri-Kamoun, and M. El Mahjoub|In Vitro and In Vivo Evaluation of 3 Insecticides and Bio-Insecticide Effects on Olive Pollen Germination and Tube Growth|J. Agron.6(4): 518-525|2007|10.3923/ja.2007.518.525
104157|T||Wright,P.L., and F.R. Mraz|Toxicity of Sulfur-35, Selenium, and Tellurium to Avian Embryos|Proc. Soc. Exp. Biol. Med.118:534-539|1965|10.3181/00379727-118-29898
104158|T||Gupta,D., and M. Eichner|Interactions of Gonadal Steroids, Gonadotropins and Gonadotropin-Releasing Hormones in Sexual Maturation|J. Steroid Biochem.11(1): 579-586|1979|10.1016/0022-4731(79)90085-2
104159|AT||Collins,S., D. Sultemeyer, and G. Bell|Changes in C Uptake in Populations of Chlamydomonas reinhardtii Selected at High CO2|Plant Cell Environ.29(9): 1812-1819|2006|10.1111/j.1365-3040.2006.01559.x
104160|T||Kitano,M., J. Tateishi, and H. Eguchi|Evaluation of Leaf Boundary Layer Conductance of a Whole Plant by Application of Abscisic Acid Inhibiting Transpiration|Biotronics24:51-58|1995|
104161|T||Leubner-Metzger,G., and F.,Jr. Meins|Sense Transformation Reveals a Novel Role for Class I Beta-1,3-Glucanase in Tobacco Seed Germination|Plant J.23(2): 215-221|2000|10.1046/j.1365-313x.2000.00773.x
104162|T||E.I. Du Pont De Nemours|Acute Oral Testing in Male Rats|EPA/OTS Doc.#86-870001105:6 p.|2000|
104164|AT||Kulkarni,B.G., M.K. Thakur, and A.K. Jaiswar|Acute Toxicity of Copper, Zinc and Mercury on Intertidal Gastropods of Mumbai Coast|J. Indian Fish. Assoc.31:101-106|2004|
104165|T||Courtney,K.D., J.E. Andrews, J. Springer, and L. Dalley|Teratogenic Evaluation of the Pesticides Baygon, Carbofuran, Dimethoate and EPN|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(4): 373-406|1985|
104166|T||Forster,B., M. Garcia, O. Francimari, and J. Rombke|Effects of Carbendazim and lambda-Cyhalothrin on Soil Invertebrates and Leaf Litter Decomposition in Semi-Field and Field Tests Under Tropical Conditions (Amazonia, Brazil)|Eur. J. Soil Sci.42(suppl. 1): S171 - S179|2006|
104167|T||Spencer,F., L. Chi, and M.X. Zhu|Biochemical Characterization of Benomyl Inhibition on Endometrial Growth During Decidualization in Rats|Reprod. Toxicol.444:163-169|1998|10.1007/978-1-4899-0089-0_19
104168|T||Nakai,M., and R.A. Hess|Effects of Carbendazim (Methyl 2-Benzimidazole Carbamate; MBC) on Meiotic Spermatocytes and Subsequent Spermiogenesis in the Rat Testis|Anat. Rec.247(3): 379-387|1997|10.1002/(SICI)1097-0185(199703)247:3<379::AID-AR9>3.0.CO;2-P
104169|T||Yamato,S., T. Fusaka, and Y. Tanaka|Involvement of Esterase in Phytotoxicity of a New Pyrrolinone Compound, Methyl 1-(1-(3,5-Dichlorophenyl)-1-Methylethyl)-2,3-Dihydro-4-Methyl-2-oxo-3-Phenyl-1H-Pyrrole-3-Carboxylate, to Early Watergrass (Echinochloa oryz|J. Pestic. Sci. (Multiple Languages)30(4): 384-389|2005|10.1584/jpestics.30.384
104170|T||Semtner,P.J., and W.B. Wilkinson III|Cutworm and Flea Beetle Control on Flue-Cured Tobacco, 1994|Arthropod Manag. Tests20:257-258|1995|10.1093/amt/20.1.257a
104171|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Control of Billbug Larvae and a Subsequent White Grub Population on a Lawn Area in Wayne County, Ohio, 1993|Arthropod Manag. Tests19:324-|1994|10.1093/amt/19.1.324
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104174|T||Dragin,N., M. Smani, S. Arnaud-Dabernat, C. Dubost, I. Moranvillier, P. Costet, J.Y. Daniel, and E. Peuchant|Acute Oxidative Stress is Associated with Cell Proliferation in the Mouse Liver|FEBS Lett.580(16): 3845-3852|2006|10.1016/j.febslet.2006.06.006
104175|T||Rubiales,D., A. Perez-de-Luque, J.I. Cubero, and J.C. Sillero|Crenate Broomrape (Orobanche crenata) Infection in Field Pea Cultivars|Crop Prot.22(6): 865-872|2003|10.1016/S0261-2194(03)00070-X
104176|T||McKenzie,C.L., B. Cartwright, J. Damicone, and K. Jackson|Evaluation of Soil Insecticides for Early Season Control of Thrips on Peanuts, 1993|Arthropod Manag. Tests19:104-105|1994|10.1093/amt/19.1.104a
104177|T||Petroianu,G.A., S.M. Nurulain, N. Nagelkerke, M. Shafiullah, J. Kassa, and K. Kuca|Five Oximes (K-27, K-48, Obidoxime, HI-6 and Trimedoxime) in Comparison with Pralidoxime:  Survival in Rats Exposed to Methyl-Paraoxon|J. Appl. Toxicol.27(5): 453-457|2007|10.1002/jat.1224
104181|T||Manning-Bog,A.B., A.L. McCormack, J. Li, V.N. Uversky, A.L. Fink, and D.A. Di Monte|The Herbicide Paraquat Causes Up-Regulation and Aggregation of alpha-Synuclein in Mice:  Paraquat and alpha-Synuclein|J. Biol. Chem.277(3): 1641-1644|2002|10.1074/jbc.C100560200
104182|A||Boone,M.D.|Examining the Single and Interactive Effects of Three Insecticides on Amphibian Metamorphosis|Environ. Toxicol. Chem.27(7): 1561-1568|2008|10.1897/07-520.1
104183|T||Da Silva,A.P., M. Farina, J.L. Franco, A.L. Dafre, J. Kassa, and K. Kuca|Temporal Effects of Newly Developed Oximes (K027, K048) on Malathion-Induced Acetylcholinesterase Inhibition and Lipid Peroxidation in Mouse Prefrontal Cortex|Neurotoxicology29(1): 184-189|2008|10.1016/j.neuro.2007.10.005
104184|T||Khattab,A.D., and I.S. Ali|Immunoassays for Avian Butyrylcholinesterase:  Implications for Ecotoxicological Testing and Clinical Biomonitoring|Environ. Toxicol. Pharmacol.24(3): 275-285|2007|10.1016/j.etap.2007.06.006
104185|T||Lasram,M.M., A.B. Annabi, N.E. Elj, S. Selmi, A. Kamoun, S. El-Fazaa, and N. Gharbi|Metabolic Disorders of Acute Exposure to Malathion in Adult Wistar Rats|J. Hazard. Mater.PRESS:19 p.|2008|
104186|T||Lasram,M.M., A.B. Annabi, R. Rezg, N. Elj, S. Slimen, A. Kamoun, S. El-Fazaa, and N. Gharbi|Effect of Short-Time Malathion Administration on Glucose Homeostasis in Wistar Rat|Pestic. Biochem. Physiol.PRESS:6 p.|2008|
104187|T||Possamai,F.P., J.J. Fortunato, G. Feier, F.R. Agostinho, J. Quevedo, D. Wilhelm Filho, and F. Dal-Pizzol|Oxidative Stress After Acute and Sub-Chronic Malathion Intoxication in Wistar Rats|Environ. Toxicol. Pharmacol.23(2): 198-204|2007|10.1016/j.etap.2006.09.003
104188|T||Rezg,R., B. Mornagui, S. El-Fazaa, and N. Gharbi|Caffeic Acid Attenuates Malathion Induced Metabolic Disruption in Rat Liver, Involvement of Acetylcholinesterase Activity|Toxicology250(1): 27-31|2008|10.1016/j.tox.2008.05.017
104189|T||Salazar,Z., Y. Ducolomb, M. Betancourt, E. Bonilla, L. Cortes, F. Hernandez-Hernandez, and H. Gonzalez-Marquez|Gene Expression Analysis on the Early Development of Pig Embryos Exposed to Malathion|Int. J. Toxicol.26(2): 143-149|2007|10.1080/10915810701226263
104190|A||Figueiredo-Fernandes,A., A. Fontainhas-Fernandes, E. Rocha, and M.A. Reis-Henriques|The Effect of Paraquat on Hepatic EROD Activity, Liver, and Gonadal Histology in Males and Females of Nile Tilapia, Oreochromis niloticus, Exposed at Different Temperatures|Arch. Environ. Contam. Toxicol.51(4): 626-632|2006|10.1007/s00244-005-0208-3
104191|A||Figueiredo-Fernandes,A., A. Fontainhas-Fernandes, F. Peixoto, E. Rocha, and M.A. Reis-Henriques|Effects of Gender and Temperature on Oxidative Stress Enzymes in Nile Tilapia Oreochromis niloticus Exposed to Paraquat|Pestic. Biochem. Physiol.85(2): 97-103|2006|10.1016/j.pestbp.2005.11.001
104192|T||Liou,H.H., R.C. Chen, Y.F. Tsai, W.P. Chen, Y.C. Chang, and M.C. Tsai|Effects of Paraquat on the Substantia Nigra of the Wistar Rats:  Neurochemical, Histological, and Behavioral Studies|Toxicol. Appl. Pharmacol.137:34-41|1996|10.1006/taap.1996.0054
104193|T||Alston,D.G., V.J. Tepedino, B.A. Bradley, T.R. Toler, T.L. Griswold, and S.M. Messinger|Effects of the Insecticide Phosmet on Solitary Bee Foraging and Nesting in Orchards of Capitol Reef National Park, Utah|Environ. Entomol.36(4): 811-816|2007|10.1093/ee/36.4.811
104194|A||Martinez-Tabche,L., E. Madrigal-Bujaidar, and T. Negrete|Genotoxicity and Lipoperoxidation Produced by Paraquat and 2,4-Dichlorophenoxyacetic Acid in the Gills of Rainbow Trout (Oncorhynchus mikiss)|Bull. Environ. Contam. Toxicol.73(1): 146-152|2004|10.1007/s00128-004-0406-0
104195|T||Butler,D.W., and P.A. Verrell|Inhibitory Effect of a Herbicide Formulation on Toxicity of Malathion to the Worm Eisenia fetida|Bull. Environ. Contam. Toxicol.75(3): 421-428|2005|10.1007/s00128-005-0770-4
104196|T||Van Driesche,R.G., J.M. Clark, M.W. Brooks, and F.J. Drummond|Comparative Toxicity of Orchard Insecticides to the Apple Blotch Leafminer, Phyllonorycter crataegella (Lepidoptera:  Gracillariidae), and Its Eulophid Parasitoid, Sympiesis marylandensis (Hymenoptera:  Eulophidae)|J. Econ. Entomol.78(4): 926-932|1985|10.1093/jee/78.4.926
104197|A||Shell Oil Co.|3,4-Dichloroaniline:  Acute Toxicity to Daphnia magna and Selenastrum capricornutum with Cover Letter|EPA/OTS Doc.#878213827:16 p.|1983|
104198|A||Shell Oil Co.|3,4 Dichloroaniline:  Chronic Toxicity to Daphnia magna|Shell Toxicology Lab, Sittingbourne, UK:27 p.|1983|
104199|T||Choi,W.I., D.A. Neher, and M.I. Ryoo|Life-History Trade-Offs of Paronychiurus kimi (Lee) (Collembola:  Onychiuridae) Populations Exposed to Paraquat|Ecotoxicol. Environ. Saf.69(2): 227-232|2008|10.1016/j.ecoenv.2007.01.008
104200|T||Demirag,K., I. Cankayali, O. Eris, A.R. Moral, and M. Pehlivan|The Comparison of Therapeutic Effects of Atropine and Pralidoxime on Cardiac Signs in Rats with Experimental Organophosphate Poisoning|Adv. Ther.22(2): 79-86|2005|10.1007/BF02849879
104201|T||Gajewski,D.|Acetylcholinesterase Activity in Several Rat Liver Cell Fractions After Repeated Poisoning with Some Organophosphates|Acta Physiol. Pol.31(5): 575-580|1980|
104202|T||Chan,P.C., J. Huff, J.K. Haseman, R. Alison, and J.D. Prejean|Carcinogenesis Studies of Dichlorvos in Fischer Rats and B6C3F1 Mice|Jpn. J. Cancer Res.82(2): 157-164|1991|10.1111/j.1349-7006.1991.tb01823.x
104203|T||Tsao,W.V., and B.M. Reed|Gelling Agents, Silver Nitrate, and Sequestrene Iron Influence Adventitious Shoot and Callus Formation from Rubus Leaves|In Vitro Cell. Dev. Biol.38(1): 29-32|2002|10.1079/IVP2001245
104204|T||Quilez,J., C. Sanchez-Acedo, C. Avendano, E. Del Cacho, and F. Lopez-Bernad|Efficacy of Two Peroxygen-Based Disinfectants for Inactivation of Cryptosporidium parvum Oocysts|Appl. Environ. Microbiol.71(5): 2479-2483|2005|10.1128/AEM.71.5.2479-2483.2005
104205|A||Bielmyer,G.K., M. Grosell, P.R. Paquin, R. Mathews, K.B. Wu, R.C. Santore, and K.V. Brix|Validation Study of the Acute Biotic Ligand Model for Silver|Environ. Toxicol. Chem.26(10): 2241-2246|2007|10.1897/06-634R.1
104206|A||Dethloff,G.M., R.B. Naddy, and J.W. Gorsuch|Effects of Sodium Chloride on Chronic Silver Toxicity to Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.26(8): 1717-1725|2007|10.1897/06-539R.1
104207|T||Dozsa,L., and N.O. Olson|The Effect of Various Antibiotics on the Uterine Mucosa of Vibrio Fetus-Infected Cows|Am. J. Vet. Res.25(104): 108-117|1964|
104208|T||Park,J.C., and G.M. Cohen|Further Observations of Vestibular Ototoxicity in the Chick:  Effects of Streptomycin on the Ampullary Sensory Epithelium|Am. J. Otolaryngol.5(6): 387-393|1984|10.1016/S0196-0709(84)80053-8
104209|T||De Quiroz,R., P. Sutmoller, and M. Barroeta|Factors Associated with Anaphylactic Reactions to Chicken Embryo Foot-and-Mouth Disease Vaccine and Flury Rabies Vaccine in Cattle of Venezuela|Am. J. Vet. Res.25:1627-1634|1964|
104210|T||Abd-Elaah,G.A., and A.A. Galal|Effect of Benomyl Treated Garlic on Growth and Sporulation of Pythium aphanidermatum and Achlya americana|Pak. J. Biol. Sci.9(5): 898-903|2006|10.3923/pjbs.2006.898.903
104212|T||Singh,N.|Effect of Selenium and Sulphur on the Growth and Yield of Raya (Brassica juncea Coss.) in Normal and Sodic Soils|Agric. Agro-Ind. J.10(7): 31-34|1977|
104213|T||Blitek,D., K. Pienkowska, H. Gajcy, and J. Koziorowska|Mutagenicity of Oxytetracycline|Mutat. Res.117(1/2): 193-199|1983|10.1016/0165-1218(83)90167-2
104214|T||MacDonald,N.S., K.H. Ibsen, and M.R. Urist|Effect of Tetracycline on Retention of Calcium and Strontium in Rodents|Proc. Soc. Exp. Biol. Med.115:1125-1128|1964|10.3181/00379727-115-29132
104215|T||Saveetha,K., A. Sankaralingam, A. Ramanathan, and R. Pant|Symptoms, Epidemiology and Management of Finger Millet Mottle Streak Disease|Arch. Phytopathol. Plant Prot.39(6): 409-419|2006|10.1080/03235400500320414
104216|T||Burchiel,S.W., W.M. Hadley, C.L. Cameron, R.H. Fincher, T.W. Lim, L. Elias, and C.C. Stewart|Analysis of Heavy Metal Immunotoxicity by Multi-Parameter Flow Cytometry:  Correlation of Flow Cytometry and Immune Function Data in B6CF1 Mice|Int. J. Immunopharmacol.9(5): 597-610|1987|10.1016/0192-0561(87)90127-5
104217|T||Huntington Research Center Ltd.|Initial Submission: O,O-Dimethyl-O-(2-Dimethylamino-6-Methyl-4-Pyrimidinlyl)-Phosphorothioate:  Oral Toxicity Studies in Dogs with Cover Letter Dated 082892|EPA/OTS Doc.#88-920006845:88 p.|1992|
104218|T||Empey,L.R., N. Cui, and R.N. Fedorak|Acetic Acid-Induced Colitis Results in Bystander Ileal Injury|Agents Actions38(1-2): 76-84|1993|10.1007/BF02027217
104219|T||Davis,A.R., and R.W. Shuel|Distribution of 14C-Labelled Carbofuran and Dimethoate in Royal Jelly, Queen Larvae and Nurse Honeybees|Apidologie19(1): 37-50|1988|10.1051/apido:19880103
104220|T||Lowe,K.F., P.W. Langdon, and T.M. Bowdler|Combined Effects of Leaf Spot Diseases Caused by Stemphylium vesicarium (Wallr.) Simmons and Leptosphaerulina trifolii (Rostr.) Petr. on Lucerne Cultivars, and the Efficacy of Some Fungicidal Control Methods|Aust. J. Exp. Agric.27(1): 59-65|1987|10.1071/EA9870059
104221|T||Green,C.H., M.J.R. Hall, M. Fergiani, J. Chirico, and M. Husni|Attracting Adult New World Screwworm, Cochliomyia hominivorax, to Odour-Baited Targets in the Field|Med. Vet. Entomol.7(1): 59-65|1993|10.1111/j.1365-2915.1993.tb00652.x
104222|T||E.I. Du Pont De Nemours|Initial Submission:  Subchronic Oral Toxicity: 90-Day Study with in 43898 90-Day Feeding and One-Generation Reproduction Study in Rats (Final Report) w-Attach & Letter Dated 032792|EPA/OTS Doc.#88-920001518:181 p.|1992|
104223|T||Bayer Corp.|Support:  A Developmental Toxicity Study with Propylene Thiourea in the Sprague-Dawley Rat, with TSCA Health & Safety Study Cover Sheet Dated 1/8/1998|EPA/OTS Doc.#89980000095:111 p.|1998|
104224|T||Alam,M., and A.D. Anjum|Effect of Sulphur on Serum Proteins of Fayoumi Chickens|Pak. Vet. J.18(2): 64-67|1998|
104226|T||O'Neill,D.K., and S.P. Hebden|Investigation of Sheep Dips.  Part I - Mixtures of Lime Sulphur and Organic Phosphorus Compounds|Aust. Vet. J.42(6): 207-213|1966|10.1111/j.1751-0813.1966.tb04691.x
104227|T||Hordt,W., V. Romheld, and G. Winkelmann|Fusarinines and Dimerum Acid, Mono- and Dihydroxamate Siderophores from Penicillium chrysogenum, Improve Iron Utilization by Strategy I and Strategy II Plants|BioMetals13(1): 37-46|2000|10.1023/A:1009234612486
104228|T||Naseer,F., and M. Alam|The Protective Effect of Ascorbic Acid on Oxytetracycline Induced Nephrotoxicity and Hepatotoxicity|J. Pak. Med. Assoc.37(3): 73-75|1987|
104229|T||Liu,M., S. Okada, and T. Kawabata|"Radical-Promoting ""Free"" Iron Level in Ferric Nitrilotriacetate and Other Iron Chelate Complexes"|Int. Congr. Ser.998:95-97|1992|
104230|T||Cook,R.J., and F.A. Culshaw|Effects of Fungicide on Winter Wheat Grown to Organic Standards|Tests Agrochem. Cultiv.10:72-73|1989|
104232|T||Klimo,E., J. Kulhavy, J. Prietzel, and K.E. Rehfuess|Impact of Simulated Acidification and Liming on Forest Soils and Norway Spruce (Picea abies (L.) Karst.) Seedling Growth in a Container Experiment|Ekologia (Bratisl.)18(4): 413-431|1999|
104233|T||Low,J.C., P.R. Scott, F. Howie, M. Lewis, J. Fitzsimons, and J.A. Spence|Sulphur-Induced Polioencephalomalacia in Lambs|Vet. Rec.138(14): 327-329|1996|10.1136/vr.138.14.327
104234|T||Olkowski,A.A., and S.R. Gooneratne|High Dietary Sulphur Induced Polioencephalomalacia in Sheep|Proc. N. Z. Plant Prot. Conf.:112-115|1992|
104235|T||Johnson,G.V., and G.J. Youngblood|Responses of Nitrogen-Fixing and Nitrate-Supplied Alfalfa (Medicago sativa L.) to Iron Chelates in an Alkaline Hydroponic Medium|Plant Soil130(1-2): 219-224|1991|10.1007/BF00011876
104236|T||Yeritsyan,N., and C. Economakis|Effect of Nutrient Solution's Iron Concentration on Growth and Essential Oil Content of Oregano Plants Grown in Solution Culture|Acta Hortic.576:277-283|2002|10.17660/ActaHortic.2002.576.41
104239|T||Kanoh,S., H. Kawasaki, M. Yoshida, and A. Nishio|Studies on Chronic Toxicity of the low Levels of O,O-Dimethyl O-(3-Methyl-4-Nitrophenyl) Phosphorothionate (Sumithion) in the Rat|J. Toxicol. Sci.7(1): 43-50|1982|10.2131/jts.7.43
104240|A||Tantawy,A.A.|Molluscicidal Effect of Fenitrothion and Anilofos on Lymnaea natalensis and Biomphalaria alexandrina Snails and on the Free Larval Stages of Schistosoma mansoni|J. Egypt. Soc. Parasitol.36(2): 629-642|2006|
104241|T||Nair,K.S., K. Trivedy, S.B. Magadum, and R.K. Datta|Improvement of Economic Characters of Mulberry Silkworm, Bombyx mori L. by a Phytohormone, Abscisic Acid|J. Entomol. Res.21(4): 343-349|1997|
104242|T||Tunca,J.C., E. Erturk, and G.T. Bryan|Chemical Induction of Ovarian Tumors in Rats|Gynecol. Oncol.21(1): 54-64|1985|10.1016/0090-8258(85)90232-X
104243|T||Yamamoto,T., T. Egashira, T. Yoshida, and Y. Kuroiwa|Comparison of the Effect of an Equimolar and low Dose of Fenitrothion and Methylparathion on Their Own Metabolism in Rat Liver|J. Toxicol. Sci.7(1): 35-41|1982|10.2131/jts.7.35
104244|T||Nag,A., and J.J. Ghosh|Myelin Basic Protein Phosphorylation in Sumithion Treated Pigeon and Rat|IRCS (Int. Res. Commun. Syst.) Med. Sci.14(3): 220-221|1986|
104245|A||Raizada,M.N., S. Raizada, and K.K. Jain|Acute Effect of Sumithion on Certain Blood Parameters and Mortality Rate of Fish, Heteropneustes fossilis (Bloch)|J. Indian Fish. Assoc.21:51-53|1991|
104246|T||Anand,M., K. Seth, G.S.D. Gupta, P.K. Seth, R. Kumar, N.H. Rehmani, and O. Tripathi|Fenitrothion-Mediated Decrease in Muscarinic Acetylcholine-Receptor Content and Increase Ca45 Influx in Guinea Pig Heart|Toxicol. Environ. Chem.29(2): 101-106|1990|10.1080/02772249009357624
104247|T||Linder,R.E., G.L. Rehnberg, L.F. Strader, and J.P. Diggs|Evaluation of Reproductive Parameters in Adult Male Wistar Rats After Subchronic Exposure (Gavage) to Benomyl|J. Toxicol. Environ. Health25(3): 285-298|1988|10.1080/15287398809531210
104248|T||Khan,P.K., and S.P. Sinha|Vitamin C Mediated Amelioration of Pesticide Genotoxicity in Murine Spermatocytes|Cytobios80(323): 199-204|1994|
104249|T||Gupta,P.K., and M. Ehrnebo|Pharmacokinetics of alpha- and beta-Isomers of Racemic Endosulfan Following Intravenous Administration in Rabbits|Drug Metab. Dispos.7(1): 7-10|1979|
104250|T||Lentza-Rizos,C., and A. Chitzanidis|Residues of Benomyl on and in Fresh and Canned Peaches Following Treatments to Control Storage Decay|Ann. Inst. Phytopathol. Benaki (Multiple Languages)17(2): 121-130|1995|
104251|T||U.S.Department of Health|Screening of Priority Chemicals for Reproductive Hazards (Final Report)|EPA/OTS Doc.#40-8378053:115 p.|2000|
104252|AT||Union Carbide Corp.|Health and Safety Studies for 19 Chemicals with Cover Letter Dated 060289|EPA/OTS Doc.#86-890000263:1236 p.|1972|
104253|T||Nomura,T., S. Kimura, T. Kanzaki, H. Tanaka, K. Shibata, H. Nakajima, Y. Isa, N. Kurokawa, T. Hatanaka, M. Kinuta, K. M|Induction of Tumors and Malformations in Mice After Prenatal Treatment with Some Antibiotic Drugs|Med. J. Osaka Univ.35(1-2): 13-17|1984|
104254|T||Meza,G., B. Bohne, N. Daunton, R. Fox, and J. Knox|Damage and Recovery of Otolithic Function Following Streptomycin Treatment in the Rat|Ann. N. Y. Acad. Sci.781:666-669|1996|10.1111/j.1749-6632.1996.tb15754.x
104255|T||E.I. Du Pont De Nemours|Initial Submission:  Acute Dermal Toxicity Study with IN-43898-16 in Rabbits with Cover Letter Dated 061592 and Attachments|Du Pont, Newark, DE:28 p.|1992|
104256|T||Sundaram,K.M.S., and W.W. Hopewell|Distribution, Persistence and Translocation of Orthene in Spruce Trees After Simulated Aerial Spray Application|Information Report CC-X-121, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:27 p.|1976|
104257|T||Kopsell,D.A., and W.M. Randle|Genetic Variances and Selection Potential for Selenium Accumulation in a Rapid-Cycling Brassica oleracea Population|J. Am. Soc. Hortic. Sci.126(3): 329-335|2001|10.21273/JASHS.126.3.329
104258|T||Quarterman,J., J.N. Morrison, W.R. Humphries, and C.F. Mills|The Effect of Dietary Sulphur and of Castration on Lead Poisoning in Lambs|J. Comp. Pathol.87(3): 405-416|1977|10.1016/0021-9975(77)90030-5
104259|T||Van Ryssen,J.B.J., P.S.M. Van Malsen, and F. Hartmann|Contribution of Dietary Sulphur to the Interaction Between Selenium and Copper in Sheep|J. Agric. Sci.130:107-114|1998|10.1017/S0021859697005030
104260|T||Singh,K., and K.C. Gulati|Note on the Effect of Di-Syston and Thimet on Germination Emergence and Growth of the Seedlings of Sorghum|Indian J. Agric. Res.7(3/4): 186-188|1973|
104261|T||Miransari,M., and D.L. Smith|Overcoming the Stressful Effects of Salinity and Acidity on Soybean Nodulation and Yields Using Signal Molecule Genistein Under Field Conditions|J. Plant Nutr.30(12): 1967-1992|2007|10.1080/01904160701700384
104262|T||Kumawat,R.N., P.S. Rathore, N.S. Nathawat, and M. Mahatma|Effect of Sulfur and Iron on Enzymatic Activity and Chlorophyll Content of Mungbean|J. Plant Nutr.29(8): 1451-1467|2006|10.1080/01904160600837162
104263|T||Koralewska,A., F.S. Posthumus, C.E.E. Stuiver, P. Buchner, M.J. Hawkesford, and L.J. De Kok|The Characteristic High Sulfate Content in Brassica oleracea is Controlled by the Expression and Activity of Sulfate Transporters|Plant Biol.9(5): 654-661|2007|10.1055/s-2007-965438
104264|T||Olkowski,A.A., S.R. Gooneratne, C.G. Rousseaux, and D.A. Christensen|Role of Thiamine Status in Sulphur Induced Polioencephalomalacia in Sheep|Res. Vet. Sci.52(1): 78-85|1992|10.1016/0034-5288(92)90062-7
104265|T||Venkov,T., and H. Stanchev|Effect of Selenium on the 35S-Cysteine Metabolism in Lambs|Dokl. S-kh. Akad. Georgiya Dimitrova8(3): 97-100|1975|
104266|T||Das,N.M., D. Dale, and K.S. Pillai|Persistence of Some Systemic Insecticides in Cowpea, when Applied as Granules in Different Soil Types of Kerala|Agric. Res. J. Kerala13(2): 175-178|1975|
104268|T||Terziev,G., N. Dimitrova, and F. Rusev|Forensic Medical and Forensic Chemical Study of Acute Lethal Poisonings with Thiodan|Folia Med.16(5-6): 325-329|1974|
104269|A||Lopes-Lima,M., G. Moura, B. Pratoomchat, and J. Machado|Correlation Between the Morpho-Cytohistochemistry of the Outer Mantle Epithelium of Anodonta cygnea with Seasonal Variations and Following Pollutant Exposure|Mar. Freshw. Behav. Physiol.39(3): 235-243|2006|10.1080/10236240600842691
104270|A||Damasio,J., L. Guilhermino, A.M.V.M. Soares, M.C. Riva, and C. Barata|Biochemical Mechanisms of Resistance in Daphnia magna Exposed to the Insecticide Fenitrothion|Chemosphere70(1): 74-82|2007|10.1016/j.chemosphere.2007.07.026
104271|T||Mason,D.T., J.A.T. Woodford, and D.L. Trudgill|The Effect of Benomyl on Some Invertebrate Inhabitants of a Red Raspberry, Rubus idaeus, Plantation in Relation to Fruit Yield|Ann. Appl. Biol.98(1): 43-51|1981|10.1111/j.1744-7348.1981.tb00421.x
104273|A||Monsanto Co.|Comparative Toxicity of Aniline with Cover Letter|EPA/OTS Doc.# 878211204:1500 p.|1982|
104276|A||Monsanto Co.|Acute Toxicity of ACD to Daphnia magna|EPA/OTS Doc.#878211019:29 p.|1983|
104277|A||Monsanto Co.|Acute Toxicity of ACD to Fathead Minnows (Pimephales promelas)|EPA/OTS Doc.#878211017:44 p.|1983|
104278|A||Monsanto Co.|Acute Toxicity of ACD to Rainbow Trout (Salmo gairdneri)|EPA/OTS Doc.#878211018:32 p.|1983|
104279|A||Monsanto Co.|Dynamic Toxicity of ACD to Fathead Minnows (Pimephales promelas)|EPA/OTS Doc.#878211021:130 p.|1983|
104280|A||Shell Oil Co.|Field Validation of the Chronic Toxicity of 3,4-Dichloroaniline to Populations of Daphnia|Shell Chem.Corp.,New York, NY:38 p.|1984|
104281|T||Singh,S.P., A.N. Verma, and G.P. Lodhi|Yield Losses Caused by Stem Borer (Chilo partellus Swinhoe) in Forage Sorghum|Crop Res. (Hisar)2(2): 190-193|1989|
104282|T||Korolev,N., T. Katan, and Y. Elad|Use of Selenate-Resistant Strains as Markers for the Spread and Survival of Botrytis cinerea Under Greenhouse Conditions|Phytopathology96(11): 1195-1203|2006|10.1094/PHYTO-96-1195
104283|A||Kashiwada,S., K. Mochida, Y. Ozoe, and T. Nakamura|Metabolism of Fenitrothion in Several Brackish and Marine Zooplankton Species|J. Pestic. Sci. (Multiple Languages)23(3): 308-311|1998|10.1584/jpestics.23.308
104285|T||Jan,H., M. Subhan, M. Yaqoobi, R. Jan, and S.B. Khan|Effect of Fertilization, Rhizobium Inoculation and Carbofuran on Nodulation and Yield of Lentil|Sarhad J. Agric.10(4): 425-430|1994|
104286|T||Singh,U.C., S.V. Dhamdhere, U.S. Misra, and N.S. Bhadauria|Seasonal Incidence and Toxicity of Some Newer Insecticides Against Myllocerus undecimpustulatus maculosus Desb.|Indian J. Agric. Res.25(3): 119-124|1991|
104287|A||Lee,K.W., S. Raisuddin, D.S. Hwang, H.G. Park, H.U. Dahms, I.Y. Ahn, and J.S. Lee|Two-Generation Toxicity Study on the Copepod Model Species Tigriopus japonicus|Chemosphere72:1359-1365|2008|10.1016/j.chemosphere.2008.04.023
104288|T||Riley,D.G.|Control of the Sweetpotato Whitefly in Cantaloupe with Adjuvants, Endosulfan and Amitraz, 1991|Insectic. Acaric. Tests17:95|1992|
104289|T||Speese III,J.|Use of Soil and Foliar Insecticides to Control Cucumber Beetles in Fall Squash, 1993|Arthropod Manag. Tests19:145-|1994|10.1093/amt/19.1.145
104290|A||Mukhi,A.K., and U.C. Shukla|Iron and Zinc Relationship in Rice Grown in Submerged Soils|J. Indian Soc. Soil Sci.35(4): 685-689|1987|
104291|T||Varnagy,L.|Degradation of Some Pesticides in Avian Embryos|Acta Vet. Hung.47(1): 117-122|1999|10.1556/avet.47.1999.1.12
104293|T||Miller,P.M.|Suppression by Benomyl and Thiabendazole of Root Invasion by Heterodera tabacum|Plant Dis. Rep.53(12): 963-966|1969|
104295|T||Mollet,P.|Lack of Proof of Induction of Somatic Recombination and Mutation in Drosophila by Methyl-2- Benzimidazole Carbamate, Dimethyl Sulfoxide and Acetic Acid|Mutat. Res.40(4): 383-388|1976|10.1016/0165-1218(76)90037-9
104296|T||Tomimaru,A., K. Arimori, N. Inotsume, and M. Nakano|Effect of Activated Charcoal and Atropine on Absorption and/or Exsorption of Organophosphorus Compounds in Rats|J. Pharm. Pharmacol.48(4): 351-356|1996|10.1111/j.2042-7158.1996.tb05932.x
104297|T||Fogal,W.H., S.M. Lopushanski, D.A. MacLeod, and D.A. Winston|Soil Incorporation of Carbufuran for Protecting Black Spruce Seed Trees from Insects|Proc. Entomol. Soc. Ont.119:69-78|1988|
104298|T||Pandit,N.C., and S. Chakravorty|Relative Toxicity of Some Insecticides to Adults of Mesta Flea-Beetle, Nisotra orbiculata (Mots.) (Coleoptera: Chrysomelidae)|Indian J. Agric. Sci.56(2): 136-138|1986|
104299|T||Moon,C.K., Y.P. Yun, S.H. Lee, and Y.S. Lee|Effects of Some Organophosphate Pesticides on the Murine Immune System Following Subchronic Exposure (I)|Arch. Pharm. Res. (Seoul)9(3): 175-181|1986|10.1007/BF02900003
104300|T||Moon,C.K., Y.P. Yun, and S.H. Lee|Effects of Some Organophosphate Pesticides on the Murine Immune System Following Subchronic Exposure (II)|Arch. Pharm. Res. (Seoul)9(3): 183-187|1986|10.1007/BF02900004
104301|T||Wysocka-Paruszewska,B.|The Effect of Fenitrothion on the Excretion of 4-Hydroxy-3-Methoxymandelic Acid with Rat Urine|Pol. J. Pharmacol. Pharm.25(6): 617-620|1973|
104302|A||Fancey,L.L., J.F. Payne, M.A. Barnes, and R.N. McCubbin|Acetylcholinesterase Enzyme Activity in Fish Sampled After the 1985 Newfoundland Forest Spray Program for Eastern Hemlock Looper Using Fenitrothion|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1579:10 p.|1987|
104303|A||Fancey,L.L., J.F. Payne, J.W. Kiceniuk, and S. Ray|Acetylcholinesterase Enzyme Activity in Brain Tissue of Brook Trout (Salvelinus fontinalis) Collected After the 1988 Hemlock Looper Control Program in Newfoundland|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1763:11 p.|1990|
104304|T||Kontek,R., R. Osiecka, and B. Kontek|Clastogenic and Mitodepressive Effects of the Insecticide Dichlorvos on Root Meristems of Vicia faba|J. Appl. Genet.48(4): 359-361|2007|10.1007/BF03195232
104305|T||Maslinska,D., and Z. Zalewska|Activity of Some Mitochondrial Enzymes in the Progeny of Rabbits Treated with Dichlorvos in the Gestation Period|Folia Histochem. Cytochem.16(2): 139-146|1978|
104306|T||Puttaswamy, and G.P. Channabasavanna|Effect of Some Important Acaricides on the Predator Stethorus pauperculus Weise (Coleoptera: Coccinellidae) and Its Host Tetranychus cucurbitae Rahman and Sapra|Mysore J. Agric. Sci.10(4): 636-641|1976|
104307|AT||Mallipudi,N.M., A.H. Lee, I.P. Kapoor, and G.J. Hollingshaus|Synthesis and Insecticidal Activity of Novel N-Oxalyl-N-Methylcarbamates|J. Agric. Food Chem.42(4): 1019-1025|1994|10.1021/jf00040a035
104308|T||Wadhwa,V., P.P. Bakre, and V.P. Bakre|Avian Adrenal Response to Furadan SP 50|J. Environ. Biol.12(1): 1-7|1991|
104309|T||Gupta,R.C., and J.T. Goad|Role of High-Energy Phosphates and Their Metabolites in Protection of Carbofuran-Induced Biochemical Changes in Diaphragm Muscle by Memantine|Arch. Toxicol.74(1): 13-20|2000|10.1007/s002040050646
104310|T||Gupta,R.C., J.T. Goad, and W.L. Kadel|Carbofuran-Induced Alterations (In Vivo) in High-Energy Phosphates, Creatine Kinase (CK) and CK Isoenzymes|Arch. Toxicol.65(4): 304-310|1991|10.1007/BF01968964
104311|T||Gupta,R.C., and W.L. Kadel|Concerted Role of Carboxylesterases in the Potentiation of Carbofuran Toxicity by iso-OMPA Pretreatment|J. Toxicol. Environ. Health26(4): 447-457|1989|10.1080/15287398909531268
104312|T||Baligar,P.N., and B.B. Kaliwal|Temporal Effect of Carbofuran on Estrous Cycle Compensatory Ovarian Hypertrophy and Follicles in Hemiovariectomized Albino Mice|Environ. Toxicol. Pharmacol.15(2-3): 71-77|2004|10.1016/j.etap.2003.10.007
104313|T||Chauhan,L.K.S., N. Pant, S.K. Gupta, and S.P. Srivastava|Induction of Chromosome Aberrations, Micronucleus Formation and Sperm Abnormalities in Mouse Following Carbofuran Exposure|Mutat. Res.465(1/2): 123-129|2000|10.1016/S1383-5718(99)00219-3
104314|T||Baligar,P.N., and B.B. Kaliwal|Reproductive Toxicity of Carbofuran to the Female Mice:  Effects on Estrous Cycle and Follicles|Ind. Health40(4): 345-352|2002|10.2486/indhealth.40.345
104315|T||Goad,R.T., J.T. Goad, B.H. Atieh, and R.C. Gupta|Carbofuran-Induced Endocrine Disruption in Adult Male Rats|Toxicol. Mech. Methods14(4): 233-239|2004|10.1080/15376520490434476
104316|T||Varga,T., I. Hlubik, P. Budai, E. Molnar, and L. Varnagy|Individual and Combined Toxicity of Sumithion 50 EC and Fusilades on Pheasant Embryos|Meded. Fac. Landbouwwet. Rijksuniv. Gent62(2a): 259-264|1997|
104317|A||Agrawal,S.C., and Manisha |Growth, Survival and Reproduction in Chlorella vulgaris and C. variegata with Respect to Culture Age and Under Different Chemical Factors|Folia Microbiol. (Prague)52(4): 399-406|2007|10.1007/BF02932095
104318|T||Kumar,R., M.S. Panwar, J.K. Dang, and A. Kalra|Comparison of Plant Products with Fungicides for the Control of Ergot of Pearl Millet|Crop Res. (Hisar)10(1): 90-92|1995|
104319|T||Ivanova-Chemishanska,L., T. Vergieva, G. Antonov, and E. Mirkova|Study on the Long-Term Effects of Some Pesticides|J. Hyg. Epidemiol. Microbiol. Immunol.24(3): 295-302|1980|
104320|T||Dane,F., and O. Dalgic|The Effects of Fungicide Benomyl (Benlate) on Growth and Mitosis in Onion (Allium cepa L.) Root Apical Meristem|Acta Biol. Hung.56(1-2): 119-128|2005|10.1556/ABiol.56.2005.1-2.12
104321|T||Tanino,K.K., L. Matthews, E. Wasif, A. Shenouda, B. Gilliland, and M.P.M. Nair|Abscisic Acid and Estrogen Effects on Flowering and Phenotypic Traits in Melon (Cucumis melo cv. 'Earligold') and Pumpkin (Cucurbita pepo cv. 'Baby Bear')|Acta Hortic.588:97-101|2002|10.17660/ActaHortic.2002.588.14
104322|T||Plowright,R.A., D. Matias, T. Aung, and T.W. Mew|The Effect of Pratylenchus zeae on the Growth and Yield of Upland Rice|Rev. Nematol.13(3): 283-292|1990|
104324|A||University of Mississippi|Effects of Atrazine on Selenastrum capricornutum, Lemna minor, and Elodea canadensis|Report to CIBA-GEIGY Corporation, Greensboro, NC:122 p.|1991|
104325|A||Perkins,E.J.,Jr.|Characterization of the Hepatic Cytochrome P450 Monooxygenase System and Its Role in the Toxicity of Aldicarb in Channel Catfish (Ictalurus punctatus)|Ph.D Thesis, University of Mississippi, University, MS:154 p.|1999|
104326|T||Mailhes,J.B., and M.J. Aardema|Benomyl-Induced Aneuploidy in Mouse Oocytes|Mutagenesis7(4): 303-309|1992|10.1093/mutage/7.4.303
104327|T||Hurej,M., J. Krol, and R.J. Pomorski|Effects of Granular Insecticides or Sugar-Beet Dressing on Some Sugar-Beet Pests and Soil Fauna of Mites and Springtails|Pol. J. Entomol.63(1-2): 183-196|1994|
104328|T||Blake,T.J., E. Bevilacqua, G.A. Hunt, and S.R. Abrams|Effects of Abscisic Acid and Its Acetylenic Alcohol on Dormancy, Root Development and Transpiration in Three Conifer Species|Physiol. Plant. (Multiple Languages)80(3): 371-378|1990|10.1111/j.1399-3054.1990.tb00055.x
104329|AT||Li,Z.Y., and S.Y. Chen|Differential Accumulation of the S-Adenosylmethionine Decarboxylase Transcript in Rice Seedlings in Response to Salt and Drought Stresses|Theor. Appl. Genet.100(5): 782-788|2000|10.1007/s001220051352
104330|T||Aurisano,N., A. Bertani, M. Mattana, and R. Reggiani|Abscisic Acid Induced Stress-Like Polyamine Pattern in Wheat Seedlings, and Its Reversal by Potassium Ions|Physiol. Plant. (Multiple Languages)89(4): 687-692|1993|10.1111/j.1399-3054.1993.tb05274.x
104331|T||Kontos,F., C.G. Spyropoulos, A. Griffen, and J.D. Bewley|Factors Affecting Endo-beta-Mannanase Activity in the Endosperms of Fenugreek and Carob Seeds|Seed Sci. Res.6(1): 23-29|1996|10.1017/S0960258500002968
104332|A||Smart,C.C., and A.J. Trewavas|Abscisic-Acid-Induced Turion Formation in Spirodela polyrrhiza L. III. Specific Changes in Protein Synthesis and Translatable RNA During Turion Development|Plant Cell Environ.7(2): 121-132|1984|10.1111/j.1365-3040.1984.tb01565.x
104333|T||Murray,R.A.|Bioassay of Residues on Cox's Orange Pippin Apples Following Summer Sprays of Benomyl|Ann. Appl. Biol.87(1): 47-50|1977|10.1111/j.1744-7348.1977.tb00657.x
104334|T||Stennes,M.A., and D.W. French|Distribution and Retention of Thiabendazole Hypophosphite and Carbendazim Phosphate Injected into Mature American Elms|Phytopathology77(5): 707-712|1987|10.1094/Phyto-77-707
104339|T||Singh,P.P., and G.C. Varma|Comparative Toxicities of Some Insecticides to Chrysoperla carnea (Chrysopidae: Neuroptera) and Trichogramma brasiliensis (Trichogrammatidae: Hymenoptera), Two Arthropod Natural Enemies of Cotton Pests|Agric. Ecosyst. Environ.15(1): 23-30|1986|10.1016/0167-8809(86)90110-6
104340|A||Glover,C.N., D. Petri, K.E. Tollefsen, N. Jorum, R.D. Handy, and M.H.G. Berntssen|Assessing the Sensitivity of Atlantic Salmon (Salmo salar) to Dietary Endosulfan Exposure Using Tissue Biochemistry and Histology|Aquat. Toxicol.84(3): 346-355|2007|10.1016/j.aquatox.2007.06.013
104341|T||Misu,Y., T. Segawa, I. Kuruma, M. Kojima, and H. Takagi|Subacute Toxicity of O,O-Dimethyl O-(3-Methyl-4-Nitrophenyl) Phosphorothioate (Sumithion) in the Rat|Toxicol. Appl. Pharmacol.9(1): 17-26|1966|10.1016/0041-008X(66)90025-1
104342|T||Rondeau,D.B., L. Young, D. Hebert, and B.L. Trottier|Behavioral Toxicity of Chronic Administration of Fenitrothion in Rats|Neurobehav. Toxicol. Teratol.3(3): 313-319|1981|
104343|T||Hladka,A., and V. Krampl|Effect of S-Methylfenitrothion on the Activity of Cholinesterase and on the Excretion of Its Metabolites in Rats|Int. Arch. Occup. Environ. Health36(1): 67-73|1975|10.1007/BF01267853
104344|A||Blateau,D., Y. Le Coguic, E. Mialhe, and H. Grizel|Mussel (Mytilus edulis) Treatment Against the Red Copepod Mytilicola intestinalis|Aquaculture107(2-3): 165-169|1992|10.1016/0044-8486(92)90062-P
104345|T||Sundaram,K.M.S., A.G. Raske, A. Retnakaran, A. Sundaram, and R.J. West|Effect of Formulation Properties on Ground and Foliar Deposits of Two Insecticides in Flushed and One Year-Old Balsam Fir Needles Following Aerial Application|Pestic. Sci.21(2): 105-118|1987|10.1002/ps.2780210204
104346|A||Caunter,T., and P. Weinberger|Effects of Algae on the Aquatic Persistence of Fenitrothion|Water Pollut. Res. J. Can.23(3): 388-395|1988|
104347|A||Kobayashi,K., R.M. Rompas, N. Imada, and Y. Oshima|Mechanism of Abrupt Increase in Toxicity of Organophosphorothionates to Tiger Shrimp Larvae with Progress of Stages|Water Sci. Technol.23(1-3): 487-496|1991|10.2166/wst.1991.0448
104348|T||Konno,Y., and T. Shishido|Inheritance of Resistance to Fenitrothion and Pirimiphos-Methyl in the Rice Stem Borer, Chilo suppressalis (Lepidoptera:  Pyralidae)|Appl. Entomol. Zool.26(4): 535-541|1991|10.1303/aez.26.535
104349|T||Shell Oil Co.|OECD Ring Test:  Toxicity of Trichloroaniline to Three Species of Terrestrial Plant|EPA/OTS Doc.# 878213829:28 p.|1982|
104354|T||Cherry,E.T.|The Effects of Carbofuran and Disulfoton on Certain Beneficial and Destructive Insects Occurring on Burley Tobacco|Ph.D.Thesis, University of Tennessee, Knoxville, TN:80 p.|1970|
104355|T||Babiychuk,E., S. Kushnir, E. Belles-Boix, M. Van Montagu, and D. Inze|Arabidopsis thaliana NADPH Oxidoreductase Homologs Confer Tolerance of Yeasts Toward the Thiol-Oxidizing Drug Diamide|J. Biol. Chem.270(44): 26224-26231|1995|10.1074/jbc.270.44.26224
104356|T||Alonso,J.M., T. Hirayama, G. Roman, S. Nourizadeh, and J.R. Ecker|EIN2, a Bifunctional Transducer of Ethylene and Stress Responses in Arabidopsis|Science284(5423): 2148-2152|1999|10.1126/science.284.5423.2148
104357|T||Bai,Z., L.M. Harvey, and B. McNeil|Use of the Chemiluminescent Probe Lucigenin to Monitor the Production of the Superoxide Anion Radical in a Recombinant Aspergillus niger (B1-D)|Biotechnol. Bioeng.75(2): 204-211|2001|10.1002/bit.1180
104358|T||Berruyer,C., F.M. Martin, R. Castellano, A. Macone, F. Malergue, S. Garrido-Urbani, V. Millet, J. Imbert, S. Dupre, G. |Vanin-1-/- Mice Exhibit a Glutathione-Mediated Tissue Resistance to Oxidative Stress|Mol. Cell. Biol.24(16): 7214-7224|2004|10.1128/MCB.24.16.7214-7224.2004
104359|T||Celik,I., and H. Suzek|Effects of Subacute Exposure of Dichlorvos at Sublethal Dosages on Erythrocyte and Tissue Antioxidant Defense Systems and Lipid Peroxidation in Rats|Ecotoxicol. Environ. Saf.72(3): 905-908|2009|10.1016/j.ecoenv.2008.04.007
104360|T||Choudhary,S., and K.D. Gill|Protective Effect of Nimodipine on Dichlorvos-Induced Delayed Neurotoxicity in Rat Brain|Biochem. Pharmacol.62(9): 1265-1272|2001|10.1016/S0006-2952(01)00762-6
104361|A||Cengiz,E.I., and E. Unlu|Histopathology of Gills in Mosquitofish, Gambusia affinis After Long-Term Exposure to Sublethal Concentrations of Malathion|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(5): 581-589|2003|
104362|T||Levine,M.|The Effect of Colchicine and Acenaphthene in Combination with X-Rays on Plant Tissue - III|Bull. Torrey Bot. Club73(2): 167-183|1946|10.2307/2481614
104364|A||Shaikh,N., and S.G. Yeragi|Effect of Rogor 30 E (Organo Phosphate) on Muscle Protein in the Freshwater Fish Lepidocephalecthyes thermalis|J. Ecotoxicol. Environ. Monit.14(3): 233-235|2004|
104366|T||Castillo,B., M.A.L. Smith, D.L. Madhavi, and U.L. Yadava|Interactions of Irradiance Level and Iron Chelate Source During Shoot Tip Culture of Carica papaya L.|Hortscience32(6): 1120-1123|1997|10.21273/HORTSCI.32.6.1120
104367|T||Landoni,M.F., and J.O. Errecalde|Tissue Concentrations of a Long-Acting Oxytetracycline Formulation After Intramuscular Administration in Cattle|Rev. Sci. Technol.11(3): 909-915|1992|
104368|A||Akerman,G., P. Amcoff, U. Tjarnlund, K. Fogelberg, O. Torrissen, and L. Balk|Paraquat and Menadione Exposure of Rainbow Trout (Oncorhynchus mykiss) - Studies of Effects on the Pentose-Phosphate Shunt and Thiamine Levels in Liver and Kidney|Chem.-Biol. Interact.142(3): 269-283|2003|10.1016/S0009-2797(02)00122-9
104369|T||Agarwal,A.K., and J.W. Coleman|Effect of Paraquat on Lung Calcium Transport|Toxicol. Lett.42(3): 317-323|1988|10.1016/0378-4274(88)90117-8
104370|T||Adachi,J., K. Ishii, M. Tomita, T. Fujita, Y. Nurhantari, Y. Nagasaki, and Y. Ueno|Consecutive Administration of Paraquat to Rats Induces Enhanced Cholesterol Peroxidation and Lung Injury|Arch. Toxicol.77(6): 353-357|2003|10.1007/s00204-003-0449-8
104371|T||Ali,S., G. Diwakar, and S. Pawa|Paraquat Induces Different Pulmonary Biochemical Responses in Wistar Rats and Swiss Mice|Chem.-Biol. Interact.125(2): 79-91|2000|10.1016/S0009-2797(99)00167-2
104372|T||Alias,Z., and A.G. Clark|Studies on the Glutathione S-Transferase Proteome of Adult Drosophila melanogaster:  Responsiveness to Chemical Challenge|Proteomics7(19): 3618-3628|2007|10.1002/pmic.200700070
104373|T||Allen,R.G., K.J. Farmer, R.K. Newton, and R.S. Sohal|Effects of Paraquat Administration on Longevity, Oxygen Consumption, Lipid Peroxidation, Superoxide Dismutase, Catalase, Glutathione Reductase, Inorganic Peroxides and Glutathione in the Adult Housefly|Comp. Biochem. Physiol. C Comp. Pharmacol.78(2): 283-288|1984|10.1016/0742-8413(84)90084-7
104374|T||Atzori,L., B. Cannas, T. Dettori, M. Dore, C. Montaldo, G. Ugazio, and L. Congiu|Involvement of Capsaicin-Sensitive Nerves in Paraquat-Induced Mortality|Chem.-Biol. Interact.116(1-2): 93-103|1998|10.1016/S0009-2797(98)00080-5
104375|T||Bonilla,E., S. Medina-Leendertz, V. Villalobos, L. Molero, and A. Bohorquez|Paraquat-Induced Oxidative Stress in Drosophila melanogaster:  Effects of Melatonin, Glutathione, Serotonin, Minocycline, Lipoic Acid and Ascorbic Acid|Neurochem. Res.31(12): 1425-1432|2006|10.1007/s11064-006-9194-8
104376|T||Candas,M., R.S. Sohal, S.N. Radyuk, V.I. Klichko, and W.C. Orr|Molecular Organization of the Glutathione Reductase Gene in Drosophila melanogaster|Arch. Biochem. Biophys.339(2): 323-334|1997|10.1006/abbi.1996.9872
104377|A||Coler,R.A., T. Watanabe, B.F. Xavier, and R.J. Paz|A Preliminary Report on the Application of Macrobrachium amazonicum Heller, 1862 (Decapoda: Palaemonidae) as a Biomarker|Hydrobiologia (Multiple Languages)412:119-121|1999|10.1023/A:1003864702924
104379|T||Schwarzbach,S.E.|The Role of Dicofol Metabolites in the Eggshell Thinning Response of Ring Neck Doves|Arch. Environ. Contam. Toxicol.20(2): 200-205|1991|10.1007/BF01055904
104380|T||Yi,W., S.E. Law, and H.Y. Wetzstein|Fungicide Sprays can Injure the Stigmatic Surface During Receptivity in Almond Flowers|Ann. Bot.91(3): 335-341|2003|10.1093/aob/mcg019
104383|T||Cabral,S.M.J.C.S., and J.P.S. Cabral|The Primary Mode-of-Action of Vinclozolin:  Are Oxygen Free Radicals Directly Involved?|Pestic. Biochem. Physiol.66(3): 145-152|2000|10.1006/pest.1999.2468
104384|T||Cambar,P.J., and D.M. Aviado|Bronchopulmonary Effects of Paraquat and Expectorants|Arch. Environ. Health20(4): 488-494|1970|10.1080/00039896.1970.10665627
104385|A||Cetin,A.K., and N. Mert|The Effects of Paraquat on Population Growth of Scenedesmus acutus|Fresenius Environ. Bull.14(7): 634-636|2005|
104386|T||Chanyachukul,T., K. Yoovathaworn, W. Thongsaard, S. Chongthammakun, P. Navasumrit, and J. Satayavivad|Attenuation of Paraquat-Induced Motor Behavior and Neurochemical Disturbances by L-Valine In Vivo|Toxicol. Lett.150(3): 259-269|2004|10.1016/j.toxlet.2004.02.007
104387|T||Chen,C.M., and A.C. Lua|Lung Toxicity of Paraquat in the Rat|J. Toxicol. Environ. Health Part A59:477-487|2000|
104388|T||Chen,L., D.C. Rio, G.G. Haddad, and E. Ma|Regulatory Role of dADAR in ROS Metabolism in Drosophila CNS|Mol. Brain Res.131(1-2): 93-100|2004|10.1016/j.molbrainres.2004.08.013
104389|A||Christian,F.A., T. Tesfamichael, and T. Tate|Long-Term Effects of Dinoseb and Paraquat, Both Individually and Combined, on Embryonic Development and Hatching Success of Fasciola hepatica Miracidia|Arch. Environ. Contam. Toxicol.14(2): 149-152|1985|10.1007/BF01055605
104390|T||Clark,M.W., R.P. Gildersleeve, J.P. Thaxton, C.R. Parkhurst, and D.I. McRee|Hematological Effects of Ethyl Methanesulfonate, Paraquat and Phenylhydrazine in Japanese Quail|Comp. Biochem. Physiol. C Comp. Pharmacol.89(1): 15-30|1988|10.1016/0742-8413(88)90140-5
104391|T||Arrowood,M.J., J.R. Mead, L.T. Xie, and X. You|In Vitro Anticryptosporidial Activity of Dinitroaniline Herbicides|FEMS Microbiol. Lett.136(3): 245-249|1996|10.1111/j.1574-6968.1996.tb08056.x
104392|T||Brown,J.R., H. Hughes, and S. Viriyanondha|Storage, Distribution, and Metabolism of 1,1-bis(4-Chlorophenyl)-2,2,2-Trichloroethanol|Toxicol. Appl. Pharmacol.15(1): 30-37|1969|10.1016/0041-008X(69)90128-8
104393|T||Jadaramkunti,U.C., and B.B. Kaliwal|Dicofol Formulation Induced Toxicity on Testes and Accessory Reproductive Organs in Albino Rats|Bull. Environ. Contam. Toxicol.69(5): 741-748|2002|10.1007/s00128-002-0123-5
104394|T||Allen,J.W., D.C. Wolf, M.H. George, S.D. Hester, G. Sun, S.F. Thai, D.A. Delker, T. Moore, C. Jones, G. Nelson, B.C. Ro|Toxicity Profiles in Mice Treated with Hepatotumorigenic and Non-Hepatotumorigenic Triazole Conazole Fungicides: Propiconazole, Triadimefon, and Myclobutanil|Toxicol. Pathol.34(7): 853-862|2006|10.1080/01926230601047816
104396|T||Ekman,D.R., H.C. Keun, C.D. Eads, C.M. Furnish, R.N. Murrell, J.C. Rockett, and D.J. Dix|Metabolomic Evaluation of Rat Liver and Testis to Characterize the Toxicity of Triazole Fungicides|Metabolomics2(2): 63-73|2006|10.1007/s11306-006-0020-8
104397|T||Goetz,A.K., H. Ren, J.E. Schmid, C.R. Blystone, I. Thillainadarajah, D.S. Best, H.P. Nichols, L.F. Strader, D.C. Wolf, |Disruption of Testosterone Homeostasis as a Mode of Action for the Reproductive Toxicity of Triazole Fungicides in the Male Rat|Toxicol. Sci.95(1): 227-239|2007|10.1093/toxsci/kfl124
104398|T||Hester,S.D., D.C. Wolf, S. Nesnow, and S.F. Thai|Transcriptional Profiles in Liver from Rats Treated with Tumorigenic and Non-Tumorigenic Triazole Conazole Fungicides: Propiconazole, Triadimefon, and Myclobutanil|Toxicol. Pathol.34(7): 879-894|2006|10.1080/01926230601047824
104399|T||Martin,M.T., R.J. Brennan, W. Hu, E. Ayanoglu, C. Lau, H. Ren, C.R. Wood, J.C. Corton, R.J. Kavlock, and D.J. Dix|Toxicogenomic Study of Triazole Fungicides and Perfluoroalkyl Acids in Rat Livers Predicts Toxicity and Categorizes Chemicals Based on Mechanisms of Toxicity|Toxicol. Sci.97(2): 595-613|2007|10.1093/toxsci/kfm065
104400|T||Sun,G., R.D. Grindstaff, S.F. Thai, G.R. Lambert, D.B. Tully, D.J. Dix, and S. Nesnow|Induction of Cytochrome P450 Enzymes in Rat Liver by Two Conazoles, Myclobutanil and Triadimefon|Xenobiotica37(2): 180-193|2007|10.1080/00498250601059942
104401|T||Ward,W.O., D.A. Delker, S.D. Hester, S.F. Thai, D.C. Wolf, J.W. Allen, and S. Nesnow|Transcriptional Profiles in Liver from Mice Treated with Hepatotumorigenic and Nonhepatotumorigenic Triazole Conazole Fungicides: Propiconazole, Triadimefon, and Myclobutanil|Toxicol. Pathol.34(7): 863-878|2006|10.1080/01926230601047832
104402|T||Chan,B.S.H., J.P. Seale, and G.G. Duggin|The Mechanism of Excretion of Paraquat in Rats|Toxicol. Lett.90(1): 1-9|1997|10.1016/S0378-4274(96)03820-9
104405|T||Bielefeld,E.C., B.H. Hu, K.C. Harris, and D. Henderson|Damage and Threshold Shift Resulting from Cochlear Exposure to Paraquat-Generated Superoxide|Hear. Res.207(1-2): 35-42|2005|10.1016/j.heares.2005.03.025
104406|T||Bauman,J.W., C. Madhu, J.M.,Jr. McKim, Y. Liu, and C.D. Klaassen|Induction of Hepatic Metallothionein by Paraquat|Toxicol. Appl. Pharmacol.117(2): 233-241|1992|10.1016/0041-008X(92)90242-K
104407|T||Bauman,J.W., J. Liu, Y.P. Liu, and C.D. Klaassen|Increase in Metallothionein Produced by Chemicals that Induce Oxidative Stress|Toxicol. Appl. Pharmacol.110(2): 347-354|1991|10.1016/S0041-008X(05)80017-1
104408|T||Bagchi,D., M. Bagchi, E. Hassoun, J. Moser, and S.J. Stohs|Effects of Carbon Tetrachloride, Menadione, and Paraquat on the Urinary Excretion of Malondialdehyde, Formaldehyde, Acetaldehyde, and Acetone in Rats|J. Biochem. Toxicol.8(2): 101-106|1993|10.1002/jbt.2570080207
104409|T||Dimassi,K., V. Chouliaras, G. Diamantidis, and I. Therios|Effect of Iron and Auxins on Peroxidase Activity and Rooting Performance of Three Citrus Rootstocks In Vitro|J. Plant Nutr.26(5): 1023-1034|2003|10.1081/PLN-120020073
104410|T||Hoy,M.A., F.E. Cave, R.H. Beede, J. Grant, W.H. Krueger, W.H. Olson, K.M. Spollen, W.W. Barnett, and L.C. Hendricks|Release, Dispersal, and Recovery of a Laboratory-Selected Strain of the Walnut Aphid Parasite Trioxys pallidus (Hymenoptera:  Aphidiidae) Resistant to Azinphosmethyl|J. Econ. Entomol.83(1): 89-96|1990|10.1093/jee/83.1.89
104411|T||Paloukis,S.S., and E.I. Navrozidis|Integrated Control of Pseudaulacaspis pentagona (Targ. Tozz.) (Homoptera, Diaspididae) on Peach and Kiwi Trees in Northern Greece|Boll. Lab. Entomol. Agrar. Filippo Silvestri52:111-116|1996|
104412|T||Sikh,S.S., and K.S. Sachdev|Duration of the Neuromuscular Blocking Action of Streptomycin|Br. J. Anaesth.37:158-160|1965|10.1093/bja/37.3.158
104413|A||Battaglene,S.C., D.T. Morehead, J.M. Cobcroft, P.D. Nichols, M.R. Brown, and J. Carson|Combined Effects of Feeding Enriched Rotifers and Antibiotic Addition on Performance of Striped Trumpeter (Latris lineata) Larvae|Aquaculture251(2-4): 456-471|1985|10.1016/j.aquaculture.2005.06.021
104414|T||D'Alessandro,M., M. Held, Y. Triponez, and T.C.J. Turlings|The Role of Indole and Other Shikimic Acid Derived Maize Volatiles in the Attraction of Two Parasitic Wasps|J. Chem. Ecol.32(12): 2733-2748|2006|10.1007/s10886-006-9196-7
104415|T||Sakai,M., K. Tohyama, and M. Mutai|Effect of Indole on Adenylate Energy Charge and Mitochondrial Phosphorylative Activity of Rat Liver|Int. J. Biochem.14(7): 569-572|1982|10.1016/0020-711X(82)90037-4
104416|T||McKee,R.H., W.C. Daughtrey, J.J. Freeman, T.M. Federici, R.D. Phillips, and R.T. Plutnick|The Dermal Carcinogenic Potential of Unrefined and Hydrotreated Lubricating Oils|J. Appl. Toxicol.9(4): 265-270|1989|10.1002/jat.2550090411
104417|T||Schoket,B., Z. Zilahy, J. Molnar, and I. Vincze|Comparative Investigation of Antipyrine Half-Life and Induction of Cytochrome P-450 Dependent Monooxygenases in Rats Treated with Phenylurea Herbicides|In Vivo1(3): 185-188|1987|
104418|T||Aamlid,T.S., A. Andersen, R. Skuterud, and G.H. Jonassen|Seed Production of Common Bent (Agrostis capillaris) as Affected by Insecticides and Plant Growth Regulators|Acta Agric. Scand. Sect. B57(1): 45-52|2007|
104419|A||Batiuk,R.A.|A Study of the Sublethal Effects of the Herbicide Linuron on the Submerged Aquatic Plant Vallisneria americana L.|M.S.Thesis, The American Univ.:74 p.|1985|
104420|T||Shibli,R.A., M.A.L. Smith, and R. Nasr|Iron Source and Cytokinin Mitigate the Incidence of Chlorosis and Hyperhydration In Vitro|J. Plant Nutr.20(6): 773-781|1997|10.1080/01904169709365293
104421|T||Cohen,G.M., and J.C. Park|Impairment of the Chick's Grip and Balance by Streptomycin.  A Preliminary Study|ORL J.Otorhinolaryngol.Relat.Spec.47(5): 236-241|1985|
104422|T||Lin,A., Y. Zhu, and Y. Tong|Evaluation of Genotoxicity of Combined Soil Pollution by Cadmium and Imidacloprid|Sci. China Ser. C, Life Sci.48(suppl. 1): 7-13|2005|10.1007/BF02889796
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104424|T||Mishra,A., K.B. Mohapatra, and S.K. Sinha|Screening of Tomato Varieties Against Bacterial Wilt with the Aid of Streptomycin|Trop. Sci.39(1): 11-15|1999|
104425|T||Tan,T.K., and L.H. Chua|The Response of Three Soil Fungi to Dalapon and Diuron Treatments|Pestic. Sci.20(3): 233-240|1987|10.1002/ps.2780200308
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104428|T||Miettinen,P., and P.E. Echegoyen|The Effect of Two Pesticides (Vitavax-300 and Gaucho) on Rhizobia and on the Nodulation of Four Legumes|Agric. Food Sci. Finl.5(2): 203-207|1996|10.23986/afsci.72736
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104432|T||Sarma,P.V.|Influence of Certain Granular Insecticides on the Growth and Yield of Bhendi Abelmoschus esculentus L.|Pesticides 13(5): 27-29|1979|
104433|T||Terelak,H., and T. Motowicka-Terelak|Chemical Degradation and Liming Efficiency of Soils Contaminated with Sulphur|Pol. J. Soil Sci.27(1): 37-42|1994|
104434|T||Costa,L.G., G. Kaylor, and S.D. Murphy|In Vitro and In Vivo Modulation of Cholinergic Muscarinic Receptors in Rat Lymphocytes and Brain by Cholinergic Agents|Int. J. Immunopharmacol.12(1): 67-75|1990|10.1016/0192-0561(90)90069-Y
104435|T||Young,C.|Metal Chelates as Stomach Poison Molluscicides for Introduced Pests, Helix aspersa, Theba pisana, Cernuella virgata and Deroceras reticulatum in Australia|BCPC Symp. Proc.66:237-243|1996|
104436|T||Sustr,V., and M. Simek|Behavioural Responses to and Lethal Effects of Elevated Carbon Dioxide Concentration in Soil Invertebrates|Eur. J. Soil Sci.32(3): 149-155|1996|
104437|T||Kevan,P.G.|Honey Bees (Apis mellifera:  Hymenoptera:  Apidae) and Fonofos on Sweet Corn (Zea mays:  Poaceae)|Proc. Entomol. Soc. Ont.122:35-40|1991|
104438|T||Williams,R.N.|Laboratory and Field Evaluation of Insecticides to Protect Grape Clusters from Adult Rose Chafer|J. Econ. Entomol.72(4): 583-586|1979|10.1093/jee/72.4.583
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104441|T||Lee,H.J., M.H. Lee, P.D. Ryu, H. Lee, and M.H. Cho|Enzyme-Linked Immunosorbent Assay for Screening the Plasma Residues of Tetracycline Antibiotics in Pigs|J. Vet. Med. Sci.63(5): 553-556|2001|10.1292/jvms.63.553
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104443|T||Ranggard,L.|Tetracycline as a Marker in Hard Tissue Research: Effects on Enamel Formation in Rat Maxillary Incisors|Scand. J. Dent. Res.97(5): 381-386|1989|
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104445|T||Mani,A., and N.N. Prasad|Persistence Pattern of Disyston in Soil and Rice Plants|Indian J. Plant Prot.13(1): 5-8|1985|
104446|T||Brzezinski,J., and K. Ludwicki|The Interrelationship of the Changes of Acetylcholine Esterase and Catecholamines Blood and Urine Levels in Rats Poisoned with Disyston|Pol. J. Pharmacol. Pharm.25(3): 313-316|1973|
104447|T||Brewerton,H.V., and R.C. Close|Disulfoton Residues in Potato Tubers|N. Z. J. Agric. Res.10(2): 272-277|1967|10.1080/00288233.1967.10425134
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104449|T||Banerjee,S., and S. Mukherji|Toxic Effects of Selenium and Its Interaction with Sulphur on Germination and Growth of Rice (Oryza sativa L.)|Indian Biol.27(2): 6-9|1995|
104450|T||Wahba,H.E., S.M. Mohamed, G.E. Attoa, and A.A. Frahat|Response of Antholyza aethiopica to Foliar Spray with Some Amino Acids and Mineral Nutrition with Sulphur|Ann. Agric. Sci.47(3): 929-944|2002|
104451|T||Wonisch,A., W. Weidner, M. Tausz, S. Westerman, L.J. De Kok, and D. Grill|Interactions Between Atmospheric and Pedospheric Sulfur Nutrition: Impact of Short-Term H2S Exposure on the Uptake and Distribution of 35S-Sulfate in Roots and Shoots of Curly Kale (Brassica oleracea L.)|Phyton (Horn) (Multiple Languages)45(1): 45-50|2005|
104452|A||Sharma,G., and S. Singh|Assay of Some Blood Parameters of the Fish Channa punctatus After Intoxication of Indofil|Bionotes8(1): 21-|2006|
104453|A||Kumar,P., Y.C. Gupta, V. Tiwari, and S. Tiwari|Histopathological Alterations in the Gills of Carp Fish, Cirrhinus mrigala, in Relation to Zinc Toxicity|Bionotes8(1): 19-|2006|
104454|T||Shirasu,Y., M. Moriya, H. Tezuka, S. Teramoto, T. Ohta, and T. Inoue|Mutagenicity of Pesticides|Environ. Sci. Res.31:617-624|1984|
104455|T||Jain,A.K., J.C. Gupta, H.S. Yadava, and S.K. Tripathi|Seed Mycoflora and Seedling Vigour as Influenced by Fungicides in Barnyard Millet|Adv. Plant Sci.8(1 Suppl.): 26-31|1995|
104456|T||Shell Oil Co.|Initial Submission:  Phosphorotic Acid, O,O-Diethyl O-(1,2,2,2-Tetrachloroethyl) Ester:  Acute Oral Toxicity Study in Rat with Cover Letter Dated 040292|Shell Westhollow Research Center, Houston, TX:48 p.|1992|
104457|T||Younger Laboratories Inc.|Initial Submission:  Toxicological Investigation of:  CP 98651 with Cover Letter Dated 081392|EPA/OTS Doc.#88-920008111:11 p.|1992|
104458|T||Sarma,B.K., S. Ameer Basha, D.P. Singh, and U.P. Singh|Use of Non-Conventional Chemicals as an Alternative Approach to Protect Chickpea (Cicer arietinum) from Sclerotinia Stem Rot|Crop Prot.26(7): 1042-1048|2007|10.1016/j.cropro.2006.09.015
104459|T||Salopek-Sondi,B., M. Kovac, T. Prebeg, and V. Magnus|Developing Fruit Direct Post-Floral Morphogenesis in Helleborus niger L.|J. Exp. Bot.53(376): 1949-1957|2002|10.1093/jxb/erf047
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104463|T||Speese III,J.|Use of Soil and Foliar Insecticides to Control Cucumber Beetles in Fall Cucumbers, 1993|Arthropod Manag. Tests19:100-101|1994|
104464|T||Ryan,J.J., and B. Hoffmann|Trenbolone Acetate:  Experiences with Bound Residues in Cattle Tissues|J. AOAC Int.61(5): 1274-1279|1978|10.1093/jaoac/61.5.1274
104465|T||Salaita,L., R.K. Kar, M. Majee, and A.B. Downie|Identification and Characterization of Mutants Capable of Rapid Seed Germination at 10(Degrees)C from Activation-Tagged Lines of Arabidopsis thaliana|J. Exp. Bot.56(418): 2059-2069|2005|10.1093/jxb/eri204
104466|T||Patzoldt,W.L., P.J. Tranel, and A.G. Hager|Variable Herbicide Responses Among Illinois Waterhemp (Amaranthus rudis and A. tuberculatus) Populations|Crop Prot.21(9): 707-712|2002|10.1016/S0261-2194(02)00027-3
104467|T||Ramachandran,V., and T.J. D'souza|Plant Uptake of Cadmium, Zinc, and Manganese from Four Contrasting Soils Amended with Cd-Enriched Sewage Sludge|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37(7): 1337-1346|2002|
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104470|T||Ruiz,J.M., R.M. Rivero, and L. Romero|Comparative Effect of Al, Se, and Mo Toxicity on NO3- Assimilation in Sunflower (Helianthus annuus L.) Plants|J. Environ. Manag.83(2): 207-212|2007|10.1016/j.jenvman.2006.03.001
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104472|T||Ogilvie,S.C., J.M. Ataria, J. Waiwai, J.E. Doherty, M. Lambert, N. Lambert, and D. King|Uptake and Persistence of the Vertebrate Pesticide, Sodium Monofluoroacetate (Compound 1080), in Plants of Cultural Importance|Ecotoxicology15(1): 1-7|2006|10.1007/s10646-005-0039-z
104474|T||O'Donovan,J.T., R.E. Blackshaw, K.N. Harker, and G.W. Clayton|Wheat Seeding Rate Influences Herbicide Performance in Wild Oat (Avena fatua L.)|Agron. J.98(3): 815-822|2006|10.2134/agronj2005.0234
104475|A||Piska,R.S., and S. Waghray|The Effects of Three Biocides, Atrazine, Monocrotophos and Endosulfan on Primary Productivity of a Fresh Water Ecosystem|Comp. Physiol. Ecol.15(1): 45-47|1990|
104476|T||Antignus,Y., M. Klein, and S. Ovadia|The Use of Insecticides to Control Maize Rough Dwarf Virus (MRDV) in Maize|Ann. Appl. Biol.110(3): 557-562|1987|10.1111/j.1744-7348.1987.tb04173.x
104477|T||Olinevich,O.V., L.P. Khokhlova, and M. Raudaskoski|The Microtubule Stability Increases in Abscisic Acid-Treated and Cold-Acclimated Differentiating Vascular Root Tissues of Wheat|J. Plant Physiol.159(5): 465-472|2002|10.1078/0176-1617-00642
104478|T||Speese III,J.|Comparison of Various Soil Insecticides and Foliar Sprays for Soil Insect Control in Sweet Potatoes, Painter, VA, 1995|Arthropod Manag. Tests21:176-177|1996|10.1093/amt/21.1.176a
104479|T||Hiraoka,Y., A. Imada, J. Tanaka, and H. Okuda|The Effects of Fenitrothion Emulsion (Organic Phosphorus Pesticide) and Its Degraded Solution on Mice|Hiroshima J. Med. Sci.38(4): 209-212|1989|
104480|T||McCaffrey,J.P., and B.L. Harmon|Flea Beetle Control in Canola: Seed & Granular Treatments, 1995|Arthropod Manag. Tests21:206-|1996|
104481|T||Dikshith,T.S.S., R.B. Raizada, S.N. Kumar, M.K. Srivastava, R.A. Kaushal, R.P. Singh, and K.P. Gupta|Effect of Repeated Dermal Application of Endosulfan to Rats|Vet. Hum. Toxicol.30(3): 219-224|1988|
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104483|A||Lignot,J.H., J.P. Trilles, and G. Charmantier|Effect of an Organophosphorus Insecticide, Fenitrothion, on Survival and Osmoregulation of Various Developmental Stages of the Shrimp Penaeus japonicus (Crustacea:  Decapoda)|Mar. Biol.128(2): 307-316|1997|10.1007/s002270050096
104484|T||Kamboj,A., N. Kumaresan, R. Kiran, and R. Sandhir|Neuroprotective Potential of N-Acetylcysteine in Carbofuran Neurotoxicity:  A Biochemical and Histopathological Study|Toxicol. Environ. Chem.88(4): 745-753|2006|10.1080/02772240600934990
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104486|A||Pathiratne,A., L.W.H.U. Chandrasekera, and P.K.C. De Seram|Effects of Biological and Technical Factors on Brain and Muscle Cholinesterases in Nile Tilapia, Oreochromis niloticus:  Implications for Biomonitoring Neurotoxic Contaminations|Arch. Environ. Contam. Toxicol.54(2): 309-317|2008|10.1007/s00244-007-9025-1
104487|T||Garg,A., K. Kunwar, N. Das, and P.K. Gupta|Endosulfan Intoxication:  Blood Glucose, Electrolytes, Ca Levels, Ascsorbic Acid and Glutathione in Rats|Toxicol. Lett.5(2): 119-123|1980|10.1016/0378-4274(80)90160-5
104488|T||Minta,M., and B. Biernacki|Embryotoxicity of Carbendazim in Hamsters, Rats, and Rabbits|Bull. Vet. Inst. Pulawy25(1-4): 42-52|1982|
104489|A||Prasad,S.M., D. Kumar, and M. Zeeshan|Growth, Photosynthesis, Active Oxygen Species and Antioxidants Responses of Paddy Field Cyanobacterium Plectonema boryanum to Endosulfan Stress|J. Gen. Appl. Microbiol.51(2): 115-123|2005|10.2323/jgam.51.115
104490|A||Kim,C.K., I.S. Kwak, E.Y. Cha, and T.S. Chon|Implementation of Wavelets and Artificial Neural Networks to Detection of Toxic Response Behavior of Chironomids (Chironomidae:  Diptera) for Water Quality Monitoring|Ecol. Model.195(1-2): 61-71|2006|10.1016/j.ecolmodel.2005.11.010
104491|T||Den Tonkelaar,E.M., and G.J. Van Esch|No-Effect Levels of Organochlorine Pesticides Based on Induction of Microsomal Liver Enzymes in Short-Term Toxicity Experiments|Toxicology2(4): 371-380|1974|10.1016/0300-483X(74)90030-4
104492|AT||Rodriguez,M.M., J.A. Bisset, and D. Fernandez|Levels of Insecticide Resistance and Resistance Mechanisms in Aedes aegypti from Some Latin American Countries|Am. Mosq. Control Assoc. J.23(4): 420-429|2007|10.2987/5588.1
104493|T||Rezg,R., B. Mornagui, S. El-Fazaa, and N. Gharbi|Biochemical Evaluation of Hepatic Damage in Subchronic Exposure to Malathion in Rats:  Effect on Superoxide Dismutase and Catalase Activities Using Native PAGE|C. R. Biol. (Multiple Languages)331(9): 655-662|2008|10.1016/j.crvi.2008.06.004
104494|T||Rezg,R., B. Mornagui, A. Kamoun, S. El-Fazaa, and N. Gharbi|Effect of Subchronic Exposure to Malathion on Metabolic Parameters in the Rat|C. R. Biol. (Multiple Languages)330(2): 143-147|2007|10.1016/j.crvi.2006.11.002
104495|T||Sarin,S., and K.D. Gill|Biochemical and Behavioral Deficits in Adult Rat Following Chronic Dichlorvos Exposure|Pharmacol. Biochem. Behav.59(4): 1081-1086|1998|10.1016/S0091-3057(97)00517-0
104497|T||Anderson,D., D.B. McGregor, and I.F.H. Purchase|Dominant Lethal Studies with Paraquat and Diquat in Male CD-1 Mice|Mutat. Res.40(4): 349-358|1976|10.1016/0165-1218(76)90033-1
104498|T||Aviado,D.M., L.V.,Jr. Bacalzo, and M.A. Belej|Prevention of Acute Pulmonary Insufficiency by Eriodictyol|J. Pharmacol. Exp. Ther.189(1): 157-166|1974|
104501|T||Hans,R.K., M.A. Khan, M. Farooq, and M.U. Beg|Glutathione-S-Transferase Activity in an Earthworm (Pheretima posthuma) Exposed to Three Insecticides|Soil Biol. Biochem.25(4): 509-511|1993|10.1016/0038-0717(93)90076-N
104502|T||Barabas,K., L. Szabo, and B. Matkovics|Effects of Gramoxone and Cooling on the Antioxidant Enzymes of Frog (Rana esculenta)|Acta Biol. Hung.36(3-4): 295-300|1985|
104503|T||Smith,R.B.,Jr., P.S. Larson, J.K. Finnegan, H.B. Haag, G.R. Hennigar, and F. Cobey|Toxicologic Studies on 2,2-bis-(Chlorophenyl)-2,2,2-Trichloroethanol (Kelthane)|Toxicol. Appl. Pharmacol.1(2): 119-134|1959|10.1016/0041-008X(59)90131-0
104504|T||Descalzo,R.C., Z.K. Punja, C.A. Levesque, and J.E. Rahe|Glyphosate Treatment of Bean Seedlings Causes Short-Term Increases in Pythium Populations and Damping off Potential in Soils|Appl. Soil Ecol.8(1-3): 25-33|1998|10.1016/S0929-1393(97)00069-3
104505|T||Rombke,J., M.V. Garcia, and A. Scheffczyk|Effects of the Fungicide Benomyl on Earthworms in Laboratory Tests Under Tropical and Temperate Conditions|Arch. Environ. Contam. Toxicol.53(4): 590-598|2007|10.1007/s00244-006-0219-8
104506|T||Zhang,L.Z., N. Wei, Q.X. Wu, and M.L. Ping|Anti-Oxidant Response of Cucumis sativus L. to Fungicide Carbendazim|Pestic. Biochem. Physiol.89(1): 54-59|2007|10.1016/j.pestbp.2007.02.007
104507|T||Tanigoshi,L.K., and W. Hoeschele|Control of Russian Wheat Aphid (RWA) in Winter Wheat, 1989|Insectic. Acaric. Tests18:299-300|1993|10.1093/iat/18.1.299
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104647|T||McCaffrey,J.P., and B.L. Harmon|Flea Beetle Control in Canola:  Foliar Treatments, 1995|Arthropod Manag. Tests21:206-|1996|
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104653|T||Abdel-Sater,M.A., A.M. Khallil, M.A. Ismail, and S.A. Ahmed|Effect of Paraquat and Ametryne on Soil, Root and Leaf-Surfaces Fungi of Solanum tuberosum L.|Zentbl. Mikrobiol.148(8): 558-569|1993|10.1016/S0232-4393(11)80220-9
104654|T||Campbell,P.I.|Serum Glucose and Tissue Glycogen Dynamics in Paraquat Intoxication|Med. Sci. Res.16(8): 393-394|1988|
104655|T||Akahori,F., T. Masaoka, S. Matsushiro, K. Arishima, S. Arai, M. Yamamoto, and Y. Eguchi|Quantifiable Morphologic Evaluation of Paraquat Pulmonary Toxicity in Rats|Vet. Hum. Toxicol.29(1): 1-7|1987|
104657|T||Allen,R.G., R.K. Newton, K.J. Farmer, and C. Nations|Effects of the Free Radical Generator Paraquat on Differentiation, Superoxide Dismutase, Glutathione and Inorganic Peroxides in Microplasmodia of Physarum polycephalum|Cell Tissue Kinet.18(6): 623-630|1985|
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104659|T||Bando,N., S. Wakamatsu, and J. Terao|Effect of an Excessive Intake of Quercetin on the Vitamin E Level and Antioxidative Enzyme Activities of Mouse Liver Under Paraquat-Induced Oxidative Stress|Biosci. Biotechnol. Biochem.71(10): 2569-2572|2007|10.1271/bbb.70282
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104661|T||Dhembare,A.J., N.V. Sonawane, and R.N. Gacche|Haematological Responses in Rattus norvegicus Linn. Exposed to Malathion|J. Exp. Zool. India6(1): 117-119|2003|
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104663|T||Juhasz,E., R. Szabo, M. Keseru, P. Budai, and L. Varnagy|Toxicity of a Pendimethalin Containing Herbicide Formulation and Three Heavy Metals in Chicken Embryos|Commun. Agric. Appl. Biol. Sci.71(2A): 107-110|2006|
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104666|T||Buntin,G.D.|Canola Brassica-napus L. Cascade Turnip Aphid Lipaphis-erysimi Kaltenbach Aphid Control in Winter Canola Using Foliar Insecticides in 1990|Insectic. Acaric. Tests16:142-143|1991|10.1093/iat/16.1.142a
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104677|T||Kligerman,A.D., G.L. Erexson, and J.L. Wilmer|Induction of Sister-Chromatid Exchange (SCE) and Cell-Cycle Inhibition in Mouse Peripheral Blood B Lymphocytes Exposed to Mutagenic Carcinogens In Vivo|Mutat. Res.157(2/3): 181-187|1985|10.1016/0165-1218(85)90114-4
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104709|T||Venkatesan,N.|Pulmonary Protective Effects of Curcumin Against Paraquat Toxicity|Life Sci.66(2): PL21-PL28|2000|
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104754|T||Rohm and Haas Co.|Initial Submission:  Acute Oral LD50 Study in Rats on RH-53,866 with Cover Letter Dated 081392|EPA/OTS Doc.#88-920008071:12 p.|1992|
104755|T||Rohm and Haas Co.|Initial Submission: Teratology Study of 1H-1,2,4-Triazole-1-Propanenitrile, alpha-Butyl-alpha-(4-Chlorophenyl)- in Rats with Cover Letter 082192|EPA/OTS Doc.#88920008025:39 p.|1992|
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104805|T||Lee,W.M., Y.J. An, H. Yoon, and H.S. Kweon|Toxicity and Bioavailability of Copper Nanoparticles to the Terrestrial Plants Mung Bean (Phaseolus radiatus) and Wheat (Triticum aestivum):  Plant Agar Test for Water-Insoluble Nanoparticles|Environ. Toxicol. Chem.27(9): 1915-1921|2008|10.1897/07-481.1
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104811|A||Sun,H., X. Zhang, Q. Niu, Y. Chen, and J.C. Crittenden|Enhanced Accumulation of Arsenate in Carp in the Presence of Titanium Dioxide Nanoparticles|Water Air Soil Pollut.178:245-254|2007|10.1007/s11270-006-9194-y
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104818|T||Rui,O., and M. Hahn|The Slt2-Type MAP Kinase Bmp3 of Botrytis cinerea is Required for Normal Saprotrophic Growth, Conidiation, Plant Surface Sensing and Host Tissue Colonization|Mol. Plant Pathol.8(2): 173-184|2007|10.1111/j.1364-3703.2007.00383.x
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104822|T||Laub,C.A., and J.M. Luna|Influence of Winter Cover Crop Suppression Practices on Seasonal Abundance of Armyworm (Lepidoptera:  Noctuidae), Cover Crop Regrowth, and Yield in No-Till Corn|Environ. Entomol.20(2): 749-754|1991|10.1093/ee/20.2.749
104823|T||Rao,B.V.|Effects of Two Agrochemicals (Dicofol and Paraquat) on Mitotic Divisions in Allium cepa Root Meristems|Indian J. Bot.10(2): 192-198|1987|
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104825|A||Burnet,A.M.R.|Effects of Paraquat on Invertebrates in a Canterbury Stream, New Zealand|N. Z. J. Mar. Freshw. Res.6(4): 448-455|1972|10.1080/00288330.1972.9515438
104827|A||Skrabka,H., and E. Jaskulska|The Interaction of 9-Amine-9-Fluorenephosphonic Acid Derivatives (New Morphactins) with Some Herbicides in Toxicity Towards Spirodela|Acta Agrobot. (Multiple Languages)40(1/2): 59-65|1987|
104829|T||Dow Chemical Co.|The Toxicity of Aniline, Aniline Hydrochloride with Cover Letter|EPA/OTS Doc.#878210967:29 p.|1982|
104830|T||Dow Chemical Co.|Toxicity of Aniline and Aniline Hydrochloride|EPA/OTS Doc.#878210968:9 p.|1982|
104831|T||Dow Chemical Co.|Results of Range Finding Toxicological Tests on 2,4,6-Tribromoaniline|EPA/OTS Doc.#878211146:5 p.|1982|
104834|T||Dow Chemical Co.|Toxicological Properties and Industrial Handling Hazards of N,N-Bis (2,3-Epoxy-Propyl) Aniline|EPA/OTS Doc.#878211527:10 p.|1982|
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104836|T||Bhole,D., M.J. Allikian, and J. Tower|Doxycycline-Regulated Over-Expression of hsp22 has Negative Effects on Stress Resistance and Life Span in Adult Drosophila melanogaster|Mech. Ageing Dev.125(9): 651-663|2004|10.1016/j.mad.2004.08.010
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104853|T||Torres,C., G. Ribas, N. Xamena, A. Creus, and R. Marcos|Genotoxicity of Four Herbicides in the Drosophila Wing Spot Test|Mutat. Res.280(4): 291-295|1992|10.1016/0165-1218(92)90060-D
104854|T||Dubey,S.C., and B. Singh|Integrated Management of Cercospora Leaf Spots and Yellow Mosaic of Urdbean (Vigna mungo)|Indian J. Agric. Sci.76(8): 485-489|2006|
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104856|T||Reichel,H., H.D. Sisler, and D.D. Kaufman|Inducers, Substrates, and Inhibitors of a Propanil-Degrading Amidase of Fusarium oxysporum|Pestic. Biochem. Physiol.39(3): 240-250|1991|10.1016/0048-3575(91)90119-7
104857|T||Hsieh,D.P.H.|Inhibition of Aflatoxin Biosynthesis of Dichlorvos|J. Agric. Food Chem.21(3): 468-470|1973|10.1021/jf60187a035
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104861|A||Mohammad,M., T. Kishimoto, K. Itoh, K. Suyama, and H. Yamamoto|Comparative Sensitivity of Pseudokirchnetiella subcapitata vs. Lemna sp. to Eight Sulfonylurea Herbicides|Bull. Environ. Contam. Toxicol.75(5): 866-872|2005|10.1007/s00128-005-0830-9
104862|A||Gonzalez Ortiz,R., L. Martinez-Tabche, and S.O. Terron|Effects of Cimetidine and Phenobarbital on Methyl-Parathion Metabolism in Hyalella azteca|Bull. Environ. Contam. Toxicol.72(6): 1247-1252|2004|10.1007/s00128-004-0377-1
104863|T||Grant,R.|Simple Solid Dose Bioassay for Insecticides Using the Fruit Fly (Drosophila melanogaster)|Bull. Environ. Contam. Toxicol.69(1): 35-40|2002|10.1007/s00128-002-0006-9
104864|T||Guangqiu,Q., Y. Chongling, and L. Haoliang|Influence of Heavy Metals on the Carbohydrate and Phenolics in Mangrove, Aegiceras corniculatum L., Seedlings|Bull. Environ. Contam. Toxicol.78(6): 440-444|2007|10.1007/s00128-007-9204-9
104865|T||Hagley,E.A.C., D.J. Pree, and N.J. Holliday|Toxicity of Insecticides to Some Orchard Carabids (Coleoptera:  Carabidae)|Can. Entomol.112(5): 457-462|1980|10.4039/Ent112457-5
104866|A||Wang,C.G., Z.Y. Huang, Y.X. Chen, Y. Zhao, and Z.H. Zuo|Effect of Tributyltin at Environmentally Relevant Doses on Levels of Sex Hormones in Female Clams Meretrix meretrix|Bull. Environ. Contam. Toxicol.75(6): 1163-1167|2005|10.1007/s00128-005-0871-0
104867|A||Goktepe,I., and L.C. Plhak|Acute Toxic Effects of Neem-Based Insecticides on Crustaceans|Bull. Environ. Contam. Toxicol.72(6): 1278-1284|2004|10.1007/s00128-004-0381-5
104868|A||Velisek,J., R. Dobsikova, Z. Svobodova, H. Modra, and V. Luskova|Effect of Deltamethrin on the Biochemical Profile of Common Carp (Cyprinus carpio L.)|Bull. Environ. Contam. Toxicol.76(6): 992-998|2006|10.1007/s00128-006-1016-9
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104872|T||Luo,X.Y., and H. Ikeda|Effects of Four Rice Herbicides on Seed Germination and Seedling Growth of a Threatened Vascular Plant Penthorum chinense Pursh|Bull. Environ. Contam. Toxicol.75(2): 382-389|2005|10.1007/s00128-005-0765-1
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104887|A||Tanaka,Y.|Properties of Acetolactate Synthase from Sulfonylurea-Resistant Scirpus juncoides Roxb. var. ohwianus T. Koyama|Pestic. Biochem. Physiol.77(3): 147-153|2003|10.1016/j.pestbp.2003.07.005
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104952|T||Butler II,C.|Pulmonary Interstitial Fibrosis from Paraquat in the Hamster|Arch. Pathol.99(9): 503-507|1975|
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104988|T||Koizumi,T., and Z.G. Li|Role of Oxidative Stress in Single-Dose, Cadmium-Induced Testicular Cancer|J. Toxicol. Environ. Health37(1): 25-36|1992|10.1080/15287399209531654
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104995|T||Jedrzejczyk,M., A. Rostanski, and E. Malkowski|Accumulation of Zinc and Lead in Selected Taxa of the Genus Viola L.|Acta Biol. Crac., Ser. Bot. 44:49-55|2002|
104996|T||Mack,C.M., and C.J. Gordon|Differential Sensitivity to Anticholinesterase Insecticides in the Juvenile Rat:  Effects on Thermoregulation|J. Toxicol. Environ. Health Part A70(5): 439-444|2007|10.1080/15287390600755299
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104999|T||Farmer,L.M., S.R. Pezeshki, and D. Larsen|Effects of Hydroperiod and Iron on Typha latifolia Grown in a Phosphorus-Enhanced Medium|J. Plant Nutr.28(7): 1175-1190|2005|10.1081/PLN-200063218
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105002|AT||Ishida,Y., K. Ohta, S. Itoh, T. Nakahama, H. Miki, and H. Yoshikawa|Synthesis of Novel Herbicidal Sulfonylurea Compounds with Imidazo(1,2-a)Pyridine Moiety|J. Pestic. Sci. (Multiple Languages)18(2): 175-182|1993|10.1584/jpestics.18.2_175
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105004|T||Avery,M.L., D.G. Decker, and D.L. Fischer|Cage and Flight Pen Evaluation of Avian Repellency and Hazard Associated with Imidacloprid-Treated Rice Seed|Crop Prot.13(7): 535-540|1994|10.1016/0261-2194(94)90107-4
105005|T||Mafi,S.A., and N. Ohbayashi|Toxicity of Insecticides to the Citrus Leafminer, Phyllocnistis citrella, and Its Parasitoids, Chrysocharis pentheus and Sympiesis striatipes (Hymenoptera: Eulophidae)|Appl. Entomol. Zool.41(1): 33-39|2006|10.1303/aez.2006.33
105006|T||Tran,D.H., M. Takagi, and K. Takasu|Effects of Selective Insecticides on Host Searching and Oviposition Behavior of Neochrysocharis formosa (Westwood) (Hymenoptera: Eulophidae), a Larval Parasitoid of the American Serpentine Leafminer|Appl. Entomol. Zool.39(3): 435-441|2004|10.1303/aez.2004.435
105007|T||Nasreen,A., G.M. Cheema, M. Ashfaq, and M.A. Saleem|Survival of Trichogramma Chilonis ishii (Hymenoptera: Trichogrammitidae) After Exposure to Different Insecticides: Laboratory Studies|Pak. J. Zool.36(1): 79-82|2004|
105008|AT||Sondhia,S.|Determination of Imazosulfuron Persistence in Rice Crop and Soil|Environ. Monit. Assess.137(1-3): 205-211|2008|10.1007/s10661-007-9741-z
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105011|T||Punzo,F.|Neem Seed Extract Containing Azadirachtin Affects Mortality, Growth, and Immunological Function in the Whipscorpion Mastigoproctus giganteus (Lucas) (Arachnida, Uropygi)|Bull. Environ. Contam. Toxicol.75(4): 684-690|2005|10.1007/s00128-005-0806-9
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105014|T||Smith,S., T.E. Reagan, G.H. Willis, J.L. Flynn, and D.C. Rester|Fenvalerate Interception by and Dissipation from Sugarcane Foliage as Affected by Application Technology|Bull. Environ. Contam. Toxicol.42(1): 30-36|1989|10.1007/BF01699200
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105016|T||Rabindra,R.J., S. Jayaraj, and M. Balasubramanian|Farinocystis tribolii-Induced Susceptibility to Some Insecticides in Tribolium castaneum Larvae|J. Invertebr. Pathol.52(3): 389-392|1988|10.1016/0022-2011(88)90050-X
105017|T||Punzo,F.|Detoxification Enzymes and the Effects of Temperature on the Toxicity of Pyrethroids to the Fall Armyworm, Spodoptera frugiperda (Lepidoptera:  Noctuidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.105(2): 155-158|1993|10.1016/0742-8413(93)90187-P
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105019|T||Presibella,K.M., D.H. Kita, C.B. Carneiro, A.J.M. Andrade, and P.R. Dalsenter|Reproductive Evaluation of Two Pesticides Combined (Deltamethrin and Endosulfan) in Female Rats|Reprod. Toxicol.20(1): 95-101|2005|10.1016/j.reprotox.2004.11.007
105020|A||Blidberg,E.|Ecotoxicological Studies on Giant Clams (Tridacnidae):  Environmental Problems and Future Concerns|Stokholm Univ., Stockholm, Sweden:1-51|2004|
105022|T||Abu-Bakar,A., M.R. Moore, and M.A. Lang|Evidence for Induced Microsomal Bilirubin Degradation by Cytochrome P450 2A5|Biochem. Pharmacol.70(10): 1527-1535|2005|10.1016/j.bcp.2005.08.009
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105025|A||Pomati,F., R. Kellmann, R. Cavalieri, B.P. Burns, and B.A. Neilan|Comparative Gene Expression of PSP-Toxin Producing and Non-Toxic Anabaena circinalis Strains|Environ. Int.32(6): 743-748|2006|10.1016/j.envint.2006.03.010
105026|T||Ponnapakkam,T.P., K.S. Bailey, K.A. Graves, and M.B. Iszard|Assessment of Male Reproductive System in the CD-1 Mice Following Oral Manganese Exposure|Reprod. Toxicol.17(5): 547-551|2003|10.1016/S0890-6238(03)00101-1
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105031|A||Liao,C.Y., Q.F. Zhou, J.B. Shi, J.J. Fu, and G.B. Jiang|Mercury Accumulation and Distribution in Medaka After the Exposure to Sublethal Levels of Methylmercury|Bull. Environ. Contam. Toxicol.75(3): 584-591|2005|10.1007/s00128-005-0791-z
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105038|T||Jadarmkunti,U.C., and B.B. Kaliwal|Effect of Dicofol Formulation on Estrous Cycle and Follicular Dynamics in Albino Rats|J. Basic Clin. Physiol. Pharmacol.10(4): 305-314|1999|10.1515/JBCPP.1999.10.4.305
105039|A||Gu,X.J., S.N. Li, D.F. Fan, and S.F. Tian|Recovery of Malathion-Inhibited Topmouth Gudgeon (Pseudorasbora parva) Brain AChE|J. Shanghai Jiaotong Univ. (Agric. Sci. )19(2): 82-86|2001|
105040|T||Bolkent,S., P. Arda-Pirincci, R. Yanardag, S. Tunali, and S. Yildirim|Influence of Zinc Sulfate Intake on Acute Ethanol-Induced Liver Injury in Rats|World J. Gastroenterol.12(27): 4345-4351|2006|10.3748/wjg.v12.i27.4345
105041|A||Markich,S.J., A.R. King, and S.P. Wilson|Non-Effect of Water Hardness on the Accumulation and Toxicity of Copper in a Freshwater Macrophyte (Ceratophyllum demersum):  How Useful are Hardness-Modified Copper Guidelines for Protecting Freshwater Biota?|Chemosphere65(10): 1791-1800|2006|10.1016/j.chemosphere.2006.04.024
105042|T||Madhaiyan,M., S. Poonguzhali, and T. Sa|Metal Tolerating Methylotrophic Bacteria Reduces Nickel and Cadmium Toxicity and Promotes Plant Growth of Tomato (Lycopersicon esculentum L.)|Chemosphere69(2): 220-228|2007|10.1016/j.chemosphere.2007.04.017
105043|T||Mann,R.M., J.C. Sanchez-Hernandez, E.A. Serra, and A.M.V.M. Soares|Bioaccumulation of Cd by a European Lacertid Lizard After Chronic Exposure to Cd-Contaminated Food|Chemosphere68(8): 1525-1534|2007|10.1016/j.chemosphere.2007.03.021
105044|A||Monnet,F., F. Bordas, V. Deluchat, and M. Baudu|Toxicity of Copper Excess on the Lichen Dermatocarpon luridum:  Antioxidant Enzyme Activities|Chemosphere65(10): 1806-1813|2006|10.1016/j.chemosphere.2006.04.022
105045|A||Monferran,M.V., D.A. Wunderlin, J. Nimptsch, and S. Pflugmacher|Biotransformation and Antioxidant Response in Ceratophyllum demersum Experimentally Exposed to 1,2- and 1,4-Dichlorobenzene|Chemosphere68(11): 2073-2079|2007|10.1016/j.chemosphere.2007.02.016
105046|A||Subramanian,S., and K. Ramalingam|Effect of DDT, Malathion and Mercury on the Haematology of Sarotherodon mossambicus|J. Ecotoxicol. Environ. Monit.13(2): 159-160|2003|
105047|T||Valvassori,S.S., J.J. Fortunato, K.M. Gomes, G.Z. Reus, M.R. Martins, E.C. Gavioli, M.R.C. Schetinger, F. Dal-Pizzol, a|Acute and Subacute Exposure to Malathion Impairs Aversive but not Non-Associative Memory in Rats|Neurotox. Res.12(1): 71-79|2007|10.1007/BF03033902
105048|T||Mercurio,S.D., and G.F.,Jr. Combs|Selenium-Dependent Glutathione Peroxidase Inhibitors Increase Toxicity of Prooxidant Compounds in Chicks|J. Nutr.116(9): 1726-1734|1986|10.1093/jn/116.9.1726
105050|T||Widdowson,P.S., M.J. Farnworth, R. Upton, and M.G. Simpson|No Changes in Behaviour, Nigro-Striatal System Neurochemistry or Neuronal Cell Death Following Toxic Multiple Oral Paraquat Administration to Rats|Hum. Exp. Toxicol.15(7): 583-591|1996|10.1177/096032719601500706
105052|T||Lee,K.S., B.Y. Kim, H.J. Kim, S.J. Seo, H.J. Yoon, Y.S. Choi, I. Kim, Y.S. Han, Y.H. Je, S.M. Lee, D.H. Kim, H.D. Sohn,|Transferrin Inhibits Stress-Induced Apoptosis in a Beetle|Free Radic. Biol. Med.41(7): 1151-1161|2006|10.1016/j.freeradbiomed.2006.07.001
105053|T||Hollinger,M.A.|Potentiation of Paraquat Lethality in Mice by Bacterial Lipopolysaccharide Pretreatment|J. Pharmacol. Exp. Ther.230(2): 292-294|1984|
105054|T||Hoffer,E., L. Shenker, Y. Baum, and A. Tabak|Paraquat-Induced Formation of Leukotriene B4 in Rat Lungs:  Modulation by N-Acetylcysteine|Free Radic. Biol. Med.22(3): 567-572|1997|10.1016/S0891-5849(96)00385-1
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105056|T||Suntres,Z.E., and P.N. Shek|Liposomal alpha-Tocopherol Alleviates the Progression of Paraquat-Induced Lung Damage|J. Drug Target.2(6): 493-500|1995|10.3109/10611869509015919
105057|A||Yoshida,K., E. Igarashi, M. Mukai, K. Hirata, and K. Miyamoto|Induction of Tolerance to Oxidative Stress in the Green Alga, Chlamydomonas reinhardtii, by Abscisic Acid|Plant Cell Environ.26(3): 451-457|2003|10.1046/j.1365-3040.2003.00976.x
105058|T||Tomita,M., H. Katsuyama, T. Okuyama, K. Hidaka, and Y. Minatogawa|Changes in Gene Expression Level for Defense System Enzymes Against Oxidative Stress and Glutathione Level in Rat Administered Paraquat|Int. J. Mol. Med.15(4): 689-693|2005|
105059|T||Tomita,M., T. Okuyama, and K. Hidaka|Changes in mRNAs of Inducible Nitric Oxide Synthase and Interleukin-1 beta in the Liver, Kidney and Lung Tissues of Rats Acutely Exposed to Paraquat|Legal Med.1(3): 127-134|1999|10.1016/S1344-6223(99)80024-8
105060|T||Tomita,M., T. Okuyama, H. Katsuyama, K. Hidaka, T. Otsuki, and T. Ishikawa|Gene Expression in Rat Lungs During Early Response to Paraquat-Induced Oxidative Stress|Int. J. Mol. Med.17(1): 37-44|2006|
105061|A||Shrivastava,D.K.|Mutagenicity of Herbicide Paraquat Dichloride in a N2-Fixing Cyanobacterium|Nat. Environ. Pollut. Technol.1(1): 43-47|2002|
105062|T||Petrovic,V.M., and V. Janic-Sibalic|Effect of Paraquat on Phenylethanolamine-N-Methyl Transferase and Monoamine Oxidase in the Rat Tissues|Bull. Acad. Serbe Sci. Arts Cl. Sci. Math. Nat. Sci. Nat.27(0): 21-30|1987|
105063|T||Minakata,K., H. Nozawa, K. Watanabe-Suzuki, and O. Suzuki|The Restriction of all Minerals in the Diet Enhancing Paraquat Toxicity is Regarded Primarily as the Shortage of Mg|Legal Med.5(suppl. 1): S110 - S112|2003|
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105065|T||Ishida,Y., T. Takayasu, A. Kimura, T. Hayashi, N. Kakimoto, T. Miyashita, and T. Kondo|Gene Expression of Cytokines and Growth Factors in the Lungs After Paraquat Administration in Mice|Legal Med.8(2): 102-109|2006|10.1016/j.legalmed.2005.08.010
105066|T||Hudson,C.A., L. Cao, J. Kasten-Jolly, J.N. Kirkwood, and D.A. Lawrence|Susceptibility of Lupus-Prone NZM Mouse Strains to Lead Exacerbation of Systemic Lupus Erythematosus Symptoms|J. Toxicol. Environ. Health Part A66(10): 895-918|2003|10.1080/15287390306456
105067|T||Henderson,R.F., M. Gurule, B.M. Hedtke-Weber, K. Ghanbari, J.D. McDonald, D.A. Kracko, and K.J. Dix|Disposition of Orally and Intravenously Administered Methyltetrahydrofuran in Rats and Mice|J. Toxicol. Environ. Health Part A70(7): 582-593|2007|10.1080/10937400600882848
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105077|A||Oberdorster,E.|Manufactured Nanomaterials (Fullerenes,C60) Induce Oxidative Stress in the Brain of Juvenile Largemouth Bass|Environ. Health Perspect.112(10): 1058-1062|2004|10.1289/ehp.7021
105078|A||Roberts,A.P., A.S. Mount, B. Seda, J. Souther, R. Qiao, S. Lin, P.C. Ke, A.M. Rao, and S.J. Klaine|In Vivo Biomodification of Lipid-Coated Carbon Nanotubes by Daphnia magna|Environ. Sci. Technol.41(8): 3025-3029|2007|10.1021/es062572a
105079|T||Gopee,N.V., D.W. Roberts, P. Webb, C.R. Cozart, P.H. Siitonen, A.R. Warbritton, W.W. Yu, V.L. Colvin, N.J. Walker, and |Migration of Intradermally Injected Quantum Dots to Sentinel Organs in Mice|Toxicol. Sci.98(1): 249-257|2007|10.1093/toxsci/kfm074
105080|T||Lin,D., and B. Xing|Phytotoxicity of Nanoparticles:  Inhibition of Seed Germination and Root Growth|Environ. Pollut.150(2): 243-250|2007|10.1016/j.envpol.2007.01.016
105081|A||Griffitt,R.J., R. Weil, K.A. Hyndman, N.D. Denslow, K. Powers, D. Taylor, and D.S. Barber|Exposure to Copper Nanoparticles Causes Gill Injury and Acute Lethality in Zebrafish (Danio rerio)|Environ. Sci. Technol.41(23): 8178-8186|2007|10.1021/es071235e
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105084|T||Uchiumi,A., A. Takatsu, and Y. Teraki|Sensitive Detection of Trace Aluminium in Biological Tissues by Confocal Laser Scanning Microscopy After Staining with Lumogallion|Analyst (Lond.)123:759-762|1998|10.1039/a704876i
105085|T||Yamago,S., H. Tokuyama, E. Nakamura, K. Kikuchi, S. Kananishi, K. Sueki, H. Nakahara, S. Enomoto, and F. Ambe|In Vivo Biological Behavior of a Water-Miscible Fullerene:  14C Labeling, Absorption, Distribution, Excretion and Acute Toxicity|Chem.-Biol. Interact.2:385-389|1995|
105086|T||Singh,R., D. Pantarotto, L. Lacerda, G. Pastorin, C. Klumpp, M. Prato, A. Bianco, and K. Kostarelos|Tissue Biodistribution and Blood Clearance Rates of Intravenously Administered Carbon Nanotube Radiotracers|Proc. Natl. Acad. Sci. U.S.A.103(9): 3357-3362|2006|10.1073/pnas.0509009103
105087|T||Kalender,S., Y. Kalender, D. Durak, A. Ogutcu, M. Uzunhisarcikli, B.S. Cevrimli, and M. Yildirim|Methyl Parathion Induced Nephrotoxicity in Male Rats and Protective Role of Vitamins C and E|Pestic. Biochem. Physiol.88(2): 213-218|2007|10.1016/j.pestbp.2006.11.007
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105096|T||Liu,S., W. Ruan, J. Li, H.J. Xu, J. Wang, and Y. Gao|Biological Control of Phytopathogenic Fungi by Fatty Acids|Mycopathologia166(2): 93-102|2008|10.1007/s11046-008-9124-1
105097|A||Hirazawa,N., S.I. Oshima, T. Mitsuboshi, and K. Hata|The Anthelmintic Effect of Medium-Chain Fatty Acids Against the Monogenean Heterobothrium okamotoi in the Tiger Puffer Takifugu rubripes:  Evaluation of Doses of Caprylic Acid at Different Water Temperatures|Aquaculture195(3/4): 211-223|2001|10.1016/S0044-8486(00)00565-2
105098|A||Hirazawa,N., S.I. Oshima, and K. Hata|In Vitro Assessment of the Antiparasitic Effect of Caprylic Acid Against Several Fish Parasites|Aquaculture200(3-4): 251-258|2001|10.1016/S0044-8486(01)00529-4
105099|A||Hirazawa,N., S.I. Oshima, T. Hara, T. Mitsuboshi, and K. Hata|Antiparasitic Effect of Medium-Chain Fatty Acids Against the Ciliate Cryptocaryon irritans Infestation in the Red Sea Bream Pagrus major|Aquaculture198(3-4): 219-228|2001|10.1016/S0044-8486(01)00503-8
105100|A||Hirazawa,N., T. Ohtaka, and K. Hata|Challenge Trials on the Anthelmintic Effect of Drugs and Natural Agents Against the Monogenean Heterobothrium okamotoi in the Tiger Puffer Takifugu rubripes|Aquaculture188(1-2): 1-13|2000|10.1016/S0044-8486(00)00334-3
105101|A||Bennett,C.E., R.A. Wilson, and J. Denison|An Investigation of the Molecular Characteristics Important in Stimulation of an Attachment Response by the Miracidium of Fasciola hepatica|Comp. Biochem. Physiol. A Comp. Physiol.41(1): 129-137|1972|10.1016/0300-9629(72)90041-2
105103|T||Matsuo,F., M. Nakai, and T. Nasu|The Fungicide Carbendazim Induces Meiotic Micronuclei in the Spermatids of the Rat Testis|J. Vet. Med. Sci.61(5): 573-576|1999|10.1292/jvms.61.573
105104|T||Rockett,J.C., M.G. Narotsky, K.E. Thompson, I. Thillainadarajah, C.R. Blystone, A.K. Goetz, H. Ren, D.S. Best, R.N. Mur|Effect of Conazole Fungicides on Reproductive Development in the Female Rat|Reprod. Toxicol.22(4): 647-658|2006|10.1016/j.reprotox.2006.05.008
105105|T||Goetz,A.K., W. Bao, H. Ren, J.E. Schmid, D.B. Tully, C. Wood, J.C. Rockett, M.G. Narotsky, G. Sun, G.R. Lambert, S.F. T|Gene Expression Profiling in the Liver of CD-1 Mice to Characterize the Hepatotoxicity of Triazole Fungicides|Toxicol. Appl. Pharmacol.215(3): 274-284|2006|10.1016/j.taap.2006.02.016
105106|A||Lin,K., F. Zhang, S. Zhou, W. Liu, J. Gan, and Z. Pan|Stereoisomeric Separation and Toxicity of the Nematicide Fosthiazate|Environ. Toxicol. Chem.26(11): 2339-2344|2007|10.1897/07-255R.1
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105111|AT||Matthews,D.J., B.M. Moran, P.F. McCabe, and M.L. Otte|Zinc Tolerance, Uptake, Accumulation and Distribution in Plants and Protoplasts of Five European Populations of the Wetland Grass Glyceria fluitans|Aquat. Bot.80(1): 39-52|2004|10.1016/j.aquabot.2004.06.002
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105113|T||Zieve,L., C. Lyftogt, and K. Draves|Toxicity of a Fatty Acid and Ammonia:  Interactions with Hypoglycemia and Krebs Cycle Inhibition|J. Lab. Clin. Med.101(6): 930-939|1983|
105114|A||Liebig,M., G. Schmidt, D. Bontje, B.W. Kooi, G. Streck, W. Traunspurger, and T. Knacker|Direct and Indirect Effects of Pollutants on Algae and Algivorous Cilitaes in an Aquatic Indoor Microcosm|Aquat. Toxicol.88:102-110|2008|10.1016/j.aquatox.2008.03.010
105115|A||Fdil,M.A., A. Mouabad, A. Outzourhit, A. Benhra, A. Maarouf, and J.C. Pihan|Valve Movement Response of the Mussel Mytilus galloprovincialis to Metals (Cu, Hg, Cd and Zn) and Phosphate Industry Effluents from Moroccan Atlantic Coast|Ecotoxicology15(5): 477-486|2006|10.1007/s10646-006-0083-3
105116|T||Yamamoto,M., and K.T. Yamamoto|Effects of Natural and Synthetic Auxins on the Gravitropic Growth Habit of Roots in Two Auxin-Resistant Mutants of Arabidopsis, axr1 and axr4:  Evidence for Defects in the Auxin Influx Mechanism of axr4|J. Plant Res.112(1108): 391-396|1999|10.1007/PL00013892
105117|T||Tahlil,N., A. Rada, M. Baaziz, J.L. Morel, M. El Meray, and M. El Aatmani|Quantitative and Qualitative Changes in Peroxidase of Cucurbita pepo Cultivars Stressed with Heavy Metals|Biol. Plant. (Praha)42(1): 75-80|1999|10.1023/A:1002119526453
105118|T||Tsao,R., C.J. Peterson, and J.R. Coats|Glucosinolate Breakdown Products as Insect Fumigants and Their Effect on Carbon Dioxide Emission of Insects|BMC Ecol.2:7 p.|2002|
105119|T||Wake,S.A., and J.F.B. Mercer|Induction of Metallothionein mRNA in Rat Liver and Kidney After Copper Chloride Injection|Biochem. J. (Lond.)228:425-432|1985|10.1042/bj2280425
105120|T||Chandrashekar,K., and N. Srinivasa|Residual Toxicity of Selected Pesticides to Two Spotted Spider Mite, Tetranychus urticae Koch (Acari:  Tetranychidae) Infesting French Bean|J. Entomol. Res.27(3): 197-201|2003|
105121|A||Ueng,T.H., Y.F. Ueng, and S.S. Park|Comparative Induction of Cytochrome P-450-Dependent Monooxygenases in the Livers and Gills of Tilapia and Carp|Aquat. Toxicol.23:49-64|1992|10.1016/0166-445X(92)90011-B
105123|A||Mosleh,Y.Y., S. Paris-Palacios, and S. Biagianti-Risbourg|Metallothioneins Induction and Antioxidative Response in Aquatic Worms Tubifex tubifex (Oligochaeta, Tubificidae) Exposed to Copper|Chemosphere64(1): 121-128|2006|10.1016/j.chemosphere.2005.10.045
105124|A||Myers,J.H., S. Duda, L. Gunthorpe, and G. Allinson|Evaluation of the Hormosira banksii (Turner) Desicaine Germination and Growth Inhibition Bioassay for Use as a Regulatory Assay|Chemosphere69(6): 955-960|2007|10.1016/j.chemosphere.2007.05.019
105125|A||Webb,S.C., and K.G. Heasman|Evaluation of Fast Green Uptake as a Simple Fitness Test for Spat of Perna canaliculus (Gmelin, 1791)|Aquaculture252(2-4): 305-316|2006|10.1016/j.aquaculture.2005.07.006
105126|A||Vuthiphandchai,V., B. Pengpun, and S. Nimrat|Effects of Cryoprotectant Toxicity and Temperature Sensitivity on the Embryos of Black Tiger Shrimp (Penaeus monodon)|Aquaculture246(1-4): 275-284|2005|10.1016/j.aquaculture.2005.02.050
105127|T||Bindesbol,A.M., M. Bayley, C. Damgaard, and M. Holmstrup|Life-History Traits and Population Growth Rate in the Laboratory of the Earthworm Dendrobaena octaedra Cultured in Copper-Contaminated Soil|Appl. Soil Ecol.35(1): 46-56|2007|10.1016/j.apsoil.2006.05.010
105128|A||Sarikaya,R., M. Selvi, O. Kocak, and F. Erkoc|Investigation of Acute Toxicity of Fenitrothion on Guppies Poecilia reticulata|J. Appl. Toxicol.27(4): 318-321|2007|10.1002/jat.1193
105129|T||Elhalwagy,M.E.A., N.S. Darwish, and E.M. Zaher|Prophylactic Effect of Green Tea Polyphenols Against Liver and Kidney Injury Induced by Fenitrothion Insecticide|Pestic. Biochem. Physiol.91(2): 81-89|2008|10.1016/j.pestbp.2008.01.006
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105131|T||Rouchaud,J., C. Moons, and J.A. Meyer|Effects of Pesticide Treatments on the Carotenoid Pigments of Lettuce|J. Agric. Food Chem.32(6): 1241-1245|1984|10.1021/jf00126a008
105132|A||Roberts,M.G., C.L. Rugh, H. Li, B.J. Teppen, and S.A. Boyd|Geochemical Modulation of Bioavailability and Toxicity of Nitroaromatic Compounds to Aquatic Plants|Environ. Sci. Technol.41(5): 1641-1645|2007|10.1021/es062610q
105133|T||Rogachev,I., V. Kampel, V. Gusis, N. Cohen, J. Gressel, and A. Warshawsky|Synthesis, Properties, and Use of Copper-Chelating Amphiphilic Dithiocarbamates as Synergists of Oxidant-Generating Herbicides|Pestic. Biochem. Physiol.60(3): 133-145|1998|10.1006/pest.1998.2336
105134|A||Li,H., L. Wei, G. Zhang, Z. Cai, G. Cai, Y. Chang, and K. Xing|Enhancement of Larval Settlement and Metamorphosis Through Biological and Chemical Cues in the Abalone Haliotis diversicolor supertexta|Aquaculture258(1-4): 416-423|2006|10.1016/j.aquaculture.2006.04.013
105135|A||Henczova,M., A.K. Deer, V. Komlosi, and J. Mink|Detection of Toxic Effects of Cd2+ on Different Fish Species via Liver Cytochrome P450-Dependent Monooxygenase Activities and Ftir Spectroscopy|Anal. Bioanal. Chem.385(3): 652-659|2006|10.1007/s00216-006-0429-y
105136|T||Horsley,R.D., J.D. Pederson, P.B. Schwarz, K. McKay, M.R. Hochhalter, and M.P. McMullen|Integrated Use of Tebuconazole and Fusarium Head Blight-Resistant Barley Genotypes|Agron. J.98(1): 194-197|2006|10.2134/agronj2005.0094
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105138|A||Glencross,B., D. Evans, N. Rutherford, W. Hawkins, P. McCafferty, K. Dods, B. Jones, D. Harris, L. Morton, M. Sweetingh|The Influence of the Dietary Inclusion of the Alkaloid Gramine, on Rainbow Trout (Oncorhynchus mykiss) Growth, Feed Utilisation and Gastrointestinal Histology|Aquaculture253(1-4): 512-522|2006|10.1016/j.aquaculture.2005.07.009
105139|A||Gupta,P., and N. Srivastava|Effects of Sub-lethal Concentrations of Zinc on Histological Changes and Bioaccumulation of Zinc by Kidney of Fish Channa punctatus (Bloch)|J. Environ. Biol.27(2): 211-215|2006|
105140|A||Turgut,C.|The Impact of Pesticides Toward Parrotfeather when Applied at the Predicted Environmental Concentration|Chemosphere66(3): 469-473|2007|10.1016/j.chemosphere.2006.05.073
105141|A||Yi,X., H. Ding, Y. Lu, H. Liu, M. Zhang, and W. Jiang|Effects of Long-Term Alachlor Exposure on Hepatic Antioxidant Defense and Detoxifying Enzyme Activities in Crucian Carp (Carassius auratus)|Chemosphere68(8): 1576-1581|2007|10.1016/j.chemosphere.2007.02.035
105142|T||Conway,J.G., D.A. Neptun, L.K. Garvey, and J.A. Popp|Role of Fatty Acyl Coenzyme A Oxidase in the Efflux of Oxidized Glutathione from Perfused Livers of Rats Treated with the Peroxisome Proliferator Nafenopin|Cancer Res.47(18): 4795-4800|1987|
105143|T||Hajjaj,H., A. Klaebe, G. Goma, P.J. Blanc, E. Barbier, and J. Francois|Medium-Chain Fatty Acids Affect Citrinin Production in the Filamentous Fungus Monascus ruber|Appl. Environ. Microbiol.66(3): 1120-1125|2000|10.1128/AEM.66.3.1120-1125.2000
105144|T||Jones,C.D.|The Genetic Basis of Drosophila sechellia's Resistance to a Host Plant Toxin|Genetics149(4): 1899-1908|1998|10.1093/genetics/149.4.1899
105145|T||Nau,H., and W. Loscher|Pharmacologic Evaluation of Various Metabolites and Analogs of Valproic Acid:  Teratogenic Potencies in Mice|Fundam. Appl. Toxicol.6(4): 669-676|1986|10.1016/0272-0590(86)90180-6
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105149|T||McCandless,D.W.|Octanoic Acid-Induced Coma and Reticular Formation Energy Metabolism|Brain Res.335(1): 131-137|1985|10.1016/0006-8993(85)90283-5
105150|T||Kim,C.S., C.R. Roe, and W.W. Ambrose|L-Carnitine Prevents Mitochondrial Damage Induced by Octanoic Acid in the Rat Choroid plexus|Brain Res.536(1-2): 335-338|1990|10.1016/0006-8993(90)90046-E
105151|A||Chand,R.K., and P.K. Sahoo|Effect of Nitrite on the Immune Response of Freshwater Prawn Macrobrachium malcolmsonii and Its Susceptibility to Aeromonas hydrophila|Aquaculture258(1-4): 150-156|2006|10.1016/j.aquaculture.2006.05.001
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105154|A||Carvalho,C.S., and M.N. Fernandes|Effect of Temperature on Copper Toxicity and Hematological Responses in the Neotropical Fish Prochilodus scrofa at Low and High pH|Aquaculture251(1): 109-117|2006|10.1016/j.aquaculture.2005.05.018
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105159|T||Miyamoto,J., S. Hosokawa, T. Kadota, H. Kohda, M. Arai, S. Sugihara, and K. Hirao|Studies on Cholinesterase Inhibition and Structural Changes at Neuromuscular Junctions in Rabbits by Subacute Administration of Sumithion|J. Pestic. Sci. (Multiple Languages)1(3): 171-178|1976|10.1584/jpestics.1.171
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105167|T||Andersen,S.M., S.A. Clay, L.J. Wrage, and D. Matthees|Soybean Foliage Residues of Dicamba and 2,4-D and Correlation to Application Rates and Yield|Agron. J.96:750-760|2004|10.2134/agronj2004.0750
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105175|T||Mockett,R.J., A.C.V. Bayne, L.K. Kwong, W.C. Orr, and R.S. Sohal|Ectopic Expression of Catalase in Drosophila mitochondria Increases Stress Resistance but not Longevity|Free Radic. Biol. Med.34(2): 207-217|2003|10.1016/S0891-5849(02)01190-5
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105180|A||Rosen,G., and G.R. Lotufo|Toxicity of Explosive Compounds to the Marine Mussel, Mytilus galloprovincialis, in Aqueous Exposures|Ecotoxicol. Environ. Saf.68(2): 228-236|2007|10.1016/j.ecoenv.2007.03.006
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105185|T||Poulsen,E., and W.N. Aldridge|Studies on Esterases in the Chicken Central Nervous System|Biochem. J. (Lond.)90:182-189|1964|10.1042/bj0900182
105186|T||Ram,R., S. Manuja, D. Dhyani, and D. Mukherjee|Evaluations of Fortified Fungicide Solutions in Managing Corm Rot Disease of Gladiolus Caused by Fusarium oxysporum|Crop Prot.23(9): 783-788|2004|10.1016/j.cropro.2003.12.006
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105191|T||Warner,J., and S. Hay|Observations, Monitoring, and Control of Clearwing Borers (Lepidoptera:  Sesiidae) on Apple in Central Ontario|Can. Entomol.117(12): 1471-1478|1985|10.4039/Ent1171471-12
105192|A||Rioboo,C., R. Prado, C. Herrero, and A. Cid|Population Growth Study of the Rotifer Brachionus sp. Fed with Triazine-Exposed Microalgae|Aquat. Toxicol.83(4): 247-253|2007|10.1016/j.aquatox.2007.04.006
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105202|T||Ferguson,J.S.|Development and Stability of Insecticide Resistance in the Leafminer Liriomyza trifolii (Diptera:  Agromyzidae) to Cyromazine, Abamectin, and Spinosad|J. Econ. Entomol.97(1): 112-119|2004|10.1093/jee/97.1.112
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105212|T||Deviche,P., T. Small, P. Sharp, and K. Tsutsui|Control of Luteinizing Hormone and Testosterone Secretion in a Flexibly Breeding Male Passerine, the Rufous-Winged Sparrow, Aimophila carpalis|Gen. Comp. Endocrinol.149(3): 226-235|2006|10.1016/j.ygcen.2006.06.004
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105241|T||Grospietsch,M., H. Lipavska, and J. Opatrna|Effect of Paclobutrazol on Soluble Sugars and Starch Content of de novo Regenerating Potato Stem Explants|Biol. Plant. (Praha)43(1): 137-139|2000|10.1023/A:1026527718897
105243|T||Tsuda,S., and Y. Okuno|Solvents and Insecticidal Efficacy of the Aerosol Containing Tetramethrin and d-Phenothrin|J. Pestic. Sci. (Multiple Languages)10(4): 621-628|1985|10.1584/jpestics.10.621
105244|T||Waechter,F., P. Bentley, M. Germann, F. Oesch, and W. Staubli|Immuno-Electron-Microscopic Studies on the Subcellular Distribution of Rat Liver Epoxide Hydrolase and the Effect of Phenobarbitone and 2 Acetamidofluorene Treatment|Biochem. J. (Lond.)202(3): 677-686|1982|10.1042/bj2020677
105245|T||Cheng,P.Y., Y.M. Lee, K.K. Law, C.W. Lin, and M.H. Yen|The Involvement of AMP-Activated Protein Kinases in the Anti-inflammatory Effect of Nicotine In Vivo and In Vitro|Biochem. Pharmacol.74(12): 1758-1765|2007|10.1016/j.bcp.2007.08.004
105246|T||Speese,J.|Use of Cyromazine (Trigard 75 WP) in an IPM Program to Control Colorado Potato Beetle, 1993|Arthropod Manag. Tests19:137-138|1994|10.1093/amt/19.1.137
105247|T||Carson,W.G., K.K. White, and J.T. Trumble|Effects of Insecticides on Lepidopterous Larvae and Leafminers on Tomatoes, 1991|Insectic. Acaric. Tests18:171-|1991|
105248|T||Wiersma,J.J., and C.D. Motteberg|Evaluation of Five Fungicide Application Timings for Control of Leaf-Spot Diseases and Fusarium Head Blight in Hard Red Spring Wheat|Can. J. Plant Pathol.27(1): 25-37|2005|10.1080/07060660509507190
105249|T||Vogt,B.L., and J.P.,Jr. Richie|Glutathione Depletion and Recovery After Acute Ethanol Administration in the Aging Mouse|Biochem. Pharmacol.73(10): 1613-1621|2007|10.1016/j.bcp.2007.01.033
105250|A||Allman,A.L.|Fiber Digestion in the Juvenile Blue Crab, Callinectes sapidus Rathbun|M.S.Thesis, University of Maryland, College Park, MD:127 p.|2006|
105251|T||Giraud,M.N., C. Motta, J.J. Romero, G. Bommelaer, and L.M. Litchtenberger|Interaction of Indomethacin and Naproxen with Gastric Surface-Active Phospholipids:  A Possible Mechanism for the Gastric Toxicity of Nonsteroidal Anti-Inflammatory Drugs (NSAIDs)|Biochem. Pharmacol.57(3): 247-254|1999|10.1016/S0006-2952(98)00303-7
105252|T||Ho,Y.S., C.S. Lai, H.I. Liu, S.Y. Ho, C. Tai, M.H. Pan, and Y.J. Wang|Dihydrolipoic Acid Inhibits Skin Tumor Promotion Through Anti-Inflammation and Anti-Oxidation|Biochem. Pharmacol.73(11): 1786-1795|2007|10.1016/j.bcp.2006.12.006
105253|T||Hathway,D.E., A. Mallinson, and D.A.A. Akintonwa|Effects of Dieldrin, Picrotoxin and Telodrin on the Metabolism of Ammonia in Brain|Biochem. J. (Lond.)94:676-686|1965|10.1042/bj0940676
105254|T||Song,F., S. Yu, C. Zhang, G. Zhou, Q. Wang, and K. Xie|The Reversibility of Neurofilaments Decline Induced by 2,5-Hexanedione in Rat Nerve Tissues|Biochem. Pharmacol.75(3): 737-744|2008|10.1016/j.bcp.2007.10.001
105256|T||Shu,H.P.|Mechanisms of Paraquat Toxicity Re-Examined|Ph.D. Thesis, University of California, Berkeley, CA:116 p.|1977|
105257|T||Evers,W.D.|Dietary Alteration of Paraquat Toxicity|Ph.D. Thesis, Michigan State University, East Lansing, MI:119 p.|1980|
105258|T||Bus,J.S.|Paraquat Perinatal Toxicity and a Proposed Mechanism of Action Involving Lipid Peroxidation|Ph.D. Thesis, Michigan State University, East Lansing, MI:167 p.|1975|
105259|A||Mateos,J., E. Mananos, M. Carrillo, and S. Zanuy|Regulation of Follicle-Stimulating Hormone (FSH) and Luteinizing Hormone (LH) Gene Expression by Gonadotropin-Releasing Hormone (GnRH) and Sexual Steroids in the Mediterranean Sea Bass|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.132(1): 75-86|2002|10.1016/S1096-4959(01)00535-8
105260|T||McNaughton,F.J., A. Dawson, and A.R. Goldsmith|A Comparison of the Responses to Gonadotrophin-Releasing Hormone of Adult and Juvenile, and Photosensitive and Photorefractory European Starlings, Sturnus vulgaris|Gen. Comp. Endocrinol.97(1): 135-144|1995|10.1006/gcen.1995.1013
105261|A||Roy,P., M. Datta, S. Dasgupta, and S. Bhattacharya|Gonadotropin-Releasing Hormone Stimulates Thyroid Activity in a Freshwater Murrel, Channa gachua (Ham.), and Carps, Catla catla (Ham.) and Cirrhinus mrigala (Ham.)|Gen. Comp. Endocrinol.117(3): 456-463|2000|10.1006/gcen.1999.7432
105262|A||Schulz,R.W., F. Van der Wind, C. Janssen-Dommerholt, J. Peute, C.C. Mylonas, Y. Zohar, P. Swanson, and H.J.T. Goos|Modulation of Testicular Androgen Production in Adolescent African Catfish (Clarias gariepinus)|Gen. Comp. Endocrinol.108(1): 56-66|1997|10.1006/gcen.1997.6951
105263|T||Silverin,B., and P. Sharp|The Development of the Hypothalamic-Pituitary-Gonadal Axis in Juvenile Great Tits|Gen. Comp. Endocrinol.103(2): 150-166|1996|10.1006/gcen.1996.0106
105264|A||Sower,S.A., S. Moriyama, M. Kasahara, A. Takahashi, M. Nozaki, K. Uchida, J.M. Dahlstrom, and H. Kawauchi|Identification of Sea Lamprey GTH[beta]-like cDNA and Its Evolutionary Implications|Gen. Comp. Endocrinol.148(1): 22-32|2006|10.1016/j.ygcen.2005.11.009
105265|A||Volkoff,H., and R.E. Peter|Actions of Two Forms of Gonadotropin Releasing Hormone and a GnRH Antagonist on Spawning Behavior of the Goldfish Carassius auratus|Gen. Comp. Endocrinol.116(3): 347-355|1999|10.1006/gcen.1999.7377
105266|T||Wilson,J.X., H. Sawai, M. Kikuchi, K. Kubokawa, and S. Ishii|Circulating Catecholamine and Glucose Concentrations in Japanese Toads (Bufo japonicus) During the Breeding Season|Gen. Comp. Endocrinol.98(3): 303-310|1995|10.1006/gcen.1995.1072
105267|A||Young,B.A., M.B. Bryan, S.A. Sower, A.P. Scott, and W. Li|15(alpha)-Hydroxytestosterone Induction by GnRH I and GnRH III in Atlantic and Great Lakes Sea Lamprey (Petromyzon marinus L.)|Gen. Comp. Endocrinol.136(2): 276-281|2004|10.1016/j.ygcen.2003.12.022
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105270|T||Ericson-Strandvik,B., and L. Gyllensten|The Central Nervous System of Foetal Mice After Administration of Streptomycin|Acta Pathol. Microbiol. Scand.59:292-300|1963|10.1111/j.1699-0463.1963.tb01800.x
105271|T||Kossowski,S., J. Gieldanowski, and Z. Ziemski|Experimental Studies on the Ototoxicity of Certain Antibiotics|Arch. Immunol. Ther. Exp.12:402-406|1964|
105272|T||Vladimirsky,M.A., and G.A. Ladigina|Antibacterial Activity of Liposome-Entrapped Streptomycin in Mice Infected with Mycobacterium Tuberculosis|Biomedicine36(8-9): 375-377|1982|
105273|T||Ostyn,F., and J. Tyberghein|Influence of Some Streptomyces Antibiotics on the Inner Ear of the Guinea Pig.  Electrophysiological and Histological Study|Acta Oto-Laryngol. Suppl.234:1-91|1968|
105274|T||Mansour,H.H., H.F. Hafez, N.M. Fahmy, and N. Hanafi|Protective Effect of N-Acetylcysteine Against Radiation Induced DNA Damage and Hepatic Toxicity in Rats|Biochem. Pharmacol.75(3): 773-780|2008|10.1016/j.bcp.2007.09.018
105275|T||Johnson,M.K.|Metabolism of Iodomethane in the Rat|Biochem. J. (Lond.)98:38-43|1966|10.1042/bj0980038
105276|A||Bleeker,E.A.J., H.G. Van der Geest, H.J.C. Klamer, P. De Voogt, E. Wind, and M.H.S. Kraak|Toxic and Genotoxic Effects of Azaarenes:  Isomers and Metabolites|Polycycl. Aromat. Compd.13:191-203|1999|10.1080/10406639908020563
105277|T||Narimatsu,S., R. Yonemoto, K. Masuda, T. Katsu, M. Asanuma, T. Kamata, M. Katagi, H. Tsuchihashi, T. Kumamoto, T. Ishik|Oxidation of 5-Methoxy-N,N-Diisopropyltryptamine in Rat Liver Microsomes and Recombinant Cytochrome P450 Enzymes|Biochem. Pharmacol.75(3): 752-760|2008|10.1016/j.bcp.2007.09.019
105278|T||Tavakoli-Nezhad,M., and D.K. Pitts|Postnatal Inorganic Lead Exposure Reduces Midbrain Dopaminergic Impulse Flow and Decreases Dopamine D1 Receptor Sensitivity in Nucleus Accumbens Neurons|J. Pharmacol. Exp. Ther.312(3): 1280-1288|2005|10.1124/jpet.104.076166
105279|T||Woolley,C.S., N.G. Weiland, B.S. McEwen, and P.A. Schwartzkroin|Estradiol Increases the Sensitivity of Hippocampal CA1 Pyramidal Cells to NMDA Receptor-Mediated Synaptic Input:  Correlation with Dendritic Spine Density|J. Neurosci.17(5): 1848-1859|1997|10.1523/JNEUROSCI.17-05-01848.1997
105280|T||Tullio,M., F. Pierandrei, A. Salerno, and E. Rea|Tolerance to Cadmium of Vesicular arbuscular mycorrhizae Spores Isolated from a Cadmium-Polluted and Unpolluted Soil|Biol. Fertil. Soils37:211-214|2003|10.1007/s00374-003-0580-y
105281|T||Morrell,S.L., J.A. Fuchs, and J.L. Holtzman|Effect of Methoxychlor Administration to Male Rats on Hepatic, Microsomal Iodothyronine 5'-Deiodinase, Form I|J. Pharmacol. Exp. Ther.294(1): 308-312|2000|
105282|T||Yiin,S.J., J.Y. Sheu, and T.H. Lin|Lipid Peroxidation in Rat Adrenal Glands After Administration Cadmium and Role of Essential Metals|J. Toxicol. Environ. Health Part A62(1): 47-56|2001|10.1080/00984100050201668
105283|T||Wahba,Z.Z., T.P. Coogan, S.W. Rhodes, and M.P. Waalkes|Protective Effects of Selenium on Cadmium Toxicity in Rats:  Role of Altered Toxicokinetics and Metallothionein|J. Toxicol. Environ. Health38(2): 171-182|1993|10.1080/15287399309531710
105284|A||Weber,N.M., T.T. Higuchi, J.D. Tessari, and D.N.R. Veeramachaneni|Evaluation of the Effects of Water Disinfection By-Products, Bromochloroacetic and Dibromoacetic Acids, on Frog Embryogenesis|J. Toxicol. Environ. Health Part A67(12): 929-940|2004|10.1080/15287390490443713
105285|T||Elrick,M.M., J.A. Kramer, C.L. Alden, E.A.G. Blomme, R.T. Bunch, M.A. Cabonce, S.W. Curtiss, L.D. Kier, K.L. Kolaja, C.|Differential Display in Rat Livers Treated for 13 Weeks with Phenobarbital Implicates a Role for Metabolic and Oxidative Stress in Nongenotoxic Carcinogenicity|Toxicol. Pathol.33(1): 118-126|2005|10.1080/01926230590888298
105286|A||Athanassopoulou,F., V. Ragias, M. Roth, N. Liberis, and S. Hatzinikolaou|Toxicity and Pathological Effects of Orally and Intraperitoneally Administered Ivermectin on Sea Bass Dicentrarchus labrax|Dis. Aquat. Org.52(1): 69-76|2002|10.3354/dao052069
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105292|A||Fairgrieve,W.T., C.L. Masada, M.E. Peterson, W.C. McAuley, G.C. McDowell, and M.S. Strom|Concentrations of Erythromycin and Azithromycin in Mature Chinook salmon Oncorhynchus tshawytscha After Intraperitoneal Injection, and in their Progeny|Dis. Aquat. Org.68(3): 227-234|2006|10.3354/dao068227
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105294|T||Bucci,T.J., R.M. Kovatch, M.D. Mercieca, V. Perman, and J.S. Klingensmith|Two-Generation Reproductive Study in Mink Fed Diisopropyl Methylphosphonate (DIMP)|Reprod. Toxicol.17(3): 327-334|2003|10.1016/S0890-6238(03)00004-2
105295|T||Nagao,T., Y. Saito, K. Usumi, M. Nakagomi, S. Yoshimura, and H. Ono|Disruption of the Reproductive System and Reproductive Performance by Administration of Nonylphenol to Newborn Rats|Hum. Exp. Toxicol.19(5): 284-296|2000|10.1191/096032700678815909
105296|T||Watkinson,W.P.|Effects of Chlordimeform on Cardiovascular Functional Parameters.  Part 1.  Lethality and Arrhythmogenicity in the Geriatric Rat|J. Toxicol. Environ. Health15:729-744|1985|10.1080/15287398509530701
105297|T||Wislocki,P.G., R.L. Chang, A.W. Wood, W. Levin, H. Yagi, O. Hernandez, H.D. Mah, P.M. Dansette, D.M. Jerina, and A.H. C|High Carcingenicity of 2-Hydroxybenzo(a)pyrene on Mouse Skin|Cancer Res.37:2608-2611|1977|
105299|T||Harris,P.N., W.R. Gibson, and R.D. Dilliard|The Oncogenicity of Two 1,1-Diaryl-2-Propynyl N-Cycloalkylcarbamates|Cancer Res.30:2952-2954|1970|
105300|T||Diehl,J.R., L.D. Stuart, K.L. Goodrowe, and D.E. Wildt|Effects of Altrenogest and Exogenous Gonadotropins on Ovarian Function and Embryo Recovery in Swine Leukocyte Antigen Inbred Miniature Swine as Influenced by Cystic Endometrial Hyperplasia|Biol. Reprod.35(5): 1261-1268|1986|10.1095/biolreprod35.5.1261
105301|A||Jiang,X.D., G.Z. Wang, and S.J. Li|Reduction of Recruitment of Acartia pacifica Nauplii from Benthic Resting Eggs due to Organochlorine Pesticides|J. Environ. Sci.18(3): 552-556|2006|
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105303|A||Chi,J., B. Li, Q.Y. Wang, and H. Liu|Influence of Nutrient Level on Biodegradation and Bioconcentration of Phthalate Acid Esters in Chlorella vulgaris|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(2): 179-183|2007|
105304|T||Rochellys Diaz,D., D.E. Fleming, and R.W. Rhees|The Hormone-Sensitive Early Postnatal Periods for Sexual Differentiation of Feminine Behavior and Luteinizing Hormone Secretion in Male and Female Rats|Brain Res. Dev. Brain Res.86(1-2): 227-232|1995|10.1016/0165-3806(95)00029-D
105305|A||Raikow,D.F., D.F. Reid, E.E. Maynard, and P.F. Landrum|Sensitivity of Aquatic Invertebrate Resting Eggs to SeaKleen (Menadione):  A Test of Potential Ballast Tank Treatment Options|Environ. Toxicol. Chem.25(2): 552-559|2006|10.1897/05-142R1.1
105306|T||Wattenberg,L.W., J.L. Leong, and P.J. Strand|Benzpyrene Hydroxylase Activity in the Gastrointestinal Tract|Cancer Res.22:1120-1125|1962|
105307|T||Guthrie,H.D., and D.J. Bolt|Pituitary and Ovarian Hormone Secretion and Ovulation in Gilts Injected with Gonadotropins During and After Oral Administration of Progesterone Agonist (Altrenogest)|Biol. Reprod.33(3): 679-689|1985|10.1095/biolreprod33.3.679
105308|A||Green,E.U.|Effects of Hydrocarbon-Protein Conjugates on Frog Embryos.  1. Arrest of Development by Conjugates of 9,10-Dimethyl-1,2-Benzanthracene|Cancer Res.14:591-598|1954|
105310|T||Weiss Sachdev,S., and R. Sunde|Selenium Regulation of Transcript Abundance and Translational Efficiency of Glutathione Peroxidase-1 and -4 in Rat Liver|Biochem. J. (Lond.)357:851-858|2001|10.1042/bj3570851
105315|T||Ikebuchi,H., R. Teshima, K. Suzuki, T. Terao, and Y. Yamane|Simultaneous Induction of Pb-Metallothionein-like Protein and Zn-Thionein in the Liver of Rats Given Lead Acetate|Biochem. J. (Lond.)233(2): 541-546|1986|10.1042/bj2330541
105319|T||Moir,D., A. Viau, I. Chu, J. Withey, and E. McMullen|Pharmacokinetics of Benzo(a)pyrene in the Rat|J. Toxicol. Environ. Health Part A53(7): 507-530|1998|10.1080/009841098159114
105321|T||Huang,Y.W., D.J. Hoffman, and W.H. Karasov|Oxidative Stress Induced in PCB 126-Exposed Northern Leopard Frogs, Rana pipiens|J. Toxicol. Environ. Health Part A70(8): 676-681|2007|10.1080/15287390600974676
105322|A||Kreiling,J.A., R. Creton, and C. Reinisch|Early Embryonic Exposure to Polychlorinated Biphenyls Disrupts Heat-Shock Protein 70 Cognate Expression in Zebrafish|J. Toxicol. Environ. Health Part A70(12): 1005-1013|2007|10.1080/15287390601171868
105323|T||McDonald,J.D., W.M. Weber, R. Marr, D. Kracko, H. Khain, and R. Arimoto|Disposition and Clearance of Tungsten After Single-Dose Oral and Intravenous Exposure in Rodents|J. Toxicol. Environ. Health Part A70(10): 829-836|2007|10.1080/15287390701211762
105324|T||Williams II,M.M., J.K. Pataky, J.N. Nordby, D.E. Riechers, C.L. Sprague, and J.B. Masiunas|Cross-Sensitivity in Sweet Corn to Nicosulfuron and Mesotrione Applied Postemergence|Hortscience40(6): 1801-1805|2005|10.21273/HORTSCI.40.6.1801
105325|T||Naruse,H., and K. Maekawa|Controlled-Release Pesticides  2. Fungicidally Active Water-Soluble Polymer|J. Fac. Agric. Kyushu Univ.21(4): 153-159|1977|10.5109/23495
105326|T||Choudhury,N.K., and P.K. Mahapatra|Senescence of Cucurbita maxima Cotyledons and the Effect of Gibberellic Acid and Potassium Nitrate on the Excised Cotyledons|J. Indian Bot. Soc.56:275-277|1977|
105327|T||Trimble,R.M., A.M. El-Sayed, and D.J. Pree|Impact of Sub-lethal Residues of Azinphos-Methyl on the Pheromone-Communication Systems of Insecticide-Susceptible and Insecticide-Resistant Obliquebanded Leafrollers Choristoneura rosaceana (Lepidoptera:  Tortricidae)|Pest Manag. Sci.60(7): 660-668|2004|10.1002/ps.841
105328|T||Inoue,K., S. Kondo, A. Adachi, and H. Yokota|Production of Iron Enriched Vegetables:  Effect of Feeding Time on the Rate of Increase in Foliar Iron Content and Foliar Injury|J. Hortic. Sci. Biotechnol.75(2): 209-213|2000|10.1080/14620316.2000.11511225
105329|T||Ao,T.Y., F. Fan, R.F. Korcak, and M. Faust|Iron Reduction by Apple Roots|J. Plant Nutr.8(7): 629-644|1985|10.1080/01904168509363373
105330|T||Wallace,G.A., and A. Wallace|Phytotoxicity of High Levels of Iron Chelates on Bean Plants in Nutrient Solution|J. Plant Nutr.6(6): 461-463|1983|10.1080/01904168309363110
105331|A||Mayor,D.J., C. Matthews, K. Cook II, A.F. Zuur, and S. Hay|CO2-Induced Acidification Affects Hatching Success in Calanus finmarchicus|Mar. Ecol. Prog. Ser.350:91-97|2007|10.3354/meps07142
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105334|T||Oerter,D., H.J. Kirstaedter, R. Bass, and H.J. Merker|Effect of Chloramphenicol and Thiamphenicol on Mitochondrial Components and the Possible Relationship to Drug Toxicity|Postgrad. Med. J.50(suppl. 5): 65-68|1974|
105335|T||Roncada,P., L. Ermini, A. Schleuning, G.L. Stracciari, and A. Strocchia|Pharmacokinetics and Residual Behaviour in Milk of Oxytetracycline in Cows Following Administration of Uterine Pessaries|J. Vet. Pharmacol. Ther.23(5): 281-285|2000|10.1111/j.1365-2885.2000.00260.x
105336|T||Payne,M.A., J.G. Babish, M. Bulgin, M. Lane, S. Wetzlich, and A.L. Craigmill|Serum Pharmacokinetics and Tissue and Milk Residues of Oxytetracycline in Goats Following a Single Intramuscular Injection of a Long-Acting Preparation and Milk Residues Following a Single Subcutaneous Injection|J. Vet. Pharmacol. Ther.25(1): 25-32|2002|10.1046/j.1365-2885.2002.00378.x
105337|T||Tell,L.A., Y. Sun, M. Needham, J.R. Johnson, and A. Shukla|In Vivo Release of Oxytetracycline from a Biodegradable Controlled-Release Gel Injected Subcutaneously in Japanese Quail (Coturnix coturnix japonica)|J. Vet. Pharmacol. Ther.26(4): 239-245|2003|10.1046/j.1365-2885.2003.00481.x
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105340|T||Zhang,J., J. Liang, and M.H. Wong|The Effect of High CO2 and Low O2 Concentrations in Simulated Landfill Gas on the Growth and Nodule Activity of Leucaena leucocephala|Plant Cell Physiol.36(8): 1431-1438|1995|
105341|T||Sharma,R.K., and M.S. Gangwar|Selenium-Sulphur Relationship on the Growth and Composition of Sunflower|J. Indian Soc. Soil Sci.33(4): 821-825|1985|
105343|T||Cui,Y., and Q. Wang|Physiological Responses of Maize to Elemental Sulphur and Cadmium Stress|Plant Soil Environ.52(11): 523-529|2006|10.17221/3542-PSE
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105348|T||Zhao,F., E.J. Evans, P.E. Bilsborrow, and J.K. Syers|Influence of Nitrogen and Sulphur on the Glucosinolate Profile of Rapeseed (Brassica napus L.)|J. Sci. Food Agric.64(3): 295-304|1994|10.1002/jsfa.2740640309
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105351|T||Foltinova,J.|Structure of the Tubules of Glandula submaxillaris After the Administration of Goitrogens|Gegenbaurs Morphol. Jahrb.117(4): 496-500|1972|
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105354|T||Ellison,A.C.|Intravitreal Effects of Pimaricin in Experimental Fungal Endophthalmitis|Am. J. Ophthalmol.81(2): 157-161|1976|10.1016/0002-9394(76)90727-3
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105370|T||Srisatit,T., T. Kosakul, and D. Dhitivara|Efficiency of Arsenic Removal from Soil by Vetiveria zizanioides (Linn.) Nash and Vetiveria nemoralis (Balansa) A. Camus|ScienceAsia29(3): 291-296|2003|10.2306/scienceasia1513-1874.2003.29.291
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105382|T||Krishnan,K.A., J.A. Proudman, D.J. Bolt, and J.M. Bahr|Development of an Homologous Radioimmunoassay for Chicken Follicle-Stimulating Hormone and Measurement of Plasma FSH During the Ovulatory Cycle|Comp. Biochem. Physiol. A Comp. Physiol.105(4): 729-734|1993|10.1016/0300-9629(93)90275-9
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105387|A||Young,R.F., E.A. Orr, G.G. Goss, and P.M. Fedorak|Detection of Naphthenic Acids in Fish Exposed to Commercial Naphthenic Acids and Oil Sands Process-Affected Water|Chemosphere68(3): 518-527|2007|10.1016/j.chemosphere.2006.12.063
105388|T||Uegaki,R., N. Seike, and T. Otani|Polychlorinated Dibenzo-p-Dioxins, Dibenzofurans, and Dioxin-like Polychlorinated Biphenyls in Rice Plants:  Possible Contaminated Pathways|Chemosphere65(9): 1537-1543|2006|10.1016/j.chemosphere.2006.04.009
105389|T||Tamagawa,Y., R. Yamaki, H. Hirai, S. Kawai, and T. Nishida|Removal of Estrogenic Activity of Natural Steroidal Hormone Estrone by Ligninolytic Enzymes from White Rot Fungi|Chemosphere65(1): 97-101|2006|10.1016/j.chemosphere.2006.02.031
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105392|A||Gallardo-Williams,M.T., V.A. Whalen, R.F. Benson, and D.F. Martin|Accumulation and Retention of Lead by Cattail (Typha domingensis), Hydrilla (Hydrilla verticillata), and Duckweed (Lemna obscura)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control37:1399-1408|2002|
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105395|T||Gonzalez-Mendoza,D., A.Q. Moreno, and O. Zapata-Perez|Coordinated Responses of Phytochelatin Synthase and Metallothionein Genes in Black Mangrove, Avicennia germinans, Exposed to Cadmium and Copper|Aquat. Toxicol.83(4): 306-314|2007|10.1016/j.aquatox.2007.05.005
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105406|T||Zhang,B., R.J. Kendall, and T.A. Anderson|Toxicity of the Explosive Metabolites Hexahydro-1,3,5-Trinitroso-1,3,5-Triazine (TNX) and Hexahydro-1-Nitroso-3,5-Dinitro-1,3,5-Triazine (MNX) to the Earthworm Eisenia fetida|Chemosphere64(1): 86-95|2006|10.1016/j.chemosphere.2005.11.037
105407|T||Xiao,N.W., Y. Song, F. Ge, X.H. Liu, and Z.Y. Ou-Yang|Biomarkers Responses of the Earthworm Eisenia fetida to Acetochlor Exposure in OECD Soil|Chemosphere65(6): 907-912|2006|10.1016/j.chemosphere.2006.03.060
105408|T||Xiao,N., B. Jing, F. Ge, and X. Liu|The Fate of Herbicide Acetochlor and Its Toxicity to Eisenia fetida Under Laboratory Conditions|Chemosphere62(8): 1366-1373|2006|10.1016/j.chemosphere.2005.07.043
105409|T||Vandenhove,H., and M. Van Hees|Predicting Radium Availability and Uptake from Soil Properties|Chemosphere69(4): 664-674|2007|10.1016/j.chemosphere.2007.02.054
105410|T||Son,J., M.I. Ryoo, J. Jung, and K. Cho|Effects of Cadmium, Mercury and Lead on the Survival and Instantaneous Rate of Increase of Paronychiurus kimi (Lee) (Collembola)|Appl. Soil Ecol.35(2): 404-411|2007|10.1016/j.apsoil.2006.07.002
105411|A||Soto-Rodriguez,S., M. Armenta, and B. Gomez-Gil|Effects of Enrofloxacin and Florfenicol on Survival and Bacterial Population in an Experimental Infection with Luminescent Vibrio campbellii in Shrimp Larvae of Litopenaeus vannamei|Aquaculture255(1-4): 48-54|2006|10.1016/j.aquaculture.2005.11.035
105412|T||Janouskova,M., D. Pavlikova, T. Macek, and M. Vosatka|Influence of Arbuscular mycorrhiza on the Growth and Cadmium Uptake of Tobacco with Inserted Metallothionein Gene|Appl. Soil Ecol.29(3): 209-214|2005|10.1016/j.apsoil.2004.12.006
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105428|T||Prabhaker,N., and N.C. Toscano|Toxicity of the Insect Growth Regulators, Buprofezin and Pyriproxyfen, to the Glassy-Winged Sharpshooter, Homalodisca coagulata Say (Homoptera:  Cicadellidae)|Crop Prot.26(4): 495-502|2007|10.1016/j.cropro.2006.04.019
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105439|T||Madge,D.S.|Effects of the Bipyridilium Herbicides, Diquat and Paraquat, on In Vivo Hexose Absorption and Fluid Transfer in Adult Mice|Gen. Pharmacol.13(2): 139-145|1982|10.1016/0306-3623(82)90069-6
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105637|T||Chellman,G.J., Z.A. Shaikh, R.B. Baggs, and G.L. Diamond|Resistance to Cadmium-Induced Necrosis in Testes of Inbred Mice:  Possible Role of a Metallothionein-Like Cadmium-Binding Protein|Toxicol. Appl. Pharmacol.79(3): 511-523|1985|10.1016/0041-008X(85)90148-6
105638|T||Cerkezkayabekir,A., and T. Aktac|The Histopathologic Effects of Endosulfan on the Mouse Thyroid Gland|Turk. J. Biol. (Turk Biol. Derg. )21(4): 439-444|1997|
105639|T||Wetzstein,H.Y.|Stigmatic Surface Degeneration and Inhibition of Pollen Germination with Selected Pesticidal Sprays During Receptivity in Pecan|J. Am. Soc. Hortic. Sci.115(4): 656-661|1990|10.21273/JASHS.115.4.656
105640|T||Winkler,H.E., B.A.D. Hetrick, and T.C. Todd|Interactions of Heterodera glycines, Macrophomina phaseolina, and Mycorrhizal Fungi on Soybean in Kansas|J. Nematol.26(4S): 675-682|1994|
105641|T||Vijayakumar,B.S.|Effect of Different Concentrations of Bavistin Sprays on the Quality of Groundnut Kernel and Oil Content|Indian J. Mycol. Plant Pathol.25(3): 257-259|1995|
105642|T||Somashekar,R.K., Siddaramaiah, K.P. Srinath, and P. Venkatasubbaiah|Cytological Effects of Fungicide Bavistin on the Root Meristem of Coffee|Ann. Trop. Res.5(2): 75-82|1983|
105643|T||Smith,G.A., and S.S. Martin|Yield and Biochemical Response of Sugarbeet to Benomyl|Agron. J.79(2): 297-302|1987|10.2134/agronj1987.00021962007900020024x
105644|T||Tewari,S.N.|Evaluation of Phytotoxicity Index of Carbendazim Compounds on Rice|Int. J. Trop. Plant Dis.3(1): 33-43|1985|
105645|T||Sindhan,G.S., R.D. Parashar, and I. Hooda|Effects of Chemical Seed Treatment on Incidence of Flag Smut and Biochemical Constituents of Wheat Plants|Indian J. Mycol. Plant Pathol.26(3): 289-291|1996|
105646|T||Gupta,A., and B. Ram|Uptake, Translocation and Persistence of Carbendazim in Peanut Through Soil|Indian J. Mycol. Plant Pathol.17(1): 72-73|1987|
105647|T||Abel,H., I. Immig, and E. Harman|Effect of Adding Caprylic and Capric Acid to Grass on Fermentation Characteristics During Ensiling and in the Artificial Rumen System RUSITEC|Anim. Feed Sci. Technol.99(1-4): 65-72|2002|10.1016/S0377-8401(02)00084-6
105648|T||Trabace,L., P. Avato, M. Mazzoccoli, and G. Siro-Brigiani|Choleretic Activity of Thapsia Chem I, II, and III in Rats:  Comparison with Terpenoid Constituents and Peppermint Oil|PTR. Phytother.Res.8(5): 305-307|1994|10.1002/ptr.2650080511
105649|T||Karapinar,M.|Influence of Menthol and Thymol on Aspergillus parasiticus Growth and Production of Aflatoxins in a Synthetic Medium|Mitt. Geb. Lebensm. Hyg.81(3): 287-295|1990|
105650|T||Mohammad,F.K., G.A.M. Faris, and M.K. Shindala|Comparative Antidotal Effects of Diphenhydramine and Atropine Against Dichlorvos-Induced Acute Toxicosis in Rats|Vet. Arh. (Tisak)72(1): 19-28|2002|
105651|T||Paul,N.D., P.G. Ayres, and L.E. Wyness|On the Use of Fungicides for Experimentation in Natural Vegetation|Funct. Ecol.3(6): 759-769|1989|10.2307/2389509
105652|A||Kaus,S.|The Effect of Aminoglycoside Antibiotics on the Lateral Line Organ of Aplocheilus lineatus (Cyprinodontidae)|Acta Oto-Laryngol.103(3/4): 291-298|1987|10.3109/00016488709107285
105656|T||Vistisen,B., and C.E. Hoy|13C-Labeled 18:2n-6 Recovered in Brush Border Membrane Phospholipids Short Time After Administration|Nutr. Res.24(2): 173-183|2004|10.1016/j.nutres.2003.10.002
105657|T||Amlou,M., B. Moreteau, and J.R. David|Larval Tolerance in the Drosophila melanogaster Species Complex Toward the Two Toxic Acids of the D. sechellia host Plant|Hereditas129(1): 7-14|1998|10.1111/j.1601-5223.1998.00007.x
105658|T||Vistisen,B., and C.E. Hoy|Transport of 13C-Labelled Linoleic and 13C-Labelled Caprylic Acid in Rat Plasma After Administration of Specific Structured Triacylglycerols|Nutr. Res.24(1): 107-119|2004|10.1016/j.nutres.2003.09.010
105663|A||Otludil,B., E.I. Cengiz, M.Z. Yildirim, O. Unver, and E. Unlu|The Effects of Endosulfan on the Great Ramshorn Snail Planorbarius corneus (Gastropoda, Pulmonata):  A Histopathological Study|Chemosphere56(7): 707-716|2004|10.1016/j.chemosphere.2004.04.027
105664|T||Mittal,V., and R. Ujagir|Toxicity of Spinosad 45 SC to Natural Enemies Associated with Insect Pests of Pigeonpea at Pantnagar|J. Biol. Control19(1): 73-76|2005|
105665|T||Nuessly,G.S., and M.G. Hentz|Contact and Leaf Residue Activity of Insecticides Against the Sweet Corn Pest Euxesta stigmatias (Diptera:  Otitidae)|J. Econ. Entomol.97(2): 496-502|2004|10.1603/0022-0493-97.2.496
105666|T||Ozmen,A.D., F. Ozdemir, and I. Turkan|Effects of Paclobutrazol on Response of Two Barley Cultivars to Salt Stress|Biol. Plant. (Praha)46(2): 263-268|2003|10.1023/A:1022862929881
105667|A||Notti,A., D. Fattorini, E.M. Razzetti, and F. Regoli|Bioaccumulation and Biotransformation of Arsenic in the Medeterranean Polychaete Sabella spallanzanii: Experimental Observations|Environ. Toxicol. Chem.26(6): 1186-1191|2007|10.1897/06-362R.1
105668|T||Palumbo,A.J., P.L. TenBrook, A. Phipps, and R.S. Tjeerdema|Comparative Toxicity of Thiobencarb and Deschlorothiobencarb to Rice (Oryza sativa)|Bull. Environ. Contam. Toxicol.73(1): 213-218|2004|10.1007/s00128-004-0415-z
105669|T||Ottea,J.A., and J.W. Holloway|Target-Site Resistance to Pyrethroids in Heliothis virescens (F.) and Helicoverpa zea (Boddie)|Pestic. Biochem. Physiol.61(3): 155-167|1998|10.1006/pest.1998.2361
105670|T||Ortiz-Santaliestra,M.E., A. Marco, and M. Lizana|Sensitivity and Behavior of the Iberian Newt, Triturus boscai, Under Terrestrial Exposure to Ammonium Nitrate|Bull. Environ. Contam. Toxicol.75(4): 662-669|2005|10.1007/s00128-005-0803-z
105671|A||Padovesi-Fonseca,C., and M.G. Philomeno|Effects of Algicide (Copper Sulfate) Application on Short-Term Fluctuations of Phytoplankton in Lake Paranoa, Central Brazil|Braz. J. Biol.64(4): 819-826|2004|10.1590/S1519-69842004000500011
105672|T||Simpson,D.R., G.E. Weston, J.A. Turner, P. Jennings, and P. Nicholson|Differential Control of Head Blight Pathogens of Wheat by Fungicides and Consequences for Mycotoxin Contamination of Grain|Environ. Toxicol. Chem.107(4): 421-431|2001|
105673|T||Nurse,R.E., A.S. Hamill, C.J. Swanton, F.J. Tardif, W. Deen, and P.H. Sikkema|Is the Application of a Residual Herbicide Required Prior to Glyphosate Application in No-Till Glyphosate-Tolerant Soybean (Glycine max)?|Crop Prot.26(4): 484-489|2007|10.1016/j.cropro.2006.04.018
105674|A||Oberdorster,E., D. Rittschof, and P. McClellan-Green|Testosterone Metabolism in Imposex and Normal Ilyanassa obsoleta:  Comparison of Field and TBTA Cl-Induced Imposex|Mar. Pollut. Bull.36(2): 144-151|1998|10.1016/S0025-326X(97)00174-4
105675|A||O'Gara,B.A., P.M. Murray, E.M. Hoyt, T. Leigh-Logan, and M.B. Smeaton|The Vitamin E Analog Trolox Reduces Copper Toxicity in the Annelid Lumbriculus variegatus but is also Toxic on Its Own|Neurotoxicology27(4): 604-614|2006|10.1016/j.neuro.2006.03.023
105676|T||Ohhira,S., M. Enomoto, and H. Matsui|Sex Difference in the Principal Cytochrome P-450 for Tributyltin Metabolism in Rats|Toxicol. Appl. Pharmacol.210(1-2): 32-38|2006|10.1016/j.taap.2005.06.013
105677|A||Ohta,M., and T. Suzuki|Participation of the Inositol Phospholipid Signaling Pathway in the Increase in Cytosolic Calcium Induced by Tributyltin Chloride Intoxication of Chlorophyllous Protozoa Euglena gracilis Z and Its Achlorophyllous Mutant|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(4): 525-530|2007|10.1016/j.cbpc.2007.06.005
105678|T||Abdel Rahim,A.G.|The Effects of Dietary L-Ascorbic Acid on the Absorption and Utilization of Na75SeO3 of Silver-Treated Rats|Comp. Biochem. Physiol. C Comp. Pharmacol.81(1): 131-132|1985|10.1016/0742-8413(85)90103-3
105679|A||Ward,T.J., J.R. Kramer, R.L. Boeri, and J.W. Gorsuch|Chronic Toxicity of Silver to the Sea Urchin (Arbacia punctulata)|Environ. Toxicol. Chem.25(6): 1568-1573|2006|10.1897/05-299R.1
105680|A||Ward,T.J., R.L. Boeri, C. Hogstrand, J.R. Kramer, S.M. Lussier, W.A. Stubblefield, D.C. Wyskiel, and J.W. Gorsuch|Influence of Salinity and Organic Carbon on the Chronic Toxicity of Silver to Mysids (Americamysis bahia) and Silversides (Menidia beryllina)|Environ. Toxicol. Chem.25(7): 1809-1816|2006|10.1897/05-400R.1
105681|A||Pedroso,M.S., G.L.L. Pinho, S.C. Rodrigues, and A. Bianchini|Mechanism of Acute Silver Toxicity in the Euryhaline Copepod Acartia tonsa|Aquat. Toxicol.82(3): 173-180|2007|10.1016/j.aquatox.2007.02.009
105682|A||Vijayavel,K., S. Gopalakrishnan, and M.P. Balasubramanian|Sublethal Effect of Silver and Chromium in the Green Mussel Perna viridis with Reference to Alterations in Oxygen Uptake, Filtration Rate and Membrane Bound ATPase System as Biomarkers|Chemosphere69(6): 979-986|2007|10.1016/j.chemosphere.2007.05.011
105683|A||Naddy,R.B., J.W. Gorsuch, A.B. Rehner, G.R. McNerney, R.A. Bell, and J.R. Kramer|Chronic Toxicity of Silver Nitrate to Ceriodaphnia dubia and Daphnia magna, and Potential Mitigating Factors|Aquat. Toxicol.84(1): 1-10|2007|10.1016/j.aquatox.2007.03.022
105684|T||Alice,J., R.P. Sujeetha, K.V. Mammen, A. Visalakshy, and N. Mohandas|Insecticides Interaction on the Useful Soil Organisms in Banana Plantation|Entomon24(2): 185-190|1999|
105685|T||Hill,E.F.|Sex and Storage Affect Cholinesterase Activity in Blood Plasma of Japanese Quail|J. Wildl. Dis.25(4): 580-585|1989|10.7589/0090-3558-25.4.580
105686|T||Rajamani,S., J.P. Kulshrestha, I.C. Pasalu, and R.C. Dani|Seedling Root Soaking, an Effective and Economical Measure to Control Rice Insect Pests at Vegetative Stage|Indian J. Plant Prot.12(1): 35-41|1984|
105687|T||Shahzad,S., and A. Ghaffar|Chemical Control of Fusarium oxysporum and Meloidogyne incognita Infection on Mung Bean|Pak. J. Nematol.14(2): 121-127|1996|
105688|A||Hidaka,H., and R. Tatsukawa|Avoidance by Olfaction in a Fish, Medaka (Oryzias latipes), to Aquatic Contaminants|Environ. Pollut.56(4): 299-309|1989|10.1016/0269-7491(89)90075-4
105689|T||Rogers,J.M., R.W. Setzer, S. Branch, and N. Chernoff|Chemically Induced Supernumerary Lumbar Ribs in CD-1 Mice:  Size Distribution and Dose Response|Birth Defects Res. B Dev. Reprod. Toxicol.71(1): 17-25|2004|10.1002/bdrb.10055
105690|T||Way,M.O., N.G. Whitney, and R.G. Wallace|Evaluation of Dimilin and Benlate for Soybean Insect Pest and Disease Control, 1990|Insectic. Acaric. Tests17:277-280|1992|10.1093/iat/17.1.277
105691|T||Vander Zaag,P., and A.L. Demagante|Potato (Solanum spp.) in an Isohyperthermic Environment:  IV.  Effects of Cutting Seed Tubers|Field Crops Res.20(1): 1-12|1989|10.1016/0378-4290(89)90019-1
105692|T||Richmond,D.V., and A. Phillips|The Effect of Benomyl and Carbendazim on Mitosis in Hyphae of Botrytis cinerea Pers. ex Fr. and Roots of Allium cepa L.|Pestic. Biochem. Physiol.5(4): 367-379|1975|10.1016/0048-3575(75)90057-7
105693|T||Singh,R.V., and P. Nagpal|Novel Biologically Potent Diorganosilicon(IV) Complexes of Indole-2,3-Dione Derivatives|Bioinorg. Chem. Appl.:255-270|2005|10.1155/BCA.2005.255
105694|T||Todd,T.C., S.W. James, and T.R. Seastedt|Soil Invertebrate and Plant Responses to Mowing and Carbofuran Application in a North American Tallgrass Prairie|Plant Soil144(1): 117-124|1992|10.1007/BF00018852
105695|T||Yox,D.P., and R.C. Ritter|Capsaicin Attenuates Suppression of Sham Feeding Induced by Intestinal Nutrients|Am. J. Physiol., Regul. Integr. Comp. Physiol.255(4, Pt. 2): 569-574|1988|10.1152/ajpregu.1988.255.4.R569
105696|T||Baraldi,M., G. Pinelli, P. Ricci, and M.L. Zeneroli|Toxins in Hepatic Encephalopathy:  The Role of the Synergistic Effect of Ammonia, Mercaptans and Short Chain Fatty Acids|Arch. Toxicol.7:103-105|1984|10.1007/978-3-642-69132-4_12
105697|T||Mitkov,D., D. Toreva, A. Krustev, I. Kostadinova, and S. Jumbasova|On Octanoic Acid-Induced Hyperventilation - Implications for Hepatic Encephalopathy and Reye's Syndrome|Res. Exp. Med.189(5): 347-354|1989|10.1007/BF01855040
105698|T||Draye,J.P., and J. Vamecq|The Inhibition by Valproic Acid of the Mitochondrial Oxidation of Monocarboxylic and omega-Hydroxymonocarboxylic Acids:  Possible Implications for the Metabolism of gamma-Aminobutyric Acid|J. Biochem. (Tokyo)102(1): 235-242|1987|10.1093/oxfordjournals.jbchem.a122036
105699|T||Boeck,L.D., and R.W. Wetzel|A54145, a New Lipopeptide Antibiotic Complex: Factor Control Through Precursor Directed Biosynthesis|J. Antibiot.43(6): 607-615|1990|10.7164/antibiotics.43.607
105700|T||Das,S.K., and A.B. Banerjee|Toxic Fatty Acid Resistant Mutant of Trichophyton rubrum|Acta Microbiol. Pol.26(4): 403-406|1977|
105702|T||MacDonald,M.L., Q.R. Rogers, and J.G. Morris|Aversion of the Cat to Dietary Medium-Chain Triglycerides and Caprylic Acid|Physiol. Behav.35(3): 371-375|1985|10.1016/0031-9384(85)90311-7
105703|T||Zieve,F.J., L. Zieve, W.M. Doizaki, and R.B. Gilsdorf|Synergism Between Ammonia and Fatty Acids in the Production of Coma:  Implications for Hepatic Coma|J. Pharmacol. Exp. Ther.191(1): 10-16|1974|
105705|A||Koistinen,J., J.V.K. Kukkonen, A. Sormunen, E. Mannila, S. Herve, and T. Vartiainen|Bioaccumulation, Bioavailability and Environmental Fate of Chlorophenol Impurities, Polychlorinated Hydroxydiphenylethers and Their Methoxy Analogues|Chemosphere68(7): 1382-1391|2007|10.1016/j.chemosphere.2007.01.027
105706|T||Hanberg,A., L. Kling, and H. Hakansson|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on the Hepatic Stellate Cell Population in the Rat|Chemosphere32(6): 1225-1233|1996|10.1016/0045-6535(95)00365-7
105707|A||Gothberg,A., and M. Greger|Formation of Methyl Mercury in an Aquatic Macrophyte|Chemosphere65(11): 2096-2105|2006|10.1016/j.chemosphere.2006.06.045
105708|T||Jensen,J., X. Diao, and J.J. Scott-Fordsmand|Sub-Lethal Toxicity of the Antiparasitic Abamectin on Earthworms and the Application of Neutral Red Retention Time as a Biomarker|Chemosphere68(4): 744-750|2007|10.1016/j.chemosphere.2006.12.094
105709|T||Cox,R.L., J.O. Moffett, W.T. Wilson, and M. Ellis|Effects of Late Spring and Summer Menthol Treatment on Colony Strength, Honey Production and Tracheal Mite Infestation Levels|Am. Bee J.129(8): 547-549|1989|
105710|T||Calderone,N.W., W.A. Bruce, G. Allen-Wardell, and H. Shimanuki|Evaluation of Botanical Compounds for Control of the Honey-Bee Tracheal Mite, Acarapis woodi|Am. Bee J.131(9): 589-591|1991|
105711|T||Rengel,Z.|Ecotypes of Holcus lanatus Tolerant to Zinc Toxicity also Tolerate Zinc Deficiency|Ann. Bot.86(6): 1119-1126|2000|10.1006/anbo.2000.1282
105712|T||Iszard,M.B., J. Liu, Y. Liu, T. Dalton, G.K. Andrews, R.D. Palmiter, and C.D. Klaassen|Characterization of Metallothionein-I-Transgenic Mice|Toxicol. Appl. Pharmacol.133:305-312|1995|10.1006/taap.1995.1155
105714|T||Kelley,K.B., Q. Zhang, K.N. Lambert, and D.E. Riechers|Evaluation of Auxin-Responsive Genes in Soybean for Detection of Off-Target Plant Growth Regulator Herbicides|Weed Sci.54(2): 220-229|2006|10.1614/WS-05-106R.1
105715|A||Hoeger,B., B. Kollner, D.R. Dietrich, and B. Hitzfeld|Water-Borne Diclofenac Affects Kidney and Gill Integrity and Selected Immune Parameters in Brown Trout (Salmo trutta f. fario)|Aquat. Toxicol.75(1): 53-64|2005|10.1016/j.aquatox.2005.07.006
105716|A||Johnson,A., E. Carew, and K.A. Sloman|The Effects of Copper on the Morphological and Functional Development of Zebrafish Embryos|Aquat. Toxicol.84(4): 431-438|2007|10.1016/j.aquatox.2007.07.003
105717|A||Hoyle,I., B.J. Shaw, and R.D. Handy|Dietary Copper Exposure in the African Walking Catfish, Clarias gariepinus:  Transient Osmoregulatory Disturbances and Oxidative Stress|Aquat. Toxicol.83(1): 62-72|2007|10.1016/j.aquatox.2007.03.014
105718|T||Lee,K.H., and S. Jose|Nitrate Leaching in Cottonwood and Loblolly Pine Biomass Plantations Along a Nitrogen Fertilization Gradient|Agric. Ecosyst. Environ.105(4): 615-623|2005|10.1016/j.agee.2004.08.004
105719|A||Krang,A.S.|Naphthalene Disrupts Pheromone Induced Mate Search in the Amphipod Corophium volutator (Pallas)|Aquat. Toxicol.85(1): 9-18|2007|10.1016/j.aquatox.2007.07.012
105720|T||Torres-Vila,L.M., M.C. Rodriguez-Molina, A. Lacasa-Plasencia, P. Bielza-Lino, and A. Rodriguez-del-Rincon|Pyrethroid Resistance of Helicoverpa armigera in Spain:  Current Status and Agroecological Perspective|Agric. Ecosyst. Environ.93(1-3): 55-66|2002|10.1016/S0167-8809(02)00003-8
105721|A||O'Rourke,S., K.G. Drouillard, and G.D. Haffner|Determination of Laboratory and Field Elimination Rates of Polychlorinated Biphenyls (PCBs) in the Freshwater Mussel, Elliptio complanata|Arch. Environ. Contam. Toxicol.47(1): 74-83|2004|10.1007/s00244-004-2295-y
105722|A||Osman,A.G.M., I.A. Mekkawy, J. Verreth, and F. Kirschbaum|Effects of Lead Nitrate on the Activity of Metabolic Enzymes During Early Developmental Stages of the African Catfish, Clarias gariepinus (Burchell, 1822)|Fish Physiol. Biochem.33(1): 1-13|2007|10.1007/s10695-006-9111-8
105723|T||Ouchi,R.Y., A.J. Manzato, C.R. Ceron, and G.O. Bonilla-Rodriguez|Evaluation of the Effects of a Single Exposure to Ethidium Bromide in Drosophila melanogaster (Diptera-Drosophilidae)|Bull. Environ. Contam. Toxicol.78(6): 489-493|2007|10.1007/s00128-007-9208-5
105724|A||Palikova,M., R. Krejci, K. Hilscherova, P. Babica, S. Navratil, R. Kopp, and L. Blaha|Effect of Different Cyanobacterial Biomasses and Their Fractions with Variable Microcystin Content on Embryonal Development of Carp (Cyprinus carpio L.)|Aquat. Toxicol.81(3): 312-318|2007|10.1016/j.aquatox.2007.01.001
105725|T||Ohrvik,H., M. Yoshioka, A. Oskarsson, and J. Tallkvist|Cadmium-Induced Disturbances in Lactating Mammary Glands of Mice|Toxicol. Lett.164(3): 207-213|2006|10.1016/j.toxlet.2005.12.008
105726|A||Oetken,M., G. Nentwig, D. Loffler, T. Ternes, and J. Oehlmann|Effects of Pharmaceuticals on Aquatic Invertebrates.  Part I.  The Antiepileptic Drug Carbamazepine|Arch. Environ. Contam. Toxicol.49(3): 353-361|2005|10.1007/s00244-004-0211-0
105727|A||Oehlmann,J., U. Schulte-Oehlmann, J. Bachmann, M. Oetken, I. Lutz, W. Kloas, and T.A. Ternes|Bisphenol A Induces Superfeminization in the Ramshorn Snail Marisa cornuarietis (Gastropoda:  Prosobranchia) at Environmentally Relevant Concentrations|Environ. Health Perspect.114(suppl.1): 127-133|2006|10.1289/ehp.8065
105729|T||Odum,J., I.T.G. Pyrah, J.R. Foster, J.P. Van Miller, R.L. Joiner, and J. Ashby|Comparative Activities of p-Nonylphenol and Diethylstilbestrol in Noble Rat Mammary Gland and Uterotrophic Assays|Regul. Toxicol. Pharmacol.29(2): 184-195|1999|10.1006/rtph.1999.1286
105730|T||Odum,J., I.T.G. Pyrah, A.R. Soames, J.R. Foster, J.P. Van Miller, R.L. Joiner, and J. Ashby|Effects of p-Nonylphenol (NP) and Diethylstilboestrol (DES) on the Alderley Park (ALPK) Rat:  Comparison of Mammary Gland and Uterus Sensitivity Following Oral Gavage or Implanted Mini-Pumps|J. Appl. Toxicol.19(5): 367-378|1999|10.1002/(SICI)1099-1263(199909/10)19:5<367::AID-JAT593>3.0.CO;2-C
105731|A||Novotny,C., N. Dias, A. Kapanen, K. Malachova, M. Vandrovcova, M. Itavaara, and N. Lima|Comparative Use of Bacterial, Algal and Protozoan Tests to Study Toxicity of Azo- and Anthraquinone Dyes|Chemosphere63(9): 1436-1442|2006|10.1016/j.chemosphere.2005.10.002
105732|T||Notten,M.J.M., A.J.P. Oosthoek, J. Rozema, and R. Aerts|The Landsnail Cepaea nemoralis Regulates Internal Cd Levels when Fed on Cd-Enriched Stinging Nettle (Urtica dioica) Leaves at Low, Field-Relevant Concentrations|Environ. Pollut.139(2): 296-305|2006|10.1016/j.envpol.2005.05.007
105733|T||Panich-Pat,T., P. Pokethitiyook, M. Kruatrachue, E.S. Upatham, P. Srinives, and G.R. Lanza|Removal of Lead from Contaminated Soils by Typha angustifolia|Water Air Soil Pollut.155(1-4): 159-171|2004|10.1023/B:WATE.0000026523.96599.6b
105734|T||Papadakis,I.E., A. Giannakoula, C.P. Antonopoulou, M. Moustakas, E. Avramaki, and I.N. Therios|Photosystem 2 Activity of Citrus volkameriana (L.) Leaves as Affected by Mn Nutrition and Irradiance|Photosynthetica (Praha)45(2): 208-213|2007|10.1007/s11099-007-0034-0
105735|T||Papaconstantinou,A.D., P.L. Goering, T.H. Umbreit, and K.M. Brown|Regulation of Uterine hsp90alpha, hsp72 and HSF-1 Transcription in B6C3F1 Mice by beta-Estradiol and Bisphenol A:  Involvement of the Estrogen Receptor and Protein Kinase C|Toxicol. Lett.144(2): 257-270|2003|10.1016/S0378-4274(03)00215-7
105736|A||Orihel,D.M., M.J. Paterson, P.J. Blanchfield, R.A. Bodaly, and H. Hintelmann|Experimental Evidence of a Linear Relationship Between Inorganic Mercury Loading and Methylmercury Accumulation by Aquatic Biota|Environ. Sci. Technol.41(14): 4952-4958|2007|10.1021/es063061r
105737|A||Onikura,N., A. Nakamura, and K. Kishi|Acute Toxicity of Gallium and Effects of Salinity on Gallium Toxicity to Brackish and Marine Organisms|Bull. Environ. Contam. Toxicol.75(2): 356-360|2005|10.1007/s00128-005-0761-5
105738|T||Oner,G., and U.K. Senturk|Reversibility of Manganese-Induced Learning Defect in Rats|Food Chem. Toxicol.33(7): 559-563|1995|10.1016/0278-6915(95)00020-3
105739|T||O'Neill,I.K., M.T. Goldberg, F. El Ghissassi, and M. Rojas-Moreno|Dietary Fibre, Fat and Beef Modulation of Colonic Nuclear Aberrations and Microcapsule-Trapped Gastrointestinal Metabolites of Benzo(a)pyrene-Treated C57/B6 Mice Consuming Human Diets|Carcinogenesis12(2): 175-180|1991|10.1093/carcin/12.2.175
105741|T||Oliver,J.R., S. Jiang, and M.G. Cherian|Augmented Hepatic Injury Followed by Impaired Regeneration in Metallothionein-I/II Knockout Mice After Treatment with Thioacetamide|Toxicol. Appl. Pharmacol.210(3): 190-199|2006|10.1016/j.taap.2005.05.007
105742|T||Oliveira,P.J., and K.B. Wallace|Depletion of Adenine Nucleotide Translocator Protein in Heart Mitochondria from Doxorubicin-Treated Rats - Relevance for Mitochondrial Dysfunction|Toxicology220(2-3): 160-168|2006|10.1016/j.tox.2005.12.009
105743|T||Oliveira,H., T.M. Santos, J. Ramalho-Santos, and M. De lourdes Perein|Histopathological Effects of Hexavalent Chromium in Mouse Kidney|Bull. Environ. Contam. Toxicol.76(6): 977-983|2006|10.1007/s00128-006-1014-y
105744|T||Olaya,G., and W. Koller|Baseline Sensitivities of Venturia inaequalis Populations to the Strobilurin Fungicide Kresoxim-Methyl|Plant Dis.83(3): 274-278|1999|10.1094/PDIS.1999.83.3.274
105746|T||Blume,Y.B., N.M. Strashnyuk, A.P. Smertenko, V.G. Solodushko, V.A. Sidorov, and Y.Y. Gleba|Alteration of Beta -Tubulin in Nicotiana plumbaginifolia Confers Resistance to Amiprophos-Methyl|Theor. Appl. Genet.97(3): 464-472|1998|10.1007/s001220050918
105747|T||Levin,W., A.W. Wood, R.L. Chang, T.J. Slaga, H. Yagi, D.M. Jerina, and A.H. Conney|Marked Differences in the Tumor-Initiating Activity of Optically Pure (+)- and (-)-trans-7,8-Dihydroxy-7,8-Dihydrobenzo(a)pyrene on Mouse Skin|Cancer Res.37:2721-2725|1977|
105748|T||Shimkin,M.B., R. Weider, M. McDonough, L. Fishbein, and D. Swern|Lung Tumor Response in Strain A Mice as a Quantitative Bioassay of Carcinogenic Activity of Some Carbamates and Aziridines|Cancer Res.29:2184-2190|1969|
105749|T||Wattenberg,L.W., M.A. Page, and J.L. Leong|Induction of Increased Benzpyrene Hydroxylase Activity by 2-Phenylbenzothiazoles and Related Compounds|Cancer Res.28(12): 2539-2544|1968|
105750|T||Spitaler,M., C. Iben, and H. Tausch|Dioxin Residues in the Edible Tissue of Finishing Pigs After Dioxin Feeding|J. Anim. Physiol. Anim. Nutr.89(3-6): 65-71|2005|10.1111/j.1439-0396.2005.00542.x
105751|T||Saxena,D.K., and H. Kaur|Effect of Cadmium and Nickel Toxicity on the Peroxidase Activity and Carotenoids Content in Moss Thuidium cymbifolium|Indian J. Plant Physiol.10(4): 397-399|2005|
105752|T||Nye,D.E., H.E. Hurst, and H.W. Dorough|Fate of Croneton (2-Ethylthiomethylphenyl N-Methylcarbamate) in Rats|J. Agric. Food Chem.24(2): 371-377|1976|10.1021/jf60204a008
105753|T||Ohta,H., Y. Seki, and S. Imamiya|Metallothionein-Like Cadmium Binding Protein in Rat Testes Administered with Cadmium and Selenium|Bull. Environ. Contam. Toxicol.41(2): 195-200|1988|10.1007/BF01705430
105754|T||Oishi,H., and S. Oishi|Tissue Distribution and Elimination of Chlorinated Naphthalenes in Mice|Toxicol. Lett.15(2-3): 119-122|1983|10.1016/0378-4274(83)90204-7
105755|T||Pallett,K.E., J.P. Little, M. Sheekey, and P. Veerasekaran|The Mode of Action of Isoxaflutole. I. Physiological Effects, Metabolism, and Selectivity|Pestic. Biochem. Physiol.62(2): 113-124|1998|10.1006/pest.1998.2378
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105757|A||Yang,J.L., and H.C. Chen|Serum Metabolic Enzyme Activities and Hepatocyte Ultrastructure of Common Carp After Gallium Exposure|Zool. Stud.42(3): 455-461|2003|
105758|T||Smith,B.R., and L. Cheng|Photoprotective Mechanisms of 'Concord' Grape Leaves in Relation to Iron Supply|J. Am. Soc. Hortic. Sci.130(3): 331-340|2005|10.21273/JASHS.130.3.331
105759|T||Sadana,U.S., P. Sharma, N.C. Ortiz, D. Samal, and N. Claassen|Manganese Uptake and Mn Efficiency of Wheat Cultivars are Related to Mn-Uptake Kinetics and Root Growth|J. Plant Nutr. Soil Sci.168(4): 581-589|2005|10.1002/jpln.200420491
105760|T||Bojarczuk,K., J. Oleksyn, P. Karolewski, and R. Zytkowiak|Response of Silver Birch (Betula pendula Roth.) Seedlings to Experimental Variation in Aluminum Concentration|Pol. J. Ecol.54(2): 189-200|2006|
105762|T||Bluskov,S., J.M. Arocena, O.O. Omotoso, and J.P. Young|Uptake, Distribution, and Speciation of Chromium in Brassica juncea|Int. J. Phytoremediat.7(2): 153-165|2005|10.1080/16226510590950441
105763|T||Castonguay,A., D. Lin, G.D. Stoner, P. Radok, K. Furuya, S.S. Hecht, H.A.J. Schut, and J.E. Klaunig|Comparative Carcinogenicity in A/J Mice and Metabolism by Cultured Mouse Peripheral Lung of N'-Nitrosonornicotine, 4-(Methylnitrosamino)-1-(3-pyridyl)-1-Butanone, and Their Analogues|Cancer Res.43:1223-1229|1983|
105764|T||Okano,J., S. Suzuki, and K. Shiota|Involvement of Apoptotic Cell Death and Cell Cycle Perturbation in Retinoic Acid-Induced Cleft Palate in Mice|Toxicol. Appl. Pharmacol.221(1): 42-56|2007|10.1016/j.taap.2007.02.019
105765|T||Okamura,M., A. Unami, M. Matsumoto, Y. Oishi, Y. Kashida, and K. Mitsumori|Gene Expression Analysis of Urethane-Induced Lung Tumors in rasH2 Mice|Toxicology217(2-3): 129-138|2006|10.1016/j.tox.2005.09.021
105766|A||Sugatt,R.H.|Effects of Sublethal Hexavalent Chromium Exposure on the Osmoregulation, Immune Response, and Blood Characteristics of Coho Salmon|Ph.D.Thesis, Univ.of New Hampshire, NH:87 p.|1978|
105767|A||Strange,R.J.|Changes in Plasma Cortisol Concentration of Juvenile Salmonids During Stress|Ph.D.Thesis, Oregon State University, Corvallis, OR:108 p.|1978|
105768|A||Tolls,J.|Bioconcentration of Surfactants|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:208 p.|1998|
105769|T||White,K.L., L.L. Southern, L.F. Rickords, and T.C. Wood|Embryonic Development and Quality in Cycling Crossbred Gilts Following Altrenogest Synchronization and Exogenous Gonadotropin Administration|Theriogenology29(1): 326-|1988|10.1016/0093-691X(88)90154-9
105770|T||Flipo,D., J. Bernier, D. Girard, K. Krzystyniak, and M. Fournier|Combined Effects of Selected Insecticides on Humoral Immune Response in Mice|Int. J. Immunopharmacol.14(5): 747-752|1992|10.1016/0192-0561(92)90071-R
105771|T||Cox,R.L., J.O. Moffett, and M. Ellis|Honey Production, Colony Size and Mite Infestation Levels of Honey Bee Colonies Treated with Menthol|Am. Bee J.127(12): 842-|1987|
105772|T||Perrucci,S.|Acaricidal Activity of Some Essential Oils and Their Constituents Against Tyrophagus longior, a Mite of Stored Food|J. Food Prot.58(5): 560-563|1995|10.4315/0362-028X-58.5.560
105773|T||Ingham,R.E., and J.K. Detling|Effects of Carbofuran on Growth, Biomass Allocation, and Intraspecific Competition in Bouteloua gracilis|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(5): 541-548|1982|
105774|T||Mostafa,I.Y., S.M.A.D. Zayed, M. Farghaly, and F. Mahdy|Bioavailability to Rats and Toxicity in Mice of Carbofuran Residues Bound to Faba Beans|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes27(4): 399-405|1992|
105775|T||Patel,G.M., and T.R. Sukhani|Phytotonic Effect of Carbofuran on Growth and Dry Fodder Yield of Sorghum Cultivars|Indian J. Entomol.52(4): 529-533|1990|
105776|T||Yamamoto,T., T. Egashira, T. Yoshida, and Y. Kuroiwa|Increase of Adrenal Weight in Rats by the Repeated Administration of Fenitrothion|Toxicol. Lett.11(1/2): 187-191|1982|
105777|T||Goris,R.J.A., I.P.T. Van Bebber, R.M.H. Mollen, and J.P. Koopman|Does Selective Decontamination of the Gastrointestinal Tract Prevent Multiple Organ Failure?  An Experimental Study|Arch. Surg.126(5): 561-565|1991|
105778|A||Hansen,B.H., S. Romma, L.I.R. Softeland, P.A. Olsvik, and R.A. Andersen|Induction and Activity of Oxidative Stress-Related Proteins During Waterborne Cu-Exposure in Brown Trout (Salmo trutta)|Chemosphere65(10): 1707-1714|2006|10.1016/j.chemosphere.2006.04.088
105779|T||Chapco,W., S.G. Jones, and W.B. McConnell|Correlations Between Chromosome Segments and Fitness in Drosophila melanogaster. III. Differential Genetic Responses to Zinc Sulfate and Selenocystine|Can. J. Genet. Cytol.20:555-565|1978|10.1139/g78-065
105780|T||Bostian,A.L., D.P. Schmitt, and K.R. Barker|In Vitro Hatch and Survival of Heterodera glycines as Affected by Alachlor and Phenamiphos|J. Nematol.16(1): 22-26|1984|
105781|T||El-Ibrashy,M.T., M. Abdel-Hamid, and A. El-Refai|Ecdysones and Plant Growth Regulators Induce Solitarious Characters and Reduce Fertility in the Desert Locust|Entomol. Exp. Appl.19(3): 214-220|1976|10.1111/j.1570-7458.1976.tb02600.x
105782|T||Poovey,A.G., and K.D. Getsinger|Subsurface Applications of Triclopyr and 2,4-D Amine for Control of Water Chestnut (Trapa natans L.)|J. Aquat. Plant Manag.45:63-66|2007|
105783|T||Scott-Dupree,C.D., and G.W. Otis|The Efficacy of Four Miticides for the Control of Acarapis woodi (Rennie) in a Fall Treatment Program|Apidologie23(2): 97-106|1992|10.1051/apido:19920202
105784|T||Moffett,J.O., R.L. Cox, M. Ellis, R. Rivera, W.T. Wilson, D. Cardoso, and J. Vargas|Menthol Reduces Winter Populations of Tracheal Mites, Acarapis woodi, in Honey Bees from Mexico and Nebraska|Southwest. Entomol.14(1): 57-66|1989|
105785|T||Vecchi,M.A., and G. Giordani|Chemotherapy of Acarine Disease. I. Laboratory Tests|J. Invertebr. Pathol.10(2): 390-416|1968|10.1016/0022-2011(68)90099-2
105786|T||Harwood,S.H., A.F. Moldenke, and R.E. Berry|Toxicity of Peppermint Monoterpenes to the Variegated Cutworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.83(5): 1761-1767|1990|10.1093/jee/83.5.1761
105787|T||Nelson,D., P. Sporns, P. Kristiansen, P. Mills, and M. Li|Effectiveness and Residue Levels of 3 Methods of Menthol Application to Honey Bee Colonies for the Control of Tracheal Mites|Apidologie24(6): 549-556|1993|10.1051/apido:19930602
105788|A||Hogan,A.C., J.L. Stauber, F. Pablo, M.S. Adams, and R.P. Lim|The Development of Marine Toxicity Identification Evaluation (TIE) Procedures Using the Unicellular Alga Nitzschia closterium|Arch. Environ. Contam. Toxicol.48(4): 433-443|2005|10.1007/s00244-003-0137-y
105789|T||Kang,Y.H., M.T. Bui-Tran, and W.L. West|Benzo(a)pyrene-Induced Early Cytopathologic Changes and Peroxidase Activity in the Endometrium of Ovariectomized Rats|Toxicol. Appl. Pharmacol.63(2): 242-256|1982|10.1016/0041-008X(82)90046-1
105790|T||Johnson,M.K., J.L. Willems, H.C. De Bisschop, D.J. Read, and H.P. Benschop|High Doses of Soman Protect Against Organophosphorus-Induced Delayed Polyneuropathy but Tabun does not|Toxicol. Appl. Pharmacol.92:34-41|1988|10.1016/0041-008X(88)90225-6
105792|A||Labra,M., M. Bernasconi, F. Grassi, F. De Mattia, S. Sgorbati, R. Airoldi, and S. Citterio|Toxic and Genotoxic Effects of Potassium Dichromate in Pseudokirchneriella subcapitata Detected by Microscopy and AFLP Marker Analysis|Aquat. Bot.86(3): 229-235|2007|10.1016/j.aquabot.2006.10.006
105793|A||Klinck,J.S., W.W. Green, R.S. Mirza, S.R. Nadella, M.J. Chowdhury, C.M. Wood, and G.G. Pyle|Branchial Cadmium and Copper Binding and Intestinal Cadmium Uptake in Wild Yellow Perch (Perca flavescens) from Clean and Metal-Contaminated Lakes|Aquat. Toxicol.84(2): 198-207|2007|10.1016/j.aquatox.2007.03.024
105794|T||Pankovic,D., M. Plesnicar, I. Arsenijevic-Maksimovic, N. Petrovic, Z. Sakac, and R. Kastori|Effects of Nitrogen Nutrition on Photosynthesis in Cd-Treated Sunflower Plants|Ann. Bot.86(4): 841-847|2000|10.1006/anbo.2000.1250
105795|T||Kluwe,W.M., and J.B. Hook|Polybrominated Biphenyl-Induced Potentiation of Chloroform Toxicity|Toxicol. Appl. Pharmacol.45:861-869|1978|10.1016/0041-008X(78)90177-1
105796|A||Kjoss,V.A., M. Grosell, and C.M. Wood|The Influence of Dietary Na on Cu Accumulation in Juvenile Rainbow Trout Exposed to Combined Dietary and Waterborne Cu in Soft Water|Arch. Environ. Contam. Toxicol.49(4): 520-527|2005|10.1007/s00244-004-0243-5
105797|T||Keller,C.A., and R.A. Doherty|Effect of Dose on Lead Retention and Distribution in Suckling and Adult Female Mice|Toxicol. Appl. Pharmacol.52:285-293|1980|10.1016/0041-008X(80)90116-7
105798|T||Keiser,J.A., A.J. Vander, and C.L. Germain|Effects of Lead on the Secretion and Disappearance of Renin in Rabbits.|Toxicol. Appl. Pharmacol.69:117-126|1983|10.1016/0041-008X(83)90127-8
105799|T||Johnson,M.K., and D.J. Read|The Influence of Chirality on the Delayed Neuropathic Potential of Some Organophosphorus Esters:  Neuropathic and Prophylactic Effects of Stereoisomeric Esters of Ethyl Phenylphosphonic Acid (EPN Oxon and EPN) Correlate|Toxicol. Appl. Pharmacol.90:103-115|1987|10.1016/0041-008X(87)90311-5
105800|T||Horton,V.L., R.B. Sleet, J.A. John-Greene, and F. Welsch|Developmental Phase-Specific and Dose-Related Teratogenic Effects of Ethylene Glycol Monomethyl Ether in CD-1 Mice|Toxicol. Appl. Pharmacol.80:108-118|1985|10.1016/0041-008X(85)90105-X
105801|T||Kamdem,L., J. Magdalou, G. Siest, M. Ban, and D. Zissu|Induced Hepatotoxicity in Female Rats by Aflatoxin B1 and Ethynylestradiol Interaction|Toxicol. Appl. Pharmacol.67(1): 26-40|1983|10.1016/0041-008X(83)90241-7
105802|AT||Jos,A., G. Repetto, J.C. Rios, A.D. Peso, M. Salguero, M.J. Hazen, M.L. Molero, P. Fernandez-Freire, J.M. Perez-Martin,|Ecotoxicological Evaluation of the Additive Butylated Hydroxyanisole Using a Battery with Six Model Systems and Eighteen Endpoints|Aquat. Toxicol.71(2): 183-192|2005|10.1016/j.aquatox.2004.11.004
105803|T||Haas,M., and D. Landis|Potato Leafhopper Control in Navy Beans, 1994|Arthropod Manag. Tests20:270-|1995|10.1093/amt/20.1.270
105804|A||Pappas,L.G., and C.D. Pappas|Laboratory Studies on the Significance of NaCl as an Oviposition Deterrent in Culiseta inornata|Mosq. News43(2): 153-155|1983|
105805|T||Nord,J.C., and G.L. DeBarr|Contact Toxicities of 12 Insecticides to Leptoglossus corculus Adults (Hemiptera:  Coreidae)|Can. Entomol.115(2): 211-214|1983|10.4039/Ent115211-2
105806|T||Qasem,J.R.|Chemical Weed Control in Garlic (Allium sativum L.) in Jordan|Crop Prot.15(1): 21-26|1996|10.1016/0261-2194(95)00085-2
105807|T||Pariona,W., T.S. Fredericksen, and J.C. Licona|Natural Regeneration and Liberation of Timber Species in Logging Gaps in Two Bolivian Tropical Forests|For. Ecol. Manag.181(3): 313-322|2003|10.1016/S0378-1127(03)00002-1
105808|T||Oraby,H.F., C.B. Ransom, A.N. Kravchenko, and M.B. Sticklen|Barley HVA1 Gene Confers Salt Tolerance in R3 Transgenic Oat|Crop Sci.45(6): 2218-2227|2005|10.2135/cropsci2004-0605
105809|T||Pallas,J.E.,Jr.|Effects of Temperature and Humidity on Foliar Absorption and Translocation of 2,4-Dichlorophenoxyacetic Acid and Benzoic Acid|Plant Physiol.35(5): 575-580|1960|10.1104/pp.35.5.575
105810|A||Hallare,A.V., H.R. Kohler, and R. Triebskorn|Developmental Toxicity and Stress Protein Responses in Zebrafish Embryos After Exposure to Diclofenac and Its Solvent, DMSO|Chemosphere56(7): 659-666|2004|10.1016/j.chemosphere.2004.04.007
105811|T||Elves,R.G., T.H. Ueng, and A.P. Alvares|Comparative Effects of Ethanol Administration on Hepatic Monooxygenases in Rats and Mice|Arch. Toxicol.55(4): 258-264|1984|10.1007/BF00341022
105812|A||Ferrari,L., F.R. De la Torre, S.O. Demichelis, M.E. Garcia, and A. Salibian|Ecotoxicological Assessment for Receiving Waters with the Premetamorphic Tadpoles Acute Assay|Chemosphere59(4): 567-575|2005|10.1016/j.chemosphere.2005.01.045
105813|T||Ohta,H., M.V. DeAngelis, and M.G. Cherian|Uptake of Cadmium and Metallothionein by Rat Everted Intestinal Sacs|Toxicol. Appl. Pharmacol.101(1): 62-69|1989|10.1016/0041-008X(89)90212-3
105814|T||Nurrish,S., L. Segalat, and J.M. Kaplan|Serotonin Inhibition of Synaptic Transmission:  Galpha0 Decreases the Abundance of UNC-13 at Release Sites|Neuron24(1): 231-242|1999|10.1016/S0896-6273(00)80835-1
105815|T||Obata,T.|Protective Effect of Fluvastatin, an Inhibitor of 3-Hydroxy-3-Methylglutaryl Coenzyme A Reductase, on Copper-Induced Hydroxyl Radical Generation in the Rat Heart|Toxicology223(3): 175-180|2006|10.1016/j.tox.2006.03.006
105817|T||Ball,J.C., and F.G. Martin|Dose-Response Data for Selected Insecticides on the White Peach Sale, Pseudaulacaspis pentagona (Targ.)|Proc. Annu. Meet. Fla. State Hortic. Soc.92:264-266|1979|
105819|T||Okey,A.B., G.P. Bondy, M.E. Mason, G.F. Kahl, H.J. Eisen, T.M. Guenthner, and D.W. Nebert|Regulatory Gene Product of the Ah Locus. Characterization of the Cytosolic Inducer-Receptor Complex and Evidence for Its Nuclear Translocation|J. Biol. Chem.254(22): 11636-11648|1979|10.1016/S0021-9258(19)86532-8
105820|T||Jones,K.G., and G.D. Sweeney|Dependence of the Porphyrogenic Effect of 2,3,7,8-Tetrachlorodibenzo(p)Dioxin upon Inheritance of Aryl Hydrocarbon Hydroxylase Responsiveness|Toxicol. Appl. Pharmacol.53:42-49|1980|10.1016/0041-008X(80)90379-8
105821|T||Nyholm,S.H., J. Alexander, E. Lundanes, H. Frandsen, R. Andersson, S. Grivas, S. Nesnow, and J.A. Holme|Biotransformation of the Cyclopenta-Fused Polycyclic Aromatic Hydrocarbon Benz(j)aceanthrylene in Isolated Rat Liver Cells:  Identification of Nine New Metabolites|Carcinogenesis17(5): 1111-1120|1996|10.1093/carcin/17.5.1111
105822|T||Parkinson,A., L. Robertson, L. Safe, and S. Safe|Polychlorinated Biphenyls as Inducers of Hepatic Microsomal Enzymes: Structure-Activity Rules|Chem.-Biol. Interact.30(3): 271-285|1980|10.1016/0009-2797(80)90050-2
105823|A||Galle,T., C. Gregoire, M. Wagner, and R. Bierl|Bioavailability of HOC Depending on the Colloidal State of Humic Substances:  A Case Study with PCB-77 and Daphnia magna|Chemosphere61(2): 282-292|2005|10.1016/j.chemosphere.2005.01.068
105824|T||Parke,D.V.|Studies in Detoxication. The Metabolism of m-Dinitro(14C)Benzene in the Rabbit|Biochem. J. (Lond.)78:262-271|1961|10.1042/bj0780262
105825|A||Park,J.W., J. Rinchard, T.A. Anderson, F. Liu, and C.W. Theodorakis|Food Chain Transfer of Perchlorate in Largemouth Bass, Micropterus salmoides|Bull. Environ. Contam. Toxicol.74(1): 56-63|2005|10.1007/s00128-004-0547-1
105826|A||Nowierski,M., D.G. Dixon, and U. Borgmann|Effects of Water Chemistry on the Bioavailability of Metals in Sediment to Hyalella azteca:  Implications for Sediment Quality Guidelines|Arch. Environ. Contam. Toxicol.49(3): 322-332|2005|10.1007/s00244-004-0088-y
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105830|T||Garattini,E., P. Coccia, M. Romano, L. Jiritano, A. Noseda, and M. Salmona|Prostaglandin Endoperoxide Synthetase and the Activation of Benzo(a)pyrene to Reactive Metabolites In Vivo in Guinea Pigs|Cancer Res.44(11): 5150-5155|1984|
105831|T||Fox,T.R., A.M. Schumann, P.G. Watanabe, B.L. Yano, V.M. Maher, and J.J. McCormick|Mutational Analysis of the H-ras Oncogene in Spontaneous C57BL/6 x C3H/He Mouse Liver Tumors and Tumors Induced with Genotoxic and Nongenotoxic Hepatocarcinogens|Cancer Res.50:4014-4019|1990|
105832|T||Ghorbanli,M., S.H. Kaveh, and M.F. Sepehr|Effects of Cadmium and Gibberellin on Growth and Photosynthesis of Glycine max|Photosynthetica (Praha)37(4): 627-631|1999|10.1023/A:1007135928024
105833|T||Grice,H.C., C.A. Moodie, and D.C. Smith|The Carcinogenic Potential of Aflatoxin or Its Metabolites in Rats from Dams Fed Aflatoxin Pre- and Postpartum|Cancer Res.33:262-268|1973|
105834|T||Gray,J., J.K. Nicholson, D.M. Creasy, and J.A. Timbrell|Studies on the Relationship Between Acute Testicular Damage and Urinary and Plasma Creatine Concentration|Arch. Toxicol.64(6): 443-450|1990|10.1007/BF01977625
105835|T||Grasl-Kraupp,B., W. Huber, I. Timmermann-Trosiener, and R. Schulte-Hermann|Peroxisomal Enzyme Induction Uncoupled from Enhanced DNA Synthesis in Putative Preneoplastic Liver Foci of Rats Treated with a Single Dose of the Peroxisome Proliferator Nafenopin|Carcinogenesis14(11): 2435-2437|1993|10.1093/carcin/14.11.2435
105837|AT||Gong,P., G.I. Sunahara, S. Rocheleau, S.G. Dodard, P.Y. Robidoux, and J. Hawari|Preliminary Ecotoxicological Characterization of a New Energetic Substance, CL-20|Chemosphere56(7): 653-658|2004|10.1016/j.chemosphere.2004.04.010
105838|T||Olivier,C., D.E. Halseth, E.S.G. Mizubuti, and R. Loria|Postharvest Application of Organic and Inorganic Salts for Suppression of Silver Scurf on Potato Tubers|Plant Dis.82(2): 213-217|1998|10.1094/PDIS.1998.82.2.213
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105841|A||Nunes-Halldorson,V.D.S., R.L. Steiner, and G.B. Smith|Residual Toxicity After Biodegradation:  Interactions Among Benzene, Toluene, and Chloroform|Ecotoxicol. Environ. Saf.57(2): 162-167|2004|10.1016/S0147-6513(03)00032-0
105843|T||Yu,S.J.|Host Plant Induction of Glutathione S-Transferase in the Fall Armyworm|Pestic. Biochem. Physiol.18(1): 101-106|1982|10.1016/0048-3575(82)90092-X
105844|T||Lein,M., D. Fahlenkamp, B. Schonberger, S. Prollius, and S. Loening|The Pharmacological Effect of the Gonadotrophin-Releasing Hormone on Experimental Cryptorchidism in Rats|Scand. J. Urol. Nephrol.30(3): 185-191|1996|10.3109/00365599609181297
105845|T||Muzaffar,N., and R. Ahmad|Investigations on the Seasonal Incidence and Control of the Acarine Mite Acarapis woodi (Rennie) in Apis cerana F. Colonies in Pakistan|Pak. J. Zool.23(2): 139-143|1991|
105846|T||Hirose,S., H. Kawahigashi, T. Inoue, H. Inui, H. Ohkawa, and Y. Ohkawa|Enhanced Expression of CYP2C9 and Tolerance to Sulfonylurea Herbicides in Transgenic Rice Plants|Plant Biotechnol.22(2): 89-96|2005|10.5511/plantbiotechnology.22.89
105848|T||Keith,J.O.|Malathion Treatment of Lodgepole Pine Needle Miner|In: Fish and Wildl. Serv., Pesticide-Wildl. Serv.: A Review of Fish and Wildl. Serv. Investig. During 1961 and 1962, U.S.D.I. Fish and Wildl. Circ. No.167:55-56|1963|
105849|AT||Goto,T., S. Ukawa, and H. Miyauchi|Fentrazamide - A New Herbicide Effective on Grasses and Annual Sedges in Rice in Japan|Pflanzenschutz-Nachr. Bayer (English Ed.)54(1): 13-34|2001|
105850|T||Sirota,J.M., E. Grafius, W. Boylan-Pett, M. Bommarito, B. Ferrari, P. Kolarik, B. Scriber, and M. Tindall|Colorado Potato Beetle Control, 1992|Insectic. Acaric. Tests18:156-159|1993|10.1093/iat/18.1.156
105851|T||Miyazawa,M., H. Kawazoe, Y. Sumi, and M. Hyakumachi|Lytic Activity of l-Menthol Derivatives Against the Snow Blight Disease Fungus, Micronectriella nivalis|J. Agric. Food Chem.51(7): 1880-1883|2003|10.1021/jf0210831
105852|T||Brazier-Hicks,M., and R. Edwards|Functional Importance of the Family 1 Glucosyltransferase UGT72B1 in the Metabolism of Xenobiotics in Arabidopsis thaliana|Plant J.42:556-566|2005|10.1111/j.1365-313X.2005.02398.x
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105862|T||Al-Badry,M.S., and C.O. Knowles|Phthalate-Organophosphate Interactions:  Toxicity, Penetration, and Metabolism Studies with House Flies|Arch. Environ. Contam. Toxicol.9(2): 147-161|1980|10.1007/BF01055370
105863|T||Jones,C.D.|The Genetic Basis of Larval Resistance to a Host Plant Toxin in Drosophila sechellia|Genet. Res.78(3): 225-233|2001|10.1017/S0016672301005298
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105865|T||Sander,J.E., L. Dufour, R.D. Wyatt, P.B. Bush, and R.K. Page|Acute Toxicity of Boric Acid and Boron Tissue Residues After Chronic Exposure in Broiler Chickens|Avian Dis.35(4): 745-749|1991|10.2307/1591605
105866|T||Nicolotti,G., and P. Gonthier|Stump Treatment Against Heterobasidion with Phlebiopsis gigantea and Some Chemicals in Picea abies Stands in the Western Alps|For. Pathol.35(5): 365-374|2005|10.1111/j.1439-0329.2005.00419.x
105867|T||Hunt,C.D., and J.L. Herbel|Effects of Dietary Boron on Calcium and Mineral Metabolism in the Streptozotocin-Injected, Vitamin D3-Deprived Rat|Magnes. Trace Elem.10(5-6): 387-408|1991|
105868|T||Dufour,L., J.E. Sander, R.D. Wyatt, G.N. Rowland, and R.K. Page|Experimental Exposure of Broiler Chickens to Boric Acid to Assess Clinical Signs and Lesions of Toxicosis|Avian Dis.36(4): 1007-1011|1992|10.2307/1591562
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105871|T||National Toxicology|Bioassay of Daminozide for Possible Carcinogenicity|Natl.Cancer Inst.Carcinog.Tech.Rep.Ser.83:1-131|1978|
105872|T||Goymann,W., and J.C. Wingfield|Competing Females and Caring Males. Sex Steroids in African Black Coucals, Centropus grillii|Anim. Behav.68(4): 733-740|2004|10.1016/j.anbehav.2003.12.012
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105874|T||Detta,A., S.I. Naik, H.M. Charlton, L.S. Young, and R.N. Clayton|Homologous Ligand Induction of Pituitary Gonadotrophin-Releasing Hormone Receptors In Vivo is Protein Synthesis Dependent|Mol. Cell. Endocrinol.37(2): 139-144|1984|10.1016/0303-7207(84)90045-5
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105877|T||Phogat,J.B., R.F. Smith, and H. Dobson|Effect of Adrenocorticotrophic Hormone (ACTH1-24) on Ovine Pituitary Gland Responsiveness to Exogenous Pulsatile GnRH and Oestradiol-Induced LH Release In Vivo|Anim. Reprod. Sci.55(3-4): 193-203|1999|10.1016/S0378-4320(99)00023-8
105878|T||Dees,W.L., R.K. Dearth, R.N. Hooper, S.P. Brinsko, J.E. Romano, H. Rahe, W.H. Yu, and S.M. McCann|Lamprey Gonadotropin-Releasing Hormone-III Selectively Releases Follicle Stimulating Hormone in the Bovine|Domest. Anim. Endocrinol.20(4): 279-288|2001|10.1016/S0739-7240(01)00099-6
105879|T||Sipes,B.S., and D.P. Schmitt|Effect of Planting Date, Alachlor, and Fenamiphos on Heterodera glycines Development|J. Nematol.21(1): 33-41|1989|
105880|T||Mohammad,G.|Influence of Alachlor and Fluchloralin on the Rhizosphere and Rhizoplane Fungi of Soybean Crop|J. Maharashtra Agric. Univ.9(3): 303-305|1984|
105881|T||Guess,W.L., and M.K. Bruch|Final Report on the Safety Assessment of Chloroxylenol|J. Am. Coll. Toxicol.4(5): 147-169|1985|10.3109/10915818509078689
105882|T||Rheinlander,P.A., and R.A. Fullerton|Preharvest Sanitisers and Fungicides for Reducing Penicillium digitatum Inoculum on cv. Satsuma mandarin|N. Z. Plant Prot.60:104-107|2007|10.30843/nzpp.2007.60.4633
105883|T||Anaka,A., M. Wickstrom, and S.D. Siciliano|Increased Sensitivity and Variability of Phytotoxicity Responses in Arctic Soils to a Reference Toxicant, Boric Acid|Environ. Toxicol. Chem.27(3): 720-726|2008|10.1897/07-405.1
105885|T||Dieter,M.P.|Toxicity and Carcinogenicity Studies of Boric Acid in Male and Female B6C3F1 Mice|Environ. Health Perspect.102(suppl.7): 93-97|1994|
105886|T||Fail,P.A., J.D. George, J.C. Seely, T.B. Grizzle, and J.J. Heindel|Reproductive Toxicity of Boric Acid in Swiss (CD-1) Mice:  Assessment Using the Continuous Breeding Protocol|Fundam. Appl. Toxicol.17:225-239|1991|10.1016/0272-0590(91)90215-P
105887|T||Heindel,J.J., C.J. Price, E.A. Field, M.C. Marr, C.B. Myers, R.E. Morrisey, and B.A. Schwetz|Developmental Toxicity of Boric Acid in Mice and Rats|Fundam. Appl. Toxicol.18:266-277|1992|10.1016/0272-0590(92)90055-M
105889|T||Ku,W.W., and R.E. Chapin|Mechanism of the Testicular Toxicity of Boric Acid in Rats:  In Vivo and In Vitro Studies|Environ. Health Perspect.102(suppl.7): 99-105|1994|
105890|T||Treinen,K.A., and R.E. Chapin|Development of Testicular Lesions in F344 Rats After Treatment with Boric Acid|Toxicol. Appl. Pharmacol.107:325-335|1991|10.1016/0041-008X(91)90212-W
105891|T||Harris,M.W., R.E. Chapin, A.C. Lockhart, and M.P. Jokinen|Assessment of a Short-Term Reproductive and Developmental Toxicity Screen|Fundam. Appl. Toxicol.19(2): 186-196|1992|10.1016/0272-0590(92)90150-G
105893|T||Lehto,T., E. Kallio, and P.J. Aphalo|Boron Mobility in Two Coniferous Species|Ann. Bot.86(3): 547-550|2000|10.1006/anbo.2000.1215
105894|T||Seaborn,C.D., and F.H. Nielsen|Boron and Silicon:  Effects on Growth, Plasma Lipids, Urinary Cyclic AMP and Bone and Brain Mineral Composition of Male Rats|Environ. Toxicol. Chem.13(6): 941-947|1994|10.1002/etc.5620130613
105895|T||Prinsloo,G., V. Ninkovic, T.C. Van der Linde, A.J. Van der Westhuizen, J. Pettersson, and R. Glinwood|Test of Semiochemicals and a Resistant Wheat Variety for Russian Wheat Aphid Management in South Africa|J. Appl. Entomol.131(9/10): 637-644|2007|10.1111/j.1439-0418.2007.01213.x
105896|A||Sampath,K., R. James, and S. Velammal|Effect of Methyl Parathion on Blood Parameters and Its Recovery in a Catfish, Mystus keletius|Indian J. Fish.50(2): 191-197|2003|
105897|T||Spann,J.W.|Effects of Kelthane on Mallard Reproduction|U.S.Fish Wildl.Serv., Patuxent Wildl.Res Center Rep., Laurel, MD:4 p.|1980|
105898|T||Moleyar,V., and P. Narasimham|Antifungal Activity of Some Essential Oil Components|Food Microbiol.3(4): 331-336|1986|10.1016/0740-0020(86)90017-1
105899|A||Hung,K.T., Y.T. Hsu, and C.H. Kao|Hydrogen Peroxide is Involved in Methyl Jasmonate-Induced Senescence of Rice Leaves|Physiol. Plant. (Multiple Languages)127(2): 293-303|2006|10.1111/j.1399-3054.2006.00662.x
105901|A||Fort,D.J., D.W. McLaughlin, R.L. Rogers, and B.O. Buzzard|Effect of Endocrine Disrupting Chemicals on Germinal Vesicle Breakdown in Xenopus In Vitro|Drug Chem. Toxicol.25(3): 293-308|2002|10.1081/DCT-120005892
105902|T||Stinchcombe,G.R., J.A. Hutcheon, and V.W.L. Jordan|Effects of Growth Regulators on Light Leaf Spot and Yield Components in Oilseed Rape|Br. Crop Prot. Conf. Pests Dis.3:1009-1015|1986|
105903|T||Pant,N., A.K. Prasad, S.C. Srivastava, R. Shankar, and S.P. Srivastava|Effect of Oral Administration of Carbofuran on Male Reproductive System of Rat|Hum. Exp. Toxicol.14(11): 889-894|1995|10.1177/096032719501401106
105904|T||Sheldrick,R.D., R.H. Lavender, and T.M. Martyn|Management Options for Increasing White Clover Contents of Swards, Without Resowing|Grass Forage Sci.48(3): 223-230|1993|10.1111/j.1365-2494.1993.tb01855.x
105905|T||Bhaskaran,E.V., K. Ramaraju, and K. Gunasekaran|Evaluation of New Acaricides Against Two Spotted Spider Mite, Tetranychus urticae Koch. on Bhendi|Pestology31(12): 31-34|2007|
105906|T||Sangwan,N.K., B.S. Verma, K.K. Verma, and K.S. Dhindsa|Nematicidal Activity of Some Essential Plant Oils|Pestic. Sci.28(3): 331-335|1990|10.1002/ps.2780280311
105907|T||Kim,Y.J., S.W. Lee, J.R. Cho, H.M. Park, and Y.J. Ahn|Multiple Resistance and Biochemical Mechanisms of Dicofol Resistance in Tetranychus urticae (Acari:  Tetranychidae)|J. Asia Pac. Entomol.10(2): 165-170|2007|10.1016/S1226-8615(08)60348-9
105908|A||Abd-Allah,A.M.A.|Bioaccumulation and Excretion of Organophosphorus Pesticides by Carp Cyprinus carpio|Alex. Sci. Exch.16(1): 61-69|1995|
105910|T||Calderone,N.W., and M. Spivak|Plant Extracts for Control of the Parasitic Mite Varroa jacobsoni (Acari:  Varroidae) in Colonies of the Western Honey Bee (Hymenoptera:  Apidae)|J. Econ. Entomol.88(5): 1211-1215|1995|10.1093/jee/88.5.1211
105911|T||Herbert,E.W.,Jr., H. Shimanuki, and J.C.,Jr. Matthenius|An Evaluation of Menthol Placement in Hives of Honey Bees for the Control of Acarapis woodi|Am. Bee J.128(3): 185-187|1988|
105912|T||Rathore,P.S., D.S. Bhati, and A.L. Mali|Effect of Weed Control Measures on Growth and Yield of Cumin|Indian J. Agron.35(3): 304-305|1990|
105913|AT||Asakawa,Y., R. Matsuda, M. Tori, and T. Hashimoto|Preparation of Biologically Active Substances and Animal and Microbial Metabolites from Menthols, Cineoles and Kauranes|Phytochemistry27(12): 3861-3869|1988|10.1016/0031-9422(88)83033-4
105914|A||Fritioff,A., and M. Greger|Uptake and Distribution of Zn, Cu, Cd, and Pb in an Aquatic Plant Potamogeton natans|Chemosphere63(2): 220-227|2006|10.1016/j.chemosphere.2005.08.018
105915|T||Vinuela,E., and F. Budia|Ultrastructure of Ceratitis capitata Wiedemann Larval Integument and Changes Induced by the IGI Cyromazine|Pestic. Biochem. Physiol.48(3): 191-201|1994|10.1006/pest.1994.1020
105916|T||Cao,A., G. Cappai, A. Carucci, and A. Muntoni|Selection of Plants for Zinc and Lead Phytoremediation|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control39(4): 1011-1024|2004|
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105920|T||Tahori,A.S., G. Zeidler, and A.H. Halevy|Effect of Some Plant Growth-Retarding Compounds on Three Fungal Diseases and One Viral Disease|Plant Dis. Rep.49(9): 775-777|1965|
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105922|T||Ladaniya,M.S., S.K. Dey, and J.S. Bhullar|Growth Retardants in Controlling Storage Rots of Grapes|Pesticides 24(1): 27-28|1990|
105923|T||Csinos,A.S., D.K. Bell, N.A. Minton, and H.D. Wells|Evaluation of Trichoderma spp., Fungicides, and Chemical Combinations for Control of Southern Stem Rot on Peanuts|Peanut Sci.10(2): 75-79|1983|10.3146/i0095-3679-10-2-9
105924|T||Blazquez,C.H.|Corynespora Leaf Spot of Cucumber|Annu. Meet. Fla. State Hortic. Soc.80:177-182|1968|
105925|A||Doherty,M.A.|Biochemical Toxicology of Herbicide Mixtures on Thalassiosira weisflogii|Ph.D.Thesis, University of Maryland, College Park, MD:276 p.|1997|
105926|T||Price,C.J., E.A. Field, M.C. Marr, and C.B. Myers|Final Report on the Developmental Toxicity of Boric Acid (CAS No. 10043-35-3) in Sprague Dawley Rats|NTP-90-155:252 p.|1990|
105927|T||Field,E.A., C.J. Price, M.C. Marr, and C.B. Myers|Developmental Toxicity Evaluation of Boric Acid (CAS No. 10043-35-3) Administered in Feed to CD-1 Mice on Gestational Days 0 to 17|NTP NIH Publ.No.89-250, National Inst.of Health, Res.Triangle Park, NC:400 p.|1989|
105930|T||Price,C.J., M.C. Marr, C.B. Myers, M.D. Shelby, and B.A. Schwetz|Final Report on the CNS Developmental Toxicity of Boric Acid (CAS No. 10043-35-3) in Sprague-Dawley CD Rats Exposed on Gestation Days 6-15.  Volume 1 of 2, Volume 2 of 2, Laboratory Supplement|TER 93138, Research Triangle Inst., National Toxicology Program, National Inst.Environ.Health Sci, Research Triangle Park,NC:214 p.|1994|
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105932|T||Gupta,R.C., J.T. Goad, and W.L. Kadel|Protection and Reversal by Memantine and Atropine of Carbofuran-Induced Changes in Biomarkers|Drug Dev. Res.28(2): 153-160|1993|10.1002/ddr.430280205
105933|T||Nashriyah,M., S. Normala, B.S. Ismail, and A.R. Khairuddin|Effects of Carbofuran Application on Microbial Respiration and Microbe Population in Paddy Soil|Malays. Appl. Biol.25(1): 81-85|1996|
105934|T||Prabhu,A.S., and M.C. Filippi|Seed Treatment with Pyroquilon for the Control of Leaf Blast in Brazilian Upland Rice|Int. J. Pest Manag.39(3): 347-353|1993|10.1080/09670879309371819
105935|T||Noetzel,D.M.|Flea Beetle Control in Canola, Roseau, MN, 1994|Arthropod Manag. Tests21:207-|1996|
105937|A||Tilak,K.S., K. Veeraiah, and J.M.P. Raju|Effects of Ammonia, Nitrite and Nitrate on Hemoglobin Content and Oxygen Consumption of Freshwater Fish, Cyprinus carpio (Linnaeus)|J. Environ. Biol.28(1): 45-47|2007|
105939|T||Voll,E., C.E. Voll, and R.V. Filho|Allelopathic Effects of Aconitic Acid on Wild Poinsettia (Euphorbia heterophylla) and Morningglory (Ipomoea grandifolia)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 69-75|2005|
105940|A||Arnold,W.R., J.S. Cotsifas, and K.M. Corneillie|Validation and Update of a Model Used to Predict Copper Toxicity to the Marine Bivalve Mytilus sp.|Environ. Toxicol.21(1): 65-70|2006|10.1002/tox.20156
105941|T||Underwood,R.M., and R.W. Currie|Effect of Concentration and Exposure Time on Treatment Efficacy Against Varroa Mites (Acari: Varroidae) During Indoor Winter Fumigation of Honey Bees (Hymenoptera: Apidae) with Formic Acid|J. Econ. Entomol.98(6): 1802-1809|2005|10.1093/jee/98.6.1802
105942|T||Ucisik,A.S., and S. Trapp|Uptake, Removal, Accumulation, and Phytotoxicity of Phenol in Willow Trees (Salix viminalis)|Environ. Toxicol. Chem.25(9): 2455-2460|2006|10.1897/05-457R.1
105943|T||Sui,L., D.Y. Ruan, S.Y. Ge, and X.M. Meng|Two Components of Long-Term Depression are Impaired by Chronic Lead Exposure in Area CA1 and Dentate Gyrus of Rat Hippocampus In Vitro|Neurotoxicol. Teratol.22(5): 741-749|2000|10.1016/S0892-0362(00)00093-3
105944|T||Watts,M.J., and C.L. Wambolt|Long-Term Recovery of Wyoming Big Sagebrush After Four Treatments|J. Environ. Manag.46(1): 95-102|1996|10.1006/jema.1996.0009
105945|T||Weng,L.P., A. Wolthoorn, T.M. Lexmond, E.J.M. Temminghoff, and W.H. Van Riemsdijk|Understanding the Effects of Soil Characteristics on Phytotoxicity and Bioavailability of Nickel Using Speciation Models|Environ. Sci. Technol.38(1): 156-162|2004|10.1021/es030053r
105946|T||Walter,M., L. Boul, R. Chong, and C. Ford|Growth Substrate Selection and Biodegradation of PCP by New Zealand White-Rot Fungi|J. Environ. Manag.71(4): 361-369|2004|10.1016/j.jenvman.2004.04.002
105949|T||Munzuroglu,O., and F.K. Zengin|Effect of Cadmium on Germination, Coleoptile and Root Growth of Barley Seeds in the Presence of Gibberellic Acid and Kinetin|J. Environ. Biol.27(4): 671-677|2006|
105951|T||Zhu,Z.J., G.W. Sun, X.Z. Fang, Q.Q. Qian, and X.E. Yang|Genotypic Differences in Effects of Cadmium Exposure on Plant Growth and Contents of Cadmium and Elements in 14 Cultivars of Bai Cai|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(4): 675-687|2004|
105952|T||Lee,S.E., E.M. Lees, and B.C. Campbell|Purification and Characterization of an Esterase Conferring Resistance to Fenitrothion in Oryzaephilus surinamensis (L.) (Insecta, Coleoptera, Silvanidae)|J. Agric. Food Chem.48(10): 4991-4996|2000|10.1021/jf991258f
105953|T||Naghii,M.R., and S. Samman|The Effect of Boron on Plasma Testosterone and Plasma Lipids in Rats|Nutr. Res.17(3): 523-531|1997|10.1016/S0271-5317(97)00017-1
105954|T||Licht,P., and D.A. Porter|In Vivo and In Vitro Responses to Gonadotropin Releasing Hormone in the Turtle, Chrysemys picta, in Relation to Sex and Reproductive Stage|Gen. Comp. Endocrinol.60(1): 75-85|1985|10.1016/0016-6480(85)90295-3
105955|A||Peter,R.E., C.S. Nahorniak, S. Shih, J.A. King, and R.P. Millar|Activity of Position-8-Substituted Analogs of Mammalian Gonadotropin-Releasing Hormone (mGnRH) and Chicken and Lamprey Gonadotropin-Releasing Hormones in Goldfish|Gen. Comp. Endocrinol.65(3): 385-393|1987|10.1016/0016-6480(87)90123-7
105956|A||Peter,R.E., C.S. Nahorniak, M. Sokolowska, J.P. Chang, J.E. Rivier, W.W. Vale, J.A. King, and R.P. Millar|Structure-Activity Relationships of Mammalian, Chicken, and Salmon Gonadotropin Releasing Hormones In Vivo in Goldfish|Gen. Comp. Endocrinol.58(2): 231-242|1985|10.1016/0016-6480(85)90339-9
105957|T||Licht,P., R. Millar, J.A. King, B.R. McCreery, M.T. Mendonca, A. Bona-Gallo, and B. Lofts|Effects of Chicken and Mammalian Gonadotropin-Releasing Hormones (GnRH) on In Vivo Pituitary Gonadotropin Release in Amphibians and Reptiles|Gen. Comp. Endocrinol.54(1): 89-96|1984|10.1016/0016-6480(84)90203-X
105958|T||Propper,C.R., and T.B. Dixon|Differential Effects of Arginine Vasotocin and Gonadotropin-Releasing Hormone on Sexual Behaviors in an Anuran Amphibian|Horm. Behav.32(2): 99-104|1997|10.1006/hbeh.1997.1408
105959|T||Zimmering,S., J.M. Mason, and R. Valencia|Chemical Mutagenesis Testing in Drosophila.  VII.  Results of 22 Coded Compounds Tested in Larval Feeding Experiments|Environ. Mol. Mutagen.14(4): 245-251|1989|10.1002/em.2850140406
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105961|T||Thompson,E.T.|The Toxicity of a Number of Different Bactericides to Clavibacter michiganense subsp. michiganense (Smith 1910) Jensen 1934 Comb. Nov. (basonym Corynebacterium michiganense pv. michiganense (AL)) and to the Tomato Plant|J. Appl. Bacteriol.61(5): 427-436|1986|10.1111/j.1365-2672.1986.tb04307.x
105962|T||Gupta,M., G. Bagchi, S.D. Gupta, S.N. Dey, S. Mukherjee, A. Roy, and D.K. Roy|Hepatorenal Toxicity of Nuvacron and Furadan in Mice|Indian J. Exp. Biol.26(3): 237-240|1988|
105963|A||Rath,B., and S.P. Adhikary|Relative Tolerance of Several Nitrogen-Fixing Cyanobacteria to Commercial Grade Furadan (Carbofuran, 3%)|Indian J. Exp. Biol.32(3): 213-215|1994|
105964|T||Kanga,L.H.B., F.W.,Jr. Plapp, B.F. McCutchen, R.D. Bagwell, and J.D.,Jr. Lopez|Tolerance to Cypermethrin and Endosulfan in Field Populations of the Bollworm (Lepidoptera:  Noctuidae) from Texas|J. Econ. Entomol.89(3): 583-589|1996|10.1093/jee/89.3.583
105965|A||Sunderman,F.W.Jr., M.C. Plowman, O. Slaisova, S. Grbac-Ivankovic, L. Foglia, and J.F. Crivello|Effects of Teratogenic Concentrations of Zn2+, Cd2+, Ni2+, Co2+, and Cu2+ in FETAX Assays on Metallothionein (MT) and MT-mRNA Contents of Xenopus laevis Embryos|In: Proc. Int. Symp. , Metal Ions Biol. Med. , Phillippe Publ. , Libbey, Montrouge:17-22|1994|
105966|T||Lamb,J.C., M.W. Harris, J.D. McKinney, and L.S. Birnbaum|Effects of Thyroid Hormones on the Induction of Cleft Palate by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) in C57BL/6N Mice|Toxicol. Appl. Pharmacol.84:115-124|1986|10.1016/0041-008X(86)90420-5
105967|A||Grosell,M., J. Blanchard, K.V. Brix, and R. Gerdes|Physiology is Pivotal for Interactions Between Salinity and Acute Copper Toxicity to Fish and Invertebrates|Aquat. Toxicol.84(2): 162-172|2007|10.1016/j.aquatox.2007.03.026
105971|T||Lee,S.C., D.S. Kim, N.H. Kim, and B.K. Hwang|Functional Analysis of the Promoter of the Pepper Pathogen-Induced Gene, CAPIP2, During Bacterial Infection and Abiotic Stresses|Plant Sci.172(2): 236-245|2007|10.1016/j.plantsci.2006.08.015
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105973|T||Chaudhary,V.P., S. Gupta, and R.V. Singh|Efficacy of Chemical Treatment on Storage Rot of Onion Caused by Aspergillus niger|Indian J. Mycol. Plant Pathol.24(3): 229-|1994|
105974|T||Crafts,A.S.|The Relation of Nutrients to Toxicity of Arsenic, Borax, and Chlorate in Soils|J. Agric. Res.58(9): 637-671|1939|
105975|T||De,B.K., and P.C. Sengupta|Chemical Control of Common Scab of Potato|J. Indian Potato Assoc.20(3/4): 273-274|1993|
105976|T||Fajola,A.O., and M.I. Nwufo|Control of Corm Rots of Cocoyam (Colocasia esculenta) Caused by Botryodiplodia theobromae and Sclerotium rolfsii|Fitopatol. Bras. (Multiple Languages)10(1): 49-56|1985|
105977|T||Fukuda,R., M. Hirode, I. Mori, F. Chatani, H. Morishima, and H. Mayahara|Collaborative Work to Evaluate Toxicity on Male Reproductive Organs by Repeated Dose Studies in Rats 24)  Testicular Toxicity of Boric Acid After 2- and 4-Week Administration Periods|J. Toxicol. Sci.25:233-239|2000|10.2131/jts.25.SpecialIssue_233
105978|T||Hashizume,R., A. Noda, M. Itoh, Y. Yamamoto, S. Masui, M. Oka, and T. Nakamura|Studies on Teratological Testing Using Chicken Embryos - Effects of Solvents, Injection Sites and the Age of the Embryo|Exp. Anim.41(3): 349-356|1992|10.1538/expanim1978.41.3_349
105979|T||Jalali,I., and N. Mehta|Evaluation of Pre-Planting and Post-Harvest Seed Tuber Treatment for the Control of Black Scurf of Potato|J. Indian Potato Assoc.21(3/4): 226-230|1994|
105980|T||Jose,V.T., V.K. Rajalakshmy, K. Jayarathnam, and C.R. Nehru|Chemical Mixtures for Rubber Wood Treatment by Diffusion Process|Indian J. Nat. Rubber Res.8(1): 25-30|1995|
105981|T||Khanna,R.N., and J. Sharma|Effect of Boric Acid Treatment on Seed and Soil Borne Rhizoctonia solani Inocula and Rhizosphere Microflora|J. Indian Potato Assoc.23(1/2): 1-7|1996|
105982|T||Kudo,S., H. Tanase, M. Yamasaki, M. Nakao, Y. Miyata, K. Tsuru, and S. Imai|Collaborative Work to Evaluate Toxicity on Male Reproductive Organs by Repeated Dose Studies in Rats 23).  A Comparative 2- and 4-Week Repeated Oral Dose Testicular Toxicity Study of Boric Acid in Rats|J. Toxicol. Sci.25:223-232|2000|10.2131/jts.25.SpecialIssue_223
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105984|A||Rowe,R.I., C. Bouzan, S. Nabili, and C.D. Eckhert|The Response of Trout and Zebrafish Embryos to Low and High Boron Concentrations is U-Shaped|Biol. Trace Elem. Res.66(1-3): 261-270|1998|10.1007/BF02783142
105985|T||Singh,B.P., S.K. Saxena, and B.B. Nagaich|Chemical Control of Dry Rot of Potatoes Caused by Fusarium spp.|Indian J. Plant Prot.17(1): 91-95|1989|
105986|T||Wery,N., M.G. Narotsky, N. Pacico, R.J. Kavlock, J.J. Picard, and F. Gofflot|Defects in Cervical Vertebrae in Boric Acid-Exposed Rat Embryos are Associated with Anterior Shifts of hox Gene Expression Domains|Birth Defects Res. A Clin. Mol. Teratol.67(1): 59-67|2003|10.1002/bdra.10031
105987|T||Yoshizaki,H., Y. Izumi, C. Hirayama, A. Fujimoto, H. Kandori, T. Sugitani, and Y. Ooshima|Availability of Sperm Examination for Male Reproductive Toxicities in Rats Treated with Boric Acid|J. Toxicol. Sci.24(3): 199-208|1999|10.2131/jts.24.3_199
105988|T||Mishra,D., and G.C. Rath|Control of Fusarium Rot of Eggplant|Indian J. Agric. Sci.56(8): 612-616|1986|
105989|T||Ray,M.D., K.E. Avis, and C.C.,Jr. Flanigan|Microbiological Evaluation of PCMX Complexes|J. Pharm. Sci.57(4): 609-613|1968|10.1002/jps.2600570413
105990|T||Kam,J., P. Gresshoff, R. Shorter, and G.P. Xue|Expression Analysis of RING Zinc Finger Genes from Triticum aestivum and Identification of TaRZF70 that Contains Four RING-H2 Domains and Differentially Responds to Water Deficit Between Leaf and Root|Plant Sci.173(6): 650-659|2007|10.1016/j.plantsci.2007.09.001
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105995|T||Ostrowska,A., G. Porebska, and Z. Szczubialka|Limitation of Pb and Cd Uptake by Pine|Environ. Eng. Sci.23(4): 596-602|2006|10.1089/ees.2006.23.595
105996|T||Wang,X.J.|Effects of di-Butyl Phthalate on In Vitro Morphogenesis of Arabidopsis thaliana|Funct. Plant Biol.30(8): 909-912|2003|10.1071/FP03005
105997|T||Herrera-Teigeiro,I., L.F. Jimenez-Garcia, and J.M. Vazquez-Ramos|Benzyladenine Promotes Early Activation of p34CDC2-like Kinase(s) During Maize Germination|Seed Sci. Res.9(1): 55-62|1999|10.1017/S0960258599000069
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106000|T||Gupta,B.N., E.E. McConnell, M.W. Harris, and J.A. Moore|Polybrominated Biphenyl Toxicosis in the Rat and Mouse|Toxicol. Appl. Pharmacol.57:99-118|1981|10.1016/0041-008X(81)90029-6
106001|T||Carrizo,F.R., M.E. Sosa, L.S. Favier, F. Penna, E. Guerreiro, O.S. Giordano, and C.E. Tonn|Growth-Inhibitory Activities of Benzofuran and Chromene Derivatives Toward Tenebrio molitor|J. Nat. Prod.61(10): 1209-1211|1998|10.1021/np9800248
106002|A||Liu,W., Y.S. Yang, Q. Zhou, L. Xie, P. Li, and T. Sun|Impact Assessment of Cadmium Contamination on Rice (Oryza sativa L.) Seedlings at Molecular and Population Levels Using Multiple Biomarkers|Chemosphere67(6): 1155-1163|2007|10.1016/j.chemosphere.2006.11.011
106003|A||Liu,H., H. Yu, J.P. Giesy, Y. Sun, and X. Wang|Toxicity of HC Orange No. 1 to Daphnia magna, Zebrafish (Brachydanio rerio) Embryos, and Goldfish (Carassius auratus)|Chemosphere66(11): 2159-2165|2007|10.1016/j.chemosphere.2006.09.005
106004|T||Nelson,E.A., and D. Penner|Sensitivity of Selected Crops to Isoxaflutole in Soil and Irrigation Water|Weed Technol.19(3): 659-663|2005|10.1614/WT-04-203R.1
106005|T||Lind,E.O., A. Uggla, P. Waller, and J. Hoglund|Larval Development Assay for Detection of Anthelmintic Resistance in Cyathostomins of Swedish Horses|Vet. Parasitol.128(3/4): 261-269|2005|10.1016/j.vetpar.2004.11.029
106006|A||Krauter,P.W.|Micronucleus Incidence and Hematological Effects in Bullfrog Tadpoles (Rana catesbeiana) Exposed to 2-Acetylaminofluorene and 2-Aminofluorene|Arch. Environ. Contam. Toxicol.24(4): 487-493|1993|10.1007/BF01146167
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106010|T||Levin,A.A., and R.K. Miller|Fetal Toxicity of Cadmium in the Rat:  Decreased Utero-Placental Blood Flow|Toxicol. Appl. Pharmacol.58:297-306|1981|10.1016/0041-008X(81)90434-8
106011|T||Purkayastha,R.P., K. Nayek, and B. Bhattacharyya|Heavy Metal Pollutants in Reclaimed Wetland Soil and Pesticidal Spray Affecting Development of Leaf Blight Disease and Metal Uptake by Maize (Zea mays L.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.66(3): 265-272|1996|
106012|T||Spiker,J.K., D.L. Crawford, and R.L. Crawford|Influence of 2,4,6-Trinitrotoluene (TNT) Concentration on the Degradation of TNT in Explosive-Contaminated Soils by the White Rot Fungus Phanaerochaete chrysosporium|Appl. Environ. Microbiol.58(9): 3199-3202|1992|10.1128/aem.58.9.3199-3202.1992
106014|T||Peralta-Videa,J.R., G. De la Rosa, J.H. Gonzalez, and J.L. Gardea-Torresdey|Effects of the Growth Stage on the Heavy Metal Tolerance of Alfalfa Plants|Adv. Environ. Res.8(3-4): 679-685|2004|10.1016/S1093-0191(03)00040-6
106015|A||Khan,H.M., and M.A.Q. Khan|Biological Magnification of Photodieldrin by Food Chain Organisms|Arch. Environ. Contam. Toxicol.2(4): 289-301|1974|10.1007/BF02047095
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106017|T||Hollmann,S., and O. Touster|Alterations in Tissue Levels of Uridine Diphosphate Glucose Dehydrogenase, Uridine Diphosphate Glucuronic Acid Pyrophosphatase and Glucuronyl Transferase Induced by Substances Influencing the Production of Ascorbic Acid|Biochim. Biophys. Acta26(2): 338-352|1962|10.1016/0006-3002(62)90048-3
106018|T||Phillips,J.N., B. Witrzens, L.K. Dalton, and B.C. Elmes|Induced Resistance of Fusarium Wilt in Tomato Seedlings|Phytopathol. Z. (Multiple Languages)101:189-195|1981|10.1111/j.1439-0434.1981.tb03339.x
106019|T||Ham,K.N., and J.D. Tange|Silver Deposition in Rat Glomerular Basement Membrane|Aust. J. Exp. Biol. Med. Sci.50(4): 423-434|1972|10.1038/icb.1972.36
106020|T||Rungby,J., and G. Danscher|Localization of Exogenous Silver in Brain and Spinal Cord of Silver Exposed Rats|Acta Neuropathol.60(1-2): 92-98|1983|10.1007/BF00685352
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106024|T||Glojnaric,I., S. Cuzic, V. Erakovic-Haber, and M.J. Parnham|The Serum Amyloid A Response to Sterile Silver Nitrate in Mice and Its Inhibition by Dexamethasone and Macrolide Antibiotics|Int. Immunopharmacol.7(12): 1544-1551|2007|10.1016/j.intimp.2007.07.031
106025|T||Peffer,R.C., D.D. Campbell, and J.C. Ritter|Metabolism of the Thiocarbamate Herbicide SUTAN in Rats|Xenobiotica21(9): 1139-1152|1991|10.3109/00498259109039554
106026|T||Kotti,T., T. Halonen, J. Sirvio, P.,Sr. Riekkinen, and R. Miettinen|Comparison of NADPH Diaphorase Histochemistry, Somatostatin Immunohistochemistry, and Silver Impregnation in Detecting Structural and Functional Impairment in Experimental Status Epilepticus|Neuroscience80(1): 105-117|1997|10.1016/S0306-4522(97)00128-0
106028|T||St.John,L.E.,Jr., H. Arnold, and D.J. Lisk|Metabolic Studies with Alar Growth Regulator in the Dairy Cow|J. Agric. Food Chem.17:116-117|1969|10.1021/jf60161a613
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106030|T||Lastowski-Perry,D., E. Otto, and G. Maroni|Nucleotide Sequence and Expression of a Drosophila Metallothionein|J. Biol. Chem.260(3): 1527-1530|1985|10.1016/S0021-9258(18)89624-7
106031|T||Segall,Y., G.B. Quistad, S.E. Sparks, D.K. Nomura, and J.E. Casida|Toxicological and Structural Features of Organophosphorus and Organosulfur Cannabinoid CB1 Receptor Ligands|Toxicol. Sci.76(1): 131-137|2003|10.1093/toxsci/kfg216
106032|T||Creasey,M., and D.B. Moffat|The Deposition of Ingested Silver in the Rat Kidney at Different Ages|Experientia29(3): 326-327|1973|10.1007/BF01926506
106033|T||Bhandal,I.S., and C.P. Malik|Total and Polar Lipid Biosynthesis During Growth of Crotalaria juncea Pollen Tubes|Phytochemistry20(3): 429-432|1981|10.1016/S0031-9422(00)84159-X
106034|T||Chitzanidis,A., G. Riethmacher, and J. Kranz|Penicillium Contamination and Effectiveness of Chemical Disinfestation in Citrus Packinghouses in Greece|Ann. Inst. Phytopathol. Benaki (Multiple Languages)15(2): 109-119|1987|
106035|T||Nunez,L., M. D'Aquino, and J. Chirife|Antifungal Properties of Clove Oil (Eugenia caryophylata) in Sugar Solution|Braz. J. Microbiol.32(2): 123-126|2001|10.1590/S1517-83822001000200010
106036|T||Singh,R., S. Sharma, and O.P. Malik|Synthesis of Some Alkyl/Chloro/Methoxy-Substituted-4-(Substituted-Phenoxymethyl)-2H-1-Benzopyran-2-Ones as Potential Antifungal Agents|J. Indian Chem. Soc.69(6): 338-339|1992|
106038|T||McIntosh,A.H., M.M. Burrell, and G.L. Bateman|Mechanisms of Action of Foliar Sprays of Daminozide and Ethionine Against Potato Common Scab|Br. Crop Prot. Conf. Pests Dis.1:87-93|1977|
106039|T||Hotchkiss,A.K., J. Furr, E.A. Makynen, G.T. Ankley, and L.E.,Jr. Gray|In Utero Exposure to the Environmental Androgen Trenbolone Masculinizes Female Sprague-Dawley Rats|Toxicol. Lett.174(1-3): 31-41|2007|10.1016/j.toxlet.2007.08.008
106040|A||Villeneuve,D.L., L.S. Blake, J.D. Brodin, K.J. Greene, I. Knoebl, A.L. Miracle, D. Martinovic, and G.T. Ankley|Transcription of Key Genes Regulating Gonadal Steroidogenesis in Control and Ketoconazole- or Vinclozolin-Exposed Fathead Minnows|Toxicol. Sci.98(2): 395-407|2007|10.1093/toxsci/kfm124
106041|A||Trudeau,V.L., N. Turque, S. Le Mevel, C. Alliot, N. Gallant, L. Coen, F. Pakdel, and B. Demeneix|Assessment of Estrogenic Endocrine-Disrupting Chemical Actions in the Brain Using In Vivo Somatic Gene Transfer|Environ. Health Perspect.113(3): 329-334|2005|10.1289/ehp.7418
106042|A||Robinson,C.D., J.A. Craft, C.F. Moffat, I.M. Davies, E.S. Brown, and C. Megginson|Oestrogenic Markers and Reduced Population Fertile Egg Production in a Sand Goby Partial Life-Cycle Test|Mar. Environ. Res.58(2-5): 147-150|2004|10.1016/j.marenvres.2004.03.009
106043|T||Shirai,T., A. Yamamoto, S. Iwasaki, S. Tamano, and T. Masui|Induction of Invasive Carcinomas of the Seminal Vesicles and Coagulating Glands of F344 Rats by Administration of N-Methylnitrosourea or N-Nitrosobis(2-Oxopropyl)amine and Followed by Testosterone Propionate with or Wit|Carcinogenesis12(11): 2169-2173|1991|10.1093/carcin/12.11.2169
106044|T||Standeven,A.M., D.C. Wolf, and T.L. Goldsworthy|Interactive Effects of Unleaded Gasoline and Estrogen on Liver Tumor Promotion in Female B6C3F1 Mice|Cancer Res.54(5): 1198-1204|1994|
106045|A||Vang,S.H., T.M. Kortner, and A. Arukwe|Steroidogenic Acute Regulatory (StAR) Protein and Cholesterol Side-Chain Cleavage (P450scc) as Molecular and Cellular Targets for 17alpha-Ethynylestradiol in Salmon Previtellogenic Oocytes|Chem. Res. Toxicol.20(12): 1811-1819|2007|10.1021/tx700228g
106046|A||van der Ven,L.T.M., E.J. Van den Brandhof, J.H. Vos, D.M. Power, and P.W. Wester|Effects of the Antithyroid Agent Propylthiouracil in a Partial Life Cycle Assay with Zebrafish|Environ. Sci. Technol.40(1): 74-81|2006|10.1021/es050972c
106047|A||Xu,H.J., J. Yang, Y. Wang, Q. Jiang, H. Chen, and H. Song|Exposure to 17alpha-Ethynylestradiol Impairs Reproductive Functions of Both Male and Female Zebrafish (Danio rerio)|Aquat. Toxicol.88(1): 1-8|2008|10.1016/j.aquatox.2008.01.020
106048|T||Woo,G.H., M. Shibutani, T. Ichiki, M. Hamamura, K.Y. Lee, K. Inoue, and M. Hirose|A Repeated 28-Day Oral Dose Toxicity Study of Nonylphenol in Rats, Based on the 'Enhanced OECD Test Guideline 407' for Screening of Endocrine-Disrupting Chemicals|Arch. Toxicol.81(2): 77-88|2007|10.1007/s00204-006-0129-6
106049|A||Winter,M.J., A.D. Lillicrap, J.E. Caunter, C. Schaffner, A.C. Alder, M. Ramil, T.A. Ternes, E. Giltrow, J.P. Sumpter, a|Defining the Chronic Impacts of Atenolol on Embryo-Larval Development and Reproduction in the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.86(3): 361-369|2008|10.1016/j.aquatox.2007.11.017
106050|A||Zounkova,R., P. Odraska, L. Dolezalova, K. Hilscherova, B. Marsalek, and L. Blaha|Ecotoxicity and Genotoxicity Assessment of Cytostatic Pharmaceuticals|Environ. Toxicol. Chem.26(10): 2208-2214|2007|10.1897/07-137R.1
106051|A||Weisbrod,C.J., P.Y. Kunz, A.K. Zenker, and K. Fent|Effects of the UV Filter Benzophenone-2 on Reproduction in Fish|Toxicol. Appl. Pharmacol.225(3): 255-266|2007|10.1016/j.taap.2007.08.004
106052|T||Zhu,Y.S., P.M. Yen, W.W. Chin, and D.W. Pfaff|Estrogen and Thyroid Hormone Interaction on Regulation of Gene Expression|Proc. Natl. Acad. Sci. U.S.A.93:12587-12592|1996|10.1073/pnas.93.22.12587
106053|A||Zha,J., L. Sun, Y. Zhou, P.A. Spear, M. Ma, and Z. Wang|Assessment of 17alpha-Ethinylestradiol Effects and Underlying Mechanisms in a Continuous, Multigeneration Exposure of the Chinese Rare Minnow (Gobiocypris rarus)|Toxicol. Appl. Pharmacol.226(3): 298-308|2008|10.1016/j.taap.2007.10.006
106054|A||Tabata,A., S. Kashiwada, Y. Ohnishi, H. Ishikawa, N. Miyamoto, M. Itoh, and Y. Magara|Estrogenic Influences of Estradiol-17beta, p-Nonylphenol and bis-Phenol-A on Japanese Medaka (Oryzias latipes) at Detected Environmental Concentrations|Water Sci. Technol.43(2): 109-116|2001|10.2166/wst.2001.0079
106055|T||Mazzucco,C.A., H.A. Walker, J.L. Pawluski, S.E. Lieblich, and L.A.M. Galea|ERalpha, but not ERbeta, Mediates the Expression of Sexual Behavior in the Female Rat|Behav. Brain Res.191(1): 111-117|2008|10.1016/j.bbr.2008.03.016
106056|A||Hsu,C.Y., L.H. Hsu, and H.M. Liang|The Effect of Cyproterone Acetate on the Activity of delta5-3beta-Hydroxysteroid Dehydrogenase in Tadpole Sex Transformation|Gen. Comp. Endocrinol.39:404-410|1979|10.1016/0016-6480(79)90138-2
106057|A||Lange,A., Y. Katsu, R. Ichikawa, G.C. Paull, L.L. Chidgey, T.S. Coe, T. Iguchi, and C.R. Tyler|Altered Sexual Development in Roach (Rutilus rutilus) Exposed to Environmental Concentrations of the Pharmaceutical 17alpha-Ethinylestradiol and Associated Expression Dynamics of Aromatases and Estrogen Receptors|Toxicol. Sci.106(1): 113-123|2008|10.1093/toxsci/kfn151
106058|A||Shved,N., G. Berishvili, J.F. Baroiller, H. Segner, and M. Reinecke|Environmentally Relevant Concentrations of 17alpha-Ethinylestradiol (EE2) Interfere with the Growth Hormone (GH)/Insulin-Like Growth Factor (IGF)-I System in Developing Bony Fish|Toxicol. Sci.106(1): 93-102|2008|10.1093/toxsci/kfn150
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106061|A||Peute,J., R. Huiskamp, and P.G.W.J. Van Oordt|Quantitative Analysis of Estradiol-17beta-Induced Changes in the Ultrastructure of the Liver of the Male Zebrafish, Brachydanio rerio|Cell Tissue Res.242:377-382|1985|10.1007/BF00214551
106062|T||Gu,G., F. Varoqueaux, and R.B. Simerly|Hormonal Regulation of Glutamate Receptor Gene Expression in the Anteroventral Periventricular Nucleus of the Hypothalamus|J. Neurosci.19(8): 3213-3222|1999|10.1523/JNEUROSCI.19-08-03213.1999
106063|A||Pandey,A.K., and L. Bhattacharya|Insecticide-Induced Inhibition of Thyroid Activity in the Fish Oreochromis mossambicus and Recovery in Insecticide-Free Water|Funct. Dev. Morphol.1(4): 15-19|1991|
106064|T||Shirai,T., S. Fukushima, E. Ikawa, Y. Tagawa, and N. Ito|Induction of Prostate Carcinoma In Situ at High Incidence in F344 Rats by a Combination of 3,2'-Dimethyl-4-aminobiphenyl and Ethynyl Estradiol|Cancer Res.46(12): 6423-6426|1986|
106065|T||Holwerda,B.C., and R.A. Morton|The In Vitro Degradation of (14C)Malathion by Enzymatic Extracts from Resistant and Susceptible Strains of Drosophila melanogaster|Pestic. Biochem. Physiol.20(2): 151-160|1983|10.1016/0048-3575(83)90019-6
106066|T||Bisset,J., M. Rodriguez, A. Soca, N. Pasteur, and M. Raymond|Cross-Resistance to Pyrethroid and Organophosphorus Insecticides in the Southern House Mosquito (Diptera:  Culicidae) from Cuba|J. Med. Entomol.34(2): 244-246|1997|10.1093/jmedent/34.2.244
106067|T||Miyamoto,J.|Studies on the Mode of Action of Organophosphorus Compounds.  Part III.  Activation and Degradation of Sumithion and Methylparathion in Mammals In Vivo|Agric. Biol. Chem.28(7): 411-421|1964|
106068|T||Darre,M.J., and P.C. Harrison|Influence of Gonadotropic Releasing Hormone, Luteinizing Hormone and Pineal Extracts on Testes of Immature Cockerels|Poult. Sci.56(6): 2016-2021|1977|10.3382/ps.0562016
106069|T||Hausburg,M.A., G.K. DeKrey, J.J. Salmen, M.R. Palic, and C.S. Gardiner|Effects of Paraquat on Development of Preimplantation Embryos In Vivo and In Vitro|Reprod. Toxicol.20(2): 239-246|2005|10.1016/j.reprotox.2005.03.006
106070|T||Hilliker,A.J., B. Duyf, D. Evans, and J.P. Phillips|Urate-Null Rosy Mutants of Drosophila melanogaster are Hypersensitive to Oxygen Stress|Proc. Natl. Acad. Sci. U.S.A.89(10): 4343-4347|1992|10.1073/pnas.89.10.4343
106071|T||Hoffer,E., I. Avidor, O. Benjaminov, L. Shenker, A. Tabak, A. Tamir, D. Merzbach, and U. Taitelman|N-Acetylcysteine Delays the Infiltration of Inflammatory Cells into the Lungs of Paraquat-Intoxicated Rats|Toxicol. Appl. Pharmacol.120(1): 8-12|1993|10.1006/taap.1993.1080
106072|T||Hollinger,M.A., S.N. Giri, and M. Freywald|Effect of Paraquat on Zinc Content of Rat Lung|Toxicol. Appl. Pharmacol.43(2): 259-266|1978|10.1016/0041-008X(78)90005-4
106073|T||Hollinger,M.A., O.G. Raabe, S.N. Giri, M. Freywald, S.V. Teague, and B. Tarkington|Effect of the Inhalation of Zinc and Dietary Zinc on Paraquat Toxicity in the Rat|Toxicol. Appl. Pharmacol.49(1): 53-61|1979|10.1016/0041-008X(79)90276-X
106074|A||Ibrahim,E.A.|"The Influence of the Herbicide Paraquat ""Gramaxon"" on Growth and Metabolic Activity of Three Chlorophytes"|Water Air Soil Pollut.51(1/2): 89-93|1990|10.1007/BF00211506
106076|T||Wakgari,W.M., and J.H. Giliomee|Natural Enemies of Three Mealybug Species (Hemiptera: Pseudococcidae) Found on Citrus and Effects of Some Insecticides on the Mealybug Parasitoid Coccidoxenoides peregrinus (Hymenoptera: Encyrtidae) in South Africa|Bull. Entomol. Res.93(3): 243-254|2003|10.1079/BER2003235
106077|T||Bhanot,J.P., G.R. Batra, R.K. Kashyap, and A.N. Verma|Effect of Seed Treatment with Insecticides on Germination in Mustard (Brassica juncea)|Seed Res.22(2): 179-180|1994|
106078|T||Dikshith,T.S.S., G. Nath, and K.K. Datta|Combined Cytogenetic Effects of Endosulfan & Metepa in Male Rats|Indian J. Exp. Biol.16(9): 1000-1002|1978|
106079|T||Gunning,R.V., and C.S. Easton|The Response of Helicoverpa punctigera (Wallengren) (Lepidoptera:  Noctuidae) to DDT, Endosulfan, Deltamethrin and Fenvalerate|J. Aust. Entomol. Soc.33(1): 61-64|1994|10.1111/j.1440-6055.1994.tb00922.x
106080|T||Cajthaml,T., P. Erbanova, V. Sasek, and M. Moeder|Breakdown Products on Metabolic Pathway of Degradation of Benz[a]anthracene by a Ligninolytic Fungus|Chemosphere64(4): 560-564|2006|10.1016/j.chemosphere.2005.11.034
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106083|T||LaBorde,J.B., and C.A. Kimmel|The Teratogenicity of Ethylene Oxide Administered Intravenously to Mice|Toxicol. Appl. Pharmacol.56:16-22|1980|10.1016/0041-008X(80)90127-1
106084|T||Wiersma,J.J., B.R. Durgan, and K.B. Martinson|Hard Red Spring Wheat (Triticum aestivum) Tolerance to Postemergence Grass Herbicides|Weed Technol.17(2): 297-301|2003|10.1614/0890-037X(2003)017[0297:HRSWTA]2.0.CO;2
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106086|T||Martinez,C., C.A. Levesque, R.R. Belanger, and R.J. Tweddell|Evaluation of Fungicides for the Control of Carrot Cavity Spot|Pest Manag. Sci.61(8): 767-771|2005|10.1002/ps.1055
106088|T||Staak,A., M. Frost, and W. Kratz|Ecotoxicological Studies on the Impact of the Herbicide Trifluralin on Porcellio scaber (Isopoda)|Appl. Soil Ecol.9:405-409|1998|10.1016/S0929-1393(98)00097-3
106089|T||Brown,M.W., and D.M. Glenn|Ground Cover Plants and Selective Insecticides as Pest Management Tools in Apple Orchards|J. Econ. Entomol.92(4): 899-905|1999|10.1093/jee/92.4.899
106091|A||Jimenez,C., and U. Pick|Differential Reactivity of beta-Carotene Isomers from Dunaliella bardawil Toward Oxygen Radicals|Plant Physiol.101(2): 385-390|1993|10.1104/pp.101.2.385
106093|T||Jin,L.G., and J.Y. Liu|Molecular Cloning, Expression Profile and Promoter Analysis of a Novel Ethylene Responsive Transcription Factor Gene GhERF4 from Cotton (Gossypium hirstum)|Plant Physiol. Biochem.46:46-53|2008|10.1016/j.plaphy.2007.10.004
106094|T||Alzwiy,I.A., and P.C. Morris|A Mutation in the Arabidopsis MAP Kinase kinase 9 Gene Results in Enhanced Seedling Stress Tolerance|Plant Sci.173(3): 302-308|2007|10.1016/j.plantsci.2007.06.007
106095|T||Reed,J.P., A.J. Keaster, R.J. Kremer, and G.F. Krause|Synergistic and Antagonistic Responses of Soil Insecticide-Herbicide Combinations for Corn Rootworm, Diabrotica spp. Control|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes24(4): 325-334|1989|
106097|T||Smith,S.N., A.J.E. Lyon, and I.B. Sahid|The Breakdown of Paraquat and Diquat by Soil Fungi|New Phytol.77(3): 735-740|1976|10.1111/j.1469-8137.1976.tb04668.x
106098|T||Genter,M.B., B.M. Warner, H.W. Krell, and B. Bolon|Reduction of Alachlor-Induced Olfactory Mucosal Neoplasms by the Matrix Metalloproteinase Inhibitor Ro 28-2653|Toxicol. Pathol.33(5): 593-599|2005|10.1080/01926230500244522
106100|T||Nokata,M., T. Tanaka, K. Tsuchiya, and M. Yamashita|Alleviation of Paraquat Toxicity by Kayexalate and Kalimate in Rats|Acta Pharmacol. Toxicol.55(2): 158-160|1984|10.1111/j.1600-0773.1984.tb01979.x
106101|T||Ramanujam,T., M. Nagarajan, S. Sethuraman, and P. Pillaiyar|Desiccation of Paddy Crop with Gramoxone (Paraquat) and Reglone (Diquat)|Pesticides 13(8): 40-44|1979|
106102|T||Bilgrami,A.L., and M.S. Jairajpuri|The Responses of Mononchus aquaticus to Chemicals and pH|Indian J. Nematol.14(2): 171-174|1984|
106103|A||Sharifi,I., and P.M. Nollen|The Effect of Six Herbicides on the Longevity of Schistosoma mansoni miracidia|Trans. Ill. State Acad. Sci.74(1-2): 91-98|1981|
106105|A||Mylonas,C.C., Y. Tabata, R. Langer, and Y. Zohar|Preparation and Evaluation of Polyanhydride Microspheres Containing Gonadotropin-Releasing Hormone (GnRH), for Inducing Ovulation and Spermiation in Fish|J. Control. Release35(1): 23-34|1995|10.1016/0168-3659(95)00009-W
106106|T||Evans,J.J., and S. Tulloch|Effects of Administration of Oxytocin in Association with Gonadotropin-Releasing Hormone on Luteinizing Hormone Levels in Rats In Vivo|Peptides16(1): 145-150|1995|10.1016/0196-9781(94)00171-2
106107|T||Mahato,S., S.S. Kundu, A.K. Somchoudhury, and P.K. Sarkar|Damage of Two Spotted Spider Mite (Tetranychus urticae Koch.) (Acari:  Tetranychidae) in Marigold and Their Management with Bio-Rationals:  West Bengal Perspective|J. Entomol. Res.32(1): 31-34|2008|
106108|T||Sahu,B., N. Nair, P.P. Dhar, K. Sekh, and A.K. Somchoudhury|Relative Toxicity of Some Acaricides to Tea Red Spider Mite, Oligonychus coffeae (Nietner) and Its Predator Amblyseius longispinosus Evans|J. Entomol. Res.32(1): 53-56|2008|
106109|T||Koizumi,A., V. Tada, and T. Imamura|Similarity of Isozyme Pattern of Serum Lactate Dehydrogenase Following Treatments with O,O,S-Trimethyl Phosphorothioate and Paraquat|Toxicol. Lett.31(1): 85-90|1986|10.1016/0378-4274(86)90197-9
106110|T||Lee,H.S., K.S. Lee, K. Yu, and S.Y. Hong|Expression of Genes Related to Parkinson's Disease After Paraquat Treatment in Drosophila melanogaster|Pestic. Biochem. Physiol.92(1): 19-23|2008|10.1016/j.pestbp.2008.05.002
106111|T||Lii,C.K., S.T. Wang, and H.W. Chen|The Detection of S-Glutathionation of Hepatic Carbonic Anhydrase III in Rats Treated with Paraquat or Diquat|Toxicol. Lett.84(2): 97-105|1996|10.1016/0378-4274(95)03621-0
106112|T||Lock,E.A.|The Effect of Paraquat and Diquat on Renal Function in the Rat|Toxicol. Appl. Pharmacol.48(2): 327-336|1979|10.1016/0041-008X(79)90039-5
106113|T||Lock,E.A., and J. Ishmael|The Acute Toxic Effects of Paraquat and Diquat on the Rat Kidney|Toxicol. Appl. Pharmacol.50(1): 67-76|1979|10.1016/0041-008X(79)90493-9
106115|T||Mais,D.E., P.D. Lahr, and T.R. Bosin|Hyperoxia and Paraquat Alter the Kinetics of Platelet Serotonin Uptake|Toxicol. Appl. Pharmacol.76(1): 1-8|1984|10.1016/0041-008X(84)90023-1
106117|T||Meulener,M.C., K. Xu, L. Thomson, H. Ischiropoulos, and N.M. Bonini|Mutational Analysis of DJ-1 in Drosophila Implicates Functional Inactivation by Oxidative Damage and Aging|Proc. Natl. Acad. Sci. U.S.A.103(33): 12517-12522|2006|10.1073/pnas.0601891103
106119|T||Montgomery,M.R.|Interaction of Paraquat with the Pulmonary Microsomal Fatty Acid Desaturase System|Toxicol. Appl. Pharmacol.36(3): 543-554|1976|10.1016/0041-008X(76)90233-7
106120|T||Omaye,S.T., K.A. Reddy, and C.E. Cross|Enhanced Lung Toxicity of Paraquat in Selenium-Deficient Rats|Toxicol. Appl. Pharmacol.43(2): 237-247|1978|10.1016/0041-008X(78)90003-0
106121|T||Sato,M.|Dose-Dependent Increases in Metallothionein Synthesis in the Lung and Liver of Paraquat-Treated Rats|Toxicol. Appl. Pharmacol.107(1): 98-105|1991|10.1016/0041-008X(91)90334-B
106123|T||Williams,J.H.,Jr., R.D. Fairshter, T.R. Ulich, S. Crosby, M. Chen, L. Rosario, and N.D. Vaziri|Adverse Effects of (15S)-15-Methyl-Prostaglandin E1 in Normal and Paraquat-Exposed Rats|Toxicol. Appl. Pharmacol.92(2): 330-334|1988|10.1016/0041-008X(88)90393-6
106125|T||Yeh,S.T.Y., H.R. Guo, Y.S. Su, H.J. Lin, C.C. Hou, H.M. Chen, M.C. Chang, and Y.J. Wang|Protective Effects of N-Acetylcysteine Treatment Post Acute Paraquat Intoxication in Rats and in Human Lung Epithelial Cells|Toxicology223(3): 181-190|2006|10.1016/j.tox.2006.03.019
106126|T||Hollingworth,R.M., T.R. Fukuto, and R.L. Metcalf|Selectivity of Sumithion Compared with Methyl Parathion. Influence of Structure on Anticholinesterase Activity|J. Agric. Food Chem.15(2): 235-241|1967|10.1021/jf60150a018
106129|T||Moffett,J.O., J. Harvey, and R. Cox|Effect of a Sticker on the Toxicity of Penncap-M and Furadan to Honey Bees when These Insecticides were Sprayed on Flowering Alfalfa|J. Entomol. Sci.21(4): 294-300|1986|10.18474/0749-8004-21.4.294
106130|T||Laberge,G., P. Seguin, P.R. Peterson, C.C. Sheaffer, N.J. Ehlke, G.J. Cuomo, and R.D. Mathison|Establishment of Kura Clover No-Tilled into Grass Pastures with Herbicide Sod Suppression and Nitrogen Fertilization|Agron. J.97(1): 250-256|2005|10.2134/agronj2005.0250
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106133|T||Bua,B., and E. Adipala|Relationship Between Headblast Severity and Yield of Finger Millet|Int. J. Pest Manag.41(1): 55-59|1995|10.1080/09670879509371922
106134|T||Ahmad,M., A.H. Sayyed, N. Crickmore, and M.A. Saleem|Genetics and Mechanism of Resistance to Deltamethrin in a Field Population of Spodoptera litura (Lepidoptera:  Noctuidae)|Pest Manag. Sci.63(10): 1002-1010|2007|10.1002/ps.1430
106135|T||Freitag,R., G.W. Ozburn, and R.E. Leech|The Effects of Sumithion and Phosphamidon on Populations of Five Carabid Beetles and the Spider Trochosa terricola in Northwestern Ontario and Including a List of Collected Species of Carabid Beetles and Spiders|Can. Entomol.101(12): 1328-1333|1969|10.4039/Ent1011328-12
106136|T||Raikwar,M.K., and S.K. Nag|Dissipation of Carbendazim Residues in Fodder Sorghum (Sorghum bicolor)|Indian J. Agric. Sci.74(4): 227-229|2004|
106137|T||Lewis,G.C., R. Cook, and A. Van der Ende|Effect of Agrochemical Applied at Sowing on Seedling Emergence and Herbage Yield of Perennial Ryegrass and White Clover|Grass Forage Sci.46(2): 121-129|1991|10.1111/j.1365-2494.1991.tb02214.x
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106139|T||Gilpatrick,J.D., and J. Terrill|Control of the Gypsy Moth with Trichlorfon Applied ULV by Aircraft in New York State in 1967|J. Econ. Entomol.63(1): 15-18|1970|10.1093/jee/63.1.15
106141|T||Williamson,B.|Effect of Fenitrothion and Benomyl Sprays on Raspberry Cane Midge (Resseliella theobaldi) and Midge Blight, with Particular Reference to Leptosphaeria coniothyrium in the Disease Complex|J. Hortic. Sci.62(2): 171-175|1987|10.1080/14620316.1987.11515766
106142|T||Diehl,J.R., K.J. Lipetz, L.D. Stuart, and D.E. Wildt|Use of Exogenous Gonadotropin and Embryo Transfer to Study Reproductive Efficiency in Altrenogest Synchronized Miniature Swine|In: M.E.Tumbleson (Ed.), Swine in Biomedical Research. New York1:135-142|1986|
106143|T||Tancik,J., and L. Cagan|Utilization of Biological and Chemical Insecticides Against the European Corn Borer (Ostrinia nubilalis HBN.) on Sweet Corn|Pol'nohospodarstvo (Multiple Languages)49(5): 229-234|2003|
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106241|A||Davidson,C., M.F. Benard, H.B. Shaffer, J.M. Parker, C. O'Leary, J.M. Conlon, and L.A. Rollins-Smith|Effects of Chytrid and Carbaryl Exposure on Survival, Growth and Skin Peptide Defenses in Foothill Yellow-Legged Frogs|Environ. Sci. Technol.41(5): 1771-1776|2007|10.1021/es0611947
106242|T||Davari,B., H. Vatandoost, M.A. Oshaghi, H. Ladonni, A.A. Enayati, M. Shaeghi, H.R. Basseri, Y. Rassi, and A.A. Hanafi-B|Selection of Anopheles stephensi with DDT and Dieldrin and Cross-Resistance Spectrum to Pyrethroids and Fipronil|Pestic. Biochem. Physiol.89(2): 97-103|2007|10.1016/j.pestbp.2007.04.003
106243|A||Deng,L., X. Zhu, X. Wang, Y. Su, and H. Su|Biosorption of Copper(II) from Aqueous Solutions by Green Alga Cladophora fascicularis|Biodegradation (Dordr.)18(4): 393-402|2007|10.1007/s10532-006-9074-6
106244|T||DeMason,D.A.|Auxin-Cytokinin and Auxin-Gibberellin Interactions During Morphogenesis of the Compound Leaves of Pea (Pisum sativum)|Planta (Multiple Languages)222(1): 151-166|2005|10.1007/s00425-005-1508-6
106245|T||Dekeyser,M.A., P.T. McDonald, G.W.,Jr. Angle, and R.G.H. Downer|Synthesis and Miticidal and Insecticidal Activities of 4-(2-Fluoroethyl)-5,6-Dihydro-4H-1,3,4-Oxadiazines|J. Agric. Food Chem.41(8): 1329-1331|1993|10.1021/jf00032a031
106246|T||DeFrancesco,J.T., G. Koskela, and G.C. Fisher|Leaf Disc Bioassay of Four Products for Two Spotted Spider Mite Mortality, 1998|Arthropod Manag. Tests24:406-|1999|10.1093/amt/24.1.L19
106247|T||De Solla,S.R., and P.A. Martin|Toxicity of Nitrogenous Fertilizers to Eggs of Snapping Turtles (Chelydra serpentina) in Field and Laboratory Exposures|Environ. Toxicol. Chem.26(9): 1890-1895|2007|10.1897/06-500R1.1
106248|A||De Schamphelaere,K.A.C., and C.R. Janssen|Effects of Chronic Dietary Copper Exposure on Growth and Reproduction of Daphnia magna|Environ. Toxicol. Chem.23(8): 2038-2047|2004|10.1897/03-411
106249|A||De Rosemond,S.J.C., and K. Liber|Wastewater Treatment Polymers Identified as the Toxic Component of a Diamond Mine Effluent|Environ. Toxicol. Chem.23(9): 2234-2242|2004|10.1897/03-609
106250|T||Castella,J., and A. Estrada|Susceptibility of the Brown Dog Tick to Eight Acaricides, 1991|Arthropod Manag. Tests19:371-|1994|10.1093/amt/19.1.371
106251|T||Campbell,C.D., and W.D. Hutchison|Development of a Filter-Paper Bioassay for Sugarbeet Root Aphid, 1993|Arthropod Manag. Tests20:352-|1995|10.1093/amt/20.1.352a
106252|T||Campbell,C.D., and W.D. Hutchison|Timing of Insecticides for SRA Management in Southern Minnesota, 1993|Arthropod Manag. Tests19:276-277|1994|10.1093/amt/19.1.276
106253|T||Buhler,W.G., T.J. Gibb, and H.B. Meyers|Spring Management of White Grubs in Chesterfield, IN, 1993|Arthropod Manag. Tests19:321-|1994|10.1093/amt/19.1.321
106254|A||Borges,A., L.V. Scotti, D.R. Siqueira, R. Zanini, F.D. Amaral, D.F. Jurinitz, and G.F. Wassermann|Changes in Hematological and Serum Biochemical Values in Jundia Rhamdia quelen Due to Sub-Lethal Toxicity of Cypermethrin|Chemosphere69(6): 920-926|2007|10.1016/j.chemosphere.2007.05.068
106255|T||Boetel,M.A., B.W. Fuller, J.M. Jenson, and W.W. Chambers|Planting-Time Insecticide Applications to Control Corn Rootworm Larvae in South Dakota, 1992|Arthropod Manag. Tests19:186-188|1994|10.1093/amt/19.1.186
106256|T||Boetel,M.A., B.W. Fuller, and J.M. Jenson|Control of Corn Rootworm Larvae in South Dakota Using Planting-Time Soil Insecticide Applications, 1993|Arthropod Manag. Tests19:188-189|1994|10.1093/amt/19.1.188
106257|T||Bock,F.G., and T.L. Dao|Factors Affecting the Polynuclear Hydrocarbon Level in Rat Mammary Glands|Cancer Res.21:1024-1029|1961|
106258|T||Hata,T.Y., A.H. Hara, and B.K.S. Hu|Evaluation of Molluscicides Against Slugs, Hawaii, 1994|Arthropod Manag. Tests20:354-355|1995|10.1093/amt/20.1.354a
106259|T||Hata,T.Y., A.H. Hara, and B.K.S. Hu|Postharvest Control of Thrips with Pyrethroids on Dendrobium, 1993|Arthropod Manag. Tests19:352-353|1994|10.1093/amt/19.1.352
106260|T||Hata,T.Y., A.H. Hara, and B.K.S. Hu|Field Insecticidal Trial Against Certain Pests of Red Ginger, Hawaii, 1994|Arthropod Manag. Tests20:297-|1995|10.1093/amt/20.1.297
106261|T||Journey,A.M., and K.R. Ostlie|Granular and Liquid Insecticide Performance Against Corn Rootworm, 1993|Arthropod Manag. Tests19:198-199|1994|10.1093/amt/19.1.198
106262|T||Kaakeh,W., B.L. Reid, G.W. Bennett, and T.J. Bohnert|Residual Activity of Type II Pyrethroids, 1992|Arthropod Manag. Tests19:360-|1994|
106263|T||Kamamoto,Y., S. Makiura, S. Sugihara, Y. Hiasa, M. Arai, and N. Ito|The Inhibitory Effect of Copper on DL-Ethionine Carcinogenesis in Rats|Cancer Res.33:1129-1135|1973|
106264|T||Herbert,D.A.,Jr.|Selected Treatments for Control of Southern Corn Rootworm Injury in Peanut, 1993|Arthropod Manag. Tests19:247-248|1994|10.1093/amt/19.1.247a
106265|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control with Seed Furrow Treatments, 1994|Arthropod Manag. Tests20:99-100|1995|10.1093/amt/20.1.99a
106268|T||Prebble,M.L.|Fall Cankerworm. Alsophila pometaria Harris|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:196-199|1975|
106269|T||LeJeune,R.R.|Douglas-Fir Tussock Moth.  Orgyia pseudotsugata (McDunnough)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:206-207|1975|
106270|T||Longhurst,C., L. Bacci, J. Buendia, C.J. Hatton, J. Petitprez, and P. Tsakonas|Fenazaquin, a Novel Acaricide for the Management of Spider Mites in a Variety of Crops|Br. Crop Prot. Conf. Pests Dis.:51-58|1992|
106271|T||Nakajima,M., M. Nagao, M. Iwasa, J. Monma-Ohtaki, Y. Maeno, H. Koyama, Y. Seko-Nakamura, I. Isobe, and T. Takatori|Purification and Characterization of Diquat (1,1'-Ethylene-2, 2'-Dipyridylium)- Metabolizing Enzyme from Paraquat-Resistant Rat Liver Cytosol|Toxicology154(1-3): 55-66|2000|10.1016/S0300-483X(00)00299-7
106272|T||Delye,C., Y. Menchari, S. Michel, and H. Darmency|Molecular Bases for Sensitivity to Tubulin-Binding Herbicides in Green Foxtail|Plant Physiol.136(4): 3920-3932|2004|10.1104/pp.103.037432
106273|T||Noetzel,D., and J. Miller|Control of Resistant Colorado Potato Beetle in Early Market Potato, Big Lake, MN, 1993|Arthropod Manag. Tests19:115-116|1994|10.1093/amt/19.1.115
106275|T||Van Steenwyk,R.A., and C.F. Fouche|Control of First Generation Codling Moth with Imidan, 1993|Arthropod Manag. Tests19:51-|1994|10.1093/amt/19.1.51
106276|T||Speese III,J.|Foliar Sprays to Control Insects in Wheat, Painter, VA, 1993|Arthropod Manag. Tests20:265-266|1995|10.1093/amt/20.1.265
106277|T||Whalen,J., and M. Spellman|Foliar Sprays on Late Planted Sweet Corn, 1993|Arthropod Manag. Tests19:98-99|1994|
106278|T||Whalen,J., and M. Spellman|Colorado Potato Beetle Control with Foliar Sprays, 1993|Arthropod Manag. Tests19:141-142|1994|10.1093/amt/19.1.141a
106279|A||De Boeck,G., J. Hattink, N.M. Franklin, C.P. Bucking, S. Wood, P.J. Walsh, and C.M. Wood|Copper Toxicity in the Spiny Dogfish (Squalus acanthias):  UREA Loss Contributes to the Osmoregulatory Disturbance|Aquat. Toxicol.84(2): 133-141|2007|10.1016/j.aquatox.2007.04.012
106280|T||Dallegrave,E., F.D. Mantese, R.T. Oliveira, A.J.M. Andrade, P.R. Dalsenter, and A. Langeloh|Pre- and Postnatal Toxicity of the Commercial Glyphosate Formulation in Wistar Rats|Arch. Toxicol.81(9): 665-673|2007|10.1007/s00204-006-0170-5
106281|T||De Jong,F.M.W.|Development of a Field Bioassay for the Side Effects of Pesticides on Decomposition|Ecotoxicol. Environ. Saf.40(1-2): 103-114|1998|10.1006/eesa.1998.1650
106282|T||Miller,R.H., and W.W. Cone|Spray Table Evaluation of Brigade, Pirimor, Admire and Diazinon for Hop Aphid Control, 1994|Arthropod Manag. Tests20:336-337|1995|10.1093/amt/20.1.336
106283|T||Schuster,D.J.|Insect Control on Fresh Market Tomatoes in West-Central Florida, Fall 1993|Arthropod Manag. Tests20:136-137|1995|10.1093/amt/20.1.136
106284|T||Seal,D.R.|Control of Melon Thrips on Pepper, Spring, 1994|Arthropod Manag. Tests20:106-|1995|
106285|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Aphid Control on Flue-Cured Tobacco with Foliar Insecticides, 1993|Arthropod Manag. Tests19:285-|1994|10.1093/amt/19.1.285
106286|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Insect Control with Systemic Insecticides, 1993|Arthropod Manag. Tests19:288-289|1994|10.1093/amt/19.1.288
106287|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Flea Beetle Control with Foliar Insecticides, 1993|Arthropod Manag. Tests19:287-|1994|10.1093/amt/19.1.287
106288|T||Schoonover,J.R., and L.L. Larson|Laboratory Activity of Spinosad on Non-Target Beneficial Arthropods, 1994|Arthropod Manag. Tests20:357-|1995|10.1093/amt/20.1.357
106290|T||Speese III,J.|Foliar Sprays to Control Lepidopterous Pests on Collards, 1993|Arthropod Manag. Tests19:86-87|1994|10.1093/amt/19.1.86
106291|T||Speese III,J.|At-Planting Treatments to Control Insects in Snap Beans, 1993|Arthropod Manag. Tests19:56-57|1994|10.1093/amt/19.1.56
106292|T||Sparks,A.N.Jr., and D.G. Riley|Evaluation of Selected Insecticides for Control of Onion Thrips on Onions, 1993|Arthropod Manag. Tests19:164|1994|10.1093/amt/19.1.164
106293|T||Sparks,A.N.Jr., and J. Anciso|Evaluation of Selected Insecticides for Control of Western Flower Thrips on Onions, 1993|Arthropod Manag. Tests19:165-|1994|10.1093/amt/19.1.165
106294|T||Walgenbach,J.F., and C.R. Palmer|Control of Lepidopterous Pests on Cabbage, 1993|Arthropod Manag. Tests19:76-|1994|10.1093/amt/19.1.76
106295|T||Stansly,P.A., and J.M. Conner|Control of Silverleaf Whitefly and Tomato Pinworm on Staked Tomato with Chemical and Biological Insecticides, Spring, 1994|Arthropod Manag. Tests20:145-146|1995|10.1093/amt/20.1.145
106296|A||Vijayaraghavan,K., J. Jegan, K. Palanivelu, and M. Velan|Biosorption of Copper, Cobalt and Nickel by Marine Green Alga Ulva reticulata in a Packed Column|Chemosphere60(3): 419-426|2005|10.1016/j.chemosphere.2004.12.016
106297|T||Knutson,A.|Control of Greenbug and Yellow Sugarcane Aphids in Seedling Sorghum, 1993|Arthropod Manag. Tests19:264-|1994|10.1093/amt/19.1.264
106298|T||McPherson,R.M., M.L. Padgett, J.D. Taylor, and A.L. Lambert|Controlling Aphids in Georgia Flue-Cured Tobacco with Foliar Insecticides, 1993|Arthropod Manag. Tests19:283-|1994|
106299|T||McPherson,R.M., A.L. Lambert, J.D. Taylor, and M.L. Padgett|Budworm and Aphid Control in Georgia Flue-Cured Tobacco, 1993|Arthropod Manag. Tests19:280-282|1994|10.1093/amt/19.1.280
106300|T||McKenzie,C.L., S. Rowland, and B. Cartwright|Comparison of Foliar, Seed, and Soil Treatments for Reducing Tobacco Thrips Injury on Watermelon, 1993|Arthropod Manag. Tests19:162-163|1994|10.1093/amt/19.1.162
106301|T||Linduska,J.J., M. Ross, K. Mulford, and J. Nottingham|Colorado Potato Beetle Control on Potatoes with Foliar Insecticide Sprays, 1994|Arthropod Manag. Tests20:117-118|1995|
106302|T||Linduska,J.J., and M. Ross|Control of Cabbage Looper, Diamondback Moth and Imported Cabbageworm on Cabbage, 1993|Arthropod Manag. Tests19:65-66|1994|10.1093/amt/19.1.65
106303|T||Leonard,B.R., P.A. Clay, E. Burris, J.B. Graves, and C.A. White|Evaluation of Pirate 3 SC Against Bollworm-Tobacco Budworm in Louisiana, 1993|Arthropod Manag. Tests19:231-|1994|10.1093/amt/19.1.231
106304|T||Leonard,B.R., P.A. Clay, E. Burris, J.B. Graves, and C.A. White|Cotton Aphid Control in the Macon Ridge Region of Louisiana, 1993|Arthropod Manag. Tests19:229-230|1994|10.1093/amt/19.1.229
106305|T||Hunt,K.A., and M.J. Hooper|Development and Optimization of Reactivation Techniques for Carbamate-Inhibited Brain and Plasma Cholinesterases in Birds and Mammals|Anal. Biochem.212(2): 335-343|1993|10.1006/abio.1993.1338
106306|T||Harrington,R., E. Bartlet, D.K. Riley, R.H. Ffrench-Constant, and S.J. Clark|Resurgence of Insecticide-Resistant Myzus persicae on Potatoes Treated Repeatedly with Cypermethrin and Mineral Oil|Crop Prot.8(5): 340-348|1989|10.1016/0261-2194(89)90053-7
106307|T||Liao,C.S., J.H. Yen, and Y.S. Wang|Effects of Endocrine Disruptor Di-n-Butyl Phthalate on the Growth of Bok Choy (Brassica rapa subsp. chinensis)|Chemosphere65(10): 1715-1722|2006|10.1016/j.chemosphere.2006.04.093
106308|A||Chen,W.L., and H.H. Sung|The Toxic Effect of Phthalate Esters on Immune Responses of Giant Freshwater Prawn (Macrobrachium rosenbergii) via Oral Treatment|Aquat. Toxicol.74(2): 160-171|2005|10.1016/j.aquatox.2005.05.008
106309|T||Barber,D.S., S. Stevens, and R.M. LoPachin|Proteomic Analysis of Rat Striatal Synaptosomes During Acrylamide Intoxication at a Low Dose Rate|Toxicol. Sci.100(1): 156-167|2007|10.1093/toxsci/kfm210
106310|T||Sagelsdorff,P., W.K. Lutz, and C. Schlatter|DNA Methylation in Rat Liver by Daminozide, 1,1-Dimethylhydrazine, and Dimethylnitrosamine|Fundam. Appl. Toxicol.11(4): 723-730|1988|10.1016/0272-0590(88)90135-2
106311|T||Srivastava,A.S., Y.K. Mathur, K.D. Upadhyay, S.K. Srivastava, J.P. Srivastava, and R. Anjor|Control of White Grub (Holotrichia consanguinea) (Blanch) in Groundnut Crop by Seed Dressing and Granular Treatment|Entomon11(4): 235-237|1986|
106312|T||Tepper,B.L., B.C. Raju, and C.R. Semer IV|Fusarium Stem Rot of Chrysanthemums (Chrysanthemum x morifolium Ramat.) Caused by Fusarium solani (Mart.) Appel & WR:  In Vitro Fungicide Efficacy and Disease Control Studies|Proc. Annu. Meet. Fla. State Hortic. Soc.96:300-303|1983|
106313|AT||Sen,A., M. Prasad, P. Mitra, and S. Sathpathy|Effect of Carbofuran and Nitrogen on the Performance of Lowland Rice|J. Indian Soc. Soil Sci.42(3): 478-480|1994|
106316|T||Moore,S., O.M.H. De Vries, and P. Tudzynski|The Major Cu,Zn SOD of the Phytopathogen Claviceps purpurea is not Essential for Pathogenicity|Mol. Plant Pathol.3(1): 9-22|2002|10.1046/j.1464-6722.2001.00088.x
106319|T||Rao,A.S., and K.N. Rao|Control of Ipomoea carnea Jacp. with Herbicides|Pesticides 20(11): 52-54|1986|
106321|T||Michan,S., F. Lledias, J.D. Baldwin, D.O. Natvig, and W. Hansberg|Regulation and Oxidation of Two Large Monofunctional Catalases|Free Radic. Biol. Med.33(4): 521-532|2002|10.1016/S0891-5849(02)00909-7
106322|T||Raybourne,R.B., J.W. Bier, D.W. Gaines, F.A. Hines, and L. Friedman|Induction of Ornithine Decarboxylase in the Stomach Mucosa of Swine with NaCl or 12-O-Tetradecanoylphorbol-13-Acetate|Fundam. Appl. Toxicol.13(3): 585-592|1989|10.1016/0272-0590(89)90296-0
106323|A||Madigosky,S.R., X. Alvarez-Hernandez, and J. Glass|Concentrations of Aluminum in Gut Tissue of Crayfish (Procambarus clarkii), Purged in Sodium Chloride|Bull. Environ. Contam. Toxicol.49(4): 626-632|1992|10.1007/BF00196309
106324|A||Hitchcock,D.R., S.E. Law, J. Wu, and P.L. Williams|Determining Toxicity Trends in the Ozonation of Synthetic Dye Wastewaters Using the Nematode Caenorhabditis elegans|Arch. Environ. Contam. Toxicol.34(3): 259-264|1998|10.1007/s002449900315
106325|A||Handy,R.D., and F.B. Eddy|Effects of Inorganic Cations on Na+ Adsorption to the Gill and Body Surface of Rainbow Trout, Oncorhynchus mykiss, in Dilute Solutions|Can. J. Fish. Aquat. Sci.48(10): 1829-1837|1991|10.1139/f91-216
106326|A||Chen,X., T.W. Moon, K.R. Olson, R.A. Dombkowski, and S.F. Perry|The Effects of Salt-Induced Hypertension on alpha1-Adrenoreceptor Expression and Cardiovascular Physiology in the Rainbow Trout (Oncorhynchus mykiss)|Am. J. Physiol., Regul. Integr. Comp. Physiol.293(3): R1384 - R1392|2007|10.1152/ajpregu.00263.2006
106327|A||Bartolome,M.C., and S. Sanchez-Fortun|Effects of Selected Biocides Used in the Disinfection of Cooling Towers on Toxicity and Bioaccumulation in Artemia Larvae|Environ. Toxicol. Chem.24(12): 3137-3142|2005|10.1897/05-077R.1
106328|T||Tanaka,H., A. Hagiwara, Y. Kurata, T. Ogiso, M. Futakuchi, and N. Ito|Thirteen-Week Oral Toxicity Study of Magnesium Chloride in B6C3F1 Mice|Toxicol. Lett.73(1): 25-32|1994|10.1016/0378-4274(94)90185-6
106329|A||Mulholland,M.M., and M.L. Otte|The Effects of Nitrogen Supply and Salinity on [DMSP], [Glycine Betaine] and [Proline] Concentrations in Leaves of Spartina anglica|Aquat. Bot.71(1): 63-70|2001|10.1016/S0304-3770(01)00169-3
106330|A||Celada,J.D., J.M. Carral, M. Saez-Royuela, P.M. Melendre, and A. Aguilera|Effects of Different Antifungal Treatments on Artificial Incubation of the Astacid Crayfish (Pacifastacus leniusculus Dana) Eggs|Aquaculture239(1-4): 249-259|2004|10.1016/j.aquaculture.2004.06.003
106331|T||Wang,Y., Y. Zhao, and X. Chen|Experimental Study on the Estrogen-Like Effect of Boric Acid|Biol. Trace Elem. Res.121(2): 160-170|2008|10.1007/s12011-007-8041-3
106332|T||Zoon,F.C.|Effects of Rhizosphere Fungi and Nematodes on the Actinorhiza and Growth of Hippophae rhamnoides L.|Dev. Agric. Manag.-For. Ecol.23:47-52|1991|10.1016/B978-0-444-88728-3.50010-X
106333|T||Yehia,A.H., D.A.A. Kader, M.I. Abou-Zeid, and N.G. Awad|Pathophysiological Studies of Oxidative and Cell Wall Degrading Enzyme Activities in Tomato Plants Infected with Fusarium oxysporum F. sp. Lycopersici|Egypt. J. Microbiol.27(2): 265-280|1992|
106335|T||Tiwari,R.K.S., S.C. Vyas, and P.P. Shastry|Influence of Plant Age on the Uptake and Translocation of Benzimidazole Fungicides in Groundnut|Indian J. Plant Prot.15(1): 77-79|1987|
106337|T||Gale,G.R., A.B. Smith, L.M. Atkins, E.M.,Jr. Walker, and R.H. Gadsden|Pharmacology of Captan:  Biochemical Effects with Special Reference to Macromolecular Synthesis|Toxicol. Appl. Pharmacol.18:426-441|1971|10.1016/0041-008X(71)90135-9
106340|T||Lei,Y., H. Korpelainen, and C. Li|Physiological and Biochemical Responses to High Mn Concentrations in Two Contrasting Populus cathayana Populations|Chemosphere68(4): 686-694|2007|10.1016/j.chemosphere.2007.01.066
106341|T||Vadhera,I., B.N. Shukla, and J. Bhatt|Non-Target Effect of Fungicides on Rotylenchulus reniformis and Fusarium solani Causing Root Rot of French Bean|Adv. Plant Sci.10(1): 181-185|1997|
106342|T||Minton,E.B.|Effects of Seed Treatment with Fungicides and Systemic Insecticides on Stand of Cotton|Crop Sci.12(1): 93-94|1972|10.2135/cropsci1972.0011183X001200010032x
106343|AT||Reddy,A., and N.V. Krishnaiah|Efficacy and Economics of Rootzone Application of Carbofuran with Liquid Applicator in Irrigated Rice|Indian J. Plant Prot.21(1): 34-38|1993|
106344|A||Hiller,R.G.|Light Driven Scattering Changes and Increased 515 nm Absorbance Changes Associated with Fatty Acid Inhibition of Photosynthesis in Chlorella|Biochim. Biophys. Acta172(3): 546-552|1969|10.1016/0005-2728(69)90150-9
106345|T||Shad,R.A., and S.K. De Datta|Reduced Tillage Techniques for Wetland Rice as Affected by Herbicides|Soil Tillage Res.6(4): 291-303|1986|10.1016/0167-1987(86)90029-2
106346|T||Almeida,J.M., F. Fidalgo, A. Confraria, A. Santos, H. Pires, and I. Santos|Effect of Hydrogen Peroxide on Catalase Gene Expression, Isoform Activities and Levels in Leaves of Potato Sprayed with Homobrassinolide and Ultrastructural Changes in Mesophyll Cells|Funct. Plant Biol.32(8): 707-720|2005|10.1071/FP04235
106347|A||Smital,T., R. Saurborn, and B.K. Hackenberger|Inducibility of the P-Glycoprotein Transport Activity in the Marine Mussel Mytiuls galloprovincialis and the Freshwater Mussel Dreissena polymorpha|Aquat. Toxicol.65:443-465|2003|10.1016/S0166-445X(03)00175-9
106348|T||End,D.W., R.A. Carchman, R. Ameen, and W.L. Dewey|Inhibition of Rat Brain Mitochondrial Calcium Transport by Chlordecone|Toxicol. Appl. Pharmacol.51:189-196|1979|10.1016/0041-008X(79)90021-8
106349|T||Varley,M.A., H. Yang, and R.G. Rodway|Puberty Attainment in Oestradiol-Treated Gilts Given Allyl-Trenbolone and Gonadotrophins|Anim. Prod.48(2): 435-441|1989|
106350|T||Nicholson,R.I., and G. Keri|Antitumour Activity of Folligen, A Novel Gonadotropin-Releasing Hormone Analogue Against DMBA-Induced Tumours in the Rat|Tumour Biol.13(1-2): 44-50|1992|10.1159/000217751
106351|A||Freidig,A.P., H.J.M. Verhaar, and J.L.M. Hermens|Comparing the Potency of Chemicals with Multiple Modes of Action in Aquatic Toxicology:  Acute Toxicity due to Narcosis Versus Reactive Toxicity of Acrylic Compounds|Environ. Sci. Technol.33(17): 3038-3043|1999|10.1021/es990251b
106352|A||Camargo,J.A., A. Alonso, and A. Salamanca|Nitrate Toxicity to Aquatic Animals:  A Review with New Data for Freshwater Invertebrates|Chemosphere58(9): 1255-1267|2005|10.1016/j.chemosphere.2004.10.044
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106556|A||Maunder,R.J., P. Matthiessen, J.P. Sumpter, and T.G. Pottinger|Impaired Reproduction in Three-Spined Sticklebacks Exposed to Ethinyl Estradiol as Juveniles|Biol. Reprod.77(6): 999-1006|2007|10.1095/biolreprod.107.062240
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106570|T||Shah,P.V., H.L. Fisher, N.J. Month, M.R. Sumler, and L.L. Hall|Dermal Penetration of Carbofuran in Young and Adult Fischer 344 Rats|J. Toxicol. Environ. Health22(2): 207-223|1987|10.1080/15287398709531064
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106575|AT||Di,X., Y. Liu, X. Yu, H. Xiao, X. Tian, and R. Gao|Synthesis and Insecticidal Activities of Pyridine Ring Derivatives of Podophyllotoxin|Pestic. Biochem. Physiol.89(1): 81-87|2007|10.1016/j.pestbp.2007.03.003
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106580|T||Hart,A.D.M.|Relationships Between Behavior and the Inhibition of Acetycholinesterase in Birds Exposed to Organophosphorus Pesticides|Environ. Toxicol. Chem.12:321-336|1993|10.1002/etc.5620120215
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106595|T||Ahmad,M.S.A., M. Hussain, R. Saddiq, and A.K. Alvi|Mungbean:  A Nickel Indicator, Accumulator or Excluder?|Bull. Environ. Contam. Toxicol.78(5): 319-324|2007|10.1007/s00128-007-9182-y
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106598|T||Nikodemusz,E., G. Nechay, and R. Imre|Histopathological Changes Resulting by Some Pesticides in the Common Vole (Microtus arvalis pallas)|Acta Vet. Acad. Sci. Hung.29(3): 317-326|1981|
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106600|T||Rai,P.K., and K.P. Singh|Efficacy Certain Oilcake Amendments on Heterodera cajani, Fusarium udum and Associated Wilt of Pigeonpea|Int. J. Trop. Plant Dis.14(1): 51-58|1996|
106601|T||Patel,V.S., and N.D. Desai|Insecticidal Control of Grubs of Rice Root Weevil Echinocnemus oryzae:  Marshall in Gujarat|Pesticides 20(8): 15-16|1986|
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106620|T||Seong,K.H., T. Ogashiwa, T. Matsuo, Y. Fuyama, and T. Aigaki|Application of the Gene Search System to Screen for Longevity Genes in Drosophila|Biogerontology (Dordrecht)2(3): 209-217|2001|10.1023/A:1011517325711
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106629|T||Minakata,K., O. Suzuki, S. Oh-ishi, I. Hayashi, S. Saito, and N. Harada|Diquat Increases Cysteine Proteinase Inhibitors Greatly in Rat Plasma and Tissues|Arch. Toxicol.69(5): 318-321|1995|10.1007/s002040050177
106630|T||Minakata,K., O. Suzuki, S. Saito, and N. Harada|Effect of Dietary Paraquat on a Rat Mutant Unable to Synthesize Ascorbic Acid|Arch. Toxicol.70(3-4): 256-258|1996|10.1007/s002040050270
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106635|T||Tomita,M., T. Nohno, T. Okuyama, S.I. Nishimatsu, and J. Adachi|Paraquat-Induced Gene Expression in Rat Lung Tissues Using a Differential Display Reverse Transcription-Polymerase Chain Reaction|Arch. Toxicol.76(9): 530-537|2002|10.1007/s00204-002-0379-x
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106645|T||Kulkarni,M.S., and M.W. Anderson|Persistence of Benzo(a)pyrene Metabolite:  DNA Adducts in Lung and Liver of Mice|Cancer Res.44:97-101|1984|
106646|T||Marroquin,F., and E. Farber|The Binding of 2-Acetylaminofluorene to Rat Liver Ribonucleic Acid In Vivo|Cancer Res.25:1262-1269|1965|
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106652|T||Shirai,T., S. Fukushima, Y. Tagawa, M. Okumura, and N. Ito|Cell Proliferation Induced by Uracil-Calculi and Subsequent Development of Reversible Papillomatosis in the Rat Urinary Bladder|Cancer Res.49:378-383|1989|
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106659|T||Horton,J.K., J.C. Rosenoir, J.R. Bend, and M.W. Anderson|Quantitation of Benzo(a)pyrene Metabolite:  DNA Adducts in Selected Hepatic and Pulmonary Cell Types Isolated from (3H)Benzo(a)pyrene-Treated Rabbits|Cancer Res.45:3477-3481|1985|
106660|T||Yasuhira,K.|Damage to the Thymus and Other Lymphoid Tissues from 3-Methylcholanthrene, and Subsequent Thymoma Production, in Mice|Cancer Res.24:558-569|1964|
106661|T||Kapitulnik,J., W. Levin, H. Yagi, D.M. Jerina, and A.H. Conney|Lack of Carcinogenicity of 4-,5-,6-,7-,8-,9-, and 10-Hydroxybenzo(a)pyrene on Mouse Skin|Cancer Res.36:3625-3628|1976|
106662|T||Kapitulnik,J., P.G. Wislocki, W. Levin, H. Yagi, D.R. Thakker, H. Akagi, M. Koreeda, D.M. Jerina, and A.H. Conney|Marked Differences in the Carcinogenic Activity of Optically Pure (+)- and (-)-trans-7,8-Dihydroxy-7,8-Dihydrobenzo(a)pyrene in Newborn Mice|Cancer Res.38:2661-2665|1978|
106663|T||Schlede,E., R. Kuntzman, and A.H. Conney|Stimulatory Effect of Benzo(a)pyrene and Phenobarbital Pretreatment on the Biliary Excretion of Benzo(a)pyrene Metabolites in the Rat|Cancer Res.30(12): 2898-2904|1970|
106664|T||Schlede,E., R. Kuntzman, S. Haber, and A.H. Conney|Effect of Enzyme Induction on the Metabolism and Tissue Distribution of Benzo(a)pyrene|Cancer Res.30:2893-2897|1970|
106665|T||Slaga,T.J., W.M. Bracken, A. Viaje, W. Levin, H. Yagi, D.M. Jerina, and A.H. Conney|Comparison of the Tumor-Initiating Activities of Benzo(a)pyrene Arene Oxides and Diol-Epoxides|Cancer Res.37:4130-4133|1977|
106666|A||Yant,P.R.|Movement and Distribution of Mercury in a Model Lake|M.S.Thesis, Purdue University, West Lafayette, IN:85 p.|1974|
106667|T||Appel,M.J., G. Roverts, and R.A. Woutersen|Inhibitory Effects of Micronutrients on Pancreatic Carcinogenesis in Azaserine-Treated Rats|Carcinogenesis12(11): 2157-2161|1991|10.1093/carcin/12.11.2157
106668|A||Davie,J.R., G.P. Delcuve, B.E. Nickel, R. Moirier, and G. Bailey|Reduced Levels of Histones H10 and H1b, and Unaltered Content of Methylated DNA in Rainbow Trout Hepatocellular Carcinoma Chromatin|Cancer Res.47(20): 5407-5410|1987|
106669|T||Ponder,D.L., and N.R. Green|Effects of Dietary Fats and Butylated Hydroxytoluene on Mutagen Activation in Rats|Cancer Res.45(2): 558-560|1985|
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106680|T||Van Remmen,H., W. Qi, M. Sabia, G. Freeman, L. Estlack, H. Yang, Z.M. Guo, T.T. Huang, R. Strong, S. Lee, C.J. Epstein,|Multiple Deficiencies in Antioxidant Enzymes in Mice Result in a Compound Increase in Sensitivity to Oxidative Stress|Free Radic. Biol. Med.36(12): 1625-1634|2004|10.1016/j.freeradbiomed.2004.03.016
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106753|T||Mishra,A., S. Khare, P.K. Trivedi, and P. Nath|Effect of Ethylene, 1-MCP, ABA and IAA on Break Strength, Cellulase and Polygalacturonase Activities During Cotton Leaf Abscission|S. Afr. J. Bot.74:282-287|2008|10.1016/j.sajb.2007.12.001
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106858|T||Farina,C., M. Pinza, A. Gamba, and G. Pifferi|New Antisecretory and Antiulcer Alkoxythiobenzamides.  II|Eur. J. Med. Chem. Chim. Ther.14(1): 27-31|1979|
106859|T||Kirkpatrick,R.L., and H.B. Gillenwater|Toxicity of Selected Dusts and Aerosols to Three Species of Stored-Product Insects|J. Ga. Entomol. Soc.14(4): 334-339|1979|
106860|T||Naseema,A., and K.I. Wilson|Control of Fungal Deterioration in Oil Cakes Using Chemicals|J. Vet. Anim. Sci.24(1): 13-16|1993|
106861|A||Singhal,R.N., S. Jeet, and R.W. Davies|Chemotherapy of Six Ectoparasitic Diseases of Cultured Fish|Aquaculture54(3): 165-171|1986|10.1016/0044-8486(86)90325-X
106862|T||Harrouk,W.A., K.E. Wheeler, G.L. Kimmel, K.A. Hogan, and C.A. Kimmel|Effects of Hyperthermia and Boric Acid on Skeletal Development in Rat Embryos|Birth Defects Res. B Dev. Reprod. Toxicol.74(3): 268-276|2005|10.1002/bdrb.20047
106863|A||Barata,C., D.J. Baird, A.J.A. Nogueira, A.R. Agra, and A.M.V.M. Soares|Life-History Responses of Daphnia magna Straus to Binary Mixtures of Toxic Substances:  Pharmacological Versus Ecotoxicological Modes of Action|Aquat. Toxicol.84(4): 439-449|2007|10.1016/j.aquatox.2007.07.004
106864|T||Lambert,G.R., W.T. Padgett, M.H. George, K.T. Kitchin, and S. Nesnow|Quantitative Analysis of Alachlor Protein Adducts by Gas Chromatography-Mass Spectrometry|Anal. Biochem.268(2): 289-296|1999|10.1006/abio.1998.3060
106865|T||Sipes,B.S., and D.P. Schmitt|Development of Heterodera glycines as Affected by Alachlor and Fenamiphos|J. Nematol.21(1): 24-32|1989|
106866|A||Eckhert,C.D.|Boron Stimulates Embryonic Trout Growth|J. Nutr.128(12): 2488-2493|1998|10.1093/jn/128.12.2488
106867|T||Sylvain,I.C., J.P. Berry, and P. Galle|Ultrastructural Apoptotic Lesions Induced in Rat Thymocytes After Borax Ingestion|Anticancer Res.18(4a): 2455-2461|1998|
106868|T||Littlemore,J., E.C. Winston, C.J. Howitt, P. O'Farrell, and D.C. Wiffen|Improved Methods for Zinc and Boron Application to Mango (Mangifera indica L.) cv. Kensington Pride in the Mareeba-Dimbulah District of North Queensland|Aust. J. Exp. Agric.31(1): 117-121|1991|10.1071/EA9910117
106869|T||Arnold,R.E., M.E. Hodson, and C.J. Langdon|A Cu Tolerant Population of the Earthworm Dendrodrilus rubidus (Savigny, 1862) at Coniston Copper Mines, Cumbria, UK|Environ. Pollut.152(3): 713-722|2008|10.1016/j.envpol.2007.06.048
106870|A||Gama-Flores,J.L., S.S.S. Sarma, and S. Nandini|Interaction Among Copper Toxicity, Temperature and Salinity on the Population Dynamics of Brachionus rotundiformis (Rotifera)|Hydrobiologia (Multiple Languages)546(1): 559-568|2005|10.1007/s10750-005-4300-5
106872|T||Maling,H.M., W. Saul, M.A. Williams, E.A.B. Brown, and J.R. Gillette|Reduced Body Clearance as the Major Mechanism of the Potentiation by beta2-Adrenergic Agonists of Paraquat Lethality in Rats|Toxicol. Appl. Pharmacol.43(1): 57-72|1978|10.1016/S0041-008X(78)80032-5
106873|T||Harris,K.C., E. Bielefeld, B.H. Hu, and D. Henderson|Increased Resistance to Free Radical Damage Induced by Low-Level Sound Conditioning|Hear. Res.213(1-2): 118-129|2006|10.1016/j.heares.2005.11.012
106875|A||Velasco-Santamaria,Y.M., and P.E. Cruz-Casallas|Behavioural and Gill Histopathological Effects of Acute Exposure to Sodium Chloride in Moneda (Metynnis orinocensis)|Environ. Toxicol. Pharmacol.25(3): 365-372|2008|10.1016/j.etap.2007.12.002
106877|T||Cabral,R., K. Hakoi, T. Hoshiya, R. Hasegawa, and N. Ito|Lack of Carcinogenicity of Daminozide, Alone or in Combination with Its Contaminant 1,1-Dimethylhydrazine, in a Medium-Term Bioassay|Teratog. Carcinog. Mutagen.15(6): 307-312|1995|10.1002/tcm.1770150607
106878|A||Erdogan,O., M. Atamanalp, T. Sisman, E. Aksakal, and G. Alak|Effects of 2,2-Dichlorovinyl Dimethyl Phosphate (DDVP) on Hsp70 Gene Expression in Rainbow Trout|Isr. J. Aquacult. Bamidgeh59(4): 230-234|2007|
106879|T||Pandita,T.K.|Assessment of the Mutagenic Potential of a Fungicide Bavistin Using Multiple Assays|Mutat. Res.204(4): 627-643|1988|10.1016/0165-1218(88)90066-3
106880|T||Pant,N., R. Shankar, and S.P. Srivastava|In Utero and Lactational Exposure of Carbofuran to Rats:  Effect on Testes and Sperm|Hum. Exp. Toxicol.16(5): 267-272|1997|10.1177/096032719701600506
106881|T||Amer,S.M., E.I. Aboul-Ela, and K.M. El-Sherbeny|Induction of Micronuclei in Mouse Bone-Marrow by the Carbamate Insecticide Carbofuran|Egypt. J. Pharm. Sci.38(4-6): 487-494|1997|
106882|T||Jayatunga,Y.N.A., C.D. Dangalle, and W.D. Ratnasooriya|Hazardous Effects of Carbofuran on Pregnancy Outcome of Rats|Med. Sci. Res.26(1): 33-37|1998|
106883|T||Mahmoud,A.L.E., and S.A. Omar|Growth, Cell Wall-Degrading Enzymes and Aflatoxin Production by Lemon-Rotting Fungi in Relation to Insecticide Application|Microbiol. Res.150(2): 195-200|1995|10.1016/S0944-5013(11)80056-X
106884|T||Musau,D.M., and W.H. Parry|Comparison of the Potential of Organophosphorus Insecticides and Soaps in Conifer Aphid Control|Crop Prot.7(4): 267-272|1988|10.1016/0261-2194(88)90048-8
106885|T||Uehara,S., T. Hiromori, N. Isobe, T. Suzuki, T. Kato, and J. Miyamoto|Studies on the Therapeutic Effect of 2-Pyridine Aldoxime Methiodide (2-PAM) in Mammals Following Organophosphorus Compound-Poisoning (Report III):  Distribution and Antidotal Effect of 2-PAM in Rats|J. Toxicol. Sci.18(4): 265-275|1993|10.2131/jts.18.4_265
106886|T||Bhatia,A., H. Thind, and J. Kaur|Effect of Endosulfan on Numerical Values and Functions of Mice Cells Involved in Immune Response|J. Ecotoxicol. Environ. Monit.8(3): 257-261|1998|
106887|T||Das,S.R., and N.N. Mohanty|Studies on the Chemical Control of Stem-Rot Disease of Jute|Indian J. Plant Pathol.3(2): 210-212|1985|
106888|T||Utomo,H.S., I. Wenefrida, M.M. Meche, and J.L. Nash|Synthetic Seed as a Potential Direct Delivery System of Mass Produced Somatic Embryos in the Coastal Marsh Plant Smooth Cordgrass (Spartina alterniflora)|Plant Cell Tissue Organ Cult.92(3): 281-291|2008|10.1007/s11240-007-9334-0
106889|T||Vankova,J., E. Vobrazkova, and K. Samsinak|The Control of Monomorium pharaonis (Hymenoptera:  Formicidae) with Bacillus thuringiensis|J. Invertebr. Pathol.26(2): 159-163|1975|10.1016/0022-2011(75)90044-0
106890|T||Wilmington Chemical Corp.|Chronic Dermal Toxicity of Epoxy Resins I.  Skin Carcinogenic Potency and General Toxicity with Cover Letter Dated 0471381|EPA/OTS Doc.#88-8100212:201 p.|1981|
106891|T||Schuur,A.G., F.M. Boekhorst, A. Brouwer, and T.J. Visser|Extrathyroidal Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Thyroid Hormone Turnover in Male Sprague-Dawley Rats|Endocrinology138(9): 3727-3734|1997|10.1210/endo.138.9.5386
106892|T||Zhang,W., and H. Jia|Effect and Mechanism of Cadmium on the Progesterone Synthesis of Ovaries|Toxicology239(3): 204-212|2007|10.1016/j.tox.2007.07.007
106893|T||Kim,H.S., S.Y. Han, T.S. Kim, S.J. Kwack, R.D. Lee, I.Y. Kim, J.H. Seok, B.M. Lee, S.D. Yoo, and K.L. Park|No Androgenic/Anti-Androgenic Effects of Bisphenol-A in Hershberger Assay Using Immature Castrated Rats|Toxicol. Lett.135(1-2): 111-123|2002|10.1016/S0378-4274(02)00130-3
106894|T||Mikkila,T.F.M., J. Toppari, and J. Paranko|Effects of Neonatal Exposure to 4-Tert-Octylphenol, Diethylstilbestrol, and Flutamide on Steroidogenesis in Infantile Rat Testis|Toxicol. Sci.91(2): 456-466|2006|10.1093/toxsci/kfj156
106895|T||Burgess,L.H., and R.J. Handa|Chronic Estrogen-Induced Alterations in Adrenocorticotropin and Corticosterone Secretion, and Glucocorticoid Receptor-Mediated Functions in Female Rats|Endocrinology131(3): 1261-1269|1992|10.1210/endo.131.3.1324155
106896|A||Forbes,V.E., J. Aufderheide, R. Warbritton, N. Van der Hoeven, and N. Caspers|Does Bisphenol A Induce Superfeminization in Marisa cornuarietis? Part II: Toxicity Test Results and Requirements for Statistical Power Analyses|Ecotoxicol. Environ. Saf.66(3): 319-325|2007|10.1016/j.ecoenv.2006.09.001
106897|A||Licht,O., D. Jungmann, V. Ladewig, K.U. Ludwichowski, and R. Nagel|Bisphenol-A in Artificial Indoor Streams:  I.  Fate and Effects on Aufwuchs|Ecotoxicology13(7): 657-666|2004|10.1007/s10646-003-4426-z
106898|T||Patisaul,H.B., A.E. Fortino, and E.K. Polston|Differential Disruption of Nuclear Volume and Neuronal Phenotype in the Preoptic Area by Neonatal Exposure to Genistein and Bisphenol-A|Neurotoxicology28(1): 1-12|2007|10.1016/j.neuro.2006.10.001
106899|T||Morreale de Escobar,G., R. Calvo, F. Escobar del Rey, and M.J. Obregon|Differential Effects of Thyroid Hormones on Growth and Thyrotropic Hormones in Rat Fetuses near Term|Endocrinology132(5): 2056-2064|1993|10.1210/endo.132.5.8477656
106900|T||Pereira,C., K. Mapuskar, and C.V. Rao|Effect of Diethyl Phthalate on Rat Testicular Antioxidant System: A Dose-Dependent Toxicity Study|Pestic. Biochem. Physiol.90(1): 52-57|2008|10.1016/j.pestbp.2007.07.008
106901|T||Quinn,M.J.,Jr., C.L. Summitt, K. Burrell, and M.A. Ottinger|Fluctuating Asymmetry and Growth as Biomarkers for Exposure to Androgen Disrupting Chemicals in Japanese Quail|Ecotoxicology14(6): 637-643|2005|10.1007/s10646-005-0013-9
106902|A||Bjerregaard,P., S.B. Andersen, K.L. Pedersen, S.N. Pedersen, and B. Korsgaard|Orally Administered Bisphenol A in Rainbow Trout (Oncorhynchus mykiss):  Estrogenicity, Metabolism, and Retention|Environ. Toxicol. Chem.26(9): 1910-1915|2007|10.1897/06-645R.1
106903|T||Bennett,L.M., K.A. McAllister, J. Malphurs, T. Ward, N.K. Collins, J.C. Seely, L.C. Gowen, B.H. Koller, B.J. Davis, and|Mice Heterozygous for a Brca1 or Brca2 Mutation Display Distinct Mammary Gland and Ovarian Phenotypes in Response to Diethylstilbestrol|Cancer Res.60:3461-3469|2000|
106904|A||Andrew,M.N., R.H. Dunstan, W.A. O'Connor, L. Van Zwieten, B. Nixon, and G.R. MacFarlane|Effects of 4-Nonylphenol and 17alpha-Ethynylestradiol Exposure in the Sydney Rock Oyster, Saccostrea glomerata:  Vitellogenin Induction and Gonadal Development|Aquat. Toxicol.88(1): 39-47|2008|10.1016/j.aquatox.2008.03.003
106905|A||Allen,Y.T., I. Katsiadaki, T.G. Pottinger, C. Jolly, P. Matthiessen, I. Mayer, A. Smith, A.P. Scott, P. Eccles, M.B. Sa|Intercalibration Exercise Using a Stickleback Endocrine Disrupter Screening Assay|Environ. Toxicol. Chem.27(2): 404-412|2008|10.1897/07-228R.1
106906|T||Lafuente,A., E. Alvarez-Demanuel, N. Marquez, and A.I. Esquifino|Pubertal Dependent Effects of Cadmium on Episodic Prolactin Secretion in Male Rats|Arch. Toxicol.73(1): 60-63|1999|10.1007/s002040050587
106907|T||Scott-Fordsmand,J.J., and P.H. Krogh|The Influence of Application Form on the Toxicity of Nonylphenol to Folsomia fimetaria (Collembola:  Isotomidae)|Ecotoxicol. Environ. Saf.58(3): 294-299|2004|10.1016/S0147-6513(03)00023-X
106908|T||Weiland,N.G.|Estradiol Selectively Regulates Agonist Binding Sites on the N-Methyl-D-Aspartate Receptor Complex in the CA1 Region of the Hippocampus|Endocrinology131(2): 662-668|1992|
106909|T||Grote,K., A.J.M. Andrade, S.W. Grande, S.N. Kuriyama, C.E. Talsness, K.E. Appel, and I. Chahoud|Effects of Peripubertal Exposure to Triphenyltin on Female Sexual Development of the Rat|Toxicology222(1-2): 17-24|2006|10.1016/j.tox.2006.01.008
106911|T||Chitra,K.C., C. Latchoumycandane, and P.P. Mathur|Induction of Oxidative Stress by Bisphenol A in the Epididymal Sperm of Rats|Toxicology185(1/2): 119-127|2003|10.1016/S0300-483X(02)00597-8
106912|T||Yoshida,M., S.I. Katsuda, J. Ando, H. Kuroda, M. Takahashi, and A. Maekawa|Subcutaneous Treatment of p-tert-Octylphenol Exerts Estrogenic Activity on the Female Reproductive Tract in Normal Cycling Rats of Two Different Strains|Toxicol. Lett.116(1-2): 89-101|2000|10.1016/S0378-4274(00)00207-1
106913|T||Yamasaki,K., M. Takeyoshi, S. Noda, and M. Takatsuki|Changes of Serum alpha2u-Globulin in the Subacute Oral Toxicity Study of Ethynyl Estradiol and Bisphenol A Based on the Draft Protocol for the `Enhanced OECD Test Guideline No. 407'|Toxicology176(1/2): 101-112|2002|10.1016/S0300-483X(02)00160-9
106914|T||Shimada,H., R.M. Bare, J.F. Hochadel, and M.P. Waalkes|Testosterone Pretreatment Mitigates Cadmium Toxicity in Male C57 Mice but not in C3H Mice|Toxicology116(1-3): 183-191|1997|10.1016/S0300-483X(96)03544-5
106915|T||Nagahori,H., K. Komai, Y. Tomigahara, K. Saito, N. Isobe, and H. Kaneko|Initial Induction and Subsequent Reduction of alpha2u-Globulin in Urine and Serum of Mature Male Rats After Repeated Intraperitoneal Injections of (Anti)Estrogen|Toxicology162(2): 73-80|2001|10.1016/S0300-483X(00)00465-0
106917|T||Kato,N., M. Shibutani, H. Takagi, C. Uneyama, K.Y. Lee, S. Takigami, K. Mashima, and M. Hirose|Gene Expression Profile in the Livers of Rats Orally Administered Ethinylestradiol for 28 Days Using a Microarray Technique|Toxicology200(2-3): 179-192|2004|10.1016/j.tox.2004.03.008
106918|T||Karrow,N.A., T.L. Guo, K.B. Delclos, R.R. Newbold, C. Weis, D.R. Germolec, K.L.,Jr. White, and J.A. McCay|Nonylphenol Alters the Activity of Splenic NK Cells and the Numbers of Leukocyte Subpopulations in Sprague-Dawley Rats: A Two-Generation Feeding Study|Toxicology196(3): 237-245|2004|10.1016/j.tox.2003.11.009
106920|T||Rajini,P.S., and M.K. Krishnakumari|Toxicity of Pirimiphos-Methyl:  II.  Effect of Dietary Feeding on Blood and Urine Constituents in Albino Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes23(2): 145-158|1988|
106921|T||Rajini,P.S., S. Viswanatha, and M.K. Krishnakumari|Effect of Pirimiphos-Methyl, an Organophosphorus Insecticide on Hematological Parameters in Albino Rats|Indian J. Exp. Biol.25(3): 190-193|1987|
106922|T||Olajos,E.J., and I. Rosenblum|Membrane-Bound and Soluble Esterase Activities in Various Hen Brain Regions After Diisopropyl Phosphorofluoridate and Trichlorfon Treatment|Neurotoxicology2(3): 463-470|1981|
106923|T||Berge,G.N., F. Fonnum, and P. Brodal|Neurotoxic Effects of Prenatal Trichlorfon Administration in Pigs|Acta Vet. Scand.28(3/4): 321-332|1987|10.1186/BF03548600
106924|T||Berge,G.N., F. Fonnum, N.E. Soli, and E. Sognen|Neurotoxicological Examination of the Piglet Brain After Prenatal and Postnatal Exposure to Trichlorfon|Acta Vet. Scand.28(3-4): 313-320|1987|10.1186/BF03548599
106926|T||Jones,P.B.C., and A.J.W. Hsueh|Regulation of Ovarian 20alpha-Hydroxysteroid Dehydrogenase by Gonadotropin Releasing Hormone and Its Antagonist In Vitro and In Vivo|J. Steroid Biochem.14(11): 1169-1175|1981|10.1016/0022-4731(81)90047-9
106927|AT||Licht,P., B.R. McCreery, and R. Barnes|Relation Between Acute Pituitary Responsiveness to Gonadotropin Releasing Hormone (GnRH) and the Ovarian Cycle in the Bullfrog, Rana catesbeiana|Gen. Comp. Endocrinol.51(1): 148-153|1983|10.1016/0016-6480(83)90107-7
106928|A||Brown,C.L., E.G. Grau, and M.H. Stetson|Functional Specificity of Gonadotropin and Thyrotropin in Fundulus heteroclitus|Gen. Comp. Endocrinol.58(2): 252-258|1985|10.1016/0016-6480(85)90341-7
106929|A||Sherwood,N.M., and B. Harvey|Topical Absorption of Gonadotropin-Releasing Hormone (GnRH) in Goldfish|Gen. Comp. Endocrinol.61(1): 13-19|1986|10.1016/0016-6480(86)90244-3
106930|A||Thornton,V.F., and I.I. Geschwind|Hypothalamic Control of Gonadotropin Release in Amphibia:  Evidence from Studies of Gonadotropin Release In Vitro and In Vivo|Gen. Comp. Endocrinol.23(3): 294-301|1974|10.1016/0016-6480(74)90073-2
106931|T||Shiokawa,K., K. Moriya, K. Shibuya, Y. Hattori, S.I. Tsuboi, and S. Kagabu|3-(6-Chloronicotinyl)-2-Nitromethylene-Thiazolidine as a New Class of Insecticide Acting Against Lepidoptera Species|Biosci. Biotechnol. Biochem.56(8): 1364-1365|1992|10.1271/bbb.56.1364
106932|T||Gallais,A.|Comparative Study of the Influence of Aminoglycoside Antibiotics on the Activity of the Horizontal Semicircular Canal in the Frog|Acta Oto-Laryngol.88(1-2): 88-96|1979|10.3109/00016487909137144
106933|T||Spoendlin,H.|Acute Streptomycin Intoxication of the Labyrinth|Acta Oto-Laryngol.63(2): 26-38|1967|10.3109/00016486709128796
106934|T||Palmer,J.M.|The Effect of Streptomycin on the Increased Rate of Metabolism of Phosphate, Induced by Prolonged Washing, in Sections of Etiolated Pea Stems|Biochim. Biophys. Acta90(1): 186-189|1964|10.1016/0304-4165(64)90138-2
106935|A||Scher,S.|Evidence for the Non-Essentiality of Translation Errors (Misreading) in Mutagenesis by Aminoglycoside Antibiotics|Biochem. Biophys. Res. Commun.22(5): 572-578|1966|10.1016/0006-291X(66)90313-5
106936|T||Mascherpa,P., and F. Berte|First Studies on Foetal Organotropism of Cephalosporin, Streptomycin and Rifamycin SV Under Physiological Conditions|Biochem. Pharmacol.15(2): 200-204|1966|10.1016/0006-2952(66)90062-1
106937|A||Kirk,J.T.O.|Effect of Streptomycin on Greening and Biosynthesis in Euglena gracilis|Biochim. Biophys. Acta56:139-151|1962|10.1016/0006-3002(62)90534-6
106938|A||Kirk,J.T.O.|Effect of Streptomycin on (14C)Leucine Incorporation in Euglena gracilis|Biochim. Biophys. Acta59(2): 476-479|1962|10.1016/0006-3002(62)90201-9
106939|A||Abraham,A., and B.K. Bachhawat|Effect of Light and Streptomycin on the Incorporation of Sulfate into Sulfolipids in Euglena gracilis|Biochim. Biophys. Acta70:104-106|1963|10.1016/0006-3002(63)90729-7
106940|T||Kadir,A., M. Suzuki, K. Yajin, and Y. Harada|Effect of Streptomycin Intoxication on Vestibular Nerve Regeneration and Posture Recovery|Acta Oto-Laryngol.117(3): 376-381|1997|10.3109/00016489709113409
106941|T||Nakagawa,T., H. Yamane, M. Takayama, K. Sunami, and Y. Nakai|Dose-Dependent Response of Vestibular Hair Cells of Guinea Pigs Following Streptomycin Ototoxiation|Acta Oto-Laryngol.118(4): 530-533|1998|10.1080/00016489850154676
106942|T||Meza,G., I. Lopez, M.A. Paredes, Y. Penaloza, and A. Poblano|Cellular Target of Streptomycin in the Internal Ear|Acta Oto-Laryngol.107(5-6): 406-411|1989|10.3109/00016488909127530
106943|AT||Oglesby,R.T.|Examination of Certain Biochemical Responses of Fish to In Vivo Chlorinated Hydrocarbon Insecticide Exposure in Water|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:118 p.|1962|
106944|T||Satomi,Y., K. Sakaguchi, Y. Kasahara, and F. Akahori|Novel and Extensive Aspects of Paraquat-Induced Pulmonary Fibrogenesis: Comparative and Time-Course Microarray Analyses in Fibrogenic and Non-Fibrogenic Rats|J. Toxicol. Sci.32(5): 529-553|2007|10.2131/jts.32.529
106945|T||Khazaeli,A.A., and J.W. Curtsinger|Genetic Analysis of Extended Lifespan in Drosophila melanogaster III.  On the Relationship Between Artificially Selected and Wild Stocks|Genetica ('S-Gravenhage)109(3): 245-253|2000|
106946|A||Tsuji,N., N. Hirayanagi, M. Okada, H. Miyasaka, K. Hirata, M.H. Zenk, and K. Miyamoto|Enhancement of Tolerance to Heavy Metals and Oxidative Stress in Dunaliella tertiolecta by Zn-Induced Phytochelatin Synthesis|Biochem. Biophys. Res. Commun.293(1): 653-659|2002|10.1016/S0006-291X(02)00265-6
106949|A||Mishra,S.R., and S.C. Sabat|Photosynthetic Electron Transport in Hydrilla verticillata (L.) is Insensitive to Methylviologen (Paraquat) Inhibition|Biochem. Biophys. Res. Commun.212(1): 132-137|1995|10.1006/bbrc.1995.1946
106950|T||Minakata,K., O. Suzuki, S.I. Saito, and N. Harada|Dietary Mg and/or K Restriction Enhances Paraquat Toxicity in Rats|Arch. Toxicol.72(7): 450-453|1998|10.1007/s002040050526
106953|A||Kobayashi,M., T. Kakizono, N. Nishio, S. Nagai, Y. Kurimura, and Y. Tsuji|Antioxidant Role of Astaxanthin in the Green Alga Haematococcus pluvialis|Appl. Microbiol. Biotechnol.48(3): 351-356|1997|10.1007/s002530051061
106954|T||Hatterman-Valenti,H., M.D.K. Owen, and N.E. Christians|Ground Ivy (Glechoma hederacea L.) Control in a Kentucky Bluegrass Turfgrass with Borax|J. Environ. Hortic.14(2): 101-104|1996|10.24266/0738-2898-14.2.101
106958|T||Agarwal,D.K., P.K. Seth, and P.K. Gupta|Effect of Endosulfan on Drug Metabolizing Enzymes and Lipid Peroxidation in Rat|J. Environ. Sci. Health C. Environ. Carcinog. Ecotoxicol. Rev.13(1): 49-62|1978|
106959|A||Megharaj,M., H.W. Pearson, and K. Venkateswarlu|Toxicity of Carbofuran to Soil Isolates of Chlorella vulgaris, Nostoc linckia and N. muscorum|Appl. Microbiol. Biotechnol.39(4-5): 644-648|1993|10.1007/BF00205068
106960|T||Kremer,R.J., and L.K. Schulte|Influence of Chemical Treatment and Fusarium oxysporum on Velvetleaf (Abutilon theophrasti)|Weed Technol.3(2): 369-374|1989|10.1017/S0890037X00031973
106961|T||Parmelee,R.W., M.H. Beare, W. Cheng, P.F. Hendrix, S.J. Rider, D.A.,Jr. Crossley, and D.C. Coleman|Earthworms and Enchytraeids in Conventional and No-Tillage Agroecosystems:  A Biocide Approach to Assess Their Role in Organic Matter Breakdown|Biol. Fertil. Soils10(1): 1-10|1990|10.1007/BF00336117
106962|T||Ingham,E.R., D.C. Coleman, and J.C. Moore|An Analysis of Food-Web Structure and Function in a Shortgrass Prairie, a Mountain Meadow, and a Lodgepole Pine Forest|Biol. Fertil. Soils8(1): 29-37|1989|10.1007/BF00260513
106963|T||Schoonhoven,A.V., and W.V. Dam|Control of Zabrotes subfasciatus (Boh.) (Coleoptera: Bruchidae) with Seed Protectant Fungicides|J. Stored Prod. Res.18(4): 143-146|1982|10.1016/0022-474X(82)90023-6
106964|T||Reuveni,M., and R. Reuveni|Efficacy of Foliar Application of Phosphates in Controlling Powdery Mildew Fungus on Field-Grown Winegrapes:  Effects on Cluster Yield and Peroxidase Activity in Berries|J. Phytopathol.143(1): 21-25|1995|10.1111/j.1439-0434.1995.tb00194.x
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106966|T||Mishra,R.C., J. Kumar, and J.K. Gupta|A New Approach to the Control of Predatory Wasps (Vespa spp.) of the Honeybee (Apis mellifera L.)|J. Apic. Res.28(3): 126-130|1989|10.1080/00218839.1989.11100833
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106971|T||Pysek,P.|Seasonal Changes in Response of Senecio ovatus to Grazing by the Chrysomelid Beetle Chrysomela speciosissima|Oceanologia (Wroc.)91(4): 596-602|1992|
106972|A||Mane,U.H., and S.R. Akarte|Effect of Pesticides on the Gill Ciliary Activities of Three Freshwater Lamellibranchs|J. Environ. Biol.9(3): 239-247|1988|
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106974|A||Rath,B., and S.P. Adhikary|Toxicity of Furadan to Several N2-Fixing Cyanobacteria from the Rice Fields of Coastal Orissa, India|Trop. Agric.72(1): 80-83|1995|
106975|T||Ratea,E., G. Filipescu, S. Constantinescu, and G. Rotaru|Cytochrome P-450 Content and Activity of Some Microsomal Enzymes in the Liver of Rats Treated with Carbofuran|Rev. Roum. Biochim.23(3): 223-228|1986|
106976|T||Khaleeq,B., and A. Klatt|Effects of Various Fungicides and Insecticides on Emergence of Three Wheat Cultivars|Agron. J.78(6): 967-970|1986|10.2134/agronj1986.00021962007800060007x
106977|T||Gupta,M., G.K. Bagchi, S.D. Gupta, D. Sasmal, T. Chatterjee, and S.N. Dey|Changes of Acetylcholine, Catecholamines and Amino Acid in Mice Brain Following Treatment with Nuvacron and Furadan|Toxicology30(2): 171-175|1984|10.1016/0300-483X(84)90127-6
106978|T||Gupta,M., G. Bagchi, S. Bandyopadhyay, D. Sasmal, T. Chatterjee, and S.N. Dey|Hematological Changes Produced in Mice by Nuvacron or Furadan|Toxicology25(2/3): 255-260|1982|10.1016/0300-483X(82)90034-8
106979|T||Nan,Z.B., R.A. Skipp, and P.G. Long|Use of Fungicides to Assess the Effects of Root Disease:  Effects of Prochloraz on Red Clover and Microbial Populations in Soil and Roots|Soil Biol. Biochem.23(8): 743-750|1991|10.1016/0038-0717(91)90144-9
106980|T||Schweiger,P.F., N.H. Spliid, and I. Jakobsen|Fungicide Application and Phosphorus Uptake by Hyphae of Arbuscular Mycorrhizal Fungi into Field-Grown Peas|Soil Biol. Biochem.33(9): 1231-1237|2001|10.1016/S0038-0717(01)00028-1
106981|A||Mendes,C.D., J.L. Pereira, and F. Goncalves|Acute and Chronic Effects of Stam Novel Flo (Commercial Solution) and Its Active Ingredient Propanil in Daphnia magna|Fresenius Environ. Bull.16(5): 537-542|2007|
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106986|T||Garcia,G.B., C. Konjuh, R.O. Duffard, and A.M. Evangelista De Duffard|Dopamine-beta-Hydroxylase Immunohistochemical Study in the Locus Coeruleus of Neonate Rats Exposed to 2,4-Dichlorophenoxyacetic Acid Through Mother's Milk|Drug Chem. Toxicol.29(4): 435-442|2006|10.1080/01480540600838058
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106994|T||Breza,J.M., K.S. Curtis, and R.J. Contreras|Monosodium Glutamate but not Linoleic Acid Differentially Activates Gustatory Neurons in the Rat Geniculate Ganglion|Chem. Senses32(9): 833-846|2007|10.1093/chemse/bjm052
106995|A||Hong,D.D., H.M. Hien, and P.N. Son|Effect of Irradiation on the Protein Profile, Protein Content, and Quality of Agar from Gracilaria asiatica Zhang et Xia (Rhodophyta)|J. Appl. Phycol.19(6): 809-815|2007|10.1007/s10811-007-9213-4
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106997|T||Capasso,R., A.A. Izzo, F. Borrelli, A. Russo, L. Sautebin, A. Pinto, F. Capasso, and N. Mascolo|Effect of Piperine, the Active Ingredient of Black Pepper, on Intestinal Secretion in Mice|Life Sci.71(19): 2311-2317|2002|10.1016/S0024-3205(02)02019-2
106998|T||Chuang,Y.C., M.O. Fraser, Y. Yu, J.M. Beckel, S. Seki, Y. Nakanishi, H. Yokoyama, M.B. Chancellor, N. Yoshimura, and W.|Analysis of the Afferent Limb of the Vesicovascular Reflex Using Neurotoxins, Resiniferatoxin and Capsaicin|Am. J. Physiol., Regul. Integr. Comp. Physiol.281(4): R1302 - R1310|2001|10.1152/ajpregu.2001.281.4.R1302
106999|T||Dai,Y., K. Iwata, T. Fukuoka, E. Kondo, A. Tokunaga, H. Yamanaka, T. Tachibana, Y. Liu, and K. Noguchi|Phosphorylation of Extracellular Signal-Regulated Kinase in Primary Afferent Neurons by Noxious Stimuli and Its Involvement in Peripheral Sensitization|J. Neurosci.22(17): 7737-7745|2002|10.1523/JNEUROSCI.22-17-07737.2002
107000|T||Deng,P.Y., F. Ye, W.J. Cai, H.W. Deng, and Y.J. Li|Role of Calcitonin Gene-Related Peptide in the Phenol-Induced Neurogenic Hypertension in Rats|Regulatory Pept.119(3): 155-161|2004|10.1016/j.regpep.2004.01.011
107001|A||Sharma,K.P., S. Sharma, P.K. Singh, S. Kumar, R. Grover, and P.K. Sharma|A Comparative Study on Characterization of Textile Wastewaters (Untreated and Treated) Toxicity by Chemical and Biological Tests|Chemosphere69(1): 48-54|2007|10.1016/j.chemosphere.2007.04.086
107002|T||Carlson,G.P., and R.G. Tardiff|Effect of 1,4-Dibromobenzene and 1,2,4-Tribromobenzene on Xenobiotic Metabolism|Toxicol. Appl. Pharmacol.42(1): 189-196|1977|10.1016/0041-008X(77)90209-5
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107005|T||Theradimani,M., S.J. Hepziba, and K. Gangadharan|Effect of Biocontrol Agents on Seed Borne Pathogens of Zea mays|In: K.Manibhushanrao and A.Manhadevan (Eds.), Current Trend in Life Sciences, Vol.21, Symp.on Recent Developments in Biocontrol of Plant Pathogens, Mar.11-12, 1994, Madras, India, Today and Tomorrows Printers and Publ., New Delhi, India:77-82|1996|
107006|T||Peterka,M., M. Tucek, and D. Vesely|Embryotoxicity of Nine Seed Mordants in the Chick Embryo - The Chest Method|Acta Vet. Brno65(3): 213-217|1996|10.2754/avb199665030213
107008|T||Paul,P.K., and P.D. Sharma|Azadirachta indica Leaf Extract Induces Resistance in Barley Against Leaf Stripe Disease|Physiol. Mol. Plant Pathol.61(3): 3-13|2002|10.1016/S0885-5765(02)90412-1
107009|T||Ruiz,J.M., P.C. Garcia, R.M. Rivero, and L. Romero|Response of Phenolic Metabolism to the Application of Carbendazim plus Boron in Tobacco|Physiol. Plant. (Multiple Languages)106(2): 151-157|1999|10.1034/j.1399-3054.1999.106201.x
107010|T||Dutta,D.N., A.K. Barooah, and K.C. Deka|Persistence of Two Carbamate Insecticides in/on Vegetables|In: S.C.Goel (Ed.), Pesticide Residues and Environmental Pollution, Insect and Environment II, Muzaffarnagar, India:32-36|1986|
107011|T||Bulsiewicz,H., and H. Wesolowski|The Mutagenic Influence of Sulfur on Meiotic Chromosomes in Guinea Pigs|Folia Morphol. (Warsz. )36(1): 5-11|1977|
107012|T||Sendra,J.M., J.C. Escamilla, E. Santaballa, and P. Cunat|Pirimiphos-Methyl Applied to Spanish Citrus Trees:  Residue Decay and Final Residue Levels at Harvest Time in Precocious Fruits|Pestic. Sci.16(2): 152-158|1985|10.1002/ps.2780160208
107013|A||Shukla,S.P., and G. Tripathi|Endosulfan Toxicity on Metabolic Enzymes and Protective Role of Tri-Iodothyronine in the Catfish Clarias batrachus|Pestic. Sci.32:363-364|1991|10.1002/ps.2780320310
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107015|T||Srivastava,A.K., and J.K. Malik|Therapeutic Efficacy of Oxime Reactivators in Fenitrothion Toxicity in Buffalo Calves (Bubalus bubalis)|Acta Vet. Hung.49(2): 229-235|2001|10.1556/004.49.2001.2.13
107016|T||Kashyap,N.P., and P.C. Walia|Dissipation of Malathion and Fenitrothion Residues on Okra Fruits|In: A.Regupathy, K.Rajukkannu, and S.Chelliah (Eds.), Proc.Pesticides and Environment Seminar, INAU, Aug.4-5, Dep.Agric.Entomol.Ctr.for Plant Prot.Stud., Coimbatore:23-25|1984|
107017|T||Hosokawa,S., and J. Miyamoto|Metabolism of 14C-Labelled Sumithion, O,O-Dimethyl O-(3-Methyl-4-Nitrophenyl) Phosphorothioate in Apples|Sci. Pest Control (Botyu-Kagaku)39(2): 49-53|1974|
107018|T||Dikshit,A.K., N.K. Roy, M. Gopal, D.K. Nagia, M.L. Saini, and S.P. Sharma|Residues of Phorate and Fenitrothion in Groundnut and Cowpea|Indian J. Plant Prot.14(1): 51-55|1986|
107020|T||Yamano,T., M. Shimizu, and T. Noda|Allergenicity Evaluation of p-Chloro-m-Cresol and p-Chloro-m-Xylenol by Non-radioactive Murine Local Lymphnode Assay and Multiple-Dose Guinea Pig Maximization Test|Toxicology190:259-266|2003|10.1016/S0300-483X(03)00161-6
107021|T||Chanda,S., G. Erexson, D. Frost, S. Babbar, J.A. Burlew, and K. Bley|26-Week Dermal Oncogenicity Study Evaluating Pure trans-Capsaicin in Tg.AC Hemizygous Mice (FBV/N)|Int. J. Toxicol.26(2): 123-133|2007|10.1080/10915810701225281
107022|A||Bugbee,G.J., J.C. White, and W.J. Krol|Control of Variable Watermilfoil in Bashan Lake, CT with 2,4-D:  Monitoring of Lake and Well Water|J. Aquat. Plant Manag.41:18-25|2003|
107024|T||Meneses,A., D. Flores, M. Munoz, G. Arrieta, and A.M. Espinoza|Effect of 2,4-D, Hydric Stress and Light on Indica Rice (Oryza sativa) Somatic Embryogenesis|Rev. Biol. Trop.53(3-4): 361-368|2005|10.15517/rbt.v53i3-4.14598
107027|T||Spadaro,J.A., S.E. Chase, and D.A. Webster|Bacterial Inhibition by Electrical Activation of Percutaneous Silver Implants|J. Biomed. Mater. Res.20(5): 565-577|1986|10.1002/jbm.820200504
107028|T||Silaev,A.A., A.A. Kasparov, V.V. Korolev, and V.V. Nebstrueva|Electron-Microscopic Investigation of the Effect of Boric Acid on the Seminiferous Tubules of Albino Rats|Bull. Exp. Biol. Med.83:588-591|1977|10.1007/BF00807517
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107030|T||Landauer,W., and E.M. Clark|On the Role of Riboflavin in the Teratogenic Activity of Boric Acid|J. Exp. Zool.156:307-312|1964|10.1002/jez.1401560306
107036|A||Hall,L.W.,Jr., R.D. Anderson, B.L. Lewis, and W.R. Arnold|The Influence of Salinity and Dissolved Organic Carbon on the Toxicity of Copper to the Estuarine Copepod, Eurytemora affinis|Arch. Environ. Contam. Toxicol.54(1): 44-56|2008|10.1007/s00244-007-9010-8
107038|A||Coler,R.A., R.R. Coler, E.K.G. Felizardo, and T. Watanabe|Applying Weight Gain in Pomacea lineata (Spix 1824) (Mollusca:  Prosobranchia) as a Measure of Herbicide Toxicity|Braz. J. Biol.65(4): 617-623|2005|10.1590/S1519-69842005000400008
107039|A||De Medeiros,V.M., T. Watanabe, R.R. Coler, and R.A. Coler|Development of Methods to Assess the Impact of Herbicide Use on the Benthos of Littoral Impoundments in Northeast Brazil|J. Aquat. Ecosyst. Stress Recovery9(1): 67-71|2001|10.1023/A:1013199612093
107040|A||Tsuda,M., M. Morita, D. Makihara, and Y. Hirai|The Involvement of Silicon Deposition in Salinity-Induced White Head in Rice (Oryza sativa L.)|Plant Prod. Sci.3(3): 328-334|2000|10.1626/pps.3.328
107041|A||Kardatzke,J.T.|Effect of Addition of Calcium Chloride to Larval Medium on Survival of Immature Snow-Melt Aedes (Diptera: Culicidae)|Mosq. News41:11-12|1981|
107042|A||Dixon,D.R., J.T. Wilson, P.L. Pascoe, and J.M. Parry|Anaphase Aberrations in the Embryos of the Marine Tubeworm Pomatoceros lamarckii (Polychaeta:  Serpulidae): A New In Vivo Test Assay for Detecting Aneugens and Clastogens in the Marine Environment|Mutagenesis14(4): 375-383|1999|10.1093/mutage/14.4.375
107043|A||Kardatzke,J.T.|Effect of Sodium Chloride on Larval Snow-Melt Aedes (Diptera:  Culicidae)|Mosq. News40:153-160|1980|
107044|A||Saygideger,S.D., and O. Okkay|Effect of 2,4-Dichlorophenoxyacetic Acid on Growth, Protein and Chlorophyll-a Content of Chlorella vulgaris and Spirulina platensis Cells|J. Environ. Biol.29(2): 175-178|2008|
107045|T||Rethwisch,M.D., M.R. Meadows, and L. Hood|Oil Treatments for Leafminer and Associated Parasitoids on Snap Beans, 1990|Insectic. Acaric. Tests16:52-53|1991|10.1093/iat/16.1.52a
107046|A||McWilliams,P.G.|The Effects of Calcium on Sodium Fluxes in the Brown Trout, Salmo trutta, in Neutral and Acid Water|J. Exp. Biol.96:439-442|1982|10.1242/jeb.96.1.439
107047|T||Lowry,K.R., D.C. Mahan, and J.R. Corley|Effect of Dietary Calcium on Selenium Retention in Postweaning Swine|J. Anim. Sci.60(6): 1429-1437|1985|10.2527/jas1985.6061429x
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107050|A||Vedamanikam,V.J., and N.A.M. Shazilli|Comparative Toxicity of Nine Metals to Two Malaysian Aquatic Dipterian Larvae with Reference to Temperature Variation|Bull. Environ. Contam. Toxicol.80(6): 516-520|2008|10.1007/s00128-008-9413-x
107052|A||Graham,M.S., and C.M. Wood|Toxicity of Environmental Acid to the Rainbow Trout:  Interactions of Water Hardness, Acid Type, and Exercise|Can. J. Zool.59(8): 1518-1526|1981|10.1139/z81-206
107054|T||Cai,G.B., Y.A. Bae, S.H. Kim, W.M. Sohn, Y.S. Lee, M.S. Jiang, T.S. Kim, and Y. Kong|Vitellocyte-Specific Expression of Phospholipid Hydroperoxide Glutathione Peroxidases in Clonorchis sinensis|Int. J. Parasitol.38(14): 1613-1623|2008|10.1016/j.ijpara.2008.05.011
107055|T||Celik,I.|Determination of Toxicity of Trichloroacetic Acid in Rats:  50 Days Drinking Water Study|Pestic. Biochem. Physiol.89(1): 39-45|2007|10.1016/j.pestbp.2007.02.006
107056|T||Brogdon,W.G., J.C. McAllister, A.M. Corwin, and C. Cordon-Rosales|Oxidase-Based DDT-Pyrethroid Cross-Resistance in Guatemalan Anopheles albimanus|Pestic. Biochem. Physiol.64(2): 101-111|1999|10.1006/pest.1999.2415
107057|T||Ahmad,M.|Potentiation/Antagonism of Deltamethrin and Cypermethrins with Organophosphate Insecticides in the Cotton Bollworm, Helicoverpa armigera (Lepidoptera:  Noctuidae)|Pestic. Biochem. Physiol.80(1): 31-42|2004|10.1016/j.pestbp.2004.06.002
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107060|A||Van Leeuwen,C.J., M. Rijkeboer, and G. Niebeek|Population Dynamics of Daphnia magna as Modified by Chronic Bromide Stress|Hydrobiologia (Multiple Languages)133(3): 277-285|1986|10.1007/BF00005599
107061|A||Hamoutene,D., J.F. Payne, and H. Volkoff|Effects of Tebufenozide on Some Aspects of Lake Trout (Salvelinus namaycush) Immune Response|Ecotoxicol. Environ. Saf.69(2): 173-179|2008|10.1016/j.ecoenv.2007.04.012
107062|T||Cheng,W.H., F.W. Quimby, and X.G. Lei|Impacts of Glutathione Peroxidase-1 Knockout on the Protection by Injected Selenium Against the Pro-Oxidant-Induced Liver Aponecrosis and Signaling in Selenium-Deficient Mice|Free Radic. Biol. Med.34(7): 918-927|2003|10.1016/S0891-5849(03)00021-2
107063|T||Herbert,D.A.,Jr., J.W. Wilcut, and C.W. Swann|Effects of Various Postemergence Herbicide Treatments and Tobacco Thrips (Frankliniella fusca) Injury on Peanut Yields in Virginia|Peanut Sci.18(2): 91-94|1991|10.3146/i0095-3679-18-2-7
107064|T||Cheng,W.H., B.A. Valentine, and X.G. Lei|High Levels of Dietary Vitamin E do not Replace Cellular Glutathione Peroxidase in Protecting Mice from Acute Oxidative Stress|J. Nutr.129(11): 1951-1957|1999|10.1093/jn/129.11.1951
107066|T||Pellicer,F., O. Picazo, B. Gomez-Tagle, and I.R. De la O|Capsaicin or Feeding with Red Peppers During Gestation Changes the Thermonociceptive Response of Rat Offspring|Physiol. Behav.60(2): 435-438|1996|10.1016/S0031-9384(96)80016-3
107067|T||Kalil-Gaspar,P., S. Marcuzzo, P. Rigon, C.G. Molina, and M. Achaval|Capsaicin-Induced Avoidance Behavior in the Terrestrial Gastropoda Megalobulimus abbreviatus:  Evidence for TRPV-1 Signaling and Opioid Modulation in Response to Chemical Noxious Stimuli|Comp. Biochem. Physiol. A Mol. Integr. Physiol.148(2): 286-291|2007|10.1016/j.cbpa.2007.04.019
107069|T||Cross,C.E., K.A. Reddy, G.K. Hasegawa, M.M. Chiu, W.S. Tyler, and S.T. Omaye|Paraquat Toxicity:  Effects of Selenium Deficiency and Anti-Inflammatory Drug Pretreatments|In: A.P.Autor (Ed.), Biochemical Mechanisms of Paraquat Toxicity, Academic Press, New York:201-211|1977|
107070|A||Ninomiya,K., Y. Oogami, M. Kino-Oka, and M. Taya|Assessment of Herbicidal Toxicity Based on Non-Destructive Measurement of Local Chlorophyll Content in Photoautotrophic Hairy Roots|J. Biosci. Bioeng.95(3): 264-270|2003|10.1016/S1389-1723(03)80027-0
107072|T||Fletcher,K.|Production and Viability of Eggs from Hens Treated with Paraquat|Nature215:1407-1408|1967|10.1038/2151407a0
107074|T||Ban,Y., M. Naya, T. Nishimura, M. Kaneto, K. Kishi, T. Inoue, H. Yoshizaki, and Y. Ooshima|Collaborative Study on Rat Sperm Motion Analysis Using Cellsoft Series 4000 Semen Analyzer|J. Toxicol. Sci.26(1): 9-24|2001|10.2131/jts.26.9
107075|T||Cherrington,J.W., and N. Chernoff|Periods of Vertebral Column Sensitivity to Boric Acid Treatment in CD-1 Mice In Utero|Reprod. Toxicol.16(3): 237-243|2002|10.1016/S0890-6238(02)00017-5
107076|T||Daane,K.M., M.L. Cooper, K.R. Sime, E.H. Nelson, M.C. Battany, and M.K. Rust|Testing Baits to Control Argentine Ants (Hymenoptera: Formicidae) in Vineyards|J. Econ. Entomol.101(3): 699-709|2008|10.1093/jee/101.3.699
107077|T||Price,C.J., P.L. Strong, F.J. Murray, and M.M. Goldberg|Blood Boron Concentrations in Pregnant Rats Fed Boric Acid Throughout Gestation|Reprod. Toxicol.11(6): 833-842|1997|10.1016/S0890-6238(97)00067-1
107078|T||Cornwell,R.L., R.M. Jones, and J.M. Pott|Critical Trials of Morantel Tartrate in Equine Strongylosis|Vet. Rec.93(4): 94-98|1973|10.1136/vr.93.4.94
107079|T||Drudge,J.H., E.T. Lyons, and E.L. Taylor|Critical Tests and Safety Studies on Trichlorfon as an Antiparasitic Agent in the Horse|Am. J. Vet. Res.37(2): 139-144|1976|
107080|T||Olajos,E.J., I. Rosenblum, F. Coulston, and N. Strominger|The Dose-Response Relationship of Trichlorfon Neurotoxicity in Hens|Ecotoxicol. Environ. Saf.3(3): 245-255|1979|10.1016/0147-6513(79)90015-0
107081|T||Slott,V., and D.J. Ecobichon|An Acute and Subacute Neurotoxicity Assessment of Trichlorfon|Can. J. Physiol. Pharmacol.62(5): 513-518|1984|10.1139/y84-082
107083|T||Kanki,K., A. Nishikawa, F. Furukawa, Y. Kitamura, T. Imazawa, T. Umemura, and M. Hirose|A 13-Week Subchronic Toxicity Study of Paprika Color in F344 Rats|Food Chem. Toxicol.41(10): 1337-1343|2003|10.1016/S0278-6915(03)00136-4
107084|T||Chen,M.J., L.Y. Chiang, and Y.L. Lai|Reactive Oxygen Species and Substance P in Monocrotaline-Induced Pulmonary Hypertension|Toxicol. Appl. Pharmacol.171(3): 165-173|2001|10.1006/taap.2000.9117
107086|T||Ennik,G.C., and T.B. Hofman|Response of Pasture Grass to Thionazin and Other Pesticides|In: Centre for Agricultural Publishing and Documentation, Agricultural Research Report 867. Wageningen, Netherlands:41 p.|1977|
107087|T||Ghasempour Alamdari,M., N.S. Rajurkar, A.M. Patwardhan, and H.R. Mobasser|The Effect of Sulfur and Sulfate-Fertilizers on Zn and Cu Uptake by the Rice Plant (Oryza sativa L.)|Asian J. Plant Sci.6(2): 407-410|2007|10.3923/ajps.2007.407.410
107088|T||Machemer,W.E.|Use of Mercury in Protective Coatings|Dev. Ind. Microbiol.20:25-39|1979|
107090|A||Onitsuka,S., Y. Kasai, and K. Yoshimura|Quantitative Structure-Toxic Activity Relationship of Fatty Acids and the Sodium Salts to Aquatic Organisms|Chemosphere18(7/8): 1621-1631|1989|10.1016/0045-6535(89)90052-0
107091|T||Shimokawa,N., and M. Yamaguchi|Expression of Hepatic Calcium-Binding Protein Regucalcin mRNA is Mediated Through Ca2+/Calmodulin in Rat Liver|FEBS Lett.316(1): 79-84|1993|10.1016/0014-5793(93)81740-Q
107092|A||Dow Chemical Co.|Initial Sub:  Invertebrate Life-Cycle Study of Toxicity of 2-(Decylthio)-Ethanamine Hydrochloride (Dtea Hcl) to Daphnia magna Straus (Final Report) w Attach & Cover Ltr Dated 041092|EPA/OTS Doc.#88-920001949:29 p.|1992|
107093|A||Dow Chemical Co.|Initial Submission:  2-(Decylthio)Ethanamine Hydrochloride:  Embryo-Larval Toxicity Test w Fathead Minnow, Pimephales promelas Rafinesque (Final Report) & Cover Letter Dated 041092|EPA/OTS Doc.#88-920001947:28 p.|1985|
107094|T||Choi,A.M., S.B. Lee, S.H. Cho, I. Hwang, C.G. Hur, and M.C. Suh|Isolation and Characterization of Multiple Abundant Lipid Transfer Protein Isoforms in Developing Sesame (Sesamum indicum L.) Seeds|Plant Physiol. Biochem.46:127-139|2008|10.1016/j.plaphy.2007.10.003
107095|T||Food and Drug Research Laboratories|Initial Submission:  Acute Oral LD50 Assay in Rats (EPA-FIFRA) (Final Report) with Attachments and Cover Letter Dated 020592|EPA/OTS Doc.#88-920000842:59 p.|1984|
107096|T||Genter,M.B., D.M. Burman, and B. Bolon|Progression of Alachlor-Induced Olfactory Mucosal Tumors|Int. J. Exp. Pathol.83(6): 303-307|2002|10.1046/j.1365-2613.2002.00243.x
107098|T||Sunyer,B., K.S. Shim, H. Hoger, and G. Lubec|The Cognitive Enhancer SGS742 does not Involve Major Known Signaling Cascades in OF1 Mice|Neurochem. Res.33(7): 1384-1392|2008|10.1007/s11064-008-9596-x
107099|AT||Merrell,R., and K. Wagstaff|Status of Organophosphorus Mosquito Larvicide Resistance in Utah: 1977|Proc. Annu. Meet. Utah Mosq. Abat. Assoc.30:10-12|1977|
107100|T||El-Guindy,M.A., A.R.M. El-Refai, and M.M. Abdel-Sattar|The Joint Action of Mixtures of Insecticides, or of Insect Growth Regulators and Insecticides, on Susceptible and Diflubenzuron-Resistant Strains of Spodoptera littoralis Boisd.|Pestic. Sci.14(3): 246-252|1983|10.1002/ps.2780140306
107101|T||Saito,T., and H. Honda|Systemic Insecticidal Properties of Certain Organic Phosphorus Compounds to the Green Peach Aphid, Myzus persicae Sulzer, and the Tobacco Cutworm, Prodenia litura Fab.|Bochu-Kagaku31:77-81|1966|
107102|A||Shaw,H.M., R.L. Saunders, H.C. Hall, and E.B. Henderson|Effect of Dietary Sodium Chloride on Growth of Atlantic Salmon (Salmo salar)|J. Fish. Res. Board Can.32:1813-1819|1975|10.1139/f75-215
107103|A||Shimura,R., Y.X. Ma, K. Ijiri, S. Nagaoka, and M. Uchiyama|Nitrate Toxicity on Visceral Organs of Medaka Fish, Oryzias latipes:  Aiming to Raise Fish from Egg to Egg in Space|Biol. Sci. Space18(1): 7-12|2004|10.2187/bss.18.7
107104|T||U.S. Borax and Chemical Corp.|Initial Submission:  Primary Eye Irritation Study with 20 Mule Team Lot #USB-11-84 Disodium Tetraborate Decahydrate in New Zealand White Rabbits with Cover Letter Dated 052192|EPA/OTS Doc.#88-920003332:22 p.|1992|
107105|T||United States Borax Research Corp.|Initial Submission:  TX 90-04:  Evaluation of the Ocular Irritation of Fertilizer Borate Granular in Female New Zealand White Rabbits (Final Report) with Cover Letter Dated 052192|EPA/OTS Doc.#88-920003285:13 p.|1992|
107107|T||Chanda,S., G. Erexson, C. Riach, D. Innes, F. Stevenson, H. Murli, and K. Bley|Genotoxicity Studies with Pure trans-Capsaicin|Mutat. Res.557(1): 85-97|2004|10.1016/j.mrgentox.2003.10.001
107108|A||Packer,R.K., and W.A. Dunson|Anoxia and Sodium Loss Associated with the Death of Brook Trout at low pH|Comp. Biochem. Physiol. A Comp. Physiol.41(1): 17-26|1972|10.1016/0300-9629(72)90028-X
107109|T||Zieve,L., and C. Lyftogt|Valproic Acid Induction of Coma in Rats:  Synergism with NH4+ and Pentobarbital|Metab. Brain Dis.4(2): 105-111|1989|10.1007/BF00999388
107110|T||Corrado,A.P., A.F. Guimaraes, and W.A. Prado|Effects of Streptomycin and Neomycin on the Adrenal Medulla of Dogs|Braz. J. Med. Biol. Res.17(3-4): 329-333|1984|
107111|T||Muccifora,S.|Effects of Copper on Spore Germination, Growth and Ultrastructure of Polypodium cambricum L. Gametophytes|Environ. Pollut.153(2): 369-375|2008|10.1016/j.envpol.2007.08.012
107112|T||May,M.J., G.T. Champion, A.M. Dewar, A. Qi, and J.D. Pidgeon|Management of Genetically Modified Herbicide-Tolerant Sugar Beet for Spring and Autumn Environmental Benefit|Proc. R. Soc. Lond. Ser. B Biol. Sci.272(1559): 111-119|2005|
107114|T||Niewiadomska,A., and J. Klama|Pesticide Side Effect on the Symbiotic Efficiency and Nitrogenase Activity of Rhizobiaceae Bacteria Family|Pol. J. Microbiol.54(1): 43-48|2005|
107115|A||Prytherch,H.F.|The Role of Copper in the Setting, Metamorphosis, and Distribution of the American Oyster, Ostrea virginica|Ecol. Monogr.4(1): 49-107|1934|10.2307/1943210
107116|T||Gislason,H., J.K. Herfjord, K. Guttu, K. Grong, J.E. Gronbech, R. Ulvik, and K. Svanes|Adaptive Protection Related to Clearance of Ethanol in Gastric Mucosa of Cats|Scand. J. Gastroenterol.28(4): 361-368|1993|10.3109/00365529309090257
107117|T||Forster,B., M. Eder, E. Morgan, and T. Knacker|A Microcosm Study of the Effects of Chemical Stress, Earthworms and Microorganisms and Their Interactions upon Litter Decomposition|Eur. J. Soil Sci.32(1): 25-33|1996|
107118|T||Ghosh,M.K., and R.C. Srivastava|Effect of Dimecron and of Bavistin on In Vivo Nitrate Reductase Activity and Soluble Protein in Leaves of Oak (Quercus serrata Thun.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.63(3): 347-352|1993|
107119|T||Bose,K.K., S.K. Mukherjee, and R.L. Prasad|Urinary 17-Ketosteroid Level in Endosulfan Treated Goats|Indian J. Anim. Health30(1): 63-66|1991|
107120|T||Brennan,R.F.|Effect of Superphosphate and Superphosphate plus Flutriafol on Yield and Take-All of Wheat|Aust. J. Exp. Agric.29(2): 247-252|1989|10.1071/EA9890247
107121|A||Zweig,G., I. Tamas, and E. Greenberg|The Effect of Photosynthesis Inhibitors on Oxygen Evolution and Fluorescence of Illuminated Chlorella|Biochim. Biophys. Acta66:196-205|1963|10.1016/0006-3002(63)91186-7
107122|T||Singh,M., P.L. Sharma, and H.S. Dhaliwal|Toxicity of Insecticides to Honeybee Workers, Apis cerana indica F.|Pesticides 8(12): 28-29|1974|
107123|T||Santharam,G., and T. Kumaraswami|Effect of Some Insecticides on the Emergence of the Parasitoid, Trichogramma chilonis ishi (Hymenoptera:  Trichogrammatidae)|Entomon10(1): 47-48|1985|
107124|T||Jones,W.A., M.A. Ciomperlik, and D.A. Wolfenbarger|Lethal and Sublethal Effects of Insecticides on Two Parasitoids Attacking Bemisia argentifolii (Homoptera:  Aleyrodidae)|Biol. Control11(1): 70-76|1998|10.1006/bcon.1997.0581
107125|A||Speare,D.J., V. Carvajal, and B.S. Horney|Growth Suppression and Branchitis in Trout Exposed to Hydrogen Peroxide|J. Comp. Pathol.120(4): 391-402|1999|10.1053/jcpa.1998.0285
107126|A||McDonagh,B., and D. Sheehan|Redox Proteomics in the Blue Mussel Mytilus edulis:  Carbonylation is not a Pre-Requisite for Ubiquitination in Acute Free Radical-Mediated Oxidative Stress|Aquat. Toxicol.79(4): 325-333|2006|10.1016/j.aquatox.2006.06.020
107127|A||Lee,K.W., S. Raisuddin, J.S. Rhee, D.S. Hwang, I.T. Yu, Y.M. Lee, H.G. Park, and J.S. Lee|Expression of Glutathione S-Transferase (GST) Genes in the Marine Copepod Tigriopus japonicus Exposed to Trace Metals|Aquat. Toxicol.89(3): 158-166|2008|10.1016/j.aquatox.2008.06.011
107128|A||Kosmehl,T., A.V. Hallare, G. Reifferscheid, W. Manz, T. Braunbeck, and H. Hollert|A Novel Contact Assay for Testing Genotoxicity of Chemicals and Whole Sediments in Zebrafish Embryos|Environ. Toxicol. Chem.25(8): 2097-2106|2006|10.1897/05-460R.1
107129|A||Kiemer,M.C.B., and K.D. Black|The Effects of Hydrogen Peroxide on the Gill Tissues of Atlantic Salmon, Salmo salar L.|Aquaculture153(3-4): 181-189|1997|10.1016/S0044-8486(97)00037-9
107130|A||Gaikowski,M.P., J.J. Rach, and R.T. Ramsay|Acute Toxicity of Hydrogen Peroxide Treatments to Selected Lifestages of Cold-, Cool-, and Warmwater Fish|Aquaculture178(3/4): 191-207|1999|10.1016/S0044-8486(99)00123-4
107131|A||Barros,M.P., M. Granbom, P. Colepicolo, and M. Pedersen|Temporal Mismatch Between Induction of Superoxide Dismutase and Ascorbate Peroxidase Correlates with High H2O2 Concentration in Seawater from Clofibrate-Treated Red Algae Kappaphycus alvarezii|Arch. Biochem. Biophys.420(1): 161-168|2003|10.1016/j.abb.2003.09.014
107132|T||Andre,E., J. Ferreira, A. Malheiros, R.A. Yunes, and J.B. Calixto|Evidence for the Involvement of Vanilloid Receptor in the Antinociception Produced by the Dialdeydes Unsaturated Sesquiterpenes Polygodial and Drimanial in Rats|Neuropharmacology46(4): 590-597|2004|10.1016/j.neuropharm.2003.10.008
107134|T||EPA/OTS|TK 10'490:  24-Month Skin-Cancer Experiment on CF-1 Mice with Cover Letter Dated 08/06/84|EPA/OTS Doc.#40-8440309:18 p.|1981|
107135|A||Snow,J.R.|Control of Pondweeds with 2,4-D|Prog. Fish-Cult.11(2): 105-108|1949|10.1577/1548-8640(1949)11[105:COPWD]2.0.CO;2
107136|A||Asthana,R.K., S. Nigam, A. Maurya, A.M. Kayastha, and S.P. Singh|Trehalose-Producing Enzymes MTSase and MTHase in Anabaena 7120 Under NaCl Stress|Curr. Microbiol.56(5): 429-435|2008|10.1007/s00284-008-9121-0
107137|A||Bagchi,S.N., T. Bitz, E.K. Pistorius, and K.P. Michel|A Synechococcus elongatus PCC 7942 Mutant with a Higher Tolerance Toward the Herbicide Bentazone also Confers Resistance to Sodium Chloride Stress|Photosynth. Res. (Dordr., Online)92(1): 87-101|2007|10.1007/s11120-007-9176-y
107138|A||Bhadauriya,P., R. Gupta, S. Singh, and P.S. Bisen|n-Alkanes Variability in the Diazotrophic Cyanobacterium Anabaena cylindrica in Response to NaCl Stress|World J. Microbiol. Biotechnol.24(1): 139-141|2008|10.1007/s11274-007-9439-y
107139|A||Jorgensen,P.L., and F. Amat|Regulation and Function of Lysine-Substituted Na,K Pumps in Salt Adaptation of Artemia franciscana|J. Membr. Biol.221(1): 39-49|2008|10.1007/s00232-007-9083-3
107143|T||Liebau,E., M.L. Eschbach, W. Tawe, A. Sommer, P. Fischer, R.D. Walter, and K. Henkle-Duhrsen|Identification of a Stress-Responsive Onchocerca volvulus Glutathione S-Transferase (Ov-GST-3) by RT-PCR Differential Display|Mol. Biochem. Parasitol.109(2): 101-110|2000|10.1016/S0166-6851(00)00232-2
107145|T||Cunningham,C.L., and P. Patel|Rapid Induction of Pavlovian Approach to an Ethanol-Paired Visual Cue in Mice|Psychopharmacology192(2): 231-241|2007|10.1007/s00213-007-0704-4
107147|A||Lord,J.C., T. Fukuda, and E. Daniels|Salinity Tolerance of Leptolegnia chapmanii (Oomycetes:  Saprolegniales), a Fungal Pathogen of Mosquito Larvae|Am. Mosq. Control Assoc. J.4(3): 370-371|1988|
107148|T||Moreno,C., M.L. Kaldunski, T. Wang, R.J. Roman, A.S. Greene, J. Lazar, H.J. Jacob, and A.W.,Jr. Cowley|Multiple Blood Pressure Loci on Rat Chromosome 13 Attenuate Development of Hypertension in the Dahl S Hypertensive Rat|Physiol. Genomics31(2): 228-235|2007|10.1152/physiolgenomics.00280.2006
107149|T||Moron,I., and M. Gallo|Effect of Previous Taste Experiences on Taste Neophobia in Young-Adult and Aged Rats|Physiol. Behav.90(2/3): 308-317|2007|10.1016/j.physbeh.2006.09.036
107150|A||Kori-Siakpere,O., K. Adamu, and J. Okenabirhie|Sublethal Effects of Paraquat on Some Plasma Organic Constituents (Metabolic Parameters) of African Catfish:  Clarias gariepinus (Osteichthys-Clariidae)|Int. J. Zool. Res.3(4): 213-217|2007|10.3923/ijzr.2007.213.217
107151|A||Vismara,C., R. Bacchetta, A. Di Muzio, P. Mantecca, S. Tarca, G. Vailati, and R. Colombo|H2O2 Induces Abnormal Tail Flexure in Xenopus Embryos:  Similarities with Paraquat Teratogenic Effects|Birth Defects Res. B Dev. Reprod. Toxicol.77(3): 238-243|2006|10.1002/bdrb.20080
107152|T||Delpuech,J.M., C. Bardon, and M. Bouletreau|Increase of the Behavioral Response to Kairomones by the Parasitoid Wasp Leptopilina heterotoma Surviving Insecticides|Arch. Environ. Contam. Toxicol.49(2): 186-191|2005|10.1007/s00244-004-0158-1
107153|T||Mozoruk,J., L.E. Hunnicutt, W.B. Hunter, and M.G. Bausher|CsVO3-3 is a Member of a Novel Gene Family from Citrus that Encodes a Protein with DNA Binding Activity and Whose Espression is Responsive to Defense Signals and Abiotic Stress|J. Plant Physiol.165:531-543|2008|10.1016/j.jplph.2007.01.009
107154|T||Zhou,T., M.M. Taylor, M.J. DeVito, and K.M. Crofton|Developmental Exposure to Brominated Diphenyl Ethers Results in Thyroid Hormone Disruption|Toxicol. Sci.66:105-116|2002|10.1093/toxsci/66.1.105
107156|T||Cooper,R.L., R.W. Chadwick, G.L. Rehnberg, J.M. Goldman, K.C. Booth, J.F. Hern, and W.K. McElroy|Effect of Lindane on Hormonal Control of Reproductive Function in the Female Rat|Toxicol. Appl. Pharmacol.99:384-394|1989|10.1016/0041-008X(89)90148-8
107157|T||Cummings,A.M., and S.C. Laws|Assessment of Estrogenicity by Using the Delayed Implanting Rat Model and Examples|Reprod. Toxicol.14(2): 111-117|2000|10.1016/S0890-6238(00)00062-9
107158|T||Danzo,B.J., H.W. Shappell, A. Banerjee, and D.L. Hachey|Effects of Nonylphenol, 1,1-Dichloro-2,2-bis(p-Chlorophenyl)Ethylene (p,p'-DDE), and Pentachlorophenol on the Adult Female Guinea Pig Reproductive Tract|Reprod. Toxicol.16(1): 29-43|2002|10.1016/S0890-6238(01)00194-0
107159|T||Date,K., K. Ohno, Y. Azuma, S. Hirano, K. Kobayashi, T. Sakurai, Y. Nobuhara, and T. Yamada|Endocrine-Disrupting Effects of Styrene Oligomers that Migrated from Polystyrene Containers into Food|Food Chem. Toxicol.40(1): 65-75|2002|10.1016/S0278-6915(01)00096-5
107160|T||Tully,D.B., J.C. Luft, J.C. Rockett, H. Ren, J.E. Schmid, C.R. Wood, and D.J. Dix|Reproductive and Genomic Effects in Testes from Mice Exposed to the Water Disinfectant Byproduct Bromochloroacetic Acid|Reprod. Toxicol.19(3): 353-366|2005|10.1016/j.reprotox.2004.06.009
107161|T||Pillet,S., M. D'Elia, J. Bernier, J.M. Bouquegneau, M. Fournier, and D.G. Cyr|Immunomodulatory Effects of Estradiol and Cadmium in Adult Female Rats|Toxicol. Sci.92(2): 423-432|2006|10.1093/toxsci/kfl005
107163|A||Gravel,A., and M.M. Vijayan|Salicylate Disrupts Interrenal Steroidogenesis and Brain Glucocorticoid Receptor Expression in Rainbow Trout|Toxicol. Sci.93(1): 41-49|2006|10.1093/toxsci/kfj166
107164|T||Gray,L.E.,Jr., and R.J. Kavlock|The Effects of the Herbicide 2,4-Dichlorophenyl-p-Nitrophenyl Ether (NIT) on Serum Thyroid Hormones in Adult Female Mice|Toxicol. Lett.15:231-235|1983|10.1016/0378-4274(83)90221-7
107165|T||Harazono,A., and M. Ema|Effects of 4-tert-Octylphenol on Initiation and Maintenance of Pregnancy Following Oral Administration During Early Pregnancy in Rats|Toxicol. Lett.119(1): 79-84|2001|10.1016/S0378-4274(00)00305-2
107167|A||Hu,F., B. Sharma, S. Mukhi, R. Patino, and J.A. Carr|The Colloidal Thyroxine (T4) Ring as a Novel Biomarker of Perchlorate Exposure in the African Clawed Frog Xenopus laevis|Toxicol. Sci.93(2): 268-277|2006|10.1093/toxsci/kfl053
107168|T||Ishido,M., J. Yonemoto, and M. Morita|Mesencephalic Neurodegeneration in the Orally Administered Bisphenol A-Caused Hyperactive Rats|Toxicol. Lett.173(1): 66-72|2007|10.1016/j.toxlet.2007.06.014
107169|A||Williams,T.D., A.M. Diab, S.G. George, V. Sabine, and J.K. Chipman|Gene Expression Responses of European Flounder (Platichthys flesus) to 17-beta Estradiol|Toxicol. Lett.168(3): 236-248|2007|10.1016/j.toxlet.2006.10.020
107170|A||Seki,M., H. Yokota, H. Matsubara, M. Maeda, H. Tadokoro, and K. Kobayashi|Fish Full Life-Cycle Testing for Androgen Methyltestosterone on Medaka (Oryzias latipes)|Environ. Toxicol. Chem.23(3): 774-781|2004|10.1897/03-26
107171|T||Kang,K.S., H.S. Kim, D.Y. Ryu, J.H. Che, and Y.S. Lee|Immature Uterotrophic Assay is more Sensitive than Ovariectomized Uterotrophic Assay for the Detection of Estrogenicity of p-Nonylphenol in Sprague-Dawley Rats|Toxicol. Lett.118(1/2): 109-115|2000|10.1016/S0378-4274(00)00272-1
107172|A||Korner,O., S. Kohno, R. Schonenberger, M.J.F. Suter, K. Knauer, L.J.,Jr. Guillette, and P. Burkhardt-Holm|Water Temperature and Concomitant Waterborne Ethinylestradiol Exposure Affects the Vitellogenin Expression in Juvenile Brown Trout (Salmo trutta)|Aquat. Toxicol.90:188-196|2008|10.1016/j.aquatox.2008.08.012
107173|T||Gerber,H., G. Huber, H.J. Peter, J. Kampf, T. Lemarchand-Beraud, P. Fragu, and R. Stocker|Transformation of Normal Thyroids into Colloid Goiters in Rats and Mice by Diphenylthiohydantoin|Endocrinology135(6): 2688-2699|1994|10.1210/endo.135.6.7988459
107179|A||Hogan,N.S., C.A. Wartman, M.A. Finley, J.G. Van der Lee, and M.R. Van den Heuvel|Simultaneous Determination of Androgenic and Estrogenic Endpoints in the Threespine Stickleback (Gasterosteus aculeatus) Using Quantitative RT-PCR|Aquat. Toxicol.90:269-276|2008|10.1016/j.aquatox.2008.09.008
107180|T||Daidoji,T., M. Ozawa, H. Sakamoto, T. Sako, H. Inoue, R. Kurihara, S. Hashimoto, and H. Yokota|Slow Elimination of Nonylphenol from Rat Intestine|Drug Metab. Dispos.34(1): 184-190|2006|10.1124/dmd.105.007229
107182|T||Cosio,C., L. DeSantis, B. Frey, S. Diallo, and C. Keller|Distribution of Cadmium in Leaves of Thlaspi caerulescens|J. Exp. Bot.56(412): 765-775|2005|10.1093/jxb/eri062
107183|T||Wlodarczyk,B., B. Biernacki, M. Minta, W. Kozaczynski, and T. Juszkiewicz|Male Golden Hamster in Male Reproductive Toxicology Testing:  Assessment of Protective Activity of Selenium in Acute Cadmium Intoxication|Bull. Environ. Contam. Toxicol.54:907-912|1995|10.1007/BF00197977
107184|A||Coteur,G., D. Gillan, P. Pernet, and P. Dubois|Alteration of Cellular Immune Responses in the Seastar Asterias rubens Following Dietary Exposure to Cadmium|Aquat. Toxicol.73(4): 418-421|2005|10.1016/j.aquatox.2005.04.003
107185|T||White,M.D., and M.M. Schreiber|Herbicidal Activity of Starch Encapsulated Trifluralin|Weed Sci.32:387-394|1984|10.1017/S004317450005918X
107186|T||Lavender,R.G., and D.M. Stark|Efficacy of Propoxur Insecticide Strip Use in a Laboratory Animal Facility|Lab. Anim. Sci.30(6): 984-987|1980|
107188|T||Scimeca,M.S., D.J. Lisk, T. Prolla, and X.G. Lei|Effects of GPx4 Haploid Insufficiency on GPx4 Activity, Selenium Concentration, and Paraquat-Induced Protein Oxidation in Murine Tissues|Exp. Biol. Med.230(10): 709-714|2005|10.1177/153537020523001003
107190|T||El-Shafey,A.M.S., and S.S. El-Akkad|Metabolic and Hormonal Changes in Phaseolus vulgaris Induced by Treatment with the Insecticide Actellic|Egypt. J. Physiol. Sci.18(1): 127-146|1994|
107191|T||Smilauerova,M., and P. Smilauer|Morphological Responses of Plant Roots to Heterogeneity of Soil Resources|New Phytol.154(3): 703-715|2002|10.1046/j.1469-8137.2002.00416.x
107192|A||Rath,B., and S.P. Adhikary|Effect of pH, Irradiance and Population Size on the Toxicity of Furadan to Two Species of Anabaena|Biol. Plant. (Praha)38(4): 563-570|1996|10.1007/BF02890608
107193|T||Likas,D.T., and N.G. Tsiropoulos|Behaviour of Fenitrothion Residues in Leaves and Soil of Vineyard After Treatment with Microencapsulate and Emulsified Formulations|Int. J. Environ. Anal. Chem.87(13-14): 927-935|2007|10.1080/03067310701409317
107194|A||Kitancharoen,N., A. Yamamoto, and K. Hatai|Fungicidal Effect of Hydrogen Peroxide on Fungal Infection of Rainbow Trout Eggs|Mycoscience38(4): 375-378|1997|10.1007/BF02461675
107195|A||Ouzts,J.D., S.H. Kay, and P.C.,Jr. Quimby|Susceptibility of Aedes aegypti to Various Levels of Hydrogen Peroxide|Mosq. News41(2): 375-376|1981|
107196|A||Barrett,P.R.F.|Some Studies on the Use of Alginates for the Placement and Controlled Release of Diquat on Submerged Aquatic Plants|Pestic. Sci.9:425-433|1978|10.1002/ps.2780090507
107197|T||Singh,S.K., and R.S. Pandey|Differential Effects of Chronic Endosulfan Exposure to Male Rats in Relation to Hepatic Drug Metabolism and Androgen Biotransformation|Indian J. Biochem. Biophys.26(4): 262-267|1989|
107198|T||Biswas,D., and S. Sanyal|Some Biochemical Changes in Serum Associated with Experimental Endosulfan Toxicity in Black Bengal Goats (Capra hircus)|Environ. Ecol.19(3): 523-525|2001|
107199|T||Ganeshkumar,M., and A. Abdulkareem|Studies on the Efficacy of Some Chemical Combinations in Controlling the Powdery Mildew Disease on Bhendi|Pesticides 20(9): 16-19|1986|
107200|T||Siddiqui,M.K.J., M.F. Rahman, F. Anjum, and S.S.H. Qadri|Effect of Oral Administration of Endosulfan on Some Haematological Parameters and Serum Enzymes in Rats|Pesticides 21(6): 25-27|1987|
107201|T||El-Shafey,A.M.S., and S.S. El-Akkad|Differential Effects of the Insecticide Actellic on Growth and Development of Phaseolus vulgaris Plant|Egypt. J. Physiol. Sci.18(1): 113-126|1994|
107202|T||Gilbert,M.E.|Proconvulsant Activity of Endosulfan in Amygdala Kindling|Neurotoxicol. Teratol.14(2): 143-149|1992|10.1016/0892-0362(92)90062-F
107203|T||Ellis,S.R., M.E. Hodson, and P. Wege|The Influence of Different Artificial Soil Types on the Acute Toxicity of Carbendazim to the Earthworm Eisenia fetida in Laboratory Toxicity Tests|Eur. J. Soil Sci.43(1): S239 - S245|2007|
107204|T||DeRidder,B.P., D.P. Dixon, D.J. Beussman, R. Edwards, and P.B. Goldsbrough|Induction of Glutathione S-Transferases in Arabidopsis by Herbicide Safeners|Plant Physiol.130(3): 1497-1505|2002|10.1104/pp.010066
107205|T||Speese III,J.|Foliar Sprays to Control Insects on Snap Beans, 1993|Arthropod Manag. Tests19:55-56|1994|10.1093/amt/19.1.55a
107206|T||Ejaz,S., and L.C. Woong|Diminished Embryonic Movements of Developing Embryo by Direct Exposure of Sidestream Whole Smoke Solutions|Arch. Toxicol.80(2): 107-114|2006|10.1007/s00204-005-0012-x
107207|T||Noetzel,D.M., and B. Holder|Prophylactic vs Monitored Decision Making for Aphid Control, Crookston, MN, 1993|Arthropod Manag. Tests19:293-|1994|
107209|T||Croft,B.A., E.C. Burts, D.E. Van de Baan, P.H. Westigard, and H. Riedl|Local and Regional Resistance to Fenvalerate in Psylla pyricola Foerster (Homoptera:  Psyllidae) in Western North America|Can. Entomol.121(2): 121-129|1989|10.4039/Ent121121-2
107210|T||Cranshaw,W., D. Cooper, and D.C. Sclar|Control of Potato Insects, Ft. Collins, CO, 1994|Arthropod Manag. Tests20:109-|1995|10.1093/amt/20.1.109
107211|T||Cranshaw,W.|Onion Thrips Control Trial, Ft. Collins, CO, 1990|Arthropod Manag. Tests20:97-98|1995|
107212|T||Cromey,M.G., R.C. Butler, M.A. Mace, and A.L.J. Cole|Effects of the Fungicides Azoxystrobin and Tebuconazole on Didymella exitialis, Leaf Senescence and Grain Yield in Wheat|Environ. Toxicol. Chem.23(11): 1019-1030|2004|
107215|T||Tomic,D., M.S. Frech, J.K. Babus, R.K. Gupta, P.A. Furth, R.D. Koos, and J.A. Flaws|Methoxychlor Induces Atresia of Antral Follicles in ERalpha-Overexpressing Mice|Toxicol. Sci.93(1): 196-204|2006|10.1093/toxsci/kfl040
107217|T||Shi,C., C.Q. Wu, A.M. Cao, H.Z. Sheng, X.Z. Yan, and M.Y. Liao|NMR-Spectroscopy-Based Metabonomic Approach to the Analysis of Bay41-4109, a Novel Anti-HBV Compound, Induced Hepatotoxicity in Rats|Toxicol. Lett.173(3): 161-167|2007|10.1016/j.toxlet.2007.07.010
107218|T||Xu,H.J., L.S. Hu, M. Chang, L. Jing, X.Y. Zhang, and G.S. Li|Proteomic Analysis of Kidney in Fluoride-Treated Rat|Toxicol. Lett.160(1): 69-75|2005|10.1016/j.toxlet.2005.06.009
107219|T||Kelley,S.K., C.B. Nilsson, M.H. Green, J.B. Green, and H. Hakansson|Mobilization of Vitamin A Stores in Rats After Administration of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin:  A Kinetic Analysis|Toxicol. Sci.55:478-484|2000|10.1093/toxsci/55.2.478
107220|T||Han,J., L. Li, Z. Zhang, Y. Xiao, J. Lin, and Y. Li|PDGF-C Participates in Branchial Arch Morphogenesis and is Down-Regulated by Retinoic Acid|Toxicol. Lett.166(3): 248-254|2006|10.1016/j.toxlet.2006.07.308
107222|T||Farraj,A.K., J.R. Harkema, and N.E. Kaminski|Topical Application Versus Intranasal Instillation:  A Qualitative Comparison of the Effect of the Route of Sensitization on Trimellitic Anhydride-Induced Allergic Rhinitis in A/J Mice|Toxicol. Sci.92(1): 321-328|2006|10.1093/toxsci/kfj191
107223|T||Lerch,S., A. Kupfer, J.R. Idle, and B.H. Lauterburg|Cerebral Formation In Situ of S-Carboxymethylcysteine After Ifosfamide Administration to Mice:  A Further Clue to the Mechanism of Ifosfamide Encephalopathy|Toxicol. Lett.161(3): 188-194|2006|10.1016/j.toxlet.2005.09.002
107224|T||Eklund,G., J. Tallkvist, and A. Oskarsson|A Piglet Model for Studies of Gastrointestinal Uptake of Cadmium in Neonates|Toxicol. Lett.146(3): 237-247|2004|10.1016/j.toxlet.2003.10.007
107226|T||Klar,B., and B. Sures|A Nonlinear Model of Stress Hormone Levels in Rats - the Interaction Between Pollution and Parasites|Ecotoxicol. Environ. Saf.59(1): 23-30|2004|10.1016/S0147-6513(03)00100-3
107227|A||Yamauchi,R., H. Ishibashi, M. Hirano, T. Mori, J.W. Kim, and K. Arizono|Effects of Synthetic Polycyclic Musks on Estrogen Receptor, Vitellogenin, Pregnane X Receptor, and Cytochrome P450 3A Gene Expression in the Livers of Male Medaka (Oryzias latipes)|Aquat. Toxicol.90:261-268|2008|10.1016/j.aquatox.2008.09.007
107231|T||Franco-Pons,N., M. Torrente, M.T. Colomina, and E. Vilella|Behavioral Deficits in the Cuprizone-Induced Murine Model of Demyelination/Remyelination|Toxicol. Lett.169(3): 205-213|2007|10.1016/j.toxlet.2007.01.010
107232|T||Feng,L., H. Xiao, X. He, Z. Li, F. Li, N. Liu, Y. Zhao, Y. Huang, Z. Zhang, and Z. Chai|Neurotoxicological Consequence of Long-Term Exposure to Lanthanum|Toxicol. Lett.165(2): 112-120|2006|10.1016/j.toxlet.2006.02.003
107234|A||Kunz,P.Y., T. Gries, and K. Fent|The Ultraviolet Filter 3-Benzylidene Camphor Adversely Affects Reproduction in Fathead Minnow (Pimephales promelas)|Toxicol. Sci.93(2): 311-321|2006|10.1093/toxsci/kfl070
107236|T||Lie,X., K.A. Sullivan, J.E. Madl, M. Legare, and R.B. Tjalkens|Managenese-Induced Neurotoxicity:  The Role of Astroglial-Derived Nitric Oxide in Striatal Interneuron Degeneration|Toxicol. Sci.91(2): 521-531|2006|10.1093/toxsci/kfj150
107237|A||Croisetiere,L., L. Hare, A. Tessier, and S. Duchesne|Modeling Cadmium Exchange by an Aquatic Moss (Fontinalis dalecarlica)|Environ. Sci. Technol.39(9): 3056-3060|2005|10.1021/es049272i
107238|A||Croteau,M.N., S.N. Luoma, B.R. Topping, and C.B. Lopez|Stable Metal Isotopes Reveal Copper Accumulation and Loss Dynamics in the Freshwater Bivalve Corbicula|Environ. Sci. Technol.38(19): 5002-5009|2004|10.1021/es049432q
107239|A||Stevens,R.E.|Hormonal Relationships Affecting Maturation and Ovulation in Largemouth Bass (Micropterus salmoides Lacepede)|Ph.D.Thesis, North Carolina State University, Raleigh, NC:95 p.|1970|
107240|T||Goyarts,T., and S. Danicke|Bioavailability of the Fusarium Toxin Deoxynivalenol (DON) from Naturally Contaminated Wheat for the Pig|Toxicol. Lett.163(3): 171-182|2006|10.1016/j.toxlet.2005.10.007
107241|T||Lanning,C.L., H.M. Ayad, and M.B. Abou-Donia|P-Glycoprotein Involvement in Cuticular Penetration of (14C)Thiodicarb in Resistant Tobacco Budworms|Toxicol. Lett.85:127-133|1996|10.1016/0378-4274(96)03654-5
107242|T||Wittsiepe,J., B. Erlenkamper, P. Welge, A. Hack, and M. Wilhelm|Bioavailability of PCDD/F from Contaminated Soil in Young Goettingen Minipigs|Chemosphere67(9): S355 - S364|2007|
107243|A||Dussault,E.B., V.K. Balakrishnan, K.R. Solomon, and P.K. Sibley|Chronic Toxicity of the Synthetic Hormone 17alpha-Ethinylestradiol to Chironomus tentans and Hyalella azteca|Environ. Toxicol. Chem.27(12): 2521-2529|2008|10.1897/08-005.1
107244|T||Procter|Initial Submission:  Acute Oral Toxicity (LD50) Study of Octanoic Acid in Rats with Attachments and Cover Letter Dated 072792|EPA/OTS Doc.#88-920004951:35 p.|1992|
107245|T||DuPont Chemical Corp.|Initial Submission:  Fourteen-Day Feeding Study in Male and Female Mice with Cover Letter Dated 081092|EPA/OTS Doc.#88-920009178:16 p.|1992|
107248|T||Nath,G., and T.S.S. Dikshith|Endosulfan Residues in Rat Tissues|Natl. Acad. Sci. Lett.2(7): 278-279|1979|
107249|T||Benes,V., R.J. Sram, and R. Tuscany|Fenitrothion.  I.  Study of Mutagenic Activity in Rats|J. Hyg. Epidemiol. Microbiol. Immunol.19(2): 163-172|1975|
107250|T||Roy,S., and C.B. Sharma|Fenitrothion-Induced Changes in Lipids of Rats|Biomed. Chromatogr.18(9): 648-654|2004|10.1002/bmc.368
107251|T||Li,C., S. Taneda, A.K. Suzuki, C. Furuta, G. Watanabe, and K. Taya|Anti-Androgenic Activity of 3-Methyl-4-Nitrophenol in Diesel Exhaust Particles|Eur. J. Pharmacol.543(1-3): 194-199|2006|10.1016/j.ejphar.2006.06.010
107252|A||Gagne,F., C. Blaise, M. Salazar, S. Salazar, and P.D. Hansen|Evaluation of Estrogenic Effects of Municipal Effluents to the Freshwater Mussel Elliptio complanata|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.128:213-225|2001|10.1016/S1532-0456(00)00189-7
107253|A||Grosell,M., R. Gerdes, and K.V. Brix|Influence of Ca, Humic Acid and pH on Lead Accumulation and Toxicity in the Fathead Minnow During Prolonged Water-Borne Lead Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143:473-483|2006|10.1016/j.cbpc.2006.04.014
107254|A||Sanchez-Marin,P., J.I. Lorenzo, R. Blust, and R. Beriras|Humic Acids Increase Dissolved Lead Bioavailability for Marine Invertebrates|Environ. Sci. Technol.41:5679-5684|2007|10.1021/es070088h
107255|T||LaPierre,L.E.|The Persistence of Fenitrothion Insecticide in Red Maple (Acer rubrum L.) and White Birch (Betula papyfifera (Marsh.))  Deer Browse|J. Range Manag.35(1): 65-67|1982|10.2307/3898522
107256|A||Mager,E.M., H. Wintz, C.D. Vulpe, K.V. Brix, and M. Grosell|Toxicogenomics of Water Chemistry Influence on Chronic Lead Exposure to the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.87(3): 200-209|2008|10.1016/j.aquatox.2008.02.001
107258|A||Kitvatanachai,S., C. Apiwathnasorn, S. Leemingsawat, W. Wongwit, and S. Tornee|Determination of Lead Toxicity in Culex quinquefasciatus Mosquitoes in the Laboratory|Southeast Asian J. Trop. Med. Public Health36(4): 862-874|2005|
107259|T||Mitkov,D.|The Role of the Octanoic Fatty Acid in the Pathogenesis of the Metabolic Alkalosis in Experimental Liver Failure|Folia Med.35(1): 23-27|1993|
107260|T||El-Meleigi,M.A.|Effect of Soil Moisture, Carbofuran, and MDMV on Fusarium moniliforme and Pratylenchus spp, Stalk Rot and Grain Yield of Maize|Appl. Agric. Res.4(4): 248-252|1989|
107261|T||Thind,T.S., and J.S. Jhooty|Translocation and Accumulation of Benlate and Bavistin in Different Parts of Pea Seedlings|Pesticides 19(5): 50-51|1985|
107262|A||Banik,S., S. Chakraborty, and J.R. Choudhury|Haemolytic Anaemia in Anabas testudineus with Reference to Endosulfan|Uttar Pradesh J. Zool.16(2): 87-88|1996|
107263|A||Nimmo,D.W.R., R.W. Johnson, M.A. Preul, R.W. Pillsbury, J.R. Self, and E.A. Bergey|Determining Site-Specific Toxicity of Copper to Daphnids and Fishes in a Brown-Water Ecosystem|J. Freshw. Ecol.21(3): 481-491|2006|10.1080/02705060.2006.9665026
107264|A||Mathur,S., and A.K. Gupta|Histoenzymological Study on the Toxicity of Copper Sulphate in the Digestive Glands of Lymnaea luteola|J. Environ. Biol.29(2): 201-204|2008|
107265|T||Prashanth,S.R., V. Sadhasivam, and A. Parida|Over Expression of Cytosolic Copper/Zinc Superoxide Dismutase from a Mangrove Plant Avicennia marina in indica Rice var Pusa Basmati-1 Confers Abiotic Stress Tolerance|Transgenic Res.17(2): 281-291|2008|10.1007/s11248-007-9099-6
107266|A||Kaur,M., A.S. Ahluwalia, and S. Dahuja|Toxicity of a Rice Field Herbicide in a Nitrogen Fixing Alga, Cylindrospermum sp.|J. Environ. Biol.23(4): 359-363|2002|
107267|T||Hirose,S., H. Kawahigashi, A. Tagiri, and Y. Ohkawa|Herbicide-Induced Anthocyanin Accumulation in Transgenic Rice by Expression of Rice OSB2 Under the Control of Rice CYP72A21 Promoter|J. Agric. Food Chem.56(4): 1259-1263|2008|10.1021/jf071575j
107268|T||Chiba,J., S. Iimura, Y. Yoneda, T. Watanabe, F. Muro, M. Tsubokawa, Y. Iigou, A. Satoh, G. Takayama, M. Yokoyama, T. Ta|Synthesis and Biological Evaluation of Benzoic Acid Derivatives as Potent, Orally Active VLA-4 Antagonists|Bioorg. Med. Chem.15(4): 1679-1693|2007|10.1016/j.bmc.2006.12.006
107269|T||Grover,I.S., and P.K. Malhi|Genotoxic Effects of Some Organophosphorus Pesticides III.  In Vivo Chromosomal Aberration Bioassay in Root Meristems of Allium and Hordeum|Cytologia53(1): 181-191|1988|10.1508/cytologia.53.181
107270|T||Ecobichon,D.J., and D. Zelt|The Acute Toxicity of Fenitrothion in Weanling Rats and Effects on Tissue Esterases and Mono-Oxygenases|Toxicology13(3): 287-296|1979|10.1016/0300-483X(79)90117-3
107271|T||Durham,H.D., and D.J. Ecobichon|An Assessment of the Neurotoxic Potential of Fenitrothion in the Hen|Toxicology41(3): 319-332|1986|10.1016/0300-483X(86)90185-X
107272|T||Gromysz-Kalkowska,K., E. Szubartowska, and L. Szubartowski|Haematological Values Characteristic for the Respiratory Function of Quail Blood Following Intoxication with the Pesticides Foschlor and Enolofos|Folia Biol. (Krakow)37(3/4): 213-222|1989|
107273|A||Kodama,H., Y. Matsuoka, Y. Tanaka, Y. Liu, T. Iwasaki, and S. Watarai|Changes of C-Reactive Protein Levels in Rainbow Trout (Oncorhynchus mykiss) Sera After Exposure to Anti-Ectoparasitic Chemicals Used in Aquaculture|Fish Shellfish Immunol.16(5): 589-597|2004|10.1016/j.fsi.2003.09.007
107274|A||Chandrasekara,H.U., and A. Pathiratne|Influence of Low Concentrations of Trichlorfon on Haematological Parameters and Brain Acetylcholinesterase Activity in Common Carp, Cyprinus carpio L.|Aquac. Res.36(2): 144-149|2005|10.1111/j.1365-2109.2004.01197.x
107275|T||Hirsch,A.F., K.C. Kolwyck, L.A. Kraft, R.E. Homm, and D.W. Hahn|Antifertility Effects of Chlorine-Substituted Dioxolanes, Dithiolanes, and Dithianes in Male Rats|J. Med. Chem.18(1): 116-117|1975|10.1021/jm00235a028
107276|T||Boyd,E.M., and I. Dobos|Protein Deficiency and Tolerated Oral Doses of Endosulfan|Arch. Int. Pharmacodyn. Ther.178(1): 152-165|1969|
107277|T||Agrawal,A.K., M. Anand, N.F. Zaidi, and P.K. Seth|Involvement of Serotonergic Receptors in Endosulfan Neurotoxicity|Biochem. Pharmacol.32(23): 3591-3593|1983|10.1016/0006-2952(83)90308-8
107278|A||Funderburk,H.H.,Jr., and J.M. Lawrence|A Sensitive Method for Determination of Low Concentrations of Diquat and Paraquat|Nature199:1011-1012|1963|10.1038/1991011a0
107279|T||Moretto,A., M. Lotti, and P.S. Spencer|In Vivo and in Vitro Regional Differential Sensitivity of Neuropathy Target Esterase to Di-n-Butyl-2,2-Dichlorovinyl Phosphate|Arch. Toxicol.63(6): 469-473|1989|10.1007/BF00316450
107280|T||Haque,S., S.S. Mishra, and B.K. Sinha|Some Observations on the Pathology of Experimental Toxicity of Sumithion in Goats|Indian Vet. J.61(4): 280-282|1984|
107281|T||Handa,S.K., A.K. Dikshit, and S. Verma|Residues of Fenitrothion on Cauliflower (Brassica oleracea convar botrytis var botrytis) and Cabbage (B. oleracea convar capitata var capitata)|Indian J. Agric. Sci.59(1): 25-27|1989|
107283|T||Pandey,U.K., and R.D.L. Srivastava|Relative Tolerance of Paddy Genotypes Under Saline Conditions|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.58(1): 141-148|1988|
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107285|T||Mercurio,S.D., and G.F.,Jr. Combs|Synthetic Seleno-Organic Compound with Glutathione Peroxidase-Like Activity in the Chick|Biochem. Pharmacol.35(24): 4505-4509|1986|10.1016/0006-2952(86)90771-9
107286|A||Vaishampayan,A.|Powerful Mutagenicity of a Bipyridylium Herbicide in a Nitrogen-Fixing Blue-Green Alga Nostoc muscorum|Mutat. Res.138:39-46|1984|10.1016/0165-1218(84)90083-1
107287|T||Du,J., F.W. Kleinhans, V.J. Spitzer, L. Horstman, P. Mazur, and J.K. Critser|ESR-Determined Osmotic Behavior of Bull Spermatozoa|Technical Report, CONF-9008158-2, Oak Ridge National Lab., TN:7 p.|1990|
107288|A||Wintz,H., L.J. Yoo, A. Loguinov, Y.Y. Wu, J.A. Steevens, R.D. Holland, R.D. Beger, E.J. Perkins, O. Hughes, and C.D. Vu|Gene Expression Profiles in Fathead Minnow Exposed to 2,4-DNT:  Correlation with Toxicity in Mammals|Toxicol. Sci.94(1): 71-82|2006|10.1093/toxsci/kfl080
107289|T||Potter,J.C., A.C. Boyer, R.L. Marxmiller, R. Young, and J.E. Loeffler|Radioisotope Residues and Residues of Dichlorvos and Its Metabolites in Pregnant Sows and Their Progeny Dosed with Dichlorvos-14C or Dichlorvos-36Cl Formulated as PVC Pellets|J. Agric. Food Chem.21(4): 734-738|1973|10.1021/jf60188a038
107290|T||Moretto,A., E. Capodicasa, and M. Lotti|Clinical Expression of Organophosphate-Induced Delayed Polyneuropathy in Rats|Toxicol. Lett.63(1): 97-102|1992|10.1016/0378-4274(92)90112-W
107291|T||Al-Samariee,A.I., K.A.M. Shaker, and M.A. Al-Bassomy|Residue Levels of Three Organophosphorus Insecticides in Sweet Pepper Grown in Commercial Greenhouses|Pestic. Sci.22(3): 189-194|1988|10.1002/ps.2780220302
107292|T||Al-Yousuf,S.|The Effect of the Insecticide (Primicid) on Neurosecretory Cells of the Earthworm Aporrectodea caliginosa|Qatar Univ. Sci. J.15(2): 373-377|1995|
107293|A||Ryu,S.K., J.S. Park, and I.S. Lee|Purification and Characterization of a Copper-Binding Protein from Asian Periwinkle Littorina brevicula|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.134(1): 101-107|2003|10.1016/S1532-0456(02)00217-X
107294|T||Smith,A.P., B.P. DeRidder, W.J. Guo, E.H. Seeley, F.E. Regnier, and P.B. Goldsbrough|Proteomic Analysis of Arabidopsis Glutathione S-Transferases from Benoxacor- and Copper-Treated Seedlings|J. Biol. Chem.279(25): 26098-26104|2004|10.1074/jbc.M402807200
107295|T||Viquez,O.M., H.L. Valentine, K. Amarnath, D. Milatovic, and W.M. Valentine|Copper Accumulation and Lipid Oxidation Precede Inflammation and Myelin Lesions in N,N-Diethyldithiocarbamate Peripheral Myelinopathy|Toxicol. Appl. Pharmacol.229(1): 77-85|2008|10.1016/j.taap.2008.01.005
107296|A||Yang,Z.B., Y.L. Zhao, N. Li, and J. Yang|Effect of Waterborne Copper on the Microstructures and Ultrastructure of the X-Organ Sinus Gland Complex in Eriocheir sinensis|Bull. Environ. Contam. Toxicol.80(1): 68-73|2008|10.1007/s00128-007-9318-0
107297|A||Snow,K.R., and I.M. Dzundza|The Use of Inert Biodegradable Carriers for Pirimiphos-Methyl in Larval Mosquito Control|Int. Pest Control40(4): 122-124|1998|
107298|T||Ramakrishna,V., and M.S. Chatrath|Uptake of Carbendazim and Tridemorph by Germinating Chickpea (Cicer arietinum) Seed|J. Nucl. Agric. Biol.17(3): 172-176|1988|
107299|T||Vadlamudi,V.P., and B.S. Paul|A Note on Oral Toxicity of O,O-Dimethyl O-(3 Methyl-4-Nitrophenyl) Phosphorothioate and Its Effect on Blood Cholinesterases in Indian Buffalo|Indian J. Anim. Sci.48(1): 59-61|1978|
107300|T||Patnaik,H.K., and M.C. Dash|Recovery Potentiality of Nerve and Muscle ChE Activity in Fenitrothion Exposed Drawida calebi and Lampito mauritii|Fresenius Environ. Bull.1(suppl.): 110-115|1992|
107301|T||Hladka,A., and M. Nosal|The Determination of the Exposition to Metathion (Fenitrotion) on the Basis of Excreting Its Metabolite p-Nitro-m-Cresol Through Urine in Rats|Int. Arch. Gewebepathol. Gewerbehyg.23(3): 209-214|1967|
107302|T||Hegazy,M.E.A., M. Abdel-Razik, M.M. Diab, and M.M. Abu-Zahw|Sumithion Residues on and in Potato Tubers|Ann. Agric. Sci.33(2): 1291-1298|1988|
107303|T||Everts,J.W., M. Diependaal, R. Postuma, A. Scholtens, L. Wouters, R. Hengeveld, and J.H. Koeman|Animal Indicators for Side-Effects of Pesticide Treatments in Oilseed in Winter|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(3a): 925-930|1986|
107304|T||Biswas,A.K.|Comparative Toxicity of Some Insecticides to Different Instars of Larvae of Jute Semilooper|J. Maharashtra Agric. Univ.14(2): 239-240|1989|
107305|AT||Baarschers,W.H., A.I. Bharath, M. Hazenberg, and J.E. Todd|Fungitoxicity of Methoxychlor and Fenitrothion and the Environmental Impact of Their Metabolites|Can. J. Bot.58(4): 426-431|1980|10.1139/b80-048
107306|T||Udeaan,A.S., S.S. Joia, and R.P. Chawla|Endosulphan Residues in Mustard Seed at Harvest|J. Insect Sci.4(1): 99-100|1991|
107308|T||Uchiyama,M., T. Yoshida, K. Homma, and T. Hongo|Inhibition of Hepatic Drug-Metabolizing Enzymes by Thiophosphate Insecticides and Its Drug Toxicological Implications|Biochem. Pharmacol.24(11/12): 1221-1225|1975|
107310|T||Hoch,A.L., R.W. Barker, and J.A. Hair|Further Observations on the Control of Lone Star Ticks (Acarina:  Ixodidae) Through Integrated Control Procedures|J. Med. Entomol.8(6): 731-734|1971|10.1093/jmedent/8.6.731
107311|T||Bry,R.E., J.H. Lang, and N.M. Dennis|Gardona as a Protectant of Rubberized Hair Cushioning Material Against Black Carpet Beetle Damage|J. Econ. Entomol.64(3): 754-755|1971|10.1093/jee/64.3.754
107312|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Insect Control with Systemic Insecticides, 1992|Insectic. Acaric. Tests18:288-290|1993|
107313|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Subsurface Placement of Insecticides for Control of Japanese Beetle Larvae on a Golf Course Fairway in Lucas County, OH, 1992|Insectic. Acaric. Tests18:342-343|1993|10.1093/iat/18.1.342a
107314|T||Agnihotri,N.P., M.D. Awasthi, and H.K. Jain|Residue Evaluation of Different Plant and Grain Protection Schedules|Pesticides 14(5): 3-11|1980|
107315|T||Reddy,C.N., K.N. Reddy, T.N. Reddy, D.J. Reddy, and C.S. Rao|Dissipation of Penconazole, Hexaconazole and Myclobutanil in Grapes|Pestic. Res. J.19(2): 246-247|2007|
107316|T||Hickman,M.V.|An Update on IR-4 Pesticide Testing in the Lower Rio Grande Valley of Texas in 1988 and 1989|J. Rio Grande Val. Hortic. Soc.42:75-80|1989|
107317|T||Jackson,R.D., and T.A. Brindley|Hempa and Metepa as Chemosterilants of Imagos of the European Corn Borer|J. Econ. Entomol.64(5): 1065-1068|1971|10.1093/jee/64.5.1065
107318|A||Leblanc,G.A., and D.C. Surprenant|The Influence of Mineral Salts on Fecundity of the Water Flea (Daphnia magna) and the Implications on Toxicity Testing of Industrial Wastewater|Hydrobiologia (Multiple Languages)108:25-31|1984|10.1007/BF02391629
107319|A||Pierron,F., M. Baudrimont, A. Boudou, and J.C. Massabuau|Effects of Salinity and Hypoxia on Cadmium Bioaccumulation in the Shrimp Palaemon longirostris|Environ. Toxicol. Chem.26(5): 1010-1017|2007|10.1897/06-490R.1
107320|T||Manktelow,B.W.|The Loss of Pulmonary Surfactant in Paraquat Poisoning: A Model for the Study of the Respiratory Distress Syndrome|Br. J. Exp. Pathol.48:366-369|1967|
107322|T||Hellenas,K.E., E. Cekan, P. Slanina, and K. Bergman|Studies of Embryotoxicity and the Incidence of External Malformations After Continuous Intravenous Infusion of alpha-Chaconine in Pregnant Rats|Pharmacol. Toxicol.70(5, Pt. 1): 381-383|1992|10.1111/j.1600-0773.1992.tb00491.x
107324|A||Damanakis,M.|A Bioassay for the Determination of Low Concentrations of Paraquat|Weed Res. (Multiple Languages)10:77-80|1970|10.1111/j.1365-3180.1970.tb00927.x
107325|T||Saji,S., S. Bathula, A. Kubo, M. Tamaoki, M. Kanna, M. Aono, N. Nakajima, T. Nakaji, T. Takeda, M. Asayama, and H. Saji|Disruption of a Gene Encoding C4-Dicarboxylate Transporter-like Protein Increases Ozone Sensitivity Through Deregulation of the Stomatal Response in Arabidopsis thaliana|Plant Cell Physiol.49(1): 2-10|2008|10.1093/pcp/pcm174
107326|T||Ishikawa,Y., T. Nakayama, K. Kanosue, and K. Matsumura|Response of Medial Medullary Neurons to Preoptic and Scrotal Thermal Stimulation and to Preoptic Microinjection of Capsaicin|J. Therm. Biol.9(1-2): 47-50|1984|10.1016/0306-4565(84)90036-6
107327|T||Rodriguez-Kabana,R., E.A. Curl, and H.H.,Jr. Funderburk|Effect of Paraquat on Growth of Sclerotium rolfsii in Liquid Culture and Soil|Phytopathology57:911-915|1967|
107328|T||Joia,B.S., and R.L. Kalra|Note on the Dissipation of Ultra-Low-Volume Formulations of Endosulfan, Fenitrothion, Fenthion and Malathion on Okra|Indian J. Agric. Sci.44(12): 897-898|1974|
107329|T||Hallett,D.J., R. Greenhalgh, P. Weinberger, and R. Prasad|The Uptake and Metabolism of Fenitrothion by Germinating White Pine, White Spruce and Yellow Birch Seeds|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes12(1): 53-69|1977|
107330|T||Handa,S.K., M.D. Awasthi, A.K. Dikshit, and S. Verma|Residues of Carbaryl and Fenitrothion in or on Indian Colza Crop|Indian J. Agric. Sci.50(11): 873-875|1980|
107331|T||Singh,P., S.F. Hameed, and I.P. Singh|Dissipation of Fenitrothion and Monocrotophos on Pods of Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.58(10): 787-788|1988|
107332|T||Thakur,A.K., and S.F. Hameed|Harvest Residues of Some Organophosphorous Insecticides on Apple|Indian J. Agric. Sci.50(10): 778-780|1980|
107335|T||Rajukkannu,K., K. Saivaraj, P. Vasudevan, and M. Balasubramanian|Residues of Certain Newer Insecticides in Brinjal|Pesticides 14(1): 15-17|1980|
107336|T||Seiber,J.N., W.L. Winterlin, and M.M. McChesney|Residues of Toxaphene, DEF, and Paraquat in Plant Parts and Gin Waste from a Treated Cotton Field|Arch. Environ. Contam. Toxicol.8(2): 125-137|1979|10.1007/BF01056319
107337|T||Lien,E.J., L.L. Lien, and G.L. Tong|Central Nervous System Activities of Thiolactams and Lactams.  Structure-Activity Correlations|J. Med. Chem.14(9): 846-848|1971|10.1021/jm00291a017
107338|T||Adkins,T.R.,Jr.|Residues in Cattle Tissues Following Back-Line and Spray Applications of Trichlorfon|J. Econ. Entomol.59(6): 1423-1425|1966|10.1093/jee/59.6.1423
107339|T||Gururaj,K., and S. Verma|Persistence of Endosulfan Residues on Sorghum Crop|Indian J. Plant Prot.17(2): 181-188|1989|
107341|T||Hogmire,H.W., and T. Winfield|Insecticide Evaluation, 1996|Arthropod Manag. Tests22:3-4|1997|10.1093/amt/22.1.3
107342|T||Cheng,W.X., W. Dou, Y.X. Chai, and J.J. Wang|Comparison of Biochemical and Toxicological Characterizations of Glutathione S-Transferases and Superoxide Dismutase Between Liposcelis bostrychophila Badonnel and L. entomophila (Enderlein) (Psocoptera:  Liposcelididae|Pestic. Biochem. Physiol.89(2): 151-157|2007|10.1016/j.pestbp.2007.05.004
107343|T||Alam,M.J., Y. Funaki, and N. Motoyama|Distribution and Incorporation of Orally Ingested Cyromazine into House Fly Eggs|Pestic. Biochem. Physiol.70(2): 108-117|2001|10.1006/pest.2001.2540
107344|T||Gamgee,A., J. Priestley, and L. Larmuth|On the Difference in the Poisonous Activity of Phosphorus in Ortho-, Meta- and Pyro-Phosphoric Acids|J. Anat. Physiol.11(Pt.2): 255-272|1877|
107347|T||Dobson,K.J.|Trichlorfon Toxicity in Pigs|Aust. Vet. J.53(3): 115-117|1977|10.1111/j.1751-0813.1977.tb00131.x
107349|T||Salem,S.H., A.S. Hamed, L. Zohdy, and A.F. Sahab|Effect of Some Pesticides on the Nodulation and Nitrogen Fixation of Infected Broad Bean Plants with Root Rot and Wilt Diseases|Acta. Phytopathol. Acad. Sci. Hung.12(1/2): 23-30|1977|
107350|T||Anderson,J.M.E.|A Laboratory Experiment to Compare Potential Insecticides for Use in Field Bait-Bins for Sheep Blowflies|Aust. Vet. J.67(3): 112-114|1990|10.1111/j.1751-0813.1990.tb16086.x
107351|A||McDonald,D.G.|The Interaction of Environmental Calcium and Low pH on the Physiology of the Rainbow Trout, Salmo gairdneri.  I.  Branchial and Renal Net Ion and H+ Fluxes|J. Exp. Biol.102:123-140|1983|10.1242/jeb.102.1.123
107352|A||Wagner,G.F., M. Hampong, and D.H. Copp|A Cycle for 45Calcium Uptake in the Rainbow Trout, Salmo gairdneri|Can. J. Zool.63:2778-2779|1985|10.1139/z85-414
107353|T||Armbruster,B.L., W.T. Molin, and M.W. Bugg|Effects of the Herbicide Dithiopyr on Cell Division in Wheat Root Tips|Pestic. Biochem. Physiol.39:110-120|1991|10.1016/0048-3575(91)90131-5
107354|T||Di Braccio,M., G. Grossi, G. Roma, D. Piras, F. Mattioli, and M. Gosmar|1,8-Naphthyridines VI.  Synthesis and Anti-Inflammatory Activity of 5-(Alkylamino)-N,N-Diethyl(1,2,4)Triazolo(4,3-a)(1,8)Naphthyridine-6-Carboxamides with a New Substitution Pattern on the Triazole Ring|Eur. J. Med. Chem.43(3): 584-594|2008|10.1016/j.ejmech.2007.04.016
107355|T||Mohapatra,L.N.|Chemical Control of Yellow Mite, Polyphagotarsonemus latus Banks (Acarina:  Tarsonemidae) on Jute|Indian J. Plant Prot.24(1/2): 15-17|1996|
107356|T||Cooke,L.R., D.R. Clifford, P. Gendle, and M.E. Holgate|A Trial to Determine the Persistence of Carbendazim Pressure-Injected into Elms|Pestic. Sci.11(3): 301-304|1980|10.1002/ps.2780110303
107357|T||Turner,D.J.|Effects of Inorganic Salts and Surfactants on Glyphosate Phytotoxicity to Wheat|Tests Agrochem. Cultiv.6:146-147|1985|
107358|T||Bohn,M., S. Luthje, P. Sperling, E. Heinz, and K. Dorffling|Plasma Membrane Lipid Alterations Induced by Cold Acclimation and Abscisic Acid Treatment of Winter Wheat Seedlings Differing in Frost Resistance|J. Plant Physiol.164(2): 146-156|2007|10.1016/j.jplph.2005.12.008
107359|T||Ene-Obong,E.E., and J.I. Kanu|Response of F1 Interspecific Hybrids of Solanum to Nitrogen Fertilization, Insecticide and Fungicide Treatments|Trop. Agric.66(2): 181-183|1989|
107360|A||Bailey,S., J. Rebbeck, and K.V. Loats|Interactive Effects of Elevated Ozone plus Carbon Dioxide on Duckweeds Exposed in Open-Top Chambers|Ohio J. Sci.99(2): 19-25|1999|
107361|T||Garg,R., and O.P. Sharma|Studies to Establish the Effective Dose of Precipitated Sulphur Against Tropilaelaps clareae Delfinado and Baker (Laelaptidae: Acarina)|Am. Bee J.128(2): 122-123|1988|
107362|T||Antonious,G.F., and J.C. Snyder|Trichome Density and Pesticide Retention and Half-Life|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes28(2): 205-219|1993|
107363|T||Srivastava,K.P., and M.G. Jotwani|Persistence and Residues of Carbofuran, Disulfoton and Endosulfan Used for the Control of Major Pests of Sorghum Crop|J. Entomol. Res.3(2): 148-156|1979|
107364|A||Al Kahem,H.F., Z. Ahmed, A.S. Al-Akel, and M.J.K. Shamsi|Toxicity Bioassay and Changes in Haematological Parameters of Oreochromis niloticus Induced by Trichlorfon|Arab Gulf J. Sci. Res.16(3): 581-593|1998|
107365|T||Katayama,S., K. Ashizawa, T. Fukuhara, M. Hiroyasu, Y. Tsuzuki, H. Tatemoto, T. Nakada, and K. Nagai|Differential Expression Patterns of Wnt and beta-Catenin/TCF Target Genes in the Uterus of Immature Female Rats Exposed to 17alpha-Ethynyl Estradiol|Toxicol. Sci.91(2): 419-430|2006|10.1093/toxsci/kfj167
107366|T||Shapiro,B.H., S.A. Hirst, G.O. Babalola, and M.S. Bitar|Prospective Study on the Sexual Development of Male and Female Rats Perinatally Exposed to Maternally Administered Cimetidine|Toxicol. Lett.44(3): 315-329|1988|10.1016/0378-4274(88)90171-3
107367|T||Theocharis,S.E., A.P. Margeli, V. Alevizou, and D. Varonos|Thymidine Kinase Activity in Liver and Serum of Rats After Cadmium Administration|Toxicol. Lett.71(1): 1-7|1994|10.1016/0378-4274(94)90193-7
107368|T||Zhao,Z., J.S. Hyun, H. Satsu, S. Kakuta, and M. Shimizu|Oral Exposure to Cadmium Chloride Triggers an Acute Inflammatory Response in the Intestines of Mice, Initiated by the Over-Expression of Tissue Macrophage Inflammatory Protein-2 mRNA|Toxicol. Lett.164(2): 144-154|2006|10.1016/j.toxlet.2005.12.004
107370|T||Schnell,R.C., J.L. Early, M.J. Deimling, B.A. Merrick, and M.H. Davies|Effect of Acute and Repeated Selenium Treatment on Hepatic Monooxygenase Enzyme Activity in Male Rats|Toxicol. Lett.17(1/2): 193-200|1983|10.1016/0378-4274(83)90057-7
107371|T||Malik,J.K., R.C.P. Singh, K.S. Roy, P. Gupta, and B.S. Paul|Pesticides Induced Dermal Changes in Buffalo Calves|Pesticides 13(8): 45-48|1979|
107372|A||Daam,M.A., S.J.H. Crum, P.J. Van den Brink, and A.J.A. Nogueira|Fate and Effects of the Insecticide Chlorpyrifos in Outdoor Plankton-Dominated Microcosms in Thailand|Environ. Toxicol. Chem.27(12): 2530-2538|2008|10.1897/07-628.1
107374|T||Moody,R.P., R. Prasad, R. Greenhalgh, and P. Weinberger|Translocation of Ring Labelled 14C-Fenitrothion in Conifers|In: J.R.Robert, R.Greenhalgh, and W.K.Marshall (Eds.), NRCC No.16073, Proc.of a Symp.on Fenitrothion: The Long-Term Effects of Its Use in Forest Ecosystems, Natl.Res.Counc.Can., Ottawa, Canada:217-231|1977|
107375|A||Budischak,S.A., L.K. Belden, and W.A. Hopkins|Effects of Malathion on Embryonic Development and Latent Susceptibility to Trematode Parasites in Ranid Tadpoles|Environ. Toxicol. Chem.27(12): 2496-2500|2008|10.1897/08-018.1
107376|T||Slyter,L.L., W. Chalupa, R.R. Oltjen, and J.M. Weaver|Sulfur Influences on Rumen Microorganisms In Vitro and in Sheep and Calves|J. Anim. Sci.63(6): 1949-1959|1986|10.2527/jas1986.6361949x
107377|T||Janicka-Russak,M., and G. Klobus|Modification of Plasma Membrane and Vacuolar H+-ATPases in Response to NaCl and ABA|J. Plant Physiol.164(3): 295-302|2007|10.1016/j.jplph.2006.01.014
107378|T||Laurin,M.C., and N.J. Bostanian|Short-Term Contact Toxicity of Seven Fungicides on Anystis baccarum|Phytoparasitica35(4): 380-385|2007|10.1007/BF02980701
107379|A||Gopal,K., R.N. Khanna, M. Anand, and G.S.D. Gupta|Haematological Changes in Fish Exposed to Endosulfan|Ind. Health20(2): 157-159|1982|10.2486/indhealth.20.157
107382|T||Huang,B., L. Jin, and J.Y. Liu|Identification and Characterization of the Novel Gene GhDBP2 Encoding a DRE-Binding Protein from Cotton (Gossypium hirsutum)|J. Plant Physiol.165(2): 214-223|2008|10.1016/j.jplph.2006.11.003
107383|T||Ghanati,F., A. Morita, and H. Yokota|Deposition of Suberin in Roots of Soybean Induced by Excess Boron|Plant Sci.168(2): 397-405|2005|10.1016/j.plantsci.2004.09.004
107384|A||Zalizniak,L., and D. Nugegoda|Effect of Sublethal Concentrations of Chlorpyrifos on Three Successive Generations of Daphnia carinata|Ecotoxicol. Environ. Saf.64(2): 207-214|2006|10.1016/j.ecoenv.2005.03.015
107387|T||Hagman,M., and T. Eriksson|Development of Tolerance to the Plasma Amino Acid-Decreasing Effect of Ethanol in the Rat|J. Pharm. Pharmacol.43(9): 625-629|1991|10.1111/j.2042-7158.1991.tb03551.x
107388|T||Childers,C.C., and H.N. Nigg|Contact Toxicity of Insecticides to Adults of the Coffee Bean Weevil (Coleoptera:  Anthribidae)|J. Econ. Entomol.75(3): 556-559|1982|10.1093/jee/75.3.556
107389|A||Talikina,M.G., Y.G. Izyumov, A.N. Kas'yanov, and G.A. Papchenkova|The Effect of Toxic Substances in the Period of Embryogenesis on the Survival, Size and Weight Parameters, and Gonad Formation in Fingerlings of Roach Rutilus rutilus|J. Ichthyol.39(4): 329-337|1999|
107390|A||Talikina,M.G., Y.G. Izyumov, and Y.V. Chebotareva|Remote Genotoxic Responses in Fingerlings of the Roach Rutilus rutilus After Effects of Organic Poisons to Parents' Sperm|J. Ichthyol.43(4): 316-321|2003|
107391|A||Talikina,M.G., Y.G. Izyumov, and Y.V. Chebotareva|Aberrant Mitoses and Histopathology of Gonads in Fingerlings of Roach Rutilus rutilus After Toxic Effects in Embryonic and Larval Periods of Development|J. Ichthyol.41(3): 239-245|2001|
107392|T||Kallapur,V.L., and V.B. Yadwad|Changes in Fuel Reserves of the Premoult Field Crab Paratelphusa hydrodromus (Milne-Edwards) Following Endosulfan Treatment|Indian J. Exp. Biol.24(6): 378-380|1986|
107393|A||Miyashita,M.|Effects of a Short Period Exposure of Fenitrothion on the Reproduction of Pregnant Females of the Guppy, Poecilia reticulata|Jpn. J. Hyg. (Non-English)39(3): 647-650|1984|
107394|T||Kiran,R., and M.N. Varma|Age Related Toxic Effects of Endosulfan on Certain Enzymes of Rat Erythrocytes|Indian J. Exp. Biol.28(7): 694-696|1990|
107395|T||Seth,P.K., N.F. Saidi, A.K. Agrawal, and M. Anand|Neurotoxicity of Endosulfan in Young and Adult Rats|Neurotoxicology7(2): 623-636|1986|
107396|T||Singh,S.K., and R.S. Pandey|Toxicity of Endosulfan on Kidney of Male Rats in Relation to Drug Metabolizing Enzymes and Microsomal Lipid Peroxidation|Indian J. Exp. Biol.27(8): 725-728|1989|
107397|T||Singh,S.K., and R.S. Pandey|Ethanol Potentiates In Vivo Hepatotoxicity of Endosulfan in Adult Male Rats|Indian J. Exp. Biol.29(11): 1035-1038|1991|
107399|T||Fukamachi,K., B.S. Han, C.K. Kim, N. Takasuka, Y. Matsuoka, E. Matsuda, T. Yamasaki, and H. Tsuda|Possible Enhancing Effects of Atrazine and Nonylphenol on 7,12-Dimethylbenz(a)anthracene-Induced Mammary Tumor Development in Human c-Ha-ras Proto-Oncogene Transgenic Rats|Cancer Sci.95(5): 404-410|2004|10.1111/j.1349-7006.2004.tb03223.x
107400|T||Aire,T.A.|Short-Term Effects of Carbendazim on the Gross and Microscopic Features of the Testes of Japanese Quails (Coturnix coturnix japonica)|Anat. Embryol.210(1): 43-49|2005|10.1007/s00429-005-0001-0
107401|T||Georgieva,V., R. Vachkova, M. Tzoneva, and A. Kappas|Genotoxic Activity of Benomyl in Different Test Systems|Environ. Mol. Mutagen.16(1): 32-36|1990|10.1002/em.2850160106
107402|T||Ellis,W.G., J.L. Semple, E.R. Hoogenboom, R.J. Kavlock, and F.J. Zeman|Benomyl-Induced Craniocerebral Anomalies in Fetuses of Adequately Nourished and Protein-Deprived Rats|Teratog. Carcinog. Mutagen.7(4): 357-375|1987|10.1002/tcm.1770070404
107403|A||Mulla,M.S.|Biocidal and Biostatic Activity of Aliphatic Amines Against Southern House Mosquito Larvae and Pupae|J. Econ. Entomol.60(2): 515-522|1967|10.1093/jee/60.2.515
107404|T||Storry,J.E., P.E. Brumby, A.J. Hall, and V.W. Johnson|Response of the Lactating Cow to Different Methods of Incorporating Casein and Coconut Oil in the Diet|J. Dairy Sci.57(1): 61-67|1974|10.3168/jds.S0022-0302(74)84832-0
107405|T||Simpkins,J.W., J.C. Eldridge, and L.T. Wetzel|Role of Strain-Specific Reproductive Patterns in the Appearance of Mammary Tumors in Atrazine-Treated Rats|ACS Symp. Ser.683:399-413|1998|10.1021/bk-1998-0683.ch031
107407|T||Rao,M., K. Narayana, S. Benjamin, and K.L. Bairy|L-Ascorbic Acid Ameliorates Postnatal Endosulfan Induced Testicular Damage in Rats|Indian J. Physiol. Pharmacol.49(3): 331-336|2005|
107408|T||Sasikala,K., and V. Krishnasamy|Effect of Pre-Harvest Spraying of Some Pesticides on Yield and Quality of Cowpea Seed|Seed Res.23(2): 102-107|1995|
107409|T||Wisniewski,K., E. Zawadzka, and D. Komierska-Grodzka|Influence of Phosphororganic Radioprotective Drugs on Postirradiation Changes of Reactivity to Barium Chloride in Guinea Pig Intestine|Strahlentherapie148(1): 107-115|1974|
107410|T||Kocmierska-Grodzka,D.|Influence of Trichlorfon and Fractionated Irradiation on Hydroproteolytic Activity of Pancreas and Intestinal Tissues of Rats|Strahlentherapie151(3): 278-284|1976|
107411|T||Raizada,R.B., M.K. Srivastava, R.A. Kaushal, R.P. Singh, K.P. Gupta, and T.S.S. Dikshith|Dermal Toxicity of Hexachlorocyclohexane and Pirimiphos-Methyl in Female Rats|Vet. Hum. Toxicol.36(2): 128-130|1994|
107412|T||Neskovic,N.K., V.Z. Karan, V. Sabovljevic, and S.L. Vitorovic|Toxic Effects of Pirimiphos-Methyl Residues on Rats|Biomed. Environ. Sci.2(2): 115-130|1989|
107413|T||Rajini,P.S., Muralidhara, M.K. Krishnakumari, and S.K. Majumder|Protective Effect of a few Dietary Fibres on Pirimiphos-Methyl Induced Toxicity in Albino Rats|Nutr. Rep. Int.32(3): 615-622|1985|
107414|T||Rajini,P.S., and M.K. Krishnakumari|Effect of L-Ascorbic Acid Supplementation on the Toxicity of Pirimiphos-Methyl to Albino Rats|Int. J. Vitam. Nutr. Res.55(4): 421-424|1985|
107415|T||Kocmierska-Grodzka,D., and J. Radwan|Further Investigations on the Radioprotective Effectiveness of Tianabol and Other Drugs in Fractionatedly Irradiated Rats|Strahlentherapie150(1): 91-96|1975|
107417|A||Subbiah,G.N., R. Buvana, and N. Meenakshi|A Study on the Treatment of Insecticide Polluted Water|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(4): 361-366|1987|
107418|T||Mantle,D., M.A. Saleem, F.M. Williams, R.M. Wilkins, and A.R. Shakoori|Effect of Pirimiphos-Methyl on Proteolytic Enzyme Activities in Rat Heart, Kidney, Brain and Liver Tissues In Vivo|Clin. Chim. Acta262(1/2): 89-97|1997|10.1016/S0009-8981(97)06541-8
107419|A||Kavitha,P., A. Amsath, and K. Muthukumaravel|Individual and Synergistic Effects of Endosulfan and BHC Pesticides on Biochemical Constituents of Aquatic Insect, Sphaerodema rusticum|J. Environ. Pollut.8(2): 201-203|2001|
107420|A||Kumar,K., and P. Patri|Variations in Biochemical Composition of Climbing Perch Anabas testudineus (Bloch.) in Response to Endosulfan Toxicity|J. Environ. Pollut.7(2): 135-141|2000|
107422|T||Usha Rani,M.V., and P.P. Reddy|Cytogenetic Effects of Aldrin and Endosulfan in Mice|IRCS (Int. Res. Commun. Syst.) Med. Sci.14(11): 1125-1126|1986|
107423|T||Watters,B.S., and S.R. Sturgeon|The Toxicity of Some Foliar Nutrients and Fungicides to Apple Pollen cv. Golden Delicious|Tests Agrochem. Cultiv.11:70-71|1990|
107424|T||Watters,B.S., and S.R. Sturgeon|The Toxicity of Some Fungicides to Apple Pollen|Tests Agrochem. Cultiv.14:84-85|1993|
107425|T||Hendi,A., and A.S.H. Kansouh|The Effects of Two Systemic Fungicides on the Biology of Wheat Aphids Under Laboratory Conditions|J. Appl. Entomol.106(4): 422-424|1988|10.1111/j.1439-0418.1988.tb00614.x
107426|T||Omurtag,G.Z., A. Tozan, A.O. Sehirli, and G. Sener|Melatonin Protects Against Endosulfan-Induced Oxidative Tissue Damage in Rats|J. Pineal Res.44(4): 432-438|2008|10.1111/j.1600-079X.2007.00546.x
107427|A||Bhatia,N.P., M.S. Johal, and G.S. Sandhu|Endosulfan Induced Changes in Alkaline and Acid Phosphatase Activity in Liver and Muscle of Heteropneustes fossilis (Bloch)|Res. Bull. Panjab Univ. Sci.54(1-4): 127-130|2004|
107428|T||Sanhotra,M.K., A.K. Pal, H.S. Kushwah, and I.C. Dutta|Role of Dietary Protein Against In Vivo Exposure of Endosulfan on Lipid Pattern of Rat Erythrocytes|Indian Vet. Med. J.20(4): 295-298|1996|
107430|T||Kocmierska-Grodzka,D.|Comparative Studies on the Influence of Some Radioprotectors on the Postirradiation Hydrolytic Function of Subcellular Fractions of Pancreas|Strahlentherapie153(12): 837-842|1977|
107431|T||Sandhu,S.S., P. Chander, J. Singh, and A.S. Sidhu|Effect of Insecticidal Sprays on the Plant and Secondary Pest Inductions in Hirsutum Cotton in Punjab|Agric. Ecosyst. Environ.19(2): 169-176|1987|10.1016/0167-8809(87)90016-8
107432|T||Sriram,K., and U.K. Misra|Interaction of Endosulfan and Dietary Vitamin A on Rat Hepatic Drug Metabolising Enzymes|Acta Vitaminol. Enzymol.5(4): 213-218|1983|
107433|T||Sakuma,M., H. Fukami, and Y. Kuwahara|Attractiveness of Alkylamines and Aminoalcohols Related to the Aggregation Attractant Pheromone of the German Cockroach, Blattella germanica (L.) (Dictyoptera:  Blattellidae)|Appl. Entomol. Zool.32(1): 197-205|1997|10.1303/aez.32.197
107434|T||Badejo,M.A., and N.M. Van Straalen|Effects of Atrazine on Growth and Reproduction of Orchesella cincta (Collembola)|Pedobiologia (Multiple Languages)36:221-230|1992|10.1016/S0031-4056(24)00767-4
107435|A||Schmitt-Jansen,M., and R. Altenburger|The Use of Pulse-Amplitude Modulated (PAM) Fluorescence-Based Methods to Evaluate Effects of Herbicides in Microalgal Systems of Different Complexity|Toxicol. Environ. Chem.89(4): 665-681|2007|10.1080/02772240701561601
107436|T||Tatematsu,K., K. Nakabayashi, Y. Kamiya, and E. Nambara|Transcription Factor AtTCP14 Regulates Embryonic Growth Potential During Seed Germination in Arabidopsis thaliana|Plant J.53(1): 42-52|2008|10.1111/j.1365-313X.2007.03308.x
107437|T||Buruiana,L.M., A. Lozinschi, and C. Badescu|The Persistance in the Blood of Hens of Organo-Phosphoric Compounds, Applied by Different Ways|Wiad. Parazytol.18(4): 697-702|1972|
107438|T||Rejniak,L., S. Siuda, and M.M. Winnicka|Effect of Foschlor on the Thyroid Gland of White Rat|Zool. Pol.26(2): 261-269|1977|
107439|T||Hallett,D.J., R. Greenhalgh, P. Weinberger, and R. Prasad|The Absorption of Fenitrothion During Germination of Stratified and Nonstratified White Pine Seeds and Identification of Metabolites Formed|Can. J. For. Res.5(1): 84-89|1975|10.1139/x75-012
107440|T||Levine,S., and R. Sowinski|Tin Salts Prevent the Plasma Cell Response to Metallic Tin in Lewis Rats|Toxicol. Appl. Pharmacol.68(1): 110-115|1983|10.1016/0041-008X(83)90359-9
107441|T||Jung,H.J., and H. Kang|Expression and Functional Analyses of MicroRNA417 in Arabidopsis thaliana Under Stress Conditions|Plant Physiol. Biochem.45(10-11): 805-811|2007|10.1016/j.plaphy.2007.07.015
107442|T||Tasma,I.M., V. Brendel, S.A. Whitham, and M.K. Bhattacharyya|Expression and Evolution of the Phosphoinositide-Specific Phospholipase C Gene Family in Arabidopsis thaliana|Plant Physiol. Biochem.46(7): 627-637|2008|10.1016/j.plaphy.2008.04.015
107443|T||Padki,M.M., and M.B. Bhide|Protective Antibodies to Fenitrooxon|Indian J. Med. Res.79:137-141|1984|
107444|AT||Shanmugasundaram,R., and O.S. Kandasamy|Degradation and Persistence of Paraquat in Water Under Aquatic Weed Control|Adv. Plant Sci.18(2): 841-844|2005|
107445|T||Smith,L.W., and C.L. Foy|Interactions of Several Paraquat-Surfactant Mixtures|Weeds (Urbana)15:67-72|1966|10.2307/4041071
107446|T||Lichtenstein,E.P., and K.R. Schulz|Volatilization of Insecticides from Various Substrates|J. Agric. Food Chem.18(5): 814-818|1970|10.1021/jf60171a016
107447|T||Semtner,P.J., W.B. Wilkinson III, and J. Walton|Tobacco Aphid and Tobacco Flea Beetle Control with Soil Insecticides, 1992|Insectic. Acaric. Tests18:291-|1993|10.1093/iat/18.1.291
107448|T||Redondo-Gomez,S., E. Mateos-Naranjo, A.J. Davy, F. Fernandez-Munoz, E.M. Castellanos, T. Luque, and M.E. Figueroa|Growth and Photosynthetic Responses to Salinity of the Salt-Marsh Shrub Atriplex portulacoides|Ann. Bot.100(3): 555-563|2007|10.1093/aob/mcm119
107449|AT||Zaim,M., and H.D. Newson|Larval Development and Oviposition Behavior of Aedes triseriatus (Diptera: Culicidae) as Affected by Varying Concentrations of Sodium Chloride and Calcium Nitrate in the Water|Environ. Entomol.8(2): 326-329|1979|10.1093/ee/8.2.326
107450|A||Volkmann,H., U. Imianovsky, J.L.B. Oliveira, and E.S.S. Anna|Cultivation of Arthrospira (Spirulina) platensis in Desalinator Wastewater and Salinated Synthetic Medium:  Protein Content and Amino-Acid Profile|Braz. J. Microbiol.39(1): 98-101|2008|10.1590/S1517-83822008000100022
107452|T||Baggott,J.E., T. Ha, W.H. Vaughn, M.M. Juliana, J.M. Hardin, and C.J. Grubbs|Effect of Miso (Japanese Soybean Paste) and NaCl on DMBA-Induced Rat Mammary Tumors|Nutr.Cancer14:103-109|1990|10.1080/01635589009514083
107453|T||Kurata,Y., S. Tamano, M.A. Shibata, A. Hagiwara, S. Fukushima, and N. Ito|Lack of Carcinogenicity of Magnesium Chloride in a Long-Term Feeding Study in B6C3F1 Mice|Food Chem. Toxicol.27(9): 559-563|1989|10.1016/0278-6915(89)90014-8
107454|T||Clough,R.W., P.F. Aravich, and C.D. Sladek|Monosodium Glutamate Neurotoxicity:  A Sex-Specific Impairment of Blood Pressure but not Vasopressin in Developing Rats|Brain Res. Bull.17(1): 51-58|1986|10.1016/0361-9230(86)90160-7
107455|T||Tewksbury,J.J., K.M. Reagan, N.J. Machnicki, T.A. Carlo, D.C. Haak, A.L.C. Penaloza, and D.J. Levey|Evolutionary Ecology of Pungency in Wild Chilies|Proc. Natl. Acad. Sci. U.S.A.105(33): 11808-11811|2008|10.1073/pnas.0802691105
107456|T||Shan,D.P., J.G. Huang, Y.T. Yang, Y.H. Guo, C.A. Wu, G.D. Yang, Z. Gao, and C.C. Zheng|Cotton GhDREB1 Increases Plant Tolerance to Low Temperature and is Negatively Regulated by Gibberellic Acid|New Phytol.176(1): 70-81|2007|10.1111/j.1469-8137.2007.02160.x
107459|T||Renault,S., A.J. De Lucca, S. Boue, J.M. Bland, C.B. Vigo, and C.P. Selitrennikoff|CAY-1, a Novel Antifungal Compound from Cayenne Pepper|Med. Mycol.41(1): 75-82|2003|10.1080/mmy.41.1.75.82
107460|A||Pontis,H.G., W.A. Vargas, and G.L. Salerno|Structural Characterization of the Members of a Polymer Series, Compatible Solutes in Anabaena Cells Exposed to Salt Stress|Plant Sci.172(1): 29-35|2007|10.1016/j.plantsci.2006.07.007
107461|T||Wang,G., and E. Pichersky|Nicotinamidase Participates in the Salvage Pathway of NAD Biosynthesis in Arabidopsis|Plant J.49(6): 1020-1029|2007|10.1111/j.1365-313X.2006.03013.x
107462|T||Zhou,Z., D. Zhang, and M. Lu|Cloning and Expression Analysis of PtFATB Gene Encoding the Acyl-acyl Carrier Protein Thioesterase in Populus tomentosa Carr|J. Genet. Genom.34(3): 267-274|2007|10.1016/S1673-8527(07)60028-9
107464|A||Carneiro,P.C.F., and E.C. Urbinati|Salt as a Stress Response Mitigator of Matrinxa, Brycon cephalus (Gunther), During Transport|Aquac. Res.32(4): 297-304|2001|10.1046/j.1365-2109.2001.00558.x
107465|T||Parida,A.K., A.B. Das, and P. Mohanty|Defense Potentials to NaCl in a Mangrove, Bruguiera parviflora:  Differential Changes of Isoforms of Some Antioxidative Enzymes|J. Plant Physiol.161(5): 531-542|2004|10.1078/0176-1617-01084
107466|T||Sorbye,H., H. Maartmann-Moe, and K. Svanes|Gastric Carcinogenesis in Rats Given Hypertonic Salt at Different Times Before a Single Dose of N-Methyl-N'-Nitro-N-Nitrosoguanidine|J. Cancer Res. Clin. Oncol.120(3): 159-163|1994|10.1007/BF01202195
107467|T||Tyler,J.W., E.G. Welles, R.J. Erskine, H.C. Lin, M.A. Williams, J.S. Spano, J.T. Gaslin, and K.A. McClure|Clinical and Clinicopathologic Changes in Cows with Endotoxin-Induced Mastitis Treated with Small Volumes of Isotonic or Hypertonic Sodium Chloride Administered Intravenously|Am. J. Vet. Res.55(2): 278-287|1994|10.2460/ajvr.1994.55.02.278
107468|T||Watanabe,H., T. Okamoto, T. Takahashi, P.O. Ogundigie, and A. Ito|The Effects of Sodium Chloride, Miso or Ethanol on Development of Intestinal Metaplasia After X-Irradiation of the Rat Glandular Stomach|Jpn. J. Cancer Res.83:1267-1272|1992|10.1111/j.1349-7006.1992.tb02757.x
107469|T||Osunlaja,S.O.|Tillage Effects on the Incidence and Severity of Root and Stalk Rot of Maize Caused by Fusarium moniliforme and Macrophomina phaseolina in South-Western Nigeria|J. Phytopathol.130(4): 312-316|1990|10.1111/j.1439-0434.1990.tb01181.x
107470|T||Shibamoto,T., and T. Kobayashi|Acute Effect of Paraquat on Lung Fluid Balance and Prostanoid Production in Awake Sheep|Am. Rev. Respir. Dis.134(6): 1252-1257|1986|
107471|T||Furihata,C., A. Yamakoshi, R. Takezawa, and T. Matsushima|Various Sodium Salts, Potassium Salts, a Calcium Salt and an Ammonium Salt Induced Ornithine Decarboxylase and Stimulated DNA Synthesis in Rat Stomach Mucosa|Jpn. J. Cancer Res.80(5): 424-429|1989|10.1111/j.1349-7006.1989.tb02331.x
107472|T||Dien Ekpenyong,G.|The Effect of Flooding and Sodium Chloride on the Development of Amblyomma variegatum (Fabricius, 1974) (Acarina:  Ixodidae)|Acarologia34(2): 123-130|1993|
107473|A||Ferroni,L., C. Baldisserotto, L. Pantaleoni, P. Billi, M.P. Fasulo, and S. Pancaldi|High Salinity Alters Chloroplast Morpho-Physiology in a Freshwater Kirchneriella Species (Selenastraceae) from Ethiopian Lake Awasa|Am. J. Bot.94(12): 1972-1983|2007|10.3732/ajb.94.12.1972
107474|T||Pierce,J.D., C. Goodyear-Bruch, S. Hall, G.A. Reed, and R.L. Clancy|Dopamine Alleviation of Diaphragm Contractile Dysfunction and Reduction of Deoxyribonucleic Acid Damage in Rats|Heart Lung37(2): 132-143|2008|10.1016/j.hrtlng.2007.05.011
107475|T||Riccio,M.M., S. Manzini, and C.P. Page|The Effect of Neonatal Capsaicin on the Development of Bronchial Hyperresponsiveness in Allergic Rabbits|Eur. J. Pharmacol.232(1): 89-97|1993|10.1016/0014-2999(93)90732-W
107476|T||Sivakumar,C.V.|Disinfestation of White Tip Nematode in Rice Seeds|Indian J. Nematol.17(1): 148-149|1987|
107477|T||Aboul-Ela,E.I.|The Protective Effect of Calcium Against Genotoxicity of Lead Acetate Administration on Bone Marrow and Spermatocyte Cells of Mice In Vivo|Mutat. Res.516(1-2): 1-9|2002|10.1016/S1383-5718(01)00332-1
107478|A||Singh,S.S., S.K. Singh, and A.K. Mishra|Na+ Regulation by Combined Nitrogen in Azolla pinnata-Anabaena azollae Symbiotic Association During Salt Toxicity|Ecotoxicol. Environ. Saf.69(1): 32-38|2008|10.1016/j.ecoenv.2007.04.001
107479|T||Li,N., S. Chen, X. Zhou, C. Li, J. Shao, R. Wang, E. Fritz, A. Huttermann, and A. Polle|Effect of NaCl on Photosynthesis, Salt Accumulation and Ion Compartmentation in Two Mangrove Species, Kandelia candel and Bruguiera gymnorhiza|Aquat. Bot.88(4): 303-310|2008|10.1016/j.aquabot.2007.12.003
107480|A||Yilmaz,D.D.|Effects of Salinity on Growth and Nickel Accumulation Capacity of Lemna gibba (Lemnaceae)|J. Hazard. Mater.147(1-2): 74-77|2007|10.1016/j.jhazmat.2006.12.047
107481|A||Drabkova,M., W. Admiraal, and B. Marsalek|Combined Exposure to Hydrogen Peroxide and Light-Selective Effects on Cyanobacteria, Green Algae, and Diatoms|Environ. Sci. Technol.41(1): 309-314|2007|10.1021/es060746i
107482|T||Sulakhe,S.J., V.B. Pulga, and S.T. Tran|Diethylnitrosamine-Induced Increase in gamma-Glutamyltranspeptidase in Rat Liver:  Its Association with Thyroid Hormone Deficiency and Its Reversal by tri-Iodothyronine|Int. J. Biochem.24(4): 643-651|1992|10.1016/0020-711X(92)90341-W
107483|T||Conlee,J.W., and S.M. Shapiro|Development of Cerebellar Hypoplasia in Jaundiced Gunn Rats:  A Quantitative Light Microscopic Analysis|Acta Neuropathol.93(5): 450-460|1997|10.1007/s004010050639
107484|A||Meinertz,J.R., S.L. Greseth, M.P. Gaikowski, and L.J. Schmidt|Chronic Toxicity of Hydrogen Peroxide to Daphnia magna in a Continuous Exposure, Flow-Through Test System|Sci. Total Environ.392(2-3): 225-232|2008|10.1016/j.scitotenv.2007.12.015
107485|A||Smit,M.G.D., E. Ebbens, R.G. Jak, and M.A.J. Huijbregts|Time and Concentration Dependency in the Potentially Affected Fraction of Species:  The Case of Hydrogen Peroxide Treatment of Ballast Water|Environ. Toxicol. Chem.27(3): 746-753|2008|10.1897/07-343.1
107486|T||Hsu,Y.T., and C.H. Kao|Toxicity in Leaves of Rice Exposed to Cadmium is due to Hydrogen Peroxide Accumulation|Plant Soil298(1-2): 231-241|2007|10.1007/s11104-007-9357-7
107487|T||Finlayson,M.J., and G.D. Bellward|Effects of Perinatal Exposure of Wistar Rats to L-alpha-Acetylmethadol HCl on Hepatic Microsomal Mixed-Function Oxidase  Enzyme Activity in the Adult|Drug Metab. Dispos.10(1): 74-76|1982|
107488|T||Singla-Pareek,S.L., S.K. Yadav, A. Pareek, M.K. Reddy, and S.K. Sopory|Enhancing Salt Tolerance in a Crop Plant by Overexpression of Glyoxalase II|Transgenic Res.17(2): 171-180|2008|10.1007/s11248-007-9082-2
107489|A||Fatma,T., M.A. Khan, and M. Choudhary|Impact of Environmental Pollution on Cyanobacterial Proline Content|J. Appl. Phycol.19(6): 625-629|2007|10.1007/s10811-007-9195-2
107490|T||Gramsbergen,J.B.P., L.V. Duin, L. Loopuijt, A.M.J. Paans, W. Vaalburg, and J. Korf|Imaging of the Degeneration of Neurons and Their Processes in Rat or Cat Brain by 45CaCl2 Autoradiography or 55CoCl2 Positron Emission Tomography|J. Neurochem.50(6): 1798-1807|1988|10.1111/j.1471-4159.1988.tb02481.x
107491|A||Phillips,A.M.,Jr.|The Physiological Effect of Sodium Chloride upon Brook Trout|Trans. Am. Fish. Soc.74:297-309|1944|10.1577/1548-8659(1944)74[297:TPEOSC]2.0.CO;2
107492|A||Srivastave,A., and E. Tel-Or|Effect of Some Environmental Pollutants on the Superoxide Dismutase Activity in Lemna|Free Radic. Res. Commun.12-13(2): 601-607|1991|10.3109/10715769109145836
107493|T||Santos,R.X., S.C.O. Melo, J.C.M. Cascardo, M. Brendel, and C. Pungartnik|Carbon Source-Dependent Variation of Acquired Mutagen Resistance of Moniliophthora perniciosa:  Similarities in Natural and Artificial Systems|Fungal Genet. Biol.45(6): 851-860|2008|10.1016/j.fgb.2008.02.005
107494|T||Swayne,D.E., A. Shlosberg, and R.B. Davis|Salt Poisoning in Turkey Poults|Avian Dis.30(4): 847-852|1986|10.2307/1590599
107495|A||Sarada,R., S. Bhattacharya, and G.A. Ravishankar|A Response Surface Approach for the Production of Natural Pigment Astaxanthin from Green Alga, Haematococcus pluvialis:  Effect of Sodium Acetate, Culture Age, and Sodium Chloride|Food Biotechnol.16(2): 107-120|2002|10.1081/FBT-120014322
107496|T||Moustafa,M.A., and M.M.T. El-Sherif|Biochemical Study on the Blood of Normal Sheep as well as Those Experimentally Intoxicated with the Organophosphorus Compound Neguvon|Pak. J. Biochem.9(1): 37-40|1976|
107497|A||Rangaswamy,C., and B.P. Naidu|Effect of Endosulfan on Oxygen Equilibrium Curves of Blood of Food Fish Oreochromis mossambicus (Peters)|Indian J. Exp. Biol.37(2): 166-168|1999|
107498|A||Tripathi,G., and S.P. Shukla|Malate and Lactate Dehydrogenases of a Freshwater Catfish:  Impact of Endosulfan|Biomed. Environ. Sci.3:52-64|1990|
107499|A||Venkateshwarlu,M., M. Shanmugam, and D.S. Somashekar|Changes in Tissue Carbohydrate and Lipid Levels in the Fresh Water Crab Barytelphusa cunicularis (W.) on Endosulfan Stress|Pestic. Res. J.17(2): 70-73|2005|
107500|T||Darvas,B., J. Zdarek, T. Timar, and M.H.T. El-Din|Effects of the Bipyridylium Herbicides Diquat Dibromide and Paraquat Dichloride on Growth and Development of Neobellieria bullata (Diptera: Sarcophagidae) Larvae|J. Econ. Entomol.83(6): 2175-2180|1990|10.1093/jee/83.6.2175
107501|A||Hashemi,S., R. Blust, and G. De Boeck|Combined Effects of Different Food Rations and Sublethal Copper Exposure on Growth and Energy Metabolism in Common Carp|Arch. Environ. Contam. Toxicol.54(2): 318-324|2008|10.1007/s00244-007-9017-1
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107603|A||Cavaletto,M., A. Ghezzi, B. Burlando, V. Evangelisti, N. Ceratto, and A. Viarengo|Effect of Hydrogen Peroxide on Antioxidant Enzymes and Metallothionein Level in the Digestive Gland of Mytilus galloprovincialis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.131(4): 447-455|2002|10.1016/S1532-0456(02)00030-3
107604|A||Gaitanaki,C., E. Kefaloyianni, A. Marmari, and I. Beis|Various Stressors Rapidly Activate the p38-MAPK Signaling Pathway in Mytilus galloprovincialis (Lam.)|Mol. Cell. Biochem.260(1-2): 119-127|2004|10.1023/B:MCBI.0000026064.73671.91
107605|A||Gavand,M.R., J.B. McClintock, C.D. Amsler, R.W. Peters, and R.A. Angus|Effects of Sonication and Advanced Chemical Oxidants on the Unicellular Green Alga Dunaliella tertiolecta and Cysts, Larvae and Adults of the Brine Shrimp Artemia salina:  A Prospective Treatment to Eradicate Invasive O|Mar. Pollut. Bull.54(11): 1777-1788|2007|10.1016/j.marpolbul.2007.07.012
107606|A||Hirose,K., B. Ezaki, T. Liu, and S. Nakashima|Diamide Stress Induces a Metallothionein BmtA Through a Repressor BxmR and is Modulated by Zn-Inducible BmtA in the Cyanobacterium Oscillatoria brevis|Toxicol. Lett.163(3): 250-256|2006|10.1016/j.toxlet.2005.11.008
107607|T||Hong,C.Y., Y.T. Hsu, Y.C. Tsai, and C.H. Kao|Expression of Ascorbate Peroxidase 8 in Roots of Rice (Oryza sativa L.) Seedlings in Response to NaCl|J. Exp. Bot.58(12): 3273-3283|2007|10.1093/jxb/erm174
107608|A||Hook,S.E., and R.F. Lee|Genotoxicant Induced DNA Damage and Repair in Early and Late Developmental Stages of the Grass Shrimp Paleomonetes pugio Embryo as Measured by the Comet Assay|Aquat. Toxicol.66(1): 1-14|2004|10.1016/j.aquatox.2003.06.002
107609|AT||Houot,L., M. Floutier, B. Marteyn, M. Michaut, A. Picciocchi, P. Legrain, J.C. Aude, C. Cassier-Chauvat, and F. Chauvat|Cadmium Triggers an Integrated Reprogramming of the Metabolism of Synechocystis PCC6803, Under the Control of the Slr1738 Regulator|BMC Genomics:1-16|2007|
107610|T||Trottier,B., A.R. Fraser, G. Planet, and D.J. Ecobichon|Subacute Toxicity of Technical Fenitrothion in Male Rats|Toxicology17:29-38|1980|10.1016/0300-483X(80)90024-4
107611|T||Dikshith,T.S.S., and R.B. Raizada|Response of Carbon Tetrachloride Pretreated Rats to Endosulfan, Carbaryl and Phosphamidon|Ind. Health21(4): 263-271|1983|10.2486/indhealth.21.263
107612|A||Joseph,K.O., B.P. Gupta, K.K. Krishnani, and M. Muralidhar|Acute Toxicity of Selected Pesticides on the Prawn Penaeus monodon|Indian J. Fish.46(1): 101-105|1999|
107613|A||Dimond,J.B., and S.A. Malcolm|Accothion and Aquatic Insects:  Monitoring of Stream Populations|In: Nash, Peterson and Chansler (Eds.), Environmental Studies in the Use of Accothion for Spruce Budowrm Control, a Cooperative Study by the State of Maine, U.S. Dep. of Agric. and U.S.D.I.:60-68|1971|
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107615|T||Rabindra,R.J., S. Jayaraj, and M. Balasubramanian|Efficacy of Nuclear Polyhedrosis Virus for the Control of Heliothis armigera (Hubner) Infesting Sunflower|J. Entomol. Res.9(2): 246-248|1985|
107616|T||Paul,V., S. Sheela, E. Balasubramaniam, and M. Kazi|Behavioural and Biochemical Changes Produced by Repeated Oral Administration of the Insecticide Endosulfan in Immature Rats|Indian J. Physiol. Pharmacol.37(3): 204-208|1993|
107617|A||Basak,P.K., and S.K. Konar|A New Method for the Determination of Safe Concentrations of Insecticides to Protect Fishes|Indian J. Environ. Health19(4): 283-292|1977|
107618|A||Lembi,C.A., and T. Chand|Response of Hydrilla and Eurasian Watermilfoil to Flurprimidol Concentrations and Exposure Times|J. Aquat. Plant Manag.30:6-9|1992|
107619|T||Tabrizchi,R., and C.C.Y. Pang|Influence of Intravenous Infusion of Ethanol on Regional Blood Flow in Conscious Rats|J. Pharm. Pharmacol.45(2): 151-153|1993|10.1111/j.2042-7158.1993.tb03704.x
107620|AT||Van den Brink,F.W.B., and G. Van der Velde|Growth and Morphology of Four Freshwater Macrophytes Under the Impact of the Raised Salinity Level of the Lower Rhine|Aquat. Bot.45(4): 285-297|1993|10.1016/0304-3770(93)90029-V
107621|T||Damron,B.L.|Sodium Chloride Concentration in Drinking Water and Eggshell Quality|Poult. Sci.77(10): 1488-1491|1998|10.1093/ps/77.10.1488
107622|A||Gregor,J., D. Jancula, and B. Marsalek|Growth Assays with Mixed Cultures of Cyanobacteria and Algae Assessed by In Vivo Fluorescence:  One Step Closer to Real Ecosystems?|Chemosphere70(10): 1873-1878|2008|10.1016/j.chemosphere.2007.07.073
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107625|T||Nussbaumer,J.C., and P.D. Wall|Expansion of Receptive Fields in the Mouse Cortical Barrelfield After Administration of Capsaicin to Neonates or Local Application on the Infraorbital Nerve in Adults|Brain Res.360(1-2): 1-9|1985|10.1016/0006-8993(85)91213-2
107626|T||Diez Guerra,F.J., M. Zaidi, P. Bevis, I. MacIntyre, and P.C. Emson|Evidence for Release of Calcitonin Gene-Related Peptide and Neurokinin A from Sensory Nerve Endings In Vivo|Neuroscience25(3): 839-846|1988|10.1016/0306-4522(88)90039-5
107627|T||Tyagi,S.R., K. Sriram, S. Narayan, and U.K. Misra|Induction of Cytochrome P-450 and Phosphatidylcholine Synthesis by Endosulfan in Liver of Rats:  Effect of Quality of Dietary Proteins|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes20(6): 651-664|1985|
107628|T||Ghosh,M.K., and R.C. Srivastava|The Effect of Bavistin on Chlorophyll, Total Sugars, Soluble Protein and In Vivo Nitrate Reductase Activity in Leaves of Quercus serrata|Geobios21(4): 237-242|1994|
107629|T||Akahori,F., and F.W. Oehme|Inhibition of Collagen Synthesis as a Treatment for Paraquat Poisoning|Vet. Hum. Toxicol.25(5): 321-327|1983|
107631|T||Webb,D.B.|The Pathophysiology of Paraquat Nephrotoxicity in the Sheep|J. Toxicol. Clin. Toxicol.19(9): 911-929|1982|10.3109/15563658208992525
107632|T||Chakravarty,S.K.|Effect of Bavistin 25 DS on Germination and Seedling Vigour of Wheat|Pesticides 20(3): 23, 30 -|1986|
107633|T||Thomas,D.T., A.J. Rintoul, and D.G. Masters|Increasing Dietary Sodium Chloride Increases Wool Growth but Decreases In Vivo Organic Matter Digestibility in Sheep Across a Range of Diets|Aust. J. Agric. Res.58(11): 1023-1030|2007|10.1071/AR07032
107634|A||Opitz,R., F. Schmidt, T. Braunbeck, S. Wuertz, and W. Kloas|Perchlorate and Ethylenethiourea Induce Different Histological and Molecular Alterations in a Non-Mammalian Vertebrate Model of Thyroid Goitrogenesis|Mol. Cell. Endocrinol.298:101-114|2009|10.1016/j.mce.2008.08.020
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107636|T||Lundblad,L., J.M. Lundberg, and A. Anggard|Local and Systemic Capsaicin Pretreatment Inhibits Sneezing and the Increase in Nasal Vascular Permeability Induced by Certain Chemical Irritants|Naunyn-Schmiedeberg's Arch. Pharmacol.326(3): 254-261|1984|10.1007/BF00505327
107637|T||Jafri,R.H., and M. Ashraf|Gross Cytopathological Lesions in the Testes and Ovary of House Sparrow (Passer domesticus indicus Jardine et Selby) Treated by Microdilutious of Sodium Chloride (Natrum muraticum)|Biologia (Bratisl.)31(2): 349-362|1985|
107639|T||Prakash,L., M. Dutt, and G. Prathapasenan|NaCl Alters Contents of Nucleic Acids, Protein, Polyamines and the Activity of Agmatine Deiminase During Germination and Seedling Growth of Rice (Oryza sativa L.)|Aust. J. Plant Physiol.15(6): 769-776|1988|
107640|T||Ono,T., O. Wada, and S. Umemoto|Introduction of New Indices into Continuous Avoidance Test - a Trial to Detect the Effects of Sodium Chloride and Mannitol on Avoidance Behavior|J. Toxicol. Sci.12(4): 373-381|1987|10.2131/jts.12.373
107641|T||Seidel,C.L., and R. Strong|Metabolic Characteristics of Aorta from Spontaneously Hypertensive and Renal and Deoxycorticosterone Acetate-Salt Hypertensive Rats|Hypertension8(2): 103-108|1986|10.1161/01.HYP.8.2.103
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107643|T||Van Andel,O.M.|Mode of Action of L-Threo-beta-Phenylserine as a Chemotherapeutant of Cucumber Scab|Nature211(5046): 326-327|1966|10.1038/211326a0
107644|AT||Wilkinson,S.R., S.R. Prathalingam, M.C. Taylor, A. Ahmed, D. Horn, and J.M. Kelly|Functional Characterisation of the Iron Superoxide Dismutase Gene Repertoire in Trypanosoma brucei|Free Radic. Biol. Med.40(2): 198-209|2006|10.1016/j.freeradbiomed.2005.06.022
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107647|A||Fontenot,Q.C., J.J. Isely, and J.R. Tomasso|Uptake, Inhibition, and Depuration of Nitrite to Shortnose Sturgeon Acipenser brevirostrum Fingerlings|In: C.Kennedy and D.MacKinlay (Eds.), Fish Response to Toxic Environments, Towson Univ., Baltimore MD:127-130|1999|
107648|T||Sundaram,A., K.M.S. Sundaram, L. Sloane, R. Nott, and J. Curry|Influence of Additives in the End-Use Mixes of Tebufenozide on Deposition, Adhesion and Persistence in Spruce Foliage|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(4): 497-522|1997|
107650|T||Takeshita,M., K. Doi, K. Imaizumi, and T. Mitsuoka|Initial Lesions in the Mouse Brain Induced by Intraperitoneal Injection of Hypertonic Saline|Exp. Anim.38(1): 31-39|1989|10.1538/expanim1978.38.1_31
107651|A||Newsom,J.E., and K.B. Davis|Osmotic Responses of Haemolymph in Red Swamp Crayfish (Procambarus clarkii) and White River Crayfish (P. zonangulus) to Changes in Temperature and Salinity|Aquaculture126(3/4): 373-381|1994|10.1016/0044-8486(94)90053-1
107652|A||Kim,M.J., and J.K. Han|Hydrogen Peroxide-Induced Current in Xenopus oocytes: Current Characteristics Similar to Those Induced by the Removal of Extracellular Calcium|Biochem. Pharmacol.63(4): 569-576|2002|10.1016/S0006-2952(01)00884-X
107653|T||Ivanova,A.E., K.B. Aslanidi, Y.V. Karpenko, and T.A. Belozerskaya|The Effect of Hydrogen Peroxide on the Growth of Microscopic Mycelial Fungi Isolated from Habitats with Different Levels of Radioactive Contamination|Microbiology74(6): 655-663|2005|10.1007/s11021-005-0120-x
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107655|T||Bayne,A.C.V., R.J. Mockett, W.C. Orr, and R.S. Sohal|Enhanced Catabolism of Mitochondrial Superoxide/Hydrogen Peroxide and Aging in Transgenic Drosophila|Biochem. J. (Lond.)391(2): 277-284|2005|10.1042/BJ20041872
107656|A||Mulla,M.S., H.A. Darwazeh, and E.T. Schreiber|Impact of New Insect Growth Regulators and Their Formulations on Mosquito Larval Development in Impoundment and Floodwater Habitats|Am. Mosq. Control Assoc. J.5(1): 15-20|1989|
107657|T||Sharma,S.D., N.P. Kashyap, D. Raj, and A. Kumar|Effect of Formic Acid and Sulphur on the Brood and Longevity of Adult Apis mellifera L. Bees|Ann. Biol.10(1): 71-74|1994|
107660|T||Carter,S.D., and J.W. Laskey|Effect of Benomyl on Reproduction in the Male Rat|Toxicol. Lett.11(1-2): 87-94|1982|10.1016/0378-4274(82)90111-4
107661|T||Udom,C.E., and T.J. Smith|Hypolipidemic Effect of Metrifonate and the Relationship to Serum Cholinesterase Inhibition|Res. Commun. Chem. Pathol. Pharmacol.71(3): 387-390|1991|
107662|T||Knox,B., J. Askaa, A. Basse, V. Bitsch, M. Eskildsen, M. Mandrup, H.E. Ottosen, E. Overby, K.B. Pedersen, and F. Rasmus|Congenital Ataxia and Tremor with Cerebellar Hypoplasia in Piglets Borne by Sows Treated with Neguvon vet. (Metrifonate, Trichlorfon) During Pregnancy|Nord. Vetmed.30(12): 538-545|1978|
107663|A||Alkahem,H.F., A.S. Al-Akel, and Z. Ahmed|Carbohydrate Metabolism and Ethological Responses of Cichlid Fish, Oreochromis niloticus Exposed to Trichlorfon|Geobios25(1): 10-16|1998|
107664|T||Thomson,L.J., D.C. Glenn, and A.A. Hoffmann|Effects of Sulfur on Trichogramma Egg Parasitoids in Vineyards:  Measuring Toxic Effects and Establishing Release Windows|Aust. J. Exp. Agric.40(8): 1165-1171|2000|10.1071/EA00074
107665|T||Fischer,E., and L. Molnar|Environmental Aspects of the Chloragogenous Tissue of Earthworms|Soil Biol. Biochem.24(12): 1723-1727|1992|10.1016/0038-0717(92)90177-Y
107666|T||Raouf Hamid,M., and R. Looser|Effect of Capsaicin on the Locomotor Activity of Rats in the Residential Maze|J. Drug Res. Egypt15(1-2): 191-198|1984|
107667|T||El-Mofty,M.M., A.A. Soliman, A.F. Abdel-Gawad, S.A. Sakr, and M.H. Shwaireb|Carcinogenicity Testing of Black Pepper (Piper nigrum) Using the Egyptian Toad (Bufo regularis) as a Quick Biological Test Animal|Oncology45(3): 247-252|1988|10.1159/000226570
107668|T||De Lucca,A.J., J.M. Bland, C.B. Vigo, M. Cushion, C.P. Selitrennikoff, J. Peter, and T.J. Walsh|CAY-1, a Fungicidal Saponin from Capsicum sp. Fruit|Med. Mycol.40(2): 131-137|2002|10.1080/mmy.40.2.131.137
107669|T||Braga,P.C., G. Biella, and M. Tiengo|Effects of Capsaicin Peripherally Applied on Spontaneous and Evoked Activity of Thalamic Nociceptive Neurons in Rat|Med. Sci. Res.15(24): 1511-1512|1987|
107670|T||Baraz,L.A., V.M. Khayutin, and J. Molnar|Effects of Capsaicin Upon the Stimulatory Action of Potassium Chloride in the Visceral Branches of Spinal Afferents of the Cat|Acta Physiol. Acad. Sci. Hung.33(2): 237-246|1968|
107671|A||Culloty,S.C., and M.F. Mulcahy|An Evaluation of Anaesthetics for Ostrea edulis (L.)|Aquaculture107(2/3): 249-252|1992|10.1016/0044-8486(92)90073-T
107672|T||Shibata,M.A., S. Tamano, T. Shirai, M. Kawabe, and S. Fukushima|Inorganic Alkalizers and Acidifiers Under Conditions of High Urinary Na+ or K+ on Cell Proliferation and Two-Stage Carcinogenesis in the Rat Bladder|Jpn. J. Cancer Res.83(8): 821-829|1992|10.1111/j.1349-7006.1992.tb01986.x
107673|T||Sundaram,K.M.S.|Persistence and Fate of Tebufenozide (RH-5992) Insecticide in Terrestrial Microcosms of a Forest Environment Following Spray Application of Two Mimic Formulations|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes30(3): 321-358|1995|
107674|T||Furuse,Y., T. Masaoka, M. Nagayama, N. Kamijima, Y. Kuwada, K. Kageyama, M. Motoya, and F. Akahori|Effects of Tritoqualine on Paraquat Poisoning|Bull. Azabu Univ. Vet. Med.10(1/2): 25-30|1989|
107675|A||Thiagarajan,R., S. Gopalakrishnan, and H. Thilagam|Immunomodulation in the Marine Green Mussel Perna viridis Exposed to Sub-Lethal Concentrations of Cu and Hg|Arch. Environ. Contam. Toxicol.51(3): 392-399|2006|10.1007/s00244-005-0192-7
107676|A||De Croux,M.J.P., P. Arquiel, H. Ortega, and J.A. Lorente|Acute Toxicity of Paraquat to a Commonly Neotropical Fish Species (Apareiodon affinis) (Pisces, Hemiodidae)|Pol. Arch. Hydrobiol.46(1): 57-62|1999|
107677|T||Anderson,J.R., and E. Drew|"Effects of Pure Paraquat Dichloride, ""Gramoxone W"", and Formulation Additives on Soil Microbiological Activities.  1.  Estimations of Soil Biomass in Laboratory-Treated Soil"|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.131(2): 125-135|1976|10.1016/S0044-4057(76)80080-9
107679|T||Bynke,G., R. Hakanson, and J. Horig|Ocular Responses Evoked by Capsaicin and Prostaglandin E2 are Inhibited by a Substance P Antagonist|Experientia39(9): 996-998|1983|10.1007/BF01989769
107680|T||Bond,S.M., F. Cervero, and D.S. McQueen|Influence of Neonatally Administered Capsaicin on Baroreceptor and Chemoreceptor Reflexes in the Adult Rat|Br. J. Pharmacol.77(3): 517-524|1982|10.1111/j.1476-5381.1982.tb09326.x
107681|T||Agarwal,R.C., and S.V. Bhide|Histopathological Studies on Toxicity of Chilli (Capsaicin) in Syrian Golden Hamsters|Indian J. Exp. Biol.26(5): 377-382|1988|
107682|A||Venkatesalu,V., R.R. Kumar, and K.P. Chellappan|Sodium Chloride Stress on Organic Constituents of Sesuvium portulacastrum L., a Salt Marsh Halophyte|J. Plant Nutr.17(10): 1635-1645|1994|10.1080/01904169409364836
107684|T||Li,Y.M., H.Y.E. Chan, Y. Huang, and Z.Y. Chen|Green Tea Catechins Upregulate Superoxide Dismutase and Catalase in Fruit Flies|Mol. Nutr. Food Res.51(5): 546-554|2007|10.1002/mnfr.200600238
107685|A||Crowell,W.J., N.A. Proulx, and C.H. Welling|Effects of Repeated Fluridone Treatments over Nine Years to Control Eurasian Watermilfoil in a Mesotrophic Lake|J. Aquat. Plant Manag.44:133-136|2006|
107686|T||Hartwig,J., F. Maurer, J. Mahlstedt, A.D. Cohick, and B.J. Monke|MAT 7484 - Biological and Chemical Properties of a New Soil Insecticide|Br. Crop Prot. Conf. Pests Dis.(1): 35-42|1992|
107687|A||Baska,F., and F. Bona-Puppan|Losses Caused by the Snail Commensalist Chaetogaster limnaei Baer, 1827 Among Sterlet Larvae (Acipenser ruthenus L.)|Parasitol. Hung.25:79-83|1992|
107688|T||Raab,W.|Cholinesterase Activity of Rat Serum Following Renal Damage|Clin. Chim. Acta24(1): 135-138|1969|10.1016/0009-8981(69)90150-8
107689|T||Shmidl,J.A., M.L. Kohlenberg, and S.M. Kruckenberg|Safety Assessment of a Trichlorfon Paste Formulation in Horses|Vet. Med. Small Anim. Clin.78(3): 386-392|1983|
107690|T||Sundaram,K.M.S., W.N. Yule, and R. Prasad|Studies of Foliar Penetration, Movement and Persistence of C-14 Labelled Fenitrothion in Spruce and Fir Trees|Inf.Rep.CC-C85, Chem.Control Res.Inst.:17 p.|1975|
107692|T||Menezes,L.G., C. Sobreira, L. Neder, A.L. Rodrigues-Junior, and J.A.B. Martinez|Creatine Supplementation Attenuates Corticosteroid-Induced Muscle Wasting and Impairment of Exercise Performance in Rats|J. Appl. Physiol.102(2): 698-703|2007|10.1152/japplphysiol.01188.2005
107694|T||Qiu-Yue,H., H. Man-Fu, A. Ohnishi, T. Yamamoto, and Y. Murai|Differential Effects of Acrylamide on the Degeneration and Regeneration of Myelinated Fibers Between C57BL/Ola and C57BL/6J Mice After Crush Injury|J. UOEH19(4): 265-275|1997|
107695|A||Malley,D.F., and L.J. Tinker|Calcium Uptake:  A Sublethal Test for Crayfish|Can. Spec. Publ. Fish. Aquat. Sci.44:150-159|1979|
107696|A||Hammouda,O.H.E.|Superoxide Dismutase Level in Response to Paraquat and high Temperature in the Cyanobacterium Gloeocapsa sp.|Biol. Plant. (Praha)36(2): 229-236|1994|10.1007/BF02921091
107697|A||Packer,L.|The Bioenergetics of Salt Tolerance|DOE/ER/13736-T2, Dept.of Molecular and Cell Biology,Univ.of California, Berkeley, CA:6 p.|1991|
107698|A||Guo,Z., M. Huang, S.N. Lu, Z. Yaqing, and Q. Zhong|Differential Response to Paraquat Induced Oxidative Stress in Two Rice Cultivars on Antioxidants and Chlorophyll A Fluorescence|Acta Physiol. Plant.29(1): 39-46|2007|10.1007/s11738-006-0007-0
107699|T||Douze,J.M.C., and A.N.P. Van Heijst|The Paraquat Intoxication - Oxygen a Real Poison|Acta Pharmacol. Toxicol.41(Suppl. 2): 241-245|1977|
107700|T||Sundaram,A., K.M.S. Sundaram, and L. Sloane|Effect of Physical Properties and Surfactant Concentrations on Phase Separation in Tebufenozide Droplets:  Persistence and Bioactivity of the Insecticide in Spruce Foliage|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes32(2): 235-260|1997|
107701|T||De Jonge,J.D., J. Ezendam, L.M.J. Knippels, J. Odink, M.S. Pourier, A.H. Penninks, R. Pieters, and H. Van Loveren|Bis(tributyltin)Oxide (TBTO) Decreases the Food Allergic Response Against Peanut and Ovalbumin in Brown Norway Rats|Toxicology239(1-2): 68-76|2007|10.1016/j.tox.2007.06.090
107702|T||Jafari,M.|Dose- and Time-Dependent Effects of Sulfur Mustard on Antioxidant System in Liver and Brain of Rat|Toxicology231(1): 30-39|2007|10.1016/j.tox.2006.11.048
107704|T||Prashad,D.N., D. Chambers, and D.J. Beadle|Changes in Renal Function Associated with Paraquat Dichloride Toxicity in the Domestic Fowl|Gen. Pharmacol.12(4): 291-293|1981|10.1016/0306-3623(81)90061-6
107705|T||Lanie,A.J., J.L. Griffin, P.R. Vidrine, and D.B. Reynolds|Herbicide Combinations for Soybean (Glycine max) Planted in Stale Seedbed|Weed Technol.8(1): 17-22|1994|10.1017/S0890037X00039130
107706|A||Duan,Y.|Genetic Differentiation Among Populations of Hyalella and the Genetic Responses of H. azteca to Environmental Contaminants|Ph.D.Thesis, Miami University, Oxford, OH:131 p.|1997|
107707|A||Lebron Garcia,S.J.|Accumulation and Elimination of Copper by the Flat-Tree Oyster Isognomon alatus|M.S.Thesis, Univ.of Puerto Rico, Puerto Rico:66 p.|2007|
107708|T||Cuypers,A.|Phytotoxic Concentrations of Copper and Zinc Induce Antioxidative Defence in Phaseolus vulgaris, cv. Limburgse vroege:  A Comparative Study|Ph.D.Thesis, Limburgs Universitair Centrum, Belgium:131 p.|2000|
107709|T||Aburto,E.M.|Role of Selenium Supplementation in the Prevention of Copper-Induced Hepatocellular Damage in Fischer 344 Rats|Ph.D. Thesis, University of Prince Edward Island, Charlottetown, Canada:186 p.|1999|
107710|T||Ouf,S.A.|Mycoflora and Population Dynamics of Some Seedborne Fungi in Relation to the Fungicide Benlate|Zentbl. Mikrobiol.148(8): 570-581|1993|10.1016/S0232-4393(11)80221-0
107711|A||Apostol,S.|A Bioassay of Toxicity Using Protozoa in the Study of Aquatic Environment Pollution and Its Prevention|Environ. Res.6:365-372|1973|10.1016/0013-9351(73)90051-0
107712|A||Lin,B.L., and W.J. Yang|Blue Light and Abscisic Acid Independently Induce Heterophyllous Switch in Marsilea quadrifolia|Plant Physiol.119(2): 429-434|1999|10.1104/pp.119.2.429
107713|A||Kay,S.H.|Efficacy of Early-Season Fluridone Treatment for Management of Watermeal, Wolffia columbiana Karst.|J. Aquat. Plant Manag.29:42-45|1991|
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107716|T||Serrano,M., S. Robatzek, M. Torres, E. Kombrink, I.E. Somssich, M. Robinson, and P. Schulze-Lefert|Chemical Interference of Pathogen-Associated Molecular Pattern-Triggered Immune Responses in Arabidopsis Reveals a Potential Role for Fatty-Acid Synthase Type II Complex-Derived Lipid Signals|J. Biol. Chem.282(9): 6803-6811|2007|10.1074/jbc.M608792200
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107724|T||Parsai,S.K., H.R. Sahu, and R.K. Choudhary|Effect of Common Insecticides and Synthetic Pyrethroids on Flowers of Chickpea and Pigeonpea|Indian J. Plant Prot.18(2): 284-|1990|
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107731|T||Runko,A.P., A.J. Griswold, and K.T. Min|Overexpression of Frataxin in the Mitochondria Increases Resistance to Oxidative Stress and Extends Lifespan in Drosophila|FEBS Lett.582(5): 715-719|2008|10.1016/j.febslet.2008.01.046
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107735|T||Graham-Bryce,I.J., P.H. Nicholls, and I.H. Williams|Performance and Uptake of Some Carbendazim-Producing Fungicides Applied as Seed Treatments to Spring Barley, in Relation to Their Physicochemical Properties|Pestic. Sci.11(1): 1-8|1980|10.1002/ps.2780110102
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107739|T||Li,Y.M., H.Y.E. Chan, Y. Huang, and Z.Y. Chen|Broccoli (Brassica oleracea var. botrytis L.) Improves the Survival and Up-Regulates Endogenous Antioxidant Enzymes in Drosophila melanogaster Challenged with Reactive Oxygen Species|J. Sci. Food Agric.88(3): 499-506|2008|10.1002/jsfa.3113
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107742|T||El-Keblawy,A., F. Al-Ansari, N. Hassan, and N. Al-Shamsi|Salinity, Temperature and Light Affect Germination of Salsola imbricata|Seed Sci. Technol.35(2): 272-281|2007|10.15258/sst.2007.35.2.03
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107744|T||Agrawal,R.C., M. Wiessler, E. Hecker, and S.V. Bhide|Tumour-Promoting Effect of Chilli Extract in BALB/c Mice|Int. J. Cancer38(5): 689-695|1986|10.1002/ijc.2910380512
107745|T||Nelson,L.L., and E.B. Allen|Restoration of Stipa pulchra Grasslands:  Effects of Mycorrhizae and Competition from Avena barbata|Restor. Ecol.1(1): 40-50|1993|10.1111/j.1526-100X.1993.tb00007.x
107746|T||Eldershaw,T.P.D., E.Q. Colquhoun, K.L. Bennett, K.A. Dora, and M.G. Clark|Resiniferatoxin and Piperine:  Capsaicin-like Stimulators of Oxygen Uptake in the Perfused Rat Hindlimb|Life Sci.55(5): 389-397|1994|10.1016/0024-3205(94)00650-4
107747|T||Dun,Y., Y.B. Hao, Y.X. Wu, Y. Zhang, and R.R. Zhao|Protective Effects of Nitroglycerin-Induced Preconditioning Mediated by Calcitonin Gene-Related Peptide in Rat Small Intestine|Eur. J. Pharmacol.430(2-3): 317-324|2001|10.1016/S0014-2999(01)01256-0
107748|T||Muralidhara, and K. Narasimhamurthy|Non-Mutagenicity of Capsaicin in Albino Mice|Food Chem. Toxicol.26(11-12): 955-958|1988|10.1016/0278-6915(88)90094-4
107749|T||Salahudeen,A.K., E.C. Clark, and K.A. Nath|Hydrogen Peroxide-Induced Renal Injury.  A Protective Role for Pyruvate In Vitro and In Vivo|J. Clin. Invest.88(6): 1886-1893|1991|10.1172/JCI115511
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107752|T||Sandberg,G., and A. Ljungdahl|Mitogenic Responses of Splenic B and T Lymphocytes in Neonatally Capsaicin-Treated Mice|Int. Arch. Allergy Appl. Immunol.81(4): 343-347|1986|10.1159/000234160
107753|T||Csont,T., C. Csonka, P. Kovacs, G. Jancso, and P. Ferdinandy|Capsaicin-Sensitive Sensory Neurons Regulate Myocardial Nitric Oxide and cGMP Signaling|Eur. J. Pharmacol.476(1-2): 107-113|2003|10.1016/S0014-2999(03)02117-4
107754|T||Obal,F.,Jr., G. Jancso, M. Hajos, and F. Obal|Differences in the Mechanisms of the Thermoregulatory Impairment Induced by Capsaicin in Newborn and Adult Rats|Acta Physiol. Hung.69(3-4): 437-445|1987|
107755|A||Angarano,M.B., R.F. McMahon, D.L. Hawkins, and J.A. Schetz|Exploration of Structure-Antifouling Relationships of Capsaicin-like Compounds that Inhibit Zebra Mussel (Dreissena polymorpha) Macrofouling|Biofouling23(5): 295-305|2007|10.1080/08927010701371439
107756|T||Amann,R., J. Donnerer, C.A. Maggi, S. Giuliani, E. DelBianco, E. Weihe, and F. Lembeck|Capsaicin Desensitization In Vivo is Inhibited by Ruthenium Red|Eur. J. Pharmacol.186(2-3): 169-175|1990|10.1016/0014-2999(90)90430-E
107757|T||Durant,P.A.C., and T.L. Yaksh|Micturition in the Unanesthetized Rat:  Effects of Intrathecal Capsaicin, N-Vanillylnonanamide, 6-Hydroxydopamine and 5,6-Dihydroxytryptamine|Brain Res.451(1-2): 301-308|1988|10.1016/0006-8993(88)90775-5
107759|T||Negi,N.S., H.H.,Jr. Funderburk, and D.E. Davis|Metabolism of Atrazine by Susceptible and Resistant Plants|Weeds (Urbana)12:53-57|1964|10.2307/4040641
107760|T||Bhattacharyya,A., P. Bera, A.K. Das, A. Chowdhury, B. Dasgupta, and K. Sengupta|Studies on Carbendazim Residues Occurring in Betelvine Leaves|Pesticides 23(2): 41-43|1989|
107761|T||Chandra,G., and S.N. Mathur|Responses of Vigna mungo (L) Hepper to Treatments of Bavistin. Effect on Ammonia Utilizing Enzymes|Pesticides 23(10): 43-45|1989|
107762|T||Ellis,W.G., F. De Roos, R.J. Kavlock, and F.J. Zeman|Relationship of Periventricular Overgrowth to Hydrocephalus in Brains of Fetal Rats Exposed to Benomyl|Teratog. Carcinog. Mutagen.8(6): 377-391|1988|10.1002/tcm.1770080607
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107768|T||Nath,A., and D.C. Sharma|Pharmacodynamics of Endosulfan in the Indian Honey Bee Apis cerana indica F.|Indian J. Exp. Biol.23(7): 363-365|1985|
107769|T||Ghisi,M., R. Kaminsky, and P. Maser|Phenotyping and Genotyping of Haemonchus contortus Isolates Reveals a New Putative Candidate Mutation for Benzimidazole Resistance in Nematodes|Vet. Parasitol.144(3/4): 313-320|2007|10.1016/j.vetpar.2006.10.003
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107773|A||Union Carbide Corp.|The Acute Toxicity of Sodium Bromide to the Bluegill Sunfish Lepomis macrochirus Rafinesque with Attachments and Cover Letter Dated 033178|EPA/OTS Doc.#88-7800125:50 p.|1978|
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107776|T||Molnar,J., and L. Gyorgy|Pulmonary Hypertensive and Other Haemodynamic Effects of Capsaicin in the Cat|Eur. J. Pharmacol.1(2): 86-92|1967|10.1016/0014-2999(67)90043-X
107777|A||Wada,M., A. Hirokawa, and R.H. Fukumoto|Analysis of the Expression of Genes for P-Type ATPase in the Halotolerant Alga Dunaliella salina (Chlorophyceae)|J. Phycol.32(5): 868-872|1996|10.1111/j.0022-3646.1996.00868.x
107778|A||Jodrey,L.H.|Studies on Shell Formation. III. Measurement of Calcium Deposition in Shell and Calcium Turnover in Mantle Tissue Using the Mantel-Shell Preparation and Ca45|Biol. Bull.104:398-407|1953|10.2307/1538493
107779|T||Khan,M.J., M.H. Khan, R.A. Khattak, and M.T. Jan|Response of Maize to Different Levels of Sulfur|Commun. Soil Sci. Plant Anal.37(1/2): 41-51|2006|10.1080/00103620500403804
107781|T||Anderson,G.C., G.J. Blair, and R.D.B. Lefroy|Soil-Extractable Sulfur and Pasture Response to Applied Sulfur:  1. Studies Under Glasshouse Conditions|Aust. J. Exp. Agric.38(6): 567-574|1998|10.1071/EA97135
107782|T||Cox,R.L., and W.T. Wilson|The Behavior of Insecticide-Exposed Honey Bees|Am. Bee J.127(2): 118-119|1987|
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107784|T||Anand,M., R.N. Khanna, D. Misra, and H.K. Sharma|Changes in Brain Acetylcholine of Rats After Dermal Application of Fenitrothion (Sumithion)|Indian J. Physiol. Pharmacol.21:121-124|1977|
107785|T||Sharma,I.D., and A. Nath|Persistence of Different Pesticides in Apple|Acta Hortic.696(2): 437-440|2005|10.17660/ActaHortic.2005.696.78
107786|T||Rajak,S.K., R.K. Singh, and R.R. Katiyar|Foraging Behaviour of Honey Bees in Relation to Contact Toxicity of Some Insecticides|J. Entomol. Res.30(1): 51-53|2006|
107787|T||Tu,J.C.|Etiology, Biology and Control of a Soilborne Root Rot Complex of Green Peas|Plant Prot. Bull.33(1): 17-35|1991|
107790|T||De Lucca,A.J., M. Klich, S. Boue, T.E. Cleveland, T. Sien, and T.J. Walsh|Fungicidal Activity of Plant Saponin CAY-1 for Fungi Isolated from Diseased Vitis Fruit and Stems|Am. J. Enol. Vitic.59(1): 67-72|2008|10.5344/ajev.2008.59.1.67
107791|T||Pavlik,M., and O.M. Jandurova|Pollen as Biological Material for Determination and Study of Biological Active Substances|Chem. Pap.52:557-558|1998|
107792|A||Singh,S., V.S. Chandrasekaran, and U.P. Singh|Effect of Endosulfan and 2,4-Dichlorophenoxy Acetic Acid on the Growth and Gonadal Development of Freshwater Prawn Macrobrachium lamarrei|Fish. Technol.43(1): 73-78|2006|
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107794|T||Hallet,D.J., P. Weinberger, and R. Prasad|A Preliminary Study on the Fate of Fenitrothion in Forest Seeds.  I.  Determination of Residues in Eastern White Pine (Pinus strobus L.) and Their Effects on Amino Acid Metabolism|Inf.Rep.CC-X-50, Can.For.Serv., Chem.Control Res.Inst., Ottawa, Ontario:25 p.|1973|
107795|T||Pomber,L., P. Weinberger, and R. Prasad|A Preliminary Study on the Fate of Fenitrothion in Forest Seeds.  II.  Some Effects on the Morphogenetic Characteristics of Germinating White Pine (Pinus strobus L.) Seeds in Relation to Forest Regeneration|Inf.Rep.CC-X-51, Can.For.Serv., Chem.Control Res.Inst., Ottawa, Ontario:20 p.|1973|
107796|A||Nelson,L.S.|Response of Hydrilla and American Pondweed to Flurprimidol|J. Aquat. Plant Manag.35:50-54|1997|
107797|T||Horton,D.L., T.G. Teague, J.R. Phillips, and W.C. Yearian|Fungicide Interference with Parasitization of Heliothis zea by Microplitis croceipes|J. Agric. Entomol.3(2): 186-191|1986|
107798|A||Magovern,J.P.|Changes in Zooplankton Populations After the Addition of the Organophosphonate Pesticide, Dylox, to Man-Made Ponds|M.S.Thesis, University of Oklahoma, Norman, OK:101 p.|1978|
107799|T||Wadhwa,V., V.P. Bakre, and P.P. Bakre|Histopathological and Biochemical Changes in the Adrenal of House Sparrow, Passer domesticus Induced by Thiodan|Geobios17(5-6): 224-228|1990|
107802|T||Szolcsanyi,J., F. Joo, and A. Jancso-Gabor|Mitochondrial Changes in Preoptic Neurons After Capsaicin Desensitization of the Hypothalamic Thermodetectors in Rats|Nature229(5280): 116-117|1971|10.1038/229116a0
107803|AT||Chowdhury,B., S. Mukhopadhyay, D. Bhattacharayay, and A.K. De|Capsaicin, a Unique Anti-Oxidant, Anti-Inflammatory, Analgesic Compound with Antifungal Activity Against Dermatophytes|Med. Sci. Res.24(10): 669-670|1996|
107804|T||Sostman,A.L., and S.A. Simon|Trigeminal Nerve Responses in the Rat Elicited by Chemical Stimulation of the Tongue|Arch. Oral Biol.36(2): 95-102|1991|10.1016/0003-9969(91)90071-2
107805|T||Kimura,T., and K. Doi|Contact Dermatitis Induced by Chemicals for Hair-Dyeing in Hairless Dogs|J. Toxicol. Pathol.12(2): 83-90|1999|10.1293/tox.12.83
107806|T||Duan,D.Y., W.Q. Li, X.J. Liu, H. Ouyang, and P. An|Seed Germination and Seedling Growth of Suaeda salsa Under Salt Stress|Ann. Bot. Fenn.44(3): 161-169|2007|
107807|T||Carter,R.B., and W.R. Francis|Capsaicin Desensitization to Plasma Extravasation Evoked by Antidromic C-Fiber Stimulation is not Associated with Antinociception in the Rat|Neurosci. Lett.127(1): 43-45|1991|10.1016/0304-3940(91)90890-6
107808|T||Bennett,T., and S.M. Gardiner|Neonatal Treatment with Capsaicin Influences Hormonal Regulation of Blood Pressure in Adult, Water-Deprived Long-Evans but not Brattleboro Rats|Neurosci. Lett.63(2): 131-134|1986|10.1016/0304-3940(86)90049-2
107809|AT||Munkres,K.D.|Selection and Analysis of Superoxide Dismutase Mutants of Neurospora|Free Radic. Biol. Med.13(4): 305-318|1992|10.1016/0891-5849(92)90178-J
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107812|T||Evangelista,S., and C.A. Maggi|"Influence of Sialoadenectomy on Capsaicin-Sensitive ""Gastric Defense Mechanism"" in Rats"|Jpn. J. Pharmacol.56(3): 377-380|1991|10.1016/S0021-5198(19)39864-6
107813|T||Escott,K.J., H.E. Connor, S.D. Brain, and D.T. Beattie|The Involvement of Calcitonin Gene-Related Peptide (CGRP) and Substance P in Feline Pial Artery Diameter Responses Evoked by Capsaicin|Neuropeptides29(3): 129-135|1995|10.1016/0143-4179(95)90014-4
107814|T||Salimath,B.P., and M.N. Satyanarayana|Inhibition of Calcium and Calmodulin-Dependent Phosphodiesterase Activity in Rats by Capsaicin|Biochem. Biophys. Res. Commun.148(1): 292-299|1987|10.1016/0006-291X(87)91109-0
107815|T||James,D.G., and J. Whitney|Effect of Benomyl on Egg Production in the Predatory Mites, Amblyseius victoriensis and Typhlodromus doreenae|Plant Prot. Q.12(4): 173-174|1997|
107816|A||Hashem,A.M., A. El-Ansary, and L.M. Faddah|Effect of Some Organophosphorus Insecticides on Amylases and Cellulases in Biomphalaria alexandrina Snails|Egypt. J. Bilharz.15(1/2): 183-188|1993|
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107821|T||He,Y., B.A. Palevitz, and H.Y. Wetzstein|Pollen Germination, Tube Growth and Morphology, and Microtubule Organization After Exposure to Benomyl|Physiol. Plant. (Multiple Languages)96(1): 152-157|1996|10.1111/j.1399-3054.1996.tb00196.x
107822|T||Ku,W.W., R.E. Chapin, R.F. Moseman, R.E. Brink, K.D. Pierce, and K.Y. Adams|Tissue Disposition of Boron in Male Fischer Rats|Toxicol. Appl. Pharmacol.111(1): 145-151|1991|10.1016/0041-008X(91)90143-3
107823|T||Landauer,W.|Genetic and Environmental Factors in the Teratogenic Effects of Boric Acid on Chicken Embryos|Genetics38(3): 216-228|1953|10.1093/genetics/38.3.216
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107825|T||Marchi,E., F.S. Vargas, M.M.P. Acencio, L. Antonangelo, L.R. Teixeira, E.H. Genofre, and R.W. Light|Talc and Silver Nitrate Induce Systemic Inflammatory Effects During the Acute Phase of Experimental Pleurodesis in Rabbits|Chest125(6): 2268-2277|2004|10.1378/chest.125.6.2268
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107831|A||Life,J.S.|Metabolism and Pharmacodynamics of Copper (Cu++) in the Goldfish (Carassius auratus)|Ph.D.Thesis, University of Michigan, MI:117 p.|1970|
107832|A||Nelson,L.S., J.F. Shearer, and M.D. Netherland|Integrated Fluridone-Fungal Pathogen Treatment of Four Submersed Plants|Technical Note IC-01, U.S.Army Eng.Waterways Exp.Stn., Vicksburg, MS:9 p.|1998|
107833|A||Getsinger,K.D., J.D. Madsen, T.J. Koschnick, M.D. Netherland, R.M. Stewart, D.R. Honnell, A.G. Staddon, and C.S. Owens|Whole-Lake Applications of Sonar for Selective Control of Eurasian Watermilfoil|Technical Report ERDC/EL TR01-7, U.S.Army E.R.D.C., Vicksburg, MS:59 p.|2001|
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107835|A||Poovey,A.G., J.G. Skogerboe, and K.D. Getsinger|Efficacy of AVAST! Fluridone Formulation Against Eurasian Watermilfoil and Nontarget Submersed Plants|Technical Report ERDC/EL TR-04-9, U.S.Army Eng.Res.Develop.Ctr.,Vicksburg,MS:29 p.|2004|
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107837|T||Nelson,L.S., C.S. Owens, and K.D. Getsinger|Response of Wild Rice to Selected Aquatic Herbicides|Technical Report ERDC/EL TR-03-14, U.S.Army Eng.Res.Develop.Ctr.,Vicksburg, MS:13 p.|2003|
107838|A||Poovey,A.G., M.D. Netherland, and W. Crowell|Effects of Turbidity on Fluridone Treatments for Curlyleaf Pondweed Control|Tech. Notes ERDC TN-APCRP-CC-06, U.S.Army Eng.Res.Develop.Ctr., Vicksburg, MS:11 p.|2008|
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107842|A||Amicarelli,F., S. Falone, F. Cattani, M.T. Alamanou, A. Bonfigli, O. Zarivi, M. Miranda, A.M. Ragnelli, and C. Di Ilio|Amphibian Transition to the Oxidant Terrestrial Environment Affects the Expression of Glutathione S-Transferases Isoenzymatic Pattern|Biochim. Biophys. Acta1691(2-3): 181-192|2004|10.1016/j.bbamcr.2004.02.003
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107846|T||Bilodeau,J.F., S. Blanchette, C. Gagnon, and M.A. Sirard|Thiols Prevent H2O2-Mediated Loss of Sperm Motility in Cryopreserved Bull Semen|Theriogenology56(2): 275-286|2001|10.1016/S0093-691X(01)00562-3
107847|A||Pillard,D.A., D.L. DuFresne, J.E. Tietge, and D. Caudle|Development of Salinity Toxicity Relationships for Produced Water Discharges to the Marine Environment|Final Report, GRI-97/0168, ENSR Consult.and Engl, Fort Collins, CO:154 p.|1998|
107848|T||Reddy,G.R.S., Sreelatha, and B.J. Divakar|Toxicity of Six Insecticides to Two Species of Bracon|Indian J. Plant Prot.25(2): 135-136|1997|
107849|A||FMC Corp.|Support:  Amended Final Report, Static Acute Toxicity of 5% Peracetic Acid (Vigor Ox) to Daphnia magna, with Cover Letter Dated 7/30/1996|EPA/OTS Doc.#89960000195:67 p.|1996|
107852|T||Alleva,E., L. Aloe, F. Cirulli, L. De Acetis, and C. Padoa Schioppa|Postnatal NGF Administration Causes Adult Hyperalgesia and Overreactivity to Social Stimuli but does not Reverse Capsaicin Induced Hypoalgesia|Psychoneuroendocrinology22(8): 591-602|1997|10.1016/S0306-4530(97)00065-6
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107859|T||Reiff,B.|Reactivation of Phosphorylated Brain Cholinesterase In Vivo|In: Symp.Pap., Med.Prot.Chem.-Warf.Agents:82-87|1976|
107860|T||Kettle,P.R., and A.J. Watson|"The Efficacy of Phosmet as a ""Pour-on"" for the Control of Long-Nosed Sucking Lice (Linognathus vituli) on Cattle"|N. Z. Vet. J.29(10): 187-188|1981|10.1080/00480169.1981.34841
107861|T||Houck,J.C., and R.A. Jacob|The Chemistry of Dermal Necrosis|Lab. Invest.15(1): 181-191|1966|
107862|T||Lu,P., L. Li, K. Kuno, Y. Wu, T. Baba, Y.Y. Li, X. Zhang, and N. Mukaida|Protective Roles of the Fractalkine/CX3CL1-CX3CR1 Interactions in Alkali-Induced Corneal Neovascularization Through Enhanced Antiangiogenic Factor Expression|J. Immunol.180(6): 4283-4291|2008|10.4049/jimmunol.180.6.4283
107863|T||Dunn,R.M., P. Hedden, and J.A. Bailey|A Physiologically-Induced Resistance of Phaseolus vulgaris to a Compatible Race of Colletotrichum lindemuthianum is Associated with Increases in ABA Content|Physiol. Mol. Plant Pathol.36(4): 339-349|1990|10.1016/0885-5765(90)90063-4
107864|T||Daugrois,J.H., J.W. Hoy, and J.L. Griffin|Protoporphyrinogen Oxidase Inhibitor Herbicide Effects on Pythium Root Rot of Sugarcane, Pythium Species, and the Soil Microbial Community|Phytopathology95(3): 220-226|2005|10.1094/PHYTO-95-0220
107865|T||Hager,A.G., L.M. Wax, G.A. Bollero, and F.W. Simmons|Common Waterhemp (Amaranthus rudis Sauer) Management with Soil-Applied Herbicides in Soybean (Glycine max (L.) Merr.)|Crop Prot.21(4): 277-283|2002|10.1016/S0261-2194(01)00098-9
107866|A||Schmitz,D.C., A.J. Leslie, L.E. Nall, and J.A. Osborne|Hydrosoil Residues and Hydrilla verticillata Control in a Central Florida Lake Using Fluridone|Pestic. Sci.21(1): 73-82|1987|10.1002/ps.2780210108
107867|A||Puri,A., G.E. MacDonald, and W.T. Haller|Stability of Fluridone-Resistant Hydrilla (Hydrilla verticillata) Biotypes over Time|Weed Sci.55(1): 12-15|2007|10.1614/WS-06-150.1
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107869|A||Spencer,D.F., G.G. Ksander, and L.C. Whiteand|Sago Pondweed (Potamogeton pectinatus) Tuber Size Influences Its Response to Fluridone Treatment|Weed Sci.37(2): 250-253|1989|10.1017/S0043174500071861
107870|T||Mason,J.R., and T. Primus|Response of European Starlings to Menthone Derivatives:  Evidence for Stereochemical Differences in Repellency|Crop Prot.15(8): 723-726|1996|10.1016/S0261-2194(96)00046-4
107871|T||Lee,H.S.|Acaricidal Activity of Constituents Identified in Foeniculum vulgare Fruit Oil Against Dermatophagoides spp. (Acari:  Pyroglyphidae)|J. Agric. Food Chem.52(10): 2887-2889|2004|10.1021/jf049631t
107872|T||LeBlanc,B.W., S. Boue, G. De-Grandi Hoffman, T. Deeby, H. McCready, and K. Loeffelmann|Beta-Cyclodextrins as Carriers of Monoterpenes into the Hemolymph of the Honey Bee (Apis mellifera) for Integrated Pest Management|J. Agric. Food Chem.56(18): 8565-8573|2008|10.1021/jf801607c
107874|T||Hummelbrunner,L.A., and M.B. Isman|Acute, Sublethal, Antifeedant, and Synergistic Effects of Monoterpenoid Essential Oil Compounds on the Tobacco Cutworm, Spodoptera litura (Lep., Noctuidae)|J. Agric. Food Chem.49(2): 715-720|2001|10.1021/jf000749t
107875|T||Floris,I., A. Satta, P. Cabras, V.L. Garau, and A. Angioni|Comparison Between Two Thymol Formulations in the Control of Varroa destructor:  Effectiveness, Persistence, and Residues|J. Econ. Entomol.97(2): 187-191|2004|10.1603/0022-0493-97.2.187
107876|T||Burley,L.M., R.D. Fell, and R.G. Saacke|Survival of Honey Bee (Hymenoptera:  Apidae) Spermatozoa Incubated at Room Temperature from Drones Exposed to Miticides|J. Econ. Entomol.101(4): 1081-1087|2008|10.1093/jee/101.4.1081
107877|T||Waliwitiya,R., M.B. Isman, R.S. Vernon, and A. Riseman|Insecticidal Activity of Selected Monoterpenoids and Rosemary Oil to Agriotes obscurus (Coleoptera:  Elateridae)|J. Econ. Entomol.98(5): 1560-1565|2005|10.1093/jee/98.5.1560
107878|T||Vaughn,S.F., and G.F. Spencer|Antifungal Activity of Natural Compounds Against Thiabendazole-Resistant Fusarium sambucinum Strains|J. Agric. Food Chem.42(1): 200-203|1994|10.1021/jf00037a036
107879|T||Morales,H., P. Tilquin, J.F. Rees, A. Massip, F. Dessy, and A. Van Langendonckt|Pyruvate Prevents Peroxide-Induced Injury of In Vitro Preimplantation Bovine Embryos|Mol. Reprod. Dev.52(2): 149-157|1999|10.1002/(SICI)1098-2795(199902)52:2<149::AID-MRD5>3.0.CO;2-4
107880|A||Mantecca,P., S. Panseri, R. Bacchetta, C. Vismara, G. Vailati, and M. Camatini|Histopathological Effects Induced by Paraquat During Xenopus laevis Primary Myogenesis|Tissue Cell38(3): 209-217|2006|10.1016/j.tice.2006.03.002
107882|A||Biagianti,S.|Cytopathological Effects of a Herbicide (A S-Triazine: Atrazine) on the Liver of Grey Mullet Juveniles|In: C.P. Vivares, J.R.Bonami and E.Jaspers (Eds.), Pathology in Marine Aquaculture, European Aquaculture Society, Bredene, Belgium:91-92|1986|
107883|T||Howick,C.D., J.W. Creffield, J.A. Butcher, and H. Greaves|The Termiticidal Efficacy of a Quaternary Ammonium Compound and a Tertiary Amine Salt in Wood Protection|Mater. Org.17(2): 81-92|1982|
107884|T||Bhirud,K.M., and H.N. Pitre|Bioactivity of Carbofuran and Disulfoton in Corn in Greenhouse Tests, Particularly in Relation to Leaf Positions on the Plant|J. Econ. Entomol.65(4): 1183-1184|1972|10.1093/jee/65.4.1183
107885|T||Douthwaite,R.J., M.D. Aye, and A.S. Ibrahim|Effects of Drift Sprays of Endosulfan, Applied for Tsetse Fly Control, on Honeybees (Apis mellifera L.) in Somalia|J. Apic. Res.27(1): 40-48|1988|10.1080/00218839.1988.11100780
107887|T||Gopal,D.V.R.S., V.S. Prasad, and P. Sreenivasulu|Effect of Bavistin on Proline Level in Peanut Green Mosaic Virus (PGMV)-Infected Groundnut (Arachis hypogaea) Leaves|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)97(1): 72-75|1990|
107888|T||Turner,D.J., and M.P.C. Loader|Effect of Ammonium Sulphate and Other Additives upon the Phytotoxicity of Glyphosate to Agropyron repens (L.) Beauv.|Weed Res. (Multiple Languages)20(3): 139-146|1980|10.1111/j.1365-3180.1980.tb00059.x
107889|T||Bergmann,E.D., and Z. Goldschmidt|Some Epinephrine Analogs|J. Med. Chem.11(6): 1121-1125|1968|10.1021/jm00312a004
107890|T||Grayson,B.T., S.L. Boyd, and D. Walter|Reinvestigating Adjuvants for the Wild Oat Herbicide, Flamprop-M-Isopropyl.  I:  Glasshouse Trials|Pestic. Sci.43(2): 147-155|1995|10.1002/ps.2780430208
107891|T||Tian,Y., X. Xie, F. Piao, and T. Yamauchi|Delayed Neuropathy and Inhibition of Soluble Neuropathy Target Esterase Following the Administration of Organophosphorus Compounds to Hens|Tohoku J. Exp. Med.185(3): 161-171|1998|10.1620/tjem.185.161
107892|A||Chand,G.B., and A. Nath|Possible Role of Shankhpushpi Root Extract in Mitigation of Endosulfan Induced Testicular Anomalies in Clarias batrachus (Linn.):  TEM Study|J. Ecophysiol. Occup. Health6(1-2): 25-32|2006|
107893|T||Sinha,P., P. Verma, A. Kumar, and A. Nath|Testicular Atrophy in Mice Mus musculus Under Sublethal Doses of Endosulfan|J. Ecophysiol. Occup. Health4(3-4): 191-196|2004|
107894|T||Al-Samariee,A.I., K.A. Al-Majeed, and M. Al-Bassomy|Pirimiphos - Methyl Residues on the Cucumber Cultivated in Commercial Greenhouses|J. Biol. Sci. Res.18(2): 89-100|1987|
107895|T||Gopal,D.V.R.S., P. Sreenivasulu, and M.V. Nayudu|Effect of Bavistin on Lipid Metabolism in Groundnut (Arachis hypogaea L.) Leaves Infected with Peanut Green Mosaic Virus (PGMV)|Physiol. Mol. Plant Pathol.37(1): 1-8|1990|10.1016/0885-5765(90)90081-8
107896|T||Filla,A., G. De Michele, F. Santorelli, G. D'Arienzo, A. Mengano, F. Cavalcanti, and G. Campanella|Effects of 1 Methyl-4-Phenylpyridinium Ion on Mitochondrial Metabolism in Frog Brain|Med. Sci. Res.18(10): 415-416|1990|
107897|T||Singh,S.K., and R.S. Pandey|Gonadal Toxicity of Short Term Chronic Endosulfan Exposure to Male Rats|Indian J. Exp. Biol.27(4): 341-346|1989|
107898|A||Park,D., C.R. Propper, and S.R. Park|Olfactory and Sexual Attractiveness of Western Mosquitofish (Gambusia affinis) Exposed to the Commonly Used Insecticide Endosulfan|Korean J. Biol. Sci.6(2): 153-157|2002|10.1080/12265071.2001.9647645
107900|T||Singh,S.K., S.J. Rahman, B.R. Gupta, and C.S. Kalha|Integration of Pesticide Application Schedules for Disease and Insect Pest Management in Chickpea Under Dryland Conditions|Indian J. Plant Prot.20(2): 158-161|1992|
107901|T||Khan,P.K., and S.P. Sinha|Dose-Dependent Minimisation of Cytogenetic Toxicity of Endosulfan (an Organochlorine Pesticide) by Vitamin C|Cytologia57(2): 217-221|1992|10.1508/cytologia.57.217
107902|T||Dikshith,T.S.S., and K.K. Datta|Cytogenetic Studies of Endosulfan in Male Rats|In: Environ.Pollut.Hum.Health, Proc.Int.Symp.Ind.Toxicol.:578-589|1977|
107903|T||Rahmanzadeh,S., K. Kazemitabar, S. Yazdifar, and A.T. Jafroudi|Evaluation of Rice (Oryza sativa L.) Cultivars Response to Salinity Stress Through Greenhouse Experiment and Tissue Culture Technique|Asian J. Plant Sci.7(2): 207-212|2008|10.3923/ajps.2008.207.212
107904|T||Drew,J.|Bark Beetles in Paraquat Treated Pines|Proc. Lightwood Res. Coord. Counc.:70-81|1978|
107905|A||Wang,H.G., and S. Mopper|Separate and Interacting Effects of Deer Florivory and Salinity Stress on Iris Herbivores|Oikos117(4): 564-570|2008|
107906|T||Szolcsanyi,J., and G. Mozsik|Effects of Capsaicin on the Development of Gastric Mucosal Damage by Different Necrotizing Agents and of Gastric Cytoprotection by PGI2, Atropine and Cimetidine on Rats|Acta Physiol. Hung.64(3-4): 287-291|1984|
107907|T||E.I. Du Pont De Nemours|Initial Submission:  Skin Irritation Test of Sodium Bisulfate and Mixture of Sodium Bisulfate with Sodium Bifluoride and Sodium Chloride in Rabbits with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010584:11 p.|1992|
107908|T||ICI Americas Inc.|Initial Submission:  Eye Irritation Classification Study with Phosphoric Acid in Rabbits with Cover Letter Dated 082892|EPA/OTS Doc.#88-920006934:10 p.|1992|
107910|T||Terashima,S., and K. Ogawa|Degeneration of Infrared Receptor Terminals of Snakes Caused by Capsaicin|Brain Res.958(2): 468-471|2002|10.1016/S0006-8993(02)03746-0
107911|T||Mukherjee,S.B., M. Das, G. Sudhandiran, and C. Shaha|Increase in Cytosolic Ca2+ Levels Through the Activation of Non-Selective Cation Channels Induced by Oxidative Stress Causes Mitochondrial Depolarization Leading to Apoptosis-like Death in Leishmania donovani Promastigo|J. Biol. Chem.277(27): 24717-24727|2002|10.1074/jbc.M201961200
107912|A||Singh,P., and D.K. Singh|Binary Combination of Carbohydrates and Amino Acids as Snail Attractant in Pellets Containing Molluscicides Against the Snail Lymnaea acuminata|Pestic. Biochem. Physiol.92(3): 120-124|2008|10.1016/j.pestbp.2008.07.002
107913|T||Pradhanang,P.M., M.T. Momol, S.M. Olson, and J.B. Jones|Effects of Plant Essential Oils on Ralstonia solanacearum Population Density and Bacterial Wilt Incidence in Tomato|Plant Dis.87(4): 423-427|2003|10.1094/PDIS.2003.87.4.423
107914|A||Radwan,M.A., S.R. El-Zemity, S.A. Mohamed, and S.M. Sherby|Potential of Some Monoterpenoids and Their New N-Methyl Carbamate Derivatives Against Schistosomiasis Snail Vector, Biomphalaria alexandrina|Ecotoxicol. Environ. Saf.71(3): 889-894|2008|10.1016/j.ecoenv.2007.07.002
107915|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Resorcinol (CAS No. 108-46-3) in F344/N Rats and B6C3F1 Mice (Gavage Studies)|Technical Report, TR-403,National Toxicology Program, Research Triangle Park, NC:246 p.|1992|
107916|A||Lembi,C.A., and M.D. Netherland|Bioassay of Plant Growth Regulator Activity on Aquatic Plants|Technical Report A-90-7, Aquatic Plant Control Research Program, U.S. Army Corps of Engineers, Washington, DC:36 p.|1990|
107917|A||Lembi,C.A., and T. Chand-Goyal|Plant Growth Regulators as Potential Tools in Aquatic Plant Management:  Efficacy and Persistence in Small-Scale Tests|Contract Report A-94-1, U.S.Army Corps Eng.,Waterways Exp.Stn., Vicksburg,MS:68 p.|1994|
107918|A||Ma,J., P. Wang, J. Chen, Y. Sun, and J. Che|Differential Response of Green Algal Species Pseudokirchneriella subcapitata, Scenedesmus quadricauda, Scenedesmus obliquus, Chlorella vulgaris and Chlorella pyrenoidosa to Six Pesticides|Pol. J. Environ. Stud.16(6): 847-851|2007|
107919|A||FMC Corp.|Initial Submission:  Final Report, Acute Toxicity of 5% Peracetic Acid (Vigor Ox) to Selenastrum Capricornutum Printz, with Cover Letter Dated 7/1/96|EPA/OTS Doc.#88960000162:78 p.|1996|
107920|T||Ohsawa,K.I., C. Furihata, M. Mori, and E. Ikui|Ability of N-Methyl-N'-Nitro-N-Nitrosoguanidine, 4-Nitroquinoline 1-Oxide, Dimethylnitrosamine, and NaCl to Induce Unscheduled DNA Synthesis, Stimulate Replicative DNA-Synthesis, and Produce DNA Single-Strand Breaks in |Mutat. Res.287(2): 307-319|1993|10.1016/0027-5107(93)90023-9
107921|T||El-Abidin Salam,A.Z., E.H.A. Hussein, H.A. El-Itriby, W.A. Anwar, and S.A. Mansour|The Mutagenicity of Gramoxone (Paraquat) on Different Eukaryotic Systems|Mutat. Res.319(2): 89-101|1993|10.1016/0165-1218(93)90067-N
107922|T||Lopez-Lopez,T., J.L. Martinez-Vidal, M.D. Gil-Garcia, M. Martinez-Galera, and J.A. Rodriguez-Lallena|Benzoylphenylurea Residues in Peppers and Zucchinis Grown in Greenhouses: Determination of Decline Times and Pre-Harvest Intervals by Modelling|Pest Manag. Sci.60(2): 183-190|2004|10.1002/ps.812
107923|AT||Prigge,S.T., X. He, L. Gerena, N.C. Waters, and K.A. Reynolds|The Initiating Steps of a Type II Fatty Acid Synthase in Plasmodium falciparum are Catalyzed by pfACP, pfMCAT, and pfKASIII|Biochemistry (Wash.)42:1160-1169|2003|10.1021/bi026847k
107924|T||Costarides,A.P., E. Nelson, and K. Green|Morphological Sequelae of Intracameral Hydrogen Peroxide After Inhibition of Glutathione Synthesis|Lens Eye Toxic. Res.8(4): 441-447|1991|
107925|T||Rakonczay,Z., P. Kasa, and J.R. Wolff|Change in the Distribution of Acetylcholinesterase Molecular Forms in the Rat Superior Cervical Ganglion After NaBr Treatment In Vivo|Neurochem. Int.15(2): 157-160|1989|10.1016/0197-0186(89)90095-8
107926|T||Toldi,J., Z. Farkas, O. Feher, W. Dames, P. Kasa, K. Gyurkovits, F. Joo, and J.R. Wolff|Promotion by Sodium Bromide of Functional Synapse Formation from Foreign Nerves in the Superior Cervical Ganglion of Adult Rat with Intact Preganglionic Nerve Supply|Neurosci. Lett.69(1): 19-24|1986|10.1016/0304-3940(86)90407-6
107929|T||Yamasaki,K., M. Takeyoshi, Y. Yakabe, M. Sawaki, N. Imatanaka, and M. Takatsuki|Comparison of Reporter Gene Assay and Immature Rat Uterotrophic Assay of Twenty-Three Chemicals|Toxicology170(1-2): 21-30|2002|10.1016/S0300-483X(01)00505-4
107930|T||Zhu,B.T., D. Roy, and J.G. Liehr|The Carcinogenic Activity of Ethinyl Estrogens is Determined by Both Their Hormonal Characteristics and Their Conversion to Catechol Metabolites|Endocrinology132(2): 577-583|1993|10.1210/endo.132.2.8381068
107931|A||Wang,C., Y. Zhao, R. Zheng, X. Ding, W. Wei, Z. Zuo, and Y. Chen|Effects of Tributyltin, Benzo(a)pyrene, and Their Mixture on Antioxidant Defense Systems in Sebastiscus marmoratus|Ecotoxicol. Environ. Saf.65(3): 381-387|2006|10.1016/j.ecoenv.2005.08.003
107932|A||Waddy,S.L., V.A. Merritt, M.N. Hamilton-Gibson, D.E. Aiken, and L.E. Burridge|Relationship Between Dose of Emamectin Benzoate and Molting Response of Ovigerous American Lobsters (Homarus americanus)|Ecotoxicol. Environ. Saf.67(1): 95-99|2007|10.1016/j.ecoenv.2006.05.002
107933|T||Wang,M., and Q. Zhou|Effects of Herbicide Chlorimuron-Ethyl on Physiological Mechanisms in Wheat (Triticum aestivum)|Ecotoxicol. Environ. Saf.64(2): 190-197|2006|10.1016/j.ecoenv.2005.03.032
107934|T||Staempfli,C., J. Tarradellas, and K. Becker-Van Slooten|Effects of Dinoseb on Energy Reserves in the Soil Arthropod Folsomia candida|Ecotoxicol. Environ. Saf.68(2): 263-271|2007|10.1016/j.ecoenv.2006.11.007
107935|A||Ma,J., F. Lin, R. Zhang, W. Yu, and N. Lu|Differential Sensitivity of Two Green Algae, Scenedesmus quadricauda and Chlorella vulgaris, to 14 Pesticide Adjuvants|Ecotoxicol. Environ. Saf.58(1): 61-67|2004|10.1016/j.ecoenv.2003.08.023
107936|A||Johnson,D.J., H. Sanderson, R.A. Brain, C.J. Wilson, and K.R. Solomon|Toxicity and Hazard of Selective Serotonin Reuptake Inhibitor Antidepressants Fluoxetine, Fluvoxamine, and Sertraline to Algae|Ecotoxicol. Environ. Saf.67(1): 128-139|2007|10.1016/j.ecoenv.2006.03.016
107937|A||Hallare,A., K. Nagel, H.R. Kohler, and R. Triebskorn|Comparative Embryotoxicity and Proteotoxicity of Three Carrier Solvents to Zebrafish (Danio rerio) Embryos|Ecotoxicol. Environ. Saf.63(3): 378-388|2006|10.1016/j.ecoenv.2005.07.006
107938|T||Etebari,K., A.R. Bizhannia, R. Sorati, and L. Matindoost|Biochemical Changes in Haemolymph of Silkworm Larvae due to Pyriproxyfen Residue|Pestic. Biochem. Physiol.88(1): 14-19|2007|10.1016/j.pestbp.2006.08.005
107939|T||Roush,R.T., and M.A. Hoy|Relative Toxicity of Permethrin to a Predator, Metaseiulus occidentalis, and Its Prey, Tetranychus urticae|Environ. Entomol.7:287-288|1978|10.1093/ee/7.2.287
107940|A||Hinman,M.L.|Utility of Rooted Aquatic Vascular Plants for Aquatic Sediment Hazard Evaluation:  I.  Evaluation of Hydrilla verticillata Royle as a Sediment Toxicity Bioassay Organism to Selected Aquatic Pollutants; II.  Evaluation a|Ph.D.Thesis, Memphis State Univ., Memphis, TN:86 p.|1989|
107941|A||Gazourian,L., E.L. Evans, L. Hanson, C.F. Chase, and S.A. Sower|The Effects of Lamprey GnRH-I, -III and Analogs on Steroidogenesis in the Sea Lamprey (Petromyzon marinus)|Aquaculture188(1-2): 147-165|2000|10.1016/S0044-8486(00)00327-6
107942|A||De Leeuw,R., C. Van 't Veer, W. Smit-Van Dijk, H.J.T. Goos, and P.G.W.J. Van Oordt|Binding Affinity and Biological Activity of Gonadotropin-Releasing Hormone Analogs in the African Catfish, Clarias gariepinus|Aquaculture71(1-2): 119-131|1988|10.1016/0044-8486(88)90279-7
107943|T||Guthrie,H.D., V.G. Pursel, and R.J. Wall|Porcine Follicle-Stimulating Hormone Treatment of Gilts During an Altrenogest-Synchronized Follicular Phase:  Effects on Follicle Growth, Hormone Secretion, Ovulation, and Fertilization|J. Anim. Sci.75(12): 3246-3254|1997|10.2527/1997.75123246x
107944|A||Harmin,S.A., and L.W. Crim|Gonadotropic Hormone-Releasing Hormone Analog (GnRH-A) Induced Ovulation and Spawning in Female Winter Flounder, Pseudopleuronectes americanus (Walbaum)|Aquaculture104(3-4): 375-390|1992|10.1016/0044-8486(92)90218-A
107945|A||Heyrati,F.P., H. Mostafavi, H. Toloee, and S. Dorafshan|Induced Spawning of Kutum, Rutilus frisii kutum (Kamenskii, 1901) Using (D-Ala6, Pro9-NEt) GnRHa Combined with Domperidone|Aquaculture265(1-4): 288-293|2007|10.1016/j.aquaculture.2006.12.011
107946|A||Lin,H.R., X.J. Zhou, G. Van der Kraak, and R.E. Peter|Effects of Gonadotropin-Releasing Hormone Agonists and Dopamine Antagonists on Gonadotropin Secretion and Ovulation in Chinese Loach, Paramisgurnus dabryanus|Aquaculture95(1-2): 139-147|1991|10.1016/0044-8486(91)90081-H
107947|A||Lin,H.R., M. Lu, X.W. Lin, W.M. Zhang, Y. Sun, and L.X. Chen|Effects of Gonadotropin-Releasing Hormone (GnRH) Analogs and Sex Steroids on Growth Hormone (GH) Secretion and Growth in Common Carp (Cyprinus carpio) and Grass Carp (Ctenopharyngodon idellus)|Aquaculture135(1-3): 173-184|1995|10.1016/0044-8486(95)01012-2
107948|A||Mugnier,C., M. Guennoc, E. Lebegue, A. Fostier, and B. Breton|Induction and Synchronisation of Spawning in Cultivated Turbot (Scophthalmus maximus L.) Broodstock by Implantation of a Sustained-Release GnRH-a Pellet|Aquaculture181(3-4): 241-255|2000|10.1016/S0044-8486(99)00234-3
107949|A||Ngernsoungnern,A., P. Ngernsoungnern, W. Weerachatyanukul, J. Chavadej, P. Sobhon, and P. Sretarugsa|The Existence of Gonadotropin-Releasing Hormone (GnRH) Immunoreactivity in the Ovary and the Effects of GnRHs on the Ovarian Maturation in the Black Tiger Shrimp Penaeus monodon|Aquaculture279(1-4): 197-203|2008|10.1016/j.aquaculture.2008.04.018
107950|T||Smith,M.T., and R.T. Mason|Gonadotropin Antagonist Modulates Courtship Behavior in Male Red-Sided Garter Snakes, Thamnophis sirtalis parietalis|Physiol. Behav.61(1): 137-143|1997|10.1016/S0031-9384(96)00347-2
107951|T||Sankaran,R.P.|Cadmium and Zinc Transport and Accumulation in Two Plant Species and the Associated Risk of Dietary Exposure to Animals|Ph.D.Thesis, Southern Illinois University, Carbondale, IL:129 p.|2005|
107952|T||Bavis,R.W.|Physiological Consequences of Exposure to Elevated Carbon Dioxide During Development in Birds|Ph.D Thesis, University of Montana, Missoula, MT:165 p.|2000|
107953|A||Lee,T.M., C.C. Tsai, and M.C. Shih|Induction of Phosphorus Deficiency and Phosphatase Activity by Salinity (NaCl) Stress in Gracilaria tenuistipitata (Gigartinales, Rhodophyta)|Phycologia38(5): 428-433|1999|10.2216/i0031-8884-38-5-428.1
107954|T||Collins,L.L., M.A. Williamson, B.D. Thompson, D.P. Dever, T.A. Gasiewicz, and L.A. Opanashuk|2,3,7,8-Tetracholorodibenzo-p-Dioxin Exposure Disrupts Granule Neuron Precursor Maturation in the Developing Mouse Cerebellum|Toxicol. Sci.103(1): 125-136|2008|10.1093/toxsci/kfn017
107956|T||Itoh,T., M. Moto, Y. Kuroiwa, H. Sakai, and K. Mitsumori|The Initiation Activity of Norfloxacin does not Result in the Induction of Hepatocellular Tumors in Rats|Toxicology231(2-3): 234-242|2007|10.1016/j.tox.2006.12.003
107958|T||Zhang,W., J. Yang, J. Wang, P. Xia, Y. Xu, H. Jia, and Y. Chen|Comparative Studies on the Increase of Uterine Weight and Related Mechanisms of Cadmium and p-Nonylphenol|Toxicology241(1/2): 84-91|2007|10.1016/j.tox.2007.08.089
107959|T||Ahmed,H.H., S.H. Abd El-Aziem, and M.A. Abdel-Wahhab|Potential Role of Cysteine and Methionine in the Protection Against Hormonal Imbalance and Mutagenicity Induced by Furazolidone in Female Rats|Toxicology243(1-2): 31-42|2008|10.1016/j.tox.2007.09.018
107960|T||Howdeshell,K.L., J. Furr, C.R. Lambright, V.S. Wilson, B.C. Ryan, and L.E.,Jr. Gray|Gestational and Lactational Exposure to Ethinyl Estradiol, but not Bisphenol A, Decreases Androgen-Dependent Reproductive Organ Weights and Epididymal Sperm Abundance in the Male Long Evans Hooded Rat|Toxicol. Sci.102(2): 371-382|2008|10.1093/toxsci/kfm306
107962|T||Martin,L.J., H. Chen, X. Liao, H. Allayee, D.M. Shih, G.S. Lee, D.N.,Jr. Hovland, W.A. Robbins, K. Carnes, R.A. Hess, A|FK506, a Calcineurin Inhibitor, Prevents Cadmium-Induced Testicular Toxicity in Mice|Toxicol. Sci.100(2): 474-485|2007|10.1093/toxsci/kfm229
107964|A||Mukhi,S., and R. Patino|Effects of Prolonged Exposure to Perchlorate on Thyroid and Reproductive Function in Zebrafish|Toxicol. Sci.96(2): 246-254|2007|10.1093/toxsci/kfm001
107965|T||Klammer,H., C. Schlecht, W. Wuttke, C. Schmutzler, I. Gotthardt, J. Kohrle, and H. Jarry|Effects of a 5-day Treatment with the UV-Filter Octyl-Methoxycinnamate (OMC) on the Function of the Hypothalamo-Pituitary-Thyroid Function in Rats|Toxicology238(2-3): 192-199|2007|10.1016/j.tox.2007.06.088
107966|A||Harris,C.A., J.V. Brian, G. Pojana, M. Lamoree, P. Booy, A. Marcomini, and J.P. Sumpter|The Influence of a Surfactant, Linear Alkylbenzene Sulfonate, on the Estrogenic Response to a Mixture of (Xeno)estrogens In Vitro and In Vivo|Aquat. Toxicol.91:95-98|2009|10.1016/j.aquatox.2008.09.014
107967|A||Brown,K.H., I.R. Schultz, and J.J. Nagler|Lack of a Heritable Reproductive Defect in the Offspring of Male Rainbow Trout Exposed to the Environmental Estrogen 17alpha-Ethynylestradiol|Aquat. Toxicol.91(1): 71-74|2008|10.1016/j.aquatox.2008.10.009
107968|A||Dorts,J., C.A. Richter, M.K. Wright-Osment, M.R. Ellersieck, B.J. Carter, and D.E. Tillitt|The Genomic Transcriptional Response of Female Fathead Minnows (Pimephales promelas) to an Acute Exposure to the Androgen, 17beta-Trenbolone|Aquat. Toxicol.91:44-53|2009|10.1016/j.aquatox.2008.10.002
107969|A||Ma,L., D. Li, J. Wang, J. He, and Z. Yin|Effects of Adrenergic Agonists on the Extrahepatic Expression of Vitellogenin Ao1 in Heart and Brain of the Chinese Rare Minnow (Gobiocypris rarus)|Aquat. Toxicol.91:19-25|2009|10.1016/j.aquatox.2008.09.015
107970|T||Takeuchi,Y., T. Kosaka, K. Hayashi, M. Takeda, T. Yoshida, H. Fujisawa, S. Teramoto, K. Maita, and T. Harada|Thymic Atrophy Induced by Methoxychlor in Rat Pups|Toxicol. Lett.135(3): 199-207|2002|10.1016/S0378-4274(02)00259-X
107972|T||Villa,A.F., P. Houze, C. Monier, P. Risede, H. Sarhan, S.W. Borron, B. Megarbane, R. Garnier, and F.J. Baud|Toxic Doses of Paraoxon Alter the Respiratory Pattern Without Causing Respiratory Failure in Rats|Toxicology232(1-2): 37-49|2007|10.1016/j.tox.2006.12.006
107975|T||Karanth,S., J. Liu, A. Ray, and C. Pope|Comparative In Vivo Effects of Parathion on Striatal Acetylcholine Accumulation in Adult and Aged Rats|Toxicology239(3): 167-179|2007|10.1016/j.tox.2007.07.004
107977|T||Mohammadi,M., E. Ghani, A. Ghasemi, A. Khoshbaten, and A. Asgari|Synaptosomal GABA Uptake Decreases in Paraoxon-Treated Rat Brain|Toxicology244(1): 42-48|2008|10.1016/j.tox.2007.10.024
107979|T||Huang,L.H., N.H. Shiao, Y.D. Hsuuw, and W.H. Chan|Protective Effects of Resveratrol on Ethanol-Induced Apoptosis in Embryonic Stem Cells and Disruption of Embryonic Development in Mouse Blastocysts|Toxicology242(1-3): 109-122|2007|10.1016/j.tox.2007.09.015
107981|A||Gakstatter,J.H.|The Uptake from Water by Several Species of Fresh-Water Fish of p,p'-DDT, Dieldren and Lindane; Their Tissue Distribution and Elimination Rate|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:140 p.|1966|
107982|A||Reinert,R.E.|The Accumulation of Dieldrin in an Alga (Scenedesmus obliquus), Daphnia (Daphnia magna), Guppy (Lebistes reticulatus) Food Chain|Ph.D. Thesis, University of Michigan, Ann Arbor, MI:76 p.|1967|
107983|T||Mikelova,R., J. Baloun, J. Petrlova, V. Adam, L. Havel, J. Petrek, A. Horna, and R. Kizek|Electrochemical Determination of Ag-Ions in Environment Waters and Their Action on Plant Embryos|Bioelectrochemistry70(2): 508-518|2007|10.1016/j.bioelechem.2006.12.001
107984|A||Feisthauer,N.C.|Phytotoxicity, Absorption and Translocation of Triclopyr and Glyphosate, and Metabolism of Triclopyr in Purple Loosestrife (Lythrum salicaria L.) as Influenced by Flooding|M.S. Thesis, University of Guelph, Ontario, Canada:93 p.|1999|
107985|T||Stringer,S.J., and H.R. Mitchell|Effect of Furadan/Disulfoton on Cotton Growth and Development|Proc. Beltwide Cotton Conf.2:1171-1176|1997|
107986|T||Eisa,A.A., and I.M.A. Ammar|Persistence of Insect Growth Regulators Against the Rice Weevil, Sitophilus oryzae, in Grain Commodities|Phytoparasitica20(1): 7-13|1992|10.1007/BF02995629
107988|A||Mylonas,C.C., Y. Magnus, A. Gissis, Y. Klebanov, and Y. Zohar|Application of Controlled-Release, GnRHa-Delivery Systems in Commercial Production of White Bass X Striped Bass Hybrids (Sunshine Bass), Using Captive Broodstocks|Aquaculture140(3): 265-280|1996|10.1016/0044-8486(95)01178-1
107989|A||Marino,G., E. Panini, A. Longobardi, A. Mandich, M.G. Finoia, Y. Zohar, and C.C. Mylonas|Induction of Ovulation in Captive-Reared Dusky Grouper, Epinephelus marginatus (Lowe, 1834), with a Sustained-Release GnRHa Implant|Aquaculture219(1-4): 841-858|2003|10.1016/S0044-8486(03)00036-X
107990|T||Blake,C.A., and F.R. Boockfor|Chronic Administration of the Environmental Pollutant 4-Tert-Octylphenol to Adult Male Rats Interferes with the Secretion of Luteinizing Hormone, Follicle-Stimulating Hormone, Prolactin, and Testosterone|Biol. Reprod.57:255-266|1997|10.1095/biolreprod57.2.255
107991|T||Taira,S., H. Kikizu, S. Tawata, N. Kobamoto, S. Toyama, and M. Yasuda|Synthesis and Fungicidal Activity of New Six-Membered Cyclic Phosphates|J. Pestic. Sci. (Multiple Languages)20(3): 273-278|1995|10.1584/jpestics.20.273
107992|T||Abe,T., Y. Yamada, and J. Fukami|Correlation of the Structures of Diethylphosphate Phenylesters to Housefly Acetylcholinesterase Inhibition, Their Side Effects and Toxicity|Comp. Biochem. Physiol. C Comp. Pharmacol.92(2): 231-235|1989|10.1016/0742-8413(89)90046-7
107993|A||Getsinger,K.D., J.D. Madsen, T.J. Koschnick, and M.D. Netherland|Whole Lake Fluridone Treatments for Selective Control of Eurasian Watermilfoil:  I.  Application Strategy and Herbicide Residues|Lakes Reserv. Res. Manag.18(3): 181-190|2002|10.1080/07438140209354147
107994|T||Ji,P., M.T. Momol, S.M. Olson, P.M. Pradhanang, and J.B. Jones|Evaluation of Thymol as Biofumigant for Control of Bacterial Wilt of Tomato Under Field Conditions|Plant Dis.89(5): 497-500|2005|10.1094/PD-89-0497
107995|T||Muller-Riebau,F., B. Berger, and O. Yegen|Chemical Composition and Fungitoxic Properties to Phytopathogenic Fungi of Essential Oils of Selected Aromatic Plants Growing Wild in Turkey|J. Agric. Food Chem.43(8): 2262-2266|1995|10.1021/jf00056a055
107996|A||Smith,C.S., and G.D. Pullman|Experiences Using Sonar A.S. Aquatic Herbicide in Michigan|Lakes Reserv. Res. Manag.13(4): 338-346|1997|10.1080/07438149709354324
107997|A||Marquis,L.Y., R.D. Comes, and C.P. Yang|Absorption and Translocation of Fluridone and Glyphosate in Submersed Vascular Plants|Weed Sci.29(2): 229-236|1981|10.1017/S0043174500061853
107998|T||Fisher,S.A.|The Developing Embryonic Cardiac Outflow Tract is Highly Sensitive to Oxidant Stress|Dev. Dyn.236(12): 3496-3502|2007|10.1002/dvdy.21373
107999|T||Das,M., S.B. Mukherjee, and C. Shaha|Hydrogen Peroxide Induces Apoptosis-like Death in Leishmania donovani Promastigotes|J. Cell Sci.114(13): 2461-2469|2001|10.1242/jcs.114.13.2461
108000|T||Le Bourg,E.|Hormetic Effects on Longevity of Hydrogen Peroxide in Drosophila melanogaster Flies Living on a Poorly Nutritious Medium|Biogerontology (Dordrecht)8(3): 327-344|2007|10.1007/s10522-006-9077-z
108001|T||Romero-Jimenez,M., J. Campos-Sanchez, M. Analla, A. Munoz-Serrano, and A. Alonso-Moraga|Genotoxicity and Anti-Genotoxicity of Some Traditional Medicinal Herbs|Mutat. Res.585(1-2): 147-155|2005|10.1016/j.mrgentox.2005.05.004
108002|T||Ou,X., G.R. Thomas, M.R. Chacon, L. Tang, and M.E. Selkirk|Brugia malayi:  Differential Susceptibility to and Metabolism of Hydrogen Peroxide in Adults and Microfilariae|Exp. Parasitol.80(3): 530-540|1995|10.1006/expr.1995.1065
108003|T||Bilodeau,J.F., S. Blanchette, N. Cormier, and M.A. Sirard|Reactive Oxygen Species-Mediated Loss of Bovine Sperm Motility in Egg Yolk Tris Extender:  Protection by Pyruvate, Metal Chelators and Bovine Liver or Oviductal Fluid Catalase|Theriogenology57(3): 1105-1122|2002|10.1016/S0093-691X(01)00702-6
108004|A||Da Rosa,C.E., A. Bianchini, and J.M. Monserrat|Antioxidant Responses of Laeonereis acuta (Polychaeta) After Exposure to Hydrogen Peroxide|Braz. J. Med. Biol. Res.41(2): 117-121|2008|10.1590/S0100-879X2008000200007
108005|A||Muller,W.E.G., H. Ushijima, R. Batel, A. Krasko, A. Borejko, I.M. Muller, and H.C. Schroder|Novel Mechanism for the Radiation-Induced Bystander Effect:  Nitric Oxide and Ethylene Determine the Response in Sponge Cells|Mutat. Res.597(1-2): 62-72|2006|10.1016/j.mrfmmm.2005.09.007
108006|T||Picard,C., J. Wysocki, C. Linard, R. Garcia-Villar, L. Bueno, N.M. Griffiths, and J. Fioramonti|Absence of Protective Role of Afferent Nerves in Early Intestinal Mucosal Alterations Induced by Abdominal Irradiation in Rats|Int. J. Radiat. Biol.77(3): 349-356|2001|10.1080/09553000010002889
108007|T||De Castro,V.L.S.S., C.R. Destefani, C. Diniz, and P. Poli|Evaluation of Neurodevelopmental Effects on Rats Exposed Prenatally to Sulfentrazone|Neurotoxicology28(6): 1249-1259|2007|10.1016/j.neuro.2007.06.001
108008|AT||Arts,G.H.P., J.D.M. Belgers, C.H. Hoekzema, and J.T.N.M. Thissen|Sensitivity of Submersed Freshwater Macrophytes and Endpoints in Laboratory Toxicity Tests|Environ. Pollut.153(1): 199-206|2008|10.1016/j.envpol.2007.07.019
108010|T||Dinis-Oliveira,R.J., C. Sousa, F. Remiao, J.A. Duarte, A. Sanchez Navarro, M.L. Bastos, and F. Carvalho|Full Survival of Paraquat-Exposed Rats After Treatment with Sodium Salicylate|Free Radic. Biol. Med.42(7): 1017-1028|2007|10.1016/j.freeradbiomed.2006.12.031
108012|T||Donnerer,J., and I. Liebmann|The NK1 Receptor Antagonist SR140333 Inhibits Capsaicin-Induced ERK Phosphorylation in Sensory Neurons|Pharmacology77(3): 144-149|2006|10.1159/000094022
108013|T||Akin,F.J.|Anti-Tumorigenic Effect of Maleic Hydrazide on Mouse Skin|J. Agric. Food Chem.24(3): 672-674|1976|10.1021/jf60205a003
108014|T||Olson,L.J., R.D. Hinsdill, and D.J. Weltman|The Immunomodulatory Effects of Two Plant Growth Regulators, Cycloheximide and Maleic Hydrazide, in White Mice|Drug Chem. Toxicol.6(4): 341-361|1983|10.3109/01480548309082715
108016|T||Thompson,G.W., M. Horackova, and J.A. Armour|Sensitivity of Canine Intrinsic Cardiac Neurons to H2O2 and Hydroxyl Radical|Am. J. Physiol. Heart Circ. Physiol.275(4, Pt. 2): H1434 - H1440|1998|10.1152/ajpheart.1998.275.4.H1434
108017|T||Vercauteren,I., V. De Maere, J. Vercruysse, M. Stevens, K. Gevaert, and E. Claerebout|A Small Heat Shock Protein of Ostertagia ostertagi:  Stage-Specific Expression, Heat Inducibility, and Protection Trial|J. Parasitol.92(6): 1244-1250|2006|10.1645/GE-871R.1
108018|T||Donnerer,J., I. Liebmann, and R. Schicho|ERK and STAT3 Phosphorylation in Sensory Neurons During Capsaicin-Induced Impairment and Nerve Growth Factor Treatment|Pharmacology75(3): 116-121|2005|10.1159/000088015
108019|T||Shen,S., D.M. Cooley, L.T. Glickman, N. Glickman, and D.J. Waters|Reduction in DNA Damage in Brain and Peripheral Blood Lymphocytes of Elderly Dogs After Treatment with Dehydroepiandrosterone (DHEA)|Mutat. Res.480-481:153-162|2001|10.1016/S0027-5107(01)00179-8
108020|T||Cai,Q.Y., C.H. Mo, Q.Y. Zeng, Q.T. Wu, J.F. Ferard, and B. Antizar-Ladislao|Potential of Ipomoea aquatica Cultivars in Phytoremediation of Soils Contaminated with Di-n-Butyl Phthalate|Environ. Exp. Bot.62(3): 205-211|2008|10.1016/j.envexpbot.2007.08.005
108021|A||Dietrich,G.J., M. Zabowska, M. Wojtczak, M. Slowinska, D. Kucharczyk, and A. Ciereszko|Effects of Different Surfactants on Motility and DNA Integrity of Brown Trout (Salmo trutta fario) and Common Carp (Cyprinus carpio) Spermatozoa|Reprod. Biol.7(2): 127-142|2007|
108022|T||Demirci,F., D.H. Paper, G. Franz, and K.H.C. Baser|Investigation of the Origanum onites L. Essential Oil Using the Chorioallantoic Membrane (CAM) Assay|J. Agric. Food Chem.52(2): 251-254|2004|10.1021/jf034850k
108023|T||Porter,I.J., E.C. Donald, and S.J. Cross|Field Evaluation of Fluazinam Against Clubroot (Plasmodiophora brassicae) of Cruciferous Vegetable Crops|Tests Agrochem. Cultiv.19:12-13|1998|
108024|T||Shiroozu,A., A. Taurog, H. Engler, and M.L. Dorris|Mechanism of Action of Thioureylene Antithyroid Drugs in the Rat:  Possible Inactviation of Thyroid Peroxidase by Propylthiouracil|Endocrinology113(1): 362-370|1983|10.1210/endo-113-1-362
108025|A||Horovitz,A., N. Ohad, and J. Hirschberg|Predicted Effects on Herbicide Binding of Amino Acid Substitutions in the D1 Protein of Photosystem II|FEBS Lett.243(2): 161-164|1989|10.1016/0014-5793(89)80121-8
108027|A||Vasuki,V.|Insect Growth Regulator:  Its Impact on Some Predatory Arthropods of Mosquito Immatures|Entomon21(3-4): 217-220|1996|
108028|T||Karpouhtsis,I., E. Pardali, E. Feggou, S. Kokkini, Z.G. Scouras, and P. Mavragani-Tsipidou|Insecticidal and Genotoxic Activities of Oregano Essential Oils|J. Agric. Food Chem.46(3): 1111-1115|1998|10.1021/jf970822o
108029|T||Holzer,P.|Capsaicin-Sensitive Afferent Neurones and Gastrointestinal Propulsion in the Rat|Naunyn-Schmiedeberg's Arch. Pharmacol.332:62-65|1986|10.1007/BF00633198
108030|T||Dib,B.|Effects of Intracerebroventricular Capsaicin on Thermoregulatory Behavior in the Rat|Pharmacol. Biochem. Behav.16(1): 23-27|1982|10.1016/0091-3057(82)90007-7
108031|T||Cormareche-Leydier,M., and E. Vernet-Maury|The Effects of Capsaicin on Emotional Responses to Odors in the Rat|Physiol. Behav.46(4): 679-684|1989|10.1016/0031-9384(89)90351-X
108032|T||Burcher,E., C.J. Mussap, and R. Lew|Effect of Capsaicin on Substance P Binding Sites in Guinea-Pig Bladder|Regulatory Pept.22(1-2): 43-|1988|10.1016/0167-0115(88)90263-7
108033|T||Herbert,D.A.,Jr.|Control of Twospotted Spider Mite in Peanut, 1991|Insectic. Acaric. Tests17:247-|1992|
108035|T||Castonguay,T.W., and L.L. Bellinger|Capsaicin and Its Effects upon Meal Patterns, and Glucagon and Epinephrine Suppression of Food Intake|Physiol. Behav.40(3): 337-342|1987|10.1016/0031-9384(87)90056-4
108036|T||Li,Z., and Z. Liu|Effect of NaCl on Growth, Morphology, and Camptothecin Accumulation in Camptotheca acuminata Seedlings|Can. J. Plant Sci.83(4): 931-938|2003|10.4141/P03-023
108037|T||Baraz,L.A., V.M. Khayutin, and J. Molnar|Analysis of the Stimulatory Action of Capsaicin on Receptors and Sensory Fibres of the Small Intestine in the Cat:  Further Contribution to the Problem of Pain|Acta Physiol. Acad. Sci. Hung.33(2): 225-235|1968|
108038|T||Ritter,S., and T.T. Dinh|Capsaicin-Induced Neuronal Degeneration:  Silver Impregnation of Cell Bodies, Axons, and Terminals in the Central Nervous System of the Adult Rat|J. Comp. Neurol.271(1): 79-90|1988|10.1002/cne.902710109
108039|T||Ritter,S., and T.T. Dinh|Capsaicin-Induced Neuronal Degeneration in the Brain and Retina of Preweanling Rats|J. Comp. Neurol.296(3): 447-461|1990|10.1002/cne.902960310
108040|A||Chand,T., and C.A. Lembi|Gas Chromatographic Determination of Flurprimidol in a Submersed Aquatic Plant (Myriophyllum spicatum), Soil, and Water|J. Plant Growth Regul.10(2): 73-78|1991|10.1007/BF02279315
108041|T||Dong,F.S., S. Yang, X.G. Liu, J.P. Sun, Y.Q. Zheng, C.J. Li, and J.R. Yao|Fate of Fluazinam in Pepper and Soil After Application|Agric. Sci. China7(2): 193-199|2008|10.1016/S1671-2927(08)60039-5
108042|A||Khanna,P., O.P. Sharma, and N.K. Tripathi|Genotoxic Effect of Hydrogen Peroxide on Polytene Chromosomes of Chironomus samoensis Edwards (Chironomidae:  Diptera)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.76(1): 41-50|2006|
108043|T||White,R.P., and C.B. Nash|Catechol Antagonism to the EEG Effects of Reserpine, Chlorpromazine, Pentobarbital, and Atropine|Int. J. Neuropharmacol.2(5): 249-254|1963|10.1016/0028-3908(63)90027-3
108045|T||Herbert,D.A.,Jr.|Control of Twospotted Spider Mite in Peanut, 1993|Arthropod Manag. Tests19:250-|1994|10.1093/amt/19.1.250
108046|AT||Belgers,J.D.M., G.H. Aalderink, and P.J. Van den Brink|Effects of Four Fungicides on Nine Non-target Submersed Macrophytes|Ecotoxicol. Environ. Saf.72(2): 579-584|2009|10.1016/j.ecoenv.2008.06.005
108047|T||Welsch,F., M.D. Nemec, and W.B. Lawrence|Two-Generation Reproductive Toxicity Study of Resorcinol Administered via Drinking Water to Crl:CD(SD) Rats|Int. J. Toxicol.27(1): 43-57|2008|10.1080/10915810701876679
108048|A||Nelson,L.S., J.F. Shearer, and M.D. Netherland|Mesocosm Evaluation of Integrated Fluridone-Fungal Pathogen Treatment on Four Submersed Plants|J. Aquat. Plant Manag.36:73-77|1998|
108049|AT||Sprecher,S.L., M.D. Netherland, and A.B. Stewart|Phytoene and Carotene Response of Aquatic Plants to Fluridone Under Laboratory Conditions|J. Aquat. Plant Manag.36:111-120|1998|
108050|A||Westerdahl,H.E., and J.F. Hall|Fluridone Effects on Stressed Submersed Macrophytes|J. Aquat. Plant Manag.25:26-28|1987|
108051|A||Yang,J., J. Zhang, K. Liu, Z. Wang, and L. Liu|Abscisic Acid and Ethylene Interact in Rice Spikelets in Response to Water Stress During Meiosis|J. Plant Growth Regul.26(4): 318-328|2007|10.1007/s00344-007-9013-8
108052|A||Vasuki,V.|Effect of Insect Growth Regulators on Hatching of Eggs of Three Vector Mosquito Species|Proc. Indian Acad. Sci. Anim. Sci.99(6): 477-482|1990|10.1007/BF03186410
108053|AT||Arias,R.S., F.E. Dayan, A. Michel, J. Howell, and B.E. Scheffler|Characterization of a Higher Plant Herbicide-Resistant Phytoene Desaturase and Its Use as a Selectable Marker|Plant Biotechnol. J.4(2): 263-273|2006|10.1111/j.1467-7652.2006.00179.x
108054|A||Sammons,S.M., M.J. Maceina, and D.G. Partridge|Population Characteristics of Largemouth Bass Associated with Changes in Abundance of Submersed Aquatic Vegetation in Lake Seminole, Georgia|J. Aquat. Plant Manag.43(1): 9-16|2005|
108055|A||Sammons,S.M., M.J. Maceina, and D.G. Partridge|Changes in Behavior, Movement, and Home Ranges of Largemouth Bass Following Large-Scale Hydrilla Removal in Lake Seminole, Georgia|J. Aquat. Plant Manag.41(1): 31-38|2003|
108056|A||Wojtaszek,B.F., T.M. Buscarini, D.T. Chartrand, G.R. Stephenson, and D.G. Thompson|Effect of Release Herbicide on Mortality, Avoidance Response, and Growth of Amphibian Larvae in Two Forest Wetlands|Environ. Toxicol. Chem.24(10): 2533-2544|2005|10.1897/04-377R.1
108057|T||Gunning,R.V., G.D. Moores, and A.L. Devonshire|Esterase Inhibitors Synergise the Toxicity of Pyrethroids in Australian Helicoverpa armigera (Hubner) (Lepidoptera:  Noctuidae)|Pestic. Biochem. Physiol.63(1): 50-62|1999|10.1006/pest.1998.2388
108058|T||Loutchanwoot,P., W. Wuttke, and H. Jarry|Effects of a 5-Day Treatment with Vinclozolin on the Hypothalamo-Pituitary-Gonadal Axis in Male Rats|Toxicology243(1-2): 105-115|2008|10.1016/j.tox.2007.09.025
108059|T||Grauer,E., and A. Levy|Oxotremorine-Induced Hypothermia as a Method for Evaluating Long-Term Neuronal Changes Following Poisoning by Cholinesterase Inhibitors in Rats|Toxicology242(1-3): 1-6|2007|10.1016/j.tox.2007.08.097
108060|T||Hossain,M.M., T. Suzuki, T. Unno, S. Komori, and H. Kobayashi|Differential Presynaptic Actions of Pyrethroid Insecticides on Glutamatergic and GABAergic Neurons in the Hippocampus|Toxicology243(1/2): 155-163|2008|10.1016/j.tox.2007.10.003
108061|T||Vulsteke,G., P. Meeus, W. Dejonckheere, D. Callewaert, and N. Van Oost|Control of Powdery Mildew (Erysiphe heraclei DC.) and Leaf Blight (Alternaria dauci (Kuhn) Groves & Skolko) in Carrots|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)103(5): 488-494|1996|
108062|T||Kinzer,R.E., C.B. Cowan, R.L. Ridgway, J.W.,Jr. Davis, J.R. Coppedge, and S.L. Jones|Populations of Arthropod Predators and Heliothis spp. After Applications of Aldicarb and Monocrotophos to Cotton|Environ. Entomol.6:13-16|1977|10.1093/ee/6.1.13
108063|A||Vijayavel,K., and M.P. Balasubramanian|Interaction of Potash and Decis in the Ecophysiology of a Freshwater Fish Oreochromis mossambicus|Ecotoxicol. Environ. Saf.66(2): 154-158|2007|10.1016/j.ecoenv.2005.12.005
108064|T||Nagabhushan,M., and S.V. Bhide|Mutagenicity of Chili Extract and Capsaicin in Short-Term Tests|Environ. Mutagen.7(6): 881-888|1985|10.1002/em.2860070609
108065|T||Yu,R., J.W. Park, T. Kurata, and K.L. Erickson|Modulation of Select Immune Responses by Dietary Capsaicin|Int. J. Vitam. Nutr. Res.68(2): 114-119|1998|
108066|A||Watanabe,H., E. Takahashi, Y. Nakamura, S. Oda, N. Tatarazako, and T. Iguchi|Development of a Daphnia magna DNA Microarray for Evaluating the Toxicity of Environmental Chemicals|Environ. Toxicol. Chem.26(4): 669-676|2007|10.1897/06-075R.1
108067|A||Myers,J.H., S. Duda, L. Gunthorpe, and G. Allinson|Assessing the Performance of Hormosira banksii (Turner) Desicaine Germination and Growth Assay Using Four Reference Toxicants|Ecotoxicol. Environ. Saf.64(3): 304-311|2006|10.1016/j.ecoenv.2005.04.013
108068|A||Perez,P., P. Estevez-Blanco, R. Beiras, and E. Fernandez|Effect of Copper on the Photochemical Efficiency, Growth, and Chlorophyll A Biomass of Natural Phytoplankton Assemblages|Environ. Toxicol. Chem.25(1): 137-143|2006|10.1897/04-392R1.1
108069|A||Bossuyt,B.T.A., and C.R. Janssen|Influence of Multigeneration Acclimation to Copper on Tolerance, Energy Reserves, and Homeostasis of Daphnia magna Straus|Environ. Toxicol. Chem.23(8): 2029-2037|2004|10.1897/03-377
108070|A||Blanchard,J., and M. Grosell|Effects of Salinity on Copper Accumulation in the Common Killifish (Fundulus heteroclitus)|Environ. Toxicol. Chem.24(6): 1403-1413|2005|10.1897/04-373R.1
108071|A||Babu,T.S., S. Tripuranthakam, and B.M. Greenberg|Biochemical Responses of the Aquatic Higher Plant Lemna gibba to a Mixture of Copper and 1,2-Dihydroxyanthraquinone:  Synergistic Toxicity via Reactive Oxygen Species|Environ. Toxicol. Chem.24(12): 3030-3036|2005|10.1897/05-073R.1
108072|A||Akhtar,T.A., M.A. Lampi, and B.M. Greenberg|Identification of Six Differentially Expressed Genes in Response to Copper Exposure in the Aquatic Plant Lemna gibba (Duckweed)|Environ. Toxicol. Chem.24(7): 1705-1715|2005|10.1897/04-352R.1
108073|A||Zahner,H.M., E.J. VanGenderen, J.R. Tomasso, and S.J. Klaine|Whole-Body Sodium Concentration in Larval Fathead Minnows (Pimephales promelas) During and Following Copper Exposure|Environ. Toxicol. Chem.25(6): 1635-1639|2006|10.1897/05-543R.1
108074|T||Xiong,Z.T., C. Liu, and B. Geng|Phytotoxic Effects of Copper on Nitrogen Metabolism and Plant Growth in Brassica pekinensis Rupr.|Ecotoxicol. Environ. Saf.64(3): 273-280|2006|10.1016/j.ecoenv.2006.02.003
108075|A||Heijerick,D.G., B.T.A. Bossuyt, K.A.C. De Schamphelaere, M. Indeherberg, M. Mingazzini, and C.R. Janssen|Effect of Varying Physicochemistry of European Surface Waters on the Copper Toxicity to the Green Alga Pseudokirchneriella subcapitata|Ecotoxicology14(6): 661-670|2005|10.1007/s10646-005-0014-8
108076|A||Havens,K.E.|Experimental Perturbation of a Freshwater Plankton Community:  A Test of Hypothesis Regarding the Effects of Stress|Oikos69:147-153|1994|
108077|T||Maraldo,K., B. Christensen, B. Strandberg, and M. Holmstrup|Effects of Copper on Enchytraeids in the Field Under Differing Soil Moisture Regimes|Environ. Toxicol. Chem.25(2): 604-612|2006|10.1897/05-076R.1
108078|A||Linbo,T.L., C.M. Stehr, J.P. Incardona, and N.L. Scholz|Dissolved Copper Triggers Cell Death in the Peripheral Mechanosensory System of Larval Fish|Environ. Toxicol. Chem.25(2): 597-603|2006|10.1897/05-241R.1
108079|A||Lopes,I., D.J. Baird, and R. Ribeiro|Genetically Determined Resistance to Lethal Levels of Copper by Daphnia longispina:  Association with Sublethal Response and Multiple/Coresistance|Environ. Toxicol. Chem.24(6): 1414-1419|2005|10.1897/04-132R.1
108080|T||Sterner,R.T., K.A. Hollenbeck, and S.A. Shumake|Capsicum-Laden Soils Decrease Contact Time by Northern Pocket Gophers|Physiol. Behav.67(3): 455-458|1999|10.1016/S0031-9384(99)00092-X
108081|T||Wilson,C.L., J.M. Solar, A. El Ghaouth, and M.E. Wisniewski|Rapid Evaluation of Plant Extracts and Essential Oils for Antifungal Activity Against Botrytis cinerea|Plant Dis.81(2): 204-210|1997|10.1094/PDIS.1997.81.2.204
108082|T||Sterner,R.T., S.A. Shumake, S.E. Gaddis, and J.B. Bourassa|Capsicum Oleoresin:  Development of an In-Soil Repellent for Pocket Gophers|Pest Manag. Sci.61(12): 1202-1208|2005|10.1002/ps.1118
108083|T||Quintanilla,P., J. Rohloff, and T.H. Iversen|Influence of Essential Oils on Phytophthora infestans|Potato Res.45(2-4): 225-235|2002|10.1007/BF02736117
108084|T||Igbedioh,S., and I. Akinyele|Effect of Benomyl Toxicity on Some Liver Constituents of Albino Rats|Arch. Environ. Health47(4): 314-317|1992|10.1080/00039896.1992.9938368
108085|T||Hiepe,T.|Advances in Control of Ectoparasites in Large Animals|Angew. Parasitol.29(4): 201-210|1988|
108086|T||Yu,F., Y. Liao, Y. Jin, Y. Zhao, Y. Ren, C. Lu, G. Li, Y. Li, and J. Yang|Effects of In Utero meso-2,3-Dimercaptosuccinic Acid with Calcium and Ascorbic Acid on Lead-Induced Fetal Development|Arch. Toxicol.82(7): 453-459|2008|10.1007/s00204-007-0267-5
108087|T||Gerolt,P.|Mechanism of Resistance to Dichlorvos in Adult Houseflies|Pestic. Biochem. Physiol.4(3): 275-288|1974|10.1016/0048-3575(74)90111-4
108088|T||Smitley,D.R., and T.W. Davis|Aphid Control on Easter Lily, 1997|Arthropod Manag. Tests23:347-|1998|10.1093/amt/23.1.347
108089|T||Turner,D.J.|Improved Control of Stellaria media (L.) Vill in Leys with Trifolium repens, Using Bentazone and Benazolin with Additives|Weed Res. (Multiple Languages)25(4): 289-299|1985|10.1111/j.1365-3180.1985.tb00647.x
108090|T||Yi,H., J. Liu, and K. Zheng|Effect of Sulfur Dioxide Hydrates on Cell Cycle, Sister Chromatid Exchange, and Micronuclei in Barley|Ecotoxicol. Environ. Saf.62(3): 421-426|2005|10.1016/j.ecoenv.2004.11.005
108091|T||Albers,P.H., P.N. Klein, D.E. Green, M.J. Melancon, B.P. Bradley, and G. Noguchi|Chlorfenapyr and Mallard Ducks:  Overview, Study Design, Macroscopic Effects, and Analytical Chemistry|Environ. Toxicol. Chem.25(2): 438-445|2006|10.1897/05-004R.1
108092|A||Fraysse,B., R. Mons, and J. Garric|Development of a Zebrafish 4-Day Embryo-Larval Bioassay to Assess Toxicity of Chemicals|Ecotoxicol. Environ. Saf.63(2): 253-267|2006|10.1016/j.ecoenv.2004.10.015
108093|A||Glusczak,L., D. dos Santos Miron, M. Crestani, M. Braga da Fonseca, F. de Araujo Pedron, M.F. Duarte, and V.L.P. Vieira|Effect of Glyphosate Herbicide on Acetylcholinesterase Activity and Metabolic and Hematological Parameters in Piava (Leporinus obtusidens)|Ecotoxicol. Environ. Saf.65(2): 237-241|2006|10.1016/j.ecoenv.2005.07.017
108094|T||Johnson,D.W., L.P. Kish, and G.E. Allen|Field Evaluation of Selected Pesticides on the Natural Development of the Entomopathogen, Nomuraea rileyi, on the Velvetbean Caterpillar in Soybean|Environ. Entomol.5:964-966|1976|10.1093/ee/5.5.964
108096|T||Hydock,D.S., C.Y. Lien, C.M. Schneider, and R. Hayward|Effects of Voluntary Wheel Running on Cardiac Function and Myosin Heavy Chain in Chemically Gonadectomized Rats|Am. J. Physiol. Heart Circ. Physiol.293(6): H3254 - H3264|2007|10.1152/ajpheart.00801.2007
108097|T||Huhtaniemi,I.T., N. Nevo, A. Amsterdam, and Z. Naor|Effect of Postnatal Treatment with a Gonadotropin-Releasing Hormone Antagonist on Sexual Maturation of Male Rats|Biol. Reprod.35(3): 501-507|1986|10.1095/biolreprod35.3.501
108098|T||Hild,S.A., B.J. Attardi, and J.R. Reel|The Ability of a Gonadotropin-Releasing Hormone Antagonist, Acyline, to Prevent Irreversible Infertility Induced by the Indenopyridine, CDB-4022, in Adult Male Rats:  The Role of Testosterone|Biol. Reprod.71(1): 348-358|2004|10.1095/biolreprod.103.026989
108099|T||Hild,S.A., M.L. Meistrich, R.P. Blye, and J.R. Reel|Lupron Depot Prevention of Antispermatogenic/Antifertility Activity of the Indenopyridine, CDB-4022, in the Rat|Biol. Reprod.65(1): 165-172|2001|10.1095/biolreprod65.1.165
108100|T||Hampton,J.H., B.E. Salfen, J.F. Bader, D.H. Keisler, and H.A. Garverick|Ovarian Follicular Responses to High Doses of Pulsatile Luteinizing Hormone in Lactating Dairy Cattle|J. Dairy Sci.86(6): 1963-1969|2003|10.3168/jds.S0022-0302(03)73784-9
108101|T||Gajewska,A., G. Siawrys, I. Bogacka, J. Przala, Y. Lerrant, R. Counis, and K. Kochman|In Vivo Modulation of Follicle-Stimulating Hormone Release and beta Subunit Gene Expression by Activin A and the GnRH Agonist Buserelin in Female Rats|Brain Res. Bull.58(5): 475-480|2002|10.1016/S0361-9230(02)00821-3
108102|T||Fisher,J.S., N. Pastor-Soler, R.M. Sharpe, and S. Breton|Modulation of the Onset of Postnatal Development of H+-ATPase-Rich Cells by Steroid Hormones in Rat Epididymis|Biol. Reprod.67(4): 1106-1114|2002|10.1095/biolreprod67.4.1106
108103|T||Filippi,S., M. Luconi, S. Granchi, L. Vignozzi, S. Bettuzzi, P. Tozzi, F. Ledda, G. Forti, and M. Maggi|Estrogens, but not Androgens, Regulate Expression and Functional Activity of Oxytocin Receptor in Rabbit Epididymis|Endocrinology143(11): 4271-4280|2002|10.1210/en.2002-220384
108104|T||Chester,A.E., D.G. Fairchild, and L.R. DePass|Acute and Subchronic Toxicity Studies with Detirelix, a Luteinizing Hormone-Releasing Hormone Antagonist, in the Rat and Monkey|Fundam. Appl. Toxicol.17(3): 505-518|1991|10.1016/0272-0590(91)90201-E
108105|T||Campen,C.A., M.T. Lai, P. Kraft, T. Kirchner, A. Phillips, D.W. Hahn, and J. Rivier|"Potent Pituitary-Gonadal Axis Suppression and Extremely Low Anaphylactoid Activity of a New Gonadotropin Releasing Hormone (GnRH) Receptor Antagonist ""Azaline B"""|Biochem. Pharmacol.49(9): 1313-1321|1995|10.1016/0006-2952(95)00027-W
108106|T||Bengtsson,M., Y. Dong, D.R. Mattison, and J. Rydstrom|Mechanisms of Regulation of Rat Ovarian 7,12-Dimethylbenz(a)anthracene Hydroxylase|Chem.-Biol. Interact.63(1): 15-27|1987|10.1016/0009-2797(87)90101-3
108107|T||Ashby,J., P.A. Lefevre, R. Deghenghi, and N. Wallis|Replacement of Surgical Castration by GnRH-Inhibition or Leydig Cell Ablation in the Male Rat Hershberger Antiandrogen Assay|Regul. Toxicol. Pharmacol.34(2): 188-203|2001|10.1006/rtph.2001.1506
108108|T||Homady,M., H. Hussein, A. Jiries, A. Mahasneh, F. Al-Nasir, and K. Khleifat|Survey of Some Heavy Metals in Sediments from Vehicular Service Stations in Jordan and Their Effects on Social Aggression in Prepubertal Male Mice|Environ. Res.89(1): 43-49|2002|10.1006/enrs.2002.4353
108109|A||Michailova,P., N. Petrova, J. Ilkova, S. Bovero, S. Brunetti, K. White, and G. Sella|Genotoxic Effect of Copper on Salivary Gland Polytene Chromosomes of Chironomus riparius Meigen 1804 (Diptera, Chironomidae)|Environ. Pollut.144(2): 647-654|2006|10.1016/j.envpol.2005.12.041
108110|T||Amorim,M.J.B., S. Novais, J. Rombke, and A.M.V.M. Soares|Avoidance Test with Enchytraeus albidus (Enchytraeidae):  Effects of Different Exposure Time and Soil Properties|Environ. Pollut.155(1): 112-116|2008|10.1016/j.envpol.2007.10.028
108111|A||Hoang,T.C., E.C. Rogevich, G.M. Rand, P.R. Gardinali, R.A. Frakes, and T.A. Bargar|Copper Desorption in Flooded Agricultural Soils and Toxicity to the Florida Apple Snail (Pomacea paludosa):  Implications in Everglades Restoration|Environ. Pollut.154(2): 338-347|2008|10.1016/j.envpol.2007.09.024
108112|A||Zorita,I., E. Bilbao, A. Schad, I. Cancio, M. Soto, and M.P. Cajaraville|Tissue- and Cell-Specific Expression of Metallothionein Genes in Cadmium- and Copper-Exposed Mussels Analyzed by In Situ Hybridization and RT-PCR|Toxicol. Appl. Pharmacol.220(2): 186-196|2007|10.1016/j.taap.2007.01.003
108113|T||Haimi,J., K.E. Knott, S. Selonen, and M. Laurikainen|Has Long-Term Metal Exposure Induced Changes in Life History Traits and Genetic Diversity of the Enchytraeid Worm Cognettia sphagnetorum (Vejd.)?|Environ. Pollut.140(3): 463-470|2006|10.1016/j.envpol.2005.08.009
108114|A||Han,T., Y.S. Han, C.Y. Park, Y.S. Jun, M.J. Kwon, S.H. Kang, and M.T. Brown|Spore Release by the Green Alga Ulva: A Quantitative Assay to Evaluate Aquatic Toxicants|Environ. Pollut.153(3): 699-705|2008|10.1016/j.envpol.2007.09.001
108115|A||Vasuki,V.|Adult Longevity of Certain Mosquito Species After Larval and Pupal Exposure to Sublethal Concentration of an Insect Growth Regulator, Hexaflumuron|Southeast Asian J. Trop. Med. Public Health23(1): 121-124|1992|
108116|T||Bundy,G.L., D.T. Pals, J.A. Lawson, S.J. Couch, M.F. Lipton, and M.A. Mauragis|Potent Renin Inhibitory Peptides Containing Hydrophilic End Groups|J. Med. Chem.33(8): 2276-2283|1990|10.1021/jm00170a036
108117|T||Grichar,W.J.|Management of Stem Rot of Peanuts (Arachis hypogaea) Caused by Sclerotium rolfsii with Fungicides|Crop Prot.14(2): 111-115|1995|10.1016/0261-2194(95)92864-J
108118|T||Kim,Y.C., and H.B. Matthews|Comparative Metabolism and Excretion of Resorcinol in Male and Female F344 Rats|Fundam. Appl. Toxicol.9(3): 409-414|1987|10.1016/0272-0590(87)90023-6
108119|T||Andrewes,P., W.R. Cullen, C. Wang, E. Polishchuk, and T. Liao|Interaction of Scopulariopsis brevicaulis, and Other Microorganisms, with 10,10'-Oxybisphenoxarsine (OBPA)|Appl. Organomet. Chem.14(7): 364-370|2000|10.1002/1099-0739(200007)14:7<364::AID-AOC10>3.0.CO;2-M
108120|A||Sandmann,G., S. Kowalczyk-Schroder, H.M. Taylor, and P. Boger|Quantitative Structure-Activity Relationship of Fluridone Derivatives with Phytoene Desaturase|Pestic. Biochem. Physiol.42(1): 1-6|1992|10.1016/0048-3575(92)90067-A
108121|A||Wells,R.D.S., B.T. Coffey, and D.R. Lauren|Evaluation of Fluridone for Weed Control in New Zealand|J. Aquat. Plant Manag.24:39-42|1986|
108122|A||Watanabe,H., K. Takahashi, and M. Saigusa|Morphological and Anatomical Effects of Abscisic Acid (ABA) and Fluridone (FLU) on the Growth of Rice Mesocotyls|Plant Growth Regul.34(3): 273-275|2001|10.1023/A:1013333718573
108124|T||Gonzalez-Chavez,M.C., R. Carrillo-Gonzalez, S.F. Wright, and K.A. Nichols|The Role of Glomalin, a Protein Produced by Arbuscular Mycorrhizal Fungi, in Sequestering Potentially Toxic Elements|Environ. Pollut.130(3): 317-323|2004|10.1016/j.envpol.2004.01.004
108125|T||Kopittke,P.M., P.J. Dart, and N.W. Menzies|Toxic Effects of Low Concentrations of Cu on Nodulation of Cowpea (Vigna unguiculata)|Environ. Pollut.145(1): 309-315|2007|10.1016/j.envpol.2006.03.007
108126|A||Hughes,J.S., and J.T. Davis|Median Tolerance Limits Reported in Parts per Million of Bluegill Sunfish to Herbicides Tested During 1961-62|La. Wildl. and Fish. Commiss., Monroe, LA:3 p.|1961|
108127|A||Pinho,G.L.L., M.S. Pedroso, S.C. Rodrigues, S.S. De Souza, and A. Bianchini|Physiological Effects of Copper in the Euryhaline Copepod Acartia tonsa:  Waterborne Versus Waterborne plus Dietborne Exposure|Aquat. Toxicol.84(1): 62-70|2007|10.1016/j.aquatox.2007.06.001
108128|A||Schwartz,M.L., and B. Vigneault|Development and Validation of a Chronic Copper Biotic Ligand Model for Ceriodaphnia dubia|Aquat. Toxicol.84(2): 247-254|2007|10.1016/j.aquatox.2007.01.011
108129|A||Wang,H., X.Q. Shan, B. Wen, S. Zhang, and Z.J. Wang|Responses of Antioxidative Enzymes to Accumulation of Copper in a Copper Hyperaccumulator of Commoelina communis|Arch. Environ. Contam. Toxicol.47(2): 185-192|2004|10.1007/s00244-004-2222-2
108130|A||Wong,N.C., M.H. Wong, K.K. Shiu, and J.W. Qiu|Dependency of Copper Toxicity to Polychaete Larvae on Algal Concentration|Aquat. Toxicol.77(2): 117-125|2006|10.1016/j.aquatox.2005.11.004
108131|T||Hamamoto,J., H. Kohrogi, O. Kawano, H. Iwagoe, K. Fujii, N. Hirata, and M. Ando|Esophageal Stimulation by Hydrochloric Acid Causes Neurogenic Inflammation in the Airways in Guinea Pigs|J. Appl. Physiol.82(3): 738-745|1997|10.1152/jappl.1997.82.3.738
108132|T||Hung,C.R., and S.L. Neu|Acid-Induced Gastric Damage in Rats is Aggravated by Starvation and Prevented by Several Nutrients|J. Nutr.127(4): 630-636|1997|10.1093/jn/127.4.630
108133|T||Stansly,P.A., and B.M. Cawley|Control of Sweetpotato Whitefly and Geminivirus Transmission on Staked Tomato, Spring, 1990|Insectic. Acaric. Tests17:171-172|1990|10.1093/iat/17.1.171
108134|T||Riley,D.G.|Control of the Sweetpotato Whitefly in Cantaloupe with Two Pyrethroid and Two Organochlorine Insecticides, 1991|Insectic. Acaric. Tests17:95-96|1992|
108135|T||Carson,W.G., L.J. Robinson, and J.T. Trumble|Chemical Trials and Effects on Arthropods in Celery, 1990|Arthropod Manag. Tests17:96-97|1992|
108136|A||Bentivegna,D.J., O.A. Fernandez, and M.A. Burgos|Acrolein Reduces Biomass and Seed Production of Potamogeton pectinatus in Irrigation Channels|Weed Technol.18:605-610|2004|10.1614/WT-03-101R1
108137|T||Giovanini,M.P., K.D. Saltzmann, D.P. Puthoff, M. Gonzalo, H.W. Ohm, and C.E. Williams|A Novel Wheat Gene Encoding a Putative Chitin-Binding Lectin is Associated with Resistance Against Hessian Fly|Mol. Plant Pathol.8(1): 69-82|2007|10.1111/j.1364-3703.2006.00371.x
108139|A||Petri,D., C.N. Glover, S. Ylving, K. Kolas, G. Fremmersvik, R. Waagbo, and M.H.G. Berntssen|Sensitivity of Atlantic Salmon (Salmo salar) to Dietary Endosulfan as Assessed by Haematology, Blood Biochemistry, and Growth Parameters|Aquat. Toxicol.80(3): 207-216|2006|10.1016/j.aquatox.2006.07.019
108141|T||Phrakonkham,P., J. Chevalier, C. Desmetz, M.F. Pinnert, R. Berges, E. Jover, M.J. Davicco, C. Bennetau-Pelissero, V. Co|Isoflavonoid-Based Bone-Sparing Treatments Exert a Low Activity on Reproductive Organs and on Hepatic Metabolism of Estradiol in Ovariectomized Rats|Toxicol. Appl. Pharmacol.224(2): 105-115|2007|10.1016/j.taap.2007.06.012
108142|T||Myllymaki,S.A., M. Karjalainen, T.E. Haavisto, J. Toppari, and J. Paranko|Infantile 4-tert-Octylphenol Exposure Transiently Inhibits Rat Ovarian Steroidogenesis and Steroidogenic Acute Regulatory Protein (StAR) Expression|Toxicol. Appl. Pharmacol.207(1): 59-68|2005|10.1016/j.taap.2004.12.001
108143|T||Arnold,L.L., M. Eldan, M. Van Gemert, C.C. Capen, and S.M. Cohen|Chronic Studies Evaluating the Carcinogenicity of Monomethylarsonic Acid in Rats and Mice|Toxicology190(3): 197-219|2003|10.1016/S0300-483X(03)00165-3
108145|T||Katayama,S., K. Ashizawa, H. Gohma, T. Fukuhara, K. Narumi, Y. Tsuzuki, H. Tatemoto, T. Nakada, and K. Nagai|The Expression of Hedgehog Genes (Ihh, Dhh) and Hedgehog Target Genes (Ptc1, Gli1, Coup-TfII) is Affected by Estrogenic Stimuli in the Uterus of Immature Female Rats|Toxicol. Appl. Pharmacol.217(3): 375-383|2006|10.1016/j.taap.2006.10.003
108146|T||Katsuda,S.I., M. Yoshida, G. Watanabe, K. Taya, and A. Maekawa|Irreversible Effects of Neonatal Exposure to p-tert-Octylphenol on the Reproductive Tract in Female Rats|Toxicol. Appl. Pharmacol.165(3): 217-226|2000|10.1006/taap.2000.8940
108147|T||Gupta,R.K., R.A. Schuh, G. Fiskum, and J.A. Flaws|Methoxychlor Causes Mitochondrial Dysfunction and Oxidative Damage in the Mouse Ovary|Toxicol. Appl. Pharmacol.216(3): 436-445|2006|10.1016/j.taap.2006.06.013
108148|A||Gyllenhammar,I., L. Holm, R. Eklund, and C. Berg|Reproductive Toxicity in Xenopus tropicalis After Developmental Exposure to Environmental Concentrations of Ethynylestradiol|Aquat. Toxicol.91:171-178|2009|10.1016/j.aquatox.2008.06.019
108149|T||Ilback,N.G., U. Lindh, R. Minqin, G. Friman, and F. Watt|Iron and Copper Accumulation in the Brain of Coxsackievirus-Infected Mice Exposed to Cadmium|Environ. Res.102(3): 308-313|2006|10.1016/j.envres.2006.02.004
108150|T||Vila,M., S. Lorber-Pascal, and F. Laurent|Fate of RDX and TNT in Agronomic Plants|Environ. Pollut.148(1): 148-154|2007|10.1016/j.envpol.2006.10.030
108151|T||Peters,R., J.W. Kelsey, and J.C. White|Differences in p,p'-DDE Bioaccumulation from Compost and Soil by the Plants Cucurbita pepo and Cucurbita maxima and the Earthworms Eisenia fetida and Lumbricus terrestris|Environ. Pollut.148(2): 539-545|2007|10.1016/j.envpol.2006.11.030
108152|A||Webb,D., and M.M. Gagnon|Serum Sorbitol Dehydrogenase Activity as an Indicator of Chemically Induced Liver Damage in Black Bream (Acanthopagrus butcheri)|Environ. Bioindic.2(3): 172-182|2007|10.1080/15555270701591006
108153|A||Vijayavel,K., E.F. Rani, C. Anbuselvam, and M.P. Balasubramanian|Interactive Effect of Monocrotophos and Ammonium Chloride on the Freshwater Fish Oreochromis mossambicus with Reference to Lactate/Pyruvate Ratio|Pestic. Biochem. Physiol.86(3): 157-161|2006|10.1016/j.pestbp.2006.03.002
108154|T||Johri,A., S. Yadav, A. Dhawan, and D. Parmar|Overexpression of Cerebral and Hepatic Cytochrome P450s Alters Behavioral Activity of Rat Offspring Following Prenatal Exposure to Lindane|Toxicol. Appl. Pharmacol.225(3): 278-292|2007|10.1016/j.taap.2007.08.006
108155|T||Genofre,E.H., F.S. Vargas, L. Antonangelo, L.R. Teixeira, M.A.C. Vaz, E. Marchi, and V.L. Capelozzi|Ultrastructural Acute Features of Active Remodeling After Chemical Pleurodesis Induced by Silver Nitrate or Talc|Lung (N.Y.)183(3): 197-207|2005|
108156|T||Kalistratova,V.S., A.G. Kogan, and M.D. Kozlova|Effect of Certain Factors on the Behavior of 111Ag in the Organism of Animals|In: Distribution and Biological Effects of Radioactive Isotopes, Y.I.Moskalev, Bureau of Commercial Fish.Center for Estuarine and Menhaden Research, Beaufort, NC:188-193|1966|
108157|T||Fujita,S., T. Shimizu, K. Izumi, T. Fukuda, M. Sameshima, and N. Ohba|Capsaicin-Induced Neuroparalytic Keratitis-like Corneal Changes in the Mouse|Exp. Eye Res.38(2): 165-175|1984|10.1016/0014-4835(84)90100-3
108158|A||Chandrasekaran,V.S., H.C.S. Bisht, and U.P. Singh|Acute Toxicity of Pesticide Endosulfan to the Young Ones of the Fish Channa gachua (ham.)|Fish. Technol.42(2): 177-182|2005|
108159|AT||Janardhan,A., A.B. Rao, and P. Sisodia|Species Variation in Acute Toxicity of Monocrotophos and Methyl Benzimidazole Carbamate|Indian J. Pharmacol.18(2): 102-103|1986|
108160|T||Dubey,R.S., and M. Rani|Salinity Induced Accumulation of Free Amino Acids in Germinating Rice Seeds Differing in Salt Tolerance|J. Agron. Crop Sci.163(4): 236-247|1989|10.1111/j.1439-037X.1989.tb00763.x
108161|A||Froelich,S.L., and T. Engelhardt|Comparative Effects of Formalin and Salt Treatments on Hatch Rate of Koi Carp Eggs|Prog. Fish-Cult.58(3): 209-211|1996|10.1577/1548-8640(1996)058<0209:CEOFAS>2.3.CO;2
108163|T||Jager,T., T. Crommentuijn, C.A.M. Van Gestel, and S.A.L.M. Kooijman|Chronic Exposure to Chlorpyrifos Reveals Two Modes of Action in the Springtail Folsomia candida|Environ. Pollut.145(2): 452-458|2007|10.1016/j.envpol.2006.04.028
108164|A||Demetriou,G., C. Neonaki, E. Navakoudis, and K. Kotzabasis|Salt Stress Impact on the Molecular Structure and Function of the Photosynthetic Apparatus - the Protective Role of Polyamines|Biochim. Biophys. Acta1767(4): 272-280|2007|10.1016/j.bbabio.2007.02.020
108165|T||Issa,A.A., M.H. Abd-Alla, and A.L.E. Mahmoud|Effect of Biological Treatments on Growth and Some Metabolic Activities of Barley Plants Grown in Saline Soil|Microbiol. Res.149(3): 317-320|1994|10.1016/S0944-5013(11)80075-3
108166|T||Mostafa,M.H., E.A. El-Bassiouni, S.M. El-Sewedy, T. Tawfic, and A.H. El-Sebae|Influence of Pretreatment with Various Insecticides on the N-Demethylation of Dimethylnitrosamine|Environ. Res.32(1): 57-61|1983|10.1016/0013-9351(83)90191-3
108167|T||Batiste-Alentorn,M., N. Xamena, A. Velazquez, A. Creus, and R. Marcos|Studies on the Toxicity of Cypermethrin and Fenvalerate in Different Strains of Drosophila melanogaster Meig. (Insecta, Diptera)|Environ. Res.43(1): 117-125|1987|10.1016/S0013-9351(87)80063-4
108168|AT||Lee,T.M., H.S. Lur, and C. Chu|Role of Abscisic Acid in Chilling Tolerance of Rice (Oryza sativa L.) Seedlings.  II.  Modulation of free Polyamine Levels|Plant Sci.126(1): 1-10|1997|10.1016/S0168-9452(97)00076-9
108169|T||Angelini,L.G., G. Carpanese, P.L. Cioni, I. Morelli, M. Macchia, and G. Flamini|Essential Oils from Mediterranean Lamiaceae as Weed Germination Inhibitors|J. Agric. Food Chem.51(21): 6158-6164|2003|10.1021/jf0210728
108170|T||Upsher,F.J., and R.J. Roseblade|Assessment by Tropical Exposure of Some Fungicides in Plasticized PVC|Int.Biodeterior.20(4): 243-252|1984|
108171|A||Windhovel,U., B. Geiges, G. Sandmann, and P. Boger|Engineering Cyanobacterial Models Resistant to Bleaching Herbicides|Pestic. Biochem. Physiol.49(1): 63-71|1994|10.1006/pest.1994.1034
108172|T||Stinner,B.R., H.R. Krueger, and D.A. McCartney|Insecticide and Tillage Effects on Pest and Non-Pest Arthropods in Corn Agroecosystems|Agric. Ecosyst. Environ.15(1): 11-21|1986|10.1016/0167-8809(86)90109-X
108173|T||Baker,H.J., A.L. Bertus, and G.F. Courtney|The Uptake of Some Benzimidazole Fungicides from Soil into Plants and Their Persistence in Soil and Plant Tissue|Acta. Phytopathol. Acad. Sci. Hung.11(3/4): 331-334|1976|
108174|A||Sharma,B.M., and M.K.C. Sridhar|Growth Characteristics of Water Lettuce (Pistia stratiotes L.) in South-West Nigeria|Arch. Hydrobiol.115(2): 305-312|1989|10.1127/archiv-hydrobiol/115/1989/305
108175|A||Choo,K.S., J. Nilsson, M. Pedersen, and P. Snoeijs|Photosynthesis, Carbon Uptake and Antioxidant Defence in Two Coexisting Filamentous Green Algae Under Different Stress Conditions|Mar. Ecol. Prog. Ser.292:127-138|2005|10.3354/meps292127
108177|A||Srivastava,S., S. Mishra, R.D. Tripathi, S. Dwivedi, and D.K. Gupta|Copper-Induced Oxidative Stress and Responses of Antioxidants and Phytochelatins in Hydrilla verticillata (L.f.) Royle|Aquat. Toxicol.80(4): 405-415|2006|10.1016/j.aquatox.2006.10.006
108178|T||Stuchlikova,K., V. Hejnak, and I. Safrankova|The Effect of Abscisic Acid and Benzylaminopurine on Photosynthesis and Transpiration Rates of Maize (Zea mays L.) Under Water Stress and Subsequent Rehydration|Cereal Res. Commun.35(4): 1593-1602|2007|10.1556/CRC.35.2007.4.6
108179|T||Arshad,N., S. Yunus, and Gul-E-Adan |Endosulfan Induced Changes in Hematological and Some Immunological Parameters in Mice|Bull. Dep. Zool. Univ. Panjab16:147-154|2001|
108180|T||Das,N., and A. Garg|Effect of Endosulfan in Female Rats Growing on Low- and High-Protein Cereal Diet|Pestic. Biochem. Physiol.15(1): 90-98|1981|10.1016/0048-3575(81)90037-7
108181|T||Chugh,Y., A. Sankaranarayanan, and P.L. Sharma|Possible Mechanism of Endosulfan-Induced Enhancement of Memory Acquisition and Retention in Mice|Indian J. Physiol. Pharmacol.38(2): 138-140|1994|
108182|T||Balasubramaniam,E., V. Paul, and M. Kazi|Cyclodiene Insecticides-Induced Changes in the Central Depressive Effect of Chlorpromazine in Rats|Indian J. Physiol. Pharmacol.39(3): 231-236|1995|
108183|T||Kalender,Y., M. Uzunhisarcikli, A. Ogutcu, Z. Suludere, and S. Kalender|Effects of Endosulfan on Thaumetopoea pityocampa (Lepidoptera: Thaumetopoeidae) Larvae|Folia Biol. (Prague)53(3/4): 229-233|2005|10.3409/173491605775142792
108184|T||Hincal,F., A. Gurbay, and B. Giray|Induction of Lipid Peroxidation and Alteration of Glutathione Redox Status by Endosulfan|Biol. Trace Elem. Res.47(1-3): 321-326|1995|10.1007/BF02790133
108185|A||Kalsoom,O., S. Jalali, and S.A. Shami|Effect of Endosulfan on Histomorphology of Fresh Water Cyprinid Fish, Cyprinion watsoni|Pak. J. Zool.37(1): 61-67|2005|
108186|A||Tripathi,G., and P. Verma|Endosulfan-Mediated Biochemical Changes in the Freshwater Fish Clarias batrachus|Biomed. Environ. Sci.17(1): 47-56|2004|
108187|T||Sinha,D.K., P. Verma, A. Kumar, and A. Nath|Changes in Hepatic Cells of Mice Mus musculus Under Sublethal Dose of Endosulfan|J. Ecophysiol. Occup. Health4(3-4): 179-183|2004|
108188|A||Gupta,P.K., and R.C. Gupta|Influence of Endosulfan on Pentobarbitone Sleeping Time and Blood and Brain Concentrations in Male Rats|J. Pharm. Pharmacol.29(4): 245-246|1977|
108189|T||Anand,M., K. Gopal, S. Mehrotra, S.V. Chandra, P.K. Ray, and A.K. Paul|Ocular Toxicity of Organochlorinated Pesticides in Rabbits|J. Toxicol. Cutan. Ocul. Toxicol.6(3): 161-171|1987|10.3109/15569528709051521
108190|A||Borah,S., and R.N.S. Yadav|Endosulfan Induced Metabolic Alternations in the Muscle of a Freshwater Fish, Heteropneustes fossilis (Bloch)|Geobios21(4): 289-293|1994|
108191|A||Saravanan,T.S., and R. Harikrishnan|Effects of Sublethal Concentations of Copper and Endosulfan on Haematological Parameters of the Freshwater Fish, Sarotherodon mossambicus (Trewaves)|J. Ecobiol.11(1): 13-18|1999|
108192|T||Lock,K., P. Criel, K.A.C. De Schamphelaere, H. Van Eeckhout, and C.R. Janssen|Influence of Calcium, Magnesium, Sodium, Potassium and pH on Copper Toxicity to Barley (Hordeum vulgare)|Ecotoxicol. Environ. Saf.68(2): 299-304|2007|10.1016/j.ecoenv.2006.11.014
108193|T||Murase,M., T. Uemura, M. Gao, M. Inada, T. Funabashi, and F. Hirahara|GnRH Antagonist-Induced Down-Regulation of the mRNA Expression of Pituitary Receptors:  Comparisons with GnRH Agonist Effects|Endocr. J.52(1): 131-137|2005|10.1507/endocrj.52.131
108194|T||Sharpe,R.M., A. Rivas, M. Walker, C. McKinnell, and J.S. Fisher|Effect of Neonatal Treatment of Rats with Potent or Weak (Environmental) Oestrogens, or with a GnRH Antagonist, on Leydig Cell Development and Function Through Puberty into Adulthood|Int. J. Androl.26(1): 26-36|2003|10.1046/j.1365-2605.2003.00385.x
108195|T||Moreno,M., F. Canadas, D. Cardona, C. Sunol, L. Campa, M.A. Sanchez-Amate, P. Flores, and F. Sanchez-Santed|Long-Term Monoamine Changes in the Striatum and Nucleus Accumbens After Acute Chlorpyrifos Exposure|Toxicol. Lett.176(2): 162-167|2008|10.1016/j.toxlet.2007.11.003
108196|T||Al-Badrany,Y.M.A., and F.K. Mohammad|Effects of Acute and Repeated Oral Exposure to the Organophosphate Insecticide Chlorpyrifos on Open-Field Activity in Chicks|Toxicol. Lett.174(1-3): 110-116|2007|10.1016/j.toxlet.2007.09.001
108197|T||Noetzel,D.M., and J. Miller|Control of Resistant Colorado Potato Beetle, Andover, MN, 1993|Arthropod Manag. Tests19:114-115|1994|
108198|A||Karen,D.J., D.R. Ownby, B.S. Day, R.W. Brown, D.P. Shupack, G.P. Cobb, and T.W. La Point|Influence of Water Quality Parameters on Silver Toxicity to Rainbow Trout, Oncorhynchus mykiss|In: Proceedings of the 5th International Argentum Conference on the Transport, Fate, and Effects of Silver in the Environment, Hamilton, ON, Canada:275-285|1997|
108199|A||Blaise,C., F. Gagne, J.F. Ferard, and P. Eullaffroy|Ecotoxicity of Selected Nano-Materials to Aquatic Organisms|Environ. Toxicol.23:591-598|2008|10.1002/tox.20402
108200|T||Wang,H., R.L. Wick, and B. Xing|Toxicity of Nanoparticulate and Bulk ZnO, Al2O3 and TiO2 to the Nematode Caenorhabditis elegans|Environ. Pollut.157(4): 1171-1177|2009|10.1016/j.envpol.2008.11.004
108201|A||Hund-Rinke,K., and M. Simon|Ecotoxic Effect of Photocatalytic Active Nanoparticles (TiO2) on Algae and Daphnids|Environ. Sci. Pollut. Res.13(4): 225-232|2006|10.1065/espr2006.06.311
108203|A||Tsai,Y.C., C.Y. Hong, L.F. Liu, and C.H. Kao|Expression of Ascorbate Peroxidase and Glutathione Reductase in Roots of Rice Seedlings in Response to NaCl and H2O2|J. Plant Physiol.162(3): 291-299|2005|10.1016/j.jplph.2004.06.004
108204|T||Longhurst,J.C., J.H. Ashton, and G.A. Iwamoto|Cardiovascular Reflexes Resulting from Capsaicin-Stimulated Gastric Receptors in Anaesthetized Dogs|Circ. Res.46:780-788|1980|10.1161/01.RES.46.6.780
108205|T||Razzaghi-Abyaneh,M., M. Shams-Ghahfarokhi, T. Yoshinari, M.B. Rezaee, K. Jaimand, H. Nagasawa, and S. Sakuda|Inhibitory Effects of Satureja hortensis L. Essential Oil on Growth and Aflatoxin Production by Aspergillus parasiticus|Int. J. Food Microbiol.123(3): 228-233|2008|10.1016/j.ijfoodmicro.2008.02.003
108206|T||Lopez-Malo,A., S.M. Alzamora, and E. Palou|Aspergillus flavus Dose-Response Curves to Selected Natural and Synthetic Antimicrobials|Int. J. Food Microbiol.73(2-3): 213-218|2002|10.1016/S0168-1605(01)00639-0
108207|T||Beijerink,N.J., S.F.M. Bhatti, A.C. Okkens, S.J. Dieleman, J.A. Mol, L. Duchateau, L.M.L. Van Ham, and H.S. Kooistra|Adenohypophyseal Function in Bitches Treated with Medroxyprogesterone Acetate|Domest. Anim. Endocrinol.32(2): 63-78|2007|10.1016/j.domaniend.2005.12.008
108208|T||Camurca-Vasconcelos,A.L.F., C.M.L. Bevilaqua, S.M. Morais, M.V. Maciel, C.T.C. Costa, I.T.F. Macedo, L.M.B. Oliveira, R|Anthelmintic Activity of Croton zehntneri and Lippia sidoides Essential Oils|Vet. Parasitol.148(3/4): 288-294|2007|10.1016/j.vetpar.2007.06.012
108211|T||Glazar,B.S., P.M. McCue, J.E. Bruemmer, and E.L. Squires|Deslorelin on Day 8 or 12 Postovulation does not Luteinize Follicles During an Artificially Maintained Diestrous Phase in the Mare|Theriogenology62(1-2): 57-64|2004|10.1016/j.theriogenology.2003.07.024
108212|T||Huang,H.S., G.L. Stahl, and J.C. Longhurst|Cardiac-Cardiovascular Reflexes Induced by Hydrogen Peroxide in Cats|Am. J. Physiol. Heart Circ. Physiol.268(5, Pt. 2): H2114 - H2124|1995|10.1152/ajpheart.1995.268.5.H2114
108214|T||Frisbee,J.C., and J.H. Lombard|Acute Elevations in Salt Intake and Reduced Renal Mass Hypertension Compromise Arteriolar Dilation in Rat Cremaster Muscle|Microvasc. Res.57(3): 273-283|1999|10.1006/mvre.1998.2138
108215|A||Rabinowitch,H.D., C.T. Privalle, and I. Fridovich|Effects of Paraquat on the Green Alga Dunaliella salina:  Protection by the Mimic of Superoxide Dismutase, Desferal-Mn(IV)|Free Radic. Biol. Med.3(2): 125-131|1987|10.1016/S0891-5849(87)80007-2
108217|T||Larson,T.D., B.L. Johnson, and R.A. Henson|Comparison of Stay-Green and Conventional Sunflower Desiccation in the Northern Great Plains|Agron. J.100(4): 1124-1129|2008|10.2134/agronj2007.0255
108218|T||Lancas,F.M., M.A. Barbirato, M.S. Galhiane, and S.R. Rissato|Extraction of Fluazinan Residues from Fruits by CO2 in the Supercritical State|J. High Resolut. Chromatogr. HRC20(10): 569-571|1997|10.1002/jhrc.1240201010
108219|A||Blum,J., and I. Fridovich|Superoxide, Hydrogen Peroxide, and Oxygen Toxicity in Two Free-Living Nematode Species|Arch. Biochem. Biophys.222(1): 35-43|1983|10.1016/0003-9861(83)90499-X
108221|A||Sugumar,V., and N. Munuswamy|Induction of Population Growth, Mictic Female Production and Body Size by Treatment of a Synthetic GnRH Analogue in the Freshwater Rotifer, Brachionus calyciflorus Pallas|Aquaculture258(1-4): 529-534|2006|10.1016/j.aquaculture.2006.03.034
108222|A||Sarkar,U.K., P.K. Deepak, R.S. Negi, S. Singh, and D. Kapoor|Captive Breeding of Endangered Fish Chitala chitala (Hamilton-Buchanan) for Species Conservation and Sustainable Utilization|Biodivers. Conserv.15(11): 3579-3589|2006|10.1007/s10531-004-2935-6
108223|T||Roth,C., F. Hegemann, J. Hildebrandt, I. Balzer, A. Witt, W. Wuttke, and H. Jarry|Pituitary and Gonadal Effects of GnRH (Gonadotropin Releasing Hormone) Analogues in Two Peripubertal Female Rat Models|Pediatr. Res.55(1): 126-133|2004|10.1203/01.PDR.0000100463.84334.3F
108224|T||Rivas,A., J.S. Fisher, C. McKinnell, N. Atanassova, and R.M. Sharpe|Induction of Reproductive Tract Developmental Abnormalities in the Male Rat by Lowering Androgen Production or Action in Combination with a Low Dose of Diethylstilbestrol:  Evidence for Importance of the Androgen-Estrog|Endocrinology143(12): 4797-4808|2002|10.1210/en.2002-220531
108225|A||Mikolajczyk,T., M. Sokolowska-Mikolajczyk, P. Szczerbik, M. Duc, K. Goryczko, S. Dobosz, J. Glogowski, P. Epler, and W.|The Effects of the GnRH Agonist, Azagly-Nafarelin (Gonazon), on Ovulation and Egg Viability in the European Grayling (Thymallus thymallus L.)|Aquaculture281(1-4): 126-130|2008|10.1016/j.aquaculture.2008.05.029
108226|A||Mikolajczyk,T., J. Chyb, P. Szczerbik, M. Sokolowska-Mikolajczyk, P. Epler, W.J. Enright, M. Filipiak, and B. Breton|Evaluation of the Potency of Azagly-Nafarelin (GnRH Analogue), Administered in Combination with Different Formulations of Pimozide, on LH Secretion, Ovulation and Egg Quality in Common Carp (Cyprinus carpio L.) Under La|Aquaculture234(1-4): 447-460|2004|10.1016/j.aquaculture.2004.01.012
108227|A||Mikolajczyk,T., J. Chyb, M. Sokolowska-Mikolajczyk, W.J. Enright, P. Epler, M. Filipiak, and B. Breton|Attempts to Induce an LH Surge and Ovulation in Common Carp (Cyprinus carpio L.) by Differential Application of a Potent GnRH Analogue, Azagly-Nafarelin, Under Laboratory, Commercial Hatchery, and Natural Conditions|Aquaculture223(1-4): 141-157|2003|10.1016/S0044-8486(03)00158-3
108228|T||Meistrich,M.L., G. Wilson, K.L. Porter, I. Huhtaniemi, G. Shetty, and G.A. Shuttlesworth|Restoration of Spermatogenesis in Dibromochloropropane (DBCP)-Treated Rats by Hormone Suppression|Toxicol. Sci.76(2): 418-426|2003|10.1093/toxsci/kfg237
108229|T||Ljungvall,K., L. Spjuth, F. Hulten, S. Einarsson, H. Rodriguez-Martinez, K. Andersson, and U. Magnusson|Early Post-Natal Exposure to Low Dose Oral di(2ethylhexyl) Phthalate Affects the Peripheral LH-Concentration in Plasma, but does not Affect Mating Behavior in the Post-Pubertal Boar|Reprod. Toxicol.21(2): 160-166|2006|10.1016/j.reprotox.2005.07.012
108231|T||Sinkevicius,K.W., J.E. Burdette, K. Woloszyn, S.C. Hewitt, K. Hamilton, S.L. Sugg, K.A. Temple, F.E. Wondisford, K.S. K|An Estrogen Receptor-alpha Knock-in Mutation Provides Evidence of Ligand-Independent Signaling and Allows Modulation of Ligand-Induced Pathways In Vivo|Endocrinology149(6): 2970-2979|2008|10.1210/en.2007-1526
108232|A||Legendre,M., J. Slembrouck, J. Subagja, and A. Hari Kristanto|Ovulation Rate, Latency Period and Ova Viability After GnRH- or hCG-Induced Breeding in the Asian Catfish Pangasius hypophthalmus (Siluriformes, Pangasiidae)|Aquat. Living Resour.13(3): 145-151|2000|10.1016/S0990-7440(00)00148-0
108233|A||Viveiros,A.T.M., Y. Fessehaye, M. ter Veld, R.W. Schulz, and J. Komen|Hand-Stripping of Semen and Semen Quality After Maturational Hormone Treatments, in African Catfish Clarias gariepinus|Aquaculture213(1-4): 373-386|2002|10.1016/S0044-8486(02)00036-4
108234|T||Kostanski,J.W., G.Z. Jiang, B.A. Dani, S.B. Murty, W. Qiu, B. Schrier, B.C. Thanoo, and P.P. DeLuca|Return to Fertility After Extended Chemical Castration with a GnRH Antagonist|BMC Cancer1(18): 7 p.|2001|
108237|A||Jun,B.H., S.I. Lee, H.D. Ryu, and Y.J. Kim|Temperature-Based Rapid Toxicity Test Using Ceriodaphnia dubia|Water Sci. Technol.53(4/5): 347-355|2006|10.2166/wst.2006.140
108238|T||Tasheva,M., and V. Hristeva|Comparative Study on the Effects of Five Benzoylphenylurea Insecticides on Haematological Parameters in Rats|J. Appl. Toxicol.13(1): 67-68|1993|10.1002/jat.2550130113
108239|T||Martinez,J., J. Perez-Serrano, W.E. Bernadina, and F. Rodriguez-Caabeiro|Expression of Hsp90, Hsp70 and Hsp60 in Trichinella Species Exposed to Oxidative Shock|J. Helminthol.76(3): 217-223|2002|10.1079/JOH2002127
108240|T||Hayashi,K., A. Miyamoto, A. Konari, M. Ohtani, and Y. Fukui|Effect of Local Interaction of Reactive Oxygen Species with Prostaglandin F2alpha on the Release of Progesterone in Ovine Corpora Lutea In Vivo|Theriogenology59(5/6): 1335-1344|2003|10.1016/S0093-691X(02)01173-1
108241|T||Gamse,R.|Capsaicin and Nociception in the Rat and Mouse.  Possible Role of Substance P|Naunyn-Schmiedeberg's Arch. Pharmacol.320:205-216|1982|10.1007/BF00510129
108242|T||Coast,J.R., R.M. Romeo, and S.S. Cassidy|Diaphragmatic Vasolidation Elicited by Pulmonary C-Fiber Stimulation|Respir. Physiol.75(3): 279-288|1989|10.1016/0034-5687(89)90038-8
108244|A||Wan,X.Y., and J.Y. Liu|Comparative Proteomics Analysis Reveals an Intimate Protein Network Provoked by Hydrogen Peroxide Stress in Rice Seedling Leaves|Mol. Cell. Proteomics7(8): 1469-1488|2008|10.1074/mcp.M700488-MCP200
108245|T||Obana,H., and T. Nishimune|Genotoxicity of Environmental Mutagens in a Drosophila DNA-Repair Test|Eisei Kagaku (Multiple Languages)39(6): 577-581|1993|
108246|T||Norlander,T., T. Shimizu, P. Larsen, K.M. Westrin, K. Hultenby, B. Carlsoo, and P. Stierna|Early Stages in the Development of Goblet Cells in the Paranasal Sinuses:  A Multimethodological Study in the Rabbit|Acta Oto-Laryngol.118(1): 114-123|1998|10.1080/00016489850155242
108247|T||Feher,E., and J. Vajda|Effect of Capsaicin on the Nerve Elements of the Small Intestine|Acta. Morphol. Acad. Sci. Hung.30(1): 57-63|1982|
108248|T||Chitra,S., P. Viswanathan, N. Nalini, K. Sabitha, and V.P. Menon|Role of Redchilli (Capsaicin) in the Formation of Colonic Carcinoma|Indian J. Pathol. Microbiol.40(1): 21-25|1997|
108249|T||Zarley,J.H., B.E. Britigan, and M.E. Wilson|Hydrogen Peroxide-Mediated Toxicity for Leishmania donovani chagasi Promastigotes.  Role of Hydroxyl Radical and Protection by Heat Shock|J. Clin. Invest.88(5): 1511-1521|1991|10.1172/JCI115461
108250|T||Lopez,A., N. Xamena, R. Marcos, and A. Velazquez|Germ Cells Microsatellite Instability. The Effect of Different Mutagens in a Mismatch Repair Mutant of Drosophila (spel1)|Mutat. Res., Genet. Toxicol. Environ. Mutagen.514(1/2): 87-94|2002|10.1016/S1383-5718(01)00325-4
108251|T||Tanguy,S., F. Boucher, S. Besse, M.C. Toufektsian, V. Ducros, A. Favier, and J. De Leiris|Oral Selenium Supplementation in Rats does not Protect Isolated Rings of Aorta Against Exogenous Hydrogen Peroxide|J. Trace Elem. Med. Biol.13(4): 238-241|1999|10.1016/S0946-672X(99)80042-X
108252|A||Lopez-Olmeda,J.F., M.J. Bayarri, M.A. Rol de Lama, J.A. Madrid, and F.J. Sanchez-Vazquez|Effects of Melatonin Administration on Oxidative Stress and Daily Locomotor Activity Patterns in Goldfish|J. Physiol. Biochem.62(1): 17-26|2006|10.1007/BF03165802
108253|A||Liu,D.M., F.Y. Cui, Y.Q. Wu, T. Lin, M. Zhang, and M.X. Yu|Removal of Cyclops in Pre-oxidizing Cooperation Water Treatment Process|J. Zhejiang Univ., Sci. A8(11): 1826-1830|2007|10.1631/jzus.2007.A1826
108254|T||Norman,S.M., S.M. Poling, V.P. Maier, and D.L. Pon|Abscisic Acid Biosynthesis in Cercospora rosicola: Sensitivity to Inhibitors of Sterol Biosynthesis|Agric. Biol. Chem.52(5): 1309-1310|1988|
108255|T||Manoukas,A.G.|The Effect of Some Phenols on the Larval Performance of the Olive Fruit Fly, Dacus oleae Gmel. (Dipt., Tephritidae)|J. Appl. Entomol.116(3): 303-307|1993|10.1111/j.1439-0418.1993.tb01200.x
108256|T||Svircev,A.M., R.J. Smith, T. Zhou, M. Hernadez, W. Liu, and C.L. Chu|Effects of Thymol Fumigation on Survival and Ultrastracture of Monilinia fructicola|Postharvest Biol. Technol.45(2): 228-233|2007|10.1016/j.postharvbio.2006.12.021
108257|T||Rozman,V., I. Kalinovic, and Z. Korunic|Toxicity of Naturally Occurring Compounds of Lamiaceae and Lauraceae to Three Stored-Product Insects|J. Stored Prod. Res.43(4): 349-355|2007|10.1016/j.jspr.2006.09.001
108258|T||Minguez,S., J.M. Cantus, A. Pons, P. Margot, F.X. Cabanes, C. Masque, F. Accensi, X. Elorduy, L.L. Giralt, M. Vilavella|Influence of the Fungus Control Strategy in the Vineyard on the Presence of Ochratoxin A in the Wine|Bull. O. I. V.77(885/886): 821-831|2004|
108259|A||Pouneva,I.D.|Effect of Abscisic Acid and Ontogenic Phases of the Host Alga on the Infection Process in the Pathosystem Scenedesmus acutus - Phlyctidium scenenedesmi|Acta Physiol. Plant.28(5): 395-400|2006|10.1007/BF02706621
108260|A||Bernd,K.K., and N. Cook|Microscale Assay Monitors Algal Growth Characteristics|Biotechniques32(6): 1256, 1258-1259 -|2002|10.2144/02326bm08
108263|T||Kasuya,E., S. Kushibiki, M. Sutoh, T. Saito, S. Ito, K. Yayou, R. Sakumoto, and K. Hodate|Effect of Melatonin Injected into the Third Ventricle on Growth Hormone Secretion in Holstein Steers|J. Vet. Med. Sci.68(10): 1075-1080|2006|10.1292/jvms.68.1075
108264|A||Ingram,B., S. Sungan, G. Gooley, S.Y. Sim, D. Tinggi, and S.S. De Silva|Induced Spawning, Larval Development and Rearing of Two Indigenous Malaysian mahseer, Tor tambroides and T. douronensis|Aquac. Res.36(10): 1001-1014|2005|10.1111/j.1365-2109.2005.01309.x
108265|T||Paynter,Q.|Integrated Weed Management: Effect of Herbicide Choice and Timing of Application on the Survival of a Biological Control Agent of the Tropical Wetland Weed, Mimosa pigra|Biol. Control26(2): 162-167|2003|10.1016/S1049-9644(02)00124-X
108266|T||Song,L., W. Ding, J. Shen, Z. Zhang, Y. Bi, and L. Zhang|Nitric Oxide Mediates Abscisic Acid Induced Thermotolerance in the Calluses from Two Ecotypes of Reed Under Heat Stress|Plant Sci.175(6): 826-832|2008|10.1016/j.plantsci.2008.08.005
108267|T||Humpherson-Jones,F.M.|Glasshouse Evaluation of Fungicides, Biocides and Surfactants for Control of Clubroot|Ann. Appl. Biol.114(Suppl.): 36-37|1989|
108268|A||Vasuki,V.|The Effects of Sublethal Doses of Hexaflumuron on the Feeding Behaviour of Mosquitoes (Diptera: Culicidae)|Bull. Entomol. Res.82(4): 535-538|1992|10.1017/S0007485300042632
108270|T||Maity,S., S. Roy, S. Chaudhury, and S. Bhattacharya|Antioxidant Responses of the Earthworm Lampito mauritii Exposed to Pb and Zn Contaminated Soil|Environ. Pollut.151(1): 1-7|2008|10.1016/j.envpol.2007.03.005
108271|T||Oguntimehin,I., N. Nakatani, and H. Sakugawa|Phytotoxicities of Fluoranthene and Phenanthrene Deposited on Needle Surfaces of the Evergreen Conifer, Japanese Red Pine (Pinus densiflora Sieb. et Zucc.)|Environ. Pollut.154(2): 264-271|2008|10.1016/j.envpol.2007.10.039
108272|AT||Paumen,M.L., E. Borgman, M.H.S. Kraak, C.A.M. Van Gestel, and W. Admiraal|Life Cycle Responses of the Midge Chironomus riparius to Polycyclic Aromatic Compound Exposure|Environ. Pollut.152(1): 225-232|2008|10.1016/j.envpol.2007.04.027
108273|T||Skovlund,G., C. Damgaard, M. Bayley, and M. Holmstrup|Does Lipophilicity of Toxic Compounds Determine Effects on Drought Tolerance of the Soil Collembolan Folsomia candida?|Environ. Pollut.144(3): 808-815|2006|10.1016/j.envpol.2006.02.009
108274|T||Limanowski,A., B. Miskowiak, B. Otulakowski, and M. Partyka|Morphometric Studies on the Testes of Rats Treated Neonatally with Oestrogen and Subsequently with Gonadotrophins and Testosterone|Andrologia (Berl.)31(4): 225-231|1999|10.1046/j.1439-0272.1999.00284.x
108275|T||Gromoll,J., G.F. Weinbauer, M. Simoni, and E. Nieschlag|Effects of Antiandrogens and Ethane Dimethane Sulphonate (EDS) on Gene Expression, Free Subunits, Bioactivity and Secretion of Pituitary Gonadotrophins in Male Rats|Mol. Cell. Endocrinol.91(1-2): 119-125|1993|10.1016/0303-7207(93)90263-J
108276|T||Dutta,A.S., B.J.A. Furr, M.B. Giles, B. Valcaccia, and A.L. Walpole|Potent Agonist and Antagonist Analogues of Luliberin Containing an Azaglycine Residue in Position 10|Biochem. Biophys. Res. Commun.81(2): 382-390|1978|10.1016/0006-291X(78)91544-9
108278|T||Scifres,C.J., J.R. Scifres, and M.M. Kothmann|Differential Grazing Use of Herbicide-Treated Areas by Cattle|J. Range Manag.36(1): 65-69|1983|10.2307/3897985
108280|AT||Runia,W.T., and J.J. Amsing|Disinfestation of Nematode-Infested Recirculation Water by Ozone and Activated Hydrogen Peroxide|In: Proc. 9th Int. Congr. on Soilless Culture, Apr. 12-19, 1996, St. Helier, Secretariat of ISOSC, Wageningen, Netherlands:381-393|1997|
108281|T||Tsuchiya,T., T. Yoshida, A. Imaeda, T. Kiho, and S. Ukai|Detoxification of Paraquat Poisoning: Effects of Alkylsulfates and Alkylsulfonates on Paraquat Poisoning in Mice and Rats|Biol. Pharm. Bull.18(4): 523-528|1995|10.1248/bpb.18.523
108283|T||Lugo-Vallin,N.D.V., C. Pascuzzo-Lima, I. Maradei-Irastorza, M. Ramirez-Sanchez, M. Sosa-Sequera, R. Aguero-Pena, and A.|Prolonged Survival After Experimental Paraquat Intoxication: Role of Alternative Antioxidants|Vet. Hum. Toxicol.44(1): 40-41|2002|
108285|A||Singh,S., and S. Sahai|Changes in Gill Structure Induced by BHC, Lindane and Endosulfan in the Fresh-Water Teleost Puntius ticto (Ham.)|Folia Morphol. (Prague)38(4): 423-432|1990|
108286|T||Dethe,M.D., and V.D. Kale|Residues of Endosulfan, Fenvalerate and Monocrotophos on Brinjal Fruits|J. Ecobiol.2(3): 249-252|1990|
108287|T||Jain,P.C., and C.P.S. Yadav|Endosulfan Residues in/on Various Parts of Coriander Plant|Indian J. Entomol.51(1): 8-10|1989|
108288|A||Muley,D.V., and U.H. Mane|Endosulfan Toxicosis to the Hepatopancreas of Lamellibranch Molluscs|Uttar Pradesh J. Zool.6(2): 194-200|1986|
108289|T||Gajewska,A., E. Wolinska-Witort, and K. Kochman|Vasoactive Intestinal Peptide Modulates Luteinizing Hormone Subunit Gene Expression in the Anterior Pituitary in Female Rat|Brain Res. Bull.67(4): 319-326|2005|10.1016/j.brainresbull.2005.07.007
108292|T||Marcic,D., P. Peric, I. Ogurlic, M. Prijovic, and G. Andric|Effectiveness of Spirodiclofen in the Control of European Red Mite (Panonychus ulmi) on Apple and Pear Psylla (Cacopsylla pyri)|Pestic. Fitomed.22(4): 301-309|2007|
108293|T||Schepers,H.T.A.M.|Persistence of the Protectant Efficacy of Potato Late Blight Fungicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent65(2b): 789-798|2000|
108294|T||Kennedy,S.R., D.L.,Jr. Thompson, H.E. Pruett, P.J. Burns, and R. Deghenghi|Growth Hormone Response to a Novel Growth Hormone-Releasing Tripeptide in Horses:  Interaction with Gonadotropin-Releasing Hormone, Thyrotropin-Releasing Hormone, and Sulpiride|J. Anim. Sci.80(3): 744-750|2002|10.2527/2002.803744x
108295|T||Karande,P., A. Jain, and S. Mitragotri|Discovery of Transdermal Penetration Enhancers by High-Throughput Screening|Nat. Biotechnol.22(2): 192-197|2004|10.1038/nbt928
108296|T||Guadalupe Ortiz-Lopez,M., M. Cardenas, T. Zarinan, L. Diaz-Bonilla, E. Zambrano, J. Pedraza-Chaverri, and M. Menjivar|Dynamic Tests and FSH Biological Activity in Female Rats with Acute Nephrotic Syndrome|Mol. Cell. Biochem.245(1-2): 167-172|2003|10.1023/A:1022880414635
108297|T||Chun,S.Y., H.W. Bae, W.J. Kim, J.H. Park, S.Y. Hsu, and A.J.W. Hsueh|Expression of Messenger Ribonucleic Acid for the Antiapoptosis Gene P11 in the Rat Ovary:  Gonadotropin Stimulation in Granulosa Cells of Preovulatory Follicles|Endocrinology142(6): 2311-2317|2001|10.1210/endo.142.6.8212
108298|A||Buhler,D.R., J.L. Wang, X. Zhao, R.L. Reed, M.C. Henderson, and C.L. Miranda|The Effects of a Luteinizing Hormone-Releasing Hormone Analogue on Cytochrome P450 in Rainbow Trout|Mar. Environ. Res.39(1-4): 93-96|1995|10.1016/0141-1136(94)00016-I
108299|T||Augustyniak,M., P. Migula, J. Mesjasz-Przybylowicz, M. Tarnawska, M. Nakonieczny, A. Babczynska, W. Przybylowicz, and M|Short-Term Effects of Dimethoate on Metabolic Responses in Chrysolina pardalina (Chrysomelidae) Feeding on Berkheya coddii (Asteraceae), a Hyper-Accumulator of Nickel|Environ. Pollut.150(2): 218-224|2007|10.1016/j.envpol.2007.01.018
108300|T||Wood,J.E., G.R. Stephenson, J.C. Hall, and R.F. Horton|Selective Phytotoxicity of Hexazinone to Pinus resinosa and Pinus banksiana|Pestic. Biochem. Physiol.44(2): 108-118|1992|10.1016/0048-3575(92)90108-C
108301|T||Picco,E.J., M.R. Rubio, D.C.D. David, C. Rodriguez, and J.C. Boggio|Pharmacokinetics and Pharmacodynamics of Chlorpyrifos in Male and Female Cattle After Topical Administration|Vet. Res. Commun.32(5): 401-410|2008|10.1007/s11259-008-9035-0
108302|T||Tian,Y., L. Shen, Y. Gao, T. Yamauchi, X.M. Shen, and N. Ma|Comparison of 4', 6'-Diamidino-2-Phenylindole and Giemsa Stainings in Preimplantation Mouse Embryos Micronucleus Assay Including a Triple Dose Study|Ind. Health45(2): 343-347|2007|10.2486/indhealth.45.343
108303|T||Weiner,M., C. Freeman, J.D. McCarty, E.R. Aguinaldo, and M.J. Fletcher|Eye Irritation Studies on Three Concentrations of Hydrogen Peroxide|J. Am. Coll. Toxicol.1(1): 49-50|1990|
108304|T||Zapletal,D., and A. Pavlik|The Effect of Lecirelin (GnRH) Dosage on the Reproductive Performance of Nulliparous and Lactating Rabbit does|Anim. Reprod. Sci.104(2-4): 306-315|2008|10.1016/j.anireprosci.2007.02.008
108305|T||Lokke,H.|Picein and Piceol Concentrations in Norway Spruce|Ecotoxicol. Environ. Saf.19(3): 301-309|1990|10.1016/0147-6513(90)90032-Z
108306|T||Johnson,E.K., J.H. Young, D.R. Molnar, and R.D. Morrison|Effects of Three Insect Control Schemes on Populations of Cotton Insects and Spiders, Fruit Damage, and Yield of Westburn 70 Cotton|Environ. Entomol.5(3): 508-510|1976|10.1093/ee/5.3.508
108307|T||Hall,L.M., S.R. Moss, and S.B. Powles|Mechanisms of Resistance to Aryloxyphenoxypropionate Herbicides in Two Resistant Biotypes of Alopecurus myosuroides (Blackgrass):   Herbicide Metabolism as a Cross-Resistance Mechanism|Pestic. Biochem. Physiol.57(2): 87-98|1997|10.1006/pest.1997.2259
108308|T||Fukuda,M., Y. Tsujino, T. Fujimori, K. Wakabayashi, and P. Boger|Phytotoxic Activity of Middle-Chain Fatty Acids I:  Effects on Cell Constituents|Pestic. Biochem. Physiol.80(3): 143-150|2004|10.1016/j.pestbp.2004.06.011
108309|T||Habes,D., S. Morakchi, N. Aribi, J.P. Farine, and N. Soltani|Boric Acid Toxicity to the German Cockroach, Blattella germanica:  Alterations in Midgut Structure, and Acetylcholinesterase and Glutathione S-Transferase Activity|Pestic. Biochem. Physiol.84(1): 17-24|2006|10.1016/j.pestbp.2005.05.002
108310|T||Foster,R.E., and W.G. Buhler|Control of Insects on Tomato, 1995|Arthropod Manag. Tests21:181-182|1996|10.1093/amt/21.1.181
108311|T||Follak,S., F. Walker, and K. Hurle|Short- and Long-Term Response of Sunflower to Airborne Bromoxynil-Octanoate Under Controlled and Field Conditions|Ecotoxicology14(5): 503-511|2005|10.1007/s10646-005-0007-7
108312|AT||Kotze,A.C.|Catalase Induction Protects Haemonchus contortus Against Hydrogen Peroxide In Vitro|Int. J. Parasitol.33(4): 393-400|2003|10.1016/S0020-7519(03)00012-2
108313|T||Fernandes,T.C.C., D.E.C. Mazzeo, and M.A. Marin-Morales|Mechanism of Micronuclei Formation in Polyploidizated Cells of Allium cepa Exposed to Trifluralin Herbicide|Pestic. Biochem. Physiol.88(3): 252-259|2007|10.1016/j.pestbp.2006.12.003
108314|T||Van der Zee,S.E.A.T.M., E.J.M. Temminghoff, and M.P.J.C. Marinussen|Competition Effects for Copper Between Soil, Soil Solution, and Yeast in a Bioassay for Folsomia candida Willem|Environ. Toxicol. Chem.23(7): 1743-1750|2004|10.1897/03-171
108315|A||Boeckman,C.J., and J.R. Bidwell|The Effects of Temperature, Suspended Solids, and Organic Carbon on Copper Toxicity to Two Aquatic Invertebrates|Water Air Soil Pollut.171(1-4): 185-202|2006|10.1007/s11270-005-9036-3
108316|A||Ashauer,R., A.B.A. Boxall, and C.D. Brown|Simulating Toxicity of Carbaryl to Gammarus pulex After Sequential Pulsed Exposure|Environ. Sci. Technol.41(15): 5528-5534|2007|10.1021/es062977v
108317|A||Ashauer,R., A.B.A. Boxall, and C.D. Brown|Modeling Combined Effects of Pulsed Exposure to Carbaryl and Chlorpyrifos on Gammarus pulex|Environ. Sci. Technol.41(15): 5535-5541|2007|10.1021/es070283w
108318|A||Daam,M.A., P.J. Van den Brink, and A.J.A. Nogueira|Impact of Single and Repeated Applications of the Insecticide Chlorpyrifos on Tropical Freshwater Plankton Communities|Ecotoxicology17(8): 756-771|2008|10.1007/s10646-008-0227-8
108319|T||Kaur,R., and H.S. Sandhu|In Vivo Changes in Antioxidant System and Protective Role of Selenium in Chlorpyrifos-Induced Subchronic Toxicity in Bubalus bubalis|Environ. Toxicol. Pharmacol.26(1): 45-48|2008|10.1016/j.etap.2008.01.004
108320|A||Pathakoti,K., and J.V. Rao|Toxic Effects of Chlorpyrifos on Antioxidant Enzymes and Target Enzyme Acetylcholinesterase Interaction in Mosquito Fish, Gambusia affinis|Environ. Toxicol. Pharmacol.26(2): 192-198|2008|10.1016/j.etap.2008.03.010
108321|A||Lopez-Mancisidor,P., G. Carbonell, C. Fernandez, and J.V. Tarazona|Ecological Impact of Repeated Applications of Chlorpyrifos on Zooplankton Community in Mesocosms Under Mediterranean Conditions|Ecotoxicology17(8): 811-825|2008|10.1007/s10646-008-0239-4
108322|T||Mohammad,F.K., Y.M. Al-Badrany, and M.M. Al-Jobory|Acute Toxicity and Cholinesterase Inhibition in Chicks Dosed Orally with Organophosphate Insecticides|Arh. Hig. Rada Toksikol.59(3): 145-151|2008|10.2478/10004-1254-59-2008-1873
108323|A||Palma,P., V.L. Palma, R.M. Fernandes, A.M.V.M. Soares, and I.R. Barbosa|Acute Toxicity of Atrazine, Endosulfan Sulphate and Chlorpyrifos to Vibrio fischeri, Thamnocephalus platyurus and Daphnia magna, Relative to Their Concentrations in Surface Waters from the Alentejo Region of Portugal|Bull. Environ. Contam. Toxicol.81(5): 485-489|2008|10.1007/s00128-008-9517-3
108324|T||Roegge,C.S., O.A. Timofeeva, F.J. Seidler, T.A. Slotkin, and E.D. Levin|Developmental Diazinon Neurotoxicity in Rats:  Later Effects on Emotional Response|Brain Res. Bull.75(1): 166-172|2008|10.1016/j.brainresbull.2007.08.008
108325|T||Saleem,M.A., M. Ahmad, M. Aslam, and A.H. Sayyed|Resistance to Selected Organochlorin, Organophosphate, Carbamate and Pyrethroid, in Spodoptera litura (Lepidoptera: Noctuidae) from Pakistan|J. Econ. Entomol.101(5): 1667-1675|2008|10.1603/0022-0493(2008)101[1667:RTSOOC]2.0.CO;2
108326|A||Singh,P.B., V. Sahu, V. Singh, S.K. Nigam, and H.K. Singh|Sperm Motility in the Fishes of Pesticide Exposed and from Polluted Rivers of Gomti and Ganga of North India|Food Chem. Toxicol.46(12): 3764-3769|2008|10.1016/j.fct.2008.09.066
108329|T||Tsai,P.S., and P. Licht|In Vivo GnRH Responsiveness of LH Secretion in the Female Turtle, Trachemys scripta, in Relation to the Reproductive Stage|Gen. Comp. Endocrinol.90(3): 328-337|1993|10.1006/gcen.1993.1088
108330|A||Salbert,G., T. Bailhache, Y. Zohar, B. Breton, and P. Jego|A Rapid and Sensitive ELISA for Rainbow Trout Maturational Gonadotropin (tGtH II):  Validation on Biological Samples; In Vivo and In Vitro Responses to GnRH|Gen. Comp. Endocrinol.78(1): 110-122|1990|10.1016/0016-6480(90)90052-N
108331|A||Kagawa,H., M. Kobayashi, Y. Hasegawa, and K. Aida|Insulin and Insulin-Like Growth Factors I and II Induce Final Maturation of Oocytes of Red Seabream, Pagrus major, In Vitro|Gen. Comp. Endocrinol.95(2): 293-300|1994|10.1006/gcen.1994.1126
108332|A||Huang,Y.P., C. Peng, and R.E. Peter|Metabolism of Gonadotropin-Releasing Hormone in Goldfish:  Serum Clearance and Tissue Uptake Studies|Gen. Comp. Endocrinol.84(1): 67-75|1991|10.1016/0016-6480(91)90065-E
108333|A||Gobbetti,A., M. Zerani, G. Mosconi, and V. Botte|Effects of Mammalian Gonadotropin-Releasing Hormone on Plasma Level of Prostaglandin F2alpha in the Water Frog, Rana esculenta|Gen. Comp. Endocrinol.84(1): 9-15|1991|10.1016/0016-6480(91)90059-F
108334|A||Deragon,K.L., and S.A. Sower|Effects of Lamprey Gonadotropin-Releasing Hormone-III on Steroidogenesis and Spermiation in Male Sea Lampreys|Gen. Comp. Endocrinol.95(3): 363-367|1994|10.1006/gcen.1994.1134
108335|T||Ban,E., M. Crumeyrolle-Arias, J. Latouche, P. LeBlanc, J.F. Heurtier, K. Drieu, G. Fillion, and F. Haour|GnRH Receptors in Rat Brain, Pituitary and Testis;  Modulation Following Surgical and Gonadotropin-Releasing Hormone Agonist-Induced Castration|Mol. Cell. Endocrinol.70(1): 99-107|1990|10.1016/0303-7207(90)90063-E
108336|T||El-Gengaihi,S.E., S.A.A. Amer, and S.M. Mohamed|Biological Activity of Thyme Oil and Thymol Against Tetranychus urticae Koch|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)69(7): 157-159|1996|10.1007/BF01906806
108337|T||Cohen,R., S. Pivonia, D. Shtienberg, M. Edelstein, D. Raz, Z. Gerstl, and J. Katan|Efficacy of Fluazinam in Suppression of Monosporascus cannonballus, the Causal Agent of Sudden Wilt of Melons|Plant Dis.83(12): 1137-1141|1999|10.1094/PDIS.1999.83.12.1137
108338|T||Dougherty,J.J.|Effects of Dietary Vitamin E and Selenite on the Acute Toxicities of Iron, Copper and Selenite, and on the Abilities of These Substances to Accelerate Lipid Peroxidation In Vivo|Ph.D Thesis, University of Wisconsin, Madison, WI:235 p.|1978|
108339|A||Filizadeh,Y., J. Karimi, M. Esfahany, and K. Agahi|Toxicity Determination on Fish and Aquatic Invertebrate Exposed to the Fluridon|In: Proc.of the XII Symp.Pestic.Chem., June.4-6, 2003, Dep.Agron., Shahed Univ., Ramsar, Iran:715-716|2003|
108340|T||Vaughn,S.F., and G.F. Spencer|Naturally-Occurring Aromatic Compounds Inhibit Potato Tuber Sprouting|Am. Potato J.70(7): 527-533|1993|10.1007/BF02846753
108341|A||Comeaux,J.L.|Effects of Copper on Benthic Communities in Artificial Microcosms|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:172 p.|1996|
108342|A||Miller III,E.R.|Physiological, Exfoliative Cytological, Histological, and Biochemical Responses of Geukensia demissa (Mollusca) Exposed to Dissolved Copper at Various Salinities|Ph.D.Thesis, Univ.of Connecticut, CN:252 p.|1988|
108344|T||Praba,M.L., and M. Thangaraj|Effect of Growth Regulators and Chemicals on Pollen Sterility in TGMS Lines of Rice|Plant Growth Regul.46(2): 117-124|2005|10.1007/s10725-005-7362-5
108345|T||Akin,F.J., and W.P. Norred|Effects of Short-Term Administration of Maleic Hydrazide or Hydrazine on Rat Hepatic Microsomal Enzymes|Toxicol. Appl. Pharmacol.43(2): 287-292|1978|10.1016/0041-008X(78)90008-X
108346|T||Vanderstichele,H., W. Eechaute, and E. Lacroix|Regulation of the Pituitary 5alpha-Reductase Activity by Gonadotropin Releasing Hormone and Testosterone in the Adult Male Rat|J. Steroid Biochem.35(5): 575-581|1990|10.1016/0022-4731(90)90201-3
108347|T||Udagawa,K., T. Ogawa, T. Watanabe, Y. Yumura, M. Takeda, and M. Hosaka|GnRH Analog, Leuprorelin Acetate, Promotes Regeneration of Rat Spermatogenesis After Severe Chemical Damage|Int. J. Urol.8(11): 615-622|2001|10.1046/j.1442-2042.2001.00382.x
108348|T||Sotowska-Brochocka,J.|The Stimulatory and Inhibitory Role of the Hypothalamus in the Regulation of Ovulation in Grass Frog, Rana temporaria L.|Gen. Comp. Endocrinol.70(1): 83-90|1988|10.1016/0016-6480(88)90096-2
108349|T||Schiml,P.A., and E.F. Rissman|Effects of Gonadotropin-Releasing Hormones, Corticotropin-Releasing Hormone, and Vasopressin on Female Sexual Behavior|Horm. Behav.37(3): 212-220|2000|10.1006/hbeh.2000.1575
108350|T||Sakamoto,S., S. Sassa, H. Kudo, S. Suzuki, T. Mitamura, and H. Shinoda|Preventive Effects of a Herbal Medicine on Bone Loss in Rats Treated with a GnRH Agonist|Eur. J. Endocrinol.143(1): 139-142|2000|10.1530/eje.0.1430139
108351|A||Pierantoni,R., S. Fasano, S. Minucci, L. Di Matteo, M. D'Antonio, F. Bottazzi, and G. Chieffi|Regulation of the Testicular Activity in the Marine Teleost Fish, Gobius paganellus|Gen. Comp. Endocrinol.80(1): 1-8|1990|10.1016/0016-6480(90)90141-8
108352|T||Malpaux,B., J.E. Robinson, M.B. brown, and F.J. Karsch|Importance of Changing Photoperiod and Melatonin Secretory Pattern in Determining the Length of the Breeding Season in the Suffolk Ewe|J. Reprod. Fertil.83(1): 461-470|1988|10.1530/jrf.0.0830461
108353|T||Kovacs,M., I. Mezo, J. Seprodi, V. Csernus, I. Teplan, and B. Flerko|Effects of Long-Term Administration of a Superactive Agonistic and an Antagonistic GnRH Analog on the Pituitary-Gonad System|Peptides10(5): 925-931|1989|10.1016/0196-9781(89)90170-8
108357|T||Mythili,Y., P.T. Sudharsan, and P. Varalakshmi|DL-alpha-Lipoic Acid Ameliorates Cyclophosphamide Induced Cardiac Mitochondrial Injury|Toxicology215(1-2): 108-114|2005|10.1016/j.tox.2005.07.001
108358|T||Mori,T., H. Takada, S. Ito, K. Matsubayashi, N. Miwa, and T. Sawaguchi|Preclinical Studies on Safety of Fullerene upon Acute Oral Administration and Evaluation for no Mutagenesis|Toxicology225(1): 48-54|2006|10.1016/j.tox.2006.05.001
108360|T||Kolho,K.L., H. Nikula, and I. Huhtaniemi|Sexual Maturation of Male Rats Treated Postnatally with a Gonadotrophin-Releasing Hormone Antagonist|J. Endocrinol.116:241-246|1988|10.1677/joe.0.1160241
108361|A||Sharaf El-Din,A.T.|Molluscicidal Effect of Three Monoterpenes Oils on Schistosomiasis and Fascioliasis Vector Snails in Egypt|J. Egypt. Soc. Parasitol.36(2): 599-612|2006|
108362|A||Singh,S., V.K. Singh, and D.K. Singh|Molluscicidal Activity of Some Common Spice Plants|Biol. Agric. Hortic.14(3): 237-249|1997|10.1080/01448765.1997.9754813
108363|T||Ashworth,D.J., and B.J. Alloway|Complexation of Copper by Sewage Sludge-Derived Dissolved Organic Matter:  Effects on Soil Sorption Behaviour and Plant Uptake|Water Air Soil Pollut.182(1-4): 187-196|2007|10.1007/s11270-006-9331-7
108365|T||Yang,W.H., M.C. Allen, M. Wieczorek, L.M. Glode, and T.M. Nett|A Sandwich Enzyme-Linked Immunoabsorbent Assay for Measurement of Gonadotropin-Releasing Hormone-Toxin Conjugates|Am. J. Reprod. Immunol.55(3): 208-216|2006|10.1111/j.1600-0897.2005.00350.x
108366|T||Baer,H., R.C. Watkins, and R.T. Bowser|Delayed Contact Sensitivity to Catechols and Resorcinols.  The Relationship of Structure and Immunization Procedure to Sensitizing Capacity|Immunochemistry3(6): 479-485|1966|10.1016/0019-2791(66)90133-9
108367|T||Reddy,R.J., D. Ashok, and P.N. Sarma|Synthesis of 4,6-Bis(2'-Substituted-2',3'-Dihydro-1,5-Benzothiazepin-4'-Yl) Resorcinols as Potential Antifeedants|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.32(3): 404-406|1993|
108368|T||Dube,S., H.S. Shukla, and S.C. Tripathi|In Vitro Evaluation of Some Natural Products for Their Fungitoxicity|Pesticides 22(3): 11-12|1988|
108369|T||Seal,D.R.|Control of Tomato Pinworm in South Florida, Spring 1995|Arthropod Manag. Tests21:188-|1996|10.1093/amt/21.1.188
108370|A||Benbow,M.E., and R.W. Merritt|Road-Salt Toxicity of Select Michigan Wetland Macroinvertebrates Under Different Testing Conditions|Wetlands24(1): 68-76|2004|10.1672/0277-5212(2004)024[0068:RTOSMW]2.0.CO;2
108371|T||Kim,K.B., S.S. Anand, H.J. Kim, C.A. White, and J.V. Bruckner|Toxicokinetics and Tissue Distribution of Deltamethrin in Adult Sprague-Dawley Rats|Toxicol. Sci.101(2): 197-205|2008|10.1093/toxsci/kfm277
108372|T||Kim,K.B., S.S. Anand, S. Muralidhara, H.J. Kim, and J.V. Bruckner|Formulation-Dependent Toxicokinetics Explains Differences in the GI Absorption, Bioavailability and Acute Neurotoxicity of Deltamethrin in Rats|Toxicology234(3): 194-202|2007|10.1016/j.tox.2007.02.015
108373|T||Ignoffo,C.M., D.L. Hostetter, C. Garcia, and R.E. Pinnell|Sensitivity of the Entomopathogenic Fungus Nomuraea rileyi to Chemical Pesticides Used on Soybeans|Environ. Entomol.4:765-768|1975|10.1093/ee/4.5.765
108374|T||Watve,C.M., and S.E. Lienk|Responses of Two Phytoseiid Mites to Pesticides Used in New York Apple Orchards|Environ. Entomol.4(5): 797-800|1975|10.1093/ee/4.5.797
108375|T||Coats,S.A., J.R. Coats, and C.R. Ellis|Selective Toxicity of Three Synthetic Pyrethroids to Eight Coccinellids, a Eulophid Parasitoid, and Two Pest Chrysomelids|Environ. Entomol.8:720-722|1979|10.1093/ee/8.4.720
108376|T||Semtner,P.J.|Insect Predators and Pests on Tobacco Following Applications of Systemic Insecticides|Environ. Entomol.8(6): 1095-1098|1979|10.1093/ee/8.6.1095
108377|T||Braithwaite,M., R.E. Falloon, R.A. Genet, A.R. Wallace, J.D. Fletcher, and W.F. Braam|Control of Powdery Scab of Potatoes with Chemical Seed Tuber Treatments|N. Z. J. Crop Hortic. Sci.22(2): 121-128|1994|10.1080/01140671.1994.9513815
108378|T||Su,M.Q.|Inhibition of Aliesterases by Cholinergic Organophosphorus Compounds and Studies on the Toxicology of a New Phosphoroamide|Ph.D Thesis, University of Chicago, Chicago, IL:90 p.|1969|
108380|T||Terry,A.V.,Jr., D.A. Gearhart, W.D.,Jr. Beck, J.N. Truan, M.L. Middlemore, L.N. Williamson, M.G. Bartlett, M.A. Prender|Chronic, Intermittent Exposure to Chlorpyrifos in Rats:  Protracted Effects on Axonal Transport, Neurotrophin Receptors, Cholinergic Markers, and Information Processing|J. Pharmacol. Exp. Ther.322(3): 1117-1128|2007|10.1124/jpet.107.125625
108381|A||Floyd,E.Y., J.P. Geist, and I. Werner|Acute, Sublethal Exposure to a Pyrethroid Insecticide Alters Behavior, Growth, and Predation Risk in Larvae of the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.27(8): 1780-1787|2008|10.1897/07-448.1
108382|T||Felsot,A.S., and J.J. Tollefson|Evaluation of Some Methods for Coping with Enhanced Biodegradation of Soil Insecticides|ACS Symp. Ser.426:192-213|1990|10.1021/bk-1990-0426.ch015
108383|T||Li,S.X., N. Cui, C.L. Zhang, X.L. Zhao, S.F. Yu, and K.Q. Xie|Effect of Subchronic Exposure to Acrylamide Induced on the Expression of bcl-2, bax and Caspase-3 in the Rat Nervous System|Toxicology217(1): 46-53|2006|10.1016/j.tox.2005.08.018
108386|T||Zhu,K.Y., J.R. Gao, and S.R. Starkey|Organophosphate Resistance Mediated by Alterations of Acetylcholinesterase in a Resistant Clone of the Greenbug, Schizaphis graminum (Homoptera:  Aphididae)|Pestic. Biochem. Physiol.68(3): 138-147|2000|10.1006/pest.2000.2510
108387|A||Matos,P., A. Fontainhas-Fernandes, F. Peixoto, J. Carrola, and E. Rocha|Biochemical and Histological Hepatic Changes of Nile Tilapia Oreochromis niloticus Exposed to Carbaryl|Pestic. Biochem. Physiol.89(1): 73-80|2007|10.1016/j.pestbp.2007.03.002
108388|T||Lengyel,Z., A. Szabo, A. Papp, and L. Nagymajtenyi|Functional Neurotoxic Effects in Rats Acutely Exposed to Insecticide Combinations|Pestic. Biochem. Physiol.87(1): 94-102|2007|10.1016/j.pestbp.2006.06.005
108389|A||Yang,L.H., G.G. Ying, H.C. Su, J.L. Stauber, M.S. Adams, and M.T. Binet|Growth-Inhibiting Effects of 12 Antibacterial Agents and Their Mixtures on the Freshwater Microalga Pseudokirchneriella subcapitata|Environ. Toxicol. Chem.27(5): 1201-1208|2008|10.1897/07-471.1
108390|A||Wang,N., C.G. Ingersoll, I.E. Greer, D.K. Hardesty, C.D. Ivey, J.L. Kunz, W.G. Brumbaugh, F.J. Dwyer, A.D. Roberts, T. |Chronic Toxicity of Copper and Ammonia to Juvenile Freshwater Mussels (Unionidae)|Environ. Toxicol. Chem.26(10): 2048-2056|2007|10.1897/06-524R.1
108391|A||Roussel,H., E. Chauvet, and J.M. Bonzom|Alteration of Leaf Decomposition in Copper-Contaminated Freshwater Mesocosms|Environ. Toxicol. Chem.27(3): 637-644|2008|10.1897/07-168.1
108392|A||Martins,N., I. Lopes, R.M. Harper, P. Ross, and R. Ribeiro|Differential Resistance to Copper and Mine Drainage in Daphnia longispina:  Relationship with Allozyme Genotypes|Environ. Toxicol. Chem.26(9): 1904-1909|2007|10.1897/06-111R.1
108393|A||Wang,N., T. Augspurger, M.C. Barnhart, J.R. Bidwell, W.G. Cope, F.J. Dwyer, S. Geis, I.E. Greer, C.G. Ingersoll, C.M. K|Intra- and Interlaboratory Variability in Acute Toxicity Tests with Glochidia and Juveniles of Freshwater Mussels (Unionidae)|Environ. Toxicol. Chem.26(10): 2029-2035|2007|10.1897/06-520R.1
108394|A||Wang,Z.S., H.N. Kong, and D.Y. Wu|Reproductive Toxicity of Dietary Copper to a Saltwater Cladoceran, Moina monogolica Daday|Environ. Toxicol. Chem.26(1): 126-131|2007|10.1897/06-216R1.1
108395|A||Brooks,S.J., T. Bolam, L. Tolhurst, J. Bassett, J. La Roche, M. Waldock, J. Barry, and K.V. Thomas|Effects of Dissolved Organic Carbon on the Toxicity of Copper to the Developing Embryos of the Pacific Oyster (Crassostrea gigas)|Environ. Toxicol. Chem.26(8): 1756-1763|2007|10.1897/06-460R1.1
108396|A||Millan de Kuhn,R., C. Streb, R. Breiter, P. Richter, T. Neesse, and D.P. Hader|Screening for Unicellular Algae as Possible Bioassay Organisms for Monitoring Marine Water Samples|Water Res.40(14): 2695-2703|2006|10.1016/j.watres.2006.04.045
108397|T||Meng,H., Z. Chen, G. Xing, H. Yuan, C. Chen, F. Zhao, C. Zhang, and Y. Zhao|Ultrahigh Reactivity Provokes Nanotoxicity:  Explanation of Oral Toxicity of Nano-Copper Particles|Toxicol. Lett.175(1-3): 102-110|2007|10.1016/j.toxlet.2007.09.015
108398|T||Shi,Y., Y. Shi, X. Wang, Y. Lu, and S. Yan|Comparative Effects of Lindane and Deltamethrin on Mortality, Growth, and Cellulase Activity in Earthworms (Eisenia fetida)|Pestic. Biochem. Physiol.89(1): 31-38|2007|10.1016/j.pestbp.2007.02.005
108399|T||Kamath,V., A.K.R. Joshi, and P.S. Rajini|Dimethoate Induced Biochemical Perturbations in Rat Pancreas and Its Attenuation by Cashew Nut Skin Extract|Pestic. Biochem. Physiol.90(1): 58-65|2008|10.1016/j.pestbp.2007.07.007
108400|A||Liess,M., B.J. Pieters, and S. Duquesne|Long-Term Signal of Population Disturbance After Pulse Exposure to an Insecticide:  Rapid Recovery of Abundance, Persistent Alteration of Structure|Environ. Toxicol. Chem.25(5): 1326-1331|2006|10.1897/05-466R.1
108401|T||Yousef,M.I., T.I. Awad, and E.H. Mohamed|Deltamethrin-Induced Oxidative Damage and Biochemical Alterations in Rat and Its Attenuation by Vitamin E|Toxicology227(3): 240-247|2006|10.1016/j.tox.2006.08.008
108402|T||Blystone,C.R., C.S. Lambright, J. Furr, V.S. Wilson, and L.E.,Jr. Gray|Iprodione Delays Male Rat Pubertal Development, Reduces Serum Testosterone Levels, and Decreases Ex Vivo Testicular Testosterone Production|Toxicol. Lett.174(1-3): 74-81|2007|10.1016/j.toxlet.2007.08.010
108404|T||Carluccio,A., S. Panzani, U. Tosi, M. Faustini, I. De Amicis, and M.C. Veronesi|Efficacy of hCG and GnRH for Inducing Ovulation in the Jenny|Theriogenology68(6): 914-919|2007|10.1016/j.theriogenology.2007.07.005
108405|T||Valiente,C., Y. Corrada, P.E. De la Sota, P.G. Gerez, and C. Gobello|Effect of the GnRH Antagonist, Acyline, on Canine Testicular Characteristics|Theriogenology68(5): 687-692|2007|10.1016/j.theriogenology.2007.05.062
108406|T||Schneider,F., H. Falkenberg, G. Kuhn, K. Nurnberg, C. Rehfeldt, and W. Kanitz|Effects of Treating Young Boars with a GnRH Depot Formulation on Endocrine Functions, Testis Size, Boar Taint, Carcass Composition and Muscular Structure|Anim. Reprod. Sci.50(1-2): 69-80|1998|10.1016/S0378-4320(97)00086-9
108407|T||Schneider,F., B. Heleil, H. Alm, H. Torner, F. Becker, T. Viergutz, G. Nurnberg, and W. Kanitz|Endocrine, Morphological, and Cytological Effects of a Depot GnRH Agonist in Bovine|Anim. Reprod. Sci.92(1-2): 9-28|2006|10.1016/j.anireprosci.2005.05.012
108408|A||Sutfeld,R., F. Petereit, and A. Nahrstedt|Resorcinol in Exudates of Nuphar lutea|J. Chem. Ecol.22(12): 2221-2231|1996|10.1007/BF02029542
108409|A||Singh,V.K., S. Singh, S. Singh, and D.K. Singh|Effect of Active Molluscicidal Component of Spices on Different Enzyme Activities and Biogenic Amine Levels in the Nervous Tissue of Lymnaea acuminata|PTR. Phytother.Res.13(8): 649-654|1999|10.1002/(SICI)1099-1573(199912)13:8<649::AID-PTR518>3.0.CO;2-9
108410|T||Wilson,J.A., and M.B. Isman|Influence of Essential Oils on Toxicity and Pharmacokinetics of the Plant Toxin Thymol in the Larvae of Trichoplusia ni|Can. Entomol.138(4): 578-589|2006|10.4039/n06-801
108411|T||Becker,S.E., and L.S. Katz|Effects of a Gonadotropin-Releasing Hormone Agonist on Serum Luteinizing Hormone Concentrations in Female White-Tailed Deer|Small Ruminant Res.18(2): 145-150|1995|10.1016/0921-4488(95)00726-2
108412|A||Chang,J.P., G.L. Freedman, and R. De Leeuw|Participation of Arachidonic Acid Metabolism in Gonadotropin-Releasing Hormone Stimulation of Goldfish Gonadotropin Release|Gen. Comp. Endocrinol.76(1): 2-11|1989|10.1016/0016-6480(89)90026-9
108413|A||Hoskins,L.J., M. Xu, and H. Volkoff|Interactions Between Gonadotropin-Releasing Hormone (GnRH) and Orexin in the Regulation of Feeding and Reproduction in Goldfish (Carassius auratus)|Horm. Behav.54:379-385|2008|10.1016/j.yhbeh.2008.04.011
108414|T||Zhang,J., X. Wang, and T. Xu|Elemental Selenium at Nano Size (Nano-Se) as a Potential Chemopreventive Agent with Reduced Risk of Selenium Toxicity:  Comparison with Se-Methylselenocysteine in Mice|Toxicol. Sci.101(1): 22-31|2008|10.1093/toxsci/kfm221
108415|A||Zhu,X., L. Zhu, Y. Li, Z. Duan, W. Chen, and P.J.J. Alvarez|Developmental Toxicity in Zebrafish (Danio rerio) Embryos After Exposure to Manufactured Nanomaterials:  Buckminsterfullerene Aggregates (nC60) and Fullerol|Environ. Toxicol. Chem.26(5): 976-979|2007|10.1897/06-583.1
108416|A||England,D.E., and J. Downing|Chronic Toxicity of NPE 1.5 to Ceriodaphnia dubia|Final.Rep.No.41766, ABC Lab.Inc., Columbia, MO:30 p.|1995|
108417|T||Gao,J.R., T. Kozaki, C.A. Leichter, F.D. Rinkevich, T. Shono, and J.G. Scott|The A302S Mutation in Rdl that Confers Resistance to Cyclodienes and Limited Cross-Resistance to Fipronil is Undetectable in Field Populations of House Flies from the USA|Pestic. Biochem. Physiol.88(1): 66-70|2007|10.1016/j.pestbp.2006.09.001
108418|A||Swartz,R.C., F.A. Cole, J.O. Lamberson, S.P. Ferraro, D.W. Schults, W.A. DeBen, H. Lee II, and R.J. Ozretich|Sediment Toxicity, Contamination and Amphipod Abundance at a DDT- and Dieldrin-Contaminated Site in San Francisco Bay|Environ. Toxicol. Chem.13(6): 949-962|1994|
108420|A||Anguiano,G., R. Llera-Herrera, E. Rojas, and C. Vazquez-Boucard|Subchronic Organismal Toxicity, Cytotoxicity, Genotoxicity, and Feeding Response of Pacific Oyster (Crassostrea gigas) to Lindane (gamma-HCH) Exposure Under Experimental Conditions|Environ. Toxicol. Chem.26(10): 2192-2197|2007|10.1897/06-377R3.1
108421|T||Antunes,P.M., B.A. Hale, and A.C. Ryan|Toxicity Versus Accumulation for Barley Plants Exposed to Copper in the Presence of Metal Buffers:  Progress Towards Development of a Terrestrial Biotic Ligand Model|Environ. Toxicol. Chem.26(11): 2282-2289|2007|10.1897/06-641R.1
108422|T||Min,K.S., H. Ueda, and K. Tanaka|Involvement of Intestinal Calcium Transporter 1 and Metallothionein in Cadmium Accumulation in the Liver and Kidney of Mice Fed a Low-Calcium Diet|Toxicol. Lett.176(1): 85-92|2008|10.1016/j.toxlet.2007.10.011
108423|T||Valenzuela-Valenzuela,J., N.K. Lownds, and T.M. Sterling|Ethylene is not Involved in Clopyralid Action in Yellow Starthistle (Centaurea solstitialis L.)|Pestic. Biochem. Physiol.72(3): 142-152|2002|10.1016/S0048-3575(02)00003-2
108424|A||Hashemi,S., R. Blust, and G. De Boeck|The Effect of Food Rations on Tissue-Specific Copper Accumulation Patterns of Sublethal Waterborne Copper Accumulation Patterns  of Sublethal Waterborne Exposure in Cyprinus carpio|Environ. Toxicol. Chem.26(7): 1507-1511|2007|10.1897/06-480R.1
108425|A||Mochida,K., K. Ito, H. Harino, T. Onduka, A. Kakuno, and K. Fujii|Early Life-Stage Toxicity Test for Copper Pyrithione and Induction of Skeletal Anomaly in a Teleost, the Mummichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.27(2): 367-374|2008|10.1897/07-176R1.1
108426|T||Tareke,E., B.T. Golding, R.D. Small, and M. Toernqvist|Haemoglobin Adducts from Isoprene and Isoprene Monoepoxides|Xenobiotica28(7): 663-672|1998|10.1080/004982598239245
108427|T||Lange,I.G., A. Daxenberger, H.H.D. Meyer, E. Rajpert-De Meyts, N.E. Skakkebaek, and D.N.R. Veeramachaneni|Quantitative Assessment of Foetal Exposure to Trenbolone Acetate, Zeranol and Melengestrol Acetate, Following Maternal Dosing in Rabbits|Xenobiotica32(8): 641-651|2002|10.1080/00498250210143010
108428|T||Tominaga,T., T. Negishi, H. Hirooka, A. Miyachi, A. Inoue, I. Hayasaka, and Y. Yoshikawa|Toxicokinetics of Bisphenol A in Rats, Monkeys and Chimpanzees by the LC-MS/MS Method|Toxicology226(2/3): 208-217|2006|10.1016/j.tox.2006.07.004
108431|T||Tyl,R.W., C.B. Myers, M.C. Marr, C.S. Sloan, N.P. Castillo, M.M. Veselica, J.C. Seely, S.S. Dimond, J.P. Van Miller, R.|Two-Generation Reproductive Toxicity Evaluation of Dietary 17beta-Estradiol (E2; CAS No. 50-28-2) in CD-1 (Swiss) Mice|Toxicol. Sci.102(2): 392-412|2008|10.1093/toxsci/kfn002
108432|T||Yamasaki,K., M. Takeyoshi, M. Sawaki, N. Imatanaka, K. Shinoda, and M. Takatsuki|Immature Rat Uterotrophic Assay of 18 Chemicals and Hershberger Assay of 30 Chemicals|Toxicology183(1-3): 93-115|2003|10.1016/S0300-483X(02)00445-6
108433|A||England,D.E.|Chronic Toxicity of Nonylphenol to Ceriodaphnia dubia|Final Rep.No.41509, ABC Lab.Inc., Columbia, MO:159 p.|1995|
108434|A||England,D.C., and J.B. Bussard|Toxicity of Nonylphenol to the Midge Chironomus tentans|Final Rep.No.41570, ABS Lab.Inc., Columbia, MO:183 p.|1995|
108435|A||Wei,Y., J. Dai, M. Liu, J. Wang, M. Xu, J. Zha, and Z. Wang|Estrogen-Like Properties of Perfluorooctanoic Acid as Revealed by Expressing Hepatic Estrogen-Responsive Genes in Rare Minnows (Gobiocypris rarus)|Environ. Toxicol. Chem.26(11): 2440-2447|2007|10.1897/07-008R1.1
108436|A||Stanko,J.P., and R.A. Angus|In Vivo Assessment of the Capacity of Androstenedione to Masculinize Female Mosquitofish (Gambusia affinis) Exposed Through Dietary and Static Renewal Methods|Environ. Toxicol. Chem.26(5): 920-926|2007|10.1897/06-201R.1
108437|T||Muller,J.K., J.E. Scarborough, M.S. Sepulveda, G. Caella, T.S. Gross, and C.J. Borgert|Dose Verification After Topical Treatment of Alligator (Alligator mississippiensis) Eggs|Environ. Toxicol. Chem.26(5): 908-913|2007|10.1897/06-286R.1
108438|A||Moreels,D., K. Van Cauwenberghe, B. Debaere, E. Rurangwa, N. Vromant, L. Bastiaens, L. Diels, D. Springael, R. Merckx, |Long-Term Exposure to Environmentally Relevant Doses of Methyl-tert-butyl Ether Causes Significant Reproductive Dysfunction in the Zebrafish (Danio rerio)|Environ. Toxicol. Chem.25(9): 2388-2394|2006|10.1897/05-054R1.1
108439|A||Heiden,T.C.K., C.A. Struble, M.L. Rise, M.J. Hessner, R.J. Hutz, and M.J. Carvan III|Molecular Targets of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Within the Zebrafish Ovary: Insights into TCDD-Induced Endocrine Disruption and Reproductive Toxicity|Reprod. Toxicol.25(1): 47-57|2008|10.1016/j.reprotox.2007.07.013
108440|A||Zhang,X., F. Yang, Y.Q. Cai, and Y. Xu|Oxidative Damage in Unfertilized Eggs of Chinese Rare Minnow (Gobiocypris rarus) Exposed to Nonylphenol|Environ. Toxicol. Chem.27(1): 213-219|2008|10.1897/07-074.1
108441|A||Biales,A.D., D.C. Bencic, J.L. Lazorchak, and D.L. Lattier|A Quantitative Real-Time Polymerase Chain Reaction Method for the Analysis of Vitellogenin Transcripts in Model and Nonmodel Fish Species|Environ. Toxicol. Chem.26(12): 2679-2686|2007|10.1897/07-101.1
108442|T||Hanafy,A.M., T. Sasanami, and M. Mori|Effects of Diethylstilbestrol and Ethinylestradiol on Gene Transcription of very Low-Density Apolipoprotein II in the Liver of Japanese Quail, Coturnix japonica|Environ. Toxicol. Chem.25(5): 1354-1359|2006|10.1897/05-350R.1
108443|A||Williams,T.D., J.E. Caunter, A.D. Lillicrap, T.H. Hutchinson, E.G. Gillings, and S. Duffell|Evaluation of the Reproductive Effects of Tamoxifen Citrate in Partial and Full Life-Cycle Studies Using Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.26(4): 695-707|2007|10.1897/05-646R1.1
108444|A||Zhang,X., J. Zha, and Z. Wang|Influences of 4-Nonylphenol on Doublesex- and MAB-3-Related Transcription Factor 1 Gene Expression and Vitellogenin mRNA Induction of Adult Rare Minnow (Gobiocypris rarus)|Environ. Toxicol. Chem.27(1): 196-205|2008|10.1897/07-067.1
108445|A||Benninghoff,A.D., and D.E. Williams|Identification of a Transcriptional Fingerprint of Estrogen Exposure in Rainbow Trout Liver|Toxicol. Sci.101(1): 65-80|2008|10.1093/toxsci/kfm238
108446|T||Clough,R.W., J.F. Rodriguez-Sierra, and L.B. Hoppe|Kainic Acid Lesioning of the Preoptic Area Alters Positive Feedback of Estrogen in Prepubertal Female Rats|Biol. Reprod.35:1269-1276|1986|10.1095/biolreprod35.5.1269
108447|T||Tirajoh,A., T.S.T. Aung, A.B. McKay, and A.L. Plant|Stress-Responsive alpha-Dioxygenase Expression in Tomato Roots|J. Exp. Bot.56(412): 713-723|2005|10.1093/jxb/eri038
108448|T||Filippi,S., A. Morelli, L. Vignozzi, G.B. Vannelli, M. Marini, P. Ferruzzi, R. Mancina, C. Crescioli, N. Mondaini, G. F|Oxytocin Mediates the Estrogen-Dependent Contractile Activity of Endothelin-1 in Human and Rabbit Epididymis|Endocrinology146(8): 3506-3517|2005|10.1210/en.2004-1628
108449|T||Chen,X., J. Aravindakshan, Y. Yang, R. Tiwari-Pandy, and M.R. Sairam|Aberrant Expression of PDGF Ligands and Receptors in the Tumor Prone Ovary of Follitropin Receptor Knockout (FORKO) Mouse|Carcinogenesis27(5): 903-915|2006|10.1093/carcin/bgi305
108450|T||Webber III,C.L., J.W. Shrefler, and M.J. Taylor|Impact of Corn Gluten Meal Applications on Spring-Transplanted Onion Injury and Yields|Int. J. Veg. Sci.13(4): 5-20|2007|10.1300/J512v13n04_02
108451|A||Poapolathep,A., S. Poapolathep, K. Imsilp, N. Wannapat, N. Klangkaew, N. Kusutjarit, and S. Kumagai|Distribution and Residue Depletion of Oxytetracycline in Giant Freshwater Prawn (Macrobrachium rosenbergii)|J. Food Prot.71(4): 870-873|2008|10.4315/0362-028X-71.4.870
108453|T||Peltoniemi,O.A.T., B.G. Easton, R.J. Love, C. Klupiec, and G. Evans|Effect of Chronic Treatment with a GnRH Agonist (Goserelin) on LH Secretion and Early Pregnancy in Gilts|Anim. Reprod. Sci.40(1-2): 121-133|1995|10.1016/0378-4320(95)01400-T
108454|T||Nandagopal,V., and S. Vasantha|Influence of Plant Growth Regulators on the Population of Thrips Caliothrips indicus (Bagnall) and Damage in Groundnut|Entomon16(1): 87-89|1991|
108455|T||Vernon,R.S., W. Van Herk, J. Tolman, H.O. Saavedra, M. Clodius, and B. Gage|Transitional Sublethal and Lethal Effects of Insecticides After Dermal Exposures to Five Economic Species of Wireworms (Coleoptera: Elateridae)|J. Econ. Entomol.101(2): 365-374|2008|10.1093/jee/101.2.365
108456|T||Prabhaker,N., J.G. Morse, S.J. Castle, S.E. Naranjo, T.J. Henneberry, and N.C. Toscano|Toxicity of Seven Foliar Insecticides to Four Insect Parasitoids Attacking Citrus and Cotton Pests|J. Econ. Entomol.100(4): 1053-1061|2007|10.1093/jee/100.4.1053
108457|T||Van Herk,W.G., R.S. Vernon, M. Clodius, C. Harding, and J.H. Tolman|Mortality of Five Wireworm Species (Coleoptera: Elateridae), Following Topical Application of Clothianidin and Chlorpyrifos|J. Entomol. Soc. B. C.104:55-63|2007|
108458|T||Van Herk,W.G., R.S. Vernon, J.H. Tolman, and H.O. Saavedra|Mortality of a Wireworm, Agriotes obscurus (Coleoptera: Elateridae), After Topical Application of Various Insecticides|J. Econ. Entomol.101(2): 375-383|2008|10.1603/0022-0493(2008)101[375:MOAWAO]2.0.CO;2
108459|T||Van Herk,W.G., R.S. Vernon, and B.D. Roitberg|Repellency of a Wireworm, Agriotes obscurus (Coleoptera: Elateridae), on Exposure to Synthetic Insecticides in a Soil-Less Bioassay|Environ. Entomol.37(2): 534-545|2008|10.1093/ee/37.2.534
108460|T||Weissling,T.J., F.B. Peairs, and S.D. Pilcher|Comparison of Chemigated and Aerially-Applied Chlorpyrifos and Fenvalerate for Control of European Corn Borer (Lepidoptera:  Pyralidae) Larvae|J. Econ. Entomol.85(2): 539-543|1992|10.1093/jee/85.2.539
108461|T||Castro,S., L.C. Davis, and L.E. Erickson|Phytotransformation of Benzotriazoles|Int. J. Phytoremediat.5(3): 245-265|2003|10.1080/713779224
108462|T||Fabry,J., R. Renaville, and A. Burny|Influence of Anabolic Treatments on Luteinizing Hormone and Testosterone Secretion in Bulls|Anim. Prod.39(3): 345-354|1984|
108463|A||Swain,G.C., and P.C. Tripathy|Maleic Hydrazide in Biochemical Regulation of Root Growth in Intact Seedlings of Upland Hybrid Rice (Oryza sativa L.cv.B-76)|Indian J. Agric. Biochem.16(2): 79-82|2003|
108464|T||Chaubey,R.C., B.R. Kavi, P.S. Chauhan, and K. Sundaram|The Effect of Hycanthone and Maleic Hydrazide on the Frequency of Micronuclei in the Bone-Marrow Erythrocytes of Mice|Mutat. Res.57(2): 187-191|1978|10.1016/0027-5107(78)90267-1
108465|AT||Perucci,S., S. Cecchini, C. Pretti, A.M.V. Cognetti, G. Macchioni, G. Flamini, and P.L. Cioni|In Vitro Antimycotic Activity of Some Natural Products Against Saprolegnia ferax|PTR. Phytother.Res.9(2): 147-149|1995|10.1002/ptr.2650090215
108466|T||Dowd,P.F.|Responses of Carpophilus hemipterus Larvae and Adults to Selected Secondary Metabolites of Maize|Entomol. Exp. Appl.54(1): 29-36|1990|10.1111/j.1570-7458.1990.tb01308.x
108467|T||Chu,C.L., W.T. Liu, T. Zhou, and R. Tsao|Control of Postharvest Gray Mold Rot of Modified Atmosphere Packaged Sweet Cherries by Fumigation with Thymol and Acetic Acid|Can. J. Plant Sci.79(4): 683-689|1999|10.4141/P98-1081
108468|A||Golding,C., R. Krassoi, and E. Baker|The Development and Application of a Marine Toxicity Identification Evaluation (TIE) Protocol for Use with an Australian Bivalve|Australas. J. Ecotoxicol.12(1): 37-44|2006|
108469|A||Johnson,K.R., P.C. Jepson, and J.J. Jenkins|Esfenvalerate-Induced Case-Abandonment in the Larvae of the Caddisfly (Brachycentrus americanus)|Environ. Toxicol. Chem.27(2): 397-403|2008|10.1897/07-185R1.1
108470|A||Eder,K.J., C.M. Leutenegger, H.R. Kohler, and I. Werner|Effects of Neurotoxic Insecticides on Heat-Shock Proteins and Cytokine Transcription in Chinook Salmon (Oncorhynchus tshawytscha)|Ecotoxicol. Environ. Saf.72(1): 182-190|2009|10.1016/j.ecoenv.2008.04.020
108471|T||Paris,F., G.F. Weinbauer, V. Blum, and E. Nieschlag|The Effect of Androgens and Antiandrogens on the Immunohistochemical Localization of the Androgen Receptor in Accessory Reproductive Organs of Male Rats|J. Steroid Biochem. Mol. Biol.48(1): 129-137|1994|10.1016/0960-0760(94)90259-3
108472|T||Arena,A.C., C.D.B. Fernandez, E.M. Porto, D.Z. Bissacot, O.C.M. Pereira, and W.G. Kempinas|Fenvalerate, a Pyrethroid Insecticide, Adversely Affects Sperm Production and Storage in Male Rats|J. Toxicol. Environ. Health Part A71(23): 1550-1558|2008|10.1080/15287390802392024
108473|T||Joshi,S.C., R. Mathur, and N. Gulati|Testicular Toxicity of Chlorpyrifos (an Organophosphate Pesticide) in Albino Rat|Toxicol. Ind. Health23(7): 439-444|2007|10.1177/0748233707080908
108474|T||Scifres,C.J., J.W. Stuth, D.R. Kirby, and R.F. Angell|Forage and Livestock Production Following Oak (Quercus spp.) Control with Tebuthiuron|Weed Sci.29(5): 535-539|1981|10.1017/S0043174500063682
108476|T||MacLellan,L.J., T.R. Whyte, A. Murray, L.A. Fitzpatrick, C.R. Earl, W.J. Aspden, J.E. Kinder, H.E. Grotjan, J. Walsh, T|Superstimulation of Ovarian Follicular Growth with FSH, Oocyte Recovery, and Embryo Production from Zebu (Bos indicus) Calves:  Effects of Treatment with a GnRH Agonist or Antagonist|Theriogenology49(7): 1317-1329|1998|10.1016/S0093-691X(98)00079-X
108477|T||Evans,M.J., S.L. Alexander, C.H.G. Irvine, T.B. Taylor, N.E. Kitson, and J.H. Livesey|Administration of the GnRH Antagonist Cetrorelix During the Luteal Phase of the Mare|Theriogenology58(2-4): 527-532|2002|10.1016/S0093-691X(02)00780-X
108478|A||MacDonald,G.E., A. Puri, and D.G. Shilling|Interactive Effect of Photoperiod and Fluridone on Growth, Reproduction, and Biochemistry of Dioecious Hydrilla (Hydrilla verticillata)|Weed Sci.56(2): 189-195|2008|10.1614/WS-07-109.1
108479|AT||Mahapatra,P.K., P. Mohanty-Hejmadi, and G.B.N. Chainy|Specific Limb Abnormalities Induced by Hydrogen Peroxide in Tadpoles of Indian Jumping Frog, Polypedates maculatus|Indian J. Exp. Biol.39(11): 1103-1106|2001|
108480|T||Ibrahim,H.A., M.H. Abu-Egla, H.I. El-Sayad, and H. El-Gammal|Teratogenic Effect of Chlorpyrifos (Dursban) on Chick Embryos|J. Environ. Sci.2:203-223|1991|
108481|T||Reyes,M., P. Franck, P.J. Charmillot, C. Ioriatti, J. Olivares, E. Pasqualini, and B. Sauphanor|Diversity of Insecticide Resistance Mechanisms and Spectrum in European Populations of the Codling Moth, Cydia pomonella|Pest Manag. Sci.63(9): 890-902|2007|10.1002/ps.1421
108482|T||Paula,V.F., L.C.A. Barbosa, R.R. Teixeira, M.C. Picanco, and G.A. Silva|Synthesis and Insecticidal Activity of New 3-Benzylfuran-2-yl N,N,N',N'-Tetraethyldiamidophosphate Derivatives|Pest Manag. Sci.64(8): 863-872|2008|10.1002/ps.1559
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108484|T||Nostrandt,A.C., S. Padilla, and V.C. Moser|The Relationship of Oral Chlorpyrifos Effects on Behavior, Cholinesterase Inhibition, and Muscarinic Receptor Density in Rat|Pharmacol. Biochem. Behav.58(1): 15-23|1997|10.1016/S0091-3057(96)00458-3
108485|T||Ncibi,S., M. Ben Othman, A. Akacha, M.N. Krifi, and L. Zourgui|Opuntia ficus indica Extract Protects Against Chlorpyrifos-Induced Damage on Mice Liver|Food Chem. Toxicol.46(2): 797-802|2008|10.1016/j.fct.2007.08.047
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108487|T||Lassiter,T.L., and S. Brimijoin|Rats Gain Excess Weight After Developmental Exposure to the Organophosphorothionate Pesticide, Chlorpyrifos|Neurotoxicol. Teratol.30(2): 125-130|2008|10.1016/j.ntt.2007.10.004
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108489|A||Ha,M.H., and J. Choi|Chemical-Induced Alteration of Hemoglobin Expression in the 4th Instar Larvae of Chironomus tentans Mg. (Diptera:  Chironomidae)|Environ. Toxicol. Pharmacol.25(3): 393-398|2008|10.1016/j.etap.2007.12.006
108490|T||Guillebeau,L.P., and J.N. All|Use of Pyrethroids, Methomyl, and Chlorpyrifos to Control Fall Armyworm (Lepidoptera:  Noctuidae) in Whorl Stage Field Corn, Sweet Corn, and Sorghum|Fla. Entomol.74(2): 261-270|1991|10.2307/3495305
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108493|T||Capodicasa,E., M.L. Scapellato, A. Moretto, S. Caroldi, and M. Lotti|Chlorpyrifos-Induced Delayed Polyneuropathy|Arch. Toxicol.65:150-155|1991|10.1007/BF02034943
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108499|T||Davis,G.R.F.|Effects of 2,4-D, Maleic Acid Hydrazide, and 2,4,5-T on Survival and Growth of the Prairie Grain Wireworm, Ctenicera destructor Brown (Coleoptera:  Elateridae)|Can. J. Zool.46:747-750|1968|10.1139/z68-102
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108502|T||Tsao,R., and T. Zhou|Interaction of Monoterpenoids, Methyl Jasmonate, and Ca2+ in Controlling Postharvest Brown Rot of Sweet Cherry|Hortscience35(7): 1304-1307|2000|10.21273/HORTSCI.35.7.1304
108504|T||Liu,W.T., C.L. Chu, and T. Zhou|Thymol and Acetic Acid Vapors Reduce Postharvest Brown Rot of Apricots and Plums|Hortscience37(1): 151-156|2002|10.21273/HORTSCI.37.1.151
108505|T||Chen,F.J., W. Day, G. Evans, J.W. Evans, and K.D. Peterson|Follicular, Estrus, Gonadotropin and Ovulation Responses in Anestrous Mares Treated with a GnRH Analogue (CH 690030)|J. Equine Vet. Sci.13(11): 636-642|1993|10.1016/S0737-0806(07)80392-3
108506|T||Buckley,J., E. Willingham, K. Agras, and L.S. Baskin|Embryonic Exposure to the Fungicide Vinclozolin Causes Virilization of Females and Alteration of Progesterone Receptor Expression In Vivo:  An Experimental Study in Mice|Environ. Health (London)5(4): 6 p.|2006|
108507|T||Boyd,W.A., S.J. McBride, and J.H. Freedman|Effects of Genetic Mutations and Chemical Exposures on Caenorhabditis elegans Feeding:  Evaluation of a Novel, High-Throughput Screening Assay|PLoS One2(12): 8 p.|2007|10.1371/journal.pone.0001259
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108511|T||Klein,M., S. Levski, and S. Keren|Comparative Toxicity of Several Pyrethroids, Parathion and Chlorpyrifos to Adults of the Spiny Bollworm, Earias insulana (Boisduval) (Lepidoptera:  Noctuidae), in Laboratory Assays|Isr. J. Entomol.16:99-103|1982|
108512|T||Srinivas,P.N., G.R. Reddy, and C.S. Chetty|Ionic Imbalances in the CNS of Neonate Rat During Induced Benthiocarb Stress|Ecotoxicol. Environ. Saf.19(1): 89-92|1990|10.1016/0147-6513(90)90082-G
108513|T||Pine,M.D., J.K. Hiney, B. Lee, and W.L. Dees|The Pyrethroid Pesticide Esfenvalerate Suppresses the Afternoon Rise of Luteinizing Hormone and Delays Puberty in Female Rats|Environ. Health Perspect.116(9): 1243-1247|2008|10.1289/ehp.11119
108514|T||Anwarulla,M.S.|Chemical Weed Control in Rice Nurseries of the Hill Zone of Karnataka|Int. Rice Res. Notes23(1): 27-28|1998|
108515|AT||Bisht,P.S., P.C. Pandey, and P. Lal|Weed Control in Direct Seeded Puddled Rice|Int. Rice Res. Notes21(2/3): 79-80|1996|
108516|T||Ambali,S., D. Akanbi, N. Igbokwe, M. Shittu, M. Kawu, and J. Ayo|Evaluation of Subchronic Chlorpyrifos Poisoning on Hematological and Serum Biochemical Changes in Mice and Protective Effect of Vitamin C|J. Toxicol. Sci.32(2): 111-120|2007|10.2131/jts.32.111
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108520|T||Imeokparia,P.O.|Control of Cutgrass (Leersia hexandra) with Herbicides|Tests Agrochem. Cultiv.10:80-81|1989|
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108524|T||Kim,P.M., and P.G. Wells|Phenytoin-Initiated Hydroxyl Radical Formation: Characterization by Enhanced Salicylate Hydroxylation|Mol. Pharmacol.49(1): 172-181|1996|
108525|T||Kohen,R., and M. Chevion|Paraquat Toxicity is Enhanced by Iron and Reduced by Desferrioxamine in Laboratory Mice|Biochem. Pharmacol.34(10): 1841-1843|1985|10.1016/0006-2952(85)90659-8
108529|T||Miguez,M.P., F. Soler, and L. Garcia-Rubio|Accentuation of Paraquat-Induced Toxicity by L-Carnitine in Mice|Biofactors8(1/2): 73-78|1998|10.1002/biof.5520080113
108530|A||Sampayo,J.N., A. Olsen, and G.J. Lithgow|Oxidative Stress in Caenorhabditis elegans: Protective Effects of Superoxide Dismutase/Catalase Mimetics|Aging Cell2(6): 319-326|2003|10.1046/j.1474-9728.2003.00063.x
108531|T||Suntres,Z.E., S.R. Hepworth, and P.N. Shek|Protective Effect of Liposome-Associated alpha-Tocopherol Against Paraquat-Induced Acute Lung Toxicity|Biochem. Pharmacol.44(9): 1811-1818|1992|10.1016/0006-2952(92)90076-U
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108535|T||Smiley,R.W., R.G. Whittaker, J.A. Gourlie, and S.A. Easley|Geocenamus brevidens Associated with Reduced Yield of No-Till Annual Spring Wheat in Oregon|Plant Dis.90(7): 885-890|2006|10.1094/PD-90-0885
108536|T||Smiley,R.W., R.G. Whittaker, J.A. Gourlie, and S.A. Easley|Suppression of Wheat Growth and Yield by Pratylenchus neglectus in the Pacific Northwest|Plant Dis.89(9): 958-968|2005|10.1094/PD-89-0958
108537|T||Johansen,C.A., C.M. Rincker, D.A. George, D.F. Mayer, and C.W. Kious|Effects of Aldicarb and Its Biologically Active Metabolites on Bees|Environ. Entomol.13(5): 1386-1398|1984|10.1093/ee/13.5.1386
108538|T||Buntin,G.D., P.L. Raymer, C.W. Bednarz, D.V. Phillips, and R.E. Baird|Winter Crop, Tillage, and Planting Date Effects on Double-Crop Cotton|Agron. J.94(2): 273-280|2002|
108539|AT||Ray,P.P., S. Chaudhuri, and B.R. Maiti|Adrenomedullary Hormonal and Glycemic Modulation Following Gonadotropin and Sex Hormone Administration in the Soft-Shelled Turtle Lissemys Punctata punctata|Endocr. Res.28(1-2): 83-90|2002|10.1081/ERC-120004540
108540|T||E.I. Du Pont De Nemours|Embryotoxicity in Rats and Rabbits from Application of Chemicals to Skin During Organogenesis|EPA/OTS Doc.#878213803:22 p.|1983|
108542|T||Suttie,J.M., P.F. Fennessy, I.D. Corson, F.J. Laas, H.J. Elgar, and K.R. Lapwood|LH and Testosterone Responses to GnRH in Red Deer (Cervus elaphus) Stags Kept in a Manipulated Photoperiod|J. Reprod. Fertil.85(1): 213-219|1989|10.1530/jrf.0.0850213
108543|T||Magarey,R.D., R.W. Emmett, and G.S. Roberts|Residues of Four Fungicides Applied for Control of Grapevine Anthracnose Caused by Sphaceloma ampelinum in a Budburst to Flowering Spray Program|Australas. Plant Pathol.24(3): 209-214|1995|10.1071/APP9950209
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108545|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Regarding Results on an Acute Rat Oral Study with Compound #72500 with Attachments|EPA/OTS Doc.#88-920004796:16 p.|1992|
108546|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Regarding Results on an Acute Mouse Oral Study with Compound #72500 with Attachments|EPA/OTS Doc.#88-920004690:16 p.|1992|
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108549|T||Rup,P.J., S.K. Sohal, R. Sohi, G. Kaur, N. Sandhu, S.K. Gurm, P. Dhingra, and S.K. Wadhwa|Influence of PGRs on Carbohydrate Content in Lipaphis erysimi (Kalt.)|Indian J. Exp. Biol.38(10): 1066-1068|2000|
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108552|T||Stratton,G.W.|The Effect of pH on Fungitoxic Interactions Between a Solvent and Pesticide|Water Air Soil Pollut.28(3-4): 393-405|1986|10.1007/BF00583503
108553|A||Stehly,G.R., and W.L. Hayton|Metabolism of Pentachlorophenol by Fish|Xenobiotica19(1): 75-81|1989|10.3109/00498258909034678
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108558|T||Li,Q., X. Yang, N. Sreejayan, and J. Ren|Insulin-Like Growth Factor I Deficiency Prolongs Survival and Antagonizes Paraquat-Induced Cardiomyocyte Dysfunction: Role of Oxidative Stress|Rejuvenation Research10(4): 501-512|2007|10.1089/rej.2007.0552
108560|T||Dib,B.|Effects of Intrathecal Capsaicin on Autonomic and Behavioral Heat loss Responses in the Rat|Pharmacol. Biochem. Behav.28(1): 65-70|1987|10.1016/0091-3057(87)90013-X
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108563|T||Sharma,S.B., Y.L. Nene, M.V. Reddy, and D. McDonald|Effect of Heterodera cajani on Biomass and Grain Yield of Pigeon Pea on Vertisol in Pot and Field Experiments|Plant Pathol.42(2): 163-167|1993|10.1111/j.1365-3059.1993.tb01486.x
108564|T||Skorzynska-Polit,E., B. Pawlikowska-Pawlega, E. Szczuka, M. Drazkiewicz, and Z. Krupa|The Activity and Localization of Lipoxygenases in Arabidopsis thaliana Under Cadmium and Copper Stresses|Plant Growth Regul.48(1): 29-39|2006|10.1007/s10725-005-4745-6
108565|T||Thind,S.K., Chanpreet, and Mridula |Effect of Fluridone on Free Sugar Level in Heat Stressed Mungbean Seedlings|Plant Growth Regul.22(1): 19-22|1997|10.1023/A:1005813607177
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108589|T||Missirlis,F., S. Rahlfs, N. Dimopoulos, H. Bauer, K. Becker, A. Hilliker, J.P. Phillips, and H. Jackle|A Putative Glutathione Peroxidase of Drosophila Encodes a Thioredoxin Peroxidase that Provides Resistance Against Oxidative Stress but Fails to Complement a Lack of Catalase Activity|Biol. Chem.384(3): 463-472|2003|10.1515/BC.2003.052
108592|T||Sharma,D.R., and D.P. Singh|Ovicidal Effect of Some Insecticides Against Rice Stem Borer, Scirpophaga incertulas Walker|J. Insect Sci.8(1): 114-115|1995|
108593|T||Ali,B., and S. Hasnain|Efficacy of Bacterial Auxin on In Vitro Growth of Brassica oleracea L.|World J. Microbiol. Biotechnol.23:779-784|2007|10.1007/s11274-006-9297-z
108594|T||Taylor,G., J.B. Houston, and C.R. Elcombe|Effect of Promethazine and Isosafrole on Rat-Hepatic Microsomal Mono-Oxygenase Activity:  Comparison with Classic Inducers Phenobarbitone and beta-Naphthoflavone|Xenobiotica15(3): 243-249|1985|10.3109/00498258509045355
108595|T||Hovick,S.M., and J.A. Reinartz|Restoring Forest in Wetlands Dominated by Reed Canarygrass:  The Effects of Pre-Planting Treatments on Early Survival of Planted Stock|Wetlands27(1): 24-39|2007|10.1672/0277-5212(2007)27[24:RFIWDB]2.0.CO;2
108597|T||Edmonds,J.|Control of Alternaria spp. in European Potato Crops Using Zoxamide + Mancozeb|Br. Crop Prot. Conf.2:879-882|2005|
108598|T||Ruiz,J.M., and J.P. Benoit|In Vivo Peptide Release from poly(dl-Lactic Acid-co-Glycolic Acid) Copolymer 50/50 Microspheres|J. Control. Release16(1-2): 177-186|1991|10.1016/0168-3659(91)90041-B
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108600|T||Samant,M.P., J. Gulyas, D.J. Hong, G. Croston, C. Rivier, and J. Rivier|Synthesis, In Vivo and In Vitro Biological Activity of Novel Azaline B Analogs|Bioorg. Med. Chem. Lett.15(11): 2894-2897|2005|10.1016/j.bmcl.2005.03.085
108601|T||Sweat,J.K., M.J. Horak, D.E. Peterson, R.W. Lloyd, and J.E. Boyer|Herbicide Efficacy on Four Amaranthus Species in Soybean (Glycine max)|Weed Technol.12(2): 315-321|1998|10.1017/S0890037X00043876
108602|A||Ledebur-Villiger,M.|Cytology and Nucleic Acid Synthesis of Parthenogenetically Activated Sea Urchin Eggs|Exp. Cell Res.72(1): 285-308|1972|10.1016/0014-4827(72)90591-5
108603|T||Lodesani,M., A. Pellacani, S. Bergomi, E. Carpana, T. Rabitti, and P. Lasagni|Residue Determination for Some Products Used Against Varroa Infestation in Bees|Apidologie23(3): 257-272|1992|10.1051/apido:19920309
108604|T||Currier,H.B., and A.S. Crafts|Maleic Hydrazide, a Selective Herbicide|Science111:152-153|1950|10.1126/science.111.2876.152
108605|T||Pettigrew,W.T., W.R.,Jr. Meredith, and L.D. Young|Potassium Fertilization Effects on Cotton Lint Yield, Yield Components, and Reniform Nematode Populations|Agron. J.97(4): 1245-1251|2005|10.2134/agronj2004.0321
108606|T||Maitlen,J.C., and D.M. Powell|Persistence of Aldicarb in Soil Relative to the Carry-Over of Residues into Crops|J. Agric. Food Chem.30(3): 589-592|1982|10.1021/jf00111a043
108609|T||Iwata,Y., W.E. Westlake, J.H. Barkley, G.E. Carman, and F.A. Gunther|Aldicarb Residues in Oranges, Citrus By-Products, Orange Leaves, and Soil After an Aldicarb Soil-Application in an Orange Grove|J. Agric. Food Chem.25(4): 933-937|1977|10.1021/jf60212a043
108610|A||Verrengia Guerrero,N.R., M.G. Taylor, N.A. Davies, M.A.M. Lawrence, P.A. Edwards, K. Simkiss, and E.A. Wider|Evidence of Differences in the Biotransformation of Organic Contaminants in Three Species of Freshwater Invertebrates|Environ. Pollut.117(3): 523-530|2002|10.1016/S0269-7491(01)00132-4
108611|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Co. to USEPA Submitting Enclosed Results on an Acute Oral Toxicity Study with Flurprimidol in Rats with Attachments|EPA/OTS Doc.#88-920004687:16 p.|1992|
108612|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Regarding Results on an Acute Rat Oral Study with Compound #72500 with Attachments|EPA/OTS Doc.#88-920004686:15 p.|1992|
108614|T||Eli Lilly|Initial Submission:  Acute Rat Oral Toxicity Study with Flurprimidol with Cover Letter Dated 080392|EPA/OTS Doc #88-920006030:16 p.|1992|
108615|A||Pandey,A.K., R.S. Patiyal, J.C. Upadhyay, M. Tyagi, and P.C. Mahanta|Induced Spawning of the Endangered Golden Mahseer, Tor putitora, with Ovaprim at the State Fish Farm near Dehradun|Indian J. Fish.45(4): 457-459|1998|
108616|T||Mahmood,S.K.|Pesticides and Rhizosphere Biology of Alternanthera Pungens H. B. K|Geobios (Jodhpur)18(1): 43-44|1991|
108619|T||Leeper,J.R., and K.F. Raffa|Baseline Data for Evaluating Resistance Development:  Dosage/Mortality Studies Using Two Test Methods with Chlorpyrifos, Methomyl and Permethrin in Heliothis virescens (F.) and Heliothis zea (Boddie) (Lepidoptera:  Noct|Trop. Pest Manag.32(2): 137-145|1986|10.1080/09670878609371049
108620|T||Symonds,B.V.|Evaluation of Potential Molluscicides for the Control of the Field Slug, Agriolimax reticulatus (Mull.)|Plant Pathol.24(1): 1-9|1975|10.1111/j.1365-3059.1975.tb01848.x
108621|T||Sanders,L.M., G.I. McRae, K.M. Vitale, and B.A. Kell|Controlled Delivery of an LHRH Analogue from Biodegradable Injectable Microspheres|J. Control. Release2:187-195|1985|10.1016/0168-3659(85)90044-6
108622|A||Macken,A., M. Giltrap, B. Foley, E. McGovern, B. McHugh, and M. Davoren|A Model Compound Study:  The Ecotoxicological Evaluation of Five Organic Contaminants Employing a Battery of Marine Bioassays|Environ. Pollut.153(3): 627-637|2008|10.1016/j.envpol.2007.09.005
108623|T||Moore,R.W., R.C. Bookstaff, T.A. Mably, and R.E. Peterson|Differential Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Responsiveness of Male Rats to Androgens, 17beta-Estradiol, Luteinizing Hormone, Gonadotropin-Releasing Hormone, and Progesterone|Chemosphere25(1-2): 91-94|1992|10.1016/0045-6535(92)90487-C
108625|A||Couderchet,M., F. Kring, and P. Boger|Influence of Chloroacetamide Herbicides on Scenedesmus acutus Fatty Acids. A Central Role of Oleic Acid?|In: J.C.Kader and P.Mazliak (Eds.), 11th Int.Meet.on Plant Lipid Metabolism, Jun.26-Jul.1, 1994, Kluwer Acad.Publ., Dordrecht, Netherlands:408-410|1995|
108626|T||Darling,R.L., J.J. Romero, E.J. Dial, J.K. Akunda, R. Langenbach, and L.M. Lichtenberger|The Effects of Aspirin on Gastric Mucosal Integrity, Surface Hydrophobicity, and Prostaglandin Metabolism in Cyclooxygenase Knockout Mice|Gastroenterology127(1): 94-104|2004|10.1053/j.gastro.2004.04.003
108627|A||Adhikari,S., V.S. Chaurasia, A.A. Naqvi, and B.R. Pillai|Survival and Growth of Macrobrachium rosenbergii (de Man) Juvenile in Relation to Calcium Hardness and Bicarbonate Alkalinity|Turk. J. Fish. Aquat. Sci.7(1): 23-26|2007|
108628|T||Arjona-Berral,A., J. Mesa-Garcia, and L. Garcia-Torres|Herbicide Control of Broomrape in Peas and Lentils|FAO Plant Prot.Bull.36(4): 175-178|1988|
108629|T||Nielsen,F.H., T.R. Shuler, T.J. Zimmerman, and E.O. Uthus|Dietary Magnesium, Manganese and Boron Affect the Response of Rats to High Dietary Aluminum|Magnesium7(3): 133-147|1988|
108630|T||Soldatovic,D., V. Matovic, and D. Vujanovic|Prophylactic Effect of High Magnesium Intake in Rabbits Exposed to Prolonged Lead Intoxication|Magnes. Res.6(2): 145-148|1993|
108631|T||Soldatovic,D., D. Vujanovic, V. Matovic, and Z. Plamenac|Compared Effects of High Oral Mg Supplements and of EDTA Chelating Agent on Chronic Lead Intoxication in Rabbits|Magnes. Res.10(2): 127-133|1997|
108633|T||Schlinke,J.C.|Toxicologic Effects of Five Soil Nematocides in Chickens|Am. J. Vet. Res.31(6): 1119-1121|1970|
108634|T||Epstein,S.S., S.R. Joshi, E. Arnold, E.C. Page, and Y. Bishop|Abnormal Zygote Development in Mice After Paternal Exposure to a Chemical Mutagen|Nature225(5239): 1260-1261|1970|10.1038/2251260a0
108635|T||Jocic,M., R. Schuligoi, E. Schoninkle, M.A. Pabst, and P. Holzer|Cooperation of NMDA and Tachykinin NK1 and NK2 Receptors in the Medullary Transmission of Vagal Afferent Input from the Acid-Threatened Rat Stomach|IASP Newsl.89(2-3): 147-157|2001|
108636|T||Mehrotra,K.N., A. Phokela, and P.N. Saxena|Esterase Inhibition in Malathion Poisoning in the Desert Locust, Schistocerca gregaria Forskal|Indian J. Exp. Biol.7(2): 110-113|1969|
108637|T||Boyd,E.M., and T.K. Tanikella|The Acute Oral Toxicity of Malathion in Relation to Dietary Protein|Arch. Toxikol.24(4): 292-303|1969|10.1007/BF00577577
108638|T||Keiser,I., E.L. Schneider, and I. Tomikawa|Species Specificity Among Oriental Fruit Flies, Melon Flies, and Mediterranean Fruit Flies in Susceptibility to Insecticides at Several Loci|J. Econ. Entomol.64(3): 606-610|1971|10.1093/jee/64.3.606
108639|AT||Mitsunaga,S.I., M. Kobayashi, S. Fukui, K. Fukuoka, O. Kawakami, J. Yamaguchi, M. Ohshima, and T. Mitsui|alpha-Amylase Production is Induced by Sulfuric Acid in Rice Aleurone Cells|Plant Physiol. Biochem.45(12): 922-925|2007|10.1016/j.plaphy.2007.09.004
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108641|A||Gan,J., M. Hussain, and N.M. Rathor|Behaviour of an Alginate-Kaolin Based Controlled-Release Formulation of the Herbicide Thiobencarb in Simulated Ecosystems|Pestic. Sci.42(4): 265-272|1994|10.1002/ps.2780420403
108642|T||Okafor,L.I.|Chemical Weed Control in Direct-Seeded Irrigated Rice in the Lake Chad Basin, Nigeria|Crop Prot.5(3): 203-208|1986|10.1016/0261-2194(86)90103-1
108643|T||Prakash,T.R., P.M. Swamy, and D.D.K. Prasad|Selective Inhibition of Porphyrin Biosynthesis by Benthiocarb (Saturn) in Rice and Barnyard Grass Seedlings|Pestic. Biochem. Physiol.36(1): 29-34|1990|10.1016/0048-3575(90)90017-V
108644|T||Pfadt,R.E., J.E. Lloyd, and E.W. Spackman|Power Dusting with Organophosphorus Insecticides to Control the Sheep Ked|J. Econ. Entomol.68(4): 468-470|1975|10.1093/jee/68.4.468
108645|T||Benton,J.M., and A.H. Cobb|The Modification of Phytosterol Profiles and In Vitro Photosynthetic Electron Transport of Galium aparine L. (Cleavers) Treated with the Fungicide, Epoxiconazole|Plant Growth Regul.22(2): 93-100|1997|10.1023/A:1005885312748
108647|T||Chang,H.B., C.W. Lin, and H.J. Huang|Zinc-Induced Cell Death in Rice (Oryza sativa L.) Roots|Plant Growth Regul.46(3): 261-266|2005|10.1007/s10725-005-0162-0
108648|T||Ben-Yephet,Y., S. Bitton, and A. Greenberger|Control of Lettuce Drop Disease, Caused by Sclerotinia sclerotiorum, with Metham-sodium Soil Treatment and Foliar Application of Benomyl|Plant Pathol.35(2): 146-151|1986|10.1111/j.1365-3059.1986.tb01997.x
108649|T||Wojcik,M., E. Skorzynska-Polit, and A. Tukiendorf|Organic Acids Accumulation and Antioxidant Enzyme Activities in Thlaspi caerulescens Under Zn and Cd Stress|Plant Growth Regul.48(2): 145-155|2006|10.1007/s10725-005-5816-4
108650|T||Weimer,M.R., N.E. Balke, and D.D. Buhler|Herbicide Clomazone Does Not Inhibit In Vitro Geranylgeranyl Synthesis from Mevalonate|Plant Physiol.98(2): 427-432|1992|10.1104/pp.98.2.427
108651|T||Johri,A., A. Dhawan, R.L. Singh, and D. Parmar|Persistence in Alterations in the Ontogeny of Cerebral and Hepatic Cytochrome P450s following Prenatal Exposure to Low Doses of Lindane|Toxicol. Sci.101(2): 331-340|2008|10.1093/toxsci/kfm269
108652|T||Vernon,J.D.R., and H.J. Gould|Further Trials on Alternatives to DDT for the Control of Pre-blossom Pests on Apple and Pear|Plant Pathol.21(1): 1-9|1972|10.1111/j.1365-3059.1972.tb01713.x
108653|AT||Singh,S., and P. Datta|Outdoor Evaluation of Herbicide Resistant Strains of Anabaena variabilis as Biofertilizer for Rice Plants|Plant Soil296(1): 95-102|2007|10.1007/s11104-007-9293-6
108654|T||Sisler,E.C., M. Serek, E. Dupille, and R. Goren|Inhibition of Ethylene Responses by 1-Methylcyclopropene and 3-Methylcyclopropene|Plant Growth Regul.27(2): 105-111|1999|10.1023/A:1006153016409
108655|T||Thakur,R., A. Sood, P.K. Nagar, S. Pandey, R.C. Sobti, and P.S. Ahuja|Regulation of Growth of Lilium Plantlets in Liquid Medium by Application of Paclobutrazol or Ancymidol, for Its Amenability in a Bioreactor System:  Growth Parameters|Plant Cell Rep.25(5): 382-391|2006|10.1007/s00299-005-0094-1
108656|T||Jana,K., P.K. Samanta, and D. Ghosh|Evaluation of Single Intratesticular Injection of Calcium Chloride for Nonsurgical Sterilization of Male Black Bengal Goats (Capra hircus):  A Dose-Dependent Study|Anim. Reprod. Sci.86(1-2): 89-108|2005|10.1016/j.anireprosci.2004.05.021
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108658|T||Crafts,A.S.|Further Studies on Comparative Mobility of Labeled Herbicides|Plant Physiol.34:613-620|1959|10.1104/pp.34.6.613
108659|T||Gould,H.J.|Tests with Insecticides for the Control of Resistant Myzus persicae (Sulzer) on Year-Round Chrysanthemums|Plant Pathol.17(2): 88-94|1968|10.1111/j.1365-3059.1968.tb00426.x
108662|T||Golightly,W.H., C.T. Guile, and C.W. Graham|The Use of Metham-Sodium and D-D Against Potato Root Eelworm in Commercial Glasshouses|Plant Pathol.13(3): 121-125|1964|10.1111/j.1365-3059.1964.tb00914.x
108663|T||Eapen,S., and L. George|Plant Regeneration from Peduncle Segments of Oil Seed Brassica Species:  Influence of Silver Nitrate and Silver Thiosulfate|Plant Cell Tissue Organ Cult.51(3): 229-232|1997|10.1023/A:1005926108586
108664|T||Cooke,L.R., B.S. Watters, and A.E. Brown|The Effect of Fungicide Sprays on the Incidence of Apple Canker (Nectria galligena) in Bramley's Seedling|Plant Pathol.42(3): 432-442|1993|10.1111/j.1365-3059.1993.tb01522.x
108665|AT||Jebakumar,S.R.D., N. Kannan, B.R. Subramanian, and J. Jayaraman|Residues of Phosphamidon in Rice Fields|Environ. Pollut.61:227-234|1989|10.1016/0269-7491(89)90243-1
108666|T||Dorman,D.C., J. Simon, K.A. Harlin, and W.B. Buck|Diagnosis of Bromethalin Toxicosis in the Dog|J. Vet. Diagn. Invest.2:123-128|1990|10.1177/104063879000200208
108669|A||Zavala-Aguirre,J.L., O. Torres-Bugarin, and A.L. Zamora-Perez|Aquatic Ecotoxicology Approaches in Western Mexico|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1503-1511|2007|
108670|T||Yamasaki,K., M. Sawaki, R. Ohta, H. Okuda, S. Katayama, T. Yamada, T. Ohta, T. Kosaka, and W. Owens|OECD Validation of the Hershberger Assay in Japan:  Phase 2 Dose Response of Methyltestosterone, Vinclozolin, and p,p'-DDE|Environ. Health Perspect.111(16): 1912-1919|2003|10.1289/ehp.6357
108671|T||Wolf,C.J., G.A. LeBlanc, J.S. Ostby, and L.E.,Jr. Gray|Characterization of the Period of Sensitivity of Fetal Male Sexual Development to Vinclozolin|Toxicol. Sci.55(1): 152-161|2000|10.1093/toxsci/55.1.152
108672|T||Schneider,S., W. Kaufmann, R. Buesen, and B. Van Ravenzwaay|Vinclozolin--The Lack of a Transgenerational Effect After Oral Maternal Exposure During Organogenesis|Reprod. Toxicol.25(3): 352-360|2008|10.1016/j.reprotox.2008.04.001
108673|T||Nellemann,C., M. Dalgaard, H.R. Lam, and A.M. Vinggaard|The Combined Effects of Vinclozolin and Procymidone do not Deviate from Expected Additivity In Vitro and In Vivo|Toxicol. Sci.71(2): 251-262|2003|10.1093/toxsci/71.2.251
108674|T||Nagaosa,K., A. Kishimoto, R. Kizu, A. Nakagawa, A. Shiratsuchi, and Y. Nakanishi|Perturbation of Spermatogenesis by Androgen Antagonists Directly Injected into Seminiferous Tubules of Live Mice|Reproduction (Camb.)133(1): 21-27|2007|10.1530/REP-06-0236
108675|T||Matsuura,I., T. Saitoh, M. Ashina, Y. Wako, H. Iwata, N. Toyota, Y. Ishizuka, M. Namiki, N. Hoshino, M. Tsuchitani, and|Evaluation of a Two-Generation Reproduction Toxicity Study Adding Endpoints to Detect Endocrine Disrupting Activity Using Vinclozolin|J. Toxicol. Sci.30:163-188|2005|
108676|T||Kubota,K., S. Ohsako, S. Kurosawa, K. Takeda, W. Qing, M. Sakaue, T. Kawakami, R. Ishimura, and C. Tohyama|Effects of Vinclozolin Administration on Sperm Production and Testosterone Biosynthetic Pathway in Adult Male Rat|J. Reprod. Dev.49(5): 403-412|2003|10.1262/jrd.49.403
108677|T||Hotchkiss,A.K., J.S. Ostby, J.G. Vandenbergh, and L.E.,Jr. Gray|An Environmental Antiandrogen, Vinclozolin, Alters the Organization of Play Behavior|Physiol. Behav.79(2): 151-156|2003|10.1016/S0031-9384(03)00093-3
108678|T||Hellwig,J., B. Van Ravenzwaay, M. Mayer, and C. Gembardt|Pre- and Postnatal Oral Toxicity of Vinclozolin in Wistar and Long-Evans Rats|Regul. Toxicol. Pharmacol.32(1): 42-50|2000|10.1006/rtph.2000.1400
108679|T||Hass,U., M. Scholze, S. Christiansen, M. Dalgaard, A.M. Vinggaard, M. Axelstad, S.B. Metzdorff, and A. Kortenkamp|Combined Exposure to Anti-Androgens Exacerbates Disruption of Sexual Differentiation in the Rat|Environ. Health Perspect.115(1): 122-128|2007|10.1289/ehp.9360
108680|T||Elzeinova,F., V. Novakova, D. Buckiova, A. Kubatova, and J. Peknicova|Effect of Low Dose of Vinclozolin on Reproductive Tract Development and Sperm Parameters in CD1 Outbred Mice|Reprod. Toxicol.26(3-4): 231-238|2008|10.1016/j.reprotox.2008.09.007
108681|T||Crews,D., A.C. Gore, T.S. Hsu, N.L. Dangleben, M. Spinetta, T. Schallert, M.D. Anway, and M.K. Skinner|Transgenerational Epigenetic Imprints on Mate Preference|Proc. Natl. Acad. Sci. U.S.A.104(14): 5942-5946|2007|10.1073/pnas.0610410104
108682|T||Chang,H.S., M.D. Anway, S.S. Rekow, and M.K. Skinner|Transgenerational Epigenetic Imprinting of the Male Germline by Endocrine Disruptor Exposure During Gonadal Sex Determination|Endocrinology147(12): 5524-5541|2006|10.1210/en.2006-0987
108683|T||Auger,J., C. Lesaffre, A. Bazire, D. Schoevaert-Brossault, and F. Eustache|High-Resolution Image Cytometry of Rat Sperm Nuclear Shape, Size and Chromatin Status. Experimental Validation with the Reproductive Toxicant Vinclozolin|Reprod. Toxicol.18(6): 775-783|2004|10.1016/j.reprotox.2004.04.008
108684|T||Anway,M.D., S.S. Rekow, and M.K. Skinner|Comparative Anti-Androgenic Actions of Vinclozolin and Flutamide on Transgenerational Adult Onset Disease and Spermatogenesis|Reprod. Toxicol.26(2): 100-106|2008|10.1016/j.reprotox.2008.07.008
108685|T||Anway,M.D., C. Leathers, and M.K. Skinner|Endocrine Disruptor Vinclozolin Induced Epigenetic Transgenerational Adult-Onset Disease|Endocrinology147(12): 5515-5523|2006|10.1210/en.2006-0640
108686|T||Anway,M.D., A.S. Cupp, M. Uzumcu, and M.K. Skinner|Epigenetic Transgenerational Actions of Endocrine Disruptors and Male Fertility|Science308(5727): 1466-1469|2005|10.1126/science.1108190
108687|T||Andre,S.M., and V.P. Markowski|Learning Deficits Expressed as Delayed Extinction of a Conditioned Running Response Following Perinatal Exposure to Vinclozolin|Neurotoxicol. Teratol.28(4): 482-488|2006|10.1016/j.ntt.2006.04.002
108689|T||Pentyala,S.N., C.S. Chetty, G. Korlinara, and S. Pentyala|Permeability Changes in the Blood-Brain Barrier of Neonate and Adult Rats After Thiobencarb Exposure|Vet. Hum. Toxicol.35(6): 509-511|1993|
108690|T||Prakash,T.R., and P.M. Swamy|Effect of Benthiocarb on Epicuticular Wax and Silica Content in Rice and Barnyard Grass|Proc. Indian Acad. Sci. Plant Sci.97(6): 457-460|1987|10.1007/BF03053550
108691|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Submitting Enclosed Results on an Acute Oral Study with Flurprimidol in Rats with Attachment|EPA/OTS Doc.#88-920004785:10 p.|1992|
108692|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Regarding Results on an Acute Rat Oral Study Compound #72500 with Attachments|EPA/OTS Doc.#88-920004685:14 p.|1992|
108693|T||Eli Lilly|Initial Submission:  Acute Mouse Oral Study with A-(1-Methylethyl)-A-(4-(Trifluoromethoxy)Phenyl)- 5-Pyrimidinemethanol with Cover Letter Dated 080392|EPA/OTS Doc.#88-920005964:16 p.|1992|
108694|T||Eastman Kodak Co.|Initial Submission:  Toxicity Study of 2-(Hydroxymethyl)-2-Nitro-1,3-Propanediol with Cover Letter Dated 09/10/92|EPA/OTS Doc.#88-920008957:6 p.|1992|
108695|T||Adesiyan,S.O., and T. Badra|The Efficiency of Plant Growth Regulators on the Yield of Maize and in Relation to Infestations by Helicotylenchus and Pratylenchus Species|Indian J. Nematol.18(2): 286-290|1988|
108696|T||Eli Lilly|Initial Submission:  Acute Rat Oral Study with Flurprimidol with Cover Letter Dated 080392|EPA/OTS Doc.#88-920005957:8 p.|1992|
108697|T||Hamamoto,H., O. Nawata, K. Hasegawa, R. Nakaune, Y.J. Lee, Y. Makizumi, K. Akutsu, and T. Hibi|The Role of the ABC Transporter Gene PMR1 in Demethylation Inhibitor Resistance in Penicillium digitatum|Pestic. Biochem. Physiol.70(1): 19-26|2001|10.1006/pest.2001.2530
108698|T||Jablonkai,I., and K.K. Hatzios|Microsomal Oxidation of the Herbicides EPTC and Acetochlor and of the Safener MG-191 in Maize|Pestic. Biochem. Physiol.48:98-109|1994|10.1006/pest.1994.1011
108700|T||Burgos,M.G., C. Winters, S.R. Sturzenbaum, P.F. Randerson, P. Kille, and A.J. Morgan|Cu and Cd Effects on the Earthworm Lumbricus rubellus in the Laboratory:  Multivariate Statistical Analysis of Relationships Between Exposure, Biomarkers, and Ecologically Relevant Parameters|Environ. Sci. Technol.39(6): 1757-1763|2005|10.1021/es049174x
108701|T||Inaba,S., and C. Takenaka|Effects of Dissolved Organic Matter on Toxicity and Bioavailability of Copper for Lettuce Sprouts|Environ. Int.31(4): 603-608|2005|10.1016/j.envint.2004.10.017
108702|T||Chatterjee,S., A. Ray, P. Bagchi, and C. Deb|Suppression of Testicular Steroidogenesis in Rats by the Organochlorine Insecticide Aldrin|Environ. Pollut.51(2): 87-94|1988|10.1016/0269-7491(88)90198-4
108703|A||Luider,C.D., J. Crusius, R.C. Playle, and P.J. Curtis|Influence of Natural Organic Matter Source on Copper Speciation as Demonstrated by Cu Binding to Fish Gills, by Ion Selective Electrode, and by DGT Gel Sampler|Environ. Sci. Technol.38(10): 2865-2872|2004|10.1021/es030566y
108704|T||Khambay,B.P.S., J.M. Bourne, S. Cameron, B.R. Kerry, and M.J. Zaki|A Nematicidal Metabolite from Verticillium chlamydosporium|Pest Manag. Sci.56(12): 1098-1099|2000|10.1002/1526-4998(200012)56:12<1098::AID-PS244>3.0.CO;2-H
108705|T||Miyake,Y., J. Sakai, I. Miura, K. Nagayama, and M. Shibata|Effects of a Novel Fungicide Benthiavalicarb-Isopropyl Against Oomycete Fungal Diseases|Symp. Proc. Br. Crop Prot. Counc.1:105-112|2003|
108706|T||Eli Lilly|Initial Submission:  A Pilot Reproduction Study with Fluridone in Dutch-Belted Rabbits with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006702:34 p.|1992|
108707|A||Leslie,A.J., D.C. Schmitz, R.L. Kipker, and D.L. Girardin|Movement of Fluridone in the Upper St. Johns River, Florida|Fla. Sci.56(3): 168-177|1993|
108708|A||Valley,R.D., W. Crowell, C.H. Welling, and N. Proulx|Effects of a Low-Dose Fluridone Treatment on Submersed Aquatic Vegetation in a Eutrophic Minnesota Lake Dominated by Eurasian Watermilfoil and Coontail|J. Aquat. Plant Manag.44(1): 19-25|2006|
108709|A||Stewart,R.M., A.S. Way, C.S. Owens, and D.M. Morgan|Aquatic Plant Assessments for Spring Creek Low-Dose Fluridone Injection Treatment:  Year-of-Treatment and 2-Year Post-Treatment Findings|Technical Report ERDC/EL R-05-1, U.S.Army Eng.Res.Develop.Ctr., Vicksburg, MS:61 p.|2005|
108710|T||Gunning,R.V., G.D. Moores, and A.L. Devonshire|Esterases and Esfenvalerate Resistance in Australian Helicoverpa armigera (Hubner) Lepidoptera:  Noctuidae|Pestic. Biochem. Physiol.54(1): 12-23|1996|10.1006/pest.1996.0004
108711|A||Traas,T.P., J.H. Janse, P.J. Van den Brink, T.C.M. Brock, and T. Aldenberg|A Freshwater Food Web Model for the Combined Effects of Nutrients and Insecticide Stress and Subsequent Recovery|Environ. Toxicol. Chem.23(2): 521-529|2004|10.1897/02-524
108712|T||Ishaaya,I., and J.E. Casida|Pyrethroid Esterase(s) may Contribute to Natural Pyrethroid Tolerance of Larvae of the Common Green Lacewing|Environ. Entomol.10:681-684|1981|10.1093/ee/10.5.681
108713|T||Kanga,L.H.B., D.J. Pree, J.L. Van Lier, and K.J. Whitty|Mechanisms of Resistance to Organophosphorus and Carbamate Insecticides in Oriental Fruit Moth Populations (Grapholita molesta Busck)|Pestic. Biochem. Physiol.59(1): 11-23|1997|10.1006/pest.1997.2304
108714|A||Eaton,J.G., W.A. Swenson, J.H. McCormick, T.D. Simonson, and K.M. Jensen|A Field and Laboratory Investigation of Acid Effects on Largemouth Bass, Rock Bass, Black Crappie, and Yellow Perch|Trans. Am. Fish. Soc.121:644-658|1992|10.1577/1548-8659(1992)121<0644:AFALIO>2.3.CO;2
108715|T||Duff,W.G., and R.E. Menzer|Persistence, Mobility, and Degradation of 14C-Dimethoate in Soils|Environ. Entomol.2(3): 309-318|1973|10.1093/ee/2.3.309
108716|A||Metian,M., P. Bustamante, L. Hedouin, and M. Warnau|Accumulation of Nine Metals and One Metalloid in the Tropical Scallop Comptopallium radula from Coral Reefs in New Caledonia|Environ. Pollut.152(3): 543-552|2008|10.1016/j.envpol.2007.07.009
108717|T||Croft,B.A., and P.G. Stewart|Toxicity of One Carbamate and Six Organophosphorus Insecticides to O-P Resistant Strains of Typhlodromus occidentalis and Amblyseius fallacis|Environ. Entomol.2(3): 486-488|1973|10.1093/ee/2.3.486
108718|T||Han,Z., G.D. Moores, I. Denholm, and A.L. Devonshire|Association Between Biochemical Markers and Insecticide Resistance in the Cotton Aphid, Aphis gossypii Glover|Pestic. Biochem. Physiol.62(3): 164-171|1998|10.1006/pest.1998.2373
108719|T||Sharma,S.K., and S. Millam|Somatic Embryogenesis in Solanum tuberosum L.:  A Histological Examination of Key Developmental Stages|Plant Cell Rep.23(3): 115-119|2004|10.1007/s00299-004-0814-y
108720|T||Shimabukuro,R.H., W.C. Walsh, and R.A. Hoerauf|Reciprocal Antagonism Between the Herbicides, Diclofop-Methyl and 2,4-D, in Corn and Soybean Tissue Culture|Plant Physiol.80(3): 612-617|1986|10.1104/pp.80.3.612
108721|T||Sarasan,V., M.M. Ramsay, and A.V. Roberts|In Vitro Germination and Induction of Direct Somatic Embryogenesis in 'Bottle Palm' (Hyophorbe lagenicaulis (L. Bailey) H.E. Moore), a Critically Endangered Mauritian Palm|Plant Cell Rep.20(12): 1107-1111|2002|10.1007/s00299-002-0454-z
108722|T||Vernon,J.D.R., and S.G. Evans|Experiments on the Control of Carrot-Willow Aphid in South-West England, 1961-1964|Plant Pathol.18(2): 83-88|1969|10.1111/j.1365-3059.1969.tb00471.x
108723|T||Lewis,S.|The Effect of Chemical Soil Sterilants and an Organophosphate Compound on Potato Root Eelworm|Plant Pathol.14(2): 89-91|1965|10.1111/j.1365-3059.1965.tb00284.x
108724|T||Li,H.Q., J.Y. Guo, Y.W. Huang, C.Y. Liang, H.X. Liu, I. Potrykus, and J. Puonti-Kaerlas|Regeneration of Cassava Plants via Shoot Organogenesis|Plant Cell Rep.17(5): 410-414|1998|10.1007/s002990050416
108725|AT||Pan,G., X. Zhang, K. Liu, J. Zhang, X. Wu, J. Zhu, and J. Tu|Map-Based Cloning of a Novel Rice Cytochrome P450 Gene CYP81A6 that Confers Resistance to Two Different Classes of Herbicides|Plant Mol. Biol.61(6): 933-943|2006|10.1007/s11103-006-0058-z
108726|T||Sanoamuang,N., and R.E. Gaunt|Persistence and Fitness of Carbendazim- and Dicarboximide-Resistant Isolates of Monilinia fructicola (Wint.) Honey in Flowers, Shoots and Fruit of Stone Fruit|Plant Pathol.44(3): 448-457|1995|10.1111/j.1365-3059.1995.tb01667.x
108727|T||Jain,M., K. Chengalrayan, A. Abouzid, and M. Gallo|Prospecting the Utility of a PMI/Mannose Selection System for the Recovery of Transgenic Sugarcane (Saccharum spp. Hybrid) Plants|Plant Cell Rep.26:581-590|2007|10.1007/s00299-006-0244-0
108728|T||Jones,M.P.A., Z. Yi, S.J. Murch, and P.K. Saxena|Thidiazuron-Induced Regeneration of Echinacea purpurea L.:  Micropropagation in Solid and Liquid Culture Systems|Plant Cell Rep.26(1): 13-19|2007|10.1007/s00299-006-0209-3
108729|T||Yamasaki,K., M. Takahashi, and M. Yasuda|Two-Generation Reproductive Toxicity Studies in Rats with Extra Parameters for Detecting Endocrine Disrupting Activity:  Introductory Overview of Results for Nine Chemicals|J. Toxicol. Sci.30:1-4|2005|10.2131/jts.30.S1
108731|T||Stroheker,T., N. Cabaton, R. Berges, V. Lamothe, J.C. Lhuguenot, and M.C. Chagnon|Influence of Dietary Soy Isoflavones on the Accessory Sex Organs of the Wistar Rat|Food Chem. Toxicol.41(8): 1175-1183|2003|10.1016/S0278-6915(03)00108-X
108732|T||Sierra-Santoyo,A., G. Castaneda-Hernandez, R.A. Harrison, H.A. Barton, and M.F. Hughes|Pharmacokinetics and Dosimetry of the Antiandrogen Vinclozolin After Oral Administration in the Rat|Toxicol. Sci.106(1): 55-63|2008|10.1093/toxsci/kfn167
108733|T||Nilsson,U., T. Nybrant, M. Papantoni, and L. Mathiasson|Long-Term Studies of Fungicide Concentrations in Greenhouses. 2. Fungicide Concentrations in Air and on Leaves After Different Exposure Times and Under Different Climate Conditions|J. Agric. Food Chem.44(9): 2878-2884|1996|10.1021/jf950324k
108734|T||Nellemann,C., A.M. Vinggaard, M. Dalgaard, A. Hossaini, and J.J. Larsen|Quantification of Antiandrogen Effect Determined by Lightcycler Technology|Toxicology163(1): 29-38|2001|10.1016/S0300-483X(01)00370-5
108735|T||Laws,S.C., S.A. Carey, W.R. Kelce, R.L. Cooper, and L.E.,Jr. Gray|Vinclozolin does not Alter Progesterone Receptor (PR) Function In Vivo Despite Inhibition of PR Binding by Its Metabolites In Vitro|Toxicology112(3): 173-182|1996|10.1016/0300-483X(96)03354-9
108736|T||Baumeister,M., M. Steep, S. Dieckmann, O. Melzer, H. Kloppel, H. Jurling, and L. Bender|Transfer of the Fungicide Vinclozolin from Treated to Untreated Plants via Volatilization|Chemosphere48(1): 75-82|2002|10.1016/S0045-6535(02)00049-8
108737|T||Ngo,P., J.A. Ozga, and D.M. Reinecke|Specificity of Auxin Regulation of Gibberellin 20-Oxidase Gene Expression in Pea Pericarp|Plant Mol. Biol.49(5): 439-448|2002|10.1023/A:1015522404586
108738|AT||Jain,N., and J. Van Staden|A Smoke-Derived Butenolide Improves Early Growth of Tomato Seedlings|Plant Growth Regul.50(2-3): 139-148|2006|10.1007/s10725-006-9110-x
108739|T||Olszyk,D.M., and T.W. Tibbitts|Stomatal Response and Leaf Injury of Pisum sativum L. with SO2 and O3 Exposures.  II.  Influence of Moisture Stress and Time of Exposure|Plant Physiol.67(3): 545-549|1981|10.1104/pp.67.3.545
108740|T||Pinhero,R.G., M.V. Rao, G. Paliyath, D.P. Murr, and R.A. Fletcher|Changes in Activities of Antioxidant Enzymes and Their Relationship to Genetic and Paclobutrazol-Induced Chilling Tolerance of Maize Seedlings|Plant Physiol.114(2): 695-704|1997|10.1104/pp.114.2.695
108741|T||Marshall,J.G., and E.B. Dumbroff|Turgor Regulation via Cell Wall Adjustment in White Spruce|Plant Physiol.119(1): 313-319|1999|10.1104/pp.119.1.313
108742|T||Li,X.Q., S.H. Li, D.F. Chen, and F.R. Meng|Induced Activity of Superoxide Dismutase and Peroxidase of In Vitro Plants by Low Concentrations of Ethanol|Plant Cell Tissue Organ Cult.79(1): 83-86|2004|10.1023/B:TICU.0000049439.36866.4e
108743|T||Lewis,S.|Pot Tests on the Effect of Sodium Methyl Dithiocarbamate on Potato Root Eelworm|Plant Pathol.13(3): 108-110|1964|10.1111/j.1365-3059.1964.tb00909.x
108744|T||Kumar,S., A.K. Sarkar, and C. Kunhikannan|Regeneration of Plants from Leaflet Explants of Tissue Culture Raised Safed Siris (Albizia procera)|Plant Cell Tissue Organ Cult.54(3): 137-143|1998|10.1023/A:1006179611034
108745|T||Kostenyuk,I., B.J. Oh, and I.S. So|Induction of Early Flowering in Cymbidium niveo-marginatum Mak In Vitro|Plant Cell Rep.19(1): 1-5|1999|10.1007/s002990050701
108746|AT||Ramamoorthy,K., M. Thanikodi, D. Kalavathi, and T.V. Karivaratharaju|Effect of Herbicidal Treatments on Seed Residues, Vigour and Viability in Semidry Rice (Oryza sativa L.) Cultivar ADT 36|Seed Sci. Technol.18(3): 775-780|1990|
108747|T||Reyes,M., and B. Sauphanor|Resistance Monitoring in Codling Moth:  A Need for Standardization|Pest Manag. Sci.64(9): 945-953|2008|10.1002/ps.1588
108748|T||Subramanian,S., R.J. Rabindra, S. Palaniswamy, N. Sathiah, and B. Rajasekaran|Impact of Granulovirus Infection on Susceptibility of Spodoptera litura to Insecticides|Biol. Control33(2): 165-172|2005|10.1016/j.biocontrol.2005.01.007
108749|T||Kljajic,P., and I. Peric|Susceptibility to Contact Insecticides of Granary Weevil Sitophilus granarius (L.) (Coleoptera:  Curculionidae) Originating from Different Locations in the Former Yugoslavia|J. Stored Prod. Res.42(2): 149-161|2006|10.1016/j.jspr.2005.01.002
108750|T||Mendez,W.A., J. Valle, J.E. Ibarra, J. Cisneros, D.I. Penagos, and T. Williams|Spinosad and Nucleopolyhedrovirus Mixtures for Control of Spodoptera frugiperda (Lepidoptera:  Noctuidae) in Maize|Biol. Control25(2): 195-206|2002|10.1016/S1049-9644(02)00058-0
108751|T||Eli Lilly|Initial Submission:  Acute Rat Oral Toxicity Study with A-(1-Methylethyl)-A-(4-(Trifluoromethoxy)Phenyl)- 5-Pyrimidinemethanol with Cover Letter Dated 081492|EPA/OTS Doc.#88-920006201:20 p.|1992|
108752|T||Eli Lilly|Initial Submission:  Acute Mouse Oral Toxicity Study with A-(1-Methylethyl)-A-(4-(Trifluoromethoxy)Phenyl)- 5-Pyrimidinemmethanol with Cover Letter Dated 081492|EPA/OTS Doc.#88-920006216:20 p.|1992|
108753|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Submitting Results on Compound #72500 Acute Rat Oral Study with Attachments|EPA/OTS Doc.#88-920006217:21 p.|1992|
108754|T||Gong,H., S.V. Singh, S.P. Singh, Y. Mu, J.H. Lee, S.P.S. Saini, D. Toma, S. Ren, V.E. Kagan, B.W. Day, P. Zimniak, and |Orphan Nuclear Receptor Pregnane X Receptor Sensitizes Oxidative Stress Responses in Transgenic Mice and Cancerous Cells|Mol. Endocrinol.20(2): 279-290|2006|10.1210/me.2005-0205
108755|AT||Meacham,C.A., P.D. Brodfuehrer, J.A. Watkins, and T.J. Shafer|Developmentally-Regulated Sodium Channel Subunits are Differentially Sensitive to alpha-Cyano Containing Pyrethroids|Toxicol. Appl. Pharmacol.231(3): 273-281|2008|10.1016/j.taap.2008.04.017
108756|T||Patzoldt,W.L., P.J. Tranel, and A.G. Hager|A Waterhemp (Amaranthus tuberculatus) Biotype with Multiple Resistance Across Three Herbicide Sites of Action|Weed Sci.53(1): 30-36|2005|10.1614/WS-04-087R
108757|AT||Lindquist,N.G., B.S. Larsson, and A. Lyden-Sokolowski|Autoradiography of (14C)Paraquat or (14C)Diquat in Frogs and Mice:  Accumulation in Neuromelanin|Neurosci. Lett.93(1): 1-6|1988|10.1016/0304-3940(88)90002-X
108758|A||Mayer,H.G.|Chemical Control of the Water Hyazinth (Eichhornia crassipes Solms) Considering Least Environmental Disturbance|Acta Hydrochim. Hydrobiol. (Multiple Languages)9(1): 57-68|1981|10.1002/aheh.19810090107
108760|A||Kuster,E., and R. Altenburger|Suborganismic and Organismic Effects of Aldicarb and Its Metabolite Aldicarb-Sulfoxide to the Zebrafish Embryo (Danio rerio)|Chemosphere68(4): 751-760|2007|10.1016/j.chemosphere.2006.12.093
108761|T||Ji,P., M.T. Momol, J.R. Rich, S.M. Olson, and J.B. Jones|Development of an Integrated Approach for Managing Bacterial Wilt and Root-Knot on Tomato Under Field Conditions|Plant Dis.91(10): 1321-1326|2007|10.1094/PDIS-91-10-1321
108762|T||Lee,S., R. Tsao, C. Peterson, and J.R. Coats|Insecticidal Activity of Monoterpenoids to Western Corn Rootworm (Coleoptera: Chrysomelidae), Twospotted Spider Mite (Acari: Tetranychidae) and House Fly (Diptera: Muscidae)|J. Econ. Entomol.90(4): 883-892|1997|10.1093/jee/90.4.883
108763|T||Erler,F., and I. Tunc|Monoterpenoids as Fumigants Against Greenhouse Pests:  Toxic, Development and Reproduction-Inhibiting Effects|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(2): 181-192|2005|
108764|T||Erler,F.|Fumigant Activity of Six Monoterpenoids from Aromatic Plants in Turkey Against the Two Stored-Product Pests Confused Flour Beetle, Tribolium confusum, and Mediterranean Flour Moth, Ephestia kuehniella|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(6): 602-611|2005|
108765|T||Nasrat,G.E.|The Effect of Pretreatment with Maleic Hydrazide of the Mutation Rate Induced by gamma Radiation in Drosophila melanogaster|Jpn. J. Genet.42(1): 39-42|1967|
108766|T||Atanassova,N.N., M. Walker, C. McKinnell, J.S. Fisher, and R.M. Sharpe|Evidence that Androgens and Oestrogens, as well as Follicle-Stimulating Hormone, can Alter Sertoli Cell Number in the Neonatal Rat|J. Endocrinol.184(1): 107-117|2005|10.1677/joe.1.05884
108767|T||Walczak-Jedrzejowska,R., J. Slowikowska-Hilczer, K. Marchlewska, E. Oszukowska, and K. Kula|During Seminiferous Tubule Maturation Testosterone and Synergistic Action of FSH with Estradiol Support Germ Cell Survival While Estradiol Alone has Pro-Apoptotic Effect|Folia Histochem. Cytobiol.45(1): 59-64|2007|
108769|T||Kavlock,R.J.|Structure-Activity Relationships in the Developmental Toxicity of Substituted Phenols: In Vivo Effects|Teratology41(1): 43-59|1990|10.1002/tera.1420410106
108770|T||Guile,C.T.|Control of Potato Root Eelworm in a Lincolnshire Fen Soil|Plant Pathol.13(4): 178-181|1964|10.1111/j.1365-3059.1964.tb00930.x
108771|T||Hu,Q., S.B. Andersen, and L.N. Hansen|Plant Regeneration Capacity of Mesophyll Protoplasts from Brassica napus and Related Species|Plant Cell Tissue Organ Cult.59(3): 189-196|1999|10.1023/A:1006417530587
108772|T||Kim,Y., J. Arihara, T. Nakayama, N. Nakayama, S. Shimada, and K. Usui|Antioxidative Responses and Their Relation to Salt Tolerance in Echinochloa oryzicola Vasing and Setaria virdis (L.) Beauv.|Plant Growth Regul.44(1): 87-92|2004|10.1007/s10725-004-2746-5
108773|T||Kay,S.J., and A. Stewart|The Effect of Fungicides on Fungal Antagonists of Onion White Rot and Selection of Dicarboximide-Resistant Biotypes|Plant Pathol.43(5): 863-871|1994|10.1111/j.1365-3059.1994.tb01630.x
108774|T||Lee,C.H., D. VanAntwerp, L. Hedley, J.J.,Jr. Nestor, and B.H. Vickery|Comparative Studies on the Hypotensive Effect of LHRH Antagonists in Anesthetized Rats|Life Sci.45(8): 697-702|1989|10.1016/0024-3205(89)90088-X
108775|T||Large,E.C., R.E. Taylor, I.F. Storey, and A.H. Yule|Spraying Trials in the Potato-Growing Areas Around the Wash, 1948-53|Plant Pathol.3(2): 40-48|1954|10.1111/j.1365-3059.1954.tb00687.x
108776|T||Garcia-Llamas,C., A. Martin, and J. Ballesteros|Differences Among Auxin Treatments on Haploid Production in Durum Wheat X Maize Crosses|Plant Cell Rep.23(1-2): 46-49|2004|10.1007/s00299-004-0786-y
108777|T||Gocal,G.F.W., C.C. Sheldon, F. Gubler, T. Moritz, D.J. Bagnall, C.P. MacMillan, S.F. Li, R.W. Parish, E.S. Dennis, D. W|GAMYB-Like Genes, Flowering, and Gibberellin Signaling in Arabidopsis|Plant Physiol.127(4): 1682-1693|2001|10.1104/pp.010442
108778|T||Fuentes,S.R.L., M.B.P. Calheiros, J. Manetti-Filho, and L.G.E. Vieira|The Effects of Silver Nitrate and Different Carbohydrate Sources on Somatic Embryogenesis in Coffea canephora|Plant Cell Tissue Organ Cult.60(1): 5-13|2000|10.1023/A:1006474324652
108779|T||Fei,S., P.E. Read, and T.P. Riordan|Improvement of Embryogenic Callus Induction and Shoot Regeneration of Buffalograss by Silver Nitrate|Plant Cell Tissue Organ Cult.60(3): 197-203|2000|10.1023/A:1006468324616
108780|T||Fogaca,C.M., and A.G. Fett-Neto|Role of Auxin and Its Modulators in the Adventitious Rooting of Eucalyptus Species Differing in Recalcitrance|Plant Growth Regul.45(1): 1-10|2005|10.1007/s10725-004-6547-7
108781|T||Escalona,M., J.C. Lorenzo, B. Gonzalez, M. Daquinta, J.L. Gonzalez, Y. Desjardins, and C.G. Borroto|Pineapple (Ananas comosus L. Merr) Micropropagation in Temporary Immersion Systems|Plant Cell Rep.18(9): 743-748|1999|10.1007/s002990050653
108782|T||De Cal,A., E.M. Sagasta, and P. Melgarejo|Biological Control of Peach Twig Blight (Monilinia laxa) with Penicillium frequentans|Plant Pathol.39(4): 612-618|1990|10.1111/j.1365-3059.1990.tb02542.x
108783|T||Davies,T.G.|Chemical Control of Potato Root Eelworm in Glasshouse Soils of North Wales|Plant Pathol.13(4): 164-168|1964|10.1111/j.1365-3059.1964.tb00926.x
108784|T||Cook,R.T.A.|Control of Glomerella cingulata f. sp. camelliae with Fungicides|Plant Pathol.38(4): 514-519|1989|10.1111/j.1365-3059.1989.tb01445.x
108785|A||Lera,S., S. Macchia, and D. Pellegrini|Standardizing the Methodology of Sperm Cell Test with Paracentrotus lividus|Environ. Monit. Assess.122(1-3): 101-109|2006|10.1007/s10661-005-9167-4
108786|T||Koleli,N., S. Eker, and I. Cakmak|Effect of Zinc Fertilization on Cadmium Toxicity in Durum and Bread Wheat Grown in Zinc-Deficient Soil|Environ. Pollut.131(3): 453-459|2004|10.1016/j.envpol.2004.02.012
108787|T||Zhu,Y., S. Zhang, Y.G. Zhu, P. Christie, and X. Shan|Improved Approaches for Modeling the Sorption of Phenanthrene by a Range of Plant Species|Environ. Sci. Technol.41(22): 7818-7823|2007|10.1021/es071305h
108788|T||Baumgartner,J.R., K. Al-Khatib, and R.S. Currie|Cross-Resistance of Imazethapyr-Resistant Common Sunflower (Helianthus annuus) to Selected Imidazolinone, Sulfonylurea, and Triazolopyrimidine Herbicides|Weed Technol.13:489-493|1999|10.1017/S0890037X0004608X
108789|T||Khalil Aria,A., M. Morovati, and M. Naseri|Efficacy of the Rodenticide Bromethalin in the Control of Microtus arvalis and Nesokia indica in Alfalfa Fields|Turk. J. Zool.31:261-264|2007|
108792|T||Imeokparia,P.O.|Herbicide Evaluation in Rain-Fed Transplanted Lowland Rice|Tests Agrochem. Cultiv.10:86-87|1989|
108793|T||Christiansen,S., M. Scholze, M. Axelstad, J. Boberg, A. Kortenkamp, and U. Hass|Combined Exposure to Anti-Androgens Causes Markedly Increased Frequencies of Hypospadias in the Rat|Int. J. Androl.31(2): 241-248|2008|10.1111/j.1365-2605.2008.00866.x
108794|T||Pathak,D., A.K. Roy, and S.C. Deka|Effect of Herbicides on the Growth and Sclerotial Survival of Rhizoctonia solani Kuehn|Ann. Biol.12(2): 245-251|1996|
108795|A||Omar,D., and R.B. Mohamad|Effect of Thiobencarb Formulations on Freshwater Shrimp, Macrobrachium lanchesteri (De Man)|Pertanika19(2/3): 205-207|1996|
108797|T||Singh,S.P., and K.G. Pillai|Weed Control in Direct Seeded Rice Under Puddled Conditions|Indian J. Plant Prot.21(2): 224-227|1993|
108798|T||Srinivas,P.N., G.R. Reddy, and C.S. Chetty|Effects In Vivo and In Vitro of Benthiocarb on Developing Rat (Wistar Strain) Brain Mg2+ and Ca2+ -ATPases|Biochem. Int.19(1): 145-153|1989|
108799|T||Babu,G.R.V., G.R. Reddy, P.N. Srinivas, and C.S. Chetty|Metabolic Diversions in the Oxidative Metabolism of Hepatic and Neuronal Systems of Rat (Wistar Strain) Under Induced Benthiocarb Stress|Biochem. Int.19(3): 477-487|1989|
108800|T||Babu,G.R.V., G.R. Reddy, and C.S. Chetty|Perturbations in Nitrogen Metabolism of Brain and Liver of Rat Following Repeated Benthiocarb Administration|Biochem. Int.18(6): 1253-1268|1989|
108801|T||Gultekin,F., I. Karakoyun, R. Sutcu, E. Savik, G. Cesur, and H. Orhan|Chlorpyrifos Increases the Levels of Hippocampal NMDA Receptor Subunits NR2A and NR2B in Juvenile and Adult Rats|Int. J. Neurosci.117(1): 47-62|2007|10.1080/00207450500535719
108802|T||Anway,M.D., M.A. Memon, M. Uzumcu, and M.K. Skinner|Transgenerational Effect of the Endocrine Disruptor Vinclozolin on Male Spermatogenesis|J. Androl.27(6): 868-879|2006|10.2164/jandrol.106.000349
108803|T||Anway,M.D., S.S. Rekow, and M.K. Skinner|Transgenerational Epigenetic Programming of the Embryonic Testis Transcriptome|Genomics91(1): 30-40|2008|10.1016/j.ygeno.2007.10.002
108804|T||Yu,W.J., B.J. Lee, S.Y. Nam, B. Ahn, J.T. Hong, J.C. Do, Y.C. Kim, Y.S. Lee, and Y.W. Yun|Reproductive Disorders in Pubertal and Adult Phase of the Male Rats Exposed to Vinclozolin During Puberty|J. Vet. Med. Sci.66(7): 847-853|2004|10.1292/jvms.66.847
108805|A||Eder,K.J., M.A. Clifford, R.P. Hedrick, H.R. Kohler, and I. Werner|Expression of Immune-Regulatory Genes in Juvenile Chinook Salmon Following Exposure to Pesticides and Infectious Hematopoietic Necrosis Virus (IHNV)|Fish Shellfish Immunol.25(6): 508-516|2008|10.1016/j.fsi.2008.07.003
108807|T||Kataria,H.R., U. Hugelshofer, and U. Gisi|Sensitivity of Rhizoctonia Species to Different Fungicides|Plant Pathol.40(2): 203-211|1991|10.1111/j.1365-3059.1991.tb02368.x
108808|T||Wolfe,G.W., and R.V. Patel|Pubertal Toxicity Study of Vinclozolin, Flutamide and Phenobarbital in Male Sprague Dawley Rats and Methoxychlor, Ethinyl Estradiol and Phenobarbital in Female Sprague Dawley Rats when Administered in Corn Oil by Oral G|Final Report 7244-600, TherImmune Research Corporation, Gaithersburg, MD:844 p.|2004|
108809|T||Pessarakli,M., and H. Touchane|Growth Responses of Bermudagrass and Seashore Paspalum Under Various Levels of Sodium Chloride Stress|J. Food Agric. Environ.4(3/4): 240-243|2006|
108810|A||Greenway,H., and T.L. Setter|Accumulation of Proline and Sucrose During the First Hours After Transfer of Chlorella emersonii to High NaCl|Aust. J. Plant Physiol.6:69-79|1979|
108811|T||Dubey,R.S., and K.N. Sharma|Acid and Alkaline Phosphatases in Rice Seedlings Growing Under Salinity Stress|Indian J. Plant Physiol.32(3): 217-223|1989|
108812|A||El-Sheekh,M.M.|Inhibition of the Water Splitting System by Sodium Chloride Stress in the Green Alga Chlorella vulgaris|Braz. J. Plant Physiol.16(1): 25-29|2004|10.1590/S1677-04202004000100004
108813|A||Ferri,S., and A. Sesso|Cell Response Associated to NaCl Effect in a Freshwater Teleost Epidermis. A Ultrathin Section and Freeze-Fracture Study|Zentbl. Vetmed. Reihe C11:307-314|1982|
108814|A||Batterton,J.C.,Jr., and C. Van Baalen|Growth Responses of Blue-Green Algae to Sodium Chloride Concentration|Arch. Mikrobiol.76:151-165|1971|10.1007/BF00411789
108815|T||Bynke,G., R. Hakanson, and F. Sundler|Is Substance P Necessary for Corneal Nociception?|Eur. J. Pharmacol.101(3-4): 253-258|1984|10.1016/0014-2999(84)90165-1
108816|T||Bilski,J., and S.J. Konturek|Role of Nitric Oxide in Gastroduodenal Alkaline Secretion|J. Physiol. Pharmacol.45(4): 541-553|1994|
108817|T||Szereda-Przestaszewska,M., and B. Wypych|Laryngeal Constriction Produced by Capsaicin in the Cat|J. Physiol. Pharmacol.47(2): 351-360|1996|
108818|T||Donnerer,J., and F. Lembeck|Analysis of the Effects of Intravenously Injected Capsaicin in the Rat|Naunyn-Schmiedeberg's Arch. Pharmacol.320(1): 54-57|1982|10.1007/BF00499072
108819|T||Darlington,C.D., and J. McLeish|Action of Maleic Hydrazide on the Cell|Nature167(4245): 407-408|1951|10.1038/167407a0
108820|A||Nash,S.M.B., K. McMahon, G. Eaglesham, and J.F. Muller|Application of a Novel Phytotoxicity Assay for the Detection of Herbicides in Hervey Bay and the Great Sandy Straits|Mar. Pollut. Bull.51(1-4): 351-360|2005|10.1016/j.marpolbul.2004.10.017
108821|T||Rup,P.J., S.K. Sohal, and P. Kaur|Development of Lipaphis erysimi (Kaltenbach) Under the Influence of Maleic Hydrazide|In: G.S.Dhaliwal, N.S.Randhawa, R.Arora (Eds.), Ecological Agriculture and Sustainable Development, International Conference on Ecological Agriculture:  Towards Sustainable Development, Ludhiana, India:463-467|1998|
108822|T||Lee,H.S.|Antimite Activity of Cumin Volatiles Against Dermatophagoides farinae and Dermatophagoides pteronyssinus (Acari:  Pyroglyphidae)|J. Microbiol. Biotechnol.14(4): 805-809|2004|
108823|T||Eli Lilly|Initial Submission:  A Two-Year Chronic Dietary Toxicity Study with Fluridone in Rats with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006495:841 p.|1992|
108824|T||Caseley,J.C., C. Palgrave, E. Haas, C.R. Riches, and B. Valverde|Herbicides with Alternative Modes of Action for the Control of Propanil- and Fenoxaprop-p-Resistant Echinochloa colona|Br. Crop Prot. Conf. Weeds1:215-220|1997|
108825|T||Bhargavi,K., and T.Y. Reddy|Effect of Time and Method of Application of Herbicides on Weed Control in Semi-Dry Rice (Oryza sativa)|Indian J. Agric. Sci.60(2): 147-150|1990|
108826|A||Watanabe,H., and K. Takahashi|"Effects of Plant Growth Regulators on the Appearance of ""MC Type"" Rice Seedlings"|Jpn. J. Crop Sci. (Multiple Languages)66(2): 318-324|1997|10.1626/jcs.66.318
108827|T||Lopez-Raez,J.A., T. Charnikhova, V. Gomez-Roldan, R. Matusova, W. Kohlen, R. De Vos, F. Verstappen, V. Puech-Pages, G. |Tomato Strigolactones are Derived from Carotenoids and Their Biosynthesis is Promoted by Phosphate Starvation|New Phytol.178(4): 863-874|2008|10.1111/j.1469-8137.2008.02406.x
108828|T||Rozema,J., J. De Bruin, and R.A. Broekman|Effect of Boron on the Growth and Mineral Economy of Some Halophytes and Non-Halophytes|New Phytol.121(2): 249-256|1992|10.1111/j.1469-8137.1992.tb01111.x
108829|T||Glinsukon,T., V. Stitmunnaithum, C. Toskulkao, T. Buranawuti, and V. Tangkrisanavinont|Acute Toxicity of Capsaicin in Several Animal Species|Toxicon18(2): 215-220|1980|10.1016/0041-0101(80)90076-8
108830|T||Roy,M., and R. Wu|Overexpression of S-Adenosylmethionine Decarboxylase Gene in Rice Increases Polyamine Level and Enhances Sodium Chloride-Stress Tolerance|Plant Sci.163(5): 987-992|2002|10.1016/S0168-9452(02)00272-8
108831|T||Shekhawat,V.P.S., A. Kumar, and K.H. Neumann|Effect of Sodium Chloride Salinity on Growth and Ion Accumulation in Some Halophytes|Commun. Soil Sci. Plant Anal.37(13/14): 1933-1946|2006|10.1080/00103620600767165
108832|T||Julian,R.J.|The Effect of Increased Sodium in the Drinking Water on Right Ventricular Hypertrophy, Right Ventricular Failure and Ascites in Broiler Chickens|Avian Pathol.16(1): 61-71|1987|10.1080/03079458708436353
108833|A||Gupta,S., and S.C. Agrawal|Survival and Motility of Diatoms Navicula grimmei and Nitzschia palea Affected by Some Physical and Chemical Factors|Folia Microbiol. (Prague)52(2): 127-134|2007|10.1007/BF02932151
108834|T||Krishnamurthy,R., and K.A. Bhagwat|Changes in Protein and Total Nitrogen Under Salt Stress in Rice Cultivars|Indian J. Exp. Biol.27(12): 1064-1066|1989|
108835|T||De,A.K., K. Agarwal, A. Mukherjee, and D. Sengupta|Inhibition by Capsaicin Against Cyclophosphamide-Induced Clastogenicity and DNA Damage in Mice|Mutat. Res.335(3): 253-258|1995|10.1016/0165-1161(95)00028-3
108836|T||Jang,J.J., D.E. Devor, D.L. Logsdon, and J.M. Ward|A 4-Week Feeding Study of Ground Red Chilli (Capsicum annuum) in Male B6C3F1 Mice|Food Chem. Toxicol.30(9): 783-787|1992|10.1016/0278-6915(92)90080-5
108837|T||Chiba,T., S. Masuko, and H. Kawano|Correlation of Mitochondrial Swelling After Capsaicin Treatment and Substance P and Somatostatin Immunoreactivity in Small Neurons of Dorsal Root Ganglion in the Rat|Neurosci. Lett.64(3): 311-316|1986|10.1016/0304-3940(86)90347-2
108839|T||Alleva,E., L. Aloe, S. Bigi, and L. De Acetis|Capsaicin Affects Aggressive Behavior, but not hot Plate Responding, of Adult Male Mice|Physiol. Behav.49(4): 715-719|1991|10.1016/0031-9384(91)90308-B
108840|AT||Cormareche-Leydier,M.|The Effect of an Intraperitoneal Injection of Capsaicin on the Thermopreferendum in the Frog (Rana esculenta)|Physiol. Behav.36(1): 29-32|1986|10.1016/0031-9384(86)90068-5
108841|T||Nilsson,G., and S. Ahlstedt|Altered Lymphocyte Proliferation of Immunized Rats After Neurological Manipulation with Capsaicin|Int. J. Immunopharmacol.10(6): 747-751|1988|10.1016/0192-0561(88)90028-8
108842|T||Houpt,K., J.C. Zgoda, and C.C. Stahlbaum|Use of Taste Repellants and Emetics to Prevent Accidental Poisoning of Dogs|Am. J. Vet. Res.45(8): 1501-1503|1984|
108843|T||Dib,B.|After Two Weeks Habituation to Capsaicinized Food, Rats Prefer this to Plain Food|Pharmacol. Biochem. Behav.37(4): 649-653|1990|10.1016/0091-3057(90)90541-O
108844|T||Carrillo,P., J. Manzo, M. Martinez-Gomez, M. Salas, and P. Pacheco|Neonatal Capsaicin Administration:  Effects on Behavioral Development of the Rat|Pharmacol. Biochem. Behav.48(2): 447-452|1994|10.1016/0091-3057(94)90551-7
108845|T||Burks,T.F., S.H. Buck, M.S. Miller, P.P. Deshmukh, and H.I. Yamamura|Characterization in Guinea Pigs of the Sensory Effects of the Putative Substance P Neurotoxin Capsaicin|Proc. West. Pharmacol. Soc.24:353-357|1981|
108846|T||Kanda,T., Y. Iwamoto, K. Yoshida, and H. Shimazu|Glycinergic Inputs Cause the Pause of Pontine Omnipause Neurons During Saccades|Neurosci. Lett.413(1): 16-20|2007|10.1016/j.neulet.2006.11.024
108847|T||Degtyarenko,A.M., and M.P. Kaufman|Bicuculline and Strychnine Suppress the Mesencephalic Locomotor Region-Induced Inhibition of Group III Muscle Afferent Input to the Dorsal Horn|Neuroscience118(3): 779-788|2003|10.1016/S0306-4522(02)00999-5
108848|T||Mullin,C.A., A. Gonzalez-Coloma, C. Gutierrez, M. Reina, H. Eichenseer, B. Hollister, and S. Chyb|Antifeedant Effects of Some Novel Terpenoids on Chrysomelidae Beetles:  Comparisons with Alkaloids on an Alkaloid-Adapted and Nonadapted Species|J. Chem. Ecol.23(7): 1851-1866|1997|10.1023/B:JOEC.0000006455.72602.3f
108849|A||Ruggieri,R.D., P. Pierobon, and G. Kass-Simon|Pacemaker Activity in Hydra is Modulated by Glycine Receptor Ligands|Comp. Biochem. Physiol. A Mol. Integr. Physiol.138(2): 193-202|2004|10.1016/j.cbpb.2004.03.015
108850|A||Stehr,C.M., T.L. Linbo, J.P. Incardona, and N.L. Scholz|The Developmental Neurotoxicity of Fipronil:  Notochord Degeneration and Locomotor Defects in Zebrafish Embryos and Larvae|Toxicol. Sci.92(1): 270-278|2006|10.1093/toxsci/kfj185
108851|T||Neubauer,I., N. Aharonson, I. Ishaaya, B. Raccah, and L. Soroksi|Foliar Residues and Toxicity to Aphis citricola of Three Systemic Insecticides Applied to the Soil in a Citrus Grove|Pestic. Sci.13(4): 387-394|1982|10.1002/ps.2780130408
108852|T||Monsereenusorn,Y.|Subchronic Toxicity Studies of Capsaicin and Capsicum in Rats|Res. Commun. Chem. Pathol. Pharmacol.41(1): 95-110|1983|
108853|T||Barada,K.A., S.S. Dika, S.F. Atweh, N.E. Saade, and C.F. Nassar|Acute and Neonatal Capsaicin Treatment Inhibit Jejunal Amino Acid Absorption Through a Na+-Dependent Mechanism|Am. J. Physiol. Gasterointest. Liver Physiol.272(4, Pt. 1): 815-821|1997|10.1152/ajpgi.1997.272.4.G815
108854|A||Davenport,R., R.J. Reid, and F.A. Smith|Control of Sodium Influx by Calcium and Turgor in Two Charophytes Differing in Salinity Tolerance|Plant Cell Environ.19(6): 721-728|1996|10.1111/j.1365-3040.1996.tb00407.x
108855|A||Greenway,H., and T.L. Setter|Na+, Cl-, and K+ Concentations in Chlorella emersonii Exposed to 100 and 335 mM NaCl|Aust. J. Plant Physiol.6:61-67|1979|
108856|A||Chezhian,A., and K. Sivakumari|Influence of External Calcium on the Toxicity of low pH and Phosphamidon in Relation to Ionic Regulation of Cyprinus carpio var. communis (Linnaeus, 1758)|Indian J. Fish.53(1): 59-65|2006|
108858|T||Shukla,A.K., B.K. Tiwari, and R.R. Mishra|Effect of Foliar Application of Herbicides, Benthiocarb, 2,4-D and Fluchloralin on Phyllosphere Microflora of Potato|Plant Soil106(2): 277-280|1988|10.1007/BF02371224
108859|T||Ottinger,M.A., M.J.,Jr. Quinn, E. Lavoie, M.A. Abdelnabi, N. Thompson, J.L. Hazelton, J.M. Wu, J. Beavers, and M. Jaber|Consequences of Endocrine Disrupting Chemicals on Reproductive Endocrine Function in Birds:  Establishing Reliable End Points of Exposure|Domest. Anim. Endocrinol.29(2): 411-419|2005|10.1016/j.domaniend.2005.02.038
108860|A||Viitasalo,S., J. Sassi, J. Rytkonen, and E. Leppakoski|Ozone, Ultraviolet Light, Ultrasound and Hydrogen Peroxide as Ballast Water Treatments - Experiments with Mesozooplankton in Low-Saline Brackish Water|J. Mar. Environ. Eng.8(1): 35-55|2005|
108861|A||Montada,D., A.R. Rajavel, and V. Vasuki|Use of Hexaflumuron, an Insect Growth Regulator in the Control of Aedes albopictus (Skuse)|Southeast Asian J. Trop. Med. Public Health25(2): 374-377|1994|
108862|T||DeFazio,J.T.,Jr., A.E. Stone, and R.J. Warren|Effects of Tebuthiuron Site Preparation on White-Tailed Deer Habitat|Wildl. Soc. Bull.16(1): 12-18|1988|
108863|T||Calford,M.B., and R. Tweedale|C-Fibres Provide a Source of Masking Inhibition to Primary Somatosensory Cortex|Proc. R. Soc. Lond. Ser. B Biol. Sci.243(1308): 269-275|1991|10.1098/rspb.1991.0041
108864|T||Foster,R.W., and A.G. Ramage|The Action of Some Chemical Irritants on Somatosensory Receptors of the Cat|Neuropharmacology20(2): 191-198|1981|10.1016/0028-3908(81)90203-3
108865|T||Jancso-Gabor,A.|Anaesthesia-like Condition and/or Potentiation of Hexobarbital Sleep Produced by Pungent Agents in Normal and Capsaicin-Desensitized Rats|Acta Physiol. Acad. Sci. Hung.55(1): 57-62|1980|
108867|T||Ahmad,M., M. Iqbal Arif, and M. Ahmad|Occurrence of Insecticide Resistance in Field Populations of Spodoptera litura (Lepidoptera:  Noctuidae) in Pakistan|Crop Prot.26(6): 809-817|2007|10.1016/j.cropro.2006.07.006
108868|T||Arthur,F.|Pests of Stored Peanuts:  Toxicity and Persistence of Chlorpyrifos-Methyl|J. Econ. Entomol.82(2): 660-664|1989|10.1093/jee/82.2.660
108869|T||Eizaguirre,M., L. Xanxo, and X. Pons|Importance and Control of Soil Pests in Silage Maize in the Highlands of the Pyrenees, North-East Spain|Crop Prot.24(6): 549-555|2005|10.1016/j.cropro.2004.11.002
108870|T||Kranthi,K.R., D.R. Jadhav, S. Kranthi, R.R. Wanjari, S.S. Ali, and D.A. Russell|Insecticide Resistance in Five Major Insect Pests of Cotton in India|Crop Prot.21(6): 449-460|2002|10.1016/S0261-2194(01)00131-4
108871|A||Rao,J.V., G. Begum, R. Pallela, P.K. Usman, and R.N. Rao|Changes in Behavior and Brain Acetylcholinesterase Activity in Mosquito Fish, Gambusia affinis in Response to the Sub-lethal Exposure to Chlorpyrifos|Int. J. Environ. Res. Public Health2(3): 478-483|2005|10.3390/ijerph2005030013
108872|A||SenthilKumaar,P., K. Samyappan, S. Jayakumar, and M. Deecaraman|Effect of Chlorpyrifos on the Nutritive Value in a Freshwater Field Crab, Spiralothelphusa hydrodroma|Res. J. Agric. Biol. Sci.3(6): 760-766|2007|
108873|A||SenthilKumaar,P., K. Samyappan, S. Jayakumar, and M. Deecaraman|Impact of Chlorpyrifos on the Neurosecretory Cells in a Freshwater Field Crab, Spiralothelphusa hydrodroma|Res. J. Agric. Biol. Sci.3(6): 625-630|2007|
108874|T||Subramanyam,B., M.D. Toews, K.E. Ileleji, D.E. Maier, G.D. Thompson, and T.J. Pitts|Evaluation of Spinosad as a Grain Protectant on Three Kansas Farms|Crop Prot.26(7): 1021-1030|2007|10.1016/j.cropro.2006.09.011
108875|T||Fountain,M.T., V.K. Brown, A.C. Gange, W.O.C. Symondson, and P.J. Murray|The Effects of the Insecticide Chlorpyrifos on Spider and Collembola Communities|Pedobiologia (Multiple Languages)51(2): 147-158|2007|10.1016/j.pedobi.2007.03.001
108876|T||Kljajic,P., and I. Peric|Altered Susceptibility of Granary Weevil Sitophilus granarius (L.) (Coleoptera:  Curculionidae) Populations to Insecticides After Selection with Pirimiphos-Methyl and Deltamethrin|J. Stored Prod. Res.43(2): 134-141|2007|10.1016/j.jspr.2006.02.004
108877|T||Vilela,M.L.B., E. Willingham, J. Buckley, B.C. Liu, K. Agras, Y. Shiroyanagi, and L.S. Baskin|Endocrine Disruptors and Hypospadias:  Role of Genistein and the Fungicide Vinclozolin|Urology70(3): 618-621|2007|10.1016/j.urology.2007.05.004
108878|T||Tong,J., and H.L. Tian|Biochemical Changes as Biomarkers of Pyrethroid Toxicity in Rats|J. Occup. Health38(2): 54-56|1996|10.1539/joh.38.54
108879|A||Rana,A.M., S.G. Yeragi, and V.A. Koli|Effect of Pesticides on Acid Phosphatase Activity of Mudskipper Boleophthalmus dussumieri|J. Ecotoxicol. Environ. Monit.13(2): 155-158|2003|
108880|T||Hautier,L., J.P. Jansen, B. Schiffers, R. Deleu, and C. Moreira|Drawing-Up of Pesticide Selectivity Lists to Beneficial Arthropods for IPM Programmes in Potato|Commun. Agric. Appl. Biol. Sci.69(3): 171-181|2004|
108881|A||Yeragi,S.G., A.M. Rana, and V.A. Koli|Effect of Pesticides on Protein Metabolism of Mud Skipper Boleophthalmus dussumieri|J. Ecotoxicol. Environ. Monit.13(3): 211-214|2003|
108882|A||Reynaldi,S., and M. Liess|Influence of Duration of Exposure to the Pyrethroid Fenvalerate on Sublethal Responses and Recovery of Daphnia magna Straus|Environ. Toxicol. Chem.24(5): 1160-1164|2005|10.1897/04-218R.1
108883|T||Scifres,C.J., W.T. Hamilton, B.H. Koerth, R.C. Flinn, and R.A. Crane|Bionomics of Patterned Herbicide Application for Wildlife Habitat Enhancement|J. Range Manag.41(4): 317-321|1988|10.2307/3899387
108884|T||Meschini,R., M.T. Quaranta, M. Fiore, C. Polcaro, E. Possagno, and F. Palitti|Chromosomal Damage Induced by Maleic Hydrazide in Mammalian Cells In Vitro and In Vivo|Mutat. Res.204(4): 645-648|1988|10.1016/0165-1218(88)90067-5
108885|T||Mohammed,G.|"Effect of Herbicides upon Dynamics of Nematode Population in Soybean Var. ""Bragg"""|Pesticides 21(11): 30-31|1987|
108886|A||Hasan,M.R., and D.J. MacIntosh|Effect of Chloride Concentration on the Acute Toxicity of Nitrite to Common Carp, Cyprinus carpio L., Fry|Aquac. Fish. Manag.17:19-30|1986|
108887|A||Morolli,C., F. Quaglio, G. Della Rocca, J. Malvisi, and A. Di Salvo|Evaluation of the Toxicity of Synthetic Pyrethroids to Red Swamp Crayfish (Procambarus clarkii, Girard 1852) and Common Carp (Cyprinus carpio, L. 1758)|Bull. Fr. Peche Piscic.380/381:1381-1394|2006|10.1051/kmae:2006042
108888|T||Nair,G.A., A.I. Mohamed, and M.H. Haeba|Laboratory Studies on the LD50 of the Woodlouse, Porcellio scaber Latreille (Isopoda, Oniscidea) Exposed to Chlorpyrifos (Dursban)|Afr. J. Ecol.40:393-395|2002|10.1046/j.0141-6707.2002.00389.x
108889|T||Ward,J.C., M. Martin, and W. Allred|The Susceptibility of Sage Grouse to Strychnine|J. Wildl. Manag.6(1): 55-57|1942|10.2307/3795521
108890|T||Tiwari,J.P., K.K. Trivedi, and K.L. Verma|Fertilizer and Herbicide Compatibility to Control Weeds in Wheat|Pesticides :36-38|1986|
108891|T||Ciba-Geigy Corp.|Initial Submission:  Teratology Study of 3-Chloro-N-(5-Chloro-2,6-Dinitro-4-Trifluoro-Methyl-Phenyl)-5-Trifluoromethyl-Pyridinamine in Rats with Cover Letter Dated 081992|EPA/OTS Doc.#88-920009630:92 p.|1992|
108892|A||Dow Chemical Co.|Initial Submission to USEPA Submitting Results on a Study Conducted in England on N-(3,5-Dichloro-4-(1,1,2,2-Tetrafluoroethoxy)Phenyl)Amino)Carbonyl)-2, 6|EPA/OTS Doc.#88-910000030:14 p.|1990|
108893|T||Eli Lilly|Initial Submission:  Subchronic Oral Toxicity of 4(1H)-Pyridinone, 1-Methyl-3-Phenyl-5-(3-(Trifluoromethyl)Phenyl)- in Dogs with Cover Letter Dated 081892|EPA/OTS Doc.#88-920008416:205 p.|1992|
108894|A||Stacey,N., W.B. Zheng, and J. Cardwell|Milt Production in Common Carp (Cyprinus carpio):  Stimulation by a Goldfish Steroid Pheromone|Aquaculture127(2-3): 265-276|1994|10.1016/0044-8486(94)90432-4
108895|T||Van der Heijden,C.A., E.M. Den Tonkelaar, J.M. Garbis-Berkvens, and G.J. Van Esch|Maleic Hydrazide, Carcinogenicity Study in Rats|Toxicology19(2): 139-150|1981|10.1016/0300-483X(81)90095-0
108896|T||Klein,M., N. Aharonson, and L. Muszkat|Foliar Residues and Toxicity to Green Leafhoppers of the Systemic Insecticides Aldicarb and Its Isomer Butocarboxim in Young Peach and Plum Groves|Pestic. Sci.15(5): 520-525|1984|10.1002/ps.2780150514
108897|T||Shono,T., S. Suita, H. Kai, and Y. Yamaguchi|Short-Time Exposure to Vinclozolin In Utero Induces Testicular Maldescent Associated with a Spinal Nucleus Alteration of the Genitofemoral Nerve in Rats|J. Pediatr. Surg.39(2): 217-219|2004|10.1016/j.jpedsurg.2003.10.014
108898|T||El-Sewedy,S.M., M.H. Mostafa, E.A. El-Bassiouni, A. Abdel-Rafee, and A.H. El-Sebae|Effect of Fenvalerate on Kynurenine Metabolizing Enzymes and Acid Ribonuclease of Mouse Liver|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes17(5): 571-579|1982|
108899|A||Singh,A., and R.A. Agarwal|Toxic Effect of the Synthetic Pyrethroid, Fenvalerate, on Enzymes of the Target Snail, Lymnaea (Radix) acuminata, and the Non-Target Fish, Channa striatus|J. Med. Appl. Malacol.5:87-91|1993|
108900|A||Datta,M., and A. Kaviraj|Dietary Ascorbic Acid Supplementation to Ameliorate Chronic Toxicity of Fenvalerate to Clarias gariepinus|Australas. J. Ecotoxicol.12(3): 129-134|2006|
108901|T||Tarhoni,M.H., T. Lister, D.E. Ray, and W.G. Carter|Albumin Binding as a Potential Biomarker of Exposure to Moderately Low Levels of Organophosphorus Pesticides|Biomarkers (Lond.)13(4): 343-363|2008|10.1080/13547500801973563
108902|T||Meggs,W.J., and K.L. Brewer|Weight Gain Associated with Chronic Exposure to Chlorpyrifos in Rats|J. Med. Toxicol.3(3): 89-93|2007|10.1007/BF03160916
108903|T||Kulmi,G.S.|Associated Weed Flora and Their Susceptibility to Herbicides in Transplanted Rice|Indian J. Agron.36(1): 113-116|1991|
108904|T||Brar,L.S., and J.S. Kolar|Chemical Control of Caesulia axillaris in Transplanted Rice (Oryza sativa)|Indian J. Agron.42(1): 82-85|1997|
108905|T||Balasubramanian,R., and V. Veerabadran|Herbicidal Weed Management in Lowland Rice (Oryza sativa) Nursery|Indian J. Agron.43(3): 437-440|1998|
108906|A||Zargar,S., and T. Ghosh|Thermal and Biocidal (Chlorine) Effects on Select Freshwater Plankton|Arch. Environ. Contam. Toxicol.53(2): 191-197|2007|10.1007/s00244-006-0108-1
108907|A||Tsai,J.W., and C.M. Liao|Mode of Action and Growth Toxicity of Arsenic to Tilapia Oreochromis mossambicus can be Determined Bioenergetically|Arch. Environ. Contam. Toxicol.50(1): 144-152|2006|10.1007/s00244-005-1054-z
108908|T||Elangovan,N., T.J. Chiou, W.F. Tzeng, and S.T. Chu|Cyclophosphamide Treatment Causes Impairment of Sperm and Its Fertilizing Ability in Mice|Toxicology222(1-2): 60-70|2006|10.1016/j.tox.2006.01.027
108909|A||Nichols,J.W., A.D. Hoffman, P.N. Fitzsimmons, and G.J. Lien|Quantification of Phenol, Phenyl Glucuronide, and Phenyl Sulfate in Blood of Unanesthetized Rainbow Trout by Online Microdialysis Sampling|Toxicol. Mech. Methods18:405-412|2008|10.1080/15376510701511935
108910|A||Nichols,J.W., A.D. Hoffman, P.N. Fitzsimmons, G.J. Lien, and C.T. Jenson|Use of Online Microdialysis Sampling to Determine the In Vivo Rate of Phenol Glucuronidation in Rainbow Trout|Drug Metab. Dispos.36(7): 1406-1413|2008|10.1124/dmd.107.020123
108912|T||Ahuja,M., M. Bishnoi, and K. Chopra|Protective Effect of Minocycline, a Semi-Synthetic Second-Generation Tetracycline Against 3-Nitropropionic Acid (3-NP)-Induced Neurotoxicity|Toxicology244(2/3): 111-122|2008|10.1016/j.tox.2007.11.003
108914|T||Casalino,E., G. Calzaretti, M. Landriscina, C. Sblano, A. Fabiano, and C. Landriscina|The Nrf2 Transcription Factor Contributes to the Induction of alpha-Class GST Isoenzymes in Liver of Acute Cadmium or Manganese Intoxicated Rats:  Comparison with the Toxic Effect on NAD(P)H:  Quinone Reductase|Toxicology237(1-3): 24-34|2007|10.1016/j.tox.2007.04.020
108915|T||Chan,M.H., Y.C. Tang, T.H. Chien, and H.H. Chen|Toluene Exposure During the Brain Growth Spurt Reduced Behavioral Responses to Nicotine in Young Adult Rats:  A Potential Role for Nicotinic Acetylcholine Receptors in Fetal Solvent Syndrome|Toxicol. Sci.101(2): 286-293|2008|10.1093/toxsci/kfm264
108917|T||Dhote,F., A. Peinnequin, P. Carpentier, V. Baille, C. Delacour, A. Foquin, G. Lallement, and F. Dorandeu|Prolonged Inflammatory Gene Response Following Soman-Induced Seizures in Mice|Toxicology238(2-3): 166-176|2007|10.1016/j.tox.2007.05.032
108919|T||Barton,T.S., B. Robaire, and B.F. Hales|DNA Damage Recognition in the Rat Zygote Following Chronic Paternal Cyclophosphamide Exposure|Toxicol. Sci.100(2): 495-503|2007|10.1093/toxsci/kfm242
108920|T||Gagnaire,F., B. Marignac, V. Blachere, S. Grossmann, and C. Langlais|The Role of Toxicokinetics in Xylene-Induced Ototoxicity in the Rat and Guinea Pig|Toxicology231(2-3): 147-158|2007|10.1016/j.tox.2006.11.075
108922|A||Spehar,R.L.|Cadmium and Zinc Toxicity to Jordanella floridae (Goode and Bean):  Effects on Growth, Reproduction, Survival, and Behavior|M.S.Thesis, University of Minnesota, MN:67 p.|1974|
108923|T||Bardai,G., G.I. Sunahara, P.A. Spear, M. Martel, P. Gong, and J. Hawari|Effects of Dietary Administration of CL-20 on Japanese Quail Coturnix coturnix japonica|Arch. Environ. Contam. Toxicol.49(2): 215-222|2005|10.1007/s00244-004-0231-9
108924|A||Bechard,K.M., P.L. Gillis, and C.M. Wood|Acute Toxicity of Waterborne Cd, Cu, Pb, Ni, and Zn to First-Instar Chironomus riparius Larvae|Arch. Environ. Contam. Toxicol.54(3): 454-459|2008|10.1007/s00244-007-9048-7
108925|A||Benaduce,A.P.S., D. Kochhann, E.M.M. Flores, V.L. Dressler, and B. Baldisserotto|Toxicity of Cadmium for Silver Catfish Rhamdia quelen (Heptapteridae) Embryos and Larvae at Different Alkalinities|Arch. Environ. Contam. Toxicol.54(2): 274-282|2008|10.1007/s00244-007-9024-2
108926|A||Cebrian,E., and M.J. Uriz|Contrasting Effects of Heavy Metals on Sponge Cell Behavior|Arch. Environ. Contam. Toxicol.53(4): 552-558|2007|10.1007/s00244-006-0257-2
108927|A||Christianson-Heiska,I.L., T. Haavisto, J. Paranko, E. Bergelin, and B. Isomaa|Effects of the Wood Extractives Dehydroabietic Acid and Betulinol on Reproductive Physiology of Zebrafish (Danio rerio) - a Two-Generation Study|Aquat. Toxicol.86(3): 388-396|2008|10.1016/j.aquatox.2007.12.001
108928|T||Liu,X., S. Zhang, X. Shan, and Y.G. Zhu|Toxicity of Arsenate and Arsenite on Germination, Seedling Growth and Amylolytic Activity of Wheat|Chemosphere61(2): 293-301|2005|10.1016/j.chemosphere.2005.01.088
108929|T||Bachmann,K., and J. Tarloff|Influence of 3,4-Benzo(a)pyrene on Warfarin Hypoprothrombinemia and Disposition in the Rat|Toxicol. Appl. Pharmacol.42(1): 157-165|1977|10.1016/0041-008X(77)90206-X
108930|A||Grosell,M., R.M. Gerdes, and K.V. Brix|Chronic Toxicity of Lead to Three Freshwater Invertebrates - Brachionus calyciflorus, Chironomus tentans, and Lymnaea stagnalis|Environ. Toxicol. Chem.25(1): 97-104|2006|10.1897/04-654R.1
108931|T||Shukla,A., S. Dupont, and M.D. Devine|Resistance to ACCase-Inhibitor Herbicides in Wild Oat: Evidence for Target Site-Based Resistance in Two Biotypes from Canada|Pestic. Biochem. Physiol.57(2): 147-155|1997|10.1006/pest.1997.2267
108932|A||Katagiri,K.J.|The Effects of Cadmium on Anacystis nidulans|M.S.Thesis, University of Vermont, VT:75 p.|1975|
108933|A||Alvarez-Legorreta,T., D. Mendoza-Cozatl, R. Moreno-Sanchez, and G. Gold-Bouchot|Thiol Peptides Induction in the Seagrass Thalassia testudinum (Banks ex Konig) in Response to Cadmium Exposure|Aquat. Toxicol.86(1): 12-19|2008|10.1016/j.aquatox.2007.09.001
108934|T||Chaiarch,P., and G.J. Leitch|Spinal Shock and Strychnine Convulsions in Intact and Spinal Amphibians and Reptiles|Comp. Biochem. Physiol. A Comp. Physiol.38(1): 175-181|1971|10.1016/0300-9629(71)90107-1
108935|T||Rouchaud,J., C. Moons, and J.A. Meyer|Distribution of the Radioactivity in Sugar Beet Plants Treated with (14C)Aldicarb|Pestic. Sci.11(1): 83-89|1980|10.1002/ps.2780110113
108936|T||Itokawa,Y., T. Abe, and S. Tanaka|Bone Changes in Experimental Chronic Cadmium Poisoning:  Radiological and Biological Approaches|Arch. Environ. Health26:241-244|1973|10.1080/00039896.1973.10666266
108937|A||Lawrence,J.R., M.R. Chenier, R. Roy, D. Beaumier, N. Fortin, G.D.W. Swerhone, T.R. Neu, and C.W. Greer|Microscale and Molecular Assessment of Impacts of Nickel, Nutrients, and Oxygen Level on Structure and Function of River Biofilm Communities|Appl. Environ. Microbiol.70(7): 4326-4339|2004|10.1128/AEM.70.7.4326-4339.2004
108938|A||Murphy,C.A., K.A. Rose, Alvarez M.D.C., and L.A. Fuiman|Modeling Larval Fish Behavior:  Scaling the Sublethal Effects of Methylmercury to Population-Relevant Endpoints|Aquat. Toxicol.86(4): 470-484|2008|10.1016/j.aquatox.2007.12.009
108939|A||Lushchak,O.V., O.I. Kubrak, M.Z. Nykorak, K.B. Storey, and V.I. Lushchak|The Effect of Potassium Dichromate on Free Radical Processes in Goldfish:  Possible Protective Role of Glutathione|Aquat. Toxicol.87(2): 108-114|2008|10.1016/j.aquatox.2008.01.007
108940|A||Karadjova,I.B., V.I. Slaveykova, and D.L. Tsalev|The Biouptake and Toxicity of Arsenic Species on the Green Microalga Chlorella salina in Seawater|Aquat. Toxicol.87(4): 264-271|2008|10.1016/j.aquatox.2008.02.006
108941|A||Alves,L.C., U. Borgmann, and D.G. Dixon|Water-Sediment Interactions for Hyalella azteca Exposed to Uranium-Spiked Sediment|Aquat. Toxicol.87(3): 187-199|2008|10.1016/j.aquatox.2008.01.016
108942|A||Torelli,A., M. Marieschi, B. Castagnoli, C. Zanni, G. Gorbi, and M.G. Corradi|Identification of S2-T A63:  A cDNA Fragment Corresponding to a Gene Differentially Expressed in a Cr-Tolerant Strain of the Unicellular Green Alga Scenedesmus acutus|Aquat. Toxicol.86(4): 495-507|2008|10.1016/j.aquatox.2007.12.010
108943|A||Ng,T.Y.T., and C.M. Wood|Trophic Transfer and Dietary Toxicity of Cd from the Oligochaete to the Rainbow Trout|Aquat. Toxicol.87(1): 47-59|2008|10.1016/j.aquatox.2008.01.003
108944|A||Wang,C., S.H. Zhang, P.F. Wang, J. Hou, W. Li, and W.J. Zhang|Metabolic Adaptations to Ammonia-Induced Oxidative Stress in Leaves of the Submerged Macrophyte Vallisneria natans (Lour.) Hara|Aquat. Toxicol.87(2): 88-98|2008|10.1016/j.aquatox.2008.01.009
108945|A||Ivanina,A.V., and I.M. Sokolova|Effects of Cadmium Exposure on Expression and Activity of P-Glycoprotein in Eastern Oysters, Crassostrea virginica Gmelin|Aquat. Toxicol.88(1): 19-28|2008|10.1016/j.aquatox.2008.02.014
108946|T||Hamilton,J.W., M.S. Denison, and S.E. Bloom|Development of Basal and Induced Aaryl Hydrocarbon (Benzo(a)pyrene) Hydroxylase Activity in the Chicken Embryo In Ovo|Proc. Natl. Acad. Sci. U.S.A.80(11): 3372-3376|1983|10.1073/pnas.80.11.3372
108947|T||Iavicoli,I., G. Carelli, E.J. Stanek III, N. Castellino, and E.J. Calabrese|Effects of Low Doses of Dietary Lead on Puberty Onset in Female Mice|Reprod. Toxicol.19(1): 35-41|2004|10.1016/j.reprotox.2004.06.013
108948|A||Karimi,R., C.Y. Chen, P.C. Pickhardt, N.S. Fisher, and C.L. Folt|Stoichiometric Controls of Mercury Dilution by Growth|Proc. Natl. Acad. Sci. U.S.A.104(18): 7477-7482|2007|10.1073/pnas.0611261104
108949|T||Lyche,J.L., I.C. Oskam, J.U. Skaare, O. Reksen, T. Sweeney, E. Dahl, W. Farstad, and E. Ropstad|Effects of Gestational and Lactational Exposure to Low Doses of PCBs 126 and 153 on Anterior Pituitary and Gonadal Hormones and on Puberty in Female Goats|Reprod. Toxicol.19(1): 87-95|2004|10.1016/j.reprotox.2004.05.005
108950|T||Levin,W., A.W. Wood, H. Yagi, D.M. Jerina, and A.H. Conney|(+/-)-Trans-7,8-Dihydroxy-7,8-Dihydrobenzo(a)pyrene:  A Potent Skin Carcinogen when Applied Topically to Mice|Proc. Natl. Acad. Sci. U.S.A.73(11): 3867-3871|1976|10.1073/pnas.73.11.3867
108951|T||Lee,S., and S.S. Korban|Transcriptional Regulation of Arabidopsis thaliana Phytochelatin Synthase (AtPCS1) by Cadmium During Early Stages of Plant Development|Planta (Multiple Languages)215(4): 689-693|2002|10.1007/s00425-002-0793-6
108952|T||Putyatin,Y.V., T.M. Seraya, O.M. Petrykevich, and B.J. Howard|Comparison of the Accumulation of 137Cs and 90Sr by Six Spring Wheat Varieties|Radiat. Environ. Biophys.44(4): 289-298|2006|10.1007/s00411-006-0026-7
108953|T||Stoltenberg,M., G. Danscher, R. Pamphlett, M.M. Christensen, and J. Rungby|Histochemical Tracing of Bismuth in Testis from Rats Exposed Intraperitoneally to Bismuth Subnitrate|Reprod. Toxicol.14(1): 65-71|2000|10.1016/S0890-6238(99)00060-X
108954|T||Thakur,S.C., S.S. Thakur, S.K. Chaube, and S.P. Singh|Subchronic Supplementation of Lithium Carbonate Induces Reproductive System Toxicity in Male Rat|Reprod. Toxicol.17(6): 683-690|2003|10.1016/S0890-6238(03)00107-2
108955|T||Van Huysen,T., S. Abdel-Ghany, K.L. Hale, D. LeDuc, N. Terry, and E.A.H. Pilon-Smits|Overexpression of Cystathionine-gamma-Synthase Enhances Selenium Volatilization in Brassica juncea|Planta (Multiple Languages)218(1): 71-78|2003|10.1007/s00425-003-1070-z
108956|A||Wang,S.B., F. Chen, M. Sommerfeld, and Q. Hu|Proteomic Analysis of Molecular Response to Oxidative Stress by the Green Alga Haematococcus pluvialis (Chlorophyceae)|Planta (Multiple Languages)220(1): 17-29|2004|10.1007/s00425-004-1323-5
108958|T||Xu,Y., Y. Li, Y. Tang, J. Wang, X. Shen, Z. Long, and X. Zheng|The Maternal Combined Supplementation of Folic Acid and Vitamin B12 Suppresses Ethanol-Induced Developmental Toxicity in Mouse Fetuses|Reprod. Toxicol.22(1): 56-61|2006|10.1016/j.reprotox.2005.12.004
108959|T||Zhang,Z., Q. Zhang, C. Huang, H. Jin, Z. Wang, and A. Wang|The Pre- and Post-Natal Toxicity of Penequine Hydrochloride in Mice|Reprod. Toxicol.22(4): 710-717|2006|10.1016/j.reprotox.2006.04.004
108960|T||Yang,X.F., J. Xu, X.H. Hou, H.L. Guo, L.P. Hao, P. Yao, L.G. Liu, and X.F. Sun|Developmental Toxic Effects of Chronic Exposure to High Doses of Iodine in the Mouse|Reprod. Toxicol.22(4): 725-730|2006|10.1016/j.reprotox.2006.05.010
108961|T||Kim,B.S., S.S. Moon, and B.K. Hwang|Isolation, Antifungal Activity, and Structure Elucidation of the Glutarimide Antibiotic, Streptimidone, Produced by Micromonospora coerulea|J. Agric. Food Chem.47(8): 3372-3380|1999|10.1021/jf981259s
108962|T||Cowin,P.A., P. Foster, J. Pedersen, S. Hedwards, S.J. McPherson, and G.P. Risbridger|Early-Onset Endocrine Disruptor-Induced Prostatitis in the Rat|Environ. Health Perspect.116(7): 923-929|2008|10.1289/ehp.11239
108963|A||Bayley,M., P.F. Larsen, H. Baekgaard, and E. Baatrup|The Effects of Vinclozolin, an Anti-Androgenic Fungicide, on Male Guppy Secondary Sex Characters and Reproductive Success|Biol. Reprod.69(6): 1951-1956|2003|10.1095/biolreprod.103.017780
108964|T||Bisenius,E.S., D.N. Rao Veeramachaneni, G.E. Sammonds, and S. Tobet|Sex Differences and the Development of the Rabbit Brain:  Effects of Vinclozolin|Biol. Reprod.75(3): 469-476|2006|10.1095/biolreprod.106.052795
108965|A||Tripathi,A.M., and R.A. Agarwal|Synergism in Tertiary Mixtures of Pesticides|Chemosphere35(10): 2365-2374|1997|10.1016/S0045-6535(97)00221-X
108966|T||Summerlin,B., R. Gold, H. Howell, and J. Cook|Rate of Knockdown for Deltamethrin (DTM) S and Deltamethrin (DTM) Aerosol Against Pest Ants, 1997|Arthropod Manag. Tests24:388-389|1999|
108967|A||Koprucu,K., and R. Aydin|The Toxic Effects of Pyrethroid Deltamethrin on the Common Carp (Cyprinus carpio L.) Embryos and Larvae|Pestic. Biochem. Physiol.80(1): 47-53|2004|10.1016/j.pestbp.2004.05.004
108968|A||Gayathri,V., T. Jeyalakshmi, R. Shanmugasundaram, and P.B. Murthy|Rotational Application of Bioinsecticide with Deltamethrin-an Antilarval Measure for the Control of Filarial Vector, Culex quinquefasciatus (Culicidae:  Diptera)|J. Environ. Biol.25(4): 419-421|2004|
108969|T||Cardet,C., T. Kandji, A. Delobel, and P. Danthu|Efficiency of Neem and Groundnut Oils in Protecting Leguminous Tree Seeds Against Seed Beetles in the Sahel|Agrofor. Syst.40(1): 29-40|1998|10.1023/A:1006092531845
108970|A||Bernhardt,J.L.|Control of Rice Water Weevil with Decis, 1998|Arthropod Manag. Tests24:272-|1999|
108971|A||Balint,T., J. Ferenczy, F. Katai, I. Kiss, L. Kraczer, O. Kufcsak, G. Lang, C. Polyhos, I. Szabo, T. Szegletes, and J. |Similarities and Differences Between the Massive Eel (Anguilla anguilla L.) Devastations that Occurred in Lake Balaton in 1991 and 1995|Ecotoxicol. Environ. Saf.37(1): 17-23|1997|10.1006/eesa.1996.1509
108972|T||Lambert,M.R.K.|Ground-Spray Treatment with Deltamethrin Against Tsetse Flies in NW Zimbabwe has Little Short Term Effect on Lizards|Bull. Environ. Contam. Toxicol.53(4): 555-561|1994|10.1007/BF00199026
108974|T||Smilowitz,Z., D.L. Cox, P. Rebarchak, and J. Yocum|Control of Colorado Potato Beetle on Potato, 1987|Insectic. Acaric. Tests16:100-101|1991|10.1093/iat/16.1.100
108976|T||Tuzmen,N., N. Candan, E. Kaya, and N. Demiryas|Biochemical Effects of Chlorpyrifos and Deltamethrin on Altered Antioxidative Defense Mechanisms and Lipid Peroxidation in Rat Liver|Cell Biochem. Funct.26(1): 119-124|2008|10.1002/cbf.1411
108977|T||Rankin,G.O., V.J. Teets, D.W. Nicoll, and P.I. Brown|Comparative Acute Renal Effects of Three N-(3,5-Dichlorophenyl)Carboximide Fungicides:  N-(3,5-Dichlorophenyl)Succinimide, Vinclozolin and Iprodione|Toxicology56(3): 263-272|1989|10.1016/0300-483X(89)90090-5
108978|T||Svechnikov,K., E.M. Ritzen, and M. Holst|Androgen and Estrogen Stimulation of Ornithine Decarboxylase Activity in Mouse Kidney|J. Steroid Biochem. Mol. Biol.75(4/5): 329-333|2000|10.1016/S0960-0760(00)00184-9
108979|T||Goudegnon,A.E., A.A. Kirk, B. Schiffers, and D. Bordat|Comparative Effects of Deltamethrin and Neem Kernel Solution Treatments on Diamondback Moth and Cotesia plutellae (Hym.,Braconidae) Parasitoid Populations in the Cotonou Peri-Urban Area in Benin|J. Appl. Entomol.124(3/4): 141-144|2000|10.1046/j.1439-0418.2000.00461.x
108981|T||Ciba-Geigy Corp.|Initial Submission:  B-1216:  13-Week Toxicity Study in Oral Administration with Cover Letter Dated 073192|EPA/OTS Doc.#88-920007184:254 p.|1992|
108982|T||Eli Lilly|Initial Submission:  A Two-Year Chronic Dietary Toxicity Study with 1-Methyl-3-Phenyl-5-(3-(Trifluoromethyl)Phenyl)- 4(1H)-Pyridinone with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006516:977 p.|1992|
108983|T||Bennett,R.S.,Jr.|Effects of Fenvalerate, a Synthetic Pyrethroid Insecticide, on Nontarget Organisms in an Old-Field Ecosystem|Ph.D.Thesis, Iowa State University, Ames, IA:139 p.|1983|
108984|T||Cheng,H.M., and D.F. Hwang|Characterization of 14C Terminal Residues in Rice Plants Treated with 14C Ring-Labeled Benthiocarb|J. Food Drug Anal.2(2): 103-112|1994|
108985|A||Singh,S.P., R. Chaudhary, and K.K. Gaur|A Study of Toxicity and Behaviour of Freshwater Fish, Channa punctatus (Bloch) After Intoxication of Carbamate and Synthetic Pyrethroid Fenvalerate|J. Ecophysiol. Occup. Health7(1-2): 39-43|2007|
108986|T||Eli Lilly|Initial Submission:  A One-Year Chronic Dietary Toxicity Study with 1-Methyl-3-Phenyl-5-(3-(Trifluoromethyl)Phenyl)-4(1H)- Pyridinone in Mice with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006536:254 p.|1992|
108987|T||Alexander,G.J., D. Horne, and S.A. Hanrahan|An Evaluation of the Effects of Deltamethrin on Two Non-Target Lizard Species in the Karoo, South Africa|J. Arid Environ.50(1): 121-133|2002|10.1006/jare.2001.0848
108988|A||Choi,J.S., and D.M. Soderlund|Cyclosporin A and Deltamethrin Block the Downregulation of Nav1.8 Sodium Channels Expressed in Xenopus Oocytes|Neurosci. Lett.367(3): 389-393|2004|10.1016/j.neulet.2004.06.040
108989|T||El Bouhssini,M., K. Mardini, R.S. Malhotra, A. Joubi, and N. Kagka|Effects of Planting Date, Varieties and Insecticides on Chickpea Leaf Miner (Liriomyza cicerina R.) Infestation and the Parasitoid Opius monilicornis F.|Crop Prot.27(6): 915-919|2008|10.1016/j.cropro.2007.11.006
108990|T||Klotz,J.H., and B.L. Reid|Contact Activity of Residual Insecticides, 1991|Arthropod Manag. Tests19:356-|1994|10.1093/amt/19.1.356
108991|T||Longley,M., and P. Jepson|Effects of Life Stage, Substrate, and Crop Position on the Exposure and Susceptibility of Aphidius rhopalosiphi Destefani-Perez (Hymenoptera:  Braconidae) to Deltamethrin|Environ. Toxicol. Chem.16(5): 1034-1041|1997|
108992|T||Ruano,F., M. Campos, J. Sanchez-Raya, and A. Pena|Deltamethrin Application on Colonized Olive Logs:  Effect on the Emergence of the Olive Bark Beetle Phloeotribus scarabaeoides Bernard 1788 (Coleoptera:  Scolytidae) and Its Associated Parasitoids|Crop Prot.27(3-5): 614-621|2008|10.1016/j.cropro.2007.09.003
108993|T||Smitley,D.R., T.W. Davis, and M.M. Williams|Ant Control Around Housing Structures, 1998|Arthropod Manag. Tests24:387-388|1999|
108994|T||Smitley,D.R., T.W. Davis, and M.M. Williams|Ant Efficacy on a Golf Course Fairway, 1998|Arthropod Manag. Tests24:337-|1999|
108995|A||Thomas,C.R., G.C. Hose, M.St Warne, and R.P. Lim|Effects of River Water and Salinity on the Toxicity of Deltamethrin to Freshwater Shrimp, Cladoceran, and Fish|Arch. Environ. Contam. Toxicol.55(4): 610-618|2008|10.1007/s00244-008-9147-0
108996|A||Scheil,V., R. Triebskorn, and H.R. Kohler|Cellular and Stress Protein Responses to the UV Filter 3-Benzylidene Camphor in the Amphipod Crustacean Gammarus fossarum (Koch 1835)|Arch. Environ. Contam. Toxicol.54(4): 684-689|2008|10.1007/s00244-007-9072-7
108997|T||Damgaard,C., and B.J. Nielsen|The Effect of Fungal Density on Fungicide Dose-Response Curves in Barley Powdery Mildew (Erysiphe graminis f.sp. hordei)|Plant Pathol.48(3): 402-407|1999|10.1046/j.1365-3059.1999.00347.x
108998|A||Gerofke,A., P. Komp, and M.S. McLachlan|Stir Bar Contamination:  A Method to Establish and Maintain Constant Water Concentrations of Poorly Water-Soluble Chemicals in Bioconcentration Experiments|Water Res.38(14-15): 3411-3415|2004|10.1016/j.watres.2004.04.016
109000|T||Uotila,P., M.G. Parkki, and A. Aitio|Quantitative and Qualitative Changes in the Metabolism of Benzo(a)pyrene in Rat Tissues After Intragastric Administration of TCDD|Toxicol. Appl. Pharmacol.46(3): 671-683|1978|10.1016/0041-008X(78)90312-5
109001|T||White,K.L.,Jr., H.H. Lysy, J.A. McCay, and A.C. Anderson|Modulation of Serum Complement Levels Following Exposure to Polychlorinated Dibenzo-p-Dioxins|Toxicol. Appl. Pharmacol.84:209-219|1986|10.1016/0041-008X(86)90128-6
109002|T||Seefeld,M.D., and R.E. Peterson|Digestible Energy and Efficiency of Feed Utilization in Rats Treated with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Appl. Pharmacol.74:214-222|1984|10.1016/0041-008X(84)90145-5
109003|T||Lavoie,E.T., F. Wiley, K.A. Grasman, D.E. Tillitt, J.G. Sikarskie, and W.W. Bowerman|Effect of In Ovo Exposure to an Organochlorine Mixture Extracted from Double Crested Cormorant Eggs (Phalacrocorax auritus) and PCB 126 on Immune Function of Juvenile Chickens|Arch. Environ. Contam. Toxicol.53(4): 655-661|2007|10.1007/s00244-006-0150-z
109005|A||Lynn,S.G., D.J. Price, W.J. Birge, and S.S. Kilham|Effect of Nutrient Availability on the Uptake of PCB Congener 2,2',6,6'-Tetrachlorobiphenyl by a Diatom (Stephanodiscus minutulus) and Transfer to a Zooplankton (Daphnia pulicaria)|Aquat. Toxicol.83(1): 24-32|2007|10.1016/j.aquatox.2007.03.007
109006|T||Manis,J., and G. Kim|Polybrominated Biphenyl:  Acute and Chronic Effect on Iron Absorption and Benzo(a)pyrene Hydroxylase|Toxicol. Appl. Pharmacol.54(1): 41-47|1980|10.1016/0041-008X(80)90006-X
109009|T||Pereira,C., and C.V. Rao|Toxicity Study of Maternal Transfer of Polychlorinated Biphenyls and Diethyl Phthalate to 21-Day-Old Male and Female Weanling Pups of Wistar Rats|Ecotoxicol. Environ. Saf.68(1): 118-125|2007|10.1016/j.ecoenv.2006.04.007
109010|T||Saghir,S.A., G.D. Koritz, and L.G. Hansen|Toxicokinetics of 2,2',4,4'- and 3,3',4,4'-Tetrachlorobiphenyl in House Flies Following Topical Administration|Pestic. Biochem. Physiol.49:94-113|1994|10.1006/pest.1994.1037
109011|A||Landrum,P.F., M. Leppanen, S.D. Robinson, D.C. Gossiaux, G.A. Burton, M. Greenberg, J.V.K. Kukkonen, B.J. Eadie, and M.|Comparing Behavioral and Chronic Endpoints to Evaluate the Response of Lumbriculus variegatus to 3,4,3',4'-Tetrachlorobiphenyl Sediment Exposures|Environ. Toxicol. Chem.23(1): 187-194|2004|10.1897/03-105
109013|T||Lundberg,R., J.L. Lyche, E. Ropstad, M. Aleksandersen, M. Ronn, J.U. Skaare, S. Larsson, J. Orberg, and P.M. Lind|Perinatal Exposure to PCB 153, but not PCB 126, Alters Bone Tissue Composition in Female Goat Offspring|Toxicology228(1): 33-40|2006|10.1016/j.tox.2006.08.016
109014|T||Anderson,L.M., S.D. Fox, D. Dixon, L.E. Beebe, and H.J. Issaq|Long-Term Persistence of Polychlorinated Biphenyl Congeners in Blood and Liver and Elevation of Liver Aminopyrine Demethylase Activity After a Single High Dose of Aroclor 1254 to Mice|Environ. Toxicol. Chem.10:681-690|1991|
109016|T||Beckett,K.J., B. Yamini, and S.J. Bursian|The Effects of 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) on Mink (Mustela vison) Reproduction and Kit Survivability and Growth|Arch. Environ. Contam. Toxicol.54(1): 123-129|2008|10.1007/s00244-007-9002-8
109017|T||Warren,T.K., K.A. Mitchell, and B.P. Lawrence|Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Suppresses the Humoral and Cell-Mediated Immune Responses to Influenza A Virus Without Affecting Cytolytic Activity in the Lung|Toxicol. Sci.56:114-123|2000|10.1093/toxsci/56.1.114
109018|T||Nishijo,M., J.I. Kuriwaki, E. Hori, K. Tawara, H. Nakagawa, and H. Nishijo|Effects of Maternal Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Fetal Brain Growth and Motor and Behavioral Development in Offspring Rats|Toxicol. Lett.173(1): 41-47|2007|10.1016/j.toxlet.2007.06.007
109019|T||Tasei,J.N., H. Sabik, L. Pirastru, E. Langiu, J.M. Blanche, J. Fournier, and J.P. Taglioni|Effects of Sublethal Doses of Deltamethrin (Decis Ce) on Bombus terrestris|J. Apic. Res.33(3): 129-135|1994|10.1080/00218839.1994.11100860
109020|T||Nomura,D.K., K. Fujioka, R.S. Issa, A.M. Ward, B.F. Cravatt, and J.E. Casida|Dual Roles of Brain Serine Hydrolase KIAA1363 in Ether Lipid Metabolism and Organophosphate Detoxification|Toxicol. Appl. Pharmacol.228(1): 42-48|2008|10.1016/j.taap.2007.11.021
109021|T||Gadeva,P., and B. Dimitrov|Genotoxic Effects of the Pesticides Rubigan, Omite and Rovral in Root-Meristem Cells of Crepis capillaris L.|Mutat. Res.652(2): 191-197|2008|10.1016/j.mrgentox.2008.02.007
109022|T||Huntzinger,C.I., R.R. James, J. Bosch, and W.P. Kemp|Fungicide Tests on Adult Alfalfa Leafcutting Bees (Hymenoptera:  Megachilidae)|J. Econ. Entomol.101(4): 1088-1094|2008|10.1093/jee/101.4.1088
109023|T||Huntzinger,C.I., R.R. James, J. Bosch, and W.P. Kemp|Laboratory Bioassays to Evaluate Fungicides for Chalkbrood Control in Larvae of the Alfalfa Leafcutting Bee (Hymenoptera:  Megachilidae)|J. Econ. Entomol.101(3): 660-667|2008|10.1093/jee/101.3.660
109024|T||Ladurner,E., J. Bosch, W.P. Kemp, and S. Maini|Foraging and Nesting Behavior of Osmia lignaria (Hymenoptera:  Megachilidae) in the Presence of Fungicides:  Cage Studies|J. Econ. Entomol.101(3): 647-653|2008|10.1603/0022-0493(2008)101[647:FANBOO]2.0.CO;2
109026|T||Ahmad,M., M.I. Arif, and Z. Ahmad|Patterns of Resistance to Organophosphate Insecticides in Field Populations of Helicoverpa armigera in Pakistan|Pestic. Sci.55(6): 626-632|1999|10.1002/(SICI)1096-9063(199906)55:6<626::AID-PS988>3.0.CO;2-L
109027|A||Montagna,M.C., and P.A. Collins|Oxygen Consumption and Ammonia Excretion of the Freshwater Crab Trichodactylus borellianus Exposed to Chlorpyrifos and Endosulfan Insecticides|Pestic. Biochem. Physiol.92(3): 150-155|2008|10.1016/j.pestbp.2008.07.009
109028|T||Oliver,J.B., M.E. Reding, M.G. Klein, N.N. Youssef, C.M. Mannion, B. Bishop, S.S. James, and A.M. Callcott|Chlorpyrifos Immersion to Eliminate Third Instars of Japanese Beetle (Coleoptera:  Scarabaeidae) in Balled and Burlapped Trees and Subsequent Treatment Effects on Red Maple|J. Econ. Entomol.100(2): 307-314|2007|10.1093/jee/100.2.307
109029|T||Boulard,C., and J.L. Troccon|Effect of Dose and Route of Application on the Action of Decamethrin Against Cattle Grubs|Vet. Parasitol.14(1): 65-74|1984|10.1016/0304-4017(84)90134-1
109030|T||Pyfrom,H.T., D. Appleman, and W.G. Heim|Catalase and Chlorophyll Depression by 3-Amino-1,2,4-Triazole|Plant Physiol.32:674-676|1957|10.1104/pp.32.6.674
109031|T||Hide,G.A., and S.M. Hall|Development of Resistance to Thiabendazole in Helminthosporium solani (Silver Scurf) as a Result of Potato Seed Tuber Treatment|Plant Pathol.42(5): 707-714|1993|10.1111/j.1365-3059.1993.tb01556.x
109032|T||Biswas,D.K., D. Som, and T.M. Das|Effect of Herbicides on Soil Microflora in Multiple Cropping|Indian Biol.18(2): 16-21|1986|
109033|T||Rao,C.S., N.V. Rao, and S.A. Razvi|Chemical Control as Ecological Basis in Rice Pest Management|Pesticides 19(7): 20-23|1985|
109034|T||Curtis,D.R., A.W. Duggan, and G.A.R. Johnston|The Specificity of Strychnine as a Glycine Antagonist in the Mammalian Spinal Cord|Exp. Brain Res.12:547-565|1971|10.1007/BF00234248
109035|T||Powell,D.F.|Fumigation of Field Beans Against Ditylenchus dipsaci|Plant Pathol.23:110-113|1974|10.1111/j.1365-3059.1974.tb02918.x
109036|T||Hide,G.A., S.M. Hall, and K.J. Boorer|Resistance to Thiabendazole in Isolates of Helminthosporium solani, the Cause of Silver Scurf Disease of Potatoes|Plant Pathol.37(3): 377-380|1988|10.1111/j.1365-3059.1988.tb02088.x
109037|T||Eli Lilly|Initial Submission:  A One-Year Chronic Dietary Toxicity Study with Fluridone in Rats with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006704:138 p.|1992|
109038|T||Ciba-Geigy Corp.|Initial Submission:  B-1216:  Four-Week Toxicity Study in Dietary Administration to CD Rats (Final Report) with Cover Letter Dated 080792|EPA/OTS Doc.#88-920005361:168 p.|1992|
109039|T||Arjo,W.M., K.K. Wagner, D.L. Nolte, R.S. Stahl, and J.J. Johnston|Potential Non-Target Risks from Strychnine-Containing Rodent Carcasses|Crop Prot.25(2): 182-187|2006|10.1016/j.cropro.2005.03.018
109040|T||Kim,J.H., and C.A. Mullin|Antifeedant Effects of Proteinase Inhibitors on Feeding Behaviors of Adult Western Corn Rootworm (Diabrotica virgifera virgifera)|J. Chem. Ecol.29(4): 795-810|2003|10.1023/A:1022919413625
109041|T||Oliver,J.B., M.E. Reding, S.O. Dennis, J.J. Moyseenko, N.N. Youssef, M.G. Klein, A.M.A. Callcott, S.S. James, L.R. McAn|Drench Treatments for Management of Larval Japanese Beetle (Coleoptera:  Scarabaeidae) in Field-Grown Balled and Burlapped Nursery Plants|J. Econ. Entomol.101(4): 1158-1166|2008|10.1093/jee/101.4.1158
109042|T||Roh,J.Y., and J. Choi|Ecotoxicological Evaluation of Chlorpyrifos Exposure on the Nematode Caenorhabditis elegans|Ecotoxicol. Environ. Saf.71(2): 483-489|2008|10.1016/j.ecoenv.2007.11.007
109043|A||Widenfalk,A., A. Lundqvist, and W. Goedkoop|Sediment Microbes and Biofilms Increase the Bioavailability of Chlorpyrifos in Chironomus riparius (Chironomidae, Diptera)|Ecotoxicol. Environ. Saf.71(2): 490-497|2008|10.1016/j.ecoenv.2007.10.028
109045|A||Hirschberg,J., N. Ohad, I. Pecker, and A. Rahat|Isolation and Characterization of Herbicide Resistant Mutants in the Cyanobacterium Synechococcus R2|Z. Naturforsch. Sect. C J. Biosci.42(6): 758-761|1987|10.1515/znc-1987-0619
109046|T||Eli Lilly|Initial Submission:  A 3-Month Oral Toxicity Study with Fluridone in Mice with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006587:69 p.|1992|
109047|T||Eli Lilly|Initial Submission:  14-Day Acute Oral Toxicity Study with Flurprimidol in Bobwhite with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006566:42 p.|1992|
109048|T||Hough,A., and I.J. Thomason|Effects of Aldicarb on the Behavior of Heterodera schachtii and Meloidogyne javanica|J. Nematol.7:221-229|1975|
109049|T||Dorough,H.W., and G.W. Ivie|Temik-S35 Metabolism in a Lactating Cow|J. Agric. Food Chem.16(3): 460-464|1968|10.1021/jf60157a010
109050|T||Andrawes,N.R., H.W. Dorough, and D.A. Lindquist|Degradation and Elimination of Temik in Rats|J. Econ. Entomol.60(4): 979-987|1967|10.1093/jee/60.4.979
109051|A||Cengiz,E.I.|Gill and Kidney Histopathology in the Freshwater Fish Cyprinus carpio After Acute Exposure to Deltamethrin|Environ. Toxicol. Pharmacol.22(2): 200-204|2006|10.1016/j.etap.2006.03.006
109052|T||Sharma,A., M. Gupta, and A. Shanker|Fenvalerate Residue Level and Dissipation in Tea and in Its Infusion|Food Addit. Contam. Part A25(1): 97-104|2008|
109053|T||Cheng,H.M., and D.F. Hwang|Metabolism of 14C-Ring Labeled Benthiocarb in Mice and Rats|J. Chin. Biochem. Soc.22(1): 27-35|1993|
109054|T||Stavroulakis,G., K. Adediran, and C. Petrakis|Degradation of Procymidone and Vinclozolin Residues in Fresh Red Raspberries Cultivated Under Greenhouse|Adv. Hortic. Sci.14(2): 71-74|2000|
109055|T||Prakash,T.R., and P.M. Swamy|Influence of Benthiocarb on Synthetic Capabilities of Chloroplasts of Barnyard Grass|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.56(5/6): 491-495|1990|
109056|A||Moreira-Santos,M., A.L. Fonseca, S.M. Moreira, J. Rendon-von Osten, E.M. Da Silva, A.M.V.M. Soares, L. Guilhermino, and|Short-Term Sublethal (Sediment and Aquatic Roots of Floating Macrophytes) Assays with a Tropical Chironomid Based on Postexposure Feeding and Biomarkers|Environ. Toxicol. Chem.24(9): 2234-2242|2005|10.1897/04-207R.1
109057|T||Lindquist,R.K., H.R. Krueger, R.R. Spadafora, and J.F. Mason|Application of Aldicarb to Greenhouse Tomatoes:  Plant Growth, Fruit Yields, Greenhouse Whitefly Control, and Residues in Fruit|J. Econ. Entomol.65(3): 862-864|2007|10.1093/jee/65.3.862
109058|T||Kurian,T., and S.K. Saidapur|Effect of Thiourea on Human Chorionic Gonadotrophin (hCG) Induced Spermatogenesis in the Frog Rana tigerina During the Postbreeding Regression Phase|Curr. Sci. (Bangalore)54(23): 1251-1254|1985|
109059|T||Naveed,M., A. Salam, M.A. Saleem, and A.H. Sayyed|Effect of Foliar Applications of Some Insecticides on Bemisia tabaci, Predators and Parasitoids:  Implications in Its Management in Pakistan|Phytoparasitica36(4): 377-387|2008|10.1007/BF02980817
109060|A||Akerblom,N., C. Arbjork, M. Hedlund, and W. Goedkoop|Deltamethrin Toxicity to the Midge Chironomus riparius Meigen-Effects of Exposure Scenario and Sediment Quality|Ecotoxicol. Environ. Saf.70(1): 53-60|2008|10.1016/j.ecoenv.2007.09.001
109061|A||El-Sayed,Y.S., T.T. Saad, and S.M. El-Bahr|Acute Intoxication of Deltamethrin in Monosex Nile Tilapia, Oreochromis niloticus with Special Reference to the Clinical, Biochemical and Haematological Effects|Environ. Toxicol. Pharmacol.24(3): 212-217|2007|10.1016/j.etap.2007.05.006
109062|A||Premkumar,D.R.D., E.P. Jane, and S. Mathavan|Combined Effects of Temperature and Chemicals on Hatching Success, Incubation Period and Development Rate of the Eggs of the Aquatic Hemipteran Bug Laccotrephes griseus|Environ. Ecol.9(4): 881-886|1991|
109063|T||Badiou,A., M. Meled, and L.P. Belzunces|Honeybee Apis mellifera Acetylcholinesterase - a Biomarker to Detect Deltamethrin Exposure|Ecotoxicol. Environ. Saf.69(2): 246-253|2008|10.1016/j.ecoenv.2006.11.020
109064|T||Gibson,R.L., and J.G. Scott|Comparative Toxicity of Fourteen Insecticides to Two Species of Carpenter Ants (Hymenoptera: Formicidae)|J. Econ. Entomol.82(4): 1121-1124|1989|10.1093/jee/82.4.1121
109065|T||Badji,C.A., R.N.C. Guedes, A.A. Silva, and R.A. Araujo|Impact of Deltamethrin on Arthropods in Maize Under Conventional and No-Tillage Cultivation|Crop Prot.23(11): 1031-1039|2004|10.1016/j.cropro.2004.03.003
109066|A||Calta,M., and M.S. Ural|Acute Toxicity of the Synthetic Pyrethroid Deltamethrin to Young Mirror Carp, Cyprinus carpio|Fresenius Environ. Bull.13(11a): 1179-1183|2004|
109067|A||Koprucu,K., and E. Seker|Acute Toxicity of Deltamethrin for Freshwater Mussel, Unio elongatulus eucirrus Bourguignat|Bull. Environ. Contam. Toxicol.80(1): 1-4|2008|10.1007/s00128-007-9254-z
109068|A||Koprucu,S.S., E. Yonar, and E. Seker|Effects of Deltamethrin on Antioxidant Status and Oxidative Stress Biomarkers in Freshwater Mussel, Unio elongatulus eucirrus|Bull. Environ. Contam. Toxicol.81(3): 253-257|2008|10.1007/s00128-008-9474-x
109069|A||Velisek,J., J. Jurcikova, R. Dobsikova, Z. Svobodova, V. Piackova, J. Machova, and L. Novotny|Effects of Deltamethrin on Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Pharmacol.23(3): 297-301|2007|10.1016/j.etap.2006.11.006
109070|A||Watkins,J.A., C.A. Meacham, K.M. Crofton, and T.J. Shafer|Concentration-Dependent Accumulation of [3H]-Deltamethrin in Sodium Channel NaV1.2/ beta1 Expressing Xenopus laevis Oocytes|Toxicol. In Vitro21(8): 1672-1677|2007|10.1016/j.tiv.2007.05.002
109072|T||Dayal,M., D. Parmar, M. Ali, A. Dhawan, U.N. Dwivedi, and P.K. Seth|Induction of Rat Brain Cytochrome P450s (P450s) by Deltamethrin:  Regional Specificity and Correlation with Neurobehavioral Toxicity|Neurotox. Res.3(4): 351-357|2001|10.1007/BF03033196
109073|A||De Ondarza,J., S.B. Symington, J.L. Van Houten, and J.M. Clark|G-Protein Modulators Alter the Swimming Behavior and Calcium Influx of Paramecium tetraurelia|J. Eukaryot. Microbiol.50(5): 349-355|2003|10.1111/j.1550-7408.2003.tb00147.x
109074|T||Johri,A., S. Yadav, R.L. Singh, A. Dhawan, M. Ali, and D. Parmar|Long Lasting Effects of Prenatal Exposure to Deltamethrin on Cerebral and Hepatic Cytochrome P450s and Behavioral Activity in Rat Offspring|Eur. J. Pharmacol.544(1-3): 58-68|2006|10.1016/j.ejphar.2006.06.042
109075|T||Patro,N., S.K. Mishra, M. Chattopadhyay, and I.K. Patro|Neurotoxicological Effects of Deltamethrin on the Postnatal Development of Cerebellum of Rat|J. Biosci.22(2): 117-130|1997|10.1007/BF02704726
109076|T||Krespi,L., J.M. Rabasse, C.A. Dedryver, and J.P. Nenon|Effect of Three Insecticides on the Life Cycle of Aphidius uzbekistanicus Luz. (Hym., Aphidiidae)|J. Appl. Entomol.111(2): 113-119|1991|10.1111/j.1439-0418.1991.tb00302.x
109077|T||Sotherton,N.W.|The Effects of Six Insecticides Used in UK Cereal Fields on Sawfly Larvae (Hymenoptera: Tenthredinidae)|Br. Crop Prot. Conf. Pests Dis.1-3:999-1004|1990|
109078|T||Osorio,J.M., J.E. Adaskaveg, J.M. Ogawa, R.M. Bostock, and A.D. Jones|Systemic Activity and Fungitoxicity of Iprodione and E-0858 (N-[5-(2-Methoxypyridinyl)]-Cyclopropane-Carboxamide) in Almond Blossoms to Monilinia laxa|Phytopathology84(6): 656-660|1994|10.1094/Phyto-84-656
109079|T||Hsu,K., D. Wang, M.H. Li, C.H. Chiang, and C.Y. Shen|Dimethylthiourea Ameliorates Acute Lung Injury Induced by Phorbol Myristate Acetate in Dogs|Crit. Care Med.20(6): 823-830|1992|10.1097/00003246-199206000-00021
109080|T||Tasei,J.N.|The Effect of Deltamethrin on the Solitary Bee (Megachile rotundata) Demonstrated by a Field Test|Pestic. Sci.16(2): 207-209|1984|
109081|T||Colin,M.E., and L.P. Belzunces|Evidence of Synergy Between Prochloraz and Deltamethrin in Apis mellifera L.:  A Convenient Biological Approach|Pestic. Sci.36(2): 115-119|1992|10.1002/ps.2780360206
109082|A||Lovern,S.B., J.R. Strickler, and R. Klaper|Behavioral and Physiological Changes in Daphnia magna when Exposed to Nanoparticle Suspensions (Titanium Dioxide, Nano-C60, and C60HxC70Hx)|Environ. Sci. Technol.41(12): 4465-4470|2007|10.1021/es062146p
109083|T||Martinez-Larranaga,M.R., A. Anadon, M.A. Martinez, M. Martinez, V.J. Castellano, and M.J. Diaz|5-HT Loss in Rat Brain by Type II Pyrethroid Insecticides|Toxicol. Ind. Health19(7-10): 147-155|2003|10.1191/0748233703th184oa
109084|A||Hanson,M.L., D.W. Graham, E. Babin, D. Azam, M.A. Coutellec, C.W. Knapp, L. Lagadic, and T. Caquet|Influence of Isolation on the Recovery of Pond Mesocosms from the Application of an Insecticide.  I.  Study Design and Planktonic Community Responses|Environ. Toxicol. Chem.26(6): 1265-1279|2007|10.1897/06-248R.1
109085|T||Li,H., T. Feng, P. Liang, X. Shi, X. Gao, and H. Jiang|Effect of Temperature on Toxicity of Pyrethroids and Endosulfan, Activity of Mitochondrial Na+-K+-ATPase and Ca2+-Mg2+-ATPase in Chilo suppressalis (Walker) (Lepidoptera:  Pyralidae)|Pestic. Biochem. Physiol.86(3): 151-156|2006|10.1016/j.pestbp.2006.03.001
109086|T||Rousseaux,C.G., A.A. Olkowski, A. Chauvet, S.R. Gooneratne, and D.A. Christenson|Ovine Polioencephalomalacia Associated with Dietary Sulphur Intake|J. Vet. Med. Ser. A38(3): 229-239|1991|10.1111/j.1439-0442.1991.tb01006.x
109087|T||Onifade,A.A., and G.M. Babatunde|Comparative Response of Broiler Chicks to a High Fibre Diet Supplemented with Four Antibiotics|Anim. Feed Sci. Technol.64(2-4): 337-342|1997|10.1016/S0377-8401(96)01043-7
109088|A||Fafandel,M., N. Bihari, L. Peric, and A. Cenov|Effect of Marine Pollutants on the Acid DNase Activity in the Hemocytes and Digestive Gland of the Mussel Mytilus galloprovincialis|Aquat. Toxicol.86(4): 508-513|2008|10.1016/j.aquatox.2007.12.011
109089|A||Gardestrom,J., U. Dahl, O. Kotsalainen, A. Maxson, T. Elfwing, M. Grahn, B.E. Bengtsson, and M. Breitholtz|Evidence of Population Genetic Effects of Long-Term Exposure to Contaminated Sediments - A Multi-Endpoint Study with Copepods|Aquat. Toxicol.86(3): 426-436|2008|10.1016/j.aquatox.2007.12.003
109090|A||Li,N., Y. Zhao, and J. Yang|Effects of Water-Borne Copper on Digestive and Metabolic Enzymes of the Giant Freshwater Prawn Macrobrachium rosenbergii|Arch. Environ. Contam. Toxicol.55(1): 86-93|2008|10.1007/s00244-007-9099-9
109091|A||Rogevich,E.C., T.C. Hoang, and G.M. Rand|The Effects of Water Quality and Age on the Acute Toxicity of Copper to the Florida Apple Snail, Pomacea paludosa|Arch. Environ. Contam. Toxicol.54(4): 690-696|2008|10.1007/s00244-007-9106-1
109092|A||Wu,S.M., H.R. Ding, L.Y. Lin, and Y.S. Lin|Juvenile Tilapia (Oreochromis mossambicus) Strive to Maintain Physiological Functions After Waterborne Copper Exposure|Arch. Environ. Contam. Toxicol.54(3): 482-492|2008|10.1007/s00244-007-9038-9
109093|T||Wei,L., C. Luo, X. Li, and Z. Shen|Copper Accumulation and Tolerance in Chrysanthemum coronarium L. and Sorghum sudanense L.|Arch. Environ. Contam. Toxicol.55:238-246|2008|10.1007/s00244-007-9114-1
109094|T||Weis,J.S., L. Windham, and P. Weis|Patterns of Metal Accumulation in Leaves of the Tidal Marsh Plants Spartina alterniflora Loisel and Phragmites australis Cav. Trin ex Steud. over the Growing Season|Wetlands23(2): 459-465|2003|10.1672/20-20
109095|A||Martin,A.J., and R. Goldblatt|Speciation, Behavior, and Bioavailability of Copper Downstream of a Mine-Impacted Lake|Environ. Toxicol. Chem.26(12): 2594-2603|2007|10.1897/07-038.1
109096|A||Tate-Boldt,E.K., and A.S. Kolok|Copper Acclimation in Juvenile Fathead Minnows:  Is a Cycle of Branchial Damage and Repair Necessary?|Aquat. Toxicol.87(1): 13-18|2008|10.1016/j.aquatox.2008.01.001
109097|T||Mohanapriya,S., P. Senthilkumar, S. Sivakumar, M. Dineshkumar, and C.V. Subbhuraam|Effects of Copper Sulfate and Copper Nitrate in Aquatic Medium on the Restoration Potential and Accumulation of Copper in Stem Cuttings of the Terrestrial Medicinal Plant, Portulaca oleracea Linn.|Environ. Monit. Assess.121(1-3): 233-244|2006|10.1007/s10661-005-9117-1
109098|A||Kamunde,C., and R. MacPhail|Bioaccumulation and Hepatic Speciation of Copper in Rainbow Trout (Oncorhynchus mykiss) During Chronic Waterborne Copper Exposure|Arch. Environ. Contam. Toxicol.54(3): 493-503|2008|10.1007/s00244-007-9046-9
109099|A||Tao,S., W.X. Liu, G.J. Liu, R. Dawson, J. Cao, and P.K. Wong|Short-Term Dynamic Change of Gill Copper in Common Carp, Cyprinus carpio, Evaluated by a Sequential Extraction|Arch. Environ. Contam. Toxicol.51(3): 408-415|2006|10.1007/s00244-005-0170-0
109101|T||Gancarczyk,M., M. Kuklinska, J. Sadowska, J. Strzezek, and B. Bilinska|Aromatization and Antioxidant Capacity in the Testis of Seasonally Breeding Bank Voles:  Effects of LH, PRL and IGF-I|Theriogenology65(7): 1376-1391|2006|10.1016/j.theriogenology.2005.08.013
109102|T||Lin,W.S., C. Scrimshaw, and M. Kapoor|Selenium Suppresses the Metabolism of Benzo(a)pyrene by Rat-Liver Extracts, and Exerts a Dual Effect on It's Mutagenicity|Xenobiotica14(12): 893-902|1984|10.3109/00498258409151488
109103|A||Kane,A.S., J.D. Salierno, G.T. Gipson, T.C.A. Molteno, and C. Hunter|A Video-Based Movement Analysis System to Quantify Behavioral Stress Responses of Fish|Water Res.38(18): 3993-4001|2004|10.1016/j.watres.2004.06.028
109104|T||Jeon,H.K., S.N. Sarma, Y.J. Kim, and J.C. Ryu|Toxicokinetics and Metabolisms of Benzophenone-Type UV Filters in Rats|Toxicology248(2/3): 89-95|2008|10.1016/j.tox.2008.02.009
109105|T||Kawamoto,Y., W. Matsuyama, M. Wada, J. Hishikawa, M.P.L. Chan, A. Nakayama, and S. Morisawa|Development of a Physiologically Based Pharmacokinetic Model for Bisphenol A in Pregnant Mice|Toxicol. Appl. Pharmacol.224(2): 182-191|2007|10.1016/j.taap.2007.06.023
109108|T||Ho,G., C. Zhang, and L. Zhuo|Non-Invasive Fluorescent Imaging of Gliosis in Transgenic Mice for Profiling Developmental Neurotoxicity|Toxicol. Appl. Pharmacol.221(1): 76-85|2007|10.1016/j.taap.2007.01.023
109109|T||Hirose,A., E. Sato, H. Fujii, B. Sun, H. Nishioka, and O.I. Aruoma|The Influence of Active Hexose Correlated Compound (AHCC) on Cisplatin-Evoked Chemotherapeutic and Side Effects in Tumor-Bearing Mice|Toxicol. Appl. Pharmacol.222(2): 152-158|2007|10.1016/j.taap.2007.03.031
109111|T||Heim,K.E., H.K. Bates, R.E. Rush, and A.R. Oller|Oral Carcinogenicity Study with Nickel Sulfate Hexahydrate in Fischer 344 Rats|Toxicol. Appl. Pharmacol.224(2): 126-137|2007|10.1016/j.taap.2007.06.024
109112|A||Heiden,T.C.K., E. Dengler, W.J. Kao, W. Heideman, and R.E. Peterson|Developmental Toxicity of low Generation PAMAM Dendrimers in Zebrafish|Toxicol. Appl. Pharmacol.225(1): 70-79|2007|10.1016/j.taap.2007.07.009
109114|T||Harstad,E.B., and C.D. Klaassen|Tumor Necrosis Factor-alpha-Null Mice are not Resistant to Cadmium Chloride-Induced Hepatotoxicity|Toxicol. Appl. Pharmacol.179(3): 155-162|2002|10.1006/taap.2001.9362
109115|T||Guo,T.L., R.P. Chi, N.A. Karrow, L.X. Zhang, S.B. Pruett, D.R. Germolec, and K.L.,Jr. White|Thalidomide Enhances both Primary and Secondary Host Resistances to Listeria monocytogenes Infection by a Neutrophil-Related Mechanism in Female B6C3F1 Mice|Toxicol. Appl. Pharmacol.209(3): 244-254|2005|10.1016/j.taap.2005.04.014
109117|A||Giusi,G., R. Alo, M. Crudo, R.M. Facciolo, and M. Canonaco|Specific Cerebral Heat Shock Proteins and Histamine Receptor Cross-Talking Mechanisms Promote Distinct Lead-Dependent Neurotoxic Responses in Teleosts|Toxicol. Appl. Pharmacol.227(2): 248-256|2008|10.1016/j.taap.2007.10.018
109118|T||Ghosh,M., D. Talukdar, S. Ghosh, N. Bhattacharyya, M. Ray, and S. Ray|In Vivo Assessment of Toxicity and Pharmacokinetics of Methylglyoxal Augmentation of the Curative Effect of Methylglyoxal on Cancer-Bearing Mice by Ascorbic Acid and Creatine|Toxicol. Appl. Pharmacol.212(1): 45-58|2006|10.1016/j.taap.2005.07.003
109121|T||Flaws,J.A., S.L. Marion, K.P. Miller, P.J. Christian, J.K. Babus, and P.B. Hoyer|Effect of bcl-2 Overexpression in Mice on Ovotoxicity Caused by 4-Vinylcyclohexene|Toxicol. Appl. Pharmacol.215(1): 51-56|2006|10.1016/j.taap.2006.03.003
109122|T||Fang,C., M. Behr, F. Xie, S.N. Lu, M. Doret, H. Luo, W. Yang, K. Aldous, X. Ding, and J. Gu|Mechanism of Chloroform-Induced Renal Toxicity:  Non-Involvement of Hepatic Cytochrome P450-Dependent Metabolism|Toxicol. Appl. Pharmacol.227(1): 48-55|2008|10.1016/j.taap.2007.10.014
109123|A||Huang,C.C., P.C. Chen, C.W. Huang, and J. Yu|Aristolochic Acid Induces Heart Failure in Zebrafish Embryos that is Mediated by Inflammation|Toxicol. Sci.100(2): 486-494|2007|10.1093/toxsci/kfm235
109124|T||Corley,R.A., D.M. Wilson, G.C. Hard, K.E. Stebbins, M.J. Bartels, J.J. Soelberg, M.D. Dryzga, R. Gingell, K.E. McMartin|Dosimetry Considerations in the Enhanced Sensitivity of Male Wistar Rats to Chronic Ethylene Glycol-Induced Nephrotoxicity|Toxicol. Appl. Pharmacol.228(2): 165-178|2008|10.1016/j.taap.2007.11.024
109125|T||Brzoska,M.M., and J. Moniuszko-Jakoniuk|Bone Metabolism of Male Rats Chronically Exposed to Cadmium|Toxicol. Appl. Pharmacol.207(3): 195-211|2005|10.1016/j.taap.2005.01.003
109126|T||Brown,K.E., K.A. Broadhurst, M.M. Mathahs, and J. Weydert|Differential Expression of Stress-Inducible Proteins in Chronic Hepatic Iron Overload|Toxicol. Appl. Pharmacol.223(2): 180-186|2007|10.1016/j.taap.2007.05.011
109130|T||Rulli,S.B., K. Zitta, R.S. Calandra, and S. Campo|Effect of Dihydrotestosterone on Pituitary Follicle-Stimulating Hormone Isoforms in Adult Male Rats Treated with a Gonadotropin-Releasing Hormone Antagonist|Neuroendocrinology78(5): 280-286|2003|10.1159/000074449
109131|T||Klukowska,L., A. Nadulska, and S. Dyba|The Influence of Cisplatinum and Goserelinum on the Magnesium and Calcium Level in Rat Serum|Ann. Univ. Mariae Curie-Sklodowska D Med.56:483-486|2001|
109132|T||Nakamura,A., T. Shirai, S. Takahashi, K. Ogawa, M. Hirose, and N. Ito|Lack of Modification by Naturally Occurring Antioxidants of 3,2'-Dimethyl-4-Aminobiphenyl-Initiated Rat Prostate Carcinogenesis|Cancer Lett.58(3): 241-246|1991|10.1016/0304-3835(91)90107-S
109133|T||Epstein,S.S., and N. Mantel|Hepatocarcinogenicity of the Herbicide Maleic Hydrazide Following Parenteral Administration to Infant Swiss Mice|Int. J. Cancer3:325-335|1968|10.1002/ijc.2910030302
109134|T||Schooler,S., T. Cook, A. Bourne, G. Prichard, and M. Julien|Selective Herbicides Reduce Alligator Weed (Alternanthera philoxeroides) Biomass by Enhancing Competition|Weed Sci.56(2): 259-264|2008|10.1614/WS-07-132.1
109135|A||Jofre,M.B., and W.H. Karasov|Effect of Mono-ortho and Di-ortho Substituted Polychlorinated Biphenyl (PCB) Congeners on Leopard Frog Survival and Sexual Development|Chemosphere70(9): 1609-1619|2008|10.1016/j.chemosphere.2007.08.002
109136|AT||Noriega,N.C., and T.B. Hayes|DDT Congener Effects on Secondary Sex Coloration in the Reed Frog Hyperolius argus:  A Partial Evaluation of the Hyperolius argus Endocrine Screen|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.126:231-237|2000|10.1016/S0305-0491(00)00201-7
109137|A||Ishibashi,H., R. Yamauchi, M. Matsuoka, J.W. Kim, M. Hirano, A. Yamaguchi, N. Tominaga, and K. Arizono|Fluorotelomer Alcohols Induce Hepatic Vitellogenin Through Activation of the Estrogen Receptor in Male Medaka (Oryzias latipes)|Chemosphere71(10): 1853-1859|2008|10.1016/j.chemosphere.2008.01.065
109138|T||Sonne-Hansen,K., M. Nielsen, and A.G. Byskov|Oocyte Number in Newborn Mice After Prenatal Octylphenol Exposure|Reprod. Toxicol.17(1): 59-66|2003|10.1016/S0890-6238(02)00079-5
109139|A||Baker,M.E., B. Ruggeri, J. Sprague, C. Eckhardt-Ludka, J. Lapira, I. Wick, L. Soverchia, M. Ubaldi, A.M. Polzonetti-Mag|Analysis of Endocrine Disruption in Southern California Coastal Fish Using an Aquatic Multispecies Microarray|Environ. Health Perspect.117(2): 223-230|2009|10.1289/ehp.11627
109140|T||Nieminen,P., I. Polonen, K. Ikonen, M. Maattanen, and A.M. Mustonen|Evaluation of Reproductive Safety of beta-Sitosterol on the American Mink (Neovison vison)|Chemosphere71(3): 493-499|2008|10.1016/j.chemosphere.2007.10.011
109141|T||Shimomura,K., M. Shimada, M. Hagiwara, S. Harada, M. Kato, and K. Furuhama|Insights into Testicular Damage Induced by Ethinylestradiol in Rats|Reprod. Toxicol.20(1): 157-163|2005|10.1016/j.reprotox.2004.12.013
109142|T||Doerge,D.R., N.C. Twaddle, M.I. Churchwell, H.C. Chang, R.R. Newbold, and K.B. Delclos|Mass Spectrometric Determination of p-Nonylphenol Metabolism and Disposition Following Oral Administration to Sprague-Dawley Rats|Reprod. Toxicol.16(1): 45-56|2002|10.1016/S0890-6238(01)00198-8
109143|A||Blum,J.L., B.A. Nyagode, M.O. James, and N.D. Denslow|Effects of the Pesticide Methoxychlor on Gene Expression in the Liver and Testes of the Male Largemouth Bass (Micropterus salmoides)|Aquat. Toxicol.86(4): 459-469|2008|10.1016/j.aquatox.2007.12.008
109144|T||Zhou,L.X., S.S. Dehal, D. Kupfer, S. Morrell, B.A. McKenzie, E.D.,Jr. Eccleston, and J.L. Holtzman|Cytochrome P450-Catalyzed Covalent Binding of Methoxychlor to Rat Hepatic, Microsomal Iodothyronine 5'-Monodeiodinase, Type I:  Does Exposure to Methoxychlor Disrupt Thyroid Hormone Metabolism?|Arch. Biochem. Biophys.322(2): 390-394|1995|10.1006/abbi.1995.1479
109145|T||Waritz,R.S., M. Steinberg, F.K. Kinoshita, C.M. Kelly, and W.R. Richter|Thyroid Function and Thyroid Tumors in Toxaphene-Treated Rats|Regul. Toxicol. Pharmacol.24:184-192|1996|10.1006/rtph.1996.0124
109146|T||Amstislavksy,S.Y., E.A. Kizilova, and V.P. Eroschenko|Preimplantation Mouse Embryo Development as a Target of the Pesticide Methoxychlor|Reprod. Toxicol.17(1): 79-86|2003|10.1016/S0890-6238(02)00095-3
109147|T||Boykins,E.A.|The Effects of DDT-Contaminated Earthworms in the Diet of Birds|Bioscience17:37-39|1967|10.2307/1293870
109148|A||Surber,E.W., and D.D. Friddle|Relative Toxicity of Suspension and Oil Formations of DDT to Native Fishes in Back Creek, West Virginia|Trans. Am. Fish. Soc.76:315-321|1949|10.1577/1548-8659(1946)76[315:RTOSAO]2.0.CO;2
109149|T||Baumgartner,J.R., K. Al Khatib, and R.S. Currie|Survey of Common Sunflower (Helianthus annuus) Resistance to Imazethapyr and Chlorimuron in Northeast Kansas|Weed Technol.13(3): 510-514|1999|10.1017/S0890037X0004611X
109150|AT||Marshall,M.W., K. Al-Khatib, and T. Loughin|Gene Flow, Growth, and Competitiveness of Imazethapyr-Resistant Common Sunflower|Weed Sci.49:14-21|2001|10.1614/0043-1745(2001)049[0014:GFGACO]2.0.CO;2
109151|T||Cha,R.S., W.G. Thilly, and H. Zarbl|N-Nitroso-N-Methylurea-Induced Rat Mammary Tumors Arise from Cells with Preexisting Oncogenic Hras1 Gene Mutations|Proc. Natl. Acad. Sci. U.S.A.91(9): 3749-3753|1994|10.1073/pnas.91.9.3749
109152|T||Hu,M.L., and J.E. Spallholz|Dietary Selenium and Aniline-Induced Methemoglobinemia in Rats|Toxicol. Lett.25(2): 205-210|1985|10.1016/0378-4274(85)90083-9
109153|T||Astroff,A.B., K.J. Freshwater, A.D. Young, B.P. Stuart, G.K. Sangha, and J.H. Thyssen|The Conduct of a Two-Generation Reproductive Toxicity Study via Dermal Exposure in the Sprague-Dawley Rat - a Case Study with KBR 3023 (a Prospective Insect Repellent)|Reprod. Toxicol.13(3): 223-232|1999|10.1016/S0890-6238(99)00008-8
109155|T||Yoopan,N., P. Watcharasit, O. Wongsawatkul, P. Piyachaturawat, and J. Satayavivad|Attenuation of eNOS Expression in Cadmium-Induced Hypertensive Rats|Toxicol. Lett.176(2): 157-161|2008|10.1016/j.toxlet.2007.11.002
109156|T||Sagami,I., T. Omachi, H. Fujii, and M. Watanabe|Benzo(a)pyrene Metabolism by Purified Cytochrome P-450 from 3-Methylcholanthrene-Treated Rats|Xenobiotica17(2): 189-198|1987|10.3109/00498258709043928
109157|A||Gutleb,A.C., M. Schriks, L. Mossink, J.H.J. Van den Berg, and A.J. Murk|A Synchronized Amphibian Metamorphosis Assay as an Improved Tool to Detect Thyroid Hormone Disturbance by Endocrine Disruptors and Apolar Sediment Extracts|Chemosphere70(1): 93-100|2007|10.1016/j.chemosphere.2007.06.048
109158|T||Hossaini,A., M. Dalgaard, A.M. Vinggaard, P. Pakarinen, and J.J. Larsen|Male Reproductive Effects of Octylphenol and Estradiol in Fischer and Wistar Rats|Reprod. Toxicol.17(5): 607-615|2003|10.1016/j.reprotox.2003.05.001
109159|T||Hong,E.J., K.C. Choi, Y.W. Jung, P.C.K. Leung, and E.B. Jeung|Transfer of Maternally Injected Endocrine Disruptors Through Breast Milk During Lactation Induces Neonatal Calbindin-D9k in the Rat Model|Reprod. Toxicol.18(5): 661-668|2004|10.1016/j.reprotox.2004.03.005
109160|A||Colman,J.R., D. Baldwin, L.L. Johnson, and N.L. Scholz|Effects of the Synthetic Estrogen, 17-Ethinylestradiol, on Aggression and Courtship Behavior in Male Zebrafish (Danio rerio)|Aquat. Toxicol.91:346-354|2009|10.1016/j.aquatox.2008.12.001
109161|T||Nagao,T., K. Wada, H. Marumo, S. Yoshimura, and H. Ono|Reproductive Effects of Nonylphenol in Rats After Gavage Administration:  A Two-Generation Study|Reprod. Toxicol.15(3): 293-315|2001|10.1016/S0890-6238(01)00123-X
109162|T||Aydogan,M., and N. Barlas|Effects of Maternal 4-tert-Octylphenol Exposure on the Reproductive Tract of Male Rats at Adulthood|Reprod. Toxicol.22(3): 455-460|2006|10.1016/j.reprotox.2006.01.004
109163|T||Berger,R.G., T. Hancock, and D. DeCatanzaro|Influence of Oral and Subcutaneous Bisphenol-A on Intrauterine Implantation of Fertilized Ova in Inseminated Female Mice|Reprod. Toxicol.23(2): 138-144|2007|10.1016/j.reprotox.2006.09.005
109164|T||Doerge,D.R., N.C. Twaddle, M.I. Churchwell, R.R. Newbold, and K.B. Delclos|Lactational Transfer of the Soy Isoflavone, Genistein, in Sprague-Dawley Rats Consuming Dietary Genistein|Reprod. Toxicol.21(3): 307-312|2006|10.1016/j.reprotox.2005.09.007
109165|T||Takai,Y., O. Tsutsumi, Y. Ikezuki, Y. Kamei, Y. Osuga, T. Yano, and Y. Taketan|Preimplantation Exposure to Bisphenol A Advances Postnatal Development|Reprod. Toxicol.15(1): 71-74|2001|10.1016/S0890-6238(00)00119-2
109166|A||Cardinali,M., F. Maradonna, I. Olivotto, G. Bortoluzzi, G. Mosconi, A.M. Polzonetti-Magni, and O. Carnevali|Temporary Impairment of Reproduction in Freshwater Teleost Exposed to Nonylphenol|Reprod. Toxicol.18(4): 597-604|2004|10.1016/j.reprotox.2004.03.001
109167|A||Rempel,M.A., B. Hester, H. DeHaro, H. Hong, Y. Wang, and D. Schlenk|Effects of 17beta-Estradiol, and Its Metabolite, 4-Hydroxyestradiol on Fertilization, Embryo Development and Oxidative DNA Damage in Sand Dollar (Dendraster excentricus) Sperm|Sci. Total Environ.407:2209-2215|2009|10.1016/j.scitotenv.2008.12.054
109168|T||Zuryn,S., J. Kuang, and P. Ebert|Mitochondrial Modulation of Phosphine Toxicity and Resistance in Caenorhabditis elegans|Toxicol. Sci.102(1): 179-186|2008|10.1093/toxsci/kfm278
109169|T||Waites,C.R., M.A. Dominick, T.P. Sanderson, and B.E. Schilling|Nonclinical Safety Evaluation of Muraglitazar, a Novel PPARalpha/gamma Agonist|Toxicol. Sci.100(1): 248-258|2007|10.1093/toxsci/kfm193
109170|T||Kumar,J., and J. Prakash|Influence of Thiobencarb and Butachlor on Ribonuclease and Deoxyribonuclease Activity in Seedlings of Rice (Oryza sativa) and Watergrass (Echinocloa crus-galli)|Indian J. Agric. Sci.65(1): 17-19|1995|
109171|T||Stickney,J.A., D.M. Silverman, and R.A. Schatz|Role of Isozyme-Specific Inhibition of Cytochrome P450IIB1 Activity in M-Xylene-Induced Alterations in Rat Pulmonary Benzo(a)pyrene  Metabolism|Xenobiotica21(5): 641-649|1991|10.3109/00498259109039504
109172|T||Shahandeh,H., and L.R. Hossner|Role of Soil Properties in Phytoaccumulation of Uranium|Water Air Soil Pollut.141(1-4): 165-180|2002|10.1023/A:1021346828490
109174|T||Scharf,B., and L.D. Trombetta|The Effects of the Wood Preservative Copper Dimethyldithiocarbamate in the Hippocampus of Maternal and Newborn Long-Evans Rats|Toxicol. Lett.174(1-3): 117-124|2007|10.1016/j.toxlet.2007.08.017
109175|A||Wang,W., D.J. Cai, Z.J. Shan, W.L. Chen, N. Poletika, and X.W. Gao|Comparison of the Acute Toxicity for gamma-Cyhalothrin and lambda-Cyhalothrin to Zebra Fish and Shrimp|Regul. Toxicol. Pharmacol.47(2): 184-188|2007|10.1016/j.yrtph.2006.09.002
109176|T||Andrews,J.E., H.P. Nichols, J.E. Schmid, L.M. Mole, J.S. Hunter III, and G.R. Klinefelter|Developmental Toxicity of Mixtures:  The Water Disinfection By-Products Dichloro-, Dibromo- and Bromochloro Acetic Acid in Rat Embryo Culture|Reprod. Toxicol.19(1): 111-116|2004|10.1016/j.reprotox.2004.06.005
109177|T||Christopher,J.T., and J.A.M. Holtum|The Dicotyledonous Species Erodium moschatum (L) L'Her. ex Aiton is Sensitive to Haloxyfop Herbicide due to Herbicide-Sensitive Acetyl-Coenzyme A carboxylase|Planta (Multiple Languages)207(2): 275-279|1998|10.1007/s004250050483
109178|T||Ethyl Corp.|Ninety-Day Subchronic Oral Toxicity Study of Meta-Phenoxybenzaldehyde in Albino Rats (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000217:281 p.|1991|
109179|T||Shell Oil Co.|Initial Submission:  Letter from Shell Oil Co. Submitting a Battery of Studies on the Acute Toxicity of 3-Phenoxybenzaldehyde in Rats, Rabbits and Guinea Pigs with Attachments|EPA/OTS Doc.#88-920001944:87 p.|1992|
109180|T||Khaliq,A., M.N.R. Attique, and A.H. Sayyed|Evidence for Resistance to Pyrethroids and Organophosphates in Plutella xylostella (Lepidoptera:  Plutellidae) from Pakistan|Bull. Entomol. Res.97(2): 191-200|2007|10.1017/S0007485307004877
109181|T||Paolini,M., L. Pozzetti, A. Sapone, A. Camerino, and G. Cantelli-Forti|Testosterone Hydroxylase as Multibiomarker of Effect in Evaluating Vinclozolin Cocarcinogenesis|Biomarkers (Lond.)3(3): 191-203|1998|10.1080/135475098231219
109183|A||Zhang,J., Z. Zuo, Y. Chen, Y. Zhao, S. Hu, and C. Wang|Effect of Tributyltin on the Development of Ovary in Female Cuvier (Sebastiscus marmoratus)|Aquat. Toxicol.83(3): 174-179|2007|10.1016/j.aquatox.2007.03.018
109184|A||Cedergreen,N., N.H. Spliid, and J.C. Streibig|Species-Specific Sensitivity of Aquatic Macrophytes Towards Two Herbicide|Ecotoxicol. Environ. Saf.58(3): 314-323|2004|10.1016/j.ecoenv.2004.04.002
109185|A||McGee,M.R., M.L. Julius, A.M. Vajda, D.O. Norris, L.B. Barber, and H.L. Schoenfuss|Predator Avoidance Performance of Larval Fathead Minnows (Pimephales promelas) Following Short-Term Exposure to Estrogen Mixtures|Aquat. Toxicol.91:355-361|2009|10.1016/j.aquatox.2008.12.002
109187|T||Ceden,C.J., D.A. Rutz, J.C. Scott, and S.J. Lonc|Susceptibility of House Flies (Diptera:  Muscidae) and Five Pupal Parasitoids (Hymenoptera:  Pteromalidae) to Abamectin and Seven Commercial Insecticides|J. Econ. Entomol.85(2): 435-440|1992|10.1093/jee/85.2.435
109188|T||Chiang,F.M., and C.N. Sun|Detoxifying Enzymes and Susceptibility to Several Insecticides of Apanteles plutellae (Hymenoptera:  Braconidae) and Diadegma semiclausum (Hymenoptera:  Ichneumonidae), Parasitoids of Diamondback Moth (Lepidoptera:  Plu|Environ. Entomol.20(6): 1687-1690|1991|10.1093/ee/20.6.1687
109189|T||Culin,J.D., and W.P. Dubose III|Insecticide Interference with Microplitis demolitor (Hymenoptera:  Braconidae) Parasitization of Heliothis zea (Lepidoptera:  Noctuidae)|J. Econ. Entomol.80(6): 1188-1191|1987|10.1093/jee/80.6.1188
109190|T||Sundararaj,R., and C. Tamilselvan|Influence of Deltamethrin on Some Biochemical Parameters in Cotton Leaves|Agric. Sci. Dig.11(4): 199-200|1991|
109191|T||Reinert,J.A., and S.J. Maranz|Synthetic Pyrethroid Dusts Evaluated for Individual Mound Control of Red Imported Fire Ant in Residential Landscapes, 1995|Arthropod Manag. Tests21:367-368|1996|
109192|T||Rowlands,G.J., S.G.A. Leak, W. Mulatu, S.M. Nagda, A. Wilson, and G.D.M. D'Ieteren|Use of Deltamethrin 'Pour-On' Insecticide for the Control of Cattle Trypanosomosis in the Presence of High Tsetse Invasion|Med. Vet. Entomol.15(1): 87-96|2001|10.1046/j.1365-2915.2001.00272.x
109193|T||Verghese,A., and R.P. Srivastava|Toxicity of Certain Newer Insecticides to the Parasite Tetrastichus sp.|Indian J. Entomol.51(4): 465-468|1989|
109194|T||Nagao,T., S. Yoshimura, Y. Saito, M. Nakagomi, K. Usumi, and H. Ono|Reproductive Effects in Male and Female Rats of Neonatal Exposure to Genistein|Reprod. Toxicol.15(4): 399-411|2001|10.1016/S0890-6238(01)00141-1
109195|T||Uzumcu,M., H. Suzuki, and M.K. Skinner|Effect of the Anti-Androgenic Endocrine Disruptor Vinclozolin on Embryonic Testis Cord Formation and Postnatal Testis Development and Function|Reprod. Toxicol.18(6): 765-774|2004|10.1016/j.reprotox.2004.05.008
109196|T||Nagao,T., K. Wada, M. Kuwagata, and H. Ono|Effects of Prenatal and Postnatal Exposure to Styrene Dimers and Trimers on Reproductive Function in Rats|Reprod. Toxicol.14(5): 403-415|2000|10.1016/S0890-6238(00)00098-8
109197|T||Murray,T.J., M.V. Maffini, A.A. Ucci, C. Sonnenschein, and A.M. Soto|Induction of Mammary Gland Ductal Hyperplasias and Carcinoma In Situ Following Fetal Bisphenol A Exposure|Reprod. Toxicol.23(3): 383-390|2007|10.1016/j.reprotox.2006.10.002
109198|T||Johnson,D.R., G.M. Lorenz, J.D. Hopkins, and L.M. Page|Evaluation of Nonsteroidal Ecdysone Agonists (Confirm and Intrepid) for Control of Heliothine Species in Cotton|Spec. Rep. Ark. Agric. Exp. Stn.198:249-254|2000|
109199|T||Gammon,D.W., L.J. Lawrence, and J.E. Casida|Pyrethroid Toxicology:  Protective Effects of Diazepam and Phenobarbital in the Mouse and the Cockroach|Toxicol. Appl. Pharmacol.66(2): 290-296|1982|10.1016/0041-008X(82)90294-0
109200|T||Masutomi,N., M. Shibutani, H. Takagi, C. Uneyama, and M. Hirose|Dietary Influence on the Impact of Ethinylestradiol-Induced Alterations in the Endocrine/Reproductive System with Perinatal Maternal Exposure|Reprod. Toxicol.18(1): 23-33|2004|10.1016/j.reprotox.2003.10.004
109201|T||Saradha,B., S. Vaithinathan, and P.P. Mathur|Single Exposure to Low Dose of Lindane Causes Transient Decrease in Testicular Steroidogenesis in Adult Male Wistar Rats|Toxicology244(2-3): 190-197|2008|10.1016/j.tox.2007.11.011
109202|A||Beketov,M.A., and M. Liess|Potential of 11 Pesticides to Initiate Downstream Drift of Stream Macroinvertebrates|Arch. Environ. Contam. Toxicol.55:247-253|2008|10.1007/s00244-007-9104-3
109203|T||Cummings,A.M., and L.E.,Jr. Gray|Methoxychlor Affects the Decidual Cell Response of the Uterus but not Other Progestational Parameters in Female Rats|Toxicol. Appl. Pharmacol.90:330-336|1987|10.1016/0041-008X(87)90340-1
109204|A||Palmquist,K.R., J.J. Jenkins, and P.C. Jepson|Effects of Dietary Esfenvalerate Exposures on Three Aquatic Insect Species Representing Different Functional Feeding Groups|Environ. Toxicol. Chem.27(8): 1721-1727|2008|10.1897/07-501.1
109205|A||Barahona,M.V., and S. Sanchez-Fortun|Protective Effect Induced by Atropine, Carbamates, and 2-Pyridine Aldoxime Methoiodide Artemia Salina Larvae Exposed to Fonofos and Phosphamidon|Ecotoxicol. Environ. Saf.66(1): 65-73|2007|10.1016/j.ecoenv.2005.10.003
109206|A||Palmquist,K.R., J.J. Jenkins, and P.C. Jepson|Clutch Morphology and the Timing of Exposure Impact the Susceptibility of Aquatic Insect Eggs to Esfenvalerate|Environ. Toxicol. Chem.27(8): 1713-1720|2008|10.1897/07-491.1
109207|A||Pathakoti,K., and J. Venkateswara Rao|Oxidative Stress and Locomotor Behaviour Response as Biomarkers for Assessing Recovery Status of Mosquito Fish, Gambusia affinis After Lethal Effect of an Organophosphate Pesticide, Monocrotophos|Pestic. Biochem. Physiol.87(2): 182-188|2007|10.1016/j.pestbp.2006.07.008
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109209|T||Yilmaz,S., A. Atessahin, E. Sahna, I. Karahan, and S. Ozer|Protective Effect of Lycopene on Adriamycin-Induced Cardiotoxicity and Nephrotoxicity|Toxicology218(2-3): 164-171|2006|10.1016/j.tox.2005.10.015
109210|T||Yousef,M.I., T.I. Awad, F.A. Elhag, and F.A. Khaled|Study of the Protective Effect of Ascorbic Acid Against the Toxicity of Stannous Chloride on Oxidative Damage, Antioxidant Enzymes and Biochemical Parameters in Rabbits|Toxicology235(3): 194-202|2007|10.1016/j.tox.2007.03.017
109213|T||Song,L., Y.B. Wang, H. Sun, C. Yuan, X. Hong, J.H. Qu, J.W. Zhou, and X.R. Wang|Effects of Fenvalerate and Cypermethrin on Rat Sperm Motility Patterns In Vitro as Measured by Computer-Assisted Sperm Analysis|J. Toxicol. Environ. Health Part A71(5): 325-332|2008|10.1080/15287390701738517
109214|T||Bindhumol,V., K.C. Chitra, and P.P. Mathur|Bisphenol A Induces Reactive Oxygen Species Generation in the Liver of Male Rats|Toxicology188(2/3): 117-124|2003|10.1016/S0300-483X(03)00056-8
109215|T||Yin,H.Q., M. Kim, J.H. Kim, G. Kong, K.S. Kang, H.L. Kim, B.I. Yoon, M.O. Lee, and B.H. Lee|Differential Gene Expression and Lipid Metabolism in Fatty Liver Induced by Acute Ethanol Treatment in Mice|Toxicol. Appl. Pharmacol.223(3): 225-233|2007|10.1016/j.taap.2007.06.018
109216|A||Chen,P.C.|Effects of Herbicides on Growth and Photosynthesis of Anabaena CH2 and CH3|Proc.Natl.Sci.Counc.Repub.China Part B10(3): 151-156|1986|
109217|A||Chattopadhyay,A., S. Adhikari, S.P. Adhikary, and S. Ayyappan|Evaluation of Butachlor for Control of Submerged Macrophytes Along with Its Impact on Biotic Components of Freshwater System|Iran. J. Environ. Health Sci. Eng.3(2): 103-108|2006|
109218|T||Crouzier,D., V.B. Le Crom, E. Four, G. Lallement, and G. Testylier|Disruption of Mice Sleep Stages Induced by Low Doses of Organophosphorus Compound Soman|Toxicology199(1): 59-71|2004|10.1016/j.tox.2004.02.013
109219|T||Reddy,T.Y., and K. Bharghavi|Effect of Time and Method of Application of Herbicides on Yield and Yield Components of Rainfed Lowland Rice|Int. Rice Res. Newsl.14(4): 39-|1989|
109221|A||Kang,I.J., H. Yokota, Y. Oshima, Y. Tsuruda, Y. Shimasaki, and T. Honjo|The Effects of Methyltestosterone on the Sexual Development and Reproduction of Adult Medaka (Oryzias latipes)|Aquat. Toxicol.87(1): 37-46|2008|10.1016/j.aquatox.2008.01.010
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109223|T||Reddy,K.R., K.S. Reddy, K.R. Rao, and J.V.S. Rao|Influence of Fluchloralin and Benthiocarb Herbicides on Wax Deposition and Transpiration|Indian J. Bot.11(1): 96-101|1988|
109224|A||Yano,I.|Effect of 17alpha-Hydroxy-Progesterone on Vitellogenin Secretion in Kuruma Prawn, Penaeus japonicus|Aquaculture61:49-57|1987|10.1016/0044-8486(87)90337-1
109225|T||Kodera,Y., A. Suzuki, O. Imada, S. Kasuga, I. Sumioka, A. Kanezawa, N. Taru, M. Fujikawa, S. Nagae, K. Masamoto, K. Mae|Physical, Chemical, and Biological Properties of S-Allylcysteine, an Amino Acid Derived from Garlic|J. Agric. Food Chem.50(3): 622-632|2002|10.1021/jf0106648
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109227|T||Raju,R.A., and M.N. Reddy|Promising Herbicides for Weed Control in Transplanted Rice|Indian J. Agric. Sci.57(10): 758-760|1987|
109228|T||Kurchania,S.P., J.P. Tiwari, and N.R. Paradkar|Weed Control in Rice (Oryza sativa)-Wheat (Triticum aestivum) Cropping System|Indian J. Agric. Sci.61(10): 720-725|1991|
109229|T||Mahapatra,P.K.|Weed Control in Intercropping Systems Based on Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.61(12): 885-888|1991|
109230|T||Bhargavi,K., and T.Y. Reddy|Effect of Different Herbicides on Population Dynamics and Growth of Purple Nutsedge (Cyperus rotundus) in Semi-Dry Rice (Oryza sativa)|Indian J. Agric. Sci.62(1): 29-34|1992|
109231|A||Wei,Y., Y. Liu, J. Wang, Y. Tao, and J. Dai|Toxicogenomic Analysis of the Hepatic Effects of Perfluorooctanoic Acid on Rare Minnows (Gobiocypris rarus)|Toxicol. Appl. Pharmacol.226(3): 285-297|2008|10.1016/j.taap.2007.09.023
109232|A||Palermo,F.A., G. Mosconi, M. Angeletti, and A.M. Polzonetti-Magni|Assessment of Water Pollution in the Tronto River (Italy) by Applying Useful Biomarkers in the Fish Model Carassius auratus|Arch. Environ. Contam. Toxicol.55:295-304|2008|10.1007/s00244-007-9113-2
109233|A||Teles,M., M. Pacheco, and M.A. Santos|Biotransformation, Stress and Genotoxic Effects of 17[beta]-Estradiol in Juvenile Sea Bass (Dicentrarchus labrax L.)|Environ. Int.32(4): 470-477|2006|10.1016/j.envint.2005.11.006
109234|A||Lerner,D.T., B.T. Bjornsson, and S.D. McCormick|Larval Exposure to 4-Nonylphenol and 17beta-Estradiol Affects Physiological and Behavioral Development of Seawater Adaptation in Atlantic Salmon Smolts|Environ. Sci. Technol.41(12): 4479-4485|2007|10.1021/es070202w
109235|T||Owens,C.V.,Jr., C. Lambright, K. Bobseine, B. Ryan, L.E.,Jr. Gray, B.K. Gullett, and V.S. Wilson|Identification of Estrogenic Compounds Emitted from the Combustion of Computer Printed Circuit Boards in Electronic Waste|Environ. Sci. Technol.41(24): 8506-8511|2007|10.1021/es071425p
109236|A||Siah,A., R. Masson, B. Loup, F. Bultelle, J. Pellerin, F. Leboulenger, and J.M. Danger|Receptor Activated C Kinase is Down-Regulated in the Male Gonad of the Marine Bivalve Mollusc Mya arenaria Exposed to Tributyltin (TBT)|Aquat. Toxicol.83(4): 295-305|2007|10.1016/j.aquatox.2007.05.003
109237|T||Souhaili-El Amri,H., X. Fargetton, E. Benoit, M. Totis, and A.M. Batt|Inducing Effect of Albendazole on Rat Liver Drug-Metabolizing Enzymes and Metabolite Pharmacokinetics|Toxicol. Appl. Pharmacol.92(1): 141-149|1988|10.1016/0041-008X(88)90236-0
109238|T||Levin,W., A.W. Wood, H. Yagi, P.M. Dansette, D.M. Jerina, and A.H. Conney|Carcinogenicity of Benzo(a)pyrene 4,5-,7,8-, and 9,10-Oxides on Mouse Skin|Proc. Natl. Acad. Sci. U.S.A.73(1): 243-247|1976|10.1073/pnas.73.1.243
109239|T||Hervonen,H., H.A. Elo, and P. Ylitalo|Blood-Brain Barrier Damage by 2-Methyl-4-Chlorophenoxyacetic Acid Herbicide in Rats|Toxicol. Appl. Pharmacol.65:23-31|1982|10.1016/0041-008X(82)90358-1
109240|T||Moody,D.E., and B.D. Hammock|The Effect of Tridiphane (2-(3,5-Dichlorophenyl)-2-(2,2,2-Trichloroethyl)oxirane) on Hepatic Epoxide-Metabolizing Enzymes:  Indications of Peroxisome Proliferation|Toxicol. Appl. Pharmacol.89(1): 37-48|1987|10.1016/0041-008X(87)90174-8
109241|T||Megharaj,M., H.W. Pearson, and K. Venkateswarlu|Toxicity of Phenol and Three Nitrophenols Towards Growth and Metabolic Activities of Nostoc linckia, Isolated from Soil|Arch. Environ. Contam. Toxicol.21:578-584|1991|10.1007/BF01183881
109242|T||Stratton,G.W.|The Influence of Solvent Type on Solvent-Pesticide Interactions in Bioassays|Arch. Environ. Contam. Toxicol.14(6): 651-658|1985|10.1007/BF01055771
109243|A||Wheelock,C.E., J.L. Miller, M.J. Miller, B.M. Phillips, S.J. Gee, R.S. Tjeerdema, and B.D. Hammock|Influence of Container Adsorption upon Observed Pyrethroid Toxicity to Ceriodaphnia dubia and Hyalella azteca|Aquat. Toxicol.74(1): 47-52|2005|10.1016/j.aquatox.2005.04.007
109244|A||Viant,M.R., C.A. Pincetich, D.E. Hinton, and R.S. Tjeerdema|Toxic Actions of Dinoseb in Medaka (Oryzias latipes) Embryos as Determined by In Vivo 31P NMR, HPLC-UV and 1H NMR Metabolomics|Aquat. Toxicol.76(3-4): 329-342|2006|10.1016/j.aquatox.2005.10.007
109245|T||Vernile,P., F. Fornelli, G. Bari, M. Spagnuolo, F. Minervini, E. De Lillo, and P. Ruggiero|Bioavailability and Toxicity of Pentachlorophenol in Contaminated Soil Evaluated on Coelomocytes of Eisenia andrei (Annelida:  Lumbricidae)|Toxicol. In Vitro21(2): 302-307|2007|10.1016/j.tiv.2006.09.026
109247|A||Turesson,E.U., S. Stiernstrom, J. Minten, M. Adolfsson-Erici, B.E. Bengtsson, and M. Breitholtz|Development and Reproduction of the Freshwater Harpacticoid Copepod Attheyella crassa for Assessing Sediment-Associated Toxicity|Aquat. Toxicol.83(3): 180-189|2007|10.1016/j.aquatox.2007.04.002
109249|T||Nilsson,E.E., M.D. Anway, J. Stanfield, and M.K. Skinner|Transgenerational Epigenetic Effects of the Endocrine Disruptor Vinclozolin on Pregnancies and Female Adult Onset Disease|Reproduction (Camb.)135(5): 713-721|2008|10.1530/REP-07-0542
109250|T||Jefferson,W.N., E. Padilla-Banks, and R.R. Newbold|Disruption of the Female Reproductive System by the Phytoestrogen Genistein|Reprod. Toxicol.23(3): 308-316|2007|10.1016/j.reprotox.2006.11.012
109251|A||Hansen,L.K., P.C. Frost, J.H. Larson, and C.D. Metcalfe|Poor Elemental Food Quality Reduces the Toxicity of Fluoxetine on Daphnia magna|Aquat. Toxicol.86(1): 99-103|2008|10.1016/j.aquatox.2007.10.005
109252|A||Henry,T.B., and M.C. Black|Acute and Chronic Toxicity of Fluoxetine (Selective Serotonin Reuptake Inhibitor) in Western Mosquitofish|Arch. Environ. Contam. Toxicol.54(2): 325-330|2008|10.1007/s00244-007-9018-0
109253|A||Gravel,A., and M.M. Vijayan|Salicylate Impacts the Physiological Responses to an Acute Handling Disturbance in Rainbow Trout|Aquat. Toxicol.85(2): 87-95|2007|10.1016/j.aquatox.2007.07.001
109254|T||Kishta,O., A. Adeeko, D. Li, T. Luu, J.R. Brawer, C. Morales, L. Hermo, B. Robaire, B.F. Hales, J. Barthelemy, D.G. Cyr|In Utero Exposure to Tributyltin Chloride Differentially Alters Male and Female Fetal Gonad Morphology and Gene Expression Profiles in the Sprague-Dawley Rat|Reprod. Toxicol.23(1): 1-11|2007|10.1016/j.reprotox.2006.08.014
109255|T||Katsuda,S.I., M. Yoshida, S. Isagawa, Y. Asagawa, H. Kuroda, T. Watanabe, J. Ando, M. Takahashi, and A. Maekawa|Dose- and Treatment Duration-Related Effects of p-tert-Octylphenol on Female Rats|Reprod. Toxicol.14(2): 119-126|2000|10.1016/S0890-6238(00)00063-0
109256|T||Takagi,H., M. Shibutani, K.Y. Lee, H.C. Lee, M. Nishihara, C. Uneyama, S. Takigami, K. Mitsumori, and M. Hirose|Lack of Modifying Effects of Genistein on Disruption of the Reproductive System by Perinatal Dietary Exposure to Ethinylestradiol in Rats|Reprod. Toxicol.18(5): 687-700|2004|10.1016/j.reprotox.2004.03.002
109257|T||Takashima-Sasaki,K., C. Mori, and M. Komiyama|Exposure of Juvenile Female Mice to Isoflavone Causes Lowered Expression of Estrogen-Related Receptor gamma Gene in Vagina|Reprod. Toxicol.23(4): 507-512|2007|10.1016/j.reprotox.2007.03.009
109258|T||Han,X.D., Z.G. Tu, Y. Gong, S.N. Shen, X.Y. Wang, L.N. Kang, Y.Y. Hou, and J.X. Chen|The Toxic Effects of Nonylphenol on the Reproductive System of Male Rats|Reprod. Toxicol.19(2): 215-221|2004|10.1016/j.reprotox.2004.06.014
109259|T||Hossaini,A., M. Dalgaard, A.M. Vinggaard, H. Frandsen, and J.J. Larsen|In Utero Reproductive Study in Rats Exposed to Nonylphenol|Reprod. Toxicol.15(5): 537-543|2001|10.1016/S0890-6238(01)00155-1
109260|T||Yoshida,M., and M. Yukimoto|Effects of Fungicides on Channels in the Fungal Membrane|Pestic. Biochem. Physiol.47(3): 171-177|1993|10.1006/pest.1993.1076
109261|A||Campagna,A., M. Eler, R. Fracacio, B.K. Rodrigues, and N.F. Verani|The Toxic Potential of Aldrin and Heptachlor on Danio rerio Juveniles (Cypriniformes, Cyprinidae)|Ecotoxicology16(3): 289-298|2007|10.1007/s10646-006-0127-8
109262|T||Bosshardt,D.K., J.W. Huff, and R.H. Barnes|Effect of Bromine on Chick Growth|Proc. Soc. Exp. Biol. Med.92:219-222|1956|10.3181/00379727-92-22432
109263|T||Gupta,P.K., S. Rishi, S.K. Jain, and S. Dhillon|Evaluation of Prophylactic Potential of Withania somnifera for Chlorpyrifos-Induced Neurotoxicity in Rats|Toxicol. Int.14(2): 163-169|2007|
109265|T||Bailey,V.L., J.L. Smith, and H.,Jr. Bolton|Fungal-to-Bacterial Ratios in Soils Investigated for Enhanced C Sequestration|Soil Biol. Biochem.34(7): 997-1007|2002|10.1016/S0038-0717(02)00033-0
109266|A||Bakke,M.J., and T.E. Horsberg|Effects of Algal-Produced Neurotoxins on Metabolic Activity in Telencephalon, Optic Tectum and Cerebellum of Atlantic Salmon (Salmo salar)|Aquat. Toxicol.85(2): 96-103|2007|10.1016/j.aquatox.2007.08.003
109267|A||Gooding,M.P., T.J. Newton, M.R. Bartsch, and K.C. Hornbuckle|Toxicity of Synthetic Musks to Early Life Stages of the Freshwater Mussel Lampsilis cardium|Arch. Environ. Contam. Toxicol.51(4): 549-558|2006|10.1007/s00244-005-0223-4
109268|T||El Hassani,A.K., M. Dacher, V. Gary, M. Lambin, M. Gauthier, and C. Armengaud|Effects of Sublethal Doses of Acetamiprid and Thiamethoxam on the Behavior of the Honeybee (Apis mellifera)|Arch. Environ. Contam. Toxicol.54(4): 653-661|2008|10.1007/s00244-007-9071-8
109269|A||Kingtong,S., Y. Chitramvong, and T. Janvilisri|ATP-Binding Cassette Multidrug Transporters in Indian-Rock Oyster Saccostrea forskali and Their Role in the Export of an Environmental Organic Pollutant Tributyltin|Aquat. Toxicol.85(2): 124-132|2007|10.1016/j.aquatox.2007.08.006
109270|T||Nagao,T., S. Yoshimura, Y. Saito, M. Nakagomi, K. Usumi, and H. Ono|Reproductive Effects in Male and Female Rats from Neonatal Exposure to p-Octylphenol|Reprod. Toxicol.15(6): 683-692|2001|10.1016/S0890-6238(01)00173-3
109271|T||Gennari,A., M. Potters, W. Seinen, and R. Pieters|Organotin-Induced as Observed In Vitro is not Relevant for Induction of Thymus Atrophy at Antiproliferative Doses|Toxicol. Appl. Pharmacol.147(2): 259-266|1997|10.1006/taap.1997.8265
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109273|A||Reddy,P.M.|Effect of Fenvalerate on Some Haematological Parameters of a Fresh Water Fish, Labeo rohita|Int. J. Mendel7(1): 73-76|1990|
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109278|T||Abdel-Hafez,S.I.I., and A.H.M. El-Said|Effect of Garlic, Onion and Sodium Benzoate on the Mycoflora of Pepper, Cinnamon and Rosemary in Egypt|Int. Biodeterior. Biodegrad.39(1): 67-77|1997|10.1016/S0964-8305(97)00002-4
109279|A||Cengiz,E.I., and E. Unlu|Sublethal Effects of Commercial Deltamethrin on the Structure of the Gill, Liver and Gut Tissues of Mosquitofish, Gambusia affinis:  A Microscopic Study|Environ. Toxicol. Pharmacol.21(3): 246-253|2006|10.1016/j.etap.2005.08.005
109280|T||Elmer,W.H., and R.J. Stipes|Movement and Disappearance of Dicloran, Iprodione, and Vinclozolin in Peanut and Nonpeanut Soil|Plant Dis.69(4): 292-294|1985|10.1094/PD-69-292
109281|A||Leon,A., P.S. Wu, L.C. Hall, M.L. Johnson, and S.J. Teh|Global Gene Expression Profiling of Androgen Disruption in Qurt Strain Medaka|Environ. Sci. Technol.42(3): 962-969|2008|10.1021/es071785c
109282|T||Zhou,X., M.M. Wheeler, F.M. Oi, and M.E. Scharf|Inhibition of Termite Cellulases by Carbohydrate-Based Cellulase Inhibitors:  Evidence from In Vitro Biochemistry and In Vivo Feeding Studies|Pestic. Biochem. Physiol.90(1): 31-41|2008|10.1016/j.pestbp.2007.07.011
109283|T||Huang,Q., M. Liu, J. Feng, and Y. Liu|Effect of Dietary Benzoxadiazole on Larval Development, Cuticle Enzyme and Antioxidant Defense System in Housefly (Musca domestica L.)|Pestic. Biochem. Physiol.90(2): 119-125|2008|10.1016/j.pestbp.2007.11.001
109284|T||Manjunatha,G., S.N. Raj, N.P. Shetty, and H.S. Shetty|Nitric Oxide Donor Seed Priming Enhances Defense Responses and Induces Resistance Against Pearl Millet Downy Mildew Disease|Pestic. Biochem. Physiol.91(1): 1-11|2008|10.1016/j.pestbp.2007.11.012
109285|T||Muthuviveganandavel,V., P. Muthuraman, S. Muthu, and K. Srikumar|A Study on Low Dose Cypermethrin Induced Histopathology, Lipid Peroxidation and Marker Enzyme Changes in Male Rat|Pestic. Biochem. Physiol.91(1): 12-16|2008|10.1016/j.pestbp.2007.11.010
109286|T||Cao,C.W., J. Zhang, X.W. Gao, P. Liang, and H.L. Guo|Overexpression of Carboxylesterase Gene Associated with Organophosphorous Insecticide Resistance in Cotton Aphids, Aphis gossypii (Glover)|Pestic. Biochem. Physiol.90(3): 175-180|2008|10.1016/j.pestbp.2007.11.004
109287|T||Alla,M.M.N., A.M. Badawi, N.M. Hassan, Z.M. El-Bastawisy, and E.G. Badran|Effect of Metribuzin, Butachlor and Chlorimuron-Ethyl on Amino Acid and Protein Formation in Wheat and Maize Seedlings|Pestic. Biochem. Physiol.90(1): 8-18|2008|10.1016/j.pestbp.2007.07.003
109288|T||Ren,Y., X.Q. Wei, S. Wu, W. Dou, and J.J. Wang|Comparison of Acetylcholinesterase from Three Field Populations of Liposcelis paeta Pearman (Psocoptera: Liposcelididae): Implications of Insecticide Resistance|Pestic. Biochem. Physiol.90(3): 196-202|2008|10.1016/j.pestbp.2007.11.008
109289|T||Liu,Z.L., S.H. Ho, and S.H. Goh|Effect of Fraxinellone on Growth and Digestive Physiology of Asian Corn Borer, Ostrinia furnacalis Guenee|Pestic. Biochem. Physiol.91(2): 122-127|2008|10.1016/j.pestbp.2008.03.003
109290|T||Yang,M., J. Zhang, K.Y. Zhu, T. Xuan, X. Liu, Y. Guo, and E. Ma|Increased Activity and Reduced Sensitivity of Acetylcholinesterase Associated with Malathion Resistance in a Field Population of the Oriental Migratory Locust, Locusta migratoria manilensis (Meyen)|Pestic. Biochem. Physiol.91(1): 32-38|2008|10.1016/j.pestbp.2007.12.004
109291|T||Wang,J., Z. Feng, D. Yao, J. Sui, W. Zhong, M. Li, and J. Dai|Warfarin Resistance in Rattus losea in Guangdong Province, China|Pestic. Biochem. Physiol.91(2): 90-95|2008|10.1016/j.pestbp.2008.01.007
109292|T||Liu,F., T. Miyata, Z.J. Wu, C.W. Li, G. Wu, S.X. Zhao, and L.H. Xie|Effects of Temperature on Fitness Costs, Insecticide Susceptibility and Heat Shock Protein in Insecticide-Resistant and -Susceptible Plutella xylostella|Pestic. Biochem. Physiol.91(1): 45-52|2008|10.1016/j.pestbp.2008.01.002
109293|T||Jaleel,C.A., R. Gopi, P. Manivannan, M. Gomathinayagam, P.V. Murali, and R. Panneerselvam|Soil Applied Propiconazole Alleviates the Impact of Salinity on Catharanthus roseus by Improving Antioxidant Status|Pestic. Biochem. Physiol.90(2): 135-139|2008|10.1016/j.pestbp.2007.11.003
109294|T||Van Pottelberge,S., T. Van Leeuwen, K. Van Amermaet, and L. Tirry|Induction of Cytochrome P450 Monooxygenase Activity in the Two-Spotted Spider Mite Tetranychus urticae and Its Influence on Acaricide Toxicity|Pestic. Biochem. Physiol.91(2): 128-133|2008|10.1016/j.pestbp.2008.03.005
109295|T||Wellmann,H., and K. Schauz|DMI-Resistance in Ustilago maydis: 1. Characterization and Genetic Analysis of Triadimefon-Resistant Laboratory Mutants|Pestic. Biochem. Physiol.43(3): 171-181|1992|10.1016/0048-3575(92)90031-T
109296|T||Rhone-Poulenc|3,5-Dichloroaniline Health and Safety Study, Acute Toxicity and Local Cutaneous Tolerance Report with Cover Letter Dated 110488|EPA/OTS Doc.#86-890000024s:18 p.|2000|
109297|T||Kalamarakis,A.E., M.A. De Waard, B.N. Ziogas, and S.G. Georgopoulos|Resistance to Fenarimol in Nectria haematococca var. cucurbitae|Pestic. Biochem. Physiol.40(3): 212-220|1991|10.1016/0048-3575(91)90092-Z
109298|T||Ziogas,B.N., A.G. Vitoratos, E.G. Sideris, and S.G. Georgopoulos|Effects of Sterol Biosynthesis Inhibitors on Mitosis|Pestic. Biochem. Physiol.37(3): 254-265|1990|10.1016/0048-3575(90)90132-L
109299|T||Soffietti,G.M., A. Lucisano, C. Nebbia, M. Amorena, G. Re, and L. Severino|Experimental Intoxication by Fungicides:  Elimination and Residues Determination of Vinclozolin in Blood and Organs from Treated Animals|Riv. Tossicol. Sper. Clin.17(1-2): 33-42|1987|
109301|A||Co.,R., A. Serafim, R.P. Cosson, A. Fiala-Medioni, L. Camus, A. Colaco, R. Serrao-Santos, and M.J. Bebianno|Antioxidant Biochemical Responses to Long-Term Copper Exposure in Bathymodiolus azoricus from Menez-Gwen Hydrothermal Vent|Sci. Total Environ.389(2-3): 407-417|2008|10.1016/j.scitotenv.2007.08.056
109302|A||Oliveira,M., M. Pacheco, and M.A. Santos|Organ Specific Antioxidant Responses in Golden Grey Mullet (Liza aurata) Following a Short-Term Exposure to Phenanthrene|Sci. Total Environ.396(1): 70-78|2008|10.1016/j.scitotenv.2008.02.012
109303|A||Pribyl,P., V. Cepak, and V. Zachleder|Cytoskeletal Alterations in Interphase Cells of the Green Alga Spirogyra decimina in Response to Heavy Metals Exposure:  I.  The Effect of Cadmium|Protoplasma (Multiple Languages)226(3-4): 231-240|2005|10.1007/s00709-005-0123-5
109304|A||Rao,J.V., S.K. Arepalli, V.G. Gunda, and J.B. Kumar|Assessment of Cytoskeletal Damage in Paramecium caudatum:  An Early Warning System for Apoptotic Studies|Pestic. Biochem. Physiol.91(2): 75-80|2008|10.1016/j.pestbp.2008.01.004
109305|A||Hong,Y., H.Y. Hu, and F.M. Li|Growth and Physiological Responses of Freshwater Green Alga Selenastrum capricornutum to Allelochemical Ethyl 2-Methyl Acetoacetate (EMA) Under Different Initial Algal Densities|Pestic. Biochem. Physiol.90(3): 203-212|2008|10.1016/j.pestbp.2007.11.009
109306|A||Sibila,M.A., M.C. Garrido, J.A. Perales, and J.M. Quiroga|Ecotoxicity and Biodegradability of an Alkyl Ethoxysulphate Surfactant in Coastal Waters|Sci. Total Environ.394(2-3): 265-274|2008|10.1016/j.scitotenv.2008.01.043
109308|A||Lin,J.H., W.C. Kao, K.P. Tsai, and C.Y. Chen|A Novel Algal Toxicity Testing Technique for Assessing the Toxicity of both Metallic and Organic Toxicants|Water Res.39(9): 1869-1877|2005|10.1016/j.watres.2005.02.015
109309|A||LaRocca,C.A., D.E. Francisco, and F.A. DiGiano|Effects of Diet on Survival, Reproduction, and Sensitivity of Ceriodaphnia dubia|Water Environ. Res.66(7): 905-911|1994|10.2175/WER.66.7.7
109310|T||Kumagai,K., N. Kiyosawa, K. Ito, T. Yamoto, M. Teranishi, H. Nakayama, and S. Manabe|Influence of Kupffer Cell Inactivation on Cycloheximide-Induced Hepatic Injury|Toxicology241(3): 106-118|2007|10.1016/j.tox.2007.08.090
109311|A||Hook,S.E., A.D. Skillman, B. Gopalan, J.A. Small, and I.R. Schultz|Gene Expression Profiles in Rainbow Trout, Onchorynchus mykiss, Exposed to a Simple Chemical Mixture|Toxicol. Sci.102(1): 42-60|2008|10.1093/toxsci/kfm293
109312|A||Stom,D.I., and T.A. Geel|Toxic Action of Organic Compounds and Heavy Metals on Epischura baicalensis and Daphnia magna in the Presence of Fodder Organisms|Hydrobiol. J.37(4): 130-136|2001|10.1615/HydrobJ.v37.i4.120
109313|T||Jin,H., S.H. Chang, C.X. Xu, J.Y. Shin, Y.S. Chung, S.J. Park, Y.S. Lee, G.H. An, K.H. Lee, and M.H. Cho|High Dietary Inorganic Phosphate Affects Lung Through Altering Protein Translation, Cell Cycle, and Angiogenesis in Developing Mice|Toxicol. Sci.100(1): 215-223|2007|10.1093/toxsci/kfm202
109314|T||He,X., Z. Zhang, H. Zhang, Y. Zhao, and Z. Chai|Neurotoxicological Evaluation of Long-Term Lanthanum Chloride Exposure in Rats|Toxicol. Sci.103(2): 354-361|2008|10.1093/toxsci/kfn046
109315|T||Bhattacharya,A.K., A. Biswas, and G. Haldar|Genotoxicity of Amino Acids - A Probe|Indian J. Exp. Biol.24(7): 460-463|1986|
109316|T||Graf,G.E.|Chromosome Breakage Induced by X-Rays, Maleic Hydrazide and Its Derivatives. In Relation to Knob Number in Maize|J. Hered.48:155-159|1957|10.1093/oxfordjournals.jhered.a106711
109317|T||Singh,L., and S. Srivastava|In Vitro Sensitivity of Some Phylloplane Fungi of Calotropis procera R. Br. to Some Growth Regulators|J. Environ. Biol.9(3): 271-274|1988|
109318|T||Rombke,J., H. Hempel, A. Scheffczyk, H.J. Schallnass, M. Alvinerie, and J.P. Lumaret|Environmental Risk Assessment of Veterinary Pharmaceuticals:  Development of a Standard Laboratory Test with the Dung Beetle Aphodius constans|Chemosphere70(1): 57-64|2007|10.1016/j.chemosphere.2007.07.027
109319|A||Merritt,C.M., L. Torrentera, K.M. Winter, C.K. Tornehl, K. Girvin, and S.I. Dodson|Dieldrin Reduces Male Production and Sex Ratio in Daphnia galeata mendotae|Toxicol. Ind. Health15:192-200|1999|10.1177/074823379901500117
109320|A||Griffitt,R.J., T.W. Greig, G.T. Chandler, and J.M. Quattro|Serial Analysis of Gene Expression Reveals Identifiable Patterns in Transcriptome Profiles of Palaemonetes pugio Exposed to Three Common Environmental Stressors|Environ. Toxicol. Chem.26(11): 2413-2419|2007|10.1897/07-158R.1
109321|T||Lock,E.A., and P.N. Berry|Biochemical Changes in the Rat Cerebellum Following Cypermethrin Administration|Toxicol. Appl. Pharmacol.59:508-514|1981|10.1016/0041-008X(81)90304-5
109322|T||Newbold,R.R., W.N. Jefferson, E. Padilla-Banks, V.R. Walker, and D.S. Pena|Cell Response Endpoints Enhance Sensitivity of the Immature Mouse Uterotropic Assay|Reprod. Toxicol.15(3): 245-252|2001|10.1016/S0890-6238(01)00130-7
109323|A||Weinstein,J.E., and T.R. Garner|Piperonyl Butoxide Enhances the Bioconcentration and Photoinduced Toxicity of Fluoranthene and Benzo(a)pyrene to Larvae of the Grass Shrimp (Palaemonetes pugio)|Aquat. Toxicol.87(1): 28-36|2008|10.1016/j.aquatox.2008.01.002
109324|A||Fleeger,J.W., K.A. Gust, S.J. Marlborough, and G. Tita|Mixtures of Metals and Polynuclear Aromatic Hydrocarbons Elicit Complex, Nonadditive Toxicological Interactions in Meiobenthic Copepods|Environ. Toxicol. Chem.26(8): 1677-1685|2007|10.1897/06-397R.1
109325|A||Palmqvist,A., L.J. Rasmussen, and V.E. Forbes|Relative Impact of Coexposure Compared to Single-Substance Exposure on the Biotransformation and Toxicity of Benzo[a]pyrene and Fluoranthene in the Marine Polychaete Capitella sp. I.|Environ. Toxicol. Chem.27(2): 375-386|2008|10.1897/07-156R.1
109326|A||DeLorenzo,M.E., and J. Fleming|Individual and Mixture Effects of Selected Pharmaceuticals and Personal Care Products on the Marine Phytoplankton Species Dunaliella tertiolecta|Arch. Environ. Contam. Toxicol.54(2): 203-210|2008|10.1007/s00244-007-9032-2
109328|A||Hansen,B.H., D. Altin, S.H. Vang, T. Nordtug, and A.J. Olsen|Effects of Naphthalene on Gene Transcription in Calanus finmarchicus (Crustacea:  Copepoda)|Aquat. Toxicol.86(2): 157-165|2008|10.1016/j.aquatox.2007.10.009
109329|T||Tu,C.M.|Effects of Mocap, N-Serve, Telone, and Vorlex at Two Temperatures on Populations and Activities of Microorganisms in Soil|Can. J. Plant Sci.53:401-405|1973|10.4141/cjps73-077
109330|A||Evans,A.D., and M. Nipper|The Influence of Biomass on the Toxicity of Hydrophobic Organic Contaminants|Arch. Environ. Contam. Toxicol.54(2): 219-225|2008|10.1007/s00244-007-9019-z
109331|A||Canton Analytical Laboratories|Acute and Chronic Effects of Acenaphthene and 2,4,6 Trichlorophenol on the Midge Paratanytarsus sp. (Diptera:  Chironomidae)|Report CI 81-9299, Inst.of Environ.Industrial Health, Univ.of Michigan, Ann Arbor MI:46 p.|1983|
109332|A||Gesto,M., J.L. Soengas, and J.M. Miguez|Acute and Prolonged Stress Responses of Brain Monoaminergic Activity and Plasma Cortisol Levels in Rainbow Trout are Modified by PAHs (Naphthalene, beta-Naphthoflavone and Benzo(a)pyrene) Treatment|Aquat. Toxicol.86(3): 341-351|2008|10.1016/j.aquatox.2007.11.014
109333|A||Jensen,M.H., T.G. Nielsen, and I. Dahllof|Effects of Pyrene on Grazing and Reproduction of Calanus finmarchicus and Calanus glacialis from Disko Bay, West Greenland|Aquat. Toxicol.87(2): 99-107|2008|10.1016/j.aquatox.2008.01.005
109334|A||Hunter,W., Y. Xu, F. Spurlock, and J. Gan|Using Disposable Polydimethylsiloxane Fibers to Assess the Bioavailability of Permethrin in Sediment|Environ. Toxicol. Chem.27(3): 568-575|2008|10.1897/07-335.1
109335|T||Hashem,F.M., S.A. Saleh, P. Van Berkum, and M. Voll|Survival of Bradyrhizobium sp. (Arachis) on Fungicide-Treated Peanut Seed in Relationship to Plant Growth and Yield|World J. Microbiol. Biotechnol.13(3): 335-340|1997|10.1023/A:1018595310239
109336|AT||Chung,M.K., R. Hu, M.H. Wong, and K.C. Cheung|Comparative Toxicity of Hydrophobic Contaminants to Microalgae and Higher Plants|Ecotoxicology16(5): 393-402|2007|10.1007/s10646-007-0134-4
109337|A||Levin,M., B. Brownawell, and S. De Guise|Sumithrin Immunotoxicity in the American Lobster (Homarus americanus) upon Experimental Exposure|J. Shellfish Res.26(4): 1161-1164|2007|10.2983/0730-8000(2007)26[1161:SIITAL]2.0.CO;2
109338|A||Krasnov,A., S. Afanasyev, and A. Oikari|Hepatic Responses of Gene Expression in Juvenile Brown Trout (Salmo trutta lacustris) Exposed to Three Model Contaminants Applied Singly and in Combination|Environ. Toxicol. Chem.26(1): 100-109|2007|10.1897/06-056R.1
109339|T||Tuluce,Y., and I. Celik|Influence of Subacute and Subchronic Treatment of Abcisic Acid and Gibberellic Acid on Serum Marker Enzymes and Erythrocyte and Tissue Antioxidant Defense Systems and Lipid Peroxidation in Rats|Pestic. Biochem. Physiol.86(2): 85-92|2006|10.1016/j.pestbp.2006.01.009
109340|A||Cook,M.E., and P.A. Moore|The Effects of the Herbicide Metolachlor on Agonistic Behavior in the Crayfish, Orconectes rusticus|Arch. Environ. Contam. Toxicol.55(1): 94-102|2008|10.1007/s00244-007-9088-z
109341|T||Feng,P.C.C., G.J. Baley, W.P. Clinton, G.J. Bunkers, M.F. Alibhai, T.C. Paulitz, and K.K. Kidwell|Glyphosate Inhibits Rust Diseases in Glyphosate-Resistant Wheat and Soybean|Proc. Natl. Acad. Sci. U.S.A.102(48): 17290-17295|2005|10.1073/pnas.0508873102
109342|A||Nielsen,L.W., and I. Dahllof|Direct and Indirect Effects of the Herbicides Glyphosate, Bentazone and MCPA on Eelgrass (Zostera marina)|Aquat. Toxicol.82(1): 47-54|2007|10.1016/j.aquatox.2007.01.004
109343|A||Lin,C.C., M.N.Y. Hui, and S.H. Cheng|Toxicity and Cardiac Effects of Carbaryl in Early Developing Zebrafish (Danio rerio) Embryos|Toxicol. Appl. Pharmacol.222(2): 159-168|2007|10.1016/j.taap.2007.04.013
109344|A||Triebskorn,R., H. Casper, A. Heyd, R. Eikemper, H.R. Kohler, and J. Schwaiger|Toxic Effects of the Non-Steroidal Anti-Inflammatory Drug Diclofenac:  Part II.  Cytological Effects in Liver, Kidney, Gills and Intestine of Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.68(2): 151-166|2004|10.1016/j.aquatox.2004.03.015
109345|T||Anema,B.P., J.J. Bouwman, and J. De Vlugt|Fluazinam:  A New Broad Spectrum Fungicide for Use in Bulbs|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(2b): 635-642|1988|
109348|T||Kumar,J., and J. Prakash|Effect of Thiobencarb and Butachlor on Photosynthesis, Carbohydrate Content, and Amylase and Protease Activity in Rice (Oryza sativa) and Barnyard Grass (Echinochloa crus-galli)|Indian J. Agric. Sci.64(1): 9-14|1994|
109349|T||Behera,B., B.K. Pattanaik, and G.S. Singh|Time and Method of Herbicide Application in Puddle-Seeded Rice (Oryza sativa) in Dry Season|Indian J. Agric. Sci.66(10): 607-609|1996|
109350|T||Shukla,A.K., and R.R. Mishra|Influence of Herbicides on Microbial Population and Enzyme Activity in Potato (Solanum tuberosum) - Field Soil|Indian J. Agric. Sci.67(12): 610-611|1997|
109351|AT||Singh,H.P., and F. Rahman|Effect of Herbicides on Seedling Growth and Weeds in Rice (Oryza sativa) Nursery|Indian J. Agron.37(1): 176-177|1992|
109352|T||Singh,S.S., S.J. Singh, and S.S. Mishra|Weed Management in Transplanted Rice (Oryza sativa) Under Mid-Land Calcareous Ecosystem|Indian J. Agron.37(1): 173-176|1992|
109353|T||Bhargavi,K., and T.Y. Reddy|Growth Pattern of Weeds and Semi-Dry Rice (Oryza sativa) Under Weed-Management Practices|Indian J. Agron.38(2): 295-298|1993|
109354|T||Ravichandran,V.K.|Weed Control in Dry-Seeded Rice (Oryza sativa)|Indian J. Agron.38(3): 477-480|1993|
109355|T||Kurmi,K.|Comparative Efficiency of Herbicides in Transplanted Summer Rice (Oryza sativa)|Indian J. Agron.38(2): 302-303|1993|
109356|T||Sharma,U.C., A.N. Choudhury, and A.K. Khan|Effect of Integrated Weed Management on Yield and Nutrient Uptake by Rainfed Rice (Oryza sativa) in Acid Soils of Nagaland|Indian J. Agron.39(4): 553-556|1994|
109357|T||Bali,A.S., B.A. Ganai, K.N. Singh, and R. Kotru|Weed Control in Transplanted Rice (Oryza sativa)|Indian J. Agron.39(1): 16-18|1994|
109358|T||Balyan,R.S., V.M. Bhan, and R.K. Malik|Effect of Surfactant on the Efficiency of Various Herbicides in Direct Seeded Rice|Pesticides 20(11): 39-40|1986|
109359|T||Mukhopadhyay,S.K., and A. Mandal|Combined Formulation of Fluchloralin and 2,4-D Compared with Other Rice Herbicides for Weed Control in Transplanted Rice|Pesticides 19(7): 15-17|1985|
109360|T||Filipescu,G., E. Codorean, D. Laky, C. Tanase, and L. Ciotaru|Morphological and Biochemical Characteristics in the Experimentally Treated Rats with Indigenous Synthetical Products Used as Pesticides|Rom. J. Morphol. Embryol.37(1-2): 49-54|1991|
109362|T||Joseph,P.K., and C.S. Sundaresh|Serum Urea and Enzymes in Rat on Intragastric Administration of Garlic Oil and Garlic Extracts|Curr. Sci. (Bangalore)58(24): 1409-1410|1989|
109363|T||Bang,U.|Screening of Natural Plant Volatiles to Control the Potato (Solanum tuberosum) Pathogens Helminthosporium solani, Fusarium solani, Phoma foveata and Rhizoctonia solani|Potato Res.50(2): 185-203|2007|10.1007/s11540-008-9044-y
109364|T||Chan,K.C., M.C. Yin, and W.J. Chao|Effect of Diallyl Trisulfide-Rich Garlic Oil on Blood Coagulation and Plasma Activity of Anticoagulation Factors in Rats|Food Chem. Toxicol.45(3): 502-507|2007|10.1016/j.fct.2006.10.005
109367|T||Davis,R.M., J.J. Hao, M.K. Romberg, J.J. Nunez, and R.F. Smith|Efficacy of Germination Stimulants of Sclerotia of Sclerotium cepivorum for Management of White Rot of Garlic|Plant Dis.91(2): 204-208|2007|10.1094/PDIS-91-2-0204
109368|T||Fisher,C.D., L.M. Augustine, J.M. Maher, D.M. Nelson, A.L. Slitt, C.D. Klaassen, L.D. Lehman-McKeeman, and N.J. Cherrin|Induction of Drug-Metabolizing Enzymes by Garlic and Allyl Sulfide Compounds via Activation of Constitutive Androstane Receptor and Nuclear Factor E2-Related Factor 2|Drug Metab. Dispos.35(6): 995-1000|2007|10.1124/dmd.106.014340
109370|AT||Harris,J.C., S. Plummer, M.P. Turner, and D. Lloyd|The Microaerophilic Flagellate Giardia intestinalis:  Allium sativum (Garlic) is an Effective Antigiardial|Microbiology146(12): 3119-3127|2000|10.1099/00221287-146-12-3119
109371|T||Ahmad,M.|Potentiation Between Pyrethroid and Organophosphate Insecticides in Resistant Field Populations of Cotton Bollworm Helicoverpa armigera (Lepidoptera:  Noctuidae) in Pakistan|Pestic. Biochem. Physiol.91(1): 24-31|2008|10.1016/j.pestbp.2007.12.003
109372|T||Shono,T., S. Suita, H. Kai, and Y. Yamaguchi|The Effect of a Prenatal Androgen Disruptor, Vinclozolin, on Gubernacular Migration and Testicular Descent in Rats|J. Pediatr. Surg.39(2): 213-216|2004|10.1016/j.jpedsurg.2003.10.015
109373|T||Masthan,S.C., K.A. Reddy, T.R. Reddy, and L.J. Rao|Increasing the Productivity of Rice, Maize and Groundnut in Farmers' Fields of Andhra Pradesh Through Weed Control|Pesticides 23(6): 42-44|1989|
109374|T||Ethyl Corp.|Activity of T1409 in the In Vivo Cytogenetics Assay in Rodents (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000225:104 p.|1991|
109375|T||Ethyl Corp.|21-Day Pilot Study of Meta-Phenoxybenzaldehyde (MPBAD) (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000216:42 p.|1991|
109376|T||Ethyl Corp.|Activity of T1410 in the Dominant Lethal Assay in Rodents for Mutagenicity (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000226:131 p.|1991|
109377|T||Fidalgo,F., I. Santos, and R. Salema|Callus Tissue of Solanum tuberosum L. Cultured in the Presence of the Pyrethroid Deltamethrin|Ann. Appl. Biol.131(1): 171-178|1997|10.1111/j.1744-7348.1997.tb05404.x
109378|T||Cabral,J.R.P., D. Galendo, M. Laval, and N. Lyandrat|Carcinogenicity Studies with Deltamethrin in Mice and Rats|Cancer Lett.49(2): 147-152|1990|10.1016/0304-3835(90)90151-M
109379|T||Bhunya,S.P., and P.C. Pati|Effect of Deltamethrin, a Synthetic Pyrethroid, on the Induction of Chromosome Aberrations, Micronuclei and Sperm Abnormalities in Mice|Mutagenesis5(3): 229-232|1990|10.1093/mutage/5.3.229
109380|T||Glowacka,B., and H. Malinowski|The Toxicity of Deltamethrin to Pine Beauty Moth Panolis flammea Schiff. and Its Parasitoids Barichneumon bilunulatus Grav. and Rictichneumon pachymerus Katz|Pestic. Sci.32(4): 413-417|1991|10.1002/ps.2780320403
109381|A||Salibian,A., and J.L. Marazzo|Studies on the Effects of Deltamethrin on Sodium Net Transport Through the In Vivo Amphibian Skin|Biomed. Environ. Sci.8(2): 164-168|1995|
109382|T||Byrd,R.A., J.K. Markham, and J.L. Emmerson|Developmental Toxicity of Dinitroaniline Herbicides in Rats and Rabbits: I. Trifluralin|Fundam. Appl. Toxicol.26(2): 181-190|1995|10.1006/faat.1995.1089
109383|T||Carson,M.L., W.E. Arnold, and P.E. Todt|Predisposition of Soybean Seedlings to Fusarium Root Rot with Trifluralin|Plant Dis.75(4): 342-347|1991|10.1094/PD-75-0342
109384|A||Wells,D.E., and A.A. Cowan|Vertebral Dysplasia in Salmonids Caused by the Herbicide Trifluralin|Environ. Pollut. A.29(4): 249-260|1982|10.1016/0143-1471(82)90066-6
109385|T||Ethyl Corp.|Disposition of 14C-Labeled Meta-Phenoxybenzaldehyde Following Multiple Oral Dosing in Rats (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000219:159 p.|1991|
109386|T||Yanase,D., and A. Andoh|Translocation of Photosynthesis-Inhibiting Herbicides in Wheat Leaves Measured by Phytofluorography, the Chlorophyll Fluorescence Imaging|Pestic. Biochem. Physiol.44(1): 60-67|1992|10.1016/0048-3575(92)90009-O
109387|A||Adams,M.S., and J.L. Stauber|Development of a Whole-Sediment Toxicity Test Using a Benthic Marine Microalga|Environ. Toxicol. Chem.23(8): 1957-1968|2004|10.1897/03-232
109388|A||Pagliarani,A., P. Bandiera, V. Ventrella, F. Trombetti, M.P. Manuzzi, M. Pirini, and A.R. Borgatti|Response of Na+-Dependent ATPase Activities to the Contaminant Ammonia Nitrogen in Tapes philippinarum:  Possible ATPase Involvement in Ammonium Transport|Arch. Environ. Contam. Toxicol.55(1): 49-56|2008|10.1007/s00244-007-9102-5
109389|T||Sheppard,L.J., I.D. Leith, A. Crossley, N. Van Dijk, D. Fowler, M.A. Sutton, and C. Woods|Stress Responses of Calluna vulgaris to Reduced and Oxidised N Applied Under 'Real World Conditions'|Environ. Pollut.154(3): 404-413|2008|10.1016/j.envpol.2007.10.040
109390|T||Castro,A., I. Stulen, and L.J. De Kok|Atmospheric NH3 as Plant Nutrient:  A Case Study with Brassica oleracea|Environ. Pollut.154(3): 467-472|2008|10.1016/j.envpol.2007.09.021
109391|A||Puigagut,J., H. Salvado, and J. Garcia|Short-Term Harmful Effects of Ammonia Nitrogen on Activated Sludge Microfauna|Water Res.39(18): 4397-4404|2005|10.1016/j.watres.2005.08.008
109392|A||Martinez-Jeronimo,F., L. Martinez-Jeronimo, and F. Espinosa-Chavez|Effect of Culture Conditions and Mother's Age on the Sensitivity of Daphnia magna Straus 1820 (Cladocera) Neonates to Hexavalent Chromium|Ecotoxicology15(3): 259-266|2006|10.1007/s10646-006-0057-5
109393|A||Christensen,A.M., S. Faaborg-Andersen, F. Ingerslev, and A. Baun|Mixture and Single-Substance Toxicity of Selective Serotonin Reuptake Inhibitors Toward Algae and Crustaceans|Environ. Toxicol. Chem.26(1): 85-91|2007|10.1897/06-219R.1
109394|A||Rosen,G., A. Osorio-Robayo, I. Rivera-Duarte, and D. Lapota|Comparison of Bioluminescent Dinoflagellate (QwikLite) and Bacterial (Microtox) Rapid Bioassays for the Detection of Metal and Ammonia Toxicity|Arch. Environ. Contam. Toxicol.54(4): 606-611|2008|10.1007/s00244-007-9068-3
109395|A||Ortiz-Santaliestra,M.E., A. Marco, M.J. Fernandez-Beneitez, and M. Lizana|Effects of Ammonium Nitrate Exposure and Water Acidification on the Dwarf Newt:  The Protective Effect of Oviposition Behaviour on Embryonic Survival|Aquat. Toxicol.85(4): 251-257|2007|10.1016/j.aquatox.2007.09.008
109396|A||Okelsrud,A., and R.G. Pearson|Acute and Postexposure Effects of Ammonia Toxicity on Juvenile Barramundi (Lates calcarifer [Bloch])|Arch. Environ. Contam. Toxicol.53(4): 624-631|2007|10.1007/s00244-006-0215-z
109397|A||Loong,A.M., J.Y.L. Tan, W.P. Wong, S.F. Chew, and Y.K. Ip|Defense Against Environmental Ammonia Toxicity in the African Lungfish, Protopterus aethiopicus:  Bimodal Breathing, Skin Ammonia Permeability and Urea Synthesis|Aquat. Toxicol.85(1): 76-86|2007|10.1016/j.aquatox.2007.08.002
109398|A||Rice,S.D.|A Study of Nitrogen Waste Product Metabolism in the Eggs and Fry of Rainbow Trout, Salmo gairdneri|Ph.D.Thesis, Kent State University, Kent, OH:77 p.|1971|
109399|A||Wang,N., R.J. Erickson, C.G. Ingersoll, C.D. Ivey, E.L. Brunson, T. Augspurger, and M.C. Barnhart|Influence of pH on the Acute Toxicity of Ammonia to Juvenile Freshwater Mussels (Fatmucket, Lampsilis siliquoidea)|Environ. Toxicol. Chem.27(5): 1141-1146|2008|10.1897/07-193.1
109400|A||Newton,T.J., and M.R. Bartsch|Lethal and Sublethal Effects of Ammonia to Juvenile Lampsilis Mussels (Unionidae) in Sediment and Water-Only Exposures|Environ. Toxicol. Chem.26(10): 2057-2065|2007|10.1897/06-245R.1
109401|A||Ortiz-Santaliestra,M.E., A. Marco, M.J. Fernandez, and M. Lizana|Influence of Developmental Stage on Sensitivity to Ammonium Nitrate of Aquatic Stages of Amphibians|Environ. Toxicol. Chem.25(1): 105-111|2006|10.1897/05-023R.1
109402|T||Nicolau,G.Y.|Circadian Rhythms of RNA, DNA and Protein in the Rat Thyroid, Adrenal and Testis in Chronic Pesticide Exposure.  II.  Effects of the Herbicides Aminotriazole and Alachlor|Endocrinology21(2): 105-112|1983|
109403|T||Abdel-Mallek,A.Y., S.K. Hemida, and S.A. Omar|Fungal Succession and Decay of Herbicide-Treated Wheat Straw|Folia Microbiol. (Prague)39(6): 561-566|1994|10.1007/BF02814109
109404|A||King-Heiden,T.C., P.N. Wiecinski, A.N. Mangham, K.M. Metz, D. Nesbit, J.A. Pedersen, R.J. Hamers, W. Heideman, and R.E.|Quantum Dot Nanotoxicity Assessment Using the Zebrafish Embryo|Environ. Sci. Technol.43:1605-1611|2009|10.1021/es801925c
109405|T||Gorinova,N., M. Nedkovska, E. Todorovska, L. Simova-Stoilova, Z. Stoyanova, K. Georgieva, K. Mirevska-Kepova, A. Atanas|Improved Phytoaccumulation of Cadmium by Genetically Modified Tobacco Plants (Nicotiana tabacum L.).  Physiological and Biochemical Response of the Transformants to Cadmium Toxicity|Environ. Pollut.145(1): 161-170|2007|10.1016/j.envpol.2006.03.025
109406|T||Ghosh,M., and S.P. Singh|A Comparative Study of Cadmium Phytoextraction by Accumulator and Weed Species|Environ. Pollut.133(2): 365-371|2005|10.1016/j.envpol.2004.05.015
109407|A||Faucher,K., D. Fichet, P. Miramand, and J.P. Lagardere|Impact of Chronic Cadmium Exposure at Environmental Dose on Escape Behaviour in Sea Bass (Dicentrarchus labrax L.; Teleostei, Moronidae)|Environ. Pollut.151(1): 148-157|2008|10.1016/j.envpol.2007.02.017
109408|T||DuRant,S.E., W.A. Hopkins, and L.G. Talent|Impaired Terrestrial and Arboreal Locomotor Performance in the Western Fence Lizard (Sceloporus occidentalis) After Exposure to an AChE-Inhibiting Pesticide|Environ. Pollut.149(1): 18-24|2007|10.1016/j.envpol.2006.12.025
109409|A||Krca,S., R. Zaja, V. Calic, S. Terzic, M.S. Grubesic, M. Ahel, and T. Smital|Hepatic Biomarker Responses to Organic Contaminants in Feral Chub (Leuciscus cephalus) - Laboratory Characterization and Field Study in the Sava River, Croatia|Environ. Toxicol. Chem.26(12): 2620-2633|2007|10.1897/07-227.1
109410|A||Zhao,Y., and M.C. Newman|The Theory Underlying Dose-Response Models Influences Predictions for Intermittent Exposures|Environ. Toxicol. Chem.26(3): 543-547|2007|10.1897/06-398R.1
109411|T||Zhang,S., S. Bursian, P.A. Martin, H.M. Chan, and J.W. Martin|Dietary Accumulation, Disposition, and Metabolism of Technical Pentabrominated Diphenyl Ether (DE-71) in Pregnant Mink (Mustela vison) and Their Offspring|Environ. Toxicol. Chem.27(5): 1184-1193|2008|10.1897/07-487.1
109412|A||Xie,F., M.A. Lampi, D.G. Dixon, and B.M. Greenberg|Assessment of the Toxicity of Mixtures of Nickel or Cadmium with 9,10-Phenanthrenequinone to Daphnia magna: Impact of a Reactive Oxygen-Mediated Mechanism with Different Redox-Active Metals|Environ. Toxicol. Chem.26(7): 1425-1432|2007|10.1897/06-224R.1
109413|A||Williams,G., J.M. West, and E.T. Snow|Total Arsenic Accumulation in Yabbies (Cherax destructor Clark) Exposed to Elevated Arsenic Levels in Victorian Gold Mining Areas, Australia|Environ. Toxicol. Chem.27(6): 1332-1342|2008|10.1897/07-407.1
109414|A||Wigginton,A.J., and W.J. Birge|Toxicity of Cadmium to Six Species in Two Genera of Crayfish and the Effect of Cadmium on Molting Success|Environ. Toxicol. Chem.26(3): 548-554|2007|10.1897/06-186R.1
109415|T||Wang,C.R., X.R. Wang, Y. Tian, H.X. Yu, X.Y. Gu, W.C. Du, and H. Zhou|Oxidative Stress, Defense Response, and Early Biomarkers for Lead-Contaminated Soil in Vicia faba Seedlings|Environ. Toxicol. Chem.27(4): 970-977|2008|10.1897/07-344.1
109416|T||Wang,Y., W. Xie, and D. Wang|Transferable Properties of Multi-Biological Toxicity Caused by Cobalt Exposure in Caenorhabditis elegans|Environ. Toxicol. Chem.26(11): 2405-2412|2007|10.1897/06-646R1.1
109417|T||Vache,C., O. Camares, M.C. Cardoso-Ferreira, B. Dastugue, I. Creveaux, C. Vaury, and M. Bamdad|A Potential Genomic Biomarker for the Detection of Polycyclic Aromatic Hydrocarbon Pollutants: Multidrug Resistance Gene 49 in Drosophila melanogaster|Environ. Toxicol. Chem.26(7): 1418-1424|2007|10.1897/06-552R.1
109418|A||Tran,D., E. Fournier, G. Durrieu, and J.C. Massabuau|Inorganic Mercury Detection by Valve Closure Response in the Freshwater Clam Corbicula fluminea: Integration of Time and Water Metal Concentration Changes|Environ. Toxicol. Chem.26(7): 1545-1551|2007|10.1897/06-390R1.1
109419|A||Shaw,J.R., B. Jackson, K. Gabor, S. Stanton, J.W. Hamilton, and B.A. Stanton|The Influence of Exposure History on Arsenic Accumulation and Toxicity in the Killifish, Fundulus heteroclitus|Environ. Toxicol. Chem.26(12): 2704-2709|2007|10.1897/07-032.1
109420|A||Serafim,A., and M.J. Bebianno|Kinetic Model of Cadmium Accumulation and Elimination and Metallothionein Response in Ruditapes decussatus|Environ. Toxicol. Chem.26(5): 960-969|2007|10.1897/06-237R.1
109421|A||Samori,C., A. Pasteris, P. Galletti, and E. Tagliavini|Acute Toxicity of Oxygenated and Nonoxygenated Imidazolium-Based Ionic Liquids to Daphnia magna and Vibrio fischeri|Environ. Toxicol. Chem.26(11): 2379-2382|2007|10.1897/07-066R2.1
109423|A||Merilainen,P.S., A. Krasnov, and A. Oikari|Time- and Concentration-Dependent Metabolic and Genomic Responses to Exposure to Resin Acids in Brown Trout (Salma trutta m. lacustris)|Environ. Toxicol. Chem.26(9): 1827-1835|2007|10.1897/06-521R.1
109424|T||Martin,P.A., G.J. Mayne, S.J. Bursian, G. Tomy, V. Palace, C. Pekarik, and J. Smits|Immunotoxicity of the Commercial Polybrominated Diphenyl Ether Mixture DE-71 in Ranch Mink (Mustela vison)|Environ. Toxicol. Chem.26(5): 988-997|2007|10.1897/06-246R.1
109425|A||Lopez-Mancisidor,P., P.J. Van den Brink, S.J.H. Crum, S.J. Maund, G. Carbonell, and T.C.M. Brock|Responses of Zooplankton in Lufenuron-Stressed Experimental Ditches in the Presence or Absence of Uncontaminated Refuges|Environ. Toxicol. Chem.27(6): 1317-1331|2008|10.1897/07-270.1
109426|T||Lopez,M.L., J.R. Peralta-Videa, H. Castillo-Michel, A. Martinez-Martinez, M. Duarte-Gardea, and J.L. Gardea-Torresdey|Lead Toxicity in Alfalfa Plants Exposed to Phytohormones and Ethylenediaminetetraacetic Acid Monitored by Peroxidase, Catalase, and Amylase Activities|Environ. Toxicol. Chem.26(12): 2717-2723|2007|10.1897/07-302.1
109427|T||Lin,A., X. Zhang, Y.G. Zhu, and F.J. Zhao|Arsenate-Induced Toxicity:  Effects on Antioxidative Enzymes and DNA Damage in Vicia faba|Environ. Toxicol. Chem.27(2): 413-419|2008|10.1897/07-266R.1
109428|A||Lee,S.W., K. Park, J. Hong, and J. Choi|Ecotoxicological Evaluation of Octachlorostyrene in Fourth Instar Larvae of Chironomus riparius (Diptera, Chironomidae)|Environ. Toxicol. Chem.27(5): 1118-1827|2008|10.1897/07-219.1
109429|A||Larson,J.H., P.C. Frost, and G.A. Lamberti|Variable Toxicity of Ionic Liquid-Forming Chemicals to Lemna minor and the Influence of Dissolved Organic Matter|Environ. Toxicol. Chem.27(3): 676-681|2008|10.1897/06-540.1
109430|T||Kenow,K.P., M.W. Meyer, R.K. Hines, and W.H. Karasov|Distribution and Accumulation of Mercury in Tissues of Captive-Reared Common Loon (Gavia immer) Chicks|Environ. Toxicol. Chem.26(5): 1047-1055|2007|10.1897/06-193R.1
109431|T||Kenow,K.P., K.A. Grasman, R.K. Hines, M.W. Meyer, A. Gendron-Fitzpatrick, M.G. Spalding, and B.R. Gray|Effects of Methylmercury Exposure on the Immune Function of Juvenile Common Loons (Gavia immer)|Environ. Toxicol. Chem.26(7): 1460-1469|2007|10.1897/06-442R.1
109432|T||Johnson,M.S., M.J. Quinn, M.A. Bazar, K.A. Gust, B.L. Escalon, and E.J. Perkins|Subacute Toxicity of Oral 2,6-Dinitrotoluene and 1,3,5-Trinitro-1,3,5-Triazine (RDX) Exposure to the Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.26(7): 1481-1487|2007|10.1897/06-525.1
109433|A||Green,C.C., and S.E. Lochmann|Fluctuating Asymmetry and Condition in Golden Shiner (Notemigonus crysoleucas) and Channel Catfish (Ictalurus punctatus) Reared in Sublethal Concentrations of Isopropyl Methylphosphonic Acid|Environ. Toxicol. Chem.25(1): 58-64|2006|10.1897/04-554R.1
109434|A||Johnson,K.G., J.K. Muller, B. Price, A. Ware, M.S. Sepulveda, C.J. Borgert, and T.S. Gross|Influence of Seasonality and Exposure on the Accumulation and Reproductive Effects of p,p'-Dichlorodiphenyldichloroethane and Dieldrin in Largemouth Bass|Environ. Toxicol. Chem.26(5): 927-934|2007|10.1897/06-336R1.1
109435|A||Harris,C.A., E.J. Routledge, C. Schaffner, J.V. Brian, W. Giger, and J.P. Sumpter|Benzotriazole is Antiestrogenic In Vitro but not In Vivo|Environ. Toxicol. Chem.26(11): 2367-2372|2007|10.1897/06-587R.1
109436|A||Gross,J.A., T.H. Chen, and W.H. Karasov|Lethal and Sublethal Effects of Chronic Cadmium Exposure on Northern Leopard Frog (Rana pipiens) Tadpoles|Environ. Toxicol. Chem.26(6): 1192-1197|2007|10.1897/06-479R.1
109437|A||Grajeda y Ortega,M.A., E.L. Lopez, L.F. Perotzi, L. Garduno-Siciliano, and M.G. Martinez|Cadmium, Iron, and Zinc Uptake Individually and as a Mixture by Limnodrillus hoffmeisteri and Impact on Adenosine Triphosphate Content|Environ. Toxicol. Chem.27(3): 612-616|2008|10.1897/06-632.1
109438|T||Gong,P., L.S. Inouye, and E.J. Perkins|Comparative Neurotoxicity of Two Energetic Compounds, Hexanitrohexaazaisowurtzitane and Hexahydro-1,3,5-Trinitro-1,3,5-Triazine, in the Earthworm Eisenia fetida|Environ. Toxicol. Chem.26(5): 954-959|2007|10.1897/06-361R.1
109439|T||Gent,M.P.N., J.C. White, Z.D. Parrish, M. Isleyen, B.D. Eitzer, and M.I. Mattina|Uptake and Translocation of p,p'-Dichlorodiphenyldichloroethylene Supplied in Hydroponics Solution to Cucurbita|Environ. Toxicol. Chem.26(12): 2467-2475|2007|10.1897/06-257.1
109440|T||Cabras,P., A. Angioni, V.L. Garau, F.M. Pirisi, J. Espinoza, A. Mendoza, F. Cabitza, M. Pala, and V. Brandolini|Fate of Azoxystrobin, Fluazinam, Kresoxim-Methyl, Mepanipyrim, and Tetraconazole from Vine to Wine|J. Agric. Food Chem.46(8): 3249-3251|1998|10.1021/jf980186+
109442|A||Guo,W., Y.G. Zhu, W.J. Liu, Y.C. Liang, C.N. Geng, and S.G. Wang|Is the Effect of Silicon on Rice Uptake of Arsenate (AsV) Related to Internal Silicon Concentrations, Iron Plaque and Phosphate Nutrition?|Environ. Pollut.148(1): 251-257|2007|10.1016/j.envpol.2006.10.021
109443|A||Guo,B., Y.C. Liang, Y.G. Zhu, and F.J. Zhao|Role of Salicylic Acid in Alleviating Oxidative Damage in Rice Roots (Oryza sativa) Subjected to Cadmium Stress|Environ. Pollut.147(3): 743-749|2007|10.1016/j.envpol.2006.09.007
109444|T||Albert,C.A., T.D. Williams, C.A. Morrissey, V. Lai, W.R. Cullen, and J.E. Elliott|Dose-Dependant Uptake, Elimination, and Toxicity of Monosodium Methanearsonate in Adult Zebra Finches (Taeniopygia guttata)|Environ. Toxicol. Chem.27(3): 605-611|2008|10.1897/07-147.1
109445|A||Alvarez-Munoz,D., M. Saez, A. Gomez-Parra, and E. Gonzalez-Mazo|Experimental Determination of Bioconcentration, Biotransformation, and Elimination of Linear Alkylbenzene Sulfonates in Solea senegalensis|Environ. Toxicol. Chem.26(12): 2579-2586|2007|10.1897/06-516.1
109446|T||An,Y.J., and W.M. Lee|Decreased Toxicity to Terrestrial Plants Associated with a Mixture of Methyl Tert-Butyl Ether and Its Metabolite Tert-Butyl Alcohol|Environ. Toxicol. Chem.26(8): 1711-1716|2007|10.1897/06-434R1.1
109447|A||Brinkman,S.F., and D.L. Hansen|Toxicity of Cadmium to Early Life Stages of Brown Trout (Salmo trutta) at Multiple Water Hardnesses|Environ. Toxicol. Chem.26(8): 1666-1671|2007|10.1897/06-376R.1
109448|T||Devink,J.M.A., R.G. Clark, S.M. Slattery, and T.M. Scheuhammer|Effects of Dietary Selenium on Reproduction and Body Mass of Captive Lesser Scaup|Environ. Toxicol. Chem.27(2): 471-477|2008|10.1897/07-209R.1
109449|T||Du,X., Y. Cui, L. Weng, Q. Cao, and Y. Zhu|Arsenic Bioavailability in the Soil Amended with Leaves of Arsenic Hyperaccumulator, Chinese Brake Fern (Pteris vittata L.)|Environ. Toxicol. Chem.27(1): 126-130|2008|10.1897/06-635.1
109450|A||Geffard,O., A. Geffard, A. Chaumot, B. Vollat, C. Alvarez, M.H. Tusseau-Vuillemin, and J. Garric|Effects of Chronic Dietary and Waterborne Cadmium Exposures on the Contamination Level and Reproduction of Daphnia magna|Environ. Toxicol. Chem.27(5): 1128-1134|2008|10.1897/07-431.1
109451|A||Guan,R., and W.X. Wang|Multigenerational Cadmium Acclimation and Biokinetics in Daphnia magna|Environ. Pollut.141(2): 343-352|2006|10.1016/j.envpol.2005.08.036
109452|A||Gorski,P.R., D.E. Armstrong, J.P. Hurley, and D.P. Krabbenhoft|Influence of Natural Dissolved Organic Carbon on the Bioavailability of Mercury to a Freshwater Alga|Environ. Pollut.154(1): 116-123|2008|10.1016/j.envpol.2007.12.004
109453|T||Gonzaga,M.I.S., J.A.G. Santos, and L.Q. Ma|Phytoextraction by Arsenic Hyperaccumulator Pteris vittata L. from Six Arsenic-Contaminated Soils:  Repeated Harvests and Arsenic Redistribution|Environ. Pollut.154(2): 212-218|2008|10.1016/j.envpol.2007.10.011
109454|T||Fayiga,A.O., L.Q. Ma, and Q. Zhou|Effects of Plant Arsenic Uptake and Heavy Metals on Arsenic Distribution in an Arsenic-Contaminated Soil|Environ. Pollut.147(3): 737-742|2007|10.1016/j.envpol.2006.09.010
109455|T||Webber III,C.L., J.W. Shrefler, and M.J. Taylor|Corn Gluten Meal as an Alternative Weed Control Option for Spring-Transplanted Onions|Int. J. Veg. Sci.13(3): 17-33|2007|10.1300/J512v13n03_03
109456|T||Sharma,R.K., M. Agrawal, and S.B. Agrawal|Interactive Effects of Cadmium and Zinc on Carrots:  Growth and Biomass Accumulation|J. Plant Nutr.31(1): 19-34|2008|10.1080/01904160701741727
109458|T||Beilke,L.D., D.G. Besselsen, Q. Cheng, S. Kulkarni, A.L. Slitt, and N.J. Cherrington|Minimal Role of Hepatic Transporters in the Hepatoprotection Against LCA-Induced Intrahepatic Cholestasis|Toxicol. Sci.102(1): 196-204|2008|10.1093/toxsci/kfm287
109459|T||Belardinelli,M.C., F. Pereira, G. Baldo, A.M. Vicente Tavares, C.O. Kieling, T.R. Da Silveira, L. Meurer, M.E. Soares D|Adult Derived Mononuclear Bone Marrow Cells Improve Survival in a Model of Acetaminophen-Induced Acute Liver Failure in Rats|Toxicology247(1): 1-5|2008|10.1016/j.tox.2008.01.015
109460|T||Berman,R.F., I.N. Pessah, P.R. Mouton, D. Mav, and J. Harry|Low-Level Neonatal Thimerosal Exposure:  Further Evaluation of Altered Neurotoxic Potential in SJL Mice|Toxicol. Sci.101(2): 294-309|2008|10.1093/toxsci/kfm265
109461|A||Bohonowych,J.E.S., B. Zhao, A. Timme-Laragy, D. Jung, R.T. Di Giulio, and M.S. Denison|Newspapers and Newspaper Ink Contain Agonists for the Ah Receptor|Toxicol. Sci.102(2): 278-290|2008|10.1093/toxsci/kfn011
109463|T||Dagues,N., V. Pawlowski, C. Sobry, G. Hanton, F. Borde, S. Soler, J.L. Freslon, and S. Chevalier|Investigation of the Molecular Mechanisms Preceding PDE4 Inhibitor-Induced Vasculopathy in Rats:  Tissue Inhibitor of Metalloproteinase 1, a Potential Predictive Biomarker|Toxicol. Sci.100(1): 238-247|2007|10.1093/toxsci/kfm161
109464|T||Fernie,K.J., J.L. Shutt, R.J. Letcher, J.I. Ritchie, K. Sullivan, and D.M. Bird|Changes in Reproductive Courtship Behaviors of Adult American Kestrels (Falco sparverius) Exposed to Environmentally Relevant Levels of the Polybrominated Diphenyl Ether Mixture, DE-71|Toxicol. Sci.102(1): 171-178|2008|10.1093/toxsci/kfm295
109467|T||Gagliano,N., I.D. Donne, C. Torri, M. Migliori, F. Grizzi, A. Milzani, C. Filippi, G. Annoni, P. Colombo, F. Costa, G. |Early Cytotoxic Effects of Ochratoxin A in Rat Liver:  A Morphological, Biochemical and Molecular Study|Toxicology225(2-3): 214-224|2006|10.1016/j.tox.2006.06.004
109469|A||Grover,J.P., J.W. Baker, F. Urena-Boeck, B.W. Brooks, R.M. Errera, D.L. Roelke, and R.L. Kiesling|Laboratory Tests of Ammonium and Barley Straw Extract as Agents to Suppress Abundance of the Harmful Alga Prymnesium parvum and Its Toxicity to Fish|Water Res.41(12): 2503-2512|2007|10.1016/j.watres.2007.03.025
109470|T||Guney,M., B. Oral, G. Take, S.G. Giray, and T. Mungan|Effect of Fluoride Intoxication on Endometrial Apoptosis and Lipid Peroxidation in Rats:  Role of Vitamins E and C|Toxicology231(2-3): 215-223|2007|10.1016/j.tox.2006.12.020
109471|T||Gupta,A., V. Chander, S. Sharma, and K. Chopra|Sodium Nitroprusside and L-Arginine Attenuates Ferric Nitrilotriacetate-Induced Oxidative Renal Injury in Rats|Toxicology232(3): 183-191|2007|10.1016/j.tox.2007.01.009
109472|T||Gargas,M.L., B. Collins, T.R. Fennell, N.F.,Jr. Gaudette, and L.M. Sweeney|Disposition of Styrene-Acrylonitrile (SAN) Trimer in Female Rats:  Single Dose Intravenous and Gavage Studies|Toxicol. Lett.178(1): 1-8|2008|10.1016/j.toxlet.2008.01.016
109473|A||Prokhotskaya,V.Y., A.G. Dmitrieva, T.V. Veselova, and V.A. Veselovskii|Types of Responses of a Model Population of Microalga Scenedesmus quadricauda (Turp.) Breb. Under Different Intoxication Conditions|Mosc. Univ. Biol. Sci. Bull.62(4): 171-175|2007|10.3103/S0096392507040062
109474|T||Bjellaas,T., H.B. Olstorn, G. Becher, J. Alexander, S.H. Knutsen, and J.E. Paulsen|Urinary Metabolites as Biomarkers of Acrylamide Exposure in Mice Following Dietary Crisp Bread Administration or Subcutaneous Injection|Toxicol. Sci.100(2): 374-380|2007|10.1093/toxsci/kfm234
109475|T||Mason,J.R., and G. Linz|Repellency of Garlic Extract to European Starlings|Crop Prot.16(2): 107-108|1997|10.1016/S0261-2194(96)00078-6
109476|T||Tedeschi,P., A. Maietti, M. Boggian, G. Vecchiati, and V. Brandolini|Fungitoxicity of Lyophilized and Spray-Dried Garlic Extracts|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(7): 795-799|2007|
109478|T||Obagwu,J., and L. Korsten|Control of Citrus Green and Blue Molds with Garlic Extracts|Eur. J. Plant Pathol.109(3): 221-225|2003|10.1023/A:1022839921289
109479|A||Madsen,H.C.K., K. Buchmann, and S. Mellergaard|Treatment of Trichodiniasis in Eel (Anguilla anguilla) Reared in Recirculation Systems in Denmark: Alternatives to Formaldehyde|Aquaculture186(3/4): 221-231|2000|10.1016/S0044-8486(99)00379-8
109480|T||Kuda,T., A. Iwai, and T. Yano|Effect of Red Pepper Capsicum annuum var. Conoides and Garlic Allium sativum on Plasma Lipid Levels and Cecal Microflora in Mice Fed Beef Tallow|Food Chem. Toxicol.42(10): 1695-1700|2004|10.1016/j.fct.2004.06.007
109481|T||Wu,C.C., L.Y. Sheen, H.W. Chen, S.J. Tsai, and C.K. Lii|Effects of Organosulfur Compounds from Garlic Oil on the Antioxidation System in Rat Liver and Red Blood Cells|Food Chem. Toxicol.39(6): 563-569|2001|10.1016/S0278-6915(00)00171-X
109482|T||Husain,R., V.M. Adhami, and P.K. Seth|Behavioral, Neurochemical, and Neuromorphological Effects of Deltamethrin in Adult Rats|J. Toxicol. Environ. Health48(5): 515-526|1996|10.1080/009841096161212
109483|T||Cremer,J.E., and M.P. Seville|Changes in Regional Cerebral Blood Flow and Glucose Metabolism Associated with Symptoms of Pyrethroid Toxicity|Neurotoxicology6(3): 1-12|1985|
109484|T||Agarwal,D.K., L.K.S. Chauhan, S.K. Gupta, and V. Sundararaman|Cytogenetic Effects of Deltamethrin on Rat Bone Marrow|Mutat. Res.311(1): 133-138|1994|10.1016/0027-5107(94)90081-7
109485|A||Singh,V.K., and D.K. Singh|Characterization of Allicin as a Molluscicidal Agent in Allium sativum (Garlic)|Biol. Agric. Hortic.12(2): 119-131|1995|10.1080/01448765.1995.9754732
109486|T||Bentivegna,C.S., M.A. Ihnat, N.S. Baptiste, and J.W. Hamilton|Developmental Regulation of the 3-Methylcholanthrene- and Dioxin-Inducible CYP1A5 Gene in Chick Embryo Liver In Vivo|Toxicol. Appl. Pharmacol.151(1): 166-173|1998|10.1006/taap.1998.8439
109487|A||Jonsson,M.E., M.J. Jenny, B.R. Woodin, M.E. Hahn, and J.J. Stegeman|Role of AHR2 in the Expression of Novel Cytochrome P450 1 Family Genes, Cell Cycle Genes, and Morphological Defects in Developing Zebra Fish Exposed to 3,3',4,4',5-Pentachlorobiphenyl or 2,3,7,8-Tetrachlorodibenzo-p-Dio|Toxicol. Sci.100(1): 180-193|2007|10.1093/toxsci/kfm207
109488|T||Karunyal Samuel,J., B. Andrews, and H. Shyla Jebashree|In Vitro Evaluation of the Antifungal Activity of Allium sativum Bulb Extract Against Trichophyton rubrum, a Human Skin Pathogen|World J. Microbiol. Biotechnol.16(7): 617-620|2000|10.1023/A:1008972016316
109489|A||Jonsson,M.E., R. Orrego, B.R. Woodin, J.V. Goldstone, and J.J. Stegeman|Basal and 3,3',4,4',5-Pentachlorobiphenyl-Induced Expression of Cytochrome P450 1A, 1B and 1C Genes in Zebrafish|Toxicol. Appl. Pharmacol.221(1): 29-41|2007|10.1016/j.taap.2007.02.017
109490|T||Li,X., Q. Huang, J. Yuan, and Z. Tang|Fipronil Resistance Mechanisms in the Rice Stem Borer, Chilo suppressalis Walker|Pestic. Biochem. Physiol.89(3): 169-174|2007|10.1016/j.pestbp.2007.06.002
109493|A||Sormunen,A., M. Leppanen, and J.V.K. Kukkonen|Influence of Sediment Ingestion and Exposure Concentration on the Bioavailable Fraction of Sediment-Associated Tetrachlorobiphenyl in Oligochaetes|Environ. Toxicol. Chem.27(4): 854-863|2008|10.1897/07-334.1
109494|T||Martin,P.A., G.J. Mayne, S. Bursian, V. Palace, and K. Kannan|Changes in Thyroid and Vitamin A Status in Mink Fed Polyhalogenated-Aromatic-Hydrocarbon-Contaminated Carp from the Saginaw River, Michigan, USA|Environ. Res.101(1): 53-67|2006|10.1016/j.envres.2005.06.002
109495|T||Keller,J.M., J.C. Huang, Y. Huet-Hudson, and L.J. Leamy|The Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Molar and Mandible Traits in Congenic Mice:  A Test of the Role of the Ahr Locus|Toxicology242(1-3): 52-62|2007|10.1016/j.tox.2007.09.008
109496|T||Aragon,A.C., P.G. Kopf, M.J. Campen, J.K. Huwe, and M.K. Walker|In Utero and Lactational 2,3,7,8-Tetrachlorodibenzo-p-dioxin Exposure:  Effects on Fetal and Adult Cardiac Gene Expression and Adult Cardiac and Renal Morphology|Toxicol. Sci.101(2): 321-330|2008|10.1093/toxsci/kfm272
109497|T||Kopec,A.K., D.R. Boverhof, L.D. Burgoon, D. Ibrahim-Aibo, J.R. Harkema, C. Tashiro, B. Chittim, and T.R. Zacharewski|Comparative Toxicogenomic Examination of the Hepatic Effects of PCB126 and TCDD in Immature, Ovariectomized C57BL/6 Mice|Toxicol. Sci.102(1): 61-75|2008|10.1093/toxsci/kfm289
109498|T||Hsu,P.C., M.H. Pan, L.A. Li, C.J. Chen, S.S. Tsai, and Y.L. Guo|Exposure In Utero to 2,2',3,3',4,6'-Hexachlorobiphenyl (PCB 132) Impairs Sperm Function and Alters Testicular Apoptosis-Related Gene Expression in Rat Offspring|Toxicol. Appl. Pharmacol.221(1): 68-75|2007|10.1016/j.taap.2007.01.027
109499|T||Haag-Gronlund,M., N. Johansson, R. Fransson-Steen, H. Hakansson, G. Scheu, and L. Warngard|Interactive Effects of Three Structurally Different Polychlorinated Biphenyls in a Rat Liver Tumor Promotion Bioassay|Toxicol. Appl. Pharmacol.152(1): 153-165|1998|10.1006/taap.1998.8480
109500|T||Ramajayam,G., M. Sridhar, S. Karthikeyan, R. Lavanya, S. Veni, R.C. Vignesh, R. Ilangovan, S.S. Djody, V. Gopalakrishna|Effects of Aroclor 1254 on Femoral Bone Metabolism in Adult Male Wistar Rats|Toxicology241(3): 99-105|2007|10.1016/j.tox.2007.08.086
109502|T||Smialowicz,R.J., M.J. DeVito, W.C. Williams, and L.S. Birnbaum|Relative Potency Based on Hepatic Enzyme Induction Predicts Immunosuppressive Effects of a Mixture of PCDDS/PCDFS and PCBS|Toxicol. Appl. Pharmacol.227(3): 477-484|2008|10.1016/j.taap.2007.11.018
109503|T||Kransler,K.M., D.A. Tonucci, B.P. McGarrigle, J.L. Napoli, and J.R. Olson|Gestational Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Alters Retinoid Homeostasis in Maternal and Perinatal Tissues of the Holtzman Rat|Toxicol. Appl. Pharmacol.224(1): 29-38|2007|10.1016/j.taap.2007.06.006
109504|T||Kania-Korwel,I., K.C. Hornbuckle, L.W. Robertson, and H.J. Lehmler|Dose-Dependent Enantiomeric Enrichment of 2,2',3,3',6,6'-Hexachlorobiphenyl in Female Mice|Environ. Toxicol. Chem.27(2): 299-305|2008|10.1897/07-359R.1
109506|T||Tomkins,A.R.|Development of Insecticides for Integrated Pest Management of Kiwifruit in New Zealand|Br. Crop Prot. Conf. Pests Dis.3:1199-1204|1994|
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109508|T||Dayal,M., D. Parmar, A. Dhawan, U.N. Dwivedi, J. Doehmer, and P.K. Seth|Induction of Rat Brain and Liver Cytochrome P450 1A1/1A2 and 2B1/2B2 Isoenzymes by Deltamethrin|Environ. Toxicol. Pharmacol.7(3): 169-178|1999|10.1016/S1382-6689(99)00011-3
109509|T||Enan,E., K.E. Pinkerton, J. Peake, and F. Matsumura|Deltamethrin-Induced Thymus Atrophy in Male Balb/c Mice|Biochem. Pharmacol.51(4): 447-454|1996|10.1016/0006-2952(95)02200-7
109510|T||Fidalgo,F., I. Santos, and R. Salema|Nutritional Value of Potato Tubers from Field Grown Plants Treated with Deltamethrin|Potato Res.43(1): 43-48|2000|10.1007/BF02358512
109511|T||Kirby,M.L., K. Castagnoli, and J.R. Bloomquist|In Vivo Effects of Deltamethrin on Dopamine Neurochemistry and the Role of Augmented Neurotransmitter Release|Pestic. Biochem. Physiol.65(3): 160-168|1999|10.1006/pest.1999.2440
109513|T||Yang,Q., D. Zhou, L. Sun, D. Zhang, J. Qian, C. Xiong, Y. Sun, L. Ma, and C. Zhu|Expression and Characterization of Two Pesticide Resistance-Associated Serine Protease Genes (NYD-tr and NYD-ch) from Culex pipiens pallens for Metabolism of Deltamethrin|Parasitol. Res.103(3): 507-516|2008|10.1007/s00436-008-0997-1
109514|T||El-Gohary,M., W.M. Awara, S. Nassar, and S. Hawas|Deltamethrin-Induced Testicular Apoptosis in Rats:  The Protective Effect of Nitric Oxide Synthase Inhibitor|Toxicology132(1): 1-8|1999|10.1016/S0300-483X(98)00114-0
109515|T||Joy,R.M., T.E. Albertson, and D.E. Ray|Type I and Type II Pyrethroids Increase Inhibition in the Hippocampal Dentate gyrus of the Rat|Toxicol. Appl. Pharmacol.98(3): 398-412|1989|10.1016/0041-008X(89)90169-5
109516|T||Suwanchaichinda,C., P. Khamkong, L. Worasuttayangkurn, and J. Satayavivad|Deltamethrin Exposure Affects Host Resistance to Plasmodium Infection in Mice|Environ. Toxicol. Pharmacol.20(1): 77-82|2005|10.1016/j.etap.2004.10.004
109517|A||Symington,S.B., A. Zhang, W. Karstens, J. Van Houten, and J.M. Clark|Characterization of Pyrethroid Action on Ciliary Calcium Channels in Paramecium tetraurelia|Pestic. Biochem. Physiol.65(3): 181-193|1999|10.1006/pest.1999.2444
109519|T||Wu,A., and Y. Liu|Deltamethrin Induces Delayed Apoptosis and Altered Expression of P53 and Bax in Rat Brain|Environ. Toxicol. Pharmacol.8(3): 183-189|2000|10.1016/S1382-6689(00)00039-9
109520|T||Zerouali,E., R. Salghi, A. Hormatallah, B. Hammouti, L. Bazzi, and M. Zaafarani|Pesticide Residues in Tomatoes Grown in Greenhouses in Souss Massa Valley in Morocco and Dissipation of Endosulfan and Deltamethrin|Fresenius Environ. Bull.15(4): 267-271|2006|
109521|T||Aziz,M.H., A.K. Agrawal, V.M. Adhami, Y. Shukla, and P.K. Seth|Neurodevelopmental Consequences of Gestational Exposure (GD14-GD20) to Low Dose Deltamethrin in Rats|Neurosci. Lett.300(3): 161-165|2001|10.1016/S0304-3940(01)01543-9
109522|T||Badiou,A., and L.P. Belzunces|Is Acetylcholinesterase a Pertinent Biomarker to Detect Exposure of Pyrethroids?  A Study Case with Deltamethrin|Chem.-Biol. Interact.175(1-3): 406-409|2008|10.1016/j.cbi.2008.05.040
109523|T||Hill,B.D., D.J. Inaba, and G.B. Schaalje|Persistence of Deltamethrin in Baled Alfalfa Hay|J. Agric. Food Chem.40(12): 2493-2496|1992|10.1021/jf00024a030
109524|T||Madsen,C., M.H. Claesson, and C. Ropke|Immunotoxicity of the Pyrethroid Insecticides Deltametrin and alpha-Cypermetrin|Toxicology107(3): 219-227|1996|10.1016/0300-483X(95)03244-A
109525|A||Sevatdal,S., A. Fallang, K. Ingebrigtsen, and T.E. Horsberg|Monooxygenase Mediated Pyrethroid Detoxification in Sea Lice (Lepeophtheirus salmonis)|Pest Manag. Sci.61(8): 772-778|2005|10.1002/ps.1057
109527|T||Brown,M.A., E.C. Kimmel, and J.E. Casida|DNA Adduct Formation by Alachlor Metabolites|Life Sci.43(25): 2087-2094|1988|10.1016/0024-3205(88)90358-X
109529|T||Kubota,N., M.A. Matthews, T. Takahagi, and W.M. Kliewer|Budbreak with Garlic Preparations:  Effects of Garlic Preparations and of Calcium and Hydrogen Cyanamides on Budbreak of Grapevines Grown in Greenhouses|Am. J. Enol. Vitic.51(4): 409-414|2000|10.5344/ajev.2000.51.4.409
109530|A||Yang,W., F. Spurlock, W. Liu, and J. Gan|Inhibition of Aquatic Toxicity of Pyrethroid Insecticides by Suspended Sediment|Environ. Toxicol. Chem.25(7): 1913-1919|2006|10.1897/05-616R.1
109531|T||Ethyl Corp.|Activity of Meta-Phenoxybenzaldehyde (T2126) in the Subchronic In Vivo Cytogenetics Assay in Male Rats (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000228:27 p.|1991|
109532|T||Van Swinderen,B., L.B. Metz, L.D. Shebester, J.E. Mendel, P.W. Sternberg, and C.M. Crowder|Goalpha Regulates Volatile Anesthetic Action in Caenorhabditis elegans|Genetics158(2): 643-655|2001|10.1093/genetics/158.2.643
109533|T||Anderhag,P., P.K. Hepler, and M.D. Lazzaro|Microtubules and Microfilaments are both Responsible for Pollen Tube Elongation in the Conifer Picea abies (Norway Spruce)|Protoplasma (Multiple Languages)214(3-4): 141-157|2000|10.1007/BF01279059
109534|A||Shoji,R.|Effect of Dissolved Organic Matter Source on Phytotoxicity to Lemna aequinoctialis|Aquat. Toxicol.87(3): 210-214|2008|10.1016/j.aquatox.2008.02.005
109535|T||Kuk,Y.I., J. Wu, J.F. Derr, and K.K. Hatzios|Mechanism of Fenoxaprop Resistance in an Accession of Smooth Crabgrass (Digitaria ischaemum)|Pestic. Biochem. Physiol.64(2): 112-123|1999|10.1006/pest.1999.2417
109536|T||Vaughn,K.C.|The Abnormal Cell Plates Formed After Microtubule Disrupter Herbicide Treatment are Enriched in Callose|Pestic. Biochem. Physiol.84(2): 63-71|2006|10.1016/j.pestbp.2005.03.006
109537|T||Jacobs,J., and J.L. Roe|SKS6, a Multicopper Oxidase-like Gene, Participates in Cotyledon Vascular Patterning During Arabidopsis thaliana Development|Planta (Multiple Languages)222(4): 652-666|2005|10.1007/s00425-005-0012-3
109538|T||Liu,W., D.K. Harrison, D. Chalupska, P. Gornicki, C.C. O'Donnell, S.W. Adkins, R. Haselkorn, and R.R. Williams|Single-Site Mutations in the Carboxyltransferase Domain of Plastid Acetyl-CoA Carboxylase Confer Resistance to Grass-Specific Herbicides|Proc. Natl. Acad. Sci. U.S.A.104(9): 3627-3632|2007|10.1073/pnas.0611572104
109539|T||Caliskan,M., M. Turet, and A.C. Cuming|Formation of Wheat (Triticum aestivum L.) Embryogenic Callus Involves Peroxide-Generating Germin-Like Oxalate Oxidase|Planta (Multiple Languages)219(1): 132-140|2004|10.1007/s00425-003-1199-9
109540|T||Anokhina,T.O., O.V. Volkova, I.F. Puntus, A.E. Filonov, V.V. Kochetkov, and A.M. Boronin|Plant Growth-Promoting Pseudomonas Bearing Catabolic Plasmids: Naphthalene Degradation and Effect on Plants|Process Biochem.41(12): 2417-2423|2006|10.1016/j.procbio.2006.06.026
109541|T||Benveniste,I., R. Bronner, Y. Wang, V. Compagnon, P. Michler, L. Schreiber, J.P. Salaun, F. Durst, and F. Pinot|CYP94A1, a Plant Cytochrome P450-Catalyzing Fatty Acid omega-Hydroxylase, is Selectively Induced by Chemical Stress in Vicia sativa Seedlings|Planta (Multiple Languages)221(6): 881-890|2005|10.1007/s00425-005-1503-y
109542|T||White,A.L., and C. Boutin|Herbicidal Effects on Nontarget Vegetation:  Investigating the Limitations of Current Pesticide Registration Guidelines|Environ. Toxicol. Chem.26(12): 2634-2643|2007|10.1897/06-553.1
109543|A||Einsporn,S., and A. Koehler|Electron-Microscopic Localization of Lipophilic Chemicals by an Antibody-Based Detection System Using the Blue Mussel Mytilus edulis as a Model System|Environ. Toxicol. Chem.27(3): 554-560|2008|10.1897/07-348.1
109544|A||Golding,C.J., F.A.P.C. Gobas, and G.F. Birch|A Fugacity Approach for Assessing the Bioaccumulation of Hydrophobic Organic Compounds from Estuarine Sediment|Environ. Toxicol. Chem.27(5): 1047-1054|2008|10.1897/07-457.1
109545|T||Hartnik,T., L.E. Sverdrup, and J. Jensen|Toxicity of the Pesticide alpha-Cypermethrin to Four Soil Nontarget Invertebrates and Implications for Risk Assessment|Environ. Toxicol. Chem.27(6): 1408-1415|2008|10.1897/07-385.1
109546|T||Nandula,V.K., and C.G. Messersmith|Imazamethabenz-Resistant Wild Oat (Avena fatua L.) is Resistant to Diclofop-Methyl|Pestic. Biochem. Physiol.74(2): 53-61|2003|10.1016/S0048-3575(03)00006-3
109547|T||Yaacoby,T., J.C. Hall, and G.R. Stephenson|Influence of Fenchlorazole-Ethyl on the Metabolism of Fenoxaprop-Ethyl in Wheat, Barley, and Crabgrass|Pestic. Biochem. Physiol.41(3): 296-304|1991|10.1016/0048-3575(91)90084-Y
109548|T||Nemat Alla,M.M., N.M. Hassan, and Z.M. El-Bastawisy|Differential Influence of Herbicide Treatments on Activity and Kinetic Parameters of C4 Photosynthetic Enzymes from Zea mays|Pestic. Biochem. Physiol.89(3): 198-205|2007|10.1016/j.pestbp.2007.06.005
109549|T||Luo,X.Y., Y. Sunohara, and H. Matsumoto|Fluazifop-Butyl Causes Membrane Peroxidation in the Herbicide-Susceptible Broad Leaf Weed Bristly Starbur (Acanthospermum hispidum)|Pestic. Biochem. Physiol.78(2): 93-102|2004|10.1016/j.pestbp.2003.10.002
109550|T||Cocker,K.M., S.R. Moss, and J.O.D. Coleman|Multiple Mechanisms of Resistance to Fenoxaprop-p-Ethyl in United Kingdom and Other European Populations of Herbicide-Resistant Alopecurus myosuroides (Black-Grass)|Pestic. Biochem. Physiol.65(3): 169-180|1999|10.1006/pest.1999.2439
109551|T||Petersen,I.L., H.C.B. Hansen, H.W. Ravn, J.C. Sorensen, and H. Sorensen|Metabolic Effects in Rapeseed (Brassica napus L.) Seedlings After Root Exposure to Glyphosate|Pestic. Biochem. Physiol.89(3): 220-229|2007|10.1016/j.pestbp.2007.06.009
109552|T||Bindra,O.S., and D.R.C. Bakhetia|Investigations on the Etiology and Control of Mango Malformation|Indian J. Hortic.28(1): 80-85|1971|
109553|T||Kleschick,W.A., M.J. Costales, B.C. Gerwick, J.B. Holtwick, R.W. Meikle, W.T. Monte, N.R. Pearson, S.W. Snider, M.V. Su|1,2,4-Triazolo(1,5-a)Pyrimidine-2-Sulfonanilide Herbicides. Influence of Alkyl, Haloalkyl, and Halogen Heterocyclic Substitution on In Vitro and In Vivo Biological Activity|ACS Symp. Ser.504:10-17|1992|10.1021/bk-1992-0504.ch002
109555|A||Inui,H., N. Shiota, Y. Ido, T. Inoue, S. Hirose, H. Kawahigashi, Y. Ohkawa, and H. Ohkawa|Herbicide Metabolism and Tolerance in the Transgenic Rice Plants Expressing Human CYP2C9 and CYP2C19|Pestic. Biochem. Physiol.71(3): 156-169|2001|10.1006/pest.2001.2574
109556|T||Or,E., G. Nir, and I. Vilozny|Timing of Hydrogen Cyanamide Application to Grapevine Buds|Acta Hortic.38(1): 1-6|1999|
109557|T||Yoshida,M., A. Kawasaki, M. Yukimoto, and K. Nose|Detection of the Effects of Fungicides on the Cell Membrane by Proton Nuclear Magnetic Resonance Spectroscopy|Pestic. Biochem. Physiol.38(2): 172-177|1990|10.1016/0048-3575(90)90050-C
109558|T||Mills,C.I., C.W. Bednarz, G.L. Ritchie, and J.R. Whitaker|Yield, Quality, and Fruit Distribution in Bollgard/Roundup Ready and Bollgard II/Roundup Ready Flex Cottons|Agron. J.100(1): 35-41|2008|10.2134/agronj2006.0299
109559|T||Hara,A.H., W.T. Nishijima, and D.M. Sato|Impact on Anthurium Production of Controlling an Orchid Thrips (Thysanoptera:  Thripidae), an Anthurium Whitefly (Homoptera:  Aleyrodidae), and a Burrowing Nematode (Tylenchida:  Tylenchidae) with Certain Insecticide-Ne|J. Econ. Entomol.81(2): 582-585|1988|10.1093/jee/81.2.582
109560|T||Gunning,R.V., A.L. Devonshire, and G.D. Moores|Metabolism of Esfenvalerate by Pyrethroid-Susceptible and -Resistant Australian Helicoverpa armigera (Lepidoptera:  Noctuidae)|Pestic. Biochem. Physiol.51(3): 205-213|1995|10.1006/pest.1995.1020
109561|T||Lee,Y.J., K. Yamamoto, H. Hamamoto, R. Nakaune, and T. Hibi|A Novel ABC Transporter Gene ABC2 Involved in Multidrug Susceptibility but not Pathogenicity in Rice Blast Fungus, Magnaporthe grisea|Pestic. Biochem. Physiol.81(1): 13-23|2005|10.1016/j.pestbp.2004.07.007
109562|T||He,Y.P., W.M. Chen, J.L. Shen, C.F. Gao, L.Q. Huang, W.J. Zhou, X.G. Liu, and Y.C. Zhu|Differential Susceptibilities to Pyrethroids in Field Populations of Chilo suppressalis (Lepidoptera:  Pyralidae)|Pestic. Biochem. Physiol.89(1): 12-19|2007|10.1016/j.pestbp.2007.02.002
109563|T||Penilla,R.P., A.D. Rodriguez, J. Hemingway, A. Trejo, A.D. Lopez, and M.H. Rodriguez|Cytochrome P450-Based Resistance Mechanism and Pyrethroid Resistance in the Field Anopheles albimanus Resistance Management Trial|Pestic. Biochem. Physiol.89(2): 111-117|2007|10.1016/j.pestbp.2007.03.004
109564|T||Dong,K., and J.G. Scott|Neuropharmacology and Genetics of kdr-Type Resistance in the German Cockroach, Blattella germanica (L.)|Pestic. Biochem. Physiol.41(2): 159-169|1991|10.1016/0048-3575(91)90070-3
109565|T||Zhang,L., X. Gao, and P. Liang|Beta-Cypermethrin Resistance Associated with High Carboxylesterase Activities in a Strain of House Fly, Musca domestica (Diptera:  Muscidae)|Pestic. Biochem. Physiol.89(1): 65-72|2007|10.1016/j.pestbp.2007.03.001
109566|T||Yu,S.J., and S.N. Nguyen|Detection and Biochemical Characterization of Insecticide Resistance in the Diamondback Moth|Pestic. Biochem. Physiol.44(1): 74-81|1992|10.1016/0048-3575(92)90011-N
109567|T||Smelt,J.H., N.W.H. Houx, T.M. Lexmond, and H.M. Nollen|Residues of Aldicarb and Its Oxidation Products in Potato Tubers After Field Application|Agric. Environ.3(4): 337-347|1977|10.1016/0304-1131(77)90029-7
109568|T||Bradbury,J.E., A.J. Gray, and P. Forshaw|Protection Against Pyrethroid Toxicity in Rats with Mephenesin|Toxicol. Appl. Pharmacol.60:382-384|1981|10.1016/0041-008X(91)90242-7
109569|T||Karunaratne,S.H.P.P., B.T. Damayanthi, M.H.J. Fareena, V. Imbuldeniya, and J. Hemingway|Insecticide Resistance in the Tropical Bedbug Cimex hemipterus|Pestic. Biochem. Physiol.88(1): 102-107|2007|10.1016/j.pestbp.2006.09.006
109570|T||Gunning,R.V., G.D. Moores, and A.L. Devonshire|Esterases and Fenvalerate Resistance in a Field Population of Helicoverpa punctigera (Lepidoptera:  Noctuidae) in Australia|Pestic. Biochem. Physiol.58(2): 155-162|1997|10.1006/pest.1997.2295
109572|A||Shelley,L.K., S.K. Balfry, P.S. Ross, and C.J. Kennedy|Immunotoxicological Effects of a Sub-Chronic Exposure to Selected Current-Use Pesticides in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.92:95-103|2009|10.1016/j.aquatox.2009.01.005
109573|T||Borah,R.K.|Effect of Insecticides on Pest Incidence in Cucumber (Cucumis sativus) in Hill Zone of Assam|Indian J. Agric. Sci.67(8): 332-333|1997|
109574|A||Powell,R.L., E.M. Moser, R.A. Kimerle, D.E. McKenzie, and M. McKee|Use of a Miniaturized Test System for Determining Acute Toxicity of Toxicity Identification Evaluation Fractions|Ecotoxicol. Environ. Saf.35(1): 1-6|1996|10.1006/eesa.1996.0075
109575|A||Jaroli,D.P., and B.L. Sharma|Effect of Organophosphate Insecticide on the Organic Constituents in Liver of Channa punctatus|Asian J. Exp. Sci19(1): 121-129|2005|
109576|T||Brown-Rytlewski,D.E., and P.S. McManus|Virulence of Botryosphaeria dothidea and Botryosphaeria obtusa on Apple and Management of Stem Cankers with Fungicides|Plant Dis.84(9): 1031-1037|2000|10.1094/PDIS.2000.84.9.1031
109577|T||Beck,S.L.|Concentration and Toxicity of Trifluralin in CD-1 Mice, Presented Intragastrically or Intraperitoneally|Bull. Environ. Contam. Toxicol.20(4): 554-560|1978|10.1007/BF01683563
109578|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  RU 22974:  Acute Oral Toxicity in Male and Female Beagle Dogs|EPA/OTS Doc.#88-920003685:4 p.|1992|
109579|T||Kordali,S., A. Cakir, H. Ozer, R. Cakmakci, M. Kesdek, and E. Mete|Antifungal, Phytotoxic and Insecticidal Properties of Essential Oil Isolated from Turkish Origanum acutidens and Its Three Components, Carvacrol, Thymol and p-Cymene|Bioresour. Technol.99(18): 8788-8795|2008|10.1016/j.biortech.2008.04.048
109581|T||Ethyl Corp.|Acute Eye Irritation Test in Rabbits:  M-PBAD-III Lot #1 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000206:30 p.|1991|
109582|T||Ethyl Corp.|Acute Dermal Toxicity Test in Rabbits:  M-PBAD-III Lot #1 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000204:28 p.|1991|
109583|T||Ethyl Corp.|Acute Dermal Toxicity Test in Rabbits:  M-PBAD Lot #450 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000205:27 p.|1991|
109584|T||Ethyl Corp.|Primary Dermal Irritation Study in Rabbits with Meta-phenoxybenzaldhyde with Attachments and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000262:22 p.|1991|
109585|T||Ethyl Corp.|Acute Oral Toxicity Study in Rats (14 Days):  M-PBAD-III Lot #1 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000202:40 p.|1991|
109586|A||Csillik,B., J. Fazakas, J. Nemcsok, and E. Knyihar-Csillik|Effect of the Pesticide Deltamethrin on the Mauthner Cells of Lake Balaton Fish|Neurotoxicology21(3): 343-352|2000|
109587|T||Anadon,A., M.R. Martinez-Larranaga, M.L. Fernandez-Cruz, M.J. Diaz, M.C. Fernandez, and M.A. Martinez|Toxicokinetics of Deltamethrin and Its 4'-HO-Metabolite in the Rat|Toxicol. Appl. Pharmacol.141(1): 8-16|1996|10.1016/S0041-008X(96)80003-2
109588|T||Khan,S.U., S. Kacew, and M.H. Akhtar|Bioavailability of Bound 14C Residues in Rats from Bean Plants Treated with 14C-Deltamethrin|Chemosphere15(7): 923-927|1986|10.1016/0045-6535(86)90057-3
109589|T||Calore,E.E., M.J. Cavaliere, F.R. Puga, N.M.P. Calore, A.R. Da Rosa, R. Weg, S. De souza Dias, and R. Paes dos Santos|Histologic Peripheral Nerve Changes in Rats Induced by Deltamethrin|Ecotoxicol. Environ. Saf.47(1): 82-86|2000|10.1006/eesa.2000.1925
109590|T||Mirfazaelian,A., K.B. Kim, S.S. Anand, H.J. Kim, R. Tornero-Velez, J.V. Bruckner, and J.W. Fisher|Development of a Physiologically Based Pharmacokinetic Model for Deltamethrin in the Adult Male Sprague-Dawley Rat|Toxicol. Sci.93(2): 432-442|2006|10.1093/toxsci/kfl056
109591|A||Subathra,S., and R. Karuppasamy|Toxic Effects of Copper on Bioenergetics and Growth Rates in Fingerlings and Adult Age of the Fish, Mystus vittatus (Bloch, 1794)|J. Fish. Aquat. Sci.2(4): 285-293|2007|10.3923/jfas.2007.285.293
109592|T||Ahmed,N.A., M.M. Fathi, and S.M. Rawi|Effect of Organophosphorus and Pyrethroid Compounds on Cholinesterase Activity in Different Brain and Spinal Cord Areas of Albino Rat|Bull. Fac. Sci. Cairo Univ.55(1): 145-158|1987|
109593|T||McKillop,C.M., J.A.C. Brock, G.J.A. Oliver, and C. Rhodes|A Quantitative Assessment of Pyrethroid-Induced Paraesthesia in the Guinea-Pig Flank Model|Toxicol. Lett.36(1): 1-7|1987|10.1016/0378-4274(87)90034-8
109594|T||Gill,H.S., R.K. Bhatia, and S.P. Mehra|Effect of Some Herbicides on Germination and Seedling Growth of Paddy (Oryza sativa L.) and Echinochloa crusgalli L.|J. Res. Punjab Agric. Univ.22(1): 167-170|1985|
109595|T||St Clair,S.B., and J.P. Lynch|Base Cation Stimulation of Mycorrhization and Photosynthesis of Sugar Maple on Acid Soils are Coupled by Foliar Nutrient Dynamics|New Phytol.165(2): 581-590|2005|10.1111/j.1469-8137.2004.01249.x
109596|T||Barbetti,M.J.|Seed Treatments for Control of Subterranean Clover Root Rot|Australas. Plant Pathol.13(3): 43-45|1984|10.1071/APP9840043
109597|T||Goettel,M.S., K.W. Richards, and G.B. Schaalje|Bioassay of Selected Fungicides for Control of Chalkbrood in Alfalfa Leafcutter Bees, Megachile rotundata|Apidologie22(5): 509-522|1991|10.1051/apido:19910504
109598|T||Gutierrez,C., R. Campos-Herrera, and J. Jimenez|Comparative Study of the Effect of Selected Agrochemical Products on Steinernema feltiae (Rhabditida:  Steinernematidae)|Biocontrol Sci. Technol.18(1): 101-108|2008|10.1080/09583150701684267
109599|T||Slotkin,T.A., and F.J. Seidler|Developmental Exposure to Terbutaline and Chlorpyrifos, Separately or Sequentially, Elicits Presynaptic Serotonergic Hyperactivity in Juvenile and Adolescent Rats|Brain Res. Bull.73(4-6): 301-309|2007|10.1016/j.brainresbull.2007.04.004
109600|A||Abdel-Nabi,I.M., N.S. El-Shenawy, I.A. Taha, and T.S. Moawad|Oxidative Stress Biomarkers and Bioconcentration of Reldan and Roundup by the Edible Clam Ruditapes decussatus|Dongwu Xuebao53(5): 910-920|2007|
109601|A||Rao,J.V.|Brain Acetylcholinesterase Activity as a Potential Biomarker for the Rapid Assessment of Chlorpyrifos Toxicity in a Euryhaline Fish, Oreochromis mossambicus|Environ. Bioindic.3(1): 11-22|2008|10.1080/15555270701779478
109602|T||Rao,J.V., K. Pathakoti, N.M. Jakka, and R. Pallela|Effect of Chlorpyrifos and Monocrotophos on Locomotor Behaviour and Acetylcholinesterase Activity of Subterranean Termites, Odontotermes obesus|Pest Manag. Sci.61:417-421|2005|10.1002/ps.986
109604|T||Nayaka,S.C., S.R. Niranjana, and H.S. Shetty|Improvement of Seed Quality and Field Emergence of Maize Seeds by Using Botanicals|Asian J. Microbiol. Biotechnol. Environ. Sci.8(3): 679-684|2006|
109606|AT||Rajendran,R., and N. Kempuchetty|Weed Control in Dry-Seeded Lowland Rice|Int. Rice Res. Notes23(1): 28-29|1998|
109607|T||Oji,O., V.T. Sapra, and R.P. Pacumbaba|Effect of Nematicide and Herbicide Interactions on Field Population of Cyst Nematode and Agronomic Characters of Soybean|J. Agron. Crop Sci.160(5): 309-313|1988|10.1111/j.1439-037X.1988.tb00627.x
109608|T||Kraus,R., and R.A. Sikora|Effects of the Herbicide Diallate, Alone and in Combination with Aldicarb, on Heterodera schachtii Population Levels in Sugar Beet|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)90(2): 132-139|1983|
109609|T||Mayer,D.F., J.D. Lunden, and R.E. Williams|Tralomethrin Insecticide and Domesticated Pollinators|Am. Bee J.131(7): 461-463|1991|
109610|T||Shukla,A.K., and R.R. Mishra|Evaluation of Some Biocides Against Pathogen Alternaria alternata|Crop Res. (Hisar)12(1): 76-81|1996|
109611|T||Wood,G.W.|Monitoring of Insecticide Drift from Forest Spray Operations and Its Effect on Lowbush Blueberry in New Brunswick in 1980|Monitoring of Insecticide Drift from Forest Spray Operations and Its Effect on Lowbush Blueberry in New Brunswick in 1980, New Brunswick Dep. of the Environ., Dep. of Agric. and Rural Dev., New Brunswick:25 p.|1980|
109612|T||Diop,A.M., and K. Moody|Effect of Rate and Time of Herbicide Application on Yield and Marginal Cost-Benefit Ratio of Wet-Seeded Rice in the Philippines|J. Plant Prot. Trop.6(2): 139-146|1989|
109613|T||Omar,M.N.A., O. Berge, E.E. Hassanein, and S.N. Shalan|In Vitro and In Situ Effects of Herbicide Thiobencarb on Rice-Azospirillum Association|Symbiosis13(1-3): 55-63|1992|
109614|T||Omar,D., R.B. Mohamad, and O.K. Eng|Effects of Thiobencarb Formulations on Seed Germination and Seedling Growth of Echinochloa crus-galli (L.) Beauv. and E. Colona (L.) Link|Malays. Appl. Biol.25(2): 35-38|1996|
109615|T||Qayyum,S.M., K.L. Tunio, A.H. Ansari, A.M. Kumbhar, and M.I. Sahou|Effect of Post Emergence Herbicides on the Growth and Yield of Rice (Oryza sativa L.) Varieties|Sarhad J. Agric.5(4): 395-402|1989|
109616|T||Randhawa,S.K., and H.S. Gill|Influence of Herbicides Applied in Transplanted Rice on Chlorophyll and Carotenoids in Wheat Leaves|J. Res. Punjab Agric. Univ.26(1): 29-30|1989|
109617|T||Rathore,A.L., S.L. Patel, G.P. Pali, and S.K. Taunk|Economic Evaluation of Weed Control in Broadcast Rice Under Flooded Condition|Adv. Plant Sci.6(2): 204-208|1993|
109618|T||Sudhakara,K., and R.R. Nair|Weed Control in Rice Under Semi-Dry System|Agric. Res. J. Kerala24(2): 211-215|1986|
109619|A||Zafar,M.A.|Studies on Weed Control in the Irrigated-Transplanted Rice and Its Cost Benefits|Sarhad J. Agric.5(4): 413-420|1989|
109620|T||Cabras,P., A. Angioni, V.L. Garau, E.V. Minelli, F. Cabitza, and M. Cubeddu|Pesticide Residues in Plums from Field Treatment to the Drying Process|Ital. J. Food Sci.10(1): 81-85|1998|
109621|A||Jones,O.A.H., F. Dondero, A. Viarengo, and J.L. Griffin|Metabolic Profiling of Mytilus galloprovincialis and Its Potential Applications for Pollution Assessment|Mar. Ecol. Prog. Ser.369:169-179|2008|10.3354/meps07654
109622|T||Noel,G.R.|Comparison of 'Fayette' Soybean, Aldicarb, and Experimental Nematicides for Management of Heterodera glycines on Soybean|Ann. Appl. Nematol.1:84-88|1987|
109623|T||Bednarska,A.J., I. Portka, P.E. Kramarz, and R. Laskowski|Combined Effect of Environmental Pollutants (Nickel, Chlorpyrifos) and Temperature on the Ground Beetle, Pterostichus oblongopunctatus (Coleoptera:  Carabidae)|Environ. Toxicol. Chem.28(4): 864-872|2009|10.1897/08-286R.1
109624|A||Ha,M.H., and J. Choi|Effects of Environmental Contaminants on Hemoglobin of Larvae of Aquatic Midge, Chironomus riparius (Diptera:  Chironomidae):  A Potential Biomarker for Ecotoxicity Monitoring|Chemosphere71(10): 1928-1936|2008|10.1016/j.chemosphere.2008.01.018
109625|T||Mahjoubi-Samet,A., H. Fetoui, K. Jamoussi, K. Chaabouni, F. Ellouze, F. Guermazi, and N. Zeghal|Impact of Chlorpyrifos on Cerebrum and Cerebellum Maturity in Suckling Rats|Toxicol. Environ. Chem.87(4): 551-558|2005|10.1080/02772240500363928
109626|T||Gilbert,M.E., S.K. Acheson, C.M. Mack, and K.M. Crofton|An Examination of the Proconvulsant Actions of Pyrethroid Insecticides Using Pentylenetetrazol and Amygdala Kindling Seizure Models|Neurotoxicology11(1): 73-86|1990|
109627|T||Yarsan,E., A. Bilgili, M. Kanbur, and S. Celik|Effects of Deltamethrin on Lipid Peroxidation in Mice|Vet. Hum. Toxicol.44(1): 73-75|2002|
109628|T||Queiroz,M.L.S.|Hematopoietic Effects in Mice Exposed to Deltamethrin and Hydrocortisone|Int. J. Immunopharmacol.15(3): 301-307|1993|10.1016/0192-0561(93)90040-6
109630|T||Catinot,R., H. Hoellinger, A. Pfister, M. Sonnier, and M.T. Simon|Effects on Rats of Subacute Intoxication with Deltamethrin via an Osmotic Pump|Drug Chem. Toxicol.12(3-4): 173-196|1989|10.3109/01480548908999153
109631|T||Anand,M., G.S.D. Gupta, M.D. Rana, and R.N. Khanna|Deltamethrin Induced Changes in Neuromuscular Transmission in Rats|J. Ecophysiol. Occup. Health1(1-2): 219-227|2001|
109632|T||Agrawal,D.|Deltamethrin Induced Alterations in Rat Red Blood Cells|J. Ecophysiol. Occup. Health1(3-4): 311-316|2001|
109633|AT||Kumar,S., A. Thomas, A. Sahgal, A. Verma, T. Samuel, and M.K.K. Pillai|Variations in the Insecticide-Resistance Spectrum of Anopheles stephensi After Selection with Deltamethrin or a Deltamethrin-Piperonyl-Butoxide Combination|Ann. Trop. Med. Parasitol.98(8): 861-871|2004|10.1179/000349804X3180
109634|AT||Kurian,T., and S.K. Saidapur|Effect of Human Chorionic Gonadotrophin on Methallibure Inhibited Spermatogenesis in Rana tigrina During the Preparatory Period|Curr. Sci. (Bangalore)56(7): 325-327|1987|
109635|T||Longley,M., P.C. Jepson, J. Izquierdo, and N. Sotherton|Temporal and Spatial Changes in Aphid and Parasitoid Populations Following Applications of Deltamethrin in Winter Wheat|Entomol. Exp. Appl.83(1): 41-52|1997|10.1046/j.1570-7458.1997.00155.x
109636|T||Baker,J.E.|Sensitivities of Laboratory and Field Strains of the Parasitoid Anisopteromalus calandrae (Hymenoptera:  Pteromalidae) and Its Host, Sitophilus oryzae (Coleoptera:  Curculionidae), to Deltamethrin and Cyfluthrin|J. Entomol. Sci.29(1): 100-109|1994|10.18474/0749-8004-29.1.100
109637|T||Atkinson,P.R., E. Van den Berg, and N.J. Van Rensburg|Response of Eucalyptus to Aldicarb in Coastal Sandy Soils in Natal, South Africa|S. Afr. For. J.158:5-9|1991|10.1080/00382167.1991.9630367
109638|A||Srivastava,S.K., R. Jaiswal, and A.K. Srivastav|Lethal Toxicity of Deltamethrin (Decis) to a Freshwater Fish, Heteropneustes fossilis|J. Adv. Zool.18(1): 23-26|1997|
109641|A||Fichera,L.E., A. Salibian, and R.R. Iasi|Inhibitory Effect of Decis-2-5 on the Sodium Net Uptake Through the In Vivo Skin of Leptodactylus ocellatus (Amphibia, Anura)|Comp. Physiol. Ecol.11(1): 1-3|1986|
109642|T||Kowalczyk-Bronisz,S.H., J. Gieldanowski, and B. Bubak|Immunological Profile of Animals Exposed to Pesticide - Deltamethrin|Arch. Immunol. Ther. Exp.38(3/4): 229-238|1990|
109643|T||Liu,G.P., Q. Ma, and N. Shi|Tyrosine Hydroxylase as a Target for Deltamethrin in the Nigrostriatal Dopaminergic Pathway|Biomed. Environ. Sci.19(1): 27-34|2006|
109644|T||Bhaumik,A., and P.K. Gupta|Teratogenicity of Decamethrin in Rats|Indian Vet. J.67(3): 213-219|1990|
109645|T||Brodie,M.E., and J. Opacka|Dissociation Between Circling Behaviour and Striatal Dopamine Activity Following Unilateral Deltamethrin Administration to Rats|Naunyn-Schmiedeberg's Arch. Pharmacol.331(4): 341-346|1985|10.1007/BF00500816
109646|T||Brodie,M.E., and W.N. Aldridge|Elevated Cerebellar Cyclic GMP Levels During the Deltamethrin-Induced Motor Syndrome|Neurobehav. Toxicol. Teratol.4(1): 109-113|1982|
109647|T||Brodie,M.E.|Deltamethrin Infusion into Different Sites in the Neuraxis of Freely-Moving Rats|Neurobehav. Toxicol. Teratol.7(1): 51-55|1985|
109648|T||Glowa,J.R.|Acute and Sub-Acute Effects of Deltamethrin and Chlordimeform on Schedule-Controlled Responding in the Mouse|Neurobehav. Toxicol. Teratol.8(1): 97-102|1986|
109649|T||De Boer,S.F., J. Van der Gugten, J.L. Slangen, and T.H. Hijzen|Changes in Plasma Corticosterone and Catecholamine Contents Induced by Low Doses of Deltamethrin in Rats|Toxicology49(2-3): 263-270|1988|10.1016/0300-483X(88)90007-8
109650|T||Varma,G.C., and P.P. Singh|Effect of Insecticides on the Emergence of Trichogramma brasiliensis (Hymenoptera:  Trichogrammatidae) from Parasitized Host Eggs|Entomophaga32(5): 443-448|1987|10.1007/BF02373512
109651|T||Elzen,G.W., P.J. O'Brien, G.L. Snodgrass, and J.E. Powell|Susceptibility of the Parasitoid Microplitis croceipes (Hymenoptera:  Braconidae) to Field Rates of Selected Cotton Insecticides|Entomophaga32(5): 545-550|1987|10.1007/BF02373523
109652|T||Spollen,K.M., M.W. Johnson, and B.E. Tabashnik|Stability of Fenvalerate Resistance in the Leafminer Parasitoid Diglyphus begini (Hymenoptera:  Eulophidae)|J. Econ. Entomol.88(2): 192-197|1995|10.1093/jee/88.2.192
109653|T||Shenhmar,M., G.C. Verma, and K.S. Brar|Studies on the Establishment of Allorhogas pyralophagus Marsh (Braconidae:  Hymenoptera) on Sugarcane Borers in the Punjab|J. Insect Sci.3(1): 53-56|1990|
109654|T||Wu,C.C., L.Y. Sheen, H.W. Chen, W.W. Kuo, S.J. Tsai, and C.K. Lii|Differential Effects of Garlic Oil and Its Three Major Organosulfur Components on the Hepatic Detoxification System in Rats|J. Agric. Food Chem.50(2): 378-383|2002|10.1021/jf010937z
109655|A||Hamer,M.J., and F. Heimbach|Ring Testing a Standardised Test Method for a Toxicity Test on Sediment-Dwelling Chironomus riparius by Spiking the Overlying Water|In: M.Munawar and G.Dave (Eds.), Ecovision World Monogr.Ser.: Development and Progress in Sediment Quality Assessment: Rationale, Challenges, Techniques and Strategies, 1st Int.Symp.on Sediment Quality Assessment, Aug.22-25, 1994, Goteborg, Sweden:195-202|1996|
109656|A||Pieters,B.J., and M. Liess|Population Developmental Stage Determines the Recovery Potential of Daphnia magna Populations After Fenvalerate Application|Environ. Sci. Technol.40:6157-6162|2006|10.1021/es052180o
109657|A||Ordog,V., and K. Kuivasniemi|Studies on the Effect of Cell Division-Inhibiting Herbicides on Unialgal and Mixed Algal Cultures|Int. Rev. Hydrobiol.74(2): 221-226|1989|10.1002/iroh.19890740208
109658|T||Bowman,J.E., and J.B. Sinclair|Effect of Herbicides and Oat Amendment on Soybean Disease Development and Seed Quality|J. Phytopathol.117(3): 252-259|1986|10.1111/j.1439-0434.1986.tb00939.x
109659|T||El-Khadem,M., M.M. Nagib, and M.S. Tewfik|The Effect of Certain Nitro-Herbicides on the Growth of Some Soil-Inhabiting Fungi|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.128(7/8): 780-786|1973|10.1016/S0044-4057(73)80101-7
109660|T||Zaidenberg,A., C. Marra, T. Luong, P. Gomez, L. Milani, S. Villagra, and R. Drut|Trifluralin Toxicity in a Chagas Disease Mouse Model|Basic Clin. Pharmacol. Toxicol.101(2): 90-95|2007|10.1111/j.1742-7843.2007.00079.x
109661|T||Huckaba,R.M., H.D. Coble, and J.W. Van Duyn|Joint Effects of Acifluorfen Applications and Soybean Thrips (Sericothrips variabilis) Feeding on Soybean (Glycine max)|Weed Sci.36(5): 667-670|1988|10.1017/S0043174500075597
109662|A||Doughty,M.J.|Action of Quinine Sulfate on the Chemosensory Responses of the Ciliate Paramecium caudatum, to Inorganic Cations|Acta Protozool.27(3/4): 205-228|1988|
109663|T||Rashid,K.Y., and E.O. Kenaschuk|Effect of Trifluralin on Fusarium Wilt in Flax|Can. J. Plant Sci.73(3): 893-901|1993|10.4141/cjps93-117
109664|T||Yu,S.M., G.E. Templeton, and D.C. Wolf|Trifluralin Concentration and the Growth of Fusarium solani f. sp. cucurbitae in Liquid Medium and Soil|Soil Biol. Biochem.20(5): 607-612|1988|10.1016/0038-0717(88)90142-3
109665|T||Saghir,S.A., G.D. Charles, M.J. Bartels, L.H.L. Kan, M.D. Dryzga, K.A. Brzak, and A.J. Clark|Mechanism of Trifluralin-Induced Thyroid Tumors in Rats|Toxicol. Lett.180(1): 38-45|2008|10.1016/j.toxlet.2008.05.019
109666|T||Gomez-Eyles,J.L., C. Svendsen, L. Lister, H. Martin, M.E. Hodson, and D.J. Spurgeon|Measuring and Modelling Mixture Toxicity of Imidacloprid and Thiacloprid on Caenorhabditis elegans and Eisenia fetida|Ecotoxicol. Environ. Saf.72(1): 71-79|2009|10.1016/j.ecoenv.2008.07.006
109667|T||Hackenberger,B.K., D. Jaric-Perkusic, and S. Stepic|Effect of Temephos on Cholinesterase Activity in the Earthworm Eisenia fetida (Oligochaeta, Lumbricidae)|Ecotoxicol. Environ. Saf.71(2): 583-589|2008|10.1016/j.ecoenv.2007.11.008
109668|T||Anadon,A., M.R. Martinez-Larranaga, M.J. Diaz, P. Bringas, and M.C. Fernandez|Effect of Deltamethrin on Antipyrine Pharmacokinetics and Metabolism in Rat|Arch. Toxicol.65(2): 156-159|1991|10.1007/BF02034944
109669|T||Andrade,A.J.M., S. Araujo, G.M. Santana, M. Ohi, and P.R. Dalsenter|Screening for In Vivo (Anti)Estrogenic and (Anti)Androgenic Activities of Technical and Formulated Deltamethrin|Regul. Toxicol. Pharmacol.35(3): 379-382|2002|10.1006/rtph.2002.1554
109670|T||Andrade,A.J.M., S. Araujo, G.M. Santana, M. Ohi, and P.R. Dalsenter|Reproductive Effects of Deltamethrin on Male Offspring of Rats Exposed During Pregnancy and Lactation|Regul. Toxicol. Pharmacol.36(3): 310-317|2002|10.1006/rtph.2002.1586
109671|T||Chen,D., X. Huang, L. Liu, and N. Shi|Deltamethrin Induces Mitochondrial Membrane Permeability and Altered Expression of Cytochrome C in Rat Brain|J. Appl. Toxicol.27(4): 368-372|2007|10.1002/jat.1215
109672|T||Dayal,M., D. Parmar, A. Dhawan, M. Ali, U.N. Dwivedi, and P.K. Seth|Effect of Pretreatment of Cytochrome P450 (P450) Modifiers on Neurobehavioral Toxicity Induced by Deltamethrin|Food Chem. Toxicol.41(3): 431-437|2003|10.1016/S0278-6915(02)00249-1
109673|T||Forshaw,P.J., T. Lister, and D.E. Ray|The Role of Voltage-Gated Chloride Channels in Type II Pyrethroid Insecticide Poisoning|Toxicol. Appl. Pharmacol.163(1): 1-8|2000|10.1006/taap.1999.8848
109674|T||Ethyl Corp.|Two Way Factorial Analysis of Blood Serum Chemistry Parameters by Treatment Group & Degree of Hemolysis for Day 45 Bleeding of Rats with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000220:78 p.|1991|
109675|T||Pussemier,L., A. Wauters, and J.F. Misonne|The Fate of Some Carbamate Insecticides After Low-Dose Application Techniques|Sci. Total Environ.123/124:571-581|1992|10.1016/0048-9697(92)90179-V
109676|T||Ethyl Corp.|Acute Oral and Dermal Toxicity, Acute Skin and Eye Irritation, and Corrosivity Potential of M-Phenoxybenzaldehyde (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000214:20 p.|1991|
109677|T||Ethyl Corp.|Histopathologic Evaluation of Tissues and Organs from Albino Rats in a 90-Day Subchronic Oral Dosing Study with Meta-Phenoxybenzaldehyde (Final Report) with Letter Dated 112191|EPA/OTS Doc.#86-920000218:54 p.|1991|
109678|T||Ethyl Corp.|Guinea Pig Contact Dermal Irritation/Sensitization:  MPBAD (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000210:8 p.|1991|
109679|T||Ethyl Corp.|Acute Eye Irritation Test with Meta-Phenoxybenzaldehyde with Attachments and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000266:24 p.|1991|
109680|T||Ethyl Corp.|Acute Eye Irritation Study in Rabbits with Meta-Phenoxybenzaldehyde with Attachment and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000261:25 p.|1991|
109681|T||Ethyl Corp.|Acute Oral Toxicity Study in Rats (14 Day):  M-PBAD Lot #450 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000203:33 p.|1991|
109682|T||Ethyl Corp.|Acute Oral Toxicity Study in Rats (14 Day) with Meta-Phenoxybenzaldehyde with Attachments and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000268:29 p.|1991|
109683|T||Ethyl Corp.|Acute Toxicity Studies in Rabbits and Rats:  3-Phenoxybenzaldehyde (Final Report) with Cover Letter Dated 112191|EPA/OTS Doc.#86-920000215:57 p.|1991|
109684|T||Griffiths,B.S., S. Caul, J. Thompson, A.N.E. Birch, C. Scrimgeour, J. Cortet, A. Foggo, C.A. Hackett, and P.H. Krogh|Soil Microbial and Faunal Community Responses to BT Maize and Insecticide in Two Soils|J. Environ. Qual.35(3): 734-741|2006|10.2134/jeq2005.0344
109685|T||Gupta,P.K., and S. Kumar|Cumulative Toxicity of Deltamethrin in Mice|J. Environ. Biol.12(1): 45-50|1991|
109686|T||Imamura,L., M. Yasuda, K. Kuramitsu, D. Hara, A. Tabuchi, and M. Tsuda|Deltamethrin, a Pyrethroid Insecticide, is a Potent Inducer for the Activity-Dependent Gene Expression of Brain-Derived Neurotrophic Factor in Neurons|J. Pharmacol. Exp. Ther.316(1): 136-143|2006|10.1124/jpet.105.092478
109687|T||Lazarini,C.A., J.C. Florio, I.P. Lemonica, and M.M. Bernardi|Effects of Prenatal Exposure to Deltamethrin on Forced Swimming Behavior, Motor Activity, and Striatal Dopamine Levels in Male and Female Rats|Neurotoxicol. Teratol.23(6): 665-673|2001|10.1016/S0892-0362(01)00170-2
109688|T||Lukowicz-Ratajczak,J., and J. Krechniak|Effects of Deltamethrin on the Immune System in Mice|Environ. Res.59(2): 467-475|1992|10.1016/S0013-9351(05)80049-0
109689|T||Moretti,M., M. Villarini, G. Scassellati-Sforzolini, R. Pasquini, and S. Monarca|Applicability of Aspecific Noninvasive Methods for Biomonitoring of Occupational Exposure to Deltamethrin:  Preliminary Study Using an Animal Model|Arch. Environ. Contam. Toxicol.33(3): 323-328|1997|10.1007/s002449900260
109690|T||McLaughlin,J.,Jr., J.P. Marliac, M.J. Verrett, M.K. Mutchler, and O.G. Fitzhugh|Toxicity of Fourteen Volatile Chemicals as Measured by the Chick Embryo Method|Am. Ind. Hyg. Assoc. J.25:282-284|1964|10.1080/00028896409342588
109691|T||Gupta,M.M., A. Akhila, R.K. Verma, and D. Singh|Effect of Some Insecticides on the Yield of Tropane Alkaloids in Egyptian Henbane (Hyoscyamus muticus Linn.)|Indian J. Pharm. Sci.47(2): 37-38|1985|
109692|T||Vianello,A., F. Macri, S. Nardi, C. Chandler, and F. Renosto|Effect of Trifluralin Synthesis Intermediates on Plant Cell Membrane Permeability and Growth of Plants and Fungi|J. Environ. Qual.10(3): 392-395|1981|10.2134/jeq1981.00472425001000030030x
109693|A||Salinas,K.A., M.J. Hemmer, P.S. Harris, and C.C. Walker|A Simple and Rapid Matrix-Assisted Laser Desorption/Ionization Time of Flight Mass Spectrometry Method to Screen Fish Plasma Samples for Estrogen-Responsive Biomarkers|Environ. Toxicol. Chem.27(5): 1175-1183|2008|10.1897/07-226.1
109694|A||Union Carbide Corp.|Initial Submission:  Acute Toxicity of UC 21865 to Rainbow Trout, Bluegill Sunfish, and the Waterflea with Cover Letter Dated 09/03/92|EPA/OTS Doc.#88-920009347:19 p.|1992|
109695|T||Shell Oil Co.|Acute Toxicity of 3-Phenoxy-Benzaldehyde Study with Attachments and Cover Letter Dated 112791|EPA/OTS Doc.#86-920000474:48 p.|1981|
109696|T||Union Carbide Corp.|Acute Oral Toxicity Study in Rats with Meta-Phenoxybenzaldehyde with Attachments and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000267:38 p.|1991|
109697|T||Ethyl Corp.|Acute Dermal Toxicity Test in Rabbits with Meta-Phenoxybenzaldehyde with Attachments and Cover Letter Dated 112591|EPA/OTS Doc.#86-920000263:24 p.|1991|
109698|T||Battu,R.S., G. Singh, B. Singh, and P. Singh|Residues of Some Synthetic Pyrethroids in Sesame, Sesamum indicum L. Seeds|J. Insect Sci.5(2): 219-|1992|
109700|T||Ravindhran,R., and A. Xavier|Studies on Aphid Resurgence and Associated Biochemical Changes in Leaves of Cotton in Response to Pyrethroid Applications|Indian J. Plant Physiol.1(4): 300-302|1996|
109701|T||Sharma,S.R., R.K. Gaur, A. Singh, P. Singh, and G.P. Rao|Biological and Chemical Control of Eye Leaf Spot Disease of Sugarcane|Sugar Technol.6(1-2): 77-80|2004|10.1007/BF02942623
109702|A||Peyghan,R., M.D. Powell, and M.R. Zadkarami|In Vitro Effect of Garlic Extract and Metronidazole Against Neoparamoeba pemaquidensis, Page 1987 and Isolated Amoebae from Atlantic Salmon|Pak. J. Biol. Sci.11(1): 41-47|2008|10.3923/pjbs.2008.41.47
109704|T||Kubota,N., Y. Yamane, and K. Toriu|Breaking Bud Dormancy in Grape Cuttings with Non-Volatile and Volatile Compounds of Several Allium Species|J. Jpn. Soc. Hortic. Sci.71(4): 467-472|2002|10.2503/jjshs.71.467
109705|T||Mahmoud,Y.A.G., M.K.H. Ebrahim, and M.M. Aly|Influence of Plant Extracts and Microbioagents on Physiological Traits of Faba Bean Infected with Botrytis fabae|J. Plant Biol.47(3): 194-202|2004|10.1007/BF03030508
109706|T||Bekepe,K., T. Sommartya, V. Rakvidhyasastra, N. Singburaudom, P. Sukprasert, and L. Berga|Crude Garlic Extract Effect on the Growth of Mycelia, Germination of Zoospores and Sporangia and Time of Application on the Infection of Phytophthora infestans (Mont.) de Bary of Potato Under Controlled Conditions in Et|Kasetsart J. Nat. Sci.40(3): 729-737|2006|
109707|T||Pal,S.T., and M.W. Platt|Antifungal Effects of Allium sativum (Garlic) Extract Against the Aspergillus Species Involved in Otomycosis|Lett. Appl. Microbiol.20(1): 14-18|1995|10.1111/j.1472-765X.1995.tb00397.x
109708|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp Describing a Study Entitled:  RU-25474:  Acute Toxicity in Rainbow Trout (Salmo gairdneri)|EPA/OTS Doc.#89-920000375:5 p.|1992|
109709|T||Kohno,H., Y. Tsukio, Y. Yanaida, M. Tanino, and T. Tanaka|Lack of Modifying Effects of 4-n-Octylphenol on 3,2'-Dimethyl-4-Aminobiphenyl-Induced Prostate Carcinogenesis in Rats|Ecotoxicol. Environ. Saf.51:210-215|2002|10.1006/eesa.2002.2132
109710|T||Jensen,P.D., M.D. Rivas, and J.T. Trumble|Developmental Responses of a Terrestrial Insect Detritivore, Megaselia scalaris (Loew) to Four Selenium Species|Ecotoxicology14(3): 313-322|2005|10.1007/s10646-003-6368-x
109711|T||Eckwert,H., G. Alberti, and H.R. Kohler|The Induction of Stress Proteins (HSP) in Oniscus asellus (Isopoda) as a Molecular Marker of Multiple Heavy Metal Exposure:  I.  Principles and Toxicological Assessment|Ecotoxicology6(5): 249-262|1997|10.1023/A:1018682928839
109712|T||Fourie,F., S.A. Reinecke, and A.J. Reinecke|The Determination of Earthworm Species Sensitivity Differences to Cadmium Genotoxicity Using the Comet Assay|Ecotoxicol. Environ. Saf.67(3): 361-368|2007|10.1016/j.ecoenv.2006.10.005
109713|T||Gao,Y., Z. Sun, X. Sun, Y. Sun, and W. Shi|Toxic Effects of Albendazole on Adenosine Triphosphatase Activity and Ultrastructure in Eisenia fetida|Ecotoxicol. Environ. Saf.67(3): 378-384|2007|10.1016/j.ecoenv.2006.10.008
109714|T||Garcia,T.A., and L. Corredor|Biochemical Changes in the Kidneys After Perinatal Intoxication with Lead and/or Cadmium and Their Antagonistic Effects when Coadministered|Ecotoxicol. Environ. Saf.57(2): 184-189|2004|10.1016/S0147-6513(03)00063-0
109715|T||Dorandeu,F., A. Foquin, R. Briot, C. Delacour, J. Denis, A. Alonso, M.T. Froment, F. Renault, G. Lallement, and P. Mass|An Unexpected Plasma Cholinesterase Activity Rebound After Challenge with a High Dose of the Nerve Agent VX|Toxicology248(2-3): 151-157|2008|10.1016/j.tox.2008.03.013
109717|A||Carlson,L.S.|Chemical Toxicities and Thermal Synergisms in Rainbow Trout (Salmo gairdneri)|M.A.Thesis, San Francisco State University, San Fransisco, CA:79 p.|1975|
109719|T||Montes-Holguin,M.O., J.R. Peralta-Videa, G. Meitzner, A. Martinez-Martinez, G. De la Rosa, H.A. Castillo-Michel, and J.|Biochemical and Spectroscopic Studies of the Response of Convolvulus arvensis L. to Chromium(III) and Chromium(VI) Stress|Environ. Toxicol. Chem.25(1): 220-226|2006|10.1897/05-089R.1
109720|A||Moreels,D., P. Lodewijks, H. Zegers, E. Rurangwa, N. Vromant, L. Bastiaens, L. Diels, D. Springael, R. Merckx, and F. O|Effect of Short-Term Exposure to Methyl-tert-Butyl Ether and tert-Butyl Alcohol on the Hatch Rate and Development of the African Catfish, Clarias gariepinus|Environ. Toxicol. Chem.25(2): 514-519|2006|10.1897/04-641R.1
109721|A||Niederer,C., R. Behra, A. Harder, R.P. Schwarzenbach, and B.I. Escher|Mechanistic Approaches for Evaluating the Toxicity of Reactive Organochlorines and Epoxides in Green Algae|Environ. Toxicol. Chem.23(3): 697-704|2004|10.1897/03-83
109722|A||Morlon,H., C. Fortin, C. Adam, and J. Garnier-Laplace|Selenite Transport and Its Inhibition in the Unicellular Green Alga Chlamydomonas reinhardtii|Environ. Toxicol. Chem.25(5): 1408-1417|2006|10.1897/2512039.1
109723|A||Nolde,N., D. Drobne, J. Valant, I. Padovan, and M. Horvat|Lysosomal Membrane Stability in Laboratory- and Field-Exposed Terrestrial Isopods Porcellio scaber (Isopoda, Crustacea)|Environ. Toxicol. Chem.25(8): 2114-2122|2006|10.1897/05-593R1.1
109724|A||Ryu,J., M.S. Lee, J.G. Na, K. Chung, B.J. Song, and K. Park|Molecular Cloning of Cytochrome P4501A cDNA of Medaka (Oryzias latipes) and Messenger Ribonucleic Acid Regulation by Environmental Pollutants|Environ. Toxicol. Chem.23(4): 1004-1011|2004|10.1897/03-27
109725|T||Su,Y., F.X. Han, B.B.M. Sridhar, and D.L. Monts|Phytotoxicity and Phytoaccumulation of Trivalent and Hexavalent Chromium in Brake Fern|Environ. Toxicol. Chem.24(8): 2019-2026|2005|10.1897/04-329R.1
109726|A||Allen,T., A. Awasthi, and S.V.S. Rana|Fish Chromatophores as Biomarkers of Arsenic Exposure|Environ. Biol. Fishes71(1): 7-11|2004|10.1023/B:EBFI.0000043145.58953.86
109727|A||Arkhipchuk,V.V., and N.N. Garanko|Using the Nucleolar Biomarker and the Micronucleus Test on In Vivo Fish Fin Cells|Ecotoxicol. Environ. Saf.62(1): 42-52|2005|10.1016/j.ecoenv.2005.01.001
109728|A||Bryer,P.J., J.N. Elliott, and E.J. Willingham|The Effects of Coal Tar Based Pavement Sealer on Amphibian Development and Metamorphosis|Ecotoxicology15(3): 241-247|2006|10.1007/s10646-005-0055-z
109729|T||Hirase,K., and W.T. Molin|Effect of Flurazole and Other Safeners for Chloroacetanilide Herbicides on Cysteine Synthase in Sorghum Shoots|Pestic. Biochem. Physiol.71(2): 116-123|2001|10.1006/pest.2001.2567
109730|T||Inui,H., Y. Ueyama, N. Shiota, Y. Ohkawa, and H. Ohkawa|Herbicide Metabolism and Cross-Tolerance in Transgenic Potato Plants Expressing Human CYP1A1|Pestic. Biochem. Physiol.64:33-46|1999|10.1006/pest.1999.2407
109731|A||Mosulishvili,L., E.I. Kirkesali, A.I. Belokobylsky, A.I. Khizanishvili, M.V. Frontasyeva, S.S. Pavlov, and S. Gundorina|Experimental Substantiation of the Possibility of Developing Selenium- and Iodine-Containing Pharmaceuticals Based on Blue-Green Algae Spirulina platensis|J. Pharm. Biomed. Anal.30(1): 87-97|2002|10.1016/S0731-7085(02)00199-1
109732|A||Zhang,X., F. Yang, X. Zhang, Y. Xu, T. Liao, S. Song, and J. Wang|Induction of Hepatic Enzymes and Oxidative Stress in Chinese Rare Minnow (Gobiocypris rarus) Exposed to Waterborne Hexabromocyclododecane (HBCDD)|Aquat. Toxicol.86(1): 4-11|2008|10.1016/j.aquatox.2007.07.002
109733|T||Al-Attar,A.F., M.H. Martin, and G. Nickless|A Comparison Between Selenium and Tellurium Uptake and Toxicity to Lolium perenne Seedlings|Chemosphere17(4): 845-850|1988|10.1016/0045-6535(88)90265-2
109734|T||Al-Attar,A.F., and G. Nickless|Response Surface Methodology for an Investigation of the Influence of Selenium, Cadmium and Mercury on the Growth of Lolium perenne Seedlings|Chemosphere17(9): 1851-1861|1988|10.1016/0045-6535(88)90112-9
109735|A||Nayak,A.S., C.R. Lage, and C.H. Kim|Effects of Low Concentrations of Arsenic on the Innate System Immune of the Zebrafish (Danio rerio)|Toxicol. Sci.98(1): 118-124|2007|10.1093/toxsci/kfm072
109736|T||Carrington,C.D., and M.B. Abou-Donia|The Time Course of Protection from Delayed Neurotoxicity Induced by Tri-o-Cresyl Phosphate and O,O-Diisopropyl Phosphorofluoridate by Phenyl Methyl Sulfonyl Fluoride in Chickens|Toxicol. Lett.18:251-256|1983|10.1016/0378-4274(83)90102-9
109737|T||Cano,P., A.H.B. Poliandri, V. Jimenez, D.P. Cardinali, and A.I. Esquifino|Cadmium-Induced Changes in Per 1 and Per 2 Gene Expression in Rat Hypothalamus and Anterior Pituitary:  Effect of Melatonin|Toxicol. Lett.172(3): 131-136|2007|10.1016/j.toxlet.2007.05.011
109738|T||Blaha,K.,Jr., M. Cikrt, L. Kasparova, and M.M. Jones|Synergistic Enhancement of the Biliary Excretion of Cadmium by the Simultaneous Administration of Two Dithiocarbamates|Toxicol. Lett.42(2): 207-213|1988|10.1016/0378-4274(88)90079-3
109739|T||Antonio,M.T., L. Corredor, and M.L. Leret|Study of the Activity of Several Brain Enzymes like Markers of the Neurotoxicity Induced by Perinatal Exposure to Lead and/or Cadmium|Toxicol. Lett.143(3): 331-340|2003|10.1016/S0378-4274(03)00194-2
109740|T||Albrecht,R., M.A. Pelissier, and M. Boisset|Excessive Dietary Selenium Decreases the Vitamin A Storage and the Enzymatic Antioxidant Defence in the Liver of Rats|Toxicol. Lett.70(3): 291-297|1994|10.1016/0378-4274(94)90123-6
109741|T||Adams,W.J.,Jr., J.J. Kocsis, and R. Snyder|Acute Toxicity and Urinary Excretion of Diphenyldiselenide|Toxicol. Lett.48(3): 301-310|1989|10.1016/0378-4274(89)90057-X
109742|T||Shaikh,Z.A., K. Zaman, W. Tang, and T. Vu|Treatment of Chronic Cadmium Nephrotoxicity by N-Acetyl Cysteine|Toxicol. Lett.104(1-2): 137-142|1999|10.1016/S0378-4274(98)00358-0
109743|T||Zhang,S.Y., J. Ueyama, Y. Ito, Y. Yanagiba, A. Okamura, M. Kamijima, and T. Nakajima|Permethrin may Induce Adult Male Mouse Reproductive Toxicity Due to cis Isomer Not trans Isomer|Toxicology248(2-3): 136-141|2008|10.1016/j.tox.2008.03.018
109744|T||Codorean,E., G. Filipescu, C. Tanase, L. Ciotaru, D. Mihalache, and D. Laky|Simultaneous Investigation of the Rat Serum and Liver Response in an Acute Toxic Substances Exposure|Rom. J. Morphol. Embryol.37(3/4): 143-152|1991|
109745|T||El Mehalawy,A.A.|Effect of Captan, 2,4-D and DDT on Soil Fungi|Egypt. J. Bot.33(3): 201-214|1990|
109746|T||Satya,V.K., R. Radhajeyalakshmi, K. Kavitha, V. Paranidharan, R. Bhaskaran, and R. Velazhahan|In Vitro Antimicrobial Activity of Zimmu (Allium sativum L. 'Allium cepa L.) Leaf Extract|Arch. Phytopathol. Plant Prot.38(3): 185-192|2005|10.1080/03235400500094357
109747|T||Gentile,I.A., and M. Bovio|Fusarium Wilt Severity and Ethylene Evolution in Tomato Plants After Treatment with Trifluralin and Naphthylacetic Acid|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)93(6): 624-631|1986|
109748|T||Ray,D.E., S.A. Burr, and T. Lister|The Effects of Combined Exposure to the Pyrethroids Deltamethrin and S-Bioallethrin on Hippocampal Inhibition and Skeletal Muscle Hyperexcitability in Rats|Toxicol. Appl. Pharmacol.216(2): 354-362|2006|10.1016/j.taap.2006.06.005
109749|T||Wilson,A.D., and D.G. Lester|Trench Inserts as Long-Term Barriers to Root Transmission for Control of Oak Wilt|Plant Dis.86(10): 1067-1074|2002|10.1094/PDIS.2002.86.10.1067
109750|T||Bianchi,A., A. Zambonelli, A.Z. D'Aulerio, and F. Bellesia|Ultrastructural Studies of the Effects of Allium sativum on Phytopathogenic Fungi In Vitro|Plant Dis.81(11): 1241-1246|1997|10.1094/PDIS.1997.81.11.1241
109753|T||Naughton,J.A., R. Hughes, P. Bray, and A. Bell|Accumulation of the Antimalarial Microtubule Inhibitors Trifluralin and Vinblastine by Plasmodium falciparum|Biochem. Pharmacol.75(8): 1580-1587|2008|10.1016/j.bcp.2008.01.002
109754|A||Turgut,C.|Uptake and Modeling of Pesticides by Roots and Shoots of Parrotfeather (Myriophyllum aquaticum)|Environ. Sci. Pollut. Res.12(6): 342-346|2005|10.1065/espr2005.05.256
109755|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  Developmental Toxicity of Deltamethrin in Rats|EPA/OTS Doc.#88-920003683:4 p.|1992|
109756|T||Hill,B.D., and D.J. Inaba|Fate and Persistence of Residues on Wheat Used to Explain Efficacy Differences Between Deltamethrin Suspension Concentrate and Emulsifiable Concentrate Formulations|Pestic. Sci.29(1): 57-66|1990|10.1002/ps.2780290108
109757|T||Lawson,M., R. Kennedy, and C. Stopes|Evaluation of Garlic Oil and Other Chemicals for Control of Downy Mildew (Peronospora parasitica) in Organic Production of Brassicas|Ann. Appl. Biol.132(suppl.): 14-15|1998|
109758|T||Chawla,R.|Laboratory Evaluation of K-Othrine, a Synthetic Pyrethroid Against Swiss Albino Mice|J. Adv. Zool.18(1): 51-53|1997|
109759|A||BASF Corp.|Initial Submission:  Ltr Fr BASF to USEPA Submitting Results of an Acute Toxicity Test on Daphnia magna with 3-Phenoxybenzaldehyde, Dated 041102|EPA/OTS Doc.#88020000107:5 p.|2002|
109760|T||Cai,Q., L. Tang, and J.S. Wang|Validation of Fumonisin Biomarkers in F344 Rats|Toxicol. Appl. Pharmacol.225(1): 28-39|2007|10.1016/j.taap.2007.06.027
109761|T||Singhal,R., T.M. Badger, and M.J. Ronis|Rats Fed Soy Protein Isolate (SPI) have Impaired Hepatic CYP1A1 Induction by Polycyclic Aromatic Hydrocarbons as a Result of Interference with Aryl Hydrocarbon Receptor Signaling|Toxicol. Appl. Pharmacol.227(2): 275-283|2008|10.1016/j.taap.2007.11.009
109762|T||Wang,S., M. Tang, B. Pei, X. Xiao, J. Wang, H. Hang, and L. Wu|Cadmium-Induced Germline Apoptosis in Caenorhabditis elegans:  The Roles of HUS1, p53, and MAPK Signaling Pathways|Toxicol. Sci.102(2): 345-351|2008|10.1093/toxsci/kfm220
109763|T||Grizzo,L.T., and S. Cordellini|Perinatal Lead Exposure Affects Nitric Oxide and Cyclooxygenase Pathways in Aorta of Weaned Rats|Toxicol. Sci.103(1): 207-214|2008|10.1093/toxsci/kfn018
109765|T||Chauhan,L.K.S., T.S.S. Dikshith, and V. Sundararaman|Effect of Deltamethrin on Plant Cells I.  Cytological Effects on the Root Meristems of Allium cepa|Mutat. Res.171(1): 25-30|1986|10.1016/0165-1218(86)90005-4
109768|T||Costa,L.G., G. Olibet, and S.D. Murphy|Alpha2-Adrenoceptors as a Target for Formamidine Pesticides:  In Vitro and In Vivo Studies in Mice|Toxicol. Appl. Pharmacol.93(2): 319-328|1988|10.1016/0041-008X(88)90132-9
109769|T||Wei,L., P. Liao, H. Wu, X. Li, F. Pei, W. Li, and Y. Wu|Toxicological Effects of Cinnabar in Rats by NMR-Based Metabolic Profiling of Urine and Serum|Toxicol. Appl. Pharmacol.227(3): 417-429|2008|10.1016/j.taap.2007.11.015
109770|T||Pogribny,I.P., T.V. Bagnyukova, V.P. Tryndyak, L. Muskhelishvili, R. Rodriguez-Juarez, O. Kovalchuk, T. Han, J.C. Fusco|Gene Expression Profiling Reveals Underlying Molecular Mechanisms of the Early Stages of Tamoxifen-Induced Rat Hepatocarcinogenesis|Toxicol. Appl. Pharmacol.225(1): 61-69|2007|10.1016/j.taap.2007.07.001
109771|T||Goering,P.L., B.R. Fisher, and C.L. Kish|Stress Protein Synthesis Induced in Rat Liver by Cadmium Precedes Hepatotoxicity|Toxicol. Appl. Pharmacol.122(1): 139-148|1993|10.1006/taap.1993.1181
109772|T||Dorian,C., V.H. Gattone II, and C.D. Klaasen|Renal Cadmium Deposition and Injury as a Result of Accumulation of Cadmium-Metallothionein (CdMT) by the Proximal Convoluted Tubules - A Light Microscopic Autoradiography Study with 109CdMT|Toxicol. Appl. Pharmacol.114(2): 173-181|1992|10.1016/0041-008X(92)90066-2
109774|T||Min,K.S., Y. Fujita, S. Onosaka, and K. Tanaka|Role of Intestinal Metallothionein in Absorption and Distribution of Orally Administered Cadmium|Toxicol. Appl. Pharmacol.109(1): 7-16|1991|10.1016/0041-008X(91)90186-I
109775|T||Bogdanffy,M.S., T.J. Mazaika, and W.J. Fasano|Early Cell Proliferative and Cytotoxic Effects of Phenacetin on Rat Nasal Mucosa|Toxicol. Appl. Pharmacol.98:100-112|1989|10.1016/0041-008X(89)90138-5
109776|T||Shiobara,Y., T. Yoshida, and K.T. Suzuki|Effects of Dietary Selenium Species on Se Concentrations in Hair, Blood, and Urine|Toxicol. Appl. Pharmacol.152(2): 309-314|1998|10.1006/taap.1998.8537
109777|T||Kim,K.R., G.C. Kim, J.S. Choi, D.W. Ahn, and Y.S. Park|Renal Transport Systems for Organic Anions and Cations in Cadmium-Exposed Rats|Toxicol. Appl. Pharmacol.149(2): 144-149|1998|10.1006/taap.1998.8374
109778|T||Sauer,J.M., M.P. Waalkes, S.B. Hooser, A.T. Baines, R.K. Kuester, and I.G. Sipes|Tolerance Induced by All-trans-Retinol to the Hepatotoxic Effects of Cadmium in Rats:  Role of Metallothionein Expression|Toxicol. Appl. Pharmacol.143(1): 110-119|1997|10.1006/taap.1996.8050
109779|T||Hotz,K.J., A.G.E. Wilson, D.C. Thake, M.V. Roloff, C.C. Capen, J.M. Kronenberg, and D.W. Brewster|Mechanism of Thiazopyr-Induced Effects on Thyroid Hormone Homeostasis in Male Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.142:133-142|1997|10.1006/taap.1996.8032
109780|T||Min,K.S., S. Onosaka, and K. Tanaka|Renal Accumulation of Cadmium and Nephropathy Following Long-Term Administration of Cadmium-Metallothionein|Toxicol. Appl. Pharmacol.141(1): 102-109|1996|10.1016/S0041-008X(96)80014-7
109781|T||Tripathi,D.N., and G.B. Jena|Astaxanthin Inhibits Cytotoxic and Genotoxic Effects of Cyclophosphamide in Mice Germ Cells|Toxicology248(2-3): 96-103|2008|10.1016/j.tox.2008.03.015
109783|T||Nowak,P., G. Szczerbak, D. Nitka, R.M. Kostrzewa, T. Sitkiewicz, and R. Brus|Effect of Prenatal Lead Exposure on Nigrostriatal Neurotransmission and Hydroxyl Radical Formation in Rat Neostriatum:  Dopaminergic-Nitrergic Interaction|Toxicology246(1): 83-89|2008|10.1016/j.tox.2007.12.026
109785|T||Christenson,W.R., B.D. Becker, H.D. Hoang, B.S. Wahle, K.D. Moore, P.D. Dass, S.G. Lake, B.P. Stuart, D.L. Van Goethem,|Extrathyroidally Mediated Changes in Circulating Thyroid Hormone Concentrations in the Male Rat Following Administration of an Experimental Oxyacetamide (FOE 5043)|Toxicol. Appl. Pharmacol.132:253-262|1995|10.1006/taap.1995.1106
109786|T||Amuzie,C.J., J.R. Harkema, and J.J. Pestka|Tissue Distribution and Proinflammatory Cytokine Induction by the Trichothecene Deoxynivalenol in the Mouse:  Comparison of Nasal vs. Oral Exposure|Toxicology248(1): 39-44|2008|10.1016/j.tox.2008.03.005
109787|T||Wang,E.J., R.D. Snyder, M.R. Fielden, R.J. Smith, and Y.Z. Gu|Validation of Putative Genomic Biomarkers of Nephrotoxicity in Rats|Toxicology246(2-3): 91-100|2008|10.1016/j.tox.2007.12.031
109788|T||Kayama,F., T. Yoshida, M.R. Elwell, and M.I. Luster|Role of Tumor Necrosis Factor-alpha in Cadmium-Induced Hepatotoxicity|Toxicol. Appl. Pharmacol.131(2): 224-234|1995|10.1006/taap.1995.1065
109790|T||Van Ravenzwaay,B., R. Landsiedel, E. Fabian, S. Burkhardt, V. Strauss, and L. Ma-Hock|Comparing Fate and Effects of Three Particles of Different Surface Properties:  Nano-TiO2, Pigmentary TiO2 and Quartz|Toxicol. Lett.186:152-159|2009|10.1016/j.toxlet.2008.11.020
109791|T||Ikegwuonu,F.I., L.G. Ganem, M.C. Larsen, X. Shen, and C.R. Jefcoate|The Regulation by Gender, Strain, Dose, and Feeding Status of the Induction of Multiple Forms of Cytochrome P450 Isozymes in Rat Hepatic Microsomes by 2,4,5,2',4',5'-Hexachlorobiphenyl|Toxicol. Appl. Pharmacol.139:33-41|1996|10.1006/taap.1996.0140
109792|T||Morse,D.C., A. Plug, W. Wesseling, K.J. Van den Berg, and A. Brouwer|Persistent Alterations in Regional Brain Glial Fibrillary Acidic Protein and Synaptophysin Levels Following Pre- and Postnatal Polychorinated Biphenyl Exposure|Toxicol. Appl. Pharmacol.139(2): 252-261|1996|10.1006/taap.1996.0164
109793|T||Ito,T., K. Inouye, K. Nohara, C. Tohyama, and H. Fujimaki|TCDD Exposure Exacerbates Atopic Dermatitis-Related Inflammation in NC/Nga Mice|Toxicol. Lett.177(1): 31-37|2008|10.1016/j.toxlet.2007.12.011
109794|T||Ye,L., and L.K. Leung|Effect of Dioxin Exposure on Aromatase Expression in Ovariectomized Rats|Toxicol. Appl. Pharmacol.229(1): 102-108|2008|10.1016/j.taap.2008.01.003
109795|T||Abbott,B.D., and L.S. Birnbaum|TCDD Alters Medial Epithelial Cell Differentiation During Palatogenesis|Toxicol. Appl. Pharmacol.99:276-286|1989|10.1016/0041-008X(89)90010-0
109796|T||Kamath,A.B., H.J. Xu, P.S. Nagarkatti, and M. Nagarkatti|Evidence for the Induction of Apoptosis in Thymocytes by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin In Vivo|Toxicol. Appl. Pharmacol.142:367-377|1997|10.1006/taap.1996.8049
109797|T||Tsao,S.M., and M.C. Yin|In-Vitro Antimicrobial Activity of Four Diallyl Sulphides Occurring Naturally in Garlic and Chinese Leek Oils|J. Med. Microbiol.50(7): 646-649|2001|10.1099/0022-1317-50-7-646
109798|T||Sheets,L.P., J.D. Doherty, M.W. Law, L.W. Reiter, and K.M. Crofton|Age-Dependent Differences in the Susceptibility of Rats to Deltamethrin|Toxicol. Appl. Pharmacol.126(1): 186-190|1994|10.1006/taap.1994.1106
109800|T||Anaka,A., M. Wickstrom, and S.D. Siciliano|Biogeochemical Toxicity and Phytotoxicity of Nitrogenous Compounds in a Variety of Arctic Soils|Environ. Toxicol. Chem.27(8): 1809-1816|2008|10.1897/07-567.1
109802|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  Deltamethrin Active Ingredient:  Acute Toxicity in Eastern Oysters Under Flow-Through Conditions|EPA/OTS Doc.#88-920003677:5 p.|1992|
109803|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  Deltamethrin:  Acute Flow-Through Toxicity in the Sheepshead Minnow (Cyprinodon variegatus)|EPA/OTS Doc.#88-920003684:6 p.|1992|
109804|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  Developmental Toxicity of Deltamethrin in New Zealand White Rabbits|EPA/OTS Doc.#88-920003681:5 p.|1992|
109805|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  RU 22974:  Oral Toxicity in Beagle Dogs|EPA/OTS Doc.#88-920003686:6 p.|1992|
109806|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  RU-25474: Acute Toxicity in Bluegill Sunfish|EPA/OTS Doc.#88-920003679:5 p.|1992|
109807|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Describing a Study Entitled:  RU-25474:  Acute Toxicity in Daphnia magna Straus|EPA/OTS Doc.#88-920003676:5 p.|1992|
109808|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on a 48-Hour Acute Toxicity Study with a Formulation of Deltamethrin in Daphnids (Daphnia magna)|EPA/OTS Doc.#88-920006602:6 p.|1992|
109809|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Acute Toxicity Study with a Formulation Deltamethrin in Bluegill Under Flow-Through Conditions|EPA/OTS Doc.#88-920006612:6 p.|1992|
109810|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Acute Toxicity Study with a Formulation of Deltamethrin in Rainbow Trout (Oncorhynchus mykiss)|EPA/OTS Doc.#88-920006603:6 p.|1992|
109811|A||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Acute Toxicity Study with a Formulation of Deltamethrin in Eastern Oysters|EPA/OTS Doc.#88-920006615:4 p.|1992|
109812|T||Bates,R.O., B.N. Day, J.H. Britt, L.K. Clark, and M.A. Brauer|Reproductive Performance of Sows Treated with a Combination of Pregnant Mare's Serum Gonadotropin and Human Chorionic Gonadotropin at Weaning in the Summer|J. Anim. Sci.69:894-898|1991|10.2527/1991.693894x
109813|T||Wu,A., and Y. Liu|Apoptotic Cell Death in Rat Brain Following Deltamethrin Treatment|Neurosci. Lett.279(2): 85-88|2000|10.1016/S0304-3940(99)00973-8
109814|T||Wu,A., and Y. Liu|Prolonged Expression of c-Fos and c-Jun in the Cerebral Cortex of Rats After Deltamethrin Treatment|Mol. Brain Res.110(1): 147-151|2003|10.1016/S0169-328X(02)00655-1
109815|T||Yadav,S., A. Johri, A. Dhawan, P.K. Seth, and D. Parmar|Regional Specificity in Deltamethrin Induced Cytochrome P450 Expression in Rat Brain|Toxicol. Appl. Pharmacol.217(1): 15-24|2006|10.1016/j.taap.2006.07.008
109816|T||Faircloth,J.C., J.R.,Jr. Bradley, and J.W. Van Duyn|Effect of Insecticide Treatments and Environmental Factors on Thrips Populations, Plant Growth and Yield of Cotton|J. Entomol. Sci.37(4): 308-316|2002|10.18474/0749-8004-37.4.308
109817|T||Babu,G.R.V., G.R. Reddy, and C.S. Chetty|Benthiocarb Toxicity on Rat Brain AChE|Biochem. Int.19(1): 77-82|1989|
109818|T||Mabbayad,M.O., K. Moody, and A.W. Ruscoe|The Effect of 1,8-Naphthalic Anhydride and Depth of Seeding on Rice Tolerance to Herbicides in Greenhouse Tests|Crop Prot.4(2): 195-200|1985|10.1016/0261-2194(85)90017-1
109819|A||Nagpal,V., and S.K. Goyal|Induction of Weedicide Resistance in a Diazotrophic cyanobacterium - Anabaena variabilis|Phykos34(1-2): 113-121|1995|
109820|T||Pentyala,S.N., and C.S. Chetty|Comparative Study on the Changes in AChE and ATPase Activities in Neonate and Adult Rat Brains Under Thiobencarb Stress|J. Appl. Toxicol.13(1): 39-42|1993|10.1002/jat.2550130109
109821|T||Sharma,A.R.|Effect of Integrated Weed Management and Nitrogen Fertilization on the Performance of Rice Under Flood-Prone Lowland Conditions|J. Agric. Sci.129(4): 409-418|1997|10.1017/S0021859697004887
109822|A||Ellis-Tabanor,M., and E.J. Hyslop|Acute Toxicity of Endosulfan to Three Freshwater Snails in Jamaica|Caribb. J. Sci.43(2): 277-279|2007|10.18475/cjos.v43i2.a14
109823|T||Belfroid,A.C.|Toxicokinetics of Hydrophobic Chemicals in Earthworms. Validation of the Equilibrium Partitioning Theory|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:99 p.|1994|
109824|T||Borgohain,M.|Efficacy of New Herbicides on the Contol of Weeds in Transplanted Rice|Pesticides 19(6): 30-31|1985|
109825|T||Davies,W.P., and P.S. Kettlewell|Morphological Influences of Seed-Applied Triadimenol, Flutriafol and Other Compounds on Spring Barley|BCPC Monogr. - Br. Crop Prot. Counc.39:91-97|1988|
109826|T||Bjorge,R.R., and J.R. Gunson|Evaluation of Wolf Control to Reduce Cattle Predation in Alberta|J. Range Manag.38(6): 483-487|1985|10.2307/3899736
109827|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on an Eye Irritation Study with a Formulation of Deltamethrin in Rabbits|EPA/OTS Doc.#88-920006597:6 p.|1992|
109828|T||Hoechst Celanese Corp.|Initial Submission:  Letter from Hoechst Celanese Corp. Submitting Information on a Study to Determine the LD50 with a Formulation of Deltamethrin in Rats by Oral Administration|EPA/OTS Doc.#88-920006604:6 p.|1992|
109831|T||Crofton,K.M., and L.W. Reiter|Pyrethroid Insecticides and the gamma-Aminobutyric AcidA Receptor Complex:  Motor Activity and the Acoustic Startle Response in the Rat|J. Pharmacol. Exp. Ther.243(3): 946-954|1987|
109832|T||Berlinger,M.J., S. Lebiush-Mordechi, R. Dahan, and R.A.J. Taylor|A Rapid Method for Screening Insecticides in the Laboratory|Pestic. Sci.46(4): 345-353|1996|10.1002/(SICI)1096-9063(199604)46:4<345::AID-PS363>3.0.CO;2-#
109833|T||Erkog,F.U., and R.E. Menzer|Metabolism of Trifluralin in Rats|J. Agric. Food Chem.33(6): 1061-1070|1985|10.1021/jf00066a012
109835|A||Schultz,I.R., and W.L. Hayton|Body Size and the Toxicokinetics of Trifluralin in Rainbow Trout|Toxicol. Appl. Pharmacol.129(1): 138-145|1994|10.1006/taap.1994.1237
109836|A||Wang,A., R.N. Band, and W. Kopachik|Effects of Trifluralin on Growth and Differentiation of the Amoebo-Flagellate Naegleria|FEMS Microbiol. Lett.127(1-2): 99-103|1995|10.1111/j.1574-6968.1995.tb07456.x
109837|T||Ethyl Corp.|Primary Dermal Irritation Study in Rabbits:  M-PBAD-III Lot #1 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000208:25 p.|1991|
109838|T||Ethyl Corp.|Acute Eye Irritation Test:  M-PBAD Lot #450 (Final Report) with Attachments and Cover Letter Dated 112191|EPA/OTS Doc.#86-920000207:28 p.|1991|
109839|T||Stavroulakis,G., K. Adediran, and C. Petrakis|Postharvest Residues of Propargite and Fenbutatin Oxide in Fresh Red Raspberries Cultivated Under Greenhouse|Adv. Hortic. Sci.18(3): 111-114|2004|
109840|A||Pimpao,C.T., A.R. Zampronio, and H.C. Silva de Assis|Exposure of Ancistrus multispinis (Regan, 1912, Pisces, Teleostei) to Deltamethrin:  Effects on Cellular Immunity|Fish Shellfish Immunol.25(5): 528-532|2008|10.1016/j.fsi.2008.07.012
109841|T||Reinert,J.A., and S.J. Maranz|Evaluation of Deltamethrin Granules for Individual Mound Control of Red Imported Fire Ant in Residential Landscapes, 1995|Arthropod Manag. Tests21:368-|1996|10.1093/amt/21.1.368
109842|T||Jayasree,U., A.G. Reddy, K.S. Reddy, Y. Anjaneyulu, and B. Kalakumar|Evaluation of Vitamin E Against Deltamethrin Toxicity in Broiler Chicks|Indian J. Physiol. Pharmacol.47(4): 447-452|2003|
109843|A||Vijayan,V.A., B.Y. Sathish Kumar, K.N. Ganesh, J. Urmila, M.R. Fakoorziba, and A.K. Makkapati|Efficacy of Piperonyl Butoxide (PBO) as a Synergist with Deltamethrin on Five Species of Mosquitoes|J. Commun. Dis.39(3): 159-163|2007|
109844|T||Kilian,E., R. Delport, M.S. Bornman, and C. De Jager|Simultaneous Exposure to Low Concentrations of Dichlorodiphenyltrichloroethane, Deltamethrin, Nonylphenol and Phytoestrogens has Negative Effects on the Reproductive Parameters in Male Spraque-Dawley Rats|Andrologia (Berl.)39(4): 128-135|2007|10.1111/j.1439-0272.2007.00777.x
109845|A||El-Sayed,Y.S., and T.T. Saad|Subacute Intoxication of a Deltamethrin-Based Preparation (Butox 5% EC) in Monosex Nile Tilapia, Oreochromis niloticus L.|Basic Clin. Pharmacol. Toxicol.102(3): 293-299|2007|10.1111/j.1742-7843.2007.00157.x
109846|T||Benkeblia,N.|Antimicrobial Activity of Essential Oil Extracts of Various Onions (Allium cepa) and Garlic (Allium sativum)|LWT Food Sci. Technol.37(2): 263-268|2004|10.1016/j.lwt.2003.09.001
109847|T||Win,N.K.K., P. Jitareerat, S. Kanlayanarat, and S. Sangchote|Effects of Cinnamon Extract, Chitosan Coating, Hot Water Treatment and Their Combinations on Crown Rot Disease and Quality of Banana Fruit|Postharvest Biol. Technol.45(3): 333-340|2007|10.1016/j.postharvbio.2007.01.020
109848|T||Whitehead,A.G., D.J. Tite, J.E. Fraser, and E.M. French|Control of Potato Cyst-Nematode, Heterodera rostochiensis, in Three Soils by Small Amounts of Aldicarb, Du Pont 1410 or Nemacur Applied to the Soil at Planting Time|Ann. Appl. Biol.74(1): 113-118|1973|10.1111/j.1744-7348.1973.tb07729.x
109849|T||Mubarak Hossain,M., T. Suzuki, N. Sato, I. Sato, T. Takewaki, K. Suzuki, E. Tachikawa, and H. Kobayashi|Differential Effects of Pyrethroid Insecticides on Extracellular Dopamine in the Striatum of Freely Moving Rats|Toxicol. Appl. Pharmacol.217(1): 25-34|2006|10.1016/j.taap.2006.07.011
109850|T||Legard,D.E., C.L. Xiao, J.C. Mertely, and C.K. Chandler|Management of Botrytis Fruit Rot in Annual Winter Strawberry Using Captan, Thiram, and Iprodione|Plant Dis.85(1): 31-39|2001|10.1094/PDIS.2001.85.1.31
109851|T||Habazin-Novak,V., and R. Plestina|The Effect of Deltamethrin on Induction of Hepatic Microsomal Cytochrome P-450 in Rats|Period. Biol.86(4): 315-316|1984|
109852|T||Bounias,M., N. Dujin, and D.S. Popeskovic|Sublethal Effects of a Synthetic Pyrethroid, Deltamethrin, on the Glycemia, the Lipemia, and the Gut Alkaline Phosphatases of Honeybees|Pestic. Biochem. Physiol.24(2): 149-160|1985|10.1016/0048-3575(85)90124-5
109853|A||Varanka,Z., K.A. Deer, I. Rojik, I. Varanka, K. Laszlo, T. Bartok, J. Nemcsok, and M. Abraham|Influence of the Polyphenolic Tannic Acid on the Toxicity of the Insecticide Deltamethrin to Fish.  A Comparative Study Examining Both Biochemical and Cytopathological Parameters|Acta Biol. Hung.53(3): 351-365|2002|10.1556/ABiol.53.2002.3.12
109854|T||Manna,S., D. Bhattacharyya, T.K. Mandal, and S. Dey|Neuropharmacological Effects of Deltamethrin in Rats|J. Vet. Sci.7(2): 133-136|2006|10.4142/jvs.2006.7.2.133
109855|T||Johnson,P.W., A. Darwish, R. Dixon, and J.W. Steel|Kinetic Disposition of an Emulsifiable Concentrate Formulation of Deltamethrin Applied to Sheep in a Plunge-Dip and Its Effect on Lice|Int. J. Parasitol.25(12): 1451-1456|1995|10.1016/0020-7519(95)00061-5
109856|T||Gandhi,G., J.B. Chowdhury, P.K. Sareen, and V.P.S. Dhillon|Genotoxic Effects of Deltamethrin in the Mouse Bone Marrow Micronucleus Assay|Mutat. Res.346(4): 203-206|1995|
109857|T||Queiroz,M.L.S.|Effects of Deltamethrin on the Growth and Differentiation of Bone Marrow Hematopoietic Stem Cells|Braz. J. Med. Biol. Res.26(5): 525-535|1993|
109858|T||O'Neill,T.M., and P. Bobbin|Evaluation of Fungicide Programmes for Control of Downy Mildew (Peronospora grisea) in Protected Hebe|Tests Agrochem. Cultiv.21:5-6|2000|
109859|T||Ali,O., R. Dunne, and P. Brennan|Effectiveness of the Predatory Mite Hypoaspis miles (Acari:  Mesostigmata:  Hypoaspidae) in Conjunction with Pesticides for Control of the Mushroom Fly Lycoriella solani (Diptera:  Sciaridae)|Exp. Appl. Acarol.23(1): 65-77|1999|10.1023/A:1006154008192
109860|T||Page,M., R.B. Ryan, N. Rappaport, and F. Schmidt|Comparative Toxicity of Acephate, Diflubenzuron, and Malathion to Larvae of the Larch Casebearer, Coleophora laricella (Lepidoptera:  Coleophoridae) and Adults of Its Parasites, Chrysocharis laricinellae and Dicladoceru|Environ. Entomol.11(3): 730-732|1982|10.1093/ee/11.3.730
109861|T||Purcelu,M., and J. Granett|Toxicity of Benzoylphenyl Ureas and Thuringiensin to Trioxys pallidus (Hymenoptera:  Braconidae) and the Walnut Aphid (Homoptera:  Aphididae)|J. Econ. Entomol.78(5): 1133-1137|1985|10.1093/jee/78.5.1133
109862|T||Reay-Jones,F.P.F., M.O. Way, and T.E. Reagan|Economic Assessment of Controlling Stem Borers (Lepidoptera:  Crambidae) with Insecticides in Texas Rice|Crop Prot.26(7): 963-970|2007|10.1016/j.cropro.2006.09.002
109863|T||Whitmore,R.C., R.J. Cooper, and B.E. Sample|Bird Fat Reductions in Forests Treated with Dimilin|Environ. Toxicol. Chem.12(11): 2059-2064|1993|10.1002/etc.5620121113
109864|T||Willrich,M.M., and D.J. Boethel|Effects of Diflubenzuron on Pseudoplusia includens (Lepidoptera:  Noctuidae) and Its Parasitoid Copidosoma floridanum (Hymenoptera:  Encyrtidae)|Environ. Entomol.30(4): 794-797|2001|10.1603/0046-225X-30.4.794
109865|A||Griffith,M.B., E.M. Barrows, and S.A. Perry|Effects of Aerial Application of Diflubenzuron on Emergence and Flight of Adult Aquatic Insects|J. Econ. Entomol.89(2): 442-446|1996|10.1093/jee/89.2.442
109866|A||Pereira Maduenho,L., and C.B.R. Martinez|Acute Effects of Diflubenzuron on the Freshwater Fish Prochilodus lineatus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(3): 265-272|2008|10.1016/j.cbpc.2008.06.010
109867|A||Thavara,U., A. Tawatsin, C. Chansang, P. Asavadachanukorn, M. Zaim, and M.S. Mulla|Simulated Field Evaluation of the Efficacy of Two Formulations of Diflubenzuron, a Chitin Synthesis Inhibitor Against Larvae of Aedes aegypti (L.) (Diptera: Culicidae) in Water-Storage Containers|Southeast Asian J. Trop. Med. Public Health38(2): 269-275|2007|
109868|A||Zhu,K.Y., S. Heise, J. Zhang, T.D. Anderson, and S.R. Starkey|Comparative Studies on Effects of Three Chitin Synthesis Inhibitors on Common Malaria Mosquito (Diptera: Culicidae)|J. Med. Entomol.44(6): 1047-1053|2006|10.1093/jmedent/44.6.1047
109869|A||Chen,C.Y., K.M. Hathaway, D.G. Thompson, and C.L. Folt|Multiple Stressor Effects of Herbicide, pH, and Food on Wetland Zooplankton and a Larval Amphibian|Ecotoxicol. Environ. Saf.71(1): 209-218|2008|10.1016/j.ecoenv.2007.08.007
109870|T||Cook,S.P.|Laboratory and Field Evaluation of Tebufenozide, Diflubenzuron, and Bacillus thurengiensis var. kurstaki for Suppression of Douglas-Fir Tussock Moth (Orgyia pseudotsugata (McDunnough)) in Idaho:  A Case Study|J. Econ. Entomol.96(2): 396-400|2003|10.1603/0022-0493-96.2.396
109871|T||Liebhold,A., E. Luzader, R. Reardon, A. Bullard, A. Roberts, W. Ravlin, S. Delost, and B. Spears|Use of a Geographic Information System to Evaluate Regional Treatment Effects in a Gypsy Moth (Lepidoptera:  Lymantriidae) Management Program|J. Econ. Entomol.89(5): 1192-1203|1996|10.1093/jee/89.5.1192
109872|T||Nejmanova,J., J. Cvacka, I. Hrdy, J. Kuldova, J. Mertelik, A.,Jr. Muck, P. Nesnerova, and A. Svatos|Residues of Diflubenzuron on Horse Chestnut (Aesculus hippocastanum) Leaves and Their Efficacy Against the Horse Chestnut Leafminer, Cameraria ohridella|Pest Manag. Sci.62(3): 274-278|2006|10.1002/ps.1165
109873|T||Cohen,Y., and Y. Samoucha|Selection for Metalaxyl Resistance in Potato Crops Infected with Phytophthora infestans: Effects of Fungicides and Initial Frequency of Resistant Sporangia|Plant Pathol.38(3): 382-390|1989|10.1111/j.1365-3059.1989.tb02157.x
109874|T||Gray,A.J., and J. Rickard|Distribution of Radiolabel in Rats After Intravenous Injection of a Toxic Dose of 14C-Acid-, 14C-Alcohol-, or 14C-Cyano-Labeled Deltamethrin|Pestic. Biochem. Physiol.16(1): 79-85|1981|10.1016/0048-3575(81)90074-2
109875|A||Baeza-Squiban,A., F. Marano, X. Ronot, M. Adolphe, and S. Puiseux-Dao|Effects of Deltamethrin and Its Commercial Formulation DECIS on Different Cell Types In Vitro:  Cytotoxicity, Cellular Binding, and Intracellular Localization|Pestic. Biochem. Physiol.28(1): 103-113|1987|10.1016/0048-3575(87)90118-0
109876|T||Leandri,A., V. Pompi, C. Pucci, and A.F. Spanedda|Residues on Olives, Oil and Processing Waste Waters of Pesticides Used for the Control of Dacus oleae (Gmel.) (Dipt., Tephritidae)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)66(3): 48-51|1993|10.1007/BF01903171
109877|T||Wu,G., and T. Miyata|Seasonal Changes of Resistance to Fenvalerate and Cypermethrin in the Larval Parasitoid Cotesia plutellae (Hymenoptera:  Braconidae)|Insect Sci.12(5): 351-357|2005|10.1111/j.1005-295X.2005.00043.x
109878|T||Engelkes,C.A., and D.R. Fravel|Procedure for Electrophoretic Analysis of Proteins from Metham Sodium-Treated Microsclerotia of Verticillium dahliae|Soil Biol. Biochem.30(5): 669-672|1998|10.1016/S0038-0717(97)00161-2
109879|T||Walter,B.A., B.J. Agha, and G.A. Digenis|Disposition of (14C)Nonoxynol-9 After Intravenous or Vaginal Administration to Female Sprague-Dawley Rats|Toxicol. Appl. Pharmacol.96(2): 258-268|1988|10.1016/0041-008X(88)90085-3
109880|A||Nolan,M.O., and E.G. Berry|Preliminary Field Trials with Laboratory-Tested Molluscacides|Public Health Rep.64(30): 942-949|1949|10.2307/4587034
109881|T||Bell,N.L., L.T. Aalders, N.R. Cox, and C.A. Cameron|Non-Target Effects of a Carbamate and the Proteins Avidin and Aprotinin on In Vitro Development of a Bacterial Feeding Nematode|Soil Biol. Biochem.38(9): 2816-2822|2006|10.1016/j.soilbio.2006.04.037
109882|T||He,Y., J. Xu, C. Tang, and Y. Wu|Facilitation of Pentachlorophenol Degradation in the Rhizosphere of Ryegrass (Lolium perenne L.)|Soil Biol. Biochem.37(11): 2017-2024|2005|10.1016/j.soilbio.2005.03.002
109883|A||Konar,S.K.|Effects of Heptachlor and Nicotine on the Barbels of a Catfish (Heteropneustes fossilis)|Prog. Fish-Cult.31(1): 62-63|1969|10.1577/1548-8640(1969)31[62:EOHANO]2.0.CO;2
109884|T||Vidal,A.M., W. Ben-Cheikh, M. Talon, and J.L. Garcia-Martinez|Regulation of Gibberellin 20-Oxidase Gene Expression and Gibberellin Content in Citrus by Temperature and Citrus exocortis viroid|Planta (Multiple Languages)217(3): 442-448|2003|10.1007/s00425-003-0999-2
109885|T||Tadeo,F.R., A. Gomez-Cadenas, W. Ben-Cheikh, E. Primo-Millo, and M. Talon|Gibberellin-Ethylene Interaction Controls Radial Expansion in Citrus Roots|Planta (Multiple Languages)202(3): 370-378|1997|10.1007/s004250050139
109886|AT||Lechevin,J.C., and R.M. Poche|Activity of LM 2219 (Difethialone), a New Anticoagulant Rodenticide, in Commensal Rodents|In: Proceedings, Thirteenth Vertebrate Pest Conference, March 1-3, Monterey, CA:59-63|1988|
109887|A||Valenti,T.W., D.S. Cherry, R.J. Currie, R.J. Neves, J.W. Jones, R. Mair, and C.M. Kane|Chlorine Toxicity to Early Life Stages of Freshwater Mussels (Bivalvia:  Unionidae)|Environ. Toxicol. Chem.25(9): 2512-2518|2006|10.1897/05-527R1.1
109888|T||Edelmann,H.G., and U. Roth|Gravitropic Plant Growth Regulation and Ethylene:  An Unsought Cardinal Coordinate for a Disused Model|Protoplasma (Multiple Languages)229(2-4): 183-191|2006|10.1007/s00709-006-0205-z
109889|A||Stalin,S.I., S. Kiruba, and S.S.M. Das|A Comparative Study on the Toxicity of a Synthetic Pyrethroid, Deltamethrin and a Neem Based Pesticide, Azadirachtin to Poecilia reticulata Peters 1859 (Cyprinodontiformes: Poeciliidae)|Turk. J. Fish. Aquat. Sci.8(1): 1-5|2008|
109890|T||Agarwal,N., C. Shekhar, R. Kumar, L.C. Chaudhary, and D.N. Kamra|Effect of Peppermint (Mentha piperita) Oil on In Vitro Methanogenesis and Fermentation of Feed with Buffalo Rumen Liquor|Anim. Feed Sci. Technol.:7 p.|2008|
109891|T||Kamra,D.N., A.K. Patra, P.N. Chatterjee, R. Kumar, N. Agarwal, and L.C. Chaudhary|Effect of Plant Extracts on Methanogenesis and Microbial Profile of the Rumen of Buffalo:  A Brief Overview|Aust. J. Exp. Agric.48:175-178|2008|10.1071/EA07268
109892|A||George,K.C., S.V. Amonkar, and J. Eapen|Effect of Garlic Oil on Incorporation of Amino Acids into Proteins of Culex pipiens quinquefasciatus Say Larvae|Chem.-Biol. Interact.6(3): 169-175|1973|10.1016/0009-2797(73)90069-0
109893|T||Hatting,J.L., T.J. Poprawski, and R.M. Miller|Managing the Entomopathogenic Fungus Conidiobolus thromboides in Russian Wheat Aphid Cultures|Southwest. Entomol.24(2): 99-106|1999|
109894|T||Patro,N., and I.K. Patro|Effects of Deltamethrin on Granule Cell Migration During Postnatal Development of Rat Cerebellum|Indian J. Exp. Biol.43(2): 158-162|2005|
109895|T||Patra,A.K., D.N. Kamra, and N. Agarwal|Effect of Spices on Rumen Fermentation, Methanogenesis and Protozoa Counts in In Vitro Gas Production Test|Int. Congr. Ser.1293:176-179|2006|10.1016/j.ics.2006.01.025
109896|T||Smeda,R.J., K.C. Vaughn, and I.N. Morrison|A Novel Pattern of Herbicide Cross-Resistance in a Trifluralin-Resistant Biotype of Green Foxtail (Setaria viridis (L.) Beauv.)|Pestic. Biochem. Physiol.42(3): 227-241|1992|10.1016/0048-3575(92)90099-L
109897|T||Houx,N.W.H., A. Dekker, A.M.M. Van Kammen-Polman, and R. Ronday|Acute Toxicity Test for Terrestrial Hazard Assessment with Exposure of Folsomia candida to Pesticides in an Aqueous Medium|Arch. Environ. Contam. Toxicol.30(1): 9-14|1996|10.1007/BF00211323
109898|T||Kim,H.J., J.B. Dunn, K.S. Yoon, and J.M. Clark|Target Site Insensitivity and Mutational Analysis of Acetylcholinesterase from a Carbofuran-Resistant Population of Colorado Potato Beetle, Leptinotarsa decemlineata (Say)|Pestic. Biochem. Physiol.84(3): 165-179|2006|10.1016/j.pestbp.2005.07.006
109899|A||Singh,R.N., and R.A. Agarwal|Effects of Deltamethrin on Levels of Phospholipid and Lipid Peroxidation in the Snail Lymnaea acuminata|Malays. Appl. Biol.25(1): 1-5|1996|
109900|T||Malpe,N.D., B.S. Phadnaik, R.D. Sadekar, and A.G. Bhandarkar|Acute Toxicity Studies of Deltamethrin in Rats|Indian Vet. J.73(2): 217-219|1996|
109901|T||Chaves,A.V., K. Stanford, M.E.R. Dugan, L.L. Gibson, T.A. McAllister, F. Van Herk, and C. Benchaar|Effects of Cinnamaldehyde, Garlic and Juniper Berry Essential Oils on Rumen Fermentation, Blood Metabolites, Growth Performance, and Carcass Characteristics of Growing Lambs|Livest. Sci.117(2/3): 215-224|2008|10.1016/j.livsci.2007.12.013
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109903|A||Malmstrom,C.M., K. Koponen, P. Lindstrom-Seppa, and G. Bylund|Induction and Localization of Hepatic CYP4501A in Flounder and Rainbow Trout Exposed to Benzo(a)pyrene|Ecotoxicol. Environ. Saf.58(3): 365-372|2004|10.1016/j.ecoenv.2003.12.007
109905|T||Luo,X.Y., and H. Ikeda|Effects of Four Rice Herbicides on the Growth of an Aquatic Fern, Marsilea quadrifolia L.|Weed Biol. Manag.7(4): 237-241|2007|10.1111/j.1445-6664.2007.00262.x
109906|AT||Vasuki,V., and A.R. Rajavel|beta-Cyfluthrin, a Synthetic Pyrethroid for Mosquito Control|Southeast Asian J. Trop. Med. Public Health23(2): 318-323|1992|
109908|T||Shukla,Y., A. Arora, and A. Singh|Tumourigenic Studies on Deltamethrin in Swiss Albino Mice|Toxicology163(1): 1-9|2001|10.1016/S0300-483X(00)00416-9
109909|A||Miller,D.S., J.R. Shaw, C.R. Stanton, R. Barnaby, K.H. Karlson, J.W. Hamilton, and B.A. Stanton|MRP2 and Acquired Tolerance to Inorganic Arsenic in the Kidney of Killifish (Fundulus heteroclitus)|Toxicol. Sci.97(1): 103-110|2007|10.1093/toxsci/kfm030
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109912|T||Reddy,K.R.N., C.S. Reddy, and K. Muralidharan|Potential of Botanicals and Biocontrol Agents on Growth and Aflatoxin Production by Aspergillus flavus Infecting Rice Grains|Food Cont.20(2): 173-178|2009|10.1016/j.foodcont.2008.03.009
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109914|A||Boyer,S., J.P. David, D. Rey, G. Lemperiere, and P. Ravanel|Response of Aedes aegypti (Diptera:  Culicidae) Larvae to Three Xenobiotic Exposures:  Larval Tolerance and Detoxifying Enzyme Activities|Environ. Toxicol. Chem.25(2): 470-476|2006|10.1897/05-267R2.1
109915|T||Lederer,B., T. Fujimori, Y. Tsujino, K. Wakabayashi, and P. Boger|Phytotoxic Activity of Middle-Chain Fatty Acids II:  Peroxidation and Membrane Effects|Pestic. Biochem. Physiol.80(3): 151-156|2004|10.1016/j.pestbp.2004.06.010
109916|T||Jones,M.M., C. Xu, and P.A. Ladd|Selenite Suppression of Cadmium-Induced Testicular Apoptosis|Toxicology116(1-3): 169-175|1997|10.1016/S0300-483X(96)03541-X
109918|T||Ostadalova,I., and A. Babicky|Toxic Effect of Various Selenium Compounds on the Rat in the Early Post Natal Period|Arch. Toxicol.45(3): 207-211|1980|10.1007/BF02419000
109919|T||Lestaevel,P., B. Dhieux, E. Tourlonias, P. Houpert, F. Paquet, P. Voisin, J. Aigueperse, and P. Gourmelon|Evaluation of the Effect of Chronic Exposure to 137Cesium on Sleep-Wake Cycle in Rats|Toxicology226(2-3): 118-125|2006|10.1016/j.tox.2006.06.003
109920|T||Ucar,M., A. Korkmaz, R.J. Reiter, H. Yaren, S. Oter, B. Kurt, and T. Topal|Melatonin Alleviates Lung Damage Induced by the Chemical Warfare Agent Nitrogen Mustard|Toxicol. Lett.173(2): 124-131|2007|10.1016/j.toxlet.2007.07.005
109921|T||Valentovic,M.A., N. Alejandro, A.B. Carpenter, P.I. Brown, and K. Ramos|Streptozotocin (STZ) Diabetes Enhances Benzo(a)pyrene Induced Renal Injury in Sprague Dawley Rats|Toxicol. Lett.164(3): 214-220|2006|10.1016/j.toxlet.2005.12.009
109922|A||Wang,L., B.E. Scheffler, and K.L. Willett|CYP1C1 Messenger RNA Expression is Inducible by Benzo(a)pyrene in Fundulus heteroclitus Embryos and Adults|Toxicol. Sci.99(2): 331-340|2006|10.1093/toxsci/kfl072
109923|A||Wang,Y.H., Y.H. Chen, T.N. Wu, Y.J. Lin, and H.J. Tsai|A Keratin 18 Transgenic Zebrafish Tg(k18(2.9):RFP) Treated with Inorganic Arsenite Reveals Visible Overproliferation of Epithelial Cells|Toxicol. Lett.163(3): 191-197|2006|10.1016/j.toxlet.2005.10.024
109924|T||Watson,A.M., H. Chambers, and J.E. Chambers|An Investigation of Activities and Paraoxon Sensitivities of Hepatic Aliesterases in beta-Naphthoflavone-Treated Rats|Toxicol. Lett.71(3): 217-225|1994|10.1016/0378-4274(94)90108-2
109926|T||Yamasaki,K., R. Ohta, and H. Okuda|OECD Validation of the Hershberger Assay in Japan: Phase 3. Blind Study Using Coded Chemicals|Toxicol. Lett.163(2): 121-129|2006|10.1016/j.toxlet.2005.10.001
109927|T||Yonemoto,J., T. Hongo, T. Suzuki, A. Naganuma, and N. Imura|Toxic Effects of Selenodiglutathione on Pregnant Mice|Toxicol. Lett.21:35-39|1984|10.1016/0378-4274(84)90220-0
109930|T||Fournel,S., J. Magdalou, P. Pinon, and G. Siest|Differential Induction Profile of Drug-Metabolizing Enzymes After Treatment with Hypolipidaemic Agents|Xenobiotica17(4): 445-457|1987|10.3109/00498258709043951
109932|T||Huang,B., S. Kuo, and R. Bembenek|Availability to Lettuce of Arsenic and Lead from Trace Element Fertilizers in Soil|Water Air Soil Pollut.164(1-4): 223-239|2005|10.1007/s11270-005-3023-6
109933|T||Huang,B., S. Kuo, and R. Bembenek|Availability of Cadmium in Some Phosphorus Fertilizers to Field-Grown Lettuce|Water Air Soil Pollut.158(1): 37-51|2004|10.1023/B:WATE.0000044832.04770.41
109935|A||Jewell,C.S.E., L.E. Cummings, M.J.J. Ronis, and G.W. Winston|The Hepatic Microsomal Mixed-Function Oxygenase (MFO) System of Alligator mississippiensis:  Induction by 3-methylcholanthrene (MC)|Xenobiotica19(10): 1181-1200|1989|10.3109/00498258909043171
109936|T||Pakdaman,B.S., and E.M. Goltapeh|In Vitro Studies on the Integrated Control of Rapeseed White Stem Rot Disease Through the Application of Herbicides and Trichoderma Species|Pak. J. Biol. Sci.10(1): 7-12|2007|10.3923/pjbs.2007.7.12
109937|T||Jin,T., G. Nordberg, J. Sehlin, and O. Vesterberg|Protection Against Cadmium-Metallothionein Nephrotoxicity in Streptozotocin-Induced Diabetic Rats:  Role of Increased Metallothionein Synthesis Induced by Streptozotocin|Toxicology106(1-3): 55-63|1996|10.1016/0300-483X(95)03164-B
109938|AT||Colbaugh,P.F., and S.P. Metz|Chemical Control of Algal Mats on Golf Course Greens|Meded. Fac. Landbouwwet. Univ. Gent64(3b): 687-692|1999|
109939|T||Lowe,T.P., and T.D. Hershberger|Susceptibility of the Leaf-Eating Beetle, Galerucella calmariensis, a Biological Control Agent for Purple Loosestrife (Lythrum salcaria), to Three Mosquito Control Larvicides|Environ. Toxicol. Chem.23(7): 1662-1671|2004|10.1897/03-92
109940|T||Jayanarayan,K.G., and C.S. Dey|Altered Tubulin Dynamics, Localization and Post-Translational Modifications in Sodium Arsenite Resistant Leishmania donovani in Response to Paclitaxel, Trifluralin and a Combination of both and Induction of Apoptosis-li|Parasitology131(2): 215-230|2005|10.1017/S0031182005007687
109941|AT||Kawahigashi,H., S. Hirose, H. Ohkawa, and Y. Ohkawa|Broad Range of Herbicide Tolerance of Glutinous Upland Rice Variety 'Yumenohatamochi' Carrying Human Cytochrome P450 Genes|Plant Biotechnol.23(2): 227-231|2006|10.5511/plantbiotechnology.23.227
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109944|T||Kahn,B.A., J.P. Damicone, K.E. Jackson, J.E. Motes, and M.E. Payton|Comparing Chitin-Urea to Other Materials for Control of Northern Root-Knot Nematode on Paprika Pepper|Hortscience37(6): 948-949|2002|10.21273/HORTSCI.37.6.948
109945|T||Kim,S.C.|An Integrated Approach to Controlling Weeds in Machine-Transplanted Lowland Rice in Korea|Crop Prot.2(1): 51-61|1983|10.1016/0261-2194(83)90025-X
109946|T||Meher,H.C., C.L. Sethi, and N.P. Agnihotri|Persistence and Basipetal Movement of Aldoxycarb in Pisum sativum (L.)|Indian J. Nematol.17(1): 33-37|1987|
109947|T||Wu,A., T. Ren, Q. Hu, and Y. Liu|Deltamethrin Induces Altered Expression of P53, Bax and Bcl-2 in Rat Brain|Neurosci. Lett.284(1-2): 29-32|2000|10.1016/S0304-3940(00)00952-6
109948|T||Westcott,N.D., and R.A. Reichle|Deltamethrin Residues on Saskatoon Berries|J. Agric. Food Chem.41(11): 2153-2155|1993|10.1021/jf00035a062
109949|T||Jaryal,R.R., R.B.L. Bhardwaj, K.N. Ahuja, and G. Kulshrestha|Herbicide Persistence in Soil and Its Effect on Soil Microflora|Indian J. Agron.34(4): 482-484|1989|
109950|T||Prakash,T.R., P.M. Swamy, and D.D.K. Prasad|Influence of Benthiocarb on Chlorophyll Synthesis in Rice and Barnyard Grass Seedlings|Indian J. Exp. Biol.27(8): 744-745|1989|
109951|T||Prakash,T.R., R.S. Murthy, and P.M. Swamy|Influence of Thiobencarb on Nitrate Reductase, Nitrite Reductase and DCPIP Photoreduction in Rice and Echinochloa crus-galli (L.) (Barnyardgrass)|Weed Res. (Multiple Languages)19(6): 427-432|1989|10.1111/j.1365-3180.1989.tb01314.x
109952|T||Johnson,P.W., A. Darwish, R. Dixon, and J.W. Steel|Kinetic Disposition of Xylene-Based or Aqueous Formulations of Deltamethrin Applied to the Dorsal Mid-Line of Sheep and Their Effect on Lice|Int. J. Parasitol.25(4): 471-482|1995|10.1016/0020-7519(94)00153-F
109953|T||Ray,D.E.|Changes in Brain Blood Flow Associated with Deltamethrin-Induced Choreoathetosis in the Rat|Exp. Brain Res.45(1-2): 269-276|1982|
109954|T||Obrycki,J.J., M.J. Tauber, and W.M. Tingey|Comparative Toxicity of Pesticides to Edovum puttieri (Hymenoptera:  Eulophidae), an Egg Parasitoid of the Colorado Potato Beetle (Coleoptera:  Chrysomelidae).|J. Econ. Entomol.79(4): 948-951|1986|10.1093/jee/79.4.948
109955|T||Sukul,P., and S.K. Handa|Residues Following Application of Deltamethrin on Chickpea|Indian J. Entomol.49(3): 424-428|1987|
109957|T||Bull,D.L., N.W. Pryor, and E.G.,Jr. King|Pharmacodynamics of Different Insecticides in Microplitis croceipes (Hymenoptera:  Braconidae), a Parasite of Lepidopteran Larvae|J. Econ. Entomol.80(4): 739-749|1987|10.1093/jee/80.4.739
109958|T||Koh,S.H., D.I. Chang, H.T. Kim, J. Kim, M.H. Kim, K.S. Kim, I. Bae, H. Kim, D.W. Kim, and S.H. Kim|Effect of 3-Aminobenzamide, PARP Inhibitor, on Matrix Metalloproteinase-9 Level in Plasma and Brain of Ischemic Stroke Model|Toxicology214(1-2): 131-139|2005|10.1016/j.tox.2005.06.023
109960|T||Krejcova-Kunesova,G., L. Bartosova, and K. Kuca|Signs of Cyclosarin-Induced Neurotoxicity and Its Pharmacological Treatment with Quaternary Pyridinium-Oximes Reactivators|Toxicology216(1): 32-40|2005|10.1016/j.tox.2005.07.014
109961|T||Arriagada,C.A., M.A. Herrera, and J.A. Ocampo|Contribution of Arbuscular Mycorrhizal and Saprobe Fungi to the Tolerance of Eucalyptus Globulus to Pb|Water Air Soil Pollut.166(1-4): 31-47|2005|10.1007/s11270-005-7711-z
109964|T||Kwon,K.Y., J.H. Jang, W.I. Choi, S. Ramachandran, C.H. Cho, and P.T. Cagle|Expression of Apoptotic Nuclei by Ultrastructural Terminal Deoxyribonucleotidyl Transferase Mediated dUTP Nick end Labeling and Detection of FasL, Caspases and PARP Protein Molecules in Cadmium Induced Acute Alveolar Ce|Toxicology218(2-3): 197-204|2006|10.1016/j.tox.2005.10.013
109965|T||Brennan,R.F., and S.S. Mann|Accumulation of Cadmium by Lupin Species as Affected by Cd Application to Acidic Yellow Sand|Water Air Soil Pollut.167(1-4): 243-258|2005|10.1007/s11270-005-0082-7
109966|T||Casalino,E., C. Sblano, V. Landriscina, G. Calzaretti, and C. Landriscina|Rat Liver Glutathione S-Transferase Activity Stimulation Following Acute Cadmium or Manganese Intoxication|Toxicology200(1): 29-38|2004|10.1016/j.tox.2004.03.004
109967|T||Tal,A., S. Zarka, and B. Rubin|Fenoxaprop-P Resistance in Phalaris minor Conferred by an Insensitive Acetyl-Coenzyme A Carboxylase|Pestic. Biochem. Physiol.56(2): 134-140|1996|10.1006/pest.1996.0067
109968|T||Wanchun,L., L. Yunshou, M. Liyi, and C. Shin-Foon|Toxicity of Cytisine Against the Mustard Aphid Lipaphis erysimi Kaltenbach (Homoptera: Aphididae) and Its Effect on Esterases|Pestic. Biochem. Physiol.65(1): 1-5|1999|10.1006/pest.1999.2400
109969|A||Megharaj,M., H.W. Pearson, and K. Venkateswarlu|Toxicity of p-Aminophenol and p-Nitrophenol to Chlorella vulgaris and Two Species of Nostoc Isolated from Soil|Pestic. Biochem. Physiol.40:266-273|1991|10.1016/0048-3575(91)90098-7
109970|T||Tseng,L.H., C.W. Lee, M.H. Pan, S.S. Tsai, M.H. Li, J.R. Chen, J.J. Lay, and P.C. Hsu|Postnatal Exposure of the Male Mouse to 2,2',3,3',4,4',5,5',6,6'-Decabrominated Diphenyl Ether:  Decreased Epididymal Sperm Functions Without Alterations in DNA Content and Histology in Testis|Toxicology224(1-2): 33-43|2006|10.1016/j.tox.2006.04.003
109971|T||Wang,J.P., D.X. Xu, M.F. Sun, Y.H. Chen, H. Wang, and W. Wei|Chronic Ethanol Exposure Downregulates Hepatic Expression of Pregnane X Receptor and P450 3A11 in Female ICR Mice|Toxicology215(3): 234-244|2005|10.1016/j.tox.2005.07.005
109972|T||Wangikar,P.B., P. Dwivedi, N. Sinha, A.K. Sharma, and A.G. Telang|Teratogenic Effects in Rabbits of Simultaneous Exposure to Ochratoxin A and Aflatoxin B1 with Special Reference to Microscopic Effects|Toxicology215(1-2): 37-47|2005|10.1016/j.tox.2005.06.022
109974|T||Wu,P.H., Y.C. Shen, Y.H. Wang, C.W. Chi, and J.C. Yen|Baicalein Attenuates Methamphetamine-Induced Loss of Dopamine Transporter in Mouse Striatum|Toxicology226(2-3): 238-245|2006|10.1016/j.tox.2006.06.015
109975|T||Xue,S.G., Y.X. Chen, A.J.M. Baker, R.D. Reeves, X.H. Xu, and Q. Lin|Manganese Uptake and Accumulation by Two Populations of Phytolacca acinosa Roxb. (Phytolaccaceae)|Water Air Soil Pollut.160(1-4): 3-14|2005|10.1007/s11270-005-3349-0
109976|T||Yan,C., Q. Xin-Ming, G. Li-Kun, L. Lin-Lin, C. Fang-Ping, X. Ying, W. Xiong-Fei, L. Xiang-Hong, and R. Jin|Tetrandrine-Induced Apoptosis in Rat Primary Hepatocytes is Initiated from Mitochondria: Caspases and Endonuclease G (Endo G) Pathway|Toxicology218(1): 1-12|2006|10.1016/j.tox.2005.08.024
109977|T||Yeung,L.W.Y., K.S. Guruge, N. Yamanaka, S. Miyazaki, and P.K.S. Lam|Differential Expression of Chicken Hepatic Genes Responsive to PFOA and PFOS|Toxicology237(1-3): 111-125|2007|10.1016/j.tox.2007.05.004
109978|T||Zhang,L.P., Q.S. Wang, X. Guo, Y.J. Zhu, G.Z. Zhou, and K.Q. Xie|Time-Dependent Changes of Lipid Peroxidation and Antioxidative Status in Nerve Tissues of Hens Treated with Tri-ortho-Cresyl Phosphate (TOCP)|Toxicology239(1-2): 45-52|2007|10.1016/j.tox.2007.06.091
109979|T||Zhao,X.L., T.L. Zhang, C.L. Zhang, X.Y. Han, S.F. Yu, S.X. Li, N. Cui, and K.Q. Xie|Expression Changes of Neurofilament Subunits in the Central Nervous System of Hens Treated with tri-Ortho-Cresyl Phosphate (TOCP)|Toxicology223(1-2): 127-135|2006|10.1016/j.tox.2006.03.008
109980|A||Zurita,J.L., A. Jos, A. Del Peso, M. Salguero, M. Lopez-Artiguez, and G. Repetto|Ecotoxicological Effects of the Antioxidant Additive Propyl Gallate in Five Aquatic Systems|Water Res.41(12): 2599-2611|2007|10.1016/j.watres.2007.02.003
109983|T||Soler-Martin,C., N. Diez-Padrisa, P. Boadas-Vaello, and J. Llorens|Behavioral Disturbances and Hair Cell Loss in the Inner Ear Following Nitrile Exposure in Mice, Guinea Pigs, and Frogs|Toxicol. Sci.96(1): 123-132|2007|10.1093/toxsci/kfl186
109984|T||Nishioka,H., H. Fujii, B. Sun, and O.I. Aruoma|Comparative Efficacy of Oligonol, Catechin and (-)-Epigallocatechin 3-O-Gallate in Modulating the Potassium Bromate-Induced Renal Toxicity in Rats|Toxicology226(2-3): 181-187|2006|10.1016/j.tox.2006.06.017
109985|T||Neal,R., N. Aykin-Burns, N. Ercal, and J.S.,Jr. Zigler|Pb2+ Exposure Alters the Lens alphaA-Crystallin Protein Profile In Vivo and Induces Cataract Formation in Lens Organ Culture|Toxicology212(1): 1-9|2005|10.1016/j.tox.2005.03.015
109987|T||Diaz,P., O. Borsani, A. Marquez, and J. Monza|Osmotically Induced Proline Accumulation in Lotus corniculatus Leaves is Affected by Light and Nitrogen Source|Plant Growth Regul.46(3): 223-232|2005|10.1007/s10725-005-0860-7
109991|A||Venkatesan,P.|Responses of Water Bug Diplonychus rusticus (=indicus) Venk. and Rao and Fish Gambusia affinis to Diflubenzuron, BHC and Deltamethrin in Mosquito Breeding Site|J. Entomol. Res.26(1): 55-61|2002|
109992|T||Alzogaray,R., C. Luz, I.G. Silva, R.E. Lecuona, and M.S. Tigano|Effect of Deltamethrin on Germination and Virulence of Beauveria bassiana (Bals.) Vuill. on Triatoma infestans (Klug)|An. Soc. Entomol. Bras.27(4): 663-667|1998|10.1590/S0301-80591998000400022
109993|T||Amir,J., J. Krikun, D. Orion, J. Putter, and S. Klitman|Wheat Production in an Arid Environment.  2.  Role of Soil Pathogens|Field Crops Res.27(4): 365-376|1991|10.1016/0378-4290(91)90042-T
109994|T||Oi,Y., M. Okamoto, M. Nitta, Y. Kominato, S. Nishimura, T. Ariga, and K. Iwai|Alliin and Volatile Sulfur-Containing Compounds in Garlic Enhance the Thermogenesis by Increasing Norepinephrine Secretion in Rats|J. Nutr. Biochem.9(2): 60-66|1998|10.1016/S0955-2863(97)00167-8
109997|T||George,K.C., and J. Eapen|In Vivo Studies on the Effect of Garlic Oil in Mice|Toxicology1(4): 337-344|1973|10.1016/0300-483X(73)90040-1
109998|T||Curtis,H., U. Noll, J. Stormann, and A.J. Slusarenko|Broad-Spectrum Activity of the Volatile Phytoanticipin allicin in Extracts of Garlic (Allium sativum L.) Against Plant Pathogenic Bacteria, Fungi and Oomycetes|Physiol. Mol. Plant Pathol.65(2): 79-89|2004|10.1016/j.pmpp.2004.11.006
109999|T||Welsch-Pausch,K., M.S. McLachlan, and G. Umlauf|Determination of the Principal Pathways of Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans to Lolium multiflorum (Welsh Ray Grass)|Environ. Sci. Technol.29(4): 1090-1098|1995|10.1021/es00004a031
110000|A||Yin,H.C., H.P. Tseng, H.Y. Chung, C.Y. Ko, W.S. Tzou, D.R. Buhler, and C.H. Hu|Influence of TCDD on Zebrafish CYP1B1 Transcription During Development|Toxicol. Sci.103(1): 158-168|2008|10.1093/toxsci/kfn035
110001|A||Leney,J.L., K.G. Drouillard, and G.D. Haffner|Does Metamorphosis Increase the Susceptibility of Frogs to Highly Hydrophobic Contaminants?|Environ. Sci. Technol.40(5): 1491-1496|2006|10.1021/es0515506
110002|A||Vega-Lopez,A., L. Martinez-Tabche, and M.G. Martinez|Toxic Effects of Waterborne Polychlorinated Biphenyls and Sex Differences in an Endangered Goodeid Fish (Girardinichthys viviparus)|Environ. Int.33(4): 540-545|2007|10.1016/j.envint.2006.09.002
110003|T||Van den Steen,E., A. Covaci, V.L.B. Jaspers, T. Dauwe, S. Voorspoels, M. Eens, and R. Pinxten|Experimental Evaluation of the Usefulness of Feathers as a Non-destructive Biomonitor for Polychlorinated Biphenyls (PCBs) Using Silastic Implants as a Novel Method of Exposure|Environ. Int.33(2): 257-264|2007|10.1016/j.envint.2006.09.018
110004|A||McLeod,P.B., S.N. Luoma, and R.G. Luthy|Biodynamic Modeling of PCB Uptake by Macoma balthica and Corbicula fluminea from Sediment Amended with Activated Carbon|Environ. Sci. Technol.42(2): 484-490|2008|10.1021/es070139a
110005|A||Buckman,A.H., S.B. Brown, J. Small, D.C.G. Muir, J. Parrott, K.R. Solomon, and A.T. Fisk|Role of Temperature and Enzyme Induction in the Biotransformation of Polychlorinated Biphenyls and Bioformation of Hydroxylated Polychlorinated Biphenyls by Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Technol.41(11): 3856-3863|2007|10.1021/es062437y
110006|T||Kumar,S., M. Kashyap, and D.R. Sharma|In Vitro Regeneration and Bulblet Growth from Lily Bulbscale Explants as Affected by Retardants, Sucrose and Irradiance|Biol. Plant. (Praha)49(4): 629-632|2005|10.1007/s10535-005-0064-z
110007|T||Kilgore,W.W., and R.R. Painter|Effect of the Chemosterilant Apholate on the Synthesis of Cellular Components in Developing Housefly Eggs|Biochem. J. (Lond.)92:353-357|1964|10.1042/bj0920353
110008|T||Kok,L.T., and J.A. Acosta-Martinez|Differential Susceptibility of Cotesia orobenae, a Parasitoid of the Cross-Striped Cabbageworm, to Commonly Used Insecticides in Cruciferae|Biocontrol46(4): 419-426|2001|10.1023/A:1014173710430
110009|T||Wiesman,Z., A. Markus, S. Wybraniec, L. Schwartz, and D. Wolf|Promotion of Rooting and Development of Cuttings by Plant Growth Factors Formulated into a Controlled-Release System|Biol. Fertil. Soils36(5): 330-334|2002|10.1007/s00374-002-0553-6
110010|T||Winteringham,F.P.W., G.C. Hellyer, and M.A. McKay|Effects of the Insecticides DDT and Dieldrin on Phosphorus Metabolism of the Adult Housefly Musca domestica L.|Biochem. J. (Lond.)76:543-548|1960|10.1042/bj0760543
110011|AT||Xu,X., P. Boeckx, Y. Wang, Y. Huang, X. Zheng, F. Hu, and O. Van Cleemput|Nitrous Oxide and Methane Emissions During Rice Growth and Through Rice Plants:  Effect of Dicyandiamide and Hydroquinone|Biol. Fertil. Soils36(1): 53-58|2002|10.1007/s00374-002-0503-3
110012|T||Seyfferth,A.L., and D.R. Parker|Effects of Genotype and Transpiration Rate on the Uptake and Accumulation of Perchlorate (ClO4-) in Lettuce|Environ. Sci. Technol.41(9): 3361-3367|2007|10.1021/es062337s
110013|T||Smith,D.J., A.M. Craig, J.M. Duringer, and R.L. Chaney|Absorption, Tissue Distribution, and Elimination of Residues After 2,4,6-Trinitro(14C)Toluene Administration to Sheep|Environ. Sci. Technol.42(7): 2563-2569|2008|10.1021/es702601n
110014|T||Kawashima,C.G., M. Noji, M. Nakamura, Y. Ogra, K.T. Suzuki, and K. Saito|Heavy Metal Tolerance of Transgenic Tobacco Plants Over-Expressing Cysteine Synthase|Biotechnol. Lett.26(2): 153-157|2004|10.1023/B:BILE.0000012895.60773.ff
110016|T||Lipke,H., and J. Chalkley|Glutathione, Oxidized and Reduced, in Some Dipterans Treated with 1,1,1-Trichloro-2,2-di-(p-Chlorophenyl)Ethane|Biochem. J. (Lond.)85:104-109|1962|10.1042/bj0850104
110017|T||Liu,Y.C., H.Y. Liu, H.W. Yang, T. Wen, Y. Shang, X.D. Liu, L. Xie, and G.J. Wang|Impaired Expression and Function of Breast Cancer Resistance Protein (BCRP) in Brain Cortex of Streptozocin-Induced Diabetic Rats|Biochem. Pharmacol.74(12): 1766-1772|2007|10.1016/j.bcp.2007.08.021
110018|T||Yokoo,S., A. Yonezawa, S. Masuda, A. Fukatsu, T. Katsura, and K.I. Inui|Differential Contribution of Organic Cation Transporters, OCT2 and MATE1, in Platinum Agent-Induced Nephrotoxicity|Biochem. Pharmacol.74(3): 477-487|2007|10.1016/j.bcp.2007.03.004
110019|T||Yoshida,T., S. Numazawa, and Y. Kuroiwa|Induction of Hepatic and Renal Ornithine Decarboxylase by Cobalt and Other Metal Ions in Rats|Biochem. J. (Lond.)233(2): 577-581|1986|10.1042/bj2330577
110020|T||Yoshino,S., K. Yamaki, R. Yanagisawa, H. Takano, H. Hayashi, and Y. Mori|Effects of Bisphenol A on Antigen-Specific Antibody Production, Proliferative Responses of Lymphoid Cells, and TH1 and TH2 Immune Responses in Mice|Br. J. Pharmacol.138:1271-1276|2003|10.1038/sj.bjp.0705166
110021|A||Stapleton,H.M., R.J. Letcher, and J.E. Baker|Debromination of Polybrominated Diphenyl Ether Congeners BDE 99 and BDE 183 in the Intestinal Tract of the Common Carp (Cyprinus carpio)|Environ. Sci. Technol.38(4): 1054-1061|2004|10.1021/es0348804
110022|A||Srivastava,S., S. Mishra, R.D. Tripathi, S. Dwivedi, P.K. Trivedi, and P.K. Tandon|Phytochelatins and Antioxidant Systems Respond Differentially During Arsenite and Arsenate Stress in Hydrilla verticillata (L.f.) Royle|Environ. Sci. Technol.41(8): 2930-2936|2007|10.1021/es062167j
110023|T||Smith,P.G., I. Koch, and K.J. Reimer|Arsenic Speciation Analysis of Cultivated White Button Mushrooms (Agaricus bisporus) Using High-Performance Liquid Chromatography-Inductively Coupled Plasma Mass Spectrometry, and X-Ray Absorption Spectroscopy|Environ. Sci. Technol.41(20): 6947-6954|2007|10.1021/es071022p
110025|A||Hunn,J.B.|Uptake, Distribution and Excretion of the Radionuclide I131 by Rainbow Trout (Salmo gairdneri)|Ph.D. Thesis, Michigan State University, East Lansing, MI:112 p.|1963|
110026|A||Bjorklund,R.G.|The Biological Function of the Thyroid and the Effect of Length of Day on the Growth and Maturation of the Goldfish Carassius auratus (Linnaeus)|Ph.D.Thesis, University of Michigan, MI:156 p.|1958|
110027|A||Menasveta,P.|Effects of Certain Food Additives on Mercury Accumulation, Distribution, and Elimination in Salmonid Fishes and the Results on Growth|Ph.D.Thesis, University of Washington,WA:160 p.|1974|
110028|A||Scheller,J.L.|The Effect of Dieoffs of Asian Clams (Corbicula fluminea) on Native Freshwater Mussels (Unionidae)|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:92 p.|1997|
110030|A||Dawson,J.R.|Factors Affecting the Uptake of Iron in Spirodela oligorhiza (Kurtz) Hegelm|Ph.D.Thesis, Oregon State University, Corvallis, OR:75 p.|1961|
110031|T||Takahashi,M., and P.M. Le Quesne|The Effects of the Pyrethroids Deltamethrin and Cismethrin on Nerve Excitability in Rats|J. Neurol., Neurosurg. Psychiatry45(11): 1005-1011|1982|10.1136/jnnp.45.11.1005
110032|T||Husain,R., M. Malaviya, and P.K. Seth|Effect of Deltamethrin on Regional Brain Polyamines and Behaviour in Young Rats|Pharmacol. Toxicol.74(45): 211-215|1994|10.1111/j.1600-0773.1994.tb01100.x
110033|T||Herbert,D.A.,Jr., and S. Malone|Evaluation of Selected Seed Treatments and In-Furrow Insecticides, with and Without an Additional Foliar Broadcast Application at First True Leaf Stage, for Control of Thrips in Cotton, 2006|Arthropod Manag. Tests32:1 p.|2007|
110034|T||Gable,R.H., K.D. Emfinger, B.R. Leonard, and J. Temple|Evaluation of Selected Insecticides Against Sugarcane Beetle and Cutworms in Field Corn, 2004|Arthropod Manag. Tests30:2 p.|2005|10.1093/amt/30.1.F21
110035|T||Nehez,M., A. Paldy, A. Selypes, M. Korosfalvi, I. Lorinczi, and G. Berencsi|The Mutagenic Effect of Trifluralin-Containing Herbicide on Mouse Bone Marrow In Vivo|Ecotoxicol. Environ. Saf.3(4): 454-457|1979|10.1016/0147-6513(79)90035-6
110036|T||Nehez,M., A. Paldy, A. Selypes, M. Korosfalvi, I. Lorinczi, and G. Berencsi|The Mutagenic Effect of Trifluralin-Containing Herbicide on Mouse Germ Cells In Vivo|Ecotoxicol. Environ. Saf.4(3): 263-266|1980|10.1016/0147-6513(80)90028-7
110037|T||Bretag,T.W., and J.F. Kollmorgen|Effects of Trifluralin, Benomyl and Metalaxyl on the Incidence and Severity of Root Disease in Annual Medicago spp., and Evaluation of Cultivars for Resistance to Root Rot|Aust. J. Exp. Agric.26(1): 65-70|1986|10.1071/EA9860065
110038|T||Francis,P.C., J.L. Emmerson, E.R. Adams, and N.V. Owen|Oncogenicity Study of Trifluralin in B6C3F1 Mice|Food Chem. Toxicol.29(8): 549-555|1991|10.1016/0278-6915(91)90047-B
110039|T||Wu,Y.X., and A. Tiedemann|Impact of Fungicides on Active Oxygen Species and Antioxidant Enzymes in Spring Barley (Hordeum vulgare L.) Exposed to Ozone|Environ. Pollut.116(1): 37-47|2002|10.1016/S0269-7491(01)00174-9
110041|T||Slaton,N.A., R.D. Cartwright, J. Meng, E.E.,Jr. Gbur, and R.J. Norman|Sheath Blight Severity and Rice Yield as Affected by Nitrogen Fertilizer Rate, Application Method, and Fungicide|Agron. J.95(6): 1489-1496|2003|10.2134/agronj2003.1489
110042|T||Groth,D.E.|Azoxystrobin Rate and Timing Effects on Rice Head Blast Incidence and Rice Grain and Milling Yields|Plant Dis.90(8): 1055-1058|2006|10.1094/PD-90-1055
110043|T||Greer,C.A., and R.K. Webster|Occurrence, Distribution, Epidemiology, Cultivar Reaction, and Management of Rice Blast Disease in California|Plant Dis.85(10): 1096-1102|2001|10.1094/PDIS.2001.85.10.1096
110044|A||Madsen,J.D., K.D. Getsinger, R.M. Stewart, and C.S. Owens|Whole Lake Fluridone Treatments for Selective Control of Eurasian Watermilfoil: II. Impacts on Submersed Plant Communities|Lakes Reserv. Res. Manag.18(3): 191-200|2002|10.1080/07438140209354148
110046|A||Nelson,L.S., K.D. Getsinger, and J.E. Freedman|Selective Control of Purple Loosestrife with Triclopyr|Report A458592, Army Engineer Waterways Experiment Station, Vicksburg, MS:32 p.|1995|
110048|T||Patel,Y.M., and J.A. Santolucito|Selected Toxicological Studies of Dimilin in Weanling Male Rats|EPA-600/3-80-031.Environmental Monitoring Systems Laboratory, Las Vegas, NV:18 p.|1980|
110049|T||Veech,J.A.|The Effect of Diflubenzuron on Egg Formation by the Root-Knot Nematode|J. Nematol.10:208-209|1978|
110051|A||Chen,S., and W. Liu|Toxicity of Chiral Pesticide Rac-Metalaxyl and R-Metalaxyl to Daphnia magna|Bull. Environ. Contam. Toxicol.81(6): 531-534|2008|10.1007/s00128-008-9567-6
110053|T||Foureman,P.A.|The TX; Y Test for the Detection of Nondisjunction and Chromosome Breakage in Drosophila melanogaster:  I.  Analysis of Spontaneous Events and Results of Male Exposure|Mutat. Res.203(6): 427-444|1988|10.1016/0165-1161(88)90015-5
110054|T||Foureman,P.A.|The TX; Y Test for the Detection of Nondisjunction and Chromosome Breakage in Drosophila melanogaster:  II.  Results of Female Exposures|Mutat. Res.203(4): 309-316|1988|10.1016/0165-1161(88)90020-9
110055|T||Cartwright,B., R.J. Schatzer, W.P. Morrison, and C. Chambers|Economics of Managing Lepidopterous Cabbage Pests in the Southwestern United States|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan:351-359|1992|
110056|T||Bertelsen,J.R., E. De Neergaard, and V. Smedegaard-Petersen|Fungicidal Effects of Azoxystrobin and Epoxiconazole on Phyllosphere Fungi, Senescence and Yield of Winter Wheat|Plant Pathol.50(2): 190-205|2001|10.1046/j.1365-3059.2001.00545.x
110057|T||Castro,B.A.|Efficacy of Cruiser Seed Treatment for Control of Seedling Pests in Cantaloupe, 2007|Arthropod Manag. Tests33:2 p.|2008|
110058|T||Echtenkamp,G.W., and T.E. Hunt|Control of Bean Leaf Beetle in Soybeans, 2005|Arthropod Manag. Tests31:1 p.|2006|
110060|T||Echtenkamp,G.W., and T.E. Hunt|Control of Soybean Aphid in Soybeans, 2005|Arthropod Manag. Tests31:2 p.|2006|
110061|T||Groth,D.E., and J.A. Bond|Initiation of Rice Sheath Blight Epidemics and Effect of Application Timing of Azoxystrobin on Disease Incidence, Severity, Yield, and Milling Quality|Plant Dis.90(8): 1073-1076|2006|10.1094/PD-90-1073
110062|A||Wilson,J.E.H., P.A. Cunningham, D.W. Evans, and J.D.,Jr. Costlow|Using Grass Shrimp Embryos to Determine the Effects of Sediment on the Toxicity and Persistence of Diflubenzuron in Laboratory Microcosms|ASTM Spec. Tech. Publ.:267-287|1995|
110063|A||Wilson,J.E.H., R.B.,Jr. Forward, and J.D. Costlow|Effects of Diflubenzuron on the Ontogeny of Phototaxis by Palaemonetes pugio|Gulf Res. Rep.11:7-14|1999|10.18785/grr.1101.03
110064|T||Zijp,J.P., and L.H.M. Blommers|The Effect of Diflubenzuron on Parasitism of Anthonomus pomorum by Centistes delusorius|Entomol. Exp. Appl.98(1): 115-118|2001|10.1046/j.1570-7458.2001.00763.x
110066|T||Lafuente,A., and A.I. Esquifino|Effects of Oral Cadmium Exposure Through Puberty on Plasma Prolactin and Gonadotropin Levels and Amino Acid Contents in Various Brain Areas in Pubertal Male Rats|Neurotoxicology23(2): 207-213|2002|10.1016/S0161-813X(02)00020-7
110067|T||Bedmar,F.|Evaluation of Herbicide Mixtures Containing Flupoxam and Prometryn for Weed Control in Sunflower|Tests Agrochem. Cultiv.16:50-51|1995|
110068|T||Nass,T.E., D.W. Matt, H.L. Judd, and J.K.H. Lu|Prepubertal Treatment with Estrogen or Testosterone Precipitates the Loss of Regular Estrous Cyclicity and Normal Gonadotropin Secretion in Adult Female Rats|Biol. Reprod.31:723-731|1984|10.1095/biolreprod31.4.723
110070|A||Leslie,H.A.|Biomimetic Solid-Phase Microextraction. Estimating Body Residues and Predicting Baseline Toxicity in Aquatic Organisms|Ph.D. Thesis, University of Utrecht, Utrecht, The Netherlands:175 p.|2003|
110071|A||Benli,A.C.K., G. Koksal, and A. Ozkul|Sublethal Ammonia Exposure of Nile tilapia (Oreochromis niloticus L.):  Effects on Gill, Liver and Kidney Histology|Chemosphere72(9): 1355-1358|2008|10.1016/j.chemosphere.2008.04.037
110072|A||Dai,G., C.P. Deblois, S. Liu, P. Juneau, and B. Qiu|Differential Sensitivity of Five Cyanobacterial Strains to Ammonium Toxicity and Its Inhibitory Mechanism on the Photosynthesis of Rice-Field Cyanobacterium Ge-Xian-Mi (Nostoc)|Aquat. Toxicol.89(2): 113-121|2008|10.1016/j.aquatox.2008.06.007
110073|A||Muturi,E.J., B.G. Jacob, J. Shililu, and R. Novak|Laboratory Studies on the Effect of Inorganic Fertilizers on Survival and Development of Immature Culex quinquefasciatus (Diptera:  Culicidae)|J. Vector Borne Dis.44(4): 259-265|2007|
110074|A||DeYoe,H.R., E.J. Buskey, and F.J. Jochem|Physiological Responses of Aureoumbra lagunensis and Synechococcus sp. to Nitrogen Addition in a Mesocosm Experiment|Harmful Algae6(1): 48-55|2007|10.1016/j.hal.2006.06.001
110075|A||Ronan,P.J., M.P. Gaikowski, S.J. Hamilton, K.J. Buhl, and C.H. Summers|Ammonia Causes Decreased Brain Monoamines in Fathead Minnows (Pimephales promelas)|Brain Res.1147:184-191|2007|10.1016/j.brainres.2007.02.015
110076|A||Jampeetong,A., and H. Brix|Effects of NH4+ Concentration on Growth, Morphology and NH4+ Uptake Kinetics of Salvinia natans|Ecol. Eng.35(5): 695-702|2009|10.1016/j.ecoleng.2008.11.006
110077|A||Ip,Y.K., S.M.L. Lee, W.P. Wong, and S.F. Chew|Mechanisms of and Defense Against Acute Ammonia Toxicity in the Aquatic Chinese Soft-Shelled Turtle, Pelodiscus sinensis|Aquat. Toxicol.86(2): 185-196|2008|10.1016/j.aquatox.2007.10.013
110078|T||Mulder,P.G.Jr., and K.E. Jackson|Plum Curculio Control in Peaches, 1998|Arthropod Manag. Tests24:61-|1999|
110080|T||Nath,J., V. Okoye, and I. Schneider|Anti-Malarial Effects of the Anti-Tubulin Herbicide Trifluralin:  Studies with Plasmodium falciparum|Report, Walter Reed Army Inst.of Research, Washington, DC:9 p.|1994|
110081|A||Boone,M.D., R.D. Semlitsch, E.E. Little, and M.C. Doyle|Multiple Stressors in Amphibian Communities:  Effects of Chemical Contamination, Bullfrogs, and Fish|Ecol. Appl.17(1): 291-301|2007|10.1890/1051-0761(2007)017[0291:MSIACE]2.0.CO;2
110082|A||Hong,M., L. Chen, X. Sun, S. Gu, L. Zhang, and Y. Chen|Metabolic and Immune Responses in Chinese Mitten-Handed Crab (Eriocheir sinensis) Juveniles Exposed to Elevated Ambient Ammonia|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 363-369|2007|10.1016/j.cbpc.2007.01.003
110083|A||Gundel,U., D. Benndorf, M. Bergen, R. Altenburger, and E. Kuster|Vitellogenin Cleavage Products as Indicators for Toxic Stress in Zebra Fish Embryos:  A Proteomic Approach|Proteomics7(24): 4541-4554|2007|10.1002/pmic.200700381
110084|A||Alonso,A., and J.A. Camargo|Ammonia Toxicity to the Freshwater Invertebrates Polycelis felina (Planariidae, Turbellaria) and Echinogammarus echinosetosus (Gammaridae, Crustacea)|Fresenius Environ. Bull.15(12b): 1578-1583|2006|
110085|A||Perez-Landa,V., M.J. Belzunce, and J. Franco|The Effect of Seasonality and Body Size on the Sensitivity of Marine Amphipods to Toxicants|Bull. Environ. Contam. Toxicol.81(6): 548-552|2008|10.1007/s00128-008-9550-2
110086|A||Stauber,J.L., M.T. Binet, V.W.W. Bao, J. Boge, A.Q. Zhang, K.M.Y. Leung, and M.S. Adams|Comparison of the QwikLite Algal Bioluminescence Test with Marine Algal Growth Rate Inhibition Bioassays|Environ. Toxicol.23(5): 617-625|2008|10.1002/tox.20400
110087|A||Costa,L.D.F., K.C. Miranda-Filho, M.P. Severo, and L.A. Sampaio|Tolerance of Juvenile Pompano Trachinotus marginatus to Acute Ammonia and Nitrite Exposure at Different Salinity Levels|Aquaculture285(1-4): 270-272|2008|10.1016/j.aquaculture.2008.08.017
110088|A||Fang,J.K.H., R.S.S. Wu, A.K.Y. Chan, C.K.M. Yip, and P.K.S. Shin|Influences of Ammonia-Nitrogen and Dissolved Oxygen on Lysosomal Integrity in Green-Lipped Mussel Perna viridis:  Laboratory Evaluation and Field Validation in Victoria Harbour, Hong Kong|Mar. Pollut. Bull.56(12): 2052-2058|2008|10.1016/j.marpolbul.2008.08.003
110089|T||Johnson,M.K.|The Delayed Neurotoxic Effect of Some Organophosphorus Compounds.  Identification of the Phosphorylation Site as an Esterase|Biochem. J. (Lond.)114:711-717|1969|10.1042/bj1140711
110090|A||Suski,C.D., J.D. Kieffer, S.S. Killen, and B.L. Tufts|Sub-lethal Ammonia Toxicity in Largemouth Bass|Comp. Biochem. Physiol. A Mol. Integr. Physiol.146(3): 381-389|2007|10.1016/j.cbpa.2006.11.005
110091|T||Pelah,D., R.A. Kaushik, Y. Mizrahi, and Y. Sitrit|Organogenesis in the Vine Cactus Selenicereus Megalanthus Using Thidiazuron|Plant Cell Tissue Organ Cult.71(1): 81-84|2002|10.1023/A:1016585108094
110092|A||Spencer,P., R. Pollock, and M. Dube|Effects of Un-ionized Ammonia on Histological, Endocrine, and Whole Organism Endpoints in Slimy Sculpin (Cottus cognatus)|Aquat. Toxicol.90(4): 300-309|2008|10.1016/j.aquatox.2008.08.017
110093|T||Gallego,S.M., M.J. Kogan, C.E. Azpilicueta, C. Pena, and M.L. Tomaro|Glutathione-Mediated Antioxidative Mechanisms in Sunflower (Helianthus annuus L.) Cells in Response to Cadmium Stress|Plant Growth Regul.46(3): 267-276|2005|10.1007/s10725-005-0163-z
110094|T||Holbrook,L., P. Tung, K. Ward, D.M. Reid, S. Abrams, N. Lamb, J.W. Quail, and M.M. Moloney|Importance of the Chiral Centers of Jasmonic Acid in the Responses of Plants.  Activities and Antagonism Between Natural and Synthetic Analogs|Plant Physiol.114(2): 419-428|1997|10.1104/pp.114.2.419
110095|A||Romano,N., and C. Zeng|Acute Toxicity of Ammonia and Its Effects on the Haemolymph Osmolality, Ammonia-N, pH and Ionic Composition of Early Juvenile Mud Crabs, Scylla serrata (Forskal)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.148(2): 278-285|2007|10.1016/j.cbpa.2007.04.018
110096|T||Jack,E.M., S. Anatasova, and J.A.C. Verkleij|Callus Induction and Plant Regeneration in the Metallophyte Silene vulgaris (Caryophyllaceae)|Plant Cell Tissue Organ Cult.80(1): 25-31|2005|10.1007/s11240-004-5789-4
110097|A||Romano,N., and C. Zeng|Ontogenetic Changes in Tolerance to Acute Ammonia Exposure and Associated Gill Histological Alterations During Early Juvenile Development of the Blue Swimmer Crab, Portunus pelagicus|Aquaculture266(1-4): 246-254|2007|10.1016/j.aquaculture.2007.01.035
110098|T||Kopittke,P.M., C.J. Asher, and N.W. Menzies|Toxic Effects of Ni2+ on Growth of Cowpea (Vigna Unguiculata)|Plant Soil292(1-2): 283-289|2007|10.1007/s11104-007-9226-4
110099|A||Rodrigues,R.V., M.H. Schwarz, B.C. Delbos, and L.A. Sampaio|Acute Toxicity and Sublethal Effects of Ammonia and Nitrite for Juvenile Cobia Rachycentron canadum|Aquaculture271(1-4): 553-557|2007|10.1016/j.aquaculture.2007.06.009
110100|T||Makris,K.C., R. Datta, D. Sarkar, K.M. Shakya, D. Pachanoor, and P. Das|Chaotropic Effects on 2,4,6-Trinitrotoluene Uptake by Wheat (Triticum aestivum)|Plant Soil295(1/2): 229-237|2007|10.1007/s11104-007-9278-5
110101|A||Remen,M., A.K. Imsland, S.O. Stefansson, T.M. Jonassen, and A. Foss|Interactive Effects of Ammonia and Oxygen on Growth and Physiological Status of Juvenile Atlantic Cod (Gadus morhua)|Aquaculture274(2-4): 292-299|2008|10.1016/j.aquaculture.2007.11.032
110102|T||Choi,Y.E., D.C. Yang, and K.T. Choi|Induction of Somatic Embryos by Macrosalt Stress from Mature Zygotic Embryos of Panax ginseng|Plant Cell Tissue Organ Cult.52(3): 177-181|1998|10.1023/A:1005971712628
110103|A||Mugnier,C., E. Zipper, C. Goarant, and H. Lemonnier|Combined Effect of Exposure to Ammonia and Hypoxia on the Blue Shrimp Litopenaeus stylirostris Survival and Physiological Response in Relation to Molt Stage|Aquaculture274(2-4): 398-407|2008|10.1016/j.aquaculture.2007.11.033
110104|T||Pekker,I., E. Tel-Or, and R. Mittler|Reactive Oxygen Intermediates and Glutathione Regulate the Expression of Cytosolic Ascorbate Peroxidase During Iron-Mediated Oxidative Stress in Bean|Plant Mol. Biol.49(5): 429-438|2002|10.1023/A:1015554616358
110105|T||Larsen,P.B., L.V. Kochian, and S.H. Howell|Al Inhibits Both Shoot Development and Root Growth in als3, an Al-Sensitive Arabidopsis Mutant|Plant Physiol.114(4): 1207-1214|1997|10.1104/pp.114.4.1207
110106|A||Miron,D.D.S., B. Moraes, A.G. Becker, M. Crestani, R. Spanevello, V.L. Loro, and B. Baldisserotto|Ammonia and pH Effects on Some Metabolic Parameters and Gill Histology of Silver Catfish, Rhamdia quelen (Heptapteridae)|Aquaculture277(3-4): 192-196|2008|10.1016/j.aquaculture.2008.02.023
110107|T||Kosobrukhov,A., I. Knyazeva, and V. Mudrik|Plantago Major Plants Responses to Increase Content of Lead in Soil:  Growth and Photosynthesis|Plant Growth Regul.42(2): 145-151|2004|10.1023/B:GROW.0000017490.59607.6b
110108|A||Magallon Barajas,F., R.S. Villegas, G.P. Clark, J.G. Mosqueda, and B.L. Moreno|Daily Variation in Short-Term Static Toxicity of Unionized Ammonia in Litopenaeus vannamei (Boone) Postlarvae|Aquac. Res.37(14): 1406-1412|2006|10.1111/j.1365-2109.2006.01573.x
110109|T||Kim,S.H., J.K. Hong, S.C. Lee, K.H. Sohn, H.W. Jung, and B.K. Hwang|CAZFP1, Cys2/His2-Type Zinc-Finger Transcription Factor Gene Functions as a Pathogen-Induced Early-Defense Gene in Capsicum annuum|Plant Mol. Biol.55(6): 883-904|2004|10.1007/s11103-005-2151-0
110110|T||Kikui,S., T. Sasaki, H. Osawa, H. Matsumoto, and Y. Yamamoto|Malate Enhances Recovery from Aluminum-Caused Inhibition of Root Elongation in Wheat|Plant Soil290(1-2): 1-15|2007|10.1007/s11104-006-9068-5
110111|A||Keppler,C.J.|Effects of Ammonia on Cellular Biomarker Responses in Oysters (Crassostrea virginica)|Bull. Environ. Contam. Toxicol.78(1): 63-66|2007|10.1007/s00128-007-9007-z
110112|T||Kaur,S., A.K. Gupta, and N. Kaur|Indole Acetic Acid Mimics the Effect of Salt Stress in Relation to Enzymes of Carbohydrate Metabolism in Chickpea Seedlings|Plant Growth Regul.39(1): 91-98|2003|10.1023/A:1021858802856
110113|A||Foss,A., A.K. Imsland, B. Roth, E. Schram, and S.O. Stefansson|Interactive Effects of Oxygen Saturation and Ammonia on Growth and Blood Physiology in Juvenile Turbot|Aquaculture271(1-4): 244-251|2007|10.1016/j.aquaculture.2007.06.025
110114|T||Jha,A.B., and R.S. Dubey|Arsenic Exposure Alters Activity Behaviour of Key Nitrogen Assimilatory Enzymes in Growing Rice Plants|Plant Growth Regul.43(3): 259-268|2004|10.1023/B:GROW.0000045995.49365.df
110115|T||Hu,H., and P.H. Brown|Localization of Boron in Cell Walls of Squash and Tobacco and Its Association with Pectin.  Evidence for a Structural Role of Boron in the Cell Wall|Plant Physiol.105:681-689|1994|10.1104/pp.105.2.681
110116|T||Holland,N., Y. Evron, M.A.K. Jansen, M. Edelman, and U. Pick|Involvement of Thylakoid Overenergization in Tentoxin-Induced Chlorosis in Nicotiana spp.|Plant Physiol.114(3): 887-892|1997|10.1104/pp.114.3.887
110117|T||Hageman,R.H., E.S. Hodge, and J.S. McHargue|Effect of Potassium Iodide on the Ascorbic Acid Content and Growth of Tomato Plants|Plant Physiol.17:465-472|1942|10.1104/pp.17.3.465
110118|T||Gumaelius,L., B. Lahner, D.E. Salt, and J.A. Banks|Arsenic Hyperaccumulation in Gametophytes of Pteris vittata.  A New Model System for Analysis of Arsenic Hyperaccumulation|Plant Physiol.136(2): 3198-3208|2004|10.1104/pp.104.044073
110119|T||Howarth,J.R., J.R. Dominguez-Solis, G. Gutierrez-Alcala, J.L. Wray, L.C. Romero, and C. Gotor|The Serine Acetyltransferase Gene Family in Arabidopsis thaliana and the Regulation of Its Expression by Cadmium|Plant Mol. Biol.51(4): 589-598|2003|10.1023/A:1022349623951
110120|T||Chapman,P.J.|The Effectiveness of 1,3-Dichloropropene for Controlling Virus Vector Nematodes with Reference to the MAFF Certification Scheme for Strawberry Nursery Stock|Plant Pathol.32:273-279|1983|10.1111/j.1365-3059.1983.tb02834.x
110121|T||Abraham,S.K., and P.C. Kesavan|Genotoxicity of Garlic, Turmeric and Asafoetida in Mice|Mutat. Res.136(1): 85-88|1984|10.1016/0165-1218(84)90138-1
110122|T||St.John,W.M., and T.A. Bledsoe|Comparison of Respiratory-Related Trigeminal, Hypoglossal and Phrenic Activities|Respir. Physiol.62(1): 61-78|1985|10.1016/0034-5687(85)90050-7
110123|T||Staatz,C.G., A.S. Bloom, and J.J. Lech|A Pharmacological Study of Pyrethroid Neurotoxicity in Mice|Pestic. Biochem. Physiol.17:287-292|1982|10.1016/0048-3575(82)90139-0
110124|A||Bradt,P.T., and J.A. Williams|Response of Hydropsychidae (Insecta: Trichoptera) Larvae to Diflubenzuron|J. Penn. Acad. Sci.64(1): 19-22|1990|
110125|T||Gupta,P.R., and R.S. Chandel|Effects of Diflubenzuron and Penfluron on Workers of Apis cerana indica F. and Apis mellifera L.|Apidologie26(1): 3-10|1995|10.1051/apido:19950101
110126|A||Thomas,A., and M.K.K. Pillai|Toxicity and Irritability of K-Othrine Against Four Species of Mosquitoes|Entomon11(1): 29-33|1986|
110127|T||Trudgill,D.L., and I.E. Raschke|The Effect of Aldicarb on the Growth and Yield of Six Crops in Soil Infested with Longidorus elongatus (Nematoda, Dorylaimida)|Hortic. Res.20:67-72|1980|
110129|T||Burris,E., D.R. Cook, and D.R. Burns|Efficacy of Avicta Complete PAC Combinations Against Thrips on Cotton, 2005|Arthropod Manag. Tests31:3 p.|2006|10.1093/amt/31.1.F19
110130|A||Komala,Z.|The Effect of Decis 2.5 EC, a Pyrethroid Insecticide, on Paramecium primaurelia|Folia Biol. (Krakow)33(1/2): 9-14|1985|
110131|T||Jansen,J.P.|Side Effects of Insecticides on Aphidius rhopalosiphi (Hym.:  Aphidiidae) in Laboratory|Entomophaga41(1): 37-43|1996|10.1007/BF02893290
110132|A||Mulla,M.S., and H.A. Darwazeh|New Insect Growth Regulators Against Flood and Stagnant Water Mosquitoes - Effects on Nontarget Organisms|Mosq. News39(4): 746-755|1979|
110133|T||Berberian,I.G., and E.E. Enan|Hematological Studies on White Male Rats Exposed to Some Antimoulting Compounds|Bull. Environ. Contam. Toxicol.43(1): 60-65|1989|10.1007/BF01702238
110134|T||Catangui,M.A., B.W. Fuller, A.W. Walz, M.A. Boetel, and M.A. Brinkman|Abundance, Diversity, and Spatial Distribution of Ants (Hymenoptera: Formicidae) on Mixed-Grass Rangelands Treated with Diflubenzuron|Environ. Entomol.25(4): 757-766|1996|10.1093/ee/25.4.757
110135|T||Butaye,L., and D. Degheele|Benzoylphenyl Ureas Effect on Growth and Development of Eulophus pennicornis (Hymenoptera: Eulophidae), a Larval Ectoparasite of the Cabbage Moth (Lepidoptera:  Noctuidae)|J. Econ. Entomol.88(3): 600-605|1995|10.1093/jee/88.3.600
110137|AT||Palrang,A.T., and L.D. Godfrey|Evaluation of Insecticides for Rice Water Weevil Control in California, 1994|Arthropod Manag. Tests20:227-228|1995|10.1093/amt/20.1.227
110138|A||Martin,P.J.S., J.M. Clark, and J.D. Edman|Preliminary Study of Synergism of Acid Rain and Diflubenzuron|Bull. Environ. Contam. Toxicol.54(6): 833-836|1995|10.1007/BF00197966
110139|A||Grigarick,A.A., K.A. Smith, M.J. Oraze, and L.S. Hesler|Diflubenzuron for Rice Water Weevil Larval Control, 1987|Arthropod Manag. Tests19:253-|1994|10.1093/amt/19.1.253
110140|T||Khoo,B.K., A.J. Forgash, N.C. Respicio, and S.B. Ramaswamy|Multiple Progeny Production by Gypsy Moth Parasites, Brachymeria spp. (Hymenoptera: Chalcididae), Following Exposure to Diflubenzuron|Environ. Entomol.14(6): 820-825|1985|10.1093/ee/14.6.820
110141|A||Johnson,C., A. Banerji, and O.V. Oommen|A Comparative Study of Allitin and Garlic on Lipid Turnover in a Teleost, Anabas testudineus (Bloch)|Indian J. Exp. Biol.41(3): 242-247|2003|
110143|A||Isensee,A.R., P.C. Kearney, and G.E. Jones|Modeling Aquatic Ecosystems for Metabolic Studies|ACS Symp. Ser.99:195-216|1979|10.1021/bk-1979-0099.ch013
110144|T||Bubici,G., M. Amenduni, C. Colella, M. D'Amico, and M. Cirulli|Efficacy of Acibenzolar-S-Methyl and Two Strobilurins, Azoxystrobin and Trifloxystrobin, for the Control of Corky Root of Tomato and Verticillium Wilt of Eggplant|Crop Prot.25(8): 814-820|2006|10.1016/j.cropro.2005.06.008
110146|T||Bending,G.D., M.S. Rodriguez-Cruz, and S.D. Lincoln|Fungicide Impacts on Microbial Communities in Soils with Contrasting Management Histories|Chemosphere69(1): 82-88|2007|10.1016/j.chemosphere.2007.04.042
110147|AT||Nishimura,K., T. Kobayashi, and T. Fujita|Symptomatic and Neurophysiological Activities of New Synthetic Non-Ester Pyrethroids, Ethofenprox, MTI-800, and Related Compounds|Pestic. Biochem. Physiol.25(3): 387-395|1986|10.1016/0048-3575(86)90013-1
110148|A||Venkatesan,P., M. Bagyalakshmi, and T. D'Sylva|Effect of Decamethrin on Bioagents in Mosquito Control|J. Ecobiol.3(4): 261-266|1991|
110151|T||Huang,F., D.R. Cook, B.R. Leonard, and S. Moore|Evaluation of Cruiser Extreme (A14115) Against Soil Insects in Field Corn, 2005|Arthropod Manag. Tests32:F15|2007|
110152|T||Duguet,J.S., C.B. Bleou, Tamboura, and Djenepo |Evaluation of the Efficacy of Deltamethrin Compared with Pirimiphos-Methyl and Tetrachlorvinphos Against Dermestes maculatus Deg. and Necrobia rufipes Deg. on Saratherodon niloticus at Mopti (Mali)|Int. Pest Control27(4): 92-96|1985|
110153|A||Magallon Barajas,F.J., R.S. Villegas, G.P. Clark, and B. Lopez Moreno|Litopenaeus vannamei (Boone) Post-Larval Survival Related to Age, Temperature, pH and Ammonium Concentration|Aquac. Res.37:492-499|2006|10.1111/j.1365-2109.2006.01455.x
110154|A||Griffis-Kyle,K.L., and M.E. Ritchie|Amphibian Survival, Growth and Development in Response to Mineral Nitrogen Exposure and Predator Cues in the Field:  An Experimental Approach|Oceanologia (Wroc.)152(4): 633-642|2007|
110155|T||Bissacot,D.Z., and I. Vassilieff|Pyrethroid Residues in Milk and Blood of Dairy Cows Following Single Topical Applications|Vet. Hum. Toxicol.39(1): 6-8|1997|
110156|T||Utkhede,R.S., and C.A. Koch|Evaluation of Biological and Chemical Treatments for Control of Gummy Stem Blight on Cucumber Plants Grown Hydroponically in Greenhouses|Biocontrol49(1): 109-117|2004|10.1023/B:BICO.0000009394.75429.a7
110158|A||Sen,N.S., A.H. Naqvi, and V. Rani|Inhibition of Ovicidal Activities and Fertility in a Water Beetle, Cybister tripunctatus asiaticus Sharp (Coleoptera, Dytiscidae) Following Topical Application of Diflubenzene, a Chitin Inhibitor|Entomol. Basil.16:73-78|1993|
110159|T||Ibrahim,A.M.|Studies on the Ovicidal Activity of Diflubenzuron on Caenorhabditis elegans (Nematoda)|Dirasat13(7): 139-148|1986|
110160|A||Grosscurt,A.C., and R.A.J. Wixley|Effects of Temperature on Acaricidal and Insecticidal Activities of the Benzoylureas Flucycloxuron and Diflubenzuron|Entomol. Exp. Appl.59(3): 239-248|1991|10.1111/j.1570-7458.1991.tb01508.x
110161|A||Gartenstein,S., R.G. Quinnell, and A.W.D. Larkum|Toxicity Effects of Diflubenzuron, Cypermethrin and Diazinon on the Development of Artemia salina and Heliocidaris tuberculata|Australas. J. Ecotoxicol.12(2): 83-90|2006|
110163|T||Mutze,G.J.|The 1993 Strychnine Baiting Program for Mouse Control in South Australian Grain Crops.  I.  Efficacy|Wildl. Res.25(5): 533-546|1998|10.1071/WR96009
110164|A||Nistri,A., and G. Pepeu|Acetylcholine Levels in the Frog Spinal Cord Following the Administration of Different Convulsants|Eur. J. Pharmacol.27(3): 281-287|1974|10.1016/0014-2999(74)90002-8
110165|T||Osuide,G.|Effects of Some Centrally-Acting Drugs in Conscious Chicks and on Spinal Reflexes|Eur. J. Pharmacol.3(4): 283-293|1968|10.1016/0014-2999(68)90109-X
110166|T||Osuide,G., and P.O. Adejoh|Interaction Between Strychnine and gamma-Aminobutyric Acid in Chicks|Eur. J. Pharmacol.24(1): 120-122|1973|10.1016/0014-2999(73)90123-4
110167|T||Stefanis,C., and H. Jasper|Strychnine Reversal of Inhibitory Potentials in Pyramidal Tract Neurones|Int. J. Neuropharmacol.4(3): 125-138|1965|10.1016/0028-3908(65)90002-X
110168|T||Al-Bekairi,A.M., A.H. Shah, and S. Qureshi|Effect of Allium sativum on Epididymal Spermatozoa, Estradiol-Treated Mice and General Toxicity|J. Ethnopharmacol.29(2): 117-125|1990|10.1016/0378-8741(90)90049-Y
110170|T||Park,I.K., J.Y. Park, K.H. Kim, K.S. Choi, I.H. Choi, C.S. Kim, and S.C. Shin|Nematicidal Activity of Plant Essential Oils and Components from Garlic (Allium sativum) and Cinnamon (Cinnamomum verum) Oils Against the Pine Wood Nematode (Bursaphelenchus xylophilus)|Nematology7(5): 767-774|2005|10.1163/156854105775142946
110172|T||Gupta,A., and R.S. Sandhu|Effect of Garlic Agglutinin and Garlic Extracts on the Rat Jejunum|Nutr. Res.18(5): 841-850|1998|10.1016/S0271-5317(98)00069-4
110174|A||Pena,N., A. Auro, and H. Sumano|A Comparative Trial of Garlic, Its Extract and Ammonium-Potassium Tartrate as Anthelmintics in Carp|J. Ethnopharmacol.24(2/3): 199-203|1988|10.1016/0378-8741(88)90152-3
110175|T||Umalakshmi,K., and T. Devaki|Effect of Garlic Oil on Mitochondrial Lipid Peroxidation Induced by Ethanol|Med. Sci. Res.20(12): 435-437|1992|
110177|T||Yin,M.C., and S.M. Tsao|Inhibitory Effect of Seven Allium Plants upon Three Aspergillus Species|Int. J. Food Microbiol.49(1-2): 49-56|1999|10.1016/S0168-1605(99)00061-6
110178|A||Li,E., L. Chen, C. Zeng, X. Chen, N. Yu, Q. Lai, and J.G. Qin|Growth, Body Composition, Respiration and Ambient Ammonia Nitrogen Tolerance of the Juvenile White Shrimp, Litopenaeus vannamei, at Different Salinities|Aquaculture265(1-4): 385-390|2007|10.1016/j.aquaculture.2007.02.018
110179|A||Hued,A.C., M.N. Caruso, D.A. Wunderlin, and M.A. Bistoni|Field and In Vitro Evaluation of Ammonia Toxicity on Native Fish Species of the Central Region of Argentina|Bull. Environ. Contam. Toxicol.76(6): 984-991|2006|10.1007/s00128-006-1015-x
110180|A||Kim,J.K., G.P. Kraemer, C.D. Neefus, I.K. Chung, and C. Yarish|Effects of Temperature and Ammonium on Growth, Pigment Production and Nitrogen Uptake by Four Species of Porphyra (Bangiales, Rhodophyta) Native to the New England Coast|J. Appl. Phycol.19(5): 431-440|2007|10.1007/s10811-006-9150-7
110181|A||Drath,M., N. Kloft, A. Batschauer, K. Marin, J. Novak, and K. Forchhammer|Ammonia Triggers Photodamage of Photosystem II in the Cyanobacterium Synechocystis sp. Strain PCC 6803|Plant Physiol.147(1): 206-215|2008|10.1104/pp.108.117218
110182|A||Rodriguez-Ramos,T., G. Espinosa, J. Hernandez-Lopez, T. Gollas-Galvan, J. Marrero, Y. Borrell, M.E. Alonso, U. Becquer,|Effects of Echerichia coli Lipopolysaccharides and Dissolved Ammonia on Immune Response in Southern White Shrimp Litopenaeus schmitti|Aquaculture274(1): 118-125|2008|10.1016/j.aquaculture.2007.10.049
110183|A||Li,W., Z. Zhang, and E. Jeppesen|The Response of Vallisneria spinulosa (Hydrocharitaceae) to Different Loadings of Ammonia and Nitrate at Moderate Phosphorus Concentration:  A Mesocosm Approach|Freshw. Biol.53(11): 2321-2330|2008|10.1111/j.1365-2427.2008.02053.x
110184|A||Van der Heide,T., A.J.P. Smolders, B.G.A. Rijkens, E.H. Van Nes, M.M. Van Katwijk, and J.G.M. Roelofs|Toxicity of Reduced Nitrogen in Eelgrass (Zostera marina) is Highly Dependent on Shoot Density and pH|Oceanologia (Wroc.)158(3): 411-419|2008|
110185|A||Schipper,C.A., M. Dubbeldam, S.W. Feist, I.M.C.M. Rietjens, and A.T. Murk|Cultivation of the Heart Urchin Echinocardium cordatum and Validation of Its Use in Marine Toxicity Testing for Environmental Risk Assessment|J. Exp. Mar. Biol. Ecol.364(1): 11-18|2008|10.1016/j.jembe.2008.06.014
110186|A||Kumar,S., J.G. Sharma, and R. Chakrabarti|Acute Toxicity of Ammonia to a Freshwater Teleost, Labeo bata Larvae|Toxicol. Environ. Chem.89(2): 327-336|2007|10.1080/02772240601017282
110187|A||Vijayavel,K., S.E. Balasubramanian, and M.P. Balasubramanian|Effect of Urea and Ammonium Chloride on Aspartate and Alanine Transaminases of Oreochromis mossambicus (Peters)|Indian J. Fish.53(1): 19-22|2006|
110188|A||Cucchiari,E., F. Guerrini, A. Penna, C. Totti, and R. Pistocchi|Effect of Salinity, Temperature, Organic and Inorganic Nutrients on Growth of Cultured Fibrocapsa japonica (Raphidophyceae) from the Northern Adriatic Sea|Harmful Algae7(4): 405-414|2008|10.1016/j.hal.2007.09.002
110189|T||Daiker,D.H., M.T. Moslen, J.B. Carr, and J.B.,Jr. Ward|Repeated Oral Benzene Exposure Alters Enzymes Involved in Benzene Metabolism|J. Toxicol. Environ. Health48:439-451|1996|10.1080/009841096161177
110190|T||Rangnekar,D.V., L.S. Hiregoudar, and B.L. Avasthi|Effectiveness of Malathion Insecticide Against Some Species of Cattle and Buffalo Ticks Commonly Found in India|Indian Vet. J.48(5): 466-471|1971|
110191|T||Taylor,P.A., and W.S. Washington|Curative Treatments for Phytophthora cactorum in Peach Trees Using Metalaxyl and Phosethyl Al.|Aust. Plant Pathol.13(3): 31-33|1984|10.1071/APP9840031
110192|T||Angioni,A., M. Schirra, V.L. Garau, M. Melis, C.I.G. Tuberoso, and P. Cabras|Residues of Azoxystrobin, Fenhexamid and Pyrimethanil in Strawberry Following Field Treatments and the Effect of Domestic Washing|Food Addit. Contam.21(11): 1065-1070|2004|10.1080/02652030400010066
110193|A||Phillips,B.M., B.S. Anderson, J.W. Hunt, S.L. Clark, J.P. Voorhees, R.S. Tjeerdema, J. Casteline, and M. Stewart|Evaluation of Phase II Toxicity Identification Evaluation Methods for Freshwater Whole Sediment and Interstitial Water|Chemosphere74(5): 648-653|2009|10.1016/j.chemosphere.2008.10.026
110194|T||Raghavaiah,C.V., and R. Subbarao|Herbicidal Control of Weeds in Monsoon Grown Burley Tobacco|Indian J. Agron.31(4): 331-334|1986|
110196|T||Howard,W.E., S.D. Palmateer, and M. Nachman|Aversion to Strychnine Sulfate by Norway Rats, Roof Rats, and Pocket Gophers|Toxicol. Appl. Pharmacol.12(2): 229-241|1968|10.1016/0041-008X(68)90035-5
110197|T||Eichenseer,H., C.A. Mullin, and S. Chyb|Antifeedant Discrimination Thresholds for Two Populations of Western Corn Rootworm|Physiol. Entomol.23(3): 220-226|1998|10.1046/j.1365-3032.1998.233078.x
110198|T||Chouaibou,M., J. Etang, T. Brevault, P. Nwane, C.K. Hinzoumbe, R. Mimpfoundi, and F. Simard|Dynamics of Insecticide Resistance in the Malaria Vector Anopheles gambiae S.L. from an Area of Extensive Cotton Cultivation in Northern Cameroon|Trop. Med. Int. Health13(4): 476-486|2008|10.1111/j.1365-3156.2008.02025.x
110199|T||Das,G.P., A. Lagnaoui, H.B. Salah, and M. Souibgui|The Control of the Potato Tuber Moth in Storage in Tunisia|Trop. Sci.38(2): 78-80|1998|
110200|T||Cremer,J.E., V.J. Cunningham, D.E. Ray, and G.S. Sarna|Regional Changes in Brain Glucose Utilization in Rats Given a Pyrethroid Insecticide|Brain Res.194:278-282|1980|10.1016/0006-8993(80)91344-X
110201|T||Krishnayya,P.V., and P.S. Grewal|Effect of Neem and Selected Fungicides on Viability and Virulence of the Entomopathogenic Nematode Steinernema feltiae|Biocontrol Sci. Technol.12(2): 259-266|2002|10.1080/09583150210388
110202|A||Li,H., H. Jiang, X. Gao, X. Wang, W. Qu, R. Lin, and J. Chen|Acute Toxicity of the Pesticide Methomyl on the Topmouth Gudgeon (Pseudorasbora parva): Mortality and Effects on Four Biomarkers|Fish Physiol. Biochem.34(3): 209-216|2008|10.1007/s10695-007-9178-x
110203|A||Pereira,J.L., and F. Goncalves|Effects of Food Availability on the Acute and Chronic Toxicity of the Insecticide Methomyl to Daphnia spp.|Sci. Total Environ.386(1-3): 9-20|2007|10.1016/j.scitotenv.2007.07.040
110205|A||Liu,H., M. Yi, X. Shi, P. Liang, and X. Gao|Substrate Specificity of Brain Acetylcholinesterase and Its Sensitivity to Carbamate Insecticides in Carassius auratus|Fish Physiol. Biochem.33(1): 29-34|2007|10.1007/s10695-006-9114-5
110206|A||Oliveira-Filho,E.C., C.K. Grisolia, and F.J.R. Paumgartten|Effects of Endosulfan and Ethanol on the Reproduction of the Snail Biomphalaria tenagophila: A Multigeneration Study|Chemosphere75:398-404|2009|10.1016/j.chemosphere.2008.11.085
110207|T||Singh,P.P., B. Singh, and R.S. Battu|Residues of Cypermethrin, Fenvalerate and Deltamethrin on Cauliflower|Phytoparasitica18(2): 153-158|1990|10.1007/BF02981232
110208|T||Evans,J., G.E. O'Connor, G. Griffith, and J. Howieson|Rhizobial Inoculant for Iprodione-Treated Lupin Seed: Evaluation of an Iprodione-Resistant Rhizobium lupini|Aust. J. Exp. Agric.29(5): 641-646|1989|10.1071/EA9890641
110209|T||Entwistle,A.R., P.A. Brocklehurst, and T.G. Jones|The Effect of Iprodione on Seed Germination and Seedling Emergence in Onion|Ann. Appl. Biol.97(2): 175-181|1981|10.1111/j.1744-7348.1981.tb03010.x
110210|T||Blades,D., and B.K. Mitchell|Effect of Alkaloids on Feeding by Phormia regina|Entomol. Exp. Appl.41(3): 299-304|1986|10.1111/j.1570-7458.1986.tb00541.x
110211|A||Zhang,J., and K.Y. Zhu|Characterization of a Chitin Synthase cDNA and Its Increased mRNA Level Associated with Decreased Chitin Synthesis in Anopheles quadrimaculatus Exposed to Diflubenzuron|Insect Biochem. Mol. Biol.36(9): 712-725|2006|10.1016/j.ibmb.2006.06.002
110212|A||Porretta,D., M. Gargani, R. Bellini, A. Medici, F. Punelli, and S. Urbanelli|Defence Mechanisms Against Insecticides Temephos and Diflubenzuron in the Mosquito Aedes caspius:  The P-Glycoprotein Efflux Pumps|Med. Vet. Entomol.22(1): 48-54|2008|10.1111/j.1365-2915.2008.00712.x
110213|A||Morin,L.G., R.A. Smucker, and W. Herth|Effects of Two Chitin Synthesis Inhibitors on Thalassiosira fluviatilis and Cyclotella cryptica|FEMS Microbiol. Lett.37(3): 263-268|1986|10.1111/j.1574-6968.1986.tb01806.x
110214|A||Gaaboub,I.A., I.A. Rawash, F.H. El-Gayar, and A.F. Traboulsi|The Delayed Effects and the Basal Follicle Numbers Developed by Females of Culex pipiens L. Emerged from Treatments of Larvae with Partially-Lethal Concentrations of Altosid and Dimilin|Toxicology19(3): 269-274|1981|10.1016/0300-483X(81)90137-2
110215|T||Scheepmaker,J.W.A., F.P. Geels, P.H. Smits, and L.J.L.D. Van Griensven|Influence of Steinernema feltiae and Diflubenzuron on Yield and Economics of the Cultivated Mushroom Agaricus bisporus in Dutch Mushroom Culture|Biocontrol Sci. Technol.8(2): 269-275|1998|10.1080/09583159830333
110216|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate in a Dry-Seeded, Delayed Flood Culture, 1996|Arthropod Manag. Tests22:302-303|1997|
110217|A||Kalafatic,M.|Regeneration and Asexual Reproduction of Hydra oligactis Treated with Different Pesticides|Biologia (Bratisl.)52(3): 475-480|1997|
110218|T||Fuhrman,J.A., and W.F. Piessens|Chitin Synthesis and Sheath Morphogenesis in Brugia malayi Microfilariae|Mol. Biochem. Parasitol.17(1): 93-104|1985|10.1016/0166-6851(85)90130-6
110219|T||Fetterer,R.H., J.F.,Jr. Urban, and R.W. Miller|Effects of the Chitin Synthesis Inhibitor Diflubenzuron on Development of Ascaris suum and Haemonchus contortus|Vet. Parasitol.32(2/3): 181-192|1989|10.1016/0304-4017(89)90119-2
110220|A||Draredja-Beldi,H., and N. Soltani|Effects of Diflubenzuron on Growth and Glutathione in Mosquito Fish (Gambusia affinis)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)66(2b): 857-862|2001|
110221|A||Muegge,M.A., J.D. Barbour, W.C. Rice, and P.A. Bollich|Evaluation of Dimilin for Rice Water Weevil Control, 1995|Arthropod Manag. Tests23:261-262|1998|10.1093/amt/23.1.261
110222|T||Young,M.F., L.D. Trombetta, and S. Carson|Effects of Diflubenzuron on the Mouse Liver|J. Appl. Toxicol.6(5): 343-348|1986|10.1002/jat.2550060508
110223|A||Baktharatchagan,R., C. Rita, and A. Jebanesan|Laboratory Evaluation of Two Insect Growth Regulators Against Some Vector Mosquitoes|J. Insect Sci.6(2): 276-278|1993|
110224|T||Paulus,R., J. Rombke, A. Ruf, and L. Beck|A Comparison of the Litterbag-, Minicontainer- and Bait-Lamina-Methods in an Ecotoxicological Field Experiment with Diflubenzuron and BTK|Pedobiologia (Multiple Languages)43(2): 120-133|1999|10.1016/S0031-4056(24)00497-9
110225|T||De Freitas Bueno,A., R.C.O. De Freitas Bueno, J.R.P. Parra, and S.S. Vieira|Effects of Pesticides Used in Soybean Crops to the Egg Parasitoid Trichogramma pretiosum|Ciencia Rural38(6): 1495-1503|2008|10.1590/S0103-84782008000600001
110226|T||Eichenseer,H., and C.A. Mullin|Maxillary Appendages Used by Western Corn Rootworms, Diabrotica virgifera virgifera, to Discriminate Between a Phagostimulant and -Deterrent|Entomol. Exp. Appl.78(3): 237-242|1996|10.1111/j.1570-7458.1996.tb00787.x
110227|A||Li,H., T. Cao, and L. Ni|Effects of Ammonium on Growth, Nitrogen and Carbohydrate Metabolism of Potamogeton maackianus A. Benn|Fundam. Appl. Limnol.170(2): 141-148|2007|10.1127/1863-9135/2007/0170-0141
110228|T||Fennell,B.J., J.A. Naughton, E. Dempsey, and A. Bell|Cellular and Molecular Actions of Dinitroaniline and Phosphorothioamidate Herbicides on Plasmodium falciparum:  Tubulin as a Specific Antimalarial Target|Mol. Biochem. Parasitol.145(2): 226-238|2006|10.1016/j.molbiopara.2005.08.020
110229|T||Armson,A., B.P. Meloni, J.A. Reynoldson, and R.C.A. Thompson|Assessment of Drugs Against Cryptosporidium parvum Using a Simple In Vitro Screening Method|FEMS Microbiol. Lett.178(2): 227-233|1999|10.1111/j.1574-6968.1999.tb08681.x
110230|T||Chan,M.M.Y., and D. Fong|Inhibition of Leishmanias but not Host Macrophages by the Antitubulin Herbicide Trifluralin|Science249(4971): 924-926|1990|10.1126/science.2392684
110231|A||Shrivastava,R.S., and P. Dwivedi|Studies on the Effects of Acidic Medium on the Fry of Cyprinus carpio|Acta Hydrochim. Hydrobiol. (Multiple Languages)7(4): 421-430|1979|10.1002/aheh.19790070406
110232|T||Khanna,R.N., M.Z. Hasan, and J.D. Kohli|Effect of Dermal Application of Fenitrothion on Tissue Levels of Copper, Zinc and Manganese in Rats|Chemosphere5:259-264|1975|10.1016/0045-6535(75)90051-X
110233|T||Asamoto,M., K. Imaida, R. Hasegawa, K. Hotta, and S. Fukushima|Change of Membrane Potential in Rat Urinary Bladder Epithelium Treated with Sodium L-Ascorbate|Cancer Lett.63(1): 1-5|1992|10.1016/0304-3835(92)90082-7
110234|T||Furihata,C., K. Sudo, and T. Matsushima|Calcium Chloride Inhibits Stimulation of Replicative DNA Synthesis by Sodium Chloride in the Pyloric Mucosa of Rat Stomach|Carcinogenesis10(11): 2135-2137|1989|10.1093/carcin/10.11.2135
110235|T||Smith,L.L., and M.S. Rose|A Comparison of the Effects of Paraquat and Diquat on the Water Content of Rat Lung and the Incorporation of Thymidine into Lung DNA|Toxicology8(2): 223-230|1977|10.1016/0300-483X(77)90011-7
110236|T||Yamamoto,H.A.|Protection Against Paraquat-Induced Toxicity with Sulfite or Thiosulfate in Mice|Toxicology79(1): 37-43|1993|10.1016/0300-483X(93)90204-6
110237|T||Lam,H.F., J. Takezawa, B.N. Gupta, and E.W. Van Stee|A Comparison of the Effects of Paraquat and Diquat on Lung Compliance, Lung Volumes and Single Breath Diffusing Capacity in the Rat|Toxicology18(2): 111-123|1980|10.1016/0300-483X(80)90074-8
110238|T||Rady,P., I. Arany, E. Uzvolgyi, F. Bojan, and P. Kertai|Transplacental Effects of Carcinogens and Non-Carcinogens on Activities of Pyruvate Kinase and Lactate Dehydrogenase as well as Isozymic Pattern of LDH in Mouse Lung|Toxicology24(3/4): 251-257|1982|10.1016/0300-483X(82)90007-5
110241|T||Noguchi,N., S. Misawa, S. Tsuchiya, H. Yamamoto, and H. Naito|Cardio-Respiratory Effects of Paraquat with and Without Emetics on Wistar Rats|Vet. Hum. Toxicol.27(6): 508-510|1985|
110242|T||Sarginson,N.J., N.L. Roberts, C.J. Fish, and M.K. Johnson|Neurotoxicity of a Spent Phosphoric Acid Catalyst|Arch. Toxicol.11:236-239|1987|
110243|T||Boyd,E.M., C.J. Krijnen, and T.K. Tanikella|The Influence of a Wide Range of Dietary Protein Concentration on the Acute Oral Toxicity of Malathion|Arch. Toxikol.26(2): 125-132|1970|10.1007/BF00577798
110244|A||Boccelli,R., E. Capri, and A.A.M. Del Re|Residues of Esfenvalerate in Irrigation Water, Stubble, Husked and Unhusked Rice Samples of a Paddy-Field|Toxicol. Environ. Chem.37(1-2): 185-189|1993|10.1080/02772249309357868
110245|T||Cho,K.J., K.S. Park, and C.S. Tang|Allelopathic Potential of Red-Pepper (Capsicum annuum L.) Fruit|Res. Rep. Rural Dev. Adm. (Suweon) - Livest.34(2): 18-23|1992|
110246|T||Schvartsman,S., S. Zyngier, and C. Schvartsman|Ascorbic Acid and Riboflavin in the Treatment of Acute Intoxication by Paraquat|Vet. Hum. Toxicol.26(6): 473-475|1984|
110248|T||Tripathi,S.K., S.C. Vyas, and M.N. Khare|Field Evaluation of Herbicides Against Charcoal Rot of Sesamum Caused by Macrophomina phaseolina|Pesticides 20(11): 47-48|1986|
110250|T||Sugimoto,K., and T. Sato|The Adaptation of the Frog Tongue to Various Taste Solutions:  The Effect on Gustatory Neural Responses to Bitter Stimuli|Comp. Biochem. Physiol. A Comp. Physiol.73(3): 361-372|1982|10.1016/0300-9629(82)90168-2
110251|T||Sadeghi,D., and N. Guiti|Pralidoxime Iodide (PAM) and Toxogonin as Antidotes in Acute Malathion Intoxication in the Dog|Isr. J. Med. Sci.6(1): 154-156|1970|
110252|T||Yusuf,S., A.J. Nok, D.A. Ameh, A.B. Adelaiye, and E.O. Balogun|Correlation of Gastric Mucosal Damage with Sialic Acid Profile in Rats:  Effect of Hydrochloric Acid, Pepsin and Hypertonic Saline|Cell Biochem. Funct.23(5): 339-345|2005|10.1002/cbf.1156
110253|A||Dewez,D., O. Didur, J. Vincent-Heroux, and R. Popovic|Validation of Photosynthetic-Fluorescence Parameters as Biomarkers for Isoproturon Toxic Effect on Alga Scenedesmus obliquus|Environ. Pollut.151(1): 93-100|2008|10.1016/j.envpol.2007.03.002
110254|T||Britton,A.J., and J.M. Fisher|Growth Responses of Low-Alpine Dwarf-Shrub Heath Species to Nitrogen Deposition and Management|Environ. Pollut.153(3): 564-573|2008|10.1016/j.envpol.2007.09.022
110256|T||Luttrell,W.E., E.J. Olajos, and P.A. Pleban|Change in Hen Sciatic Nerve Calcium After a Single Oral Dose of Tri-o-Tolyl Phosphate|Environ. Res.60(2): 290-294|1993|10.1006/enrs.1993.1038
110257|T||Johnson,M.S., J. Suski, and M.A. Bazar|Toxicological Responses of Red-Backed Salamanders (Plethodon cinereus) to Subchronic Soil Exposures of 2,4-Dinitrotoluene|Environ. Pollut.147(3): 604-608|2007|10.1016/j.envpol.2006.10.007
110258|T||Vredevoe,D., L. Levy, D. Knutson, G. Cook, and P. Cohen|Recovery of the Murine Mononuclear Phagocytic System Following Chronic Exposure to Cadmium|Environ. Res.37(2): 373-382|1985|10.1016/0013-9351(85)90118-5
110259|T||Meyers,D.E.R., G.J. Auchterlonie, R.I. Webb, and B. Wood|Uptake and Localisation of Lead in the Root System of Brassica juncea|Environ. Pollut.153(2): 323-332|2008|10.1016/j.envpol.2007.08.029
110260|T||Takahashi,M., S.E.H. Adam, D. Konaka, and H. Morikawa|Nitrogen Dioxide at an Ambient Level Improves the Capability of Kenaf (Hibiscus cannabinus) to Decontaminate Cadmium|Int. J. Phytoremediat.10(1): 73-76|2008|10.1080/15226510701827085
110262|T||Makris,K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor|Chemically Catalyzed Uptake of 2,4,6-Trinitrotoluene by Vetiveria zizanioides|Environ. Pollut.148(1): 101-106|2007|10.1016/j.envpol.2006.10.047
110263|AT||Hughes,S., and S.R. Sturzenbaum|Single and Double Metallothionein Knockout in the Nematode C. elegans Reveals Cadmium Dependent and Independent Toxic Effects on Life History Traits|Environ. Pollut.145(2): 395-400|2007|10.1016/j.envpol.2006.06.003
110264|T||Kim,C.G., S.A. Power, and J.N.B. Bell|Effects of Host Plant Exposure to Cadmium on Mycorrhizal Infection and Soluble Carbohydrate Levels of Pinus sylvestris Seedlings|Environ. Pollut.131(2): 287-294|2004|10.1016/j.envpol.2004.02.015
110265|T||Khandelwal,S., and S.K. Tandon|Effect of Manganese on Certain Enzymes and Constituents of Blood and Serum in Rabbits.  II|Environ. Res.24(1): 82-88|1981|10.1016/0013-9351(81)90134-1
110266|T||Khan,M.Y., and S.H. Gilani|Selenium Poisoning and Embryogenesis: Light and Electron Microscopic Studies of the Heart|Environ. Res.23:98-109|1980|10.1016/0013-9351(80)90097-3
110267|A||Kennedy,C.J., and A.P. Farrell|Immunological Alterations in Juvenile Pacific Herring, Clupea pallasi, Exposed to Aqueous Hydrocarbons Derived from Crude Oil|Environ. Pollut.153(3): 638-648|2008|10.1016/j.envpol.2007.09.003
110268|T||Ju,X.T., Q. Gao, P. Christie, and F.S. Zhang|Interception of Residual Nitrate from a Calcareous Alluvial Soil Profile on the North China Plain by Deep-Rooted Crops:  A 15N Tracer Study|Environ. Pollut.146(2): 534-542|2007|10.1016/j.envpol.2006.07.014
110269|T||Jean,L., F. Bordas, C. Gautier-Moussard, P. Vernay, A. Hitmi, and J.C. Bollinger|Effect of Citric Acid and EDTA on Chromium and Nickel Uptake and Translocation by Datura innoxia|Environ. Pollut.153(3): 555-563|2008|10.1016/j.envpol.2007.09.013
110270|T||Lapanje,A., D. Drobne, N. Nolde, J. Valant, B. Muscet, V. Leser, and M. Rupnik|Long-Term Hg Pollution Induced Hg Tolerance in the Terrestrial Isopod Porcellio scaber (Isopoda, Crustacea)|Environ. Pollut.153(3): 537-547|2008|10.1016/j.envpol.2007.09.016
110271|T||Langdon,C.J., M.E. Hodson, R.E. Arnold, and S. Black|Survival, Pb-Uptake and Behaviour of Three Species of Earthworm in Pb Treated Soils Determined Using an OECD-Style Toxicity Test and a Soil Avoidance Test|Environ. Pollut.138(2): 368-375|2005|10.1016/j.envpol.2005.03.002
110272|T||Kopittke,P.M., C.J. Asher, R.A. Kopittke, and N.W. Menzies|Toxic Effects of Pb2+ on Growth of Cowpea (Vigna unguiculata)|Environ. Pollut.150(2): 280-287|2007|10.1016/j.envpol.2007.01.011
110273|T||Kolar,L., N.K. Erzen, L. Hogerwerf, and C.A.M. Van Gestel|Toxicity of Abamectin and Doramectin to Soil Invertebrates|Environ. Pollut.151(1): 182-189|2008|10.1016/j.envpol.2007.02.011
110274|T||Kivela-Ikonen,P., O. Hanninen, P. Kalliokoski, and U. Koivusaari|Influence of Fly Ash and Charcoal on the Inducer Activity of Benzo(a)pyrene and Smoke Condensate in the Gut Mucosa of the Rat|Environ. Res.32(1): 1-7|1983|10.1016/0013-9351(83)90185-8
110275|A||Norwood,W.P., U. Borgmann, and D.G. Dixon|Chronic Toxicity of Arsenic, Cobalt, Chromium and Manganese to Hyalella azteca in Relation to Exposure and Bioaccumulation|Environ. Pollut.147(1): 262-272|2007|10.1016/j.envpol.2006.07.017
110276|T||Leung,H.M., Z.H. Ye, and M.H. Wong|Interactions of Mycorrhizal Fungi with Pteris vittata (As Hyperaccumulator) in As-Contaminated Soils|Environ. Pollut.139(1): 1-8|2006|10.1016/j.envpol.2005.05.009
110278|T||Muthukumaran,S., A.R. Sudheer, V.P. Menon, and N. Nalini|Protective Effect of Quercetin on Nicotine-Induced Prooxidant and Antioxidant Imbalance and DNA Damage in Wistar Rats|Toxicology243(1-2): 207-215|2008|10.1016/j.tox.2007.10.006
110279|T||Ogawa,T., M. Kuwagata, Y. Hori, and S. Shioda|Valproate-Induced Developmental Neurotoxicity is Affected by Maternal Conditions Including Shipping Stress and Environmental Change During Early Pregnancy|Toxicol. Lett.174(1-3): 18-24|2007|10.1016/j.toxlet.2007.08.006
110280|T||Pari,L., and P. Murugavel|Diallyl Tetrasulfide Improves Cadmium Induced Alterations of Acetylcholinesterase, ATPases and Oxidative Stress in Brain of Rats|Toxicology234(1-2): 44-50|2007|10.1016/j.tox.2007.01.021
110281|T||McLeod,K.W., and T.G. Ciravolo|Cobalt Uptake by Nyssa aquatica, N. sylvatica var. biflora, and Taxodium distichum Seedlings|Wetlands27(1): 40-43|2007|10.1672/0277-5212(2007)27[40:CUBNAN]2.0.CO;2
110282|AT||Al-Bari,M.A.A., M.F. Hossen, A. Khan, M. Kudrat-E-Zahan, M.A. Mossadik, C.M. Zakaria, and M.A.U. Islam|Synthesis, Characterization, Antimicrobial Activities and Cytotoxic Properties of Ferrocenedicarboxylate Ligand and Their Metal Complexes|J. Appl. Sci. Res.3(11): 1279-1287|2007|
110283|AT||Kuk,Y.I., H.J. Lee, J.S. Chung, K.M. Kim, S.B. Lee, S.B. Ha, K. Back, and J.O. Guh|Expression of a Bacillus subtilis Protoporphyrinogen Oxidase Gene in Rice Plants Reduces Sensitivity to Peroxidizing Herbicides|Biol. Plant. (Praha)49(4): 577-583|2005|10.1007/s10535-005-0052-3
110284|T||Paradiso,A., R. Berardino, M.C. De Pinto, L.S. Di Toppi, M.M. Storelli, F. Tommasi, and L. De Gara|Increase in Ascorbate-Glutathione Metabolism as Local and Precocious Systemic Responses Induced by Cadmium in Durum Wheat Plants|Plant Cell Physiol.49(3): 362-374|2008|10.1093/pcp/pcn013
110285|T||Tasdemir,F.G., M. Yamac, A. Cabuk, and Z. Yildiz|Selection of Newly Isolated Mushroom Strains for Tolerance and Biosorption of Zinc In Vitro|J. Microbiol. Biotechnol.18(3): 483-489|2008|
110286|T||Scott,B.J., M.A. Ewing, R. Williams, A.W. Humphries, and N.E. Coombes|Tolerance of Aluminium Toxicity in Annual Medicago Species and Lucerne|Aust. J. Exp. Agric.48(4): 499-511|2008|10.1071/EA07137
110287|A||Supalkova,V., M. Beklova, J. Baloun, C. Singer, B. Sures, V. Adam, D. Huska, J. Pikula, L. Rauscherova, L. Havel, J. Ze|Affecting of Aquatic Vascular Plant Lemna minor by Cisplatin Revealed by Voltammetry|Bioelectrochemistry72(1): 59-65|2008|10.1016/j.bioelechem.2007.11.012
110289|A||Lannig,G., A.S. Cherkasov, H.O. Poertner, C. Bock, and I.M. Sokolova|Cadmium-Dependent Oxygen Limitation Affects Temperature Tolerance in Eastern Oysters (Crassostrea virginica Gmelin)|Am. J. Physiol., Regul. Integr. Comp. Physiol.294(4): R1338 - R1346|2008|10.1152/ajpregu.00793.2007
110290|T||Fodor,M., A. Hegedus, and E. Stefanovits-Banyai|Zirconium Induced Physiological Alterations in Wheat Seedlings|Biol. Plant. (Praha)49(4): 633-636|2005|10.1007/s10535-005-0065-y
110293|T||Li,P., X.X. Wang, T.L. Zhang, D.M. Zhou, and Y.Q. He|Distribution and Accumulation of Copper and Cadmium in Soil-Rice System as Affected by Soil Amendments|Water Air Soil Pollut.196:29-40|2009|10.1007/s11270-008-9755-3
110296|T||Boadas-Vaello,P., E. Jover, N. Diez-Padrisa, J.M. Bayona, and J. Llorens|Differential Role of CYP2E1-Mediated Metabolism in the Lethal and Vestibulotoxic Effects of cis-Crotononitrile in the Mouse|Toxicol. Appl. Pharmacol.225(3): 310-317|2007|10.1016/j.taap.2007.07.014
110298|T||Baken,K.A., J.L.A. Pennings, M.J. Jonker, M.M. Schaap, A. De Vries, H. Van Steeg, T.M. Breit, and H. Van Loveren|Overlapping Gene Expression Profiles of Model Compounds Provide Opportunities for Immunotoxicity Screening|Toxicol. Appl. Pharmacol.226(1): 46-59|2008|10.1016/j.taap.2007.08.026
110299|T||Aleksunes,L.M., A.L. Slitt, J.M. Maher, L.M. Augustine, M.J. Goedken, J.Y. Chan, N.J. Cherrington, C.D. Klaassen, and J|Induction of Mrp3 and Mrp4 Transporters During Acetaminophen Hepatotoxicity is Dependent on Nrf2|Toxicol. Appl. Pharmacol.226(1): 74-83|2008|10.1016/j.taap.2007.08.022
110300|A||Blechinger,S.R., R.C. Kusch, K. Haugo, C. Matz, D.P. Chivers, and P.H. Krone|Brief Embryonic Cadmium Exposure Induces a Stress Response and Cell Death in the Developing Olfactory System Followed by Long-Term Olfactory Deficits in Juvenile Zebrafish|Toxicol. Appl. Pharmacol.224(1): 72-80|2007|10.1016/j.taap.2007.06.025
110301|AT||Prabhu,A.S., and M.C. Rush|Differential Sensitivity of Callus Derived from Immature Panicles of Rice Cultivars to the Non-Specific Toxin of Pyricularia grisea|Plant Cell Tissue Organ Cult.50(1): 13-18|1997|10.1023/A:1005854128836
110302|T||Tang,W., T.M. Charles, and R.J. Newton|Overexpression of the Pepper Transcription Factor CaPF1 in Transgenic Virginia Pine (Pinus virginiana Mill.) Confers Multiple Stress Tolerance and Enhances Organ Growth|Plant Mol. Biol.59(4): 603-617|2005|10.1007/s11103-005-0451-z
110303|T||Tamas,L., B. Bocova, J. Huttova, I. Mistrik, and M. Olle|Cadmium-Induced Inhibition of Apoplastic Ascorbate Oxidase in Barley Roots|Plant Growth Regul.48(1): 41-49|2006|10.1007/s10725-005-4747-4
110304|T||Takacs,Z., Z. Tuba, and N. Smirnoff|Exaggeration of Desiccation Stress by Heavy Metal Pollution in Tortula ruralis:  A Pilot Study|Plant Growth Regul.35(2): 157-160|2001|10.1023/A:1014481704892
110305|T||Xi,K., J.H.G. Stephens, and P.R. Verma|Application of Formulated Rhizobacteria Against Root Rot of Field Pea|Plant Pathol.45(6): 1150-1158|1996|10.1046/j.1365-3059.1996.d01-188.x
110306|T||Wojcik,M., and A. Tukiendorf|Phytochelatin Synthesis and Cadmium Localization in Wild Type of Arabidopsis thaliana|Plant Growth Regul.44(1): 71-80|2004|10.1007/s10725-004-1592-9
110307|T||Wheeler,C.T., L.T. Hughes, J. Oldroyd, and I.D. Pulford|Effects of Nickel on Frankia and Its Symbiosis with Alnus glutinosa (L.) Gaertn|Plant Soil231(1): 81-90|2001|10.1023/A:1010304614992
110309|T||Salt,C.A., J.W. Kay, and K.E. Jarvis|The Influence of Season and Leaf Age on Concentrations of Radiocaesium (137Cs), Stable Caesium (133Cs) and Potassium in Agrostis capillaris|Environ. Pollut.130(3): 359-369|2004|10.1016/j.envpol.2004.01.001
110310|T||Scheckel,K.G., E. Lombi, S.A. Rock, and M.J. McLaughlin|In Vivo Synchrotron Study of Thallium Speciation and Compartmentation in Iberis intermedia|Environ. Sci. Technol.38(18): 5095-5100|2004|10.1021/es049569g
110311|T||Yifru,D.D., and V.A. Nzengung|Uptake of N-Nitrosodimethylamine (NDMA) from Water by Phreatophytes in the Absence and Presence of Perchlorate as a Co-Contaminant|Environ. Sci. Technol.40(23): 7374-7380|2006|10.1021/es060449d
110312|T||Singh,U.P., B. Prithiviraj, K.G. Wagner, and K. Plank-Schumacher|Effect of Ajoene, a Constituent of Garlic (Allium sativum), on Powdery Mildew (Erysiphe pisi) of Pea (Pisum sativum)|J. Plant Dis. Prot.102(2): 399-406|1995|
110313|A||Yun,Y.S., and B. Volesky|Modeling of Lithium Interference in Cadmium Biosorption|Environ. Sci. Technol.37(16): 3601-3608|2003|10.1021/es011454e
110314|T||Hollenbach,B., L. Schreiber, W. Hartung, and K.J. Dietz|Cadmium Leads to Stimulated Expression of the Lipid Transfer Protein Genes in Barley: Implications for the Involvement of Lipid Transfer Proteins in Wax Assembly|Planta (Multiple Languages)203(1): 9-19|1997|10.1007/s00050159
110315|T||Farag,M.A., M. Fokar, H. Abd, H. Zhang, R.D. Allen, and P.W. Pare|(Z)-3-Hexenol Induces Defense Genes and Downstream Metabolites in Maize|Planta (Multiple Languages)220(6): 900-909|2005|10.1007/s00425-004-1404-5
110316|A||Martin,C.A., S.N. Luoma, D.J. Cain, and D.B. Buchwalter|Cadmium Ecophysiology in Seven Stonefly (Plecoptera) Species:  Delineating Sources and Estimating Susceptibility|Environ. Sci. Technol.41(20): 7171-7177|2007|10.1021/es071205b
110317|A||Mohapatro,P.C., S. Panigrahi, and R.N. Padhy|Herbicides Impair Formation and Germination of Akinetes of Cyanobacterium (Blue-Green Alga) Cylindrospermum sp.|Arch. Hydrobiol.:131-138|1999|
110318|A||Kola,H., and K.J. Wilkinson|Cadmium Uptake by a Green Alga can be Predicted by Equilibrium Modelling|Environ. Sci. Technol.39(9): 3040-3047|2005|10.1021/es048655d
110319|T||Zhu,Y.G., S.B. Chen, and J.C. Yang|Effects of Soil Amendments on Lead Uptake by Two Vegetable Crops from a Lead-Contaminated Soil from Anhui, China|Environ. Int.30(3): 351-356|2004|10.1016/j.envint.2003.07.001
110320|A||Datta,S., P.S. Shah, and R.C. Das|Soil Sediment and Hardness of Water Reduce the Acute Toxicity of Deltamethrin to Scale Carp|Pestic. Res. J.14(2): 327-336|2002|
110321|AT||Lopez,M.L., J.R. Peralta-Videa, J.G. Parsons, T. Benitez, and J.L. Gardea-Torresdey|Gibberellic Acid, Kinetin, and the Mixture Indole-3-Acetic Acid-Kinetin Assisted with EDTA-Induced Lead Hyperaccumnulation in Alfalfa Plants|Environ. Sci. Technol.41(23): 8165-8170|2007|10.1021/es0714080
110322|A||Pierron,F., M. Baudrimont, P. Gonzalez, J.P. Bourdineaud, P. Elie, and J.C. Massabuau|Common Pattern of Gene Expression in Response to Hypoxia or Cadmium in the Gills of the European Glass Eel (Anguilla anguilla)|Environ. Sci. Technol.41(8): 3005-3011|2007|10.1021/es062415b
110323|A||Phillips,M.M., M.J. Dinglasan-Panlilio, S.A. Mabury, K.R. Solomon, and P.K. Sibley|Fluorotelomer Acids are more Toxic than Perfluorinated Acids|Environ. Sci. Technol.41(20): 7159-7163|2007|10.1021/es070734c
110324|A||Park,J.W., C.M. Bradford, J. Rinchard, F. Liu, M. Wages, A. Waters, R.J. Kendall, T.A. Anderson, and C.W. Theodorakis|Uptake, Elimination, and Relative Distribution of Perchlorate in Various Tissues of Channel Catfish|Environ. Sci. Technol.41(21): 7581-7586|2007|10.1021/es071365n
110325|T||Satpute,U.S., M.R. Patil, D.N. Sarnaik, and P.D. Bhalerao|Effect of Foliar Applications of Synthetic Pyrethroids on Germination of Cotton Seed|PKV Res. J.12(1): 81-82|1988|
110326|A||Matz,C.J., and P.H. Krone|Cell Death, Stress-Responsive Transgene Activation, and Deficits in the Olfactory System of Larval Zebrafish Following Cadmium Exposure|Environ. Sci. Technol.41(14): 5143-5148|2007|10.1021/es070452c
110327|A||Cachot,J., M. Law, D. Pottier, L. Peluhet, M. Norris, H. Budzinski, and R. Winn|Characterization of Toxic Effects of Sediment-Associated Organic Pollutants Using the lambda Transgenic Medaka|Environ. Sci. Technol.41(22): 7830-7836|2007|10.1021/es071082v
110329|A||Backhaus,T., A. Arrhenius, and H. Blanck|Toxicity of a Mixture of Dissimilarly Acting Substances to Natural Algal Communities:  Predictive Power and Limitations of Independent Action and Concentration Addition|Environ. Sci. Technol.38(23): 6363-6370|2004|10.1021/es0497678
110330|T||Antosiewicz,D.M., and J. Hennig|Overexpression of LCT1 in Tobacco Enhances the Protective Action of Calcium Against Cadmium Toxicity|Environ. Pollut.129(2): 237-245|2004|10.1016/j.envpol.2003.10.025
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110332|A||Alsop,D.H., S.B. Brown, and G.J. Van der Kraak|Dietary Retinoic Acid Induces Hindlimb and Eye Deformities in Xenopus laevis|Environ. Sci. Technol.38(23): 6290-6299|2004|10.1021/es049765n
110333|A||Jackel,U., S. Russo, and S. Schnell|Enhanced Iron Reduction by Iron Supplement:  A Strategy to Reduce Methane Emission from Paddies|Soil Biol. Biochem.37(11): 2150-2154|2005|10.1016/j.soilbio.2005.03.003
110334|A||Hasler,A.D., and W.J. Wisby|Use of Fish for the Olfactory Assay of Pollutants (Phenols) in Water|Trans. Am. Fish. Soc.79:64-70|1950|10.1577/1548-8659(1949)79[64:UOFFTO]2.0.CO;2
110335|AT||Diehl,D.B., and Z.E. Gagnon|Interactions Between Essential Nutrients with Platinum Group Metals in Submerged Aquatic and Emergent Plants|Water Air Soil Pollut.184(1-4): 255-267|2007|10.1007/s11270-007-9414-0
110336|T||Yu,X., J. Cheng, and M.H. Wong|Earthworm-Mycorrhiza Interaction on Cd Uptake and Growth of Ryegrass|Soil Biol. Biochem.37(2): 195-201|2005|10.1016/j.soilbio.2004.07.029
110337|T||Derr,J.F.|Common Reed (Phragmites australis) Response to Postemergence Herbicides|Invasive Plant Sci. Manag.1:153-157|2008|10.1614/IPSM-07-016.1
110338|T||Heyliger,C.E., A.G. Tahiliani, and J.H. McNeill|Effect of Vanadate on Elevated Blood Glucose and Depressed Cardiac Performance of Diabetic Rats|Science227:1474-1477|1985|10.1126/science.3156405
110339|T||Lock,K., K.A.C. De Schamphelaere, S. Becaus, P. Criel, H. Van Eeckhout, and C.R. Janssen|Development and Validation of an Acute Biotic Ligand Model (BLM) Predicting Cobalt Toxicity in Soil to the Potworm Enchytraeus albidus|Soil Biol. Biochem.38(7): 1924-1932|2006|10.1016/j.soilbio.2005.12.014
110340|T||Tarka,S.M.,Jr., B.L. Zoumas, and J.H. Gans|Short-Term Effects of Graded Levels of Theobromine in Laboratory Rodents|Toxicol. Appl. Pharmacol.49:127-149|1979|10.1016/0041-008X(79)90285-0
110341|T||Krishnasamy,V., S. Parameswaran, A.S. Ponnuswamy, and V. Ramakrishnan|Studies on Seed Quality in Cotton cv. MCU 9 as Influenced by the Spraying of Synthetic Pyrethroids|Pesticides 19(12): 47-49|1985|
110343|T||Hong,J.S., H.A. Tilson, L.L. Uphouse, J. Gerhart, and W.E. Wilson|Effects of Chlordecone Exposure on Brain Neurotransmitters:  Possible Involvement of the Serotonin System in Chlordecone-Elicited Tremor|Toxicol. Appl. Pharmacol.73(2): 336-344|1984|10.1016/0041-008X(84)90339-9
110344|T||Nielsen,P.V., and R. Rios|Inhibition of Fungal Growth on Bread by Volatile Components from Spices and Herbs, and the Possible Application in Active Packaging, with Special Emphasis on Mustard Essential Oil|Int. J. Food Microbiol.60(2-3): 219-229|2000|10.1016/S0168-1605(00)00343-3
110345|T||Chen,P.H., H.A. Tilson, G.D. Marbury, F. Karoum, and J.S. Hong|Effect of Chlordecone (Kepone) on the Rat Brain Concentration of 3-Methoxy-4-Hydroxyphenylglycol:  Evidence for a Possible Involvement of the Norepinephrine System in Chlordecone-Induced Tremor|Toxicol. Appl. Pharmacol.77(1): 158-164|1985|10.1016/0041-008X(85)90276-5
110346|T||Bravo,J.M., S. Campo, I. Murillo, M. Coca, and B. San Segundo|Fungus- and Wound-Induced Accumulation of mRNA Containing a Class II Chitinase of the Pathogenesis-Related Protein 4 (PR-4) Family of Maize|Plant Mol. Biol.52(4): 745-759|2003|10.1023/A:1025016416951
110347|T||Bolan,N.S., D.C. Adriano, P.A. Mani, and A. Duraisamy|Immobilization and Phytoavailability of Cadmium in Variable Charge Soils. II. Effect of Lime Addition|Plant Soil251(2): 187-198|2003|10.1023/A:1023037706905
110348|T||Riechers,D.E., G.P. Irzyk, S.S. Jones, and E.P. Fuerst|Partial Characterization of Glutathione S-Transferases from Wheat (Triticum spp.) and Purification of a Safener-Induced Glutathione S-Transferase from Triticum tauschii|Plant Physiol.114(4): 1461-1470|1997|10.1104/pp.114.4.1461
110349|T||Schmidt,W., and A. Schikora|Different Pathways are Involved in Phosphate and Iron Stress-Induced Alterations of Root Epidermal Cell Development|Plant Physiol.125(4): 2078-2084|2001|10.1104/pp.125.4.2078
110350|T||Rayner,J.M.|Experiments on the Control of Slugs in Potatoes by Means of Molluscicidal Baits|Plant Pathol.24:167-171|1975|10.1111/j.1365-3059.1975.tb01886.x
110351|T||Witschi,H., and W. Haschek|Some Problems in Correlating Molecular Mechanisms and Cell Damage|ACS Symp. Ser.18(2): 70-71|1978|
110352|A||Khan,M.A., S. Mohiuddin, and S.A. Qureshi|New Synthetic Ureides:  Effective Mosquito Larvicides|Pak. J. Sci. Ind. Res.28(3): 182-188|1985|
110353|T||Lassiter,T.L., and S. Brimijoin|A Method to Determine Precise Benchmark Doses for Carbamate Anticholinesterases|Toxicol. Sci.96(1): 154-161|2007|10.1093/toxsci/kfl183
110354|T||Winfield,R.J., P.R. Mathews, J.J.B. Caldicott, and H. Smith|The Effect of Difenzoquat on Mildew on Wheat and Barley|Br. Crop Prot. Conf. Pests Dis.(1): 57-66|1977|
110355|T||Pitt,D.G., M.T. Dumas, R.E. Wall, D.G. Thompson, L. Lanteigne, W. Hintz, G. Sampson, and R.G. Wagner|Chondrostereum purpureum as a Biological Control Agent in Forest Vegetation Management.  I.  Efficacy on Speckled Alder, Red Maple, and Aspen in Eastern Canada|Can. J. For. Res.29(7): 841-851|1999|10.1139/x99-122
110356|T||Yi,W., S.E. Law, and H.Y. Wetzstein|Pollen Tube Growth in Styles of Apple and Almond Flowers After Spraying with Pesticides|J. Hortic. Sci. Biotechnol.78(6): 842-846|2003|10.1080/14620316.2003.11511707
110357|T||Ross,D.H., C. Heird, J.W. Byrd, V. Beauchemin, and W. Kiess|Safety of Elevated Dosages of a 0.24% Diflubenzuron Pellet Administered Orally to Horses|Vet. Ther.8(1): 61-76|2007|
110358|T||Thorpe,K.W., R.L. Ridgway, and R.E. Webb|Effectiveness of Diflubenzuron and Bacillus thuringiensis Against Gypsy Moth Populations|North. J. Appl. For.14(3): 135-140|1997|10.1093/njaf/14.3.135
110359|T||Zaki,F.N., and M.A. Gesraha|Evaluation of Zertel and Diflubenzuron on Biological Aspects of the Egg Parasitoid, Trichogramma evanescens Westw. and the Aphid Lion Chrysoperla carnea Steph.|J. Appl. Entomol.104(1): 63-69|1987|10.1111/j.1439-0418.1987.tb00497.x
110360|T||Locke,T., P. Bobbin, J. Atwood, and J. Owen|Effect of Strobilurin Fungicides on Disease Control and Yield in Blackcurrants|Acta Hortic.585:375-380|2002|10.17660/ActaHortic.2002.585.63
110361|T||Narayana,M.L., and T.R. Babu|Evaluation of Five Insect Growth Regulators on the Egg Parasitoid Trichogramma chilonis (Ishii) (Hym., Trichogrammatidae) and the Hatchability of Corcyra cephalonica Staint (Lep., Galleriidae)|J. Appl. Entomol.113(1): 56-60|1992|10.1111/j.1439-0418.1992.tb00635.x
110362|T||Hatzios,K.K., and D. Penner|The Effect of Diflubenzuron (1-(4-Chlorophenyl)-3-(2,6-Difluorobenzoyl)Urea) on Soybean (Glycine max (L.) Merr.) Photosynthesis, Respiration, and Leaf Ultrastructure|Pestic. Biochem. Physiol.9(1): 65-69|1978|10.1016/0048-3575(78)90066-4
110363|T||Dhanasekaran,S., R. Sundararajan, and C. Peter|Degradation and Persistent Toxicity of Diflubenzuron Against Three Stored Insect Pests on Wheat|Indian J. Plant Prot.20(1): 89-91|1992|
110364|T||Bentley,J.P., G.H. Weber, and D. Gould|The Effect of Diflubenzuron Feeding on Glycosaminoglycan and Sulfhemoglobin Biosynthesis in Mice|Pestic. Biochem. Physiol.10(2): 162-167|1979|10.1016/0048-3575(79)90017-8
110365|T||Clift,A.D., and M.A. Terras|Evaluation of Two Insect Growth Regulators for Insect Pest Control in the Australian Mushroom Industry|Plant Prot. Q.7(2): 59-61|1992|
110366|AT||Street,J.E., J.L. Baldwin, and T.C. Mueller|Influence of Growth Stage on Rice (Oryza sativa) Tolerance to Triclopyr|Weed Technol.6(4): 930-933|1992|10.1017/S0890037X00036496
110367|T||Wang,P., O. Zoubenko, and N.E. Tumer|Reduced Toxicity and Broad Spectrum Resistance to Viral and Fungal Infection in Transgenic Plants Expressing Pokeweed Antiviral Protein II|Plant Mol. Biol.38(6): 957-964|1998|10.1023/A:1006084925016
110368|T||Goeger,D.E., K.E. Anderson, and A.W. Hsie|Coumarin Chemoprotection Against Aflatoxin B1-Induced Gene Mutation in a Mammalian Cell System:  A Species Difference in Mutagen Activation and Protection with Chick Embryo and Rat Liver S9|Environ. Mol. Mutagen.32(1): 64-74|1998|10.1002/(SICI)1098-2280(1998)32:1<64::AID-EM8>3.0.CO;2-B
110369|T||Giordani,C., S. Cecchi, and C. Zanchi|Phytoremediation of Soil Polluted by Nickel Using Agricultural Crops|Environ. Manag.36(5): 675-681|2005|10.1007/s00267-004-0171-1
110370|T||Gong,P., X. Guan, L.S. Inouye, M. Pirooznia, K.J. Indest, R.S. Athow, Y. Deng, and E.J. Perkins|Toxicogenomic Analysis Provides New Insights into Molecular Mechanisms of the Sublethal Toxicity of 2,4,6-Trinitrotoluene in Eisenia fetida|Environ. Sci. Technol.41(23): 8195-8202|2007|10.1021/es0716352
110371|T||Megharaj,M., K. Vankateswarlu, and A.S. Rao|Growth Response of Four Species of Soil Algae to Monocrotophos and Quinalphos|Environ. Pollut. A.42:15-22|1986|10.1016/0143-1471(86)90041-3
110372|T||Moreno,J.L., A. Sanchez-Marin, T. Hernandez, and C. Garcia|Effect of Cadmium on Microbial Activity and a Ryegrass Crop in Two Semiarid Soils|Environ. Manag.37(5): 626-633|2006|10.1007/s00267-004-5006-6
110373|A||Muirhead,E.K., A.D. Skillman, S.E. Hook, and I.R. Schultz|Oral Exposure of PBDE-47 in Fish:  Toxicokinetics and Reproductive Effects in Japanese Medaka (Oryzias latipes) and Fathead Minnows (Pimephales promelas)|Environ. Sci. Technol.40(2): 523-528|2006|10.1021/es0513178
110374|A||Xu,Y., F. Spurlock, Z. Wang, and J. Gan|Comparison of Five Methods for Measuring Sediment Toxicity of Hydrophobic Contaminants|Environ. Sci. Technol.41(24): 8394-8399|2007|10.1021/es071911c
110375|A||Tomasso,J.R.,Jr., and M. Grosell|Physiological Basis for Large Differences in Resistance to Nitrite Among Freshwater and Freshwater-Acclimated Euryhaline Fishes|Environ. Sci. Technol.39(1): 98-102|2005|10.1021/es048900t
110376|A||Tomy,G.T., V.P. Palace, T. Halldorson, E. Braekevelt, R. Danell, K. Wautier, B. Evans, L. Brinkworth, and A.T. Fisk|Bioaccumulation, Biotransformation, and Biochemical Effects of Brominated Diphenyl Ethers in Juvenile Lake Trout (Salvelinus namaycush)|Environ. Sci. Technol.38(5): 1496-1504|2004|10.1021/es035070v
110377|A||Tomy,G.T., V.P. Palace, K. Pleskach, N. Ismail, T. Oswald, R. Danell, K. Wautier, and B. Evans|Dietary Exposure of Juvenile Rainbow Trout (Oncorhynchus mykiss) to 1,2-bis(2,4,6-Tribromo-Phenoxy)Ethane:  Bioaccumulation Parameters, Biochemical Effects, and Metabolism|Environ. Sci. Technol.41(14): 4913-4918|2007|10.1021/es070288t
110378|A||Topperwien,S., H. Xue, R. Behra, and L. Sigg|Cadmium Accumulation in Scenedesmus vacuolatus Under Freshwater Conditions|Environ. Sci. Technol.41(15): 5383-5388|2007|10.1021/es070657l
110379|A||Ventura-Lima,J., J.Z. Sandrini, M.F. Cravo, F.R. Piedras, T.B. Moraes, D. Fattorini, A. Notti, F. Regoli, L.A. Geracita|Toxicological Responses in Laeonereis acuta (Annelida, Polychaeta) After Arsenic Exposure|Environ. Int.33(4): 559-564|2007|10.1016/j.envint.2006.09.016
110380|T||White,J.C., R. Peters, and J.W. Kelsey|Surfactants Differentially Impact p,p'-DDE Accumulation by Plant and Earthworm Species|Environ. Sci. Technol.41(8): 2922-2929|2007|10.1021/es061893j
110381|A||El Ghazi,I., S. Menge, J. Miersch, A. Chafik, A. Benhra, M.K. Elamrani, and G.J. Krauss|Quantification of Metallothionein-like Proteins in the Mussel Mytilus galloprovincialis Using RP-HPLC Fluorescence Detection|Environ. Sci. Technol.37(24): 5739-5744|2003|10.1021/es035093+
110382|A||Pelah,D., and E. Cohen|Cellular Response of Chlorella zofingiensis to Exogenous Selenium|Plant Growth Regul.45(3): 225-232|2005|10.1007/s10725-005-3230-6
110383|T||Jonker,M.T., S.A. Van der Heijden, J.P. Kreitinger, and S.B. Hawthorne|Predicting PAH Bioaccumulation and Toxicity in Earthworms Exposed to Manufactured Gas Plant Soils with Solid-Phase Microextraction|Environ. Sci. Technol.41(21): 7472-7478|2007|10.1021/es070404s
110384|A||Jonker,M.T.O., and S.A. Van der Heijden|Bioconcentration Factor Hydrophobicity Cutoff:  An Artificial Phenomenon Reconstructed|Environ. Sci. Technol.41(21): 7363-7369|2007|10.1021/es0709977
110386|T||Kobayashi,R., T.M. Cahill, R.A. Okamoto, R.L. Maddalena, and N.Y. Kado|Controlled Exposure Chamber Study of Uptake and Clearance of Airborne Polycyclic Aromatic Hydrocarbons by Wheat Grain|Environ. Sci. Technol.41(22): 7934-7940|2007|10.1021/es071459x
110387|AT||Jackson,B.P., P.L. Williams, A. Lanzirotti, and P.M. Bertsch|Evidence for Biogenic Pyromorphite Formation by the Nematode Caenorhabditis elegans|Environ. Sci. Technol.39(15): 5620-5625|2005|10.1021/es050154k
110388|A||Higgins,C.P., P.B. McLeod, L.A. MacManus-Spencer, and R.G. Luthy|Bioaccumulation of Perfluorochemicals in Sediments by the Aquatic Oligochaete Lumbriculus variegatus|Environ. Sci. Technol.41(13): 4600-4606|2007|10.1021/es062792o
110389|T||Howe,J.A., R.H. Loeppert, V.J. DeRose, D.B. Hunter, and P.M. Bertsch|Localization and Speciation of Chromium in Subterranean Clover Using XRF, XANES, and EPR Spectroscopy|Environ. Sci. Technol.37(18): 4091-4097|2003|10.1021/es034156l
110391|A||Das,S.K., A.R. Das, and A.K. Guha|A Study on the Adsorption Mechanism of Mercury on Aspergillus versicolor Biomass|Environ. Sci. Technol.41(24): 8281-8287|2007|10.1021/es070814g
110392|T||Phillips,A.J.L.|A Comparison of Dust and Acetone Infusion Applications of Tolclofos-Methyl to Bean Seeds for the Control of Rhizoctonia solani|Plant Pathol.41:35-40|1992|10.1111/j.1365-3059.1992.tb02313.x
110393|A||Hill,W.R., and I.L. Larsen|Growth Dilution of Metals in Microalgal Biofilms|Environ. Sci. Technol.39(6): 1513-1518|2005|10.1021/es049587y
110394|A||Hillis,D.G., L. Lissemore, P.K. Sibley, and K.R. Solomon|Effects of Monensin on Zooplankton Communities in Aquatic Microcosms|Environ. Sci. Technol.41(18): 6620-6626|2007|10.1021/es070799f
110395|T||Huang,J.W., C.Y. Poynton, L.V. Kochian, and M.P. Elless|Phytofiltration of Arsenic from Drinking Water Using Arsenic-Hyperaccumulating Ferns|Environ. Sci. Technol.38(12): 3412-3417|2004|10.1021/es0351645
110396|T||Hussein,H.S., O.N. Ruiz, N. Terry, and H. Daniell|Phytoremediation of Mercury and Organomercurials in Chloroplast Transgenic Plants:  Enhanced Root Uptake, Translocation to Shoots, and Volatilization|Environ. Sci. Technol.41(24): 8439-8346|2007|10.1021/es070908q
110397|A||Hammerschmidt,C.R., and M.B. Sandheinrich|Maternal Diet During Oogenesis is the Major Source of Methylmercury in Fish Embryos|Environ. Sci. Technol.39(10): 3580-3584|2005|10.1021/es0486263
110398|T||Gawlik,D.E., M.E. Hostetler, and K.L. Bildstein|Naphthalene Moth Balls do not Deter Mammalian Predators at Red-Winged Blackbird Nest|J. Field Ornithol.59(2): 189-191|1988|
110399|A||Hanson,M.L., and K.R. Solomon|Haloacetic Acids in the Aquatic Environment. Part I: Macrophyte Toxicity|Environ. Pollut.130(3): 371-383|2004|10.1016/j.envpol.2003.12.016
110400|A||Dominique,Y., B. Muresan, R. Duran, S. Richard, and A. Boudou|Simulation of the Chemical Fate and Bioavailability of Liquid Elemental Mercury Drops from Gold Mining in Amazonian Freshwater Systems|Environ. Sci. Technol.41(21): 7322-7329|2007|10.1021/es070268r
110403|T||Wang,C., M. Zhao, J. Yang, X. Li, and S. Peng|Synthesis and Evaluations of Pentahydroxylhexyl-l-Cysteine and Its Dimer as Chelating Agents for Cadmium or Lead Decorporation|Toxicol. Appl. Pharmacol.200(3): 229-236|2004|10.1016/j.taap.2004.04.009
110404|T||Vikram,A., D.N. Tripathi, P. Ramarao, and G.B. Jena|Intervention of D-Glucose Ameliorates the Toxicity of Streptozotocin in Accessory Sex Organs of Rat|Toxicol. Appl. Pharmacol.226(1): 84-93|2008|10.1016/j.taap.2007.09.006
110405|T||Viau,M., V. Collin-Faure, P. Richaud, J.L. Ravanat, and S.M. Candeias|Cadmium and T Cell Differentiation:  Limited Impact In Vivo but Significant Toxicity in Fetal Thymus Organ Culture|Toxicol. Appl. Pharmacol.223(3): 257-266|2007|10.1016/j.taap.2007.05.017
110406|T||Suzuki,T., K. Momoi, M. Hosoyamada, M. Kimura, and T. Shibasaki|Normal Cadmium Uptake in Microcytic Anemia mk/mk Mice Suggests that DMT1 is not the only Cadmium Transporter In Vivo|Toxicol. Appl. Pharmacol.227(3): 462-467|2008|10.1016/j.taap.2007.10.026
110407|T||Suzuki,K.T., K. Kurasaki, S. Ogawa, and N. Suzuki|Metabolic Transformation of Methylseleninic Acid Through Key Selenium Intermediate Selenide|Toxicol. Appl. Pharmacol.215(2): 189-197|2006|10.1016/j.taap.2006.02.011
110410|A||Seok,S.H., M.W. Baek, H.Y. Lee, D.J. Kim, Y.R. Na, K.J. Noh, S.H. Park, H.K. Lee, B.H. Lee, D.Y. Ryu, and J.H. Park|Quantitative GFP Fluorescence as an Indicator of Arsenite Developmental Toxicity in Mosaic Heat Shock Protein 70 Transgenic Zebrafish|Toxicol. Appl. Pharmacol.225(2): 154-161|2007|10.1016/j.taap.2007.07.011
110411|T||Rastogi,S., Y. Shukla, B.N. Paul, D.K. Chowdhuri, S.K. Khanna, and M. Das|Protective Effect of Ocimum sanctum on 3-Methylcholanthrene, 7,12-Dimethylbenz(a)anthracene and Aflatoxin B1 Induced Skin Tumorigenesis in Mice|Toxicol. Appl. Pharmacol.224(3): 228-240|2007|10.1016/j.taap.2007.05.020
110413|T||Palkar,P.S., B.K. Philip, R.N. Reddy, and H.M. Mehendale|Priming Dose of Phenylhydrazine Protects Against Hemolytic and Lethal Effects of 2-Butoxyethanol|Toxicol. Appl. Pharmacol.225(1): 102-112|2007|10.1016/j.taap.2007.06.011
110414|T||Nakayama,K., Y. Kawano, Y. Kawakami, N. Moriwaki, M. Sekijima, M. Otsuka, Y. Yakabe, H. Miyaura, K. Saito, K. Sumida, a|Differences in Gene Expression Profiles in the Liver Between Carcinogenic and Non-carcinogenic Isomers of Compounds Given to Rats in a 28-Day Repeat-Dose Toxicity Study|Toxicol. Appl. Pharmacol.217(3): 299-307|2006|10.1016/j.taap.2006.09.008
110415|T||Morio,L.A., A. Leone, S.P. Sawant, A.Y. Nie, J.B. Parker, P. Taggart, A.M. Barron, M.K. McMillian, and P. Lord|Hepatic Expression of Heme Oxygenase-1 and Antioxidant Response Element-Mediated Genes Following Administration of Ethinyl Estradiol to Rats|Toxicol. Appl. Pharmacol.216(3): 416-425|2006|10.1016/j.taap.2006.06.016
110416|T||Moretto,A., A. Nicolli, and M. Lotti|The Search of the Target of Promotion:  Phenylbenzoate Esterase Activities in Hen Peripheral Nerve|Toxicol. Appl. Pharmacol.219(2-3): 196-201|2007|10.1016/j.taap.2006.11.025
110417|T||Morales,A.I., C. Vicente-Sanchez, M. Jerkic, J.M. Santiago, F. Perez-Barriocanal, and J.M. Lopez-Novoa|Effect of Quercetin on Metallothionein, Nitric Oxide Synthases and Cyclooxygenase-2 Expression on Experimental Chronic Cadmium Nephrotoxicity in Rats|Toxicol. Appl. Pharmacol.210(1/2): 128-135|2006|10.1016/j.taap.2005.09.006
110419|T||Mitra,M.S., S. Donthamsetty, B. White, J.R. Latendresse, and H.M. Mehendale|Mechanism of Protection of Moderately Diet Restricted Rats Against Doxorubicin-Induced Acute Cardiotoxicity|Toxicol. Appl. Pharmacol.225(1): 90-101|2007|10.1016/j.taap.2007.07.018
110420|T||Marin-Kuan,M., S. Nestler, C. Verguet, C. Bezencon, D. Piguet, T. Delatour, P. Mantle, C. Cavin, and B. Schilter|MAPK-ERK Activation in Kidney of Male Rats Chronically Fed Ochratoxin A at a Dose Causing a Significant Incidence of Renal Carcinoma|Toxicol. Appl. Pharmacol.224(2): 174-181|2007|10.1016/j.taap.2007.06.014
110421|T||Liu,J., R.C. Gupta, J.T. Goad, S. Karanth, and C. Pope|Modulation of Parathion Toxicity by Glucose Feeding:  Is Nitric Oxide Involved?|Toxicol. Appl. Pharmacol.219(2-3): 106-113|2007|10.1016/j.taap.2006.11.005
110422|T||Liu,J., Y. Liu, S.S. Habeebu, and C.D. Klaassen|Metallothionein-Null Mice are Highly Susceptible to the Hematotoxic and Immunotoxic Effects of Chronic CdCl2 Exposure|Toxicol. Appl. Pharmacol.159(2): 98-108|1999|10.1006/taap.1999.8718
110423|T||Liao,X., G.S. Lee, H. Shimizu, and M.D. Collins|Comparative Molecular Pathology of Cadmium- and all-trans-Retinoic Acid-Induced Postaxial Forelimb Ectrodactyly|Toxicol. Appl. Pharmacol.225(1): 47-60|2007|10.1016/j.taap.2007.06.005
110424|T||Li,B., E.G. Duysen, L.Y. Poluektova, L.C. Murrin, and O. Lockridge|Protection from the Toxicity of Diisopropylfluorophosphate by Adeno-Associated Virus Expressing Acetylcholinesterase|Toxicol. Appl. Pharmacol.214(2): 152-165|2006|10.1016/j.taap.2005.12.008
110425|T||Lee,S.J., and K.T. Lim|Inhibitory Effect of Phytoglycoprotein on Tumor Necrosis Factor-alpha and Interleukin-6 at Initiation Stage of Colon Cancer in 1,2-Dimethylhydrazine-Treated ICR Mice|Toxicol. Appl. Pharmacol.225(2): 198-205|2007|10.1016/j.taap.2007.07.010
110427|T||Laier,P., S.B. Metzdorff, J. Borch, M.L. Hagen, U. Hass, S. Christiansen, M. Axelstad, T. Kledal, M. Dalgaard, C. McKin|Mechanisms of Action Underlying the Antiandrogenic Effects of the Fungicide Prochloraz|Toxicol. Appl. Pharmacol.213(2): 160-171|2006|10.1016/j.taap.2005.10.013
110429|T||Kovalenko,V.M., T.V. Bagnyukova, O.V. Sergienko, L.B. Bondarenko, G.M. Shayakhmetova, A.V. Matvienko, and I.P. Pogribny|Epigenetic Changes in the Rat Livers Induced by Pyrazinamide Treatment|Toxicol. Appl. Pharmacol.225(3): 293-299|2007|10.1016/j.taap.2007.08.011
110433|T||Wang,Q., W. Luo, W. Zheng, Y. Liu, H.J. Xu, G. Zheng, Z. Dai, W. Zhang, Y. Chen, and J. Chen|Iron Supplement Prevents Lead-Induced Disruption of the Blood-Brain Barrier During Rat Development|Toxicol. Appl. Pharmacol.219(1): 33-41|2007|10.1016/j.taap.2006.11.035
110434|T||Xu,M., G.B. Nelson, J.E. Moore, T.P. McCoy, J. Dai, R.A. Manderville, J.A. Ross, and M.S. Miller|Induction of Cyp1a1 and Cyp1b1 and Formation of DNA Adducts in C57BL/6, Balb/c, and F1 Mice Following In Utero Exposure to 3-Methylcholanthrene|Toxicol. Appl. Pharmacol.209(1): 28-38|2005|10.1016/j.taap.2005.03.012
110436|T||Zhang,J., H. Wang, and H. Yu|Thioacetamide-Induced Cirrhosis in Selenium-Adequate Mice Displays Rapid and Persistent Abnormity of Hepatic Selenoenzymes Which are Mute to Selenium Supplementation|Toxicol. Appl. Pharmacol.224(1): 81-88|2007|10.1016/j.taap.2007.06.013
110437|T||Zhu,B.T., M.A. Gallo, C.W.,Jr. Burger, R.J. Meeker, M.X. Cai, S. Xu, and A.H. Conney|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Administration and High-Fat Diet on the Body Weight and Hepatic Estrogen Metabolism in Female C3H/HeN Mice|Toxicol. Appl. Pharmacol.226(2): 107-118|2008|10.1016/j.taap.2007.08.018
110438|T||Zwadlo,C., and J. Borlak|Nifedipine Represses Ion Channels, Transporters and Ca2+-Binding Proteins in Hearts of Spontaneously Hypertensive Rats|Toxicol. Appl. Pharmacol.213(3): 224-234|2006|10.1016/j.taap.2005.10.012
110439|AT||Wang,X., Q. Zheng, F. Yao, Z. Chen, Z. Feng, and W.J. Manning|Assessing the Impact of Ambient Ozone on Growth and Yield of a Rice (Oryza sativa L.) and a Wheat (Triticum aestivum L.) Cultivar Grown in the Yangtze Delta, China, Using Three Rates of Application of Ethylenediurea (ED|Environ. Pollut.148(2): 390-395|2007|10.1016/j.envpol.2006.12.014
110440|T||Wojas,S., A. Ruszczynska, E. Bulska, M. Wojciechowski, and D.M. Antosiewicz|Ca2+-Dependent Plant Response to Pb2+ is Regulated by LCT1:  Air Pollution and Climate Change|Environ. Pollut.147(3): 584-592|2007|10.1016/j.envpol.2006.10.012
110442|T||Xue,S.G., Y.X. Chen, R.D. Reeves, A.J.M. Baker, Q. Lin, and D.R. Fernando|Manganese Uptake and Accumulation by the Hyperaccumulator Plant Phytolacca acinosa Roxb. (Phytolaccaceae)|Environ. Pollut.131(3): 393-399|2004|10.1016/j.envpol.2004.03.011
110443|T||Yanai,J., F.J. Zhao, S.P. McGrath, and T. Kosaki|Effect of Soil Characteristics on Cd Uptake by the Hyperaccumulator Thlaspi Caerulescens|Environ. Pollut.139(1): 167-175|2006|10.1016/j.envpol.2005.03.013
110445|AT||Zeng,F., S. Chen, Y. Miao, F. Wu, and G. Zhang|Changes of Organic Acid Exudation and Rhizosphere pH in Rice Plants Under Chromium Stress|Environ. Pollut.155(2): 284-289|2008|10.1016/j.envpol.2007.11.019
110446|T||Zhang,B., S.B. Cox, S.T. McMurry, W.A. Jackson, G.P. Cobb, and T.A. Anderson|Effect of Two Major N-Nitroso Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) Metabolites on Earthworm Reproductive Success|Environ. Pollut.153(3): 658-667|2008|10.1016/j.envpol.2007.08.033
110447|A||Sun,F.H., and Q.X. Zhou|Metal Accumulation in the Polychaete Hediste japonica with Emphasis on Interaction Between Heavy Metals and Petroleum Hydrocarbons|Environ. Pollut.149(1): 92-98|2007|10.1016/j.envpol.2006.12.013
110448|T||Pajuelo,E., I.D. Rodriguez-Llorente, M. Dary, and A.J. Palomares|Toxic Effects of Arsenic on Sinorhizobium-Medicago sativa Symbiotic Interaction|Environ. Pollut.154(2): 203-211|2008|10.1016/j.envpol.2007.10.015
110449|T||Tsadilas,C.D., N.A. Karaivazoglou, N.C. Tsotsolis, S. Stamatiadis, and V. Samaras|Cadmium Uptake by Tobacco as Affected by Liming, N Form, and Year of Cultivation|Environ. Pollut.134(2): 239-246|2005|10.1016/j.envpol.2004.08.008
110450|T||Tu,C., and L.Q. Ma|Effects of Arsenic on Concentration and Distribution of Nutrients in the Fronds of the Arsenic Hyperaccumulator Pteris vittata L.|Environ. Pollut.135(2): 333-340|2005|10.1016/j.envpol.2004.03.026
110452|T||Szantoi,Z., A.H. Chappelka, R.B. Muntifering, and G.L. Somers|Use of Ethylenediurea (EDU) to Ameliorate Ozone Effects on Purple Coneflower (Echinacea purpurea)|Environ. Pollut.150(2): 200-208|2007|10.1016/j.envpol.2007.01.020
110453|T||Santos,J.A.G., M.I.S. Gonzaga, L.Q. Ma, and M. Srivastava|Timing of Phosphate Application Affects Arsenic Phytoextraction by Pteris vittata L. of Different Ages|Environ. Pollut.154(2): 306-311|2008|10.1016/j.envpol.2007.10.012
110455|A||Skinner,K., N. Wright, and E. Porter-Goff|Mercury Uptake and Accumulation by Four Species of Aquatic Plants|Environ. Pollut.145(1): 234-237|2007|10.1016/j.envpol.2006.03.017
110457|A||Pan,L., J. Miao, J. Wang, and J. Liu|AHH Activity, Tissue Dose and DNA Damage in Different Tissues of the Scallop Chlamys farreri Exposed to Benzo[a]pyrene|Environ. Pollut.153(1): 192-198|2008|10.1016/j.envpol.2007.07.022
110458|T||Song,W., L. Zhou, C. Yang, X. Cao, L. Zhang, and X. Liu|Tomato Fusarium Wilt and Its Chemical Control Strategies in a Hydroponic System|Crop Prot.23(3): 243-247|2004|10.1016/j.cropro.2003.08.007
110459|T||Oglesby,L.A., M.T. Ebron-McCoy, T.R. Logsdon, F. Copeland, P.E. Beyer, and R.J. Kavlock|In Vitro Embryotoxicity of a Series of Para-Substituted Phenols:  Structure, Activity, and Correlation with In Vivo Data|Teratology45:11-33|1992|10.1002/tera.1420450103
110460|T||Soucy,N.V., H.D. Parkinson, M.A. Sochaski, and S.J. Borghoff|Kinetics of Genistein and Its Conjugated Metabolites in Pregnant Spraque-Dawley Rats Following Single and Repeated Genistein Administration|Toxicol. Sci.90(1): 230-240|2006|10.1093/toxsci/kfj077
110463|T||Theocharis,S.E., A.P. Margeli, I.K. Ghiconti, and D. Varonos|Liver Thymidine Kinase Activity After Cadmium-Induced Hepatotoxicity in Rats|Toxicol. Lett.63(2): 181-190|1992|10.1016/0378-4274(92)90010-H
110464|T||Van Gestel,C.A.M., and J.E. Koolhaas|Water-Extractability, Free Ion Activity, and pH Explain Cadmium Sorption and Toxicity to Folsomia candida (Collembola) in Seven Soil-pH Combinations|Environ. Toxicol. Chem.23(8): 1822-1833|2004|10.1897/03-393
110465|A||Wang,J., C.Y. Chuang, and W.X. Wang|Metal and Oxygen Uptake in the Green Mussel Perna viridis Under Different Metabolic Conditions|Environ. Toxicol. Chem.24(10): 2657-2664|2005|10.1897/05-109R.1
110466|A||Ward,T.J., and W.E. Robinson|Evolution of Cadmium Resistance in Daphnia magna|Environ. Toxicol. Chem.24(9): 2341-2349|2005|10.1897/04-429R.1
110467|A||Wells,J.B., E.E. Little, and R.D. Calfee|Behavioral Response of Young Rainbow Trout (Oncorhynchus mykiss) to Forest Fire-Retardant Chemicals in the Laboratory|Environ. Toxicol. Chem.23(3): 621-625|2004|10.1897/02-635
110468|A||Tsui,M.T.K., and W.X. Wang|Maternal Transfer Efficiency and Transgenerational Toxicity of Methylmercury in Daphnia magna|Environ. Toxicol. Chem.23(6): 1504-1511|2004|10.1897/03-310
110469|T||Unrine,J.M., B.P. Jackson, W.A. Hopkins, and C. Romanek|Isolation and Partial Characterization of Proteins Involved in Maternal Transfer of Selenium in the Western Fence Lizard (Sceloporus occidentalis)|Environ. Toxicol. Chem.25(7): 1864-1867|2006|10.1897/05-598R.1
110470|T||Zeng,Q., J.G. Zhu, H.L. Cheng, Z.B. Xie, and H.Y. Chu|Phytotoxicity of Lanthanum in Rice in Haplic Acrisols and Cambisols|Ecotoxicol. Environ. Saf.64(2): 226-233|2006|10.1016/j.ecoenv.2005.03.016
110471|T||Sujatha,R., A.R. Jayakumar, M.S. Krishnamoorthy, V. Paul, and R. Jayakumar|Behavioural and Biochemical Changes After Simultaneous and Post-Treatment of Vitamin A and D on Cadmium Toxicity|Environ. Toxicol. Pharmacol.7(3): 189-197|1999|10.1016/S1382-6689(99)00013-7
110472|T||Winfield,L.E., J.H.,Jr. Rodgers, and S.J. D'Surney|The Responses of Selected Terrestrial Plants to Short (<12 days) and Long Term (2, 4 and 6 Weeks) Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) Exposure.  Part I:  Growth and Developmental Effects|Ecotoxicology13:335-347|2004|10.1023/B:ECTX.0000033091.78180.3d
110473|T||Wlostowski,T., E. Bonda, and A. Krasowska|Photoperiod Affects Hepatic and Renal Cadmium Accumulation, Metallothionein Induction, and Cadmium Toxicity in the Wild Bank Vole (Clethrionomys glareolus)|Ecotoxicol. Environ. Saf.58(1): 29-36|2004|10.1016/S0147-6513(03)00109-X
110474|T||Wong,C.H., D.D. Mruk, M.K.Y. Sui, and C.Y. Cheng|Blood-Testis Barrier Dynamics are Regulated by alpha2-Macroglobulin via the c-Jun N-Terminal Protein Kinase Pathway|Endocrinology146(4): 1893-1908|2005|10.1210/en.2004-1464
110475|T||Nathan,S.S., K. Kalaivani, and K. Murugan|Effect of Biopesticides on the Lactate Dehydrogenase (LDH) of the Rice Leaffolder, Cnaphalocrocis medinalis (Guenee) (Insecta:  Lepidoptera:  Pyralidae)|Ecotoxicol. Environ. Saf.65(1): 102-107|2006|10.1016/j.ecoenv.2005.05.021
110477|A||Nero,V., A. Farwell, L.E.J. Lee, T. Van Meer, M.D. MacKinnon, and D.G. Dixon|The Effects of Salinity on Naphthenic Acid Toxicity to Yellow Perch:  Gill and Liver Histopathology|Ecotoxicol. Environ. Saf.65(2): 252-264|2006|10.1016/j.ecoenv.2005.07.009
110478|A||Schuwerack,P.M.M., J.W. Lewis, and P.W. Jones|Interactive Cellular and Physiological Responses of the Freshwater Crab Potamonautes warreni to Cadmium and Microbial Gill Infestations|Ecotoxicol. Environ. Saf.67(2): 302-310|2007|10.1016/j.ecoenv.2006.08.010
110479|A||Kuiper,R.V., R.F. Canton, P.E.G. Leonards, B.M. Jenssen, M. Dubbeldam, P.W. Wester, M. Van den Berg, J.G. Vos, and A.D.|Long-Term Exposure of European Flounder (Platichthys flesus) to the Flame-Retardants Tetrabromobisphenol A (TBBPA) and Hexabromocyclododecane (HBCD)|Ecotoxicol. Environ. Saf.67(3): 349-360|2007|10.1016/j.ecoenv.2006.12.001
110480|T||Liu,X., S. Zhang, X.Q. Shan, and P. Christie|Combined Toxicity of Cadmium and Arsenate to Wheat Seedlings and Plant Uptake and Antioxidative Enzyme Responses to Cadmium and Arsenate Co-Contamination|Ecotoxicol. Environ. Saf.68(2): 305-313|2007|10.1016/j.ecoenv.2006.11.001
110482|A||Leslie,H.A., M.H.S. Kraak, and J.L.M. Hermens|Chronic Toxicity and Body Residues of the Nonpolar Narcotic 1,2,3,4-Tetrachlorobenzene in Chironomus riparius|Environ. Toxicol. Chem.23(8): 2022-2028|2004|10.1897/03-385
110483|A||Lin,H.I., D.W. Berzins, L. Myers, W.J. George, A. Abdelghani, and K.H. Watanabe|A Bayesian Approach to Parameter Estimation for a Crayfish (Procambarus spp.) Bioaccumulation Model|Environ. Toxicol. Chem.23(9): 2259-2266|2004|10.1897/03-303
110484|A||Liu,F., R.J. Kendall, and C.W. Theodorakis|Joint Toxicity of Sodium Arsenate and Sodium Perchlorate to Zebrafish Danio rerio Larvae|Environ. Toxicol. Chem.24(6): 1505-1507|2005|10.1897/04-313R.1
110486|A||Key,P.B., K.W. Chung, J. Hoguet, Y. Sapozhnikova, and M.H. Fulton|Effects of the Anti-Fouling Herbicide Irgarol 1051 on Two Life Stages of the Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(1): 50-55|2008|
110487|T||Chandler,D., and G. Davidson|Evaluation of Entomopathogenic Fungus Metarhizium anisopliae Against Soil-Dwelling Stages of Cabbage Maggot (Diptera: Anthomyiidae) in Glasshouse and Field Experiments and Effect of Fungicides on Fungal Activity|J. Econ. Entomol.98(6): 1856-1862|2005|10.1093/jee/98.6.1856
110488|T||Raj,M.F., P.G. Shah, B.K. Patel, J.G. Talati, and A.S. Patel|Residues of Synthetic Pyrethroids in Cotton Seed, Oil and Lint|Indian J. Plant Prot.18(2): 191-195|1990|
110489|T||Ahmad,H., and S.M.A. Rizvi|Residues of Some Synthetic Pyrethroids and Monocrotophos in/on Okra Fruits|Indian J. Plant Prot.21(1): 44-46|1993|
110490|T||Kruger,K., and R.D. Schumann|Effects of Dimilin, an Insect Growth Regulator, on Behaviour, Fertility and Development of a Non Target Organism, Leptothorax acervorum (Hym., Formicidae)|J. Appl. Entomol.115(5): 526-531|1993|10.1111/j.1439-0418.1993.tb00423.x
110491|T||Bustillo,P.A.E., G.D. Villalba, H.J. Orozco, M.P. Benavides, A.I.C. Reyes, and C.B. Chaves|Integrated Pest Management to Control the Coffee Berry Borer, Hypothenemus hampei, in Colombia|Colloq. Sci. Int. Cafe2:671-680|1995|
110492|A||Gangawane,L.V., and L. Kulkarni|Tolerance of Certain Fungicides by Nitrogen Fixing Blue-Green Algae and Their Side Effects on Rice Cultivers|Pesticides 13:37-39|1979|
110493|T||Smallwood,K.S.|Abating Pocket Gophers (Thomomys spp.) to Regenerate Forests in Clearcuts|Environ. Conserv.26(1): 59-65|1999|10.1017/S0376892999000090
110494|T||Nguyen,M., A. Alfonso, C.D. Johnson, and J.B. Rand|Caenorhabditis elegans Mutants Resistant to Inhibitors of Acetylcholinesterase|Genetics140(2): 527-535|1995|10.1093/genetics/140.2.527
110495|T||Ikeda,H., and J. Robbins|Postnatal Development of GABA- and Glycine-Mediated Inhibition of Feline Retinal Ganglion Cells in the Area Centralis|Brain Res. Dev. Brain Res.23(1): 1-17|1985|10.1016/0165-3806(85)90002-1
110497|A||Fournet,F., C. Sannier, M. Moriniere, P. Porcheron, and N. Monteny|Effects of Two Insect Growth Regulators on Ecdysteroid Production in Aedes aegypti (Diptera: Culicidae)|J. Med. Entomol.32(5): 588-593|1995|10.1093/jmedent/32.5.588
110499|T||Miller,R.W., C. Corley, and K.R. Hill|Feeding TH 6040 to Chickens: Effect on Larval House Flies in Manure and Determination of Residues in Eggs|J. Econ. Entomol.68(2): 181-182|1975|10.1093/jee/68.2.181
110500|T||Martinat,P.J., C.C. Coffman, K. Dodge, R.J. Cooper, and R.C. Whitmore|Effect of Diflubenzuron on the Canopy Arthropod Community in a Central Appalachian Forest|J. Econ. Entomol.81(1): 261-267|1988|10.1093/jee/81.1.261
110501|T||Jess,S., and M. Kilpatrick|An Integrated Approach to the Control of Lycoriella solani (Diptera:  Sciaridae) During Production of the Cultivated Mushroom (Agaricus bisporus)|Pest Manag. Sci.56(5): 477-485|2000|10.1002/(SICI)1526-4998(200005)56:5<477::AID-PS161>3.0.CO;2-T
110502|AT||Quilliam,J.P., and R. Stables|Convulsant Effects of Cunaniol, a Polyacetylenic Alcohol Isolated from the Plant Clibadium sylvestre, on Frogs and Mice|Pharmacol. Res. Commun.1(1): 7-14|1969|10.1016/S0031-6989(69)80016-0
110503|AT||Knight,S.D., R. Miledi, Q.T. Nguyen, L.E. Overman, and G. Pairaudeau|The Enantiomer of Strychnine is a Weak Antagonist of the Inhibitory Glycine Receptor|Bioorg. Med. Chem. Lett.5(7): 749-752|1995|10.1016/0960-894X(95)00108-6
110505|A||Simon,O., and J. Garnier-Laplace|Laboratory and Field Assessment of Uranium Trophic Transfer Efficiency in the Crayfish Orconectes limosus Fed the Bivalve C. fluminea|Aquat. Toxicol.74(4): 372-383|2005|10.1016/j.aquatox.2005.06.010
110506|A||Smith,G.R., K.G. Temple, D.A. Vaala, and H.A. Dingfelder|Effects of Nitrate on the Tadpoles of Two Ranids (Rana catesbeiana and R. clamitans)|Arch. Environ. Contam. Toxicol.49(4): 559-562|2005|10.1007/s00244-005-0004-0
110507|A||Soetaert,A., T. Vandenbrouck, K. Van der Ven, M. Maras, P. Van Remortel, R. Blust, and W.M. De Coen|Molecular Responses During Cadmium-Induced Stress in Daphnia magna:  Integration of Differential Gene Expression with Higher-Level Effects|Aquat. Toxicol.83(3): 212-222|2007|10.1016/j.aquatox.2007.04.010
110508|A||Sokolova,I.M., E.P. Sokolov, and K.M. Ponnappa|Cadmium Exposure Affects Mitochondrial Bioenergetics and Gene Expression of Key Mitochondrial Proteins in the Eastern Oyster Crassostrea virginica Gmelin (Bivalvia:  Ostreidae)|Aquat. Toxicol.73(3): 242-255|2005|10.1016/j.aquatox.2005.03.016
110509|A||Sokolova,I.M., A.H. Ringwood, and C. Johnson|Tissue-Specific Accumulation of Cadmium in Subcellular Compartments of Eastern Oysters Crassostrea virginica Gmelin (Bivalvia:  Ostreidae)|Aquat. Toxicol.74(3): 218-228|2005|10.1016/j.aquatox.2005.05.012
110510|A||Soucek,D.J.|Sodium Sulfate Impacts Feeding, Specific Dynamic Action, and Growth Rate in the Freshwater Bivalve Corbicula fluminea|Aquat. Toxicol.83(4): 315-322|2007|10.1016/j.aquatox.2007.05.006
110511|T||Stoner,G.D., P.B. Conran, E.A. Greisiger, J. Stober, M. Morgan, and M.A. Pereira|Comparison of Two Routes of Chemical Administration on the Lung Adenoma Response in Strain A/J Mice|Toxicol. Appl. Pharmacol.82:19-31|1986|10.1016/0041-008X(86)90433-3
110512|T||Sunouchi,M., A. Tanaka, K. Mizokami, K. Inoue, K. Fujimori, Y. Kasuya, and Y. Omori|Comparison of Hepatic Drug-Metabolizing Enzymes Induced by 3-Methylcholanthrene and Phenobarbital Between Pre- and Postnatal Rats|Toxicol. Appl. Pharmacol.73(3): 457-463|1984|10.1016/0041-008X(84)90098-X
110513|T||Suzuki,K.T., H. Sunaga, E. Kobayashi, and N. Shimojo|Mercaptalbumin as a Selectived Cadmium-Binding Protein in Rat Serum|Toxicol. Appl. Pharmacol.86(3): 466-473|1986|10.1016/0041-008X(86)90374-1
110514|AT||Takahashi,T., M. Yoshii, T. Kawano, T. Kosaka, and H. Hosoya|A New Approach for the Assessment of Acrylamide Toxicity Using a Green Paramecium|Toxicol. In Vitro19(1): 99-105|2005|10.1016/j.tiv.2004.06.012
110515|T||Joy,P.P., E.K. Syriac, N.P. Nair, P.K.C. Nair, and C.A. Joseph|Weed Control in Wet Seeded Rice in Kerala, India|Int. Rice Res. Newsl.16(6): 25-|1991|
110516|A||Zomer,E., and H. Lipke|Tyrosine Metabolism in Aedes aegypti II. Arrest of Sclerotization by MON 0585 and Diflubenzuron|Pestic. Biochem. Physiol.16(1): 28-37|1981|10.1016/0048-3575(81)90069-9
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110518|T||Wright,C.W., D. Allen, Y. Cai, Z. Chen, J.D. Phillipson, G.C. Kirby, D.C. Warhurst, M. Tits, and L. Angenot|Selective Antiprotozoal Activity of Some Strychnos Alkaloids|PTR. Phytother.Res.8(3): 149-152|1994|10.1002/ptr.2650080306
110519|T||Karras,G., D. Savvas, G. Patakioutas, T. Pomonis, T. Albanis, and P. Pomonis|Modelling the Transport of Metalaxyl in Gerbera Plants Grown in a Closed-Loop Hydroponic System|Biosyst. Eng.96(2): 279-292|2007|10.1016/j.biosystemseng.2006.10.007
110520|A||Bernhardt,J.L.|Control of Rice Water Weevil with Dimilin, 1997|Arthropod Manag. Tests23:258-|1998|10.1093/amt/23.1.258
110521|T||Mozsik,G., O.M.E. Abdel-Salam, B. Bodis, O. Karadi, A. Kiraly, G. Suto, G. Rumi, I. Szabo, and A. Vincze|Gastric Mucosal Preventive Effects of Prostacyclin and beta-Carotene, and Their Biochemical Effects in Rats Treated with Ethanol and HCl at Different Doses and Time Intervals After Administration of Necrotizing Agents|Inflammopharmacology4(4): 361-378|1996|10.1007/BF02755789
110523|A||Stoughton,S.J., K. Liber, J. Culp, and A. Cessna|Acute and Chronic Toxicity of Imidacloprid to the Aquatic Invertebrates Chironomus tentans and Hyalella azteca Under Constant- and Pulse-Exposure Conditions|Arch. Environ. Contam. Toxicol.54(4): 662-673|2008|10.1007/s00244-007-9073-6
110524|T||McCormack,K.M., W.E.,Jr. Braselton, V.L. Sanger, and J.B. Hook|Residual Effects of Polybrominated Biphenyls Following Perinatal Exposure in Rats|Toxicol. Appl. Pharmacol.53:108-115|1980|10.1016/0041-008X(80)90387-7
110525|T||McCormack,K.M., L.F. Lepper, D.M. Wilson, and J.B. Hook|Biochemical and Physiological Sequelae to Perinatal Exposure to Polybrominated Biphenyls:  A Multigeneration Study in Rats|Toxicol. Appl. Pharmacol.59:300-313|1981|10.1016/0041-008X(81)90202-7
110526|A||McDaniel,T.V., P.A. Martin, N. Ross, S. Brown, S. Lesage, and B.D. Pauli|Effects of Chlorinated Solvents on Four Species of North American Amphibians|Arch. Environ. Contam. Toxicol.47(1): 101-109|2004|10.1007/s00244-004-3015-3
110527|T||Min,K.S., K. Kobayashi, S. Onosaka, N. Ohta, Y. Okada, and K. Tanaka|Tissue Distribution of Cadmium and Nephropathy After Administration of Cadmium in Several Chemical Forms|Toxicol. Appl. Pharmacol.86(2): 262-270|1986|10.1016/0041-008X(86)90057-8
110528|T||Min,K.S., A. Hatta, S. Onosaka, N. Ohta, Y. Okada, and K. Tanaka|Protective Role of Renal Metallothionein Against Cd Nephropathy in Rats|Toxicol. Appl. Pharmacol.88(2): 294-301|1987|10.1016/0041-008X(87)90014-7
110529|T||Moore,R.W., S.D. Sleight, and S.D. Aust|Effects of 2,2'-Dibromobiphenyl and 2,2',3,4,4',5,5'-Heptabromobiphenyl on Liver Microsomal Drug Metabolizing Enzymes|Toxicol. Appl. Pharmacol.48:73-86|1979|10.1016/S0041-008X(79)80010-1
110530|T||Nelson,C.J., K.P. Baetcke, C.H. Frith, R.L. Kodell, and G. Schieferstein|The Influence of Sex, Dose, Time, and Cross on Neoplasia in Mice Given Benzidine Dihydrochloride|Toxicol. Appl. Pharmacol.64:171-186|1982|10.1016/0041-008X(82)90214-9
110531|A||Ng,T.Y.T., P.S. Rainbow, C. Amiard-Triquet, J.C. Amiard, and W.X. Wang|Metallothionein Turnover, Cytosolic Distribution and the Uptake of Cd by the Green Mussel Perna viridis|Aquat. Toxicol.84(2): 153-161|2007|10.1016/j.aquatox.2007.01.010
110532|T||Tingle,C.C.D.|Bait Location by Ground Foraging Ants (Hymenoptera:  Formicidae) in Mopane Woodland Selectively Sprayed to Control Tsetse Fly (Diptera:  Glossinidae) in Zimbabwe|Bull. Entomol. Res.83(2): 259-265|1993|10.1017/S0007485300034751
110533|A||Patel,M., J.T. Rogers, E.F. Pane, and C.M. Wood|Renal Responses to Acute Lead Waterborne Exposure in the Freshwater Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.80(4): 362-371|2006|10.1016/j.aquatox.2006.09.012
110534|T||Emert,G.M.|The Effect of d-Tubocurarine and Strychnine on Muscle Creatine Metabolism|Life Sci.3(4): 323-331|1964|10.1016/0024-3205(64)90003-7
110535|T||Pereira,M.A., L.H.C. Lin, and L.W. Chang|Dose Dependency of 2-Acetylaminofluorene Binding to Liver DNA and Hemoglobin in Mice and Rats|Toxicol. Appl. Pharmacol.60:472-478|1981|10.1016/0041-008X(81)90333-1
110536|T||Reinhard,J.F., and E. Spector|Effects of Phenobarbital, Phenylbutazone, 3,4-Benzpyrene, or 3-Methylcholanthrene on Ethanol Metabolism in the Rat|Toxicol. Appl. Pharmacol.17(1): 12-22|1970|10.1016/0041-008X(70)90127-4
110537|T||Fragoso,D.B., R.N.C. Guedes, M.C. Picanco, and L. Zambolim|Insecticide Use and Organophosphate Resistance in the Coffee Leaf Miner Leucoptera coffeella (Lepidoptera:  Lyonetiidae)|Bull. Entomol. Res.92(3): 203-212|2002|10.1079/BER2002156
110538|T||Khan,Z.K., and R. Katiyar|Potent Antifungal Activity of Garlic (Allium sativum) Against Experimental Murine Disseminated Cryptococcosis|Pharm. Biol.38(2): 87-100|2000|10.1076/1388-0209(200004)38:2;1-1;FT087
110539|T||Tellez-Villagra,C., F. Vazquez, P. De la Mora, and H. Brust-Carmona|Modification of Motor Activity, Passive Avoidance Conditioning and Evoked Potentials by Microinjections of Strychnine in both Caudate Nuclei in Cats|Pharmacol. Biochem. Behav.14(2): 193-199|1981|10.1016/0091-3057(81)90242-2
110541|A||Cassone,M.C., and A. Fundaro|Drug Antagonism Studied on Frog Flexor Reflex|Pharmacol. Res. Commun.4(3): 261-267|1972|10.1016/0031-6989(72)90013-6
110542|T||Al-Sa'di,A.M., A. Drenth, M.L. Deadman, F.A. Al-Said, I. Khan, and E.A.B. Aitken|Association of a Second Phase of Mortality in Cucumber Seedlings with a Rapid Rate of Metalaxyl Biodegradation in Greenhouse Soils|Crop Prot.27(7): 1110-1117|2008|10.1016/j.cropro.2008.01.007
110543|T||Triebskorn,R., and H.R. Kohler|Plasticity of the Endoplasmic Reticulum in Three Cell Types of Slugs Poisoned by Molluscicides|Protoplasma (Multiple Languages)169(3/4): 120-129|1992|10.1007/BF01323611
110544|T||Jopperi-Davis,K.S., M.S. Park, L.K. Rogers, C.H.,Jr. Backes, I.K. Lim, and C.V. Smith|Compartmental Inhibition of Hepatic Glutathione Reductase Activities by 1,3-bis(2-Chloroethyl)-N-Nitrosourea (BCNU) in Sprague-Dawley and Fischer-344 Rats|Toxicol. Lett.147(3): 219-228|2004|10.1016/j.toxlet.2003.10.017
110545|T||Aktar,M.W., D. Sengupta, and A. Chowdhury|Degradation Dynamics and Persistence of Quinolphos and Methomyl in/on Okra (Ablemoschus esculentus) Fruits and Cropped Soil|Bull. Environ. Contam. Toxicol.80(1): 74-77|2008|10.1007/s00128-007-9319-z
110546|T||Sendhilvel,V., S. Kuttalam, S. Chandrasekhar, T. Raguchander, and T. Marimuthu|Persistence and Dissipation of Azoxystrobin 25 SC in Grapes|Pestology28(10): 75-80|2004|
110547|T||Hwang,B.K., and N.K. Sung|Effect of Metalaxyl on Capsidiol Production in Stems of Pepper Plants Infected with Phytophthora capsici|Plant Dis.73(9): 748-751|1989|10.1094/PD-73-0748
110548|T||Carris,L.M., and P.R. Bristow|Absorption and Translocation of Metalaxyl in Cabbage, Red Raspberry, and Strawberry|J. Agric. Food Chem.35(6): 851-855|1987|10.1021/jf00078a001
110549|T||Bebawi,F.F., P.L. Jeffrey, J.R. McKenzie, J.S. Vitelli, and A.M. Lindsay|Impact of Foliar Herbicides on Pod and Seed Behaviour of Rust-Infected Rubber Vine (Cryptostegia grandiflora) Plants|Plant Prot. Q.14(2): 57-62|1999|
110550|AT||Zhang,W., E.P. Webster, K.J. Pellerin, and D.C. Blouin|Weed Control Programs in Drill-Seeded Imidazolinone-Resistant Rice (Oryza sativa)|Weed Technol.20(4): 956-960|2006|10.1614/WT-05-166.1
110551|T||Anand,T., A. Chandrasekaran, S. Kuttalam, T. Raguchander, V. Prakasam, and R. Samiyappan|Association of Some Plant Defense Enzyme Activities with Systemic Resistance to Early Leaf Blight and Leaf Spot Induced in Tomato Plants by Azoxystrobin and Pseudomonas fluorescens|J. Plant Interact.2(4): 233-244|2007|10.1080/17429140701708985
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110624|T||Bazanova,I.S.|Investigation of Adaptation in Somatic Reflex Arc|Fiziol. Zh. (Kiev)50(1): 1181-1184|1964|
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110638|T||Sedlacek,J.|The Responses of Optic Evoked Potentials to Strychnine in Chick Embryos|Exp. Brain Res.9(4): 357-364|1969|10.1007/BF00235244
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110688|T||Feys,J.L.|Residues of PCNB and MBC in Witloof (Cichorium intybus)|Agricultura27(1): 23-45|1979|
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110707|T||Soldani,G., G. Mengozzi, L. Intorre, F. Pacini, and S. Evangelista|Acute Intragastric Application of Capsaicin Inhibits 2-Deoxy-D-Glucose - but not Histamine-Induced Gastric Acid Secretion in the Dog|Neuropeptides23(4): 221-225|1992|10.1016/0143-4179(92)90128-J
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110719|T||Budreau,C.H., and R.P. Singh|Transplacental Passage of Demeton in CF-1 Mice|Arch. Environ. Health26:161-163|1973|10.1080/00039896.1973.10666245
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110724|T||Kwon,T.S.|Change of Abundance of Arthropods in Pine Forests Caused by Aerial Insecticide Spray|Arch. Environ. Contam. Toxicol.54(1): 92-106|2008|10.1007/s00244-007-9013-5
110726|T||Wani,P.A., M.S. Khan, and A. Zaidi|Effect of Metal-Tolerant Plant Growth-Promoting Rhizobium on the Performance of Pea Grown in Metal-Amended Soil|Arch. Environ. Contam. Toxicol.55(1): 33-42|2008|10.1007/s00244-007-9097-y
110727|T||Sciarrillo,R., M. De Falco, F. Virgilio, V. Laforgia, A. Capaldo, F. Gay, S. Valiante, and L. Varano|Morphological and Functional Changes in the Thyroid Gland of Methyl Thiophanate-Injected Lizards, Podarcis sicula|Arch. Environ. Contam. Toxicol.55:254-261|2008|10.1007/s00244-007-9116-z
110728|T||Shakya,K., M.K. Chettri, and T. Sawidis|Impact of Heavy Metals (Copper, Zinc, and Lead) on the Chlorophyll Content of Some Mosses|Arch. Environ. Contam. Toxicol.54(3): 412-421|2008|10.1007/s00244-007-9060-y
110729|T||Zwiernik,M.J., J.N. Moore, J.S. Khim, L.L. Williams, D.P. Kay, S. Bursian, L.L. Aylward, and J.P. Giesy|Nondestructive Scat Sampling in Assessment of Mink (Mustela vison) Exposed to Polychlorinated Dibenzofurans (PCDFs)|Arch. Environ. Contam. Toxicol.55:529-537|2008|10.1007/s00244-007-9131-0
110730|T||Yu,X.Z., J.D. Gu, and T.P. Li|Availability of Ferrocyanide and Ferricyanide Complexes as a Nitrogen Source to Cyanogenic Plants|Arch. Environ. Contam. Toxicol.55:229-237|2008|10.1007/s00244-007-9101-6
110731|T||Li,L.Z., D.M. Zhou, X.S. Luo, P. Wang, and Q.Y. Wang|Effect of Major Cations and pH on the Acute Toxicity of Cadmium to the Earthworm Eisenia fetida:  Implications for the Biotic Ligand Model Approach|Arch. Environ. Contam. Toxicol.55(1): 70-77|2008|10.1007/s00244-007-9100-7
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110733|T||Peeper,T.F., J.R. Roberts, D.A. Solie, and A.E. Stone|Variation in Characteristics and Imazamox Tolerance of Feral Rye|Agron. J.100(2): 198-204|2008|10.2134/agronj2006.0365
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110736|T||Bakker,F.M., R. Feije, A.J. Grove, G. Hoogendoorn, G. Jacobs, E.D. Loose, and P. Van Stratum|A Laboratory Test Protocol to Evaluate Effects of Plant Protection Products on Mortality and Reproduction of the Predatory Mite Hypoaspis aculeifer Canestrini (Acari:  Laelapidae) in Standard Soil|J. Soils Sediments3(2): 73-77|2003|10.1007/BF02991070
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110741|T||Van Rensburg,S.J., J.M. Hall, and P.S. Gathercole|Inhibition of Esophageal Carcinogenesis in Corn-Fed Rats by Riboflavin, Nicotinic Acid, Selenium, Molybdenum, Zinc, and Magnesium|Nutr.Cancer8(3): 163-170|1986|10.1080/01635588609513890
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110745|A||Dias,V., C. Vasseur, and J.M. Bonzom|Exposure of Chironomus riparius Larvae to Uranium:  Effects on Survival, Development Time, Growth, and Mouthpart Deformities|Chemosphere71(3): 574-581|2008|10.1016/j.chemosphere.2007.09.029
110746|A||Cestone,A., M. Di Natale, and S. De Rosa|Toxicity and Biodegradation of the LAS Surfactant 1-(p-Sulfophenyl)Nonane in Presence of the Ascidian Styela plicata|Chemosphere71(8): 1440-1445|2008|10.1016/j.chemosphere.2007.12.016
110747|T||Gelbke,H.P., A. Hofmann, J.W. Owens, and A. Freyberger|The Enhancement of the Subacute Repeat Dose Toxicity Test OECD TG 407 for the Detection of Endocrine Active Chemicals: Comparison with Toxicity Tests of Longer Duration|Arch. Toxicol.81(4): 227-250|2007|10.1007/s00204-006-0148-3
110750|A||Zhang,Q., and X. Li|Pharmacokinetics and Residue Elimination of Oxytetracycline in Grass Carp, Ctenopharyngodon idellus|Aquaculture272(1-4): 140-145|2007|10.1016/j.aquaculture.2007.08.033
110751|A||Gaikowski,M.P., W.J. Larson, and W.H. Gingerich|Survival of Cool and Warm Freshwater Fish Following Chloramine-T Exposure|Aquaculture275(1-4): 20-25|2008|10.1016/j.aquaculture.2007.12.017
110752|A||Gomez-Jimenez,S., A. Espinosa-Plascencia, F. Valenzuela-Villa, and M.D.C. Bermudez-Almada|Oxytetracycline (OTC) Accumulation and Elimination in Hemolymph, Muscle and Hepatopancreas of White Shrimp Litopenaeus vannamei Following an OTC-Feed Therapeutic Treatment|Aquaculture274(1): 24-29|2008|10.1016/j.aquaculture.2007.11.017
110753|A||Jackson,G., and J. Stuckey|Effects of Dimethylsulfoniopropionate (DMSP) Produced by the Cordgrass Spartina alterniflora on Its Epiphytic Algal Community|Aquat. Sci.69(3): 419-426|2007|10.1007/s00027-007-0890-5
110754|A||Koskinen,H., P. Pehkonen, E. Vehniainen, A. Krasnov, C. Rexroad, S. Afanasyev, H. Molsa, and A. Oikari|Response of Rainbow Trout Transcriptome to Model Chemical Contaminants|Biochem. Biophys. Res. Commun.320(3): 745-753|2004|10.1016/j.bbrc.2004.06.024
110755|A||Matsubara,E., K. Harada, K. Inoue, and A. Koizumi|Effects of Perfluorinated Amphiphiles on Backward Swimming in Paramecium caudatum|Biochem. Biophys. Res. Commun.339(2): 554-561|2006|10.1016/j.bbrc.2005.11.048
110756|A||Nakamura,Y., H. Yamamoto, J. Sekizawa, T. Kondo, N. Hirai, and N. Tatarazako|The Effects of pH on Fluoxetine in Japanese Medaka (Oryzias latipes):  Acute Toxicity in Fish Larvae and Bioaccumulation in Juvenile Fish|Chemosphere70(5): 865-873|2008|10.1016/j.chemosphere.2007.06.089
110757|A||Metcalfe,T.L., P.J. Dillon, and C.D. Metcalfe|Effects of Formulations of the Fungicide, Pentachloronitrobenzene on Early Life Stage Development of the Japanese Medaka (Oryzias latipes)|Chemosphere71(10): 1957-1962|2008|10.1016/j.chemosphere.2007.12.018
110758|A||Matsumoto,T., E. Ikuno, S. Itoi, and H. Sugita|Chemical Sensitivity of the Male Daphnid, Daphnia magna, Induced by Exposure to Juvenile Hormone and Its Analogs|Chemosphere72(3): 451-456|2008|10.1016/j.chemosphere.2008.02.016
110759|T||Parsons,J.G., A. Martinez-Martinez, J.R. Peralta-Videa, and J.L. Gardea-Torresdey|Speciation and Uptake of Arsenic Accumulated by Corn Seedlings Using XAS and DRC-ICP-MS|Chemosphere70(11): 2076-2083|2008|10.1016/j.chemosphere.2007.08.069
110760|T||Nishimura,K., K. Yasumura, K. Igarashi, and Y. Kakinuma|Involvement of Spt7p in Vacuolar Polyphosphate Level of Saccharomyces cerevisiae|Biochem. Biophys. Res. Commun.257(3): 835-838|1999|10.1006/bbrc.1999.0541
110761|T||Gibson,S.I., R.J. Laby, and D. Kim|The Sugar-Insensitive1 (Sis1) Mutant of Arabidopsis is Allelic to Ctr1|Biochem. Biophys. Res. Commun.280(1): 196-203|2001|10.1006/bbrc.2000.4062
110762|A||De Samber,B., G. Silversmit, R. Evens, K. De Schamphelaere, C. Janssen, B. Masschaele, L. Van Hoorebeke, L. Balcaen, F.|Three-Dimensional Elemental Imaging by Means of Synchrotron Radiation Micro-XRF:  Developments and Applications in Environmental Chemistry|Anal. Bioanal. Chem.390(1): 267-271|2008|10.1007/s00216-007-1694-0
110763|T||Xu,Y., N. Yamaji, R. Shen, and J.F. Ma|Sorghum Roots are Inefficient in Uptake of EDTA-Chelated Lead|Ann. Bot.99(5): 869-875|2007|10.1093/aob/mcm038
110764|A||Shaikh,B., N. Rummel, C. Gieseker, P.S. Chu, and R. Reimschuessel|Residue Depletion of Tritium-Labeled Ivermectin in Rainbow Trout Following Oral Administration|Aquaculture272(1-4): 192-198|2007|10.1016/j.aquaculture.2007.08.050
110765|A||Jaeckel,P., G. Krauss, S. Menge, A. Schierhorn, P. Rucknagel, and G.J. Krauss|Cadmium Induces a Novel Metallothionein and Phytochelatin 2 in an Aquatic Fungus|Biochem. Biophys. Res. Commun.333(1): 150-155|2005|10.1016/j.bbrc.2005.05.083
110768|T||Wise,J.C., and L.J. Gut|Blueberry, Control of Cranberry Fruitworm and Cherry Fruitworm, 1998|Arthropod Manag. Tests24:70-|1999|
110769|T||Van Steenwyk,R.A., R.M. Nomoto, and W.W. Coates|Codling Moth Control in Walnuts, 1998|Arthropod Manag. Tests24:95-96|1999|
110770|T||Duan,Y.H., Y.L. Zhang, L.T. Ye, X.R. Fan, G.H. Xu, and Q.R. Shen|Responses of Rice Cultivars with Different Nitrogen Use Efficiency to Partial Nitrate Nutrition|Ann. Bot.99(6): 1153-1160|2007|10.1093/aob/mcm051
110771|T||Zhou,J., W. Jiang, J. Ding, X. Zhang, and S. Gao|Effect of Tween 80 and beta-Cyclodextrin on Degradation of Decabromodiphenyl Ether (BDE-209) by White Rot Fungi|Chemosphere70(2): 172-177|2007|10.1016/j.chemosphere.2007.06.036
110772|T||Spicker,J.S., H.T. Pedersen, H.B. Nielsen, and S. Brunak|Analysis of Cell Death Inducing Compounds|Arch. Toxicol.81(11): 803-811|2007|10.1007/s00204-007-0207-4
110773|T||Vanhulle,S., E. Enaud, M. Trovaslet, L. Billottet, L. Kneipe, J.L.H. Jiwan, A.M. Corbisier, and J. Marchand-Brynaert|Coupling Occurs Before Breakdown During Biotransformation of Acid Blue 62 by White Rot Fungi|Chemosphere70(6): 1097-1107|2008|10.1016/j.chemosphere.2007.07.069
110774|A||Nalecz-Jawecki,G.|Evaluation of the In Vitro Biotransformation of Fluoxetine with HPLC, Mass Spectrometry and Ecotoxicological Tests|Chemosphere70(1): 29-35|2007|10.1016/j.chemosphere.2007.07.035
110775|A||Slaveykova,V.I.|Predicting Pb Bioavailability to Freshwater Microalgae in the Presence of Fulvic Acid:  Algal Cell Density as a Variable|Chemosphere69(9): 1438-1445|2007|10.1016/j.chemosphere.2007.04.065
110776|A||Garcia,M.T., E. Campos, and I. Ribosa|Biodegradability and Ecotoxicity of Amine Oxide Based Surfactants|Chemosphere69(10): 1574-1578|2007|10.1016/j.chemosphere.2007.05.089
110777|T||Abraham,P., and E. Sugumar|Enhanced PON1 Activity in the Kidneys of Cyclophosphamide Treated Rats may play a Protective Role as an Antioxidant Against Cyclophosphamide Induced Oxidative Stress|Arch. Toxicol.82(4): 237-238|2008|10.1007/s00204-007-0240-3
110778|T||Gonzalez-Mendoza,D., V. Ceja-Moreno, G. Gold-Bouchot, R.M. Escobedo-GraciaMedrano, M. Del-Rio, D. Valdes-Lozano, and O.|The Influence of Radical Architecture on Cadmium Bioaccumulation in the Black Mangrove, Avicennia germinans L.|Chemosphere67(2): 330-334|2007|10.1016/j.chemosphere.2006.09.072
110779|A||Zurita,J.L., A. Jos, A.M. Camean, M. Salguero, M. Lopez-Artiguez, and G. Repetto|Ecotoxicological Evaluation of Sodium Fluoroacetate on Aquatic Organisms and Investigation of the Effects on Two Fish Cell Lines|Chemosphere67(1): 1-12|2007|10.1016/j.chemosphere.2006.10.027
110780|A||Hansen,B.H., S. Romma, O.A. Garmo, S.A. Pedersen, P.A. Olsvik, and R.A. Andersen|Induction and Activity of Oxidative Stress-Related Proteins During Waterborne Cd/Zn-Exposure in Brown Trout (Salmo trutta)|Chemosphere67(11): 2241-2249|2007|10.1016/j.chemosphere.2006.12.048
110781|A||Li,F., L. Ji, Y. Luo, and K. Oh|Hydroxyl Radical Generation and Oxidative Stress in Carassius auratus Liver as Affected by 2,4,6-Trichlorophenol|Chemosphere67(1): 13-19|2007|10.1016/j.chemosphere.2006.10.030
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110784|A||Nowak,C., A. Czeikowitz, C. Vogt, M. Oetken, B. Streit, and K. Schwenk|Variation in Sensitivity to Cadmium Among Genetically Characterized Laboratory Strains of the Midge Chironomus riparius|Chemosphere71(10): 1950-1956|2008|10.1016/j.chemosphere.2007.12.023
110785|AT||Yao,F.X., G.F. Yu, F. Wang, X.L. Yang, and X. Jiang|Aging Activity of DDE in Dissimilar Rice Soils in a Greenhouse Experiment|Chemosphere71(6): 1188-1195|2008|10.1016/j.chemosphere.2007.09.059
110786|A||Weerasinghe,A., S. Ariyawnasa, and R. Weerasooriya|Phyto-Remediation Potential of Ipomoea aquatica for Cr(VI) Mitigation|Chemosphere70(3): 521-524|2008|10.1016/j.chemosphere.2007.07.006
110787|A||Wang,K.S., L.C. Huang, H.S. Lee, P.Y. Chen, and S.H. Chang|Phytoextraction of Cadmium by Ipomoea aquatica (Water Spinach) in Hydroponic Solution:  Effects of Cadmium Speciation|Chemosphere72(4): 666-672|2008|10.1016/j.chemosphere.2008.03.034
110788|A||Verlecar,X.N., K.B. Jena, and G.B.N. Chainy|Modulation of Antioxidant Defences in Digestive Gland of Perna viridis (L.), on Mercury Exposures|Chemosphere71(10): 1977-1985|2008|10.1016/j.chemosphere.2007.12.014
110789|A||Tripathi,R.D., S. Dwivedi, M.K. Shukla, S. Mishra, S. Srivastava, R. Singh, U.N. Rai, and D.K. Gupta|Role of Blue Green Algae Biofertilizer in Ameliorating the Nitrogen Demand and Fly-Ash Stress to the Growth and Yield of Rice (Oryza sativa L.) Plants|Chemosphere70(10): 1919-1929|2008|10.1016/j.chemosphere.2007.07.038
110790|A||Singh,P.B., and V. Singh|Cypermethrin Induced Histological Changes in Gonadotrophic Cells, Liver, Gonads, Plasma Levels of Estradiol-17beta and 11-Ketotestosterone, and Sperm Motility in Heteropneustes fossilis (Bloch)|Chemosphere72(3): 422-431|2008|10.1016/j.chemosphere.2008.02.026
110791|T||Xiong,J., Z. He, D. Liu, Q. Mahmood, and X. Yang|The Role of Bacteria in the Heavy Metals Removal and Growth of Sedum alfredii Hance in an Aqueous Medium|Chemosphere70(3): 489-494|2008|10.1016/j.chemosphere.2007.06.028
110792|A||Hoang,T.C., and S.J. Klaine|Characterizing the Toxicity of Pulsed Selenium Exposure to Daphnia magna|Chemosphere71(3): 429-438|2008|10.1016/j.chemosphere.2007.11.019
110793|A||Heinlaan,M., A. Ivask, I. Blinova, H.C. Dubourguier, and A. Kahru|Toxicity of Nanosized and Bulk ZnO, CuO and TiO2 to Bacteria Vibrio fischeri and Crustaceans Daphnia magna and Thamnocephalus platyurus|Chemosphere71(7): 1308-1316|2008|10.1016/j.chemosphere.2007.11.047
110794|A||Sun,Y., H. Guo, H. Yu, X. Wang, J. Wu, and Y. Xue|Bioaccumulation and Physiological Effects of Tetrabromobisphenol A in Coontail Ceratophyllum demersum L.|Chemosphere70(10): 1787-1795|2008|10.1016/j.chemosphere.2007.08.033
110795|A||Shinn,C., A. Marco, and L. Serrano|Inter- and Intra-Specific Variation on Sensitivity of Larval Amphibians to Nitrite|Chemosphere71(3): 507-514|2008|10.1016/j.chemosphere.2007.09.054
110796|T||Lee,L.L., W.E. Howard, and R.E. Marsh|A Telemetry Study of the Responses of Pocket Gophers (Thomomys monticola) to Durable Baits|Dongwu Xuekan6(2): 57-64|1995|
110797|T||Seth,V., B.D. Banerjee, A.K. Chakraborty, L. Institoris, and I. Desi|Effect of Propoxur on Humoral and Cell-Mediated Immune Responses in Albino Rats|Bull. Environ. Contam. Toxicol.68(3): 369-376|2002|10.1007/s001280263
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110799|T||Siroki,O., U. Undeger, L. Institoris, M. Nehez, N. Basaran, L. Nagymajtenyi, and I. Desi|A Study on Geno- and Immunotoxicological Effects of Subacute Propoxur and Pirimicarb Exposure in Rats|Ecotoxicol. Environ. Saf.50(1): 76-81|2001|10.1006/eesa.2001.2094
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110801|T||Lyons,D.B., B.V. Helson, G.C. Jones, and J.W. McFarlane|Effectiveness of Neem- and Diflubenzuron-Based Insecticides for Control of the Pine False Webworm, Acantholyda erythrocephala (L.) (Hymenoptera: Pamphiliidae)|Proc. Entomol. Soc. Ont.129:115-126|1998|
110802|T||Boyd,E.M., and L.F. Muis|Acute Oral Toxicity of Dimethoate in Albino Rats Fed a Protein-Deficient Diet|J. Pharm. Sci.59(8): 1098-1102|1970|10.1002/jps.2600590807
110803|T||Bilgrami,A.L., I. Ahmad, and M.S. Jairajpuri|Effect of Some Chemicals on the Activity of Hirschmanniella oryzae (Nematoda)|Helminthologia23(1): 49-54|1986|
110804|T||Luchak,J.M., L. Prabhudesai, R.S. Sohal, S.N. Radyuk, and W.C. Orr|Modulating Longevity in Drosophila by Over- and Underexpression of Glutamate-Cysteine Ligase|Ann. N. Y. Acad. Sci.1119:260-273|2007|10.1196/annals.1404.000
110805|T||Bjorn,M.K., and H.T. Northen|Effects of 2,4-Dichlorophenoxyacetic Acid on Chicks|Science108:479-480|1948|10.1126/science.108.2809.479
110806|T||Boegehold,M.A.|Effect of Salt-Induced Hypertension on Microvascular Pressures in Skeletal Muscle of Dahl Rats|Am. J. Physiol. Heart Circ. Physiol.260(6, Pt. 2): H1819 - H1825|1991|10.1152/ajpheart.1991.260.6.H1819
110807|T||Young,L.D.|Influence of Soybean Cropping Sequences on Seed Yield and Female Index of the Soybean Cyst Nematode|Plant Dis.82(6): 615-619|1998|10.1094/PDIS.1998.82.6.615
110808|T||Ralphs,M.H., and D.L. Turner|Difficulty in Controlling Duncecap Larkspur (Delphinium occidentale)|Weed Technol.3(2): 335-339|1989|10.1017/S0890037X00031900
110809|T||McCarty,L.B., and D.L. Colvin|Carpetgrass Response to Postemergence Herbicides|Weed Technol.5(3): 563-565|1991|10.1017/S0890037X00027330
110810|T||Pantone,D.J., and J.B. Baker|Varietal Tolerance of Rice (Oryza sativa) to Bromoxynil and Triclopyr at Different Growth Stages|Weed Technol.6(4): 968-974|1992|10.1017/S0890037X00036551
110811|T||Guess,W.L., and R.K. O'Leary|Toxicity of a Rubber Accelerator|Toxicol. Appl. Pharmacol.14(2): 221-231|1969|10.1016/0041-008X(69)90102-1
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110814|T||Fukuoka,M., and A. Tanaka|The Metabolic Origin of the Sulfur Atom in the Sulfhydryl Group of 2-Thiobenzothiazole Metabolites Derived from Benzothiazyl Sulfenamide in the Rat|Arch. Toxicol.61(2): 158-160|1987|10.1007/BF00661376
110816|T||Joseph,R.S.I.|Metabolism of Azoxystrobin in Plants and Animals|In: G.T.Brooks and T.R.Roberts (Eds.), Pesticide Chemistry and Bioscience: The Food-Environment Challenge, Cambridge, UK, Royal Society of Chemistry, 1999233:265-278|1999|
110817|T||Timchalk,C., and R.J. Nolan|Pharmacokinetics of Triclopyr (3,5,6-Trichloro-2-Pyridinyloxyacetic Acid) in the Beagle Dog and Rhesus Monkey:  Perspective on the Reduced Capacity of Dogs to Excrete this Organic Acid Relative to the Rat, Monkey, and H|Toxicol. Appl. Pharmacol.144(2): 268-278|1997|10.1006/taap.1997.8136
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110819|A||Getsinger,K.D., D.G. Petty, J.D. Madsen, J.G. Skogerboe, B.A. Houtman, W.T. Haller, and A.M. Fox|Aquatic Dissipation of the Herbicide Triclopyr in Lake Minnetonka, Minnesota|Pest Manag. Sci.56(5): 388-400|2000|10.1002/(SICI)1526-4998(200005)56:5<388::AID-PS150>3.0.CO;2-U
110820|T||Brewster,D.W., K.J. Mirly, A.G.E. Wilson, and J.W.,Jr. Barnett|Lack of In Vivo DNA Binding of Mercaptobenzothiazole to Selected Tissues of the Rat|Biochem. Biophys. Res. Commun.165(1): 342-348|1989|10.1016/0006-291X(89)91075-9
110821|T||Seth,V., B.D. Banerjee, and A.K. Chakravorty|Lipid Peroxidation, Free Radical Scavenging Enzymes, and Glutathione Redox System in Blood of Rats Exposed to Propoxur|Pestic. Biochem. Physiol.71(3): 133-139|2001|10.1006/pest.2001.2571
110822|T||White,P.F.|Effects of Bendiocarb and Diflubenzuron on Mushroom Cropping|Ann. Appl. Biol.108(1): 11-20|1986|10.1111/j.1744-7348.1986.tb01961.x
110823|A||Rodgers,J.H.,Jr., A. Dunn, and R. Robison|Guntersville Reservoir Herbicide Monitoring Survey 1990|TVA/WR-92/20, Tennessee Valley Authority, Water Resources Division:170 p.|1992|
110824|T||Timchalk,C., D.R. Finco, and J.F. Quast|Evaluation of Renal Function in Rhesus Monkeys and Comparison to Beagle Dogs Following Oral Administration of the Organic Acid Triclopyr (3,5,6-Trichloro-2-Pyridinyloxyacetic Acid)|Fundam. Appl. Toxicol.36(1): 47-53|1997|10.1006/faat.1996.2285
110825|T||Sar,T.K., B. Bagchi, S.K. Das, T.K. Mandal, A.K. Chakraborty, A. Bhattacharyya, and A. Choudhury|Toxicokinetics, Recovery, and Metabolism of Triclopyr Butotyl (ACTP) Ester in Goats|J. Agric. Food Chem.50(15): 4202-4209|2002|10.1021/jf011350n
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110827|A||Nelson,L.S., K.D. Getsinger, and J.E. Freedman|Efficacy of Triclopyr on Purple Loosestrife and Associated Wetland Vegetation|J. Aquat. Plant Manag.34:72-74|1996|
110828|T||Gabor,T.S., T. Haagsma, and H.R. Murkin|Wetland Plant Responses to Varying Degrees of Purple Loosestrife Removal in Southeastern Ontario, Canada|Wetlands16(1): 95-98|1996|10.1007/BF03160650
110829|T||Gabor,T.S., T. Haagsma, H.R. Murkin, and E. Armson|Effects of Triclopyr Amine on Purple Loosestrife and Non-Target Wetland Plants in South-Eastern Ontario, Canada|J. Aquat. Plant Manag.33:48-51|1995|
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110831|T||Carney,E.W., R. Billington, and S.M. Barlow|Developmental Toxicity Evaluation of Triclopyr Butoxyethyl Ester and Triclopyr Triethylamine Salt in the CD Rat|Reprod. Toxicol.23(2): 165-174|2007|10.1016/j.reprotox.2006.11.009
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110834|T||Chatt,A.B., and J.S. Ebersole|Comparisons Between Strychnine and Penicillin Epileptogenesis Suggest that Propagating Epileptiform Abnormalities Require the Potentiation of Thalamocortical Circuitry in Neocortical Layer 4|Exp. Neurol.100(2): 365-380|1988|10.1016/0014-4886(88)90115-X
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110837|T||Schuster,D.J.|Control of Armyworms on Bell Pepper in West-Central Florida, Fall 1993|Arthropod Manag. Tests20:103-|1995|
110838|T||Zhang,Q.H., C.F. Wu, L. Duan, and J.Y. Yang|Protective Effects of Ginsenoside Rg3 Against Cyclophosphamide-Induced DNA Damage and Cell Apoptosis in Mice|Arch. Toxicol.82(2): 117-123|2008|10.1007/s00204-007-0224-3
110839|T||Chan,P.C., R.C. Sills, G.E. Kissling, A. Nyska, and W. Richter|Induction of Thyroid and Liver Tumors by Chronic Exposure to 2-Methylimidazole in F344/N Rats and B6C3F1 Mice|Arch. Toxicol.82(6): 399-412|2008|10.1007/s00204-007-0249-7
110840|T||Chaty,S., F. Rodius, M.C. Lanhers, D. Burnel, and P. Vasseur|Induction of CYP1A1 in Rat Liver After Ingestion of Mussels Contaminated by Erika Fuel Oils|Arch. Toxicol.82(2): 75-80|2008|10.1007/s00204-007-0243-0
110841|T||Do Amaral,C.L., H.D.C. Francescato, T.M. Coimbra, R.S. Costa, J.D.C. Darin, L.M.G. Antunes, and Bianchi M.D.L.P. |Resveratrol Attenuates Cisplatin-Induced Nephrotoxicity in Rats|Arch. Toxicol.82(6): 363-370|2008|10.1007/s00204-007-0262-x
110842|T||Chan,P.C., G.D. Hills, G.E. Kissling, and A. Nyska|Toxicity and Carcinogenicity Studies of 4-Methylimidazole in F344/N Rats and B6C3F1 Mice|Arch. Toxicol.82(1): 45-53|2008|10.1007/s00204-007-0222-5
110843|T||Yamasaki,K., K. Miyata, K. Shiraishi, T. Muroi, N. Higashihara, H. Oshima, and Y. Minobe|Uterotrophic Assay, Hershberger Assay, and Subacute Oral Toxicity Study of 4,4'-Butylidenebis(2-tert-Butyl-5-Methylphenol) and 3-(Dibutylamino)Phenol, Based on the OECD Draft Protocols|Arch. Toxicol.82(5): 301-311|2008|10.1007/s00204-007-0250-1
110844|T||Muller,Y.M.R., L.B.D. Rivero, M.C. Carvalho, K. Kobus, M. Farina, and E.M. Nazari|Behavioral Impairments Related to Lead-Induced Developmental Neurotoxicity in Chicks|Arch. Toxicol.82(7): 445-451|2008|10.1007/s00204-007-0266-6
110845|T||Starek,A., W. Szymczak, and L. Zapor|Hematological Effects of Four Ethylene Glycol Monoalkyl Ethers in Short-Term Repeated Exposure in Rats|Arch. Toxicol.82(2): 125-136|2008|10.1007/s00204-007-0236-z
110848|T||Liao,Y., F. Yu, Y. Jin, C. Lu, G. Li, X. Zhi, L. An, and J. Yang|Selection of Micronutrients Used Along with DMSA in the Treatment of Moderately Lead Intoxicated Mice|Arch. Toxicol.82(1): 37-43|2008|10.1007/s00204-007-0233-2
110851|T||Grignard,E., Y. Gueguen, S. Grison, J.M.A. Lobaccaro, P. Gourmelon, and M. Souidi|In Vivo Effects of Chronic Contamination with 137 Cesium on Testicular and Adrenal Steroidogenesis|Arch. Toxicol.82(9): 583-589|2008|10.1007/s00204-007-0268-4
110854|T||Korinth,G., T. Goen, K.H. Schaller, and H. Drexler|Discrepancies Between Different Rat Models for the Assessment of Percutaneous Penetration of Hazardous Substances|Arch. Toxicol.81(12): 833-840|2007|10.1007/s00204-007-0221-6
110855|T||Higashihara,N., K. Shiraishi, K. Miyata, Y. Oshima, Y. Minobe, and K. Yamasaki|"Subacute Oral Toxicity Study of Bisphenol F Based on the Draft Protocol for the ""Enhanced OECD Test Guideline No. 407"""|Arch. Toxicol.81(12): 825-832|2007|10.1007/s00204-007-0223-4
110856|T||Kampkotter,A., C.G. Nkwonkam, R.F. Zurawski, C. Timpel, Y. Chovolou, W. Watjen, and R. Kahl|Effects of the Flavonoids Kaempferol and Fisetin on Thermotolerance, Oxidative Stress and FoxO Transcription Factor DAF-16 in the Model Organism Caenorhabditis elegans|Arch. Toxicol.81(12): 849-858|2007|10.1007/s00204-007-0215-4
110858|T||Mitchell,A.E., S.A. Burns, and J.L. Rudolf|Isozyme- and Gender-Specific Induction of Glutathione S-Transferases by Flavonoids|Arch. Toxicol.81(11): 777-784|2007|10.1007/s00204-007-0210-9
110859|T||Sivalingam,N., J. Basivireddy, K.A. Balasubramanian, and M. Jacob|Curcumin Attenuates Indomethacin-Induced Oxidative Stress and Mitochondrial Dysfunction|Arch. Toxicol.82(7): 471-481|2008|10.1007/s00204-007-0263-9
110860|T||Jin,M., M. Takahashi, M. Moto, M. Muguruma, K. Ito, K. Watanabe, Y. Kenmochi, T. Kono, K. Hasumi, and K. Mitsumori|Carcinogenic Susceptibility of rasH2 Mice to Troglitazone|Arch. Toxicol.81(12): 883-894|2007|10.1007/s00204-007-0218-1
110861|T||Burkness,E.C., P.K. O'Rourke, and W.D. Hutchison|Control of Alfalfa Blotch Leafminer and Aster Leafhopper Alfalfa, 1997|Arthropod Manag. Tests24:193-194|1999|
110862|T||Foster,R.E., and W.G. Buhler|Control of Colorado Potato Beetle and Potato Leafhopper on Potatoes, 1994|Arthropod Manag. Tests20:110-|1995|10.1093/amt/20.1.110
110863|T||Brunner,J.F., and M.D. Doerr|Bioassay, Effect of Commonly Applied Pesticides on C. florus in North Central Washington, 1994|Arthropod Manag. Tests20:337-338|1995|10.1093/amt/20.1.337
110864|T||Bessin,R.T., and L.H. Townsend|Japanese Beetle Larval Control in Field Corn, 1994|Arthropod Manag. Tests20:160-161|1995|
110865|T||Heller,P.R., R. Walker, and J. Butler|Fall Control of Japanese Beetle Grubs with Conventional Insecticides on LMRC Home Lawn Research Trial Plots, University Park, PA, 1994|Arthropod Manag. Tests20:303-|1995|10.1093/amt/20.1.303
110866|T||Brunner,J.F., and M.D. Doerr|Bioassay, Effect of Commonly Applied Pesticides on T. platneri in North Central Washington, 1994|Arthropod Manag. Tests20:339-340|1995|10.1093/amt/20.1.339
110867|T||Khan,I., J.G. Morse, A.A. Urena, and C.A. Reagan|California Small Plot Citrus Thrips Trials, 1994|Arthropod Manag. Tests20:58-60|1995|10.1093/amt/20.1.58
110868|T||Fabian,E., R. Landsiedel, L. Ma-Hock, K. Wiench, W. Wohlleben, and B. Van Ravenzwaay|Tissue Distribution and Toxicity of Intravenously Administered Titanium Dioxide Nanoparticles in Rats|Arch. Toxicol.82(3): 151-157|2008|10.1007/s00204-007-0253-y
110871|T||Hanley,T.R.,Jr., D.J. Thompson, A.K. Palmer, R.P. Beliles, and B.A. Schwetz|Teratology and Reproduction Studies with Triclopyr in the Rat and Rabbit|Fundam. Appl. Toxicol.4(5): 872-882|1984|10.1016/0272-0590(84)90108-8
110872|T||Jeffers,S.N.|The Cottonball Disease of Cranberry in Wisconsin: Potential for Disease Management with Fungicides|Acta Hortic.241:318-323|1989|10.17660/ActaHortic.1989.241.54
110873|T||West,H.M., A.H. Fitter, and A.R. Watkinson|The Influence of Three Biocides on the Fungal Associates of the Roots of Vulpia ciliata ssp. ambigua Under Natural Conditions|J. Ecol.81(2): 345-350|1993|10.2307/2261504
110874|T||Wicks,T., and B. Philp|Effects of Iprodione and Vinclozolin Seed Treatments on Germination, Emergence and Plant Growth in Onion|Aust. J. Exp. Agric.25(2): 465-469|1985|10.1071/EA9850465
110875|T||Lo,H.H., M.A. Valentovic, P.I. Brown, and G.O. Rankin|Effect of Chemical Form, Route of Administration and Vehicle on 3,5-Dichloroaniline-Induced Nephrotoxicity in the Fischer 344 Rat|J. Appl. Toxicol.14(6): 417-422|1994|10.1002/jat.2550140606
110876|T||Longley,M., and P.C. Jepson|Effects of Honeydew and Insecticide Residues on the Distribution of Foraging Aphid Parasitoids Under Glasshouse and Field Conditions|Entomol. Exp. Appl.81(2): 189-198|1996|10.1111/j.1570-7458.1996.tb02031.x
110877|T||Smith,R.J.,Jr.|Tolerance of Rice (Oryza sativa) to Acifluorfen and Triclopyr Applied Alone or in Mixtures with Propanil|Weed Sci.36(3): 379-383|1988|10.1017/S0043174500075056
110878|T||Perez,V.I., C.M. Lew, L.A. Cortez, C.R. Webb, M. Rodriguez, Y. Liu, W. Qi, Y. Li, A. Chaudhuri, H. Van Remmen, A. Richa|Thioredoxin 2 Haploinsufficiency in Mice Results in Impaired Mitochondrial Function and Increased Oxidative Stress|Free Radic. Biol. Med.44(5): 882-892|2008|10.1016/j.freeradbiomed.2007.11.018
110879|T||Brooke,B.D., G. Kloke, R.H. Hunt, L.L. Koekemoer, E.A. Temu, M.E. Taylor, G. Small, J. Hemingway, and M. Coetzee|Bioassay and Biochemical Analyses of Insecticide Resistance in Southern African Anopheles funestus (Diptera: Culicidae)|Bull. Entomol. Res.91(4): 265-272|2001|10.1079/BER2001108
110880|T||Katovich,E.J.S., R.L. Becker, and B.D. Kinkaid|Influence of Nontarget Neighbors and Spray Volume on Retention and Efficacy of Triclopyr in Purple Loosestrife (Lythrum salicaria)|Weed Sci.44(1): 143-147|1996|10.1017/S0043174500093681
110881|T||Pilling,E.D., M. Earl, and R.S.I. Joseph|Azoxystrobin:  Fate and Effects in the Terrestrial Environment|Br. Crop Prot. Conf. Pests Dis.1:315-321|1996|
110882|T||Arora,R., J.S. Gill, and G.C. Varma|Adverse Effects of a Chitin Synthesis Inhibitor, Diflubenzuron on Chrysoperla carnea (Stephens) and Trichogramma chilonis ishii|J. Insect Sci.6(2): 279-280|1993|
110883|T||Timchalk,C., M.D. Dryzga, and P.E. Kastl|Pharmacokinetics and Metabolism of Triclopyr (3,5,6-Trichloro-2-Pyridinyloxyacetic Acid) in Fischer 344 Rats|Toxicology62(1): 71-87|1990|10.1016/0300-483X(90)90032-C
110884|T||Schaafsma,A.W., and L. Tamburic-Ilincic|Effect of Seeding Rate and Seed Treatment Fungicides on Agronomic Performance, Fusarium Head Blight Symptoms, and DON Accumulation in Two Winter Wheats|Plant Dis.89(10): 1109-1113|2005|10.1094/PD-89-1109
110885|T||Liu,K.H., H.J. Sung, H.K. Lee, B.H. Song, Y.B. Ihm, K. Kim, H.S. Lee, and J.H. Kim|Dermal Pharmacokinetics of the Insecticide Furathiocarb in Rats|Pest Manag. Sci.58(1): 57-62|2001|10.1002/ps.422
110886|T||Somashekar,R.K.|Effects of a Fungicide Metalaxyl on the Root Meristem of Zea mays L.|Curr. Sci. (Bangalore)55(1): 43-45|1986|
110887|T||Shetty,P.K., and S.P. Magu|Influence of Metalaxyl on Glomus fasciculatum Associated with Wheat (Triticum aestivum L.)|Curr. Sci. (Bangalore)72(4): 275-277|1997|
110888|T||Carr,N.V., R.T. Segawa, S.J. Richman, and V. Quan|Monitoring of the 1990 Gypsy Moth Eradication Project|Report EH 91-1, Department of Food and Agriculture, State of California, Sacramento, CA:31 p.|1991|
110889|T||Mekuria,Y., D.C. Williams, M.A. Tidwell, and T.A. Santana|Studies of the Susceptibility of Anopheles albimanus and Anopheles vestitipennis from Dajabon, Dominican Republic, to Insecticides|Am. Mosq. Control Assoc. J.6(4): 645-650|1990|
110890|T||Neskovic,N., M. Milosevic, and R. Kljajic|Cytochrome P-450 Content and NADPH-Cytochrome c Reductase Activity in Rats Treated with Carbaryl and Propoxur|Bull. Environ. Contam. Toxicol.23(4-5): 438-444|1979|10.1007/BF01769984
110891|T||Neskovic,N.K.|Effects of Subacute Feeding of Carbaryl on Mixed Function Oxidase and on Acute Toxicity of Parathion and Propoxur in Rats|Environ. Res.20(1): 148-153|1979|10.1016/0013-9351(79)90093-8
110892|T||Pawar,S.S., and S.J. Makhija|Effect of Insecticide Intoxication on the Hepatic Microsomal Electron Transport Reactions, During Dietary Protein Variations in Young Rats|Bull. Environ. Contam. Toxicol.14(2): 197-204|1975|10.1007/BF01701314
110893|A||Bisset,J., M.M. Rodriguez, and D. Fernandez|Selection of Insensitive Acetylcholinesterase as a Resistance Mechanism in Aedes aegypti (Diptera:  Culicidae) from Santiago de Cuba|J. Med. Entomol.43(6): 1185-1189|2006|10.1093/jmedent/43.6.1185
110894|T||Idowu,O.M.O., T.F. Laniyan, O.A. Kuye, V.O. Oladele-Ojo, and D. Eruvbetine|Effect of Copper Salts on Performance, Cholesterol, Residues in Liver, Eggs and Excreta of Laying Hens|Arch. Zootec.55(212): 327-338|2006|
110895|T||Makhija,S.J., and S.S. Pawar|NADH Dependent Aminopyrine N-Demethylation and Lipid Peroxidation During Baygon Intoxication in Hepatic and Extrahepatic Guinea Pig Tissues|Bull. Environ. Contam. Toxicol.19(5): 538-544|1978|10.1007/BF01685838
110896|T||Hedin,P.A., J.A. Payne, T.L. Carpenter, and W. Neel|Sex Pheromones of the Male and Female Pecan Weevil, Curculio caryae: Behavioral and Chemical Studies|Environ. Entomol.8(3): 521-523|1979|10.1093/ee/8.3.521
110897|T||Byers,J.A., Q.H. Zhang, and G. Birgersson|Avoidance of Nonhost Plants by a Bark Beetle, Pityogenes bidentatus, in a Forest of Odors|Naturwissenschaften91(5): 215-219|2004|10.1007/s00114-004-0520-1
110898|T||Atallah,M.A., A.A. Abdelnaby, and G.E. Karaman|Laboratory Assessment of Relative Toxicity of Some Organic Insecticides to the Honey Bee|Bull. Entomol. Soc. Egypt11:149-154|1979|
110900|T||Lindsey,K.L., and J. Van Staden|Growth Inhibition of Plant Pathogenic Fungi by Extracts of Allium sativum and Tulbaghia violacea|S. Afr. J. Bot.70(4): 671-673|2004|10.1016/S0254-6299(15)30210-6
110901|T||Singh,U.S.|Studies on the Systemicity of [14C]Metalaxyl in Cowpea (Vigna unguiculata (L.)) Walp.)|Pestic. Sci.25(2): 145-154|1989|10.1002/ps.2780250206
110902|T||Smiley,R.W., and M.C. Fowler|Turfgrass Thatch Components and Decomposition Rates in Long-Term Fungicide Plots|Agron. J.78(4): 633-636|1986|10.2134/agronj1986.00021962007800040015x
110903|T||Wicks,T.J., and B. Hall|Preliminary Evaluation of Phosphorous Acid, Fosetyl-A1 and Metalaxyl for Controlling Phytophthora cambivora on Almond and Cherry|Crop Prot.7(5): 314-318|1988|10.1016/0261-2194(88)90078-6
110904|AT||Apgar,L.A., C.L. Meek, and J.P. Geaghan|Toxicity of Riceland Agrichemicals on Thermonectus basillaris (Harris), a Predator of Mosquito Larvae|Southwest. Entomol.10(3): 222-227|1985|
110906|T||Petch,G.M., R.B. Maude, and J.G. White|Effect of Film-Coat Layering of Metalaxyl on the Germination of Carrot Seeds, Their Emergence and the Control of Cavity Spot|Crop Prot.10(2): 117-120|1991|10.1016/0261-2194(91)90058-Y
110907|A||Rita,J.J.A., and M.C.J. Milton|Tolerance Limit of the Freshwater Cichlid Oreochromis mossambicus Exposed to Carbamate Pesticide Lannate (Methomyl)|J. Ecobiol.21(3): 283-288|2007|
110908|T||El-Khawaga,O.A.Y.|Role of Selenium on Antioxidant Capacity in Methomyl-Treated Mice|J. Physiol. Biochem.61(4): 501-506|2005|10.1007/BF03168375
110909|T||Miller,D.K., J.X. Zumba, D.C. Blouin, R. Bagwell, E. Burris, E.L. Clawson, B.R. Leonard, D.M. Scroggs, A.M. Stewart, an|Second-Generation Glyphosate-Resistant Cotton Tolerance to Combinations of Glyphosate with Insecticides and Mepiquat Chloride|Weed Technol.22(1): 81-85|2008|10.1614/WT-07-078.1
110910|T||Madsen,J.D., R.M. Wersal, K.D. Getsinger, and L.S. Nelson|Sensitivity of Wild Rice (Zizania palustris L.) to the Aquatic Herbicide Triclopyr|J. Aquat. Plant Manag.46:150-154|2008|
110911|T||Han,E.S., F.L. Muller, V.I. Perez, W. Qi, H. Liang, L. Xi, C. Fu, E. Doyle, M. Hickey, J. Cornell, C.J. Epstein, L.J. R|The In Vivo Gene Expression Signature of Oxidative Stress|Physiol. Genomics34(1): 112-126|2008|10.1152/physiolgenomics.00239.2007
110912|T||Rod,J.|Effect of Zineb, Metalaxyl and Iprodione on the Yield and Germination Characteristics of Radish Seeds|Tests Agrochem. Cultiv.6:64-65|1985|
110914|T||Tripp,J.M., D.R. Suiter, G.W. Bennett, J.H. Klotz, and B.L. Reid|Evaluation of Control Measures for Black Carpenter Ant (Hymenoptera:  Formicidae)|J. Econ. Entomol.93(5): 1493-1497|2000|10.1603/0022-0493-93.5.1493
110915|T||Van de Sandt,J.J.M., W.J.A. Meuling, G.R. Elliott, N.H.P. Cnubben, and B.C. Hakkert|Comparative In Vitro-In Vivo Percutaneous Absorption of the Pesticide Propoxur|Toxicol. Sci.58(1): 15-22|2000|10.1093/toxsci/58.1.15
110917|T||Smith,D., and D.F. Papacek|Studies of the Predatory Mite Amblyseius victoriensis (Acarina: Phytoseiidae) in Citrus Orchards in South-East Queensland: Control of Tegolophus australis and Phyllocoptruta oleivora (Acarina: Eriophyidae), Effect of Pe|Exp. Appl. Acarol.12(3/4): 195-217|1991|10.1007/BF01193467
110918|T||Brown,P.R., and G. Lundie-Jenkins|Non-Target Mortalities During Aerial Strychnine Baiting of House Mice|Wildl. Res.26(1): 117-128|1999|10.1071/WR98018
110919|T||Mead-Briggs,A.R., and R.C. Trout|A Field Evaluation of the Effectiveness of a Phosphine Fumigant for Mole Control|Agro-Ecosystems2(1): 1-13|1975|10.1016/0304-3746(75)90002-5
110920|AT||Hemingway,J., K.G.I. Jayawardena, I. Weerasinghe, and P.R.J. Herath|The Use of Biochemical Tests to Identify Multiple Insecticide Resistance Mechanisms in Field-Selected Populations of Anopheles subpictus Grassi (Diptera:  Culicidae)|Bull. Entomol. Res.77(1): 57-66|1987|10.1017/S0007485300011536
110921|T||Hii,J.L.K.|Insecticide Susceptibility Studies of Three Cryptic Species of the Anopheles balabacensis Complex|Southeast Asian J. Trop. Med. Public Health15(1): 104-111|1984|
110922|T||Benzick,A.E., S.L. Reddy, S. Gupta, L.K. Rogers, and C.V. Smith|Diquat- and Acetaminophen-Induced Alterations of Biliary Efflux of Iron in Rats|Biochem. Pharmacol.47(11): 2079-2085|1994|10.1016/0006-2952(94)90084-1
110923|T||Crabtree,H.C., and M.S. Rose|Early Effects of Diquat on Plasma Corticosteroid Concentrations in Rats|Biochem. Pharmacol.25(22): 2465-2468|1976|10.1016/0006-2952(76)90449-4
110924|T||Ubels,J.L., H.F. Edelhauser, B.J. Nemiroff, L.A. Meyer, and C.L. Dickerson|Ocular Miotic and Irritative Effects of Aerosol and Topically Applied Dichlorvos and Propoxur Insecticides on Rabbit and Monkey Eyes|J. Toxicol. Cutan. Ocul. Toxicol.6(2): 61-77|1987|10.3109/15569528709052166
110925|A||Paul,E.A., and H.A. Simonin|Toxicity of Diquat and Endothall to Eastern Spiny Softshell Turtles (Apalone spinifera spinifera)|J. Aquat. Plant Manag.45:52-54|2007|
110926|A||Patil,N.S., K.S. Lole, and D.N. Deobagkar|Adaptive Larval Thermotolerance and Induced Cross-Tolerance to Propoxur Insecticide in Mosquitoes Anopheles stephensi and Aedes aegypti|Med. Vet. Entomol.10(3): 277-282|1996|10.1111/j.1365-2915.1996.tb00743.x
110927|T||Ngoula,F., P. Watcho, T.S. Bouseko, A. Kenfack, J. Tchoumboue, and P. Kamtchouing|Effects of Propoxur on the Reproductive System of Male Rats|Afr. J. Reprod. Health11(1): 125-132|2007|10.2307/30032495
110928|T||Bariola,L.A., and D. Bergman|Toxicity of Selected Insecticides to Boll Weevils in Arizona|Southwest. Entomol.7(3): 142-145|1982|
110929|T||Swier,S.R.|Ant Control on Golf Course Fairways, NH 1994|Arthropod Manag. Tests21:342-|1996|
110930|A||Tilak,K.S., K.S. Vardhan, and B.S. Kumar|Comparative Toxicity Levels of Ammonia, Nitrite and Nitrate to the Freshwater Fish Ctenopharyngodon idella|J. Ecotoxicol. Environ. Monit.16(3): 273-278|2006|
110931|A||Weirich,C.R., and M. Riche|Acute Tolerance of Juvenile Florida Pompano, Trachinotus carolinus L., to Ammonia and Nitrite at Various Salinities|Aquac. Res.37(9): 855-861|2006|10.1111/j.1365-2109.2006.01502.x
110932|A||Tilak,K.S., K. Veeraiah, and S.J. Lakshmi|Effects of Ammonia, Nitrate and Nitrite on Toxicity and Haematological Changes in the Carps|J. Ecotoxicol. Environ. Monit.16(1): 9-12|2006|
110933|T||Swier,S.R., and A. Rollins|Control of Ants on Golf Course Fairway, 1995|Arthropod Manag. Tests21:329-330|1996|
110934|T||Chun,S.Y.|Some Aspects of Dietary Garlic, Selenium and Tocopherol, in the Nutrition of Animal|Korean J. Food Sci. Technol.5(2): 119-128|1973|
110935|T||MacQuillan,M.J.|Evaluation of Chlorpyrifos and Fenchlorphos for Control of Major Insect Pests of Pastures in Australia|Aust. J. Exp. Agric. Anim. Husb.15(75): 550-555|1975|10.1071/EA9750550
110936|T||Giordani,C., M.E. Fernandez, A.L. Soraci, and J.O. Errecalde|Decamethrin Convulsive Effects and Its Reversion with Diazepam|Comun. Biol.8(1): 11-20|1989|
110937|T||Smith,C.V., H. Hughes, B.H. Lauterburg, and J.R. Mitchell|Oxidant Stress and Hepatic Necrosis in Rats Treated with Diquat|J. Pharmacol. Exp. Ther.235(1): 172-177|1985|
110938|T||Limsuwan,S., B. Priess, N. Tansakul, H. Nau, M. Kietzmann, and G. Hamscher|Penetration Studies of Propoxur and Phoxim from Eggshell into Whole Egg After Experimental Exposure and Application in Henhouses|J. Agric. Food Chem.55(15): 6401-6405|2007|10.1021/jf070987p
110939|A||Georghiou,G.P., M. Wirth, H. Tran, F. Saume, and A.B. Knudsen|Potential for Organophosphate Resistance in Aedes aegypti (Diptera:  Culicidae) in the Caribbean Area and Neighboring Countries|J. Med. Entomol.24(3): 290-294|1987|10.1093/jmedent/24.3.290
110940|T||Singh,U.S., R.K. Tripathi, J. Kumar, and T.S. Dwivedi|Uptake, Translocation, Distribution and Persistence of 14C-Metalaxyl in Pearl Millet (Pennisetum americanum) (L.) Leeke|J. Phytopathol.117(2): 122-135|1986|10.1111/j.1439-0434.1986.tb00636.x
110941|A||Vaishampayan,A.|Mutagenicity of a Bipyridylium Herbicide in an N2-Fixing Cyanobacterium Nostoc muscorum|Environ. Int.10:285-290|1984|10.1016/0160-4120(84)90133-8
110942|T||Burris,G., D. Cook, B.R. Leonard, J.B. Graves, and J. Pankey|Temik 15G Evaluated with Selected Fungicides and Pythium inoculum Alone and in Combination, 1995|Arthropod Manag. Tests21:242-|1996|10.1093/amt/21.1.242
110944|AT||Schaefer,C.H., and E.F.,Jr. Dupras|Residues of Diflubenzuron (1-(4-Chlorophenyl) -3- (2,6-Difluorobenzoyl)Urea) in Pasture Soil, Vegetation, and Water Following Aerial Applications|J. Agric. Food Chem.25(5): 1026-1030|1977|10.1021/jf60213a013
110945|T||El-Bahrawy,A.A.F., M.G. Vijver, and G.R. de Snoo|Threats and Control of the Brown Necked Ravens (Corvus ruficollis) in Egypt|Commun. Agric. Appl. Biol. Sci.72(2): 221-232|2007|
110946|AT||Miura,T., and R.M. Takahashi|Effects of Dimilin on Nontarget Organisms: Repeated Utilizations on the Same Habitats as a Mosquito Larvicide|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.44:86-89|1976|
110947|AT||Shea,P.J.|Testing of Chemical and Microbial Insecticides for Safety...Some Techniques|Bull. Entomol. Soc. Am.23(3): 176-178|1977|10.1093/besa/23.3.176
110949|T||Smith,C.V.|Evidence for Participation of Lipid Peroxidation and Iron in Diquat-Induced Hepatic Necrosis In Vivo|Mol. Pharmacol.32(3): 417-422|1987|
110950|T||Tsokos-Kuhn,J.O., C.V. Smith, H. Hughes, and J.R. Mitchell|Liver Membrane Calcium Transport in Diquat-Induced Oxidative Stress In Vivo|Mol. Pharmacol.34(2): 209-214|1988|
110951|T||Wimmer,M.J., R.R. Smith, D.L. Wellings, S.R. Toney, D.C. Faber, J.E. Miracle, J.T. Carnes, and A.B. Rutherford|Persistence of Diflubenzuron on Appalachian Forest Leaves After Aerial Application of Dimilin|J. Agric. Food Chem.41(11): 2184-2190|1993|10.1021/jf00035a069
110952|T||Gettinger,R.D.|Effects of Chemical Insect Repellents on Small Mammal Trapping Yield|Am. Midl. Nat.124(1): 181-184|1990|10.2307/2426091
110953|T||Randall,D.J., and R.M. Bannister|Acute Toxicologic Evaluation of Mercaptobenzothiazole|J. Am. Coll. Toxicol.1(1): 62-|1990|
110954|T||Barrows,E.M., S.S. Wolf, and D.M. Lynch|Diflubenzuron Effect on Yellowjacket (Hymenoptera:  Vespidae) Worker Numbers in a Central Appalachian Broadleaf Forest|J. Econ. Entomol.87(6): 1488-1493|1994|10.1093/jee/87.6.1488
110955|T||Das,A.C., A. Chakravarty, P. Sukul, and D. Mukherjee|Insecticides:  Their Effect on Microorganisms and Persistence in Rice Soil|Microbiol. Res.150(2): 187-194|1995|10.1016/S0944-5013(11)80055-8
110956|A||Mikhail,M.W., K.M. Al-Bursheed, and K.A.M. Allam|Susceptibility of Culex pipiens Complex to Some Insecticides in Qatar|J. Egypt. Soc. Parasitol.37(3): 893-902|2007|
110957|A||Bhide,M., and P. Gupta|Deviation of Negatively Charged Protein Fractions in the Trochophore and Veliger Larvae by the Larvicidal Action of Baygon in Freshwater Pulmonate Gyraulus convexiusculus (Planorbidae)|J. Environ. Biol.27(4): 745-751|2006|
110958|T||Futagawa,H., Y. Kakinuma, and H. Takahashi|Cardiovascular Collapse Through Non-Cholinergic Mechanism After Intravenous Injection of N-Methylcarbamate Insecticide in Rabbits|Toxicology117(2/3): 163-170|1997|10.1016/S0300-483X(96)03568-8
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110960|T||Anton,P.M., V. Theodorou, V. Bertrand, H. Eutamene, T. Aussenac, N. Feyt, J. Fioramonti, and L. Bueno|Chronic Ingestion of a Potential Food Contaminant Induces Gastrointestinal Inflammation in Rats. Role of Nitric Oxide and Mast Cells|Dig. Dis. Sci.45(9): 1842-1849|2000|10.1023/A:1005509623060
110961|T||Madhu,C., Z. Gregus, and C.D. Klaassen|Marked Interanimal Differences in Susceptibility of Sprague-Dawley Rats to Diquat-Induced Oxidative Stress in the Liver:  Correlation with Hepatic Uptake of Diquat|J. Pharmacol. Exp. Ther.263(3): 1003-1008|1992|
110962|T||Milgroom,M.G., C.E. McCulloch, and W.E. Fry|Distribution and Temporal Dynamics of Metalaxyl in Potato Foliage|Phytopathology78(5): 555-559|1988|10.1094/Phyto-78-555
110963|T||Reddy,M.V.B., H.S. Shetty, and M.K.K. Kumari|Acute Toxicity of Apron 35WS a Seed Dressing Formulation of Systemic Fungicide Metalaxyl (Ridomil) to Albino Rats|Comp. Physiol. Ecol.15(2): 51-57|1990|
110964|T||Anton,P.M., V. Theodorou, S. Roy, J. Fioramonti, and L. Bueno|Pathways Involved in Mild Gastrointestinal Inflammation Induced by a Low Level Exposure to a Food Contaminant|Dig. Dis. Sci.47(6): 1308-1315|2002|10.1023/A:1015322514547
110965|T||Ingham,E.R., C. Cambardella, and D.C. Coleman|Manipulation of Bacteria, Fungi and Protozoa by Biocides in Lodgepole Pine Forest Soil Microcosms: Effects on Organism Interactions and Nitrogen Mineralization|Can. J. Soil Sci.66(2): 261-272|1986|10.4141/cjss86-028
110966|T||Schmehl,M.K., I.A. Vazquez, and E.F. Graham|The Effects of Nonpenetrating Cryoprotectants Added to TEST-Yolk-Glycerol Extender on the Post-Thaw Motility of Ram Spermatozoa|Cryobiology23(6): 512-517|1986|10.1016/0011-2240(86)90060-X
110967|T||Paolini,M., R. Mesirca, L. Pozzetti, A. Sapone, and G. Cantelli-Forti|Biomarkers of Effect in Evaluating Metalaxyl Cocarcinogenesis Selective Induction of Murine CYP 3A Isoform|Mutat. Res.361(2-3): 157-164|1996|10.1016/S0165-1161(96)90250-2
110968|T||Ulloa-Chacon,P., and G.I. Jaramillo|Effects of Boric Acid, Fipronil, Hydramethylnon, and Diflubenzuron Baits on Colonies of Ghost Ants (Hymenoptera: Formicidae)|J. Econ. Entomol.96(3): 856-862|2003|10.1603/0022-0493-96.3.856
110969|T||Makhija,S.J., and S.S. Pawar|Alterations in Hepatic Drug Metabolism and Lipid Peroxidation During Administration of Baygon, a Pesticide|Chem.-Biol. Interact.10(4): 295-299|1975|10.1016/0009-2797(75)90094-0
110970|T||Makhija,S.J., and S.S. Pawar|Effects of Atropine Sulphate Treatment on Hepatic Mixed Function Oxidase System During Baygon Intoxication|Bull. Environ. Contam. Toxicol.16(1): 90-97|1976|10.1007/BF01753111
110971|T||Sample,B.E., L. Butler, and R.C. Whitmore|Effects of an Operational Application of Dimilin on Non-Target Insects|Can. Entomol.125(2): 173-179|1993|10.4039/Ent125173-2
110972|T||Sample,B.E., R.J. Cooper, and R.C. Whitmore|Dietary Shifts Among Songbirds from a Diflubenzuron-Treated Forest|Condor95(3): 616-624|1993|10.2307/1369605
110973|T||Futagawa,H., Y. Kakinuma, and H. Takahashi|The Role of Cholinergic and Noncholinergic Mechanisms in the Cardiorespiratory Failure Produced by N-Methylcarbamate Cholinesterase Inhibitors in Rabbits|Toxicol. Appl. Pharmacol.165(1): 27-36|2000|10.1006/taap.2000.8924
110974|T||Gupta,R.C., and W.L. Kadel|Toxic Interaction of Tetraisopropylpyrophosphoramide and Propoxur:  Some Insights into the Mechanisms|Arch. Environ. Contam. Toxicol.19(6): 917-920|1990|10.1007/BF01055061
110975|T||Kobayashi,H., A. Yuyama, T. Kajita, K. Shimura, T. Ohkawa, and K. Satoh|Effects of Insecticidal Carbamates on Brain Acetylcholine Content, Acetylcholinesterase Activity and Behavior in Mice|Toxicol. Lett.29(2/3): 153-159|1985|
110976|T||Ramos,M.L.G., and W.Q.,Jr. Ribeiro|Effect of Fungicides on Survival of Rhizobium on Seeds and the Nodulation of Bean (Phaseolus vulgaris L.)|Plant Soil152(1): 145-150|1993|10.1007/BF00016344
110977|A||Erkmen,B., M. Caliskan, and S.V. Yerli|Histopathological Effects of Cyphenothrin on the Gills of Lebistes reticulatus|Vet. Hum. Toxicol.42(1): 5-7|2000|
110978|T||Buntin,G.D.|Insecticidal Control of Cereal Leaf Beetle in Winter Wheat, 1998|Arthropod Manag. Tests24:320-|1999|
110979|T||Hull,L.A., and G. Krawczyk|Acaricide Airblast Evaluation, 1998|Arthropod Manag. Tests24:33-35|1999|
110981|A||McGregor,E.B., K.R. Solomon, and M.L. Hanson|Monensin is not Toxic to Aquatic Macrophytes at Environmentally Relevant Concentrations|Arch. Environ. Contam. Toxicol.53(4): 541-551|2007|10.1007/s00244-007-0002-5
110982|A||Moore,M.T., S.L. Greenway, J.L. Farris, and B. Guerra|Assessing Caffeine as an Emerging Environmental Concern Using Conventional Approaches|Arch. Environ. Contam. Toxicol.54(1): 31-35|2008|10.1007/s00244-007-9059-4
110983|T||Newsted,J.L., S.A. Beach, S.P. Gallagher, and J.P. Giesy|Pharmacokinetics and Acute Lethality of Perfluorooctanesulfonate (PFOS) to Juvenile Mallard and Northern Bobwhite|Arch. Environ. Contam. Toxicol.50(3): 411-420|2006|10.1007/s00244-005-1137-x
110984|T||Newsted,J.L., S.A. Beach, S.P. Gallagher, and J.P. Giesy|Acute and Chronic Effects of Perfluorobutane Sulfonate (PFBS) on the Mallard and Northern Bobwhite Quail|Arch. Environ. Contam. Toxicol.54(3): 535-545|2008|10.1007/s00244-007-9039-8
110985|A||Sanderson,H., B. Laird, L. Pope, R. Brain, C. Wilson, D. Johnson, G. Bryning, A.S. Peregrine, A. Boxall, and K. Solomon|Assessment of the Environmental Fate and Effects of Ivermectin in Aquatic Mesocosms|Aquat. Toxicol.85(4): 229-240|2007|10.1016/j.aquatox.2007.08.011
110986|T||Ucisik,A.S., and S. Trapp|Uptake, Removal, Accumulation, and Phytotoxicity of 4-Chlorophenol in Willow Trees|Arch. Environ. Contam. Toxicol.54(4): 619-627|2008|10.1007/s00244-007-9065-6
110987|A||Wilson,W.A., B.J. Konwick, A.W. Garrison, J.K. Avants, and M.C. Black|Enantioselective Chronic Toxicity of Fipronil to Ceriodaphnia dubia|Arch. Environ. Contam. Toxicol.54(1): 36-43|2008|10.1007/s00244-007-9003-7
110988|T||Melnick,R.L., A. Nyska, P.M. Foster, J.H. Roycroft, and G.E. Kissling|Toxicity and Carcinogenicity of the Water Disinfection Byproduct, Dibromoacetic Acid, in Rats and Mice|Toxicology230(2-3): 126-136|2007|10.1016/j.tox.2006.11.006
110989|T||Koller,W., W.F. Wilcox, J. Barnard, A.L. Jones, and P.G. Braun|Detection and Quantification of Resistance of Venturia inaequalis Populations to Sterol Demethylation Inhibitors|Phytopathology87(2): 184-190|1997|10.1094/PHYTO.1997.87.2.184
110990|T||Shtienberg,D., D. Blachinsky, Y. Kremer, G. Ben-Hador, and A. Dinoor|Integration of Genotype and Age-Related Resistances to Reduce Fungicide Use in Management of Alternaria Diseases of Cotton and Potato|Phytopathology85(9): 995-1002|1995|10.1094/Phyto-85-995
110991|T||Gottwald,T.R.|Spatio-Temporal Analysis and Isopath Dynamics of Citrus Scab in Nursery Plots|Phytopathology85(10): 1082-1092|1995|10.1094/Phyto-85-1082
110992|T||Peever,T.L., and M.G. Milgroom|Genetic Correlations in Resistance to Sterol Biosynthesis-Inhibiting Fungicides in Pyrenophora teres|Phytopathology83(10): 1076-1082|1993|10.1094/Phyto-83-1076
110993|T||Miller,D.K., M.M. Dopheide, S.M. Smith, and S.W. Casteel|Dietary Cadmium Exposure Attenuates d-Amphetamine-Evoked (3H)Dopamine Release from Striatal Slices and Methamphetamine-Induced Hyperactivity|Pharmacol. Biochem. Behav.80(4): 557-566|2005|10.1016/j.pbb.2005.01.008
110994|T||Malpass,A., J.M. White, R.J. Irvine, A.A. Somogyi, and F. Bochner|Acute Toxicity of 3,4-Methylenedioxymethamphetamine (MDMA) in Sprague-Dawley and Dark Agouti Rats|Pharmacol. Biochem. Behav.64(1): 29-34|1999|10.1016/S0091-3057(99)00116-1
110995|T||Shtienberg,D., H. Vintal, S. Brener, and B. Retig|Rational Management of Didymella rabiei in Chickpea by Integration of Genotype Resistance and Postinfection Application of Fungicides|Phytopathology90(8): 834-842|2000|10.1094/PHYTO.2000.90.8.834
110996|T||Hinton,J.L., and R.D. Moon|The Susceptibility of Two House Fly Strains to Cyromazine, 1998|Arthropod Manag. Tests24:400-|1999|10.1093/amt/24.1.L9
110997|T||Mulder,P.G.Jr., R.A. Grantham, M.W. Smith, and B.S. Cheary|Pecan Weevil Control in Pecans, Sparks, OK, 1998|Arthropod Manag. Tests24:94-|1999|
110998|T||Van Steenwyk,R.A., and W.W. Coates|Peach Twig Borer Control on Apricots, 1998|Arthropod Manag. Tests24:59-|1999|
110999|A||Nalecz-Jawecki,G.|In Vitro Biotransformation of Amitriptyline and Imipramine with Rat Hepatic S9 Fraction:  Evaluation of the Toxicity with Spirotox and Thamnotoxkit FTM Tests|Arch. Environ. Contam. Toxicol.54(2): 266-273|2008|10.1007/s00244-007-9052-y
111000|A||Kurelec,B., and B. Pivcevic|Evidence for a Multixenobiotic Resistance Mechanism in the Mussel Mytilus galloprovincialis|Aquat. Toxicol.19:291-302|1991|10.1016/0166-445X(91)90054-D
111001|T||Adaskaveg,J.E., and R.J. Hartin|Characterization of Colletotrichum Acutatum Isolates Causing Anthracnose of Almond and Peach in California|Phytopathology87(9): 979-987|1997|10.1094/PHYTO.1997.87.9.979
111002|T||Erickson,E.O., and W.F. Wilcox|Distributions of Sensitivities to Three Sterol Demethylation Inhibitor Fungicides Among Populations of Uncinula Necator Sensitive and Resistant to Triadimefon|Phytopathology87(8): 784-791|1997|10.1094/PHYTO.1997.87.8.784
111003|T||Kato,M., E.S. Mizubuti, S.B. Goodwin, and W.E. Fry|Sensitivity to Protectant Fungicides and Pathogenic Fitness of Clonal Lineages of Phytophthora infestans in the United States|Phytopathology87(9): 973-978|1997|10.1094/PHYTO.1997.87.9.973
111004|T||Broome,J.C., J.T. English, J.J. Marois, B.A. Latorre, and J.C. Aviles|Development of an Infection Model for Botrytis Bunch Rot of Grapes Based on Wetness Duration and Temperature|Phytopathology85(1): 97-102|1995|10.1094/Phyto-85-97
111005|A||Roales,R.R.|The Effects of Sub-lethal Doses of Methylmercury and Copper, Applied Separately and Jointly, on the Immune Response of the Blue Gourami, Trichogaster trichopterus|Ph.D.Thesis, New York University:103 p.|1973|
111006|A||Choi,T.Y., J.H. Kim, D.H. Ko, C.H. Kim, J.S. Hwang, S. Ahn, S.Y. Kim, C.D. Kim, J.H. Lee, and T.J. Yoon|Zebrafish as a New Model for Phenotype-Based Screening of Melanogenic Regulatory Compounds|Pigm. Cell Res.20(2): 120-127|2007|10.1111/j.1600-0749.2007.00365.x
111007|T||Clark,D.C.|Agronomic Implications of Some Morphological and Biochemical Effects of Trifloxystrobin in Wheat Growing|Pflanzenschutz-Nachr. Bayer (English Ed.)56(2): 281-296|2003|
111008|T||Webb,R.E., M. Shapiro, J.D. Podgwaite, R.C. Reardon, K.M. Tatman, L. Venables, and D.M. Kolodny-Hirsch|Effect of Aerial Spraying with Dimilin, Dipel, or Gypchek on Two Natural Enemies of the Gypsy Moth (Lepidoptera: Lymantriidae)|J. Econ. Entomol.82(6): 1695-1701|1989|10.1093/jee/82.6.1695
111009|A||Ho,C.M., S.H. Wu, and C.C. Wu|Evaluation of the Control of Mosquitoes with Insect Growth Regulators|Kaohsiung J. Med. Sci.6(7): 366-374|1990|
111010|AT||Praksh,A.|Differential Susceptibility of Various Life Stages of Mosquitoes to Certain Chitin Synthesis Inhibitors|Entomon18(3/4): 151-157|1993|
111011|T||Makhija,S.J., and S.S. Pawar|Oral Intoxication of Insecticides & Hepatic Mixed Function Oxidase System in Rats|Indian J. Exp. Biol.15(4): 290-293|1977|
111012|T||Wellings,N.P., J.P. Thompson, and M.L. Fiske|Phytotoxicity of Phosphonic (Phosphorus) Acid and Fosetyl-Al to the Host in Mycorrhizal Cultures on Maize|Australas. Plant Pathol.19(4): 141-142|1990|10.1071/APP9900141
111013|T||Walker,G.E.|Phytotoxicity in Mandarins Caused by Phosphorous Acid|Australas. Plant Pathol.18(3): 57-59|1989|10.1071/APP9890057
111014|A||Porsbring,T., A. Arrhenius, T. Backhaus, M. Kuylenstierna, M. Scholze, and H. Blanck|The SWIFT Periphyton Test for High-Capacity Assessments of Toxicant Effects on Microalgal Community Development|J. Exp. Mar. Biol. Ecol.349(2): 299-312|2007|10.1016/j.jembe.2007.05.020
111015|A||Zamora-Ley,I.M., P.R. Gardinali, and F.J. Jochem|Assessing the Effects of Irgarol 1051 on Marine Phytoplankton Populations in Key Largo Harbor, Florida|Mar. Pollut. Bull.52(8): 935-941|2006|10.1016/j.marpolbul.2005.12.010
111016|A||Minsuk,S.B., and R.A. Raff|Co-Option of an Oral-Aboral Patterning Mechanism to Control Left-Right Differentiation:  The Direct-Developing Sea Urchin Heliocidaris erythrogramma is Sinistralized, not Ventralized, by NiCl2|Evol. Dev.7(4): 289-300|2005|10.1111/j.1525-142X.2005.05035.x
111017|T||Zasada,I.A., and H. Ferris|Sensitivity of Meloidogyne javanica and Tylenchulus semipenetrans to Isothiocyanates in Laboratory Assays|Phytopathology93(6): 747-750|2003|10.1094/PHYTO.2003.93.6.747
111018|T||Forster,H., L. Kanetis, and J.E. Adaskaveg|Spiral Gradient Dilution, a Rapid Method for Determining Growth Responses and 50% Effective Concentration Values in Fungus-Fungicide Interactions|Phytopathology94(2): 163-170|2004|10.1094/PHYTO.2004.94.2.163
111019|T||Sedbrook,J.C., D.W. Ehrhardt, S.E. Fisher, W.R. Scheible, and C.R. Somerville|The Arabidopsis SKU6/SPIRAL1 Gene Encodes a Plus End-Localized Microtubule-Interacting Protein Involved in Directional Cell Expansion|Plant Cell16(6): 1506-1520|2004|10.1105/tpc.020644
111020|T||Hutchinson,M.J., S. Krishnaraj, and P.K. Saxena|Inhibitory Effect of GA3 on the Development of Thidiazuron-Induced Somatic Embryogenesis in Geranium (Pelargonium x hortorum Bailey) Hypocotyl Cultures|Plant Cell Rep.16(6): 435-438|1997|
111021|T||Nogueira,M.A., U. Nehls, R. Hampp, K. Poralla, and E.J.B.N. Cardoso|Mycorrhiza and Soil Bacteria Influence Extractable Iron and Manganese in Soil and Uptake by Soybean|Plant Soil298(1-2): 273-284|2007|10.1007/s11104-007-9379-1
111022|T||Tripler,E., A. Ben-Gal, and U. Shani|Consequence of Salinity and Excess Boron on Growth, Evapotranspiration and Ion Uptake in Date Palm (Phoenix dactylifera L., cv. Medjool)|Plant Soil297(1/2): 147-155|2007|10.1007/s11104-007-9328-z
111023|T||Koelbener,A., D. Ramseier, and M. Suter|Competition Alters Plant Species Response to Nickel and Zinc|Plant Soil303(1-2): 241-251|2008|10.1007/s11104-007-9503-2
111024|T||Wideman,R.F.,Jr., D.M. Hooge, and K.R. Cummings|Dietary Sodium Bicarbonate, Cool Temperatures, and Feed Withdrawal:  Impact on Arterial and Venous Blood-Gas Values in Broilers|Poult. Sci.82:560-570|2003|10.1093/ps/82.4.560
111025|T||Requejo,R., and M. Tena|Maize Response to Acute Arsenic Toxicity as Revealed by Proteome Analysis of Plant Shoots|Proteomics6(Suppl. 1): S156 - S162|2006|
111026|T||Fuhrs,H., M. Hartwig, L.E.B. Molina, D. Heintz, A. Van Dorsselaer, H.P. Braun, and W.J. Horst|Early Manganese-Toxicity Response in Vigna unguiculata L.- a Proteomic and Transcriptomic Study|Proteomics8(1): 149-159|2008|10.1002/pmic.200700478
111027|T||Gimenez-Abian,M.I., F. Panzera, J.F. Lopez-Saez, J.F. Gimenez-Abian, C. De la Torre, and G. Gimenez-Martin|Immediate Disruption of Spindle Poles and Induction of Additional Microtubule-Organizing Centres by a Phenylcarbamate, During Plant Mitosis|Protoplasma (Multiple Languages)204(3): 119-127|1998|10.1007/BF01280318
111029|T||Ema,M., H. Hara, M. Matsumoto, M. Hirata-Koizumi, A. Hirose, and E. Kamata|Evaluation of Developmental Neurotoxicity of Polysorbate 80 in Rats|Reprod. Toxicol.25(1): 89-99|2008|10.1016/j.reprotox.2007.08.003
111030|T||Mao,Y., X. Zhang, L. Li, B. Yuan, and G. Lu|Subchronic Toxicity and Toxicokinetics of LZB, a new Proton Pump Inhibitor, After 13-Week Repeated Oral Administration in Dogs|Regul. Toxicol. Pharmacol.50(1): 75-86|2008|10.1016/j.yrtph.2007.10.006
111032|T||Stump,D.G., J.F. Holson, S.R. Murphy, C.H. Farr, B. Schmit, and M. Shinohara|An Oral Two-Generation Reproductive Toxicity Study of S-111-S-WB in Rats|Reprod. Toxicol.25(1): 7-20|2008|10.1016/j.reprotox.2007.10.002
111033|A||Achiorno,C.L., C.D. Villalobos, and L. Ferrari|Toxicity of the Herbicide Glyphosate to Chordodes nobilii (Gordiida, Nematomorpha)|Chemosphere71(10): 1816-1822|2008|10.1016/j.chemosphere.2008.02.001
111034|AT||Gao,Y., Q. Shen, W. Ling, and L. Ren|Uptake of Polycyclic Aromatic Hydrocarbons by Trifolium pretense L. from Water in the Presence of a Nonionic Surfactant|Chemosphere72(4): 636-643|2008|10.1016/j.chemosphere.2008.02.032
111035|T||Conn,K.L., M. Tenuta, and G. Lazarovits|Liquid Swine Manure can Kill Verticillium dahliae Microsclerotia in Soil by Volatile Fatty Acid, Nitrous Acid, and Ammonia Toxicity|Phytopathology95(1): 28-35|2005|10.1094/PHYTO-95-0028
111036|T||Yermiyahu,U., A. Ben-Gal, R. Keren, and R.J. Reid|Combined Effect of Salinity and Excess Boron on Plant Growth and Yield|Plant Soil304(1-2): 73-87|2008|10.1007/s11104-007-9522-z
111037|T||Romera,F.J., E. Alcantara, and M.D. De la Guardia|"The Induction of the ""Turbo Reductase"" is Inhibited by Cycloheximide, Cordycepin and Ethylene Inhibitors in Fe-Deficient Cucumber (Cucumis sativus L.) Plants"|Protoplasma (Multiple Languages)205(1-4): 156-162|1998|10.1007/BF01279305
111038|T||Shukla,Y., S.M. Baqar, and N.K. Mehrotra|Carcinogenicity and Co-Carcinogenicity Studies on Propoxur in Mouse Skin|Food Chem. Toxicol.36(12): 1125-1130|1998|10.1016/S0278-6915(98)00083-0
111039|T||Kopittke,P.M., F.P.C. Blamey, and N.W. Menzies|Toxicities of Soluble Al, Cu, and La Include Ruptures to Rhizodermal and Root Cortical Cells of Cowpea|Plant Soil303(1-2): 217-227|2008|10.1007/s11104-007-9500-5
111040|T||Datta,A., B.M. Sindel, P. Kristiansen, R.S. Jessop, and W.L. Felton|The Effect of Soil pH on Chickpea (Cicer arietinum) Genotype Sensitivity to Isoxaflutole|Plant Soil303(1/2): 49-54|2008|10.1007/s11104-007-9430-2
111041|A||Hanson,R., D.K. Dodoo, and D.K. Essumang|Uptake and Toxicity of Some Pesticides on Three Freshwater Fishes (Oreochromis niloticus, Clarias gariepinus and Chrysicthys nigrodigitatus)|Toxicol. Environ. Chem.89(1): 111-123|2007|10.1080/02772240600949931
111042|T||Simonovicova,M., J. Huttova, I. Mistrik, B. Siroka, and L. Tamas|Root Growth Inhibition by Aluminum is Probably Caused by Cell Death due to Peroxidase-Mediated Hydrogen Peroxide Production|Protoplasma (Multiple Languages)224(1-2): 91-98|2004|10.1007/s00709-004-0054-6
111043|T||Wierzbicka,M.|The Effect of Lead on the Cell Cycle in the Root Meristem of Allium cepa L|Protoplasma (Multiple Languages)207(3-4): 186-194|1999|10.1007/BF01282999
111045|T||Thompson,J., L. Wong, P.S. Lau, and J. Bannigan|Adherens Junction Breakdown in the Periderm Following Cadmium Administration in the Chick Embryo:  Distribution of Cadherins and Associated Molecules|Reprod. Toxicol.25(1): 39-46|2008|10.1016/j.reprotox.2007.10.003
111046|T||Malinowski,H.|Acylurea Insect Growth Regulators in Integrated Control of Forest Pest Insects|In: H.Malinowski and G.Tsankov (Eds.), Proceedings of the International Symposium on Biological and Integrated Forest Protection, Sekocin, Poland:251-259|1995|
111047|T||Lowden,S., S. Gray, and K. Dawson|Treatment of Natural Infestations of the Biting Louse (Werneckiella equi) on Horses Using Triflumuron, a Benzoylurea Derivative Insect Growth Regulator|Vet. Parasitol.148(3/4): 295-300|2007|10.1016/j.vetpar.2007.06.019
111048|T||Stocki,J.|Diprionidae Outbreak in the Kampinos National Park in 1991-94|In: H.Malinowski and G.Tsankov (Eds.), Proceedings of the International Symposium on Biological and Integrated Forest Protection, Sekocin, Poland:281-285|1995|
111049|T||Lloyd,J.E., R. Kumar, and J.W. Waggoner|Evaluation of Dimilin 1 and 2% Pour-on for Control of Cattle Lice in Wyoming, 1991|Insectic. Acaric. Tests17:383-|1992|10.1093/iat/17.1.383a
111050|T||Lloyd,J.E., and R. Kumar|Sheep Ked Control with Dimilin as a 0.2% Spray, 1989|Insectic. Acaric. Tests16:287-288|1991|10.1093/iat/16.1.287
111051|AT||Bernhardt,J.L.|Control of Rice Water Weevil with Dimilin, 1996B|Arthropod Manag. Tests22:288-289|1997|
111052|T||Moreau,J.M., B. Bodson, H. Maraite, and F. Vancutsem|Individual and Combined Effects of Dosages of Azoxystrobin and Epoxiconazole in Wheat|Commun. Agric. Appl. Biol. Sci.70(3): 91-99|2005|
111053|T||Navarro,S., J. Oliva, G. Navarro, and A. Barba|Dissipation of Chlorpyrifos, Fenarimol, Mancozeb, Metalaxyl, Penconazole, and Vinclozolin in Grapes|Am. J. Enol. Vitic.52(1): 35-40|2001|10.5344/ajev.2001.52.1.35
111054|A||Child,L.E., and D. Spencer-Jones|Treatment of Crassula helmsii - A Case Study|In: P.Pysek, et.al. (Eds.), Plant Invasions: General Aspects and Special Problems, Hague, Netherlands:195-202|1995|
111055|T||Abo-El-Saad,M., M. Marzouk, and M. Shawir|Molecular Interactions Correlated to Field Tolerance of Spodoptera littoralis (Bosid) to Certain Insecticides|Alex. Sci. Exch.19(1): 39-50|1998|
111056|A||Gatidou,G., A. Kotrikla, V. Rontogianni, N.S. Thomaidis, and T.D. Lekkas|Toxic Effects of the Antifouling Biocide Irgarol 1051 and Its Principal Metabolite on the Green Alga Dunaliella tertiolecta|In: Proceedings of the 8th International Conference on Environmental Science and Technology, Houston, TX:240-247|2003|
111057|AT||Kawada,H., Y. Shono, T. Ito, and Y. Abe|Laboratory Evaluation of Insect Growth Regulators Against Several Species of Anopheline Mosquitoes|Eisei Dobutsu44(4): 349-353|1993|10.7601/mez.44.349
111058|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil on Dry-Seeded Rice with Diflubenzuron at Beaumont, 1996|Arthropod Manag. Tests22:301-|1997|10.1093/amt/22.1.301
111059|T||Smith,C.V.|Effect of BCNU Pretreatment on Diquat-Induced Oxidant Stress and Hepatotoxicity|Biochem. Biophys. Res. Commun.144(1): 415-421|1987|10.1016/S0006-291X(87)80526-0
111060|A||Mohsen,Z.H., Z.R. Zahid, B. Al-Chalabi, and N.S. Mehdi|Biological Activity of the IGR Diflubenzuron on Larvae of Culex quinquefasciatus Say|J. Biol. Sci. Res.17(1): 279-288|1986|
111061|T||Beck,L., J. Rombke, A. Ruf, A. Prinzing, and S. Woas|Effects of Diflubenzuron and Bacillus thuringiensis var. kurstaki Toxin on Soil Invertebrates of a Mixed Deciduous Forest in the Upper Rhine Valley, Germany|Eur. J. Soil Sci.40(1): 55-62|2004|
111062|A||Parsons,J.K., K.S. Hamel, and R. Wierenga|The Impact of Diquat on Macrophytes and Water Quality in Battle Ground Lake, Washington|J. Aquat. Plant Manag.45:35-39|2007|
111063|A||Da Silva,J.J., and J. Mendes|Susceptibility of Aedes aegypti (L) to the Insect Growth Regulators Diflubenzuron and Methoprene in Uberlandia, State of Minas Gerais|Rev. Soc. Bras. Med. Trop.40(6): 612-616|2007|10.1590/S0037-86822007000600002
111065|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Fipronil Applied Post-Flood in a Dry-Seeded, Delayed Flood Culture, 1996|Arthropod Manag. Tests22:299-|1997|10.1093/amt/22.1.299
111066|A||Way,M.O., R.G. Wallace, and J. Vawter|Control of Rice Water Weevil with Dimilin 2 L in a Drill-Seeded, Delayed Flood Culture at Eagle Lake, 1997|Arthropod Manag. Tests23:266-267|1998|10.1093/amt/23.1.266
111067|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Dimilin 25W, 1995|Arthropod Manag. Tests21:283-284|1996|10.1093/amt/21.1.283
111068|T||El-Hamady,S.E., R. Kubiak, and A.S. Derbalah|Fate of Imidacloprid in Soil and Plant After Application to Cotton Seeds|Chemosphere71(11): 2173-2179|2008|10.1016/j.chemosphere.2007.12.027
111069|A||Li,X., L. Lin, T. Luan, L. Yang, and C. Lan|Effects of Landfill Leachate Effluent and Bisphenol A on Glutathione and Glutathione-Related Enzymes in the Gills and Digestive Glands of the Freshwater Snail Bellamya purificata|Chemosphere70(10): 1903-1909|2008|10.1016/j.chemosphere.2007.07.059
111070|A||Li,M.H.|Effects of Nonionic and Ionic Surfactants on Survival, Oxidative Stress, and Cholinesterase Activity of Planarian|Chemosphere70(10): 1796-1803|2008|10.1016/j.chemosphere.2007.08.032
111071|AT||Way,M.O., R.G. Wallace, and J. Vawter|Control of Rice Water Weevil on Drill-Seeded Rice with Diflubenzuron at Eagle Lake, 1996|Arthropod Manag. Tests22:300-301|1997|
111072|A||Liu,F., A. Gentles, and C.W. Theodorakis|Arsenate and Perchlorate Toxicity, Growth Effects, and Thyroid Histopathology in Hypothyroid Zebrafish Danio rerio|Chemosphere71(7): 1369-1376|2008|10.1016/j.chemosphere.2007.11.036
111073|AT||Makino,T., H. Takano, T. Kamiya, T. Itou, N. Sekiya, M. Inahara, and Y. Sakurai|Restoration of Cadmium-Contaminated Paddy Soils by Washing with Ferric Chloride:  Cd Extraction Mechanism and Bench-Scale Verification|Chemosphere70(6): 1035-1043|2008|10.1016/j.chemosphere.2007.07.080
111074|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Diflubenzuron - EUP Experiment, 1996|Arthropod Manag. Tests22:300-|1997|
111075|A||Kim,J.H., S.Y. Wang, I.C. Kim, J.S. Ki, S. Raisuddin, J.S. Lee, and K.N. Han|Cloning of a River Pufferfish (Takifugu obscurus) Metallothionein cDNA and Study of Its Induction Profile in Cadmium-Exposed Fish|Chemosphere71(7): 1251-1259|2008|10.1016/j.chemosphere.2007.11.067
111076|T||Zaldibar,B., I. Cancio, M. Soto, and I. Marigomez|Digestive Cell Turnover in Digestive Gland Epithelium of Slugs Experimentally Exposed to a Mixture of Cadmium and Kerosene|Chemosphere70(1): 144-154|2007|10.1016/j.chemosphere.2007.06.071
111077|A||Prasad,B.B., A.K. Mishra, M.K. Roy, and R.K. Gupta|Abate and Baygon Induced Alterations in the Ovarian Stages of an Air Breathing Fish, Channa gachua|Nat. Environ. Pollut. Technol.5(1): 7-12|2006|
111078|T||Udovic,M., Z. Plavc, and D. Lestan|The Effect of Earthworms on the Fractionation, Mobility and Bioavailability of Pb, Zn and Cd Before and After Soil Leaching with EDTA|Chemosphere70(1): 126-134|2007|10.1016/j.chemosphere.2007.06.044
111079|T||Kang,D.H., L.Y. Hong, A.P. Schwab, and M.K. Banks|Removal of Prussian Blue from Contaminated Soil in the Rhizosphere of Cyanogenic Plants|Chemosphere69(9): 1492-1498|2007|10.1016/j.chemosphere.2007.04.052
111080|T||Wong,K.K.|Decrease in Chronotropic Activity as a Sign of Acute Propoxur Intoxication in Mice|Med. Sci. Res.18(11): 445-446|1990|
111081|T||Hamdi,H., S. Benzarti, L. Manusadzianas, I. Aoyama, and N. Jedidi|Solid-Phase Bioassays and Soil Microbial Activities to Evaluate PAH-Spiked Soil Ecotoxicity After a Long-Term Bioremediation Process Simulating Landfarming|Chemosphere70(1): 135-143|2007|10.1016/j.chemosphere.2007.06.043
111082|T||Smolinska,B., and K. Cedzynska|EDTA and Urease Effects on Hg Accumulation by Lepidium sativum|Chemosphere69(9): 1388-1395|2007|10.1016/j.chemosphere.2007.05.003
111083|T||Sobti,R.C., R.K. Gill, and M.A. Mannan|Bipyridylium Herbicide - Diquat:  a Clastogen|CIS (Chromosome Information Service)42:15-17|1987|
111084|T||Wu,F., G. Zhang, P. Dominy, H. Wu, and D.M.L. Bachir|Differences in Yield Components and Kernel Cd Accumulation in Response to Cd Toxicity in Four Barley Genotypes|Chemosphere70(1): 83-92|2007|10.1016/j.chemosphere.2007.06.051
111085|A||Tremblay,L.A.|Biomarkers in Eel to Evaluate Effects of Diquat in a Christchurch River|Australas. J. Ecotoxicol.10(1): 53-56|2004|
111086|T||An,Y.J., and W.M. Lee|Comparative and Combined Toxicities of Toluene and Methyl Tert-butyl Ether to an Asian Earthworm Perionyx excavatus|Chemosphere71(3): 407-411|2008|10.1016/j.chemosphere.2007.11.010
111087|T||Minakata,K., O. Suzuki, M. Suzuki, S.I. Saito, and N. Harada|Tissue Damage by Diquat Revealed by Ascorbate Free Radical Formation|Jpn. J. Forensic Toxicol.17(3): 187-194|1999|
111088|A||Khera,S., P.K. Mittal, and Surinder |The Effect of Diflubenzuron on the Egg Masses of Meloidogyne incognita|Indian J. Nematol.17(1): 46-48|1987|
111089|T||Arshad,M., J. Silvestre, E. Pinelli, J. Kallerhoff, M. Kaemmerer, A. Tarigo, M. Shahid, M. Guiresse, P. Pradere, and C.|A Field Study of Lead Phytoextraction by Various Scented Pelargonium cultivars|Chemosphere71(11): 2187-2192|2008|10.1016/j.chemosphere.2008.02.013
111090|T||Cofield,N., M.K. Banks, and A.P. Schwab|Lability of Polycyclic Aromatic Hydrocarbons in the Rhizosphere|Chemosphere70(9): 1644-1652|2008|10.1016/j.chemosphere.2007.07.057
111091|A||Bhakshi,N., V.K. Bhasin, and M.K.K. Pillai|Laboratory Evaluation of Insect Growth Regulating Compounds Against Mosquitoes|Entomon7(4): 469-473|1982|
111092|T||Cao,L., M. Jiang, Z. Zeng, A. Du, H. Tan, and Y. Liu|Trichoderma atroviride F6 Improves Phytoextraction Efficiency of Mustard (Brassica juncea (L.) Coss. var. foliosa Bailey) in Cd, Ni Contaminated Soils|Chemosphere71(9): 1769-1773|2008|10.1016/j.chemosphere.2008.01.066
111093|T||Carmona,E.R., E. Kossatz, A. Creus, and R. Marcos|Genotoxic Evaluation of Two Mercury Compounds in the Drosophila Wing Spot Test|Chemosphere70(10): 1910-1914|2008|10.1016/j.chemosphere.2007.07.032
111094|T||Sukarno,N., S.E. Smith, and E.S. Scott|The Effect of Fungicides on Vesicular-Arbuscular Mycorrhizal Symbiosis: I. The Effects on Vesicular-Arbuscular Mycorrhizal Fungi and Plant Growth|New Phytol.25(1): 139-147|1993|10.1111/j.1469-8137.1993.tb03872.x
111095|T||Jones,O.A.H., D.J. Spurgeon, C. Svendsen, and J.L. Griffin|A Metabolomics Based Approach to Assessing the Toxicity of the Polyaromatic Hydrocarbon Pyrene to the Earthworm Lumbricus rubellus|Chemosphere71(3): 601-609|2008|10.1016/j.chemosphere.2007.08.056
111096|T||Fan,S., P. Li, Z. Gong, W. Ren, and N. He|Promotion of Pyrene Degradation in Rhizosphere of Alfalfa (Medicago sativa L.)|Chemosphere71(8): 1593-1598|2008|10.1016/j.chemosphere.2007.10.068
111098|T||January,M.C., T.J. Cutright, H. Van Keulen, and R. Wei|Hydroponic Phytoremediation of Cd, Cr, Ni, As, and Fe:  Can Helianthus annuus Hyperaccumulate Multiple Heavy Metals?|Chemosphere70(3): 531-537|2008|10.1016/j.chemosphere.2007.06.066
111099|T||Sanchez-Salas,J.A., and C.A. Blanco-Montero|Insecticide and Acaricide Effects on Mortality of Two Parasites of the Citrus Blackfly, 1989|Insectic. Acaric. Tests18:368-369|1993|
111100|T||Hong,C.O., D.K. Lee, and P.J. Kim|Feasibility of Phosphate Fertilizer to Immobilize Cadmium in a Field|Chemosphere70(11): 2009-2015|2008|10.1016/j.chemosphere.2007.09.025
111101|T||Marco-Urrea,E., T. Parella, X. Gabarrell, G. Caminal, T. Vicent, and C.A. Reddy|Mechanistics of Trichloroethylene Mineralization by the White-Rot Fungus Trametes versicolor|Chemosphere70(3): 404-410|2008|10.1016/j.chemosphere.2007.06.074
111102|A||Prakash,A.|Ovicidal Action of Certain Chitin Synthesis Inhibitors in Mosquitoes|Entomon17(1/2): 15-19|1992|
111103|T||Gopal,R., and A.H. Rizvi|Excess Lead Alters Growth, Metabolism and Translocation of Certain Nutrients in Radish|Chemosphere70(9): 1539-1544|2008|10.1016/j.chemosphere.2007.08.043
111105|T||Abe,T., T. Kinda, Y. Takano, S. Chikazawa, M. Higuchi, N. Kawasaki, K. Orino, and K. Watanabe|Relationship Between Body Iron Stores and Diquat Toxicity in Male Fischer-344 Rats|BioMetals19(6): 651-657|2006|10.1007/s10534-006-9002-6
111106|A||Touart,L.W.,Jr.|Effects of Selected Insect Growth Regulators on Ecdysteroid Titers in the Grass Shrimp, Palaemonetes pugio|Ph.D.Thesis, George Mason University, Fairfax, VA:169 p.|1990|
111107|T||Nunamaker,C.E.|The Effects of Diflubenzuron on the Spermatheca of the Queen Honey Bee (Apis mellifera L.). An Ultrastructural Study|M.S.Thesis, University of Wyoming, Laramie, WY:59 p.|1980|
111108|T||Abd-Elrazik,A.A., A.M. El-Shabrawy, A.M. Amein, and M.H.A. El-Rehim|Effect of Certain Organic Sulphides on Sclerotial Germination of Sclerotium cepivorum in Soil and Efficiency of Chemical Control of Onion White Rot|Egypt. J. Phytopathol.20(1): 37-45|1988|
111110|A||Fujiu,K., and O. Numata|Reorganization of Microtubules in the Amitotically Dividing Macronucleus of Tetrahymena|Cell Motil. Cytoskelet.46(1): 17-27|2000|10.1002/(SICI)1097-0169(200005)46:1<17::AID-CM3>3.0.CO;2-C
111112|T||Jayasree,U., A. Gopala Reddy, K.S. Reddy, and B. Kalakumar|A Study on the Mechanism of Toxicity of Deltamethrin in Poultry|Toxicol. Int.10(2): 111-114|2003|
111113|T||Kaur,J., and H.S. Sandhu|Toxicological Effects of Cypermethrin and Deltamethrin on Rumen Protozoa Functions in Buffalo (Bubalus bubalis) Calves|Toxicol. Int.12(1): 1-3|2005|
111114|T||Pham Huu,C., C. Navarro-Delmasure, A. Pham Huu Chanh, P. Clavel, G. Van Haverbeke, and S.L. Cheav|Toxicological Studies of Deltamethrin|Int. J. Tissue React.6(2): 127-133|1984|
111116|T||Rehman,H., M. Ali, F. Atif, M. Kaur, K. Bhatia, and S. Raisuddin|The Modulatory Effect of Deltamethrin on Antioxidants in Mice|Clin. Chim. Acta369(1): 61-65|2006|10.1016/j.cca.2006.01.010
111117|T||Evans,J., G.E. O'Connor, A.R. Seymour, and A. Carmichael|Sensitivity of Lupin (Lupinus angustifolius L.) Root Nodulation to Iprodione (Rovral) Fungicide|Australas. Plant Pathol.15(3): 66-67|1986|10.1071/APP9860066
111118|A||Mittal,P.K., and V.K. Kohli|Diflubenzuron - an Antimoulting IGR in Culex pipiens fatigans|Uttar Pradesh J. Zool.5(1): 94-96|1985|
111119|T||Chipinda,I., X.D. Zhang, R.H. Simoyi, and P.D. Siegel|Mercaptobenzothiazole Allergenicity - Role of the Thiol Group|Cutan. Ocul. Toxicol.27(2): 103-116|2008|10.1080/15569520701713008
111120|T||Wojdyla,A.T.|Influence of Strobilurin Compounds on the Development of Puccinia horiana|Commun. Agric. Appl. Biol. Sci.72(4): 961-966|2007|
111121|T||MacGregor,J.T., D.H. Gould, A.D. Mitchell, and G.P. Sterling|Mutagenicity Tests of Diflubenzuron in the Micronucleus Test in Mice, the L5178Y Mouse Lymphoma Forward Mutation Assay, and the Ames Salmonella Reverse Mutation Test|Mutat. Res.66(1): 45-53|1979|10.1016/0165-1218(79)90006-5
111122|T||Schneider,M., G. Smagghe, S. Pineda, and E. Vinuela|The Ecological Impact of Four IGR Insecticides in Adults of Hyposoter didymator (Hym., Ichneumonidae):  Pharmacokinetics Approach|Ecotoxicology17(3): 181-188|2008|10.1007/s10646-007-0182-9
111123|T||Mathur,S.P., H.A. Hamilton, and T.C. Vrain|Influence of Some Field-Applied Nematicides on Microflora and Mineral Nutrients in an Organic Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(1): 61-76|1980|
111124|A||Koschnick,T.J., W.T. Haller, and L. Glasgow|Documentation of Landoltia (Landoltia punctata) Resistance to Diquat|Weed Sci.54(4): 615-619|2006|10.1614/WS-06-002R.1
111125|T||Leahey,J.P., and R.J. Hemingway|The Metabolism of Diquat in Hens and Residues in Eggs and Tissues|Environ. Qual. Saf.Suppl.3:157-162|1975|
111126|T||Ratna,A.S., M.G. Singh, and V. Ragunathan|Effect of Metalaxyl on Germination of Pearl Millet Seed and Downy Mildew Control|Indian J. Bot.8(2): 138-144|1985|
111130|T||Dutra de Moura,F.J., P.P. Leal, de Souza Furtado R., M.I. Muniz-Junqueira, and J.P.R. Veiga|Pentoxifylline Prevents the Meglumine Antimonate-Induced Renal Toxicity in Rats, but not that Induced by the Inorganic Antimony Pentachloride|Toxicology243(1-2): 66-74|2008|10.1016/j.tox.2007.09.032
111131|T||Nagai,N., and Y. Ito|Adverse Effects of Excessive Nitric Oxide on Cytochrome C Oxidase in Lenses of Hereditary Cataract UPL Rats|Toxicology242(1-3): 7-15|2007|10.1016/j.tox.2007.09.002
111132|T||Naghibi,B., T. Ghafghazi, V. Hajhashemi, A. Talebi, and D. Taheri|The Effect of 2,3-Dihydroxybenzoic Acid and Tempol in Prevention of Vancomycin-Induced Nephrotoxicity in Rats|Toxicology232(3): 192-199|2007|10.1016/j.tox.2007.01.005
111133|T||Newairy,A.A., A.S. El-Sharaky, M.M. Badreldeen, S.M. Eweda, and S.A. Sheweita|The Hepatoprotective Effects of Selenium Against Cadmium Toxicity in Rats|Toxicology242(1-3): 23-30|2007|10.1016/j.tox.2007.09.001
111134|T||Noel,S., S. Sharma, R. Shanker, and S.K. Rath|Primaquine-Induced Differential Gene Expression Analysis in Mice Liver Using DNA Microarrays|Toxicology239(1-2): 96-107|2007|10.1016/j.tox.2007.06.098
111135|T||Ohrvik,H., A. Oskarsson, T. Lundh, S. Skerfving, and J. Tallkvist|Impact of Iron Status on Cadmium Uptake in Suckling Piglets|Toxicology240(1-2): 15-24|2007|10.1016/j.tox.2007.07.012
111136|T||Roh,J.Y., I.H. Jung, J.Y. Lee, and J. Choi|Toxic Effects of Di(2-ethylhexyl)Phthalate on Mortality, Growth, Reproduction and Stress-Related Gene Expression in the Soil Nematode Caenorhabditis elegans|Toxicology237(1-3): 126-133|2007|10.1016/j.tox.2007.05.008
111138|T||Ryu,J.Y., B.M. Lee, S. Kacew, and H.S. Kim|Identification of Differentially Expressed Genes in the Testis of Sprague-Dawley Rats Treated with Di(n-Butyl) Phthalate|Toxicology234(1-2): 103-112|2007|10.1016/j.tox.2007.02.003
111139|T||Selcoki,Y., E. Uz, R. Bayrak, S. Sahin, A. Kaya, B. Uz, A. Karanfil, A. Ozkara, and A. Akcay|The Protective Effect of Erdosteine Against Cyclosporine A-Induced Cardiotoxicity in Rats|Toxicology239(1-2): 53-59|2007|10.1016/j.tox.2007.06.096
111141|T||Szegner,B., N. Herbach, T. Ettle, B. Elsenhans, and K. Schumann|Assessing and Influencing the Fractional Contribution of Erythrocyte-Bound 59Fe to Individual 59Fe Tissue Content in Murine 59Fe Distribution Studies|Toxicology244(2-3): 198-208|2008|10.1016/j.tox.2007.11.015
111142|T||Thijssen,S., A. Cuypers, J. Maringwa, K. Smeets, N. Horemans, I. Lambrichts, and E. Van Kerkhove|Low Cadmium Exposure Triggers a Biphasic Oxidative Stress Response in Mice Kidneys|Toxicology236(1-2): 29-41|2007|10.1016/j.tox.2007.03.022
111143|T||Thijssen,S., I. Lambrichts, J. Maringwa, and E. Van Kerkhove|Changes in Expression of Fibrotic Markers and Histopathological Alterations in Kidneys of Mice Chronically Exposed to Low and High Cd Doses|Toxicology238(2-3): 200-210|2007|10.1016/j.tox.2007.06.087
111146|A||Volz,D.C., S.W. Kullman, D.L. Howarth, R.C. Hardman, and D.E. Hinton|Protective Response of the Ah Receptor to ANIT-Induced Biliary Epithelial Cell Toxicity in See-Through Medaka|Toxicol. Sci.102(2): 262-277|2008|10.1093/toxsci/kfm308
111147|T||Wang,H., D.X. Xu, J.W. Lv, H. Ning, and W. Wei|Melatonin Attenuates Lipopolysaccharide (LPS)-Induced Apoptotic Liver Damage in d-Galactosamine-Sensitized Mice|Toxicology237(1-3): 49-57|2007|10.1016/j.tox.2007.04.021
111148|T||Wang,Q.S., F. Song, X. Zhao, L.Y. Hou, and K.Q. Xie|Expression Changes of Apoptotic-Related Proteins in Nerve Tissues of Rats Treated with Allyl Chloride|Toxicology231(1): 58-67|2007|10.1016/j.tox.2006.11.071
111149|T||Wang,Q.S., L.Y. Hou, C.L. Zhang, F.Y. Song, and K.Q. Xie|Changes of Cytoskeletal Proteins in Nerve Tissues and Serum of Rats Treated with 2,5-Hexanedione|Toxicology244(2-3): 166-178|2008|10.1016/j.tox.2007.11.009
111151|T||Spicker,J.S., S. Brunak, K.S. Frederiksen, and H. Toft|Integration of Clinical Chemistry, Expression, and Metabolite Data Leads to Better Toxicological Class Separation|Toxicol. Sci.102(2): 444-454|2008|10.1093/toxsci/kfn001
111152|T||Schumann,K., B. Szegner, B. Kohler, M.W. Pfaffl, and T. Ettle|A Method to Assess 59Fe in Residual Tissue Blood Content in Mice and Its Use to Correct 59Fe-Distribution Kinetics Accordingly|Toxicology241(1-2): 19-32|2007|10.1016/j.tox.2007.08.082
111153|A||Rekha,R.D., A.A. Amali, G.M. Her, Y.H. Yeh, H.Y. Gong, S.Y. Hu, G.H. Lin, and J.L. Wu|Thioacetamide Accelerates Steatohepatitis, Cirrhosis and HCC by Expressing HCV Core Protein in Transgenic Zebrafish Danio rerio|Toxicology243(1-2): 11-22|2008|10.1016/j.tox.2007.09.007
111154|T||Criniti,A., E. Mazzoni, S. Cassanelli, P. Cravedi, A. Tondelli, D. Bizzaro, and G.C. Manicardi|Biochemical and Molecular Diagnosis of Insecticide Resistance Conferred by Esterase, MACE, KDR and Super-KDR Based Mechanisms in Italian Strains of the Peach Potato Aphid, Myzus persicae (Sulzer)|Pestic. Biochem. Physiol.90(3): 168-174|2008|10.1016/j.pestbp.2007.11.005
111155|T||Chaton,P.F., G. Lemperiere, M. Tissut, and P. Ravanel|Biological Traits and Feeding Capacity of Agriotes Larvae (Coleoptera:  Elateridae):  A Trial of Seed Coating to Control Larval Populations with the Insecticide Fipronil|Pestic. Biochem. Physiol.90(2): 97-105|2008|10.1016/j.pestbp.2007.09.001
111156|T||Church,C.J., and C.O. Knowles|Relationship Between Pyrethroid Enhanced Batrachotoxinin A 20-alpha-Benzoate Binding and Pyrethroid Toxicity to Susceptible and Resistant Tobacco Budworm Moths Heliothis virescens|Comp. Biochem. Physiol. C Comp. Pharmacol.104(2): 279-287|1993|10.1016/0742-8413(93)90036-K
111158|T||Chintakovid,W., P. Visoottiviseth, S. Khokiattiwong, and S. Lauengsuchonkul|Potential of the Hybrid Marigolds for Arsenic Phytoremediation and Income Generation of Remediators in Ron Phibun District, Thailand|Chemosphere70(8): 1532-1537|2008|10.1016/j.chemosphere.2007.08.031
111159|T||Moreno-Jimenez,E., J.M. Penalosa, R.O. Carpena-Ruiz, and E. Esteban|Comparison of Arsenic Resistance in Mediterranean Woody Shrubs Used in Restoration Activities|Chemosphere71(3): 466-473|2008|10.1016/j.chemosphere.2007.10.030
111160|T||Marques,A.P.G.C., R.S. Oliveira, K.A. Samardjieva, J. Pissarra, A.O.S.S. Rangel, and P.M.L. Castro|EDDS and EDTA-Enhanced Zinc Accumulation by Solanum nigrum Inoculated with Arbuscular mycorrhizal Fungi Grown in Contaminated Soil|Chemosphere70(6): 1002-1014|2008|10.1016/j.chemosphere.2007.08.045
111161|T||Liu,J., S.B. Cox, B. Beall, K.J. Brunjes, X. Pan, R.J. Kendall, T.A. Anderson, S.T. McMurry, G.P. Cobb, and P.N. Smith|Effects of HMX Exposure upon Metabolic Rate of Northern Bobwhite Quail (Colinus virginianus) In Ovo|Chemosphere71(10): 1945-1949|2008|10.1016/j.chemosphere.2007.12.024
111162|T||Sirguey,C., P.T. De Souza e Silva, C. Schwartz, and M.O. Simonnot|Impact of Chemical Oxidation on Soil Quality|Chemosphere72(2): 282-289|2008|10.1016/j.chemosphere.2008.01.027
111163|T||Tassi,E., J. Pouget, G. Petruzzelli, and M. Barbafieri|The Effects of Exogenous Plant Growth Regulators in the Phytoextraction of Heavy Metals|Chemosphere71(1): 66-73|2008|10.1016/j.chemosphere.2007.10.027
111164|T||Kummerova,M., L. Vanova, J. Krulova, and S. Zezulka|The Use of Physiological Characteristics for Comparison of Organic Compounds Phytotoxicity|Chemosphere71(11): 2050-2059|2008|10.1016/j.chemosphere.2008.01.060
111166|T||Cohn,J., D.V. Widzowski, and D.A. Cory-Slechta|Lead Retards Development of Drosophila melanogaster|Comp. Biochem. Physiol. C Comp. Pharmacol.102(1): 45-49|1992|10.1016/0742-8413(92)90041-5
111167|T||Liu,Y.Q., Y. Liu, H. Xiao, R. Gao, and X. Tian|Synthesis and Insecticidal Activities of Novel Derivatives of Podophyllotoxin: Part XII|Pestic. Biochem. Physiol.91(2): 116-121|2008|10.1016/j.pestbp.2008.03.002
111168|T||Radwan,M.A., A.E. Essawy, N.E. Abdelmeguied, S.S. Hamed, and A.E. Ahmed|Biochemical and Histochemical Studies on the Digestive Gland of Eobania vermiculata Snails Treated with Carbamate Pesticides|Pestic. Biochem. Physiol.90(3): 154-167|2008|10.1016/j.pestbp.2007.11.011
111169|T||Nauen,R., and S. Konanz|Spiromesifen as a New Chemical Option for Resistance Management in Whiteflies and Spider Mites|Pflanzenschutz-Nachr. Bayer (English Ed.)58(3): 485-502|2005|
111170|A||Prabakaran,V., and Allenpeterson |Impact of Pseudomonas and Aquaphyte on Biodegradation and Bioaccumulation of Pesticide|J. Ecotoxicol. Environ. Monit.16(5): 459-464|2006|
111171|A||Dey,M., and A. Gupta|Acute Toxicity of Endosulfan on Three Anuran Tadpoles|J. Ecotoxicol. Environ. Monit.12(1): 61-65|2002|
111173|T||Budinsky,R.A., J.C. Rowlands, S. Casteel, G. Fent, C.A. Cushing, J. Newsted, J.P. Giesy, M.V. Ruby, and L.L. Aylward|A Pilot Study of Oral Bioavailability of Dioxins and Furans from Contaminated Soils:  Impact of Differential Hepatic Enzyme Activity and Species Differences|Chemosphere70(10): 1774-1786|2008|10.1016/j.chemosphere.2007.08.035
111174|T||Silkworth,J.B., E.A. Carlson, C. McCulloch, K. Illouz, S. Goodwin, and T.R. Sutter|Toxicogenomic Analysis of Gender, Chemical, and Dose Effects in Livers of TCDD- or Aroclor 1254-Exposed Rats Using a Multifactor Linear Model|Toxicol. Sci.102(2): 291-309|2008|10.1093/toxsci/kfm313
111175|T||Murugesan,P., T. Muthusamy, K. Balasubramanian, and J. Arunakaran|Effects of Vitamins C and E on Steroidogenic Enzymes mRNA Expression in Polychlorinated Biphenyl (Aroclor 1254) Exposed Adult Rat Leydig Cells|Toxicology232(3): 170-182|2007|10.1016/j.tox.2007.01.008
111176|T||Wakui,S., F. Takagi, T. Muto, K. Yokoo, S. Hirono, Y. Kobayashi, K. Shirota, F. Akahori, Y. Suzuki, H. Hano, H. Endou, |Spermatogenesis in Aged Rats After Prenatal 3,3',4,4',5-Pentachlorobiphenyl Exposure|Toxicology238(2-3): 186-191|2007|10.1016/j.tox.2007.06.097
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111179|T||Vermeylen,W., S. De Vos, and R. De Schrijver|Effects of Dietary Wheat Bran on Absorption and Accumulation of PCBs in Rats|Chemosphere71(2): 277-283|2008|10.1016/j.chemosphere.2007.09.026
111180|T||Pearce,P.A.|Effects on Birds of Fenitrothion and Phosphamidon Used as Adulticides Against Spruce Budworm in N.B.|Interdep. Committ. on Forest Spraying Operations, Can. Wildl. Serv., Fredericton, New Brunswick, Canada:5 p.|1972|
111181|A||Banks,D.B., and H.A. Hall|Summary Report on the Effects of the 1972 Forest Spray Program in New Brunswick on Aquatic Invertebrates|Report, Interdepartmental Committee on Forest Spray Operations, Ottawa for Environ.Protection Service, Halifax, Novia Scotia:10 p.|1972|
111185|T||Ameno,K., C. Fuke, S. Ameno, H. Kinoshita, and I. Ijiri|Simultaneous Quantitation of Diquat and Its Two Metabolites in Serum and Urine by Ion-Paired HPLC|J. Liq. Chromatogr.18(11): 2115-2121|1995|10.1080/10826079508010258
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111187|T||Vogt,H.|The Importance of Using Selective Insecticides Against Key Pests in Apple Orchards to Preserve the Parasitoid Fauna of Leafminers|Biol. Agric. Hortic.15(1-4): 241-248|1997|10.1080/01448765.1997.9755199
111189|T||Zawada,E.T.,Jr., J.A. Terwee, and D.E. McClung|Magnesium Prevents Acute Hypercalcemic Hypertension|Nephron47(2): 109-114|1987|10.1159/000184470
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111191|T||Cohen,S.M., M. Cano, E.M. Garland, M. St.John, and L.L. Arnold|Urinary and Urothelial Effects of Sodium Salts in Male Rats|Carcinogenesis16(2): 343-348|1995|10.1093/carcin/16.2.343
111192|T||Fullmer,C.S.|Dietary Calcium Levels and Treatment Interval Determine the Effects of Lead Ingestion on Plasma 1,25-Dihydroxyvitamin D Concentration in Chicks|J. Nutr.125(5): 1328-1333|1995|
111193|T||Barker,J.F., F.G. Joachim, and S. Grugel|Laboratory Conditions for Larval Development to the Adult Stage of the Red Sunflower Seed Weevil, Smicronyx fulvus LeConte (Coleoptera:  Curculionidae)|J. Kans. Entomol. Soc.64(4): 459-462|1991|
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111259|A||DeLorenzo,M.E., P.L. Pennington, K.W. Chung, M.C. Finnegan, and M.H. Fulton|Effects of the Antifouling Compound, Irgarol 1051, on a Simulated Estuarine Salt Marsh Ecosystem|Ecotoxicology18(2): 250-258|2009|10.1007/s10646-008-0278-x
111260|A||Downs,C., and A. Downs|Preliminary Examination of Short-Term Cellular Toxicological Responses of the Coral Madracis mirabilis to Acute Irgarol 1051 Exposure|Arch. Environ. Contam. Toxicol.52(1): 47-57|2007|10.1007/s00244-005-0213-6
111261|AT||Eriksson Wiklund,A.K., S. Vilhelmsson, S.J. Wiklund, and B. Eklund|Contaminants and Habitat Choice in the Baltic Sea:  Behavioural Experiments with the Native Species, Monoporeia affinis, and the Invasive Genus, Marenzelleria|Estuar. Coast. Shelf Sci.81(2): 238-246|2009|10.1016/j.ecss.2008.10.023
111262|A||Finnegan,M.C., S. Pittman, and M.E. DeLorenzo|Lethal and Sublethal Toxicity of the Antifoulant Compound Irgarol 1051 to the Mud Snail Ilyanassa obsoleta|Arch. Environ. Contam. Toxicol.56(1): 85-95|2009|10.1007/s00244-008-9166-x
111263|A||Macinnis-Ng,C.M.O., and P.J. Ralph|In Situ Impact of Multiple Pulses of Metal and Herbicide on the Seagrass, Zostera capricorni|Aquat. Toxicol.67(3): 227-237|2004|10.1016/j.aquatox.2004.01.012
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111265|T||Hardee,D.D., G.H. McKibben, D.R. Rummel, P.M. Huddleston, and J.R. Coppedge|Response of Boll Weevils to Component Ratios and Doses of the Pheromone, Grandlure|Environ. Entomol.3(1): 135-138|1974|10.1093/ee/3.1.135
111266|T||Cross,J.V., H. Hesketh, C.N. Jay, D.R. Hall, P.J. Innocenzi, D.I. Farman, and C.M. Burgess|Exploiting the Aggregation Pheromone of Strawberry Blossom Weevil Anthonomus rubi Herbst (Coleoptera:  Curculionidae): Part 1. Development of Lure and Trap|Crop Prot.25(2): 144-154|2006|10.1016/j.cropro.2005.04.002
111267|A||Knakievicz,T., and H.B. Ferreira|Evaluation of Copper Effects upon Girardia tigrina Freshwater Planarians Based on a Set of Biomarkers|Chemosphere71(3): 419-428|2008|10.1016/j.chemosphere.2007.11.004
111268|T||Farnet,A.M., G. Gil, and E. Ferre|Effects of Pollutants on Laccase Activities of Marasmius quercophilus, a White-Rot Fungus Isolated from a Mediterranean schlerophyllous Litter|Chemosphere70(5): 895-900|2008|10.1016/j.chemosphere.2007.06.086
111269|T||Liu,M.Q., J. Yanai, R.F. Jiang, F. Zhang, S.P. McGrath, and F.J. Zhao|Does Cadmium Play a Physiological Role in the Hyperaccumulator Thlaspi caerulescens?|Chemosphere71(7): 1276-1283|2008|10.1016/j.chemosphere.2007.11.063
111270|T||Van Ooik,T., S. Pausio, and M.J. Rantala|Direct Effects of Heavy Metal Pollution on the Immune Function of a Geometrid Moth, Epirrita autumnata|Chemosphere71(10): 1840-1844|2008|10.1016/j.chemosphere.2008.02.014
111271|T||Wolf,D.D., D.J. Parrish, W.L. Daniels, and J.R. McKenna|No-Till Establishment of Perennial, Warm-Season Grasses for Biomass Production|Biomass (Lond.)20(3/4): 209-217|1989|10.1016/0144-4565(89)90061-9
111272|T||Mishra,V., G. Srivastava, S.M. Prasad, and G. Abraham|Growth, Photosynthetic Pigments and Photosynthetic Activity During Seedling Stage of Cowpea (Vigna unguiculata) in Response to UV-B and Dimethoate|Pestic. Biochem. Physiol.92(1): 30-37|2008|10.1016/j.pestbp.2008.05.003
111273|T||Pohronezny,K., J. Francis, and W.G. Fong|Strategies for Chemical Control of Snap Bean Rust in Florida and Their Compatibility with Canadian Residue Tolerances|Plant Dis.71(7): 639-642|1987|10.1094/PD-71-0639
111274|T||Walcher,B.N., and R.R.,Jr. Miller|Ethanol-Induced Increased Endogenous Homocysteine Levels and Decreased Ratios of SAM/SAH are only Partially Attenuated by Exogenous Glycine in Developing Chick Brains|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(1): 11-16|2008|10.1016/j.cbpc.2007.03.006
111275|T||Johansen,N.S., L.H. Moen, and E. Egaas|Sterol Demethylation Inhibitor Fungicides as Disruptors of Insect Development and Inducers of Glutathione S-Transferase Activities in Mamestra brassicae|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 473-483|2007|10.1016/j.cbpc.2007.02.004
111276|A||David,M., V. Munaswamy, R. Halappa, and S.R. Marigoudar|Impact of Sodium Cyanide on Catalase Activity in the Freshwater Exotic Carp, Cyprinus carpio (Linnaeus)|Pestic. Biochem. Physiol.92(1): 15-18|2008|10.1016/j.pestbp.2008.03.013
111277|T||Jaleel,C.A., R. Gopi, P. Manivannan, and R. Panneerselvam|Exogenous Application of Triadimefon Affects the Antioxidant Defense System of Withania somnifera Dunal|Pestic. Biochem. Physiol.91(3): 170-174|2008|10.1016/j.pestbp.2008.03.006
111278|T||Aladesanwa,R.D., and T.N. Akinbobola|Effects of Lime on the Herbicidal Efficacy of Atrazine and Yield Response of Maize (Zea mays L.) Under Field Conditions in Southwestern Nigeria|Crop Prot.27(6): 926-931|2008|10.1016/j.cropro.2007.10.012
111279|T||Gray,F.A., J.A. Fernandez, and J.L. Horton|Efficacy of Chlorothalonil for Control of Spring Black Stem and Common Leaf Spot of Alfalfa|Plant Dis.71:752-755|1987|10.1094/PD-71-0752
111280|A||Sved,D.W., M.H.,Jr. Roberts, and P.A. Van Veld|Toxicity of Sediments Contaminated wth Fractions of Creosote|Water Res.31(2): 294-300|1997|10.1016/S0043-1354(96)00253-9
111281|T||Vosahlikova,M., T. Cajthaml, K. Demnerova, and J. Pazlarova|Effect of Methyl tert-Butyl Ether in Standard Tests for Mutagenicity and Environmental Toxicity|Environ. Toxicol.21(6): 599-605|2006|10.1002/tox.20223
111282|T||Fagerness,M.J., and F.H. Yelverton|Plant Growth Regulator and Mowing Height Effects on Seasonal Root Growth of Penncross Creeping Bentgrass|Crop Sci.41(6): 1901-1905|2001|10.2135/cropsci2001.1901
111283|T||Sutton,T.B., and J.S. Huang|Evaluation of a Microemulsion Formulation of Fenarimol for the Control of Apple Scab Caused by Venturia inaequalis|Plant Dis.73(9): 716-719|1989|10.1094/PD-73-0716
111284|T||Zamorano-Ponce,E., J.F. Romero, P.R. Caamano, and C.B. Guerra|Pentachlorophenol Inhibits Micronuclei Induction by 2-Acetylaminofluorene but not by Thioacetamide|Environ. Toxicol. Pharmacol.21(1): 56-60|2006|10.1016/j.etap.2005.07.013
111285|T||Suma,R., R.K. Sarin, P.K. Saiprakash, and S. Ramakrishna|Simple Liquid Chromatographic Method for the Rapid and Simultaneous Determination of Propoxur and Its Major Metabolite Isopropoxy Phenol in Rat Blood and Urine Using Solid-Phase Extraction|J. Anal. Toxicol.29(7): 728-733|2005|10.1093/jat/29.7.728
111287|T||Takade,D.Y.|The Inhibition of Acetylcholinesterase from Various Sources by Organophosphorus and Carbamic Acid Esters|Ph.D Thesis, University of California, Riverside, CA:200 p.|1973|
111288|T||Tian,S., H. Peng, X. Yang, L. Lu, and L. Zhang|Phytofiltration of Copper from Contaminated Water: Growth Response, Copper Uptake and Lignin Content in Elsholtzia splendens and Elsholtzia argyi|Bull. Environ. Contam. Toxicol.81(1): 85-89|2008|10.1007/s00128-007-9298-0
111289|A||Mishra,A.K., and B. Mohanty|Histopathological Effects of Hexavalent Chromium in the Ovary of a Fresh Water Fish, Channa punctatus (Bloch)|Bull. Environ. Contam. Toxicol.80(6): 507-511|2008|10.1007/s00128-008-9406-9
111290|A||Urrutia,C., A. Rudolph, M.P. Lermanda, and R. Ahumada|Assessment of EDTA in Chromium (III-VI) Toxicity on Marine Intertidal Crab ( Petrolisthes laevigatus )|Bull. Environ. Contam. Toxicol.80(6): 526-528|2008|10.1007/s00128-007-9310-8
111291|A||Vedamanikam,V.J., and N.A.M. Shazilli|The Effect of Multi-Generational Exposure to Metals and Resultant Change in Median Lethal Toxicity Tests Values over Subsequent Generations|Bull. Environ. Contam. Toxicol.80(1): 63-67|2008|10.1007/s00128-007-9317-1
111292|T||Wani,P.A., M.S. Khan, and A. Zaidi|Effects of Heavy Metal Toxicity on Growth, Symbiosis, Seed Yield and Metal Uptake in Pea Grown in Metal Amended Soil|Bull. Environ. Contam. Toxicol.81(2): 152-158|2008|10.1007/s00128-008-9383-z
111293|A||Tarja,N., E. Kirsti, L. Marja, and E. Kari|Thermal and Metabolic Factors Affecting Bioaccumulation of Triazine Herbicides by Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol.18(4): 219-226|2003|10.1002/tox.10118
111294|A||Lah,B., S. Malovrh, M. Narat, T. Cepeljnik, and R. Marinsek-Logar|Detection and Quantification of Genotoxicity in Wastewater-Treated Tetrahymena thermophila Using the Comet Assay|Environ. Toxicol.19(6): 545-553|2004|10.1002/tox.20062
111295|A||Fraker,S.L., and G.R. Smith|Direct and Interactive Effects of Ecologically Relevant Concentrations of Organic Wastewater Contaminants on Rana pipiens Tadpoles|Environ. Toxicol.19(3): 250-256|2004|10.1002/tox.20017
111296|AT||Montvydiene,D., and D. Marciulioniene|Assessment of Toxic Interactions of Heavy Metals in a Multicomponent Mixture Using Lepidium sativum and Spirodela polyrrhiza|Environ. Toxicol.19:351-358|2004|10.1002/tox.20041
111297|A||Mosleh,Y.Y., S. Paris-Palacios, F. Arnoult, M. Couderchet, S. Biagianti-Risbourg, and G. Vernet|Metallothionein Induction in Aquatic Oligochaete Tubifex tubifex Exposed to Herbicide Isoproturon|Environ. Toxicol.19(1): 88-93|2004|10.1002/tox.10153
111298|T||Butera,J.A., W. Spinelli, V. Anantharaman, N. Marcopulos, R.W. Parsons, I.F. Moubarak, C. Cullinan, and J.F. Bagli|Synthesis and Selective Class III Antiarrhythmic Activity of Novel N-Heteroaralkyl-Substituted 1-(Aryloxy)-2-Propanolamine and Related Propylamine Derivatives|J. Med. Chem.34(11): 3212-3228|1991|10.1021/jm00115a010
111299|T||Heiskanen,J.|Effect of Nitrate and Ammonium on Growth of Transplanted Norway Spruce Seedlings:  A Greenhouse Study|Ann. Bot. Fenn.42(1): 1-9|2005|
111300|A||Tylova,E., L. Steinbachova, O. Votrubova, B. Lorenzen, and H. Brix|Different Sensitivity of Phragmites australis and Glyceria maxima to High Availability of Ammonium-N|Aquat. Bot.88(2): 93-98|2008|10.1016/j.aquabot.2007.08.008
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111302|T||Pantoja,C.V., N.T. Martin, B.C. Norris, and C.M. Contreras|Purification and Bioassays of a Diuretic and Natriuretic Fraction from Garlic (Allium sativum)|J. Ethnopharmacol.70(1): 35-40|2000|10.1016/S0378-8741(99)00145-2
111303|A||Friesen-Pankratz,B.|Descriptive and Experimental Studies on the Biotic and Abiotic Determinants of Selected Pesticide Concentrations in Prairie Wetland Water Columns|Ph.D Thesis, University of Manitoba, Canada:327 p.|2004|
111304|A||Kaya,K., Y.D. Liu, Y.W. Shen, B.D. Xiao, and T. Sano|Selective Control of Toxic Microcystis Water Blooms Using Lysine and Malonic Acid:  An Enclosure Experiment|Environ. Toxicol.20(2): 170-178|2005|10.1002/tox.20092
111305|A||Marques,C.R., N. Abrantes, and F. Goncalves|Life-History Traits of Standard and Autochthonous Cladocerans:  I.  Acute and Chronic Effects of Acetylsalicylic Acid|Environ. Toxicol.19(5): 518-526|2004|10.1002/tox.20059
111306|A||Teien,H.C., O.A. Garmo, A. Atland, and B. Salbu|Transformation of Iron Species in Mixing Zones and Accumulation on Fish Gills|Environ. Sci. Technol.42(5): 1780-1786|2008|10.1021/es071965m
111307|A||Ahluwalia,A.S.|Influence of Saturn and Knockweed on the Growth and Heterocyst Formation in a Nitrogen-Fixing Blue-Green Alga|Pesticides 22:43-44|1988|
111308|T||Sampson,S.R.|Mechanism of Coniine-Blockade of Postsynaptic Inhibition in the Spinal Cord of the Cat|Int. J. Neuropharmacol.5(2): 171-182|1966|10.1016/0028-3908(66)90020-7
111309|T||Narikashvili,S.P., V.S. Arutyunov, Emilio Guma, and E.S. Moniava|Interaction Between the Primary Sensory and Association Areas of the Cerebral Cortex in the Cat|Physiol. Behav.3(5): 761-771|1968|10.1016/0031-9384(68)90149-2
111310|T||Srinivasan,D., S. Nathan, T. Suresh, and P. Lakshmana Perumalsamy|Antimicrobial Activity of Certain Indian Medicinal Plants Used in Folkloric Medicine|J. Ethnopharmacol.74(3): 217-220|2001|10.1016/S0378-8741(00)00345-7
111311|T||Gupta,A., and R.S. Sandhu|In Vivo Binding of Mannose Specific Lectin from Garlic to Intestinal Epithelium|Nutr. Res.17(4): 703-711|1997|10.1016/S0271-5317(97)00040-7
111312|A||Marques,C.R., N. Abrantes, and F. Goncalves|Life-History Traits of Standard and Autochthonous Cladocerans: II. Acute and Chronic Effects of Acetylsalicylic Acid Metabolites|Environ. Toxicol.19(5): 527-540|2004|10.1002/tox.20060
111313|T||Orth,C.E., and A.P. Grybauskas|Development of Septoria nodorum Blotch on Winter Wheat Under Two Cultivation Schemes in Maryland|Plant Dis.78(7): 736-741|1994|10.1094/PD-78-0736
111314|T||Wilson,D.O.,Jr., S.K. Mohan, E.A. Knott, and B. Shafii|"Evaluation of Fungicide Seed Treatments for Shrunken-2 (""Supersweet"") Sweet Corn"|Plant Dis.77(4): 348-351|1993|10.1094/PD-77-0348
111315|A||Lee,K.W., S. Raisuddin, D.S. Hwang, H.G. Park, and J.S. Lee|Acute Toxicities of Trace Metals and Common Xenobiotics to the Marine Copepod Tigriopus japonicus:  Evaluation of Its Use as a Benchmark Species for Routine Ecotoxicity Tests in Western Pacific Coastal Regions|Environ. Toxicol.22(5): 532-538|2007|10.1002/tox.20289
111316|T||Baird,R.E., C. Nankam, P.F. Moghaddam, and J.K. Pataky|Evaluation of Seed Treatments on Shrunken-2 Sweet Corn|Plant Dis.78(8): 817-821|1994|10.1094/PD-78-0817
111317|T||Ellis,M.A., D.C. Ferree, and L.V. Madden|Evaluation of Metalaxyl and Captafol Soil Drenches, Composted Hardwood Bark Soil Amendments, and Graft Union Placement on Control of Apple Collar Rot|Plant Dis.70(1): 24-26|1986|10.1094/PD-70-24
111318|T||Niblack,T.L., and R.S. Hussey|Evaluation of Arthrobotrys amerospora as a Biocontrol Agent for Heterodera Glycines on Soybean|Plant Dis.70(5): 448-451|1986|10.1094/PD-70-448
111319|T||Pinkerton,J.N., G.S. Santo, R.P. Ponti, and J.H. Wilson|Control of Meloidogyne chitwoodi in Commercially Grown Russet Burbank Potatoes|Plant Dis.70(9): 860-863|1986|10.1094/PD-70-860
111320|T||Colyer,P.D., S. Micinski, and P.R. Vernon|Effect of Thrips Infestation on the Development of Cotton Seedling Diseases|Plant Dis.75(4): 380-382|1991|10.1094/PD-75-0380
111321|T||Smiley,R.W., A.G.,Jr. Ogg, and R.J. Cook|Influence of Glyphosate on Rhizoctonia Root Rot, Growth, and Yield of Barley|Plant Dis.76(9): 937-942|1992|10.1094/PD-76-0937
111322|T||Parker,K.C., and T.B. Sutton|Effect of Temperature and Wetness Duration on Apple Fruit Infection and Eradicant Activity of Fungicides Against Botryosphaeria dothidea|Plant Dis.77(2): 181-185|1993|10.1094/PD-77-0181
111323|T||Perring,T.M., and C.A. Farrar|Stimulation of Growth and Yield of Virus-Infected Cantaloupe with Pyrethroids|Plant Dis.77(11): 1077-1080|1993|10.1094/PD-77-1077
111324|T||Timmer,L.W., and S.E. Zitko|Timing of Fungicide Applications for Control of Postbloom Fruit Drop of Citrus in Florida|Plant Dis.76(8): 820-823|1992|10.1094/PD-76-0820
111325|T||Northover,J., and K.E. Schneider|Activity of Plant Oils on Diseases Caused by Podosphaera leucotricha, Venturia inaequalis, and Albugo occidentalis|Plant Dis.77(2): 152-157|1993|10.1094/PD-77-0152
111326|T||Brown,E.M., and T.B. Sutton|Time of Infection of Gloeodes pomigena and Schizothyrium pomi on Apple in North Carolina and Potential Control by an Eradicant Spray Program|Plant Dis.77(5): 451-455|1993|10.1094/PD-77-0451
111327|T||Gamliel,A., E. Hadar, and J. Katan|Improvement of Growth and Yield of Gypsophila paniculata by Solarization or Fumigation of Soil or Container Medium in Continuous Cropping Systems|Plant Dis.77(9): 933-938|1993|10.1094/PD-77-0933
111328|T||Jones,A.L., G.R. Ehret, M.F. El-Hadidi, M.J. Zabik, J.N. Cash, and J.W. Johnson|Potential for Zero Residue Disease Control Programs for Fresh and Processed Apples Using Sulfur, Fenarimol, and Myclobutanil|Plant Dis.77(11): 1114-1118|1993|10.1094/PD-77-1114
111329|AT||Chakraborty,S., and N. Tandon|Insecticide Susceptibility Status of Anopheles stephensi (Liston) in Calcutta, West Bengal|Indian J. Malariol.37(1-2): 43-45|2000|
111330|T||Hancock,J.G.|Fungal Rootlet Colonization and Forage Yields of Alfalfa in Fungicide-Treated Field Plots|Plant Dis.77(6): 601-608|1993|10.1094/PD-77-0601
111331|T||Jeffers,S.N.|Preplant Root Treatments to Reduce the Incidence of Phytophthora Species on Dormant Apple Rootstocks|Plant Dis.76(1): 12-19|1992|10.1094/PD-76-0012
111332|T||Gieldanowski,J., S. Kowalczyk-Bronisz, and B. Bubak|Studies on Affinity of Pesticide Unden - 2-Isopropoxyphenyl N-Methylcarbamate to Immunological System|Arch. Immunol. Ther. Exp.39(1-2): 85-97|1991|
111333|T||Keinath,A.P.|Pathogenicity and Host Range of Fusarium oxysporum from Sweet Basil and Evaluation of Disease Control Methods|Plant Dis.78(12): 1211-1215|1994|10.1094/PD-78-1211
111334|T||Huppatz,J.L., J.N. Phillips, and B. Witrzens|Laboratory and Glasshouse Studies of the Activity of Carboxamide Derivatives Against Rhizoctonia solani in Cotton|Plant Dis.67:45-47|1983|10.1094/PD-67-45
111335|T||Sutton,T.B., J.F. Nardacci, and A.L. O'Leary|In Vitro Activity of Etaconazole, Bitertanol, and Fenarimol on Fungi Causing Summer Diseases of Apples|Plant Dis.69(8): 700-703|1985|10.1094/PD-69-700
111336|T||Pedersen,W.L., J.M. Perkins, and D.G. White|Evaluation of Captan as a Seed Treatment for Corn|Plant Dis.70(1): 45-49|1986|10.1094/PD-70-45
111337|T||Rovira,A.D., and H.J. McDonald|Effects of the Herbicide Chlorsulfuron on Rhizoctonia Bare Patch and Take-all of Barley and Wheat|Plant Dis.70:879-882|1986|10.1094/PD-70-879
111338|T||Adams,P.B., S.A. Johnston, J. Krikun, and H.E. Carpenter|Application of Metham Sodium by Sprinkler Irrigation to Control Lettuce Drop Caused by Sclerotinia minor|Plant Dis.67(1): 24-26|1983|10.1094/PD-67-24
111339|A||Buryskova,B., K. Hilscherova, L. Blaha, B. Marsalek, and I. Holoubek|Toxicity and Modulations of Biomarkers in Xenopus laevis Embryos Exposed to Polycyclic Aromatic Hydrocarbons and Their N-Heterocyclic Derivatives|Environ. Toxicol.21(6): 590-598|2006|10.1002/tox.20222
111340|A||Santos,H.M., M.S. Diniz, P.M. Costa, I. Peres, M.H. Costa, S. Alves, and J.L. Capelo|Toxicological Effects and Bioaccumulation in the Freshwater Clam (Corbicula fluminea) Following Exposure to Trivalent Arsenic|Environ. Toxicol.22(5): 502-509|2007|10.1002/tox.20303
111341|A||Seth,C.S., P.K. Chaturvedi, and V. Misra|Toxic Effect of Arsenate and Cadmium Alone and in Combination on Giant Duckweed (Spirodela polyrrhiza L.) in Response to Its Accumulation|Environ. Toxicol.22(6): 539-549|2007|10.1002/tox.20292
111342|A||Thiere,G., and R. Schulz|Runoff Simulation with Particle-Associated Azinphosmethyl in Multispecies Stream Microcosms: Implications for the Field|Environ. Toxicol. Chem.23(8): 1984-1990|2004|10.1897/03-380
111343|T||Northover,J., and J.A. Matteoni|Resistance of Botrytis cinerea to Benomyl and Iprodione in Vineyards and Greenhouses After Exposure to the Fungicides Alone or Mixed with Captan|Plant Dis.70(5): 398-402|1986|10.1094/PD-70-398
111344|T||Tompkins,F.D., D.J. Canary, C.A. Mullins, and J.W. Hilty|Effect of Liquid Volume, Spray Pressure, and Nozzle Arrangement on Coverage of Plant Foliage and Control of Snap Bean Rust with Chlorothalonil|Plant Dis.67(9): 952-953|1983|10.1094/PD-67-952
111345|T||Ricker,M.D., and Z.K. Punja|Influence of Fungicide and Chemical Salt Dip Treatments on Crater Rot Caused by Rhizoctonia carotae in Long-Term Storage|Plant Dis.75(5): 470-474|1991|10.1094/PD-75-0470
111346|T||Talekar,N.S., and J.C. Yang|Characteristic of Parasitism of Diamondback Moth by Two Larval Parasites|Entomophaga36(1): 95-104|1991|10.1007/BF02374640
111348|T||Union Carbide Corp.|Initial Submission:  Status Report on Chronic Injection and Inhalation Toxicity Study of the Byproducts of Synthetic Isopropanol Production with Cover Letter Dated 09/08/92|EPA/OTS Doc.#88-920009383:32 p.|1992|
111349|A||Swader,J.A.|Diquat Enhancement of Cupric Ion Toxicity|Pestic. Biochem. Physiol.9(2): 140-147|1978|10.1016/0048-3575(78)90074-3
111351|A||Union Carbide Corp.|Initial Submission: Acute Toxicity of UC 54012 25WP (N-(((4-Chlorophenyl)Amino)-Carbonyl)-2,6-Difluorobenzamide) to Daphnia magna with Cover Letter Dated 100792|EPA/OTS Doc.#88-920010285:20 p.|1992|
111352|A||Union Carbide Corp.|Initial Submission: Acute Toxicity of UC 54012 (N-(((4-Chlorophenyl)Amino]-Carbonyl)-2,6-Difluorobenzamide) to Mysid Shrimp (Mysidopsis bahia) with Cover Letter Dated 100692|EPA/OTS Doc.#88-920010461:25 p.|1992|
111353|A||Dow Chemical Co.|The Toxicity of Nine Benchmark Chemicals to Skeletonema costatum Cleve with Attachments and Cover Letter Dated 062488|EPA/OTS Doc.#86-880000309:30 p.|1988|
111354|A||Uniroyal Chemicals|Initial Submission:  Pollution Control Laboratory Fish Bioassay Results for 50% Sodium MBT (2-Mercaptobenzothiazole), with Cover Letter Dated 10/12/79|EPA/OTS Doc.#FYI-OTS-0794-1013:7 p.|1994|
111356|T||Ciba-Geigy Corp.|Range Finding Acute Dermal Toxicity Study with Intermediate 2-Mercaptobenzothiazole Dry, Batch 48/6/1001/0 in Male Albino Rabbits|EPA/OTS Doc.#878215038:24 p.|1985|
111357|T||Chemical Manufacturers Association|Genetic Toxicology Micronucleus Test|EPA/OTS Doc.#40-8472011:31 p.|1985|
111359|T||Monsanto Co.|In Vivo DNA Binding Assay of Mercaptobenzothiazole in Selected Rat Tissues with Cover Letter Dated 041489|EPA/OTS Doc.#86-890000182:31 p.|1989|
111360|T||Polaroid Corp.|Results of Corneal, Dermal and Acute Toxicity Studies Involving Polaroid Samples #476, 477, 478, and 479 with Attachment and Cover Letter Dated 091489|EPA/OTS Doc.#86-890001544:11 p.|1989|
111361|T||Chemical Manufacturers Association|Letter from Chemical Manufacturers Assoc. Responding to USEPA Letter Dated 011090 Regarding Additional Information on the Dominant Lethal Study in Rats with MBT with Attachment|EPA/OTS Doc.#40-9072439:32 p.|2000|
111362|T||R.T.Vanderbilt Co.Inc.|2-Mercaptobenzothiazole (Rokon):  14-Day Acute Oral LD50 Study in Bobwhite Quail (Final Report) with Attachment and Cover Letter Dated 033192|EPA/OTS Doc.#86-920000870:50 p.|1992|
111363|T||Cuesta,D., A. Taboada, L. Calvo, and J.M. Salgado|Short- and Medium-Term Effects of Experimental Nitrogen Fertilization on Arthropods Associated with Calluna vulgaris Heathlands in North-West Spain|Environ. Pollut.152(2): 394-402|2008|10.1016/j.envpol.2007.06.073
111364|A||Craggs,R., L. Golding, S. Clearwater, L. Susarla, and W. Donovan|Control of Chironomid Midge Larvae in Wastewater Stabilisation Ponds: Comparison of Five Compounds|Water Sci. Technol.51(12): 191-199|2005|10.2166/wst.2005.0460
111366|T||Filipescu,G., E. Codorean, C. Tanase, L. Ciotaru, and D. Laky|Interference of Some Enzymatic Modulators in the Hepatic Aggression Induced by Xenobiotics|Rom. J. Morphol. Embryol.40(3-4): 99-108|1994|
111367|T||Sahid,I., and H. Mamat|Effects of Repeated Application of Pesticides on Soil Fungi in a Malaysian Soil|Plant Prot. Q.7(1): 35-36|1992|
111368|T||Bokshi,A.I., J. Jobling, and R. McConchie|A Single Application of Milsana Followed by Bion Assists in the Control of Powdery Mildew in Cucumber and Helps Overcome Yield Losses|J. Hortic. Sci. Biotechnol.83(6): 701-706|2008|10.1080/14620316.2008.11512447
111369|T||Shirke,M.S., and G.N. Salunkhe|Relative Residual Toxicity of Some Insecticides to Cryptolaemus montrouzieri Muls. a Predator of Mealy Bugs|J. Maharashtra Agric. Univ.21(3): 370-371|1996|
111370|T||Ezaki,A., R.C. Gardner, Y. Ezaki, and H. Matsumoto|Expression of Aluminum-Induced Genes in Transgenic Arabidopsia Plants can Ameliorate Aluminum Stress and/or Oxidative Stress|Plant Physiol.122(3): 657-665|2000|10.1104/pp.122.3.657
111371|T||Le Roux,H.F., A.B. Ware, M.C. Pretorius, and F.C. Wehner|Comparative Efficacy of Preplant Fumigation and Postplant Chemical Treatment of Replant Citrus Trees in an Orchard Infested with Tylenchulus semipenetrans|Plant Dis.82(12): 1323-1327|1998|10.1094/PDIS.1998.82.12.1323
111372|T||Hanson,K., and R.C. Shattock|Effect of Metalaxyl on Formation and Germination of Oospores of Phytophthora infestans|Plant Pathol.47(2): 116-122|1998|10.1046/j.1365-3059.1998.00215.x
111373|T||Srinivas,R., S.S. Udikeri, S.K. Jayalakshmi, and K. Sreeramulu|Identification of Factors Responsible for Insecticide Resistance in Helicoverpa armigera|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(3): 261-269|2004|10.1016/j.cca.2004.02.002
111374|T||Qian,L., G. Cao, J. Song, Q. Yin, and Z. Han|Biochemical Mechanisms Conferring Cross-Resistance Between Tebufenozide and Abamectin in Plutella xylostella|Pestic. Biochem. Physiol.91(3): 175-179|2008|10.1016/j.pestbp.2008.03.011
111375|T||Gomes-Filho,E., C.R.F.M. Lima, J.H. Costa, A.C.M. Da Silva, M.G.S. Lima, C.F. De Lacerda, and J.T. Prisco|Cowpea Ribonuclease:  Properties and Effect of NaCl-Salinity on Its Activation During Seed Germination and Seedling Establishment|Plant Cell Rep.27(1): 147-157|2008|10.1007/s00299-007-0433-5
111376|T||Koller,W., D.M. Parker, and K.L. Reynolds|Baseline Sensitivities of Venturia inaequalis to Sterol Demethylation Inhibitors|Plant Dis.75(7): 726-728|1991|10.1094/PD-75-0726
111377|T||Schmitt,D.P., and L.A. Nelson|Chemical Control of Selected Plant-Parasitic Nematodes in Soybeans Double-Cropped with Wheat in No-Till and Conventional Tillage Systems|Plant Dis.71(4): 323-326|1987|10.1094/PD-71-0323
111378|T||Sugiura,M., Y. Horibe, H. Kawada, and M. Takagi|Insect Spiracle as the Main Penetration Route of Pyrethroids|Pestic. Biochem. Physiol.91(3): 135-140|2008|10.1016/j.pestbp.2008.03.001
111379|T||Chagas,R.M., J.A.G. Silveira, R.V. Ribeiro, V.A. Vitorello, and H. Carrer|Photochemical Damage and Comparative Performance of Superoxide Dismutase and Ascorbate Peroxidase in Sugarcane Leaves Exposed to Paraquat-Induced Oxidative Stress|Pestic. Biochem. Physiol.90(3): 181-188|2008|10.1016/j.pestbp.2007.11.006
111381|T||Smiley,R.W., L.M. Patterson, and C.W. Shelton|Fungicide Seed Treatments Influence Emergence of Winter Wheat in Cold Soil|J. Prod. Agric.9(4): 559-563|1996|10.2134/jpa1996.0559
111382|T||Beasom,S.L.|Selectivity of Predator Control Techniques in South Texas|J. Wildl. Manag.38(4): 837-844|1974|10.2307/3800053
111384|T||Wainford,R.D., R.J. Weaver, K.N. Stewart, P. Brown, and G.M. Hawksworth|Cisplatin Nephrotoxicity is Mediated by gamma Glutamyltranspeptidase, not via a C-S Lyase Governed Biotransformation Pathway|Toxicology249(2-3): 184-193|2008|10.1016/j.tox.2008.05.006
111385|T||Viberg,H., E. Ponten, P. Eriksson, T. Gordh, and A. Fredriksson|Neonatal Ketamine Exposure Results in Changes in Biochemical Substrates of Neuronal Growth and Synaptogenesis, and Alters Adult Behavior Irreversibly|Toxicology249(2-3): 153-159|2008|10.1016/j.tox.2008.04.019
111387|T||Stiborova,M., H. Dracinska, J. Mizerovska, E. Frei, H.H. Schmeiser, J. Hudecek, P. Hodek, D.H. Phillips, and V.M. Arlt|The Environmental Pollutant and Carcinogen 3-Nitrobenzanthrone Induces Cytochrome P450 1A1 and NAD(P)H:Quinone Oxidoreductase in Rat Lung and Kidney, Thereby Enhancing Its own Genotoxicity|Toxicology247(1): 11-22|2008|10.1016/j.tox.2008.01.018
111389|T||Schlecht,C., H. Klammer, H. Frauendorf, W. Wuttke, and H. Jarry|Pharmacokinetics and Metabolism of Benzophenone 2 in the Rat|Toxicology245(1/2): 11-17|2008|10.1016/j.tox.2007.12.015
111390|T||Lee,M.H., I. Hong, M. Kim, B.H. Lee, J.H. Kim, K.S. Kang, H.L. Kim, B.I. Yoon, H. Chung, G. Kong, and M.O. Lee|Gene Expression Profiles of Murine Fatty Liver Induced by the Administration of Methotrexate|Toxicology249(1): 75-84|2008|10.1016/j.tox.2008.04.011
111391|T||Rocksen,D., D. Elfsmark, V. Heldestad, K. Wallgren, G. Cassel, and A. Goransson Nyberg|An Animal Model to Study Health Effects During Continuous Low-Dose Exposure to the Nerve Agent VX|Toxicology250(1): 32-38|2008|10.1016/j.tox.2008.05.015
111392|T||Horn,T.L., J.B. Harder, W.D. Johnson, P.T. Curry, R.E. Parchment, R.L. Morrissey, P.W. Mellick, K.A. Calis, P.W. Gold, |Integration of In Vivo and In Vitro Approaches to Characterize the Toxicity of Antalarmin, a Corticotropin-Releasing Hormone Receptor Antagonist|Toxicology248(1): 8-17|2008|10.1016/j.tox.2008.03.002
111393|T||Goto,K., K. Yabe, T. Suzuki, K. Takasuna, T. Jindo, and S. Manabe|Gene Expression Profiles in the Articular Cartilage of Juvenile Rats Receiving the Quinolone Antibacterial Agent Ofloxacin|Toxicology249(2-3): 204-213|2008|10.1016/j.tox.2008.05.005
111396|T||Osburn,W.O., M.S. Yates, P.D. Dolan, S. Chen, K.T. Liby, M.B. Sporn, K. Taguchi, M. Yamamoto, and T.W. Kensler|Genetic or Pharmacologic Amplification of Nrf2 Signaling Inhibits Acute Inflammatory Liver Injury in Mice|Toxicol. Sci.104(1): 218-227|2008|10.1093/toxsci/kfn079
111398|T||Tyl,R.W., C.B. Myers, M.C. Marr, C.S. Sloan, N.P. Castillo, M.M. Veselica, J.C. Seely, S.S. Dimond, J.P. Van Miller, R.|Two-Generation Reproductive Toxicity Study of Dietary Bisphenol A in CD-1 (Swiss) Mice|Toxicol. Sci.104(2): 362-384|2008|10.1093/toxsci/kfn084
111399|T||Rached,E., D. Hoffmann, K. Blumbach, K. Weber, W. Dekant, and A. Mally|Evaluation of Putative Biomarkers of Nephrotoxicity after Exposure to Ochratoxin A In Vivo and In Vitro|Toxicol. Sci.103(2): 371-381|2008|10.1093/toxsci/kfn040
111400|T||Jin,M.H., C.H. Hong, H.Y. Lee, H.J. Kang, and S.W. Han|Enhanced TGF-beta1 is Involved in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) Induced Oxidative Stress in C57BL/6 Mouse Testis|Toxicol. Lett.178(3): 202-209|2008|10.1016/j.toxlet.2008.03.015
111401|T||N'Jai,A., D.R. Boverhof, E. Dere, L.D. Burgoon, Y.S. Tan, J.C. Rowlands, R.A. Budinsky, K.E. Stebbins, and T.R. Zachare|Comparative Temporal Toxicogenomic Analysis of TCDD- and TCDF-Mediated Hepatic Effects in Immature Female C57BL/6 Mice|Toxicol. Sci.103(2): 285-297|2008|10.1093/toxsci/kfn053
111402|T||Lohitnavy,M., Y. Lu, O. Lohitnavy, L.S. Chubb, S. Hirono, and R.S.H. Yang|A Possible Role of Multidrug Resistance-Associated Protein 2 (Mrp2) in Hepatic Excretion of PCB126, an Environmental Contaminant: PBPK/PD Modeling|Toxicol. Sci.104(1): 27-39|2008|10.1093/toxsci/kfn026
111403|A||Mehta,V., R.E. Peterson, and W. Heideman|2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure Prevents Cardiac Valve Formation in Developing Zebrafish|Toxicol. Sci.104(2): 303-311|2008|10.1093/toxsci/kfn095
111404|A||Zimmermann,A.L., E.A. King, E. Dengler, S.R. Scogin, and W.H. Powell|An Aryl Hydrocarbon Receptor Repressor from Xenopus laevis:  Function, Expression, and Role in Dioxin Responsiveness During Frog Development|Toxicol. Sci.104(1): 124-134|2008|10.1093/toxsci/kfn066
111405|A||Sharma,B., and R. Patino|Exposure of Xenopus laevis Tadpoles to Cadmium Reveals Concentration-dependent Bimodal Effects on Growth and Monotonic Effects on Development and Thyroid Gland Activity|Toxicol. Sci.105(1): 51-58|2008|10.1093/toxsci/kfn119
111406|A||Hillegass,J.M., C.M. Villano, K.R. Cooper, and L.A. White|Glucocorticoids Alter Craniofacial Development and Increase Expression and Activity of Matrix Metalloproteinases in Developing Zebrafish (Danio rerio)|Toxicol. Sci.102(2): 413-424|2008|10.1093/toxsci/kfn010
111407|A||Nakayama,A., I. Riesen, B. Kollner, E. Eppler, and H. Segner|Surface Marker-Defined Head Kidney Granulocytes and B Lymphocytes of Rainbow Trout Express Benzo(a)pyrene-Inducible Cytochrome P4501A Protein|Toxicol. Sci.103(1): 86-96|2008|10.1093/toxsci/kfn024
111408|A||Petersen,L.B.M., and R.C.,Jr. Petersen|Effect of Kraft Pulp Mill Effluent and 4,5,6 Trichloroguaiacol on the Net Sprinning Behavior of Hydropsyche angustipennis (Trichoptera)|Ecol. Bull.36:68-74|1984|
111409|AT||Tyler,A.C., J.G. Lambrinos, and E.D. Grosholz|Nitrogen Inputs Promote the Spread of an Invasive Marsh Grass|Ecol. Appl.17(7): 1886-1898|2007|10.1890/06-0822.1
111411|T||Batty,K.T., B.R. Moore, V. Stirling, K.F. Ilett, M. Page-Sharp, K.B. Shilkin, I. Mueller, H.A. Karunajeewa, and T.M.E. |Toxicology and Pharmacokinetics of Piperaquine in Mice|Toxicology249(1): 55-61|2008|10.1016/j.tox.2008.04.004
111412|A||Moutou,K.A., T. Braunbeck, and D.F. Houlihan|Quantitative Analysis of Alterations in Liver Ultrastructure of Rainbow Trout Oncorhynchus mykiss After Administration of the Aquaculture Antibacterials Oxolinic Acid and Flumequine|Dis. Aquat. Org.29:21-34|1997|10.3354/dao029021
111413|T||Yan,W., R.H. Dilday, T.H. Tai, J.W. Gibbons, R.W. McNew, and J.N. Rutger|Differential Response of Rice Germplasm to Straighthead Induced by Arsenic|Crop Sci.45(4): 1223-1228|2005|10.2135/cropsci2004.0348
111414|A||Hori,T.S.F., I.M. Avilez, G.K. Iwama, S.C. Johnson, G. Moraes, and L.O.B. Afonso|Impairment of the Stress Response in Matrinxa Juveniles (Brycon amazonicus) Exposed to Low Concentrations of Phenol|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(4): 416-423|2008|10.1016/j.cbpc.2008.01.003
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111417|A||Arukwe,A., and B. Nordbo|Hepatic Biotransformation Responses in Atlantic Salmon Exposed to Retinoic Acids and 3,3',4,4'-Tetrachlorobiphenyl (PCB Congener 77)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(4): 470-482|2008|10.1016/j.cbpc.2008.02.002
111418|A||Li,D., X.L. Yang, S.J. Zhang, M. Lin, W.J. Yu, and K. Hu|Effects of Mammalian CYP3A Inducers on CYP3A-Related Enzyme Activities in Grass Carp (Ctenopharyngodon idellus):  Possible Implications for the Establishment of a Fish CYP3A Induction Model|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(1): 17-29|2008|10.1016/j.cbpc.2007.07.003
111419|A||Jo,P.G., Y.K. Choi, and C.Y. Choi|Cloning and mRNA Expression of Antioxidant Enzymes in the Pacific Oyster, Crassostrea gigas in Response to Cadmium Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(4): 460-469|2008|10.1016/j.cbpc.2008.02.001
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111421|T||Devi,N.A., V.N. Satakopan, A. Annapoorani, and R. Srinivasan|Influence of Synthetic Pyrethroids on the Growth of Groundnut (Arachis hypogea) Plants|Indian J. Plant Physiol.31(4): 444-447|1988|
111422|T||Joy,R.M.|Comparative Effects of Convulsants on the Antidromic Cortical Response to Pyramidal Tract Stimulation|Neuropharmacology14(11): 869-881|1975|10.1016/0028-3908(75)90115-X
111423|T||Mansager,E.R., G.G. Still, and D.S. Frear|Fate of (14C)Diflubenzuron on Cotton and in Soil|Pestic. Biochem. Physiol.12(2): 172-182|1979|10.1016/0048-3575(79)90082-8
111424|AT||Rajasekaran,B., and T. Kumaraswami|Effect of Chitin Inhibitors on Rice Weevil Sitophilus oryzae Linn.|In: A.Regupathy and S.Jayaraj (Eds.), Behavioural and Physiological Approaches in Pest Management, Coimbatore, Madras, India:179-180|1985|
111425|T||French,N.M.|Influence of Harpin Protein Seed and Foliar Treatments on Establishment and Growth of Cotton|Proc. Beltwide Cotton Conf.:148-154|2008|
111427|T||Subbaiah,H., H.V. Nanjappa, and A.N. Balakrishna|Effect of Herbicides on Soil Microbial Biomass|Crop Res. (Hisar)8(1): 28-31|1994|
111428|A||Gattavecchia,E., A.M. Di Pietra, D. Tonelli, and A. Borgatti|Effect of Diflubenzuron and Its Major Degradation Products on the Growth of Euglena gracilis Z. and Incorporation of Glycine-U-14c in Protein|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes16(2): 159-166|1981|
111429|T||Sundaram,K.M.S.|Initial Deposits, Persistence and Degradation Kinetics of the Insect Growth Regulator, Diflubenzuron, in Some Terrestrial Matrices Following Simulated Aerial Application|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(2): 135-163|1996|
111430|T||El Dareer,S.M., J.R. Kalin, K.F. Tillery, D.L. Hill, and J.W.,Jr. Barnett|Disposition of 2-Mercaptobenzothiazole and 2-Mercaptobenzothiazole Disulfide in Rats Dosed Intravenously, Orally, and Topically and in Guinea Pigs Dosed Topically|J. Toxicol. Environ. Health27(1): 65-84|1989|10.1080/15287398909531279
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111432|A||Tartar,V.|Reactions of Stentor coeruleus to Certain Substances Added to the Medium|Exp. Cell Res.13(2): 317-332|1957|10.1016/0014-4827(57)90011-3
111433|A||Vega-Lopez,A., F.A. Jimenez-Orozco, E. Ramon-Gallegos, E. Garcia-Latorre, and M.L. Dominguez-Lopez|Estrogenic Effects of Polychlorinated Biphenyls and Relation to Cytochrome P4501A Activity in the Endangered Goodeid Fish Ameca splendens|Environ. Toxicol. Chem.27(4): 963-969|2008|10.1897/07-446.1
111434|A||Chappel,M.J.|Evaluation of the Toxicity of Pesticide Mixtures to Fathead Minnows (Pimephales promelas) Using Probabilistic Ecological Risk Assessment and Toxic Equivalent Techniques|M.S.Thesis, Univ.of Guelph, Ontario, Canada:223 p.|2001|
111435|T||Wojdyla,A.T.|Influence of Some Compounds on Development of Sphaerotheca pannosa var. rosae|J. Plant Prot. Res.40(2): 106-121|2000|
111437|T||Korenkov,V., K. Hirschi, J.D. Crutchfield, and G.J. Wagner|Enhancing Tonoplast Cd/H Antiport Activity Increases Cd, Zn, and Mn Tolerance, and Impacts Root/Shoot Cd Partitioning in Nicotiana tabacum L.|Planta (Multiple Languages)226(6): 1379-1387|2007|10.1007/s00425-007-0577-0
111438|T||Reddy,M.P., and M. Kaur|Sodium Fluoride Induced Growth and Metabolic Changes in Salicornia brachiata Roxb|Water Air Soil Pollut.188(1-4): 171-179|2008|10.1007/s11270-007-9533-7
111439|T||Thompson,O.A., D.C. Wolf, J.D. Mattice, and G.J. Thoma|Influence of Nitrogen Addition and Plant Root Parameters on Phytoremediation of Pyrene-Contaminated Soil|Water Air Soil Pollut.189(1-4): 37-47|2008|10.1007/s11270-007-9552-4
111440|T||Rosenberger,D.A., and F.W. Meyer|Control of Dagger and Lesion Nematodes in Apple and Plum Orchards with Fenamiphos, Carbofuran, and Carbosulfan|Plant Dis.72(6): 519-522|1988|10.1094/PD-72-0519
111441|A||Zhang,L.P., S.K. Mehta, Z.P. Liu, and Z.M. Yang|Copper-Induced Proline Synthesis is Associated with Nitric Oxide Generation in Chlamydomonas reinhardtii|Plant Cell Physiol.49(3): 411-419|2008|10.1093/pcp/pcn017
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111443|A||Wu,M., A. Chaudhary, I.A. Khan, and A.K. Dasmahapatra|Ethanol Teratogenesis in Japanese Medaka:  Effects at the Cellular Level|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.149(1): 191-201|2008|10.1016/j.cbpb.2007.09.008
111444|A||Henczova,M., A.K. Deer, A. Filla, V. Komlosi, and J. Mink|Effects of Cu2+ and Pb2+ on Different Fish Species:  Liver Cytochrome P450-Dependent Monooxygenase Activities and FTIR Spectra|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(1): 53-60|2008|10.1016/j.cbpc.2008.03.010
111445|A||Langiano V.C., and C.B.R. Martinez|Toxicity and Effects of a Glyphosate-Based Herbicide on the Neotropical Fish Prochilodus lineatus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(2): 222-231|2008|10.1016/j.cbpc.2007.09.009
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111448|T||Chen,X.P., Y.G. Zhu, M.N. Hong, A. Kappler, and Y.X. Xu|Effects of Different Forms of Nitrogen Fertilizers on Arsenic Uptake by Rice Plants|Environ. Toxicol. Chem.27(4): 881-887|2008|10.1897/07-368.1
111449|A||Irving,E.C., R.B. Lowell, J.M. Culp, K. Liber, Q. Xie, and R. Kerrich|Effects of Arsenic Speciation and low Dissolved Oxygen Condition on the Toxicity of Arsenic to a Lotic Mayfly|Environ. Toxicol. Chem.27(3): 583-590|2008|10.1897/06-617.1
111450|A||Cheung,M.S., and W.X. Wang|Uses of Subcellular Metal Distribution in Prey to Predict Metal Bioaccumulation and Internal Exposure in a Predator|Environ. Toxicol. Chem.27(5): 1160-1166|2008|10.1897/07-423.1
111451|A||Glusczak,L., D.S. Miron, B.S. Moraes, R.R. Simoes, M.R.C. Schetinger, V.M. Morsch, and V.L. Loro|Acute Effects of Glyphosate Herbicide on Metabolic and Enzymatic Parameters of Silver Catfish (Rhamdia quelen)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(4): 519-524|2007|10.1016/j.cbpc.2007.06.004
111452|A||Stueckle,T.A., J. Likens, and C.M. Foran|Limb Regeneration and Molting Processes Under Chronic Methoprene Exposure in the Mud Fiddler Crab, Uca pugnax|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(3): 366-377|2008|10.1016/j.cbpc.2008.01.004
111453|A||Meador,J.P., J. Buzitis, and C.F. Bravo|Using Fluorescent Aromatic Compounds in Bile from Juvenile Salmonids to Predict Exposure to Polycyclic Aromatic Hydrocarbons|Environ. Toxicol. Chem.27(4): 845-853|2008|10.1897/07-434.1
111454|T||Eun,J.W., S.Y. Ryu, J.H. Noh, M.J. Lee, J.J. Jang, J.C. Ryu, K.H. Jung, J.K. Kim, H.J. Bae, H. Xie, S.Y. Kim, S.H. Lee,|Discriminating the Molecular Basis of Hepatotoxicity Using the Large-Scale Characteristic Molecular Signatures of Toxicants by Expression Profiling Analysis|Toxicology249(2/3): 176-183|2008|10.1016/j.tox.2008.05.001
111455|A||Ferretti,J.A., D.F. Calesso, J.M. Lazorchak, T.J. Dolce, J. Arnold, W.L. Goodfellow, M.E. Smith, and J.R. Serbst|Interlaboratory Comparison of a Reduced Volume Marine Sediment Toxicity Test Method Using the Amphipod Ampelisca abdita|Environ. Toxicol. Chem.23(3): 632-637|2004|10.1897/03-212
111456|T||Lalancette,N., and D.M. Robison|Effect of Fungicides, Application Timing, and Canker Removal on Incidence and Severity of Constriction Canker of Peach|Plant Dis.86(7): 721-728|2002|10.1094/PDIS.2002.86.7.721
111457|T||Madden,L.V., M.A. Ellis, N. Lalancette, G. Hughes, and L.L. Wilson|Evaluation of a Disease Warning System for Downy Mildew of Grapes|Plant Dis.84(5): 549-554|2000|10.1094/PDIS.2000.84.5.549
111458|T||Phipps,P.M., and D.M. Porter|Collar Rot of Peanut Caused by Lasiodiplodia theobromae|Plant Dis.82(11): 1205-1209|1998|10.1094/PDIS.1998.82.11.1205
111461|T||Slotkin,T.A., B.E. Bodwell, E.D. Levin, and F.J. Seidler|Neonatal Exposure to Low Doses of Diazinon:  Long-Term Effects on Neural Cell Development and Acetylcholine Systems|Environ. Health Perspect.116(3): 340-348|2008|10.1289/ehp.11005
111462|A||Bansal,S.K., and K.V. Singh|Relative Susceptibility of Some Common Mosquito Vector Larvae to Synthetic Insecticidal Compounds in North-Western Rajasthan|J. Environ. Biol.28(4): 829-832|2007|
111463|A||Overmyer,J.P., D.R. Rouse, J.K. Avants, A.W. Garrison, M.E. DeLorenzo, K.W. Chung, P.B. Key, W.A. Wilson, and M.C. Blac|Toxicity of Fipronil and Its Enantiomers to Marine and Freshwater Non-Targets|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(5): 471-480|2007|
111464|A||Zhang,A., C. Xu, and W. Liu|Influence of Toxicity and Dissipation of Racemic Fenoxaprop and Its R-Enantiomer in Scenedesmus obliquus Suspension by Cyclodextrins|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(3): 231-236|2008|
111465|A||Kim,Y., J. Jung, S. Oh, and K. Choi|Aquatic Toxicity of Cartap and Cypermethrin to Different Life Stages of Daphnia magna and Oryzias latipes|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(1): 56-64|2008|
111466|T||Wichtel,J.J., A.L. Craigie, D.A. Freeman, H. Varela-Alvarez, and N.B. Williamson|Effect of Selenium and Iodine Supplementation on Growth Rate and on Thyroid and Somatotropic Function in Dairy Calves at Pasture|J. Dairy Sci.79(10): 1865-1872|1996|10.3168/jds.S0022-0302(96)76554-2
111467|T||Fritts,D.A., G.J.,Jr. Michels, and C.M. Rush|The Effects of Planting Date and Insecticide Treatments on the Incidence of High Plains Disease in Corn|Plant Dis.83(12): 1125-1128|1999|10.1094/PDIS.1999.83.12.1125
111468|T||El-Mageed,A.E.M.A., E.M. Anwar, and L.R.A. Elgohary|Biochemical Side Effects of Some Commercial Biocides on Cotton Leafworm|Arch. Phytopathol. Plant Prot.41(3): 227-232|2008|10.1080/03235400600759255
111469|A||Cao,T., P. Xie, Z. Li, L. Ni, M. Zhang, and J. Xu|Physiological Stress of High NH4+ Concentration in Water Column on the Submersed Macrophyte Vallisneria natans L.|Bull. Environ. Contam. Toxicol.82(3): 296-299|2009|10.1007/s00128-008-9531-5
111470|T||Kumari,G.J., A.M. Reddy, S.T. Naik, S.G. Kumar, J. Prasanthi, G. Sriranganayakulu, P.C. Reddy, and C. Sudhakar|Jasmonic Acid Induced Changes in Protein Pattern, Antioxidative Enzyme Activities and Peroxidase Isozymes in Peanut Seedlings|Biol. Plant. (Praha)50(2): 219-226|2006|10.1007/s10535-006-0010-8
111471|A||Gentilhomme,V., and M. Rich|Periodic Ammonium Pulses:  Are They Important for the Uptake Kinetics of Isochrysis galbana?|Hydrobiologia (Multiple Languages)459:223-231|2001|10.1023/A:1012524118495
111472|T||Cruz,J.L., P.R. Mosquim, C.R. Pelacani, W.L. Araujo, and F.M. DaMatta|Effects of Nitrate Nutrition on Nitrogen Metabolism in Cassava|Biol. Plant. (Praha)48(1): 67-72|2004|10.1023/B:BIOP.0000024277.51293.02
111473|T||Dickens,J.C.|Specialized Receptor Neurons for Pheromones and Host Plant Odors in the Boll Weevil, Anthonomus grandis Boh. (Coleoptera:   Curculionidae)|Chem. Senses15(3): 311-331|1990|10.1093/chemse/15.3.311
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111477|T||Francke,W., M.L. Pan, W.A. Konig, K. Mori, P. Puapoomchareon, H. Heuer, and J.P. Vite|Identification of 'Pityol' and 'Grandisol' as Pheromone Components of the Bark Beetle, Pityophthorus pityographus|Naturwissenschaften74(7): 343-345|1987|10.1007/BF00367933
111478|T||Ujvary,I., J.C. Dickens, J.A. Kamm, and L.M. McDonough|Natural Product Analogs: Stable Mimics of Aldehyde Pheromones|Arch. Insect Biochem. Physiol.22(3-4): 393-411|1993|10.1002/arch.940220308
111479|T||Phillips,T.W., and G.N. Lanier|Interspecific Activity of Semiochemicals Among Sibling Species of Pissodes (Coleoptera:  Curculionidae)|J. Chem. Ecol.12(7): 1587-1601|1986|10.1007/BF01020266
111481|T||Ridgway,R.L., K.W. Thorpe, R.E. Webb, and L. Venables|Gypsy Moth Management in Suburban Parks:  Program Evaluation|J. Entomol. Sci.29(4): 557-569|1994|10.18474/0749-8004-29.4.557
111482|T||Chemical Manufacturers Association|Disposition of 2-Mercaptobenzothiazole-Ring-UL-14C and 2-Mercaptobenzothiazole Disulfide-Ring-UL-14C in Fischer 344 Rats Dosed Orally and Intravenously w/Letter|EPA/OTS Doc.#FYI-AX-1086-0308:92 p.|1986|
111483|T||Chemical Manufacturers Association|Disposition of 2-Mercaptobenzothiazole-Ring-UL-14C and 2-Mercaptobenzothiazole Disulfide-Ring-UL14C in Fischer 344 Male and Female Rats Dosed Orally (Final Report)|EPA/OTS Doc.#40-8672120:42 p.|2000|
111484|T||Chemical Manufacturers Association|Disposition of 2-Mercaptobenzothiazole-Ring-Ul-14C and 2-Mercaptobenzothiazole Disulfide-Ring-Ul-14C in Fischer 344 Male and Female Rats Dosed Intravenously w/Letter|EPA/OTS Doc.#40-8672124:42 p.|1986|
111485|T||Chemical Manufacturers Association|Absorption & Disposition of 2-Mercaptobenzothiazole-Ring-UL-14C & Disulfide Ring-UL-14C in Fischer 344 Male & Female Rats & Guinea Pigs Dosed Topically (Final Report) w-Letter|EPA/OTS Doc.#40-8778294:33 p.|1987|
111486|T||Chemical Manufacturers Association|Absorption & Disposition of 2-MBT-Ring-UL-14C & 2-MBT Disulfide-Ring-UL-14C in Fischer 344 Male & Female Rats & Female Guinea Pigs Dosed Topically (Final Reports) w-Letter 061687|EPA/OTS Doc.#40-8772127:33 p.|2000|
111489|T||Smith,L.W., G.F. Fries, and B.T. Weinland|Poultry Excreta Containing Polychlorinated Biphenyls as a Protein Supplement for Lactating Cows|J. Dairy Sci.59(3): 465-474|1976|10.3168/jds.S0022-0302(76)84228-2
111490|T||Kasai,A., N. Hiramatsu, K. Hayakawa, J. Yao, and M. Kitamura|Direct, Continuous Monitoring of Air Pollution by Transgenic Sensor Mice Responsive to Halogenated and Polycyclic Aromatic Hydrocarbons|Environ. Health Perspect.116(3): 349-354|2008|10.1289/ehp.10722
111491|T||Gauger,K.J., S. Giera, D.S. Sharlin, R. Bansal, E. Iannacone, and R.T. Zoeller|Polychlorinated Biphenyls 105 and 118 Form Thyroid Hormone Receptor Agonists After Cytochrome P4501A1 Activation in Rat Pituitary GH3 Cells|Environ. Health Perspect.115(11): 1623-1630|2007|10.1289/ehp.10328
111492|A||Sakamoto,M.K., S. Mima, K.P. Takahashi, and T. Tanimura|Apoptotic Cell Death of Erythrocytes in Xenopus Larvae Exposed to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Toxicol. Pathol.25(4): 398-402|1997|10.1177/019262339702500409
111493|A||Lehmann,D.W., J.F. Levine, and J.M. Law|Polychlorinated Biphenyl Exposure Causes Gonadal Atrophy and Oxidative Stress in Corbicula fluminea Clams|Toxicol. Pathol.35(3): 356-365|2007|10.1080/01926230701230288
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111495|T||Greig,J.B., and F. De Matteis|Effects of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Drug Metabolism and Hepatic Microsomes of Rats and Mice|Environ. Health Perspect.5:211-219|1973|
111496|A||Madenjian,C., D.V. O'Connor, R.R. Rediske, J.P. O'Keefe, and S.A. Pothoven|Net Trophic Transfer Efficiencies of Polychlorinated Biphenyl Congeners to Lake Whitefish (Coregonus clupeaformis) from Their Food|Environ. Toxicol. Chem.27(3): 631-636|2008|10.1897/07-274.1
111497|T||Sarkar,M.A., and B.J. Jackson|Theophylline N-Demethylations as Probes for P4501A1 and P4501A2|Drug Metab. Dispos.22(6): 827-834|1994|
111498|AT||Chen,S.J., E.L. Hsu, and Y.L. Chen|Fate of the Herbicide Benthiocarb (Thiobencarb) in a Rice Paddy Model Ecosystem|J. Pestic. Sci. (Multiple Languages)7:335-340|1982|10.1584/jpestics.7.335
111499|T||Standeven,A.M., D.G. Blazer III, and T.L. Goldsworthy|Investigation of Antiestrogenic Properties of Unleaded Gasoline in Female Mice|Toxicol. Appl. Pharmacol.127(2): 233-240|1994|10.1006/taap.1994.1157
111500|T||Schleier III,J.J., R.K.D. Peterson, P.A. Macedo, and D.A. Brown|Environmental Concentrations, Fate, and Risk Assessment of Pyrethrins and Piperonyl Butoxide After Aerial Ultralow-Volume Applications for Adult Mosquito Management|Environ. Toxicol. Chem.27(5): 1063-1068|2008|10.1897/07-532.1
111501|T||Seifers,D.L., and T.L. Harvey|Effect of Carbofuran on Transmission of Maize Dwarf Mosaic Virus in Sorghum Mechanically and by the Aphid Schizaphis graminum|Plant Dis.73(1): 61-63|1989|10.1094/PD-73-0061
111502|T||Brenneman,T.B., P.M. Phipps, and R.J. Stipes|Performance Characteristics of Dicloran, Iprodione, and Vinclozolin for Control of Sclerotinia Blight of Peanut|Plant Dis.71:546-548|1987|10.1094/PD-71-0546
111503|T||Runion,G.B., S.C. Cade, and R.I. Bruck|Effects of Carbofuran and Thiabendazole on Incidence of Pitch Canker of Loblolly Pine|Plant Dis.77(2): 166-169|1993|10.1094/PD-77-0166
111504|T||Biggs,A.R., M.M. El-Kholi, and S.M. El-Neshawy|Effect of Calcium Salts on Growth, Pectic Enzyme Activity, and Colonization of Peach Twigs by Leucostoma persoonii|Plant Dis.78(9): 886-890|1994|10.1094/PD-78-0886
111505|T||Pearson,R.C., F.D. Smith, and B. Dubos|Angular Leaf Scorch, a New Disease of Grapevines in North America Caused by Pseudopezicula tetraspora|Plant Dis.72(9): 796-800|1988|10.1094/PD-72-0796
111506|T||Pscheidt,J.W., and R.C. Pearson|Time of Infection and Control of Phomopsis Fruit Rot of Grape|Plant Dis.73(10): 829-833|1989|10.1094/PD-73-0829
111507|T||Koyro,H.W., and S.S. Eisa|Effect of Salinity on Composition, Viability and Germination of Seeds of Chenopodium quinoa Willd|Plant Soil302(1/2): 79-90|2008|10.1007/s11104-007-9457-4
111508|T||Manabe,Y., R.A. Bressan, T. Wang, F. Li, H. Koiwa, I. Sokolchik, X. Li, and A. Maggio|The Arabidopsis Kinase-Associated Protein Phosphatase Regulates Adaptation to Na+ Stress|Plant Physiol.146(2): 612-622|2008|10.1104/pp.107.109009
111509|T||Yu,Q., A. Collavo, M.Q. Zheng, M. Owen, M. Sattin, and S.B. Powles|Diversity of Acetyl-Coenzyme A Carboxylase Mutations in Resistant Lolium Populations:  Evaluation Using Clethodim|Plant Physiol.145(2): 547-558|2007|10.1104/pp.107.105262
111510|T||Spotts,R.A., and L.A. Cervantes|Sclerotinia Rot of Pears in Oregon|Plant Dis.80(11): 1262-1264|1996|10.1094/PD-80-1262
111511|T||Shtienberg,D., D. Blachinsky, G. Ben-Hador, and A. Dinoor|Effects of Growing Season and Fungicide Type on the Development of Alternaria solani and on Potato Yield|Plant Dis.80(9): 994-998|1996|10.1094/PD-80-0994
111512|T||Golembiewski,R.C., J.M. Jr. Vargas, A.L. Jones, and A.R. Detweiler|Detection of Demethylation Inhibitor (DMI) Resistance in Sclerotinia homoeocarpa Populations|Plant Dis.79(5): 491-493|1995|10.1094/PD-79-0491
111513|T||Scherm,H., S.T. Koike, F.F. Laemmlen, and A.H.C. Van Bruggen|Field Evaluation of Fungicide Spray Advisories Against Lettuce Downy Mildew (Bremia lactucae) Based on Measured or Forecast Morning Leaf Wetness|Plant Dis.79(5): 511-516|1995|10.1094/PD-79-0511
111514|T||Olaya,G., G.S. Abawi, and J. Barnard|Response of Rhizoctonia solani and Binucleate Rhizoctonia to Five Fungicides and Control of Pocket Rot of Table Beets with Foliar Sprays|Plant Dis.78:1033-1037|1994|10.1094/PD-78-1033
111515|T||Sutton,T.B., and C.R. Unrath|A Comparison of Handgun and Tree-Row-Volume Pesticide Applications|Plant Dis.72(6): 509-512|1988|10.1094/PD-72-0509
111516|T||Porter,L.D., T.F. Cummings, and D.A. Johnson|Effects of Soil-Applied Late Blight Foliar Fungicides on Infection of Potato Tubers by Phytophthora infestans|Plant Dis.90(7): 964-968|2006|10.1094/PD-90-0964
111517|A||Moraga,D., A.L. Meistertzheim, S. Tanguy-Royer, I. Boutet, A. Tanguy, and A. Donval|Stress Response in Cu2+ and Cd2+ Exposed Oysters (Crassostrea gigas):  An Immunohistochemical Approach|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141(2): 151-156|2005|10.1016/j.cca.2005.05.014
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111527|T||Warne,M.S.J., D. Heemsbergen, M. McLaughlin, M. Bell, K. Broos, M. Whatmuff, G. Barry, D. Nash, D. Pritchard, and N. Pe|Models for the Field-Based Toxicity of Copper and Zinc Salts to Wheat in 11 Australian Soils and Comparison to Laboratory-Based Models|Environ. Pollut.156(3): 707-714|2008|10.1016/j.envpol.2008.06.012
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111532|T||Petry,T.W., G.H.I. Wolfgang, R.A. Jolly, R. Ochoa, and W.J. Donarski|Antioxidant-Dependent Inhibition of Diquat-Induced Toxicity In Vivo|Toxicology74(1): 33-43|1992|10.1016/0300-483X(92)90041-C
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111535|T||Hogendoorn,E.A., W.F. DeGraaf, M. Tan, and P. Van Zoonen|The Residue Analysis of Chlorophenoxy Acids and Triclopyr in Cereal and Bean Sprouts Using Off-Line SPE and On-Line Column-Switching RPLC|Meded. Fac. Landbouwwet. Univ. Gent58(2a): 165-172|1993|
111536|T||Lagisz,M., and R. Laskowski|Susceptibility of a Carabid Beetle, Pterostichus oblongopunctatus Fab., from a Gradient of Heavy Metal Pollution to Additional Stressors|Bull. Environ. Contam. Toxicol.79(5): 504-507|2007|10.1007/s00128-007-9248-x
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111538|T||Wani,P.A., M.S. Khan, and A. Zaidi|Chromium-Reducing and Plant Growth-Promoting Mesorhizobium Improves Chickpea Growth in Chromium-Amended Soil|Biotechnol. Lett.30(1): 159-163|2008|10.1007/s10529-007-9515-2
111539|T||Anand,T., A. Chandrasekaran, V. Prakasam, S. Kuttalam, R. Samiyappan, and T. Raguchander|Persistence and Dissipation of Azoxystrobin in Chilli|Pestology31(3): 29-33|2007|
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111542|T||Dadwal,V.S., Jamaluddin, and K.K. Soni|Uptake, Translocation and Persistence of Benlate and Bavistin in Pinus caribaea Seedlings|Indian J. For.9(2): 123-125|1986|
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111544|A||Dua,A., and M.S. Johal|Alterations in the Architecture of Gill Surface of Channa punctatus Produced by Endosulfan Treated Water:  A SEM Study|J. Aquat. Biol. Fish1(1): 27-32|1994|
111545|T||Rajan,M.R., and M. Nagaraj|Evaluation of Mucuna pruriens on Endosulfan Induced Hepatotoxicity in Male Rats|Asian J. Microbiol. Biotechnol. Environ. Sci.8(3): 655-656|2006|
111546|T||Ahmad,M., M.A. Saleem, and A.H. Sayyed|Time Trends in Mortality for Conventional and New Insecticides Against Leaf Worm, Spodoptera litura (Lepidoptera:  Noctuidae)|Pak. J. Biol. Sci.9(3): 360-364|2006|10.3923/pjbs.2006.360.364
111547|AT||Guiraud,P., J.L. Bonnet, A. Boumendjel, M. Kadri-Dakir, M. Dusser, J. Bohatier, and R. Steiman|Involvement of Tetrahymena pyriformis and Selected Fungi in the Elimination of Anthracene, and Toxicity Assessment of the Biotransformation Products|Ecotoxicol. Environ. Saf.69(2): 296-305|2008|10.1016/j.ecoenv.2006.11.006
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111549|T||Iannotta,N., T. Belfiore, P. Brandmayr, M.E. Noce, and S. Scalercio|Evaluation of the Impact on Entomocoenosis of Active Agents Allowed in Organic Olive Farming Against Bactrocera oleae (Gmelin, 1790)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(7): 783-788|2007|
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111647|A||Bao,V.W.W., K.M.Y. Leung, K.W.H. Kwok, A.Q. Zhang, and G.C.S. Lui|Synergistic Toxic Effects of Zinc Pyrithione and Copper to Three Marine Species:  Implications on Setting Appropriate Water Quality Criteria|Mar. Pollut. Bull.57(6-12): 616-623|2008|10.1016/j.marpolbul.2008.03.041
111648|A||Hagger,J.A., M.H. Depledge, and T.S. Galloway|Toxicity of Tributyltin in the Marine Mollusc Mytilus edulis|Mar. Pollut. Bull.51(8-12): 811-816|2005|10.1016/j.marpolbul.2005.06.044
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111654|A||Sun,F.H., and Q.X. Zhou|Oxidative Stress Biomarkers of the Polychaete Nereis diversicolor Exposed to Cadmium and Petroleum Hydrocarbons|Ecotoxicol. Environ. Saf.70(1): 106-114|2008|10.1016/j.ecoenv.2007.04.014
111655|A||Masola,B., M. Chibi, E. Kandare, Y.S. Naik, and M.F. Zaranyika|Potential Marker Enzymes and Metal-Metal Interactions in Helisoma duryi and Lymnaea natalensis Exposed to Cadmium|Ecotoxicol. Environ. Saf.70(1): 79-87|2008|10.1016/j.ecoenv.2007.06.013
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111672|T||Ripa,R., P. Luppichini, N.Y. Su, and M.K. Rust|Field Evaluation of Potential Control Strategies Against the Invasive Eastern Subterranean Termite (Isoptera: Rhinotermitidae) in Chile|J. Econ. Entomol.100(4): 1391-1399|2007|10.1093/jee/100.4.1391
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111736|A||Elandalloussi,L.M., R.B. Leite, P.M. Rodrigues, R. Afonso, and M.L. Cancela|Effect of the Herbicide Roundup on Perkinsus olseni In Vitro Proliferation and In Vivo Survival when Infecting a Permissive Host, the Clam Ruditapes decussatus|Bull. Environ. Contam. Toxicol.80(6): 512-515|2008|10.1007/s00128-008-9412-y
111737|A||Jin,Y., W. Wang, C. Xu, Z. Fu, and W. Liu|Induction of Hepatic Estrogen-Responsive Gene Transcription by Permethrin Enantiomers in Male Adult Zebrafish|Aquat. Toxicol.88(2): 146-152|2008|10.1016/j.aquatox.2008.04.004
111738|A||Li,E., Z. Xiong, L. Chen, C. Zeng, and K. Li|Acute Toxicity of Boron to Juvenile White Shrimp, Litopenaeus vannamei, at Two Salinities|Aquaculture278(1-4): 175-178|2008|10.1016/j.aquaculture.2008.03.022
111739|A||Kumar,A., B. Sharma, and R.S. Pandey|Preliminary Evaluation of the Acute Toxicity of Cypermethrin and lambda-Cyhalothrin to Channa punctatus|Bull. Environ. Contam. Toxicol.79(6): 613-616|2007|10.1007/s00128-007-9282-8
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111747|T||Babu,G.R.V., G.R. Reddy, A.T.V. Reddy, W. Rajendra, and C.S. Chetty|Modulations in Ionic Composition and ATPase System in the Brain of Albino Rat Under Induced Propoxur Toxicity|Biochem. Int.21(6): 1105-1111|1990|
111748|T||Bandyopadhyay,B., and J.S. Sarma|Therapeutic Evaluation of Deltamethrin and Amitraz Against Organophosphate Resistant Canine Ticks and Fleas|Indian Vet. J.70(11): 1053-1054|1993|
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111751|T||Rettke,M.A., T.R. Pitt, N.A. Maier, and J.A. Jones|Quality of Fresh and Dried Fruit of Apricot (cv. Moorpark) in Response to Soil-Applied Nitrogen|Aust. J. Exp. Agric.46(1): 123-129|2006|10.1071/EA04211
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111754|A||R.T.Vanderbilt Co.Inc.|(2-Mercaptobenzothiazole (Rokon)) - Acute Toxicity to Daphnids (Daphnia magna) Under Static Conditions (Final Report) with Attachments and Cover Letter Dated 030292|EPA/OTS Doc.#86-920000843:58 p.|1992|
111756|T||Zurawicz,E., A. Masny, and A. Basak|Productivity Stimulation in Strawberry by Application of Plant Bioregulators|Acta Hortic.653:155-160|2004|10.17660/ActaHortic.2004.653.21
111757|T||Brockway,D.G., K.W. Outcalt, and R.N. Wilkins|Restoring Longleaf Pine Wiregrass Ecosystems:  Plant Cover, Diversity and Biomass Following Low-Rate Hexazinone Application on Florida Sandhills|For. Ecol. Manag.103(2/3): 159-175|1998|10.1016/S0378-1127(97)00186-2
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111759|T||Chen,H.Y.H., W.J. Byman, and F.W. Bell|Chemical Site Preparation Influences Productivity, Composition, and Structure of Boreal Mixedwoods in Ontario, Canada|For. Ecol. Manag.229(1-3): 145-154|2006|10.1016/j.foreco.2006.03.022
111760|T||Haywood,J.D.|Effects of Herbaceous and Woody Plant Control on Pinus palustris Growth and Foliar Nutrients Through Six Growing Seasons|For. Ecol. Manag.214(1-3): 384-397|2005|10.1016/j.foreco.2005.04.023
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111768|T||Smiley,R.W., D.E. Wilkins, and E.L. Klepper|Impact of Fungicide Seed Treatments on Rhizoctonia Root Rot, Take-All, Eyespot, and Growth of Winter Wheat|Plant Dis.74:782-787|1990|10.1094/PD-74-0782
111769|T||Samoucha,Y., and Y. Cohen|Field Control of Potato Late Blight by Synergistic Fungicidal Mixtures|Plant Dis.73(9): 751-753|1989|10.1094/PD-73-0751
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111786|T||Mansour,S.A., and A.T.H. Mossa|Lipid Peroxidation and Oxidative Stress in Rat Erythrocytes Induced by Chlorpyrifos and the Protective Effect of Zinc|Pestic. Biochem. Physiol.93(1): 34-39|2009|10.1016/j.pestbp.2008.09.004
111787|T||Daglish,G.J.|Impact of Resistance on the Efficacy of Binary Combinations of Spinosad, Chlorpyrifos-Methyl and s-Methoprene Against Five Stored-Grain Beetles|J. Stored Prod. Res.44(1): 71-76|2008|10.1016/j.jspr.2007.06.003
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111794|T||Burzynski,M., and J. Buczek|Uptake and Assimilation of Ammonium Ions by Cucumber Seedlings from Solutions with Different pH and Addition of Heavy Metals|Acta Soc. Bot. Pol.67(2): 197-200|1998|10.5586/asbp.1998.023
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111797|T||Petney,T.N., and M.M. Knight|The Treatment of Ticks on Tortoises Using Amitraz|J. S. Afr. Vet. Assoc.59(4): 206-|1988|
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111800|T||Mote,U.N.|Influence of New Insecticides as Seed Dressers on Seed Germination and Initial Seedling Growth Characters of French Bean|Agric. Sci. Dig.16(3): 147-148|1996|
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111809|T||Awasthi,M.D.|Persistence and Dissipation Pattern of Synthetic Pyrethroids on Sweet Pepper for Safety Constants|Indian J. Plant Prot.18(2): 277-280|1990|
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111814|T||Kumar,A., S.D. Sharma, N.P. Kashyap, S. Srivastava, and D. Raj|Effect of Amitraz and Fluvalinate on Brood and Longevity of Adult Apis mellifera L. Bees (Hymenoptera:  Apidiae)|Uttar Pradesh J. Zool.14(2): 151-155|1994|
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111824|AT||Koger,C.H., D.M. Dodds, and D.B. Reynolds|Effect of Adjuvants and Urea Ammonium Nitrate on Bispyribac Efficacy, Absorption, and Translocation in Barnyardgrass (Echinochloa crus-galli).  I.  Efficacy, Rainfastness, and Soil Moisture|Weed Sci.55(5): 399-405|2007|10.1614/WS-06-146.1
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111835|T||Lidon,F.C.|Micronutrient Uptake and Translocation in Mn-Treated Rice|J. Plant Nutr.25(4): 757-768|2002|10.1081/PLN-120002957
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111865|T||Dow Chemical Co.|Results of Range Finding Toxicological Tests on 2-Mercaptobenzothiazole (Captax) and _____ with Cover Letter|EPA/OTS Doc.#878214938:26 p.|1985|
111866|T||Eastman Kodak Co.|Basic Toxicity of 2-Benzothiozolethtol|EPA/OTS Doc.#878214975:13 p.|1985|
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112002|T||Garg,D.P., R. Kiran, A.K. Bansal, A. Malhotra, and D.K. Dhawan|Role of Vitamin E in Mitigating Methomyl Induced Acute Toxicity in Blood of Male Wistar Rats|Drug Chem. Toxicol.31(4): 487-499|2008|10.1080/01480540802390775
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112050|T||Broschat,T.K., and M.L. Elliott|Effects of Iron Source on Iron Chlorosis and Exserohilum Leaf Spot Severity in Wodyetia bifurcata|Hortscience40(1): 218-220|2005|10.21273/HORTSCI.40.1.218
112051|T||Nichols,D., C. Embree, J. Cline, and H.Y. Ju|Blossom and Fruitlet Thinners Affect Crop Load, Fruit Weight, Seed Number, and Return Bloom of 'Northern Spy' Apple|Hortscience39(6): 1309-1312|2004|10.21273/HORTSCI.39.6.1309
112053|T||Scoccianti,V., M. Iacobucci, M.F. Paoletti, A. Fraternale, and A. Speranza|Species-Dependent Chromium Accumulation, Lipid Peroxidation, and Glutathione Levels in Germinating Kiwifruit Pollen Under Cr(III) and Cr(VI) Stress|Chemosphere73(7): 1042-1048|2008|10.1016/j.chemosphere.2008.07.083
112054|T||Aligiannis,N., E. Kalpoutzakis, I.B. Chinou, S. Mitakou, E. Gikas, and A. Tsarbopoulos|Composition and Antimicrobial Activity of the Essential Oils of Five Taxa of Sideritis from Greece|J. Agric. Food Chem.49(2): 811-815|2001|10.1021/jf001018w
112055|T||Barlow,F., M. Elliott, A.W. Farnham, A.B. Hadaway, N.F. Janes, P.H. Needham, and J.C. Wickham|Insecticidal Activity of the Pyrethrins and Related Compounds.  IV. - Essential Features for Insecticidal Activity in Chrysanthemates and Related Cyclopropane Esters|Pestic. Sci.2(3): 115-118|1971|10.1002/ps.2780020306
112056|T||Vernay,P., C. Gauthier-Moussard, L. Jean, F. Bordas, O. Faure, G. Ledoigt, and A. Hitmi|Effect of Chromium Species on Phytochemical and Physiological Parameters in Datura innoxia|Chemosphere72(5): 763-771|2008|10.1016/j.chemosphere.2008.03.018
112057|T||Hibbard,B.E., and F.X. Webster|Enantiomeric Composition of Grandisol and Grandisal Produced by Pissodes strobi and P. nemorensis and Their Electroantennogram Response to Pure Enantiomers|J. Chem. Ecol.19(10): 2129-2141|1993|10.1007/BF00979652
112058|T||Dickens,J.C., G.D. Prestwich, and W.C. Sun|Behavioral and Neurosensory Responses of the Boll Weevil, Anthonomus grandis Boh. (Coleoptera:  Curculionidae), to Fluorinated Analogs of Aldehyde Components of Its Pheromone|J. Chem. Ecol.17(6): 1007-1020|1991|10.1007/BF01402930
112059|T||Dickens,J.C., and G.D. Prestwich|Differential Recognition of Geometric Isomers by the Boll Weevil, Anthonomus grandis Boh. (Coleoptera:  Curculionidae):  Evidence for Only Three Essential Components in Aggregation Pheromone|J. Chem. Ecol.15(2): 529-540|1989|10.1007/BF01014698
112060|T||Dickens,J.C., and K. Mori|Receptor Chirality and Behavioral Specificity of the Boll Weevil, Anthonomus grandis Boh. (Coleoptera:  Curculionidae), for Its Pheromone, (+)-Grandisol|J. Chem. Ecol.15(2): 517-528|1989|10.1007/BF01014697
112061|T||Drinkwater,N.R., E.C. Miller, J.A. Miller, and H.C. Pitot|Hepatocarcinogenicity of Estragole (1-Allyl-4-Methoxybenzene) and 1'-Hydroxyestragole in the Mouse and Mutagenicity of 1'-Acetoxyestragole in Bacteria|J. Natl. Cancer Inst.57(6): 1323-1331|1976|10.1093/jnci/57.6.1323
112062|T||Randerath,K., R.E. Haglund, D.H. Phillips, and M.V. Reddy|32P-Post-Labelling Analysis of DNA Adducts Formed in the Livers of Animals Treated with Safrole, Estragole and Other Naturally-Occurring Alkenylbenzenes. I. Adult Female CD-1 Mice|Carcinogenesis5(12): 1613-1622|1984|10.1093/carcin/5.12.1613
112063|T||Ameno,K., C. Fuke, S. Ameno, T. Kiriu, T. Shinohara, and I. Ijiri|A Rapid and Sensitive Quantitation of Amitraz in Plasma by Gas Chromatography with Nitrogen-Phosphorus Detection and Its Application for Pharmacokinetics|J. Anal. Toxicol.15(3): 116-118|1991|10.1093/jat/15.3.116
112064|T||Veerappa,N.S., and D.I.A. Samy|Zinc Toxicity and Its Alleviation by Nitrate and Ammonia in Corn Seedlings (Zea mays L.) with Special Reference to Nitrate Reductase Activity|J. Phytol. Res.10(1-2): 119-124|1997|
112065|T||Petersen,J., B. Hansen, and P. Sorensen|Nitrification of 15N-Ammonium Sulphate and Crop Recovery of 15N-Labelled Ammonium Nitrates Injected in Bands|Eur. J. Agron.21(1): 81-92|2004|10.1016/S1161-0301(03)00087-X
112066|T||Sabbioni,G.|Hemoglobin Binding of Monocyclic Aromatic Amines:  Molecular Dosimetry and Quantitative Structure Activity Relationships for the N-Oxidation|Chem.-Biol. Interact.81(1/2): 91-117|1992|10.1016/0009-2797(92)90029-K
112067|T||Stevenson,J.H., L.E. Smart, and J.H.H. Walters|Laboratory Assessment of Insecticide Selectivity - Practical Relevance|Br. Crop Prot. Conf. Pests Dis.1:355-358|1984|
112068|T||Lengyel,Z., A. Lukacs, A. Szabo, and L. Institoris|Neurotoxic and General Effects of Combined Subchronic Exposure of Rats to Insecticides and Heavy Metals|Acta Biol. Hung.57(4): 423-432|2006|10.1556/ABiol.57.2006.4.4
112069|A||Saito,K., T. Drgon, D.N. Krupatkina, J. Drgonova, D.E. Terlizzi, N. Mercer, and G.R. Vasta|Effect of Biotic and Abiotic Factors on In Vitro Proliferation, Encystment, and Excystment of Pfiesteria piscicida|Appl. Environ. Microbiol.73(20): 6410-6420|2007|10.1128/AEM.01229-07
112071|T||Ivanova,M., and J. Van Staden|Effect of Ammonium Ions and Cytokinins on Hyperhydricity and Multiplication Rate of In Vitro Regenerated Shoots of Aloe polyphylla|Plant Cell Tissue Organ Cult.92(2): 227-231|2008|10.1007/s11240-007-9311-7
112073|T||Startsev,N.A., V.J. Lieffers, S.M. Landhausser, and A. Velazquez-Martinez|N-Transfer Through Aspen Litter and Feather Moss Layers After Fertilization with Ammonium Nitrate and Urea|Plant Soil311(1-2): 51-59|2008|10.1007/s11104-008-9657-6
112074|T||Gilbert,M.E., and R.S. Dyer|Increased Hippocampal Excitability Produced by Amitraz|Neurotoxicol. Teratol.10(3): 229-235|1988|10.1016/0892-0362(88)90022-0
112075|T||Gilbert,M.E.|Formamidine Pesticides Enhance Susceptibility to Kindled Seizures in Amygdala and Hippocampus of the Rat|Neurotoxicol. Teratol.10(3): 221-227|1988|10.1016/0892-0362(88)90021-9
112076|T||Jones,W.A., D.A. Wolfenbarger, and A.A. Kirk|Response of Adult Parasitoids of Bemisia tabaci (Hom.: Aleyrodidae) to Leaf Residues of Selected Cotton Insecticides|Entomophaga40(2): 153-162|1995|10.1007/BF02373064
112077|T||Munzi,S., S.A. Pirintsos, and S. Loppi|Chlorophyll Degradation and Inhibition of Polyamine Biosynthesis in the Lichen Xanthoria parietina Under Nitrogen Stress|Ecotoxicol. Environ. Saf.72(2): 281-285|2009|10.1016/j.ecoenv.2008.04.013
112078|T||Yoo,H., K.S. Guruge, N. Yamanaka, C. Sato, O. Mikami, S. Miyazaki, N. Yamashita, and J.P. Giesy|Depuration Kinetics and Tissue Disposition of PFOA and PFOS in White Leghorn Chickens (Gallus gallus) Administered by Subcutaneous Implantation|Ecotoxicol. Environ. Saf.72(1): 26-36|2009|10.1016/j.ecoenv.2007.09.007
112079|T||Yoon,J., M. Abe-Suzuki, P. Eko, H. Tamai, S. Hanamitsu, and K. Nakane|Negative Effects of Hydroxyl Radical-Generating Mists (Simulated Dew Water) on the Photosynthesis and Growth of Japanese Apricot Seedlings (Prunus mume)|Ecol. Res.21(1): 117-125|2006|10.1007/s11284-005-0112-3
112080|T||Zhu,L., and M. Zhang|Effect of Rhamnolipids on the Uptake of PAHs by Ryegrass|Environ. Pollut.156(1): 46-52|2008|10.1016/j.envpol.2008.01.004
112081|T||Zyzak,M.D., R.L. Byford, M.E. Craig, and J.A. Lockwood|Behavioral Responses of the Horn Fly (Diptera:  Muscidae) to Selected Insecticides in Contact and Noncontact Environments|Environ. Entomol.25(1): 120-129|1996|10.1093/ee/25.1.120
112082|A||Kumar,R.|Ammonia Induced Behavioural Changes in an Indian Teleost, Channa punctatus (Bloch)|J. Environ. Pollut.7(4): 255-257|2000|
112083|T||Barry,P.J., and T.S. Storey|Effect of Time of Sowing on the Yield and Quality of Swedes|Ir. J. Agric. Res.24(2/3): 221-228|1985|
112084|T||DuPont Chemical Corp.|Initial Submission:  Letter from Dupont Chem. to U.S.EPA Regarding a Chromium Study Report with Cover Letter and Attachments Dated  090192|EPA/OTS Doc.#88-920008509:287 p.|1992|
112085|AT||Matsubara,H.|Studies on Synergist for Insecticides. (XXVII)  On the  Synergistic Effect of Several Lignans on Pyrethrins and Allethrin|Bull. Inst. Chem. Res. Kyoto Univ.50(3): 197-205|1972|
112086|T||Ribnicky,D.M., A. Poulev, J. O'Neal, G. Wnorowski, D.E. Malek, R. Jager, and I. Raskin|Toxicological Evaluation of the Ethanolic Extract of Artemisia dracunculus L. for Use as a Dietary Supplement and in Functional Foods|Food Chem. Toxicol.42(4): 585-598|2004|10.1016/j.fct.2003.11.002
112089|T||Ribeiro,R.D.A., M.M.R. Fiuza De Melo, F. De Barros, C. Gomes, and G. Trolin|Acute Antihypertensive Effect in Conscious Rats Produced by Some Medicinal Plants Used in the State of Sao Paulo|J. Ethnopharmacol.15(3): 261-269|1986|10.1016/0378-8741(86)90164-9
112092|T||Bialczyk,J., Z. Lechowski, and D. Dziga|Composition of the Xylem Sap of Tomato Seedlings Cultivated on Media with HCO3- and Nitrogen Source as NO3- or NH4+|Plant Soil263(1-2): 265-272|2004|10.1023/B:PLSO.0000047739.11698.ca
112093|T||Donmez,N., M.A. Karsli, A. Cinar, T. Aksu, and E. Baytok|The Effects of Different Silage Additives on Rumen Protozoan Number and Volatile Fatty Acid Concentration in Sheep Fed Corn Silage|Small Ruminant Res.48(3): 227-231|2003|10.1016/S0921-4488(03)00017-8
112094|T||Ghanati,F., A. Morita, and H. Yokota|Effects of Aluminum on the Growth of Tea Plant and Activation of Antioxidant System|Plant Soil276(1-2): 133-141|2005|10.1007/s11104-005-3697-y
112095|T||Zakir Hossain,A.K.M., T. Ohno, H. Koyama, and T. Hara|Effect of Enhanced Calcium Supply on Aluminum Toxicity in Relation to Cell Wall Properties in the Root Apex of Two Wheat Cultivars Differing in Aluminum Resistance|Plant Soil276(1-2): 193-204|2005|10.1007/s11104-005-4390-2
112096|T||Gessler,A., J. Kreuzwieser, T. Dopatka, and H. Rennenberg|Diurnal Courses of Ammonium Net Uptake by the Roots of Adult Beech (Fagus sylvatica) and Spruce (Picea abies) Trees|Plant Soil240(1): 23-32|2002|10.1023/A:1015831304911
112098|T||Johnson,T.A., and R.C. Williamson|Potential Management Strategies for the Linden Borer (Coleoptera: Cerambycidae) in Urban Landscapes and Nurseries|J. Econ. Entomol.100(4): 1328-1334|2007|10.1093/jee/100.4.1328
112099|T||Huang,Y.Z., K. Wei, J. Yang, F. Dai, and G.P. Zhang|Interaction of Salinity and Cadmium Stresses on Mineral Nutrients, Sodium, and Cadmium Accumulation in Four Barley Genotypes|J. Zhejiang Univ., Sci. B8(7): 476-485|2007|10.1631/jzus.2007.B0476
112100|T||Ghnaya,T., I. Slama, D. Messedi, C. Grignon, M.H. Ghorbel, and C. Abdelly|Cd-Induced Growth Reduction in the Halophyte Sesuvium portulacastrum is Significantly Improved by NaCl|J. Plant Res.120(2): 309-316|2007|10.1007/s10265-006-0042-3
112101|T||DeAngelo,A.B., F.B. Daniel, D.M. Wong, and M.H. George|The Induction of Hepatocellular Neoplasia by Trichloroacetic Acid Administered in the Drinking Water of the Male B6C3F1 Mouse|J. Toxicol. Environ. Health Part A71(16): 1056-1068|2008|10.1080/15287390802111952
112102|T||Hougard,J.M., T. Martin, P.F. Guillet, M. Coosemans, T. Itoh, M. Akogbeto, and F. Chandre|Preliminary Field Testing of a Long-Lasting Insecticide-Treated Hammock Against Anopheles gambiae and Mansonia spp. (Diptera:  Culicidae) in West Africa|J. Med. Entomol.44(4): 651-655|2007|10.1093/jmedent/44.4.651
112103|A||Tjeerdema,R.S.|Application of NMR-Based Techniques in Aquatic Toxicology:  Brief Examples|Mar. Pollut. Bull.57(6-12): 275-279|2008|10.1016/j.marpolbul.2008.01.002
112104|T||Charlet,L.D., R.M. Aiken, R.F. Meyer, and A. Gebre-Amlak|Impact of Combining Planting Date and Chemical Control to Reduce Larval Densities of Stem-Infesting Pests of Sunflower in the Central Plains|J. Econ. Entomol.100(4): 1248-1257|2007|10.1093/jee/100.4.1248
112105|A||Sawasdee,B., and H.R. Kohler|Embryo Toxicity of Pesticides and Heavy Metals to the Ramshorn Snail, Marisa cornuarietis (Prosobranchia)|Chemosphere75:1539-1547|2009|10.1016/j.chemosphere.2009.01.085
112106|T||Agely,A.A., D.M. Sylvia, and L.Q. Ma|Mycorrhizae Increase Arsenic Uptake by the Hyperaccumulator Chinese Brake Fern (Pteris vittata L.)|J. Environ. Qual.34(6): 2181-2186|2005|10.2134/jeq2004.0411
112107|T||U.S. Environmental Protection Agency|USEPA Status Report:  2-Mercaptobenzothiazole with Cover Letter Dated 092989|EPA/OTS Doc.#8EHQ-0889-0813:8 p.|1989|
112108|AT||Monsanto Co.|Toxicologic Investigation of: Ureka White|EPA/OTS Doc.#878215064:6 p.|1985|
112109|T||Crofton,K.M., V.M. Boncek, and L.W. Reiter|Acute Effects of Amitraz on the Acoustic Startle Response and Motor Activity|Pestic. Sci.27(1): 1-11|1989|10.1002/ps.2780270102
112110|T||Hugnet,C., F. Buronfosse, X. Pineau, J.L. Cadore, G. Lorgue, and P.J. Berny|Toxicity and Kinetics of Amitraz in Dogs|Am. J. Vet. Res.57(10): 1506-1510|1996|10.2460/ajvr.1996.57.10.1506
112112|T||Van den Berg,L.J.L., E. Dorland, P. Vergeer, M.A.C. Hart, R. Bobbink, and J.G.M. Roelofs|Decline of Acid-Sensitive Plant Species in Heathland can be Attributed to Ammonium Toxicity in Combination with Low pH|New Phytol.166(2): 551-564|2005|10.1111/j.1469-8137.2005.01338.x
112113|T||Ellis,D.R., A.F. Lopez-Millan, and M.A. Grusak|Metal Physiology and Accumulation in a Medicago truncatula Mutant Exhibiting an Elevated Requirement for Zinc|New Phytol.158(1): 207-218|2003|10.1046/j.1469-8137.2003.00706.x
112114|T||Ohlund,J., and T. Nasholm|Regulation of Organic and Inorganic Nitrogen Uptake in Scots Pine (Pinus sylvestris) Seedlings|Tree Physiol.24(12): 1397-1402|2004|10.1093/treephys/24.12.1397
112115|T||Gupta,M., S. Mukherjee, S.D. Gupta, A.K. Dolui, S.N. Dey, and D.K. Roy|Changes of Lipid Spectrum in Different Tissues of Furadan-Treated Mice|Toxicology38(1): 69-79|1986|10.1016/0300-483X(86)90173-3
112116|A||Burkhalter,D.E.|Effects of Prolonged Exposure to Ammonia on Rainbow Trout (Salmo gairdneri) Eggs and Sac Fry|M.S.Thesis, Montana State University, Bozeman, MT:67 p.|1975|
112117|A||Downing,K.M., and J. Merkins|The Influence of Dissolved-Oxygen Concentrations on the Toxicity of Un-Ionized Ammonia to Rainbow Trout (Salmo gairdnerii Rich.)|Ann. Appl. Biol.43:243-246|1955|10.1111/j.1744-7348.1955.tb02472.x
112118|T||Man,H.M., R. Boriel, R. El-Khatib, and E.G. Kirby|Characterization of Transgenic Poplar with Ectopic Expression of Pine Cytosolic Glutamine Synthetase Under Conditions of Varying Nitrogen Availability|New Phytol.167(1): 31-39|2005|10.1111/j.1469-8137.2005.01461.x
112119|T||Gichner,T., S.A. Badaev, J. Veleminsky, and S.I. Demchenko|The Formation and Mutagenicity of the Nitrosated Carbamate Insecticide Propoxur in Arabidopsis thaliana|Arabidopsis Inf. Serv.26:43-46|1988|
112120|T||Agarwal,S.K., A.K. Saxena, P.C. Jain, N. Anand, R.N. Sur, R.C. Srimal, and B.N. Dhawan|Synthesis and Structure Activity Relationship in Aryloxyalkylamines|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.29(1): 80-84|1990|
112121|A||Spencer-Jones,D.|Some Observations on the Use of Herbicides for Control of Crassula helmsii|In: I.C.De Waal (Eds.), Landscape Ecology Series: Ecology and Management of Invasive Riverside Plants, John Wiley and Sons Ltd., Chichester, England:15-18|1994|
112123|A||Peschek,G.A.|Anaerobic Hydrogenase Activity in Anacystis nidulans H2-Dependent Photoreduction and Related Reactions|Biochim. Biophys. Acta548(2): 187-202|1979|10.1016/0005-2728(79)90128-2
112124|T||Baker,G.J.|Insecticidal Concentrates with Improved Allethrin|Soap Chem.Spec.46(5): 5 p.|1970|
112125|T||Botelho,R.V., A.P. Pavanello, E.J.P. Pires, M.M. Terra, and M.M.L. Muller|Effects of Chilling and Garlic Extract on Bud Dormancy Release in Cabernet Sauvignon Grapevine Cuttings|Am. J. Enol. Vitic.58(3): 402-404|2007|10.5344/ajev.2007.58.3.402
112126|T||Singh,A., and A.R. Rao|Evaluation of the Modifying Influence of Arecanut on the Garlic-Modulated Hepatic Detoxication System Enzymes, Sulfhydryl Content, and Lipid Peroxidation in Mice|Teratog. Carcinog. Mutagen.15(3): 127-134|1995|10.1002/tcm.1770150305
112127|T||Massoud,A.H., A.S. Derbalah, and E.S.B. Belal|Microbial Detoxification of Metalaxyl in Aquatic System|J. Environ. Sci. (China)20(3): 262-267|2008|10.1016/S1001-0742(08)60041-8
112128|T||Omura,H., and K. Honda|Feeding Responses of Adult Butterflies, Nymphalis xanthomelas, Kaniska canace and Vanessa indica, to Components in Tree Sap and Rotting Fruits:  Synergistic Effects of Ethanol and Acetic Acid on Sugar Responsiveness|J. Insect Physiol.49(11): 1031-1038|2003|10.1016/j.jinsphys.2003.07.001
112129|A||Fernandez-Alba,A.R., L. Piedra, M. Mezcua, and M.D. Hernando|Toxicity of Single and Mixed Contaminants in Seawater Measured with Acute Toxicity Bioassays|Sci. World J.2:1115-1120|2002|10.1100/tsw.2002.221
112130|A||Chung,K.W., A.R. Chandler, and P.B. Key|Toxicity of Carbaryl, Diquat Dibromide, and Fluoranthene, Individually and in Mixture, to Larval Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(4): 293-299|2008|
112131|T||Sharifi,A.M., R. Darabi, and N. Akbarloo|Investigation of Antihypertensive Mechanism of Garlic in 2K1C Hypertensive Rat|J. Ethnopharmacol.86(2-3): 219-224|2003|10.1016/S0378-8741(03)00080-1
112132|A||Grottum,J.A., U. Erikson, H. Grasdalen, and M. Staurnes|In Vivo 31P-NMR Spectroscopy and Respiration Measurements of Anaesthetized Goby (Pomatoschistus sp.) Pre-Exposed to Ammonia|Comp. Biochem. Physiol. A Mol. Integr. Physiol.120(3): 469-475|1998|10.1016/S1095-6433(98)10047-8
112133|A||Patrick,M.L., and C.M. Wood|Ion and Acid-Base Regulation in the Freshwater Mummichog (Fundulus heteroclitus):  A Departure from the Standard Model for Freshwater Teleosts|Comp. Biochem. Physiol. A Mol. Integr. Physiol.122(4): 445-456|1999|10.1016/S1095-6433(99)00030-6
112135|T||Leljak-Levanic,D., N. Bauer, S. Mihaljevic, and S. Jelaska|Changes in DNA Methylation During Somatic Embryogenesis in Cucurbita pepo L.|Plant Cell Rep.23(3): 120-127|2004|10.1007/s00299-004-0819-6
112136|T||Yao,H., and S. Tian|Effects of Pre- and Post-Harvest Application of Salicylic Acid or Methyl Jasmonate on Inducing Disease Resistance of Sweet Cherry Fruit in Storage|Postharvest Biol. Technol.35(3): 253-262|2005|10.1016/j.postharvbio.2004.09.001
112137|T||Horgan,B.P., and F.H. Yelverton|Removal of Perennial Ryegrass from Overseeded Bermudagrass Using Cultural Methods|Crop Sci.41(1): 118-126|2001|10.2135/cropsci2001.411118x
112138|A||Labenia,J.S., D.H. Baldwin, B.L. French, J.W. Davis, and N.L. Scholz|Behavioral Impairment and Increased Predation Mortality in Cutthroat Trout Exposed to Carbaryl|Mar. Ecol. Prog. Ser.329:1-11|2007|10.3354/meps329001
112139|T||Siltanen,H., and C. Rosenberg|Residue Analyses of the Official Testing of Pesticides, 1977|Publ. State Inst. Agric. Chem.15:69 p.|1978|
112141|T||Siltanen,H., and C. Rosenberg|Investigations on Pesticide Residues, 1974|Publ. State Inst. Agric. Chem.10:59 p.|1975|
112142|T||Xu,H.W., X.M. Ji, Z.H. He, W.P. Shi, G.H. Zhu, J.K. Niu, B.S. Li, and X.X. Peng|Oxalate Accumulation and Regulation is Independent of Glycolate Oxidase in Rice Leaves|J. Exp. Bot.57(9): 1899-1908|2006|10.1093/jxb/erj131
112143|T||Hughes,R.J., J. Nair, and G. Ho|The Toxicity of Ammonia/Ammonium to the Vermifiltration Wastewater Treatment Process|Water Sci. Technol.58(6): 1215-1220|2008|10.2166/wst.2008.478
112144|A||Hsueh,H.T., H. Chu, and S.T. Yu|A Batch Study on the Bio-Fixation of Carbon Dioxide in the Absorbed Solution from a Chemical Wet Scrubber by Hot Spring and Marine Algae|Chemosphere66(5): 878-886|2007|10.1016/j.chemosphere.2006.06.022
112145|T||Jones,M.R., I.D. Leith, D. Fowler, J.A. Raven, M.A. Sutton, E. Nemitz, J.N. Cape, L.J. Sheppard, R.I. Smith, and M.R. T|Concentration-Dependent NH3 Deposition Processes for Mixed Moorland Semi-Natural Vegetation|Atmos. Environ.41(10): 2049-2060|2007|10.1016/j.atmosenv.2006.11.003
112146|T||Lafond,G., C. Grant, A. Johnston, D. McAndrew, and W. May|Management of Nitrogen and Phosphorus Fertilizer in No-Till Flax|Can. J. Plant Sci.83(4): 681-688|2003|10.4141/P02-136
112147|T||Nielsen,D.G., and J.F. Boggs|Influence of Soil Type and Moisture on Toxicity of Insecticides to First-Instar Black Vine Weevil (Coleoptera:  Curculionidae)|J. Econ. Entomol.78(4): 753-756|1985|10.1093/jee/78.4.753
112148|T||Charlet,L.D., C.Y. Oseto, and T.J. Gulya|Application of Systemic Insecticides at Planting:  Effects on Sunflower Stem Weevil (Coleoptera:  Curculionidae) Larvae Numbers, Plant Lodging, and Seed Yield in North Dakota|J. Econ. Entomol.78(6): 1347-1349|1985|10.1093/jee/78.6.1347
112149|T||Kubik-Dobosz,G., M. Kazanecka, and J. Buczek|Regulation of NH4+ Transport Pathways in Pisum arvense Roots|Acta Physiol. Plant.21(1): 9-16|1999|10.1007/s11738-999-0021-0
112150|A||Bader,J.A.|Growth-Inhibiting Effects and Lethal Concentrations of Un-Ionized Ammonia for Larval and Newly Transformed Juvenile Channel Catfish (Ictalurus punctatus)|M.S.Thesis, Auburn University, Auburn, AL:56 p.|1990|
112151|T||Iwasaki,K., P. Maier, M. Fecht, and W.J. Horst|Effects of Silicon Supply on Apoplastic Manganese Concentrations in Leaves and Their Relation to Manganese Tolerance in Cowpea (Vigna unguiculata (L.) Walp.)|Plant Soil238(2): 281-288|2002|10.1023/A:1014482911196
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112157|T||Segawa,T., Y. Nomura, H. Nishio, and Y. Nakata|Pharmacological Activities of (RS)-2-Methyl-4-oxo-3-(2-Propynyl)Cyclopent-2-enyl (1R)-cis, trans-Chrysanthemate (S-4068 Forte)|Oyo Yakuri25(2): 261-273|1983|
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112198|T||Hillis,D.G., P. Antunes, P.K. Sibley, J.N. Klironomos, and K.R. Solomon|Structural Responses of Daucus carota Root-Organ Cultures and the Arbuscular Mycorrhizal Fungus, Glomus intraradices, to 12 Pharmaceuticals|Chemosphere73(3): 344-352|2008|10.1016/j.chemosphere.2008.05.063
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112200|A||Zhang,M., D. Yin, and F. Kong|The Changes of Serum Testosterone Level and Hepatic Microsome Enzyme Activity of Crucian Carp (Carassius carassius) Exposed to a Sublethal Dosage of Pentachlorophenol|Ecotoxicol. Environ. Saf.71(2): 384-389|2008|10.1016/j.ecoenv.2007.10.014
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112211|T||El Shami,M.A., F.A. Fadl, K.A. Tawfick, A.R. Sirry, and M.M. El Zayat|Anti-fungal Property of Garlic Clove Juice Compared with Fungicidal Treatments Against Fusarium Wilt of Watermelon|Egypt. J. Phytopathol.17(1): 55-62|1985|
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112219|T||Rubin,E., and G.S. Lieber|Hepatic Microsomal Enzymes in Man and Rat:  Induction and Inhibition by Ethanol|Science162:690-691|1968|10.1126/science.162.3854.690
112220|A||Macken,A., M. Giltrap, B. Foley, E. McGovern, B. McHugh, and M. Davoren|An Integrated Approach to the Toxicity Assessment of Irish Marine Sediments:  Validation of Established Marine Bioassays for the Monitoring of Irish Marine Sediments|Environ. Int.34(7): 1023-1032|2008|10.1016/j.envint.2008.03.005
112221|A||Haap,T., R. Triebskorn, and H.R. Kohler|Acute Effects of Diclofenac and DMSO to Daphnia magna:  Immobilisation and hsp70-Induction|Chemosphere73(3): 353-359|2008|10.1016/j.chemosphere.2008.05.062
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112223|A||Komjarova,I., and R. Blust|Multi-Metal Interactions Between Cd, Cu, Ni, Pb and Zn in Water Flea Daphnia magna, a Stable Isotope Experiment|Aquat. Toxicol.90(2): 138-144|2008|10.1016/j.aquatox.2008.08.007
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112226|T||Zheljazkov,V.D., L.E. Craker, and B. Xing|Effects of Cd, Pb, and Cu on Growth and Essential Oil Contents in Dill, Peppermint, and Basil|Environ. Exp. Bot.58(1-3): 9-16|2006|10.1016/j.envexpbot.2005.06.008
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112228|A||Tollett,V.D., E.L. Benvenutti, L.A. Deer, and T.M. Rice|Differential Toxicity to Cd, Pb, and Cu in Dragonfly Larvae (Insecta:  Odonata)|Arch. Environ. Contam. Toxicol.56(1): 77-84|2009|10.1007/s00244-008-9170-1
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112244|A||Ali,N.A., D. Dewez, O. Didur, and R. Popovic|Inhibition of Photosystem II Photochemistry by Cr is Caused by the Alteration of both D1 Protein and Oxygen Evolving Complex|Photosynth. Res. (Dordr., Online)89(2-3): 81-87|2006|10.1007/s11120-006-9085-5
112245|A||Kennedy,A.J., R.N. Millward, J.A. Steevens, J.W. Lynn, and K.D. Perry|Relative Sensitivity of Zebra Mussel (Dreissena polymorpha) Life-Stages to Two Copper Sources|J. Great Lakes Res.32(3): 596-606|2006|10.3394/0380-1330(2006)32[596:RSOZMD]2.0.CO;2
112246|A||Virgilio,M., S. Maci, and M. Abbiati|Comparisons of Genotype-Tolerance Responses in Populations of Hediste diversicolor (Polychaeta : Nereididae) Exposed to Copper Stress|Mar. Biol.147(6): 1305-1312|2005|10.1007/s00227-005-0030-5
112247|T||Zhao,J.Z., and E. Grafius|Assessment of Different Bioassay Techniques for Resistance Monitoring in the Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.86(4): 995-1000|1993|10.1093/jee/86.4.995
112248|T||Yu,S.J.|Inheritance of Insecticide Resistance and Microsomal Oxidases in the Diamondback Moth (Lepidoptera:  Yponomeutidae)|J. Econ. Entomol.86(3): 680-683|1993|10.1093/jee/86.3.680
112249|T||De Souza,K.R., L.J. McVeigh, and D.J. Wright|Selection of Insecticides for Lure and Kill Studies Against Spodoptera littoralis (Lepidoptera: Noctuidae)|J. Econ. Entomol.85(6): 2100-2106|1992|10.1093/jee/85.6.2100
112250|T||Leibee,G.L., and K.E. Savage|Toxicity of Selected Insecticides to Two Laboratory Strains of Insecticide-Resistant Diamondback Moth (Lepidoptera: Plutellidae) from Central Florida|J. Econ. Entomol.85(6): 2073-2076|1992|10.1093/jee/85.6.2073
112251|T||Walgenbach,J.F., and E.A. Estes|Economics of Insecticide Use on Staked Tomatoes in Western North Carolina|J. Econ. Entomol.85(3): 888-894|1992|10.1093/jee/85.3.888
112252|T||Gray,M.E., A.S. Felsot, K.L. Steffey, and E. Levine|Planting Time Application of Soil Insecticides and Western Corn Rootworm (Coleoptera:  Chrysomelidae) Emergence:  Implications for Long-Term Management Programs|J. Econ. Entomol.85(2): 544-553|1992|10.1093/jee/85.2.544
112253|T||Ioannidis,P.M., E. Grafius, and M.E. Whalon|Patterns of Insecticide Resistance to Azinphosmethyl, Carbofuran, and Permethrin in the Colorado Potato Beetle (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.84(5): 1417-1423|1991|10.1093/jee/84.5.1417
112254|T||Landolt,P.J., B. Lenczewski, and R.R. Heath|Lure and Toxicant System for the Cabbage Looper (Lepidoptera: Noctuidae)|J. Econ. Entomol.84(4): 1344-1347|1991|10.1093/jee/84.4.1344
112255|T||Magaro,J.J., and J.V. Edelson|Diamondback Moth (Lepidoptera:  Plutellidae) in South Texas:  A Technique for Resistance Monitoring in the Field|J. Econ. Entomol.83(4): 1201-1206|1990|10.1093/jee/83.4.1201
112256|T||Felland,C.M., H.N. Pitre, R.G. Luttrell, and J.L. Hamer|Resistance to Pyrethroid Insecticides in Soybean Looper (Lepidoptera:  Noctuidae) in Mississippi|J. Econ. Entomol.83(1): 35-40|1990|10.1093/jee/83.1.35
112257|T||Brewer,M.J., J.T. Trumble, B. Alvarado-Rodriguez, and W.E. Chaney|Beet Armyworm (Lepidoptera: Noctuidae) Adult and Larval Susceptibility to Three Insecticides in Managed Habitats and Relationships to Laboratory Selection for Resistance|J. Econ. Entomol.83(6): 2136-2146|1990|10.1093/jee/83.6.2136
112258|T||Buntin,G.D., and R.D. Hudson|Spring Control of the Hessian Fly (Diptera:  Cecidomyiidae) in Winter Wheat Using Insecticides|J. Econ. Entomol.84(6): 1913-1919|1991|10.1093/jee/84.6.1913
112259|T||Fergusson-Kolmes,L.A., J.G. Scott, and T.J. Dennehy|Dicofol Resistance in Tetranychus urticae (Acari:  Tetranychidae):  Cross-Resistance and Pharmacokinetics|J. Econ. Entomol.84(1): 41-48|1991|10.1093/jee/84.1.41
112260|T||Gaikwad,M.S., and V.A. Deshmukh|Effect of Carbofuran on Two Microbial Processes, Uptake of Nutrients and Yield of Cotton (var. L-147)|PKV Res. J.8(1): 63-64|1984|
112261|T||Dhuri,A.V., K.M. Singh, R.N. Singh, and S. Singh|Effect of Intercropping and Application of Carbofuran 3G on Growth and Yield of Black Gram, Vigna mungo (L.) Hepper|Indian J. Entomol.50(1): 113-115|1988|
112262|T||Singh,N., and S.K. Saxena|Effect of Carbofuran on the Growth and Nodulation of Vigna radiata|Plant Soil111(1): 147-148|1988|10.1007/BF02182048
112263|T||Sutter,G.R., T.F. Branson, J.R. Fisher, and N.C. Elliott|Effect of Insecticides on Survival, Development, Fecundity, and Sex Ratio in Controlled Infestations of Western Corn Rootworm (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.84(6): 1905-1912|1991|10.1093/jee/84.6.1905
112264|T||Valenti,M.A., L.P. Abrahamson, and C.A. Maynard|Control of White Pine Cone Beetle (Coleoptera:  Scolytidae) with Carbofuran Granules in a New York State White Pine Seed Orchard|J. Econ. Entomol.83(6): 2349-2351|1990|10.1093/jee/83.6.2349
112265|T||O'Brien,P.J., Y.A. Abdel-Aal, J.A. Ottea, and J.B. Graves|Relationship of Insecticide Resistance to Carboxylesterases in Aphis gossypii (Homoptera:  Aphididae) from Midsouth Cotton|J. Econ. Entomol.85(3): 651-657|1992|10.1093/jee/85.3.651
112266|T||Shotkoski,F.A., Z.B. Mayo, and L.L. Peters|Induced Disulfoton Resistance in Greenbugs (Homoptera:  Aphididae)|J. Econ. Entomol.83(6): 2147-2152|1990|10.1093/jee/83.6.2147
112267|T||Wiesenborn,W.D., J.T. Trumble, and E.R. Oatman|Economic Comparison of Insecticide Treatment Programs for Managing Tomato Pinworm (Lepidoptera:  Gelechiidae) on Fall Tomatoes|J. Econ. Entomol.83(1): 212-216|1990|10.1093/jee/83.1.212
112268|T||Campbell,C.D., J.F. Walgenbach, and G.G. Kennedy|Effect of Parasitoids on Lepidopterous Pests in Insecticide-Treated and Untreated Tomatoes in Western North Carolina|J. Econ. Entomol.84(6): 1662-1667|1991|10.1093/jee/84.6.1662
112269|T||Prabhaker,N., N.C. Toscano, T.J. Henneberry, S.J. Castle, and D. Weddle|Assessment of Two Bioassay Techniques for Resistance Monitoring of Silverleaf Whitefly (Homoptera:  Aleyrodidae) in California|J. Econ. Entomol.89(4): 805-815|1996|10.1093/jee/89.4.805
112270|T||Rufingier,C., L. Schoen, C. Martin, and N. Pasteur|Resistance of Nasonovia ribisnigri (Homoptera: Aphididae) to Five Insecticides|J. Econ. Entomol.90(6): 1445-1449|1997|10.1093/jee/90.6.1445
112271|T||Carriere,Y., J.P. Deland, and D.A. Roff|Obliquebanded Leafroller (Lepidoptera:  Tortricidae) Resistance to Insecticides:  Among-Orchard Variation and Cross-Resistance|J. Econ. Entomol.89(3): 577-582|1996|10.1093/jee/89.3.577
112272|T||Hibbard,B.E., F.B. Peairs, S.D. Pilcher, M.E. Schroeder, D.K. Jewett, and L.B. Bjostad|Germinating Corn Extracts and 6-Methoxy-2-Benzoxazolinone:  Western Corn Rootworm (Coleoptera:  Chrysomelidae) Larval Attractants Evaluated with Soil Insecticides|J. Econ. Entomol.88(3): 716-724|1995|10.1093/jee/88.3.716
112273|T||Kanga,L.H.B., F.W.,Jr. Plapp, G.W. Elzen, M.L. Wall, and J.D.,Jr. Lopez|Monitoring for Resistance to Organophosphorus, Carbamate, and Cyclodiene Insecticides in Tobacco Budworm Adults (Lepidoptera: Noctuidae)|J. Econ. Entomol.88(5): 1144-1149|1995|10.1093/jee/88.5.1144
112274|T||Duan,J.J., and R.J. Prokopy|Development of Pesticide-Treated Spheres for Controlling Apple Maggot Flies (Diptera:  Tephritidae):  Pesticides and Residue-Extending Agents|J. Econ. Entomol.88(1): 117-126|1995|10.1093/jee/88.1.117
112275|T||Biddinger,D.J., and L.A. Hull|Effects of Several Types of Insecticides on the Mite Predator, Stethorus punctum (Coleoptera: Coccinellidae), Including Insect Growth Regulators and Abamectin|J. Econ. Entomol.88(2): 358-366|1995|10.1093/jee/88.2.358
112276|T||Stein,J.D., and S.R. Mori|Systemic Insecticide Implants for Protection of White Fir Scionwood from Douglas-Fir Tussock Moth (Lepidoptera:  Lymantriidae)|J. Econ. Entomol.87(2): 426-430|1994|10.1093/jee/87.2.426
112277|T||Hardee,D.D., and J.M. Ainsworth|Cotton Aphid (Homoptera:  Aphididae):  Effect of In-Furrow Insecticides on Pesticide Resistance|J. Econ. Entomol.86(4): 1026-1029|1993|10.1093/jee/86.4.1026
112278|T||Van Laecke,K., G. Smagghe, and D. Degheele|Detoxifying Enzymes in Greenhouse and Laboratory Strain of Beet Armyworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.88(4): 777-781|1995|10.1093/jee/88.4.777
112279|T||Patel,M.B., and K.P. Srivastava|Phytotonic Effect of Insecticides on Cowpea, Vigna unguiculata (Linn.) and Greengram, Vigna radiata (Linn.)|Indian J. Entomol.52(4): 583-588|1990|
112280|T||Singh,R.P., S.K. Saxena, and A.M. Khan|Effect of Nematicides on the Available Nitrogen in Soil and Growth of Tomato Plants|Indian J. Nematol.15(1): 36-38|1985|
112281|T||Sahu,D., and N.P. Agnihotri|Persistence and Metabolism of Carbofuran in Soil and Maize Crop, Zea mays Linn.|Indian J. Entomol.45(1): 38-44|1983|
112282|T||Garg,P.K., and N.P. Agnihotri|Uptake of Carbofuran and Bendiocarb by Sorghum|Indian J. Entomol.52(3): 410-413|1990|
112283|T||Meher,H.C., C.L. Sethi, and N.P. Agnihotri|Persistence and Basipetal Translocation of Nematicidal Activity of UC 54229, a Carbofuran Analog, in Pea|Indian J. Nematol.15(1): 71-74|1985|
112284|T||Dhuri,A.V., K.M. Singh, and R.N. Singh|Residues of Carbofuran in Soil, Plant and Grains of Black Gram Vigna mungo (L.) Hepper|Indian J. Entomol.50(1): 132-135|1988|
112285|T||Kanga,L.H.B., and F.W.,Jr. Plapp|Development of a Technique to Monitor Resistance to Biodegradable Insecticides in Field Populations of Tobacco Budworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.88(3): 487-494|1995|10.1093/jee/88.3.487
112287|T||Matsunaga,T., K. Yoshida, G. Shinjo, S. Tsuda, Y. Okuno, and H. Yoshioka|New Pyrethroid Insecticides for Indoor Applications|In: N.Takahashi, H.Yoshioka, and T.Misato (Eds.), Natural Products, Proceedings of the 5th International Congress of Pesticide Chemistry, Kyoto, Japan, 29 August - 4 September 1982, Pergamon Press, NY:231-238|1983|
112288|A||Piotrowska-Opuszynska,W., J. Szymacha, and J. Janik|Effect of Extremely High Doses of Nitrogen and Phosphorus on Physico-Chemical Conditions in Ponds and on Carp Rearing|Acta Hydrobiol.31(3-4): 297-310|1989|
112289|A||Victor,B.|Behavioural and Histological Assessment of Ammonia Sensitivity in the Freshwater Fish Lepidocephalichthys thermalis|Indian J. Anim. Sci.60(10): 1256-1262|1990|
112290|T||Feit,I.N., J. Pawlikowski, and C. Zawilski|A Model for Cell Type Localization in the Migrating Slug of Dictyostelium discoideum Based on Differential Chemotactic Sensitivity to cAMP and Differential Sensitivity to Suppression of Chemotaxis by Ammonia|J. Biosci.32(2): 329-338|2007|10.1007/s12038-007-0032-1
112291|A||Siao,P.C., G.C. Li, H.L. Engle, L.V. Ilao, and L.C. Trinidad|Biosorption of Cu(II) Ions from Synthetic and Actual Wastewater Using Three Algal Species|J. Appl. Phycol.19(6): 733-743|2007|10.1007/s10811-007-9226-z
112292|A||Rodriguez,M.C., L. Barsanti, V. Passarelli, V. Evangelista, V. Conforti, and P. Gualtieri|Effects of Chromium on Photosynthetic and Photoreceptive Apparatus of the Alga Chlamydomonas reinhardtii|Environ. Res.105(2): 234-239|2007|10.1016/j.envres.2007.01.011
112293|A||Cericato,L., J.G.M. Neto, M. Fagundes, L.C. Kreutz, R.M. Quevedo, J. Finco, J.G.S. Da Rosa, G. Koakoski, L. Centenaro, |Cortisol Response to Acute Stress in Jundia Rhamdia quelen Acutely Exposed to Sub-Lethal Concentrations of Agrichemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(3): 281-286|2008|10.1016/j.cbpc.2008.06.008
112294|A||Clifford,M., and J.C. McGeer|Development of a Biotic Ligand Model for the Acute Toxicity of Zinc to Daphnia pulex in Soft Waters|Aquat. Toxicol.91(1): 26-32|2009|10.1016/j.aquatox.2008.09.016
112295|T||Dewar,A.M., L.A. Read, P.B. Hallsworth, and H.G. Smith|Effect of Imidacloprid on Transmission of Viruses by Aphids in Sugar Beet|Br. Crop Prot. Conf. Pests Dis.:563-567|1992|
112296|A||Balasubramani,A., and T.J. Pandian|Endosulfan Suppresses Growth and Reproduction in Zebrafish|Curr. Sci. (Bangalore)94(7): 883-890|2008|
112297|T||Tenczar,E.G., and V.A. Krischik|Comparison of Standard (Granular and Drench) and Novel (Tablet, Stick Soak, and Root Dip) Imidacloprid Treatments for Cottonwood Leaf Beetle (Coleoptera: Chrysomelidae) Management on Hybrid Poplar|J. Econ. Entomol.100(5): 1611-1621|2007|10.1093/jee/100.5.1611
112298|A||Rosen,G., I. Rivera-Duarte, D.B. Chadwick, A. Ryan, R.C. Santore, and P.R. Paquin|Critical Tissue Copper Residues for Marine Bivalve (Mytilus galloprovincialis) and Echinoderm (Strongylocentrotus purpuratus) Embryonic Development:  Conceptual, Regulatory and Environmental Implications|Mar. Environ. Res.66(3): 327-336|2008|10.1016/j.marenvres.2008.05.006
112299|T||Singh,U.S.|Uptake, Translocation, Distribution and Persistence of 14C-Metalaxyl in Maize (Zea mays)|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)94(5): 478-490|1987|
112300|A||Song,F., X. Cao, T. Zhao, Y. Dong, and B. Lu|Pyrethroid Resistance and Distribution of kdr Allele in Culex pipiens pallens in North China|Int. J. Pest Manag.53(1): 25-34|2007|10.1080/09670870601002625
112301|T||Ashraf,M., and F. Hussain|Dry Matter and Nitrogen Distribution at Maturity of Three Rice (Oryza sativa L.) Cultivars Exposed to Ammonia at Two Growth Stages|J. Agron. Crop Sci.191(2): 125-129|2005|10.1111/j.1439-037X.2004.00129.x
112303|T||Wang,Y.T.|High NO3-N to NH4-N Ratios Promote Growth and Flowering of a Hybrid Phalaenopsis Grown in Two Root Substrates|Hortscience43(2): 350-353|2008|10.21273/HORTSCI.43.2.350
112304|T||Grieve,C.M., J.A. Poss, P.J. Shouse, and C.T. Carter|Modeling Growth of Matthiola incana in Response to Saline Wastewaters Differing in Nitrogen Level|Hortscience43(6): 1787-1793|2008|10.21273/HORTSCI.43.6.1787
112305|T||Bloomfield,R.A., A.A. Letter, and R.P. Wilson|The Effect of Glycine on Ammonia Intoxication and Uric Acid Biosynthesis in the Avion Species|Arch. Biochem. Biophys.129(1): 196-201|1969|10.1016/0003-9861(69)90166-0
112306|A||Chen,J.C., and C.Y. Lin|Lethal Doses of Ammonia on Penaeus chinensis Larvae|Bull. Inst. Zool. Acad. Sin. (Taipei)30(4): 289-297|1991|
112307|T||Sreenivasulu,Y., and D. Amritphale|Changes in Protein Composition in Cellular Membranes of Various Parts of Secondary Dormant Cucumber Seeds Treated with Ethanol|Seed Sci. Res.10(1): 61-70|2000|10.1017/S0960258500000076
112308|T||Guo,S., Y. Zhou, Y. Li, Y. Gao, and Q. Shen|Effects of Different Nitrogen Forms and Osmotic Stress on Water Use Efficiency of Rice (Oryza sativa)|Ann. Appl. Biol.153(1): 127-134|2008|10.1111/j.1744-7348.2008.00244.x
112309|T||Wang,Y.Q., J.J. Zhang, G.H. Zhu, and X.X. Peng|Differential Expression of Proteins in Rice Leaves Cultivated with Different Forms of Nitrogen Nutrients|J. Plant Physiol. Mol. Biol.32(4): 403-410|2006|
112310|T||Eli Lilly|Initial Submission:  Acute Oral Toxicity Study With N-(2,6-Dimethylphenyl)-N-(Methoxy-Acetyl)-Dl-Alanine, Methyl Ester in Mice with Cover Letter Dated 080392|EPA/OTS Doc.#88-920005089:16 p.|1992|
112311|A||Nishioka,D., and D. Mazia|The Phosphorylation of Thymidine and the Synthesis of Histones in Ammonia-Treated Eggs and Egg Fragments of the Sea Urchin|Cell Biol. Int. Rep.1(1): 23-30|1977|10.1016/0309-1651(77)90006-6
112312|A||Kumar,R.|Histopathological Changes in the Liver of a Freshwater Fish Channa punctatus (Bloch) Exposed to Ammonia|J. Environ. Pollut.6(1): 25-28|1999|
112313|A||Eriksson,K.M., A.K. Clarke, L.G. Franzen, M. Kuylenstierna, K. Martinez, and H. Blanck|Community-Level Analysis of psbA Gene Sequences and Irgarol Tolerance in Marine Periphyton|Appl. Environ. Microbiol.75(4): 897-906|2009|10.1128/AEM.01830-08
112314|A||Perez-Benito,J.F.|Effects of Chromium(VI) and Vanadium(V) on the Lifespan of Fish|J. Trace Elem. Med. Biol.20(3): 161-170|2006|10.1016/j.jtemb.2006.04.001
112315|T||Bernal,M., R. Cases, R. Picorel, and I. Yruela|Foliar and Root Cu Supply Affect Differently Fe- and Zn-Uptake and Photosynthetic Activity in Soybean Plants|Environ. Exp. Bot.60(2): 145-150|2007|10.1016/j.envexpbot.2006.09.005
112316|A||Frias-Espericueta,M.G., S. Abad-Rosales, A.C. Nevarez-Velazquez, I. Osuna-Lopez, F. Paez-Osuna, R. Lozano-Olvera, and D|Histological Effects of a Combination of Heavy Metals on Pacific White Shrimp Litopenaeus vannamei Juveniles|Aquat. Toxicol.89(3): 152-157|2008|10.1016/j.aquatox.2008.06.010
112317|A||De Araujo,A.B., A. Hagiwara, and T.W. Snell|Effect of Unionized Ammonia, Viscosity and Protozoan Contamination on Reproduction and Enzyme Activity of the Rotifer Brachionus rotundiformis|Hydrobiologia (Multiple Languages)446-447:363-368|2001|10.1023/A:1017567226012
112318|A||De la Torre,A.I., J.A. Jimqnez, M. Carballo, C. Fernandez, J. Roset, and M.J. Munoz|Ecotoxicological Evaluation of Pig Slurry|Chemosphere41(10): 1629-1635|2000|10.1016/S0045-6535(00)00038-2
112319|A||Gallardo,W.G., A. Hagiwara, Y. Tomita, and T.W. Snell|Effect of Growth Hormone and gamma-Aminobutyric Acid on Brachionus plicatilis (Rotifera) Reproduction at Low Food or High Ammonia Levels|J. Exp. Mar. Biol. Ecol.240(2): 179-191|1999|10.1016/S0022-0981(99)00055-6
112320|T||Iyo,T., H. Kaneko, T. Konagaya, S. Mori, H. Kotera, M. Uruma, N. Rhue, T. Shimizu, A. Imada, K. Kusugami, and T. Mitsum|Effect of Intragastric Ammonia on Gastrin-, Somatostatin- and Somatostatin Receptor Subtype 2 Positive-Cells in Rat Antral Mucosa|Life Sci.64(26): 2497-2504|1999|10.1016/S0024-3205(99)00207-6
112321|A||Lin,Y.C., and J.C. Chen|Acute Toxicity of Ammonia on Litopenaeus vannamei Boone Juveniles at Different Salinity Levels|J. Exp. Mar. Biol. Ecol.259(1): 109-119|2001|10.1016/S0022-0981(01)00227-1
112322|T||Nagahashi,S., H. Suzuki, M. Miyazawa, H. Nagata, M. Suzuki, S. Miura, and H. Ishii|Ammonia Aggravates Stress-Induced Gastric Mucosal Oxidative Injury Through the Cancellation of Cytoprotective Heat Shock Protein 70|Free Radic. Biol. Med.33(8): 1073-1081|2002|10.1016/S0891-5849(02)00998-X
112323|A||Chen,J.C., S.Y. Cheng, and C.T. Chen|Changes of Haemocyanin, Protein and Free Amino Acid Levels in the Haemolymph of Penaeus japonicus Exposed to Ambient Ammonia|Comp. Biochem. Physiol. A Comp. Physiol.109(2): 339-347|1994|10.1016/0300-9629(94)90137-6
112324|T||Mroczkowski,W., and T. Stuczynski|Toxic Effects of Ammonia Volatilizing from Sandy Soil Fertilized with Ammonium Salts and Urea on Barley Crop Decreases|Pol. J. Environ. Stud.15(5): 827-832|2006|
112325|T||Vesentini,D., D.J. Dickinson, and R.J. Murphy|Fungicides Affect the Production of Extracellular Mucilaginous Material (ECMM) and the Peripheral Growth Unit (PGU) in Two Wood-Rotting Basidiomycetes|Mycol. Res.110(10): 1207-1213|2006|10.1016/j.mycres.2006.07.009
112327|T||Zhao,G., W. Liu, and C.O. Knowles|Fenvalerate Resistance Mechanisms in Western Flower Thrips (Thysanoptera: Thripidae)|J. Econ. Entomol.88(3): 531-535|1995|10.1093/jee/88.3.531
112328|T||Glenn,D.C., A.A. Hoffmann, and G. McDonald|Resistance to Pyrethroids in Helicoverpa armigera (Lepidoptera:  Noctuidae) from Corn:  Adult Resistance, Larval Resistance, and Fitness Effects|J. Econ. Entomol.87(5): 1165-1171|1994|10.1093/jee/87.5.1165
112329|T||Abd-Elghafar,S.F., G.E. Abo-Elghar, and C.O. Knowles|Fenvalerate Penetration, Metabolism, and Excretion in Pyrethroid-Susceptible and Resistant Heliothis virescens (Lepidoptera:  Noctuidae)|J. Econ. Entomol.87(4): 872-878|1994|10.1093/jee/87.4.872
112330|T||Nigg,H.N., L.L. Mallory, S. Fraser, S.E. Simpson, J.L. Robertson, J.A. Attaway, S.B. Callaham, and R.E. Brown|Test Protocols and Toxicity of Organophosphate Insecticides to Caribbean Fruit Fly (Diptera:  Tephritidae)|J. Econ. Entomol.87(3): 589-595|1994|10.1093/jee/87.3.589
112331|T||Hurej,M., and J.D. Dutcher|Effect of Esfenvalerate and Disulfoton on the Behavior of the Blackmargined Aphid, Black Pecan Aphid, and Yellow Pecan Aphid (Homoptera:  Aphididae)|J. Econ. Entomol.87(1): 187-192|1994|10.1093/jee/87.1.187
112332|T||Mehmood,T., K.M. Khokhar, and M. Shakeel|Integrated Weed Management Practices in Garlic Crop in Pakistan|Crop Prot.26(7): 1031-1035|2007|10.1016/j.cropro.2006.09.013
112334|T||Sinha,P., B.K. Dube, and C. Chatterjee|Manganese Stress Alters Phytotoxic Effects of Chromium in Green Gram Physiology (Vigna radiata L.) cv. PU 19|Environ. Exp. Bot.57(1-2): 131-138|2006|10.1016/j.envexpbot.2005.05.003
112335|T||Arduini,I., A. Masoni, and L. Ercoli|Effects of High Chromium Applications on Miscanthus During the Period of Maximum Growth|Environ. Exp. Bot.58(1-3): 234-243|2006|10.1016/j.envexpbot.2005.09.004
112336|T||Iwata,Y., G.P. Walker, J.R. O'Neal, and J.H. Barkley|Residues of Acephate, Amitraz, Chlorpyrifos and Formetanate Hydrochloride on and in Fruits After Low-Volume Applications to Orange Trees|Pestic. Sci.16(2): 172-178|1985|10.1002/ps.2780160211
112337|A||Cao,T., P. Xie, L. Ni, M. Zhang, and J. Xu|Carbon and Nitrogen Metabolism of an Eutrophication Tolerative Macrophyte, Potamogeton crispus, Under NH4+ Stress and Low Light Availability|Environ. Exp. Bot.66(1): 74-78|2009|10.1016/j.envexpbot.2008.10.004
112338|T||Mesbah,H.A., A.K.K. Mourad, and A.Z.M. Rokaia|Efficacy of Some Plant Oils Alone and/or Combined with Different Insecticides on the Cotton Leaf-Worm Spodoptera littoralis (Boisd.) (Lepidoptera:  Noctuidae) in Egypt|Commun. Agric. Appl. Biol. Sci.71(2b): 305-328|2006|
112339|T||Miles,M., and H. Eelen|The Effects of Spinosad to Beneficial Insects and Mites and Its Use in IPM|Commun. Agric. Appl. Biol. Sci.71(2b): 275-284|2006|
112340|T||Mallem,L., M.S. Boulakoud, and M. Franck|Hypothyroidism After Medium Exposure ot the Fungicide Maneb in the Rabbit Cuniculus lepus|Commun. Agric. Appl. Biol. Sci.71(2a): 91-99|2006|
112341|T||Jung,W.C., Y.S. Jang, T.T. Hieu, C.K. Lee, and Y.J. Ahn|Toxicity of Myristica fragrans Seed Compounds Against Blattella germanica (Dictyoptera:  Blattellidae)|J. Med. Entomol.44(3): 524-529|2007|10.1093/jmedent/44.3.524
112342|T||McCullough,D.G., and D.R. Smitley|Evaluation of Insecticides to Reduce Maturation Feeding by Tomicus piniperda (Coleoptera: Scolytidae) in Scotch Pine|J. Econ. Entomol.88(3): 693-699|1995|10.1093/jee/88.3.693
112343|T||Gunning,R.V.|Comparison of Two Bioassay Techniques for Larvae of Helicoverpa spp. (Lepidoptera:  Noctuidae)|J. Econ. Entomol.86(2): 234-238|1993|10.1093/jee/86.2.234
112344|A||Prasad,S.M., P.K. Srivastava, V.P. Singh, and D. Kumar|Endosulfan Induced Effect on Growth, Photosynthesis and Assimilation of Nitrogen and Phosphorus in Non-Heterocystous Cyanobacterium Plectonema boryanum|Biochem. Cell. Arch.8(1): 109-118|2008|
112345|A||Reid,S.D., T.K. Linton, J.J. Dockray, D.G. McDonald, and C.M. Wood|Effects of Chronic Sublethal Ammonia and a Simulated Summer Global Warming Scenario:  Protein Synthesis in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Can. J. Fish. Aquat. Sci.55(6): 1534-1544|1998|10.1139/f98-021
112346|T||Sheppard,D.C.|Oxidative Metabolic Resistance to Cyanopyrethroids in the Horn Fly (Diptera:  Muscidae)|J. Econ. Entomol.88(6): 1531-1535|1995|10.1093/jee/88.6.1531
112347|A||Linton,T.K., S.D. Reid, and C.M. Wood|The Metabolic Costs and Physiological Consequences to Juvenile Rainbow Trout of a Simulated Summer Warming Scenario in the Presence and Absence of Sublethal Ammonia|Trans. Am. Fish. Soc.126(2): 259-272|1997|10.1577/1548-8659(1997)126<0259:TMCAPC>2.3.CO;2
112348|T||Bonafos,R., E. Serrano, P. Auger, and S. Kreiter|Resistance to Deltamethrin, lambda-Cyhalothrin and Chlorpyriphos-Ethyl in Some Populations of Typhlodromus pyri Scheuten and Amblyseius andersoni (Chant) (Acari:  Phytoseiidae) from Vineyards in the South-West of France|Crop Prot.26(2): 169-172|2007|10.1016/j.cropro.2006.10.001
112349|T||Scaraffia,P.Y., J. Isoe, A. Murillo, and M.A. Wells|Ammonia Metabolism in Aedes aegypti|Insect Biochem. Mol. Biol.35(5): 491-503|2005|10.1016/j.ibmb.2005.01.012
112350|T||Cochran,D.G.|Standard Insecticide-Susceptible Strain for the German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.88(6): 1542-1544|1995|10.1093/jee/88.6.1542
112352|T||Muchovej,J.J.|Automotive Ethanol for Treatment of Soybean Seeds with Fungicides|Seed Sci. Technol.15(1): 265-269|1987|
112353|T||Reinke,L.A., F.C. Kauffman, S.A. Belinsky, and R.G. Thurman|Effects of Ethanol and Sorbitol on Mixed-Function Oxidation in Perfused Rat Livers|Pharmacol. Biochem. Behav.18(suppl. 1): 289-294|1983|10.1016/0091-3057(83)90188-0
112354|T||Pal,R., R. Nath, and K.D. Gill|Lipid Peroxidation and Antioxidant Defense Enzymes in Various Regions of Adult Rat Brain After Co-Exposure to Cadmium and Ethanol|Pharmacol. Toxicol.73(4): 209-214|1993|10.1111/j.1600-0773.1993.tb01565.x
112355|A||Ramachandran,V., T. Ramaprabhu, and P.V.G.K. Reddy|Observations on the Use of Ammonia for the Control of Pistia stratiotes Linn.|J. Inl. Fish. Soc. India7:124-130|1975|
112356|T||Sonawat,H.M., S. Yamamoto, and D. Leibfritz|31P NMR Studies on Perfused Liver from Mouse with Chronic Ethanol Ingestion|Z. Naturforsch. Sect. C J. Biosci.49(1/2): 147-153|1994|10.1515/znc-1994-1-222
112357|T||Sandor,S., and D. Amels|The Action of Aethanol on the Praenatal Development of Albino Rats (An Attempt of Multiphasic Screening)|Rev. Roum. Embryol. Cytol. Ser. Embryol.8:105-118|1971|
112358|T||Rudeen,P.K.|Reduction of the Volume of the Sexually Dimorphic Nucleus of the Preoptic Area by In Utero Ethanol Exposure in Male Rats|Neurosci. Lett.72:363-368|1986|10.1016/0304-3940(86)90542-2
112360|T||Ren,J., Z.K. Roughead, L.E. Wold, F.L. Norby, S. Rakoczy, R.L. Mabey, and H.M. Brown-Borg|Increases in Insulin-Like Growth Factor-1 Level and Peroxidative Damage After Gestational Ethanol Exposure in Rats|Pharmacol. Res.47(4): 341-347|2003|10.1016/S1043-6618(03)00005-7
112362|T||Starr,D.F., P. Ferguson, and T.N. Salmon|Toxicity of Allethrin to Rats|Soap Sanit. Chem.26(8): 108-109|1950|
112363|T||Iqbal,U., J.F. Brien, A. Kapoor, S.G. Matthews, and J.N. Reynolds|Chronic Prenatal Ethanol Exposure Increases Glucocorticoid-Induced Glutamate Release in the Hippocampus of the Near-Term Foetal Guinea Pig|J. Neuroendocrinol.18(11): 826-834|2006|10.1111/j.1365-2826.2006.01479.x
112364|T||Zdunek,E., and S.H. Lips|Transport and Accumulation Rates of Abscisic Acid and Aldehyde Oxidase Activity in Pisum sativum L. in Response to Suboptimal Growth Conditions|J. Exp. Bot.52(359): 1269-1276|2001|10.1093/jexbot/52.359.1269
112365|T||Van der Eerden,L.J., L.J.A. Lekkerkerk, S.M. Smeulders, and A.E. Jansen|Effects of Atmospheric Ammonia and Ammonium Sulphate on Douglas Fir (Pseudotsuga menziesii)|Environ. Pollut.76(1): 1-9|1992|10.1016/0269-7491(92)90109-N
112366|T||Minocha,R., S. Long, A.H. Magill, J. Aber, and W.H. McDowell|Foliar Free Polyamine and Inorganic Ion Content in Relation to Soil and Soil Solution Chemistry in Two Fertilized Forest Stands at the Harvard Forest, Massachusetts|Plant Soil222(1-2): 119-137|2000|10.1023/A:1004775829678
112367|T||Khan,M.R., and M.W. Khan|Effects of Ammonia and Root-Knot Nematode on Tomato|Agric. Ecosyst. Environ.53(1): 71-81|1995|10.1016/0167-8809(94)00553-Q
112368|T||Dueck,T.A., F.G. Dorel, R. Ter Horst, and L.J. Van der Eerden|Effects of Ammonia, Ammonium Sulphate and Sulphur Dioxide on the Frost Sensitivity of Scots Pine (Pinus sylvestris L.)|Water Air Soil Pollut.54(Spec. Issue): 35-49|1990|10.1007/BF00298651
112369|T||Elsey,K.D.|Jalysus spinosus.  Effect of Insecticide Treatments on this Predator of Tobacco Pests|Environ. Entomol.2(2): 240-243|1973|10.1093/ee/2.2.240
112370|T||Wurster,D.H., C.F.,Jr. Wurster, and W.N. Strickland|Bird Mortality Following DDT Spray for Dutch Elm Disease|Ecology46(4): 488-499|1965|10.2307/1934880
112371|T||Weyers,A., and I. Schuphan|Variation of Effect Endpoint Parameters in a Terrestrial Model Ecosystem|Ecotoxicology7(6): 335-341|1998|10.1023/A:1008863714335
112372|T||Watve,C.M., and S.E. Lienk|Toxicity of Carbaryl and Six Organophosphorus Insecticides to Amblyseius fallacis and Typhlodromus pyri from New York Apple Orchards|Environ. Entomol.5(2): 368-370|1976|10.1093/ee/5.2.368
112373|T||Monira,B., S.M. Ullah, A.S. Mollah, and N. Chowdhury|137Cs-Uptake into Wheat (Triticum vulgare) Plants from Five Representative Soils of Bangladesh|Environ. Monit. Assess.104(1-3): 59-69|2005|10.1007/s10661-005-1601-0
112374|T||Hogan,G.R., and B.S. Cole|Survival of Tribolium confusum (Coleoptera:  Tenebrionidae) in Basal-Casein Medium Supplemented with Sodium Selenite|Environ. Entomol.17(5): 770-777|1988|10.1093/ee/17.5.770
112375|T||Travis,J.W., L.A. Hull, and J.D. Miller|Toxicity of Insecticides to the Aphid Predator Coccinella novemnotata|Environ. Entomol.7(6): 785-786|1978|10.1093/ee/7.6.785
112376|T||Underhill,J.C., and D.J. Merrell|Fecundity, Fertility, and Longevity of DDT-Resistant and Susceptible Populations of Drosophila melanogaster|Ecology47(1): 140-142|1966|10.2307/1935752
112377|T||Shure,D.J.|Insecticide Effects on Early Succession in an Old Field Ecosystem|Ecology52(2): 271-279|1971|10.2307/1934585
112378|T||Reddy,N.C., and J. Venkateswara Rao|Biological Response of Earthworm, Eisenia foetida (Savigny) to an Organophosphorous Pesticide, Profenofos|Ecotoxicol. Environ. Saf.71(2): 574-582|2008|10.1016/j.ecoenv.2008.01.003
112379|T||Owojori,O.J., A.J. Reinecke, and A.B. Rozanov|Role of Clay Content in Partitioning, Uptake and Toxicity of Zinc in the Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.72(1): 99-107|2009|10.1016/j.ecoenv.2008.06.007
112380|T||Kitulagodage,M., L.B. Astheimer, and W.A. Buttemer|Diacetone Alcohol, a Dispersant Solvent, Contributes to Acute Toxicity of a Fipronil-Based Insecticide in a Passerine Bird|Ecotoxicol. Environ. Saf.71(2): 597-600|2008|10.1016/j.ecoenv.2007.11.001
112381|T||Israr,M., and S.V. Sahi|Promising Role of Plant Hormones in Translocation of Lead in Sesbania drummondii Shoots|Environ. Pollut.153(1): 29-36|2008|10.1016/j.envpol.2007.12.029
112383|T||Xu,P., P. Christie, Y. Liu, J. Zhang, and X. Li|The Arbuscular Mycorrhizal Fungus Glomus mosseae can Enhance Arsenic Tolerance in Medicago truncatula by Increasing Plant Phosphorus Status and Restricting Arsenate Uptake|Environ. Pollut.156(1): 215-220|2008|10.1016/j.envpol.2008.01.003
112384|T||Wang,D., and Y. Wang|Nickel Sulfate Induces Numerous Defects in Caenorhabditis elegans that can also be Transferred to Progeny|Environ. Pollut.151(3): 585-592|2008|10.1016/j.envpol.2007.04.003
112385|T||Slotkin,T.A., B.E. Bodwell, I.T. Ryde, E.D. Levin, and F.J. Seidler|Exposure of Neonatal Rats to Parathion Elicits Sex-Selective Impairment of Acetylcholine Systems in Brain Regions During Adolescence and Adulthood|Environ. Health Perspect.116(10): 1308-1314|2008|10.1289/ehp.11451
112386|T||Sinkkonen,A., R. Strommer, and O.P. Penttinen|Low Toxicant Concentrations Decrease the Frequency of Fast-Growing Seedlings at High Densities of Annual Baby's Breath (Gypsophila elegans)|Environ. Pollut.153(3): 523-525|2008|10.1016/j.envpol.2008.02.020
112387|T||Riemens,M.M., T. Dueck, and C. Kempenaar|Predicting Sublethal Effects of Herbicides on Terrestrial Non-Crop Plant Species in the Field from Greenhouse Data|Environ. Pollut.155(1): 141-149|2008|10.1016/j.envpol.2007.10.034
112388|T||Rocheleau,S., B. Lachance, R.G. Kuperman, J. Hawari, S. Thiboutot, G. Ampleman, and G.I. Sunahara|Toxicity and Uptake of Cyclic Nitramine Explosives in Ryegrass Lolium perenne|Environ. Pollut.156(1): 199-206|2008|10.1016/j.envpol.2007.12.012
112389|T||Salemaa,M., R. Makipaa, and J. Oksanen|Differences in the Growth Response of Three Bryophyte Species to Nitrogen|Environ. Pollut.152(1): 82-91|2008|10.1016/j.envpol.2007.05.019
112390|T||Sanita di Toppi,L., B. Pawlik-Skowronska, E. Vurro, Z. Vattuone, R. Kalinowska, F.M. Restivo, R. Musetti, and T. Skowro|First and Second Line Mechanisms of Cadmium Detoxification in the Lichen Photobiont Trebouxia impressa (Chlorophyta)|Environ. Pollut.151(2): 280-286|2008|10.1016/j.envpol.2007.06.010
112391|T||Rabier,J., I. Laffont-Schwob, R. Notonier, B. Fogliani, and S. Bouraima-Madjebi|Anatomical Element Localization by EDXS in Grevillea exul var. exul Under Nickel Stress|Environ. Pollut.156(3): 1156-1163|2008|10.1016/j.envpol.2008.04.001
112392|T||Jensen,D., M. Bayley, and M. Holmstrup|Synergistic Interaction Between 4-Nonylphenol and High but not Low Temperatures in Dendrobaena octaedra|Ecotoxicol. Environ. Saf.72(1): 10-16|2009|10.1016/j.ecoenv.2008.03.002
112393|T||Karadeniz,A., M. Cemek, and N. Simsek|The Effects of Panax ginseng and Spirulina platensis on Hepatotoxicity Induced by Cadmium in Rats|Ecotoxicol. Environ. Saf.72(1): 231-235|2009|10.1016/j.ecoenv.2008.02.021
112394|T||Lingappa,S.S., K.J. Starks, and R.D. Eikenbary|Insecticidal Effect of Lysiphlebus testaceipes, a Parasite of the Greenbug, at Three Development Stages|Environ. Entomol.1(4): 520-521|1972|10.1093/ee/1.4.520
112395|T||Mico,C., H.F. Li, F.J. Zhao, and S.P. McGrath|Use of Co Speciation and Soil Properties to Explain Variation in Co Toxicity to Root Growth of Barley (Hordeum vulgare L.) in Different Soils|Environ. Pollut.156(3): 883-890|2008|10.1016/j.envpol.2008.05.017
112396|T||Fernandez,R., A. Bertrand, A. Casares, R. Garcia, A. Gonzalez, and R.S. Tames|Cadmium Accumulation and Its Effect on the In Vitro Growth of Woody Fleabane and Mycorrhized White Birch|Environ. Pollut.152(3): 522-529|2008|10.1016/j.envpol.2007.07.011
112397|T||Gimbert,F., M. Mench, M. Coeurdassier, P.M. Badot, and A. De Vaufleury|Kinetic and Dynamic Aspects of Soil-Plant-Snail Transfer of Cadmium in the Field|Environ. Pollut.152(3): 736-745|2008|10.1016/j.envpol.2007.06.044
112398|AT||Hannam,M.L., J.A. Hagger, M.B. Jones, and T.S. Galloway|Characterisation of Esterases as Potential Biomarkers of Pesticide Exposure in the Lugworm Arenicola marina (Annelida:  Polychaeta)|Environ. Pollut.152(2): 342-350|2008|10.1016/j.envpol.2007.06.022
112399|T||Hernandez-Allica,J., J.M. Becerril, and C. Garbisu|Assessment of the Phytoextraction Potential of High Biomass Crop Plants|Environ. Pollut.152(1): 32-40|2008|10.1016/j.envpol.2007.06.002
112400|T||Hogan,G.R., and H.G. Razniak|Selenium-Induced Mortality and Tissue Distribution Studies in Tenebrio molitor (Coleoptera: Tenebrionidae)|Environ. Entomol.20(3): 790-794|1991|10.1093/ee/20.3.790
112401|T||Corl,A.B., A.R. Rodan, and U. Heberlein|Insulin Signaling in the Nervous System Regulates Ethanol Intoxication in Drosophila melanogaster|Nat. Neurosci.8(1): 18-19|2005|10.1038/nn1363
112402|T||Dalitz,P., M. Cock, R. Harding, and S. Rees|Injurious Effects of Acute Ethanol Exposure During Late Gestation on Developing White Matter in Fetal Sheep|Int. J. Dev. Neurosci.26(5): 391-399|2008|10.1016/j.ijdevneu.2008.03.008
112403|T||Fogal,W.H., G.R. Larocque, S.M. Lopushanski, H.O. Schooley, M.L. Anderson, I.K. Edwards, S.J. Coleman, and M.S. Wolynet|Nutritional and Sexual Responses of Jack Pine to Ammonium Nitrate and Gibberellins|For. Sci.45(1): 136-153|1999|
112404|T||Agarwal,R., K.C. Singhal, and K.G. Varshney|Role of Fertilizers in the Control of Haemonchus contortus Eggs to Infective Larvae in the Charcoal and Different Soils|Indian Vet. Med. J.15(2): 88-91|1991|
112405|T||Endo,H., Y. Tsukamoto, T. Arisawa, H. Goto, S. Hase, and T. Hayakawa|Effects of Intragastric Ammonia on Collagen Metabolism of Gastric Ulcer Base in Rats|Digestion57(6): 411-419|1996|10.1159/000201369
112406|T||Simeone,A., G.A. Boissonneault, L.P. Bush, and G.E.Jr. Mitchell|Comparison of Two Ammoniation Procedures to Reduce the Toxicity of Endophyte-Infected Tall Fescue Seed Fed to Rats|Drug Chem. Toxicol.21(3): 387-404|1998|10.3109/01480549809002213
112407|T||Van der Eerden,L.J.M.|Toxicity of Ammonia to Plants|Agric. Environ.7(3-4): 223-235|1982|10.1016/0304-1131(82)90015-7
112408|A||Leboulanger,C., M. Bouvy, M. Pagano, R.A. Dufour, P. Got, and P. Cecchi|Responses of Planktonic Microorganisms from Tropical Reservoirs to Paraquat and Deltamethrin Exposure|Arch. Environ. Contam. Toxicol.56(1): 39-51|2009|10.1007/s00244-008-9164-z
112409|T||De Jong,W.H., F.M.M. Van Och, C.F. Den Hartog Jager, S.W. Spiekstra, W. Slob, R.J. Vandebriel, and H. Van Loveren|Ranking of Allergenic Potency of Rubber Chemicals in a Modified Local Lymph Node Assay|Toxicol. Sci.66(2): 226-232|2002|10.1093/toxsci/66.2.226
112410|T||Frankild,S., A. Volund, J.E. Wahlberg, and K.E. Andersen|Comparison of the Sensitivities of the Buehler Test and the Guinea Pig Maximization Test for Predictive Testing of Contact Allergy|Acta Dermato-Venereol.80(4): 256-262|2000|10.1080/000155500750012126
112411|T||Ulrich,P., J. Streich, and W. Suter|Intralaboratory Validation of Alternative Endpoints in the Murine Local Lymph Node Assay for the Identification of Contact Allergic Potential:  Primary Ear Skin Irritation and Ear-Draining Lymph Node Hyperplasia Induced|Arch. Toxicol.74(12): 733-744|2001|10.1007/s002040000192
112412|T||Van Och,F.M.M., W. Slob, W.H. De Jong, R.J. Vandebriel, and H. Van Loveren|A Quantitative Method for Assessing the Sensitizing Potency of Low Molecular Weight Chemicals Using a Local Lymph Node Assay:  Employment of a Regression Method that Includes Determination of the Uncertainty Margins|Toxicology146(1): 49-59|2000|10.1016/S0300-483X(00)00165-7
112413|T||Brempong-Yeboah,C.Y., T. Saito, and T. Miyata|Injection Toxicity of Some Pyrethroids in the Armyworm|J. Pestic. Sci. (Multiple Languages)8(1): 95-98|1983|10.1584/jpestics.8.95
112414|T||Brempong-Yeboah,C.Y., T. Saito, and T. Miyata|Topical and Injection Toxicities of Some Pyrethroids to the German-Cockroach, Blattella germanica (Dictyoptera, Blattellidae)|Appl. Entomol. Zool.19(3): 348-355|1984|10.1303/aez.19.348
112415|T||Roberts,R.H., P.M. Stark, and M.V. Meisch|Aerosol Evaluation of Selected Adulticides Against Colonized and Field Strains of Mosquitoes|Mosq. News44(4): 528-533|1984|
112416|T||Baranyi,A., and M.H. Chase|Effects of Juxta- and Intracellular Microinjection of Ethanol on Trigeminal Motoneurons in the Chronic Cat|Brain Res.269(1): 159-164|1983|10.1016/0006-8993(83)90974-5
112417|T||Baranyi,A., and M.H. Chase|Ethanol-Induced Modulation of the Membrane Potential and Synaptic Activity of Trigeminal Motoneurons During Sleep and Wakefulness|Brain Res.307(1-2): 233-245|1984|10.1016/0006-8993(84)90477-3
112418|T||Brien,J.F., D.W. Clarke, B. Richardson, and J. Patrick|Disposition of Ethanol in Maternal Blood, Fetal Blood, and Amniotic Fluid of Third-Trimester Pregnant Ewes|Am. J. Obstet. Gynecol.152(5): 583-590|1985|10.1016/0002-9378(85)90632-5
112420|T||Jamieson,L.E., X. Meier, K.J. Smith, S.E. Lewthwaite, and P.R. Dentener|Effect of Ethanol Vapor Treatments on Lightbrown Apple Moth Larval Mortality and 'Braeburn' Apple Fruit Characterization|Postharvest Biol. Technol.28(3): 391-403|2003|10.1016/S0925-5214(02)00202-8
112421|T||Joseph,G., and R.G. Kelsey|Ethanol Synthesis and Water Relations of Flooded Pseudotsuga menziesii (Mirb.) Franco (Douglas-Fir) Seedlings Under Controlled Conditions|Int. J. Plant Sci.158(6): 844-850|1997|10.1086/297498
112422|T||McGiffen,M.E.,Jr., R.L. Green, J.A. Manthey, B.A. Faber, A.J. Downer, N.J. Sakovich, and J. Aguiar|Field Tests of Methanol as a Crop Yield Enhancer|Hortscience30(6): 1225-1228|1995|10.21273/HORTSCI.30.6.1225
112423|T||Mitchell,A.R., F.J. Crowe, and M.D. Butler|Plant Performance and Water Use of Peppermint Treated with Methanol and Glycine|J. Plant Nutr.17(11): 1955-1962|1994|10.1080/01904169409364857
112424|T||Ngai,A.C., R.L. Mondares, D.E. Mayock, and C.A. Gleason|Fetal Alcohol Exposure Alters Cerebrovascular Reactivity to Vasoactive Intestinal Peptide in Adult Sheep|Neonatology93(1): 45-51|2008|10.1159/000105524
112425|T||Peltonen,S.|Effect of Foliar Ethanol Application on Septoria Leaf Blotch in Spring Wheat (Triticum aestivum L.)|J. Agron. Crop Sci.178(1): 53-58|1997|10.1111/j.1439-037X.1997.tb00350.x
112426|T||Bo,W.J., W.A. Krueger, P.K. Rudeen, and S.K. Symmes|Ethanol-Induced Alterations in the Morphology and Function of the Rat Ovary|Anat. Rec.202:255-260|1982|10.1002/ar.1092020210
112427|T||Botia,B., D. Seyer, A. Ravni, M. Benard, A. Falluel-Morel, P. Cosette, T. Jouenne, A. Fournier, H. Vaudry, B.J. Gonzale|Peroxiredoxin 2 is Involved in the Neuroprotective Effects of PACAP in Cultured Cerebellar Granule Neurons|J. Mol. Neurosci.36(1-3): 61-72|2008|10.1007/s12031-008-9075-5
112428|T||Bruyere,H.J.,Jr., C.E. Stith, and T.A. Thorn|Cardioteratogenic Dose of Ethanol Reduces Both Lactic Dehydrogenase and Succinic Dehydrogenase Activity in the Bulbar Ridges of the Embryonic Chick Heart|J. Appl. Toxicol.14(1): 27-31|1994|10.1002/jat.2550140106
112429|T||Cruz,M.A., I. Bravo, S. Rojas, and V. Gallardo|Effects of Ethanol Ingestion on Amino Acid Uptake in the Dog Liver In Vivo|Pharmacology30(1): 12-19|1985|10.1159/000138044
112430|T||Ioannides,C., and C.M. Steele|Hepatic Microsomal Mixed-Function Oxidase Activity in Ethanol-Treated Hamsters and Its Consequences on the Bioactivation of Aromatic Amines to Mutagens|Chem.-Biol. Interact.59(2): 129-139|1986|10.1016/S0009-2797(86)80060-6
112431|T||Malinowska,B., M. Gothert, G. Godlewski, B. Wrobel, H. Bonisch, and W. Buczko|Inhibitory Effect of Ethanol on the 5-Hydroxytryptamine-Induced Bezold-Jarisch Reflex-Involvement of Peripheral 5-HT3 Receptors|Eur. J. Pharmacol. Environ. Toxicol. Pharmacol. Sect.293(1): 71-76|1995|10.1016/0926-6917(95)90020-9
112433|T||Scholz,H.|Influence of the Biogenic Amine Tyramine on Ethanol-Induced Behaviors in Drosophila|J. Neurobiol.63(3): 199-214|2005|10.1002/neu.20127
112434|T||Miller,W.B., and E. Finan|Root-Zone Alcohol is an Effective Growth Retardant for Paperwhite Narcissus|HortTechnology16(2): 294-296|2006|10.21273/HORTTECH.16.2.0294
112435|T||Kelce,W.R., V.K. Ganjam, and P.K. Rudeen|Inhibition of Testicular Steroidogenesis in the Neonatal Rat Following Acute Ethanol Exposure|Alcohol7:75-80|1990|10.1016/0741-8329(90)90063-I
112436|T||Tsujii,M., S. Kawano, S. Tsuji, K. Nagano, T. Ito, N. Hayasahi, H. Fusamoto, T. Kamada, and K. Tamura|Ammonia:  A Possible Promotor in Helicobacter pylori-Related Gastric Carcinogenesis|Cancer Lett.65(1): 15-18|1992|10.1016/0304-3835(92)90207-C
112437|T||Ewen,A.B., and M.K. Mukerji|Field Evaluation of Carbofuran Bait Against Grasshopper (Orthoptera:  Acrididae) Populations in Saskatchewan|Can. Entomol.119:537-540|1987|10.4039/Ent119537-6
112438|T||Grout,T.G., and J.G. Morse|Insect Growth Regulators:  Promising Effects on Citrus Thrips (Thysanoptera:  Thripidae)|Can. Entomol.118(4): 389-392|1986|10.4039/Ent118389-4
112439|T||De Sousa,B., W. Schmid, H. Hefti, and D. Bellus|The Biological Evaluation of Pyrethroids as Potential Mothproofing Agents.  I.  Esters of 2-Substituted 3,3-Dimethylcyclopropane-1-Carboxylic Acids|J. Soc. Dyers Colour.98(3): 79-84|1982|10.1111/j.1478-4408.1982.tb03622.x
112441|T||Slama,K., and T.A. Miller|Insecticide Poisoning:  Disruption of a Possible Autonomic Function in Pupae of Tenebrio molitor|Pestic. Biochem. Physiol.29(1): 25-34|1987|10.1016/0048-3575(87)90081-2
112442|T||Ogura,Y., and H. Okubo|In Vitro Shoot Formation from Rhizome Apices of Cymbidium ensifolium and C. kanran|J. Fac. Agric. Kyushu Univ.47(2): 301-306|2003|10.5109/4499
112443|T||Oka,Y., and S. Pivonia|Effect of a Nitrification Inhibitor on Nematicidal Activity of Organic and Inorganic Ammonia-Releasing Compounds Against the Root-Knot Nematode Meloidogyne javanica|Nematology5(4): 505-513|2003|10.1163/156854103322683238
112444|T||White,J.C., Z.D. Parrish, M.P.N. Gent, W. Iannucci-Berger, B.D. Eitzer, M. Isleyen, and M.I. Mattina|Soil Amendments, Plant Age, and Intercropping Impact p,p'-DDE Bioavailability to Cucurbita pepo|J. Environ. Qual.35(4): 992-1000|2006|10.2134/jeq2005.0271
112446|A||Lahnsteiner,F., N. Mansour, and B. Berger|The Effect of Inorganic and Organic Pollutants on Sperm Motility of Some Freshwater Teleosts|J. Fish Biol.65(5): 1283-1297|2004|10.1111/j.0022-1112.2004.00528.x
112447|T||Rajini,P.S., P. Melstrom, and P.L. Williams|A Comparative Study on the Relationship Between Various Toxicological Endpoints in Caenorhabditis elegans Exposed to Organophosphorus Insecticides|J. Toxicol. Environ. Health Part A71(15): 1043-1050|2008|10.1080/15287390801989002
112448|T||Peden-Adams,M.M., J. Liu, S. Knutson, J. Dancik, K. Bryant, A.B. Bodine, and R.L. Dickerson|Alterations in Immune Function and CYP450 Activity in Adult Male Deer Mice (Peromyscus maniculatus) Following Exposure to Benzo(a)pyrene, Pyrene, or Chrysene|J. Toxicol. Environ. Health Part A70(21): 1783-1791|2007|10.1080/15287390701384643
112449|T||Michaud,J.P., and A.K. Grant|IPM-Compatibility of Foliar Insecticides for Citrus: Indices Derived from Toxicity to Beneficial Insects from Four Orders|J. Insect Sci.3(18): 1-10|2003|10.1673/031.003.1801
112450|T||Chemical Manufacturers Association|Letter from Chemical Manufacturers Association to USEPA Regarding Enclosed Information on the Second Interim Progress Reports on 2-Mercaptobenzothiazole with Attachments|EPA/OTS Doc.#40-8972395:786 p.|2000|
112451|T||Chemical Manufacturers Association|A 3-Month Study of the Potential Effects of Orally Administered 2-Mercaptobenzothiazole on Behavior & Neuromorphology in Rats with Cover Letter Dated 120390|EPA/OTS Doc.#40-9072448:756 p.|1990|
112452|T||Cao,P., X. Wang, F. Liu, E. Zhao, and L. Han|Dissipation and Residue of S-Metolachlor in Maize and Soil|Bull. Environ. Contam. Toxicol.80(5): 391-394|2008|10.1007/s00128-008-9359-z
112453|T||Moustafa,M., and M.M. Metwally|New Rosin-Modified Varnish Compositions of Effective Pest Control|Pigm. Resin Technol.21(8): 12-15|1992|10.1108/eb042965
112454|A||R.T.Vanderbilt Co.Inc.|2-Mercaptobenzothiazole (Rokon) - Acute Toxicity to Rainbow Trout (Oncorhynchus mykiss) Under Static Conditions (Final Report) with Attachments and Cover Letter Dated 030492|EPA/OTS Doc.#86-920000854:55 p.|1992|
112455|T||Chemical Manufacturers Association|A Preliminary Reproduction Study in Rats with 2-Mercaptobenzothiazole (MBT) (Final Report) with Attached Appendix, Cover Sheet and Letter Dated 020990|EPA/OTS Doc.#89-900000121:13 p.|1990|
112456|T||Cochran,D.G.|Extended Selections for Pyrethroid Resistance in the German Cockroach (Dictyoptera:  Blattellidae)|J. Econ. Entomol.84(5): 1412-1416|1991|10.1093/jee/84.5.1412
112458|T||Scheer,C.F.,Jr., and G.V. Johnson|Systemic Insecticides Against the Spirea Aphid, Birch Leaf Miner, and Nantucket Pine Tip Moth|J. Econ. Entomol.63(4): 1205-1207|1970|10.1093/jee/63.4.1205
112459|T||Li,X., S. Li, and J. Lin|Effect of GA3 Spraying on Lignin and Auxin Contents and the Correlated Enzyme Activities in Bayberry (Myrica rubra Bieb.) During Flower-Bud Induction|Plant Sci.164(4): 549-556|2003|10.1016/S0168-9452(03)00004-9
112460|T||Zheng,S., Y. Song, X. Qiu, T. Sun, M.L. Ackland, and W. Zhang|Annetocin and TCTP Expressions in the Earthworm Eisenia fetida Exposed to PAHs in Artificial Soil|Ecotoxicol. Environ. Saf.71(2): 566-573|2008|10.1016/j.ecoenv.2007.10.025
112461|T||Xu,W., W. Shi, F. Liu, A. Ueda, and T. Takabe|Enhanced Zinc and Cadmium Tolerance and Accumulation in Transgenic Arabidopsis Plants Constitutively Overexpressing a Barley Gene (HvAPX1) that Encodes a Peroxisomal Ascorbate Peroxidase|Botany86(6): 567-575|2008|10.1139/B08-025
112463|T||Gupta,S., R.K. Sharma, R.K. Gupta, S.R. Sinha, R. Singh, and V.T. Gajbhiye|Persistence of New Insecticides and Their Efficacy Against Insect Pests of Okra|Bull. Environ. Contam. Toxicol.82(2): 243-247|2009|10.1007/s00128-008-9581-8
112465|A||Lundegardh,B.|Characterization of Three Herbicide-Resistant Strains of the Unicellular Green Alga, Monoraphidium pusillum:  2.  Determination of the Resistance Mechanism by Fluorescence|Swed. J. Agric. Res.22(2): 61-69|1992|
112466|T||Yen,J.L., P. Batterham, and J.A. McKenzie|Genotypically Dependent Effects of Cyromazine on Reproduction and Offspring Development in the Australian Lucilia cuprina (Diptera: Calliphoridae)|J. Econ. Entomol.91(4): 847-850|1998|10.1093/jee/91.4.847
112467|T||Bynum,E.D.,Jr., T.L. Archer, and F.W.,Jr. Plapp|Action of Insecticides to Spider Mites (Acari:  Tetranychidae) on Corn in the Texas High Plains:  Toxicity, Resistance, and Synergistic Combinations|J. Econ. Entomol.83(4): 1236-1242|1990|10.1093/jee/83.4.1236
112468|T||Haydeni,J., and E. Grafius|Activity of Cyromazine on Onion Maggot Larvae (Diptera:  Anthomyiidae) in the Soil|J. Econ. Entomol.83(6): 2398-2400|1990|10.1093/jee/83.6.2398
112469|T||Parkman,P., and R.L. Pienkowski|Sublethal Effects of Neem Seed Extract on Adults of Liriomyza trifolii (Diptera:  Agromyzidae)|J. Econ. Entomol.83(4): 1246-1249|1990|10.1093/jee/83.4.1246
112470|T||Stark,J.D., R.I. Vargas, and R.K. Thalman|Azadirachtin:  Effects on Metamorphosis, Longevity, and Reproduction of Three Tephritid Fruit Fly Species (Diptera:  Tephritidae)|J. Econ. Entomol.83(6): 2168-2174|1990|10.1093/jee/83.6.2168
112471|T||Daly,J.G., and A.P. Fitt|Monitoring for Pyrethroid Resistance in Relation to Body Weight in Adult Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae)|J. Econ. Entomol.83(3): 705-709|1990|10.1093/jee/83.3.705
112472|T||Knight,A.L., and L.A. Hull|Areawide Patterns of Azinphosmethyl Resistance in Adult Male Platy nota idaeusalis (Lepidoptera: Tortricidae) in South Central Pennsylvania|J. Econ. Entomol.83(4): 1194-1200|1990|10.1093/jee/83.4.1194
112473|T||Tisler,A.M., and G.W. Zehnder|Insecticide Resistance in the Colorado Potato Beetle (Coleoptera:  Chrysomelidae) on the Eastern Shore of Virginia|J. Econ. Entomol.83(3): 666-671|1990|10.1093/jee/83.3.666
112474|T||Berry,J.S., T.O. Holtzer, and H.J. Ball|Ambulatory Dispersal of Spider Mites (Acari:  Tetranychidae) on Whole, Untreated Maize Plants After Exposure to Fenvalerate and Permethrin|J. Econ. Entomol.83(1): 217-220|1990|10.1093/jee/83.1.217
112475|T||Rashtchizadeh,N., S. Ettehad, R.A. DiSilvestro, and R. Mahdavi|Antiatherogenic Effects of Zinc are Associated with Copper in Iron-Overloaded Hypercholesterolemic Rabbits|Nutr. Res.28(2): 98-105|2008|10.1016/j.nutres.2007.12.004
112476|A||Wang,L., and B. Zheng|Toxic Effects of Fluoranthene and Copper on Marine Diatom Phaeodactylum tricornutum|J. Environ. Sci.20(11): 1363-1372|2008|10.1016/S1001-0742(08)62234-2
112477|A||Yim,J.H., K.W. Kim, and S.D. Kim|Effect of Hardness on Acute Toxicity of Metal Mixtures Using Daphnia magna:  Prediction of Acid Mine Drainage Toxicity|J. Hazard. Mater.B138(1): 16-21|2006|10.1016/j.jhazmat.2005.11.107
112478|A||Zhang,Q., Q. Zhou, J. Wang, S. Sun, T. Hua, and L. Ren|Influences of Cu or Cd on the Neurotoxicity Induced by Petroleum Hydrocarbons in Ragworm Perinereis aibuhitensis|J. Environ. Sci.20(3): 364-371|2008|10.1016/S1001-0742(08)60057-1
112479|T||Jansson,R.K., and S.H. Lecrone|Effects of Summer Cover Crop Management on Wireworm (Coleoptera:  Elateridae) Abundance and Damage to Potato|J. Econ. Entomol.84(2): 581-586|1991|10.1093/jee/84.2.581
112480|T||Keena,M.A., E. Grafton-Cardwell, and J. Granett|Variability in Response of Laboratory-Reared and Field-Collected Populations of Tetranychus spp. (Acari:  Tetranychidae) to Hexythiazox|J. Econ. Entomol.84(4): 1128-1134|1991|10.1093/jee/84.4.1128
112481|T||Martinez,A.J., and D.S. Moreno|Effect of Cyromazine on the Oviposition of Mexican Fruit Fly (Diptera:  Tephritidae) in the Laboratory|J. Econ. Entomol.84(5): 1540-1543|1991|10.1093/jee/84.5.1540
112482|T||Holtkamp,R.H., V.E. Edge, B.C. Dominiak, and P.J. Walters|Insecticide Resistance in Therioaphis trifolii F. Maculata (Hemiptera:  Aphididae) in Australia|J. Econ. Entomol.85(5): 1576-1582|1992|10.1093/jee/85.5.1576
112483|T||Scott,J.G., C.J. Geden, D.A. Rutz, and N. Liu|Comparative Toxicity of Seven Insecticides to Immature Stages of Musca domestica (Diptera:  Muscidae) and Two of Its Important Biological Control Agents, Muscidifurax raptor and Spalangia cameroni (Hymenoptera:  Pteroma|J. Econ. Entomol.84(3): 776-779|1991|10.1093/jee/84.3.776
112484|T||Van der Hoven,C.L., A.S. Schoeman, and A. Eicker|The Response of the Cultivated Mushroom, Agaricus bisporus, to Five Acaricides Applied for the Corrective Control of a Mushroom-Infesting Mite, Caloglyphus berlesei|Phytophylactica20(3): 287-292|1988|
112485|T||Belesky,D.P., J.M. Ruckle, and W.M. Clapham|Dry-Matter Production, Allocation and Nutritive Value of Forage Chicory Cultivars as a Function of Nitrogen|J. Agron. Crop Sci.190(2): 100-110|2004|10.1046/j.1439-037X.2003.00081.x
112486|T||Botham,P., M. Urtizberea, C. Wiemann, X. Manciaux, L. Tilbury, H.W. Vohr, S. Allen, N.G. Carmichael, and S. De Jouffrey|A Comparative Study of the Sensitivity of the 3-Induction and 9-Induction Buehler Test Procedures for Assessing Skin Sensitisation Potential|Food Chem. Toxicol.43(1): 65-75|2005|10.1016/j.fct.2004.08.013
112487|T||Bremner,J.M., and M.J. Krogmeier|Evidence that the Adverse Effect of Urea Fertilizer on Seed Germination in Soil is Due to Ammonia Formed Through Hydrolysis of Urea by Soil Urease|Proc. Natl. Acad. Sci. U.S.A.86(21): 8185-8188|1989|10.1073/pnas.86.21.8185
112488|T||Ahmed,A.K., and K.A. Johnson|The Effect of the Ammonium:  Nitrate Nitrogen Ratio, Total Nitrogen, Salinity (NaCl) and Calcium on the Oxalate Levels of Tetragonia tetragonioides Pallas. Kunz|J. Hortic. Sci. Biotechnol.75(5): 533-538|2000|10.1080/14620316.2000.11511280
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112490|A||Palod,A., V.S. Chauhan, and S.N. Bagchi|Regulation of Nitrate Reduction in a Cyanobacterium Phormidium uncinatum:  Distinctive Modes of Ammonium-Repression of Nitrate and Nitrite Reductases|FEMS Microbiol. Lett.68(3): 285-288|1990|
112493|T||Saxena,N., and D. Karan|Effect of Ammonia Solution and Acetic Acid on the Mycoflora of Pea Seeds and also Their Effect on Germination|Indian J. Bot.8(1): 35-38|1985|
112495|A||Saha,T.K., M.B. Arya, and A.B. Das|Alterations in the Patterns of Nitrogenous Excretion in a Freshwater Air Breathing Teleost, Channa punctatus (Bloch), During Ammonia-Stress|Indian J. Exp. Biol.32(3): 196-199|1994|
112496|A||Paul,M., J.D. Johnson, and D. Epel|Fertilization Acid of Sea Urchin Eggs is not a Consequence of Cortical Granule Exocytosis|J. Exp. Zool.197(1): 127-133|1976|10.1002/jez.1401970115
112497|A||Elskens,M., N. Brion, K. Buesseler, B.A.S. Van Mooy, P. Boyd, F. Dehairs, N. Savoye, and W. Baeyens|Primary, New and Export Production in the NW Pacific Subarctic Gyre During the Vertigo K2 Experiments|Deep-Sea Res. Part I Oceanogr. Res. Pap.55(14-15): 1594-1604|2008|
112499|A||Post,A.F.|Ammonia Enhanced Dark Respiration in Chlorella vulgaris is Related to Collapse of a Transmembrane pH Gradient|FEMS Microbiol. Lett.113(1): 9-13|1993|10.1111/j.1574-6968.1993.tb06480.x
112501|A||Webb,D.J., and M. Charbonneau|Weak Bases Inhibit Cleavage and Embryogenesis in Amphibians and Echinoderms|Cell Differ.20(1): 33-44|1987|10.1016/0045-6039(87)90463-5
112502|T||Hirayama,T., N. Fujishige, T. Kunii, N. Nishimura, S. Iuchi, and K. Shinozaki|A Novel Ethanol-Hypersensitive Mutant of Arabidopsis|Plant Cell Physiol.45(6): 703-711|2004|10.1093/pcp/pch078
112504|A||Byerrum,R.U., and A.A. Benson|Effect of Ammonia on Photosynthetic Rate and Photosynthate Release by Amphidinium carterae (Dinophyceae)|J. Phycol.11:449-452|1975|10.1111/j.1529-8817.1975.tb02810.x
112505|T||Moons,A.|Ospdr9, Which Encodes a PDR-Type ABC Transporter, is Induced by Heavy Metals, Hypoxic Stress and Redox Perturbations in Rice Roots|FEBS Lett.553(3): 370-376|2003|10.1016/S0014-5793(03)01060-3
112506|AT||Brun,F.G., I. Olive, E.J. Malta, J.J. Vergara, I. Hernandez, and J.L. Perez-Llorens|Increased Vulnerability of Zostera noltii to Stress Caused by Low Light and Elevated Ammonium Levels Under Phosphate Deficiency|Mar. Ecol. Prog. Ser.365:67-75|2008|10.3354/meps07512
112507|T||Michalek,S., C. Klebel, and D. Treutter|Stimulation of Phenylpropanoid Biosynthesis in Apple (Malus domestica Borkh.) by Abiotic Elicitors|Eur. J. Hortic. Sci.70(3): 116-120|2005|
112508|T||Brentner,L.B., S.T. Mukherji, K.M. Merchie, J.M. Yoon, J.L. Schnoor, and B. Van Aken|Expression of Glutathione S-Transferases in Poplar Trees (Populus trichocarpa) Exposed to 2,4,6-Trinitrotoluene (TNT)|Chemosphere73(5): 657-662|2008|10.1016/j.chemosphere.2008.07.059
112509|T||Mashitah,M.D., Y.Y. Azila, and S. Bhatia|Biosorption of Cadmium(II) Ions by Immobilized Cells of Pycnoporus sanguineus from Aqueous Solution|Bioresour. Technol.99(11): 4742-4748|2008|10.1016/j.biortech.2007.09.062
112510|A||Wintermyer,M., A. Skaidas, A. Roy, Y.C. Yang, P. Georgapoulos, J. Burger, and K. Cooper|The Development of a Physiologically-Based Pharmacokinetic Model Using the Distribution of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Tissues of the Eastern Oyster (Crassostrea virginica)|Mar. Environ. Res.60(2): 133-152|2005|10.1016/j.marenvres.2004.08.004
112511|T||Bisht,N.C., P.K. Burma, and D. Pental|Development of 2,4-D-Resistant Transgenics in Indian Oilseed Mustard (Brassica juncea)|Curr. Sci. (Bangalore)87(3): 367-370|2004|
112512|T||Ali,B., S. Hayat, Q. Fariduddin, and A. Ahmad|24-Epibrassinolide Protects Against the Stress Generated by Salinity and Nickel in Brassica juncea|Chemosphere72(9): 1387-1392|2008|10.1016/j.chemosphere.2008.04.012
112513|T||Mozafari,H., K.M. Kalantari, M.S. Olia, M. Torkzadeh, H. Salari, and S. Mirzaei|Role of Calcium in Increasing Tolerance of Descurainia sophia to Salt Stress|J. Agric. Soc. Sci.4(2): 53-58|2008|
112514|A||Wang,W.X., and R.C.H. Dei|Factors Affecting Trace Element Uptake in the Black Mussel Septifer virgatus|Mar. Ecol. Prog. Ser.186:161-172|1999|10.3354/meps186161
112516|T||Ikarashi,Y., T. Tsuchiya, and A. Nakamura|A Sensitive Mouse Lymph Node Assay with Two Application Phases for Detection of Contact Allergens|Arch. Toxicol.67(9): 629-636|1993|10.1007/BF01974070
112517|T||Stejskal,V., R. Aulicky, and S. Pekar|Brief Exposure of Blattella germanica (Blattodea) to Insecticides Formulated in Various Microcapsule Sizes and Applied on Porous and Non-Porous Surfaces|Pest Manag. Sci.65(1): 93-98|2008|10.1002/ps.1651
112518|T||Hariya,T., M. Hatao, and H. Ichikawa|Development of a Non-Radioactive Endpoint in a Modified Local Lymph Node Assay|Food Chem. Toxicol.37(1): 87-93|1999|10.1016/S0278-6915(98)00102-1
112520|T||Rothfels,C.J., L.L. Beaton, and S.A. Dudley|The Effects of Salt, Manganese, and Density on Life History Traits in Hesperis matronalis L. from Oldfield and Roadside Populations|Can. J. Bot.80(2): 131-139|2002|10.1139/b01-142
112521|T||Kanamadi,R.D., and S.K. Saidapur|Effect of Sublethal Concentration of Mercuric Chloride on the Ovary of the Frog Rana cyanophlyctis|J. Herpetol.25(4): 494-497|1991|10.2307/1564779
112523|T||Abbasi,P.A., E. Riga, K.L. Conn, and G. Lazarovits|Effect of Neem Cake Soil Amendment on Reduction of Damping-off Severity and Population Densities of Plant-Parasitic Nematodes and Soilborne Plant Pathogens|Can. J. Plant Pathol.27(1): 38-45|2005|10.1080/07060660509507191
112524|A||Cho,C.W., Y.C. Jeon, T.P.T. Pham, K. Vijayaraghavan, and Y.S. Yun|The Ecotoxicity of Ionic Liquids and Traditional Organic Solvents on Microalga Selenastrum capricornutum|Ecotoxicol. Environ. Saf.71(1): 166-171|2008|10.1016/j.ecoenv.2007.07.001
112525|A||Oya,M., S. Orito, Y. Ishikawa, and T. Iizuka|Effects of Water Hardness and Existence of Adsorbent on Toxic Surface Tension of Surfactants for Aquatic Species|J. Oleo Sci.56(5): 237-243|2007|10.5650/jos.56.237
112526|A||Oya,M., Y. Takemoto, and Y. Ishikawa|Large Decrease in Acute Aquatic Toxicity of Linear Alkylbenzene Sulfonate in Hard Water and Seawater by Adding Adsorbent|J. Oleo Sci.57(1): 15-21|2008|10.5650/jos.57.15
112527|A||Le Bouffant,R., O. Mulner-Lorillon, J. Morales, P. Cormier, and R. Belle|Chromium(III) Triggers the DNA-Damaged Checkpoint of the Cell Cycle and Induces a Functional Increase of 4e-Bp|Chem. Res. Toxicol.21(2): 542-549|2008|10.1021/tx700244h
112528|A||Avilez,I.M., T.S.F. Hori, L.C. De Almeida, A. Hackbarth, J.C.B. Neto, V.L.F. DaCunha Bastos, and G. Moraes|Effects of Phenol in Antioxidant Metabolism in Matrinxa, Brycon amazonicus (Teleostei; Characidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(2): 136-142|2008|10.1016/j.cbpc.2008.04.008
112529|A||Breitholtz,M., J.R. Nyholm, J. Karlsson, and P.L. Andersson|Are Individual NOEC Levels Safe for Mixtures?  A Study on Mixture Toxicity of Brominated Flame-Retardants in the Copepod Nitocra spinipes|Chemosphere72(9): 1242-1249|2008|10.1016/j.chemosphere.2008.05.004
112530|T||Albert,C., T.D. Williams, C.A. Morrissey, V.W.M. Lai, W.R. Cullen, and J.E. Elliott|Tissue Uptake, Mortality, and Sublethal Effects of Monomethylarsonic Acid (MMA(V)) in Nestling Zebra Finches (Taeniopygia guttata)|J. Toxicol. Environ. Health Part A71(6): 353-360|2008|10.1080/15287390701738566
112532|A||Andreozzi,R., I. Di Somma, A. Pollio, G. Pinto, and R. Sanchirico|Toxicity of Unwanted Intermediates and Products Formed During Accidental Thermal Decomposition of Chemicals|J. Hazard. Mater.150(2): 433-437|2008|10.1016/j.jhazmat.2007.04.128
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112535|T||Bhatia,N.P., K.B. Walsh, and A.J.M. Baker|Detection and Quantification of Ligands Involved in Nickel Detoxification in a Herbaceous Ni Hyperaccumulator Stackhousia tryonii Bailey|J. Exp. Bot.56(415): 1343-1349|2005|10.1093/jxb/eri135
112536|A||Buhler,D.R., and P. Benville|Effect of Feeding and of DDT on the Activity of Hepatic Glucose 6-Phosphate Dehydrogenase in Two Salmonids|J. Fish. Res. Board Can.26:3209-3216|1969|10.1139/f69-302
112537|T||Cao,Q., Q.H. Hu, S. Khan, Z.J. Wang, A.J. Lin, X. Du, and Y.G. Zhu|Wheat Phytotoxicity from Arsenic and Cadmium Separately and Together in Solution Culture and in a Calcareous Soil|J. Hazard. Mater.148(1/2): 377-382|2007|10.1016/j.jhazmat.2007.02.050
112538|T||Ikegami,A., S. Eguchi, A. Kitajima, K. Inoue, and K. Yonemori|Identification of Genes Involved in Proanthocyanidin Biosynthesis of Persimmon (Diospyros kaki) Fruit|Plant Sci.172(5): 1037-1047|2007|10.1016/j.plantsci.2007.02.010
112539|A||Bustamante,P., J.L. Teyssie, S.W. Fowler, and M. Warnau|Assessment of the Exposure Pathway in the Uptake and Distribution of Americium and Cesium in Cuttlefish (Sepia officinalis) at Different Stages of Its Life Cycle|J. Exp. Mar. Biol. Ecol.331(2): 198-207|2006|10.1016/j.jembe.2005.10.018
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112541|T||Marsolais,F., C.H. Sebastia, A. Rousseau, and L. Varin|Molecular and Biochemical Characterization of BNST4, an Ethanol-Inducible Steroid Sulfotransferase from Brassica napus, and Regulation of BNST Genes by Chemical Stress and During Development|Plant Sci.166(5): 1359-1370|2004|10.1016/j.plantsci.2004.01.019
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112544|T||Sunderman,H.D., and D.W. Sweeney|Soybean Response to Foliar Applied Methanol in Humid and Semiarid Environments|J. Prod. Agric.10(3): 353-354|1997|10.2134/jpa1997.0415
112545|T||Maswoswe,S.M., D.M. Cyr, A.D. Griffith, and G.C. Tremblay|The Effect of Sodium Benzoate on Ammonia Toxicity in Rats|Biochem. Biophys. Res. Commun.138(1): 369-373|1986|10.1016/0006-291X(86)90290-1
112546|T||Parker,T.H., R.K. Roberts, C.V. Vorhees, D.E. Schmidt, and S. Schenker|The Effect of Acute and Subacute Ammonia Intoxication on Regional Cerebral Acetylcholine Levels in Rats|Biochem. Med.18(2): 235-244|1977|10.1016/0006-2944(77)90095-3
112547|T||Bhandare,P.N., P.V. Rataboli, and R.S.D. D'Souza|Dual Action of Clonidine on Ethanol-Induced Gastric Lesions:  Is the Imidazoline-Preferring Receptor Involved?|Eur. J. Pharmacol.199(2): 243-246|1991|10.1016/0014-2999(91)90464-2
112548|T||Strong,W.L., and C.C. Gates|Herbicide-Induced Changes to Ungulate Forage Habitat in Western Alberta, Canada|For. Ecol. Manag.222(1-3): 469-475|2006|10.1016/j.foreco.2005.10.036
112550|T||Lockwood,A.H., M.D. Ginsberg, H.M. Rhoades, and M.T. Gutierrez|Cerebral Glucose Metabolism After Portacaval Shunting in the Rat. Patterns of Metabolism and Implications for the Pathogenesis of Hepatic Encephalopathy|J. Clin. Invest.78(1): 86-95|1986|10.1172/JCI112578
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112553|T||Eraslan,G., M. Kanbur, S. Silici, B. Cem Liman, S. AltInordulu, and Z. Soyer SarIca|Evaluation of Protective Effect of Bee Pollen Against Propoxur Toxicity in Rat|Ecotoxicol. Environ. Saf.72(3): 931-937|2009|10.1016/j.ecoenv.2008.06.008
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112555|A||Abdel-Hamid,A.Z., E. Farrag, M. Rizk, M.T. Omar, and M.M.E. Mantawy|Effect of Nitrogen:  Sulpher and Phosphorus Containing Fertilizers and Organophosphorous Insecticide on Reproduction of Biomphalaria alexandrina Snails|Egypt. J. Pharm. Sci.38(1-3): 147-158|1997|
112556|T||Clement,J.M.A.M., J.H. Venema, and P.R. Van Hasselt|Short-Term Exposure to Atmospheric Ammonia does not Affect Low-Temperature Hardening of Winter Wheat|New Phytol.131(3): 345-351|1995|10.1111/j.1469-8137.1995.tb03070.x
112557|T||Heijne,B., T.A. Dueck, L.J. Van der Eerden, and G.W. Heil|Effects of Atmospheric Ammonia and Ammonium Sulphate on Vesicular-Arbuscular Mycorrhizal Colonization in Three Heathland Species|New Phytol.127(4): 685-696|1994|10.1111/j.1469-8137.1994.tb02971.x
112558|T||Perez-Soba,M., L.J.M. Van der Eerden, I. Stulen, and P.J.C. Kuiper|Gaseous Ammonia Counteracts the Response of Scots Pine Needles to Elevated Atmospheric Carbon Dioxide|New Phytol.128(2): 307-313|1994|10.1111/j.1469-8137.1994.tb04014.x
112559|T||Ukrainetz,H., C.A. Campbell, V.O. Biederbeck, D. Curtin, and O.T. Bouman|Yield and Protein Content of Cereals and Oilseed as Influenced by Long-Term Use of UREA and Anhydrous Ammonia|Can. J. Plant Sci.76(1): 27-32|1996|10.4141/cjps96-005
112560|T||Ueda,S., M. Ikeda, and T. Yamakawa|Provision of Carbon Skeletons for Amide Synthesis in Non-Nodulated Soybean and Pea Roots in Response to the Source of Nitrogen Supply|Soil Sci. Plant Nutr.54(5): 732-737|2008|10.1111/j.1747-0765.2008.00293.x
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112563|AT||Chetty,C.S., R.C. Naidu, B.K. Reddy, P.N. Srinivas, and K.S. Swami|Effect of Sciatectomy and Induced Ammonia Stress on Levels of ACh amd AChE Activity in Selected Tissues of Frog, Rana hexadactyla (Lesson)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.57(3): 225-230|1987|
112564|A||Chou,Y.H., and Y.H. Chien|Acute Toxicity of Ammonia to Larval Black Porgy, Acanthopagrus schlegeli|J. Fish. Soc. Taiwan17(1): 53-57|1990|
112566|T||Brempong-Yeboah,C.Y., T. Saito, and T. Miyata|The Selective Toxicity of Some Synthetic Pyrethroids in the Armyworm, Pseudaletia separata (Walker)  III.  Cuticle Permeabilities of Some Pyrethroids|Appl. Entomol. Zool.19(1): 87-94|1984|10.1303/aez.19.87
112567|T||Kammuller,M.E., C. Thomas, J.M. De Bakker, N. Bloksma, and W. Seinen|The Popliteal Lymph Node Assay in Mice to Screen for the Immune Disregulating Potential of Chemicals-A Preliminary Study|Int. J. Immunopharmacol.11(3): 293-300|1989|10.1016/0192-0561(89)90167-7
112568|T||Abu-Basha,E.A., S. Yibchok-Anun, D.L. Hopper, and W.H. Hsu|Effects of the Pesticide Amitraz and Its Metabolite BTS 27271 on Insulin and Glucagon Secretion from the Perfused Rat Pancreas:  Involvement of alpha2D-Adrenergic Receptors|Metab. Clin. Exp.48(11): 1461-1469|1999|10.1016/S0026-0495(99)90160-9
112569|A||Moreira-Santos,M., C. Donato, I. Lopes, and R. Ribeiro|Avoidance Tests with Small Fish:  Determination of the Median Avoidance Concentration and of the Lowest-Observed-Effect Gradient|Environ. Toxicol. Chem.27(7): 1576-1582|2008|10.1897/07-094.1
112571|T||Ray,S.K., and M.K. Poddar|Carbaryl-Induced Elevation of Corticosterone Level and Cholinergic Mechanism|Biosci. Rep.3:973-977|1983|10.1007/BF01140667
112572|A||Srivastava,R., and S.K. Pandey|Effect of Carbaryl on Chironomus Larvae (Chironomidae)|Indian J. Entomol.69(4): 400-403|2007|
112573|T||Botelho,R.V., and M.M.L. Muller|Evaluation of Garlic Extract on Bud Dormancy Release of 'Royal Gala' Apple Trees|Aust. J. Exp. Agric.47(6): 738-741|2007|10.1071/EA06135
112574|T||Hepper,P.G.|Adaptive Fetal Learning:  Prenatal Exposure to Garlic Affects Postnatal Preferences|Anim. Behav.36(3): 935-936|1988|10.1016/S0003-3472(88)80177-5
112575|T||E.I. Du Pont De Nemours|Initial Submission:  Effects of Various Chromium-Containing Materials on Rat Lung Epithelium (Study Conclusions only) with Cover Letter Dated 10/15/92|EPA/OTS Doc.#88-920010347:216 p.|1992|
112576|A||Pan,K., and W.X. Wang|The Subcellular Fate of Cadmium and Zinc in the Scallop Chlamys nobilis During Waterborne and Dietary Metal Exposure|Aquat. Toxicol.90(4): 253-260|2008|10.1016/j.aquatox.2008.09.010
112577|A||Huang,Z., L. Li, G. Huang, Q. Yan, B. Shi, and X. Xu|Growth-Inhibitory and Metal-Binding Proteins in Chlorella vulgaris Exposed to Cadmium or Zinc|Aquat. Toxicol.91(1): 54-61|2009|10.1016/j.aquatox.2008.10.003
112578|A||Holth,T.F., R. Nourizadeh-Lillabadi, M. Blaesbjerg, M. Grung, H. Holbech, G.I. Petersen, P. Alestrom, and K. Hylland|Differential Gene Expression and Biomarkers in Zebrafish (Danio rerio) Following Exposure to Produced Water Components|Aquat. Toxicol.90(4): 277-291|2008|10.1016/j.aquatox.2008.08.020
112579|A||Gould,G.G., B.W. Brooks, and A. Frazer|(3H) Citalopram Binding to Serotonin Transporter Sites in Minnow Brains|Basic Clin. Pharmacol. Toxicol.101(3): 203-210|2007|10.1111/j.1742-7843.2007.00100.x
112580|A||Franz,S., R. Altenburger, H. Heilmeier, and M. Schmitt-Jansen|What Contributes to the Sensitivity of Microalgae to Triclosan?|Aquat. Toxicol.90(2): 102-108|2008|10.1016/j.aquatox.2008.08.003
112581|T||Buschman,L.L., L. Wildman, P.E. Sloderbeck, and R. Currie|Western Corn Rootworm Larval Control, 1993|Arthropod Manag. Tests19:190-191|1994|
112582|A||Budischak,S.A., L.K. Belden, and W.A. Hopkins|Relative Toxicity of Malathion to Trematode-Infected and Noninfected Rana palustris Tadpoles|Arch. Environ. Contam. Toxicol.56(1): 123-128|2009|10.1007/s00244-008-9167-9
112583|A||Foekema,E.M., C.M. Deerenberg, and A.J. Murk|Prolonged ELS Test with the Marine Flatfish Sole (Solea solea) Shows Delayed Toxic Effects of Previous Exposure to PCB 126|Aquat. Toxicol.90(3): 197-203|2008|10.1016/j.aquatox.2008.08.015
112584|T||Augspurger,T.P., D.E. Tillitt, S.J. Bursian, S.D. Fitzgerald, D.E. Hinton, and R.T. Di Giulio|Embryo Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin to the Wood Duck (Aix sponsa)|Arch. Environ. Contam. Toxicol.55(4): 659-669|2008|10.1007/s00244-008-9198-2
112585|T||Aggarwal,M., S.B. Naraharisetti, S.N. Sarkar, G.S. Rao, G.H. Degen, and J.K. Malik|Effects of Subchronic Coexposure to Arsenic and Endosulfan on the Erythrocytes of Broiler Chickens:  A Biochemical Study|Arch. Environ. Contam. Toxicol.56(1): 139-148|2009|10.1007/s00244-008-9171-0
112586|A||Binelli,A., D. Cogni, M. Parolini, C. Riva, and A. Provini|In Vivo Experiments for the Evaluation of Genotoxic and Cytotoxic Effects of Triclosan in Zebra Mussel Hemocytes|Aquat. Toxicol.91(3): 238-244|2009|10.1016/j.aquatox.2008.11.008
112587|A||Bonnet,J.L., F. Bonnemoy, M. Dusser, and J. Bohatier|Toxicity Assessment of the Herbicides Sulcotrione and Mesotrione Toward Two Reference Environmental Microorganisms:  Tetrahymena pyriformis and Vibrio fischeri|Arch. Environ. Contam. Toxicol.55(4): 576-583|2008|10.1007/s00244-008-9145-2
112588|A||Brodeur,J.C., G. Svartz, C.S. Perez-Coll, D.J.G. Marino, and J. Herkovits|Comparative Susceptibility to Atrazine of Three Developmental Stages of Rhinella arenarum and Influence on Metamorphosis:  Non-Monotonous Acceleration of the Time to Climax and Delayed Tail Resorption|Aquat. Toxicol.91(2): 161-170|2009|10.1016/j.aquatox.2008.07.003
112589|A||Brunelli,E., I. Bernabo, C. Berg, K. Lundstedt-Enkel, A. Bonacci, and S. Tripepi|Environmentally Relevant Concentrations of Endosulfan Impair Development, Metamorphosis and Behaviour in Bufo bufo Tadpoles|Aquat. Toxicol.91(2): 135-142|2009|10.1016/j.aquatox.2008.09.006
112590|AT||Wahl,M., B. Lahni, R. Guenther, B. Kuch, L. Yang, U. Straehle, S. Strack, and C. Weiss|A Technical Mixture of 2,2',4,4'-Tetrabromo Diphenyl Ether (BDE47) and Brominated Furans Triggers Aryl Hydrocarbon Receptor (AhR) Mediated Gene Expression and Toxicity|Chemosphere73(2): 209-215|2008|10.1016/j.chemosphere.2008.05.025
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112592|T||Lumme,I., and A. Smolander|Effect of Nitrogen Deposition Level on Nitrogen Uptake and Bud Burst in Norway Spruce (Picea abies Karst.) Seedlings and N Uptake by Soil Microflora|For. Ecol. Manag.89(1-3): 197-204|1996|10.1016/S0378-1127(96)03859-5
112593|T||Omarov,R.T., M. Sagi, and S.H. Lips|Regulation of Aldehyde Oxidase and Nitrate Reductase in Roots of Barley (Hordeum vulgare L.) by Nitrogen Source and Salinity|J. Exp. Bot.49(322): 897-902|1998|10.1093/jxb/49.322.897
112594|T||Walch-Liu,P., G. Neumann, F. Bangerth, and C. Engels|Rapid Effects of Nitrogen Form on Leaf Morphogenesis in Tobacco|J. Exp. Bot.51(343): 227-237|2000|10.1093/jexbot/51.343.227
112595|A||Kumar,R.|Chronic Ammonia Induced Histopathological Changes in Indian Subtropical Freshwater Murrel Channa punctatus (Bloch)|Pollut. Res.19(4): 611-613|2000|
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112597|T||Kania-Korwel,I., W. Xie, K. Hornbuckle, L. Robertson, and H.J. Lehmler|Enantiomeric Enrichment of 2,2',3,3'.6,6'-Hexachlorobiphenyl (PCB 136) in Mice After Induction of CYP Enzymes|Arch. Environ. Contam. Toxicol.55(3): 510-517|2008|10.1007/s00244-007-9111-4
112598|A||Chen,J.C., K.J. Chen, and J.M. Liao|Joint Action of Ammonia and Nitrite on Artemia nauplii|Aquaculture77(4): 329-336|1989|10.1016/0044-8486(89)90217-2
112599|A||Gunawickrama,S.H., N. Aarsaether, A. Orbea, M.P. Cajaraville, and A. Goksoyr|PCB77 (3,3',4,4'-Tetrachlorobiphenyl) Co-Exposure Prolongs CYP1A Induction, and Sustains Oxidative Stress in B(a)P-Exposed Turbot, Scophthalmus maximus, in a Long-Term Study|Aquat. Toxicol.89(2): 65-74|2008|10.1016/j.aquatox.2008.05.015
112601|T||Carson,W.G., K.K. White, and J.T. Trumble|Chemical Trials and Effects on Arthropods in Celery, 1992|Arthropod Manag. Tests19:83-84|1994|10.1093/amt/19.1.83
112602|T||Schuster,D.J.|Insect Control on Bell Pepper in West-Central Florida, Spring 1994|Arthropod Manag. Tests20:103-105|1995|
112604|A||Van Genderen,E., R. Gensemer, C. Smith, R. Santore, and A. Ryan|Evaluation of the Biotic Ligand Model Relative to Other Site-Specific Criteria Derivation Methods for Copper in Surface Waters with Elevated|Aquat. Toxicol.84(2): 279-291|2007|10.1016/j.aquatox.2007.02.024
112605|A||Moreno-Garrido,I., O. Campana, L.M. Lubian, and J. Blasco|Calcium Alginate Immobilized Marine Microalgae:  Experiments on Growth and Short-Term Heavy Metal Accumulation|Mar. Pollut. Bull.51(8-12): 823-829|2005|10.1016/j.marpolbul.2005.06.008
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112607|A||Strom,D., P.J. Ralph, and J.L. Stauber|Development of a Toxicity Identification Evaluation Protocol Using Chlorophyll-a Fluorescence in a Marine Microalga|Arch. Environ. Contam. Toxicol.56(1): 30-38|2009|10.1007/s00244-008-9174-x
112608|T||Speese III,J.|Foliar Sprays to Control Worms in Sweet Corn, 1993|Arthropod Manag. Tests19:96-97|1994|10.1093/amt/19.1.96a
112609|T||Sewell,G.H., and E. Groden|Control of Aphids on Irish Potato, 1998|Arthropod Manag. Tests24:163-164|1999|
112610|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Potato Infesting Aphids, 1993|Arthropod Manag. Tests19:120-121|1994|10.1093/amt/19.1.120
112611|T||Payan,J.P., M. Lafontaine, P. Simon, F. Marquet, C. Champmartin-Gendre, D. Beydon, and E. Ferrari|In Vivo and In Vitro Percutaneous Absorption of (14C)Pyrene in Sprague Dawley Male Rats:  Skin Reservoir Effect and Consequence on Urinary 1-OH Pyrene Excretion|Arch. Toxicol.82(10): 739-747|2008|10.1007/s00204-008-0300-3
112612|A||Li,D., C. Lu, J. Wang, W. Hu, Z. Cao, D. Sun, H. Xia, and X. Ma|Developmental Mechanisms of Arsenite Toxicity in Zebrafish (Danio rerio) Embryos|Aquat. Toxicol.91(3): 229-237|2009|10.1016/j.aquatox.2008.11.007
112613|T||Hogmire,H.W., and T. Winfield|Insecticide Evaluation, 1998|Arthropod Manag. Tests24:12-14|1999|
112614|T||Collins,J.A., and F.A. Drummond|Maggot Control, 1998A|Arthropod Manag. Tests24:68-|1999|
112615|A||Appenroth,K.J., A. Luther, G. Jetschke, and H. Gabrys|Modification of Chromate Toxicity by Sulphate in Duckweeds (Lemnaceae)|Aquat. Toxicol.89(3): 167-171|2008|10.1016/j.aquatox.2008.06.012
112616|T||Forschler,B.T., and M.L. Townsend|Mortality of Eastern Subterranean Termites (Isoptera:  Rhinotermitidae) Exposed to Four Soils Treated with Termiticides|J. Econ. Entomol.89(3): 678-681|1996|10.1093/jee/89.3.678
112617|T||Abd-Elghafar,S.F., and C.O. Knowles|Pharmacokinetics of Fenvalerate in Laboratory and Field Strains of Helicoverpa zea (Lepidoptera:  Noctuidae)|J. Econ. Entomol.89(3): 590-593|1996|10.1093/jee/89.3.590
112618|T||Budia,F., and E. Vinuela|Effects of Cyromazine on Adult C. capitata (Diptera:  Tephritidae) on Mortality and Reproduction|J. Econ. Entomol.89(4): 826-831|1996|10.1093/jee/89.4.826
112619|T||Root,D.S., and W.C. Dauterman|Cyromazine Toxicity in Different Laboratory Strains of the Tobacco Hornworm (Lepidoptera:  Sphingidae)|J. Econ. Entomol.89(5): 1074-1079|1996|10.1093/jee/89.5.1074
112620|T||Pinkerton,T.S., J.A. Howard, and J.R. Wild|Genetically Engineered Resistance to Organophosphate Herbicides Provides a New Scoreable and Selectable Marker System for Transgenic Plants|Mol. Breed.21(1): 27-36|2008|10.1007/s11032-007-9106-x
112621|T||Burukoglu,D., and C. Baycu|Protective Effects of Zinc on Testes of Cadmium-Treated Rats|Bull. Environ. Contam. Toxicol.81(6): 521-524|2008|10.1007/s00128-007-9211-x
112622|T||Gosalvez,M., and J. Merchan|Induction of Rat Mammary Adenomas with the Respiratory Inhibitory Rotenone|Cancer Res.33:3047-3050|1973|
112623|T||Klein,C.D., D.R. Johnson, and H.B. Meyers|Thrips Control/Variety Test in Cotton with Payload, 1995|Arthropod Manag. Tests21:423-424|1996|10.1093/amt/21.1.423
112624|T||Oros,G., I. Ujvary, and R.J. Nachman|Antimicrobial Activity of o-Carboranylalanine|Amino Acids17(4): 357-368|1999|10.1007/BF01361661
112625|A||Nieves-Puigdoller,K.|Physiological Effects of Pesticides on Different Life Stages of Atlantic Salmon (Salmo salar)|Ph.D.Thesis, Univ.Massachusetts, Amherst:129 p.|2007|
112626|T||Drues,M.E.|Transcranial Doppler Sonography:  A New Noninvasive Method for Measuring Toxicant-Induced Alterations in Cerebral Blood Flow|Ph.D.Thesis, Iowa State University, Ames, IA:120 p.|1992|
112627|AT||Watanabe,I., B.P.R. Subudhi, and T. Aziz|Effect of Neem Cake on the Population and Nitrogen Fixing Activity of Blue-Green Algae in Flooded Soil|Curr. Sci. (Bangalore)50(21): 937-939|1981|
112628|T||Rock,G.C., and D.R. Yeargan|Relative Toxicity of Pesticides to Organophosphorus-Resistant Orchard Populations of Neoseiulus fallacis and Its Prey|J. Econ. Entomol.64(2): 350-352|1971|10.1093/jee/64.2.350
112629|T||Bhirud,K.M., and H.N. Pitre|Influence of Soil Class and Soil Moisture on Bioactivity of Carbofuran and Disulfoton in Corn in Greenhouse Tests:  Relation to Leafhopper Vector Control and Corn Stunt Disease Incidence|J. Econ. Entomol.65(2): 324-329|1972|10.1093/jee/65.2.324
112630|T||Bancroft,R.P., D.J. Pree, and D.P. Toews|Comparative Toxicities of Some Insecticides to the Apple Maggot|J. Econ. Entomol.67(4): 481-483|1974|10.1093/jee/67.4.481
112631|T||Amarail,N.K., F.S. Monmany, and L.A.F. Carvalho|Acaricide AC 84,633:  First Trials for Control of Boophilus microplus|J. Econ. Entomol.67(3): 387-389|1974|10.1093/jee/67.3.387
112632|T||Aziz,S.A.|Toxicity of Certain Insecticide Standards Against the Southern Armyworm|J. Econ. Entomol.66(1): 68-70|1973|10.1093/jee/66.1.68
112633|T||Batiste,W.C., and A. Berlowitz|Codling Moth and Pear Psylla:  Evaluation of Insecticides for Control on Pears in California|J. Econ. Entomol.66(5): 1139-1142|1973|10.1093/jee/66.5.1139
112634|A||Zhu,Y.H., and J.G. Jiang|Toxicity of Carbon Tetrachloride to Dunaliella salina, an Environmentally Tolerant Alga|J. Toxicol. Environ. Health Part A71(8): 474-477|2008|10.1080/15287390801907533
112635|T||Criel,P., K. Lock, H. Van Eeckhout, K. Oorts, E. Smolders, and C.R. Janssen|Influence of Soil Properties on Copper Toxicity for Two Soil Invertebrates|Environ. Toxicol. Chem.27(8): 1748-1755|2008|10.1897/07-545.1
112636|T||Huang,Y., Z.T. Xiong, L.P. Dai, and J.Q. Gao|Effect of Cu Stress on the Invertase Activity and Root Growth in Two Populations of Rumex dentatus L. with Different Cu Tolerance|Environ. Toxicol.23(4): 443-450|2008|10.1002/tox.20354
112637|A||Hashemi,S., P.S. Kunwar, R. Blust, and G. De Boeck|Differential Metallothionein Induction Patterns in Fed and Starved Carp (Cyprinus carpio) During Waterborne Copper Exposure|Environ. Toxicol. Chem.27(10): 2154-2158|2008|10.1897/07-502.1
112638|A||Hatano,A., and R. Shoji|Toxicity of Copper and Cadmium in Combinations to Duckweed Analyzed by the Biotic Ligand Model|Environ. Toxicol.23(3): 372-378|2008|10.1002/tox.20348
112639|A||Guerrero,R.D., L.A. Guerrero, and M.E. Alamar|Use of Ammonia as Fish Toxicant for Management of Freshwater Ponds|Trans. Natl. Acad. Sci. Technol.8:151-156|1986|
112640|T||Rowe,R.N., D.J. Farr, and B.A.J. Richards|Effects of Foliar and Root Applications of Methanol or Ethanol on the Growth of Tomato Plants (Lycopersicon esculentum Mill)|N. Z. J. Crop Hortic. Sci.22(3): 335-337|1994|10.1080/01140671.1994.9513842
112642|T||Chemical Manufacturers Association|Draft Data and Historical Data Study on 2-Mercaptobenzothiazole with Attachments and Cover Letter Dated 081189|EPA/OTS Doc.#88-890000059:99 p.|1989|
112643|T||Alali,F.Q., W. Kaakeh, G.W. Bennett, and J.L. McLaughlin|Annonaceous Acetogenins as Natural Pesticides:  Potent Toxicity Against Insecticide-Susceptible and -Resistant German Cockroaches (Dictyoptera:  Blattellidae)|J. Econ. Entomol.91(3): 641-649|1998|10.1093/jee/91.3.641
112644|T||Bhirud,K.M., and H.N. Pitre|Bioactivity of Systemic Insecticides in Corn:  Relation to Leafhopper Vector Control and Corn Stunt Disease Incidence|J. Econ. Entomol.65(4): 1134-1140|1972|10.1093/jee/65.4.1134
112645|T||Saunders,J.L.|Trunk Drenches and Injections for Elm Leaf Beetle Control|J. Econ. Entomol.64(5): 1287-1288|1971|10.1093/jee/64.5.1287
112646|T||Schuster,M.F., and J.C. Boling|Sidedress, Furrow, and Stem Application of Phosphate and Carbamate Insecticides for Control of Cotton Pests|J. Econ. Entomol.62(6): 1316-1320|1969|10.1093/jee/62.6.1316
112647|T||Hama,H.|Development of Pyrethroid Resistance in the Diamondback Moth, Plutella xylostella LINNE (Lepidoptera:  Yponomeutidae)|Appl. Entomol. Zool.22(2): 166-175|1987|10.1303/aez.22.166
112648|T||Brempong-Yeboah,C.Y., T. Saito, and T. Miyata|Topical and Injection Toxicities of Some Pyrethroids in the Housefly, Musca domestica L.|Eisei Dobutsu36(1): 31-38|1985|10.7601/mez.36.31
112649|T||Segawa,T., Y. Nomura, H. Nishio, and Y. Nakata|Pharmacological Activities of (RS)-alpha-Cyano-3-phenoxybenzyl (1R)-cis,trans-chrysanthemate (S-2703 forte)|Oyo Yakuri26(4): 613-625|1983|
112650|A||Greenstein,D.J., S. Alzadjali, and S.M. Bay|Toxicity of Ammonia to Pacific Purple Sea Urchin (Strongylocentrotus purpuratus) Embryos|In: Annual Report.Southern California Coastal Water Research Project:72-77|1996|
112651|A||Ariaratnam,V., and G.P. Georghiou|Carbamate Resistance in Anopheles albimanus.  Penetration and Metabolism of Carbaryl in Propoxur-Selected Larvae|Bull. W. H. O.52(1): 91-96|1975|
112653|T||Kobayashi,H., A. Yuyama, T. Ohkawa, and T. Kajita|Effect of Single or Chronic Injection with a Carbamate, Propoxur, on the Brain Cholinergic System and Behavior of Mice|Jpn. J. Pharmacol.47(1): 21-27|1988|10.1016/S0021-5198(19)43246-0
112654|T||Baxter,G.D., P. Green, M. Stuttgen, and S.C. Barker|Detecting Resistance to Organophosphates and Carbamates in the Cattle Tick Boophilus microplus, with a Propoxur-Based Biochemical Test|Exp. Appl. Acarol.23(11): 907-914|1999|10.1023/A:1006364816302
112656|T||Akiner,M.M., and S.S. Caglar|Musca domestica L D|J. Vector Ecol.31(1): 58-64|2006|10.3376/1081-1710(2006)31[58:TSASCO]2.0.CO;2
112657|T||Borkovec,A.B., J.A. Settepani, G.C. LaBrecque, and R.L. Fye|Boron Compounds as Chemosterilants for House Flies|J. Econ. Entomol.62:1472-1480|1969|10.1093/jee/62.6.1472
112658|AT||Bourguet,D., R. Capela, and M. Raymond|An Insensitive Acetylcholinesterase in Culex pipiens (Diptera:  Culicidae) from Portugal|J. Econ. Entomol.89(5): 1060-1066|1996|10.1093/jee/89.5.1060
112659|AT||Wilson,G.H., F. Grolig, and H. Kosegarten|Differential pH Restoration After Ammonia-Elicited Vacuolar Alkalisation in Rice and Maize Root Hairs as Measured by Fluorescence Ratio|Planta (Multiple Languages)206(1): 154-161|1998|10.1007/s004250050386
112660|T||Roosta,H.R., and J.K. Schjoerring|Effects of Ammonium Toxicity on Nitrogen Metabolism and Elemental Profile of Cucumber Plants|J. Plant Nutr.30(11): 1933-1951|2007|10.1080/01904160701629211
112661|T||Hindfelt,B., and B.K. Siesjo|The Effect of Ammonia on the Energy Metabolism of the Rat Brain|Life Sci.9(Part 2): 1021-1028|1970|10.1016/0024-3205(70)90010-X
112662|A||Chen,J.C., and T.S. Sheu|Effect of Ammonia at Different pH Levels on Larval Penaeus monodon|J. Fish. Soc. Taiwan17(1): 59-63|1990|
112663|T||Tian,H., L. Jiang, E. Liu, J. Zhang, F. Liu, and X. Peng|Dependence of Nitrate-Induced Oxalate Accumulation on Nitrate Reduction in Rice Leaves|Physiol. Plant. (Multiple Languages)133(2): 180-189|2008|10.1111/j.1399-3054.2008.01052.x
112664|T||Awasthi,M.D.|Residues of Pyrethroid Treatments, Alone or with Foliar Urea, on Tomato|Phytoparasitica14(3): 231-233|1986|10.1007/BF02980491
112665|T||Cary,L.R.|Some Behavioral and Enzymatic Parameters of Allethrin Poisoning of Adult Male Periplaneta americana|M.S.Thesis, University of Wisconsin, Madison, WI:96 p.|1980|
112666|A||Gorzerino,C., A. Quemeneur, A. Hillenweck, M. Baradat, G. Delous, M. Ollitrault, D. Azam, T. Caquet, and L. Lagadic|Effects of Diquat and Fomesafen Applied Alone and in Combination with a Nonylphenol Polyethoxylate Adjuvant on Lemna minor in Aquatic Indoor Microcosms|Ecotoxicol. Environ. Saf.72(3): 802-810|2009|10.1016/j.ecoenv.2008.08.001
112667|A||Meier,P.G., Hong.W.H., and R.A. Deininger|Application of Tracer Techniques to Continuous-Flow Toxicity Testing|Water Res.21(10): 1259-1264|1987|10.1016/0043-1354(87)90178-3
112668|T||Hitchcock,M., and J.N. Smith|Comparative Detoxication:  The Detoxication of Aromatic Acids by Invertebrates:  Detection of Agmatine Conjugates in Scorpions|Biochem. J. (Lond.)98(3): 736-741|1966|10.1042/bj0980736
112669|T||Tattersall,E.A.R., J. Grimplet, L. DeLuc, M.D. Wheatley, D. Vincent, C. Osborne, A. Ergul, E. Lomen, R.R. Blank, K.A. S|Transcript Abundance Profiles Reveal Larger and More Complex Responses of Grapevine to Chilling Compared to Osmotic and Salinity Stress|Funct. Integr. Geonom.7(4): 317-333|2007|10.1007/s10142-007-0051-x
112670|T||Stuart,D.M., and J.L. Haddock|Inhibition of Water Uptake in Sugar Beet Roots by Ammonia|Plant Physiol.43:345-350|1968|10.1104/pp.43.3.345
112671|T||M'Diaye,K., and M. Bounias|Sublethal Effects of the Formamidine Amitraz on Honeybees Gut Lipids, Following In Vivo Injections|Biomed. Environ. Sci.4(4): 376-383|1991|
112672|T||Gilbert,M.E., and C.M. Mack|Enhanced Susceptibility to Kindling by Chlordimeform may be Mediated by a Local Anesthetic Action|Psychopharmacology99(2): 163-167|1989|10.1007/BF00442802
112673|T||Vines,H.M., and R.T. Wedding|Some Effects of Ammonia on Plant Metabolism and a Possible Mechanism for Ammonia Toxicity|J. Plant Physiol.35:820-825|1960|10.1104/pp.35.6.820
112674|T||Van Iersel,M.W., and B. Bugbee|Phytotoxic Effects of Benzimidazole Fungicides on Bedding Plants|J. Am. Soc. Hortic. Sci.121(6): 1095-1102|1996|10.21273/JASHS.121.6.1095
112675|T||Tarnowski,T.L.B., A.T. Savelle, and H. Scherm|Activity of Fungicides Against Monilinia vaccinii-corymbosi in Blueberry Flowers Treated at Different Phenological Stages|Plant Dis.92(6): 961-965|2008|10.1094/PDIS-92-6-0961
112676|T||El-Sayed,G.N., and C.O. Knowles|Formamidine Synergism of Pyrethroid Toxicity to Twospotted Spider Mites (Acari:  Tetranychidae)|J. Econ. Entomol.77(1): 23-30|1984|10.1093/jee/77.1.23
112677|T||Pree,D.J., and E.A.C. Hagley|Toxicity of Pesticides to Chrysopa oculata Say (Neuroptera:  Chrysopidae)|J. Econ. Entomol.78(1): 129-132|1985|10.1093/jee/78.1.129
112678|T||Koziol,F.S., and P.J. Semtner|Extent of Resistance to Organophosphorus Insecticides in Field Populations of the Green Peach Aphid (Homoptera:  Aphididae) Infesting Flue-Cured Tobacco in Virginia|J. Econ. Entomol.77(1): 1-3|1984|10.1093/jee/77.1.1
112679|T||Stoltz,R.L., and R.L. Forster|Reduction of Pea Leaf Roll of Peas (Pisum sativum) with Systemic Insecticides to Control the Pea Aphid (Homoptera:  Aphididae) Vector|J. Econ. Entomol.77(6): 1537-1541|1984|10.1093/jee/77.6.1537
112680|T||Reissig,W.H., R.W. Weires, D.W. Onstad, B.H. Stanley, and D.M. Stanley|Timing and Effectiveness of Insecticide Treatments Against the San Jose Scale (Homoptera:  Diaspididae)|J. Econ. Entomol.78(1): 238-248|1985|10.1093/jee/78.1.238
112681|AT||Xiao,G., L. Yuan, and S.S.M. Sun|Strategy and Utilization of a Herbicide Resistance Gene in Two-Line Hybrid Rice|Mol. Breed.20(3): 287-292|2007|10.1007/s11032-007-9091-0
112683|A||Milanova,E., S. Ellis, and B. Sithole|Aquatic Toxicity and Solution Stability of Two Organic Corrosion Inhibitors:  2-Mercaptobenzothiazole and 1,2,3-Benzotriazole|Nord. Pulp Paper Res. J.16(3): 215-218|2001|10.3183/npprj-2001-16-03-p215-218
112684|T||Rani,P.U., and Z. Osmani|Studies on the Toxic, Repellent and Attractant Properties of Certain Insecticides Towards the Housefly, Musca domestica nebulo (L.)|Int. Pest Control26(3): 72-74, 76-77|1984|
112685|T||Elliott,M., N.F. Janes, B.P.S. Khambay, and D.A. Pulman|Insecticidal Activity of the Pyrethrins and Related Compounds.  Part XIII:  Comparison of the Effects of alpha-Substituents in Different Esters|Pestic. Sci.14(2): 182-190|1983|10.1002/ps.2780140213
112686|T||Elliott,M., A.W. Farnham, N.F. Janes, and B.P.S. Khambay|Insecticidal Activity of the Pyrethrins and Related Compounds.  Part XII.  Alpha-Substituted-3-Phenoxybenzyl Esters|Pestic. Sci.13(4): 407-414|1982|10.1002/ps.2780130411
112687|T||Rani,P.U., and Z. Osmani|Toxicity and Repellency of Certain Synthetic Pyrethroids Against Musca domestica (L), and Dysdercus cingulatus (F)|Pesticides 16(9): 7-9|1982|
112688|T||Lindsay,S.W., M.I. Hossain, S. Bennett, and C.F. Curtis|Preliminary Studies on the Insecticidal Activity and Wash-Fastness of Twelve Pyrethroid Treatments Impregnated into Bednetting Assayed Against Mosquitoes|Pestic. Sci.32(4): 397-411|1991|10.1002/ps.2780320402
112689|T||Stern,V.M., D.L. Flaherty, and W.L. Peacock|Control of the Western Grapeleaf Skeletonizer (Lepidoptera:  Zygaenidae), a New Grape Pest in the San Joaquin Valley, California|J. Econ. Entomol.76(1): 192-195|1983|10.1093/jee/76.1.192
112690|T||Van Steenwyk,R.A., E.R. Oatman, and J.A. Wyman|Density Treatment Level for Tomato Pinworm (Lepidoptera:  Gelechiidae) Based on Pheromone Trap Catches|J. Econ. Entomol.76(3): 440-445|1983|10.1093/jee/76.3.440
112691|T||Bashir,N.H.H., and L.A. Crowder|Mechanisms of Permethrin Tolerance in the Common Green Lacewing (Neuroptera:  Chrysopidae)|J. Econ. Entomol.76(3): 407-409|1983|10.1093/jee/76.3.407
112692|T||Friedel,T., and P.A. McDonell|Cyromazine Inhibits Reproduction and Larval Development of the Australian Sheep Blow Fly (Diptera:  Calliphoridae)|J. Econ. Entomol.78(4): 868-873|1985|10.1093/jee/78.4.868
112693|T||El-Oshar,M.A., N. Motoyama, P.B. Hughes, and W.C. Dauterman|Studies on Cyromazine in the House Fly, Musca domestica (Diptera:  Muscidae)|J. Econ. Entomol.78(6): 1203-1207|1985|10.1093/jee/78.6.1203
112694|T||Heyerdahl,R., and J.D. Dutcher|Management of the Pecan Serpentine Leafminer (Lepidoptera:  Nepticulidae)|J. Econ. Entomol.78(5): 1121-1124|1985|10.1093/jee/78.5.1121
112695|T||Sower,L.L., and M.D. Shorb|Pesticides Have Little Impact on Attraction of Three Species of Male Moths to Sex Pheromone|J. Econ. Entomol.78(4): 908-912|1985|10.1093/jee/78.4.908
112696|T||Burts,E.C.|SN 72129 and Avermectin BI- Two new Pesticides for Control of Pear Psylla - Psylla pyricola (Homoptera:  Psyllidae)|J. Econ. Entomol.78(6): 1327-1330|1985|10.1093/jee/78.6.1327
112697|T||Larew,H.G., J.J. Knodel-Montz, R.E. Webb, and J.D. Warthen|Liriomyza trifolii (Burgess) (Diptera:  Agromyzidae) Control on Chrysanthemum by Neem Seed Extract Applied to Soil|J. Econ. Entomol.78:80-84|1985|10.1093/jee/78.1.80
112698|T||Westigard,P.H., and L.J. Gut|Codling Moth (Lepidoptera:  Tortricidae) Control on Pears with Modified Programs Using Insect Growth Regulators|J. Econ. Entomol.79(1): 247-249|1986|10.1093/jee/79.1.247
112701|T||Puapairoj,P., L. Cui, K. Ogawa, K. Akagi, R. Hasegawa, and N. Ito|Effect of Ethanol on Paraquat Toxicity in F344 Rats|Food Chem. Toxicol.32(4): 379-386|1994|10.1016/0278-6915(94)90077-9
112702|T||Pecsenye,K., K. Bokor, L.P. Lefkovitch, B.E. Giles, and A. Saura|Enzymatic Responses of Drosophila melanogaster to Long- and Short-Term Exposures to Ethanol|Mol. Gen. Genet.255(3): 258-268|1997|10.1007/s004380050496
112703|T||Esensee,V., D.I. Leskovar, and A.K. Boales|Inefficacy of Methanol as a Growth Promoter in Selected Vegetable Crops|HortTechnology5(3): 253-256|1995|10.21273/HORTTECH.5.3.253
112704|T||Molina,P.E., K. Jabbour, P. Williams, and N.N. Abumrad|Effect of Acute Ethanol Intoxication on Glucoregulation During Prolonged Insulin-Induced Hypoglycemia|Am. J. Physiol.267(5, Pt. 2): R1280 - R1287|1994|
112705|T||Sato,F., K. Nakamura, M. Taguchi, H. Aoki, T. Aoki, and N. Yasuda|Studies on the Site of Ethanol Action in Inducing Prolactin Release in Male Rats|Metab. Clin. Exp.45(11): 1330-1334|1996|10.1016/S0026-0495(96)90111-0
112706|T||Seitz,H.K., A.J. Garro, and C.S. Lieber|Sex Dependent Effect of Chronic Ethanol Consumption in Rats on Hepatic Microsome Mediated Mutagenicity of Benzo(a)pyrene|Cancer Lett.13(2): 97-102|1981|10.1016/0304-3835(81)90134-8
112707|T||Daniel,M.A., and M.A. Evans|Quantitative Comparison of Maternal Ethanol and Maternal Tertiary Butanol Diet on Postnatal Development|J. Pharmacol. Exp. Ther.222(2): 294-300|1982|
112708|T||Mankes,R.F., I. Rosenblum, K.F. Benitz, R. LeFevre, and R. Abraham|Teratogenic and Reproductive Effects of Ethanol in Long-Evans Rats|J. Toxicol. Environ. Health10:267-276|1982|10.1080/15287398209530249
112709|T||Lox,C.D., and M.W. Heine|Interaction Between Ethanol and Contraceptive Steroids on Clotting Activity in the Rat|Contraception27(4): 401-407|1983|10.1016/S0010-7824(83)80019-5
112710|T||Gupta,V., and K.D. Gill|Structural and Functional Alterations in the Synaptic Plasma Membranes of Rats Exposed to Lead and Ethanol|J. Biochem. Mol. Biol. Biophys.5(2): 133-141|2001|
112711|T||Chen,L.H., C.Y. Huang, and Y. Osio|Large Doses of Ethanol and Activities of Liver Enzymes Which Detoxify Reactive Oxygen Species:  Effects of Antioxidants|Biochem. Arch.12(2): 95-104|1996|
112712|T||Brodie,C., S. Kentroti, and A. Vernadakis|Growth Factors Attenuate the Cholinotoxic Effects of Ethanol During Early Neuroembryogenesis in the Chick Embryo|Int. J. Dev. Neurosci.9(3): 203-213|1991|10.1016/0736-5748(91)90041-J
112713|A||Kamunde,C., R. MacPhail, D. Mahar, and B. Grimmelt|Evaluation of Antioxidant Circulatory Lipid-Soluble Vitamins and Sodium as Non-Invasive Indicators of Chronic Copper Exposure and Toxicity in Rainbow Trout, Oncorhynchus mykiss|Bull. Environ. Contam. Toxicol.80(6): 502-506|2008|10.1007/s00128-008-9440-7
112714|A||Oner,M., G. Atli, and M. Canli|Effects of Metal (Ag, Cd, Cr, Cu, Zn) Exposures on Some Enzymatic and Non-Enzymatic Indicators in the Liver of Oreochromis niloticus|Bull. Environ. Contam. Toxicol.82(3): 317-321|2009|10.1007/s00128-008-9577-4
112715|T||Van Bruggen,A.H.C., P.R. Brown, and A. Greathead|Distinction Between Infectious and Noninfectious Corky Root of Lettuce in Relation to Nitrogen Fertilizer|J. Am. Soc. Hortic. Sci.115(5): 762-770|1990|10.21273/JASHS.115.5.762
112716|T||Oka,Y., and S. Pivonia|Use of Ammonia-Releasing Compounds for Control of the Root-Knot Nematode Meloidogyne javanica|Nematology4(1): 65-71|2002|10.1163/156854102760082212
112717|A||Alcaraz,G., X. Chiappa-Carrara, V. Espinoza, and C. Vanegas|Acute Toxicity of Ammonia and Nitrite to White Shrimp Penaeus setiferus Postlarvae|J. World Aquac. Soc.30(1): 90-97|1999|10.1111/j.1749-7345.1999.tb00321.x
112718|A||Chen,J.C., and S.C. Lei|Toxicity of Ammonia and Nitrite to Penaeus monodon Juveniles|J. World Aquac. Soc.21(4): 300-306|1990|10.1111/j.1749-7345.1990.tb00543.x
112719|A||Chen,J.C., and S.Y. Cheng|Urea Excretion by Penaeus japonicus Bate Exposed to Different Concentrations of Ambient Ammonia|J. Exp. Mar. Biol. Ecol.173(1): 1-9|1993|10.1016/0022-0981(93)90204-2
112720|T||Hayes,S.N., and A.A. Bove|Ethanol Causes Epicardial Coronary Artery Vasoconstriction in the Intact Dog|Circulation (N.Y.)78(1): 165-170|1988|
112721|T||Lin,S.C., H. Saito, T. Yohro, and J. Shiga|Acute Hepatotoxicity Induced by Hepatotoxins in Suncus murinus|J. Toxicol. Environ. Health18(4): 575-587|1986|10.1080/15287398609530895
112722|T||Milne,C.M., R.L. Hasmall, A. Russell, S.C. Watson, Z. Vaughan, and M.C. Middleton|Reduced Estradiol Production by a Substituted Triazole Results in Delayed Ovulation in Rats|Toxicol. Appl. Pharmacol.90(3): 427-435|1987|10.1016/0041-008X(87)90135-9
112723|T||Mochizuki,S., and A. Yoshida|Effect of Strain Difference on Lipid Metabolism in Rats After an Acute Ethanol Administration|Agric. Biol. Chem.55(11): 2895-2896|1991|
112724|T||Norsten,C., T. Cronholm, G. Ekstrom, J.A. Handler, R.G. Thurman, and M. Ingelman-Sundberg|Dehydrogenase-Dependent Ethanol Metabolism in Deer Mice (Peromyscus maniculatus ) Lacking Cytosolic Alcohol Dehydrogenase.  Reversibility and Isotope Effects In Vivo and in Subcellular Fractions|J. Biol. Chem.264(10): 5593-5597|1989|10.1016/S0021-9258(18)83588-8
112725|T||Salter,M.G., J.A. Paine, K.V. Riddell, I. Jepson, A.J. Greenland, M.X. Caddick, and A.B. Tomsett|Characterisation of the Ethanol-Inducible ALC Gene Expression System for Transgenic Plants|Plant J.16(1): 127-132|1998|10.1046/j.1365-313x.1998.00281.x
112726|T||Mortensen,L.M.|Effects of Foliar Sprays of Methanol on Growth of Some Greenhouse Plants|Sci. Hortic.64(3): 187-191|1995|10.1016/0304-4238(95)00841-1
112727|T||Peebles,C.A.M., S.I. Gibson, J.V. Shanks, and K.Y. San|Characterization of an Ethanol-Inducible Promoter System in Catharanthus roseus Hairy Roots|Biotechnol. Prog.23(5): 1258-1260|2007|
112728|T||Zehnder,G.W., T.H. Briggs, and J.A. Pitts|Management of Whitefringed Beetle (Coleoptera:  Curculionidae) Grub Damage to Sweet Potato with Adulticide Treatments|J. Econ. Entomol.91(3): 708-714|1998|10.1093/jee/91.3.708
112729|T||Hill,T.A., and R.E. Foster|Influence of Selective Insecticides on Population Dynamics of European Red Mite (Acari:  Tetranychidae), Apple Rust Mite (Acari:  Eriophyidae), and Their Predator Amblyseius fallacis (Acari:  Phytoseiidae) in Apple|J. Econ. Entomol.91(1): 191-199|1998|10.1093/jee/91.1.191
112730|T||Rider,S.D.,Jr., S.M. Dobesh, and G.E. Wilde|Insecticide Resistance in a Novel Laboratory-Produced Greenbug (Homoptera: Aphididae) Clone|J. Econ. Entomol.91(1): 30-33|1998|10.1093/jee/91.1.30
112731|T||Derrick,M.E., and J.A. Durant|Rate Response of Cotton to Three Pyrethroids|J. Econ. Entomol.79(6): 1627-1631|1986|10.1093/jee/79.6.1627
112732|T||Iseki,A., and G.P. Georghiou|Toxicity of Cyromazine to Strains of the Housefly (Diptera:  Muscidae) Variously Resistant to Insecticides|J. Econ. Entomol.79(5): 1192-1195|1986|10.1093/jee/79.5.1192
112733|T||Witkowski,J.F., D.T. Barber, and D.R. Currier|Control of First-Generation European Corn Borer (Lepidoptera:  Pyralidae) Larvae in Nebraska by Applying Insecticides by Center-Pivot Irrigation Systems|J. Econ. Entomol.79(6): 1595-1598|1986|10.1093/jee/79.6.1595
112734|T||Faver,K.L., and T.J. Gerik|Foliar-Applied Methanol Effects on Cotton (Gossypium hirsutum L.) Gas Exchange and Growth|Field Crops Res.47(2-3): 227-234|1996|10.1016/0378-4290(96)00024-X
112735|A||Magnusson,M., K. Heimann, and A.P. Negri|Comparative Effects of Herbicides on Photosynthesis and Growth of Tropical Estuarine Microalgae|Mar. Pollut. Bull.56(9): 1545-1552|2008|10.1016/j.marpolbul.2008.05.023
112736|T||Ekiz,H., S.A. Bagci, and A.S. Kiral|Effects of Foliar Methanol Applications on Yield of Bread Wheat Cultivars Grown Under Field Conditions|Cereal Res. Commun.24(3): 369-375|1996|
112737|T||Gordon,E.F., and M.B. Zemel|Effects of Prenatal Ethanol Exposure on Iron Utilization in the Rat|Nutr. Res.4(3): 469-475|1984|10.1016/S0271-5317(84)80106-2
112738|T||Haenlein,M., W.F. Caul, R.J. Barrett, and R.C. Michaelis|Discrimination of Serotonergic Drugs is Unaltered in Rats Prenatally Exposed to Ethanol|Neurobehav. Toxicol. Teratol.5(4): 475-478|1983|
112739|T||Kennedy,L.A., S. Mukerji, and B. Bhaumick|Mouse Placental Receptor for Basic Somatomedin Following Maternal Ethanol Administration|Dev. Pharmacol. Ther.11(4): 237-242|1988|10.1159/000457694
112740|T||Perez,V.J., G.E.,Jr. Gonzalez, and C.J. Smith|Exposure to Ethanol During Pregnancy in Mice:  Potential Importance of Dose for the Development of Tolerance in Offspring|Physiol. Behav.30(3): 485-488|1983|10.1016/0031-9384(83)90156-7
112741|T||Stratton,R., K.J. Dormer, and A.R. Zeiner|The Cardiovascular Effects of Ethanol and Acetaldehyde in Exercising Dogs|Alcohol. Clin. Exp. Res.5(1): 56-63|1981|10.1111/j.1530-0277.1981.tb04865.x
112742|T||Krsiak,M.|Effect of Ethanol on Aggression and Timidity in Mice|Psychopharmacology51:75-80|1976|10.1007/BF00426325
112743|T||Hata,M., Y. Yamazaki, T. Ueda, T. Kato, Y. Kohli, and N. Fujiki|Influence of Ammonia Solution on Gastric Mucosa and Acetic Acid Induced Ulcer in Rats|Eur. J. Histochem.38(1): 41-52|1994|
112744|T||Dueck,T.A.|Effect of Ammonia and Sulphur Dioxide on the Survival and Growth of Calluna vulgaris (L.) Hull Seedlings|Funct. Ecol.4(1): 109-116|1990|10.2307/2389660
112745|T||Clement,J.M.A.M., P.R. Van Hasselt, L.J.M. Van der Eerden, and T.A. Dueck|Short-Term Exposure to Atmospheric Ammonia does Not Affect Frost Hardening of Needles from Three- and Five-Year-Old Scots Pine Trees|J. Plant Physiol.154(5-6): 775-780|1999|10.1016/S0176-1617(99)80257-0
112746|T||Bitterlich,I., M.K. Upadhyaya, and S.I. Shibairo|Weed Control in Cole Crops and Onion (Allium cepa) Using Ammonium Nitrate|Weed Sci.44(4): 952-958|1996|10.1017/S0043174500094984
112747|T||Rock,G.C., and A.D. Shaltout|Toxicities of Three Synthetic Pyrethroids and Selected Orchard Insecticides to the Tufted Apple Budmoth, Platynota ideausalis (Lepidoptera:  Tortricidae)|J. Econ. Entomol.76(6): 1384-1389|1983|10.1093/jee/76.6.1384
112748|T||Shelton,A.M., and D.M. Soderlund|Varying Susceptibility to Methomyl and Permethrin in Widely Separated Cabbage Looper (Lepidoptera: Noctuidae) Populations Within Eastern North America|J. Econ. Entomol.76(5): 987-989|1983|10.1093/jee/76.5.987
112749|T||Tipping,P.W., and P.P. Burbutis|Some Effects of Pesticide Residues on Trichogramma nubilale (Hymenoptera:  Trichogrammatidae)|J. Econ. Entomol.76(4): 892-896|1983|10.1093/jee/76.4.892
112750|T||Yu,S.J.|Age Variation in Insecticide Susceptibility and Detoxification Capacity of Fall Armyworm (Lepidoptera:  Noctuidae) Larvae|J. Econ. Entomol.76(2): 219-222|1983|10.1093/jee/76.2.219
112751|T||Williams,D.F., and C.S. Lofgren|Imported Fire Ant (Hymenoptera:  Formicidae) Control: Evaluation of Several Chemicals for Individual Mound Treatments|J. Econ. Entomol.76(6): 1201-1205|1983|10.1093/jee/76.6.1201
112752|T||Koch,H.G., H.E. Burkwhat, and M.D. Tuck|Field Method for Evaluating the Effectiveness of Acaricides Against Lone Star Ticks (Acari:  Ixodidae) on Domestic Dogs|J. Econ. Entomol.78(1): 287-289|1985|10.1093/jee/78.1.287
112753|T||Robb,K.L., and M.P. Parrella|Antifeeding and Oviposition-Deterring Effects of Insecticides on Adult Liriomyza trifolii (Diptera:  Agromyzidae)|J. Econ. Entomol.78(3): 709-713|1985|10.1093/jee/78.3.709
112754|T||Schmidt,C.D., S.E. Kunz, H.D. Petersen, and J.L. Robertson|Resistance of Horn Flies (Diptera:  Muscidae) to Permethrin and Fenvalerate|J. Econ. Entomol.78(2): 402-406|1985|10.1093/jee/78.2.402
112755|T||Hull,L.A., E.H. Beers, and R.L.,Jr. Meagher|Integration of Biological and Chemical Control Tactics for Apple Pests Through Selective Timing and Choice of Synthetic Pyrethroid Insecticides|J. Econ. Entomol.78(3): 714-721|1985|10.1093/jee/78.3.714
112757|T||Grafton-Cardwell,E.E., and M.A. Hoy|Short-Term Effects of Permethrin and Fenvalerate on Oviposition by Chrysoperla carnea (Neuroptera: Chrysopidae)|J. Econ. Entomol.78(4): 955-959|1985|10.1093/jee/78.4.955
112758|T||Buschman,L.L., F.R. Lamm, P.E. Sloderbeck, and G.L. Dick|Chemigation in Corn:  Effects of mulsifiable Oils and Sprinkler Package on the Efficacy of Corn Borer (Lepidoptera:  Pyralidae) Insecticides|J. Econ. Entomol.78(6): 1331-1336|1985|10.1093/jee/78.6.1331
112759|T||Nielsen,D.G., and J.F. Boggs|Topical Toxicity of Insecticides to First-Instar Black Vine Weevil (Coleoptera:  Curculionidae).|J. Econ. Entomol.78(5): 1114-1117|1985|10.1093/jee/78.5.1114
112760|T||Silcox,C.A., G.M. Ghidiu, and A.J. Forgash|Laboratory and Field Evaluation of Piperonyl Butoxide as a Pyrethroid Synergist Against the Colorado Potato Beetle (Coleoptera: Chrysomelidae)|J. Econ. Entomol.78(6): 1399-1405|1985|10.1093/jee/78.6.1399
112761|T||Rezk,H.A., and G.G. Gadelhak|Acaricidal Activity of Two Plant Essential Oils on the Adult Stage of the House Dust Mite, Dermatophagoides pteronyssinus trouessart (Acari:  Pyroglyphidae)|Phytophaga14:667-673|2004|
112762|T||Tsujii,M., S. Kawano, S. Tsuji, T. Ito, K. Nagano, Y. Sasaki, N. Hayashi, H. Fusamoto, and T. Kamada|Cell Kinetics of Mucosal Atrophy in Rat Stomach Induced by Long-Term Administration of Ammonia|Gastroenterology104(3): 796-801|1993|10.1016/0016-5085(93)91015-A
112763|T||Nemec,S., D. Myhre, and H. Burnett|Stress Responses in Citrus Induced with Soil Applications of Urea Ammonium Nitrate and Ammonium Hydroxide|Proc. Soil Crop Sci. Soc. Fla.48:111-117|1989|
112764|T||Niazi,A.H.K., T. Kausar, A.M. Salariya, and A.S. Hashmi|Effect of Ammonia and Urea Treatment on the In Vivo Digestibility of Mustard Seed Hulls|Pak. J. Sci. Ind. Res.37(1-2): 43-46|1994|
112765|T||Rouach,H., P. Houze, M. Gentil, M.T. Orfanelli, and R. Nordmann|Effects of Acute Ethanol Administration on the Uptake of 59Fe-Labeled Transferrin by Rat Liver and Cerebellum|Biochem. Pharmacol.47(10): 1835-1841|1994|10.1016/0006-2952(94)90313-1
112766|T||Swathy,S.S., S. Panicker, and M. Indira|Effect of Exogenous Selenium on the Testicular Toxicity Induced by Ethanol in Rats|Indian J. Physiol. Pharmacol.50(3): 215-224|2006|
112767|T||Phillis,J.W., M.H. O'Regan, and L.M. Perkins|Actions of Ethanol and Acetate on Rat Cortical Neurons:  Ethanol/Adenosine Interactions|Alcohol9(6): 541-546|1992|10.1016/0741-8329(92)90094-Q
112768|T||Fujii,H., T. Ohmachi, I. Sagami, and M. Watanabe|Liver Microsomal Drug Metabolism in Ethanol-Treated Hamsters|Biochem. Pharmacol.34(21): 3881-3884|1985|10.1016/0006-2952(85)90438-1
112769|T||Van Iersel,M.W., J.J. Heitholt, R. Wells, and D.M. Oosterhuis|Foliar Methanol Applications to Cotton in the Southeastern United States:  Leaf Physiology, Growth, and Yield Components|Agron. J.87(6): 1157-1160|1995|10.2134/agronj1995.00021962008700060020x
112770|T||Rajala,A., J. Karkkainen, J. Peltonen, and P. Peltonen-Sainio|Foliar Applications of Alcohols Failed to Enhance Growth and Yield of C3 Crops|Ind. Crops Prod.7(2/3): 129-137|1998|10.1016/S0926-6690(97)00041-1
112771|A||Rico,E.P., D.B. Rosemberg, M.R. Senger, M.B. Arizi, R.D. Dias, A.A. Souto, M.R. Bogo, and C.D. Bonan|Ethanol and Acetaldehyde Alter NTPDase and 5'-Nucleotidase from Zebrafish Brain Membranes|Neurochem. Int.52(1-2): 290-296|2008|10.1016/j.neuint.2007.06.034
112772|T||Dees,W.L., C.W. Skelley, J.K. Hiney, and C.A. Johnston|Actions of Ethanol on Hypothalamic and Pituitary Hormones in Prepubertal Female Rats|Alcohol7(1): 21-25|1990|10.1016/0741-8329(90)90055-H
112773|T||Kennedy,G.L.,Jr.|Chronic Toxicity, Reproductive, and Teratogenic Studies with Oxamyl|Fundam. Appl. Toxicol.7(1): 106-118|1986|10.1016/0272-0590(86)90203-4
112775|T||Marco,C., F. Ceacero, E. Garcia-Peregrin, and J.L. Segovia|The Fatty Acid Composition of Mitochondria, Microsomes and Myelin from Neonatal Chick Brain:  Susceptibility to Short and Chronic Treatment with Ethanol|Neuropharmacology25(9): 1051-1054|1986|10.1016/0028-3908(86)90201-7
112776|T||Tavares,D.C., A.O. Cecchi, A.A.,Jr. Jordao, H. Vannucchi, and C.S. Takahashi|Cytogenetic Study of Chronic Ethanol Consumption in Rats|Teratog. Carcinog. Mutagen.21(5): 361-368|2001|10.1002/tcm.1024
112777|T||Cooper,D., and W. Cranshaw|Pine Needle Scale Control on Austrian Pine, 1994|Arthropod Manag. Tests20:315-|1995|10.1093/amt/20.1.315
112781|A||Odjegba,V.J., and I.O. Fasidi|Phytoremediation of Heavy Metals by Eichhornia crassipes|Environmentalist27(3): 349-355|2007|10.1007/s10669-007-9047-2
112782|A||Adema-Hannes,R., and J. Shenker|Acute Lethal and Teratogenic Effects of Tributyltin Chloride and Copper Chloride on Mahi Mahi (Coryphaena hippurus) Eggs and Larvae|Environ. Toxicol. Chem.27(10): 2131-2135|2008|10.1897/07-369.1
112783|T||Lyon,R.L., S.J. Brown, and J.L. Robertson|Contact Toxicity of Sixteen Insecticides Applied to Forest Tent Caterpillars Reared on Artificial Diet|J. Econ. Entomol.65(3): 928-930|1972|10.1093/jee/65.3.928
112784|T||McCalley,N.F., and D.I. Wang|Field Evaluation of Insecticides for Control of the Green Peach Aphid and Alfalfa Looper on Head Lettuce|J. Econ. Entomol.65(3): 794-796|1972|10.1093/jee/65.3.794
112785|T||Mistric,W.J.Jr., and F.D. Smith|Carbofuran and Other Systemic Insecticides for Control of Insects on Flue-Cured Tobacco|J. Econ. Entomol.66(2): 480-484|1973|10.1093/jee/66.2.480
112786|A||Dimayuga,J.B., P.P. Ocampo, and B.M. Lontoc|Insecticide-Induced Accumulation of Melanomacrophage Centers (MMCs) in Nile tilapia (Oreochromis niloticus Linn.)|Philipp. Entomol.22(1): 71-85|2008|
112787|A||Albarino,R., A. Venturino, C.M. Montagna, and A.M. Pechen de D'Angelo|Environmental Effect Assessment of Magnacide H Herbicide at Rio Colorado Irrigation Channels (Argentina).  Tier 4:  In Situ Survey on Benthic Invertebrates|Environ. Toxicol. Chem.26(1): 183-189|2007|10.1897/06-086R.1
112788|A||Venturino,A., C.M. Montagna, and A.M. Pechen de D'Angelo|Risk Assessment of Magnacide H Herbicide at Rio Colorado Irrigation Channels (Argentina).  Tier 3:  Studies on Native Species|Environ. Toxicol. Chem.26(1): 177-182|2007|10.1897/06-085R.1
112789|A||Yarbrough,J.W., and T.W. Schultz|Abiotic Sulfhydryl Reactivity:  A Predictor of Aquatic Toxicity for Carbonyl-Containing Alpha, beta -Unsaturated Compounds|Chem. Res. Toxicol.20(3): 558-562|2007|10.1021/tx600344a
112790|A||Huang,Y., L. Zhu, and G. Liu|The Effects of bis(Tributyltin) Oxide on the Development, Reproduction and Sex Ratio of Calanoid Copepod Pseudodiaptomus marinus|Estuar. Coast. Shelf Sci.69(1-2): 147-152|2006|10.1016/j.ecss.2006.04.010
112793|A||Sumanadasa,D.M., M.R. Wijesinghe, and W.D. Ratnasooriya|Effects of Diazinon on Larvae of the Asian Common Toad (Bufo melanostictus, Schneider 1799)|Environ. Toxicol. Chem.27(11): 2320-2325|2008|10.1897/07-315.1
112794|A||Adhikari,S., L. Ghosh, and S. Ayyappan|Effect of Calcium Hardness on Toxicity and Accumulation of Water-Borne Lead, Cadmium and Chromium to Labeo rohita (Hamilton)|Asian J. Water Environ. Pollut.4(2): 103-106|2007|
112795|A||Su,H.M., Y.M. Chiang, and I.C. Liao|Role of Temperature, Salinity and Ammonia on the Occurrence of the Taiwanese Strain of Alexandrium tamarense|In: T.J.Smayda and Y.Shimizu (Eds.), Toxic Phytoplankton Blooms in the Sea, Elsevier Sci.Publ., B.V.Amsterdam:837-842|1993|
112796|A||Tudor,M., I. Katavic, and J. Marsic-Lucic|Acute Toxicity of Ammonia to Juvenile Sea Bass (Dicentrarchus labrax L.) at Different Aeration Levels|Aquaculture128(1-2): 89-95|1994|10.1016/0044-8486(94)90104-X
112798|T||Haakana,K., L. Sarkka, and S. Somersalo|Gaseous Ethanol Penetration of Plant Tissues Positively Effects the Growth and Commercial Quality of Miniature Roses and Dill|Sci. Hortic.88(1): 71-84|2001|10.1016/S0304-4238(00)00188-6
112799|T||Yuen,C.M.C., J.E. Paton, R. Hanawati, and L.Q. Shen|Effects of Ethanol, Acetaldehyde and Ethyl Formate Vapour on the Growth of Penicillium italicum and P.digitatum on Oranges|J. Hortic. Sci.70(1): 81-84|1995|10.1080/14620316.1995.11515276
112800|A||Alcaraz,G., V. Espinoza, C. Vanegas, and X.C. Carrara|Acute Effect of Ammonia and Nitrite on Respiration of Penaeus setiferus Postlarvae Under Different Oxygen Levels|J. World Aquac. Soc.30(1): 98-106|1999|10.1111/j.1749-7345.1999.tb00322.x
112801|A||Stolen,J.S., S. Draxler, and J.J. Nagle|Alcohol-Induced Suppression of the Humoral Immune Response|Bull. Environ. Contam. Toxicol.34(1): 106-108|1985|10.1007/BF01609709
112802|A||Norwood,W.P., U. Borgmann, and D.G. Dixon|Saturation Models of Arsenic, Cobalt, Chromium and Manganese Bioaccumulation by Hyalella azteca|Environ. Pollut.143:519-528|2006|10.1016/j.envpol.2005.11.041
112803|T||Kronzucker,H.J., M.W. Szczerba, L.M. Schulze, and D.T. Britto|Non-Reciprocal Interactions Between K+ and Na+ Ions in Barley (Hordeum vulgare L.)|J. Exp. Bot.59(10): 2793-2801|2008|10.1093/jxb/ern139
112804|T||Devendra,R., V. Umamahesh, T.V. Ramachandra Prasad, T.G. Prasad, S.T. Asha, and Ashok |Influence of Surfactants on Efficacy of Different Herbicides in Control of Cyperus rotundus and Oxalis latifolia|Curr. Sci. (Bangalore)86(8): 1148-1151|2004|
112805|T||Islam,E., X. Yang, T. Li, D. Liu, X. Jin, and F. Meng|Effect of Pb Toxicity on Root Morphology, Physiology and Ultrastructure in the Two Ecotypes of Elsholtzia argyi|J. Hazard. Mater.147(3): 806-816|2007|10.1016/j.jhazmat.2007.01.117
112806|T||Islam,E., D. Liu, T. Li, X. Yang, X. Jin, Q. Mahmood, S. Tian, and J. Li|Effect of Pb Toxicity on Leaf Growth, Physiology and Ultrastructure in the Two Ecotypes of Elsholtzia argyi|J. Hazard. Mater.154(1-3): 914-926|2008|10.1016/j.jhazmat.2007.10.121
112807|A||Wiklund,A.K.E., T. Borjesson, and S.J. Wiklund|Avoidance Response of Sediment Living Amphipods to Zinc Pyrithione as a Measure of Sediment Toxicity|Mar. Pollut. Bull.52(1): 96-99|2006|10.1016/j.marpolbul.2005.08.023
112808|T||Glinska,S., M. Bartczak, S. Oleksiak, A. Wolska, B. Gabara, M. Posmyk, and K. Janas|Effects of Anthocyanin-Rich Extract from Red Cabbage Leaves on Meristematic Cells of Allium cepa L. Roots Treated with Heavy Metals|Ecotoxicol. Environ. Saf.68(3): 343-350|2007|10.1016/j.ecoenv.2007.02.004
112810|T||Cooke,G.M., D.S. Forsyth, G.S. Bondy, R. Tachon, B. Tague, and L. Coady|Organotin Speciation and Tissue Distribution in Rat Dams, Fetuses, and Neonates Following Oral Administration of Tributyltin Chloride|J. Toxicol. Environ. Health Part A71(6): 384-395|2008|10.1080/15287390701801653
112811|A||Croteau,M.C., C.J. Martyniuk, V.L. Trudeau, and D.R.S. Lean|Chronic Exposure of Rana pipiens Tadpoles to UVB Radiation and the Estrogenic Chemical 4-tert-Octylphenol|J. Toxicol. Environ. Health Part A71(2): 134-144|2008|10.1080/15287390701613330
112812|A||Erk,M., B.T.A. Muyssen, A. Ghekiere, and C.R. Janssen|Metallothionein and Cellular Energy Allocation in the Estuarine Mysid Shrimp Neomysis integer Exposed to Cadmium at Different Salinities|J. Exp. Mar. Biol. Ecol.357(2): 172-180|2008|10.1016/j.jembe.2008.01.015
112813|A||Ezemonye,L.I.N., D. Ogeleka, and F.E. Okieimen|Lethal Toxicity of Industrial Chemicals to Early Life Stages of Tilapia guineensis|J. Hazard. Mater.157(1): 64-68|2008|10.1016/j.jhazmat.2007.12.081
112814|A||Frederiksen,M.S., M. Holmer, M. Perez, O. Invers, J.M. Ruiz, and B.B. Knudsen|Effect of Increased Sediment Sulfide Concentrations on the Composition of Stable Sulfur Isotopes (delta34S) and Sulfur Accumulation in the Seagrasses Zostera marina and Posidonia oceanica|J. Exp. Mar. Biol. Ecol.358(1): 98-109|2008|10.1016/j.jembe.2008.01.021
112815|A||Gerundo,N., D.J. Alderman, R.S. Clifton-Hadley, and S.W. Feist|Pathological Effects of Repeated Doses of Malachite Green: a Preliminary Study|J. Fish Dis.14(5): 521-532|1991|10.1111/j.1365-2761.1991.tb00607.x
112816|A||Gregorovic,G., N. Kralj-Klobucar, and N. Kopjar|A Histological and Morphometric Study on the Tissue and Cellular Distribution of Iron in Carp Cyprinus carpio L. During Chronic Waterborne Exposure|J. Fish Biol.72(7): 1841-1846|2008|
112817|T||Fusco,N., L. Micheletto, G. Dal Corso, L. Borgato, and A. Furini|Identification of Cadmium-Regulated Genes by cDNA-AFLP in the Heavy Metal Accumulator Brassica juncea L.|J. Exp. Bot.56(421): 3017-3027|2005|10.1093/jxb/eri299
112818|T||Santos,F.W., G. Zeni, J.B.T. Rocha, S.N. Weis, J.M. Fachinetto, A.M. Favero, and C.W. Nogueira|Diphenyl Diselenide Reverses Cadmium-induced Oxidative Damage on Mice Tissues|Chem.-Biol. Interact.151(3): 159-165|2005|10.1016/j.cbi.2005.01.001
112819|T||Tikku,K., S.C. Taneja, S. Koul, K.L. Dhar, and B.P. Saxena|Comparative Effects of Five New Synthetic Juvenile Hormone Analogues Against the Red Cotton Bug Dysdercus koenigii F.|Curr. Sci. (Bangalore)76(1): 89-90|1999|
112820|A||Wang,J., X. Zhang, Y. Chen, M. Sommerfeld, and Q. Hu|Toxicity Assessment of Manufactured Nanomaterials Using the Unicellular Green Alga Chlamydomonas reinhardtii|Chemosphere73(7): 1121-1128|2008|10.1016/j.chemosphere.2008.07.040
112821|T||Wu,N., S. Zhang, H. Huang, X. Shan, P. Christie, and Y. Wang|DDT Uptake by Arbuscular mycorrhizal Alfalfa and Depletion in Soil as Influenced by Soil Application of a Non-ionic Surfactant|Environ. Pollut.151(3): 569-575|2008|10.1016/j.envpol.2007.04.005
112822|A||Wu,S.M., Y.D. Zheng, and C.H. Kuo|Expression of MT2 and SMT-B upon Cadmium Exposure and Cold Shock in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(2): 184-193|2008|10.1016/j.cbpc.2008.05.007
112823|A||Xu,C., M. Zhao, W. Liu, S. Chen, and J. Gan|Enantioselectivity in Zebrafish Embryo Toxicity of the Insecticide Acetofenate|Chem. Res. Toxicol.21(5): 1050-1055|2008|10.1021/tx8000016
112824|A||Zhang,J., Z. Zuo, R. Chen, Y. Chen, and C. Wang|Tributyltin Exposure Causes Brain Damage in Sebastiscus marmoratus|Chemosphere73(3): 337-343|2008|10.1016/j.chemosphere.2008.05.072
112826|A||Zhou,S., K. Lin, H. Yang, L. Li, W. Liu, and J. Li|Stereoisomeric Separation and Toxicity of a New Organophosphorus Insecticide Chloramidophos|Chem. Res. Toxicol.20(3): 400-405|2007|10.1021/tx600281n
112827|A||Woodburn,K.B., T.A. Marino, E.L. McClymont, and D.L. Rick|Determination of the Dietary Absorption Efficiency of Hexachlorobenzene with the Channel Catfish (Ictalurus punctatus)|Ecotoxicol. Environ. Saf.71(2): 419-425|2008|10.1016/j.ecoenv.2007.12.003
112828|A||Yang,L., L. Lin, S. Weng, Z. Feng, and T. Luan|Sexually Disrupting Effects of Nonylphenol and Diethylstilbestrol on Male Silver Carp (Carassius auratus) in Aquatic Microcosms|Ecotoxicol. Environ. Saf.71(2): 400-411|2008|10.1016/j.ecoenv.2008.01.007
112829|T||Zhu,Z.W., R.L. Yang, G.J. Dong, and Z.Y. Zhao|Study on the Neurotoxic Effects of Low-Level Lead Exposure in Rats|J. Zhejiang Univ. Sci., B6B(7): 686-692|2005|10.1631/jzus.2005.B0686
112830|T||Thirunavukkarasu,C., K. Premkumar, R. Jagadeeswaran, and D. Sakthisekaran|The Inhibitory Effect of Sodium Selenite on N-Nitrosodiethylamine-Induced and Phenobarbital Promoted Liver Tumourigenesis in Rats Based on the Modulation of Polyamine Levels|Mol. Cell. Biochem.280(1/2): 165-172|2005|10.1007/s11010-005-8907-7
112831|A||Tedesco,S., H. Doyle, G. Redmond, and D. Sheehan|Gold Nanoparticles and Oxidative Stress in Mytilus edulis|Mar. Environ. Res.66(1): 131-133|2008|10.1016/j.marenvres.2008.02.044
112832|A||Scarlett,A., S.J. Rowland, M. Canty, E.L. Smith, and T.S. Galloway|Method for Assessing the Chronic Toxicity of Marine and Estuarine Sediment-Associated Contaminants Using the Amphipod Corophium volutator|Mar. Environ. Res.63(5): 457-470|2007|10.1016/j.marenvres.2006.12.006
112833|T||Holmstrup,M., A. Aubail, and C. Damgaard|Exposure to Mercury Reduces Cold Tolerance in the Springtail Folsomia candida|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(2): 172-177|2008|10.1016/j.cbpc.2008.05.003
112835|T||Kahkonen,M.A., P. Lankinen, and A. Hatakka|Hydrolytic and Ligninolytic Enzyme Activities in the Pb Contaminated Soil Inoculated with Litter-Decomposing Fungi|Chemosphere72(5): 708-714|2008|10.1016/j.chemosphere.2008.04.008
112836|A||Kuiper,R.V., A.D. Vethaak, R.F. Canton, H. Anselmo, M. Dubbeldam, E.J. Van den Brandhof, P.E.G. Leonards, P.W. Wester, |Toxicity of Analytically Cleaned Pentabromodiphenylether After Prolonged Exposure in Estuarine European Flounder (Platichthys flesus), and Partial Life-Cycle Exposure in Fresh Water Zebrafish (Danio rerio)|Chemosphere73(2): 195-202|2008|10.1016/j.chemosphere.2008.04.079
112837|T||Liu,W., Y.S. Yang, D. Francis, H.J. Rogers, P. Li, and Q. Zhang|Cadmium Stress Alters Gene Expression of DNA Mismatch Repair Related Genes in Arabidopsis Seedlings|Chemosphere73(7): 1138-1144|2008|10.1016/j.chemosphere.2008.07.020
112838|A||Martin,K., T. Huggins, C. King, M.A. Carroll, and E.J. Catapane|The Neurotoxic Effects of Manganese on the Dopaminergic Innervation of the Gill of the Bivalve Mollusc, Crassostrea virginica|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(2): 152-159|2008|10.1016/j.cbpc.2008.05.004
112839|A||Monari,M., J. Foschi, P. Cortesi, R. Rosmini, O. Cattani, and G.P. Serrazanetti|Chloramphenicol Influence on Antioxidant Enzymes with Preliminary Approach on Microsomal CYP1A Immunopositive-Protein in Chamelea gallina|Chemosphere73(3): 272-280|2008|10.1016/j.chemosphere.2008.06.033
112840|A||Monserrat,J.M., J.V. Lima, J.L.R. Ferreira, D. Acosta, M.L. Garcia, P.B. Ramos, T.B. Moraes, L.C. Dos Santos, and L.L. |Modulation of Antioxidant and Detoxification Responses Mediated by Lipoic Acid in the Fish Corydoras paleatus (Callychthyidae)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(3): 287-292|2008|10.1016/j.cbpc.2008.06.011
112841|A||Thompson,S., F. Tilton, D. Schlenk, and W.H. Benson|Comparative Vitellogenic Responses in Three Teleost Species:  Extrapolation to In Situ Field Studies|Mar. Environ. Res.51(1-5): 185-189|2000|10.1016/S0141-1136(00)00077-5
112842|A||Niyogi,S., R. Kent, and C.M. Wood|Effects of Water Chemistry Variables on Gill Binding and Acute Toxicity of Cadmium in Rainbow Trout (Oncorhynchus mykiss):  A Biotic Ligand Model (BLM) Approach|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.148(4): 305-314|2008|10.1016/j.cbpc.2008.05.015
112843|A||Pery,A.R.R., M. Gust, B. Vollat, R. Mons, M. Ramil, G. Fink, T. Ternes, and J. Garric|Fluoxetine Effects Assessment on the Life Cycle of Aquatic Invertebrates|Chemosphere73(3): 300-304|2008|10.1016/j.chemosphere.2008.06.029
112844|AT||Nagaraj,C.G., G.P. Satyanarayana Rao, and K. Narayana|Rat Uterine Bioassay for the Residual Effect of the Administered Testosterone Acetate in the Carp, Cyprinus carpio (L.)|Curr. Sci. (Bangalore)57(11): 627-628|1988|
112847|T||Stevenson,A.B.|Soil Treatments with Insecticides to Control the Root Form of the Grape Phylloxera|J. Econ. Entomol.61(5): 1168-1171|1968|10.1093/jee/61.5.1168
112848|T||Scott,D.R., and G.P. Carpenter|Wireworm Control on Potatoes in Idaho with Side-Dressed and Broadcast Insecticides|J. Econ. Entomol.64(4): 945-948|1971|10.1093/jee/64.4.945
112850|T||Shim,J.C., D.K. Lee, and K.W. Lee|Insecticide Susceptibility of German Cockroaches (Blattaria:  Blattellidae) in Seoul|Korean J. Appl. Entomol. (Multiple Languages)27(1): 73-77|1997|
112851|T||Clements,A.N., and T.E. May|The Actions of Pyrethroids Upon the Peripheral Nervous System and Associated Organs in the Locust|Pestic. Sci.8:661-680|1977|10.1002/ps.2780080611
112852|T||Fuchs,M.E.A.|Flushing Effects of Pyrethrum and Pyrethroid Insecticides Against the German Cockroach (Blattella germanica L.)|Pyrethrum Post17(1): 3-7|1988|
112854|A||Mukhi,S., and R. Patino|Effects of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) in Zebrafish:  General and Reproductive Toxicity|Chemosphere72(5): 726-732|2008|10.1016/j.chemosphere.2008.03.028
112855|T||Ehsanfar,S., S.A.M. Modarres-Sanavy, and R. Tavakkol-Afshari|Effects of Osmopriming on Seed Germination of Canola (Brassica napus L.) Under Salinity Stress|Commun. Agric. Appl. Biol. Sci.71(2a): 155-159|2006|
112856|T||Steensma,A., P.W.M. Van Dijck, and R.A. Hempenius|Safety Evaluation of Phosphodiesterase Derived from Leptographium procerum|Food Chem. Toxicol.42(6): 935-944|2004|10.1016/j.fct.2004.01.017
112857|T||Lucas,J.R., C. Ayzeren, M. Bowron, and J.F. Invest|Water Based Space Spray Technology:  The FFAST Way to Control Flying Insects|Int. Pest Control38(4): 111-113|1996|
112858|T||Sheppard,L.J., and I.D. Leith|Effects of NH3 Fumigation on the Frost Hardiness of Calluna - Does N Deposition Increase Winter Damage by Frost?|Phyton (Horn) (Multiple Languages)42(3): 183-190|2002|
112861|T||Fujihara,S., and M. Yamaguchi|Probable Site of Allantoin Formation in Nodulating Soybean Plants|Phytochemistry17(8): 1239-1243|1978|10.1016/S0031-9422(00)94564-3
112862|T||Feil,B.|Growth and Ammonium:Nitrate Uptake Ratio of Spring Wheat Cultivars Under a Homogeneous and a Spatially Separated Supply of Ammonium and Nitrate|J. Plant Nutr.17(5): 717-728|1994|10.1080/01904169409364762
112864|T||Wilcox,G.E., J.R. Magalhaes, and F.L.I.M. Silva|Ammonium and Nitrate Concentrations as Factors in Tomato Lycopersicon esculentum Growth and Nutrient Uptake|J. Plant Nutr.8(11): 989-998|1985|10.1080/01904168509363401
112866|A||Kotzabasis,K., A. Hatziathanasiou, M.V. Bengoa-Ruigomez, M. Kentouri, and P. Divanach|Methanol as Alternative Carbon Source for Quicker Efficient Production of the Microalgae Chlorella minutissima:  Role of the Concentration and Frequence of Administration|J. Biotechnol.70(1-3): 357-362|1999|10.1016/S0168-1656(99)00088-7
112867|A||Arenzana,F.J., M.J. Carvan III, J. Aijon, R. Sanchez-Gonzalez, R. Arevalo, and A. Porteros|Teratogenic Effects of Ethanol Exposure on Zebrafish Visual System Development|Neurotoxicol. Teratol.28(3): 342-348|2006|10.1016/j.ntt.2006.02.001
112868|T||Ketelaar,T., E.G. Allwood, and P.J. Hussey|Actin Organization and Root Hair Development are Disrupted by Ethanol-Induced Overexpression of Arabidopsis Actin Interacting Protein 1 (AIP 1)|New Phytol.174(1): 57-62|2007|10.1111/j.1469-8137.2007.01979.x
112869|T||Mellerick,D.M., and H. Liu|Methanol Exposure Interferes with Morphological Cell Movements in the Drosophila Embryo and Causes Increased Apoptosis in the CNS|J. Neurobiol.60(3): 308-318|2004|10.1002/neu.20020
112870|T||Vreugdenhil,D., M.M.J. Claassens, J. Verhees, A.R. Van der Krol, and L.H.W. Van der Plas|Ethanol-Inducible Gene Expression:  Non-Transformed Plants also Respond to Ethanol|Trends Plant Sci.11(1): 9-11|2006|10.1016/j.tplants.2005.11.008
112871|T||Seitz,H.K., J. Bosche, P. Czygan, S. Veith, and B. Kommerell|Microsomal Ethanol Oxidation in the Colonic Mucosa of the Rat.  Effect of Chronic Ethanol Ingestion|Naunyn-Schmiedeberg's Arch. Pharmacol.320(1): 81-84|1982|10.1007/BF00499078
112872|T||Idso,S.B., K.E. Idso, R.L. Garcia, B.A. Kimball, and J.K. Hoober|Effects of Atmospheric CO2 Enrichment and Foliar Methanol Application on Net Photosynthesis of Sour Orange Tree (Citrus Aurantium; Rutaceae) Leaves|Am. J. Bot.82(1): 26-30|1995|10.1002/j.1537-2197.1995.tb15644.x
112873|T||Villeneuve,J.P., P. Mavier, and J.G. Joly|Ethanol-Induced Cytochrome P-450:  Catalytic Activity After Partial Purification|Biochem. Biophys. Res. Commun.70(3): 723-728|1976|10.1016/0006-291X(76)90652-5
112874|T||Gessner,P.K., and M.P. Shakarjian|Interactions of Paraldehyde with Ethanol and Chloral Hydrate|J. Pharmacol. Exp. Ther.235(1): 32-36|1985|
112875|T||Eskay,R.L., R.S. Ryback, M. Goldman, and E. Majchrowicz|Effect of Chronic Ethanol Administration on Plasma Levels of LH and the Estrous Cycle in the Female Rat|Alcohol. Clin. Exp. Res.5(2): 204-206|1981|10.1111/j.1530-0277.1981.tb04889.x
112876|T||Johansson,G., A. Huhtala, and M.L. Laakso|Effects of Ethyl Alcohol on Hypothalamic Affective Defense in the Cat|Pharmacol. Biochem. Behav.20(6): 841-844|1984|10.1016/0091-3057(84)90003-0
112877|T||Szelenyi,I., and K. Brune|Possible Role of Oxygen Free Radicals in Ethanol-Induced Gastric Mucosal Damage in Rats|Dig. Dis. Sci.33(7): 865-871|1988|10.1007/BF01550977
112878|T||Poskuta,J.W., E. Parys, E. Waclawczyk-Lach, and B. Wroblewska|Foliar Sprays of Methanol Ineffective in Activity of Photosystem II, Amount of Photosynthetic Pigments, CO2 Exchange in Light and in Darkness and Herbage Yield of Hexaploid and Decaploid Tall Fescue Genotypes|Acta Physiol. Plant.17(1): 91-93|1995|
112880|T||Woodstock,L.W., and H. Tsao|Influence of Ammonia Vapors on the Dry Seeds of Soybean, Corn, and Peanut|Crop Sci.26(3): 631-634|1986|10.2135/cropsci1986.0011183X002600030043x
112881|A||Hylander,B.L., and R.G. Summers|The Effect of Local Anesthetics and Ammonia on Cortical Granule-Plasma Membrane Attachment in the Sea Urchin Egg|Dev. Biol.86(1): 1-11|1981|10.1016/0012-1606(81)90309-2
112882|T||Sadasivudu,B., C.R.K. Murthy, G.N. Rao, and M. Swamy|Studies on Acetylcholinesterase and gamma-Glutamyltranspeptidase in Mouse Brain in Ammonia Toxicity|J. Neurosci. Res.9(2): 127-134|1983|10.1002/jnr.490090204
112883|T||Esposito,S., P. Carillo, and S. Carfagna|Ammonium Metabolism Stimulation of Glucose-6P Dehydrogenase and Phosphoenolpyruvate Carboxylase in Young Barley Roots|J. Plant Physiol.153(1-2): 61-66|1998|10.1016/S0176-1617(98)80045-X
112885|T||Phillips,S.C.|The Toxicity to Rat Cerebral Cortex of Topical Applications of Acetaldehyde, Ammonia or Bilirubin|Neuropathol.Appl.Neurobiol.7(3): 205-216|1981|10.1111/j.1365-2990.1981.tb00090.x
112886|T||Lisy,V., and F. Stastny|Effect of Repeated Hyperammonemia on Na+-Dependent Binding of Glutamate in Rat Cortical and Hippocampal Synaptic Membranes|Neurosci. Lett.158(1): 113-116|1993|10.1016/0304-3940(93)90625-U
112887|T||Carrayol,E., T. Terce-Laforgue, G. Desbrosses, G. Pruvot-Maschio, S. Poirier, P. Ratet, and B. Hirel|Ammonia Regulated Expression of a Soybean Gene Encoding Cytosolic Glutamine Synthetase is not Conserved in Two Heterologous Plant Systems|Plant Sci.125(1): 75-85|1997|10.1016/S0168-9452(97)00053-8
112888|T||Eamus,D.|Assimilation and Stomatal Conductance Responses of Red Spruce to Midwinter Frosts and the Constituent Ions of Acid Mist|Tree Physiol.13(2): 145-155|1993|10.1093/treephys/13.2.145
112889|A||Cavalli,R.O., S.M. Peixoto, and W. Wasielesky|Performance of Penaeus paulensis (Perez-Farfante) Broodstock Under Long-Term Exposure to Ammonia|Aquac. Res.29(11): 815-822|1998|10.1111/j.1365-2109.1998.tb01107.x
112891|T||Vitti,T.G., R. Vukmirovich, and O.H. Gaebler|Utilization of Ammonia Nitrogen, Administered by Intragastric, Intraperitoneal, and Subcutaneous Routes:  Effects of Growth Hormone|Arch. Biochem. Biophys.106:475-482|1964|10.1016/0003-9861(64)90218-8
112893|A||Nicotra,A., and M. Arizzi|Mitochondrial Ultrastructural Transformations in P. lividus Eggs Stimulated by Ammonia|Exp. Cell Res.146(1): 230-233|1983|10.1016/0014-4827(83)90344-0
112894|A||Harris,J.O., G.B. Maguire, and J.H. Handlinger|Effects of Chronic Exposure of Greenlip Abalone, Haliotis laevigata Donovan, to High Ammonia, Nitrite, and Low Dissolved Oxygen Concentrations on Gill and Kidney Structure|J. Shellfish Res.17(3): 683-687|1998|
112895|T||Subbalakshmi,G.Y.C.V., and C.R.K. Murthy|Differential Response of Enzymes of Glutamate Metabolism in Neuronal Perikarya and Synaptosomes in Acute Hyperammonemia in Rat|Neurosci. Lett.59(1): 121-126|1985|10.1016/0304-3940(85)90225-3
112896|T||McDorman,K.S., B.F. Pachkowski, J. Nakamura, D.C. Wolf, and J.A. Swenberg|Oxidative DNA Damage from Potassium Bromate Exposure in Long-Evans Rats is not Enhanced by a Mixture of Drinking Water Disinfection By-Products|Chem.-Biol. Interact.152(2-3): 107-117|2005|10.1016/j.cbi.2005.02.003
112897|A||Cui,F., L.F. Lin, C.L. Qiao, Y. Xu, M. Marquine, M. Weill, and M. Raymond|Insecticide Resistance in Chinese Populations of the Culex pipiens Complex Through Esterase Overproduction|Entomol. Exp. Appl.120(3): 211-220|2006|10.1111/j.1570-7458.2006.00453.x
112900|T||Brempong-Yeboah,C.Y., T. Saito, and T. Miyata|Topical and Injection Toxicities of Some Pyrethroids in the Tobacco Cutworm, Spodoptera litura Fabricius|J. Pestic. Sci. (Multiple Languages)9(3): 481-487|1984|10.1584/jpestics.9.481
112901|A||ENVIRON International Corp.|Chloride Toxicity Test Results|Project No.20-22235A, Report Prepared for Iowa Water Pollut.Control Assoc., ENVIRON Intl.Corp, Nashville, TN:56 p.|2009|
112902|A||Flynn,K., and T. Spellman|Environmental Levels of Atrazine Decrease Spatial Aggregation in the Freshwater Mussel, Elliptio complanata|Ecotoxicol. Environ. Saf.72:1228-1233|2009|10.1016/j.ecoenv.2008.02.013
112903|A||Cericato,L., J.G.M. Neto, L.C. Kreutz, R.M. Quevedo, J.G. Santos da Rosa, G. Koakoski, L. Centenaro, E. Pottker, A. Mar|Responsiveness of the Interrenal Tissue of Jundia (Rhamdia quelen) to an In Vivo ACTH Test Following Acute Exposure to Sublethal Concentrations of Agrichemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149:363-367|2009|10.1016/j.cbpc.2008.09.002
112904|T||Cejudo-Espinosa,E., A.C. Ramos-Valdivia, F. Esparza-Garcia, P. Moreno-Casasola, and R. Rodriguez-Vazquez|Short-Term Accumulation of Atrazine by Three Plants from a Wetland Model System|Arch. Environ. Contam. Toxicol.56:201-208|2009|10.1007/s00244-008-9193-7
112906|T||Stoker,C., P.M. Beldomenico, V.L. Bosquiazzo, M.A. Zayas, F. Rey, H. Rodriguez, M. Munoz-de-Toro, and E.H. Luque|Developmental Exposure to Endocrine Disruptor Chemicals Alters Follicular Dynamics and Steroid Levels in Caiman latirostris|Gen. Comp. Endocrinol.156(3): 603-612|2008|10.1016/j.ygcen.2008.02.011
112907|A||Sanchez,B.C., H. Ochoa-Acuna, D.M. Porterfield, and M.S. Sepulveda|Oxygen Flux as an Indicator of Physiological Stress in Fathead Minnow (Pimephales promelas) Embryos: A Real-Time Biomonitoring System of Water Quality|Environ. Sci. Technol.42(18): 7010-7017|2008|10.1021/es702879t
112908|T||Loureiro,S., M.J.B. Amorim, B. Campos, S.M.G. Rodrigues, and A.M.V.M. Soares|Assessing Joint Toxicity of Chemicals in Enchytraeus albidus (Enchytraeidae) and Porcellionides pruinosus (Isopoda) Using Avoidance Behaviour as an Endpoint|Environ. Pollut.157(2): 625-636|2009|10.1016/j.envpol.2008.08.010
112909|A||Pan,H., X. Li, X. Xu, and S. Gao|Phytotoxicity of Four Herbicides on Ceratophyllum demersum, Vallisneria natans and Elodea nuttallii|J. Environ. Sci.21:307-312|2009|10.1016/S1001-0742(08)62269-X
112910|A||Rohr,J.R., A.M. Schotthoefer, T.R. Raffel, H.J. Carrick, N. Halstead, J.T. Hoverman, C.M. Johnson, L.B. Johnson, C. Lie|Agrochemicals Increase Trematode Infections in a Declining Amphibian Species|Nature455:1235-1240|2009|10.1038/nature07281
112911|A||Palma,P., V.L. Palma, C. Matos, R.M. Fernandes, A. Bohn, A.M.V.M. Soares, and I.R. Barbosa|Effects of Atrazine and Endosulfan Sulphate on the Ecdysteroid System of Daphnia magna|Chemosphere74(5): 676-681|2009|10.1016/j.chemosphere.2008.10.021
112912|A||Rohr,J.R., T.R. Raffel, S.K. Sessions, and P.J. Hudson|Understanding the Net Effects of Pesticides on Amphibian Trematode Infections|Ecol. Appl.18(7): 1743-1753|2008|10.1890/07-1429.1
112913|A||Knauert,S., B. Escher, H. Singer, J. Hollender, and K. Knauer|Mixture Toxicity of Three Photosystem II Inhibitors (Atrazine, Isoproturon, and Diuron) Toward Photosynthesis of Freshwater Phytoplankton Studied in Outdoor Mesocosms|Environ. Sci. Technol.42(17): 6424-6430|2008|10.1021/es072037q
112914|A||Kloas,W., I. Lutz, T. Springer, H. Krueger, J. Wolf, L. Holden, and A. Hosmer|Does Atrazine Influence Larval Development and Sexual Differentiation in Xenopus laevis?|Toxicol. Sci.107(2): 376-384|2009|10.1093/toxsci/kfn232
112915|A||Salaberria,I., B.H. Hansen, V. Asensio, P.A. Olsvik, R.A. Andersen, and B.M. Jenssen|Effects of Atrazine on Hepatic Metabolism and Endocrine Homeostasis in Rainbow Trout (Oncorhynchus mykiss)|Toxicol. Appl. Pharmacol.234(1): 98-106|2009|10.1016/j.taap.2008.09.023
112916|A||Ikuno,E., T. Matsumoto, T. Okubo, S. Itoi, and H. Sugita|Difference in the Sensitivity to Chemical Compounds Between Female and Male Neonates of Daphnia magna|Environ. Toxicol.23(5): 570-575|2008|10.1002/tox.20403
112917|A||Koyama,J., M. Kawamata, S. Imai, M. Fukunaga, S. Uno, and A. Kakuno|Java Medaka:  A Proposed New Marine Test Fish for Ecotoxicology|Environ. Toxicol.23(4): 487-491|2008|10.1002/tox.20367
112918|A||DeLorenzo,M.E., J.M. Keller, C.D. Arthur, M.C. Finnegan, H.E. Harper, V.L. Winder, and D.L. Zdankiewicz|Toxicity of the Antimicrobial Compound Triclosan and Formation of the Metabolite Methyl-Triclosan in Estuarine Systems|Environ. Toxicol.23(2): 224-232|2008|10.1002/tox.20327
112919|A||Liedtke,A., J. Muncke, K. Rufenacht, and R.I.L. Eggen|Molecular Multi-Effect Screening of Environmental Pollutants Using the MolDarT|Environ. Toxicol.23(1): 59-67|2008|10.1002/tox.20305
112920|A||Oropesa,A.L., J.P. Garcia Cambero, and F. Soler|Effect of Long-Term Exposure to Simazine on Brain and Muscle Acetylcholinesterase Activity of Common Carp (Cyprinus carpio)|Environ. Toxicol.23(3): 285-293|2008|10.1002/tox.20342
112921|A||Aker,W.G., X. Hu, P. Wang, and H.M. Hwang|Comparing the Relative Toxicity of Malathion and Malaoxon in Blue Catfish Ictalurus furcatus|Environ. Toxicol.23(4): 548-554|2008|10.1002/tox.20371
112922|T||Benzarti,S., S. Mohri, and Y. Ono|Plant Response to Heavy Metal Toxicity: Comparative Study Between the Hyperaccumulator Thlaspi caerulescens (Ecotype Ganges) and Nonaccumulator Plants:  Lettuce, Radish, and Alfalfa|Environ. Toxicol.23(5): 607-616|2008|10.1002/tox.20405
112923|AT||Petersen,D.G., F. Reichenberg, and I. Dahllof|Phototoxicity of Pyrene Affects Benthic Algae and Bacteria from the Arctic|Environ. Sci. Technol.42(4): 1371-1376|2008|10.1021/es071854n
112925|AT||Anguiano,O.L., A. Ferrari, J. Soleno, M.C. Martinez, A. Venturino, A.M. Pechen de D`Angelo, and C.M. Montagna|Enhanced Esterase Activity and Resistance to Azinphosmethyl in Target and Nontarget Organisms|Environ. Toxicol. Chem.27(10): 2117-2123|2008|10.1897/07-655.1
112926|T||Hansen,A.L., A. Gertz, M. Joersbo, and S.B. Andersen|Antimicrotubule Herbicides for In Vitro Chromosome Doubling in Beta vulgaris L. Ovule Culture|Euphytica 101(2): 231-237|1998|10.1023/A:1018380103304
112927|T||Agrawal,R.C., and N.K. Mehrotra|Assessment of Mutagenic Potential of Propoxur and Its Modulation by Indole-3-Carbinol|Food Chem. Toxicol.35(10/11): 1081-1084|1997|10.1016/S0278-6915(97)87275-4
112928|T||Thadani,P.V.|Effect of Maternal Ethanol Administration on Synaptic Vesicles Development in Heart of Rat Offspring|Neuropharmacology22(7): 931-933|1983|10.1016/0028-3908(83)90144-2
112929|T||Ramlov,H., and P. Westh|Cryptobiosis in the Eutardigrade Adorybiotus (Richtersius) coronifer:  Tolerance to Alcohols, Temperature and de novo Protein Synthesis|Zool. Anz. (Multiple Languages)240(3/4): 517-523|2001|10.1078/0044-5231-00062
112930|T||Kvietys,P.R., W.G. Patterson, J.M. Russell, J.A. Barrowman, and D.N. Granger|Role of the Microcirculation in Ethanol-Induced Mucosal Injury in the Dog|Gastroenterology87(3): 562-571|1984|10.1016/0016-5085(84)90527-4
112931|T||Grant,K.A., and H.H. Samson|Ethanol and Tertiary Butanol Induced Microcephaly in the Neonatal Rat:  Comparison of Brain Growth Parameters|Neurobehav. Toxicol. Teratol.4(3): 315-321|1982|
112932|T||Padmanabhan,R., and M.S. Hameed|Effects of Acute Doses of Ethanol Administered at Pre-Implantation Stages on Fetal Development in the Mouse|Drug Alcohol Depend.22(1-2): 91-100|1988|10.1016/0376-8716(88)90042-7
112933|T||Lopez-Tejero,D., I. Ferrer, M. Llobera, and E. Herrera|Effects of Prenatal Ethanol Exposure on Physical Growth, Sensory Reflex Maturation and Brain Development in the Rat|Neuropathol.Appl.Neurobiol.12(3): 251-260|1986|10.1111/j.1365-2990.1986.tb00138.x
112934|T||Malcolm,R.D., and R.L. Alkana|Temperature Dependence of Ethanol Lethality in Mice|J. Pharm. Pharmacol.35(5): 306-311|1983|10.1111/j.2042-7158.1983.tb02939.x
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112936|T||Muche,A., E. Makonnen, Y. Kinfu, and M. Afework|The Effect of Ethanol and Khat (Catha edulis Forsk) on the Cerebellar Cortex of Early Postnatal Rats|www.unisa.it/Centri_e_Vari/pharmacologyonline3:862-876|2006|
112937|A||Hillenweck,A., C. Canlet, A. Mauffret, L. Debrauwer, G. Claireaux, and J.P. Cravedi|Characterization of Biliary Metabolites of Fluoranthene in the Common Sole (Solea solea)|Environ. Toxicol. Chem.27(12): 2575-2581|2008|10.1897/08-180.1
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112939|T||Saha,A.K., and U. Datta|Effect of Ethanol on Spermatocytic Chromosomes of Spathosternum prasiniferum Walker|Environ. Ecol.9(4): 1049-1050|1991|
112940|T||Fujishige,N., N. Nishimura, S. Iuchi, T. Kunii, K. Shinozaki, and T. Hirayama|A Novel Arabidopsis Gene Required for Ethanol Tolerance is Conserved Among Plants and Archaea|Plant Cell Physiol.45(6): 659-666|2004|10.1093/pcp/pch086
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112945|T||Gutierrez,C.M., C.N.M. Ribeiro, G.A. De Lima, M.Y. Yanaguita, and L.C. Peres|An Experimental Study on the Effects of Ethanol and Folic Acid Deficiency, Alone or in Combination, on Pregnant Swiss Mice|Pathology39(5): 495-503|2007|10.1080/00313020701449290
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112947|T||Parker,D.K., and M.O. Proudlove|Studies on the Mechanisms of Rootlet Inhibition in Developing Barley Embryos|J. Cereal Sci.21(1): 71-78|1995|10.1016/S0733-5210(95)80010-7
112948|T||Tufan,A.C., and N.L. Satiroglu-Tufan|The Effect of Ethanol Exposure on Extraembryonic Vascular Development in the Chick Area Vasculosa|Cells Tissues Organs175(2): 84-97|2003|10.1159/000073752
112949|T||Lan,N., F. Yamashita, A.G. Halpert, L. Ellis, W.K. Yu, V. Viau, and J. Weinberg|Prenatal Ethanol Exposure Alters the Effects of Gonadectomy on Hypothalamic-Pituitary-Adrenal Activity in Male Rats|J. Neuroendocrinol.18(9): 672-684|2006|10.1111/j.1365-2826.2006.01462.x
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112953|T||Salonen,I., and I. Huhtaniemi|Specific and Weight Loss-Associated Effects of One-Week Exposure to Ethanol on Pituitary-Gonadal Function of Male Rats|Acta Endocrinol.119(1): 99-105|1988|
112954|T||Richardson,B.S., J.E. Patrick, J. Bousquet, J. Homan, and J.F. Brien|Cerebral Metabolism in Fetal Lamb After Maternal Infusion of Ethanol|Am. J. Physiol., Regul. Integr. Comp. Physiol.249(5): R505 - R509|1985|10.1152/ajpregu.1985.249.5.R505
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112956|T||Fadem,B.H., R.A. Tassava, S.I. Miller, and L.A. Congleton|Limb Defects in Gray Short-Tailed Opossums (Monodelphis domestica) Following Postnatal Injection with Ethanol or Saline|Teratog. Carcinog. Mutagen.9(1): 1-6|1989|10.1002/tcm.1770090102
112957|T||Ikawa,E., H. Tsuda, T. Sakata, T. Masui, K. Satoh, K. Sato, and N. Ito|Modification Potentials of Ethyl Alcohol and Acetaldehyde on Development of Preneoplastic Glutathione S-Transferase P-Form-Positive Liver Cell Foci Initiated by Diethylnitrosamine in the Rat|Cancer Lett.31(1): 53-60|1986|10.1016/0304-3835(86)90166-7
112958|T||Singh,S.P., A.K. Snyder, and S.K. Singh|Effects of Ethanol Ingestion on Maternal and Fetal Glucose Homeostasis|J. Lab. Clin. Med.104(2): 176-184|1984|
112959|T||Uphoff,C., C. Nyquist-Battie, and R. Toth|Cardiac Muscle Development in Mice Exposed to Ethanol In Utero|Teratology30(1): 119-129|1984|10.1002/tera.1420300116
112960|T||Brown-Woodman,P.D.C., F. Huq, L. Hayes, C. Herlihy, K. Picker, and W.S. Webster|In Vitro Assessment of the Effect of Methanol and the Metabolite, Formic Acid, on Embryonic Development of the Rat|Teratology52(4): 233-243|1995|10.1002/tera.1420520409
112961|T||Kennedy,L.A., S. Mukerji, and M.J. Elliott|The Ontogeny of Placental Na+-K+ Atpase in the Mouse and Its Impairment by Ethanol|Can. J. Physiol. Pharmacol.64(7): 1032-1037|1986|10.1139/y86-176
112962|T||Hungund,B.L., M.V. Reddy, V.A. Bharucha, and S.P. Mahadik|Monosialogangliosides (GM1 and AGF2) Reduce Acute Ethanol Intoxication:  Sleep Time, Mortality, and Cerebral Cortical Na+,K+-ATPase|Drug Dev. Res.19(4): 443-451|1990|10.1002/ddr.430190409
112963|T||Kalmus,G.W., and C.C. Buckenmaier III|Effects of Ethanol and Acetaldehyde on Cultured Pre-Implantation Mouse Embryos|Experientia45(5): 484-487|1989|10.1007/BF01952040
112964|T||Esquifino,A.I., R. Sanchis, and C. Guerri|Effect of Prenatal Alcohol Exposure on Sexual Maturation of Female Rat Offspring|Neuroendocrinology44(4): 483-487|1986|10.1159/000124690
112965|T||Finn,D.A., M. Bejanian, B.L. Jones, P.J. Syapin, and R.L. Alkana|Temperature Affects Ethanol Lethality in C57BL/6, 129, LS and SS Mice|Pharmacol. Biochem. Behav.34(2): 375-380|1989|10.1016/0091-3057(89)90329-8
112966|T||Rubin,E., F. Hutterer, and C.S. Lieber|Ethanol Increases Hepatic Smooth Endoplasmic Reticulum and Drug-Metabolizing Enzymes|Science159:1469-1470|1969|10.1126/science.159.3822.1469
112967|T||Badr,F.M., and A. Bartke|Effect of Ethyl Alcohol on Plasma Testosterone Level in Mice|Steroids23(6): 921-928|1974|10.1016/0039-128X(74)90064-6
112968|T||Kettunen,R., J. Timisjaervi, P. Saukko, and M. Koskela|Influence of Ethanol on Systemic and Pulmonary Hemodynamics in Anesthetized Dogs|Acta Physiol. Scand.118(3): 209-214|1983|10.1111/j.1748-1716.1983.tb07264.x
112969|T||Priscott,P.K.|The Effects of Ethanol on Rat Embryos Developing In Vitro|Biochem. Pharmacol.31(22): 3641-3643|1982|10.1016/0006-2952(82)90588-3
112971|T||Pescio,S., P. Macho, M. Penna, and R.J. Domenech|Changes in Total and Transmural Coronary Blood Flow Induced by Ethanol|Cardiovasc. Res.17(10): 604-607|1983|10.1093/cvr/17.10.604
112972|T||Zabrodskii,P.F., N.M. Troshkin, and V.G. Mandych|Stimulation of Immunotoxicity of Chemicals Metabolizing In Vivo into Highly Toxic Compounds by the Monooxygenase System Inductors|Bull. Exp. Biol. Med.10:369-371|2004|10.1007/s10517-005-0044-5
112973|AT||Sauvant,M.P., D. Pepin, J. Bohatier, and C.A. Groliere|Comparison of Six Bioassays for Assessing In Vitro Acute Toxicity and Structure-Activity Relationships for Vinyl Chloride Monomer, Its Main Metabolites and Derivates|Sci. Total Environ.172(1): 79-92|1995|10.1016/0048-9697(95)04782-4
112974|T||Bainton,R.J., L.T.Y. Tsai, T. Schwabe, M. DeSalvo, U. Gaul, and U. Heberlein|Moody Encodes Two GPCRs that Regulate Cocaine Behaviors and Blood-Brain Barrier Permeability in Drosophila|Cell (Cambridge)123(1): 145-156|2005|10.1016/j.cell.2005.07.029
112975|T||Bujanda,L., M. Garcia-Barcina, V. Gutierrez-de Juan, J. Bidaurrazaga, M. Fernandez de Luco, M. Gutierrez-Stampa, M. Lar|Effect of Resveratrol on Alcohol-Induced Mortality and Liver Lesions in Mice|BMC Gastroenterol.6(35): 9 p.|2006|
112976|T||Davies,A.G., J.T. Pierce-Shimomura, H. Kim, M.K. VanHoven, T.R. Thiele, A. Bonci, C.I. Bargmann, and S.L. McIntire|A Central Role of the BK Potassium Channel in Behavioral Responses to Ethanol in C. elegans|Cell (Cambridge)115(6): 655-666|2003|10.1016/S0092-8674(03)00979-6
112977|T||Dose,J.M., I.B. Caton, and J.F. Zolman|Physiological and Behavioral Effects of Early Embryonic Exposure to Ethanol and Cocaine in the Young Chick|Neurotoxicol. Teratol.17(1): 49-55|1995|10.1016/0892-0362(94)00052-F
112978|T||Fakoya,F.A., and E.A. Caxton-Martins|Neocortical Neurodegeneration in Young Adult Wistar Rats Prenatally Exposed to Ethanol|Neurotoxicol. Teratol.28(2): 229-237|2006|10.1016/j.ntt.2005.11.001
112979|T||Fattori,V., S.I. Abe, K. Kobayashi, L.G. Costa, and R. Tsuji|Effects of Postnatal Ethanol Exposure on Neurotrophic Factors and Signal Transduction Pathways in Rat Brain|J. Appl. Toxicol.28(3): 370-376|2008|10.1002/jat.1288
112981|T||Martel,M.L., C.A. Baumgardner, L.K. Dybas, and B.W. Geer|The Toxicities of Short-Chain Primary Alcohols and the Accumulation of Storage Bodies in the Larval Fat Body of Drosophila melanogaster|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.111(1): 99-108|1995|10.1016/0300-9629(95)98525-L
112982|T||Olszowy,Z., E. Czech, and J. Nowicka|Effect of Methanol on Endogenous and Exogenous Carnitine Levels in Rat Plasma|Arch. Toxicol.79(10): 571-581|2005|10.1007/s00204-004-0646-0
112983|A||Rico,E.P., D.B. Rosemberg, M.R. Senger, M. De bem Arizi, G.F. Bernardi, R.D. Dias, M.R. Bogo, and C.D. Bonan|Methanol Alters Ecto-Nucleotidases and Acetylcholinesterase in Zebrafish Brain|Neurotoxicol. Teratol.28(4): 489-496|2006|10.1016/j.ntt.2006.05.001
112984|T||Youssef,A.F., R.B. Baggs, B. Weiss, and R.K. Miller|Teratogenicity of Methanol Following a Single Oral Dose in Long-Evans Rats|Reprod. Toxicol.11(4): 503-510|1997|10.1016/S0890-6238(97)00017-8
112985|T||Parkash,R., S. Sharma, and M. Sharma|Patterns of Allozymic Variation and Alcohol Tolerance in Indian Populations of Drosophila bipectinata|Korean J. Genet.16(4): 301-318|1994|
112986|T||Heinz,G.H., D.J. Hoffman, S.L. Kondrad, and C.A. Erwin|Factors Affecting the Toxicity of Methylmercury Injected into Eggs|Arch. Environ. Contam. Toxicol.50(2): 264-279|2006|10.1007/s00244-005-1002-y
112987|A||Kim,B.H., M.S. Rahman, S.J. Kim, Y.D. Lee, and A. Takemura|Alcohol Treatment Promotes Conversion of Testosterone to Estradiol-17beta in Female Tilapia, Oreochromis mossambicus|Fish Physiol. Biochem.29(4): 263-268|2003|10.1007/s10695-004-3268-9
112988|T||Kim,H.J., H.J. Sohn, M. Ha, J.Y. Han, S.S. Kang, W.S. Choi, and G.J. Cho|Prepubertal Chronic Ethanol Administration Alters TTF-1 and Oct-2 Expression in the Hypothalamus of Female Rats|Mol. Brain Res.136(1-2): 262-266|2005|10.1016/j.molbrainres.2004.12.021
112989|T||Kim,M.R., K.N. Lee, J.M. Yon, S.R. Lee, Y. Jin, I.J. Baek, B.J. Lee, Y.W. Yun, and S.Y. Nam|Capsaicin Prevents Ethanol-Induced Teratogenicity in Cultured Mouse Whole Embryos|Reprod. Toxicol.26(3-4): 292-297|2008|10.1016/j.reprotox.2008.09.006
112990|T||De Gortari,P., M. Cisneros, and P. Joseph-Bravo|Chronic Ethanol or Glucose Consumption Alter TRH Content and Pyroglutamyl Aminopeptidase II Activity in Rat Limbic Regions|Regulatory Pept.127(1-3): 141-150|2005|10.1016/j.regpep.2004.11.002
112992|T||Cho,J.R., K.J. Hong, J.K. Yoo, J.R. Bang, and J.O. Lee|Comparative Toxicity of Selected Insecticides to Aphis citricola, Myzus malisuctus (Homoptera: Aphididae), and the Predator Harmonia axyridis (Coleoptera: Coccinellidae)|J. Econ. Entomol.90(1): 11-14|1997|10.1093/jee/90.1.11
112993|T||Burgess,E.E., H.E. Williams, R.E. Wilkinson, and E.A. Heinrichs|Field Tests of Insecticides Against Plagiotrochus cornigerus|J. Econ. Entomol.65(5): 1484-1485|1972|10.1093/jee/65.5.1484
112994|T||Smith,F.F., and A.L. Boswell|New Baits and Attractants for Slugs|J. Econ. Entomol.63:1919-1922|1970|10.1093/jee/63.6.1919
112995|T||DePew,L.J.|Controlling Greenbugs in Grain Sorghum with Foliar and Soil Insecticides|J. Econ. Entomol.67(4): 553-555|1974|10.1093/jee/67.4.553
112996|T||Stanyard,M.J., R.E. Foster, and T.J. Gibb|Population Dynamics of Amblyseius fallacis (Acari: Phytoseiidae) and European Red Mite (Acari: Tetranychidae) in Apple Trees Treated with Selected Acaricides|J. Econ. Entomol.91(1): 217-225|1998|10.1093/jee/91.1.217
112997|T||Metcalf,R.L., J.E. Ferguson, R. Lampman, and J.F. Andersen|Dry Cucurbitacin-Containing Baits for Controlling Diabroticite Beetles (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.80(4): 870-875|1987|10.1093/jee/80.4.870
112998|A||Morelli,E., and L. Fantozzi|Phytochelatins in the Diatom Phaeodactylum tricornutum Bohlin:  An Evaluation of Their Use as Biomarkers of Metal Exposure in Marine Waters|Bull. Environ. Contam. Toxicol.81(3): 236-241|2008|10.1007/s00128-008-9472-z
112999|T||Hubert,J., V. Stejskal, Z. Munzbergova, J. Hajslova, and F.H. Arthur|Toxicity and Efficacy of Selected Pesticides and New Acaricides to Stored Product Mites (Acari:  Acaridida)|Exp. Appl. Acarol.42(4): 283-290|2007|10.1007/s10493-007-9093-y
113000|A||Poynton,H.C., A.V. Loguinov, J.R. Varshavsky, S. Chan, E.J. Perkins, and C.D. Vulpe|Gene Expression Profiling in Daphnia magna. Part I:  Concentration-Dependent Profiles Provide Support for the No Observed Transcriptional Effect Level|Environ. Sci. Technol.42(16): 6250-6256|2008|10.1021/es8010783
113001|T||Warner,L.A., and B.A. Croft|Toxicities of Azinphosmethyl and Selected Orchard Pesticides to an Aphid Predator, Aphidoletes aphidimyza|J. Econ. Entomol.75(3): 410-415|1982|10.1093/jee/75.3.410
113002|T||Sparks,T.C., A.M. Pavloff, R.L. Rose, and D.F. Clower|Temperature-Toxicity Relationships of Pyrethroids on Heliothis virescens (F.) (Lepidoptera:  Noctuidae) and Anthonomus grandis grandis Boheman (Coleoptera:  Curculionidae)|J. Econ. Entomol.76(2): 243-246|1983|10.1093/jee/76.2.243
113003|T||Weires,R.W., J.R. Leeper, W.H. Reissig, and S.E. Lienk|Toxicity of Several Insecticides to the Spotted Tentiform Leafminer (Lepidoptera: Gracillariidae) and Its Parasite, Apanteles ornigis|J. Econ. Entomol.75(4): 680-684|1982|10.1093/jee/75.4.680
113004|T||Reinert,J.A.|Carbamate and Synthetic Pyrethroid Insecticides for Control of Organophosphate-Resistant Southern Chinch Bugs (Heteroptera:  Lygaeidae)|J. Econ. Entomol.75(4): 716-718|1982|10.1093/jee/75.4.716
113005|T||McClanahan,R.J., and J. Founk|Toxicity of Insecticides to the Green Peach Aphid (Homoptera:  Aphididae) in Laboratory and Field Tests, 1971-1982|J. Econ. Entomol.76(4): 899-905|1983|10.1093/jee/76.4.899
113006|T||Reinert,J.A.|Response of White Grubs Infesting Bermudagrass to Insecticides|J. Econ. Entomol.72(4): 546-548|1979|10.1093/jee/72.4.546
113007|T||Leggett,J.E., T.C. Cleveland, and W.P. Scott|Comparison of Several Insecticide Combinations for Control of Heliothis spp.|J. Econ. Entomol.65(4): 1182-1183|1972|10.1093/jee/65.4.1182
113008|T||Othman,T., D. Legare, P. Sadri, W.W. Lautt, and F.E. Parkinson|A Preliminary Investigation of the Effects of Maternal Ethanol Intake During Gestation and Lactation on Brain Adenosine A1 Receptor Expression in Rat Offspring|Neurotoxicol. Teratol.24(2): 275-279|2002|10.1016/S0892-0362(01)00211-2
113009|T||Sanchez,F., C. Korine, B.P. Kotler, and B. Pinshow|Ethanol Concentration in Food and Body Condition Affect Foraging Behavior in Egyptian Fruit Bats (Rousettus aegyptiacus)|Naturwissenschaften95(6): 561-567|2008|10.1007/s00114-008-0359-y
113010|A||Schild,R., P. Donkin, P.A. Cotsifis, and M.E. Donkin|A Quantitative Structure-Activity Relationship for the Effect of Alcohols on Neutral Red Retention by the Marine Macroalga Enteromorpha intestinalis|Chemosphere27(9): 1777-1788|1993|10.1016/0045-6535(93)90157-Z
113011|T||Watson,C.S., S.E. White, J.H. Homan, L. Fraher, J.F. Brien, and A.D. Bocking|The Adenosine A1-Receptor Antagonist 8-CPT Reverses Ethanol-Induced Inhibition of Fetal Breathing Movements|J. Appl. Physiol.87(4): 1333-1338|1999|10.1152/jappl.1999.87.4.1333
113013|AT||Bensoltane,S., F. Khaldi, H. Djebar, and M.R. Djebar|Toxicity of the Ammonium Nitrate NH4NO3 on the Respiratory Metabolism of Three Biological Models:  Parameciums, Mosses and Lichens|Commun. Agric. Appl. Biol. Sci.70(4): 1043-1051|2005|
113014|T||Perez-Soba,M., L. Van der Eerden, and I. Stulen|Combined Effects of Gaseous Ammonia and Sulphur Dioxide on the Nitrogen Metabolism of the Needles of Scots Pine Trees|Plant Physiol. Biochem.32(4): 539-546|1994|
113015|T||Marcar,N.E., P. Dart, and C. Sweeney|Effect of Root-Zone Salinity on Growth and Chemical Composition of Acacia ampliceps B. R. Maslin, A. auriculiformis A. Cunn. ex Benth. and A. mangium Willd. at Two Nitrogen Levels|New Phytol.119(4): 567-573|1991|10.1111/j.1469-8137.1991.tb01049.x
113016|T||Decruse,S.W., and S. Seeni|Ammonium Nitrate in the Culture Medium Influences Regeneration Potential of Cryopreserved Shoot Tips of Holostemma annulare|Cryo Lett.23(1): 55-60|2002|
113017|T||Perez-Soba,M., I. Stulen, and L.J.M. Van der Eerden|Effect of Atmospheric Ammonia on the Nitrogen Metabolism of Scots Pine (Pinus sylvestris) Needles|Physiol. Plant. (Multiple Languages)90(4): 629-636|1994|10.1111/j.1399-3054.1994.tb02517.x
113018|A||Pinza,M.R., N.P. Kohn, S.L. Ohlrogge, C.J. Ferguson, and J.Q. Word|Reducing the Effects of Total Ammonia in 10-Day Sediment Toxicity Tests with the Amphipod, Rhepoxynius abronius|ASTM Spec. Tech. Publ.5:285-300|1996|
113019|A||Ragab,F.M.A., and N.M. Shoukry|Influence of Certain Fertilizers on the Activity of Some Molluscicides Against Biomphalaria alexandrina and Lymnaea natalensis Snails|J. Egypt. Soc. Parasitol.36(3): 959-977|2006|
113020|T||Tsujii,M., S. Kawano, S. Tsuji, H. Fusamoto, T. Kamada, and N. Sato|Mechanism of Gastric Mucosal Damage Induced by Ammonia|Gastroenterology102(6): 1881-1888|1992|10.1016/0016-5085(92)90309-M
113021|T||Van der Eerden,L.J.M., and M.G.F.J. Perez-Soba|Physiological Responses of Pinus sylvestris to Atmospheric Ammonia|Trees6(1): 48-53|1992|10.1007/BF00224499
113022|T||Van Hove,L.W.A., O. Van Kooten, K.J. Van Wijk, W.J. Vredenberg, E.H. Adema, and G.A. Pieters|Physiological Effects of Long Term Exposure to Low Concentrations of SO2 and NH3 on Poplar Leaves|Physiol. Plant. (Multiple Languages)82(1): 32-40|1991|10.1111/j.1399-3054.1991.tb02899.x
113023|T||Van Hove,L.W.A., M.E. Bossen, M.G.J. Mensink, and O. Van Kooten|Physiological Effects of a Long Term Exposure to Low Concentrations of NH3, NO2 and SO2 on Douglas Fir (Pseudotsuga menziesii)|Physiol. Plant. (Multiple Languages)86(4): 559-567|1992|10.1111/j.1399-3054.1992.tb02170.x
113024|T||Kuo,T.L., and R. Nanikawa|Effect of Ethanol on Acute Paraquat Toxicity in Rabbits|Jpn. J. Legal Med.44(1): 12-17|1990|
113026|T||Eckenhoff,R.G., and B.J. Yang|Absence of Pressure Antagonism of Ethanol Narcosis in C. elegans|Neuroreport6(1): 77-80|1994|10.1097/00001756-199412300-00021
113027|T||Ford,M.M., J.C. Eldridge, and H.H. Samson|Ethanol Consumption in the Female Long-Evans Rat:  A Modulatory Role of Estradiol|Alcohol26(2): 103-113|2002|10.1016/S0741-8329(01)00203-8
113028|T||Hancock,M.L., and R.R. Miller|Resveratrol Can Only Partially Attenuate Ethanol-Induced Oxidative Stress in Embryonic Chick Brains|Nutr. Neurosci.9(3-4): 121-129|2006|10.1080/10284150600841547
113029|T||Heil,S.H., B.L. Hungund, Z.H. Zheng, K.L.C. Jen, and M.G. Subramanian|Ethanol and Lactation:  Effects on Milk Lipids and Serum Constituents|Alcohol18(1): 43-48|1999|10.1016/S0741-8329(98)00066-4
113030|T||Juarez,J., E.B. De Tomasi, and C. Vazquez|Alcohol Treatment During Lactation Produces an Advance in the Onset of Puberty in Female Rats|Alcohol21(2): 181-185|2000|10.1016/S0741-8329(00)00086-0
113032|T||Oyedele,O.O., and B. Kramer|Acute Ethanol Administration Causes Malformations but does not Affect Cranial Morphometry in Neonatal Mice|Alcohol42(1): 21-27|2008|10.1016/j.alcohol.2007.10.007
113033|T||Petr,J., R. Grocholova, J. Rozinek, and F. Jilek|Activation of In Vitro Matured Pig Oocytes by Combined Treatment of Ethanol and Cycloheximide|Theriogenology45(8): 1473-1478|1996|10.1016/0093-691X(96)00115-X
113034|T||Sanchez-Amate,M.C., M.P. Carrasco, C. Marco, and J.L. Segovia|Adaptive Changes Induced by Chronic Ethanol Ingestion on Hepatic Mitochondrial and Microsomal Enzyme Activities|Int. J. Biochem. Cell Biol.28(1): 23-27|1996|10.1016/1357-2725(95)00118-2
113035|T||Tavares Do Carmo,M.G., C.M. Oller Do Nascimento, A. Martin, and E. Herrera|Ethanol Intake During Lactation Impairs Milk Production in Rats and Affects Growth and Metabolism of Suckling Pups|Alcohol18(1): 71-76|1999|10.1016/S0741-8329(98)00070-6
113036|T||Zhu,X., and L.L.,Jr. Seelig|Developmental Aspects of Intestinal Intraepithelial and Lamina propria Lymphocytes in the Rat Following Placental and Lactational Exposure to Ethanol|Alcohol Alcohol.35(1): 25-30|2000|10.1093/alcalc/35.1.25
113037|T||Mets,B., J.R. Kamban, P.K. Janicki, J. Franks, U. Neveling, and R. Hickman|Alcohol Pretreatment does Not Affect Bupivacaine Pharmacokinetics in the Pig|Pharmacol. Res.33(4-5): 291-295|1996|10.1006/phrs.1996.0041
113038|T||Flechtmann,C.A.H., A.L.T. Ottati, and C.W. Berisford|Attraction of Ambrosia Beetles (Coleoptera:  Scolytidae) to Different Tropical Pine Species in Brazil|Environ. Entomol.28(4): 649-658|1999|10.1093/ee/28.4.649
113039|T||Joseph,G., R.G. Kelsey, R.W. Peck, and C.G. Niwa|Response of Some Scolytids and Their Predators to Ethanol and 4-Allylanisole in Pine Forests of Central Oregon|J. Chem. Ecol.27(4): 697-715|2001|10.1023/A:1010345817756
113040|T||Miller,R.R.,Jr., J.W. Yates, and B.W. Geer|Dietary Ethanol Reduces Phosphatidylcholine Levels and Inhibits the Uptake of Dietary Choline in Drosophila melanogaster Larvae|Comp. Biochem. Physiol. A Comp. Physiol.104(4): 837-844|1993|10.1016/0300-9629(93)90163-X
113041|T||Laska,P., and J. Rod|Seed Dressing of Radish Against Pests and Diseases|Tests Agrochem. Cultiv.6:62-63|1985|
113042|T||Bernard,A.M., R. De Russis, J.C. Normand, and R.R. Lauwerys|Evaluation of the Subacute Nephrotoxicity of Cyclohexane and Other Industrial Solvents in the Female Sprague-Dawley Rat|Toxicol. Lett.45(2/3): 271-280|1989|10.1016/0378-4274(89)90018-0
113043|T||Marchi,J.L., and S.M. Cicero|Influence of Chemical Treatment of Maize Seeds with Different Levels of Mechanical Damage on Electrical Conductivity Values|Seed Sci. Technol.31(2): 481-486|2003|10.15258/sst.2003.31.2.24
113045|A||Oxendine,S.L., J. Cowden, D.E. Hinton, and S. Padilla|Vulnerable Windows for Developmental Ethanol Toxicity in the Japanese Medaka Fish (Oryzias latipes)|Aquat. Toxicol.80(4): 396-404|2006|10.1016/j.aquatox.2006.10.007
113046|A||Tam,N.F.Y., and Y.S. Wong|Effect of Ammonia Concentrations on Growth of Chlorella vulgaris and Nitrogen Removal from Media|Bioresour. Technol.57(1): 45-50|1996|10.1016/0960-8524(96)00045-4
113047|A||Lee,B.J.|Histopathological Effects of Calcium, Temperature and Ammonia on Selected Organs of the Crayfish, Procambarus clarkii|Ph.D. Thesis, Texas A&M University, College Station TX:95 p.|1984|
113048|A||Veauvy,C.M.|Mechanisms of Ammonia Tolerance in the Gulf Toadfish (Opsanus beta)|Ph.D.Thesis, Univ.of Miami,Miami,FL:130 p.|2007|
113049|A||Oxendine,S.L.|Exploring a Fish Model of Developmental Neurotoxicity Using the Japanese Medaka Fish (Oryzias latipes)|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:135 p.|2006|
113050|A||Kungolos,A., C. Emmanouil, V. Tsiridis, and N. Tsiropoulos|Evaluation of Toxic and Interactive Toxic Effects of Three Agrochemicals and Copper Using a Battery of Microbiotests|Sci. Total Environ.407:4610-4615|2009|10.1016/j.scitotenv.2009.04.038
113051|T||Melstrom,P.C., and P.L. Williams|Reversible AChE Inhibitors in C. Elegans vs. Rats, Mice|Biochem. Biophys. Res. Commun.357(1): 200-205|2007|10.1016/j.bbrc.2007.03.122
113052|T||Ludlam,F.A.B., and N. French|Chemical Control of Red Spider Mite on Pot Chrysanthemums|Plant Pathol.22(1): 22-24|1973|10.1111/j.1365-3059.1973.tb01762.x
113053|T||Tsyrlov,I.B., O.B. Chasovnikova, A.Y. Grishanova, and V.V. Lyakhovich|Reappraisal of the Liver Benzpyrene Hydroxylase Synthesized De Novo After Treatment of Rats with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and 3- Methylcholanthrene|FEBS Lett.198(2): 225-228|1986|10.1016/0014-5793(86)80410-0
113054|A||Konwick,B.J., A.W. Garrison, M.C. Black, J.K. Avants, and A.T. Fisk|Bioaccumulation, Biotransformation, and Metabolite Formation of Fipronil and Chiral Legacy Pesticides in Rainbow Trout|Environ. Sci. Technol.40(9): 2930-2936|2006|10.1021/es0600678
113055|A||Sun,X., and U. Ghosh|The Effect of Activated Carbon on Partitioning, Desorption, and Biouptake of Native Polychlorinated Biphenyls in Four Freshwater Sediments|Environ. Toxicol. Chem.27(11): 2287-2295|2008|10.1897/08-020.1
113056|A||Vajda,A.M., and D.O. Norris|Effects of Steroids and Dioxin (2,3,7,8-TCDD) on the Developing Wolffian Ducts of the Tiger Salamander (Ambystoma tigrinum)|Gen. Comp. Endocrinol.141(1): 1-11|2005|10.1016/j.ygcen.2004.10.007
113057|T||Hoogesteijn,A.L., G.V. Kollias, F.W. Quimby, A.P. De Caprio, D.W. Winkler, and T.J. DeVoogd|Development of a Brain Nucleus Involved in Song Production in Zebra Finches (Taeniopygia guttata) is Disrupted by Aroclor 1248|Environ. Toxicol. Chem.27(10): 2071-2075|2008|10.1897/07-484.1
113058|A||Belkin,S., and S. Boussiba|Resistance of Spirulina platensis to Ammonia at High pH Values|Plant Cell Physiol.32(7): 953-958|1991|10.1093/oxfordjournals.pcp.a078182
113059|A||Garcia Romeu,F., and A. Salibian|Sodium Uptake and Ammonia Excretion Through the In Vivo Skin of the South American Frog Leptodactylus ocellatus (L., 1758)|Life Sci.7(1): 465-470|1968|10.1016/0024-3205(68)90048-9
113060|A||Ferreira,D., N. Tousset, C. Ridame, and M.H. Tusseau-Vuillemin|More than Inorganic Copper is Bioavailable to Aquatic Mosses at Environmentally Relevant Concentrations|Environ. Toxicol. Chem.27(10): 2108-2116|2008|10.1897/07-249.1
113061|T||Hanstein,S., M. Mattsson, H.J. Jaeger, and J.K. Schjoerring|Uptake and Utilization of Atmospheric Ammonia in Three Native Poaceae Species:  Leaf Conductances, Composition of Apoplastic Solution and Interactions with Root Nitrogen Supply|New Phytol.141(1): 71-83|1999|10.1046/j.1469-8137.1999.00330.x
113062|T||Mattsson,M., and J.K. Schjoerring|Characteristics of Ammonia Emission from Barley Plants|Plant Physiol. Biochem.34(5): 691-695|1996|
113063|T||Van Herrewege,J., and J.R. David|Effects of Ethanol on the Development of Drosophila Melanogaster:  Comparison of Two Geographic Populations|J. Insect Physiol.33(11): 893-898|1987|10.1016/0022-1910(87)90038-2
113064|T||Stubbs,C.D., A.E. Kisielewski, and E. Rubin|Chronic Ethanol Ingestion Modifies Liver Microsomal Phosphatidylserine Inducing Resistance to Hydrolysis by Exogenous Phospholipase A2|Biochim. Biophys. Acta1070(2): 349-354|1991|10.1016/0005-2736(91)90076-K
113065|T||Bock,B.R.|Increases in Maximum Yield of Spring Wheat by Maintaining Relatively High Ammonium/Nitrate Ratios in Soil|J. Fertil. Issues4(2): 68-72|1987|
113066|T||Suganuma,N., M. Watanabe, T. Yamada, T. Izuhara, K. Yamamoto, M. Nishimura, and K. Toriyama|Involvement of Ammonia in Maintenance of Cytosolic Glutamine Synthetase Activity in Pisum sativum Nodules|Plant Cell Physiol.40(10): 1053-1060|1999|10.1093/oxfordjournals.pcp.a029487
113067|T||Martin,J.C., D.C. Martin, S. Chao, and P. Shores|Interactive Effects of Chronic Maternal Ethanol and Nicotine Exposure Upon Offspring Development and Function|Neurobehav. Toxicol. Teratol.4(3): 293-298|1982|
113068|T||Oliver,J.B., and C.M. Mannion|Ambrosia Beetle (Coleoptera:  Scolytidae) Species Attacking Chestnut and Captured in Ethanol-Baited Traps in Middle Tennessee|Environ. Entomol.30(5): 909-918|2001|10.1603/0046-225X-30.5.909
113069|T||Roslan,H.A., M.G. Salter, C.D. Wood, M.R.H. White, K.P. Croft, F. Robson, G. Coupland, J. Doonan, P. Laufs, A.B. Tomset|Characterization of the Ethanol-Inducible alc Gene-Expression System in Arabidopsis thaliana|Plant J.28(2): 225-235|2001|10.1046/j.1365-313X.2001.01146.x
113070|T||Sweetman,J.P., C. Chu, N. Qu, A.J. Greenland, U. Sonnewald, and I. Jepson|Ethanol Vapor is an Efficient Inducer of the alc Gene Expression System in Model and Crop Plant Species|Plant Physiol.129(3): 943-948|2002|10.1104/pp.010937
113071|T||Frenkel,C., and A. Erez|Induction of Chilling Tolerance in Cucumber (Cucumis sativus) Seedlings by Endogenous and Applied Ethanol|Physiol. Plant. (Multiple Languages)96(4): 593-600|1996|10.1111/j.1399-3054.1996.tb00231.x
113073|T||Boyano-Adanez,M.C., G. Bodega, V. Barrios, and E. Arilla|Response of Rat Cerebral Somatostatinergic System to a High Ammonia Diet|Neurochem. Int.29(5): 469-476|1996|10.1016/0197-0186(96)00021-6
113074|A||Boniardi,N., G. Vatta, R. Rota, G. Nano, and S. Carra|Removal of Water Pollutants by Lemna gibba|Chem. Eng. J.54(2): B41 - B48|1994|
113075|T||Lasa,B., S. Frechilla, C. Lamsfus, and P.M. Aparicio-Tejo|The Sensitivity to Ammonium Nutrition is Related to Nitrogen Accumulation|Sci. Hortic.91(1-2): 143-152|2001|10.1016/S0304-4238(01)00239-4
113078|A||Kanazawa,T., K. Kanazawa, M.R. Kirk, and J.A. Bassham|Regulatory Effects of Ammonia on Carbon Metabolism in Chlorella pyrenoidosa During Photosynthesis and Respiration|Biochim. Biophys. Acta256(3): 656-669|1972|10.1016/0005-2728(72)90201-0
113079|T||Laukkanen,H., R. Julkunen-Tiitto, and A. Hohtola|Effect of Different Nitrogen Nutrients on the Viability, Protein Synthesis and Tannin Production of Scots Pine Callus|Physiol. Plant. (Multiple Languages)100(4): 982-988|1997|10.1111/j.1399-3054.1997.tb00026.x
113080|A||Murry,M.A., D.B. Jensen, and J.R. Benemann|Role of Ammonia in Regulation of Nitrogenase Synthesis and Activity in Anabaena cylindrica|Biochim. Biophys. Acta756(1): 13-19|1983|10.1016/0304-4165(83)90018-1
113081|T||Speer,M., and W.M. Kaiser|Replacement of Nitrate by Ammonium as the Nitrogen Source Increases the Salt Sensitivity of Pea Plants.  II.  Inter- and Intracellular Solute Compartmentation in Leaflets|Plant Cell Environ.17(11): 1223-1231|1994|10.1111/j.1365-3040.1994.tb02020.x
113082|T||Ozdil,S., S. Bolkent, R. Yanardag, and P. Arda-Pirincci|Protective Effects of Ascorbic Acid, DL-alpha-Tocopherol Acetate, and Sodium Selenate on Ethanol-Induced Liver Damage of Rats|Biol. Trace Elem. Res.97(2): 149-161|2004|10.1385/BTER:97:2:149
113088|T||Vazquez,M.M., J.M. Barea, and R. Azcon|Impact of Soil Nitrogen Concentration on Glomus spp. - Sinorhizobium Interactions as Affecting Growth, Nitrate Reductase Activity and Protein Content of Medicago sativa|Biol. Fertil. Soils34(1): 57-63|2001|10.1007/s003740100373
113089|T||Srivastava,N., J. Grove, and A. Vernadakis|Astrocyte Differentiation is Enhanced in Chick Embryos Treated with Ethanol During Early Neuroembryogenesis|Neurochem. Res.20(9): 985-989|1995|10.1007/BF00995550
113090|T||Andrews,J.E., M. Ebron-McCoy, J.E. Schmid, and D. Svendsgaard|Effects of Combinations of Methanol and Formic Acid on Rat Embryos in Culture|Teratology58(2): 54-61|1998|10.1002/(SICI)1096-9926(199808)58:2<54::AID-TERA6>3.0.CO;2-0
113091|A||Lahnsteiner,F.|The Effect of Internal and External Cryoprotectants on Zebrafish (Danio rerio) Embryos|Theriogenology69(3): 384-396|2008|10.1016/j.theriogenology.2007.10.007
113092|A||Xiao,Z.Z., L.L. Zhang, X.Z. Xu, Q.H. Liu, J. Li, D.Y. Ma, S.H. Xu, Y.P. Xue, and Q.Z. Xue|Effect of Cryoprotectants on Hatching Rate of Red Seabream (Pagrus major) Embryos|Theriogenology70(7): 1086-1092|2008|10.1016/j.theriogenology.2008.06.028
113093|A||Vuthiphandchai,V., S. Nimrat, S. Kotcharat, and A.N. Bart|Development of a Cryopreservation Protocol for Long-Term Storage of Black Tiger Shrimp (Penaeus monodon) Spermatophores|Theriogenology68(8): 1192-1199|2007|10.1016/j.theriogenology.2007.08.024
113094|A||Akk,G., P. Li, B.D. Manion, A.S. Evers, and J.H. Steinbach|Ethanol Modulates the Interaction of the Endogenous Neurosteroid Allopregnanolone with the alpha1beta2gamma2L GABAA Receptor|Mol. Pharmacol.71(2): 461-472|2007|10.1124/mol.106.029942
113096|A||Wang,X., S. Zhu, I.A. Khan, and A.K. Dasmahapatra|Ethanol Attenuates Aldh9 mRNA Expression in Japanese Medaka (Oryzias latipes) Embryogenesis|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.146(3): 357-363|2007|10.1016/j.cbpb.2006.11.006
113097|T||Urizar,N.L., Z. Yang, H.J. Edenberg, and R.L. Davis|Drosophila Homer is Required in a Small Set of Neurons Including the Ellipsoid Body for Normal Ethanol Sensitivity and Tolerance|J. Neurosci.27(17): 4541-4551|2007|10.1523/JNEUROSCI.0305-07.2007
113098|T||Terada,N., T. Nakai, M. Yamaguchi, A. Hatta, K. Arizono, and T. Ariyoshi|Influences of Maternal Ethanol Intake on Maternal and Perinatal Hepatic Heme and Drug Metabolizing Enzymes in Rats|J. Pharmacobio-Dyn.6(12): 913-921|1983|10.1248/bpb1978.6.913
113099|T||Reves,J.G., and W.H. Newman|Blood Volume Following Acute Ethyl Alcohol Ingestion in Dogs|Toxicol. Appl. Pharmacol.18(3): 660-664|1971|10.1016/S0041-008X(71)80020-0
113102|A||Richardson,J., E.K. Williams, and C.W. Hickey|Avoidance Behaviour of Freshwater Fish and Shrimp Exposed to Ammonia and Low Dissolved Oxygen Separately and in Combination|N. Z. J. Mar. Freshw. Res.35(3): 625-633|2001|10.1080/00288330.2001.9517028
113103|T||Diaz,G.R., M.A. Devaux, and H. Sarles|Effect of Acute and Chronic Oral Administration of Ethanol on Canine Exocrine Pancreatic Secretion|Digestion32(2): 77-85|1985|10.1159/000199222
113104|T||Henderson,G.I., and S. Schenker|Effects of Ethanol and/or Caffeine on Fetal Development and Placental Amino Acid Uptake in Rats|Dev. Pharmacol. Ther.7(3): 177-187|1984|10.1159/000457161
113105|T||Mankes,R.F., T. Hoffman, R. LeFevre, H. Bates, and R. Abraham|Acute Embryopathic Effects of Ethanol in the Long-Evans Rat|J. Toxicol. Environ. Health11(4-6): 583-590|1983|10.1080/15287398309530369
113106|T||Loreto,F., D. Tricoli, M. Centritto, A. Alvino, and S. Delfine|Short-Term Effects of Fumigation with Gaseous Methanol on Photosynthesis in Horticultural Plants|J. Am. Soc. Hortic. Sci.124(4): 377-380|1999|10.21273/JASHS.124.4.377
113107|T||Maze,I.S., G.A. Wright, and J.A. Mustard|Acute Ethanol Ingestion Produces Dose-Dependent Effects on Motor Behavior in the Honey Bee (Apis mellifera)|J. Insect Physiol.52(11-12): 1243-1253|2006|10.1016/j.jinsphys.2006.09.006
113108|T||Gaskin,R.E., and J.A. Zabkiewicz|Comparison of Effectiveness and Persistence of Three Hexazinone Formulations|Proc. N. Z. Weed Pest Control Conf.39:81-84|1986|10.30843/nzpp.1986.39.9431
113109|T||Means,L.W., and J.L. Henson|The Effects of Ethanol on Embryonic and Hatching Behaviors in the Chick|IRCS (Int. Res. Commun. Syst.) Med. Sci.14(2): 142-143|1986|
113110|A||Bieniarz,K., P. Epler, M. Sokolowska-Mikolajczyk, J. Chyb, and W. Popek|Carp Reproduction in Highly Eutrophic Pond Conditions|Bull. Environ. Contam. Toxicol.57(5): 842-848|1996|10.1007/s001289900266
113111|T||De Graaf,M.C.C., R. Bobbink, J.G.M. Roelofs, and P.J.M. Verbeek|Differential Effects of Ammonium and Nitrate on Three Heathland Species|Plant Ecol. (Dordr.)135(2): 185-196|1998|10.1023/A:1009717613380
113112|T||Messiha,F.S.|Ethanol and Hypobarometric Simulated High Altitude:  A Gonadal-Hepatic Toxicity Study in the Male Rat|J. Toxicol. Environ. Health10(21): 247-254|1982|10.1080/15287398209530247
113113|T||Sanchez-Amate,M.C., J.L. Segovia, and C. Marco|Influence of Ethanol on Liver and Plasma Lipid Levels During Chick Embryo Development|Biochem. Int.24(2): 299-306|1991|
113114|T||Sarosiek,J., B.L. Slomiany, K. Kojima, J. Swierczek, A. Slomiany, and S.J. Konturek|Effect of 16,16-Dimethyl Prostaglandin E2 and Ethanol on the Constituents of Gastric Mucus|J. Appl. Biochem.5(6): 429-436|1983|
113115|T||Sharma,A., and A.K. Rawat|Toxicological Consequences of Chloroquine and Ethanol on the Developing Fetus|Pharmacol. Biochem. Behav.34(1): 77-82|1989|10.1016/0091-3057(89)90356-0
113116|T||Inselman,L.S., S.E. Fisher, H. Spencer, and M. Atkinson|Effect of Intrauterine Ethanol Exposure on Fetal Lung Growth|Pediatr. Res.19(1): 12-14|1985|10.1203/00006450-198501000-00004
113117|T||Jones,W.L., and D.B. Stewart|Effects of Orally-Administered Ethanol on Mammary Gland Morphology and Functional Efficiency in Lactating Rats|Exp. Pathol.  (Jena)25(4): 205-213|1984|10.1016/S0232-1513(84)80022-5
113118|T||Wiebold,J.L., and W.C. Becker|In-Vivo and In-Vitro Effects of Ethanol on Mouse Preimplantation Embryos|J. Reprod. Fertil.80(1): 49-57|1987|10.1530/jrf.0.0800049
113119|T||Eysselein,V.E., M.V. Singer, H. Wentz, and H. Goebell|Action of Ethanol on Gastrin Release in the Dog|Dig. Dis. Sci.29(1): 12-18|1984|10.1007/BF01296856
113120|A||Qian,L., Y. Wang, Q. Jiang, T. Zhong, and H. Song|Ethanol Disrupts the Formation of Hypochord and Dorsal Aorta During the Development of Embryonic Zebrafish|Sci. China Ser. C, Life Sci.48(6): 608-615|2005|10.1360/062005-1
113121|T||Wright,J.C., M.J. O'Donnell, and J. Reichert|Effects of Ammonia Loading on Porcellio scaber:  Glutamine and Glutamate Synthesis, Ammonia Excretion and Toxicity|J. Exp. Biol.188:143-157|1994|10.1242/jeb.188.1.143
113122|T||Hillbom,M.E., M.S. Sarviharju, and K.O. Lindros|Potentiation of Ethanol Toxicity by Cyanamide in Relation to Acetaldehyde Accumulation|Toxicol. Appl. Pharmacol.70(1): 133-139|1983|10.1016/0041-008X(83)90186-2
113123|A||Kiryu,Y., and C.M. Moffitt|Acute LD50 and Kidney Histopathology Following Injection of Erythromycin (Erythro-200) and Its Carrier in Spring Chinook Salmon, Oncorhynchus tshawytscha (Walbaum)|J. Fish Dis.24(7): 409-416|2001|10.1046/j.1365-2761.2001.00318.x
113124|T||Zhou,J.J., G.A. Zhang, W. Huang, M.A. Birkett, L.M. Field, J.A. Pickett, and P. Pelosi|Revisiting the Odorant-Binding Protein LUSH of Drosophila melanogaster:  Evidence for Odour Recognition and Discrimination|FEBS Lett.558(1-3): 23-26|2004|10.1016/S0014-5793(03)01521-7
113125|T||Wen,T., C.A. Parrish, D. Xu, Q. Wu, and P. Shen|Drosophila Neuropeptide F and Its Receptor, NPFR1, Define a Signaling Pathway that Acutely Modulates Alcohol Sensitivity|Proc. Natl. Acad. Sci. U.S.A.102(6): 2141-2146|2005|10.1073/pnas.0406814102
113126|T||Tornuev,Y.V., L.M. Nepomnyashchikh, and E.V. Koldysheva|Effect of Low-Choline Diet and Ethanol on Electroconductivity of Tissues in CBA Mice|Bull. Exp. Biol. Med.140(5): 506-509|2005|10.1007/s10517-006-0009-3
113127|T||Oyama,T., Y.D. Kim, T. Isse, P.T.T. Phuong, M. Ogawa, T. Yamaguchi, T. Kinaga, Y. Yashima, H. Kim, and T. Kawamoto|A Pirot Study on Subacute Ethanol Treatment of ALDH2 KO Mice|J. Toxicol. Sci.32(4): 421-428|2007|10.2131/jts.32.421
113128|T||Hull,L.A., and C.M. Felland|Apple, Effect of Insecticides on Secondary Pests, 1992|Insectic. Acaric. Tests18:46-48|1993|10.1093/iat/18.1.46
113129|T||Rovasio,R.A., and N.L. Battiato|Role of Early Migratory Neural Crest Cells in Developmental Anomalies Induced by Ethanol|Int. J. Dev. Biol.39(2): 421-422|1995|
113130|A||Machu,T.K., and R.A. Harris|Alcohols and Anesthetics Enhance the Function of 5-Hydroxytryptamine3 Receptors Expressed in Xenopus laevis Oocytes|J. Pharmacol. Exp. Ther.271(2): 898-905|1994|
113131|A||Nakatsuji,N.|Craniofacial Malformation in Xenopus laevis Tadpoles Caused by the Exposure of Early Embryos to Ethanol|Teratology28(2): 299-305|1983|10.1002/tera.1420280220
113132|A||Goedhart,C.L., D.M. Orcutt, and W.R. Lusby|Pyridazinone (BASF 13-338) Alleviation of Ethanol-Induced Stress Effects on the Growth and Lipid Composition of Chlorella vulgaris|Pestic. Biochem. Physiol.35(1): 11-19|1989|10.1016/0048-3575(89)90097-7
113133|T||Drummond,W.H., and R.L. Carter|Cyclooxygenase Blockers Inhibit Ethanol-Induced Pulmonary Vasoconstriction in Lambs|J. Appl. Physiol.66(2): 822-829|1989|10.1152/jappl.1989.66.2.822
113134|T||Koch,U., D. Glatzle, F. Ringenbach, T. Dunz, T. Steger-Hartmann, and E. Wagner|Measurement of Ion Leakage from Plant Cells in Response to Aquatic Pollutants|Bull. Environ. Contam. Toxicol.54(4): 606-613|1995|10.1007/BF00192606
113135|T||Poling,A., H. Schlinger, and E. Blakely|Failure of the Partial Inverse Benzodiazepine Agonist Ro15-4513 to Block the Lethal Effects of Ethanol in Rats|Pharmacol. Biochem. Behav.31(4): 945-947|1988|10.1016/0091-3057(88)90410-8
113136|T||Sreenathan,R.N., S. Singh, and R. Padmanabhan|Effect of Acetaldehyde on Skeletogenesis in Rats|Drug Alcohol Depend.14(2): 165-174|1984|10.1016/0376-8716(84)90041-3
113137|T||Lee,P.C., A.G. Taylor, M. Zhang, and Y. Esashi|Evolution of Volatiles During Seed Aging:  Exogenous Gas Application|J. New Seeds2(1): 77-91|2000|10.1300/J153v02n01_05
113138|T||Rieger,R., and A. Michaelis|Intrachromosomal Clustering of Chromatid Aberrations Induced by Maleic Hydrazide and Ethyl Alcohol:  Studies with a New Karyotype of Vicia faba|Mutat. Res.10(2): 162-164|1970|10.1016/0027-5107(70)90163-6
113139|AT||Kato-Noguchi,H., and T. Kugimiya|Effects of Ethanol on Growth of Rice Seedlings|Plant Growth Regul.35(1): 93-96|2001|10.1023/A:1013850707053
113140|T||Helling,C.S., D.G. Dennison, and D.D. Kaufman|Fungicide Movement in Soils|Phytopathology64(8): 1091-1100|1974|10.1094/Phyto-64-1091
113141|T||Doshi,A., and B.B.L. Thakore|Uptake, Translocation and Residues of Metalaxyl in Opium Plants|Indian J. Plant Prot.23(2): 191-194|1995|
113142|T||Awasthi,M.D., and A.K. Ahuja|Persistence and Dissipation Pattern of Captafol and Metalaxyl Residues on Musk Melon (Cucumis melo) Fruits for Safety Constants|Indian J. Agric. Sci.69(11): 795-797|1999|
113143|T||Pollack,G.M., and K.L.R. Brouwer|Maternal-Fetal Pharmacokinetics of Methanol (Includes the Commentary of the Institute's Health Review Committee)|Research Report No.74, Health Effects Inst., North Carolina Univ, Chapel Hill, NC:55 p.|1996|
113144|A||Isobe,S., C.F. Hazlewood, L.K. Misra, and W.R. Klemm|Acute Ethanol Decreases NMR Relaxation Times of Water Hydrogen Protons in Fish Brain|Alcohol11(6): 571-576|1994|10.1016/0741-8329(94)90085-X
113145|T||Miller,R.R.,Jr., C.L. Taylor, D.L. Spidle, A.M. Ugolini, and R.A. Nothdorf|Ethanol-Induced Decreases in Membrane Long-Chain Unsaturated Fatty Acids Correlate with Impaired Chick Brain Development|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.115(4): 465-474|1996|10.1016/S0305-0491(96)00186-1
113146|T||Miller,R.R.,Jr., A.M. Ugolini, R.A. Nothdorf, K.J. Searcy, C.L. Taylor, and D.L. Spidle|Ethanol Alters Brain Phospholipid Levels Which Correlate with Altered Brain Morphology|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.116(4): 407-417|1997|10.1016/S0305-0491(96)00259-3
113147|T||Moon,C., and S.I. Terashima|Response of the Infrared Receptors of a Crotaline Snake to Ethanol|Neurosci. Lett.334(1): 29-32|2002|10.1016/S0304-3940(02)01062-5
113148|A||Pennington,J.T., and M.G. Hadfield|Larvae of a Nudibranch Mollusc (Phestilla sibogae) Metamorphose when Exposed to Common Organic Solvents|Biol. Bull.177(3): 350-355|1989|10.2307/1541594
113149|A||Reimers,M.J., J.K. La Du, C.B. Periera, J. Giovanini, and R.L. Tanguay|Ethanol-Dependent Toxicity in Zebrafish is Partially Attenuated by Antioxidants|Neurotoxicol. Teratol.28(4): 497-508|2006|10.1016/j.ntt.2006.05.007
113150|A||Zhang,T., D.M. Rawson, and G.J. Morris|Cryopreservation of Pre-Hatch Embryos of Zebrafish (Brachydanio rerio)|Aquat. Living Resour.6(2): 145-153|1993|10.1051/alr:1993014
113151|T||Bashir,M., and M.T. Javed|Effects of Ethanol on Brain and Pancreas Weights, Serum Sodium and Potassium, and Haematological Parameters in Quail (Coturnix coturnix japonica)|Avian Pathol.34(2): 96-100|2005|10.1080/03079450500059222
113152|T||Deckel,A.W., R. Lillaney, P.J. Ronan, and C.H. Summers|Lateralized Effects of Ethanol on Aggression and Serotonergic Systems in Anolis carolinensis|Brain Res.807(1-2): 38-46|1998|10.1016/S0006-8993(98)00718-5
113153|T||Hansen,J.M., K.M. Contreras, and C. Harris|Methanol, Formaldehyde, and Sodium Formate Exposure in Rat and Mouse Conceptuses:  A Potential Role of the Visceral Yolk Sac in Embryotoxicity|Birth Defects Res. A Clin. Mol. Teratol.73(2): 72-82|2005|10.1002/bdra.20094
113154|A||Plachinta,M., T. Zhang, and D.M. Rawson|Studies on Cryoprotectant Toxicity to Zebrafish (Danio rerio) Oocytes|Cryo Lett.25(6): 415-424|2004|
113155|T||Schmidt,G.H.|Use of Grasshoppers as Test Animals for the Ecotoxicological Evaluation of Chemicals in the Soil|Agric. Ecosyst. Environ.16(3/4): 175-188|1986|10.1016/0167-8809(86)90003-4
113156|T||Zidenberg-Cherr,S., C.H. Halsted, K.L. Olin, A.M. Reisenauer, and C.L. Keen|The Effect of Chronic Alcohol Ingestion on Free Radical Defense in the Miniature Pig|J. Nutr.120(2): 213-217|1990|10.1093/jn/120.2.213
113157|T||Miller,R.R.,Jr., B.M. Olson, N. Rorick, A.L. Wittingen, and M. Bullock|Embryonic Exposure to Exogenous alpha- and gamma-Tocopherol Partially Attenuates Ethanol-Induced Changes in Brain Morphology and Brain Membrane Fatty Acid Composition|Nutr. Neurosci.6(4): 201-212|2003|10.1080/1028415031000119329
113158|T||Xu,Y., L. Li, Z. Zhang, and Y. Li|Effects of Folinic Acid and Vitamin B12 on Ethanol-Induced Developmental Toxicity in Mouse|Toxicol. Lett.167(3): 167-172|2006|10.1016/j.toxlet.2006.07.341
113159|T||Joseph,G., and R.G. Kelsey|Growth of Douglas-Fir and Ponderosa Pine Seedlings with Foliar Applications of Methanol and Ethanol|West. J. Appl. For.14(4): 183-185|1999|10.1093/wjaf/14.4.183
113160|T||Wahl,E.C., J. Aronson, L. Liu, Z. Liu, D.S. Perrien, R.A. Skinner, T.M. Badger, M.J.J. Ronis, and C.K.,Jr. Lumpkin|Chronic Ethanol Exposure Inhibits Distraction Osteogenesis in a Mouse Model:  Role of the TNF Signaling Axis|Toxicol. Appl. Pharmacol.220(3): 302-310|2007|10.1016/j.taap.2007.02.011
113161|T||Satiroglu-Tufan,N.L., and A.C. Tufan|Amelioration of Ethanol-Induced Growth Retardation by all-trans-Retinoic Acid and alpha-Tocopherol in Shell-Less Culture of the Chick Embryo|Reprod. Toxicol.18(3): 407-412|2004|10.1016/j.reprotox.2004.01.005
113162|T||Krieg,L.C., M.A. Walker, T. Senaratna, and B.D. McKersie|Growth, Ammonia Accumulation and Glutamine Synthetase Activity in Alfalfa (Medicago sativa L.) Shoots and Cell Cultures Treated with Phosphinothricin|Plant Cell Rep.9(2): 80-83|1990|10.1007/BF00231554
113163|A||Wang,X., E. Williams, M.L. Haasch, and A.K. Dasmahapatra|Japanese Medaka (Oryzias latipes):  Developmental Model for the Study of Alcohol Teratology|Birth Defects Res. B Dev. Reprod. Toxicol.77(1): 29-39|2006|10.1002/bdrb.20072
113164|T||Powrozek,T.A., and F.C. Zhou|Effects of Prenatal Alcohol Exposure on the Development of the Vibrissal Somatosensory Cortical Barrel Network|Brain Res. Dev. Brain Res.155(2): 135-146|2005|10.1016/j.devbrainres.2005.01.003
113165|T||Wentzel,P., U. Rydberg, and U.J. Eriksson|Antioxidative Treatment Diminishes Ethanol-Induced Congenital Malformations in the Rat|Alcohol. Clin. Exp. Res.30(10): 1752-1760|2006|10.1111/j.1530-0277.2006.00208.x
113166|A||Saraco,M.G., and H. Maldonado|Ethanol Affects Context Memory and Long-Term Habituation in the Crab Chasmagnathus|Pharmacol. Biochem. Behav.51(2-3): 223-229|1995|10.1016/0091-3057(94)00325-D
113167|T||Srivastava,N., and A. Vernadakis|Maturation of Cerebellar Granule Cells is Delayed in Cultures Derived from Ethanol-Treated Chick Embryos:  Survival and Proliferation Studies|Int. J. Dev. Neurosci.13(6): 529-537|1995|10.1016/0736-5748(95)00031-B
113168|T||Sluyter,F., L. Jamot, J.Y. Bertholet, and W.E. Crusio|Prenatal Exposure to Alcohol does not Affect Radial Maze Learning and Hippocampal Mossy Fiber Sizes in Three Inbred Strains of Mouse|Behav. Brain Funct.1(5): 1-10|2005|
113169|T||Lee,S.R., M.R. Kim, J.M. Yon, I.J. Baek, C.G. Park, B.J. Lee, Y.W. Yun, and S.Y. Nam|Black Ginseng Inhibits Ethanol-Induced Teratogenesis in Cultured Mouse Embryos Through Its Effects on Antioxidant Activity|Toxicol. In Vitro23(1): 47-52|2009|10.1016/j.tiv.2008.10.001
113170|T||Parthasarathy,N.J., R.S. Kumar, and R.S. Devi|Effect of Methanol Intoxication on Rat Neutrophil Functions|J. Immunotoxicol.2(2): 115-121|2005|10.1080/15476910500187425
113171|T||Margret,C.P., C.X. Li, A.J. Elberger, S.G. Matta, T.D. Chappell, and R.S. Waters|Prenatal Alcohol Exposure Alters the Size, but not the Pattern, of the Whisker Representation in Neonatal Rat Barrel Cortex|Exp. Brain Res.165(2): 167-178|2005|10.1007/s00221-005-2287-9
113172|T||Higashiyama,D., H. Saitsu, M. Komada, T. Takigawa, M. Ishibashi, and K. Shiota|Sequential Developmental Changes in Holoprosencephalic Mouse Embryos Exposed to Ethanol During the Gastrulation Period|Birth Defects Res. A Clin. Mol. Teratol.79(7): 513-523|2007|10.1002/bdra.20367
113174|T||Cano,M.J., O. Garcia-Benitez, M.L. Ojeda, M.L. Murillo, and O. Carreras|Response of the Exocrine Pancreas to the CCK on Offspring Rats of Ethanol Dams.  Effects of Folic Acid|Alcohol Alcohol.42(4): 277-284|2007|10.1093/alcalc/agm034
113175|T||Weber,T.P., M.A.G. Hartlage, N. Rolf, M. Booke, E. Berendes, H. Van Aken, and A. Meissner|Short-Term Administration of Ethanol does Not Affect Functional Recovery from Myocardial Stunning in Awake Dogs|Anesth. Analg.96(3): 665-672|2003|10.1213/01.ANE.0000048712.95074.CD
113176|T||Luo,L., Y. Pang, Q. Chen, and G. Li|Cryopreservation of the Late Stage Embryos of Spodoptera exigua (Lepidoptera:  Noctuidae)|Cryo Lett.27(6): 341-352|2006|
113177|T||Abbott,B.D., M. Ebron-McCoy, and J.E. Andrews|Cell Death in Rat and Mouse Embryos Exposed to Methanol in Whole Embryo Culture|Toxicology97(1-3): 159-171|1995|10.1016/0300-483X(94)02945-Q
113178|T||Giknis,M.L.A., and I. Damjanov|The Transplacental Effects of Ethanol and Metronidazole in Swiss Webster Mice|Toxicol. Lett.19(1-2): 37-42|1983|10.1016/0378-4274(83)90259-X
113179|T||Harris,P.D., E.K. Greenwald, R.C. Martz, R.B. Forney, F.W. Hughes, and P.A. Nicoll|Effects of Ethyl Alcohol on Subcutaneous Microcirculation|Toxicol. Appl. Pharmacol.14(1): 6-12|1969|10.1016/0041-008X(69)90158-6
113180|T||Randall,G.W.|Postemergence Application of UAN (28% N) to Corn|In: Historic Blue Books. Nutrient Management, Agriculture, University of Minnesota:122-126|1977|
113181|T||Peres,W.A.F., M.G.T. Carmo, S. Zucoloto, A.C. Iglesias, and V.B. Braulio|Ethanol Intake Inhibits Growth of the Epithelium in the Intestine of Pregnant Rats|Alcohol33(2): 83-89|2004|10.1016/S0741-8329(04)00095-3
113182|T||Oladehin,A., C.P. Margret, S.E. Maier, C.X. Li, T.A. Jan, T.D. Chappell, and R.S. Waters|Early Postnatal Alcohol Exposure Reduced the Size of Vibrissal Barrel Field in Rat Somatosensory Cortex (SI) but did not Disrupt Barrel Field Organization|Alcohol41(4): 253-261|2007|10.1016/j.alcohol.2007.04.005
113183|T||Parnell,S.E., D.B. Dehart, T.A. Wills, S.Y. Chen, C.W. Hodge, J. Besheer, H.G. Waage-Baudet, M.E. Charness, and K.K. Su|Maternal Oral Intake Mouse Model for Fetal Alcohol Spectrum Disorders:  Ocular Defects as a Measure of Effect|Alcohol. Clin. Exp. Res.30(10): 1791-1798|2006|10.1111/j.1530-0277.2006.00212.x
113184|T||Pecsenye,K., L.P. Lefkovitch, B.E. Giles, and A. Saura|Does Drosophila melanogaster Use Ethanol as an Energy Source During Starvation?|Hereditas121(3): 225-236|1994|10.1111/j.1601-5223.1994.t01-1-00225.x
113185|T||Muhammad-Ali,A.Z.K., and B. Burnet|Ethanol Tolerance and Variation at the Alcohol Dehydrogenase (ADH) Locus of Drosophila mauritiana|Heredity (Edinb.)74(4): 438-444|1995|10.1038/hdy.1995.61
113186|T||Gilani,S.H., L. Dalamangas, A. Gilani, G. Seyoum, and T.V.N. Persaud|Chick Embryonic Development Following Exposure to Ethanol, Methionine and Zinc|Res. Commun. Subst. Abuse15(1/2): 67-70|1994|
113187|T||Das,S.K., and D.M. Vasudevan|Modulation of Lecithin Activity by Vitamin-B Complex to Treat Long Term Consumption of Ethanol Induced Oxidative Stress in Liver|Indian J. Exp. Biol.44(10): 791-801|2006|
113188|T||Cebral,E., A. Faletti, A. Jawerbaum, and D. Paz|Periconceptional Alcohol Consumption-Induced Changes in Embryonic Prostaglandin E Levels in Mouse Organogenesis:  Modulation by Nitric Oxide|Prostaglandins Leukot. Essent. Fatty Acids76(3): 141-151|2007|10.1016/j.plefa.2006.12.001
113189|T||Bhopale,K.K., H. Wu, P.J. Boor, V.L. Popov, G.A.S. Ansari, and B.S. Kaphalia|Metabolic Basis of Ethanol-Induced Hepatic and Pancreatic Injury in Hepatic Alcohol Dehydrogenase Deficient Deer Mice|Alcohol39(3): 179-188|2006|10.1016/j.alcohol.2006.09.005
113190|T||Talebi,K.|Effects of Two Different Formulations of Metalaxyl on Their Residues in Cucumber|Meded. Fac. Landbouwwet. Univ. Gent67(2): 79-83|2002|
113191|A||Postma,J.F., S. De Valk, M. Dubbeldam, J.L. Maas, M. Tonkes, C.A. Schipper, and B.J. Kater|Confounding Factors in Bioassays with Freshwater and Marine Organisms|Ecotoxicol. Environ. Saf.53(2): 226-237|2002|10.1006/eesa.2002.2195
113192|T||Perez-Soba,M., T.A. Dueck, G. Puppi, and P.J.C. Kuiper|Interactions of Elevated CO2, NH3 and O3 on Mycorrhizal Infection, Gas Exchange and N Metabolism in Saplings of Scots Pine|Plant Soil176(1): 107-116|1995|10.1007/BF00017681
113194|T||Melikian,A.A., B.F. Goldin, A.K. Prahalad, and S.S. Hecht|Modulation of Benzo[a]Pyrene-DNA Adducts in Hamster Cheek Pouch by Chronic Ethanol Consumption|Chem. Res. Toxicol.3(2): 139-143|1990|10.1021/tx00014a009
113195|T||Verma,S.K., R. Dua, and K.D. Gill|Impaired Energy Metabolism After Co-Exposure to Lead and Ethanol|Basic Clin. Pharmacol. Toxicol.96(6): 475-479|2005|
113196|A||Lockwood,B., S. Bjerke, K. Kobayashi, and S. Guo|Acute Effects of Alcohol on Larval Zebrafish:  A Genetic System for Large-Scale Screening|Pharmacol. Biochem. Behav.77(3): 647-654|2004|10.1016/j.pbb.2004.01.003
113197|T||Motes,C.M., P. Pechter, C.M. Yoo, Y.S. Wang, K.D. Chapman, and E.B. Blancaflor|Differential Effects of Two Phospholipase D Inhibitors, 1-Butanol and N-Acylethanolamine, on In Vivo Cytoskeletal Organization and Arabidopsis Seedling Growth|Protoplasma (Multiple Languages)226(3/4): 109-123|2005|10.1007/s00709-005-0124-4
113198|A||Hassan,S.M., E.A. Moussa, and L.C. Abbott|Effects of Quillaja Saponin (Quillaja saponaria) on Early Embryonic Zebrafish (Danio rerio) Development|Int. J. Toxicol.27(3): 273-278|2008|10.1080/10915810802152129
113199|T||Czokajlo,D., and S.A. Teale|Synergistic Effect of Ethanol to alpha-Pinene in Primary Attraction of the Larger Pine Shoot Beetle, Tomicus piniperda|J. Chem. Ecol.25(5): 1121-1130|1999|10.1023/A:1020838010648
113200|T||Claassens,M.M.J., J. Verhees, L.H.W. Van der Plas, A.R. Van der Krol, and D. Vreugdenhil|Ethanol Breaks Dormancy of the Potato Tuber Apical Bud|J. Exp. Bot.56(419): 2515-2525|2005|10.1093/jxb/eri245
113201|T||Chandler,C.J., B.Y. Ong, and D.S. Sitar|Hemodynamics After Hemorrhage During Acute Ethanol Intoxication in Newborn Piglets|Toxicol. Appl. Pharmacol.108(2): 214-222|1991|10.1016/0041-008X(91)90112-R
113202|T||Chandler,C.J., B.Y. Ong, and D.S. Sitar|Kinetic Disposition of Ethanol in the Neonatal Piglet and Hemodynamic Effects in the Presence and Absence of 4-Methylpyrazole|Toxicol. Appl. Pharmacol.99(2): 185-192|1989|10.1016/0041-008X(89)90001-X
113203|T||Berrettini,M., D. Fedeli, G. Falcioni, C. Bevilacqua, M. Massi, and C. Polidori|Hippocampal and Striated Skeletal Muscle Changes in Fatty Acid Composition Induced by Ethanol in Alcohol-Preferring Rats|Toxicology199(2-3): 161-168|2004|10.1016/j.tox.2004.02.023
113204|T||Charles,F., and S.F. Phillips|Effects of Ethanol, Xylose, and Glucose on Canine Jejunal Motility|Am. J. Physiol. Gasterointest. Liver Physiol.269(3, Pt. 1): G363 - G369|1995|10.1152/ajpgi.1995.269.3.G363
113205|T||Seitz,G.C.,Jr., and J.R. Heckman|Induced Alcohol Dehydrogenase Allelic Gene Frequency in Drosophila melanogaster Due to Environmental Ethanol|J. Penn. Acad. Sci.69(3): 83-87|1995|
113206|T||Rahman,H., S. Kentroti, and A. Vernadakis|Neuroblast Cell Death In Ovo and in Culture:  Interaction of Ethanol and Neurotrophic Factors|Neurochem. Res.19(12): 1495-1502|1994|10.1007/BF00968996
113207|T||Hartman,J.R., L.K. Dybas, and B.W. Geer|At High Dietary Levels Ethanol Alters the Structure of Mid- and Hindgut Epithelial Cells of Drosophila melanogaster Larvae|J. Exp. Zool.267(4): 365-376|1993|10.1002/jez.1402670403
113208|T||Aguilera,Y., M.E. Dorado, F.A. Prada, J.J. Martinez, A. Quesada, and V. Ruiz-Gutierrez|The Protective Role of Squalene in Alcohol Damage in the Chick Embryo Retina|Exp. Eye Res.80(4): 535-543|2005|10.1016/j.exer.2004.11.003
113209|T||Akay,M.T., and E.A. Kockaya|The Effects of Alcohol on Rat Placenta|Cell Biochem. Funct.23(6): 435-445|2005|10.1002/cbf.1175
113211|A||Ortiz-Santaliestra,M.E., A. Marco, M.J. Fernandez-Beneitez, and M. Lizana|Alteration of Courtship Behavior Because of Water Acidification and Minor Effect of Ammonium Nitrate in the Iberian Newt (Lissotriton boscai)|Environ. Toxicol. Chem.28(7): 1500-1505|2009|10.1897/08-580.1
113213|T||Stone,J.D., and G.P. Watterson|Impact of Blackmargined Aphid Control on Yield in Western Irrigated Pecan Orchards with Systemic Insecticides|J. Econ. Entomol.74(6): 741-744|1981|10.1093/jee/74.6.741
113214|T||Harvey,T.L., and H.L. Hackerott|Chemical Control of a Greenbug on Sorghum and Infestation Effects on Yields|J. Econ. Entomol.63(5): 1536-1539|1970|10.1093/jee/63.5.1536
113215|T||Harvey,T.L., T.J. Martin, and C.A. Thompson|Controlling Wheat Curl Mite and Wheat Streak Mosaic Virus with Systemic Insecticide|J. Econ. Entomol.72(6): 854-855|1979|10.1093/jee/72.6.854
113216|T||Pike,K.S., and M. Glazer|Compatibility of Insecticide-Fungicide Wheat Seed Treatments with Respect to Germination, Seedling Emergence, and Greenbug Control|J. Econ. Entomol.73(6): 759-761|1980|10.1093/jee/73.6.759
113217|T||Keaster,A.J., and M.L. Fairchild|Reduction of Corn Virus Disease Incidence and Control of Southwestern Corn Borer with Systemic Insecticides|J. Econ. Entomol.61(2): 367-369|1968|10.1093/jee/61.2.367
113218|T||Howland,A.F., J. Wilcox, L.I. Butler, and D.A. George|Organophosphorus Acaricides for Controlling the Two-Spotted Spider Mite on Strawberries|J. Econ. Entomol.62(4): 939-940|1969|10.1093/jee/62.4.939
113219|T||Morgan,L.W., J.W. Snow, and M.J. Peach|Chemical Thrips Control; Effects on Growth and Yield of Peanuts in Georgia|J. Econ. Entomol.63(4): 1253-1255|1970|10.1093/jee/63.4.1253
113220|T||Pree,D.J., D.R. Menzies, H.E. Braun, and R.W. Fisher|Influence of Simulated Rains on Phosmet Residues and Oriental Fruit Moth (Lepidoptera:  Tortricidae) Control on Peach|J. Econ. Entomol.77(2): 483-486|1984|10.1093/jee/77.2.483
113221|T||Miller,P.M., and J.B. Kring|Reduction of Nematode and Insect Damage to Potatoes by Band Application of Systemic Insecticides and Soil Fumigation|J. Econ. Entomol.63(1): 186-189|1970|10.1093/jee/63.1.186
113222|T||Hopkins,A.R., H.M. Taft, W. James, and C.E. Jernigan|Evaluation of Substitutes for DDT in Field Experiments for the Control of Bollworm and the Boll Weevil in Cotton:  1967-1969|J. Econ. Entomol.63(3): 848-850|1970|10.1093/jee/63.3.848
113223|T||Grafton-Cardwell,E.E., and C.A. Reagan|Selective Use of Insecticides for Control of Armored Scale (Homoptera:  Diaspididae) in San Joaquin Valley California Citrus|J. Econ. Entomol.88(6): 1717-1725|1995|10.1093/jee/88.6.1717
113224|T||Quisenberry,S.S., J.A. Lockwood, R.L. Byford, H.K. Wilson, and T.C. Sparks|Pyrethroid Resistance in the Horn Fly, Haematobia irritans (L.) (Diptera:  Muscidae)|J. Econ. Entomol.77(5): 1095-1098|1984|10.1093/jee/77.5.1095
113225|T||Frazar,E.D., and C.D. Schmidt|Susceptibility of Laboratory-Reared Horn Flies and Stable Flies to Selected Insecticides|J. Econ. Entomol.72(6): 884-886|1979|10.1093/jee/72.6.884
113226|T||Jones,V.P.|Does Pesticide-Induced Activity of Twospotted Spider Mite (Acari:  Tetranychidae) Really Contribute to Population Increases in Orchards?|J. Econ. Entomol.83(5): 1847-1852|1990|10.1093/jee/83.5.1847
113227|T||Hara,A.H., and H.K. Kaya|Development of the Entomogenous Nematode, Neoaplectana carpocapsae (Rhabditida: Steinernematidae), in Insecticide-Killed Beet Armyworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.76(3): 423-426|1983|10.1093/jee/76.3.423
113228|T||Whalon,M.E., and E.A. Elsner|Impact of Insecticides on Illinoia pepperi and Its Predators|J. Econ. Entomol.75(2): 356-358|1982|10.1093/jee/75.2.356
113229|T||Pitts,D.L., and E.P. Pieters|Toxicity of Chlordimeform and Methomyl to Predators of Heliothis spp. on Cotton|J. Econ. Entomol.75(2): 353-355|1982|10.1093/jee/75.2.353
113230|T||Haverty,M.I., and J.L. Robertson|Laboratory Bioassays for Selecting Candidate Insecticides and Application Rates for Field Tests on the Western Spruce Budworm|J. Econ. Entomol.75(2): 179-182|1982|10.1093/jee/75.2.179
113231|T||Koch,H.G., and H.E. Burkwhat|Susceptibility of the American Dog Tick (Acari:  Ixodidae) to Residues of Acaricides:  Laboratory Assays|J. Econ. Entomol.76(2): 337-339|1983|10.1093/jee/76.2.337
113232|T||Milio,J.F., P.G. Koehler, and R.S. Patterson|Evaluation of Three Methods for Detecting Chlorpyrifos Resistance in German Cockroach (Orthoptera:  Blattellidae) Populations|J. Econ. Entomol.80(1): 44-46|1987|10.1093/jee/80.1.44
113233|T||Robertson,J.L., and K.C. Smith|Joint Action of Pyrethroids with Organophosphorus and Carbamate Insecticides Applied to Western Spruce Budworm (Lepidoptera:  Tortricidae)|J. Econ. Entomol.77(1): 16-22|1984|10.1093/jee/77.1.16
113234|T||Nord,J.C., G.L. DeBarr, N.A. Overgaard, W.W. Neel, R.S. Cameron, and J.F. Godbees|High-Volume Applications of Azinphosmethyl, Fenvalerate, Permethrin, and Phosmet for Control of Coneworms (Lepidoptera:  Pyralidae) and Seed Bugs (Hemiptera:  Coreidae and Pentatomidae) in Southern Pine Seed Orchards|J. Econ. Entomol.77(6): 1589-1595|1984|10.1093/jee/77.6.1589
113235|T||Broadbent,A.B., and D.J. Pree|Effects of Diflubenzuron and BAY SIR 8514 on the Oriental Fruit Moth (Lepidoptera:  Olethreutidae) and the Obliquebanded Leafroller (Lepidoptera:  Tortricidae)|J. Econ. Entomol.77(1): 194-197|1984|10.1093/jee/77.1.194
113236|T||Drummond,R.O.|Control of Larvae of the Common Cattle Grub (Diptera:  Oestridae) with Animal Systemic Insecticides|J. Econ. Entomol.77(2): 402-406|1984|10.1093/jee/77.2.402
113237|T||Harding,J.A.|Field Tests of Chemicals for Control of the Poplar Petiole Gall Aphid on Cabbage|J. Econ. Entomol.64(1): 330-332|1971|10.1093/jee/64.1.330
113238|T||Hagstrum,D.W.|Laboratory Studies on the Effect of Several Insecticides on Tarentula kochi|J. Econ. Entomol.63(6): 1844-1847|1970|10.1093/jee/63.6.1844
113239|T||Drummond,R.O., W.J. Gladney, T.M. Whetstone, and S.E. Ernst|Laboratory Testing of Insecticides for Control of the Winter Tick|J. Econ. Entomol.64(3): 686-688|1971|10.1093/jee/64.3.686
113240|T||Drummond,R.O., W.J. Gladney, T.M. Whetstone, and S.E. Ernst|Testing of Insecticides Against the Tropical Horse Tick in the Laboratory|J. Econ. Entomol.64(5): 1164-1166|1971|10.1093/jee/64.5.1164
113241|T||Drummond,R.O., S.E. Ernst, J.L. Trevino, and O.H. Graham|Insecticides for Control of the Cattle Tick and the Southern Cattle Tick on Cattle|J. Econ. Entomol.61(2): 467-470|1968|10.1093/jee/61.2.467
113242|T||Harris,C.R., and F. Gore|Laboratory Tests on the Contact Toxicity of Some Insecticides to Adults of the Cabbage Flea Beetle, Phyllotreta cruciferae|J. Econ. Entomol.63(3): 1025-1026|1970|10.1093/jee/63.3.1025
113243|T||Harris,C.R.|Laboratory Studies on the Persistence of Biological Activity of Some Insecticides in Soils|J. Econ. Entomol.62(6): 1437-1441|1969|10.1093/jee/62.6.1437
113244|T||DePew,L.J.|Further Studies on Pale Western Cutworm Control in Kansas, 1968-69|J. Econ. Entomol.63(6): 1842-1844|1970|10.1093/jee/63.6.1842
113245|T||DePew,L.J.|Evaluation of Foliar and Soil Treatments for Greenbug Control on Sorghum|J. Econ. Entomol.64(1): 169-172|1971|10.1093/jee/64.1.169
113246|T||Brempong-Yeboah,C.Y., and N.D. Okoampah|A Field Experiment on the Effects of Some Insecticides on the Pests of Garden Egg (Solanum integrifolium) at Legon|Appl. Entomol. Zool.24(4): 343-348|1989|10.1303/aez.24.343
113247|A||Sumathi,V.P., and A.N. Chetty|Ambient Ammonia Clearance by Bivalve Mollusc Lamellidens corrianus (Lea)|Environ. Ecol.8(4): 1333-1334|1990|
113248|T||Siegert,F., and C. Weijer|Digital Image Processing of Optical Density Wave Propagation in Dictyostelium discoideum and Analysis of the Effects of Caffeine and Ammonia|J. Cell Sci.93(2): 325-335|1989|10.1242/jcs.93.2.325
113250|A||Thomas,T.E., and P.J. Harrison|Rapid Ammonium Uptake and Nitrogen Interactions in Five Intertidal Seaweeds Grown Under Field Conditions|J. Exp. Mar. Biol. Ecol.107(1): 1-8|1987|10.1016/0022-0981(87)90118-3
113251|A||Ortega,T., F. Castillo, J. Cardenas, and M. Losada|Inactivation by Ammonia of the Photosynthetic Reduction of Nitrate in Nostoc muscorum Particles|Biochem. Biophys. Res. Commun.75(4): 823-831|1977|10.1016/0006-291X(77)91456-5
113252|T||Dominick,C.B.|Evaluation of Systemic Insecticides for Green Peach Aphid Control on Tobacco|J. Econ. Entomol.64(6): 1565-1566|1971|10.1093/jee/64.6.1565
113253|T||Harris,C.R.|Cross-Resistance Shown by Susceptible and Aldrin-Resistant Strains of Seedcorn Maggots, Onion Maggots, and Cabbage Maggots to Chlordane|J. Econ. Entomol.65(2): 347-349|1972|10.1093/jee/65.2.347
113254|T||DePew,L.J.|Field Evaluation of Insecticides to Control Alfalfa Weevil in Kansas, 1967-68|J. Econ. Entomol.62(6): 1500-1501|1969|10.1093/jee/62.6.1500
113255|T||Day,A.|Initial Effectiveness and Residual Toxicity of Several Insecticides Against the Southern Potato Wireworm|J. Econ. Entomol.63(2): 511-513|1970|10.1093/jee/63.2.511
113256|T||Mistric,W.J.Jr., and F.D. Smith|Organophosphorus and Carbamate Insecticides as Substitutes for DDT in Controlling the Tobacco Flea Beetle on Flue-Cured Tobacco|J. Econ. Entomol.63(2): 509-511|1970|10.1093/jee/63.2.509
113257|T||Mascarenhas,R.N., and D.J. Boethel|Responses of Field-Collected Strains of Soybean Looper (Lepidoptera:  Noctuidae) to Selected Insecticides Using an Artificial Diet Overlay Bioassay|J. Econ. Entomol.90(5): 1117-1124|1997|10.1093/jee/90.5.1117
113258|T||Kotze,A.C., N. Sales, and I.M. Barchia|Diflubenzuron Tolerance Associated with Monooxygenase Activity in Field Strain Larvae of the Australian Sheep Blowfly (Diptera:  Calliphoridae)|J. Econ. Entomol.90(1): 15-20|1997|10.1093/jee/90.1.15
113259|T||Kearby,W.H., and M.,Jr. Bliss|Field Evaluation of Three Granular Systemic Insecticides for Control of the Aphids Eulachnus agilis and Cinara pinea on Scotch Pine|J. Econ. Entomol.62(1): 60-62|1969|10.1093/jee/62.1.60
113260|T||Hoyt,S.C.|Integrated Chemical Control of Insects and Biological Control of Mites on Apple in Washington|J. Econ. Entomol.62(1): 74-86|1969|10.1093/jee/62.1.74
113261|T||Judge,F.D., F.L. McEwen, and H.B.,Jr. Rinick|Field Testing Candidate Insecticides on Beans and Alfalfa for Control of Mexican Bean Beetle, Potato Leafhopper, and Plant Bugs in New York State|J. Econ. Entomol.63(1): 58-62|1970|10.1093/jee/63.1.58
113262|T||Kaakeh,W., B.L. Reid, N. Kaakeh, and G.W. Bennett|Rate Determination, Indirect Toxicity, Contact Activity, and Residual Persistence of Lufenuron for the Control of the German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.90(2): 510-522|1997|10.1093/jee/90.2.510
113263|T||Kaakeh,W., M.E. Scharf, and G.W. Bennett|Comparative Contact Activity and Residual Life of Juvenile Hormone Analogs Used for German Cockroach (Dictyoptera:  Blattellidae) Control|J. Econ. Entomol.90(5): 1247-1253|1997|10.1093/jee/90.5.1247
113264|T||Olinger,L.D., and S.H. Kerr|Effects of Dimethyl Sulfoxide on the Biological Activity of Selected Miticides and Insecticides|J. Econ. Entomol.62(2): 403-407|1969|10.1093/jee/62.2.403
113265|T||Randolph,N.M., M.V. Meisch, and G.L. Teetes|Effectiveness of Certain Insecticides Against the Sorghum Midge Based on a New Method of Determining Infestation|J. Econ. Entomol.64(1): 87-88|1971|10.1093/jee/64.1.87
113266|T||Schmidtmann,E.T., R.W. Miller, and R. Muller|Effect of Experimental Bedding Treatments on the Density of Immature Musca domestica and Stomoxys calcitrans (Diptera:  Muscidae) in Outdoor Calf Hutches|J. Econ. Entomol.82(4): 1134-1139|1989|10.1093/jee/82.4.1134
113267|T||Wadleigh,R.W., P.G. Koehler, and R.S. Patterson|Comparative Susceptibility of North American Blattella (Orthoptera:  Blattellidae) Species to Insecticides|J. Econ. Entomol.82(4): 1130-1133|1989|10.1093/jee/82.4.1130
113268|T||Hibbard,B.E., and L.B. Bjostad|Corn Semiochemicals and Their Effects on Insecticide Efficacy and Insecticide Repellency Toward Western Corn Rootworm Larvae (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.82(3): 773-781|1989|10.1093/jee/82.3.773
113269|T||Wayadande,A.C., and E.A. Backus|Feeding Behavior of the Potato Leafhopper (Homoptera:  Cicadellidae) on Chlordimeform- and Phosmet-Treated Alfalfa|J. Econ. Entomol.82(3): 766-772|1989|10.1093/jee/82.3.766
113270|T||Campanhola,C., and F.W.,Jr. Plapp|Toxicity and Synergism of Insecticides Against Susceptible and Pyrethroid-Resistant Third Instars of the Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.82(6): 1495-1501|1989|10.1093/jee/82.6.1495
113271|T||Brewer,M.J., and J.T. Trumble|Field Monitoring for Insecticide Resistance in Beet Armyworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.82(6): 1520-1526|1989|10.1093/jee/82.6.1520
113272|T||Preisler,H.K., and J.L. Robertson|Analysis of Time-Dose-Mortality Data|J. Econ. Entomol.82(6): 1534-1542|1989|10.1093/jee/82.6.1534
113273|T||Tabashnik,B.E., and N.L. Cushing|Quantitative Genetic Analysis of Insecticide Resistance:  Variation in Fenvalerate Tolerance in a Diamondback Moth (Lepidoptera:  Plutellidae) Population|J. Econ. Entomol.82(1): 5-10|1989|10.1093/jee/82.1.5
113274|T||Miller,J.A., and W.F. Chamberlain|Azadirachtin as a Larvicide Against the Horn Fly, Stable Fly, and House Fly (Diptera:  Muscidae)|J. Econ. Entomol.82(5): 1375-1378|1989|10.1093/jee/82.5.1375
113275|T||Hall,F.R., T. Badowska-Czubik, and A.J. Adams|Comparative Effects of Pyrethroids on Mortality and Feeding Damage of Cabbage Looper (Lepidoptera:  Noctuidae) Larvae on Cabbage|J. Econ. Entomol.83(4): 1510-1513|1990|10.1093/jee/83.4.1510
113276|T||Giblin-Davis,R.M., and F.W. Howard|Vulnerability of Stressed Palms to Attack by Rhynochophorus cruentatus (Coleoptera: Curculionidae) and Insecticidal Control of the Pest|J. Econ. Entomol.82(4): 1185-1190|1989|10.1093/jee/82.4.1185
113277|T||Welty,C., W.H. Reissig, T.J. Dennehy, and R.W. Weires|Activity of Clofentezine Against European Red Mite (Acari:  Tetranychidae)|J. Econ. Entomol.82(1): 197-203|1989|10.1093/jee/82.1.197
113278|T||Saxena,R.C., Z.R. Khan, and N.B. Bajet|Reduction of Tungro Virus Transmission by Nephotettix virescens (Homoptera: Cicadellidae) in Neem Cake-Treated Rice Seedlings|J. Econ. Entomol.80(5): 1079-1082|1987|10.1093/jee/80.5.1079
113279|T||Dowd,P.F., and T.C. Sparks|Relative Toxicity and Ester Hydrolysis of Pyrethroids in the Soybean Looper and Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.81(4): 1014-1018|1988|10.1093/jee/81.4.1014
113280|T||Brenner,R.J., P.G. Koehler, and R.S. Patterson|Integration of Fenoxycarb into a German Cockroach (Orthoptera:  Blattellidae) Management Program|J. Econ. Entomol.81(5): 1404-1407|1988|10.1093/jee/81.5.1404
113281|T||Zungoli,P.A., E.P. Benson, and D.M. Chambers|Arena Test for Evaluating Chemical Repellency in Blattella germanica (L.) (Orthoptera:  Blattellidae)|J. Econ. Entomol.81(1): 391-395|1988|10.1093/jee/81.1.391
113282|T||Schouest,L.P.,Jr., and T.A. Miller|Factors Influencing Pyrethroid Toxicity in Pink Bollworm (Lepidoptera:  Gelechiidae):  Implications for Resistance Management|J. Econ. Entomol.81(2): 431-436|1988|10.1093/jee/81.2.431
113283|T||Moore,A., B.E. Tabashnik, and J.D. Stark|Leg Autotomy:  A Novel Mechanism of Protection Against Insecticide Poisoning in Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.82(5): 1295-1298|1989|10.1093/jee/82.5.1295
113284|T||Kaakeh,W., B.L. Reid, T.J. Bohnert, and G.W. Bennett|Toxicity of Imidacloprid in the German Cockroach (Dictyoptera: Blattellidae), and the Synergism Between Imidacloprid and Metarhizium anisopliae (Imperfect Fungi: Hyphomycetes)|J. Econ. Entomol.90(2): 473-482|1997|10.1093/jee/90.2.473
113285|T||Kramer,K.J., and H.E. McGregor|Activity of Pyridyl and Phenyl Ether Analogues of Juvenile Horme Against Coleoptera and Lepidoptera in Stored Grain|J. Econ. Entomol.71(1): 132-134|1978|10.1093/jee/71.1.132
113286|T||Lawrence,K.O., M.G. Klein, and T.L.Jr. Ladd|Adult Japanese Beetles:  Evaluation of Insecticides for Control|J. Econ. Entomol.66(2): 477-479|1973|10.1093/jee/66.2.477
113287|T||Lingren,P.D., D.A. Wolfenbarger, J.B. Nosky, and M.,Jr. Diaz|Response of Campoletis perdistinctus and Apanteles marginiventris to Insecticides|J. Econ. Entomol.65(5): 1295-1299|1972|10.1093/jee/65.5.1295
113288|T||Bhirud,K.M., and H.N. Pitre|Comparative Susceptibility of Three Cicadellid Vectors of the Corn Stunt Disease Agent to Carbofuran and Disulfoton in Greenhouse Tests|J. Econ. Entomol.65(5): 1236-1238|1972|10.1093/jee/65.5.1236
113289|T||Burbutis,P.P., C.P. Davis, L.P. Kelsey, and C.E. Martin|Control of Green Peach Aphid on Sweet Peppers in Delaware|J. Econ. Entomol.65(5): 1436-1438|1972|10.1093/jee/65.5.1436
113290|T||Cate,J.R.,Jr., D.G. Bottrell, and G.L. Teetes|Management of the Greenbug on Grain Sorghum.  2.  Testing Seed and Soil Treatments for Greenbug and Corn Leaf Aphid Control|J. Econ. Entomol.66(4): 953-959|1973|10.1093/jee/66.4.953
113291|T||Cate,J.R.,Jr., R.L. Ridgway, and P.D. Lingren|Effects of Systemic Insecticides Applied to Cotton on Adults of an Ichneumonid Parasite, Campoletis perdistinctus|J. Econ. Entomol.65(2): 484-488|1972|10.1093/jee/65.2.484
113292|T||Chalfant,R.B.|Cowpea Cuculio:  Control in Southern Georgia|J. Econ. Entomol.66(3): 727-729|1973|10.1093/jee/66.3.727
113293|A||Crossland,N.O.|A Review of the Fate and Toxicity of 3,4-Dichloroaniline in Aquatic Environments|Chemosphere21(12): 1489-1497|1990|10.1016/0045-6535(90)90054-W
113294|T||Shahabi,A., M.J. Malakouti, and E. Fallahi|Effects of Bicarbonate Content of Irrigation Water on Nutritional Disorders of Some Apple Varieties|J. Plant Nutr.28(9): 1663-1678|2005|10.1080/01904160500203630
113295|T||Darnell,R.L., and S.A. Hiss|Uptake and Assimilation of Nitrate and Iron in Two Vaccinium Species as Affected by External Nitrate Concentration|J. Am. Soc. Hortic. Sci.131(1): 5-10|2006|10.21273/JASHS.131.1.5
113296|A||Hoeger,B., D.R. Dietrich, D. Schmid, A. Hartmann, and B. Hitzfeld|Distribution of Intraperitoneally Injected Diclofenac in Brown Trout (Salmo trutta f. fario)|Ecotoxicol. Environ. Saf.71(2): 412-418|2008|10.1016/j.ecoenv.2007.10.020
113297|A||Masakorala,K., A. Turner, and M.T. Brown|Influence of Synthetic Surfactants on the Uptake of Pd, Cd and Pb by the Marine Macroalga, Ulva lactuca|Environ. Pollut.156(3): 897-904|2008|10.1016/j.envpol.2008.05.030
113298|A||Bhakta,J.N., and Y. Munekage|Role of Ecosystem Components in Cd Removal Process of Aquatic Ecosystem|Ecol. Eng.32(3): 274-280|2008|10.1016/j.ecoleng.2007.12.004
113299|A||Orihel,D.M., M.J. Paterson, P.J. Blanchfield, R.A. Bodaly, C.C. Gilmour, and H. Hintelmann|Temporal Changes in the Distribution, Methylation, and Bioaccumulation of Newly Deposited Mercury in an Aquatic Ecosystem|Environ. Pollut.154(1): 77-88|2008|10.1016/j.envpol.2007.12.030
113300|A||Brunelli,E., E. Talarico, B. Corapi, I. Perrotta, and S. Tripepi|Effects of a Sublethal Concentration of Sodium Lauryl Sulphate on the Morphology and Na+/K+ ATPase Activity in the Gill of the Ornate Wrasse (Thalassoma pavo)|Ecotoxicol. Environ. Saf.71(2): 436-445|2008|10.1016/j.ecoenv.2007.09.010
113301|A||Aniagu,S.O., T.D. Williams, Y. Allen, I. Katsiadaki, and J.K. Chipman|Global Genomic Methylation Levels in the Liver and Gonads of the Three-Spine Stickleback (Gasterosteus aculeatus) After Exposure to Hexabromocyclododecane and 17-beta Oestradiol|Environ. Int.34(3): 310-317|2008|10.1016/j.envint.2007.03.009
113302|A||Duchemin,M.B., M. Auffret, N. Wessel, M. Fortier, Y. Morin, J. Pellerin, and M. Fournier|Multiple Experimental Approaches of Immunotoxic Effects of Mercury Chloride in the Blue Mussel, Mytilus edulis, Through In Vivo, In Tubo and In Vitro Exposures|Environ. Pollut.153(2): 416-423|2008|10.1016/j.envpol.2007.08.015
113303|A||Halldorsson,H.P., M. De Pirro, C. Romano, J. Svavarsson, and G. Sara|Immediate Biomarker Responses to Benzo[a]pyrene in Polluted and Unpolluted Populations of the Blue Mussel (Mytilus edulis L.) at High-Latitudes|Environ. Int.34(4): 483-489|2008|10.1016/j.envint.2007.11.002
113304|A||Gesto,M., A. Tintos, J.L. Soengas, and J.M. Miguez|Beta-Naphthoflavone and Benzo(a)pyrene Alter Dopaminergic, Noradrenergic, and Serotonergic Systems in Brain and Pituitary of Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.72(1): 191-198|2009|10.1016/j.ecoenv.2008.03.007
113305|A||Hong,Y., H.Y. Hu, and F.M. Li|Physiological and Biochemical Effects of Allelochemical Ethyl 2-Methyl Acetoacetate (EMA) on Cyanobacterium Microcystis aeruginosa|Ecotoxicol. Environ. Saf.71(2): 527-534|2008|10.1016/j.ecoenv.2007.10.010
113306|T||Imperato-McGinley,J., R.S. Sanchez, J.R. Spencer, B. Yee, and E.D. Vaughan|Comparison of the Effects of 5 alpha-Reductase Inhibitor Finasteride and the Antiandrogen Flutamide on Prostate and Genital Differentiation:  Dose-Response Studies|Endocrinology131(3): 1149-1156|1992|10.1210/endo.131.3.1324152
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113310|T||Liu,F., G.G. Ying, L.H. Yang, and Q.X. Zhou|Terrestrial Ecotoxicological Effects of the Antimicrobial Agent Triclosan|Ecotoxicol. Environ. Saf.72(1): 86-92|2009|10.1016/j.ecoenv.2008.06.009
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113397|T||Berberet,R.C., J.F. Stritzke, and A.K. Dowdy|Interactions of Alfalfa Weevil (Coleoptera: Curculionidae) and Weeds in Reducing Yield and Stand of Alfalfa|J. Econ. Entomol.80(6): 1306-1313|1987|10.1093/jee/80.6.1306
113398|T||Oseto,C.Y., and G.A. Braness|Chemical Control and Bioeconomics of Smicronyx fulvus on Cultivated Sunflower in North Dakota|J. Econ. Entomol.73(2): 218-220|1980|10.1093/jee/73.2.218
113399|T||Watters,F.L., N.D.G. White, and O. Cote|Effect of Temperature on Toxicity and Persistence of Three Pyrethroid Insecticides Applied to Fir Plywood for the Control of the Red Flour Beetle (Coleoptera:  Tenebrionidae)|J. Econ. Entomol.76(1): 11-16|1983|10.1093/jee/76.1.11
113400|T||Parrella,M.P., G.D. Christie, and K.L. Robb|Compatibility of Insect Growth Regulators and Chrysocharis parksi (Hymenoptera:  Eulophidae) for the Control of Liriomyza trifolii (Diptera:   Agromyzidae)|J. Econ. Entomol.76(4): 949-951|1983|10.1093/jee/76.4.949
113401|T||Jones,A.S., F.L. Hastings, and C.J. Kislow|Evaluation of 12 Insecticides for Remedial Efficacy Against Southern Pine Beetle Adults|J. Econ. Entomol.73(5): 736-738|1980|10.1093/jee/73.5.736
113402|T||Mize,T., G. Wilde, and M.T. Smith|Chemical Control of Chinch Bug and Greenbug on Seedling Sorghum with Seed, Soil, and Foliar Treatments|J. Econ. Entomol.73(4): 544-547|1980|10.1093/jee/73.4.544
113403|T||Menzies,D.R., D.J. Pree, and R.W. Fisher|Role of Pesticide and Dye Concentrations in the Visual Assessment of Pesticide Deposits as Related to Oriental Fruit Moth Control|J. Econ. Entomol.73(5): 617-619|1980|10.1093/jee/73.5.617
113404|T||Penman,D.R., R.B. Chapman, and M.H. Bowie|Direct Toxicity and Repellent Activity of Pyrethroids Against Tetranychus urticae (Acari:  Tetranychidae)|J. Econ. Entomol.79(5): 1183-1187|1986|10.1093/jee/79.5.1183
113405|T||Pree,D.J., D.B. Marshall, and D.E. Archibald|Resistance to Pyrethroid Insecticides in the Spotted Tentiform Leafminer, Phyllonorycter blancardella (Lepidoptera: Gracillariidae), in Southern Ontario|J. Econ. Entomol.79(2): 318-322|1986|10.1093/jee/79.2.318
113406|T||Barnard,D.R., B.G. Jones, G.D. Rogers, and G.A. Mount|Acaricide Susceptibility in the Lone Star Tick:  Assay Techniques and Baseline Data|J. Econ. Entomol.74(4): 466-469|1981|10.1093/jee/74.4.466
113407|T||Parrella,M.P., J.P. McCaffrey, and R.L. Horsburgh|Population Trends of Selected Phytophagous Arthropods and Predators Under Different Pesticide Programs in Virginia Apple Orchards|J. Econ. Entomol.74(4): 492-498|1981|10.1093/jee/74.4.492
113408|T||Robertson,J.L., and M.I. Haverty|Multiphase Laboratory Bioassays to Select Chemicals for Field-Testing on the Western Spruce Budworm|J. Econ. Entomol.74(2): 148-153|1981|10.1093/jee/74.2.148
113409|T||Harris,C.R., and H.J. Svec|Susceptibility of the Colorado Potato Beetle in Ontario to Insecticides|J. Econ. Entomol.69(5): 625-629|1976|10.1093/jee/69.5.625
113410|T||Hopkins,A.R., H.M. Taft, and W. James|Reference LD50 Values for Some Insecticides Against the Boll Weevil|J. Econ. Entomol.68(2): 189-192|1975|10.1093/jee/68.2.189
113411|T||Gemrich,E.G., B.L. Lee II, M.L. Tripp, and E. VandeStreek|Relationship Between Formamidine Structure and Insecticidal, Miticidal, and Ovicidal Activity|J. Econ. Entomol.69(3): 301-306|1976|10.1093/jee/69.3.301
113412|T||Ward,C.R., and F.M. Tan|Organophosphate Resistance in the Banks Grass Mite|J. Econ. Entomol.70(2): 250-252|1977|10.1093/jee/70.2.250
113413|T||Watve,C.M., D.F. Clower, and J.B. Graves|Resistance to Methyl Parathion and Monocrotophos in the Banded-Wing Whitefly in Louisiana|J. Econ. Entomol.70(2): 263-266|1977|10.1093/jee/70.2.263
113414|T||Araya,I.E., and J.E. Foster|Control of Rhopalosiphum padi (Homoptera:  Aphididae) in Selected Wheat and Oat Cultivars with Seed Systemic Insecticides in the Greenhouse|J. Econ. Entomol.80(6): 1272-1277|1987|10.1093/jee/80.6.1272
113415|T||Pree,D.J.|Inheritance and Management of Cyhexatin and Dicofol Resistane in the European Red Mite (Acari:  Tetranychidae)|J. Econ. Entomol.80(6): 1106-1112|1987|10.1093/jee/80.6.1106
113416|T||Roberts,S.J., L.R. Zavaleta, A.H. Grube, E.J. Armbrust, and R.D. Pausch|Evaluation of a Pest Control Technique:  Fall-Spray Control of Alfalfa Weevil (Coleoptera:  Curculionidae) in Alfalfa Fields|J. Econ. Entomol.80(4): 859-866|1987|10.1093/jee/80.4.859
113417|T||Meyer,J.A., W.D. McKeen, and B.A. Mullens|Factors Affecting Control of Fannia-spp. (Diptera:  Muscidae) with Cyromazine Feed-Through on Caged-Layer Facilities in Southern California|J. Econ. Entomol.80(4): 817-821|1987|10.1093/jee/80.4.817
113418|T||Brown,M.A.|Temperature-Dependent Pyrethroid Resistance in a Pyrethroid-Selected Colony of Heliothis virescens (F.) (Lepidoptera:  Noctuidae)|J. Econ. Entomol.80(2): 330-332|1987|10.1093/jee/80.2.330
113419|T||Mason,G.A., M.W. Johnson, and B.E. Tabashnik|Susceptibility of Liriomyza-Sativae and L. Trifolii (Diptera:  Agromyzidae) to Permethrin and Fenvalerate|J. Econ. Entomol.80(6): 1262-1266|1987|10.1093/jee/80.6.1262
113420|T||Tabashnik,B.E., N.L. Cushing, and M.W. Johnson|Diamondback Moth (Lepidoptera:  Plutellidae) Resistance to Insecticides in Hawaii:  Intra-Island Variation and Cross-Resistance|J. Econ. Entomol.80(6): 1091-1099|1987|10.1093/jee/80.6.1091
113421|T||Zehnder,G.W.|Timing of Insecticides for Control of Colorado Potato Beetle (Coleoptera:  Chrysomelidae) in Eastern Virginia Based on Differential Susceptibility of Life Stages|J. Econ. Entomol.79(3): 851-856|1986|10.1093/jee/79.3.851
113422|T||Gelernter,W.D., N.C. Toscano, K. Kido, and B.A. Federici|Comparison of a Nuclear Polyhedrosis Virus and Chemical Insecticides for Control of the Beet Armyworm (Lepidoptera:  Noctuidae) on Head Lettuce|J. Econ. Entomol.79(3): 714-717|1986|10.1093/jee/79.3.714
113423|T||Wildman,T.E., and W.W. Cone|Drip Chemigation of Asparagus with Disulfoton:  Brachycorynella asparagi (Homoptera:  Aphididae) Control and Disulfoton Degradation|J. Econ. Entomol.79(6): 1617-1620|1986|10.1093/jee/79.6.1617
113424|T||Neal,J.W.,Jr., M.S. McIntosh, and K.M. Gott|Toxicity of Clofentezine Against the Twospotted and Carmine Spider Mites (Acari: Tetranychidae)|J. Econ. Entomol.79(2): 479-483|1986|10.1093/jee/79.2.479
113425|T||Martel,P., G. Boivin, and J. Belcourt|Efficacy and Persistence of Different Insecticides Against the Tarnished Plant Bug, Lygus lineolaris (Heteroptera:  Miridae), on a Season-Long Host Plant, Coronilla varia|J. Econ. Entomol.79(3): 721-725|1986|10.1093/jee/79.3.721
113426|T||Veierov,D., A. Fenigstein, and M. Klein|Effects of Residue Type on Persistence and Biological Activity of Foliar Fenpropathrin|J. Econ. Entomol.84(2): 390-396|1991|10.1093/jee/84.2.390
113427|T||Hogsette,J.A., D.L. Prichard, and J.P. Ruff|Economic Effects of Horn Fly (Diptera:  Muscidae) Populations on Beef Cattle Exposed to Three Pesticide Treatment Regimes|J. Econ. Entomol.84(4): 1270-1274|1991|10.1093/jee/84.4.1270
113428|T||Brewer,M.J., and J.T. Trumble|Classifying Resistance Severity in Field Populations: Sampling Inspection Plans for an Insecticide Resistance Monitoring Program|J. Econ. Entomol.84(2): 379-389|1991|10.1093/jee/84.2.379
113430|T||Capinera,J.L., N.D. Epsky, and L.L. Turick|Responses of Melanoplus sanguinipes and M. differentialis (Orthoptera:  Acrididae) to Fenoxycarb|J. Econ. Entomol.84(4): 1163-1168|1991|10.1093/jee/84.4.1163
113431|T||Brewer,M.J., and J.T. Trumble|Inheritance and Fitness Consequences of Resistance to Fenvalerate in Spodoptera exigua (Lepidoptera:  Noctuidae)|J. Econ. Entomol.84(6): 1638-1644|1991|10.1093/jee/84.6.1638
113432|T||Crosby,B.L., R.L. Byford, and T.C. Sparks|Bioassay for Detecting Active Site Insensitivity in Horn Fly (Diptera:  Muscidae) Larvae|J. Econ. Entomol.84(2): 367-370|1991|10.1093/jee/84.2.367
113433|T||Kotze,A.C.|Effects of Cyromazine on Reproduction and Offspring Development in Lucilia cuprina (Diptera:  Calliphoridae)|J. Econ. Entomol.85(5): 1614-1617|1992|10.1093/jee/85.5.1614
113434|T||Daly,J.C.|Decline in Survival with Age of Resistant Adult Helicoverpa armigera (Lepidoptera:  Noctuidae) at a Discriminating Dose of the Pyrethroid Fenvalerate|J. Econ. Entomol.85(5): 1583-1586|1992|10.1093/jee/85.5.1583
113435|T||Moore,A., B.E. Tabashnik, and M.D. Rethwisch|Sublethal Effects of Fenvalerate on Adults of the Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.85(5): 1624-1627|1992|10.1093/jee/85.5.1624
113436|T||Hribar,L.J., D.J. Leprince, and L.D. Foil|Feeding Sites of Some Louisiana tabanidae (Diptera) on Fenvalerate-Treated and Control Cattle|J. Econ. Entomol.85(6): 2279-2285|1992|10.1093/jee/85.6.2279
113438|T||Byford,R.L., J.A. Lockwood, S.M. Smith, T.C. Sparks, and D.G. Luther|Insecticide Mixtures as an Approach to the Management of Pyrethroid-Resistant Horn Flies (Diptera: Muscidae)|J. Econ. Entomol.80(1): 111-116|1987|10.1093/jee/80.1.111
113439|T||Chiba,M., J.H.H. Phillips, and M.D. Roberts|Lethal Residues of Seven Insecticides for Control of Tarnished Plant Bug Determined by Four Methods|J. Econ. Entomol.71(2): 369-372|1978|10.1093/jee/71.2.369
113440|T||Linduska,J.J.|Insecticides Applied to the Soil for Control of Wireworms on Sweet Potatoes in Maryland|J. Econ. Entomol.72(1): 24-26|1979|10.1093/jee/72.1.24
113441|T||Byers,R.A., J.W.,Jr. Neal, J.H.,Jr. Elgin, K.R. Hill, J.E. McMurtrey III, and J. Feldmesser|Systemic Insecticides with Spring-Seeded Alfalfa for Control of Potato Leafhopper|J. Econ. Entomol.70(3): 337-340|1977|10.1093/jee/70.3.337
113442|T||Boethel,D.J.|Dosage-Mortality Data on the Pecan Leaf Scorch Mite|J. Econ. Entomol.71(6): 854-855|1978|10.1093/jee/71.6.854
113443|T||Friedel,T.|Cyromazine Inhibits Larval Development of the Dog Flea, Ctenocephalides canis (Siphonaptera:  Pulicidae)|J. Econ. Entomol.79(3): 697-699|1986|10.1093/jee/79.3.697
113444|T||Heinrichs,E.A., H.R. Rapusas, G.B. Aquino, and F. Palis|Integration of Host Plant Resistance and Insecticides in the Control of Nephotettix virescens (Homoptera:  Cicadellidae), a Vector of Rice Tungro Virus|J. Econ. Entomol.79(2): 437-443|1986|10.1093/jee/79.2.437
113445|T||Menzies,D.R., D.J. Pree, R.W. Fisher, and D. Chisholm|Correlation of Spray Coverage Ratings, and Phosmet Residues with Mortality of Oriental Fruit Moth Larvae|J. Econ. Entomol.72(5): 721-724|1979|10.1093/jee/72.5.721
113446|T||Croft,B.A., J. Briozzo, and J.B. Carbonell|Resistance to Organophosphorus Insecticides in a Predaceous Mite, Amblyseius chilenensis|J. Econ. Entomol.69(5): 563-565|1976|10.1093/jee/69.5.563
113447|T||Croft,B.A., A.W.A. Brown, and S.A. Hoying|Organophosphorus-Resistance and Its Inheritance in the Predaceous Mite Amblyseius fallacis|J. Econ. Entomol.69(1): 64-68|1976|10.1093/jee/69.1.64
113448|T||Smith,J.L., and M.K. Rust|Tunneling Response and Mortality of the Western Subterranean Termite (Isoptera:  Rhinotermitidae) to Soil Treated with Termiticides|J. Econ. Entomol.83(4): 1395-1401|1990|10.1093/jee/83.4.1395
113449|T||Shen,J., and F.W.,Jr. Plapp|Cyromazine Resistance in the House Fly (Diptera: Muscidae): Genetics and Cross-Resistance to Diflubenzuron|J. Econ. Entomol.83(5): 1689-1697|1990|10.1093/jee/83.5.1689
113450|T||Foster,D.E., W.B. Showers, W.H. Hendrix III, W.K. Wintersteen, and J.W. Bing|Effect of Incorporation on the Efficacy of Selected Pyrethroids for Control of Black Cutworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.83(5): 2073-2077|1990|10.1093/jee/83.5.2073
113451|T||Heim,D.C., G.G. Kennedy, and J.W. Van Duyn|Survey of Insecticide Resistance Among North Carolina Colorado Potato Beetle (Coleoptera:  Chrysomelidae) Populations|J. Econ. Entomol.83(4): 1229-1235|1990|10.1093/jee/83.4.1229
113452|T||Oatman,E.R., J.A. Wyman, R.A. Van Steenwyk, and M.W. Johnson|Integrated Control of the Tomato Fruitworm (Lepidoptera:  Noctuidae) and Other Lepidopterous Pests on Fresh-Market Tomatoes in Southern California|J. Econ. Entomol.76(6): 1363-1369|1983|10.1093/jee/76.6.1363
113453|T||Pree,D.J., D.R. Menzies, and R.W. Fisher|Effects of Rainfall on Persistence of Phosmet Residues on Peach:  Implications for Integrated Pest Management Programs|J. Econ. Entomol.74(5): 535-538|1981|10.1093/jee/74.5.535
113454|T||Hall,R.D., and M.C. Foehse|Laboratory and Field Tests of CGA-72662 for Control of the House Fly and Face Fly in Poultry, Bovine, or Swine Manure|J. Econ. Entomol.73(4): 564-569|1980|10.1093/jee/73.4.564
113455|T||Schuster,D.J.|Tomato Pinworm:  Reduction of Egg Hatch with Insecticides|J. Econ. Entomol.75(1): 144-146|1982|10.1093/jee/75.1.144
113456|T||Mayo,Z.B.|Influences of Rainfall and Sprinkler Irrigation on the Residual Activity of Insecticides Applied to Corn for Control of Adult Western Corn Rootworm (Coleoptera:  Chrysomelidae)|J. Econ. Entomol.77(1): 190-193|1984|10.1093/jee/77.1.190
113458|T||Walgenbach,J.F., C.S. Gorsuch, and D.L. Horton|Adult Phenology and Management of Spotted Tentiform Leafminer (Lepidoptera: Gracillariidae) in North Carolina, South Carolina, and Georgia|J. Econ. Entomol.83(3): 985-994|1990|10.1093/jee/83.3.985
113459|T||Rathman,R.J., M.W. Johnson, J.A. Rosenheim, and B.E. Tabashnik|Carbamate and Pyrethroid Resistance in the Leafminer Parasitoid Diglyphus begini (Hymenoptera: Eulophidae)|J. Econ. Entomol.83(6): 2153-2158|1990|10.1093/jee/83.6.2153
113460|T||McCutcheon,G.S., S.G. Turnipseed, and M.J. Sullivan|Parasitization of Lepidopterans as Affected by Nematicide-Insecticide Use in Soybean|J. Econ. Entomol.83(3): 1002-1007|1990|10.1093/jee/83.3.1002
113461|T||Roush,R.T., and F.W. Plapp|Biochemical Genetics of Resistance to Aryl Carbamate Insecticides in the Predaceous Mite, Metaseiulus occidentalis|J. Econ. Entomol.75(2): 304-307|1982|10.1093/jee/75.2.304
113462|T||Bariola,L.A., and P.D. Lingren|Comparative Toxicities of Selected Insecticides Against Pink Bollworm (Lepidoptera:  Gelechiidae) Moths|J. Econ. Entomol.77(1): 207-210|1984|10.1093/jee/77.1.207
113463|T||Martinez-Carrillo,J.L., and H.T. Reynolds|Dosage-Mortality Studies with Pyrethroids and Other Insecticides on the Tobacco Budworm (Lepidoptera:  Noctuidae) from the Imperial Valley, California|J. Econ. Entomol.76(5): 983-986|1983|10.1093/jee/76.5.983
113464|T||Tappan,W.B., and D.W. Gorbet|Economics of Tobacco Thrips Control with Systemic Pesticides on Florunner Peanuts in Florida|J. Econ. Entomol.74(3): 283-286|1981|10.1093/jee/74.3.283
113465|T||Eckenrode,C.J.|Influence of Potato Leafhopper Control on Kidney Beans in New York|J. Econ. Entomol.74(5): 510-513|1981|10.1093/jee/74.5.510
113466|T||Hogmire,H.W., T.A. Baugher, V.L. Crim, and S.I. Walter|Effects and Control of Periodical Cicada (Homoptera:  Cicadidae) Oviposition Injury on Nonbearing Apple Trees|J. Econ. Entomol.83(6): 2401-2404|1990|10.1093/jee/83.6.2401
113467|T||Powell,D.M.|Control of the Green Peach Aphid on Potatoes with Soil Systemic Insecticides:  Preplant Broadcast and Planting Time Furrow Applications, 1973-77|J. Econ. Entomol.73(6): 839-843|1980|10.1093/jee/73.6.839
113468|T||Drummond,R.O.|Susceptibility of the Cayenne Tick to Acaricides|J. Econ. Entomol.74(4): 470-472|1981|10.1093/jee/74.4.470
113469|T||Ware,G.W., B. Estesen, and W.P. Cahill|Dislodgable Insecticide Residues on Cotton|Bull. Environ. Contam. Toxicol.14(5): 606-609|1975|10.1007/BF01683379
113470|A||Sun,L., J. Qian, H. Zhou, J. Li, B. Shen, Q. Gao, B. Shen, and C. Zhu|Continuous, Mixed, and Alternating Exposure to Deltamethrin and Fenthion Affect Development of Resistance in Culex pipiens pallens in China|Am. Mosq. Control Assoc. J.23(3): 330-334|2007|10.2987/8756-971X(2007)23[330:CMAAET]2.0.CO;2
113471|AT||Rodriguez,M.M., J.A. Bisset, Y. De Armas, and F. Ramos|Pyrethroid Insecticide-Resistant Strain of Aedes aegypti from Cuba Induced by Deltamethrin Selection|Am. Mosq. Control Assoc. J.21(4): 437-445|2005|10.2987/8756-971X(2006)21[437:PISOAA]2.0.CO;2
113472|T||Tabaldi,L.A., G.Y. Castro, D. Cargnelutti, E.C. Skrebsky, J.F. Goncalves, R. Rauber, L. Rossato, M.R.C. Schetinger, D.A|Micronutrient Concentration in Potato Clones with Distinct Physiological Sensitivity to Al Stress (Concentracao de Micronutrientes em Clones de Batata com Distinta Sensibilidade Fisiologica ao Estresse de Aluminio)|Ciencia Rural39(2): 379-385|2008|10.1590/S0103-84782008005000065
113473|T||Goncalves,J.F., L.A. Tabaldi, D. Cargnelutti, L.B. Pereira, J. Maldaner, A.G. Becker, L.V. Rossata, R. Rauber, M.D. Bag|Cadmium-Induced Oxidative Stress in Two Potato Cultivars|BioMetals:14 p.|2009|
113474|T||Pereira,L.B., L.A. Tabaldi, J.F. Goncalves, G.O. Jucoski, M.M. Pauletto, S.N. Weis, F.T. Nicoloso, D. Borher, J.B.T. Ro|Effect of Aluminum on delta-Aminolevulinic Acid Dehydratase (ALA-D) and the Development of Cucumber (Cucumis sativus)|Environ. Exp. Bot.57:106-115|2006|10.1016/j.envexpbot.2005.05.004
113475|A||Arellano-Aguilar,O., and C. Macias Garcia|Exposure to Pesticides Impairs the Expression of Fish Ornaments Reducing the Availability of Attractive Males|Proc. R. Soc. Lond. Ser. B Biol. Sci.275(1640): 1343-1350|2008|
113476|A||Karuppasamy,R., S. Subathra, and S. Puvaneswari|Haematological Responses to Exposure to Sublethal Concentration of Cadmium in Air Breathing Fish, Channa punctatus (Bloch)|J. Environ. Biol.26(1): 123-128|2005|
113477|A||Spencer,H.B., W.R. Hussein, and P.B. Tchounwou|Growth Inhibition in Japanese Medaka (Oryzias latipes) Fish Exposed to Tetrachloroethylene|J. Environ. Biol.27(1): 1-5|2006|
113478|A||Kumar,A., and A.K. Gupta|Acute Toxicity of Mercury to the Fingerlings of Indian Major Carps (Catla, Rohu and Mrigal) in Relation to Water Hardness and Temperature|J. Environ. Biol.27(1): 89-92|2006|
113479|A||Singh,P.B., V. Singh, S. Srivastava, and S. Pandey|Effects of Estradiol-17beta and 17alpha ,20beta -Dihydroxy-4-Pregnen-3-One on Different Phospholipids Metabolism and Histological Changes in Ovary During Reproductive Growth in the Catfish, Heteropneustes fossilis (Bloc|J. Environ. Biol.28(4): 771-778|2007|
113480|T||Skov,M.J., J.C. Beck, A.W. De Kater, and G.M. Shopp|Nonclinical Safety of Ziconotide:  An Intrathecal Analgesic of a New Pharmaceutical Class|Int. J. Toxicol.26(5): 411-421|2007|10.1080/10915810701582970
113481|T||Valentine,W.M., K.E. Hill, L.M. Austin, H.L. Valentine, D. Goldowitz, and R.F. Burk|Brainstem Axonal Degeneration in Mice with Deletion of Selenoprotein P|Toxicol. Pathol.33(5): 570-576|2005|10.1080/01926230500243045
113482|A||Fang,J., Q. Guan, W. Chen, L. Zhu, and Z. Fan|Effect of Nitrobenzene on the Embryo Development of Bighead and Silver Carp|J. Northeast Agric. Univ.15(1): 34-37|2008|
113483|A||Dorigo,U., C. Leboulanger, A. Berard, A. Bouchez, J.F. Humbert, and B. Montuelle|Lotic Biofilm Community Structure and Pesticide Tolerance Along a Contamination Gradient in a Vineyard Area|Aquat. Microb. Ecol.50(1): 91-102|2007|10.3354/ame01133
113484|T||Butkauskas,D., and A. Sruoga|Effect of Lead and Chromium on Reproductive Success of Japanese Quail|Environ. Toxicol.19(4): 412-415|2004|10.1002/tox.20021
113485|A||Xue,Y., L. Jiang, N. Su, J.K. Wang, P. Deng, J.F. Ma, H.Q. Zhai, and J.M. Wan|The Genetic Basic and Fine-Mapping of a Stable Quantitative-Trait Loci for Aluminium Tolerance in Rice|Planta (Multiple Languages)227(1): 255-262|2007|10.1007/s00425-007-0613-0
113486|A||Egido,W., V. Castrejon, B. Anton, and M. Martinez|Maitotoxin Induces Two Dose-Dependent Conductances in Xenopus oocytes. Comparison with Nystatin Effects as a Pore Inductor|Toxicon51(5): 797-812|2008|10.1016/j.toxicon.2007.12.013
113487|T||Showalter,L.A., S.A. Weinman, M. Osterlie, and S.F. Lockwood|Plasma Appearance and Tissue Accumulation of Non-esterified, Free Astaxanthin in C57BL/6 Mice After Oral Dosing of a Disodium Disuccinate Diester of Astaxanthin (Heptax)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.137(3): 227-236|2004|10.1016/j.cca.2003.12.006
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113576|T||Guo,D.P., G. Ali Shah, G.W. Zeng, and S.J. Zheng|The Interaction of Plant Growth Regulators and Vernalization on the Growth and Flowering of Cauliflower (Brassica oleracea var. Botrytis)|Plant Growth Regul.43(2): 163-171|2004|10.1023/B:GROW.0000040114.84122.11
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113578|T||Clor,M.A., A.S. Crafts, and S. Yamaguchi|Effects of High Humidity on Translocation of Foliar-Applied Labeled Compounds in Plants.  II.  Translocation from Starved Leaves|Plant Physiol.38:501-507|1963|10.1104/pp.38.5.501
113579|T||Clor,M.A., A.S. Crafts, and S. Yamaguchi|Effects of High Humidity on Translocation of Foliar-Applied Labeled Compounds in Plants.  Part I|Plant Physiol.37:609-617|1962|10.1104/pp.37.5.609
113580|T||Haque,S., A.H.A. Farooqi, M.M. Gupta, R.S. Sangwan, and A. Khan|Effect of Ethrel, Chlormequat Chloride and Paclobutrazol on Growth and Pyrethrins Accumulation in Chrysanthemum cinerariaefolium Vis.|Plant Growth Regul.51(3): 263-269|2007|10.1007/s10725-007-9170-6
113581|T||Gaj,M.D., A. Trojanowska, A. Ujczak, M. Medrek, A. Koziol, and B. Garbaciak|Hormone-Response Mutants of Arabidopsis thaliana (L.) Heynh.  Impaired in Somatic Embryogenesis|Plant Growth Regul.49(2-3): 183-197|2006|10.1007/s10725-006-9104-8
113582|T||Legard,D.E., S.J. MacKenzie, J.C. Mertely, C.K. Chandler, and N.A. Peres|Development of a Reduced Use Fungicide Program for Control of Botrytis Fruit Rot on Annual Winter Strawberry|Plant Dis.89(12): 1353-1358|2005|10.1094/PD-89-1353
113583|T||Lorenzo,J.C., M.D.L.A. Blanco, O. Pelaez, A. Gonzalez, M. Cid, A. Iglesias, B. Gonzalez, M. Escalona, P. Espinosa, and |Sugarcane Micropropagation and Phenolic Excretion|Plant Cell Tissue Organ Cult.65(1): 1-8|2001|10.1023/A:1010666115337
113584|T||Mahalakshmi,A., B. Singla, J.P. Khurana, and P. Khurana|Role of Calcium-Calmodulin in Auxin-Induced Somatic Embryogenesis in Leaf Base Cultures of Wheat (Triticum aestivum var. HD 2329)|Plant Cell Tissue Organ Cult.34(2): 167-174|2007|10.1007/s11240-006-9186-z
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113586|T||Shimabukuro,R.H.|Atrazine Metabolism in Resistant Corn and Sorghum|Plant Physiol.43(12): 1925-1930|1968|10.1104/pp.43.12.1925
113587|T||Thibaud-Nissen,F., R.T. Shealy, A. Khanna, and L.O. Vodkin|Clustering of Microarray Data Reveals Transcript Patterns Associated with Somatic Embryogenesis in Soybean|Plant Physiol.132(1): 118-136|2003|10.1104/pp.103.019968
113589|T||Xiao,C.L., C.K. Chandler, J.F. Price, J.R. Duval, J.C. Mertely, and D.E. Legard|Comparison of Epidemics of Botrytis Fruit Rot and Powdery Mildew of Strawberry in Large Plastic Tunnel and Field Production Systems|Plant Dis.85(8): 901-909|2001|10.1094/PDIS.2001.85.8.901
113590|T||Zhang,Y., S. Schwarz, H. Saedler, and P. Huijser|SPL8, a Local Regulator in a Subset of Gibberellin-Mediated Developmental Processes in Arabidopsis|Plant Mol. Biol.63(3): 429-439|2007|10.1007/s11103-006-9099-6
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113598|T||Rusuku,G., P. Lepoivre, M. Meulemans, and J. Semal|Effects of Triphenylphosphite on Bean Rust Development|Plant Dis.68(2): 154-156|1984|10.1094/PD-69-154
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113600|T||Ferrandino,F.J., and W.H. Elmer|Reduction in Tomato Yield Due to Septoria Leaf Spot|Plant Dis.76(2): 208-211|1992|10.1094/PD-76-0208
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113604|T||Sohn,O.S., L. Blackwell, J. Mathis, W.W. Asaad, B.S. Reddy, and K. El-Bayoumy|Excretion and Tissue Distribution of Selenium Following Treatment of Male F344 Rats with Benzylselenocyanate or Sodium Selenite|Drug Metab. Dispos.19(5): 865-870|1991|
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113607|T||Chang,H.R., S.S. Chen, C.K. Ho, H.C. Chiang, J.T. Cheng, T.J. Chen, and H.S. Yu|The beta-Adrenoceptors and Catecholamine Levels in Lead Poisoned Rats|Environ. Toxicol. Pharmacol.2(1): 69-72|1996|10.1016/1382-6689(96)00009-9
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113611|T||Vadez,V., and T.R. Sinclair|Sensitivity of N2 Fixation Traits in Soybean Cultivar Jackson to Manganese|Crop Sci.42(3): 791-796|2002|
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113616|A||Coffinet,S., C. Cossu-Leguille, A. Basseres, J.F. Gonnet, and P. Vasseur|Artificial Streams in the Assessment of Environmental Hazard of Chemicals|Environ. Toxicol.21(5): 450-456|2006|10.1002/tox.20206
113617|T||Hou,F.X., H.F. Yang, T. Yu, and W. Chen|The Immunosuppressive Effects of 10 mg/kg Cyclophosphamide in Wistar Rats|Environ. Toxicol. Pharmacol.24(1): 30-36|2007|10.1016/j.etap.2007.01.004
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113619|T||Mubarak,M., and A.A. Sharkawy|Toxopathology of Gout Induced in Laying Pullets by Sodium Bicarbonate Toxicity|Environ. Toxicol. Pharmacol.7(4): 227-236|1999|10.1016/S1382-6689(99)00020-4
113620|T||Yao,G., and Y. Hou|Nonylphenol Induces Thymocyte Apoptosis Through Fas/FasL Pathway by Mimicking Estrogen In Vivo|Environ. Toxicol. Pharmacol.17(1): 19-27|2004|10.1016/j.etap.2004.01.006
113621|T||Izumi,N., R. Yanagibori, S. Shigeno, and J. Sajiki|Effects of Bisphenol A on the Development, Growth and Sex Ratio of the Housefly Musca domestica|Environ. Toxicol. Chem.27(6): 1343-1353|2008|10.1897/07-218.1
113622|T||Fritsch,C., R. Scheifler, K. Beaugelin-Seiller, P. Hubert, M. Coeurdassier, A. De Vaufleury, and P.M. Badot|Biotic Interactions Modify the Transfer of Cesium-137 in a Soil-Earthworm-Plant-Snail Food Web|Environ. Toxicol. Chem.27(8): 1698-1707|2008|10.1897/07-416.1
113623|T||Bazar,M.A., M.J.,Jr. Quinn, K. Mozzachio, and M.S. Johnson|Toxicological Responses of Red-Backed Salamanders (Plethodon cinereus) to Subchronic Soil Exposures of 2,4,6-Trinitrotoluene|Environ. Toxicol. Chem.27(6): 1393-1398|2008|10.1897/07-547.1
113625|T||Zhang,K., and Q. Zhou|Toxic Effects of Al-Based Coagulants on Brassica chinensis and Raphanus sativus Growing in Acid and Neutral Conditions|Environ. Toxicol.20(2): 179-187|2005|10.1002/tox.20093
113626|T||Cervantes,M.C., J.T. David, D.R. Loyd, J.A. Salinas, and Y. Delville|Lead Exposure Alters the Development of Agonistic Behavior in Golden Hamsters|Dev. Psychobiol.47(2): 158-165|2005|10.1002/dev.20076
113627|T||Sandner,G., R.C.B. Silva, M.J. Angst, J. Knobloch, and J.M. Danion|Prenatal Exposure of Long-Evans Rats to 17alpha-Ethinylestradiol Modifies Neither Latent Inhibition nor Prepulse Inhibition of the Startle Reflex but Elicits Minor Deficits in Exploratory Behavior|Brain Res. Dev. Brain Res.152(2): 177-187|2004|10.1016/j.devbrainres.2004.06.013
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113629|T||Huang,R., H. Okuno, M. Takasu, Y. Shiozaki, and K. Inoue|Comparison of Effects of Xenobiotics on Extrahepatic and Hepatic Microsomal Drug-Metabolizing Enzymes in Mice|Environ. Toxicol. Pharmacol.1(2): 123-130|1996|10.1016/1382-6689(95)00018-6
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113631|A||Del-Campo Marin,C.M., and G. Oron|Boron Removal by the Duckweed Lemna gibba:  A Potential Method for the Remediation of Boron-Polluted Waters|Water Res.41(20): 4579-4584|2007|10.1016/j.watres.2007.06.051
113632|A||Quiblier,C., C. Leboulanger, S. San, and P. Dufour|Phytoplankton Growth Control and Risk of Cyanobacterial Blooms in the Lower Senegal River Delta Region|Water Res.42(4/5): 1023-1034|2008|10.1016/j.watres.2007.09.030
113633|T||Goudey-Perriere,F., F. Lemonnier, V. Bergougnoux, and C. Perriere|Low Doses of the Pesticide Lindane Induce Protein Release by the Fat Body of Female Cockroach Blaberus craniifer (Dictyoptera)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(4): 492-501|2007|10.1016/j.cbpc.2007.06.001
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113636|T||Heckman,J.R., B.B. Clarke, and J.A. Murphy|Optimizing Manganese Fertilization for the Suppression of Take-All Patch Disease on Creeping Bentgrass|Crop Sci.43(4): 1395-1398|2003|10.2135/cropsci2003.1395
113638|AT||Kulesza,A.E., and J.R. Holomuzki|Amphipod Performance Responses to Decaying Leaf Litter of Phragmites australis and Typha angustifolia from a Lake Erie Coastal Marsh|Wetlands26(4): 1079-1088|2006|10.1672/0277-5212(2006)26[1079:APRTDL]2.0.CO;2
113639|A||Srivastava,A.K., P. Singh, and A.K. Singh|Sensitivity of the Mitotic Cells of Barley (Hordeum vulgare L.) to Insecticides on Various Stages of Cell Cycle|Pestic. Biochem. Physiol.91(3): 186-190|2008|10.1016/j.pestbp.2008.04.002
113640|T||Markussen,M.D.K., A.C. Heiberg, M. Fredholm, and M. Kristensen|Identification of Cytochrome P450 Differentiated Expression Related to Developmental Stages in Bromadiolone Resistance in Rats (Rattus norvegicus)|Pestic. Biochem. Physiol.91(3): 147-152|2008|10.1016/j.pestbp.2008.03.004
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113642|T||Tchernitchin,N.N., A. Clavero, M.A. Mena, C. Unda, R. Villagra, M. Cumsille, and A.N. Tchernitchin|Effect of Chronic Exposure to Lead on Estrogen Action in the Prepubertal Rat Uterus|Environ. Toxicol.18(4): 268-277|2003|10.1002/tox.10124
113643|T||Buono,S., L. Cristiano, B. D'Angelo, A. Cimini, and R. Putti|PPARa Mediates the Effects of the Pesticide Methyl Thiophanate on Liver of the Lizard Podarcis sicula|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.145(3): 306-314|2007|10.1016/j.cbpc.2006.12.016
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113649|A||Phillips,G.R.|Some Quantitative Aspects of Mercury Accumulation by Rainbow Trout|Ph.D.Thesis, Oregon State University, Corvallis, OR:129 p.|1976|
113651|T||Kramer,U., I.J. Pickering, R.C. Prince, I. Raskin, and D.E. Salt|Subcellular Localization and Speciation of Nickel in Hyperaccumulator and Non-Accumulator Thlaspi Species|Plant Physiol.122(4): 1343-1353|2000|10.1104/pp.122.4.1343
113652|T||Gardner,G., H.L. Gorton, and S.A. Brown|Inhibition of Phytochrome Synthesis by the Transaminase Inhibitor, 4-Amino-5-Fluoropentanoic Acid|Plant Physiol.87(1): 8-10|1988|10.1104/pp.87.1.8
113653|T||Inman,O.L., G. Barclay, and M. Hubbard|Effect if Titanous Chloride on the Formation of Chlorophyll in Zea mays|Plant Physiol.10:821-822|1935|10.1104/pp.10.4.821
113654|T||Eastin,E.F.|Movement and Fate of p-Nitrophenyl-alpha,alpha,alpha-Trifluoro-2-Nitro-p Tolyl Ether-1'-14C in Peanut Seedlings|Plant Physiol.44:1397-1401|1969|10.1104/pp.44.10.1397
113655|T||Ambler,J.E., and J.C. Brown|Iron-Stress Response in Mixed and Monocultures of Soybean Cultivars|Plant Physiol.50:675-678|1972|10.1104/pp.50.6.675
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113661|A||Sung,H.H., and Y.Z. Ye|Effect of Nonylphenol on Giant Freshwater Prawn (Macrobrachium rosenbergii) via Oral Treatment:  Toxicity and Messenger RNA Expression of Hemocyte Genes|Aquat. Toxicol.91(3): 270-277|2009|10.1016/j.aquatox.2008.11.017
113662|A||Sebire,M., Y. Allen, P. Bersuder, and I. Katsiadaki|The Model Anti-androgen Flutamide Suppresses the Expression of Typical Male Stickleback Reproductive Behaviour|Aquat. Toxicol.90(1): 37-47|2008|10.1016/j.aquatox.2008.07.016
113663|T||Suwa,R., K. Jayachandran, N. Nguyen, A. Boulenouar, K. Fujita, and H. Saneoka|Barium Toxicity Effects in Soybean Plants|Arch. Environ. Contam. Toxicol.55(3): 397-403|2008|10.1007/s00244-008-9132-7
113664|A||Rowe,C.L., A. Heyes, and W. Hopkins|Effects of Dietary Vanadium on Growth and Lipid Storage in a Larval Anuran:  Results from Studies Employing ad libitum and Rationed Feeding|Aquat. Toxicol.91(2): 179-186|2009|10.1016/j.aquatox.2008.06.002
113665|A||Rasmussen,J.J., N. Friberg, and S.E. Larsen|Impact of lambda-Cyhalothrin on a Macroinvertebrate Assemblage in Outdoor Experimental Channels:  Implications for Ecosystem Functioning|Aquat. Toxicol.90(3): 228-234|2008|10.1016/j.aquatox.2008.09.003
113666|A||Porsbring,T., H. Blanck, H. Tjellstrom, and T. Backhaus|Toxicity of the Pharmaceutical Clotrimazole to Marine Microalgal Communities|Aquat. Toxicol.91(3): 203-211|2009|10.1016/j.aquatox.2008.11.003
113667|T||Pardo Andreu,G.I., N.M. Inada, A.E. Vercesi, and C. Curti|Uncoupling and Oxidative Stress in Liver Mitochondria Isolated from Rats with Acute Iron Overload|Arch. Toxicol.83(1): 47-53|2009|10.1007/s00204-008-0322-x
113668|A||Oweson,C., H. Skold, A. Pinsino, V. Matranga, and B. Hernroth|Manganese Effects on Haematopoietic Cells and Circulating Coelomocytes of Asterias rubens (Linnaeus)|Aquat. Toxicol.89(2): 75-81|2008|10.1016/j.aquatox.2008.05.016
113670|A||Ng,T.Y.T., J.S. Klinck, and C.M. Wood|Does Dietary Ca Protect Against Toxicity of a Low Dietborne Cd Exposure to the Rainbow Trout?|Aquat. Toxicol.91(1): 75-86|2009|10.1016/j.aquatox.2008.10.008
113671|A||Man,A.K.Y., and N.Y.S. Woo|Upregulation of Metallothionein and Glucose-6-Phosphate Dehydrogenase Expression in Silver Sea Bream, Sparus sarba Exposed to Sublethal Levels of Cadmium|Aquat. Toxicol.89(4): 214-221|2008|10.1016/j.aquatox.2008.07.002
113672|A||Liu,Y., J. Wang, Y. Wei, H. Zhang, M. Xu, and J. Dai|Induction of Time-Dependent Oxidative Stress and Related Transcriptional Effects of Perfluorododecanoic Acid in Zebrafish Liver|Aquat. Toxicol.89(4): 242-250|2008|10.1016/j.aquatox.2008.07.009
113673|T||Liu,J., Q. Wu, Y.F. Lu, and J. Pi|New Insights into Generalized Hepatoprotective Effects of Oleanolic Acid:  Key Roles of Metallothionein and Nrf2 Induction|Biochem. Pharmacol.76(7): 922-928|2008|10.1016/j.bcp.2008.07.021
113674|A||Li,H., J. Zhang, T. Wang, W. Luo, Q. Zhou, and G.Z. Jiang|Elemental Selenium Particles at Nano-Size (Nano-Se) are more Toxic to Medaka (Oryzias latipes) as a Consequence of Hyper-Accumulation of Selenium:  A Comparison with Sodium Selenite|Aquat. Toxicol.89(4): 251-256|2008|10.1016/j.aquatox.2008.07.008
113675|A||Kim,J., Y. Park, and K. Choi|Phototoxicity and Oxidative Stress Responses in Daphnia magna Under Exposure to Sulfathiazole and Environmental Level Ultraviolet B Irradiation|Aquat. Toxicol.91(1): 87-94|2009|10.1016/j.aquatox.2008.10.006
113676|A||Jos,A., G. Repetto, J.C. Rios, A. Del Peso, M. Salquero, and A.M. Camean|Aquatic Toxicity Assessment of the Additive 6-Methylcoumarine Using Four Experimental Systems|Arch. Environ. Contam. Toxicol.56(1): 52-59|2009|10.1007/s00244-008-9165-y
113677|A||Jonsson,M.E., B. Brunstrom, and I. Brandt|The Zebrafish Gill Model:  Induction of CYP1A, EROD and PAH Adduct Formation|Aquat. Toxicol.91(1): 62-70|2009|10.1016/j.aquatox.2008.10.010
113678|A||Ivanina,A.V., C. Taylor, and I.M. Sokolova|Effects of Elevated Temperature and Cadmium Exposure on Stress Protein Response in Eastern Oysters Crassostrea virginica (Gmelin)|Aquat. Toxicol.91(3): 245-254|2009|10.1016/j.aquatox.2008.11.016
113679|A||Hong,Y., H.Y. Hu, X. Xie, A. Sakoda, M. Sagehashi, and F.M. Li|Gramine-Induced Growth Inhibition, Oxidative Damage and Antioxidant Responses in Freshwater Cyanobacterium Microcystis aeruginosa|Aquat. Toxicol.91(3): 262-269|2009|10.1016/j.aquatox.2008.11.014
113680|A||Honda,R.T., M. Fernandes-de-Castilho, and A.L. Val|Cadmium-Induced Disruption of Environmental Exploration and Chemical Communication in Matrinxa, Brycon amazonicus|Aquat. Toxicol.89(3): 204-206|2008|10.1016/j.aquatox.2008.07.001
113681|T||Heinz,G.H., D.J. Hoffman, J.D. Klimstra, K.R. Stebbins, S.L. Kondrad, and C.A. Erwin|Species Differences in the Sensitivity of Avian Embryos to Methylmercury|Arch. Environ. Contam. Toxicol.56(1): 129-138|2009|10.1007/s00244-008-9160-3
113682|A||Hashimoto,S., E. Watanabe, M. Ikeda, Y. Terao, C.A. Strussmann, M. Inoue, and A. Hara|Effects of Ethinylestradiol on Medaka (Oryzias latipes) as Measured by Sperm Motility and Fertilization Success|Arch. Environ. Contam. Toxicol.56(2): 253-259|2009|10.1007/s00244-008-9183-9
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113685|A||Lyssimachou,A., J. Bachmann, and C. Porte|Short-Term Exposure to the Organotin Compound Triphenyltin Modulates Esterified Steroid Levels in Females of Marisa cornuarietis|Aquat. Toxicol.89(2): 129-135|2008|10.1016/j.aquatox.2008.06.009
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113688|T||Deng,L., M. Xu, H. Cao, and J. Dai|Ecotoxicological Effects of Buprofezin on Fecundity, Growth, Development, and Predation of the Wolf Spider Pirata piratoides (Schenkel)|Arch. Environ. Contam. Toxicol.55(4): 652-658|2008|10.1007/s00244-008-9149-y
113691|A||Olmstead,A.W., P.A. Kosian, J.J. Korte, G.W. Holcombe, K.K. Woodis, and S.J. Degitz|Sex Reversal of the Amphibian, Xenopus tropicalis, Following Larval Exposure to an Aromatase Inhibitor|Aquat. Toxicol.91(2): 143-150|2009|10.1016/j.aquatox.2008.07.018
113692|A||Coronado,M., H. De Haro, X. Deng, M.A. Rempel, R. Lavado, and D. Schlenk|Estrogenic Activity and Reproductive Effects of the UV-Filter Oxybenzone (2-Hydroxy-4-Methoxyphenyl-Methanone) in Fish|Aquat. Toxicol.90(3): 182-187|2008|10.1016/j.aquatox.2008.08.018
113693|T||Ikbal,C., M.B. Halima-Kamel, and M.H.B. Hamouda|Insect Growth Regulator Activity of Cestrum Parquisaponins:  An Interaction with Cholesterol Metabolism|Commun. Agric. Appl. Biol. Sci.71(2, Pt. B): 489-496|2006|
113694|T||Jaber,K., L. Paquereau, D. Fournier, E. Haubruge, and F. Francis|Use of Artificial Diet System to Assess the Potential Bio-insecticide Effect of a Fungal Lectin from Xerocomus chrysenteron (XCL) on Myzur persicae|Commun. Agric. Appl. Biol. Sci.71(2b): 497-505|2006|
113695|T||Bullangpoti,V., S. Visetson, M. Milne, J. Milne, S. Pornbanlualap, C. Sudthongkong, and S. Tayapat|The Novel Botanical Insecticide for the Control Brown Planthopper (Nilaparvata lugens Stal.)|Commun. Agric. Appl. Biol. Sci.71(2b): 475-481|2006|
113696|T||Kaludjerovic,J., and W.E. Ward|Diethylstilbesterol has Gender-Specific Effects on Weight Gain and Bone Development in Mice|J. Toxicol. Environ. Health Part A71(15): 1032-1042|2008|10.1080/15287390801988947
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113764|T||Fox,I., G.A. Rivera, and I.G. Bayona|Controlling Cat Fleas with Dichlorvos-Impregnated Collars|J. Econ. Entomol.62(5): 1246-1249|1969|10.1093/jee/62.5.1246a
113765|T||Harris,C.R., H.J. Svec, and W.W. Sans|Toxicological Studies on Cutworms.  II.  Field Studies on the Control of the Dark-Sided Cutworm with Soil Insecticides|J. Econ. Entomol.61(4): 961-965|1968|10.1093/jee/61.4.961
113766|T||Grissom,R.E.,Jr., T. Konno, N. Motoyama, and W.C. Dauterman|Comparison Between In Vivo and In Vitro Cutaneous Penetration of Fenvalerate in Tobacco Budworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.82(1): 41-44|1989|10.1093/jee/82.1.41
113767|T||Plapp,F.W.,Jr., and J.E. Casida|Genetic Control of House Fly NADPH-Dependent Oxidases: Relation to Insecticide Chemical Metabolism and Resistance|J. Econ. Entomol.62(5): 1174-1179|1969|10.1093/jee/62.5.1174
113768|T||Grout,T.G., and G.I. Richards|Effect of Buprofezin Applications at Different Phenological Times on California Red Scale (Homoptera:  Diaspididae)|J. Econ. Entomol.84(6): 1802-1805|1991|10.1093/jee/84.6.1802
113769|T||Weires,R.W., W.H. Reissig, and F.J. McNicholas|Control of Orthosia hibisci on Apple|J. Econ. Entomol.73(5): 748-751|1980|10.1093/jee/73.5.748
113770|T||Chung,T.C., C.N. Sun, and C.Y. Hung|Resistance of Nilaparvata lugens to Six Insecticides in Taiwan|J. Econ. Entomol.75(2): 199-200|1982|10.1093/jee/75.2.199
113771|T||Mulla,M.S., and H. Axelrod|Evaluation of Larvadex, a New IGR for the Control of Pestiferous Flies on Poultry Ranches|J. Econ. Entomol.76(3): 520-524|1983|10.1093/jee/76.3.520
113772|T||Dobrin,G.C., and R.B. Hammond|Residual Activity of Selected Insecticides Against the Adult Mexican Bean Beetle (Coleoptera:  Coccinellidae) on Soybeans|J. Econ. Entomol.76(6): 1456-1459|1983|10.1093/jee/76.6.1456
113773|T||Elhag,E.A., and D.J. Horn|Resistance of Greenhouse Whitefly (Homoptera:  Aleyrodidae) to Insecticides in Selected Ohio Greenhouses|J. Econ. Entomol.76(4): 945-948|1983|10.1093/jee/76.4.945
113774|T||Stern,V.M., and J.A. Johnson|Biology and Control of the Grape Bud Beetle, Glyptoscelis squamulata (Coleoptera:  Chrysomelidae), in Southern California Table Grapes|J. Econ. Entomol.77(5): 1327-1334|1984|10.1093/jee/77.5.1327
113775|T||Brown,T.M., K. Bryson, and G.T. Payne|Pyrethroid Susceptibility in Methyl Parathion-Resistant Tobacco Budworm in South Carolina|J. Econ. Entomol.75(2): 301-303|1982|10.1093/jee/75.2.301
113776|T||Tabashnik,B.E., B.A. Croft, and J.A. Rosenheim|Spatial Scale of Fenvalerate Resistance in Pear Psylla (Homoptera:  Psyllidae) and Its Relationship to Treatment History|J. Econ. Entomol.83(4): 1177-1183|1990|10.1093/jee/83.4.1177
113778|T||Dittrich,V., G.H. Ernst, O. Ruesch, and S. Uk|Resistance Mechanisms in Sweetpotato Whitefly (Homoptera:  Aleyrodidae) Populations from Sudan, Turkey, Guatemala, and Nicaragua|J. Econ. Entomol.83(5): 1665-1670|1990|10.1093/jee/83.5.1665
113779|T||Cutler,G.C., C.D. Scott-Dupree, J.H. Tolman, and C.R. Harris|Toxicity of the Insect Growth Regulator Novaluron to the Non-Target Predatory Bug Podisus maculiventris (Heteroptera:  Pentatomidae)|Biol. Control38(2): 196-204|2006|10.1016/j.biocontrol.2005.12.016
113780|T||Kaspi,R., and M.P. Parrella|Abamectin Compatibility with the Leafminer Parasitoid Diglyphus isaea|Biol. Control35(2): 172-179|2005|10.1016/j.biocontrol.2005.07.021
113781|T||Torres-Vila,L.M., M.C. Rodriguez-Molina, A. Lacasa-Plasencia, and P. Bielza-Lino|Insecticide Resistance of Helicoverpa armigera to Endosulfan, Carbamates and Organophosphates: The Spanish Case|Crop Prot.21(10): 1003-1013|2002|10.1016/S0261-2194(02)00081-9
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113783|A||Agris,P.F.|Comparative Effects of a Lampricide and of Anoxia on the Sea Lamprey|J. Fish. Res. Board Can.24(8): 1819-1822|1967|10.1139/f67-148
113784|A||Young,R.F., W.V. Wismer, and P.M. Fedorak|Estimating Naphthenic Acids Concentrations in Laboratory-Exposed Fish and in Fish from the Wild|Chemosphere73(4): 498-505|2008|10.1016/j.chemosphere.2008.06.040
113785|T||Pozniak,C.J., and P.J. Hucl|Genetic Analysis of Imidazolinone Resistance in Mutation-Derived Lines of Common Wheat|Crop Sci.44(1): 23-30|2004|
113786|T||Seo,J., S. Kato, T. Tatsuma, S. Chino, K. Takada, and H. Notsu|Biosensing of an Indoor Volatile Organic Compound on the Basis of Fungal Growth|Chemosphere72(9): 1286-1291|2008|10.1016/j.chemosphere.2008.04.063
113787|A||Smith,K.A., and A.A. Grigarick|Triflumuron:  Residual Activity and Ovicidal Longevity in the Rice Water Weevil (Coleoptera:  Curculionidae)|J. Econ. Entomol.82(2): 645-648|1989|10.1093/jee/82.2.645
113788|T||Stadelbacher,E.A., R.E. Furr, and M.L. Lester|Bollworms and Tobacco Budworms:  Mortality of Adults Exposed to Insecticides on Cotton|J. Econ. Entomol.65(6): 1682-1683|1972|10.1093/jee/65.6.1682
113789|T||Sharma,S.K., and V.K.R. Shinde|Toxicity of Some Pesticides to Grubs of Lachnosterna consanguinea|J. Econ. Entomol.63(5): 1662-1663|1970|10.1093/jee/63.5.1662
113790|T||Shelton,A.M., J.L. Robertson, J.D. Tang, C. Perez, S.D. Eigenbrode, H.K. Preisler, W.T. Wilsey, and R.J. Cooley|Resistance of Diamondback Moth (Lepidoptera:  Plutellidae) to Bacillus thuringiensis Subspecies in the Field|J. Econ. Entomol.86(3): 697-705|1993|10.1093/jee/86.3.697
113791|T||Shirck,F.H., and B.J. Landis|Rates of Absorption and Translocation of Some Systemic Insecticides in Broccoli Determined by Mortality of Feeding Green Peach Aphid|J. Econ. Entomol.63(3): 781-782|1970|10.1093/jee/63.3.781
113792|T||Sechriest,R.E., H.B. Petty, and D.E. Kuhlman|Toxicity of Selected Insecticides to Clivina impressifrons|J. Econ. Entomol.64(1): 210-213|1971|10.1093/jee/64.1.210
113793|A||Davies,L.C., C.C. Carias, J.M. Novais, and S. Martins-Dias|Phytoremediation of Textile Effluents Containing Azo Dye by Using Phragmites australis in a Vertical Flow Intermittent Feeding Constructed Wetland|Ecol. Eng.25(5): 594-605|2005|10.1016/j.ecoleng.2005.07.003
113794|A||Intwala,A., T.D. Patey, D.M. Polet, and M.R. Twiss|Nutritive Substitution of Zinc by Cadmium and Cobalt in Phytoplankton Isolated from the Lower Great Lakes|J. Great Lakes Res.34(1): 1-11|2008|10.3394/0380-1330(2008)34[1:NSOZBC]2.0.CO;2
113795|T||Skorska,E., and M. Swarcewicz|Comparison of Some Adjuvants Efficacy with Azoprim and Buramet Using Chlorophyll Fluorescence|Commun. Agric. Appl. Biol. Sci.71(2a): 141-146|2006|
113796|T||Kilani-Morakchi,S., N. Aribi, J.P. Farine, G. Smagghe, and N. Soltani|Cuticular Hydrocarbon Profiles in Blattella germanica:  Effects of Halofenozide, Boric Acid and Benfuracarb|Commun. Agric. Appl. Biol. Sci.71(2b): 555-562|2006|
113797|T||Rattanapan,A., S. Visetson, L. Ngernsiri, and J. Milne|Efficiency of Thai Derris Extract and Cypermethrin:  Toxicity and Detoxification Enzyme Mechanism in the Tropical Armyworm, Spodoptera litura F.|Commun. Agric. Appl. Biol. Sci.71(2b): 329-337|2006|
113798|T||Schneider,M.I., P. Pineda, and G. Smagghe|Side Effects of Conventional and Non-Conventional Insecticides on Eggs and Larvae of Chrysoperla externa (Hagen) (Neuroptera:  Chrysopidae) in Argentine|Commun. Agric. Appl. Biol. Sci.71(2b): 425-427|2006|
113799|T||Jiang,Y., B. Yang, N.S. Harris, and M.K. Deyholos|Comparative Proteomic Analysis of NaCl Stress-Responsive Proteins in Arabidopsis Roots|J. Exp. Bot.58(13): 3591-3607|2007|10.1093/jxb/erm207
113800|T||Naik,D.J., V.V. Belavadi, and D. Thippesha|Efficacy of Neem Products and Insecticides for the Control of Shoot Fly Formosina flavipes Mall. of Cardamom (Elettaria cardamomum Maton.)|Commun. Agric. Appl. Biol. Sci.71(2b): 483-487|2006|
113801|T||Buntin,G.D., and J.H. Bouton|Alfalfa Weevil (Coleoptera:  Curculionidae) Management in Alfalfa by Spring Grazing with Cattle|J. Econ. Entomol.89(6): 1631-1637|1996|10.1093/jee/89.6.1631
113802|T||Dekeyser,M.A., P.T. McDonald, G.W.,Jr. Angle, D.M. Borth, and R.G.H. Downer|Insecticidal, Miticidal, and Ovicidal Activity of 5,6-Dihydro-4H-1,3,4-Oxadiazines|J. Econ. Entomol.86(5): 1339-1343|1993|10.1093/jee/86.5.1339
113803|T||Tsagkarakou,A., M. Navajas, J. Lagnel, J. Gutierrez, and N. Pasteur|Genetic Variability in Tetranychus urticae (Acari:  Tetranychidae) from Greece:  Insecticide Resistance and Isozymes|J. Econ. Entomol.89(6): 1354-1358|1996|10.1093/jee/89.6.1354
113804|T||Noetzel,D.M., J. Miller, and B. Holder|Colorado Potato Beetle Control, Crookston, MN 1993|Arthropod Manag. Tests19:117-118|1994|
113805|T||Coniglio,M.S., V.D. Busto, P.S. Gonzalez, M.I. Medina, S. Milrad, and E. Agostini|Application of Brassica napus Hairy Root Cultures for Phenol Removal from Aqueous Solutions|Chemosphere72(7): 1035-1042|2008|10.1016/j.chemosphere.2008.04.003
113806|T||Miles,M., G. Kemmitt, and P. Valverde|Results from Two Years of Field Studies to Determine Mancozeb Based Spray Programmes with Minimal Impact on Predatory Mites in European Vine Cultivation|Commun. Agric. Appl. Biol. Sci.71(2b): 285-293|2006|
113807|A||Metian,M., E. Giron, V. Borne, L. Hedouin, J.L. Teyssie, and M. Warnau|The Brown Alga Lobophora variegata, a Bioindicator Species for Surveying Metal Contamination in Tropical Marine Environments|J. Exp. Mar. Biol. Ecol.362(1): 49-54|2008|10.1016/j.jembe.2008.05.013
113808|T||Ren,T.R., Y.H. Xie, W.W. Zhu, Y.H. Li, and Y. Zhang|Activities and Toxicity of a Novel Plant Growth Regulator 2-Furan-2-yl-(1,3) Dioxolane|J. Plant Growth Regul.26(4): 362-368|2007|10.1007/s00344-007-9020-9
113809|AT||Bravo,H.R., E. Villarroel, S.V. Copaja, and V.H. Argandona|Chemical Basis for the Phytotoxicity of N-Aryl Hydroxamic Acids and Acetanilide Analogues|Z. Naturforsch. Sect. C J. Biosci.63(5/6): 389-394|2008|10.1515/znc-2008-5-613
113810|T||Herrera-Rodriguez,M.B., J.M. Maldonado, and R. Perez-Vicente|Light and Metabolic Regulation of HAS1, HAS1.1 and HAS2, Three Asparagine Synthetase Genes in Helianthus annuus|Plant Physiol. Biochem.42(6): 511-518|2004|10.1016/j.plaphy.2004.05.001
113811|A||Bourrachot,S., O. Simon, and R. Gilbin|The Effects of Waterborne Uranium on the Hatching Success, Development, and Survival of Early Life Stages of Zebrafish (Danio rerio)|Aquat. Toxicol.90(1): 29-36|2008|10.1016/j.aquatox.2008.07.013
113812|A||Birceanu,O., M.J. Chowdhury, P.L. Gillis, J.C. McGeer, C.M. Wood, and M.P. Wilkie|Modes of Metal Toxicity and Impaired Branchial Ionoregulation in Rainbow Trout Exposed to Mixtures of Pb and Cd in Soft Water|Aquat. Toxicol.89(4): 222-231|2008|10.1016/j.aquatox.2008.07.007
113813|T||Bennett,R.S., J.B.,Jr. French, R. Rossmann, and R. Haebler|Dietary Toxicity and Tissue Accumulation of Methylmercury in American Kestrels|Arch. Environ. Contam. Toxicol.56(1): 149-156|2009|10.1007/s00244-008-9168-8
113814|A||Bechard,K.M., P.L. Gillis, and C.M. Wood|Trophic Transfer of Cd from Larval Chironomids (Chironomus riparius) Exposed via Sediment or Waterborne Routes, to Zebrafish (Danio rerio):  Tissue-Specific and Subcellular Comparisons|Aquat. Toxicol.90(4): 310-321|2008|10.1016/j.aquatox.2008.07.014
113815|T||Arbo,M.D., M.T. Franco, E.R. Larentis, S.C. Garcia, V.C. Sebben, M.B. Leal, E. Dallegrave, and R.P. Limberger|Screening for In Vivo (anti)Estrogenic Activity of Ephedrine and  p-Synephrine and Their Natural Sources Ephedra sinica Stapf. (Ephedraceae) and Citrus aurantium L. (Rutaceae) in Rats|Arch. Toxicol.83(1): 95-99|2009|10.1007/s00204-008-0324-8
113816|T||Peng,H.Y., S.K. Tian, and X.E. Yang|Changes of Root Morphology and Pb Uptake by Two Species of Elsholtzia Under Pb Toxicity|J. Zhejiang Univ., Sci. B6B(6): 546-552|2005|10.1631/jzus.2005.B0546
113819|T||Mercer,P.C., and A. Ruddock|Disease Management of Winter Wheat with Reduced Doses of Fungicides in Northern Ireland|Crop Prot.24(3): 221-228|2005|10.1016/j.cropro.2004.07.009
113820|T||Gabryszuk,M., and J. Klewiec|Effect of Injecting 2- and 3-Year-Old Ewes with Selenium and Selenium-Vitamin E on Reproduction and Rearing of Lambs|Small Ruminant Res.43(2): 127-132|2002|10.1016/S0921-4488(02)00005-6
113821|T||Galvan,T.L., R.L. Koch, and W.D. Hutchison|Effects of Spinosad and Indoxacarb on Survival, Development, and Reproduction of the Multicolored Asian Lady Beetle (Coleoptera:  Coccinellidae)|Biol. Control34(1): 108-114|2005|10.1016/j.biocontrol.2005.04.005
113822|T||Men,X., F. Ge, C.A. Edwards, and E.N. Yardim|The Influence of Pesticide Applications on Helicoverpa armigera Hubner and Sucking Pests in Transgenic Bt Cotton and Non-Transgenic Cotton in China|Crop Prot.24(4): 319-324|2005|10.1016/j.cropro.2004.08.006
113823|T||Zheng,Y., Z. Wang, X. Sun, A. Jia, G.Z. Jiang, and Z. Li|Higher Salinity Tolerance Cultivars of Winter Wheat Relieved Senescence at Reproductive Stage|Environ. Exp. Bot.62(2): 129-138|2008|10.1016/j.envexpbot.2007.07.011
113824|A||Thapar,R., A.K. Srivastava, P. Bhargava, Y. Mishra, and L.C. Rai|Impact of Different Abiotic Stresses on Growth, Photosynthetic Electron Transport Chain, Nutrient Uptake and Enzyme Activities of Cu-Acclimated Anabaena doliolum|J. Plant Physiol.165(3): 306-316|2008|10.1016/j.jplph.2007.05.002
113825|T||Assie,L.K., F. Francis, N. Gengler, and E. Haubruge|Response and Genetic Analysis of Malathion-Specific Resistant Tribolium castaneum (Herbst) in Relation to Population Density|J. Stored Prod. Res.43(1): 33-44|2007|10.1016/j.jspr.2004.12.001
113826|T||Bendre,S.V., J.G. Shaddock, R.E. Patton, V.N. Dobrovolsky, R.J. Albertini, and R.H. Heflich|Lymphocyte Hprt Mutant Frequency and Sperm Toxicity in C57BL/6 Mice Treated Chronically with Azathioprine|Mutat. Res.578(1-2): 1-14|2005|10.1016/j.mrfmmm.2004.09.018
113827|T||Collins,P.J., G.J. Daglish, H. Pavic, and R.A. Kopittke|Response of Mixed-Age Cultures of Phosphine-Resistant and Susceptible Strains of Lesser Grain Borer, Rhyzopertha dominica, to Phosphine at a Range of Concentrations and Exposure Periods|J. Stored Prod. Res.41(4): 373-385|2005|10.1016/j.jspr.2004.05.002
113828|T||Corrales,I., C. Poschenrieder, and J. Barcelo|Boron-Induced Amelioration of Aluminium Toxicity in a Monocot and a Dicot Species|J. Plant Physiol.165(5): 504-513|2008|10.1016/j.jplph.2007.03.014
113829|T||Ekmekci,Y., D. Tanyolac, and B. Ayhan|Effects of Cadmium on Antioxidant Enzyme and Photosynthetic Activities in Leaves of Two Maize Cultivars|J. Plant Physiol.165(6): 600-611|2008|10.1016/j.jplph.2007.01.017
113830|T||El Hassani,A.K., M. Dacher, M. Gauthier, and C. Armengaud|Effects of Sublethal Doses of Fipronil on the Behavior of the Honeybee (Apis mellifera)|Pharmacol. Biochem. Behav.82(1): 30-39|2005|10.1016/j.pbb.2005.07.008
113831|T||Cervera,A., A.C. Maymo, R. Martinez-Pardo, and M.D. Garcera|Vitellogenesis Inhibition in Oncopeltus fasciatus Females (Heteroptera:  Lygaeidae) Exposed to Cadmium|J. Insect Physiol.51(8): 895-911|2005|10.1016/j.jinsphys.2005.04.005
113832|A||Zhang,C., L. Wang, Q. Nie, W. Zhang, and F. Zhang|Long-Term Effects of Exogenous Silicon on Cadmium Translocation and Toxicity in Rice (Oryza sativa L.)|Environ. Exp. Bot.62(3): 300-307|2008|10.1016/j.envexpbot.2007.10.024
113833|T||Moran,G.P., R. Colque, F. Viladomat, J. Bastida, and C. Codina|Mass Propagation of Cyrtanthus clavatus and Cyrtanthus spiralis Using Liquid Medium Culture|Sci. Hortic.98(1): 49-60|2003|10.1016/S0304-4238(02)00142-5
113834|T||Saltveit,M.E., O. Ochoa, R. Campos-Vargas, and R. Michelmore|Lines of Lettuce Selected for Ethylene Insensitivity at the Seedling Stage Displayed Variable Responses to Ethylene or Wounding as Mature Heads|Postharvest Biol. Technol.27(3): 277-283|2003|10.1016/S0925-5214(02)00119-9
113835|T||Dutton,A., H. Klein, J. Romeis, and F. Bigler|Prey-Mediated Effects of Bacillus thuringiensis Spray on the Predator Chrysoperla carnea in Maize|Biol. Control26(2): 209-215|2003|10.1016/S1049-9644(02)00127-5
113836|T||Kanampiu,F.K., V. Kabambe, C. Massawe, L. Jasi, D. Friesen, J.K. Ransom, and J. Gressel|Multi-Site, Multi-Season Field Tests Demonstrate that Herbicide Seed-Coating Herbicide-Resistance Maize Controls Striga spp. and Increases Yields in Several African Countries|Crop Prot.22(5): 697-706|2003|10.1016/S0261-2194(03)00007-3
113837|T||Beg,M.A., E.L. Gastal, M.O. Gastal, S. Ji, M.C. Wiltbank, and O.J. Ginther|Changes in Steady-State Concentrations of Messenger Ribonucleic Acids in Luteal Tissue During Prostaglandin F2alpha Induced Luteolysis in Mares|Anim. Reprod. Sci.90(3-4): 273-285|2005|10.1016/j.anireprosci.2005.02.008
113838|T||Hollenstein,K., F. Janett, U. Bleul, M. Hassig, W. Kahn, and R. Thun|Influence of Estradiol on Adrenal Activity in Ovariectomized Cows During Acute Stress|Anim. Reprod. Sci.93(3-4): 292-302|2006|10.1016/j.anireprosci.2005.08.009
113839|T||Danicke,S., H. Valenta, M. Gareis, H.W. Lucht, and H. Von Reichenbach|On the Effects of a Hydrothermal Treatment of Deoxynivalenol (DON)-Contaminated Wheat in the Presence of Sodium Metabisulphite (Na2S2O5) on DON Reduction and on Piglet Performance|Anim. Feed Sci. Technol.118(1/2): 93-108|2005|10.1016/j.anifeedsci.2004.09.011
113840|T||Hsu,F.L., H.T. Chang, and S.T. Chang|Evaluation of Antifungal Properties of Octyl Gallate and Its Synergy with Cinnamaldehyde|Bioresour. Technol.98(4): 734-738|2007|10.1016/j.biortech.2006.04.002
113841|T||Lasa,R., C. Ruiz-Portero, M.D. Alcazar, J.E. Belda, P. Caballero, and T. Williams|Efficacy of Optical Brightener Formulations of Spodoptera exigua Multiple Nucleopolyhedrovirus (SeMNPV) as a Biological Insecticide in Greenhouses in Southern Spain|Biol. Control40(1): 89-96|2007|10.1016/j.biocontrol.2006.06.015
113842|T||Liu,C.H., A.K. Mishra, R.X. Tan, C. Tang, H. Yang, and Y.F. Shen|Repellent and Insecticidal Activities of Essential Oils from Artemisia princeps and Cinnamomum camphora and Their Effect on Seed Germination of Wheat and Broad Bean|Bioresour. Technol.97(15): 1969-1973|2006|10.1016/j.biortech.2005.09.002
113843|T||Mota-Rojas,D., M.E. Trujillo, J. Martinez, A.M. Rosales, H. Orozco, R. Ramirez, H. Sumano, and M. Alonso-Spilsbury|Comparative Routes of Oxytocin Administration in Crated Farrowing Sows and Its Effects on Fetal and Postnatal Asphyxia|Anim. Reprod. Sci.92(1-2): 123-143|2006|10.1016/j.anireprosci.2005.04.012
113844|T||Rodilla,J.M., M.T. Tinoco, J.C. Morais, C. Gimenez, R. Cabrera, D. Martin-Benito, L. Castillo, and A. Gonzalez-Coloma|Laurus novocanariensis Essential Oil:  Seasonal Variation and Valorization|Biochem. Syst. Ecol.36(3): 167-176|2008|10.1016/j.bse.2007.09.001
113845|A||Rogers,K.R., S.L. Harper, and G. Robertson|Screening for Toxic Industrial Chemicals Using Semipermeable Membrane Devices with Rapid Toxicity Assays|Anal. Chim. Acta543(1/2): 229-235|2005|10.1016/j.aca.2005.04.016
113846|T||Lu,M.C.|Micropropagation of Morus latifolia Poilet Using Axillary Buds from Mature Trees|Sci. Hortic.96(1-4): 329-341|2002|10.1016/S0304-4238(02)00120-6
113847|T||Jauregui-Zuniga,D., M.A. Ferrer, A.A. Calderon, R. Munoz, and A. Moreno|Heavy Metal Stress Reduces the Deposition of Calcium Oxalate Crystals in Leaves of Phaseolus vulgaris|J. Plant Physiol.162(10): 1183-1187|2005|10.1016/j.jplph.2005.03.002
113848|T||Inan,S., and A. Cowan|Nalfurafine, a Kappa Opioid Receptor Agonist, Inhibits Scratching Behavior Secondary to Cholestasis Induced by Chronic Ethynylestradiol Injections in Rats|Pharmacol. Biochem. Behav.85(1): 39-43|2006|10.1016/j.pbb.2006.07.004
113849|T||Hu,X., X.R. Wang, and C. Wang|Bioaccumulation of Lanthanum and Its Effect on Growth of Maize Seedlings in a Red Loamy Soil|Pedosphere16(6): 799-805|2006|10.1016/S1002-0160(06)60116-1
113850|T||Heijne,W.H.M., D. Jonker, R.H. Stierum, B. Van Ommen, and J.P. Groten|Toxicogenomic Analysis of Gene Expression Changes in Rat Liver After a 28-Day Oral Benzene Exposure|Mutat. Res.575(1-2): 85-101|2005|10.1016/j.mrfmmm.2005.02.003
113851|T||Ghnaya,T., I. Nouairi, I. Slama, D. Messedi, C. Grignon, C. Abdelly, and M.H. Ghorbel|Cadmium Effects on Growth and Mineral Nutrition of Two Halophytes:  Sesuvium portulacastrum and Mesembryanthemum crystallinum|J. Plant Physiol.162(10): 1133-1140|2005|10.1016/j.jplph.2004.11.011
113852|T||Ghanayem,B.I., K.L. Witt, G.E. Kissling, R.R. Tice, and L. Recio|Absence of Acrylamide-Induced Genotoxicity in Cyp2e1-Null Mice:  Evidence Consistent with a Glycidamide-Mediated Effect|Mutat. Res.578(1-2): 284-297|2005|10.1016/j.mrfmmm.2005.05.004
113854|T||Ellinger-Ziegelbauer,H., B. Stuart, B. Wahle, W. Bomann, and H.J. Ahr|Comparison of the Expression Profiles Induced by Genotoxic and Nongenotoxic Carcinogens in Rat Liver|Mutat. Res.575(1-2): 61-84|2005|10.1016/j.mrfmmm.2005.02.004
113856|T||Kulkarni,M.G., S.G. Sparg, and J. Van Staden|Germination and Post-germination Response of Acacia Seeds to Smoke-Water and Butenolide, a Smoke-Derived Compound|J. Arid Environ.69(1): 177-187|2007|10.1016/j.jaridenv.2006.09.001
113857|A||Hazra,A.G., and P. Chatterjee|A Nontoxic Antitumour Compound from the Leaves of Bauhinia scandens Characterized as 1-O-Alkyl Glycerol by Gas-Liquid Chromatography and Evaluation of Its Antitumour Property by Brine Shrimp Bioassay|Ind. Crops Prod.27(1): 39-43|2008|10.1016/j.indcrop.2007.07.005
113858|A||Mothersill,C., B. Salbu, L.S. Heier, H.C. Teien, J. Denbeigh, D. Oughton, B.O. Rosseland, and C.B. Seymour|Multiple Stressor Effects of Radiation and Metals in Salmon (Salmo salar)|J. Environ. Radioact.96(1-3): 20-31|2007|10.1016/j.jenvrad.2007.01.025
113859|A||Konishi,T., S. Matsumoto, Y. Tsuruwaka, K. Shiraki, K. Hirata, Y. Tamaru, and M. Takagi|Enhancing the Tolerance of Zebrafish (Danio rerio) to Heavy Metal Toxicity by the Expression of Plant Phytochelatin Synthase|J. Biotechnol.122(3): 316-325|2006|10.1016/j.jbiotec.2005.12.013
113860|T||Je,J.Y., J.Y. Park, W.K. Jung, P.J. Park, and S.K. Kim|Isolation of Angiotensin I Converting Enzyme (ACE) Inhibitor from Fermented Oyster Sauce, Crassostrea gigas|Food Chem.90(4): 809-814|2005|10.1016/j.foodchem.2004.05.028
113861|T||Wang,X.G., E.A. Jarjees, B.K. McGraw, A.H. Bokonon-Ganta, R.H. Messing, and M.W. Johnson|Effects of Spinosad-Based Fruit Fly Bait GF-120 on Tephritid Fruit Fly and Aphid Parasitoids|Biol. Control35(2): 155-162|2005|10.1016/j.biocontrol.2005.07.003
113862|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Responses of Winter Wheat (Triticum aestivum L.) to Autumn Applied Post-Emergence Herbicides|Crop Prot.25(4): 346-349|2006|10.1016/j.cropro.2005.05.012
113863|T||Soltani,N., D.E. Robinson, C. Shropshire, and P.H. Sikkema|Otebo Bean (Phaseolus vulgaris) Sensitivity to Pre-Emergence Herbicides|Crop Prot.25(5): 476-479|2006|10.1016/j.cropro.2005.08.002
113864|AT||Bolsunovsky,A., T. Zotina, and L. Bondareva|Accumulation and Release of Am-241 by a Macrophyte of the Yenisei River (Elodea canadensis)|J. Environ. Radioact.81:33-46|2005|10.1016/j.jenvrad.2004.10.012
113865|T||Vyn,J.D., C.J. Swanton, S.E. Weaver, and P.H. Sikkema|Control of Amaranthus tuberculatus var. rudis (Common Waterhemp) with Pre and Post-Emergence Herbicides in Zea mays L. (Maize)|Crop Prot.25(9): 1051-1056|2006|10.1016/j.cropro.2006.01.016
113866|T||Uludag,A., Y. Nemli, A. Tal, and B. Rubin|Fenoxaprop Resistance in Sterile Wild Oat (Avena sterilis) in Wheat Fields in Turkey|Crop Prot.26(7): 930-935|2007|10.1016/j.cropro.2006.08.012
113867|T||Zand,E., M. Ali Baghestani, S. Soufizadeh, R. PourAzar, M. Veysi, N. Bagherani, A. Barjasteh, M. Mehdi Khayami, and N. |Broadleaved Weed Control in Winter Wheat (Triticum aestivum L.) with Post-Emergence Herbicides in Iran|Crop Prot.26(5): 746-752|2007|10.1016/j.cropro.2006.06.014
113868|T||Zhang,J., and L.W. Timmer|Preharvest Application of Fungicides for Postharvest Disease Control on Early Season Tangerine Hybrids in Florida|Crop Prot.26(7): 886-893|2007|10.1016/j.cropro.2006.08.007
113869|T||Bradley,C.A., S. Halley, and R.A. Henson|Evaluation of Fungicide Seed Treatments on Flax Cultivars Differing in Seed Color|Ind. Crops Prod.25(3): 301-304|2007|10.1016/j.indcrop.2006.12.001
113870|T||Smith,M.A.K.|Comparing Weed and Crop Seedling Response to Pre-Emergence Pendimethalin Application in Corchorus olitorius and Abelmoschus esculentus|Crop Prot.25(12): 1221-1226|2006|10.1016/j.cropro.2005.09.017
113871|A||Jayasundara,V.K., and A. Pathiratne|Effect of Repeated Application of Fenthion as a Mosquito Larvicide on Nile Tilapia (Oreochromis niloticus) Inhabiting Selected Water Canals in Sri Lanka|Bull. Environ. Contam. Toxicol.80(4): 374-377|2008|10.1007/s00128-008-9392-y
113872|A||Jukosky,J.A., M.C. Watzin, and J.C. Leiter|Elevated Concentrations of Ethinylestradiol, 17beta-Estradiol, and Medroxyprogesterone have Little Effect on Reproduction and Survival of Ceriodaphnia dubia|Bull. Environ. Contam. Toxicol.81(3): 230-235|2008|10.1007/s00128-008-9462-1
113873|A||Kang,H.S., M.C. Gye, and M.K. Kim|Effects of Endosulfan on Survival and Development of Bombina orientalis (Boulenger) Embryos|Bull. Environ. Contam. Toxicol.81(3): 262-265|2008|10.1007/s00128-008-9475-9
113874|T||Scott,J.G., and D.A. Rutz|Comparative Toxicities of Seven Insecticides to House Flies (Diptera:  Muscidae) and Urolepis rufipes (Ashmead) (Hymenoptera:  Pteromalidae)|J. Econ. Entomol.81(3): 804-807|1988|10.1093/jee/81.3.804
113875|T||Satoh,G.T., F.W.,Jr. Plapp, and J.E. Slosser|Potential of Juvenoid Insect Growth Regulators for Managing Cotton Aphids (Homoptera:  Aphididae)|J. Econ. Entomol.88(2): 254-258|1995|10.1093/jee/88.2.254
113876|T||Ali,A.D., and J.M. Garcia|Efficacy and Economics of Selected Systemic Insecticides for Control of Phoracantha semipunctata (Coleoptera:  Cerambycidae), a New Pest in North America|J. Econ. Entomol.81(4): 1124-1127|1988|10.1093/jee/81.4.1124
113877|T||Wildman,T.E., and W.W. Cone|Control of Brachycorynella asparagi (Homoptera:  Aphididae) in Irrigated Asparagus with Granular Systemic Insecticides, and Disulfoton Degradation in Asparagus Fern|J. Econ. Entomol.81(4): 1196-1202|1988|10.1093/jee/81.4.1196
113878|T||Peters,D.C., E.A.,Jr. Wood, and K.J. Starks|Insecticide Resistance in Selections of the Greenbug|J. Econ. Entomol.68(3): 339-340|1975|10.1093/jee/68.3.339
113879|T||Ishaaya,I., Z. Mendelson, and V. Melamed-Madjar|Effect of Buprofezin on Embryogenesis and Progeny Formation of Sweetpotato Whitefly (Homoptera:  Aleyrodidae)|J. Econ. Entomol.81(3): 781-784|1988|10.1093/jee/81.3.781
113881|T||Nettleton,W.A., F.P. Rain, and R.J. Monroe|Field Evaluation of Acaricides for Control of Oligonychus ununguis in Fraser Fir Plantations|J. Econ. Entomol.71(1): 113-114|1978|10.1093/jee/71.1.113
113882|T||Harris,R.L., J.E. George, E.H. Ahrens, R.B. Davey, and H.O. Bazan|Selection for Resistance to Coumaphos in a Strain of Southern Cattle Tick (Acari:  Ixodidae)|J. Econ. Entomol.81(2): 545-548|1988|10.1093/jee/81.2.545
113883|T||Miller,R.W., and R.E. Redfern|Feed Additives for Control of Lesser Mealworm (Coleoptera:  Tenebrionidae) in Poultry Broiler Houses|J. Econ. Entomol.81(4): 1137-1139|1988|10.1093/jee/81.4.1137
113884|T||Moffitt,H.R., P.H. Westigard, K.D. Mantey, and H.E. Van de Baan|Resistance to Diflubenzuron in the Codling Moth (Lepidoptera:  Tortricidae)|J. Econ. Entomol.81(6): 1511-1515|1988|10.1093/jee/81.6.1511
113885|A||Villeneuve,D.L., I. Knoebl, P. Larkin, A.L. Miracle, B.J. Carter, N.D. Denslow, and G.T. Ankley|Altered Gene Expression in the Brain and Liver of Female Fathead Minnows Pimephales promelas Rafinesque Exposed to Fadrozole|J. Fish Biol.72:2281-2340|2008|10.1111/j.1095-8649.2008.01897.x
113886|T||Shanks,C.H.,Jr., and J.D. Chamberlain|Effect of Taxus Foliage and Extract on the Toxicity of Some Pyrethroid Insecticides to Adult Black Vine Weevil (Coleoptera:  Curculionidae)|J. Econ. Entomol.81(1): 98-101|1988|10.1093/jee/81.1.98
113887|AT||Kang,H.S., C.J. Park, and M.C. Gye|Effects of Molinate on Survival and Development of Bombina orientalis (Boulenger) Embryos|Bull. Environ. Contam. Toxicol.82(3): 305-309|2009|10.1007/s00128-008-9602-7
113888|T||Moore,A., and B.E. Tabashnik|Leg Autotomy of Adult Diamondback Moth (Lepidoptera:  Plutellidae) in Response to Tarsal Contact with Insecticide Residues|J. Econ. Entomol.82(2): 381-384|1989|10.1093/jee/82.2.381
113890|A||Hotard,S., and E. Zou|Activity of Glutathione S-Transferase in the Hepatopancreas is not Influenced by the Molting Cycle in the Fiddler Crab, Uca pugilator|Bull. Environ. Contam. Toxicol.81(3): 242-244|2008|10.1007/s00128-008-9487-5
113891|A||Ingle,T.M., R. Alexander, J. Bouldin, and R.A. Buchanan|Absorption of Semiconductor Nanocrystals by the Aquatic Invertebrate Ceriodaphnia dubia|Bull. Environ. Contam. Toxicol.81(3): 249-252|2008|10.1007/s00128-008-9481-y
113892|T||Read,D.C.|Comparisons of Residual Toxicities of Twenty-Four Registered or Candidate Pesticides Applied to Field Microplots of Soil by Different Methods|J. Econ. Entomol.69(4): 429-437|1976|10.1093/jee/69.4.429
113894|A||Xu,Q.J., Y.G. Nian, X.C. Jin, C.Z. Yan, J. Liu, and G.M. Jiang|Effects of Chitosan on Growth of an Aquatic Plant (Hydrilla verticillata) in Polluted Waters with Different Chemical Oxygen Demands|J. Environ. Sci.19(2): 217-221|2007|10.1016/S1001-0742(07)60035-7
113895|T||Xie,Z., L. Duan, X. Tian, B. Wang, A. Egrinya Eneji, and Z. Li|Coronatine Alleviates Salinity Stress in Cotton by Improving the Antioxidative Defense System and Radical-Scavenging Activity|J. Plant Physiol.165(4): 375-384|2008|10.1016/j.jplph.2007.06.001
113896|T||Xiao,X., T. Chen, Z. An, M. Lei, Z. Huang, X. Liao, and Y. Liu|Potential of Pteris vittata L. for Phytoremediation of Sites Co-Contaminated with Cadmium and Arsenic:  The Tolerance and Accumulation|J. Environ. Sci.20(1): 62-67|2008|10.1016/S1001-0742(08)60009-1
113897|A||Winter,M.J., L.C.J. Ellis, and T.H. Hutchinson|Formation of Micronuclei in Erythrocytes of the Fathead Minnow (Pimephales promelas) After Acute Treatment with Mitomycin C or Cyclophosphamide|Mutat. Res.629(2): 89-99|2007|10.1016/j.mrgentox.2007.01.010
113898|A||Wang,Y., R. Zheng, Z. Zuo, Y. Chen, and C. Wang|Relation of Hepatic EROD Activity and Cytochrome P4501A Level in Sebastiscus marmoratus Exposed to Benzo[a]pyrene|J. Environ. Sci.20(1): 101-104|2008|10.1016/S1001-0742(08)60015-7
113899|T||Valles,R., A. Rocha, A. Cardon, G.R. Bratton, and J.R. Nation|The Effects of the GABAalpha Antagonist Bicuculline on Cocaine Self-Administration in Rats Exposed to Lead During Gestation/Lactation|Pharmacol. Biochem. Behav.80(4): 611-619|2005|10.1016/j.pbb.2005.01.011
113900|T||Tanee,F.S.F., D. Njamen, C.B. Magne Nde, J. Wanji, O. Zierau, Z.T. Fomum, and G. Vollmer|Estrogenic Effects of the Ethyl-Acetate Extract of the Stem Bark of Erythrina lysistemon Hutch (Fabaceae)|Phytomedicine14(2/3): 222-226|2007|10.1016/j.phymed.2006.01.012
113901|T||Steerenberg,P.A., F. Daamen, E. Weesendorp, and H. Van Loveren|No Adaptation to UV-Induced Immunosuppression and DNA Damage Following Exposure of Mice to Chronic UV-Exposure|J. Photochem. Photobiol. B Biol.84(1): 28-37|2006|10.1016/j.jphotobiol.2006.01.009
113902|A||Meric,S., H. Selcuk, M. Gallo, and V. Belgiorno|Decolourisation and Detoxifying of Remazol Red Dye and Its Mixture Using Fenton's Reagent|Desalination173(3): 239-248|2005|10.1016/j.desal.2004.09.002
113903|T||Manuja,S., R. Ram, R.D. Singh, and D. Mukherjee|Evaluation of Different Herbicides for Protection of Gladiolus (Gladiolus spp.) Crop from Weeds|Crop Prot.24(10): 921-926|2005|10.1016/j.cropro.2005.01.019
113904|T||Lima,A.I.G., S.I.A. Pereira, E.M.deA.P. Figueira, G.C.N. Caldeira, and H.D.Q.deM Caldeira|Cadmium Detoxification in Roots of Pisum sativum Seedlings:  Relationship Between Toxicity Levels, Thiol Pool Alterations and Growth|Environ. Exp. Bot.55(1-2): 149-162|2006|10.1016/j.envexpbot.2004.10.008
113905|T||Kim,M., C. Sim, D. Shin, E. Suh, and K. Cho|Residual and Sublethal Effects of Fenpyroximate and Pyridaben on the Instantaneous Rate of Increase of Tetranychus urticae|Crop Prot.25(6): 542-548|2006|10.1016/j.cropro.2005.08.010
113906|T||Khan,M.F.R., and L.J. Smith|Evaluating Fungicides for Controlling Cercospora Leaf Spot on Sugar Beet|Crop Prot.24(1): 79-86|2005|10.1016/j.cropro.2004.06.010
113907|T||Kertulis,G.M., L.Q. Ma, G.E. MacDonald, R. Chen, J.D. Winefordner, and Y. Cai|Arsenic Speciation and Transport in Pteris vittata L. and the Effects on Phosphorus in the Xylem Sap|Environ. Exp. Bot.54(3): 239-247|2005|10.1016/j.envexpbot.2004.09.001
113908|T||Kaushik,S., and Inderjit |Phytotoxicity of Selected Herbicides to Mung Bean (Phaseolus aureus Roxb.)|Environ. Exp. Bot.55(1/2): 41-48|2006|10.1016/j.envexpbot.2004.09.010
113909|T||Kahl,S., and T.H. Elsasser|Exogenous Testosterone Modulates Tumor Necrosis Factor-alpha and Acute Phase Protein Responses to Repeated Endotoxin Challenge in Steers|Domest. Anim. Endocrinol.31(4): 301-311|2006|10.1016/j.domaniend.2005.11.005
113910|T||Isaac,W.A.P., R.A.I. Brathwaite, J.E. Cohen, and I. Bekele|Effects of Alternative Weed Management Strategies on Commelina diffusa Burm. Infestations in Fairtrade Banana (Musa spp.) in St. Vincent and the Grenadines|Crop Prot.26(8): 1219-1225|2007|10.1016/j.cropro.2006.10.019
113911|T||Stearns,J.C., S. Shah, B.M. Greenberg, D.G. Dixon, and B.R. Glick|Tolerance of Transgenic Canola Expressing 1-Aminocyclopropane-1-Carboxylic Acid Deaminase to Growth Inhibition by Nickel|Plant Physiol. Biochem.43(7): 701-708|2005|10.1016/j.plaphy.2005.05.010
113912|T||Skrivanova,E., M. Marounek, S. De Smet, and K. Raes|Influence of Dietary Selenium and Vitamin E on Quality of Veal|Meat Sci.76(3): 495-500|2007|10.1016/j.meatsci.2007.01.003
113913|T||Shi,Q., Z. Bao, Z. Zhu, Y. He, Q. Qian, and J. Yu|Silicon-Mediated Alleviation of Mn Toxicity in Cucumis Sativus in Relation to Activities of Superoxide Dismutase and Ascorbate Peroxidase|Phytochemistry66(13): 1551-1559|2005|10.1016/j.phytochem.2005.05.006
113914|T||Sheng,X.Q., K.X. Huang, and H.B. Xu|Influence of Alloxan-Induced Diabetes and Selenite Treatment on Blood Glucose and Glutathione Levels in Mice|J. Trace Elem. Med. Biol.18(3): 261-267|2005|10.1016/j.jtemb.2005.01.001
113915|T||Scott,M.P.|The Role of Juvenile Hormone in Competition and Cooperation by Burying Beetles|J. Insect Physiol.52(10): 1005-1011|2006|10.1016/j.jinsphys.2006.04.006
113916|T||Requejo,R., and M. Tena|Proteome Analysis of Maize Roots Reveals that Oxidative Stress is a Main Contributing Factor to Plant Arsenic Toxicity|Phytochemistry66(13): 1519-1528|2005|10.1016/j.phytochem.2005.05.003
113917|T||Purwar,J.P., and G.C. Sachan|Synergistic Effect of Entomogenous Fungi on Some Insecticides Against Bihar Hairy Caterpillar Spilarctia obliqua (Lepidoptera: Arctiidae)|Microbiol. Res.161(1): 38-42|2006|10.1016/j.micres.2005.04.006
113918|T||Barbara,K.A., and E.A. Buss|Integration of Insect Parasitic Nematodes (Rhabditida Steinernematidae) with Insecticides for Control of Pest Mole Crickets (Orthoptera: Gryllotalpidae: Scapteriscus spp.)|J. Econ. Entomol.98(3): 689-693|2005|10.1603/0022-0493-98.3.689
113919|T||Barbara,K.A.|Management of Pest Mole Crickets Using the Insect Parasitic Nematode Steinernema scapterisci|Ph.D Thesis, University of Florida, Gainesville, FL:101 p.|2005|
113920|T||Wu,T.|Normal and Abnormal Development of Dendritic Spines in Tissue Culture|Ph.D.Thesis, Vanderbilt Univ., Nashville, TN:174 p.|1998|
113921|T||Pendleton,F.N.|The Effects of Spraying Deltamethrin Against Tsetse Flies on Insectivorous Birds in the Okavango Delta, Botswana|M.S.Thesis, University of Maryland, College Park, MD:102 p.|2003|
113922|T||Chen,B.|Vulnerability of the Tree Shrew (Tupaia belgnageri) Brain to Alcohol Exposure During the Brain Growth Spurt|Ph.D.Thesis, Univ.of Louisville, Louisville, KY:159 p.|2005|
113923|T||Haines,W.T.|Exploring the Explanation of Age-Related Sensitivity to a Pyrethroid Insecticide Deltamethrin, in Rats|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:116 p.|2004|
113924|T||Kragtorp,K.A.|Apoptosis and Craniofacial Dysmorphology in Fetal Alcohol Syndrome: Genetic Modulation and a Contribution of Calcium Signaling|Ph.D Thesis, University of Wisconsin, Madison, WI:277 p.|2003|
113925|T||Parnell,S.E.|Mechanisms of Alcohol-Induced Neuroteratology: An Examination of the Roles of Fetal Cerebral Blood Flow and Hypoxia|Ph.D. Thesis, Texas A&M University, College Station TX:154 p.|2004|
113926|T||Polesky,A.J.M.|The Ca2+/CaM-Dependent Phosphoprotein Phosphatase Calcineurin: Its Role in Chemotaxis of Axenic Cells and Analysis of Possible Substrates in Dictyostelium discoideum|M.S. Thesis, University of Toronto, Ontario, Canada:126 p.|1997|
113927|T||Anspaugh,D.D., and R.M. Roe|Regulation of JH Epoxide Hydrolase Versus JH Esterase Activity in the Cabbage Looper, Trichoplusia ni, by Juvenile Hormone and Xenobiotics|J. Insect Physiol.51(5): 523-535|2005|10.1016/j.jinsphys.2004.12.008
113928|T||Simini,M., R.T. Checkai, R.G. Kuperman, C.T. Phillips, J.E. Kolakowski, C.W. Kurnas, and G.I. Sunahara|Reproduction and Survival of Eisenia fetida in a Sandy Loam Soil Amended with the Nitro-Heterocyclic Explosives RDX and HMX|Pedobiologia (Multiple Languages)47(5/6): 657-662|2003|
113929|T||Segura-Aguilar,J., I. Hakman, and J. Rydstrom|Studies on the Mode of Action of the Herbicidal Effect of 2,4,5-Trichlorophenoxyacetic Acid on Germinating Norway Spruce|Environ. Exp. Bot.35(3): 309-319|1995|10.1016/0098-8472(96)80154-7
113930|T||Sholberg,P.L., and A.P. Gaunce|Fumigation of Stonefruit with Acetic Acid to Control Postharvest Decay|Crop Prot.15(8): 681-686|1996|10.1016/S0261-2194(96)00039-7
113931|T||Zhou,X., X.D. Li, J.Z. Yuan, Z.H. Tang, and W.Y. Liu|Toxicity of Cinnamomin - A New Type II Ribosome-Inactivating Protein to Bollworm and Mosquito|Insect Biochem. Mol. Biol.30(3): 259-264|2000|10.1016/S0965-1748(99)00126-5
113932|T||Popham,H.J.R., and K.S. Shelby|Uptake of Dietary Micronutrients from Artificial Diets by Larval Heliothis virescens|J. Insect Physiol.52(7): 771-777|2006|10.1016/j.jinsphys.2006.04.005
113933|T||Plecas-Solarovic,B., and G. Leposavic|Morphometric Changes in the Adrenal medulla of Intact and Ethane Dimethanesulphonate (EDS)-Injected Rats Subjected to Chronic Treatment with Isoproterenol or Propranolol|J. Exp. Anim. Sci.43(2): 117-125|2005|10.1016/j.jeas.2005.02.001
113935|T||Cunha,K.P., C.W.A. Do Nascimento, R.M.M. Pimentel, and C.P. Ferreira|Cellular Localization of Cadmium and Structural Changes in Maize Plants Grown on a Cadmium Contaminated Soil with and Without Liming|J. Hazard. Mater.160(1): 228-234|2008|10.1016/j.jhazmat.2008.02.118
113936|T||Peterson,D.G., A.G. Scrimgeour, J.P. McClung, and E.A. Koutsos|Moderate Zinc Restriction Affects Intestinal Health and Immune Function in Lipopolysaccharide-Challenged Mice|J. Nutr. Biochem.19(3): 193-199|2008|10.1016/j.jnutbio.2007.02.011
113937|T||Hamid,M.M., and R.R. Williams|Effect of Different Types and Concentrations of Plant Growth Retardants on Sturt's Desert Pea (Swainsona formosa)|Sci. Hortic.71(1/2): 79-85|1997|10.1016/S0304-4238(97)00107-6
113939|T||Inglese,P., I. Chessa, T. La Mantia, and G. Nieddu|Evolution of Endogenous Gibberellins at Different Stages of Flowering in Relation to Return Bloom of Cactus Pear (Opuntia ficus-indica L. Miller)|Sci. Hortic.73(1): 45-51|1998|10.1016/S0304-4238(97)00139-8
113940|T||Parthasarathy,R., and S.R. Palli|Developmental and Hormonal Regulation of Midgut Remodeling in a Lepidopteran Insect, Heliothis virescens|Mech. Dev.124(1): 23-34|2007|10.1016/j.mod.2006.09.002
113941|T||Ou,D., D. Li, Y. Cao, X. Li, J. Yin, S. Qiao, and G. Wu|Dietary Supplementation with Zinc Oxide Decreases Expression of the Stem Cell Factor in the Small Intestine of Weanling Pigs|J. Nutr. Biochem.18(12): 820-826|2007|10.1016/j.jnutbio.2006.12.022
113942|T||Oliver,R.H., A.N.J. Albury, and T.A. Mousseau|Programmed Cell Death in Flight Muscle Histolysis of the House Cricket|J. Insect Physiol.53(1): 30-39|2007|10.1016/j.jinsphys.2006.09.012
113943|T||Jasik,J., B. Boggetti, G. Caricato, and S. Mantell|Characterisation of Morphology and Root Formation in the Model Woody Perennial Shrub Solanum aviculare Forst. Expressing rolABC Genes of Agrobacterium rhizogenes|Plant Sci.124(1): 57-68|1997|10.1016/S0168-9452(97)04593-7
113944|T||Nouairi,I., T. Ghnaya, N. Ben Youssef, M. Zarrouk, and M. Habib Ghorbel|Changes in Content and Fatty Acid Profiles of Total Lipids of Two Halophytes:  Sesuvium portulacastrum and Mesembryanthemum crystallinum Under Cadmium Stress|J. Plant Physiol.163(11): 1198-1202|2006|10.1016/j.jplph.2005.08.020
113945|A||Jayaprakasha,G.K., R.P. Singh, J. Pereira, and K.K. Sakariah|Limonoids from Citrus reticulata and Their Moult Inhibiting Activity in Mosquito Culex quinquefasciatus Larvae|Phytochemistry44(5): 843-846|1997|10.1016/S0031-9422(96)00589-4
113946|T||Jimenez,A., S. Andres, J. Sanchez, R. Barrera, M. Benito, and M.C. Mane|Evaluation of Different Prophylactic Methods Against Selenium Deficiency in Sheep Grazing on Range in Southwestern Spain|Small Ruminant Res.29(2): 193-199|1998|10.1016/S0921-4488(97)00127-2
113947|T||Neumann,N.J., A. Blotz, G. Wasinska-Kempka, M. Rosenbruch, P. Lehmann, H.J. Ahr, and H.W. Vohr|Evaluation of Phototoxic and Photoallergic Potentials of 13 Compounds by Different In Vitro and In Vivo Methods|J. Photochem. Photobiol. B Biol.79(1): 25-34|2005|10.1016/j.jphotobiol.2004.11.014
113948|T||Inyang,E.N., T.M. Butt, K.J. Doughty, A.D. Todd, and S. Archer|The Effects of Isothiocyanates on the Growth of the Entomopathogenic Fungus Metarhizium anisopliae and Its Infection of the Mustard Beetle|Mycol. Res.103(8): 974-980|1999|10.1017/S0953756298007989
113949|T||Khalil,I.A., and H. Rahman|Effect of Paclobutrazol on Growth, Chloroplast Pigments and Sterol Biosynthesis of Maize (Zea mays L.)|Plant Sci.105(1): 15-21|1995|10.1016/0168-9452(94)04028-F
113950|T||Khurshid,T., D.L. McNeil, M.C.T. Trought, and G.D. Hill|The Response of Young 'Braeburn' and 'Oregon Spur Delicious' Apple Trees Growing Under an Ultrahigh Density Planting System to Soil-Applied Paclobutrazol.  II.  Effect on Fruit Quality at Harvest and During Storage|Sci. Hortic.71(3-4): 189-196|1997|10.1016/S0304-4238(97)00097-6
113951|T||Koukourikou-Petridou,M., and I. Porlingis|Presowing Application of Gibberellic Acid on Seeds Used for the Mung Bean Bioassay, Promotes Root Formation in Cuttings|Sci. Hortic.70(2/3): 203-210|1997|10.1016/S0304-4238(97)00035-6
113952|T||Kroschel,J., and W. Koch|Studies on the Use of Chemicals, Botanicals and Bacillus thuringiensis in the Management of the Potato Tuber Moth in Potato Stores|Crop Prot.15(2): 197-203|1996|10.1016/0261-2194(95)00126-3
113953|T||Kurtz,M.E.|Kenaf Tolerance to Acifluorfen, Cyanazine, Diuron, Fluometuron, Fomesafen, Lactofen, or Prometryn Applied Postemergence-Directed|Ind. Crops Prod.5(2): 119-124|1996|10.1016/0926-6690(96)00004-0
113954|T||Latorre,B.A., E. Agosin, R. San Martin, and G.S. Vasquez|Effectiveness of Conidia of Trichoderma harzianum Produced by Liquid Fermentation Against Botrytis Bunch Rot of Table Grape in Chile|Crop Prot.16(3): 209-214|1997|10.1016/S0261-2194(96)00102-0
113955|T||Keinath,A.P., W.E.,Jr. Batson, J. Caceres, M.L. Elliott, D.R. Sumner, P.M. Brannen, C.S. Rothrock, D.M. Huber, D.M. Ben|Evaluation of Biological and Chemical Seed Treatments to Improve Stand of Snap Bean Across the Southern United States|Crop Prot.19(7): 501-509|2000|10.1016/S0261-2194(00)00047-8
113956|T||Liu,S.H., A.I. Hsiao, W.A. Quick, T.M. Wolf, and J.A. Hume|Effect of MCPA and Fenoxaprop on Phytotoxicity, Retention, Foliar Uptake and Translocation of Imazamethabenz in Wild Oat|Crop Prot.14(4): 275-281|1995|10.1016/0261-2194(94)00020-9
113957|T||Magarey,R.C., H.Y. Yip, J.I. Bull, and E.J. Johnson|Effect of the Fungicide Mancozeb on Fungi Associated with Sugarcane Yield Decline in Queensland|Mycol. Res.101(7): 858-862|1997|10.1017/S0953756297003511
113958|A||Naumann,B., M. Eberius, and K.J. Appenroth|Growth Rate Based Dose-Response Relationships and EC-Values of Ten Heavy Metals Using the Duckweed Growth Inhibition Test (ISO 20079) with Lemna minor L. Clone St|J. Plant Physiol.164(12): 1656-1664|2007|10.1016/j.jplph.2006.10.011
113959|T||Mladenov,M., I. Gjorgoski, T. Stafilov, and D. Duridanova|Effect of Vitamin C on Lipid Hydroperoxides and Carbonyl Groups Content of Rat Plasma Depending on Age and Acute Heat Exposure|J. Therm. Biol.31(8): 588-593|2006|10.1016/j.jtherbio.2006.08.001
113960|T||Malhotra,A., and D.K. Dhawan|Zinc Improves Antioxidative Enzymes in Red Blood Cells and Hematology in Lithium-Treated Rats|Nutr. Res.28(1): 43-50|2008|10.1016/j.nutres.2007.11.002
113961|T||Luijten,M., E.N. Speksnijder, N. Van Alphen, A. Westerman, S.H. Heisterkamp, J. Van Benthem, C.F. Van Kreijl, R.B. Beem|Phenacetin Acts as a Weak Genotoxic Compound Preferentially in the Kidney of DNA Repair Deficient Xpa Mice|Mutat. Res.596(1-2): 143-150|2006|10.1016/j.mrfmmm.2005.12.011
113962|T||Liu,X.L., and S.Z. Zhang|Intraspecific Differences in Effects of Co-contamination of Cadmium and Arsenate on Early Seedling Growth and Metal Uptake by Wheat|J. Environ. Sci.19(10): 1221-1227|2007|10.1016/S1001-0742(07)60199-5
113963|T||Lin,D.X., X.H. Fan, F. Hu, H.T. Zhao, and J.F. Luo|Ammonia Volatilization and Nitrogen Utilization Efficiency in Response to Urea Application in Rice Fields of the Taihu Lake Region, China|Pedosphere17(5): 639-645|2007|10.1016/S1002-0160(07)60076-9
113964|T||Lin,K.H.R., C.C. Tsou, S.Y. Hwang, L.F.O. Chen, and H.F. Lo|Paclobutrazol Pre-treatment Enhanced Flooding Tolerance of Sweet Potato|J. Plant Physiol.163(7): 750-760|2006|10.1016/j.jplph.2005.07.008
113965|T||Lee,J.S., T.Y. Oh, Y.K. Kim, J.H. Baik, S. So, K.B. Hahm, and Y.J. Surh|Protective Effects of Green Tea Polyphenol Extracts Against Ethanol-Induced Gastric Mucosal Damages in Rats:  Stress-Responsive Transcription Factors and MAP Kinases as Potential Targets|Mutat. Res.579(1-2): 214-224|2005|10.1016/j.mrfmmm.2005.03.027
113966|T||Laessig,S.A., A.P. Auger, M.M. McCarthy, and E.K. Silbergeld|Effects of Prenatal Chlordecone on Sexually Differentiated Behavior in Adult Rats|Neurotoxicol. Teratol.29(2): 255-263|2007|10.1016/j.ntt.2006.10.003
113967|T||Kuperman,R.G., C.T. Phillips, and R.T. Checkai|Toxicity of Chemical Warfare Agent HD (Mustard) to the Soil Microinvertebrate Community in Natural Soils with Contrasting Properties|Pedobiologia (Multiple Languages)50(6): 535-542|2007|10.1016/j.pedobi.2006.10.004
113968|T||Kodrik,D., N. Krishnan, and O. Habustova|Is the Titer of Adipokinetic Peptides in Leptinotarsa decemlineata Fed on Genetically Modified Potatoes Increased by Oxidative Stress?|Peptides28(5): 974-980|2007|10.1016/j.peptides.2007.01.017
113969|T||Koda,T., H. Imai, and M. Morita|Antiestrogenic Activity of Vitamin A in In Vivo Uterotrophic Assay|Life Sci.80(10): 945-949|2007|10.1016/j.lfs.2006.11.026
113970|T||Kljajic,P., and I. Peric|Effectiveness of Wheat-Applied Contact Insecticides Against Sitophilus granarius (L.) Originating from Different Populations|J. Stored Prod. Res.43(4): 523-529|2007|10.1016/j.jspr.2007.03.001
113971|T||Kim,J., M. Takahashi, T. Shimizu, T. Shirasawa, M. Kajita, A. Kanayama, and Y. Miyamoto|Effects of a Potent Antioxidant, Platinum Nanoparticle, on the Lifespan of Caenorhabditis elegans|Mech. Ageing Dev.129(6): 322-331|2008|10.1016/j.mad.2008.02.011
113972|T||Kidokoro,K., K.I. Iwata, Y. Fujiwara, and M. Takeda|Effects of Juvenile Hormone Analogs and 20-Hydroxyecdysone on Diapause Termination in Eggs of Locusta migratoria and Oxya yezoensis|J. Insect Physiol.52(5): 473-479|2006|10.1016/j.jinsphys.2006.01.001
113973|T||Khazaeli,A.A., S.V. Nuzhdin, and J.W. Curtsinger|Genetic Variation for Life Span, Resistance to Paraquat, and Spontaneous Activity in Unselected Populations of Drosophila melanogaster:  Implications for Transgenic Rescue of Life Span|Mech. Ageing Dev.128(9): 486-493|2007|10.1016/j.mad.2007.06.005
113974|T||Wyss,C.F., H.P. Young, J. Shukla, and R.M. Roe|Biology and Genetics of a Laboratory Strain of the Tobacco Budworm, Heliothis virescens (Lepidoptera:  Noctuidae), Highly Resistant to Spinosad|Crop Prot.22(2): 307-314|2003|10.1016/S0261-2194(02)00153-9
113975|T||Young,H.P., W.D. Bailey, and R.M. Roe|Spinosad Selection of a Laboratory Strain of the Tobacco Budworm, Heliothis virescens (Lepidoptera:  Noctuidae), and Characterization of Resistance|Crop Prot.22(2): 265-273|2003|10.1016/S0261-2194(02)00147-3
113976|T||Kuperman,R.G., R.T. Checkai, M. Simini, C.T. Phillips, J.E. Kolakowski, C.W. Kurnas, and G.I. Sunahara|Survival and Reproduction of Enchytraeus crypticus (Oligochaeta, Enchytraeidae) in a Natural Sandy Loam Soil Amended with the Nitro-Heterocyclic Explosives RDX and HMX|Pedobiologia (Multiple Languages)47(5/6): 651-656|2003|
113977|T||Kyselova,V., J. Peknicova, M. Boubelik, and D. Buckiova|Body and Organ Weight, Sperm Acrosomal Status and Reproduction After Genistein and Diethylstilbestrol Treatment of CD1 Mice in a Multigenerational Study|Theriogenology61(7-8): 1307-1325|2004|10.1016/j.theriogenology.2003.07.017
113979|T||Al-Khayri,J.M., and A.M. Al-Bahrany|Silver Nitrate and 2-Isopentyladenine Promote Somatic Embryogenesis in Date Palm (Phoenix dactylifera L.)|Sci. Hortic.89(4): 291-298|2001|10.1016/S0304-4238(00)00244-2
113980|T||Van Gestel,C.A.M., and S. Mol|The Influence of Soil Characteristics on Cadmium Toxicity for Folsomia candida (Collembola:  Isotomidae)|Pedobiologia (Multiple Languages)47(5-6): 387-395|2003|10.1078/0031-4056-00202
113981|T||Stolt,J.P., F.E.C. Sneller, T. Bryngelsson, T. Lundborg, and H. Schat|Phytochelatin and Cadmium Accumulation in Wheat|Environ. Exp. Bot.49(1): 21-28|2003|10.1016/S0098-8472(02)00045-X
113982|T||Moran,S.|Toxicity of Cholecalciferol Wheat Bait to the Field Rodents Microtus guentheri and Meriones tristrami|Crop Prot.22(2): 341-345|2003|10.1016/S0261-2194(02)00176-X
113983|T||Zornoza,P., S. Vazquez, E. Esteban, M. Fernandez-Pascual, and R. Carpena|Cadmium-Stress in Nodulated White Lupin:  Strategies to Avoid Toxicity|Plant Physiol. Biochem.40(12): 1003-1009|2002|10.1016/S0981-9428(02)01464-X
113984|T||Harrison,H.F.,Jr., and A.P. Keinath|Glasshouse Assessment of Clomazone Response of US Pumpkin Cultivars|Crop Prot.22(5): 795-798|2003|10.1016/S0261-2194(03)00033-4
113985|T||Capowiez,Y., M. Rault, C. Mazzia, and L. Belzunces|Earthworm Behaviour as a Biomarker - A Case Study Using Imidacloprid|Pedobiologia (Multiple Languages)47(5/6): 542-547|2003|
113986|T||Iwasaki,K., P. Maier, M. Fecht, and W.J. Horst|Leaf Apoplastic Silicon Enhances Manganese Tolerance of Cowpea (Vigna unguiculata)|J. Plant Physiol.159(2): 167-173|2002|10.1078/0176-1617-00691
113987|T||Morrison,A.G., J.J. Callanan, N.P. Evans, T.C. Aldridge, and T. Sweeney|Effects of Endocrine Disrupting Compounds on the Pathology and Oestrogen Receptor alpha and beta Distribution in the Uterus and Cervix of Ewe Lambs|Domest. Anim. Endocrinol.25(4): 329-343|2003|10.1016/j.domaniend.2003.06.004
113988|T||Bogh,I.B., P. Christensen, V. Dantzer, M. Groot, I.C.N. Thofner, R.K. Rasmussen, M. Schmidt, and T. Greve|Endocrine Disrupting Compounds:  Effect of Octylphenol on Reproduction over Three Generations|Theriogenology55(1): 131-150|2001|10.1016/S0093-691X(00)00451-9
113989|T||Chao,L., Q.X. Zhou, S. Chen, S. Cui, and M. Wang|Single and Joint Stress of Acetochlor and Pb on Three Agricultural Crops in Northeast China|J. Environ. Sci.19(6): 719-724|2007|10.1016/S1001-0742(07)60120-X
113990|T||Cervera,A., A.C. Maymo, R. Martinez-Pardo, and M.D. Garcera|Vitellogenin Polypeptide Levels in One Susceptible and One Cadmium-Resistant Strain of Oncopeltus fasciatus (Heteroptera:  Lygaeidae), and Its Role in Cadmium Resistance|J. Insect Physiol.52(2): 158-168|2006|10.1016/j.jinsphys.2005.10.001
113991|T||Banon,S., A. Gonzalez, E.A. Cano, J.A. Franco, and J.A. Fernandez|Growth, Development and Colour Response of Potted Dianthus caryophyllus cv. Mondriaan to Paclobutrazol Treatment|Sci. Hortic.94(3-4): 371-377|2002|10.1016/S0304-4238(02)00005-5
113992|T||Castellini,C., P. Lattaioli, A.D. Bosco, and D. Beghelli|Effect of Supranutritional Level of Dietary alpha-Tocopheryl Acetate and Selenium on Rabbit Semen|Theriogenology58(9): 1723-1732|2002|10.1016/S0093-691X(02)01083-X
113993|T||Dolezych,B., and E. Szulinska|Selenium Modifies Glutathione Peroxidase Activity and Glutathione Concentration in Mice Exposed to Ozone-Provoked Oxidative Stress|J. Trace Elem. Med. Biol.17(2): 133-137|2003|10.1016/S0946-672X(03)80009-3
113995|T||Shellie,K.C.|Muskmelon (Cucumis melo L.) Fruit Ripening and Postharvest Quality After a Preharvest Spray of Aminoethoxyvinylglycine|Postharvest Biol. Technol.17(1): 55-62|1999|10.1016/S0925-5214(99)00022-8
113997|T||Guney,M., B. Oral, H. Demirin, G. Take, S.G. Giray, I. Altuntas, and T. Mungan|Fallopian Damage Induced by Organophosphate Insecticide Methyl Parathion, and Protective Effect of Vitamins E and C on Ultrastructural Changes in Rats|Toxicol. Ind. Health23(7): 429-438|2007|10.1177/0748233707076773
113999|T||Cano,M., L.L. Arnold, and S.M. Cohen|Evaluation of Diet and Dimethylarsinic Acid on the Urothelium of Syrian Golden Hamsters|Toxicol. Pathol.29(6): 600-606|2001|10.1080/019262301753385924
114000|T||Chaney,L.A., R.W. Rockhold, and A.S. Hume|Cardiorespiratory Effects Following Acute Exposure to Pyridostigmine Bromide and/or N,N-Diethyl-m-Toluamide (DEET) in Rats|Int. J. Toxicol.21(4): 287-300|2002|10.1080/10915810290096450
114001|T||Arfsten,D.P., E.W. Johnson, A.R. Thitoff, A.E. Jung, E.R. Wilfong, S.M. Lohrke, T.A. Bausman, J.S. Eggers, and A.J. Bob|Impact of 30-day Oral Dosing with N-Acetyl-L-Cysteine on Sprague-Dawley Rat Physiology|Int. J. Toxicol.23(4): 239-247|2004|10.1080/10915810490502041
114002|A||Aksu,P., S. Gul, O. Ozkan, G. Nur, and T.O. Kaya|Evaluation of the Acute Toxicity and Genotoxicity of NaOCl on Blackbrow Bleak (Acanthalburnus microlepis De Filippi, 1863)|Fresenius Environ. Bull.17(3): 298-302|2008|
114003|T||Cho,Y.M., T. Imai, Y. Ota, M. Hasumura, S. Takami, M. Hirose, and A. Nishikawa|A New Medium-Term Rat Colorectal Bioassay Applying Neoplastic Lesions as End Points for Detection of Carcinogenesis Modifiers Effects with Weak or Controversial Modifiers|Toxicol. Pathol.36(3): 459-464|2008|10.1177/0192623308315358
114004|T||Cohen,S.M., and L.B. Ellwein|Relationship of DNA Adducts Derived from 2-Acetylaminofluorene to Cell Proliferaton and the Induction of Rodent Liver and Bladder Tumors|Toxicol. Pathol.23(2): 136-142|1995|10.1177/019262339502300206
114005|T||Staatz-Benson,C.G., and M.J. Hosko|Interaction of Pyrethroids with Mammalian Spinal Neurons|Pestic. Biochem. Physiol.25(1): 19-30|1986|10.1016/0048-3575(86)90028-3
114006|T||Dagenais,S., J. Mayer, J.R. Wooley, S. Haldeman, and M. Hite|Acute Toxicity Evaluation of Proliferol:  A Dose-Escalating, Placebo-Controlled Study in Rats|Int. J. Toxicol.26(5): 451-463|2007|10.1080/10915810701620358
114007|T||Gianello,R., W.C. Hall, E. Kennepohl, R. Libinaki, and E. Ogru|Subchronic Oral Toxicity Study of Mixed Tocopheryl Phosphates in Rats|Int. J. Toxicol.26(5): 475-490|2007|10.1080/10915810701620556
114008|A||Huang,D.J., and H.C. Chen|Effects of Chlordane and Lindane on Testosterone and Vitellogenin Levels in Green Neon Shrimp (Neocaridina denticulata)|Int. J. Toxicol.23(2): 91-95|2004|10.1080/10915810490435604
114009|T||Kim,S., C.W.,Jr. Qualls, G. Reddy, and E.L. Stair|1,3,5-Trinitrobenzene-Induced Alpha-2u-Globulin Nephropathy|Toxicol. Pathol.25(2): 195-201|1997|10.1177/019262339702500209
114010|T||Tsubuku,S., K. Hatayama, T. Katsumata, N. Nishimura, K. Mawatari, M. Smriga, and T. Kimura|Thirteen-Week Oral Toxicity Study of Branched-Chain Amino Acids in Rats|Int. J. Toxicol.23(2): 119-126|2004|10.1080/10915810490444424
114011|T||Tsubuku,S., M. Mochizuki, K. Mawatari, M. Smriga, and T. Kimura|Thirteen-Week Oral Toxicity Study of L-Lysine Hydrochloride in Rats|Int. J. Toxicol.23(2): 113-118|2004|10.1080/10915810490444415
114012|T||Wolf,D.C., L.M. Crosby, M.H. George, S.R. Kilburn, T.M. Moore, R.T. Miller, and A.B. DeAngelo|Time- and Dose-Dependent Development of Potassium Bromate-Induced Tumors in Male Fischer 344 Rats|Toxicol. Pathol.26(6): 724-729|1998|10.1177/019262339802600602
114013|T||Politano,V.T., E.M. Lewis, A.M. Hoberman, M.S. Christian, R.M. Diener, and A.M. Api|Evaluation of the Developmental Toxicity of alpha-iso-Methylionone in Rats|Int. J. Toxicol.26(3): 271-276|2007|10.1080/10915810701369808
114014|T||Watson,R.E., A.M. Hafez, J.N. Kremsky, and G.O. Bizzigotti|Toxicity of Binary Chemical Munition Destruction Products:  Methylphosphonic Acid, Methylphosphinic Acid, 2-Diisopropylaminoethanol, DF Neutralent, and QL Neutralent|Int. J. Toxicol.26(6): 503-512|2007|10.1080/10915810701707551
114015|T||Marquis,J.K., R. Dagher, and M.R. Jones|Dietary Administration of Colesevelam Hydrochloride does not Affect Fertility or Reproductive Performance in Rats|Int. J. Toxicol.23(6): 357-367|2004|10.1080/10915810490902010
114017|T||Walsh,K.M., M.A. Albassam, and D.E. Clarke|Subchronic Toxicity of Atorvastatin, A Hydroxymethylglutaryl-Coenzyme A Reductase Inhibitor, in Beagle Dogs|Toxicol. Pathol.24(4): 468-476|1996|10.1177/019262339602400409
114018|T||Tsubuku,S., K. Hatayama, K. Mawatari, M. Smriga, and T. Kimura|Thirteen-Week Oral Toxicity Study of L-Arginine in Rats|Int. J. Toxicol.23(2): 101-105|2004|10.1080/10915810490435622
114019|A||Cope,W.G., R.B. Bringolf, D.B. Buchwalter, T.J. Newton, C.G. Ingersoll, N. Wang, T. Augspurger, F.J. Dwyer, M.C. Barnha|Differential Exposure, Duration, and Sensitivity of Unionoidean Bivalve Life Stages to Environmental Contaminants|J. North Am. Benthol. Soc.27(2): 451-462|2008|10.1899/07-094.1
114020|T||Jiang,X., and C. Wang|Zinc Distribution and Zinc-Binding Forms in Phragmites australis Under Zinc Pollution|J. Plant Physiol.165(7): 697-704|2008|10.1016/j.jplph.2007.05.011
114021|A||Slaughter,A.R., C.G. Palmer, and W.J. Muller|A Chronic Toxicity Test Protocol Using Caridina nilotica (Decapoda:  Atyidae) and the Generation of Salinity Toxicity Data|Afr. J. Aquat. Sci.33(1): 37-44|2008|10.2989/AJAS.2007.33.1.4.388
114022|T||Waalkes,M.P., J. Liu, K.S. Kasprzak, and B.A. Diwan|Metallothionein-I/II Double Knockout Mice are No More Sensitive to the Carcinogenic Effects of Nickel Subsulfide than Wild-Type Mice|Int. J. Toxicol.24(4): 215-220|2005|10.1080/10915810591000668
114023|T||Katsuta,O., H. Hiratsuka, J. Matsumoto, M. Tsuchitani, and T. Umemura|Cadmium-Induced Dental Lesions in Ovariectomized Rats|Toxicol. Pathol.24(4): 451-457|1996|10.1177/019262339602400407
114024|T||Hutchinson,J.T., and K.A. Langeland|Response of Selected Nontarget Native Florida Wetland Plant Species to Metsulfuron Methyl|J. Aquat. Plant Manag.46:72-76|2008|
114025|A||Zhang,Z., and J. Hu|Effects of p,p'-DDE Exposure on Gonadal Development and Gene Expression in Japanese Medaka (Oryzias latipes)|J. Environ. Sci.20(3): 347-352|2008|10.1016/S1001-0742(08)60054-6
114026|A||Davies,T.D., J. Pickard, and K.J. Hall|Acute Molybdenum Toxicity to Rainbow Trout and Other Fish|J. Environ. Eng. Sci.4(6): 481-485|2005|10.1139/s05-021
114027|T||Tabaldi,L.A., F.T. Nicoloso, G.Y. Castro, D. Cargnelutti, J.F. Goncalves, R. Rauber, E.C. Skrebsky, M.R.C. Schetinger, |Physiological and Oxidative Stress Responses of Four Potato Clones to Aluminum in Nutrient Solution|Braz. J. Plant Physiol.19(3): 211-222|2007|10.1590/S1677-04202007000300005
114028|A||Pokrovsky,O.S., G.S. Pokrovski, and A. Feurtet-Mazel|A Structural Study of Cadmium Interaction with Aquatic Microorganisms|Environ. Sci. Technol.42(15): 5527-5533|2008|10.1021/es800521a
114029|A||Rajan,M., J. Darrow, M. Hua, B. Barnett, M. Mendoza, B.K. Greenfield, and J.C. Andrews|Hg L3 XANES Study of Mercury Methylation in Shredded Eichhornia crassipes|Environ. Sci. Technol.42(15): 5568-5573|2008|10.1021/es800284v
114030|T||Lum,A.F., D. Chikoye, and S.O. Adesiyan|Control of Imperata cylindrica (L.) Raeuschel (Speargrass) with Nicosulfuron and Its Effects on the Growth, Grain Yield and Food Components of Maize|Crop Prot.24(1): 41-47|2005|10.1016/j.cropro.2004.06.006
114032|T||Cummins,I., M. Brazier-Hicks, M. Stobiecki, R. Franski, and R. Edwards|Selective Disruption of Wheat Secondary Metabolism by Herbicide Safeners|Phytochemistry67(16): 1722-1730|2006|10.1016/j.phytochem.2006.01.012
114033|T||Weir,L.R., E. Schenck, J. Meakin, F. McClure, R. Driver, S. Walker, and A.M. Lynch|Biophotonic Imaging in HO-1.luc Transgenic Mice:  Real-Time Demonstration of Gender-Specific Chloroform Induced Renal Toxicity|Mutat. Res.574(1-2): 67-75|2005|10.1016/j.mrfmmm.2005.01.023
114034|T||Sulmon,C., G. Gouesbet, A. El Amrani, and I. Couee|Involvement of the Ethylene-Signalling Pathway in Sugar-Induced Tolerance to the Herbicide Atrazine in Arabidopsis thaliana Seedlings|J. Plant Physiol.164(8): 1083-1092|2007|10.1016/j.jplph.2006.11.005
114035|T||Pascual,M.B., Z.P. Jing, E.G. Kirby, F.M. Canovas, and F. Gallardo|Response of Transgenic Poplar Overexpressing Cytosolic Glutamine Synthetase to Phosphinothricin|Phytochemistry69(2): 382-389|2008|10.1016/j.phytochem.2007.07.031
114036|T||Ouziad,F., U. Hildebrandt, E. Schmelzer, and H. Bothe|Differential Gene Expressions in Arbuscular Mycorrhizal-Colonized Tomato Grown Under Heavy Metal Stress|J. Plant Physiol.162(6): 634-649|2005|10.1016/j.jplph.2004.09.014
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114040|A||Liu,T., Z.L. Chen, Y.F. Shen, L. Gan, L. Cao, and Z.Z. Lv|Monitoring Bioaccumulation and Toxic Effects of Hexachlorobenzene Using the Polyurethane Foam Unit Method in the Microbial Communities of the Fuhe River, Wuhan|J. Environ. Sci.19(6): 738-744|2007|10.1016/S1001-0742(07)60123-5
114041|T||Lin,C.W., H.B. Chang, and H.J. Huang|Zinc Induces Mitogen-Activated Protein Kinase Activation Mediated by Reactive Oxygen Species in Rice Roots|Plant Physiol. Biochem.43(10-11): 963-968|2005|10.1016/j.plaphy.2005.10.001
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114069|A||Meyer,F.P.|Quarterly Report of Progress, October-December, 1982|U.S. Department of the Interior, Fish and Wildlife Service:15-26|1983|
114070|T||Barnes,T.B.|Reproductive Toxicity of Methyl-1-(Butylcarbamoyl)-2-Benzimadazole Carbamate (Benomyl) in Male Wistar Rats|Ph.D Thesis, University of Mississippi, University, MS:100 p.|1982|
114072|A||Marohn,L., H. Rehbein, R. Kundiger, and R. Hanel|The Suitability of Cytochrome-P4501A1 as a Biomarker for PCB Contamination in European Eel (Anguilla anguilla)|J. Biotechnol.136(3-4): 135-139|2008|10.1016/j.jbiotec.2008.06.008
114082|T||Skrivanova,V., and M. Marounek|A Note on the Effect of Triacylglycerols of Caprylic and Capric Fatty Acid on Performance, Mortality, and Digestibility of Nutrients in Young Rabbits|Anim. Feed Sci. Technol.127(1-2): 161-168|2006|10.1016/j.anifeedsci.2005.07.001
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114085|T||Shohael,A.M., D. Chakrabarty, K.W. Yu, E.J. Hahn, and K.Y. Paek|Application of Bioreactor System for Large-Scale Production of Eleutherococcus sessiliflorus Somatic Embryos in an Air-Lift Bioreactor and Production of Eleutherosides|J. Biotechnol.120(2): 228-236|2005|10.1016/j.jbiotec.2005.06.010
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114088|T||Wu,Q.T., J.C. Deng, X.X. Long, J.L. Morel, and C. Schwartz|Selection of Appropriate Organic Additives for Enhancing Zn and Cd Phytoextraction by Hyperaccumulators|J. Environ. Sci.18(6): 1113-1118|2006|10.1016/S1001-0742(06)60048-X
114089|T||Wang,X., Y. Liu, G. Zeng, L. Chai, X. Song, Z. Min, and X. Xiao|Subcellular Distribution and Chemical Forms of Cadmium in Bechmeria nivea (L.) Gaud.|Environ. Exp. Bot.62(3): 389-395|2008|10.1016/j.envexpbot.2007.10.014
114090|T||Tuffi Santos,L.D., R.M.S.A. Meira, F.A. Ferreira, B.F. Sant'Anna-Santos, and L.R. Ferreira|Morphological Responses of Different Eucalypt Clones Submitted to Glyphosate Drift|Environ. Exp. Bot.59(1): 11-20|2007|10.1016/j.envexpbot.2005.09.010
114091|T||Standish,R.J., B.A. Stokes, M. Tibbett, and R.J. Hobbs|Seedling Response to Phosphate Addition and Inoculation with Arbuscular mycorrhizas and the Implications for Old-Field Restoration in Western Australia|Environ. Exp. Bot.61(1): 58-65|2007|10.1016/j.envexpbot.2007.03.004
114092|T||Quiros,A., M. Ramos, B. Muguerza, M.A. Delgado, M. Miguel, A. Aleixandre, and I. Recio|Identification of Novel Antihypertensive Peptides in Milk Fermented with Enterococcus faecalis|Int. Dairy J.17(1): 33-41|2007|10.1016/j.idairyj.2005.12.011
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114095|T||Si,J.T., B.G. Tian, H.T. Wang, N. Basta, J. Schroder, and M. Casillas|Assessing Availability, Phytotoxicity and Bioaccumulation of Lead to Ryegrass and Millet Based on 0.1 mol/L Ca(No3)2 Extraction|J. Environ. Sci.18(5): 958-963|2006|10.1016/S1001-0742(06)60021-1
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114098|T||Santos,B.M., J.P. Gilreath, C.E. Esmel, and M.N. Siham|Effects of Sublethal Glyphosate Rates on Fresh Market Tomato|Crop Prot.26(2): 89-91|2007|10.1016/j.cropro.2006.04.005
114099|T||Sahile,S., C. Fininsa, P.K. Sakhuja, and S. Ahmed|Effect of Mixed Cropping and Fungicides on Chocolate Spot (Botrytis fabae) of Faba Bean (Vicia faba) in Ethiopia|Crop Prot.27(2): 275-282|2008|10.1016/j.cropro.2007.06.003
114100|T||Rodriguez,P., A. Torrecillas, M.A. Morales, M.F. Ortuno, and M.J. Sanchez-Blanco|Effects of NaCl Salinity and Water Stress on Growth and Leaf Water Relations of Asteriscus maritimus Plants|Environ. Exp. Bot.53(2): 113-123|2005|10.1016/j.envexpbot.2004.03.005
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114105|T||Webb,E.C., and N.H. Casey|Fatty Acids in Carcass Fat of Steers Treated with a beta-Adrenergic Agonist Individually or in Combination with Trenbolone Acetate + Oestradiol-17beta|Meat Sci.41(1): 69-76|1995|10.1016/0309-1740(94)00049-D
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114109|T||Tan,X.W., H. Ikeda, and M. Oda|Effects of Nickel Concentration in the Nutrient Solution on the Nitrogen Assimilation and Growth of Tomato Seedlings in Hydroponic Culture Supplied with Urea or Nitrate as the Sole Nitrogen Source|Sci. Hortic.84(3-4): 265-273|2000|10.1016/S0304-4238(99)00107-7
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114118|A||Hourmant,A., A. Amara, P. Pouline, G. Durand, G. Arzul, and F. Quiniou|Effect of Bentazon on Growth and Physiological Responses of Marine Diatom: Chaetoceros gracilis|Toxicol. Mech. Methods19(2): 109-115|2009|10.1080/15376510802290892
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114120|T||Pasian,C.C.|Response of Dendranthema grandiflora (Ramat) to Three Plant Growth Regulators in Container Paint Mix Applications|Sci. Hortic.80(3/4): 277-287|1999|10.1016/S0304-4238(98)00248-9
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114122|T||Arduini,I., L. Ercoli, M. Mariotti, and A. Masoni|Response of Miscanthus to Toxic Cadmium Applications During the Period of Maximum Growth|Environ. Exp. Bot.55(1-2): 29-40|2006|10.1016/j.envexpbot.2004.09.009
114123|T||Alvindia,D.G., and K.T. Natsuaki|Control of Crown Rot-Causing Fungal Pathogens of Banana by Inorganic Salts and a Surfactant|Crop Prot.26(11): 1667-1673|2007|10.1016/j.cropro.2007.02.008
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114134|T||Kato-Noguchi,H.|Ethanol Sensitivity of Rice and Oat Coleoptiles|Physiol. Plant. (Multiple Languages)115(1): 119-124|2002|10.1034/j.1399-3054.2002.1150114.x
114135|T||Gessler,A., M. Rienks, and H. Rennenberg|Stomatal Uptake and Cuticular Adsorption Contribute to dry Deposition of NH3 and NO2 to Needles of Adult Spruce (Picea abies) Trees|New Phytol.156:179-194|2002|10.1046/j.1469-8137.2002.00509.x
114136|T||Deveaux,Y., A. Peaucelle, G.R. Roberts, E. Coen, R. Simon, Y. Mizukami, J. Traas, J.A.H. Murray, J.H. Doonan, and P. La|The Ethanol Switch:  A Tool for Tissue-Specific Gene Induction During Plant Development|Plant J.36(6): 918-930|2003|10.1046/j.1365-313X.2003.01922.x
114137|A||Pinder III,J.E., T.G. Hinton, and F.W. Whicker|Foliar Uptake of Cesium from the Water Column by Aquatic Macrophytes|J. Environ. Radioact.85(1): 23-47|2006|10.1016/j.jenvrad.2005.05.005
114138|A||Chen,J.C., and J.N. Lin|Lethal and Sublethal Effects of Ammonia to Penaeus penicillatus Juveniles|Bull. Inst. Zool. Acad. Sin. (Taipei)30(2): 73-80|1991|
114139|A||Jofre,M.B., M.L. Rosenshield, and W.H. Karasov|Effects of PCB 126 and Ammonia, Alone and in Combination, on Green Frog (Rana clamitans) and Leopard Frog (R. pipiens) Hatching Success, Development, and Metamorphosis|J. Iowa Acad. Sci.107(3): 113-122|2000|
114140|T||Bitterlich,I., and M.K. Upadhyaya|Leaf Surface Ultrastructure and Susceptibility to Ammonium Nitrate Injury|Can. J. Bot.68(9): 1911-1915|1990|10.1139/b90-251
114141|T||Ng,P.K., M.K. Cottle, J.M. Baker, B. Johnson, P. Van Muyden, and G.R. Van Petten|Ethanol Kinetics During Pregnancy.  Study in Ewes and Their Fetuses|Prog. Neuro-Psychopharmacol. Biol. Psychiatry6(1): 37-42|1982|10.1016/S0364-7722(82)80105-7
114142|A||Belkin,S., and S. Boussiba|High Internal pH Conveys Ammonia Resistance in Spirulina platensis|Bioresour. Technol.38(2-3): 167-169|1991|10.1016/0960-8524(91)90149-E
114144|T||Dolling,A.|Changes in Pteridium aquilinum Growth and Phytotoxicity Following Treatments with Lime, Sulphuric Acid, Wood Ash, Glyphosate and Ammonium Nitrate|Weed Res. (Multiple Languages)36(4): 293-301|1996|10.1111/j.1365-3180.1996.tb01659.x
114145|T||Hamid,A., and M. Ahmad|Effects of 15N-Labelled Ammonium Nitrate and Urea on Soil Nitrogen During Growth of Wheat (Triticum aestivum L.) Under Field Conditions|Biol. Fertil. Soils17(3): 232-236|1994|10.1007/BF00336328
114146|A||Hultin,T.|The Protein Metabolism of Sea Urchin Eggs During Early Development Studied by Means of 15N-Labeled Ammonia|Exp. Cell Res.1(4): 599-602|1950|10.1016/0014-4827(50)90009-7
114148|T||Abai,M.R., A. Mehravaran, H. Vatandoost, M.A. Oshaghi, E. Javadian, M. Mashayekhi, A. Mosleminia, N. Piyazak, H. Edalla|Comparative Performance of Imagicides on Anopheles stephensi, Main Malaria Vector in a Malarious Area, Southern Iran|J. Vector Borne Dis.45(4): 307-312|2008|
114149|T||Harrill,J.A., Z. Li, F.A. Wright, N.M. Radio, W.R. Mundy, R. Tornero-Velez, and K.M. Crofton|Transcriptional Response of Rat Frontal Cortex Following Acute In Vivo Exposure to the Pyrethroid Insecticides Permethrin and Deltamethrin|BMC Genomics9(546): 1-23|2008|
114150|T||Karunaratne,S.H.P.P., N.J. Hawkes, M.D.B. Perera, H. Ranson, and J. Hemingway|Mutated Sodium Channel Genes and Elevated Monooxygenases are Found in Pyrethroid Resistant Populations of Sri Lankan Malaria Vectors|Pestic. Biochem. Physiol.88(1): 108-113|2007|10.1016/j.pestbp.2006.10.001
114151|T||Kim,N.J., K.S. Chang, W.J. Lee, and Y.J. Ahn|Monitoring of Insecticide Resistance in Field-Collected Populations of Culex pipiens pallens (Diptera: Culicidae)|J. Asia Pac. Entomol.10(3): 257-261|2007|10.1016/S1226-8615(08)60360-X
114152|T||Rohani,A., I. Zamree, L.H. Lim, H. Rahini, L. David, and D. Kamilan|Comparative Field Evaluation of Residual-Sprayed Deltamethrin WG and Deltamethrin WP for the Control of Malaria in Pahang, Malaysia|Southeast Asian J. Trop. Med. Public Health37(6): 1139-1148|2006|
114153|A||Oxendine,S.L., J. Cowden, D.E. Hinton, and S. Padilla|Adapting the Medaka Embryo Assay to a High-Throughput Approach for Developmental Toxicity Testing|Neurotoxicology27(5): 840-845|2006|10.1016/j.neuro.2006.02.009
114154|T||Kato-Noguchi,H., and T. Kugimiya|Anoxia Tolerance and Ethanol Sensitivity of Rice and Oat Coleoptiles|Acta Physiol. Plant.24(1): 73-77|2002|10.1007/s11738-002-0024-6
114155|T||Papaefthimiou,C., and G. Theophilidis|The Cardiotoxic Action of the Pyrethroid Insecticide Deltamethrin, the Azole Fungicide Prochloraz, and Their Synergy on the Semi-Isolated Heart of the Bee Apis mellifera macedonica|Pestic. Biochem. Physiol.69(2): 77-91|2001|10.1006/pest.2000.2519
114156|T||Leihy,M.W., G. Shaw, J.D. Wilson, and M.B. Renfree|Virilization of the Urogenital Sinus of the Tammar Wallaby is not Unique to 5[alpha]-Androstane-3[alpha],17[beta]-diol|Mol. Cell. Endocrinol.181(1-2): 111-115|2001|10.1016/S0303-7207(01)00527-5
114157|T||Zhang,W., T.M. Wolf, K.L. Bailey, K. Mortensen, and S.M. Boyetchko|Screening of Adjuvants for Bioherbicide Formulations with Colletotrichum spp. and Phoma spp.|Biol. Control26(2): 95-108|2003|10.1016/S1049-9644(02)00133-0
114158|T||Landini,S., M.Y. Graham, and T.L. Graham|Lactofen Induces Isoflavone Accumulation and Glyceollin Elicitation Competency in Soybean:  Plant Metabolomics|Phytochemistry62(6): 865-874|2003|10.1016/S0031-9422(02)00709-4
114159|T||Zhou,S., M. Tejada, G.R. Wyatt, and V.K. Walker|A DNA-Binding Protein, TPF1, Involved in Juvenile Hormone-Regulated Gene Expression in Locusta migratoria|Insect Biochem. Mol. Biol.36(9): 726-734|2006|10.1016/j.ibmb.2006.06.004
114160|T||Chin,W.W.L., W.K.O. Lau, P.W.S. Heng, R. Bhuvaneswari, and M. Olivo|Fluorescence Imaging and Phototoxicity Effects of New Formulation of Chlorin E6-Polyvinylpyrrolidone|J. Photochem. Photobiol. B Biol.84(2): 103-110|2006|10.1016/j.jphotobiol.2006.02.002
114161|T||Alamillo,J.M., and D. Bartels|Effects of Desiccation on Photosynthesis Pigments and the ELIP-like DSP 22 Protein Complexes in the Resurrection Plant Craterostigma plantagineum|Plant Sci.160(6): 1161-1170|2001|10.1016/S0168-9452(01)00356-9
114162|T||Salva,I., and E. Jamet|The Tobacco Ext 1.4 Extensin Gene Family is not Regulated by Auxins in Cells Proliferating Under Hormone Control|Plant Physiol. Biochem.41(4): 363-367|2003|10.1016/S0981-9428(03)00031-7
114163|A||Olivier,S., A.H. Scragg, and J. Morrison|The Effect of Chlorophenols on the Growth of Chlorella VT-1|Enzyme Microb. Technol.32(7): 837-842|2003|10.1016/S0141-0229(03)00055-3
114164|T||Zlotkin,E., A.L. Devonshire, and J.W. Warmke|The Pharmacological Flexibility of the Insect Voltage Gated Sodium Channel: Toxicity of AaIT to Knockdown Resistant (kdr) Flies|Insect Biochem. Mol. Biol.29(10): 849-853|1999|10.1016/S0965-1748(99)00079-X
114165|T||Sagner,S., R. Kneer, G. Wanner, J.P. Cosson, B. Deus-Neumann, and M.H. Zenk|Hyperaccumulation, Complexation and Distribution of Nickel in Sebertia acuminata|Phytochemistry47(3): 339-347|1998|10.1016/S0031-9422(97)00593-1
114166|T||Sotiropoulos,T.E., I.N. Therios, and K.N. Dimassi|Calcium Application as a Means to Improve Tolerance of Kiwifruit (Actinidia deliciosa L.) to Boron Toxicity|Sci. Hortic.81(4): 443-449|1999|10.1016/S0304-4238(99)00028-X
114167|T||Tal,A., E. Kotoula-Syka, and B. Rubin|Seed-Bioassay to Detect Grass Weeds Resistant to Acetyl Coenzyme A Carboxylase Inhibiting Herbicides|Crop Prot.19(7): 467-472|2000|10.1016/S0261-2194(00)00041-7
114168|T||Sun,Y., P.C. Ha, J.A. Butler, B.R. Ou, J.Y. Yeh, and P. Whanger|Effect of Dietary Selenium on Selenoprotein W and Glutathione Peroxidase in 28 Tissues of the Rat|J. Nutr. Biochem.9(1): 23-27|1998|10.1016/S0955-2863(97)00162-9
114169|T||Barry,J., S. Wang, and T.G. Wilson|Overexpression of Methoprene-Tolerant, a Drosophila melanogaster Gene that is Critical for Juvenile Hormone Action and Insecticide Resistance.|Insect Biochem. Mol. Biol.38(3): 346-353|2008|
114170|T||Choi,Y.H., K.M. Lim, W.Y. Lee, H.G. Park, G.S. Choi, D.K. Keum, H. Lee, S.B. Kim, and C.W. Lee|Tritium Levels in Chinese Cabbage and Radish Plants Acutely Exposed to HTO Vapor at Different Growth Stages|J. Environ. Radioact.84(1): 79-94|2005|10.1016/j.jenvrad.2005.04.004
114171|T||Olness,A., R. Gesch, F. Forcella, D. Archer, and J. Rinke|Importance of Vanadium and Nutrient Ionic Ratios on the Development of Hydroponically Grown Cuphea|Ind. Crops Prod.21(2): 165-171|2005|10.1016/j.indcrop.2004.02.005
114172|T||Clausen,C.A., and V. Yang|Protecting Wood from Mould, Decay, and Termites with Multi-component Biocide Systems|Int. Biodeterior. Biodegrad.59(1): 20-24|2007|10.1016/j.ibiod.2005.07.005
114173|T||Dong,Y., T. Ogawa, D. Lin, H.J. Koh, H. Kamiunten, M. Matsuo, and S. Cheng|Molecular Mapping of Quantitative Trait Loci for Zinc Toxicity Tolerance in Rice Seedling (Oryza sativa L.)|Field Crops Res.95(2-3): 420-425|2006|10.1016/j.fcr.2005.03.005
114174|T||Eticha,D., C. The, C. Welcker, L. Narro, A. Stab, and W.J. Horst|Aluminium-Induced Callose Formation in Root Apices:  Inheritance and Selection Trait for Adaptation of Tropical Maize to Acid Soils|Field Crops Res.93(2-3): 252-263|2005|10.1016/j.fcr.2004.10.004
114175|T||Gopi,C., and P. Ponmurugan|Somatic Embryogenesis and Plant Regeneration from Leaf Callus of Ocimum basilicum L.|J. Biotechnol.126(2): 260-264|2006|10.1016/j.jbiotec.2006.04.033
114176|T||Ito,E., M.O. Frederick, T.V. Koftis, W. Tang, G. Petrovic, T. Ling, and K.C. Nicolaou|Structure Toxicity Relationships of Synthetic Azaspiracid-1 and Analogs in Mice|Harmful Algae5(5): 586-591|2006|10.1016/j.hal.2005.11.005
114177|T||Mann,R.M., P. Matos, S. Loureiro, and A.M.V.M. Soares|Foundation Studies for Cadmium Accumulation Studies in Terrestrial Isopods - Diet Selection and Diet Contamination|Eur. J. Soil Sci.41(3-4): 153-161|2005|
114178|A||Li,H., J.L. Miao, F.X. Cui, and G.Y. Li|Promotion of Hexadecyltrimethyleamine Bromide to the Damage of Alexandrium sp. LC3 by Cupric Glutamate|J. Environ. Sci.18(6): 1152-1156|2006|10.1016/S1001-0742(06)60054-5
114179|T||Kapolna,E., M. Shah, J.A. Caruso, and P. Fodor|Selenium Speciation Studies in Se-Enriched Chives (Allium schoenoprasum) by HPLC-ICP-MS|Food Chem.101(4): 1398-1406|2007|10.1016/j.foodchem.2006.03.048
114180|T||Choi,Y.H., H.S. Kang, I. Jun, D.K. Keum, H. Lee, S.B. Kim, and C.W. Lee|Fate of HTO Following Its Acute Soil Deposition at Different Growth Stages of Chinese Cabbage|J. Environ. Radioact.97(1): 20-29|2007|10.1016/j.jenvrad.2007.02.007
114181|T||Sikkema,S.R., N. Soltani, P.H. Sikkema, and D.E. Robinson|Response of Sweet Maize (Zea mays L.) Hybrids to Halosulfuron|Crop Prot.27(3-5): 695-699|2008|10.1016/j.cropro.2007.09.015
114182|T||Sikkema,P.H., C. Shropshire, and N. Soltani|Effect of Clomazone on Various Market Classes of dry Beans|Crop Prot.26(7): 943-947|2007|10.1016/j.cropro.2006.08.014
114183|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Control of Volunteer Glyphosate-Tolerant Maize (Zea mays) in Glyphosate-Tolerant Soybean (Glycine max)|Crop Prot.25(2): 178-181|2006|10.1016/j.cropro.2005.03.017
114184|A||El-Bestawy,E.A., A.Z. Abd El-Salam, and A.E.R.H. Mansy|Potential Use of Environmental Cyanobacterial Species in Bioremediation of Lindane-Contaminated Effluents|Int. Biodeterior. Biodegrad.59(3): 180-192|2007|10.1016/j.ibiod.2006.12.005
114185|A||Alquezar,R., S.J. Markich, and J.R. Twining|Comparative Accumulation of 109Cd and 75Se from Water and Food by an Estuarine Fish (Tetractenos glaber)|J. Environ. Radioact.99(1): 167-180|2008|10.1016/j.jenvrad.2007.07.012
114186|T||Volk,G.M., J.L. Harris, and K.E. Rotindo|Survival of Mint Shoot Tips After Exposure to Cryoprotectant Solution Components|Cryobiology52(2): 305-308|2006|10.1016/j.cryobiol.2005.11.003
114187|T||Vitoria,A.P., M. Da Cunha, and R.A. Azevedo|Ultrastructural Changes of Radish Leaf Exposed to Cadmium|Environ. Exp. Bot.58(1-3): 47-52|2006|10.1016/j.envexpbot.2005.06.014
114188|T||Wojcik,M., J. Vangronsveld, J.D. Haen, and A. Tukiendorf|Cadmium Tolerance in Thlaspi caerulescens:  II.  Localization of Cadmium in Thlaspi caerulescens|Environ. Exp. Bot.53(2): 163-171|2005|
114189|A||Beyer,J., M. Sandvik, J.U. Skare, E. Egaas, K. Hylland, R. Waagbo, and A. Goksoyr|Time- and Dose-Dependent Biomarker Responses in Flounder (Platichthys flesus L.) Exposed to Benzo(a)pyrene, 2,3,3',4,4',5-Hexachlorobiphenyl (PCB-156) and Cadmium|Biomarkers (Lond.)2:35-44|1997|10.1080/135475097231959
114190|A||Diniz,M.S., H.M. Santos, P.M. Costa, I. Peres, M.H. Costa, and J.L. Capelo|Metallothionein Responses in the Asiatic Clam (Corbicula fluminea) After Exposure to Trivalent Arsenic|Biomarkers (Lond.)12(6): 589-598|2007|10.1080/13547500701507701
114191|A||Champeau,O., M.P. Auffret, M. Cajaraville, A. Basseres, and J.F. Narbonne|Immunological and Cytotoxicological Responses of the Asian Clam, Corbicula fluminea (M.), Experimentally Exposed to Cadmium|Biomarkers (Lond.)12(2): 173-187|2007|10.1080/13547500601068390
114192|A||Kuster,E., and R. Altenburger|Comparison of Cholin- and Carboxylesterase Enzyme Inhibition and Visible Effects in the Zebra Fish Embryo Bioassay Under Short-Term Paraoxon-Methyl Exposure|Biomarkers (Lond.)11(4): 341-354|2006|10.1080/13547500600742136
114193|A||La Porte,P.F.|Mytilus trossulus hsp70 as a Biomarker for Arsenic Exposure in the Marine Environment:  Laboratory and Real-World Results|Biomarkers (Lond.)10(6): 417-428|2005|10.1080/13547500500264371
114194|A||Geret,F., A. Serafim, L. Barreira, and M.J. Bebianno|Effect of Cadmium on Antioxidant Enzyme Activities and Lipid Peroxidation in the Gills of the Clam Ruditapes decussatus|Biomarkers (Lond.)7(3): 242-256|2002|10.1080/13547500210125040
114195|A||Paris-Palacios,S., S. Biagianti-Risbourg, and G. Vernet|Metallothionein Induction Related to Hepatic Structural Perturbations and Antioxidative Defences in Roach (Rutilus rutilus) Exposed to the Fungicide Procymidone|Biomarkers (Lond.)8(2): 128-141|2003|10.1080/1354750021000050511
114196|T||Staempfli,C., K. Becker-Van Slooten, and J. Tarradellas|Hsp70 Instability and Induction by a Pesticide in Folsomia candida|Biomarkers (Lond.)7(1): 68-79|2002|10.1080/13547500110086900
114197|T||Bie,Z., T. Ito, and Y. Shinohara|Effects of Sodium Sulfate and Sodium Bicarbonate on the Growth, Gas Exchange and Mineral Composition of Lettuce|Sci. Hortic.99(3-4): 215-224|2004|10.1016/S0304-4238(03)00106-7
114198|T||Miguel,A., J.V. Maroto, A. San Bautista, C. Baixauli, V. Cebolla, B. Pascual, S. Lopez, and J.L. Guardiola|The Grafting of Triploid Watermelon is an Advantageous Alternative to Soil Fumigation by Methyl Bromide for Control of Fusarium Wilt|Sci. Hortic.103(1): 9-17|2004|10.1016/j.scienta.2004.04.007
114199|T||Sarkar,D., S.K. Pandey, K.C. Sud, and A. Chanemougasoundharam|In Vitro Characterization of Manganese Toxicity in Relation to Phosphorus Nutrition in Potato (Solanum tuberosum L.)|Plant Sci.167(5): 977-986|2004|10.1016/j.plantsci.2004.05.022
114200|T||Sunohara,Y., and H. Matsumoto|Oxidative Injury Induced by the Herbicide Quinclorac on Echinochloa oryzicola Vasing and the Involvement of Antioxidative Ability in Its Highly Selective Action in Grass Species|Plant Sci.167(3): 597-606|2004|10.1016/j.plantsci.2004.05.005
114201|T||Huan,L.V.T., T. Takamura, and M. Tanaka|Callus Formation and Plant Regeneration from Callus Through Somatic Embryo Structures in Cymbidium Orchid|Plant Sci.166(6): 1443-1449|2004|10.1016/j.plantsci.2004.01.023
114202|T||Papadakis,I.E., K.N. Dimassi, A.M. Bosabalidis, I.N. Therios, A. Patakas, and A. Giannakoula|Boron Toxicity in 'Clementine' Mandarin Plants Grafted on Two Rootstocks|Plant Sci.166(2): 539-547|2004|10.1016/j.plantsci.2003.10.027
114203|T||Ruley,A.T., N.C. Sharma, and S.V. Sahi|Antioxidant Defense in a Lead Accumulating Plant, Sesbania drummondii|Plant Physiol. Biochem.42(11): 899-906|2004|10.1016/j.plaphy.2004.12.001
114204|T||Bilisics,L., J. Vojtassak, P. Capek, K. Kollarova, and D. Liskova|Changes in Glycosidase Activities During Galactoglucomannan Oligosaccharide Inhibition of Auxin Induced Growth|Phytochemistry65(13): 1903-1909|2004|10.1016/j.phytochem.2004.06.002
114205|T||Nation,J.R., K.R. Smith, and G.R. Bratton|Early Developmental Lead Exposure Increases Sensitivity to Cocaine in a Self-Administration Paradigm|Pharmacol. Biochem. Behav.77(1): 127-135|2004|10.1016/j.pbb.2003.10.009
114206|A||Guida,M., M. Inglese, and S. Meric|A Multi-Battery Toxicity Investigation on Fungicides|Desalination226(1-3): 262-270|2008|10.1016/j.desal.2007.04.096
114207|T||Gupta,R.S., J. Kim, C. Gomes, S. Oh, J. Park, W.B. Im, J.Y. Seong, R.S. Ahn, H.B. Kwon, and J. Soh|Effect of Ascorbic Acid Supplementation on Testicular Steroidogenesis and Germ Cell Death in Cadmium-Treated Male Rats|Mol. Cell. Endocrinol.221:57-66|2004|10.1016/j.mce.2004.03.012
114208|T||Du,X., Y.G. Zhu, W.J. Liu, and X.S. Zhao|Uptake of Mercury (Hg) by Seedlings of Rice (Oryza sativa L.) Grown in Solution Culture and Interactions with Arsenate Uptake|Environ. Exp. Bot.54(1): 1-7|2005|10.1016/j.envexpbot.2004.05.001
114210|T||Cosio,C., P. Vollenweider, and C. Keller|Localization and Effects of Cadmium in Leaves of a Cadmium-Tolerant Willow (Salix viminalis L.).  I.  Macrolocalization and Phytotoxic Effects of Cadmium|Environ. Exp. Bot.58(1-3): 64-74|2006|10.1016/j.envexpbot.2005.06.017
114211|T||Barros,J.F.C., G. Basch, and M. De Carvalho|Effect of Reduced Doses of a Post-emergence Graminicide to Control Avena sterilis L. and Lolium rigidum G. in No-Till Wheat Under Mediterranean Environment|Crop Prot.27(6): 1031-1037|2008|10.1016/j.cropro.2007.12.006
114212|T||Pinhero,R.G., G. Paliyath, R.Y. Yada, and D.P. Murr|Modulation of Phospholipase D and Lipoxygenase Activities During Chilling.  Relation to Chilling Tolerance of Maize Seedlings|Plant Physiol. Biochem.36(3): 213-224|1998|10.1016/S0981-9428(97)86878-7
114213|T||Quesnel,H., A. Pasquier, N. Jan, and A. Prunier|Influence of Insulin Treatment and Feed Restriction on Follicular Development in Cyclic Gilts|Anim. Reprod. Sci.64(1-2): 77-87|2000|10.1016/S0378-4320(00)00195-0
114214|T||Rahim,M.|Biological Activity of Azadirachtin-Enriched Neem Kernel Extracts Against Rhyzopertha dominica (F.) (Coleoptera:  Bostrichidae) in Stored Wheat|J. Stored Prod. Res.34(2/3): 123-128|1998|10.1016/S0022-474X(97)00058-1
114215|T||Rufingier,C., N. Pasteur, J. Lagnel, C. Martin, and M. Navajas|Mechanisms of Insecticide Resistance in the Aphid Nasonovia ribisnigri (Mosley) (Homoptera: Aphididae) from France|Insect Biochem. Mol. Biol.29(4): 385-391|1999|10.1016/S0965-1748(99)00014-4
114216|T||Sagare,A.P., Y.L. Lee, T.C. Lin, C.C. Chen, and H.S. Tsay|Cytokinin-Induced Somatic Embryogenesis and Plant Regeneration in Corydalis yanhusuo (Fumariaceae) - a Medicinal Plant|Plant Sci.160(1): 139-147|2000|10.1016/S0168-9452(00)00377-0
114217|T||Zehnder,G.W., E.J. Sikora, and W.R. Goodman|Treatment Decisions Based on Egg Scouting for Tomato Fruitworm, Helicoverpa zea (Boddie), Reduce Insecticide Use in Tomato|Crop Prot.14(8): 683-687|1995|10.1016/0261-2194(95)00032-1
114218|T||Zarb,J., and D.R. Walters|Polyamine Biosynthesis in the Ectomycorrhizal Fungus Paxillus involutus Exposed to Lead|Mycol. Res.100(4): 486-488|1996|10.1016/S0953-7562(96)80147-X
114219|T||Berestetskiy,A., A. Dmitriev, G. Mitina, I. Lisker, A. Andolfi, and A. Evidente|nolides and Cytochalasins with Phytotoxic Activity Against Cirsium arvense and Sonchus arvensis:  A Structure-Activity Relationships Study|Phytochemistry69(4): 953-960|2008|10.1016/j.phytochem.2007.11.003
114220|T||Li,Y.L., Y.G. Liu, J.L. Liu, G.M. Zeng, and X. Li|Effects of EDTA on Lead Uptake by Typha orientalis Presl:  A New Lead-Accumulating Species in Southern China|Bull. Environ. Contam. Toxicol.81(1): 36-41|2008|10.1007/s00128-008-9447-0
114221|T||Singh,S.R., K.F.A. Walters, G.R. Port, and P. Northing|Consumption Rates and Predatory Activity of Adult and Fourth Instar Larvae of the Seven Spot Ladybird, Coccinella septempunctata (L.), Following Contact with Dimethoate Residue and Contaminated Prey in Laboratory Arenas|Biol. Control30(2): 127-133|2004|10.1016/j.biocontrol.2004.01.003
114222|T||Vayias,B.J., and C.G. Athanassiou|Factors Affecting the Insecticidal Efficacy of the Diatomaceous Earth Formulation SilicoSec Against Adults and Larvae of the Confused Flour Beetle, Tribolium confusum DuVal (Coleoptera:  Tenebrionidae)|Crop Prot.23(7): 565-573|2004|10.1016/j.cropro.2003.11.006
114223|T||Evans,N.P., T. North, S. Dye, and T. Sweeney|Differential Effects of the Endocrine-Disrupting Compounds Bisphenol-A and Octylphenol on Gonadotropin Secretion, in Prepubertal Ewe Lambs|Domest. Anim. Endocrinol.26(1): 61-73|2004|10.1016/j.domaniend.2003.09.005
114224|T||Arduini,I., A. Masoni, M. Mariotti, and L. Ercoli|Low Cadmium Application Increase Miscanthus Growth and Cadmium Translocation|Environ. Exp. Bot.52(2): 89-100|2004|10.1016/j.envexpbot.2004.01.001
114225|T||Tripathi,S.C., K.D. Sayre, J.N. Kaul, and R.S. Narang|Lodging Behavior and Yield Potential of Spring Wheat (Triticum aestivum L.):  Effects of Ethephon and Genotypes|Field Crops Res.87(2-3): 207-220|2004|10.1016/j.fcr.2003.11.003
114226|T||Sharma,R., S. Komatsu, and H. Noda|Proteomic Analysis of Brown Planthopper:  Application to the Study of Carbamate Toxicity|Insect Biochem. Mol. Biol.34(5): 425-432|2004|10.1016/j.ibmb.2004.01.004
114227|T||Sivaprasad,R., M. Nagaraj, and P. Varalakshmi|Combined Efficacies of Lipoic Acid and 2,3-Dimercaptosuccinic Acid Against Lead-Induced Lipid Peroxidation in Rat Liver|J. Nutr. Biochem.15(1): 18-23|2004|10.1016/j.jnutbio.2003.09.001
114228|T||Yang,Y., Y. Wu, S. Chen, G.J. Devine, I. Denholm, P. Jewess, and G.D. Moores|The Involvement of Microsomal Oxidases in Pyrethroid Resistance in Helicoverpa armigera from Asia|Insect Biochem. Mol. Biol.34(8): 763-773|2004|10.1016/j.ibmb.2004.04.001
114229|T||Athanassiou,C.G., and N.G. Kavallieratos|Insecticidal Effect and Adherence of PyriSec in Different Grain Commodities|Crop Prot.24(8): 703-710|2005|10.1016/j.cropro.2004.12.004
114230|T||Maity,S., P.K. Padhy, and S. Chaudhury|The Role of Earthworm Lampito mauritii (Kinberg) in Amending Lead and Zinc Treated Soil|Bioresour. Technol.99(15): 7291-7298|2008|10.1016/j.biortech.2007.12.079
114231|T||Reiter,M., V.M. Walf, A. Christians, M.W. Pfaffl, and H.H.D. Meyer|Modification of mRNA Expression After Treatment with Anabolic Agents and the Usefulness for Gene Expression-Biomarkers|Anal. Chim. Acta586(1-2): 73-81|2007|10.1016/j.aca.2006.10.049
114232|T||Gentle,M., G. Massei, and R. Quy|Diversity of Diet Influences the Persistence of Conditioned Taste Aversion in Rats|Appl. Anim. Behav. Sci.97(2-4): 303-311|2006|10.1016/j.applanim.2005.08.005
114233|T||Giusti,P., D. Vitti, F. Fiocchetti, G. Colla, F. Saccardo, and M. Tucci|In Vitro Propagation of Three Endangered Cactus Species|Sci. Hortic.95(4): 319-332|2002|10.1016/S0304-4238(02)00031-6
114234|T||Bhattacharya,J., and S.S. Khuspe|In Vitro and In Vivo Germination of Papaya (Carica papaya L.) Seeds|Sci. Hortic.91(1-2): 39-49|2001|10.1016/S0304-4238(01)00237-0
114235|T||Ozturk,L., S. Karanlik, F. Ozkutlu, I. Cakmak, and L.V. Kochian|Shoot Biomass and Zinc/Cadmium Uptake for Hyperaccumulator and Non-accumulator Thlaspi Species in Response to Growth on a Zinc-Deficient Calcareous Soil|Plant Sci.164(6): 1095-1101|2003|10.1016/S0168-9452(03)00118-3
114236|T||Grieve,C.M., J.A. Poss, D.L. Suarez, and D.A. Dierig|Lesquerella Growth and Selenium Uptake Affected by Saline Irrigation Water Composition|Ind. Crops Prod.13(1): 57-65|2001|10.1016/S0926-6690(00)00053-4
114237|T||Polec-Pawlak,K., R. Ruzik, K. Abramski, M. Ciurzynska, and H. Gawronska|Cadmium Speciation in Arabidopsis thaliana as a Strategy to Study Metal Accumulation System in Plants|Anal. Chim. Acta540:61-70|2005|10.1016/j.aca.2004.10.048
114238|T||Gondo,T., S.I. Tsuruta, R. Akashi, O. Kawamura, and F. Hoffmann|Green, Herbicide-Resistant Plants by Particle Inflow Gun-Mediated Gene Transfer to Diploid Bahiagrass (Paspalum notatum)|J. Plant Physiol.162(12): 1367-1375|2005|10.1016/j.jplph.2005.03.005
114239|T||Finkelman,S., S. Navarro, A.A. Isikber, and E. Donahaye|A New Method of Ensuring even Distribution of a Fumigant in Flexible Fumigation Chambers Using External Fans|J. Stored Prod. Res.41(3): 323-331|2005|10.1016/j.jspr.2004.04.004
114240|T||Dias,G.R.M., M.R.C. Schetinger, R. Spanevello, C.M. Mazzanti, R. Schmatz, V.L. Loro, and V.M. Morsch|Hormetic Acute Response and Chronic Effect of Ethanol on Adenine Nucleotide Hydrolysis in Rat Platelets|Arch. Toxicol.83(3): 263-269|2009|10.1007/s00204-008-0395-6
114241|T||Larosche,I., A. Choumar, B. Fromenty, P. Letteron, A. Abbey-Toby, H. Van Remmen, C.J. Epstein, A. Richardson, G. Feldma|Prolonged Ethanol Administration Depletes Mitochondrial DNA in MnSOD-Overexpressing Transgenic Mice, but Not in Their Wild Type Littermates|Toxicol. Appl. Pharmacol.234(3): 326-338|2009|10.1016/j.taap.2008.11.004
114242|T||Thompson,G., and D.I. De Pomerai|Toxicity of Short-Chain Alcohols to the Nematode Caenorhabditis elegans:  A Comparison of Endpoints|J. Biochem. Mol. Toxicol.19(2): 87-95|2005|10.1002/jbt.20060
114243|T||Hofman,T.W., and P.H.J. Jongebloed|Infection Process of Rhizoctonia solani on Solanum tuberosum and Effects of Granular Nematicides|Neth. J. Plant Pathol.94(5): 243-252|1988|10.1007/BF01977314
114244|A||Di Marzio,W.D., D. Castaldo, C. Pantani, A. Di Cioccio, T. Di Lorenzo, M.E. Saenz, and D.M.P. Galassi|Relative Sensitivity of Hyporheic Copepods to Chemicals|Bull. Environ. Contam. Toxicol.82(4): 488-491|2009|10.1007/s00128-008-9603-6
114245|T||Evidente,A., A. Andolfi, A. Cimmino, M. Vurro, M. Fracchiolla, R. Charudattan, and A. Motta|Ophiobolin E and 8-epi-Ophiobolin J Produced by Drechslera gigantea, a Potential Mycoherbicide of Weedy Grasses|Phytochemistry67(20): 2281-2287|2006|10.1016/j.phytochem.2006.07.016
114246|T||Kai,B.I., B. Shimizu, M. Mizutani, K. Watanabe, and K. Sakata|Accumulation of Coumarins in Arabidopsis thaliana|Phytochemistry67(4): 379-386|2006|10.1016/j.phytochem.2005.11.006
114247|T||Kato-Noguchi,H., and F.A. Macias|Effects of 6-Methoxy-2-Benzoxazolinone on the Germination and alpha-Amylase Activity in Lettuce Seeds|J. Plant Physiol.162(12): 1304-1307|2005|10.1016/j.jplph.2005.03.013
114248|T||Hewavitharanage,P., S. Karunaratne, and N.S. Kumar|Effect of Caffeine on Shot-Hole Borer Beetle (Xyleborus fornicatus) of Tea (Camellia sinensis)|Phytochemistry51(1): 35-41|1999|10.1016/S0031-9422(98)00610-4
114249|T||Laurie,S.H., N.P. Tancock, S.P. McGrath, and J.R. Sanders|Influence of EDTA Complexation on Plant Uptake of Manganese (II)|Plant Sci.109(2): 231-235|1995|10.1016/0168-9452(95)04161-M
114250|A||Lidon,F.C., and M.G. Teixeira|Rice Tolerance to Excess Mn:  Implications in the Chloroplast Lamellae and Synthesis of a Novel Mn Protein|Plant Physiol. Biochem.38(12): 969-978|2000|10.1016/S0981-9428(00)01207-9
114251|T||Liu,N., and J.G. Scott|Increased Transcription of CYP6D1 Causes Cytochrome P450-Mediated Insecticide Resistance in House Fly|Insect Biochem. Mol. Biol.28(8): 531-535|1998|10.1016/S0965-1748(98)00039-3
114252|T||Liu,H.M., S.J.J. Tsai, F.C. Cheng, and S.Y. Chung|Determination of Trace Manganese in the Brain of Mice Subjected to Manganese Deposition by Graphite Furnace Atomic Absorption Spectrometry|Anal. Chim. Acta405(1-2): 197-203|2000|10.1016/S0003-2670(99)00736-9
114253|T||Cabanero,F.J., and M. Carvajal|Different Cation Stresses Affect Specifically Osmotic Root Hydraulic Conductance, Involving Aquaporins, Atpase and Xylem Loading of Ions in Capsicum annuum, L. Plants|J. Plant Physiol.164(10): 1300-1310|2007|10.1016/j.jplph.2006.08.010
114254|T||Kuperman,R.G., R.T. Checkai, L.M. Ruth, T. Henry, M. Simini, D.G. Kimmel, C.T. Phillips, and B.P. Bradley|A Proteome-Based Assessment of the Earthworm Eisenia fetida:  Response to Chemical Warfare Agents in a Sandy Loam Soil|Pedobiologia (Multiple Languages)47(5-6): 617-621|2003|
114255|A||Lidon,F.C.|Tolerance of Rice to Excess Manganese in the Early Stages of Vegetative Growth.  Characterisation of Manganese Accumulation|J. Plant Physiol.158(10): 1341-1348|2001|10.1078/0176-1617-00507
114256|T||Ma,M., P.S. Lau, Y.T. Jia, W.K. Tsang, S.K.S. Lam, N.F.Y. Tam, and Y.S. Wong|The Isolation and Characterization of Type 1 Metallothionein (MT) cDNA from a Heavy-Metal-Tolerant Plant, Festuca rubra cv. Merlin|Plant Sci.164:51-60|2003|10.1016/S0168-9452(02)00334-5
114257|A||Routray,P., T. Suzuki, C.A. Strussmann, and R. Takai|Factors Affecting the Uptake of DMSO by the Eggs and Embryos of Medaka, Oryzias latipes|Theriogenology58(8): 1483-1496|2002|10.1016/S0093-691X(02)01076-2
114258|T||Lidon,F.C., and F.S. Henriques|Role of Rice Shoot Vacuoles in Copper Toxicity Regulation|Environ. Exp. Bot.39(3): 197-202|1998|10.1016/S0098-8472(97)00025-7
114259|T||Matola,T., and I. Jablonkai|Safening Efficacy of Halogenated Acetals, Ketals, and Amides and Relationship Between the Structure and Effect on Glutathione and Glutathione S-Transferases in Maize|Crop Prot.26(3): 278-284|2007|10.1016/j.cropro.2005.07.015
114260|T||Tang,W., R.J. Newton, and T.M. Charles|Plant Regeneration Through Multiple Adventitious Shoot Differentiation from Callus Cultures of Slash Pine (Pinus elliottii)|J. Plant Physiol.163(1): 98-101|2006|10.1016/j.jplph.2005.04.030
114262|T||Rakotovao,A., S. Tanguy, M.C. Toufektsian, C. Berthonneche, V. Ducros, A. Tosaki, J. De Leiris, and F. Boucher|Selenium Status as Determinant of Connexin-43 Dephosphorylation in Ex Vivo Ischemic/Reperfused Rat Myocardium|J. Trace Elem. Med. Biol.19(1): 43-47|2005|10.1016/j.jtemb.2005.07.001
114263|A||Rai,V., N.K. Sharma, and A.K. Rai|Growth and Cellular Ion Content of a Salt-Sensitive Symbiotic System Azolla pinnata-Anabaena azollae Under NaCl Stress|J. Plant Physiol.163(9): 937-944|2006|10.1016/j.jplph.2005.08.005
114264|T||Portet,B., N. Fabre, V. Roumy, H. Gornitzka, G. Bourdy, S. Chevalley, M. Sauvain, A. Valentin, and C. Moulis|Activity-Guided Isolation of Antiplasmodial Dihydrochalcones and Flavanones from Piper hostmannianum var. berbicense|Phytochemistry68(9): 1312-1320|2007|10.1016/j.phytochem.2007.02.006
114265|T||Petersen,E.J., Q. Huang, and W.J.,Jr. Weber|Bioaccumulation of Radio-Labeled Carbon Nanotubes by Eisenia foetida|Environ. Sci. Technol.42(8): 3090-3095|2008|10.1021/es071366f
114266|T||Mayer,P., and M. Holmstrup|Passive Dosing of Soil Invertebrates with Polycyclic Aromatic Hydrocarbons:  Limited Chemical Activity Explains Toxicity Cutoff|Environ. Sci. Technol.42(19): 7516-7521|2008|10.1021/es801689y
114267|T||Huwe,J.K., H. Hakk, and L.S. Birnbaum|Tissue Distribution of Polybrominated Diphenyl Ethers in Male Rats and Implications for Biomonitoring|Environ. Sci. Technol.42(18): 7018-7024|2008|10.1021/es801344a
114268|A||Miot,J., G. Morin, F. Skouri-Panet, C. Ferard, E. Aubry, J. Briand, Y. Wang, G. Ona-Nguema, F. Guyot, and G.E. Brown|XAS Study of Arsenic Coordination in Euglena gracilis Exposed to Arsenite|Environ. Sci. Technol.42(14): 5342-5347|2008|10.1021/es703072d
114269|T||Harrill,J.A.|Effect of Pyrethroid Insecticides on Gene Expression in the Mammalian Central Nervous System|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:235 p.|2008|
114270|AT||Evidente,A., A. Andolfi, M. Vurro, M. Fracchiolla, M.C. Zonno, and A. Motta|Drazepinone, a Trisubstituted Tetrahydronaphthofuroazepinone with Herbicidal Activity Produced by Drechslera siccans|Phytochemistry66(6): 715-721|2005|10.1016/j.phytochem.2005.02.008
114274|T||Forsum,A., L. Dahlman, T. Nasholm, and A. Nordin|Nitrogen Utilization by Hylocomium Splendens in a Boreal Forest Fertilization Experiment|Funct. Ecol.20(3): 421-426|2006|10.1111/j.1365-2435.2006.01127.x
114276|T||Gotz,K.P., N. Staroske, R. Radchuk, R.J.N. Emery, K.D. Wutzke, H. Herzog, and H. Weber|Uptake and Allocation of Carbon and Nitrogen in Vicia narbonensis Plants with Increased Seed Sink Strength Achieved by Seed-Specific Expression of an Amino Acid Permease|J. Exp. Bot.58(12): 3183-3195|2007|10.1093/jxb/erm164
114277|A||Dodds,W.K., and J.C. Priscu|Ammonium Stimulation of Dark Carbon Fixation as an Indicator of Nitrogen Deficiency in Phytoplankton:  Potential Errors Caused by Ammonium-Oxidizing Bacteria|J. Phycol.27(1): 79-82|1991|10.1111/j.0022-3646.1991.00079.x
114280|T||Ribeiro,V.L.S., E. Toigo, S.A.L. Bordignon, K. Goncalves, and G. Von Poser|Acaricidal Properties of Extracts from the Aerial Parts of Hypericum polyanthemum on the Cattle Tick Boophilus microplus|Vet. Parasitol.147(1-2): 199-203|2007|10.1016/j.vetpar.2007.03.027
114281|A||Zhang,Y.Z., S.C. Zhang, X.Z. Liu, Y.J. Xu, J.H. Hu, Y.Y. Xu, J. Li, and S.L. Chen|Toxicity and Protective Efficiency of Cryoprotectants to Flounder (Paralichthys olivaceus) Embryos|Theriogenology63(3): 763-773|2005|10.1016/j.theriogenology.2004.04.011
114282|T||Ohlsson,A.B., T. Landberg, T. Berglund, and M. Greger|Increased Metal Tolerance in Salix by Nicotinamide and Nicotinic Acid|Plant Physiol. Biochem.46(7): 655-664|2008|10.1016/j.plaphy.2008.04.004
114283|A||Coors,A., and L. De Meester|Synergistic, Antagonistic and Additive Effects of Multiple Stressors:  Predation Threat, Parasitism and Pesticide Exposure in Daphnia magna|J. Appl. Ecol.45(6): 1820-1828|2008|10.1111/j.1365-2664.2008.01566.x
114284|T||Lonski,J.|The Effect of Ammonia on Fruiting Body Size and Microcyst Formation in the Cellular Slime Molds|Dev. Biol.51(1): 158-165|1976|10.1016/0012-1606(76)90131-7
114291|T||Yao,P., K. Li, Y. Jin, F. Song, S. Zhou, X. Sun, A.K. Nussler, and L. Liu|Oxidative Damage After Chronic Ethanol Intake in Rat Tissues:  Prophylaxis of Ginkgo biloba Extract|Food Chem.99(2): 305-314|2006|10.1016/j.foodchem.2005.07.047
114292|A||McLarnon-Riches,C.J., C.E. Rolph, D.L.A. Greenway, and P.K. Robinson|Effects of Environmental Factors and Metals on Selenastrum capricornutum Lipids|Phytochemistry49(5): 1241-1247|1998|10.1016/S0031-9422(98)00095-8
114293|A||Laetz,C.A., D.H. Baldwin, T.K. Collier, V. Hebert, J.D. Stark, and N.L. Scholz|The Synergistic Toxicity of Pesticide Mixtures:  Implications for Risk Assessment and the Conservation of Endangered Pacific Salmon|Environ. Health Perspect.117(3): 348-353|2009|10.1289/ehp.0800096
114294|A||Relyea,R.A.|The Effects of Pesticides, pH, and Predatory Stress on Amphibians Under Mesocosm Conditions|Ecotoxicology15:503-511|2006|10.1007/s10646-006-0086-0
114295|T||Qi,X.M., P.J. Li, W. Liu, and L.J. Xie|Multiple Biomarkers Response in Maize (Zea mays L.) During Exposure to Copper|J. Environ. Sci.18(6): 1182-1188|2006|10.1016/S1001-0742(06)60059-4
114296|A||Relyea,R.A.|A Cocktail of Contaminants:  How Mixtures of Pesticides at Low Concentrations Affect Aquatic Communities|Oceanologia (Wroc.)159:363-376|2009|
114297|A||Liu,X.H., H. Pan, and P. Mazur|Permeation and Toxicity of Ethylene Glycol and Methanol in Larvae of Anopheles gambiae|J. Exp. Biol.206(13): 2221-2228|2003|10.1242/jeb.00420
114298|T||Damalas,C.A., K.V. Dhima, and I.G. Eleftherohorinos|Bispyribac-Sodium Efficacy on Early Watergrass (Echinochloa oryzoides) and Late Watergrass (Echinochloa phyllopogon) as Affected by Coapplication of Selected Rice Herbicides and Insecticides|Weed Technol.22:622-627|2008|10.1614/WT-08-033.1
114299|A||Somnuek,C., C. Boonphakdee, V. Cheevaporn, and K. Tanaka|Gene Expression of Acetylcholinesterase in Hybrid Catfish (Clarias gariepinus X Clarias macrocephalus) Exposed to Chlorpyrifos and Carbaryl|J. Environ. Biol.30(1): 83-88|2009|
114300|A||Edashige,K., D.M.,Jr. Valdez, T. Hara, N. Saida, S. Seki, and M. Kasai|Japanese Flounder (Paralichthys olivaceus) Embryos are Difficult to Cryopreserve by Vitrification|Cryobiology53(1): 96-106|2006|10.1016/j.cryobiol.2006.04.002
114301|T||Downie,A., S. Miyazaki, H. Bohnert, P. John, J. Coleman, M. Parry, and R. Haslam|Expression Profiling of the Response of Arabidopsis thaliana to Methanol Stimulation|Phytochemistry65(16): 2305-2316|2004|10.1016/j.phytochem.2004.07.006
114302|A||Schlenk,D., M. Chelius, L. Wolford, S. Khan, and K.M. Chan|Characterization of Hepatic Metallothionein Expression in Channel Catfish (Ictalurus punctatus) by Reverse-Transcriptase Polymerase Chain Reaction|Biomarkers (Lond.)2(3): 161-167|1997|10.1080/135475097231698
114303|T||Kordali,S., M. Kesdek, and A. Cakir|Toxicity of Monoterpenes Against Larvae and Adults of Colorado Potato Beetle, Leptinotarsa decemlineata Say (Coleoptera:  Chrysomelidae)|Ind. Crops Prod.26(3): 278-297|2007|10.1016/j.indcrop.2007.03.009
114305|T||Li,P., X. Wang, T. Zhang, D. Zhou, and Y. He|Effects of Several Amendments on Rice Growth and Uptake of Copper and Cadmium from a Contaminated Soil|J. Environ. Sci.20(4): 449-455|2008|10.1016/S1001-0742(08)62078-1
114306|T||Bechinski,E.J., C.D. McNeal, and J.J. Gallian|Development of Action Thresholds for the Sugarbeet Root Maggot (Diptera:  Otitidae)|J. Econ. Entomol.82(2): 608-615|1989|10.1093/jee/82.2.608
114307|T||Whitford,F., and W.B. Showers|Abundance of Nontarget Foliage-Dwelling Insects After Insecticide Treatment for Adult European Corn Borer (Lepidoptera:  Pyralidae)|J. Econ. Entomol.81(5): 1323-1327|1988|10.1093/jee/81.5.1323
114308|T||Ahmad,M., and A.R. McCaffery|Resistance to Insecticides in a Thailand Strain of Heliothis armigera (Hubner) (Lepidoptera: Noctuidae)|J. Econ. Entomol.81(1): 45-48|1988|10.1093/jee/81.1.45
114309|T||Robertson,J.L., and H.K. Preisler|Effects of Moisture Before and After Laboratory Spray Application of Insecticides to Western Spruce Budworm (Lepidoptera:  Tortricidae)|J. Econ. Entomol.81(6): 1678-1680|1988|10.1093/jee/81.6.1678
114310|T||Hall,R.W., D.G. Nielsen, C.E. Young, and M.R. Hamerski|Mortality of Elm Leaf Beetle (Coleoptera: Chrysomelidae) Larvae Exposed to Insecticide Bands Applied to Elm Bark|J. Econ. Entomol.81(3): 877-879|1988|10.1093/jee/81.3.877
114311|T||Bradley,J.R.,Jr., and A.M. Agnello|Comparative Persistence of the Ovicidal Activity of Thiodicarb, Chlordimeform, and Methomyl Against Heliothis spp. (Lepidoptera:  Noctuidae) on Cotton|J. Econ. Entomol.81(2): 705-708|1988|10.1093/jee/81.2.705
114312|T||Niemczyk,H.D., and J.K. Flessel|Contact Toxicity of 8 Insecticides to Adult Bathyplectes curculionis, a Parasite of Alfalfa Weevil Larvae|J. Econ. Entomol.68(5): 585-586|1975|10.1093/jee/68.5.585
114313|T||Reinert,J.A.|Cerococcus deklei and Its Control on Hibiscus|J. Econ. Entomol.69(6): 713-714|1976|10.1093/jee/69.6.713
114314|T||Robertson,J.L., and R.L. Lyon|Elm Spanworm:  Contact Toxicity of Ten Insecticides Applied to the Larvae|J. Econ. Entomol.66(3): 627-628|1973|10.1093/jee/66.3.627
114315|T||Polles,S.G., and J.A. Payne|Pecan Weevil:  Toxicity of Insecticides in Laboratory Tests|J. Econ. Entomol.66(2): 497-498|1973|10.1093/jee/66.2.497
114316|T||Roos,U.P., and W.B. Tappan|Laboratory Evaluation of Six Insecticides Against the Tobacco Flea Beetle|J. Econ. Entomol.65(1): 217-219|1972|10.1093/jee/65.1.217
114317|T||Schreiner,I.H., and D.M. Nafus|Detasselling and Insecticides for Control of Ostrinia furnacalis (Lepidoptera:  Pyralidae) on Sweet Corn|J. Econ. Entomol.80(1): 263-267|1987|10.1093/jee/80.1.263
114318|T||Ragenovich,I.R., and J.E. Coster|Evaluation of Some Carbamate and Phosphate Insecticides Against Southern Pine Beetle and IPS Bark Beetles|J. Econ. Entomol.67(6): 763-765|1974|10.1093/jee/67.6.763
114319|T||Childers,C.C., L.W. Duncan, T.A. Wheaton, and L.W. Timmer|Arthropod and Nematode Control with Aldicarb on Florida Citrus|J. Econ. Entomol.80(5): 1064-1071|1987|10.1093/jee/80.5.1064
114320|T||Ishaya,D.B., S.A. Dadari, and J.A.Y. Shebayan|Evaluation of Herbicides for Weed Control in Three Varieties of Upland Rice (Oryza sativa L.) in the Nigerian Savannah|Crop Prot.26(10): 1490-1495|2007|10.1016/j.cropro.2006.12.015
114321|T||Grichar,W.J., G.W. Evers, B.A. Besler, and A.J. Jaks|Henbit (Lamium amplexicaule L.) Control and Forage Legume Tolerance to Selected Postemergence Herbicides|Crop Prot.15(1): 55-62|1996|10.1016/0261-2194(95)00110-7
114322|T||Soltani,N., S. Bowley, and P.H. Sikkema|Responses of Black and Cranberry Beans (Phaseolus vulgaris) to Post-Emergence Herbicides|Crop Prot.24(1): 15-21|2005|10.1016/j.cropro.2004.06.003
114323|T||Kamm,J.A., and M.L. Montgomery|Reduction of Insecticide Activity by Carbon Residue Produced by Burning Grass Seed Fields After Harvest|J. Econ. Entomol.83(1): 55-58|1990|10.1093/jee/83.1.55
114324|T||Lohaus,G., and H.W. Heldt|Assimilation of Gaseous Ammonia and the Transport of Its Products in Barley and Spinach Leaves|J. Exp. Bot.48(315): 1779-1786|1997|10.1093/jexbot/48.315.1779
114325|T||Jones,M.R., I.D. Leith, J.A. Raven, D. Fowler, M.A. Sutton, E. Nemitz, J.N. Cape, L.J. Sheppard, and R.I. Smith|Concentration-Dependent NH3 Deposition Processes for Moorland Plant Species with and Without Stomata|Atmos. Environ.41(39): 8980-8994|2007|10.1016/j.atmosenv.2007.08.015
114326|AT||Jenkins,M.B., D.D. Bowman, and W.C. Ghiorse|Inactivation of Cryptosporidium parvum Oocysts by Ammonia|Appl. Environ. Microbiol.64(2): 784-788|1998|10.1128/AEM.64.2.784-788.1998
114327|A||Farahbakhshazad,N., and G.M. Morrison|Ammonia Removal Processes for Urine in an Upflow Macrophyte System|Environ. Sci. Technol.31(11): 3314-3317|1997|10.1021/es970359w
114328|T||Canaday,C.H., and J.E. Wyatt|Effects of Nitrogen Fertilization on Bacterial Soft Rot in Two Broccoli Cultivars, One Resistant and One Susceptible to the Disease|Plant Dis.76(10): 989-991|1992|10.1094/PD-76-0989
114329|A||Avnimelech,Y., and M. Kochba|Evaluation of Nitrogen Uptake and Excretion by Tilapia in Bio Floc Tanks, Using 15N Tracing|Aquaculture287(1-2): 163-168|2009|10.1016/j.aquaculture.2008.10.009
114330|T||Wang,L., P.P. Mou, and R.H. Jones|Nutrient Foraging Via Physiological and Morphological Plasticity in Three Plant Species|Can. J. For. Res.36(1): 164-173|2006|10.1139/x05-239
114331|T||Duan,Y.H., X.M. Yin, Y.L. Zhang, and Q.R. Shen|Mechanisms of Enhanced Rice Growth and Nitrogen Uptake by Nitrate|Pedosphere17(6): 697-705|2007|10.1016/S1002-0160(07)60084-8
114332|T||Araki,R., and H. Hasegawa|Expression of Rice (Oryza sativa L.) Genes Involved in High-Affinity Nitrate Transport During the Period of Nitrate Induction|Breed. Sci.56(3): 295-302|2006|10.1270/jsbbs.56.295
114334|T||Robichaud,R.L., V.C. Lessard, and S.A. Merkle|Treatments Affecting Maturation and Germination of American Chestnut Somatic Embryos|J. Plant Physiol.161(8): 957-969|2004|10.1016/j.jplph.2004.03.003
114335|T||Ananieva,E.A., K.N. Christov, and L.P. Popova|Exogenous Treatment with Salicylic Acid Leads to Increased Antioxidant Capacity in Leaves of Barley Plants Exposed to Paraquat|J. Plant Physiol.161(3): 319-328|2004|10.1078/0176-1617-01022
114336|T||Sugha,S.K., and B.M. Singh|Effect of Herbicides on the Severity of Glume Blight of Rice Caused by Phyllosticta glumarum|Pesticides 19(6): 25-|1985|
114337|T||Damalas,C.A., K.V. Dhima, and I.G. Eleftherohorinos|Control of Early Watergrass (Echinochloa oryzoides) and Late Watergrass (Echinochloa phyllopogon) with Cyhalofop, Clefoxydim, and Penoxsulam Applied Alone and in Mixture with Broadleaf Herbicides|Weed Technol.20(4): 992-998|2006|10.1614/WT-05-140.1
114338|T||Suzuki,R.M., G.B. Kerbauy, and G.R. Zaffari|Endogenous Hormonal Levels and Growth of Dark-Incubated Shoots of Catasetum fimbriatum|J. Plant Physiol.161(8): 929-935|2004|10.1016/j.jplph.2003.11.001
114339|T||Athanassiou,C.G., A.S. Papagregoriou, and C.T. Buchelos|Insecticidal and Residual Effect of Three Pyrethroids Against Sitophilus oryzae (L.) (Coleoptera:  Curculionidae) on Stored Wheat|J. Stored Prod. Res.40(3): 289-297|2004|10.1016/S0022-474X(03)00025-0
114340|T||Arthur,F.H., and C.K. Hoernemann|Impact of Physical and Biological Factors on Susceptibility of Tribolium castaneum and Tribolium confusum (Coleoptera:  Tenebrionidae) to New Formulations of Hydroprene|J. Stored Prod. Res.40(3): 251-268|2004|10.1016/S0022-474X(03)00010-9
114341|T||Jiakui,L., and W. Xiaolong|Effect of Dietary Organic Versus Inorganic Selenium in Laying Hens on the Productivity, Selenium Distribution in Egg and Selenium Content in Blood, Liver and Kidney|J. Trace Elem. Med. Biol.18(1): 65-68|2004|10.1016/j.jtemb.2004.04.002
114342|T||El-Demerdash,F.M.|Antioxidant Effect of Vitamin E and Selenium on Lipid Peroxidation, Enzyme Activities and Biochemical Parameters in Rats Exposed to Aluminium|J. Trace Elem. Med. Biol.18(1): 113-121|2004|10.1016/j.jtemb.2004.04.001
114343|T||Mishra,M., and U.R. Acharya|Protective Action of Vitamins on the Spermatogenesis in Lead-Treated Swiss Mice|J. Trace Elem. Med. Biol.18(2): 173-178|2004|10.1016/j.jtemb.2004.03.007
114344|T||Nouairi,I., W.B. Ammar, N.B. Youssef, D.B.M. Daoud, M.H. Ghorbal, and M. Zarrouk|Comparative Study of Cadmium Effects on Membrane Lipid Composition of Brassica juncea and Brassica napus Leaves|Plant Sci.170(3): 511-519|2006|10.1016/j.plantsci.2005.10.003
114345|T||Ozden-Tokatli,Y., E.A. Ozudogru, and A. Akcin|In Vitro Response of Pistachio Nodal Explants to Silver Nitrate|Sci. Hortic.106(3): 415-426|2005|10.1016/j.scienta.2005.04.001
114346|T||Pascual,L., and J.A. Marin|A Liquid 2,4-D Pulse Increased Shoot and Root Regeneration from Leaf Explants of Adult Prunus Rootstocks|Sci. Hortic.106(4): 582-592|2005|10.1016/j.scienta.2005.04.010
114347|T||Welty,C., W.H. Reissig, T.J. Dennehy, and R.W. Weires|Susceptibility to Hexythiazox of Eggs and Larvae of European Red Mite (Acari:  Tetranychidae)|J. Econ. Entomol.81(2): 586-592|1988|10.1093/jee/81.2.586
114348|T||Saqib,M., C. Zorb, Z. Rengel, and S. Schubert|The Expression of the Endogenous Vacuolar Na+/H+ Antiporters in Roots and Shoots Correlates Positively with the Salt Resistance of Wheat (Triticum aestivum L.)|Plant Sci.169(5): 959-965|2005|10.1016/j.plantsci.2005.07.001
114349|T||Santra,A., S.A. Karim, and O.H. Chaturvedi|Rumen Enzyme Profile and Fermentation Characteristics in Sheep as Affected by Treatment with Sodium Lauryl Sulfate as Defaunating Agent and Presence of Ciliate protozoa|Small Ruminant Res.67(2-3): 126-137|2007|10.1016/j.smallrumres.2005.08.028
114350|T||Santos,C., S. Fragoeiro, H. Oliveira, and A. Phillips|Response of Vitis vinifera L. Plants Inoculated with Phaeoacremonium angustius and Phaeomoniella chlamydospora to Thiabendazole, Resveratrol and Sodium Arsenite|Sci. Hortic.107(2): 131-136|2006|10.1016/j.scienta.2005.04.015
114351|T||Ranieri,A., A. Castagna, F. Scebba, M. Careri, I. Zagnoni, G. Predieri, M. Pagliari, and L.S. Di Toppi|Oxidative Stress and Phytochelatin Characterisation in Bread Wheat Exposed to Cadmium Excess|Plant Physiol. Biochem.43(1): 45-54|2005|10.1016/j.plaphy.2004.12.004
114352|T||Iman,M., D. Soekarna, J. Situmorang, I.M.G. Adiputra, and I. Manti|Effect of Insecticides on Various Field Strains of Diamondback Moth and Its Parasitoid in Indonesia|In: T.D.Griggs (Ed.), Proc.1st Int.Workshop, Diamondback Moth Manag., Mar.11-15, 1985, The Asian Vegetable Res.and Dev.Ctr., Shanhua, Taiwan:313-324|1986|
114353|T||Tasker,S., S.M.A. Caney, M.J. Day, R.S. Dean, C.R. Helps, T.G. Knowles, P.J.P. Lait, M.D.G. Pinches, and T.J. Gruffydd-|Effect of Chronic FIV Infection, and Efficacy of Marbofloxacin Treatment, on Mycoplasma haemofelis Infection|Vet. Microbiol.117(2-4): 169-179|2006|10.1016/j.vetmic.2006.06.015
114354|T||Sweeney,T., J. Fox, L. Robertson, G. Kelly, P. Duffy, P. Lonergan, J. O'Doherty, J.F. Roche, and N.P. Evans|Postnatal Exposure to Octylphenol Decreases Semen Quality in the Adult Ram|Theriogenology67(5): 1068-1075|2007|10.1016/j.theriogenology.2006.12.010
114355|T||Heres-Pulido,M.E., S. Lombera-Hernandez, I. Duenas-Garcia, I. Perales-Canales, L. Castaneda-Partida, C. Rocha-Ortiz, S.|Genotoxicity of Triasulfuron in the Wing Spot Test of Drosophila melanogaster is Modulated by Winter Wheat Seedlings|Mutat. Res.653(1-2): 70-75|2008|10.1016/j.mrgentox.2008.03.005
114356|A||Kurugundla,C.N., and O. Serumola|Impacts of Deltamethrin Spray on Adults of the Giant Salvinia Biocontrol Agent, Cyrtobagous salviniae|J. Aquat. Plant Manag.45:124-129|2007|
114357|T||Stern,R.A., M. Flaishman, and R. Ben-Arie|Effect of Synthetic Auxins on Fruit Size of Five Cultivars of Japanese Plum (Prunus salicina Lindl.)|Sci. Hortic.112(3): 304-309|2007|10.1016/j.scienta.2006.12.032
114358|A||Abou-Waly,H.F.|Effect of Organic Solvents on Growth of Freshwater Algae|Int. J. Environ. Stud.57(4): 411-418|2000|10.1080/00207230008711285
114360|T||May,J.D., S.B. Burdette, F.S. Gilliam, and M.B. Adams|Interspecific Divergence in Foliar Nutrient Dynamics and Stem Growth in a Temperate Forest in Response to Chronic Nitrogen Inputs|Can. J. For. Res.35(5): 1023-1030|2005|10.1139/x05-036
114361|T||Bound,S.A., and K.M. Jones|Ammonium Thiosulphate as a Blossom Thinner of 'Delicious' Apple, 'Winter Cole' Pear and 'Hunter' Apricot|Aust. J. Exp. Agric.44(9): 931-937|2004|10.1071/EA03161
114362|T||Schupp,J.R., T.L. Robinson, W.P.,Jr. Cowgill, and J.M. Compton|Effect of Water Conditioners and Surfactants on Vegetative Growth Control and Fruit Cracking of 'Empire' Apple Caused by Prohexadione-Calcium|Hortscience38(6): 1205-1209|2003|10.21273/HORTSCI.38.6.1205
114363|T||Paulissen,M.P.C.P., L.E. Besalu, H. De Bruijn, P.J.M. Van der Ven, and R. Bobbink|Contrasting Effects of Ammonium Enrichment on Fen Bryophytes|J. Bryol.27(2): 109-117|2005|10.1179/037366805X53022
114366|T||Lipinski,R.J., P.R. Hutson, P.W. Hannam, R.J. Nydza, I.M. Washington, R.W. Moore, G.G. Girdaukas, R.E. Peterson, and W.|Dose- and Route-Dependent Teratogenicity, Toxicity, and Pharmacokinetic Profiles of the Hedgehog Signaling Antagonist Cyclopamine in the Mouse|Toxicol. Sci.104(1): 189-197|2008|10.1093/toxsci/kfn076
114369|T||Montani,C., M. Penza, M. Jeremic, G. Biasiotto, G. La Sala, M. De Felici, P. Ciana, A. Maggi, and D. Di Lorenzo|Genistein is an Efficient Estrogen in the Whole-Body Throughout Mouse Development|Toxicol. Sci.103(1): 57-67|2008|10.1093/toxsci/kfn021
114371|T||Rand,M.D., C.E. Bland, and J. Bond|Methylmercury Activates Enhancer-of-Split and Bearded Complex Genes Independent of the Notch Receptor|Toxicol. Sci.104(1): 163-176|2008|10.1093/toxsci/kfn060
114372|T||Tshala-Katumbay,D., V. Monterroso, R. Kayton, M. Lasarev, M. Sabri, and P. Spencer|Probing Mechanisms of Axonopathy.  Part I:  Protein Targets of 1,2-Diacetylbenzene, the Neurotoxic Metabolite of Aromatic Solvent 1,2-Diethylbenzene|Toxicol. Sci.105(1): 134-141|2008|10.1093/toxsci/kfn103
114374|T||Beltran-Ramirez,O., L. Aleman-Lazarini, M. Salcido-Neyoy, S. Hernandez-Garcia, S. Fattel-Fazenda, E. Arce-Popoca, J. Ar|Evidence that the Anticarcinogenic Effect of Caffeic Acid Phenethyl Ester in the Resistant Hepatocyte Model Involves Modifications of Cytochrome P450|Toxicol. Sci.104(1): 100-106|2008|10.1093/toxsci/kfn071
114375|T||Bledsoe,G., B. Shen, Y.Y. Yao, M. Hagiwara, B. Mizell, M. Teuton, D. Grass, L. Chao, and J. Chao|Role of Tissue Kallikrein in Prevention and Recovery of Gentamicin-Induced Renal Injury|Toxicol. Sci.102(2): 433-443|2008|10.1093/toxsci/kfn008
114376|T||Howdeshell,K.L., V.S. Wilson, J. Furr, C.R. Lambright, C.V. Rider, C.R. Blystone, A.K. Hotchkiss, and L.E.,Jr. Gray|A Mixture of Five Phthalate Esters Inhibits Fetal Testicular Testosterone Production in the Sprague-Dawley Rat in a Cumulative, Dose-Additive Manner|Toxicol. Sci.105(1): 153-165|2008|10.1093/toxsci/kfn077
114381|T||Hanton,G., C. Sobry, N. Dagues, J.P. Provost, J.L. Le Net, P. Comby, and S. Chevalier|Characterisation of the Vascular and Inflammatory Lesions Induced by the PDE4 Inhibitor CI-1044 in the Dog|Toxicol. Lett.179(1): 15-22|2008|10.1016/j.toxlet.2008.03.009
114382|T||Fukuyama,T., H. Ueda, K. Hayashi, Y. Tajima, Y. Shuto, T.R. Saito, T. Harada, and T. Kosaka|Detection of Low-Level Environmental Chemical Allergy by a Long-Term Sensitization Method|Toxicol. Lett.180(1): 1-8|2008|10.1016/j.toxlet.2008.05.001
114383|T||Chatterjee,S., S. Kundu, and A. Bhattacharyya|Mechanism of Cadmium Induced Apoptosis in the Immunocyte|Toxicol. Lett.177(2): 83-89|2008|10.1016/j.toxlet.2007.12.010
114384|A||Boillot,C., and Y. Perrodin|Joint-Action Ecotoxicity of Binary Mixtures of Glutaraldehyde and Surfactants Used in Hospitals:  Use of the Toxicity Index Model and Isoblogram Representation|Ecotoxicol. Environ. Saf.71(1): 252-259|2008|10.1016/j.ecoenv.2007.08.010
114386|T||Rohanova,M., T. Palenicek, and M. Balikova|Disposition of 4-bromo-2,5-Dimethoxyphenethylamine (2C-B) and Its Metabolite 4-Bromo-2-Hydroxy-5-Methoxyphenethylamine in Rats After Subcutaneous Administration|Toxicol. Lett.178(1): 29-36|2008|10.1016/j.toxlet.2008.01.017
114387|A||Burridge,L.E., K. Haya, and S.L. Waddy|The Effect of Repeated Exposure to Azamethiphos on Survival and Spawning in the American Lobster (Homarus americanus)|Ecotoxicol. Environ. Saf.69(3): 411-415|2008|10.1016/j.ecoenv.2007.05.001
114388|T||Kang,D.H., L.Y. Hong, A.P. Schwab, and M.K. Banks|Plant Germination and Growth After Exposure to Iron Cyanide Complexes|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(6): 627-632|2008|
114389|T||Pritt,M.L., D.G. Hall, J. Recknor, K.M. Credille, D.D. Brown, N.P. Yumibe, A.E. Schultze, and D.E. Watson|Fabp3 as a Biomarker of Skeletal Muscle Toxicity in the Rat:  Comparison with Conventional Biomarkers|Toxicol. Sci.103(2): 382-396|2008|10.1093/toxsci/kfn042
114390|T||Bajt,M.L., H.M. Yan, A. Farhood, and H. Jaeschke|Plasminogen Activator Inhibitor-1 Limits Liver Injury and Facilitates Regeneration After Acetaminophen Overdose|Toxicol. Sci.104(2): 419-427|2008|10.1093/toxsci/kfn091
114391|T||Fitsanakis,V.A., N. Zhang, J.G. Anderson, K.M. Erikson, M.J. Avison, J.C. Gore, and M. Aschner|Measuring Brain Manganese and Iron Accumulation in Rats following 14 Weeks of Low-Dose Manganese Treatment Using Atomic Absorption Spectroscopy and Magnetic Resonance Imaging|Toxicol. Sci.103(1): 116-124|2008|10.1093/toxsci/kfn019
114392|T||Phillips,J.M., and J.I. Goodman|Identification of Genes that May Play Critical Roles in Phenobarbital (PB)-Induced Liver Tumorigenesis Due to Altered DNA Methylation|Toxicol. Sci.104(1): 86-99|2008|10.1093/toxsci/kfn063
114396|A||Sakamoto,M., K.H. Chang, and T. Hanazato|Inhibition of Development of Anti-Predator Morphology in the Small Cladoceran Bosmina by an Insecticide: Impact of an Anthropogenic Chemical on Prey-Predator Interactions|Freshw. Biol.51:1974-1983|2006|10.1111/j.1365-2427.2006.01628.x
114397|T||Chan,W.H.|Effects of Citrinin on Maturation of Mouse Oocytes, Fertilization, and Fetal Development In Vitro and In Vivo|Toxicol. Lett.180(1): 28-32|2008|10.1016/j.toxlet.2008.05.011
114400|T||Min,K.S., N. Iwata, N. Tetsutikawahara, S. Onosaka, and K. Tanaka|Effect of Hemolytic and Iron-Deficiency Anemia on Intestinal Absorption and Tissue Accumulation of Cadmium|Toxicol. Lett.179(1): 48-52|2008|10.1016/j.toxlet.2008.04.001
114403|T||Bowyer,J.F., J.R. Latendresse, R.R. Delongchamp, L. Muskhelishvili, A.R. Warbritton, M. Thomas, E. Tareke, L.P. McDanie|The Effects of Subchronic Acrylamide Exposure on Gene Expression, Neurochemistry, Hormones, and Histopathology in the Hypothalamus-Pituitary-Thyroid Axis of Male Fischer 344 Rats|Toxicol. Appl. Pharmacol.230(2): 208-215|2008|10.1016/j.taap.2008.02.028
114405|T||Tharappel,J.C., B.T. Spear, and H.P. Glauert|Effect of Phenobarbital on Hepatic Cell Proliferation and Apoptosis in Mice Deficient in the p50 Subunit of NF-kappaB|Toxicol. Appl. Pharmacol.226(3): 338-344|2008|10.1016/j.taap.2007.09.019
114407|T||Wan,J., and L.M. Winn|In Utero Exposure to Benzene Increases Embryonic c-Myb and Pim-1 Protein Levels in CD-1 Mice|Toxicol. Appl. Pharmacol.228(3): 326-333|2008|10.1016/j.taap.2007.12.014
114408|T||Wang,J., G. Wang, G.A.S. Ansari, and M.F. Khan|Activation of Oxidative Stress-Responsive Signaling Pathways in Early Splenotoxic Response of Aniline|Toxicol. Appl. Pharmacol.230(2): 227-234|2008|10.1016/j.taap.2008.02.022
114414|T||Aydogan,M., A. Korkmaz, N. Barlas, and D. Kolankaya|The Effect of Vitamin C on Bisphenol A, Nonylphenol and Octylphenol Induced Brain Damages of Male Rats|Toxicology249(1): 35-39|2008|10.1016/j.tox.2008.04.002
114415|T||Suzuki,K.T., Y. Tsuji, Y. Ohta, and N. Suzuki|Preferential Organ Distribution of Methylselenol Source Se-Methylselenocysteine Relative to Methylseleninic Acid|Toxicol. Appl. Pharmacol.227(1): 76-83|2008|10.1016/j.taap.2007.10.001
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114417|T||Awasthi,M.D.|Dissipation of Synthetic Pyrethroids and Monocrotophos Residues on Acid Lime (Citrus aurantiifolia) Fruits|Indian J. Agric. Sci.59(10): 660-664|1989|
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114422|T||Croft,B.A., and E.E. Nelson|Toxicity of Apple Orchard Pesticides to Michigan Populations of Amblyseius fallacis|Environ. Entomol.1(5): 576-579|1972|10.1093/ee/1.5.576
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114424|T||Mongan,M., Z. Tan, L. Chen, Z. Peng, M. Dietsch, B. Su, G. Leikauf, and Y. Xia|Mitogen-Activated Protein Kinase Kinase Kinase 1 Protects Against Nickel-Induced Acute Lung Injury|Toxicol. Sci.104(2): 405-411|2008|10.1093/toxsci/kfn089
114425|T||Chen,W., L. Li, A.C. Chang, L. Wu, S.I. Kwon, and R. Bottoms|Modeling Uptake Kinetics of Cadmium by Field-Grown Lettuce|Environ. Pollut.152(1): 147-152|2008|10.1016/j.envpol.2007.05.004
114426|T||Coja,T., K. Zehetner, A. Bruckner, A. Watzinger, and E. Meyer|Efficacy and Side Effects of Five Sampling Methods for Soil Earthworms (Annelida, Lumbricidae)|Ecotoxicol. Environ. Saf.71(2): 552-565|2008|10.1016/j.ecoenv.2007.08.002
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114429|T||Yu,X.Z., and J.D. Gu|Effect of Available Nitrogen on Phytoavailability and Bioaccumulation of Hexavalent and Trivalent Chromium in Hankow Willows (Salix matsudana Koidz)|Ecotoxicol. Environ. Saf.70(2): 216-222|2008|10.1016/j.ecoenv.2007.11.010
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114432|A||TenBrook,P.L., S.M. Kendall, and R.S. Tjeerdema|Toxicokinetics and Biotransformation of p-Nitrophenol in White Sturgeon (Acipenser transmontanus)|Ecotoxicol. Environ. Saf.64(3): 362-368|2006|10.1016/j.ecoenv.2005.04.006
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114434|T||Fismes,J., G. Echevarria, E. Leclerc-Cessac, and J.L. Morel|Uptake and Transport of Radioactive Nickel and Cadmium into Three Vegetables After Wet Aerial Contamination|J. Environ. Qual.34(5): 1497-1507|2005|10.2134/jeq2004.0274
114435|T||Shenker,M., T.W.M. Fan, and D.E. Crowley|Phytosiderophores Influence on Cadmium Mobilization and Uptake by Wheat and Barley Plants|J. Environ. Qual.30(6): 2091-2098|2001|10.2134/jeq2001.2091
114436|T||Crowder,D.W., T.J. Dennehy, C. Ellers-Kirk, L.C. Yafuso, P.C. Ellsworth, B.E. Tabashnik, and Y. Carriere|Field Evaluation of Resistance to Pyriproxyfen in Bemisia tabaci (B Biotype)|J. Econ. Entomol.100(5): 1650-1656|2007|10.1093/jee/100.5.1650
114437|T||Seok,S.H., J.H. Park, S.A. Cho, D.J. Kim, and B.K. Bae|Risk Assessment of the Organophosphate Pesticides Isazofos and Pyraclofos Using a 21-Day Dietary Toxicity Study in Japanese Quail|Ecotoxicol. Environ. Saf.71(1): 245-251|2008|10.1016/j.ecoenv.2007.05.015
114438|T||Seth,C.S., P.K. Chaturvedi, and V. Misra|The Role of Phytochelatins and Antioxidants in Tolerance to Cd Accumulation in Brassica juncea L.|Ecotoxicol. Environ. Saf.71(1): 76-85|2008|10.1016/j.ecoenv.2007.10.030
114440|T||Mohan Murali Achary,V., S. Jena, K.K. Panda, and B.B. Panda|Aluminium Induced Oxidative Stress and DNA Damage in Root Cells of Allium cepa L.|Ecotoxicol. Environ. Saf.70(2): 300-310|2008|10.1016/j.ecoenv.2007.10.022
114441|T||Brulle,F., C. Cocquerelle, A.N. Wamalah, A.J. Morgan, P. Kille, A. Lepretre, and F. Vandenbulcke|cDNA Cloning and Expression Analysis of Eisenia fetida (Annelida:  Oligochaeta) Phytochelatin Synthase Under Cadmium Exposure|Ecotoxicol. Environ. Saf.71(1): 47-55|2008|10.1016/j.ecoenv.2007.10.032
114442|T||Simpson,T., V. Bikoba, C. Tipping, and E.J. Mitcham|Ethyl Formate as a Postharvest Fumigant for Selected Pests of Table Grapes|J. Econ. Entomol.100(4): 1084-1090|2007|10.1093/jee/100.4.1084
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114444|T||Husseneder,C., D.M. Simms, and C. Riegel|Evaluation of Treatment Success and Patterns of Reinfestation of the Formosan Subterranean Termite (Isoptera: Rhinotermitidae)|J. Econ. Entomol.100(4): 1370-1380|2007|10.1093/jee/100.4.1370
114445|T||Tsolakis,H., and S. Ragusa|Effects of a Mixture of Vegetable and Essential Oils and Fatty Acid Potassium Salts on Tetranychus urticae and Phytoseiulus persimilis|Ecotoxicol. Environ. Saf.70(2): 276-282|2008|10.1016/j.ecoenv.2007.10.001
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114448|T||Nguyen-Viet,H., N. Bernard, E.A.D. Mitchell, P.M. Badot, and D. Gilbert|Effect of Lead Pollution on Testate amoebae Communities Living in Sphagnum fallax:  An Experimental Study|Ecotoxicol. Environ. Saf.69(1): 130-138|2008|10.1016/j.ecoenv.2007.02.007
114449|T||Hispard,F., A. De Vaufleury, H. Martin, S. Devaux, R.P. Cosson, R. Scheifler, L. Richert, A. Berthelot, and P.M. Badot|Effects of Subchronic Digestive Exposure to Organic or Inorganic Cadmium on Biomarkers in Rat Tissues|Ecotoxicol. Environ. Saf.70(3): 490-498|2008|10.1016/j.ecoenv.2007.04.005
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114451|T||Leduc,F., J.K. Whalen, and G.I. Sunahara|Growth and Reproduction of the Earthworm Eisenia fetida After Exposure to Leachate from Wood Preservatives|Ecotoxicol. Environ. Saf.69(2): 219-226|2008|10.1016/j.ecoenv.2007.01.006
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114455|T||Haider,S., S. Kanwal, F. Uddin, and R. Azmat|Phytotoxicity of Pb:  II.  Changes in Chlorophyll Absorption Spectrum due to Toxic Metal Pb Stress on Phaseolus mungo and Lens culinaris|Pak. J. Biol. Sci.9(11): 2062-2068|2006|10.3923/pjbs.2006.2062.2068
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114457|A||Tkatcheva,V., I.J. Holopainen, H. Hyvarinen, and J.V.K. Kukkonen|The Responses of Rainbow Trout Gills to High Lithium and Potassium Concentrations in Water|Ecotoxicol. Environ. Saf.68(3): 419-425|2007|10.1016/j.ecoenv.2007.03.008
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114464|A||King,S.C., K. Kassell, D. Nugegoda, and S.I. Kristiansen|The Assessment of Vitellogenin as a Biomarker of Exposure to Estrogenic Compounds in Two Australian Perciformes|Mar. Environ. Res.66(1): 116-118|2008|10.1016/j.marenvres.2008.02.040
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114512|T||Liu,L., X.H. Tang, and L.J. Gudas|Homeostasis of Retinol in Lecithin:  Retinol Acyltransferase Gene Knockout Mice Fed a High Retinol Diet|Biochem. Pharmacol.75(12): 2316-2324|2008|10.1016/j.bcp.2008.03.012
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114606|T||Wang,X., N. Wu, J. Guo, X. Chu, J. Tian, B. Yao, and Y. Fan|Phytodegradation of Organophosphorus Compounds by Transgenic Plants Expressing a Bacterial Organophosphorus Hydrolase|Biochem. Biophys. Res. Commun.365(3): 453-458|2008|10.1016/j.bbrc.2007.10.193
114607|T||Marutani,M., and V. Edirveerasingam|Influence of Irrigation Methods and on Adjuvant on the Persistence of Carbaryl on Pakchoi|J. Environ. Qual.35:1994-1998|2006|10.2134/jeq2005.0484
114608|A||Bellas,J.|Prediction and Assessment of Mixture Toxicity of Compounds in Antifouling Paints Using the Sea-Urchin Embryo-Larval Bioassay|Aquat. Toxicol.88(4): 308-315|2008|10.1016/j.aquatox.2008.05.011
114609|T||Biswas,P.K., S.K. Pramanik, S.R. Mitra, and A. Bhattacharyya|Persistence of Napropamide in/on Tea Under North-East Indian Climatic Condition|Bull. Environ. Contam. Toxicol.79(5): 566-569|2007|10.1007/s00128-007-9275-7
114611|T||Yang,Z.X., S.Q. Liu, D.W. Zheng, and S.D. Feng|Effects of Cadium, Zinc and Lead on Soil Enzyme Activities|J. Environ. Sci.18(6): 1135-1141|2006|10.1016/S1001-0742(06)60051-X
114612|T||Vaughn,J.M., J.T. McConville, D. Burgess, J.I. Peters, K.P. Johnston, R.L. Talbert, and R.O. Williams III|Single Dose and Multiple Dose Studies of Itraconazole Nanoparticles|Eur. J. Pharm. Biopharm.63(2): 95-102|2006|10.1016/j.ejpb.2006.01.006
114613|T||Zhou,S., X. Chen, X. Zhang, and Y. Li|Improved Salt Tolerance in Tobacco Plants by Co-Transformation of a Betaine Synthesis Gene BADH and a Vacuolar Na+/H+ Antiporter Gene SeNHX1|Biotechnol. Lett.30(2): 369-376|2008|10.1007/s10529-007-9548-6
114614|A||Tsukada,H., A. Takeda, T. Takahashi, H. Hasegawa, S.I. Hisamatsu, and J. Inaba|Uptake and Distribution of 90Sr and Stable Sr in Rice Plants|J. Environ. Radioact.81(2-3): 221-231|2005|10.1016/j.jenvrad.2004.01.037
114615|A||Sobrero,M.C., F. Rimoldi, and A.E. Ronco|Effects of the Glyphosate Active Ingredient and a Formulation on Lemna gibba L. at Different Exposure Levels and Assessment End-Points|Bull. Environ. Contam. Toxicol.79(5): 537-543|2007|10.1007/s00128-007-9277-5
114616|T||Vandenhove,H., T. Eyckmans, and M. Van Hees|Can Barium and Strontium be Used as Tracers for Radium in Soil-Plant Transfer Studies?|J. Environ. Radioact.81(2/3): 255-267|2005|10.1016/j.jenvrad.2004.01.039
114617|A||Paden,N.E., E.E. Smith, and R.J. Kendall|Acute Toxicity of 2,4,6-Trinitrotoluene, 2,4-Dinitrotoluene, and 2,6-Dinitrotoluene in the Adult Bullfrog (Lithobates catesbeiana)|Bull. Environ. Contam. Toxicol.80(6): 487-491|2008|10.1007/s00128-008-9467-9
114618|T||Tewary,D.K., A. Bhardwaj, and A. Shanker|Pesticidal Activities in Five Medicinal Plants Collected from Mid Hills of Western Himalayas|Ind. Crops Prod.22(3): 241-247|2005|10.1016/j.indcrop.2005.01.004
114619|T||Pereira,R.T.S., C.S. Porto, R.O. Godinho, and F.M.F. Abdalla|Effects of Estrogen on Intracellular Signaling Pathways Linked to Activation of Muscarinic Acetylcholine Receptors and on Acetylcholinesterase Activity in Rat Hippocampus|Biochem. Pharmacol.75(9): 1827-1834|2008|10.1016/j.bcp.2008.01.016
114620|T||Soeroes,C., N. Kienzl, I. Ipolyi, M. Dernovics, P. Fodor, and D. Kuehnelt|Arsenic Uptake and Arsenic Compounds in Cultivated Agaricus bisporus|Food Cont.16(5): 459-464|2005|10.1016/j.foodcont.2004.05.007
114621|T||Poquet,L., M.N. Clifford, and G. Williamson|Investigation of the Metabolic Fate of Dihydrocaffeic Acid|Biochem. Pharmacol.75(5): 1218-1229|2008|10.1016/j.bcp.2007.11.009
114622|A||Qian,H., W. Chen, G.D. Sheng, X. Xu, W. Liu, and Z. Fu|Effects of Glufosinate on Antioxidant Enzymes, Subcellular Structure, and Gene Expression in the Unicellular Green Alga Chlorella vulgaris|Aquat. Toxicol.88(4): 301-307|2008|10.1016/j.aquatox.2008.05.009
114623|T||Smrkolj,P., V. Stibilj, I. Kreft, and M. Germ|Selenium Species in Buckwheat Cultivated with Foliar Addition of Se(VI) and Various Levels of UV-B Radiation|Food Chem.96(4): 675-681|2006|10.1016/j.foodchem.2005.05.002
114625|T||Ou,X.M., S.Y. Yu, D.F. Fan, and X.G. Wang|Dynamics of Novel Insecticide HNPC-A9908 Residue in Vegetable-Field Ecosystem|J. Environ. Sci.18(6): 1041-1042|2006|10.1016/S1001-0742(06)60035-1
114626|T||Siegfried,W., O. Viret, B. Huber, and R. Wohlhauser|Dosage of Plant Protection Products Adapted to Leaf Area Index in Viticulture|Crop Prot.26(2): 73-82|2007|10.1016/j.cropro.2006.04.002
114627|A||Scott,J.A., and P.V. Hodson|Evidence for Multiple Mechanisms of Toxicity in Larval Rainbow Trout (Oncorhynchus mykiss) Co-treated with Retene and alpha-Naphthoflavone|Aquat. Toxicol.88(3): 200-206|2008|10.1016/j.aquatox.2008.04.007
114628|A||Shaw,J.R., J.K. Colbourne, J.C. Davey, S.P. Glaholt, T.H. Hampton, C.Y. Chen, C.L. Folt, and J.W. Hamilton|Gene Response Profiles for Daphnia pulex Exposed to the Environmental Stressor Cadmium Reveals Novel Crustacean Metallothioneins|BMC Genomics8:477-|2007|10.1186/1471-2164-8-477
114629|T||Singh,G., B. Singh, R.S. Battu, G. Jyot, and B.S. Joia|Persistence of Ethion Residues on Cucumber, Cucumis sativus (Linn.) Using Gas Chromatography with Nitrogen Phosphorus Detector|Bull. Environ. Contam. Toxicol.79(4): 437-439|2007|10.1007/s00128-007-9251-2
114630|T||Thompson,A.J., M. Lochner, and S.C.R. Lummis|The Antimalarial Drugs Quinine, Chloroquine and Mefloquine are Antagonists at 5-Ht3 Receptors|Br. J. Pharmacol.151(5): 666-677|2007|10.1038/sj.bjp.0707238
114632|T||Umathe,S.N., P.V. Dixit, V. Kumar, K.U. Bansod, and M.M. Wanjari|Quercetin Pretreatment Increases the Bioavailability of Pioglitazone in Rats:  Involvement of CYP3A Inhibition|Biochem. Pharmacol.75(8): 1670-1676|2008|10.1016/j.bcp.2008.01.010
114633|T||Unni,E., F.S. Kittrell, U. Singh, and R. Sinha|Osteopontin is a Potential Target Gene in Mouse Mammary Cancer Chemoprevention by Se-Methylselenocysteine|Breast Cancer Res.6(5): R586 - R592|2004|10.1186/bcr914
114634|T||Wojcikowski,J., K. Golembiowska, and W.A. Daniel|Regulation of Liver Cytochrome P450 by Activation of Brain Dopaminergic System:  Physiological and Pharmacological Implications|Biochem. Pharmacol.76(2): 258-267|2008|10.1016/j.bcp.2008.04.016
114635|T||Yu,K., S.S. Yu, and D.Y. Ruan|Opposite Effects of Lead Exposure on Taurine- and HFS-Induced LTP in Rat Hippocampus|Brain Res. Bull.64(6): 525-531|2005|10.1016/j.brainresbull.2004.11.005
114636|T||Yu,T., Y. Zhao, W. Shi, R. Ma, and L. Yu|Effects of Maternal Oral Administration of Monosodium Glutamate at a Late Stage of Pregnancy on Developing Mouse Fetal Brain|Brain Res.747(2): 195-206|1997|10.1016/S0006-8993(96)01181-X
114637|A||Zhang,X., M. Hecker, J.W. Park, A.R. Tompsett, J. Newsted, K. Nakayama, P.D. Jones, D. Au, R. Kong, R.S.S. Wu, and J.P.|Real-Time PCR Array to Study Effects of Chemicals on the Hypothalamic-Pituitary-Gonadal Axis of the Japanese Medaka|Aquat. Toxicol.88(3): 173-182|2008|10.1016/j.aquatox.2008.04.009
114638|T||Abe,M., K. Usuda, S. Hayashi, I. Ogawa, S. Furukawa, M. Igarashi, and D. Nakae|Carcinogenic Risk of Copper Gluconate Evaluated by a Rat Medium-Term Liver Carcinogenicity Bioassay Protocol|Arch. Toxicol.82(8): 563-571|2008|10.1007/s00204-008-0294-x
114639|T||Arrese,M., M. Pizarro, N. Solis, C. Koenig, and L. Accatino|Enhanced Biliary Excretion of Canalicular Membrane Enzymes in Ethynylestradiol-Induced Cholestasis:  Effects of Ursodeoxycholic Acid Administration|Biochem. Pharmacol.50(8): 1223-1232|1995|10.1016/0006-2952(95)00262-X
114640|T||Attali,G., A. Weizman, I. Gil-Ad, and M. Rehavi|Opposite Modulatory Effects of Ovarian Hormones on Rat Brain Dopamine and Serotonin Transporters|Brain Res.756(1-2): 153-159|1997|10.1016/S0006-8993(97)00136-4
114641|T||Bundy,J.G., J.K. Sidhu, F. Rana, D.J. Spurgeon, C. Svendsen, J.F. Wren, S.R. Sturzenbaum, A.J. Morgan, and P. Kille|'Systems Toxicology' Approach Identifies Coordinated Metabolic Responses to Copper in a Terrestrial Non-Model Invertebrate, the Earthworm Lumbricus rubellus|BMC Biol.6(25): 21 p.|2008|
114642|A||Cevik,F., and M. Tutar|Effect of Fenoxaprop-p-ethyl on Natural Plankton of the Seyhan Dam: A Microcosm Study|Bull. Environ. Contam. Toxicol.80(3): 247-250|2008|10.1007/s00128-007-9354-9
114643|A||Chen,J., Y.H. Shi, and M.Y. Li|Changes in Transferrin and Hepcidin Genes Expression in the Liver of the Fish Pseudosciaena crocea Following Exposure to Cadmium|Arch. Toxicol.82(8): 525-530|2008|10.1007/s00204-008-0297-7
114644|T||Chen,L.W., L.C. Wei, Y. Qiu, H.L. Liu, Z.R. Rao, G. Ju, and Y.S. Chan|Significant Up-Regulation of Nestin Protein in the Neostriatum of MPTP-Treated Mice.  Are the Striatal Astrocytes Regionally Activated After Systemic MPTP Administration?|Brain Res.925(1): 9-17|2002|10.1016/S0006-8993(01)03253-X
114645|T||Cheng,Q., E.E. Smith, A.B. Kirk, F. Liu, L.M. Boylan, M.E. McCarty, S. Hart, L. Dong, G.P. Cobb, W.A. Jackson, and T.A.|Fatty Acid Profile in Milk from Goats, Capra aegagrus hircus, Exposed to Perchlorate and Its Relationship with Perchlorate Residues in Human Milk|Bull. Environ. Contam. Toxicol.79(4): 472-477|2007|10.1007/s00128-007-9265-9
114646|A||Mishra,D.K., K. Bohidar, and A.K. Pandey|Responses of Interrenal Cells of Freshwater Teleost, Channa punctatus (Bloch), Exposed to Sublethal Concentrations of Carbaryl and Cartap|J. Ecophysiol. Occup. Health6:137-141|2006|
114647|T||Calhoa,C.F., A.M.V.M. Soares, and R.M. Mann|Cadmium Assimilation in the Terrestrial Isopod, Porcellio dilatatus - is Trophic Transfer Important?|Sci. Total Environ.371(1-3): 206-213|2006|10.1016/j.scitotenv.2006.09.013
114648|T||Lin,H., R.S. Ge, G.R. Chen, G.X. Hu, L. Dong, Q.Q. Lian, D.O. Hardy, C.M. Sottas, X.K. Li, and M.P. Hardy|Involvement of Testicular Growth Factors in Fetal Leydig Cell Aggregation After Exposure to Phthalate In Utero|Proc. Natl. Acad. Sci. U.S.A.105(20): 7218-7222|2008|10.1073/pnas.0709260105
114649|T||Chandran,D., N. Sharopova, S. Ivashuta, J.S. Gantt, K.A. Vandenbosch, and D.A. Samac|Transcriptome Profiling Identified Novel Genes Associated with Aluminum Toxicity, Resistance and Tolerance in Medicago truncatula|Planta (Multiple Languages)228(1): 151-166|2008|10.1007/s00425-008-0726-0
114650|T||Verma,K., G.S. Shekhawat, A. Sharma, S.K. Mehta, and V. Sharma|Cadmium Induced Oxidative Stress and Changes in Soluble and Ionically Bound Cell Wall Peroxidase Activities in Roots of Seedling and 3-4 Leaf Stage Plants of Brassica juncea (L.) Czern.|Plant Cell Rep.27(7): 1261-1269|2008|10.1007/s00299-008-0552-7
114652|A||Jung,J., Y. Kim, J. Kim, D.H. Jeong, and K. Choi|Environmental Levels of Ultraviolet Light Potentiate the Toxicity of Sulfonamide Antibiotics in Daphnia magna|Ecotoxicology17(1): 37-45|2008|10.1007/s10646-007-0174-9
114653|A||Bjorkblom,C., E. Hogfors, L. Salste, E. Bergelin, P.E. Olsson, I. Katsiadaki, and T. Wiklund|Estrogenic and Adrogenic Effects of Municipal Wastewater Effluent on Reproductive Endpoint Biomarkers in Three-Spined Stickelback (Gasterosteus aculeatus)|Environ. Toxicol. Chem.28(5): 1063-1071|2009|10.1897/08-337.1
114654|A||Salierno,J.D., and A.S. Kane|17alpha-Ethinylestradiol Alters Reproductive Behaviors, Circulating Hormones, and Sexual Morphology in Male Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.28(5): 953-961|2009|10.1897/08-111.1
114655|A||Lera,S., S. Macchia, L. Dentone, and D. Pellegrini|Variations in Sensitivity of Two Populations of Corophium orientale (Crustacea:  Amphipoda) Towards Cadmium and Sodium Laurylsulphate|Environ. Monit. Assess.136(1-3): 121-127|2008|10.1007/s10661-007-9669-3
114656|A||Prato,E., C. Scardicchio, and F. Biandolino|Effects of Temperature on the Acute Toxicity of Cadmium to Corophium insidiosum|Environ. Monit. Assess.136(1-3): 161-166|2008|10.1007/s10661-007-9672-8
114657|A||Riva,C., A. Binelli, D. Cogni, and A. Provini|Evaluation of DNA Damage Induced by Decabromodiphenyl Ether (BDE-209) in Hemocytes of Dreissena polymorpha Using the Comet and Micronucleus Assays|Environ. Mol. Mutagen.48(9): 735-743|2007|10.1002/em.20353
114658|A||Maria,V.L., I. Ahmad, and M.A. Santos|Juvenile Sea Bass (Dicentrarchus labrax L.) DNA Strand Breaks and Lipid Peroxidation Response Following 17 beta-Estradiol Two Mode of Exposures|Environ. Int.34(1): 23-29|2008|10.1016/j.envint.2007.06.008
114659|A||Vandegehuchte,M.B., Y.E. Roman, L.T.H. Nguyen, C.R. Janssen, and K.A.C. DeSchamphelaere|Toxicological Availability of Nickel to the Benthic Oligochaete Lumbriculus variegatus|Environ. Int.33(6): 736-742|2007|10.1016/j.envint.2007.02.006
114660|A||Leoni,B., R. Bettinetti, and S. Galassi|Sub-lethal Effects of Acetone on Daphnia magna|Ecotoxicology17(3): 199-205|2008|10.1007/s10646-007-0184-7
114661|A||Arslan,O.C., and P. Hatice|Embryotoxic Effects of Nonylphenol and Octylphenol in Sea Urchin Arbacia lixula|Ecotoxicology16(6): 439-444|2007|10.1007/s10646-007-0147-z
114662|A||Soucek,D.J.|Bioenergetic Effects of Sodium Sulfate on the Freshwater Crustacean, Ceriodaphnia dubia|Ecotoxicology16(3): 317-325|2007|10.1007/s10646-007-0133-5
114664|A||Mathews,T., and N.S. Fisher|Evaluating the Trophic Transfer of Cadmium, Polonium, and Methylmercury in an Estuarine Food Chain|Environ. Toxicol. Chem.27(5): 1093-1101|2008|10.1897/07-318.1
114666|A||Tilak,K.S., K. Veeraiah, P. Bhaskara Thathaji, and M.S. Butchiram|Toxicity Studies of Butachlor to the Freshwater Fish Channa punctata (Bloch).|J. Environ. Biol.28(suppl.2): 485-487|2007|
114667|T||Maucher,J.M., and J.S. Ramsdell|Maternal-Fetal Transfer of Domoic Acid in Rats at Two Gestational Time Points|Environ. Health Perspect.115(12): 1743-1746|2007|10.1289/ehp.10446
114669|T||Jiang,X.J., Y.M. Luo, Q. Liu, S.L. Liu, and Q.G. Zhao|Effects of Cadmium on Nutrient Uptake and Translocation by Indian Mustard|Environ. Geochem. Health26(2-3): 319-324|2004|10.1023/B:EGAH.0000039596.15586.b3
114670|T||Cao,A., G. Cappai, A. Carucci, and T. Lai|Heavy Metal Bioavailability and Chelate Mobilization Efficiency in an Assisted Phytoextraction Process|Environ. Geochem. Health30(2): 115-119|2008|10.1007/s10653-008-9136-2
114671|T||Metzler,M., G. Blaich, and A.M. Trischer|Role of Metabolic Activation in the Carcinogenicity of Estrogens:  Studies in an Animal Liver Tumor Model|Environ. Health Perspect.88:117-121|1990|10.1289/ehp.9088117
114672|A||Bjerregaard,L.B., C. Lindholst, B. Korsgaard, and P. Bjerregaard|Sex Hormone Concentrations and Gonad Histology in Brown Trout (Salmo trutta) Exposed to 17 beta-Estradiol and Bisphenol A|Ecotoxicology17(4): 252-263|2008|10.1007/s10646-008-0192-2
114673|T||Woodman,J.D., V.S. Haritos, and P.D. Cooper|Effects of Phosphine on the Neural Regulation of Gas Exchange in Periplaneta americana|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.147(3): 271-277|2008|10.1016/j.cbpc.2007.11.001
114674|A||Isidori,M., M. Lavorgna, A. Nardelli, A. Parrella, L. Previtera, and M. Rubino|Ecotoxicity of Naproxen and Its Phototransformation Products|Sci. Total Environ.348(1-3): 93-101|2005|10.1016/j.scitotenv.2004.12.068
114675|A||Roychoudhury,A., S. Basu, S.N. Sarkar, and D.N. Sengupta|Comparative Physiological and Molecular Responses of a Common Aromatic Indica Rice Cultivar to High Salinity with Non-aromatic Indica Rice Cultivars|Plant Cell Rep.27(8): 1395-1410|2008|10.1007/s00299-008-0556-3
114676|AT||Chen,P.Y., K.T. Lee, W.C. Chi, H. Hirt, C.C. Chang, and H.J. Huang|Possible Involvement of MAP Kinase Pathways in Acquired Metal-Tolerance Induced by Heat in Plants|Planta (Multiple Languages)228(3): 499-509|2008|10.1007/s00425-008-0753-x
114677|A||Rahuman,A.A., P. Venkatesan, K. Geetha, G. Gopalakrishnan, A. Bagavan, and C. Kamaraj|Mosquito Larvicidal Activity of Gluanol Acetate, a Tetracyclic Triterpenes Derived from Ficus racemosa Linn.|Parasitol. Res.103(2): 333-339|2008|10.1007/s00436-008-0976-6
114678|T||Cheng,Q., F. Liu, P.N. Smith, W.A. Jackson, S.T. McMurry, M.J. Hooper, E.E. Smith, B.C. Blount, L. Valentin-Blasini, an|Perchlorate Distribution, Excretion, and Depuration in Prairie Voles and Deer Mice|Water Air Soil Pollut.192(1-4): 127-139|2008|10.1007/s11270-008-9640-0
114680|T||Aleo,M.D., C.M. Doshna, and C.A. Fritz|An Underlying Role for Hepatobiliary Dysfunction in Cyclosporine A Nephrotoxicity|Toxicol. Appl. Pharmacol.230(1): 126-134|2008|10.1016/j.taap.2008.02.011
114681|T||Okuno,S., K. Sakurada, H. Ohta, H. Ikegaya, Y. Kazui, T. Akutsu, T. Takatori, and K. Iwadate|Blood-Brain Barrier Penetration of Novel Pyridinealdoxime Methiodide (PAM)-Type Oximes Examined by Brain Microdialysis with LC-MS/MS|Toxicol. Appl. Pharmacol.227(1): 8-15|2008|10.1016/j.taap.2007.09.021
114682|T||Lee,M.H., M. Kim, B.H. Lee, J.H. Kim, K.S. Kang, H.L. Kim, B.I. Yoon, H. Chung, G. Kong, and M.O. Lee|Subchronic Effects of Valproic Acid on Gene Expression Profiles for Lipid Metabolism in Mouse Liver|Toxicol. Appl. Pharmacol.226(3): 271-284|2008|10.1016/j.taap.2007.09.014
114683|T||Palkar,P.S., D.G. Kakhniashvili, S.R. Goodman, and H.M. Mehendale|The Rat Red Blood Cell Proteome is Altered by Priming with 2-Butoxyethanol|Toxicol. Appl. Pharmacol.230(3): 338-345|2008|10.1016/j.taap.2008.03.005
114685|T||Molotski,N., S. Savion, N. Gerchikov, A. Fein, V. Toder, and A. Torchinsky|Teratogen-Induced Distortions in the Classical NF-kappaB Activation Pathway:  Correlation with the Ability of Embryos to Survive Teratogenic Stress|Toxicol. Appl. Pharmacol.229(2): 197-205|2008|10.1016/j.taap.2008.01.011
114686|T||Guindon,K.A., J.F. Foley, R.R. Maronpot, and T.E. Massey|Failure of Catalase to Protect Against Aflatoxin B1-Induced Mouse Lung Tumorigenicity|Toxicol. Appl. Pharmacol.227(2): 179-183|2008|10.1016/j.taap.2007.10.015
114688|T||Laftah,A.H., R.J. Simpson, T.J. Peters, and K.B. Raja|The Effect of Haem Biosynthesis Inhibitors and Inducers on Intestinal Iron Absorption and Liver Haem Biosynthetic Enzyme Activities|Toxicol. Appl. Pharmacol.229(3): 273-280|2008|10.1016/j.taap.2008.01.027
114690|T||Guarisco,J.A., J.O. Hall, and R.A.,Jr. Coulombe|Mechanisms of Butylated Hydroxytoluene Chemoprevention of Aflatoxicosis - Inhibition of Aflatoxin B1 Metabolism|Toxicol. Appl. Pharmacol.227(3): 339-346|2008|10.1016/j.taap.2007.11.017
114691|T||Han,Y., T.M. Chin Tan, and L.Y. Lim|In Vitro and In Vivo Evaluation of the Effects of Piperine on P-GP Function and Expression|Toxicol. Appl. Pharmacol.230(3): 283-289|2008|10.1016/j.taap.2008.02.026
114692|T||Gray,L.E.,Jr., J.M. Rogers, J.S. Ostby, R.J. Kavlock, and J.M. Ferrell|Prenatal Dinocap Exposure Alters Swimming Behavior in Mice due to Complete Otolith Agenesis in the Inner Ear|Toxicol. Appl. Pharmacol.92:266-273|1988|10.1016/0041-008X(88)90386-9
114693|T||Spearow,J.L., P. Doemeny, R. Sera, R. Leffler, and M. Barkley|Genetic Variation in Susceptibility to Endocrine Disruption by Estrogen in Mice|Science285(5431): 1259-1261|1999|10.1126/science.285.5431.1259
114694|T||Gong,B., B.L. Escalon, C.A. Hayes, and E.J. Perkins|Uptake of Hexanitrohexaazaisowurtzitane (CL-20) by the Earthworm Eisenia fetida Through Dermal Contact|Sci. Total Environ.390(1): 295-299|2008|10.1016/j.scitotenv.2007.10.001
114695|T||Smith,P.G., I. Koch, and K.J. Reimer|Uptake, Transport and Transformation of Arsenate in Radishes (Raphanus sativus)|Sci. Total Environ.390(1): 188-197|2008|10.1016/j.scitotenv.2007.09.037
114696|T||Epelde,L., J. Hernandez-Allica, J.M. Becerril, F. Blanco, and C. Garbisu|Effects of Chelates on Plants and Soil Microbial Community:  Comparison of EDTA and EDDS for Lead Phytoextraction|Sci. Total Environ.401(1-3): 21-28|2008|10.1016/j.scitotenv.2008.03.024
114697|T||Wang,Y., and M. Greger|Use of Iodide to Enhance the Phytoextraction of Mercury-Contaminated Soil|Sci. Total Environ.368(1): 30-39|2006|10.1016/j.scitotenv.2005.09.034
114698|T||Landrum,M., J.E. Canas, G. Coimbatore, G.P. Cobb, W.A. Jackson, B. Zhang, and T.A. Anderson|Effects of Perchlorate on Earthworm (Eisenia fetida) Survival and Reproductive Success|Sci. Total Environ.363(1-3): 237-244|2006|10.1016/j.scitotenv.2005.05.020
114699|A||Key,P.B., K.W. Chung, J. Hoguet, B. Shaddrix, and M.H. Fulton|Toxicity and Physiological Effects of Brominated Flame Retardant PBDE-47 on Two Life Stages of Grass Shrimp, Palaemonetes pugio|Sci. Total Environ.399(1-3): 28-32|2008|10.1016/j.scitotenv.2008.03.021
114700|AT||Dai,J.R., W. Wang, Y.S. Liang, H.J. Li, X.H. Guan, and Y.C. Zhu|A Novel Molluscicidal Formulation of Niclosamide|Parasitol. Res.103(2): 405-412|2008|10.1007/s00436-008-0988-2
114701|A||Vazquez-Garcia,M.|Investigations of the Potentiality of Resistance to Bacillus thuringiensis Ser. H-14 in Culex quinquefasciatus Through Accelerated Selection Pressure in the Laboratory|Ph.D Thesis, University of California, Riverside, CA:201 p.|1983|
114703|A||Daaboub,J., R.B. Cheikh, A. Lamari, I.B. Jha, M. Feriani, C. Boubaker, and H.B. Cheikh|Resistance to Pyrethroid Insecticides in Culex pipiens pipiens (Diptera:  Culicidae) from Tunisia|Acta Trop.107(1): 30-36|2008|10.1016/j.actatropica.2008.04.014
114704|A||Li,M., L.J. Zhang, L. Tao, and W. Li|Ecophysiological Responses of Jussiaea rapens to Cadmium Exposure|Aquat. Bot.88(4): 347-352|2008|10.1016/j.aquabot.2008.01.002
114705|T||Pendzick Clay,S.A.|Interference and Control of Giant Burreed (Sparganium eurycarpum) in Wild Rice (Zizania palustris)|Ph.D.Thesis, University of Minnesota, Minneapolis, MN:90 p.|1986|
114707|T||Shin,J.|Characterization of Plant Responses to Herbicides and Safeners|Ph.D.Thesis, North Carolina State University, Raleigh, NC:137 p.|1995|
114708|A||Krauth,D.M., J.L. Bouldin, V.S. Green, P.S. Wren, and W.H. Baker|Evaluation of a Polyacrylamide Soil Additive to Reduce Agricultural-Associated Contamination|Bull. Environ. Contam. Toxicol.81(2): 116-123|2008|10.1007/s00128-008-9448-z
114709|A||Lawrence,J.R., B. Zhu, G.D.W. Swerhone, E. Topp, J. Roy, L.I. Wassenaar, T. Rema, and D.R. Korber|Community-Level Assessment of the Effects of the Broad-Spectrum Antimicrobial Chlorhexidine on the Outcome of River Microbial Biofilm Development|Appl. Environ. Microbiol.74(11): 3541-3550|2008|10.1128/AEM.02879-07
114710|T||Kojima,M., M. Sekimoto, and M. Degawa|A Novel Gender-Related Difference in the Constitutive Expression of Hepatic Cytochrome P4501A Subfamily Enzymes in Meishan Pigs|Biochem. Pharmacol.75(5): 1076-1082|2008|10.1016/j.bcp.2007.10.030
114711|AT||Jimenez,E.C., B.M. Olivera, and R.W. Teichert|AlphaC-Conotoxin PrXA:  A New Family of Nicotinic Acetylcholine Receptor Antagonists|Biochemistry (Wash.)46(30): 8717-8724|2007|10.1021/bi700582m
114712|A||Huang,L., Y.L. Xi, C. Zha, and L.L. Zhao|Effect of Aldrin on Life History Characteristics of Rotifer Brachionus calyciflorus Pallas|Bull. Environ. Contam. Toxicol.79(5): 524-528|2007|10.1007/s00128-007-9271-y
114713|T||Hong,C.L., Y.B. Jia, X.E. Yang, Z.L. He, and P.J. Stoffella|Assessing Lead Thresholds for Phytotoxicity and Potential Dietary Toxicity in Selected Vegetable Crops|Bull. Environ. Contam. Toxicol.80(4): 356-361|2008|10.1007/s00128-008-9375-z
114714|T||Hilliard,A.L., A. Ramesh, and N.H. Zawia|Regional Variations in Spermine Levels in the Developing Rat Brain Following Exposure to Lead|Brain Res. Bull.49(5): 349-353|1999|10.1016/S0361-9230(99)00070-2
114715|A||Hagenaars,A., D. Knapen, I.J. Meyer, K. Van der Ven, P. Hoff, and W. De Coen|Toxicity Evaluation of Perfluorooctane Sulfonate (PFOS) in the Liver of Common Carp (Cyprinus carpio)|Aquat. Toxicol.88(3): 155-163|2008|10.1016/j.aquatox.2008.04.002
114716|A||Gul,S., O. Ozkan, G. Nur, and P. Aksu|Genotoxic Effects and LC50 Value of NaOCl on Orthrias angorae (Steindachner 1897)|Bull. Environ. Contam. Toxicol.80(6): 544-548|2008|10.1007/s00128-008-9404-y
114717|T||Gorsuch,J.W., C.A. Staples, D. Brown, and R. Enste-Diefenbach|Vapor-Phase Toxicity of Butylbenzyl Phthalate to Three Plant Species: White Mustard, Chinese Cabbage, and White Clover|Bull. Environ. Contam. Toxicol.81(2): 220-224|2008|10.1007/s00128-008-9449-y
114718|A||Gaworecki,K.M., and S.J. Klaine|Behavioral and Biochemical Responses of Hybrid Striped Bass During and After Fluoxetine Exposure|Aquat. Toxicol.88(4): 207-213|2008|10.1016/j.aquatox.2008.04.011
114719|T||Frick,L.R., M.L. Palumbo, M.P. Zappia, M.A. Brocco, G.A. Cremaschi, and A.M. Genaro|Inhibitory Effect of Fluoxetine on Lymphoma Growth Through the Modulation of Antitumor T-Cell Response by Serotonin-Dependent and Independent Mechanisms|Biochem. Pharmacol.75(9): 1817-1826|2008|10.1016/j.bcp.2008.01.015
114720|A||Dong,W., L. Wang, C. Thornton, B.E. Scheffler, and K.L. Willett|Benzo(a)pyrene Decreases Brain and Ovarian Aromatase mRNA Expression in Fundulus heteroclitus|Aquat. Toxicol.88(4): 289-300|2008|10.1016/j.aquatox.2008.05.006
114721|A||Dahl,U., and M. Breitholtz|Integrating Individual Ecdysteroid Content and Growth-Related Stressor Endpoints to Assess Toxicity in a Benthic Harpacticoid Copepod|Aquat. Toxicol.88(3): 191-199|2008|10.1016/j.aquatox.2008.04.006
114722|A||Correa,L.M., D. Kochhann, A.G. Becker, M.A. Pavanato, S.F. Llesuy, V.L. Loro, A. Raabe, M.F. Mesko, E.M.M. Flores, V.L.|Biochemistry, Cytogenetics and Bioaccumulation in Silver Catfish (Rhamdia quelen) Exposed to Different Thorium Concentrations|Aquat. Toxicol.88(4): 250-256|2008|10.1016/j.aquatox.2008.05.003
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114724|T||Gimbert,F., A. De Vaufleury, F. Douay, M. Coeurdassier, R. Scheifler, and P.M. Badot|Long-Term Responses of Snails Exposed to Cadmium-Contaminated Soils in a Partial Life-Cycle Experiment|Ecotoxicol. Environ. Saf.70(1): 138-146|2008|10.1016/j.ecoenv.2007.05.014
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114726|A||Nogueira,P.R., J. Lourenco, S.A.L.V. Mendo, and J.M. Rotchell|Mutation Analysis of Ras Gene in the Liver of European Eel (Anguilla anguilla L.) Exposed to Benzo(a)pyrene|Mar. Pollut. Bull.52(12): 1611-1616|2006|10.1016/j.marpolbul.2006.05.017
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114728|T||Borecka,H., H. Bryk, and L. Michalczuk|The Effect of Treating Plum Tree with Rovral (Iprodion) and Euparen (Dichlofluanid) on the Content of Soluble Solids in Fruit|Acta Agrobot. (Multiple Languages)42(1/2): 171-174|1989|
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114734|T||Showler,A.T., and T.E. Reagan|Effects of Sugarcane Borer, Weed, and Nematode Control Strategies in Louisiana Sugarcane|Environ. Entomol.20(1): 358-370|1991|10.1093/ee/20.1.358
114736|T||Manikandan,P., P.V. Letchoumy, M. Gopalakrishnan, and S. Nagini|Evaluation of Azadirachta indica Leaf Fractions for In Vitro Antioxidant Potential and In Vivo Modulation of Biomarkers of Chemoprevention in the Hamster Buccal Pouch Carcinogenesis Model|Food Chem. Toxicol.46(7): 2332-2343|2008|10.1016/j.fct.2008.03.013
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114739|T||Lai,R.H., A.S. Keck, M.A. Wallig, L.G. West, and E.H. Jeffery|Evaluation of the Safety and Bioactivity of Purified and Semi-purified Glucoraphanin|Food Chem. Toxicol.46(1): 195-202|2008|10.1016/j.fct.2007.07.015
114740|T||Kuratko,C.N.|Decrease of Manganese Superoxide Dismutase Activity in Rats Fed High Levels of Iron During Colon Carcinogenesis|Food Chem. Toxicol.36(9-10): 819-824|1998|10.1016/S0278-6915(98)00029-5
114742|T||Keller,K.A., and C.A. Snyder|Mice Exposed In Utero to 20 ppm Benzene Exhibit Altered Numbers of Recognizable Hematopoietic Cells up to Seven Weeks After Exposure|Fundam. Appl. Toxicol.10:224-232|1988|10.1016/0272-0590(88)90306-5
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114745|T||He,Q., R.T. Riley, and R.P. Sharma|Myriocin Prevents Fumonisin B1-Induced Sphingoid Base Accumulation in Mice Liver Without Ameliorating Hepatotoxicity|Food Chem. Toxicol.43(6): 969-979|2005|10.1016/j.fct.2005.01.021
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114747|T||Griffiths,J.C., J.F. Borzelleca, and J. St Cyr|Lack of Oral Embryotoxicity/Teratogenicity with D-Ribose in Wistar Rats|Food Chem. Toxicol.45(3): 388-395|2007|10.1016/j.fct.2006.08.019
114748|T||Fu,X., J.R. Latendresse, L. Muskhelishvili, B.S. Blaydes, and K.B. Delclos|Dietary Modulation of 7,12-Dimethylbenz(a)anthracene (DMBA)-Induced Adrenal Toxicity in Female Sprague-Dawley Rats|Food Chem. Toxicol.43(5): 765-774|2005|10.1016/j.fct.2005.01.017
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114751|T||Favero,A.M., S.N. Weis, E.C. Stangherlin, J.B.T. Rocha, and C.W. Nogueira|Sub-chronic Exposure of Adult Male Rats to Diphenyl Ditelluride Did Not Affect the Development of Their Progeny.|Food Chem. Toxicol.45(5): 859-862|2007|10.1016/j.fct.2006.11.005
114752|T||Edenharder,R., J. Frangart, M. Hager, P. Hofmann, and R. Rauscher|Protective Effects of Fruits and Vegetables Against In Vivo Clastogenicity of Cyclophosphamide or Benzo(a)pyrene in Mice|Food Chem. Toxicol.36(8): 637-645|1998|10.1016/S0278-6915(98)00035-0
114753|A||Cavas,T.|In Vivo Genotoxicity of Mercury Chloride and Lead Acetate:  Micronucleus Test on Acridine Orange Stained Fish Cells|Food Chem. Toxicol.46(1): 352-358|2008|10.1016/j.fct.2007.08.015
114754|T||Bian,Q., J. Qian, L. Xu, J. Chen, L. Song, and X. Wang|The Toxic Effects of 4-tert-Octylphenol on the Reproductive System of Male Rats|Food Chem. Toxicol.44(8): 1355-1361|2006|10.1016/j.fct.2006.02.014
114755|A||Ates,B., I. Orun, Z.S. Talas, G. Durmaz, and I. Yilmaz|Effects of Sodium Selenite on Some Biochemical and Hematological Parameters of Rainbow Trout (Oncorhynchus mykiss Walbaum, 1792) Exposed to Pb2+ and Cu2+|Fish Physiol. Biochem.34(1): 53-59|2008|10.1007/s10695-007-9146-5
114756|A||Asagba,S.O., G.E. Eriyamremu, and M.E. Igberaese|Bioaccumulation of Cadmium and Its Biochemical Effect on Selected Tissues of the Catfish (Clarias gariepinus)|Fish Physiol. Biochem.34(1): 61-69|2008|10.1007/s10695-007-9147-4
114758|A||Tilton,F., J.K. La Du, and R.L. Tanguay|Sulfhydryl Systems are a Critical Factor in the Zebrafish Developmental Toxicity of the Dithiocarbamate Sodium Metam (NaM)|Aquat. Toxicol.90(2): 121-127|2008|10.1016/j.aquatox.2008.08.008
114759|T||Kitagawa,T., and M. Asada|Preparation and Root Growth-Inhibitory Activity of N-Substituted 2-(2-Chloroacetamido)-3-(Furan-2-yl)Propanamides|Chem. Pharm. Bull.53(9): 1183-1189|2005|10.1248/cpb.53.1183
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114761|T||Ward,C.R., J.C. Owens, D. Ashdown, E.W. Huddleston, and W.E. Turner|Greenbug Control on Wheat in 1967-69|J. Econ. Entomol.65(3): 764-767|1972|10.1093/jee/65.3.764
114762|T||Summers,C.G.|Efficacy of Insecticides and Dosage Rates Applied for Control of the Egyptian Alfalfa Weevil and Pea Aphid|J. Econ. Entomol.68(6): 864-866|1975|10.1093/jee/68.6.864
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114764|T||Van Randen,E.J., and B.D. Roitberg|Effect of a Neem (Azidirachta indica)-Based Insecticide on Oviposition Deterrence, Survival, Behavior and Reproduction of Adult Western Cherry Fruit Fly (Diptera: Tephritidae)|J. Econ. Entomol.91(1): 123-131|1998|10.1093/jee/91.1.123
114765|T||Hsieh,C.Y., and W.W. Allen|Effects of Insecticides on Emergence, Survival, Longevity, and Fecundity of the Parasitoid Diaeretiella rapae (Hymenoptera:  Aphidiidae) from Mummified Myzus persicae (Homoptera:  Aphididae)|J. Econ. Entomol.79(6): 1599-1602|1986|10.1093/jee/79.6.1599
114766|T||Reissig,W.H., B.H. Stanley, and H.E. Hebding|Azinphosmethyl Resistance and Weight-Related Response of Obliquebanded Leafroller (Lepidoptera:  Tortricidae) Larvae to Insecticides|J. Econ. Entomol.79(2): 329-333|1986|10.1093/jee/79.2.329
114767|T||Scott,W.P., J.W. Smith, and G.L. Snodgrass|Impact of Early Season Use of Selected Insecticides on Cotton Arthropod Populations and Yield|J. Econ. Entomol.79(3): 797-804|1986|10.1093/jee/79.3.797
114768|T||Hoy,M.A., and Y.L. Ouyang|Selectivity of the Acaricides Clofentezine and Hexythiazox to the Predator Metaseiulus occidentalis (Acari:  Phytoseiidae)|J. Econ. Entomol.79(5): 1377-1380|1986|10.1093/jee/79.5.1377
114769|T||Subramanyam,B., and L.K. Cutkomp|Influence of Posttreatment Temperature on Toxicity of Pyrethroids to Five Species of Stored-Product Insects|J. Econ. Entomol.80(1): 9-13|1987|10.1093/jee/80.1.9
114770|T||Luttrell,R.G., R.T. Roush, A. Ali, J.S. Mink, M.R. Reid, and G.L. Snodgrass|Pyrethroid Resistance in Field Populations of Heliothis virescens (Lepidoptera:  Noctuidae) in Mississippi in 1986|J. Econ. Entomol.80(5): 985-989|1987|10.1093/jee/80.5.985
114771|T||Bloomcamp,C.L., R.S. Patterson, and P.G. Koehler|Cyromazine Resistance in the House Fly (Diptera:  Muscidae)|J. Econ. Entomol.80(2): 352-357|1987|10.1093/jee/80.2.352
114772|A||Shved,N., G. Berishvili, E. Hausermann, H. D'Cotta, J.F. Baroiller, and E. Eppler|Challenge with 17a-Ethinylestradiol (EE2) During Early Development Persistently Impairs Growth, Differentiation, and Local Expression of IGF-I and IGF-II in Immune Organs of Tilapia|Fish Shellfish Immunol.26:524-530|2009|10.1016/j.fsi.2009.02.003
114773|T||Roy,B., and A.B. Mandal|Towards Development of Al-Toxicity Tolerant Lines in Indica Rice by Exploiting Somaclonal Variation|Euphytica 145(3): 221-227|2005|10.1007/s10681-005-0055-3
114774|A||Stillitano,F., A. Mugelli, E. Cerbai, and S. Vanucci|Quantification of Midkine Gene Expression in Patella caerulea (Mollusca, Gastropoda) Exposed to Cadmium|Estuar. Coast. Shelf Sci.75(1-2): 120-124|2007|10.1016/j.ecss.2007.02.021
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114776|T||Ulusu,N.N., N.L. Acan, B. Turan, and E.F. Tezcan|Effect of Cadmium Ion on Glutathione Reductase and Glutathione Peroxidase Activity of Rat Liver and the Relationship with Dietary Selenium|Biyokim. Derg.27(2): 43-46|2002|
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114779|T||Gerhardt,P.D., L. Moore, J.F. Armstrong, and L.J. Kaspersen|Southwestern Corn Borer Control in Grain Sorghum|J. Econ. Entomol.65(2): 491-494|1972|10.1093/jee/65.2.491
114780|T||Heinrichs,E.A., E.E. Burgess, and E.L.,Jr. Matheny|Control of Leaf-Feeding Insects on Yellow-Poplar|J. Econ. Entomol.66(5): 1240-1241|1973|10.1093/jee/66.5.1240
114781|T||Hemingway,J., G.J. Small, and A.G. Monro|Possible Mechanisms of Organophosphorus and Carbamate Insecticide Resistance in German Cockroaches (Dictyoptera:  Blattelidae) from Different Geographical Area|J. Econ. Entomol.86(6): 1623-1630|1993|10.1093/jee/86.6.1623
114782|T||Hagler,J.R., J.C. Owens, D.W. Smith, and B.E. Lewis|Mortality of Range Caterpillar (Lepidoptera:  Saturniidae) Exposed to Various Combinations of Insecticides and Piperonyl Butoxide|J. Econ. Entomol.81(5): 1304-1306|1988|10.1093/jee/81.5.1304
114783|T||Martin,S.H., J.A. Ottea, B.R. Leonard, J.B. Graves, E. Burris, S. Micinski, and G.E. Church|Effects of Selected Synergists on Insecticide Toxicity in Tobacco Budworm (Lepidoptera: Noctuidae) in Laboratory and Field Studies|J. Econ. Entomol.90(3): 723-731|1997|10.1093/jee/90.3.723
114784|A||Wang,X., J. Cai, J. Zhang, C. Wang, A. Yu, Y. Chen, and Z. Zuo|Acute Trimethyltin Exposure Induces Oxidative Stress Response and Neuronal Apoptosis in Sebastiscus marmoratus|Aquat. Toxicol.90(1): 58-64|2008|10.1016/j.aquatox.2008.07.017
114785|A||Williams,T.D., A. Diab, F. Ortega, V.S. Sabine, R.E. Godfrey, F. Falciani, J.K. Chipman, and S.G. George|Transcriptomic Responses of European Flounder (Platichthys flesus) to Model Toxicants|Aquat. Toxicol.90(2): 83-91|2008|10.1016/j.aquatox.2008.07.019
114786|A||Yu,R.M.K., P.K.S. Ng, T. Tan, D.L.H. Chu, R.S.S. Wu, and R.Y.C. Kong|Enhancement of Hypoxia-Induced Gene Expression in Fish Liver by the Aryl Hydrocarbon Receptor (AhR) Ligand, Benzo[a]pyrene (BaP)|Aquat. Toxicol.90(3): 235-242|2008|10.1016/j.aquatox.2008.09.004
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114788|A||Zeng,J., L. Yang, and W.X. Wang|Cadmium and Zinc Uptake and Toxicity in Two Strains of Microcystis aeruginosa Predicted by Metal Free Ion Activity and Intracellular Concentration|Aquat. Toxicol.91(3): 212-220|2009|10.1016/j.aquatox.2008.11.004
114789|T||Sitarek,K., B. Berlinska, and B. Baranski|Evaluation of Oral Exposure to Polnoks R for Female Rats in Developmental Toxicity Studies|Teratog. Carcinog. Mutagen.16(2): 75-80|1996|10.1002/(SICI)1520-6866(1996)16:2<75::AID-TCM1>3.0.CO;2-C
114790|T||Pair,S.D.|Evaluation of Systemically Treated Squash Trap Plants and Attracticidal Baits for Early-Season Control of Striped and Spotted Cucumber Beetles (Coleoptera:  Chrysomelidae) and Squash Bug (Hemiptera:  Coreidae) in Cucurb|J. Econ. Entomol.90(5): 1307-1314|1997|10.1093/jee/90.5.1307
114791|T||Drummond,R.O., T.M. Whetstone, S.E. Ernst, and W.J. Gladney|Control of Three-Host Ticks:  Laboratory Tests of Systemic Insecticides in Feed of Cattle|J. Econ. Entomol.65(6): 1641-1644|1972|10.1093/jee/65.6.1641
114792|T||Jansson,R.K., W.R. Halliday, and J.A. Argentine|Evaluation of Miniature and High-Volume Bioassays for Screening Insecticides|J. Econ. Entomol.90(6): 1500-1507|1997|10.1093/jee/90.6.1500
114793|T||Colburn,R., and D. Asquith|Tolerance of Stethorus punctum Adults and Larvae to Various Pesticides|J. Econ. Entomol.66(4): 961-962|1973|10.1093/jee/66.4.961
114794|T||Cone,W.W.|Crown-Applied Systemic Acaricides for Control of the Two-Spotted Spider Mite and Hop Aphid on Hops|J. Econ. Entomol.68(5): 684-686|1975|10.1093/jee/68.5.684
114795|T||Cowan,C.B.,Jr., and J.W. Davis|Insecticides Evaluated in Field Tests Against Cotton Insects in Central Texas, 1970|J. Econ. Entomol.65(4): 1111-1112|1972|10.1093/jee/65.4.1111
114796|T||Daniels,N.E.|Insecticidal Control of Greenbugs in Grain Sorghum|J. Econ. Entomol.65(1): 235-240|1972|10.1093/jee/65.1.235
114797|T||Doane,C.C., and D.M. Dunbar|Field Evaluation of Insecticides Against the Gypsy Moth and the Elm Spanworm and Repellent Action of Chlordimeform|J. Econ. Entomol.66(5): 1187-1189|1973|10.1093/jee/66.5.1187
114798|T||Highland,H.A., and P.H. Merritt|Synthetic Pyrethroids as Package Treatments to Prevent Insect Penetration|J. Econ. Entomol.66(2): 540-541|1973|10.1093/jee/66.2.540
114799|T||Harris,F.A.|Resistance to Methyl Parathion and Toxaphene-DDT in Bollworm and Tobacco Budworm from Cotton in Mississippi|J. Econ. Entomol.65(4): 1193-1194|1972|10.1093/jee/65.4.1193
114800|T||Parkman,J.P., and J.H. Frank|Development and Reproduction of Mole Crickets (Orthoptera: Gryllotalpidae) After Treatments with Hydroprene and Pyriproxyfen|J. Econ. Entomol.91(2): 392-397|1998|10.1093/jee/91.2.392
114801|T||Hagen,A.F.|Mexican Bean Beetle Control with Systemic Insecticides on Dry Beans in Western Nebraska|J. Econ. Entomol.67(1): 137-|1974|10.1093/jee/67.1.137
114802|T||Trumble,J.T., W.G. Carson, and G.S. Kund|Economics and Environmental Impact of a Sustainable Integrated Pest Management Program in Celery|J. Econ. Entomol.90(1): 139-146|1997|10.1093/jee/90.1.139
114803|T||Huddleston,E.W., C.R. Ward, and R.A. Parodi|Chemical Control of Astylus astromaculatus Attacking Grain Sorghum in Argentina|J. Econ. Entomol.65(3): 892-894|1972|10.1093/jee/65.3.892
114804|A||Gallardo,W.G., A. Hagiwara, Y. Tomita, K. Soyano, and T.W. Snell|Effect of Some Vertebrate and Invertebrate Hormones on the Population Growth, Mictic Female Production, and Body Size of the Marine Rotifer Brachionus plicatilis Muller|Hydrobiologia (Multiple Languages)358(1-3): 113-120|1997|10.1023/A:1003124205002
114805|A||Quraishi,M.S., and A.J. Thorsteinson|"Effect of Synthetic ""Queen Substance"" and Some Related Chemicals on Immature Stages of Aedes aegypti"|J. Econ. Entomol.58(2): 185-187|1965|10.1093/jee/58.2.185
114806|A||Ginsburg,J.M.|Results from Feeding Mosquito Larvae, Killed by DDT, to Goldfish|J. Econ. Entomol.40(2): 275-276|1947|10.1093/jee/40.2.275
114807|A||Ginsburg,J.M.|Toxicity of DDT to Fish|J. Econ. Entomol.38(2): 274-275|1945|10.1093/jee/38.2.274a
114808|T||Colburn,R., and D. Asquith|Contact and Residual Toxicity of Selected Acaricides and Insecticides to a Ladybird Beetle, Stethorus punctum|J. Econ. Entomol.63(5): 1686-1688|1970|10.1093/jee/63.5.1686
114809|T||Davis,D.W.|Insecticidal Control of the Alfalfa Weevil in Northern Utah and Some Resulting Effects on the Weevil Parasite Bathyplectes curculionis|J. Econ. Entomol.63(1): 119-125|1970|10.1093/jee/63.1.119
114810|A||Chang,X., B. Zhai, M. Wang, and B. Wang|Relationship Between Exposure to an Insecticide and Fluctuating Asymmetry in a Damselfly (Odonata, Coenagriidae)|Hydrobiologia (Multiple Languages)586(1): 213-220|2007|10.1007/s10750-007-0620-y
114811|A||Garcia-Garcia,G., E.A. Picazo-Paez, S. Nandini, and S.S.S. Sarma|Combined Effects of Sediment and Lead (PbCl2) on the Demography of Brachionus patulus (Rotifera:  Brachionidae)|Hydrobiologia (Multiple Languages)593(1): 209-218|2007|10.1007/s10750-007-9039-8
114812|T||Carlini,C.R., A.E.A. Oliveira, P. Azambuja, J. Xavier-Filho, and M.A. Wells|Biological Effects of Canatoxin in Different Insect Models: Evidence for a Proteolytic Activation of the Toxin by Insect Cathepsinlike Enzymes|J. Econ. Entomol.90(2): 340-348|1997|10.1093/jee/90.2.340
114813|T||Cherry,E.T., and C.D. Pless|Bioassay of Leaves from Tobacco Grown on Soil Treated with Certain Systemic Insecticides|J. Econ. Entomol.62(6): 1313-1316|1969|10.1093/jee/62.6.1313
114814|T||Calcote,V.R.|Conotrachelus hicoriae Controlled by Application of Insecticides to Soil|J. Econ. Entomol.63(6): 2010-2011|1970|10.1093/jee/63.6.2010
114815|T||Cameron,R.S., and N.E. Johnson|"Chemical Control of the ""Annual Bluegrass Weevil,"" Hyperodes sp. nr. anthracinus"|J. Econ. Entomol.64(3): 689-693|1971|10.1093/jee/64.3.689
114816|A||Araujo,A., and J.N. McNair|Individual- and Population-Level Effects of Antibiotics on the Rotifers, Brachionus calyciflorus and B. plicatilis|Hydrobiologia (Multiple Languages)593(1): 185-199|2007|10.1007/s10750-007-9044-y
114817|A||Lass,S., M. Boersma, K.H. Wiltshire, P. Spaak, and H. Boriss|Does Trimethylamine Induce Life-History Reactions in Daphnia?|Hydrobiologia (Multiple Languages)442(1-3): 199-206|2001|10.1023/A:1017538524539
114819|T||Batiste,W.C., A. Berlowitz, and W.H. Olson|Evaluation of Insecticides for Control of Codling Moth on Pears in California and Their Usefulness in an Integrated Control Program|J. Econ. Entomol.63(5): 1457-1462|1970|10.1093/jee/63.5.1457
114820|T||Beckham,C.M.|Influence of Systemic Insecticides on Thrips Control and Yield of Cotton|J. Econ. Entomol.63(3): 936-938|1970|10.1093/jee/63.3.936
114821|T||Bell,M.R., and R.E. McLaughlin|Influence of the Protozoan Mattesia grandis McLaughlin on the Toxicity to the Boll Weevil of Four Insecticides|J. Econ. Entomol.63(1): 266-269|1970|10.1093/jee/63.1.266
114822|T||Yu,S.J., and F.O. Morrison|Mevinphos and Phosphamidon: Influence of Plant Nutrition on Uptake and Effectiveness|J. Econ. Entomol.62(6): 1296-1304|1969|10.1093/jee/62.6.1296
114823|T||Asquith,D.|Codling Moth, Red-Banded Leaf Roller, Apple Aphid, European Red Mite, and Two-Spotted Spider Mite Control on Apple Trees|J. Econ. Entomol.63(1): 181-185|1970|10.1093/jee/63.1.181
114824|T||Bariola,L.A., and D.A. Lindquist|Longevity and Fecundity of Boll Weevils Exposed to Sublethal Doses of Systemic Insecticides|J. Econ. Entomol.63(2): 527-530|1970|10.1093/jee/63.2.527
114825|A||Mimeault,C., V.L. Trudeau, and T.W. Moon|Waterborne Gemfibrozil Challenges the Hepatic Antioxidant Defense System and Down-Regulates Peroxisome Proliferator-Activated Receptor beta (PPARbeta) mRNA Levels in Male Goldfish (Carassius auratus)|Toxicology228(2/3): 140-150|2006|10.1016/j.tox.2006.08.025
114826|T||Zwick,R.W., F.W. Peifer, and F.E. Ellertson|Field-Plot and Laboratory Screening of Chemical Control Agents Against Pleocoma Larvae|J. Econ. Entomol.63(5): 1573-1576|1970|10.1093/jee/63.5.1573
114828|T||Ward,C.R., E.W. Huddleston, D. Ashdown, J.C. Owens, and K.L. Polk|Greenbug Control on Grain Sorghum and the Effects of Tested Insecticides on Other Insects|J. Econ. Entomol.63(6): 1929-1934|1970|10.1093/jee/63.6.1929
114829|A||Scott,D.P.|Radioactive Caesium as a Fish and Lamprey Mark|J. Fish. Res. Board Can.19(1): 149-157|1962|10.1139/f62-009
114830|A||Sun,X.B., F.Y. Cui, J.S. Zhang, F. Xu, and L.J. Liu|Inactivation of Chironomid Larvae with Chlorine Dioxide|J. Hazard. Mater.142(1/2): 348-353|2007|10.1016/j.jhazmat.2006.08.030
114831|T||Wiebel,F.J., J.C. Leutz, and H.V. Gelboin|Aryl Hydrocarbon (Benzo(a)pyrene) Hydroxylase:  A Mixed-Function Oxygenase in Mouse Skin|J. Invest. Dermatol.64(3): 184-189|1975|10.1111/1523-1747.ep12533351
114832|T||Zhu,R., S.M. MacFie, and Z. Ding|Cadmium-Induced Plant Stress Investigated by Scanning Electrochemical Microscopy|J. Exp. Bot.56(421): 2831-2838|2005|10.1093/jxb/eri275
114833|T||Gielen,S., L. Vogels, B. Seels, and R. Aerts|Phytotoxicity of Tolylfluanid in Tomatoes|Commun. Agric. Appl. Biol. Sci.71(2a): 79-82|2006|
114834|T||Karakotov,S.D., E.V. Zheltova, Y.G. Putsykin, K.V. Balakin, and A.A. Shapovalov|Novel Formulation for Enhancing Efficiency of Metribuzin|Commun. Agric. Appl. Biol. Sci.71(2a): 31-37|2006|
114835|T||Karakotov,S.D., E.V. Zheltova, Y.G. Putsykin, K.V. Balakin, and A.A. Shapovalov|Novel Formulation for Enhancing Efficiency of Tebuconazole|Commun. Agric. Appl. Biol. Sci.71(2a): 23-30|2006|
114836|T||Kavallieratos,N.G., C.G. Athanassiou, F.D. Mpakou, and A.E. Mpassoukou|Factors Affecting Laboratory Bioassays With Diatomaceous Earth on Stored Wheat:  Effect of Insect Density, Grain Quantity, and Cracked Kernel Containment|J. Econ. Entomol.100(5): 1724-1731|2007|10.1093/jee/100.5.1724
114837|T||Takamiya,M., N. Magan, and P.J. Wamer|Impact Assessment of Bisphenol A on Lignin-Modifying Enzymes by Basidiomycete Trametes versicolor|J. Hazard. Mater.154(1-3): 33-37|2008|10.1016/j.jhazmat.2007.09.098
114838|A||Jeffree,R.A., F. Oberhansli, and J.L. Teyssie|The Accumulation of Lead and Mercury from Seawater and Their Depuration by Eggs of the Spotted Dogfish Scyliorhinus canicula (Chondrichthys)|Arch. Environ. Contam. Toxicol.55(3): 451-461|2008|10.1007/s00244-007-9103-4
114839|T||Kinraide,T.B., D.R. Parker, and R.W. Zobel|Organic Acid Secretion as a Mechanism of Aluminium Resistance:  A Model Incorporating the Root Cortex, Epidermis, and the External Unstirred Layer|J. Exp. Bot.56(417): 1853-1865|2005|10.1093/jxb/eri175
114840|T||Arthur,F.H.|Cyfluthrin Applied with and Without Piperonyl Butoxide and Piperonyl Butoxide Plus Chlorpyrifos-Methyl for Protection of Stored Wheat|J. Econ. Entomol.87(6): 1707-1713|1994|10.1093/jee/87.6.1707
114841|A||Khani,M.H., A.R. Keshtkar, M. Ghannadi, and H. Pahlavanzadeh|Equilibrium, Kinetic and Thermodynamic Study of the Biosorption of Uranium Onto Cystoseria indica Algae|J. Hazard. Mater.150(3): 612-618|2008|10.1016/j.jhazmat.2007.05.010
114842|A||Metian,M., M. Warnau, F. Oberhansli, J.L. Teyssie, and P. Bustamante|Interspecific Comparison of Cd Bioaccumulation in European Pectinidae (Chlamys varia and Pecten maximus)|J. Exp. Mar. Biol. Ecol.353(1): 58-67|2007|10.1016/j.jembe.2007.09.001
114844|T||Smith,D.M.,Jr., H.W. Mielke, and J.B. Heneghan|Subchronic Lead Feeding Study in Male Rats|Arch. Environ. Contam. Toxicol.55(3): 518-528|2008|10.1007/s00244-008-9138-1
114845|A||Satone,H., Y. Oshima, Y. Shimasaki, T. Tawaratsumida, Y. Oba, E. Takahashi, T. Kitano, S.I. Kawabata, Y. Kakuta, and T.|Tributyltin-Binding Protein Type 1 has a Distinctive Lipocalin-like Structure and is Involved in the Excretion of Tributyltin in Japanese Flounder, Paralichthys olivaceus|Aquat. Toxicol.90(4): 292-299|2008|10.1016/j.aquatox.2008.08.019
114846|A||Popov,A.P., I.L. Tsvetkov, and A.S. Konichev|Separation and Characterization of Deoxyribonucleases from Hepatopancreas of Freshwater Snail in Normality and Under In Vivo Model Intoxication|Biochemistry (Wash.)73(8): 937-942|2008|
114847|T||Payan,J.P., S. Binet, D. Beydon, and E. Ferrari|Bio-Distribution Study of 1,2-Diethylbenzene and Its Main Metabolites by Whole-Body Autoradiography and Tissue Homogenates|Arch. Toxicol.82(9): 591-600|2008|10.1007/s00204-008-0281-2
114848|T||Muguruma,M., K. Arai, M. Moto, J. Nishimura, Y. Dewa, and K. Mitsumori|Piperonyl Butoxide Activates c-Jun and ATF-2 in the Hepatocytes of Mice|Arch. Toxicol.82(10): 749-753|2008|10.1007/s00204-008-0283-0
114849|A||Young,E.B., and J. Beardall|Rapid Ammonium- and Nitrate-Induced Perturbations to CHL a Fluorescence in Nitrogen-Stressed Dunaliella tertiolecta (Chlorophyta)|J. Phycol.39(2): 332-342|2003|10.1046/j.1529-8817.2003.02109.x
114850|T||Enayati,A.A., and H. Ladonni|Biochemical Assay Baseline Data of Permethrin Resistance in Anopheles stephensi (Diptera, Culicidae) from Iran|Pak. J. Biol. Sci.9(7): 1265-1270|2006|10.3923/pjbs.2006.1265.1270
114851|A||Schultz,I.R., A. Skillman, and D. Woodruff|Domoic Acid Excretion in Dungeness Crabs, Razor Clams and Mussels|Mar. Environ. Res.66(1): 21-23|2008|10.1016/j.marenvres.2008.02.012
114852|A||Sheader,D.L., K. Gensberg, B.P. Lyons, and K. Chipman|Isolation of Differentially Expressed Genes from Contaminant Exposed European Flounder by Suppressive, Subtractive Hybridisation|Mar. Environ. Res.58(2-5): 553-557|2004|10.1016/j.marenvres.2004.03.044
114853|A||McDonagh,B., and D. Sheehan|Effects of Oxidative Stress on Protein Thiols and Disulphides in Mytilus edulis Revealed by Proteomics:  Actin and Protein Disulphide Isomerase are Redox Targets|Mar. Environ. Res.66(1): 193-195|2008|10.1016/j.marenvres.2008.02.069
114854|T||Skoog,F.E.|Influence of Simulated Rain on Residual of Ultra-Low-Volume Applications of Carbaryl and Malathion Against Grasshoppers|J. Econ. Entomol.64(1): 196-200|1971|10.1093/jee/64.1.196
114855|A||Roesijadi,G., J.W. Anderson, and J.W. Blaylock|Update of Hydrocarbons from Marine Sediments Contaminated with Prudhoe Bay Crude Oil:  Influence of Feeding Type of Test Species and Availability of Polycyclic Aromatic Hydrocarbons|J. Fish. Res. Board Can.35:608-614|1978|10.1139/f78-107
114856|T||Guo,J., X. Dai, W. Xu, and M. Ma|Overexpressing GSH1 and AsPCS1 Simultaneously Increases the Tolerance and Accumulation of Cadmium and Arsenic in Arabidopsis thaliana|Chemosphere72(7): 1020-1026|2008|10.1016/j.chemosphere.2008.04.018
114857|T||Chaurasia,S.S., P. Gupta, A. Kar, and P.K. Maiti|Lead Impairs Hepatic Type I-5'-Monodeiodinase Activity and Thyroid-Function in Cockerels|Curr. Sci. (Bangalore)69:698-700|1995|
114858|A||Luckenbach,T., R. Altenburger, and D. Epel|Teasing Apart Activities of Different Types of ABC Efflux Pumps in Bivalve Gills Using the Concepts of Independent Action and Concentration Addition|Mar. Environ. Res.66(1): 75-76|2008|10.1016/j.marenvres.2008.02.027
114859|T||Leljak-Levanic,D., N. Bauer, S. Mihaljevic, and S. Jelaska|Somatic Embryogenesis in Pumpkin (Cucurbita pepo L.):  Control of Somatic Embryo Development by Nitrogen Compounds|J. Plant Physiol.161(2): 229-236|2004|10.1078/0176-1617-01055
114860|T||Thomas,T.D., and K.R. Sreejesh|Callus Induction and Plant Regeneration from Cotyledonary Explants of Ash Gourd (Benincasa hispida L.)|Sci. Hortic.100(1-4): 359-367|2004|10.1016/j.scienta.2003.06.001
114861|T||Agarwal,S., K. Kanwar, and D.R. Sharma|Factors Affecting Secondary Somatic Embryogenesis and Embryo Maturation in Morus alba L.|Sci. Hortic.102(3): 359-368|2004|10.1016/j.scienta.2004.04.002
114862|T||Devi,P., P. Radha, L. Sitamahalakshmi, D. Syamala, and S.M. Kumar|Plant Regeneration via Somatic Embryogenesis in Mung Bean (Vigna radiata (L.) Wilczek)|Sci. Hortic.99(1): 1-8|2004|10.1016/S0304-4238(03)00079-7
114863|T||Zhu,L.H., A. Van de Peppel, X.Y. Li, and M. Welander|Changes of Leaf Water Potential and Endogenous Cytokinins in Young Apple Trees Treated with or Without Paclobutrazol Under Drought Conditions|Sci. Hortic.99(2): 133-141|2004|10.1016/S0304-4238(03)00089-X
114864|T||Al-Khayri,J.M., and A.M. Al-Bahrany|Genotype-Dependent In Vitro Response of Date Palm (Phoenix dactylifera L.) Cultivars to Silver Nitrate|Sci. Hortic.99(2): 153-162|2004|10.1016/S0304-4238(03)00091-8
114865|T||Gonzalez,A., P. Lu, and W. Muller|Effect of Pre-Flowering Irrigation on Leaf Photosynthesis, Whole-Tree Water Use and Fruit Yield of Mango Trees Receiving Two Flowering Treatments|Sci. Hortic.102(2): 189-211|2004|10.1016/j.scienta.2003.12.011
114866|T||Blaikie,S.J., V.J. Kulkarni, and W.J. Muller|Effects of Morphactin and Paclobutrazol Flowering Treatments on Shoot and Root Phenology in Mango cv. Kensington Pride|Sci. Hortic.101(1-2): 51-68|2004|10.1016/j.scienta.2003.09.009
114867|T||Grzebelus,E., and A. Adamus|Effect of Anti-Mitotic Agents on Development and Genome Doubling of Gynogenic Onion (Allium cepa L.) Embryos|Plant Sci.167(3): 569-574|2004|10.1016/j.plantsci.2004.05.001
114868|T||Cousson,A.|Pharmacological Evidence for a Putative Mediation of Cyclic GMP and Cytosolic Ca2+ Within Auxin-Induced de novo Root Formation in the Monocot Plant Commelina communis (L.)|Plant Sci.166(5): 1117-1124|2004|10.1016/j.plantsci.2003.09.007
114869|T||Sharma,S.S., S. Kaul, A. Metwally, K.C. Goyal, I. Finkemeier, and K.J. Dietz|Cadmium Toxicity to Barley (Hordeum vulgare) as Affected by Varying Fe Nutritional Status|Plant Sci.166(5): 1287-1295|2004|10.1016/j.plantsci.2004.01.006
114870|T||Mittra,B., P. Ghosh, S.L. Henry, J. Mishra, T.K. Das, S. Ghosh, C.R. Babu, and P. Mohanty|Novel Mode of Resistance to Fusarium Infection by a Mild Dose Pre-Exposure of Cadmium in Wheat|Plant Physiol. Biochem.42(10): 781-787|2004|10.1016/j.plaphy.2004.09.005
114871|A||Harada,E., E. Roepenack-Lahaye, and S. Clemens|A Cyanobacterial Protein with Similarity to Phytochelatin Synthases Catalyzes the Conversion of Glutathione to gamma-Glutamylcysteine and Lacks Phytochelatin Synthase Activity|Phytochemistry65(24): 3179-3185|2004|10.1016/j.phytochem.2004.09.017
114872|T||Haidar,M.A., M.M. Sidahmed, R. Darwish, and A. Lafta|Selective Control of Orobanche ramosa in Potato with Rimsulfuron and Sub-Lethal Doses of Glyphosate|Crop Prot.24(8): 743-747|2005|10.1016/j.cropro.2005.01.005
114873|T||Grichar,W.J., and B.W. Minton|Supplementary Weed Control Using Soil-Applied Herbicides in Glyphosate-Resistant Maize in Texas|Crop Prot.25(10): 1071-1074|2006|10.1016/j.cropro.2006.02.003
114874|T||Talebi,K., and A.H. Ghazizadeh|Determination of Pymetrozine Residues in Cucumber|Commun. Agric. Appl. Biol. Sci.71(2a): 75-78|2006|
114875|A||Palaniappan,P.R., S. Sabhanayakam, N. Krishnakumar, and M. Vadivelu|Morphological Changes Due to Lead Exposure and the Influence of DMSA on the Gill Tissues of the Freshwater Fish, Catla catla|Food Chem. Toxicol.46(7): 2440-2444|2008|10.1016/j.fct.2008.03.028
114876|T||Grekul,C.W., and E.W. Bork|Fertilization Augments Canada Thistle (Cirsium arvense L. Scop) Control in Temperate Pastures with Herbicides|Crop Prot.26(4): 668-676|2007|10.1016/j.cropro.2006.06.005
114877|A||Saucier,D., A.K. Julliard, G. Monod, H. De Brechard, and L. Astic|CYP1A1 Immunolocalization in the Olfactory Organ of Rainbow Trout and its Possible Induction by Beta -naphthoflavone: Analysis in Adults and Embryos Around Hatching|Fish Physiol. Biochem.21(2): 179-192|1999|10.1023/A:1007754421267
114878|A||Wu,C., L. Wang, C. Liu, F. Gao, M. Su, X. Wu, and F. Hong|Mechanism of Cd2+ on DNA Cleavage and Ca2+ on DNA Repair in Liver of Silver Crucian Carp|Fish Physiol. Biochem.34(1): 43-51|2008|10.1007/s10695-007-9144-7
114879|T||Bork,E.W., C.W. Grekul, and S.L. DeBruijn|Extended Pasture Forage Sward Responses to Canada Thistle (Cirsium arvense) Control Using Herbicides and Fertilization|Crop Prot.26(10): 1546-1555|2007|10.1016/j.cropro.2007.01.002
114881|T||Vennard,C., B. Nguama, R.J. Dillon, H. Oouchi, and A.K. Charnley|Effects of the Juvenile Hormone Mimic Pyriproxyfen on Egg Development, Embryogenesis, Larval Development, and Metamorphosis in the Desert Locust Schistocerca gregaria (Orthoptera:  Acrididae)|J. Econ. Entomol.91(1): 41-49|1998|10.1093/jee/91.1.41
114882|A||Hoshina,T., and W. Teshirogi|Formation of Malformed Pharynx and Neoplasia in the Planarian Bdellocephala brunnea Following Treatment with a Carcinogen|Hydrobiologia (Multiple Languages)227:61-70|1991|10.1007/BF00027583
114883|T||Cone,W.W.|Two-Spotted Spider Mite and Hop Aphid Control on Cluster Hops with Acaricides|J. Econ. Entomol.61(6): 1685-1689|1968|10.1093/jee/61.6.1685
114884|T||Cantu,E., and D.A. Wolfenbarger|Toxicity of Three Pyrethroids to Several Insect Pests of Cotton|J. Econ. Entomol.63(4): 1373-1374|1970|10.1093/jee/63.4.1373
114885|T||AliNiazee,M.T., and E.M. Stafford|Management of Grape Pests in Central California Vineyards.  1.  Cultural and Chemical Control of Platynota stultana on Grapes|J. Econ. Entomol.66(1): 154-157|1973|10.1093/jee/66.1.154
114886|T||Cherry,E.T., and C.D. Pless|Effect of Carbofuran and Disulfoton on Parasitism of Tobacco Budworms and Hornworms on Burley Tobacco|J. Econ. Entomol.64(1): 187-190|1971|10.1093/jee/64.1.187
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114891|A||Leoni,B., G. Morabito, M. Rogora, D. Pollastro, R. Mosello, S. Arisci, E. Forasacco, and L. Garibaldi|Response of Planktonic Communities to Calcium Hydroxide Addition in a Hardwater Eutrophic Lake:  Results from a Mesocosm Experiment|Limnology8(2): 121-130|2007|10.1007/s10201-007-0202-8
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114901|T||Barry,B.D.|Evaluation of Chemicals for Control of Slugs on Field Corn in Ohio|J. Econ. Entomol.62(6): 1277-1279|1969|10.1093/jee/62.6.1277
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114912|T||De Groote,H., L. Wangare, and F. Kanampiu|Evaluating the Use of Herbicide-Coated Imidazolinone-Resistant (IR) Maize Seeds to Control Striga in Farmers' Fields in Kenya|Crop Prot.26(10): 1496-1506|2007|10.1016/j.cropro.2006.12.013
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114973|T||Li,J.X., X.E. Yang, Z.L. He, G. Jilani, C.Y. Sun, and S.M. Chen|Fractionation of Lead in Paddy Soils and Its Bioavailability to Rice Plants|Geoderma (Amst.)141(3/4): 174-180|2007|10.1016/j.geoderma.2007.05.006
114974|A||Forbes,V.E., R. Warbritton, J. Aufderheide, N. Van der Hoeven, and N. Caspers|Effects of Bisphenol A on Fecundity, Egg Hatchability, and Juvenile Growth of Marisa cornuarietis|Environ. Toxicol. Chem.27(11): 2332-2340|2008|10.1897/07-622.1
114975|A||Zhang,X., M. Hecker, J.W. Park, A.R. Tompsett, P.D. Jones, J. Newsted, D.W.T. Au, R. Kong, R.S.S. Wu, and J.P. Giesy|Time-Dependent Transcriptional Profiles of Genes of the Hypothalamic-Pituitary-Gonadal Axis in Medaka (Oryzias latipes) Exposed to Fadrozole and 17beta-Trenbolone|Environ. Toxicol. Chem.27(12): 2504-2511|2008|10.1897/08-082.1
114976|A||Ji,K., Y. Kim, S. Oh, B. Ahn, H. Jo, and K. Choi|Toxicity of Perfluorooctane Sulfonic Acid and Perfluorooctanoic Acid on Freshwater Macroinvertebrates (Daphnia magna and Moina macrocopa) and Fish (Oryzias latipes)|Environ. Toxicol. Chem.27(10): 2159-2168|2008|10.1897/07-523.1
114977|A||Ma,W., L. Wang, Y. He, and Y. Yan|Tissue-Specific Cadmium and Metallothionein Levels in Freshwater Crab Sinopotamon henanense During Acute Exposure to Waterborne Cadmium|Environ. Toxicol.23(3): 393-400|2008|10.1002/tox.20339
114978|A||Webb,D., M.M. Gagnon, and T. Rose|Hepatic Metabolism of Contaminants in the Terapontid Fish, Yellowtail Trumpeter (Amniataba caudavittata Richardson)|Environ. Toxicol.23(1): 68-76|2008|10.1002/tox.20307
114979|AT||Mishra,S., S. Srivastava, R.D. Tripathi, S. Dwivedi, and M.K. Shukla|Response of Antioxidant Enzymes in Coontail (Ceratophyllum demersum L.) Plants Under Cadmium Stress|Environ. Toxicol.23(3): 294-301|2008|10.1002/tox.20340
114980|T||Matsumoto,M., T. Furuhashi, C. Poncipe, and M. Ema|Combined Repeated Dose and Reproductive/Developmental Toxicity Screening Test of the Nitrophenolic Herbicide Dinoseb, 2-sec-Butyl-4,6-Dinitrophenol, in Rats|Environ. Toxicol.23(2): 169-183|2008|10.1002/tox.20321
114981|T||Monteiro,M.S., C. Santos, A.M.V.M. Soares, and R.M. Mann|Does Subcellular Distribution in Plants Dictate the Trophic Bioavailability of Cadmium to Porcellio dilatatus (Crustacea, Isopoda)?|Environ. Toxicol. Chem.27(12): 2548-2556|2008|10.1897/08-154.1
114982|T||Grote,K., L. Niemann, B. Selzsam, W. Haider, C. Gericke, M. Herzler, and I. Chahoud|Epoxiconazole Causes Changes in Testicular Histology and Sperm Production in the Japanese Quail (Coturnix coturnix japonica)|Environ. Toxicol. Chem.27(11): 2368-2374|2008|10.1897/08-048.1
114984|T||Hobson,K., R. Armstrong, M. Nicolas, D. Connor, and M. Materne|Response of Lentil (Lens culinaris) Germplasm to High Concentrations of Soil Boron|Euphytica 151(3): 371-382|2006|10.1007/s10681-006-9159-7
114985|T||Peraino,C., R.J.M. Fry, E. Staffeldt, and W.E. Kisieleski|Effects of Varying the Exposure to Phenobarbital on Its Enhancement of 2-Acetylaminofluorene-Induced Hepatic Tumorigenesis in the Rat|Cancer Res.33:2701-2705|1973|
114986|T||Pietra,G., H. Rappaport, P. Shubik, and D. Phil|The Effects of Carcinogenic Chemicals in Newborn Mice|Cancer14(2): 308-317|1961|10.1002/1097-0142(196103/04)14:2<308::AID-CNCR2820140211>3.0.CO;2-N
114987|T||Sanyal,D., D. Chakma, and S. Alam|Persistence of a Neonicotinoid Insecticide, Acetamiprid on Chili (Capsicum annum L.)|Bull. Environ. Contam. Toxicol.81(4): 365-368|2008|10.1007/s00128-008-9479-5
114989|T||Trempus,C.S., R.J. Morris, M. Ehinger, A. Elmore, C.D. Bortner, M. Ito, G. Cotsarelis, J.G.W. Nijhof, J. Peckham, N. Fl|Cd34 Expression by Hair Follicle Stem Cells Is Required for Skin Tumor Development in Mice|Cancer Res.67(9): 4173-4181|2007|10.1158/0008-5472.CAN-06-3128
114990|T||Xu,M., and R.H. Dashwood|Chemoprevention Studies of Heterocyclic Amine-Induced Colon Carcinogenesis|Cancer Lett.143(2): 179-183|1999|10.1016/S0304-3835(99)00121-4
114991|T||Drummond,R.O., S.E. Ernst, J.L. Trevino, W.J. Gladney, and O.H. Graham|Boophilus annulatus and B. microplus:  Sprays and Dips of Insecticides for Control on Cattle|J. Econ. Entomol.65(5): 1354-1357|1972|10.1093/jee/65.5.1354
114992|T||Chisholm,D., and H.B. Specht|Residues and Control of Aphids on Strawberries with Banded Surface Applications of Disulfoton|J. Econ. Entomol.71(3): 469-472|1978|10.1093/jee/71.3.469
114993|A||Metian,M., and M. Warnau|The Tropical Brown Alga Lobophora variegata (Lamouroux) Womersley:  A Prospective Bioindicator for Ag Contamination in Tropical Coastal Waters|Bull. Environ. Contam. Toxicol.81(5): 455-458|2008|10.1007/s00128-008-9513-7
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114997|T||Chatzivasileiadis,E.A., and M.W. Sabelis|Toxicity of Methyl Ketones from Tomato Trichomes to Tetranychus urticae Koch|Exp. Appl. Acarol.21(6-7): 473-484|1997|10.1023/A:1018436113892
114998|T||Chatzivasileiadis,E.A., M.M. Egas, and M.W. Sabelis|Resistance to 2-Tridecanone in Tetranychus urticae:  Effects of Induced Resistance, Cross-Resistance and Heritability|Exp. Appl. Acarol.25(9): 717-730|2001|10.1023/A:1016367602373
114999|T||Herron,G.A., J. Rophail, and L.J. Wilson|Chlorfenapyr Resistance in Two-Spotted Spider Mite (Acari:  Tetranychidae) from Australian Cotton|Exp. Appl. Acarol.34(3/4): 315-321|2004|10.1007/s10493-004-0407-z
115000|T||Li,D., J. Tian, and Z. Shen|Assessment of Sublethal Effects of Clofentezine on Life-Table Parameters in Hawthorn Spider Mite (Tetranychus viennensis)|Exp. Appl. Acarol.38(4): 255-273|2006|10.1007/s10493-006-0016-0
115001|T||Fourie,P.H., and F. Halleen|Chemical and Biological Protection of Grapevine Propagation Material from Trunk Disease Pathogens|Eur. J. Plant Pathol.116(4): 255-265|2006|10.1007/s10658-006-9057-9
115002|T||Ochiai,N., M. Mizuno, N. Mimori, T. Miyake, M. Dekeyser, L.J. Canlas, and M. Takeda|Toxicity of Bifenazate and Its Principal Active Metabolite, Diazene, to Tetranychus urticae and Panonychus citri and Their Relative Toxicity to the Predaceous Mites, Phytoseiulus persimilis and Neoseiulus californicus|Exp. Appl. Acarol.43(3): 181-197|2007|10.1007/s10493-007-9115-9
115003|T||Ismail,M.S.M., M.F.M. Soliman, M.H. El Naggar, and M.M. Ghallab|Acaricidal Activity of Spinosad and Abamectin Against Two-Spotted Spider Mites|Exp. Appl. Acarol.43(2): 129-135|2007|10.1007/s10493-007-9108-8
115004|T||Hubert,J., Z. Munzbergova, M. Nesvorna, P. Poltronieri, and A. Santino|Acaricidal Effects of Natural Six-Carbon and Nine-Carbon Aldehydes on Stored-Product Mites|Exp. Appl. Acarol.44(4): 315-321|2008|10.1007/s10493-008-9146-x
115005|A||Connon,R., H.L. Hooper, R.M. Sibly, F.L. Lim, L.H. Heckmann, D.J. Moore, H. Watanabe, A. Soetaert, K. Cook II, S.J. Mau|Linking Molecular and Population Stress Responses in Daphnia magna Exposed to Cadmium|Environ. Sci. Technol.42(6): 2181-2188|2008|10.1021/es702469b
115006|A||Palace,V.P., K. Pleskach, T. Halldorson, R. Danell, K. Wautier, B. Evans, M. Alaee, C. Marvin, and G.T. Tomy|Biotransformation Enzymes and Thyroid Axis Disruption in Juvenile Rainbow Trout (Oncorhynchus mykiss) Exposed to Hexabromocyclododecane Diastereoisomers|Environ. Sci. Technol.42(6): 1967-1972|2008|10.1021/es702565h
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115010|AT||Georghiou,G.P., R.L. Metcalf, and F.E. Gidden|Carbamate-Resistance in Mosquitos.  Selection of Culex pipiens fatigans Wiedemann (=C. quinquefasciatus Say) for Resistance to Baygon|Bull. W. H. O.35(5): 691-708|1966|
115011|A||Li,J., L. Xue, H. Yan, L. Wang, L. Liu, Y. Lu, and H. Xie|The Nitrate Reductase Gene-Switch:  A System for Regulated Expression in Transformed Cells of Dunaliella salina|Gene403(1-2): 132-142|2007|10.1016/j.gene.2007.08.001
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115013|T||Szczerba,M.W., D.T. Britto, S.A. Ali, K.D. Balkos, and H.J. Kronzucker|NH4+-Stimulated and -Inhibited Components of K+ Transport in Rice (Oryza sativa L.)|J. Exp. Bot.59(12): 3415-3423|2008|10.1093/jxb/ern190
115014|A||Herndon,J., and W.P. Cochlan|Nitrogen Utilization by the Raphidophyte Heterosigma akashiwo:  Growth and Uptake Kinetics in Laboratory Cultures|Harmful Algae6(2): 260-270|2007|10.1016/j.hal.2006.08.006
115016|T||Bialczyk,J., Z. Lechowski, and A. Libik|Early Vegetative Growth of Tomato Plants in Media Containing Nitrogen Source as Nitrate, Ammonium, or Various Nitrate-Ammonium Mixtures with Bicarbonate Addition|J. Plant Nutr.27(10): 1687-1700|2004|10.1081/PLN-200026404
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115018|T||Nathawat,N.S., M.S. Kuhad, C.L. Goswami, A.L. Patel, and R. Kumar|Interactive Effects of Nitrogen Source and Salinity on Growth Indices and Ion Content of Indian Mustard|J. Plant Nutr.30(4): 569-598|2007|10.1080/01904160701209329
115019|A||Jonasson,S., S. Vintila, K. Sivonen, and R. El-Shehawy|Expression of the Nodularin Synthetase Genes in the Baltic Sea Bloom-Former Cyanobacterium Nodularia spumigena Strain AV1|FEMS Microbiol. Ecol.65(1): 31-39|2008|10.1111/j.1574-6941.2008.00499.x
115020|A||Hirano,T., Y. Satoh, A. Ohki, R. Takada, T. Arai, and H. Michiyama|Inhibition of Ammonium Assimilation Restores Elongation of Seminal Rice Roots Repressed by High Levels of Exogenous Ammonium|Physiol. Plant. (Multiple Languages)134(1): 183-190|2008|10.1111/j.1399-3054.2008.01117.x
115021|T||Hoque,M.M., H.A. Ajwa, and R. Smith|Nitrite and Ammonium Toxicity on Lettuce Grown Under Hydroponics|Commun. Soil Sci. Plant Anal.39(1): 207-216|2008|
115022|T||Singh,R., S.K. Bhadra, M. Singh, and M.L. Dixit|Effect of Applied Phosphorus on Yield, Elemental Composition and Establishment of Its Critical Limit for Wheat|Ann. Agri Bio Res.9(1): 107-111|2004|
115023|T||Rogalla,H., and V. Romheld|Role of Leaf Apoplast in Silicon-Mediated Manganese Tolerance of Cucumis sativus L.|Plant Cell Environ.25(4): 549-555|2002|10.1046/j.1365-3040.2002.00835.x
115025|T||Lin,S., J. Li, B. Sattelmacher, and H. Bruck|Response of Lowland and Aerobic Rice to Ammonium and Nitrate Supply During Early Growth Stages|J. Plant Nutr.28(9): 1495-1510|2005|10.1080/01904160500201394
115026|A||Shilo,M.|Control of the Phytoflagellate Prymnesium parvum|Verh. Int. Ver. Theor. Angew. Limnol.12:233-240|1955|
115027|T||Guo,S., K. Schinner, B. Sattelmacher, and U.P. Hansen|Different Apparent CO2 Compensation Points in Nitrate- and Ammonium-Grown Phaseolus vulgaris and the Relationship to Non-Photorespiratory CO2 Evolution|Physiol. Plant. (Multiple Languages)123(3): 288-301|2005|10.1111/j.1399-3054.2005.00467.x
115028|T||Morita,A., R. Suzuki, and H. Yokota|Effect of Ammonium Application on the Oxalate Content of Tea Plants (Camellia sinensis L.)|Soil Sci. Plant Nutr.50(5): 763-769|2004|10.1080/00380768.2004.10408533
115029|T||Rodrigues,F.A., W.M. Jurick II, L.E. Datnoff, J.B. Jones, and J.A. Rollins|Silicon Influences Cytological and Molecular Events in Compatible and Incompatible Rice-Magnaporthe grisea Interactions|Physiol. Mol. Plant Pathol.66(4): 144-159|2005|10.1016/j.pmpp.2005.06.002
115030|T||Rivero,R.M., J.M. Ruiz, and L.M. Romero|Importance of N Source on Heat Stress Tolerance Due to the Accumulation of Proline and Quaternary Ammonium Compounds in Tomato Plants|Plant Biol.6(6): 702-707|2004|10.1055/s-2004-821293
115031|T||Malhi,S.S., R. Lemke, S.P. Mooleki, J.J. Schoenau, S. Brandt, G. Lafond, H. Wang, G.E. Hultgreen, and W.E. May|Fertilizer N Management and P Placement Effects on Yield, Seed Protein Content and N Uptake of Flax Under Varied Conditions in Saskatchewan|Can. J. Plant Sci.88(1): 11-33|2008|10.4141/CJPS07042
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115033|T||Amoco Corp.|Initial Submission:  Letter Submitting Preliminary Information from a Pilot Developmental Toxicity Study on Methanol with Attachment|EPA/OTS Doc.#88-920000356:8 p.|1991|
115034|A||ARCO Chemical Co.|Four-Day Static Aquatic Toxicity Studies with Acetone, Ethanol, Isopropanol and Methanol in Fathead Minnows with Cover Letter Dated 021287|EPA/OTS Doc.#86870000096:39 p.|1987|
115035|T||Lin,D., and B. Xing|Root Uptake and Phytotoxicity of ZnO Nanoparticles|Environ. Sci. Technol.42(15): 5580-5585|2008|10.1021/es800422x
115036|T||Huang,Z.C., T.B. Chen, M. Lei, Y.R. Liu, and T.D. Hu|Difference of Toxicity and Accumulation of Methylated and Inorganic Arsenic in Arsenic-Hyperaccumulating and -Hypertolerant Plants|Environ. Sci. Technol.42(14): 5106-5111|2008|10.1021/es703243h
115037|T||Huang,D.L., G.M. Zeng, C.L. Feng, S. Hu, X.Y. Jiang, L. Tang, F.F. Su, Y. Zhang, W. Zeng, and H.L. Liu|Degradation of Lead-Contaminated Lignocellulosic Waste by Phanerochaete chrysosporium and the Reduction of Lead Toxicity|Environ. Sci. Technol.42(13): 4946-4951|2008|10.1021/es800072c
115038|T||Paumen,M.L., E. Steenbergen, M.H.S. Kraak, N.M. Van Straalen, and C.A.M. Van Gestel|Multigeneration Exposure of the Springtail Folsomia candida to Phenanthrone:  From Dose-Response Relationships to Threshold Concentrations|Environ. Sci. Technol.42(18): 6985-9690|2008|10.1021/es8007744
115039|T||Paumen,M.L., P. Stol, T.L. Ter Laak, M.H.S. Kraak, C.A.M. Van Gestel, and W. Admiraal|Chronic Exposure of the Oligochaete Lumbriculus variegatus to Polycyclic Aromatic Compounds (PACs):  Bioavailability and Effects on Reproduction|Environ. Sci. Technol.42(9): 3434-3440|2008|10.1021/es702500t
115040|T||Nota,B., M.J.T.N. Timmermans, O. Franken, K. Montagne-Wajer, J. Marien, M.E. De Boer, T.E. De Boer, B. Ylstra, N.M. Van|Gene Expression Analysis of Collembola in Cadmium Containing Soil|Environ. Sci. Technol.42(21): 8152-8157|2008|10.1021/es801472r
115041|T||Oorts,K., E. Smolders, F. Degryse, J. Buekers, G. Gasco, G. Cornelis, and J. Mertens|Solubility and Toxicity of Antimony Trioxide (Sb2O3) in Soil|Environ. Sci. Technol.42(12): 4378-4383|2008|10.1021/es703061t
115042|A||Ciutat,A., M. Gerino, and A. Boudou|Remobilization and Bioavailability of Cadmium from Historically Contaminated Sediments:  Influence of Bioturbation by Tubificids|Ecotoxicol. Environ. Saf.68(1): 108-117|2007|10.1016/j.ecoenv.2006.06.011
115043|T||Lee,C.H., Y. Ito, Y. Yanagiba, O. Yamanoshita, H. Kim, S.Y. Zhang, M. Kamijima, F.J. Gonzalez, and T. Nakajima|Pyrene-Induced CYP1A2 and SULT1A1 may be Regulated by CAR and Not by AhR|Toxicology238(2-3): 147-156|2007|10.1016/j.tox.2007.05.026
115045|T||Saradha,B., S. Vaithinathan, and P.P. Mathur|Lindane Alters the Levels of HSP70 and Clusterin in Adult Rat Testis|Toxicology243(1-2): 116-123|2008|10.1016/j.tox.2007.09.029
115046|T||Lewis Ivey,M.L., C. Nava-Diaz, and S.A. Miller|Identification and Management of Colletotrichum acutatum on Immature Bell Peppers|Plant Dis.88(11): 1198-1204|2004|10.1094/PDIS.2004.88.11.1198
115047|T||Hubbard,J.C., K.V. Subbarao, and S.T. Koike|Development and Significance of Dicarboximide Resistance in Sclerotinia minor Isolates from Commercial Lettuce Fields in California|Plant Dis.81(2): 148-153|1997|10.1094/PDIS.1997.81.2.148
115048|T||Freeman,J.L., D. Garcia, D. Kim, A. Hopf, and D.E. Salt|Constitutively Elevated Salicylic Acid Signals Glutathione-Mediated Nickel Tolerance in Thlaspi Nickel Hyperaccumulators|Plant Physiol.137:1082-1091|2005|10.1104/pp.104.055293
115049|T||Freeman,S., Y. Nizani, S. Dotan, S. Even, and T. Sando|Control of Colletotrichum acutatum in Strawberry Under Laboratory, Greenhouse, and Field Conditions|Plant Dis.81(7): 749-752|1997|10.1094/PDIS.1997.81.7.749
115050|T||Ellis,M.A., D.C. Ferree, R.C. Funt, and L.V. Madden|Effects of an Apple Scab-Resistant Cultivar on Use Patterns of Inorganic and Organic Fungicides and Economics of Disease Control|Plant Dis.82(4): 428-433|1998|10.1094/PDIS.1998.82.4.428
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115054|T||Longnecker,N., and R.M. Welch|Accumulation of Apoplastic Iron in Plant Roots|Plant Physiol.92:17-22|1990|10.1104/pp.92.1.17
115056|T||Pillinger,C., N. Paveley, M.J. Foulkes, and J. Spink|Explaining Variation in the Effects of Take-All (Gaeumannomyces Graminis Var. Tritici) on Nitrogen and Water Uptake by Winter Wheat|Plant Pathol.54(4): 491-501|2005|10.1111/j.1365-3059.2005.01229.x
115057|T||Schluepmann,H., A. Van Dijken, M. Aghdasi, B. Wobbes, M. Paul, and S. Smeekens|Trehalose Mediated Growth Inhibition of Arabidopsis Seedlings is Due to Trehalose-6-Phosphate Accumulation|Plant Physiol.135(2): 879-890|2004|10.1104/pp.104.039503
115058|T||Vander,P., K.M. Varum, A. Domard, N.E. El Gueddari, and B.M. Moerschbacher|Comparison of the Ability of Partially N-Acetylated Chitosans and Chitooligosaccharides to Elicit Resistance Reactions in Wheat Leaves|Plant Physiol.118:1353-1359|1998|10.1104/pp.118.4.1353
115059|T||Ward,J.M.J., M.D. Laing, and F.H.J. Rijkenberg|Frequency and Timing of Fungicide Applications for the Control of Gray Leaf Spot in Maize|Plant Dis.81(1): 41-48|1997|10.1094/PDIS.1997.81.1.41
115060|T||Grote,K., C. Hobler, A.J.M. Andrade, S.W. Grande, C. Gericke, C.E. Talsness, K.E. Appel, and I. Chahoud|Effects of In Utero and Lactational Exposure to Triphenyltin Chloride on Pregnancy Outcome and Postnatal Development in Rat Offspring|Toxicology238(2-3): 177-185|2007|10.1016/j.tox.2007.05.033
115062|T||Hisatomi,A., S. Sakuma, M. Fujiwara, and J. Seki|Effect of Tacrolimus on the Cauda Epididymis in Rats:  Analysis of Epididymal Biochemical Markers or Antioxidant Defense Enzymes|Toxicology243(1-2): 23-30|2008|10.1016/j.tox.2007.09.017
115064|T||Kassa,J., J. Karasova, K. Musilek, and K. Kuca|An Evaluation of Therapeutic and Reactivating Effects of Newly Developed Oximes (K156, K203) and Commonly Used Oximes (Obidoxime, Trimedoxime, HI-6) in Tabun-Poisoned Rats and Mice|Toxicology243(3): 311-316|2008|10.1016/j.tox.2007.10.015
115065|T||Job,A., V. Baille, F. Dorandeu, B. Pouyatos, A. Foquin, C. Delacour, J. Denis, and P. Carpentier|Distortion Product Otoacoustic Emissions as Non-Invasive Biomarkers and Predictors of Soman-Induced Central Neurotoxicity:  A Preliminary Study|Toxicology238(2-3): 119-129|2007|10.1016/j.tox.2007.05.024
115066|T||Kato,M., T. Aoki, M. Tamanaka, H. Hattori, and K. Furuhama|Investigation of Post-weaning Changes in Immunological Parameters in Male Rats|Toxicology232(1-2): 119-131|2007|10.1016/j.tox.2006.12.016
115067|T||Kondraganti,S.R., W. Jiang, A.K. Jaiswal, and B. Moorthy|Persistent Induction of Hepatic and Pulmonary Phase II Enzymes by 3-Methylcholanthrene in Rats|Toxicol. Sci.102(2): 337-344|2008|10.1093/toxsci/kfn007
115068|T||Kronman,C., O. Cohen, L. Raveh, O. Mazor, A. Ordentlich, and A. Shafferman|Polyethylene-Glycol Conjugated Recombinant Human Acetylcholinesterase Serves as an Efficacious Bioscavenger Against Soman Intoxication|Toxicology233(1-3): 40-46|2007|10.1016/j.tox.2006.08.036
115070|T||Liu,L.L., Q.X. Li, L. Xia, J. Li, and L. Shao|Differential Effects of Dihydropyridine Calcium Antagonists on Doxorubicin-Induced Nephrotoxicity in Rats|Toxicology231(1): 81-90|2007|10.1016/j.tox.2006.11.067
115071|T||Yamano,T., M. Ichihara, M. Shimizu, T. Noda, and Y. Tsujimoto|Immunomodulatory Effects of Mono-, di-, and Trimethylphenols in Mice|Toxicology232(1-2): 132-137|2007|10.1016/j.tox.2006.12.021
115072|A||Sayrs,R.L.,Jr.|Lethal and Sublethal Effects of Cadmium on Daphnia (Crustacea: Cladocera)|M.S.Thesis, University of Tennessee, Knoxville, TN:54 p.|1975|
115073|T||Kabir,S.M.H., and A.K.M.M. Rahman|Field Tests of Insecticides Against the Eggplant Pest Complex|J. Econ. Entomol.64(3): 758-759|1971|10.1093/jee/64.3.758
115074|T||Waisberg,M., W.D. Black, D.Y. Chan, and B.A. Hale|The Effect of Pharmacologically Altered Gastric pH on Cadmium Absorption from the Diet and Its Accumulation in Murine Tissues|Food Chem. Toxicol.43(5): 775-782|2005|10.1016/j.fct.2005.01.018
115076|T||Tuomela,M., K.T. Steffen, E. Kerko, H. Hartikainen, M. Hofrichter, and A. Hatakka|Influence of Pb Contamination in Boreal Forest Soil on the Growth and Ligninolytic Activity of Litter-Decomposing Fungi|FEMS Microbiol. Ecol.53(1): 179-186|2005|10.1016/j.femsec.2004.11.008
115077|T||Topping,D.C., L.G. Bernard, J.L. O'Donoghue, and J.C. English|Hydroquinone:  Acute and Subchronic Toxicity Studies with Emphasis on Neurobehavioral and Nephrotoxic Effects|Food Chem. Toxicol.45(1): 70-78|2007|10.1016/j.fct.2006.07.019
115078|T||Tanaka,T.|Reproductive and Neurobehavioural Toxicity Study of Ponceau 4R Administered to Mice in the Diet|Food Chem. Toxicol.44(10): 1651-1658|2006|10.1016/j.fct.2006.05.001
115079|A||Takahashi,N., D.M. Stresser, D.E. Williams, and G.S. Bailey|Induction of Hepatic CYP1A by Indole-3-Carbinol in Protection Against Aflatoxin B-1 Hepatocarcinogenesis in Rainbow Trout|Food Chem. Toxicol.33(10): 841-850|1995|10.1016/0278-6915(95)00055-7
115080|T||Morris,D.F., T.A. Marks, and G.M. Mesfin|Effects of Losulazine on Rat Reproduction and Development|Fundam. Appl. Toxicol.9:573-587|1987|10.1016/0272-0590(87)90038-8
115081|T||Nabae,K., S.M. Hayashi, M. Kawabe, T. Ichihara, A. Hagiwara, S. Tamano, Y. Tsushima, K. Uchida, T. Koda, M. Nakamura, K|A 90-Day Oral Toxicity Study of Purple Corn Color, a Natural Food Colorant, in F344 Rats|Food Chem. Toxicol.46(2): 774-780|2008|10.1016/j.fct.2007.10.004
115083|T||Noel,L., T. Guerin, and M. Kolf-Clauw|Subchronic Dietary Exposure of Rats to Cadmium Alters the Metabolism of Metals Essential to Bone Health|Food Chem. Toxicol.42(8): 1203-1210|2004|10.1016/j.fct.2004.02.017
115084|T||Olykan,S.T., J. Xue, P.W. Clinton, M.F. Skinner, D.J. Graham, and A.C. Leckie|Effect of Boron Fertiliser, Weed Control and Genotype on Foliar Nutrients and Tree Growth of Juvenile Pinus radiata at Two Contrasting Sites in New Zealand|For. Ecol. Manag.255(3-4): 1196-1209|2008|10.1016/j.foreco.2007.10.025
115086|A||Remyla,S.R., M. Ramesh, K.S. Sajwan, and K. Senthil Kumar|Influence of Zinc on Cadmium Induced Haematological and Biochemical Responses in a Freshwater Teleost Fish Catla catla|Fish Physiol. Biochem.34(2): 169-174|2008|10.1007/s10695-007-9157-2
115087|A||Simonich,M.T., T. McQuistan, C. Jubert, C. Pereira, J.D. Hendricks, M. Schimerlik, B. Zhu, R.H. Dashwood, D.E. Williams|Low-Dose Dietary Chlorophyll Inhibits Multi-organ Carcinogenesis in the Rainbow Trout|Food Chem. Toxicol.46(3): 1014-1024|2008|10.1016/j.fct.2007.10.034
115088|T||Stangherlin,E.C., A.M. Favero, S.N. Weis, G. Zeni, J.B.T. Rocha, and C.W. Nogueira|Assessment of Reproductive Toxicity in Male Rats Following Acute and Sub-Chronic Exposures to Diphenyl Diselenide and Diphenyl Ditelluride|Food Chem. Toxicol.44(5): 662-669|2006|10.1016/j.fct.2005.09.006
115090|T||Szczerbina,T., Z. Banach, G. Tylko, and E. Pyza|Toxic Effects of Acrylamide on Survival, Development and Haemocytes of Musca domestica|Food Chem. Toxicol.46(7): 2316-2319|2008|10.1016/j.fct.2008.02.019
115092|T||Xu,J., L.J. Lian, C. Wu, X.F. Wang, W.Y. Fu, and L.H. Xu|Lead Induces Oxidative Stress, DNA Damage and Alteration of p53, Bax and Bcl-2 Expressions in Mice|Food Chem. Toxicol.46(5): 1488-1494|2008|10.1016/j.fct.2007.12.016
115093|A||Zurita,J.L., A. Jos, A. Del Peso, M. Salguero, M. Lopez-Artiguez, and G. Repetto|Ecotoxicological Assessment of Bromobenzene Using a Test Battery with Five Model Systems|Food Chem. Toxicol.45(4): 575-584|2007|10.1016/j.fct.2006.10.006
115094|T||Yokohira,M., K. Hosokawa, K. Yamakawa, N. Hashimoto, S. Suzuki, Y. Matsuda, K. Saoo, T. Kuno, and K. Imaida|A 90-Day Toxicity Study of L-Asparagine, a Food Additive, in F344 Rats|Food Chem. Toxicol.46(7): 2568-2572|2008|10.1016/j.fct.2008.04.014
115095|A||Klaper,R., B.J. Carter, C.A. Richter, P.E. Drevnick, M.B. Sandheinrich, and D.E. Tillitt|Use of a 15 K Gene Microarray to Determine Gene Expression Changes in Response to Acute and Chronic Methylmercury Exposure in the Fathead Minnow Pimephales promelas Rafinesque|J. Fish Biol.72(9): 2207-2280|2008|10.1111/j.1095-8649.2008.01899.x
115096|A||Naddafi,K., R. Nabizadeh, and A. Baiggi|Bioassay of Methyl Tertiary-Butyl Ether (MTBE) Toxicity on Rainbow Trout Fish|J. Hazard. Mater.154(1-3): 403-406|2008|10.1016/j.jhazmat.2007.10.049
115097|A||Lewis,C., G.S. Caldwell, M.G. Bentley, and P.J.W. Olive|Effects of a Bioactive Diatom-Derived Aldehyde on Developmental Stability in Nereis virens (Sars) Larvae:  An Analysis Using Fluctuating Asymmetry|J. Exp. Mar. Biol. Ecol.304:1-16|2004|10.1016/j.jembe.2003.11.018
115099|T||Masuda,D., M. Ishida, K. Yamaguchi, I. Yamaguchi, M. Kimura, and T. Nishiuchi|Phytotoxic Effects of Trichothecenes on the Growth and Morphology of Arabidopsis thaliana|J. Exp. Bot.58(7): 1617-1626|2007|10.1093/jxb/erl298
115100|A||Tokumoto,T., K. Ishikawa, T. Furusawa, S. Ii, K. Hachisuka, M. Tokumoto, H.J. Tsai, S. Uchida, and A. Maezawa|Sonophotocatalysis of Endocrine-Disrupting Chemicals|Mar. Environ. Res.66(3): 372-377|2008|10.1016/j.marenvres.2008.05.011
115101|T||Poienaru,S., N. Sarpe, and M. Maschio|The Economical Efficiency of Classic and No-Tillage System at Genetical Modified Soybean in Conditions of Romania|Commun. Agric. Appl. Biol. Sci.71(2a): 209-214|2006|
115102|T||Miao,S., Z. Gao, Z. Kou, G. Xu, C. Su, and N. Liu|Influence of Bisphenol A on Developing Rat Estrogen Receptors and Some Cytokines in Rats:  A Two-Generational Study|J. Toxicol. Environ. Health Part A71(15): 1000-1008|2008|10.1080/15287390801907467
115103|A||Cox,E.F., and S. Ward|Impact of Elevated Ammonium on Reproduction in Two Hawaiian Scleractinian Corals with Different Life History Patterns|Mar. Pollut. Bull.44:1230-1235|2002|10.1016/S0025-326X(02)00213-8
115104|A||Ip,Y.K., W.L. Tam, W.P. Wong, A.M. Loong, K.C. Hiong, J.S. Ballantyne, and S.F. Chew|A Comparison of the Effects of Environmental Ammonia Exposure on the Asian Freshwater Stingray Himantura signifer and the Amazonian Freshwater Stingray Potamotrygon motoro|J. Exp. Biol.206:3625-3633|2003|10.1242/jeb.00612
115105|A||Florencio,F.J., and J.M. Vega|Regulation of the Assimilation of Nitrate in Chlamydomonas reinhardii|Phytochemistry21(6): 1195-1200|1982|10.1016/0031-9422(82)80110-6
115106|A||Khan,M., and N. Yoshida|Effect of L-Glutamic Acid on the Growth and Ammonium Removal from Ammonium Solution and Natural Wastewater by Chlorella vulgaris NTM06|Bioresour. Technol.99(3): 575-582|2008|10.1016/j.biortech.2006.12.031
115107|A||Alonso,A., and J.A. Camargo|Long-Term Effects of Ammonia on the Behavioral Activity of the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca)|Arch. Environ. Contam. Toxicol.56(4): 796-802|2009|10.1007/s00244-008-9266-7
115109|T||Fandohan,P., B. Gnonlonfin, A. Laleye, J. Gbenou, R. Darboux, and M. Moudachirou|Toxicity and Gastric Tolerance of Essential Oils from Cymbopogon citratus, Ocimum gratissimum and Ocimum basilicum in Wistar Rats|Food Chem. Toxicol.46(7): 2493-2497|2008|10.1016/j.fct.2008.04.006
115111|A||Bhargava,P., A. Kumar, Y. Mishra, and L.C. Rai|Copper Pretreatment Augments Ultraviolet B Toxicity in the Cyanobacterium Anabaena doliolum: a Proteomic Analysis of Cell Death|Funct. Plant Biol.35(5): 360-372|2008|10.1071/FP07267
115112|T||Parthasarathy,N.J., R.S. Kumar, S. Manikandan, and R.S. Devi|Methanol-Induced Oxidative Stress in Rat Lymphoid Organs|J. Occup. Health48(1): 20-27|2006|10.1539/joh.48.20
115113|T||Norgrove,L.|Effects of Different Copper Fungicide Application Rates Upon Earthworm Activity and Impacts on Cocoa Yield Over Four Years|Eur. J. Soil Sci.43:S303 - S310|2007|
115114|T||Repova,A.|Effect of Four Herbicides on the Quantitative Changes in the Micromycete Population of Spruce Forest Soil|Biol. Agric. Hortic.2(3): 205-213|1985|10.1080/01448765.1985.9754433
115115|AT||Clay,S.A., and E.A. Oelke|Basis for Differential Susceptibility of Rice (Oryza sativa), Wild Rice (Zizania palustris), and Giant Burreed (Sparganium eurycarpum) to Bentazon|Weed Sci.36(3): 301-304|1988|10.1017/S0043174500074919
115116|T||Allievi,L., C. Gigliotti, C. Salardi, G. Valsecchi, T. Brusa, and A. Ferrari|Influence of the Herbicide Bentazon on Soil Microbial Community|Microbiol. Res.151(1): 105-111|1996|10.1016/S0944-5013(96)80064-4
115117|T||Mikula,I., J. Pistl, and P. Kacmar|The Immune Response of Sheep to Subclinical Chronic Exposure to the Herbicide Bentazon TP|Vet. Hum. Toxicol.34(6): 507-509|1992|
115118|A||Tolgyessy,P.|The Degradation of Bentazone and Chlorotoluron in Aqueous Solutions by gamma Radiation.  Biodegradability and Toxicity /to Tubifex tubifex/ of Radiolysis Products|J. Radioanal. Nucl. Chem.128(4): 321-329|1988|10.1007/BF02166956
115119|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Mysid Shrimp (Mysidopsis bahia) (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001051s:28 p.|1992|
115120|A||Amoco Corp.|Initial Submission:  96 Hour LC50, Basic Static Test (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001047s:14 p.|1992|
115121|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Silversides (Menidia menidia) Under Static Renewal Conditions (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001049s:25 p.|1992|
115122|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Daphnids (Daphnia magna) (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001044s:27 p.|1992|
115123|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Embryos-Larvae of the Quahog Clam (Mercenaria mercenaria) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001045s:27 p.|1992|
115124|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Rainbow Trout (Salmo gairdneri) Under Static Conditions (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001048s:26 p.|1992|
115125|T||Novakova-Repova,A.|The Growth of Soil Micromycetes in the Media Containing Herbicide Basagran, Labuctril 25 and Oxytril CM|Cesk. Mykol.46(1-2): 86-92|1992|
115126|A||Chien,Y.H., W.M. Ray, and M.C. Lin|An Empirical Model of Ammonia Uptake by Duckweed, Lemna perpusilla|J. Fish. Soc. Taiwan17(4): 289-295|1990|
115127|T||Zhang,J., Y. Xu, X. Wu, and L. Zhu|A Bentazon and Sulfonylurea Sensitive Mutant:  Breeding, Genetics and Potential Application in Seed Production of Hybrid Rice|Theor. Appl. Genet.105(1): 16-22|2002|10.1007/s00122-002-0874-8
115128|T||Begum,M., A.S. Juraimi, S.R.S. Omar, A. Rajan, and M. Azmi|Effect of Herbicides for the Control of Fimbristylis miliacea (L.) Vahl. in Rice|J. Agron.7(3): 251-257|2008|10.3923/ja.2008.251.257
115129|A||Fairchild,J.F., A.L. Allert, J. Mizzi, R. Reisenburg, and B. Wadell|Determination of a Safe Level of Ammonia that is Protective of Juvenile Colorado Pikeminnow in the Upper Colorado River, Utah|Final Report, 1998 Quick Response Program, Columbia Environmental Research Center, U.S.Geological Survey, Columbia, MO:26 p.|1999|
115130|T||Oi,D.H., and R.F.L. Mau|Control of Broad Mites, 1988|Insectic. Acaric. Tests14:134-|1988|10.1093/iat/14.1.134
115131|A||Konig,A., H.W. Pearson, and S.A. Silva|Ammonia Toxicity to Algal Growth in Waste Stabilization Ponds|Water Sci. Technol.19(12): 115-122|1987|10.2166/wst.1987.0135
115132|T||Rieske,L.K., and K.F. Raffa|Use of Ethanol-and Turpentine-Baited Flight Traps to Monitor Pissodes Weevils (Coleoptera:  Curculionidae) in Christmas Tree Plantations|Gt. Lakes Entomol.26(2): 155-160|1993|
115134|T||McLennan,M.W.|Treatment of Induced Urea Toxicity in Sheep|Aust. Vet. J.64(1): 26-28|1987|10.1111/j.1751-0813.1987.tb06054.x
115135|T||Singh,H.N., U.N. Rai, V.V. Rao, and S.N. Bagchi|Evidence for Ammonia as an Inhibitor of Heterocyst and Nitrogenase Formation in the Cyanobacterium Anabaena cycadeae|Biochem. Biophys. Res. Commun.111(1): 180-187|1983|10.1016/S0006-291X(83)80133-8
115136|T||Bollman,M.I., and J.K. Vessey|Differential Effects of Nitrate and Ammonium Supply on Nodule Initiation, Development, and Distribution on Roots of Pea (Pisum sativum)|Can. J. Bot.84(6): 893-903|2006|10.1139/b06-027
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115138|T||Bashan,Y., Y. Okon, and Y. Henis|Ammonia Causes Necrosis in Tomato Leaves Infected with Pseudomonas tomato (Okabe) Alstatt|Physiol. Plant Pathol.17(1): 111-119|1980|10.1016/0048-4059(80)90012-0
115139|T||Wilhelmson,A., S.T. Hakkinen, P.T. Kallio, K.M. Oksman-Caldentey, and A.M. Nuutila|Heterologous Expression of Vitreoscilla Hemoglobin (VHb) and Cultivation Conditions Affect the Alkaloid Profile of Hyoscyamus muticus Hairy Roots|Biotechnol. Prog.22(2): 350-358|2006|10.1021/bp050322c
115140|T||Cernakova,M., M. Kurucova, and D. Fuchsova|Effect of the Herbicide Bentanex on Soil Microorganisms and Their Activity|Folia Microbiol. (Prague)36(6): 561-566|1991|10.1007/BF02884037
115141|T||Bowman,J.E., G.L. Hartman, R.D. McClary, J.B. Sinclair, J.W. Hummel, and L.M. Wax|Effect of Row Spacing, Tillage and Herbicides on Seed Quality in Rotated and Continuous Soybeans|Seed Sci. Technol.17(3): 531-542|1989|
115142|AT||Ruiz-Santaella,J.P., Y. Bakkaliu, M.D. Osuna, and R. De Prado|Evaluation of Resistance in Cyperus difformis Populations to ALS Inhibiting Herbicides|Commun. Agric. Appl. Biol. Sci.69(3): 91-96|2004|
115143|T||Protopopoff,N., K. Verhaeghen, W. Van Bortel, P. Roelants, T. Marcotty, D. Baza, U. D'Alessandro, and M. Coosemans|A Significant Increase in kdr in Anopheles gambiae is Associated with an Intensive Vector Control Intervention in Burundi Highlands|Trop. Med. Int. Health13(12): 1479-1487|2008|10.1111/j.1365-3156.2008.02164.x
115144|T||Ebert,D.|Differences in Uptake of Bound Residues of Bentazon, a Herbicide, by Two Different Earthworm Species, Eisenia foetida (Sav.) and Lumbricus rubellus (Hoffm.)|Soil Biol. Biochem.24(12): 1715-1718|1992|10.1016/0038-0717(92)90175-W
115145|T||Kumar,A., B.N. Kaiser, M.Y. Siddiqi, and A.D.M. Glass|Functional Characterisation of OsAMT1.1 Overexpression Lines of Rice, Oryza sativa|Funct. Plant Biol.33(4): 339-346|2006|10.1071/FP05268
115146|A||Bagchi,S.N., E.K. Pistorius, and K.P. Michel|A Synechococcus sp. PCC 7942 Mutant with a Higher Tolerance Towards Bentazone|Photosynth. Res. (Dordr., Online)75(2): 171-182|2003|10.1023/A:1022836218176
115147|AT||Samoylenko,V., D.C. Dunbar, M.A. Gafur, S.I. Khan, S.A. Ross, J.S. Mossa, F.S. El-Feraly, B.L. Tekwani, J. Bosselaers, |Antiparasitic, Nematicidal and Antifouling Constituents from Juniperus Berries|PTR. Phytother.Res.22(12): 1570-1576|2008|10.1002/ptr.2460
115148|T||Rao,S.R., and T.R. Harger|Mefluidide-Bentazon Interactions on Soybeans (Glycine max) and Red Rice (Oryza sativa)|Weed Sci.29(2): 208-212|1981|10.1017/S0043174500061816
115149|T||Rao,S.R.|Interactions of Mefluidide and Bentazon on Red Rice (Oryza sativa L.)|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:192 p.|1981|
115150|T||Zanne,A.E., S.S. Lower, Z.G. Cardon, and C.M. Orians|15N Partitioning in Tomato: Vascular Constraints Versus Tissue Demand|Funct. Plant Biol.33(5): 457-464|2006|10.1071/FP05299
115151|T||Kochhar,S., and V.K. Kochhar|Expression of Antioxidant Enzymes and Heat Shock Proteins in Relation to Combined Stress of Cadmium and Heat in Vigna mungo Seedlings|Plant Sci.168(4): 921-929|2005|10.1016/j.plantsci.2004.11.013
115152|T||Karami,O., A. Deljou, M. Esna-Ashari, and P. Ostad-Ahmadi|Effect of Sucrose Concentrations on Somatic Embryogenesis in Carnation (Dianthus caryophyllus L.)|Sci. Hortic.110(4): 340-344|2006|10.1016/j.scienta.2006.07.029
115153|T||Jacober,P., H. Ochs, P.R. Torgerson, M. Schnyder, and P. Deplazes|A Method for Sheep Scab Control by Applying Selective Treatment Based on Flock Serology|Vet. Parasitol.136(3-4): 373-378|2006|10.1016/j.vetpar.2005.11.002
115154|T||Janoudi,A., and J.A. Flore|Application of Ammonium Thiosulfate for Blossom Thinning in Apples|Sci. Hortic.104(2): 161-168|2005|10.1016/j.scienta.2004.08.016
115155|T||Moffett,J.O., and H.L. Morton|How Herbicides Affect Honey Bees|Am. Bee J.115(5): 178 - 179, 200|1975|
115156|T||Ahmad,I., S. Astari, and M. Tan|Resistance of Aedes aegypti (Diptera:  Culicidae) in 2006 to Pyrethroid Insecticides in Indonesia and Its Association with Oxidase and Esterase Levels|Pak. J. Biol. Sci.10(20): 3688-3692|2007|10.3923/pjbs.2007.3688.3692
115157|T||Fedorkov,A.|Effect of Heavy Metal Pollution of Forest Soil on Radial Growth of Scots Pine|For. Pathol.37(2): 136-142|2007|10.1111/j.1439-0329.2007.00499.x
115158|T||Zheng,Y., L. Wang, and M. Dixon|Greenhouse Pepper Growth and Yield Response to Copper Application|Hortscience40(7): 2132-2134|2005|10.21273/HORTSCI.40.7.2132
115159|AT||Naples,J.M., C.J. Shiff, and K.H.A. Rosler|Schistosoma mansoni:  Cercaricidal Effects of Cedarwood Oil and Various of Its Components|J. Trop. Med. Hyg.95(6): 390-396|1992|
115160|T||Robbins,P.S., M.L. Hessney, and C.J. Eckenrode|Onion Maggot Control, 1988|Insectic. Acaric. Tests14:133-|1988|10.1093/iat/14.1.133
115161|A||Amoco Corp.|Initial Submission:  Acute Toxicity of Microbiocide 56 to Bluegill (Lepomis macrochirus) Under Static Conditions (Final Report) with Cover Letter Dated 022592 (Sanitized)|EPA/OTS Doc.#88-920001050s:26 p.|1992|
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115168|T||Palta,J.A., and I.R.P. Fillery|Postanthesis Remobilisation and Losses of Nitrogen in Wheat in Relation to Applied Nitrogen|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:199-201|1993|
115169|T||Yang,X., V. Romheld, and H. Marschner|Effect of Bicarbonate and Root Zone Temperature on Uptake of Zn, Fe, Mn and Cu by Different Rice Cultivars (Oryza sativa L.) Grown in Calcareous Soil|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:657-660|1993|
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115171|T||EPA/OTS|Initial Submission:  Letter from [] to USEPA Reporting Results of Acute Inhalation Study of Oxamyl in Rats, Dated 5/23/1997 (Sanitized)|EPA/OTS Doc.#22970000187S:19 p.|1997|
115172|T||Alia, P.P. Saradhi, and P. Mohanty|Proline in Relation to Free Radical Production in Seedlings of Brassica juncea Raised Under Sodium Chloride Stress|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:731-734|1993|
115173|T||Oertli,J.J.|The Mobility of Boron in Plants|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:393-396|1993|
115174|T||Garnett,T.P., M.A. Tester, and R.O. Nable|The Control of Boron Accumulation by Two Genotypes of Wheat|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:397-400|1993|
115175|T||Dowling,C.W.|Tolerance of Ten Crop Species to Atmospheric Ammonia During Seed Germination, Radicle and Coleoptile Growth|In: N.J.Barrow (Ed.), Plant Nutrition - From Genetic Engineering to Field Practice, The Netherlands:541-544|1993|
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115180|T||Bowman,J.E.|The Effect of Preplant Incorporated Herbicides and Cultural Practices on Soybean Seed Quality and Disease Development|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:146 p.|1984|
115181|T||Bruckart,W.L., D.R. Johnson, and J.R. Frank|Bentazon Reduces Rust-Induced Disease in Yellow Nutsedge, Cyperus esculentus|Weed Technol.2(3): 299-303|1988|10.1017/S0890037X00030633
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115183|A||Lundegardh,B.|Characterization of Three Herbicide-Resistant Strains of the Unicellular Green Alga, Monoraphidium pusillum.  3.  Determination of the Resistance Mechanism by Luminescence|Swed. J. Agric. Res.22(2): 71-76|1992|
115184|T||Baby,U.I., S. Balasubramanian, D. Ajay, and R. Premkumar|Effect of Ergosterol Biosynthesis Inhibitors on Blister Blight Disease, the Tea Plant and Quality of Made Tea|Crop Prot.23(9): 795-800|2004|10.1016/j.cropro.2004.01.001
115185|T||Morrison,J.R., H.A. Sandler, and L.K. Romaneo|Management of Swamp Dodder (Cuscuta gronovii Willd.) in Cranberry may be Enhanced by the Integration of a Nontoxic Household Cleaner|Crop Prot.24(1): 1-6|2005|10.1016/j.cropro.2004.05.013
115186|A||Jadhav,A., M. Hill, and M. Byrne|Identification of a Retardant Dose of Glyphosate with Potential for Integrated Control of Water Hyacinth, Eichhornia crassipes (Mart.) Solms-Laubach|Biol. Control47(2): 154-158|2008|10.1016/j.biocontrol.2008.08.005
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115198|T||Krueger,W.A., W.J. Bo, and P.K. Rudeen|Estrous Cyclicity in Rats Fed an Ethanol Diet for Four Months|Pharmacol. Biochem. Behav.19(4): 583-585|1983|10.1016/0091-3057(83)90331-3
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115210|T||Illanes,J., M. Fuenzalida, S. Romero, P. Gonzalez, and D. Lemus|Ethanol Effect on the Chick Embryo Ossification:  A Macroscopic and Microscopic Study|Biol. Res.32(2-3): 77-84|1999|
115211|T||Chen,H., D. Hayakawa, S. Emura, Y. Ozawa, H. Taguchi, R. Yano, and S. Shoumura|Effects of Ethanol on the Ultrastructure of the Hamster Femur|Histol. Histopathol.16(3): 763-770|2001|
115212|T||Ho,C., N.V. Emanuele, L. Kirsteins, and A.M. Lawrence|In Vivo Studies of Ethanol on Prolactin and Luteinizing Hormone in Rats and Mice|Nucl. Med. Biol.19(7): 737-740|1992|
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115214|A||Fairchild,J.F., A.L. Allert, B.C. Poulton, and R.V. Graham|A Site-Specific Assessment of the Risk of Ammonia to Endangered Colorado Pikeminnow and Razorback Sucker Populations in the Upper Colorado River Adjacent to the Atlas Mill Tailings Pile, Moab,Utah|Final Report, U.S.Fish and Wildl.Serv.Salt Lake City, UT:131 p.|2002|
115215|T||McIntyre,T.A., M.G. Souder, M.W. Hartl, and I.A.,Jr. Shibley|Ethanol-Induced Decrease of Developmental PKC Isoform Expression in the Embryonic Chick Brain|Brain Res. Dev. Brain Res.117(2): 191-197|1999|10.1016/S0165-3806(99)00122-4
115216|T||Spear-Smith,J., J.F. Brien, M. Grafe, R. Allrich, and J.D. Reynolds|Chronic Ethanol Exposure During Late Gestation Produces Behavioral Anomalies in Neonatal Lambs|Neurotoxicol. Teratol.22(2): 205-212|2000|10.1016/S0892-0362(99)00059-8
115217|T||Byrnes,M.L., J.N. Reynolds, and J.F. Brien|Effect of Prenatal Ethanol Exposure During the Brain Growth Spurt of the Guinea Pig|Neurotoxicol. Teratol.23(4): 355-364|2001|10.1016/S0892-0362(01)00150-7
115218|T||Carver,F.M., I.A.,Jr. Shibley, D.S. Miles, J.S. Pennington, and S.N. Pennington|Increased Intracellular Localization of Brain GLUT-1 Transporter in Response to Ethanol During Chick Embryogenesis|Am. J. Physiol. Endocrinol. Metab.277(4, Pt. 1): E750 - E759|1999|10.1152/ajpendo.1999.277.4.E750
115219|T||Miller,R.R.,Jr., J.R. Slathar, and M.L. Luvisotto|alpha-Tocopherol and gamma-Tocopherol Attenuate Ethanol-Induced Changes in Membrane Fatty Acid Composition in Embryonic Chick Brains|Teratology62(1): 26-35|2000|10.1002/1096-9926(200007)62:1<26::AID-TERA7>3.0.CO;2-1
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115222|T||Colon-Parrilla,W.V., and I. Perez-Chiesa|Ethanol Tolerance and Alcohol Dehydrogenase (ADH; EC 1.1.1.1) Activity in Species of the Cardini Group of Drosophila|Biochem. Genet.37(3-4): 95-107|1999|10.1023/A:1018722202488
115223|T||Bartoli,C.G., J.J. Guiamet, and E.R. Montaldi|Ethylene Production and Responses to Exogenous Ethylene in Senescing Petals of Chrysanthemum morifolium RAM cv. Unsei|Plant Sci.124(1): 15-21|1997|10.1016/S0168-9452(97)04582-2
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115225|T||Crofton,K.M.|The Neurobehavioral Toxicology of Pyrethroid Insecticides|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:173 p.|1986|
115226|T||Chaoui,A., M.H. Ghorbal, and E. El Ferjani|Effects of Cadmium-Zinc Interactions on Hydroponically Grown Bean (Phaseolus vulgaris L.)|Plant Sci.126(1): 21-28|1997|10.1016/S0168-9452(97)00090-3
115228|T||Alan,A.R., W. Lim, M.A. Mutschler, and E.D. Earle|Complementary Strategies for Ploidy Manipulations in Gynogenic Onion (Allium cepa L.)|Plant Sci.173(1): 25-31|2007|10.1016/j.plantsci.2007.03.010
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115230|T||English-Loeb,G., A.P. Norton, D.M. Gadoury, R.C. Seem, and W.F. Wilcox|Control of Powdery Mildew in Wild and Cultivated Grapes by a Tydeid Mite|Biol. Control14(2): 97-103|1999|10.1006/bcon.1998.0681
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115232|T||Barzegar,A.R., H. Nadian, F. Heidari, S.J. Herbert, and A.M. Hashemi|Interaction of Soil Compaction, Phosphorus and Zinc on Clover Growth and Accumulation of Phosphorus|Soil Tillage Res.87(2): 155-162|2006|10.1016/j.still.2005.03.004
115233|T||Devine,G.J., D.J. Wright, and I. Denholm|A Parasitic Wasp (Eretmocerus mundus Mercet) Can Exploit Chemically Induced Delays in the Development Rates of Its Whitefly Host (Bemisia tabaci Genn.)|Biol. Control19(1): 64-75|2000|10.1006/bcon.2000.0844
115234|A||Arunyanart,S., and M. Chaitrayagun|Induction of Somatic Embryogenesis in Lotus (Nelumbo nucifera Geartn.)|Sci. Hortic.105(3): 411-420|2005|10.1016/j.scienta.2005.01.034
115235|T||Fravel,D.R.|Interaction of Biocontrol Fungi with Sublethal Rates of Metham Sodium for Control of Verticillium dahliae|Crop Prot.15(2): 115-119|1996|10.1016/0261-2194(95)00059-3
115236|T||Ben Amor,N., K. Ben Hamed, A. Debez, C. Grignon, and C. Abdelly|Physiological and Antioxidant Responses of the Perennial Halophyte Crithmum maritimum to Salinity|Plant Sci.168(4): 889-899|2005|10.1016/j.plantsci.2004.11.002
115237|T||Bai,R.Q., T.K. Schlegel, J. Schonherr, and P.W. Masinde|The Effects of Foliar Applied CaCl2.2H2O, Ca(OH)2 and K2CO3 Combined with the Surfactants Glucopon and Plantacare on Gas Exchange of 1 Year Old Apple (Malus domestica Borkh.) and Broad Bean (Vicia faba L.) Leaves|Sci. Hortic.116(1): 52-57|2008|10.1016/j.scienta.2007.10.026
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115239|T||Al-Khassawneh,N.M., N.S. Karam, and R.A. Shibli|Growth and Flowering of Black Iris (Iris nigricans Dinsm.) Following Treatment with Plant Growth Regulators|Sci. Hortic.107(2): 187-193|2006|10.1016/j.scienta.2005.10.003
115240|T||Figueras-Roca,M., C. Cristani, and G. Vannacci|Sensitivity of Trichoderma Isolates and Selected Resistant Mutants to DMI Fungicides|Crop Prot.15(7): 615-620|1996|10.1016/0261-2194(96)00005-1
115241|T||Beugnet,F., and L. Chardonnet|Tick Resistance to Pyrethroids in New Caledonia|Vet. Parasitol.56(4): 325-338|1995|10.1016/0304-4017(94)00686-7
115242|T||Alves,G.M., L.L. Dal Vesco, and M.P. Guerra|Micropropagation of the Brazilian Endemic Bromeliad Vriesea reitzii Trough Nodule Clusters Culture|Sci. Hortic.110(2): 204-207|2006|10.1016/j.scienta.2006.06.014
115243|T||Asin,L., S. Alegre, and R. Montserrat|Effect of Paclobutrazol, Prohexadione-Ca, Deficit Irrigation, Summer Pruning and Root Pruning on Shoot Growth, Yield, and Return Bloom, in a 'Blanquilla' Pear Orchard|Sci. Hortic.113(2): 142-148|2007|10.1016/j.scienta.2007.02.008
115244|T||Barranco-Medina,S., T. Krell, I. Finkemeier, F. Sevilla, J.J. Lazaro, and K.J. Dietz|Biochemical and Molecular Characterization of the Mitochondrial Peroxiredoxin PsPrxII F from Pisum sativum|Plant Physiol. Biochem.45(10-11): 729-739|2007|10.1016/j.plaphy.2007.07.017
115245|T||Benlloch-Gonzalez,M., J.M. Fournier, J. Ramos, and M. Benlloch|Strategies Underlying Salt Tolerance in Halophytes are Present in Cynara cardunculus|Plant Sci.168(3): 653-659|2005|10.1016/j.plantsci.2004.09.035
115246|T||Geoffriau,E., R. Kahane, C. Bellamy, and M. Rancillac|Ploidy Stability and In Vitro Chromosome Doubling in Gynogenic Clones of Onion (Allium cepa L.)|Plant Sci.122(2): 201-208|1997|10.1016/S0168-9452(96)04556-6
115247|T||Goertz,D., A. Linde, and L.F. Solter|Influence of Dimilin on a Microsporidian Infection in the Gypsy Moth Lymantria dispar (L.) (Lepidoptera: Lymantriidae)|Biol. Control30(3): 624-633|2004|10.1016/j.biocontrol.2004.02.001
115248|T||Baysinger,J.A., H.A. Melouk, and D.S. Murray|Alterations of Leaf Epicuticular Wax of Peanut (Arachis hypogaea) by Applications of Herbicides and Adjuvants|Peanut Sci.27(2): 88-92|2000|10.3146/i0095-3679-27-2-10
115249|T||Croker,S.J., P. Gaskin, M.H. Beale, and J.R. Lenton|ent-3beta-Hydroxykaur-16-ene and ent-17-Hydroxykaur-15-ene in Paclobutrazol-Treated Wheat Seedlings|Phytochemistry39(1): 11-14|1995|10.1016/0031-9422(94)00912-D
115250|T||Gavidia,I., and P. Perez-Bermudez|Digitalis obscura Cardenolides.  Effect of Macronutrient Concentration and N Source on Growth and Productivity of Shoot-Tip Cultures|Phytochemistry46(2): 273-278|1997|10.1016/S0031-9422(97)84641-9
115251|T||Cruz de Carvalho,M.H., B. Van Le, Y. Zuily-Fodil, A.T. Pham Thi, and K.T. Thanh Van|Efficient Whole Plant Regeneration of Common Bean (Phaseolus vulgaris L.) Using Thin-Cell-Layer Culture and Silver Nitrate|Plant Sci.159(2): 223-232|2000|10.1016/S0168-9452(00)00346-0
115252|T||Kimura,K.A., J. Chiu, J.N. Reynolds, and J.F. Brien|Effect of Chronic Prenatal Ethanol Exposure on Nitric Oxide Synthase I and III Proteins in the Hippocampus of the Near-Term Fetal Guinea Pig|Neurotoxicol. Teratol.21(3): 251-259|1999|10.1016/S0892-0362(98)00055-5
115254|T||Nault,B.A., A.G. Taylor, M. Urwiler, T. Rabaey, and W.D. Hutchison|Neonicotinoid Seed Treatments for Managing Potato Leafhopper Infestations in Snap Bean|Crop Prot.23(2): 147-154|2004|10.1016/j.cropro.2003.08.002
115257|T||Lin,C.S., M.J. Cheng, H.W. Hsiao, P.I. Hong, F.Y. Jheng, C.C. Lin, and W.C. Chang|Stamen-Less Inflorescence Proliferation of Bambusa edulis|Sci. Hortic.107(1): 76-80|2005|10.1016/j.scienta.2005.05.013
115258|T||Shivrain,V.K., N.R. Burgos, M.M. Anders, S.N. Rajguru, J. Moore, and M.A. Sales|Gene Flow Between Clearfield Rice and Red Rice|Crop Prot.26(3): 349-356|2007|10.1016/j.cropro.2005.09.019
115259|T||Norsworthy,J.K.|Broadleaved Weed Control in Wide-Row Soybean (Glycine max) Using Conventional and Glyphosate Herbicide Programmes|Crop Prot.23(12): 1229-1235|2004|10.1016/j.cropro.2004.05.007
115260|T||Dixon,F.L., and D.V. Clay|Effect of Herbicides Applied Pre- and Post-Emergence on Forestry Weeds Grown from Seed|Crop Prot.23(8): 713-721|2004|10.1016/j.cropro.2003.12.003
115261|T||Salah,S.A., and S.F. Barrington|Effect of Soil Fertility and Transpiration Rate on Young Wheat Plants (Triticum aestivum) Cd/Zn Uptake and Yield|Agric. Water Manag.82(1-2): 177-192|2006|10.1016/j.agwat.2005.06.002
115262|T||Yu,Y.L., J.L. Wu, M. Stahler, and W. Pestemer|Residual Dynamics of Thiacloprid in Medical Herbs Marjoram, Thyme, and Camomile in Soil|J. Environ. Sci.19(2): 205-209|2007|10.1016/S1001-0742(07)60033-3
115263|AT||Kawahigashi,H., S. Hirose, H. Inui, H. Ohkawa, and Y. Ohkawa|Enhanced Herbicide Cross-Tolerance in Transgenic Rice Plants Co-Expressing Human CYP1A1, CYP2B6, and CYP2C19|Plant Sci.168(3): 773-781|2005|10.1016/j.plantsci.2004.10.014
115264|T||Caldironi,H.A., D.J. Bentivegna, and M.R. Rhea|Irrigation of Pepper Plant (Capsicum sp.) with Water Containing Acrolein|Agric. Water Manag.67(3): 235-240|2004|10.1016/j.agwat.2004.02.006
115265|T||Ganesan,G., H.M. Sankararamasubramanian, J.M. Narayanan, K.R. Sivaprakash, and A. Parida|Transcript Level Characterization of a cDNA Encoding Stress Regulated NAC Transcription Factor in the Mangrove Plant Avicennia marina|Plant Physiol. Biochem.46(10): 928-934|2008|10.1016/j.plaphy.2008.05.002
115266|T||Hancock,J.H., J.B. Wilkerson, F.H. Moody, and M.A. Newman|Seed-Specific Placement of In-Furrow Fungicides for Control of Seedling Disease in Cotton|Crop Prot.23(9): 789-794|2004|10.1016/j.cropro.2003.12.004
115267|T||Mukhopadhyay,M.J., P. Sengupta, S. Mukhopadhyay, and S. Sen|In Vitro Stable Regeneration of Onion and Garlic from Suspension Culture and Chromosomal Instability in Solid Callus Culture|Sci. Hortic.104(1): 1-9|2005|10.1016/j.scienta.2004.09.003
115268|T||Norsworthy,J.K.|Soil-Applied Herbicide Use in Wide- and Narrow-Row Glyphosate-Resistant Soybean (Glycine max)|Crop Prot.23(12): 1237-1244|2004|10.1016/j.cropro.2004.05.008
115269|T||Choi,G.J., S.W. Lee, K.S. Jang, J.S. Kim, K.Y. Cho, and J.C. Kim|Effects of Chrysophanol, Parietin, and Nepodin of Rumex crispus on Barley and Cucumber Powdery Mildews|Crop Prot.23(12): 1215-1221|2004|10.1016/j.cropro.2004.05.005
115270|T||Socha,R.|Endocrine Control of Wing Morph-Related Differences in Mating Success and Accessory Gland Size in Male Firebugs|Anim. Behav.71(6): 1273-1281|2006|10.1016/j.anbehav.2005.07.029
115271|T||Madubanya,L.A., N.P. Makunga, and C.W. Fennell|Dierama luteoalbidum:  Liquid Culture Provides an Efficient System for the Ex Situ Conservation of an Endangered and Horticulturally Valuable Plant|S. Afr. J. Bot.72(4): 584-588|2006|10.1016/j.sajb.2006.04.002
115272|T||Navarro,A., M.J. Sanchez-Blanco, and S. Banon|Influence of Paclobutrazol on Water Consumption and Plant Performance of Arbutus unedo Seedlings|Sci. Hortic.111(2): 133-139|2007|10.1016/j.scienta.2006.10.014
115273|T||Gonzalez,M.C., and F.J. Cejudo|Gibberellin-Regulated Expression of Neutral and Vacuolar Invertase Genes in Petioles of Sugar Beet Plants|Plant Sci.172(4): 839-846|2007|10.1016/j.plantsci.2007.01.001
115274|T||Lebouteiller,B., A. Gousset-Dupont, J.N. Pierre, J. Bleton, A. Tchapla, M. Maucourt, A. Moing, D. Rolin, and J. Vidal|Physiological Impacts of Modulating Phosphoenolpyruvate Carboxylase Levels in Leaves and Seeds of Arabidopsis thaliana|Plant Sci.172(2): 265-272|2007|10.1016/j.plantsci.2006.09.008
115275|T||Zhao,J., D. Zhi, Z. Xue, H. Liu, and G. Xia|Enhanced Salt Tolerance of Transgenic Progeny of Tall Fescue (Festuca arundinacea) Expressing a Vacuolar Na+/H+ Antiporter Gene from Arabidopsis|J. Plant Physiol.164(10): 1377-1385|2007|10.1016/j.jplph.2007.04.001
115276|A||Rigos,G., I. Nengas, and M. Alexis|Oxytetracycline (OTC) Uptake Following Bath Treatment in Gilthead Sea Bream (Sparus aurata)|Aquaculture261(4): 1151-1155|2006|10.1016/j.aquaculture.2006.09.023
115277|A||Goyal,A.|Osmoregulation in Dunaliella, Part I:  Effects of Osmotic Stress on Photosynthesis, Dark Respiration and Glycerol Metabolism in Dunaliella tertiolecta and Its Salt-Sensitive Mutant (HL 25/8)|Plant Physiol. Biochem.45(9): 696-704|2007|10.1016/j.plaphy.2007.05.008
115278|T||Fernandez,J.A., L. Balenzategui, S. Banon, and J.A. Franco|Induction of Drought Tolerance by Paclobutrazol and Irrigation Deficit in Phillyrea angustifolia During the Nursery Period|Sci. Hortic.107(3): 277-283|2006|10.1016/j.scienta.2005.07.008
115279|T||Yu,C.L., S.G. Luo, X.L. Peng, and Y.Y. Liu|Effects of Boron, Zinc, and Iron on the Gentiopicroside Content and Yield of Gentian|Pedosphere16(2): 210-214|2006|10.1016/S1002-0160(06)60045-3
115280|T||Liu,K., S. Xu, W. Xuan, T. Ling, Z. Cao, B. Huang, Y. Sun, L. Fang, Z. Liu, N. Zhao, and W. Shen|Carbon Monoxide Counteracts the Inhibition of Seed Germination and Alleviates Oxidative Damage Caused by Salt Stress in Oryza sativa|Plant Sci.172(3): 544-555|2007|10.1016/j.plantsci.2006.11.007
115281|A||Zhou,X.B., and W.M. Shi|Effect of Root Surface Iron Plaque on Se Translocation and Uptake by Fe-Deficient Rice|Pedosphere17(5): 580-587|2007|10.1016/S1002-0160(07)60068-X
115282|A||Union Carbide Corp.|The Acute Toxicity of Methanol to the Bluegill Sunfish, Lepomis macrochirus Rafinesque with Attachments and Cover Letter Dated 032778|EPA/OTS Doc.#88-7800108:53 p.|2000|
115283|A||Minnesota Mining|96-Hour LC50 Aquatic Test on Fathead Minnows with Cover Letter|EPA/OTS Doc.#878210636:28 p.|1982|
115284|T||Research Triangle Institute|Rat Oral Subchronic Toxicity Study (Draft)|EPA/OTS Doc.#44-8630046:24 p.|1986|
115286|T||Bradow,J.M., and W.J.,Jr. Connick|Seed-Germination Inhibition by Volatile Alcohols and Other Compounds Associated with Amaranthus palmeri Residues|J. Chem. Ecol.14(7): 1633-1648|1988|10.1007/BF01012528
115287|T||Guedes,R.C.A., and S.F. Frade|Effect of Ethanol on Cortical Spreading Depression|Braz. J. Med. Biol. Res.26(11): 1241-1244|1993|
115288|A||Naessens,M., and C. Tran-Minh|Whole-Cell Biosensor for Direct Determination of Solvent Vapours|Biosens. Bioelectron.13(3-4): 341-346|1998|10.1016/S0956-5663(97)00121-8
115289|T||Fuseler,J.W.|Maternal Ethanol Consumption Induces Transient Compensatory Hyperplasia of Developing Cardiac Tissue in the Neonatal Rat|Alcohol Alcohol.28(6): 657-666|1993|
115290|A||Molinia,F.C., and M.A. Swan|Effect of Ethanol and Methanol on the Motility of Saccostrea commercialis Sperm and Sperm Models|Mol. Reprod. Dev.30(3): 241-249|1991|10.1002/mrd.1080300312
115291|T||Brodie,C., and A. Vernadakis|Muscle-Derived Factors Reverse the Cholinotoxic Effects of Ethanol During Early Neuroembryogenesis in the Chick Embryo|Brain Res. Dev. Brain Res.61(2): 183-188|1991|10.1016/0165-3806(91)90130-B
115292|T||Gellert,J., J. Alderman, and C.S. Lieber|Interaction Between Ethanol Metabolism and Mixed-Function Oxidation in Alcohol Dehydrogenase Positive and Negative Deermice|Biochem. Pharmacol.35(6): 1037-1041|1986|10.1016/0006-2952(86)90095-X
115293|A||Damodaran,S., C.A. Dlugos, T.D. Wood, and R.A. Rabin|Effects of Chronic Ethanol Administration on Brain Protein Levels: A Proteomic Investigation Using 2-D DIGE System|Eur. J. Pharmacol.547(1-3): 75-82|2006|10.1016/j.ejphar.2006.08.005
115294|T||Avery,B., and T. Greve|Effects of Ethanol and Dimethylsulphoxide on Nuclear and Cytoplasmic Maturation of Bovine Cumulus-Oocyte Complexes|Mol. Reprod. Dev.55(4): 438-445|2000|10.1002/(SICI)1098-2795(200004)55:4<438::AID-MRD12>3.0.CO;2-Y
115295|A||Clayton,R., and J.J. Woodward|Effects of Ethanol on Three Endogenous Membrane Conductances Present in Xenopus laevis Oocytes|Neurochem. Int.36(1): 67-74|1999|10.1016/S0197-0186(99)00097-2
115296|A||Craig,P.M., C.M. Wood, and G.B. McClelland|Oxidative Stress Response and Gene Expression with Acute Copper Exposure in Zebrafish (Danio rerio)|Am. J. Physiol., Regul. Integr. Comp. Physiol.293:R1882 - R1892|2007|10.1152/ajpregu.00383.2007
115297|A||Atamanalp,M., T. Sisman, F. Geyikoglu, and A. Topal|The Histopathological Effects of Copper Sulphate on Rainbow Trout Liver (Oncorhynchus mykiss)|J. Fish. Aquat. Sci.3(5): 291-297|2008|10.3923/jfas.2008.291.297
115298|A||Gundogdu,A.|Acute Toxicity of Zinc and Copper for Rainbow Trout (Onchorhyncus mykiss)|J. Fish. Sci.2(5): 711-721|2008|
115299|T||Stuckey,J.W., A. Neaman, R. Ravella, S. Komarneni, and C.E. Martinez|Highly Charged Swelling Mica Reduces Cu Bioavailability in Cu-Contaminated Soils|Environ. Pollut.157(1): 12-16|2009|10.1016/j.envpol.2008.09.009
115300|A||Lamelas,C., J.P. Pinheiro, and V.I. Slaveykova|Effect of Humic Acid on Cd(II), Cu(II), and Pb(II) Uptake by Freshwater Algae:  Kinetic and Cell Wall Speciation Considerations|Environ. Sci. Technol.43(3): 730-735|2009|10.1021/es802557r
115301|A||Sabatini,S.E., A.B. Juarez, M.R. Eppis, L. Bianchi, C.M. Luquet, and M.D.C. Rios de Molina|Oxidative Stress and Antioxidant Defenses in Two Green Microalgae Exposed to Copper|Ecotoxicol. Environ. Saf.72(4): 1200-1206|2009|10.1016/j.ecoenv.2009.01.003
115302|A||Rogevich,E.C., T.C. Hoang, and G.M. Rand|Effects of Sublethal Chronic Copper Exposure on the Growth and Reproductive Success of the Florida Apple Snail (Pomacea paludosa)|Arch. Environ. Contam. Toxicol.56(3): 450-458|2009|10.1007/s00244-008-9231-5
115303|A||Johnson,H.L., J.L. Stauber, M.S. Adams, and D.F. Jolley|Copper and Zinc Tolerance of Two Tropical Microalgae After Copper Acclimation|Environ. Toxicol.22(3): 234-244|2007|10.1002/tox.20265
115304|A||Tilton,F., S.C. Tilton, T.K. Bammler, R. Beyer, F. Farin, P.L. Stapleton, and E.P. Gallagher|Transcriptional Biomarkers and Mechanisms of Copper-Induced Olfactory Injury in Zebrafish|Environ. Sci. Technol.42(24): 9404-9411|2008|10.1021/es801636v
115305|T||Wang,X., Y. Ma, L. Hua, and M.J. McLaughlin|Identification of Hydroxyl Copper Toxicity to Barley (Hordeum vulgare) Root Elongation in Solution Culture|Environ. Toxicol. Chem.28(3): 662-667|2009|10.1897/07-641.1
115306|T||Wang,Q.Y., D.M. Zhou, L. Cang, and T.R. Sun|Application of Bioassays to Evaluate a Copper Contaminated Soil Before and After a Pilot-Scale Electrokinetic Remediation|Environ. Pollut.157(2): 410-416|2009|10.1016/j.envpol.2008.09.036
115307|A||Cebrian,E., and M.J. Uriz|Do Heavy Metals Play an Active Role in Sponge Cell Behaviour in the Absence of Calcium? Consequences in Larval Settlement|J. Exp. Mar. Biol. Ecol.346(1-2): 60-65|2007|10.1016/j.jembe.2007.02.010
115308|T||Thiruvengadam,M., S. Varisai Mohamed, C.H. Yang, and N. Jayabalan|Development of an Embryogenic Suspension Culture of Bitter Melon (Momordica charantia L.)|Sci. Hortic.109(2): 123-129|2006|10.1016/j.scienta.2006.03.012
115309|T||Strosse,H., H. Schoofs, B. Panis, E. Andre, K. Reyniers, and R. Swennen|Development of Embryogenic Cell Suspensions from Shoot Meristematic Tissue in Bananas and Plantains (Musa spp.)|Plant Sci.170(1): 104-112|2006|10.1016/j.plantsci.2005.08.007
115310|T||Pridgeon,J.W., R.M. Pereira, J.J. Becnel, S.A. Allan, G.G. Clark, and K.J. Linthicum|Susceptibility of Aedes aegypti, Culex quinquefasciatus Say, and Anopheles quadrimaculatus Say to 19 Pesticides with Different Modes of Action|J. Med. Entomol.45(1): 82-87|2008|
115311|T||Baghestani,M.A., E. Zand, S. Soufizadeh, A. Eskandari, R. PourAzar, M. Veysi, and N. Nassirzadeh|Efficacy Evaluation of Some Dual Purpose Herbicides to Control Weeds in Maize (Zea mays L.)|Crop Prot.26(7): 936-942|2007|10.1016/j.cropro.2006.08.013
115312|T||Ahmad,M., and M.I. Arif|Susceptibility of Pakistani Populations of Cotton Aphid Aphis gossypii (Homoptera:  Aphididae) to Endosulfan, Organophosphorus and Carbamate Insecticides|Crop Prot.27(3-5): 523-531|2008|10.1016/j.cropro.2007.08.006
115313|A||Adams,S.L., P.A. Hessian, and P.V. Mladenov|The Potential for Cryopreserving Larvae of the Sea Urchin, Evechinus chloroticus|Cryobiology52(1): 139-145|2006|10.1016/j.cryobiol.2005.09.003
115315|T||Wang,J., and M.Z. Bao|Plant Regeneration of Pansy (Viola wittrockiana) 'Caidie' via Petiole-Derived Callus|Sci. Hortic.111(3): 266-270|2007|10.1016/j.scienta.2006.10.011
115316|T||Umehara,M., S. Ogita, H. Sasamoto, C.H. Eun, Y. Matsubayashi, Y. Sakagami, and H. Kamada|Two Stimulatory Effects of the Peptidyl Growth Factor Phytosulfokine During Somatic Embryogenesis in Japanese Larch (Larix leptolepis Gordon)|Plant Sci.169(5): 901-907|2005|10.1016/j.plantsci.2005.06.008
115317|T||Thomas,T.D., and E.A. Maseena|Callus Induction and Plant Regeneration in Cardiospermum halicacabum Linn. an Important Medicinal Plant|Sci. Hortic.108(3): 332-336|2006|10.1016/j.scienta.2006.02.008
115318|T||Stefanello,S., L.L.D. Vesco, J.P.H.J. Ducroquet, R.O. Nodari, and M.P. Guerra|Somatic Embryogenesis from Floral Tissues of Feijoa (Feijoa sellowiana Berg)|Sci. Hortic.105(1): 117-126|2005|10.1016/j.scienta.2004.11.006
115319|T||Silva-Ortega,C.O., A.E. Ochoa-Alfaro, J.A. Reyes-Aguero, G.A. Aguado-Santacruz, and J.F. Jimenez-Bremont|Salt Stress Increases the Expression of P5Cs Gene and Induces Proline Accumulation in Cactus Pear|Plant Physiol. Biochem.46(1): 82-92|2008|10.1016/j.plaphy.2007.10.011
115320|T||Singh,V.K., and A.K. Bhattacherjee|Genotypic Response of Mango Yield to Persistence of Paclobutrazol in Soil|Sci. Hortic.106(1): 53-59|2005|10.1016/j.scienta.2005.02.012
115321|T||Lidon,F.C., M.G. Barreiro, and J.C. Ramalho|Manganese Accumulation in Rice:  Implications for Photosynthetic Functioning|J. Plant Physiol.161(11): 1235-1244|2004|10.1016/j.jplph.2004.02.003
115322|T||Jha,A.B., and R.S. Dubey|Carbohydrate Metabolism in Growing Rice Seedlings Under Arsenic Toxicity|J. Plant Physiol.161(7): 867-872|2004|10.1016/j.jplph.2004.01.004
115323|T||Park,J.E., Y.S. Kim, H.K. Yoon, and C.M. Park|Functional Characterization of a Small Auxin-up RNA Gene in Apical Hook Development in Arabidopsis|Plant Sci.172(1): 150-157|2007|10.1016/j.plantsci.2006.08.005
115324|T||Papadakis,I.E., E. Protopapadakis, I.N. Therios, and V. Tsirakoglou|Foliar Treatment of Mn Deficient 'Washington Navel' Orange Trees with Two Mn Sources|Sci. Hortic.106(1): 70-75|2005|10.1016/j.scienta.2005.02.015
115325|T||Zhen,X.H., and Y.Z. Li|Ultrastructural Changes and Location of beta-1,3-Glucanase in Resistant and Susceptible Cotton Callus Cells in Response to Treatment with Toxin of Verticillium dahliae and Salicylic Acid|J. Plant Physiol.161(12): 1367-1377|2004|10.1016/j.jplph.2004.04.007
115326|T||Ohe,M., M. Rapolu, T. Mieda, Y. Miyagawa, Y. Yabuta, K. Yoshimura, and S. Shigeoka|Decline in Leaf Photooxidative-Stress Tolerance with Age in Tobacco|Plant Sci.168(6): 1487-1493|2005|10.1016/j.plantsci.2005.01.020
115327|T||Koh,E.J., W.Y. Song, Y. Lee, K.H. Kim, K. Kim, N. Chung, K.W. Lee, S.W. Hong, and H. Lee|Expression of Yeast Cadmium Factor 1 (YCF1) Confers Salt Tolerance to Arabidopsis thaliana|Plant Sci.170(3): 534-541|2006|10.1016/j.plantsci.2005.10.007
115328|T||Jevremovic,S., and L. Radojevic|Establishment of Efficient Regeneration Protocol from Leaf Explants of Iris pumila Shoots Cultured In Vitro|Sci. Hortic.108(1): 100-103|2006|10.1016/j.scienta.2005.12.005
115329|T||Klafke,G.M., G.A. Sabatini, T.A. De Albuquerque, J.R. Martins, D.H. Kemp, R.J. Miller, and T.T.S. Schumaker|Larval Immersion Tests with Ivermectin in Populations of the Cattle Tick Rhipicephalus (Boophilus) microplus (Acari:  Ixodidae) from State of Sao Paulo, Brazil|Vet. Parasitol.142(3/4): 386-390|2006|10.1016/j.vetpar.2006.07.001
115330|T||Iori,A., D. Grazioli, E. Gentile, G. Marano, and G. Salvatore|Acaricidal Properties of the Essential Oil of Melaleuca alternifolia Cheel (Tea Tree Oil) Against Nymphs of Ixodes ricinus|Vet. Parasitol.129(1-2): 173-176|2005|10.1016/j.vetpar.2004.11.035
115331|A||Zhao,R.B., D.Y. Sun, S. Fu, X.F. Wang, and R.S. Zhao|Bioconcentration Kinetics of PCBs in Various Parts of the Lifecycle of the Tadpoles Xenopus laevis|J. Environ. Sci.19(3): 374-384|2007|10.1016/S1001-0742(07)60062-X
115332|A||Wang,Y., J. Han, W. Li, and Z. Xu|Effect of Different Selenium Source on Growth Performances, Glutathione Peroxidase Activities, Muscle Composition and Selenium Concentration of Allogynogenetic Crucian Carp (Carassius auratus gibelio)|Anim. Feed Sci. Technol.134(3/4): 243-251|2007|10.1016/j.anifeedsci.2006.12.007
115333|T||Popham,H.J.R., K.S. Shelby, and T.W. Popham|Effect of Dietary Selenium Supplementation on Resistance to Baculovirus Infection|Biol. Control32(3): 419-426|2005|10.1016/j.biocontrol.2004.12.011
115334|T||Sholberg,P.L., K. Bedford, and S. Stokes|Sensitivity of Penicillium spp. and Botrytis cinerea to Pyrimethanil and Its Control of Blue and Gray Mold of Stored Apples|Crop Prot.24(2): 127-134|2005|10.1016/j.cropro.2004.07.011
115335|T||Lu,L., C. Ji, X.G. Luo, B. Liu, and S.X. Yu|The Effect of Supplemental Manganese in Broiler Diets on Abdominal Fat Deposition and Meat Quality|Anim. Feed Sci. Technol.129(1-2): 49-59|2006|10.1016/j.anifeedsci.2005.12.005
115336|T||Li,S.F., X.G. Luo, L. Lu, T.D. Crenshaw, Y.Q. Bu, B. Liu, X. Kuang, G.Z. Shao, and S.X. Yu|Bioavailability of Organic Manganese Sources in Broilers Fed High Dietary Calcium|Anim. Feed Sci. Technol.123-124(Pt. 2): 703-715|2005|10.1016/j.anifeedsci.2005.04.052
115337|T||Yang,L., I. Stulen, and L.J. De Kok|Sulfur Dioxide:  Relevance of Toxic and Nutritional Effects for Chinese Cabbage|Environ. Exp. Bot.57(3): 236-245|2006|10.1016/j.envexpbot.2005.06.002
115338|T||Zhang,L., A.R. Ackley, and E.A.H. Pilon-Smits|Variation in Selenium Tolerance and Accumulation Among 19 Arabidopsis thaliana Accessions|J. Plant Physiol.164(3): 327-336|2007|10.1016/j.jplph.2006.01.008
115339|A||Yang,Y., Z. Liu, M. Zheng, Y. Zhao, L. Wang, W. Sun, and F. Xiao|The Acute Lethality and Endocrine Effect of 1,2,3,7,8-PeCDD in Juvenile Goldfish (Carassius auratus) In Vivo|J. Environ. Sci.20(2): 240-245|2008|10.1016/S1001-0742(08)60037-6
115340|T||Yi,H., and L. Si|Vicia Root-Mirconucleus and Sister Chromatid Exchange Assays on the Genotoxicity of Selenium Compounds|Mutat. Res.630(1/2): 92-96|2007|10.1016/j.mrgentox.2007.03.003
115341|T||Yang,H., M. Zheng, and Y. Zhu|Tracing the Behaviour of Hexachlorobenzene in a Paddy Soil-Rice System Over a Growth Season|J. Environ. Sci.20(1): 56-61|2008|10.1016/S1001-0742(08)60008-X
115342|T||Knubel,B.F.R., K.E. Panter, and F.D. Provenza|Pregnancy in Goats does Not Influence Intake of Novel or Familiar Foods with or Without Toxins|Appl. Anim. Behav. Sci.85(3-4): 293-305|2004|10.1016/j.applanim.2003.10.003
115343|T||Mickelbart,M.V., P. Chapman, and L. Collier-Christian|Endogenous Levels and Exogenous Application of Glycinebetaine to Grapevines|Sci. Hortic.111(1): 7-16|2006|10.1016/j.scienta.2006.07.031
115344|T||Mentewab,A., V. Cardoza, and C.N.,Jr. Stewart|Genomic Analysis of the Response of Arabidopsis thaliana to Trinitrotoluene as Revealed by cDNA Microarrays|Plant Sci.168(6): 1409-1424|2005|10.1016/j.plantsci.2004.10.021
115345|T||Du,Y.H., R.Y. Jia, Z.Q. Yin, Z.H. Pu, J. Chen, F. Yang, Y.Q. Zhang, and Y. Lu|Acaricidal Activity of Extracts of Neem (Azadirachta indica) Oil Against the Larvae of the Rabbit Mite Sarcoptes scabiei var. cuniculi In Vitro|Vet. Parasitol.157(1-2): 144-148|2008|10.1016/j.vetpar.2008.07.011
115346|A||Florent,R.L., J.A. Becker, and M.D. Powell|Evaluation of Bithionol as a Bath Treatment for Amoebic Gill Disease Caused by Neoparamoeba spp.|Vet. Parasitol.144(3-4): 197-207|2007|10.1016/j.vetpar.2006.10.018
115347|T||Nichani,A.K., M.A. Dar, A.M. Krieg, K.K. Mirakhur, R.S. Kaushik, P.J. Griebel, A. Manuja, H.G.G. Townsend, L.A. Babiuk,|Systemic Innate Immune Responses Following Intrapulmonary Delivery of CpG Oligodeoxynucleotides in Sheep|Vet. Immunol. Immunopathol.115(3-4): 357-368|2007|10.1016/j.vetimm.2006.11.013
115348|T||Germ,M., I. Kreft, V. Stibilj, and O. Urbanc-Bercic|Combined Effects of Selenium and Drought on Photosynthesis and Mitochondrial Respiration in Potato|Plant Physiol. Biochem.45(2): 162-167|2007|10.1016/j.plaphy.2007.01.009
115349|T||Gadapati,W.R., and S.M. MacFie|Phytochelatins are Only Partially Correlated with Cd-Stress in Two Species of Brassica|Plant Sci.170(3): 471-480|2006|10.1016/j.plantsci.2005.09.017
115350|T||Hao,F., X. Wang, and J. Chen|Involvement of Plasma-Membrane NADPH Oxidase in Nickel-Induced Oxidative Stress in Roots of Wheat Seedlings|Plant Sci.170(1): 151-158|2006|10.1016/j.plantsci.2005.08.014
115351|A||Hemaprasanth,K.P., A. Raghavendra, R. Singh, N. Sridhar, and M.R. Raghunath|Efficacy of Doramectin Against Natural and Experimental Infections of Lernaea cyprinacea in Carps|Vet. Parasitol.156(3/4): 261-269|2008|10.1016/j.vetpar.2008.06.005
115352|T||Hempel,K., F.G. Hess, C. Bogi, E. Fabian, J. Hellwig, and I. Fegert|Toxicological Properties of Metaflumizone|Vet. Parasitol.150(3): 190-195|2007|10.1016/j.vetpar.2007.08.033
115353|T||Halley,B.A., R. Winter, S. Yoon, S.E. Marley, and S. Rehbein|The Environmental Safety of Eprinomectin to Earthworms|Vet. Parasitol.128(1/2): 109-114|2005|10.1016/j.vetpar.2004.11.007
115354|T||Miteva,E., D. Hristova, V. Nenova, and S. Maneva|Arsenic as a Factor Affecting Virus Infection in Tomato Plants:  Changes in Plant Growth, Peroxidase Activity and Chloroplast Pigments|Sci. Hortic.105(3): 343-358|2005|10.1016/j.scienta.2005.01.026
115356|AT||Zhang,W., E.P. Webster, D.C. Blouin, and C.T. Leon|Fenoxaprop Interactions for Barnyardgrass (Echinochloa crus-galli) Control in Rice|Weed Technol.19(2): 293-297|2005|10.1614/WT-03-250R1
115357|T||Bower,N.I., R.E. Casu, D.J. Maclean, A. Reverter, S.C. Chapman, and J.M. Manners|Transcriptional Response of Sugarcane Roots to Methyl Jasmonate|Plant Sci.168(3): 761-772|2005|10.1016/j.plantsci.2004.10.006
115358|T||Cho,U.H., and N.H. Seo|Oxidative Stress in Arabidopsis thaliana Exposed to Cadmium is Due to Hydrogen Peroxide Accumulation|Plant Sci.168(1): 113-120|2005|10.1016/j.plantsci.2004.07.021
115359|T||Bremner,P.D., M.S.J. Simmonds, W.M. Blaney, and N.C. Veitch|Neo-Clerodane Diterpenoid Insect Antifeedants from Ajuga reptans cv Catlins Giant|Phytochemistry47(7): 1227-1232|1998|10.1016/S0031-9422(97)00706-1
115360|T||Atta-Aly,M.A.|Effect of Nickel Addition on the Yield and Quality of Parsley Leaves|Sci. Hortic.82(1-2): 9-24|1999|10.1016/S0304-4238(99)00032-1
115361|T||Fritsche,S., M.B. Solomon, E.W. Paroczay, and T.S. Rumsey|Effects of Growth-Promoting Implants on Morphology of Longissimus and Semitendinosus Muscles in Finishing Steers|Meat Sci.56(3): 229-237|2000|10.1016/S0309-1740(00)00047-4
115362|T||Gerling,D., and S.E. Naranjo|The Effect of Insecticide Treatments in Cotton Fields on the Levels of Parasitism of Bemisia tabaci (Gennadius) sl.|Biol. Control12(1): 33-41|1998|10.1006/bcon.1998.0613
115363|T||Andres,S., M.C. Mane, J. Sanchez, R. Barrera, and A. Jimenez|Changes in GSHPx and Muscle Enzyme Activities in Lambs with Nutritional Myodegeneration Following a Single Treatment with Sodium Selenite|Small Ruminant Res.23(2/3): 183-186|1996|
115364|T||Hodgson,D., S. Howe, L. Jeffcott, S. Reid, D. Mellor, and A. Higgins|Effect of Prolonged Use of Altrenogest on Behaviour in Mares|Vet. J.169(3): 322-325|2005|10.1016/j.tvjl.2005.03.003
115365|T||Davis,P.A., L.R. McDowell, N.S. Wilkinson, C.D. Buergelt, R. Van Alstyne, R.N. Weldon, and T.T. Marshall|Effects of Selenium Levels in Ewe Diets on Selenium in Milk and the Plasma and Tissue Selenium Concentrations of Lambs|Small Ruminant Res.65(1/2): 14-23|2006|10.1016/j.smallrumres.2005.06.016
115367|A||Croteau,M.N., and S.N. Luoma|A Biodynamic Understanding of Dietborne Metal Uptake by a Freshwater Invertebrate|Environ. Sci. Technol.42(5): 1801-1806|2008|10.1021/es7022913
115368|T||Fildes,K., L.B. Astheimer, and W.A. Buttemer|The Effect of Acute Fenitrothion Exposure on a Variety of Physiological Indices, Including Avian Aerobic Metabolism During Exercise and Cold Exposure|Environ. Toxicol. Chem.28(2): 388-394|2009|10.1897/08-297.1
115369|A||Navarro,E., F. Piccapietra, B. Wagner, F. Marconi, R. Kaegi, N. Odzak, L. Sigg, and R. Behra|Toxicity of Silver Nanoparticles to Chlamydomonas reinhardtii|Environ. Sci. Technol.42(23): 8959-8964|2008|10.1021/es801785m
115370|T||Marti-Mestres,G.N., J.F.M. Cooper, J.P.M. Mestres, G. De Wilde, and N.R. Wynn|Effects of a Supplemented Deltamethrin and Piperonyl Butoxide Diet on Residues in Products of Animal Origin. 1. Feeding Study in Pigs|J. Agric. Food Chem.41(12): 2416-2420|1993|10.1021/jf00036a038
115371|T||Carignano,M., S.A. Staggenborg, and J.P. Shroyer|Management Practices to Minimize Tan Spot in a Continuous Wheat Rotation|Agron. J.100(1): 145-153|2008|10.2134/agronj2007.0092
115372|A||Schmitt,H., R. Altenburger, B. Jastorff, and G. Schuurmann|Quantitative Structure-Activity Analysis of the Algae Toxicity of Nitroaromatic Compounds|Chem. Res. Toxicol.13(6): 441-450|2000|10.1021/tx9901635
115373|T||Butler,S.M., A.C. Gerry, and B.A. Mullens|House Fly (Diptera: Muscidae) Activity Near Baits Containing (Z)-9-Tricosene and Efficacy of Commercial Toxic Fly Baits on a Southern California Dairy|J. Econ. Entomol.100(4): 1489-1495|2007|10.1603/0022-0493(2007)100[1489:HFDMAN]2.0.CO;2
115374|T||Cangahuala-Inocente,G.C., L.L. Dal Vesco, D. Steinmacher, A.C. Torres, and M.P. Guerra|Improvements in Somatic Embryogenesis Protocol in Feijoa (Acca sellowiana (Berg) Burret):  Induction, Conversion and Synthetic Seeds|Sci. Hortic.111(3): 228-234|2007|10.1016/j.scienta.2006.10.030
115375|T||Balestrasse,K.B., G.O. Noriega, A. Batlle, and M.L. Tomaro|Heme Oxygenase Activity and Oxidative Stress Signaling in Soybean Leaves|Plant Sci.170(2): 339-346|2006|10.1016/j.plantsci.2005.09.001
115376|T||Collins,C.D., and J.N.B. Bell|Experimental Studies on the Deposition to Crops of Radioactive Gases Released from Gas-Cooled Reactors--II. Hydrogen Sulphide-35|J. Environ. Radioact.34(3): 237-251|1997|10.1016/0265-931X(96)00037-9
115377|T||Garmey,J.C., H.D. Guthrie, W.M. Garrett, M.H. Stoler, and J.D. Veldhuis|Localization and Expression of Low-Density Lipoprotein Receptor, Steroidogenic Acute Regulatory Protein, Cytochrome P450 Side-Chain Cleavage and P450 17-alpha-Hydroxylase/C17-20 Lyase in Developing Swine Follicles:  In |Mol. Cell. Endocrinol.170(1-2): 57-65|2000|10.1016/S0303-7207(00)00332-4
115378|A||Lodeiro,P., B. Cordero, J.L. Barriada, R. Herrero, and M.E. Sastre de Vicente|Biosorption of Cadmium by Biomass of Brown Marine Macroalgae|Bioresour. Technol.96(16): 1796-1803|2005|10.1016/j.biortech.2005.01.002
115379|T||Dritsa,V., F. Rigas, K. Natsis, and R. Marchant|Characterization of a Fungal Strain Isolated from a Polyphenol Polluted Site|Bioresour. Technol.98(9): 1741-1747|2007|10.1016/j.biortech.2006.07.025
115380|T||Zhang,H., Y. Jiang, Z. He, and M. Ma|Cadmium Accumulation and Oxidative Burst in Garlic (Allium sativum)|J. Plant Physiol.162(9): 977-984|2005|10.1016/j.jplph.2004.10.001
115381|T||Zhang,L.H., W.M. Shi, and X.C. Wang|Difference in Selenium Accumulation in Shoots of Two Rice Cultivars|Pedosphere16(5): 646-653|2006|10.1016/S1002-0160(06)60098-2
115382|T||George,D.R., K. Callaghan, J.H. Guy, and O.A.E. Sparagano|Lack of Prolonged Activity of Lavender Essential Oils as Acaricides Against the Poultry Red Mite (Dermanyssus gallinae) Under Laboratory Conditions|Res. Vet. Sci.85(3): 540-542|2008|10.1016/j.rvsc.2008.02.001
115383|T||Geurden,T., J. Vercruysse, and E. Claerebout|Field Testing of a Fenbendazole Treatment Combined with Hygienic and Management Measures Against a Natural Giardia Infection in Calves|Vet. Parasitol.142(3-4): 367-371|2006|10.1016/j.vetpar.2006.07.019
115384|T||Hernandez,E., R. Rey, M. Puig, M.A. Garcia, C. Solans, and M.A. Bregante|Pharmacokinetics and Residues of a New Oral Amoxicillin Formulation in Piglets:  A Preliminary Study|Vet. J.170(2): 237-242|2005|10.1016/j.tvjl.2004.06.003
115385|T||Hoglund,J.|Targeted Selective Treatment of Lungworm Infection in an Organic Dairy Herd in Sweden|Vet. Parasitol.138(3-4): 318-327|2006|10.1016/j.vetpar.2006.02.005
115386|T||Zhan,X., M. Wang, R. Zhao, W. Li, and Z. Xu|Effects of Different Selenium Source on Selenium Distribution, Loin Quality and Antioxidant Status in Finishing Pigs|Anim. Feed Sci. Technol.132(3/4): 202-211|2007|10.1016/j.anifeedsci.2006.03.020
115387|T||Wu,R., X.Z. Lian, X.Y. Tang, Y.L. Fu, and C.Y. He|Study on the Effects of Cytokine Level in Ducklings with Selenium Poisoning|Agric. Sci. China6(3): 375-380|2007|10.1016/S1671-2927(07)60059-5
115388|T||Bainton,R.J., L.T.Y. Tsai, C.M. Singh, M.S. Moore, W.S. Neckameyer, and U. Heberlein|Dopamine Modulates Acute Responses to Cocaine, Nicotine, and Ethanol in Drosophila|Curr. Biol.10(4): 187-194|2000|10.1016/S0960-9822(00)00336-5
115389|T||Cheng,Y., K. Endo, K. Wu, A.R. Rodan, U. Heberlein, and R.L. Davis|Drosophila fasciclinII is Required for the Formation of Odor Memories and for Normal Sensitivity to Alcohol|Cell (Cambridge)105(6): 757-768|2001|10.1016/S0092-8674(01)00386-5
115391|T||3M Co.|Initial Submission:  Acute Oral Toxicity Study with Sample T-2120 in Rats with Cover Sheet Dated 072792|EPA/OTS Doc.#88-920004663:7 p.|1992|
115392|T||E.I. Du Pont De Nemours|Initial Submission:  Oral LD50 Test of Methanol, Sodium Salt in Rats with Cover Letter Dated 08/10/92|EPA/OTS Doc.#88-920008950:16 p.|1992|
115393|T||Petrolite Corp.|Initial Submission:  Acute Oral Toxicity - Rats (Final Report) with Cover Letter Dated 022192|EPA/OTS Doc.#88-920001249:9 p.|1992|
115394|T||Dow Chemical Co.|Report on Animal Toxicity Experiments with Ethyl Alcohol, Tertiary Butyl Alcohol, and Stoddard's Solvent with Cover Letter Dated 03/28/94 (Sanitized)|EPA/OTS Doc.#86940000270s:4 p.|1994|
115395|T||Dow Chemical Co.|Initial Submission:  Experimental Investigation of Carcinogenic Effects of Solvents Exemplified by 1-Propanol, 2-Methyl-1-Propanol & 3-Methyl-1-Butanol with Cover Letter 012092|EPA/OTS Doc.#88-920000695:16 p.|1992|
115396|T||Hewlett-Packard Co.|Initial Submission:  Acute Oral Toxicity (Final Report) with Cover Letter Dated 022792|EPA/OTS Doc.#88-920001229:20 p.|1992|
115397|T||Michaelis,A., and R. Rieger|On the Distribution Between Chromosomes of Chemically Induced Chromatid Aberrations:  Studies with a New Karyotype of Vicia faba|Mutat. Res.6(1): 81-92|1968|10.1016/0027-5107(68)90104-8
115398|T||Chauhan,P.S., M. Aravindakshan, and K. Sundaram|Failure of Ethyl Alcohol to Induce Dominant Lethal Mutations in Wistar Rats or to Synergise the Effect of X-Rays in Swiss Mice|Mutat. Res.53(2): 165-166|1978|10.1016/0165-1161(78)90185-1
115399|T||Handler,J.A., B.U. Bradford, E. Glassman, J.K. Ladine, and R.G. Thurman|Catalase-Dependent Ethanol Metabolism In Vivo in Deermice Lacking Alcohol Dehydrogenase|Biochem. Pharmacol.35(24): 4487-4492|1986|10.1016/0006-2952(86)90768-9
115400|A||Kadukova,J., and E. Vircikova|Comparison of Differences Between Copper Bioaccumulation and Biosorption|Environ. Int.31(2): 227-232|2005|10.1016/j.envint.2004.09.020
115401|A||Lugowska,K.|The Effect of Cadmium and Cadmium/Copper Mixture During the Embryonic Development on Deformed Common Carp Larvae|Electron. J. Pol. Agric. Univ.10(4): 16 p.|2007|
115402|A||Almeida,C.M.R., A.C. Dias, A.P. Mucha, A.A. Bordalo, and M.T.S.D. Vasconcelos|Influence of Surfactants on the Cu Phytoremediation Potential of a Salt Marsh Plant|Chemosphere75(2): 135-140|2009|10.1016/j.chemosphere.2008.12.037
115403|A||Davis,A.K., M. Hildebrand, and B. Palenik|Gene Expression Induced by Copper Stress in the Diatom Thalassiosira pseudonana|Eukaryotic Cell5(7): 1157-1168|2006|10.1128/EC.00042-06
115405|A||Gaworecki,K.M., A.P. Roberts, N. Ellis, A.D. Sowers, and S.J. Klaine|Biochemical and Behavioral Effects of Diazinon Exposure in Hybrid Striped Bass|Environ. Toxicol. Chem.28(1): 105-112|2009|10.1897/08-001.1
115406|T||De la Rosa,G., J.G. Parsons, A. Martinez-Martinez, J.R. Peralta-Videa, and J.L. Gardea-Torresdey|Spectroscopic Study of the Impact of Arsenic Speciation on Arsenic/Phosphorus Uptake and Plant Growth in Tumbleweed (Salsola kali)|Environ. Sci. Technol.40(6): 1991-1996|2006|10.1021/es051526s
115408|A||Chen,S., R. Ke, J. Zha, Z. Wang, and S.U. Khan|Influence of Humic Acid on Bioavailability and Toxicity of Benzo(k)fluoranthene to Japanese Medaka|Environ. Sci. Technol.42(24): 9431-9436|2008|10.1021/es8014502
115409|A||Barrington,D.J., and A. Ghadouani|Application of Hydrogen Peroxide for the Removal of Toxic Cyanobacteria and Other Phytoplankton from Wastewater|Environ. Sci. Technol.42(23): 8916-8921|2008|10.1021/es801717y
115411|A||Cho,C.W., T.P.T. Pham, Y.C. Jeon, J. Min, H.Y. Jung, D.S. Lee, and Y.S. Yun|Microalgal Photosynthetic Activity Measurement System for Rapid Toxicity Assessment|Ecotoxicology17(6): 455-463|2008|10.1007/s10646-008-0197-x
115412|A||Pham,T.P.T., C.W. Cho, K. Vijayaraghavan, J. Min, and Y.S. Yun|Effect of Imidazolium-Based Ionic Liquids on the Photosynthetic Activity and Growth Rate of Selenastrum capricornutum|Environ. Toxicol. Chem.27(7): 1583-1589|2008|10.1897/07-415.1
115413|T||Moscatello,K.M., K.L. Biber, S.R. Jennings, R. Chervenak, and R.M. Wolcott|Effects of In Utero Alcohol Exposure on B Cell Development in Neonatal Spleen and Bone Marrow|Cell. Immunol.191(2): 124-130|1999|10.1006/cimm.1998.1420
115414|T||Walker,R.M., T.F. McElligott, E.M. Power, T.E. Massey, and W.J. Racz|Increased Acetaminophen-Induced Hepatotoxicity After Chronic Ethanol Consumption in Mice|Toxicology28(1/2): 193-206|1983|10.1016/0300-483X(83)90117-8
115415|A||Gimelli,S.P., S.M. Gittleson, and T.J. Um|Testing for Toxic Effects of Alcohols on Polytomella papillata (Chlorophyceae) Aggregation Behavior Using the Spectrophotometer to Measure the Endpoint|Acta Protozool.38(4): 299-303|1999|
115416|T||Dunty,W.C.,Jr.|Cellular and Molecular Bases for Ethanol-Induced Teratogenesis|Ph.D.Thesis, University of North Carolina, Chapel Hill, NC:182 p.|2003|
115417|T||Kappock,P.S., J.K. Glaser, and A. Cornish|The Future for Pyrithiones|Polym. Paint Colour J.195(4490): 23-24|2005|
115418|A||Mackey,M.J., and M.D. Boone|Single and Interactive Effects of Malathion, Overwintered Green Frog Tadpoles, and Cyanobacteria on Gray Treefrog Tadpoles|Environ. Toxicol. Chem.28(3): 637-643|2009|10.1897/08-232.1
115419|T||Aliouane,Y., A.K. El Hassani, V. Gary, C. Armengaud, M. Lambin, and M. Gauthier|Subchronic Exposure of Honeybees to Sublethal Doses of Pesticides: Effects on Behavior|Environ. Toxicol. Chem.28(1): 113-122|2009|10.1897/08-110.1
115420|T||Rosenthal,G.A., P. Nkomo, and D.L. Dahlman|Effect of Long-Chained Esters on the Insecticidal Properties of L-Canavanine|J. Agric. Food Chem.46(1): 296-299|1998|10.1021/jf970558z
115421|T||Kerver,W.J.M., and G. Rotman|Development of Ethanol Tolerance in Relation to the Alcohol Dehydrogenase Locus in Drosophila melanogaster. II. The Influence of Phenotypic Adaptation and Maternal Effect on Survival on Alcohol Supplemented Media|Heredity (Edinb.)58(2): 239-248|1987|10.1038/hdy.1987.38
115422|T||Butters,N.S., M.A.S. Gibson, J.N. Reynolds, and J.F. Brien|Effects of Chronic Prenatal Ethanol Exposure on Hippocampal Glutamate Release in the Postnatal Guinea Pig|Alcohol21(1): 1-9|2000|10.1016/S0741-8329(99)00096-8
115423|T||Gonzalez,L.E., M.A. Parada, and L. Hernandez|Pyridoxine Acts in the Brain to Reduce Ethanol Toxicity in Rats|Alcohol9(6): 519-522|1992|10.1016/0741-8329(92)90090-W
115424|T||Schlicht,I., S. Falk, A. Krossin, and A. Mohnhaupt|Lifetime Prolongation in Voluntary Alcohol-Consuming Rats (SHR) Treated with Clofibrate|Alcohol9(2): 139-148|1992|10.1016/0741-8329(92)90025-6
115425|T||Torres,F.K., and B. Zimmerberg|Effects of Prepregnancy Ethanol on Neuromotor Development, Activity, and Learning|Pharmacol. Biochem. Behav.41(3): 587-597|1992|10.1016/0091-3057(92)90377-R
115426|T||Fry,J.D.|Direct and Correlated Responses to Selection for Larval Ethanol Tolerance in Drosophila melanogaster|J. Evol. Biol.14(2): 296-309|2001|10.1046/j.1420-9101.2001.00271.x
115427|A||Apperson,C.S., and G.P. Georghiou|Changes in Cross-Resistance Spectrum Resulting from Methyl Parathion Selection of Culex tarsalis Coq.|Am. J. Trop. Med. Hyg.24(4): 698-703|1975|10.4269/ajtmh.1975.24.698
115430|A||Vlahogianni,T.H., and A. Valavanidis|Heavy-Metal Effects on Lipid Peroxidation and Antioxidant Defence Enzymes in Mussels Mytilus galloprovincialis|Chem. Ecol.23(5): 361-371|2007|10.1080/02757540701653285
115431|T||Kitchin,K.T., and M.T. Ebron|Further Development of Rodent Whole Embryo Culture:  Solvent Toxicity and Water Insoluble Compound Delivery System|Toxicology30(1): 45-57|1984|10.1016/0300-483X(84)90061-1
115432|A||Ju,Y., J.N. Sacalis, and C.C. Still|Bioactive Flavonoids from Endophyte-Infected Blue Grass (Poa ampla)|J. Agric. Food Chem.46(9): 3785-3788|1998|10.1021/jf980189m
115433|T||Awadallah,S.M.|Selecting an Inert Liquid Carrier for Chick Embryo Teratological Studies|Alex. Sci. Exch.18(2): 231-238|1997|
115434|T||Long,S.M., F. Reichenberg, L.J. Lister, P.K. Hankard, J. Townsend, P. Mayer, J. Wright, M. Holmstrup, C. Svendsen, and |Combined Chemical (Fluoranthene) and Drought Effects on Lumbricus rubellus Demonstrate the Applicability of the Independent Action Model for Multiple Stressor Assessment|Environ. Toxicol. Chem.28(3): 629-636|2009|10.1897/08-187.1
115435|T||Styrishave,B., M. Mortensen, P.H. Krogh, O. Andersen, and J. Jensen|Solid-Phase Microextraction (SPME) as a Tool to Predict the Bioavailability and Toxicity of Pyrene to the Springtail, Folsomia candida, Under Various Soil Conditions|Environ. Sci. Technol.42(4): 1332-1336|2008|10.1021/es072102w
115437|A||Hill,N.A., C.K. King, L.A. Perrett, and E.L. Johnston|Contaminated Suspended Sediments Toxic to an Antarctic Filter Feeder:  Aqueous- and Particulate-Phase Effects|Environ. Toxicol. Chem.28(2): 409-417|2009|10.1897/08-328.1
115438|A||Canli,M.|Effects of Copper Pre-Exposure Routes on the Energy Reserves and Subsequent Copper Toxicity in Daphnia magna|Environ. Toxicol.21(5): 521-527|2006|10.1002/tox.20214
115439|T||D'Onofrio,C., and S. Morini|Somatic Embryo, Adventitious Root and Shoot Regeneration in In Vitro Grown Quince Leaves as Influenced by Treatments of Different Length with Growth Regulators|Sci. Hortic.107(2): 194-199|2006|10.1016/j.scienta.2005.05.016
115440|T||Holmes,P.M.|Optimal Ground Preparation Treatments for Restoring Lowland Sand Fynbos Vegetation on Old Fields|S. Afr. J. Bot.74(1): 33-40|2008|10.1016/j.sajb.2007.08.005
115441|T||Hulm,J.L., K.B. McIntosh, and P.C. Bonham-Smith|Variation in Transcript Abundance Among the Four Members of the Arabidopsis thaliana RIBOSOMAL PROTEIN S15a Gene Family|Plant Sci.169(1): 267-278|2005|10.1016/j.plantsci.2005.04.001
115442|T||Mundhara,R., and A. Rashid|TDZ-Induced Triple-Response and Shoot Formation on Intact Seedlings of Linum, Putative Role of Ethylene in Regeneration|Plant Sci.170(2): 185-190|2006|10.1016/j.plantsci.2005.06.015
115443|T||Drillich,M., D. Raab, M. Wittke, and W. Heuwieser|Treatment of Chronic Endometritis in Dairy Cows with an Intrauterine Application of Enzymes:  A Field Trial|Theriogenology63(7): 1811-1823|2005|10.1016/j.theriogenology.2004.05.031
115444|T||Han,Y., J. Jiang, H. Liu, Q. Ma, W. Xu, Y. Xu, Z. Xu, and K. Chong|Overexpression of OsSIN, Encoding a Novel Small Protein, Causes Short Internodes in Oryza sativa|Plant Sci.169(3): 487-495|2005|10.1016/j.plantsci.2005.03.029
115445|T||Han,Y.C., and C.Y. Wang|Physiological Basis of Bentazon Tolerance in Rice (Oryza sativa L.) Lines|Weed Biol. Manag.2(4): 186-193|2002|10.1046/j.1445-6664.2002.00067.x
115446|A||Weston,D.P., J. You, A.D. Harwood, and M.J. Lydy|Whole Sediment Toxicity Identification Evaluation Tools for Pyrethroid Insecticides:  III.  Temperature Manipulation|Environ. Toxicol. Chem.28(1): 173-180|2009|10.1897/08-143.1
115447|T||Rey,M., A.M. Palermo, and E.R. Munoz|Nondisjunction Induced by Ethanol in Drosophila melanogaster Females|Mutat. Res.268(1): 95-104|1992|10.1016/0027-5107(92)90087-I
115448|T||Debelak-Kragtorp,K.A., D.R. Armant, and S.M. Smith|Ethanol-Induced Cephalic Apoptosis Requires Phospholipase C-Dependent Intracellular Calcium Signaling|Alcohol. Clin. Exp. Res.27(3): 515-523|2003|10.1097/01.ALC.0000056615.34253.A8
115449|T||Imeokparia,P.O.|Weed Management in Direct-Seeded Lowland Rice Under Iron Toxic Sites in Nigeria|Ann. Appl. Biol.116(3): 563-571|1990|10.1111/j.1744-7348.1990.tb06639.x
115450|A||Santagata,S., K. Bacela, D.F. Reid, K.A. Mclean, J.S. Cohen, J.R. Cordell, C.W. Brown, T.H. Johengen, and G.M. Ruiz|Concentrated Sodium Chloride Brine Solutions as an Additional Treatment for Preventing the Introduction of Nonindigenous Species in the Ballast Tanks of Ships Declaring No Ballast on Board|Environ. Toxicol. Chem.28(2): 346-353|2009|10.1897/08-140.1
115452|A||Ghosh,L., S. Adhikari, and S. Ayyappan|Assessment of Toxic Interactions of Heavy Metals and Their Effects on Accumulation in Tissues of Freshwater Fish|Res. J. Environ. Toxicol.1(1): 37-44|2007|10.3923/rjet.2007.37.44
115453|T||Lee,J.K., K.S. Kyung, and F. Fuhr|Bioavailability of Soil-Aged Residues of the Herbicide Bentazon to Rice Plants|J. Korean Agric. Chem. Soc.32(4): 393-400|1989|
115454|T||Zhang,J., and P.B. Cavers|Seedling Emergence After Maternal Bentazon Application to 10 Cocklebur (Xanthium strumarium) Populations|Can. J. Plant Sci.74(4): 863-866|1994|10.4141/cjps94-157
115455|T||Dueck,T.A., A. Zuin, and J. Elderson|Influence of Ammonia and Ozone on Growth and Drought Sensitivity of Pinus sylvestris|Atmos. Environ.32(3): 545-550|1998|10.1016/S1352-2310(97)00163-5
115456|A||Jampeetong,A., and H. Brix|Nitrogen Nutrition of Salvinia natans:  Effects of Inorganic Nitrogen Form on Growth, Morphology, Nitrate Reductase Activity and Uptake Kinetics of Ammonium and Nitrate|Aquat. Bot.90(1): 67-73|2009|10.1016/j.aquabot.2008.06.005
115457|T||Pearson,J., and A. Soares|Physiological Responses of Plant Leaves to Atmospheric Ammonia and Ammonium|Atmos. Environ.32(3): 533-538|1998|10.1016/S1352-2310(97)00008-3
115458|A||Van Campenhout,K., L. Bervoets, E.S. Redeker, and R. Blust|A Kinetic Model for the Relative Contribution of Waterborne and Dietary Cadmium and Zinc in the Common Carp (Cyprinus carpio)|Environ. Toxicol. Chem.28(1): 209-219|2009|10.1897/08-136.1
115460|A||Rehman,A., F.R. Shakoori, and A.R. Shakoori|Heavy Metal Resistant Freshwater Ciliate, Euplotes mutabilis, Isolated from Industrial Effluents has Potential to Decontaminate Wastewater of Toxic Metals|Bioresour. Technol.99(9): 3890-3895|2008|10.1016/j.biortech.2007.08.007
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115465|A||Cailleaud,K., H. Budzinski, K. Le Menach, S. Souissi, and J. Forget-Leray|Uptake and Elimination of Hydrophobic Organic Contaminants in Estuarine Copepods:  An Experimental Study|Environ. Toxicol. Chem.28(2): 239-246|2009|10.1897/07-664.1
115466|A||Lawrence,J.R., G.D.W. Swerhone, E. Topp, D.R. Korber, T.R. Neu, and L.I. Wassenaar|Structural and Functional Responses of River Biofilm Communities to the Nonsteroidal Anti-Inflammatory Diclofenac|Environ. Toxicol. Chem.26(4): 573-582|2007|10.1897/06-340R.1
115468|A||Martinovic,D., W.T. Hogarth, R.E. Jones, and P.W. Sorensen|Environmental Estrogens Suppress Hormones, Behavior, and Reproductive Fitness in Male Fathead Minnows|Environ. Toxicol. Chem.26(2): 271-278|2007|10.1897/06-065R.1
115469|A||Cunha,I., T. Neuparth, S. Caeiro, M.H. Costa, and L. Guilhermino|Toxicity Ranking of Estuarine Sediments on the Basis of Sparus aurata Biomarkers|Environ. Toxicol. Chem.26(3): 444-453|2007|10.1897/06-119R.1
115470|T||Rich,C.N., and L.G. Talent|Soil Ingestion may be an Important Route for the Uptake of Contaminants by Some Reptiles|Environ. Toxicol. Chem.28(2): 311-315|2009|10.1897/08-035.1
115471|A||De Silva,A.O., P.J. Tseng, and S.A. Mabury|Toxicokinetics of Perfluorocarboxylate Isomers in Rainbow Trout|Environ. Toxicol. Chem.28(2): 330-337|2009|10.1897/08-088.1
115472|A||Evans-White,M.A., and G.A. Lamberti|Direct and Indirect Effects of a Potential Aquatic Contaminant on Grazer-Algae Interactions|Environ. Toxicol. Chem.28(2): 418-426|2009|10.1897/07-586.1
115473|A||Mishra,A.K., and B. Mohanty|Acute Toxicity Impacts of Hexavalent Chromium on Behavior and Histopathology of Gill, Kidney and Liver of the Freshwater Fish, Channa punctatus (Bloch)|Environ. Toxicol. Pharmacol.26(2): 136-141|2008|10.1016/j.etap.2008.02.010
115474|A||De Oliveira Ribeiro,C.A., M.D. Nathalie, P. Gonzalez, D. Yannick, B. Jean-Paul, A. Boudou, and J.C. Massabuau|Effects of Dietary Methylmercury on Zebrafish Skeletal Muscle Fibres|Environ. Toxicol. Pharmacol.25(3): 304-309|2008|10.1016/j.etap.2007.10.033
115475|T||Gomes,C.E.M., A.E.A.D. Barbosa, L.L.P. Macedo, J.C.M. Pitanga, F.T. Moura, A.S. Oliveira, R.M. Moura, A.F.S. Queiroz, F|Effect of Trypsin Inhibitor from Crotalaria pallida Seeds on Callosobruchus maculatus (Cowpea Weevil) and Ceratitis capitata (Fruit Fly)|Plant Physiol. Biochem.43(12): 1095-1102|2005|10.1016/j.plaphy.2005.11.004
115476|T||Hurley,D.J., R.J. Parks, A.J. Reber, D.C. Donovan, T. Okinaga, M.L. Vandenplas, J.F. Peroni, and J.N. Moore|Dynamic Changes in Circulating Leukocytes During the Induction of Equine laminitis with Black Walnut Extract|Vet. Immunol. Immunopathol.110(3-4): 195-206|2006|10.1016/j.vetimm.2005.09.015
115477|A||Riediger,S., A. Behrends, B. Croll, I. Vega-Naredo, N. Hanig, B. Poeggeler, J. Boker, S. Grube, J. Gipp, A. Coto-Montes|Toxicity of the Quinalphos Metabolite 2-Hydroxyquinoxaline:  Growth Inhibition, Induction of Oxidative Stress, and Genotoxicity in Test Organisms|Environ. Toxicol.22(1): 33-43|2007|10.1002/tox.20231
115478|AT||Jensen,P.D., M.A. Sorensen, W.E. Walton, and J.T. Trumble|Lethal and Sublethal Responses of an Aquatic Insect Culex quinquefasciatus (Diptera: Culicidae) Challenged with Individual and Joint Exposure to Dissolved Sodium Selenate and Methylmercury Chloride|Environ. Toxicol.22(3): 287-294|2007|10.1002/tox.20254
115479|T||Venkatachalam,P., A.K. Srivastava, K.G. Raghothama, and S.V. Sahi|Genes Induced in Response to Mercury-Ion-Exposure in Heavy Metal Hyperaccumulator Sesbania drummondii|Environ. Sci. Technol.43(3): 843-850|2009|10.1021/es801304n
115480|A||Shinohara,N., T. Matsumoto, M. Gamo, A. Miyauchi, S. Endo, Y. Yonezawa, and J. Nakanishi|Is Lipid Peroxidation Induced by the Aqueous Suspension of Fullerene C60 Nanoparticles in the Brains of Cyprinus carpio?|Environ. Sci. Technol.43(3): 948-953|2009|10.1021/es802182f
115481|A||Xie,L., J.L. Flippin, N. Deighton, D.H. Funk, D.A. Dickey, and D.B. Buchwalter|Mercury(II) Bioaccumulation and Antioxidant Physiology in Four Aquatic Insects|Environ. Sci. Technol.43(3): 934-940|2009|10.1021/es802323r
115482|A||Corsi,S.R., S.W. Geis, G. Bowman, G.G. Failey, and T.D. Rutter|Aquatic Toxicity of Airfield-Pavement Deicer Materials and Implications for Airport Runoff|Environ. Sci. Technol.43(1): 40-46|2009|10.1021/es8017732
115483|A||Lewis,C., and T. Galloway|Reproductive Consequences of Paternal Genotoxin Exposure in Marine Invertebrates|Environ. Sci. Technol.43(3): 928-933|2009|10.1021/es802215d
115484|A||Wang,M.J., and W.X. Wang|Temperature-Dependent Sensitivity of a Marine Diatom to Cadmium Stress Explained by Subcelluar Distribution and Thiol Synthesis|Environ. Sci. Technol.42(22): 8603-8608|2008|10.1021/es801470w
115485|A||Wang,M., and W.X. Wang|Cadmium Toxicity in a Marine Diatom as Predicted by the Cellular Metal Sensitive Fraction|Environ. Sci. Technol.42(3): 940-946|2008|10.1021/es0719273
115486|A||Fan,W.H., G. Tang, C.M. Zhao, Y. Duan, and R. Zhang|Metal Accumulation and Biomarker Responses in Daphnia magna Following Cadmium and Zinc Exposure|Environ. Toxicol. Chem.28(2): 305-310|2009|10.1897/07-639.1
115487|A||Zhang,Y., D. Huang, D. Zhao, J. Long, G. Song, and A. Li|Long-Term Toxicity Effects of Cadmium and Lead on Bufo raddei Tadpoles|Bull. Environ. Contam. Toxicol.79:178-183|2007|10.1007/s00128-007-9152-4
115488|T||Radic,S., P. Cvjetko, K. Glavas, V. Roje, B. Pevalek-Kozlina, and M. Pavlica|Oxidative Stress and DNA Damage in Broad Bean (Vicia faba L.) Seedlings Induced by Thallium|Environ. Toxicol. Chem.28(1): 189-196|2009|10.1897/08-188.1
115489|T||Jensen,J., X. Diao, and A.D. Hansen|Single- and Two-Species Tests to Study Effects of the Anthelmintics Ivermectin and Morantel and the Coccidiostatic Monensin on Soil Invertebrates|Environ. Toxicol. Chem.28(2): 316-323|2009|10.1897/08-069.1
115490|AT||Kaye,N.W.|Interrelationships of the Thyroid and Pituitary in Embryonic and Premetamorphic Stages of the Frog, Rana pipiens|Gen. Comp. Endocrinol.1:1-19|1961|10.1016/0016-6480(61)90019-3
115491|A||Ekman,D.R., Q. Teng, D.L. Villeneuve, M.D. Kahl, K.M. Jensen, E.J. Durhan, G.T. Ankley, and T.W. Collette|Investigating Compensation and Recovery of Fathead Minnow (Pimephales promelas) Exposed to 17alpha-Ethynylestradiol with Metabolite Profiling|Environ. Sci. Technol.42(11): 4188-4194|2008|10.1021/es8000618
115492|A||Tomy,G.T., C.R. Thomas, T.M. Zidane, K.E. Murison, K. Pleskach, J. Hare, G. Arsenault, C.H. Marvin, and E. Sverko|Examination of Isomer Specific Bioaccumulation Parameters and Potential In Vivo Hepatic Metabolites of Syn- and Anti-Dechlorane plus Isomers in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Technol.42(15): 5562-5567|2008|10.1021/es800220y
115493|A||Ashauer,R., A.B.A. Boxall, and C.D. Brown|New Ecotoxicological Model to Simulate Survival of Aquatic Invertebrates After Exposure to Fluctuating and Sequential Pulses of Pesticides|Environ. Sci. Technol.41(4): 1480-1486|2007|10.1021/es061727b
115494|A||Rico-Rico,A., A. Temara, and J.L.M. Hermens|Equilibrium Partitioning Theory to Predict the Sediment Toxicity of the Anionic Surfactant C12-2-LAS to Corophium volutator|Environ. Pollut.157(2): 575-581|2009|10.1016/j.envpol.2008.08.018
115495|A||Fai,P.B., A. Grant, and B.J. Reid|Compatibility of Hydroxypropyl-beta-Cyclodextrin with Algal Toxicity Bioassays|Environ. Pollut.157(1): 135-140|2009|10.1016/j.envpol.2008.07.015
115496|A||Gust,M., T. Buronfosse, L. Giamberini, M. Ramil, R. Mons, and J. Garric|Effects of Fluoxetine on the Reproduction of Two Prosobranch Mollusks:  Potamopyrgus antipodarum and Valvata piscinalis|Environ. Pollut.157(2): 423-429|2009|10.1016/j.envpol.2008.09.040
115497|A||Zhang,Z., J. Hu, H. Zhen, X. Wu, and C. Huang|Reproductive Inhibition and Transgenerational Toxicity of Triphenyltin on Medaka (Oryzias latipes) at Environmentally Relevant Levels|Environ. Sci. Technol.42(21): 8133-8139|2008|10.1021/es801573x
115498|A||Salbu,B., J. Denbeigh, R.W. Smith, L.S. Heier, H.C. Teien, B.O. Rosseland, D. Oughton, C.B. Seymour, and C. Mothersill|Environmentally Relevant Mixed Exposures to Radiation and Heavy Metals Induce Measurable Stress Responses in Atlantic Salmon|Environ. Sci. Technol.42(9): 3441-3446|2008|10.1021/es7027394
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115500|A||De Haas,E.M., I. Roessink, B. Verbree, A.A. Koelmans, M.H.S. Kraak, and W. Admiraal|Influence of Sediment Quality on the Responses of Benthic Invertebrates After Treatment with the Fungicide Triphenyltin Acetate|Environ. Toxicol. Chem.24(5): 1133-1139|2005|10.1897/04-215R.1
115501|A||Yoo,L.J., G.R. Lotufo, A.B. Gibson, J.A. Steevens, and J.G. Sims|Toxicity and Bioaccumulation of 2,4,6-Trinitrotoluene in Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.25(12): 3253-3260|2006|10.1897/06-067R.1
115502|A||van der Ven,L.T.M., E.J. Van den Brandhof, J.H. Vos, and P.W. Wester|Effects of the Estrogen Agonist 17beta-Estradiol and Antagonist Tamoxifen in a Partial Life-Cycle Assay with Zebrafish (Danio rerio)|Environ. Toxicol. Chem.26(1): 92-99|2007|10.1897/06-092R1.1
115503|A||Yin,D., H. Zhu, P. Hu, and Q. Zhao|Genotoxic Effects of 2,4,6-Trichlorophenol on P53 Gene in Zebrafish Liver|Environ. Toxicol. Chem.28(3): 603-608|2009|10.1897/08-317.1
115504|A||Einsporn,S., J. Bressling, and A. Koehler|Cellular Localization of Lead Using an Antibody-Based Detection System and Enzyme Activity Changes in the Gills and Digestive Gland of the Blue Mussel Mytilus edulis|Environ. Toxicol. Chem.28(2): 402-408|2009|10.1897/08-174.1
115505|T||Manousaki,E., J. Kadukova, N. Papadantonakis, and N. Kalogerakis|Phytoextraction and Phytoexcretion of Cd by the Leaves of Tamarix smyrnensis Growing on Contaminated Non-Saline and Saline Soils|Environ. Res.106(3): 326-332|2008|10.1016/j.envres.2007.04.004
115506|T||Medvedeva,N., Y. Polyak, I. Kuzikova, O. Orlova, and G. Zharikov|The Effect of Mustard Gas on the Biological Activity of Soil|Environ. Res.106(3): 289-295|2008|10.1016/j.envres.2007.04.003
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115509|T||Szantoi,Z., A.H. Chappelka, R.B. Muntifering, and G.L. Somers|Cutleaf Coneflower (Rudbeckia laciniata L.) Response to Ozone and Ethylenediurea (EDU)|Environ. Pollut.157(3): 840-846|2009|10.1016/j.envpol.2008.11.014
115510|T||Petit,A.N., F. Fontaine, C. Clement, and N. Vaillant-Gaveau|Gating in Grapevine:  Relationship Between Application of the Fungicide Fludioxonil and Circadian Rhythm on Photosynthesis|Environ. Pollut.157(1): 130-134|2009|10.1016/j.envpol.2008.07.017
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115527|T||Johnson,F.O., J.E. Chambers, C.A. Nail, S. Givaruangsawat, and R.L. Carr|Developmental Chlorpyrifos and Methyl Parathion Exposure Alters Radial-Arm Maze Performance in Juvenile and Adult Rats|Toxicol. Sci.109(1): 132-142|2009|10.1093/toxsci/kfp053
115529|T||Brulle,F., G. Mitta, R. Leroux, S. Lemiere, A. Lepretre, and F. Vandenbulcke|The Strong Induction of Metallothionein Gene Following Cadmium Exposure Transiently Affects the Expression of Many Genes in Eisenia fetida:  A Trade-Off Mechanism?|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(4): 334-341|2007|10.1016/j.cbpc.2006.10.007
115530|T||Dondero,F., H. Jonsson, M. Rebelo, G. Pesce, E. Berti, G. Pons, and A. Viarengo|Cellular Responses to Environmental Contaminants in Amoebic Cells of the Slime Mould Dictyostelium discoideum|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.143(2): 150-157|2006|10.1016/j.cbpc.2006.01.005
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115532|A||Gao,Q., L. Song, D. Ni, L. Wu, H. Zhang, and Y. Chang|cDNA Cloning and mRNA Expression of Heat Shock Protein 90 Gene in the Haemocytes of Zhikong Scallop Chlamys farreri|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.147(4): 704-715|2007|10.1016/j.cbpb.2007.04.010
115533|T||Rani,A., Y.S. Shouche, and R. Goel|Declination of Copper Toxicity in Pigeon Pea and Soil System by Growth-Promoting Proteus Vulgaris Knp3 Strain|Curr. Microbiol.57(1): 78-82|2008|10.1007/s00284-008-9156-2
115534|A||Ahmad,I., V.L. Maria, M. Oliveira, M. Pacheco, and M.A. Santos|Modulatory Role of Copper on Beta -Naphthoflavone-Induced DNA Damage in European Eel (Anguilla anguilla L.)|Ecotoxicol. Environ. Saf.71(3): 806-812|2008|10.1016/j.ecoenv.2008.01.004
115535|A||Al-Subiai,S.N., A.N. Jha, and A.J. Moody|Contamination of Bivalve Haemolymph Samples by Adductor Muscle Components:  Implications for Biomarker Studies|Ecotoxicology18(3): 334-342|2009|10.1007/s10646-008-0287-9
115536|A||Annicchiarico,C., F. Biandolino, N. Cardellicchio, A. Di Leo, S. Giandomenico, and E. Prato|Predicting Toxicity in Marine Sediment in Taranto Gulf (Ionian Sea, Southern Italy) Using Sediment Quality Guidelines and a Battery Bioassay|Ecotoxicology16(2): 239-246|2007|10.1007/s10646-006-0123-z
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115538|T||Harada,H., M. Kurauchi, R. Hayashi, and T. Eki|Shortened Lifespan of Nematode Caenorhabditis elegans After Prolonged Exposure to Heavy Metals and Detergents|Ecotoxicol. Environ. Saf.66(3): 378-383|2007|10.1016/j.ecoenv.2006.02.017
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115540|T||Ginocchio,R., P. Sanchez, L.M. De la Fuente, I. Camus, E. Bustamante, Y. Silva, P. Urrestarazu, J.C. Torres, and P.H. R|Agricultural Soils Spiked with Copper Mine Wastes and Copper Concentrate: Implications for Copper Bioavailability and Bioaccumulation|Environ. Toxicol. Chem.25(3): 712-718|2006|10.1897/05-105R.1
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115542|A||Wang,L., W. Liu, C. Yang, Z. Pan, J. Gan, C. Xu, M. Zhao, and D. Schlenk|Enantioselectivity in Estrogenic Potential and Uptake of Bifenthrin|Environ. Sci. Technol.41(17): 6124-6128|2007|10.1021/es070220d
115544|T||Li,Y.J., T.B. Song, Y.Y. Cai, J.S. Zhou, X. Song, X. Zhao, and X.L. Wu|Bisphenol A Exposure Induces Apoptosis and Upregulation of Fas/FasL and Caspase-3 Expression in the Testes of Mice|Toxicol. Sci.108(2): 427-436|2009|10.1093/toxsci/kfp024
115545|T||Korkmaz,S., V. Maupoil, C. Sobry, C. Brunet, S. Chevalier, and J.L. Freslon|An Increased Regional Blood Flow Precedes Mesenteric Inflammation in Rats Treated by a Phosphodiesterase 4 Inhibitor|Toxicol. Sci.107(1): 298-305|2009|10.1093/toxsci/kfn218
115546|T||Kissling,G.E., D.E. Malarkey, M.K. Vallant, J.D. Johnson, M.R. Hejtmancik, R.A. Herbert, and G.A. Boorman|Evaluation of Dichloroacetic Acid for Carcinogenicity in Genetically Modified Tg.AC Hemizygous and p53 Haploinsufficient Mice|Toxicol. Sci.107(1): 19-26|2009|10.1093/toxsci/kfn228
115547|T||Khan,H.A., A.S. Alhomida, and I.A. Arif|Neurovestibular Toxicities of Acrylonitrile and Iminodipropionitrile in Rats:  A Comparative Evaluation of Putative Mechanisms and Target Sites|Toxicol. Sci.109(1): 124-131|2009|10.1093/toxsci/kfp043
115548|T||Kuramori,C., Y. Hase, K. Hoshikawa, K. Watanabe, T. Nishi, T. Hishiki, T. Soga, A. Nashimoto, Y. Kabe, Y. Yamaguchi, H.|Mono-(2-Ethylhexyl) Phthalate Targets Glycogen Debranching Enzyme and Affects Glycogen Metabolism in Rat Testis|Toxicol. Sci.109(1): 143-151|2009|10.1093/toxsci/kfp041
115549|T||Keil,D.E., W.D. McGuinn, A.C. Dudley, J.G. EuDaly, G.S. Gilkeson, and M.M. Peden-Adams|N,N,-Diethyl-m-Toluamide (DEET) Suppresses Humoral Immunological Function in B6C3F1 Mice|Toxicol. Sci.108(1): 110-123|2009|10.1093/toxsci/kfp001
115550|T||Dieterich,C., A. Puey, S. Lyn, R. Swezey, A. Furimsky, D. Fairchild, J.C. Mirsalis, and H.H. Ng|Gene Expression Analysis Reveals New Possible Mechanisms of Vancomycin-Induced Nephrotoxicity and Identifies Gene Markers Candidates|Toxicol. Sci.107(1): 258-269|2009|10.1093/toxsci/kfn203
115553|T||Robinson,J.F., X. Yu, S. Hong, W.C. Griffith, R. Beyer, E. Kim, and E.M. Faustman|Cadmium-Induced Differential Toxicogenomic Response in Resistant and Sensitive Mouse Strains Undergoing Neurulation|Toxicol. Sci.107(1): 206-219|2009|10.1093/toxsci/kfn221
115555|T||Hou,W.Y., D.X. Long, and Y.J. Wu|The Homeostasis of Phosphatidylcholine and Lysophosphatidylcholine in Nervous Tissues of Mice was Not Disrupted After Administration of Tri-o-Cresyl Phosphate|Toxicol. Sci.109(2): 276-285|2009|10.1093/toxsci/kfp068
115557|T||Nygaard,U.C., J.S. Hansen, M. Samuelsen, T. Alberg, C.D. Marioara, and M. Lovik|Single-Walled and Multi-Walled Carbon Nanotubes Promote Allergic Immune Responses in Mice|Toxicol. Sci.109(1): 113-123|2009|10.1093/toxsci/kfp057
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115560|T||Girolami,F., G. Abbadessa, S. Racca, A. Spaccamiglio, F. Piccione, M. Dacasto, M. Carletti, G. Gardini, F. Di Carlo, an|Time-Dependent Acetylsalicylic Acid Effects on Liver CYP1A and Antioxidant Enzymes in a Rat Model of 7,12-Dimethylbenzanthracene (DMBA)-Induced Mammary Carcinogenesis|Toxicol. Lett.181(2): 87-92|2008|10.1016/j.toxlet.2008.07.007
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115562|T||Kummer,V., J. Maskova, Z. Zraly, J. Neca, P. Simeckova, J. Vondracek, and M. Machala|Estrogenic Activity of Environmental Polycyclic Aromatic Hydrocarbons In Uterus of Immature Wistar Rats|Toxicol. Lett.180(3): 212-221|2008|10.1016/j.toxlet.2008.06.862
115563|T||Harvilchuck,J.A., R.J. Zurbrugg, and G.P. Carlson|CC10 mRNA and Protein Expression in Clara Cells of CD-1 Mice Following Exposure to Styrene or Its Metabolites Styrene Oxide or 4-Vinylphenol|Toxicol. Lett.183(1-3): 28-35|2008|10.1016/j.toxlet.2008.09.010
115564|T||Janssen,G.B., A.H. Penninks, L.M.J. Knippels, M. Van Zijverden, and S. Spanhaak|The Evaluation of the Immunomodulating Properties of ERA-63 a Pharmaceutical with Estrogenic Activity|Toxicol. Lett.180(3): 196-201|2008|10.1016/j.toxlet.2008.06.857
115565|T||Marchetti,F., J. Bishop, X. Lowe, and A.J. Wyrobek|Chromosomal Mosaicism in Mouse Two-Cell Embryos after Paternal Exposure to Acrylamide|Toxicol. Sci.107(1): 194-205|2009|10.1093/toxsci/kfn209
115567|T||Taxvig,C., A.M. Vinggaard, U. Hass, M. Axelstad, J. Boberg, P.R. Hansen, H. Frederiksen, and C. Nellemann|Do Parabens have the Ability to Interfere with Steroidogenesis?|Toxicol. Sci.106(1): 206-213|2008|10.1093/toxsci/kfn148
115568|T||Carvalho,M.C., E.M. Nazari, M. Farina, and Y.M.R. Muller|Behavioral, Morphological, and Biochemical Changes After In Ovo Exposure to Methylmercury in Chicks|Toxicol. Sci.106(1): 180-185|2008|10.1093/toxsci/kfn158
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115575|T||Hovmand,M.F., S.P. Nielsen, and I. Johnsen|Root Uptake of Lead by Norway Spruce Grown on 210Pb Spiked Soils|Environ. Pollut.157(2): 404-409|2009|10.1016/j.envpol.2008.09.038
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115578|T||De la Rosa,G., A. Martinez-Martinez, H. Pelayo, J.R. Peralta-Videa, B. Sanchez-Salcido, and J.L. Gardea-Torresdey|Production of Low-Molecular Weight Thiols as a Response to Cadmium Uptake by Tumbleweed (Salsola kali)|Plant Physiol. Biochem.43(5): 491-498|2005|10.1016/j.plaphy.2005.03.013
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115639|T||Scott,J.G., C.A. Leichter, and F.D. Rinkevich|Insecticide Resistant Strains of House Flies (Musca domestica) Show Limited Cross-Resistance to Chlorfenapyr|J. Pestic. Sci. (Multiple Languages)29(2): 124-126|2004|10.1584/jpestics.29.124
115640|T||Tabassum,R., S.N.H. Naqvi, M. Jahan, S.M. Nurulain, M.F. Khan, and M.A. Azmi|Determination of the Toxicities of Fenpropathrin (Pyrethroid) and Neem Formulation (RB-a+PBO+Tx-100) Against Alphitobius diaperinus Adults and Their Effects on Transaminases|Turk. J. Zool.22(4): 319-322|1998|
115641|A||Gauley,J., and J.J. Heikkila|Examination of the Expression of the Heat Shock Protein Gene, hsp110, in Xenopus laevis Cultured Cells and Embryos|Comp. Biochem. Physiol. A Mol. Integr. Physiol.145(2): 225-234|2006|10.1016/j.cbpa.2006.06.021
115642|T||Arnetoli,M., R. Vooijs, C. Gonnelli, R. Gabbrielli, J.A.C. Verkleij, and H. Schat|High-Level Zn and Cd Tolerance in Silene Paradoxa L. from a Moderately Cd- and Zn-Contaminated Copper Mine Tailing|Environ. Pollut.156(2): 380-386|2008|10.1016/j.envpol.2008.01.044
115643|A||Croteau,M.N., and S.N. Luoma|Characterizing Dissolved Cu and Cd Uptake in Terms of the Biotic Ligand and Biodynamics Using Enriched Stable Isotopes|Environ. Sci. Technol.41(9): 3140-3145|2007|10.1021/es0615122
115644|A||De Boeck,G., K. Van der Ven, W. Meeus, and R. Blust|Sublethal Copper Exposure Induces Respiratory Stress in Common and Gibel Carp but not in Rainbow Trout|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(4): 380-390|2007|10.1016/j.cbpc.2006.11.008
115645|A||Mohammed,M.H., and B. Markert|Toxicity of Heavy Metals on Scenedesmus quadricauda (Turp.) de Brebisson in Batch Cultures|Environ. Sci. Pollut. Res.13(2): 98-104|2006|10.1065/espr2005.07.274
115646|A||Griffitt,R.J., K. Hyndman, N.D. Denslow, and D.S. Barber|Comparison of Molecular and Histological Changes in Zebrafish Gills Exposed to Metallic Nanoparticles|Toxicol. Sci.107(2): 404-415|2009|10.1093/toxsci/kfn256
115647|T||Kimura,K.A., and J.F. Brien|Hippocampal Nitric Oxide Synthase in the Fetal Guinea Pig:  Effects of Chronic Prenatal Ethanol Exposure|Brain Res. Dev. Brain Res.106(1/2): 39-46|1998|10.1016/S0165-3806(97)00184-3
115648|T||Guven,A., and N. Kaya|Determination of Reduced Glutathion, Glutathione-S-Transferase and Selenium Levels in Goose Liver Cells with Damage Induced by Carbon Tetrachloride and Ethanol|Turk. J. Vet. Anim. Sci.29(6): 1233-1238|2005|
115649|T||Su,B., K.A. Debelak, L.L. Tessmer, M.M. Cartwright, and S.M. Smith|Genetic Influences on Craniofacial Outcome in an Avian Model of Prenatal Alcohol Exposure|Alcohol. Clin. Exp. Res.25(1): 60-69|2001|10.1111/j.1530-0277.2001.tb02128.x
115650|T||Debelak,K.A., and S.M. Smith|Avian Genetic Background Modulates the Neural Crest Apoptosis Induced by Ethanol Exposure|Alcohol. Clin. Exp. Res.24(3): 307-314|2000|10.1111/j.1530-0277.2000.tb04612.x
115651|A||Bonventre,J.A.|Potential Estrogenic Effects of Bifenthrin, a Synthetic Pyrethroid, on Corbicula fluminea|M.S.Thesis, Adelphi University:32 p.|2006|
115652|T||Wood,M.P.|The Effects of Herbicides and Plant Growth Regulators on Phymatotrichum omnivorum (Shear) Duggar|Ph.D. Thesis, Texas A&M University, College Station TX:190 p.|1990|
115654|A||Grimes,A.C., K.N. Erwin, H.A. Stadt, G.L. Hunter, H.A. Gefroh, H.J. Tsai, and M.L. Kirby|PCB126 Exposure Disrupts Zebrafish Ventricular and Branchial but Not Early Neural Crest Development|Toxicol. Sci.106(1): 193-205|2008|10.1093/toxsci/kfn154
115655|A||Heiden,T.C.K., J. Spitsbergen, W. Heideman, and R.E. Peterson|Persistent Adverse Effects on Health and Reproduction Caused by Exposure of Zebrafish to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin During Early Development and Gonad Differentiation|Toxicol. Sci.109(1): 75-87|2009|10.1093/toxsci/kfp048
115657|T||Jeya Parthasarathy,N., R. Sri Kumar, P. Karthikeyan, and R. Sheela Devi|In Vitro and In Vivo Study of Neutrophil Functions After Acute Methanol Intoxication in Albino Rats|Toxicol. Environ. Chem.87(1-4): 559-566|2005|10.1080/02772240500382308
115658|A||Doshi,H., A. Ray, I.L. Kothari, and B. Gami|Spectroscopic and Scanning Electron Microscopy Studies of Bioaccumulation of Pollutants by Algae|Curr. Microbiol.53(2): 148-157|2006|10.1007/s00284-005-0401-7
115659|A||Stevens,S.E., and C. Van Baalen|Control of Nitrate Reductase in a Blue-Green Alga:  The Effects of Inhibitors, Blue Light, and Ammonia|Arch. Biochem. Biophys.161(1): 146-152|1974|10.1016/0003-9861(74)90244-6
115660|T||Lee,L.W., and D.W. Reed|A Comparison of Methods for Measuring Phytotoxicity from Foliar Sprays of Ammonium Nitrate|J. Plant Nutr.12(6): 733-742|1989|10.1080/01904168909363987
115661|T||Van Hove,L.W.A., A.J. Koops, E.H. Adema, W.J. Vredenberg, and G.A. Pieters|Analysis of the Uptake of Atmospheric Ammonia by Leaves of Phaseolus vulgaris L.|Atmos. Environ.21(8): 1759-1763|1987|10.1016/0004-6981(87)90115-6
115662|T||Craciunescu,C.N., M.D. Niculescu, Z. Guo, A.R. Johnson, L. Fischer, and S.H. Zeisel|Dose Response Effects of Dermally Applied Diethanolamine on Neurogenesis in Fetal Mouse Hippocampus and Potential Exposure of Humans|Toxicol. Sci.107(1): 220-226|2009|10.1093/toxsci/kfn227
115663|T||Rouquie,D., C. Friry-Santini, F. Schorsch, H. Tinwell, and R. Bars|Standard and Molecular NOAELs for Rat Testicular Toxicity Induced by Flutamide|Toxicol. Sci.109(1): 59-65|2009|10.1093/toxsci/kfp056
115664|A||Scown,T.M., R. Van Aerle, B.D. Johnston, S. Cumberland, J.R. Lead, R. Owen, and C.R. Tyler|High Doses of Intravenously Administered Titanium Dioxide Nanoparticles Accumulate in the Kidneys of Rainbow Trout but with No Observable Impairment of Renal Function|Toxicol. Sci.109(2): 372-380|2009|10.1093/toxsci/kfp064
115665|A||Timme-Laragy,A.R., L.A. Van Tiem, E.A. Linney, and R.T. Di Giulio|Antioxidant Responses and NRF2 in Synergistic Developmental Toxicity of PAHs in Zebrafish|Toxicol. Sci.109(2): 217-227|2009|10.1093/toxsci/kfp038
115666|A||Baba,K., K. Okada, T. Kinoshita, and S. Imaoka|Bisphenol A Disrupts Notch Signaling by Inhibiting gamma-Secretase Activity and Causes Eye Dysplasia of Xenopus laevis|Toxicol. Sci.108(2): 344-355|2009|10.1093/toxsci/kfp025
115667|A||Nyagode,B.A., M.O. James, and K.M. Kleinow|Influence of Dietary Coexposure to Benzo(a)pyrene on the Biotransformation and Distribution of 14C-Methoxychlor in the Channel Catfish (Ictalurus punctatus)|Toxicol. Sci.108(2): 320-329|2009|10.1093/toxsci/kfp018
115668|A||Lefebvre,K.A., S.C. Tilton, T.K. Bammler, R.P. Beyer, S. Srinouanprachan, P.L. Stapleton, F.M. Farin, and E.P. Gallaghe|Gene Expression Profiles in Zebrafish Brain After Acute Exposure to Domoic Acid at Symptomatic and Asymptomatic Doses|Toxicol. Sci.107(1): 65-77|2009|10.1093/toxsci/kfn207
115669|A||Tilton,F., and R.L. Tanguay|Exposure to Sodium Metam During Zebrafish Somitogenesis Results in Early Transcriptional Indicators of the Ensuing Neuronal and Muscular Dysfunction|Toxicol. Sci.106(1): 103-112|2008|10.1093/toxsci/kfn145
115670|T||Boadas-Vaello,P., E. Jover, S. Saldana-Ruiz, C. Soler-Martin, C. Chabbert, J.M. Bayona, and J. Llorens|Allylnitrile Metabolism by CYP2E1 and Other CYPs Leads to Distinct Lethal and Vestibulotoxic Effects in the Mouse|Toxicol. Sci.107(2): 461-472|2009|10.1093/toxsci/kfn233
115672|T||Miller,J.E., and D.H. Brown|Studies of Ammonia Uptake and Loss by Lichens|Lichenologist31(1): 85-93|1999|10.1006/lich.1998.0178
115673|AT||Scaraffia,P.Y., Q. Zhang, V.H. Wysocki, J. Isoe, and M.A. Wells|Analysis of Whole Body Ammonia Metabolism in Aedes aegypti Using (15N)-Labeled Compounds and Mass Spectrometry|Insect Biochem. Mol. Biol.36(8): 614-622|2006|10.1016/j.ibmb.2006.05.003
115674|A||Collos,Y., M. Lespilette, A. Vaquer, M. Laabir, and A. Pastoureaud|Uptake and Accumulation of Ammonium by Alexandrium catenella During Nutrient Pulses|Afr. J. Mar. Sci.28(2): 313-318|2006|10.2989/18142320609504169
115675|A||Piyatiratitivorakul,P., S. Ruangareerat, and B. Vajarasathira|Comparative Toxicity of Heavy Metal Compounds to the Juvenile Golden Apple Snail, Pomacea sp.|Fresenius Environ. Bull.15(5): 379-384|2006|
115676|A||Prato,E., and F. Biandolino|Combined Toxicity of Mercury, Copper and Cadmium on Embryogenesis and Early Larval Stages of the Mytlius galloprovincialis|Environ. Technol.28(8): 915-920|2007|10.1080/09593332808618851
115677|T||Thom,R., I. Cummins, D.P. Dixon, R. Edwards, D.J. Cole, and A.J. Lapthorn|Structure of a Tau Class Glutathione S-Transferase from Wheat Active in Herbicide Detoxification|Biochemistry (Wash.)41(22): 7008-7020|2002|10.1021/bi015964x
115678|T||Yeiser,J.L., T.L.L. Temple Chair, and A.W. Ezell|Oustar Herbicide for Efficient Herbaceous Weed Control and Enhanced Loblolly Pine Seedling Performance in the Southeastern US|For. Ecol. Manag.192(2-3): 207-215|2004|10.1016/j.foreco.2004.01.010
115679|T||Zheng,R.L., H.F. Li, R.F. Jiang, and F.S. Zhang|Cadmium Accumulation in the Edible Parts of Different Cultivars of Radish, Raphanus sativus L., and Carrot, Daucus carota var. sativa, Grown in a Cd-Contaminated Soil|Bull. Environ. Contam. Toxicol.81(1): 75-79|2008|10.1007/s00128-008-9410-0
115680|T||Park,E.J., and K. Park|Oxidative Stress and Pro-Inflammatory Responses Induced by Silica Nanoparticles In Vivo and In Vitro|Toxicol. Lett.184(1): 18-25|2009|10.1016/j.toxlet.2008.10.012
115681|T||Hertrampf,T., B. Schleipen, C. Offermanns, M. Velders, U. Laudenbach, and P. Diel|Comparison of the Bone Protective Effects of an Isoflavone-Rich Diet with Dietary and Subcutaneous Administrations of Genistein in Ovariectomized Rats|Toxicol. Lett.184(3): 198-203|2009|10.1016/j.toxlet.2008.11.006
115682|T||Kumar,B.K., Y.P. Rao, T. Noble, K. Weddington, V.P. McDowell, S. Rajanna, and R. Bettaiya|Lead-Induced Alteration of Apoptotic Proteins in Different Regions of Adult Rat Brain|Toxicol. Lett.184(1): 56-60|2009|10.1016/j.toxlet.2008.10.023
115684|T||Zhang,L.F., S.Q. Peng, and S. Wang|Decreased Aortic Contractile Reaction to 5-Hydroxytryptamine in Rats with Long-Term Hypertension Induced by Lead (Pb2+) Exposure|Toxicol. Lett.186(2): 78-83|2009|10.1016/j.toxlet.2009.01.004
115685|T||Youn,P., S. Kim, J.H. Ahn, Y. Kim, J.D. Park, and D.Y. Ryu|Regulation of Iron Metabolism-Related Genes in Diethylnitrosamine-Induced Mouse Liver Tumors|Toxicol. Lett.184(3): 151-158|2009|10.1016/j.toxlet.2008.11.002
115686|T||Kushima,K., S. Sakuma, S. Furusawa, and M. Fujiwara|Prenatal Administration of Indomethacin Modulates Th2 Cytokines in Juvenile Rats|Toxicol. Lett.185(1): 32-37|2009|10.1016/j.toxlet.2008.11.013
115687|T||Lundgren,M., P.O. Darnerud, J. Blomberg, G. Friman, and N.G. Ilback|Polybrominated Diphenyl Ether Exposure Suppresses Cytokines Important in the Defence to Coxsackievirus B3 Infection in Mice|Toxicol. Lett.184(2): 107-113|2009|10.1016/j.toxlet.2008.10.021
115689|T||Boctor,S.Y., C. Wang, and S.A. Ferguson|Neonatal PCP is more Potent than Ketamine at Modifying Preweaning Behaviors of Sprague-Dawley Rats|Toxicol. Sci.106(1): 172-179|2008|10.1093/toxsci/kfn152
115690|T||Frederiksen,H., C. Taxvig, U. Hass, A.M. Vinggaard, and C. Nellemann|Higher Levels of Ethyl Paraben and Butyl Paraben in Rat Amniotic Fluid than in Maternal Plasma After Subcutaneous Administration|Toxicol. Sci.106(2): 376-383|2008|10.1093/toxsci/kfn171
115691|T||Dail,M.B., L.A. Shack, J.E. Chambers, and S.C. Burgess|Global Liver Proteomics of Rats Exposed for 5 Days to Phenobarbital Identifies Changes Associated with Cancer and with CYP Metabolism|Toxicol. Sci.106(2): 556-569|2008|10.1093/toxsci/kfn198
115692|T||Deguchi,Y., T. Yamada, Y. Hirose, H. Nagahori, M. Kushida, K. Sumida, T. Sukata, Y. Tomigahara, K. Nishioka, S. Uwagawa|Mode of Action Analysis for the Synthetic Pyrethroid Metofluthrin-Induced Rat Liver Tumors:  Evidence for Hepatic CYP2B Induction and Hepatocyte Proliferation|Toxicol. Sci.108(1): 69-80|2009|10.1093/toxsci/kfp006
115693|T||Dobson,R.L.M., S. Motlagh, M. Quijano, R.T. Cambron, T.R. Baker, A.M. Pullen, B.T. Regg, A.S. Bigalow-Kern, T. Vennard,|Identification and Characterization of Toxicity of Contaminants in Pet Food Leading to an Outbreak of Renal Toxicity in Cats and Dogs|Toxicol. Sci.106(1): 251-262|2008|10.1093/toxsci/kfn160
115694|T||Wilson,V.S., C.R. Lambright, J.R. Furr, K.L. Howdeshell, and L.E.,Jr. Gray|The Herbicide Linuron Reduces Testosterone Production from the Fetal Rat Testis During both In Utero and In Vitro Exposures|Toxicol. Lett.186(2): 73-77|2009|10.1016/j.toxlet.2008.12.017
115695|A||Smith,G.R., and A.A. Burgett|Effects of Three Organic Wastewater Contaminants on American Toad, Bufo americanus, Tadpoles|Ecotoxicology14:477-482|2005|10.1007/s10646-004-1352-7
115696|A||Kim,J.W., H. Ishibashi, R. Yamauchi, N. Ichikawa, Y. Takao, M. Hirano, M. Koga, and K. Arizono|Acute Toxicity of Pharmaceutical and Personal Care Products on Freshwater Crustacean (Thamnocephalus platyurus) and Fish (Oryzias latipes)|J. Toxicol. Sci.34(2): 227-232|2009|10.2131/jts.34.227
115697|T||Burzynski,M., and A. Zurek|Effects of Copper and Cadmium on Photosynthesis in Cucumber Cotyledons|Photosynthetica (Praha)45(2): 239-244|2007|10.1007/s11099-007-0038-9
115698|T||Chamseddine,M., B.A. Wided, H. Guy, C. Marie-Edith, and J. Fatma|Cadmium and Copper Induction of Oxidative Stress and Antioxidative Response in Tomato (Solanum lycopersicon) Leaves|Plant Growth Regul.57(1): 89-99|2009|10.1007/s10725-008-9324-1
115699|A||Chaudhary,M.P., and R. Chandra|Toxicity Assessment of Heavy Metals with Nostoc muscorum L|J. Environ. Biol.26(1): 129-134|2005|
115700|A||De la Broise,D., and B. Palenik|Immersed In Situ Microcosms:  A Tool for the Assessment of Pollution Impact on Phytoplankton|J. Exp. Mar. Biol. Ecol.341(2): 274-281|2007|10.1016/j.jembe.2006.10.045
115701|T||Devi,S.R., and M.N.V. Prasad|Antioxidant Capacity of Brassica juncea Plants Exposed to Elevated Levels of Copper|Russ. J. Plant Physiol.52(2): 205-208|2005|10.1007/s11183-005-0031-8
115702|A||Koch,D.L., E.L. Lider, and S.C. Vigg|Evaluation of the Combined Effects of Ammonia, Nitrite and Nitrate on the Egg Incubation, Hatching and Fry Development of Lahontan Cutthroat Trout (Salmo clarki henshawi)|Report No.50016, Desert Res.Instit., Univ.Nevada System,NV:75 p.|1980|
115703|T||Khan,N.A.|An Evaluation of the Effects of Exogenous Ethephon, an Ethylene Releasing Compound, on Photosynthesis of Mustard (Brassica juncea) Cultivars that Differ in Photosynthetic Capacity|BMC Plant Biol.4(21): 6 p.|2004|
115704|T||Bacic,T., P. Baas, and D.E.R. Van|Needle Wax Surface Structure of Pinus Sylvestris as Affected by Ammonia|Acta Bot. Neerl.41(2): 167-181|1992|10.1111/j.1438-8677.1992.tb00496.x
115705|T||Dueck,T.A., L.J. Van der Eerden, B. Beemsterboer, and J. Elderson|Nitrogen Uptake and Allocation by Calluna vulgaris (L.) Hull and Deschampsia flexuosa (L.) Trin. Exposed to 15NH3|Acta Bot. Neerl.40(4): 257-267|1991|10.1111/j.1438-8677.1991.tb01557.x
115707|T||Keating,A.F., K.S. Rajapaksa, I.G. Sipes, and P.B. Hoyer|Effect of CYP2E1 Gene Deletion in Mice on Expression of Microsomal Epoxide Hydrolase in Response to VCD Exposure|Toxicol. Sci.105(2): 351-359|2008|10.1093/toxsci/kfn136
115708|T||Sieber,M., D. Hoffmann, M. Adler, V.S. Vaidya, M. Clement, J.V. Bonventre, N. Zidek, E. Rached, A. Amberg, J.J. Callana|Comparative Analysis of Novel Noninvasive Renal Biomarkers and Metabonomic Changes in a Rat Model of Gentamicin Nephrotoxicity|Toxicol. Sci.109(2): 336-349|2009|10.1093/toxsci/kfp070
115709|T||Tanaka,Y., L.M. Aleksunes, Y.J. Cui, and C.D. Klaassen|ANIT-Induced Intrahepatic Cholestasis Alters Hepatobiliary Transporter Expression via Nrf2-Dependent and Independent Signaling|Toxicol. Sci.108(2): 247-257|2009|10.1093/toxsci/kfp020
115710|T||Tewari-Singh,N., S. Rana, M. Gu, A. Pal, D.J. Orlicky, C.W. White, and R. Agarwal|Inflammatory Biomarkers of Sulfur Mustard Analog 2-Chloroethyl Ethyl Sulfide-Induced Skin Injury in SKH-1 Hairless Mice|Toxicol. Sci.108(1): 194-206|2009|10.1093/toxsci/kfn261
115711|T||Boverhof,D.R., B.B. Gollapudi, J.A. Hotchkiss, M. Osterloh-Quiroz, and M.R. Woolhiser|Evaluation of a Toxicogenomic Approach to the Local Lymph Node Assay (LLNA)|Toxicol. Sci.107(2): 427-439|2009|10.1093/toxsci/kfn247
115712|T||Jursa,T., and D.R. Smith|Ceruloplasmin Alters the Tissue Disposition and Neurotoxicity of Manganese, but Not Its Loading onto Transferrin|Toxicol. Sci.107(1): 182-193|2009|10.1093/toxsci/kfn231
115713|T||Lagido,C., D. McLaggan, A. Flett, J. Pettitt, and L.A. Glover|Rapid Sublethal Toxicity Assessment Using Bioluminescent Caenorhabditis elegans, a Novel Whole-Animal Metabolic Biosensor|Toxicol. Sci.109(1): 88-95|2009|10.1093/toxsci/kfp058
115714|T||La Sala,G., D. Farini, and M. De Felici|Proapoptotic Effects of Lindane on Mouse Primordial Germ Cells|Toxicol. Sci.108(2): 445-451|2009|10.1093/toxsci/kfp027
115715|T||Tshala-Katumbay,D., V. Monterroso, R. Kayton, M. Lasarev, M. Sabri, and P. Spencer|Probing Mechanisms of Axonopathy.  Part II:  Protein Targets of 2,5-Hexanedione, the Neurotoxic Metabolite of the Aliphatic Solvent n-Hexane|Toxicol. Sci.107(2): 482-489|2009|10.1093/toxsci/kfn241
115718|T||Cajthaml,T., Z. Kresinova, K. Svobodova, and M. Moder|Biodegradation of Endocrine-Disrupting Compounds and Suppression of Estrogenic Activity by Ligninolytic Fungi|Chemosphere75:745-750|2009|10.1016/j.chemosphere.2009.01.034
115719|A||Piotrowska,A., A. Bajguz, B. Godlewska-Zylkiewicz, R. Czerpak, and M. Kaminska|Jasmonic Acid as Modulator of Lead Toxicity in Aquatic Plant Wolffia arrhiza (Lemnaceae)|Environ. Exp. Bot.66:507-513|2009|10.1016/j.envexpbot.2009.03.019
115720|A||Pinchasov,Y., T. Berner, and Z. Dubinsky|The Effect of Lead on Photosynthesis, as Determined by Photoacoustics in Synechococcus leopoliensis (Cyanobacteria)|Water Air Soil Pollut.175:117-125|2006|10.1007/s11270-006-9116-z
115721|T||Piechalak,A., A. Malecka, D. Baralkiewicz, and B. Tomaszewska|Lead Uptake, Toxicity and Accumulation in Phaseolus vulgaris Plants|Biol. Plant. (Praha)52(3): 565-568|2008|10.1007/s10535-008-0112-6
115722|A||Sparling,D.W., S. Krest, and M. Ortiz-Santaliestra|Effects of Lead-Contaminated Sediment on Rana sphenocephala Tadpoles|Arch. Environ. Contam. Toxicol.51:458-466|2006|10.1007/s00244-005-0243-0
115723|T||Yu,D.Y., Z.R. Xu, and X.G. Yang|In Vitro, In Vivo Studies of Cu(II)-Exchanged Montmorillonite for the Removal of Lead (Pb)|Anim. Feed Sci. Technol.127(3-4): 327-335|2006|10.1016/j.anifeedsci.2005.10.003
115724|T||Seyfferth,A.L., N.C. Sturchio, and D.R. Parker|Is Perchlorate Metabolized or Re-Translocated Within Lettuce Leaves?  A Stable-Isotope Approach|Environ. Sci. Technol.42(24): 9437-9442|2008|10.1021/es802006e
115726|A||Wang,M.Z., and X.Y. Jia|Low Levels of Lead Exposure Induce Oxidative Damage and DNA Damage in the Testes of the Frog Rana nigromaculata|Ecotoxicology18:94-99|2009|10.1007/s10646-008-0262-5
115727|A||Vandenbrouck,T., A. Soetaert, K. Van der Ven, R. Blust, and W. De Coen|Nickel and Binary Metal Mixture Responses in Daphnia magna:  Molecular Fingerprints and (sub)Organismal Effects|Aquat. Toxicol.92(1): 18-29|2009|10.1016/j.aquatox.2008.12.012
115728|T||Van der Welle,M.E.W., K. Niggebrugge, L.P.M. Lamers, and J.G.M. Roelofs|Differential Responses of the Freshwater Wetland Species Juncus effusus L. and Caltha palustris L. to Iron Supply in Sulfidic Environments|Environ. Pollut.147:222-230|2007|10.1016/j.envpol.2006.08.024
115729|A||Sobrino-Figueroa,A.S., C. Caceres-Martinez, A.V. Botello, and G. Nunez-Nogueira|Effect of Cadmium, Chromium, Lead and Metal Mixtures on Survival and Growth of Juveniles of the Scallop Argopecten ventricosus (Sowerby II, 1842)|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42:1443-1447|2007|
115730|A||Peng,L., Z. Weiying, L. Xi, C. Xiaojuan, and Z. Chaocan|Microcalorimetric Study on the Toxic Effect of Pb2+ to Tetrahymena|Biol. Trace Elem. Res.119:175-182|2007|10.1007/s12011-007-0055-3
115731|A||Osman,A.G.M., S. Wuertz, I.A. Mekkawy, H.J. Exner, and F. Kirschbaum|Lead Induced Malformations in Embryos of the African Catfish Clarias gariepinus (Burchell, 1822)|Environ. Toxicol.22:375-389|2007|10.1002/tox.20272
115732|T||Zasada,I.A., and M. Tenuta|Alteration of the Soil Environment to Maximize Meloidogyne incognita Suppression by an Alkaline-Stabilized Biosolid Amendment|Appl. Soil Ecol.40(2): 309-317|2008|10.1016/j.apsoil.2008.05.006
115733|A||Touchette,B.W., and J.M. Burkholder|Carbon and Nitrogen Metabolism in the Seagrass, Zostera marina L.:  Environmental Control of Enzymes Involved in Carbon Allocation and Nitrogen Assimilation|J. Exp. Mar. Biol. Ecol.350(1-2): 216-233|2007|10.1016/j.jembe.2007.05.034
115734|A||Ozimek,T., E. Van Donk, and R.D. Gulati|Growth and Nutrient Uptake by Two Species of Elodea in Experimental Conditions and Their Role in Nutrient Accumulation in a Macrophyte-Dominated Lake.|Hydrobiologia (Multiple Languages)251(1-3): 13-18|1993|10.1007/BF00007159
115735|T||Bronson,K.F., and I.R.P. Fillery|Fate of Nitrogen-15-Labelled Urea Applied to Wheat on a Waterlogged Texture-Contrast Soil|Nutr. Cycl. Agroecosyst.51(2): 175-183|1998|10.1023/A:1009725900571
115736|T||Tsujimoto,R., H. Yamazaki, S.I. Maeda, and T. Omata|Distinct Roles of Nitrate and Nitrite in Regulation of Expression of the Nitrate Transport Genes in the Moss Physcomitrella patens|Plant Cell Physiol.48(3): 484-497|2007|10.1093/pcp/pcm019
115738|A||Lahlou,M.|Composition and Molluscicidal Properties of Essential Oils of Five Moroccan Pinaceae|Pharm. Biol.41(3): 207-210|2003|10.1076/phbi.41.3.207.15097
115739|A||Thursby,G.B., and D. Champlin|Static Acute Toxicity Data for Carbaryl|June 13, Letter to D.J.Hansen, U.S.EPA, Narragansett, RI:6 p.|1991|
115740|A||Thursby,G.B., and D. Champlin|Flow-Through Acute and Chronic Toxicity of Carbaryl to Mysidopsis bahia|June 13, Letter to D.J.Hansen, U.S.EPA, Narragansett, RI:3 p.|1991|
115741|A||Champlin,D., and S. Poucher|Homarus americanus Acute Toxicity Test with Carbaryl|October 5, Memo to S.Lussier, U.S.EPA, Narragansett,RI:1 p.|1992|
115742|T||Corona-Rivera,A., P. Urbina-Cano, L. Bobadilla-Morales, J.J. Vargas-Lares, M.A. Ramirez-Herrera, M.L. Mendoza-Magana, R|Protective In Vivo Effect of Curcumin on Copper Genotoxicity Evaluated by Comet and Micronucleus Assays|J. Appl. Genet.48(4): 389-396|2007|10.1007/BF03195238
115743|A||Knauert,S., and K. Knauer|The Role of Reactive Oxygen Species in Copper Toxicity to Two Freshwater Green Algae|J. Phycol.44(2): 311-319|2008|10.1111/j.1529-8817.2008.00471.x
115744|A||Bennett,S.C., S.W.B. Irwin, and S.M. Fitzpatrick|Tributyltin and Copper Effects on Encystment and In Vitro Excystment of Parorchis acanthus Larvae|J. Helminthol.77(4): 291-296|2003|10.1079/JOH2003200
115745|T||Gupta,U.C., and Y.P. Kalra|Residual Effect of Copper and Zinc from Fertilizers on Plant Concentration, Phytotoxicity, and Crop Yield Response|Commun. Soil Sci. Plant Anal.37(15-20): 2505-2511|2006|10.1080/00103620600822952
115746|T||Kovacik,J., and M. Backor|Oxidative Status of Matricaria chamomilla Plants Related to Cadmium and Copper Uptake|Ecotoxicology17(6): 471-479|2008|10.1007/s10646-008-0200-6
115747|A||Lewis,S.S., and S.J. Keller|Identification of Copper-Responsive Genes in an Early Life Stage of the Fathead Minnow Pimephales promelas|Ecotoxicology18(3): 281-292|2009|10.1007/s10646-008-0280-3
115748|T||Li,F., D.A. Neher, B.J. Darby, and T.R. Weicht|Observed Differences in Life History Characteristics of Nematodes Aphelenchus and Acrobeloides Upon Exposure to Copper and Benzo(a)Pyrene|Ecotoxicology14(4): 419-429|2005|10.1007/s10646-004-1347-4
115749|A||Liu,H., W. Wang, J. Zhang, and X. Wang|Effects of Copper and Its Ethylenediaminetetraacetate Complex on the Antioxidant Defenses of the Goldfish, Carassius auratus|Ecotoxicol. Environ. Saf.65(3): 350-354|2006|10.1016/j.ecoenv.2005.09.002
115750|A||Lopes,I., D.J. Baird, and R. Ribeiro|Genetic Adaptation to Metal Stress by Natural Populations of Daphnia longispina|Ecotoxicol. Environ. Saf.63(2): 275-285|2006|10.1016/j.ecoenv.2004.12.015
115751|A||Manyin,T., and C.L. Rowe|Bioenergetic Effects of Aqueous Copper and Cadmium on the Grass Shrimp, Palaemonetes pugio|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(1): 65-71|2009|10.1016/j.cbpc.2009.02.007
115752|A||Rajalakshmi,S., and A. Mohandas|Copper-Induced Changes in Tissue Enzyme Activity in a Freshwater Mussel|Ecotoxicol. Environ. Saf.62(1): 140-143|2005|10.1016/j.ecoenv.2005.01.003
115753|T||Reed,M.L.E., B.G. Warner, and B.R. Glick|Plant Growth-Promoting Bacteria Facilitate the Growth of the Common Reed Phragmites australis in the Presence of Copper or Polycyclic Aromatic Hydrocarbons|Curr. Microbiol.51(6): 425-429|2005|10.1007/s00284-005-4584-8
115755|T||Weng,G., L. Wu, Z. Wang, Y. Luo, and P. Christie|Copper Uptake by Four Elsholtzia Ecotypes Supplied with Varying Levels of Copper in Solution Culture|Environ. Int.31(6): 880-884|2005|10.1016/j.envint.2005.05.032
115756|A||Yu,Y., F. Kong, M. Wang, L. Qian, and X. Shi|Determination of Short-Term Copper Toxicity in a Multispecies Microalgal Population Using Flow Cytometry|Ecotoxicol. Environ. Saf.66(1): 49-56|2007|10.1016/j.ecoenv.2005.10.014
115757|A||Croteau,M.N., and S.N. Luoma|Delineating Copper Accumulation Pathways for the Freshwater Bivalve Corbicula Using Stable Copper Isotopes|Environ. Toxicol. Chem.24(11): 2871-2878|2005|10.1897/04-608R.1
115758|T||Amorim,M.J.B., J. Rombke, H.J. Schallnass, and A.M.V.M. Soares|Effect of Soil Properties and Aging on the Toxicity of Copper for Enchytraeus albidus, Enchytraeus luxuriosus, and Folsomia candida|Environ. Toxicol. Chem.24(8): 1875-1885|2005|10.1897/04-505R.1
115759|A||De Schamphelaere,K.A.C., J.L. Stauber, K.L. Wilde, S.J. Markich, P.L. Brown, N.M. Franklin, N.M. Creighton, and C.R. Ja|Toward a Biotic Ligand Model for Freshwater Green Algae: Surface-Bound and Internal Copper are Better Predictors of Toxicity than Free Cu2+-Ion Activity when pH is Varied|Environ. Sci. Technol.39(7): 2067-2072|2005|10.1021/es049256l
115760|A||Guner,U.|Freshwater Crayfish Astacus leptodactylus (Eschscholtz, 1823) Accumulates and Depurates Copper|Environ. Monit. Assess.133(1-3): 365-369|2007|10.1007/s10661-006-9590-1
115761|T||Gur,N., and A. Topdemir|Effects of Heavy Metals (Cd, Cu, Pb, Hg) on Pollen Germination and Tube Growth of Quince (Cydonia oblonga M.) and Plum (Prunus domestica L.)|Fresenius Environ. Bull.14(1): 36-39|2005|
115762|A||Hernandez,P.P., V. Moreno, F.A. Olivari, and M.L. Allende|Sub-Lethal Concentrations of Waterborne Copper are Toxic to Lateral Line Neuromasts in Zebrafish (Danio rerio)|Hear. Res.213(1-2): 1-10|2006|10.1016/j.heares.2005.10.015
115763|A||Hu,C., L. Zhang, D. Hamilton, W. Zhou, T. Yang, and D. Zhu|Physiological Responses Induced by Copper Bioaccumulation in Eichhornia crassipes (Mart.)|Hydrobiologia (Multiple Languages)579(1): 211-218|2007|10.1007/s10750-006-0404-9
115764|T||Zengin,F.K., and O. Munzuroglu|Effects of Heavy Metals (Pb++, Cu++, Cd++, Hg++) on Total Protein and Abscisic Acid Content of Bean (Phaseolus vulgaris L. cv. Strike) Seedlings|Fresenius Environ. Bull.15(4): 277-282|2006|
115766|A||Mirza,R.S., and G.G. Pyle|Waterborne Metals Impair Inducible Defences in Daphnia pulex:  Morphology, Life-History Traits and Encounters with Predators|Freshw. Biol.54(5): 1016-1027|2009|10.1111/j.1365-2427.2008.02148.x
115767|A||Monferran,M.V., J.A. Sanchez Agudo, M.L. Pignata, and D.A. Wunderlin|Copper-Induced Response of Physiological Parameters and Antioxidant Enzymes in the Aquatic Macrophyte Potamogeton pusillus|Environ. Pollut.157(8-9): 2570-2576|2009|10.1016/j.envpol.2009.02.034
115768|A||Moreira,S.M., M. Moreira-Santos, L. Guilhermino, and R. Ribeiro|A Short-Term Sublethal In Situ Toxicity Assay with Hediste diversicolor (Polychaeta) for Estuarine Sediments Based on Postexposure Feeding|Environ. Toxicol. Chem.24(8): 2010-2018|2005|10.1897/04-473R1.1
115769|A||Otitoloju,A.A., O.K. Elegba, and A.O. Osibona|Biological Responses in Edible Crab, Callinectes amnicola that Could Serve as Markers of Heavy Metals Pollution|Environmentalist29(1): 37-46|2009|10.1007/s10669-008-9180-6
115770|A||Razinger,J., M. Dermastia, L. Drinovec, D. Drobne, A. Zrimec, and J.D. Koce|Antioxidative Responses of Duckweed (Lemna minor L.) to Short-Term Copper Exposure|Environ. Sci. Pollut. Res.14(3): 194-201|2007|10.1065/espr2006.11.364
115771|A||Vutukuru,S.S., S. Chintada, K. Radha Madhavi, J. Venkateswara Rao, and Y. Anjaneyulu|Acute Effects of Copper on Superoxide Dismutase, Catalase and Lipid Peroxidation in the Freshwater Teleost Fish, Esomus danricus|Fish Physiol. Biochem.32(3): 221-229|2006|10.1007/s10695-006-9004-x
115772|A||Wu,Z.X., N.Q. Gan, Q. Huang, and L.R. Song|Response of Microcystis to Copper Stress - do Phenotypes of Microcystis Make a Difference in Stress Tolerance?|Environ. Pollut.147(2): 324-330|2007|10.1016/j.envpol.2006.05.022
115773|A||Zapata,M., A. Tanguy, E. David, D. Moraga, and C. Riquelme|Transcriptomic Response of Argopecten purpuratus Post-Larvae to Copper Exposure Under Experimental Conditions|Gene442(1-2): 37-46|2009|10.1016/j.gene.2009.04.019
115774|T||Warner,J.R.|Efficacy of Selected Insecticides Using Arboreal Bioassays and Rubidium Marking of White-Footed Ants, Technomyrmex albipes (Hymenoptera: Formicidae)|Ph.D Thesis, University of Florida, Gainesville, FL:115 p.|2005|
115775|A||Debelius,B., J.M. Forja, A. DelValls, and L.M. Lubian|Toxicity and Bioaccumulation of Copper and Lead in Five Marine Microalgae|Ecotoxicol. Environ. Saf.72(5): 1503-1513|2009|10.1016/j.ecoenv.2009.04.006
115776|A||Dai,W., H. Du, L. Fu, C. Jin, Z. Xu, and H. Liu|Effects of Dietary Pb on Accumulation, Histopathology, and Digestive Enzyme Activities in the Digestive System of Tilapia (Oreochromis niloticus)|Biol. Trace Elem. Res.127:124-131|2009|10.1007/s12011-008-8227-3
115777|A||Croisetiere,L., L. Hare, and A. Tessier|A Field Experiment to Determine the Relative Importance of Prey and Water as Sources of As, Cd, Co, Cu, Pb, and Zn for the Aquatic Invertebrate Sialis velata|Environ. Sci. Technol.40(3): 873-879|2006|10.1021/es0516209
115778|A||Cooper,N.L., J.R. Bidwell, and A. Kumar|Toxicity of Copper, Lead, and Zinc Mixtures to Ceriodaphnia dubia and Daphnia carinata|Ecotoxicol. Environ. Saf.72:1523-1528|2009|10.1016/j.ecoenv.2009.03.002
115779|A||Bocchetti,R., D. Fattorini, B. Pisanelli, S. Macchia, L. Oliviero, F. Pilato, D. Pellegrini, and F. Regoli|Contaminant Accumulation and Biomarker Responses in Caged Mussels, Mytilus galloprovincialis, to Evaluate Bioavailability and Toxicological Effects of Remobilized Chemicals During Dredging and Disposal Operations in Har|Aquat. Toxicol.89:257-266|2008|10.1016/j.aquatox.2008.07.011
115780|A||Arunakumara,K.K.I.U., X. Zhang, and X. Song|Bioaccumulation of Pb2+ and Its Effects on Growth, Morphology and Pigment Contents of Spirulina (Arthrospira) platensis|J. Ocean Univ. China7(4): 397-403|2008|10.1007/s11802-008-0397-2
115781|A||Ansaldo,M., D.E. Nahabedian, C. Di Fonzo, and E.A. Wider|Effect of Cadmium, Lead and Arsenic on the Oviposition, Hatching and Embryonic Survival of Biomphalaria glabrata|Sci. Total Environ.407:1923-1928|2009|10.1016/j.scitotenv.2008.12.001
115782|A||Allert,A.L., J.F. Fairchild, R.J. DiStefano, C.J. Schmitt, W.G. Brumbaugh, and J.M. Besser|Ecological Effects of Lead Mining on Ozark Streams:  In-Situ Toxicity to Woodland Crayfish (Orconectes hylas)|Ecotoxicol. Environ. Saf.72:1207-1219|2009|10.1016/j.ecoenv.2008.08.005
115783|A||Alcorlo,P., M. Otero, M. Crehuet, A. Baltanas, and C. Montes|The Use of the Red Swamp Crayfish (Procambarus clarkii, Girard) as Indicator of the Bioavailability of Heavy Metals in Environmental Monitoring in the River Guadiamar (SW, Spain)|Sci. Total Environ.366:380-390|2006|10.1016/j.scitotenv.2006.02.023
115784|A||Adhikari,S., L. Ghosh, and S. Ayyappan|Combined Effects of Water pH and Alkalinity on the Accumulation of Lead, Cadmium and Chromium to Labeo rohita (Hamilton)|Int. J. Environ. Sci. Technol. (Tehran)3(3): 289-296|2006|10.1007/BF03325936
115785|A||Mishra,M., and S.K. Jain|Effect of Natural Ion Exchanger Chabazite for Remediation of Lead Toxicity:  An Experimental Study in Teleost Fish Heteropneustes fossilis|Asian J. Exp. Sci23(1): 39-44|2009|
115786|A||Paczkowska,M., M. Kozlowska, and P. Golinski|Oxidative Stress Enzyme Activity in Lemna minor L. Exposed to Cadmium and Lead|Acta Biol. Crac., Ser. Bot. 49(2): 33-37|2007|
115787|A||Locke,A., K.G. Doe, W.L. Fairchild, P.M. Jackman, and E.J. Reese|Preliminary Evaluation of Effects of Invasive Tunicate Management with Acetic Acid and Calcium Hydroxide on Non-Target Marine Organisms in Prince Edward Island, Canada|Aquat. Invasions4(1): 221-236|2009|10.3391/ai.2009.4.1.23
115788|A||Sarojini,R., R. Nagabhushanam, and M. Fingerman|Dopaminergic and Enkephalinergic Involvement in the Regulation of Blood Glucose in the Red Swamp Crayfish, Procambarus clarkii|Gen. Comp. Endocrinol.97(1): 160-170|1995|10.1006/gcen.1995.1015
115789|A||Bervoets,L., K. Van Campenhout, H. Reynders, D. Knapen, A. Covaci, and R. Blust|Bioaccumulation of Micropollutants and Biomarker Responses in Caged Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.72:720-728|2009|10.1016/j.ecoenv.2008.10.008
115790|A||Baumann,H.A., L. Morrison, and D.B. Stengel|Metal Accumulation and Toxicity Measured by PAM-Chlorophyll Fluorescence in Seven Species of Marine Macroalgae|Ecotoxicol. Environ. Saf.72(4): 1063-1075|2009|10.1016/j.ecoenv.2008.10.010
115791|A||Grosell,M., and K.V. Brix|High Net Calcium Uptake Explains the Hypersensitivity of the Freshwater Pulmonate Snail, Lymnaea stagnalis, to Chronic Lead Exposure|Aquat. Toxicol.91(4): 302-311|2009|10.1016/j.aquatox.2008.10.012
115792|A||Garcia-Garcia,G., S. Nandini, and S.S.S. Sarma|Turbidity Mitigates Lead Toxicity to Cladocerans (Cladocera)|Ecotoxicology15:425-436|2006|10.1007/s10646-006-0064-6
115793|A||Gardestrom,J., E. Gorokhova, M. Gilek, M. Grahn, B.E. Bengtsson, and M. Breitholtz|A Multilevel Approach to Predict Toxicity in Copepod Populations:  Assessment of Growth, Genetics, and Population Structure|Aquat. Toxicol.79:41-48|2006|10.1016/j.aquatox.2006.05.001
115794|A||Ciftci,N., B. Cicik, C. Erdem, and O. Ay|Effects of Lead Concentrations on Sera Parameters and Hematocrit Levels in Anguilla anguilla (Linnaeus, 1758)|J. Fish. Sci.2(4): 616-622|2008|
115795|A||Gerhardt,A.|Importance of Exposure Route for Behavioural Responses in Lumbriculus variegatus Muller (Oligochaeta:  Lumbriculida) in Short-Term Exposures to Pb|Environ. Sci. Pollut. Res.14(6): 430-434|2007|10.1065/espr2006.12.371
115801|A||Casas,S., J.L. Gonzalez, B. Andral, and D. Cossa|Relation Between Metal Concentration in Water and Metal Content of Marine Mussels (Mytilus galloprovincialis):  Impact of Physiology|Environ. Toxicol. Chem.27(7): 1543-1552|2008|10.1897/07-418.1
115802|A||Ali,E.H.|Comparative Study of the Effect of Stress by the Heavy Metals Cd+2, Pb+2, and Zn+2 on Morphological Characteristics of Saprolegnia delica Coker and Dictyuchus carpophorus Zopf.|Pol. J. Microbiol.56(4): 257-264|2007|
115803|T||Zhang,H., W. Xu, J. Guo, Z. He, and M. Ma|Coordinated Responses of Phytochelatins and Metallothioneins to Heavy Metals in Garlic Seedlings|Plant Sci.169(6): 1059-1065|2005|10.1016/j.plantsci.2005.07.010
115804|T||Willesen,J.L., A.T. Kristensen, A.L. Jensen, J. Heine, and J. Koch|Efficacy and Safety of Imidacloprid/Moxidectin Spot-on Solution and Fenbendazole in the Treatment of Dogs Naturally Infected with Angiostrongylus vasorum (Baillet, 1866)|Vet. Parasitol.147(3/4): 258-264|2007|10.1016/j.vetpar.2007.05.001
115805|A||Cardin,J.|Ammonia Acute and Chronic Tests with Mysidopsis bahia|Oct 15 Memo to D.Hansen, U.S.EPA, Narragansett, RI:5 p.|1986|
115806|A||Cardin,J.A.|Results of Acute Toxicity Tests Conducted with Ammonia at ERL, Narragansett|Memo to David Hansen, U.S.EPA, Narragansett, RI Dated August 15:12 p.|1986|
115807|A||Dornfeld,C.B., M. Moreira-Santos, E.L.G. Espindola, and R. Ribeiro|Do Larvae and Ovipositing Chironomus riparius (Diptera:  Chironomidae) Females Avoid Copper-Contaminated Environments?|Hum. Ecol. Risk Assess.15(1): 63-75|2009|10.1080/10807030802615162
115808|A||Gerhardt,A.|Screening the Toxicity of Ni, Cd, Cu, Ivermectin, and Imidacloprid in a Short-Term Automated Behavioral Toxicity Test with Tubifex tubifex (Muller 1774) (Oligochaeta)|Hum. Ecol. Risk Assess.15(1): 27-40|2009|10.1080/10807030802614983
115810|A||Youxian,Y., Q. Keming, L. Libo, G. Chengnian, and Z. Duxi|Sea Water Environment Copper Requirement of Egg Hatching and Naupliar Metamorphosis of Penaeus chinensis|Acta Oceanol. Sin.14(3): 421-428|1995|
115811|A||Van Aardt,W.J., and M. Hough|Acute Effects of Cu on Oxygen Consumption and 96 Hr-LC50 Values in the Freshwater Fish Tilapia sparrmani (Teleostei:  Cichlidae) in Mooi River Hard Water, South Africa|Afr. J. Aquat. Sci.31(2): 305-311|2006|10.2989/16085910609503900
115812|A||Jacobson,S.V., M. Trucksis, A.S. Kane, and R. Reimschuessel|Superoxide Production in Phagocytes Obtained from Mycobacterium marinum-Stimulated Goldfish (Carassius auratus) that were Exposed to Copper|Am. J. Vet. Res.60(6): 669-675|1999|10.2460/ajvr.1999.60.06.669
115813|T||Beckett,R.P., and D.H. Brown|Natural and Experimentally-Induced Zinc and Copper Resistance in the Lichen Genus Peltigera|Ann. Bot.52:43-50|1983|10.1093/oxfordjournals.aob.a086550
115814|T||Endo,T., M. Nemoto, M. Minami, M. Yoshioka, H. Saito, and S.H. Parvez|Changes in the Afferent Abdominal Vagal Nerve Activity Induced by Cisplatin and Copper Sulfate in the Ferret|Biog. Amines11(5): 399-407|1995|
115815|T||El-Tayeb,M.A., A.E. El-Enany, and N.L. Ahmed|Salicylic Acid-Induced Adaptive Response to Copper Stress in Sunflower (Helianthus annuus L.)|Plant Growth Regul.50(2/3): 191-199|2006|10.1007/s10725-006-9118-2
115817|A||Fonseca,V., A. Serafim, R. Co., M.J. Bebianno, and H. Cabral|Effect of Copper Exposure on Growth, Condition Indices and Biomarker Response in Juvenile Sole Solea senegalensis|Sci. Mar.73(1): 51-58|2009|10.3989/scimar.2009.73n1051
115818|A||Gama-Flores,J.L., S.S.S. Sarma, and S. Nandini|Combined Effects of Exposure Time and Copper Toxicity on the Demography of Moina Macrocopa (Crustacea:  Cladocera)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(1): 86-93|2009|
115819|T||Hu,K.D., L.Y. Hu, Y.H. Li, F.Q. Zhang, and H. Zhang|Protective Roles of Nitric Oxide on Germination and Antioxidant Metabolism in Wheat Seeds Under Copper Stress|Plant Growth Regul.53(3): 173-183|2007|10.1007/s10725-007-9216-9
115820|T||Bouazizi,H., H. Jouili, and E. El Ferjani|Effects of Copper Excess on Growth, H2O2 Production and Peroxidase Activities in Maize Seedlings (Zea mays L.)|Pak. J. Biol. Sci.10(5): 751-756|2007|10.3923/pjbs.2007.751.756
115821|A||Bini,G., G.A. Williams, and G. Chelazzi|Neuronal Cholinergic Control is Involved in the Modification of Cardiac Activity and Circulation Induced by Waterborne Copper in the Chiton Acanthopleura japonica|J. Exp. Mar. Biol. Ecol.338(1): 43-49|2006|10.1016/j.jembe.2006.06.026
115822|T||Backor,M., B. Pawlik-Skowronska, J. Bud'ova, and T. Skowronski|Response to Copper and Cadmium Stress in Wild-Type and Copper Tolerant Strains of the Lichen Alga Trebouxia erici:  Metal Accumulation, Toxicity and Non-Protein Thiols|Plant Growth Regul.52(1): 17-27|2007|10.1007/s10725-007-9173-3
115823|T||Backor,M., A. Gibalova, J. Bud'ova, J. Mikes, and P. Solar|Cadmium-Induced Stimulation of Stress-Protein hsp70 in Lichen Photobiont Trebouxia erici|Plant Growth Regul.50(2/3): 159-164|2006|10.1007/s10725-006-9112-8
115824|T||Ali,M.B., E.J. Hahn, and K.Y. Paek|Copper-Induced Changes in the Growth, Oxidative Metabolism, and Saponin Production in Suspension Culture Roots of Panax ginseng in Bioreactors|Plant Cell Rep.25(10): 1122-1132|2006|10.1007/s00299-006-0174-x
115825|A||Sulaiman,N., and W.E.W.M. Noor|Acute Toxicity Testings of Copper, Cadmium and Ammonia to Penaeus monodon and Lates calcarifer|Newsl. FRI, Papua New Guinea2(2): 5-7|1996|
115826|T||Wakazono,H., I. Gardner, E. Eliasson, M.W.H. Coughtrie, J.G. Kenna, and J. Caldwell|Immunochemical Identification of Hepatic Protein Adducts Derived from Estragole|Chem. Res. Toxicol.11(8): 863-872|1998|10.1021/tx9702188
115827|T||Daw,Z.Y., G.E. El-Baroty, and E.A. Mahmoud|Inhibition of Aspergillus parasiticus Growth and Aflatoxin Production by Some Essential Oils|Chem. Mikrobiol. Tech. Lebensm.16(5-6): 129-135|1994|
115828|A||Bauer,I., K. Weber, W. Ernst, and V. Weigelt|Metabolism of Octachlorostyrene in the Blue Mussel (Mytilus edulis)|Chemosphere18(7-8): 1573-1579|1989|10.1016/0045-6535(89)90047-7
115829|A||Ben-Bassat,D., and A.M. Mayer|Light-Induced Hg Volatilization and O2 Evolution in Chlorella and the Effect of DCMU and Methylamine|Physiol. Plant. (Multiple Languages)42:33-38|1978|10.1111/j.1399-3054.1978.tb01534.x
115830|A||Benoit,D.A.|MATC Levels|Memo to J.G.Eaton, R.W.Andrew, C.E.Stephan, and J.M.McKim, U.S.EPA, Duluth, MN:11 p.|1976|
115831|A||Behan,M.J., T.B. Kinraide, and W.I. Selser|Lead Accumulation in Aquatic Plants from Metallic Sources Including Shot|J. Wildl. Manag.43:240-244|1979|10.2307/3800663
115833|A||Birge,W.J., and J.A. Black|In Situ Acute/Chronic Toxicological Monitoring of Industrial Effluents for the NPDES Biomonitoring Program Using Fish and Amphibian Embryo-Larval Stages as Test Organisms|Final Rep.WOEP-82-001, EPA Contract No.68-01-5052, Off.of Water Enforcement and Permits, U.S.EPA, Washington, DC:121 p.|1981|
115834|T||Yildiz,M., I.H. Cigerci, M. Konuk, A.F. Fidan, and H. Terzi|Determination of Genotoxic Effects of Copper Sulphate and Cobalt Chloride in Allium cepa Root Cells by Chromosome Aberration and Comet Assays|Chemosphere75(7): 934-938|2009|10.1016/j.chemosphere.2009.01.023
115835|A||Apte,S.C., G.E. Batley, K.C. Bowles, P.L. Brown, N. Creighton, L.T. Hales, R.V. Hyne, M. Julli, S.J. Markich, F. Pablo,|A Comparison of Copper Speciation Measurements with the Toxic Responses of Three Sensitive Freshwater Organisms|Environ. Chem.2(1): 320-330|2005|10.1071/EN05048
115836|T||Khatun,S., M.B. Ali, E.J. Hahn, and K.Y. Paek|Copper Toxicity in Withania somnifera: Growth and Antioxidant Enzymes Responses of In Vitro Grown Plants|Environ. Exp. Bot.64(3): 279-285|2008|10.1016/j.envexpbot.2008.02.004
115837|A||Woo,S., S. Yum, H.S. Park, T.K. Lee, and J.C. Ryu|Effects of Heavy Metals on Antioxidants and Stress-Responsive Gene Expression in Javanese Medaka (Oryzias javanicus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 289-299|2009|10.1016/j.cbpc.2008.08.002
115838|T||Venkateswarlu,S., and N.M. Misra|Effect of Zinc and Copper on Yield and Nutrient Uptake in Rainfed Wheat|Indian J. Agron.32(4): 306-309|1987|
115839|T||Ozcan,M.M., J.C. Chalchat, D. Arslan, A. Ates, and A. Unver|Comparative Essential Oil Composition and Antifungal Effect of Bitter Fennel (Foeniculum vulgare ssp. Piperitum) Fruit Oils Obtained During Different Vegetation|J. Med. Food9(4): 552-561|2006|10.1089/jmf.2006.9.552
115840|A||Svensson,B.M., L. Mathiasson, L. Martensson, and S. Bergstrom|Artemia salina as Test Organism for Assessment of Acute Toxicity of Leachate Water from Landfills|Environ. Monit. Assess.102(1-3): 309-321|2005|10.1007/s10661-005-6029-z
115841|T||Pullar,E.M.|The Toxicity of Various Copper Compounds and Mixtures for Domesticated Birds|Aust. Vet. J.16:147-162|1940|10.1111/j.1751-0813.1940.tb01318.x
115842|T||Al-Masri,M.I., Y. Elad, A. Sharon, and R. Barakat|Ethylene Production by Sclerotinia sclerotiorum and Influence of Exogenously Applied Hormone and Its Inhibitor Aminoethoxyvinylglycine on White Mold|Crop Prot.25(4): 356-361|2006|10.1016/j.cropro.2005.05.010
115843|T||Henneberry,T.J., T. Meng, W.D. Hutchison, L.A. Bariola, and B. Deeter|Effects of Ethephon on Boll Weevil (Coleoptera:  Curculionidae) Population Development, Cotton Fruiting, and Boll Opening|J. Econ. Entomol.81(2): 628-633|1988|10.1093/jee/81.2.628
115844|T||Khan,M.A., and I.A. Ungar|Seed Germination of Triglochin maritima as Influenced by Salinity and Dormancy Relieving Compounds|Biol. Plant. (Praha)44(2): 301-303|2001|10.1023/A:1010272030538
115845|T||Parajulee,M.N., and J.E. Slosser|Effect of Ethephon on Efficacy of Grandlure-Baited Pheromone Traps in Surveying Fall and Spring Populations of the Boll Weevil (Coleoptera: Curculionidae)|Environ. Entomol.30(1): 64-69|2001|10.1603/0046-225X-30.1.64
115846|A||Sarma,S.S.S., P. Brena-Bustamante, and S. Nandini|Body Size and Population Growth of Brachionus patulus (Rotifera) in Relation to Heavy Metal (Copper and Mercury) Concentrations|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(5): 547-553|2008|
115847|A||Vutukuru,S.S., J.S. Pauleena, J.V. Rao, and Y. Anjaneyulu|Architectural Changes in the Gill Morphology of the Freshwater Fish, Esomus danricus as Potential Biomarkers of Copper Toxicity Using Automated Video Tracking System|Environ. Bioindic.2(1): 3-14|2007|10.1080/15555270701263259
115848|A||Campagna,A.F., R. Fracacio, B.K. Rodrigues, M.N. Eler, N. Fenerich-Verani, and E.L.G. Espindola|Effects of the Copper in the Survival, Growth and Gill Morphology of Danio rerio (Cypriniformes, Cyprinidae)|Acta Limnol. Brasil.20(3): 253-259|2008|
115849|A||Ryan,A.C., J.R. Tomasso, and S.J. Klaine|Influence of pH, Hardness, Dissolved Organic Carbon Concentration, and Dissolved Organic Matter Source on the Acute Toxicity of Copper to Daphnia magna in Soft Waters:  Implications for the Biotic Ligand Model|Environ. Toxicol. Chem.28(8): 1663-1670|2009|10.1897/08-361.1
115850|T||Soli,N.E., and I. Nafstad|Effects of Daily Oral Administration of Copper to Goats|Acta Vet. Scand.19:561-568|1978|10.1186/BF03547595
115852|A||Nacorda,J.O., M.R. Martinez-Goss, N.K. Torreta, and F.E. Merca|Metal Resistance and Removal by Two Strains of the Green Alga, Chlorella vulgaris Beijerinck, Isolated from Laguna de Bay, Philippines|J. Appl. Phycol.19:701-710|2007|10.1007/s10811-007-9216-1
115853|A||Kwok,K.W.H., E.P.M. Grist, and K.M.Y. Leung|Acclimation Effect and Fitness Cost of Copper Resistance in the Marine Copepod Tigriopus japonicus|Ecotoxicol. Environ. Saf.72(2): 358-364|2009|10.1016/j.ecoenv.2008.03.014
115854|A||Kwok,K.W.H., K.M.Y. Leung, V.W.W. Bao, and J.S. Lee|Copper Toxicity in the Marine Copepod Tigropus japonicus:  Low Variability and High Reproducibility of Repeated Acute and Life-Cycle Tests|Mar. Pollut. Bull.57(6-12): 632-636|2008|10.1016/j.marpolbul.2008.03.026
115855|A||Ferreira-Cravo,M., J. Ventura-Lima, J.Z. Sandrini, L.L. Amado, L.A. Geracitano, M. Rebelo, A. Bianchini, and J.M. Monse|Antioxidant Responses in Different Body Regions of the Polychaeta Laeonereis acuta (Nereididae) Exposed to Copper|Ecotoxicol. Environ. Saf.72(2): 388-393|2009|10.1016/j.ecoenv.2008.07.003
115856|A||Gama-Flores,J.L., M.E. Castellanos-Paez, S.S.S. Sarma, and S. Nandini|Life Table Demography of Ceriodaphnia dubia (Cladocera) Exposed to Copper at Different Levels and Periods|J. Environ. Biol.28(3): 691-696|2007|
115857|AT||Hoang,T.C., E.C. Rogevich, G.M. Rand, and R.A. Frakes|Copper Uptake and Depuration by Juvenile and Adult Florida Apple Snails (Pomacea paludosa)|Ecotoxicology17(7): 605-615|2008|10.1007/s10646-008-0243-8
115858|A||Johnson,B.M., M.M. Chao, O.R. Tedrow, A.D. McQueen, and J.H.,Jr. Rodgers|Responses of Lepomis macrochirus, Pimephales promelas, Hyalella azteca, Ceriodaphnia dubia, and Daphnia magna to Exposures of Algimycin PWF and Copper Sulfate Pentahydrate|J. Aquat. Plant Manag.46:176-183|2008|
115859|A||Karner,D.A., M.M. Shafer, J.T. Overdier, J.D.C. Hemming, and W.C. Sonzogni|An Algal Probe for Copper Speciation in Marine Waters:  Laboratory Method Development|Environ. Toxicol. Chem.25(4): 1106-1113|2006|10.1897/05-214R.1
115860|A||Vedamanikam,V.J., and N.A.M. Shazili|The Chironomid Larval Tube, a Mechanism to Protect the Organism from Environmental Disturbances?|Toxicol. Environ. Chem.91(1): 171-176|2009|10.1080/02772240802074934
115861|T||Mediouni,C., O. Benzarti, B. Tray, M.H. Ghorbel, and F. Jemal|Cadmium and Copper Toxicity for Tomato Seedlings|Agron. Sustain. Dev.26(4): 227-232|2006|10.1051/agro:2006008
115862|T||Ozdener,Y., and H. Guray Kutbay|Toxicity of Copper, Cadmium, Nickel, Lead and Zinc on Seed Germination and Seedling Growth in Eruca sativa|Fresenius Environ. Bull.18(1): 26-31|2009|
115863|A||Varo,I., B. Nunes, F. Amat, A. Torreblanca, L. Guilhermino, and J.C. Navarro|Effect of Sublethal Concentrations of Copper Sulphate on Seabream Sparus aurata Fingerlings|Aquat. Living Resour.20(3): 263-270|2007|10.1051/alr:2007039
115864|A||Ungherese,G., and A. Ugolini|Sandhopper Solar Orientation as a Behavioural Biomarker of Trace Metals Contamination|Environ. Pollut.157(4): 1360-1364|2009|10.1016/j.envpol.2008.11.038
115865|A||Simpson,S.L., and C.K. King|Exposure-Pathway Models Explain Causality in Whole-Sediment Toxicity Tests|Environ. Sci. Technol.39(3): 837-843|2005|10.1021/es048815l
115866|A||Nogueira,P.F.M., M.D.G.G. Melao, A.T. Lombardi, and A.A.H. Vieira|The Effects of Anabaena spiroides (Cyanophyceae) Exopolysaccharide on Copper Toxicity to Simocephalus serrulatus (Cladocera, Daphnidae)|Freshw. Biol.50(9): 1560-1567|2005|10.1111/j.1365-2427.2005.01406.x
115867|A||Rose,A., A.M. Carruthers, J. Stauber, R. Lim, and S. Blockwell|Development of an Acute Toxicity Test with the Marine Copepod Acartia sinjiensis|Australas. J. Ecotoxicol.12(2): 73-81|2006|
115868|A||Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley|The Effect of Bacteria on the Sensitivity of Microalgae to Copper in Laboratory Bioassays|Chemosphere74(9): 1266-1274|2009|10.1016/j.chemosphere.2008.10.049
115869|A||Natale,O.E., C.E. Gomez, and M.V. Leis|Application of the Biotic Ligand Model for Regulatory Purposes to Selected Rivers in Argentina with Extreme Water-Quality Characteristics|Integr. Environ. Assess. Manag.3(4): 517-528|2007|10.1897/IEAM_2006-058.1
115870|A||Lee,T.M., Y.L. Huang, and M.H. Chen|Copper Induction of Phosphorus Deficiency in Ulva fasciata (Ulvales, Chlorophyta)|Phycologia44(6): 620-628|2005|10.2216/0031-8884(2005)44[620:CIOPDI]2.0.CO;2
115871|T||Scott-Fordsmand,J.J., K. Maraldo, and P.J. Van den Brink|The Toxicity of Copper Contaminated Soil Using a Gnotobiotic Soil Multi-Species Test System (SMS)|Environ. Int.34(4): 524-530|2008|10.1016/j.envint.2007.11.008
115872|T||Jiang,L.Y., X.E. Yang, and J.M. Chen|Copper Tolerance and Accumulation of Elsholtzia splendens Nakai in a Pot Environment|J. Plant Nutr.31(8): 1382-1392|2008|10.1080/01904160802206257
115873|A||Malec,P., M. Maleva, M.N.V. Prasad, and K. Strzalka|Copper Toxicity in Leaves of Elodea canadensis Michx.|Bull. Environ. Contam. Toxicol.82(5): 627-632|2009|10.1007/s00128-009-9650-7
115874|T||Nelson,B.K., D.L. Snyder, and P.B. Shaw|Developmental Toxicity Interactions of Methanol and Radiofrequency Radiation or 2-Methoxyethanol in Rats|Int. J. Toxicol.20(2): 89-100|2001|10.1177/109158180102000206
115876|T||Kim,Y.K., D. Li, and P.E. Kolattukudy|Induction of Ca2+-Calmodulin Signaling by Hard-Surface Contact Primes Colletotrichum gloeosporioides Conidia to Germinate and Form Appressoria|J. Bacteriol.180(19): 5144-5150|1998|10.1128/JB.180.19.5144-5150.1998
115877|A||Marbaniang,T., and S. Nazareth|Isolation of Halotolerant Penicillium Species from Mangroves and Salterns and Their Resistance to Heavy Metals|Curr. Sci. (Bangalore)92(7): 895-897|2007|
115878|A||Pan,K., and W.X. Wang|Biodynamics to Explain the Difference of Copper Body Concentrations in Five Marine Bivalve Species|Environ. Sci. Technol.43(6): 2137-2143|2009|10.1021/es802888u
115879|T||Roberts,P.D., M.T. Momol, L. Ritchie, S.M. Olson, J.B. Jones, and B. Balogh|Evaluation of Spray Programs Containing Famoxadone Plus Cymoxanil, Acibenzolar-S-Methyl, and Bacillus subtilis Compared to Copper Sprays for Management of Bacterial Spot on Tomato|Crop Prot.27(12): 1519-1526|2008|10.1016/j.cropro.2008.06.007
115880|A||Santovito,G., A. Formigari, F. Boldrin, and E. Piccinni|Molecular and Functional Evolution of Tetrahymena Metallothioneins:  New Insights Into the Gene Family of Tetrahymena thermophila|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.144(4): 391-397|2007|10.1016/j.cbpc.2006.11.010
115881|T||Thomas,G.J., M.W. Sweetingham, and K.G. Adcock|Application of Fungicides to Reduce Yield Loss in Anthracnose-Infected Lupins|Crop Prot.27(7): 1071-1077|2008|10.1016/j.cropro.2007.12.012
115882|T||Vijver,M.G., M. Koster, and W.J.G.M. Peijnenburg|Impact of pH on Cu Accumulation Kinetics in Earthworm Cytosol|Environ. Sci. Technol.41(7): 2255-2260|2007|10.1021/es061212k
115883|T||Volkov,K.S., V.P. Kholodova, and V.V. Kuznetsov|Plant Adaptation to Salinity Reduces Copper Toxicity|Dokl. Biol. Sci.411:479-481|2006|10.1134/S0012496606060159
115884|A||Amiard-Triquet,C., B. Berthet, L. Joux, and H. Perrein-Ettajani|Significance of Physicochemical Forms of Storage in Microalgae in Predicting Copper Transfer to Filter-Feeding Oysters (Crassostrea gigas)|Environ. Toxicol.21(1): 1-7|2006|10.1002/tox.20149
115885|T||Binder,B.M., F.I. Rodriguez, A.B. Bleecker, and S.E. Patterson|The Effects of Group 11 Transition Metals, Including Gold, on Ethylene Binding to the ETR1 Receptor and Growth of Arabidopsis thaliana|FEBS Lett.581(26): 5105-5109|2007|10.1016/j.febslet.2007.09.057
115886|T||Rahman,T.M., and H.J.F. Hodgson|The Effects of Early and Late Administration of Inhibitors of Inducible Nitric Oxide Synthase in a Thioacetamide-Induced Model of Acute Hepatic Failure in the Rat|J. Hepatol.38(5): 583-590|2003|10.1016/S0168-8278(03)00050-3
115888|A||Tuney,I., D. Unal, and A. Sukatar|Effects of External Polyamines on DNA Under the Highest Copper Toxicity in Ulva lactuca L. and Genotoxicity Detection by RAPD-PCR Assay|Fresenius Environ. Bull.16(12b): 1667-1670|2007|
115889|T||Manjunatha,H., and K. Srinivasan|Protective Effect of Dietary Curcumin and Capsaicin on Induced Oxidation of Low-Density Lipoprotein, Iron-Induced Hepatotoxicity and Carrageenan-Induced Inflammation in Experimental Rats|FEBS J.273(19): 4528-4537|2006|10.1111/j.1742-4658.2006.05458.x
115890|T||McIntosh,K.B., and P.C. Bonham-Smith|The Two Ribosomal Protein L23A Genes are Differentially Transcribed in Arabidopsis thaliana|Genome48(3): 443-454|2005|10.1139/g05-007
115891|T||Yu,L., G. Coimbatore, G.P. Cobb, W.A. Jackson, S.T. McMurry, P.N. Smith, and T.A. Anderson|Evaluation of Passive Sampling Devices as Potential Surrogates of Metal Uptake into Soybean|J. Plant Nutr.31(1): 1-17|2008|10.1080/01904160701741719
115892|T||Khandare,A., P. Suresh, P.U. Kumar, N. Lakshmaiah, N. Manjula, and G.S. Rao|Beneficial Effect of Copper Supplementation on Deposition of Fluoride in Bone in Fluoride- and Molybdenum-Fed Rabbits|Calcif. Tissue Int.77(4): 233-238|2005|10.1007/s00223-005-0071-2
115893|T||Marceau,N., N. Aspin, and A. Sass-Kortsak|Absorption of Copper 64 from Gastrointestinal Tract of the Rat|Am. J. Physiol.218(2): 377-383|1970|10.1152/ajplegacy.1970.218.2.377
115894|T||Fisher,C., A.P. Laursen-Jones, K.J. Hill, and W.S. Hardy|The Effect of Copper Sulphate on Performance and the Structure of the Gizzard in Broilers|Br. Poult. Sci.14:55-68|1973|10.1080/00071667308415998
115895|T||Paulus,A.O., J. Nelson, S. Besemer, B. Brendler, and B. Hall|New Systemic Fungicides for Control of Ornamental and Vegetable Diseases|Meded. Fac. Landbouwwet. Univ. Gent45(2): 245-252|1980|
115896|T||Vos,G.J.M., B. Duquet, J.C. Vedy, and J.A. Neyroud|The Course of 15N-Ammonium Nitrate in a Spring Barley Cropping System|Plant Soil150(2): 167-175|1993|10.1007/BF00013014
115897|T||Rubio,F., M. Nieves-Cordones, F. Aleman, and V. Martinez|Relative Contribution of AtHAK5 and AtAKT1 to K+ Uptake in the High-Affinity Range of Concentrations|Physiol. Plant. (Multiple Languages)134(4): 598-608|2008|10.1111/j.1399-3054.2008.01168.x
115898|T||Watson,C.S., S.E. White, J.H. Homan, K.A. Kimura, J.F. Brien, L. Fraher, J.R.G. Challis, and A.D. Bocking|Increased Cerebral Extracellular Adenosine and Decreased PGE2 During Ethanol-Induced Inhibition of FBM|J. Appl. Physiol.86(4): 1410-1420|1999|10.1152/jappl.1999.86.4.1410
115899|T||Watson,C.S., J.H. Homan, S.E. White, J.R.G. Challis, and A.D. Bocking|Prostaglandin E2 Inhibition of Fetal Breathing Movements is not Sustained During Prolonged Reduced Uterine Blood Flow in Sheep|Can. J. Physiol. Pharmacol.76(9): 858-866|1998|10.1139/y98-109
115900|T||Beveridge,S.J., I.R. Garrett, M.W. Whitehouse, B. Vernon-Roberts, and P.M. Brooks|Biodistribution of 64Cu in Inflamed Rats Following Administration of Two Anti-Inflammatory Copper Complexes|Agents Actions17(1): 104-111|1985|10.1007/BF01966692
115901|A||Beatty,D.D.|An Experimental Study of the Toxicity of Sodium Bicarbonate, Sodium Chloride, and Sodium Sulfate to Rainbow Trout|M.S.Thesis, University of Wyoming, Laramie, WY:69 p.|1959|
115902|A||Mitchum,D.L.|An Experimental Study of the Toxicity of Calcium Carbonate, Calcium Sulfate, Magnesium Carbonate, and Magnesium Sulfate to Rainbow Trout|M.S.Thesis, University of Wyoming, Laramie, WY:59 p.|1960|
115903|A||E.G. and G. Bionomics|The Chronic Toxicity of Sulfate to the Water Flea (Daphnia magna)|Res.Rep.No.BN-79-10-546, Submitted to Smelter Environ.Res.Assoc., Farmington, Michigan by EG&G Bionomics, Aquat.Toxicol.Lab., Wareham, MA:17 p.|1979|
115904|A||E.G. and G. Bionomics|The Effects of Sulfate on Eggs and Fry of Rainbow Trout (Salmo gairdneri) During Continuous Aqueous Exposure|Report #BW-78-1-006:14 p.|1978|
115905|A||Lamelas,C., and V.I. Slaveykova|Comparison of Cd(II), Cu(II), and Pb(II) Biouptake by Green Algae in the Presence of Humic Acid|Environ. Sci. Technol.41(11): 4172-4178|2007|10.1021/es063102j
115906|T||Li,W., M. Zhang, and H. Shu|Distribution and Fractionation of Copper in Soils of Apple Orchards|Environ. Sci. Pollut. Res.12(3): 168-172|2005|10.1065/espr2005.04.243
115908|A||Fortin,C., F.H. Denison, and J. Garnier-Laplace|Metal-Phytoplankton Interactions:  Modeling the Effect of Competing Ions (H+, Ca2+, and Mg2+) on Uranium Uptake|Environ. Toxicol. Chem.26(2): 242-248|2007|10.1897/06-298R.1
115909|T||Kojouri,G.A., and A. Shirazi|Serum Concentrations of Cu, Zn, Fe, Mo and Co in Newborn Lambs Following Systemic Administration of Vitamin E and Selenium to the Pregnant Ewes|Small Ruminant Res.70(2/3): 136-139|2007|10.1016/j.smallrumres.2006.02.002
115910|T||Zeiger,E., L. Recio, T.R. Fennell, J.K. Haseman, R.W. Snyder, and M. Friedman|Investigation of the Low-Dose Response in the In Vivo Induction of Micronuclei and Adducts by Acrylamide|Toxicol. Sci.107(1): 247-257|2009|10.1093/toxsci/kfn214
115911|T||Zhao,F., T. Cai, M. Liu, G. Zheng, W. Luo, and J. Chen|Manganese Induces Dopaminergic Neurodegeneration via Microglial Activation in a Rat Model of Manganism|Toxicol. Sci.107(1): 156-164|2009|10.1093/toxsci/kfn213
115912|T||Zou,W., S.S. Devi, E. Sparkenbaugh, H.S. Younis, R.A. Roth, and P.E. Ganey|Hepatotoxic Interaction of Sulindac with Lipopolysaccharide:  Role of the Hemostatic System|Toxicol. Sci.108(1): 184-193|2009|10.1093/toxsci/kfn259
115914|A||Nguyen-Viet,H., D. Gilbert, E.A.D. Mitchell, P.M. Badot, and N. Bernard|Effects of Experimental Lead Pollution on the Microbial Communities Associated with Sphagnum fallax (Bryophyta)|Microb. Ecol.54:232-241|2007|10.1007/s00248-006-9192-z
115915|A||Bhilave,M.P., D.V. Muley, and V.Y. Deshpande|Biochemical Changes in the Fish Cirrhinus mrigala After Acute and Chronic Exposure of Heavy Metals|Nat. Environ. Pollut. Technol.7(1): 65-71|2008|
115916|T||Lee,J.S., W.O. Ward, D.C. Wolf, J.W. Allen, C. Mills, M.J. DeVito, and J.C. Corton|Coordinated Changes in Xenobiotic Metabolizing Enzyme Gene Expression in Aging Male Rats|Toxicol. Sci.106(1): 263-283|2008|10.1093/toxsci/kfn144
115917|T||Rogers,R., G. Ouellet, C. Brown, B. Moyer, T. Rasoulpour, and M. Hixon|Cross-Talk Between the Akt and NF-kappaB Signaling Pathways Inhibits MEHP-Induced Germ Cell Apoptosis|Toxicol. Sci.106(2): 497-508|2008|10.1093/toxsci/kfn186
115919|T||Prestifilippo,J.P., J. Fernandez-Solari, A. De Laurentiis, C.E. Mohn, C. De la Cal, R. Reynoso, W.L. Dees, and V. Retto|Acute Effect of Manganese on Hypothalamic Luteinizing Hormone Releasing Hormone Secretion in Adult Male Rats:  Involvement of Specific Neurotransmitter Systems|Toxicol. Sci.105(2): 295-302|2008|10.1093/toxsci/kfn135
115920|T||Nishimura,J., Y. Dewa, T. Okamura, M. Jin, Y. Saegusa, M. Kawai, T. Umemura, M. Shibutani, and K. Mitsumori|Role of Nrf2 and Oxidative Stress on Fenofibrate-Induced Hepatocarcinogenesis in Rats|Toxicol. Sci.106(2): 339-349|2008|10.1093/toxsci/kfn174
115921|T||Min,K.S., H. Ueda, T. Kihara, and K. Tanaka|Increased Hepatic Accumulation of Ingested Cd is Associated with Upregulation of Several Intestinal Transporters in Mice Fed Diets Deficient in Essential Metals|Toxicol. Sci.106(1): 284-289|2008|10.1093/toxsci/kfn146
115923|T||Gao,S., Y. Wang, P. Zhang, Y. Dong, and B. Li|Subacute Oral Exposure to Dibromoacetic Acid Induced Immunotoxicity and Apoptosis in the Spleen and Thymus of the Mice|Toxicol. Sci.105(2): 331-341|2008|10.1093/toxsci/kfn139
115925|T||Henjakovic,M., C. Martin, H.G. Hoymann, K. Sewald, A.R. Ressmeyer, C. Dassow, G. Pohlmann, N. Krug, S. Uhlig, and A. Br|Ex Vivo Lung Function Measurements in Precision-Cut Lung Slices (PCLS) from Chemical Allergen-Sensitized Mice Represent a Suitable Alternative to In Vivo Studies|Toxicol. Sci.106(2): 444-453|2008|10.1093/toxsci/kfn178
115927|T||Pirnay,S., B. Megarbane, X. Decleves, P. Risede, S.W. Borron, S. Bouchonnet, B. Perrin, M. Debray, N. Milan, T. Duarte,|Buprenorphine Alters Desmethylflunitrazepam Disposition and Flunitrazepam Toxicity in Rats|Toxicol. Sci.106(1): 64-73|2008|10.1093/toxsci/kfn163
115928|A||Srivastava,P.N., and A.S. Narain|Catfish Blood Chemistry Under Environmental Stress|Experientia41(7): 955-957|1985|10.1007/BF01970031
115929|T||Ueyama,J., M. Kamijima, K. Asai, A. Mochizuki, D. Wang, T. Kondo, T. Suzuki, K. Takagi, K. Takagi, H. Kanazawa, K.I. Mi|Effect of the Organophosphorus Pesticide Diazinon on Glucose Tolerance in Type 2 Diabetic Rats|Toxicol. Lett.182(1-3): 42-47|2008|10.1016/j.toxlet.2008.08.004
115930|T||Chouhan,S., and S.J. Flora|Effects of Fluoride on the Tissue Oxidative Stress and Apoptosis in Rats:  Biochemical Assays Supported by IR Spectroscopy Data|Toxicology254(1-2): 61-67|2008|10.1016/j.tox.2008.09.008
115931|T||Nasuti,C., M.L. Falcioni, I.E. Nwankwo, F. Cantalamessa, and R. Gabbianelli|Effect of Permethrin plus Antioxidants on Locomotor Activity and Striatum in Adolescent Rats|Toxicology251(1-3): 45-50|2008|10.1016/j.tox.2008.07.049
115932|T||Abu-Qare,A.W., H.B. Suliman, and M.B. Abou-Donia|Induction of Urinary Excretion of 3-Nitrotyrosine, a Marker of Oxidative Stress, Following Administration of Pyridostigmine Bromide, DEET (N,N-Diethyl-m-Toluamide) and Permethrin, Alone and in Combination in Rats|Toxicol. Lett.121(2): 127-134|2001|10.1016/S0378-4274(01)00330-7
115933|T||Abu-Qare,A., and M. Abou-Donia|Increased 8-Hydroxy-2'-Deoxyguanosine, a Biomarker of Oxidative DNA Damage in Rat Urine Following a Single Dermal Dose of DEET (N,N-Diethyl-m-Toluamide), and Permethrin, Alone and in Combination|Toxicol. Lett.117(3): 151-160|2000|10.1016/S0378-4274(00)00257-5
115934|T||Auerbach,S.S., J. Mahler, G.S. Travlos, and R.D. Irwin|A Comparative 90-Day Toxicity Study of Allyl Acetate, Allyl Alcohol and Acrolein|Toxicology253(1-3): 79-88|2008|10.1016/j.tox.2008.08.014
115935|T||Aggarwal,M., S.B. Naraharisetti, S. Dandapat, G.H. Degen, and J.K. Malik|Perturbations in Immune Responses Induced by Concurrent Subchronic Exposure to Arsenic and Endosulfan|Toxicology251(1-3): 51-60|2008|10.1016/j.tox.2008.07.050
115936|A||Pyle,G.G.|The Toxicity and Bioavailability of Nickel and Molybdenum to Standard Toxicity-Test Fish Species and Fish Species Found in Northern Canadian Lakes|Ph.D. Thesis, The University of Saskatchewan, Canada:273 p.|2000|
115937|T||Sanders,J.M., J.R. Bucher, J.C. Peckham, G.E. Kissling, M.R. Hejtmancik, and R.S. Chhabra|Carcinogenesis Studies of Cresols in Rats and Mice|Toxicology257(1-2): 33-39|2009|10.1016/j.tox.2008.12.005
115938|T||Rosales,R., D. Garrido, P. Ramos, and J.M. Ramos|Ethylene can Reduce Prays oleae Attack in Olive Trees|Crop Prot.25(2): 140-143|2006|10.1016/j.cropro.2005.03.014
115939|T||Bunger,M.K., E. Glover, S.M. Moran, J.A. Walisser, G.P. Lahvis, E.L. Hsu, and C.A. Bradfield|Abnormal Liver Development and Resistance to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Toxicity in Mice Carrying a Mutation in the DNA-Binding Domain of the Aryl Hydrocarbon Receptor|Toxicol. Sci.106(1): 83-92|2008|10.1093/toxsci/kfn149
115941|A||Atici,T., H. Katircioglu, and B. Akin|Sensitivity of Freshwater Microalgal Strains (Chlorella vulgaris Beijerinck and Scenedesmus obliquus (Turpin) (Kutzing) to Heavy Metals|Fresenius Environ. Bull.17(3): 268-274|2008|
115942|T||Weiss,K.C., and M.C. Linder|Copper Transport in Rats Involving a New Plasma Protein|Am. J. Physiol. Endocrinol. Metab.249:E77 - E88|1985|10.1152/ajpendo.1985.249.1.E77
115943|A||Mariano,B., O. Cristian, P. Marcela, and A. Porta|Evaluation of a Biomarker of Cd(II) Exposure on Limnoperna fortunei|Environ. Pollut.144(1): 280-288|2006|10.1016/j.envpol.2005.12.015
115944|T||Konno,H., T. Nakato, S. Nakashima, and K. Katoh|Lygodium japonicum Fern Accumulates Copper in the Cell Wall Pectin|J. Exp. Bot.56(417): 1923-1931|2005|10.1093/jxb/eri187
115945|A||King,C.K., S.L. Simpson, S.V. Smith, J.L. Stauber, and G.E. Batley|Short-Term Accumulation of Cd and Cu from Water, Sediment and Algae by the Amphipod Melita plumulosa and the Bivalve Tellina deltoidalis|Mar. Ecol. Prog. Ser.287:177-188|2005|10.3354/meps287177
115946|T||Jahangir,M., I.B. Abdel-Farid, Y.H. Choi, and R. Verpoorte|Metal Ion-Inducing Metabolite Accumulation in Brassica rapa|J. Plant Physiol.165(4): 1429-1437|2008|10.1016/j.jplph.2008.04.011
115947|A||Koutsaftis,A., and I. Aoyama|Toxicity of Diuron and Copper Pyrithione on the Brine Shrimp, Artemia franciscana:  The Effects of Temperature and Salinity|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(14): 1581-1585|2008|
115948|T||Agarwala,S.C., B.D. Nautiyal, C. Chatterjee, and N. Nautiyal|Variations in Copper and Zinc Supply Influence Growth and Activities of Some Enzymes in Maize|Soil Sci. Plant Nutr.41(2): 329-335|1995|10.1080/00380768.1995.10419590
115949|T||Calafato,S., S. Swain, S. Hughes, P. Kille, and S.R. Sturzenbaum|Knock Down of Caenorhabditis elegans cutc-1 Exacerbates the Sensitivity Toward High Levels of Copper|Toxicol. Sci.106(2): 384-391|2008|10.1093/toxsci/kfn180
115950|A||Blanchard,J., K. Brix, and M. Grosell|Subcellular Fractionation of Cu Exposed Oysters, Crassostrea virginica, and Cu Accumulation from a Biologically Incorporated Cu Rich Oyster Diet in Fundulus heteroclitus in Fresh and Sea Water|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(4): 531-537|2009|10.1016/j.cbpc.2008.12.001
115951|A||Kureyshevich,A.V., and V.P. Guseynova|Combined Influence of Some Pollutants and Ultraviolet Radiation on Phytoplankton Photosynthesis|Hydrobiol. J.41(2): 80-94|2005|10.1615/HydrobJ.v41.i2.60
115952|A||Burlinson,F.C., and A.J. Lawrence|A Comparison of Acute and Chronic Toxicity Tests Used to Examine the Temporal Stability of a Gradient in Copper Tolerance of Hediste diversicolor from the Fal Estuary, Cornwall, UK|Mar. Pollut. Bull.54(1): 66-71|2007|10.1016/j.marpolbul.2006.08.047
115953|A||Nadella,S.R., J.L. Fitzpatrick, N. Franklin, C. Bucking, S. Smith, and C.M. Wood|Toxicity of Dissolved Cu, Zn, Ni and Cd to Developing Embryos of the Blue Mussel (Mytilus trossolus) and the Protective Effect of Dissolved Organic Carbon|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 340-348|2009|10.1016/j.cbpc.2008.09.001
115954|A||Ramesh,M., S. Senthil Kumaran, C. Kavith, M. Saravanan, and A. Mustafa|Primary Stress Responses of Common Carp, Cyprinus carpio, Exposed to Copper Toxicity|Acta Ichthyol. Piscat.37(2): 81-85|2007|10.3750/AIP2007.37.2.02
115955|A||Oliva,M., M.D.C. Garrido, E. Perez, and M.L.G. De Canales|Evaluation of Acute Copper Toxicity During Early Life Stages of Gilthead Seabream, Sparus aurata|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(4): 525-533|2007|
115956|A||Carvalho,C.S., and M.N. Fernandes|Effect of Copper on Liver Key Enzymes of Anaerobic Glucose Metabolism from Freshwater Tropical Fish Prochilodus lineatus|Comp. Biochem. Physiol. A Mol. Integr. Physiol.151(3): 437-442|2008|10.1016/j.cbpa.2007.04.016
115957|T||Wu,Y., Y. Chen, Y. Yi, and Z. Shen|Responses to Copper by the Moss Plagiomnium cuspidatum:  Hydrogen Peroxide Accumulation and the Antioxidant Defense System|Chemosphere74(9): 1260-1265|2009|10.1016/j.chemosphere.2008.10.059
115958|A||Senthilkumar,P., K. Samyappan, S. Jayakumar, and M. Deecaraman|Effect of Heavy Metal Copper on the Nutritive Value in a Freshwater Field Crab, Spiralothelphusa hydrodroma|Res. J. Agric. Biol. Sci.3(6): 775-781|2007|
115959|T||Posmyk,M.M., R. Kontek, and K.M. Janas|Antioxidant Enzymes Activity and Phenolic Compounds Content in Red Cabbage Seedlings Exposed to Copper Stress|Ecotoxicol. Environ. Saf.72(2): 596-602|2009|10.1016/j.ecoenv.2008.04.024
115960|A||Mateos-Naranjo,E., S. Redondo-Gomez, J. Cambrolle, and M. Enrique Figueroa|Growth and Photosynthetic Responses to Copper Stress of an Invasive Cordgrass, Spartina densiflora|Mar. Environ. Res.66(4): 459-465|2008|10.1016/j.marenvres.2008.07.007
115961|A||Serra,A., N. Corcoll, and H. Guasch|Copper Accumulation and Toxicity in Fluvial Periphyton:  The Influence of Exposure History|Chemosphere74(5): 633-641|2009|10.1016/j.chemosphere.2008.10.036
115962|T||Souguir,D., E. Ferjani, G. Ledoigt, and P. Goupil|Exposure of Vicia faba and Pisum sativum to Copper-Induced Genotoxicity|Protoplasma (Multiple Languages)233(3/4): 203-207|2008|10.1007/s00709-008-0004-9
115963|A||Markina,Z.V., and N.A. Ayzdaycher|Growth of the Microalga Phaeodactylum tricornutum Under the Influence of Copper and Capability of Culture of Restoring in Pure Environment|Hydrobiol. J.43(5): 101-107|2007|10.1615/HydrobJ.v43.i5.80
115964|A||Reddy,A.S., M.V. Reddy, and K. Radhakrishnaiah|Impact of Copper on the Oxidative Metabolism of the Fry of Common Carp, Cyprinus carpio (Linn.) at Different pH|J. Environ. Biol.29(5): 721-724|2008|
115965|T||Perrin,D.J., H.B. Schiefer, and B.R. Blakley|Chronic Copper Toxicity in a Dairy Herd|Can. Vet. J.31:629-632|1990|
115966|A||Martins,N., C. Bollinger, R.M. Harper, and R. Ribeiro|Effects of Acid Mine Drainage on the Genetic Diversity and Structure of a Natural Population of Daphnia longispina|Aquat. Toxicol.92(2): 104-112|2009|10.1016/j.aquatox.2009.01.007
115967|A||Rodgher,S., A.T. Lombardi, M.G.G. Melao, and A.E. Tonietto|Change in Life Cycle Parameters and Feeding Rate of Ceriodaphnia silvestrii Daday (Crustacea, Cladocera) Exposure to Dietary Copper|Ecotoxicology17(8): 826-833|2008|10.1007/s10646-008-0245-6
115969|AT||Cao,Y., X.R. Fan, S.B. Sun, G.H. Xu, J. Hu, and Q.R. Shen|Effect of Nitrate on Activities and Transcript Levels of Nitrate Reductase and Glutamine Synthetase in Rice|Pedosphere18(5): 664-673|2008|10.1016/S1002-0160(08)60061-2
115970|T||Thakur,R.N., P. Singh, and M.K. Khosla|In Vitro Studies on Antifungal Activities of Some Aromatic Oils|Indian Perfum.33(4): 257-260|1989|
115971|T||Baratta,M.T., H.J.D. Dorman, S.G. Deans, A.C. Figueiredo, J.G. Barroso, and G. Ruberto|Antimicrobial and Antioxidant Properties of Some Commercial Essential Oils|Flavour Fragr. J.13(4): 235-244|1998|10.1002/(SICI)1099-1026(1998070)13:4<235::AID-FFJ733>3.0.CO;2-T
115972|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Responses of Various Market Classes of Dry Beans (Phaseolus vulgaris L.) to Linuron|Weed Technol.20(1): 118-122|2006|10.1614/WT-04-070R1.1
115973|T||Haider,J., I. Fendrik, and E.G. Niemann|Effect of Linuron and Dinosebacetate on Vicia faba - Rhizobium leguminosarum Symbiosis|Soil Sci. Plant Nutr.37(4): 601-609|1991|10.1080/00380768.1991.10416928
115974|T||Joshi,A.K.R., and P.S. Rajini|Reversible Hyperglycemia in Rats Following Acute Exposure to Acephate, an Organophosphorus Insecticide:  Role of Gluconeogenesis|Toxicology257(1/2): 40-45|2009|10.1016/j.tox.2008.12.006
115977|A||Heilman,K.E.|Sublethal Effects of Triclosan on Potamogeton perfoliatus and Elodea canadensis|M.S.Thesis, Hood College,Frederick,MD:57 p.|2008|
115978|T||Leghait,J., V. Gayrard, N. Picard-Hagen, M. Camp, E. Perdu, P.L. Toutain, and C. Viguie|Fipronil-Induced Disruption of Thyroid Function in Rats is Mediated by Increased Total and Free Thyroxine Clearances Concomitantly to Increased Activity of Hepatic Enzymes|Toxicology255(1/2): 38-44|2009|10.1016/j.tox.2008.09.026
115980|T||Ozcelik,D., and H. Uzun|Copper Intoxication; Antioxidant Defenses and Oxidative Damage in Rat Brain|Biol. Trace Elem. Res.127(1): 45-52|2009|10.1007/s12011-008-8219-3
115981|A||Herkovits,J., and C.S. Perez-Coll|Acclimation to Low Level Exposure of Copper in Bufo arenarum Embryos: Linkage of Effects to Tissue Residues|Int. J. Environ. Res. Public Health4(2): 166-172|2007|10.3390/ijerph2007040012
115982|T||Durdevic,B., M. Lisjak, M. Stosic, M. Engler, and B. Popovic|Influence of Pb and Cu Toxicity on Lettuce Photosynthetic Pigments and Dry Matter Accumulation|Cereal Res. Commun.36(Suppl.1): 1951-1954|2008|
115983|A||Serafim,A., and M.J. Bebianno|Metallothionein Role in the Kinetic Model of Copper Accumulation and Elimination in the Clam Ruditapes decussatus|Environ. Res.109(4): 390-399|2009|10.1016/j.envres.2009.03.001
115984|T||Ke,W., Z. Xiong, S. Chen, and Z. Wang|Differences of Cu Accumulation and Cu-Induced ATPase Activity in Roots of Two Populations of Elsholtzia haichowensis Sun|Environ. Toxicol.23(2): 193-199|2008|10.1002/tox.20323
115985|A||Csaba,G., and E. Pallinger|How Applicable is the General Adaptation Syndrome to the Unicellular Tetrahymena?|Cell Biochem. Funct.27(1): 12-15|2009|10.1002/cbf.1527
115986|T||Industrial Bio-Test Laboratories|Report to the Pittsburgh & Midway Coal Mining Company Pilot Teratogenic Study with Wash Solvent (#591) in Albino Rabbits|Midwest Research Institute, Kansas City, MO:55 p.|1983|
115987|T||Bovey,R.W., R.E. Meyer, and J.R. Baur|Potential Herbicides for Brush Control|J. Range Manag.34(2): 144-148|1981|10.2307/3898132
115988|T||Niittynen,M., J.T. Tuomisto, and R. Pohjanvirta|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) on Heme Oxygenase-1, Biliverdin IXalpha Reductase and delta-Aminolevulinic Acid Synthetase 1 in Rats with Wild-Type or Variant AH Receptor|Toxicology250(2-3): 132-142|2008|10.1016/j.tox.2008.06.014
115989|A||Teraoka,H., A. Kubota, W. Dong, Y. Kawai, K. Yamazaki, C. Mori, Y. Harada, R.E. Peterson, and T. Hiraga|Role of the Cyclooxygenase 2-Thromboxane Pathway in 2,3,7,8-Tetrachlorodibenzo-p-Dioxin-Induced Decrease in Mesencephalic Vein Blood Flow in the Zebrafish Embryo|Toxicol. Appl. Pharmacol.234(1): 33-40|2009|10.1016/j.taap.2008.09.021
115990|T||Umemura,T., M. Tasaki, A. Kijima, T. Okamura, T. Inoue, Y. Ishii, Y. Suzuki, N. Masui, T. Nohmi, and A. Nishikawa|Possible Participation of Oxidative Stress in Causation of Cell Proliferation and In Vivo Mutagenicity in Kidneys of GPT delta Rats Treated with Potassium Bromate|Toxicology257(1-2): 46-52|2009|10.1016/j.tox.2008.12.007
115991|T||Kumar,V., A. Bal, and K.D. Gill|Susceptibility of Mitochondrial Superoxide Dismutase to Aluminium Induced Oxidative Damage|Toxicology255(3): 117-123|2009|10.1016/j.tox.2008.10.009
115992|T||Saradha,B., S. Vaithinathan, and P.P. Mathur|Lindane Induces Testicular Apoptosis in Adult Wistar Rats Through the Involvement of Fas-FasL and Mitochondria-Dependent Pathways|Toxicology255(1-2): 131-139|2009|10.1016/j.tox.2008.10.016
115994|T||Han,X., J.C. O'Connor, E.M. Donner, D.L. Nabb, R.T. Mingoia, S.I. Snajdr, J.J. Clarke, and A.M. Kaplan|Non-Coplanar 2,2',3,3',4,4',5,5',6,6'-Decachlorobiphenyl (PCB 209) did Not Induce Cytochrome P450 Enzyme Activities in Primary Cultured Rat Hepatocytes, was Not Genotoxic, and did Not Exhibit Endocrine-Modulating Activi|Toxicology255(3): 177-186|2009|10.1016/j.tox.2008.10.013
115995|T||Ao,K., T. Suzuki, H. Murai, M. Matsumoto, H. Nagai, Y. Miyamoto, C. Tohyama, and K. Nohara|Comparison of Immunotoxicity Among Tetrachloro-, Pentachloro-, Tetrabromo- and Pentabromo-Dibenzo-p-Dioxins in Mice|Toxicology256(1-2): 25-31|2009|10.1016/j.tox.2008.10.024
115996|T||Huang,F., H. Ning, Q.Q. Xin, Y. Huang, H. Wang, Z.H. Zhang, D.X. Xu, G. Ichihara, and D.Q. Ye|Melatonin Pretreatment Attenuates 2-Bromopropane-Induced Testicular Toxicity in Rats|Toxicology256(1-2): 75-82|2009|10.1016/j.tox.2008.11.005
115997|T||Hara,S., H. Mizukami, F. Kuriiwa, and T. Endo|Hydroxyl Radical Generation Dependent on Extracellular Ascorbate in Rat Striatum, as Determined by Microdialysis|Toxicology258(1): 10-16|2009|10.1016/j.tox.2008.12.025
115998|T||Hernandez,J.P., L.C. Mota, W. Huang, D.D. Moore, and W.S. Baldwin|Sexually Dimorphic Regulation and Induction of P450s by the Constitutive Androstane Receptor (CAR)|Toxicology256(1-2): 53-64|2009|10.1016/j.tox.2008.11.002
115999|T||Fouad,A.A., H.A. Qureshi, A.I. Al-Sultan, M.T. Yacoubi, and A.A. Ali|Protective Effect of Hemin Against Cadmium-Induced Testicular Damage in Rats|Toxicology257(3): 153-160|2009|10.1016/j.tox.2008.12.022
116001|T||Takahashi,M., T. Negishi, M. Imamura, E. Sawano, Y. Kuroda, Y. Yoshikawa, and T. Tashiro|Alterations in Gene Expression of Glutamate Receptors and Exocytosis-Related Factors by a Hydroxylated-Polychlorinated Biphenyl in the Developing Rat Brain|Toxicology257(1-2): 17-24|2009|10.1016/j.tox.2008.12.003
116002|T||Chipinda,I., S.E. Anderson, L.F. Butterworth, D. Beezhold, and P.D. Siegel|Increased Cell Proliferation in Spleen and Lymph Nodes Peripheral to Contact Allergen Application Site|Toxicology257(3): 113-116|2009|10.1016/j.tox.2008.12.019
116005|T||Aerts,D., J. Coremans-Pelseneer, D.E. Van de Veire, G. Sterk, and D. Degheele|Side-Effects of Pesticides on the Development of the Entomopathogenic Fungus Paecilomyces fumosoroseus (Wize) Brown and Smith, Strain Apopka 97|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)62(2b): 581-587|1997|
116006|T||Morse,J.G., A.A. Urena, and C.A. Reagan|California Citrus Thrips Pesticide Efficacy Trial, 1992|Insectic. Acaric. Tests18:75-76|1993|10.1093/iat/18.1.75
116007|T||Chuang,H.W., T.F. Hsieh, M. Duval, and T.L. Thomas|Genomic Analysis of Arabidopsis Gene Expression in Response to a Systemic Fungicide|Mycol. Ser.18:237-253|2003|
116009|A||Subathra,S., and R. Karuppasamy|Effects of Copper on Haematological Indices in Fingerlings and Adult Age of the Freshwater Catfish, Mystus vittatus (Bloch.)|Nat. Environ. Pollut. Technol.5(4): 505-514|2006|
116010|A||Rao,A.J., and V.R. Nair|Effects of Salinity on the Toxicity of Copper and Zinc to the Fish Therapon jarbua (Forsskal)|Nat. Environ. Pollut. Technol.7(2): 303-306|2008|
116011|A||Piola,R.F., and E.L. Johnston|Comparing Differential Tolerance of Native and Non-Indigenous Marine Species to Metal Pollution Using Novel Assay Techniques|Environ. Pollut.157:2853-2864|2009|10.1016/j.envpol.2009.04.007
116013|T||Gautam,R.K., and R. Khan|Metals Disrupt Liver and Kidney Lipids in Albino Rats|J. Ecotoxicol. Environ. Monit.8(4): 239-242|1998|
116014|A||Benedetti,M., D. Fattorini, G. Martuccio, M. Nigro, and F. Regoli|Interactions Between Trace Metals (Cu, Hg, Ni, Pb) and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in the Antarctic Fish Trematomus bernacchii:  Oxidative Effects on Biotransformation Pathway|Environ. Toxicol. Chem.28(4): 818-825|2009|10.1897/08-066.1
116015|A||Straus,D.L.|Copper Sulfate Toxicity to Channel Catfish Fry:  Yolk Sac Versus Swim-Up Fry|N. Am. J. Aquacult.70(3): 323-327|2008|10.1577/A06-092.1
116016|A||Garcia-Munoz,E., F. Guerrero, and G. Parra|Effects of Copper Sulfate on Growth, Development, and Escape Behavior in Epidalea calamita Embryos and Larvae|Arch. Environ. Contam. Toxicol.56(3): 557-565|2009|10.1007/s00244-008-9201-y
116017|A||Dazy,M., J.F. Masfaraud, and J.F. Ferard|Induction of Oxidative Stress Biomarkers Associated with Heavy Metal Stress in Fontinalis antipyretica Hedw.|Chemosphere75(3): 297-302|2009|10.1016/j.chemosphere.2008.12.045
116018|A||Rios-Arana,J.V., E.J. Walsh, and M. Ortiz|Interaction Effects of Multi-Metal Solutions (As, Cr, Cu, Ni, Pb and Zn) on Life History Traits in the Rotifer Plationus patulus|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1473-1481|2007|
116019|A||Duarte,R.M., A.C.L. Menezes, L. Da silveira Rodrigues, V.M.F. De Almeida-Val, and A.L. Val|Copper Sensitivity of Wild Ornamental Fish of the Amazon|Ecotoxicol. Environ. Saf.72(3): 693-698|2009|10.1016/j.ecoenv.2008.10.003
116020|T||Nishiya,T., M. Kato, T. Suzuki, C. Maru, H. Kataoka, C. Hattori, K. Mori, T. Jindo, Y. Tanaka, and S. Manabe|Involvement of Cytochrome P450-Mediated Metabolism in Tienilic Acid Hepatotoxicity in Rats|Toxicol. Lett.183(1-3): 81-89|2008|10.1016/j.toxlet.2008.10.009
116021|T||Iwashita,K., and H. Nagashima|Rubratoxin B Induces Interleukin-6 Secretion in Mouse White Adipose Tissues and 3T3-L1 Adipocytes|Toxicol. Lett.182(1-3): 79-83|2008|10.1016/j.toxlet.2008.08.008
116023|T||Crincoli,C.M., N.N. Patel, R. Tchao, and P.J. Harvison|Role of Biotransformation in 3-(3,5-Dichlorophenyl)-2,4-Thiazolidinedione-Induced Hepatotoxicity in Fischer 344 Rats|Toxicology250(2-3): 100-108|2008|10.1016/j.tox.2008.06.006
116024|T||Obata,T., S. Takahashi, Y. Kashiwagi, and S. Kubota|Protective Effect of Captopril and Enaraprilat, Angiotensin-Converting Enzyme Inhibitors, on Para-Nonylphenol-Induced OH Generation and Dopamine Efflux in Rat Striatum|Toxicology250(2/3): 96-99|2008|10.1016/j.tox.2008.06.005
116025|A||Chow,E.S.H., M.N.Y. Hui, C.W. Cheng, and S.H. Cheng|Cadmium Affects Retinogenesis During Zebrafish Embryonic Development|Toxicol. Appl. Pharmacol.235(1): 68-76|2009|10.1016/j.taap.2008.11.013
116026|T||Ku,H.O., S.H. Jeong, H.G. Kang, H.M. Pyo, J.H. Cho, S.W. Son, H.R. Kim, K.J. Lee, and D.Y. Ryu|Intracellular Expression of Cytokines and Granzyme B in Auricular Lymph Nodes Draining Skin Exposed to Irritants and Sensitizers|Toxicology250(2/3): 116-123|2008|10.1016/j.tox.2008.06.011
116027|T||Hou,W.Y., D.X. Long, H.P. Wang, Q. Wang, and Y.J. Wu|The Homeostasis of Phosphatidylcholine and Lysophosphatidylcholine was Not Disrupted During Tri-o-Cresyl Phosphate-Induced Delayed Neurotoxicity in Hens|Toxicology252(1-3): 56-63|2008|10.1016/j.tox.2008.07.061
116029|T||Gelderblom,W.C.A., W.F.O. Marasas, S. Lebepe-Mazur, S. Swanevelder, and S. Abel|Cancer Initiating Properties of Fumonisin B1 in a Short-Term Rat Liver Carcinogenesis Assay|Toxicology250(2-3): 89-95|2008|10.1016/j.tox.2008.06.004
116031|T||Gong,P., F.X. Chen, G.F. Ma, Y. Feng, Q. Zhao, and R. Wang|Endomorphin 1 Effectively Protects Cadmium Chloride-Induced Hepatic Damage in Mice|Toxicology251(1-3): 35-44|2008|10.1016/j.tox.2008.07.051
116032|T||Murray,A.R., E. Kisin, S.S. Leonard, S.H. Young, C. Kommineni, V.E. Kagan, V. Castranova, and A.A. Shvedova|Oxidative Stress and Inflammatory Response in Dermal Toxicity of Single-Walled Carbon Nanotubes|Toxicology257(3): 161-171|2009|10.1016/j.tox.2008.12.023
116033|T||Rashid,H., F. Ahmad, S. Rahman, R.A. Ansari, K. Bhatia, M. Kaur, F. Islam, and S. Raisuddin|Iron Deficiency Augments Bisphenol A-Induced Oxidative Stress in Rats|Toxicology256(1/2): 7-12|2009|10.1016/j.tox.2008.10.022
116034|A||Azevedo,M.M., B. Almeida, P. Ludovico, and F. Cassio|Metal Stress Induces Programmed Cell Death in Aquatic Fungi|Aquat. Toxicol.92(4): 264-270|2009|10.1016/j.aquatox.2009.02.010
116035|T||Mladenka,P., L. Zatloukalova, T. Simunek, Z. Bobrovova, V. Semecky, P. Nachtigal, P. Haskova, E. Mackova, J. Vavrova, M|Direct Administration of Rutin Does Not Protect Against Catecholamine Cardiotoxicity|Toxicology255(1-2): 25-32|2009|10.1016/j.tox.2008.09.027
116036|T||Renugadevi,J., and S.M. Prabu|Naringenin Protects Against Cadmium-Induced Oxidative Renal Dysfunction in Rats|Toxicology256(1-2): 128-134|2009|10.1016/j.tox.2008.11.012
116037|T||Lei,R., C. Wu, B. Yang, H. Ma, C. Shi, Q. Wang, Y. Yuan, and M. Liao|Integrated Metabolomic Analysis of the Nano-Sized Copper Particle-Induced Hepatotoxicity and Nephrotoxicity in Rats:  A Rapid In Vivo Screening Method for Nanotoxicity|Toxicol. Appl. Pharmacol.232(2): 292-301|2008|10.1016/j.taap.2008.06.026
116040|A||Gama-Flores,J.L., M.D.J. Ferrara-Guerrero, S.S.S. Sarma, and S. Nandini|Prey (Brachionus calyciflorus and Brachionus havanaensis) Exposed to Heavy Metals (Cu and Cd) for Different Durations and Concentrations Affect Predator's (Asplanchna brightwellii) Population Growth|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1483-1488|2007|
116041|A||Ngayila,N., J.P. Basly, A.H. Lejeune, M. Botineau, and M. Baudu|Myriophyllum alterniflorum DC., Biomonitor of Metal Pollution and Water Quality.  Sorption/Accumulation Capacities and Photosynthetic Pigments Composition Changes After Copper and Cadmium Exposure|Sci. Total Environ.373(2/3): 564-571|2007|10.1016/j.scitotenv.2006.11.038
116042|AT||Geurts,J.J.M., J.M. Sarneel, B.J.C. Willers, J.G.M. Roelofs, J.T.A. Verhoeven, and L.P.M. Lamers|Interacting Effects of Sulphate Pollution, Sulphide Toxicity and Eutrophication on Vegetation Development in Fens:  A Mesocosm Experiment|Environ. Pollut.157(7): 2072-2081|2009|10.1016/j.envpol.2009.02.024
116043|T||Gabriel,E.M., and W.C. Campbell|Effect of Ambient Salinity on Immobilization of Caenorhabditis elegans by Nematocidal Agents|Parasitol. Res.90(5): 390-392|2003|10.1007/s00436-003-0871-0
116044|A||Bielmyer,G.K., J. Tomasso, and S.J. Klaine|Physiological Responses of Hybrid Striped Bass to Aqueous Copper in Freshwater and Saltwater|Arch. Environ. Contam. Toxicol.50(3): 531-538|2006|10.1007/s00244-005-0131-7
116045|T||Boswell,S.B., D.R. Atkin, and K.W. Hench|Control of Citrus Stump Sprouts with Chemicals and Plastic Tarpaulin|Hortscience13(1): 49-50|1978|10.21273/HORTSCI.13.1.49
116046|T||Boswell,S.B., T.W. Embleton, W.W. Jones, and L.L. Summers|Inhibition of Regrowth and Yield of Mature Lemon Trees with Ammonium Ethyl Carbamoylphosphonate|Hortscience16(1): 41-42|1981|10.21273/HORTSCI.16.1.41
116047|T||Geyer,W.A., G.G. Naughton, C.E. Long, D.N. Bruckerhoff, and J.J. Rowland|Woody Vegetation Control on Utility Rights-of-Way in Eastern Kansas: I. Management Techniques|J. Arboric.20(5): 282-286|1994|
116049|T||Weaver,S., M. Downs, and B. Neufeld|Response of Paraquat-Resistant and -Susceptible Horseweed (Conyza canadensis) to Diquat, Linuron, and Oxyfluorfen|Weed Sci.52(4): 549-553|2004|10.1614/WS-03-102R
116050|T||Pena,A., C. Lozano, A.J. Sanchez-Raya, and M. Campos|Ethylene Release Under Field Conditions for the Management of the Olive Bark Beetle, Phloeotribus scarabaeoides|J. Agric. Entomol.15(1): 23-32|1998|
116051|T||Gonzalez,R., and M. Campos|A Preliminary Study on the Use of Trap-Trees Baited with Ethylene for the Integrated Management of the Olive Beetle, Phloeotribus scarabaeoides (Bern.) (Col., Scolytidae)|J. Appl. Entomol.119(9): 601-605|1995|10.1111/j.1439-0418.1995.tb01342.x
116052|T||Thakur,R.P., and V.P. Rao|Effectiveness of Ethrel as a Male Gametocide in Pearl Millet and Its Influence on Ergot|Plant Breed.101(2): 107-113|1988|10.1111/j.1439-0523.1988.tb00274.x
116053|T||Bil,K.Y., I.R. Fomina, L.F. Stakhov, and A.D. Makarov|Effect of Linuron on Barley Ear Photosynthesis and Grain Yield|Photosynthetica (Praha)20(2): 131-138|1986|
116054|T||Ester,A., and H.J. Nijenstein|Control of Field Slug (Deroceras reticulatum (Muller)) by Seed-Applied Pesticides in Perennial Ryegrass Assessed by Laboratory Tests|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)103(1): 42-49|1996|
116055|T||Marrs,R.H.|The Effects of Potential Bracken and Scrub Control Herbicides on Lowland Calluna and Grass Heath Communities in East Anglia, UK|Biol. Conserv.32(1): 13-32|1985|10.1016/0006-3207(85)90062-X
116056|T||Schroeder,W.R., and L.K. Alspach|Herbicide Program at the PFRA Shelterbelt Centre|U. S. For. Serv. Res. Paper PNW365:80-83|1995|
116057|T||Cabras,P., A. Angioni, M. Melis, L. Spanedda, and E.V. Minelli|Determination and Persistence of Methiocarb in Artichokes|Ital. J. Food Sci.8(4): 317-322|1996|
116058|T||Cosse,A.A., and T.C. Baker|House Flies and Pig Manure Volatiles:  Wind Tunnel Behavioral Studies and Electrophysiological Evaluations|J. Agric. Entomol.13(4): 301-317|1996|
116059|T||Zheljazkov,V.D., I. Zhalnov, and N.K. Nedkov|Herbicides for Weed Control in Blessed Thistle (Silybum marianum)|Weed Technol.20(4): 1030-1034|2006|10.1614/WT-05-135.1
116060|T||Saint-Louis,S., A. DiTommaso, and A.K. Watson|A Common Ragweed (Ambrosia artemisiifolia) Biotype in Southwestern Quebec Resistant to Linuron|Weed Technol.19(3): 737-743|2005|10.1614/WT-04-276.1
116061|T||Vanlieshout,L.A., and M.M. Loux|Interactions of Glyphosate with Residual Herbicides in No-Till Soybean (Glycine max) Production|Weed Technol.14(3): 480-487|2000|10.1614/0890-037X(2000)014[0480:IOGWRH]2.0.CO;2
116062|T||Wuu,K.D., and W.F. Grant|Induced Abnormal Meiotic Behavior in a Barley Plant (Hordeum vulgare L.) with the Herbicide Lorox|Phyton (Horn) (Multiple Languages)23(1): 63-67|1966|
116063|T||Sarpe,N., N. Chirita, G. Budoi, and C. Hogea|Research Works on Both Selectivity and Efficacy of the Herbicides Dimethenamide, Alachlor and Pendimethalin (Mixed with Metribuzin or Linuron) for Potato Crop|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)59(3b): 1361-1365|1994|
116064|T||Renner,K.A., and G.E. Powell|Response of Sugarbeet (Beta vulgaris) to Herbicide Residues in Soil|Weed Technol.5(3): 622-627|1991|10.1017/S0890037X00027445
116065|T||Campbell,T.E.|A Comparison of Five Tree-Injected Herbicides|Proc. South. Weed Sci. Soc.33:127-131|1980|
116066|T||Caracatsanis,M., N. Fouda, and L. Hammarstrom|Effects of Phosphonoformic and Phosphonoacetic Acids on Developing Enamel of Rat Molars|Scand. J. Dent. Res.97(2): 139-149|1989|
116067|T||Kunelius,H.T., C.B. Willis, J. Kimpinski, and L.S. Thompson|Effect of Pesticides on the Performance of Direct-Drilled Lucerne|Crop Prot.6(5): 326-328|1987|10.1016/0261-2194(87)90062-7
116068|T||Utriainen,M., H. Kokko, S. Auriola, O. Sarrazin, and S. Karenlampi|PR-10 Protein is Induced by Copper Stress in Roots and Leaves of a Cu/Zn Tolerant Clone of Birch, Betula pendula|Plant Cell Environ.21(8): 821-828|1998|10.1046/j.1365-3040.1998.00326.x
116069|A||Lera,S., and D. Pellegrini|Evaluation of the Fertilization Capability of Paracentrotus lividus Sea Urchin Storaged Gametes by the Exposure to Different Aqueous Matrices|Environ. Monit. Assess.119(1-3): 1-13|2006|10.1007/s10661-005-9000-0
116070|A||Mishra,V., V. Pathak, and B. Tripathi|Accumulation of Cadmium and Copper from Aqueous Solutions Using Indian Lotus (Nelumbo nucifera)|Ambio38(2): 110-112|2009|10.1579/0044-7447-38.2.110
116071|T||Chen,Y.X., Y.P. Wang, Q. Lin, and Y.M. Luo|Effect of Copper-Tolerant Rhizosphere Bacteria on Mobility of Copper in Soil and Copper Accumulation by Elsholtzia splendens|Environ. Int.31(6): 861-866|2005|10.1016/j.envint.2005.05.044
116072|T||Zhao,C.R., T. Ikka, Y. Sawaki, Y. Kobayashi, Y. Suzuki, T. Hibino, S. Sato, N. Sakurai, D. Shibata, and H. Koyama|Comparative Transcriptomic Characterization of Aluminum, Sodium Chloride, Cadmium and Copper Rhizotoxicities in Arabidopsis thaliana|BMC Plant Biol.9:32-|2009|10.1186/1471-2229-9-32
116073|A||Kobayashi,N., and H. Okamura|Effects of Heavy Metals on Sea Urchin Embryo Development.  Part 2.  Interactive Toxic Effects of Heavy Metals in Synthetic Mine Effluents|Chemosphere61(8): 1198-1203|2005|10.1016/j.chemosphere.2005.02.071
116074|T||BioDynamics Inc.|Initial Submission:  Letter from Monsanto Co. to U.S.EPA Regarding Sodium P-Nitrophenate with Attachments and Cover Letter Dated 081392|EPA/OTS Doc.#88-920007726:67 p.|1992|
116075|A||Brooks,M.L., J.S. Meyer, and C.J. Boese|Toxicity of Copper to Larval Pimephales promelas in the Presence of Photodegraded Natural Dissolved Organic Matter|Can. J. Fish. Aquat. Sci.64(3): 391-401|2007|10.1139/f07-012
116077|A||Craig,P.M., M. Galus, C.M. Wood, and G.B. McClelland|Dietary Iron Alters Waterborne Copper-Induced Gene Expression in Soft Water Acclimated Zebrafish (Danio rerio)|Am. J. Physiol., Regul. Integr. Comp. Physiol.296(2): R362 - R373|2009|10.1152/ajpregu.90581.2008
116078|T||Bauerly,K.A., S.L. Kelleher, and B. Lonnerdal|Effects of Copper Supplementation on Copper Absorption, Tissue Distribution, and Copper Transporter Expression in an Infant Rat Model|Am. J. Physiol. Gasterointest. Liver Physiol.288(5): G1007 - G1014|2005|10.1152/ajpgi.00210.2004
116079|T||Ahsan,N., D.G. Lee, S.H. Lee, K.Y. Kang, J.J. Lee, P.J. Kim, H.S. Yoon, J.S. Kim, and B.H. Lee|Excess Copper Induced Physiological and Proteomic Changes in Germinating Rice Seeds|Chemosphere67(6): 1182-1193|2007|10.1016/j.chemosphere.2006.10.075
116080|A||Castritsi-Catharios,J., N. Bourdaniotis, and G. Persoone|A New Simple Method with High Precision for Determining the Toxicity of Antifouling Paints on Brine Shrimp Larvae (Artemia):  First Results|Chemosphere67(6): 1127-1132|2007|10.1016/j.chemosphere.2006.11.033
116081|T||Balint,A.F., M.S. Roder, R. Hell, G. Galiba, and A. Borner|Mapping of QTLs Affecting Copper Tolerance and the Cu, Fe, Mn and Zn Contents in the Shoots of Wheat Seedlings|Biol. Plant. (Praha)51(1): 129-134|2007|10.1007/s10535-007-0025-9
116082|T||Dandan,W., L. Huixin, H. Feng, and W. Xia|Role of Earthworm-Straw Interactions on Phytoremediation of Cu Contaminated Soil by Ryegrass|Shengtai Xuebao (Multiple Languages)27(4): 1292-1298|2007|
116083|A||Qiu,C.E., Q.J. Kuang, Y.H. Bi, G.X. Liu, and Z.Y. Hu|Response of Chlorococcum sp. AZHB to Copper and Cadmius Stress|Bull. Environ. Contam. Toxicol.77(5): 772-778|2006|10.1007/s00128-006-1130-8
116084|A||Gagnon,A., C. Jumarie, and A. Hontela|Effects of Cu on Plasma Cortisol and Cortisol Secretion by Adrenocortical Cells of Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.78(1): 59-65|2006|10.1016/j.aquatox.2006.02.004
116085|A||Han,T., S.H. Kang, J.S. Park, H.K. Lee, and M.T. Brown|Physiological Responses of Ulva pertusa and U. armoricana to Copper Exposure|Aquat. Toxicol.86(2): 176-184|2008|10.1016/j.aquatox.2007.10.016
116086|A||Li,N., Y. Zhao, and J. Yang|Impact of Waterborne Copper on the Structure of Gills and Hepatopancreas and Its Impact on the Content of Metallothionein in Juvenile Giant Freshwater Prawn Macrobrachium rosenbergii (Crustacea:  Decapoda)|Arch. Environ. Contam. Toxicol.52(1): 73-79|2007|10.1007/s00244-005-0214-5
116087|A||Mills,C.L., D.H. Shukla, and G.J. Compton|Development of a New Low Cost High Sensitivity System for Behavioural Ecotoxicity Testing|Aquat. Toxicol.77(2): 197-201|2006|10.1016/j.aquatox.2005.12.003
116088|A||Olivari,F.A., P.P. Hernandez, and M.L. Allende|Acute Copper Exposure Induces Oxidative Stress and Cell Death in Lateral Line Hair Cells of Zebrafish Larvae|Brain Res.1244:1-12|2008|10.1016/j.brainres.2008.09.050
116089|T||Pernin,C., J.P. Ambrosi, J. Cortet, R. Joffre, J. Le Petit, E. Tabone, F. Torre, and P.H. Krogh|Effects of Sewage Sludge and Copper Enrichment on Both Soil Mesofauna Community and Decomposition of Oak Leaves (Quercus suber) in a Mesocosm|Biol. Fertil. Soils43(1): 39-50|2006|10.1007/s00374-005-0059-0
116090|A||Prevodnik,A., J. Gardestrom, K. Lilja, T. Elfwing, B. McDonagh, N. Petrovic, M. Tedengren, D. Sheehan, and T. Bollner|Oxidative Stress in Response to Xenobiotics in the Blue Mussel Mytilus edulis L.: Evidence for Variation Along a Natural Salinity Gradient of the Baltic Sea|Aquat. Toxicol.82(1): 63-71|2007|10.1016/j.aquatox.2007.01.006
116091|A||Roussel,H., L. Ten-Hage, S. Joachim, R. Le Cohu, L. Gauthier, and J.M. Bonzom|A Long-Term Copper Exposure on Freshwater Ecosystem Using Lotic Mesocosms: Primary Producer Community Responses|Aquat. Toxicol.81(2): 168-182|2007|10.1016/j.aquatox.2006.12.006
116092|T||Dallinger,R., M. Chabicovsky, E. Hodl, C. Prem, P. Hunziker, and C. Manzl|Copper in Helix Pomatia (Gastropoda) Is Regulated by One Single Cell Type: Differently Responsive Metal Pools in Rhogocytes|Am. J. Physiol., Regul. Integr. Comp. Physiol.289(4): 1185-1195|2005|10.1152/ajpregu.00052.2005
116093|A||Sellin,M.K., E. Tate-Boldt, and A.S. Kolok|Acclimation to Cu in Fathead Minnows:  Does Age Influence the Response?|Aquat. Toxicol.74(2): 97-109|2005|10.1016/j.aquatox.2005.05.005
116094|T||Tanyolac,D., Y. Ekmekci, and S. Unalan|Changes in Photochemical and Antioxidant Enzyme Activities in Maize (Zea mays L.) Leaves Exposed to Excess Copper|Chemosphere67(1): 89-98|2007|10.1016/j.chemosphere.2006.09.052
116095|A||Loumbourdis,N.S.|Copper Kinetics and Hepatic Glutathione Levels in the Copper Exposed Frog Rana ridibunda After Tetrathiomolybdate Treatment|Bull. Environ. Contam. Toxicol.76(3): 522-528|2006|10.1007/s00128-006-0951-9
116097|A||Harada,A., K. Komori, N. Nakada, K. Kitamura, and Y. Suzuki|Biological Effects of PPCPs on Aquatic Lives and Evaluation of River Waters Affected by Different Wastewater Treatment Levels|Water Sci. Technol.58(8): 1541-1546|2008|10.2166/wst.2008.742
116098|T||Conover,M.R.|Alleviating Nuisance Canada Goose Problems Through Methiocarb-Induced Aversive Conditioning|J. Wildl. Manag.49(3): 631-636|1985|10.2307/3801685
116099|T||Frances,S.P., R.L. Huggins, and R.D. Cooper|Evaluation of the Inhibition of Egg Laying, Larvicidal Effects, and Bloodfeeding Success of Aedes aegypti Exposed to Permethrin- and Bifenthrin-Treated Military Tent Fabric|Am. Mosq. Control Assoc. J.24(4): 598-600|2008|10.2987/08-5797.1
116100|T||Calderon-Guzman,D., J.L. Hernandez-Islas, I.R. Espitia Vazquez, G. Barragan-Mejia, E. Hernandez-Garcia, D. Santamaria d|Effect of Toluene and Cresols on Na+,K+-ATPase, and Serotonin in Rat Brain|Regul. Toxicol. Pharmacol.41(1): 1-5|2005|10.1016/j.yrtph.2004.09.005
116101|T||Hare,R.C.|Effect of Nine Growth Retardants Applied to Loblolly and Slash Pine|Can. J. For. Res.12(1): 112-114|1982|10.1139/x82-018
116102|T||Hluchy,S., R. Toman, J. Golian, and B. Siska|Effect of Long-Term Application of Linuron on Spermatogenesis, Fertility, Live Weight and Mortality in Rats|Toxicol. Lett.180(Supplement 1): S167 - S168|2008|
116103|T||Takeuchi,S., M. Iida, H. Yabushita, T. Matsuda, and H. Kojima|In Vitro Screening for Aryl Hydrocarbon Receptor Agonistic Activity in 200 Pesticides Using a Highly Sensitive Reporter Cell Line, DR-EcoScreen Cells, and In Vivo Mouse Liver Cytochrome P450-1A Induction by Propanil, Di|Chemosphere74(1): 155-165|2008|10.1016/j.chemosphere.2008.08.015
116104|A||Aslim,B., and S. Ozturk|Toxicity of Herbicides to Cyanobacterial Isolates|J. Environ. Biol.30(3): 381-384|2009|
116105|A||Lawrence,J.R., B. Zhu, G.D.W. Swerhone, J. Roy, L.I. Wassenaar, E. Topp, and D.R. Korber|Comparative Microscale Analysis of the Effects of Triclosan and Triclocarban on the Structure and Function of River Biofilm Communities|Sci. Total Environ.407:3307-3316|2009|10.1016/j.scitotenv.2009.01.060
116106|T||Zorrilla,L.M., E.K. Gibson, S.C. Jeffay, K.M. Crofton, W.R. Setzer, R.L. Cooper, and T.E. Stoker|The Effects of Triclosan on Puberty and Thyroid Hormones in Male Wistar Rats|Toxicol. Sci.107(1): 56-64|2009|10.1093/toxsci/kfn225
116109|T||Jansen,K.L., T.B. Cole, S.S. Park, C.E. Furlong, and L.G. Costa|Paraoxonase 1 (PON1) Modulates the Toxicity of Mixed Organophosphorus Compounds|Toxicol. Appl. Pharmacol.236(2): 142-153|2009|10.1016/j.taap.2009.02.001
116110|T||Avery,M.L., and J.R. Mason|Feeding Responses of Red-Winged Blackbirds to Multisensory Repellents|Crop Prot.16(2): 159-164|1997|10.1016/S0261-2194(96)00076-2
116111|T||Calisi,A., M.G. Lionetto, and T. Schettino|Pollutant-Induced Alterations of Granulocyte Morphology in the Earthworm Eisenia foetida|Ecotoxicol. Environ. Saf.72(5): 1369-1377|2009|10.1016/j.ecoenv.2009.03.010
116112|T||Duran-Serantes,B., L. Gonzalez, and M.J. Reigosa|Comparative Physiological Effects of Three Allelochemicals and Two Herbicides on Dactylis glomerata|Acta Physiol. Plant.24(4): 385-392|2002|10.1007/s11738-002-0034-4
116113|T||Tharwat,M.E.|Effects of Daily and Seasonal Photoperiods on Susceptibility of Redwinged Blackbird, Starling and Japanese Quail to Avitrol, Starlicide and Mesurol|Ph.D. Thesis, University of California, Davis:68 p.|1984|
116114|T||Tobin,M.E.|Conditioned Aversions in Three Species of Fruit-Eating Birds|Ph.D. Thesis, University of California, Davis:110 p.|1983|
116115|T||Avery,M.L.|Development and Transmission of Methiocarb-Induced Food Aversions in Captive House Finches (Carpodacus mexicanus)|Ph.D. Thesis, University of California, Davis:86 p.|1983|
116116|T||Wheeler,L.A.|Placental Transfer, Distribution, Metabolism and Depression of Acetylcholinesterase in Fetal and Maternal Rats After 14C-Zectran, Mesurol and Carbaryl Administration|Ph.D.Thesis, Loma Linda University, Loma Linda, CA:155 p.|1974|
116117|T||Mengistu,L.W., M.J. Christoffers, and R.G. Lym|A psbA Mutation in Kochia scoparia (L) Schrad from Railroad Rights-of-Way with Resistance to Diuron, Tebuthiuron and Metribuzin|Pest Manag. Sci.61(11): 1035-1042|2005|10.1002/ps.1079
116118|T||Phillips,D.H., M.V. Reddy, and K. Randerath|32P-Post-Labelling Analysis of DNA Adducts Formed in the Livers of Animals Treated with Safrole, Estragole and Other Naturally-Occurring Alkenylbenzenes.  II.  Newborn Male B6C3F1 Mice|Carcinogenesis5(12): 1623-1628|1984|10.1093/carcin/5.12.1623
116119|T||Luo,X.S., L.Z. Li, and D.M. Zhou|Effect of Cations on Copper Toxicity to Wheat Root:  Implications for the Biotic Ligand Model|Chemosphere73(3): 401-406|2008|10.1016/j.chemosphere.2008.05.031
116120|A||Pokrovsky,O.S., R.E. Martinez, S.V. Golubev, E.I. Kompantseva, and L.S. Shirokova|Adsorption of Metals and Protons on Gloeocapsa sp. Cyanobacteria:  A Surface Speciation Approach|Appl. Geochem.23(9): 2574-2588|2008|10.1016/j.apgeochem.2008.05.007
116121|A||Sandahl,J.F., G. Miyasaka, N. Koide, and H. Ueda|Olfactory Inhibition and Recovery in Chum Salmon (Oncorhynchus keta) Following Copper Exposure|Can. J. Fish. Aquat. Sci.63(8): 1840-1847|2006|10.1139/f06-074
116122|A||Xuereb,B., E. Lefevre, J. Garric, and O. Geffard|Acetylcholinesterase Activity in Gammarus fossarum (Crustacea Amphipoda):  Linking AChE Inhibition and Behavioural Alteration|Aquat. Toxicol.94:114-122|2009|10.1016/j.aquatox.2009.06.010
116123|T||Bouazizi,H., H. Jouili, and E. El Ferjani|Copper-Induced Oxidative Stress in Maize Shoots (Zea mays L.): H2O2 Accumulation and Peroxidases Modulation|Acta Biol. Hung.58(2): 209-218|2007|10.1556/ABiol.58.2007.2.7
116124|T||Chaffai,R., T.N. Seybou, B. Marzouk, and E. El Ferjani|A Comparative Analysis of Fatty Acid Composition of Root and Shoot Lipids in Zea mays Under Copper and Cadmium Stress|Acta Biol. Hung.60(1): 109-125|2009|10.1556/ABiol.60.2009.1.10
116125|T||Bhatt,L., and B.K. Srivastava|Effect of Foliar Application of Micronutrients on Physical Characteristics and Quality Attributes of Tomato (Lycopersicon esculentum) Fruits|Indian J. Agric. Sci.75(9): 591-592|2005|
116126|T||Araujo do Nascimento,C.W., E.E.C. De Melo, R. Severina de Melo Pereira do Nascimento, and P. Vinicius Valeriano Leite|Effect of Liming on the Plant Availability and Distribution of Zinc and Copper Among Soil Fractions|Commun. Soil Sci. Plant Anal.38(3/4): 545-560|2007|10.1080/00103620601174643
116127|A||Dung,L.Q., N.M. Cuong, N.T. Huyen, and N.D. Cu|Acute Toxicity Test to Determine the Effects of Copper, Zinc and Cyanide on Cobia (Rachycentron canadum) Resources in North Vietnam|Australas. J. Ecotoxicol.11(3): 163-166|2005|
116128|T||Borghi,M., R. Tognetti, G. Monteforti, and L. Sebastiani|Responses of Populus x euramericana (P. deltoides x P. nigra) Clone Adda to Increasing Copper Concentrations|Environ. Exp. Bot.61(1): 66-73|2007|10.1016/j.envexpbot.2007.03.001
116130|A||Cebrian,E., and M.J. Uriz|Contrasting Effects of Heavy Metals and Hydrocarbons on Larval Settlement and Juvenile Survival in Sponges|Aquat. Toxicol.81(2): 137-143|2007|10.1016/j.aquatox.2006.11.010
116131|T||Garcia,P.V., N. Pereira, and L.M. Oliveira|Side-Effects of Organic and Synthetic Pesticides on Cold-Stored Diapausing Prepupae of Trichogramma cordubensis|Biocontrol54(3): 451-458|2009|10.1007/s10526-008-9186-5
116132|T||Yatagai,M., and G. Unrinin|By-Products of Wood Carbonization.  VI.  Germination and Growth Effects of Wood Vinegar Components and Their Homologs on Plant Seeds.  Alcohols and Phenols|Mokuzai Gakkaishi35(11): 1021-1028|1989|
116133|T||Savvas,D., V. Karagianni, A. Kotsiras, V. Demopoulos, I. Karkamisi, and P. Pakou|Interactions Between Ammonium and pH of the Nutrient Solution Supplied to Gerbera (Gerbera jamesonii) Grown in Pumice|Plant Soil254(2): 393-402|2003|10.1023/A:1025595201676
116134|T||Schildhauer,J., K. Wiedemuth, and K. Humbeck|Supply of Nitrogen can Reverse Senescence Processes and Affect Expression of Genes Coding for Plastidic Glutamine Synthetase and Lysine-Ketoglutarate Reductase/Saccharopine Dehydrogenase|Plant Biol.10(suppl. 1): 76-84|2008|10.1111/j.1438-8677.2008.00075.x
116135|A||Randall,D.J., and P.A. Wright|The Interaction Between Carbon Dioxide and Ammonia Excretion and Water pH in Fish|Can. J. Zool.67:2936-2942|1989|10.1139/z89-416
116136|A||Richardson,D., T.C. Dorris, S. Burks, R.H. Browne, M.L. Higgins, and F.R. Leach|Evaluation of a Cell Culture Assay for Determination of Water Quality of Oil-Refinery Effluents|Bull. Environ. Contam. Toxicol.18(6): 683-690|1977|10.1007/BF01691979
116137|T||McGovern,T.P., and T.L.Jr. Ladd|Attractants for the Northern Corn Rootworm (Coleoptera:  Chrysomelidae):  Alkyl- and Alkenylphenols|J. Econ. Entomol.83(4): 1316-1320|1990|10.1093/jee/83.4.1316
116138|T||Koizumi,M., A. Noda, Y. Ito, M. Furukawa, S. Fujii, E. Kamata, M. Ema, and R. Hasegawa|Higher Susceptibility of Newborn than Young Rats to 3-Methylphenol|J. Toxicol. Sci.28(2): 59-70|2003|10.2131/jts.28.59
116139|T||Asare,G.A., M. Bronz, V. Naidoo, and M.C. Kew|Synergistic Interaction Between Excess Hepatic Iron and Alcohol Ingestion in Hepatic Mutagenesis|Toxicology254(1-2): 11-18|2008|10.1016/j.tox.2008.08.024
116140|A||Adelman,I.R., L.I. Kusilek, J. Koehle, and J. Hess|Acute and Chronic Toxicity of Ammonia, Nitrite, and Nitrate to the Endangered Topeka Shiner (Notropis topeka) and Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.28(10): 2216-2223|2009|10.1897/08-619.1
116141|A||Ackerman,P.A., B.J. Wicks, G.K. Iwama, and D.J. Randall|Low Levels of Environmental Ammonia Increase Susceptibility to Disease in Chinook Salmon Smolts|Physiol. Biochem. Zool.79(4): 695-707|2006|10.1086/504615
116142|T||Avery,M.L., and C.O. Nelms|Food Avoidance by Red-Winged Blackbirds Conditioned with a Pyrazine Odor|Auk107(3): 544-549|1990|
116143|T||Avery,M.L.|Experimental Evaluation of Partial Repellent Treatment for Reducing Bird Damage to Crops|J. Appl. Ecol.26(2): 433-439|1989|10.2307/2404071
116145|T||Conover,M.R.|Can Goose Damage to Grain Fields be Prevented Through Methiocarb-Induced Aversive Conditioning?|Wildl. Soc. Bull.17(2): 172-175|1989|
116146|T||Rodriguez,E.N.|An Integrated Strategy to Decrease Eared Dove Damage in Sunflowers|Ph.D.Thesis, Colorado State University, Fort Collins, CO:99 p.|1994|
116147|T||Heye,C.C.|Biological Control of the Perfect Stage of the Apple Scab Pathogen, Venturia inaequalis (CKE.) Wint|Ph.D Thesis, University of Wisconsin, Madison, WI:113 p.|1982|
116148|T||Balles,J.A.|Reaction of Selected Soybean Germplasm to Fungal Seed Disease and Senescence Regulation|Ph.D.Thesis, Purdue University, West Lafayette, IN:277 p.|1987|
116149|T||Gott,K.A., R.B. Maude, and T.H. Thomas|Fungitoxicity of Plant Growth Regulators (PGRs) and PGR/Fungicide Mixtures in Soak Treatments to Septoria apiicola Pycnidiospores|Plant Pathol.38(1): 21-25|1989|10.1111/j.1365-3059.1989.tb01423.x
116150|T||Ramos,P., R. Rosales, I. Sabouni, D. Garrido, and J.M. Ramos|Crop Losses Due to Olive Moth Mediated by Ethylene|Pest Manag. Sci.64(7): 720-724|2008|10.1002/ps.1548
116151|A||Zhang,H., G. Tan, Z. Wang, J. Yang, and J. Zhang|Ethylene and ACC Levels in Developing Grains are Related to the Poor Appearance and Milling Quality of Rice|Plant Growth Regul.58(1): 85-96|2009|10.1007/s10725-008-9354-8
116152|T||Diaz-Veliz,G., I. Paris, S. Mora, R. Raisman-Vozari, and J. Segura-Aguilar|Copper Neurotoxicity in Rat Substantia Nigra and Striatum is Dependent on DT-Diaphorase Inhibition|Chem. Res. Toxicol.21(6): 1180-1185|2008|10.1021/tx8001143
116153|A||Dewez,D., L. Geoffroy, G. Vernet, and R. Popovic|Determination of Photosynthetic and Enzymatic Biomarkers Sensitivity Used to Evaluate Toxic Effects of Copper and Fludioxonil in Alga Scenedesmus obliquus|Aquat. Toxicol.74(2): 150-159|2005|10.1016/j.aquatox.2005.05.007
116154|T||Goldschmith,A., C. Infante, J. Leiva, E. Motles, and M. Palestini|Interference of Chronically Ingested Copper in Long-Term Potentiation (LTP) of Rat Hippocampus|Brain Res.1056(2): 176-182|2005|10.1016/j.brainres.2005.07.030
116155|T||Gatti,E.|Micropropagation of Ailanthus altissima and In Vitro Heavy Metal Tolerance|Biol. Plant. (Praha)52(1): 146-148|2008|10.1007/s10535-008-0030-7
116156|T||Maksymiec,W., M. Wojcik, and Z. Krupa|Variation in Oxidative Stress and Photochemical Activity in Arabidopsis thaliana Leaves Subjected to Cadmium and Excess Copper in the Presence or Absence of Jasmonate and Ascorbate|Chemosphere66(3): 421-427|2007|10.1016/j.chemosphere.2006.06.025
116157|A||Prieto-Alamo,M.J., N. Abril, I. Osuna-Jimenez, and C. Pueyo|Solea senegalensis Genes Responding to Lipopolysaccharide and Copper Sulphate Challenges:  Large-Scale Identification by Suppression Subtractive Hybridization and Absolute Quantification of Transcriptional Profiles by R|Aquat. Toxicol.91(4): 312-319|2009|10.1016/j.aquatox.2008.11.001
116158|T||Skrivan,M., V. Skrivanova, and M. Marounek|Effect of Various Copper Supplements to Feed of Laying Hens on Cu Content in Eggs, Liver, Excreta, Soil, and Herbage|Arch. Environ. Contam. Toxicol.50(2): 280-283|2006|10.1007/s00244-005-1028-1
116159|A||Le Jeune,A.H., M. Charpin, V. Deluchat, J.F. Briand, J.F. Lenain, M. Baudu, and C. Amblard|Effect of Copper Sulphate Treatment on Natural Phytoplanktonic Communities|Aquat. Toxicol.80(3): 267-280|2006|10.1016/j.aquatox.2006.09.004
116160|A||Bossuyt,B.T., and C.R. Janssen|Influence of Bioavailability on Acclimation of Daphnia magna to Copper|Meded. Fac. Landbouwwet. Univ. Gent67(4): 133-136|2002|
116161|T||Fargasova,A., J. Pastierova, and K. Svetkova|Effect of Se-Metal Pair Combinations (Cd, Zn, Cu, Pb) on Photosynthetic Pigments Production and Metal Accumulation in Sinapis alba L. Seedlings|Plant Soil Environ.52(1): 8-15|2006|10.17221/3340-PSE
116162|T||Fargasova,A.|Toxicity Comparison of Some Possible Toxic Metals (Cd, Cu, Pb, Se, Zn) on Young Seedlings of Sinapis alba L.|Plant Soil Environ.50(1): 33-38|2004|10.17221/3639-PSE
116163|T||Rouphael,Y., M. Cardarelli, E. Rea, and G. Colla|Grafting of Cucumber as a Means to Minimize Copper Toxicity|Environ. Exp. Bot.63(1-3): 49-58|2008|10.1016/j.envexpbot.2007.10.015
116164|T||Xiong,Z.T., T. Wang, K. Liu, Z.Z. Zhang, J.H. Gan, Y. Huang, and M.J. Li|Differential Invertase Activity and Root Growth Between Cu-Tolerant and Non-Tolerant Populations in Kummerowia stipulacea Under Cu Stress and Nutrient Deficiency|Environ. Exp. Bot.62(1): 17-27|2008|10.1016/j.envexpbot.2007.07.001
116165|T||Borghi,M., R. Tognetti, G. Monteforti, and L. Sebastiani|Responses of Two Poplar Species (Populus alba and Populus x canadensis) to High Copper Concentrations|Environ. Exp. Bot.62(3): 290-299|2008|10.1016/j.envexpbot.2007.10.001
116166|T||Kovacik,J., J. Gruz, M. Backor, J. Tomko, M. Strnad, and M. Repcak|Phenolic Compounds Composition and Physiological Attributes of Matricaria chamomilla Grown in Copper Excess|Environ. Exp. Bot.62(2): 145-152|2008|10.1016/j.envexpbot.2007.07.012
116167|T||Lee,S., and B.S. Kang|Phytochelatin is not a Primary Factor in Determining Copper Tolerance|J. Plant Biol.48(1): 32-38|2005|10.1007/BF03030562
116168|T||Zhang,H., C. Lian, and Z. Shen|Proteomic Identification of Small, Copper-Responsive Proteins in Germinating Embryos of Oryza sativa|Ann. Bot.103(6): 923-930|2009|10.1093/aob/mcp012
116169|A||Prato,E., and F. Biandolino|Gammarus aequicauda (Crustacea: Amphipoda):  a Potential Test Species in Marine Sediment Toxicity Assessment|Aquat. Ecosyst. Health Manag.8(4): 475-482|2005|10.1080/14634980500362213
116170|T||Elzaawely,A.A., T.D. Xuan, and S. Tawata|Changes in Essential Oil, Kava Pyrones and Total Phenolics of Alpinia zerumbet (Pers.) B.L. Burtt. & R.M. Sm. Leaves Exposed to Copper Sulphate|Environ. Exp. Bot.59(3): 347-353|2007|10.1016/j.envexpbot.2006.04.007
116171|T||Balint,A.F., F. Szira, M.S. Roder, G. Galiba, and A. Borner|Mapping of Loci Affecting Copper Tolerance in Wheat - The Possible Impact of the Vernalization Gene Vrn-A1|Environ. Exp. Bot.65(2/3): 369-375|2009|10.1016/j.envexpbot.2008.11.004
116172|A||Hernandez,P.P., F.A. Olivari, A.F. Sarrazin, P.C. Sandoval, and M.L. Allende|Regeneration in Zebrafish Lateral Line Neuromasts:  Expression of the Neural Progenitor Cell Marker Sox2 and Proliferation-Dependent and -Independent Mechanisms of Hair Cell Renewal|Dev. Neurobiol.67(5): 637-654|2007|10.1002/dneu.20386
116173|A||Moore,J.M.|Comparison of Copper Toxicity to Channel Catfish, Ictalurus punctatus, and Blue Catfish, I. furcatus, Fingerlings|J. Appl. Aquacult.17(1): 77-84|2005|10.1300/J028v17n01_06
116174|A||Osunde,I.M., S. Coyle, and J. Tidwell|Acute Toxicity of Copper to Juvenile Freshwater Prawns, Macrobrachium rosenbergii|J. Appl. Aquacult.14(3/4): 71-79|2004|10.1300/J028v14n03_06
116175|A||Straus,D.L.|Species Sensitivity to Copper:  Acute Toxicity to Channel Catfish, Ictalurus punctatus, and Sunshine Bass, Morone chrysops x M. saxatilis|J. Appl. Aquacult.18(1): 89-99|2006|10.1300/J028v18n01_06
116176|T||Franchin,C., T. Fossati, E. Pasquini, G. Lingua, S. Castiglione, P. Torrigiani, and S. Biondi|High Concentrations of Zinc and Copper Induce Differential Polyamine Responses in Micropropagated White Poplar (Populus alba)|Physiol. Plant. (Multiple Languages)130(1): 77-90|2007|10.1111/j.1399-3054.2007.00886.x
116177|A||Chaudhary,P., and A.K. Gupta|Impact of Water Hardness and Temperature on the Acute Toxicity of Copper and Mercury to a Freshwater Copepod, Cyclops|Indian J. Environ. Sci.10(2): 139-143|2006|
116178|A||Hutchins,C.M., P.R. Teasdale, S.Y. Lee, and S.L. Simpson|Influence of Sediment Metal Spiking Procedures on Copper Bioavailability and Toxicity in the Estuarine Bivalve Indoaustriella lamprelli|Environ. Toxicol. Chem.28(9): 1885-1892|2009|10.1897/08-469.1
116179|A||Zapata-Vivenes,E., O.A. Nusetti, L. Marcano, M.M. Esclapes, and L. Arredondo|Immunological Responses and Wound Healing in the Polychaete Eurythoe complanata (Annelida: Amphinomidae) Exposed to Copper|Cienc. Mar.31(1A): 1-10|2005|10.7773/cm.v31i11.83
116180|T||Pra,D., S.I.R. Franke, R. Giulian, M.L. Yoneama, J.F. Dias, B. Erdtmann, and J.A.P. Henriques|Genotoxicity and Mutagenicity of Iron and Copper in Mice|BioMetals21(3): 289-297|2008|10.1007/s10534-007-9118-3
116181|T||Chaffai,R., A. Tekitek, and E. El Ferjani|A Comparative Study on the Organic Acid Content and Exudation in Maize (Zea mays L.) Seedlings Under Conditions of Copper and Cadmium Stress|Asian J. Plant Sci.5(4): 598-606|2006|10.3923/ajps.2006.598.606
116182|T||Tari,I., J. Csiszar, K. Gemes, and A. Szepesi|Modulation of Cu2+ Accumulation by (Aminoethoxyvinyl)Glycine and Methylglyoxal bis(Guanylhydrazone), the Inhibitors of Stress Ethylene and Polyamine Synthesis in Wheat Genotypes|Cereal Res. Commun.34(2-3): 989-996|2006|10.1556/CRC.34.2006.2-3.229
116183|T||Sparks,D.L., R. Friedland, S. Petanceska, B.G. Schreurs, J. Shi, G. Perry, M.A. Smith, A. Sharma, S. Derosa, C. Ziolkow|Trace Copper Levels in the Drinking Water, but not Zinc or Aluminum Influence CNS Alzheimer-Like Pathology|J. Nutr. Health Aging10(4): 247-254|2006|
116184|A||Baltz,D.M., E.J. Chesney, M.A. Tarr, A.S. Kolok, and M.J. Bradley|Toxicity and Sublethal Effects of Methanol on Swimming Performance of Juvenile Florida Pompano|Trans. Am. Fish. Soc.134(3): 730-740|2005|10.1577/T04-136.1
116185|T||Yamanobe,T.|Use of Ethanol Immersion, Forced Air and Seed Coat Colour for Separating Empty Seeds from Pinus densiflora and Pinus thunbergii Seed Lots|Seed Sci. Technol.36(1): 243-248|2008|10.15258/sst.2008.36.1.30
116186|A||Bilotta,J., S. Saszik, C.M. Givin, H.R. Hardesty, and S.E. Sutherland|Effects of Embryonic Exposure to Ethanol on Zebrafish Visual Function|Neurotoxicol. Teratol.24(6): 759-766|2002|10.1016/S0892-0362(02)00319-7
116187|T||Bokor,K., and K. Pecsenye|Comparative Influence of Odh and Adh loci on Alcohol Tolerance in Drosophila melanogaster|Genet. Sel. Evol.30(5): 503-516|1998|10.1186/1297-9686-30-5-503
116188|A||Bradfield,J.Y., J.R. West, and S.E. Maier|Uptake and Elimination of Ethanol by Young Zebrafish Embryos|Neurotoxicol. Teratol.28(5): 629-633|2006|10.1016/j.ntt.2006.06.004
116189|T||Okamura,N., K. Kobayashi, A. Akaike, and A. Yagi|Protective Effect of Ginseng Saponins Against Impaired Brain Growth in Neonatal Rats Exposed to Ethanol|Biol. Pharm. Bull.17(2): 270-274|1994|10.1248/bpb.17.270
116190|T||Kane,C.M., D.R. Pierce, N.N. Nyamweya, H. Yang, Y. Kasmi, R. Mosby, D.C. Serbus, and K.E. Light|Nutritional Factors Modify the Inhibition of CNS Development by Combined Exposure to Methadone and Ethanol in Neonatal Rats|Pharmacol. Biochem. Behav.56(3): 399-407|1997|10.1016/S0091-3057(96)00239-0
116191|T||Goncalves,K., E. Toigo, B. Ascoli, G. Von Poser, and V.L.S. Ribeiro|Effects of Solvents and Surfactant Agents on the Female and Larvae of Cattle Tick Boophilus microplus|Parasitol. Res.100(6): 1267-1270|2007|10.1007/s00436-006-0418-2
116192|A||Carvan III,M.J., E. Loucks, D.N. Weber, and F.E. Williams|Ethanol Effects on the Developing Zebrafish:  Neurobehavior and Skeletal Morphogenesis|Neurotoxicol. Teratol.26(6): 757-768|2004|10.1016/j.ntt.2004.06.016
116193|T||Bradley,D.M., F.D. Beaman, D.B. Moore, K. Kidd, and M.B. Heaton|Neurotrophic Factors BDNF and GDNF Protect Embryonic Chick Spinal Cord Motoneurons from Ethanol Neurotoxicity In Vivo|Brain Res. Dev. Brain Res.112(1): 99-106|1999|10.1016/S0165-3806(98)00155-2
116194|T||Ziska,L.H., S. Faulkner, and J. Lydon|Changes in Biomass and Root:  Shoot Ratio of Field-Grown Canada Thistle (Cirsium arvense), a Noxious, Invasive Weed, with Elevated CO2:  Implications for Contol with Glyphosate|Weed Sci.52(4): 584-588|2004|10.1614/WS-03-161R
116195|T||Zheng,G., W. Zhang, Y. Zhang, Y. Chen, M. Liu, T. Yao, Y. Yang, F. Zhao, J. Li, C. Huang, W. Luo, and J. Chen|Gamma-Aminobutyric AcidA (GABAA) Receptor Regulates ERK1/2 Phosphorylation in Rat Hippocampus in High Doses of Methyl Tert-Butyl Ether (MTBE)-Induced Impairment of Spatial Memory|Toxicol. Appl. Pharmacol.236(2): 239-245|2009|10.1016/j.taap.2009.01.004
116196|T||Singhal,R., T.M. Badger, and M.J. Ronis|Estrogenic Status Modulates the Effect of Soy on Hepatic Responses to 7,12-Dimethylbenz(a)anthracene (DMBA)|Toxicol. Appl. Pharmacol.234(1): 89-97|2009|10.1016/j.taap.2008.09.027
116198|T||Wyeth,R.P., E.M. Mills, A. Ullman, M.A. Kenaston, J. Burwell, and J.E. Sprague|The Hyperthermia Mediated by 3,4-Methylenedioxymethamphetamine (MDMA, Ecstasy) is Sensitive to Sex Differences|Toxicol. Appl. Pharmacol.235(1): 33-38|2009|10.1016/j.taap.2008.12.003
116199|T||Singh,M.P., M.K.R. Reddy, N. Mathur, D.K. Saxena, and D.K. Chowdhuri|Induction of hsp70, hsp60, hsp83 and hsp26 and Oxidative Stress Markers in Benzene, Toluene and Xylene Exposed Drosophila melanogaster:  Role of ROS Generation|Toxicol. Appl. Pharmacol.235(2): 226-243|2009|10.1016/j.taap.2008.12.002
116200|T||Cho,W.S., M. Cho, J. Jeong, M. Choi, H.Y. Cho, B.S. Han, S.H. Kim, H.O. Kim, Y.T. Lim, and B.H. Chung|Acute Toxicity and Pharmacokinetics of 13 nm-Sized PEG-Coated Gold Nanoparticles|Toxicol. Appl. Pharmacol.236(1): 16-24|2009|10.1016/j.taap.2008.12.023
116201|T||Wei,L., P. Liao, H. Wu, X. Li, F. Pei, W. Li, and Y. Wu|Metabolic Profiling Studies on the Toxicological Effects of Realgar in Rats by 1H NMR Spectroscopy|Toxicol. Appl. Pharmacol.234(3): 314-325|2009|10.1016/j.taap.2008.11.010
116202|T||Rossi-George,A., M.B. Virgolini, D. Weston, and D.A. Cory-Slechta|Alterations in Glucocorticoid Negative Feedback Following Maternal Pb, Prenatal Stress and the Combination:  A Potential Biological Unifying Mechanism for Their Corresponding Disease Profiles|Toxicol. Appl. Pharmacol.234(1): 117-127|2009|10.1016/j.taap.2008.10.003
116204|T||Pogribny,I.P., L. Muskhelishvili, V.P. Tryndyak, and F.A. Beland|The Tumor-Promoting Activity of 2-Acetylaminofluorene is Associated with Disruption of the p53 Signaling Pathway and the Balance Between Apoptosis and Cell Proliferation|Toxicol. Appl. Pharmacol.235(3): 305-311|2009|10.1016/j.taap.2008.12.021
116205|T||Doi,K., M. Wei, M. Kitano, N. Uematsu, M. Inoue, and H. Wanibuchi|Enhancement of Preneoplastic Lesion Yield by Chios Mastic Gum in a Rat Liver Medium-Term Carcinogenesis Bioassay|Toxicol. Appl. Pharmacol.234(1): 135-142|2009|10.1016/j.taap.2008.10.001
116206|T||Saxena,N., K.M. Ansari, R. Kumar, A. Dhawan, P.D. Dwivedi, and M. Das|Patulin Causes DNA Damage Leading to Cell Cycle Arrest and Apoptosis Through Modulation of Bax, p53 and p21/WAF1 Proteins in Skin of Mice|Toxicol. Appl. Pharmacol.234(2): 192-201|2009|10.1016/j.taap.2008.09.033
116207|T||Ray,A., J. Liu, S. Karanth, Y. Gao, S. Brimijoin, and C. Pope|Cholinesterase Inhibition and Acetylcholine Accumulation Following Intracerebral Administration of Paraoxon in Rats|Toxicol. Appl. Pharmacol.236(3): 341-347|2009|10.1016/j.taap.2009.02.022
116208|T||Banu,S.K., J.B. Samuel, J.A. Arosh, R.C. Burghardt, and M.M. Aruldhas|Lactational Exposure to Hexavalent Chromium Delays Puberty by Impairing Ovarian Development, Steroidogenesis and Pituitary Hormone Synthesis in Developing Wistar Rats|Toxicol. Appl. Pharmacol.232(2): 180-189|2008|10.1016/j.taap.2008.06.002
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116220|T||Dumont,M.|Characterization of a Linuron-Resistant Biotype of Green Pigweed (Amaranthus powellii S. Wats)|M.S. Thesis, University of Guelph, Ontario, Canada:56 p.|2002|
116221|T||Kuratle III,H.|The Mode of Action and Basis for Selectivity of Linuron Herbicide|Ph.D.Thesis, University of Delaware, Newark, DE:105 p.|1968|
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116227|T||Drazkiewicz,M., E. Skorzynska-Polit, and Z. Krupa|The Redox State and Activity of Superoxide Dismutase Classes in Arabidopsis thaliana Under Cadmium or Copper Stress|Chemosphere67(1): 188-193|2007|10.1016/j.chemosphere.2006.08.032
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116229|T||Bi,G., C.F. Scagel, L. Cheng, and L.H. Fuchigami|Effects of Copper, Zinc and Urea on Defoliation and Nitrogen Reserves in Nursery Plants of Almond|J. Hortic. Sci. Biotechnol.80(6): 746-750|2005|10.1080/14620316.2005.11512009
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116233|A||Khan,A.T., M.E. El-Boushy, O.A. Abd-Alla, and A.A. El-Meligy|Toxic Effects of Copper on Blood Chemistry Parameters in Channel Catfish|Environ. Sci.6(2): 123-128|1998|
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116244|T||Baldrian,P., V. Valaskova, V. Merhautova, and J. Gabriel|Degradation of Lignocellulose by Pleurotus ostreatus in the Presence of Copper, Manganese, Lead and Zinc|Res. Microbiol.156(5/6): 670-676|2005|10.1016/j.resmic.2005.03.007
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116278|T||Pohjanvirta,R.|Transgenic Mouse Lines Expressing Rat AH Receptor Variants - a New Animal Model for Research on AH Receptor Function and Dioxin Toxicity Mechanisms|Toxicol. Appl. Pharmacol.236(2): 166-182|2009|10.1016/j.taap.2009.01.005
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116290|A||Rowland,S.J., C. Mifsud, M. Nixon, P. Read, and M. Landos|Use of Formalin and Copper to Control Ichthyophthiriosis in the Australian Freshwater Fish Silver Perch (Bidyanus bidyanus Mitchell)|Aquac. Res.40(1): 44-54|2008|10.1111/j.1365-2109.2008.02061.x
116291|T||Huang,Y., T. Li, Z.J. Huang, and Y.H. Fei|Ectomycorrhizal Fungus-Induced Changes of Cu and Cd Speciation in the Rhizosphere of Chinese Pine Seedlings|Pedosphere18(6): 758-765|2008|10.1016/S1002-0160(08)60071-5
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116303|T||Wiese,A.F., and D.E. Lavake|Control of Field Bindweed (Convolvulus arvensis) with Postemergence Herbicides|Weed Sci.34(1): 77-80|1986|10.1017/S0043174500026497
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116306|T||Thompson,A.|New Herbicides for Blackberry Control|Proc. N. Z. Weed Pest Control Conf.30:76-79|1977|10.30843/nzpp.1977.30.9021
116307|A||Klaine,S.J., and C.H. Ward|Environmental and Chemical Control of Vegetative Dormant Bud Production in Hydrilla verticillata|Ann. Bot.53(4): 503-514|1984|
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116309|T||Milivojevic,D., and D. Markovic|Effects of Linuron and Monolinuron Herbicides on Pea Chloroplasts|Photosynthetica (Praha)23(3): 386-389|1989|
116310|T||Khan,S., and J. Singh|Effect of Some Phenolic Compounds and Pesticides on the Growth and Nutrient Concentration of Gram (Cicer arietinum), Lentil (Lens esculenta) and Linseed (Linum usitatissium) Plants|Indian J. Environ. Health38(3): 153-159|1996|
116311|T||Claro,C., R. Ruiz, E. Cordero, M.T. Pastor, L.F. Lopez-Cortes, M.R. Jimenez-Castellanos, and M.J. Lucero|Determination and Pharmacokinetic Profile of Liposomal Foscarnet in Rabbit Ocular Tissues After Intravitreal Administration|Exp. Eye Res.88(3): 528-534|2009|10.1016/j.exer.2008.11.015
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116313|T||Wilson,J.S., and A.D. Worsham|Combinations of Nonselective Herbicides for Difficult to Control Weeds in No-Till Corn, Zea mays, and Soybeans, Glycine max|Weed Sci.36(5): 648-652|1988|10.1017/S0043174500075561
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116318|T||Lee,A.N.|Chemical Control of African Boxthorn Lycium ferocissimum|Qld. J. Agric. Anim. Sci.36(2): 189-193|1979|
116320|T||Moya,T.B., L.H. Ziska, O.S. Namuco, and D. Olszyk|Growth Dynamics and Genotypic Variation in Tropical, Field-Grown Paddy Rice (Oryza sativa L.) in Response to Increasing Carbon Dioxide and Temperature|Global Change Biol.4(6): 645-656|1998|10.1046/j.1365-2486.1998.00180.x
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116325|A||Altinok,I., E. Capkin, S. Karahan, and M. Boran|Effects of Water Quality and Fish Size on Toxicity of Methiocarb, a Carbamate Pesticide, to Rainbow Trout|Environ. Toxicol. Pharmacol.22(1): 20-26|2006|10.1016/j.etap.2005.11.002
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116330|T||Thomas,L.K.,Jr.|Chemical Grubbing for Control of Exotic Wisteria|Castanea58(3): 209-213|1993|
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116338|A||Afaghi,A., S. Zare, R. Heidari, Y. Asadpoor, and R.M. Viayeh|Effects of Copper Sulfate (CuSO4) on the Levels of Glucose and Cortisol in Common Carp, Cyprinus carpio|Pak. J. Biol. Sci.10(10): 1655-1660|2007|10.3923/pjbs.2007.1655.1660
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116342|T||Bud'ova,J., M. Backor, M. Backorova, and J. Zidzik|Usnic Acid and Copper Toxicity in Aposymbiotically Grown Lichen Photobiont Trebouxia erici|Symbiosis42(3): 169-174|2006|
116343|T||Spaull,A.|Effects of Nematodes on Newly-Sown Ryegrass|Symp. Proc. Br. Crop Prot. Counc.29:65-72|1985|
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116345|T||Sternitzke,A., W. Legrum, and K.J. Netter|Effects of Phenolic Smoke Condensates and Their Components on Hepatic Drug Metabolizing Systems|Food Chem. Toxicol.30(9): 771-781|1992|10.1016/0278-6915(92)90079-Z
116346|AT||Mitou,M., Y. Shigemori, H. Aoshima, and S. Yokoyama|Effect of Dried Bonito (Katsuobushi) and Some of Its Components on GABAA Receptors|Food Chem.108(3): 840-846|2008|10.1016/j.foodchem.2007.11.045
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116349|T||Vanlieshout,L.A.|Interactions of Glyphosate with Preemergence Soybean Herbicides|Ph.D. Thesis, The Ohio State University, Columbus, OH:87 p.|1997|
116350|AT||Huang,Z., Q. Cui, L. Xiong, Z. Wang, K. Wang, Q. Zhao, F. Bi, and Q. Wang|Synthesis and Insecticidal Activities and SAR Studies of Novel Benzoheterocyclic Diacylhydrazine Derivatives|J. Agric. Food Chem.57(6): 2447-2456|2009|10.1021/jf8036193
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116352|T||Tucker,H.|beta-Adrenergic Blocking Agents.  21.  Threo-1-(Aryloxy)-3-(Alkylamino)Butan-2-ols|J. Med. Chem.24(11): 1364-1368|1981|10.1021/jm00143a020
116353|T||Parks,C.A., and J.T. Hoffman|Control of Western Dwarf Mistletoe with the Plant-Growth Regulator Ethephon|Pacific Northwest Research Station.Forest Service, Portland, OR:4 p.|1991|
116354|A||Zhou,G.K., Y.F. Xu, and J.Y. Liu|Characterization of a Rice Class II Metallothionein Gene:  Tissue Expression Patterns and Induction in Response to Abiotic Factors|J. Plant Physiol.162(6): 686-696|2005|10.1016/j.jplph.2004.11.006
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116356|AT||Akiyama,T., S. Jin, M. Yoshida, T. Hoshino, R. Opassiri, and J.R. Ketudat Cairns|Expression of an Endo-(1,3;1,4)-beta-Glucanase in Response to Wounding, Methyl Jasmonate, Abscisic Acid and Ethephon in Rice Seedlings|J. Plant Physiol.PRESS:12 p.|2009|
116357|T||Hwang,S.H., I.A. Lee, S.W. Yie, and D.J. Hwang|Identification of an OsPR10a Promoter Region Responsive to Salicylic Acid|Planta (Multiple Languages)227(5): 1141-1150|2008|10.1007/s00425-007-0687-8
116358|AT||Zhao,B.H., K. Liu, H.X. Zhang, Q.S. Zhu, and J.C. Yang|Causes of Poor Grain Plumpness of Two-Line Hybrids and Their Relationships to the Contents of Hormones in the Rice Grain|Agric. Sci. China6(8): 930-940|2007|10.1016/S1671-2927(07)60131-X
116359|T||Reggiani,R.|A Role for Ethylene in Low-Oxygen Signaling in Rice Roots|Amino Acids30(3): 299-301|2006|10.1007/s00726-006-0274-5
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116361|T||Avery,M.L.|Relative Importance of Taste and Vision in Reducing Bird Damage to Crops with Methiocarb, a Chemical Repellent|Agric. Ecosyst. Environ.11(4): 299-308|1984|10.1016/0167-8809(84)90003-3
116363|AT||Mullai,K., A. Jebanesan, and T. Pushpanathan|Mosquitocidal and Repellent Activity of the Leaf Extract of Citrullus vulgaris (Cucurbitaceae) Against the Malarial Vector, Anopheles stephensi Liston (Diptera culicidae)|Eur. Rev. Med. Pharmacol. Sci.12(1): 1-7|2008|
116364|T||Brunner,J.F., and L.O. Smith|Apple, Control of the Pandemis Leafroller with AC 303630 in the Delayed Dormant Period, 1991|Insectic. Acaric. Tests18:10-|1993|
116365|A||Naqvi,S.N.H., R. Tabassum, M.A. Azmi, S. Rani, K. Ehsan, M. Jahan, and I. Ahmad|Determination of Toxicity of Saponin, Crude Saponin and Mesurol Against Freshwater Pond Snail Physa acuta|Proc. Pak. Congr. Zool.16:277-282|1996|
116366|T||Michniewicz,M., A. Rozej, and E. Czerwinska|The Effect of Treating Wheat with Ethrel in Conjunction with Some Fungicides on the Susceptibility to Fungal Diseases and on the Root Zone Mycoflora of this Plant|Acta Agrobot. (Multiple Languages)41(1): 33-38|1988|10.5586/aa.1988.004
116367|T||Tobin,M.E.|Cues Used by House Finches for Detecting Methiocarb-Treated Grapes|Crop Prot.4(1): 111-119|1985|10.1016/0261-2194(85)90010-9
116368|A||Vlyssides,A., E.M. Barampouti, and S. Mai|Heavy Metal Removal from Water Resources Using the Aquatic Plant Apium nodiflorum|Commun. Soil Sci. Plant Anal.36(7-8): 1075-1081|2005|10.1081/CSS-200050499
116369|A||Smolyakov,B.S., M.V. Zhigula, A.P. Ryzhikh, E.V. Sinitsyna, N.I. Ermolaeva, and A.A. Fedotova|Copper (II) Speciation in a Freshwater Ecosystem|Water Resour.31(1): 55-63|2004|10.1023/B:WARE.0000013573.08909.c3
116370|A||Fried,B., and J.L. Schneck|Effects of Copper Sulphate on In Vitro Encystment of the Cercariae of Echinostoma caproni|J. Helminthol.78:371-372|2004|10.1079/JOH2004249
116371|T||Attallah,C.V., E. Welchen, and D.H. Gonzalez|The Promoters of Arabidopsis thaliana Genes AtCOX17-1 and -2, Encoding a Copper Chaperone Involved in Cytochrome C Oxidase Biogenesis, are Preferentially Active in Roots and Anthers and Induced by Biotic and Abiotic Str|Physiol. Plant. (Multiple Languages)129(1): 123-134|2007|10.1111/j.1399-3054.2006.00776.x
116372|T||Jain,P., S. Kachhwaha, and S.L. Kothari|Improved Micropropagation Protocol and Enhancement in Biomass and Chlorophyll Content in Stevia rebaudiana (Bert.) Bertoni by Using High Copper Levels in the Culture Medium|Sci. Hortic.119(3): 315-319|2009|10.1016/j.scienta.2008.08.015
116373|T||Zalevskaya,T.L., and A.K. Baev|Interaction of Copper(II), Lead(II), and Mercury(II) Ions with the Biomass of the Oyster Mushroom|Russ. J. Coord. Chem.22(6): 471-473|1996|
116374|T||Panou-Filotheou,E., A.M. Bosabalidis, and S. Karataglis|Effects of Cu Excess on Oregano (Origanum vulgare subsp. hirtum (Link) Ietswaart).  I.  Morphological Effects|In: I.Teskos and M.Moustakas (Eds.), Prog. Bot. Res. Proc. Balk. Bot. Congr., 1st Meet. Date 1997, Kluwer, Dordrecht, Netherlands:439-442|1998|
116375|A||Kara,Y.|Bioaccumulation of Cu, Zn and Ni from the Wastewater by Treated Nasturtium officinale|Int. J. Environ. Sci. Technol. (Tehran)2(1): 63-67|2005|10.1007/BF03325859
116376|T||Merakchiyska,M.G., J.R. Stoinova, S.S. Paunova, and S.R. Phileva|Response of Different Ploidy Level Tritordeum Forms to Enhanced Concentrations of Copper Ions in the Medium|Cereal Res. Commun.33(2-3): 561-568|2005|10.1556/CRC.33.2005.2-3.120
116377|T||Wang,S.B., Q. Li, W.J. Liang, Y. Jiang, and S.W. Jiang|PCR-DGGE Analysis of Nematode Diversity in Cu-Contaminated Soil|Pedosphere18(5): 621-627|2008|10.1016/S1002-0160(08)60056-9
116378|T||Bissig,K.D., M. Honer, K. Zimmermann, K.H. Summer, and M. Solioz|Whole Animal Copper Flux Assessed by Positron Emission Tomography in the Long-Evans Cinnamon Rat - a Feasibility Study|BioMetals18(1): 83-88|2005|10.1007/s10534-004-1800-0
116379|T||Srivastava,R., and G.K. Srivastava|Meiotic Abnormalities and Tetraploidy (by Lead Nitrate) Induced by Heavy Metals (Pb, Cu, Hg, Zn) on Helianthus annuus L.|Cytologia69(2): 119-124|2004|10.1508/cytologia.69.119
116380|T||Silver Nanotechnology Working Group|First SNWG Report of Aggregated Data to the U.S. EPA|Report, March 19, 2009, Silver Nanotechnology Working Group, The Silver Research Consortium LLC, Durham, NC:34 p.|2009|
116381|T||Slosser,J.E., M.N. Parajulee, G.B. Idol, and D.R. Rummel|Cotton Aphid Response to Irrigation and Crop Chemicals|Southwest. Entomol.26(1): 1-14|2001|
116382|T||Hulsen,K., E.M. Top, and M. Hofte|Biodegradation of Linuron in a Phaseolus Bioassay Detected by Chlorophyll Fluorescence|New Phytol.154(3): 821-829|2002|10.1046/j.1469-8137.2002.00402.x
116383|T||Pipe,A.E.|The Influence of the Phenylurea Herbicides on the Algae of Some Saskatchewan Soils|Ph.D Thesis, University of Regina, Canada:298 p.|1983|
116384|A||Hassan,A.A., N.M. Shoukary, and N.M.M. Ismail|Efficacy of Temperature, and Two Commonly Used Molluscicides and Fertilizers on Fasciola gigantica Eggs|J. Egypt. Soc. Parasitol.38(2): 621-634|2008|
116385|T||Cisternas,F.A., G. Tapia, M. Arredondo, D. Cartier-Ugarte, P. Romanque, W.D. Sierralta, M.T. Vial, L.A. Videla, and M. |Early Histological and Functional Effects of Chronic Copper Exposure in Rat Liver|BioMetals18(5): 541-551|2005|10.1007/s10534-005-1244-1
116386|T||Seffner,W., F. Schiller, U. Lippold, R. Heinze, and A. Hofmann|Studies on the Influence of a Se-Restricted Diet on the Effects of Long-Term Increased Copper Intake in Guinea Pigs|Exp. Toxicol. Pathol.52(2): 161-168|2000|10.1016/S0940-2993(00)80114-1
116389|T||Volin,J.C., P.B. Reich, and T.J. Givnish|Elevated Carbon Dioxide Ameliorates the Effects of Ozone on Photosynthesis and Growth:  Species Respond Similarly Regardless of Photosynthetic Pathway or Plant Functional Group|New Phytol.138(2): 315-325|1998|10.1046/j.1469-8137.1998.00100.x
116392|T||Godonou,I., B. James, C. Atcha-Ahowe, S. Vodouhe, C. Kooyman, A. Ahanchede, and S. Korie|Potential of Beauveria bassiana and Metarhizium anisopliae Isolates from Benin to Control Plutella xylostella L. (Lepidoptera:  Plutellidae)|Crop Prot.28(3): 220-224|2009|10.1016/j.cropro.2008.10.009
116393|T||Sugiura,H.|Effects of 6-Benzylaminopurine and Ethephon Applications on Flowering and Morphology in Summer-to-Autumn-Flowering Chrysanthemum Under Open Field Conditions|J. Pestic. Sci. (Multiple Languages)29(4): 308-312|2004|10.1584/jpestics.29.308
116395|T||Martinez Galera,M., J.L. Martinez Vidal, F.J. Egea Gonzalez, and M.D. Gil Garcia|A Study of Fenpropathrin Residues in Tomatoes and Green Beans Grown in Greenhouses in Spain|Pestic. Sci.50(2): 127-134|1997|10.1002/(SICI)1096-9063(199706)50:2<127::AID-PS560>3.0.CO;2-4
116397|T||Chen,Y., Z. Zuo, S. Chen, F. Yan, Z. Yang, and C. Wang|Reduction of Spermatogenesis in Mice After Tributyltin Administration|Toxicology251(1-3): 21-27|2008|10.1016/j.tox.2008.06.015
116398|T||Timofeeva,O.A., A.V. Eremeev, A. Goloshchapov, E. Kalashnikova, S. Ilnitskaya, N.A. Setkov, V. Kobzev, G.S. Buzard, M.L|Effects of omicron-Aminoazotoluene on Liver Regeneration and p53 Activation in Mice Susceptible and Resistant to Hepatocarcinogenesis|Toxicology254(1-2): 91-96|2008|10.1016/j.tox.2008.09.013
116399|T||Carpentier,P., G. Testylier, F. Dorandeu, C. Segebarth, O. Montigon, A. Foquin, and H. Lahrech|Hyperosmolar Treatment of Soman-Induced Brain Lesions in Mice:  Evaluation of the Effects Through Diffusion-Weighted Magnetic Resonance Imaging and Through Histology|Toxicology253(1-3): 97-103|2008|10.1016/j.tox.2008.08.016
116400|T||Valmas,N., S. Zuryn, and P.R. Ebert|Mitochondrial Uncouplers Act Synergistically with the Fumigant Phosphine to Disrupt Mitochondrial Membrane Potential and Cause Cell Death|Toxicology252(1-3): 33-39|2008|10.1016/j.tox.2008.07.060
116401|T||Modi,H.R., N. Patil, and S.S. Katyare|Effect of Treatment with Cadmium on Kinetic Properties of Na+, K+-ATPase and Glucose-6-Phosphatase Activity in Rat Liver Microsomes A Correlative Study on Influence of Lipid/Phospholipid Make-Up|Toxicology254(1-2): 29-41|2008|10.1016/j.tox.2008.09.001
116402|T||Kamei,S., J. Miyawaki, K. Sakayama, H. Yamamoto, and H. Masuno|Perinatal and Postnatal Exposure to 4-tert-Octylphenol Inhibits Cortical Bone Growth in Width at the Diaphysis in Female Mice|Toxicology252(1-3): 99-104|2008|10.1016/j.tox.2008.08.008
116404|T||Gerecke,D.R., M. Chen, S.S. Isukapalli, M.K. Gordon, Y.C. Chang, W. Tong, I.P. Androulakis, and P.G. Georgopoulos|Differential Gene Expression Profiling of Mouse Skin After Sulfur Mustard Exposure:  Extended Time Response and Inhibitor Effect|Toxicol. Appl. Pharmacol.234(2): 156-165|2009|10.1016/j.taap.2008.09.020
116405|T||Yang,S.T., X. Wang, G. Jia, Y. Gu, T. Wang, H. Nie, C. Ge, H. Wang, and Y. Liu|Long-Term Accumulation and Low Toxicity of Single-Walled Carbon Nanotubes in Intravenously Exposed Mice|Toxicol. Lett.181(3): 182-189|2008|10.1016/j.toxlet.2008.07.020
116406|T||Chiusolo,A., R. DeFazio, A. Casartelli, N. Bocchini, M. Mongillo, E. Zanetti, P. Cristofori, and A. Trevisan|Regucalcin Down-Regulation in Rat Kidney Tissue After Treatment with Nephrotoxicants|Toxicol. Lett.182(1-3): 84-90|2008|10.1016/j.toxlet.2008.08.014
116407|T||Hagiwara,H., T. Sugizaki, Y. Tsukamoto, E. Senoh, T. Goto, and Y. Ishihara|Effects of Alkylphenols on Bone Metabolism In Vivo and In Vitro|Toxicol. Lett.181(1): 13-18|2008|10.1016/j.toxlet.2008.06.863
116408|T||Dearman,R.J., C.J. Betts, H.T. Caddick, B.F. Flanagan, and I. Kimber|Cytokine Profiling of Chemical Allergens in Mice:  Measurement of Message Versus Protein|Toxicology252(1-3): 17-25|2008|10.1016/j.tox.2008.07.055
116410|A||Vesela,S., K. Kuca, and D. Jun|Efficacy and Dosing of Antidotes Applied to Daphnia Intoxicated by Nerve Agent Tabun|Environ. Toxicol. Pharmacol.26(3): 283-289|2008|10.1016/j.etap.2008.05.007
116411|T||Nakamura,T., Y. Katsu, H. Watanabe, and T. Iguchi|Estrogen Receptor Subtypes Selectively Mediate Female Mouse Reproductive Abnormalities Induced by Neonatal Exposure to Estrogenic Chemicals|Toxicology253(1-3): 117-124|2008|10.1016/j.tox.2008.09.006
116412|T||Erin,N., B. Afacan, Y. Ersoy, F. Ercan, and M.K. Balci|Gibberellic Acid, a Plant Growth Regulator, Increases Mast Cell Recruitment and Alters Substance P Levels|Toxicology254(1-2): 75-81|2008|10.1016/j.tox.2008.09.020
116413|T||Shi,D., J. Yang, D. Yang, and B. Yan|Dexamethasone Suppresses the Expression of Multiple Rat Carboxylesterases Through Transcriptional Repression:  Evidence for an Involvement of the Glucocorticoid Receptor|Toxicology254(1-2): 97-105|2008|10.1016/j.tox.2008.09.019
116415|T||Campian,E.C., and F.W. Benz|The Acute Lethality of Acrylonitrile is not Due to Brain Metabolic Arrest|Toxicology253(1-3): 104-109|2008|10.1016/j.tox.2008.08.019
116416|T||Szaefer,H., V. Krajka-Kuzniak, and W. Baer-Dubowska|The Effect of Initiating Doses of Benzo(a)pyrene and 7,12-Dimethylbenz(a)anthracene on the Expression of PAH Activating Enzymes and Its Modulation by Plant Phenols|Toxicology251(1-3): 28-34|2008|10.1016/j.tox.2008.07.047
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116418|T||Phillips,R.L., and D.P.H. Tucker|An Evaluation of New Herbicides for Milkweed Vine Control|Annu. Meet. Fla. State Hortic. Soc.86:29-33|1973|
116419|T||Dempsey,G.P.|The Failure of Fosamine and Glyphosate to Give Long-Term Control of Blackberry in Northland|Proc. N. Z. Weed Pest Control Conf.34:152-155|1981|10.30843/nzpp.1981.34.10626
116420|T||Luken,J.O., S.W. Beiting, and R.L. Kumler|Target/Non-Target Effects of Herbicides in Power-Line Corridor Vegetation|J. Arboric.19(5): 299-302|1993|
116421|T||Kossuth,S.V., J.F. Young, J.E. Voeller, and H.A. Holt|Year-Round Hardwood Control Using the Hypo-Hatchet Injector|South. J. Appl. For.4(2): 73-76|1980|10.1093/sjaf/4.2.73
116422|T||Forgie,C.D., P.G. Lobb, and P.J. Dryden|A Comparison of a Picloram/Triclopyr Mixture with Other Herbicides for Blackberry Control|Proc. N. Z. Weed Pest Control Conf.34:148-151|1981|10.30843/nzpp.1981.34.10625
116423|T||Chemical Industry Institute of Toxicology (CIIT)|Memo to EPA on Preliminary Result of In Vivo & In Vitro Sister Chromatid Exchange Assays on Cresol Isomers & of an Immunological Evaluation of O-Cresol|EPA/OTS Doc.#40-8360165:3 p.|1983|
116424|T||Tripathi,S.C., M.S. Mithyantha, M. Venkatramesh, and V.A. Thrudu|Dissipation of Carbosulfan, Fenvalerate and Fenpropathrin in/on Okra Fruits|In: A.Regupathy, K.Rajukkannu, S.Chelliah (Eds.), National Seminar, Pesticides and Environment, Department of Agricultural Entomology Centre for Plant Protection Studies, Coimbatore, India:40-42|1984|
116425|T||Luken,J.O., S.W. Beiting, S.K. Kareth, R.L. Kumler, J.H. Liu, and C.A. Seither|Target and Nontarget Discrimination of Herbicides Applied to Vegetation in a Power-Line Corridor|Environ. Manag.18(2): 251-255|1994|10.1007/BF02393765
116426|T||Gould,H.J., and H.G. Kingham|Tests with Acaricides to Control Tetranychus urticae (Koch) on Cucumbers|Plant Pathol.13(3): 126-130|1964|10.1111/j.1365-3059.1964.tb00915.x
116427|T||Bhamburkar,M.W.|The Efficacy of Fenpropathrin a New Pyrethroid Insecticide for the Control of Bollworms on Hybrid-4 Cotton|Pesticides 22(2): 16-17|1988|
116428|T||Magarey,R.D., G.A. Buchanan, P.R. Franz, and G.S. Roberts|Evaluation of Lambdacyhalothrin and Deltamethrin Trunk Treatments for Control of Fuller's Rose Weevil, Asynonychus cervinus (Boheman) (Coleoptera: Curculionidae), on Citrus|Plant Prot. Q.8(4): 123-126|1993|
116429|T||Krug,B.A., B.E. Whipker, I. McCall, and J.M. Dole|Comparison of Flurprimidol to Ethephon, Paclobutrazol, and Uniconazole for Hyacinth Height Control|HortTechnology15(4): 872-874|2005|10.21273/HORTTECH.15.4.0872
116430|T||Greenhalgh,W.J., and P.W. Michael|Recalcitrant Weeds in Herbicide Trials at Camden, NSW|Acta Hortic.247:253-256|1989|10.17660/ActaHortic.1989.247.47
116431|T||Sommer,A., E. Ne'eman, S. Koussevitzky, M.D. Hunt, J.C. Steffens, A.M. Mayer, and E. Harel|The Inhibition by Cu2+ of the Import of Polyphenol Oxidase into Chloroplasts|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France3:827-830|1995|
116432|T||Ibrahim,A.F., and E.O. Abusteit|Effect of Soil Applied Herbicides on Weed Flora, Yield Attributes, Oil Content and Constituents in Sunflower (Helianthus annuus L.)|J. Agron. Crop Sci.161(2): 84-89|1988|10.1111/j.1439-037X.1988.tb00335.x
116433|T||Ibrahim,A.F., H.R. El-Wekil, Z.R. Yehia, and S.A. Shaban|Effect of Some Weed Control Treatments on Sesame (Sesamum indicum L.) and Associated Weeds|J. Agron. Crop Sci.160(5): 319-324|1988|10.1111/j.1439-037X.1988.tb00629.x
116434|T||Liu,L.C., and E. Acevedo-Borrero|Chemical Weed Control in Taniers|J. Agric. Univ. P. R.64(4): 442-449|1980|10.46429/jaupr.v64i4.10190
116435|T||Hodi,L., and M. Torma|Efficacy of Some Herbicide Active Ingredients on Iva xanthiifolia Nutt. in Laboratory Trials|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)107(17): 603-605|2000|
116436|T||Elkoca,E., F. Kantar, and H. Zengin|Weed Control in Lentil (Lens culinaris) in Eastern Turkey|N. Z. J. Crop Hortic. Sci.33(3): 223-231|2005|10.1080/01140671.2005.9514354
116437|T||Cheng,M., and A.D. Kligerman|Evaluation of the Genotoxicity of Cresols Using Sister-Chromatid Exchange (SCE)|Mutat. Res.137(1): 51-55|1984|10.1016/0165-1218(84)90112-5
116438|T||Paul,A.V.N., and R.A. Agarwal|Persistent Toxicity of Some Insecticides to the Egg Parasitoid, Trichogramma brasiliensis Ashmead|Indian J. Entomol.51(3): 273-277|1989|
116439|T||Collins,L.E., and A. Blackwell|Olfactory Cues for Oviposition Behavior in Toxorhynchites moctezuma and Toxorhynchites amboinensis (Diptera:  Culicidae)|J. Med. Entomol.39(1): 121-126|2002|10.1603/0022-2585-39.1.121
116440|T||Ramos,P., and J.M. Ramos|Preliminary Results on the Action of a Plant Growth Regulator (Ethrel) in Reducing the Attack of Prays oleae Bern. on Olive Fruits|Experientia45(8): 773-774|1989|10.1007/BF01974586
116441|A||Saglam,N., and M.S. Ural|Acute Toxicity of m-Cresol on the Fry Rainbow Trout (Oncorhynchus mykiss Walbaum, 1792)|Fresenius Environ. Bull.14(6): 536-538|2005|
116442|T||Mann,J.D., and J.E. Lancaster|Effects of Herbicides and Growth Regulators on Solasodine Production by Solanum aviculare and S. laciniatum Ait.|N. Z. J. Exp. Agric.4(3): 347-350|1976|10.1080/03015521.1976.10425896
116443|T||Minko,G.|Herbicides for Removal of Natural Regeneration of Radiata Pine in Second-Rotation Plantations|Plant Prot. Q.1(2): 67-70|1985|
116444|T||Burns,R.M., S.B. Boswell, and H.Z. Hield|Effects of Growth Inhibitors on Ventura Lemon Trees|Citrograph61(10): 355-356|1976|
116445|T||Shaw,D.R., and R.E. Mack|Application Timing of Herbicides for the Control of Redvine (Brunnichia ovata)|Weed Technol.5(1): 125-129|1991|10.1017/S0890037X00033388
116446|T||Gray,J.A., D.E. Stoltenberg, and N.E. Balke|Absence of Herbicide Cross-Resistance in Two Atrazine-Resistant Velvetleaf (Abutilon theophrasti) Biotypes|Weed Sci.43(3): 352-357|1995|10.1017/S0043174500081315
116447|T||Caballero,R., C. Barro, C. Alzueta, M. Arauzo, and P.J. Hernaiz|Weed Control and Herbicide Tolerance in a Common Vetch-Oat Intercrop|Weed Sci.43(2): 283-287|1995|10.1017/S0043174500081182
116448|T||Wicks,G.A., A.R. Martin, and G.W. Mahnken|Control of Triazine-Resistant Kochia (Kochia scoparia) in Conservation Tillage Corn (Zea mays)|Weed Sci.41(2): 225-231|1993|10.1017/S0043174500076104
116449|T||Gooneratne,S.R., J.M. Howell, and E. Aughey|An Ultrastructural Study of the Kidney of Normal, Copper Poisoned and Thiomolybdate-Treated Sheep|J. Comp. Pathol.96(6): 593-612|1986|10.1016/0021-9975(86)90057-5
116451|T||Mahmood,S., A. Hussain, Z. Saeed, and M. Athar|Germination and Seedling Growth of Corn (Zea mays L.) Under Varying Levels of Copper and Zinc|Int. J. Environ. Sci. Technol. (Tehran)2(3): 269-274|2005|10.1007/BF03325886
116452|T||Gurel,Z., D. Ozcelik, and S. Dursun|Apoptotic Rate and Metallothionein Levels in the Tissues of Cadmium- and Copper-Exposed Rats|Biol. Trace Elem. Res.116(2): 203-217|2007|10.1007/BF02685931
116453|T||Pasternak,T., V. Rudas, G. Potters, and M.A.K. Jansen|Morphogenic Effects of Abiotic Stress: Reorientation of Growth in Arabidopsis thaliana Seedlings|Environ. Exp. Bot.53(3): 299-314|2005|10.1016/j.envexpbot.2004.04.009
116454|T||Maksymiec,W., and Z. Krupa|The Effects of Short-Term Exposition to Cd, Excess Cu Ions and Jasmonate on Oxidative Stress Appearing in Arabidopsis thaliana|Environ. Exp. Bot.57(1/2): 187-194|2006|10.1016/j.envexpbot.2005.05.006
116455|A||Fried,B., and J.L. Schneck|Cercarial Tail Loss in Echinostoma caproni:  the Influence of In Vivo Encystment and Copper Sulphate|J. Helminthol.79(2): 177-178|2005|10.1079/JOH2005278
116456|A||Campbell,H.A., R.D. Handy, and D.W. Sims|Shifts in a Fish's Resource Holding Power During a Contact Paired Interaction:  The Influence of a Copper-Contaminated Diet in Rainbow Trout|Physiol. Biochem. Zool.78(5): 706-714|2005|10.1086/432146
116457|T||Yang,X.E., H.Y. Peng, and S.K. Tian|Gama-Aminobutyric Acid Accumulation in Elsholtzia splendens in Response to Copper Toxicity|J. Zhejiang Univ., Sci. B6(2): 96-99|2005|10.1631/jzus.2005.B0096
116458|T||Ke,W., Z.T. Xiong, S. Chen, and J. Chen|Effects of Copper and Mineral Nutrition on Growth, Copper Accumulation and Mineral Element Uptake in Two Rumex japonicus Populations from a Copper Mine and an Uncontaminated Field Sites|Environ. Exp. Bot.59(1): 59-67|2007|10.1016/j.envexpbot.2005.10.007
116459|T||Guschina,I.A., and J.L. Harwood|Lead and Copper Effects on Lipid Metabolism in Cultured Lichen Photobionts with Different Phosphorus Status|Phytochemistry67(16): 1731-1739|2006|10.1016/j.phytochem.2006.01.023
116460|T||Rossi,G., A. Figliolia, and S. Socciarelli|Zinc and Copper Bioaccumulation in Brassica napus at Flowering and Maturation|Eng. Life Sci.4(3): 271-275|2004|10.1002/elsc.200420028
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116462|A||Kim,K.Y., S.Y. Lee, Y.S. Cho, I.C. Bang, K.H. Kim, D.S. Kim, and Y.K. Nam|Molecular Characterization and mRNA Expression During Metal Exposure and Thermal Stress of Copper/Zinc- and Manganese-Superoxide Dismutases in Disk Abalone, Haliotis discus discus|Fish Shellfish Immunol.23(5): 1043-1059|2007|10.1016/j.fsi.2007.04.010
116463|A||Stasiunaite,P.|Toxicity of Copper to Embryonic Development of Rainbow Trout (Oncorhynchus mykiss)|Acta Zool. Litu.15(3): 259-265|2005|10.1080/13921657.2005.10512620
116464|T||Jack,E., H.W.J. Hakvoort, A. Reumer, J.A.C. Verkleij, H. Schat, and W.H.O. Ernst|Real-Time PCR Analysis of Metallothionein-2b Expression in Metallicolous and Non-Metallicolous Populations of Silene vulgaris (Moench) Garcke|Environ. Exp. Bot.59(1): 84-91|2007|10.1016/j.envexpbot.2005.10.005
116465|T||Nicholls,A.M., and T.K. Mal|Effects of Lead and Copper Exposure on Growth of an Invasive Weed, Lythrum salicaria L. (Purple Loosestrife)|Ohio J. Sci.103(5): 129-133|2003|
116466|A||Burba,A.|The Effect of Copper on Behavioural Reactions of Noble Crayfish Astacus astacus L.|Acta Zool. Litu.9(2): 30-36|1999|10.1080/13921657.1999.10512284
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116468|T||Bartha,B., Z. Kolbert, and L. Erdei|Nitric Oxide Production Induced by Heavy Metals in Brassica juncea L. Czern. and Pisum sativum L.|Acta Biol. Szeged.49(1-2): 9-12|2005|
116469|T||Kovacs,S., L. Gaspar, E. Cseh, K. Kropfl, and E. Sarvari|Protective Effects of Phosphonomethyl-Sarcosine Against the Copper and Cadmium Induced Inhibition of Leaf Development in Poplar|Acta Biol. Szeged.49(1-2): 61-63|2005|
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116471|A||Young,J.S., and G. Roesijadi|Reparatory Adaptation to Copper-Induced Injury and Occurrence of a Copper-Binding Protein in the Polychaete, Eudystylia vancouveri|Mar. Pollut. Bull.14:30-32|1983|10.1016/0025-326X(83)90092-9
116472|T||Thomas,J.C., M. Perron, P.C. LaRosa, and A.C. Smigocki|Cytokinin and the Regulation of a Tobacco Metallothionein-Like Gene During Copper Stress|Physiol. Plant. (Multiple Languages)123(3): 262-271|2005|10.1111/j.1399-3054.2005.00440.x
116473|T||Pourakbar,L., M. Khayami, J. Khara, and T. Farbodnia|Copper-Induce Change in Antioxidative System in Maize (Zea mays L.)|Pak. J. Biol. Sci.10(20): 3662-3667|2007|10.3923/pjbs.2007.3662.3667
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116477|T||Marriage,P.B.|Detection of Triazine and Urea Herbicide Residues by Various Characteristics of Oat Seedlings in Bioassays|Weed Res. (Multiple Languages)15(5): 291-298|1975|10.1111/j.1365-3180.1975.tb01321.x
116478|T||Atkinson,D., C.M. Crisp, and K.J. Hyrycz|The Effects of Late Season Applications of Glyphosate and Fosamine to Fruit Trees with Root Suckers|Br. Crop Prot. Conf. Weeds15(1): 311-314|1980|
116479|T||Domir,S.C., and D.E. Wuertz|Growth Retardation of Woody Species by Three Growth Regulators|Plant Growth Regul.1(2): 107-111|1982|
116480|A||Stead,M.A., D.M. Baltz, E.J. Chesney, M.A. Tarr, A.S. Kolok, and B.D. Marx|Swimming Performance of Juvenile Florida Pompano After Sublethal Exposure to Ethylene Glycol and Methanol:  Synergistic Effects|Trans. Am. Fish. Soc.134(6): 1438-1447|2005|10.1577/T04-178.1
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116484|T||Khan,M.S., A. Zaidi, and P.Q. Rizvi|Biotoxic Effects of Herbicides on Growth, Nodulation, Nitrogenase Activity, and Seed Production in Chickpeas|Commun. Soil Sci. Plant Anal.37(11/12): 1783-1793|2006|10.1080/00103620600710645
116485|T||McClelland,M.R., M.C. Smith, and P.C. Carter|Screening of Preplant Burndown Herbicides for Conservation-Tillage Cotton|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.449:53-59|1996|
116486|T||Qasem,J.R.|Chemical Control of Weeds in Onion (Allium cepa L.)|J. Hortic. Sci. Biotechnol.80(6): 721-726|2005|10.1080/14620316.2005.11512005
116487|T||Rizk,T.Y., M.A. Ashoub, M.T. Mostafa, and M.W.A. Hassan|Lentils Productivity as Affected by Seeding Rates and Some Herbicides|Ann. Agric. Sci.31(2): 1143-1157|1986|
116488|T||Tripathi,B., C.M. Singh, and Bhargava |Comparative Efficacy of Herbicides in Potato Under the Conditions of North-Western Himalayas|Pesticides 23(5): 37-38|1989|
116489|T||Moore,D., L. Alexander, and R.A. Hall|The Coconut Mite, Eriophyes guerreronis Keifer in St. Lucia:  Yield Losses and Attempts to Control It with Acaricide, Polybutene and Hirsutella Fungus|Trop. Pest Manag.35(1): 83-89|1989|10.1080/09670878909371326
116490|T||Sultana,P., and J.E. Brooks|Laboratory and Field Evaluation of 4-Aminopyridine (Avitrol) as a Bird Repellent in Bangladesh|Bangladesh J. Agric.11(4): 49-54|1986|
116491|T||Mason,J.R.|Avoidance of Methiocarb-Poisoned Apples by Red-Winged Blackbirds|J. Wildl. Manag.53(3): 836-840|1989|10.2307/3809222
116492|T||Clark,L.|Dermal Contact Repellents for Starlings:  Foot Exposure to Natural Plant Products|J. Wildl. Manag.61(4): 1352-1358|1997|10.2307/3802137
116493|T||Owaga,M.L.A., A. Hassanali, and P.G. McDowell|The Role of 4-Cresol and 3-n-Propylphenol in the Attraction of Tsetse Flies to Buffalo Urine|Insect Sci. Appl.9(1): 95-100|1988|
116494|T||Hohenegger,M., M. Vermes, R. Esposito, and C. Giordano|Effect of Some Uremic Toxins on Oxygen Consumption of Rats In Vivo and In Vitro|Nephron48(2): 154-158|1988|10.1159/000184896
116495|T||Stotz,H.U., B.R. Pittendrigh, J. Kroymann, K. Weniger, J. Fritsche, A. Bauke, and T. Mitchell-Olds|Induced Plant Defense Responses Against Chewing Insects. Ethylene Signaling Reduces Resistance of Arabidopsis Against Egyptian Cotton Worm but not Diamondback Moth|Plant Physiol.124(3): 1007-1017|2000|10.1104/pp.124.3.1007
116496|T||Witt,K.L., A. Knapton, C.M. Wehr, G.J. Hook, J. Mirsalis, M.D. Shelby, and J.T. MacGregor|Micronucleated Erythrocyte Frequency in Peripheral Blood of B6C3F1 Mice from Short-Term, Prechronic, and Chronic Studies of the NTP Carcinogenesis Bioassay Program|Environ. Mol. Mutagen.36(3): 163-194|2000|10.1002/1098-2280(2000)36:3<163::AID-EM1>3.0.CO;2-P
116497|T||Wagner,G., and E. Nadasy|Interaction Between Nutrition and Herbicide Application in Pea Culture|Commun. Soil Sci. Plant Anal.40(1): 435-444|2009|10.1080/00103620802649013
116498|AT||Youssef,T., and P. Saenger|Photosynthetic Gas Exchange and Accumulation of Phytotoxins in Mangrove Seedlings in Response to Soil Physico-Chemical Characteristics Associated with Waterlogging|Tree Physiol.18(5): 317-324|1998|10.1093/treephys/18.5.317
116499|T||Hajiboland,R., and B.D. Hasani|Responses of Antioxidant Defense Capacity and Photosynthesis of Bean (Phaseolus vulgaris L.) Plants to Copper and Manganese Toxicity Under Different Light Intensities|Acta Biol. Szeged.51(2): 93-106|2007|
116500|A||Geetha,R., A.K. Kumaragruru, and A.J. Thatheyus|Toxic Effects of the Heavy Metal Copper on the Fish Lepidocephalichthys thermalis in Short Term Exposures|Pollut. Res.15(2): 151-154|1996|
116501|T||Yang,Z.Y., F.H. Chen, J.G. Yuan, Z.W. Zheng, and M.H. Wong|Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd Toxicities|J. Environ. Sci. (China)16(4): 670-673|2004|
116502|T||Huang,Y., and S. Tao|Influences of Excessive Cu on Photosynthesis and Growth in Ectomycorrhizal Pinus sylvestris Seedlings|J. Environ. Sci. (China)16(3): 414-419|2004|
116503|T||Ahonen-Jonnarth,U., M. Roitto, A.M. Markkola, H. Ranta, and S. Neuvonen|Effects of Nickel and Copper on Growth and Mycorrhiza of Scots Pine Seedlings Inoculated with Gremmeniella abietina|For. Pathol.34(6): 337-348|2004|10.1111/j.1439-0329.2004.00375.x
116504|T||Deol,H.S., J.M. Howell, and P.R. Dorling|Effect of the Ingestion of Heliotrope and Copper on the Concentration of Zinc, Selenium and Molybdenum in the Liver of Sheep|J. Comp. Pathol.110(3): 303-307|1994|10.1016/S0021-9975(08)80283-6
116505|T||Burton,K.W., E. Morgan, and A. Roig|The Influence of Heavy Metals upon the Growth of Sitka-Spruce in South Wales Forests. II. Greenhouse Experiments|Plant Soil78:271-282|1984|10.1007/BF02450361
116506|A||Sun,F.H., Q.X. Zhou, and Q.R. Zhang|Influences of Petroleum on Accumulation of Copper and Cadmium in the Polychaete Nereis diversicolor|J. Environ. Sci. (China)18(1): 109-114|2006|
116507|T||Shannon,P.W., and J.M. Leslie|Chemical Control of Blackberry in Northland|Proc. N. Z. Weed Pest Control Conf.35:166-168|1982|10.30843/nzpp.1982.35.10540
116508|T||West,T.M., and W.G. Richardson|Pot Experiment to Investigate the Control of Volunteer Potatoes, at Three Growth Stages, with Six Post-Emergence Herbicides|Tests Agrochem. Cultiv.8:120-121|1987|
116509|T||Bedmar,F., M.I. Leaden, and J.J. Eyherabide|Evaluation of Different Combinations of Acetochlor with Linuron and Fluorochloridone for Weed Control in Sunflower|Tests Agrochem. Cultiv.10:94-95|1989|
116510|T||Busari,D.L.|Screening of Herbicides on Cowpea Plots|Tests Agrochem. Cultiv.9:48-49|1988|
116511|T||Froment,M.A., and D. Turley|Evaluation of Herbicides for Autumn Broad-Leaved Weed Control in Winter Linseed (Linum usitatissimum)|Tests Agrochem. Cultiv.19:28-29|1998|
116512|T||Masabni,J.G., and B.H. Zandstra|A Serine-to-Threonine Mutation in Linuron-Resistant Portulaca oleracea|Weed Sci.47(4): 393-400|1999|10.1017/S0043174500091979
116513|T||Moseley,C.M., and E.S.,Jr. Hagood|Horseweed (Conyza canadensis) Control in Full-Season No-Till Soybeans (Glycine max)|Weed Technol.4(4): 814-818|1990|10.1017/S0890037X00026452
116514|T||Rouchaud,J., C. Moons, J. Gillet, and J.A. Meyer|Effects of Pesticide Treatments on the Provitamin A Content of Freshly Harvested and Cool Stored Carrots|Tests Agrochem. Cultiv.6:114-115|1985|
116515|T||Singh,S., R.K. Malik, and J.S. Samdyan|Evaluation of Herbicides for Weed Control in Onion (Allium cepa L.)|Tests Agrochem. Cultiv.13:54-55|1992|
116516|T||Wallace,R.W., and R.R. Bellinder|Potato (Solanum tuberosum) Yields and Weed Populations in Conventional and Reduced Tillage Systems|Weed Technol.3(4): 590-595|1989|10.1017/S0890037X00032863
116517|T||Webster,T.M., and H.D. Coble|Purple Nutsedge (Cyperus rotundus) Management in Corn (Zea mays) and Cotton (Gossypium hirsutum) Rotations|Weed Technol.11(3): 543-548|1997|10.1017/S0890037X00045395
116518|T||Westra,P., C.H. Pearson, and R. Ristau|Control of Venice Mallow (Hibiscus trionum) in Corn (Zea mays) and Onions (Allium cepa)|Weed Technol.4(3): 500-504|1990|10.1017/S0890037X00025859
116519|A||Hou,W., X. Chen, G. Song, Q. Wang, and C.C. Chang|Effects of Copper and Cadmium on Heavy Metal Polluted Waterbody Restoration by Duckweed (Lemna minor)|Plant Physiol. Biochem.45(1): 62-69|2007|10.1016/j.plaphy.2006.12.005
116520|A||Rico,D., A. Martin-Gonzalez, S. Diaz, P. De Lucas, and J.C. Gutierrez|Heavy Metals Generate Reactive Oxygen Species in Terrestrial and Aquatic Ciliated Protozoa|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(1): 90-96|2009|10.1016/j.cbpc.2008.07.016
116521|A||Amaro,F., R. Ruotolo, A. Martin-Gonzalez, A. Faccini, S. Ottonello, and J.C. Gutierrez|A Pseudo-Phytochelatin Synthase in the Ciliated Protozoan Tetrahymena thermophila|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(4): 598-604|2009|10.1016/j.cbpc.2009.01.002
116522|A||Hong,M., L. Chen, J.G. Qin, X. Sun, E. Li, S. Gu, and N. Yu|Acute Tolerance and Metabolic Responses of Chinese Mitten Crab (Eriocheir sinensis) Juveniles to Ambient Nitrite|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 419-426|2009|10.1016/j.cbpc.2008.10.001
116523|T||d'Aquino,L., M.C. De Pinto, L. Nardi, M. Morgana, and F. Tommasi|Effect of Some Light Rare Earth Elements on Seed Germination, Seedling Growth and Antioxidant Metabolism in Triticum durum|Chemosphere75(7): 900-905|2009|10.1016/j.chemosphere.2009.01.026
116524|T||Barrena,R., E. Casals, J. Colon, X. Font, A. Sanchez, and V. Puntes|Evaluation of the Ecotoxicity of Model Nanoparticles|Chemosphere75(7): 850-857|2009|10.1016/j.chemosphere.2009.01.078
116525|T||Andrade,S.A.L., P.L. Gratao, M.A. Schiavinato, A.P.D. Silveira, R.A. Azevedo, and P. Mazzafera|Zn Uptake, Physiological Response and Stress Attenuation in Mycorrhizal Jack Bean Growing in Soil with Increasing Zn Concentrations|Chemosphere75(10): 1363-1370|2009|10.1016/j.chemosphere.2009.02.008
116526|A||Monteiro,D.A., F.T. Rantin, and A.L. Kalinin|The Effects of Selenium on Oxidative Stress Biomarkers in the Freshwater Characid Fish Matrinxa, Brycon cephalus (Gunther, 1869) Exposed to Organophosphate Insecticide Folisuper 600 BR (Methyl Parathion)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(1): 40-49|2009|10.1016/j.cbpc.2008.06.012
116527|A||Dutra,B.K., F.A. Fernandes, A.L. Lauffer, and G.T. Oliveira|Carbofuran-Induced Alterations in the Energy Metabolism and Reproductive Behaviors of Hyalella castroi (Crustacea, Amphipoda)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(4): 640-646|2009|10.1016/j.cbpc.2009.01.005
116528|A||Kaloyianni,M., S. Dailianis, E. Chrisikopoulou, A. Zannou, S. Koutsogiannaki, D.H. Alamdari, G. Koliakos, and V.K. Dimi|Oxidative Effects of Inorganic and Organic Contaminants on Haemolymph of Mussels|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(4): 631-639|2009|10.1016/j.cbpc.2009.01.006
116529|A||Arnold,K.E., C. Wells, and J.I. Spicer|Effect of an Insect Juvenile Hormone Analogue, Fenoxycarb on Development and Oxygen Uptake by Larval Lobsters Homarus gammarus (L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 393-396|2009|10.1016/j.cbpc.2008.09.007
116530|T||Chen,K., R.B. Cole, V. Santa Cruz, E.W. Blakeney, M.F. Kanz, and T.R. Dugas|Characterization of Biliary Conjugates of 4,4'-Methylenedianiline in Male Versus Female Rats|Toxicol. Appl. Pharmacol.232(2): 190-202|2008|10.1016/j.taap.2008.06.008
116531|A||Ma,H., P.M. Bertsch, T.C. Glenn, N.J. Kabengi, and P.L. Williams|Toxicity of Manufactured Zinc Oxide Nanoparticles in the Nematode Caenorhabditis elegans|Environ. Toxicol. Chem.28(6): 1324-1330|2009|10.1897/08-262.1
116532|A||AshaRani,P.V., Y.L. Wu, Z. Gong, and S. Valiyaveettil|Toxicity of Silver Nanoparticles in Zebrafish Models|Nanotechnology19:1-8|2008|10.1088/0957-4484/19/25/255102
116533|AT||Mendoza,J., T. Garrido, R. Riveros, and J. Parada|Rapid Capillary Electrophoresis Analysis of Glutathione and Glutathione Disulfide in Roots and Shoots of Plants Exposed to Copper|Phytochem. Anal.20(2): 114-119|2009|10.1002/pca.1105
116534|A||Otitoloju,A.A., and K.N. Don-Pedro|Influence of Joint Application of Heavy Metals on Level of Each Metal Accumulated in the Periwinkle Tympanotonus fuscatus (Gastropoda:  Potamididae)|Rev. Biol. Trop.54(3): 803-814|2006|10.15517/rbt.v54i3.12791
116535|T||Doze,P., P.H. Elsinga, B. Maas, A. Van Waarde, T. Wegman, and W. Vaalburg|Synthesis and Evaluation of Radiolabeled Antagonists for Imaging of B-Adrenoceptors in the Brain with PET|Neurochem. Int.40(2): 145-155|2002|10.1016/S0197-0186(01)00081-X
116536|T||Marriage,P.B., W.J. Saidak, and F.G. Von Stryk|Residues of Atrazine, Simazine, Linuron and Diuron After Repeated Annual Applications in a Peach Orchard|Weed Res. (Multiple Languages)15(6): 373-379|1975|10.1111/j.1365-3180.1975.tb01333.x
116537|T||Toth,J., L. Smith, and J. Raison|An Evaluation of Five Herbicides and Application Methods for Control of Blackberry|Proc. Aust. Weeds Conf.1:191-195|1981|
116538|T||Templeton,A.R., and W. Hurtt|A Simple Method for Expressing the Relative Efficacy of Plant Growth Regulators|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:127-135|1973|
116539|T||See,R.M., A.R. Templeton, and W. Hurtt|A Quantitative Study of the Effects of Two Growth Retardants on Internode Elongation in Phaseolus vulgaris L.|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:136-140|1973|
116540|T||Richardson,R.G.|Foliar Absorption and Translocation of Fosamine and 2,4,5-T in Blackberry (Rubus procerus P.J. Muell.)|Weed Res. (Multiple Languages)20(3): 159-163|1980|10.1111/j.1365-3180.1980.tb00062.x
116541|T||McCavish,W.J.|Herbicides for Woody Weed Control by Foliar Application|Br. Crop Prot. Conf. Weeds15(2): 729-737|1980|
116542|T||Link,M.L., J.S. Coartney, W.E. Chappell, and P.L. Hipkins|Control of Common Milkweed on Highway Rights-of-Way|Proc. South. Weed Sci. Soc.32:229-234|1979|
116543|T||Kitchen,L.M., C.E. Rieck, and W.W. Witt|Absorption and Translocation of 14C Fosamine by Three Woody Plant Species|Weed Res. (Multiple Languages)20(5): 285-289|1980|10.1111/j.1365-3180.1980.tb01620.x
116544|T||Irvine,F.N.|The Control of Blackberry (Rubus fruticosus agg.) Using Herbicides Applied by C.D.A.|Proc. Aust. Weeds Conf.1:105-108|1981|
116545|T||Jordan,D.L., M.R. McClelland, R.E. Frans, and J.A. Kendig|Effect of MSMA on Entireleaf Morningglory (Ipomoea hederacea var. integriuscula) Control with Postemergence Herbicides|Weed Technol.7(1): 36-41|1993|10.1017/S0890037X00036836
116546|T||Yarborough,D.E., and A.A. Ismail|Selective Application of Herbicides for Aspen Control in Lowbush Blueberries|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:193-198|1982|
116547|T||Callens,D., and R. Bulcke|Response of Potatoes (Solanum tuberosum L.) to Postemergence Applications of Preemergence Potato Herbicides|Meded. Fac. Landbouwwet. Univ. Gent60(2a): 141-150|1995|
116548|T||Callens,D., R. Bulcke, and K. Maddens|Preemergence Weed Control in Flax with Sulcotrione|Meded. Fac. Landbouwwet. Univ. Gent61(3b): 1055-1063|1996|
116549|T||Courtney,A.D.|A Comparison of Herbicides for Weed Control in Fibre Flax|Tests Agrochem. Cultiv.9:50-51|1988|
116550|T||Courtney,A.D.|A Comparison of Herbicide Regimes for Weed Control in Fibre Flax|Tests Agrochem. Cultiv.8:84-85|1987|
116551|T||Moseley,C.M., and E.S.,Jr. Hagood|Decreasing Rates of Nonselective Herbicides in Double-Crop No-Till Soybeans (Glycine max)|Weed Technol.5(1): 198-201|1991|10.1017/S0890037X00033510
116552|T||Shaw,D.R., and G.E. Coats|Herbicides and Cultivation for Sicklepod, Cassia obtusifolia, Control in Soybeans, Glycine max|Weed Technol.2(2): 187-190|1988|10.1017/S0890037X00030384
116553|T||Sobieszczanski,J., R. Stempniewicz, and W. Jurgielewicz|The Effect of Various Doses of Linuron on the Amount of Aminoacids in Carrot Roots|Meded. Fac. Landbouwwet. Univ. Gent58(3a): 929-936|1993|
116555|A||Mai,K., and B. Tan|Iron Methionine (FeMET) and Iron Sulfate (FeSO4) as Sources of Dietary Iron for Juvenile Abalone, Haliotis discus Hannai Ino|J. Shellfish Res.19(2): 861-868|2000|
116556|T||Posmyk,M.M., H. Kuran, K. Marciniak, and K.M. Janas|Presowing Seed Treatment with Melatonin Protects Red Cabbage Seedlings Against Toxic Copper Ion Concentrations|J. Pineal Res.45(1): 24-31|2008|10.1111/j.1600-079X.2007.00552.x
116557|A||Wu,T.M., Y.T. Hsu, M.S. Sung, and T.M. Lee|Expression of Genes Involved in Redox Homeostasis and Antioxidant Defense in a Marine Macroalga Ulva fasciata by Excess Copper|Aquat. Toxicol.94:275-285|2009|10.1016/j.aquatox.2009.07.010
116558|A||Peng,K., C. Luo, L. Lou, X. Li, and Z. Shen|Bioaccumulation of Heavy Metals by the Aquatic Plants Potamogeton pectinatus L. and Potamogeton malaianus Miq. and Their Potential Use for Contamination Indicators and in Wastewater Treatment|Sci. Total Environ.392(1): 22-29|2008|10.1016/j.scitotenv.2007.11.032
116559|T||Kobayashi,Y., K. Kuroda, K. Kimura, J.L. Southron-Francis, A. Furuzawa, K. Kimura, S. Iuchi, M. Kobayashi, G.J. Taylor,|Amino Acid Polymorphisms in Strictly Conserved Domains of a P-Type ATPase HMA5 are Involved in the Mechanism of Copper Tolerance Variation in Arabidopsis|Plant Physiol.148(2): 969-980|2008|10.1104/pp.108.119933
116560|T||Wen,X.P., X.M. Pang, N. Matsuda, M. Kita, H. Inoue, Y.J. Hao, C. Honda, and T. Moriguchi|Over-Expression of the Apple Spermidine Synthase Gene in Pear Confers Multiple Abiotic Stress Tolerance by Altering Polyamine Titers|Transgenic Res.17(2): 251-263|2008|10.1007/s11248-007-9098-7
116561|T||Kahn,B.A., J.P. Damicone, and R.J. Schatzer|Alternatives to Benomyl for Management of Cercospora Leaf Spot on Turnip Greens|Hortscience40(5): 1324-1326|2005|10.21273/HORTSCI.40.5.1324
116562|A||Mitchell,A.J., A. Darwish, and A. Fuller|Comparison of Tank Treatments with Copper Sulfate and Potassium Permanganate for Sunshine Bass with Ichthyobodosis|J. Aquat. Anim. Health20(4): 202-206|2008|10.1577/H07-048.1
116563|T||Malekzadeh,P., J. Khara, and S. Farshian|Copper Toxicity Influence on Antioxidant Enzymes Activity in Tomato Plants and Role of Arbuscular Mycorrhizal Fungus Glomus etunicatum in the Tolerance of Toxicity|Pak. J. Biol. Sci.10(12): 2008-2013|2007|10.3923/pjbs.2007.2008.2013
116564|A||Munari,C., and M. Mistri|Effect of Copper on the Scope for Growth of Clams (Tapes philippinarum) from a Farming Area in the Northern Adriatic Sea|Mar. Environ. Res.64(3): 347-357|2007|10.1016/j.marenvres.2007.02.006
116565|T||Sudo,E., M. Itouga, K. Yoshida-Hatanaka, Y. Ono, and H. Sakakibara|Gene Expression and Sensitivity in Response to Copper Stress in Rice Leaves|J. Exp. Bot.59(12): 3465-3474|2008|10.1093/jxb/ern196
116566|T||Andres-Colas,N., V. Sancenon, S. Rodriguez-Navarro, S. Mayo, D.J. Thiele, J.R. Ecker, S. Puig, and L. Penarrubia|The Arabidopsis Heavy Metal P-Type ATPase HMA5 Interacts with Metallochaperones and Functions in Copper Detoxification of Roots|Plant J.45(2): 225-236|2006|10.1111/j.1365-313X.2005.02601.x
116567|T||Liu,T.F., T. Wang, C. Sun, and Y.M. Wang|Single and Joint Toxicity of Cypermethrin and Copper on Chinese Cabbage (Pakchoi) Seeds|J. Hazard. Mater.163(1): 344-348|2009|10.1016/j.jhazmat.2008.06.099
116568|T||Li,M., Z. Xiong, L. Dai, and Y. Huang|Effects of Copper on Nitrogen Assimilation in Copper-Tolerant and Non-Tolerant Populations of Elsholtzia haichowensis S.|Water Air Soil Pollut.184(1-4): 323-333|2007|10.1007/s11270-007-9419-8
116569|T||Zengin,F.K., and S. Kirbag|Effects of Copper on Chlorophyll, Proline, Protein and Abscisic Acid Level of Sunflower (Helianthus annuus L.) Seedlings|J. Environ. Biol.28(3): 561-566|2007|
116570|A||Lodhi,H.S., M.A. Khan, R.S. Verma, and U.D. Sharma|Acute Toxicity of Copper Sulphate to Fresh Water Prawns|J. Environ. Biol.27(3): 585-588|2006|
116571|T||Bona,E., F. Marsano, M. Cavaletto, and G. Berta|Proteomic Characterization of Copper Stress Response in Cannabis sativa Roots|Proteomics7(7): 1121-1130|2007|10.1002/pmic.200600712
116572|T||Liu,J., and Z. Xiong|Differences in Accumulation and Physiological Response to Copper Stress in Three Populations of Elsholtzia haichowensis S.|Water Air Soil Pollut.168(1-4): 5-16|2005|10.1007/s11270-005-0215-z
116573|A||Hadjoudja,S., C. Vignoles, V. Deluchat, J.F. Lenain, A.H. Le Jeune, and M. Baudu|Short Term Copper Toxicity on Microcystis aeruginosa and Chlorella vulgaris Using Flow Cytometry|Aquat. Toxicol.94:255-264|2009|10.1016/j.aquatox.2009.07.007
116574|A||Vieira,L.R., C. Gravato, A.M.V.M. Soares, F. Morgado, and L. Guilhermino|Acute Effects of Copper and Mercury on the Estuarine Fish Pomatoschistus microps:  Linking Biomarkers to Behaviour|Chemosphere76:1416-1427|2009|10.1016/j.chemosphere.2009.06.005
116575|T||Schuh,J.F.|Woolly Cupgrass (Eriochloa villosa (Thunb.) Kunth) Control in Corn (Zea mays L.) and Soybean (Glycine max (L.) Merr.) and the Influence of Moisture on Imazethapyr Diffusion|Ph.D Thesis, University of Wisconsin, Madison, WI:334 p.|1990|
116576|T||Lombardi,L., and L. Sebastiani|Copper Toxicity in Prunus cerasifera:  Growth and Antioxidant Enzymes Responses of In Vitro Grown Plants|Plant Sci.168(3): 797-802|2005|10.1016/j.plantsci.2004.10.012
116577|A||Victor,S., and R.H. Richmond|Effect of Copper on Fertilization Success in the Reef Coral Acropora surculosa|Mar. Pollut. Bull.50(11): 1433-1456|2005|10.1016/j.marpolbul.2005.09.004
116578|A||Tien,C.J., D.C. Sigee, and K.N. White|Copper Adsorption Kinetics of Cultured Algal Cells and Freshwater Phytoplankton with Emphasis on Cell Surface Characteristics|J. Appl. Phycol.17(5): 379-389|2005|10.1007/s10811-005-5555-y
116579|T||Tewari,R.K., P. Kumar, and P.N. Sharma|Antioxidant Responses to Enhanced Generation of Superoxide Anion Radical and Hydrogen Peroxide in the Copper-Stressed Mulberry Plants|Planta (Multiple Languages)223(6): 1145-1153|2006|10.1007/s00425-005-0160-5
116580|A||Luis,P., K. Behnke, J. Toepel, and C. Wilhelm|Parallel Analysis of Transcript Levels and Physiological Key Parameters Allows the Identification of Stress Phase Gene Markers in Chlamydomonas reinhardtii Under Copper Excess|Plant Cell Environ.29(11): 2043-2054|2006|10.1111/j.1365-3040.2006.01579.x
116581|T||Zheng,Y., X. Dai, L. Wang, W. Xu, Z. He, and M. Ma|Arsenate Reduces Copper Phytotoxicity in Gametophytes of Pteris vittata|J. Plant Physiol.165(18): 1906-1916|2008|10.1016/j.jplph.2008.04.008
116582|A||Lee,M.R., and J.A. Correa|An Assessment of the Impact of Copper Mine Tailings Disposal on Meiofaunal Assemblages Using Microcosm Bioassays|Mar. Environ. Res.64(1): 1-20|2007|10.1016/j.marenvres.2006.11.001
116583|T||Singh,D., K. Nath, and Y.K. Sharma|Toxicological Effect of Copper on Growth and Metabolism of Barley (Hordeum vulgare L)|J. Ecophysiol. Occup. Health7(1/2): 9-16|2007|
116584|T||Singh,D., K. Nath, and Y.K. Sharma|Response of Wheat Seed Germination and Seedling Growth Under Copper Stress|J. Environ. Biol.28(2): 409-414|2007|
116585|T||Shi,J., B. Wu, X. Yuan, Y.Y. Cao, X. Chen, Y. Chen, and T. Hu|An X-Ray Absorption Spectroscopy Investigation of Speciation and Biotransformation of Copper in Elsholtzia splendens|Plant Soil302(1/2): 163-174|2008|10.1007/s11104-007-9463-6
116586|T||Chen,Y.X., Y.P. Wang, W.X. Wu, Q. Lin, and S.G. Xue|Impacts of Chelate-Assisted Phytoremediation on Microbial Community Composition in the Rhizosphere of a Copper Accumulator and Non-Accumulator|Sci. Total Environ.356(1-3): 247-255|2006|10.1016/j.scitotenv.2005.04.028
116587|T||Malinowski,D.P., H. Zuo, D.P. Belesky, and G.A. Alloush|Evidence for Copper Binding by Extracellular Root Exudates of Tall Fescue but not Perennial Ryegrass Infected with Neotyphodium spp. Endophytes|Plant Soil267(1/2): 1-12|2004|10.1007/s11104-005-2575-y
116588|T||Valentine,H.L., M.D. Does, V. Marshall, E.G. Tonkin, and W.M. Valentine|Multicomponent T2 Analysis of Dithiocarbamate-Mediated Peripheral Nerve Demyelination|Neurotoxicology28(3): 645-654|2007|10.1016/j.neuro.2007.01.009
116589|T||Zhang,H., Y. Xia, G. Wang, and Z. Shen|Excess Copper Induces Accumulation of Hydrogen Peroxide and Increases Lipid Peroxidation and Total Activity of Copper-Zinc Superoxide Dismutase in Roots of Elsholtzia haichowensis|Planta (Multiple Languages)227(2): 465-475|2008|10.1007/s00425-007-0632-x
116590|A||Sellin,M.K., and A.S. Kolok|Maternally Derived Cu Tolerance in Larval Fathead Minnows:  How Long Does it Persist?|J. Fish Biol.69(5): 1570-1574|2006|10.1111/j.1095-8649.2006.01210.x
116591|A||Schjolden,J., J. Sorensen, G.E. Nilsson, and A.B.S. Poleo|The Toxicity of Copper to Crucian Carp (Carassius carassius) in Soft Water|Sci. Total Environ.384(1-3): 239-251|2007|10.1016/j.scitotenv.2007.06.009
116592|T||Wang,C., S.H. Zhang, P.F. Wang, J. Hou, W.J. Zhang, W. Li, and Z.P. Lin|The Effect of Excess Zn on Mineral Nutrition and Antioxidative Response in Rapeseed Seedlings|Chemosphere75(11): 1468-1476|2009|10.1016/j.chemosphere.2009.02.033
116593|T||Owojori,O.J., and A.J. Reinecke|Avoidance Behaviour of Two Eco-Physiologically Different Earthworms (Eisenia fetida and Aporrectodea caliginosa) in Natural and Artificial Saline Soils|Chemosphere75(3): 279-283|2009|10.1016/j.chemosphere.2008.12.051
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116598|A||Hutchins,C.M., P.R. Teasdale, S.Y. Lee, and S.L. Simpson|The Influence of Small-Scale Circum-Neutral pH Change on Cu-Bioavailability and Toxicity to an Estuarine Bivalve (Austriella cf plicifera) in Whole-Sediment Toxicity Tests|Sci. Total Environ.405(1-3): 87-95|2008|10.1016/j.scitotenv.2008.06.039
116599|T||Tsiri,D., I. Chinou, M. Halabalaki, K. Haralampidis, and C. Ganis-Spyropoulos|The Origin of Copper-Induced Medicarpin Accumulation and Its Secretion from Roots of Young Fenugreek Seedlings are Regulated by Copper Concentration|Plant Sci.176(3): 367-374|2009|10.1016/j.plantsci.2008.12.001
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116607|T||Fayed,M.T., T.Y. Rizk, E.E. Hassanein, and A.S.O. Kholosy|The Response of Paraquat Resistant and Susceptible Biotypes of Conyza linifolia Weed to Other Alternative Herbicides|Ann. Agric. Sci.34(1): 181-192|1989|
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116618|T||Bonfanti,P., A. Colombo, S. Villa, F. Comelli, B. Costa, and A. Santagostino|The Effects of Accumulation of an Environmentally Relevant Polychlorinated Biphenyl Mixture on Cytochrome P450 and P-Glycoprotein Expressions in Fetuses and Pregnant Rats|Chemosphere75(5): 572-579|2009|10.1016/j.chemosphere.2009.01.063
116619|T||Lind,P.M., C. Wejheden, R. Lundberg, P. Alvarez-Lloret, S.A.B. Hermsen, A.B. Rodriguez-Navarro, S. Larsson, and A. Rann|Short-Term Exposure to Dioxin Impairs Bone Tissue in Male Rats|Chemosphere75(5): 680-684|2009|10.1016/j.chemosphere.2008.12.024
116620|A||E.G. and G. Bionomics|Acute Toxicity of Sodium Molybdate to Bluegill (Lepomis macrochirus), Rainbow Trout (Salmo gairdneri), Fathead Minnow (Pimephales promelas), Channel Catfish (Ictalurus punctatus), Water Flea (Daphnia magna) and Scud (Ga|Report Prepared for Climax Molybdenum Company of Michigan, Bionomics Inc, Wareham, MA:11 p.|1973|
116621|T||O'Brien,J.M., A.C. Carew, S. Chu, R.J. Letcher, and S.W. Kennedy|Perfluorooctane Sulfonate (PFOS) Toxicity in Domestic Chicken (Gallus gallus domesticus) Embryos in the Absence of Effects on Peroxisome Proliferator Activated Receptor alpha (PPARalpha)-Regulated Genes|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(4): 524-530|2009|10.1016/j.cbpc.2008.11.009
116622|T||Wiszniowski,J., A.T. Halle, C. Richard, A. Hitmi, and G. Ledoigt|Photodegradation Product of Sulcotrione and the Physiological Response of Maize (Zea mays) and White Mustard (Sinapis alba)|Chemosphere74(9): 1224-1230|2009|10.1016/j.chemosphere.2008.11.017
116623|T||Thomas,P.C., K. Velthoven, M. Geurts, and D. Van Wijk|Bioavailability and Detoxification of Cationics: II. Relationship Between Toxicity and CEC of Cationic Surfactants on Caenorhabditis elegans (Nematoda) in Artificial and Natural Substrates|Chemosphere75(3): 310-318|2009|10.1016/j.chemosphere.2009.02.003
116624|T||Smith,J.N., M.A. Espino, J. Liu, N.A. Romero, S.B. Cox, and G.P. Cobb|Multigenerational Effects in Deer Mice (Peromyscus maniculatus) Exposed to Hexahydro-1,3,5-Trinitroso-1,3,5-Triazine (TNX)|Chemosphere75(7): 910-914|2009|10.1016/j.chemosphere.2009.01.010
116625|T||Wang,B., L. Liu, Y. Gao, and J. Chen|Improved Phytoremediation of Oilseed Rape (Brassica napus) by Trichoderma Mutant Constructed by Restriction Enzyme-Mediated Integration (REMI) in Cadmium Polluted Soil|Chemosphere74(10): 1400-1403|2009|10.1016/j.chemosphere.2008.11.027
116626|T||Li,Y., J. Peng, P. Shi, and B. Zhao|The Effect of Cd on Mycorrhizal Development and Enzyme Activity of Glomus mosseae and Glomus intraradices in Astragalus sinicus L.|Chemosphere75(7): 894-899|2009|10.1016/j.chemosphere.2009.01.046
116627|T||Li,M., Z. Liu, Y. Xu, Y. Cui, D. Li, and Z. Kong|Comparative Effects of Cd and Pb on Biochemical Response and DNA Damage in the Earthworm Eisenia fetida (Annelida, Oligochaeta)|Chemosphere74(5): 621-625|2009|10.1016/j.chemosphere.2008.10.048
116628|T||Li,H.F., C. Gray, C. Mico, F.J. Zhao, and S.P. McGrath|Phytotoxicity and Bioavailability of Cobalt to Plants in a Range of Soils|Chemosphere75(7): 979-986|2009|10.1016/j.chemosphere.2008.12.068
116629|T||Kim,D.Y., H. Park, S.H. Lee, N. Koo, and J.G. Kim|Arsenate Tolerance Mechanism of Oenothera odorata from a Mine Population Involves the Induction of Phytochelatins in Roots|Chemosphere75(4): 505-512|2009|10.1016/j.chemosphere.2008.12.021
116630|A||Iriti,M., G. Castorina, V. Picchi, F. Faoro, and S. Gomarasca|Acute Exposure of the Aquatic Macrophyte Callitriche obtusangula to the Herbicide Oxadiazon: The Protective Role of N-Acetylcysteine|Chemosphere74(9): 1231-1237|2009|10.1016/j.chemosphere.2008.11.025
116631|T||Gupta,M., P. Sharma, N.B. Sarin, and A.K. Sinha|Differential Response of Arsenic Stress in Two Varieties of Brassica juncea L.|Chemosphere74(9): 1201-1208|2009|10.1016/j.chemosphere.2008.11.023
116632|T||Garcia-Quispes,W.A., E.R. Carmona, A. Creus, and R. Marcos|Genotoxic Evaluation of Two Halonitromethane Disinfection By-Products in the Drosophila Wing-Spot Test|Chemosphere75(7): 906-909|2009|10.1016/j.chemosphere.2009.01.007
116633|T||DellaGreca,M., M.R. Iesce, P. Pistillo, L. Previtera, and F. Temussi|Unusual Products of the Aqueous Chlorination of Atenolol|Chemosphere74(5): 730-734|2009|10.1016/j.chemosphere.2008.09.067
116634|A||Ferreira,F., M.M. Santos, L.F.C. Castro, M.A. Reis-Henriques, D. Lima, M.N. Vieira, and N.M. Monteiro|Vitellogenin Gene Expression in the Intertidal Blenny Lipophrys pholis:  A New Sentinel Species for Estrogenic Chemical Pollution Monitoring in the European Atlantic Coast?|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(1): 58-64|2009|10.1016/j.cbpc.2008.07.002
116635|A||Filla,A., L. Hiripi, and K. Elekes|Role of Aminergic (Serotonin and Dopamine) Systems in the Embryogenesis and Different Embryonic Behaviors of the Pond Snail, Lymnaea stagnalis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(1): 73-82|2009|10.1016/j.cbpc.2008.07.004
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116660|T||Ali,M.B., N. Singh, A.M. Shohael, E.J. Hahn, and K.Y. Paek|Phenolics Metabolism and Lignin Synthesis in Root Suspension Cultures of Panax ginseng in Response to Copper Stress|Plant Sci.171(1): 147-154|2006|10.1016/j.plantsci.2006.03.005
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116663|T||Dowdy,R.P., and G. Matrone|A Copper-Molybdenum Complex:  Its Effects and Movement in the Piglet and Sheep|J. Nutr.95:179-201|1968|10.1093/jn/95.2.179
116665|A||Bello-Olusoji,O.A., and B.O. Adebola|Toxic-Effect of Aldrin and Copper Sulphate on Freshwater Prawn-Caridina africana|J. Fish. Int.1(1-2): 12-16|2006|
116666|A||Li,H., J. Miao, F. Cui, and G. Li|Surfactant Promotion of the Inhibitory Effects of Cupric Glutamate on the Dinoflagellate alexandrium|J. Phycol.44(6): 1364-1371|2008|10.1111/j.1529-8817.2008.00591.x
116667|T||Mahmood,T., and K.R. Islam|Response of Rice Seedlings to Copper Toxicity and Acidity|J. Plant Nutr.29(5): 943-957|2006|10.1080/01904160600651704
116668|T||Baskar,K., S. Kingsley, S.E. Vendan, M.G. Paulraj, V. Duraipandiyan, and S. Ignacimuthu|Antifeedant, Larvicidal and Pupicidal Activities of Atalantia monophylla (L) Correa Against Helicoverpa armigera Hubner (Lepidoptera:  Noctuidae)|Chemosphere75(3): 355-359|2009|10.1016/j.chemosphere.2008.12.034
116669|A||Welsh,P., J. Lipton, R. Hudson, T. Podrabsky, and D. Cacela|Data Report:  Acute Copper Toxicity to Salmonids in Surface Waters in the Vicinity of the Iron Moutain Mine, California. Volume I:  Study Objectives, Methods Summary, Water Chemistry Characterization and Toxicity Test R|Report Prepared by Hagler Baily Services, Inc.for: Breidenbach, Buckley, Huchting, Halm & Hamblet, California Office of Attorney General:142 p.|1998|
116670|T||Romero,A.M., T.G. De Minaverry, and B.A. Gonzalez|Herbicide Effect on the Field Ocurrence and Progression of a Bacterial Sunflower Disease|Summa Phytopathol.25(2): 177-180|1999|
116671|T||Berthelot,Y., E. Valton, A. Auroy, B. Trottier, and P.Y. Robidoux|Integration of Toxicological and Chemical Tools to Assess the Bioavailability of Metals and Energetic Compounds in Contaminated Soils|Chemosphere74(1): 166-177|2008|10.1016/j.chemosphere.2008.07.056
116672|T||Park,J.Y., J.W. Hong, and G.M. Gadd|Phenol Degradation by Fusarium oxysporum GJ4 is Affected by Toxic Catalytic Polymerization Mediated by Copper Oxide|Chemosphere75(6): 765-771|2009|10.1016/j.chemosphere.2009.01.011
116673|T||Tome,F.V., P.B. Rodriguez, and J.C. Lozano|The Ability of Helianthus annuus L. and Brassica juncea to Uptake and Translocate Natural Uranium and 226Ra Under Different Milieu Conditions|Chemosphere74(2): 293-300|2009|10.1016/j.chemosphere.2008.09.002
116674|T||Burke,J.M., T.H. Terrill, R.R. Kallu, J.E. Miller, and J. Mosjidis|Use of Copper Oxide Wire Particles to Control Gastrointestinal Nematodes in Goats|J. Anim. Sci.85(10): 2753-2761|2007|10.2527/jas.2006-784
116675|T||Daoust,C.M., C. Bastien, and L. Deschenes|Influence of Soil Properties and Aging on the Toxicity of Copper on Compost Worm and Barley|J. Environ. Qual.35(2): 558-567|2006|10.2134/jeq2005.0107
116676|T||Lin,Q., K.L. Shen, H.M. Zhao, and W.H. Li|Growth Response of Zea mays L. in Pyrene-Copper Co-Contaminated Soil and the Fate of Pollutants|J. Hazard. Mater.150(3): 515-521|2008|10.1016/j.jhazmat.2007.04.132
116677|A||Sharma,S.R.K., P.K. Asokan, and A.K. Sahoo|Effect of Sub-lethal Level of Copper and Mercury on Digestive Gland Cells and Lysosomal Enzyme Activity in the Green Mussel (Perna viridis L.)|J. Mar. Biol. Assoc. India48(2): 245-248|2006|
116678|A||Peers,G., S.A. Quesnel, and N.M. Price|Copper Requirements for Iron Acquisition and Growth of Coastal and Oceanic Diatoms|Limnol. Oceanogr.50(4): 1149-1158|2005|10.4319/lo.2005.50.4.1149
116681|A||Lorenzon,S., P. Edomi, P.G. Giulianini, R. Mettulio, and E.A. Ferrero|Role of Biogenic Amines and cHH in the Crustacean Hyperglycemic Stress Response|J. Exp. Biol.208(17): 3341-3347|2005|10.1242/jeb.01761
116682|T||Muller,P., H. Van Bakel, B. Van de Sluis, F. Holstege, C. Wijmenga, and L.W.J. Klomp|Gene Expression Profiling of Liver Cells After Copper Overload In Vivo and In Vitro Reveals New Copper-Regulated Genes|J. Biol. Inorg. Chem.12(4): 495-507|2007|10.1007/s00775-006-0201-y
116683|T||Fuentealba,I.C., B. Horney, J. Daley, and A. Tasony-Ferraro|The Role of Selenium in Copper-Induced Damage in Copper Loaded Rats' Livers|In: J.Neve (Eds.), Therapeutic Uses of Trace Elements, Plenum Press, New York, NY:259-264|1996|
116684|T||Chaturvedi,P., and B.D. Vashistha|Effect of Some Heavy Metals on Protonemal Growth and Bud Formation in the Moss, Bryum capillare L. ex Hedw.|Ann. Biol.24(1): 17-24|2008|
116686|T||Dueck,T.A., and J. Elderson|Influence of NH3 and SO2 on the Growth and Competitive Ability of Arnica montana L. and Viola canina L.|New Phytol.122(3): 507-514|1992|10.1111/j.1469-8137.1992.tb00080.x
116687|T||Roger,C., D. Coderre, and C. Vincent|Mortality and Predation Efficiency of Coleomegilla maculata lengi (Coleoptera: Coccinellidae) Following Pesticide Applications|J. Econ. Entomol.87(3): 583-588|1994|10.1093/jee/87.3.583
116688|A||Chojnacka,K., A. Chojnacki, and H. Gorecka|Biosorption of Cr3+, Cd2+ and Cu2+ Ions by Blue-Green Algae Spirulina sp.:  Kinetics, Equilibrium and the Mechanism of the Process|Chemosphere59(1): 75-84|2005|10.1016/j.chemosphere.2004.10.005
116690|AT||Zeng,X.C., X. Zhou, W. Zhang, N. Murofushi, T. Kitahara, and Y. Kamuro|Opening of Rice Floret in Rapid Response to Methyl Jasmonate|J. Plant Growth Regul.18:153-158|1999|10.1007/PL00007063
116691|T||Chung,B.K., S.W. Kang, and H.Y. Choo|Joint Toxic Action of Bifenthrin and Prothiofos Mixture for the Control of Insecticide-Resistant Diamondback Moth, Plutella xylostella L.|Han'gug Eung'yong Goncung Haghoeji (Non-English)36(1): 105-110|1997|
116692|T||Roditakis,N.E., and D.P. Lykouressis|Prospects for the Use of Volatile Chemicals and a New Pyrrole in Integrated Pest Management of Western Flower Thrips|Acta Hortic.431:513-520|1996|10.17660/ActaHortic.1996.431.48
116693|T||Hazleton Laboratories|Acute Dose Selection Study on Meta-Cresols (Final Report) with Attachment and Cover Letter Dated 020389|EPA/OTS Doc.#40-8960319:14 p.|2000|
116694|T||Bushy Run Research Center|Initial Submission:  Developmental Toxicity Evaluation with O-Cresol, M-Cresol, and P-Cresol Administered by Gavage to Sprague-Dawley Rats with Cover Letter Dated 082492|EPA/OTS Doc.#88-920006747:750 p.|1992|
116696|T||Chen,W.J.A., R.E.,Jr. McAlhany, and J.R. West|4-Methylpyrazole, an Alcohol Dehydrogenase Inhibitor, Exacerbates Alcohol-Induced Microencephaly During the Brain Growth Spurt|Alcohol12(4): 351-355|1995|10.1016/0741-8329(95)00017-L
116697|T||Altura,B.M., A. Gebrewold, A. Zhang, B.T. Altura, and R.K. Gupta|Magnesium Deficiency Exacerbates Brain Injury and Stroke Mortality Induced by Alcohol:  A 31P-NMR In Vivo Study|Alcohol15(3): 181-183|1998|10.1016/S0741-8329(97)00107-9
116698|T||Addolorato,G., A. Gasbarrini, S. Marcoccia, M. Simoncini, P. Baccarini, G. Vagni, A. Grieco, A. Sbriccoli, A. Granato, |Prenatal Exposure to Ethanol in Rats:  Effects on Liver Energy Level and Antioxidant Status in Mothers, Fetuses, and Newborns|Alcohol14(6): 569-573|1997|10.1016/S0741-8329(97)00049-9
116699|T||Sheldon,A.R., and N.W. Menzies|The Effect of Copper Toxicity on the Growth and Root Morphology of Rhodes Grass (Chloris gayana Knuth.) in Resin Buffered Solution Culture|Plant Soil278(1/2): 341-349|2005|10.1007/s11104-005-8815-3
116700|T||Eda,M., Y. Hayashi, K. Kinoshita, K. Koyama, K. Takahashi, and K. Akutu|Anti-Emetic Principles of Water Extract of Brazilian Propolis|Pharm. Biol.43(2): 184-188|2005|10.1080/13880200590919546
116701|A||Mahmood,K., J.S. Yang, D. Chen, M. Wang, F. Yang, and W.J. Yang|Response of Metallothionein Gene-1 to Laboratory Exposure to Heavy Metals and Thermal Stress in the Freshwater Prawn Macrobrachium rosenbergii|J. Hazard. Mater.167(1-3): 523-530|2009|10.1016/j.jhazmat.2009.01.029
116702|T||Pawlik-Skowronska,B., O.W. Purvis, J. Pirszel, and T. Skowronski|Cellular Mechanisms of Cu-Tolerance in the Epilithic Lichen Lecanora polytropa Growing at a Copper Mine|Lichenologist38(3): 267-275|2006|10.1017/S0024282906005330
116703|A||Bart,A.N., and H.A. Kyaw|Survival of Zebrafish, Brachydanio rerio (Hamilton-Buchanan), Embryo After Immersion in Methanol and Exposure to Ultrasound with Implications to Cryopreservation|Aquac. Res.34(8): 609-615|2003|10.1046/j.1365-2109.2003.00852.x
116704|A||Peng,Y., K.H.H. Kwok, P.H. Yang, S.S.M. Ng, J. Liu, O.G. Wong, M.L. He, H.F. Kung, and M.C.M. Lin|Ascorbic Acid Inhibits ROS Production, NF-kappaB Activation and Prevents Ethanol-Induced Growth Retardation and Microencephaly|Neuropharmacology48(3): 426-434|2005|10.1016/j.neuropharm.2004.10.018
116705|T||Dami,I.E., C. Stushnoff, and R.A.,Jr. Hamman|Field Response of Vitis vinifera Cultivars to Methanol|Am. J. Enol. Vitic.47(3): 297-300|1996|10.5344/ajev.1996.47.3.297
116706|T||Bokor,K., and K. Pecsenye|Differences in the Effect of Ethanol on Fertility and Viability Components Among Laboratory Strains of Drosophila melanogaster|Hereditas132(3): 215-227|2000|10.1111/j.1601-5223.2000.00215.x
116707|T||Smith,R.R., J. Hong, A.E. Harvey, T. Lewis, D. Diaz, and N.P. Nunez|Ethanol Consumption does Not Promote Weight Gain in Female Mice|Ann. Nutr. Metab.53(3-4): 252-259|2008|10.1159/000189128
116708|T||Qiang,M., M.W. Wang, and A.J. Elberger|Second Trimester Prenatal Alcohol Exposure Alters Development of Rat Corpus callosum|Neurotoxicol. Teratol.24(6): 719-732|2002|10.1016/S0892-0362(02)00267-2
116709|T||Jing,H., and Y. Li|Effects of Ethanol on Mouse Embryonic Brain Development and Heat Shock Protein 73 Expression|Toxicol. In Vitro18(5): 601-607|2004|10.1016/j.tiv.2004.02.004
116710|T||Cebral,E., V. Rettori, and M.A.F. De Gimeno|Impact of Chronic Low-Dose Ethanol Ingestion During Sexual Maturation of Female Mice on In-Vitro and In-Vivo Embryo Development|Reprod. Toxicol.15(2): 123-129|2001|10.1016/S0890-6238(01)00116-2
116711|T||Gonzalez-Reimers,E., A. Martinez-Riera, F. Santolaria-Fernandez, A. Conde-Martel, H. Alvarez-Arguelles, C. Santana-Herr|Relative and Combined Effects of Ethanol and Protein Deficiency on Gonadal Function and Histology|Alcohol11(5): 355-360|1994|10.1016/0741-8329(94)90017-5
116712|T||Gilliam,D.M., and L.E. Kotch|Dose-Related Growth Deficits in LS but Not SS Mice Prenatally Exposed to Alcohol|Alcohol13(1): 47-51|1996|10.1016/0741-8329(95)02010-1
116713|T||Ahrens,J.F.|Chemical Control of Multiflora Rose|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:213-217|1979|
116714|T||Weathersby,R.T., H.C. Becker, and R.L. Hale|Reduced Sensitivity to the Effects of Clonidine on Ethanol-Stimulated Locomotor Activity in Adult Mouse Offspring Prenatally Exposed to Ethanol|Alcohol11(6): 517-522|1994|10.1016/0741-8329(94)90078-7
116715|T||Haesaert,G., A. De Baets, M. Van Himme, R. Bulcke, and J. Stryckers|Chemical Weed Control in Triticale|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3b): 1177-1184|1987|
116716|T||Abel,E.L.|Rat Offspring Sired by Males Treated with Alcohol|Alcohol10(3): 237-242|1993|10.1016/0741-8329(93)90042-M
116717|T||Salzman,F.P., K.A. Renner, and D. Penner|Absorption, Translocation, and Metabolism of Clomazone, Metribuzin and Linuron in Soybean (Glycine max) and Common Cocklebur (Xanthium strumarium)|Weed Sci.40(3): 395-401|1992|10.1017/S0043174500051808
116718|T||Church,M.W., P.A. Holmes, G.W. Overbeck, J.P. Tilak, and C.S. Zajac|Interactive Effects of Prenatal Alcohol and Cocaine Exposures on Postnatal Mortality, Development and Behavior in the Long-Evans Rat|Neurotoxicol. Teratol.13(4): 377-386|1991|10.1016/0892-0362(91)90086-C
116719|T||Verma,B.R.|Susceptibility of Bruchophagus mellipes Gahan in Seeds to Reduced Pressure Fumigation|J. Entomol. Res.10(1): 44-50|1986|
116720|T||Hohenegger,M., H. Echsel, M. Vermes, and H. Raneburger|Influence of Some Uremic Toxins on Oxygen Consumption of Rats In Vivo and In Vitro|Adv. Exp. Med. Biol.212:99-104|1987|10.1007/978-1-4684-8240-9_13
116721|T||Marrs,R.H.|Birch Control on Lowland Heaths:  Mechanical Control and the Application of Selective Herbicides by Foliar Spray|J. Appl. Ecol.21(2): 703-716|1984|10.2307/2403440
116722|T||Thompson,H.E., and C.D.,Jr. Guldner|Indopol Polybutenes Control the Twospotted Spider Mite on Euonymus in Greenhouse|J. Econ. Entomol.66(4): 997-998|1973|10.1093/jee/66.4.997
116723|T||Chapin,R.E., R.A. Sloane, and J.K. Haseman|Reproductive Endpoints in General Toxicity Studies: Are they Predictive?|Reprod. Toxicol.12(4): 489-494|1998|10.1016/S0890-6238(98)00026-4
116724|T||Shakoori,A.R., U. Butt, R. Riffat, and F. Aziz|Haematological and Biochemical Effects of Danitol Administered for Two Months on the Blood and Liver of Rabbits|Z. Angew. Zool. (Multiple Languages)80(2): 165-180|1994|
116725|T||Marwaha,R.S.|Biochemical Changes in Potato Tubers with the Application of Some Herbicides|Ann. Biol.2(2): 117-124|1986|
116726|T||Kumar,S.|Weed Management in Cumin (Cuminum cyminum)|Indian J. Agron.47(1): 142-146|2002|
116727|T||Americanos,P.G.|Herbicides for Peas|Cyprus Agric. Res. Inst. Tech. Bull.62:1-7|1984|
116728|T||Mohamed,Z.A., A.A. Farag, M.K. El-Sheamy, T.M. Khairy, and N.A. Salam|Degradation Profile and Residual Toxicity of Meothrin During Storage of: I. Barley Grains|Egypt. J. Food Sci.16(1-2): 87-95|1988|
116729|T||El-Sheamy,M.K., A.A. Farag, Z.A. Mohamed, N.A. Salam, and T.M. Khairy|Degradation Profile and Residual Toxicity of Meothrin During Storage of:  II.  Maize Grains|Egypt. J. Food Sci.16(1-2): 97-104|1988|
116730|T||Peirce,J.R.|Effect of Rates and Times of Application of Diuron, Linuron and Methabenzthiazuron on Wheat Yields and Soursob Control|Proc. Conf. Counc. Aust. Weed Sci. Soc.:249-253|1978|
116731|T||Morgan,E.D., B.D. Jackson, D.G. Ollett, and G.W. Sales|Trail Pheromone of the Ant Tetramorium impurum and Model Compounds:  Structure-Activity Comparisons|J. Chem. Ecol.16(12): 3493-3510|1990|10.1007/BF00982113
116732|T||Creager,R.A.|Seed Germination, Physical and Chemical Control of Catclaw Mimosa (Mimosa pigra var. pigra)|Weed Technol.6(4): 884-891|1992|10.1017/S0890037X00036423
116733|A||Netzeva,T.I., J.C. Dearden, R. Edwards, A.D.P. Worgan, and M.T.D. Cronin|QSAR Analysis of the Toxicity of Aromatic Compounds to Chlorella vulgaris in a Novel Short-Term Assay|J. Chem. Inf. Comput. Sci.44(1): 258-265|2004|10.1021/ci034195g
116734|T||Vale,G.A., D.R. Hall, and A.J.E. Gough|The Olfactory Responses of Tsetse Flies, Glossina spp. (Diptera:  Glossinidae), to Phenols and Urine in the Field|Bull. Entomol. Res.78(2): 293-300|1988|10.1017/S0007485300013055
116735|T||Bursell,E., A.J.E. Gough, P.S. Beevor, A. Cork, D.R. Hall, and G.A. Vale|Identification of Components of Cattle Urine Attractive to Tsetse Flies, Glossina spp. (Diptera:  Glossinidae)|Bull. Entomol. Res.78(2): 281-291|1988|10.1017/S0007485300013043
116736|T||Lewis,J.A., G.C. Papavizas, and T.S. Hora|Effect of Some Herbicides on Microbial Activity in Soil|Soil Biol. Biochem.10(2): 137-141|1978|10.1016/0038-0717(78)90084-6
116737|T||Teague,T.G., D.L. Horton, W.C. Yearian, and J.R. Phillips|Benomyl Inhibition of Cotesia (=Apanteles) marginiventris Survival in Four Lepidopterous Hosts|J. Entomol. Sci.20(1): 76-81|1985|10.18474/0749-8004-20.1.76
116738|T||Narasimhan,V., N. Ramadoss, V.V. Sridhar, A.A. Kareem, and T.N. Rice|Using Gypsum to Manage Sheath Rot in Rice|Int. Rice Res. Notes19(2): 27-28|1994|
116739|T||Bradley,D.M., F.D. Beaman, D.B. Moore, and M.B. Heaton|Ethanol Influences on the Chick Embryo Spinal Cord Motor System.  II.  Effects of Neuromuscular Blockade and Period of Exposure|J. Neurobiol.32(7): 684-694|1997|10.1002/(SICI)1097-4695(19970620)32:7<684::AID-NEU4>3.0.CO;2-0
116740|T||Adde-Michel,C., O. Hennebert, V. Laudenbach, S. Marret, and P. Leroux|Effect of Perinatal Alcohol Exposure on Ibotenic Acid-Induced Excitotoxic Cortical Lesions in Newborn Hamsters|Pediatr. Res.57(2): 287-293|2005|10.1203/01.PDR.0000148712.30716.9D
116741|T||Bushy Run Research Center|Draft Data from a Developmental Toxicity Dose Range-Finding Study of O-, M-, and P-Cresol with Cover Letter Dated 080787|EPA/OTS Doc.#fyi-ots-0887-0566:66 p.|1987|
116743|T||Wellmann,P., and F. Heimbach|The Effects of Methiocarb Slug Pellets on the Earthworm Lumbricus terrestris in a Laboratory Test|In: Henderson,I.F.(Ed.), Slug and Snail Pests in Agriculture.Symposium Proc.66, BCPC:181-188|1996|
116744|T||Conover,M.R.|Using Conditioned Food Aversions to Protect Blueberries from Birds:  Comparison of Two Carbamate Repellents|Appl. Anim. Behav. Sci.13(4): 383-386|1985|10.1016/0168-1591(85)90017-6
116745|T||Bullock,F.D.|Weed Control, Population Density Change and Herbicide Persistence in Soils in No-Tillage and Conventional Tillage Soybean-Wheat Double Cropping Systems|Ph.D.Thesis, University of Tennessee, Knoxville, TN:97 p.|1980|
116746|T||Pritchard,M.K.|Plant Response to Light-Influenced Herbicides|Ph.D.Thesis, Purdue University, West Lafayette, IN:129 p.|1979|
116747|T||Abd-El-Rauof,M.S., S.A. Shaban, A.H. El-Hattab, and M.A. Batal|Soybean Varietal Tolerance to Herbicides and Their Residual Effect on the Succeeding Crops|Egypt. J. Agron.10(1/2): 105-123|1985|
116749|A||Haydu,E.P., H.R. Amberg, and R.E. Dimick|The Effect of Kraft Mill Waste Components on Certain Salmonoid Fishes of the Pacific Northwest|TAPPI (Tech. Assoc. Pulp Pap. Ind.)35(12): 545-549|1952|
116750|A||Hancher,C.W., P.A. Taylor, A. Stewart, K.R. Zabelsky, and J.M. Napier|Development and Operational Performance of the Central Pollution Control Facility II/S-3 Liquid Treatment Facility|Manuscript,Martin Marietta Energy Systems, Inc.for Dept.of Energy, Oak Ridge National Laboratory, Oak Ridge, TN:26 p.|1987|
116751|A||Gohar,H.A.F., and H. El-Gindy|Tolerance of Vector Snails of Bilharziasis and Fascioliasis to Some Chemicals|Proc. Egypt. Acad. Sci.16:37-48|1961|
116752|A||Fairchild II,E.J.|Effects of Lowered Oxygen Tension on the Susceptibility of Daphnia magna to Certain Inorganic Salts|Ph.D.Thesis, Louisiana State University, Baton Rouge, LA:134 p.|1954|
116753|A||Mostafa,B.B., and A.A. Tantawy|Bioactivity of Anagallis arvensis and Calendula micrantha Plants, Treated with Ammonium Nitrate, Superphosphate and Potassium Sulphate Fertilizers, on Biomphalaria alexandrina|J. Egypt. Soc. Parasitol.30(3): 929-942|2000|
116754|A||Stark,J.|Bioassay Report Chronic Toxicity Tests. Conducted November 12 Through 19, 1999|SF Analytical Laboratories Inc., Milwaukee, WI (December 7 Memo to S.LaDieu, Huff & Huff Inc., IL):56 p.|1999|
116755|A||Harukawa,C.|Preliminary Report on the Toxicity of Colloidal Sulphur to Fish|Trans. Am. Fish. Soc.52:219-224|1922|10.1577/1548-8659(1922)52[219:PROTTO]2.0.CO;2
116756|T||Salzman,F.P.|Potential Interactions of Clomazone with Metribuzin, Linuron, and Atrazine in Soybean (Glycine max) and Common Cocklebur (Xanthium strumarium)|Ph.D. Thesis, Michigan State University, East Lansing, MI:87 p.|1991|
116757|T||Moseley,C.M.|Herbicide Combinations for Establishing No-Till Soybeans (Glycine max) with an Emphasis on the Use of Chlorimuron|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:199 p.|1990|
116758|T||Bruce,J.A.|Horseweed (Conyza canadensis (L.) Cronq.) Management in No-Tillage Soybean Production|M.S. Thesis, Michigan State University, East Lansing, MI:88 p.|1989|
116759|T||Vencill,W.K., H.P. Wilson, and K.K. Hatzios|Field and Laboratory Investigations on the Efficacy, Selectivity, and Action of the Herbicide Clomazone|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:151 p.|1988|
116760|T||Cho,S.H., Q.T. Hoang, J.W. Phee, Y.Y. Kim, H.Y. Shin, and J.S. Shin|Modified Suppression Subtractive Hybridization Identifies an AP2-Containing Protein Involved in Metal Responses in Physcomitrella patens|Mol. Cells23(1): 100-107|2007|10.1016/S1016-8478(23)07395-8
116761|T||Haywood,S., D.M. Simpson, G. Ross, and R.J. Beynon|The Greater Susceptibility of North Ronaldsay Sheep Compared with Cambridge Sheep to Copper-Induced Oxidative Stress, Mitochondrial Damage and Hepatic Stellate Cell Activation|J. Comp. Pathol.133(2-3): 114-127|2005|10.1016/j.jcpa.2005.02.001
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116763|A||Fathy,A.A., and G. Falkner|Adaptation to Elevation of the Concentration of the Trace Element Copper During Growth of Scenedesmus bijuga is Reflected in the Properties of the Copper Uptake System|J. Trace Microprobe Tech.15(3): 321-333|1997|
116764|A||Davies,T.D., J.S. Pickard, and K.J. Hall|Sulphate Toxicity to Freshwater Organisms and Molybdenum Toxicity to Rainbow Trout Embryos/Alevins|Proc. Br. Columbia Mine Reclam. Symp.:11 p.|2003|
116765|A||Davies,T.D.|Sulphate Toxicity to Freshwater Organisms and Molybdenum Toxicity to Rainbow Trout (Oncorhynchus mykiss)|M.S.Thesis, Queens University, Kingston, Canada:128 p.|2002|
116767|A||Lindau,C.W., D.P. Alford, P.K. Bollich, and S.D. Linscombe|Inhibition of Methane Evolution by Calcium Sulfate Addition to Flooded Rice|Plant Soil158(2): 299-301|1994|10.1007/BF00009503
116768|T||Wallace,B.|Drosophila melanogaster Populations Selected for Resistance to NaCl and CuSO4 in Both Allopatry and Sympatry|J. Hered.73:35-42|1982|10.1093/oxfordjournals.jhered.a109572
116769|T||Gonnelli,C., F. Galardi, and R. Gabbrielli|Nickel and Copper Tolerance and Toxicity in Three Tuscan Populations of Silene paradoxa|Physiol. Plant. (Multiple Languages)113(4): 507-514|2001|10.1034/j.1399-3054.2001.1130409.x
116770|T||Hylander,L.D.|Effects of Lime, Phosphorus, Manganese, Copper, and Zinc on Plant Mineral Composition, Yield of Barley, and Level of Extractable Nutrients for an Acid Swedish Mineral Soil|Commun. Soil Sci. Plant Anal.26(17-18): 2913-2928|1995|10.1080/00103629509369497
116771|A||Miranda,C.D., and R. Rojas|Copper Accumulation by Bacteria and Transfer to Scallop Larvae|Mar. Pollut. Bull.52(3): 293-300|2006|10.1016/j.marpolbul.2005.08.022
116772|T||Pourakbar,L., M. Khayami, J. Khara, and T. Farbodnia|Physiological Effects of Copper on Some Biochemical Parameters in Zea mays L. Seedlings|Pak. J. Biol. Sci.10(22): 4092-4096|2007|10.3923/pjbs.2007.4092.4096
116773|A||Quigg,A., J.R. Reinfelder, and N.S. Fisher|Copper Uptake Kinetics in Diverse Marine Phytoplankton|Limnol. Oceanogr.51(2): 893-899|2006|10.4319/lo.2006.51.2.0893
116774|T||Shi,J., M.A. Gras, and W.K. Silk|Laser Ablation ICP-MS Reveals Patterns of Copper Differing from Zinc in Growth Zones of Cucumber Roots|Planta (Multiple Languages)229(4): 945-954|2009|10.1007/s00425-008-0861-7
116775|T||Ahsan,N., D.G. Lee, I. Alam, P.J. Kim, J.J. Lee, Y.O. Ahn, S.S. Kwak, I.J. Lee, J.D. Bahk, K.Y. Kang, J. Renaut, S. Kom|Comparative Proteomic Study of Arsenic-Induced Differentially Expressed Proteins in Rice Roots Reveals Glutathione Plays a Central Role During As Stress|Proteomics8(17): 3561-3576|2008|10.1002/pmic.200701189
116776|T||Remans,T., K. Smeets, K. Opdenakker, D. Mathijsen, J. Vangronsveld, and A. Cuypers|Normalisation of Real-Time RT-PCR Gene Expression Measurements in Arabidopsis thaliana Exposed to Increased Metal Concentrations|Planta (Multiple Languages)227(6): 1343-1349|2008|10.1007/s00425-008-0706-4
116777|T||Zhang,X.H., A.J. Lin, Y.L. Gao, R.J. Reid, M.H. Wong, and Y.G. Zhu|Arbuscular Mycorrhizal Colonisation Increases Copper Binding Capacity of Root Cell Walls of Oryza sativa L. and Reduces Copper Uptake|Soil Biol. Biochem.41(5): 930-935|2009|10.1016/j.soilbio.2008.08.011
116778|T||Sanmartin,M., I. Pateraki, F. Chatzopoulou, and A.K. Kanellis|Differential Expression of the Ascorbate Oxidase Multigene Family During Fruit Development and in Response to Stress|Planta (Multiple Languages)225(4): 873-885|2007|10.1007/s00425-006-0399-5
116779|T||Williams,L.M., H. Cunningham, A. Ghaffar, G.I. Riddoch, and I. Bremner|Metallothionein Immunoreactivity in the Liver and Kidney of Copper Injected Rats|Toxicology55(3): 307-316|1989|10.1016/0300-483X(89)90020-6
116780|T||Obertello,M., L. Wall, L. Laplaze, M. Nicole, F. Auguy, H. Gherbi, D. Bogusz, and C. Franche|Functional Analysis of the Metallothionein Gene cgMT1 Isolated from the Actinorhizal Tree Casuarina glauca|Mol. Plant-Microbe Interact.20(10): 1231-1240|2007|10.1094/MPMI-20-10-1231
116781|T||Collin,V.C., F. Eymery, B. Genty, P. Rey, and M. Havaux|Vitamin E is Essential for the Tolerance of Arabidopsis thaliana to Metal-Induced Oxidative Stress|Plant Cell Environ.31(2): 244-257|2008|10.1111/j.1365-3040.2007.01755.x
116782|T||Zhigang,A., L. Cuijie, Z. Yuangang, D. Yejie, A. Wachter, R. Gromes, and T. Rausch|Expression of BjMT2, a Metallothionein 2 from Brassica juncea, Increases Copper and Cadmium Tolerance in Escherichia coli and Arabidopsis thaliana, but Inhibits Root Elongation in Arabidopsis thaliana Seedlings|J. Exp. Bot.57(14): 3575-3582|2006|10.1093/jxb/erl102
116783|T||Jouili,H., H. Bouazizi, M. Rossignol, G. Borderies, E. Jamet, and E. El Ferjani|Partial Purification and Characterization of a Copper-Induced Anionic Peroxidase of Sunflower Roots|Plant Physiol. Biochem.46(8-9): 760-767|2008|10.1016/j.plaphy.2008.04.006
116784|T||Zhou,Z., J. Zhou, R. Li, H. Wang, and J. Wang|Effect of Exogenous Amino Acids on Cu Uptake and Translocation in Maize Seedlings|Plant Soil292(1-2): 105-117|2007|10.1007/s11104-007-9206-8
116785|T||Zimeri,A.M., O.P. Dhankher, B. McCaig, and R.B. Meagher|The Plant MT1 Metallothioneins are Stabilized by Binding Cadmium and are Required for Cadmium Tolerance and Accumulation|Plant Mol. Biol.58(6): 839-855|2005|10.1007/s11103-005-8268-3
116786|A||Mata,Y.N., M.L. Blazquez, A. Ballester, F. Gonzalez, and J.A. Munoz|Biosorption of Cadmium, Lead and Copper with Calcium Alginate Xerogels and Immobilized Fucus vesiculosus|J. Hazard. Mater.163(2-3): 555-562|2009|10.1016/j.jhazmat.2008.07.015
116787|A||Yeh,C.M., P.S. Chien, and H.J. Huang|Distinct Signalling Pathways for Induction of MAP Kinase Activities by Cadmium and Copper in Rice Roots|J. Exp. Bot.58(3): 659-671|2007|10.1093/jxb/erl240
116788|A||Tang,D., M.M. Shafer, D.A. Karner, and D.E. Armstrong|Response of Nonprotein Thiols to Copper Stress and Extracellular Release of Glutathione in the Diatom Thalassiosira weissflogii|Limnol. Oceanogr.50(2): 516-525|2005|10.4319/lo.2005.50.2.0516
116789|T||Liu,D., P. Xue, Q. Meng, J. Zou, J. Gu, and W. Jiang|Pb/Cu Effects on the Organization of Microtubule Cytoskeleton in Interphase and Mitotic Cells of Allium sativum L.|Plant Cell Rep.28(4): 695-702|2009|10.1007/s00299-009-0669-3
116790|T||Mirouze,M., J. Sels, O. Richard, P. Czernic, S. Loubet, A. Jacquier, I.E.J.A. Francois, B.P.A. Cammue, M. Lebrun, P. Be|A Putative Novel Role for Plant Defensins: A Defensin from the Zinc Hyper-Accumulating Plant, Arabidopsis halleri, Confers Zinc Tolerance|Plant J.47(3): 329-342|2006|10.1111/j.1365-313X.2006.02788.x
116791|T||Cuypers,A., K.M. Koistinen, H. Kokko, S. Karenlampi, S. Auriola, and J. Vangronsveld|Analysis of Bean (Phaseolus vulgaris L.) Proteins Affected by Copper Stress|J. Plant Physiol.162(4): 383-392|2005|10.1016/j.jplph.2004.07.018
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116793|T||Kennedy,C.D., and F.A.N. Gonsalves|The Action of Divalent Zinc, Cadmium, Mercury, Copper and Lead on the Trans-Root Potential and H+ Efflux of Excised Roots|J. Exp. Bot.38(190): 800-817|1987|10.1093/jxb/38.5.800
116794|T||Metwally,M., and A. Abou-Zeid|Effects of Toxic Heavy Metals on Growth and Metabolic Activity of Some Fungi|Egypt. J. Microbiol.31(1): 115-127|1996|
116795|T||Bulgin,M.S., J. Maas, B.C. Anderson, D. Klugh, S.D. Lincoln, and V.M. Lane|Death Associated with Parenteral Administration of Copper Disodium Edetate in Calves|J. Am. Vet. Med. Assoc.188(4): 406-409|1986|
116796|T||Kumari,S., and S.K. Sharma|Effect of Micronutrient Sprays on Tomato (Lycopersicon esculentum) Seed Production|Indian J. Agric. Sci.76(10): 676-678|2006|
116797|T||Van Campen,D.R., and E.A. Mitchell|Absorption of Cu64, Zn65, Mo99 and Fe59 from Ligated Segments of the Rat Gastrointestinal Tract|J. Nutr.86:120-124|1965|10.1093/jn/86.2.120
116798|T||McCormick,C.C., and J.C. Fleet|The Toxicity of Parenteral Copper in the Chick:  Dependence on Route of Administration|J. Nutr.118(11): 1398-1402|1988|10.1093/jn/118.11.1398
116799|T||Kim,Y.H., K.S. Yang, S.H. Ryu, K.Y. Kim, W.K. Song, S.Y. Kwon, H.S. Lee, J.W. Bang, and S.S. Kwak|Molecular Characterization of a cDNA Encoding DRE-Binding Transcription Factor from Dehydration-Treated Fibrous Roots of Sweetpotato|Plant Physiol. Biochem.46(2): 196-204|2008|10.1016/j.plaphy.2007.09.012
116800|T||Doyle,J.J., and W.H. Pfander|Interactions of Cadmium with Copper, Iron, Zinc, and Manganese in Ovine Tissue|J. Nutr.105:599-606|1975|10.1093/jn/105.5.599
116801|A||Filenko,O.F., A.G. Dmitriyeva, and Y.V. Marushkina|Assessment of the Influence of Copper on the Model Population of Scenedesmus quadricauda (Turp.) Breb. by the Method of Microcultures|Hydrobiol. J.43(2): 46-52|2007|10.1615/HydrobJ.v43.i2.50
116802|A||Hameed,S.V.S.A., K. Muthukumaravel, M.M.W. Khan, and N. Udayakumar|Toxic Effects of Copper on Hepatopancreas of Freshwater Mussel, Lamellidens marginalis|J. Ecotoxicol. Environ. Monit.15(4): 365-370|2005|
116803|T||Choudhri,R.S., and V.B. Bhatnagar|Effects of Salts of Certain Minor Elements on Seed Germination|J. Sci. Res. Benares Hindu Univ.3:76-85|1952|
116804|T||Chen,X., H. Hua, K. Balamurugan, X. Kong, L. Zhang, G.N. George, O. Georgiev, W. Schaffner, and D.P. Giedroc|Copper Sensing Function of Drosophila Metal-Responsive Transcription Factor-1 is Mediated by a Tetranuclear Cu(I) Cluster|Nucleic Acids Res.36(9): 3128-3138|2008|10.1093/nar/gkn103
116805|A||Liu,R., D. Zhao, and M.O. Barnett|Fate and Transport of Copper Applied in Channel Catfish Ponds|Water Air Soil Pollut.176(1-4): 139-162|2006|10.1007/s11270-006-9155-5
116806|T||Malekzadeh,P., J. Khara, and S. Farshian|Effect of Arbuscular Mycorrhiza (Glomus etunicatum) on Some Physiological Growth Parameters of Tomato Plant Under Copper Toxicity in Solution|Pak. J. Biol. Sci.10(8): 1326-1330|2007|10.3923/pjbs.2007.1326.1330
116807|A||Prajapati,O.K., and P.K. Pandey|Copper Efflux in Tolerant Strain of Nostoc calcicola Breb Possible way of Metal Tolerance|Flora Fauna14(1): 130-132|2008|
116808|A||Griffin,B.R., and A.J. Mitchell|Susceptibility of Channel Catfish, Ictalurus punctatus (Rafinesque), to Edwardsiella ictaluri Challenge Following Copper Sulphate Exposure|J. Fish Dis.30(10): 581-585|2007|10.1111/j.1365-2761.2007.00838.x
116809|T||Ma,Y., M. Rajkumar, and H. Freitas|Inoculation of Plant Growth Promoting Bacterium Achromobacter xylosoxidans Strain Ax10 for the Improvement of Copper Phytoextraction by Brassica juncea|J. Environ. Manag.90(2): 831-837|2009|10.1016/j.jenvman.2008.01.014
116810|T||Kendall,N.R., A.M. Mackenzie, and S.B. Telfer|Effect of a Copper, Cobalt and Selenium Soluble Glass Bolus Given to Grazing Sheep|Livest. Prod. Sci.68(1): 31-39|2001|10.1016/S0301-6226(00)00210-4
116812|T||Hooker,D.C., and T.J. Vyn|Weed Control Strategies with Soybeans and White Beans in Conservation Tillage Systems|M.S. Thesis, University of Guelph, Ontario, Canada:126 p.|1993|
116813|T||Hope III,J.H.|Biology, Control and Competition of Spotted Spurge Euphorbia maculata L. in Soybeans|Ph.D.Thesis, University of Tennessee, Knoxville, TN:63 p.|1982|
116815|A||Young,R.T.|Resistance of Fish to Salts and Alkalinity|Am. J. Physiol.63:373-388|1923|10.1152/ajplegacy.1923.63.2.373
116816|A||Taylor,P.A., A.J. Stewart, and L. Holt|Toxicity of Common Salts to Three Biotoxicity Test Organisms|Prepared for Presentation at American Institute of Chemical Engineers National Meeting:8 p.|1988|
116817|A||Aquatic Toxicology Group|Brenda Mines Sulphate and Molybdenum Toxicity Testing|Proj.Rep.No.2-11-825/826, Prepared for Noranda Mining and Exploration Inc., Brenda Mines Div., B.C.:222 p.|1998|
116818|T||Rao,A.N.|Residual Effect of a Few Herbicides on Chlorophyll Content and Primary Productivity of Succeeding Crops and Associated Weeds|Acta Agrobot. (Multiple Languages)35(1): 133-143|1982|10.5586/aa.1982.014
116819|T||Ohtani,T., M. Kawabata, A. Sase, and M. Fukami|Cadmium and Nutrient Heavy Metals Uptake by Rice, Barley, and Spinach as Affected by Four Ammonium Salts|J. Plant Nutr.30(4): 599-610|2007|10.1080/01904160701209352
116820|T||Doncheva,S., Z. Stoyanova, K. Georgieva, D. Nedeva, R. Dikova, G. Zehirov, and A. Nikolova|Exogenous Succinate Increases Resistance of Maize Plants to Copper Stress|J. Plant Nutr. Soil Sci.169(2): 247-254|2006|10.1002/jpln.200520560
116821|A||Schintu,M., L. Durante, A. Maccioni, P. Meloni, S. Degetto, and A. Contu|Measurement of Environmental Trace-Metal Levels in Mediterranean Coastal Areas with Transplanted Mussels and DGT Techniques|Mar. Pollut. Bull.57(6-12): 832-837|2008|10.1016/j.marpolbul.2008.02.038
116822|T||Wani,P.A., M.S. Khan, and A. Zaidi|Cadmium, Chromium and Copper in Greengram Plants|Agron. Sustain. Dev.27(2): 145-153|2007|10.1051/agro:2007036
116823|A||Lemus,M.J., and K.S. Chung|Effect of Copper on the RNA/DNA Ratio at Different Temperatures in Juveniles of Petenia kraussii (Pisces:  Ciclidae)|Bol. Inst. Oceanogr. Venez.45(1): 9-15|2006|
116824|A||Georgiades,E.T., D.C. Gillan, P. Pernet, P. Dubois, A. Temara, and D.A. Holdway|Copper Accumulation and Expression of Heat-Stable Low Molecular Mass Proteins in Coscinasterias muricata|Australas. J. Ecotoxicol.12(1): 9-19|2006|
116826|A||Sriwastwa,V.M.S., and R.S. Tripathi|Histopathological Changes in Tissue of Esomus dandricus (Hamilton) Under Sodium and Ammonium Sulphate Stress|Comp. Physiol. Ecol.6(4): 236-238|1981|
116828|A||Williams,J.E.,Jr.|The Toxicity of Some Inorganic Salts to Game Fish|M.S.Thesis, Louisiana State University, Baton Rouge, LA:71 p.|1948|
116829|A||Pickard,J., P. McKee, and J. Stroiazzo|Site Specific Multi-Species Toxicity Testing of Sulphate and Molybdenum Spiked Mining Effluent and Receiving Water|In: W.A.Price, B.Hurt and C.Howell (Eds.), Proc.of the 1999 Workshop on Molybdenum Issues in Reclamation, British Columbia Technical sn Research Committee on Reclamation, Bitech Publishers, Richmond, British Columbia, Canada:86-95|1999|
116830|A||Sanders,D.F.|Site Water Bioassays for Huff and Huff, Incorporated, La Grange, IL|IPS Environmental and Analytical Services, Appleton WI (December 6 Memo to S.LaDieu, Huff & Huff Inc, LaGrange, IL):67 p.|1993|
116831|A||Illinois National History Survey|Effects of Water Quality on Acute and Chronic Toxicity of Sulfate to Freshwater Bivalves, Ceriodaphnia dubia, and Hyalella azteca|Third Quarterly Report, Submitted to U.S.EPA, Region 5, Chicago, IL by Illinois Natural History Survey (INHS), Champaign, IL:22 p.|2005|
116832|A||Hollows,C.F., E.L. Johnston, and D.J. Marshall|Copper Reduces Fertilisation Success and Exacerbates Allee Effects in the Field|Mar. Ecol. Prog. Ser.333:51-60|2007|10.3354/meps333051
116833|T||Dupuis,B., N. Garcia, and G. Boels|Efficacy of Potato Seeds Disinfection Products to Control Erwinia spp.|Commun. Agric. Appl. Biol. Sci.73(2): 343-348|2008|
116834|A||Zhang,L., C. Hu, W. Ye, D. Zhu, Z. Yu, R. Zhuo, and M. Sun|The Copper-Resistant Bacterium ACU Isolated from the Rhizosphere of Eichhornia crassipes (Mart.) Increased the Endurance of Potamogeton crispus L. to Copper Toxicity|J. Appl. Microbiol.105(4): 1034-1043|2008|10.1111/j.1365-2672.2008.03835.x
116835|T||Nieminen,T.M., L. Ukonmaanaho, N. Rausch, and W. Shotyk|Availability and Toxicity of Cu and Ni to Scots Pine in Different Soils|For. Snow Landscape Res.80(3): 349-360|2006|
116836|A||Jin,Y., R. Chen, L. Sun, W. Wang, L. Zhou, W. Liu, and Z. Fu|Enantioselective Induction of Estrogen-Responsive Gene Expression by Permethrin Enantiomers in Embryo-Larval Zebrafish|Chemosphere74(9): 1238-1244|2009|10.1016/j.chemosphere.2008.11.015
116837|A||Robles-Mendoza,C., C. Garcia-Basilio, S. Cram-Heydrich, M. Hernandez-Quiroz, and C. Vanegas-Perez|Organophosphorus Pesticides Effect on Early Stages of the Axolotl Ambystoma mexicanum (Amphibia:  Caudata)|Chemosphere74(5): 703-710|2009|10.1016/j.chemosphere.2008.09.087
116838|A||Satapornvanit,K., D.J. Baird, and D.C. Little|Laboratory Toxicity Test and Post-Exposure Feeding Inhibition Using the Giant Freshwater Prawn Macrobrachium rosenbergii|Chemosphere74(9): 1209-1215|2009|10.1016/j.chemosphere.2008.11.033
116839|A||Saha,S., and A. Kaviraj|Effects of Cypermethrin on Some Biochemical Parameters and Its Amelioration Through Dietary Supplementation of Ascorbic Acid in Freshwater Catfish Heteropneustes fossilis|Chemosphere74(9): 1254-1259|2009|10.1016/j.chemosphere.2008.10.056
116840|A||Camponelli,K.M., R.E. Casey, J.W. Snodgrass, S.M. Lev, and E.R. Landa|Impacts of Weathered Tire Debris on the Development of Rana sylvatica Larvae|Chemosphere74(5): 717-722|2009|10.1016/j.chemosphere.2008.09.056
116841|A||Pastorinho,M.R., T.C. Telfer, and A.M.V.M. Soares|Amphipod Susceptibility to Metals:  Cautionary Tales|Chemosphere75(11): 1423-1428|2009|10.1016/j.chemosphere.2009.03.003
116842|A||Aksmann,A., and Z. Tukaj|Intact Anthracene Inhibits Photosynthesis in Algal Cells:  A Fluorescence Induction Study on Chlamydomonas reinhardtii cw92 Strain|Chemosphere74(1): 26-32|2008|10.1016/j.chemosphere.2008.09.064
116843|A||Su,Y., Y. Zhu, and Y. Liang|Interactions of Mixed Organic Contaminants in Uptake by Rice Seedlings|Chemosphere74(7): 890-895|2009|10.1016/j.chemosphere.2008.10.057
116844|A||Daam,M.A., K. Satapornvanit, P.J. Van den Brink, and A.J.A. Nogueira|Sensitivity of Macroinvertebrates to Carbendazim Under Semi-Field Conditions in Thailand: Implications for the Use of Temperate Toxicity Data in a Tropical Risk Assessment of Fungicides|Chemosphere74(9): 1187-1194|2009|10.1016/j.chemosphere.2008.11.040
116846|T||Liu,H., M. Zhao, C. Zhang, Y. Ma, and W. Liu|Enantioselective Cytotoxicity of the Insecticide Bifenthrin on a Human Amnion Epithelial (FL) Cell Line|Toxicology253(1-3): 89-96|2008|10.1016/j.tox.2008.08.015
116848|T||Nagy,F., J. Svab, D. Foldesi, and J. Dobos|Technology for Chemical Weed Control of Safflower (Carthamus tinctorius L.)|Herba Hung.29(1/2): 29-36|1990|
116849|T||Wood,W.F., M.G. Leahy, R. Galun, G.D. Prestwich, J. Meinwald, R.E. Purnell, and R.C. Payne|Phenols as Pheromones of Ixodid Ticks:  A General Phenomenon?|J. Chem. Ecol.1(4): 501-509|1975|10.1007/BF00988590
116850|T||Van Himme,M., R. Bulcke, and A. Calus|Possibilities of Growing Replacing Spring Crops After Failure of a Winter Cereal or Winter Rape Crop Treated with Persistent Herbicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent54(2a): 289-302|1989|
116851|T||Banon,S., J. Ochoa, and A. Gonzalez|Manipulation of Oleander Growth, Development and Foliage Colour by Paclobutrazol and Ethephon|Gartenbauwissenschaft (Multiple Languages)66(3): 123-132|2001|
116852|T||Goutam,U., R.C. Anand, R.S. Banga, H.R. Sharma, and Jagriti |Compatibility of Diazotrophs with Herbicides in Chickpea Under Field Conditions|Ann. Agri Bio Res.9(2): 155-157|2004|
116853|T||Klikocka,H., and M. Wesolowski|Studies on Introduction of Weed-Control and Soil Tillage in Solanum tuberosum L. Cultivation in Poland|Landbauforsch. Volkenrode52(1): 53-58|2002|
116854|T||Smitley,D.R., T.W. Davis, and M.M. Williams|Thrips Control on Gloxinia 1997|Arthropod Manag. Tests23(0): 345-|1998|10.1093/amt/23.1.345
116855|T||Greenhalgh,R., G.W. Wood, and P.A. Pearce|A Rapid GC Method of Monitoring Mesurol (4-(Methylthio)- 3,5-Xylyl-N- Methyl Carbamate) and Its Sulfoxide and Sulfone Metabolites and Their Persistence in Lowbush Blueberries|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes12(4): 229-244|1977|
116856|T||Barring,U.|Results of Trials in Forestry|Weeds Weed Control19:J1 - J10|1978|
116857|T||Blanco,A.|Effects of Paclobutrazol and of Ethephon on Cropping and Vegetative Growth of `Crimson Gold' Nectarine Trees|Sci. Hortic.42(1-2): 65-73|1990|10.1016/0304-4238(90)90148-8
116858|T||Mortensen,L.C., and E.N. Eriksen|The Effect of Gibberellic Acid, Paclobutrazol and Ethephon on the Germination of Fagus sylvatica and Picea sitchensis Seeds Exposed to Varying Durations of Moist Chilling|Seed Sci. Technol.32(1): 21-33|2004|10.15258/sst.2004.32.1.04
116859|T||McCullough,P.E., H. Liu, and L.B. McCarty|Ethephon and Gibberellic Acid Inhibitors Influence Creeping Bentgrass Putting Green Quality and Ball Roll Distances|Hortscience40(4): 1902-1903|2005|10.21273/HORTSCI.40.6.1902
116860|T||Milbauer,M., M.K. Leach, and S. Glass|Comparing E-Z-Ject Application of Roundup with Foliar Application of Krenite in the Control of Aspen (Populus tremuloides Michx.) in Tallgrass Prairie|Nat. Areas J.23(3): 284-287|2003|
116861|T||Dai,H., Y.Q. Li, D. Du, X. Qin, X. Zhang, H.B. Yu, and J.X. Fang|Synthesis and Biological Activities of Novel Pyrazole Oxime Derivatives Containing a 2-Chloro-5-Thiazolyl Moiety|J. Agric. Food Chem.56(22): 10805-10810|2008|10.1021/jf802429x
116862|T||Dey,B., and R.C. Srivastava|Nitrate Reductase Activity and Soluble Protein in the Leaves of Pisum sativum in Response to Foliar Spray of Copper Sulphate|J. Hill Res.18(1): 30-32|2005|
116863|A||Sarkar,D.B., and S.K. Konar|Effect of Copper on the Yield of Oreochromis mossambicus|Appl. Fish. Aquac.1(1): 83-84|2001|
116864|T||Liang,S.H., Y.P. Jeng, Y.W. Chiu, J.H. Chen, B.S. Shieh, C.Y. Chen, and C.C. Chen|Cloning, Expression, and Characterization of Cadmium-Induced Metallothionein-2 from the Earthworms Metaphire posthuma and Polypheretima elongata|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 349-357|2009|10.1016/j.cbpc.2008.09.004
116865|T||EPA/OTS|The Toxicity of Chloroanilines|EPA/OTS Doc.#878211858:5 p.|1982|
116866|T||Hsu,J.K.H.|Weed Interference and Control for Soybean Production on Alluvial Portageville Clay|Ph.D. Thesis, University of Missouri, Columbia, MO:78 p.|1979|
116867|T||Younger Labs|Skin Irritation in Albino Rabbits After Application of O-, M- and P-Cresol|EPA/OTS Doc.#40-7860162:4 p.|1978|
116868|T||Dow Chemical Co.|Acute Toxicological Properties and Industrial Handling Hazards of Cresol (Ortho, Meta, Para Isomers), Sample Reference|EPA/OTS Doc.#878211373:14 p.|1982|
116869|T||Mellon Institute of Ind.Research|Acute Toxicity of M-Cresol|EPA/OTS Doc.#40-4960071:5 p.|2000|
116870|T||Zhou,F.C., Y. Sari, T.A. Powrozek, and C.Y. Spong|A Neuroprotective Peptide Antagonizes Fetal Alcohol Exposure-Compromised Brain Growth|J. Mol. Neurosci.24(2): 189-199|2004|10.1385/JMN:24:2:189
116871|T||Wainwright,P., and M. Gagnon|Moderate Prenatal Ethanol Exposure Interacts with Strain in Affecting Brain Development in Balb/C and C57BL/6 Mice|Exp. Neurol.88(1): 84-94|1985|10.1016/0014-4886(85)90115-3
116872|T||Leichter,J.|Lack of Fetal Growth Retardation in Rats Consuming Alcohol Prior to Conception but Not During Gestation|Growth49(3): 375-379|1985|
116873|T||Cagiano,R., M. Tattoli, M. Persichella, M. Mazzoccoli, S. Govoni, and V. Cuomo|Effects of Chronic Low-Dose Ethanol Intake on Sexual Behavior in Rats|Alcohol16(2): 135-138|1998|10.1016/S0741-8329(97)00182-1
116874|T||Cebral,E., A. Lasserre, V. Rettori, and M.A.F. De Gimeno|Impaired Mouse Fertilization by Low Chronic Alcohol Treatment|Alcohol Alcohol.32(5): 563-572|1997|10.1093/oxfordjournals.alcalc.a008297
116875|T||Burns,E.M., T.W. Kruckeberg, M.F. Kanak, and H. Stibler|Ethanol Exposure During Brain Ontogeny:  Some Long-Term Effects|Neurobehav. Toxicol. Teratol.8(4): 383-389|1986|
116877|T||Loland,J.O., and B.R. Singh|Extractability and Plant Uptake of Copper in Contaminated Coffee Orchard Soils as Affected by Different Amendments|Acta Agric. Scand. Sect. B54:121-127|2004|
116878|A||Elsabbagh,H.S.|Biochemical and Haematological Changes in Tilapia nilotica (Oreochromis niloticus) Exposed to Copper|Vet. Med. J. Giza44(1): 23-30|1996|
116879|T||Bonthius,D.J., and J.R. West|Aspirin Augments Alcohol in Restricting Brain Growth in the Neonatal Rat|Neurotoxicol. Teratol.11(2): 135-143|1989|10.1016/0892-0362(89)90052-4
116880|T||Bartsch,W., G. Sponer, K. Dietmann, and G. Fuchs|Acute Toxicity of Various Solvents in the Mouse and Rat|Arzneim. Forsch.26:1581-1583|1976|
116881|T||Anderson,R.A.,Jr., J.F. Phillips, S.H. Berryman, and L.J.D. Zaneveld|Ethanol-Induced Delayed Male Puberty in Mice is not Due to Impaired Leydig Cell Function|Reprod. Toxicol.3(2): 101-113|1989|10.1016/0890-6238(89)90044-0
116882|T||Anderson,R.A.,Jr., B.R. Willis, J.F. Phillips, C. Oswald, and L.J.D. Zaneveld|Delayed Pubertal Development of the Male Reproductive Tract Associated with Chronic Ethanol Ingestion|Biochem. Pharmacol.36(13): 2157-2167|1987|10.1016/0006-2952(87)90145-6
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116884|T||Abel,E.L.|Prenatal Exposure to Beer, Wine, Whiskey, and Ethanol:  Effects on Postnatal Growth and Food and Water Consumption|Neurobehav. Toxicol. Teratol.3(1): 49-51|1981|
116885|A||Lithner,D., J. Damberg, G. Dave, and K. Larsson|Leachates from Plastic Consumer Products - Screening for Toxicity with Daphnia magna|Chemosphere74(9): 1195-1200|2009|10.1016/j.chemosphere.2008.11.022
116886|A||Shao,J., Z. Wu, G. Yu, X. Peng, and R. Li|Allelopathic Mechanism of Pyrogallol to Microcystis aeruginosa PCC7806 (Cyanobacteria):  From Views of Gene Expression and Antioxidant System|Chemosphere75(7): 924-928|2009|10.1016/j.chemosphere.2009.01.021
116887|A||Shi,X., P. Zhuang, L. Zhang, G. Feng, L. Chen, J. Liu, L. Qu, and R. Wang|The Bioaccumulation of Fluoride Ion (F-) in Siberian Sturgeon (Acipenser baerii) Under Laboratory Conditions|Chemosphere75(3): 376-380|2009|10.1016/j.chemosphere.2008.12.042
116888|A||Nam,S.H., C.Y. Yang, and Y.J. An|Effects of Antimony on Aquatic Organisms (Larva and Embryo of Oryzias latipes, Moina macrocopa, Simocephalus mixtus, and Pseudokirchneriella subcapitata)|Chemosphere75(7): 889-893|2009|10.1016/j.chemosphere.2009.01.048
116889|A||Lushchak,O.V., O.I. Kubrak, I.M. Torous, T.Y. Nazarchuk, K.B. Storey, and V.I. Lushchak|Trivalent Chromium Induces Oxidative Stress in Goldfish Brain|Chemosphere75(1): 56-62|2009|10.1016/j.chemosphere.2008.11.052
116890|A||Sancho,E., M.J. Villarroel, E. Andreu, and M.D. Ferrando|Disturbances in Energy Metabolism of Daphnia magna After Exposure to Tebuconazole|Chemosphere74(9): 1171-1178|2009|10.1016/j.chemosphere.2008.11.076
116891|A||Olsvik,P.A., K.K. Lie, J. Sturve, L. Hasselberg, and O.K. Andersen|Transcriptional Effects of Nonylphenol, Bisphenol A and PBDE-47 in Liver of Juvenile Atlantic Cod (Gadus morhua)|Chemosphere75(3): 360-367|2009|10.1016/j.chemosphere.2008.12.039
116892|A||Bolsunovsky,A., L. Bondareva, F. Sukhorukov, and M. Melgunov|Accumulation of 242Pu by a Macrophyte of the Yenisei River (Elodea canadensis) in Laboratory Experiments|Chemosphere75(3): 284-288|2009|10.1016/j.chemosphere.2008.12.036
116893|A||Alvarez-Munoz,D., A. Gomez-Parra, J. Blasco, C. Sarasquete, and E. Gonzalez-Mazo|Oxidative Stress and Histopathology Damage Related to the Metabolism of Dodecylbenzene Sulfonate in Senegalese Sole|Chemosphere74(9): 1216-1223|2009|10.1016/j.chemosphere.2008.11.032
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116895|A||Du,Y., X. Shi, C. Liu, K. Yu, and B. Zhou|Chronic Effects of Water-Borne PFOS Exposure on Growth, Survival and Hepatotoxicity in Zebrafish: A Partial Life-Cycle Test|Chemosphere74(5): 723-729|2009|10.1016/j.chemosphere.2008.09.075
116896|A||Duchet,C., M. Larroque, T. Caquet, E. Franquet, C. Lagneau, and L. Lagadic|Effects of Spinosad and Bacillus thuringiensis israelensis on a Natural Population of Daphnia pulex in Field Microcosms|Chemosphere74(1): 70-77|2008|10.1016/j.chemosphere.2008.09.024
116897|A||Paterson,G., and C.D. Metcalfe|Uptake and Depuration of the Anti-Depressant Fluoxetine by the Japanese Medaka (Oryzias latipes)|Chemosphere74(1): 125-130|2008|10.1016/j.chemosphere.2008.08.022
116898|A||Park,K., and I.S. Kwak|Characterization of Heat Shock Protein 40 and 90 in Chironomus riparius Larvae: Effects of Di(2-Ethylhexyl) Phthalate Exposure on Gene Expressions and Mouthpart Deformities|Chemosphere74(1): 89-95|2008|10.1016/j.chemosphere.2008.09.041
116899|A||Matson,C.W., A.R. Timme-Laragy, and R.T. Di Giulio|Fluoranthene, but not Benzo(a)pyrene, Interacts with Hypoxia Resulting in Pericardial Effusion and Lordosis in Developing Zebrafish|Chemosphere74(1): 149-154|2008|10.1016/j.chemosphere.2008.08.016
116900|A||Li,D., P. Xie, and X. Zhang|Changes in Plasma Thyroid Hormones and Cortisol Levels in Crucian Carp (Carassius auratus) Exposed to the Extracted Microcystins|Chemosphere74(1): 13-18|2008|10.1016/j.chemosphere.2008.09.065
116901|A||Perez-Coll,C.S., A.A. Sztrum, and J. Herkovits|Nickel Tissue Residue as a Biomarker of Sub-toxic Exposure and Susceptibility in Amphibian Embryos|Chemosphere74(1): 78-83|2008|10.1016/j.chemosphere.2008.09.023
116903|A||De Wit,M., D. Keil, N. Remmerie, K. Van der Ven, E.J. Van den Brandhof, D. Knapen, E. Witters, and W. De Coen|Molecular Targets of TBBPA in Zebrafish Analysed Through Integration of Genomic and Proteomic Approaches|Chemosphere74(1): 96-105|2008|10.1016/j.chemosphere.2008.09.030
116904|A||Qian,H., X. Xu, W. Chen, H. Jiang, Y. Jin, W. Liu, and Z. Fu|Allelochemical Stress Causes Oxidative Damage and Inhibition of Photosynthesis in Chlorella vulgaris|Chemosphere75(3): 368-375|2009|10.1016/j.chemosphere.2008.12.040
116905|A||Rhee,J.S., Y.M. Lee, S. Raisuddin, and J.S. Lee|Expression of R-ras Oncogenes in the Hermaphroditic Fish Kryptolebias marmoratus, Exposed to Endocrine Disrupting Chemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.149(3): 433-439|2009|10.1016/j.cbpc.2008.10.102
116906|A||Gopalakrishnan,S., H. Thilagam, W.B. Huang, and K.J. Wang|Immunomodulation in the Marine Gastropod Haliotis diversicolor Exposed to Benzo(a)pyrene|Chemosphere75(3): 389-397|2009|10.1016/j.chemosphere.2008.12.027
116907|A||Wang,L., B. Yan, N. Liu, Y. Li, and Q. Wang|Effects of Cadmium on Glutathione Synthesis in Hepatopancreas of Freshwater Crab, Sinopotamon yangsekiense|Chemosphere74(1): 51-56|2008|10.1016/j.chemosphere.2008.09.025
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116909|T||Chakrabarty,D., P.K. Trivedi, P. Misra, M. Tiwari, M. Shri, D. Shukla, S. Kumar, A. Rai, A. Pandey, D. Nigam, R.D. Trip|Comparative Transcriptome Analysis of Arsenate and Arsenite Stresses in Rice Seedlings|Chemosphere74(5): 688-702|2009|10.1016/j.chemosphere.2008.09.082
116910|A||Liu,W., Y.B. Zhang, X. Quan, Y.H. Jin, and S. Chen|Effect of Perfluorooctane Sulfonate on Toxicity and Cell Uptake of Other Compounds with Different Hydrophobicity in Green Alga|Chemosphere75(3): 405-409|2009|10.1016/j.chemosphere.2008.11.084
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116913|A||Meyer,J.S., D.A. Sanchez, J.A. Brookman, D.B. McWhorter, and H.L. Bergman|Chemistry and Aquatic Toxicity of Raw Oil Shale Leachates from Piceance Basin, Colorado|Environ. Toxicol. Chem.4:559-572|1985|10.1002/etc.5620040416
116914|T||O'Rear,L.A.|A Characterization of the Carrot Root Periderm Including the Effect of Herbicides and Long-Term Storage|Ph.D. Thesis, Michigan State University, East Lansing, MI:92 p.|1982|
116915|T||Palm,H.L.|Effects and Fate of Linuron and Chlorbromuron in Plants|Ph.D. Thesis, University of Missouri, Columbia, MO:104 p.|1971|
116916|T||Bielawski,D.M., and E.L. Abel|Acute Treatment of Paternal Alcohol Exposure Produces Malformations in Offspring|Alcohol14(4): 397-401|1997|10.1016/S0741-8329(97)87951-7
116918|T||Dow Chem.Co.|Initial Submission:  Acute Toxicological Properties and Industrial Handling Hazards of Cresol with Cover Letter Dated 050792|EPA/OTS Doc.#88-920002485:7 p.|1992|
116919|T||Stringer,A., and M.A. Wright|The Toxicity of Methiocarb and Its Breakdown Products to Earthworms|Long Ashton Res. Stn. Rep.:120-121|1980|
116920|T||Hazleton Laboratories|Mutagenicity Test on Meta-Cresol in the Mouse Bone Marrow Cytogenetic Assay (Final Report) with Attachments and Cover Letter Dated 020189|EPA/OTS Doc.#40-8960298:68 p.|1989|
116921|T||Ciba-Geigy Corp.|Initial Submission:  Report on Skin Sensitizing Effect of Ethoxylated Trimethylpropane Triacrylate, Carbitol Acrylate and Butene Homopolymer with Cover Letter Dated 08/07/92|EPA/OTS Doc.#88-920008243:14 p.|1992|
116922|A||Mostafa,B.B.|Effect of Certain Salts on Biomphalaria alexandrina Snails and Their Susceptibility to Schistosoma mansoni Infection|Egypt. J. Bilharz.19:75-88|1997|
116923|T||Burns,E.M., T.W. Kruckeberg, H. Stibler, E. Cerven, and S. Borg|The Effects of Ethanol Exposure During the Brain Growth Spurt in Rats|Teratology29(2): 251-258|1984|10.1002/tera.1420290211
116924|T||Abel,E.L., B.A. Dintcheff, and R. Bush|Effects of Beer, Wine, Whiskey, and Ethanol on Pregnant Rats and Their Offspring|Teratology23(2): 217-222|1981|10.1002/tera.1420230206
116925|T||Abel,E.L.|The Role of Dietary Fat in Alcohol's Prenatal Effects|Alcohol20(1): 83-86|2000|10.1016/S0741-8329(99)00059-2
116926|A||Assem,H., A. Khalifa, and H.K. Badawi|Brain ACHE of the Teleost Clarias lazera as Indicator of Water Contamination by Phenol or Methanol|Bull. Natl. Inst. Oceanogr. Fish.15(2): 119-128|1989|
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116928|T||Li,Y., G. Gupta, J.M. Joshi, and A.K. Siyumbano|Effect of Methanol on Soybean Photosynthesis and Chlorophyll|J. Plant Nutr.18(9): 1875-1880|1995|10.1080/01904169509365029
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116930|T||Adkins,S.W., and A.L. Adkins|Effect of Potassium Nitrate and Ethephon on Fate of Wild Oat (Avena fatua) Seed in Soil|Weed Sci.42(3): 353-357|1994|10.1017/S004317450007661X
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116933|T||Avery,M.L.|Food Avoidance by Adult House Finches, Carpodacus mexicanus, Affects Seed Preferences of Offspring|Anim. Behav.51(6): 1279-1283|1996|10.1006/anbe.1996.0132
116934|T||Leszczynski,W.|Differences in the Properties of Potato Starch as an Effect of the Application of Herbicides in Potato Cultivation|Food Chem.22(1): 41-49|1986|10.1016/0308-8146(86)90007-5
116935|T||Duncan,R.R.|Methiocarb as a Bird Repellent on Ripening Grain Sorghum|Can. J. Plant Sci.60(4): 1129-1133|1980|10.4141/cjps80-164
116936|T||Kuroki,K., and T. Ohsumi|Locally Injurious Properties of the Three Isomeric Cresols|Kyushu Shika Gakkai Zasshi (J. Kyushu Dental Soc.)42(6): 1037-1042|1988|
116937|T||Yusufu,S.D.|Behaviour of Starlings (Sturnus vulgaris) Eating Food Treated with the Insecticide Methiocarb|Discov. Innov.8(1): 69-72|1996|
116938|T||Meyer,L.S., L.E. Kotch, and E.P. Riley|Neonatal Ethanol Exposure:  Functional Alterations Associated with Cerebellar Growth Retardation|Neurotoxicol. Teratol.12(1): 15-22|1990|10.1016/0892-0362(90)90107-N
116941|T||Nenova,V., M. Merakchiyska, G. Ganeva, E. Zozikova, and S. Landjeva|Physiological Responses of Wheat (Triticum aestivum L.) - Aegilops sharonensis Introgression Lines to Excess Copper|J. Agron. Crop Sci.195(3): 197-203|2009|10.1111/j.1439-037X.2008.00355.x
116942|T||El-Tayeb,M.A., A.E. El-Enany, and N.L. Ahmed|Salicylic Acid Alleviates the Copper Toxicity in Sunflower Seedlings|Int. J. Bot.2(4): 380-387|2006|10.3923/ijb.2006.380.387
116943|T||Wang,F.Y., X.G. Lin, and R. Yin|Inoculation with Arbuscular Mycorrhizal Fungus Acaulospora mellea Decreases Cu Phytoextraction by Maize from Cu-Contaminated Soil|Pedobiologia (Multiple Languages)51(2): 99-109|2007|10.1016/j.pedobi.2007.02.003
116944|A||W.R.Grace|Initial Submission:  Report Letter Regarding Acute Toxicity of Sodium Sulfate (Final Report) Dated 032092|EPA/OTS Doc.#88-920001390:3 p.|1992|
116946|T||Edmiston,F.L.|Beef Cattle Replacement Heifers and Their Reactions to Selenium Boluses and Copper Injections in Washington County, Idaho|M.S.Thesis, University of Idaho, Moscow, ID:82 p.|1988|
116947|T||Reichman,S.M., N.W. Menzies, C.J. Asher, and D.R. Mulligan|Responses of Four Australian Tree Species to Toxic Concentrations of Copper in Solution Culture|J. Plant Nutr.29(6): 1127-1141|2006|10.1080/01904160600689274
116948|T||Huang,B., and A.K. Alva|Copper Amendments and Soil pH Affect Distribution of Different Chemical Forms of Metals and Their Uptake by Swingle citrumelo Seedlings|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes34(6): 1065-1082|1999|
116949|T||Snieg,B., and J. Nowak|Urease Activity and ATP Content in Soil and Plant Related to Copper Concentration|Pol. J. Ecol.53(1): 105-111|2005|
116950|A||Richards,R.G., and M. Chaloupka|Temperature-Dependent Bioaccumulation of Copper in an Estuarine Oyster|Sci. Total Environ.407:5901-5906|2009|10.1016/j.scitotenv.2009.07.039
116951|T||Kalinowska,R., and B. Pawlik-Skowronska|Metal Resistance of Soil Algae (Chlorophyta) Occurring in Post-Flotation Zn/Pb- and Cu-Tailing Ponds|Pol. J. Ecol.56(3): 415-430|2008|
116953|T||Burke,J.M., J.E. Miller, and D.K. Brauer|The Effectiveness of Copper Oxide Wire Particles as an Anthelmintic in Pregnant Ewes and Safety to Offspring|Vet. Parasitol.131(3/4): 291-297|2005|10.1016/j.vetpar.2005.05.009
116954|T||Farrer,P., and S.P. Mistilis|Absorption of Exogenous and Endogenous Biliary Copper in the Rat|Nature213:291-292|1967|10.1038/213291b0
116955|T||Uzunova,A.|Effect of Copper Ions upon Photosynthetic Activity of Pinus halepensis Mill Seedlings|Annu. Univ. Sofia Biol.88(4): 7-10|1995|
116956|T||Ultra,J., A. Yano, K. Iwasaki, S. Tanaka, Y. Kang, K. Sakurai, and V.U.,Jr. Ultra|Influence of Chelating Agent Addition on Copper Distribution and Microbial Activity in Soil and Copper Uptake by Brown Mustard (Brassica juncea)|Soil Sci. Plant Nutr.51(2): 193-202|2005|10.1111/j.1747-0765.2005.tb00023.x
116957|A||Oronsaye,J.A.O., and E.O. Ogunbor|Toxicity of Copper to Oreochromis niloticus Fingerlings in Ikpoba River Water|Indian J. Anim. Sci.68(9): 1001-1003|1998|
116958|A||Rocchetta,I., and H. Kupper|Chromium- and Copper-Induced Inhibition of Photosynthesis in Euglena gracilis Analysed on the Single-Cell Level by Fluorescence Kinetic Microscopy|New Phytol.182(2): 405-420|2009|10.1111/j.1469-8137.2009.02768.x
116959|T||Teklic,T., M. Engler, V. Cesar, H. Lepedus, N. Paradikovic, Z. Loncaric, I. Stolfa, T. Marotti, N. Mikac, and N. Zarkov|Influence of Excess Copper on Lettuce (Lactuca sativa L.) Grown in Soil and Nutrient Solution|J. Food Agric. Environ.6(3/4): 439-444|2008|
116960|A||Pyle,G., and C. Wood|Radiotracer Studies on Waterborne Copper Uptake, Distribution, and Toxicity in Rainbow Trout and Yellow Perch:  A Comparative Analysis|Hum. Ecol. Risk Assess.14:243-265|2008|10.1080/10807030801934994
116961|T||Posmyk,M.M., R. Kontek, and K.M. Janas|Red Cabbage Extract Limits Copper Stress Injury in Meristematic Cells of Vicia faba|Acta Physiol. Plant.30(4): 481-491|2008|10.1007/s11738-008-0145-7
116962|T||Maneva,S., N. Bogatzevska, and E. Miteva|Excess Copper in Soil as a Factor Affecting Bacterial Spots Caused by Xanthomonas vesicatoria in Tomato Plants; Bio-Interaction Between Two Stress Factors and Their Influence on Plants|Acta Physiol. Plant.31(1): 125-131|2009|10.1007/s11738-008-0210-2
116963|T||Backor,M., J. Hudak, and M. Backorova|Comparison Between Growth Responses of Autotrophic and Heterotrophic Populations of Lichen Photobiont Trebouxia irregularis (Chlorophyta) on Cu, Hg and Cd Chlorides Treatment|Phyton (Horn) (Multiple Languages)38(2): 239-250|1998|
116964|T||Keinanen,S.I., V.H. Hassinen, S.O. Karenlampi, and A.I. Tervahauta|Isolation of Genes Up-Regulated by Copper in a Copper-Tolerant Birch (Betula pendula) Clone|Tree Physiol.27(9): 1243-1252|2007|10.1093/treephys/27.9.1243
116966|T||Li,Y., Y. Song, G. Shi, J. Wang, and X. Hou|Response of Antioxidant Activity to Excess Copper in Two Cultivars of Brassica campestris ssp. chinensis Makino|Acta Physiol. Plant.31(1): 155-162|2009|10.1007/s11738-008-0216-9
116967|A||Van Aardt,W.J., and M. Hough|The Effect of Short-Term Cu Exposure on the Oxygen Consumption and Cu Accumulation of Mudfish (Labeo capensis) and the Largemouth Bass (Micropteris salmoides) in Hard Water|Water SA33(5): 701-708|2007|
116968|T||Li,J., S.M. Leisner, and J. Frantz|Alleviation of Copper Toxicity in Arabidopsis thaliana by Silicon Addition to Hydroponic Solutions|J. Am. Soc. Hortic. Sci.133(5): 670-677|2008|10.21273/JASHS.133.5.670
116969|T||Cadwallader,T.K.|The Effect of Copper and/or Molybdenum on Selenium Availability in Sheep, Supplementation of Selenium via Salt-Mineral Mixtures and the Effect of Various Components of Mineral Mixes on Their Intake|M.S.Thesis, University of Wisconsin, Madison, WI:100 p.|1980|
116970|A||Kamunde,C., M. Grosell, D. Higgs, and C.M. Wood|Copper Metabolism in Actively Growing Rainbow Trout (Oncorhynchus mykiss):  Interactions Between Dietary and Waterborne Copper Uptake|J. Exp. Biol.205:279-290|2002|10.1242/jeb.205.2.279
116971|T||Sharma,P., and R. Bhardwaj|Effects of 24-Epibrassinolide on Growth and Metal Uptake in Brassica juncea L. Under Copper Metal Stress|Acta Physiol. Plant.29(3): 259-263|2007|10.1007/s11738-007-0032-7
116972|T||Shah,V., and I. Belozerova|Influence of Metal Nanoparticles on the Soil Microbial Community and Germination of Lettuce Seeds|Water Air Soil Pollut.197(1-4): 143-148|2009|10.1007/s11270-008-9797-6
116973|A||Koukouzika,N., and V.K. Dimitriadis|Aspects of the Usefulness of Five Marine Pollution Biomarkers, with Emphasis on MN and Lipid Content|Mar. Pollut. Bull.56(5): 941-949|2008|10.1016/j.marpolbul.2008.01.043
116974|A||Zeng,Z.L., N.W. Menzies, and G. Kerven|Employing Chlorella protothecoides for Metal Bioavailability Studies Under Acidic Conditions|J. Plankton Res.31(3): 325-336|2009|10.1093/plankt/fbn117
116975|T||Romeu-Moreno,A., and A. Mas|Effects of Copper Exposure in Tissue Cultured Vitis vinifera|J. Agric. Food Chem.47(7): 2519-2522|1999|10.1021/jf9809838
116976|A||Untersee,S., and J.A. Pechenik|Local Adaptation and Maternal Effects in Two Species of Marine Gastropod (Genus Crepidula) that Differ in Dispersal Potential|Mar. Ecol. Prog. Ser.347:79-85|2007|10.3354/meps07063
116977|A||Bu-Olayan,A.H., and B.V. Thomas|Trace Metals Toxicity and Bioaccumulation in Mudskipper Periophthalmus waltoni Koumans 1941 (Gobiidae:  Perciformes)|Turk. J. Fish. Aquat. Sci.8(2): 215-218|2008|
116978|T||Sereno,M.L., R.S. Almeida, D.S. Nishimura, and A. Figueira|Response of Sugarcane to Increasing Concentrations of Copper and Cadmium and Expression of Metallothionein Genes|J. Plant Physiol.164(11): 1499-1515|2007|10.1016/j.jplph.2006.09.007
116979|T||Harper,F.A., S.E. Smith, and M.R. Macnair|Can an Increased Copper Requirement in Copper-Tolerant Mimulus guttatus Explain the Cost of Tolerance? II. Reproductive Phase|New Phytol.140(4): 637-654|1998|10.1046/j.1469-8137.1998.00312.x
116980|T||Schiavon,M., L. Zhang, S.E. Abdel-Ghany, M. Pilon, M. Malagoli, and E.A.H. Pilon-Smits|Variation in Copper Tolerance in Arabidopsis thaliana Accessions Columbia, Landsberg erecta and Wassilewskija|Physiol. Plant. (Multiple Languages)129(2): 342-350|2007|10.1111/j.1399-3054.2006.00809.x
116981|T||Gummow,B.|Experimentally Induced Chronic Copper Toxicity in Cattle|Onderstepoort J. Vet. Res.63(4): 277-288|1996|
116982|A||Ritter,A., S. Goulitquer, J.P. Salaun, T. Tonon, J.A. Correa, and P. Potin|Copper Stress Induces Biosynthesis of Octadecanoid and Eicosanoid Oxygenated Derivatives in the Brown Algal Kelp Laminaria digitata|New Phytol.180(4): 809-821|2008|10.1111/j.1469-8137.2008.02626.x
116983|A||Straus,D.L.|Comparison of Copper Sulfate Concentrations to Control Ichthyophthiriasis in Fingerling Channel Catfish|J. Appl. Aquacult.20(4): 272-284|2008|10.1080/10454430802498245
116984|T||Backor,M., P. Vaczi, M. Bartak, J. Budova, and A. Dzubaj|Uptake, Photosynthetic Characteristics and Membrane Lipid Peroxidation Levels in the Lichen Photobiont Trebouxia erici Exposed to Copper and Cadmium|Bryologist110(1): 100-107|2007|10.1639/0007-2745(2007)110[100:UPCAML]2.0.CO;2
116985|T||Haywood,S., M. Loughran, and R.M. Batt|Copper Toxicosis and Tolerance in the Rat:  III.  Intracellular Localization of Copper in the Liver and Kidney|Exp. Mol. Pathol.43:209-219|1985|10.1016/0014-4800(85)90041-3
116986|T||Koh,E.T., S. Reiser, M. Fields, and D.J. Scholfield|Copper Status in the Rat is Affected by Modes of Copper Delivery|J. Nutr.119:453-457|1989|10.1093/jn/119.3.453
116987|T||Kumaratilake,J.S., and J.M. Howell|Intracellular Distribution of Copper in the Liver of Copper-Loaded Sheep -- A Subcellular Fractionation Study|J. Comp. Pathol.101(2): 161-176|1989|10.1016/0021-9975(89)90064-9
116988|A||Parvez,S., I. Sayeed, S. Pandey, A. Ahmad, B. Bin-Hafeez, R. Haque, I. Ahmad, and S. Raisuddin|Modulatory Effect of Copper on nzymatic Antioxidants in Freshwater Fish Channa punctatus (Bloch.)|Biol. Trace Elem. Res.93(1-3): 237-245|2003|10.1385/BTER:93:1-3:237
116989|T||Dueck,T.A.|The Combined Influence of Sulphur Dioxide and Copper on Two Populations of Trifolium repens and Lolium perenne|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam8:102-114|1986|
116990|T||Prakash,V., Alka, and K. Lawrence|Antioxidative Response to Copper-Induced Stress in Cicer arietinum L.|Indian J. Agric. Biochem.20(1): 23-26|2007|
116991|T||Montesinos,E., and P. Vilardell|Effect of Bactericides, Phosphonates and Nutrient Amendments on Blast of Dormant Flower Buds of Pear:  A Field Evaluation for Disease Control|Eur. J. Plant Pathol.107(8): 787-794|2001|10.1023/A:1012422116116
116992|T||Hill,W.J., J.R. Heckman, B.B. Clarke, and J.A. Murphy|Take-All Patch Suppression in Creeping Bentgrass with Manganese and Copper|Hortscience34(5): 891-892|1999|10.21273/HORTSCI.34.5.891
116993|T||Shakya,K., M.K. Chettri, and T. Sawidis|Experimental Investigations of Five Different Mosses on Accumulation Capacities of Cu, Pb and Zn|Toxicol. Environ. Chem.90(3/4): 585-601|2008|10.1080/02772240701609780
116994|T||Patnaik,A., and B.K. Senapati|Impact of Copper Fungicide on the Survivility, Growth and Regeneration of an Anecic Earthworm|Ecol. Environ. Conserv.2(3-4): 109-113|1996|
116995|T||Zhang,W.R., P.K. Ku, G. Shurson, and E.R. Miller|Effects of High Copper Feeding on Plasma Trace Element Concentrations and Enzyme Activities|Res. Rep. Mich. Agric. Exp. Stn.469:77-80|1985|
116997|T||Woo,N.D., and T.V.N. Persaud|Rat Embryogenesis Following Exposure to Alcohol and Nicotine|Acta Anat.131(2): 122-126|1988|10.1159/000146498
116998|T||Daft,P.A., M.C. Johnston, and K.K. Sulik|Abnormal Heart and Great Vessel Development Following Acute Ethanol Exposure in Mice|Teratology33(1): 93-104|1986|10.1002/tera.1420330112
116999|A||Lemoine,S., D. Sellos, Y. Bigot, R.P. Cosson, and M. Laulier|Metallothionein Isoforms in Mytilus edulis (Mollusca, Bivalvia):  Complementary DNA Chraracterization and Quantification of Expression in Different Organs After Exposure to Cadmium, Zinc, and Copper|Mar. Biotechnol.2:195-203|2000|10.1007/s101269900026
117000|T||Osman,R.O., F.A. Ahmed, F.A. Khalil, and M.S. Ali|Effect of Some Herbicides as Plant Growth Regulators on the Chemical Composition of Zea maize Grains|Food Chem.28(3): 167-176|1988|10.1016/0308-8146(88)90048-9
117001|T||Padmashali,B., V.P. Vaidya, and M.L.V. Kumar|Synthesis and Pharmacological Evaluation of Some Naphtho (2,1-b) Furo (3,2-d) Pyrimidines|Indian J. Heterocycl. Chem.12(2): 89-94|2002|
117002|T||Fayed,M.T., O.H. El-Bagoury, and H.T. Al-Marsafy|The Effectiveness of Numerous Herbicides in Soybean|Egypt. J. Agron.6(2): 169-179|1981|
117003|T||Tarrant,K.A., I.P. Johnson, J.R. Flowerdew, and P.W. Greig-Smith|Effects of Pesticide Applications on Small Mammals in Arable Fields, and the Recovery of Their Populations|Br. Crop Prot. Conf. Pests Dis.:173-182|1990|
117004|T||Sandhu,K.S., A.K. Joshi, and D. Singh|Weed Flora in Carrot (Daucus carota L.) as Affected by Different Herbicides|J. Res. Punjab Agric. Univ.28(1): 32-36|1991|
117005|T||McGrath,D., and R.J. McCormack|Herbicide Activities in Irish Soils|Ir. J. Agric. Res.18(1): 89-96|1979|
117006|T||Beattie,G.A., and J.R. Seibel|Uptake and Localization of Gaseous Phenol and p-Cresol in Plant Leaves|Chemosphere68(3): 528-536|2007|10.1016/j.chemosphere.2006.12.070
117007|T||Prekeyi,T.F., and O. Oghenekevwe|Effects of Dietary Supplementation of Node Weed (Synedrella nodiflora) on Toxicity of Copper and Lead in Guinea Pigs (Cavia porcellus)|Toxicol. Environ. Chem.89(1-4): 215-222|2007|10.1080/02772240601019999
117008|T||Mellick,G.D., and M.S. Roberts|Structure-Hepatic Disposition Relationships for Phenolic Compounds|Toxicol. Appl. Pharmacol.158(1): 50-60|1999|10.1006/taap.1999.8682
117009|T||Kwadrans,A., J. Litwa, S. Woloszczakiewicz, E. Ksiezarczyk, M. Klimek, M. Duchnowski, J. Kruk, and B. Plytycz|Changes in Coelomocytes of the Earthworm, Dendrobaena veneta, Exposed to Cadmium, Copper, Lead or Nickel-Contaminated Soil (Short Communication)|Acta Biol. Crac., Ser. Zool.49:57-62|2008|
117010|A||Runcie,J.W., and M.J. Riddle|Assessing the Toxic Effects of Dissolved Copper on the Antarctic Macroalga Desmarestia menziesii Using Chlorophyll Fluorescence Imaging in Ecotoxicological Tests|Toxicol. Environ. Chem.89(1-4): 641-653|2007|10.1080/02772240701561627
117011|T||Lokke,H.|Residues in Carrots Treated with Linuron|Pestic. Sci.5:749-757|1974|10.1002/ps.2780050610
117012|T||Walker,A.|Availability of Linuron to Plants in Different Soils|Pestic. Sci.4(5): 665-675|1973|10.1002/ps.2780040507
117013|A||Oyewo,E.O., and K.N. Don-Pedro|Acute Toxicity and Bio-Accumulation of Mercury and Copper in Clibanarius africanus (Aurivillius) and Tympanotonus fuscatus (Linne)|J. Aquat. Sci.18(2): 75-84|2003|
117014|A||Krishnamoorthy,P., and P. Subramanian|Effect of Sublethal Doses of Copper on the Hepatopancreas of the Fresh Water Prawn, Macrobrachium lamarrei lamarrei|Geobios (Jodhpur)23(1): 16-18|1996|
117015|T||Nautiyal,N., C.P. Sharma, and C. Chatterjee|Role of Copper in Improving the Seed Quality of Sunflower (Helianthus annuus)|Indian J. Agric. Sci.69(3): 210-213|1999|
117016|A||Prasad,B.B., and M.K. Roy|Effects of Copper Sulphate and Potassium Dichromate on Oxygen Consumption of the Air Breating Fish, Channa gachua|J. Ecotoxicol. Environ. Monit.16(1): 71-76|2003|
117017|A||Hanafy,S., and M.E. Soltan|Comparative Changes in Absorption, Distribution and Toxicity of Copper and Cadmium Chloride in Toads During the Hibernation and the Role of Vitamin C Against Their Toxicity|Toxicol. Environ. Chem.89(1-4): 89-110|2007|10.1080/02772240600949873
117018|T||Ma,J.F., and K. Nomoto|Inhibition of Mugineic Acid-Ferric Complex Uptake in Barley by Copper, Zinc and Cobalt|Physiol. Plant. (Multiple Languages)89(2): 331-334|1993|10.1111/j.1399-3054.1993.tb00162.x
117019|A||Fathi,A.A., A.M. El-Shahed, M.A. Shoulkamy, H.A. Ibraheim, and O.M. Abdel Rahman|Response of Nile Water Phytoplankton to the Toxicity of Cobalt, Copper and Zinc|Res. J. Environ. Toxicol.2(2): 67-76|2008|10.3923/rjet.2008.67.76
117020|T||Xu,Y., F.L. Xiao, N. Xu, and S.Z. Qian|Effect of Intra-Epididymal Injection of Copper Particles on Fertility, Spermatogenesis, and Tissue Copper Levels in Rats|Int. J. Androl.8:168-174|1985|10.1111/j.1365-2605.1985.tb00830.x
117021|T||Schroeder,H.A., and A.P. Nason|Interactions of Trace Metals in Rat Tissues.  Cadmium and Nickel with Zinc, Chromium, Copper, Manganese|J. Nutr.104:167-178|1974|10.1093/jn/104.2.167
117022|T||Owen,C.A.,Jr.|Metabolism of Radiocopper (Cu64) in the Rat|Am. J. Physiol.209(5): 900-904|1965|10.1152/ajplegacy.1965.209.5.900
117023|T||Moustakas,M., G. Ouzounidou, and R.J. Strasser|Site of Action of Copper in the Photosynthetic Apparatus of Maize Leaves|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:657-660|1995|
117024|T||Luna,C.M., L.M. Casano, and V.S. Trippi|Nitrate Reductase is Inhibited in Leaves of Triticum aestivum Treated with High Levels of Copper|Physiol. Plant. (Multiple Languages)101(1): 103-108|1997|10.1111/j.1399-3054.1997.tb01825.x
117025|T||Inoue,H., K. Saeki, and J. Chikushi|Effect of EDTA on Phytoremediation of Copper-Polluted Soils|J. Fac. Agric. Kyushu Univ.47(2): 243-250|2003|10.5109/4492
117026|A||Hashemi,F., G.G. Leppard, and D.J. Kushner|Copper Resistance in Anabaena variabilis:  Effects of Phosphate Nutrition and Polyphosphate Bodies|Microb. Ecol.27:159-176|1994|10.1007/BF00165815
117027|T||Millikan,C.R.|Effect of Molybdenum on the Severity of Toxicity Symptoms in Flax Induced by an Excess of Either Manganese, Zinc, Copper, Nickel or Cobalt in the Nutrient Solution|J. Aust. Inst. Agric. Sci.5:180-186|1947|
117028|T||Kumaratilake,J.S., and J.M. Howell|Intravenously Administered Tetra-Thiomolybdate and the Removal of Copper from the Liver of Copper-Loaded Sheep|J. Comp. Pathol.101(2): 177-199|1989|10.1016/0021-9975(89)90065-0
117030|T||Chattopadhyay,A., M. Sarkar, and N.M. Biswas|Dose-Dependent Effect of Copper Chloride on Male Reproductive Function in Immature Rats|Kathmandu Univ. Med. J.3(4): 392-400|2005|
117031|T||Bull,L.B.|The Occurrence of Chronic Copper Poisoning in Grazing Sheep in Australia|In: Br. Commonwealth Sci. Official Conf., Spec. Conf. in Agriculture, Aust. Proc. 1949, London:300-310|1951|
117032|T||Burke,J.M., D. Morrical, and J.E. Miller|Control of Gastrointestinal Nematodes with Copper Oxide Wire Particles in a Flock of Lactating Polypay Ewes and Offspring in Iowa, USA|Vet. Parasitol.146(3/4): 372-375|2007|10.1016/j.vetpar.2007.03.013
117033|A||Florence,T.M., H.K.J. Powell, J.L. Stauber, and R.M. Town|Toxicity of Lipid-Soluble Copper(II) Complexes to the Marine Diatom Nitzschia closterium:  Amelioration by Humic Substances|Water Res.26(9): 1187-1193|1992|10.1016/0043-1354(92)90179-8
117034|T||Thomson,G.G., and B.M. Lawson|Copper and Selenium Interaction in Sheep|N. Z. Vet. J.18(5): 79-82|1970|10.1080/00480169.1970.33866
117035|T||Desi,I.|Neurotoxicological Investigation of Pesticides in Animal Experiments|Neurobehav. Toxicol. Teratol.5:503-515|1983|
117036|T||Rautio,P., E. Kukkola, and S. Huttunen|Growth Alterations in Scots Pine Seedlings Grown in Metal-Polluted Forest Soil:  Implications for Restorative Forest Management|J. Appl. Bot. Food Qual.79(1): 52-58|2005|
117037|T||Avery,M.L., M.A. Pavelka, D.L. Bergman, D.G. Decker, C.E. Knittle, and G.M. Linz|Aversive Conditioning to Reduce Raven Predation on California Least Tern Eggs|Colon. Waterbirds18(2): 131-138|1995|10.2307/1521474
117038|T||Linley,J.R.|Laboratory Tests of the Effects of p-Cresol and 4-Methylcyclohexanol on Oviposition by Three Species of Toxorhynchites Mosquitoes|Med. Vet. Entomol.3(4): 347-352|1989|10.1111/j.1365-2915.1989.tb00241.x
117039|T||Pan,R.C., and X.D. Xu|Effect of Fosamine-Ammonium on the Growth, Development and Yield of Peanut (Arachis hypogaea L.) Plant|11th Workshop Chem.Biochem.Herbicides:32-41|1984|
117040|T||Warwick,M.A.|Effect of Pelleted Methiocarb on Wheat Seed Germination|Tests Agrochem. Cultiv.0(7): 136-137|1986|
117041|T||Jones,E.J., S.P. Nichols, G.D. Wills, and B.W. Alford|Effect of the Adjuvants Prep, Dropp SC, MFX 0543, MFX 0307, Finish 6 Pro, and Cotton Quick Applied with Def 6 Cotton Defoliant|Proc. Beltwide Cotton Conf.:1735-1737|2006|
117042|T||Ryu,J.C., K.R. Kim, H.J. Kim, E.K. Ryu, S.Y. Lee, S.O. Jung, J.Y. Youn, M.H. Kim, and O.S. Kwon|Evaluation of the Genetic Toxicity of Synthetic Chemicals (II), a Pyrethroid Insecticide, Fenpropathrin|Arch. Pharm. Res. (Seoul)19(4): 251-257|1996|10.1007/BF02976235
117047|T||Rhone-Poulenc|Initial Submission:  Letter Summarizing Effect of LS 74-783 on Reproductive Function of Multiple Generations in the Rat Dated 080792|TSCATS-429084:3 p.|1992|
117048|A||Kaushik,B.D., and A. Kumar|Instakill-a New Algicide Formulated to Control the Algae Growing on Monuments|Indian J. Exp. Biol.33(1): 25-27|1995|
117049|A||B.C.Research|Toxicity Studies with the Brush-Control Herbicide Krenite and Salmonid Fish|Final Rep., Prepared for B.C.Ministry of Forests, Project No.1-01-305:80 p.|1980|
117050|T||Singh,S., and P.K. Aggarwal|Effect of Heavy Metals on Biomass and Yield of Different Crop Species|Indian J. Agric. Sci.76(11): 688-691|2006|
117051|T||Janas,K.M., R. Amarowicz, J. Zielinska-Tomaszewska, A. Kosinska, and M.M. Posmyk|Induction of Phenolic Compounds in Two Dark-Grown Lentil Cultivars with Different Tolerance to Copper Ions|Acta Physiol. Plant.31(3): 587-595|2009|10.1007/s11738-008-0268-x
117052|A||Douglas-Helders,M., B. Nowak, and R. Butler|The Effect of Environmental Factors on the Distribution of Neoparamoeba pemaquidensis in Tasmania|J. Fish Dis.28(10): 583-592|2005|10.1111/j.1365-2761.2005.00647.x
117053|T||Toselli,M., E. Baldi, G. Marcolini, D. Malaguti, M. Quartieri, G. Sorrenti, and B. Marangoni|Response of Potted Pear Trees to Increasing Copper Concentration in Sandy and Clay-Loam Soils|J. Plant Nutr.31(12): 2089-2104|2008|10.1080/01904160802459609
117054|T||Frances,S.P.|Evaluation of Bifenthrin and Permethrin as Barrier Treatments for Military Tents Against Mosquitoes in Queensland, Australia|Am. Mosq. Control Assoc. J.23(2): 208-212|2007|10.2987/8756-971X(2007)23[208:EOBAPA]2.0.CO;2
117055|T||Green,D.B., S.J. Corbett, A.W. Jackson, and K.J. Nowak|Surface Versus Admixed Applications of Slug Pellets to Winter Wheat|Br. Crop Prot. Conf. Pests Dis.:587-592|1992|
117056|T||Gustavson,C.R., G.A. Holzer, J.C. Gustavson, and D.L. Vakoch|An Evaluation of Phenol Methylcarbamates as Taste Aversion Producing Agents in Caged Blackbirds|Appl. Anim. Ethol.8(6): 551-559|1982|10.1016/0304-3762(82)90219-X
117057|T||Klingen,I., and K. Westrum|The Effect of Pesticides Used in Strawberries on the Phytophagous Mite Tetranychus urticae (Acari: Tetranychidae) and Its Fungal Natural Enemy Neozygites floridana (Zygomycetes: Entomophthorales)|Biol. Control43(2): 222-230|2007|10.1016/j.biocontrol.2007.07.013
117060|T||Pope,V.A., and P.N. McConville|Efficacy of Post-Emergence Herbicides for Weed Control in Chemical Fallows in Southern Queensland|Aust. J. Exp. Agric.30(1): 79-82|1990|10.1071/EA9900079
117061|T||Kimura,K.A., A.M. Parr, and J.F. Brien|Effect of Chronic Maternal Ethanol Administration on Nitric Oxide Synthase Activity in the Hippocampus of the Mature Fetal Guinea Pig|Alcohol. Clin. Exp. Res.20(5): 948-953|1996|10.1111/j.1530-0277.1996.tb05276.x
117062|A||Contreras,L., D. Mella, A. Moenne, and J.A. Correa|Differential Responses to Copper-Induced Oxidative Stress in the Marine Macroalgae Lessonia nigrescens and Scytosiphon lomentaria (Phaeophyceae)|Aquat. Toxicol.94:94-102|2009|10.1016/j.aquatox.2009.06.004
117063|A||Abdel-Tawwab,M., M.A.A. Mousa, and F.E. Abbass|Growth Performance and Physiological Response of African Catfish, Clarias gariepinus (B.) Fed Organic Selenium Prior to the Exposure to Environmental Copper Toxicity|Aquaculture272(1-4): 335-345|2007|10.1016/j.aquaculture.2007.09.004
117064|A||Sutton,D.L., R.D. Blackburn, and K.K. Steward|Influence of Herbicides on the Uptake of Copper in Hydrilla|Weed Res. (Multiple Languages)11:99-105|1971|10.1111/j.1365-3180.1971.tb00984.x
117065|A||Kuzminova,N.S.|Assessment of Toxic Effects of Cuproxat Fungicide on Platymonas viridis Rouch. (Chlorophyta)|Int. J. Algae6(1): 82-93|2004|10.1615/InterJAlgae.v6.i1.90
117066|A||Twiss,M.R., P.M. Welbourn, and E. Schwartzel|Laboratory Selection for Copper Tolerance in Scenedesmus acutus (Chlorophyceae)|Can. J. Bot.71:333-338|1993|10.1139/b93-035
117067|A||Atli,G., and M. Canli|Responses of Metallothionein and Reduced Glutathione in a Freshwater Fish Oreochromis niloticus Following Metal Exposures|Environ. Toxicol. Pharmacol.25(1): 33-38|2008|10.1016/j.etap.2007.08.007
117068|A||Carriquiriborde,P., and A.E. Ronco|Distinctive Accumulation Patterns of Cd(II), Cu(II), and Cr(VI) in Tissue of the South American Teleost, Pejerrey (Odontesthes bonariensis)|Aquat. Toxicol.86(2): 313-322|2008|10.1016/j.aquatox.2007.11.011
117069|A||Jing,G., Y. Li, L. Xie, and R. Zhang|Different Effects of Pb2+ and Cu2+ on Immune and Antioxidant Enzyme Activities in the Mantle of Pinctada fucata|Environ. Toxicol. Pharmacol.24(2): 122-128|2007|10.1016/j.etap.2007.04.002
117070|A||Pook,C., C. Lewis, and T. Galloway|The Metabolic and Fitness Costs Associated with Metal Resistance in Nereis diversicolor|Mar. Pollut. Bull.58(7): 1063-1071|2009|10.1016/j.marpolbul.2009.02.003
117071|A||Rabago-Castro,J.L., J.G. Sanchez, R. Perez-Castaneda, and A. Gonzalez-Gonzalez|Effects of the Prophylactic Use of Romet-30 and Copper Sulfate on Growth, Condition and Feeding Indices in Channel Catfish (Ictalurus punctatus)|Aquaculture253(1-4): 343-349|2006|10.1016/j.aquaculture.2005.06.017
117072|T||Schafer,S., F.G. Pajonk, G. Multhaup, and T.A. Bayer|Copper and Clioquinol Treatment in Young APP Transgenic and Wild-Type Mice: Effects on Life Expectancy, Body Weight, and Metal-Ion Levels|J. Mol. Med. (Berl.)85(4): 405-413|2007|10.1007/s00109-006-0140-7
117073|A||Medina,M.H., B. Morandi, and J.A. Correa|Copper Effects in the Copepod Tigriopus angulatus Lang, 1933:  Natural Broad Tolerance Allows Maintenance of Food Webs in Copper-Enriched Coastal Areas|Mar. Freshw. Res.59(12): 1061-1066|2008|10.1071/MF08122
117074|T||Harper,F.A., S.E. Smith, and M.R. MacNair|Can an Increased Copper Requirement in Copper-Tolerant Mimulus guttatus Explain the Cost of Tolerance?  I.  Vegetative Growth|New Phytol.136(3): 455-467|1997|10.1046/j.1469-8137.1997.00761.x
117075|A||Lorentzen,M., A. Maage, and K. Julshamn|Supplementing Copper to a Fish Meal Based Diet Fed to Atlantic Salmon Parr Affects Liver Copper and Selenium Concentrations|Aquac. Nutr.4(1): 67-72|1998|10.1046/j.1365-2095.1998.00046.x
117076|T||Greene,F.L., L.S. Lamb, M. Barwick, and N.J. Pappas|Effect of Dietary Copper on Colonic Tumor Production and Aortic Integrity in the Rat|J. Surg. Res.42(192): 503-512|1987|10.1016/0022-4804(87)90025-4
117077|T||Hussein,K.S.M., A. Frank, and B.E.V. Jones|Influence of Intramuscular Selenium Injections on Copper Metabolism in Copper-Loaded Sheep|Zentbl. Vetmed. Reihe A32(10): 729-738|1985|10.1111/j.1439-0442.1985.tb01994.x
117078|A||Cheng,W., and C.H. Wang|The Susceptibility of the Giant Freshwater Prawn Macrobrachium rosenbergii to Lactococcus garvieae and Its Resistance Under Copper Sulfate Stress|Dis. Aquat. Org.47(2): 137-144|2001|10.3354/dao047137
117079|T||Wani,P.A., M.S. Khan, and A. Zaidi|Impact of Heavy Metal Toxicity on Plant Growth, Symbiosis, Seed Yield and Nitrogen and Metal Uptake in Chickpea|Aust. J. Exp. Agric.47(6): 712-720|2007|10.1071/EA05369
117080|A||Wu,G.S., and C.H. Huang|Estimation of Dietary Copper Requirement of Juvenile Soft-Shelled Turtles, Pelodiscus sinensis|Aquaculture280(1-4): 206-210|2008|10.1016/j.aquaculture.2008.05.013
117081|T||Wang,S., L. Wu, Y. Wang, X. Luo, and Y. Lu|Copper-Induced Germline Apoptosis in Caenorhabditis elegans: The Independent Roles of DNA Damage Response Signaling and the Dependent Roles of MAPK Cascades|Chem.-Biol. Interact.180(2): 151-157|2009|10.1016/j.cbi.2009.03.012
117082|T||Wang,Y.P., Q.B. Li, J.Y. Shi, Q. Lin, X.C. Chen, W. Wu, and Y.X. Chen|Assessment of Microbial Activity and Bacterial Community Composition in the Rhizosphere of a Copper Accumulator and a Non-Accumulator|Soil Biol. Biochem.40(5): 1167-1177|2008|10.1016/j.soilbio.2007.12.010
117083|A||Lin,Y.H., and S.Y. Shiau|The Effects of Dietary Selenium on the Oxidative Stress of Grouper, Epinephelus malabaricus, Fed High Copper|Aquaculture267(1-4): 38-43|2007|10.1016/j.aquaculture.2006.12.015
117084|T||Kartal,S.N., F. Green III, and C.A. Clausen|Do the Unique Properties of Nanometals Affect Leachability or Efficacy Against Fungi and Termites?|Int. Biodeterior. Biodegrad.63(4): 490-495|2009|10.1016/j.ibiod.2009.01.007
117085|A||Hoang,T.C., and G.M. Rand|Exposure Routes of Copper:  Short Term Effects on Survival, Weight, and Uptake in Florida Apple Snails (Pomacea paludosa)|Chemosphere76(3): 407-414|2009|10.1016/j.chemosphere.2009.03.004
117086|A||Frias-Espericueta,M.G., R. Castro-Longoria, G.J. Barron-Gallardo, J.I. Osuna-Lopez, S.M. Abad-Rosales, F. Paez-Osuna, a|Histological Changes and Survival of Litopenaeus vannamei Juveniles with Different Copper Concentrations|Aquaculture278(1-4): 97-100|2008|10.1016/j.aquaculture.2008.03.008
117087|A||Abdel-Tawwab,M., M.A.A. Mousa, M.H. Ahmad, and S.F.M. Sakr|The Use of Calcium Pre-Exposure as a Protective Agent Against Environmental Copper Toxicity for Juvenile Nile tilapia, Oreochromis niloticus (L.)|Aquaculture264(1-4): 236-246|2007|10.1016/j.aquaculture.2006.12.020
117088|T||Nagae,M., M. Nakata, and Y. Takahashi|Identification of Negative cis-Acting Elements in Response to Copper in the Chloroplastic Iron Superoxide Dismutase Gene of the Moss Barbula unguiculata|Plant Physiol.146(4): 1687-1696|2008|10.1104/pp.107.114868
117089|T||Panou-Filotheou,E., M. Koukourikou-Petridou, A.M. Bosabalidis, and S. Karataglis|GAs Levels and Their Relation to Growth of Oregano Plants (Origanum vulgare subsp. hirtum (Link) Ietswaart) Grown in Copper Rich Soils|In: I.Teskos and M.Moustakas (Eds.), Prog. Bot. Res. Proc. Balk. Bot. Congr., 1st Meet. Date 1997, Kluwer, Dordrecht, Netherlands:353-356|1998|
117091|A||Rogevich,E.C.|The Fate of Copper in Flooded South Florida Agricultural Soils and Its Toxicological Effects on the Florida Apple Snail, Pomacea paludosa|Ph.D. Thesis, Florida Atlantic University, Boca Raton, FL:180 p.|2008|
117092|T||Becaria,A., D.K. Lahiri, S.C. Bondy, D. Chen, A. Hamadeh, H. Li, R. Taylor, and A. Campbell|Aluminum and Copper in Drinking Water Enhance Inflammatory or Oxidative Events Specifically in the Brain|J. Neuroimmunol.176(1/2): 16-23|2006|10.1016/j.jneuroim.2006.03.025
117093|A||Maranhao,P., J.C. Marques, and V. Madeira|Copper Concentrations in Soft Tissues of the Red Swamp Crayfish Procambarus clarkii (Girard, 1852), After Exposure to a Range of Dissolved Copper Concentrations|Freshw. Crayfish10:282-286|1995|
117094|A||National Enforcement Investigations Center|Evaluation of Proposed NPDES Permit Limitations for Homestake Mining Company, Lead, South Dakota|EPA-330/2-75-006, U.S.EPA, Natl.Enforcement Investig.Ctr., Denver, CO:26 p.|1975|
117095|A||Goettl,J.P.|Water Pollution Studies|Fed.Aid Proj.No.F-33-R-6, Colorado Game, Fish and Parks Div., Div.Wildl., Ft.Collins, CO:130 p.|1971|
117096|T||Han,J.C.Y., and R.L. Krause|Microbial Activity in Soils Treated with Fosamine Ammonium|Soil Sci.128(1): 23-27|1979|10.1097/00010694-197907000-00004
117097|T||Insley,H., and R.C. Boswell|The Enhancement of the Chemical Defoliation of Amenity Tree Nursery Stock, Betula pendula Roth, Alnus incana (L.) Moench, Carpinus betulus L. and Platanus x hispanica Muenchh., by Ethephon Pretreatment|J. Hortic. Sci.55(2): 119-125|1980|10.1080/00221589.1980.11514912
117098|T||Kuo,H.F., Y.F. Tsai, L.S. Young, and C.Y. Lin|Ethanol Treatment Triggers a Heat Shock-Like Response but no Thermotolerance in Soybean (Glycine max cv. Kaohsiung No.8) Seedlings|Plant Cell Environ.23(10): 1099-1108|2000|10.1046/j.1365-3040.2000.00621.x
117099|T||Andrews,J.E., M. Ebron-McCoy, R.J. Kavlock, and J.M. Rogers|Developmental Toxicity of Formate and Formic Acid in Whole Embryo Culture:  A Comparative Study with Mouse and Rat Embryos|Teratology51(4): 243-251|1995|10.1002/tera.1420510409
117100|T||E.I. Du Pont De Nemours|O-Cresol Toxicity Data Sheet Prepared by Bio Fax Indus Bio-Test Labs Inc.|EPA/OTS; Doc #878211742:9 p.|1983|
117101|T||Conoco Inc.|Skin Corrosiveness Test in Rabbits Prepared by Scientific Assoc Inc with Cover Letter|EPA/OTS Doc.#878210719:36 p.|1982|
117102|T||Chemical Manufacturers Association|Dominant Assays in Mice with ortho- and para-Cresol and Single Acute Exposure Dose Selection Studies on ortho- and para-Cresol (Final Reports) w-Attachment & Cover Letter 070689|EPA/OTS; Doc #40-8960307:165 p.|2000|
117103|T||Shell Oil Co.|Initial Submission:  Toxicity of Pyrethroid Insecticides:  Investigation of the Effects on the Sciatic Nerves of Rats of Feeding WL41706 at High Dietary Concentration W-Letter 050192|EPA/OTS Doc.#88-920002182:20 p.|1992|
117104|T||Shell Oil Co.|Initial Submission:  Toxicity Studies on the Insecticide WL 41706:  A Three Generation Reproduction Study (Minus Histopathology) in Rats (Final Report) W-Attachments & Letter 111491|EPA/OTS Doc.#88-920000279:20 p.|1979|
117105|A||Jin,H., X. Yang, H. Yu, and D. Yin|Identification of Ammonia and Volatile Phenols as Primary Toxicants in a Coal Gasification Effluent|Bull. Environ. Contam. Toxicol.63(3): 399-406|1999|10.1007/s001289900994
117106|T||Bushy Run Research Center|Two-Generation Reproduction Studies on Ortho-, Meta- and Para-Cresols Administered by Gavage to Sprague-Dawley (CD) Rats (Final Reports) W-Attachments & Cover Letter Dated 120689|EPA/OTS Doc.#40-8960311:1318 p.|2000|
117107|T||Hazleton Laboratories|Developmental Toxicity Evaluation of O-, M-, or P-Cresol Administered by Gavage to Rabbits and Rats with Cover Letter Dated 070688|EPA/OTS Doc.#40-8860253:1122 p.|1988|
117109|A||Daam,M.A., A.M.F. Rodrigues, P.J. Van den Brink, and A.J.A. Nogueira|Ecological Effects of the Herbicide Linuron in Tropical Freshwater Microcosms|Ecotoxicol. Environ. Saf.72(2): 410-423|2009|10.1016/j.ecoenv.2008.07.009
117110|A||Daam,M.A., P.J. Van den Brink, and A.J.A. Nogueira|Comparison of Fate and Ecological Effects of the Herbicide Linuron in Freshwater Model Ecosystems Between Tropical and Temperate Regions|Ecotoxicol. Environ. Saf.72(2): 424-433|2009|10.1016/j.ecoenv.2008.07.008
117111|A||Orton,F., I. Lutz, W. Kloas, and E.J. Routledge|Endocrine Disrupting Effects of Herbicides and Pentachlorophenol:  In Vitro and In Vivo Evidence|Environ. Sci. Technol.43(6): 2144-2150|2009|10.1021/es8028928
117112|A||Jolly,C., I. Katsiadaki, S. Morris, N. Le Belle, S. Dufour, I. Mayer, T.G. Pottinger, and A.P. Scott|Detection of the Anti-Androgenic Effect of Endocrine Disrupting Environmental Contaminants Using In Vivo and In Vitro Assays in the Three-Spined Stickleback|Aquat. Toxicol.92(4): 228-239|2009|10.1016/j.aquatox.2009.02.006
117113|T||Geiselhardt,S., D. Jakobschy, P. Ockenfels, and K. Peschke|A Sex Pheromone in the Desert Tenebrionid Beetle Parastizopus armaticeps|J. Chem. Ecol.34(8): 1065-1071|2008|10.1007/s10886-008-9488-1
117114|T||Alexandrova,A., L. Petrov, A. Georgieva, M. Kessiova, E. Tzvetanova, M. Kirkova, and M. Kukan|Effect of Copper Intoxication on Rat Liver Proteasome Activity:  Relationship with Oxidative Stress|J. Biochem. Mol. Toxicol.22(5): 354-362|2008|10.1002/jbt.20248
117115|T||Przymusinski,R., and E.A. Gwozdz|Increased Accumulation of the 16 X 103 Mr Polypeptide in Lupin Roots Exposed to Lead, Copper and Nitrite Ions|Environ. Exp. Bot.34(1): 63-68|1994|10.1016/0098-8472(94)90010-8
117116|T||Liu,D., and I. Kottke|Subcellular Localization of Copper in the Root Cells of Allium sativum by Electron Energy Loss Spectroscopy (EELS)|Bioresour. Technol.94:153-158|2004|10.1016/j.biortech.2003.12.003
117117|T||Bohman,V.R., S.C. Poole, W.G. Kvasnicka, R.J. Tronstad, and R.W. Collinson|The Toxicology and Composition of Bovine Tissues After Parenteral Administration of High Levels of Copper Salts|Vet. Hum. Toxicol.29(4): 307-312|1987|
117118|A||Lee,M.R., and J.A. Correa|Copper Mine Tailings Disposal:  Consequences for the Interstitial Polychaete Saccocirrus sonomacus (Canalipalpata:  Protodrilida)|J. Mar. Biol. Assoc. U.K.84:603-606|2004|10.1017/S0025315404009610h
117119|T||Woolliams,J.A., N.F. Suttle, G. Wiener, A.C. Field, and C. Woolliams|The Effect of Breed of Sire on the Accumulation of Copper in Lambs, with Particular Reference to Copper Toxicity|Anim. Prod.35:299-307|1982|
117120|A||Lu,C.M., and J.H. Zhang|Copper-Induced Inhibition of PSII Photochemistry in Cyanobacterium Spirulina platensis is Stimulated by Light|J. Plant Physiol.154(2): 173-178|1999|10.1016/S0176-1617(99)80206-5
117121|T||Morel,M., J. Crouzet, A. Gravot, P. Auroy, N. Leonhardt, A. Vavasseur, and P. Richaud|AtHMA3, a P1b-ATPase Allowing Cd/Zn/Co/Pb Vacuolar Storage in Arabidopsis|Plant Physiol.149(2): 894-904|2009|10.1104/pp.108.130294
117122|A||Mathew,P., and N.R. Menon|Histological Aberrations Accompanying Chronic Metal Toxicity in the Mussel Perna indica|J. Mar. Biol. Assoc. India47(2): 144-149|2005|
117123|T||Vatta,A.F., P.J. Waller, J.B. Githiori, and G.F. Medley|The Potential to Control Haemonchus contortus in Indigenous South African Goats with Copper Oxide Wire Particles|Vet. Parasitol.162(3-4): 306-313|2009|10.1016/j.vetpar.2009.03.005
117124|A||Ngayila,N., M. Botineau, M. Baudu, and J.P. Basly|Myriophyllum alterniflorum DC.  Effect of Low Concentrations of Copper and Cadmium on Somatic and Photosynthetic Endpoints:  A Chemometric Approach|Ecol. Indic.9(2): 307-312|2009|10.1016/j.ecolind.2008.05.006
117125|T||Enan,M.R.|Application of Random Amplified Polymorphic DNA (RAPD) to Detect the Genotoxic Effect of Heavy Metals|Biotechnol. Appl. Biochem.43(3): 147-154|2006|10.1042/BA20050172
117126|T||Navari-Izzo,F., B. Cestone, A. Cavallini, L. Natali, T. Giordani, and M.F. Quartacci|Copper Excess Triggers Phospholipase D Activity in Wheat Roots|Phytochemistry67(12): 1232-1242|2006|10.1016/j.phytochem.2006.04.006
117127|T||Range,P., M.G. Chapman, and A.J. Underwood|"Field Experiments with ""Cageless"" Methods to Manipulate Grazing Gastropods on Intertidal Rocky Shores"|J. Exp. Mar. Biol. Ecol.365(1): 23-30|2008|10.1016/j.jembe.2008.07.031
117128|T||Owojori,O.J., A.J. Reinecke, and A.B. Rozanov|The Combined Stress Effects of Salinity and Copper on the Earthworm Eisenia fetida|Appl. Soil Ecol.41(3): 277-285|2009|10.1016/j.apsoil.2008.11.006
117129|A||Mucha,A.P., C.M.R. Almeida, A.A. Bordalo, and M.T.S.D. Vasconcelos|Salt Marsh Plants (Juncus maritimus and Scirpus maritimus) as Sources of Strong Complexing Ligands|Estuar. Coast. Shelf Sci.77(1): 104-112|2008|10.1016/j.ecss.2007.09.011
117130|A||Casse,F., and G.W. Swain|The Development of Microfouling on Four Commercial Antifouling Coatings Under Static and Dynamic Immersion|Int. Biodeterior. Biodegrad.57(3): 179-185|2006|10.1016/j.ibiod.2006.02.008
117131|A||Braithwaite,R.A., M.C.C. Carrascosa, and L.A. McEvoy|Biofouling of Salmon Cage Netting and the Efficacy of a Typical Copper-Based Antifoulant|Aquaculture262(2-4): 219-226|2007|10.1016/j.aquaculture.2006.11.027
117132|A||Stebbing,A.R.D.|Tolerance and Hormesis-Increased Resistance to Copper in Hydroids Linked to Hormesis|Mar. Environ. Res.54:805-809|2002|10.1016/S0141-1136(02)00119-8
117133|A||Ittoop,G., K.C. George, R.M. George, K.S. Sobhana, N.K. Sanil, and P.C. Nisha|Histopathology of Copper Toxicity in the Indian Edible Oyster, Crassostrea madrasensis (Preston)|J. Mar. Biol. Assoc. India48(1): 19-23|2006|
117134|A||Yaroslavtseva,L.M., and E.P. Sergeeva|Effect of Temperature on Early Development of the Pacific Mussel Mytilus trossulus (Bivalvia: Mytilidae) in Sea Water Polluted by Copper Ions|Russ. J. Mar. Biol.33(6): 375-380|2007|10.1134/S106307400706003X
117135|T||Strange,J., and M.R. Macnair|Evidence for a Role for the Cell Membrane in Copper Tolerance of Mimulus guttatus Fischer ex DC|New Phytol.119:383-388|1991|10.1111/j.1469-8137.1991.tb00037.x
117136|A||Micheletti,E., G. Colica, C. Viti, P. Tamagnini, and R. De Philippis|Selectivity in the Heavy Metal Removal by Exopolysaccharide-Producing Cyanobacteria|J. Appl. Microbiol.105(1): 88-94|2008|10.1111/j.1365-2672.2008.03728.x
117137|T||Zheng,Y., W. Xu, Z. He, and M. Ma|Plant Regeneration of the Arsenic Hyperaccumulator Pteris vittata L. from Spores and Identification of Its Tolerance and Accumulation of Arsenic and Copper|Acta Physiol. Plant.30(2): 249-255|2008|10.1007/s11738-007-0114-6
117138|T||Boycheva,S.V., and N.K. Babalakova|Reactions of Root Plasma Membrane Redox Activities in Iron-Deficient Cucumber Plants After Application of Ionic and Chelated Copper|Acta Biol. Szeged.50(1-2): 49-54|2006|
117139|T||Szira,F., A.F. Balint, A. Vagujfalvi, and G. Galiba|Are CBF Genes Involved in Copper Tolerance?|Acta Biol. Szeged.52(1): 205-207|2008|
117140|A||Glaser,O., and G.A. Anslow|Copper and Ascidian Metamorphosis|J. Exp. Zool.111:117-140|1949|10.1002/jez.1401110107
117141|A||Komjarova,I., and R. Blust|Effect of Na, Ca and pH on Simultaneous Uptake of Cd, Cu, Ni, Pb, and Zn in the Water Flea Daphnia magna Measured Using Stable Isotopes|Aquat. Toxicol.94:81-86|2009|10.1016/j.aquatox.2009.05.018
117142|T||Al Masoum,A.A., and H.A. Al Masri|Effect of Methanol as a Growth Promoter for Tomato Production|Pak. J. Bot.31(1): 97-101|1999|
117143|T||Yanysheva,N.Y., N.V. Balenko, I.A. Chernichenko, V.F. Babiy, and E.P. Konovalov|Modifying Effect of Nitrogen Oxides, Phenol and Orthocresol on Benz(a)Pyrene-Induced Carcinogenesis in Rats and Mice|Eksp. Onkol.14(6): 14-19|1992|
117144|T||Holloway,M.T.P., and R.J. Phelps|The Responses of Stomoxys spp. (Diptera: Muscidae) to Traps and Artificial Host Odours in the Field|Bull. Entomol. Res.81(1): 51-55|1991|10.1017/S0007485300053232
117145|T||Zraly,Z., J. Bendova, D. Svecova, L. Faldikova, Z. Veznik, and A. Zajicova|Effects of Oral Intake of Nitrates on Reproductive Functions of Bulls|Vet. Med. (Prague)42(12): 345-354|1997|
117146|T||Mondal,D.B., and N.N. Pandey|Dosage Regimen of Methylene Blue and Its Comparative Therapeutic Efficacy with Tolonium Chloride and Ascorbic Acid in Induced Acute Nitrate Toxicity in Goats|Indian J. Anim. Sci.70(6): 572-575|2000|
117147|T||Vencill,W.K., K.K. Hatzios, and H.P. Wilson|Growth and Physiological Responses of Normal, Dwarf, and Albino Corn (Zea mays) to Clomazone Treatments|Pestic. Biochem. Physiol.35(1): 81-88|1989|10.1016/0048-3575(89)90105-3
117148|T||Aguirre,L.A., J. Corrales, and M. Flores|Pyrethroids for Hickory Shuckworm and Pecan Nut Casebearer Control, 1990|Insectic. Acaric. Tests18:77|1990|10.1093/iat/18.1.77
117149|A||American Cyanamid Co.|Initial Submission:  Toxicity of CL 303,630 During the Early Life-Stages of the Sheepshead Minnow Under Flow-Through Test Conditions with Attachments and Cover Letter Dated 040892; Support: Toxicity of AC 303,630 During|EPA/OTS; Doc, #88-930000238, Doc.#89-940000137:121 p.|1993|
117150|A||Vijayan,V., and K. Balaraman|Effect of Inorganic Salts, Soaps and Detergents on Dissolution and Larvicidal Activity of Alginate Formulation of Bacillus sphaericus|Southeast Asian J. Trop. Med. Public Health26(1): 183-187|1995|
117151|T||Takahashi,M., S. Kawamura, M. Miyakado, Y. Sanemitsu, and S. Tanaka|Uptake and Translocation of Bleaching Herbicidal Compounds in Radish Seedlings|Pestic. Sci.39(3): 169-177|1993|10.1002/ps.2780390302
117152|T||Perkins,D.F., and R.H. Marrs|Effects of Herbicides on Lichens|In: A.S.Cooke (Ed.), The Environmental Effects of Pesticide Drift, Peterborough:39-46|1993|
117153|T||Jones,E.J., G.D. Wills, and J.E. Hanks|Effect of Ethephon and Adjuvants on Cotton Defoliants|Proc. Beltwide Cotton Conf.2:1506-1508|1997|
117155|T||Shibata,S., Y. Kuwahara, M. Sato, S. Matsuyama, and T. Suzuki|Sex Pheromone Activity of 2-Hydroxy-6-Methylbenzaldehyde Analogs Against Males of Two Astigmatid Mites, Aleuroglyphus ovatus and Acarus immobilis|J. Pestic. Sci. (Multiple Languages)23(1): 34-39|1998|10.1584/jpestics.23.34
117157|T||El-Badry,O.M.|Synthesis of 3-Chloro-7-Methoxy-9-Substituted Acridine Derivatives as Potential Antimicrobial Agents|Alex. J. Pharm. Sci.6(1): 11-14|1992|
117158|T||Halwe,K., and S.K. Srivastava|Heterocyclic Systems Containing Azindole: Synthesis and Pharmacological Screening of 1-(H/Bromo/Chloro/Nitro/Methyl Substituted Phenyloxy)Acetyl/Propionyl)Benzimidazoles|Indian J. Chem.33B(7): 710-713|1994|
117162|T||Ciba-Geigy Corp.|Initial Submission:  Tinuvin P Step 1 Wet Cake:  Skin Sensitization Test in Guinea Pigs (Final Report) with Cover Letter Dated 071592|EPA/OTS; Doc #88-920004379:21 p.|1987|
117163|A||Merchant,D., P.J. Scully, R. Edwards, and J. Grabowski|Optical Fibre Fluorescence and Toxicity Sensor|Sens. Actuat.B48(1-3): 476-484|1998|10.1016/S0925-4005(98)00088-4
117164|T||Gano,K.A., D.W. Carlile, and L.E. Rogers|Harvester Ant Bioassay for Assessing Hazardous Chemical Waste Sites|Technical Report PNL-SA-12810, Pacific Northwest Labs., Richland, WA:22 p.|1984|
117166|A||Harvey,B.R.|Spark Source Mass Spectrometric Procedure Employing Stable Isotopes to Study the Uptake of Copper by Fish from Seawater and Food|Anal. Chem.50(13): 1866-1870|1978|10.1021/ac50035a034
117169|T||Kuhr,R.J., and C.W. Hessney|Toxicity and Metabolism of Methomyl in the European Corn Borer|Pestic. Biochem. Physiol.7:301-308|1977|10.1016/0048-3575(77)90033-5
117170|T||Ishaaya,I., A. Elsner, K.R.S. Ascher, and J.E. Casida|Synthetic Pyrethroids:  Toxicity and Synergism on Dietary Exposure of Tribolium castaneum (Herbst) Larvae|Pestic. Sci.14:367-372|1983|10.1002/ps.2780140405
117171|T||Parker,B.L., R.S. Walters, B. Teillon, and C.M. Boulanger|Carbaryl Residues in Sugar Maple Sap|J. Econ. Entomol.70(6): 785-788|1977|10.1093/jee/70.6.785
117172|A||Biesinger,K.E.|The Chronic Toxicity of Some Pesticides to Daphnia magna|Interim Rep.No.ROAP 16AAK, Task 06, Natl.Water Qual.Lab., Duluth, MN:5 p.|1973|
117173|T||Gillenwater,H.B., and L.L. McDonald|Toxicity, Repellency, and Attractancy of Slow-Release Insecticide Dispensers|J. Ga. Entomol. Soc.12(3): 261-267|1977|
117174|T||Kim,Y.K., Z.M. Liu, D. Li, and P.E. Kolattukudy|Two Novel Genes Induced by Hard-Surface Contact of Colletotrichum gloesporioides Conidia|J. Bacteriol.182(17): 4688-4695|2000|10.1128/JB.182.17.4688-4695.2000
117175|T||Kim,Y.K.|Studies of Ca2+-CaM Signaling and Genes Induced by Hard-Surface Contact of Colletotrichum gloeosporioides Conidia|Ph.D. Thesis, The Ohio State University, Columbus, OH:96 p.|2000|
117176|T||Inguagiato,J.C., J.A. Murphy, and B.B. Clarke|Anthracnose of Annual Bluegrass Putting Green Turf Influenced by Trinexapac-Ethyl Application Interval and Rate|Int. Turfgrass Soc. Res. J.11:207-218|2009|
117178|A||Tremolada,P., M. Sugni, G. Gilioli, A. Barbaglio, F. Bonasoro, and M.D.C. Carnevali|A Dynamic Model for Predicting Chemical Concentrations in Water and Biota During the Planning Phase of Aquatic Ecotoxicological Tests|Chemosphere75(7): 915-923|2009|10.1016/j.chemosphere.2009.01.001
117179|A||Amini,M., H. Younesi, and N. Bahramifar|Biosorption of Nickel(II) from Aqueous Solution by Aspergillus niger:  Response Surface Methodology and Isotherm Study|Chemosphere75(11): 1483-1491|2009|10.1016/j.chemosphere.2009.02.025
117180|A||Chang,J.S., M.B. Gu, and K.W. Kim|Effect of Arsenic on p53 Mutation and Occurrence of Teratogenic Salamanders:  Their Potential as Ecological Indicators for Arsenic Contamination|Chemosphere75(7): 948-954|2009|10.1016/j.chemosphere.2009.01.002
117181|A||Van Wijk,D., M. Gyimesi-Van den Bos, I. Garttener-Arends, M. Geurts, J. Kamstra, and P. Thomas|Bioavailability and Detoxification of Cationics:  I. Algal Toxicity of Alkyltrimethyl Ammonium Salts in the Presence of Suspended Sediment and Humic Acid|Chemosphere75(3): 303-309|2009|10.1016/j.chemosphere.2008.12.047
117182|T||Ward,C.R., E.W. Huddleston, J.C. Owens, T.M. Hills, L.G. Richardson, and D. Ashdown|Control of the Banks Grass Mite Attacking Grain Sorghum and Corn in West Texas|J. Econ. Entomol.65(2): 523-529|1972|10.1093/jee/65.2.523
117183|T||Ishaaya,I., and J.E. Casida|Pyrethroid Detoxification and Synergism in Insects|IUPAC Pestic. Chem.:307-310|1983|
117184|T||Taylor,S.M., J. Kenny, T.R. Mallon, C.T. Elliott, C. McMurray, and J. Blanchflower|Efficacy of Pyrethroid-Impregnated Ear Tags for Prophylaxis of Tick-Borne Diseases of Cattle|Vet. Rec.114:454-455|1984|10.1136/vr.114.18.454
117185|T||Gooneratne,S.R., J.M. Howell, and J.M. Gawthorne|An Investigation of the Effects of Intravenous Administration of Thiomolybdate on Copper Metabolism in Chronic Cu-Poisoned Sheep|Br. J. Nutr.46:469-480|1981|10.1079/BJN19810055
117186|A||Chandiwana,S.K., J. Ndamba, O. Makura, and P. Taylor|Field Evaluation of Controlled Release Copper Glass as a Molluscicide in Snail Control|Trans. R. Soc. Trop. Med. Hyg.81:952-955|1987|10.1016/0035-9203(87)90362-2
117188|T||Soares,M.E., J.A. Pereira, and M.L. Bastos|Validation of a Method to Quantify Copper and Other Metals in Olive Fruit by ETAAS.  Application to the Residual Metal Control After Olive Tree Treatments with Different Copper Formulations|J. Agric. Food Chem.54(11): 3923-3928|2006|10.1021/jf0608930
117189|T||Ke,B.X., R.M. Llanos, and J.F.B. Mercer|ATP7A Transgenic and Nontransgenic Mice are Resistant to High Copper Exposure|J. Nutr.138(4): 693-697|2008|10.1093/jn/138.4.693
117190|A||Patil,G.P., and R.R. Dhande|Effect of Copper on Prolactin Cell Activity and Plasma Electrolytes in the Freshwater Murrel, Channa punctatus (Bloch)|Proc. Acad. Environ. Biol.8(2): 195-203|1999|
117191|T||Fargasova,A.|Selenium(IV) Interactions with Cd, Zn, Cu and Pb Expressed Through Physiology of Sinapis alba L.|Chem. Inz. Ekol. (Multiple Languages)11(2/3): 131-141|2004|
117192|T||Khan,T., and K. Singh|Effects of Copper on the Growth and Yield Characters of Cicer arietinum Cultivar P-209|Chem. Environ. Res.3(3-4): 271-272|1994|
117193|T||Martinson,T.E., T.J. Dennehy, R.M. Dunst, H.J. Crowe, and T.N.,Jr. Taft|Trials of Non-Conventional Insecticides for Grape Berry Moth Control, 1990|Insectic. Acaric. Tests17:64-|1992|10.1093/iat/17.1.64
117194|T||Degitz,S.J., J.M. Rogers, R.M. Zucker, and E.S. Hunter III|Developmental Toxicity of Methanol:  Pathogenesis in CD-1 and C57BL/6J Mice Exposed in Whole Embryo Culture|Birth Defects Res. A Clin. Mol. Teratol.70(4): 179-184|2004|10.1002/bdra.20009
117196|T||Chopra,A., G. Pereira, T. Gomes, J. Pereira, P. Prabhu, S. Krishnan, and C.V. Rao|A Study of Chromium and Ethanol Toxicity in Female Wistar Rats|Toxicol. Environ. Chem.53(1-4): 91-106|1996|10.1080/02772249609358274
117197|T||Anderson,R.A.,Jr., B.R. Willis, C. Oswald, and L.J.D. Zaneveld|Ethanol-Induced Male Infertility:  Impairment of Spermatozoa|J. Pharmacol. Exp. Ther.225(2): 479-484|1983|
117200|A||Tulou,K.E., G.D. Boardman, S.A. Smith, and G.J. Flick|Levels of Vitellogenin in Male Japanese Medaka (Oryzias latipes) Exposed to the Chemotherapeutics: Oxytetracycline, Romet-30(R), and Copper Sulfate|J. Appl. Aquacult.20(3): 149-167|2008|10.1080/10454430802329614
117201|A||American Cyanamid Co.|Support:  Acute Toxicity of AC 303,630 to Mysid Shrimp (Mysidopsis bahia) Under Flow-Through Conditions with Cover Letter Dated 061893; Support:  Acute Toxicity of AC 303,630 to the Sheepshead Minnow (Cyprinodon variega|EPA/OTS Doc.#89-930000102, Doc.#89-940000020:185 p.|1993|
117202|A||EPA/OTS|Support:  Early Life-Stage Toxicity of AC 303,630 in Rainbow Trout (Oncorhynchus mykiss) with Cover Letter Dated 120293|EPA/OTS Doc.#89-940000044:122 p.|1993|
117203|T||Shell Oil Co.|Initial Submission:  Letter Submitting One Enclosed Acute Toxicity and Irritancy Study on WL 41706|EPA/OTS Doc.#88-9200002047:42 p.|1982|
117204|T||Hussain,I., S. Ahmad, and A.A. Khan|Responses of Caged Rose-Ringed Parakeets to Methiocarb|Pak. J. Zool.24(3): 247-249|1992|
117205|T||Lo,P.L., D.M. Suckling, S.J. Bradley, J.T.S. Walker, P.W. Shaw, and G.M. Burnip|Factors Affecting Feeding Site Preferences of Lightbrown Apple Moth, Epiphyas postvittana (Lepidoptera:  Tortricidae), on Apple Trees in New Zealand|N. Z. J. Crop Hortic. Sci.28(4): 235-243|2000|10.1080/01140671.1997.9514145
117206|T||Shakoori,A.R., U. Butt, R. Riffat, and F. Aziz|Toxic Effects of Short-Term Oral Administration of Danitol on the Blood and Liver of Rabbits|Bull. Dep. Zool. Univ. Panjab7:13-26|1992|
117207|T||Dhar,B., I. Soni, and P. Bhatnagar|Assessment of Teratogenic Potential of Fenpropathrin, a Synthetic Pyrethroid Insecticide, in Swiss Albino Mice|J. Ecophysiol. Occup. Health4(3-4): 185-189|2004|
117208|A||Moffett,M.F., L.E. Anderson, T. Corry, M.P. Hanratty, L.J. Heinis, M.L. Knuth, K. Liber, S.L. O'Halloran, K.L. Schmude,|Effects, Persistence and Distribution of Diflubenzuron in Littoral Enclosures|Final Report,U.S.EPA, Mid-Continent Ecology Division, Duluth, MN:521 p.|1995|
117209|A||McGregor,E.B.|Microcosm Assessment of the Effects of Monensin, 10:2 Saturated Fluorotelomer Carboxylic Acid, and Atrazine on Aquatic Macrophytes and Responses of Individuals Versus Assemblages|M.S.Thesis, University of Manitoba, Canada:191 p.|2008|
117210|AT||Stratton,G.W.|The Effects of Selected Pesticides and Their Degradation Products on Microorganisms and Daphnia magna|Ph.D. Thesis, University of Guelph, Ontario, Canada:224 p.|1981|
117211|A||Great Lakes Chemical Corp.|Initial Submission:  Letter from Great Lakes Chem Corp to USEPA Regarding Environmental Effects Studies of Bromo-Chloro-5,5-Dimethylhydantoin w/Attachments and CVR Ltr td Dated 05/19/95|EPA/OTS Doc #88-950000229:82 p.|1995|
117213|T||Dwivedi,P.P., A. Mishra, and K.K. Dutta|Studies of Endosulfan on Glutathione, Glutathione-S-Transferase and Total Sulfhydryls in Rat Liver|Agric. Biol. Res.4(1): 18-21|1988|
117214|T||Bayer Corp.|Validation of the Buehler Test Method Performed on Guinea Pigs with 2-Mercaptobenzothiazole with Cover Letter Dated 10/02/95|EPA/OTS Doc.#86960000010:44 p.|1995|
117215|A||Pan,K., and W.X. Wang|Validation of Biokinetic Model of Metals in the Scallop Chlamys nobilis in Complex Field Environments|Environ. Sci. Technol.42(16): 6285-6290|2008|10.1021/es800652u
117216|T||Belanger,G., J.E. Winch, and J.L. Townshend|Carbofuran Effects on Establishment of Legumes in Relation to Plant Growth, Nitrogen Fixation, and Soil Nematodes|Can. J. Plant Sci.65(2): 423-433|1985|10.4141/cjps85-057
117217|T||Rogers,C.B., R.E. Talbert, J.D. Mattice, T.L. Lavy, and R.E. Frans|Residual Fluometuron Levels in Three Arkansas Soils Under Continuous Cotton (Gossypium hirsutum) Production|Weed Sci.34(1): 122-130|1986|10.1017/S0043174500026588
117219|T||Morse,J.G., A.A. Urena, and C.A. Reagan|Speed-Sprayer Trials for Citrus Thrips Control, 1992|Insectic. Acaric. Tests18:76-77|1993|10.1093/iat/18.1.76
117220|AT||Hohn-Bentz,J., B. Kurelec, and R.K. Zahn|Fast Ephemeral DNA Damage upon BaP Injection|Sci. Total Environ.32(1): 13-27|1983|10.1016/0048-9697(83)90129-8
117221|T||Melgar,J.C., J.P. Syvertsen, and F. Garcia-Sanchez|Can Elevated CO2 Improve Salt Tolerance in Olive Trees?|J. Plant Physiol.165(6): 631-640|2008|10.1016/j.jplph.2007.01.015
117222|T||Gurtler,R.E., D.M. Canale, C. Spillmann, R. Stariolo, O.D. Salomon, S. Blanco, and E.L. Segura|Effectiveness of Residual Spraying of Peridomestic Ecotopes with Deltamethrin and Permethrin on Triatoma infestans in Rural Western Argentina:  A District-Wide Randomized Trial|Bull. W. H. O.82(3): 196-205|2004|
117223|T||Hooker,D.C., T.J. Vyn, and C.J. Swanton|Alternative Weed Management Strategies in Conservation Tillage Systems for White Beans (Phaseolus vulgaris L.)|Can. J. Plant Sci.78(2): 363-370|1998|10.4141/P97-055
117225|T||Takahashi,N., N. Mikami, H. Yamada, and J. Miyamoto|Photodegradation of the Pyrethroid Insecticide Fenpropathrin in Water, on Soil and on Plant Foliage|Pestic. Sci.16(2): 119-131|1985|10.1002/ps.2780160204
117226|A||Steffens,B., and M. Sauter|Epidermal Cell Death in Rice is Confined to Cells with a Distinct Molecular Identity and is Mediated by Ethylene and H2O2 Through an Autoamplified Signal Pathway|Plant Cell21(1): 184-196|2009|10.1105/tpc.108.061887
117227|A||Vidhyasekaran,P., E.S. Borromeo, and T.W. Mew|Helminthosporium oryzae Toxin Suppresses Phenol Metabolism in Rice Plants and Aids Pathogen Colonization|Physiol. Mol. Plant Pathol.41(5): 307-315|1992|10.1016/0885-5765(92)90018-Q
117228|T||Miche,L., F. Battistoni, S. Gemmer, M. Belghazi, and B. Reinhold-Hurek|Upregulation of Jasmonate-Inducible Defense Proteins and Differential Colonization of Roots of Oryza sativa Cultivars with the Endophyte Azoarcus sp.|Mol. Plant-Microbe Interact.19(5): 502-511|2006|10.1094/MPMI-19-0502
117229|T||Gratkowski,H.J., R.E. Stewart, and H.G. Weatherly|Triclopyr and Krenite Herbicides Show Promise for Use in Pacific Northwest Forests|Down Earth34(3): 28-31|1978|
117230|T||Rouchaud,J., C. Moons, and J.A. Meyer|Effects of Selected Insecticides and Herbicides on the Carotene Content of Summer Carrots|Sci. Hortic.19(1/2): 33-37|1983|10.1016/0304-4238(83)90041-9
117231|T||Rethwisch,M.D., C.W. McDaniel, R. Rush, and J. Solorzano|Evaluation of Danitol 2.4 EC During Summer Temperatures for Control of Variegated Grape Leafhopper, 1991|Insectic. Acaric. Tests17:64-65|1992|10.1093/iat/17.1.64a
117232|T||Prakash,S., S. Koul, and N. Bhalla-Sarin|Germinating Pigeonpea (Cajanus cajan) Seeds Secrete Factor(s) Having Antiethylene-Like Effects|Physiol. Plant. (Multiple Languages)118(4): 589-596|2003|10.1034/j.1399-3054.2003.00100.x
117233|A||Torgersen,T.|In Situ Observation of Whole Lake Gross Primary Productivity:  Response to and Recovery from Copper Algaecide Application|Environ. Eng. Sci.26(3): 521-529|2009|10.1089/ees.2008.0037
117235|T||Ma,S.Y., and Y.R. Chen|Morphological & Biochemical Effect of Copper on Zinnia elegans|In: C.Benavides, A.Hector, and J.Yacaman (Eds.), Electron Microsc, Inst.of Physics Publ., Bristol, U.K.:141-142|1998|
117236|A||Sauter,S., K.S. Buxton, K.J. Macek, and S.R. Petrocelli|Effects of Continuous Exposure to Lead, Chromium, Copper and Cadmium on Eggs and Fry of Selected Freshwater Fish|U.S.EPA, Duluth, MN:74 p.|1977|
117237|A||Siriwardena,P.P.G.S.N., K.J. Rana, and D.J. Baird|Interspecific Variation in Tolerance of Tilapia Yolk Sac Fry (Family:  Cichlidae) to Copper Stress|Sri Lanka J. Aquat. Sci.5:47-53|2000|
117238|T||Ni,C.Y., Y.X. Chen, Q. Lin, and G.M. Tian|Subcellular Localization of Copper in Tolerant and Non-Tolerant Plant|J. Environ. Sci. (China)17(3): 452-456|2005|
117239|T||Maslenkova,L., S. Toncheva, O. Angelova, and M. Busheva|Impairment of Photosystem II Reactions in Copper- and Cobalt-Treated Pea Plants as Assayed by Oxygen Evolution and Chlorophyll Fluorescence of Isolated Chloroplasts|Dokl. Bolg. Akad. Nauk49(4): 71-74|1996|
117240|T||Maslenkova,L., and M. Busheva|Structural and Functional Properties of Purified PSII Oxygen Evolving Complexes in Copper and Cobalt Treated Pea Plants|Dokl. Bolg. Akad. Nauk49(5): 91-94|1996|
117241|T||Guo,T.R., G.P. Zhang, and Y.H. Zhang|Physiological Changes in Barley Plants Under Combined Toxicity of Aluminum, Copper and Cadmium|Colloids Surf. B Biointerfaces57(2): 182-188|2007|10.1016/j.colsurfb.2007.01.013
117243|T||Millikan,C.R.|Effects on Flax of a Toxic Concentration of Boron, Iron, Molybdenum, Aluminium, Copper, Zinc, Manganese, Cobalt or Nickel in the Nutrient Solution|Proc. R. Soc. Victoria61:25-42|1949|
117245|T||Spaull,A.M., D.L. Trudgill, and T. Batey|Effects of Anaerobiosis on the Survival of Globodera pallida and Possibilities for Control|Nematologica38(1): 88-97|1992|
117246|T||Sharma,R., V.P. Singh, A. Srivastava, and S.K. Sharma|The Influence of Copper on the Mutagenic Efficiency of EMS in Mung Bean|J. Indian Bot. Soc.74(1-4): 81-83|1995|
117247|T||El-Gendy,K.S., M.A. Radwan, and A.F. Gad|In Vivo Evaluation of Oxidative Stress Biomarkers in the Land Snail, Theba pisana Exposed to Copper-Based Pesticides|Chemosphere77:339-344|2009|10.1016/j.chemosphere.2009.07.015
117248|A||Collyard,S.A.|Bioavailability of Copper to the Amphipod Hyalella azteca|M.S.Thesis, University of Wyoming, Laramie, WY:59 p.|2002|
117249|T||Wang,H.P., Y.J. Liang, D.X. Long, J.X. Chen, W.Y. Hou, and Y.J. Wu|Metabolic Profiles of Serum from Rats After Subchronic Exposure to Chlorpyrifos and Carbaryl|Chem. Res. Toxicol.22(6): 1026-1033|2009|10.1021/tx8004746
117252|A||Ding,F.H., Z.Z. Xiao, and J. Li|Preliminary Studies on the Vitrification of Red Sea Bream (Pagrus major) Embryos|Theriogenology68(5): 702-708|2007|10.1016/j.theriogenology.2007.05.064
117253|T||Sandhu,K.S., A.K. Joshi, and K.L. Bajaj|Effects of Nitrogen Fertilizer and Weed Control on Nutritive Quality of Carrots (Daucus carota L.)|Plant Foods Hum. Nutr. (Dordr.)38(1): 67-73|1988|10.1007/BF01092312
117254|T||Bond,W., and A. Walker|Aspects of Herbicide Activity and Persistence Under Low Level Polyethylene Covers|Ann. Appl. Biol.114(1): 133-140|1989|10.1111/j.1744-7348.1989.tb06793.x
117255|T||3M Co.|Initial Submission:  Acute Dermal Toxicity Study in Albino Rabbits & Acute Oral Toxicity Study in Albino Rats with Sample T-2624 Coc with Cover Sheet Dated 072792|EPA/OTS Doc.#88-920004668:27 p.|1992|
117256|T||Hirose,M., T. Inoue, M. Asamoto, Y. Tagawa, and N. Ito|Comparison of the Effects of 13 Phenolic Compounds in Induction of Proliferative Lesions of the Forestomach and Increase in the Labelling Indices of the Glandular Stomach and Urinary Bladder Epithelium of Syrian Golden |Carcinogenesis7(8): 1285-1289|1986|10.1093/carcin/7.8.1285
117257|T||Chikamori,M., and K. Fukushima|A New Hexose Transporter from Cryptococcus neoformans:  Molecular Cloning and Structural and Functional Characterization|Fungal Genet. Biol.42(7): 646-655|2005|
117259|T||Leduc,F.|Linking the Neuropeptide Annetocin with Reproductive Success of the Earthworm Eisenia fetida in Two Natural Soils Amended with the Wood Preservatives Chromated Copper Arsenate (CCA) and Alkaline Copper Quaternary (ACQ)|M.S.Thesis, McGill University, Montreal, Canada:119 p.|2005|
117260|A||Kurup,B.M.|Seed Production of an Endangered Indigenous Carp of Kerala, Labeo dussumieri (Val.)|In: National Symposium on Technological Advancements in Fisheries and Its Impact on Rural Development. Cochin University of Science and Technology:37-46|1998|
117261|T||Ali,A., and M.L. Kok-Yokomi|Preliminary Evaluations of Methoprene, Diflubenzuron, and Chlorpyrifos Against Psychoda alternata Say (Diptera:  Psychodidae) in Turf|J. Fla. Mosq. Control Assoc.61(1): 4-8|1990|
117263|T||Gowda,P.S.B., and S.S. Bhat|In Vitro Effects of Metalaxyl on Peronosclerospora sorghi and Sorghum callus|Trans. Br. Mycol. Soc.91(3): 403-408|1988|10.1016/S0007-1536(88)80115-3
117264|AT||Martin,J.E.|Direct Development of the Puerto Rican Tree Frog, Eleutherodactylus coqui, with Emphasis on Teratogenicity|M.S.Thesis, Central Michigan University, Mount Pleasant, MI:56 p.|1992|
117265|A||Ekman,D.R., Q. Teng, D.L. Villeneuve, M.D. Kahl, K.M. Jensen, E.J. Durhan, G.T. Ankley, and T.W. Collette|Profiling Lipid Metabolites Yields Unique Information on Sex- and Time-Dependent Responses of Fathead Minnows (Pimephales promelas) Exposed to 17alpha-Ethynylestradiol|Metabolomics5:22-32|2009|10.1007/s11306-008-0138-y
117270|T||Dabaan,M.E.|Herbicide Cross Resistance in Atrazine-Resistant Velvetleaf (Abutilon theophrasti) and Redroot Pigweed (Amaranthus retroflexus)|Ph.D Thesis, West Virginia University, Morgantown, WV:146 p.|1997|
117271|A||Lu,G.H., C. Wang, X. Yuan, and P.Z. Lang|Quantitative Structure-Activity Relationships for the Toxicity of Substituted Benzenes to Cyprinus carpio|Biomed. Environ. Sci.18(1): 53-57|2005|
117272|T||O'Donovan,J.T., G.M. Jeffers, D. Maurice, and M.P. Sharma|Investigation of a Chlorsulfuron-Resistant Chickweed (Stellaria media (L.) Vill.) Population|Can. J. Plant Sci.74(4): 693-697|1994|10.4141/cjps94-125
117273|T||Senesi,N., and E. Loffredo|Influence of Soil Humic Substances and Herbicides on the Growth of Pea (Pisum sativum L.) in Nutrient Solution|J. Plant Nutr.17(2/3): 493-500|1994|10.1080/01904169409364743
117274|A||Sakamoto,M., T. Hanazato, and Y. Tanaka|Impact of an Insecticide on Persistence of Inherent Antipredator Morphology of a Small Cladoceran, Bosmina|Arch. Environ. Contam. Toxicol.57(1): 68-76|2009|10.1007/s00244-008-9247-x
117275|T||Teklic,T., J.T. Hancock, M. Engler, N. Paradikovic, V. Cesar, H. Lepedus, I. Stolfa, and D. Beslo|Antioxidative Responses in Radish (Raphanus sativus L.) Plants Stressed by Copper and Lead in Nutrient Solution and Soil|Acta Biol. Crac., Ser. Bot. 50(2): 79-86|2008|
117276|T||Kovalchuk,O., V. Titov, B. Hohn, and I. Kovalchuk|A Sensitive Transgenic Plant System to Detect Toxic Inorganic Compounds in the Environment|Nat. Biotechnol.19(6): 568-572|2001|10.1038/89327
117277|T||Burlando,B., V. Evangelisti, F. Dondero, G. Pons, J. Camakaris, and A. Viarengo|Occurrence of Cu-ATPase in Dictyostelium:  Possible Role in Resistance to Copper|Biochem. Biophys. Res. Commun.291(3): 476-483|2002|10.1006/bbrc.2002.6463
117278|A||Browne,R.A., V. Moller, V.E. Forbes, and M.H. Depledge|Estimating Genetic and Environmental Components of Variance Using Sexual and Clonal Artemia|J. Exp. Mar. Biol. Ecol.267(1): 107-119|2002|10.1016/S0022-0981(01)00363-X
117280|A||Panda,S.K.|Impact of Copper on Reactive Oxygen Species, Lipid Peroxidation and Antioxidants in Lemna minor|Biol. Plant. (Praha)52(3): 561-564|2008|10.1007/s10535-008-0111-7
117281|A||Barranguet,C., F.P. Van den Ende, M. Rutgers, A.M. Breure, M. Greijdanus, J.J. Sinke, and W. Admiraal|Copper-Induced Modifications of the Trophic Relations in Riverine Algal-Bacterial Biofilms|Environ. Toxicol. Chem.22(6): 1340-1349|2003|
117282|T||Aburto,E.M., A.E. Cribb, I.C. Fuentealba, B.O. Ikede, F.S.B. Kibenge, and F. Markham|Morphological and Biochemical Assessment of the Liver Response to Excess Dietary Copper in Fischer 344 Rats|Can. J. Vet. Res.65(2): 97-103|2001|
117283|A||Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, T.W. May, W.R. Arnold, R.C. Santore, T. Augspurger, F.J. Dwyer, and M.|Evaluation of Acute Copper Toxicity to Juvenile Freshwater Mussels (Fatmucket, Lampsilis siliquoidea) in Natural and Reconstituted Waters|Environ. Toxicol. Chem.28(11): 2367-2377|2009|10.1897/08-655.1
117284|T||Lemerle,D., C.R. Kidd, and B.J. Read|Tolerances of Barley Cultivars to Post-Emergence Herbicides|Aust. J. Exp. Agric.26(3): 383-392|1986|10.1071/EA9860383
117285|T||Glady,J.E., N.S. Lang, and E.S. Runkle|Effects of Ethephon on Stock Plant Management of Coreopsis verticillata, Dianthus caryophyllus, and Veronica longifolia|Hortscience42(7): 1616-1621|2007|10.21273/HORTSCI.42.7.1616
117286|T||Sharma,A., S.R. Padwal-Desai, and G.B. Nadkarni|A New Method for Aflatoxin-Free Storage of Agricultural Commodities|J. Food Sci.52(2): 497, 499 -|1987|10.1111/j.1365-2621.1987.tb06652.x
117287|T||Bonello,P., W.R. McNee, A.J. Storer, D.L. Wood, and T.R. Gordon|The Role of Olfactory Stimuli in the Location of Weakened Hosts by Twig-Infesting Pityophthorus spp.|Ecol. Entomol.26(1): 8-15|2001|10.1046/j.1365-2311.2001.00288.x
117288|T||Van Oorschot,J.L.P., and P.H. Van Leeuwen|Inhibition of Photosynthesis in Intact Plants of Biotypes Resistant or Susceptible to Atrazine and Cross-Resistance to Other Herbicides|Weed Res. (Multiple Languages)28(4): 223-230|1988|10.1111/j.1365-3180.1988.tb00799.x
117289|T||Avery,M.L.|Application of Mimicry Theory to Bird Damage Control|J. Wildl. Manag.49(4): 1116-1121|1985|10.2307/3801404
117290|T||Allen,K.J., N.E. Buck, D.M.Y. Cheah, S. Gazeas, P. Bhathal, and J.F.B. Mercer|Chronological Changes in Tissue Copper, Zinc and Iron in the Toxic Milk Mouse and Effects of Copper Loading|BioMetals19(5): 555-564|2006|10.1007/s10534-005-5918-5
117291|T||Steele,A.E.|Residues of Aldicarb and Its Oxides in Beta vulgaris L. and Systemic Control of Heterodera schachtii|J. Nematol.11(1): 42-46|1979|
117292|T||Hafez,S.L., and D.J. Raski|Residue Dynamics and Persistence of Aldicarb and Its Biologically Similar Active Metabolites in Grapevines|J. Nematol.13(1): 29-36|1981|
117293|T||Matus-Cadiz,M.A., and P. Hucl|Rapid and Effective Germination Methods for Overcoming Seed Dormancy in Annual Canarygrass|Crop Sci.45(5): 1696-1703|2005|10.2135/cropsci2004.0347
117294|A||Kim,B.C., K.S. Park, S.D. Kim, and M.B. Gu|Evaluation of a High Throughput Toxicity Biosensor and Comparison with a Daphnia magna Bioassay|Biosens. Bioelectron.18(5/6): 821-826|2003|10.1016/S0956-5663(03)00027-7
117295|T||Canihos,Y.|Effect of Herbicides on Verticillium Wilt of Cotton and Induction of Phytoalexin Gossypol Production by Host Cells|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)104(5): 516-522|1997|
117296|T||O'Donovan,J.T., and P.A. O'Sullivan|Annual Weed Control with Paraquat in Combination with Other Herbicides|Can. J. Plant Sci.66(1): 153-160|1986|10.4141/cjps86-019
117297|T||Turner,M.G., and J.M. Scholey|Mixture B, a Surfactant Additive for Improving Bracken Control by Herbicides|BCPC Monogr. - Br. Crop Prot. Counc.29(0): 284-285|1985|
117298|T||Pitt,J.A., and E.W. Carney|Evaluation of Various Toxicants in Rabbit Whole-Embryo Culture Using a New Morphologically-Based Evaluation System|Teratology59(2): 102-109|1999|10.1002/(SICI)1096-9926(199902)59:2<102::AID-TERA4>3.0.CO;2-6
117299|T||Chandler,L.D., and J.R. Ruberson|Comparative Toxicity of Four Commonly Used Insecticides to Field-Collected Beet Armyworm Larvae from the Southeastern United States.|Proc. Beltwide Cotton Conf.2:860-864|1994|
117300|T||Gokte,N., M.L. Maheshwari, and V.K. Mathur|Nematicidal Activity of Few Essential Oils Against Root-Knot and Cyst Nematode Species|Indian J. Nematol.21(2): 123-127|1991|
117301|T||Chrisman,K., R. Kenney, J. Comin, T. Thal, L. Suchocki, Y.G. Yueh, and D.P. Gardner|Gestational Ethanol Exposure Disrupts the Expression of FGF8 and Sonic Hedgehog During Limb Patterning|Birth Defects Res. A Clin. Mol. Teratol.70(4): 163-171|2004|10.1002/bdra.20019
117302|A||Clifford,M., and J. McGeer|Waterborne and Dietary Effects of Cadmium on Hydra attenuate|NSERC - Industry Proj.on Metal Bioavailability, Res.Newslett., McMaster Univ., Hamilton, Ontario, Canada:9 p.|2009|
117304|T||Chemical Manufacturers Association|Mutagenicity Tests on ortho- and para-Cresol: Drosophila melanogaster Sex-Linked Recessive Lethal Test (Final Reports) with Attachment and Cover Letter Dated 032189|EPA/OTS; Doc #40-8960320:82 p.|2000|
117306|A||Monette,M.Y., and S.D. McCormick|Impacts of Short-Term Acid and Aluminum Exposure on Atlantic Salmon (Salmo salar) Physiology:  A Direct Comparison of Parr and Smolts|Aquat. Toxicol.86:216-226|2008|10.1016/j.aquatox.2007.11.002
117307|A||Miao,A.J., and W.X. Wang|Predicting Copper Toxicity with Its Intracellular or Subcellular Concentration and the Thiol Synthesis in a Marine Diatom|Environ. Sci. Technol.41(5): 1777-1782|2007|10.1021/es0613963
117308|A||Senthilkumar,P., K. Samyappan, S. Jayakumar, and M. Deecaraman|Impact of Heavy Metal Copper on the Neurosecretory Cells in a Freshwater Field Crab, Spiralothelphusa hydrodroma|Res. J. Agric. Biol. Sci.3(6): 584-589|2007|
117310|T||Kovacik,J., and M. Backor|Phenylalanine Ammonia-Lyase and Phenolic Compounds in Chamomile Tolerance to Cadmium and Copper Excess|Water Air Soil Pollut.185(1-4): 185-193|2007|10.1007/s11270-007-9441-x
117313|A||Kindig,A.C.|Interactions Between Algal Nutrient Availability and an Algicide in Aquatic Microcosm Communities|Ph.D. Thesis, University of Washington, Seattle, WA:277 p.|1982|
117314|A||Kerby,J.L., and A. Storfer|Combined Effects of Atrazine and Chlorpyrifos on Susceptibility of the Tiger Salamander to Ambystoma tigrinum Virus|EcoHealthPRESS:8 p. |2009|
117315|A||Rohr,J.R., A. Swan, T.R. Raffel, and P.J. Hudson|Parasites, Info-Disruption, and the Ecology of Fear|Oceanologia (Wroc.)159:447-454|2009|
117316|T||Lanzel,S.|Atrazine and Info-Disruption:  Does the Pesticide Atrazine Disrupt the Transfer of Chemical Information in the Terrestrial Salamander, Plethodon shermani?|M.S.Thesis, Duquesne University, Pittsburgh, PA:83 p.|2008|
117317|T||Bindesbol,A.M., M. Bayley, C. Damgaard, and M. Holmstrup|Impacts of Heavy Metals, Polyaromatic Hydrocarbons, and Pesticides on Freeze Tolerance of the Earthworm Dendrobaena octaedra|Environ. Toxicol. Chem.28(11): 2341-2347|2009|10.1897/09-078.1
117318|A||Houck,A., and S.K. Sessions|Could Atrazine Affect the Immune System of the Frog, Rana pipiens?|Bios77(4): 107-112|2006|10.1893/0005-3155(2006)77[107:RACAAT]2.0.CO;2
117319|A||Rohr,J.R., and P.W. Crumrine|Effects of an Herbicide and an Insecticide on Pond Community Structure and Processes|Ecol. Appl.15(4): 1135-1147|2005|10.1890/03-5353
117320|T||Ackley,J.A., H.P. Wilson, and T.E. Hines|Weed Management in Transplanted Bell Pepper (Capsicum frutescens) with Clomazone and Rimsulfuron|Weed Technol.12(3): 458-462|1998|10.1017/S0890037X00044146
117321|T||Summerlin,B., R. Gold, H. Howell, and J. Cook|Laboratory Evaluations of Five New Formulations of Ascend PT370 (AI Abamectin) Against the Red Imported Fire Ant, 1993|Arthropod Manag. Tests21:389-390|1993|
117322|T||Summerlin,B., R. Gold, and J. Cook|Laboratory Evaluation of Two New Formulations of Ascend (Abamectin 0.011% AI) Against the Red Imported Fire Ant, 1994|Arthropod Manag. Tests21:388-|1994|
117323|T||Summerlin,B., R. Gold, and H. Howell|A Comparison of Two Methods of Application on the Effectiveness of Ascend PT-370 (Abamectin 0.01% AI) and Amdro (Hydramethylnon 0.73% AI) Ant Baits on Red Imported Fire Ant Mounds, 1992|Arthropod Manag. Tests21:388-389|1992|
117324|T||Ward,C.R., D. McGinn, S. Walters, and D. Van Leeuwen|Control of Rough Harvester Ants in Low Water-Use Urban Parks, New Mexico, 1994|Arthropod Manag. Tests21:390-|1994|10.1093/amt/21.1.390
117325|A||Coors,A., E. Decaestecker, M. Jansen, and L. De Meester|Pesticide Exposure Strongly Enhances Parasite Virulence in an Invertebrate Host Model|Oikos117(12): 1840-1846|2008|
117326|T||Liang,W., G.A.C. Beattie, A. Meats, and R. Spooner-Hart|Impact on Soil-Dwelling Arthropods in Citrus Orchards of Spraying Horticultural Mineral Oil, Carbaryl or Methidathion|Aust. J. Entomol.46(1): 79-85|2007|10.1111/j.1440-6055.2007.00583.x
117327|T||Youmans,C.D.|Herbicidal Effects on the Soybean Cyst Nematode (Heterodera glycines) |Ph.D. Thesis, University of Arkansas, Fayetteville, AR:130 p.|1985|
117328|A||Kang,I.J., J. Moroishi, A. Nakamura, K. Nagafuchi, S.G. Kim, and Y. Oshima|Biological Monitoring for Detection of Toxic Chemicals in Water by the Swimming Behavior of Small Freshwater Fish|J. Fac. Agric. Kyushu Univ.54(1): 209-214|2009|10.5109/14062
117329|A||McFadden,T.W.|Copper and Zinc Poisoning in Brook Trout (Salvelinus fontinalis Mitchell)|M.S.Thesis, University of Manitoba, Canada:167 p.|1965|
117331|AT||EPA/OTS|Environmental Safety Data Sheet with Cover Letter|EPA/OTS Doc.#878212238:11 p.|1983|
117332|T||Fisher,H.L., M.R. Sumler, S.P. Shrivastava, B. Edwards, L.A. Oglesby, M.T. Ebron-McCoy, F. Copeland, R.J. Kavlock, and |Toxicokinetics and Structure-Activity Relationships of Nine Para-Substituted Phenols in Rat Embryos In Vitro|Teratology48(4): 285-297|1993|10.1002/tera.1420480402
117333|T||Stachler,J.M., and J.J. Kells|Wild Carrot (Daucus carota) Control in No-Tillage Cropping Systems|Weed Technol.11(3): 444-452|1997|10.1017/S0890037X00045231
117334|T||Jung,H.W., and B.K. Hwang|Isolation, Partial Sequencing, and Expression of Pathogenesis-Related cDNA Genes from Pepper Leaves Infected by Xanthomonas campestris pv. vesicatoria|Mol. Plant-Microbe Interact.13(1): 136-142|2000|10.1094/MPMI.2000.13.1.136
117335|T||Union Carbide Corp.|Progress Report on the Removal of Phenols from the Skin|EPA/OTS Doc. #86-870001389:7 p.|1987|
117336|T||Perreault,J.M., N.S. Eriksen-Hamel, and J.K. Whalen|Temporal and Spatial Dynamics of Earthworm Surface Casting in a Temperate Soybean Agroecosystem|Appl. Soil Ecol.37(1/2): 10-17|2007|10.1016/j.apsoil.2007.03.007
117337|T||Vencill,W.K., K.K. Hatzios, and H.P. Wilson|Absorption, Translocation, and Metabolism of 14C-Clomazone in Soybean (Glycine max) and Three Amaranthus Weed Species|J. Plant Growth Regul.9(3): 127-132|1990|10.1007/BF02041951
117338|T||Eriksson,S.|Postemergence Herbicides in Swedish Willow Stands|Biomass (Lond.)15(1): 55-66|1988|10.1016/0144-4565(88)90121-7
117339|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Submitting Results on N'-(4-Chlorophenyl)-N-(Methoxy-N-Methyl-Urea Rat Oral Study for Detection of Methemologlobinemia)|EPA/OTS Doc.#88-920004790:20 p.|1992|
117340|T||Thilsted,W.E.|Herbicide and Cultural Variables for Weed Control in No-Till Double Cropping|Ph.D.Thesis, Oklahoma State Univ., Stillwater, OK:62 p.|1981|
117341|T||Moseley,C.M., and E.S.,Jr. Hagood|Effect of Simulated Carryover or Misapplication of Chlorimuron or Imazaquin on Flue-Cured Tobacco|Tob. Sci.34:19-21|1990|
117342|T||Yaduraju,N.T., K.C. Gautam, and V.S. Mani|Studies on Weed Control in Maize Based Intercropping System|Indian J. Agron.31(3): 240-243|1986|
117343|T||Bell,C.E., B.E. Boutwell, E.J. Ogbuchiekwe, and M.E.,Jr. McGiffen|Weed Control in Carrots:  The Efficacy and Economic Value of Linuron|Hortscience35(6): 1089-1091|2000|10.21273/HORTSCI.35.6.1089
117344|T||Georgieva,I., and M. Kruleva|Cytochemical Investigation of Maize Pollen Following Treatment with Herbicides Aphalon and Dicuran|Dokl. Akad. Nauk Ross. Akad. Nauk (Non-English)48(4): 73-75|1995|
117345|T||Kruleva,M., and I.D. Georgieva|Investigation of Aphalon and Dicuran Pesticide Effect on Maize Using a Pollen Test|Dokl. Akad. Nauk Ross. Akad. Nauk (Non-English)45(5): 91-93|1995|
117346|T||Segerback,D., S. Osterman-Golkar, B. Molholt, and R. Nilsson|In Vivo Tissue Dosimetry as a Basis for Cross-Species Extrapolation in Cancer Risk Assessment of Propylene Oxide|Regul. Toxicol. Pharmacol.20:1-14|1994|10.1006/rtph.1994.1033
117347|T||Khasawinah,A.M., and J.F. Grutsch|Chlordane:  24-Month Tumorigenicity and Chronic Toxicity Test in Mice|Regul. Toxicol. Pharmacol.10:244-254|1989|10.1016/0273-2300(89)90051-2
117348|T||Khasawinah,A., and J.F. Grutsch|Chlordane:  Thirty-Month Tumorigenicity and Chronic Toxicity Test in Rats|Regul. Toxicol. Pharmacol.10:95-109|1989|10.1016/0273-2300(89)90017-2
117349|T||Bondy,G.S., W.H. Newsome, C.L. Armstrong, C.A.M. Suzuki, J. Doucet, S. Fernie, S.L. Hierlihy, M.M. Feeley, and M.G. Bar|trans-Nonachlor and cis-Nonachlor Toxicity in Sprague-Dawley Rats:  Comparison with Technical Chlordane|Toxicol. Sci.58:386-398|2000|10.1093/toxsci/58.2.386
117350|A||Riseng,C.M., R.W. Gensemer, and S.S. Kilham|The Effect of pH, Aluminum, and Chelator Manipulations on the Growth of Acidic and Circumneutral Species of Asterionella|Water Air Soil Pollut.60:249-261|1991|10.1007/BF00282626
117351|A||Parent,L., M.R. Twiss, and P.G.C. Campbell|Influences of Natural Dissolved Organic Matter on the Interaction of Aluminum with the Microalga Chlorella:  A Test of the Free-Ion Model of Trace Metal Toxicity|Environ. Sci. Technol.30(5): 1713-1720|1996|10.1021/es950718s
117352|A||Thomsen,A., B. Korsgaard, and J. Joensen|Effect of Aluminium and Calcium Ions on Survival and Physiology of Rainbow Trout Salmo gairdneri (Richardson) Eggs and Larvae Exposed to Acid Stress|Aquat. Toxicol.12:291-300|1988|10.1016/0166-445X(88)90057-4
117353|A||Parsons Engineering Science Inc.|Aluminum Water-Effect Ratio Study for the Calculation of a Site-Specific Water Quality Standard in Welsh Reservoir|Parsons Engineering Science, Inc.:152 p.|1997|
117354|A||Wilkinson,K.J., P.G.C. Campbell, and P. Couture|Effect of Fluoride Complexation on Aluminum Toxicity Towards Juvenile Atlantic Salmon (Salmo salar)|Can. J. Fish. Aquat. Sci.47:1446-1452|1990|10.1139/f90-163
117355|A||AScI Corp.|Aluminum Water-Effect Ratio for Georgia-Pacific Corporation Woodland, Maine Pulp & Paper Operations Discharge and St. Croix River|AScI Corporation, Environmental Testing Division, Duluth, MN:49 p.|1996|
117356|A||AScI Corp.|Aluminum Water-Effect Ratio for the 3M Middleway Plant Effluent Discharge Middleway, West Virginia|AScI Corporation, Environmental Testing Division, Duluth, MN:76 p.|1994|
117357|A||Wold,L.A.|Some Effects of Aluminum Sulfate and Arsenic Sulfide on Daphnia pulex and Chironomus tentans|Ph.D.Thesis, Washington State University, Pullman, WA:134 p.|2001|
117358|A||Kline,E.|The Effects of Organic Complexation on Aluminum Toxicity to Rainbow Trout (Oncorhynchus mykiss)|M.S.Thesis, University of Wyoming, Laramie, WY:68 p.|1992|
117359|A||Gensemer,R.W., R.E.H. Smith, and H.C. Duthie|Comparative Effects of pH and Aluminum on Silica-Limited Growth and Nutrient Uptake in Asterionella ralfsii var. americana (Bacillariophyceae)|J. Phycol.29:36-44|1993|10.1111/j.1529-8817.1993.tb00277.x
117360|A||Tien,C.J.|Biosorption of Metal Ions by Freshwater Algae with Different Surface Characteristics|Process Biochem.38(4): 605-613|2002|10.1016/S0032-9592(02)00183-8
117361|T||Tsekova,K., and S. Ilieva|Copper Removal from Aqueous Solution Using Aspergillus niger Mycelia in Free and Polyurethane-Bound Form|Appl. Microbiol. Biotechnol.55(5): 636-637|2001|10.1007/s002530000573
117362|T||Potter,F.J., J.T. Wiskich, and I.B. Dry|The Production of an Inducible Antisense Alternative Oxidase (Aox1a) Plant|Planta (Multiple Languages)212(2): 215-221|2001|10.1007/s004250000369
117363|T||Jiang,W., D. Liu, and X. Liu|Effects of Copper on Root Growth, Cell Division, and Nucleolus of Zea mays|Biol. Plant. (Praha)44(1): 105-109|2001|10.1023/A:1017982607493
117364|T||Hayashi,M., T. Kuge, D. Endoh, K. Nakayama, J. Arikawa, A. Takazawa, and T. Okui|Hepatic Copper Accumulation Induces DNA Strand Breaks in the Liver Cells of Long-Evans Cinnamon Strain Rats|Biochem. Biophys. Res. Commun.276(1): 174-178|2000|10.1006/bbrc.2000.3454
117365|T||Granger,C.L., and R.J. Cyr|Characterization of the Yeast Copper-Inducible Promoter System in Arabidopsis thaliana|Plant Cell Rep.20(3): 227-234|2001|10.1007/s002990000308
117366|T||Chaignon,V., I. Sanchez-Neira, P. Herrmann, B. Jaillard, and P. Hinsinger|Copper Bioavailability and Extractability as Related to Chemical Properties of Contaminated Soils from a Vine-Growing Area|Environ. Pollut.123(2): 229-238|2003|10.1016/S0269-7491(02)00374-3
117367|T||Chaignon,V., F. Bedin, and P. Hinsinger|Copper Bioavailability and Rhizosphere pH Changes as Affected by Nitrogen Supply for Tomato and Oilseed Rape Cropped on an Acidic and a Calcareous Soil|Plant Soil243(2): 219-228|2002|10.1023/A:1019942924985
117368|T||Armstrong,C., W. Leong, and G.J. Lees|Comparative Effects of Metal Chelating Agents on the Neuronal Cytotoxicity Induced by Copper (Cu+2), Iron (Fe+3) and Zinc in the Hippocampus|Brain Res.892(1): 51-62|2001|10.1016/S0006-8993(00)03195-4
117369|T||Ariumi,H., R. Saito, S. Nago, M. Hyakusoku, Y. Takano, and H. Kamiya|The Role of Tachykinin NK-1 Receptors in the Area Postrema of Ferrets in Emesis|Neurosci. Lett.286(2): 123-126|2000|10.1016/S0304-3940(00)01113-7
117370|A||Zhao,C.M., W.H. Fan, and W.X. Wang|Aqueous and Dietary Copper Uptake and Elimination in Daphnia magna Determined by the 67Cu Radiotracer|Environ. Toxicol. Chem.28(11): 2360-2366|2009|10.1897/09-069.1
117371|T||Piearce,T.G., C.J. Langdon, A.A. Meharg, and K.T. Semple|Yellow Earthworms:  Distinctive Pigmentation Associated with Arsenic- and Copper-Tolerance in Lumbricus rubellus|Soil Biol. Biochem.34(12): 1833-1838|2002|10.1016/S0038-0717(02)00176-1
117372|T||Osawa,H., and H. Matsumoto|Aluminium Triggers Malate-Independent Potassium Release via Ion Channels from the Root Apex in Wheat|Planta (Multiple Languages)215(3): 405-412|2002|10.1007/s00425-002-0767-8
117373|A||Kralj-Klobucar,N.|Copper Induced Alteration of Liver Enzymes Activity|In: P.Collery (Ed.), Metal Ions in Biology and Medicine, International Symposium, Montrouge, France5:631-635|1998|
117374|T||Sunkar,R., D. Bartels, and H.H. Kirch|Overexpression of a Stress-Inducible Aldehyde Dehydrogenase Gene from Arabidopsis thaliana in Transgenic Plants Improves Stress Tolerance|Plant J.35(4): 452-464|2003|10.1046/j.1365-313X.2003.01819.x
117375|T||Patsikka,E., M. Kairavuo, F. Sersen, E.M. Aro, and E. Tyystjarvi|Excess Copper Predisposes Photosystem II to Photoinhibition In Vivo by Outcompeting Iron and Causing Decrease in Leaf Chlorophyll|Plant Physiol.129(3): 1359-1367|2002|10.1104/pp.004788
117376|T||Zheng,Z., T.M. Uchacz, and J.L. Taylor|Isolation and Characterization of Novel Defence-Related Genes Induced by Copper, Salicylic Acid, Methyl Jasmonate, Abscisic Acid and Pathogen Infection in Brassica carinata|Mol. Plant Pathol.2(3): 159-169|2001|10.1046/j.1364-3703.2001.00063.x
117377|T||Zhang,Y., T.Y. Chai, J. Dong, W. Zhao, C.C. An, Z.L. Chen, and G. Burkard|Cloning and Expression Analysis of the Heavy-Metal Responsive Gene PvSR2 from Bean|Plant Sci.161(4): 783-790|2001|10.1016/S0168-9452(01)00470-8
117378|T||Fageria,N.K.|Micronutrients' Influence on Root Growth of Upland Rice, Common Bean, Corn, Wheat, and Soybean|J. Plant Nutr.25(3): 613-622|2002|10.1081/PLN-120003385
117379|T||Xiang,C., and D.J. Oliver|Glutathione Metabolic Genes Coordinately Respond to Heavy Metals and Jasmonic Acid in Arabidopsis|Plant Cell10(9): 1539-1550|1998|10.1105/tpc.10.9.1539
117380|A||Komjarova,I., and R. Blust|Application of a Stable Isotope Technique to Determine the Simultaneous Uptake of Cadmium, Copper, Nickel, Lead, and Zinc by the Water Flea Daphnia magna from Water and the Green Algae Pseudokirchneriella subcapitata|Environ. Toxicol. Chem.28(8): 1739-1748|2009|10.1897/08-437.1
117381|A||Kamal,M., A.E. Ghaly, N. Mahmoud, and R. Cote|Phytoaccumulation of Heavy Metals by Aquatic Plants|Environ. Int.29(8): 1029-1039|2004|10.1016/S0160-4120(03)00091-6
117382|A||Demidchik,V., A. Sokolik, and V. Yurin|Characteristics of Non-Specific Permeability and H+-ATPase Inhibition Induced in the Plasma Membrane of Nitella flexilis by Excessive Cu2+|Planta (Multiple Languages)212(4): 583-590|2001|10.1007/s004250000422
117383|A||Won,E.J., S. Raisuddin, and K.H. Shin|Evaluation of Induction of Metallothionein-Like Proteins (MTLPs) in the Polychaetes for Biomonitoring of Heavy Metal Pollution in Marine Sediments|Mar. Pollut. Bull.57(6-12): 544-551|2008|10.1016/j.marpolbul.2008.02.025
117385|T||Moulding,J.D.|The Impact on Forest Bird and Non-Target Arthropod Populations of the Use of the Insecticide Sevin for Gypsy Moth Control|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:102 p.|1972|
117386|A||Ye,R., and E. Zou|Hypoxia does not Promote Naphthalene Bioaccumulation in the Brown Shrimp, Penaeus aztecus|Mar. Pollut. Bull.57(6-12): 307-312|2008|10.1016/j.marpolbul.2008.02.034
117387|A||Hong,Y.W., D.X. Yuan, Q.M. Lin, and T.L. Yang|Accumulation and Biodegradation of Phenanthrene and Fluoranthene by the Algae Enriched from a Mangrove Aquatic Ecosystem|Mar. Pollut. Bull.56(8): 1400-1405|2008|10.1016/j.marpolbul.2008.05.003
117388|A||Pariseau,J., R. Saint-Louis, M. Delaporte, M.A. El Khair, P. McKenna, R. Tremblay, T.J. Davidson, E. Pelletier, and F.C|Potential Link Between Exposure to Fungicides Chlorothalonil and Mancozeb and Haemic Neoplasia Development in the Soft-Shell Clam Mya arenaria:  A Laboratory Experiment|Mar. Pollut. Bull.58(4): 503-514|2009|10.1016/j.marpolbul.2008.12.011
117389|A||Cavalcante,D.G.S.M., C.B.R. Martinez, and S.H. Sofia|Genotoxic Effects of Roundup on the Fish Prochilodus lineatus|Mutat. Res., Genet. Toxicol. Environ. Mutagen.655(1/2): 41-46|2008|10.1016/j.mrgentox.2008.06.010
117390|A||Bettoli,P.W., M.J. Maceina, R.L. Noble, and R.K. Betsill|Response of a Reservoir Fish Community to Aquatic Vegetation Removal|N. Am. J. Fish. Manag.13(1): 110-124|1993|10.1577/1548-8675(1993)013<0110:ROARFC>2.3.CO;2
117391|A||Bellas,J., L. Saco-Alvarez, O. Nieto, and R. Beiras|Ecotoxicological Evaluation of Polycyclic Aromatic Hydrocarbons Using Marine Invertebrate Embryo-Larval Bioassays|Mar. Pollut. Bull.57(6-12): 493-502|2008|10.1016/j.marpolbul.2008.02.039
117393|T||Villatoro-Pulido,M., R. Font, M.I. De Haro-Bravo, M. Romero-Jimenez, J. Anter, A. De haro Bailon, A. Alonso-Moraga, and|Modulation of Genotoxicity and Cytotoxicity by Radish Grown in Metal-Contaminated Soils|Mutagenesis24(1): 51-57|2009|10.1093/mutage/gen051
117394|A||Dissanayake,A., T.S. Galloway, and M.B. Jones|Physiological Responses of Juvenile and Adult Shore Crabs Carcinus maenas (Crustacea:  Decapoda) to Pyrene Exposure|Mar. Environ. Res.66(4): 445-450|2008|10.1016/j.marenvres.2008.07.006
117395|T||Chakravarti,D., and B.B.L. Thakore|Effect of Metalaxyl Spray on Nitrogen, Phosphorus, Potassium and Chlorophyll Contents of Cucurbits|J. Mycol. Plant Pathol.27(1): 72-74|1997|
117396|A||Mason,Y., E. Choshen, and C. Rav-Acha|Carbamate Insecticides:  Removal from Water by Chlorination and Ozonation|Water Res.24(1): 11-21|1990|10.1016/0043-1354(90)90059-F
117397|T||Kosuta,S., C. Hamel, Y. Dalpe, and M. St-Arnaud|Copper Release from Chemical Root-Control Baskets in Hardwood Tree Production|J. Environ. Qual.31(3): 910-916|2002|
117398|T||Van Hoof,N.A.L.M., V.H. Hassinen, H.W.J. Hakvoort, K.F. Ballintijn, H. Schat, J.A.C. Verkleij, W.H.O. Ernst, S.O. Karen|Enhanced Copper Tolerance in Silene vulgaris (Moench) Garcke Populations from Copper Mines is Associated with Increased Transcript Levels of a 2b-Type Metallothionein Gene|Plant Physiol.126(4): 1519-1526|2001|10.1104/pp.126.4.1519
117399|A||Ni,W.Z., and Z.L. Zhu|Gaseous Nitrogen Losses and Nitrous Oxide Emission from a Flooded Paddy Soil as Affected by Illumination and Copper Addition|Biol. Fertil. Soils34(6): 460-462|2001|10.1007/s003740100418
117400|T||Llugany,M., A. Lombini, C. Poschenrieder, E. Dinelli, and J. Barcelo|Different Mechanisms Account for Enhanced Copper Resistance in Silene armeria Ecotypes from Mine Spoil and Serpentine Sites|Plant Soil251(1): 55-63|2003|10.1023/A:1022990525632
117401|A||Lock,K., and C.R. Janssen|Influence of Aging on Copper Bioavailability in Soils|Environ. Toxicol. Chem.22(5): 1162-1166|2003|10.1002/etc.5620220527
117402|A||Peck,M.R., D.A. Klessa, and D.J. Baird|A Tropical Sediment Toxicity Test Using the Dipteran Chironomus crassiforceps to Test Metal Bioavailability with Sediment pH Change in Tropical Acid-Sulfate Sediments|Environ. Toxicol. Chem.21(4): 720-728|2002|
117403|A||Riveros,A., M. Zuniga, A. Hernandez, and A. Camano|Cellular Biomarkers in Native and Transplanted Populations of the Mussel Perumytilus purpuratus in the Intertidal Zones of San Jorge Bay, Antofagasta, Chile|Arch. Environ. Contam. Toxicol.42(3): 303-312|2002|10.1007/s00244-001-0031-4
117404|T||Drazkiewicz,M., E. Skorzynska-Polit, and Z. Krupa|Response of the Ascorbate-Glutathione Cycle to Excess Copper in Arabidopsis thaliana (L.)|Plant Sci.164(2): 195-202|2003|10.1016/S0168-9452(02)00383-7
117405|T||Ge,Y., P. Murray, S. Sauve, and W. Hendershot|Low Metal Bioavailability in a Contaminated Urban Site|Environ. Toxicol. Chem.21(5): 954-961|2002|10.1002/etc.5620210509
117406|A||Waser,W., O. Bausheva, and M. Nikinmaa|The Copper-Induced Reduction of Critical Swimming Speed in Rainbow Trout (Oncorhynchus mykiss) is Not Caused by Changes in Gill Structure|Aquat. Toxicol.94(1): 77-79|2009|10.1016/j.aquatox.2009.05.016
117407|A||Qian,H., J. Li, L. Sun, W. Chen, G.D. Sheng, W. Liu, and Z. Fu|Combined Effect of Copper and Cadmium on Chlorella vulgaris Growth and Photosynthesis-Related Gene Transcription|Aquat. Toxicol.94(1): 56-61|2009|10.1016/j.aquatox.2009.05.014
117409|T||Haux,J.E.|Specificity of Ethephon as a Butyrylcholinesterase Inhibitor and Phosphorylating Agent|Ph.D. Thesis, University of California, Berkeley, CA:82 p.|2002|
117411|A||Yoon,S.H., Y. Itoh, G. Kaneko, M. Nakaniwa, M. Ohta, and S. Watabe|Molecular Characterization of Japanese Sillago Vitellogenin and Changes in Its Expression Levels on Exposure to 17beta-Estradiol and 4-tert-Octylphenol|Mar. Biotechnol.10(1): 19-30|2008|10.1007/s10126-007-9055-8
117412|T||Arossi,G.A., R.R. Dihl, M. Lehmann, K.S. Cunha, M.L. Reguly, and H.H.R. De Andrade|In Vivo Genotoxicity of Dental Bonding Agents|Mutagenesis24(2): 169-172|2009|10.1093/mutage/gen066
117413|T||Pinto,M.C., and A.P. Do Prado|Resistance of Musca domestica L. Populations to Cyromazine (Insect Growth Regulator) in Brazil|Mem. Inst. Oswaldo Cruz96(5): 729-732|2001|10.1590/S0074-02762001000500027
117414|T||Bekesiova,B., S. Hraska, J. Libantova, J. Moravcikova, and I. Matusikova|Heavy-Metal Stress Induced Accumulation of Chitinase Isoforms in Plants|Mol. Biol. Rep.35(4): 579-588|2008|10.1007/s11033-007-9127-x
117415|T||Dean,S.W., A. Coates, T.M. Brooks, and B. Burlinson|Benzo(a)pyrene Site of Contact Mutagenicity in Skin of Muta Mouse|Mutagenesis13(5): 515-518|1998|10.1093/mutage/13.5.515
117416|A||Carney,M.W., K. Erwin, R. Hardman, B. Yuen, D.C. Volz, D.E. Hinton, and S.W. Kullman|Differential Developmental Toxicity of Naphthoic Acid Isomers in Medaka (Oryzias latipes) Embryos|Mar. Pollut. Bull.57(6-12): 255-266|2008|10.1016/j.marpolbul.2008.02.036
117417|A||Minier,C., J. Forget-Leray, A. Bjornstad, and L. Camus|Multixenobiotic Resistance, Acetyl-Choline Esterase Activity and Total Oxyradical Scavenging Capacity of the Arctic Spider Crab, Hyas araneus, Following Exposure to Bisphenol A, Tetra Bromo Diphenyl Ether and Diallyl Ph|Mar. Pollut. Bull.56(8): 1410-1415|2008|10.1016/j.marpolbul.2008.05.005
117418|A||Wang,K.J., J. Bo, M. Yang, H.S. Hong, X.H. Wang, F.Y. Chen, and J.J. Yuan|Hepcidin Gene Expression Induced in the Developmental Stages of Fish upon Exposure to Benzo[a]pyrene (BaP)|Mar. Environ. Res.67(3): 159-165|2009|10.1016/j.marenvres.2008.12.008
117419|A||Miao,J.J., L.Q. Pan, J. Liu, and L. Zhang|Effects of Benzo(a)pyrene on DNA Damage and Histological Alterations in Gonad of Scallop Chlamys farreri|Mar. Environ. Res.67(1): 47-52|2009|10.1016/j.marenvres.2008.10.006
117420|A||Roesijadi,G., S. Rezvankhah, A. Perez-Matus, A. Mitelberg, K. Torruellas, and P.A. Van Veld|Dietary Cadmium and Benzo(a)pyrene Increased Intestinal Metallothionein Expression in the Fish Fundulus heteroclitus|Mar. Environ. Res.67(1): 25-30|2009|10.1016/j.marenvres.2008.10.002
117421|A||Matozzo,V., G. Rova, F. Ricciardi, and M.G. Marin|Immunotoxicity of the Xenoestrogen 4-Nonylphenol to the Cockle Cerastoderma glaucum|Mar. Pollut. Bull.57(6-12): 453-459|2008|10.1016/j.marpolbul.2008.02.019
117422|A||Cyrus,W.G., G.W. Daniel, M.O. Nanyingi, F.K. Njonge, and J.M. Mbaria|Antibacterial and Cytotoxic Activity of Kenyan Medicinal Plants|Mem. Inst. Oswaldo Cruz103(7): 650-652|2008|10.1590/S0074-02762008000700004
117423|A||Amanuma,K., S. Tone, M. Nagaya, M. Matsumoto, T. Watanabe, Y. Totsuka, K. Wakabayashi, and Y. Aoki|Mutagenicity of 2-(2-(Acetylamino)-4-[bis(2-Hydroxyethyl)Amino)-5-Methoxyphenyl)-5-Amino-7-Bromo-4-Chloro-2H-Benzotriazole (PBTA-6) and Benzo(a)pyrene (BaP) in the Gill and Hepatopancreas of rpsL Transgenic Zebrafish|Mutat. Res.656(1-2): 36-43|2008|10.1016/j.mrgentox.2008.07.001
117424|A||Maceina,M.J., M.D. Marshall, and S.M. Sammons|Impacts of Endothall Applications on Largemouth Bass Spawning Behavior and Reproductive Success|N. Am. J. Fish. Manag.28(6): 1812-1817|2008|10.1577/M08-041.1
117425|A||Fang,J.K.H., R.S.S. Wu, G.J. Zheng, P.K.S. Lam, and P.K.S. Shin|Induction, Adaptation and Recovery of Lysosomal Integrity in Green-Lipped Mussel Perna viridis|Mar. Pollut. Bull.57(6-12): 467-472|2008|10.1016/j.marpolbul.2008.03.038
117426|A||Sundt,R.C., T. Baussant, and J. Beyer|Uptake and Tissue Distribution of C4-C7 Alkylphenols in Atlantic Cod (Gadus morhua): Relevance for Biomonitoring of Produced Water Discharges from Oil Production|Mar. Pollut. Bull.58(1): 72-79|2009|10.1016/j.marpolbul.2008.09.012
117427|A||Scholefield,R.J., K.S. Slaght, and B.E. Stephens|Seasonal Variation in Sensitivity of Larval Sea Lampreys to the Lampricide 3-Trifluoromethyl-4-Nitrophenol|N. Am. J. Fish. Manag.28(5): 1609-1617|2008|10.1577/M06-178.1
117428|T||Avis,T.J., D. Rioux, M. Simard, M. Michaud, and R.J. Tweddell|Ultrastructural Alterations in Fusarium sambucinum and Heterobasidion annosum Treated with Aluminum Chloride and Sodium Metabisulfite|Biochem. Cell. Biol.99(2): 167-175|2009|
117429|T||Friesen,G.H.|Protection of Snapbeans from Substituted Urea Injury by Prior Treatment with Dinitroaniline Herbicides|Can. J. Plant Sci.59(2): 535-537|1979|10.4141/cjps79-088
117431|A||Pauwels,S.J.|Some Effects of Exposure to Acid and Aluminum on Several Lifestages of the Atlantic salmon (Salmo salar)|Ph.D.Thesis, University of Maine, Orono, ME:177 p.|1990|
117432|T||Bio/Tox Research Laboratories Inc.|To Determine the Effect, if Any, Upon Egg Fertility, Hatchability, and Progeny Viability from Eggs Produced by Mature Layers and Fertile Males that were Fed Rations Contaminated with Various Levels of Technical Chlordan|Report Prepared by Bio/Tox Research Lab.Inc., for Velsicol chemcial Corp., Chicago, IL:28 p.|1971|
117433|T||Biotoxicological Research Assoc|To Study the Effect Upon Egg Fertility and Chick Viability Using Eggs from Mature Birds that were Fed on Diets Contaminated wtih Specified Levels of Chlordane for Several Weeks, Beginning at Twelve (12) Weeks of Age|Report Prepared by Acres, Inc.for Velsicol Chemical Corp., Chicago, IL:65 p.|1969|
117434|A||Feng,D., C. Ke, S. Li, C. Lu, and F. Guo|Pyrethroids as Promising Marine Antifoulants:  Laboratory and Field Studies|Mar. Biotechnol.11(2): 153-160|2009|10.1007/s10126-008-9130-9
117435|AT||Omer,S.M., G.P. Georghiou, and S.N. Irving|DDT/Pyrethroid Resistance Inter-Relationships in Anopheles stephensi|Mosq. News40(2): 200-209|1980|
117436|A||Rost,B., S.A. Kranz, K.U. Richter, and P.D. Tortell|Isotope Disequilibrium and Mass Spectrometric Studies of Inorganic Carbon Acquisition by Phytoplankton|Limnol. Oceanogr. Methods5:328-337|2007|10.4319/lom.2007.5.328
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117445|A||Li,B., C. Wang, K. Ye, A. Yu, Y. Chen, and Z. Zuo|Differential Gene Expression in the Brain of Sebastiscus marmoratus in Response to Exposure to Polychlorinated Biphenyls (PCBs)|Mar. Environ. Res.66(5): 548-552|2008|10.1016/j.marenvres.2008.09.001
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117447|AT||Dantas,A., M. Ortigao, Y. Traub-Cseko, P.F.C. Polaquevitch, H.S. Barbosa, and S.L. De Castro|Studies on the Effect of Dinitroaniline Herbicides in Trypanosoma cruzi|Mem. Inst. Oswaldo Cruz93(suppl. II): 311-312|1998|
117448|A||Egleston,E.S., and F.M.M. Morel|Nickel Limitation and Zinc Toxicity in a Urea-Grown Diatom|Limnol. Oceanogr.53(6): 2462-2471|2008|10.4319/lo.2008.53.6.2462
117449|T||De Arias,A.R., and A. Fournet|Fipronil Insecticide:  Novel Application Against Triatomine Insect Vectors of Chagas Disease|Mem. Inst. Oswaldo Cruz97(4): 535-539|2002|10.1590/S0074-02762002000400016
117450|T||Mount,G.A., H.G. Wilson, and N.W. Pierce|Effectiveness of Ultralow Volume Ground Aerosols of Pyrethroid Adulticides Against Mosquitoes and House Flies|Mosq. News34(3): 291-293|1974|
117451|AT||Mather,T.N., and G.R. DeFoliart|Repellency and Initial Toxicity of Abate and Dursban Formulations to Aedes triseriatus in Oviposition Sites|Mosq. News43(4): 474-479|1983|
117452|T||Poli,P., A. Buschini, F.M. Restivo, A. Ficarelli, F. Cassoni, I. Ferrero, and C. Rossi|Comet Assay Application in Environmental Monitoring: DNA Damage in Human Leukocytes and Plant Cells in Comparison with Bacterial and Yeast Tests|Mutagenesis14(6): 547-555|1999|10.1093/mutage/14.6.547
117454|A||Tairova,Z.M., A.M.B. Giessing, R. Hansen, and O. Andersen|1-Hydroxypyrene as a Biomarker of PAH Exposure in the Marine Polychaete Nereis diversicolor|Mar. Environ. Res.67(1): 38-46|2009|10.1016/j.marenvres.2008.10.005
117456|A||Andersson,S., L. Kautsky, and N. Kautsky|Effects of Salinity and Bromine on Zygotes and Embryos of Fucus vesiculosus from the Baltic Sea|Mar. Biol.114:661-665|1992|10.1007/BF00357263
117457|T||Mizuno,T., K. Fujiki, A. Sasakawa, N. Hisamoto, and K. Matsumoto|Role of the Caenorhabditis elegans Shc Adaptor Protein in the C-Jun N-Terminal Kinase Signaling Pathway|Mol. Cell. Biol.28(23): 7041-7049|2008|10.1128/MCB.00938-08
117458|A||Mann,R.M.|Toxicological Impact of Agricultural Surfactants on Australian Frogs|Ph.D.Thesis, Curtin University of Technology, Perth, Australia:200 p.|2000|
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117464|T||Searle,P.F., B.L. Davison, G.W. Stuart, T.M. Wilkie, G. Norstedt, and R.D. Palmiter|Regulation, Linkage, and Sequence of Mouse Metallothionein I and II Genes|Mol. Cell. Biol.4(7): 1221-1230|1984|
117465|T||Tham,L.X., S. Matsuhashi, and T. Kume|Growth and Fruitbody Formation of Ganoderma lucidum on Media Supplemented with Vanadium, Selenium and Germanium|Mycoscience40(1): 87-92|1999|10.1007/BF02465679
117466|T||Jakhar,K.K., and J.R. Sadana|Sequential Pathology of Experimental Aflatoxicosis in Quail and the Effect of Selenium Supplementation in Modifying the Disease Process|Mycopathologia157(1): 99-109|2004|10.1023/B:MYCO.0000012227.38967.68
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117470|A||Ghosh,S., and M.K. Mukhopadhyay|Toxicity of Five Industrial Metals on Gangetic Catfish, Rita rita|Geobios (Jodhpur)27(2-3): 93-96|2000|
117471|A||Khairy,H.M.|Toxicity and Accumulation of Copper in Nannochloropsis oculata (Eustigmatophyceae, Heterokonta)|World Appl. Sci. J.6(3): 378-384|2009|
117473|T||Peng,H.Y., X.E. Yang, and S.K. Tian|Accumulation and Ultrastructural Distribution of Copper in Elsholtzia splendens|J. Zhejiang Univ., Sci. B6(5): 311-318|2005|10.1631/jzus.2005.B0311
117474|T||Bradley,M.D., and N.W. Runham|Heavy Metal Toxicity in the Snail Helix aspersa maxima Reared on Commercial Farms:  Cellular Pathology|BCPC Symp. Proc.66:353-358|1996|
117475|T||Panou-Filotheou,E., A.M. Bosabalidis, and S. Karataglis|Effects of Cu Excess on Oregano [Origanum vulgare subsp. hirtum (Link) Ietswaart]. II Physiological Effects|In: I.Tsekos and M.Moustakas (Eds.), Progress in Botanical Research, Balkan Botanical Congress, Dordrecht, Netherlands:349-352|1998|
117476|A||Ortiz,J.B., M.L. Gonzalez de Canales, and C. Sarasquete|Quantification and Histopathological Alterations Produced by Sublethal Concentrations of Copper in Fundulus heteroclitus(Cuantificacion y Alteraciones Histopatologicas Producidas por Concentraciones Subletales de Cobre |Cienc. Mar.25(1): 119-143|1999|10.7773/cm.v25i1.644
117477|A||Oliva,M., M.C. Garrido, D. Sales Marquez, and M.L. Gonzalez de Canales|Sublethal and Lethal Toxicity in Juvenile Senegal Sole (Solea senegalensis) Exposed to Copper:  A Preliminary Toxicity Range-Finding Test|Exp. Toxicol. Pathol.61(2): 113-121|2009|10.1016/j.etp.2008.06.001
117478|T||Hauck,M., and T. Zoller|Copper Sensitivity of Soredia of the Epiphytic Lichen Hypogymnia physodes|Lichenologist35(3): 271-274|2003|10.1016/S0024-2829(03)00023-9
117479|T||Fageria,N.K.|Influence of Micronutrients on Dry Matter Yield and Interaction with Other Nutrients in Annual Crops|Pesqui. Agropecu. Bras. (Multiple Languages)37(12): 1765-1772|2002|10.1590/S0100-204X2002001200013
117480|T||Maneesh,M., and H. Jayalekshmi|Effect of Ascorbic Acid, alpha-Tocopherol, Lecithin and L-Ornithine-L-Aspartate on Ethanol Induced Hypoproteinemia and Hyperlipidemia in Rats|Indian J. Physiol. Pharmacol.49(4): 422-426|2005|
117481|A||Vonesh,J.R., and J.M. Kraus|Pesticide Alters Habitat Selection and Aquatic Community Composition|Oecologia160(2): 379-385|2009|10.1007/s00442-009-1301-5
117482|A||Vioque-Fernandez,A., E.A. de Almeida, and J. Lopez-Barea|Biochemical and Proteomic Effects in Procambarus clarkii After Chlorpyrifos or Carbaryl Exposure Under Sublethal Conditions|Biomarkers (Lond.)14(5): 299-310|2009|10.1080/13547500902913211
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117484|T||Ladeyn,I., C. Plassard, and S. Staunton|Mycorrhizal Association of Maritime Pine, Pinus pinaster, with Rhizopogon roseolus has Contrasting Effects on the Uptake from Soil and Root-to-Shoot Transfer of 137Cs, 85Sr and 95mTc|J. Environ. Radioact.99(5): 853-863|2008|10.1016/j.jenvrad.2007.10.012
117485|T||Homa,J., S.R. Sturzenbaum, A.J. Morgan, and B. Plytycz|Disrupted Homeostasis in Coelomocytes of Eisenia fetida and Allolobophora chlorotica Exposed Dermally to Heavy Metals|Eur. J. Soil Sci.43(Suppl. 1): S273 - S280|2007|
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117490|T||Mineta,K., E. Akahoshi, K. Takahashi, T. Horiguchi, H. Hayashi, T. Ohyama, T. Ikarashi, T. Fujiwara, and M. Chino|Localization of MT2a Gene Promoter Expression is Different from the Site(s) of Copper Accumulation in the Roots of Transgenic Arabidopsis thaliana|Soil Sci. Plant Nutr.46(1): 189-197|2000|10.1080/00380768.2000.10408774
117491|T||Kumar,K.M., P. Thangavel, and V. Subburam|Effect of Heavy Metals on the Regeneration Potential of the Stem Cutting of the Medicinal Plant, Portulaca oleracea Linn.|Proc. Acad. Environ. Biol.5(2): 139-144|1996|
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117494|A||Li,S., R. Liu, H. Wang, and H. Shan|Accumulations of Cadmium, Zinc, and Copper by Rice Plants Grown on Soils Amended with Composted Pig Manure|Commun. Soil Sci. Plant Anal.40(11): 1889-1905|2009|10.1080/00103620902896779
117495|T||Irato,P., A. Santon, E. Ossi, and V. Albergoni|Interactions Between Metals in Rat Liver and Kidney:  Localization of Metallothionein|Histochem. J.33(2): 79-86|2001|10.1023/A:1017944129801
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117553|T||Liu,Q., C. Hu, Q. Tan, X. Sun, J. Su, and Y. Liang|Effects of As on As Uptake, Speciation, and Nutrient Uptake by Winter Wheat (Triticum aestivum L.) Under Hydroponic Conditions|J. Environ. Sci.20(3): 326-331|2008|10.1016/S1001-0742(08)60051-0
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117599|T||Dorantes Guevara,M.A.|Pharmacokinetic and Metabolic Profile of Chloroxylenol|Ph.D.Thesis, University of Texas, Austin, TX:268 p.|1990|
117600|T||Dow Chemical Co.|Results of Range Finding Toxicological Tests on 3,5-Xylenol|EPA/OTS; Doc #86-870002229:4 p.|1987|
117601|A||Chacon,O., M.T. Viana, A. Farias, C. Vazquez, and Z. Garcia-Esquivel|Circadian Metabolic Rate and Short-Term Response of Juvenile Green Abalone (Haliotis fulgens Philippi) to Three Anesthetics|J. Shellfish Res.22(1): 415-421|2003|
117602|T||Eastman Kodak Co.|Letter from Eastman Kodak Co to USEPA Submitting Enclosed Toxicity Report on 3,4-Dimethylphenol with Attachment|EPA/OTS; Doc #86-920000068:4 p.|1991|
117603|A||Clark,J.R., D.S. Cherry, and J.,Jr. Cairns|Food Quality of Aufwuchs from Artificial Streams Receiving Low Levels of Perturbations|Water Resour. Bull.18(5): 761-767|1982|10.1111/j.1752-1688.1982.tb00070.x
117605|T||Maury,A.N., and K.P. Verma|Zn Tolerance by Finger Millet (Eleusine coracana L.) Under Interactions of Certain Heavy Metals and NPK|Geobios (Jodhpur)24(2-3): 138-141|1997|
117606|T||Burke,R., E. Commons, and J. Camakaris|Expression and Localisation of the Essential Copper Transporter DmATP7 in Drosophila Neuronal and Intestinal Tissues|Int. J. Biochem. Cell Biol.40(9): 1850-1860|2008|10.1016/j.biocel.2008.01.021
117607|T||Turski,M.L., and D.J. Thiele|Drosophila Ctr1A Functions as a Copper Transporter Essential for Development|J. Biol. Chem.282(33): 24017-24026|2007|10.1074/jbc.M703792200
117608|T||Lukasik,P., and R. Laskowski|Increased Respiration Rate as a Result of Adaptation to Copper in Confused Flour Beetle, Tribolium confusum Jacquelin du Val|Bull. Environ. Contam. Toxicol.79(3): 311-314|2007|10.1007/s00128-007-9227-2
117609|T||Rombach,E.P., P.S. Barboza, and J.E. Blake|Costs of Gestation in an Arctic Ruminant:  Copper Reserves in Muskoxen|Comp. Biochem. Physiol. C Toxicol. Pharmacol.134(1): 157-168|2003|10.1016/S1532-0456(02)00222-3
117610|T||Balamurugan,K., D. Egli, H. Hua, R. Rajaram, G. Seisenbacher, O. Georgiev, and W. Schaffner|Copper Homeostasis in Drosophila by Complex Interplay of Import, Storage and Behavioral Avoidance|EMBO J.26(4): 1035-1044|2007|10.1038/sj.emboj.7601543
117611|T||Behlau,F., J.,Jr. Belasque, A. Bergamin Filho, J.H. Graham, R.P.,Jr. Leite, and T.R. Gottwald|Copper Sprays and Windbreaks for Control of Citrus Canker on Young Orange Trees in Southern Brazil|Crop Prot.27(3-5): 807-813|2008|10.1016/j.cropro.2007.11.008
117612|T||Nayaka,S., P.K. Singh, and D.K. Upreti|Fungicidal Elements Accumulated in Cryptothecia punctulata (Ascomycetes lichen) of an Arecanut Orchard in South India|J. Environ. Biol.26(2): 299-300|2005|
117613|T||Elenany,A.E., and M.A. Hamada|Physiological Studies of Some Heavy Metals on Helianthus annuus, Vigna sinensis and Triticum vulgare. I. Growth Criteria, Pigmentation, Photosynthesis and Respiration|Acta Agron. Hung.43(3/4): 235-241|1995|
117614|T||Burke,J.M., and J.E. Miller|Dietary Copper Sulfate for Control of Gastrointestinal Nematodes in Goats|Vet. Parasitol.154(3-4): 289-293|2008|10.1016/j.vetpar.2008.03.010
117615|T||Burke,J.M., J.E. Miller, M. Larsen, and T.H. Terrill|Interaction Between Copper Oxide Wire Particles and Duddingtonia flagrans in Lambs|Vet. Parasitol.134(1-2): 141-146|2005|10.1016/j.vetpar.2005.06.018
117616|T||Burke,J.M., and J.E. Miller|Control of Haemonchus contortus in Goats with a Sustained-Release Multi-Trace Element/Vitamin Ruminal Bolus Containing Copper|Vet. Parasitol.141(1-2): 132-137|2006|10.1016/j.vetpar.2006.04.014
117617|T||Wang,P., D. Zhou, T.B. Kinraide, X. Luo, L. Li, D. Li, and H. Zhang|Cell Membrane Surface Potential (Psi0) Plays a Dominant Role in the Phytotoxicity of Copper and Arsenate|Plant Physiol.148(4): 2134-2143|2008|10.1104/pp.108.127464
117619|T||Ke,S.S.|Effects of Copper on the Photosynthesis and Oxidative Metabolism of Amaranthus tricolor Seedlings|Agric. Sci. China6(10): 1182-1192|2007|10.1016/S1671-2927(07)60162-X
117620|T||Martinez Ortiz de Montellano,C., J.J. Vargas-Magana, A.J. Aguilar-Caballero, C.A. Sandoval-Castro, L. Cob-Galera, M. Ma|Combining the Effects of Supplementary Feeding and Copper Oxide Needles for the Control of Gastrointestinal Nematodes in Browsing Goats|Vet. Parasitol.146(1/2): 66-76|2007|10.1016/j.vetpar.2007.02.012
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117624|T||Bosone,E., F. Corda, F. Gozzo, A. Menconi, P. Piccardi, and V. Caprioli|Synthesis and Insecticidal Activity of 3-(Haloalkyl-1,3-Dienyl)-2,2-Dimethylcyclopropanecarboxylates|Pestic. Sci.17(6): 621-630|1986|10.1002/ps.2780170603
117625|T||Ro,T.H.|Analysis and Simulation of the Dynamics of a Myzus persicae (Homoptera: Aphididae)-Predator Complex Community in the Central Basin of Washington|Ph.D.Thesis, Washington State University, Pullman, WA:137 p.|1995|
117626|T||Chang,C.P.|DDT and Pyrethroids:  Mode of Action and Mechanism of Target Site Resistance, Selectivity and Synergism|Ph.D. Thesis, Texas A&M University, College Station TX:114 p.|1983|
117627|A||SupYoon,K., S.B. Symington, S.H. Lee, D.M. Soderlund, and J.M. Clark|Three Mutations Identified in the Voltage-Sensitive Sodium Channel alpha-Subunit Gene of Permethrin-Resistant Human Head Lice Reduce the Permethrin Sensitivity of House Fly Vssc1 Sodium Channels Expressed in Xenopus ooc|Insect Biochem. Mol. Biol.38(3): 296-306|2008|10.1016/j.ibmb.2007.11.011
117628|T||Haux,J.E., O. Lockridge, and J.E. Casida|Specificity of Ethephon as a Butyrylcholinesterase Inhibitor and Phosphorylating Agent|Chem. Res. Toxicol.15(12): 1527-1533|2002|10.1021/tx020042w
117629|T||DiCarlo,F.J.,Jr.|Copper-Induced Heart Malformations in Hamsters|Experientia35:827-828|1979|10.1007/BF01968277
117630|T||Radhakrishnan,P., and M.S. Chatrath|Translocation and Distribution of Carbendazim in Groundnut Plants (Arachis hypogaea L.) Following Seed Application|J. Nucl. Agric. Biol.15(3): 162-169|1986|
117631|T||Broschat,T.K.|Nitrogen Source Affects Growth and Quality of Bougainvillea|Horticulture Newsletter, Univ.Florida, Fort Lauderdale Res.Education Center, Ft.Lauderdale, FL10(2): 5 p.|1998|
117633|T||Moye,J.K.|Use of a Homing Pigeon (Columba livia) Model to Assess the Effects of Cholinesterase Inhibiting Pesticides on Non-Target Avian Species|M.S.Thesis, University of Nevada, Reno, NV:105 p.|2008|
117634|T||De Jong,W.H., A. De Klerk, M. Ter Beek, C. Veenman, and H. Van Loveren|Effect of Prolonged Repeated Exposure to Formaldehyde Donors with Doses Below the EC3 Value on Draining Lymph Node Responses|J. Immunotoxicol.4(3): 239-246|2007|10.1080/15476910701507967
117635|T||Hollingsworth,R.G., G.A. Chastagner, N.J. Reimer, D.E. Oishi, P.J. Landolt, and R.E. Paull|Use of Shaking Treatments and Preharvest Sprays of Pyrethroid Insecticides to Reduce Risk of Yellowjackets and Other Insects on Christmas Trees Imported into Hawaii|J. Econ. Entomol.102(1): 69-78|2009|10.1603/029.102.0111
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117638|AT||Lucia,A., L. Harburguer, S. Licastro, E. Zerba, and H. Masuh|Efficacy of a New Combined Larvicidal-Adulticidal Ultralow Volume Formulation Against Aedes aegypti (Diptera: Culicidae), Vector of Dengue|Parasitol. Res.104(5): 1101-1107|2009|10.1007/s00436-008-1294-8
117639|T||Gabbianelli,R., M.L. Falcioni, F. Cantalamessa, and C. Nasuti|Permethrin Induces Lymphocyte DNA Lesions at Both Endo III and Fpg Sites and Changes in Monocyte Respiratory Burst in Rats|J. Appl. Toxicol.29(4): 317-322|2009|10.1002/jat.1412
117640|T||Golob,P., and C. Hanks|Protection of Farm Stored Maize Against Infestation by Prostephanus truncatus (Horn) and Sitophilus Species in Tanzania|J. Stored Prod. Res.26(4): 187-198|1990|10.1016/0022-474X(90)90021-J
117642|T||Farag,A.T., N.F. Goda, N.A. Shaaban, and A.H. Mansee|Effects of Oral Exposure of Synthetic Pyrethroid, Cypermethrin on the Behavior of F1-Progeny in Mice|Reprod. Toxicol.23(4): 560-567|2007|10.1016/j.reprotox.2007.01.002
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117646|A||Sepici-Dincel,A., A. Caglan Karasu Benli, M. Selvi, R. Sarikaya, D. Sahin, I. Ayhan Ozkul, and F. Erkoc|Sublethal Cyfluthrin Toxicity to Carp (Cyprinus carpio L.) Fingerlings:  Biochemical, Hematological, Histopathological Alterations|Ecotoxicol. Environ. Saf.72(5): 1433-1439|2009|10.1016/j.ecoenv.2009.01.008
117647|A||Brausch,J.M., and P.N. Smith|Mechanisms of Resistance and Cross-Resistance to Agrochemicals in the Fairy Shrimp Thamnocephalus platyurus (Crustacea:  Anostraca)|Aquat. Toxicol.92(3): 140-145|2009|10.1016/j.aquatox.2009.02.002
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117649|T||Rodriguez,D.|Impact of Water Stress on the Efficacy of Imidacloprid and Aldicarb in Citrus Pest Management|M.S. Thesis, Texas A&M University, Kingsville, TX:85 p.|2008|
117650|T||Gao,J.J., T. Li, and X.C. Yu|Gene Expression and Activities of SOD in Cucumber Seedlings were Related with Concentrations of Mn2+, Cu2+, or Zn2+ Under Low Temperature Stress|Agric. Sci. China8(6): 678-684|2009|10.1016/S1671-2927(08)60264-3
117651|T||Garcia-Esparza,M.A., E. Capri, P. Pirzadeh, and M. Trevisan|Copper Content of Grape and Wine from Italian Farms|Food Addit. Contam.23(3): 274-280|2006|10.1080/02652030500429117
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117653|T||Perera,M.D.B., J. Hemingway, and S.H.P.P. Karunaratne|Multiple Insecticide Resistance Mechanisms Involving Metabolic Changes and Insensitive Target Sites Selected in Anopheline Vectors of Malaria in Sri Lanka|Malar. J.7:10 p.|2008|10.1186/1475-2875-7-168
117654|T||Banerjee,B.|A Strategy for the Control of Andraca bipunctata Walker on Tea|Crop Prot.1(1): 115-119|1982|10.1016/0261-2194(82)90063-1
117655|T||Sonoda,S., Y. Tsukahara, M. Ashfaq, and H. Tsumuki|Genomic Organization of the Para-Sodium Channel alpha-Subunit Genes from the Pyrethroid-Resistant and -Susceptible Strains of the Diamondback Moth|Arch. Insect Biochem. Physiol.69(1): 1-12|2008|10.1002/arch.20246
117656|T||Evans,N.J.|The Effectiveness of Various Insecticides on Some Resistant Beetle Pests of Stored Products from Uganda|J. Stored Prod. Res.21(2): 105-109|1985|10.1016/0022-474X(85)90030-X
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117658|T||DuPont Chemical Corp.|Initial Submission:  Acute Dermal Toxicity of Haskell Numbers 12,380 & 12,381 in Rabbits with Cover Letter Dated 090292|EPA/OTS; Doc #88-920009293:13 p.|1992|
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117660|T||Sacher,R.M., R.L. Metcalf, and T.R. Fukuto|Selectivity of Carbaryl-2 3-Methylenedioxynaphthalene Combination Metabolism of the Synergist in Two Strains of Houseflies and in Mice|J. Agric. Food Chem.17(3): 551-557|1969|10.1021/jf60163a035
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117663|T||Norgate,M., A. Southon, S. Zou, M. Zhan, Y. Sun, P. Batterham, and J. Camakaris|Copper Homeostasis Gene Discovery in Drosophila melanogaster|BioMetals20(3-4): 683-697|2007|10.1007/s10534-006-9075-2
117664|T||Rogers,C.B.|Fluometuron Carryover and Damage to Subsequent Crops|Ph.D. Thesis, University of Arkansas, Fayetteville, AR:67 p.|1983|
117665|T||Randall,G.W.|Postemergence Application of Urea-Ammonium Nitrate (UAN) and Atrazine Combinations to Corn|J. Fertil. Issues1(2): 50-53|1984|
117666|AT||Bernal,M.H., K.R. Solomon, and G. Carrasquilla|Toxicity of Formulated Glyphosate (Glyphos) and Cosmo-Flux to Larval and Juvenile Colombian Frogs 2.  Field and Laboratory Microcosm Acute Toxicity|J. Toxicol. Environ. Health Part A72(15): 966-973|2009|10.1080/15287390902929717
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117673|T||Toth,S.J.,Jr., and T.C. Sparks|Effect of Temperature on Toxicity and Knockdown Activity of cis-Permethrin, Esfenvalerate, and lambda-Cyhalothrin in the Cabbage Looper (Lepidoptera:  Noctuidae)|J. Econ. Entomol.83(2): 342-346|1990|10.1093/jee/83.2.342
117674|T||DeSesso,J.M., R.E. Watson, C.L. Keen, K.P. Hazelden, L.C. Haws, and A.A. Li|Analysis and Integration of Developmental Neurotoxicity and Ancillary Data into Risk Assessment:  A Case Study of Dimethoate|J. Toxicol. Environ. Health Part A72(2): 94-109|2009|10.1080/15287390802477452
117675|T||Ruan,Q.L., J.J. Ju, Y.H. Li, R. Liu, Y.P. Pu, L.H. Yin, and D.Y. Wang|Evaluation of Pesticide Toxicities with Differing Mechanisms Using Caenorhabditis elegans|J. Toxicol. Environ. Health Part A72(11): 746-751|2009|10.1080/15287390902841532
117676|T||Froese,J.M.W., J.E.G. Smits, D.J. Forsyth, and M.L. Wickstrom|Toxicity and Immune System Effects of Dietary Deltamethrin Exposure in Tiger Salamanders (Ambystoma tigrinum)|J. Toxicol. Environ. Health Part A72(8): 518-526|2009|10.1080/15287390802706363
117677|A||Chen,J.|Pathological and Transcriptional Responses of Zebrafish Embryonic Heart to Various Stressors|Ph.D Thesis, University of Wisconsin, Madison, WI:193 p.|2008|
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117681|T||Liu,L., H. Chen, P. Cai, W. Liang, and Q. Huang|Immobilization and Phytotoxicity of Cd in Contaminated Soil Amended with Chicken Manure Compost|J. Hazard. Mater.163(2-3): 563-567|2009|10.1016/j.jhazmat.2008.07.004
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117684|T||Li,P., X. Li, F. Stagnitti, H. Zhang, X. Lin, S. Zang, J. Zhuo, and X. Xiong|Studies on the Sources of Benzo(a)pyrene in Grain and Aboveground Tissues of Rice Plants|J. Hazard. Mater.162(1): 463-468|2009|10.1016/j.jhazmat.2008.05.064
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117690|T||Liao,C.S., J.H. Yen, and Y.S. Wang|Growth Inhibition in Chinese Cabbage (Brassica rapa var. chinensis) Growth Exposed to Di-n-Butyl Phthalate|J. Hazard. Mater.163(2/3): 625-631|2009|10.1016/j.jhazmat.2008.07.025
117691|T||Daud,M.K., Y. Sun, M. Dawood, Y. Hayat, M.T. Variath, Y.X. Wu, Raziuddin, U. Mishkat, Salahuddin, U. Najeeb, and S. Zhu|Cadmium-Induced Functional and Ultrastructural Alterations in Roots of Two Transgenic Cotton Cultivars|J. Hazard. Mater.161(1): 463-473|2009|10.1016/j.jhazmat.2008.03.128
117692|T||Bonfranceschi,B.A., C.G. Flocco, and E.R. Donati|Study of the Heavy Metal Phytoextraction Capacity of Two Forage Species Growing in an Hydroponic Environment|J. Hazard. Mater.165(1-3): 366-371|2009|10.1016/j.jhazmat.2008.10.024
117693|T||Ishida,T., M. Ishizaki, S. Tsutsumi, Y. Ishii, and H. Yamada|Piperine, a Pepper Ingredient, Improves the Hepatic Increase in Free Fatty Acids Caused by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|J. Health Sci.54(5): 551-558|2008|10.1248/jhs.54.551
117694|T||Chen,X., X.M. Ma, S.W. Ma, P.J. Coenraads, C.M. Zhang, J. Liu, L.J. Zhao, M. Sun, and N.J. Tang|Proteomic Analysis of the Rat Ovary Following Chronic Low-Dose Exposure to 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|J. Toxicol. Environ. Health Part A72(11): 717-726|2009|10.1080/15287390902841136
117695|T||Zimmer,K.E., A.C. Gutleb, J.L. Lyche, E. Dahl, I.C. Oskam, A.K. Krogenaes, J.U. Skaare, and E. Ropstad|Altered Stress-Induced Cortisol Levels in Goats Exposed to Polychlorinated Biphenyls (PCB 126 and PCB 153) During Fetal and Postnatal Development|J. Toxicol. Environ. Health Part A72(3): 164-172|2009|10.1080/15287390802539004
117696|T||Sun,Y., Q. Zhou, L. Wang, and W. Liu|Cadmium Tolerance and Accumulation Characteristics of Bidens pilosa L. as a Potential Cd-Hyperaccumulator|J. Hazard. Mater.161(2-3): 808-814|2009|10.1016/j.jhazmat.2008.04.030
117697|A||Kallqvist,T.|Effect of Water Hardness on the Toxicity of Cadmium to the Green Alga Pseudokirchneriella subcapitata in an Artificial Growth Medium and Nutrient-Spiked Natural Lake Waters|J. Toxicol. Environ. Health Part A72(3): 277-283|2009|10.1080/15287390802539368
117698|T||Jalloh,M.A., J. Chen, F. Zhen, and G. Zhang|Effect of Different N Fertilizer Forms on Antioxidant Capacity and Grain Yield of Rice Growing Under Cd Stress|J. Hazard. Mater.162(2-3): 1081-1085|2009|10.1016/j.jhazmat.2008.05.146
117699|T||Moser,V.C., J.K. McGee, and K.D. Ehman|Concentration and Persistence of Tin in Rat Brain and Blood Following Dibutyltin Exposure During Development|J. Toxicol. Environ. Health Part A72(1): 47-52|2009|10.1080/15287390802445582
117700|T||Meszka-Jordan,A., R. Mahlapuu, U. Soomets, and G.P. Carlson|Oxidative Stress Due to (R)-Styrene Oxide Exposure and the Role of Antioxidants in Non-Swiss Albino (NSA) Mice|J. Toxicol. Environ. Health Part A72(10): 642-650|2009|10.1080/15287390902769436
117702|T||Iavicoli,I., B. Bocca, L. Fontana, S. Caimi, F. Petrucci, A. Bergamaschi, and A. Alimonti|Distribution and Elimination of Palladium in Male Wistar Rats Following 14-Day Oral Exposure in Drinking Water|J. Toxicol. Environ. Health Part A72(2): 88-93|2009|10.1080/15287390802477387
117703|T||Ryu,J.Y., E. Lee, T.H. Kim, Y.J. Lee, J. Lee, B.M. Lee, S.J. Kwack, K.K. Jung, S.Y. Han, S.H. Kim, S. Kacew, and H.S. K|Time-Response Effects of Testicular Gene Expression Profiles in Sprague-Dawley Male Rats Treated with Di(n-Butyl) Phthalate|J. Toxicol. Environ. Health Part A71(23): 1542-1549|2008|10.1080/15287390802391992
117704|T||Park,J.C., Y.S. Hong, Y.J. Kim, J.Y. Yang, E.Y. Kim, S.J. Kwack, D.H. Ryu, G.S. Hwang, and B.M. Lee|A Metabonomic Study on the Biochemical Effects of Doxorubicin in Rats Using 1H-NMR Spectroscopy|J. Toxicol. Environ. Health Part A72(6): 374-384|2009|10.1080/15287390802647195
117705|T||DeCaprio,A.P., E.A. Kinney, and R.M. LoPachin|Comparative Covalent Protein Binding of 2,5-Hexanedione and 3-Acetyl-2,5-Hexanedione in the Rat|J. Toxicol. Environ. Health Part A72(14): 861-869|2009|10.1080/15287390902959508
117707|T||Shirota,M., T. Seki, K. Tago, H. Katoh, H. Marumo, M. Furuya, T. Shindo, and H. Ono|Screening of Toxicological Properties of 4-Methylbenzoic Acid by Oral Administration to Rats|J. Toxicol. Sci.33(4): 431-445|2008|10.2131/jts.33.431
117708|T||Seeger,E.M., A. Baun, M. Kastner, and S. Trapp|Insignificant Acute Toxicity of TiO2 Nanoparticles to Willow Trees|J. Soils Sediments9(1): 46-53|2009|10.1007/s11368-008-0034-0
117709|T||Wei,S., Q. Zhou, M. Srivastava, H. Xiao, C. Yang, and Q. Zhang|Kalimeris integrifolia Turcz. ex DC.:  An Accumulator of Cd|J. Hazard. Mater.162(2-3): 1571-1573|2009|10.1016/j.jhazmat.2008.05.088
117713|A||Sparks,R.E., and F.S. Dillon|Illinois River Fingernail Clam Toxicity Study|Technical Report 93/5, Illinois Natural History Survey Center for Aquatic Ecology, Washington, DC:68 p.|1998|
117714|A||Palladini,G., C. Valcamonica, A. Cappiello, and G. Giolitti|Effect of Some Environmental Pollutants on the Behaviour of Motility of Dugesia gonocephala S.L (Azione di Contaminanti Ambientali Sul Comportamento Motorio Di Dugesia gonocephala S.L.)|Riv. Biol.69(3/4): 163-167|1976|
117715|A||Hall,L.W.,Jr., R.D. Anderson, and M.S. Ailstock|Chronic Toxicity of the Irgarol Metabolite GS 26575 to Sago Pondweed|Wye Res. and Educ. Ctr., Univ.Maryland, Queenstown, MD:13 p.|2000|
117716|T||Usmani,K.A., S.F. Abd-Elghafar, and C.O. Knowles|Amitraz Effect on the Pharmacokinetics of Permethrin in Helicoverpa zea (Lepidoptera: Noctuidae)|J. Econ. Entomol.88(6): 1580-1585|1995|10.1093/jee/88.6.1580
117717|T||Tomberlin,J.K., D. Richman, and H.M. Myers|Susceptibility of Alphitobius diaperinus (Coleoptera: Tenebrionidae) from Broiler Facilities in Texas to Four Insecticides|J. Econ. Entomol.101(2): 480-483|2008|10.1093/jee/101.2.480
117718|A||Brinkman,S., and N. Vieira|Water Pollution Studies|Federal Aid Project F-243-R15, Job Progress Report, Colorado Div.of Wildlife, Fort Collins, Co:38 p.|2008|
117719|A||Brooke,L.|Acute and Chronic Toxicity of Several Pesticides to Five Species of Aquatic Organisms|U.S.EPA Contract No.68-C1-0034, Work Assignment No.2, to Mr.Robert Spehar, U.S.EPA, Duluth, MN:31 p.|1993|
117720|A||Bringmann,G., and R. Kuhn|Toxicity Threshold for Water Pollutants in the Cell Multiplication Test with Respect to Bacteria (Pseudomonas putida) and Green Algae (Scenedesmus quadricauda)|Z. Wasser-Abwasser-Forsch. (Multiple Languages)10(3/4): 87-98|1977|
117721|T||Sabar,M., R. De Paepe, and Y. De Kouchkovsky|Complex I Impairment, Respiratory Compensations, and Photosynthetic Decrease in Nuclear and Mitochondrial Male Sterile Mutants of Nicotiana sylvestris|Plant Physiol.124(3): 1239-1249|2000|10.1104/pp.124.3.1239
117723|A||Weinberger,F., G. Pohnert, M.L. Berndt, K. Bouarab, B. Kloareg, and P. Potin|Apoplastic Oxidation of L-Asparagine is Involved in the Control of the Green Algal Endophyte Acrochaete operculata Correa & Nielsen by the Red Seaweed Chondrus crispus Stackhouse|J. Exp. Bot.56(415): 1317-1326|2005|10.1093/jxb/eri132
117724|T||Mongia,A.D., and A.K. Bandyopadhyay|Management of Two Acid Sulphate Soils for Low Land Rice Production|J. Indian Soc. Soil Sci.41(2): 400-402|1993|
117725|A||Gachter,R., J.S. Davis, and A. Mares|Regulation of Copper Availability to Phytoplankton by Macromolecules in Lake Water|Environ. Sci. Technol.12(13): 1416-1421|1978|10.1021/es60148a007
117726|A||Chapman,G.A.|1973 Progress, ROAP 16-AAD|Nov.29th Memo to K.Biesinger, NWQL, from G.A.Chapman, U.S.EPA, West.Fish Toxicol.Stn., Corvallis, OR:3 p.|1973|
117727|AT||Cope,O.B.|Sport Fishery Investigations|In: Pesticide-Wildlife Studies, 1963: A Review of Fish and Wildlife Service Investigations During the Calendar Year, Circ.No.199, Fish and Wildl.Serv., Washington, D.C.:29-43|1964|
117728|A||Department of the Environment|Effects of Pollution on Fish|In: Water Pollution Research 1972, Department of the Environment:37-42|1972|
117729|A||Agrawal,M., and H.D. Kumar|Physico-Chemical and Phycological Assessment of Two Mercury-Polluted Effluents|Indian J. Environ. Health20(2): 141-155|1978|
117730|A||Bovee,E.C.|Effects of Certain Chemical Pollutants on Small Aquatic Animals|Res.Proj.Conducted by The Kansas Water Resour.Res.Inst., Univ.of Kansas, Lawrence, KS:8 p.|1975|
117733|A||Dorn,P.B., and J.H.,Jr. Rodgers|Variability Associated with Identification of Toxics in National Pollutant Discharge Elimination System (NPDES) Effluent Toxicity Tests|Environ. Toxicol. Chem.8:893-902|1989|10.1002/etc.5620081008
117735|T||Jancso-Gabor,A., J. Szolcsanyi, and N. Jancso|Irreversible Impairment of Thermoregulation Induced by Capsaicin and Similar Pungent Substances in Rats and Guinea-Pigs|J. Physiol. (Lond.)206(3): 495-507|1970|10.1113/jphysiol.1970.sp009027
117736|T||Hayworth,C.R., J.C. Rojas, and F. Gonzalez-Lima|Transgenic Mice Expressing Cyan Fluorescent Protein as a Reporter Strain to Detect the Effects of Rotenone Toxicity on Retinal Ganglion Cells|J. Toxicol. Environ. Health Part A71(24): 1582-1592|2008|10.1080/15287390802414190
117737|T||Jancso-Gabor,A., J. Szolcsanyi, and N. Jancso|Stimulation and Desensitization of the Hypothalamic Heat-Sensitive Structures by Capsaicin in Rats|J. Physiol. (Lond.)208(2): 449-459|1970|10.1113/jphysiol.1970.sp009130
117738|T||Blednov,Y.A., M. Stoffel, S.R. Chang, and R.A. Harris|Potassium Channels as Targets for Ethanol:  Studies of G-Protein-Coupled Inwardly Rectifying Potassium Channel 2 (GIRK2) Null Mutant Mice|J. Pharmacol. Exp. Ther.298(2): 521-530|2001|
117739|T||Foil,L.D., D.J. Leprince, and R.L. Byford|Survival and Dispersal of Horse Flies (Diptera: Tabanidae) Feeding on Cattle Sprayed with a Sublethal Dose of Fenvalerate|J. Med. Entomol.28(5): 663-667|1991|10.1093/jmedent/28.5.663
117740|T||Sheppard,D.C., and P.R. Torres|Onset of Resistance to Fenvalerate, a Pyrethroid Insecticide in Argentine Horn Flies (Diptera: Muscidae)|J. Med. Entomol.35(2): 175-176|1998|10.1093/jmedent/35.2.175
117741|T||Nogueira,N.F.S., M. Gonzales, E.M. Garcia, and W. De Souza|Effect of Azadirachtin A on the Fine Structure of the Midgut of Rhodnius prolixus|J. Invertebr. Pathol.69(1): 58-63|1997|10.1006/jipa.1996.4635
117742|T||Awad,T.I., and M.S. Mulla|Morphogenetic and Histopathological Effects Induced by the Insect Growth Regulator Cyromazine in Musca domestica (Diptera:  Muscidae)|J. Med. Entomol.21(4): 419-426|1984|10.1093/jmedent/21.4.419
117743|T||Skrzypek,E., K. Miyamoto, M. Saniewski, and J. Ueda|Identification of Jasmonic Acid and Its Methyl Ester as Gum-Inducing Factors in Tulips|J. Plant Res.118(1): 27-30|2005|10.1007/s10265-004-0190-2
117744|T||Haver,D.L., U.K. Schuch, and C.J. Lovatt|Exposure of Petunia Seedlings to Ethylene Decreased Apical Dominance by Reducing the Ratio of Auxin to Cytokinin|J. Plant Growth Regul.21(4): 459-468|2002|10.1007/s00344-002-0022-3
117745|T||Saniewski,M., K. Miyamoto, and J. Ueda|Methyl Jasmonate Induces Gums and Stimulates Anthocyanin Accumulation in Peach Shoots|J. Plant Growth Regul.17(3): 121-124|1998|10.1007/PL00007024
117746|T||Saniewski,M., K. Miyamoto, and J. Ueda|Gum Formation by Methyl Jasmonate in Tulip Shoots is Stimulated by Ethylene|J. Plant Growth Regul.17(3): 179-183|1998|10.1007/PL00007033
117747|T||Atta-Aly,M.A., G.S. Riad, Z.E.S. Lacheene, and A.S. El-Beltagy|Early Application of Ethrel Extends Tomato Fruit Cell Division and Increases Fruit Size and Yield with Ripening Delay|J. Plant Growth Regul.18(1): 15-24|1999|10.1007/PL00007041
117749|T||Marshall,E.J.P., K.R. Solomon, and G. Carrasquilla|Coca (Erythroxylum coca) Control is Affected by Glyphosate Formulations and Adjuvants|J. Toxicol. Environ. Health Part A72(15): 930-936|2009|10.1080/15287390902929675
117750|T||Abu-Qare,A.W., and M.B. Abou-Donia|Combined Exposure to DEET (N,N-Diethyl-m-Toluamide) and Permethrin-Induced Release of Rat Brain Mitochondrial Cytochrome c|J. Toxicol. Environ. Health Part A63(4): 243-252|2001|10.1080/15287390151143640
117751|T||Abu-Qare,A.W., and M.B. Abou-Donia|DEET (N,N-Diethyl-m-Toluamide) Alone and in Combination with Permethrin Increased Urinary Excretion of 6beta-Hydroxycortisol in Rats, a Marker of Hepatic CYP3A Induction|J. Toxicol. Environ. Health Part A64(5): 373-384|2001|10.1080/152873901753170722
117752|T||Prasifka,J.R., M.D. Lopez, R.L. Hellmich, and P.L. Prasifka|Effects of Insecticide Exposure on Movement and Population Size Estimates of Predatory Ground Beetles (Coleoptera: Carabidae)|Pest Manag. Sci.64(1): 30-36|2008|10.1002/ps.1460
117753|T||Rust,M.K., and D.A. Reierson|Activity of Insecticides Against the Preemerged Adult Cat Flea in the Cocoon (Siphonaptera:  Pulicidae)|J. Med. Entomol.26(4): 301-305|1989|10.1093/jmedent/26.4.301
117754|T||Schwinghammer,K.A., E.M. Ballard, and F.W. Knapp|Comparative Toxicity of Ten Insecticides Against the Cat Flea, Ctenocephalides felis (Siphonaptera:  Pulicidae)|J. Med. Entomol.22(5): 512-514|1985|10.1093/jmedent/22.5.512
117756|T||Frances,S.P.|Response of a Chigger, Eutrombicula hirsti (Acari: Trombiculidae) to Repellent and Toxicant Compounds in the Laboratory|J. Med. Entomol.31(4): 628-630|1994|10.1093/jmedent/31.4.628
117757|T||De Raat,I.J., R. Van den Boom, M. Van Poppel, and M.M. Sloet Van Oldruitenborgh-Oosterbaan|The Effect of a Topical Insecticide Containing Permethrin on the Number of Culicoides Midges Caught Near Horses with and Without Insect Bite Hypersensitivity in the Netherlands|Tijdschr. Diergeneeskd. (Multiple Languages)133(20): 838-842|2008|
117758|A||Yan,S., Z. Wu, F. Cui, Q. Zhao, and C. Qiao|Dynamics of Esterase Alleles in Culex pipiens Complex Mosquitoes in Beijing|J. Econ. Entomol.101(6): 1897-1902|2008|10.1603/0022-0493-101.6.1897
117759|T||Estrada-Pena,A., and F. Ascher|Laboratory Efficacy of Two Ixodicide Collars Against Rhipicephalus sanguineus, 1995|Arthropod Manag. Tests22:417-|1995|10.1093/amt/22.1.417
117760|T||Djouaka,R.F., A.A. Bakare, O.N. Coulibaly, M.C. Akogbeto, H. Ranson, J. Hemingway, and C. Strode|Expression of the Cytochrome P450s, CYP6P3 and CYP6M2 are Significantly Elevated in Multiple Pyrethroid Resistant Populations of Anopheles gambiae s.s. from Southern Benin and Nigeria|BMC Genomics9(538): 1-10|2008|
117761|A||Kelly,P.R.|Scanning Electron Microscope Observations of Marine Microorganisms on Surfaces Coated with Antifouling Paints|M.S.Thesis, Naval Postgraduate School, Monterey, CA:132 p.|1981|
117762|T||Taylor,W.G., D.D. Vedres, and T.W. Hall|Capillary Gas Chromatographic Determination of Permethrin Insecticide by Transesterification|J. Chromatogr. B Anal. Technol. Biomed. Life Sci.690(1-2): 123-129|1997|
117763|T||Zhao,L., J.W. Pridgeon, J.J. Becnel, G.G. Clark, and K.J. Linthicum|Cytochrome C Gene and Protein Expression:  Developmental Regulation, Environmental Response, and Pesticide Sensitivity in Aedes aegypti|J. Med. Entomol.45(3): 401-408|2008|10.1093/jmedent/45.3.401
117764|T||Dodd,C.A., and B.G. Klein|Pyrethroid and Organophosphate Insecticide Exposure in the 1-Methyl-4-Phenyl-1,2,3,6-Tetrahydropyridine Mouse Model of Parkinson's Disease:  An Immunohistochemical Analysis of Tyrosine Hydroxylase and Glial Fibrillary A|Toxicol. Ind. Health25(1): 25-39|2009|10.1177/0748233709102752
117765|T||Seume,F.W., and R.D. O'Brien|Potentiation of the Toxicity to Insects and Mice of Phosphorothionates Containing Carboxyester and Carboxyamide Groups|Toxicol. Appl. Pharmacol.2(5): 495-503|1960|10.1016/0041-008X(60)90016-8
117766|AT||United States National Library of Medicine|ChemIDplus Advanced|http://chem.sis.nlm.nih.gov/chemidplus:1 p.|2009|
117767|T||Peters,W.S., and H.H. Felle|The Correlation of Profiles of Surface pH and Elongation Growth in Maize Roots|Plant Physiol.121:905-912|1999|10.1104/pp.121.3.905
117768|T||EPA/OTS|Initial Submission:  Test Study on the Toxicity of 2,6 Dimethylphenol (2,6 Xylenol), 5 Administrations by Gavage in Olive Oil, with Cover Letter Dated 8/17/95|EPA/OTS; Doc #FYI-OTS-0196-1264:334 p.|1996|
117769|T||Meyer,R.E., E.S. Motteram, S.G. Evans, and W.G. McCully|Controlling Forest Encroachment Along East Texas Roadways|Report No.TX-94/902-8, Interim Report, Oct 91-Dec 93, Texas Transportation Institute College Station, TX:29 p.|1993|
117770|T||Widmer,T.L., and G.S. Abawi|Mechanism of Suppression of Meloidogyne hapla and Its Damage by a Green Manure of Sudan Grass|Plant Dis.84:562-568|2000|10.1094/PDIS.2000.84.5.562
117771|A||Rand,G.M., and J.R. Clark|Hazard/Risk Assessment of Pyridaben:  I.  Aquatic Toxicity and Environmental Chemistry|Ecotoxicology9(3): 157-168|2000|10.1023/A:1008934502348
117772|A||Rand,G.M., and J.R. Clark|Hazard/Risk Assessment of Pyridaben:  II.  Outdoor Aquatic Toxicity Studies and the Water-Effect Ratio|Ecotoxicology9(3): 169-177|2000|10.1023/A:1008986519187
117774|T||Xiong,Y., Y. Shao, H. Xia, Z. Li, and S. Fu|Selection of Selective Biocides on Soil Microarthropods|Soil Biol. Biochem.40(10): 2706-2709|2008|10.1016/j.soilbio.2008.07.014
117775|T||Sperling,F., H.K.U. Ewenike, and T. Farber|Changes in LD50 of Parathion and Heptachlor Following Turpentine Pretreatment|Environ. Res.5(2): 164-171|1972|10.1016/0013-9351(72)90031-X
117776|A||Dobson,W.E.|A Pharmacological Study of Neural Mediation of Disc Autotomy in Ophiophragmus filograneus (Lyman) (Echinodermata:  Ophiuroidea)|J. Exp. Mar. Biol. Ecol.94(1-3): 223-232|1985|10.1016/0022-0981(85)90060-7
117777|T||Clegg,R.J., B. Middleton, G.D. Bell, and D.A. White|Inhibition of Hepatic Cholesterol Synthesis and S-3-Hydroxy-3-Methylglutaryl-CoA Reductase by Mono and Bicyclic Monoterpenes Administered In Vivo|Biochem. Pharmacol.29(15): 2125-2127|1980|10.1016/0006-2952(80)90183-5
117778|T||Abdelgaleil,S.A.M., M.I.E. Mohamed, M.E.I. Badawy, and S.A.A. El-Arami|Fumigant and Contact Toxicities of Monoterpenes to Sitophilus oryzae (L.) and Tribolium castaneum (Herbst) and Their Inhibitory Effects on Acetylcholinesterase Activity|J. Chem. Ecol.35(5): 518-525|2009|10.1007/s10886-009-9635-3
117779|T||Barasa,S.S., I.O. Ndiege, W. Lwande, and A. Hassanali|Repellent Activities of Stereoisomers of p-Menthane-3,8-Diols Against Anopheles gambiae (Diptera:  Culicidae)|J. Med. Entomol.39(5): 736-741|2002|10.1603/0022-2585-39.5.736
117780|T||Matan,N., W. Woraprayote, W. Saengkrajang, and N. Sirisombat|Durability of Rubberwood (Hevea brasiliensis) Treated with Peppermint Oil, Eucalyptus Oil, and Their Main Components|Int. Biodeterior. Biodegrad.63(5): 621-625|2009|10.1016/j.ibiod.2008.12.008
117781|T||Shasany,A.K., S.P.S. Khanuja, S. Dhawan, and S. Kumar|Positive Correlation Between Menthol Content and In Vitro Menthol Tolerance in Mentha arvensis L. Cultivars|J. Biosci.25(3): 263-266|2000|10.1007/BF02703934
117782|T||Ganther,H.E., C. Goudie, M.L. Sunde, M.J. Kopecky, P. Wagner, S.H. Oh, and W.G. Hoekstra|Selenium: Relation to Decreased Toxicity of Methyl-Mercury Added to Diets Containing Tuna|Science175:1122-1124|1972|10.1126/science.175.4026.1122
117783|A||Siong,K., and T. Asaeda|Calcite Encrustation in Macro-Algae Chara and Its Implication to the Formation of Carbonate-Bound Cadmium|J. Hazard. Mater.167(1-3): 1237-1241|2009|10.1016/j.jhazmat.2009.01.068
117784|A||Berg,C., I. Gyllenhammar, and M. Kvarnryd|Xenopus tropicalis as a Test System for Developmental and Reproductive Toxicity|J. Toxicol. Environ. Health Part A72(3): 219-225|2009|10.1080/15287390802539079
117785|T||Ren,H.Y., D.F. Zhuang, J.J. Pan, X.Z. Shi, and H.J. Wang|Hyper-Spectral Remote Sensing to Monitor Vegetation Stress|J. Soils Sediments8(5): 323-326|2008|10.1007/s11368-008-0030-4
117786|T||Roy,T.A., K. Hammerstrom, and J. Schaum|Percutaneous Absorption of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD) from Soil|J. Toxicol. Environ. Health Part A71(23): 1509-1515|2008|10.1080/15287390802349875
117787|T||Takagi,A., A. Hirose, T. Nishimura, N. Fukumori, A. Ogata, A. Ohashi, S. Kitajima, and J. Kanno|Induction of Mesothelioma in p53+/- Mouse by Intraperitoneal Application of Multi-Wall Carbon Nanotube|J. Toxicol. Sci.33(1): 105-116|2008|10.2131/jts.33.105
117788|T||Hamelin,G., G. Charest-Tardif, K. Krishnan, D. Cyr, M. Charbonneau, P.J. Devine, S. Haddad, G.M. Cooke, T. Schrader, an|Toxicokinetics of p-tert-Octylphenol in Male and Female Sprague-Dawley Rats After Intravenous, Oral, or Subcutaneous Exposures|J. Toxicol. Environ. Health Part A72(8): 541-550|2009|10.1080/15287390802706355
117789|T||Enayatzamir,K., H.A. Alikhani, and S.R. Couto|Simultaneous Production of Laccase and Decolouration of the Diazo Dye Reactive Black 5 in a Fixed-Bed Bioreactor.|J. Hazard. Mater.164(1): 296-300|2009|10.1016/j.jhazmat.2008.08.032
117790|A||Immich,A.P.S., A.A. Ulson de Souza, and S.M.A.G. Ulson de Souza|Removal of Remazol Blue RR Dye from Aqueous Solutions with Neem Leaves and Evaluation of Their Acute Toxicity with Daphnia magna|J. Hazard. Mater.164(2-3): 1580-1585|2009|10.1016/j.jhazmat.2008.09.019
117791|T||Carroll,S.P.|Prolonged Efficacy of IR3535 Repellents Against Mosquitoes and Blacklegged Ticks in North America|J. Med. Entomol.45(4): 706-714|2008|10.1093/jmedent/45.4.706
117792|A||ENSR Consulting and Engineering|Short-Term Chronic Toxicity of Aluminum to the Fathead Minnow (Pimephales promelas) Under Static Renewal Test Conditions at Four Levels of Water Hardness|Document No.8505-092-047, ENSR Consulting and Engineering, Ft.Collins, CO:120 p.|1992|
117793|A||ENSR Consulting and Engineering|Chronic Toxicity of Aluminum to Ceriodaphinia dubia Under Static Renewal Test Conditions at Four Levels of Water Hardness|Document No.8505-092-047, ENSR Consulting and Engineering, Ft.Collins, CO:122 p.|1992|
117794|A||ENSR Consulting and Engineering|Acute Toxicity of Aluminum to Ceriodaphnia dubia Under Static Renewal Test Conditions at Four Levels of Water Hardness|Document No.8505-092-047, ENSR Consulting and Engineering, Ft.Collins, CO:116 p.|1992|
117795|A||ENSR Consulting and Engineering|Acute Toxicity of Aluminum to Pimephales promelas Under Static Renewal Test Conditions at Four Levels of Water Hardness|Document No.8505-092-047, ENSR Consulting and Engineering, Ft.Collins, CO:126 p.|1992|
117797|AT||McConville,J.F.|Quaternium-15 as a Cosmetic Preservative|Drug Cosmet. Ind.138(5): 50, 52-55, 58, 61 -|1986|
117798|T||Hall,R.A.|Synergistic Inhibitory Action of Preparations of Iprodione and Carbaryl on Germination of Conidia of Verticillium lecanii|J. Invertebr. Pathol.42(3): 384-386|1983|10.1016/0022-2011(83)90178-7
117800|A||Buchel,C., and G. Garab|Evidence for the Operation of a Cyanide-Sensitive Oxidase in Chlororespiration in the Thylakoids of the Chlorophyll c-Containing Alga Pleurochloris meiringensis (Xanthophyceae)|Planta (Multiple Languages)197(1): 69-75|1995|10.1007/BF00239941
117801|T||McMahon Smith,J., and R.N. Arteca|Molecular Control of Ethylene Production by Cyanide in Arabidopsis thaliana|Physiol. Plant. (Multiple Languages)109(2): 180-187|2000|10.1034/j.1399-3054.2000.100210.x
117802|A||Thomas,M., D. Chretien, A. Florion, and D. Terver|Real-Time Detection of Potassium Cyanide Pollution in Surface Waters Using Electric Organ Discharges Wave Emitted by the Tropical Fish, Apteronotus albifrons|Environ. Technol.17(6): 561-574|1996|10.1080/09593331708616420
117803|A||Gans,P., and F.A. Wollman|The Effect of Cyanide on State Transitions in Chlamydomonas reinhardtii|Biochim. Biophys. Acta1228(1): 51-57|1995|10.1016/0005-2728(94)00159-3
117804|T||Nkang,A.|Effect of Cyanide Pre-Treatment on Activities of Polyphenoloxidase and Peroxidase in Seeds of Guilfoylia monostylis|Seed Sci. Technol.29(3): 557-565|2001|
117805|T||Nkang,A.|Effect of Cyanide Pretreatment on Peroxidase Activity in Germinating Seeds of Guilfoylia monostylis|J. Plant Physiol.149(1/2): 3-8|1996|10.1016/S0176-1617(96)80164-7
117806|T||Westcott,L.C., and M.L. Winston|Chemical Acaricides in Apis mellifera (Hymenoptera: Apidae) Colonies; Do They Cause Nonlethal Effects?|Can. Entomol.131(3): 363-371|1999|10.4039/Ent131363-3
117807|T||Ohgiya,N., H. Yokota, and A. Yuasa|Specific Reduction of Hepatic Microsomal Benzo(a)pyrene Hydroxylase Activity After Administration of Eugenol to the Rat|Jpn. J. Vet. Sci.50(4): 843-850|1988|
117808|T||Montes-Belmont,R., and M. Carvajal|Control of Aspergillus flavus in Maize with Plant Essential Oils and Their Components|J. Food Prot.61(5): 616-619|1998|10.4315/0362-028X-61.5.616
117809|A||Szabo,A., S.M. Ruby, F. Rogan, and Z. Amit|Changes in Brain Dopamine Levels, Oocyte Growth and Spermatogenesis in Rainbow Trout, Oncorhynchus mykiss, Following Sublethal Cyanide Exposure|Arch. Environ. Contam. Toxicol.21(1): 152-157|1991|10.1007/BF01055571
117810|T||Kremer,R.J., and T. Souissi|Cyanide Production by Rhizobacteria and Potential for Suppression of Weed Seedling Growth|Curr. Microbiol.43(3): 182-186|2001|10.1007/s002840010284
117811|A||Jones,R.J., and A.L. Steven|Effects of Cyanide on Corals in Relation to Cyanide Fishing on Reefs|Mar. Freshw. Res.48(6): 517-522|1997|10.1071/MF97048
117812|T||Blenis,P.V., P.S. Chow, I. Duncan, and N.R. Knowles|Cyanide Levels Near Fairy Rings Affect the Growth of Grasses and Fungi|Can. J. Bot.82(9): 1324-1329|2004|10.1139/b04-079
117813|T||Soto-Blanco,B., A.B. Sousa, H. Manzano, J.L. Guerra, and S.L. Gorniak|Does Prolonged Cyanide Exposure Have a Diabetogenic Effect?|Vet. Hum. Toxicol.43(2): 106-108|2001|
117815|T||Wold-Burkness,S.J., R.L. Hines, and W.D. Hutchison|Assessing the Impact of Reduced Rates of Spinosad and Permethrin on the Lepidopteran Pest Complex, and Associated Parasitoids, in Minnesota Cabbage|Biopestic. Int.1(1/2): 91-103|2005|
117816|T||Bar Nun,N., D. Plakhine, D.M. Joel, and A.M. Mayer|Changes in the Activity of the Alternative Oxidase in Orobanche Seeds During Conditioning and Their Possible Physiological Function|Phytochemistry64(1): 235-241|2003|10.1016/S0031-9422(03)00165-1
117817|T||Umoru,P.A., W. Powell, and S.J. Clark|Effect of Pirimicarb on the Foraging Behaviour of Diaeretiella rapae (Hymenoptera: Braconidae) on Host-Free and Infested Oilseed Rape Plants|Bull. Entomol. Res.86(2): 193-201|1996|10.1017/S0007485300052445
117818|A||Zhu,Y.H., and J.G. Jiang|Combined Toxic Effects of Typical Mutagens - Dimethylphenol, Tribromethane and Dinitroaniline, on Unicellular Green Algae Dunaliella salina|J. Food Saf.29(1): 1-13|2009|10.1111/j.1745-4565.2008.00144.x
117819|T||Gruber,B.R., L.R.R. Davies, E.L. Kruger, and P.S. McManus|Effects of Copper-Based Fungicides on Foliar Gas Exchange in Tart Cherry|Plant Dis.93(5): 512-518|2009|10.1094/PDIS-93-5-0512
117820|T||Cohen,S.L., and W.E. Ward|Flaxseed Oil and Bone Development in Growing Male and Female Mice|J. Toxicol. Environ. Health Part A68(21): 1861-1870|2005|10.1080/15287390500226516
117821|T||Rompelberg,C.J.M., W.H. Stenhuis, N. De Vogel, W.A. Van Osenbruggen, A. Schouten, and H. Verhagen|Antimutagenicity of Eugenol in the Rodent Bone Marrow Micronucleus Test|Mutat. Res., Genet. Toxicol. Environ. Mutagen.346(2): 69-75|1995|
117822|T||Yu,X.Z., S. Trapp, P.H. Zhou, and L. Chen|Effect of Temperature on the Uptake and Metabolism of Cyanide by Weeping Willows|Int. J. Phytoremediat.9(1-3): 243-255|2007|10.1080/15226510701376141
117823|T||Munzi,S., T. Pisani, and S. Loppi|The Integrity of Lichen Cell Membrane as a Suitable Parameter for Monitoring Biological Effects of Acute Nitrogen Pollution|Ecotoxicol. Environ. Saf.72(7): 2009-2012|2009|10.1016/j.ecoenv.2009.05.005
117824|A||Chew,S.F., E. Goh, C.B. Lim, and Y.K. Ip|Cyanide Exposure Affects the Production and Excretion of Ammonia by the Mudskipper Boleophthalmus boddaerti|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.120(3): 441-448|1998|
117825|T||Yu,X.Z., J.D. Gu, and S. Liu|Biotransformation and Metabolic Response of Cyanide in Weeping Willows|J. Hazard. Mater.147(3): 838-844|2007|10.1016/j.jhazmat.2007.01.081
117826|T||Soto-Blanco,B., S.L. Gorniak, and E.T. Kimura|Physiopathological Effects of the Administration of Chronic Cyanide to Growing Goats - A Model for Ingestion of Cyanogenic Plants|Vet. Res. Commun.25(5): 379-389|2001|10.1023/A:1010694710124
117827|A||Porterfield,D.M., and P.J.S. Smith|Single-Cell, Real-Time Measurements of Extracellular Oxygen and Proton Fluxes from Spirogyra grevilleana|Protoplasma (Multiple Languages)212(1/2): 80-88|2000|10.1007/BF01279349
117828|A||Buchel,C., O. Zsiros, and G. Garab|Alternative Cyanide-Sensitive Oxidase Interacting with Photosynthesis in Synechocystis PCC6803. Ancestor of the Terminal Oxidase of Chlororespiration?|Photosynthetica (Praha)35(2): 223-231|1998|10.1023/A:1006958706540
117830|T||Payne,G.T.|Inheritance and Mechanisms of Permethrin Resistance in the Tobacco Budworm, Heliothis virescens (Lepidoptera:  Noctuidae)|Ph.D. Thesis, Clemson University, Clemson, SC:120 p.|1987|
117831|A||Ebel,M., M.W.H. Evangelou, and A. Schaeffer|Cyanide Phytoremediation by Water Hyacinths (Eichhornia crassipes)|Chemosphere66(5): 816-823|2007|10.1016/j.chemosphere.2006.06.041
117832|A||Fochtman,P., A. Raszka, and E. Nierzedska|"The Use of Conventional Bioassays, Microbiotests, and Some ""Rapid"" Methods in the Selection of an Optimal Test Battery for the Assessment of Pesticides Toxicity"|Environ. Toxicol.15(5): 376-384|2000|10.1002/1522-7278(2000)15:5<376::AID-TOX4>3.0.CO;2-7
117834|T||Mukherjee,J., T.K. Narayanan, B.T. Christian, B. Shi, and Z.Y. Yang|Binding Characteristics of High-Affinity Dopamine D2/D3 Receptor Agonists, 11C-PPHT and 11C-ZYY-339 in Rodents and Imaging in Non-Human Primates by PET|Synapse54(2): 83-91|2004|10.1002/syn.20068
117835|T||Daniel,F.B., M. Robinson, G.R. Olson, R.G. York, and L.W. Condie|Ten and Ninety-Day Toxicity Studies of 2,4-Dimethylphenol in Sprague-Dawley Rats|Drug Chem. Toxicol.16(4): 351-368|1993|10.3109/01480549308998226
117836|T||Saini,R.K., and A. Hassanali|A 4-Alkyl-Substituted Analogue of Guaiacol Shows Greater Repellency to Savannah Tsetse (Glossina spp.)|J. Chem. Ecol.33(5): 985-995|2007|10.1007/s10886-007-9272-7
117837|T||Lei,B., S.R. Abrams, B. Ewan, and L.V. Gusta|Achiral Cyclohexadienone Analogues of Abscisic Acid: Synthesis and Biological Activity|Phytochemistry37(2): 289-296|1994|10.1016/0031-9422(94)85049-6
117838|T||Takagi,A., K. Sekita, M. Saitoh, and J. Kanno|Acute, Subchronic and Chronic Toxicity Studies of a Synthetic Antioxidant, 2,2'-Isobutylidenebis(4,6-Dimethylphenol) in Rats|J. Toxicol. Sci.30(4): 275-285|2005|10.2131/jts.30.275
117839|T||Singh,B.P., L. Singhal, and R.S. Chauhan|Immunotoxicity of Carbaryl in Chicken|Indian J. Exp. Biol.45(10): 890-895|2007|
117840|T||Dowd,P.F.|Permethrin and Fenvalerate Hydrolysis in Pseudoplusia includens (Walker) and Heliothis virescens (F.)|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:383 p.|1985|
117841|T||Mann,R.K.|Activity of Fosamine in Woody Perennial Species|Ph.D.Thesis, University of Kentucky, Lexington, KY:137 p.|1981|
117842|A||Pandey,U., and C. Chatterjee|Response of Two Strains of Nostoc muscorum to Metal Stress and Salinity|Ann. Appl. Biol.134(2): 259-263|1999|10.1111/j.1744-7348.1999.tb05262.x
117843|T||Martin-Lopez,B., I. Varela, S. Marnotes, and C. Cabaleiro|Use of Oils Combined with Low Doses of Insecticide for the Control of Myzus persicae and PVY Epidemics|Pest Manag. Sci.62(4): 372-378|2006|10.1002/ps.1168
117844|T||Visetson,S., J. Milne, M. Milne, and P. Kanasutar|Synergistic Effects of Sesame Oil with Cypermethrin on the Survival and Detoxification Enzyme Activity of Plutella xylostella L. Larvae|Kasetsart J. Nat. Sci.37(1): 52-59|2003|
117845|T||Palmer,I.S., O.E. Olson, A.W. Halverson, R. Miller, and C. Smith|Isolation of Factors in Linseed Oil Meal Protective Against Chronic Selenosis in Rats|J. Nutr.110(1): 145-150|1980|10.1093/jn/110.1.145
117846|T||Earl,L.K., P. Baldrick, and P.A. Hepburn|A 13-Week Feeding Study in the Rat with Shea Oleine and Hardened Shea Oleine|Int. J. Toxicol.21(1): 13-22|2002|10.1080/10915810252825984
117847|T||George,D.R., D. Masic, O.A.E. Sparagano, and J.H. Guy|Variation in Chemical Composition and Acaricidal Activity Against Dermanyssus gallinae of Four Eucalyptus Essential Oils|Exp. Appl. Acarol.48(1-2): 43-50|2009|10.1007/s10493-008-9225-z
117848|AT||Mak,K.K.W., H. Yanase, and R. Renneberg|Novel Optical Biotest for Determination of Cyanide Traces in Marine Fish Using Microbial Cyanide Hydratase and Formate Dehydrogenase|Microchim. Acta149(1/2): 131-135|2005|10.1007/s00604-004-0286-3
117849|T||Bernhardt,D., and U. Gerth|Changes in the Synthesis of Some Proteins During Breaking of Secondarily Induced Thermodormancy by Respiration Inhibitors (Cyanide, Azide) and BAP in Embryos of Agrostemma githago L. Seeds|Seed Sci. Res.4(4): 415-420|1994|10.1017/S0960258500002464
117850|T||Szeto,S.Y., J.R. Mackenzie, and M.J. Brown|Disappearance of Dimethoate, Methamidophos and Pirimicarb in Lettuce|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes19(2): 225-235|1984|
117851|T||Lach,H., and Z. Srebro|Cytophotometric Analysis of Changes in Cytoplasmic RNA in Neurons of Nucleus supraopticus, Nucleus paraventricularis, and Nucleus arcuatus Following a Single Dose of Pirimor 50 DP|Folia Biol. (Krakow)36(3-4): 195-202|1988|
117852|A||Harwood,A.D., J. You, and M.J. Lydy|Temperature as a Toxicity Identification Evaluation Tool for Pyrethroid Insecticides:  Toxicokinetic Confirmation|Environ. Toxicol. Chem.28(5): 1051-1058|2009|10.1897/08-291.1
117853|A||Riaz,M.A., R. Poupardin, S. Reynaud, C. Strode, H. Ranson, and J.P. David|Impact of Glyphosate and Benzo(a)pyrene on the Tolerance of Mosquito Larvae to Chemical Insecticides. Role of Detoxification Genes in Response to Xenobiotics|Aquat. Toxicol.93(1): 61-69|2009|10.1016/j.aquatox.2009.03.005
117854|T||McDaniel,K.L., and V.C. Moser|Utility of a Neurobehavioral Screening Battery for Differentiating the Effects of Two Pyrethroids, Permethrin and Cypermethrin|Neurotoxicol. Teratol.15(2): 71-83|1993|10.1016/0892-0362(93)90065-V
117855|T||Shimada,K., K. Natsuhara, Y. Oomori, and T. Miyata|Permethrin Resistance Mechanisms in the Beet Armyworm (Spodoptera exigua (Hubner))|J. Pestic. Sci. (Multiple Languages)30(3): 214-219|2005|10.1584/jpestics.30.214
117857|T||Austin,C.A., E.A. Shephard, S.F. Pike, B.R. Rabin, and I.R. Phillips|The Effect of Terpenoid Compounds on Cytochrome P-450 Levels in Rat Liver|Biochem. Pharmacol.37(11): 2223-2229|1988|10.1016/0006-2952(88)90585-0
117858|T||Coleman,W.K., G. Lonergan, and P. Silk|Potato Sprout Growth Suppression by Menthone and Neomenthol, Volatile Oil Components of Minthostachys, Satureja, Bystropogon, and Mentha Species|Am. J. Potato Res.78(5): 345-354|2001|10.1007/BF02884343
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117860|T||Jaenson,T.G.T., S. Garboui, and K. Palsson|Repellency of Oils of Lemon Eucalyptus, Geranium, and Lavender and the Mosquito Repellent MyggA Natural to Ixodes ricinus (Acari: Ixodidae) in the Laboratory and Field|J. Med. Entomol.43(4): 731-736|2006|10.1093/jmedent/43.4.731
117861|T||Garboui,S.S., T.G.T. Jaenson, and K. Palsson|Repellency of MyggA Natural Spray (para-Menthane-3,8-Diol) and RB86 (Neem Oil) Against the Tick Ixodes ricinus (Acari:  Ixodidae) in the Field in East-Central Sweden|Exp. Appl. Acarol.40(3-4): 271-277|2006|10.1007/s10493-006-9031-4
117862|T||Elmhalli,F.H., K. Palsson, J. Orberg, and T.G.T. Jaenson|Acaricidal Effects of Corymbia citriodora Oil Containing para-Menthane-3,8-Diol Against Nymphs of Ixodes ricinus (Acari:  Ixodidae)|Exp. Appl. Acarol.48(3): 251-262|2009|10.1007/s10493-009-9236-4
117863|T||Trongtokit,Y., C.F. Curtis, and Y. Rongsriyam|Efficacy of Repellent Products Against Caged and Free Flying Anopheles stephensi Mosquitoes|Southeast Asian J. Trop. Med. Public Health36(6): 1423-1431|2005|
117864|T||Lee,S.E., B.H. Lee, W.S. Choi, B.S. Park, J.G. Kim, and B.C. Campbell|Fumigant Toxicity of Volatile Natural Products from Korean Spices and Medicinal Plants Towards the Rice Weevil, Sitophilus oryzae (L)|Pest Manag. Sci.57(6): 548-553|2001|10.1002/ps.322
117865|T||Ramsewak,R.S., M.G. Nair, M. Stommel, and L. Selanders|In Vitro Antagonistic Activity of Monoterpenes and Their Mixtures Against 'Toe Nail Fungus' Pathogens|PTR. Phytother.Res.17(4): 376-379|2003|10.1002/ptr.1164
117866|T||Lundy,R.F.,Jr., and R.J. Contreras|Taste Prestimulation Increases the Chorda tympani Nerve Response to Menthol|Physiol. Behav.54(1): 65-70|1993|10.1016/0031-9384(93)90044-G
117867|T||Kusanagi,T.|Herbicides:  Upland Crops|Jpn. Pestic. Inf.47:27-28|1985|
117869|T||Cabras,P., M. Melis, F. Cabitza, M. Cubeddu, and L. Spanedda|Persistence of Pirimicarb in Peaches and Nectarines|J. Agric. Food Chem.43(8): 2279-2282|1995|10.1021/jf00056a058
117870|T||Cabras,P., L. Spanedda, F. Cabitza, M. Cubeddu, M.G. Martini, and V. Brandolini|Pirimicarb and Its Metabolite Residues in Lettuce.  Influence of Cultural Environment|J. Agric. Food Chem.38(3): 879-882|1990|10.1021/jf00093a061
117871|T||Abe,T., N. Kawai, and A. Miwa|Blocking of Repetitive Response from a Neuromuscular Preparation of Tenebrio molitor by Phosphotriesters|Comp. Biochem. Physiol. C Comp. Pharmacol.92(2): 309-313|1989|10.1016/0742-8413(89)90059-5
117873|T||Ren,Y.L., I.G. O'Brien, and J. Desmarchelier|Effect of Hydrogen Cyanide and Carbonyl Sulphide on the Germination and Plumule Vigour of Wheat|Pestic. Sci.47(1): 1-5|1996|10.1002/(SICI)1096-9063(199605)47:1<1::AID-PS323>3.0.CO;2-L
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117878|T||Kinser,S., R.A. Sneed, R.A. Roth, and P.E. Ganey|Neutrophils Contribute to Endotoxin Enhancement of Allyl Alcohol Hepatotoxicity|J. Toxicol. Environ. Health Part A67(12): 911-928|2004|10.1080/15287390490443704
117879|T||Rohm and Haas Co.|Toxicity Data Sheet Concerning Acute Oral/Dermal and Skin/Eye Irritations with Cover Letter|EPA/OTS Doc #878212287:6 p.|1982|
117880|T||Azmi,M.A., S.N.H. Naqvi, M.F. Khan, K. Akhtar, and F.Y. Khan|Comparative Toxicological Studies of RB-a (Neem Extract) and Coopex (Permethrin+Bioallethrin) Against Sitophilus oryzae with Reference to Their Effects on Oxygen Consumption and GOT, GPT Activity|Turk. J. Zool.22(4): 307-310|1998|
117881|A||Khan,M.Z., R. Tabassum, S.N.H. Naqvi, E.Z. Shah, F. Tabassum, I. Ahmad, F. Fatima, and M.F. Khan|Effect of Cypermethrin and Permethrin on Cholinesterase Activity and Protein Contents in Rana tigrina (Amphibia)|Turk. J. Zool.27:243-246|2003|
117882|A||Moore,M.T., R. Kroger, C.M. Cooper, and S.,Jr. Smith|Ability of Four Emergent Macrophytes to Remediate Permethrin in Mesocosm Experiments|Arch. Environ. Contam. Toxicol.57(2): 282-288|2009|10.1007/s00244-009-9334-7
117883|AT||Lawler,S.P., D.A. Dritz, C.S. Johnson, and M. Wolder|Does Synergized Pyrethrin Applied over Wetlands for Mosquito Control Affect Daphnia magna Zooplankton or Callibaetis californicus Mayflies?|Pest Manag. Sci.64(8): 843-847|2008|10.1002/ps.1575
117884|T||Deleu,R., and T. Mahaut|Predictive Models of Pirimicarb Toxicity on Three Beneficial Arthropods|Meded. Fac. Landbouwwet. Univ. Gent63(2B): 593-596|1998|
117885|A||Kalafatic,M., and N. Kopjar|Response of Green Hydra to Pirimicarb|Biologia50(3): 289-292|1995|
117886|T||Flamini,G., P.L. Cioni, R. Puleio, I. Morelli, and L. Panizzi|Antimicrobial Activity of the Essential Oil of Calamintha nepeta and Its Constituent Pulegone Against Bacteria and Fungi|PTR. Phytother.Res.13(4): 349-351|1999|10.1002/(SICI)1099-1573(199906)13:4<349::AID-PTR446>3.0.CO;2-Z
117887|T||National Toxicology Program (NTP)|Carcinogenesis Studies of Eugenol (CAS No. 97-53-0) in F344/N Rats and B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.223:159 p.|1983|
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117889|T||Dorough,H.W.|Metabolism of Carbamate Insecticides|EPA-600/1-77-012:256 p.|1977|
117890|T||Loyola-Vargas,V.M., C.D. Broeckling, D. Badri, and J.M. Vivanco|Effect of Transporters on the Secretion of Phytochemicals by the Roots of Arabidopsis thaliana|Planta (Multiple Languages)225(2): 301-310|2007|10.1007/s00425-006-0349-2
117891|T||Sikkema,P.H., S. Hekmat, C. Shropshire, and N. Soltani|Response of Black, Cranberry, Kidney, and White Bean to Linuron|Weed Biol. Manag.9(2): 173-178|2009|10.1111/j.1445-6664.2009.00336.x
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117894|T||Sultana,P., J.E. Brooks, and R.L. Bruggers|Repellency and Toxicity of Bird Control Chemicals to Pest Birds in Bangladesh|Int. J. Pest Manag.32(3): 246-248|1986|
117895|A||Palmer,R.W., and N.A. Rivers-Moore|Evaluation of Larvicides in Developing Management Guidelines for Long-Term Control of Pest Blackflies (Diptera:  Simuliidae) Along the Orange River, South Africa|Onderstepoort J. Vet. Res.75(4): 299-314|2008|10.4102/ojvr.v75i4.106
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117897|T||Moore,S.J., A. Lenglet, and N. Hill|Field Evaluation of Three Plant-Based Insect Repellents Against Malaria Vectors in Vaca Diez Province, the Bolivian Amazon|Am. Mosq. Control Assoc. J.18(2): 107-110|2002|
117898|A||Palanichamy,S., S. Arunachalam, and P. Baskaran|Effect of Pesticides on Protein Metabolism in the Freshwater Catfish Mystus vittatus|J. Ecobiol.1(2): 90-97|1989|
117899|T||Zivanovic,B., M. Vuletic, and Z. Vucinic|The Effect of Metabolic Inhibitors, Sugars and Fusicoccin on the Electrical Potential Difference Arising Across an Intact Chenopodium rubrum L. Plant|Biol. Plant. (Praha)44(3): 361-366|2001|10.1023/A:1012486509219
117900|T||Yu,X., P. Zhou, Y. Liu, and H. Hu|Detoxification of Cyanide by Woody Plants|Arch. Environ. Contam. Toxicol.49(2): 150-154|2005|10.1007/s00244-004-0129-6
117901|T||Mancuso,S., and M. Boselli|Characterisation of the Oxygen Fluxes in the Division, Elongation and Mature Zones of Vitis Roots: Influence of Oxygen Availability|Planta (Multiple Languages)214(5): 767-774|2002|10.1007/s004250100670
117902|A||Lajko,F., A. Kadioglu, G. Borbely, and G. Garab|Competition Between the Photosynthetic and the (Chloro)Respiratory Electron Transport Chains in Cyanobacteria, Green Algae and Higher Plants.  Effect of Heat Stress|Photosynthetica (Praha)33(2): 217-226|1997|10.1023/A:1022160213152
117904|T||Liang,W.S.|Drought Stress Increases both Cyanogenesis and beta-Cyanoalanine Synthase Activity in Tobacco|Plant Sci.165(5): 1109-1115|2003|10.1016/S0168-9452(03)00306-6
117906|A||Richter,P.R., C. Streb, M. Ntefidou, M. Lebert, and D.P. Hader|High Light-Induced Sign Change of Gravitaxis in the Flagellate Euglena gracilis is Mediated by Reactive Oxygen Species|Acta Protozool.42(3): 197-204|2003|
117907|T||Lieberei,R.|Physiological Characteristics of Microcyclus ulei (P.Henn.) V.ARX. -  A Fungal Pathogen of the Cyanogenic Host Hevea brasiliensis|J. Appl. Bot. Food Qual.80(1): 63-68|2006|
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117909|T||Ratner,V., A. Starkov, D. Matsiukevich, R.A. Polin, and V.S. Ten|Mitochondrial Dysfunction Contributes to Alveolar Developmental Arrest in Hyperoxia-Exposed Mice|Am. J. Respir. Cell Mol. Biol.40(5): 511-518|2009|10.1165/rcmb.2008-0341RC
117910|T||Cui,S., L. Zhao, M. Zhao, W. He, and Y. Bi|Tolerance of Embryogenic Suspension Cultures from Two Phragmites communis (Reed) Ecotypes to Salt:  Changes of Respiration Pathway|Isr. J. Plant Sci.53(1): 11-18|2005|10.1560/3Q64-Y8A7-VEVX-A0TJ
117911|T||Meyer,T., M. Burow, M. Bauer, and J. Papenbrock|Arabidopsis Sulfurtransferases:  Investigation of Their Function During Senescence and in Cyanide Detoxification|Planta (Multiple Languages)217(1): 1-10|2003|10.1007/s00425-002-0964-5
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117914|A||Kem,W.R., F. Soti, and D. Rittschof|Inhibition of Barnacle Larval Settlement and Crustacean Toxicity of Some Hoplonemertine Pyridyl Alkaloids|Biomol. Eng.20(4-6): 355-361|2003|10.1016/S1389-0344(03)00049-2
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117962|T||Viglierchio,D.R., and F.F. Wu|Selected Biological Inhibitors for Heterodera schachtii Control|Nematropica19(1): 75-79|1989|
117963|T||Turner,S.D., H. Tinwell, W. Piegorsch, P. Schmezer, and J. Ashby|The Male Rat Carcinogens Limonene and Sodium Saccharin are not Mutagenic to Male Big Blue Rats|Mutagenesis16(4): 329-332|2001|10.1093/mutage/16.4.329
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117974|AT||Premkumar,L.S., M. Raisinghani, S.C. Pingle, C. Long, and F. Pimentel|Downregulation of Transient Receptor Potential Melastatin 8 by Protein Kinase C-Mediated Dephosphorylation|J. Neurosci.25(49): 11322-11329|2005|10.1523/JNEUROSCI.3006-05.2005
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117976|T||Kanerva,R.L., G.M. Ridder, F.R. Lefever, and C.L. Alden|Comparison of Short-Term Renal Effects Due to Oral Administration of Decalin or d-Limonene in Young Adult Male Fischer-344 Rats|Food Chem. Toxicol.25(5): 345-353|1987|10.1016/0278-6915(87)90167-0
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118000|T||Sgherri,C., M.F. Quartacci, and F. Navari-Izzo|Early Production of Activated Oxygen Species in Root Apoplast of Wheat Following Copper Excess|J. Plant Physiol.164(9): 1152-1160|2007|10.1016/j.jplph.2006.05.020
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118002|T||Yuan,G., Z. Gong, X. Zhou, P. Zhang, X. Sun, and X. Li|Epigallocatechin-3-Gallate Ameliorates Alcohol-Induced Liver Injury in Rats|Int. J. Mol. Sci.7:204-219|2006|10.3390/i7070204
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118004|T||Turk,M.A., and A.R.M. Tawaha|Response of Winter Wheat to Applied N with or Without Ethrel Spray Under Irrigation Planted in Semi-Arid Environments|Asian J. Plant Sci.1(4): 464-466|2002|10.3923/ajps.2002.464.466
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118006|T||Stobbs,S.H., A.J. Ohran, M.B. Lassen, D.W. Allison, J.E. Brown, and S.C. Steffensen|Ethanol Suppression of Ventral Tegmental Area GABA Neuron Electrical Transmission Involves N-Methyl-D-Aspartate Receptors|J. Pharmacol. Exp. Ther.311(1): 282-289|2004|10.1124/jpet.104.071860
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118009|T||Casseday,J.H., D. Ehrlich, and E. Covey|Neural Measurement of Sound Duration:  Control by Excitatory-Inhibitory Interactions in the Inferior Colliculus|J. Neurophysiol.84:1475-1487|2000|10.1152/jn.2000.84.3.1475
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118012|T||Olaleye,S.B., O.A. Adaramoye, P.P. Erigbali, and O.S. Adeniyi|Lead Exposure Increases Oxidative Stress in the Gastric Mucosa of HCl/Ethanol-Exposed Rats|World J. Gastroenterol.13(38): 5121-5126|2007|10.3748/wjg.v13.i38.5121
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118028|T||Lefevre,I., G. Marchal, P. Meerts, E. Correal, and S. Lutts|Chloride Salinity Reduces Cadmium Accumulation by the Mediterranean Halophyte Species Atriplex halimus L.|Environ. Exp. Bot.65(1): 142-152|2009|10.1016/j.envexpbot.2008.07.005
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118035|T||He,G., and Y. Aoyama|Effects of Adding Some Dietary Fibers to a Cystine Diet on the Activities of Liver Antioxidant Enzymes and Serum Enzymes in Rats|Biosci. Biotechnol. Biochem.67(3): 617-621|2003|10.1271/bbb.67.617
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118043|T||Kim,D.J., B.S. Han, B. Ahn, R. Hasegawa, T. Shirai, N. Ito, and H. Tsuda|Enhancement by Indole-3-Carbinol of Liver and Thyroid Gland Neoplastic Development in a Rat Medium-Term Multiorgan Carcinogenesis Model|Carcinogenesis18(2): 377-381|1997|10.1093/carcin/18.2.377
118044|T||Holstein,S.E., R. Pastor, P.J. Meyer, and T.J. Phillips|Naloxone does not Attenuate the Locomotor Effects of Ethanol in FAST, SLOW, or Two Neterogeneous Stocks of Mice|Psychopharmacology182:277-289|2005|10.1007/s00213-005-0066-8
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118046|A||Cherkasov,A.S., S. Grewal, and I.M. Sokolova|Combined Effects of Temperature and Cadmium Exposure on Haemocyte Apoptosis and Cadmium Accumulation in the Eastern Oyster Crassostrea virginica (Gmelin)|J. Therm. Biol.32(3): 162-170|2007|10.1016/j.jtherbio.2007.01.005
118047|A||Witeska,M.|Changes in the Common Carp Blood Cell Picture After Acute Exposure to Cadmium|Acta Zool. Litu.11(4): 366-371|2001|10.1080/13921657.2001.10512472
118048|A||Patthebahadur,M.M., and U.E. Bais|Studies on Some Physiological Aspects in Fresh Water Fish Ophiocephalus striatus (Channa) in Relation to Heavy Metal Cadmium (Cd) Toxicity|Orient. J. Chem.24(3): 1099-1102|2008|
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118050|A||Agrahari,S., and K. Gopal|Fate and Toxicity of Cadmium and Lead Accumulation in Different Tissues (Gills, Liver, Kidney, Brain) of a Freshwater Fish Channa punctatus|J. Ecophysiol. Occup. Health7(3-4): 151-155|2007|
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118053|A||Ngo,H.T.T., S. Gerstmann, and H. Frank|Toxicity of Cadmium to the Green Alga Parachlorella kessleri:  Producing Cd-Loaded Algae for Feeding Experiments|Toxicol. Environ. Chem.91(2): 279-288|2009|10.1080/02772240802137889
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118057|T||Inguagiato,J.C., J.A. Murphy, and B.B. Clarke|Anthracnose Severity on Annual Bluegrass Influenced by Nitrogen Fertilization, Growth Regulators, and Verticutting|Crop Sci.48:1595-1607|2008|10.2135/cropsci2007.06.0343
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118059|T||Cohen,E., U. Gerson, and R. Mozes-Koch|Epoxide Hydrolase in the Bulb Mite Rhizoglyphus robini:  Properties and Induction|Exp. Appl. Acarol.17(5): 381-392|1993|10.1007/BF00058601
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118062|A||Micheli-Campbell,M.A., H.A. Campbell, A.L. Kalinin, and F.T. Rantin|The Relationship Between O2 Chemoreceptors, Cardio-Respiratory Reflex and Hypoxia Tolerance in the Neotropical Fish Hoplias lacerdae|Comp. Biochem. Physiol. A Mol. Integr. Physiol.154(2): 224-232|2009|10.1016/j.cbpa.2009.06.014
118063|A||Lahnsteiner,F.|The Sensitivity and Reproducibility of the Zebrafish (Danio rerio) Embryo Test for the Screening of Waste Water Quality and for Testing the Toxicity of Chemicals|Alt. Lab. Anim. (ATLA)36(3): 299-311|2008|10.1177/026119290803600308
118064|T||Chang,H.T., Y.H. Cheng, C.L. Wu, S.T. Chang, T.T. Chang, and Y.C. Su|Antifungal Activity of Essential Oil and Its Constituents from Calocedrus macrolepis Var. formosana Florin Leaf Against Plant Pathogenic Fungi|Bioresour. Technol.99(14): 6266-6270|2008|10.1016/j.biortech.2007.12.005
118065|T||Dupuy,F., J.C. Sandoz, M. Giurfa, and R. Josens|Individual Olfactory Learning in Camponotus Ants|Anim. Behav.72(5): 1081-1091|2006|10.1016/j.anbehav.2006.03.011
118066|T||Khan,M.Z., M. Nazia, F. Fatima, T. Rahila, and K. Gabol|Comparison in the Effect of lambda Cyhalothrin with Permethrin on Cholinesterase Activity in Rana cyanophlyctis and Rana tigrina (Ranidae:  Amphibia)|Bull. Pure Appl. Sci. Sect. A Zool.22(1): 43-49|2003|
118067|T||Khan,M.Z., E.Z. Shah, I. Ahmad, and F. Fatima|Effect of Agricultural Pesticide Permethrin (Pyrethroid) on Protein Contents in Kidney and Liver of Lizard Species Calotes versicolor in Comparison to that in Frog Rana tigrina|Bull. Pure Appl. Sci. Sect. A Zool.21(2): 93-97|2002|
118069|A||Coppellotti Krupa,O., V. Toniello, and L. Guidolin|Niphargus and Gammarus from Karst Waters:  First Data on Heavy Metal (Cd, Cu, Zn) Exposure in a Biospeleology Laboratory|Subterranean Biol.2:33-41|2004|
118070|T||Chu,L., D.Y. Liu, Y.B. Wang, J.H. Ding, and L.L. Wang|Separate and Combined Effects of Cu and Cd on Seedling Growth and Active Oxygen Metabolism System of Trifolium repens L.|Front. Biosci.11:2861-2867|2006|10.2741/2014
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118072|T||Ping,J.H.|Identification of New Drug Compounds Active Against Pediculus humanus Capitis, and Incorporation of the Compounds into a Safe and Potentially Effective Drug Product Formulation|Ph.D.Thesis, University of Georgia, Athens, GA:219 p.|2001|
118074|T||Shono,T., T. Unai, and J.E. Casida|Metabolism of Permethrin Isomers in American Cockroach Adults, House Fly Adults, and Cabbage Looper Larvae|Pestic. Biochem. Physiol.9:96-106|1978|10.1016/0048-3575(78)90070-6
118075|T||Kanerva,R.L., and C.L. Alden|Review of Kidney Sections from a Subchronic d-Limonene Oral Dosing Study Conducted by the National Cancer Institute|Food Chem. Toxicol.25(5): 355-358|1987|10.1016/0278-6915(87)90168-2
118076|A||Sam,T.W.|Toxicity Testing Using the Brine Shrimp:  Artemia salina|In: S.M.Colegate and R.J.Molyneux (Eds.), Bioactive Natural Products: Detection, Isolation, and Structural Determination, CRC Press, Boca Raton, FL:441-456|1993|
118077|T||Duru,M.E., A. Cakir, S. Kordali, H. Zengin, M. Harmandar, S. Izumi, and T. Hirata|Chemical Composition and Antifungal Properties of Essential Oils of Three Pistacia Species|Fitoterapia74(1/2): 170-176|2003|10.1016/S0367-326X(02)00318-0
118078|T||Sokovic,M.D., J. Glamoclija, P.D. Marin, D.D. Brkic, J. Vukojevic, D. Jovanovic, N. Bulajic, and D. Kataranovski|Antifungal Activity of the Essential Oil of Mentha x piperita|Pharm. Biol.44(7): 511-515|2006|10.1080/13880200600878700
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118081|T||Domjan,M.|Role of Ingestion in Odor-Toxicosis Learning in the Rat|J. Comp. Physiol. Psychol.84(3): 507-521|1973|10.1037/h0034878
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118083|T||Jackson,J.A., I.S. Chart, J.H. Sanderson, and R. Garner|Pirimicarb Induced Immune Haemolytic Anaemia in Dogs|Scand. J. Haematol.19(4): 360-366|1977|10.1111/j.1600-0609.1977.tb01487.x
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118085|T||Bullerman,L.B., F.Y. Lieu, and S.A. Seier|Inhibition of Growth and Aflatoxin Production by Cinnamon and Clove Oils, Cinnamic Aldehyde and Eugenol|J. Food Sci.42(4): 1107-1109|1977|10.1111/j.1365-2621.1977.tb12677.x
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118160|A||Singh,H.V.|Toxic Effects of Cadmium Chloride on Growth and Oogonium Formation in Oedogonium hatei|J. Phytol. Res.18(2): 255-257|2005|
118161|A||Hemlata, and T. Fatma|Screening of Cyanobacteria for Phycobiliproteins and Effect of Different Environmental Stress on Its Yield|Bull. Environ. Contam. Toxicol.83(4): 509-515|2009|10.1007/s00128-009-9837-y
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118165|A||Kamunde,C.|Early Subcellular Partitioning of Cadmium in Gill and Liver of Rainbow Trout (Oncorhynchus mykiss) Following Low-to-Near-Lethal Waterborne Cadmium Exposure|Aquat. Toxicol.91(4): 291-301|2009|10.1016/j.aquatox.2008.10.013
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118168|A||Gross,J.A., P.T.J. Johnson, L.K. Prahl, and W.H. Karasov|Critical Period of Sensitivity for Effects of Cadmium on Frog Growth and Development|Environ. Toxicol. Chem.28(6): 1227-1232|2009|10.1897/08-205.1
118169|T||Guo,Y., Y. Yang, and D. Wang|Induction of Reproductive Deficits in Nematode Caenorhabditis elegans Exposed to Metals at Different Developmental Stages|Reprod. Toxicol.28:90-95|2009|10.1016/j.reprotox.2009.03.007
118170|A||Haap,T., and H.R. Kohler|Cadmium Tolerance in Seven Daphnia magna Clones is Associated with Reduced hsp70 Baseline Levels and Induction|Aquat. Toxicol.94:131-137|2009|10.1016/j.aquatox.2009.06.006
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118173|A||Cherkasov,A.S., P.K. Biswas, D.M. Ridings, A.H. Ringwood, and I.M. Sokolova|Effects of Acclimation Temperature and Cadmium Exposure on Cellular Energy Budgets in the Marine Mollusk Crassostrea virginica:  Linking Cellular and Mitochonrial Responses|J. Exp. Biol.209:1274-1284|2006|10.1242/jeb.02093
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118175|A||Vogt,C., D. Belz, S. Galluba, C. Nowak, M. Oetken, and J. Oehlmann|Effects of Cadmium and Tributyltin on Development and Reproduction of the Non-Biting Midge Chironomus riparius (Diptera)-Baseline Experiments for Future Multi-Generation Studies|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42:1-9|2007|
118176|A||Annabi,A., I. Messaoudi, A. Kerkeni, and K. Said|Comparative Study of the Sensitivity to Cadmium of Two Populations of Gambusia affinis from Two Different Sites|Environ. Monit. Assess.155:459-465|2009|10.1007/s10661-008-0448-6
118177|A||Cao,L., W. Huang, X. Shan, Z. Xiao, Q. Wang, and S. Dou|Cadmium Toxicity to Embryonic-Larval Development and Survival in Red Sea Bream Pagrus major|Ecotoxicol. Environ. Saf.72:1966-1974|2009|10.1016/j.ecoenv.2009.06.002
118178|A||Choi,J., and M.H. Ha|Effect of Cadmium Exposure on the Globin Protein Expression in 4th Instar Larvae of Chironomus riparius Mg. (Diptera:  Chironomidae):  An Ecotoxicoproteomics Approach|Proteomics9(1): 31-39|2009|10.1002/pmic.200701197
118179|A||Fulladosa,E., E. Deane, A.H.Y. Ng, N.Y.S. Wood, J.C. Murat, and I. Villaescusa|Stress Proteins Induced by Exposure to Sublethal Levels of Heavy Metals in Sea Bream (Sparus sarba) Blood Cells|Toxicol. In Vitro20:96-100|2006|10.1016/j.tiv.2005.06.005
118180|A||Bouraoui,Z., M. Banni, J. Ghedira, C. Clerandeau, H. Guerbej, J.F. Narbonne, and H. Bousetta|Acute Effects of Cadmium on Liver Phase I and Phase II Enzymes and Metallothionein on Sea Bream Sparus aurata|Fish Physiol. Biochem.34:201-207|2008|10.1007/s10695-007-9177-y
118181|A||Wang,Q., B. Liu, H. Yang, X. Wang, and Z. Lin|Toxicity of Lead, Cadmium and Mercury on Embryogenesis, Survival, Growth and Metamorphosis of Meretrix meretrix Larvae|Ecotoxicology18:829-837|2009|10.1007/s10646-009-0326-1
118182|A||Wang,Z., C. Yan, and X. Zhang|Acute and Chronic Cadmium Toxicity to a Saltwater Cladoceran Moina monogolica Daday and Its Relative Importance|Ecotoxicology18(1): 47-54|2009|10.1007/s10646-008-0255-4
118183|A||Alonso,A., H.J. De Lange, and E.T.H.M. Peeters|Development of a Feeding Behavioural Bioassay Using the Freshwater Amphipod Gammarus pulex and the Multispecies Freshwater Biomonitor|Chemosphere75:341-346|2009|10.1016/j.chemosphere.2008.12.031
118184|A||Zabotkina,E.A., T.B. Lapirova, and E.A. Nazarova|Influence of Cadmium Ions on Some Morphofunctional and Immune-Physiological Parameters of Perch (Perca fluviatilis, Perciformes, Percidae) Underyearlings|J. Ichthyol.49(1): 111-118|2009|10.1134/S0032945209010147
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118186|A||Schuwerack,P.M.M., J.W. Lewis, and P. Jones|The Dynamics of Protein and Metal Metabolism in Acclimated and Cd-Exposed Freshwater Crabs (Potamonautes warreni)|Ecotoxicol. Environ. Saf.72(4): 1220-1227|2009|10.1016/j.ecoenv.2008.07.004
118187|A||Sellin,M.K., and A.S. Kolok|Cadmium Exposures During Early Development:  Do They Lead to Reproductive Impairment in Fathead Minnows?|Environ. Toxicol. Chem.25(11): 2957-2963|2006|10.1897/05-559R1.1
118188|A||Fang,Z.|Comparative Studies on Uptake Pathway of Cadmium by Perna viridis|J. Ocean Univ. China5(1): 49-54|2006|10.1007/BF02919373
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118190|A||Vinodhini,R., and M. Narayanan|Bioaccumulation of Heavy Metals in Organs of Fresh Water Fish Cyprinus carpio (Common Carp)|Int. J. Environ. Sci. Technol. (Tehran)5(2): 179-182|2008|10.1007/BF03326011
118191|A||Wang,C., Q. Sun, and L. Wang|Cadmium Toxicity and Phytochelatin Production in a Rooted-Submerged Macrophyte Vallisneria spiralis Exposed to Low Concentrations of Cadmium|Environ. Toxicol.24(3): 271-278|2009|10.1002/tox.20429
118192|A||Sen,H.|Effects of Cadmium (CdCl2) on Development and Hatching of Eggs in European Squid (Loligo vulgaris Lamarck, 1798) (Cephalopoda:  Loliginidae)|Environ. Monit. Assess.133:371-378|2007|10.1007/s10661-006-9591-0
118193|A||Sharma,B., and R. Patino|Effects of Cadmium on Growth, Metamorphosis and Gonadal Sex Differentiation in Tadpoles of the African Clawed Frog, Xenopus laevis|Chemosphere76(8): 1048-1055|2009|10.1016/j.chemosphere.2009.04.043
118194|A||Sikorska,J., and J. Wolnicki|Cadmium Toxicity to Rudd (Scardinius erythrophthalmus (L.)) Larvae After Short-Term Exposure|Arch. Pol. Fish. 14(1): 15-27|2006|
118195|T||Simonova,E., M. Henselova, E. Masarovicova, and J. Kohanova|Comparison of Tolerance of Brassica juncea and Vigna radiata to Cadmium|Biol. Plant. (Praha)51(3): 488-492|2007|10.1007/s10535-007-0103-z
118196|A||Sobrino-Figueroa,A., and C. Caceres-Martinez|Alterations of Valve Closing Behavior in Juvenile Catarina Scallops (Argopecten ventricosus Sowerby, 1842) Exposed to Toxic Metals|Ecotoxicology18:983-987|2009|10.1007/s10646-009-0358-6
118197|A||Sofyan,A., D.J. Price, and W.J. Birge|Effects of Aqueous, Dietary and Combined Exposures of Cadmium to Ceriodaphnia dubia|Sci. Total Environ.385:108-116|2007|10.1016/j.scitotenv.2006.07.003
118198|A||Tkalec,M., T. Prebeg, V. Roje, B. Pevalek-Kozlina, and N. Ljubesic|Cadmium-Induced Responses in Duckweed Lemna minor L.|Acta Physiol. Plant.30:881-890|2008|10.1007/s11738-008-0194-y
118199|A||Loumbourdis,N.S., I. Kostaropoulos, B. Theodoropoulou, and D. Kalmanti|Heavy Metal Accumulation and Metallothionein Concentration in the Frog Rana ridibunda After Exposure to Chromium or a Mixture of Chromium and Cadmium|Environ. Pollut.145:787-792|2007|10.1016/j.envpol.2006.05.011
118200|A||Patil,V.K., and M. David|Behavioral and Respiratory Dysfunction in the Freshwater Fish, Labeo rohita (Hamilton) Under Malathion Intoxication|J. Basic Clin. Physiol. Pharmacol.19(2): 167-175|2008|10.1515/JBCPP.2008.19.2.167
118201|T||Brouard,C., and M. Pascaud|Role of Polyunsaturated Fatty Acids in Immune Reactivity (Role Des Acides Gras Polyinsatures Dans La Reactivite Immunitaire)|Final Report, Paris-6 Univ.(France).Lab.de Physiologie Metabolique et Nutrition7:42 p.|1993|
118202|T||Stopar,M.|Vegetable Oil Emulsions, NaCl, CH3COOH and CaSx as Organically Acceptable Apple Blossom Thinning Compounds|Eur. J. Hortic. Sci.73(2): 55-61|2008|
118203|T||Hasan,H.A.H., and A.L.E. Mahmoud|Inhibitory Effect of Spice Oils on Lipase and Mycotoxin Production|Zentbl. Mikrobiol.148(8): 543-548|1993|10.1016/S0232-4393(11)80218-0
118204|T||Ward,J.S., T.E. Worthley, and S.C. Williams|Controlling Japanese Barberry (Berberis thunbergii DC) in Southern New England, USA|For. Ecol. Manag.257(2): 561-566|2009|10.1016/j.foreco.2008.09.032
118205|T||Man,C.D., P.G. Comeau, and D.G. Pitt|Competitive Effects of Woody and Herbaceous Vegetation in a Young Boreal Mixedwood Stand|Can. J. For. Res.38(7): 1817-1828|2008|10.1139/X08-032
118206|T||Eurell,T.E., J.A.C. Eurell, D.J. Schaeffer, D.R. Mattie, and C.L. Alden|Lysosomal Changes in Renal Proximal Tubular Epithelial Cells of Male Sprague Dawley Rats Following Decalin Exposure|Toxicol. Pathol.18(4): 637-642|1991|10.1177/01926233900184P201
118207|T||Irwin,R.|NTP Technical Report on the Toxicity Studies of Castor Oil in F344/N Rats and B6C3F1 Mice (Dosed Feed Studies)|NTP NIH Publ.No.92-3131,Natl.Inst.of Health, Research Triangle Park:31 p.|1993|
118208|T||Eastman Kodak Co.|Initial Submission: Primary Eye Irritation Study of 4CU-198-T Liquid Hand Soap in Rabbits with Cover Letter Dated 09/21/92|EPA/OTS; Doc #88-920010658:16 p.|1992|
118209|T||Wekesa,V.W., M. Knapp, and I.,Jr. Delalibera|Side-Effects of Pesticides on the Life Cycle of the Mite Pathogenic Fungus Neozygites floridana|Exp. Appl. Acarol.46(1-4): 287-297|2008|10.1007/s10493-008-9168-4
118210|T||Koc,N.D., F.E. Kayhan, C. Sesal, and M.N. Muslu|Dose-Dependent Effects of Endosulfan and Malathion on Adult Wistar Albino Rat Ovaries|Pak. J. Biol. Sci.12(6): 498-503|2009|10.3923/pjbs.2009.498.503
118211|A||Tikar,S.N., M.J. Mendki, K. Chandel, B.D. Parashar, and S. Prakash|Susceptibility of Immature Stages of Aedes (Stegomyia) aegypti; Vector of Dengue and Chikungunya to Insecticides from India|Parasitol. Res.102(5): 907-913|2008|10.1007/s00436-007-0848-5
118212|T||Bala,S.K., and N.C. Sukul|Systemic Nematicidal Effect of Eugenol|Nematropica17(2): 219-222|1987|
118213|T||Norton,R.A.|Effect of Carotenoids on Aflatoxin B1 Synthesis by Aspergillus flavus|Phytopathology87:814-821|1997|10.1094/PHYTO.1997.87.8.814
118216|A||Nelson,J.L., V.F. Bruns, C.C. Coutant, and B.L. Carlile|Behavior and Reactions of Copper Sulfate in an Irrigation Canal|Pestic. Monit. J.3(3): 186-189|1969|
118217|T||Prigol,M., R.F. Schumacher, C. WayneNogueira, and G. Zeni|Convulsant Effect of Diphenyl Diselenide in Rats and Mice and Its Relationship to Plasma Levels|Toxicol. Lett.189(1): 35-39|2009|10.1016/j.toxlet.2009.04.026
118218|T||Adams,E.M., P.C. Frederick, I.L.V. Larkin, and L.J.,Jr. Guillette|Sublethal Effects of Methylmercury on Fecal Metabolites of Testosterone, Estradiol, and Corticosterone in Captive Juvenile White Ibises (Eudocimus albus)|Environ. Toxicol. Chem.28(5): 982-989|2009|10.1897/08-253.1
118219|T||Shiyab,S., J. Chen, F.X. Han, D.L. Monts, F.B. Matta, M. Gu, Y. Su, and M.A. Masad|Mercury-Induced Oxidative Stress in Indian Mustard (Brassica juncea L.)|Environ. Toxicol.24(5): 462-471|2009|10.1002/tox.20450
118220|T||Song,Y., L.S. Zhu, H. Xie, J. Wang, J.H. Wang, W. Liu, and X.L. Dong|Effects of Atrazine on DNA Damage and Antioxidative Enzymes in Vicia faba|Environ. Toxicol. Chem.28(5): 1059-1062|2009|10.1897/08-285.1
118221|T||Sinnett,D.E., M.E. Hodson, and T.R. Hutchings|Food-Chain Transfer of Cadmium and Zinc from Contaminated Urtica dioica to Helix aspersa and Lumbricus terrestris|Environ. Toxicol. Chem.28(8): 1756-1766|2009|10.1897/08-604.1
118223|T||Chapleau,R.R., and M. Sagermann|Real-Time In Vivo Imaging of Mercury Uptake in Caenorhabditis elegans Through the Foodchain|Toxicology261(3): 136-142|2009|10.1016/j.tox.2009.05.005
118225|T||Parr,M.K., U. Laudenbach-Leschowsky, N. Hofer, W. Schanzer, and P. Diel|Anabolic and Androgenic Activity of 19-Norandrostenedione After Oral and Subcutaneous Administration - Analysis of Side Effects and Metabolism|Toxicol. Lett.188(2): 137-141|2009|10.1016/j.toxlet.2009.03.024
118229|T||Mosleh,Y.Y.I.|Assessing the Toxicity of Herbicide Isoproturon on Aporrectodea caliginosa (Oligochaeta) and Its Fate in Soil Ecosystem|Environ. Toxicol.24(4): 396-403|2009|10.1002/tox.20437
118230|T||Nederbragt,H.|The Influence of Molybdenum on the Copper Metabolism of the Rat at Different Cu Levels of the Diet|Br. J. Nutr.43:329-338|1980|10.1079/BJN19800095
118231|T||Shukla,U.C., R.C. Murthy, and P. Kakkar|Combined Effect of Ultraviolet-B Radiation and Cadmium Contamination on Nutrient Uptake and Photosynthetic Pigments in Brassica campestris L. Seedlings|Environ. Toxicol.23(6): 712-719|2008|10.1002/tox.20378
118232|A||Van Genderen,E.J., and S.J. Klaine|Demonstration of a Landscape-Scale Approach for Predicting Acute Copper Toxicity to Larval Fathead Minnows (Pimephales promelas) in Surface Waters|Integr. Environ. Assess. Manag.4(2): 237-245|2008|10.1897/IEAM_2007-061.1
118233|T||Lee,B.T., and K.W. Kim|Lysosomal Membrane Response of Earthworm, Eisenia fetida, to Arsenic Contamination in Soils|Environ. Toxicol.24(4): 369-376|2009|10.1002/tox.20441
118234|T||Nederbragt,H.|Changes in the Distribution of Copper and Molybdenum After Mo Administration and Subsequent Additional Oral or Intraperitoneal Cu Administration to Rats|Br. J. Nutr.48:353-364|1982|10.1079/BJN19820119
118235|T||Wang,L.S., L. Wang, L. Wang, G. Wang, Z.H. Li, and J.J. Wang|Effect of 1-Butyl-3-Methylimidazolium Tetrafluoroborate on the Wheat (Triticum aestivum L.) Seedlings|Environ. Toxicol.24(3): 296-303|2009|10.1002/tox.20435
118237|A||Shi,X., L.W.Y. Yeung, P.K.S. Lam, R.S.S. Wu, and B. Zhou|Protein Profiles in Zebrafish (Danio rerio) Embryos Exposed to Perfluorooctane Sulfonate|Toxicol. Sci.110(2): 334-340|2009|10.1093/toxsci/kfp111
118238|T||Kim,J., and J. Soh|Cadmium-Induced Apoptosis is Mediated by the Translocation of AIF to the Nucleus in Rat Testes|Toxicol. Lett.188(1): 45-51|2009|10.1016/j.toxlet.2009.03.006
118240|T||Franco,J.L., T. Posser, J.J. Mattos, R. Trevisan, P.S. Brocardo, A.L.S. Rodrigues, R.B. Leal, M. Farina, M.R.F. Marques|Zinc Reverses Malathion-Induced Impairment in Antioxidant Defenses|Toxicol. Lett.187(3): 137-143|2009|10.1016/j.toxlet.2009.02.015
118241|A||Goulet,R.R., S. Krack, P.J. Doyle, L. Hare, B. Vigneault, and J.C. McGeer|Dynamic Multipathway Modeling of Cd Bioaccumulation in Daphnia magna Using Waterborne and Dietborne Exposures|Aquat. Toxicol.81:117-125|2007|10.1016/j.aquatox.2006.11.008
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118243|A||Filosto,S., M.C. Roccheri, R. Bonaventura, and V. Matranga|Environmentally Relevant Cadmium Concentrations Affect Development and Induce Apoptosis of Paracentrotus lividus Larvae Cultured In Vitro|Cell Biol. Toxicol.24:603-610|2008|10.1007/s10565-008-9066-x
118244|A||Boga,A., S. Erdogan, and Y. Sertdemir|Effects of Specific Dosages of Magnesium and Zinc on the Teratogenicity of Cadmium, Nickel, and Cobalt in Xenopus Embryos, as Assessed by the FETAX Test|Dose Response6:16-29|2008|10.2203/dose-response.05-027.Boga
118245|A||Uysal,Y., and F. Taner|The Effect of Cadmium Ions on the Growth Rate of the Freshwater Macrophyte Duckweed Lemna minor|Ekoloji16(62): 9-15|2007|
118246|A||Jiraungkoorskul,W., S. Sahaphong, P. Kosai, and M.H. Kim|The Effect of Ascorbic Acid on Cadmium Exposure in the Gills of Puntius altus|Int. J. Zool. Res.3(2): 77-85|2007|10.3923/ijzr.2007.77.85
118247|A||Chaumot,A., P. Gos, J. Garric, and O. Geffard|Additivie vs Non-Additive Genetic Components in Lethal Cadmium Tolerance of Gammarus (Crustacea):  Novel Light on the Assessment of the Potential for Adaptation to Contamination|Aquat. Toxicol.94:294-299|2009|10.1016/j.aquatox.2009.07.015
118248|A||Dovzhenko,N.V., A.V. Kurilenko, N.N. Bel'cheva, and V.P. Chelomin|Cadmium-Induced Oxidative Stress in the Bivalve Mollusk Modiolus modiolus|Russ. J. Mar. Biol.31(5): 309-313|2005|10.1007/s11179-005-0093-7
118249|A||Singh,J., K. Kant, H.B. Sharma, and K.S. Rana|Bioaccumulation of Cadmium in Tissues of Cirrihna mrigala and Catla catla|Asian J. Exp. Sci22(3): 411-414|2008|
118250|T||Schouest,K., A. Zitova, C. Spillane, and D.B. Papkovsky|Toxicological Assessment of Chemicals Using Caenorhabditis elegans and Optical Oxygen Respirometry|Environ. Toxicol. Chem.28(4): 791-799|2009|10.1897/08-083.1
118251|A||Shenoy,K., B.T. Cunningham, J.W. Renfroe, and P.H. Crowley|Growth and Survival of Northern Leopard Frog (Rana pipiens) Tadpoles Exposed to Two Common Pesticides|Environ. Toxicol. Chem.28(7): 1469-1474|2009|10.1897/08-306.1
118252|A||Sparling,D.W., and G.M. Fellers|Toxicity of Two Insecticides to California, USA, Anurans and Its Relevance to Declining Amphibian Populations|Environ. Toxicol. Chem.28(8): 1696-1703|2009|10.1897/08-336.1
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118254|T||Lilly,L.J.|Effects of Cyanide and Ionising Radiation on the Roots of Vicia faba|Exp. Cell Res.14(2): 257-267|1958|10.1016/0014-4827(58)90184-8
118256|A||Achiorno,C.L., C. De Villalobos, and L. Ferrari|Sensitivity of Preparasitic Stages of Chordodes nobilii (Gordiida, Nematomorpha) to Malathion|Ecotoxicology18(5): 594-599|2009|10.1007/s10646-009-0317-2
118257|T||Kavak,S., and B. Eser|Influence of Polymer Coatings on Water Uptake and Germination of Onion (Allium cepa L. cv. Aki) Seeds Before and After Storage|Sci. Hortic.121(1): 7-11|2009|10.1016/j.scienta.2009.01.020
118258|T||du Plooy,W., T. Regnier, and S. Combrinck|Essential Oil Amended Coatings as Alternatives to Synthetic Fungicides in Citrus Postharvest Management|Postharvest Biol. Technol.53(3): 117-122|2009|10.1016/j.postharvbio.2009.04.005
118259|T||Nidiry,E.S.J., and C.S.B. Babu|Antifungal Activity of Tuberose Absolute and Some of Its Constituents|PTR. Phytother.Res.19(5): 447-449|2005|10.1002/ptr.1630
118260|T||Zhao,J., Q. Hu, Y.Q. Guo, and W.H. Zhu|Effects of Stress Factors, Bioregulators, and Synthetic Precursors on Indole Alkaloid Production in Compact Callus Clusters Cultures of Catharanthus roseus|Appl. Microbiol. Biotechnol.55(6): 693-698|2001|10.1007/s002530000568
118261|T||Kohli,R.K., D.R. Batish, and H.P. Singh|Eucalypt Oils for the Control of Parthenium (Parthenium hysterophorus L.)|Crop Prot.17(2): 119-122|1998|10.1016/S0261-2194(97)00095-1
118262|T||Lee,H.S.|p-Anisaldehyde:  Acaricidal Component of Pimpinella anisum Seed Oil Against the House Dust Mites Dermatophagoides farinae and Dermatophagoides pteronyssinus|Planta Med.70(3): 279-281|2004|10.1055/s-2004-818925
118263|T||Bondada,B.R., C.E. Sams, D.E. Deyton, and J.C. Cummins|Apple and Peach Leaf and Stem Surface Morphology and Soybean Oil Retention as Influenced by Simulated Rainfall and Soybean Oil Emulsions|J. Am. Soc. Hortic. Sci.125(5): 553-557|2000|10.21273/JASHS.125.5.553
118264|T||Myers,R.E., D.E. Deyton, and C.E. Sams|Applying Soybean Oil to Dormant Peach Trees Alters Internal Atmosphere, Reduces Respiration, Delays Bloom, and Thins Flower Buds|J. Am. Soc. Hortic. Sci.121(1): 96-100|1996|10.21273/JASHS.121.1.96
118265|T||Santoro,G.F., M.G. Cardoso, L.G.L. Guimaraes, J.M. Freire, and M.J. Soares|Anti-Proliferative Effect of the Essential Oil of Cymbopogon citratus (DC) Stapf (Lemongrass) on Intracellular Amastigotes, Bloodstream Trypomastigotes and Culture Epimastigotes of Trypanosoma cruzi (Protozoa: Kinetopla|Parasitology134(11): 1649-1656|2007|10.1017/S0031182007002958
118266|T||Lee,H.K., H.S. Lee, and Y.J. Ahn|Antignawing Factor Derived from Cinnamomum cassia Bark Against Mice|J. Chem. Ecol.25(5): 1131-1139|1999|10.1023/A:1020890027486
118267|T||Piccotti,J.R., and T.T. Kawabata|Use of an Ex Vivo Local Lymph Node Assay to Assess Contact Hypersensitivity Potential|J. Immunotoxicol.5(3): 271-277|2008|10.1080/15376510802311961
118270|T||Pol,O., L. Valle, I. Ferrer, and M.M. Puig|The Inhibitory Effects of alpha(2)-Adrenoceptor Agonists on Gastrointestinal Transit During Croton Oil-Induced Intestinal Inflammation|Br. J. Pharmacol.119(8): 1649-1655|1996|10.1111/j.1476-5381.1996.tb16085.x
118271|T||Bailey,C.A., R.D. Stipanovic, M.S. Ziehr, A.U. Haq, M. Sattar, L.F. Kubena, H.L. Kim, and R.D.M. Vieira|Cottonseed with a High (+)- to (-)-Gossypol Enantiomer Ratio Favorable to Broiler Production|J. Agric. Food Chem.48(11): 5692-5695|2000|10.1021/jf000211n
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118273|T||Saxton,V.P., G.L. Creasy, A.M. Paterson, and M.C.T. Trought|Response of Blackbirds (Turdus merula) and Silvereyes (Zosterops lateralis) to Geraniol and 2-Methoxy-3-Isobutylpyrazine|Am. J. Enol. Vitic.55(3): 292-294|2004|10.5344/ajev.2004.55.3.292
118274|T||Occhiuto,F., and C. Circosta|Investigations to Characterize the Antiarrhythmic Action of Bergamottine, a Furocoumarin Isolated from Bergamot Oil|PTR. Phytother.Res.11(6): 450-453|1997|10.1002/(SICI)1099-1573(199709)11:6<450::AID-PTR127>3.0.CO;2-S
118275|T||Moran,R.E., D.E. Deyton, C.E. Sams, and J.C. Cummins|Applying Soybean Oil to Dormant Peach Trees Thins Flower Buds|Hortscience35(4): 615-619|2000|10.21273/HORTSCI.35.4.615
118276|T||Bainard,L.D., M.B. Isman, and M.K. Upadhyaya|Phytotoxicity of Clove Oil and Its Primary Constituent Eugenol and the Role of Leaf Epicuticular Wax in the Susceptibility to These Essential Oils|Weed Sci.54(5): 833-837|2006|10.1614/WS-06-039R.1
118277|T||Dobson,H.E.M., E.M. Danielson, and I.D. Van Wesep|Pollen Odor Chemicals as Modulators of Bumble Bee Foraging on Rosa rugosa Thunb. (Rosaceae)|Plant Species Biol.14(2): 153-166|1999|10.1046/j.1442-1984.1999.00020.x
118278|T||Dubey,P., and S.C. Tripathi|Studies on Antifungal, Physico-Chemical and Phytotoxic Properties of the Essential Oil of Piper betle|J. Plant Dis. Prot. (Z. Pflanzenkr. Pflanzenschutz)94(3): 235-241|1987|
118279|T||Neri,F., M. Mari, S. Brigati, and P. Bertolini|Control of Neofabraea alba by Plant Volatile Compounds and Hot Water|Postharvest Biol. Technol.51(3): 425-430|2009|10.1016/j.postharvbio.2008.08.006
118280|T||Oxenham,S.K., K.P. Svoboda, and D.R. Walters|Antifungal Activity of the Essential Oil of Basil (Ocimum basilicum)|J. Phytopathol.153(3): 174-180|2005|10.1111/j.1439-0434.2005.00952.x
118281|T||Inouye,S., K. Uchida, and H. Yamaguchi|In-Vitro and In-Vivo Anti-Trichophyton Activity of Essential Oils by Vapour Contact|Mycoses44(3-4): 99-107|2001|10.1046/j.1439-0507.2001.00618.x
118282|T||Radwan,M.A., S.M.I. Kassem, M.M. Abu-Elamayem, and E.K. El-Maadawy|Use of Some Emulsified Plant Seed Oils as a Safe Alternative for the Management of Meloidogyne incognita Infecting Tomato|Arch. Phytopathol. Plant Prot.40(5): 345-352|2007|10.1080/03235400600587607
118283|T||Babu,C.K., S.K. Khanna, and M. Das|Safety Evaluation Studies on Argemone Oil Through Dietary Exposure for 90 Days in Rats|Food Chem. Toxicol.44(7): 1151-1157|2006|10.1016/j.fct.2006.02.003
118284|T||Jayashree,T., and C. Subramanyam|Antiaflatoxigenic Activity of Eugenol is Due to Inhibition of Lipid Peroxidation|Lett. Appl. Microbiol.28(3): 179-183|1999|10.1046/j.1365-2672.1999.00512.x
118285|T||Neri,F., M. Mari, S. Brigati, and P. Bertolini|Fungicidal Activity of Plant Volatile Compounds for Controlling Monilinia laxa in Stone Fruit|Plant Dis.91(1): 30-35|2007|10.1094/PD-91-0030
118286|A||Sidharthan,M., and H.W. Shin|Influence of Five Organic Antifouling Candidates on Spore Attachment and Germination of a Fouling Alga Ulva pertusa|J. Environ. Biol.28(1): 39-43|2007|
118289|T||O'Connor,C.E., and L.R. Matthews|Duration of Cyanide-Induced Conditioned Food Aversions in Possums|Physiol. Behav.62(4): 931-933|1997|10.1016/S0031-9384(97)00175-3
118290|T||Pereira,P., A.S. Pires, and J.C. Roseiro|The Effect of Culture Aging, Cyanide Concentration and Induction Time on Formamide Hydro-Lyase Activity of Fusarium oxysporum CCMI 876|Enzyme Microb. Technol.25(8-9): 736-744|1999|10.1016/S0141-0229(99)00105-2
118292|A||Relyea,R.A., and N. Diecks|An Unforeseen Chain of Events:  Lethal Effects of Pesticides on Frogs at Sublethal Concentrations|Ecol. Appl.18(7): 1728-1742|2008|10.1890/08-0454.1
118294|AT||Yasuor,H., M.D. Osuna, A. Ortiz, N.E. Saldain, J.W. Eckert, and A.J. Fischer|Mechanism of Resistance to Penoxsulam in Late Watergrass [Echinochloa phyllopogon (Stapf) Koss.]|J. Agric. Food Chem.57(9): 3653-3660|2009|10.1021/jf8039999
118295|A||Patil,V.K., and M. David|Behaviour and Respiratory Dysfunction as an Index of Malathion Toxicity in the Freshwater Fish, Labeo rohita (Hamilton)|Turk. J. Fish. Aquat. Sci.8(2): 233-237|2008|
118296|A||Prashanth,M.S., and S.E. Neelagund|Free Cyanide-Induced Biochemical Changes in Nitrogen Metabolism of the Indian Major Carp Cirrhinus mrigala|J. Basic Clin. Physiol. Pharmacol.18(4): 277-287|2007|10.1515/JBCPP.2007.18.4.277
118297|A||Earl,J.E., and H.H. Whiteman|Effects of Pulsed Nitrate Exposure on Amphibian Development|Environ. Toxicol. Chem.28(6): 1331-1337|2009|10.1897/08-325.1
118298|T||Ma,H., T.C. Glenn, C.H. Jagoe, K.L. Jones, and P.L. Williams|A Transgenic Strain of the Nematode Caenorhabditis elegans as a Biomonitor for Heavy Metal Contamination|Environ. Toxicol. Chem.28(6): 1311-1318|2009|10.1897/08-496.1
118299|A||Megateli,S., S. Semsari, and M. Couderchet|Toxicity and Removal of Heavy Metals (Cadmium, Copper, and Zinc) by Lemna gibba|Ecotoxicol. Environ. Saf.72:1774-1780|2009|10.1016/j.ecoenv.2009.05.004
118300|A||Arikpo,G.E., M.E. Eja, L.O. Ogbonnaya, and A.A. Opara|Cadmium Uptake by the Green Alga Chlorella emersonii|Global J. Pure Appl. Sci.10(2): 257-262|2004|10.4314/gjpas.v10i2.16391
118302|A||Oropesa,A.L., J.P. Garcia-Cambero, L. Gomez, V. Roncero, and F. Soler|Effect of Long-Term Exposure to Simazine on Histopathology, Hematological, and Biochemical Parameters in Cyprinus carpio|Environ. Toxicol.24(2): 187-199|2009|10.1002/tox.20412
118303|T||McPhee,I.M., and G.D. Cawley|Copper Heptonate for the Treatment of Hypocupraemia in Sheep|Vet. Rec.122(20): 483-485|1988|10.1136/vr.122.20.483
118304|T||Mikus,J., M. Harkenthal, D. Steverding, and J. Reichling|In Vitro Effect of Essential Oils and Isolated Mono- and Sesquiterpenes on Leishmania major and Trypanosoma brucei|Planta Med.66(4): 366-368|2000|10.1055/s-2000-8548
118305|T||Borghoff,S.J., G.C. Hard, N.M. Berdasco, R. Gingell, S.M. Green, and W. Gulledge|Methyl Isobutyl Ketone (MIBK) Induction of alpha2u-Globulin Nephropathy in Male, but Not Female Rats|Toxicology258(2-3): 131-138|2009|10.1016/j.tox.2009.01.018
118306|T||Velluti,A., V. Sanchis, A.J. Ramos, J. Egido, and S. Marin|Inhibitory Effect of Cinnamon, Clove, Lemongrass, Oregano and Palmarose Essential Oils on Growth and Fumonisin B1 Production by Fusarium proliferatum in Maize Grain|Int. J. Food Microbiol.89(2-3): 145-154|2003|10.1016/S0168-1605(03)00116-8
118307|T||Uppal,A.K., A. El Hadrami, L.R. Adam, M. Tenuta, and F. Daayf|Biological Control of Potato Verticillium Wilt Under Controlled and Field Conditions Using Selected Bacterial Antagonists and Plant Extracts|Biol. Control44(1): 90-100|2008|10.1016/j.biocontrol.2007.10.020
118308|T||Venturini,M.E., D. Blanco, and R. Oria|In Vitro Antifungal Activity of Several Antimicrobial Compounds Against Penicillium expansum|J. Food Prot.65(5): 834-839|2002|10.4315/0362-028X-65.5.834
118309|T||Morgan,J.A., and J.V. Shanks|Determination of Metabolic Rate-Limitations by Precursor Feeding in Catharanthus roseus Hairy Root Cultures|J. Biotechnol.79(2): 137-145|2000|10.1016/S0168-1656(00)00221-2
118310|A||Mann,R.M., R.V. Hyne, D.A. Spadaro, and S.L. Simpson|Development and Application of a Rapid Amphipod Reproduction Test for Sediment-Quality Assessment|Environ. Toxicol. Chem.28(6): 1244-1254|2009|10.1897/08-346.1
118311|T||Roh,J.Y., S.J. Sim, J. Yi, K. Park, K.H. Chung, D.Y. Ryu, and J. Choi|Ecotoxicity of Silver Nanoparticles on the Soil Nematode Caenorhabditis elegans Using Functional Ecotoxicogenomics|Environ. Sci. Technol.43(10): 3933-3940|2009|10.1021/es803477u
118312|A||Frank,R.A., K. Fischer, R. Kavanagh, B.K. Burnison, G. Arsenault, J.V. Headley, K.M. Peru, G. Van der Kraak, and K.R. S|Effect of Carboxylic Acid Content on the Acute Toxicity of Oil Sands Naphthenic Acids|Environ. Sci. Technol.43(2): 266-271|2009|10.1021/es8021057
118313|A||Berrojalbiz,N., S. Lacorte, A. Calbet, E. Saiz, C. Barata, and J. Dachs|Accumulation and Cycling of Polycyclic Aromatic Hydrocarbons in Zooplankton|Environ. Sci. Technol.43(7): 2295-2301|2009|10.1021/es8018226
118314|A||Yao,K., L. Zhu, Z. Duan, Z. Chen, Y. Li, and X. Zhu|Comparison of R-Metalaxyl and rac-Metalaxyl in Acute, Chronic, and Sublethal Effect on Aquatic Organisms:  Daphnia magna, Scenedesmus quadricanda, and Danio rerio|Environ. Toxicol.24(2): 148-156|2009|10.1002/tox.20415
118315|A||Fakoorziba,M.R., F. Eghbal, and V.A. Vijayan|Synergist Efficacy of Piperonyl Butoxide with Deltamethrin as Pyrethroid Insecticide on Culex tritaeniorhynchus (Diptera:  Culicidae) and Other Mosquitoe Species|Environ. Toxicol.24(1): 19-24|2009|10.1002/tox.20386
118316|A||Ansari,R.A., M. Kaur, F. Ahmad, S. Rahman, H. Rashid, F. Islam, and S. Raisuddin|Genotoxic and Oxidative Stress-Inducing Effects of Deltamethrin in the Erythrocytes of a Freshwater Biomarker Fish Species, Channa punctata Bloch.|Environ. Toxicol.24(5): 429-436|2009|10.1002/tox.20445
118317|A||Arellano-Aguilar,O., and C. Macias Garcia|Effects of Methyl Parathion Exposure on Development and Reproduction in the Viviparous Fish Girardinichthys multiradiatus|Environ. Toxicol.24(2): 178-186|2009|10.1002/tox.20414
118318|A||Hassold,E., and T. Backhaus|Chronic Toxicity of Five Structurally Diverse Demethylase-Inhibiting Fungicides to the Crustacean Daphnia magna:  A Comparative Assessment|Environ. Toxicol. Chem.28(6): 1218-1226|2009|10.1897/08-339.1
118319|A||Todd,A.S., S. Brinkman, R.E. Wolf, P.J. Lamothe, K.S. Smith, and J.F. Ranville|An Enriched Stable-Isotope Approach to Determine the Gill-Zinc Binding Properties of Juvenile Rainbow Trout (Oncorhunchus mykiss) During Acute Zinc Exposures in Hard and Soft Waters|Environ. Toxicol. Chem.28(6): 1233-1243|2009|10.1897/08-252.1
118320|A||Zhao,M., C. Wang, K.K. Liu, L. Sun, L. Li, and W. Liu|Enantioselectivity in Chronic Toxicology and Accumulation of the Synthetic Pyrethroid Insecticide Bifenthrin in Daphnia magna|Environ. Toxicol. Chem.28(7): 1475-1479|2009|10.1897/08-527.1
118321|A||Knauert,S., U. Dawo, J. Hollender, U. Hommen, and K. Knauer|Effects of Photosystem II Inhibitors and Their Mixture on Freshwater Phytoplankton Succession in Outdoor Mesocosms|Environ. Toxicol. Chem.28(4): 836-845|2009|10.1897/08-135R.1
118322|A||Lazorchak,J.M., M.E. Smith, and H.J. Haring|Development and Validation of a Daphnia magna Four-Day Survival and Growth Test Method|Environ. Toxicol. Chem.28(5): 1028-1034|2009|10.1897/08-296.1
118323|A||Salazar-Lugo,R., A. Estrella, A. Oliveros, E. Rojas-Villarroel, L.B. Villalobos, and M. Lemus|Paraquat and Temperature Affect Nonspecific Immune Response of Colossoma macropomum|Environ. Toxicol. Pharmacol.27(3): 321-326|2009|10.1016/j.etap.2008.11.010
118324|A||Dorts,J., F. Silvestre, H.T. Tu, A.E. Tyberghein, N.T. Phuong, and P. Kestemont|Oxidative Stress, Protein Carbonylation and Heat Shock Proteins in the Black Tiger Shrimp, Penaeus monodon, Following Exposure to Endosulfan and Deltamethrin|Environ. Toxicol. Pharmacol.28(2): 302-310|2009|10.1016/j.etap.2009.05.006
118325|A||Holth,T.F., B.A. Beylich, H. Skarphedinsdottir, B. Liewenborg, M. Grung, and K. Hylland|Genotoxicity of Environmentally Relevant Concentrations of Water-Soluble Oil Components in Cod (Gadus morhua)|Environ. Sci. Technol.43(9): 3329-3334|2009|10.1021/es803479p
118326|A||Kenneke,J.F., C.S. Mazur, K.A. Kellock, and J.P. Overmyer|Mechanistic Approach to Understanding the Toxicity of the Azole Fungicide Triadimefon to a Nontarget Aquatic Insect and Implications for Exposure Assessment|Environ. Sci. Technol.43(14): 5507-5513|2009|10.1021/es900351w
118327|T||Petersen,E.J., R.A. Pinto, P.F. Landrum, and W.J.,Jr. Weber|Influence of Carbon Nanotubes on Pyrene Bioaccumulation from Contaminated Soils by Earthworms|Environ. Sci. Technol.43(11): 4181-4187|2009|10.1021/es803023a
118328|A||Zitova,A., F.C. O'Mahony, M. Cross, J. Davenport, and D.B. Papkovsky|Toxicological Profiling of Chemical and Environmental Samples Using Panels of Test Organisms and Optical Oxygen Respirometry|Environ. Toxicol.24(2): 116-127|2009|10.1002/tox.20387
118331|T||Greaves,J.H., M.A. Choudry, and A.A. Khan|Pilot Rodent Control Studies in Rice Fields in Sind, Using Five Rodenticides|Agro-Ecosystems3:119-130|1976|10.1016/0304-3746(76)90111-6
118332|T||Okuno,I., J.A. Whitehead, W.H. Higgins, and P.J. Savarie|A Gas Chromatographic Method for Determining Residues of Sodium Cyanide in Vegetation and Soil|Bull. Environ. Contam. Toxicol.22(3): 386-390|1979|10.1007/BF02026959
118333|A||Antibus,R.K., and A.E. Linkins|Cyanide-Resistant Respiration in Cenococcum geophilum|Trans. Br. Mycol. Soc.86(1): 163-165|1986|10.1016/S0007-1536(86)80131-0
118334|A||Thomas,M., A. Florion, D. Chretien, and D. Terver|Real-Time Biomonitoring of Water Contamination by Cyanide Based on Analysis of the Continuous Electric Signal Emitted by a Tropical Fish: Apteronotus albifrons|Water Res.30(12): 3083-3091|1996|10.1016/S0043-1354(96)00190-X
118335|T||Antunes,P.M.C., and Nancy J. Kreager|Development of the Terrestrial Biotic Ligand Model for Predicting Nickel Toxicity to Barley (Hordeum vulgare):  Ion Effects at Low pH|Environ. Toxicol. Chem.28(8): 1704-1710|2009|10.1897/08-387.1
118336|T||Rahman,M.F., J. Wang, T.A. Patterson, U.T. Saini, B.L. Robinson, G.D. Newport, R.C. Murdock, J.J. Schlager, S.M. Hussai|Expression of Genes Related to Oxidative Stress in the Mouse Brain After Exposure to Silver-25 Nanoparticles|Toxicol. Lett.187(1): 15-21|2009|10.1016/j.toxlet.2009.01.020
118337|T||Khan,S.U., P.B. Marriage, and W.J. Saidak|Residues of Paraquat in an Orchard Soil|Can. J. Soil Sci.55(1): 73-75|1975|10.4141/cjss75-011
118338|T||Rodriguez-Fuentes,G., C. Coburn, M. Curras-Collazo, G. Guillen, and D. Schlenk|Effect of Hyperosmotic Conditions on Flavin-Containing Monooxygenase Activity, Protein and mRNA Expression in Rat Kidney|Toxicol. Lett.187(2): 115-118|2009|10.1016/j.toxlet.2009.02.006
118339|T||Gopalakrishnan,G., C.J. Werth, and M.C. Negri|Mass Recovery Methods for Trichloroethylene in Plant Tissue|Environ. Toxicol. Chem.28(6): 1185-1190|2009|10.1897/08-420.1
118340|A||Offermann,K., A. Matthai, and W. Ahlf|Assessing the Importance of Dietborne Cadmium and Particle Characteristics on Bioavailability and Bioaccumulation in the Nematode Caenorhabditis elegans|Environ. Toxicol. Chem.28(6): 1149-1158|2009|10.1897/08-272.1
118343|T||Li,L.Z., D.M. Zhou, P. Wang, S.Y. Jin, W.J.G.M. Peijnenburg, A.J. Reinecke, and C.A.M. Van Gestel|Effect of Cation Competition on Cadmium Uptake from Solution by the Earthworm Eisenia fetida|Environ. Toxicol. Chem.28(8): 1732-1738|2009|10.1897/09-001.1
118345|T||Ma,X., and M.M. Havelka|Phytotoxicity of Chlorinated Benzenes to Typha angustifolia and Phragmites communis|Environ. Toxicol.24(1): 43-48|2009|10.1002/tox.20393
118346|T||Smith,J.N., J.A. Campbell, A.L. Busby-Hjerpe, S. Lee, T.S. Poet, D.B. Barr, and C. Timchalk|Comparative Chlorpyrifos Pharmacokinetics via Multiple Routes of Exposure and Vehicles of Administration in the Adult Rat|Toxicology261(1-2): 47-58|2009|10.1016/j.tox.2009.04.041
118347|A||Zeng,J., and W.X. Wang|The Importance of Cellular Phosphorus in Controlling the Uptake and Toxicity of Cadmium and Zinc in Microcystis aeruginosa, a Freshwater Cyanobacterium|Environ. Toxicol. Chem.28(8): 1618-1626|2009|10.1897/08-639.1
118348|A||Ikawa,M., S.P. Mosley, and L.J. Barbero|Inhibitory Effects of Terpene Alcohols and Aldehydes on Growth of Green Alga Chlorella pyrenoidosa|J. Chem. Ecol.18(10): 1755-1760|1992|10.1007/BF02751100
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118350|T||Rohrbach,K.G., and A.W. Helton|Toxicology and Bioassay Performance when Six 8-Quinolinol Compounds and a Pentachlorophenate were Injected into Trees of Prunus domestica|Plant Dis. Rep.50(10): 773-776|1966|
118351|T||Rao,G.P., S.R. Sharma, and P.K. Singh|Fungitoxic and Insect Repellent Efficacy of Limonene Against Sugarcane Pests|J. Essent. Oil-Bear. Plants3(3): 157-163|2009|
118352|A||Singh,D.P., and R.S. Saxena|Effect of Some Insecticides on Photosynthesis in Aulosira fertilissima|Bionotes10(2): 60-|2008|
118353|A||Singh,D.P., and R.S. Saxena|Uptake and Metabolism of Permethrin by a Microorganism, Aulosira fertilissima|Bionotes10(3): 101-102|2008|
118354|T||Lannek,B., and P. Lindberg|Toxicity of Halogenated Oxyquinolines in Dogs.  A Clinical Study.  III.  Intoxication Experiments|Acta Vet. Scand.15(3): 398-418|1974|10.1186/BF03547467
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118356|T||Johnson,C.M., J.M. Cullen, and M.C. Roberts|Morphologic Characterization of Castor Oil-Induced Colitis in Ponies|Vet. Pathol.30(3): 248-255|1993|10.1177/030098589303000305
118357|T||Manou,I., L. Bouillard, M.J. Devleeschouwer, and A.O. Barel|Evaluation of the Preservative Properties of Thymus vulgaris Essential Oil in Topically Applied Formulations Under a Challenge Test|J. Appl. Microbiol.84(3): 368-376|1998|10.1046/j.1365-2672.1998.00353.x
118358|T||Alderman,G.G., and E.H. Marth|Inhibition of Growth and Aflatoxin Production of Aspergillus parasiticus by Citrus Oils|Z. Lebensm. -Unters. -Forsch.160(4): 353-358|1976|10.1007/BF01106324
118359|A||Croteau,M.N., and S.N. Luoma|Predicting Dietborne Metal Toxicity from Metal Influxes|Environ. Sci. Technol.43(13): 4915-4921|2009|10.1021/es9007454
118360|T||Tenenbaum,S., J. Dinardo, W.E. Morris, B.A. Wolf, and R.W. Schnetzinger|A Quantitative In Vitro Assay for the Evaluation of Phototoxic Potential of Topically Applied Materials|Cell Biol. Toxicol.1(1): 1-9|1984|10.1007/BF00125560
118361|A||Alali,F., and T. Al-Lafi|GC-MS Analysis and Bioactivity Testing of the Volatile Oil from the Leaves of the Toothbrush Tree Salvadora persica L.|Nat. Prod. Res.17(3): 189-194|2003|10.1080/1057563021000040790
118362|A||Vedamanikam,V.J.|Formation of Resistance in the Chironomus plumosus to Four Pesticides over 45 Generations|Toxicol. Environ. Chem.91(1): 187-194|2009|10.1080/02772240802075196
118364|T||Getenga,Z.M., J.I.O. Jondiko, S.O. Wandiga, and E. Beck|The Dissipation of Malathion and Dimethoate from the Pea Plants (Pisum sativum) Under Controlled Conditions|Toxicol. Environ. Chem.77(3/4): 219-228|2000|10.1080/02772240009358952
118365|A||Jancula,D., M. Drabkova, J. Cerny, M. Karaskova, R. Korinkova, J. Rakusan, and B. Marsalek|Algicidal Activity of Phthalocyanines-Screening of 31 Compounds|Environ. Toxicol.23(2): 218-223|2008|10.1002/tox.20324
118366|T||Vimala Devi,P.S., and Y.G. Prasad|Compatibility of Oils and Antifeedants of Plant Origin with the Entomopathogenic Fungus Nomuraea rileyi|J. Invertebr. Pathol.68(1): 91-93|1996|10.1006/jipa.1996.0063
118367|T||Izumi,S., O. Takashima, and T. Hirata|Geraniol is a Potent Inducer of Apoptosis-like Cell Death in the Cultured Shoot Primordia of Matricaria chamomilla|Biochem. Biophys. Res. Commun.259(3): 519-522|1999|10.1006/bbrc.1999.0813
118368|T||Vokou,D., S. Vareltzidou, and P. Katinakis|Effects of Aromatic Plants on Potato Storage:  Sprout Suppression and Antimicrobial Activity|Agric. Ecosyst. Environ.47(3): 223-235|1993|10.1016/0167-8809(93)90124-8
118369|T||Bertrand,F., D.A. Basketter, D.W. Roberts, and J.P. Lepoittevin|Skin Sensitization to Eugenol and Isoeugenol in Mice:  Possible Metabolic Pathways Involving ortho-Quinone and Quinone Methide Intermediates|Chem. Res. Toxicol.10(3): 335-343|1997|10.1021/tx960087v
118370|T||Dhingra,O.D., G.N. Jham, F.A. Rodrigues, G.J.,Jr. Silva, and M.L.N. Costa|Fumigation with Essential Oil of Mustard Retards Fungal Growth and Accumulation of Ergosterol and Free Fatty Acid in Stored Shelled Groundnuts|J. Stored Prod. Res.45(1): 24-31|2009|10.1016/j.jspr.2008.06.007
118371|T||Nakahara,K., N.S. Alzoreky, T. Yoshihashi, H.T.T. Nguyen, and G. Trakoontivakorn|Chemical Composition and Antifungal Activity of Essential Oil from Cymbopogon nardus (Citronella Grass)|Jpn. Agric. Res. Q.37(4): 249-252|2003|10.6090/jarq.37.249
118372|T||Cherry,A.J., P. Abalo, K. Hell, and S. Korie|Farm-Scale Trials to Compare the Entomopathogenic Fungus Beauveria bassiana with Pirimiphos Methyl + Deltamethrin and Essential Oil of Lemon Grass for Protection of Stored Cowpea Against Callosobruchus maculatus (Coleop|Ann. Appl. Biol.151(1): 1-10|2007|10.1111/j.1744-7348.2007.00146.x
118373|T||Severino,V.G.P., C.M. Cazal, M.R. Forim, M.F.G.F. Da Silva, E. Rodrigues-Filho, J.B. Fernandes, and P.C. Vieira|Isolation of Secondary Metabolites from Hortia oreadica (Rutaceae) Leaves Through High-Speed Counter-Current Chromatography|J. Chromatogr. A1216(19): 4275-4281|2009|10.1016/j.chroma.2009.02.009
118374|T||Womack,J.G., G.M. Eccleston, and M.N. Burge|A Vegetable Oil-Based Invert Emulsion for Mycoherbicide Delivery|Biol. Control6(1): 23-28|1996|10.1006/bcon.1996.0003
118375|T||Szczerbanik,M., J. Jobling, S. Morris, and P. Holford|Essential Oil Vapours Control Some Common Postharvest Fungal Pathogens|Aust. J. Exp. Agric.47(1): 103-109|2007|10.1071/EA05236
118376|A||Grush,J., D.L.G. Noakes, and R.D. Moccia|The Efficacy of Clove Oil as an Anesthetic for the Zebrafish, Danio rerio (Hamilton)|Zebrafish1(1): 46-53|2004|10.1089/154585404774101671
118377|T||Moran,R.E., D.E. Deyton, C.E. Sams, C.D. Pless, and J.C. Cummins|Soybean Oil as a Summer Spray for Apple:  European Red Mite Control, Net Co2 Assimilation, and Phytotoxicity|Hortscience38(2): 234-238|2003|10.21273/HORTSCI.38.2.234
118378|T||Formisano,C., D. Rigano, F. Senatore, V. De Feo, M. Bruno, and S. Rosselli|Composition and Allelopathic Effect of Essential Oils of Two Thistles: Cirsium creticum (Lam.) D.'Urv. ssp. Triumfetti (Lacaita) Werner and Carduus nutans L.|J. Plant Interact.2(1-3): 115-120|2007|10.1080/17429140701552987
118379|T||Young,A.R., S.L. Walker, J.S. Kinley, S.R. Plastow, D. Averbeck, P. Morliere, and L. Dubertret|Phototumorigenesis Studies of 5-Methoxypsoralen in Bergamot Oil:  Evaluation and Modification of Risk of Human Use in an Albino Mouse Skin Model|J. Photochem. Photobiol. B Biol.7(2-4): 231-250|1990|10.1016/1011-1344(90)85159-T
118381|A||Arifin,Z., and D. Hindarti|Effects of Cyanide on Ornamental Coral Fish (Chromis viridis)|Mar. Res. Indones.30:15-20|2006|10.14203/mri.v30i0.421
118382|A||Webb,C.M., and D.A. Crain|Effects of Ecologically Relevant Doses of Malathion on Developing Xenopus laevis Tadpoles|Bios77(1): 1-6|2006|10.1893/0005-3155(2006)77[01:RAEOER]2.0.CO;2
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118384|T||Grossmann,K., and J. Kwiatkowski|Evidence for a Causative Role of Cyanide, Derived from Ethylene Biosynthesis, in the Herbicidal Mode of Action of Quinclorac in Barnyard Grass|Pestic. Biochem. Physiol.51(2): 150-160|1995|10.1006/pest.1995.1015
118385|T||Yust,H.R., and F.F. Shelden|A Study of the Physiology of Resistance to Hydrocyanic Acid in the California Red Scale|Ann. Entomol. Soc. Am.45:220-228|1952|10.1093/aesa/45.2.220
118386|T||Long,K.Y., and L.B. Brattsten|Is Rhodanese Important in the Detoxification of Dietary Cyanide in Southern Armyworm (Spodoptera eridania Cramer) Larvae?|Insect Biochem.12(4): 367-375|1982|10.1016/0020-1790(82)90033-6
118387|T||Gur,A., and Y. Cohen|The Peach Replant Problem - Some Causal Agents|Soil Biol. Biochem.21(6): 829-834|1989|10.1016/0038-0717(89)90177-6
118388|A||Relyea,R.A., and J.T. Hoverman|Interactive Effects of Predators and a Pesticide on Aquatic Communities|Oikos117(11): 1647-1658|2008|
118389|A||Mohsin,A.K.M., O.S. Lui, and M.A. Ambak|Effect of Malathion on Sepat Siam and Tilapia|Pertanika7(1): 57-60|1984|
118390|A||Karim,A., and M.S. Mughal|Effect of Sub Lethal Doses of Malathion on the Liver, Kidney and Spleen of Cyprinus carpio:  A Histological Perspective|Biologia (Lahore)53(1): 1-7|2007|
118391|A||McGeachy,S.M.|Acute and Sublethal Toxicity of Cyanide to Exercised and Non-Exercised Rainbow Trout (Salmo gairdneri) at Different Times of the Year|Ph.D.Thesis, Concordia Univ., Montreal, Quebec, Canada:71 p.|1984|
118392|A||Werner,J.|Development of Methods to Assess Metallothionein Expression in Lake Trout (Salvelinus namaycush) During a Reproductive Cycle and the Effects of Cadmium and Ethynylestradiol|Ph.D Thesis, University of Manitoba, Canada:194 p.|2006|
118394|T||Tanida,T., K. Warita, K. Ishihara, S. Fukui, T. Mitsuhashi, T. Sugawara, Y. Tabuchi, T. Nanmori, W.M. Qi, T. Inamoto, T|Fetal and Neonatal Exposure to Three Typical Environmental Chemicals with Different Mechanisms of Action:  Mixed Exposure to Phenol, Phthalate, and Dioxin Cancels the Effects of Sole Exposure on Mouse Midbrain Dopaminer|Toxicol. Lett.189(1): 40-47|2009|10.1016/j.toxlet.2009.04.005
118395|T||McKernan,M.A., B.A. Rattner, R.C. Hale, and M.A. Ottinger|Toxicity of Polybrominated Diphenyl Ethers (DE-71) in Chicken (Gallus gallus), Mallard (Anas platyrhynchos), and American Kestrel (Falco sparverius) Embryos and Hatchlings|Environ. Toxicol. Chem.28(5): 1007-1017|2009|10.1897/08-318.1
118396|T||Alvarez-Lloret,P., P.M. Lind, I. Nyberg, J. Orberg, and A.B. Rodriguez-Navarro|Effects of 3,3',4,4',5-Pentachlorobiphenyl (PCB126) on Vertebral Bone Mineralization and on Thyroxin and Vitamin D Levels in Sprague-Dawley Rats|Toxicol. Lett.187(2): 63-68|2009|10.1016/j.toxlet.2009.01.030
118397|T||Arzuaga,X., N. Ren, A. Stromberg, E.P. Black, V. Arsenescu, L.A. Cassis, Z. Majkova, M. Toborek, and B. Hennig|Induction of Gene Pattern Changes Associated with Dysfunctional Lipid Metabolism Induced by Dietary Fat and Exposure to a Persistent Organic Pollutant|Toxicol. Lett.189(2): 96-101|2009|10.1016/j.toxlet.2009.05.008
118400|T||Ben-Assa,E., I. Youngster, E. Kozer, I. Abu-Kishk, A. Bar-Haim, B. Bar-Oz, and M. Berkovitch|Changes in Serum Hepcidin Levels in Acute Iron Intoxication in a Rat Model|Toxicol. Lett.189(3): 242-247|2009|10.1016/j.toxlet.2009.06.848
118401|T||Chen,H.H.C., C. Yu, T.H. Ueng, S. Chen, B.J. Chen, K.J. Huang, and L.Y. Chiang|Acute and Subacute Toxicity Study of Water-Soluble Polyalkylsulfonated C60 in Rats|Toxicol. Pathol.26(1): 143-151|1998|10.1177/019262339802600117
118402|T||Sharma,M., R. Vijayaraghavan, and A. Gautam|DRDE-07 and Its Analogues as Promising Cytoprotectants to Nitrogen Mustard (HN-2) - an Alkylating Anticancer and Chemical Warfare Agent|Toxicol. Lett.188(3): 243-250|2009|10.1016/j.toxlet.2009.04.015
118403|T||Shiao,N.H., and W.H. Chan|Injury Effects of Ginkgolide B on Maturation of Mouse Oocytes, Fertilization, and Fetal Development In Vitro and In Vivo|Toxicol. Lett.188(1): 63-69|2009|10.1016/j.toxlet.2009.03.004
118404|T||Beilke,L.D., L.M. Aleksunes, E.R. Olson, D.G. Besselsen, C.D. Klaassen, K. Dvorak, and N.J. Cherrington|Decreased Apoptosis During CAR-Mediated Hepatoprotection Against Lithocholic Acid-Induced Liver Injury in Mice|Toxicol. Lett.188(1): 38-44|2009|10.1016/j.toxlet.2009.03.005
118405|T||Zhang,S., S.J. Bursian, P.A. Martin, H.M. Chan, G. Tomy, V.P. Palace, G.J. Mayne, and J.W. Martin|Reproductive and Developmental Toxicity of a Pentabrominated Diphenyl Ether Mixture, DE-71, to Ranch Mink (Mustela vison) and Hazard Assessment for Wild Mink in the Great Lakes Region|Toxicol. Sci.110(1): 107-116|2009|10.1093/toxsci/kfp095
118406|T||Cui,Y.J., L.M. Aleksunes, Y. Tanaka, M.J. Goedken, and C.D. Klaassen|Compensatory Induction of Liver Efflux Transporters in Response to ANIT-Induced Liver Injury is Impaired in FXR-Null Mice|Toxicol. Sci.110(1): 47-60|2009|10.1093/toxsci/kfp094
118408|T||Gray,L.E.,Jr., N.J. Barlow, K.L. Howdeshell, J.S. Ostby, J.R. Furr, and C.L. Gray|Transgenerational Effects of Di (2-Ethylhexyl) Phthalate in the Male CRL:CD(SD) Rat:  Added Value of Assessing Multiple Offspring per Litter|Toxicol. Sci.110(2): 411-425|2009|10.1093/toxsci/kfp109
118410|T||Eason,C.T., and P. Turck|A 90-Day Toxicological Evaluation of Compound 1080 (Sodium Monofluoroacetate) in Sprague-Dawley Rats|Toxicol. Sci.69:439-447|2002|10.1093/toxsci/69.2.439
118411|T||Ronco,A.M., M. Urrutia, M. Montenegro, and M.N. Llanos|Cadmium Exposure During Pregnancy Reduces Birth Weight and Increases Maternal and Foetal Glucocorticoids|Toxicol. Lett.188(3): 186-191|2009|10.1016/j.toxlet.2009.04.008
118413|T||Morton,D., R.S. Sellers, S.M. Furst, K.D. Hawley, and J.R. May|Effect of Oral Gavage Dosing Regimens in Female Tg rasH2 Transgenic Mice|Toxicol. Pathol.32(4): 413-417|2004|10.1080/01926230490457567
118414|T||Yoshida,A., R.R. Newbold, and D. Dixon|Abnormal Cell Differentiation and P21 Expression of Endometrial Epithelial Cells Following Developmental Exposure to Diethylstilbestrol (DES)|Toxicol. Pathol.28(2): 237-245|2000|10.1177/019262330002800203
118415|T||Yoshida,A., R.R. Newbold, and D. Dixon|Effects of Neonatal Diethylstilbestrol (DES) Exposure on Morphology and Growth Patterns of Endometrial Epithelial Cells in Cd-1 Mice|Toxicol. Pathol.27(3): 325-333|1999|10.1177/019262339902700308
118416|T||McFarland,C.A., M.J.,Jr. Quinn, M.A. Bazar, L.G. Talent, and M.S. Johnson|Toxic Effects of Oral Hexahydro-1,3,5-Trinitro-1,3,5-Triazine in the Western Fence Lizard (Sceloporus occidentalis)|Environ. Toxicol. Chem.28(5): 1043-1050|2009|10.1897/08-419.1
118418|T||Quinn,M.J.,Jr., M.A. Bazar, C.A. McFarland, E.J. Perkins, K.A. Gust, and M.S. Johnson|Sublethal Effects of Subacute Exposure to RDX (1,3,5-Trinitro-1,3,5-Triazine) in the Northern Bobwhite (Colinus virginianus)|Environ. Toxicol. Chem.28(6): 1266-1270|2009|10.1897/08-418.1
118420|T||Cho,M., W.S. Cho, M. Choi, S.J. Kim, B.S. Han, S.H. Kim, H.O. Kim, Y.Y. Sheen, and J. Jeong|The Impact of Size on Tissue Distribution and Elimination by Single Intravenous Injection of Silica Nanoparticles|Toxicol. Lett.189(3): 177-183|2009|10.1016/j.toxlet.2009.04.017
118421|A||Les,F.T.|Cadmium Uptake and Depuration by the Pleurocerid Gastropod, Leptoxis carinata (Bruguiere), and Its Potential Use as an Indicator Species|M.S.Thesis, Hood College,Frederick,MD:92 p.|2008|
118422|A||Woodard,V.H.|Feasibility for Utilization of a Freshwater Pulmonate Snail, Physa acuta, as a Model Organism for Environmental Toxicity Testing, with Special Reference to Cadmium Ion Toxicity|Ph.D.Thesis, University of Texas, Arlington, TX:286 p.|2005|
118423|T||Gust,K.A., M. Pirooznia, M.J.,Jr. Quinn, M.S. Johnson, L. Escalon, K.J. Indest, X. Guan, J. Clarke, Y. Deng, P. Gong, a|Neurotoxicogenomic Investigations to Assess Mechanisms of Action of the Munitions Constituents RDX and 2,6-DNT in Northern Bobwhite (Colinus virginianus)|Toxicol. Sci.110(1): 168-180|2009|10.1093/toxsci/kfp091
118425|T||Yamashita,K., M. Sakai, N. Takemoto, M. Tsukimoto, K. Uchida, H. Yajima, S. Oshio, K. Takeda, and S. Kojima|Attenuation of Delayed-Type Hypersensitivity by Fullerene Treatment|Toxicology261(1-2): 19-24|2009|10.1016/j.tox.2009.04.034
118427|T||Grote,K., C. Hobler, A.J.M. Andrade, S.W. Grande, C. Gericke, C.E. Talsness, K.E. Appel, and I. Chahoud|Sex Differences in Effects on Sexual Development in Rat Offspring After pre- and Postnatal Exposure to Triphenyltin Chloride|Toxicology260(1-3): 53-59|2009|10.1016/j.tox.2009.03.006
118428|T||Kim,M.S., H.R. Park, M. Park, S.J. Kim, M. Kwon, B.P. Yu, H.Y. Chung, H.S. Kim, S.J. Kwack, T.S. Kang, S.H. Kim, and J.|Neurotoxic Effect of 2,5-Hexanedione on Neural Progenitor Cells and Hippocampal Neurogenesis|Toxicology260(1-3): 97-103|2009|10.1016/j.tox.2009.03.013
118430|T||Harvilchuck,J.A., and G.P. Carlson|Effect of Multiple Doses of Styrene and R-Styrene Oxide on CC10, Bax, and bcl-2 Expression in Isolated Clara Cells of CD-1 Mice|Toxicology259(3): 149-152|2009|10.1016/j.tox.2009.02.016
118434|T||Muller,J., M. Delos, N. Panin, V. Rabolli, F. Huaux, and D. Lison|Absence of Carcinogenic Response to Multiwall Carbon Nanotubes in a 2-Year Bioassay in the Peritoneal Cavity of the Rat|Toxicol. Sci.110(2): 442-448|2009|10.1093/toxsci/kfp100
118436|A||Jiraungkoorskul,W., S. Sahaphong, P. Kosai, and M.H. Kim|Micronucleus Test: The Effect of Ascorbic Acid on Cadmium Exposure in Fish (Puntius altus)|Res. J. Environ. Toxicol.1(1): 27-36|2007|10.3923/rjet.2007.27.36
118437|A||Singh,A.K., K.S. Rana, and V. Tiwari|Changes in Haematocrit Values of Labeo rohita (Ham.) Under the Toxicity of Cadmium Chloride|Uttar Pradesh J. Zool.23(2): 161-162|2003|
118438|A||Nandini,S., D.D.J. Chaparro-Herrera, S.L. Cardenas-Arriola, and S.S.S. Sarma|Population Growth of Brachionus macracanthus (Rotifera) in Relation to Cadmium Toxicity: Influence of Algal (Chlorella vulgaris) Density|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1467-1472|2007|
118439|A||Mouchet,F., L. Gauthier, M. Baudrimont, P. Gonzalez, C. Mailhes, V. Ferrier, and A. Devaux|Comparative Evaluation of the Toxicity and Genotoxicity of Cadmium in Amphibian Larvae (Xenopus laevis and Pleurodeles waltl) Using the Comet Assay and the Micronucleus Test|Environ. Toxicol.22:422-435|2007|10.1002/tox.20267
118440|A||Piyatiratitivorakul,P., and P. Boonchamoi|Comparative Toxicity of Mercury and Cadmium to the Juvenile Freshwater Snail, Filopaludina martensi martensi|ScienceAsia34(4): 367-370|2008|10.2306/scienceasia1513-1874.2008.34.367
118441|A||Prato,E., F. Biandolino, and C. Scardicchio|Effects of Temperature on the Sensitivity of Gammarus aequicauda (Martynov, 1931) to Cadmium|Bull. Environ. Contam. Toxicol.83:469-473|2009|10.1007/s00128-009-9835-0
118442|A||Garcia-Reyero,N., H.C. Poynton, A.J. Kennedy, X. Guan, B.L. Escalon, B. Chang, J. Varshavsky, A.V. Loguinov, C.D. Vulpe|Biomarker Discovery and Transcriptomic Responses in Daphnia magna Exposed to Munitions Constituents|Environ. Sci. Technol.43(11): 4188-4193|2009|10.1021/es803702a
118443|A||Senatori,O., A. Setini, A. Scirocco, and A. Nicotra|Effect of Short-Time Exposures to Nickel and Lead on Brain Monoamine Oxidase from Danio rerio and Poecilia reticulata|Environ. Toxicol.24(3): 309-313|2009|10.1002/tox.20431
118444|A||Garcia-Reyero,N., D.L. Villeneuve, K.J. Kroll, L. Liu, E.F. Orlando, K.H. Watanabe, M.S. Sepulveda, G.T. Ankley, and N.|Expression Signatures for a Model Androgen and Antiandrogen in the Fathead Minnow (Pimephales promelas) Ovary|Environ. Sci. Technol.43(7): 2614-2619|2009|10.1021/es8024484
118445|A||Lange,A., G.C. Paull, T.S. Coe, Y. Katsu, H. Urushitani, T. Iguchi, and C.R. Tyler|Sexual Reprogramming and Estrogenic Sensitization in Wild Fish Exposed to Ethinylestradiol|Environ. Sci. Technol.43(4): 1219-1225|2009|10.1021/es802661p
118446|A||Key,P.B., J. Hoguet, L.A. Reed, K.W. Chung, and M.H. Fulton|Effects of the Statin Antihyperlipidemic Agent Simvastatin on Grass Shrimp, Palaemonetes pugio|Environ. Toxicol.23(2): 153-160|2008|10.1002/tox.20318
118447|A||Zhang,X., J. Zha, W. Li, L. Yang, and Z. Wang|Effects of 2,4-Dichlorophenol on the Expression of Vitellogenin and Estrogen Receptor Genes and Physiology Impairments in Chinese Rare Minnow (Gobiocypris rarus)|Environ. Toxicol.23(6): 694-701|2008|10.1002/tox.20375
118448|A||Liao,C.M., S.F. Jau, W.Y. Chen, C.M. Lin, L.J. Jou, C.W. Liu, V.H.C. Liao, and F.J. Chang|Acute Toxicity and Bioaccumulation of Arsenic in Freshwater Clam Corbicula fluminea|Environ. Toxicol.23(6): 702-711|2008|10.1002/tox.20376
118449|A||Deguchi,Y., N.X. Wu, T. Toyoizumi, S. Masuda, H. Nagaoka, T. Watanabe, Y. Totsuka, K. Wakabayashi, and N. Kinae|Application of a New Bioassay Technique Using Goldfish for Assessment of Water Toxicity|Environ. Toxicol.23(6): 720-727|2008|10.1002/tox.20379
118450|AT||Li,M.H.|Toxicity of Perfluorooctane Sulfonate and Perfluorooctanoic Acid to Plants and Aquatic Invertebrates|Environ. Toxicol.24(1): 95-101|2009|10.1002/tox.20396
118451|A||Hu,J., Y. Liang, M. Chen, and X. Wang|Assessing the Toxicity of TBBPA and HBCD by Zebrafish Embryo Toxicity Assay and Biomarker Analysis|Environ. Toxicol.24(4): 334-342|2009|10.1002/tox.20436
118452|A||Gong,Y., L. Song, X. Wu, B. Xiao, T. Fang, and J. Liu|Effects of Arsenate on Microcystin Content and Leakage of Microcystis Strain PCC7806 Under Various Phosphate Regimes|Environ. Toxicol.24(1): 87-94|2009|10.1002/tox.20392
118453|A||Lerebours,A., P. Gonzalez, C. Adam, V. Camilleri, J. Bourdineaud, and J. Garnier-Laplace|Comparative Analysis of Gene Expression in Brain, Liver, Skeletal Muscles, and Gills of Zebrafish (Danio rerio) Exposed to Environmentally Relevant Waterborne Uranium Concentrations|Environ. Toxicol. Chem.28(6): 1271-1278|2009|10.1897/08-357.1
118454|A||Boudreau,M., M.J. Sweezey, K. Lee, P.V. Hodson, and S.C. Courtenay|Toxicity of Orimulsion-400 to Early Life Stages of Atlantic Herring (Clupea harengus) and Mummichog (Fundulus heteroclitus)|Environ. Toxicol. Chem.28(6): 1206-1217|2009|10.1897/08-280.1
118455|A||Zhang,J., Z. Zuo, C. He, J. Cai, Y. Wang, Y. Chen, and C. Wang|Effect of Tributyltin on Testicular Development in Sebastiscus marmoratus and the Mechanism Involved|Environ. Toxicol. Chem.28(7): 1528-1535|2009|10.1897/08-347.1
118456|A||Wang,Y., J. Chen, J. Lin, Z. Wang, H. Bian, X. Cai, and C. Hao|Combined Experimental and Theoretical Study on Photoinduced Toxicity of an Anthraquinone Dye Intermediate to Daphnia magna|Environ. Toxicol. Chem.28(4): 846-852|2009|10.1897/08-256R.1
118457|A||Larsen,M.G., K. Bilberg, and E. Baatrup|Reversibility of Estrogenic Sex Changes in Zebrafish (Danio rerio)|Environ. Toxicol. Chem.28(8): 1783-1785|2009|10.1897/08-563.1
118458|A||Thilagam,H., S. Gopalakrishnan, J. Bo, and K.J. Wang|Effect of 17beta-Estradiol on the Immunocompetence of Japanese Sea Bass (Lateolabrax japonicus)|Environ. Toxicol. Chem.28(8): 1722-1731|2009|10.1897/08-642.1
118459|A||Palumbo,A.J., M.S. Denison, S.I. Doroshov, and R.S. Tjeerdema|Reduction of Vitellogenin Synthesis by an Aryl Hydrocarbon Receptor Agonist in the White Sturgeon (Acipenser transmontamus)|Environ. Toxicol. Chem.28(8): 1749-1755|2009|10.1897/08-481.1
118460|A||Ling,X.P., J.Y. Zhu, L. Huang, and H.Q. Huang|Proteomic Changes in Response to Acute Cadmium Toxicity in Gill Tissue of Paralichthys olivaceus|Environ. Toxicol. Pharmacol.27(2): 212-218|2009|10.1016/j.etap.2008.10.004
118461|A||Korkmaz,N., E.I. Cengiz, E. Unlu, E. Uysal, and M. Yanar|Cypermethrin-Induced Histopathological and Biochemical Changes in Nile Tilapia (Oreochromis niloticus), and the Protective and Recuperative Effect of Ascorbic Acid|Environ. Toxicol. Pharmacol.28(2): 198-205|2009|10.1016/j.etap.2009.04.004
118462|A||Martin-Diaz,M.L., F. Gagne, and C. Blaise|The Use of Biochemical Responses to Assess Ecotoxicological Effects of Pharmaceutical and Personal Care Products (PPCPs) After Injection in the Mussel Elliptio complanata|Environ. Toxicol. Pharmacol.28(2): 237-242|2009|10.1016/j.etap.2009.04.009
118463|A||Latala,A., M. Nedzi, and P. Stepnowski|Acute Toxicity Assessment of Perfluorinated Carboxylic Acids Towards the Baltic Microalgae|Environ. Toxicol. Pharmacol.28(2): 167-171|2009|10.1016/j.etap.2009.03.010
118464|A||Lee,S.W., S.M. Kim, and J. Choi|Genotoxicity and Ecotoxicity Assays Using the Freshwater Crustacean Daphnia magna and the Larva of the Aquatic Midge Chironomus riparius to Screen the Ecological Risks of Nanoparticle Exposure|Environ. Toxicol. Pharmacol.28(1): 86-91|2009|10.1016/j.etap.2009.03.001
118465|A||Mlambo,S.S., J.H.J. Van Vuren, I.E.J. Barnhoorn, and M.S. Bornman|Histopathological Changes in the Reproductive System (Ovaries and Testes) of Oreochromis mossambicus Following Exposure to DDT|Environ. Toxicol. Pharmacol.28(1): 133-139|2009|10.1016/j.etap.2009.03.011
118466|A||Oropesa,A.L., J.P. Garcia-Cambero, and F. Soler|Glutathione and Malondialdehyde Levels in Common Carp After Exposure to Simazine|Environ. Toxicol. Pharmacol.27(1): 30-38|2009|10.1016/j.etap.2008.08.003
118467|A||Nagpure,H.P., and S.P. Zambare|Tetracycline and Chloramphenicol Induced Alterations in the Glycogen Content of Various Tissues of the Freshwater Bivalve, Lemellidens corrianus (Lea)|J. Aquat. Biol.23(2): 113-118|2008|
118468|A||Pala,I., S.C.S. Sindhe, and M.J. Naik|Ziram a Fungicide Induced Toxicity on Some Aspects of Carbohydrate Metabolism in Freshwater Fish, Labeo rohita (Hamilton)|J. Aquat. Biol.23(2): 119-122|2008|
118469|A||Charjan,A.P., and I.A. Raja|Changes in Total Protein and Some Inorganic Constituents of Blood in Rasbora daniconius, Exposed to Fenvalerate|J. Aquat. Biol.23(2): 135-138|2008|
118470|A||Charjan,A.P., R.A. Malu, and K.M. Kulkarni|Toxicity of Organo-Phosphorus Pesticide, Rogor, to Fish, Channa orientalis (Sch.)|J. Aquat. Biol.23(2): 144-146|2008|
118471|A||Shingadia,H.U., and V. Sakthivel|Chronic Intoxication of Sodium Fluoride Leads to Depletion in Phosphorus Content Vis-a-Vis ATPase [EC 3.6.1.3] Activity in Poecilia reticulata Peters|J. Aquat. Biol.23(2): 150-154|2008|
118472|A||Kumar,R.T., A. Rangappa, and M. Srinivasulu Reddy|Effect of Fenvalerate on Alkaline Phosphatase Activity in Fresh Water Fish, Channa punctatus|J. Aquat. Biol.23(2): 171-172|2008|
118473|A||Souza-Bastos,L.R., and C.A. Freire|The Handling of Salt by the Neotropical Cultured Freshwater Catfish Rhamdia quelen|Aquaculture289(1/2): 167-174|2009|10.1016/j.aquaculture.2009.01.007
118474|A||McIntyre,D.O., M.A. Pacheco, M.W. Garton, D. Wallschlager, and C.G. Delos|Effect of Selenium on Juvenile Bluegill Sunfish at Reduced Temperature|EPA-822-R-08-020, Office of Water, U.S.EPA, Washington, DC:53 p.|2008|
118475|T||Fernie,K.J., J.L. Shutt, R.J. Letcher, I.J. Ritchie, and D.M. Bird|Environmentally Relevant Concentrations of DE-71 and HBCD Alter Eggshell Thickness and Reproductive Success of American Kestrels|Environ. Sci. Technol.43(6): 2124-2130|2009|10.1021/es8027346
118476|A||Spitsbergen,J.M., H.W. Tsai, A. Reddy, T. Miller, D. Arbogast, J.D. Hendricks, and G.S. Bailey|Neoplasia in Zebrafish (Danio rerio) Treated with N-Methyl-N'-Nitro-N-Nitrosoguanidine by Three Exposure Routes at Different Developmental Stages|Toxicol. Pathol.28(5): 716-725|2000|10.1177/019262330002800512
118477|A||Gaikowski,M.P., J.C. Wolf, R.G. Endris, and W.H. Gingerich|Safety of Aquaflor (Florfenicol, 50% Type A Medicated Article), Administered in Feed to Channel Catfish, Ictalurus punctatus|Toxicol. Pathol.31(6): 689-697|2003|10.1080/01926230390241828
118478|A||Parametrix Inc.|Nickel Toxicity to Ceriodaphnia dubia|Draft Rep.EBCI/26/95 Add.68, Prepared for Nickel Producers Environ.Res.Assoc.(NIPERA), Durham, NC by Parametrix Inc, Albany, OR:10 p.|2004|
118480|A||Villeneuve,D.L., R.L. Wang, D.C. Bencic, A.D. Biales, D. Martinovic, J.M. Lazorchak, G. Toth, and G.T. Ankley|Altered Gene Expression in the Brain and Ovaries of Zebrafish (Danio rerio) Exposed to the Aromatase Inhibitor Fadrozole:  Microarray Analysis and Hypothesis Generation|Environ. Toxicol. Chem.28(8): 1767-1782|2009|10.1897/08-653.1
118482|T||Baranowska-Bosiacka,I., V. Dziedziejko, K. Safranow, I. Gutowska, M. Marchlewicz, B. Dolegowska, M.E. Rac, B. Wiszniews|Inhibition of Erythrocyte Phosphoribosyltransferases (APRT and HPRT) by Pb2+:  A Potential Mechanism of Lead Toxicity|Toxicology259(1-2): 77-83|2009|10.1016/j.tox.2009.02.005
118484|T||Bouayed,J., F. Desor, H. Rammal, A.K. Kiemer, E. Tybl, H. Schroeder, G. Rychen, and R. Soulimani|Effects of Lactational Exposure to Benzo(a)pyrene (B(a)P) on Postnatal Neurodevelopment, Neuronal Receptor Gene Expression and Behaviour in Mice|Toxicology259(3): 97-106|2009|10.1016/j.tox.2009.02.010
118487|T||Song,F., Y. Yan, X. Zhao, C. Zhang, and K. Xie|Neurofilaments Degradation as an Early Molecular Event in Tri-Ortho-Cresyl Phosphate (TOCP) Induced Delayed Neuropathy|Toxicology258(2/3): 94-100|2009|10.1016/j.tox.2009.01.011
118489|A||De Lafontaine,Y., S.P. Despatie, E. Veilleux, and C. Wiley|Onboard Ship Evaluation of the Effectiveness and the Potential Environmental Effects of Peraclean Ocean for Ballast Water Treatment in Very Cold Conditions|Environ. Toxicol.24(1): 49-65|2009|10.1002/tox.20394
118491|T||Verma,T.D.|Incidence and Chemical Control of Bark-Eating Caterpillar, Indarbela quadrinotata Walker on Plum Trees|Indian J. Agric. Sci.55(2): 131-132|1985|
118492|T||Ghelardini,C., N. Galeotti, and G. Mazzanti|Local Anaesthetic Activity of Monoterpenes and Phenylpropanes of Essential Oils|Planta Med.67(6): 564-566|2001|10.1055/s-2001-16475
118493|T||Tworkoski,T.|Herbicide Effects of Essential Oils|Weed Sci.50(4): 425-431|2002|10.1614/0043-1745(2002)050[0425:HEOEO]2.0.CO;2
118494|A||Lakatos,G., and M. Tokar|Effect of Some Biocides on Attached Algae/Biotecton|Acta Biol. Debr.14:105-114|1977|
118495|T||Sonboli,A., A. Fakhari, M.R. Kanani, and M. Yousefzadi|Antimicrobial Activity, Essential Oil Composition and Micromorphology of Trichomes of Satureja laxiflora C. Koch from Iran|Z. Naturforsch. Sect. C J. Biosci.59(11/12): 777-781|2004|10.1515/znc-2004-11-1202
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118554|T||Ohkawa,H., R. Ohkawa, I. Yamamoto, and J.E. Casida|Enzymatic Mechanisms and Toxicological Significance of Hydrogen Cyanide Liberation from Various Organothiocyanates and Organonitriles in Mice and Houseflies|Pestic. Biochem. Physiol.2:95-112|1972|10.1016/0048-3575(72)90011-9
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118559|T||Chen,J.|Repellency of an Over-the-Counter Essential Oil Product in China Against Workers of Red Imported Fire Ants|J. Agric. Food Chem.57(2): 618-622|2009|10.1021/jf8028072
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118568|A||Iversen,M., B. Finstad, R.S. McKinley, and R.A. Eliassen|The Efficacy of Metomidate, Clove Oil, Aqui-S and Benzoakr as Anaesthetics in Atlantic Salmon (Salmo salar L.) Smolts, and Their Potential Stress-Reducing Capacity|Aquaculture221(1-4): 549-566|2003|10.1016/S0044-8486(03)00111-X
118569|A||Kildea,M.A., G.L. Allan, and R.E. Kearney|Accumulation and Clearance of the Anaesthetics Clove Oil and AQUI-S from the Edible Tissue of Silver Perch (Bidyanus bidyanus)|Aquaculture232(1-4): 265-277|2004|10.1016/S0044-8486(03)00483-6
118570|T||Kumar,A., R. Shukla, P. Singh, and N.K. Dubey|Biodeterioration of Some Herbal Raw Materials by Storage Fungi and Aflatoxin and Assessment of Cymbopogon flexuosus Essential Oil and Its Components as Antifungal|Int. Biodeterior. Biodegrad.63(6): 712-716|2009|10.1016/j.ibiod.2009.03.011
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118572|A||Montero,D., T. Kalinowski, A. Obach, L. Robaina, L. Tort, M.J. Caballero, and M.S. Izquierdo|Vegetable Lipid Sources for Gilthead Seabream (Sparus aurata):  Effects on Fish Health|Aquaculture225(1-4): 353-370|2003|10.1016/S0044-8486(03)00301-6
118573|A||Montero,D., L. Robaina, M.J. Caballero, R. Gins, and M.S. Izquierdo|Growth, Feed Utilization and Flesh Quality of European Sea Bass (Dicentrarchus labrax) Fed Diets Containing Vegetable Oils:  A Time-Course Study on the Effect of a Re-Feeding Period with a 100% Fish Oil Diet|Aquaculture248(1-4): 121-134|2005|10.1016/j.aquaculture.2005.03.003
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118576|A||Bartolome,M.C., A. D'ors, and S. Sanchez-Fortun|Toxic Effects Induced by Salt Stress on Selected Freshwater Prokaryotic and Eukaryotic Microalgal Species|Ecotoxicology18(2): 174-179|2009|10.1007/s10646-008-0269-y
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118589|T||Tewe,O.O.|Effect of Cassava-Based Diets Varying in Cyanide Content on the Performance and Physiopathology of the African Giant Rat (Cricetomys gambianus Waterhouse)|Anim. Feed Sci. Technol.11:1-9|1984|10.1016/0377-8401(84)90049-X
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118593|T||Jones,R.L., and W.C. Rothenbuhler|Behaviour Genetics of Nest Cleaning in Honey Bees. II. Responses of Two Inbred Lines to Various Amounts of Cyanide-Killed Brood|Anim. Behav.12(4): 584-588|1964|10.1016/0003-3472(64)90083-1
118594|T||Dernoeden,P.H., J.E. Kaminski, and J. Fu|Selective Creeping Bentgrass Control in Kentucky Bluegrass and Tall Fescue with Mesotrione and Triclopyr Ester|Hortscience43(2): 509-513|2008|10.21273/HORTSCI.43.2.509
118595|T||Sellers,B.A., and J.J. Mullahey|Broadcast vs. Wet-Blade Herbicide Applications for Southern Wax Myrtle (Myrica cerifera) Control|Weed Technol.22(2): 286-289|2008|10.1614/WT-07-141.1
118596|T||Richardson,R.J., M.W. Marshall, R.E. Uhlig, and B.H. Zandstra|Virginia Creeper (Parthenocissus quinquefolia) and Wild Grape (Vitis spp.) Control in Fraser Fir|Weed Technol.23(1): 184-187|2009|10.1614/WT-08-028.1
118597|A||Qiu,J.W., O.S. Hung, and P.Y. Qian|An Improved Barnacle Attachment Inhibition Assay|Biofouling24(4): 259-266|2008|10.1080/08927010802073124
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118599|T||Witchard,M.|Paclobutrazol is Phloem Mobile in Castor Oil Plant (Ricinus communis L.)|J. Plant Growth Regul.16(4): 215-217|1997|10.1007/PL00006999
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118601|T||Dami,I.E., and B.A. Beam|Response of Grapevines to Soybean Oil Application|Am. J. Enol. Vitic.55(3): 269-275|2004|10.5344/ajev.2004.55.3.269
118602|A||Sindhe,S.C.S., M.J. Naik, I. Pala, and M.S. Butchiram|Ziram Induced Histopathological Changes in the Gill of the Freshwater Fish, Labeo rohita|J. Aquat. Biol.23(2): 123-126|2008|
118603|T||Arao,T., Y. Maejima, and K. Baba|Uptake of Aromatic Arsenicals from Soil Contaminated with Diphenylarsinic Acid by Rice|Environ. Sci. Technol.43(4): 1097-1101|2009|10.1021/es8023397
118604|A||Boullemant,A., M. Lavoie, C. Fortin, and P.G.C. Campbell|Uptake of Hydrophobic Metal Complexes by Three Freshwater Algae:  Unexpected Influence of pH|Environ. Sci. Technol.43(9): 3308-3314|2009|10.1021/es802832u
118605|T||Agarwal,A., B. Kumar, P.K. Mehrotra, and P.M.S. Chauhan|2,4,6-Trisubstituted Pyrimidine Derivatives as Pregnancy Interceptive Agents|Bioorg. Med. Chem.13(6): 1893-1899|2005|10.1016/j.bmc.2005.01.020
118606|T||Galarreta,B.C., R. Sifuentes, A.K. Carrillo, L. Sanchez, M.R.I. Amado, and H. Maruenda|The Use of Natural Product Scaffolds as Leads in the Search for Trypanothione Reductase Inhibitors|Bioorg. Med. Chem.16(14): 6689-6695|2008|10.1016/j.bmc.2008.05.074
118607|A||Adam-Guillermin,C., E. Fournier, M. Floriani, V. Camilleri, J.C. Massabuau, and J. Garnier-Laplace|Biodynamics, Subcellular Partitioning, and Ultrastructural Effects of Organic Selenium in a Freshwater Bivalve|Environ. Sci. Technol.43(6): 2112-2117|2009|10.1021/es802891j
118608|T||Ramezani,H., H.P. Singh, D.R. Batish, and R.K. Kohli|Antifungal Activity of the Volatile Oil of Eucalyptus citriodora|Fitoterapia73(3): 261-262|2002|10.1016/S0367-326X(02)00065-5
118609|T||Freire,C.M.M., M.O.M. Marques, and M.G.S. Costa|Effects of Seasonal Variation on the Central Nervous System Activity of Ocimum gratissimum L. Essential Oil|J. Ethnopharmacol.105(1-2): 161-166|2006|10.1016/j.jep.2005.10.013
118610|A||Nyholm,J.R., A. Norman, L. Norrgren, P. Haglund, and P.L. Andersson|Uptake and Biotransformation of Structurally Diverse Brominated Flame Retardants in Zebrafish (Danio rerio) After Dietary Exposure|Environ. Toxicol. Chem.28(5): 1035-1042|2009|10.1897/08-302.1
118611|T||Asha,M.K., D. Prashanth, B. Murali, R. Padmaja, and A. Amit|Anthelmintic Activity of Essential Oil of Ocimum sanctum and Eugenol|Fitoterapia72(6): 669-670|2001|10.1016/S0367-326X(01)00270-2
118612|A||Miot,J., G. Morin, F. Skouri-Panet, C. Ferard, A. Poitevin, E. Aubry, G. Ona-Nguema, F. Juillot, F. Guyot, and G.E.,Jr.|Speciation of Arsenic in Euglena gracilis Cells Exposed to As(V)|Environ. Sci. Technol.43(9): 3315-3321|2009|10.1021/es802833s
118613|A||Petersen,E.J., J. Akkanen, J.V.K. Kukkonen, and W.J.,Jr. Weber|Biological Uptake and Depuration of Carbon Nanotubes by Daphnia magna|Environ. Sci. Technol.43(8): 2969-2975|2009|10.1021/es8029363
118614|A||Wolf,J.C., D.R. Dietrich, U. Friederich, J. Caunter, and A.R. Brown|Qualitative and Quantitative Histomorphologic Assessment of Fathead Minnow Pimephales promelas Gonads as an Endpoint for Evaluating Endocrine-Active Compounds:  A Pilot Methodology Study|Toxicol. Pathol.32(5): 600-612|2004|10.1080/01926230490515201
118615|A||Mizgireuv,I.V., I.G. Majorova, V.M. Gorodinskaya, V.V. Khudoley, and S.Y. Revskoy|Carcinogenic Effect of N-Nitrosodimethylamine on Diploid and Triploid Zebrafish (Danio rerio)|Toxicol. Pathol.32(5): 514-518|2004|10.1080/01926230490496311
118616|T||Munday,R., P.T. Holland, P. McNabb, A.I. Selwood, and L.L. Rhodes|Comparative Toxicity to Mice of Domoic Acid and Isodomoic Acids A, B and C|Toxicon52(8): 954-956|2008|10.1016/j.toxicon.2008.10.005
118617|A||Rodgher,S., and E.L.G. Espindola|Effects of Interactions Between Algal Densities and Cadmium Concentrations on Ceriodaphnia dubia Fecundity and Survival|Ecotoxicol. Environ. Saf.71:765-773|2008|10.1016/j.ecoenv.2007.08.012
118618|A||Salice,C.J., T.J. Miller, and G. Roesijadi|Demographic Responses to Multigeneration Cadmium Exposure in Two Strains of the Freshwater Gastropod, Biomphalaria glabrata|Arch. Environ. Contam. Toxicol.56:785-795|2009|10.1007/s00244-008-9203-9
118619|T||Roh,J.Y., Y.J. Park, and J. Choi|A Cadmium Toxicity Assay Using Stress Responsive Caenorhabditis elegans Mutant Strains|Environ. Toxicol. Pharmacol.28:409-413|2009|10.1016/j.etap.2009.07.006
118620|T||Roh,J.Y., J. Lee, and J. Choi|Assessment of Stress-Related Gene Expression in the Heavy Metal-Exposed Nematode Caenorhabditis elegans: A Potential Biomarker for Metal-Induced Toxicity Monitoring and Environmental Risk Assessment|Environ. Toxicol. Chem.25(11): 2946-2956|2006|10.1897/05-676R.1
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118624|T||Stec,M., M.F.A. Abdel-Lateef, and Z. Eckstein|Comparison of the Systemic Fungicidal Activity of 2-Amino-4-Methyl-5-Carboxyanilidothiazole (ALF) and 2,4-Dimethyl-5-Carboxyanilidothiazole (ALG) in Greenhouse and Field Tests|Acta Phytopathol. Entomol. Hung.8(3/4): 283-294|1973|
118625|A||Ke,B.|Light-Induced Rapid Absorption Changes During Photosynthesis.  III.  Ochromonas danica|Biochim. Biophys. Acta88(1): 1-10|1964|
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118628|A||Ried,A.|Interactions Between Photosynthesis and Respiration in Chlorella.  I.  Types of Transients of Oxygen Exchange After Short Light Exposures|Biochim. Biophys. Acta153(3): 653-663|1968|10.1016/0005-2728(68)90192-8
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118630|T||Atia,A., A. Debez, Z. Barhoumi, A. Smaoui, and C. Abdelly|ABA, GA3, and Nitrate may Control Seed Germination of Crithmum maritimum (Apiaceae) Under Saline Conditions|C. R. Biol. (Multiple Languages)332(8): 704-710|2009|10.1016/j.crvi.2009.03.009
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118633|T||DuPont Chemical Corp.|Initial Submission:  Letter from Dupont Corp to USEPA Regarding Avian Toxicity Studies with Sodium Cyanide Dated 051893|EPA/OTS; Doc #88-930000320:3 p.|1993|
118634|T||Yokota,H., and A. Yuasa|Induction of Liver Microsomal UDP-Glucuronyltransferase in the Rat Administered with a Plant Phenol, Eugenol|Jpn. J. Vet. Sci.52(1): 105-111|1990|
118635|T||Morse,D.R., J.M. Wilcko, P.A. Pullon, M.L. Furst, and S.A. Passo|A Comparative Tissue Toxicity Evaluation of the Liquid Components of Gutta-Percha Root Canal Sealers|J. Endodontics7(12): 545-550|1981|10.1016/S0099-2399(81)80213-0
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118638|T||Jothi,G., R.S. Babu, S. Ramakrishnan, and G. Rajendran|Management of Root Lesion Nematode, Pratylenchus delattrei in Crossandra Using Oil Cakes|Bioresour. Technol.93(3): 257-259|2004|10.1016/j.biortech.2003.11.002
118639|T||Karapinar,M.|Inhibitory Effects of Anethole and Eugenol on the Growth and Toxin Production of Aspergillus parasiticus|Int. J. Food Microbiol.10(3-4): 193-199|1990|10.1016/0168-1605(90)90066-E
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118641|A||Ghittino,P., A. Provana, and M.L. Codegone|Experimental Dietary Hepatoma in Rainbow Trout.  The Role of Cottonseed Meals and Other Diets|Cancro20(5): 515-536|1967|
118642|T||Mathur,C.R., and M.T. Ahmed|The Feeding Value of Cotton Seed Meal-Screenings in Chick Rations|Indian Vet. J.46(9): 804-808|1969|
118643|T||Vaughn,S.F., and R.A. Holser|Evaluation of Biodiesels from Several Oilseed Sources as Environmental Friendly Contact Herbicides|Ind. Crops Prod.26(1): 63-68|2007|10.1016/j.indcrop.2007.01.005
118644|T||Martinez-Romero,D., M. Serrano, G. Bailn, F. Guilln, P.J. Zapata, J.M. Valverde, S. Castillo, M. Fuentes, and D. Valero|The Use of a Natural Fungicide as an Alternative to Preharvest Synthetic Fungicide Treatments to Control Lettuce Deterioration During Postharvest Storage|Postharvest Biol. Technol.47(1): 54-60|2008|10.1016/j.postharvbio.2007.05.020
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118648|T||Shahi,S.K., M. Patra, A.C. Shukla, and A. Dikshit|Use of Essential Oil as Botanical-Pesticide Against Post Harvest Spoilage in Malus pumilo Fruits|Biocontrol48(2): 223-232|2003|10.1023/A:1022662130614
118649|T||Rompelberg,C.J.M., H. Verhagen, and P.J. Van Bladeren|Effects of the Naturally Occurring Alkenylbenzenes Eugenol and trans-Anethole on Drug-Metabolizing Enzymes in the Rat Liver|Food Chem. Toxicol.31(9): 637-645|1993|10.1016/0278-6915(93)90046-2
118650|T||Takeyoshi,M., S. Noda, S. Yamazaki, H. Kakishima, K. Yamasaki, and I. Kimber|Assessment of the Skin Sensitization Potency of Eugenol and Its Dimers Using a Non-Radioisotopic Modification of the Local Lymph Node Assay|J. Appl. Toxicol.24(1): 77-81|2004|10.1002/jat.951
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118652|T||Shokeen,P., M. Bala, M. Singh, and V. Tandon|In Vitro Activity of Eugenol, an Active Component from Ocimum sanctum, Against Multiresistant and Susceptible Strains of Neisseria gonorrhoeae|Int. J. Antimicrob. Agents32(2): 174-179|2008|10.1016/j.ijantimicag.2008.03.018
118653|T||Silva,M.R.R., J.G.,Jr. Oliveira, O.F.L. Fernandes, X.S. Passos, C.R. Costa, L.K.H. Souza, J.A. Lemos, and J.R. Paula|Antifungal Activity of Ocimum gratissimum Towards Dermatophytes|Mycoses48(3): 172-175|2005|10.1111/j.1439-0507.2005.01100.x
118654|T||Butler,G.D.,Jr., D.L. Coudriet, and T.J. Henneberry|Toxicity and Repellency of Soybean and Cottonseed Oils to the Sweet-Potato Whitefly and the Cotton Aphid on Cotton in Greenhouse Studies|Southwest. Entomol.13(2): 81-86|1988|
118655|T||Elgayyar,M., F.A. Draughon, D.A. Golden, and J.R. Mount|Antimicrobial Activity of Essential Oils from Plants Against Selected Pathogenic and Saprophytic Microorganisms|J. Food Prot.64(7): 1019-1024|2001|10.4315/0362-028X-64.7.1019
118656|T||Butler,G.D.,Jr., and T.J. Henneberry|Cottonseed Oil and Safer Insecticidal Soap:  Effects on Cotton and Vegetable Pests and Phytotoxicity|Southwest. Entomol.15(3): 257-264|1990|
118657|T||Maura,A., A. Pino, and R. Ricci|Negative Evidence In Vivo of DNA-Damaging, Mutagenic and Chromosomal Effects of Eugenol|Mutat. Res.227(2): 125-129|1989|
118658|T||Lolage,G.R., and R.B. Patil|Comparative Efficacy of Plant Oils Against Callosobruchus maculatus F. on Pigeonpea|J. Maharashtra Agric. Univ.16(3): 327-329|1991|
118659|T||Inouye,S., S. Abe, H. Yamaguchi, and M. Asakura|Comparative Study of Antimicrobial and Cytotoxic Effects of Selected Essential Oils by Gaseous and Solution Contacts|Int. J. Aromather.13(1): 33-41|2003|10.1016/S0962-4562(03)00057-2
118660|A||Lahlou,M., and R. Berrada|Potential of Essential Oils in Schistosomiasis Control in Morocco|Int. J. Aromather.11(2): 87-96|2001|10.1016/S0962-4562(01)80023-0
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118662|T||Berger,A.|Diet-Induced Acyl Modifications of Mouse Phospholipid Classes|Ph.D. Thesis, University of California, Davis:343 p.|1992|
118663|T||Michaud,A.M., C. Chappellaz, and P. Hinsinger|Copper Phytotoxicity Affects Root Elongation and Iron Nutrition in Durum Wheat (Triticum turgidum durum L.)|Plant Soil310(1/2): 151-165|2008|10.1007/s11104-008-9642-0
118665|A||Thomassen,M.S., and C. Rosjo|Different Fats in Feed for Salmon: Influence on Sensory Parameters, Growth Rate and Fatty Acids in Muscle and Heart|Aquaculture79(1-4): 129-135|1989|10.1016/0044-8486(89)90453-5
118666|T||Dam,H., E. Sondergaard, G. Holmer, and E. Leerbeck|Production of Encephalomalacia in Chicks with Diets Containing Vegetable Oils|Z. Ernahrungswiss.7(2): 50-59|1966|10.1007/BF02021100
118667|T||Murai,T., T. Imai, and M. Maekawa|Methyl Anthranilate as an Attractant for Two Thrips Species and the Thrips Parasitoid Ceranisus menes|J. Chem. Ecol.26(11): 2557-2566|2000|10.1023/A:1005536713025
118668|T||Jackson,T.L., M.G. Hutton, and D.T. Handley|Phytotoxicity and Pollination Disorders in Sweet Corn Due to Direct-Silk Applications of Materials Used for Alternative Corn Earworm Control|HortTechnology17(2): 163-168|2007|10.21273/HORTTECH.17.2.163
118669|T||Igimi,H., M. Nishimura, R. Kodama, and H. Ide|Studies on the Metabolism of d-Limonene (p-Mentha-1,8-diene).  I.  The Absorption, Distribution and Excretion of d-Limonene in Rats|Xenobiotica4(2): 77-84|1974|10.3109/00498257409049347
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118672|T||Yang,V.W., and C.A. Clausen|Antifungal Effect of Essential Oils on Southern Yellow Pine|Int. Biodeterior. Biodegrad.59(4): 302-306|2007|10.1016/j.ibiod.2006.09.004
118673|T||Jamar,L., B. Lefrancq, and M. Lateur|Control of Apple Scab (Venturia inaequalis) with Bicarbonate Salts Under Controlled Environment|J. Plant Dis. Prot.114(5): 221-227|2007|10.1007/BF03356221
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118679|A||Schachterle,D.M.|Algae Control with Copper Sulfate on Irrigation Systems:  Algae Control Demonstration Trials|Special Report.USDI, Bureau of Reclamation:54 p.|1962|
118680|A||Pretti,C., C. Chiappe, I. Baldetti, S. Brunini, G. Monni, and L. Intorre|Acute Toxicity of Ionic Liquids for Three Freshwater Organisms:  Pseudokirchneriella subcapitata, Daphnia magna and Danio rerio|Ecotoxicol. Environ. Saf.72(4): 1170-1176|2009|10.1016/j.ecoenv.2008.09.010
118681|T||Mitchell-Innes,L.E., and G.M. Thomson|Tests with Some Additional Non-Mercurial Fungicides for the Control of Pineapple Disease|Proc. Annu. Cong. S. Afr. Sugar Technol. Assoc.:85-87|1974|
118682|A||Kumar,P., V.K. Singh, and D.K. Singh|Kinetics of Enzyme Inhibition by Active Molluscicidal Agents Ferulic Acid, Umbelliferone, Eugenol and Limonene in the Nervous Tissue of Snail Lymnaea acuminata|PTR. Phytother.Res.23(2): 172-177|2009|10.1002/ptr.2578
118683|T||Stephens,P.M., C.W. Davoren, and T. Wicks|Effect of Methyl Bromide, Metham Sodium and the Biofumigants Indian Mustard and Canola on the Incidence of Soilborne Fungal Pathogens and Growth of Grapevine Nursery Stock|Australas. Plant Pathol.28(3): 187-196|1999|10.1071/AP99032
118684|T||Rasooli,I., and M.R. Abyaneh|Inhibitory Effects of Thyme Oils on Growth and Aflatoxin Production by Aspergillus parasiticus|Food Cont.15(6): 479-483|2004|10.1016/j.foodcont.2003.07.002
118685|T||Stergiopoulos,I., M.M.C. Gielkens, S.D. Goodall, K. Venema, and M.A. De Waard|Molecular Cloning and Characterisation of Three New ATP-Binding Cassette Transporter Genes from the Wheat Pathogen Mycosphaerella graminicola|Gene289(1-2): 141-149|2002|10.1016/S0378-1119(02)00505-X
118686|T||Tawata,S., S. Taira, N. Kobamoto, M. Ishihara, and S. Toyama|Synthesis and Fungicidal Activity of New Thiophosphorylated Monoterpenoids and Related Compounds|J. Pestic. Sci. (Multiple Languages)21(2): 141-146|1996|10.1584/jpestics.21.141
118687|T||Gorris,L.G.M., K. Oosterhaven, K.J. Hartmans, Y. De Witte, and E.J. Smid|Control of Fungal Storage Diseases of Potato by Use of Plant-Essential Oil Components|Br. Crop Prot. Conf. Pests Dis.:307-312|1994|
118688|T||Martini,H., M. Weidenborner, S. Adams, and B. Kunz|Eugenol and Carvacrol:  The Main Fungicidal Compounds in Clove and Savory|Ital. J. Food Sci.8(1): 63-67|1996|
118689|T||Inouye,S.|Laboratory Evaluation of Gaseous Essential Oils (Part 1)|Int. J. Aromather.13(2/3): 95-107|2003|10.1016/S0962-4562(03)00081-X
118690|T||Singh,R.K., and R.S. Dwivedi|Fungitoxicity of Oil Cakes Against Sclerotium rolfsii Sacc. Causing Foot-Rot Disease of Barley|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.62(3): 481-486|1992|
118691|T||Maeda,M., and A. Tsuji|Determination of Copper-Oxinate in Plant Tissues by High Performance Liquid Chromatography Using Fluorimetric Detector|Chem. Pharm. Bull.27(3): 797-800|1979|10.1248/cpb.27.797
118692|T||Elsheikha,H.M., H.S. Hussein, and M.H. Rahbar|Clinico-Pathological Effects of Schistosoma mansoni Infection Associated with Simultaneous Exposure to Malathion in Swiss Outbred Albino Mice|Acta Trop.108(1): 11-19|2008|10.1016/j.actatropica.2008.07.008
118693|T||Hooser,S.B., V.R. Beasley, and J.I. Everitt|Effects of an Insecticidal Dip Containing d-Limonene in the Cat|J. Am. Vet. Med. Assoc.189(8): 905-908|1986|
118694|AT||Mills III,S.A., D.I. Thal, and J. Barney|A Summary of the 209 PCB Congener Nomenclature|Chemosphere68:1603-1612|2007|10.1016/j.chemosphere.2007.03.052
118695|T||Abramson,C.I., I.S. Aquino, M.C. Silva, and J.M. Price|Learning in the Africanized Honey Bee: Apis mellifera L.|Physiol. Behav.62(3): 657-674|1997|10.1016/S0031-9384(97)00194-7
118696|A||Gonzalez-Felix,M.L., A.L. Lawrence, D.M. Gatlin III, and M. Perez-Velazquez|Growth, Survival and Fatty Acid Composition of Juvenile Litopenaeus vannamei Fed Different Oils in the Presence and Absence of Phospholipids|Aquaculture205(3-4): 325-343|2002|10.1016/S0044-8486(01)00684-6
118697|A||Peng,S., L. Chen, J.G. Qin, J. Hou, N. Yu, Z. Long, J. Ye, and X. Sun|Effects of Replacement of Dietary Fish Oil by Soybean Oil on Growth Performance and Liver Biochemical Composition in Juvenile Black Seabream, Acanthopagrus schlegeli|Aquaculture276(1-4): 154-161|2008|10.1016/j.aquaculture.2008.01.035
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118699|A||Wen,X.B., L.Q. Chen, Z.L. Zhou, C.X. Ai, and G.Y. Deng|Reproduction Response of Chinese Mitten-Handed Crab (Eriocheir sinensis) Fed Different Sources of Dietary Lipid|Comp. Biochem. Physiol. A Mol. Integr. Physiol.131(3): 675-681|2002|10.1016/S1095-6433(01)00515-3
118700|A||Grant,A.A.M., D. Baker, D.A. Higgs, C.J. Brauner, J.G. Richards, S.K. Balfry, and P.M. Schulte|Effects of Dietary Canola Oil Level on Growth, Fatty Acid Composition and Osmoregulatory Ability of Juvenile Fall Chinook Salmon (Oncorhynchus tshawytscha)|Aquaculture277(3-4): 303-312|2008|10.1016/j.aquaculture.2008.02.032
118701|T||Kumar,V., M.R. Kural, B.M.J. Pereira, and P. Roy|Spearmint Induced Hypothalamic Oxidative Stress and Testicular Anti-Androgenicity in Male Rats - Altered Levels of Gene Expression, Enzymes and Hormones|Food Chem. Toxicol.46(12): 3563-3570|2008|10.1016/j.fct.2008.08.027
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118705|AT||Mudge,C.R.|Characterization of Flumioxazin as an Aquatic Herbicide|M.S.Thesis, University of Florida, Gainesville, FL:121 p.|2007|
118706|A||Kerby,J.L.|Pesticide Effects on Amphibians:  A Community Ecology Perspective|Ph.D. Thesis, University of California, Davis:146 p.|2006|
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118711|T||Kumar,A., R. Shukla, P. Singh, C.S. Prasad, and N.K. Dubey|Assessment of Thymus vulgaris L. Essential Oil as a Safe Botanical Preservative Against Post Harvest Fungal Infestation of Food Commodities|Innov. Food Sci. Emerg. Technol.9(4): 575-580|2008|10.1016/j.ifset.2007.12.005
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118713|T||Gupta,H.C., S.S. Bareth, and S.K. Sharma|Bio-Efficacy of Edible and Non-Edible Oils Against Pulse Beetle (Callosobruchus chinensis L.) on Stored Pulses and Their Effect on Germination|Agric. Biol. Res.7(2): 101-107|1991|
118714|T||Farag,R.S., Z.Y. Daw, and S.H. Abo-Raya|Influence of Some Spice Essential Oils on Aspergillus parasiticus Growth and Production of Aflatoxins in a Synthetic Medium|J. Food Sci.54(1): 74-76|1989|10.1111/j.1365-2621.1989.tb08571.x
118715|T||Lochsen,T., H. Ormstad, H. Braud, B. Brodal, E.N. Christiansen, and H. Osmundsen|Effects of Fish Oil and n-3 Fatty Acids on the Regulation of [Delta]9-Fatty Acid Desaturase mRNA and -Activity in Rat Liver|J. Nutr. Biochem.8(7): 408-413|1997|10.1016/S0955-2863(97)00049-1
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118719|AT||Waliwitiya,R., C.J. Kennedy, and C.A. Lowenberger|Larvicidal and Oviposition-Altering Activity of Monoterpenoids, trans-Anethole and Rosemary Oil to the Yellow Fever Mosquito Aedes aegypti (Diptera:  Culicidae)|Pest Manag. Sci.65(3): 241-248|2009|10.1002/ps.1675
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118728|T||Wagstaff,D.J.|Detoxification of Lead Acetate and Other Trace Substances|Trace Subst. Environ. Health:363-371|1971|
118729|T||Lagerwerff,J.V., and G.T. Biersdorf|Interactions of Zinc with Uptake and Translocation of Cadmium in Radish|Trace Subst. Environ. Health:515-522|1972|
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118735|T||Umamaheswari,T., C.S. Bharathi, R. Kanagarajan, S. Arivudainambi, and V. Selvenarayanan|Neem Formulations and Castor Oil-A Safe Way to Manage Okra Red Spider Mites|Indian J. Acarol.14(1/2): 77-79|1999|
118736|T||Meena,M.R., and V. Sethi|Antimicrobial Activity of Essential Oils from Spices|J. Food Sci. Technol.31(1): 68-70|1994|
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118739|T||Zwiers,L.H., and M.A. De Waard|Characterization of the ABC Transporter Genes MgAtr1 and MgAtr2 from the Wheat Pathogen Mycosphaerella graminicola|Fungal Genet. Biol.30(2): 115-125|2000|10.1006/fgbi.2000.1209
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118742|T||Racusen,L.C., B.C. Kone, A. Whelton, and K. Solez|Renal Blood Flow, Glomerular Filtration Rate, and Renal Morphology in Cyclosporine-Induced Acute Renal Failure in Munich-Wistar Rats|Am. J. Kidney Dis.8(5): 319-322|1986|10.1016/S0272-6386(86)80105-6
118743|T||Du,C., A. Sato, S. Watanabe, A. Ikemoto, Y. Fujii, and H. Okuyama|Effect of Dietary Oils Enriched with n-3 Fatty Acids on Survival of Mice|J. Nutr. Biochem.12(8): 474-480|2001|10.1016/S0955-2863(01)00163-2
118744|T||Rabbany,A.B.M.G., and F. Mizutani|Effect of Essential Oils on Ethylene Production and ACC Content in Apple Fruit and Peach Seed Tissues|J. Jpn. Soc. Hortic. Sci.65(1): 7-13|1996|10.2503/jjshs.65.7
118745|A||Ralston-Hooper,K., J. Hardy, L. Hahn, H. Ochoa-Acuna, L.S. Lee, R. Mollenhauer, and M.S. Sepulveda|Acute and Chronic Toxicity of Atrazine and Its Metabolites Deethylatrazine and Deisopropylatrazine on Aquatic Organisms|Ecotoxicology18(7): 899-905|2009|10.1007/s10646-009-0351-0
118747|T||Elmer,W.H., and F.J. Ferrandino|Suppression of Verticillium Wilt of Eggplant by Earthworms|Plant Dis.93(5): 485-489|2009|10.1094/PDIS-93-5-0485
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118750|T||Duamkhanmanee,R.|Natural Essential Oils from Lemon Grass (Cymbopogon citratus) to Control Postharvest Anthracnose of Mango Fruit|Int. J. Biotechnol.10(1): 104-108|2008|10.1504/IJBT.2008.017971
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118755|T||Akinola,O.B., O.O. Oderinde, A.T. Adejumo, and E.D. Bayode|Effect of Cottonseed Oil on Oestrous Cycle and Ovulation in Albino Rats of Wistar Strain|Niger. Postgrad. Med. J.13(3): 203-205|2006|10.4103/1117-1936.180548
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118757|T||Van der Wolf,J.M., Y. Birnbaum, P.S. Van der Zouwen, and S.P.C. Groot|Disinfection of Vegetable Seed by Treatment with Essential Oils, Organic Acids and Plant Extracts|Seed Sci. Technol.36(1): 76-88|2008|10.15258/sst.2008.36.1.08
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118761|A||Vidakovic-Cifrek, A. Wonisch, M. Tausz, and D. Grill|Effects of CaCl2 and CaBr2 on Growth, Photosynthetic Pigments and Ion Accumulation in Duckweed|Phyton (Horn) (Multiple Languages)45(2): 183-196|2005|
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118763|T||Duff,M.G., K. Al-Khatib, and D.E. Peterson|Relative Competitiveness of Protoporphyrinogen Oxidase-Resistant Common Waterhemp (Amaranthus rudis)|Weed Sci.57(2): 169-174|2009|10.1614/WS-08-104.1
118764|T||Park,M.J., K.S. Gwak, I. Yang, K.W. Kim, E.B. Jeung, J.W. Chang, and I.G. Choi|Effect of Citral, Eugenol, Nerolidol and alpha-Terpineol on the Ultrastructural Changes of Trichophyton mentagrophytes|Fitoterapia80(5): 290-296|2009|10.1016/j.fitote.2009.03.007
118765|T||Feng,W., and X. Zheng|Essential Oils to Control Alternaria alternata In Vitro and In Vivo|Food Cont.18(9): 1126-1130|2007|10.1016/j.foodcont.2006.05.017
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118767|T||National Cancer Institute|Initial Submission:  Review of Kidney Sections from a Subchronic D-Limonene Oral Dosing Study Conducted by the National Cancer Institute with Cover Letter Dated 081292|EPA/OTS; Doc #88-920007770:26 p.|1992|
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118769|T||Mensi,M., S. Salgarello, G. Pinsi, and M. Piccioni|Mycetoma of the Maxillary Sinus:  Endodontic and Microbiological Correlations|Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod.98(1): 119-123|2004|10.1016/j.tripleo.2003.12.035
118770|T||Aboobaker,V.S., A.D. Balgi, and R.K. Bhattacharya|In Vivo Effect of Dietary Factors on the Molecular Action of Aflatoxin B1:  Role of Non-nutrient Phenolic Compounds on the Catalytic Activity of Liver Fractions|In Vivo8(6): 1095-1098|1994|
118771|T||Phillips,D.H.|Further Evidence that Eugenol does not Bind to DNA In Vivo|Mutat. Res.245(1): 23-26|1990|
118772|T||Robert,F.S.M., and J.P. Rao|Bacterial Lipopolysaccharide Induces Diarrhoea in Caecectomized Mice|J. Diarr. Dis. Res.14(4): 280-282|1996|
118773|T||Nirmal,S.A., A.S. Girme, and R.D. Bhalke|Major Constituents and Anthelmintic Activity of Volatile Oils from Leaves and Flowers of Cymbopogon martini Roxb.|Nat. Prod. Res.21(13): 1217-1220|2007|10.1080/14786410701552152
118774|T||Endo,Y., Y. Osada, N. Kimura, H. Shirakawa, and K. Fujimoto|Effects of Japanese Torreya (Torreya nucifera) Seed Oil on the Activities and mRNA Expression of Lipid Metabolism-Related Enzymes in Rats|Biosci. Biotechnol. Biochem.71(1): 231-233|2007|10.1271/bbb.60350
118775|T||Prasad,A., R.K. Lal, A. Chattopadhyay, V.K. Yadav, and A. Yadav|Response of Basil Species to Soil Sodicity Stress|Commun. Soil Sci. Plant Anal.38(19-20): 2705-2715|2007|10.1080/00103620701662943
118776|T||Tzortzakis,N.G., and C.D. Economakis|Antifungal Activity of Lemongrass (Cympopogon citratus L.) Essential Oil Against Key Postharvest Pathogens|Innov. Food Sci. Emerg. Technol.8(2): 253-258|2007|10.1016/j.ifset.2007.01.002
118777|T||Mahanta,J.J., M. Chutia, M. Bordoloi, M.G. Pathak, R.K. Adhikary, and T.C. Sarma|Cymbopogon citratus L. Essential Oil as a Potential Antifungal Agent Against Key Weed Moulds of Pleurotus spp. Spawns|Flavour Fragr. J.22(6): 525-530|2007|10.1002/ffj.1835
118778|T||Roy,D.C., and Y.D. Pande|Damage to Brinjal by Lepj. Pyraustidae and Economics of Its Insecticidal Control|Indian J. Agric. Res.28(2): 110-120|1994|
118779|A||Barker,T., K. Hatton, M. O'Connor, L. Connor, and B. Moss|Effects of Nitrate Load on Submerged Plant Biomass and Species Richness:  Results of a Mesocosm Experiment|Fundam. Appl. Limnol.173(2): 89-100|2008|10.1127/1863-9135/2008/0173-0089
118780|A||Bian,H., J. Chen, X. Cai, P. Liu, Y. Wang, L. Huang, X. Qiao, and C. Hao|Dechlorination of Chloroacetanilide Herbicides by Plant Growth Regulator Sodium Bisulfite|Water Res.43(14): 3566-3574|2009|10.1016/j.watres.2009.05.002
118781|T||Jonker,D., R.A. Woutersen, P.J. Van Bladeren, H.P. Til, and V.J. Feron|Subacute (4-wk) Oral Toxicity of a Combination of Four Nephrotoxins in Rats:  Comparison with the Toxicity of the Individual Compounds|Food Chem. Toxicol.31(2): 125-136|1993|10.1016/0278-6915(93)90126-J
118782|T||Dowd,P.F., and T.C. Sparks|Comparative Hydrolysis of Permethrin and Fenvalerate in Pseudoplusia includens (Walker) and Heliothis virescens (F.)|Pestic. Biochem. Physiol.27(1): 123-131|1987|10.1016/0048-3575(87)90104-0
118783|A||Price,D.N., and M.S. Berry|Neurophysiological Effects of Naturally Occurring Defensive Compounds on the Freshwater Snail Planorbis corneus:  Comparison with Effects in Insects|J. Chem. Ecol.34(8): 994-1004|2008|10.1007/s10886-008-9511-6
118784|T||Paranagama,P.A., K.H.T. Abeysekera, K. Abeywickrama, and L. Nugaliyadde|Fungicidal and Anti-Aflatoxigenic Effects of the Essential Oil of Cymbopogon citratus (DC.) Stapf. (Lemongrass) Against Aspergillus flavus Link. Isolated from Stored Rice|Lett. Appl. Microbiol.37(1): 86-90|2003|10.1046/j.1472-765X.2003.01351.x
118785|T||Shin,S.|Anti-Aspergillus Activities of Plant Essential Oils and Their Combination Effects with Ketoconazole or Amphotericin B|Arch. Pharm. Res. (Seoul)26(5): 389-393|2003|10.1007/BF02976696
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118787|AT||Canhoto,C., and M.A.S. Graca|Leaf Barriers to Fungal Colonization and Shredders (Tipula lateralis) Consumption of Decomposing Eucalyptus globulus|Microb. Ecol.37(3): 163-172|1999|10.1007/s002489900140
118788|A||Fracalossi,D.M., and R.T. Lovell|Dietary Lipid Sources Influence Responses of Channel Catfish (Ictalurus punctatus) to Challenge with the Pathogen Edwardsiella ictaluri|Aquaculture119(2-3): 287-298|1994|10.1016/0044-8486(94)90183-X
118789|T||Tou,J.C.L., J. Chen, and L.U. Thompson|Dose, Timing, and Duration of Flaxseed Exposure Affect Reproductive Indices and Sex Hormone Levels in Rats|J. Toxicol. Environ. Health Part A56(8): 555-570|1999|10.1080/00984109909350177
118790|T||Tou,J.C.L., and L.U. Thompson|Exposure to Flaxseed or Its Lignan Component During Different Developmental Stages Influences Rat Mammary Gland Structures|Carcinogenesis20(9): 1831-1835|1999|10.1093/carcin/20.9.1831
118791|T||Black,H.S., W.A. Lenger, J. Gerguis, and J.I. Thornby|Relation of Antioxidants and Level of Dietary Lipid to Epidermal Lipid Peroxidation and Ultraviolet Carcinogenesis|Cancer Res.45(12 pt 1): 6254-6259|1985|
118792|T||Hammond,B.G., J.K. Lemen, G. Ahmed, K.D. Miller, J. Kirkpatrick, and T. Fleeman|Safety Assessment of SDA Soybean Oil:  Results of a 28-Day Gavage Study and a 90-Day/One Generation Reproduction Feeding Study in Rats|Regul. Toxicol. Pharmacol.52(3): 311-323|2008|10.1016/j.yrtph.2008.08.015
118793|T||Ichinose,T., S. Nobuyuki, H. Takano, M. Abe, K. Sadakane, R. Yanagisawa, H. Ochi, K. Fujioka, K.G. Lee, and T. Shibamot|Liver Carcinogenesis and Formation of 8-Hydroxy-Deoxyguanosine in C3H/HeN Mice by Oxidized Dietary Oils Containing Carcinogenic Dicarbonyl Compounds|Food Chem. Toxicol.42(11): 1795-1803|2004|10.1016/j.fct.2004.06.011
118795|T||Ohara,N., Y. Naito, K. Kasama, T. Shindo, H. Yoshida, T. Nagata, and H. Okuyama|Similar Changes in Clinical and Pathological Parameters in Wistar Kyoto Rats After a 13-Week Dietary Intake of Canola Oil or a Fatty Acid Composition-Based Interesterified Canola Oil Mimic|Food Chem. Toxicol.47(1): 157-162|2009|10.1016/j.fct.2008.10.022
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118803|AT||Onawunmi,G.O.|Evaluation of the Antifungal Activity of Lemon Grass Oil|Int. J. Crude Drug Res.27(2): 121-126|1989|10.3109/13880208909053950
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118834|T||Greenberg,J.|Malathion Induced Terata and Their Biochemical Implications in the Developing Chick Embryo|Ph.D Thesis, University of Ottawa, Canada:286 p.|1971|
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118847|A||Tukaj,Z., A. Bascik-Remisiewicz, T. Skowronski, and C. Tukaj|Cadmium Effect on the Growth, Photosynthesis, Ultrastructure and Phytochelatin Content of Green Microalga Scenedesmus armatus:  A Study at Low and Elevated CO2 Concentration|Environ. Exp. Bot.60(3): 291-299|2007|10.1016/j.envexpbot.2006.12.002
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118856|T||Rizzi,E., M.M. Castro, K. Fernandes, F.,Jr. Barbosa, G.M. Arisi, N. Garcia-Cairasco, L.M. Bendhack, J.E. Tanus-Santos, |Evidence of Early Involvement of Matrix Metalloproteinase-2 in Lead-Induced Hypertension|Arch. Toxicol.83(5): 439-449|2009|10.1007/s00204-008-0363-1
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118858|T||Lipok,J.|Dual Action of Phosphonate Herbicides in Plants Affected by Herbivore - Model Study on Black Bean Aphid Aphis fabae Rearing on Broad Bean Vicia faba Plants|Ecotoxicol. Environ. Saf.72(6): 1701-1706|2009|10.1016/j.ecoenv.2009.03.007
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118888|T||Del Rio,J.A., M.C. Arcas, O. Benavente-Garcia, and A. Ortuno|Citrus Polymethoxylated Flavones can Confer Resistance Against Phytophthora citrophthora, Penicillium digitatum, and Geotrichum Species|J. Agric. Food Chem.46(10): 4423-4428|1998|10.1021/jf980229m
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118890|T||Choi,W.I., S.G. Lee, H.M. Park, and Y.J. Ahn|Toxicity of Plant Essential Oils to Tetranychus urticae (Acari: Tetranychidae) and Phytoseiulus persimilis (Acari: Phytoseiidae)|J. Econ. Entomol.97(2): 553-558|2004|10.1603/0022-0493-97.2.553
118891|T||Lalko,J., and A.M. Api|Investigation of the Dermal Sensitization Potential of Various Essential Oils in the Local Lymph Node Assay|Food Chem. Toxicol.44(5): 739-746|2006|10.1016/j.fct.2005.10.006
118892|T||Ohtake,T., M. Kimura, H. Takemura, and A. Hishida|Effects of Dietary Lipids on Daunomycin-Induced Nephropathy in Mice: Comparison Between Cod Liver Oil and Soybean Oil|Lipids37(4): 359-366|2002|10.1007/s1145-002-0903-5
118893|A||Ling,S., M.K. Kuah, T.S. Tengku Muhammad, S. Kolkovski, and A.C. Shu-Chien|Effect of Dietary HUFA on Reproductive Performance, Tissue Fatty Acid Profile and Desaturase and Elongase mRNAs in Female Swordtail Xiphophorus helleri|Aquaculture261(1): 204-214|2006|10.1016/j.aquaculture.2006.06.045
118894|A||Jaya-Ram,A., M.K. Kuah, P.S. Lim, S. Kolkovski, and A.C. Shu-Chien|Influence of Dietary HUFA Levels on Reproductive Performance, Tissue Fatty Acid Profile and Desaturase and Elongase mRNAs Expression in Female Zebrafish Danio rerio|Aquaculture277(3/4): 275-281|2008|10.1016/j.aquaculture.2008.02.027
118895|T||Olson,L.M., S.K. Clinton, J.I. Everitt, P.V. Johnston, and W.J. Visek|Lymphocyte Activation, Cell-Mediated Cytotoxicity and Their Relationship to Dietary Fat-Enhanced Mammary Tumorigenesis in C3H/OUJ Mice|J. Nutr.117(5): 955-963|1987|10.1093/jn/117.5.955
118896|T||Naito,Y., C. Konishi, and N. Ohara|Blood Coagulation and Osmolar Tolerance of Erythrocytes in Stroke-Prone Spontaneously Hypertensive Rats Given Rapeseed Oil or Soybean Oil as the Only Dietary Fat|Toxicol. Lett.117(3): 209-215|2000|10.1016/S0378-4274(00)00224-1
118897|A||Pannard,A., B. Le Rouzic, and F. Binet|Response of Phytoplankton Community to Low-Dose Atrazine Exposure Combined with Phosphorus Fluctuations|Arch. Environ. Contam. Toxicol.57(1): 50-59|2009|10.1007/s00244-008-9245-z
118898|T||Storrs Mendez,S.I., D.E. Tillitt, T.A.G. Rittenhouse, and R.D. Semlitsch|Behavioral Response and Kinetics of Terrestrial Atrazine Exposure in American Toads (Bufo americanus)|Arch. Environ. Contam. Toxicol.57(3): 590-597|2009|10.1007/s00244-009-9292-0
118899|A||Wills,L.P., S. Zhu, K.L. Willett, and R.T. Di Giulio|Effect of CYP1A Inhibition on the Biotransformation of Benzo[a]pyrene in Two Populations of Fundulus heteroclitus with Different Exposure Histories|Aquat. Toxicol.92(3): 195-201|2009|10.1016/j.aquatox.2009.01.009
118900|A||Qian,H., W. Chen, J. Li, J. Wang, Z. Zhou, W. Liu, and Z. Fu|The Effect of Exogenous Nitric Oxide on Alleviating Herbicide Damage in Chlorella vulgaris|Aquat. Toxicol.92(4): 250-257|2009|10.1016/j.aquatox.2009.02.008
118901|A||Zeng,J., L. Yang, and W.X. Wang|Acclimation to and Recovery from Cadmium and Zinc Exposure by a Freshwater Cyanobacterium, Microcystis aeruginosa|Aquat. Toxicol.93(1): 1-10|2009|10.1016/j.aquatox.2009.02.013
118902|A||Pablo,F., and R.V. Hyne|Endosulfan Application to a Stream Mesocosm:  Studies on Fate, Uptake into Passive Samplers and Caged Toxicity Test with the Fish M. ambigua|Arch. Environ. Contam. Toxicol.56(3): 525-535|2009|10.1007/s00244-008-9251-1
118903|T||Magour,S., P. Schramel, J. Ovcar, and H. Maser|Uptake and Distribution of Boron in Rats:  Interaction with Ethanol and Hexobarbital in the Brain|Arch. Environ. Contam. Toxicol.11:521-525|1982|10.1007/BF01056357
118904|A||Rodea-Palomares,I., C. Gonzalez-Garcia, F. Leganes, and F. Fernandez-Pinas|Effect of pH, EDTA, and Anions on Heavy Metal Toxicity Toward a Bioluminescent Cyanobacterial Bioreporter|Arch. Environ. Contam. Toxicol.57(3): 477-487|2009|10.1007/s00244-008-9280-9
118905|A||Mandrillon,A.L., and P. Saglio|Effects of Single and Combined Embryonic Exposures to Herbicide and Conspecific Chemical Alarm Cues on Hatching and Larval Traits in the Common Frog (Rana temporaria)|Arch. Environ. Contam. Toxicol.56(3): 566-576|2009|10.1007/s00244-008-9196-4
118906|A||Ha,M.H., and J. Choi|Effects of Environmental Contaminants on Hemoglobin Gene Expression in Daphnia magna:  A Potential Biomarker for Freshwater Quality Monitoring|Arch. Environ. Contam. Toxicol.57(2): 330-337|2009|10.1007/s00244-007-9079-0
118907|A||He,J.Y., Y.F. Ren, F.J. Wang, X.B. Pan, C. Zhu, and D.A. Jiang|Characterization of Cadmium Uptake and Translocation in a Cadmium-Sensitive Mutant of Rice (Oryza sativa L. ssp. japonica)|Arch. Environ. Contam. Toxicol.57(2): 299-306|2009|10.1007/s00244-008-9273-8
118908|T||Mertschenk,B., W. Bornemann, J.G. Filser, L. Von Meyer, U. Rust, J.C. Schneider, and C. Gloxhuber|Urinary Excretion of Acetylcyanamide in Rat and Human After Oral and Dermal Application of Hydrogen Cyanamide (H2NCN)|Arch. Toxicol.65(4): 268-272|1991|10.1007/BF01968960
118912|T||Shimada,H., R. Narumi, M. Nagano, A. Yasutake, M.P. Waalkes, and Y. Imamura|Strain Difference of Cadmium-Induced Testicular Toxicity in Inbred Wistar-Imamichi and Fischer 344 Rats|Arch. Toxicol.83(7): 647-652|2009|10.1007/s00204-009-0442-y
118913|A||Zanette,J., M.J. Jenny, J.V. Goldstone, B.R. Woodin, L.A. Watka, A.C.D. Bainy, and J.J. Stegeman|New Cytochrome P450 1B1, 1C2 and 1D1 Genes in the Killifish Fundulus heteroclitus:  Basal Expression and Response of Five Killifish CYP1s to the AHR Agonist PCB126|Aquat. Toxicol.93(4): 234-243|2009|10.1016/j.aquatox.2009.05.008
118914|A||Iwanowicz,L.R., V.S. Blazer, S.D. McCormick, P.A. VanVeld, and C.A. Ottinger|Aroclor 1248 Exposure Leads to Immunomodulation, Decreased Disease Resistance and Endocrine Disruption in the Brown Bullhead, Ameiurus nebulosus|Aquat. Toxicol.93(1): 70-82|2009|10.1016/j.aquatox.2009.03.008
118916|T||Lu,C.F., Y.M. Wang, S.Q. Peng, L.B. Zou, D.H. Tan, G. Liu, Z. Fu, Q.X. Wang, and J. Zhao|Combined Effects of Repeated Administration of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin and Polychlorinated Biphenyls on Kidneys of Male Rats|Arch. Environ. Contam. Toxicol.57(4): 767-776|2009|10.1007/s00244-009-9323-x
118917|T||Li,L., D. Zhou, P. Wang, and W.J.G.M. Peijnenburg|Kinetics of Cadmium Uptake and Subcellular Partitioning in the Earthworm Eisenia fetida Exposed to Cadmium-Contaminated Soil|Arch. Environ. Contam. Toxicol.57(4): 718-724|2009|10.1007/s00244-009-9296-9
118918|A||Ma,W.L., T. Yan, Y. He, and L. Wang|Purification and cDNA Cloning of a Cadmium-Binding Metallothionein from the Freshwater Crab Sinopotamon henanense|Arch. Environ. Contam. Toxicol.56(4): 747-753|2009|10.1007/s00244-008-9224-4
118919|T||Payan,J.P., M. Lafontaine, P. Simon, F. Marquet, C. Champmartin-Gendre, D. Beydon, L. Wathier, and E. Ferrari|3-Hydroxybenzo(a)pyrene as a Biomarker of Dermal Exposure to Benzo(a)pyrene|Arch. Toxicol.83(9): 873-883|2009|10.1007/s00204-009-0440-0
118920|T||Muguruma,M., M. Kawai, Y. Dewa, J. Nishimura, Y. Saegusa, H. Yasuno, M. Jin, S. Matsumoto, M. Takabatake, K. Arai, and |Threshold Dose of Piperonyl Butoxide that Induces Reactive Oxygen Species-Mediated Hepatocarcinogenesis in Rats|Arch. Toxicol.83(2): 183-193|2009|10.1007/s00204-008-0340-8
118921|T||Karamanakos,P.N., D.T.P. Trafalis, G.D. Geromichalos, P. Pappas, P. Harkitis, M. Konstandi, and M. Marselos|Inhibition of Rat Hepatic CYP2E1 by Quinacrine:  Molecular Modeling Investigation and Effects on 4-(Methyl Nitrosamino)-1-(3-Pyridyl)-Butanone (NNK)-Induced Mutagenicity|Arch. Toxicol.83(6): 571-580|2009|10.1007/s00204-008-0350-6
118922|T||Dewa,Y., J. Nishimura, M. Muguruma, M. Jin, M. Kawai, Y. Saegusa, T. Okamura, T. Umemura, and K. Mitsumori|Involvement of Oxidative Stress in Hepatocellular Tumor-Promoting Activity of Oxfendazole in Rats|Arch. Toxicol.83(5): 503-511|2009|10.1007/s00204-008-0349-z
118924|T||Barlas,N., and M. Aydogan|Histopathologic Effects of Maternal 4-tert-Octylphenol Exposure on Liver, Kidney and Spleen of Rats at Adulthood|Arch. Toxicol.83(4): 341-349|2009|10.1007/s00204-008-0354-2
118927|T||Hsieh,C.Y., C.L. Miaw, C.C. Hsieh, H.C. Tseng, Y.H. Yang, and C.H. Yen|Effects of Chronic 4-n-Nonylphenol Treatment on Aortic Vasoconstriction and Vasorelaxation in Rats|Arch. Toxicol.83(10): 941-946|2009|10.1007/s00204-009-0447-6
118928|T||Moon,H.J., J.H. Seok, S.S. Kim, G.S. Rhee, R. Da Lee, J.Y. Yang, S.Y. Chae, S.H. Kim, J.Y. Kim, J.Y. Chung, J.M. Kim, a|Lactational Coumestrol Exposure Increases Ovarian Apoptosis in Adult Rats|Arch. Toxicol.83(6): 601-608|2009|10.1007/s00204-008-0400-0
118931|A||Trivedi,A.K., I. Ahmad, M.S. Musthapa, and F.A. Ansari|Environmental Contamination of Chrysotile Asbestos and Its Toxic Effects on Antioxidative System of Lemna gibba|Arch. Environ. Contam. Toxicol.52(3): 355-362|2007|10.1007/s00244-006-0056-9
118932|A||Zhang,J., Z. Zuo, C. He, D. Wu, Y. Chen, and C. Wang|Inhibition of Thyroidal Status Related to Depression of Testicular Development in Sebastiscus marmoratus Exposed to Tributyltin|Aquat. Toxicol.94(1): 62-67|2009|10.1016/j.aquatox.2009.06.003
118933|A||Zuo,Z., J. Cai, X. Wang, B. Li, C. Wang, and Y. Chen|Acute Administration of Tributyltin and Trimethyltin Modulate Glutamate and N-Methyl-D-Aspartate Receptor Signaling Pathway in Sebastiscus marmoratus|Aquat. Toxicol.92(1): 44-49|2009|10.1016/j.aquatox.2009.01.008
118934|A||Petridis,P., A.N. Jha, and W.J. Langston|Measurements of the Genotoxic Potential of (xeno-)Oestrogens in the Bivalve Mollusc Scrobicularia plana, Using the Comet Assay|Aquat. Toxicol.94(1): 8-15|2009|10.1016/j.aquatox.2009.05.010
118935|A||Vallotton,N., R.I.L. Eggen, and N. Chevre|Effect of Sequential Isoproturon Pulse Exposure on Scenedesmus vacuolatus|Arch. Environ. Contam. Toxicol.56(3): 442-449|2009|10.1007/s00244-008-9200-z
118936|A||Trivedi,A.K., I. Ahmad, M.S. Musthapa, F.A. Ansari, and Q. Rahman|Environmental Contamination of Chrysotile Asbestos and Its Toxic Effects on Growth and Physiological and Biochemical Parameters of Lemna gibba|Arch. Environ. Contam. Toxicol.47(3): 281-289|2004|10.1007/s00244-004-3161-7
118937|A||Wang,M.H., and G.Z. Wang|Biochemical Response of the Copepod Tigriopus japonicus Mori Experimentally Exposed to Cadmium|Arch. Environ. Contam. Toxicol.57(4): 707-717|2009|10.1007/s00244-009-9319-6
118938|A||Rioboo,C., J.E. O'Connor, R. Prado, C. Herrero, and A. Cid|Cell Proliferation Alterations in Chlorella Cells Under Stress Conditions|Aquat. Toxicol.94(3): 229-237|2009|10.1016/j.aquatox.2009.07.009
118939|A||Owen,S.F., D.B. Huggett, T.H. Hutchinson, M.J. Hetheridge, L.B. Kinter, J.F. Ericson, and J.P. Sumpter|Uptake of Propranolol, a Cardiovascular Pharmaceutical, from Water into Fish Plasma and Its Effects on Growth and Organ Biometry|Aquat. Toxicol.93(4): 217-224|2009|10.1016/j.aquatox.2009.05.009
118941|T||Shimizu,S., R. Atsumi, K. Itokawa, M. Iwasaki, T. Aoki, C. Ono, T. Izumi, K. Sudo, and O. Okazaki|Metabolism-Dependent Hepatotoxicity of Amodiaquine in Glutathione-Depleted Mice|Arch. Toxicol.83(7): 701-707|2009|10.1007/s00204-009-0436-9
118942|T||Pleadin,J., T. Gojmerac, Z. Lipej, M. Mitak, D. Novosel, and N. Persi|Accumulation of the +-2-Adrenergic Agonist Clenbuterol in Mouse Dark Hair|Arch. Toxicol.83(11): 979-983|2009|10.1007/s00204-009-0446-7
118943|A||Bhattacharya,H., Q. Xiao, and L. Lun|Toxicity Studies of Nonylphenol on Rosy Barb (Puntius conchonious):  A Biochemical and Histopathological Evaluation|Tissue Cell40(4): 243-249|2008|10.1016/j.tice.2007.12.004
118944|T||Davies,D.B., and B.J. Holub|Toxicological Evaluation of Dietary Diazinon in the Rat|Arch. Environ. Contam. Toxicol.9(6): 637-650|1980|10.1007/BF01055539
118945|T||Jones,H.B., and N.A.B. Clarke|Assessment of the Influence of Subacute Phenobarbitone Administration on Muti-tissue Cell Proliferation in the Rat Using Bromodeoxyuridine Immunocytochemistry|Arch. Toxicol.67(9): 622-628|1993|10.1007/BF01974069
118946|T||Jin,M., Y. Saekusa, Y. Dewa, J. Nishimura, S. Matsumoto, M. Shibutani, K. Hasumi, and K. Mitsumori|Hepatocarcinogenic Susceptibility of rasH2 Mice to Troglitazone in a Two-Stage Hepatocarcinogenesis Model|Arch. Toxicol.83(2): 173-181|2009|10.1007/s00204-008-0335-5
118948|A||Jin,Y., R. Chen, L. Sun, W. Liu, and Z. Fu|Photoperiod and Temperature Influence Endocrine Disruptive Chemical-Mediated Effects in Male Adult Zebrafish|Aquat. Toxicol.92(1): 38-43|2009|10.1016/j.aquatox.2009.01.003
118949|A||Kochhann,D., A.P.S. Benaduce, C.E. Copatti, K.R. Lorenzatto, M.F. Mesko, E.M.M. Flores, V.L. Dressler, and B. Baldisser|Protective Effect of High Alkalinity Against the Deleterious Effects of Chronic Waterborne Cadmium Exposure on the Detection of Alarm Cues by Juvenile Silver Catfish (Rhamdia quelen)|Arch. Environ. Contam. Toxicol.56(4): 770-775|2009|10.1007/s00244-009-9291-1
118950|A||Lapointe,D., and P. Couture|Influence of the Route of Exposure on the Accumulation and Subcellular Distribution of Nickel and Thallium in Juvenile Fathead Minnows (Pimephales promelas)|Arch. Environ. Contam. Toxicol.57(3): 571-580|2009|10.1007/s00244-009-9298-7
118951|A||Muscatello,J.R., and K. Liber|Accumulation and Chronic Toxicity of Uranium over Different Life Stages of the Aquatic Invertebrate Chironomus tentans|Arch. Environ. Contam. Toxicol.57(3): 531-539|2009|10.1007/s00244-009-9283-1
118952|A||Matozzo,V., M. Monari, J. Foschi, O. Cattani, G.P. Serrazanetti, and M.G. Marin|First Evidence of Altered Immune Responses and Resistance to Air Exposure in the Clam Chamelea gallina Exposed to Benzo(a)pyrene|Arch. Environ. Contam. Toxicol.56(3): 479-488|2009|10.1007/s00244-008-9212-8
118953|T||Kamata,R., F. Shiraishi, T. Izumi, S. Takahashi, A. Shimizu, and H. Shiraishi|Mechanisms of Estrogen-Induced Effects in Avian Reproduction Caused by Transovarian Application of a Xenoestrogen, Diethylstilbestrol|Arch. Toxicol.83(2): 161-171|2009|10.1007/s00204-008-0336-4
118954|A||Giltrow,E., P.D. Eccles, M.J. Winter, P.J. McCormack, M. Rand-Weaver, T.H. Hutchinson, and J.P. Sumpter|Chronic Effects Assessment and Plasma Concentrations of the beta-Blocker Propranolol in Fathead Minnows (Pimephales promelas)|Aquat. Toxicol.95(3): 195-202|2009|10.1016/j.aquatox.2009.09.002
118955|A||Haukas,M., E. Mariussen, A. Ruus, and K.E. Tollefsen|Accumulation and Disposition of Hexabromocyclododecane (HBCD) in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.95(2): 144-151|2009|10.1016/j.aquatox.2009.08.010
118956|T||Liu,W., L.S. Zhu, J. Wang, J.H. Wang, H. Xie, and Y. Song|Assessment of the Genotoxicity of Endosulfan in Earthworm and White Clover Plants Using the Comet Assay|Arch. Environ. Contam. Toxicol.56(4): 742-746|2009|10.1007/s00244-009-9309-8
118957|T||Xing,X.J., Q. Rui, M. Du, and D.Y. Wang|Exposure to Lead and Mercury in Young Larvae Induces More Severe Deficits in Neuronal Survival and Synaptic Function than in Adult Nematodes|Arch. Environ. Contam. Toxicol.56(4): 732-741|2009|10.1007/s00244-009-9307-x
118958|A||Fini,J.B., L. Dolo, J.P. Cravedi, B. Demeneix, and D. Zalko|Metabolism of the Endocrine Disruptor BPA by Xenopus laevis Tadpoles|Ann. N. Y. Acad. Sci.1163(1): 394-397|2009|10.1111/j.1749-6632.2008.03655.x
118959|A||Kelley,D.B., J.I. Morrell, and D.W. Pfaff|Autoradiographic Localization of Hormone-Concentrating Cells in the Brain of an Amphibian, Xenopus laevis.  I.  Testosterone|J. Comp. Neurol.164:47-62|1975|10.1002/cne.901640105
118960|A||Morrell,J.I., D.B. Kelley, and D.W. Pfaff|Autoradiographic Localization of Hormone-Concentrating Cells in the Brain of an Amphibian, Xenopus laevis.  II:  Estradiol|J. Comp. Neurol.164:63-78|1975|10.1002/cne.901640106
118964|T||Chen,Y., F.M.A. McNabb, and J.C. Sible|Perchlorate Exposure Induces Hypothyroidism and Affects Thyroid-Responsive Genes in Liver but not Brain of Quail Chicks|Arch. Environ. Contam. Toxicol.57(3): 598-607|2009|10.1007/s00244-009-9304-0
118968|T||Tasaki,M., T. Umemura, A. Kijima, T. Inoue, T. Okamura, Y. Kuroiwa, Y. Ishii, and A. Nishikawa|Simultaneous Induction of Non-Neoplastic and Neoplastic Lesions with Highly Proliferative Hepatocytes Following Dietary Exposure of Rats to Tocotrienol for 2-Years|Arch. Toxicol.83(11): 1021-1030|2009|10.1007/s00204-009-0461-8
118969|T||Tissandie,E., Y. Gueguen, J.M.A. Lobaccaro, L. Grandcolas, S. Grison, J. Aigueperse, and M. Souidi|Vitamin D Metabolism Impairment in the Rats Offspring Following Maternal Exposure to 137Cesium|Arch. Toxicol.83(4): 357-362|2009|10.1007/s00204-008-0351-5
118972|A||Novis,P.M., C. Halle, B. Wilson, and L.A. Tremblay|Identification and Characterization of Freshwater Algae from a Pollution Gradient Using rbcL Sequencing and Toxicity Testing|Arch. Environ. Contam. Toxicol.57(3): 504-514|2009|10.1007/s00244-009-9312-0
118973|A||Chandra,S.|Toxic Effect of Malathion on Acetylcholinesterase Activity of Liver, Brain and Gills of Freshwater Catfish Heteropneustes fossilis|Environ. Conserv. J.9(3): 47-52|2008|10.36953/ECJ.2008.090310
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118976|T||Dietrich,D.R., and J.A. Swenberg|NCI-Black-Reiter (NBR) Male Rats Fail to Develop Renal Disease Following Exposure to Agents That Induce alpha-2u-Globulin (alpha 2u) Nephropathy|Fundam. Appl. Toxicol.16(4): 749-762|1991|10.1016/0272-0590(91)90161-V
118977|T||Handique,A.K., and H.B. Singh|Antifungal Action of Lemongrass Oil on Some Soil-Borne Plant Pathogens|Indian Perfum.34(3): 232-234|1990|
118978|T||Sexcius,L.M.|Localization of CNS Neurons Responsive to Ischemic/Hypoxic Stimuli by c-fos Immunocytochemistry|Ph.D. Thesis, Howard University, Washington, DC:123 p.|1998|
118979|T||Abramitis,W.W.|Action of Certain Organic Compounds as Systemic Insecticides|Ph.D.Thesis, Iowa State University, Ames, IA:103 p.|1951|
118980|A||MacLatchy,D.L., and J.G. Eales|Short-Term Treatment with Testosterone Increases Plasma 3,5,3'-Triiodo-L-thyronine and Hepatic L-thyroxine 5'-Monodeiodinase Levels in Arctic Charr, Salvelinus alpinus|Gen. Comp. Endocrinol.71:10-16|1988|10.1016/0016-6480(88)90289-4
118981|T||Wood,B.W., and J.A. Payne|Suppression of Pecan Net Photosynthesis by Crop Oils|J. Entomol. Sci.21(3): 201-205|1986|10.18474/0749-8004-21.3.201
118982|T||Boeryd,B., and B. Hallgren|The Influence of the Lipid Composition of the Feed Given to Mice on the Immunocompetence and Tumour Resistance of the Progeny|Int. J. Cancer26(2): 241-246|1980|10.1002/ijc.2910260217
118983|T||Chandravadana,M.V., and E.S.J. Nidiry|Antifungal Activity of Essential Oil of Pelargonium graveolens and Its Constituents Against Colletotrichum gloesporoides|Indian J. Exp. Biol.32(12): 908-909|1994|
118984|T||Caccioni,D.R.L., M. Guizzardi, D.M. Biondi, A. Renda, and G. Ruberto|Relationship Between Volatile Components of Citrus Fruit Essential Oils and Antimicrobial Action of Penicillium digitatum and Penicillium italicum|Int. J. Food Microbiol.43(1-2): 73-79|1998|10.1016/S0168-1605(98)00099-3
118985|T||Chao,P.M., M.F. Yang, Y.N. Tseng, K.M. Chang, K.S. Lu, and C.J. Huang|Peroxisome Proliferation in Liver of Rats Fed Oxidized Frying Oil|J. Nutr. Sci. Vitaminol.51(5): 361-368|2005|10.3177/jnsv.51.361
118986|T||Anton,A.H., A. Serrano, R.D. Beyer, and K.S. Lavappa|Tetrahydrocannabinol, Sesame Oil and Biogenic Amines: A Preliminary Report|Life Sci.14(9): 1741-1746|1974|10.1016/0024-3205(74)90275-6
118987|A||Bhavan,P.S., and P. Geraldine|Manifestation of Carbaryl Toxicity on Soluble Protein and Histopathology in the Hepatopancreas and Gills of the Prawn, Macrobrachium malcolmsonii|J. Environ. Biol.30(4): 533-538|2009|
118988|T||Celik,I., and I. Isik|Neurotoxic Effects of Subacute Exposure of Dichlorvos and Methyl Parathion at Sublethal Dosages in Rats|Pestic. Biochem. Physiol.94(1): 1-4|2009|10.1016/j.pestbp.2009.02.003
118989|A||Frasco,M.F., D. Fournier, F. Carvalho, and L. Guilhermino|Does Mercury Interact with the Inhibitory Effect of Dichlorvos on Palaemon serratus (Crustacea:  Decapoda) Cholinesterase?|Sci. Total Environ.404(1): 88-93|2008|10.1016/j.scitotenv.2008.06.012
118990|T||Jadhav,K.B., and P.S. Rajini|Neurophysiological Alterations in Caenorhabditis elegans Exposed to Dichlorvos, an Organophosphorus Insecticide|Pestic. Biochem. Physiol.94(2/3): 79-85|2009|10.1016/j.pestbp.2009.03.004
118991|A||Gupta,A.K., G.P. Verma, and K.L. Jain|Acute Toxicity of Organophosphate Insecticide, Dichlorvos in Relation to Selected Water Hardness for the Freshwater Zooplankters|J. Environ. Biol.29(6): 837-839|2008|
118992|A||Shrivastava,S., S. Singh, and K. Shrivastava|Effect of Carbaryl on Glucose Content in the Brain of Heteropneustes fossilis|J. Ecotoxicol. Environ. Monit.12(3): 205-208|2002|
118993|A||Atamanalp,M., S. Angis, P. Oguzhan, and E. Aksakal|Alterations in Hematological Parameters of Rainbow Trout (Oncorhynchus mykiss) Exposed to DDVP|Isr. J. Aquacult. Bamidgeh60(1): 9-12|2008|
118995|A||Welker,T.L., and J.L. Congleton|Relationship Between Dietary Lipid Source, Oxidative Stress, and the Physiological Response to Stress in Sub-Yearling Chinook Salmon (Oncorhynchus tshawytscha)|Fish Physiol. Biochem.29(3): 225-235|2003|10.1023/B:FISH.0000045724.93156.ef
118996|T||Wegner,Z., and W. Kruminis-Lozowska|Laboratory Research into the Utilization of the Common Castor-Oil Plant (Ricinus communis L.) in the Control of Rats|Bull. Inst. Marit. Trop. Med. Gydnia27(2): 229-240|1976|
118997|T||Vazquez,B.I., C. Fente, C.M. Franco, M.J. Vazquez, and A. Cepeda|Inhibitory Effects of Eugenol and Thymol on Penicillium citrinum Strains in Culture Media and Cheese|Int. J. Food Microbiol.67(1-2): 157-163|2001|10.1016/S0168-1605(01)00429-9
118998|T||Sangwan,N.K., K.K. Verma, B.S. Verma, M.S. Malik, and K.S. Dhindsa|Nematicidal Activity of Essential Oils of Cymbopogon Grasses|Nematologica31(1): 93-99|1985|10.1163/187529285X00120
118999|T||Gupta,S.K., and P.N. Saxena|Carbaryl-Induced Behavioural and Reproductive Abnormalities in the Earthworm Metaphire posthuma:  A Sensitive Model|Alt. Lab. Anim. (ATLA)31(6): 587-593|2003|10.1177/026119290303100607
119000|T||Watkins,B.A., C.C. Whitehead, and S.R.I. Duff|Hydrogenated Oil Decreases Tissue Concentrations of n-6 Polyunsaturated Fatty Acids and may Contribute to Dyschondroplasia in Broilers|Br. Poult. Sci.32(5): 1109-1119|1991|10.1080/00071669108417433
119001|A||Pawar,P.V., R.N. Sharma, A.P. Phadnis, B. Nanda, and S.A. Patwardhan|Action of Some Insect Growth Regulators on Mosquito Vectors:  Part I. - Citronellol Based Diethers|J. Commun. Dis.23(2): 118-122|1991|
119002|A||Cyr,D.G., and J.G. Eales|The Effects of Sodium Ipodate (ORAgrafin) on Thyroid Function in Rainbow Trout, Salmo gairdneri|Gen. Comp. Endocrinol.63:86-92|1986|10.1016/0016-6480(86)90185-1
119003|T||Bednarek,R., and C.S. Davidson|Influence of Spraying with Carbaryl on Nesting Success in a Sample of Bird-Boxes on Cape Cod in 1965|Bird-Band.38(1): 66-72|1967|10.2307/4511339
119004|T||Boeryd,B., and B. Hallgren|The Incidence of Spontaneous Mammary Carcinoma in C3H Mice is Influenced by Dietary Fat Given from Weaning and Given to the Mothers During Gestation and Lactation|Acta Pathol. Microbiol Immunol. Scand. A 94(3): 237-242|1986|10.1111/j.1699-0463.1986.tb02989.x
119005|T||Juglal,S., R. Govinden, and B. Odhav|Spice Oils for the Control of Co-Occurring Mycotoxin-Producing Fungi|J. Food Prot.65(4): 683-687|2002|10.4315/0362-028X-65.4.683
119006|T||Lai,L.T.Y., and J.B. German|Modulation of Fatty Acid Composition in Murine Brain by Dietary Unsaturated Fats|J. Nutr. Biochem.4(8): 463-471|1993|10.1016/0955-2863(93)90064-4
119007|T||McCutcheon,J.S., T. Umermura, M.K. Bhatnager, and B.L. Walker|Cardiopathogenicity of Rapeseed Oils and Oil Blends Differing in Erucic, Linoleic, and Linolenic Acid Content|Lipids11(7): 545-552|1976|10.1007/BF02532900
119008|T||Beaudoin,A.R.|The Failure of Glutamic Acid to Protect the Rat Embryo Against the Action of Trypan Blue|Teratology23(1): 95-99|1981|10.1002/tera.1420230112
119009|A||Pena-Vazquez,E., E. Maneiro, C. Perez-Conde, M.C. Moreno-Bondi, and E. Costas|Microalgae Fiber Optic Biosensors for Herbicide Monitoring Using Sol-Gel Technology|Biosens. Bioelectron.24(12): 3538-3543|2009|10.1016/j.bios.2009.05.013
119010|T||Glavic,Z., L. Begic, I. Bagaric, S. Sabalic, M. Simunovic, and M. Gotovac|Effect of Pesticides on Wound Contraction|Coll. Antropol.31(1): 203-208|2007|
119011|T||Gupta,S.K., and V. Sundararaman|Carbaryl-Induced Changes in the Earthworm Pheretima posthuma|Indian J. Exp. Biol.26:688-693|1988|
119012|A||Dai,R., H. Liu, and J. Qu|The Effects of Different Nitrogen Compounds on the Growth and Microcystin Production of Microcystis aeruginosa|J. Water Supply Res. Technol.58(4): 277-284|2009|10.2166/aqua.2009.032
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119018|A||Jadhav,S., Y.B. Sontake, and V.S. Lomte|Effect of Carbaryl on Ascorbic Acid Content in the Selected Tissues of Carbicula striatella|J. Ecotoxicol. Environ. Monit.6(2): 109-112|1996|
119019|A||Marquardt,J.|The Effect of Norflurazon on the Photosynthetic Apparatus of the Red Alga Cyanidium caldarium|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:63-66|1995|
119020|A||Sigala,B., and K. Gounaris|Adaptive Response of the Halotolerant Algae Dunaliella salina to Oxidative Stress|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:347-350|1995|
119021|A||Ahmed-Hamad,A.M., A.M. Hamada, and S.A. Desouky|Effect of Exogenously Added Vitamins on Photosynthesis and Some Related Activities of Salinized Chlorella vulgaris|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:749-752|1995|
119022|T||Vacha,F., and M. Durchan|The O2 Dependent Inhibition of Photosynthesis in Tobacco Plants|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:223-226|1995|
119023|T||Taleb,H.B., R. Lannoye, and J.F. Ledent|Study of the Effects of Aluminum Toxicity and Calcium Deficiency on Photosynthesis|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:681-684|1995|
119024|T||Nunes,M.A., M.C. Matos, H.G. Azinheira, and V.L. Quartin|Indirect Effects of Aluminium on Photosynthesis and Mineral Concentration in Triticales|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:713-716|1995|
119025|T||Madey,E., S. Ghosh, J.E. Thompson, and E.B. Dumbroff|The Effects of Paclobutrazol on Stabilization of Photosynthetic Components in Senescing Bean Leaves|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:541-544|1995|
119026|A||Ardelean,I., V. Ristoiu, M.L. Flonta, and G. Zarnea|Respiratory and Photosynthetic Response in Salt Stressed Synechocystis PCC 6803|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:525-528|1995|
119027|T||Lang,F., E. Sarvari, Z. Szigeti, F. Fodor, and E. Cseh|Effects of Heavy Metals on the Photosynthetic Apparatus|In: P.Mathis (Ed.), Proceedings of the International Photosynthesis Congress, Aug.20-25, 1995, Montpellier, France4:533-536|1995|
119028|T||Wadkins,T., J. Benz, and W. Briner|The Effect of Lanthanum Administration During Neural Tube Formation on the Emergence of Swimming Behavior|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:168-171|1998|
119029|T||Sedrowicz,L.W., G.B. Van der Voet, D. Witkowska, R. Oledzka, and F.A. De Wolff|The Effect of Oral Loading with Aluminium on Leucine and Methionine Transport in the Rat Intestine|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:195-198|1998|
119030|T||Aydin,H.H., C. Coker, B. Ersoz, and G. Mentes|Distribution of Zinc and Copper in Thiocyanate Administered Rats|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:223-227|1998|
119031|T||Kotsaki-Kovatsi,V.P., L. Kovatsi, G. Koehler-Samouilidou, and E. Bacoyanni|Effect of Inositolhexaphosphoric Acid (Phytic Acid) on the Distribution of Calcium and Zinc in Rat Tissues|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:233-237|1998|
119032|T||Saito,S., M. Okabe, and M. Kurasaki|Localization of Au-Induced Metallothionein in Rat Kidney|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:262-266|1998|
119033|T||Slikkerveer,A., R.B. Helmich, G.B. Van der Voet, and F.A. De Wolff|Comparative Tissue Distribution of Bismuth Salts in the Rat|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:267-271|1998|
119034|T||Shtangeeva,I.V., N.D. Nugaeva, K. Heydorn, and E. Damsgaard|Cr+3 as Toxic Element for Plants.  Role of Physiological Activity of Microorganisms and Plant Roots|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:349-353|1998|
119035|T||Aggarwal,S.K., and H.J. Muenchen|"Immune System Activation by ""Poly-Plat"", a Cisplatin Second Generation Analog, an In Vitro and In Vivo Study"|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:413-417|1998|
119036|T||Laborda,J.M., C.J. Mateos, A. Bernao, I. Meseguer, M.J. Gonzalez, M.C. Martinez, and M.V. Aguilar|Influence of Chromium Picolinate on Mineral Urinary Excretion in Stz-Diabetic-Rats|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:481-484|1998|
119037|T||Eybl,V., D. Caisova, D. Kotyzova, J. Koutensky, and O. Topo|The Influence of Cadmium and Lead on the Activity of Two Selenoenzymes (GSH-Px and 5'Dl-l), Thyroid Status and Trace Element Levels in Rats|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:534-538|1998|
119038|T||Telgenhoff,D.J., and S.K. Aggarwal|"Kupffer Cell Activation After Treatment with Cisplatin and Its Second Generation Novel Analogs SAP, SSP and ""Poly-Plat"""|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:646-648|1998|
119039|T||Skoczynska,A., R. Andrzejak, R. Smolik, and D. Andrzejak|Effect of Oral Cadmium Administration on the Reactivity of Isolated Mesenteric Vessels to Norepinephrine (NE) in Rats|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:686-690|1998|
119040|T||Schlegel-Zawadzka,M., M. Krosniak, and G. Nowak|Brain Copper Levels After Antidepressant Treatment|In: P.Collery, P.Bratter, V.Negretti de Bratter, L.Khassanova and J.C.Etienne (Eds.), Metal Ions in Biology and Medicine, Lisboa, Portugal5:703-706|1998|
119041|A||Fitzgerald,G.P.|Evaluation of Potassium Permanganate as an Algicide for Water Cooling Towers|Ind. Eng. Chem. Prod. Res. Dev.3(2): 82-85|1964|
119042|A||Chainark,S.|Effect of Sodium Nitrate Treatment on Water and Sediment Quality in Laboratory and Pond Studies|Ph.D.Thesis, Auburn University, Auburn, AL:96 p.|2008|
119043|A||Oropesa,A.L., J.P. Garcia-Cambero, and F. Soler|Effect of a Subchronic Exposure to Simazine on Energetic Metabolism of Common Carp (Cyprinus carpio)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(2): 144-156|2009|
119044|T||Kodama,R., H. Inoue, K. Noda, H. Ide, H. Yamamoto, S. Yoshihara, and H. Yoshimura|Effect of d-Limonene and Related Compounds on Bile Flow and Biliary Lipid Composition in Rats and Dogs|Life Sci.19(10): 1559-1567|1976|10.1016/0024-3205(76)90102-8
119045|T||Chelikani,P.K., D.R. Glimm, D.H. Keisler, and J.J. Kennelly|Effects of Feeding or Abomasal Infusion of Canola Oil in Holstein Cows.  2.  Gene Expression and Plasma Concentrations of Cholecystokinin and Leptin|J. Dairy Res.71(3): 288-296|2004|10.1017/S0022029904000299
119046|T||Occidental Chem.Corp.|Initial Submission:  CRO3 Oral and Dermal Studies of Chromic Oxide in Rats (Final Report) with Cover Letter Dated 022192|EPA/OTS Doc.#88-920001199:8 p.|1992|
119047|T||PPG Industries Inc.|Letter from PPG Industries Inc to USEPA Submitting Enclosed Toxicity Studies on Sodium Chromated Crystals, Sodium Dichromate Dihydrate & Chronium Trioxide with Attachments|EPA/OTS Doc.#88-7800151:100 p.|1978|
119048|T||Celanese Corp.|Summary of Results for a Chronic Dermal Application Study of N-Pentanoic Acid, Heptanoic Acid and Nonanoic Acid in C3H/HeJ Mice with Cover Letter 043084|EPA/OTS Doc #88-8400625:102 p.|1984|
119049|T||Hoechst Celanese Corp.|Initial Submission:  Teratology Screen with Pelargonic Acid in Rats (Final Report) with Undated Submission Sheet|EPA/OTS Doc #88-920006627:129 p.|1992|
119050|T||Rhone-Poulenc|Initial Submission:  Letter from Rhone-Poulenc Inc to USEPA Regarding Teratology Screen Studies of Various Compounds in Rats with Attachments and Cover Letter Dated 102792|EPA/OTS Doc #88-920009562:251 p.|1992|
119051|T||Rhone-Poulenc|Initial Submission:  Maternal Tolerance Study in Rats with Cover Letter Dated 102792|EPA/OTS Doc #88-920010164:44 p.|1992|
119052|T||Rhone-Poulenc|Initial Submission:  A 28-Day Dermal Toxicity Study in Rabbits with Cover Letter Dated 102792|EPA/OTS Doc #88-920010172:135 p.|1992|
119053|T||Procter|Initial Submission:  28-Day Feeding Study of Nonanoic Acid in Rats with Attachments and Cover Letter Dated 080592|EPA/OTS Doc #88-920004925:418 p.|1992|
119054|A||Geng,B.R., Q.Q. Xue, Y. Lian, and D. Yao|Comparison of Sensitivity to Dichlorvos of Rhacophorus megacephalus Tadpole at Different Developmental Stages|Dongwu Xuebao52(5): 892-898|2006|
119056|T||Doane,C.C., and P.W. Schaefer|Aerial Application of Insecticides for Control of the Gypsy Moth. With Studies of Effects on Non-Target Insects and Birds|Conn. Agric. Exp. Stn. Bull. (New Haven)724:5-23|1971|
119057|T||Segerback,D.|Estimation of Genetic Risks of Alkylating Agents.  V.  Methylation of DNA in the Mouse by DDVP (2,2-Dichlorovinyl Dimethyl Phosphate)|Hereditas94:73-76|1981|10.1111/j.1601-5223.1981.tb01734.x
119058|T||Gunay,N., B. Kose, S. Demiryurek, A.R. Ocak, O. Erel, and A.T. Demiryurek|Effects of a Selective Rho-Kinase Inhibitor Y-27632 on Oxidative Stress Parameters in Acute Dichlorvos Poisoning in Rats|Cell Biochem. Funct.26(7): 747-754|2008|10.1002/cbf.1500
119059|T||Fox,I., I.G. Bayona, and J.L. Armstrong|Cat Flea Control Through Use of Dichlorvos-Impregnated Collars|J. Am. Vet. Med. Assoc.155:1621-1623|1968|
119060|T||Yassin,K.M., N.H.H. Bashir, and B.H. Gadalla|Effects of Endosulfan, Chlorpyrifos and Their Mixtures on Bemisia tabaci of Sudan Gezira|Trop. Pest Manag.36(3): 230-233|1989|10.1080/09670879009371478
119061|T||Yi,C.G., M. Kwon, T.T. Hieu, Y.S. Jang, and Y.J. Ahn|Fumigant Toxicity of Plant Essential Oils to Plutella xylostella (Lepidoptera: Yponomeutidae) and Cotesia glomerata (Hymenoptera: Braconidae)|J. Asia Pac. Entomol.10(2): 157-163|2007|10.1016/S1226-8615(08)60347-7
119062|T||Lalko,J., D. Isola, and A.M. Api|Ethanol and Diethyl Phthalate: Vehicle Effects in the Local Lymph Node Assay|Int. J. Toxicol.23(3): 171-177|2004|10.1080/10915810490471343
119063|A||Rani,R., R.K. Gautam, K. Gautam, and S. Kumar|Nuvan Intoxication Leads Protein Alteration in Kidney of Labeo rohita|J. Exp. Zool.11(1): 113-115|2008|
119064|A||Sutton,D.L., and S.W. Bingham|Translocation Patterns of Simazine in Potamogeton crispus L.|Proc. Northeast. Weed Control Conf.22:357-361|1968|
119065|T||Occidental Chem.Corp.|Initial Submission:  Acute Dermal Toxicity and Irritation of Sodium Chromate Tetrahydrate in Albino Rabbits (Final Report) with Cover Letter Dated 022192|EPA/OTS Doc.#88-920001094:13 p.|1992|
119066|T||Beer,R.J., L.F. Taffs, D.E. Jacobs, I.J. Lean, and M.K. Curran|Evaluation of Dichlorvos (V3 Formulation) Against Larval and Adult Trichuris suis and Observations on Experimental Infection in Growing Pigs|Vet. Rec.88(17): 436-441|1971|10.1136/vr.88.17.436
119069|A||Chan,C.Y.|Detoxification and Degradation of Triazine-Pollutants by an Integrated Photochemical-Biological System|Ph.D.Thesis, The Chinese University of Hong Kong, China:153 p.|2005|
119070|A||Deoray,B.M., and A.E. Desai|Thiodan Intoxication Effects on Liver Content of the Cyprinid Fish, Barilius bendelisis (Ham.)|Geobios24:146-150|1997|
119071|A||Rangaswamy,C.P.|Effect of Endosulfan on Blood Gases in the Edible Fish Oreochromis mossambicus (Peters)|Indian J. Fish.46(2): 211-213|1999|
119072|A||Nair,V.P., J.R. Nair, and T.V.A. Mercy|The Individual and Combined Acute Lethal Toxicity of Selected Biocides on the Juveniles of Rohu (Labeo rohita) Under Tropical Conditions|Indian J. Fish.54(3): 267-274|2007|
119073|T||Rao,S.S., A.A. Kale, S.R. Joshi, and S.P. Mahadik|Sensitivity of Fetus and Pups to Excess Levels of Maternal Intakes of Alpha Linolenic Acid at Marginal Protein Levels in Wistar Rats|Reprod. Toxicol.24(3-4): 333-342|2007|10.1016/j.reprotox.2007.07.007
119074|T||Veldre,I.A., and H.J. Janes|Toxicological Studies of Shale Oils, Some of Their Components, and Commercial Products|Environ. Health Perspect.30:141-146|1979|10.1289/ehp.7930141
119075|A||Lekhi,P., D. Cassis, C.M. Pearce, N. Ebell, M.T. Maldonado, and K.J. Orians|Role of Dissolved and Particulate Cadmium in the Accumulation of Cadmium in Cultured Oysters (Crassostrea gigas)|Sci. Total Environ.393:309-325|2008|10.1016/j.scitotenv.2007.12.004
119076|A||Martin-Gonzalez,A., S. Borniquel, S. Diaz, R. Ortega, and J.C. Gutirrez|Ultrastructural Alterations in Ciliated Protozoa Under Heavy Metal Exposure|Cell Biol. Int.29(2): 119-126|2005|10.1016/j.cellbi.2004.09.010
119077|T||Narisu, J.A. Lockwood, and S.P. Schell|A Novel Mark-Recapture Technique and Its Application to Monitoring the Direction and Distance of Local Movements of Rangeland Grasshoppers (Orthoptera:  Acrididae) in the Context of Pest Management|J. Appl. Ecol.36:604-617|1999|10.1046/j.1365-2664.1999.00421.x
119078|T||Marnett,L.J.|Peroxyl Free Radicals:  Biological Reactive Intermediates Produced During Lipid Oxidation|Adv. Exp. Med. Biol.283:65-70|1990|10.1007/978-1-4684-5877-0_6
119079|T||Tice,R.R., P.W. Andrews, O. Hirai, and N.P. Singh|The Single Cell Gel (SCG) Assay: An Electrophoretic Technique for the Detection of DNA Damage in Individual Cells|Adv. Exp. Med. Biol.283:157-164|1990|10.1007/978-1-4684-5877-0_17
119080|T||Appleton,M.L., D.N. Larson, G.L. Skiles, W.K. Nichols, and G.S. Yost|Toxicity of 3-Methyleneoxindole, a Proposed Reactive Intermediate in the Metabolism of 3-Methylindole|Adv. Exp. Med. Biol.283:245-248|1990|10.1007/978-1-4684-5877-0_24
119082|T||Chinje,E.C., and G.G. Gibson|Stereochemical Induction of Cytochrome P450IVA1 (P452) and Peroxisome Proliferation in Male Rat|Adv. Exp. Med. Biol.283:267-270|1990|10.1007/978-1-4684-5877-0_29
119083|T||Faria,E.C., and C.M. Witmer|Mixed Function Oxidase Enzyme Responses to In Vivo and In Vitro Chromate Treatment|Adv. Exp. Med. Biol.283:275-280|1990|10.1007/978-1-4684-5877-0_31
119084|T||Gervasi,P.G., P. Puccini, V. Longo, and A. Lippi|Role of the Acetone Inducible P-450IIE1 in the Deethylation of Diethylnitrosamine in Hamster|Adv. Exp. Med. Biol.283:285-287|1990|10.1007/978-1-4684-5877-0_33
119085|T||Weber,G.L., and I.G. Sipes|Rat Hepatic DNA Damage Induced by 1,2,3-Trichloropropane|Adv. Exp. Med. Biol.283:853-855|1990|10.1007/978-1-4684-5877-0_120
119086|T||Ting,D., M.T. Smith, P. Doane-Setzer, J. Woodlee, and S.M. Rappaport|Measurement of Styrene-Oxide Cysteine Adducts in Hemoglobin by Selective Catalytic Reduction|Adv. Exp. Med. Biol.283:837-841|1990|10.1007/978-1-4684-5877-0_117
119087|T||Stohs,S.J., N.Z. Alsharif, M.A. Shara, Z.A.F. Al-Bayati, and Z.Z. Wahba|Evidence for the Induction of an Oxidative Stress in Rat Hepatic Mitochrondria by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin (TCDD)|Adv. Exp. Med. Biol.283:827-831|1990|10.1007/978-1-4684-5877-0_115
119088|T||Ramos,K., K. McMahon, C. Alipui, and D. Demick|Modulation of Aortic Smooth Muscle Cell Proliferation by Dinitrotoluene|Adv. Exp. Med. Biol.283:805-808|1990|10.1007/978-1-4684-5877-0_110
119089|T||Odeleye,O.E., R.R. Watson, C.D. Eskelson, and S.I. Mufti|Dietary Polyunsaturated Fatty Acid Promote Peroxidation and Its Possible Role in the Promotion of Cancer|Adv. Exp. Med. Biol.283:789-791|1990|10.1007/978-1-4684-5877-0_107
119090|T||Odeleye,O.E., R.R. Watson, C.D. Eskelson, and S.I. Mufti|Composition of Hepatic Lipids After Ethanol, Cod Liver Oil and Vitamin E Feeding in Rats|Adv. Exp. Med. Biol.283:785-788|1990|10.1007/978-1-4684-5877-0_106
119091|T||Monks,T.J., S.S. Lau, J.J.W. Mertens, J.H.M. Temmink, and P.J. Van Bladeren|The Nephrotoxicity of 2,5-Dichloro-3-(Glutathion-S-YL)-1,4-Benzo-Quinone, and 2,5,6-Trichloro-3-(Glutathione-S-YL)-1,4-Benzoquinone is Potentiated by Ascorbic Acid and AT-125|Adv. Exp. Med. Biol.283:767-769|1990|10.1007/978-1-4684-5877-0_103
119092|T||Kim,S.G., and R.F. Novak|Cytochrome P450IIE1 Metabolism of Pyridines: Evidence for Production of a Reactive Intermediate Which Exhibits Redox-Cycling Activity and Causes DNA Damage|Adv. Exp. Med. Biol.283:753-758|1990|10.1007/978-1-4684-5877-0_100
119095|T||Harris,J.W., and M.W. Anders|The Use of 19F NMR in the Study of Protein Alkylation by Fluorinated Reactive Intermediates|Adv. Exp. Med. Biol.283:735-738|1990|10.1007/978-1-4684-5877-0_96
119096|T||Netter,K.J., B. Hahnemann, S.A. Mangoura, F. Feil, M. Tegtmeier, R.T. Mayer, and W. Legrum|Selective Inducers of the Coh-Locus Enhance the Metabolisms of Coumarin- and of Quinoline-Derivatives but not That of Napthalenes|Adv. Exp. Med. Biol.283:353-357|1990|10.1007/978-1-4684-5877-0_46
119103|T||Huztable,R.J., R. Bowers, A.R. Mattocks, and M. Michnicka|Sulfur Conjugates as Putative Pneumotoxic Metabolites of the Pyrrolizidine Alkaloid, Monocrotaline|Adv. Exp. Med. Biol.283:605-612|1990|10.1007/978-1-4684-5877-0_76
119105|T||Roth,R.A., and J.F. Reindel|Lung Vascular Injury from Monocrotaline Pyrrole, a Putative Hepatic Metabolite|Adv. Exp. Med. Biol.283:477-487|1990|10.1007/978-1-4684-5877-0_64
119106|T||Dybing,E., E.J. Soderlund, M. Lag, G. Brunborg, J.A. Holme, J.G. Omichinski, P.G. Pearson, and S.D. Nelson|Testicular Metabolism and Toxicity of Healogenated Propanes|Adv. Exp. Med. Biol.283:471-476|1990|10.1007/978-1-4684-5877-0_63
119107|T||Lau,S.S., and T.J. Monks|Glutathione Conjugation as a Mechanism of Targeting Latent Quinones to the Kidney|Adv. Exp. Med. Biol.283:457-464|1990|10.1007/978-1-4684-5877-0_61
119108|T||Fujii,H., I. Sagami, T. Ohmachi, H. Kikuchi, and M. Watanabe|Tissue Difference in Expression of Cytochrome P-450 Between Liver and Lung of Syrian Golden Hamsters Treated with 3-Methylcholantheene|Adv. Exp. Med. Biol.283:413-417|1990|10.1007/978-1-4684-5877-0_56
119109|T||Miller,J.A., Y.J. Surh, A. Liem, and E.C. Miller|Electrophilic Sulfuric Acid Ester Metabolites of Hydroxy-Methyl Aromatic Hydrocarbons as Precursors of Hepatic Benzylic DNA Adducts In Vivo|Adv. Exp. Med. Biol.283:555-567|1990|10.1007/978-1-4684-5877-0_71
119110|T||Lin,R.C., and L. Lumeng|Formation of a Protein-Acetaldehyde Adduct in Liver During Chronic Alcohol Exposure|Adv. Exp. Med. Biol.283:139-149|1990|10.1007/978-1-4684-5877-0_15
119111|T||Streeter,A.J., R.W. Nims, P.R. Sheffels, and L.K. Keefer|Denitrosation of N-Nitrosodimethylamine in the Rat In Vivo|Adv. Exp. Med. Biol.283:371-375|1990|10.1007/978-1-4684-5877-0_49
119112|T||Mufti,S.I.|Free Radicals Generated in Ethanol Metabolism may be Responsible for Tumor Promoting Effects of Ethanol|Adv. Exp. Med. Biol.283:777-783|1990|10.1007/978-1-4684-5877-0_105
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119114|AT||Ross,E.|The Effects of Sodium Cyanide and Methylene Blue on Oxygen Consumption by Nitella clavata|Am. J. Bot.25(6): 458-463|1938|10.1002/j.1537-2197.1938.tb09244.x
119116|T||Mansson,P.E., F. Schlyter, C. Eriksson, and K. Sjodin|Nonanoic Acid, Other Alkanoic Acids, and Related Compounds as Antifeedants in Hylobius abietis Pine Weevils|Entomol. Exp. Appl.121(3): 191-201|2006|10.1111/j.1570-8703.2006.00481.x
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119118|T||Yoshida,I., F. Yamashita, M. Yoshino, and S. Okada|Antecedent Mitochondrial Changes to the Appearance of Fatty Droplets and ATP Concentrations in Rat Liver Treated with 4-Pentenoic Acid|In: J.F.S.Crocker (Ed.), Reyes Syndrome II, Grune & Stratton, NY:433-441|1979|
119119|T||LeJeune,R.R.|Saddle-Backed Looper Ectropis crepuscularia Schiff.|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:193-195|1975|
119120|AT||LeJeune,R.R.|Western Black-Headed Budworm Acleris gloverana (Wals.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:159-166|1975|
119121|T||LeJeune,R.R.|Pine Butterfly Neophasia menapia F. & F.|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:204-205|1975|
119122|T||Sippell,W.L.|Oak Leaf Shredder Croesia semipurpurane (Kft.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:218-219|1975|
119123|AT||Prebble,M.L.|Eastern Hemlock Looper Lambdina fiscellaria fiscellaria (Guen.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:167-177|1975|
119124|T||LeJeune,R.R.|Green-Striped Forest Looper Melanolophia imitata (Walker)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:190-192|1975|
119125|T||Smirnoff,W.A., and J.M. McLeod|Swaine Jack-Pine Sawfly Neodiprion swainei Middleton|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:235-240|1975|
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119127|AT||LeJeune,R.R., and H.A. Richmond|Striped Ambrosia Beetle Trypodendron lineatum (Oliv.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:246-249|1975|
119128|T||Sippell,W.L., G.M. Howse, and R.F. DeBoo|White Pine Weevil Pissodes strobi Peck|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:241-245|1975|
119129|AT||LeJeune,R.R.|Western Hemlock Looper Lambdina fiscellaria lugubrosa (Hulst.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:179-184|1975|
119130|T||LeJeune,R.R.|Hemlock Needle Miner Epinotia tsugana Freeman|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:213-214|1975|
119131|T||Prebble,M.L.|Forest Tent Caterpillar Malacosoma disstria Hbn.|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:200-203|1975|
119132|T||LeJeune,R.R.|Phantom Hemlock Looper Nepytia phantasmaria (Stkr.)|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:188-189|1975|
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119148|A||Schultz,G.W., M.S. Mulla, and Y.S. Hwang|Petroleum Oil and Nonanoic Acid as Mosquitocides and Oviposition Repellents|Mosq. News43(3): 315-318|1983|
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119150|T||Hwang,Y.S., G.W. Schultz, H. Axelrod, W.L. Kramer, and M.S. Mulla|Ovipositional Repellency of Fatty Acids and Their Derivatives Against Culex and Aedes Mosquitoes|Environ. Entomol.11(1): 223-226|1982|10.1093/ee/11.1.223
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119152|T||Dabrowski,Z.T., and J.G. Rodriguez|Studies on Resistance of Strawberries to Mites. 3. Preference and Nonpreference Responses of Tetranychus urticae and T. turkestani to Essential Oils of Foliage|J. Econ. Entomol.64(2): 387-391|1971|10.1093/jee/64.2.387
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119156|T||Greenway,A.R., D.C. Griffiths, and S.L. Lloyd|Response of Myzus persicae to Components of Aphid Extracts and to Carboxylic Acids|Entomol. Exp. Appl.24(3): 369-374|1978|10.1111/j.1570-7458.1978.tb02795.x
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119161|A||Ohta,K., H. Matsumoto, and T. Nawamaki|A Screening Procedure for Repellents Against a Sea Snail|Agric. Biol. Chem.42(8): 1491-1493|1978|
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119163|A||Yamane,H., J. Sugawara, Y. Suzuki, E. Shimamura, and N. Takahashi|Syntheses of Jasmonic Acid Related Compounds and Their Structure-Activity Relationships on the Growth of Rice Seedings|Agric. Biol. Chem.44(12): 2857-2864|1980|
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119165|A||Schultz,G.W., Y.S. Hwang, W.L. Kramer, H. Axelrod, and M.S. Mulla|Field Evaluation of Ovipositional Repellents Against Culex (Diptera:  Culicidae) Mosquitoes|Environ. Entomol.11(4): 968-971|1982|10.1093/ee/11.4.968
119166|T||Komutarin,T., S. Azadi, L. Butterworth, D. Keil, B. Chitsomboon, M. Suttajit, and B.J. Meade|Extract of the Seed Coat of Tamarindus indica Inhibits Nitric Oxide Production by Murine Macrophages In Vitro and In Vivo|Food Chem. Toxicol.42(4): 649-658|2004|10.1016/j.fct.2003.12.001
119167|A||Malek-Hoseini,M., S. Jamili, A. Mashinchian, and M. Noori|Effects of Diazinon on Female Chalcalburnus chalcoides (Cyprinidae) Serum Estradiol Levels|Toxicol. Environ. Chem.90(1): 107-112|2008|10.1080/02772240701284436
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119170|T||De Flora,S., F. D'Agostini, R. Balansky, R. Micale, B. Baluce, and A. Izzotti|Lack of Genotoxic Effects in Hematopoietic and Gastrointestinal Cells of Mice Receiving Chromium(VI) with the Drinking Water|Mutat. Res.659(1-2): 60-67|2008|10.1016/j.mrrev.2007.11.005
119171|T||Boyle,S., and T. Kakouli-Duarte|The Effects of Chromium VI on the Fitness and on the beta-Tubulin Genes During In Vivo Development of the Nematode Steinernema feltiae|Sci. Total Environ.404(1): 56-67|2008|10.1016/j.scitotenv.2008.05.024
119172|T||Espinoza-Quinones,F.R., N. Szymanski, S.M. Palacio, A.N. Modenes, M.A. Rizzutto, F.G.,Jr. Silva, A.P. Oliveira, A.C.P. |Inhibition Effect on the Allium cepa L. Root Growth when Using Hexavalent Chromium-Doped River Waters|Bull. Environ. Contam. Toxicol.82(6): 767-771|2009|10.1007/s00128-009-9682-z
119173|A||Palijan,G., D. Fuks, and J. Vidakovic|Spatial and Temporal Distribution of Net Nitrite and Nitrate Production on Submersed Macrophyte Ceratophyllum demersum L.|Fresenius Environ. Bull.18(1): 64-69|2009|
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119175|T||Tew,J., C.F. Cresswell, and P. Fair|The Effect of Nitrate and Ammonia on the Initial Carboxylation Product and the Abundance of Microbodies in Some C4 Plants and Hordeum vulgare L.|In: M.Avron (Ed.), Proc.3rd Int.Congr.Photosynthesis:1249-1266|1974|
119176|A||Martinez-Jeronimo,F., and G. Munoz-Mejia|Evaluation of the Sensitivity of Three Cladoceran Species Widely Distributed in Mexico to Three Reference Toxicants|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1417-1424|2007|
119177|T||Oh,K., H. Matsuoka, O. Sumita, K. Takatori, and H. Kurata|Automatic Evaluation of Antifungal Volatile Compounds on the Basis of the Dynamic Growth Process of a Single Hypha|Appl. Microbiol. Biotechnol.38(6): 790-794|1993|10.1007/BF00167146
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119179|A||Abbas,H.H., and F.K. Ali|Study the Effect of Hexavalent Chromium on Some Biochemical, Citotoxicological and Histopathological Aspects of the Orechromis spp. Fish|Pak. J. Biol. Sci.10(22): 3973-3982|2007|10.3923/pjbs.2007.3973.3982
119180|A||Espinoza-Quinones,F.R., N. Martin, G. Stutz, G. Tirao, S.M. Palacio, M.A. Rizzutto, A.N. Modenes, F.G.,Jr. Silva, N. Sz|Root Uptake and Reduction of Hexavalent Chromium by Aquatic Macrophytes as Assessed by High-Resolution X-Ray Emission|Water Res.43(17): 4159-4166|2009|10.1016/j.watres.2009.06.041
119181|A||Vannini,C., M. Marsoni, G. Domingo, F. Antognoni, S. Biondi, and M. Bracale|Proteomic Analysis of Chromate-Induced Modifications in Pseudokirchneriella subcapitata|Chemosphere76(10): 1372-1379|2009|10.1016/j.chemosphere.2009.06.022
119182|A||Vutukuru,S.S.|Acute Effects of Hexavalent Chromium on Survival, Oxygen Consumption, Hematological Parameters and Some Biochemical Profiles of the Indian Major Carp, Labeo rohita|Int. J. Environ. Res. Public Health2(3): 456-462|2005|10.3390/ijerph2005030010
119183|T||Zhang,X., J. Liu, D. Wang, Y. Zhu, C. Hu, and J. Sun|Bioaccumulation and Chemical Form of Chromium in Leersia hexandra Swartz|Bull. Environ. Contam. Toxicol.82(3): 358-362|2009|10.1007/s00128-008-9587-2
119184|A||Palaniappan,P.L.R.M., and S. Karthikeyan|Bioaccumulation and Depuration of Chromium in the Selected Organs and Whole Body Tissues of Freshwater Fish Cirrhinus mrigala Individually and in Binary Solutions with Nickel|J. Environ. Sci.21(2): 229-236|2009|10.1016/S1001-0742(08)62256-1
119185|A||Orun,I., and Z.S. Talas|Antioxidative Role of Sodium Selenite Against the Toxic Effect of Heavy Metals (Cd+2, Cr+3) on Some Biochemical and Hematological Parameters in the Blood of Rainbow Trout (Oncorhynchus mykiss Walbaum, 1792)|Fresenius Environ. Bull.17(9a): 1242-1246|2008|
119186|T||Li,L., F. Lu, M. Zhang, Y. Guo, and E. Ma|Different Survival of Chromium-Exposed Oxya chinensis Among Allozyme Genotypes|J. Environ. Sci.21(4): 509-513|2009|10.1016/S1001-0742(08)62300-1
119187|A||Lushchak,O.V., O.I. Kubrak, O.V. Lozinsky, J.M. Storey, K.B. Storey, and V.I. Lushchak|Chromium(III) Induces Oxidative Stress in Goldfish Liver and Kidney|Aquat. Toxicol.93(1): 45-52|2009|10.1016/j.aquatox.2009.03.007
119188|A||Maiti,A.K., G. Paul, B. Maity, D. Mazumdar, and N.C. Saha|Chromium III Exposure Inhibits Brain Na+K+ATPase Activity of Clarias batrachus L. Involving Lipid Peroxidation and Deficient Mitochondrial Electron Transport Chain Activity|Bull. Environ. Contam. Toxicol.83(4): 479-483|2009|10.1007/s00128-009-9827-0
119189|A||Mishra,A.K., and B. Mohanty|Chronic Exposure to Sublethal Hexavalent Chromium Affects Organ Histopathology and Serum Cortisol Profile of a Teleost, Channa punctatus (Bloch)|Sci. Total Environ.407(18): 5031-5038|2009|10.1016/j.scitotenv.2009.05.042
119190|A||Munoz-Mejia,G., G. Zavala-Olivares, and F. Martinez-Jeronimo|Comparative Analysis Between Native and Reference Cladocerans to Assess the Toxic Effects of Products Used by the Oil Industry in Mexico|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control42(10): 1453-1460|2007|
119191|T||Fozia,A., A.Z. Muhammad, A. Muhammad, and M.K. Zafar|Effect of Chromium on Growth Attributes in Sunflower (Helianthus annuus L.)|J. Environ. Sci. (China)20(12): 1475-1480|2008|10.1016/S1001-0742(08)62552-8
119192|A||Gagneten,A.M., A. Imhof, and S. Gervasio|Accumulation and Elimination of Cr in Gills and Eggs by the Freshwater Crab Zilchiopsis collastinensis After Experimental Exposure|Fresenius Environ. Bull.17(2): 182-187|2008|
119193|A||Gagneten,A.M., and A. Imhof|Chromium (Cr) Accumulation in the Freshwater Crab, Zilchiopsis collastinensis|J. Environ. Biol.30(3): 345-348|2009|
119194|A||Gutierrez,M.F., A.M. Gagneten, and M.J. Parma|Bioconcentration and Trophic Transfer of Chromium in the Daphnia magna (Crustaceae:  Cladocera) - Cnesterodon decemmaculatus (Pisces, Poeciliidae) System|Fresenius Environ. Bull.17(6): 647-651|2008|
119195|A||Bankar,A.V., A.R. Kumar, and S.S. Zinjarde|Removal of Chromium (VI) Ions from Aqueous Solution by Adsorption onto Two Marine Isolates of Yarrowia lipolytica|J. Hazard. Mater.170(1): 487-494|2009|10.1016/j.jhazmat.2009.04.070
119196|T||Dey,S.K., P.P. Jena, and S. Kundu|Antioxidative Efficiency of Triticum aestivum L. Exposed to Chromium Stress|J. Environ. Biol.30(4): 539-544|2009|
119197|A||Vutukuru,S.S., N.A. Prabhath, M. Raghavender, and A. Yerramilli|Effect of Arsenic and Chromium on the Serum Amino-Transferases Activity in Indian Major Carp, Labeo rohita|Int. J. Environ. Res. Public Health4(3): 224-227|2007|10.3390/ijerph2007030005
119198|A||Paiva,L.B., J.G. De Oliveira, R.A. Azevedo, D.R. Ribeiro, M.G. Da Silva, and A.P. Vitoria|Ecophysiological Responses of Water Hyacinth Exposed to Cr3+ and Cr6+|Environ. Exp. Bot.65(2/3): 403-409|2009|10.1016/j.envexpbot.2008.11.012
119199|T||Tiwari,K.K., S. Dwivedi, N.K. Singh, U.N. Rai, and R.D. Tripathi|Chromium (VI) Induced Phytotoxicity and Oxidative Stress in Pea (Pisum sativum L.):  Biochemical Changes and Translocation of Essential Nutrients|J. Environ. Biol.30(3): 389-394|2009|
119200|A||Svecevicius,G.|Use of Behavioral Responses of Rainbow Trout Oncorhynchus mykiss in Identifying Sublethal Exposure to Hexavalent Chromium|Bull. Environ. Contam. Toxicol.82(5): 564-568|2009|10.1007/s00128-009-9657-0
119201|A||Regaldo,L., A.M. Gagneten, and H. Troiani|Accumulation of Chromium and Interaction with Other Elements in Chlorella vulgaris (Cloroficeae) and Daphnia magna (Crustacea, Cladocera)|J. Environ. Biol.30(2): 213-216|2009|
119202|T||Rajkumar,M., K.J. Lee, W.H. Lee, and J.R. Banu|Growth of Brassica juncea Under Chromium Stress:  Influence of Siderophores and Indole 3 Acetic Acid Producing Rhizosphere Bacteria|J. Environ. Biol.26(4): 693-699|2005|
119203|T||Cory-Slechta,A.|Chronic Low-Level Lead Exposure:  Behavioral Consequences, Biological Exposure Indices and Reversibility|Sci. Total Environ.71(3): 433-440|1988|10.1016/0048-9697(88)90215-X
119204|T||Itoh,S., and H. Shimada|Micronucleus Induction by Chromium and Selenium, and Suppression by Metallothionein Inducer|Mutat. Res.367(4): 233-236|1996|10.1016/S0165-1218(96)90082-8
119205|T||Jamal,S.N., M.Z. Iqbal, and M. Athar|Phytotoxic Effect of Aluminum and Chromium on the Germination and Early Growth of Wheat (Triticum aestivum) Varieties Anmol and Kiran|Int. J. Environ. Sci. Technol. (Tehran)3(4): 411-416|2006|10.1007/BF03325950
119206|A||Kostaropoulos,I., D. Kalmanti, B. Theodoropoulou, and N.S. Loumbourdis|Effects of Exposure to a Mixture of Cadmium and Chromium on Detoxification Enzyme (GST, P450-MO) Activities in the Frog Rana ridibunda|Ecotoxicology14(4): 439-447|2005|10.1007/s10646-004-1349-2
119207|T||Lei,Y.X., Q. Zhang, and Z.X. Zhuang|Study on DNA-Protein Crosslinks Induced by Chromate and Nickel Compounds In Vivo with 125I-Postlabelling Assay|Mutat. Res.329(2): 197-203|1995|10.1016/0027-5107(95)00047-M
119208|T||Liu,D., and I. Kottke|Subcellular Localization of Chromium and Nickel in Root Cells of Allium cepa by EELS and ESI|Cell Biol. Toxicol.19(5): 299-311|2003|10.1023/B:CBTO.0000004984.87619.15
119209|A||Saravanan,R., K. Revathi, and P.B. Murthy|Effect of lambda-Cyhalothrin on the Activity of Steroidogenic Enzymes in Testis and Seminal Vesicle of Catfish, Clarias batrachus|J. Appl. Zool. Res.19(1): 77-81|2008|
119210|T||Sarabia,L., I. Maurer, and E. Bustos-Obregon|Melatonin Prevents Damage Elicited by the Organophosphorous Pesticide Diazinon on the Mouse Testis|Ecotoxicol. Environ. Saf.72(3): 938-942|2009|10.1016/j.ecoenv.2008.04.022
119211|T||Jihen,H., M. Imed, H. Fatima, and K. Abdelhamid|Protective Effects of Selenium (Se) and Zinc (Zn) on Cadmium (Cd) Toxicity in the Liver of the Rat:  Effects on the Oxidative Stress|Ecotoxicol. Environ. Saf.72(5): 1559-1564|2009|10.1016/j.ecoenv.2008.12.006
119212|A||Golombieski,J.I., E. Marchesan, J.S. Baumart, G.B. Reimche, C.,Jr. Resgalla, L. Storck, and S. Santos|Cladocers, Copepods and Rotifers in Rice-Fish Culture Handled with Metsulfuron-Methyl and Azimsulfuron Herbicides and Carbofuran Insecticide|Ciencia Rural38(8): 2097-2102|2008|10.1590/S0103-84782008000800001
119213|A||Van Wijngaarden,R.P.A., I. Barber, and T.C.M. Brock|Effects of the Pyrethroid Insecticide gamma-Cyhalothrin on Aquatic Invertebrates in Laboratory and Outdoor Microcosm Tests|Ecotoxicology18(2): 211-224|2009|10.1007/s10646-008-0274-1
119214|A||Xu,X.L., W.J. Ji, J.D. Castell, and R.K. O'Dor|Influence of Dietary Lipid Sources on Fecundity, Egg Hatchability and Fatty Acid Composition of Chinese Prawn (Penaeus chinensis) Broodstock|Aquaculture119(4): 359-370|1994|10.1016/0044-8486(94)90300-X
119215|T||Wang,M., Q. Zhou, and L. Ren|Toxicological Responses in Wheat Triticum aestivum Under Joint Stress of Chlorimuron-Ethyl and Copper|Ecotoxicol. Environ. Saf.72(8): 2121-2129|2009|10.1016/j.ecoenv.2007.09.009
119216|A||Juarez,A.B., L. Barsanti, V. Passarelli, V. Evangelista, N. Vesentini, V. Conforti, and P. Gualtieri|In Vivo Microspectroscopy Monitoring of Chromium Effects on the Photosynthetic and Photoreceptive Apparatus of Eudorina unicocca and Chlorella kessleri|J. Environ. Monit.10(11): 1313-1318|2008|10.1039/b809566c
119217|T||Yu,X.Z., J.D. Gu, and L.Q. Xing|Differences in Uptake and Translocation of Hexavalent and Trivalent Chromium by Two Species of Willows|Ecotoxicology17(8): 747-755|2008|10.1007/s10646-008-0224-y
119218|A||Szajnman,S.H., B.N. Bailey, R. Docampo, and J.B. Rodriguez|Bisphosphonates Derived from Fatty Acids are Potent Growth Inhibitors of Trypanosoma cruzi|Bioorg. Med. Chem. Lett.11(6): 789-792|2001|10.1016/S0960-894X(01)00057-9
119219|T||Yamamoto,R., K. Ohsawa, H. Honda, and I. Yamamoto|Attractants for Rice Weevil, Sitophilus zeamais Motschulsky, Isolated from Corn Grains|Environ. Qual. Saf. Suppl.3:663-667|1975|
119220|T||Standeven,A.M., and K.E. Wetterhahn|Possible Role of Glutathione in Chromium (VI) Metabolism and Toxicity in Rats|Pharmacol. Toxicol.69:469-476|1991|10.1111/j.1600-0773.1991.tb01272.x
119222|A||Tassou,K.T., and R. Schulz|Effects of the Insect Growth Regulator Pyriproxyfen in a Two-Generation Test with Chironomus riparius|Ecotoxicol. Environ. Saf.72(4): 1058-1062|2009|10.1016/j.ecoenv.2009.02.001
119224|A||Mishra,K., K. Gupta, and U.N. Rai|Bioconcentration and Phytotoxicity of Chromium in Eichhornia crassipes|J. Environ. Biol.30(4): 521-526|2009|
119225|A||Hebert,N., F. Gagne, D. Cyr, J. Pellerin, C. Blaise, and M. Fournier|Effects of 4-Nonylphenol on the Immune System of Rainbow Trout (Oncorhynchus mykiss)|Fresenius Environ. Bull.18(5): 757-761|2009|
119226|T||Zidar,P., C.A.M. Van Gestel, and J. Strus|Single and Joint Effects of Zn and Cd on Porcellio scaber (Crustacea, Isopoda) Exposed to Artificially Contaminated Food|Ecotoxicol. Environ. Saf.72(8): 2075-2082|2009|10.1016/j.ecoenv.2009.06.009
119227|T||Jiang,L., and H. Yang|Prometryne-Induced Oxidative Stress and Impact on Antioxidant Enzymes in Wheat|Ecotoxicol. Environ. Saf.72(6): 1687-1693|2009|10.1016/j.ecoenv.2009.04.025
119228|A||Minagh,E., R. Hernan, K. O'Rourke, F.M. Lyng, and M. Davoren|Aquatic Ecotoxicity of the Selective Serotonin Reuptake Inhibitor Sertraline Hydrochloride in a Battery of Freshwater Test Species|Ecotoxicol. Environ. Saf.72(2): 434-440|2009|10.1016/j.ecoenv.2008.05.002
119229|T||Vyas,N.B., J.W. Spann, and E.F. Hill|Acute Oral Toxicities of Wildland Fire Control Chemicals to Birds|Ecotoxicol. Environ. Saf.72(3): 862-865|2009|10.1016/j.ecoenv.2008.09.001
119232|T||Talas,Z.S., I. Ozdemir, I. Yilmaz, and Y. Gok|Antioxidative Effects of Novel Synthetic Organoselenium Compound in Rat Lung and Kidney|Ecotoxicol. Environ. Saf.72(3): 916-921|2009|10.1016/j.ecoenv.2007.11.012
119233|T||Agrawal,S.B., and S. Mishra|Effects of Supplemental Ultraviolet-B and Cadmium on Growth, Antioxidants and Yield of Pisum sativum L.|Ecotoxicol. Environ. Saf.72(2): 610-618|2009|10.1016/j.ecoenv.2007.10.007
119234|T||Wu,H., T.J. McBride, J.P. Isanhart, S.B. Cox, and M.J. Hooper|Responses of Glutamate Cysteine Ligase and Glutathione to Oxidants in Deer Mice (Peromyscus maniculatus)|Ecotoxicol. Environ. Saf.72(5): 1572-1578|2009|10.1016/j.ecoenv.2009.02.008
119235|T||Khan,I., A. Ahmad, and M. Iqbal|Modulation of Antioxidant Defence System for Arsenic Detoxification in Indian Mustard|Ecotoxicol. Environ. Saf.72(2): 626-634|2009|10.1016/j.ecoenv.2007.11.016
119236|T||Wang,H., T. Feng, X. Peng, M. Yan, and X. Tang|Up-Regulation of Chloroplastic Antioxidant Capacity is Involved in Alleviation of Nickel Toxicity of Zea mays L. by Exogenous Salicylic Acid|Ecotoxicol. Environ. Saf.72(5): 1354-1362|2009|10.1016/j.ecoenv.2009.03.008
119237|T||Shu,Y., Y. Gao, H. Sun, Z. Zou, Q. Zhou, and G. Zhang|Effects of Zinc Exposure on the Reproduction of Spodoptera litura Fabricius (Lepidoptera:  Noctuidae)|Ecotoxicol. Environ. Saf.72(8): 2130-2136|2009|10.1016/j.ecoenv.2009.06.004
119238|T||Bird,T.G., P.A. Hedin, and M.L. Burks|Feeding Deterrent Compounds to the Boll Weevil, Anthonomus grandis Boheman in Rose-of-Sharon, Hibiscus syriacus L.|J. Chem. Ecol.13(5): 1087-1097|1987|10.1007/BF01020540
119240|T||Gueldner,R.C., D.A. Nordlund, W.J. Lewis, J.E. Thean, and D.M. Wilson|Kairomones and Their Use for Management of Entomophagous Insects.  XV.  Identification of Several Acids in Scales of Heliothis zea Moths and Comments on Their Possible Role as Kairomones for Trichogramma pretiosum|J. Chem. Ecol.10(2): 245-251|1984|10.1007/BF00987852
119241|T||Kandimalla,K., N. Kanikkannan, S. Andega, and M. Singh|Effect of Fatty Acids on the Permeation of Melatonin Across Rat and Pig Skin In-Vitro and on the Transepidermal Water Loss in Rats In-Vivo|J. Pharm. Pharmacol.51(7): 783-790|1999|10.1211/0022357991773140
119242|T||Huang,S.F., Z.Y. Li, X.Q. Wang, Q.X. Wang, and F.F. Hu|Cerium Caused Life Span Shortening and Oxidative Stress Resistance in Drosophila melanogaster|Ecotoxicol. Environ. Saf.73(1): 89-93|2010|10.1016/j.ecoenv.2009.09.017
119243|T||Suarez,V.H., A.L. Lifschitz, J.M. Sallovitz, and C.E. Lanusse|Effects of Faecal Residues of Moxidectin and Doramectin on the Activity of Arthropods in Cattle Dung|Ecotoxicol. Environ. Saf.72(5): 1551-1558|2009|10.1016/j.ecoenv.2007.11.009
119244|T||Szollosi,R., I.S. Varga, L. Erdei, and E. Mihalik|Cadmium-Induced Oxidative Stress and Antioxidative Mechanisms in Germinating Indian Mustard (Brassica juncea L.) Seeds|Ecotoxicol. Environ. Saf.72(5): 1337-1342|2009|10.1016/j.ecoenv.2009.04.005
119245|T||Mohapatra,P.K., R. Khillar, B. Hansdah, and R.C. Mohanty|Photosynthetic and Fluorescence Responses of Solanum melangena L. to Field Application of Dimethoate|Ecotoxicol. Environ. Saf.73(1): 78-83|2010|10.1016/j.ecoenv.2009.08.015
119246|T||Han,Y.L., H.Y. Yuan, S.Z. Huang, Z. Guo, B. Xia, and J. Gu|Cadmium Tolerance and Accumulation by Two Species of Iris|Ecotoxicology16(8): 557-563|2007|10.1007/s10646-007-0162-0
119247|T||Xing,X., Y. Guo, and D. Wang|Using the Larvae Nematode Caenorhabditis elegans to Evaluate Neurobehavioral Toxicity to Metallic Salts|Ecotoxicol. Environ. Saf.72(7): 1819-1823|2009|10.1016/j.ecoenv.2009.06.006
119248|A||Yu,M., S.H. Wang, Y.R. Luo, Y.W. Han, X.Y. Li, B.J. Zhang, and J.J. Wang|Effects of the 1-Alkyl-3-Methylimidazolium Bromide Ionic Liquids on the Antioxidant Defense System of Daphnia magna|Ecotoxicol. Environ. Saf.72(6): 1798-1804|2009|10.1016/j.ecoenv.2009.05.002
119249|A||Tompsett,A.R., J.W. Park, X. Zhang, P.D. Jones, J.L. Newsted, D.W.T. Au, E.X.H. Chen, R. Yu, R.S.S. Wu, R.Y.C. Kong, J.|In Situ Hybridization to Detect Spatial Gene Expression in Medaka|Ecotoxicol. Environ. Saf.72(4): 1257-1264|2009|10.1016/j.ecoenv.2008.10.013
119250|A||Li,X.Y., J. Zhou, M. Yu, J.J. Wang, and Y.C. Pei|Toxic Effects of 1-Methyl-3-Octylimidazolium Bromide on the Early Embryonic Development of the Frog Rana nigromaculata|Ecotoxicol. Environ. Saf.72(2): 552-556|2009|10.1016/j.ecoenv.2007.11.002
119251|A||Lin,B.L., S. Hagino, M. Kagoshima, and T. Iwamatsu|The Fragmented Testis Method:  Development and Its Advantages of a New Quantitative Evaluation Technique for Detection of Testis-Ova in Male Fish|Ecotoxicol. Environ. Saf.72(2): 286-292|2009|10.1016/j.ecoenv.2008.07.018
119252|A||Oliveira-Filho,E.C., C.K. Grisolia, and F.J.R. Paumgartten|Trans-Generation Study of the Effects of Nonylphenol Ethoxylate on the Reproduction of the Snail Biomphalaria tenagophila|Ecotoxicol. Environ. Saf.72(2): 458-465|2009|10.1016/j.ecoenv.2007.10.008
119253|T||Liu,D., J. Zou, Q. Meng, and W. Jiang|Uptake and Accumulation and Oxidative Stress in Garlic (Allium sativum L.) Under Lead Phytotoxicity|Ecotoxicology18(1): 134-143|2009|10.1007/s10646-008-0266-1
119254|T||Jin,C., Q. Chen, R. Sun, Q. Zhou, and J. Liu|Eco-Toxic Effects of Sulfadiazine Sodium, Sulfamonomethoxine Sodium and Enrofloxacin on Wheat, Chinese Cabbage and Tomato|Ecotoxicology18(7): 878-885|2009|10.1007/s10646-009-0349-7
119255|T||Vianna,U.R., D. Pratissoli, J.C. Zanuncio, E.R. Lima, J. Brunner, F.F. Pereira, and J.E. Serrao|Insecticide Toxicity to Trichogramma pretiosum (Hymenoptera: Trichogrammatidae) Females and Effect on Descendant Generation|Ecotoxicology18(2): 180-186|2009|10.1007/s10646-008-0270-5
119256|T||Rajkumar,K., S. Sivakumar, P. Senthilkumar, D. Prabha, C.V. Subbhuraam, and Y.C. Song|Effects of Selected Heavy Metals (Pb, Cu, Ni, and Cd) in the Aquatic Medium on the Restoration Potential and Accumulation in the Stem Cuttings of the Terrestrial Plant, Talinum triangulare Linn|Ecotoxicology18(7): 952-960|2009|10.1007/s10646-009-0371-9
119257|A||Tu,H.T., F. Silvestre, M.L. Scippo, J.P. Thome, N.T. Phuong, and P. Kestemont|Acetylcholinesterase Activity as a Biomarker of Exposure to Antibiotics and Pesticides in the Black Tiger Shrimp (Penaeus monodon)|Ecotoxicol. Environ. Saf.72(5): 1463-1470|2009|10.1016/j.ecoenv.2009.04.008
119258|A||Jacqueline,R., M. Luc, and B. Michel|Haemocyte Lysosomal Fragility Facing an Environmental Reality:  A Toxicological Perspective with Atrazine and Lymnaea stagnalis (Gastropoda, Pulmonata) as a Test Case|Ecotoxicol. Environ. Saf.72(6): 1719-1726|2009|10.1016/j.ecoenv.2009.05.015
119259|A||Kienle,C., H.R. Kohler, and A. Gerhardt|Behavioural and Developmental Toxicity of Chlorpyrifos and Nickel Chloride to Zebrafish (Danio rerio) Embryos and Larvae|Ecotoxicol. Environ. Saf.72(6): 1740-1747|2009|10.1016/j.ecoenv.2009.04.014
119260|A||Thomaz,J.M., N.D. Martins, D.A. Monteiro, F.T. Rantin, and A.L. Kalinin|Cardio-Respiratory Function and Oxidative Stress Biomarkers in Nile Tilapia Exposed to the Organophosphate Insecticide Trichlorfon (NEGUVON)|Ecotoxicol. Environ. Saf.72(5): 1413-1424|2009|10.1016/j.ecoenv.2008.11.003
119261|T||Stout,M.D., R.A. Herbert, G.E. Kissling, B.J. Collins, G.S. Travlos, K.L. Witt, R.L. Melnick, K.M. Abdo, D.E. Malarkey,|Hexavalent Chromium is Carcinogenic to F344/N Rats and B6C3F1 Mice After Chronic Oral Exposure|Environ. Health Perspect.117(5): 716-722|2009|10.1289/ehp.0800208
119262|T||Light,D.M., E.B. Jang, and J.C. Dickens|Electroantennogram Responses of the Mediterranean Fruit Fly, Ceratitis capitata, to a Spectrum of Plant Volatiles|J. Chem. Ecol.14(1): 159-180|1988|10.1007/BF01022539
119263|T||Kibble,R.M.|Effectiveness of Dichlorvos-Impregnated Collars in Controlling Fleas on Dogs|Aust. Vet. J.44:456-458|1968|10.1111/j.1751-0813.1968.tb08967.x
119264|T||Ardic,M., A.H. Sekmen, S. Tokur, F. Ozdemir, and I. Turkan|Antioxidant Responses of Chickpea Plants Subjected to Boron Toxicity|Plant Biol.11(3): 328-338|2009|10.1111/j.1438-8677.2008.00132.x
119265|T||Diogo,J.B., T. Natal-da-Luz, J.P. Sousa, C. Vogt, and C. Nowak|Tolerance of Genetically Characterized Folsomia candida Strains to Phenmedipham Exposure: A Comparison Between Reproduction and Avoidance Tests|J. Soils Sediments7(6): 388-392|2007|10.1065/jss2007.09.252
119266|A||Wendel,C.M., and D.L. Smee|Ambient Malathion Concentrations Modify Behavior and Increase Mortality in Blue Crabs|Mar. Ecol. Prog. Ser.392:157-165|2009|10.3354/meps08205
119267|A||Kundu,C.R., and S. Roychoudhury|Malathion-Induced Sublethal Toxicity on the Hematology of Cricket Frog (Fejervarya limnocharis)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(7): 673-680|2009|
119268|A||Carriquiriborde,P., J. Diaz, G.C. Lopez, A.E. Ronco, and G.M. Somoza|Effects of Cypermethrin Chronic Exposure and Water Temperature on Survival, Growth, Sex Differentiation, and Gonadal Developmental Stages of Odontesthes bonariensis (Teleostei)|Chemosphere76(3): 374-380|2009|10.1016/j.chemosphere.2009.03.039
119269|A||Palma,P., V.L. Palma, C. Matos, R.M. Fernandes, A. Bohn, A.M.V.M. Soares, and I.R. Barbosa|Assessment of the Pesticides Atrazine, Endosulfan Sulphate and Chlorpyrifos for Juvenoid-Related Endocrine Activity Using Daphnia magna|Chemosphere76(3): 335-340|2009|10.1016/j.chemosphere.2009.03.059
119270|A||Sebire,M., A.P. Scott, C.R. Tyler, J. Cresswell, D.J. Hodgson, S. Morris, M.B. Sanders, P.D. Stebbing, and I. Katsiadak|The Organophosphorous Pesticide, Fenitrothion, Acts as an Anti-Androgen and Alters Reproductive Behavior of the Male Three-Spined Stickleback, Gasterosteus aculeatus|Ecotoxicology18(1): 122-133|2009|10.1007/s10646-008-0265-2
119271|A||Schafer,S., and A. Kohler|Gonadal Lesions of Female Sea Urchin (Psammechinus miliaris) After Exposure to the Polycyclic Aromatic Hydrocarbon Phenanthrene|Mar. Environ. Res.68(3): 128-136|2009|10.1016/j.marenvres.2009.05.001
119272|A||Garaventa,F., E. Centanni, S. Fiorini, S. Noventa, A. Terlizzi, M. Faimali, and B. Pavoni|New Implications in the Use of Imposex as a Suitable Tool for Tributyltin Contamination:  Experimental Induction in Hexaplex trunculus (Gastropoda, Muricidae) with Different Stressors|Cell Biol. Toxicol.24(6): 563-571|2008|10.1007/s10565-008-9065-y
119273|A||Li,W., J. Zha, P.A. Spear, Z. Li, L. Yang, and Z. Wang|Changes of Thyroid Hormone Levels and Related Gene Expression in Chinese Rare Minnow (Gobiocypris rarus) During 3-Amino-1,2,4-Triazole Exposure and Recovery|Aquat. Toxicol.92(1): 50-57|2009|10.1016/j.aquatox.2009.01.006
119274|A||Espinoza-Quinones,F.R., A.N. Modenes, L.P. Thome, S.M. Palacio, D.E.G. Trigueros, A.P. Oliveira, and N. Szymanski|Study of the Bioaccumulation Kinetic of Lead by Living Aquatic Macrophyte Salvinia auriculata|Chem. Eng. J.150(2/3): 316-322|2009|10.1016/j.cej.2009.01.004
119276|T||Athanassiou,C.G., N.G. Kavallieratos, and G.J. Chintzoglou|Effectiveness of Spinosad Dust Against Different European Populations of the Confused Flour Beetle, Tribolium confusum Jacquelin du Val|J. Stored Prod. Res.44(1): 47-51|2008|10.1016/j.jspr.2007.05.001
119277|T||Abdou,G.Y.|Use of Some Relatively Safe Compounds for Controlling of the Tortoise Beetle, Cassida vittata (Vill) in Sugar Beet Crop|Res. J. Agric. Biol. Sci.5(1): 24-28|2009|
119278|A||Zare,S., A. Afaghi, R. Heidari, Y. Asadpoor, and S. Shiri|Effects of Lead Nitrate (PbN03) on the Glucose and Cortisol Hormone Levels in Common Carp, Cyprinus carpio|Pak. J. Biol. Sci.10(15): 2587-2590|2007|10.3923/pjbs.2007.2587.2590
119279|A||Brown,K.H., I.R. Schultz, J.G. Cloud, and J.J. Nagler|Aneuploid Sperm Formation in Rainbow Trout Exposed to the Environmental Estrogen 17alpha-Ethynylestradiol|Proc. Natl. Acad. Sci. U.S.A.105(50): 19786-19791|2008|10.1073/pnas.0808333105
119280|A||Cripe,G.M., B.L. Hemmer, L.R. Goodman, J.W. Fournie, S. Raimondo, J.C. Vennari, R.L. Danner, K. Smith, B.R. Manfredonia|Multigenerational Exposure of the Estuarine Sheepshead Minnow (Cyprinodon variegatus) to 17beta-Estradiol.  I.  Organism-Level Effects over Three Generations|Environ. Toxicol. Chem.28(11): 2397-2408|2009|10.1897/08-542.1
119281|A||Croteau,M.C., M. Davidson, P. Duarte-Guterman, M. Wade, J.T. Popesku, S. Wiens, D.R.S. Lean, and V.L. Trudeau|Assessment of Thyroid System Disruption in Rana pipiens Tadpoles Chronically Exposed to UVB Radiation and 4-tert-Octylphenol|Aquat. Toxicol.95(2): 81-92|2009|10.1016/j.aquatox.2009.05.013
119282|A||Fingerman,M., M.E. Lowe, and B.I. Sundararaj|Dark-Adapting and Light-Adapting Hormones Controlling the Distal Retinal Pigment of the Prawn Palaemonetes vulgaris|Biol. Bull.116:30-36|1959|10.2307/1539153
119283|A||Dussault,E.B., V.K. Balakrishnan, U. Borgmann, K.R. Solomon, and P.K. Sibley|Bioaccumulation of the Synthetic Hormone 17alpha-Ethinylestradiol in the Benthic Invertebrates Chironomus tentans and Hyalella azteca|Ecotoxicol. Environ. Saf.72(6): 1635-1641|2009|10.1016/j.ecoenv.2009.04.019
119284|A||Gagnaire,B., F. Gagne, C. Andre, C. Blaise, K. Abbaci, H. Budzinski, M.H. Devier, and J. Garric|Development of Biomarkers of Stress Related to Endocrine Disruption in Gastropods:  Alkali-Labile Phosphates, Protein-Bound Lipids and Vitellogenin-Like Proteins|Aquat. Toxicol.92(3): 155-167|2009|10.1016/j.aquatox.2009.01.012
119285|T||Hoshi,H., Y. Kamata, and T. Uemura|Effects of 17beta-Estradiol, Bisphenol A and Tributyltin Chloride on Germ Cells of Caenorhabditis elegans|J. Vet. Med. Sci.65(8): 881-885|2003|10.1292/jvms.65.881
119286|A||Haya,K., L.E. Burridge, and T.J. Benfey|The Effect of Cortisol and Nonylphenol on Growth and Ornithine Decarboxylase Activity of Juvenile Atlantic Salmon, Salmo salar|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2192:85-86|1997|
119287|A||Jin,Y., R. Chen, L. Sun, H. Qian, W. Liu, and Z. Fu|Induction of Estrogen-Responsive Gene Transcription in the Embryo, Larval, Juvenile and Adult Life Stages of Zebrafish as Biomarkers of Short-Term Exposure to Endocrine Disrupting Chemicals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(3): 414-420|2009|10.1016/j.cbpc.2009.06.006
119288|A||Jin,Y., W. Wang, G. Sheng, W. Liu, and Z. Fu|Hepatic and Extrahepatic Expression of Estrogen-Responsive Genes in Male Adult Zebrafish (Danio rerio) as Biomarkers of Short-Term Exposure to 17beta-Estradiol|Environ. Monit. Assess.146(1-3): 105-111|2008|10.1007/s10661-007-0063-y
119289|A||Jadhao,A.G., P.L. Paul, and P.D.P. Rao|Effect of Cadmium Chloride on the Pituitary, Thyroid and Gonads in the Catfish, Clarias batrachus (Linn.)|Funct. Dev. Morphol.4(1): 39-44|1994|
119290|A||Kakuta,I., R. Tominaga, and Y. Ito|Changes in Interrenal Stress Responsiveness and Immune Activity of Fish Exposed to Endocrine Disrupting Chemicals|Fish. Sci.68(suppl.1): 967-968|2002|10.2331/fishsci.68.sup1_967
119291|A||Planello,R., J.L. Martinez-Guitarte, and G. Morcillo|Effect of Acute Exposure to Cadmium on the Expression of Heat-Shock and Hormone-Nuclear Receptor Genes in the Aquatic Midge Chironomus riparius|Sci. Total Environ.408:1598-1603|2010|10.1016/j.scitotenv.2010.01.004
119292|A||Hornung,M.W., L. Miller, R.E. Peterson, S. Marcquenski, and S.B. Brown|Efficacy of Thiamine, Astaxanthin, beta-Carotene, and Thyroxine Treatments in Reducing Early Mortality Syndrome in Lake Michigan Salmonid Embryos|Am. Fish. Soc. Symp.21:124-134|1998|
119293|A||Rivero,C.L.G., A.C. Barbosa, M.F.N. Ferreira, J.G. Dorea, and C.K. Grisolia|Evaluation of Genotoxicity and Effects on Reproduction of Nonylphenol in Oreochromis niloticus (Pisces: Cichlidae)|Ecotoxicology17(8): 732-737|2008|10.1007/s10646-008-0222-0
119294|AT||Oka,T., M. Miyahara, J. Yamamoto, N. Mitsui, T. Fujii, O. Tooi, K. Kashiwagi, M. Takase, A. Kashiwagi, and T. Iguchi|Application of Metamorphosis Assay to a Native Japanese Amphibian Species, Rana rugosa, for Assessing Effects of Thyroid System Affecting Chemicals|Ecotoxicol. Environ. Saf.72(5): 1400-1405|2009|10.1016/j.ecoenv.2009.03.012
119295|A||Rempel-Hester,M.A., H. Hong, Y. Wang, X. Deng, J. Armstrong, J. Gully, and D. Schlenk|Site-Specific Effects of 17beta-Estradiol in Hornyhead Turbot (Pleuronichthys verticalis) Collected from a Wastewater Outfall and Reference Location|Environ. Res.109(5): 552-558|2009|10.1016/j.envres.2009.02.006
119296|A||Raimondo,S., B.L. Hemmer, L.R. Goodman, and G.M. Cripe|Multigenerational Exposure of the Estuarine Sheepshead Minnow (Cyprinodon variegatus) to 17beta-Estradiol.  II.  Population-Level Effects Through Two Life Cycles|Environ. Toxicol. Chem.28(11): 2409-2415|2009|10.1897/08-540.1
119297|A||Teles,M., M. Carrillo, M. Pacheco, and M.A. Santos|Vitellogenin Induction in Juvenile Dicentrarchus labrax L. Treated with 17beta-Estradiol (E2) - Relation with Exposure Route and E2 Plasmatic Levels|Fresenius Environ. Bull.16(5): 495-499|2007|
119298|A||Patil,C., R. Paul, and Malkanna |Neuroendocrine Regulation and Pesticidal Impact on Freshwater Crab, Barytelphusa guerini (H. Milne Edwards)|J. Environ. Biol.29(6): 887-892|2008|
119299|A||Mondal,S., B. Mukhopadhyay, and S. Bhattacharya|Inorganic Mercury Binding to Fish Oocyte Plasma Membrane Induces Steroidogenesis and Translatable Messenger RNA Synthesis|BioMetals10:285-290|1997|10.1023/A:1018372332624
119300|A||Raldua,D., and P.J. Babin|Simple, Rapid Zebrafish Larva Bioassay for Assessing the Potential of Chemical Pollutants and Drugs to Disrupt Thyroid Gland Function|Environ. Sci. Technol.43(17): 6844-6850|2009|10.1021/es9012454
119301|A||Zaccaroni,A., M. Gamberoni, L. Mandrioli, R. Sirri, O. Mordenti, D. Scaravelli, G. Sarli, and A. Parmeggiani|Thyroid Hormones as a Potential Early Biomarker of Exposure to 4-Nonylphenol in Adult Male Shubunkins (Carassius auratus)|Sci. Total Environ.407(10): 3301-3306|2009|10.1016/j.scitotenv.2009.01.036
119302|A||Liu,C., L. Yu, J. Deng, P.K.S. Lam, R.S.S. Wu, and B. Zhou|Waterborne Exposure to Fluorotelomer Alcohol 6:2 FTOH Alters Plasma Sex Hormone and Gene Transcription in the Hypothalamic-Pituitary-Gonadal (HPG) Axis of Zebrafish|Aquat. Toxicol.93(2/3): 131-137|2009|10.1016/j.aquatox.2009.04.005
119303|A||Park,J.W., A.R. Tompsett, X. Zhang, J.L. Newsted, P.D. Jones, D.W.T. Au, R. Kong, R.S.S. Wu, J.P. Giesy, and M. Hecker|Advanced Fluorescence In Situ Hybridization to Localize and Quantify Gene Expression in Japanese Medaka (Oryzias latipes) Exposed to Endocrine-Disrupting Compounds|Environ. Toxicol. Chem.28(9): 1951-1962|2009|10.1897/08-574.1
119304|A||Shi,X., C. Liu, G. Wu, and B. Zhou|Waterborne Exposure to PFOS Causes Disruption of the Hypothalamus-Pituitary-Thyroid Axis in Zebrafish Larvae|Chemosphere77(7): 1010-1018|2009|10.1016/j.chemosphere.2009.07.074
119305|A||Rhee,J.S., H.S. Kang, S. Raisuddin, D.S. Hwang, J. Han, R.O. Kim, J.S. Seo, Y.M. Lee, G.S. Park, S.J. Lee, and J.S. Lee|Endocrine Disruptors Modulate Expression of Hepatic Choriogenin Genes in the Hermaphroditic Fish, Kryptolebias marmoratus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(2): 170-178|2009|10.1016/j.cbpc.2009.04.006
119306|A||Pollino,C.A., E. Georgiades, and D.A. Holdway|Physiological Changes in Reproductively Active Rainbowfish (Melanotaenia fluviatilis) Following Exposure to Naphthalene|Ecotoxicol. Environ. Saf.72(4): 1265-1270|2009|10.1016/j.ecoenv.2009.01.012
119307|A||Kammann,U., M. Vobach, W. Wosniok, A. Schaffer, and A. Telscher|Acute Toxicity of 353-Nonylphenol and Its Metabolites for Zebrafish Embryos|Environ. Sci. Pollut. Res.16(2): 227-231|2009|10.1007/s11356-008-0097-x
119308|A||Kortner,T.M., E. Rocha, and A. Arukwe|Previtellogenic Oocyte Growth and Transcriptional Changes of Steroidogenic Enzyme Genes in Immature Female Atlantic Cod (Gadus morhua L.) After Exposure to the Androgens 11-Ketotestosterone and Testosterone|Comp. Biochem. Physiol. A Mol. Integr. Physiol.152(3): 304-313|2009|10.1016/j.cbpa.2008.11.001
119309|AT||Kitana,N., and I.P. Callard|Effect of Cadmium on Gonadal Development in Freshwater Turtle (Trachemys scripta, Chrysemys picta) Embryos|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(3): 262-271|2008|
119310|A||Lu,X., Q. Zhou, M. Song, G.Z. Jiang, and J. Shao|Vitellogenic Responses of Male Chinese Loach (Misgurnus anguillicaudatus) Exposed to the Individual or Binary Mixtures of 17beta -Estradiol and Nonylphenol|Chin. Sci. Bull.52(24): 3333-3338|2007|10.1007/s11434-007-0486-4
119311|A||Li,W., J. Zha, Z. Li, L. Yang, and Z. Wang|Effects of Exposure to Acetochlor on the Expression of Thyroid Hormone Related Genes in Larval and Adult Rare Minnow (Gobiocypris rarus)|Aquat. Toxicol.94(2): 87-93|2009|10.1016/j.aquatox.2009.06.002
119312|A||Lorenz,C., R. Opitz, I. Lutz, and W. Kloas|Corticosteroids Disrupt Amphibian Metamorphosis by Complex Modes of Action Including Increased Prolactin Expression|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(2): 314-321|2009|10.1016/j.cbpc.2009.05.013
119313|A||Liao,T., Q.L. Guo, S.W. Jin, W. Cheng, and Y. Xu|Comparative Responses in Rare Minnow Exposed to 17beta-Estradiol During Different Life Stages|Fish Physiol. Biochem.35(3): 341-349|2009|10.1007/s10695-008-9247-9
119314|A||Swapna,I., and B. Senthilkumaran|Influence of Ethynylestradiol and Methyltestosterone on the Hypothalamo-Hypophyseal-Gonadal Axis of Adult Air-Breathing Catfish, Clarias gariepinus|Aquat. Toxicol.95(3): 222-229|2009|10.1016/j.aquatox.2009.09.008
119315|A||Vetillard,A., and T. Bailhache|Cadmium:  An Endocrine Disrupter that Affects Gene Expression in the Liver and Brain of Juvenile Rainbow Trout|Biol. Reprod.72(1): 119-126|2005|10.1095/biolreprod.104.029520
119316|A||Morgado,I., M.A. Campinho, R. Costa, R. Jacinto, and D.M. Power|Disruption of the Thyroid System by Diethylstilbestrol and Ioxynil in the Sea Bream (Sparus aurata)|Aquat. Toxicol.92(4): 271-280|2009|10.1016/j.aquatox.2009.02.015
119317|A||Cline,P.V., N. Denslow, P. Meyer, S. Goudey, A. Lewellen, and I. Johnson|Evaluating Endocrine Disruption in Receiving Waters:  Screening for Biomarkers|Final Report. Water Environment Research Foundation, Alexandria, VA:284 p.|2003|
119318|A||Scherp,P., and K.H. Hasenstein|Anisotropic Viscosity of the Chara (Characeae) Rhizoid Cytoplasm|Am. J. Bot.94(12): 1930-1934|2007|10.3732/ajb.94.12.1930
119319|A||McGrattan,C.J., J.D.,Jr. Sullivan, and M. Ikawa|Inhibition of Chlorella (Chlorophyceae) Growth by Fatty Acids, Using the Paper Disc Method|J. Phycol.12(1): 129-131|1976|10.1111/j.1529-8817.1976.tb02839.x
119320|T||Zhong,G.Y., and J.K. Burns|Profiling Ethylene-Regulated Gene Expression in Arabidopsis thaliana by Microarray Analysis|Plant Mol. Biol.53(1-2): 117-131|2003|10.1023/B:PLAN.0000009270.81977.ef
119321|A||Costello,D.M., L.M. Brown, and G.A. Lamberti|Acute Toxic Effects of Ionic Liquids on Zebra Mussel (Dreissena polymorpha) Survival and Feeding|Green Chem.11(4): 548-553|2009|10.1039/b822347e
119322|T||Shani,U., and A. Ben-Gal|Long-Term Response of Grapevines to Salinity:  Osmotic Effects and Ion Toxicity|Am. J. Enol. Vitic.56(2): 148-154|2005|10.5344/ajev.2005.56.2.148
119323|T||Ben-Gal,A., U. Yermiyahu, U. Shani, and M. Veste|Irrigating Table Grapes in Arid Regions with Low Quality Water:  Effects of Salinity and Excess Boron|Acta Hortic.792:107-114|2008|10.17660/ActaHortic.2008.792.10
119324|T||Duck,M.W., B.M. Cregg, R.T. Fernandez, R.D. Heins, and F.F. Cardoso|Controlling Growth of Tabletop Christmas Trees with Plant Growth Retardants|HortTechnology14(4): 528-532|2004|10.21273/HORTTECH.14.4.0528
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119326|T||Brewer,L.W., H.L.,Jr. McQuillen, M.A. Mayes, J.M. Stafford, and S.L. Tank|Chlorpyrifos Residue Levels in Avian Food Items Following Applcations of a Commercial EC Formulation to Alfalfa and Citrus|Pest Manag. Sci.59:1179-1190|2003|10.1002/ps.752
119327|T||Eraslan,F., A. Inal, O. Savasturk, and A. Gunes|Changes in Antioxidative System and Membrane Damage of Lettuce in Response to Salinity and Boron Toxicity|Sci. Hortic.114(1): 5-10|2007|10.1016/j.scienta.2007.05.002
119328|A||El-Shenawy,N.S., T.I.S. Moawad, M.E. Mohallal, I.M. Abdel-Nabi, and I.A. Taha|Histopathologic Biomarker Response of Clam, Ruditapes decussates, to Organophosphorous Pesticides Reldan and Roundup:  A Laboratory Study|Ocean Sci. J.44(1): 27-34|2009|10.1007/s12601-009-0004-5
119329|A||Jabeen,A.A., M.D. Bindhuja, and K. Revathi|Biochemical Changes Induced by Rice Herbicide ALMIX 20 WP (Metsulfuron-Methyl 10%+Chlorimuron-Ethyl 10%) on Fresh Water Fish, Cyprinus carpio|J. Exp. Zool. India11(1): 179-183|2008|
119331|T||Gist,G.L., and C.D. Pless|Synergistic Activity of Piperonyl Butoxide with Nine Synthetic Pyrethroids Against the Fall Armyworm, Spodoptera frugiperda|Fla. Entomol.68(2): 316-320|1985|10.2307/3494367
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119333|A||Geoffroy,L., C. Frankart, and P. Eullaffroy|Comparison of Different Physiological Parameter Responses in Lemna minor and Scenedesmus obliquus Exposed to Herbicide Flumioxazin|Environ. Pollut.131(2): 233-241|2004|10.1016/j.envpol.2004.02.021
119334|T||Chalfant,R.B.|Control of Lepidopterous Pests, 1992|Arthropod Manag. Tests22:89-|1997|10.1093/amt/22.1.89
119335|T||Tungngoen,K., P. Kongsawadworakul, U. Viboonjun, M. Katsuhara, N. Brunel, S. Sakr, J. Narangajavana, and H. Chrestin|Involvement of HbPIP2;1 and HbTIP1;1 Aquaporins in Ethylene Stimulation of Latex Yield Through Regulation of Water Exchanges Between Inner Liber and Latex Cells in Hevea brasiliensis|Plant Physiol.151(2): 843-856|2009|10.1104/pp.109.140228
119336|T||Ahmad,I., M.I. Ansari, and F. Aqil|Biosorption of Ni, Cr and Cd by Metal Tolerant Aspergillus niger and Penicillium sp. Using Single and Multi-Metal Solution|Indian J. Exp. Biol.44(1): 73-76|2006|
119337|T||Kashem,M.A., and P.R. Warman|Effect of Application of Chromium Feedstock Compost on the Growth and Bioavailability of Some Trace Elements in Lettuce|Commun. Soil Sci. Plant Anal.40(15): 2426-2439|2009|10.1080/00103620903111327
119338|T||Geil,R.D., and F.C. Guinel|Effects of Elevated Substrate-Ethylene on Colonization of Leek (Allium porrum) by the Arbuscular Mycorrhizal Fungus Glomus aggregatum|Can. J. Bot.80(2): 114-119|2002|10.1139/b01-135
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119341|T||Burts,E.C., H.E. Van de Baan, and B.A. Croft|Pyrethroid Resistance in Pear Psylla, Psylla pyricola Foerster (Homoptera:  Psyllidae), and Synergism of Pyrethroids with Piperonyl Butoxide|Can. Entomol.121(3): 219-223|1989|10.4039/Ent121219-3
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119344|T||Yamamoto,A., H. Yoneda, R. Hatano, and M. Asada|Laboratory Selections of Populations in the Citrus Red Mite, Panonychus citri (McGregor), with Hexythiazox and Their Cross Resistance Spectrum|J. Pestic. Sci. (Multiple Languages)20(4): 493-501|1995|10.1584/jpestics.20.493
119345|AT||Hu,Y., L. Zhao, K. Chong, and T. Wang|Overexpression of OsERF1, a Novel Rice ERF Gene, up-Regulates Ethylene-Responsive Genes Expression Besides Affects Growth and Development in Arabidopsis|J. Plant Physiol.165(16): 1717-1725|2008|10.1016/j.jplph.2007.12.006
119346|AT||Reyna,N.S., and Y. Yang|Molecular Analysis of the Rice MAP Kinase Gene Family in Relation to Magnaporthe grisea Infection|Mol. Plant-Microbe Interact.19(5): 530-540|2006|10.1094/MPMI-19-0530
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119350|T||Ahlfors,E.E., and A. Larsson|Chemically Induced Inflammation in Rat Oral Mucosa|Scand. J. Dent. Res.96(5): 428-434|1988|
119352|T||Vlahovic,M., J. Lazarevic, V. Peric-Mataruga, L. Ilijin, and M. Mrdakovic|Plastic Responses of Larval Mass and Alkaline Phosphatase to Cadmium in the Gypsy Moth Larvae|Ecotoxicol. Environ. Saf.72(4): 1148-1155|2009|10.1016/j.ecoenv.2008.03.012
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119355|A||Gruber,H., A. Wiessner, P. Kuschk, M. Kaestner, and K.J. Appenroth|Physiological Responses of Juncus effusus (Rush) to Chromium and Relevance for Wastewater Treatment in Constructed Wetlands|Int. J. Phytoremediat.10(2): 79-90|2008|10.1080/15226510801913306
119356|A||Agnello,M., S. Filosto, R. Scudiero, A.M. Rinaldi, and M.C. Roccheri|Cadmium Induces an Apoptotic Response in Sea Urchin Embryos|Cell Stress Chaperones12(1): 44-50|2007|10.1379/CSC-229R.1
119357|A||Chen,J.C., K.S. Wang, H. Chen, C.Y. Lu, L.C. Huang, H.C. Li, T.H. Peng, and S.H. Chang|Phytoremediation of Cr(III) by Ipomonea aquatica (Water Spinach) from Water in the Presence of EDTA and Chloride:  Effects of Cr Speciation|Bioresour. Technol.101(9): 3033-3039|2010|10.1016/j.biortech.2009.12.041
119358|T||Deshmukh,N.S., M. Bagchi, F.C. Lau, and D. Bagchi|Safety of an Oxygen-Coordinated Niacin-Bound Chromium(III) Complex (NBC): II. Developmental Toxicity Study in Rats|J. Inorg. Biochem.103(12): 1755-1760|2009|10.1016/j.jinorgbio.2009.03.008
119359|T||Deshmukh,N.S., M. Bagchi, F.C. Lau, and D. Bagchi|Safety of a Novel Oxygen-Coordinated Niacin-Bound Chromium(III) Complex (NBC): I. Two-Generation Reproduction Toxicity Study|J. Inorg. Biochem.103(12): 1748-1754|2009|10.1016/j.jinorgbio.2009.07.014
119360|A||Ozturk,S., B. Aslim, and Z. Suludere|Evaluation of Chromium(VI) Removal Behaviour by Two Isolates of Synechocystis sp. in Terms of Exopolysaccharide (EPS) Production and Monomer Composition|Bioresour. Technol.100(23): 5588-5593|2009|10.1016/j.biortech.2009.06.001
119361|T||Shara,M., T. Yasmin, A.E. Kincaid, A.L. Limpach, J. Bartz, K.A. Brenneman, A. Chatterjee, M. Bagchi, S.J. Stohs, and D.|Safety and Toxicological Evaluation of a Novel Niacin-Bound Chromium (III) Complex|J. Inorg. Biochem.99(11): 2161-2183|2005|10.1016/j.jinorgbio.2005.07.017
119362|T||Bhattacharyya,M.H., B.D. Whelton, P.H. Stern, and D.P. Peterson|Cadmium Accelerates Bone Loss in Ovariectomized Mice and Fetal Rat Limb Bones in Culture|Proc. Natl. Acad. Sci. U.S.A.85:8761-8765|1988|10.1073/pnas.85.22.8761
119363|AT||Azuma,T., T. Honda, A. Sadai, D. Sasayama, and K. Itoh|Suppression and Promotion of Growth by Ethylene in Rice Seedlings Depends on Ambient Humidity|J. Plant Physiol.164(12): 1683-1687|2007|10.1016/j.jplph.2007.06.007
119364|A||Jacome-Pilco,C.R., E. Cristiani-Urbina, L.B. Flores-Cotera, R. Velasco-Garcia, T. Ponce-Noyola, and R.O. Canizares-Vill|Continuous Cr(VI) Removal by Scenedesmus incrassatulus in an Airlift Photobioreactor|Bioresour. Technol.100(8): 2388-2391|2009|10.1016/j.biortech.2008.10.053
119365|T||Kettela,E.G., and C.A. Miller|Spray Applications Against Spruce Budworm Moths|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:147-151|2010|
119366|A||Logie,R.R.|Effects of Aerial Spraying of DDT on Salmon Populations of the Miramichi River|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:293-300|1975|
119367|T||Kawamura,S., T. Kato, M. Matsuo, M. Sasaki, Y. Katsuda, A.M. Hoberman, and M. Yasuda|Species Difference in Developmental Toxicity of an N-Phenylimide Herbicide Between Rats and Rabbits and Sensitive Period of the Toxicity to Rat Embryos|Congenital Anom.35(1): 123-132|1995|10.1111/j.1741-4520.1995.tb00306.x
119368|T||Tanaka,T., T. Fujitani, O. Takahashi, S. Oishi, and M. Yoneyama|Developmental Toxicity Study of Piperonyl Butoxide in CD Rats|Toxicol. Ind. Health11(2): 175-184|1995|10.1177/074823379501100205
119369|AT||Chander,S., and J. Pandey|Effect of Herbicide and Nitrogen on Yield of Scented Rice (Oryza sativa) Under Different Rice Cultures|Indian J. Agron.41(2): 209-214|1996|
119370|T||Morris,O.N.|Integration of Microbial and Chemical Insecticides in Control of the Spruce Budworm|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:138-142|1975|
119371|AT||Chander,S., and J. Pandey|Nutrient Removal by Scented Basmati Rice (Oryza sativa) and Associated Weeds as Affected by Nitrogen and Herbicides Under Different Rice Cultures|Indian J. Agron.42(2): 256-260|1997|
119372|T||Outram,I.|Field Trials of Insect Growth Regulators Against the Spruce Budworm, New Brunswick, 1973|In: M.L.Prebble (Ed.), Aerial Control of Forest Insects in Canada: A Review of Control Projects Employing Chemical and Biological Insecticides, Ottawa, Canada:143-146|1975|
119373|T||Kucera,D.R., P.W. Orr, and R.P. Ford|Evaluation of the Efficacy of Dylox, Matacil and Sumithion Against the Spruce Budworm, Choristoneura funiferana (Clem.), in Maine - 1975|Cooperative Pilot Control Project of Dylox, Matacil and Sumithion for Spruce Budworm Control in Maine, US Forest Service, Upper Darby, PA:75-87|1975|
119374|A||Rabeni,C., and K.E. Gibbs|Effects of Dylox, Matacil and Sumithion on Non-target Stream Insects in Maine, 1975|Cooperative Pilot Control Project of Dylox, Matacil and Sumithion for Spruce Budworm Control in Maine, US Forest Service, Upper Darby, PA:64-74|1975|
119376|T||Simmons,G.A.|Effects of Dylox, Matacil, and Sumithion on Parasitoids of the Spruce Budworm and Non-Target Arthropods|Cooperative Pilot Control Project of Dylox, Matacil and Sumithion for Spruce Budworm Control in Maine, US Forest Service, Upper Darby, PA:35-63|2009|
119377|A||Marancik,J.|Effect of Insecticides Used for Spruce Budworm Control in 1975 on Fish|Cooperative Pilot Control Project of Dylox, Matacil and Sumithion for Spruce Budworm Control in Maine, US Forest Service, Upper Darby, PA:11-34|2009|
119380|AT||Nendza,M., and A. Wenzel|Discriminating Toxicant Classes by Mode of Action 1. (Eco)toxicity Profiles|Environ. Sci. Pollut. Res.13(3): 192-203|2006|10.1065/espr2006.01.013
119381|T||Dube,B.K., P. Sinha, and C. Chatterjee|Assessment of Disturbances in Growth and Physiology of Carrot Caused by Chromium Stress|J. Plant Nutr.32(3): 479-488|2009|10.1080/01904160802679925
119382|T||South,D.B.|Prodiamine: A Herbicide for Pine and Hardwood Nurseries|South. J. Appl. For.16(3): 142-146|1992|10.1093/sjaf/16.3.142
119383|T||Sprague,C.L., E.W. Stoller, and L.M. Wax|Response of an Acetolactate Synthase (ALS)-Resistant Biotype of Amaranthus rudis to Selected ALS-Inhibiting and Alternative Herbicides|Weed Res. (Multiple Languages)37(2): 93-101|1997|10.1046/j.1365-3180.1996.d01-3.x
119384|T||Zhao,G., W. Liu, and C.O. Knowles|Clofentezine Toxicity and Fate in the Bulb Mite Rhizoglyphus echinopus (Acari:  Acaridae)|Exp. Appl. Acarol.20(4): 215-222|1996|10.1007/BF00054513
119385|T||Wahla,M.A., R.G. Gibbs, and J.B. Ford|Diazinon Poisoning in Large White Butterfly Larvae and the Influence of Sesamex and Piperonyl Butoxide|Pestic. Sci.7:367-371|1976|10.1002/ps.2780070408
119386|T||Sirota,J.M., E. Grafius, W. Boylan-Pett, B. Ferrari, P. Kolarik, A. Pyle, B. Scriber, S. Simstad, and M. Stehr|Colorado Potato Beetle Control, 1991|Insectic. Acaric. Tests18:153-155|1993|10.1093/iat/18.1.153a
119387|T||Halliday,W.R., and T.P. McGovern|Structure-Activity Relationships for Repellency of Alicyclic Carboxamides to Adult Tribolium confusum|J. Agric. Entomol.4(4): 289-296|1987|
119388|T||Bloomquist,J.R., J.L. Jackson, L.L. Karr, H.J. Ferguson, and R.P. Gajewski|Spirosultam LY219048:  A New Chemical Class of Insecticide Acting upon the GABA Receptor/Chloride Ionophore Complex|Pestic. Sci.39(3): 185-192|1993|10.1002/ps.2780390304
119389|T||Kotze,A.C., and N. Sales|Cross Resistance Spectra and Effects of Synergists in Insecticide-Resistant Strains of Lucilia cuprina (Diptera:  Calliphoridae)|Bull. Entomol. Res.84(3): 355-360|1994|10.1017/S0007485300032478
119390|T||Bradfisch,G.A., and T.A. Miller|Behavioural and Electrophysiological Investigation of 1-(7-Ethoxygeranyl)-2-Methylbenzimidazole on the House Fly Musca domestica|Pestic. Sci.17(2): 119-127|1986|10.1002/ps.2780170208
119391|T||Ater,S.B., E.A. Swinyard, K.G. Tolman, and M.R. Franklin|Anticonvulsant Activity and Neurotoxicity of Piperonyl Butoxide in Mice|Epilepsia25(5): 551-555|1984|10.1111/j.1528-1157.1984.tb03460.x
119392|A||Scheil,V., C. Kienle, R. Osterauer, A. Gerhardt, and H.R. Kohler|Effects of 3,4-Dichloroaniline and Diazinon on Different Biological Organisation Levels of Zebrafish (Danio rerio) Embryos and Larvae|Ecotoxicology18(3): 355-363|2009|10.1007/s10646-008-0291-0
119393|A||Qian,H., W. Chen, L. Sun, Y. Jin, W. Liu, and Z. Fu|Inhibitory Effects of Paraquat on Photosynthesis and the Response to Oxidative Stress in Chlorella vulgaris|Ecotoxicology18(5): 537-543|2009|10.1007/s10646-009-0311-8
119394|A||Liao,C.M., S.F. Jau, C.M. Lin, L.J. Jou, C.W. Liu, V.H.C. Liao, and F.J. Chang|Valve Movement Response of the Freshwater Clam Corbicula fluminea Following Exposure to Waterborne Arsenic|Ecotoxicology18(5): 567-576|2009|10.1007/s10646-009-0314-5
119395|A||Stachowski-Haberkorn,S., L. Quiniou, B. Beker, H. Haberkorn, D. Marie, and D. De la Broise|Comparative Study of Three Analysis Methods (TTGE, Flow Cytometry and HPLC) for Xenobiotic Impact Assessment on Phytoplankton Communities|Ecotoxicology18(3): 364-376|2009|10.1007/s10646-008-0288-8
119396|T||Daniel,J.W., T. Green, and P.J. Phillips|Metabolism of the Phenolic Antioxidant 3,5-Di-tert-Butyl-4-Hydroxyanisole (Topanol 354).  I.  Excretion and Tissue Distribution in Man, Rat and Dog|Food Cosmet. Toxicol.11:771-779|1973|10.1016/0015-6264(73)90135-1
119397|A||Zutshi,B.|Ultrastructural Studies on the Effect of Fenthion on Pituitary (Gth Cells) and Testis of Glossogobius giuris. (Ham) During Breeding Phase|J. Environ. Biol.26(1): 31-36|2005|
119398|A||Kleinholz,L.H.|Crustacean Eye-Stalk Hormone and Retinal Pigment Migration|Biol. Bull.70(2): 159-184|1936|10.2307/1537465
119399|A||Noureddin,M.I., T. Furumoto, Y. Ishida, and H. Fukui|Absorption and Metabolism of Bisphenol A, a Possible Endocrine Disruptor, in the Aquatic Edible Plant, Water Convolvulus (Ipomoea aquatica)|Biosci. Biotechnol. Biochem.68(6): 1398-1402|2004|10.1271/bbb.68.1398
119400|A||Ramsden,C.S., T.S. Smith, B.J. Shaw, and R.D. Handy|Dietary Exposure to Titanium Dioxide Nanoparticles in Rainbow Trout, (Oncorhynchus mykiss):  No Effect on Growth, but Subtle Biochemical Disturbances in the Brain|Ecotoxicology18(7): 939-951|2009|10.1007/s10646-009-0357-7
119401|A||Liu,Y., Y. Guan, Z. Yang, Z. Cai, T. Mizuno, H. Tsuno, W. Zhu, and X. Zhang|Toxicity of Seven Phthalate Esters to Embryonic Development of the Abalone Haliotis diversicolor supertexta|Ecotoxicology18(3): 293-303|2009|10.1007/s10646-008-0283-0
119402|A||Ahmad,I., V.L. Maria, M. Pacheco, and M.A. Santos|Juvenile Sea Bass (Dicentrarchus labrax L.) Enzymatic and Non-Enzymatic Antioxidant Responses Following 17beta-Estradiol Exposure|Ecotoxicology18(8): 974-982|2009|10.1007/s10646-009-0369-3
119403|A||Sanchez-Fortun,S., F. Marva, M. Rouco, E. Costas, and V. Lopez-Rodas|Toxic Effect and Adaptation in Scenedesmus intermedius to Anthropogenic Chloramphenicol Contamination:  Genetic Versus Physiological Mechanisms to Rapid Acquisition of Xenobiotic Resistance|Ecotoxicology18(5): 481-487|2009|10.1007/s10646-009-0303-8
119404|A||Chen,T.H., J.A. Gross, and W.H. Karasov|Chronic Exposure to Pentavalent Arsenic of Larval Leopard Frogs (Rana pipiens):  Bioaccumulation and Reduced Swimming Performance|Ecotoxicology18(5): 587-593|2009|10.1007/s10646-009-0316-3
119405|A||Jonsson,C.M., L.C. Paraiba, and H. Aoyama|Metals and Linear Alkylbenzene Sulphonate as Inhibitors of the Algae Pseudokirchneriella subcapitata Acid Phosphatase Activity|Ecotoxicology18(5): 610-619|2009|10.1007/s10646-009-0319-0
119406|A||Roessink,I., S.J.H. Crum, F. Bransen, E. Van Leeuwen, F. Van Kerkum, A.A. Koelmans, and T.C.M. Brock|Impact of Triphenyltin Acetate in Microcosms Simulating Floodplain Lakes. I. Influence of Sediment Quality|Ecotoxicology15(3): 267-293|2006|10.1007/s10646-006-0058-4
119408|A||Roberts,J.F., R. Van Egmond, and O.R. Price|Toxicity of Haloacetic Acids to Freshwater Algae|Ecotoxicol. Environ. Saf.73(1): 56-61|2010|10.1016/j.ecoenv.2009.09.013
119409|A||Correa,A.X.R., M.S. Tamanaha, C.O. Horita, M.R. Radetski, R. Correa, and C.M. Radetski|Natural Impacted Freshwaters:  In Situ Use of Alginate Immobilized Algae to the Assessment of Algal Response|Ecotoxicology18(4): 464-469|2009|10.1007/s10646-009-0301-x
119410|A||Debelius,B., J.M. Forja, T.A. DelValls, and L.M. Lubian|Toxicity of Copper in Natural Marine Picoplankton Populations|Ecotoxicology18(8): 1095-1103|2009|10.1007/s10646-009-0377-3
119411|A||Barbieri,E.|Effect of 2,4-D Herbicide (2,4-Dichlorophenoxyacetic Acid) on Oxygen Consumption and Ammonium Excretion of Juveniles of Geophagus brasiliensis (Quoy & Gaimard, 1824) (Osteichthyes, Cichlidae)|Ecotoxicology18(1): 55-60|2009|10.1007/s10646-008-0256-3
119412|A||Ochoa-Acuna,H.G., W. Bialkowski, G. Yale, and L. Hahn|Toxicity of Soybean Rust Fungicides to Freshwater Algae and Daphnia magna|Ecotoxicology18(4): 440-446|2009|10.1007/s10646-009-0298-1
119413|A||Park,S., and K. Choi|Hazard Assessment of Commonly Used Agricultural Antibiotics on Aquatic Ecosystems|Ecotoxicology17(6): 526-538|2008|10.1007/s10646-008-0209-x
119414|A||Cowgill,U.M., and D.P. Milazzo|Demographic Effects of Salinity, Water Hardness and Carbonate Alkalinity on Daphnia magna and Ceriodaphnia dubia|Arch. Hydrobiol.122(1): 33-56|1991|10.1127/archiv-hydrobiol/122/1991/33
119415|A||Petersen,D.G., and I. Dahllof|Combined Effects of Pyrene and UV-Light on Algae and Bacteria in an Arctic Sediment|Ecotoxicology16(4): 371-377|2007|10.1007/s10646-007-0139-z
119416|A||Cahoon,L.B., and R.C. Casteel|"Effects of ""Shellbond"" on Water Quality:  I.  Laboratory Experiments"|J. North Carolina Acad. Sci.125(1): 16-22|2009|
119417|T||Yermiyahu,U., A. Ben-Gal, and P. Sarig|Boron Toxicity in Grapevine|Hortscience41(7): 1698-1703|2006|10.21273/HORTSCI.41.7.1698
119418|A||Biancotto,G., L. Contiero, C. Benetti, M. Calligaris, E. Tibaldi, L. Cerni, and M. Francese|Depletion of Chloramphenicol in Trout After a Hypothetic Therapeutic Treatment|Anal. Chim. Acta637(1-2): 173-177|2009|10.1016/j.aca.2008.09.065
119419|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Colorado Potato Beetle, 1992|Insectic. Acaric. Tests18:152-153|1993|10.1093/iat/18.1.152
119420|A||Gomes,P.I.A., and T. Asaeda|Phycoremediation of Chromium (VI) by Nitella and Impact of Calcium Encrustation|J. Hazard. Mater.166(2/3): 1332-1338|2009|10.1016/j.jhazmat.2008.12.055
119421|A||Cedergreen,N., and J.C. Streibig|Can the Choice of Endpoint Lead to Contradictory Results of Mixture-Toxicity Experiments?|Environ. Toxicol. Chem.24(7): 1676-1683|2005|10.1897/04-362R.1
119422|T||Chiconela,T., T.J. Koschnick, and W.T. Haller|Selectivity of Metsulfuron Methyl to Six Common Littoral Species in Florida|J. Aquat. Plant Manag.42(2): 115-116|2004|
119423|T||Ferrell,J.A., T.R. Murphy, L.L. Burpee, and W.K. Vencill|Effect of Brown Patch (Caused by Rhizoctonia solani) Control on Preemergence Herbicide Efficacy in Tall Fescue (Festuca arundinacea)|Weed Technol.17(4): 747-750|2003|10.1614/WT02-142
119424|A||McDonald,B.G., C.A. McPherson, R. DeWynter, P. Kickham, and C. Brown|Incorporation of 28-D Leptocheirus plumulosus Toxicity Data in a Sediment Weight-of-Evidence Framework|Ecotoxicol. Environ. Saf.73(1): 51-55|2010|10.1016/j.ecoenv.2009.08.007
119426|T||Smiley,R.W., and D.E. Wilkins|Impact of Sulfonylurea Herbicides on Rhizoctonia Root Rot, Growth, and Yield of Winter Wheat|Plant Dis.76(4): 399-404|1992|10.1094/PD-76-0399
119427|T||Daly,J.C., and J.H. Fisk|Expression of Pyrethroid Resistance in Adult Helicoverpa armigera (Lepidoptera:  Noctuidae) and Selective Mortality in Field Populations|Bull. Entomol. Res.83(1): 23-28|1993|10.1017/S0007485300041742
119428|T||Hata,T.Y., A.H. Hara, and B.K.S. Hu|Efficacy of Insecticides Against Thrips on Dendrobium, HI, 1994|Arthropod Manag. Tests20:295-296|1995|10.1093/amt/20.1.295a
119429|T||Redak,R.A., and J.A. Bethke|Control of Adult Whitefly on Poinsettia Under Greenhouse Conditions, Winter 1992|Arthropod Manag. Tests20:300-301|1995|
119430|T||Smitley,D.R., and T.W. Davis|Japanese Beetle Adults on Rose Plants, Eaton Co., MI 1994|Arthropod Manag. Tests20(0): 301-302|1995|
119431|T||Smitley,D.R., and T.W. Davis|Scale Control on Taxus, Ottawa County, MI, 1994|Arthropod Manag. Tests20:306-|1995|10.1093/amt/20.1.306a
119432|T||Smitley,D.R., and T.W. Davis|Whitefly Control on Crabapple Trees, 1994|Arthropod Manag. Tests20(0): 295-|1995|10.1093/amt/20.1.295
119433|T||Smitley,D.R., and T.W. Davis|Fletcher Scale on Taxus, Ottawa Co., MI, 1995|Arthropod Manag. Tests21:378-|1996|
119434|T||Smitley,D.R., and T.W. Davis|Control of Fungus Gnats in Greenhouse Grown Plants, 1995|Arthropod Manag. Tests21:321-|1996|10.1093/amt/21.1.321
119435|T||Lindquist,R.K., M.L. Casey, T. Moore, and R.A.J. Taylor|Control of Western Flower Thrips on Dwarf Roses, 1995|Arthropod Manag. Tests21:359-360|1996|10.1093/amt/21.1.359
119436|T||Redak,R.A., and J.A. Bethke|Control of the Silverleaf Whitefly on Poinsettia Under Greenhouse Conditions, Winter 1993|Arthropod Manag. Tests20:300-|1995|
119437|T||Lindquist,R.K., M.L. Casey, T. Moore, and R.A.J. Taylor|Control of Silverleaf Whitefly on Poinsettia, 1995|Arthropod Manag. Tests21(0): 358-359|1996|10.1093/amt/21.1.358a
119438|AT||Thomas,A., S. Kumar, and M.K.K. Pillai|Piperonyl Butoxide as a Countermeasure for Deltamethrin-Resistance in Culex quinquefasciatus Say|Entomon16(1): 1-10|1991|
119439|A||Sinha,S., A. Basant, A. Malik, and K.P. Singh|Multivariate Modeling of Chromium-Induced Oxidative Stress and Biochemical Changes in Plants of Pistia stratiotes L.|Ecotoxicology18(5): 555-566|2009|10.1007/s10646-009-0313-6
119440|A||Sharma,M., A. Kaushik, Somvir, K. Bala, and A. Kamra|Sequestration of Chromium by Exopolysaccharides of Nostoc and Gloeocapsa from Dilute Aqueous Solutions|J. Hazard. Mater.157(2-3): 315-318|2008|10.1016/j.jhazmat.2007.12.100
119441|A||Sadettin,S., and G. Donmez|Simultaneous Bioaccumulation of Reactive Dye and Chromium(VI) by Using Thermophil Phormidium sp.|Enzyme Microb. Technol.41(1/2): 175-180|2007|10.1016/j.enzmictec.2006.12.015
119442|T||Rajkumar,M., R. Nagendran, K.J. Lee, W.H. Lee, and S.Z. Kim|Influence of Plant Growth Promoting Bacteria and Cr6+ on the Growth of Indian Mustard|Chemosphere62(5): 741-748|2006|10.1016/j.chemosphere.2005.04.117
119443|T||Aksu,Z., N.K. KiIic, S. Ertugrul, and G. Donmez|Inhibitory Effects of Chromium(VI) and Remazol Black B on Chromium(VI) and Dyestuff Removals by Trametes versicolor|Enzyme Microb. Technol.40(5): 1167-1174|2007|10.1016/j.enzmictec.2006.08.024
119444|A||Jacinto,M.L.J.A.J., C.P.C. David, T.R. Perez, and B.R. DeJesus|Comparative Efficiency of Algal Biofilters in the Removal of Chromium and Copper from Wastewater|Ecol. Eng.35(5): 856-860|2009|10.1016/j.ecoleng.2008.12.023
119445|T||Bayramoglu,G., G. Celik, E. Yalcin, M. Yilmaz, and M.Y. ArIca|Modification of Surface Properties of Lentinus sajor-caju Mycelia by Physical and Chemical Methods: Evaluation of Their Cr6+ Removal Efficiencies from Aqueous Medium|J. Hazard. Mater.B119(1-3): 219-229|2005|10.1016/j.jhazmat.2004.12.022
119446|T||Juwarkar,A.A., S.K. Yadav, P. Kumar, and S.K. Singh|Effect of Biosludge and Biofertilizer Amendment on Growth of Jatropha curcas in Heavy Metal Contaminated Soils|Environ. Monit. Assess.145(1-3): 7-15|2008|10.1007/s10661-007-0012-9
119447|A||Espinoza-Quinones,F.R., E.A. Da Silva, M. De Almeida Rizzutto, S.M. Palacio, A.N. Modenes, N. Szymanski, N. Martin, and|Chromium Ions Phytoaccumulation by Three Floating Aquatic Macrophytes from a Nutrient Medium|World J. Microbiol. Biotechnol.24(12): 3063-3070|2008|10.1007/s11274-008-9853-9
119448|T||Congeevaram,S., S. Dhanarani, J. Park, M. Dexilin, and K. Thamaraiselvi|Biosorption of Chromium and Nickel by Heavy Metal Resistant Fungal and Bacterial Isolates|J. Hazard. Mater.146(1/2): 270-277|2007|10.1016/j.jhazmat.2006.12.017
119449|T||Brooke,B.D., R.H. Hunt, T.S. Matambo, L.L. Koekemoer, P. Van Wyk, and M. Coetzee|Dieldrin Resistance in the Malaria Vector Anopheles gambiae in Ghana|Med. Vet. Entomol.20(3): 294-299|2006|10.1111/j.1365-2915.2006.00639.x
119450|AT||Abou-Shanab,R.A.I., J.S. Angle, and P. Van Berkum|Chromate-Tolerant Bacteria for Enhanced Metal Uptake by Eichhornia crassipes (Mart.)|Int. J. Phytoremediat.9(1-3): 91-105|2007|10.1080/15226510701232708
119451|T||Jefferies,P.R., P. Yu, and J.E. Casida|Structural Modifications Increase the Insecticidal Activity of Ryanodine|Pestic. Sci.51(1): 33-38|1997|10.1002/(SICI)1096-9063(199709)51:1<33::AID-PS605>3.0.CO;2-Z
119452|T||Redak,R.A., and J.A. Bethke|Control of a Serpentine Leafminer on Chrysanthemum Under Greenhouse Conditions, Winter, 1995|Arthropod Manag. Tests21:355-|1996|10.1093/amt/21.1.355
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119505|T||Rodriguez,J.G.|Inhibition of Acarid Mite Development by Fatty Acids|In:  J.G.Rodriquez (Ed.), Insect and Mite Nutrition, North Holland Publishing, Amsterdam:637-650|1972|
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119524|A||Yeom,D.H., and S.K. Lee|Influence of Culture Media on the Survival, Reproduction and Susceptibility of Daphnia magna|Korean J. Limnol.31(2): 93-96|1998|
119525|T||Costa,R., G. Strolego, and A.G. Levis|Mutagenicity of Lead Chromate in Drosophila melanogaster in the Presence of Nitrilotriacetic Acid (NTA)|Mutat. Res.204(2): 257-261|1988|10.1016/0165-1218(88)90097-3
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119550|T||Wen,Z., and J.G. Scott|Cross-Resistance to Imidacloprid in Strains of German Cockroach (Blattella germanica) and House Fly (Musca domestica)|Pestic. Sci.49(4): 367-371|1997|10.1002/(SICI)1096-9063(199704)49:4<367::AID-PS542>3.0.CO;2-L
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119554|A||Diz,F.R., C.V.M. Araujo, I. Moreno-Garrido, M. Hampel, and J. Blasco|Short-Term Toxicity Tests on the Harpacticoid Copepod Tisbe battagliai:  Lethal and Reproductive Endpoints|Ecotoxicol. Environ. Saf.72(7): 1881-1886|2009|10.1016/j.ecoenv.2009.03.004
119555|A||Adam,O., P.M. Badot, F. Degiorgi, and G. Crini|Mixture Toxicity Assessment of Wood Preservative Pesticides in the Freshwater Amphipod Gammarus pulex (L.)|Ecotoxicol. Environ. Saf.72(2): 441-449|2009|10.1016/j.ecoenv.2008.07.017
119556|A||Bouraoui,Z., M. Banni, J. Ghedira, C. Clerandeau, J.F. Narbonne, and H. Boussetta|Evaluation of Enzymatic Biomarkers and Lipoperoxidation Level in Hediste diversicolor Exposed to Copper and Benzo(a)pyrene|Ecotoxicol. Environ. Saf.72(7): 1893-1898|2009|10.1016/j.ecoenv.2009.05.011
119557|A||Alonso,A., and J.A. Camargo|Effects of Pulse Duration and Post-Exposure Period on the Nitrite Toxicity to a Freshwater Amphipod|Ecotoxicol. Environ. Saf.72(7): 2005-2008|2009|10.1016/j.ecoenv.2009.06.008
119558|A||Van Cong,N., N.T. Phuong, and M. Bayley|Effects of Repeated Exposure of Diazinon on Cholinesterase Activity and Growth in Snakehead Fish (Channa striata)|Ecotoxicol. Environ. Saf.72(3): 699-703|2009|10.1016/j.ecoenv.2008.10.007
119559|A||Chen,X., C. Lu, and Y. Ye|Effects of Cd and Zn on Oxygen Consumption and Ammonia Excretion in Sipuncula (Phascolosoma esculenta)|Ecotoxicol. Environ. Saf.72(2): 507-515|2009|10.1016/j.ecoenv.2007.11.019
119560|A||Sun,F., Q. Zhou, M. Wang, and J. An|Joint Stress of Copper and Petroleum Hydrocarbons on the Polychaete Perinereis aibuhitensis at Biochemical Levels|Ecotoxicol. Environ. Saf.72(7): 1887-1892|2009|10.1016/j.ecoenv.2009.04.017
119561|T||Oguntimehin,I., and H. Sakugawa|Interactive Effects of Simultaneous Ozone and Fluoranthene Fumigation on the Eco-Physiological Status of the Evergreen Conifer, Japanese Red Pine (Pinus densiflora sieb et. Zucc.)|Ecotoxicology18(1): 100-109|2009|10.1007/s10646-008-0263-4
119562|A||Alam,M.N., S. Sadhu, and V. Lakshmi|Studies on Toxicity of Some Agricultural Chemicals to Tadpoles of Frog, Rana tigrina|Nat. Environ. Pollut. Technol.8(1): 151-156|2009|
119563|A||Schafers,C., U. Boshof, H. Jurling, S.E. Belanger, H. Sanderson, S.D. Dyer, A.M. Nielsen, A. Willing, K. Gamon, Y. Kasa|Environmental Properties of Long-Chain Alcohols.  Part 2:  Structure-Activity Relationship for Chronic Aquatic Toxicity of Long-Chain Alcohols|Ecotoxicol. Environ. Saf.72(4): 996-1005|2009|10.1016/j.ecoenv.2008.07.019
119564|A||Gillardin,V., F. Silvestre, C. Divoy, J.P. Thome, and P. Kestemont|Effects of Aroclor 1254 on Oxidative Stress in Developing Xenopus laevis Tadpoles|Ecotoxicol. Environ. Saf.72(2): 546-551|2009|10.1016/j.ecoenv.2008.02.010
119565|A||Na,Y.R., S.H. Seok, M.W. Baek, H.Y. Lee, D.J. Kim, S.H. Park, H.K. Lee, and J.H. Park|Protective Effects of Vitamin E Against 3,3',4,4',5-Pentachlorobiphenyl (PCB126) Induced Toxicity in Zebrafish Embryos|Ecotoxicol. Environ. Saf.72(3): 714-719|2009|10.1016/j.ecoenv.2008.09.015
119566|T||Han,Y.L., S.Z. Huang, J.G. Gu, S. Qiu, and J.M. Chen|Tolerance and Accumulation of Lead by Species of Iris L.|Ecotoxicology17(8): 853-859|2008|10.1007/s10646-008-0248-3
119567|A||Colli-Dula,R., J.J. Zuniga-Aguilar, A. Albores-Medina, and O. Zapata-Perez|Identification of Genes Expressed as a Result of Lindane Exposure in Oreochromis niloticus Using Differential Display|Ecotoxicol. Environ. Saf.72(5): 1406-1412|2009|10.1016/j.ecoenv.2009.03.011
119568|A||Capkin,E., S. Birincioglu, and I. Altinok|Histopathological Changes in Rainbow Trout (Oncorhynchus mykiss) After Exposure to Sublethal Composite Nitrogen Fertilizers|Ecotoxicol. Environ. Saf.72(7): 1999-2004|2009|10.1016/j.ecoenv.2009.05.007
119569|A||Mireji,P.O., J. Keating, A. Hassanali, D.E. Impoinvil, C.M. Mbogo, M.N. Muturi, H. Nyambaka, E.U. Kenya, J.I. Githure, |Expression of Metallothionein and alpha-Tubulin in Heavy Metal-Tolerant Anopheles gambiae sensu stricto (Diptera:  Culicidae)|Ecotoxicol. Environ. Saf.73(1): 46-50|2010|10.1016/j.ecoenv.2009.08.004
119570|A||Dosnon-Olette,R., M. Couderchet, and P. Eullaffroy|Phytoremediation of Fungicides by Aquatic Macrophytes:  Toxicity and Removal Rate|Ecotoxicol. Environ. Saf.72(8): 2096-2101|2009|10.1016/j.ecoenv.2009.08.010
119571|T||Della Seta,D., F. Farabollini, F. Dessi-Fulgheri, and L. Fusani|Environmental-like Exposure to Low Levels of Estrogen Affects Sexual Behavior and Physiology of Female Rats|Endocrinology149(11): 5592-5598|2008|10.1210/en.2008-0113
119572|T||Leihy,M.W., G. Shaw, M.B. Renfree, and J.D. Wilson|Administration of 5alpha-Androstane-3alpha,17beta-Diol to Female Tammar Wallaby Pouch Young Causes Development of a Mature Prostate and Male Urethra|Endocrinology143(7): 2643-2651|2002|10.1210/endo.143.7.8917
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119576|T||Nakagawa,Y., T. Sotomatsu, K. Irie, K. Kitahara, H. Iwamura, and T. Fujita|Quantitative Structure-Activity Studies of Benzoylphenylurea Larvicides.  III.  Effects of Substituents at the Benzoyl Moiety|Pestic. Biochem. Physiol.27(2): 143-155|1987|10.1016/0048-3575(87)90041-1
119577|T||Mizutani,T., H. Nomura, K. Nakanishi, and S. Fujita|Effects of Drug Metabolism Modifiers on Pulegone-Induced Hepatotoxicity in Mice|Res. Commun. Chem. Pathol. Pharmacol.58(1): 75-84|1987|
119578|T||Adhikari,T., and M.V. Singh|Sorption Characteristics of Chromium and Its Phytotoxic Effect with or Without City Compost on Maize and Spinach in a Vertisol of Central India|Commun. Soil Sci. Plant Anal.38(11): 1503-1518|2007|10.1080/00103620701378458
119579|T||Millenaar,F.F., M.C.H. Cox, Y.E.M.D. Van Berkel, R.A.M. Welschen, R. Pierik, L.A.J.C. Voesenek, and A.J.M. Peeters|Ethylene-Induced Differential Growth of Petioles in Arabidopsis.  Analyzing Natural Variation, Response Kinetics, and Regulation|Plant Physiol.137:998-1008|2005|10.1104/pp.104.053967
119580|T||Wang,N.N., M.C. Shih, and N. Li|The GUS Reporter-Aided Analysis of the Promoter Activities of Arabidopsis ACC Synthase Genes AtACS4, AtACS5, and AtACS7 Induced by Hormones and Stresses|J. Exp. Bot.56(413): 909-920|2005|10.1093/jxb/eri083
119581|T||Smale,P.J.|Desirable Planting Delay Following Preplant Spraying with Escort in Northland|N. Z. For.:24-25|1989|
119582|T||Rosado,A., A.L. Schapire, R.A. Bressan, A.L. Harfouche, P.M. Hasegawa, V. Valpuesta, and M.A. Botella|The Arabidopsis Tetratricopeptide Repeat-Containing Protein TTL1 is Required for Osmotic Stress Responses and Abscisic Acid Sensitivity|Plant Physiol.142:1113-1126|2006|10.1104/pp.106.085191
119583|T||Henselova,M., A. Lux, and E. Masarovicova|Effect of Growth Regulators on Rooting Cuttings of Karwinskia Species Under In Vivo Conditions|Rostl. Vyroba (Multiple Languages)48(10): 471-476|2002|
119584|T||Eshghy,N., H. Ladoni, and E. Javadian|Resistance of Anopheles stephensi Liston to Malathion in the Province of Fars, Southern Iran, 1979|Iran. J. Public Health14(1-4): 1-8|1985|
119585|T||Li,F., T. Asami, X. Wu, E.W.T. Tsang, and A.J. Cutler|A Putative Hydroxysteroid Dehydrogenase Involved in Regulating Plant Growth and Development|Plant Physiol.145:87-97|2007|10.1104/pp.107.100560
119586|T||Zheng,C., S. Oba, S. Matsui, and T. Hara|Effects of Calcium and Magnesium Treatments on Growth, Nutrient Contents, Ethylene Production, and Gibberellin Content in Chrysanthemum Plants|J. Jpn. Soc. Hortic. Sci.74(2): 144-149|2005|10.2503/jjshs.74.144
119587|T||Yadav,V., C. Mallappa, S.N. Gangappa, S. Bhatia, and S. Chattopadhyay|A Basic Helix-Loop-Helix Transcription Factor in Arabidopsis, MYC2, Acts as a Repressor of Blue Light-Mediated Photomorphogenic Growth|Plant Cell17:1953-1966|2005|10.1105/tpc.105.032060
119588|T||Buitelaar,R.M., M.T. Cesario, and J. Tramper|Elicitation of Thiophene Production by Hairy Roots of Tagetes patula|Enzyme Microb. Technol.14(1): 2-7|1992|10.1016/0141-0229(92)90017-I
119590|A||Choi,D.|Ethylene-Induced Stem Growth of Deepwater Rice is Correlated with Expression of Gibberellin- and Abscisic Acid-Biosynthetic Genes|J. Plant Biol.50(5): 595-599|2007|10.1007/BF03030714
119591|T||Mao,C., S. Wang, Q. Jia, and P. Wu|OsEIL1, a Rice Homolog of the Arabidopsis EIN3 Regulates the Ethylene Response as a Positive Component|Plant Mol. Biol.61(1-2): 141-152|2006|10.1007/s11103-005-6184-1
119592|A||Watanabe,H., M. Saigusa, S. Hase, T. Hayakawa, and S. Satoh|Cloning of a cDNA Encoding an ETR2-Like Protein (Os-ERL1) from Deep Water Rice (Oryza sativa L.) and Increase in Its mRNA Level by Submergence, Ethylene, and Gibberellin Treatments|J. Exp. Bot.55(399): 1145-1148|2004|10.1093/jxb/erh110
119593|T||Yau,C.P., L. Wang, M. Yu, S.Y. Zee, and W.K. Yip|Differential Expression of Three Genes Encoding an Ethylene Receptor in Rice During Development, and in Response to Indole-3-Acetic Acid and Silver Ions|J. Exp. Bot.55(397): 547-556|2004|10.1093/jxb/erh055
119594|A||Hu,Y., K. Chong, and T. Wang|OsRAF is an Ethylene Responsive and Root Abundant Factor Gene of Rice|Plant Growth Regul.54(1): 55-61|2008|10.1007/s10725-007-9228-5
119595|A||Lin,T., X. He, L. Yang, H. Shou, and P. Wu|Identification and Characterization of a Novel Water-Deficit-Suppressed Gene OsARD Encoding an Aci-Reductone-Dioxygenase-Like Protein in Rice|Gene360(1): 27-34|2005|10.1016/j.gene.2005.07.017
119596|T||Bielza,P., P.J. Espinosa, V. Quinto, J. Abellan, and J. Contreras|Synergism Studies with Binary Mixtures of Pyrethroid, Carbamate and Organophosphate Insecticides on Frankliniella occidentalis (Pergande)|Pest Manag. Sci.63(1): 84-89|2007|10.1002/ps.1328
119598|T||Johnson,D.H.,Jr.|Cotton and Rice Response to Rotational Crop Herbicides in Arkansas|Ph.D. Thesis, University of Arkansas, Fayetteville, AR:259 p.|1993|
119599|A||Baral,A., R. Engelken, W. Stephens, J. Farris, and R. Hannigan|Evaluation of Aquatic Toxicities of Chromium and Chromium-Containing Effluents in Reference to Chromium Electroplating Industries|Arch. Environ. Contam. Toxicol.50(4): 496-502|2006|10.1007/s00244-005-0068-x
119600|T||Fukuyama,T., H. Ueda, K. Hayashi, Y. Tajima, Y. Shuto, T. Kosaka, and T. Harada|Sensitizing Potential of Chromated Copper Arsenate in Local Lymph Node Assays Differs with the Solvent Used|J. Immunotoxicol.5(2): 99-106|2008|10.1080/15476910802085715
119601|A||Farag,A.M., D.D. Harper, L. Cleveland, W.G. Brumbaugh, and E.E. Little|The Potential for Chromium to Affect the Fertilization Process of Chinook Salmon (Oncorhynchus tshawytscha) in the Hanford Reach of the Columbia River, Washington, USA|Arch. Environ. Contam. Toxicol.50(4): 575-579|2006|10.1007/s00244-005-0010-2
119602|A||Martins,D.A., L.M.P. Valente, and S.P. Lall|Apparent Digestibility of Lipid and Fatty Acids in Fish Oil, Poultry Fat and Vegetable Oil Diets by Atlantic Halibut, Hippoglossus hippoglossus L.|Aquaculture294(1-2): 132-137|2009|10.1016/j.aquaculture.2009.05.016
119603|A||Talas,Z.S., I. Orun, I. Ozdemir, K. Erdogan, A. Alkan, and I. Yilmaz|Antioxidative Role of Selenium Against the Toxic Effect of Heavy Metals (Cd+2, Cr+3) on Liver of Rainbow Trout (Oncorhynchus mykiss Walbaum 1792)|Fish Physiol. Biochem.34(3): 217-222|2008|10.1007/s10695-007-9179-9
119604|A||Rocchetta,I., L.B. Ruiz, M.C. Rios de Molina, and V. Conforti|Chromium Toxicity to Euglena gracilis Strains Depending on the Physicochemical Properties of the Culture Medium|Bull. Environ. Contam. Toxicol.76(3): 512-521|2006|10.1007/s00128-006-0950-x
119605|T||Rai,V., and S. Mehrotra|Chromium-Induced Changes in Ultramorphology and Secondary Metabolites of Phyllanthus amarus Schum & Thonn. - an Hepatoprotective Plant|Environ. Monit. Assess.147(1-3): 307-315|2008|10.1007/s10661-007-0122-4
119606|T||Pandey,V., V. Dixit, and R. Shyam|Chromium Effect on ROS Generation and Detoxification in Pea (Pisum sativum) Leaf Chloroplasts|Protoplasma (Multiple Languages)236(1-4): 85-95|2009|10.1007/s00709-009-0061-8
119607|T||Pandey,V., V. Dixit, and R. Shyam|Chromium (VI) Induced Changes in Growth and Root Plasma Membrane Redox Activities in Pea Plants|Protoplasma (Multiple Languages)235(1-4): 49-55|2009|10.1007/s00709-008-0028-1
119608|AT||Ozturk,S., and B. Aslim|Relationship Between Chromium(VI) Resistance and Extracellular Polymeric Substances (EPS) Concentration by Some Cyanobacterial Isolates|Environ. Sci. Pollut. Res.15(6): 478-480|2008|10.1007/s11356-008-0027-y
119609|T||Manerikar,R.S., A.A. Apte, and V.S. Ghole|In Vitro and In Vivo Genotoxicity Assessment of Cr(VI) Using Comet Assay in Earthworm Coelomocytes|Environ. Toxicol. Pharmacol.25(1): 63-68|2008|10.1016/j.etap.2007.08.009
119610|T||Anand,S.S.|Pyridoxine Attenuates Chromium-Induced Oxidative Stress in Rat Kidney|Basic Clin. Pharmacol. Toxicol.97(1): 58-60|2005|10.1111/j.1742-7843.2005.pto_97109.x
119611|A||Biswas,A.K., M. Seoka, Y. Inoue, K. Takii, and H. Kumai|Photoperiod Influences the Growth, Food Intake, Feed Efficiency and Digestibility of Red Sea Bream (Pagrus major)|Aquaculture250(3-4): 666-673|2005|10.1016/j.aquaculture.2005.04.047
119612|A||Gorbi,G., C. Zanni, and M.G. Corradi|Sulfur Starvation and Chromium Tolerance in Scenedesmus acutus:  A Possible Link Between Metal Tolerance and the Regulation of Sulfur Uptake/Assimilation Processes|Aquat. Toxicol.84(4): 457-464|2007|10.1016/j.aquatox.2007.07.006
119613|A||Franzellitti,S., and E. Fabbri|Differential HSP70 Gene Expression in the Mediterranean Mussel Exposed to Various Stressors|Biochem. Biophys. Res. Commun.336(4): 1157-1163|2005|10.1016/j.bbrc.2005.08.244
119614|T||Karuppanapandian,T., P.B. Sinha, A.M.K. Haniya, and K. Manoharan|Differential Antioxidative Responses of Ascorbate-Glutathione Cycle Enzymes and Metabolites to Chromium Stress in Green Gram (Vigna radiata L. Wilczek) Leaves|J. Plant Biol.49(6): 440-447|2006|10.1007/BF03031124
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119616|A||Horcsik,Z.T., L. Kovacs, R. Laposi, I. Meszaros, G. Lakatos, and G. Garab|Effect of Chromium on Photosystem 2 in the Unicellular Green Alga, Chlorella pyrenoidosa|Photosynthetica (Praha)45(1): 65-69|2007|10.1007/s11099-007-0010-8
119617|T||Gupta,S., S. Srivastava, and P. Pardha Saradhi|Chromium Increases Photosystem 2 Activity in Brassica juncea|Biol. Plant. (Praha)53(1): 100-104|2009|10.1007/s10535-009-0013-3
119618|A||Garcia-Garcia,J.D., J.S. Rodriguez-Zavala, R. Jasso-Chavez, D. Mendoza-Cozatl, and R. Moreno-Sanchez|Chromium Uptake, Retention and Reduction in Photosynthetic Euglena gracilis|Arch. Microbiol.191(5): 431-440|2009|10.1007/s00203-009-0469-8
119619|T||Young,S.J., R.V. Gunning, and G.D. Moores|Effect of Pretreatment with Piperonyl Butoxide on Pyrethroid Efficacy Against Insecticide-Resistant Helicoverpa armigera (Lepidoptera:  Noctuidae) and Bemisia tabaci (Sternorrhyncha:  Aleyrodidae)|Pest Manag. Sci.62(2): 114-119|2006|10.1002/ps.1127
119620|T||Yasuno,H., J. Nishimura, Y. Dewa, M. Muguruma, M. Takabatake, Y. Murata, M. Shibutani, and K. Mitsumori|Modifying Effect of Siraitia grosvenori Extract on Piperonyl Butoxide-Promoted Hepatocarcinogenesis in Rats|J. Toxicol. Sci.33(2): 197-207|2008|10.2131/jts.33.197
119621|T||Young,S.J., R.V. Gunning, and G.D. Moores|The Effect of Piperonyl Butoxide on Pyrethroid-Resistance-Associated Esterases in Helicoverpa armigera (Hubner) (Lepidoptera:  Noctuidae)|Pest Manag. Sci.61(4): 397-401|2005|10.1002/ps.996
119622|T||Tanaka,T., O. Takahashi, S. Oishi, and A. Ogata|Effects of Piperonyl Butoxide on Spontaneous Behavior in F1-Generation Mice|Toxicol. Ind. Health25(7): 489-497|2009|10.1177/0748233709346756
119623|T||Wu,G., T. Miyata, C.Y. Kang, and L.H. Xie|Insecticide Toxicity and Synergism by Enzyme Inhibitors in 18 Species of Pest Insect and Natural Enemies in Crucifer Vegetable Crops|Pest Manag. Sci.63(5): 500-510|2007|10.1002/ps.1361
119624|T||Zha,L.Y., M.Q. Wang, Z.R. Xu, and L.Y. Gu|Efficacy of Chromium(III) Supplementation on Growth, Body Composition, Serum Parameters, and Tissue Chromium in Rats|Biol. Trace Elem. Res.119(1): 42-50|2007|10.1007/s12011-007-0042-8
119625|T||Zha,L.Y., Z.R. Xu, M.Q. Wang, and L.Y. Gu|Effects of Chromium Nanoparticle Dosage on Growth, Body Composition, Serum Hormones and Tissue Chromium in Sprague-Dawley Rats|J. Zhejiang Univ., Sci. B8(5): 323-330|2007|10.1631/jzus.2007.B0323
119626|T||Zha,L., J. Zeng, S. Sun, H. Deng, H. Luo, and W. Li|Chromium(III) Nanoparticles Affect Hormone and Immune Responses in Heat-Stressed Rats|Biol. Trace Elem. Res.129(1-3): 157-169|2009|10.1007/s12011-008-8282-9
119627|T||Miller,R.J., A.Y. Li, M. Tijerina, R.B. Davey, and J.E. George|Differential Response to Diazinon and Coumaphos in a Strain of Boophilus microplus (Acari: Ixodidae) Collected in Mexico|J. Med. Entomol.45(5): 905-911|2008|10.1603/0022-2585(2008)45[905:DRTDAC]2.0.CO;2
119628|A||Singh,P., V.K. Singh, and D.K. Singh|Effect of Binary Combination of Some Plant-Derived Molluscicides with MGK-264 or Piperonyl Butoxide on the Reproduction of the Snail Lymnaea acuminata|Pest Manag. Sci.61(2): 204-208|2005|10.1002/ps.936
119629|T||Sun,L., X. Zhou, J. Zhang, and X. Gao|Polymorphisms in a Carboxylesterase Gene Between Organophosphate-Resistant and -Susceptible Aphis gossypii (Homoptera:  Aphididae)|J. Econ. Entomol.98(4): 1325-1332|2005|10.1603/0022-0493-98.4.1325
119630|T||Takeda,T., Y. Nakamatsu, and T. Tanaka|Parasitization by Cotesia plutellae Enhances Detoxifying Enzyme Activity in Plutella xylostella|Pestic. Biochem. Physiol.86(1): 15-22|2006|10.1016/j.pestbp.2005.11.012
119631|T||Tan,J., and A.R. McCaffery|Efficacy of Various Pyrethroid Structures Against a Highly Metabolically Resistant Isogenic Strain of Helicoverpa armigera (Lepidoptera:  Noctuidae) from China|Pest Manag. Sci.63(10): 960-968|2007|10.1002/ps.1419
119632|T||Vayias,B.J., C.G. Athanassiou, and C.T. Buchelos|Evaluation of Three Diatomaceous Earth and One Natural Pyrethrum Formulations Against Pupae of Tribolium confusum DuVal (Coleoptera: Tenebrionidae) on Wheat and Flour|Crop Prot.25(8): 766-772|2006|10.1016/j.cropro.2005.10.011
119633|T||Wang,C., and G.W. Bennett|Comparative Study of Integrated Pest Management and Baiting for German Cockroach Management in Public Housing|J. Econ. Entomol.99(3): 879-885|2006|10.1093/jee/99.3.879
119634|T||Wang,D., X. Qiu, X. Ren, W. Zhang, and K. Wang|Effects of Spinosad on Helicoverpa armigera (Lepidoptera:  Noctuidae) from China:  Tolerance Status, Synergism and Enzymatic Responses|Pest Manag. Sci.65(9): 1040-1046|2009|10.1002/ps.1794
119635|T||Wang,Y., C. Gao, Z. Xu, Y.C. Zhu, J. Zhang, W. Li, D. Dai, Y. Lin, W. Zhou, and J. Shen|Buprofezin Susceptibility Survey, Resistance Selection and Preliminary Determination of the Resistance Mechanism in Nilaparvata lugens (Homoptera:  Delphacidae)|Pest Manag. Sci.64(10): 1050-1056|2008|10.1002/ps.1606
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119639|T||Yu,X.Z., J.D. Gu, and S.Z. Huang|Hexavalent Chromium Induced Stress and Metabolic Responses in Hybrid Willows|Ecotoxicology16(3): 299-309|2007|10.1007/s10646-006-0129-6
119640|T||Uyanik,F., M. Eren, B.K. Guclu, and N. Sahin|Effects of Dietary Chromium Supplementation on Performance, Carcass Traits, Serum Metabolites, and Tissue Chromium Levels of Japanese Quails|Biol. Trace Elem. Res.103(2): 187-198|2005|10.1385/BTER:103:2:187
119641|T||Xu,Q., and J. Guo|Activity and Toxicity of Cr(III)-Enriched Grifola frondosa in Insulin-Resistant Mice|Biol. Trace Elem. Res.131(3): 271-277|2009|10.1007/s12011-009-8364-3
119642|T||Zhu,F.|Molecular Mechanisms of Cytochrome P450 Monooxygenase-Mediated Pyrethroid Resistance in the House Fly, Musca domestica (L.)|Ph.D.Thesis, Auburn University, Auburn, AL:241 p.|2007|
119643|T||Jensen,H.R.|Insecticidal and Synergistic Properties of Piper nigrum Seed Extracts Investigated Using Acute Toxicity Assays and Gene Expression Profiling of Drosophila melanogaster|M.S.Thesis, Univ.Ottawa (Canada):179 p.|2005|
119644|A||Jagiello,M., E. Minta, K. Chojnacka, and P. Kafarski|Mode of Biosorption of Chromium(III) by Spirulina Species Cells from Aqueous Solutions|Water Environ. Res.78(7): 740-743|2006|10.2175/106143005X72885
119645|T||Eleftherianos,I., S.P. Foster, M.S. Williamson, and I. Denholm|Characterization of the M918T Sodium Channel Gene Mutation Associated with Strong Resistance to Pyrethroid Insecticides in the Peach-Potato Aphid, Myzus persicae (Sulzer)|Bull. Entomol. Res.98(2): 183-191|2008|10.1017/S0007485307005524
119646|T||Van Pottelberge,S., T. Van Leeuwen, R. Nauen, and L. Tirry|Resistance Mechanisms to Mitochondrial Electron Transport Inhibitors in a Field-Collected Strain of Tetranychus urticae Koch (Acari: Tetranychidae)|Bull. Entomol. Res.99(1): 23-31|2009|10.1017/S0007485308006081
119647|T||Barbosa,R.M.T., A.A.F. De Almeida, M.S. Mielke, L.L. Loguercio, P.A.O. Mangabeira, and F.P. Gomes|A Physiological Analysis of Genipa americana L.:  A Potential Phytoremediator Tree for Chromium Polluted Watersheds|Environ. Exp. Bot.61(3): 264-271|2007|10.1016/j.envexpbot.2007.06.001
119648|T||Dhingra,S.|Effect of Different Vegetable Oils on the Toxicity of Cypermethrin in Mixed Formulations to the Adults of Mylabris pustulata Thunb.|J. Entomol. Res.20(1): 19-22|1996|
119649|T||Ritschel,W.A., and G.B. Ritschel|Rectal Administration of Insulin|Methods Find. Exp. Clin. Pharmacol.6(9): 513-529|1984|
119650|T||Mohanty,M., A.K. Jena, and H.K. Patra|Effect of Chelated Chromium Compounds on Chlorophyll Content and Activities of Catalase and Peroxidase in Wheat Seedlings|Indian J. Agric. Biochem.18(1): 25-29|2005|
119651|T||Morales-Barrera,L., F.M. Guilln-Jimnez, A. Ortiz-Moreno, T.L. Villegas-Garrido, A. Sandoval-Cabrera, C.H. Hernandez-Rod|Isolation, Identification and Characterization of a Hypocrea tawa Strain with High Cr(VI) Reduction Potential|Biochem. Eng. J.40(2): 284-292|2008|10.1016/j.bej.2007.12.014
119652|T||Preetha,B., and T. Viruthagiri|Bioaccumulation of Chromium(VI), Copper(II) and Nickel(II) Ions by Growing Rhizopus arrhizus|Biochem. Eng. J.34(2): 131-135|2007|10.1016/j.bej.2006.11.022
119653|T||Sinha,P., B.K. Dube, and C. Chatterjee|Amelioration of Chromium Phytotoxicity in Spinach by Withdrawal of Chromium or Iron Application Through Different Modes|Plant Sci.169(4): 641-646|2005|10.1016/j.plantsci.2004.07.003
119654|T||Izadi,H., and B. Subrahmanyam|Evaluation of Substituted Oxime Ethers for Growth Regulatory Activity Against Spodoptera litura (F.)|Commun. Agric. Appl. Biol. Sci.70(4): 651-660|2005|
119655|T||McKenney,F.A.|The Toxicity, Absorption, and Elimination of Selected Chromium and Selenium Compounds in Eisenia foetida|M.S.Thesis, San Jose State University, CA:82 p.|1994|
119656|T||Roze,L.V., A.M. Calvo, A. Gunterus, R. Beaudry, M. Kall, and J.E. Linz|Ethylene Modulates Development and Toxin Biosynthesis in Aspergillus Possibly via an Ethylene Sensor-Mediated Signaling Pathway|J. Food Prot.67(3): 438-447|2004|10.4315/0362-028X-67.3.438
119657|A||Upadhyay,R.K., and S.K. Panda|Biochemical Changes in Azolla pinnata Under Chromium Toxicity|J. Plant Biol. (New Delhi)32(1): 49-52|2005|
119658|T||Barrios,S.M., and M.S. Longa|Sequential Extraction of Nickel, Chromium and Zinc in a Soil of the Valencia Lake Basin and Its Accumulation in Sorghum Plants (Extraccion Secuencial de Niquel, Cromo y Zinc en un Suelo de la Cuenca del Lago de Valencia|Rev. Fac. Agron. Univ. Zulia24(4): 739-762|2007|
119659|T||Rachmilewitz,D., F. Karmeli, and E. Okon|Effect of Dioctyl Sodium Sulfosuccinate on Cyclic AMP and Prostaglandin E2 Contents, and Na, K-ATPase, Adenylate Cyclase and Phosphodiesterase Activities in Rat Intestine|Isr. J. Med. Sci.17(1): 28-35|1981|
119660|T||Dahlback,M., S. Eirefelt, K. Backstrom, P. Larsson, L.O. Almer, P. Wollmer, and B. Jonson|Enhanced Insulin Absorption in the Rabbit Airways and Lung by Sodium Dioctyl Sulfosuccinate|J. Aerosol Med.15(1): 27-36|2002|10.1089/08942680252908557
119661|T||Kawamura,S., T. Yoshioka, T. Kato, M. Matsuo, and M. Yasuda|Histological Changes in Rat Embryonic Blood Cells as a Possible Mechanism for Ventricular Septal Defects Produced by an N-Phenylimide Herbicide|Teratology54(5): 237-244|1996|10.1002/(SICI)1096-9926(199611)54:5<237::AID-TERA4>3.0.CO;2-X
119662|T||E.I. Du Pont De Nemours|Initial Submission:  Embryo-Fetal Toxicity & Teratogenicity Study of Metsulfuron-Methyl in Rats with Cover Letter Dated 08/20/92|EPA/OTS Doc #88-920008257:134 p.|1992|
119663|T||Kang,C.Y., G. Wu, and T. Miyata|Synergism of Enzyme Inhibitors and Mechanisms of Insecticide Resistance in Bemisia tabaci (Gennadius) (Hom., Aleyrodidae)|J. Appl. Entomol.130(6/7): 377-385|2006|10.1111/j.1439-0418.2006.01075.x
119664|T||Kawai,M., Y. Saegusa, M. Jin, Y. Dewa, J. Nishimura, T. Harada, M. Shibutani, and K. Mitsumori|Mechanistic Study on Hepatocarcinogenesis of Piperonyl Butoxide in Mice|Toxicol. Pathol.37(6): 761-769|2009|10.1177/0192623309344087
119665|T||Yang,E., Y. Yang, S. Wu, and Y. Wu|Relative Contribution of Detoxifying Enzymes to Pyrethroid Resistance in a Resistant Strain of Helicoverpa armigera|J. Appl. Entomol.129(9/10): 521-525|2005|10.1111/j.1439-0418.2005.00999.x
119666|AT||Richardson,R.J., R.L. Roten, A.M. West, S.L. True, and A.P. Gardner|Response of Selected Aquatic Invasive Weeds to Flumioxazin and Carfentrazone-Ethyl|J. Aquat. Plant Manag.46:154-158|2008|
119667|T||Li,Z.J., H.Z. Wang, J.M. Xu, J.J. Wu, and G.R. Ma|Response of Rice Varieties to Bound Residues of Metsulfuron-Methyl in a Paddy Soil|Pedosphere17(4): 487-492|2007|10.1016/S1002-0160(07)60058-7
119668|T||Muguruma,M., J. Nishimura, M. Jin, Y. Kashida, M. Moto, M. Takahashi, Y. Yokouchi, and K. Mitsumori|Molecular Pathological Analysis for Determining the Possible Mechanism of Piperonyl Butoxide-Induced Hepatocarcinogenesis in Mice|Toxicology228(2-3): 178-187|2006|10.1016/j.tox.2006.08.029
119669|T||Muguruma,M., A. Unami, M. Kanki, Y. Kuroiwa, J. Nishimura, Y. Dewa, T. Umemura, Y. Oishi, and K. Mitsumori|Possible Involvement of Oxidative Stress in Piperonyl Butoxide Induced Hepatocarcinogenesis in Rats|Toxicology236(1-2): 61-75|2007|10.1016/j.tox.2007.03.025
119670|A||Rehman,A., F.R. Shakoori, and A.R. Shakoori|Heavy Metals Resistant Rotifers from a Chromium Contaminated Wastewater can Help in Environmental Clean-up|Pak. J. Zool.40(5): 309-316|2008|
119671|T||Arduini,I., L. Ercoli, and A. Masoni|Response of Miscanthus sinensis to Prolonged Applications of Chromium in Hydroponics|Agrochimica50(5-6): 187-199|2006|
119672|AT||Panda,S.K.|Chromium-Mediated Oxidative Stress and Ultrastructural Changes in Root Cells of Developing Rice Seedlings|J. Plant Physiol.164(11): 1419-1428|2007|10.1016/j.jplph.2007.01.012
119673|A||Ramoliya,J., A. Kamdar, and R. Kundu|Movement and Bioaccumulation of Chromium in an Artificial Freshwater Ecosystem|Indian J. Exp. Biol.45(5): 475-479|2007|
119674|T||Castro,R.O., M.M. Trujillo, J.L. Bucio, C. Cervantes, and J. Dubrovsky|Effects of Dichromate on Growth and Root System Architecture of Arabidopsis thaliana Seedlings|Plant Sci.172(4): 684-691|2007|10.1016/j.plantsci.2006.11.004
119675|A||Talapatra,S.N., and S.K. Banerjee|Acute Toxicity Study of Heavy Metal Chromium and Tannery Effluent Water in Water Flea, Daphnia magna Straus by Bioassay Method|Asian J. Water Environ. Pollut.2(1): 33-37|2005|
119676|T||Tirillini,B., A. Ricci, G. Pintore, M. Chessa, and S. Sighinolfi|Induction of Hypericins in Hypericum perforatum in Response to Chromium|Fitoterapia77(3): 164-170|2006|10.1016/j.fitote.2006.01.011
119677|A||Tsangaris,C., E. Papathanassiou, and A. Nicolaidou|Biochemical Biomarkers and Overall Health Status of Mussels Mytilus galloprovincialis Exposed to Nickel and Chromium|Chem. Ecol.24(5): 315-327|2008|10.1080/02757540802368650
119679|T||Mukherjee,I., and M. Gopal|Residue Behaviour of Fenvalerate, Tau-Fluvalinate, Lambda-Cyhalothrin and Monocrotophos in Eggplant (Solanum melongena L.) Fruits|Pestic. Sci.36(3): 175-179|1992|10.1002/ps.2780360302
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119681|T||Yoon,K.S.|Detection and Mechanism of Pediculicide Resistance in Human Head Louse, Pediculus capitis|Ph.D.Thesis, Univ.of Mass., Amherst, MA:153 p.|2006|
119682|T||El-Din,M.H.T., B. Darvas, L. Pap, and A. Fonagy|Synergistic Effect of Piperonyl Butoxide on Some Zoocides and Insect Growth Regulators During Postembryonic Development and Adult Life of Flies (Neobellieria bullata, Musca domestica)|Acta Phytopathol. Entomol. Hung.29(1-2): 165-171|1994|
119683|T||Yu,S.J., and E.L. Hsu|Induction of Detoxification Enzymes in Phytophagous Insects:  Roles of Insecticide Synergists, Larval Age, and Species|Arch. Insect Biochem. Physiol.24(1): 21-32|1993|10.1002/arch.940240103
119684|T||Levot,G.W.|In-Vivo Synergism of Cypermethrin by Piperonyl Butoxide in Bovicola ovis (L.) (Phthiraptera:  Trichodectidae)|J. Aust. Entomol. Soc.34(4): 299-302|1995|10.1111/j.1440-6055.1995.tb01343.x
119685|T||Moores,G.D., D. Philippou, V. Borzatta, P. Trincia, P. Jewess, R. Gunning, and G. Bingham|An Analogue of Piperonyl Butoxide Facilitates the Characterisation of Metabolic Resistance|Pest Manag. Sci.65(2): 150-154|2009|10.1002/ps.1661
119686|T||Mosallanejad,H., and G. Smagghe|Biochemical Mechanisms of Methoxyfenozide Resistance in the Cotton Leafworm Spodoptera littoralis|Pest Manag. Sci.65(7): 732-736|2009|10.1002/ps.1753
119687|T||Mota-Sanchez,D., R.M. Hollingworth, E.J. Grafius, and D.D. Moyer|Resistance and Cross-Resistance to Neonicotinoid Insecticides and Spinosad in the Colorado Potato Beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae)|Pest Manag. Sci.62(1): 30-37|2006|10.1002/ps.1120
119688|T||Ninsin,K.D., and T. Tanaka|Synergism and Stability of Acetamiprid Resistance in a Laboratory Colony of Plutella xylostella|Pest Manag. Sci.61(8): 723-727|2005|10.1002/ps.1043
119689|T||Qiu,X., M. Li, H. Luo, and T. Fu|Molecular Analysis of Resistance in a Deltamethrin-Resistant Strain of Musca domestica from China|Pestic. Biochem. Physiol.89(2): 146-150|2007|10.1016/j.pestbp.2007.05.003
119690|T||Sayyed,A.H., G. Moores, N. Crickmore, and D.J. Wright|Cross-Resistance Between a Bacillus thuringiensis Cry Toxin and Non-Bt Insecticides in the Diamondback Moth|Pest Manag. Sci.64(8): 813-819|2008|10.1002/ps.1570
119691|T||Schenck,F.J., L.V. Podhorniak, J. Hobbs, J. Casanova, and D. Donoghue|Liquid Chromatographic Determination of N-Methyl Carbamate Pesticide Residues at Low Parts-Per-Billion Levels in Eggs|J. AOAC Int.89(1): 196-200|2006|10.1093/jaoac/89.1.196
119692|T||Sims,S.R., and A.G. Appel|Linear Alcohol Ethoxylates:  Insecticidal and Synergistic Effects on German Cockroaches (Blattodea: Blattellidae) and Other Insects|J. Econ. Entomol.100(3): 871-879|2007|10.1093/jee/100.3.871
119693|AT||Huang,S.|Cytochrome P450 Monooxygenases in the Eastern Salt Marsh Mosquito Aedes sollicitans (Walker) (Diptera: Culicidae)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:121 p.|2006|
119694|A||Jin,Q.|Hormonal Responses, Cytoskeletal Organization, and Spermatozoid Development in the Model Organism Chara|Ph.D.Thesis, University of Louisiana, Lafayette, LA:119 p.|2008|
119695|T||Park,D., S. Kim, H. Kang, J. Oh, J.Y. Jang, S. Shin, T.K. Kim, Y.J. Choi, S.H. Lee, K.Y. Kim, S.S. Joo, and Y.B. Kim|Preventive Effect of Piperonyl Butoxide on Cyclophosphamide-Induced Teratogenesis in Rats|Birth Defects Res. B Dev. Reprod. Toxicol.86(5): 402-408|2009|10.1002/bdrb.20210
119696|T||Park,E.K., and E.M. Lees|Determination of Oxidative Metabolism in Collembolan Proisotoma minuta (Tullberg)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(1): 57-65|2006|
119697|T||Wheeler,G.S., F.,Jr. Slansky, and S.J. Yu|Fall Armyworm Sensitivity to Flavone:  Limited Role of Constitutive and Induced Detoxifying Enzyme Activity|J. Chem. Ecol.19(4): 645-667|1993|10.1007/BF00984999
119698|T||Lee,K., and M.R. Berenbaum|Defense of Parsnip Webworm Against Phototoxic Furanocoumarins:  Role of Antioxidant Enzymes|J. Chem. Ecol.16(8): 2451-2460|1990|10.1007/BF01017468
119699|T||Tanaka,T.|Reproductive and Neurobehavioural Effects of Piperonyl Butoxide Administered to Mice in the Diet|Food Addit. Contam.20(3): 207-214|2003|10.1080/0265203021000050617
119700|T||Dowd,P.F.|Toxicity of the Fungal Metabolite Griseofulvin to Helicoverpa zea and Spodoptera frugiperda|Entomol. Exp. Appl.69(1): 5-11|1993|10.1111/j.1570-7458.1993.tb01722.x
119701|T||Subrahmanyam,D.|Effects of Chromium Toxicity on Leaf Photosynthetic Characteristics and Oxidative Changes in Wheat (Triticum aestivum L.)|Photosynthetica (Praha)46(3): 339-345|2008|
119702|T||Shrivastava,R., R.K. Upreti, and U.C. Chaturvedi|Effects of Dengue Virus Infection on the Spleen of Male Mice Given Hexavalent Chromium with Drinking Water|Toxicol. Mech. Methods15(5): 323-329|2005|10.1080/153765291009732
119703|A||Yadav,K.K., and S.P. Trivedi|Evaluation of Genotoxic Potential of Chromium (VI) in Channa punctata Fish in Terms of Chromosomal Aberrations|Asian Pac. J. Cancer Prev.7(3): 472-476|2006|
119704|T||Wyszkowski,M., and J. Wyszkowska|The Effect of Soil Contamination with Cadmium, Chromium and Mercury on the Yield and Content of Macroelements in Oats|Pol. J. Nat. Sci.16(1): 123-131|2004|
119706|T||Faisal,M., and S. Hasnain|Bacterial Cr(VI) Reduction Concurrently Improves Sunflower (Helianthus annuus L.) Growth|Biotechnol. Lett.27(13): 943-947|2005|10.1007/s10529-005-7188-2
119707|T||Sorensen,M.A., D.R. Parker, and J.T. Trumble|Effects of Pollutant Accumulation by the Invasive Weed Saltcedar (Tamarix ramosissima) on the Biological Control Agent Diorhabda elongata (Coleoptera:  Chrysomelidae)|Environ. Pollut.157(2): 384-391|2009|10.1016/j.envpol.2008.10.001
119708|T||Jamal,S.N., M.Z. Iqbal, and M. Athar|Effect of Aluminum and Chromium on the Growth and Germination of Mesquite (Prosopis juliflora Swartz.) DC|Int. J. Environ. Sci. Technol. (Tehran)3(2): 173-176|2006|10.1007/BF03325922
119709|T||Jun,R., T. Ling, and Z. Guanghua|Effects of Chromium on Seed Germination, Root Elongation and Coleoptile Growth in Six Pulses|Int. J. Environ. Sci. Technol. (Tehran)6(4): 571-578|2009|10.1007/BF03326097
119710|T||Karuppanapandian,T., and K. Manoharan|Uptake and Translocation of Tri- and Hexa-Valent Chromium and Their Effects on Black Gram (Vigna mungo L. Hepper cv. Co4) Roots|J. Plant Biol.51(3): 192-201|2008|10.1007/BF03030698
119711|T||Pandey,V., V. Dixit, and R. Shyam|Antioxidative Responses in Relation to Growth of Mustard (Brassica juncea cv. Pusa Jaikisan) Plants Exposed to Hexavalent Chromium|Chemosphere61(1): 40-47|2005|10.1016/j.chemosphere.2005.03.026
119712|T||Schiavon,M., E.A.H. Pilon-Smits, M. Wirtz, R. Hell, and M. Malagoli|Interactions Between Chromium and Sulfur Metabolism in Brassica juncea|J. Environ. Qual.37(4): 1536-1545|2008|10.2134/jeq2007.0032
119713|T||Wang,X.F., M.L. Xing, Y. Shen, X. Zhu, and L.H. Xu|Oral Administration of Cr(VI) Induced Oxidative Stress, DNA Damage and Apoptotic Cell Death in Mice|Toxicology228(1): 16-23|2006|10.1016/j.tox.2006.08.005
119714|A||Zhang,X.H., J. Liu, H.T. Huang, J. Chen, Y.N. Zhu, and D.Q. Wang|Chromium Accumulation by the Hyperaccumulator Plant Leersia hexandra Swartz|Chemosphere67(6): 1138-1143|2007|10.1016/j.chemosphere.2006.11.014
119715|T||Arias,J.A., J.R. Peralta-Videa, J.T. Ellzey, M. Ren, M.N. Viveros, and J.L. Gardea-Torresdey|Effects of Glomus deserticola Inoculation on Prosopis:  Enhancing Chromium and Lead Uptake and Translocation as Confirmed by X-Ray Mapping, ICP-OES and TEM Techniques|Environ. Exp. Bot.68(2): 139-148|2010|10.1016/j.envexpbot.2009.08.009
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119717|T||Ghosh,M., and S.P. Singh|Comparative Uptake and Phytoextraction Study of Soil Induced Chromium by Accumulator and High Biomass Weed Species|Appl. Ecol. Environ. Res.3(2): 67-79|2005|10.15666/aeer/0302_067079
119718|A||Rocchetta,I., P.I. Leonardi, G.M. Amado Filho, M. del Carmen Rios de Molina, and V. Conforti|Ultrastructure and X-Ray Microanalysis of Euglena gracilis (Euglenophyta) Under Chromium Stress|Phycologia46(3): 300-306|2007|10.2216/06-49.1
119719|T||Subramanian,V., and J.S. Yadav|Role of P450 Monooxygenases in the Degradation of the Endocrine-Disrupting Chemical Nonylphenol by the White Rot Fungus Phanerochaete chrysosporium|Appl. Environ. Microbiol.75(17): 5570-5580|2009|10.1128/AEM.02942-08
119720|T||Stallings,D.M.|Ligand-Dependent Chromium(III) Toxicity:  Chromium Picolinate Supplementation Causes Deleterious Effects During the Life Cycle of Drosophila melanogaster|Ph.D.Thesis, The University of Alabama, Birmingham, AL:152 p.|2006|
119721|T||Singh,S., and R.K. Malik|Evaluation of XDE-537 (Cyhalofop-Butyl) Against Barnyardgrass in Direct Seeded Rice|Tests Agrochem. Cultiv.16:48-49|1995|
119722|AT||Singh,D.K., A.N. Tewari, and A.K. Tripathi|Effect of Herbicides on Weed Dynamics and Yield of Direct Seeded Puddled Rice (Oryza sativa) Under Varying Water Regimes|Indian J. Agric. Sci.77(7): 415-419|2007|
119723|T||Morris,J.E.|The Ecological and Physiological Effects of Insecticides on Missouri Mammals|Bull. Mo. Acad. Sci. Suppl.1:39-56|1973|
119724|AT||Gopinath,K.A., and S. Kundu|Evaluation of Metsulfuron-Methyl and Chlorimuron-Ethyl for Weed Control in Direct-Seeded Rice (Oryza sativa)|Indian J. Agric. Sci.78(5): 466-469|2008|
119726|T||Hemingway,J., S.J. Dunbar, A.G. Monro, and G.J. Small|Pyrethroid Resistance in German Cockroaches (Dictyoptera:  Blattelidae):  Resistance Levels and Underlying Mechanisms|J. Econ. Entomol.86(6): 1631-1638|1993|
119727|T||Thalavaisundaram,S., G.A. Herron, A.D. Clift, and H. Rose|Pyrethroid Resistance in Frankliniella occidentalis (Pergande) (Thysanoptera:  Thripidae) and Implications for Its Management in Australia|Aust. J. Entomol.47(1): 64-69|2008|10.1111/j.1440-6055.2007.00628.x
119728|T||Zeng,R.S., G. Niu, Z. Wen, M.A. Schuler, and M.R. Berenbaum|Toxicity of Aflatoxin B1 to Helicoverpa zea and Bioactivation by Cytochrome P450 Monooxygenases|J. Chem. Ecol.32(7): 1459-1471|2006|10.1007/s10886-006-9062-7
119729|A||Lourenco,M.G.|Bioaccumulation of Arsenic, Chromium, and Lead by the Barnacle Balanus eburneus (Gould, 1841)|Ph.D.Thesis, East Carolina University, Greenville, NC:357 p.|2008|
119730|T||El-Demerdash,F.M., M.I. Yousef, and F.A.M. Elaswad|Biochemical Study on the Protective Role of Folic Acid in Rabbits Treated with Chromium (VI)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(5): 731-746|2006|
119731|T||Smitley,D.R., and T.W. Davis|Japanese Beetle Adult Control on Rose Plants, Eaton Co., MI, 1995|Arthropod Manag. Tests21:360-|1996|10.1093/amt/21.1.360
119732|A||Novikova,I.P., T.V. Parshykova, V.V. Vlasenko, and I.B. Zubenko|Effect of K2Cr2O7 on the Photosynthetic Activity and Mobility of Euglena gracilis Klebs Cells|Int. J. Algae9(3): 224-235|2007|10.1615/InterJAlgae.v9.i3.30
119733|T||Lahouti,M., S. Jamshidi, H. Ejtehadi, M. Rowshani, and H. Mahmoodzadeh|X-Ray Microanalysis and Ultrastructural Localization of Chromium in Raphanus sativus L.|Int. J. Bot.4(3): 340-343|2008|10.3923/ijb.2008.340.343
119734|T||Gopal,R., A.H. Rizvi, and N. Nautiyal|Chromium Alters Iron Nutrition and Water Relations of Spinach|J. Plant Nutr.32(9): 1551-1559|2009|10.1080/01904160903094313
119735|T||Ding,H., M.P. Tan, C. Zhang, Z. Zhang, A. Zhang, and Y. Kang|Hexavalent Chromium (VI) Stress Induces Mitogen-Activated Protein Kinase Activation Mediated by Distinct Signal Molecules in Roots of Zea mays L.|Environ. Exp. Bot.67(2): 328-334|2009|10.1016/j.envexpbot.2009.08.007
119736|T||Acevedo-Aguilar,F.J., A.E. Espino-Saldana, I.L. Leon-Rodriguez, M.E. Rivera-Cano, M. Avila-Rodriguez, K. Wrobel, P. Lap|Hexavalent Chromium Removal In Vitro and from Industrial Wastes, Using Chromate-Resistant Strains of Filamentous Fungi Indigenous to Contaminated Wastes|Can. J. Microbiol.52(9): 809-815|2006|10.1139/w06-037
119737|A||Mathews,T., N.S. Fisher, R.A. Jeffree, and J.L. Teyssie|Assimilation and Retention of Metals in Teleost and Elasmobranch Fishes Following Dietary Exposure|Mar. Ecol. Prog. Ser.360:1-12|2008|10.3354/meps07462
119738|T||Sivakumar,S., and C.V. Subbhuraam|Toxicity of Chromium(III) and Chromium(VI) to the Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.62(1): 93-98|2005|10.1016/j.ecoenv.2004.08.006
119739|T||Rai,R.K., M.K. Srivastava, A.K. Khare, R. Kishor, and A.K. Shrivastava|Oxidative Stress Response and Glutathione Linked Enzymes in Relation to Growth of Sugarcane Plants Exposed to Hexavalent Chromium|Sugar Technol.8(2-3): 116-123|2006|10.1007/BF02943644
119741|T||Upreti,R.K., R. Shrivastava, A. Kannan, and U.C. Chaturvedi|A Comparative Study on Rat Intestinal Epithelial Cells and Resident Gut Bacteria:  (I) Effect of Hexavalent Chromium|Toxicol. Mech. Methods15(5): 331-338|2005|10.1080/153765291009804
119742|T||Thomassen,D., J.T. Slattery, and S.D. Nelson|Menthofuran-Dependent and Independent Aspects of Pulegone Hepatotoxicity:  Roles of Glutathione|J. Pharmacol. Exp. Ther.253(2): 567-572|1990|
119744|T||Ryu,D.Y., P.E. Levi, P. Fernandez-Salguero, F.J. Gonzales, and E. Hodgson|Piperonyl Butoxide and Acenaphthylene Induce Cytochrome P450 1A2 and 1B1 mRNA in Aromatic Hydrocarbon-Responsive Receptor Knock-Out Mouse Liver|Mol. Pharmacol.50(3): 443-446|1996|
119746|T||Joyce,J.A., R.J. Ottens, G.A. Herzog, and M.H. Bass|Synergism of Pyrethroids by Piperonyl Butoxide and MGK-264 Against Heliothis virescens, Spodoptera exigua, and Spodoptera frugiperda (Lepidoptera:  Noctuidae)|J. Entomol. Sci.23(3): 229-234|1988|10.18474/0749-8004-23.3.229
119747|T||Crockett,R.J., J.A. Dennett, C.M. Ham, R.D. Nunez, and M.V. Meisch|Efficacy of Biomist 30:30 and Aqua Reslin Against Anopheles quadrimaculatus in Arkansas|Am. Mosq. Control Assoc. J.18(1): 68-69|2002|
119748|T||Takada,Y., T. Hiroyoshi, and M. Hirano|Linkage Group Analysis of Permethrin Resistance in the Miyakonojo Colony of the Housefly, Musca domestica L. (Diptera:  Muscidae)|Appl. Entomol. Zool.23(2): 122-126|1988|10.1303/aez.23.122
119750|T||Sridevi,D., and S. Dhingra|Evaluation of Some Non-Toxic Vegetable Oils as Synergists for Different Synthetic Pyrethroids in Mixed Formulations Against Tribolium castaneum (Herbst)|J. Entomol. Res.20(4): 335-343|1996|
119751|T||Boyce,W.M., S.P. Lawler, J.M. Schultz, S.J. McCauley, L.S. Kimsey, M.K. Niemela, C.F. Nielsen, and W.K. Reisen|Nontarget Effects of the Mosquito Adulticide Pyrethrin Applied Aerially During a West Nile Virus Outbreak in an Urban California Environment|Am. Mosq. Control Assoc. J.23(3): 335-339|2007|10.2987/8756-971X(2007)23[335:NEOTMA]2.0.CO;2
119752|T||Brown,J.R., R.E. Mickle, M. Yates, and J. Zhai|Optimizing an Aerial Spray for Mosquito Control|Am. Mosq. Control Assoc. J.19(3): 243-250|2003|
119753|T||Byard,J., and D. Needham|Metabolism and Excretion of Piperonyl Butoxide in the Rat|Xenobiotica36(12): 1259-1272|2006|10.1080/00498250600856306
119754|T||Kagabu,S., C. Kato, and K. Nishimura|Insecticidal and Neuroblocking Activities Toward American Cockroach (Periplaneta americana L.) of Imidacloprid Metabolites, 5-Hydroxy-, 4,5-Dihydroxy- and 4,5-Dehydroimidacloprid|J. Pestic. Sci. (Multiple Languages)29(4): 376-379|2004|10.1584/jpestics.29.376
119755|T||Kljajic,P., and I. Peric|Residual Effects of Deltamethrin and Malathion on Different Populations of Sitophilus granarius (L.) on Treated Wheat Grains|J. Stored Prod. Res.45(1): 45-48|2009|10.1016/j.jspr.2008.07.004
119756|T||Lothrop,H.D., H.Z. Huang, B.B. Lothrop, S. Gee, D.E. Gomsi, and W.K. Reisen|Deposition of Pyrethrins and Piperonyl Butoxide Following Aerial Ultra-Low Volume Applications in the Coachella Valley, California|Am. Mosq. Control Assoc. J.23(2): 213-219|2007|10.2987/8756-971X(2007)23[213:DOPAPB]2.0.CO;2
119757|T||Meisch,M.V., J.R.,Jr. Brown, D.A. Dame, and C.N. Lewis|Ground Ultra-Low Volume Assessment of Aqua-Kontrol|Am. Mosq. Control Assoc. J.22(4): 758-759|2006|10.2987/8756-971X(2006)22[758:GUVAOA]2.0.CO;2
119758|T||Meisch,M.V., D.A. Dame, and J.R. Brown|Aerial Ultra-Low-Volume Assessment of Anvil 10+10 Against Anopheles quadrimaculatus|Am. Mosq. Control Assoc. J.21(3): 301-304|2005|10.2987/8756-971X(2005)21[301:AUAOAA]2.0.CO;2
119759|T||Nishiwaki,H., K. Sato, Y. Nakagawa, M. Miyashita, and H. Miyagawa|Metabolism of Imidacloprid in Houseflies|J. Pestic. Sci. (Multiple Languages)29(2): 110-116|2004|10.1584/jpestics.29.110
119761|T||Phipps,A.N., M.R. Martin-Short, L. Littlewood, S.E. Blanchflower, and K.A.F. Gration|Disposition of 3H-Selamectin and 3H-Ivermectin in the Brain of the Cat Flea Ctenocephalides felis felis Using Micro-Image Analysis|Vet. Parasitol.131(1/2): 89-94|2005|10.1016/j.vetpar.2005.04.024
119762|T||Tsagkarakou,A., T. Van Leeuwen, J. Khajehali, A. Ilias, M. Grispou, M.S. Williamson, L. Tirry, and J. Vontas|Identification of Pyrethroid Resistance Associated Mutations in the Para Sodium Channel of the Two-Spotted Spider Mite Tetranychus urticae (Acari:  Tetranychidae)|Insect Mol. Biol.18(5): 583-593|2009|10.1111/j.1365-2583.2009.00900.x
119763|T||Wang,L., and Y. Wu|Cross-Resistance and Biochemical Mechanisms of Abamectin Resistance in the B-Type Bemisia tabaci|J. Appl. Entomol.131(2): 98-103|2007|10.1111/j.1439-0418.2006.01140.x
119764|T||Wang,D., X. Qiu, X. Ren, F. Niu, and K. Wang|Resistance Selection and Biochemical Characterization of Spinosad Resistance in Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae)|Pestic. Biochem. Physiol.95(2): 90-94|2009|10.1016/j.pestbp.2009.07.003
119765|T||Baek,J.H., J.M. Clark, and S.H. Lee|Cross-Strain Comparison of Cypermethrin-Induced Cytochrome P450 Transcription Under Different Induction Conditions in Diamondback Moth|Pestic. Biochem. Physiol.96(1): 43-50|2010|10.1016/j.pestbp.2009.08.014
119766|T||Bielza,P., V. Quinto, J. Contreras, M. Torne, A. Martin, and P.J. Espinosa|Resistance to Spinosad in the Western Flower Thrips, Frankliniella occidentalis (Pergande), in Greenhouses of South-Eastern Spain|Pest Manag. Sci.63(7): 682-687|2007|10.1002/ps.1388
119767|T||Bingham,G., R.V. Gunning, K. Gorman, L.M. Field, and G.D. Moores|Temporal Synergism by Microencapsulation of Piperonyl Butoxide and alpha-Cypermethrin Overcomes Insecticide Resistance in Crop Pests|Pest Manag. Sci.63(3): 276-281|2007|10.1002/ps.1336
119768|T||Bingham,G., R.V. Gunning, G. Delogu, V. Borzatta, L.M. Field, and G.D. Moores|Temporal Synergism can Enhance Carbamate and Neonicotinoid Insecticidal Activity Against Resistant Crop Pests|Pest Manag. Sci.64(1): 81-85|2008|10.1002/ps.1477
119769|T||Chaskopoulou,A., R.M. Pereira, M.E. Scharf, and P.G. Koehler|Vapor Toxicity of Three Prototype Volatile Insecticidal Compounds to House Fly (Diptera: Muscidae)|J. Med. Entomol.46(6): 1400-1406|2009|10.1603/033.046.0621
119770|T||Djihinto,A.C., A. Katary, P. Prudent, J.M. Vassal, and M. Vaissayre|Variation in Resistance to Pyrethroids in Helicoverpa armigera from Benin Republic, West Africa|J. Econ. Entomol.102(5): 1928-1934|2009|10.1603/029.102.0525
119771|T||Kagabu,S., Y. Murase, R. Imai, N. Ito, and K. Nishimura|Effect of Substituents at the 5-Position of the Pyridine Ring of Imidacloprid on Insecticidal Activity Against Periplaneta americana|Pest Manag. Sci.63(1): 75-83|2007|10.1002/ps.1326
119772|T||Keum,Y.S., Y.H. Lee, and J.H. Kim|Metabolism of Methoxychlor by Cunninghamella elegans ATCC36112|J. Agric. Food Chem.57(17): 7931-7937|2009|10.1021/jf902132j
119773|T||Krieger,R.I.|Aldrin Epoxidation and Dihydroisodrin Hydroxylation as Probes of In Vivo and In Vitro Oxidative Metabolic Capability of Some Caterpillars|Pest Manag. Sci.64(6): 622-627|2008|10.1002/ps.1596
119774|T||He,L., C.H. Xue, J.J. Wang, M. Li, W.C. Lu, and Z.M. Zhao|Resistance Selection and Biochemical Mechanism of Resistance to Two Acaricides in Tetranychus cinnabarinus (Boiduval)|Pestic. Biochem. Physiol.93(1): 47-52|2009|10.1016/j.pestbp.2008.11.001
119775|T||Marco-Urrea,E., M. Perez-Trujillo, T. Vicent, and G. Caminal|Ability of White-Rot Fungi to Remove Selected Pharmaceuticals and Identification of Degradation Products of Ibuprofen by Trametes versicolor|Chemosphere74(6): 765-772|2009|10.1016/j.chemosphere.2008.10.040
119776|T||Balasubramani,V., A.H. Sayyed, and N. Crickmore|Genetic Characterization of Resistance to Deltamethrin in Plutella xylostella (Lepidoptera:  Plutellidae) from India|J. Econ. Entomol.101(6): 1911-1918|2008|10.1603/0022-0493-101.6.1911
119777|T||Huang,F., and B. Subramanyam|Responses of Corcyra cephalonica (Stainton) to Pirimiphos-Methyl, Spinosad, and Combinations of Pirimiphos-Methyl and Synergized Pyrethrins|Pest Manag. Sci.60(2): 191-198|2004|10.1002/ps.815
119778|T||Gunning,R.V.|Inhibition of Carbamate-Insensitive Acetylcholinesterase by Piperonyl Butoxide in Helicoverpa armigera|J. Mol. Neurosci.30(1/2): 21-22|2006|10.1385/JMN:30:1:21
119779|T||Gupta,G., and V.A. Krischik|Professional and Consumer Insecticides for Management of Adult Japanese Beetle on Hybrid Tea Rose|J. Econ. Entomol.100(3): 830-837|2007|10.1093/jee/100.3.830
119781|T||MacKenzie,K., S. Henwood, G. Foster, F. Akin, R. Davis, P. DeBaecke, G. Sisson, and G. McKinney|Three-Generation Reproduction Study with Dioctyl Sodium Sulfosuccinate in Rats|Fundam. Appl. Toxicol.15(1): 53-62|1990|10.1016/0272-0590(90)90162-D
119782|T||Sakurai,E., Y. Kin, G. Fukuse, N. Hikichi, and H. Niwa|Effects of Various Cathartics and Deoxycholic Acid on the Disposition of Endogenous Bile Acids in the Bile, Portal Blood and Feces of Rats|Chem. Pharm. Bull.34(1): 349-359|1986|10.1248/cpb.34.349
119783|T||Dobbs,H.E., R.L.F. Dawes, and B.A. Whittle|Investigation of Toxic Interaction of Synthetic Laxatives with a Wetting Agent|Proc. Eur. Soc. Study Drug Toxic.14:243-246|1973|
119784|T||Case,M.T., J.K. Smith, and R.A. Nelson|Acute Mouse and Chronic Dog Toxicity Studies of Danthron, Dioctyl Sodium Sulfosuccinate, Poloxalkol and Combinations|Drug Chem. Toxicol.1(1): 89-101|1978|10.3109/01480547709034429
119785|T||Larson,P.S., E.M. Crawford, R.B.,Jr. Smith, G.R. Hennigar, H.B. Haag, and J.K. Finnegan|Chronic Toxicologic Studies on Isopropyl N-(3-Chlorophenyl) Carbamate (CIPC)|Toxicol. Appl. Pharmacol.2:659-673|1960|10.1016/0041-008X(60)90084-3
119786|T||Van Esch,G.J., and R. Kroes|Long-Term Toxicity Studies of Chlorpropham and Propham in Mice and Hamsters|Food Cosmet. Toxicol.10(3): 373-381|1972|10.1016/S0015-6264(72)80255-4
119789|T||Yu,J.H.|Effect of Additives in Aqueous Formulation on the Foliar Uptake of Dimethomorph by Cucumbers|Pest Manag. Sci.65(4): 426-432|2009|10.1002/ps.1707
119792|T||Sridevi,D., and S. Dhingra|Evaluation of Mixtures of Non-Toxic Vegetable Oils and Deltamethrin Against Susceptible and Resistant Strains of Tribolium castaneum (Herbst)|J. Entomol. Res.24(4): 375-382|2000|
119793|T||Sandana Mala,J.G., B. Unni Nair, and R. Puvanakrishnan|Bioaccumulation and Biosorption of Chromium by Aspergillus niger MTCC 2594|J. Gen. Appl. Microbiol.52(3): 179-186|2006|10.2323/jgam.52.179
119794|A||Xu,S., and P.R. Jaffe|Effects of Plants on the Removal of Hexavalent Chromium in Wetland Sediments|J. Environ. Qual.35(1): 334-341|2006|10.2134/jeq2005.0181
119795|T||Thomas,T.D.|In Vitro Modification of Sex Expression in Mulberry (Morus alba) by Ethrel and Silver Nitrate|Plant Cell Tissue Organ Cult.77(3): 277-281|2004|10.1023/B:TICU.0000018390.65934.93
119796|A||Martyniuk,C.J., B.C. Sanchez, N.J. Szabo, N.D. Denslow, and M.S. Sepulveda|Aquatic Contaminants Alter Genes Involved in Neurotransmitter Synthesis and Gonadotropin Release in Largemouth Bass|Aquat. Toxicol.95(1): 1-9|2009|10.1016/j.aquatox.2009.06.009
119798|T||Kepczynski,J., and B. Bialecka|Stimulatory Effect of Ethephon, ACC, Gibberellin A3 and A4+7 on Germination of Methyl Jasmonate Inhibited Amaranthus caudatus L. Seeds|Plant Growth Regul.14(3): 211-216|1994|10.1007/BF00024795
119799|A||Sumida,S., R. Yoshida, and M. Ueda|Studies of Pesticides Effects on Chlorella Metabolism  III.  Effect of Isopropyl 3-Chlorocarbanilate (Chlorpropham) on Cell Cycle and Biosynthesis|Plant Cell Physiol.18:9-16|1977|
119800|T||Tanaka,T.|Reproductive and Neurobehavioral Effects of Chlorpropham Administered to Mice in the Diet|Toxicol. Ind. Health13(6): 715-726|1997|10.1177/074823379701300602
119801|T||Tanaka,T.|Reproductive and Neurobehavioural Toxicity Study of Chlorpropham in Mice|Food Addit. Contam.16(4): 173-180|1999|10.1080/026520399284127
119802|T||Freeman,D.E., P.L. Ferrante, and J.E. Palmer|Comparison of the Effects of Intragastric Infusions of Equal Volumes of Water, Dioctyl Sodium Sulfosuccinate, and Magnesium Sulfate on Fecal Composition and Output in Clinically Normal Horses|Am. J. Vet. Res.53(8): 1347-1353|1992|10.2460/ajvr.1992.53.08.1347
119803|T||Unger,P.W., S.D. Miller, and O.R. Jones|Weed Seeds in Long-Term Dryland Tillage and Cropping System Plots|Weed Res. (Multiple Languages)39:213-223|1999|10.1046/j.1365-3180.1999.00139.x
119804|A||Wassenberg,D.M., A.L. Nerlinger, L.P. Battle, and R.T. Di Giulio|Effects of the Polycyclic Aromatic Hydrocarbon Heterocycles, Carbazole and Dibenzothiophene, on In Vivo and In Vitro CYP1A Activity and Polycyclic Aromatic Hydrocarbon-Derived Embryonic Deformities|Environ. Toxicol. Chem.24(10): 2526-2532|2005|10.1897/04-440R1.1
119805|T||E.I. Du Pont De Nemours|Initial Submission:  INA-7881 Developmental Toxicity Study in Rats Dosed by Gavage on Days 7-16 of Gestation (Final Report) with Attachments and Cover Letter Dated 032792|EPA/OTS Doc #88-920001521:192 p.|1992|
119806|T||E.I. Du Pont De Nemours|Initial Submission:  Median Lethal Dose (LD50) of Inf-6025-34 in Rats with Attachments, Cover Sheets and Letter Dated 082092|EPA/OTS Doc #88-920006798:16 p.|1992|
119808|T||Singh,J., B.S. Sandhu, and G. Singh|Fluvalinate - A New Synthetic Pyrethroid for Control of Bollworms on Arboreum Cotton|J. Res. Punjab Agric. Univ.27(1): 72-74|1990|
119809|T||Herbert,E.W.,Jr., P.C. Witherell, W.A. Bruce, and H. Shimanuki|Evaluation of Six Methods of Detecting Varroa Mites in Beehives, Including the Experimental Use of Acaricidal Smokes Containing Fluvalinate or Amitraz|Am. Bee J.129(9): 605-606|1989|
119810|T||Elzen,P.J., F.A. Eischen, J.B. Baxter, J. Pettis, G.W. Elzen, and W.T. Wilson|Fluvalinate Resistance in Varroa jacobsoni from Several Geographic Locations|Am. Bee J.138:674-676|1998|
119811|A||Azuma,T., S. Ueno, N. Uchida, and T. Yasuda|Gibberellin-Induced Elongation and Osmoregulation in Internodes of Floating Rice|Physiol. Plant. (Multiple Languages)99(4): 517-522|1997|10.1111/j.1399-3054.1997.tb05351.x
119812|A||Zubenko,I.B., and T.V. Parshikova|Effect of a Catione-Active Surfactant on the Level of Toxicity of Chromium (VI) in Aquatic Organisms|Hydrobiol. J.41(3): 67-74|2005|10.1615/HydrobJ.v41.i3.70
119813|T||Stallings,D.M., D.D.D. Hepburn, M. Hannah, J.B. Vincent, and J. O'Donnell|Nutritional Supplement Chromium Picolinate Generates Chromosomal Aberrations and Impedes Progeny Development in Drosophila melanogaster|Mutat. Res.610(1-2): 101-113|2006|10.1016/j.mrgentox.2006.06.019
119814|T||Brown,G.E., and J.K. Burns|Enhanced Activity of Abscission Enzymes Predisposes Oranges to Invasion by Diplodia natalensis During Ethylene Degreening|Postharvest Biol. Technol.14(2): 217-227|1998|10.1016/S0925-5214(98)00049-0
119815|T||Palou,L., C.H. Crisosto, D. Garner, and L.M. Basinal|Effect of Continuous Exposure to Exogenous Ethylene During Cold Storage on Postharvest Decay Development and Quality Attributes of Stone Fruits and Table Grapes|Postharvest Biol. Technol.27(3): 243-254|2003|10.1016/S0925-5214(02)00112-6
119816|T||Mabuchi,T., Y. Miura, and T. Ohtsuka|Herbicidal Activity and Characteristics of Pyraflufen-Ethyl for Controlling Broad-Leaved Weeds in Cereals|J. Pestic. Sci. (Multiple Languages)27:39-46|2002|10.1584/jpestics.27.39
119817|T||Davis,S.D., R.R. Duncan, and B.J. Johnson|Suppression of Seashore Paspalum in Bermudagrass with Herbicides|J. Environ. Hortic.15(4): 187-190|1997|10.24266/0738-2898-15.4.187
119818|A||Suzawa,M., and H.A. Ingraham|The Herbicide Atrazine Activates Endocrine Gene Networks via Non-Steroidal NR5A Nuclear Receptors in Fish and Mammalian Cells|PLoS One3(5): 11 p.|2008|10.1371/journal.pone.0002117
119819|T||Berner,D.K.|Distribution and Management of and Soybean Resistance to Calonectria crotalariae, the Causal Pathogen of Red Crown Rot of Soybean|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:142 p.|1991|
119821|T||Beubler,E., and H. Juan|Effect of Ricinoleic Acid and Other Laxatives on Net Water Flux and Prostaglandin E Release by the Rat Colon|J. Pharm. Pharmacol.31(10): 681-685|1979|
119822|T||Balaji,V., S.C. Debnath, A. Goswami, S.K. Das, T.K. Mandal, A.K. Chakraborty, and A. Bhattacharyya|Toxicokinetics, Metabolism, and Microsomal Studies of Chlorpropham in Rats|Toxicol. Environ. Chem.88(3): 527-539|2006|10.1080/02772240600741528
119823|T||Harris,J.E., and C. Dennis|The Effect of Post-Infectional Potato Tuber Metabolites and Surfactants on Zoospores of Oomycetes|Physiol. Plant Pathol.11(2): 163-169|1977|10.1016/0048-4059(77)90054-6
119824|T||Karlin,D.A., R.T. O'Donnell, and W.E. Jensen|Effect of Dioctyl Sodium Sulfosuccinate Feeding on Rat Colorectal 1,2-Dimethylhydrazine Carcinogenesis|J. Natl. Cancer Inst.64(4): 791-793|1980|
119825|T||Cheng,S., J. Xiao, H. Xiao, L. Zhang, and Z. Wu|Phytoremediation of Triazophos by Canna indica Linn. in a Hydroponic System|Int. J. Phytoremediat.9(4-6): 453-463|2007|10.1080/15226510701709531
119826|A||Chibunda,R.T.|Chronic Toxicity of Mercury (HgCl2) to the Benthic Midge Chironomus riparius|Int. J. Environ. Res.3(3): 455-462|2009|
119827|A||Vieira,A.R., C. Gonzalez, M.A. Martins-Loucao, and C. Branquinho|Intracellular and Extracellular Ammonium (NH4+) Uptake and Its Toxic Effects on the Aquatic Biomonitor Fontinalis antipyretica|Ecotoxicology18(8): 1087-1094|2009|10.1007/s10646-009-0374-6
119828|T||Del Buono,D., L. Scarponi, and L. Espen|Glutathione S-Transferases in Festuca arundinacea:  Identification, Characterization and Inducibility by Safener Benoxacor|Phytochemistry68(21): 2614-2624|2007|10.1016/j.phytochem.2007.05.041
119829|A||Sahinkaya,E., and F.B. Dilek|The Growth Behavior of Chlorella vulgaris in the Presence of 4-Chlorophenol and 2,4-Dichlorophenol|Ecotoxicol. Environ. Saf.72(3): 781-786|2009|10.1016/j.ecoenv.2007.11.014
119830|A||Sinha,S., A. Basant, A. Malik, and K.P. Singh|Iron-Induced Oxidative Stress in a Macrophyte:  A Chemometric Approach|Ecotoxicol. Environ. Saf.72(2): 585-595|2009|10.1016/j.ecoenv.2008.04.017
119831|T||Lu,H., C. Yan, and J. Liu|Low-Molecular-Weight Organic Acids Exuded by Mangrove (Kandelia candel (L.) Druce) Roots and Their Effect on Cadmium Species Change in the Rhizosphere|Environ. Exp. Bot.61(2): 159-166|2007|10.1016/j.envexpbot.2007.05.007
119832|A||Chae,Y.J., C.H. Pham, J. Lee, E. Bae, J. Yi, and M.B. Gu|Evaluation of the Toxic Impact of Silver Nanoparticles on Japanese Medaka (Oryzias latipes)|Aquat. Toxicol.94(4): 320-327|2009|10.1016/j.aquatox.2009.07.019
119833|T||Hou,X., P. Fields, and W. Taylor|Combination of Protein-Rich Pea Flour and Pea Extract with Insecticides and Enzyme Inhibitors for Control of Stored-Product Beetles|Can. Entomol.136(4): 581-590|2004|10.4039/n03-077
119834|T||Kagabu,S., Y. Itazu, and K. Nishimura|Preparation of Alkylene-Tethered Acyclic Divalent Neonicotinoids and Their Insecticidal and Neuroblocking Activities for American Cockroach (Periplaneta americana L.)|J. Pestic. Sci. (Multiple Languages)29(1): 40-42|2004|10.1584/jpestics.29.40
119835|A||Dow Corning Corp.|Bioconcentration of Eicosamethylnonasiloxane (MD7M) in Rainbow Trout with Cover Letter Dated 04/20/94|EPA/OTS Doc.#86940001479:12 p.|1994|
119836|A||Dow Corning Corp.|Bioconcentration of Hexadecamethylcyclooctosiloxane in the Rainbow Trout with Cover Letter Dated 04/20/94|EPA/OTS Doc.#86940001478:15 p.|1994|
119838|T||Groome,J.M., R. Martin, and R. Slatter|Advances in the Control of Public Health Insects by the Application of Water-Based Ultra Low Volume Space Sprays|Int. Pest Control31(6): 137-140|1989|
119839|T||Srinivasan,R., and M. Kalyanasundaram|Ultra Low Volume Aerosol Application of Deltacide (Deltamethrin 0.5% w/v, S-Bioallethrin 0.71% w/v & Piperonyl Butoxide 8.9% w/v) Against Mosquitoes|Indian J. Med. Res.123(1): 55-60|2006|
119840|T||Dow Chemical Co.|Initial Submission:  Study of the Effects of Environmental Components on Reproduction and Ontogenesis with Cover Letter Dated 042192|EPA/OTS Doc.#88-920002234:41 p.|1992|
119841|A||Monsanto Co.|Acute (96-Hour) Toxicity of Sodium Metabisulfide to Bluegill with Cover Letter Dated 04/13/94|EPA/OTS Doc #86940000309:6 p.|1994|
119842|T||ICI Americas Inc.|Initial Submission:  Acute Oral Toxicity Study with PP321 in Mice with Cover Letter Dated 082892|EPA/OTS Doc #88-920007124:47 p.|1992|
119844|T||Liu,D., J. Zou, M. Wang, and W. Jiang|Hexavalent Chromium Uptake and Its Effects on Mineral Uptake, Antioxidant Defence System and Photosynthesis in Amaranthus viridis L.|Bioresour. Technol.99(7): 2628-2636|2008|10.1016/j.biortech.2007.04.045
119845|A||Horcsik,Z., V. Olah, A. Balogh, I. Meszaros, L. Simon, and G. Lakatos|Effect of Chromium(VI) on Growth, Element and Photosynthetic Pigment Composition of Chlorella pyrenoidosa|Acta Biol. Szeged.50(1-2): 19-23|2006|
119846|T||Resnick,J.S., C.K. Wen, J.A. Shockey, and C. Chang|REVERSION-TO-ETHYLENE SENSITIVITY1, a Conserved Gene that Regulates Ethylene Receptor Function in Arabidopsis|Proc. Natl. Acad. Sci. U.S.A.103(20): 7917-7922|2006|10.1073/pnas.0602239103
119847|T||Olmedo,G., H. Guo, B.D. Gregory, S.D. Nourizadeh, L. Aguilar-Henonin, H. Li, F. An, P. Guzman, and J.R. Ecker|ETHYLENE-INSENSITIVE5 Encodes a 5'->3' Exoribonuclease Required for Regulation of the EIN3-Targeting F-Box Proteins EBF1/2|Proc. Natl. Acad. Sci. U.S.A.103(36): 13286-13293|2006|10.1073/pnas.0605528103
119848|T||Seifert,G.J., C. Barber, B. Wells, and K. Roberts|Growth Regulators and the Control of Nucleotide Sugar Flux|Plant Cell16:723-730|2004|10.1105/tpc.019661
119849|T||Dunham,C.B., L.J. Hak, J.H. Hull, and A.M. Mattocks|Enhancement of Peritoneal Dialysis Clearance with Docusate Sodium|Kidney Int.20(5): 563-568|1981|10.1038/ki.1981.177
119850|T||Kiriyama,K., S. Kagabu, and K. Nishimura|Insecticidal Activities of the Enantiomers of Asymmetric 1-[1-(6-Chloro-3-pyridyl)Ethyl]-2-Nitroiminoimidazolidine Against American Cockroach, Cucurbit Leaf Beetle, Green Rice Leafhopper and Green Peach Aphid Following |J. Pestic. Sci. (Multiple Languages)29(1): 43-45|2004|10.1584/jpestics.29.43
119851|A||Kaszycki,P., H. Gabrys, K.J. Appenroth, A. Jaglarz, S. Sedziwy, T. Walczak, and H. Koloczek|Exogenously Applied Sulphate as a Tool to Investigate Transport and Reduction of Chromate in the Duckweed Spirodela polyrhiza|Plant Cell Environ.28(2): 260-268|2005|10.1111/j.1365-3040.2004.01276.x
119852|T||Rajkumar,M., and H. Freitas|Effects of Inoculation of Plant-Growth Promoting Bacteria on Ni Uptake by Indian Mustard|Bioresour. Technol.99(9): 3491-3498|2008|10.1016/j.biortech.2007.07.046
119853|A||Olah,V., G.D. Toth, E. Szollosi, and T. Kiss|Comparative Study on Sensitivity of Different Physiological Properties of Spirodela polyrrhiza (L.) Schleiden to Cr (VI) Treatments|Acta Biol. Szeged.52(1): 181-182|2008|
119854|AT||De Vetter,L., G. Depraetere, M. Stevens, C. Janssen, and J. Van Acker|Potential Contribution of Organosilicon Compounds to Reduced Leaching of Biocides in Wood Protection|Ann. For. Sci.66(2): 7 p.|2009|10.1051/forest/2008091
119855|T||Pires,H.H.R., S.E. Barbosa, and L. Diotaiuti|Comparative Developmental and Susceptibility to Insecticide of Bolivian and Brazilian Populations of Triatoma infestans|Mem. Inst. Oswaldo Cruz95(6): 883-888|2000|10.1590/S0074-02762000000600025
119856|T||Matzke,M., S. Stolte, J. Arning, U. Uebers, and J. Filser|Ionic Liquids in Soils:  Effects of Different Anion Species of Imidazolium Based Ionic Liquids on Wheat (Triticum aestivum) as Affected by Different Clay Minerals and Clay Concentrations|Ecotoxicology18(2): 197-203|2009|10.1007/s10646-008-0272-3
119857|T||Tomilov,A.A., N.B. Tomilova, I. Abdallah, and J.I. Yoder|Localized Hormone Fluxes and Early Haustorium Development in the Hemiparasitic Plant Triphysaria versicolor|Plant Physiol.138:1469-1480|2005|10.1104/pp.104.057836
119858|T||Narusaka,M., H. Abe, M. Kobayashi, Y. Kubo, K. Kawai, N. Izawa, and Y. Narusaka|A Model System to Screen for Candidate Plant Activators Using an Immune-Induction System in Arabidopsis|Plant Biotechnol.23:321-327|2006|10.5511/plantbiotechnology.23.321
119859|T||Mahmoodzadeh,H., A. Majd, and M. Lahouti|Effect of Salinity Stress on Structure and Ultrastructure of Shoot Apical Meristem of Canola (Brassica napus cv. Symbol)|J. Agron.6(2): 366-369|2007|10.3923/ja.2007.366.369
119860|T||Imdorf,A., S. Bogdanov, V. Kilchenmann, and C. Maquelin|Apilife VAR:  A New Varroacide with Thymol as the Main Ingredient|Bee World76(2): 77-83|1995|10.1080/0005772X.1995.11099245
119861|A||Jain,K.L., and Sarita |Induction of Behavioural and Morphological Changes in Cyprinus carpio on Exposure to Sublethal Doses of Heavy Metals|Ann. Biol.25(1): 69-74|2009|
119862|T||DuPont Chemical Corp.|Initial Submission:  Acute Oral Toxicity of Metribusin and Chlorimuron-Ethyl in Rats with Cover Letter Dated 082092|EPA/OTS Doc #88-920008406:38 p.|1992|
119863|A||Saxena,M.P., and J. Kapur-Ghai|Effect of Exposure to Chromium on Humoral and Cellular Immunity in Fish|Toxicol. Int.15(1): 33-36|2008|
119864|T||E.I. Du Pont De Nemours|Initial Submission:  Teratogenicity Study of INA-7881 in Rabbits (Final Report) with Attachments and Cover Letter Dated 032792|EPA/OTS Doc #88-920001520:304 p.|1992|
119865|T||DuPont Chemical Corp.|Initial Submission:  Ten Dose Oral Subacute Study of INA-7881-7 in Rats with Cover Letter Dated 082092|EPA/OTS Doc #88-920008744:38 p.|1992|
119866|A||Zurayk,R., B. Sukkariyah, R. Baalbaki, and D.A. Ghanem|Chromium Phytoaccumulation from Solution by Selected Hydrophytes|Int. J. Phytoremediat.3(3): 335-350|2001|10.1080/15226510108500063
119867|AT||Swami,S., and M. Singh|Evaluation of Soil Tests of Available Phosphorus and Its Critical Limits for Durum Wheat in Heavy Metal Polluted Soils|Crop Res. (Hisar)36(1-3): 23-32|2008|
119868|A||Hori,H., T. Inoue, S. Toda, and H. Yamada|Sensitive Acute Toxicity Testing in Two Marine Shrimp Species:  Collection and Rearing of Larvae, and Changes of Acute Toxicity Values During Larval Development|Fresenius Environ. Bull.18(8): 1480-1490|2009|
119869|A||Karthikeyan,S., C. Karthik, and S. Sabhanayakam|Bioaccumulation and Elimination of Chromium in an Edible Fingerlings of Cirrhinus mrigala Exposed to Sub-Lethal Concentrations|Biosci. Biotechnol. Res. Asia4(2): 589-594|2007|
119870|T||E.I. Du Pont De Nemours|Initial Submission:  Acute Oral Toxicity Study with IN-31631-1 in Male and Female Rats with Cover Letter Dated 061592 and Attachments|EPA/OTS; Doc #88-920004141:37 p.|1992|
119871|T||Nayak,S., H.K. Patra, and S.P. Rath|Biochemical and Cytological Basis of Toxicity Lesions Produced by Cr(III) in Germinating Seeds of Lentil (Lens culinaris Medic.)|Asian J. Microbiol. Biotechnol. Environ. Sci.10(2): 415-420|2008|
119872|T||Bailey,M.M., J. Sturdivant, P.L. Jernigan, M.B. Townsend, J. Bushman, I. Ankareddi, J.F. Rasco, R.D. Hood, and J.B. Vin|Comparison of the Potential for Developmental Toxicity of Prenatal Exposure to Two Dietary Chromium Supplements, Chromium Picolinate and [Cr3O(O2CCH2CH3)(6(H2O)3]+, in Mice|Birth Defects Res. B Dev. Reprod. Toxicol.83(1): 27-31|2008|10.1002/bdrb.20140
119873|T||Lee,E.H., G.F. Kramer, R.A. Rowland, and M. Agrawal|Antioxidants and Growth Regulators Counter the Effects of O3 and SO2 in Crop Plants|Agric. Ecosyst. Environ.38(1/2): 99-106|1992|10.1016/0167-8809(92)90171-7
119874|T||Murdy,W.H.|Effect of SO2 on Sexual Reproduction in Lepidium virginicum L. Originating from Regions with Different SO2 Concentrations|Bot. Gaz.140(3): 299-303|1979|10.1086/337090
119875|T||Nakamura,M., M. Kuramata, I. Kasugai, M. Abe, and S. Youssefian|Increased Thiol Biosynthesis of Transgenic Poplar Expressing a Wheat O-Acetylserine(thiol) lyase Enhances Resistance to Hydrogen Sulfide and Sulfur Dioxide Toxicity|Plant Cell Rep.28(2): 313-323|2009|10.1007/s00299-008-0635-5
119876|T||Pell,E.J., N.S. Pearson, and C. Vinten-Johansen|Qualitative and Quantitative Effects of Ozone and/or Sulfur Dioxide on Field-Grown Potato Plants|Environ. Pollut.53(1-4): 171-186|1988|10.1016/0269-7491(88)90032-2
119877|T||Bosac,C., V.J. Black, C.R. Black, J.A. Roberts, and F. Lockwood|Impact of O3 and SO2 on Reproductive Development in Oilseed Rape (Brassica napus L.).  I.  Pollen Germination and Pollen Tube Growth|New Phytol.124(3): 439-446|1993|10.1111/j.1469-8137.1993.tb03834.x
119878|T||Bosac,C., J.A. Roberts, V.J. Black, and C.R. Black|Impact of O3 and SO2 on Reproductive Development in Oilseed Rape (Brassica napus L.).  II.  Reproductive Site Losses|New Phytol.126(1): 71-79|1994|10.1111/j.1469-8137.1994.tb07531.x
119879|T||Lang,C., J. Popko, M. Wirtz, R. Hell, C. Herschbach, J. Kreuzwieser, H. Rennenberg, R.R. Mendel, and R. Hansch|Sulphite Oxidase as Key Enzyme for Protecting Plants Against Sulphur Dioxide|Plant Cell Environ.30(4): 447-455|2007|10.1111/j.1365-3040.2006.01632.x
119880|T||ICI Americas Inc.|Initial Submission:  PP321:  1 Year Oral Dosing Study in Dogs with Cover Letter Dated 082892|EPA/OTS Doc #88-920006863:84 p.|1992|
119881|T||Geil,R.D., R.L. Peterson, and F.C. Guinel|Morphological Alterations of Pea (Pisum sativum Cv. Sparkle) Arbuscular Mycorrhizas as a Result of Exogenous Ethylene Treatment|Mycorrhiza11(3): 137-143|2001|10.1007/s005720100120
119882|T||De Lapeyre de Bellaire,L., M. Chillet, and X. Mourichon|Elaboration of an Early Quantification Method of Quiescent Infections of Colletotrichum musae on Bananas|Plant Dis.84(2): 128-133|2000|10.1094/PDIS.2000.84.2.128
119883|A||S R Hansen & Associates|Acute Toxicity of Two Wastewater Treatment Chemicals Containing Sodium Bisulfite to the Waterflea and the Fathead Minnow with Cover Letter Dated 05/19/94 (Sanitized)|S. R. Hansen and Associates, Valley Ford, CA:26 p.|1994|
119884|A||Analytical Bio-Chemistry Laboratories Inc.|Acute Toxicity of 7211 Containing Sodium Bisulfite to Bluegill Sunfish (Lepomis macrochirus) with Cover Letter Dated 05/19/94 (Sanitized)|Analytical Bio-Chemistry Lab.Inc., Columbia, MO:56 p.|1994|
119885|A||Analytical Bio-Chemistry Laboratories Inc.|Acute Toxicity of 7211 Containing Sodium Bisulfite to Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 05/19/94 (Sanitized)|Analytical Bio-Chemistry Lab.Inc., Columbia, MO:57 p.|1994|
119886|A||Analytical Bio-Chemistry Laboratories|Acute Toxicity of (7220) Containing Sodium Bisulfite to Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 05/19/94 (Sanitized)|Analytical Bio-Chemistry Lab.Inc., Columbia, MO:56 p.|1994|
119887|T||Hejtmancik,M.R., B.A. Trela, P.J. Kurtz, R.L. Persing, M.J. Ryan, J.T. Yarrington, and R.S. Chhabra|Comparative Gavage Subchronic Toxicity Studies of o-Chloroaniline and m-Chloroaniline in F344 Rats and B6C3F1 Mice|Toxicol. Sci.69(1): 234-243|2002|10.1093/toxsci/69.1.234
119889|T||Diaz,J., A. Ten Have, and J.A.L. Van Kan|The Role of Ethylene and Wound Signaling in Resistance of Tomato to Botrytis cinerea|Plant Physiol.129(3): 1341-1351|2002|10.1104/pp.001453
119890|A||Uheda,E., and S. Nakamura|Abscission of Azolla Branches Induced by Ethylene and Sodium Azide|Plant Cell Physiol.41(12): 1365-1372|2000|10.1093/pcp/pcd071
119891|T||Qadir,A., and F. Hashinaga|Nitrous Oxide Inhibits In Vitro Growth of Multiple Postharvest Fungi|Hortscience36(7): 1302-1304|2001|10.21273/HORTSCI.36.7.1302
119892|A||Azuma,T., T. Hatanaka, N. Uchida, and T. Yasuda|Enhancement of Transpiration by Ethylene is Responsible for Absence of Internodal Elongation in Floating Rice at Low Humidity|J. Plant Physiol.160(9): 1125-1128|2003|10.1078/0176-1617-01091
119893|AT||Chae,H.S., Y.G. Cho, M.Y. Park, M.C. Lee, M.Y. Eun, B.G. Kang, and W.T. Kim|Hormonal Cross-Talk Between Auxin and Ethylene Differentially Regulates the Expression of Two Members of the 1-Aminocyclopropane-1-Carboxylate Oxidase Gene Family in Rice (Oryza sativa L.)|Plant Cell Physiol.41(3): 354-362|2000|10.1093/pcp/41.3.354
119894|AT||Wang,Z.X., U. Yamanouchi, Y. Katayose, T. Sasaki, and M. Yano|Expression of the Pib Rice-Blast-Resistance Gene Family is Up-Regulated by Environmental Conditions Favouring Infection and by Chemical Signals that Trigger Secondary Plant Defences|Plant Mol. Biol.47(5): 653-661|2001|10.1023/A:1012457113700
119895|A||Rzewuski,G., and M. Sauter|The Novel Rice (Oryza sativa L.) Gene OsSbf1 Encodes a Putative Member of the Na+/Bile Acid Symporter Family|J. Exp. Bot.53(376): 1991-1993|2002|10.1093/jxb/erf053
119896|T||Ishii,T., Y.H. Shrestha, I. Matsumoto, and K. Kadoya|Effect of Ethylene on the Growth of Vesicular-Arbuscular Mycorrhizal Fungi and on the Mycorrhizal Formation of Trifoliate Orange Roots|J. Jpn. Soc. Hortic. Sci.65(3): 525-529|1996|10.2503/jjshs.65.525
119897|A||Kim,J.H., H.T. Cho, and H. Kende|alpha-Expansins in the Semiaquatic Ferns Marsilea quadrifolia and Regnellidium diphyllum: Evolutionary Aspects and Physiological Role in Rachis Elongation|Planta (Multiple Languages)212(1): 85-92|2000|10.1007/s004250000367
119898|A||Lorbiecke,R., and M. Sauter|Adventitious Root Growth and Cell-Cycle Induction in Deepwater Rice|Plant Physiol.119(1): 21-29|1999|10.1104/pp.119.1.21
119899|T||Liu,Z.M., and P.E. Kolattukudy|Identification of a Gene Product Induced by Hard-Surface Contact of Colletotrichum gloeosporioides Conidia as a Ubiquitin-Conjugating Enzyme by Yeast Complementation|J. Bacteriol.180(14): 3592-3597|1998|10.1128/JB.180.14.3592-3597.1998
119900|T||De Souza,P.M., P.H. Marinho, M.A. Barbosa Lima, A.E. Do Nascimento, and G.M. De Campos-Takaki|Effect of Dibenzothiophene on the Growth, on the Morphology and on the Ultrastructure of Cunninghamella elegans|In: A.Mendez Vilas (Ed.), 2nd Int.Conf.on Environmental, Industrial and Applied Microbiology, Nov.28-Dec.1, 2007, Seville, Spain, Current Research Topics in Applied Microbiology and Microbial Biotechnology, World Sci.Publ.Co.PTE Ltd., Singapore:645-650|2009|
119901|AT||Inukai,Y., M. Miwa, Y. Nagato, H. Kitano, and A. Yamauchi|Mechanical Stimulus-Sensitive Mutation, rrl3, Affects the Cell Production Process in the Root Meristematic Zone in Rice|Plant Prod. Sci.6(4): 265-273|2003|10.1626/pps.6.265
119902|T||Hogetsu,T., and M. Shishikura|Effects of Sulfur Dioxide and Ozone on Intact Leaves and Isolated Mesophyll Cells of Groundnut Plants (Arachis hypogaea L.)|J. Plant Res.107(1087): 229-235|1994|10.1007/BF02344249
119903|T||Marie,B.A., and D.P. Ormrod|Effects of Air Pollutants on Dry Matter Partitioning in Developing Rutabaga and Cabbage Plants|Environ. Pollut.53(1-4): 448-449|1988|10.1016/0269-7491(88)90071-1
119904|T||Kim,Y.H., S. Lim, S.H. Han, J.C. Lee, W.K. Song, J.W. Bang, S.Y. Kwon, H.S. Lee, and S.S. Kwak|Differential Expression of 10 Sweetpotato Peroxidases in Response to Sulfur Dioxide, Ozone, and Ultraviolet Radiation|Plant Physiol. Biochem.45(12): 908-914|2007|10.1016/j.plaphy.2007.07.019
119905|T||Tseng,M.J., C.W. Liu, and J.C. Yiu|Enhanced Tolerance to Sulfur Dioxide and Salt Stress of Transgenic Chinese Cabbage Plants Expressing Both Superoxide Dismutase and Catalase in Chloroplasts|Plant Physiol. Biochem.45(10/11): 822-833|2007|10.1016/j.plaphy.2007.07.011
119906|A||Bamdad,M., D. Denier, J. Bohatier, and C.A. Groliere|Toxicity of the Herbicide Chlorpropham Towards the Freshwater Ciliated Protozoan Tetrahymena pyriformis GL|Eur. J. Protistol.36(3): 319-325|2000|10.1016/S0932-4739(00)80008-5
119907|T||Fang,S.C., E. Fallin, M.L. Montgomery, and V.H. Freed|Metabolic Studies of 14C-Labeled Propham and Chlorpropham in the Female Rat|Pestic. Biochem. Physiol.4(1): 1-11|1974|10.1016/0048-3575(74)90078-9
119908|T||Islam,M.N., M.A. Karim, and Z. Nessa|Control of the Potato Tuber Moth, Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae) in the Storehouses for Seed and Ware Potatoes in Bangladesh|Bangladesh J. Zool.18(1): 41-52|1990|
119909|T||Macherel,D., P. Ravanel, and M. Tissut|Effects of Herbicidal Carbamates on Mitochondria and Chloroplasts|Pestic. Biochem. Physiol.18(3): 280-288|1982|10.1016/0048-3575(82)90068-2
119910|T||Wolf,D.C., and J.P. Martin|Decomposition of Fungal Mycelia and Humic-Type Polymers Containing Carbon-14 from Ring and Side-Chain Labeled 2,4-D and Chlorpropham|Soil Sci. Soc. Am. J.40(5): 700-704|1976|10.2136/sssaj1976.03615995004000050028x
119911|T||ICI Americas Inc.|Initial Submission:  Acute Oral and Acute Dermal Toxicity Studies with PP321 in Rats with Cover Letter Dated 082892|EPA/OTS Doc #88-920007123:92 p.|1992|
119913|AT||Daugschies,A., R. Bose, J. Marx, K. Teich, and K.T. Friedhoff|Development and Application of a Standardized Assay for Chemical Disinfection of Coccidia Oocysts|Vet. Parasitol.103(4): 299-308|2002|10.1016/S0304-4017(01)00581-7
119914|A||Steffens,B., and M. Sauter|Epidermal Cells that Undergo Cell Death Differentially Express Cell Identity Genes|Plant Signal. Behav.4(3): 247-248|2009|10.4161/psb.4.3.7957
119915|AT||Lee,T.M., H.S. Lur, Y.J. Shieh, and C. Chu|Levels of Abscisic Acid in Anoxia- or Ethylene-Treated Rice (Oryza sativa L.) Seedlings|Plant Sci.95(2): 125-131|1994|10.1016/0168-9452(94)90086-8
119916|T||Collins,T.J., B.M. Moerschbacher, and N.D. Read|Synergistic Induction of Wheat Stem Rust Appressoria by Chemical and Topographical Signals|Physiol. Mol. Plant Pathol.58(6): 259-266|2001|10.1006/pmpp.2001.0335
119917|T||Flaishman,M.A., C.S. Hwang, and P.E. Kolattukudy|Involvement of Protein Phosphorylation in the Induction of Appressorium Formation in Colletotrichum gloeosporioides by Its Host Surface Wax and Ethylene|Physiol. Mol. Plant Pathol.47(2): 103-117|1995|10.1006/pmpp.1995.1046
119918|T||Ahlfors,R., S. Lang, K. Overmyer, P. Jaspers, M. Brosche, A. Tauriainen, H. Kollist, H. Tuominen, E. Belles-Boix, M. Pi|Arabidopsis Radical-Induced Cell Death1 Belongs to the WWE Protein-Protein Interaction Domain Protein Family and Modulates Abscisic Acid, Ethylene, and Methyl Jasmonate Responses|Plant Cell16:1925-1937|2004|10.1105/tpc.021832
119919|T||Amagai,A., S. Soramoto, S. Saito, and Y. Maeda|Ethylene Induces Zygote Formation Through an Enhanced Expression of zyg1 in Dictyostelium mucoroides|Exp. Cell Res.313(11): 2493-2503|2007|10.1016/j.yexcr.2007.04.012
119920|A||Marchese,M., A.M. Gagneten, M.J. Parma, and P.J. Pave|Accumulation and Elimination of Chromium by Freshwater Species Exposed to Spiked Sediments|Arch. Environ. Contam. Toxicol.55(4): 603-609|2008|10.1007/s00244-008-9139-0
119921|T||Still,G.G., H.M. Balba, and E.R. Mansager|Studies on the Nature and Identity of Bound Chloroaniline Residues in Plants|J. Agric. Food Chem.29(4): 739-746|1981|10.1021/jf00106a014
119922|T||Mulleavy,P., and O.R. Collins|CIPC-Induced and Spontaneously Produced Diploid Myxamoebae in a Myxomycete, Didymium iridis: A Study of Mating-Type Heterozygotes|Mycologia73(1): 62-77|1981|10.1080/00275514.1981.12021320
119923|A||Roessink,I., A.A. Koelmans, and T.C.M. Brock|Interactions Between Nutrients and Organic Micro-Pollutants in Shallow Freshwater Model Ecosystems|Sci. Total Environ.406(3): 436-442|2008|10.1016/j.scitotenv.2008.07.051
119924|T||Laffin,B., M. Chavez, and M. Pine|The Pyrethroid Metabolites 3-Phenoxybenzoic Acid and 3-Phenoxybenzyl Alcohol do not Exhibit Estrogenic Activity in the MCF-7 Human Breast Carcinoma Cell Line or Sprague-Dawley Rats|Toxicology267(1-3): 39-44|2010|10.1016/j.tox.2009.10.003
119925|T||Wu,Q.J., J.Z. Zhao, A.G. Taylor, and A.M. Shelton|Evaluation of Insecticides and Application Methods Against Contarinia nasturtii (Diptera: Cecidomyiidae), a New Invasive Insect Pest in the United States|J. Econ. Entomol.99(1): 117-122|2006|10.1603/0022-0493(2006)099[0117:EOIAAM]2.0.CO;2
119926|T||Baumler,R.E., and D.A. Potter|Knockdown, Residual, and Antifeedant Activity of Pyrethroids and Home Landscape Bioinsecticides Against Japanese Beetles (Coleoptera: Scarabaeidae) on Linden Foliage|J. Econ. Entomol.100(2): 451-458|2007|10.1093/jee/100.2.451
119927|A||Saravanan,R., K. Revathi, and P.B. Murthy|lambda Cyhalothrin Induced Changes in Protein Metabolism of Various Tissues in Freshwater Catfish Clarias batrachus|Indian J. Environ. Toxicol.17(1): 6-12|2007|
119928|T||Boyd,E.M., and E. Carsky|The Acute Oral Toxicity of the Herbicide Chlorpropham in Albino Rats.  Effect of Diets Containing Varying Amounts of Protein|Arch. Environ. Health19(5): 621-627|1969|10.1080/00039896.1969.10666900
119929|T||Rouillon,R., C. Poulain, J. Bastide, and C.M. Coste|Degradation of the Herbicide Chlorpropham by Some Ectomycorrhizal Fungi in Pure Culture|Agric. Ecosyst. Environ.28(1-4): 421-424|1989|10.1016/0167-8809(90)90073-M
119930|T||Dikshith,T.S.S., G. Carrera, R.B. Raizada, and S. Mitjavila|Interaction of Hexachlorocyclohexane (HCH) and Chlorpropham (CIPC) in Male Rats|Toxicol. Lett.45(2/3): 281-288|1989|10.1016/0378-4274(89)90019-2
119931|T||Fujitani,T., Y. Tada, A.T. Noguchi, and M. Yoneyama|Effects of Chlorpropham (CIPC) on the Hemopoietic System of Rats|Food Chem. Toxicol.39(3): 253-259|2001|10.1016/S0278-6915(00)00139-3
119932|T||Fujitani,T., Y. Tada, A.T. Noguchi, and M. Yoneyama|Hemotoxicity of Chlorpropham (CIPC) in F344 Rats|Toxicology123(1-2): 111-124|1997|10.1016/S0300-483X(97)00113-3
119933|T||Fujitani,T., Y. Tada, A. Fujii, M. Kimura, and M. Yoneyama|Subchronic Toxicity of Chlorpropham (CIPC) in ICR Mice|Food Chem. Toxicol.38(7): 617-625|2000|10.1016/S0278-6915(00)00043-0
119934|T||Schwippert,W.|Inhibition of Potassium- and Acetylcholine-Induced Contractions in a Molluscan Smooth Muscle by Herbicidal Carbamates|Comp. Biochem. Physiol. C Comp. Pharmacol.73(2): 253-257|1982|10.1016/0306-4492(82)90117-4
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119936|T||Cycon,M., Z. Piotrowska-Seget, A. Kaczynska, and J. Kozdroj|Microbiological Characteristics of a Sandy Loam Soil Exposed to Tebuconazole and lambda-Cyhalothrin Under Laboratory Conditions|Ecotoxicology15(8): 639-646|2006|10.1007/s10646-006-0099-8
119937|A||Leavitt,D.F.|An Evaluation of Gravimetric and Inert Marker Techniques to Measure Digestibility in the American Lobster|Aquaculture47(2-3): 131-142|1985|10.1016/0044-8486(85)90059-6
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119939|A||Campana,M.A., A.M. Panzeri, V.J. Moreno, and F.N. Dulout|Genotoxic Evaluation of the Pyrethroid lambda-Cyhalothrin Using the Micronucleus Test in Erythrocytes of the Fish Cheirodon interruptus interruptus|Mutat. Res.438(2): 155-161|1999|10.1016/S1383-5718(98)00167-3
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119941|A||Lauridsen,R.B., and N. Friberg|Stream Macroinvertebrate Drift Response to Pulsed Exposure of the Synthetic Pyrethroid lambda-Cyhalothrin|Environ. Toxicol.20(5): 513-521|2005|10.1002/tox.20140
119942|T||Rogerieux,F., D. Godfrin, H. Senechal, A.C. Motta, M. Marliere, G. Peltre, and G. Lacroix|Modifications of Phleum pratense Grass Pollen Allergens Following Artificial Exposure to Gaseous Air Pollutants (O3, NO2, SO2)|Int. Arch. Allergy Immunol.143(2): 127-134|2007|10.1159/000099079
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119944|T||Faisal,M., A. Hameed, and S. Hasnain|Chromium-Resistant Bacteria and Cyanobacteria:  Impact on Cr(VI) Reduction Potential and Plant Growth|J. Ind. Microbiol. Biotechnol.32(11-12): 615-621|2005|10.1007/s10295-005-0241-2
119945|T||Faisal,M., and S. Hasnain|Chromate Resistant Bacillus cereus Augments Sunflower Growth by Reducing Toxicity of Cr (VI)|J. Plant Biol.48(2): 187-194|2005|10.1007/BF03030407
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119949|A||Subashini,P., R. Manavalaramanujam, M. Ramesh, and N. Geetha|Changes in Selected Biomarkers in Freshwater Teleost Fish, Cyprinus carpio var. communis Exposed to Sublethal Concentrations of Chromium Sulphate Toxicity|J. Environ. Sci. Eng.47(4): 65-68|2005|
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119957|A||Shaalan,E.A.S., D.V. Canyon, B. Bowden, M.W.F. Younes, H. Abdel-Wahab, and A.H. Mansour|Efficacy of Botanical Extracts from Callitris glaucophylla, Against Aedes aegypti and Culex annulirostris Mosquitoes|Trop. Biomed.23(2): 180-185|2006|
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119960|T||Van den Berg,H., K. Hassan, and M. Marzuki|Evaluation of Pesticide Effects on Arthropod Predator Populations in Soya Bean in Farmers'  Fields|Biocontrol Sci. Technol.8(1): 125-137|1998|10.1080/09583159830496
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119962|T||Reagan,T.E., L.M. Rodriguez, E.A. Ostheimer, A.E. Woolwine, and W.H. White|Comparison of Insecticide Effects on a Braconid Parasitoid, Cotesia chilonis, in Sugarcane, 1996|Arthropod Manag. Tests22:321-|1997|
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119965|T||Woolwine,A.E., L.M. Rodriguez, E.A. Ostheimer, and T.E. Reagan|Effects of Insecticides on Non-Target Insects in Sugarcane, 1996|Arthropod Manag. Tests22:322-323|1997|10.1093/amt/22.1.322
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119967|T||Li,S.Y., D.R. Clements, and R. Harmsen|Effect of Low-Rate Pyrethroid Applications on the Spotted Tentiform Leafminer (Lepidoptera: Gracillariidae) and Its Parasitoids in an Apple Orchard|J. Econ. Entomol.85(1): 192-201|1992|10.1093/jee/85.1.192
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119973|T||Hauck,M.|Susceptibility to Acidic Precipitation Contributes to the Decline of the Terricolous Lichens Cetraria aculeata and Cetraria islandica in Central Europe|Environ. Pollut.152(3): 731-735|2008|10.1016/j.envpol.2007.06.046
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119977|A||Papis,E., G. Bernardini, R. Gornati, and M. Prati|Triadimefon Causes Branchial Arch Malformations in Xenopus laevis Embryos|Environ. Sci. Pollut. Res.13(4): 251-255|2006|10.1065/espr2006.01.014
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119982|T||Derin,N., P. Yargicoglu, M. Aslan, O. Elmas, A. Agar, and Y. Aiciguzel|The Effect of Sulfite and Chronic Restraint Stress on Brain Lipid Peroxidation and Anti-Oxidant Enzyme Activities|Toxicol. Ind. Health22(6): 233-240|2006|10.1191/0748233706th264oa
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119989|T||Power,K.T., D.J. Shetlar, and H.D. Niemczyk|Suppression of Ant Mound Activity on a Golf Course Fairway, 1997|Arthropod Manag. Tests23(0): 335-|1998|
119990|T||Shakoori,A.R., F. Aslam, M. Sabir, and S.S. Ali|Effect of Prolonged Administration of Insecticide (Cyhalothrin/Karate) on the Blood and Liver of Rabbits|Folia Biol. (Prague)40(1-2): 91-99|1992|
119991|T||Swier,S.R., A. Rollins, R. Lamarche, and M. Hodgson|Efficacy of Two Scimitar Formulations on Ants, 1997|Arthropod Manag. Tests23(0): 338-|1998|
119992|A||Pilling,E.D., and T.J. Kedwards|Effects of lambda-Cyhalothrin on Natural Enemies of Rice Insect Pests|Br. Crop Prot. Conf. Pests Dis.:361-366|1996|
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119997|T||Chaudhary,L.C., and A. Srivastava|Performance of Growing Murrah Buffalo Calves as Affected by Treatment with Manoxol and the Presence of Ciliate Protozoa in the Rumen|Anim. Feed Sci. Technol.51(3-4): 281-286|1995|10.1016/0377-8401(94)00689-7
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119999|T||Fetoui,H., M. Garoui El, and N. Zeghal|lambda-Cyhalothrin-Induced Biochemical and Histopathological Changes in the Liver of Rats: Ameliorative Effect of Ascorbic Acid|Exp. Toxicol. Pathol.61(3): 189-196|2009|10.1016/j.etp.2008.08.002
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120008|T||Umina,P.A., A.L. Arthur, S.A. McColl, A.A. Hoffmann, and J.M.K. Roberts|Selective Control of Mite and Collembolan Pests of Pastures and Grain Crops in Australia|Crop Prot.29(2): 190-196|2010|10.1016/j.cropro.2009.07.018
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120023|T||Hornychova,M., E. Frantik, J. Kubat, and J. Formanek|Neurotoxicity Profile of Supermethrin, a New Pyrethroid Insecticide|Cent. Eur. J. Publ. Health3(4): 210-218|1995|
120024|T||Desneux,N., M.H. Pham-Delegue, and L. Kaiser|Effects of Sub-Lethal and Lethal Doses of lambda-Cyhalothrin on Oviposition Experience and Host-Searching Behaviour of a Parasitic Wasp, Aphidius ervi|Pest Manag. Sci.60(4): 381-389|2004|10.1002/ps.822
120025|A||Heckmann,L.H., N. Friberg, and H.W. Ravn|Relationship Between Biochemical Biomarkers and Pre-Copulatory Behaviour and Mortality in Gammarus pulex Following Pulse-Exposure to lambda-Cyhalothrin|Pest Manag. Sci.61:627-635|2005|10.1002/ps.1048
120026|A||Kumar,A., B. Sharma, and R.S. Pandey|Cypermethrin and lambda-Cyhalothrin Induced Alterations in Nucleic Acids and Protein Contents in a Freshwater Fish, Channa punctatus|Fish Physiol. Biochem.34(4): 331-338|2008|10.1007/s10695-007-9192-z
120027|A||Kumar,A., B. Sharma, and R.S. Pandey|Cypermethrin and lambda-Cyhalothrin Induced In Vivo Alterations in Nucleic Acids and Protein Contents in a Freshwater Catfish, Clarias batrachus (Linnaeus; Family-Clariidae)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(6): 564-570|2009|
120028|A||Kumar,A., D.K. Rai, B. Sharma, and R.S. Pandey|Lambda-Cyhalothrin and Cypermethrin Induced In Vivo Alterations in the Activity of Acetylcholinesterase in a Freshwater Fish, Channa punctatus (Bloch)|Pestic. Biochem. Physiol.93(2): 96-99|2009|10.1016/j.pestbp.2008.12.005
120029|T||Moniz,A.C., M.M. Bernardi, H.S. Souza-Spinosa, and J. Palermo-Neto|Effects of Exposure to a Pyrethroid Insecticide During Lactation on the Behavior of Infant and Adult Rats|Braz. J. Med. Biol. Res.23(1): 45-48|1990|
120030|T||Ratnasooriya,W.D., S.S.K. Ratnayake, and Y.N.A. Jayatunga|Effects of Pyrethroid Insecticide Icon (lambda Cyhalothrin) on Reproductive Competence of Male Rats|Asian J. Androl.4(1): 35-41|2002|
120031|A||Mulla,M.S., M. Zgomba, H.A. Darwazeh, and J.D. Chaney|Efficacy and Selectivity of Two Pyrethroid Insecticides Against the Predator Triops longicaudatus (Notostraca: Triopsidae) and Culex tarsalis Larvae|Bull. Soc. Vector Ecol.17(1): 51-56|1992|
120032|A||Lawler,S.P., D.A. Dritz, J.A. Christiansen, and A.J. Cornel|Effects of lambda-Cyhalothrin on Mosquito Larvae and Predatory Aquatic Insects|Pest Manag. Sci.63(3): 234-240|2007|10.1002/ps.1279
120033|A||Okechukwu,E.O., and J. Auta|The Effects of Sub-Lethal Doses of lambda-Cyhalothrin on Some Biochemical Characteristics of the African Catfish Clarias gariepinus|J. Biol. Sci. (Faisalabad)7(8): 1473-1477|2007|10.3923/jbs.2007.1473.1477
120034|A||Saravanan,R., K. Revathi, and P.B. Murthy|lambda Cyhalothrin Induced Alterations in Clarias batrachus|J. Environ. Biol.30(2): 265-270|2009|
120035|T||Ekesi,S., N.K. Maniania, K. Ampong-Nyarko, and I. Onu|Effect of Intercropping Cowpea with Maize on the Performance of Metarhizium anisopliae Against Megalurothrips sjostedti (Thysanoptera: Thripidae) and Predators|Environ. Entomol.28(6): 1154-1161|1999|10.1093/ee/28.6.1154
120036|T||Righi,D.A., F.G. Xavier, and J. Palermo-Neto|Cyhalothrin Increased c-Fos Immunoreactivity at the Paraventricular Nucleus of the Hypothalamus in Rats, and Suppressed Macrophage Activity in an Adrenal-Dependent Fashion|Environ. Toxicol. Pharmacol.27(1): 96-102|2009|10.1016/j.etap.2008.08.011
120037|A||Velmurugan,B., T. Ambrose, and M. Selvanayagam|Genotoxic Evaluation of lambda-Cyhalothrin in Mystus gulio|J. Environ. Biol.27(2): 247-250|2006|
120038|T||Danicke,S., A. Beineke, T. Goyarts, H. Valenta, M. Beyer, and H.U. Humpf|Effects of a Fusarium Toxin-Contaminated Triticale, Either Untreated or Treated with Sodium Metabisulphite (Na2S2O5, SBS), on Weaned Piglets with a Special Focus on Liver Function as Determined by the 13C-Methacetin Bre|Arch. Anim. Nutr.62(4): 263-286|2008|10.1080/17450390802214167
120039|T||Dev,U., C. Devakumar, J. Mohan, and P.C. Agarwal|Antifungal Activity of Aroma Chemicals Against Seed-Borne Fungi|J. Essent. Oil Res.16(5): 496-499|2004|10.1080/10412905.2004.9698780
120040|A||Guner,U.|Determination of lambda Cyhalotrin (Tekvando 5ec) 96 Hour Lethal Concentration 50 at Gambusia affinis (Baird & Girard, 1853)|J. Fish. Sci.3(3): 214-219|2009|
120041|T||Miszalski,Z.|SOD Activity in CAM Plant Kalanchoe daigremontiana Exposed to SO2|Acta Soc. Bot. Pol.64(3): 251-254|1995|10.5586/asbp.1995.033
120042|T||Krishnappa,H., Honnegowda, T.P. Suresh, K. Jayakumar, and K. Narayana|Effect of lambda Cyhalothrin, a Synthetic Pyrethroid Insecticide on Certain Defence Mechanisms and Immune Response in Male Rats|Indian Vet. J.76(6): 506-510|1999|
120043|A||Barbee,G.C., and M.J. Stout|Comparative Acute Toxicity of Neonicotinoid and Pyrethroid Insecticides to Non-Target Crayfish (Procambarus clarkii) Associated with Rice-Crayfish Crop Rotations|Pest Manag. Sci.65(11): 1250-1256|2009|10.1002/ps.1817
120044|T||Eastman Kodak Co.|Initial Submission:  Toxicological Investigation of: m-Chloroaniline with Cover Letter Dated 081492|EPA/OTS Doc #88-920007808:5 p.|1992|
120045|T||Schaarschmidt,F., M. Sill, and L.A. Hothorn|Poly-k-Trend Tests for Survival Adjusted Analysis of Tumor Rates Formulated as Approximate Multiple Contrast Test|J. Biopharm. Stat.18:934-948|2008|10.1080/10543400802294285
120046|A||Langlois,V.S., A.C. Carew, B.D. Pauli, M.G. Wade, G.M. Cooke, and V.L. Trudeau|Low Levels of the Herbicide Atrazine Alter Sex Ratios and Reduce Metamorphic Success in Rana pipiens Tadpoles Raised in Outdoor Mesocosms|Environ. Health Perspect.118(4): 552-557|2010|10.1289/ehp.0901418
120047|A||Brinkman,S., and N. Vieira|Water Pollution Studies|Federal Aid Project F-243-R14, Job Progress Report, Colorado Div.of Wildlife, Fort Collins, Co:98 p.|2007|
120049|T||Rai,R.K., M.K. Srivastava, A.K. Khare, S.P. Shukla, R. Kishor, and A.K. Shrivastava|Gas Exchange Characteristics of Chromium and Nickel Treated Sugarcane Plants|Sugar Technol.9(2-3): 152-159|2007|
120050|T||Weaver,J.E., and B.D. Smith|Allegheny Mound Ant Control, Grant Co., WV, 1992|Insectic. Acaric. Tests18:337-338|1993|10.1093/iat/18.1.337
120051|T||Das,S.K., and A.K. Guha|Biosorption of Hexavalent Chromium by Termitomyces clypeatus Biomass: Kinetics and Transmission Electron Microscopic Study|J. Hazard. Mater.167(1-3): 685-691|2009|10.1016/j.jhazmat.2009.01.037
120052|A||Kalafatic,M., N. Kopjar, and D. Znidaric|The Effect of Chromium upon the Division of Interstitial Cells and Asexual Reproduction of Hydra vulgaris Pallas Species|Period. Biol.99(1): 149-150|1997|
120053|T||Sierra-Alvarez,R.|Fungal Bioleaching of Metals in Preservative-Treated Wood|Process Biochem.42(5): 798-804|2007|10.1016/j.procbio.2007.01.019
120054|T||Maruyama-Nakashita,A., E. Inoue, K. Saito, and H. Takahashi|Sulfur-Responsive Promoter of Sulfate Transporter Gene is Potentially Useful to Detect and Quantify Selenate and Chromate|Plant Biotechnol.24(2): 261-263|2007|10.5511/plantbiotechnology.24.261
120055|T||Kozlova,O., M. Zwinderman, and N. Christofi|A New Short-Term Toxicity Assay Using Aspergillus awamori with Recombinant Aequorin Gene|BMC Microbiol.5(40): 9 p.|2005|
120056|A||Mecozzi,M., F. Onorati, F. Oteri, and A. Sarni|Characterisation of a Bioassay Using the Marine Alga Dunaliella tertiolecta Associated with Spectroscopic (Visible and Infrared) Detection|Int. J. Environ. Pollut.32(1): 104-120|2008|10.1504/IJEP.2008.016902
120058|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate, 1994|Arthropod Manag. Tests20:229-|1995|
120059|T||Bailey,J.C.|Efficacy of Alternative Sweet Corn Pest Control Agents and Their Impact on Honey Bees|M.S. Thesis, University of Guelph, Ontario, Canada:93 p.|2004|
120060|T||Pierre,M., and O. Queiroz|Air Pollution by SO2 Amplifies the Effects of Water Stress on Enzymes and Total Soluble Proteins of Spruce Needles|Physiol. Plant. (Multiple Languages)73(3): 412-417|1988|10.1111/j.1399-3054.1988.tb00619.x
120062|T||Lee,E.H., J.K. Byun, and S.J. Wilding|A New Gibberellin Biosynthesis Inhibitor, Paclobutrazol (PP333), Confers Increased SO2 Tolerance on Snap Bean Plants|Environ. Exp. Bot.25(3): 265-275|1985|
120063|T||Nelson,K.A.|Soybean (Glycine max (L.) Merr) Growth and Development, White Mold (Sclerotinia sclerotiorum (Lib.) de Bary) Incidence, and Yellow Nutsedge (Cyperus esculentus L.) Control as Affected by Glyphosate and Other Herbicides|Ph.D. Thesis, Michigan State University, East Lansing, MI:279 p.|2000|
120064|A||Kobayashi,N., and H. Okamura|Effects of Heavy Metals on Sea Urchin Embryo Development.  1. Tracing the Cause by the Effects|Chemosphere55:1403-1412|2004|10.1016/j.chemosphere.2003.11.052
120065|T||Marty,I., S. Bureau, G. Sarkissian, B. Gouble, J.M. Audergon, and G. Albagnac|Ethylene Regulation of Carotenoid Accumulation and Carotenogenic Gene Expression in Colour-Contrasted Apricot Varieties (Prunus armeniaca)|J. Exp. Bot.56(417): 1877-1886|2005|10.1093/jxb/eri177
120066|T||Castillejo,C., J. Ignacio de la Fuente, P. Iannetta, M.A. Botella, and V. Valpuesta|Pectin Esterase Gene Family in Strawberry Fruit:  Study of FaPE1, a Ripening-Specific Isoform|J. Exp. Bot.55(398): 909-918|2004|10.1093/jxb/erh102
120067|T||Tapia,G., I. Verdugo, M. Yanez, I. Ahumada, C. Theoduloz, C. Cordero, F. Poblete, E. Gonzalez, and S. Ruiz-Lara|Involvement of Ethylene in Stress-Induced Expression of the TLC1.1 Retrotransposon from Lycopersicon chilense Dun.|Plant Physiol.138:2075-2086|2005|10.1104/pp.105.059766
120068|T||Fonseca,J.M., J.W. Rushing, N.C. Rajapakse, R.L. Thomas, and M.B. Riley|Parthenolide and Abscisic Acid Synthesis in Feverfew are Associated but Environmental Factors Affect them Dissimilarly|J. Plant Physiol.162(5): 485-494|2005|10.1016/j.jplph.2004.09.010
120069|A||Vincent,S., T. Ambrose, and M. Selvanayagam|Susceptibility of Catla catla (Ham.) to the Toxic Effects of the Heavy Metals, Cadmium and Chromium|Uttar Pradesh J. Zool.14(1): 25-28|1994|
120070|T||Iqbal,M.Z., M. Shafiq, and S. Saeeda|Effects of Chromium on Senna holosericea Populations|Sci. Khyber14(2): 65-72|2001|
120074|T||Guo,Y.P., Y. Peng, M.L. Lin, D.P. Guo, M.J. Hu, Y.K. Shen, D.Y. Li, and S.J. Zheng|Different Pathways are Involved in the Enhancement of Photosynthetic Rate by Sodium Bisulfite and Benzyladenine, a Case Study with Strawberry (Fragaria X ananassa Duch) Plants|Plant Growth Regul.48(1): 65-72|2006|10.1007/s10725-005-4403-z
120075|T||Union Carbide Corp.|Initial Submission:  Skin Irritation (Final Report) on Triton X-300 with Cover Letter Dated 030692|EPA/OTS Doc #88-920001406:6 p.|1992|
120076|A||DuPont Chemical Corp.|Initial Submission:  Static, Acute 48-Hour EC50 of Formula 989 to Daphnia magna with Cover Letter Dated 090292|EPA/OTS Doc #88-920009292:18 p.|1992|
120077|T||Ciba Specialty Chemicals Corp.|Initial Submission:  Letter from Ciba Specialty Chems Inc to USEPA Re Acute Toxicity Studies of Alcopol 0 70PG, Collafix PP2, & CFR 5651/Magnafloc 1697, W/Attchmts & Dated 12/23/98|EPA/OTS Doc #88990000073:39 p.|1999|
120078|T||Angerhofer,R.A., M.W. Michie, M.P. Barlow, and P.A. Beall|Phase 4.  Assessment of the Developmental Toxicity of Zinc Naphthenate in Rats|Study 75-51-0497-91, June 1985 - July 1988, Army Environmental Hygiene Agency, Aberdeen Proving Ground, MD:40 p.|1991|
120079|T||Moyle,J.L., and P.C. Jepson|Short-Term Risk Predictions for Episyrphus balteatus (Diptera:  Syrphidae) Larvae Exposed to Pyrethroids on Winter Wheat|Sci. Total Environ.:791-797|1993|10.1016/S0048-9697(05)80084-1
120080|T||Dolgushin,M.V., and L.M. Sosedova|Hydrolase and Oxidoreductase Activities in Peripheral Blood Lymphocytes in Combined Exposure to Biological Allergens and Sulfur Dioxide|Bull. Exp. Biol. Med.141(2): 257-260|2006|10.1007/s10517-006-0143-y
120081|T||Lewer,P., K.L. Finney-Brink, and D.O. Duebelbeis|Nature of the Residue of [14C]Cloransulam-Methyl in Lactating Goats|J. Agric. Food Chem.48(6): 2532-2546|2000|10.1021/jf9909611
120083|T||Johnson,G.V., and L.L. Barton|Inhibition of Iron Deficiency Stress Response in Cucumber by Rare Earth Elements|Plant Physiol. Biochem.45(5): 302-308|2007|10.1016/j.plaphy.2007.03.012
120086|T||Dueck,T.A.|The Influence of Air Pollution on Grass Populations in the Netherlands|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam7:83-97|1986|
120088|T||Dueck,T.A.|Heavy Metal Impact and Genetic Consititution of Plant Populations in the Vicinity of Two Metal Emission Sources|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam:14-30|1986|
120089|T||Dueck,T.A., P. Visser, W.H.O. Ernst, and H. Schat|Vesicular-Arbuscular Mycorrhizae Decrease Zinc-Toxicity to Grasses Growing in Zinc-Polluted Soil|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam3:41-43|1986|
120090|T||Dueck,T.A.|Nutrient Fertilization, Copper Toxicity and Growth in Three Grassland Species in the Netherlands|In: T.A.Dueck (Ed.), Impact of Heavy Metals and Air Pollutants on Plants, Free University Press, Amsterdam4:44-57|1986|
120091|T||Widdop,B., R.K. Medd, and R.A. Braithwaite|Charcoal Haemoperfusion in the Treatment of Paraquat Poisoning|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:156-159|1977|
120092|T||Scorza Barcellona,P., B. Catanese, V. Cioli, and B. Silvestrini|A Critical Evaluation of the Correlation Between Blood Levels and Antispermatogenic Effects of AF 1312/TS in Rats|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:195-197|1977|
120093|T||Tjalve,H., and A. Oskarsson|The Tissue Localization of Nickel Carbonyl in Mice|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:211-214|1977|
120094|T||Spencer,K.E.V., and T.J. Sutton|The Lethal Effects of Metiamide Compared with Phenylthiourea|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:286-287|1977|
120095|T||Appelgren,L.E., G. Eneroth, and C. Grant|Studies on Ethylene Oxide:  Whole-Body Autoradiography and Dominant Lethal Test in Mice|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:315-317|1977|
120097|T||Rivett,K.F., R. Heywood, S.C. Saxena, and O.R. Offringa|Toxicity of DU 41274, an Esperimental Gestagen, in the Beagle Dog After Oral Administration for 50 Weeks|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:291-293|1977|
120098|T||Zbinden,G., and R. Ettlin|Effect of a Specific Antitesticular Pipecolinomethyl-Hydroxyindane on Bone Marrow Function of the Rat|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:297-299|1977|
120105|T||Frater-Schroder,M., G. Zbinden, and O.F. Stahel|Biomechanistic Studies on the Antitesticular Effect of a Pipecolino-Methylhydroxyindane in Rats|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:300-301|1977|
120107|T||Svendsen,O.|The Role of Dehydration on the Acute Toxicity of Amphetamine in Grouped Mice|In: W.A.M.Duncan and B.J.Leonard (Eds.), Clinical Toxicology, Proceedings of the European Society of Toxicology, Edinburgh:302-305|1977|
120109|T||Nelson,K.A., K.A. Renner, and R. Hammerschmidt|Effects of Protoporphyrinogen Oxidase Inhibitors on Soybean (Glycine max L.) Response, Sclerotinia sclerotiorum Disease Development, and Phytoalexin Production by Soybean|Weed Technol.16(2): 353-359|2002|10.1614/0890-037X(2002)016[0353:EOPOIO]2.0.CO;2
120113|A||Hall,S., T. Bradley, J.T. Moore, T. Kuykindall, and L. Minella|Acute and Chronic Toxicity of Nano-Scale TiO2 Particles to Freshwater Fish, Cladocerans, and Green Algae, and Effects of Organic and Inorganic Substrate on TiO2 Toxicity|Nanotoxicology3(2): 91-97|2009|10.1080/17435390902788078
120114|A||Shivakumar,R., R.C. Kuri, S.B. Mushigeri, and M. David|Effect of Endosulfan to Freshwater Fish, Ctenopharyngodon idellus|J. Ecotoxicol. Environ. Monit.15(2): 113-116|2005|
120115|A||Cyr,D.G., D.L. MacLatchy, and J.G. Eales|The Influence of Short-Term 17beta Estradiol Treatment on Plasma T3 Levels and In Vivo Hepatic T4 5'-Monodeiodinase Activity in Immature Rainbow Trout, Salmo gairdneri|Gen. Comp. Endocrinol.69:431-438|1988|10.1016/0016-6480(88)90035-4
120116|A||Saaristo,M., J.A. Craft, K.K. Lehtonen, and K. Lindstrom|Sand Goby (Pomatoschistus minutus) Males Exposed to an Endocrine Disrupting Chemical Fail in Nest and Mate Competition|Horm. Behav.56:315-321|2009|10.1016/j.yhbeh.2009.06.010
120117|A||Da Cuna,R., M. Pandolfi, Y. Piazza, M. Maggese, P. Vissio, and F. Lo Nosto|Seasonal-Dependent Effect of Endosulfan Exposure on Gonadotropins of Cichlasoma dimerus (Perciformes, Cichlidae)|Cybium32(suppl.2): 54-|2008|
120119|A||Carnevali,M.D.C.|Regenerative Response and Endocrine Disrupters in Crinoid Echinoderms:  An old Experimental Model, a new Ecotoxicological Test|Prog. Mol. Subcell. Biol.39:167-200|2005|10.1007/3-540-27683-1_8
120121|A||Kuhl,A.J., and M. Brouwer|Antiestrogens Inhibit Xenoestrogen-Induced Brain Aromatase Activity but do not Prevent Xenoestrogen-Induced Feminization in Japanese Medaka (Oryzias latipes)|Environ. Health Perspect.114(4): 500-506|2006|10.1289/ehp.8211
120122|T||Otani,T., N. Seike, and Y. Sakata|Differential Uptake of Dieldrin and Endrin from Soil by Several Plant Families and Cucurbita Genera|Soil Sci. Plant Nutr.53(1): 86-94|2007|10.1111/j.1747-0765.2007.00102.x
120124|T||Mackowiak,C.L., P.R. Grossl, and K.L. Cook|Iodine Toxicity in a Plant-Solution System with and Without Humic Acid|Plant Soil269(1-2): 141-150|2005|10.1007/s11104-004-0401-6
120125|T||Byers,J.A.|Upwind Flight Orientation to Pheromone in Western Pine Beetle Tested with Rotating Windvane Traps|J. Chem. Ecol.14(1): 189-198|1988|10.1007/BF01022541
120128|A||Rao,K.R., and M. Fingerman|Action of Biogenic Amines on Crustacean Chromatophores, II.  Analysis of the Responses of Erythrophores in the Fiddler Crab, Uca pugilator, to Indolealkylamines and an Eyestalk Hormone|Comp. Gen. Pharmacol.1:117-126|1970|10.1016/0010-4035(70)90016-9
120129|A||Forlin,L., and T. Hansson|Effects of Oestradiol-17beta and Hypophysectomy on Hepatic Mixed Function Oxidases in Rainbow Trout|J. Endocrinol.95:245-252|1982|10.1677/joe.0.0950245
120130|A||Abidli,S., Y. Lahbib, and N.T. El Menif|Effects of TBT on the Imposex Development, Reproduction and Mortality in Hexaplex trunculus (Gastropoda:  Muricidae)|J. Mar. Biol. Assoc. U.K.89(1): 139-146|2009|10.1017/S0025315408002282
120131|T||Chervin,C., A. El-Kereamy, J.P. Roustan, A. Latche, J. Lamon, and M. Bouzayen|Ethylene Seems Required for the Berry Development and Ripening in Grape, a Non-Climacteric Fruit|Plant Sci.167:1301-1305|2004|10.1016/j.plantsci.2004.06.026
120134|T||De Vos,M., K.L. Kriksunov, and G. Jander|Indole-3-Acetonitrile Production from Indole Glucosinolates Deters Oviposition by Pieris rapae|Plant Physiol.146:916-926|2008|10.1104/pp.107.112185
120135|T||Roy,A., S. BoseDasgupta, A. Ganguly, P. Jaisankar, and H.K. Majumder|Topoisomerase I Gene Mutations at F270 in the Large Subunit and at N184 in the Small Subunit Contribute to the Resistance Mechanism of Unicellular Parasite Leishmania donovani Towards 3,3'-Diindolymethane (DIM)|Antimicrob. Agents Chemother.:1-33|2009|
120138|T||Mumcouglu,K.Y., R. Galun, U. Bach, J. Miller, and S. Magdassi|Repellency of Essential Oils and Their Components to the Human Body Louse, Pediculus humanus humanus|Entomol. Exp. Appl.78:309-314|1996|10.1111/j.1570-7458.1996.tb00795.x
120139|T||Flors,V., M. Paradis, J. Garcia-Andrade, M. Cerezo, C. Gonzalez-Bosch, and P.G.A. Pilar|A Tolerant Behavior in Salt-Sensitive Tomato Plants can be Mimicked by Chemical Stimuli|Plant Signal. Behav.2(1): 50-57|2007|10.4161/psb.2.1.3862
120140|T||LeClere,S., R.A. Rampey, and B. Bartel|IAR4, a Gene Required for Auxin Conjugate Sensitivity in Arabidopsis, Encodes a Pyruvate Dehydrogenase E1alpha Homolog|Plant Physiol.135:1-11|2004|10.1104/pp.104.040519
120141|T||Alabadi,D., J. Gil, M.A. Blazquez, and J.L. Garcia-Martinez|Gibberellins Repress Photomorphogenesis in Darkness|Plant Physiol.134:1050-1057|2004|10.1104/pp.103.035451
120142|T||Muday,G.K.|Running Head:  Ethylene-Independent Control of Gravitropism by RCN1 & EIN2|American Society of Plant Biologists, Rockville, MD:47 p.|2006|
120143|T||Fomina,M., S. Hillier, J.M. Charnock, K. Melville, I.J. Alexander, and G.M. Gadd|Role of Oxalic Acid Overexcretion in Transformations of Toxic Metal Minerals by Beauveria caledonica|Appl. Environ. Microbiol.71(1): 371-381|2005|10.1128/AEM.71.1.371-381.2005
120144|T||Kim,W.T.|Running Head:  Hot Pepper U-Box Ub E3 Ligase CaPUB1|American Society of Plant Biologists, Rockville, MD:34 p.|2006|
120145|A||ENSR Consulting and Engineering|An Evaluation of the Acute Toxicity of Cadmium Chloride (CdCl2) to Brown Trout (Salmo trutta), Rainbow Trout (Oncorhynchus mykiss), and Mountain Whitefish (Prosopium williamsoni)|Project 8505-088-901, ENSR Consulting and Engineering, Fort Collins, CO:55 p.|1990|
120146|T||Salminen,J., H. Setala, and J. Haimi|Regulation of Decomposer Community Structure and Decomposition Processes in Herbicide Stressed Humus Soil|Appl. Soil Ecol.6(3): 265-274|1997|10.1016/S0929-1393(97)00021-8
120147|T||Yamano,T., M. Shimizu, and T. Noda|Allergenicity and Cross-Reactivity of Naphthenic Acid and Its Metallic Salts in Experimental Animals|Contact Dermatitis54(1): 25-28|2006|10.1111/j.0105-1873.2006.00728.x
120148|A||Dezfuli,B.S., E. Simoni, L. Giari, and M. Manera|Effects of Experimental Terbuthylazine Exposure on the Cells of Dicentrarchus labrax (L.)|Chemosphere64(10): 1684-1694|2006|10.1016/j.chemosphere.2006.01.023
120149|AT||EPA/OTS|Initial Submission: Letter from () to USEPA Re Results of Subacute Dietary Toxicity Study of Cyclopropanecarboxylic Acid, * in Bobwhite & Mallards, Dated 11/28/2000 (Sanitized)|EPA/OTS Doc #88010000044S:2 p.|2000|
120150|A||Frederiksen,H.K., H.G. Kristensen, and M. Pedersen|Solid Lipid Microparticle Formulations of the Pyrethroid gamma-Cyhalothrin-Incompatibility of the Lipid and the Pyrethroid and Biological Properties of the Formulations|J. Control. Release86(2/3): 243-252|2003|10.1016/S0168-3659(02)00406-6
120151|A||Muegge,M.A., J.D. Barbour, W.C. Rice, and P.A. Bollich|Evaluation of Karate for Rice Water Weevil (RWW) Control, 1995|Arthropod Manag. Tests23:262-263|1998|10.1093/amt/23.1.262
120152|T||Da Silva Gomes,M., M.M. Bernardi, and H. De souza Spinosa|Pyrethroid Insecticides and Pregnancy:  Effect on Physical and Behavioral Development of Rats|Vet. Hum. Toxicol.33(4): 315-317|1991|
120153|T||Da Silva Gomes,M., M.M. Bernardi, and H. De souza Spinosa|Effects of Prenatal Pyrethroid Insecticide Exposure on the Sexual Development of Rats|Vet. Hum. Toxicol.33(5): 427-428|1991|
120154|T||Lewis,G.B., H.J. Gough, and R.A. Brown|A Comparison of a Laboratory Residual Toxicity Test with a Semi-Field 'Tunnel' Trial to Assess the Effects of Pesticide Residues on Honey Bees|Br. Crop Prot. Conf. Pests Dis.1:981-986|1990|
120155|A||Ogueji,E.O., and J. Auta|Investigation of Biochemical Effects of Acute Concentrations of lambda-Cyhalothrin on African Catfish Clarias gariepinus-teugels|J. Fish. Int.2(1): 86-90|2007|
120156|A||Mohsen,Z.H., N.A. Ouda, A.K. Hashim, and H.H. Zayia|Combined Larvicidal Efficacy of lambda-Cyhalothrin and Larvivorous Fish (Gambusia affinis) Against Culex quinquefasciatus Mosquitoes|J. Vector Ecol.20(2): 164-167|1995|
120157|A||Campana,M.A., A.M. Panzeri, V.J. Moreno, and F.N. Dulout|Micronuclei Induction in Rana catesbeiana Tadpoles by the Pyrethroid Insecticide lambda-Cyhalothrin|Genet. Mol. Biol.26(1): 99-103|2003|10.1590/S1415-47572003000100016
120158|A||Lawler,S.P., D.A. Dritz, and L.D. Godfrey|Effects of the Agricultural Insecticide lambda-Cyhalothrin (WarriorTM) on Mosquitofish (Gambusia affinis)|Am. Mosq. Control Assoc. J.19(4): 430-432|2003|
120159|AT||Ratnasooriya,W.D., S.S.K. Ratnayake, and Y.N.A. Jayatunga|Effects of Icon, a Pyrethroid Insecticide on Early Pregnancy of Rats|Hum. Exp. Toxicol.22(10): 523-533|2003|10.1191/0960327103ht381oa
120160|T||Chhabra,R.S.|NTP Technical Report on Comparative Toxicity Studies of o-, m-, and p-Chloroaniline (CAS Nos. 95-51-2, 108-42-9, and 106-47-8) Administered by Gavage to F344/N Rats and B6C3F1 Mice|Toxic. Rep. Ser.43:148 p.|1998|
120161|T||Sharma,S.N., R.P. Shukla, and K. Raghavendra|Susceptibility Status of An. fluviatilis and An. culicifacies to DDT, Deltamethrin and Lambdacyhalothrin in District Nainital, Uttar Pradesh|Indian J. Malariol.36(3-4): 90-93|1999|
120162|T||EPA/OTS|Initial Submission: Letter from [] to USEPA Reporting CNS Effects in Range-Finding Studies of Cyclopropanecarboxylic Acid, 3-(2-Chloro-3,3,3-Trifluoro-*, Dated 03/15/00 (Sanitized)|EPA/OTS Doc #88000000122S:2 p.|2000|
120163|T||EPA/OTS|Initial Submission: Letter from [] to USEPA Re Results of Acute Dietary Toxicity Study in Rats of Cyclopropanecarboxylic Acid 3-(2-Chloro-3,3,3-Trifluor*, Dated 110299 (Sanitized)|EPA/OTS Doc #88000000026S:3 p.|2000|
120167|A||Khan,M.Z., M. Zaheer, and F. Fatima|Effect of lambda Cyhalothrin (Pyrethroid) and Monocrotophos (Organophosphate) on Cholinesterase Activity in Liver, Kidney and Brain of Rana cyanophlyctis|Korean J. Biol. Sci.7(2): 165-168|2003|10.1080/12265071.2003.9647700
120168|T||Way,M.O., and R.G. Wallace|Control of a Sharpshooter with EXP 80698A and Karate, 1997|Arthropod Manag. Tests23:273-|1998|10.1093/amt/23.1.273
120169|T||Candolfi,M.P., K. Brown, C. Grimm, B. Reber, and H. Schmidli|A Faunistic Approach to Assess Potential Side-Effects of Genetically Modified Bt-Corn on Non-Target Arthropods Under Field Conditions|Biocontrol Sci. Technol.14(2): 129-170|2004|10.1080/09583150310001655701
120170|T||Wall,R.E.|Copper Naphthenate Treated Flats Toxic to Pine Seedling|Bi-Mon. Res. Notes Environ. Can. For. Serv.31(1): 4-5|1975|
120171|T||Vidal,D., V. Alzaga, J.J. Luque-Larena, R. Mateo, L. Arroyo, and J. Vinuela|Possible Interaction Between a Rodenticide Treatment and a Pathogen in Common Vole (Microtus arvalis) During a Population Peak|Sci. Total Environ.408(2): 267-271|2009|10.1016/j.scitotenv.2009.10.001
120172|A||Pathak,L., D.P. Singh, and S. Kumar|Effect of Malathion on Haematological Parameters of a Fresh Water Fish, Labeo rohita|Bionotes11(2): 68-|2009|
120173|T||Pandey,J., and M. Agrawal|Growth Responses of Tomato Plants to Low Concentrations of Sulphur Dioxide and Nitrogen Dioxide|Sci. Hortic.58(1/2): 67-76|1994|10.1016/0304-4238(94)90128-7
120174|T||Woolwine,A.E., L.M. Rodriguez, E.A. Ostheimer, and T.E. Reagan|Impact of Sugarcane Borer Control Insecticides on Non-Target Arthropods, 1997|Arthropod Manag. Tests23:288-|1998|
120175|T||Nielsen,D.G., and M.J. Dunlap|Scotch Pine, Evaluation of Selected Insecticides Against European Pine Sawfly, Wayne Co. Ohio, 1989|Insectic. Acaric. Tests16:275-|1991|10.1093/iat/16.1.275
120176|T||Nielsen,D.G., and M.J. Dunlap|Scotch Pine Control of European Pine Sawfly Wayne County Ohio 1990|Insectic. Acaric. Tests17:367-368|1992|10.1093/iat/17.1.367a
120177|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate in a Water-Seeded, Pinpoint Flood Culture, 1997|Arthropod Manag. Tests23:264-|1998|10.1093/amt/23.1.264
120178|T||Way,M.O., and R.G. Wallace|Control of Rice Stink Bug with Selected Insecticides, 1997|Arthropod Manag. Tests23:272-273|1998|
120179|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate and ICIA0321 in a Dry-Seeded, Delayed Flood Culture, 1997|Arthropod Manag. Tests23:265-|1998|
120180|A||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with EXP 61096A 100 EC and EXP 60949A 1.5 G in a Dry-Seeded,  Delayed Flood Culture, 1997|Arthropod Manag. Tests23:272-|1998|
120181|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with EXP 80698A 75 FS Applied After the Permanent Flood in a Dry-Seeded, Delayed Flood Culture, 1997|Arthropod Manag. Tests23:269-|1998|
120182|A||Small,G.J., S.H.P.P. Karunaratne, D.D. Chadee, and J. Hemingway|Molecular and Kinetic Evidence for Allelic Variants of Esterase Estbeta1 in the Mosquito Culex quinquefasciatus|Med. Vet. Entomol.13(3): 274-281|1999|10.1046/j.1365-2915.1999.00171.x
120184|T||Harris,C.E., E.H. Simonne, and D.J. Eakes|Effect of Nitrogen Form Ratio on Pansy Growth and Nutrition and the Palatability to White-Tailed Deer|J. Plant Nutr.22(12): 1807-1814|1999|10.1080/01904169909365757
120185|T||Berny,P.J., L. Alves de Oliveira, B. Videmann, and S. Rossi|Assessment of Ruminal Degradation, Oral Bioavailability, and Toxic Effects of Anticoagulant Rodenticides in Sheep|Am. J. Vet. Res.67(2): 363-371|2006|10.2460/ajvr.67.2.363
120186|T||Ivey,P.W., and S.J. Johnson|Integrating Control Tactics for Managing Cabbage Looper (Lepidoptera:  Noctuidae) and Diamondback Moth (Lepidoptera: Yponomeutidae) on Cabbage|Trop. Agric.75(3): 369-374|1998|
120187|T||Nielsen,D.G., and M.J. Dunlap|Birch, Efficacy of Selected Insecticides Against Gypsy Moth Larvae, Wooster, OH, 1989|Insectic. Acaric. Tests16:266-|1991|10.1093/iat/16.1.266a
120188|T||Wright,C.L., R.N. Titchener, and J. Hughes|Insecticidal Ear Tags and Sprays for the Control of Flies on Cattle|Vet. Rec.115(3): 60-62|1984|10.1136/vr.115.3.60
120189|T||Bernhardt,J.L.|Evaluation of EXP 61096A for Control of Rice Stink Bug in a Cage Study, 1997|Arthropod Manag. Tests23:260-|1998|
120190|A||Szarek,J., I. Babinska, K.A. Skibniewska, M. Truszczynska, R. Kolman, A.K. Siwicki, I.M. Kowalski, J. Wojtacka, H. Kolm|Effect of the Herbicide Avans 330 SL and Azoprim 50 WP on Skin Pathomorphology of Healthy and Patient Carp with Ichthyophthiriasis|Pol. J. Nat. Sci.20(1): 455-464|2006|
120191|T||Satyanarayana,N.V., P. Prasad, and K.V.M. Rao|Effect of Sulphur Dioxide on Growth and Nodulation of Pigeonpea|Proc. Indian Acad. Sci. Plant Sci.95(3): 199-202|1985|10.1007/BF03053072
120192|AT||Pearson,R.|Response of Water-Seeded Rice to Insecticidal Control of Target and Non-Target Aquatic Insects|M.S.Thesis, Lamar Univ., Beaumont,TX:82 p.|2007|
120194|T||Novak,J.|Regulation of Pteridium aquilinum (L.) Kuhn with Triclopyr|Ekologia (Bratisl.)26(2): 210-220|2007|
120195|T||Castro,B.A., T.J. Riley, and B.R. Leonard|Red Imported Fire Ant Management in Grain Sorghum Using Selected Insecticide Treatments, 1997|Arthropod Manag. Tests23:277-278|1998|10.1093/amt/23.1.277
120196|A||Sudha,S., R.S. Pandian, and A.C. Manoharan|Evaluation of Karate and Furadan as Mosquito Larvicides and Pupicides|Indian J. Environ. Sci.4(1): 11-16|2000|
120197|T||Scarponi,L., and D. Del Buono|Benoxacor Induction of Terbuthylazine Detoxification in Zea mays and Festuca arundinacea|J. Agric. Food Chem.53(7): 2483-2488|2005|10.1021/jf047948n
120198|A||Riedl,J., and R. Altenburger|Physicochemical Substance Properties as Indicators for Unreliable Exposure in Microplate-Based Bioassays|Chemosphere67(11): 2210-2220|2007|10.1016/j.chemosphere.2006.12.022
120199|T||Schroll,R., T. Langenbach, G. Cao, U. Dorfler, P. Schneider, and I. Scheunert|Fate of (14C)terbutylazine in Soil-Plant Systems|Sci. Total Environ.123-124:377-389|1992|10.1016/0048-9697(92)90161-K
120201|A||Bhattacharya,M., and A. Kaviraj|Toxicity of the Pyrethroid Pesticide Fenvalerate to Freshwater Catfish Clarias gariepinus:  Lethality, Biochemical Effects and Role of Dietary Ascorbic Acid|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(6): 578-583|2009|
120202|A||Ruth,B.|Direct Observation of Herbicide Action in Algae Using 10 Mus Resolved Chlorophyll Fluorescence Induction Kinetics|Arch. Hydrobiol.131(3): 297-308|1994|10.1127/archiv-hydrobiol/131/1994/297
120204|A||Garcia,M.T., E. Campos, M. Dalmau, and J. Sanchez-Leal|Fate and Aquatic Toxicity of Sulfosuccinic Alkyl Esters|J. Com. Esp. Deterg.36:371-376|2006|
120205|T||Union Carbide Corp.|Progress Report on Dermal Irritation of 2-Ethylhexanol in Humans|EPA/OTS Doc. #86-870001385:10 p.|1987|
120208|A||Fujiwara,K., H. Suematsu, E. Kiyomiya, M. Aoki, M. Sato, and N. Moritoki|Size-Dependent Toxicity of Silica Nano-Particles to Chlorella kessleri|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(10): 1167-1173|2008|
120209|A||Hwang,H.M., T.L. Wade, and J.L. Sericano|Residue-Response Relationship Between PAH Body Burdens and Lysosomal Membrane Destabilization in Eastern Oysters (Crassostrea virginica) and Toxicokinetics of PAHs|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(12): 1373-1380|2008|
120210|T||Kawai,K., C. Takahashi, A. Numata, S. Chernysh, A. Nesin, and H. Numata|Juvenile Hormone Activity of Juvabione Analogues Against Pyrrhocoris apterus (Hemiptera:  Pyrrhocoridae)|Jpn. Soc. Appl. Entomol. Zool.28(1): 118-121|1998|10.1303/aez.28.118
120211|A||Formicki,G., R. Stawarz, N. Lukac, A. Putala, and A. Kuczkowska|Combined Effects of Cadmium and Ultraviolet Radiation on Mortality and Mineral Content in Common Frog (Rana temporaria) Larvae|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(10): 1174-1183|2008|
120212|A||Stabenau,E.K., A. Sasser, and C. Schulte|The Effects of Pyrene Exposure on Exercise Performance, Muscle Contraction, and Mitochondrial O2 Consumption in the Leopard Frog (Rana pipiens)|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(6): 576-583|2008|
120214|T||Biggs,A.R., and C.A. Peterson|Effect of Chemical Applications to Peach Bark Wounds on Accumulation of Lignin and Suberin and Susceptibility to Leucostoma persoonii|Phytopathology80(9): 861-865|1990|10.1094/Phyto-80-861
120215|A||Okay,O.S., and B. Karacik|Bioconcentration and Phototoxicity of Selected PAHs to Marine Mussel Mytilus galloprovincialis|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(11): 1234-1242|2008|
120216|T||Mitchell,E.R.|Promising New Technology for Managing Diamondback Moth (Lepidoptera:  Plutellidae) in Cabbage with Pheromone|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(3): 277-290|2002|
120217|T||Calvo,C., S. Bolado, J. Alvarez-Benedi, and M.A. Andrade|Arsenic Uptake and Accumulation in Curly Endives (Cichorium endivia L.) Irrigated with Contaminated Water|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(4): 459-470|2006|
120218|T||Gong,Y., and X.D. Han|Effect of Nonylphenol on Steroidogenesis of Rat Leydig Cells|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(5): 705-715|2006|
120220|A||DeLorenzo,M.E., S.C. Wallace, L.E. Danese, and T.D. Baird|Temperature and Salinity Effects on the Toxicity of Common Pesticides to the Grass Shrimp, Palaemonetes pugio|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(5): 455-460|2009|
120221|T||Antonious,G.F., T.S. Kochhar, and A.M. Simmons|Natural Products:  Seasonal Variation in Trichome Counts and Contents in Lycopersicum hirsutum f. glabratum|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(4): 619-631|2005|
120222|T||Redondo-Gomez,S., E. Mateos-Naranjo, L. Cox, J. Cornejo, and E. Figueroa|Effect of Herbicide and Soil Amendment on Growth and Photosynthetic Responses in Olive Crops|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(5): 523-528|2007|
120223|A||Gonzalez de Canales,M.L., M. Oliva, and C. Garrido|Toxicity of Lindane (gamma-Hexachloroxiclohexane) in Sparus aurata, Crassostrea angulata and Scrobicularia plana|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(2): 95-105|2009|
120224|A||Ding,F., W.H. Song, J. Guo, M.L. Gao, and W.X. Hu|Oxidative Stress and Structure-Activity Relationship in the Zebrafish (Danio rerio) Under Exposure to Paclobutrazol|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(1): 44-50|2009|
120225|A||Hellou,J., A. Cook, B. Lalonde, P. Walker, K. Dunphy, and S. Macleod|Escape and Survival of Corophium volutator and Ilyanassa obsoleta Exposed to Freshwater and Chlorothalonil|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.44(8): 778-790|2009|
120226|A||Liu,Y.J., M. Nikolausz, and X.C. Wang|Biodegradation and Detoxication of Phenol by Using Free and Immobilized Cells of Acinetobacter sp. XA05 and Sphingomonas sp. FG03|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.44(2): 130-136|2009|
120227|A||Oetken,M., L.S. Jagodzinski, C. Vogt, A. Jochum, and J. Oehlmann|Combined Effects of Chemical and Temperature Stress on Chironomus riparius Populations with Differing Genetic Variability|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.44(10): 955-962|2009|
120228|A||Li,T., Q. Zhou, N. Zhang, and Y. Luo|Toxic Effects of Chlorpromazine on Carassius auratus and Its Oxidative Stress|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(8): 638-643|2008|
120229|A||Li,H., Y. Yuan, C. Shen, Y. Wen, and H. Liu|Enantioselectivity in Toxicity and Degradation of Dichlorprop-Methyl in Algal Cultures|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(4): 288-292|2008|
120230|A||Bordbar,L., M. Emtyazjoo, and D. Farkhani|Comparison and Influence of Two Newly Produced Iranian Oil Dispersants (Pars1 & Pars2) with the Gamlen OD4000 on Rainbow Trout|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(14): 1598-1601|2008|
120231|A||Liu,H., Y. Yu, F. Kong, L. He, H. Yu, J.P. Giesy, and X. Wang|Effects of Tetrabromobisphenol  A on the Green Alga Chlorella pyrenoidosa|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control43(11): 1271-1278|2008|
120232|T||Khan,I.A., B.V. Reddy, M. Mahboob, M.F. Rahman, and K. Jamil|Effects of Phosphorothionate on the Reproductive System of Male Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(4): 445-456|2001|
120233|T||Trouiller,B., R. Reliene, A. Westbrook, P. Solaimani, and R.H. Schiestl|Titanium Dioxide Nanoparticles Induce DNA Damage and Genetic Instability In Vivo in Mice|Cancer Res.69(22): 8784-8789|2009|10.1158/0008-5472.CAN-09-2496
120234|A||Rosenkranz,P., Q. Chaudhry, V. Stone, and T.F. Fernandes|A Comparison of Nanoparticle and Fine Particle Uptake by Daphnia magna|Environ. Toxicol. Chem.28(10): 2142-2149|2009|10.1897/08-559.1
120236|T||Kumari,M., A. Mukherjee, and N. Chandrasekaran|Genotoxicity of Silver Nanoparticles in Allium cepa|Sci. Total Environ.407:5243-5246|2009|10.1016/j.scitotenv.2009.06.024
120237|A||Laban,G., L.F. Nies, R.F. Turco, J.W. Bickham, and M.S. Sepulveda|The Effects of Silver Nanoparticles on Fathead Minnow (Pimephales promelas) Embryos|Ecotoxicology19:185-195|2010|10.1007/s10646-009-0404-4
120238|A||Saha,S., M. Ray, and S. Ray|Activity of Phosphatases in the Hemocytes of Estuarine Edible Mudcrab, Scylla serrata Exposed to Arsenic|J. Environ. Biol.30(5): 655-658|2009|
120239|A||Shukla,M.K., R.D. Tripathi, N. Sharma, S. Dwivedi, S. Mishra, R. Singh, O.P. Shukla, and U.N. Rai|Responses of Cyanobacterium Anabaena doliolum During Nickel Stress|J. Environ. Biol.30(suppl.5): 871-876|2009|
120240|T||Yang,Y., F.S. Zhang, H.F. Li, and R.F. Jiang|Accumulation of Cadmium in the Edible Parts of Six Vegetable Species Grown in Cd-Contaminated Soils|J. Environ. Manag.90(2): 1117-1122|2009|10.1016/j.jenvman.2008.05.004
120241|AT||Lin,H.T., S.S. Wong, and G.C. Li|Dissipation of Epoxiconazole in the Paddy Field Under Subtropical Conditions of Taiwan|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(4): 409-420|2001|
120242|T||Mehrotra,V., V.L. Saxena, and A. Saxena|Impact of Different Doses of Lead on Internal Organs of Quails|J. Environ. Biol.29(2): 147-149|2008|
120243|A||Salam,M.A., T. Sawada, T. Ohya, K. Ninomiya, and S. Hayashi|Detection of Environmental Estrogenicity Using Transgenic Medaka Hatchlings (Oryzias latipes) Expressing the GFP-Tagged Choriogenin L Gene|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.43(3): 272-277|2008|
120244|A||Ramljak,S., B.K. Hackenberger, T. Smital, and S. Britvic|Evaluation of the Genotoxic and Cytochrome P450 Monooxygenase-Inhibitory Potential of Dicuran on Procaryotic and Eucaryotic Test Systems|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes35(6): 751-770|2000|
120245|A||Grung,M., A. Ruus, T.F. Holth, R.S. Sidhu, D.O. Eriksen, and K. Hylland|Bioaccumulation and Lack of Oxidative Stress Response in the Ragworm H. diversicolor Following Exposure to 226Ra in Sediment|J. Environ. Radioact.100(5): 429-434|2009|10.1016/j.jenvrad.2009.03.001
120246|A||Singh,V., P.B. Singh, and S. Srivastava|Testosterone and Estradiol-17beta Dependent Phospholipid Biosynthesis in Ovariectomized Catfish, Heteropneustes fossilis (Bloch)|J. Environ. Biol.30(5): 633-640|2009|
120248|A||Bulder,A.S., E.J. Van den Brandhof, S.A.M. Van Beusekom, T.P. Traas, and J.H. Canton|Effects of Estrogens and Xenoestrogens in Municipal Effluent on Reproduction and Development of Zebrafish (Danio rerio) Measured by a Partial Life Cycle Test|In: A.D.Vethaak, M.Schrap, and De Voogt,P (Eds.), Estrogens and Xenoestrogens in the Aquatic Environment: An Integrated Approach for Field Monitoring and Effect Assessment, SETAC Press, Pensacola, FL:257-282|2006|
120250|T||Otoidobiga,L.C., C. Vincent, and R.K. Stewart|Field Efficacy and Baseline Toxicities of Pyriproxifen, Acetamiprid, and Diafenthiuron Against Bemisia tabaci Gennadius (Homoptera: Aleyrodidae) in Burkina Faso (West Africa)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(6): 757-769|2003|
120251|A||Okay,O.S., and B. Karacik|Photoinduced Toxicity of Selected PAHs to the Marine Microalga Phaeodactylum tricornutum|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.42(6): 707-714|2007|
120252|A||Guzman Martinez,M.C., P. Ramirez Romero, and A.T. Banaszak|Photoinduced Toxicity of the Polycyclic Aromatic Hydrocarbon, Fluoranthene, on the Coral, Porites divaricata|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.42(10): 1495-1502|2007|
120253|T||Gundi,V.A.K.B., G. Narasimha, and B.R. Reddy|Interaction Effects of Insecticides on Microbial Populations and Dehydrogenase Activity in a Black Clay Soil|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(2): 269-283|2005|
120254|A||Satyanarayan,S., and Ramakant |Bioaccumulation Kinetics and Bioconcentration Factor of Chlorinated Pesticides in Tissues of Puntius ticto (Ham.)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(2): 321-332|2004|
120256|T||Gupta,D.K., A. Srivastava, and V.P. Singh|EDTA Enhances Lead Uptake and Facilitates Phytoremediation by Vetiver Grass|J. Environ. Biol.29(6): 903-906|2008|
120257|A||Pandey,R.K., R.N. Singh, S. Singh, N.N. Singh, and V.K. Das|Acute Toxicity Bioassay of Dimethoate on Freshwater Airbreathing Catfish, Heteropneustes fossilis (Bloch)|J. Environ. Biol.30(3): 437-440|2009|
120258|A||Lajmanovich,R.C., A.M. Attademo, P.M. Peltzer, and C.M. Junges|Inhibition and Recovery of Cholinesterases in Odontophrynus americanus Tadpoles Exposed to Fenitrothion|J. Environ. Biol.30(5): 923-926|2009|
120259|A||Tilak,K.S., P.W. Raju, and M.S. Butchiram|Effects of Alachlor on Biochemical Parameters of the Freshwater Fish, Channa punctatus (Bloch)|J. Environ. Biol.30(3): 421-426|2009|
120260|A||Srivastava,N., and H. Verma|Alterations in Biochemical Profile of Liver and Ovary in Zinc-Exposed Fresh Water Murrel, Channa punctatus (Bloch)|J. Environ. Biol.30(3): 413-416|2009|
120261|T||Joshi,N., and D. Gupta|Soil Mycofloral Responses Following the Exposure to 2,4-D|J. Environ. Biol.29(2): 211-214|2008|
120262|T||Ekukole,G.|Some Effects of an EC Formulation of Azadirachtin on Important Cotton Pests in Senegal|J. Plant Prot. Res.46(4): 313-323|2006|
120263|A||Mughal,M.S., and M. Tariq|Effect of Karate on the Immune Capabilities of Channa punctatus (Bloch)|Proc. Pak. Congr. Zool.13:79-81|1993|
120264|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Karate 1EC, 1995|Arthropod Manag. Tests21:282-283|1996|10.1093/amt/21.1.282
120266|A||Ogueji,O.E.|Comparative Acute Toxicity of Chlorpyrifos-Ethyl (Organophosphate) and lambda-Cyhalothrin (Pyrethroid) to the African Catfish (C. gariepinus) Using Some Biochemical Parameters|Global J. Pure Appl. Sci.14(3): 263-269|2008|10.4314/gjpas.v14i3.16747
120267|T||Gharbi,N., M. Pressac, M. Hadchouel, H. Szwarc, S.R. Wilson, and F. Moussa|(60)Fullerene is a Powerful Antioxidant In Vivo with no Acute or Subacute Toxicity|Nano Lett.5(12): 2578-2585|2005|10.1021/nl051866b
120268|T||Allievi,L., and C. Gigliotti|Response of the Bacteria and Fungi of Two Soils to the Sulfonylurea Herbicide Cinosulfuron|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes36(2): 161-175|2001|
120270|A||Mishra,D.K., K. Bohidar, and A.K. Pandey|Effect of Sublethal Exposure of Cartap on Hypothalamo-Neurosecretory System of the Freshwater Spotted Murrel, Channa punctatus (Bloch)|J. Environ. Biol.29(6): 917-922|2008|
120271|A||Yamuna,A., P.S. Bhavan, and P. Geraldine|Ultrastructural Observations in Gills and Hepatopancreas of Prawn Macrobrachium malcolmsonii Exposed to Mercury|J. Environ. Biol.30(5): 693-699|2009|
120272|A||Gama-Flores,J.L., S.S.S. Sarma, and S. Nandini|Effect of Cadmium Level and Exposure Time on the Competition Between Zooplankton Species Moina macrocopa (Cladocera) and Brachionus calyciflorus (Rotifera)|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.41(6): 1057-1070|2006|
120273|T||Yadav,S.S., R. Shukla, and Y.K. Sharma|Nickel Toxicity on Seed Germination and Growth in Radish (Raphanus sativus) and Its Recovery Using Copper and Boron|J. Environ. Biol.30(3): 461-466|2009|
120274|A||Masud,S., I.J. Singh, and R.N. Ram|Histophysiological Responses in Ovary and Liver of Cyprinus carpio After Short Term Exposure to Safe Concentration of Mercuric Chloride and Recovery Pattern|J. Environ. Biol.30(3): 399-403|2009|
120275|A||Bultemeier,B.W., M.D. Netherland, J.A. Ferrell, and W.T. Haller|Differential Herbicide Response Among Three Phenotypes of Cabomba caroliniana|Invasive Plant Sci. Manag.2:352-359|2009|10.1614/IPSM-09-035.1
120276|T||Kim,B., and M.B. McBride|Phytotoxic Effects of Cu and Zn on Soybeans Grown in Field-Aged Soils:  Their Additive and Interactive Actions|J. Environ. Qual.38(6): 2253-2259|2009|10.2134/jeq2009.0038
120277|T||Turner,B.C., and J.H. Caro|Uptake and Distribution of Carbofuran and Its Metabolites in Field-Grown Corn Plants|J. Environ. Qual.2(2): 245-247|1973|10.2134/jeq1973.00472425000200020016x
120278|A||Butchiram,M.S., K.S. Tilak, and P.W. Raju|Studies on Histopathological Changes in the Gill, Liver and Kidney of Channa punctatus (Bloch) Exposed to Alachlor|J. Environ. Biol.30(2): 303-306|2009|
120279|T||Smith,C., K.W. Brown, and L.E.,Jr. Deuel|Plant Availability and Uptake of Molybdenum as Influenced by Soil Type and Competing Ions|J. Environ. Qual.16(4): 377-382|1987|10.2134/jeq1987.00472425001600040015x
120280|A||Buisson,S., V. Bouchart, E. Guerlet, J.P. Malas, and K. Costil|Level of Contamination and Impact of Pesticides in Cupped Oyster, Crassostrea gigas, Reared in a Shellfish Production Area in Normandy (France)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(8): 655-664|2008|
120281|A||Liu,X., S. Tao, X. Yu, G. Liu, N. Zhang, W. Xu, W. Wang, Y. Xie, Y. Zhu, J. Xie, and W. Wu|Effects of Cetyltrimethylammonium Chloride on Uptake of Pyrene by Fish Gills|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.44(8): 791-798|2009|
120282|T||Camper,N.D., S.K. McDonald, and P.M. Burrows|Light and Clomazone Effects on Tobacco (Nicotiana tabacum) Callus and Leaf Discs|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(6): 747-755|2003|
120283|A||Munoz,A.R., M. Trevisan, and E. Capri|Sorption and Photodegradation of Chlorpyrifos on Riparian and Aquatic Macrophytes|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(1): 7-12|2009|
120284|T||Lee,I., K. Baek, H. Kim, S. Kim, J. Kim, Y. Kwon, Y. Chang, and B. Bae|Phytoremediation of Soil Co-Contaminated with Heavy Metals and TNT Using Four Plant Species|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.42(13): 2039-2045|2007|
120285|T||Chan,D.Y., W.D. Black, and B.A. Hale|Cadmium Bioavailability and Bioaccessibility as Determined by In Vitro Digestion, Dialysis and Intestinal Epithelial Monolayers, and Compared to In Vivo Data|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.42(9): 1283-1291|2007|
120286|T||Vig,K., D.K. Singh, and P.K. Sharma|Endosulfan and Quinalphos Residues and Toxicity to Soil Microarthropods After Repeated Applications in a Field Investigation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes41(5): 681-692|2006|
120287|T||Huang,Q., J. Wu, Y. Kong, M. Liu, and S. Cao|Surfactant Effect on Persistence of Oxadiazolyl 3(2H)-Pyridazinones Against Pseudaletia separata Walker|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(3): 305-310|2007|
120288|T||Antonious,G.F.|Residues and Half-Lives of Pyrethrins on Field-Grown Pepper and Tomato|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes39(4): 491-503|2004|
120289|T||Sakurai,S., Y. Fujikawa, M. Kakumoto, M. Sugahara, T. Hamasaki, M. Umeda, and M. Fukui|The Effects of Soil and Trifolium repens (White Clover) on the Fate of Estrogen|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(3): 284-291|2009|
120290|T||Niu,G., L. McConnell, and V.R. Reddy|Propylene Glycol Vapor Contamination in Controlled Environment Growth Chambers:  Toxicity to Corn and Soybean Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(3): 443-448|2005|
120291|T||Furusawa,N.|Distribution of Aldrin and Its Epoxide (Dieldrin) in Egg-Forming Tissues and Eggs of Laying Hens Following an Oral Application|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes37(2): 123-129|2002|
120292|T||Leland,J.E., D.E. Mullins, and D.F. Berry|The Fate of 14C-Diazinon in Compost, Compost-Amended Soil, and Uptake by Earthworms|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(6): 697-712|2003|
120293|T||Sanchez-Bayo,F., H. Yamashita, R. Osaka, M. Yoneda, and K. Goka|Ecological Effects of Imidacloprid on Arthropod Communities in and Around a Vegetable Crop|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(3): 279-286|2007|
120294|A||Lee,D.J., J.H. Wales, J.L. Ayres, and R.O. Sinnhuber|Synergism Between Cyclopropenoid Fatty Acids and Chemical Carcinogens in Rainbow Trout (Salmo gairdneri)|Cancer Res.28:2312-2318|1968|
120295|T||Nad,P., P. Massanyi, M. Skalicka, B. Korenekova, V. Cigankova, and V. Almasiova|The Effect of Cadmium in Combination with Zinc and Selenium on Ovarian Structure in Japanese Quails|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.42(13): 2017-2022|2007|
120296|T||Wongkongkatep,J., K. Fukushi, P. Parkpian, R.D. DeLaune, and A. Jugsujinda|Arsenic Uptake by Native Fern Species in Thailand:  Effect of Chelating Agents on Hyperaccumulation of Arsenic by Pityrogramma calomelanos|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.38(12): 2773-2784|2003|
120297|T||Johnson,S., P. Dureja, and S. Dhingra|Photostabilizers for Azadirachtin-A (A Neem-Based Pesticide)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes38(4): 451-462|2003|
120298|A||Wang,L., W. Ye, S. Zhou, K. Lin, M. Zhao, and W. Liu|Acute and Chronic Toxicity of Organophosphate Monocrotophos to Daphnia magna|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(1): 38-43|2009|
120299|T||Paoletti,E., A. Rettori, G. Nicolotti, and M.L. Gullino|Comparative Response over Time to Surfactant-Polluted Sea Aerosol in Mediterranean Pine Seedlings|Phyton (Horn) (Multiple Languages)45(4): 209-214|2005|
120300|AT||Mughal,M.S., and A.S. Khan|Effect of Karate on Immune Capabilities of Rana cyanophlyctis|Proc. Pak. Congr. Zool.13:561-563|1993|
120301|T||Nowak,J.T.|Components of an Integrated Pest Management System for the Nantucket Pine Tip Moth, Rhyacionia frustrana (Comstock) (Lepidoptera: Tortricidae)|Ph.D.Thesis, University of Georgia, Athens, GA:112 p.|2001|
120302|A||Stevens,K.J., S.Y. Kim, S. Adhikari, V. Vadapalli, and B.J. Venables|Effects of Triclosan on Seed Germination and Seedling Development of Three Wetland Plants:  Sesbania herbacea, Eclipta prostrata, and Bidens frondosa|Environ. Toxicol. Chem.28(12): 2598-2609|2009|10.1897/08-566.1
120303|A||Palenske,N.M.|Effects of Triclosan, Triclocarban, and Caffeine Exposure on the Development of Amphibian Larvae|Ph.D.Thesis, University of North Texas, Denton, TX:149 p.|2009|
120304|A||Wilson,B.A.|The Fate and Effects of Triclosan in the Lower Hudson River Estuary|Ph.D.Thesis, University of Massachusetts, Boston, MA:264 p.|2009|
120305|A||Steinberg,C.E.W., C. Mayr, R. Lorenz, O.H. Spieser, and A. Kettrup|Dissolved Humic Material Amplifies Irritant Effects of Terbutylazine (Triazine Herbicide) on Fish|Naturwissenschaften81(5): 225-227|1994|10.1007/BF01138548
120306|AT||Radwan,M.A., and S.R. El-Zemity|Naturally Occurring Compounds for Control of Harmful Snails|Pak. J. Zool.39(5): 339-344|2007|
120307|T||Ferreira,M.I., C.F. Van der Merwe, and C.F. Reinhardt|Ultrastructural Changes Caused by Post-Emergence Herbicides in Leaves of Bengal Wandering Jew (Commelina benghalensis L.)|S. Afr. J. Plant Soil16(1): 18-23|1999|10.1080/02571862.1999.10634840
120308|T||Dastgheib,F., J.N. Plew, and G.D. Hill|Chemical Weed Control in Chickpeas|Proc. N. Z. Plant Prot. Conf.48:186-188|1995|10.30843/nzpp.1995.48.11552
120309|T||Hytonen,J., and P. Jylha|Fifteen-Year Response of Weed Control Intensity and Seedling Type on Norway Spruce Survival and Growth on Arable Land|Silva Fenn.42(3): 355-368|2008|10.14214/sf.242
120310|T||Ferm,A., J. Hytonen, S. Lilja, and P. Jylha|Effects of Weed Control on the Early Growth of Betula pendula Seedlings Established on an Agricultural Field|Scand. J. For. Res.9(4): 347-359|1994|10.1080/02827589409382851
120311|T||Jylha,P., and J. Hytonen|Effect of Vegetation Control on the Survival and Growth of Scots Pine and Norway Spruce Planted on Former Agricultural Land|Can. J. For. Res.36(10): 2400-2411|2006|10.1139/x06-053
120312|T||Sahid,I., and K. Kalithasan|Effects of Glufosinate-Ammonium and Terbuthylazine on Germination and Growth of Two Weed Species|Plant Prot. Q.9(1): 15-19|1994|
120313|T||Scarabel,L., S. Varotto, and M. Sattin|A European Biotype of Amaranthus retroflexus Cross-Resistant to ALS Inhibitors and Response to Alternative Herbicides|Weed Res. (Multiple Languages)47(6): 527-533|2007|10.1111/j.1365-3180.2007.00600.x
120314|T||Kocurek,V., V. Smutny, and J. Filova|Chlorophyll Fluorescence as an Instrument for the Assessment of Herbicide Efficacy|Cereal Res. Commun.37(suppl.2): 289-292|2009|
120315|T||Davenhill,N.A., K.D. Steele, and J.A. Zabkiewicz|Evaluation of Granular Herbicides for Post-Plant Spot Weed Control|FRI Bull.192:185-187|1995|
120316|T||Walters,C.S.|The Effects of Copper Naphthenate and Pentachlorophenol on Livestock|Proc. Annu. Meet. Am. Wood-Preservers' Assoc.48:302-313|1952|
120317|A||Sreeja,A., M.A. Peter, L. Edwin, and B. Meenakumari|Bioaccumulation of Chromated Copper Arsenate (CCA) Components in Oreochromis mossambicus|J. Timber Dev. Assoc. India52(3/4): 38-55|2006|
120318|T||Sfara,V., E.N. Zerba, and R.A. Alzogaray|Locomotor Activity, Knockdown, and Recovery in First Instar Nymphs of Blattella germanica (Dictyoptera: Blattellidae) Treated with Imidacloprid|Belg. J. Entomol.7(2): 113-119|2005|
120319|T||Johnson,R.M., Z.Y. Huang, and M.R. Berenbaum|Role of Detoxification in Varroa destructor (Acari:  Parasitidae) Tolerance of the Miticide Tau-Fluvalinate|Int. J. Acarol.36(1): 1-6|2010|10.1080/01647950903468273
120320|T||Sarat Kumar,G., and P.S. Dubey|Effect of SO2 in Young Seedlings of Three Varieties of Abelmoschus esculentus|J. Ecotoxicol. Environ. Monit.8(1): 37-42|1998|
120321|A||Thompson,D.G., S.B. Holmes, D.G. Pitt, K.R. Solomon, and K.L. Wainio-Keizer|Applying Concentration-Response Theory to Aquatic Enclosure Studies|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL11:129-156|1990|
120322|T||Pilling,E.D., and P.C. Jepson|Synergism Between EBI Fungicides and a Pyrethroid Insecticide in the Honeybee (Apis mellifera)|Pestic. Sci.39(4): 293-297|1993|10.1002/ps.2780390407
120323|A||Gupta,S.S., A. Kumar, and J.P. Srivastava|Effect of Chromium Sulphate on Haematological Factors of the Fish Heteropneustes fossilis|J. Ecotoxicol. Environ. Monit.16(4): 363-370|2006|
120324|T||Fries,I., and K. Wibran|Effects on Honey-Bee Colonies Following Application of the Pyrethroids Cypermethrin and PP 321 in Flowering Oilseed Rape|Am. Bee J.127(4): 266-269|1987|
120326|T||Ikuenobe,C.E.|Performance of Post-Emergence Herbicides Applied in Different Carrier Volumes in Oil Palm (Elaeis guineensis Jacq.)|Tests Agrochem. Cultiv.12:64-65|1991|
120327|T||Knott,C.M.|Tolerance of Spring-Sown Lupins (Lupinus albus) to Herbicides|Ann. Appl. Biol.128(suppl.): 54-55|1996|10.1111/j.1744-7348.1996.tb07906.x
120328|A||Schroder,P., H. Maier, and R. Debus|Detoxification of Herbicides in Phragmites australis|Z. Naturforsch. Sect. C J. Biosci.60(3-4): 317-324|2005|10.1515/znc-2005-3-417
120329|T||Parfitt,R.L., D.J. Ross, and L.F. Hill|Soil Nitrogen Mineralisation Changes Rapidly when Pine is Planted into Herbicide-Treated Pasture - the First Two Years of Growth|Aust. J. Soil Res.41(3): 459-469|2003|10.1071/SR02050
120330|A||Fischer,R.|Simulated or Actual Field Testing:  A Comparison|In: R.L.Graney, J.H.Kennedy, and J.H.Rodgers (Eds.), Aquatic Mesocosm Studies in Ecological Risk Assessment, Lewis Publishers, Boca Raton, FL5:35-46|1994|
120331|A||Stokes,P.M., and S.I. Dreier|Copper Requirement of a Copper-Tolerant Isolate of Scenedesmus and the Effect of Copper Depletion on Tolerance|Can. J. Bot.59:1817-1823|1981|10.1139/b81-242
120333|T||Kishinevsky,B., R. Lobel, N. Lifshitz, and D. Gurfel|Effects of Some Commercial Herbicides on Rhizobia and Their Symbiosis with Peanuts|Weed Res. (Multiple Languages)28(4): 291-296|1988|10.1111/j.1365-3180.1988.tb00806.x
120334|A||Allen,R.A., W.W. Wilkes, C.N. Lewis, and M.V. Meisch|Riceland Mosquito Management Practices for Anopheles quadrimaculatus Larvae|Am. Mosq. Control Assoc. J.24(4): 534-537|2008|10.2987/5792.1
120335|T||Lebaili,N., L. Saadi, R. Mosbah, and N. Mechri|Exploration of the Cytotoxic Effects of an Insecticide, lambda Cyhalothrine, on Sexual Exocrine Function in the White Rat|Commun. Agric. Appl. Biol. Sci.73(4): 883-889|2008|
120336|T||Wiesman,Z., and J. Riov|Interaction of Paclobutrazol and Indole-3-Butyric Acid in Relation to Rooting of Mung Bean (Vigna radiata) Cuttings|Physiol. Plant. (Multiple Languages)92(4): 608-612|1994|10.1111/j.1399-3054.1994.tb03030.x
120337|T||Schroll,R., B. Bierling, G. Cao, U. Dorfler, M. Lahaniati, T. Langenbach, I. Scheunert, and R. Winkler|Uptake Pathways of Organic Chemicals from Soil by Agricultural Plants|Chemosphere28(2): 297-303|1994|10.1016/0045-6535(94)90126-0
120338|T||Scarponi,L., E. Quagliarini, and D. Del Buono|Induction of Wheat and Maize Glutathione S-Transferase by Some Herbicide Safeners and Their Effect on Enzyme Activity Against Butachlor and Terbuthylazine|Pest Manag. Sci.62(10): 927-932|2006|10.1002/ps.1258
120339|T||De Marez,T., E. Mechant, O. Hermann, R. Olsson, and R. Bulcke|Monitoring for Resistance to Metamitron in Chenopodium album|J. Plant Dis. Prot.21:85-89|2008|
120340|A||Papadopoulos,N., E. Gikas, G. Zalidis, and A. Tsarbopoulos|Simultaneous Determination of Herbicide Terbuthylazine and Its Major Hydroxy and Dealkylated Metabolites in Typha latifolia L. Wetland Plant Using SPE and HPLC-DAD|J. Liq. Chromatogr. Related Technol.32(20): 2975-2992|2009|10.1080/10826070903320566
120341|T||Motsinger,B.M., and A.C. Magee|Zinc Supplementation of Optimal and Suboptimal Protein Diets. 1.  Responses of Young Rats Fed Different Quality Proteins|Nutr. Rep. Int.22(4): 581-588|1980|
120342|T||Gualandi,G., and D. Bellincampi|Induced Gene Mutation and Mitotic Non-Disjunction in A. nidulans|Toxicol. Lett.9(4): 389-394|1981|10.1016/0378-4274(81)90015-1
120343|T||Trifonov,L.S., W.A. Ayer, P. Chakravarty, and Y. Hiratsuka|Structure-Activity Relationships of Some Congeners of 4-Phenyl-3-Butenoic Acid Against Aspen Decay and Stain Fungi|Eur. J. For. Pathol.26(5): 273-280|1996|10.1111/j.1439-0329.1996.tb00847.x
120344|T||Rashotte,A.M., J. Poupart, C.S. Waddell, and G.K. Muday|Transport of the Two Natural Auxins, Indole-3-Butyric Acid and Indole-3-Acetic Acid, in Arabidopsis|Plant Physiol.133:761-772|2003|10.1104/pp.103.022582
120345|T||Derr,J.F.|Tolerance of Woody Nursery Stock to Classic (Chlorimuron) and Harmony (Thiameturon)|J. Environ. Hortic.9(1): 9-13|1991|10.24266/0738-2898-9.1.9
120346|T||Maertens,K.D., C.L. Sprague, P.J. Tranel, and R.A. Hines|Amaranthus hybridus Populations Resistant to Triazine and Acetolactate Synthase-Inhibiting Herbicides|Weed Res. (Multiple Languages)44(1): 21-26|2004|10.1046/j.1365-3180.2003.00368.x
120347|T||McDowell,R.W., L.M. Condron, B.E. Main, and F. Dastgheib|Dissipation of Imazapyr, Flumetsulam and Thifensulfuron in Soil|Weed Res. (Multiple Languages)37(6): 381-389|1997|10.1046/j.1365-3180.1997.d01-73.x
120348|T||Nicholson,K.S., T.K. James, and A. Rahman|Evaluation of Thifensulfuron for Control of Oxeye Daisy in Pasture|Proc. N. Z. Plant Prot. Conf.:292-294|1993|10.30843/nzpp.1993.46.11128
120349|T||Prostko,E.P., T.L. Grey, W.C. Johnson III, D.L. Jordan, W.J. Grichar, B.A. Besler, K.D. Brewer, and E.F. Eastin|Influence of Preplant Applications of 2,4-D, Dicamba, Tribenuron, and Tribenuron plus Thifensulfuron on Peanut|Peanut Sci.30(1): 18-22|2003|10.3146/pnut.30.1.0004
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120351|T||Rovenska,B., and L. Chvojka|The Effect of Cytokinin and Auxin-Like Substances on the Anatomy of Vascular Bundles in Wheat|Acta Univ. Carol. Biol.31(1/2): 91-94|1988|
120352|T||Grolli,P.R., S. Morini, and F. Loreti|Propagation of Platanus acerifolia Willd. by Cutting|J. Hortic. Sci. Biotechnol.80(6): 705-710|2005|10.1080/14620316.2005.11512002
120353|T||Fotopoulos,S., and T.E. Sotiropoulos|In Vitro Propagation of the PR 204/84 Peach Rootstock (Prunus persica x P. amygdalus):  The Effect of Auxin Type and Concentration on Rooting|Adv. Hortic. Sci.19(1): 54-57|2005|
120354|T||Zhang,J.L., R. Xu, Z.Y. Cao, S.M. Wang, and J.Z. Ren|Factors Affecting In Vitro Propagation of a Chinese Wild Grape (Vitis piasezkii Var. Pagnucii): Shoot Production and Rhizogenesis|N. Z. J. Crop Hortic. Sci.34(3): 217-223|2006|10.1080/01140671.2006.9514410
120355|T||Debnath,S.C.|Influence of Propagation Method and Indole-3-Butyric Acid on Growth and Development of In Vitro- and Ex Vitro-Derived Lingonberry Plants|Can. J. Plant Sci.86(1): 235-243|2006|10.4141/P04-142
120356|T||Ali,M.S., R. Kumar, I. Alam, S.C. Choudhary, A.K. Chakraborty, and D. Kumar|Vegetative Propagation in Karanja (Pongamia pinnata L.)|Biosci. Biotechnol. Res. Asia4(2): 799-803|2007|
120357|T||Stefancic,M., F. Stampar, and G. Osterc|Influence of IAA and IBA on Root Development and Quality of Prunus 'GiSelA 5' Leafy Cuttings|Hortscience40(7): 2052-2055|2005|10.21273/HORTSCI.40.7.2052
120358|T||Datar,V.V.|Efficacy of Growth Regulators and Fungitoxicants on Fruit Rot of Chilli|Indian J. Mycol. Plant Pathol.26(3): 239-242|1996|
120359|T||Gadzovska,S., S. Maury, S. Ounnar, M. Righezza, S. Kascakova, M. Refregiers, M. Spasenoski, C. Joseph, and D. Hagege|Identification and Quantification of Hypericin and Pseudohypericin in Different Hypericum perforatum L. In Vitro Cultures|Plant Physiol. Biochem.43(6): 591-601|2005|10.1016/j.plaphy.2005.05.005
120360|T||Kolbert,Z., B. Bartha, and L. Erdei|Osmotic Stress- and Indole-3-Butyric Acid-Induced NO Generation are Partially Distinct Processes in Root Growth and Development in Pisum sativum|Physiol. Plant. (Multiple Languages)133(2): 406-416|2008|10.1111/j.1399-3054.2008.01056.x
120361|T||Morgan,E.R., R.M. Butler, and R.A. Bicknell|In Vitro Propagation of Gentiana cerina and Gentiana corymbifera|N. Z. J. Crop Hortic. Sci.25(1): 1-8|1997|10.1080/01140671.1997.9513981
120362|T||Biondi,S., C. Lenzi, R. Baraldi, and N. Bagni|Hormonal Effects on Growth and Morphology of Normal and Hairy Roots of Hyoscyamus muticus|J. Plant Growth Regul.16(3): 159-167|1997|10.1007/PL00006991
120363|T||Chatterjee,S., B.P. Chatterjee, and A.K. Guha|Influence of Plant Growth Hormones on the Growth of Mucor rouxii and Chitosan Production|Microbiol. Res.164(3): 347-351|2009|10.1016/j.micres.2007.05.003
120364|T||Bijelovic,A., N. Rosic, J. Miljus-Djukic, S. Ninkovic, and D. Grubisic|In Vitro Regeneration and Transformation of Blackstonia perfoliata|Biol. Plant. (Praha)48(3): 333-338|2004|10.1023/B:BIOP.0000041083.41294.31
120365|T||Exadaktylou,E., T. Thomidis, C. Tsipouridis, and B. Grout|Factors Influencing the Rooting of Gisela 5 (Prunus cerasus x Prunus canescens) Cherry Rootstock Hardwood Cuttings|Aust. J. Exp. Agric.46(12): 1633-1637|2006|10.1071/EA05094
120366|T||Rosier,C.L., J. Frampton, B. Goldfarb, F.C. Wise, and F.A. Blazich|Growth Stage, Auxin Type, and Concentration Influence Rooting of Virginia Pine Stem Cuttings|Hortscience39(6): 1392-1396|2004|10.21273/HORTSCI.39.6.1392
120367|T||Rosier,C.L., J. Frampton, B. Goldfarb, F.A. Blazich, and F.C. Wise|Growth Stage, Auxin Type, and Concentration Influence Rooting of Stem Cuttings of Fraser Fir|Hortscience39(6): 1397-1402|2004|10.21273/HORTSCI.39.6.1397
120368|T||Fitze,D., A. Wiepning, M. Kaldorf, and J. Ludwig-Muller|Auxins in the Development of an Arbuscular mycorrhizal Symbiosis in Maize|J. Plant Physiol.162(11): 1210-1219|2005|10.1016/j.jplph.2005.01.014
120369|T||Kolbert,Z., and L. Erdei|Involvement of Nitrate Reductase in Auxin-Induced NO Synthesis|Plant Signal. Behav.3(11): 972-973|2008|10.4161/psb.6170
120370|T||Fraga,M., M. Alonso, P. Ellul, and M. Borja|Micropropagation of Dianthus gratianopolitanus|Hortscience39(5): 1083-1087|2004|10.21273/HORTSCI.39.5.1083
120371|T||Davis,D.G., and P.A. Olson|Organogenesis in Leafy Spurge (Euphorbia esula L.)|In Vitro Cell. Dev. Biol., Plant29P(3): 97-101|1993|10.1007/BF02632278
120372|T||El Euch,C., C. Jay-Allemand, M. Pastuglia, P. Doumas, J.P. Charpentier, P. Capelli, and L. Jouanin|Expression of Antisense Chalcone Synthase RNA in Transgenic Hybrid Walnut Microcuttings. Effect on Flavonoid Content and Rooting Ability|Plant Mol. Biol.38(3): 467-479|1998|10.1023/A:1006034709501
120373|T||Imakawa,A.M., H. Saka, S. Yonekawa, and A. Hirai|Differences in the Rates of Ethylene Production and Growth Between the Calluses Derived from Rice (Oryza sativa L.) and Soybean (Glycine max (L.) Merr.)|Plant Prod. Sci.5(1): 11-16|2002|10.1626/pps.5.11
120374|T||Sandor,G., G. Rabnecz, A. Hajagos, and B. Nehiba|IBA Uptake and Metabolism of Different Type of Plum Rootstocks Hardwood Cuttings|Acta Biol. Szeged.52(1): 237-240|2008|
120375|T||Kaldorf,M., and J. Ludwig-Muller|AM Fungi Might Affect the Root Morphology of Maize by Increasing Indole-3-Butyric Acid Biosynthesis|Physiol. Plant. (Multiple Languages)109(1): 58-67|2000|10.1034/j.1399-3054.2000.100109.x
120376|T||Precheur,R.J., and N.L. Garrabrants|Weed Control in Dill|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:170-173|1983|
120377|T||Piggot,G.J., and E.N. Honore|Weed Control in Soya Beans in Lower Northland|Proc. N. Z. Weed Pest Control Conf.30:12-14|1977|10.30843/nzpp.1977.30.9034
120378|T||Grichar,W.J., B.A. Besler, and K.D. Brewer|Control of Weeds in Peanut (Arachis hypogaea) Using Flumioxazin|Peanut Sci.31(1): 17-21|2004|10.3146/pnut.31.1.0004
120379|T||Grichar,W.J., and D.C. Sestak|Herbicide Systems for Golden Crownbeard (Verbesina encelioides) Control in Peanut|Peanut Sci.27(1): 23-26|2000|10.3146/i0095-3679-27-1-5
120380|T||Rolston,M.P., W. Archie, and K. Reddy|Browntop Seed Production: Weed Competition Effects and Herbicide Tolerance|Proc. N. Z. Plant Prot. Conf.51:76-79|1998|10.30843/nzpp.1998.51.11653
120381|T||Rosales-Robles,E., J.R. Salinas-Garcia, R. Sanchez-de-la-Cruz, L.A. Rodriguez-del-Bosque, and V. Esqueda-Esquivel|Interference and Control of Wild Sunflower (Helianthus annuus L.) in Spring Wheat (Triticum aestivum L.) in Northeastern Mexico|Cereal Res. Commun.30(3-4): 439-446|2002|10.1007/BF03543441
120382|T||Brecke,B.J., and W.L. Currey|Weed Control in Peanuts with Ethalfluralin|Peanut Sci.7(2): 124-127|1980|10.3146/i0095-3679-7-2-16
120383|T||Dotray,P.A., J.W. Keeling, W.J. Grichar, E.P. Prostko, R.G. Lemon, and J.D. Everrit|Peanut Response to Ethalfluralin, Pendimethalin, and Trifluralin Preplant Incorporated|Peanut Sci.30(1): 34-37|2003|10.3146/pnut.30.1.0007
120384|T||Frye,D.M., R.D. Ilnicki, and J.A. Meade|Annual Weed Control in Eggplant|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:220-225|1978|
120385|T||Johnson III,W.C., and B.G.,Jr. Mullinix|Peanut Seedling Response to Dinitroaniline Herbicides Applied Preplant Incorporated and Preemergence|Peanut Sci.26(1): 28-32|1999|10.3146/i0095-3679-26-1-7
120386|T||Johnson III,W.C., E.P. Prostko, and B.G.,Jr. Mullinix|Texas Panicum (Panicum texanum) Control in Strip-Tillage Peanut (Arachis hypogaea) Production|Peanut Sci.29(2): 141-145|2002|10.3146/pnut.29.2.0012
120387|T||Monaco,T.J., and W.A. Skroch|A Summary of Ethalfluralin Performance on Cucurbits|Proc. South. Weed Sci. Soc.33:71-80|1980|
120388|A||Liess,M., and K. Foit|Intraspecific Competition Delays Recovery of Population Structure|Aquat. Toxicol.97(1): 15-22|2010|10.1016/j.aquatox.2009.11.018
120389|T||Ackley,J.A., H.P. Wilson, and T.E. Hines|Yellow Nutsedge (Cyperus esculentus) Control POST with Acetolactate Synthase-Inhibiting Herbicides|Weed Technol.10(3): 576-580|1996|10.1017/S0890037X0004046X
120390|T||Al-Khatib,K., R. Parker, and E.P. Fuerst|Alfalfa (Medicago sativa) Response to Simulated Herbicide Spray Drift|Weed Technol.6(4): 956-960|1992|10.1017/S0890037X00036538
120391|T||Al-Khatib,K., R. Parker, and E.P. Fuerst|Sweet Cherry (Prunus avium) Response to Simulated Drift from Selected Herbicides|Weed Technol.6(4): 975-979|1992|10.1017/S0890037X00036563
120392|T||Al-Khatib,K., D.R. Gealy, and C.M. Boerboom|Effect of Thifensulfuron Concentration and Droplet Size on Phytotoxicity, Absorption, and Translocation in Pea (Pisum sativum)|Weed Sci.42(3): 482-486|1994|10.1017/S0043174500076803
120393|T||Beckett,T.H., and E.W. Stoller|Effects of Methylammonium and Urea Ammonium Nitrate on Foliar Uptake of Thifensulfuron in Velvetleaf (Abutilon theophrasti)|Weed Sci.39(3): 333-338|1991|10.1017/S0043174500073021
120394|T||Blackshaw,R.E., D.A. Derksen, and H.H. Muendel|Herbicide Combinations for Postemergent Weed Control in Safflower (Carthamus tinctorius)|Weed Technol.4(1): 97-104|1990|10.1017/S0890037X00025069
120395|T||Eberlein,C.V., T.L. Miller, and J.V. Wiersma|Influence of Thiameturon and DPX-L5300 on Wild Oats (Avena fatua) Control with Barban, Diclofop, AC 222,293, and Difenzoquat|Weed Sci.36(6): 792-799|1988|10.1017/S0043174500075858
120396|T||Eberlein,C.V., and T.L. Miller|Corn (Zea mays) Tolerance and Weed Control with Thiameturon|Weed Technol.3(2): 255-260|1989|10.1017/S0890037X00031766
120397|T||Ferguson,G.M., A.S. Hamill, and F.J. Tardif|ALS Inhibitor Resistance in Populations of Powell amaranth and Redroot Pigweed|Weed Sci.49(4): 448-453|2001|10.1614/0043-1745(2001)049[0448:AIRIPO]2.0.CO;2
120398|T||Vrabel,T.E., P.L. Minotti, and R.D. Sweet|Safening of Dinitroanaline Herbicides in Cucumbers and Muskmelons|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:187-188|1983|
120399|T||Forcella,F., G.B. Amundson, R.W. Gesch, S.K. Papiernik, V.M. Davis, and W.B. Phippen|Herbicides Tolerated by Cuphea (Cuphea viscosissima X lanceolata)|Weed Technol.19(4): 861-865|2005|10.1614/WT-04-296R.1
120400|T||Brown,D., and J. Masiunas|Evaluation of Herbicides for Pumpkin (Cucurbita spp.)|Weed Technol.16(2): 282-292|2002|10.1614/0890-037X(2002)016[0282:EOHFPC]2.0.CO;2
120401|T||Grichar,W.J., B.A. Besler, K.D. Brewer, and V.B. Langston|Using Diclosulam in a Weed Control Program for Peanut in South Texas|Crop Prot.23(11): 1145-1149|2004|10.1016/j.cropro.2004.03.017
120402|T||Grichar,W.J., and P.A. Dotray|Weed Control and Sesame (Sesamum indicum L.) Response to Preplant Incorporated Herbicides and Method of Incorporation|Crop Prot.26(12): 1826-1830|2007|10.1016/j.cropro.2007.03.017
120403|T||Blackshaw,R.E., R.J. Morrison, H.H. Muendel, and B.T. Roth|Weed Control in Safflower (Carthamus tinctorius) with Flurtamone|Weed Sci.40(1): 110-114|1992|10.1017/S0043174500057052
120404|T||Bailey,W.A., and J.W. Wilcut|Diclosulam Systems for Weed Management in Peanut (Arachis hypogaea L.)|Weed Technol.16(4): 807-814|2002|10.1614/0890-037X(2002)016[0807:DSFWMI]2.0.CO;2
120405|T||Bailey,W.A., J.W. Wilcut, D.L. Jordan, C.W. Swann, and V.B. Langston|Response of Peanut (Arachis hypogaea) and Selected Weeds to Diclosulam|Weed Technol.13(4): 771-776|1999|10.1017/S0890037X00042214
120406|T||Scott,G.H., S.D. Askew, J.W. Wilcut, and A.C. Bennett|Economic Evaluation of HADSS Computer Program in North Carolina Peanut|Weed Sci.50(1): 91-100|2002|10.1614/0043-1745(2002)050[0091:EEOHCP]2.0.CO;2
120407|T||Heap,I.M., and I.N. Morrison|Resistance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in Green Foxtail (Setaria viridis)|Weed Sci.44(1): 25-30|1996|10.1017/S0043174500093504
120408|T||Johnson III,W.C., and B.G.,Jr. Mullinix|Weed Management in Watermelon (Citrullus lanatus) and Cantaloupe (Cucumis melo) Transplanted on Polythylene-Covered Seedbeds|Weed Technol.16(4): 860-866|2002|10.1614/0890-037X(2002)016[0860:WMIWCL]2.0.CO;2
120409|T||McAlister,F.M., J.A.M. Holtum, and S.B. Powles|Dinitroaniline Herbicide Resistance in Rigid Ryegrass (Lolium rigidum)|Weed Sci.43(1): 55-62|1995|10.1017/S0043174500080826
120410|T||Sacher,R.F., H.J. Hopen, and B.J. Jacobsen|Suppression of Root Diseases and Weeds in Peas (Pisum sativum) Treated with Dinitrophenol and Dinitroaniline Herbicides|Weed Sci.26(6): 589-593|1978|10.1017/S0043174500064614
120411|T||Teuton,T.C., C.L. Main, G.E. MacDonald, J.T. Ducar, and B.J. Brecke|Green Peanut Tolerance to Preemergence and Postemergence Herbicides|Weed Technol.18(3): 719-722|2004|10.1614/WT-03-165R
120412|T||Urwin,C.P., R.G. Wilson, and D.A. Mortensen|Response of Dry Edible Bean (Phaseolus vulgaris) Cultivars to Four Herbicides|Weed Technol.10(3): 512-518|1996|10.1017/S0890037X00040355
120413|T||Wyse,D.L., and R.L. McGraw|Control of White Campion (Silene alba) in Birdsfoot Trefoil (Lotus corniculatus) with Dinitroaniline Herbicides|Weed Technol.1(1): 34-36|1987|10.1017/S0890037X00029079
120415|T||Singh,G., and D. Wright|Effect of Herbicides on Weeds, Nodulation, Biological Nitrogen Fixation and Yield of Peas|Br. Crop Prot. Conf. Weeds:673-674|1997|
120416|T||Macias,F.A., D. Castellano, R.M. Oliva, P. Cross, and A. Torres|Potential Use of Allelopathic Agents as Natural Agrochemicals|Br. Crop Prot. Conf. Weeds:33-38|1997|
120417|T||Noll,C.J.|Chemical Weeding of Cucumber Grown in a Stale Seedbed|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:230-232|1978|
120418|T||Escobar,M., and R.A. Ashley|Effect of Seeding Depth and Irrigation on Ethalfluralin Injury to Cucumber|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:136-139|1985|
120419|T||Johnson III,W.C., D.L. Colvin, G.R. Wehtje, T.A. Littlefield, and B.G.,Jr. Mullinix|Peanut Response to Ethalfluralin: Rates and Methods of Application|Peanut Sci.24(2): 101-104|1997|10.3146/i0095-3679-24-2-8
120420|T||Murphy,H.J., and L.S. Morrow|An Evaluation of Several Herbicides for Weed Control in Katahdin Potatoes|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:157-160|1978|
120421|T||Nicholson,J.F., D.A. Addison, R.D. Hicks, and W.H. Humphreys|Ethalfluralin for Weed Control in Peanuts|Proc. South. Weed Sci. Soc.31:115-119|1978|
120422|T||Al-Khatib,K., R. Parker, and E.P. Fuerst|Foliar Absorption and Translocation of Herbicides from Aqueous Solution and Treated Soil|Weed Sci.40(2): 281-287|1992|10.1017/S0043174500057350
120423|T||Al-Khatib,K., G.I. Mink, G. Reisenauer, R. Parker, H. Westberg, and B. Lamb|Development of a Biologically-Based System for Detection and Tracking of Airborne Herbicides|Weed Technol.7(2): 404-410|1993|10.1017/S0890037X00027809
120424|T||Brock,J.L., J.P.J. Eerens, A. Rahman, and D.J. Wilson|Establishing White Clover (Trifolium repens) in High Pest Density Regions|N. Z. Plant Prot.61:248-255|2008|10.30843/nzpp.2008.61.6850
120425|T||Buhler,D.D., R.P. King, S.M. Swinton, J.L. Gunsolus, and F. Forcella|Field Evaluation of a Bioeconomic Model for Weed Management in Soybean (Glycine max)|Weed Sci.45(1): 158-165|1997|10.1017/S0043174500092626
120426|T||Crooks,H.L., A.C. York, and D.L. Jordan|Wheat (Triticum aestivum) Tolerance and Italian Ryegrass (Lolium multiflorum) Control by AE F130060 00 plus AE F115008 00 Mixed with Other Herbicides|Weed Technol.17(4): 881-889|2003|10.1614/wt-03-030R
120427|T||Derksen,D.A., and D.A. Wall|Flax (Linum usitatissimum) Response to Thifensulfuron Mixtures with Sethoxydim Plus Broadleaf Weed Herbicides|Weed Technol.10(4): 795-802|1996|10.1017/S0890037X00040823
120428|T||Dieleman,A., A.S. Hamill, G.C. Fox, and C.J. Swanton|Decision Rules for Postemergence Control of Pigweed (Amaranthus spp.) in Soybean (Glycine max)|Weed Sci.44(1): 126-132|1996|10.1017/S0043174500093656
120429|T||Durgan,B.R., J.P. Yenish, R.J. Daml, and D.W. Miller|Broadleaf Weed Control in Hard Red Spring Wheat (Triticum aestivum) with F8426|Weed Technol.11(3): 489-495|1997|10.1017/S0890037X00045309
120430|T||Ferguson,G.P., G.E. Coats, G.B. Wilson, and D.R. Shaw|Postemergence Control of Wild Garlic (Allium vineale) in Turfgrass|Weed Technol.6(1): 144-148|1992|10.1017/S0890037X0003445X
120431|T||Foy,C.L., and H.L. Witt|Annual Grass Control in Alfalfa (Medicago sativa) with Postemergence Graminicides|Weed Technol.6(4): 938-948|1992|10.1017/S0890037X00036514
120432|T||Grichar,W.J., and A.E. Colburn|Effect of Dinitroaniline Herbicides Upon Yield and Grade of Five Runner Cultivars|Peanut Sci.20(2): 126-128|1993|10.3146/i0095-3679-20-2-15
120433|T||Grey,T.L., D.C. Bridges, and E.F. Eastin|Influence of Application Rate and Timing of Diclosulam on Weed Control in Peanut (Arachis hypogaea L.)|Peanut Sci.28(1): 13-19|2001|10.3146/i0095-3679-28-1-4
120434|A||Chan,C.Y., S. Tao, R. Dawson, and P.K. Wong|Treatment of Atrazine by Integrating Photocatalytic and Biological Processes|Environ. Pollut.131(1): 45-54|2004|10.1016/j.envpol.2004.02.022
120435|T||Muna,A.S., A.K. Ahmad, K. Mahmoud, and K. Abdul-Rahman|In Vitro Propagation of a Semi-Dwarfing Cherry Rootstock|Plant Cell Tissue Organ Cult.59(3): 203-208|1999|10.1023/A:1006444925445
120436|A||Kar,P.P., S. Mishra, and D.P. Singh|Azolla Sporulation in Response to Application of Some Selected Auxins and Their Combination with Gibberellic Acid|Biol. Fertil. Soils35(5): 314-319|2002|10.1007/s00374-002-0469-1
120437|T||Ofori,D.A., A.C. Newton, R.R.B. Leakey, and J. Grace|Vegetative Propagation of Milicia excelsa by Leafy Stem Cuttings: Effects of Auxin Concentration, Leaf Area and Rooting Medium|For. Ecol. Manag.84(1-3): 39-48|1996|10.1016/0378-1127(96)03737-1
120438|T||Topalca,N., E. Yegin, and I. Celik|Influence of Indole-3-Butyric Acid on Antioxidant Defense Systems in Various Tissues of Rats at Subacute and Subchronic Exposure|Food Chem. Toxicol.47(10): 2441-2444|2009|10.1016/j.fct.2009.06.037
120439|T||Yilmaz,Z., and I. Celik|Neurotoxic and Immunotoxic Effects of Indole-3-Butyric Acid on Rats at Subacute and Subchronic Exposure|Neurotoxicology30(3): 382-385|2009|10.1016/j.neuro.2009.03.002
120440|A||Hou,G., J.P. Hill, and E.B. Blancaflor|Developmental Anatomy and Auxin Response of Lateral Root Formation in Ceratopteris richardii|J. Exp. Bot.55(397): 685-693|2004|10.1093/jxb/erh068
120441|T||Liu,C., J. Zhu, Z. Liu, L. Li, R. Pan, and L. Jin|Exogenous Auxin Effects on Growth and Phenotype of Normal and Hairy Roots of Pueraria lobata (Willd.) Ohwi|Plant Growth Regul.38(1): 37-43|2002|10.1023/A:1020904528045
120442|T||Stefancic,M., F. Stampar, and G. Osterc|Influence of Endogenous IAA Levels and Exogenous IBA on Rooting and Quality of Leafy Cuttings of Prunus 'GiSelA 5'|J. Hortic. Sci. Biotechnol.81(3): 508-512|2006|10.1080/14620316.2006.11512095
120443|A||Chhun,T., S. Taketa, S. Tsurumi, and M. Ichii|Different Behaviour of Indole-3-Acetic Acid and Indole-3-Butyric Acid in Stimulating Lateral Root Development in Rice (Oryza sativa L.)|Plant Growth Regul.43(2): 135-143|2004|10.1023/B:GROW.0000040120.37448.53
120444|T||Sudria,C., M.T. Pinol, J. Palazon, R.M. Cusido, R. Vila, C. Morales, M. Bonfill, and S. Canigueral|Influence of Plant Growth Regulators on the Growth and Essential Oil Content of Cultured Lavandula dentata Plantlets|Plant Cell Tissue Organ Cult.58(3): 177-184|1999|10.1023/A:1006377003962
120445|T||Sudria,C., J. Palazon, R. Cusido, M. Bonfill, M.T. Pinol, and C. Morales|Effect of Benzyladenine and Indolebutyric Acid on Ultrastructure, Glands Formation, and Essential Oil Accumulation in Lavandula dentata Plantlets|Biol. Plant. (Praha)44(1): 1-6|2001|10.1023/A:1017998800224
120446|T||Al-Khayri,J.M.|In Vitro Germination of Somatic Embryos in Date Palm: Effect of Auxin Concentration and Strength of MS Salts|Curr. Sci. (Bangalore)84(5): 680-683|2003|
120447|T||Ueno,M., J. Kihara, Y. Honda, and S. Arase|Effects of Some Indole-Related Compounds on the Infection Behavior of Magnaporthe grisea|J. Gen. Plant Pathol.71(3): 196-199|2005|10.1007/s10327-005-0186-3
120448|T||Li,M., and D.W.M. Leung|Starch Accumulation is Associated with Adventitious Root Formation in Hypocotyl Cuttings of Pinus radiata|J. Plant Growth Regul.19(4): 423-428|2000|10.1007/s003440000020
120449|T||Negash,L.|Successful Vegetative Propagation Techniques for the Threatened African Pencil Cedar (Juniperus procera Hoechst. ex Endl.)|For. Ecol. Manag.161(1-3): 53-64|2002|10.1016/S0378-1127(01)00501-1
120450|A||Niska,K., T. Korkea-aho, E. Lindfors, T. Kiuru, M. Tuomainen, J. Taskinen, and K. Peltonen|Disappearance of Malachite Green Residues in Fry of Rainbow Trout (Oncorhynchus mykiss) After Treatment of Eggs at the Hatching Stage|Aquaculture297(1-4): 25-30|2009|10.1016/j.aquaculture.2009.08.037
120451|A||Babic,M., S. Radic, P. Cvjetko, V. Roje, B. Pevalek-Kozlina, and M. Pavlica|Antioxidative Response of Lemna minor Plants Exposed to Thallium(I)-Acetate|Aquat. Bot.91(3): 166-172|2009|10.1016/j.aquabot.2009.05.005
120452|A||Pan,X., C. Deng, D. Zhang, J. Wang, G. Mu, and Y. Chen|Toxic Effects of Amoxicillin on the Photosystem II of Synechocystis sp. Characterized by a Variety of In Vivo Chlorophyll Fluorescence Tests|Aquat. Toxicol.89(4): 207-213|2008|10.1016/j.aquatox.2008.06.018
120453|A||Pham,T.P.T., C.W. Cho, J. Min, and Y.S. Yun|Alkyl-Chain Length Effects of Imidazolium and Pyridinium Ionic Liquids on Photosynthetic Response of Pseudokirchneriella subcapitata|J. Biosci. Bioeng.105(4): 425-428|2008|10.1263/jbb.105.425
120455|T||Blackshaw,R.E., D.A. Derksen, and H.H. Muendel|Herbicides for Weed Control in Safflower (Carthamus tinctorius)|Can. J. Plant Sci.70(1): 237-245|1990|10.4141/cjps90-026
120456|T||Horak,M.J., and D.E. Peterson|Biotypes of Palmer Amarnath (Amaranthus palmeri) and Common Waterhemp (Amaranthus rudis) are Resistant to Imazethapyr and Thifensulfuron|Weed Technol.9(1): 192-195|1995|10.1017/S0890037X00023174
120457|T||Jeffers,G.M., J.T. O'Donovan, and L.M. Hall|Wild Mustard (Brassica kaber) Resistance to Ethametsulfuron but Not to Other Herbicides|Weed Technol.10(4): 847-850|1996|10.1017/S0890037X00040902
120458|T||Manley,B.S., H.P. Wilson, and T.E. Hines|Smooth Pigweed (Amaranthus hybridus) and Livid Amaranth (A. lividus) Response to Several Imidazolinone and Sulfonylurea Herbicides|Weed Technol.10(4): 835-841|1996|10.1017/S0890037X00040884
120459|T||Harrison,S.K., and J.E. Beuerlein|Effect of Herbicide Mixtures and Seeding Rate on Soft Red Winter Wheat (Triticum aestivum) Yield|Weed Technol.3(3): 505-508|1989|10.1017/S0890037X00032668
120460|T||Harker,K.N., and R.E. Blackshaw|Influence of Growth Stage and Broadleaf Herbicides on Tralkoxydim Activity|Weed Sci.39(4): 650-659|1991|10.1017/S0043174500088524
120461|T||Zhao,C.C., J.R. Teasdale, and C.B. Coffman|Factors Affecting the Activity of Thifensulfuron|Weed Sci.38(6): 553-557|1990|10.1017/S004317450005147X
120462|T||Whaley,C.M., H.P. Wilson, and J.H. Westwood|ALS Resistance in Several Smooth Pigweed (Amaranthus hybridus) Biotypes|Weed Sci.54(5): 828-832|2006|10.1614/WS-05-040R.1
120463|T||Hall,L.M., K.M. Stromme, G.P. Horsman, and M.D. Devine|Resistance to Acetolactate Synthase Inhibitors and Quinclorac in a Biotype of False Cleavers (Galium spurium)|Weed Sci.46(4): 390-396|1998|10.1017/S0043174500090780
120464|T||Monks,C.D., J.W. Wilcut, and J.S. Richburg III|Broadleaf Weed Control in Soybean (Glycine max) with Chlorimuron plus Acifluorfen or Thifensulfuron Mixtures|Weed Technol.7(2): 317-321|1993|10.1017/S0890037X00027652
120465|T||Moyer,J.R.|Sulfonylurea Herbicide Effects on Following Crops|Weed Technol.9(2): 373-379|1995|10.1017/S0890037X00023502
120466|T||Parks,R.J., W.S. Curran, G.W. Roth, N.L. Hartwig, and D.D. Calvin|Common Lambsquarters (Chenopodium album) Control in Corn (Zea mays) with Postemergence Herbicides and Cultivation|Weed Technol.9(4): 728-735|1995|10.1017/S0890037X0002412X
120467|T||Parks,R.J., W.S. Curran, G.W. Roth, N.L. Hartwig, and D.D. Calvin|Herbicide Susceptibility and Biological Fitness of Triazine-Resistant and Susceptible Common Lambsquarters (Chenopodium album)|Weed Sci.44(3): 517-522|1996|10.1017/S0043174500094273
120468|T||Poston,D.H., C.M. Hirata, and H.P. Wilson|Response of Acetolactate Synthase from Imidazolinone-Susceptible and -Resistant Smooth Pigweed to ALS Inhibitors|Weed Sci.50(3): 306-311|2002|10.1614/0043-1745(2002)050[0306:ROASFI]2.0.CO;2
120469|T||Simpson,D.M., and E.W. Stoller|Response of Sulfonylurea-Tolerant Soybean (Glycine max) and Selected Weed Species to Imazethapyr and Thifensulfuron Combinations|Weed Technol.9(3): 582-586|1995|10.1017/S0890037X00023885
120470|T||Malik,N.|Altai Wild Ryegrass Yield Response to Herbicides Applied During Establishment|Can. J. Plant Sci.71(1): 115-125|1991|10.4141/cjps91-013
120471|T||Wall,D.A., D.A. Derksen, and L.F. Friesen|Canola (Brassica napus) Response to Simulated Sprayer Contamination with Thifensulfuron and Thifensulfuron: Tribenuron (2:1)|Weed Technol.9(3): 468-476|1995|10.1017/S0890037X00023708
120472|A||Hardy,R.W., L.L. Oram, and G. Moller|Effects of Dietary Selenomethionine on Cutthroat Trout (Oncorhynchus clarki bouvieri) Growth and Reproductive Performance over a Life Cycle|Arch. Environ. Contam. Toxicol.58(1): 237-245|2010|10.1007/s00244-009-9392-x
120473|T||Schillinger,E., and O. Loge|Effects of Derivatives of Indole Carboxylic Acids on Carbohydrate Metabolism of the Rat|Biochem. Pharmacol.22(7): 841-848|1973|10.1016/0006-2952(73)90364-X
120474|T||Hager,A., and K. Renner|Common Ragweed (Ambrosia artemisiifolia) Control in Soybean (Glycine max) with Bentazon as Influenced by Imazethapyr or Thifensulfuron Tank-Mixes|Weed Technol.8(4): 766-771|1994|10.1017/S0890037X00028669
120475|T||Gealy,D.R., C.M. Boerboom, and A.G.,Jr. Ogg|Growth and Yield of Pea (Pisum sativum L.) and Lentil (Lens culinaris L.) Sprayed with Low Rates of Sulfonylurea and Phenoxy Herbicides|Weed Sci.43(4): 640-647|1995|10.1017/S0043174500081765
120476|T||Gast,R.E., R.A. Liebl, and F.W. Slife|Wild Garlic (Allium vineale) Control with Thifensulfuron and DPX-L5300|Weed Technol.4(3): 592-597|1990|10.1017/S0890037X0002604X
120477|T||Friesen,L.F., I.N. Morrison, A. Rashid, and M.D. Devine|Response of a Chlorsulfuron-Resistant Biotype of Kochia scoparia to Sulfonylurea and Alternative Herbicides|Weed Sci.41(1): 100-106|1993|10.1017/S0043174500057659
120478|T||Baerg,R.J., J.W. Gronwald, C.V. Eberlein, and R.E. Stucker|Antagonism of Diclofop Control of Wild Oat (Avena fatua) by Tribenuron|Weed Sci.44(3): 461-468|1996|10.1017/S0043174500094194
120479|T||Harrington,K.C., and T. Zhang|Herbicides for Controlling Weeds in Mercury Bay Weed|Proc. N. Z. Plant Prot. Conf.50:462-466|1997|10.30843/nzpp.1997.50.11304
120480|T||Khan,M., and W.W. Donald|Sulfonylurea Herbicides Reduce Survival and Seed Production of Green and Yellow Foxtails (Setaria spp.)|Weed Technol.6(2): 284-290|1992|10.1017/S0890037X00034746
120481|T||Kotoula-Syka,E., I.G. Eleftherohorinos, A.A. Gagianas, and A.G. Sficas|Persistence of Preemergence Applications of Chlorsulfuron, Metsulfuron, Triasulfuron, and Tribenuron in Three Soils in Greece|Weed Sci.41(2): 246-250|1993|10.1017/S004317450007613X
120482|T||Nelson,K.A., W.G. Johnson, J.D. Wait, and R.L. Smoot|Winter-Annual Weed Management in Corn (Zea mays) and Soybean (Glycine max) and the Impact on Soybean Cyst Nematode (Heterodera glycines) Egg Population Densities|Weed Technol.20(4): 965-970|2006|10.1614/WT-05-119.1
120483|T||Rahman,A., T.K. James, and P. Sanders|Control of Phenoxy Herbicide Resistant Nodding Thistle (Carduus nutans) in Pasture|Proc. N. Z. Plant Prot. Conf.47:68-74|1994|10.30843/nzpp.1994.47.11032
120484|T||Wall,D.A.|Bentazon Tank-Mixtures for Improved Redroot Pigweed (Amaranthus retroflexus) and Common Lambsquarters (Chenopodium album) Control in Navy Bean (Phaseolus vulgaris)|Weed Technol.9(3): 610-616|1995|10.1017/S0890037X00023927
120485|T||York,A.C., S.M. Turner, and R.E. Jarrett|Triticale (X Triticosecale Wittmack) Response to Herbicides|Weed Technol.8(1): 119-123|1994|10.1017/S0890037X00039300
120486|T||Ivany,J.A., J. Lea, K.V. McCully, and H.T. Kunelius|Herbicide Effect on Growth and Seed Production of Lolium multiflorum in Atlantic Canada|Crop Prot.21(10): 991-995|2002|10.1016/S0261-2194(02)00079-0
120487|T||Krausz,R.F., B.G. Young, and J.L. Matthews|Winter Annual Weed Control with Fall-Applied Corn (Zea mays) Herbicides|Weed Technol.17(3): 516-520|2003|10.1614/WT02-092
120488|T||Ritter,R.L., and H. Menbere|Preemergence and Postemergence Control of Triazine-Resistant Common Lambsquarters (Chenopodium album) in No-Till Corn (Zea mays)|Weed Technol.15(4): 879-884|2001|10.1614/0890-037X(2001)015[0879:PAPCOT]2.0.CO;2
120489|T||Warwick,S.I., C. Sauder, and H.J. Beckie|Resistance in Canadian Biotypes of Wild Mustard (Sinapis arvensis) to Acetolactate Synthase Inhibiting Herbicides|Weed Sci.53(5): 631-639|2005|10.1614/WS-05-003R1.1
120490|T||Reynolds,D., S. Crawford, and D. Jordan|Cutleaf Eveningprimrose Control with Preplant Burndown Herbicide Combinations in Cotton|J. Cotton Sci.4(2): 124-129|2000|
120491|T||Jordan,D.L., L.S.,Jr. Warren, D.K. Miller, M.C. Smith, D.B. Reynolds, S.H. Crawford, and J.L. Griffin|Italian Ryegrass Control with Preplant Herbicides|J. Cotton Sci.5(4): 268-274|2001|
120493|T||Wall,D.A., and E.O. Kenaschuk|Flax Tolerance to Thifensulfuron and Tribenuron|Can. J. Plant Sci.76(4): 899-905|1996|10.4141/cjps96-151
120494|T||Macek,J., L. Milevoj, and F. Celar|The Influence of Nico-, Primi-, Rim- and Thifensulfuron-Methyl Herbicides on the Mycelial Growth of Fusarium graminearum|Acta Phytopathol. Entomol. Hung.33(1/2): 97-100|1998|
120495|T||De Klerk,G.J., J. Ter Brugge, and S. Marinova|Effectiveness of Indoleacetic Acid, Indolebutyric Acid and Naphthaleneacetic Acid During Adventitious Root Formation In Vitro in Malus 'Jork 9'|Plant Cell Tissue Organ Cult.49(1): 39-44|1997|10.1023/A:1005850222973
120496|T||Zhang,N., and K.H. Hasenstein|Halogenated Auxins Affect Microtubules and Root Elongation in Lactuca sativa|J. Plant Growth Regul.19(4): 397-405|2000|10.1007/s003440000042
120497|T||Valverde-Cerdas,L., M. Dufour, and V.M. Villalobos|In Vitro Propagation of Pithecellobium saman (Raintree)|In Vitro Cell. Dev. Biol., Plant33(1): 38-42|1997|10.1007/s11627-997-0038-2
120498|T||Sabovljevic,A., N. Rosic, T. Jankovic, and D. Grubisic|Secoiridoid Content of Blackstonia perfoliata In Vivo and In Vitro|In Vitro Cell. Dev. Biol., Plant42(5): 427-431|2006|10.1079/IVP2006759
120499|T||Staswick,P.E., B. Serban, M. Rowe, I. Tiryaki, M.T. Maldonado, M.C. Maldonado, and W. Suza|Characterization of an Arabidopsis Enzyme Family that Conjugates Amino Acids to Indole-3-Acetic Acid|Plant Cell17(2): 616-627|2005|10.1105/tpc.104.026690
120500|T||Poupart,J., and C.S. Waddell|The rib1 Mutant is Resistant to Indole-3-Butyric Acid, an Endogenous Auxin in Arabidopsis|Plant Physiol.124(4): 1739-1751|2000|10.1104/pp.124.4.1739
120502|T||Ainsley,P.J., F.A. Hammerschlag, T. Bertozzi, G.G. Collins, and M. Sedgley|Regeneration of Almond from Immature Seed Cotyledons|Plant Cell67(3): 221-226|2001|
120503|T||Rambabu,M., M. Upender, D. Ujjwala, T. Ugandhar, M. Praveen, and N.R. Swamy|In Vitro Zygotic Embryo Culture of an Endangered Forest Tree Givotia rottleriformis and Factors Affecting Its Germination and Seedling Growth|In Vitro Cell. Dev. Biol., Plant42(5): 418-421|2006|10.1079/IVP2006804
120504|T||Tereso,S., C.M. Miguel, M. Mascarenhas, A. Roque, H. Trindade, J. Maroco, and M.M. Oliveira|Improved In Vitro Rooting of Prunus dulcis Mill. Cultivars|Biol. Plant. (Praha)52(3): 437-444|2008|10.1007/s10535-008-0088-2
120505|T||Lee,J.S., S. Wang, S. Sritubtim, J.G. Chen, and B.E. Ellis|Arabidopsis Mitogen-Activated Protein Kinase MPK12 Interacts with the MAPK Phosphatase IBR5 and Regulates Auxin Signaling|Plant J.57(6): 975-985|2009|10.1111/j.1365-313X.2008.03741.x
120506|T||Negash,L.|Vegetative Propagation of the Threatened East African Yellowwood (Podocarpus falcatus)|S. Afr. J. Bot.69(2): 170-175|2003|10.1016/S0254-6299(15)30342-2
120507|T||Percival,G., and J. Gerritsen|The Influence of Plant Growth Regulators on Root and Shoot Growth of Containerized Trees Following Root Removal|J. Hortic. Sci. Biotechnol.73(3): 353-359|1998|10.1080/14620316.1998.11510985
120508|T||Singh,P., L.S. Brar, and G.S. Randhawa|Efficacy of Different Herbicides for Weed Control in Japanese Mint (Mentha arvensis L.)|Indian Perfum.39(2): 72-75|1995|
120509|T||Walia,U.S., B.K. Dhaliwal, and D. Singh|Herbicidal Control of Weeds in Toria (Brassica compestris var. toria)|J. Res. Punjab Agric. Univ.35(3/4): 157-160|1998|
120510|T||Wall,D.A.|Response of Flax and Lentil to Seeding Rates, Depths and Spring Application of Dinitroaniline Herbicides|Can. J. Plant Sci.74(4): 875-882|1994|10.4141/cjps94-159
120511|T||Wall,D.A., F.A. Kiehn, and G.H. Friesen|Tolerance of Columbia Jerusalem Artichoke to Selective Herbicides|Can. J. Plant Sci.67(3): 835-837|1987|10.4141/cjps87-118
120513|T||Reyes,C.|Groundcherry Control with and Tomato Tolerance to Ethalfluralin Post Applied Treatments|Proc. Annu. Calif. Weed Conf.34:85-95|1982|
120514|T||Potter,T.D., and K.R. Smith|Effectiveness of Some Herbicides for Weed Control in Irrigated Sunflowers in South Australia|Aust. Weeds2(2): 47-49|1983|
120515|T||McCollum,T.G., S.J. Locascio, and W.T. Scudder|Weed Control in Carrots on Organic Soil|Proc. South. Weed Sci. Soc.:129-134|1982|
120516|T||May,M.J.|Glasshouse Investigations with Newer Soil-Applied Herbicides for Weed Control on Organic Soils|Br. Crop Prot. Conf. Weeds14(2): 777-784|1978|
120517|T||Malik,N., and W.H. Vanden Born|False Cleavers (Galium spurium L.) Competition and Control in Rapeseed|Can. J. Plant Sci.67(3): 839-844|1987|10.4141/cjps87-119
120518|T||Kennedy,J.M., J.D. Caponetti, and L.S. Jeffery|Response of Several Cucumber Cultivar Seedlings to Ethalfluralin and Pendimethalin In Vitro|J. Tenn. Acad. Sci.66(3): 111-114|1991|
120519|T||Humphreys,W.H., D.A. Addison, R.D. Hicks, K.E. McNeill, J.F. Nicholson, L.B. Rowland, and H.L. Webster|Ethalfluralin for Weed Control in Cucurbits|Proc. South. Weed Sci. Soc.31:159-166|1978|
120520|T||Darmstadt,G.|Weed Control in Selected Cucurbits with Ethalfluralin|Proc. Annu. Calif. Weed Conf.31:43-50|1979|
120521|T||Gerwing,P.D., and R.B. McKercher|The Relative Persistence of Trifluralin (545 EC and 5 G) and Ethalfluralin in Prairie Soils|Can. J. Soil Sci.72(3): 255-262|1992|10.4141/cjss92-024
120522|T||Bunch,R.|Comparative Responses of Snap Bean Varieties to Soil Incorporated Ethalfluralin|Proc. Annu. Calif. Weed Conf.34:96-104|1982|
120523|T||Brar,L.S., and U.S. Walia|Bioefficacy of Pre- and Post-Emergence Herbicides for Controlling Weeds in American Cotton|J. Res. Punjab Agric. Univ.29(1): 23-28|1992|
120524|T||Ambulkar,B.R., J.R. Ramteke, and U.V. Mahadkar|Effects of Herbicides and Cultural Practices on Weed Competition, Nutrient Uptake and Nitrogen Balance|J. Maharashtra Agric. Univ.18(1): 41-44|1993|
120525|A||Pagter,M., C. Bragato, M. Malagoli, and H. Brix|Osmotic and Ionic Effects of NaCl and Na2SO4 Salinity on Phragmites australis|Aquat. Bot.90(1): 43-51|2009|10.1016/j.aquabot.2008.05.005
120526|A||Eullaffroy,P., C. Frankart, A. Aziz, M. Couderchet, and C. Blaise|Energy Fluxes and Driving Forces for Photosynthesis in Lemna minor Exposed to Herbicides|Aquat. Bot.90(2): 172-178|2009|10.1016/j.aquabot.2008.09.002
120527|A||Wang,W., K. Mai, W. Zhang, Q. Ai, C. Yao, H. Li, and Z. Liufu|Effects of Dietary Copper on Survival, Growth and Immune Response of Juvenile Abalone, Haliotis discus hannai Ino|Aquaculture297(1-4): 122-127|2009|10.1016/j.aquaculture.2009.09.006
120528|T||Capell,B., R.D. Reeleder, R. Grohs, and B. Zilkey|Evaluation of Herbicides for Management of Weeds in Cultivation of Panax quinquefolius L.|J. Ginseng Res.23(3): 135-147|1999|
120529|A||Nassef,M., S.G. Kim, M. Seki, I.J. Kang, T. Hano, Y. Shimasaki, and Y. Oshima|In Ovo Nanoinjection of Triclosan, Diclofenac and Carbamazepine Affects Embryonic Development of Medaka Fish (Oryzias latipes)|Chemosphere79:966-973|2010|10.1016/j.chemosphere.2010.02.002
120530|T||Kubo,T., T. Kihara, and T. Hirabayashi|The Effects of Spraying Lead Arsenate on Citrate Accumulation and the Related Enzyme Activities in the Juice Sacs of Citrus natsudaidai|J. Jpn. Soc. Hortic. Sci.71(3): 305-310|2002|10.2503/jjshs.71.305
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120532|T||Harrington,K.C.|Herbicide Tolerance of Three Ground Cover Species with Potential for Use in Orchards|Proc. N. Z. Plant Prot. Conf.:11-14|1993|10.30843/nzpp.1993.46.11189
120533|T||Yamasaki,K., M. Sawaki, S. Noda, T. Muroi, and A. Maekawa|Immature Rat Uterotrophic Assay of Diethylstilbestrol, Ethynyl Estradiol and Atrazine|J. Toxicol. Pathol.13:145-149|2000|10.1293/tox.13.145
120534|A||Sashaw,J., M. Nawata, S. Thompson, C.M. Wood, and P.A. Wright|Rhesus Glycoprotein and Urea Transporter Genes in Rainbow Trout Embryos are Upregulated in Response to Alkaline Water (pH 9.7) but not Elevated Water Ammonia|Aquat. Toxicol.96(4): 308-313|2010|10.1016/j.aquatox.2009.11.012
120535|A||Bilberg,K., H. Malte, T. Wang, and E. Baatrup|Silver Nanoparticles and Silver Nitrate Cause Respiratory Stress in Eurasian Perch (Perca fluviatilis)|Aquat. Toxicol.96(2): 159-165|2010|10.1016/j.aquatox.2009.10.019
120536|A||Contreras,L., A. Moenne, F. Gaillard, P. Potin, and J.A. Correa|Proteomic Analysis and Identification of Copper Stress-Regulated Proteins in the Marine Alga Scytosiphon gracilis (Phaeophyceae)|Aquat. Toxicol.96(2): 85-89|2010|10.1016/j.aquatox.2009.10.007
120537|A||Chatel,A., B. Hamer, H. Talarmin, G. Dorange, H.C. Schroder, and W.E.G. Muller|Activation of MAP Kinase Signaling Pathway in the Mussel Mytilus galloprovincialis as Biomarker of Environmental Pollution|Aquat. Toxicol.96(4): 247-255|2010|10.1016/j.aquatox.2009.11.002
120538|A||Saison,C., F. Perreault, J.C. Daigle, C. Fortin, J. Claverie, M. Morin, and R. Popovic|Effect of Core-Shell Copper Oxide Nanoparticles on Cell Culture Morphology and Photosynthesis (Photosystem II Energy Distribution) in the Green Alga, Chlamydomonas reinhardtii|Aquat. Toxicol.96(2): 109-114|2010|10.1016/j.aquatox.2009.10.002
120539|A||Kristoff,G., N.R.V. Guerrero, and A.C. Cochon|Inhibition of Cholinesterases and Carboxylesterases of Two Invertebrate Species, Biomphalaria glabrata and Lumbriculus variegatus, by the Carbamate Pesticide Carbaryl|Aquat. Toxicol.96(2): 115-123|2010|10.1016/j.aquatox.2009.10.001
120540|A||Marva,F., V. Lopez-Rodas, M. Rouco, M. Navarro, F.J. Toro, E. Costas, and A. Flores-Moya|Adaptation of Green Microalgae to the Herbicides Simazine and Diquat as Result of Pre-Selective Mutations|Aquat. Toxicol.96(2): 130-134|2010|10.1016/j.aquatox.2009.10.009
120541|A||Knauer,K., A. Leimgruber, U. Hommen, and S. Knauert|Co-Tolerance of Phytoplankton Communities to Photosynthesis II Inhibitors|Aquat. Toxicol.96(4): 256-263|2010|10.1016/j.aquatox.2009.11.001
120542|A||Sundback,K., D.G. Petersen, I. Dahllof, and F. Larson|Combined Nutrient-Toxicant Effects on a Shallow-Water Marine Sediment System:  Sensitivity and Resilience of Ecosystem Functions|Mar. Ecol. Prog. Ser.330:13-30|2007|10.3354/meps330013
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120544|A||Bugiak,B., and L.P. Weber|Hepatic and Vascular mRNA Expression in Adult Zebrafish (Danio rerio) Following Exposure to Benzo-a-pyrene and 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Aquat. Toxicol.95(4): 299-306|2009|10.1016/j.aquatox.2009.03.009
120545|A||Estrella-Gomez,N., D. Mendoza-Cozatl, R. Moreno-Sanchez, D. Gonzalez-Mendoza, O. Zapata-Perez, A. Martinez-Hernandez, a|The Pb-Hyperaccumulator Aquatic Fern Salvinia minima Baker, Responds to Pb2+ by Increasing Phytochelatins via Changes in SmPCS Expression and in Phytochelatin Synthase Activity|Aquat. Toxicol.91(4): 320-328|2009|10.1016/j.aquatox.2008.11.002
120546|A||Evens,R., K.A.C. De Schamphelaere, and C.R. Janssen|The Effects of Dietary Nickel Exposure on Growth and Reproduction of Daphnia magna|Aquat. Toxicol.94(2): 138-144|2009|10.1016/j.aquatox.2009.06.011
120547|A||Ventura,S.P.M., A.M.M. Goncalves, F. Goncalves, and J.A.P. Coutinho|Assessing the Toxicity on (C3mim)(Tf2N) to Aquatic Organisms of Different Trophic Levels|Aquat. Toxicol.96(4): 290-297|2010|10.1016/j.aquatox.2009.11.008
120548|A||Hyndman,K.M., A. Biales, S.E. Bartell, and H.L. Schoenfuss|Assessing the Effects of Exposure Timing on Biomarker Expression Using 17beta-Estradiol|Aquat. Toxicol.96(4): 264-272|2010|10.1016/j.aquatox.2009.11.004
120549|A||Khan,F.R., N.R. Bury, and C. Hogstrand|Cadmium Bound to Metal Rich Granules and Exoskeleton from Gammarus pulex Causes Increased Gut Lipid Peroxidation in Zebrafish Following Single Dietary Exposure|Aquat. Toxicol.96(2): 124-129|2010|10.1016/j.aquatox.2009.10.010
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120552|A||Velisek,J., Z. Svobodova, V. Piackova, L. Novotny, J. Blahova, E. Sudova, and V. Maly|Effects of Metribuzin on Rainbow Trout (Oncorhynchus mykiss)|Vet. Med.53(6): 324-332|2008|10.17221/1857-VETMED
120553|A||Horng,C.Y., H.C. Lin, and W. Lee|A Reproductive Toxicology Study of Phenanthrene in Medaka (Oryzias latipes)|Arch. Environ. Contam. Toxicol.58(1): 131-139|2010|10.1007/s00244-009-9335-6
120554|A||Kumar,R., N.S. Nagpure, B. Kushwaha, S.K. Srivastava, and W.S. Lakra|Investigation of the Genotoxicity of Malathion to Freshwater Teleost Fish Channa punctatus (Bloch) Using the Micronucleus Test and Comet Assay|Arch. Environ. Contam. Toxicol.58(1): 123-130|2010|10.1007/s00244-009-9354-3
120555|A||Firat,O., and F. Kargin|Individual and Combined Effects of Heavy Metals on Serum Biochemistry of Nile Tilapia Oreochromis niloticus|Arch. Environ. Contam. Toxicol.58(1): 151-157|2010|10.1007/s00244-009-9344-5
120556|A||Huang,W., L. Cao, X. Shan, Z. Xiao, Q. Wang, and S. Dou|Toxic Effects of Zinc on the Development, Growth, and Survival of Red Sea Bream Pagrus major Embryos and Larvae|Arch. Environ. Contam. Toxicol.58(1): 140-150|2010|10.1007/s00244-009-9348-1
120557|A||Daam,M.A., K. Satapornvanit, P.J. Van den Brink, and A.J.A. Nogueira|Direct and Indirect Effects of the Fungicide Carbendazim in Tropical Freshwater Microcosms|Arch. Environ. Contam. Toxicol.58(2): 315-324|2010|10.1007/s00244-009-9367-y
120558|A||Zhang,Z., H. Cheng, Y. Wang, S. Wang, F. Xie, and S. Li|Acrosome Reaction of Sperm in the Mud Crab Scylla serrata as a Sensitive Toxicity Test for Metal Exposures|Arch. Environ. Contam. Toxicol.58(1): 96-104|2010|10.1007/s00244-009-9326-7
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120561|A||Datta,S., D. Ghosh, D.R. Saha, S. Bhattacharaya, and S. Mazumder|Chronic Exposure to Low Concentration of Arsenic is Immunotoxic to Fish:  Role of Head Kidney Macrophages as Biomarkers of Arsenic Toxicity to Clarias batrachus|Aquat. Toxicol.92(2): 86-94|2009|10.1016/j.aquatox.2009.01.002
120562|A||Coors,A., J. Vanoverbeke, T. De Bie, and L. De Meester|Land Use, Genetic Diversity and Toxicant Tolerance in Natural Populations of Daphnia magna|Aquat. Toxicol.95(1): 71-79|2009|10.1016/j.aquatox.2009.08.004
120563|A||Jin,M., X. Zhang, L. Wang, C. Huang, Y. Zhang, and M. Zhao|Developmental Toxicity of Bifenthrin in Embryo-Larval Stages of Zebrafish|Aquat. Toxicol.95(4): 347-354|2009|10.1016/j.aquatox.2009.10.003
120564|A||Sappal,R., and C. Kamunde|Internal Bioavailability of Waterborne and Dietary Zinc in Rainbow Trout, Oncorhynchus mykiss:  Preferential Detoxification of Dietary Zinc|Aquat. Toxicol.93(2/3): 166-176|2009|10.1016/j.aquatox.2009.05.004
120566|A||Silkina,A., A. Bazes, F. Vouve, V. Le Tilly, P. Douzenel, J.L. Mouget, and N. Bourgougnon|Antifouling Activity of Macroalgal Extracts on Fragilaria pinnata (Bacillariophyceae):  A Comparison with Diuron|Aquat. Toxicol.94(4): 245-254|2009|10.1016/j.aquatox.2009.07.004
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120568|A||Petersen,D.G., K. Sundback, F. Larson, and I. Dahllof|Pyrene Toxicity is Affected by the Nutrient Status of a Marine Sediment Community:  Implications for Risk Assessment|Aquat. Toxicol.95(1): 37-43|2009|10.1016/j.aquatox.2009.07.023
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120570|A||Venn,A.A., J. Quinn, R. Jones, and A. Bodnar|P-Glycoprotein (Multi-Xenobiotic Resistance) and Heat Shock Protein Gene Expression in the Reef Coral Montastraea franksi in Response to Environmental Toxicants|Aquat. Toxicol.93(4): 188-195|2009|10.1016/j.aquatox.2009.05.003
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120579|A||Zhao,L.L., Y.L. Xi, L. Huang, and C.W. Zha|Effects of Three Phthalate Esters on the Life-Table Demography of Freshwater Rotifer Brachionus calyciflorus Pallas|Aquat. Ecol.43(2): 395-402|2009|10.1007/s10452-008-9179-6
120580|A||Cavas,T., and S. Konen|In Vivo Genotoxicity Testing of the Amnesic Shellfish Poison (Domoic Acid) in Piscine Erythrocytes Using the Micronucleus Test and the Comet Assay|Aquat. Toxicol.90(2): 154-159|2008|10.1016/j.aquatox.2008.08.011
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120630|T||Sivakumaran,K., D. Mulugeta, P.K. Fay, and W.E. Dyer|Differential Herbicide Response Among Sulfonylurea-Resistant Kochia scoparia L. Accessions|Weed Sci.41(2): 159-165|1993|10.1017/S0043174500076001
120631|A||Sures,B., and H. Radszuweit|Pollution-Induced Heat Shock Protein Expression in the Amphipod Gammarus roeseli is Affected by Larvae of Polymorphus minutus (Acanthocephala)|J. Helminthol.81(2): 191-197|2007|10.1017/S0022149X07751465
120632|A||Ultra,V.U.,Jr., A. Nakayama, S. Tanaka, Y. Kang, K. Sakurai, and K. Iwasaki|Potential for the Alleviation of Arsenic Toxicity in Paddy Rice Using Amorphous Iron-(Hydr)oxide Amendments|Soil Sci. Plant Nutr.55(1): 160-169|2009|10.1111/j.1747-0765.2008.00341.x
120633|T||Jacobsen,B.J., and H.J. Hopen|Influence of Herbicides on Aphanomyces Root Rot of Peas|Plant Dis.65(1): 11-16|1981|10.1094/PD-65-11
120634|A||Velisek,J., T. Wlasow, P. Gomulka, Z. Svobodova, and L. Novotny|Effects of 2-Phenoxyethanol Anaesthesia on Sheatfish (Silurus glanis L.)|Vet. Med.52(3): 103-110|2007|10.17221/2011-VETMED
120635|A||Ramirez-Duarte,W.F., I.S. Rondon-Barragan, and P.R. Eslava-Mocha|"Acute Toxicity and Histopathological Alterations of Roundup Herbicide on ""Cachama Blanca"" (Piaractus brachypomus)"|Pesqui. Vet. Bras.28(11): 547-554|2008|10.1590/S0100-736X2008001100002
120636|T||Jensen,P.K., and O. Permin|Tolerance of Flax to Pre- and Post-Emergence Herbicides|Tidsskr. Planteavl (Multiple Languages)96(1): 57-62|1992|
120637|A||Olah,V., E. Szollosi, E. Varga, and T. Kiss|Chromium (VI) Induced Inhibition of Photosynthesis and Growth in Duckweed|Cereal Res. Commun.36(suppl. S, Pt. 1): 319-322|2008|
120638|T||Davis,V.M., G.R. Kruger, B.G. Young, and W.G. Johnson|Fall and Spring Preplant Herbicide Applications Influence Spring Emergence of Glyphosate-Resistant Horseweed (Conyza canadensis)|Weed Technol.24(1): 11-19|2010|10.1614/WT-09-064.1
120639|T||Bond,J.A., and T.W. Walker|Control of Volunteer Glyphosate-Resistant Soybean in Rice|Weed Technol.23(2): 225-230|2009|10.1614/WT-08-156.1
120640|T||Lancaster,S.H., J.B. Beam, J.E. Lanier, D.L. Jordan, and P.D. Johnson|Compatibility of Diclosulam with Postemergence Herbicides and Fungicides|Weed Technol.21(4): 869-872|2007|10.1614/WT-07-028.1
120642|T||Meng,X.Q., J.J. Zhang, X.M. Liang, W.J. Zhu, Y.H. Dong, X.M. Wu, J.X. Huang, C.H. Rui, X.L. Fan, F.H. Chen, and D.Q. Wa|Synthesis and Herbicidal Activity of 12-(Aryloxyacyloxyimino)-1,15-Pentadecanlactone Derivatives|J. Agric. Food Chem.57(2): 610-617|2009|10.1021/jf802649w
120643|T||Lake,J.T., and A.G. Hager|Herbicide Selection and Application Timing for Control of Cressleaf Groundsel (Packera glabella)|Weed Technol.23(2): 221-224|2009|10.1614/WT-08-031.1
120644|T||Kempen,H.M., J. Woods, and J.E. Hill|Research Results on Nutsedge and American Black Nightshade in San Joaquin Valley Cotton|Proc. West. Soc. Weed Sci.31:133-142|1978|
120645|T||Hasegawa,S., V.P. Maier, Z. Herman, and P. Ou|Phytohormone Bioregulation of Nomilin Biosynthesis in Citrus Limon Seedlings|Phytochemistry25(6): 1323-1325|1986|10.1016/S0031-9422(00)81281-9
120646|T||Caboni,E., P. Lauri, M. Tonelli, G. Falasca, and C. Damiano|Root Induction by Agrobacterium rhizogenes in Walnut|Plant Sci.118(2): 203-208|1996|10.1016/0168-9452(96)04449-4
120647|T||Cobb,W.T.|Sonalan Efficacy and Crop Tolerance when Applied Preplant Incorporated to Edible Beans in the Pacific Northwest - EUP Research|Proc. West. Soc. Weed Sci.34:123-125|1981|
120648|T||Cobb,W.T.|Ethalfluralin, a New Herbicide for Podded Crops|Proc. West. Soc. Weed Sci.31:98-101|1978|
120649|T||Blackshaw,R.E., and L.J. Molnar|Integration of Conservation Tillage and Herbicides for Sustainable Dry Bean Production|Weed Technol.22(1): 168-176|2008|10.1614/WT-07-094.1
120650|A||Grote,M., W. Brack, H.A. Walter, and R. Altenburger|Confirmation of Cause-Effect Relationships Using Effect-Directed Analysis for Complex Environmental Samples|Environ. Toxicol. Chem.24(6): 1420-1427|2005|10.1897/04-278R.1
120651|T||Scepanovic,M., Z. Ostojic, N. Galzina, M. Gorsic, and S. Havrda|Site Specific Post-Emergence Weed Control in Soybean|Cereal Res. Commun.36:1639-1642|2008|
120652|T||Wall,D.A.|Potato (Solanum tuberosum) Response to Simulated Drift of Dicamba, Clopyralid, and Tribenuron|Weed Sci.42(1): 110-114|1994|10.1017/S0043174500084253
120653|A||Grote,M., W. Brack, H.A. Walter, and R. Altenburger|Light as a Confounding Factor for Toxicity Assessment of Complex Contaminated Sediments|Environ. Toxicol. Chem.24(12): 3143-3152|2005|10.1897/04-550R.1
120654|T||Amador-Ramirez,M.D., R.G. Wilson, and A.R. Martin|Weed Control and Dry Bean (Phaseolus vulgaris) Response to In-Row Cultivation, Rotary Hoeing, and Herbicides|Weed Technol.15(3): 429-436|2001|10.1614/0890-037X(2001)015[0429:WCADBP]2.0.CO;2
120655|T||Shackelford,D.D., R.W. McCormick, S.D. West, and L.G. Turner|Determination of Ethalfluralin in Canola Seed, Meal, and Refined Oil by Capillary Gas Chromatography with Mass Selective Detection|J. Agric. Food Chem.48(9): 4422-4427|2000|10.1021/jf000250z
120656|T||Willis,M.D., and A.R. Putnam|Absorption and Translocation of 14C-Ethalfluralin in Cucumber (Cucumis sativus)|Weed Sci.34(1): 13-16|1985|10.1017/S0043174500026357
120657|A||Grote,M., G. Schuurmann, and R. Altenburger|Modeling Photoinduced Algal Toxicity of Polycyclic Aromatic Hydrocarbons|Environ. Sci. Technol.39(11): 4141-4149|2005|10.1021/es048310v
120659|A||Parshikova,T.V., V.V. Vlasenko, M.A. Berezovskaya, and I.P. Novikova|Assessment of Different Species of the Genus Chlamydomonas Cells Resistance to Potassium Dichromate Presence in the Medium|Hydrobiol. J.45(2): 57-68|2009|10.1615/HydrobJ.v45.i2.70
120660|T||Friesen,G.H., and P.B. Marriage|Herbicide Development for Transplanted and Direct Seeded Tomatoes|Br. Crop Prot. Conf. Weeds14(2): 503-510|1978|
120661|T||Al-Khatib,K., G.I. Mink, G. Reisenauer, and R. Parker|Use of Indicator Plants in a Biological-Based System to Detect and Track Airborne Herbicides|In: Proc.85th Ann. Meet., Air Waste Manage. Assoc.7:92-157|1992|
120662|T||Murphy,H.J., T. Gajewski, J.A. Lloyd, and W.H. Erhardt|Small Grain and Alternate Crop Studies|Res. Life Sci.24(7): 1-18|1977|
120663|T||Kudsk,P.|The Effect of Adjuvants on the Rainfastness of Thifensulfuron and Tribenuron|In: C.L.Foy (Ed.), Adjuvants for Agrichemicals, CRC Press, Boca Raton, FL:441-448|1992|
120664|T||Ndon,B.A., and R.G. Harvey|Influence of Herbicides and Tillage on Sweet Corn Double Cropped After Peas|Agron. J.73(5): 791-795|1981|10.2134/agronj1981.00021962007300050011x
120665|T||Cohen,R., J. Riov, N. Lisker, and J. Katan|Involvement of Ethylene in Herbicide-Induced Resistance to Fusarium oxysporum f. sp. melonis|Phytopathology76(12): 1281-1285|1986|10.1094/Phyto-76-1281
120666|T||Bhatti,M.A., K. Al-Khatib, and R. Parker|Wine Grape (Vitis vinifera) Response to Fall Exposure of Simulated Drift from Selected Herbicides|Weed Technol.11(3): 532-536|1997|10.1017/S0890037X00045371
120667|T||Christoffers,M.J., V.K. Nandula, K.A. Howatt, and T.R. Wehking|Target-Site Resistance to Acetolactate Synthase Inhibitors in Wild Mustard (Sinapis arvensis)|Weed Sci.54(2): 191-197|2005|10.1614/WS-05-030R.1
120668|T||Hershenhorn,J., Y. Goldwasser, D. Plakhine, Y. Lavan, G. Herzlinger, S. Golan, T. Chilf, and Y. Kleifeld|Effect of Sulfonylurea Herbicides on Egyptian Broomrape (Orobanche aegyptiaca) in Tomato (Lycopersicon esculentum) Under Greenhouse Conditions|Weed Technol.12(1): 115-120|1998|10.1017/S0890037X00042664
120669|T||Panwar,R.S., R.K. Malik, and S.S. Rathi|Effect of Tralkoxydim and Its Combination with Other New Herbicides on the Control of Weeds in Wheat (Triticum aestivum)|Indian J. Agron.41(3): 401-405|1996|
120670|T||Singh,S., and R.K. Malik|Evaluation of Tribenuron Against Winter Season Annual Weeds, Wheat and Chickpea|Tests Agrochem. Cultiv.14:70-71|1993|
120671|T||Singh,S., and R.K. Malik|Effect of 2,4-D and Tribenuron on the Control of Broad-Leaf Weeds in Wheat (Triticum aestivum)|Indian J. Agron.39(3): 410-414|1994|
120673|T||Kumar,L., D. Singh, and S.S. Pahuja|Evaluation of Tribenuron for Control of Broad Leaf Weeds in Wheat|Haryana Agric. Univ. J. Res.26(3): 199-201|1996|
120674|T||Adamczewski,K., and A. Paradowski|Effect of Adjuvants on Biological Efficacy of Sulfosulfuron and Propoxycarbazone-Sodium for Weed Control in Winter Wheat and Carryover Effects|J. Plant Prot. Res.44(4): 347-363|2004|
120675|T||Culpepper,A.S., A.C. York, R.B. Batts, and K.M. Jennings|Sicklepod (Senna obtusifolia) Management in an ALS-Modified Soybean (Glycine max)|Weed Technol.11(1): 164-170|1997|10.1017/S0890037X0004152X
120676|T||Degenhardt,R.F., D. Spaner, K.N. Harker, W.R. McGregor, and L.M. Hall|Effect of Herbicides on Field Violet (Viola arvensis) in Direct-Seeded Spring Wheat|Weed Technol.19(2): 359-371|2005|10.1614/WT-04-152R.1
120677|T||Degenhardt,R.F., K.N. Harker, A.K. Topinka, W.R. McGregor, and L.M. Hall|Effect of Herbicides on Field Violet (Viola arvensis) in Four Direct-Seeded Canola Management Systems|Weed Technol.19(3): 608-622|2005|10.1614/WT-04-154R1.1
120678|T||Mitrofanova,I.V., I.R. Zilbervarg, A.I. Yemets, O.V. Mitrofanova, and Y.B. Blume|The Effect of Dinitroaniline and Phosphorothioamidate Herbicides on Polyploidisation In Vitro of Nepeta Plants|Cell Biol. Int.27(3): 229-231|2003|10.1016/S1065-6995(02)00317-7
120679|T||Sawchuk,J.W., R.C. Van Acker, and L.F. Friesen|Influence of a Range of Dosages of MCPA, Glyphosate, and Thifensulfuron:  Tribenuron (2:1) on Conventional Canola (Brassica napus) and White Bean (Phaseolus vulgaris) Growth and Yield|Weed Technol.20(1): 184-197|2006|10.1614/WT-05-064R1.1
120680|T||Howatt,K.A., G.J. Endres, P.E. Hendrickson, E.Z. Aberle, J.R. Lukach, B.M. Jenks, N.R. Riveland, S.A. Valenti, and C.M.|Evaluation of Glyphosate-Resistant Hard Red Spring Wheat (Triticum aestivum)|Weed Technol.20(3): 706-716|2006|10.1614/WT-04-219R2.1
120681|T||Chomas,A.J., and J.J. Kells|Triazine-Resistant Common Lambsquarters (Chenopodium album) Control in Corn with Preemergence Herbicides|Weed Technol.18(3): 551-554|2004|10.1614/WT-03-077R
120682|T||Ashigh,J., C.A.L. Corbett, P.J. Smith, J. Laplante, and F.J. Tardif|Characterization and Diagnostic Tests of Resistance to Acetohydroxyacid Synthase Inhibitors Due to an Asp376Glu Substitution in Amaranthus powellii|Pestic. Biochem. Physiol.95(1): 38-46|2009|10.1016/j.pestbp.2009.06.002
120683|T||Chodova,D., and J. Mikulka|Variation in the Content of Free Amino Acids, Fresh and Dry Matter of Kochia scoparia S.l. Resistant and Sensitive to Chlorsulfuron and Atrazine|Proc.12th EWRS Symp.Wageningen:130-131|2002|
120684|T||Streibig,J.C., and P. Kudsk|The Influence of Adjuvants on Herbicidal Activity of Alloxydim-Sodium, Fluazifop-Butyl, and Tribenuron|In: C.L.Foy (Ed.), Adjuvants for Agrichemicals, CRC Press, Boca Raton, FL:513-523|1992|
120685|T||Crutchfield,D.A., and A.F. Wiese|Herbicides for Problem Weeds|Proc. South. Weed Sci. Soc.32:87-89|1979|
120686|T||Vandeventer,J.W., W.F. Meggitt, and D. Penner|Absorption, Translocation, and Metabolism of Ethalfluralin and Trifluralin in Solanum spp.|Pestic. Sci.17(4): 380-384|1986|10.1002/ps.2780170408
120687|T||Mathiassen,S.K., P. Kudsk, and P.K. Jensen|Comparison of Herbicide Performance in Climate Simulator, Semi-Field and Field Experiments|BCPC Symp. Proc.74:209-214|2000|
120688|T||Derksen,D.A., A.G. Thomas, G.P. LaFond, H.A. Loeppky, and C.J. Swanton|Impact of Post-Emergence Herbicides on Weed Community Diversity Within Conservation-Tillage Systems|Weed Res. (Multiple Languages)35(4): 311-320|1995|10.1111/j.1365-3180.1995.tb01794.x
120689|A||Piedras,P., M. Aguilar, and M. Pineda|Uptake and Metabolism of Allantoin and Allantoate by Cells of Chlamydomonas reinhardtii (Chlorophyceae)|Eur. J. Phycol.33(1): 57-64|1998|10.1080/09670269810001736533
120690|T||Singh,S., R.K. Malik, and R.S. Balyan|Evaluation of Application Method of Tribenuron for Broadleaf Weed Control in Wheat|Tests Agrochem. Cultiv.0(16): 52-53|1995|
120691|T||Menne,H.|Pyrasulfotole, a New Dimension for Resistance Management in Cereal Crops|Pflanzenschutz-Nachr. Bayer (English Ed.)61(1): 107-120|2008|
120692|A||Huang,J., N. Graham, M.R. Templeton, Y. Zhang, C. Collins, and M. Nieuwenhuijsen|Evaluation of Anabaena flos-aquae as a Precursor for Trihalomethane and Haloacetic Acid Formation|Water Sci. Technol.8(6): 653-662|2008|
120693|T||Kennedy,J.M., and L.S. Jeffery|Use of Activated Charcoal to Reduce Injury to Summer Squash by Ethalfluralin or Pendimethalin|Tenn. Farm Home Sci.125:26-28|1983|
120694|T||Reed,J.P., F.R. Hall, and S.K. Rick|Influence of Temperature and Relative Humidity on the Performance of Thifensulfuron with Various Surfactants|In: C.L.Foy (Ed.), Adjuvants for Agrichemicals, CRC Press, Boca Raton, FL24:255-260|1992|
120695|T||Wilson,R.G., B. Desprez, and M.T. Edwards|Identifying the Best Sulfonylurea Herbicide for Weed Control and Crop Tolerance in Sulfonylurea-Resistant Chicory (Cichorium intybus)|Weed Technol.21(2): 537-541|2007|10.1614/WT-06-088.1
120696|T||MacRae,A.W., D.W. Monks, R.B. Batts, and A.C. Thornton|Sweetpotato Tolerance to Thifensulfuron Applied Postemergence|Weed Technol.21(4): 928-931|2007|10.1614/WT-06-179.1
120697|T||Sacher,R.F., H.J. Hopen, and B.J. Jacobsen|Suppression of Root Diseases and Weeds in Peas Treated with Dinitrophenol and Dinitroaniline Herbicides|Down Earth32(4): 16-21|1977|
120698|T||Wall,D.A., and P.M. McMullan|Effectiveness of Several New Selective Herbicides in Lentils (Lens culinaris)|Crop Prot.13(7): 553-557|1994|10.1016/0261-2194(94)90110-4
120699|T||Williamson,S.W., and C.E. Beste|Soil Residual of Ethalfluralin with Cucumbers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:189-194|1980|
120700|T||Chodova,D., and J. Mikulka|Resistance to Imazapyr and Cross Resistance to Selected Sulfonylurea Herbicides in Kochia (Kochia scoparia s.l.)|Rostl. Vyroba (Multiple Languages)46(2): 49-54|2000|
120701|T||Greenland,R.G., and K.A. Howatt|Rimsulfuron Controls Hairy Nightshade, but not Eastern Black Nightshade, in Tomato|Hortscience40(7): 2076-2079|2005|10.21273/HORTSCI.40.7.2076
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120703|T||Olson,B.L.S., J.W. Sij, and T.A. Baughman|Guar Tolerance to Postemergence Herbicides|Weed Technol.21(2): 523-525|2007|10.1614/WT-06-104.1
120704|A||Jurcikova,J., P. Mikula, R. Dobsikova, D. Nemethova, and Z. Svobodova|Effects of Metazachlor on Vitellogenin Induction in Zebrafish (Danio rerio)|Acta Vet. Brno76(suppl.8): S61 - S66|2007|
120705|A||Tsukuda,M., H. Yamaguchi, T. Takahashi, and H. Tsutsumi|Impact of High Concentrations of Manganese on the Survival of Short Neck Clam Ruditapes philippinarum Juveniles in Sandy Tidal Flat Sediment in Ariake Bay, Kyushu, Japan|Plankton Benthos Res.3(1): 1-9|2008|10.3800/pbr.3.1
120706|T||Jaiswal,P.C., and S.G. Misra|Effects of Soil-Applied Chromium (VI) on the Growth and Composition of Weeds in Spinach|Indian J. Agric. Sci.55(5): 378-380|1985|
120707|A||Ma,Y., L. Chen, X. Lu, H. Chu, C. Xu, and W. Liu|Enantioselectivity in Aquatic Toxicity of Synthetic Pyrethroid Insecticide Fenvalerate|Ecotoxicol. Environ. Saf.72(7): 1913-1918|2009|10.1016/j.ecoenv.2009.07.005
120708|A||Vijayavel,K., and M.P. Balasubramanian|Effect of Fenvalerate on Oxidative Stress Biomarkers in the Brackish Water Prawn Penaeus monodon|Pestic. Biochem. Physiol.95(3): 113-116|2009|10.1016/j.pestbp.2009.07.011
120709|T||Zhang,H., H. Wang, Y.L. Ji, H. Ning, T. Yu, C. Zhang, Y. Zhang, X.F. Zhao, Q. Wang, P. Liu, X.H. Meng, and D.X. Xu|Lactational Fenvalerate Exposure Permanently Impairs Testicular Development and Spermatogenesis in Mice|Toxicol. Lett.191(1): 47-56|2009|10.1016/j.toxlet.2009.08.007
120710|A||Saraswathi,K., M. Ramesh, V. Maruthappan, and A. Noortheen|Influence of a Pyrethroid-Insecticide Fenvalarate on Secondary Stress Responses in a Freshwater Teleost Fish Cyprinus carpio var. communis|Indian J. Environ. Toxicol.14(1): 13-18|2004|
120711|T||Zollinger,R.K.|Influence of Adjuvants on Weed Control from Tribenuron|J. ASTM Int.2(8): 1-7|2005|10.1520/JAI12916
120712|T||Kaloumenos,N.S., C.A. Dordas, G.C. Diamantidis, and I.G. Eleftherohorinos|Multiple Pro197 Substitutions in the Acetolactate Synthase of Corn Poppy (Papaver rhoeas) Confer Resistance to Tribenuron|Weed Sci.57(4): 362-368|2009|10.1614/WS-08-166.1
120713|T||Montazeri,M.|Interaction of Tribenuron and Graminicides in Wheat|Br. Crop Prot. Conf. Weeds2:753-756|1995|
120714|T||Beckie,H.J., and I.N. Morrison|Effect of Ethalfluralin and Other Herbicides on Trifluralin-Resistant Green Foxtail (Setaria viridis)|Weed Technol.7(1): 6-14|1993|10.1017/S0890037X00036782
120715|T||Chodova,D., and J. Mikulka|Identification of Resistance to Imazapyr and Cross Resistance to Selected Sulfonylurea Herbicides in Kochia scoparia|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)17:383-388|2000|
120716|T||Cui,H.L., C.X. Zhang, H.J. Zhang, X. Liu, Y. Liu, G.Q. Wang, H.J. Huang, and S.H. Wei|Confirmation of Flixweed (Descurainia sophia) Resistance to Tribenuron in China|Weed Sci.56(6): 775-779|2008|10.1614/WS-08-058.1
120717|T||Mitchem,W.E., D.W. Monks, and R.J. Mills|Response of Transplanted Watermelon (Citrullus lanatus) to Ethalfluralin Applied PPI, PRE, and POST|Weed Technol.11(1): 88-91|1997|10.1017/S0890037X00041397
120718|T||Armel,G.R., R.J. Richardson, H.P. Wilson, B.W. Trader, C.M. Whaley, and T.E. Hines|Evaluation of Acetolactate Synthase-Inhibiting Herbicides for Weed Control in Transplanted Bell Pepper|HortTechnology19(2): 400-404|2009|10.21273/HORTTECH.19.2.400
120719|T||Balyan,R.S., R.K. Malik, and A. Yadav|Effect of Chlorimuron and Tribenuron-Treated Water on Mungbean Cow-Pea, Pigeonpea, Maize and Pearlmillet|Tests Agrochem. Cultiv.18:24-25|1997|
120720|T||Hanson,B.D., K.W. Park, C.A. Mallory-Smith, and D.C. Thill|Resistance of Camelina microcarpa to Acetolactate Synthase Inhibiting Herbicides|Weed Res. (Multiple Languages)44(3): 187-194|2004|10.1111/j.1365-3180.2004.00390.x
120721|T||Kudsk,P., S.K. Mathiassen, and J.C. Cotterman|Sulfonylurea Resistance in Stellaria media [L.] Vill|Weed Res. (Multiple Languages)35(1): 19-24|1995|10.1111/j.1365-3180.1995.tb02012.x
120722|T||Ciba-Geigy Corp.|Support:  Letter from Ciba Geigy Corp to USEPA Regarding Preliminary Findings in Pilot Teratology Study of Oral Terbuthylazine in Rabbits Dated 083094|EPA/OTS Doc.#0007868860:5 p.|1994|
120723|T||Nuodex Inc.|Eight Toxicological Studies of Naphthenic Acids, Zinc Salts with Attachments and Cover Letter Dated 072187|EPA/OTS Doc.#86-870000604:31 p.|1987|
120724|T||Kwon,T.J., D.L. Young, F.L. Young, and C.M. Boerboom|PALWEED:WHEAT:  A Bioeconomic Decision Model for Postemergence Weed Management in Winter Wheat (Triticum aestivum)|Weed Sci.43(4): 595-603|1995|10.1017/S0043174500081704
120725|T||Kupatt,C., R.D. Ilnicki, and P. Chitapong|Delays in Incorporation of Some Dinitroaniline Herbicides Applied Alone and in Combination with Chloramben and Metribuzin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:10-15|1982|
120726|T||Kudsk,P., and S.K. Mathiassen|Nonylphenol Polyethoxylates as Adjuvants for Metsulfuron and Tribenuron|FRI Bull.193:350-355|1996|
120727|T||Lavigne,C., J.L. Millecamps, H. Manac'h, P. Cordonnier, A. Matejicek, J. Vasseur, and J. Gasquez|Monogenic Semidominant Sulfonylurea Resistance in a Line of White Chicory|Plant Breed.113(4): 305-311|1994|10.1111/j.1439-0523.1994.tb00740.x
120728|T||Awasthi,M.D.|Persistence Pattern and Safety Evaluation of Synthetic Pyrethroids on Eggplant|Indian J. Agric. Sci.55(9): 600-603|1985|
120729|T||Parihar,N.S., and A. Gupta|Lindane and Fenvalerate Residues in Blackgram (Vigna mungo)|Bull. Environ. Contam. Toxicol.67(5): 729-732|2001|
120730|T||Jain,R.K.|Fenvalerate (alpha-Cyano-m-Phenoxy-Benzyl alpha-Isopropyl-p-Chlorophenyl Acetate) Residues in and on Okra Fruits|Sci. Total Environ.187(3): 253-255|1996|10.1016/0048-9697(96)05074-7
120731|A||Chen,H., J. Hu, J. Yang, Y. Wang, H.J. Xu, Q. Jiang, Y. Gong, Y. Gu, and H. Song|Generation of a Fluorescent Transgenic Zebrafish for Detection of Environmental Estrogens|Aquat. Toxicol.96(1): 53-61|2010|10.1016/j.aquatox.2009.09.015
120732|A||Kwong,R.W.M., P.K.N. Yu, P.K.S. Lam, and W.X. Wang|Biokinetics and Biotransformation of DDTs in the Marine Green Mussels Perna viridis|Aquat. Toxicol.93(4): 196-204|2009|10.1016/j.aquatox.2009.05.001
120733|A||Anasco,N.C., J. Koyama, and S. Uno|Pesticide Residues in Coastal Waters Affected by Rice Paddy Effluents Temporarily Stored in a Wastewater Reservoir in Southern Japan|Arch. Environ. Contam. Toxicol.58(2): 352-360|2010|10.1007/s00244-009-9364-1
120734|A||Sanchez,B.C., K.J. Ralston-Hooper, K.A. Kowalski, H.D. Inerowicz, J. Adamec, and M.S. Sepulveda|Liver Proteome Response of Largemouth Bass (Micropterus salmoides) Exposed to Several Environmental Contaminants:  Potential Insights into Biomarker Development|Aquat. Toxicol.95(1): 52-59|2009|10.1016/j.aquatox.2009.08.002
120735|A||Kovacevic,G., B. Jelencic, M. Kalafatic, and N. Ljubesic|Chlorella Test|Period. Biol.110(4): 373-374|2008|
120736|A||Perschbacher,P.W., and G.M. Ludwig|High Drift Rate Effects of Propanil and Basis Gold on the Plankton Communities and Water Quality of a Prestocking Sunshine Bass, Morone chrysops x M. saxatilis, Fry Pond|J. Appl. Aquacult.19(2): 101-112|2007|10.1300/J028v19n02_06
120737|T||Soukup,J., M. Jursik, P. Hamouz, and V. Kohout|Comparison of Sulfonylurea Herbicides from the Aspect of Phytotoxicity in Following Crops|In:  12th Symposium, European Weed Research Society (EWRS):120-121|2002|
120738|A||Banaee,M., A.R. Mirvagefei, G.R. Rafei, and B.M. Amiri|Effect of Sub-Lethal Diazinon Concentrations on Blood Plasma Biochemistry|Int. J. Environ. Res.2(2): 189-198|2008|
120739|A||Elnwishy,N.H., M.T. Ahmed, M.S. El-Sherif, and M.A. El-Hameed|The Effect of Diazinon on Glutathine and Acetylecholinesterase in Tilapia (Oreochromis niloticus)|J. Agric. Soc. Sci.3(2): 52-54|2007|10.3844/jssp.2007.52.59
120740|A||El-Sherif,M.S., M.T. Ahmed, M.A. El-Danasoury, and N.H.K. El-Nwishy|Evaluation of Diazinon Toxicity on Nile Tilapia Fish (O. niloticus)|J. Fish. Aquat. Sci.4(4): 169-177|2009|10.3923/jfas.2009.169.177
120742|T||Dexter,J.E., A.J. Jhala, M.J. Hills, R.C. Yang, K.C. Topinka, R.J. Weselake, and L.M. Hall|Quantification and Mitigation of Adventitious Presence of Volunteer Flax (Linum usitatissimum) in Wheat|Weed Sci.58(1): 80-88|2010|10.1614/WS-09-104.1
120745|A||Hewitt,L.M., I.M. Scott, G.J. Van der Kraak, K.R. Munkittrick, K.R. Solomon, and M.R. Servos|Development of TIE Procedures for Complex Mixtures Using Physiological Responses in Fish|ASTM Spec. Tech. Publ.:37-53|1996|
120746|T||Eells,J.T., M.M. Salzman, M.F. Lewandowski, and T.G. Murray|Development and Characterization of a Nonprimate Animal Model of Methanol-Induced Neurotoxicity|ASTM Spec. Tech. Publ.5:239-254|1996|
120747|AT||Bradley,B.P., D.C. Brown, T.N. Iamonte, S.M. Boyd, and M.C. O'Neill|Protein Patterns and Toxicity Identification Using Artificial Neural Network Models|ASTM Spec. Tech. Publ.5:79-94|1996|
120748|T||Dickerson,R.L., J.A. Hoover, M.M. Peden-Adams, W.E. Mashburn, C.A. Allen, and D.S. Henshel|Alterations in Chicken Embryonic Development as a Sensitive Indicator of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Exposure|ASTM Spec. Tech. Publ.5:204-218|1996|
120749|T||Melancon,M.J.|Development of Cytochromes P450 in Avian Species as a Biomarker for Environmental Contaminant Exposure and Effect:  Procedures and Baseline Values|ASTM Spec. Tech. Publ.5:95-108|1996|
120751|A||Giron-Perez,M.I., J. Velazquez-Fernandez, K. Diaz-Resendiz, F. Diaz-Salas, C. Canto-Montero, I. Medina-Diaz, M. Robledo|Immunologic Parameters Evaluations in Nile Tilapia (Oreochromis niloticus) Exposed to Sublethal Concentrations of Diazinon|Fish Shellfish Immunol.27(2): 383-385|2009|10.1016/j.fsi.2009.06.004
120752|A||Beauchard,O., K.H. Choi, S.H. Lee, C.W. Ji, S. Lek, and T.S. Chon|Quantitative Characterization of Response Behaviors and Individual Variation in Chironomus riparius After Treatments of Diazinon|In: C.A.Brebbia and E.Tiezzi (Eds.), Ecosystems and Sustainable Development VII, WIT Press, London, UK:127-138|2009|
120753|T||Manjunath,C.E., L.S. Devi, and M.S. Mithyantha|Residues of Carbaryl, Quinalphos and Fenvalerate in/on Brinjal Fruits|Indian J. Agric. Chem.18(1): 147-152|1985|
120754|T||Awasthi,M.D., and L. Anand|Comparative Persistence of Synthetic Pyrethroids on Cauliflower|In: A.Regupathy, K.Rajukkannu, S.Chelliah (Eds.), National Seminar, Pesticides and Environment, Department of Agricultural Entomology Centre for Plant Protection Studies, Coimbatore, India:45-49|1984|
120755|T||Awasthi,M.D., P.N. Krishnamoorthy, and L. Anand|Persistence and Degradation of Foliar Insecticides on French Bean|Indian J. Entomol.49(2): 275-279|1987|
120756|T||Srinivas,P., T.R. Babu, M.A. Sultan, D.D.R. Reddy, and T.B. Gour|Dissipation and Decontamination of Monocrotophos, Fenvalerate and Carbaryl in/on Okra|Indian J. Plant Prot.24(1/2): 86-89|1996|
120757|T||Balyan,R.S., and R.K. Malik|Sensitivity of Wheat Accessions to Tribenuron|Tests Agrochem. Cultiv.14:112-113|1993|
120758|T||Espinoza-Navarro,O., and E. Bustos-Obregon|Effect of Malathion on the Male Reproductive Organs of Earthworms, Eisenia foetida|Asian J. Androl.7(1): 97-101|2005|10.1111/j.1745-7262.2005.00005.x
120759|T||Giri,S., G.D. Sharma, A. Giri, and S.B. Prasad|Genotoxic Effects of Malathion in Chick In Vivo Micronucleus Assay|Cytologia67(1): 53-59|2002|10.1508/cytologia.67.53
120760|T||Bell,A.C., and B. Henry|The Effect of Synthetic Pyrethroids on Potato Veinal Necrosis (PVY-N) Virus Transmission by Myzus persicae (Sulzer)|Rec. Agric. Res. (Belfast)34:53-56|1986|
120761|T||Wyttenbach,C.R., and S.C. Thompson|The Effects of the Organophosphate Insecticide Malathion on Very Young Chick Embryos:  Malformations Detected by Histological Examination|Am. J. Anat.174:187-202|1985|10.1002/aja.1001740208
120762|A||Hagino,S.|A State of the Art of Testing Methods for Endocrine Disrupting Chemicals in Fish and Daphnids|In: H.Ohkawa, H.Miyagawa and P.W.Lee (Eds.), Pesticide Chemistry: Crop Protection, Public Health, Environmental Safety, Wiley-VCH, Verlag GmbH & Co.KGaA, Weinheim:415-424|2007|
120763|A||Ursi,S., M. Guimaraes, and E.M. Plastino|Deleterious Effect of TRIS Buffer on Growth Rates and Pigment Content of Gracilaria birdiae Plastino & E.C. Oliveira (Gracilariales, Rhodophyta)|Acta Bot. Bras.22(3): 891-896|2008|10.1590/S0102-33062008000300024
120764|T||Munger,P., M. Landes, and H. Walter|Bentazon as a Foundation Herbicide for Weed Management Systems in Conventionally and Reduced Tilled Soybeans|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, Springer Publishing, NY:348-355|1992|
120770|T||Ellis,B.R., E.P. Benson, P.A. Zungoli, and W.C.,Jr. Bridges|Evaluation of Chemical Control Strategies for Linepithema humile (Mayr) (Hymenoptera: Formicidae) in South Carolina State Park Campgrounds|J. Agric. Urban Entomol.25(4): 223-232|2008|10.3954/1523-5475-25.4.223
120771|T||Grichar,W.J., P.A. Dotray, and D.C. Sestak|Diclosulam for Weed Control in Texas Peanut|Peanut Sci.26(1): 23-28|1999|10.3146/i0095-3679-26-1-6
120772|T||Walters,S.A., B.G. Young, and J.D. Kindhart|Weed Control in No-Tillage Zucchini Squash Production|Acta Hortic.638:201-207|2004|10.17660/ActaHortic.2004.638.26
120773|T||Xu,X., G.Q. Wang, S.L. Chen, C.Q. Fan, and B.H. Li|Confirmation of Flixweed (Descurainia sophia) Resistance to Tribenuron-Methyl Using Three Different Assay Methods|Weed Sci.58(1): 56-60|2010|10.1614/WS-09-034.1
120774|A||Sridevi,B., and S.L.N. Reddy|Effect of Trivalent and Hexavalent Chromium on Acetylcholinesterase Activity and Oxygen Consumption in a Freshwater Field Crab, Barytelphusa guerini|J. Environ. Pollut.5(2): 105-109|1998|
120775|T||Eli Lilly|Initial Submission:  A One-Year Dietary Toxicity Study with Ethalfluralin in B6C3F1 Mice with Cover Letter Dated 082192|EPA/OTS Doc #88-920006698:216 p.|1992|
120776|T||Eli Lilly|Initial Submission:  A Two-Year Dietary Evaluation with Ethalfluralin in Fischer 344 Rats with Cover Letter Dated 082192|EPA/OTS Doc #88-920006519:695 p.|1992|
120777|T||Eli Lilly|Initial Submission:  A One-Year Dietary Toxicity Study with Ethalfluralin in Rats with Cover Letter Dated 082192|EPA/OTS Doc #88-920006491:111 p.|1992|
120778|T||Eli Lilly|Initial Submission: Oral Pilot Teratology Study of Benzenamine, N-Ethyl-N-(2-Methyl-2-Propenyl)-2,6-Dinitro-4-(Trifluoromethyl)- in Rabbits with Cover Letter Dated 081892|EPA/OTS Doc #88-920008537:70 p.|1992|
120779|T||Eli Lilly|Initial Submission:  A Pilot Teratology Study with Ethalfluralin in Dutch-Belted Rabbits with Cover Letter Dated 082192|EPA/OTS Doc #88-920006475:27 p.|1992|
120780|T||Eli Lilly|Initial Submission:  A Teratology Study with Ethalfluralin Administered Orally to Dutch-Belted Rabbits with Cover Letter Dated 082192|EPA/OTS Doc #88-920006548:154 p.|1992|
120781|T||Ciba-Geigy Corp.|Initial Submission:  28-Day Oral Cumulation Study with Terbuthylazine in Rabbits (Final Report) with Cover Letter Dated 080792|EPA/OTS Doc #88-920005306:239 p.|1992|
120782|T||Ciba-Geigy Corp.|Initial Submission:  14-Day Oral Toxicity Study in Rats with Special Reference to Effects on Thymus with Cover Letter Dated 073192|EPA/OTS Doc #88-920007169:305 p.|1992|
120783|T||Eli Lilly|Initial Submission:  A Teratology Study with Ethalfluralin in Dutch-Belted Rabbits with Cover Letter Dated 082192|EPA/OTS Doc #88-920006486:54 p.|1992|
120784|T||Sanders,P., and A. Rahman|Destruction of Unwanted Asparagus Crops|Proc. N. Z. Plant Prot. Conf.45:64-66|1992|10.30843/nzpp.1992.45.11258
120785|T||Shabi,E., and R.E. Gaunt|Measurement of Sensitivity to DMI Fungicides in Populations of Uncinula necator|Proc. N. Z. Plant Prot. Conf.45:126-128|1992|10.30843/nzpp.1992.45.11208
120786|T||Tomkins,A.R., A.J. Greaves, D.J. Wilson, and C. Thomson|Field Evaluation of Avermectin B1 for Pest Control on Kiwifruit|Proc. N. Z. Plant Prot. Conf.45:146-150|1992|10.30843/nzpp.1992.45.11214
120787|T||Tomkins,A.R.|Teflubenzuron and Phosalone Alone and in Combination for Pest Control on Kiwifruit:  I. Armoured Scale Insects|Proc. N. Z. Plant Prot. Conf.45:151-155|1992|10.30843/nzpp.1992.45.11215
120788|T||Tomkins,A.R.|Teflubenzuron and Phosalone Alone or in Combination for Pest Control on Kiwifruit:  II. Caterpillars, Secondary Pests and Contaminants|Proc. N. Z. Plant Prot. Conf.:156-161|1992|10.30843/nzpp.1992.45.11216
120789|T||Vanner,A.L.|Pendimethalin:  A Herbicide with Potential for use in Forest Nurseries|Proc. N. Z. Plant Prot. Conf.45:256-258|1992|10.30843/nzpp.1992.45.11234
120790|T||Walker,J.T.S., P.W. Shaw, and P.J.G. Stevens|Evaluation of Silwet L-77 as an Adjuvant for Sprays to Control Apple Pests and Diseases|Proc. N. Z. Plant Prot. Conf.45:274-278|1992|10.30843/nzpp.1992.45.11239
120791|T||Whelan,H.G., M.R. Butcher, and R.E. Gaunt|Sensitivity of Ventura inaequalis (Black Spot) on Apples to DMI Fungicides in New Zealand|Proc. N. Z. Plant Prot. Conf.45:289-294|1992|10.30843/nzpp.1992.45.11242
120792|T||Rahman,A., and T.K. James|Weed Control and Soil Persistence Studies with Dimethenamid in Maize|Proc. N. Z. Plant Prot. Conf.45:84-88|1992|10.30843/nzpp.1992.45.11229
120793|T||Rahman,A., and P. Sanders|Herbicides for Control of Two Bindweed Species (Calystegia silvatica and Convolvulus arvensis) in Asparagus|Proc. N. Z. Plant Prot. Conf.45:27-30|1992|10.30843/nzpp.1992.45.11248
120794|T||Popay,I., and T. Ingle|White Clover (Trifolium repens) Resistance to 2,4-D|Proc. N. Z. Plant Prot. Conf.45:223-225|1992|10.30843/nzpp.1992.45.11265
120795|T||Olson,M.H., R.H. Blank, and A.J. Read|Control of Alternaria and Melanose on Citrus Using Chlorothalonil and Cupric Hydroxide|Proc. N. Z. Plant Prot. Conf.45:95-98|1992|10.30843/nzpp.1992.45.11202
120796|T||Elmer,P.A.G., M. Braithwaite, and D.J. Saville|Changes in Triforine Sensitivity in Populations of Monilinia fructicola from Hawkes Bay Orchards|Proc. N. Z. Plant Prot. Conf.45:138-140|1992|10.30843/nzpp.1992.45.11211
120797|T||Blank,R.H., P.L. Lo, G.S.C. Gill, and M.H. Olson|A Residual Bioassay Technique to Invesigate Scale Crawler Settlement on Kiwifruit|Proc. N. Z. Plant Prot. Conf.:174-179|1992|10.30843/nzpp.1992.45.11220
120798|T||Addison,P.J., A.C. Firth, and A. Cliffe|The Effects of Diflubenzuron on Lucerne Flea|Proc. N. Z. Plant Prot. Conf.45:197-200|1992|10.30843/nzpp.1992.45.11259
120799|T||Popay,I., W. Stiefel, and E. Sorenson|Tine Weeding Effects on Cereal Crops with Few Weeds|Proc. N. Z. Plant Prot. Conf.45:93-94|1992|10.30843/nzpp.1992.45.11231
120800|T||Tate,K.G., and D.W. Manktelow|Field Evaluation of a Disease Management System for Peach Brown Rot in Hawkes Bay|Proc. N. Z. Plant Prot. Conf.:129-135|1992|10.30843/nzpp.1992.45.11209
120801|T||Cheah,L.H., D. Stuart, D. Guddop, and A.W. Hunt|Fungicide Evaluation for Control of Didymella Stem Canker of Tomatoes|Proc. N. Z. Plant Prot. Conf.45:43-45|1992|10.30843/nzpp.1992.45.11252
120802|T||Russell,A.C., and G. Hagerty|Fungicide Seed Treatments for the Control of Ascochyta fabae F. Sp. Lentis on Lentils|Proc. N. Z. Plant Prot. Conf.45:72-74|1992|10.30843/nzpp.1992.45.11226
120803|T||Rohitha,B.H., R.E. Gaskin, T. Hartley, and A.K. Karl|Evaluation of Silwet L-77 for Postharvest Disinfestation of Thrip in Asparagus|Proc. N. Z. Plant Prot. Conf.45:17-20|1992|10.30843/nzpp.1992.45.11246
120804|T||Van Epenhulisen,C.W., S. Wright, and H.N. De Silva|Evaluation of Organic Pest Control Agents|Proc. N. Z. Plant Prot. Conf.45:103-110|1992|10.30843/nzpp.1992.45.11204
120805|T||Wearing,C.H.|Ryania and Pearslug Control on Nashi|Proc. N. Z. Plant Prot. Conf.45:264-268|1992|10.30843/nzpp.1992.45.11237
120806|T||Peetz,S.M., and P.R. Dentener|Postharvest Control of Diapausing Two-Spotted Spider Mite Tetranychus urticae Koch on Fruit  II. Efficacy of Pulse on Apples|Proc. N. Z. Plant Prot. Conf.45:121-125|1992|10.30843/nzpp.1992.45.11207
120807|T||Mitchell,R.B., and R.J. Abernethy|Herbicide Tolerance of Young Nectarine Trees|Proc. N. Z. Plant Prot. Conf.45:143-145|1992|10.30843/nzpp.1992.45.11213
120808|T||Lo,P.L., and R.H. Blank|Effect of Pesticides on Predation of Soft Wax Scale by the Steel-Blue Ladybird|Proc. N. Z. Plant Prot. Conf.45:99-102|1992|10.30843/nzpp.1992.45.11203
120809|T||James,T.K., and A. Rahman|Influence of Some Factors on Performance of the Fatty Acid Herbicide 'Greenscape'|Proc. N. Z. Plant Prot. Conf.45:235-238|1992|10.30843/nzpp.1992.45.11268
120810|T||Gilchrist,A.N.|Rates of Terbuthylazine and its Mixtures with Terbumeton for Weed Control in Poplar and Willow Nurseries|Proc. N. Z. Plant Prot. Conf.45:259-261|1992|10.30843/nzpp.1992.45.11235
120811|T||Dentener,P.R., and S.M. Peetz|Postharvest Control of Diapausing Two-Spotted Spider Mite Tetranychus urticae Koch on Fruit.  I. Comparison of Insecticidal Soaps and Spray Adjuvants|Proc. N. Z. Plant Prot. Conf.45:116-120|1992|10.30843/nzpp.1992.45.11206
120812|T||Gerard,P.J., L.D. Ruf, N.B. Perry, and L.B. Foster|Insecticidal Properties of the Terpenoids Polygodial, 9-Deoxymuzigadial and Azadirachtin|Proc. N. Z. Plant Prot. Conf.45:239-242|1992|10.30843/nzpp.1992.45.11269
120813|T||Follas,G.B., and H.M. Beetz|Control of Leaf Spots in Carrots and Early Blight in Potatoes and Tomatoes with Difenoconazole|Proc. N. Z. Plant Prot. Conf.45:46-49|1992|10.30843/nzpp.1992.45.11253
120814|T||Dastgheib,F., M.F. Barnes, J.D. Morton, and M. Andrews|Chlorsulfuron Effects on Nitrate Assimilation in a Susceptible Wheat Cultivar|Proc. N. Z. Plant Prot. Conf.45:89-92|1992|10.30843/nzpp.1992.45.11230
120816|T||Carpenter,A., and A. Stocker|Envirosols as Postharvest Fumigants for Asparagus and cut Flowers|Proc. N. Z. Plant Prot. Conf.45:21-26|1992|10.30843/nzpp.1992.45.11247
120817|T||Barratt,B.I.P., and C.M. Ferguson|Oversown White Clover Seed and Seedling Loss from Insects and Fungal Pathogens|Proc. N. Z. Plant Prot. Conf.45:215-219|1992|10.30843/nzpp.1992.45.11263
120818|T||Balneaves,J.M.|Organosilicone Surfactants Help Rainfastness of Glyphosate on Gorse and Broom|Proc. N. Z. Plant Prot. Conf.45:247-250|1992|10.30843/nzpp.1992.45.11232
120819|T||Abernethy,R.J., and R.B. Mitchell|The Effect of Herbicide on Weed Control and Yield of Cabbages|Proc. N. Z. Plant Prot. Conf.45:35-37|1992|10.30843/nzpp.1992.45.11250
120820|T||Eli Lilly|Initial Submission:  Dermal Sensitization of Ethalfluralin in the Guinea Pig with Cover Letter Dated 08/18/92|EPA/OTS Doc #88-920008647:35 p.|1992|
120821|T||Eli Lilly|Initial Submission:  Dermal Sensitization of Benzenamine, N-Ethyl-N-(2-Methyl-2-Propenyl)-2,6-Dinitro-4-(Trifluoromethyl)- in Guinea Pigs with Cover Letter Dated 081892|EPA/OTS Doc #88-920008437:33 p.|1992|
120822|T||Eastman Kodak Co.|Summarized Results of an Oral LD50 Study in Rats|EPA/OTS Doc.# 88-8600032:145 p.|1986|
120823|T||Balneaves,J., and D. Henley|Seven-Year Growth Response of Radiata Pine to Area of Herbaceous Weed Control|Proc. N. Z. Plant Prot. Conf.45:262-263|1992|10.30843/nzpp.1992.45.11236
120824|T||Hoskins,A.J., B.G. Young, R.F. Krausz, and J.S. Russin|Control of Italian Ryegrass (Lolium multiflorum) in Winter Wheat|Weed Technol.19(2): 261-265|2005|10.1614/WT-03-118R3
120825|T||Blackshaw,R.E., K.N. Harker, G.W. Clayton, and J.T. O'Donovan|Broadleaf Herbicide Effects on Clethodim and Quizalofop-P Efficacy on Volunteer Wheat (Triticum aestivum)|Weed Technol.20(1): 221-226|2006|10.1614/WT-04-059R.1
120826|T||Kupatt,C., R.D. Ilnicki, and D.B. Vitolo|Weed Control in Winter Squash with Some Old and New Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:145-149|1983|
120827|T||Burke,I.C., S.D. Askew, and J.W. Wilcut|Flumioxazin Systems for Weed Management in North Carolina Peanut (Arachis hypogaea)|Weed Technol.16(4): 743-748|2002|10.1614/0890-037X(2002)016[0743:FSFWMI]2.0.CO;2
120828|T||Bagley,P.C., and C.E. Beste|New Herbicides for Narrow-Row Snap Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:176-186|1980|
120829|T||Walters,S.A., and B.G. Young|Effect of Herbicide and Cover Crop on Weed Control in No-Tillage Jack-O-Lantern Pumpkin (Cucurbita pepo L.) Production|Crop Prot.29(1): 30-33|2010|10.1016/j.cropro.2009.09.001
120830|T||Eli Lilly|Initial Submission:  A Two-Year Dietary Evaluation with Ethalfluralin in B6C3F1 Mice with Cover Letter Dated 082192|EPA/OTS Doc #88-920006517:1184 p.|1992|
120831|T||White,J., R. Brown, A. Bettencourt, and C. Soares|The Effects of a Pyrethroid, lambda-Cyhalothrin, on Natural Pest Control in Brazilian Soybeans|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:120-127|1992|
120832|T||Kinloch,R.|Management of Root-Knot Nematodes in Soybean|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:147-154|1992|
120833|T||Yorinori,J.T.|Management of Foliar Fungal Diseases in Soybean in Brazil|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:185-195|1992|
120834|T||Saini,A.D., and M.K. Mukherjee|Effect of Defloration and Nitrogen Application on Root Growth of Rauvolfia serpentina|Indian J. Plant Physiol.13(1): 57-66|1970|
120835|T||Bhatt,J.G., and A.R.S. Nathan|Effect of Cycocel, Phosfon and B-Nine on Growth and Yield of Cotton (Gossypium hirsutum)|Indian J. Plant Physiol.11(2): 226-230|1968|
120836|T||Sirohi,G.S., and D.S. Shukla|Effect of Photoperiod and Gibberellic Acid on Growth and Yield of Cotton|Indian J. Plant Physiol.11(1): 68-77|1968|
120837|T||Garg,D.K.|Role of Environment and Soil Fertility in the Control of Nutsedge (Cyperus esculentus L.)|Indian J. Plant Physiol.11(2): 141-149|1968|
120838|T||Puntamkar,S.S., D.C. Sharma, O.P. Sharma, and S.P. Seth|Effect of Common Salts of Sodium and Calcium on the Germination of Different Wheat Varieties (Triticum aestivum L.)|Indian J. Plant Physiol.13(2): 233-239|1970|
120839|A||Mariager,N.M., S.F. Hansen, and M.P.J. Dahl|Effects of 4-n-Nonylphenol on the Prosobranch Snail Marisa cornuarietis|Roskilde University, Denmark:17 p.|2005|
120840|T||Mehrotra,O.N., R.C. Garg, and I. Singh|Effect of CCC (2-Chloroethyl Trimethyl Ammonium Chloride) on Growth and Yield of Okra (Abelmoschus esculentus L. Moench)|Indian J. Plant Physiol.13(2): 173-179|1970|
120841|T||Purohit,A.N.|Effect of Different Gibberellins on Tuber Dormancy and Sprout Growth of Potato Under Continuous Light and Darkness|Indian J. Plant Physiol.13(2): 185-193|1970|
120842|T||Janardhan,K.V., and K.S. Murty|Effect of Sodium Chloride Treatment on Leaf Injury and Chloride Uptake by Young Rice Seedlings|Indian J. Plant Physiol.13(2): 225-232|1970|
120843|T||Fisher,J., and H. De Almeida|Management of Insect Pests of Soybean in Brazil and Other Latin American Countries|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:110-119|1992|
120844|T||Kamoshita,K., E. Nagano, K. Saito, M. Sakaki, R. Yoshida, R. Sato, and H. Oshio|S-23031, A New Post-Emergence Herbicide for Soybeans|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:317-324|1992|
120845|T||Moscardi,F., and D.R. Sosa-Gomez|Use of Viruses Against Soybean Caterpillars in Brazil|In: L.G.Copping, M.B.Green and R.T.Rees (Eds.), Pest Management in Soybean, SCI by Elsevier Appl. Sci., New York:98-109|1992|
120846|T||Parkash,V.|Nitrate Reductase Activity in Cotton Seedlings Treated with Gibberellic Acid and 2-Chloroethyl Trimethyl Ammonium Chloride|Indian J. Plant Physiol.13(1): 67-71|1970|
120847|T||Chinoy,J.J., P.G. Abraham, R.B. Pandya, O.P. Saxena, and I.C. Dave|Effect of Presowing Treatment of Triticum Seeds with Ascorbic Acid and Sucrose on Growth, Developmental and Yield Characters|Indian J. Plant Physiol.13(1): 40-48|1970|
120848|T||Indira,P., and S.K. Sinha|Studies on the Initiation and Development of Tubers in Manihot esculenta Crantz|Indian J. Plant Physiol.13(1): 24-39|1970|
120849|T||Laloraya,M.M.|Hormonal Control of Plant Growth and Form|Indian J. Plant Physiol.13(1): 1-15|1970|
120850|T||Chinoy,J.J., K. Gurumurti, K. Shastri, P.G. Abraham, I.C. Dave, P.N. Shah, R.B. Pandya, and O.P. Saxena|Effect of Ascorbic Acid, CCC and Their Interaction on Germination and Metabolism in Peanut|Indian J. Plant Physiol.11(2): 216-225|1968|
120851|T||Mazumdar,B.C., and S.K. Chatterjee|Analysis of Petiole-Longevity at Different Stages of Reproductive Phase in Mango (Mangifera indica L.) Varieties, Langra and Fazli|Indian J. Plant Physiol.11(2): 188-195|1968|
120852|T||Rao,N.M., and A.R. Mehta|In Vitro Growth and Nutrition of Datura Anther Callus|Indian J. Plant Physiol.11(2): 181-187|1968|
120853|T||Nanda,K.K., H.N. Krishnamoorthy, and T.A. Anuradha|Effect of Gibberellic Acid and Cycocel on Flowering and Extension Growth of Impatiens balsamina Exposed to Varying Numbers of Short Day Cycles|Indian J. Plant Physiol.11(1): 104-121|1968|
120854|T||Paliwal,K.V., and A.P. Gandhi|Anion Effect on Germination of Some Jowar and Paddy Varieties in Saline Substrate|Indian J. Plant Physiol.11(1): 62-67|1968|
120855|T||Gopalachari,N.C., C. Sriramamurthy, and A. Hanumantharao|Effect of Forms and Levels of Nitrogen on the Uptake of Chloride by Flue-Cured Tobacco from a Saline Soil|Indian J. Plant Physiol.11(1): 27-37|1968|
120856|T||Nanda,K.K., and V.K. Kochhar|Effect of Auxins and Light on Rooting and Sprouting of Buds on Stem Cuttings of Populus nigra L.|Indian J. Plant Physiol.11(2): 123-131|1968|
120857|T||Sharma,R.A., and S.N. Mathur|Effect of Some Purine and Pyrimidine Bases and Their Analogues on the Metabolic Drifts During Flowering and Fruiting of Gossypium hirsutum Var. 216F|Indian J. Plant Physiol.12(1-2): 58-66|1969|
120858|T||Mazumdar,B.C., and S.K. Chatterjee|Petiole-Longevity in Two Commercially Important Varieties of Mango (Mangifera indica L.)|Indian J. Plant Physiol.12(1-2): 226-230|1969|
120859|T||Gupta,K.K., A.K. Mukherjee, and S.K. Chatterjee|Physiology of Germination and Seedling Growth of Xanthium strumarium|Indian J. Plant Physiol.12(1-2): 193-198|1969|
120860|T||Sinha,S.K.|Cyanogeneic Glucoside Production and Its Possible Control in Cassava|Indian J. Plant Physiol.12(1-2): 140-147|1969|
120861|T||Toky,K.L., S. Sawhney, and K.K. Nanda|Chemical Control of Flowering in Impatiens balsamina|Indian J. Plant Physiol.12(1-2): 48-57|1969|
120862|T||Swaraj,K., and O.P. Garg|Effect of Treatment of Growing Apices of Cicer arietinum with Ascorbic Acid and Gibberellic Acid on Nodulation and Nitrogen Fixation|Indian J. Plant Physiol.12(1-2): 38-47|1969|
120863|T||Shah,C.B., and G.C.P. Pillai|Effect of Some Growth Regulators on Germination, Growth and Yield of Cuminum cyminum|Indian J. Plant Physiol.12(1-2): 32-37|1969|
120864|T||Singh,G., and O.P. Garg|Effect of Ascorbic Acid, Gibberellic Acid and Kinetin on Branching in Cotton|Indian J. Plant Physiol.12(1-2): 20-25|1969|
120865|T||Tewari,M.N., and S. Kathju|Structure and Activity of Fluorine Substituted Phenoxy Derivatives in Relation to GA2 and Some Enzymes of Phosphate Metabolism|Indian J. Plant Physiol.12(1-2): 13-19|1969|
120866|T||Prathapasenan,G., D. Kamalavalli, and C.H. Pathak|Effect of Gibberellic Acid on Growth and Activity of Catalase and Peroxidase in Cotton and Sorghum|Indian J. Plant Physiol.12(1-2): 7-12|1969|
120867|T||Saxena,O.P., P.I. Ghesani, S.P. Shukla, and J.J. Chinoy|Role of Ascorbic Acid as an Enzyme-Mobilizing Hormone|Indian J. Plant Physiol.12(1-2): 1-6|1969|
120868|T||Sawhney,S., K.L. Toky, and K.K. Nanda|Changes in Amylase Activity During Extension Growth and Floral Induction in Impatiens balsamina, a Qualitative Short Day Plant|Indian J. Plant Physiol.13(2): 198-205|1970|
120869|T||Bhatt,J.G., and T. Ramanujam|Effect of Cycocel on Yield, Chlorophyll Content and Fibre Properties of Lint of MCU Cottons|Indian J. Plant Physiol.13(2): 180-184|1970|
120870|T||Rajagopal,V., M.R.K. Rao, and I.M. Rao|Changes in Endogenous Gibberellin-Like Substances in the Seedlings of Phaseolus radiatus L., as Influenced by Tomato Juice Factor|Indian J. Plant Physiol.13(2): 159-167|1970|
120871|T||Gopal,N.H.|The Distribution of Normal and Toxic Amounts of Boron in Groundnut|Indian J. Plant Physiol.13(1): 92-98|1970|
120872|T||Dave,I.C., and B.K. Gaur|Effect of Presowing Treatment with Gibberellic Acid and L--Ascorbic Acid on Growth and Development of Barley|Indian J. Plant Physiol.13(1): 76-85|1970|
120873|T||Mathur,S.N., R.A. Sharma, and S.P. Mittal|Interaction of Gibberellic Acid and Day-Length in Flowering of Dahlia|Indian J. Plant Physiol.13(1): 72-75|1970|
120882|A||Dahlberg,M.L., D.L. Shumway, and P. Doudoroff|Influence of Dissolved Oxygen and Carbon Dioxide on Swimming Perfomance of Largemouth Bass and Coho Salmon|J. Fish. Res. Board Can.25(1): 49-70|1968|10.1139/f68-005
120883|A||Alabaster,J.S., D.W.M. Herbert, and J. Hemens|The Survival of Rainbow Trout (Salmo gairdnerii Richardson) and Perch (Perca fluviatilis L.) at Various Concentrations of Dissolved Oxygen and Carbon Dioxide|Ann. Appl. Biol.45(1): 177-188|1957|10.1111/j.1744-7348.1957.tb00452.x
120884|A||Sharifpour,I., R. Pourgholam, M. Soltani, M.D. Hassan, S. Akbari, and A. Nouri|Light and Electron Microscope Studies of Grass Carp (Ctenopharyngodon idella) Organs Following Exposure to Various Sublethal Concentrations of Diazinon|Iran. J. Fish. Sci.5(2): 111-136|2006|
120885|T||Trader,B.W., H.P. Wilson, and T.E. Hines|Control of Yellow Nutsedge (Cyperus esculentus) and Smooth Pigweed (Amaranthus hybridus) in Summer Squash with Halosulfuron|Weed Technol.22(4): 660-665|2008|10.1614/WT-08-016.1
120886|T||Walters,S.A., S.A. Nolte, and B.G. Young|Influence of Winter Rye and Preemergence Herbicides on Weed Control in No-Tillage Zucchini Squash Production|HortTechnology15(2): 238-243|2005|10.21273/HORTTECH.15.2.0238
120887|T||Fennimore,S.A., and L.W. Mitich|Dry Bean Weed Control Research in California, 1981-1982:  A Summary|Proc. West. Soc. Weed Sci.36:170-174|1983|
120888|A||Pourgholam,R., M. Soltani, M.D. Hassan, A. Ghoroghi, R. Nahavandi, and H. Pourgholam|Determination of Diazinon LC50 in Grass Carp (Ctenopharyngodon idella) and the Effect of Sublethal Concentration of Toxin on Some Hematological and Biochemical Indices|Iran. J. Fish. Sci.5(2): 67-82|2006|
120889|A||Minganti,A.|Experiments on the Respiration of Phallusia Eggs and Embryos (Ascidians)|Acta Embryol. Morphol. Exp.1:150-163|1957|
120890|T||Chary,P., D. Dillon, A.L. Schroeder, and D.O. Natvig|Superoxide Dismutase (Sod-1) Null Mutants of Neurospora crassa: Oxidative Stress Sensitivity, Spontaneous Mutation Rate and Response to Mutagens|Genetics137(3): 723-730|1994|10.1093/genetics/137.3.723
120891|T||Newbold,R.R., W.N. Jefferson, E. Padilla-Banks, and J. Haseman|Developmental Exposure to Diethylstilbestrol (DES) Alters Uterine Response to Estrogens in Prepubescent Mice:  Low Versus High Dose Effects|Reprod. Toxicol.18(3): 399-406|2004|10.1016/j.reprotox.2004.01.007
120892|A||Raja,I.A., and A.P. Charjan|Changes in Blood Profile of Fresh Water Fish Rasbora daniconius Exposed to Chloropyrifos|Environ. Ecol.27(1): 127-130|2009|
120893|A||Khoshbavar Rostami,H.A., M. Soltani, and M.D. Hassan|Some Hematological and Biochemical Changes in Blood Serum of Beluga (Huso huso) After Chronic Exposure to Diazinon|Iran. J. Fish. Sci.5(2): 53-66|2006|
120894|A||Reverberi,G.|Some Effects of Enzyme Inhibitors on the Ascidian Development|Acta Embryol. Morphol. Exp.1:12-32|1957|
120895|A||Minganti,A.|Inhibition of Melanogenesis in Phallusia Embryos (Ascidians)|Acta Embryol. Morphol. Exp.1:37-47|1957|
120896|A||Minganti,A.|Action of Tyrosinase Inhibitors on Respiratory Sistems of Phallusia Eggs and Embryos (Ascidians)|Acta Embryol. Morphol. Exp.1:71-77|1957|
120897|A||Durante,M.|Action of Cholinesterase Inhibitors on Ascidian Embryos|Acta Embryol. Morphol. Exp.1:273-279|1958|
120898|A||Trader,B.W., H.P. Wilson, and T.E. Hines|Halosulfuron Helps Control Several Broadleaf Weeds in Cucumber and Pumpkin|Weed Technol.21(4): 966-971|2007|10.1614/WT-07-054.1
120900|A||Cothran,R.D., R.L. Greco, and R.A. Relyea|No Evidence that a Common Pesticide Impairs Female Mate Choice in a Freshwater Amphipod|Environ. Toxicol.25(3): 310-314|2009|10.1002/tox.20506
120901|A||Huculeci,R., D. Dinu, A.C. Staicu, M.C. Munteanu, M. Costache, and A. Dinischiotu|Malathion-Induced Alteration of the Antioxidant Defence System in Kidney, Gill, and Intestine of Carassius auratus gibelio|Environ. Toxicol.24(6): 523-530|2009|10.1002/tox.20454
120902|T||Pankiw,T., and S.C. Jay|Aerially Applied Ultra-Low-Volume Malathion Effects on Caged Honey Bees (Hymenoptera: Apidae), Caged Mosquitoes (Diptera: Culicidae), and Malathion Residues|J. Econ. Entomol.85(3): 687-691|1992|10.1093/jee/85.3.687
120903|A||Yogesh,H.W., A.G. Yashshri, and P.A. Prakash|Sublethal and Chronic Effect of Carbaryl and Malathion on Clarius batrachus (Linn.)|J. Appl. Sci. Environ. Manag.13(2): 23-26|2009|
120904|T||Kermani,M.J., V. Sarasan, A.V. Roberts, K. Yokoya, J. Wentworth, and V.K. Sieber|Oryzalin-Induced Chromosome Doubling in Rosa and Its Effect on Plant Morphology and Pollen Viability|Theor. Appl. Genet.107(7): 1195-1200|2003|10.1007/s00122-003-1374-1
120905|T||Ndon,B.A., and R.G. Harvey|Effects of Seed and Root Lipids on the Susceptibility of Plants to Trifluralin and Oryzalin|Weed Sci.29(4): 420-425|1981|10.1017/S004317450003993X
120906|T||Fishel,F.M., and G.E. Coats|Effect of Commonly Used Turfgrass Herbicides on Bermudagrass (Cynodon dactylon) Root Growth|Weed Sci.41(4): 641-647|1993|10.1017/S0043174500076451
120907|T||Moss,S.R.|Herbicide Cross-Resistance in Slender Foxtail (Alopecurus myosuroides)|Weed Sci.38(6): 492-496|1990|10.1017/S0043174500051365
120908|T||Dawson,J.H.|Dodder (Cuscuta spp.) Control with Dinitroaniline Herbicides in Alfalfa (Medicago sativa)|Weed Technol.4(2): 341-348|1990|10.1017/S0890037X00025513
120909|T||Al-Khatib,K.|Tulip (Tulipa spp.), Daffodil (Narcissus spp.), and Iris (Iris spp.) Response to Preemergence Herbicides|Weed Technol.10(4): 710-715|1996|10.1017/S0890037X00040690
120910|T||Johnson,B.J., and R.N. Carrow|Reduced Preemergence Herbicide Rates for Large Crabgrass (Digitaria sanguinalis) Control in Six Tall Fescue (Festuca arundinacea) Cultivars|Weed Technol.9(4): 716-723|1995|10.1017/S0890037X00024106
120911|T||Negrisoli,A.S.,Jr., M.S. Garcia, and C.R.C. Barbosa Negrisoli|Compatibility of Entomopathogenic Nematodes (Nematoda: Rhabditida) with Registered Insecticides for Spodoptera frugiperda (Smith, 1797) (Lepidoptera: Noctuidae) Under Laboratory Conditions|Crop Prot.29(6): 545-549|2010|10.1016/j.cropro.2009.12.012
120912|T||Johnson,B.J., and R.N. Carrow|Tolerance of Zoysiagrass (Zoysia spp.) Cultivars to Preemergence Herbicides|Weed Technol.13(4): 706-712|1999|10.1017/S0890037X00042111
120913|T||Campos,M., and T.W. Phillips|Contact Toxicity of Insecticides for Attract-and-Kill Applications Against Adult Plodia interpunctella (Hubner) (Lepidoptera: Pyralidae)|Pest Manag. Sci.66(7): 752-761|2010|10.1002/ps.1938
120914|T||Abdou,R., K. Sasaki, W. Khalil, S. Shah, Y. Murasawa, and M. Shimoda|Effects of Several Pyrethroids on Hepatic Cytochrome P450 Activities in Rats|J. Vet. Med. Sci.72(4): 425-433|2010|10.1292/jvms.09-0347
120915|T||Garcia,C.M., and J.J. Morrell|Efficacy and Economic Benefits of Prophylactic Treatments of Newly Felled Bamboo|J. Econ. Entomol.103(1): 101-107|2010|10.1603/EC06304
120916|T||Kalender,S., F.G. Uzun, D. Durak, F. Demir, and Y. Kalender|Malathion-Induced Hepatotoxicity in Rats:  The Effects of Vitamins C and E|Food Chem. Toxicol.48(2): 633-638|2010|10.1016/j.fct.2009.11.044
120917|T||Johnson,B.J.|Reduced Rates of Preemergence and Postemergence Herbicides for Large Crabgrass (Digitaria sanguinalis) and Goosegrass (Eleusine indica) Control in Bermudagrass (Cynodon dactylon)|Weed Sci.44(3): 585-590|1996|10.1017/S0043174500094388
120918|A||Rath,P., A.K. Panigrahi, and B.N. Misra|Effect of Inorganic Mercury on the Growth of Westiellopsis prolifica Janet.|J. Environ. Biol.4(3): 103-109|1983|
120919|A||Rao,S.V.R., S.K. Sharma, V.P. Singh, and L.P. Mall|Toxic Effect of Two Heavy Metals on Phytoplankton Photosynthesis|Sci. Cult.45(7): 286-288|1979|
120921|A||Schrap,S.M., and A. Opperhuizen|Relationship Between Bioavailability and Hydrophobicity:  Reduction of the Uptake of Organic Chemicals by Fish Due to the Sorption on Particles|Environ. Toxicol. Chem.9:715-724|1990|
120922|A||Schiewer,U.|The Ecophysiology of Salt Adaptation in Freshwater Blue-Green Algae|Limnologica15(2): 555-558|1984|
120923|A||Shaw,J.|Ionic Regulation and Water Balance in the Aquatic Larva of Sialis lutaria|J. Exp. Biol.32:353-382|1955|10.1242/jeb.32.2.353
120925|A||Call,D.J., L.T. Brooke, and D.D. Vaishnav|Aquatic Pollutant Hazard Assessments and Development of a Hazard Prediction Technology by Quantitative Structure-Activity Relationships|Fourth Quarterly Rep.to EPA, Feb.24-May 23, 1982, U.S.EPA Coop.Agreement No.CR 809234-01-0, Ctr.for Lake Superior Environ.Stud., Univ.of Wisconsin-Superior, Superior, WI:92 p.|1982|
120926|A||Call,D.J., L.T. Brooke, and N. Ahmad|Toxicity, Bioconcentration, and Metabolism of Selected Chemicals in Aquatic Organisms|Fourth Quarterly Progress Report to EPA, Agreement No.CR 806864020, University of Wisconsin, Superior, WI:80 p.|1980|
120927|A||Call,D.J., L.T. Brooke, and N. Ahmad|"Estimates of ""No Effect"" Concentrations of Selected Pesticides in Freshwater Organisms"|First Quarterly Progress Report to EPA, University of Wisconsin, Superior, WI:45 p.|1980|
120928|A||Call,D.J., L.T. Brooke, and R. Kent|Toxicity, Bioconcentration and Metabolism of Selected Chemicals in Aquatic Organisms|USEPA Cooperative Agreement R-880020-01-0, University of Wisconsin, Superior, WI:20 p.|1979|
120930|A||Wong,K.H., and K.Y. Chan|A Study of Cadmium, Copper and Lead Uptake by the Unicellular Green Alga Chlorella salina Cu-1|In: Stand.Methodol.Water Pollut.Proc.Conf.:168-173|1979|
120931|AT||Yamamura,M., and K.T. Suzuki|Metallothionein Induced in the Frog Xenopus laevis|Experientia39:1370-1373|1983|10.1007/BF01990109
120932|A||Yamamura,M., K.T. Suzuki, S. Hatakeyama, and K. Kubota|Tolerance to Cadmium and Cadmium-Binding Proteins Induced in the Midge Larva, Chironomus yoshimatsui (Diptera, Chironomidae)|Comp. Biochem. Physiol. C Comp. Pharmacol.75(1): 21-24|1983|10.1016/0742-8413(83)90005-1
120933|A||Zitko,V.|Uptake and Excretion of Chlorinated and Brominated Hydrocarbons by Fish|Fish.Mar.Serv.Tech.Rep.No.737, Biol.Stn., St.Andrews, N.B.:11 p.|1977|
120935|T||Ruch,F.E.,Jr., and M.R. Hughes|The Effects of Hypertonic Sodium Chloride Injection on Body Water Distribution in Ducks (Anas platyrhynchos), Gulls (Larus glaucescens) and Roosters (Gallus domesticus)|Comp. Biochem. Physiol. A Comp. Physiol.52:21-28|1975|10.1016/S0300-9629(75)80120-4
120936|A||Sastry,K.V., and D.R. Rao|Mercuric Chloride Induced Alterations in the Intestinal Transport of Glucose and Fructose in the Fresh Water Murrel Channa punctatus|Water Air Soil Pollut.19:143-147|1983|10.1007/BF00211800
120937|T||Lapina,L.P., S.A. Bikmukhametova, and I.N. Murashov|Effects of Na2S04 and NaCl on Activity of Photosynthetic Phosphorylation in Plants with Different Salt Resistance|Sov. Plant Physiol.23(2): 236-241|1976|
120938|A||Konar,S.K.|Experimental Use of Chlordane in Fishery Management|Prog. Fish-Cult.30:96-99|1968|10.1577/1548-8640(1968)30[96:EUOCIF]2.0.CO;2
120939|A||Katz,U., and Y. Ben-Sasson|A Possible Role of the Kidney and Urinary Bladder in UREA Conservation of Bufo viridis Under High Salt Acclimation|J. Exp. Biol.109:373-377|1984|10.1242/jeb.109.1.373
120940|T||Kang,M.J., and Y.J. Chung|Study of the Effects of Potassium Chloride and Calcium Chloride on the Development of Drosophila malanogaster|Korean J. Zool.17(1): 5-16|1974|
120941|A||Hollister,T.A., A.H.,Jr. Parker, and P.R. Parrish|Acute and Chronic Toxicity of Five Chemicals to Mysid Shrimp (Mysidopsis bahia)|EG&G Bionomics, Mar.Res.Lab., Pensacola, FL:15 p.|1968|
120942|A||Huisman,J., and H.J.G.T. Hoopen|A Mercury Buffer for Toxicity Experiments with Green Algae|Water Air Soil Pollut.10:325-333|1978|10.1007/BF00285060
120943|A||Kostrov,B.P., and I.A. Shekhanova|Effect of Mercuric Chloride and 32P on the Respiration of the Embryo of the Loach, Misgurnus fossilis|J. Ichthyol.:138-140|1982|
120944|AT||Hoiland,K., and P. Oftedal|Lead-Tolerance in Deschampsia flexuosa from a Naturally Lead Polluted Area in S Norway|Oikos34:168-172|1980|
120945|A||Masood-Hussain,M., and S.K. Saidapur|Effect of NaCl and KCI Salts on the Cytomorphology of Pars Distalis of the Frog Rana cyanophlyctis (Schneider)|Horm. Metab. Res.15:339-342|1983|10.1055/s-2007-1018713
120946|T||Pritchard,G.H.|Control of Bridal Creeper with Herbicides|Plant Prot. Q.6(3): 126-|1991|
120947|T||Ghadiri,H., G.A. Wicks, C.R. Fenster, and O.C. Burnside|Control of Weeds in Winter Wheat (Triticum aestivum) and Untilled Stubble with Herbicides|Weed Sci.29(1): 65-70|1981|10.1017/S0043174500025844
120948|T||Johnson,B.J.|Reduced Herbicide Rates for Large Crabgrass (Digitaria sanguinalis) and Goosegrass (Eleusine indica) Control in Bermudagrass (Cynodon dactylon)|Weed Sci.45(2): 283-287|1997|10.1017/S0043174500092845
120949|T||Norcini,J.G., R.H. Stamps, and J.H. Aldrich|Preemergent Control of Long-Stalked Phyllanthus (Phyllanthus tenellus) and Leafflower (Phyllanthus urinaria)|Weed Technol.9(4): 783-788|1995|10.1017/S0890037X00024210
120950|T||Wehtje,G.R., C.H. Gilliam, and J.A. Reeder|Germination and Growth of Leafflower (Phyllanthus urinaria) as Affected by Cultural Conditions and Herbicides|Weed Technol.6(1): 139-143|1992|10.1017/S0890037X00034448
120951|T||Kelly,S.T., and G.E. Coats|Influence of Fertilizer Particle Size on Efficacy of Dithiopyr, Prodiamine, Oryzalin, and Oxadiazon for Southern Crabgrass (Digitaria ciliaris) Control|Weed Technol.13(2): 385-389|1999|10.1017/S0890037X00041907
120952|T||Chargui,I., M.L. Falcioni, H.B. Cheikh, and R. Gabbianelli|Erythrocyte Antioxidants Enzymes Imbalance Following Subcutaneous Pyrethroid Treatments in Rats of Different Sex|Environ. Toxicol. Pharmacol.PRESS:5 p.|2010|
120953|T||Kadoum,A.M., and D.W. La Hue|Effect of Hybrid, Moisture Content, Foreign Material, and Storage Temperature on the Degradation of Malathion Residues in Grain Sorghum|J. Econ. Entomol.62(3): 1161-1164|1969|10.1093/jee/62.5.1161
120954|T||Kadoum,A.M., and D.W. LaHue|Degradation of Malathion on Viable and Sterilized Sorghum Grain|J. Econ. Entomol.65(2): 497-500|1972|10.1093/jee/65.2.495a
120955|T||Azadbar,M., A. Ranjbar, A. Hosseini-Tabatabaei, A. Golestani, M. Baeeri, M. Sharifzadeh, and M. Abdollahi|Interaction of Phosphodiesterase 5 Inhibitor with Malathion on Rat Brain Mitochondrial-Bound Hexokinase Activity|Pestic. Biochem. Physiol.95(3): 121-125|2009|10.1016/j.pestbp.2009.08.001
120956|A||Ghedira,J., J. Jebali, Z. Bouraoui, M. Banni, L. Chouba, and H. Boussetta|Acute Effects of Chlorpyryphos-Ethyl and Secondary Treated Effluents on Acetylcholinesterase and Butyrylcholinesterase Activities in Carcinus maenas|J. Environ. Sci. (China)21(10): 1467-1472|2009|10.1016/S1001-0742(08)62441-9
120957|A||Ramesh,H., and M. David|Respiratory Performance and Behavioral Responses of the Freshwater Fish, Cyprinus carpio (Linnaeus) Under Sublethal Chlorpyrifos Exposure|J. Basic Clin. Physiol. Pharmacol.20(2): 127-139|2009|10.1515/JBCPP.2009.20.2.127
120959|A||Hendrix,P.F., C.L. Langner, E.P. Odum, and C.L. Thomas|Microcosms as Test Systems for the Ecological Effects of Toxic Substances:  An Appraisal with Cadmium|Grant No.R805860010, U.S.EPA, Athens, GA:184 p.|1980|
120960|A||Stephan,C.E.|Chronic Screening Toxicity Test with Daphnia magna|Sept.29th Memo to D.Friedman, U.S.EPA, Washington, DC:3 p.|1978|
120961|A||Macka,W., H. Wihlidal, G. Stehlik, J. Washuttl, and E. Banchar|Uptake of 203Hg++ and 115m Cd++ by Chlamydomonas reinhardi Under Various Conditions|Chemosphere10:787-796|1979|10.1016/0045-6535(79)90040-7
120962|A||McIntyre,J.D., and J.M. Blanc|Genetic Aspects of Mercury Toxicity for Steelhead Trout (Salmo gairdneri): A Progress Report|Proc. Annu. Conf. Western Assoc. State Game Fish Comm.:575-578|1972|
120963|A||Goettl,J.P.,Jr., and J.R. Sinley|Water Pollution Studies: Study of the Effects of Mineral Mining and Milling Operations on High Mountain Streams|Project No. F-33-R-5, Division of Wildlife, Fort Collins, CO:59 p.|1970|
120964|A||Gardner,W.S., P.F. Landrum, and J.F. Cavaletto|Lipid-Partitioning and Disposition of Benzo(a)pyrene and Hexachlorobiphenyl in Lake Michigan Pontoporeia hoyi and Mysis relicta|Environ. Toxicol. Chem.9:1269-1278|1990|
120966|A||Stephan,C.E.|Results of Toxicity Tests|Feb.13th Memo to J.Carroll, U.S.EPA, Washington, DC:2 p.|1978|
120968|A||Cummins,J.E., R.W. Yatscoff, and P.J. Ferris|Methylmercury Induced DNA Damage and Its Repair|Trace Subst. Environ. Health10:429-434|1976|
120969|A||Akagi,H., D.C. Mortimer, and D.R. Miller|Mercury Methylation and Partition in Aquatic Systems|Bull. Environ. Contam. Toxicol.23:372-376|1979|10.1007/BF01769973
120970|A||De Freitas,A.S.W., K.M. Lloyd, and S.U. Qadri|Mercury Bioaccumulation in the Detritus-Feeding Benthic Invertebrate, Hyalella azteca (Saussure)|Proc. N.S. Inst. Sci.31:217-236|1981|
120971|A||Akagi,H., E. Takabatake, D.C. Mortimer, and D.R. Miller|Generation and Distribution of Methylmercury in Aquatic Systems|J. Pharmacobio-Dyn.3(4): S1|1980|
120972|A||Dickman,M.D., and M.B. Gochnauer|Impact of Sodium Chloride on the Microbiota of a Small Stream|Environ. Pollut.17:109-126|1978|
120973|A||Chau,Y.K., P.T.S. Wong, G.A. Bengert, and O. Kramar|Determination of Tetraalkyllead Compounds in Water, Sediment, and Fish Samples|Anal. Chem.51(2): 186-188|1979|10.1021/ac50038a008
120974|A||Brooke,L.T.|Results of Freshwater Simulation Tests Concerning Dissolved Metal|Lake Superior Research Institute, Environmental Health Laboratory, University of Wisconsin-Superior, Superior, WI:93 p.|1995|
120975|A||E.G. and G. Bionomics|The Chronic Toxicity of Santicizer 160 (BN-78-1384327-1) to the Water Flea (Daphnia magna)|EG&G Bionomics, Aquatic Toxicology Laboratory, Wareham, MA:175 p.|1979|
120976|A||De Renzis,G., and J. Maetz|Studies on the Mechanism of Chloride Absorption by the Goldfish Gill:  Relation with Acid-Base Regulation|J. Exp. Biol.59:339-358|1973|10.1242/jeb.59.2.339
120977|A||E.G. and G. Bionomics|In Depth Studies on Health and Environmental Impact of Selected Water Pollutants|EPA Contract No.68-01-4646, Task III, Bioconcentration Studies, U.S.EPA, Washington, DC, Submitted by EG & G Bionomics, Wareham, MA:40 p.|1978|
120986|T||Dadarkar,S.S., M.D. Deore, and M.M. Gatne|Comparative Evaluation of Acute Toxicity of Ivermectin by Two Methods After Single Subcutaneous Administration in Rats|Regul. Toxicol. Pharmacol.47(3): 257-260|2007|10.1016/j.yrtph.2006.10.009
120987|A||Kim,Y., K. Choi, J. Jung, S. Park, P.G. Kim, and J. Park|Aquatic Toxicity of Acetaminophen, Carbamazepine, Cimetidine, Diltiazem and Six Major Sulfonamides, and Their Potential Ecological Risks in Korea|Environ. Int.33(3): 370-375|2007|10.1016/j.envint.2006.11.017
120988|A||Costin,D., A. Staicu, R. Huculeci, G. Stoian, M. Costache, and A. Dinischiotu|Renal Effects of Deltamethrin Induced Intoxication in Carassius auratus gibelio (Pisces cyprinidae)|Biotechnol. Anim. Husb.23(5/6): 399-404|2007|10.2298/BAH0702399C
120989|A||Call,D.J., L.T. Brooke, and N. Ahmad|Toxicity, Bioconcentration and Metabolism of Selected Chemicals in Aquatic Organisms|Second Quarterly Prog.Rep.to EPA, July 1-Sep.30, 1979, EPA Coop.Agreement No.CR 806864020, Univ.of Wisconsin, Superior, WI:21 p.|1979|
120991|A||Heidolph,B.B.|Acute Toxicity of Santicizer 711 to Fathead Minnows:  A Time Independent Study|Environmental Sciences Report No.ES-79-SS-4, Monsanto St.Louis, MO:26 p.|1979|
120992|A||E.G. and G. Bionomics|Acute Toxicity of Twelve Phthalate Esters to Mysid Shrimp (Mysidopis bahia)|Report BP-83-1-6, Submitted to Chemical Manufacturers Association, Washington, DC by EG & G Bionomics, Pensacola FL:40 p.|1984|
120993|A||Ponyi.J.E., and I. Bankos|The Effect of Different Pesticides on the Amphipod Gammarus roeseli Gervais|Misc. Zool. Hung.3:83-90|1985|
120994|A||Burrows,W.D., K.I. Taimi, and P.A. Krenkel|The Uptake and Loss of Methylmercury by Freshwater Fish|In: Congreso Internacional Del Mercurio, Barcelona, 1974II:283-288|1974|
120995|A||Brungs,W.A.|Experimental Uptake of Strontium-85 by Freshwater Organisms|Health Phys.11:41-46|1965|10.1097/00004032-196501000-00006
120996|A||Cohle,P., and C. Lochhaas|Acute 96-Hour Flow-Through Toxicity of bis(Tri-n-Butyltin) Oxide to Rainbow Trout (Oncorhynchus mykiss)|ABC Study No.38306, Analytical Bio-Chemistry Lab.Inc., Columbia, MO:277 p.|1990|
120997|A||Hoberg,J.R.|Toxicity to the Marine Diatom, Skeletonema costatum|Study No.93-4-4753, Springborn Lab.Inc., Wareham, MA:63 p.|1998|
120998|A||Department of Scientific and Industrial Research|Water Pollution Research 1961|In: Report of the Director, Department of Scientific and Industrial Research, Her Majesty's Stationary Office, London:78-94|1961|
121000|A||Hansen,D.J.|Results of Sheepshead Minnow Embryo/Juvenile Tests with Endosulfan|May 19th Memo to The Record, U.S.EPA, Gulf Breeze, FL:3 p.|1980|
121001|A||Newsome,C.S., and R.D. Piron|Aetiology of Skeletal Deformities in the Zebra Danio Fish (Brachydanio rerio, Hamilton-Buchanan)|J. Fish Biol.21:231-237|1982|10.1111/j.1095-8649.1982.tb04003.x
121004|A||Knight,R.L.|Energy Model of a Cadmium Stream with Correlation of Embodied Energy and Toxicity|EPA 600/3-82-048, U.S.EPA, Athens, GA:127 p.|1982|
121006|A||Munshi,J.S.D., and R.K. Singh|Investigation on the Effects of Insecticides and Other Chemical Substances on the Respiratory Epithelium of the Predatory and Weed Fishes|Indian J. Ecol.12(2): 127-134|1973|
121008|T||Mhatre,G.N., and S.B. Chaphekar|Response of Young Plants to Mercury|Water Air Soil Pollut.21:1-8|1984|10.1007/BF00163606
121010|A||Pandey,S.N.|Response of Chlorella vulgaris Beij. to Selenium Oxide|Plant Sci.7:88-89|1975|
121011|A||Czuba,M., and D.C. Mortimer|Stability of Methylmercury and Inorganic Mercury in Aquatic Plants (Elodea densa)|Can. J. Bot.58:316-320|1980|10.1139/b80-032
121012|A||Agrawal,M., and H.D. Kumar|Response of Chlorella to Mercury Pollution|Indian J. Ecol.2:94-98|1975|
121013|A||Fromm,P.O., and E.P. Reineke|Some Aspects of Thyroid Physiology in Rainbow Trout|J. Cell. Comp. Physiol.48:393-397|1956|10.1002/jcp.1030480304
121014|A||De Filippis,L.F.|The Effect of Sub-lethal Concentrations of Mercury and Zinc on Chlorella  IV.  Characteristics of a General Reducing Enzyme System for Metallic Ions|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)86:339-352|1978|
121015|A||Vaidya,D.P., and R. Nagabhushanam|Influence of Salt Concentrations on Survival, Body Weight and Blood Chloride of the Freshwater Snail, Indoplanorbis exustus (Deshyes)|Hydrobiologia (Multiple Languages)63(3): 195-198|1979|10.1007/BF00023622
121016|A||Department of Scientific and Industrial Research|Water Pollution Research 1959|In: Report of the Director, Department of Scientific and Industrial Research, Her Majesty's Stationary Office, London:67-71|1959|
121017|A||Ministry of Technology|Water Pollution Research 1964|In: Report of the Director, Ministry of Technology, Her Majesty's Stationary Office, London:111-116|1964|
121018|A||LeBlanc,G.A., and D.C. Surprenant|The Chronic Toxicity of 8 of the 65 Priority Pollutants to the Water Flea (Daphnia magna)|Draft Manuscript, EG&G Bionomics, Aquatic Toxicology Laboratory, Wareham, MA:36 p.|1980|
121020|A||Stephan,C.E.|Results of Bioconcentration Tests|Sept.30th Memo to J.J.Carroll, U.S.EPA, Washington, DC, from C.E.Stephan, U.S.EPA, Duluth, MN:39 p.|1977|
121021|A||Department of Scientific and Industrial Research|Water Pollution Research 1963|In: Report of the Director, Department of Scientific and Industrial Research, Her Majesty's Stationary Office, London:80-92|1963|
121022|A||Bailey,H.C.|Round Robin - Midge Studies|Draft Final Rep., Prepared for U.S.EPA, Duluth, MN, SRI Int., Menlo Park, CA:27 p.|1982|
121023|A||Thrasher,J.D., and J.F. Adams|The Effects of Four Mercury Compounds on the Generation Time and Cell Division in Tetrahymena pyriformis, WH14|Environ. Res.5:443-450|1972|10.1016/0013-9351(72)90045-X
121024|A||Collins,W.J.|Round Robin Testing of the Midge (Tanytarsus) Acute and Chronic Toxicity Tests|Final Rep., Contract No.68-03-3077, U.S.EPA, Cincinnati, OH:49 p.|1983|
121025|A||Dressing,S.A.|The Effect of Chemical Speciation on the Equilibrium, Whole-Body Cadmium Content of Larvae of the Caddisfly, Hydropsyche sp.|M.S.Thesis, University of North Carolina, Chapel Hill, NC:88 p.|1980|
121028|T||Hunter,M.L.,Jr.|The Indirect Effects of Carbaryl on the Behavior of Birds|In: K.G.Stratton (Ed.), Environmental Monitoring Report from the 1980 Maine Cooperative Spruce Budworm Suppression Project, Maine Forest Service, Department of Conservation, Augusta, ME:169-191|1981|
121030|A||U.S. Environmental Protection Agency|The Impact of Chlorine/Ammonia on Ecosystem Structure and Function in Experimental Streams|Internal Rep., U.S.EPA, Duluth, MN:25 p.|1988|
121031|A||Tsukada,O., T. Kawahara, and H. Takada|Good Growth of Chlorella saccharophila, on the Basis of Dry Weight, Under NaCl Hypertonic Condition|Nippon Suisan Gakkaishi (Multiple Languages)40(10): 1007-1013|1974|10.2331/suisan.40.1007
121032|A||Sutcliffe,D.W.|Studies on Salt and Water Balance in Caddis Larvae (Trichoptera)  II. Osmotic and Ionic Regulation of Body Fluids in Limnephilus stigma Curtis and Anabolia nervosa Leach|J. Exp. Biol.38:521-530|1961|10.1242/jeb.38.3.521
121033|A||Stary,J., K. Kratzer, and J. Prasilova|Cumulation of Anionic Species on Algal Cells|Toxicol. Environ. Chem.9(2): 109-113|1984|10.1080/02772248409357073
121034|A||Fraser,J.|Acclimation to Lead in the Freshwater Isopod Asellus aquaticus|Oceanologia (Wroc.)45:419-420|1980|
121035|A||Konovalov,Y.D.|Binding of Dyes by Carp Embryonic Cells Under the Effect of Sulphates and Chlorides|Hydrobiol. J.20(4): 47-53|1984|
121036|T||Kobayashi,J.|"Relation Between the ""Itai-Itai"" Disease and the Pollution of River Water by Cadmium from a Mine"|In: 5th Intl. Water Pollut. Res. Conf., Jul.-Aug., 1970, Pergamon Press Ltd., Spring:|1971|
121038|AT||European Union|Comparative Research on Endocrine Disrupters - Phylogenetic Approach and Common Principles Focussing on Androgenic/Antiandrogenic Compounds|EU Contract No. EVK1-CT-2002-00129, Energy, Environment and Sustainable Development, European Union:58 p.|2006|
121039|A||Call,D.J., S.H. Poirier, and T.P. Markee|Trifluralin:  Acute Toxicity to the Midge, Chironomus tentans, Under Flow-Through Conditions|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:42 p.|1991|
121040|A||Havlik,B., J. Stary, J. Prasilova, K. Kratzer, and J. Hanusova|Mercury Circulation in Aquatic Bioconeses. Part 1: Mercury (II) - Metabolism in Phytoplankton|Acta Hydrochim. Hydrobiol. (Multiple Languages)7(2): 215-227|1979|10.1002/aheh.19790070208
121041|A||Shrivas,K., and H.F. Wu|Ultrasonication Followed by Single-Drop Microextraction Combined with GC/MS for Rapid Determination of Organochlorine Pesticides from Fish|J. Sep. Sci.31(2): 380-386|2008|10.1002/jssc.200700380
121042|T||Umezu,T., and M. Morita|Evidence for the Involvement of Dopamine in Ambulation Promoted by Menthol in Mice|J. Pharmacol. Sci.91(2): 125-135|2003|10.1254/jphs.91.125
121043|T||Chao,Y.E., M. Zhang, S.K. Tian, L.L. Lu, and X.E. Yang|Differential Generation of Hydrogen Peroxide upon Exposure to Zinc and Cadmium in the Hyperaccumulating Plant Specie (Sedum alfredii Hance)|J. Zhejiang Univ., Sci. B9(3): 243-249|2008|10.1631/jzus.B0710624
121044|A||Jia-Hua,L., G. Hong-Yan, W. Xiao-Rong, W.M. Hong, W. ShiHe, Y. Da-Qiang, Y. Ying, and Z. Jingfei|Plant-Promoted Dissipation of Four Submerged Macrophytes to Phenanthrene|Aquat. Ecosyst. Health Manag.12(4): 471-476|2009|10.1080/14634980903341293
121045|A||Patnaik,S.|Toxicity of Organic Copper Compound (Cutrine) on Some Algae and Fish|J. Inl. Fish. Soc. India12(1): 136-137|1980|
121046|A||Ozoh,P.T.E.|Effects of Reversible Incubations of Zebrafish Eggs in Copper and Lead Ions with or Without Shell Membranes|Bull. Environ. Contam. Toxicol.24:270-275|1980|10.1007/BF01608108
121047|A||Nunogawa,J.N., N.C. Burbank, and R.H.F. Young|The Relative Toxicities of Selected Chemicals to Several Species of Tropical Fish|In: S.H.Jenkins (Ed.), Advances in Water Pollution Research, Proceedings of the 5th International Conference, San Francisco, CA:HA-14/1 - HA-14/14|1971|
121048|A||Pawlaczyk-Szpilowa,M., and J. Slowik|The Biocumulation of Copper and Lead by Scenedesmus obliquus|Acta Microbiol. Pol.30(1): 79-87|1981|
121049|A||Tuchman,M.L., and E.F. Stoermer|The Effects of NaCl and KCl Additions on the Competitive Interactions Between a Diatom and a Blue-Green Alga|Manuscript, U.S.EPA, Chicago, IL:50 p.|1985|
121050|A||Tuchman,M.L., and E.F. Stoermer|The Effects of Increased NaCl and KCl Concentrations on a Natural Phytoplankton Assemblage from Lake Superior|Manuscript, U.S.EPA, Chicago, IL:48 p.|1985|
121051|A||Skowronski,T., and M. Przytocka-Jusiak|Effect of Cadmium on the Growth of Chlorella vulgaris and Stichococcus baccillaris|Acta Microbiol. Pol.30(2): 213-221|1981|
121053|A||Kim,B.S., Y.K. Park, M.H. Jeong, A.S. You, Y.H. Lee, Y.J. Yang, and Y.J. Ahn|Toxicity of Paraquat to Daphnia magna Under Different Exposure Conditions Associated with Korean Agricultural Conditions|Aquat. Ecosyst. Health Manag.12(3): 330-336|2009|10.1080/14634980903126637
121054|A||Hii,Y.S., K.L. Shia, T.S. Chuah, and L.S. Hing|Physiological Responses of Chaetoceros sp. and Nannochloropsis sp. to Short-Term 2,4-D, Dimethylamine and Endosulfan Exposure|Aquat. Ecosyst. Health Manag.12(4): 375-389|2009|10.1080/14634980903347662
121055|T||Yi,H., L. Wu, and L. Jiang|Genotoxicity of Arsenic Evaluated by Allium-Root Micronucleus Assay|Sci. Total Environ.383(1-3): 232-236|2007|10.1016/j.scitotenv.2007.05.015
121056|A||Halappa,R., and M. David|In Vivo Inhibition of Acetylcholinesterase Activity in Functionally Different Tissues of the Freshwater Fish, Cyprinus carpio, Under Chlorpyrifos Exposure|Drug Metab. Drug Interact.24(2-4): 123-136|2009|10.1515/DMDI.2009.24.2-4.123
121057|A||Nahavandi,R., R. Pourgholam, M.D. Hassan, M. Soltani, A. Ghoroghi, and H. Pourgholam|Chemiluminescent Response of Grass Carp (Ctenopharyngodon idella) Following Exposure to Sublethal Concentrations of Diazinon|Iran. J. Fish. Sci.6(1): 57-68|2006|
121058|T||Czarnota,M.A.|Tolerance of Three Juniper Species to Glyphosate|HortTechnology18(2): 239-242|2008|10.21273/HORTTECH.18.2.239
121059|T||Song,J., G. Feng, Z.K. Li, A.D. Chen, X.M. Chen, and F.S. Zhang|Effects of Salinity and Scarifying Seed Coat on Ion Content of Embryos and Seed Germination for Suaeda physophora and Haloxylon ammodendron|Seed Sci. Technol.35(3): 615-623|2007|10.15258/sst.2007.35.3.09
121060|AT||Kim,D.J., S.H. Seok, M.W. Baek, H.Y. Lee, Y.R. Na, S.H. Park, H.K. Lee, N.K. Dutta, K. Kawakami, and J.H. Park|Estrogen-Responsive Transient Expression Assay Using a Brain Aromatase-Based Reporter Gene in Zebrafish (Danio rerio)`|Comp. Med.59(5): 416-423|2009|
121061|A||Brooke,L.|Effect of pH on the Acute Toxicity of 2,4,5-Trichlorophenol to the Rainbow Trout, Oncorhynchus mykiss|U.S.EPA Contract No.68-C1-0034, for M.Spehar, U.S.EPA, Duluth, MN:13 p.|1993|
121062|A||Brooke,L.|Effect of pH on the Acute Toxicity 2,4,5-Trichlorophenol to the Fathead Minnow, Pimephales promelas|U.S.EPA Contract No.68-C1-0034 (Work Assignment 1-9), for R.Spehar, U.S.EPA, Duluth, MN:15 p.|1993|
121063|A||Brooke,L.|Effect of pH on the Chronic Toxicity of 2,4,5-Trichlorophenol to the Amphipod, Hyalella azteca|U.S.EPA Contract No.68-C1-0034, for R.Spehar, U.S.EPA, Duluth, MN:17 p.|1993|
121064|A||Brooke,L.|Effect of pH on the Chronic Toxicity of 2,4,5-Trichlorophenol to the Fathead Minnow, Pimephales promelas|U.S.EPA Contract No.68-C1-0034, for R.Spehar, U.S.EPA, Duluth, MN:17 p.|1993|
121065|A||Brooke,L.|Toxicity of 2,4,5-Trichlorophenol to the Annelid, Lumbriculus variegatus, at Three Values of pH|U.S.EPA Contract No.68-C1-0034 (Work Assignment 1-9), for R.Spehar, U.S.EPA, Duluth, MN:13 p.|1993|
121066|A||Brooke,L.|Effect of pH on the Acute Toxicity of 2,4,5-Trichlorophenol to the Amphipod Hyalella azteca|U.S.EPA Contract No.68-C1-0034 (Work Assignment 1-9), for R.Spehar, U.S.EPA, Duluth, MN:18 p.|1993|
121067|A||Hammermeister,D., C. Northcott, L. Brooke, and D. Call|Comparison of Copper, Lead and Zinc Toxicity to Four Animal Species in Laboratory and St. Louis River Water|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:19 p.|1982|
121068|A||Call,D.J., S.H. Poirier, and T.P. Markee|Disulfoton:  Acute Toxicity to Daphnia magna Under Static Renewal Conditions|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:58 p.|1991|
121069|A||Singh,S.P., K.K. Gaur, D.C. Sharma, and S. Yadav|Biochemical Effect of Chronic Doses of Carbamate and Fenvalerate on Liver and Muscles of Freshwater Fish, Channa punctatus (Bloch)|J. Ecophysiol. Occup. Health8(1/2): 119-122|2008|
121070|A||Woke,G.N., and I.P. Aleleye-Wokoma|Effects of Pesticide (Chlorpyrifos Ethyl) on the Fingerlings of Catfish (Clarias gariepinus)|Global J. Pure Appl. Sci.15(3/4): 265-266|2009|
121072|T||Hijwegen,T., and A.J. Termorshuizen|Retarded Development of Verticillium Wilt in Eggplant After Application of Bion or Oryzalin|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)107(3): 267-273|2000|
121073|T||Lamont,G.P., M.A. O'Connell, and P.J. Nicholls|An Evaluation of Pre-Emergent Herbicides for Container-Grown Ornamental Plants|Sci. Hortic.26(3): 241-251|1985|10.1016/0304-4238(85)90111-6
121074|A||Reis-Henriques,M.A., M. Ferreira, A.M. Coimbra, C. D'Silva, J. Costa, and M.S. Shailaja|Phenanthrene and Nitrite Effects on Juvenile Sea Bass, Dicentrarchus labrax, Using Hepatic Biotransformation Enzymes, Biliary Fluorescence, and Micronuclei as Biomarkers|Cienc. Mar.35(1): 29-40|2009|10.7773/cm.v35i1.1453
121075|A||Park,H., I.Y. Ahn, J.K. Lee, S.C. Shin, J. Lee, and E.J. Choy|Molecular Cloning, Characterization, and the Response of Manganese Superoxide Dismutase from the Antarctic Bivalve Laternula elliptica to PCB Exposure|Fish Shellfish Immunol.27(3): 522-528|2009|10.1016/j.fsi.2009.07.008
121076|A||Pasichnaya,Y.A., O.M. Arsan, and O.A. Godlevskaya|Respiratory Metabolism of the Higher Aquatic Macrophytes Under the Effect of Manganese Ions (II) of the Aquatic Environment|Hydrobiol. J.45(6): 97-109|2009|10.1615/HydrobJ.v45.i6.80
121077|T||Bouvier,L., F.R. Fillon, and Y. Lespinasse|Oryzalin as an Efficient Agent for Chromosome Doubling of Haploid Apple Shoots In Vitro|Plant Breed.113(4): 343-346|1994|10.1111/j.1439-0523.1994.tb00748.x
121078|T||Holdaway,N.J., R.G. White, and R.L. Overall|Is the Recovery of Microtubule Orientation in Pea Roots Dependent on the Cell Wall?|Cell Biol. Int.19(11): 913-919|1995|10.1006/cbir.1995.1029
121079|A||Liu,J., L.Q. Pan, L. Zhang, J. Miao, and J. Wang|Immune Responses, ROS Generation and the Haemocyte Damage of Scallop Chlamys farreri Exposed to Aroclor 1254|Fish Shellfish Immunol.26(3): 422-428|2009|10.1016/j.fsi.2009.01.002
121080|A||Wang,H.W., D.B. Cai, G.H. Xiao, C.L. Zhao, Z.H. Wang, H.M. Xu, and Y.Q. Guan|Effects of Selenium on the Activity of Antioxidant Enzymes in the Shrimp, Neocaridina heteropoda|Isr. J. Aquacult. Bamidgeh61(4): 322-329|2009|
121081|A||Oweson,C., and B. Hernroth|A Comparative Study on the Influence of Manganese on the Bactericidal Response of Marine Invertebrates|Fish Shellfish Immunol.27(3): 500-507|2009|10.1016/j.fsi.2009.07.001
121082|T||Gu,J., L. Qi, W. Jiang, and D. Liu|Cadmium Accumulation and Its Effects on Growth and Gas Exchange in Four Populus Cultivars|Acta Biol. Crac., Ser. Bot. 49(2): 7-14|2007|
121083|A||Cho,Y.S., S.Y. Lee, I.C. Bang, D.S. Kim, and Y.K. Nam|Genomic Organization and mRNA Expression of Manganese Superoxide Dismutase (Mn-SOD) from Hemibarbus mylodon (Teleostei, Cypriniformes)|Fish Shellfish Immunol.27(4): 571-576|2009|10.1016/j.fsi.2009.07.003
121084|T||Smith,E.M., and S.A. Treaster|Tolerance of Landscape Vines to Selected Pre-Emergence Herbicides|Res. Circ. - Ohio Agric. Res. Dev. Ctr.291:17-18|1987|
121085|T||Jusaitis,M.|Safety and Efficacy of Pre-Emergent Herbicides in Container-Grown Australian Plants|Plant Prot. Q.8(4): 127-130|1993|
121086|A||Jaramillo,F.,Jr., L. Peng, and D.M. Gatlin III|Selenium Nutrition of Hybrid Striped Bass (Morone chrysops x M. saxatilis) Bioavailability, Toxicity and Interaction with Vitamin E|Aquac. Nutr.15(2): 160-165|2009|10.1111/j.1365-2095.2008.00579.x
121087|A||Stolte,E.H., M. Chadzinska, D. Przybylska, G. Flik, H.F.J. Savelkoul, and B.M.L. Verburg-van Kemenade|The Immune Response Differentially Regulates Hsp70 and Glucocorticoid Receptor Expression In Vitro and In Vivo in Common Carp (Cyprinus carpio L.)|Fish Shellfish Immunol.27(1): 9-16|2009|10.1016/j.fsi.2008.11.003
121088|T||Lamont,G.P., and M.A. O'Connell|An Evaluation of Pre-Emergent Herbicides in Field-Grown Cut Flowers|Plant Prot. Q.1(3): 95-100|1986|
121089|T||Scott,J.M., and G.J. Blair|Competition from Vulpia myuros (L.) C.C. Gmelin in Pastures, and Its Control by Coating Seeds with Herbicides|Aust. J. Exp. Agric.27(3): 367-375|1987|10.1071/EA9870367
121090|A||Yamashita,Y., T. Katagiri, N. Pirarat, K. Futami, M. Endo, and M. Maita|The Synthetic Antioxidant, Ethoxyquin, Adversely Affects Immunity in Tilapia (Oreochromis niloticus)|Aquac. Nutr.15(2): 144-151|2009|10.1111/j.1365-2095.2008.00577.x
121091|A||Vijayavel,K., S. Gopalakrishnan, R. Thiagarajan, and H. Thilagam|Immunotoxic Effects of Nickel in the Mud Crab Scylla serrata|Fish Shellfish Immunol.26(1): 133-139|2009|10.1016/j.fsi.2008.02.015
121092|T||Raguraman,S., and S. Uthamasamy|Laboratory and Field Evaluations of Spinosad, an Actinomycete Derivative, on Cotton Bollworms and Their Natural Enemies|Biopestic. Int.1(3/4): 174-184|2005|
121093|A||Chakraborty,S., and S. Ray|Nuclear Morphology and Lysosomal Stability of Molluskan Hemocytes as Possible Biomarkers of Arsenic Toxicity|Clean (Weinh.)37(10): 769-775|2009|
121094|A||Green,D.W.J., and K.A. Williams|A Continuous Flow Toxicity Testing Apparatus for Macroinvertebrates|Lab. Pract.32(11): 74-76|1983|
121095|A||Vosjan,J.H., and R.J. Siezen|Relation Between Primary Production and Salinity of Algal Cultures|Neth. J. Sea Res.4(1): 11-20|1968|10.1016/0077-7579(68)90003-3
121096|T||Shim,S.R., and B.J. Johnson|Response of Creeping Bentgrass to Spring-Applied Herbicides|Hortscience27(3): 237-239|1992|10.21273/HORTSCI.27.3.237
121097|T||Gilreath,J.P.|Response of Statice to Selected Herbicides|Hortscience20(6): 1068-1069|1985|10.21273/HORTSCI.20.6.1068
121098|T||Samtani,J.B., G.J. Kling, H.M. Mathers, and L. Case|Rice Hulls, Leaf-Waste Pellets, and Pine Bark as Herbicide Carriers for Container-Grown Woody Ornamentals|HortTechnology17(3): 289-295|2007|10.21273/HORTTECH.17.3.289
121099|T||Harkess,R.L., and R.E. Lyons|A Comparison of Seeding Rate, Spacing, and Weed Control Methods in the Virginia Tech Transplanted Meadow|HortTechnology7(1): 39-41|1997|10.21273/HORTTECH.7.1.39
121100|T||Hoda,Q., and S.P. Sinha|Minimization of Cytogenetic Toxicity of Malathion by Vitamin C|J. Nutr. Sci. Vitaminol.37(4): 329-339|1991|10.3177/jnsv.37.329
121101|T||Neal,J.C., and A.F. Senesac|Preemergent Herbicide Safety in Container-Grown Ornamental Grasses|Hortscience26(2): 157-159|1991|10.21273/HORTSCI.26.2.157
121102|A||Srivastava,D.K., and R.K. Tyagi|Acute Toxicity of Copper and Its Probable Effect on Thyroid of the Fry of Ophiocephalus punctatus (Bloch)|Experientia37:1317-1318|1981|10.1007/BF01948383
121103|T||DeFrank,J., and C.R. Clement|Weed Control in Pejibaye Heart of Palm Plantations in Hawaii|Hortscience30(6): 1215-1216|1995|10.21273/HORTSCI.30.6.1215
121104|T||Cleary,A.L., and A.R. Hardham|Depolymerization of Microtubule Arrays in Root Tip Cells by Oryzalin and Their Recovery with Modified Nucleation Patterns|Can. J. Bot.66(12): 2353-2366|1988|10.1139/b88-320
121105|T||Derr,J.F.|Biological Assessment of Herbicide Use in Apple Production II.  Estimated Impacts Following Loss of Specific Herbicides|HortTechnology11(1): 20-25|2001|10.21273/HORTTECH.11.1.20
121106|A||Heggstrom,M.J.|The Sublethal Effects of 2,4-D Dimethylamine on Wood Frog Tadpoles in Saskatchewan|M.S.Thesis, University of Saskatchewan, Saskatoon, Canada:91 p.|2009|
121108|A||Ramesh,H., and M. David|Behavioural and Respiratory Responses of Freshwater Exotic Carp, Cyprinus carpio (Linn.) Exposed to Chlorpyriphos|Indian J. Environ. Toxicol.16(2): 55-59|2006|
121109|A||Ke,L.X., Y.L. Xi, C. Zha, and L.L. Dong|Effects of Three Organophosphorus Pesticides on Population Growth and Sexual Reproduction of Rotifer Brachionus calyciflorus Pallas|Shengtai Xuebao (Multiple Languages)29(3): 182-185|2009|
121110|A||Adedeji,O.B., A.O. Adedeji, O.K. Adeyemo, and S.A. Agbede|Acute Toxicity of Diazinon to the African Catfish (Clarias gariepinus)|Afr. J. Biotechnol.7(5): 651-654|2008|
121111|A||Adedeji,O.B., O.K. Adeyemo, and S.A. Agbede|Effects of Diazinon on Blood Parameters in the African Catfish (Clarias gariepinus)|Afr. J. Biotechnol.8(16): 3940-3946|2009|
121112|T||Kroger,R., M.T. Moore, C.M. Cooper, and M.M. Holland|Diazinon Accumulation and Dissipation in Oryza sativa L. Following Simulated Agricultural Runoff Amendment in Flooded Rice Paddies|Water Air Soil Pollut.201(1-4): 209-218|2009|10.1007/s11270-008-9938-y
121113|A||Uner,N., Y. Sevgiler, H. Durmaz, and P. Piner|In Vivo Alterations in Glutathione-Related Processes, Lipid Peroxidation, and Cholinesterase Enzyme Activities in the Liver of Diazinon-Exposed Oreochromis niloticus|Toxicol. Mech. Methods17(6): 317-324|2007|10.1080/15376510601031927
121114|A||Panda,S.K., and R.K. Upadhyay|Biochemical Changes and Oxidative Damage in Azolla pinnata L. Under Chromium Phytotoxicity Stress|Indian J. Plant Physiol.13(3): 243-250|2008|
121115|A||Scheil,V., A. Zurn, H.R. Kohler, and R. Triebskorn|Embryo Development, Stress Protein (Hsp70) Responses, and Histopathology in Zebrafish (Danio rerio) Following Exposure to Nickel Chloride, Chlorpyrifos, and Binary Mixtures of Them|Environ. Toxicol.25(1): 83-93|2009|10.1002/tox.20477
121116|A||Yin,X.H., G.N. Zhu, X.B. Li, and S.Y. Liu|Genotoxicity Evaluation of Chlorpyrifos to Amphibian Chinese Toad (Amphibian:  Anura) by Comet Assay and Micronucleus Test|Mutat. Res.680:2-6|2009|10.1016/j.mrgentox.2009.05.018
121117|A||Kumar,A., R. Correll, S. Grocke, and C. Bajet|Toxicity of Selected Pesticides to Freshwater Shrimp, Paratya australiensis (Decapoda:  Atyidae): Use of Time Series Acute Toxicity Data to Predict Chronic Lethality|Ecotoxicol. Environ. Saf.73(3): 360-369|2010|10.1016/j.ecoenv.2009.09.001
121118|A||Giron-Perez,M.I., R. Barcelos-Garcia, Z.G. Vidal-Chavez, C.A. Romero-Banuelos, and M.L. Robledo-Marenco|Effect of Chlorpyrifos on the Hematology and Phagocytic Activity of Nile Tilapia Cells (Oreochromis niloticus)|Toxicol. Mech. Methods16(9): 495-499|2006|10.1080/15376510600751988
121119|A||Halappa,R., and M. David|Behavioural Responses of the Freshwater Fish, Cyprinus carpio (Linnaeus) Following Sublethal Exposure to Chlorpyrifos|Turk. J. Fish. Aquat. Sci.9(2): 233-238|2009|10.4194/trjfas.2009.0218
121120|A||Palma,P., V.L. Palma, R.M. Fernandes, A. Bohn, A.M.V.M. Soares, and I.R. Barbosa|Embryo-Toxic Effects of Environmental Concentrations of Chlorpyrifos on the Crustacean Daphnia magna|Ecotoxicol. Environ. Saf.72(6): 1714-1718|2009|10.1016/j.ecoenv.2009.04.026
121121|A||Aluigi,M.G., C. Falugi, M.G. Mugno, D. Privitera, and M. Chiantore|Dose-Dependent Effects of Chlorpyriphos, an Organophosphate Pesticide, on Metamorphosis of the Sea Urchin, Paracentrotus lividus|Ecotoxicology19(3): 520-529|2010|10.1007/s10646-009-0433-z
121122|A||Bollmohr,S., R. Schulz, and T. Hahn|Interactive Effect of Salinity Decrease, Salinity Adaptation, and Chlorpyrifos Exposure on an Estuarine Harpacticoid Copepod, Mesochra parva, in South Africa|Ecotoxicol. Environ. Saf.72:756-764|2009|10.1016/j.ecoenv.2008.08.003
121123|A||Giron-Perez,M.I., G. Zaitseva, J. Casas-Solis, and A. Santerre|Effects of Diazinon and Diazoxon on the Lymphoproliferation Rate of Splenocytes from Nile Tilapia (Oreochromis niloticus):  The Immunosuppresive Effect Could Involve an Increase in Acetylcholine Levels|Fish Shellfish Immunol.25(5): 517-521|2008|10.1016/j.fsi.2008.07.002
121124|A||Langer-Jaesrich,M., H.R. Kohler, and A. Gerhardt|Can Mouth Part Deformities of Chironomus riparius Serve as Indicators for Water and Sediment Pollution?  A Laboratory Approach|J. Soils Sediments10(3): 414-422|2010|10.1007/s11368-010-0195-5
121125|T||Isgrigg III,J.|Ecological Adaptations of Annual Bluegrass to Plant Growth Regulators and Herbicides|Ph.D.Thesis, North Carolina State University, Raleigh, NC:162 p.|1999|
121126|A||Nillos,M.G.G.|Stereoselectivity in Modern-Use Chiral Pesticides:  Enantiomer-Specific Ecotoxicological Assessment of Chiral Organophosphorus, Fipronil and Pyrethroid Insecticides|Ph.D Thesis, University of California, Riverside, CA:198 p.|2009|
121127|T||Henson-Ramsey,H.|Assessment of Malathion Environmental Kinetics Using Earthworm and Salamander Models|Ph.D.Thesis, North Carolina State University, Raleigh, NC:171 p.|2007|
121128|T||Green,J.C., G.J. Keever, C.H. Gilliam, C.K. Palmer, J.W. Olive, and D.J. Eakes|Effects of Preemergence-Applied Herbicides on Pampas Grass Grown in Containers|J. Environ. Hortic.15(2): 77-80|1997|10.24266/0738-2898-15.2.77
121129|T||Johnson,B.J., and R.R. Duncan|Tolerance of Seashore Paspalum Cultivars to Preemergence Herbicides|J. Environ. Hortic.16(2): 76-78|1998|10.24266/0738-2898-16.2.76
121130|T||Johnson,B.J.|Response of Tifway Bermudagrass and Tall Fescue Turfgrasses to Preemergence Herbicides|J. Environ. Hortic.12(1): 19-23|1994|10.24266/0738-2898-12.1.19
121131|T||Norcini,J.G., and J.H. Aldrich|Spotted Spurge Control and Phytotoxicity to Daylily from Preemergence Herbicides|J. Environ. Hortic.10(1): 14-17|1992|10.24266/0738-2898-10.1.14
121132|T||Schuett,J., and J.E. Klett|Preemergent Weed Control in Container-Grown Herbaceous Perennials|J. Environ. Hortic.7(1): 14-16|1989|10.24266/0738-2898-7.1.14
121133|T||Neal,J.C., M.P. Pritts, and A.F. Senesac|Evaluation of Preemergent Herbicide Phytotoxicity to Tissue Culture-Propagated 'Heritage' Red Raspberry|J. Am. Soc. Hortic. Sci.115(3): 416-422|1990|10.21273/JASHS.115.3.416
121134|T||Stamps,R.H., and C.A. Neal|Evaluation of Dinitroaniline Herbicides for Weed Control in Container Landscape Plant Production|J. Environ. Hortic.8(2): 52-57|1990|10.24266/0738-2898-8.2.52
121135|A||Jin,Y., R. Chen, W. Liu, and Z. Fu|Effect of Endocrine Disrupting Chemicals on the Transcription of Genes Related to the Innate Immune System in the Early Developmental Stage of Zebrafish (Danio rerio)|Fish Shellfish Immunol.28(5-6): 854-861|2010|10.1016/j.fsi.2010.02.009
121136|AT||Wan-Norafikah,O., W.A. Nazni, H.L. Lee, P. Zainol-Ariffin, and M. Sofian-Azirun|Permethrin Resistance in Aedes aegypti (Linnaeus) Collected from Kuala Lumpur, Malaysia|J. Asia Pac. Entomol.13(3): 175-182|2010|10.1016/j.aspen.2010.03.003
121137|A||Li,T., Q. Lan, and N. Liu|Larvicidal Activity of Mosquito Sterol Carrier Protein-2 Inhibitors to the Insecticide-Resistant Mosquito Culex quinquefasciatus (Diptera:  Culicidae)|J. Med. Entomol.46(6): 1430-1435|2009|10.1603/033.046.0626
121138|AT||Canyon,D.V., and J.L.K. Hii|Insecticide Susceptibility Status of Aedes aegypti (Diptera: Culicidae) from Townsville|Aust. J. Entomol.38(1): 40-43|1999|10.1046/j.1440-6055.1999.00071.x
121139|T||El-Gharieb,M.A., T.A. El-Masry, A.M. Emara, and M.A. Hashem|Potential Hepatoprotective Effects of Vitamin E and Nigella sativa Oil on Hepatotoxicity Induced by Chronic Exposure to Malathion in Human and Male Albino Rats|Toxicol. Environ. Chem.92(2): 391-407|2010|10.1080/02772240902955719
121140|T||Baldos,O.C.|Assessment of Hydroplanting Techniques and Herbicide Tolerance of Two Native Hawaiian Groundcovers with Roadside Re-Vegetation Potential|M.S.Thesis, University of Hawaii at Manoa, HI:149 p.|2009|
121141|T||Seagull,R.W.|The Effects of Microtubule and Microfilament Disrupting Agents on Cytoskeletal Arrays and Wall Deposition in Developing Cotton Fibers|Protoplasma (Multiple Languages)159(1): 44-59|1990|10.1007/BF01326634
121142|T||Manyangarirwa,W.M.|Population Dynamics and Parasitism of Brassica Insect Pests in Zimbabwe, with Emphasis on the Diamondback Moth, Plutella xylostella (L.) (Lepidoptera: Plutellidae)|Ph.D. Thesis, Clemson University, Clemson, SC:104 p.|2009|
121143|T||Horowitz,M., E.M. Smith, and S.F. Gorski|Feasibility of Adding Surfactants to Slow-Release Herbicide Tablets for Container-Grown Landscape Plants|J. Environ. Hortic.8(1): 36-41|1990|10.24266/0738-2898-8.1.36
121144|T||Chalak,L., and J.M. Legave|Oryzalin Combined with Adventitious Regeneration for an Efficient Chromosome Doubling of Trihaploid Kiwifruit|Plant Cell Rep.16(1/2): 97-100|1996|10.1007/BF01275459
121145|T||Upadhyaya,M.K., and L.D. Nooden|Comparison of (14C)Oryzalin Uptake in Root Segments of a Sensitive and a Resistant Species|Ann. Bot.59(5): 483-485|1987|10.1093/oxfordjournals.aob.a087340
121146|T||Bartels,P.G., and J.L. Hilton|Comparison of Trifluralin, Oryzalin, Pronamide, Propham, and Colchicine Treatments on Microtubules|Pestic. Biochem. Physiol.3(4): 462-472|1973|10.1016/0048-3575(73)90072-2
121147|T||Lee,C.W., and M.E.C. Giglioli|Aerial Applications of Malathion, Pyrethrins and a Pyrethroid on Grand Cayman for Mosquito Control|PANS (Pest Artic. News Summ.)20(2): 208-214|1974|
121148|A||Patra,R.W., J.C. Chapman, R.P. Lim, P.C. Gehrke, and R.M. Sunderam|Effects of Temperature on Ventilatory Behavior of Fish Exposed to Sublethal Concentrations of Endosulfan and Chlorpyrifos|Environ. Toxicol. Chem.28(10): 2182-2190|2009|10.1897/08-532.1
121149|A||Sharma,V.I., R. Ahirwar, and R.P. Singh|Effect of Diazinon on Basic Proteins in Stomach and Intestine of Channa punctatus|Flora Fauna14(1): 93-95|2008|
121150|T||Derr,J.F., and S. Salihu|Preemergence Herbicide Effects on Nursery Crop Root and Shoot Growth|J. Environ. Hortic.14(4): 210-213|1996|10.24266/0738-2898-14.4.210
121151|T||Porter,W.C.|Isoxaben and Isoxaben Combinations for Weed Control in Container-Grown Herbaceous Flowering Perennials|J. Environ. Hortic.14(1): 27-30|1996|10.24266/0738-2898-14.1.27
121152|T||Thetford,M., and C.H. Gilliam|Herbicide Use in Propagation: Effects on Rooting and Root Growth of Stem Cuttings|J. Environ. Hortic.9(1): 21-23|1991|10.24266/0738-2898-9.1.21
121153|T||Apostolakos,P., P. Livanos, and B. Galatis|Microtubule Involvement in the Deposition of Radial Fibrillar Callose Arrays in Stomata of the Fern Asplenium nidus L.|Cell Motil. Cytoskelet.66(6): 342-349|2009|10.1002/cm.20366
121154|T||Golab,T., C.E. Bishop, A.L. Donoho, J.A. Manthey, and L.L. Zornes|Behavior of 14C Oryzalin in Soil and Plants|Pestic. Biochem. Physiol.5(2): 196-204|1975|10.1016/0048-3575(75)90075-9
121155|T||Kuriyama,A., F. Kawai, and M. Kanamori|Influence of the Herbicide Oryzalin on the Sporophytic Morphogenesis of Equisetum arvense|J. Plant Physiol.143(3): 353-358|1994|10.1016/S0176-1617(11)81644-5
121156|T||Baskin,T.I., J.E. Wilson, A. Cork, and R.E. Williamson|Morphology and Microtubule Organization in Arabidopsis Roots Exposed to Oryzalin or Taxol|Plant Cell Physiol.35(6): 935-942|1994|
121157|T||Higgins,J.M., T. Whitwell, and J.E. Toler|Herbicide Efficacy for Various Application Times in Doublecrop Wheat and Soybean|Agron. J.80(3): 475-478|1988|10.2134/agronj1988.00021962008000030017x
121158|T||Koziol,F.S., and J.F. Witkowski|Synergism Studies with Binary Mixtures of Permethrin plus Methyl Parathion, Chlorpyrifos, and Malathion on European Corn Borer Larvae|J. Econ. Entomol.75(1): 28-30|1982|10.1093/jee/75.1.28
121161|T||Whitwell,T., and K. Kalmowitz|Control of Prostrate Spurge (Euphorbia humistrata) and Large Crabgrass (Digitaria sanquinalis) in Container Grown Ilex crenata 'Compacta' with Herbicide Combinations|J. Environ. Hortic.7(1): 35-37|1989|10.24266/0738-2898-7.1.35
121162|T||Hoffman,J.C., and K.C. Vaughn|Mitotic Disrupter Herbicides Act by a Single Mechanism but Vary in Efficacy|Protoplasma (Multiple Languages)179(1/2): 16-25|1994|10.1007/BF01360733
121163|T||Thetford,M., C.H. Gilliam, and J.D. Williams|Granular Preemergence Applied Herbicides Influence Annual Bedding Plant Growth|J. Environ. Hortic.13(2): 97-103|1995|10.24266/0738-2898-13.2.97
121164|T||Ruiz,T.E., G. Febles, M. Sistachs, G. Bernal, and J.J. Leon|Weed Control Practices During the Establishment of Leucaena leucocephala in Cuba|Cuban J. Agric. Sci.24(2): 239-246|1990|
121165|T||Henson-Ramsey,H., J. Levine, S. Kennedy-Stoskopf, S.K. Taylor, D. Shea, and M.K. Stoskopf|Development of a Dynamic Pharmacokinetic Model to Estimate Bioconcentration of Xenobiotics in Earthworms|Environ. Model. Assess.14(3): 411-418|2007|10.1007/s10666-007-9132-4
121166|T||Dowling,P.M.|Effect of Pre-Season Management and In-Crop Herbicides on Weed Seedling Numbers and Triticale Grain Yield|Aust. J. Agric. Res.39(5): 783-792|1988|10.1071/AR9880783
121167|T||Horsley,S.B.|Control of Grass and Sedge in Allegheny Hardwood Stands with Roundup-Residual Herbicide Tank Mixes|North. J. Appl. For.7(3): 124-129|1990|10.1093/njaf/7.3.124
121168|T||Bhandary,R., T. Whitwell, J. Briggs, and R.T. Fernandez|Influence of Surflan (Oryzalin) Concentrations in Irrigation Water on Growth and Physiological Processes of Gardenia jasminoides radicans and Pennisetum rupelli|J. Environ. Hortic.15(4): 169-172|1997|10.24266/0738-2898-15.4.169
121169|T||Ndon,B.A.|Inhibition of Dinitroaniline Herbicide Action by Plant Lipids, and the Role of Dinitroaniline Herbicides in the Production of Crops Under Double Cropping Systems|Ph.D Thesis, University of Wisconsin, Madison, WI:153 p.|1980|
121170|T||Miller,S.K., K.E. Pallett, and D.J. Cole|Histological Investigations into the Mode of Action of the Novel Grass Herbicide Oxaziclomefone|Br. Crop Prot. Conf. Weeds2:569-574|2001|
121171|T||Yu,S.J., and E.,Jr. McCord|Lack of Cross-Resistance to Indoxacarb in Insecticide-Resistant Spodoptera frugiperda (Lepidoptera: Noctuidae) and Plutella xylostella (Lepidoptera: Yponomeutidae)|Pest Manag. Sci.63(1): 63-67|2007|10.1002/ps.1309
121172|T||Bhatti,M.A., J. Duan, G. Head, C. Jiang, M.J. McKee, T.E. Nickson, C.L. Pilcher, and C.D. Pilcher|Field Evaluation of the Impact of Corn Rootworm (Coleoptera: Chrysomelidae)-Protected Bt Corn on Ground-Dwelling Invertebrates|Environ. Entomol.34(5): 1325-1335|2005|10.1093/ee/34.5.1325
121173|T||Bautista,M.A.M., T. Tanaka, and T. Miyata|Identification of Permethrin-Inducible Cytochrome P450s from the Diamondback Moth, Plutella xylostella (L.) and the Possibility of Involvement in Permethrin Resistance|Pestic. Biochem. Physiol.87(1): 85-93|2007|10.1016/j.pestbp.2006.06.004
121174|T||Bartels,D.W., and W.D. Hutchison|On-Farm Efficacy of Aerially Applied Bacillus thuringiensis for European Corn Borer (Lepidoptera:  Pyralidae) and Corn Earworm (Lepidoptera:  Noctuidae) Control in Sweet Corn|J. Econ. Entomol.88(2): 380-386|1995|10.1093/jee/88.2.380
121175|T||Adams,A.J., F.R. Hall, and C.W. Hoy|Evaluating Resistance to Permethrin in Plutella xylostella (Lepidoptera:  Plutellidae) Populations Using Uniformly Sized Droplets|J. Econ. Entomol.83(4): 1211-1215|1990|10.1093/jee/83.4.1211
121176|T||Vencill,A.M., and G.W. Zehnder|Sample Size and Temporal Variation Effects on Mortality of Colorado Potato Beetle (Coleoptera:  Chrysomelidae) in a Filter-Paper Bioassay|J. Econ. Entomol.86(2): 283-288|1993|10.1093/jee/86.2.283
121177|T||Toth,S.J.,Jr., and T.C. Sparks|Influence of Treatment Technique on the Temperature-Toxicity Relationships of cis- and trans-Permethrin in the Cabbage Looper (Lepidoptera:  Noctuidae)|J. Econ. Entomol.81(1): 115-118|1988|10.1093/jee/81.1.115
121178|T||Thomas,J.D., J.A. Ottea, D.J. Boethel, and S. Ibrahim|Factors Influencing Pyrethroid Resistance in a Permethrin-Selected Strain of the Soybean Looper, Pseudoplusia includens (Walker)|Pestic. Biochem. Physiol.55(1): 1-9|1996|10.1006/pest.1996.0029
121179|T||Thomas,J.D., and D.J. Boethel|Inheritance of Permethrin Resistance in the Soybean Looper (Lepidoptera:  Noctuidae)|J. Econ. Entomol.88(6): 1536-1541|1995|10.1093/jee/88.6.1536
121180|T||Thomas,J.D., and D.J. Boethel|Diet Influences on Permethrin Susceptibility and Growth of Soybean Looper Larvae (Lepidoptera:  Noctuidae)|J. Econ. Entomol.86(4): 1236-1240|1993|10.1093/jee/86.4.1236
121182|T||Stewart,J.G.G., and M.K. Sears|Economic Threshold for Three Species of Lepidopterous Larvae Attacking Cauliflower Grown in Southern Ontario|J. Econ. Entomol.81(6): 1726-1731|1988|10.1093/jee/81.6.1726
121183|T||Jaques,R.P.|Field Tests on Control of the Imported Cabbageworm (Lepidoptera: Pieridae) and the Cabbage Looper (Lepidoptera: Noctuidae) by Mixtures of Microbial and Chemical Insecticides|Can. Entomol.120(6): 575-580|1988|10.4039/Ent120575-6
121184|T||Staetz,C.A.|Susceptibility of Heliothis virescens (F.) (Lepidoptera: Noctuidae) to Permethrin from Across the Cotton Belt:  A Five-Year Study|J. Econ. Entomol.78(3): 505-510|1985|10.1093/jee/78.3.505
121186|T||Shelton,A.M., J.A. Wyman, N.L. Cushing, K. Apfelbeck, T.J. Dennehy, S.E.R. Mahr, and S.D. Eigenbrode|Insecticide Resistance of Diamondback Moth (Lepidoptera:  Plutellidae) in North America|J. Econ. Entomol.86(1): 11-19|1993|10.1093/jee/86.1.11
121187|T||Rose,R.L., B.R. Leonard, T.C. Sparks, and J.B. Graves|Enhanced Metabolism and Knockdown Resistance in a Field Versus a Laboratory Strain of the Soybean Looper (Lepidoptera: Noctuidae)|J. Econ. Entomol.83(3): 672-677|1990|10.1093/jee/83.3.672
121188|T||Poullot,D., D. Beslay, J.C. Bouvier, and B. Sauphanor|Is Attract-and-Kill Technology Potent Against Insecticide-Resistant Lepidoptera?|Pest Manag. Sci.57(8): 729-736|2001|10.1002/ps.350
121189|T||Portillo,H.E., C.M. Felland, H.N. Pitre, and R.P. Porter|Pyrethroid Resistance Levels in Soybean Looper (Lepidoptera:  Noctuidae) in Mississippi|Fla. Entomol.76(4): 577-584|1993|10.2307/3495788
121190|T||Peckman,P.S., and G.E. Wilde|Sublethal Effects of Permethrin on Fecundity and Longevity of Hippodamia convergens (Coleoptera:  Coccinellidae)|J. Kans. Entomol. Soc.66(3): 361-364|1993|
121191|T||Pajares,J.A., and G.N. Lanier|Pyrethroid Insecticides for Control of European Elm Bark Beetle (Coleoptera:  Scolytidae)|J. Econ. Entomol.82(3): 873-878|1989|10.1093/jee/82.3.873
121192|T||Mink,J.S., and D.J. Boethel|Development of a Diagnostic Technique for Monitoring Permethrin Resistance in Soybean Looper (Lepidoptera:  Noctuidae) Larvae|J. Econ. Entomol.85(4): 1056-1062|1992|10.1093/jee/85.4.1056
121193|T||Martinez-Carrillo,J.L., L.P.,Jr. Schouest, and T.A. Miller|Responses of Populations of the Tobacco Budworm (Lepidoptera:  Noctuidae) from Northwest Mexico to Pyrethroids|J. Econ. Entomol.84(2): 363-366|1991|10.1093/jee/84.2.363
121194|T||Martel,J.W., A.R. Alford, and J.C. Dickens|Evaluation of a Novel Host Plant Volatile-Based Attracticide for Management of Colorado Potato Beetle, Leptinotarsa decemlineata (Say)|Crop Prot.26(6): 822-827|2007|10.1016/j.cropro.2006.08.002
121195|T||Mannion,C.M., W. McLane, M.G. Klein, J. Moyseenko, J.B. Oliver, and D. Cowan|Management of Early-Instar Japanese Beetle (Coleoptera: Scarabaeidae) in Field-Grown Nursery Crops|J. Econ. Entomol.94(5): 1151-1161|2001|10.1603/0022-0493-94.5.1151
121196|T||Maltais,P.M., J.R. Nuckle, and P.V. LeBlanc|Economic Threshold for Management of Lepidopterous Larvae on Broccoli in Southeastern New Brunswick|J. Econ. Entomol.87(3): 766-774|1994|10.1093/jee/87.3.766
121197|T||Lin,H., C.W. Hoy, and G. Head|Olfactory Response of Larval Diamondback Moth (Lepidoptera: Plutellidae) to Permethrin Formulations|Environ. Entomol.22(5): 1096-1102|1993|10.1093/ee/22.5.1096
121198|T||Levine,E., and H. Oloumi-Sadeghi|Western Corn Rootworm (Coleoptera:  Chrysomelidae) Larval Injury to Corn Grown for Seed Production Following Soybeans Grown for Seed Production|J. Econ. Entomol.89(4): 1010-1016|1996|10.1093/jee/89.4.1010
121199|T||Koziol,F.S., and J.F. Witkowski|Dosage-Mortality Response of the First Three Instars of European Corn Borer (Lepidoptera:  Pyralidae) Larvae to Seven Insecticides|J. Kans. Entomol. Soc.54(2): 327-330|1981|
121200|T||Jaques,R.P., D.R. Laing, and H.E.L. Maw|Efficacy of Mixtures of Microbial Insecticides and Permethrin Against the Cabbage Looper (Lepidoptera:  Noctuidae) and the Imported Cabbageworm (Lepidoptera:  Pieridae)|Can. Entomol.121(9): 809-820|1989|10.4039/Ent121809-9
121201|T||Huddleston,E.W., R. Sanderson, J.B. Ross, and J.A. Henderson|Comparison of a Wind-Assisted Dispersal Technique and Aerial Application for Range Caterpillar (Lepidoptera: Saturniidae) Management|J. Econ. Entomol.80(1): 226-229|1987|10.1093/jee/80.1.226
121202|T||Hoy,C.W., A.J. Adam, F.R. Hall, and S.Y. Nettleton|Relationship Between Behavioral and Physiological Responses of Plutella xylostella (Lepidoptera:  Plutellidae) Larvae to Permethrin Deposits Within Two Ohio Populations|J. Econ. Entomol.84(4): 1135-1139|1991|10.1093/jee/84.4.1135
121203|T||Highland,H.A., L.D. Cline, and R.A. Simonaitis|Insect Resistance of Chlorpyrifos-Methyl and Permethrin-Treated Film Overwraps on Cases of Packaged Food|J. Econ. Entomol.79(3): 775-778|1986|10.1093/jee/79.3.775
121204|T||Fix,L.A., and F.W.,Jr. Plapp|Effect of Parasitism on the Susceptibility of the Tobacco Budworm (Lepidoptera:  Noctuidae) to Methyl Parathion and Permethrin|Environ. Entomol.12(3): 976-978|1983|10.1093/ee/12.3.976
121205|T||Dornan,A.P., J.G. Stewart, and M.K. Sears|An Action Threshold for Control of Lepidopterous Pests of Cabbage in Prince Edward Island|Can. Entomol.126(2): 379-387|1994|10.4039/Ent126379-2
121206|T||Curkovic,T., and J.F. Brunner|Evaluation of Permethrin for Attracticide Development Against Choristoneura rosaceana and Pandemis pyrusana (Lepidoptera:  Tortricidae) Males|Crop Prot.25(9): 973-976|2006|10.1016/j.cropro.2006.01.004
121207|T||Curkovic,T., and J.F. Brunner|Residual and Sub-Lethal Effects of an Attracticide Formulation on Choristoneura rosaceana (Harris), Pandemis pyrusana Kearfott, and Cydia pomonella (L.) Males (Lepidoptera:  Tortricidae)|Crop Prot.24(7): 637-641|2005|10.1016/j.cropro.2004.11.007
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121209|A||Olurin,K.B., E.A.A. Olojo, G.O. Mbaka, and A.T. Akindele|Histopathological Responses of the Gill and Liver Tissues of Clarias gariepinus Fingerlings to the Herbicide, Glyphosate|Afr. J. Biotechnol.5(24): 2480-2487|2006|
121210|T||Bartels,D.W., C.R. Fossey, W.D. Hutchison, J.H. Rinkleff, and P.C. Bolin|European Corn Borer Control in Minnesota Snap Beans, 1993|Arthropod Manag. Tests19:55|1994|10.1093/amt/19.1.55
121211|T||Bartels,D.W., P.C. Bolin, and W.D. Hutchison|Insecticidal and Microbial Control of Lepidopteran Larvae in Minnesota Cabbage, 1993|Arthropod Manag. Tests19:64-65|1994|10.1093/amt/19.1.64a
121212|T||Bartels,D.W., and W.D. Hutchison|Insecticidal Control of European Corn Borer and Corn Earworm in Minnesota Sweet Corn, 1995|Arthropod Manag. Tests21:107-108|1996|10.1093/amt/21.1.107a
121213|T||Bartels,D.W., and W.D. Hutchison|Control of Fall Armyworm in Pre-Tassel Sweet Corn in Minnesota, 1995|Arthropod Manag. Tests21:108-109|1996|10.1093/amt/21.1.108
121214|T||Bartels,D.W., R.L. Hines, and W.D. Hutchison|Control of Lepidopteran Pests in Cabbage, 1996|Arthropod Manag. Tests22:87|1997|10.1093/amt/22.1.87
121215|T||Bartels,D.W., and W.D. Hutchison|Insecticidal Control of European Corn Borer and Corn Earworm in Sweet Corn, 1996|Arthropod Manag. Tests22:119-120|1997|10.1093/amt/22.1.119a
121216|A||Norberg-King,T.J.|Malathion Acute and Chronic C. dubia Tests|Feb.22nd Memo to R.L.Spehar, U.S.EPA, Duluth, MN:7 p.|1991|
121217|T||Casas,E., E. Bonilla, Y. Ducolomb, and M. Betancourt|Differential Effects of Herbicides Atrazine and Fenoxaprop-Ethyl, and Insecticides Diazinon and Malathion, on Viability and Maturation of Porcine Oocytes In Vitro|Toxicol. In Vitro24(1): 224-230|2010|10.1016/j.tiv.2009.09.004
121218|T||Ducolomb,Y., E. Casas, A. Valdez, G. Gonzalez, M. Altamirano-Lozano, and M. Betancourt|In Vitro Effect of Malathion and Diazinon on Oocytes Fertilization and Embryo Development in Porcine|Cell Biol. Toxicol.25(6): 623-633|2009|10.1007/s10565-008-9117-3
121219|T||Boetel,M.A., and B.W. Fuller|Chemigation Treatment of Dough-Stage Popcorn to Manage Second Generation European Corn Borer Larvae in South Dakota, 1995|Arthropod Manag. Tests21:236-|1996|10.1093/amt/21.1.236
121221|T||Highland,H.A., and L.D. Cline|Resistance to Insect Penetration of Food Pouches Made of Untreated Polyester or Permethrin-Treated Polypropylene Film|J. Econ. Entomol.79(2): 527-529|1986|10.1093/jee/79.2.527
121222|T||Hill,B.D., J.R. Byers, and G.B. Schaalje|Crop Protection from Permethrin Applied Aerially to Control Pale Western Cutworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.85(4): 1387-1392|1992|10.1093/jee/85.4.1387
121223|T||Hines,R.L., and W.D. Hutchison|Evaluation of Action Thresholds and Spinosad for Lepidopteran Pest Management in Minnesota Cabbage|J. Econ. Entomol.94(1): 190-196|2001|10.1603/0022-0493-94.1.190
121224|T||Head,G., C.W. Hoy, and F.R. Hall|Quantitative Genetics of Behavioral and Physiological Response to Permethrin in Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.88(3): 447-453|1995|10.1093/jee/88.3.447
121225|T||Follett,P.A., F. Gould, and G.G. Kennedy|Comparative Fitness of Three Strains of Colorado Potato Beetle (Coleoptera:  Chrysomelidae) in the Field:  Spatial and Temporal Variation in Insecticide Selection|J. Econ. Entomol.86(5): 1324-1333|1993|10.1093/jee/86.5.1324
121226|T||Giles,K.L., and J.J. Obrycki|Reduced Insecticide Rates and Strip-Harvesting Effects on Alfalfa Weevil (Coleoptera:  Curculionidae) Larval Populations and Prevalence of Zoophthora phytonomi (Entomophthorales:  Entomophthoraceae)|J. Econ. Entomol.90(4): 933-944|1997|10.1093/jee/90.4.933
121227|T||Giles,K., and J. Obrycki|Reduced Insecticide Rates and Strip-Harvesting:  Effect on Arthropod Predator Abundance in First-Growth Alfalfa|J. Kans. Entomol. Soc.70(3): 160-168|1997|
121228|T||Gist,G.L., and C.D. Pless|Feeding Deterrent Effects of Synthetic Pyrethroids on the Fall Armyworm, Spodoptera frugiperda|Fla. Entomol.68(3): 456-461|1985|10.2307/3495133
121229|T||Hardman,J.M., and S.O. Gaul|Mixtures of Bacillus thuringiensis and Pyrethroids Control Winter Moth (Lepidoptera: Geometridae) in Orchards Without Causing Outbreaks of Mites|J. Econ. Entomol.83(3): 920-936|1990|10.1093/jee/83.3.920
121230|T||Haynes,K.F., W.G. Li, and T.C. Baker|Control of Pink Bollworm Moth (Lepidoptera: Gelechiidae) with Insecticides and Pheromones (Attracticide): Lethal and Sublethal Effects|J. Econ. Entomol.79(6): 1466-1471|1986|10.1093/jee/79.6.1466
121231|T||Dobrin,G.C., and R.B. Hammond|The Antifeeding Activity of Selected Pyrethroids Towards the Mexican Bean Beetle (Coleoptera: Coccinellidae)|J. Kans. Entomol. Soc.58(3): 422-427|1985|
121232|T||DeGomez,T.E., C.J. Hayes, J.A. Anhold, J.D. McMillin, K.M. Clancy, and P.P. Bosu|Evaluation of Insecticides for Protecting Southwestern Ponderosa Pines from Attack by Engraver Beetles (Coleoptera:  Curculionidae:  Scolytinae)|J. Econ. Entomol.99(2): 393-400|2006|10.1093/jee/99.2.393
121233|T||De Groot,P., and B.V. Helson|Efficacy and Timing of Insecticide Sprays for Control of White Pine Weevil (Coleoptera: Curculionidae) in High-Value Pine Plantations|J. Econ. Entomol.86(3): 1171-1177|1993|10.1093/jee/86.4.1171
121234|T||Christian,M.L., J.C. Owens, B.E. Lewis, and F.M. Davis|Interaction Studies of Methyl Parathion, Carbofuran, Permethrin, and Piperonyl Butoxide Applied to Southwestern Corn Borer Larvae (Lepidoptera:  Pyralidae)|J. Econ. Entomol.79(3): 549-552|1986|10.1093/jee/79.3.549
121235|T||Catangui,M.A.|Transgenic Bacillus thuringiensis Corn Hybrid Performance Against Univoltine Ecotype European Corn Borer (Lepidoptera:  Crambidae) in South Dakota|J. Econ. Entomol.96(3): 957-968|2003|10.1603/0022-0493-96.3.957
121236|T||Catangui,M.A., and R.K. Berg|Comparison of Bacillus thuringiensis Corn Hybrids and Insecticide-Treated Isolines Exposed to Bivoltine European Corn Borer (Lepidoptera:  Crambidae) in South Dakota|J. Econ. Entomol.95(1): 155-166|2002|10.1603/0022-0493-95.1.155
121237|T||Braun,A.R., J.M. Guerrero, A.C. Bellotti, and L.T. Wilson|Relative Toxicity of Permethrin to Mononychellus progresivus Doreste and Tetranychus urticae Koch (Acari: Tetranychidae) and Their Predators Amblyseius limonicus Garman & McGregor (Acari: Phytoseiidae) and Oligota minut|Environ. Entomol.16(2): 545-550|1987|10.1093/ee/16.2.545
121238|T||Bolin,P.C., W.D. Hutchison, and D.W. Davis|Resistant Hybrids and Bacillus thuringiensis for Management of European Corn Borer (Lepidoptera:  Pyralidae) in Sweet Corn|J. Econ. Entomol.89(1): 82-91|1996|10.1093/jee/89.1.82
121239|T||Bodnaryk,R.P.|Abdominal Bloat - an Unusual Symptom of Synthetic Pyrethroid Poisoning in Adults of Mamestra configurata (Lepidoptera:  Noctuidae)|Can. Entomol.114(12): 1191-1194|1982|10.4039/Ent1141191-12
121240|T||Bentley,W.J., F.G. Zalom, W.W. Barnett, and J.P. Sanderson|Population Densities of Tetranychus spp. (Acari: Tetranychidae) After Treatment with Insecticides for Amyelois transitella (Lepidoptera: Pyralidae)|J. Econ. Entomol.80(1): 193-199|1987|10.1093/jee/80.1.193
121241|T||Riley,O.G., D.J. Schuster, and C.S. Barfield|Refined Action Threshold for Pepper Weevil Adults (Coleoptera:  Curculionidae) in Bell Peppers|J. Econ. Entomol.85(5): 1919-1925|1992|10.1093/jee/85.5.1919
121242|T||Ayyappath,R., J.F. Witkowski, and L.G. Higley|Population Changes of Spider Mites (Acari:  Tetranychidae) Following Insecticide Applications in Corn|Environ. Entomol.25(5): 933-937|1996|10.1093/ee/25.5.933
121243|T||Wolfenbarger,D.A., J.A. Harding, and S.H. Robinson|Tobacco Budworm (Lepidoptera:  Noctuidae):  Variations in Response to Methyl Parathion and Permethrin in the Subtropics|J. Econ. Entomol.77(3): 701-705|1984|10.1093/jee/77.3.701
121244|T||Wofford,J.T., R.G. Luttrell, and D.B. Smith|Relative Effect of Dosage, Droplet Size, Deposit Density, and Droplet Concentration on Mortality of Heliothis virescens (Lepidoptera:  Noctuidae) Larvae Treated with Vegetable-Oil and Water Sprays Containing Permethrin|J. Econ. Entomol.80(2): 460-464|1987|10.1093/jee/80.2.460
121245|T||Vencill,A.M., and G.W. Zehnder|Within-Field Variation in Susceptibility of Colorado Potato Beetle (Coleoptera:  Chrysomelidae) to Insecticides:  Implications for Sampling Methods in an Insecticide Resistance Bioassay|J. Econ. Entomol.86(2): 289-293|1993|10.1093/jee/86.2.289
121246|T||Park,Y., D. Lee, M.F.J. Taylor, J.W. Holloway, J.A. Ottea, M.E. Adams, and R. Feyereisen|A Mutation Leu1029 to His in Heliothis virescens F. hscp Sodium Channel Gene Associated with a Nerve-Insensitivity Mechanism of Resistance to Pyrethroid Insecticides|Pestic. Biochem. Physiol.66(1): 1-8|2000|10.1006/pest.1999.2445
121247|T||Osman,A.A., T.F. Watson, and S. Sivasupramaniam|Inheritance of Permethrin Resistance in the Pink Bollworm (Lepidoptera:  Gelechiidae)|J. Econ. Entomol.85(2): 335-339|1992|10.1093/jee/85.2.335
121248|T||Osman,A.A., T.F. Watson, and S. Sivasupramaniam|Reversion of Permethrin Resistance in Field Strains and Selection for Azinphosmethyl and Permethrin Resistance in Pink Bollworm (Lepidoptera:  Gelechiidae)|J. Econ. Entomol.84(2): 353-357|1991|10.1093/jee/84.2.353
121249|T||Nansen,C., and T.W. Phillips|Attractancy and Toxicity of an Attracticide for Indianmeal Moth, Plodia interpunctella (Lepidoptera:  Pyralidae)|J. Econ. Entomol.97(2): 703-710|2004|10.1603/0022-0493-97.2.703
121250|T||Muehleisen,D.P., J.H. Benedict, F.W.,Jr. Plapp, and F.A. Carino|Effects of Cotton Allelochemicals on Toxicity of Insecticides and Induction of Detoxifying Enzymes in Bollworm (Lepidoptera:  Noctuidae)|J. Econ. Entomol.82(6): 1554-1558|1989|10.1093/jee/82.6.1554
121251|T||Young,J.R.|Fall Armyworm (Lepidoptera:  Noctuidae) Control Through Chemigation:  An Update|Fla. Entomol.69(3): 593-598|1985|10.2307/3495395
121252|T||Yu,S.J., S.N. Nguyen, and G.E. Abo-Elghar|Biochemical Characteristics of Insecticide Resistance in the Fall Armyworm, Spodoptera frugiperda (J.E. Smith)|Pestic. Biochem. Physiol.77(1): 1-11|2003|10.1016/S0048-3575(03)00079-8
121253|A||Nillos,M.G., K. Lin, J. Gan, S. Bondarenko, and D. Schlenk|Enantioselectivity in Fipronil Aquatic Toxicity and Degradation|Environ. Toxicol. Chem.28(9): 1825-1833|2009|10.1897/08-658.1
121254|T||Frye,D.M., R.W. Michieka, R.D. Ilnicki, and J. Somody|Weed Control in Soybeans with Preplant Incorporated Trifluralin, Oryzalin, Ethalfluralin, and Pendimethalin in Combination with Metribuzin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:19-23|1978|
121255|A||Staicu,A.C., M.C. Munteanu, and A. Dinischiotu|Malathion Induced Histological Modifications in Gills and Kidney of Carassius auratus gibelio|Lucr. Stiint. Unvi. Stiint. Agrci. Banat. Timis., Ser. Zooteh.41(1): 448-453|2008|
121256|A||Mischke,C.C., and D.J. Wise|Toxicity of Selected Mosquito Sprays and a Synergist to Channel Catfish Sac Fry|J. World Aquac. Soc.41(1): 168-170|2010|10.1111/j.1749-7345.2009.00326.x
121257|T||Buckelew,J.K.|Orchard Floor Management in Young Peach [Prunus persica (L.) Batsch.]:  Effects of Irrigation, Vegetation-Free Width, and Certain PRE Herbicides|Ph.D.Thesis, North Carolina State University, Raleigh, NC:117 p.|2009|
121258|T||Spomer,S.M., L.G. Higley, F.J. Haile, and J.E. Foster|Alfalfa Insect Control, 1995|Arthropod Manag. Tests21:198-200|1996|10.1093/amt/21.1.198a
121259|T||Stansly,P.A., and J.M. Conner|Control of Immature Sweetpotato Whitefly (SPWF) and Tomato Pinworm (TPW) in Staked Tomato, Spring, 1993|Arthropod Manag. Tests19:159-160|1994|10.1093/amt/19.1.159
121260|T||Stoltz,R.L., and N.A. Matteson|Alfalfa Weevil and Pea Aphid Control on Alfalfa, 1996|Arthropod Manag. Tests22:202-|1997|10.1093/amt/22.1.202
121261|T||Story,R., A.O. Ameen, M.J. Murray, F. Can, and D. Ring|Control of Corn Earworm on Sweet Corn, 1995|Arthropod Manag. Tests22:127-|1997|10.1093/amt/22.1.127
121262|T||Way,M.O., and R.G. Wallace|Evaluation of Dipel ES for Management of Arthropods in Soybean, 1992|Arthropod Manag. Tests20:243-244|1995|10.1093/amt/20.1.243
121263|T||Way,M.O., and R.G. Wallace|Evaluation of Karate for Management of Arthropods in Soybean, 1992|Arthropod Manag. Tests20:246-248|1995|10.1093/amt/20.1.246
121264|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of European Corn Borer and Corn Earworm on Sweet Corn in Wisconsin, 1994|Arthropod Manag. Tests20:90-91|1995|10.1093/amt/20.1.90
121265|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of European Corn Borer on Sweet Corn in Wisconsin, 1995|Arthropod Manag. Tests21:115-116|1996|10.1093/amt/21.1.115
121266|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of European Corn Borer and Corn Earworm on Sweet Corn, 1996|Arthropod Manag. Tests22:129-|1997|10.1093/amt/22.1.129
121267|T||Wedberg,J., and B. Jensen|Use of Labeled and Experimental Insecticides for Control of European Corn Borer and Corn Earworm on Sweet Corn, 1998a|Arthropod Manag. Tests24:133-134|1999|
121268|T||Willson,H.R., and J.B. Eisley|Alfalfa Weevil Control in Ohio, 1995|Arthropod Manag. Tests21(1): 200-201|1996|10.1093/amt/21.1.200a
121269|T||Witkowski,J.F.|Control of European Corn Borer in Whorl Stage Corn, 1993|Arthropod Manag. Tests19:214-215|1994|10.1093/amt/19.1.214
121270|T||Hoy,C.W., and M.J. Dunlap|Control of Lepidoptera on Cabbage, 1996|Arthropod Manag. Tests22:94-|1997|10.1093/amt/22.1.94
121271|T||Hoy,C.W., and M.J. Dunlap|Ear Infesting Insect Control in Sweet Corn, 1994|Arthropod Manag. Tests20:86-|1995|10.1093/amt/20.1.86
121272|T||Hoy,C.W., and M.J. Dunlap|Ear Infesting Insect Control in Sweet Corn, 1993|Arthropod Manag. Tests19:90-|1993|10.1093/amt/19.1.90
121273|T||Fuller,B.W., M.A. Boetel, M.J. McLeod, and J.M. Jenson|Foliar-Applied Rescue Treatments for Army and Pale Western Cutworm Control in Winter Wheat, 1993|Arthropod Manag. Tests19:295-296|1994|10.1093/amt/19.1.295a
121274|T||Foster,R.E., and W.G. Buhler|Control of Insects on Bell Pepper, 1996|Arthropod Manag. Tests22:148-|1997|10.1093/amt/22.1.148a
121275|T||Foster,R.E., and W.G. Buhler|Control of Insects on Bell Pepper, 1995|Arthropod Manag. Tests21:132-|1996|10.1093/amt/21.1.132
121276|T||Foster,R.E., and W.G. Buhler|Control of Insects on Sweet Corn, 1996|Arthropod Manag. Tests22:120-121|1997|10.1093/amt/22.1.120
121277|T||Foster,R.E., and W.G. Buhler|Control of Lepidopterous Larvae in Sweet Corn, 1994|Arthropod Manag. Tests20:85-86|1995|10.1093/amt/20.1.85a
121278|T||Echtenkamp,J.|Control of European Corn Borer in Whorl Stage Corn, 1998|Arthropod Manag. Tests24:210-|1999|
121279|T||Echtenkamp,J.|Control of Second Generation European Corn Borer, 1998|Arthropod Manag. Tests24:211-|1999|
121280|T||Cranshaw,W., D.C. Sclar, M. Al-Doghairi, D. Gerace, and A. Tupy|Control of Cabbage Insects, 1996|Arthropod Manag. Tests22:93-|1997|10.1093/amt/22.1.93
121281|T||Witkowski,J., and J. Echtenkamp|Control of Second Generation European Corn Borer, 1996|Arthropod Manag. Tests22:236|1997|10.1093/amt/22.1.236
121282|T||Witkowski,J., and J. Echtenkamp|Control of European Corn Borer in Whorl Stage Corn, 1996|Arthropod Manag. Tests22:235-|1997|10.1093/amt/22.1.235
121283|T||Witkowski,J., and J. Echtenkamp|Control of Second Generation European Corn Borer, 1995|Arthropod Manag. Tests21:235|1996|10.1093/amt/21.1.235
121284|T||Witkowski,J., and J. Echtenkamp|Aerial Application of Insecticides for Control of First Generation European Corn Borer, 1995|Arthropod Manag. Tests21:234-235|1996|
121285|T||Witkowski,J., and J. Echtenkamp|Control of European Corn Borer in Whorl Stage Corn, 1995|Arthropod Manag. Tests21:234-|1996|
121286|T||Witkowski,J.F.|Control of Second Generation European Corn Borer, 1993|Arthropod Manag. Tests19:215-|1994|
121287|T||Witkowski,J.F.|Insecticide Applied Aerially for Control of First Generation European Corn Borer, 1993|Arthropod Manag. Tests19:215-|1994|
121288|T||Walgenbach,J.F., and C.R. Palmer|Control of Lepidopterous Insects on Cabbage, 1996|Arthropod Manag. Tests22:113-|1997|10.1093/amt/22.1.113
121289|T||Gist,G.L., and C.D. Pless|Comparative Toxicities of Synthetic Pyrethroids to the Fall Armyworm Spodoptera frugiperda|Fla. Entomol.68(2): 312-315|1985|10.2307/3494366
121290|T||Burkness,E.C., R.C. Venette, P.K. O'Rourke, and W.D. Hutchison|Control of Alfalfa Blotch Leafminer Alfalfa, 1998|Arthropod Manag. Tests24:193-|1999|
121291|T||Hutchins,S.H., and H.N. Pitre|Differential Mortality Response of Lepidopteran Defoliators to Insecticides Deposited Within Three Strata of Wide- and Narrow-Row Soybeans|J. Econ. Entomol.80(6): 1244-1248|1987|10.1093/jee/80.6.1244
121292|T||Sukovata,L., A. Kolk, and M. Cieslak|Effect of Attract and Kill Formulations and Application Rates on Trap Catches of European Pine Shoot Moth (Lepidoptera:  Tortricidae) and Shoot Damage in Scots Pine Saplings|J. Econ. Entomol.97(5): 1619-1623|2004|10.1603/0022-0493-97.5.1619
121293|T||Stern,V.M.|Control of Variegated Grape Leafhopper (VGL) in San Joaquin Valley, Calif., 1988|Insectic. Acaric. Tests16:39-|1991|
121295|T||Karnatak,A.K., B.P. Khare, and R.K. Johari|Relative Toxicity of Some Organophosphorus and Synthetic Pyrethroid Insecticides Against Sitophilus oryzae Linnaeus|Agric. Biol. Res.7(2): 91-100|1991|
121296|T||Baxendale,F.P., A.P. Weinhold, K. Von Bargen, and R.D. Grisso|Subsurface Applications for Control of Annual White Grubs on a Golf Course Fairway, 1994|Arthropod Manag. Tests20:287-288|1995|
121297|T||Berberet,R.C., A.A. Zarrabi, A.D. Bisges, and P.G. Mulder|Early Season Insect Control in Alfalfa, 1996|Arthropod Manag. Tests22:195-196|1997|10.1093/amt/22.1.195
121298|T||Bessin,R.T., and L.H. Townsend|First Generation European Corn Borer Control, 1993|Arthropod Manag. Tests19:184|1994|10.1093/amt/19.1.184
121299|T||Bessin,R.T., and L.H. Townsend|Black Cutworm Control in Conventional Tillage Corn, 1995|Arthropod Manag. Tests21:209-210|1996|10.1093/amt/21.1.209a
121300|T||Boetel,M.A., B.W. Fuller, and D.J. Thompson|Ground-Applied Insecticide Rescue Treatments in Whorl-Stage Corn to Control First Generation European Corn Borer Larvae, 1995|Arthropod Manag. Tests21:216-217|1996|10.1093/amt/21.1.216
121301|T||Boetel,M.A., and B.W. Fuller|Whorl-Stage Insecticide Treatments for Management of First-Generation European Corn Borers, 1998|Arthropod Manag. Tests24:208-|1999|
121302|T||Boucher,J., R. Adams, and G. Nixon|Pumpkins:  Squash Vine Borer Control, 1992|Arthropod Manag. Tests19:142-|1994|10.1093/amt/19.1.142
121303|T||Boucher,J., and G. Nixon|Evaluation of Alternative Insecticides for Squash Vine Borer Control on Summer Squash, 1995|Arthropod Manag. Tests21:175-|1996|10.1093/amt/21.1.175
121304|T||Boucher,J., and G. Nixon|Evaluation of Mechanical Control and Alternative Insecticides for Managing Squash Vine Borer on Summer Squash, 1996|Arthropod Manag. Tests22:167-|1997|10.1093/amt/22.1.167
121305|T||Buhler,W.G., and T.J. Gibb|Black Cutworm Control in Bentgrass, 1994|Arthropod Manag. Tests20:272-273|1995|10.1093/amt/20.1.272
121306|T||Burkness,E.C., W.D. Hutchison, and P.K. O'Rourke|Adios and Conventional Insecticides for Striped Cucumber Beetle Control in Cucurbits, 1995|Arthropod Manag. Tests21:173-|1996|
121307|T||Buschman,L.L., and P.E. Sloderbeck|Evaluation of Regent Insecticide for Early Season Insect Control in Corn, 1996|Arthropod Manag. Tests22:208-209|1997|10.1093/amt/22.1.208
121308|T||Chalfant,R.B.|Control of Lepidopterous Pests, 1994|Arthropod Manag. Tests22:91-92|1997|10.1093/amt/22.1.91
121309|T||Cranshaw,W., D.C. Sclar, A. Spriggs, and J. Bishop|Flea Beetle Control on Broccoli, Ft. Collins, CO, 1995|Arthropod Manag. Tests21:87-88|1996|10.1093/amt/21.1.87a
121310|T||Cranshaw,W., D.C. Sclar, A. Spriggs, and J. Bishop|Potato Insect Control, Ft. Collins, CO 1995|Arthropod Manag. Tests21:138-|1996|10.1093/amt/21.1.138
121311|T||Hutchison,W.D.|Dose-Mortality Response of European Corn Borer (Lepidoptera: Pyralidae) Third-Instar Larvae to Selected Insecticides|Can. Entomol.125(6): 1137-1139|1993|10.4039/Ent1251137-6
121312|T||Jallow,M.F.A., and C.W. Hoy|Phenotypic Variation in Adult Behavioral Response and Offspring Fitness in Plutella xylostella (Lepidoptera:  Plutellidae) in Response to Permethrin|J. Econ. Entomol.98(6): 2195-2202|2005|10.1093/jee/98.6.2195
121313|T||Jallow,M.F.A., and C.W. Hoy|Indirect Selection for Increased Susceptibility to Permethrin in Diamondback Moth (Lepidoptera:  Plutellidae)|J. Econ. Entomol.100(2): 526-533|2007|10.1093/jee/100.2.526
121314|T||Peters,M.R., and J.V. Edelson|Control of Lepidopterous Larvae on Tomatoes, Summer, 1995|Insectic. Acaric. Tests21:184-185|1996|
121315|T||Speese III,J.|Foliar Sprays to Control Insects on Spring Peppers, 1995|Arthropod Manag. Tests21:137-|1996|10.1093/amt/21.1.137
121316|T||Speese III,J.|Foliar Sprays to Control Insects in Fall Peppers, 1995|Arthropod Manag. Tests21:136-137|1996|10.1093/amt/21.1.136a
121317|T||Speese III,J.|Foliar Sprays to Control Bean Leaf Beetles in Fall Snap Beans, 1996|Arthropod Manag. Tests22:83-|1997|10.1093/amt/22.1.83a
121318|T||Speese III,J.|Foliar Sprays to Control Lepidopterans on Sweet Corn, 1996|Arthropod Manag. Tests22:126-|1997|10.1093/amt/22.1.126
121319|T||Story,R., A.O. Ameen, M.J. Murray, F. Can, and D. Ring|Control of Tarnished Plant Bugs, Leafhoppers, Cucumber Beetles, Treehoppers and Flea Beetles of Southern Pea, 1995|Arthropod Manag. Tests22:147-|1997|10.1093/amt/22.1.147
121320|T||Wier,A.T., J.S. Mink, D.J. Boethel, B.R. Leonard, and E. Burris|Control of Soybean Loopers on Soybean, 1989|Insectic. Acaric. Tests16:229-231|1991|10.1093/iat/16.1.229
121321|T||Shelton,A.M., and W.T. Wilsey|Control of the Corn Lepidoptera by Liquid Insectides, 1990|Insectic. Acaric. Tests16:78-|1991|10.1093/iat/16.1.78
121322|T||Sorensen,K.A., and K.A. Kidd|Asparagus Beetle Control on Spears, 1989|Insectic. Acaric. Tests16:52-|1991|10.1093/iat/16.1.52
121323|T||Singh,J., and G.S. Mavi|Chemical Control of Pea Blue Butterfly Lampides boeticus (Linn.) on Pea|J. Res. Punjab Agric. Univ.21(3): 386-390|1984|
121324|T||Hutchison,W.D., D.W. Bartels, and P.C. Bolin|European Corn Borer Control with Microbial and Pyrethroid Insecticides on Pre-Tassel Sweet Corn, 1993|Arthropod Manag. Tests19:90-91|1994|10.1093/amt/19.1.90a
121325|T||Jarvi,K.J., and G.W. Echtenkamp|Wireworm and Seedcorn Maggot Control, 1995|Arthropod Manag. Tests21:221-222|1996|
121327|T||Heller,P.R., and R. Walker|Management of Japanese Beetle Grubs with Experimental and Conventional Formulations on a Golf Course Fairway in Centre County, PA, 1994|Arthropod Manag. Tests20:284-285|1995|
121328|T||Radke,S.G., and H.G. Kandalkar|Chemical Control of Citrus Leafminer, Phyllocnistis citrella Stainton (Lepidoptera:  Gracillariidae)|Indian J. Entomol.52(3): 397-400|1990|
121329|T||Torrey,K.D., B.R. Leonard, and J.H. Fife|Corn Insect Pest Management with Recommended At-Planting Insecticides, 1995|Arthropod Manag. Tests21:231-232|1996|10.1093/amt/21.1.231
121330|T||Linduska,J.J., M. Ross, K. Mulford, and J. Nottingham|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1994|Arthropod Manag. Tests20:87-|1995|10.1093/amt/20.1.87
121331|T||Linduska,J.J., M. Ross, K. Mulford, and D. Baumann|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1995|Arthropod Manag. Tests21:110-|1996|10.1093/amt/21.1.110a
121332|T||Mau,R.F.L., L.R. Gusukuma-Minuto, D. Dunbar, and R.S. Shimabuku|Evaluation of Emamectin Benzoate (MK-244) and Other Insecticides Against DBM, 1995|Arthropod Manag. Tests22:96-97|1997|10.1093/amt/22.1.96
121333|T||McEnhill,E., and E. Grafius|Control of Insect Pests on Cabbage with Spinosad, 1996|Arthropod Manag. Tests22:105-106|1997|10.1093/amt/22.1.105
121334|T||McEnhill,E., and E. Grafius|Insect Pest Control in Cabbage, 1996|Arthropod Manag. Tests22:106-107|1997|10.1093/amt/22.1.106
121335|T||Oleson,J.D., J.J. McNutt, R.D. Pruisner, and J.J. Tollefson|Field Corn, Wireworm Larval Control, 1994|Arthropod Manag. Tests20:173-174|1995|10.1093/amt/20.1.173a
121336|T||Shelton,A.M., R.J. Cooley, M.K. Kroening, W.T. Wilsey, and S.D. Eigenbrode|Comparative Analysis of Two Rearing Procedures for Diamondback Moth (Lepidoptera:  Plutellidae)|J. Entomol. Sci.26(1): 17-26|1991|10.18474/0749-8004-26.1.17
121337|T||Singh,H.M., and S.M.A. Rizvi|Comparative Efficacy and Economics of Insecticides Against Chickpea Semilooper, Autographa nigrisigna Walker (Noctuidae:  Lepidoptera) Infesting Chickpea|Trop. Pest Manag.35(4): 374-376|1989|10.1080/09670878909371408
121338|T||Leonard,B.R., C.A. White, A.T. Wier, and P.S. Lingren|Control of Soybean Looper in the Macon Ridge Region of Louisiana, 1994|Arthropod Manag. Tests20:236-|1995|10.1093/amt/20.1.236
121339|T||Singh,D., and D.D. Narang|Control of Tomato Fruit Borer, Heliothis armigera Hubner with Synthetic Pyrethroids|Indian J. Entomol.52(4): 534-540|1990|
121340|T||Rahman,M.M., and T.D. Yadav|Toxicity of Solutions and Dusts of Four Synthetic Pyrethroids Against Callosobruchus maculatus Fab. and C. chinensis Linn|Indian J. Entomol.49(1): 137-144|1987|
121341|T||Sukul,P., S.K. Handa, and K.M. Singh|Comparative Efficacy of Synthetic Pyrethroids Against Pod Borer Complex, Crop Growth and Yield of Green Gram|Indian J. Entomol.49(3): 408-413|1987|
121342|T||Shelton,A.M., and W.T. Wilsey|Control of Flea Beetles on Cabbage, 1995|Arthropod Manag. Tests21:97-98|1996|
121343|T||Shelton,A.M., and W.T. Wilsey|A Comparison of Merck Materials and a Standard Insecticide for Control of Lepidoptera on Cabbage, 1996|Arthropod Manag. Tests22:108-|1997|10.1093/amt/22.1.108
121344|T||Shetlar,D.J., M. Belcher, H.D. Niemczyk, and D.S. Richmond|Bluegrass Billbug Larval Control in Lawn Turf, 1996|Arthropod Manag. Tests22:368-369|1997|10.1093/amt/22.1.368a
121345|T||Smitley,D.R., and T.W. Davis|Control of Gypsy Moth on Potted Spruce Trees, 1996|Arthropod Manag. Tests22:396-397|1997|10.1093/amt/22.1.396a
121346|T||Rice,M.E.|Aerial Application of Insecticides for Second Generation European Corn Borer Control, 1993|Arthropod Manag. Tests19:206-|1994|10.1093/amt/19.1.206
121347|T||Rice,M.E.|Aerial Application of Insecticides for Control of Second Generation European Corn Borer, 1991|Arthropod Manag. Tests19:204-205|1994|10.1093/amt/19.1.204
121348|T||Sonterre,C.R., D.W. Bartels, W.D. Hutchison, and P.C. Bolin|Effect of Larval Infestation Timing on Insecticidal Control of European Corn Borer in Minnesota Snap Bean, 1994|Arthropod Manag. Tests20:65-|1995|10.1093/amt/20.1.65
121349|T||Spangler,S.M., N. Piekielek, T. Grove, and P. Rebarchak|Ear-Infesting Insect Control in Sweet Corn in Pennsylvania, 1995|Arthropod Manag. Tests21:112-|1996|10.1093/amt/21.1.112
121350|T||Speese III,J.|Soil Insecticides for Insect Control in Field Corn, Painter, VA 1993|Arthropod Manag. Tests19:212-|1994|10.1093/amt/19.1.212
121351|T||Speese III,J.|Insecticides to Control Cucumber Beetles in Spring Cucumbers, 1995|Arthropod Manag. Tests21:116-|1996|10.1093/amt/21.1.116
121352|T||Speese III,J.|Insecticides to Control Cucumber Beetles in Spring and Fall, 1996|Arthropod Manag. Tests22:130-|1997|10.1093/amt/22.1.130
121353|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Insecticide Control of Adult Western Corn Rootworm and Subsequent Effect on Twospotted Spider Mites in West Central Nebraska, 1992|Arthropod Manag. Tests19:210-211|1994|10.1093/amt/19.1.210
121354|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of European Corn Borer on Whorl Stage Corn in West Central Nebraska, 1992|Arthropod Manag. Tests19:207-208|1994|10.1093/amt/19.1.207a
121355|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Western Corn Rootworm Beetles and Effect on Spider Mites in West Central Nebraska, 1992|Arthropod Manag. Tests19:209-210|1994|
121356|T||Rice,M.E.|Second Generation European Corn Borer Control with Aerial Application of Insecticides, 1992|Arthropod Manag. Tests19:205-206|1994|10.1093/amt/19.1.205
121357|T||Shamiyeh,N.B., E.E. Burgess, and C.H. Roberts|Control of Alfalfa Weevil Larvae in Tennessee, 1995|Arthropod Manag. Tests21:197-|1996|10.1093/amt/21.1.197a
121358|T||Sorensen,K.A., and C.W. Holloway|Control of Lepidopterous Larvae with Insecticides, 1996|Arthropod Manag. Tests22:110|1997|10.1093/amt/22.1.110
121359|T||McLeod,P.J., and W.C. Yearian|Ovicidal Activity of Insecticides on the Southern Pine Coneworm, Dioryctria amatella|J. Ga. Entomol. Soc.18(2): 255-259|1983|
121360|T||Mullinix,B.G.,Jr., J.R. Young, and G.O. Ware|Influence of Three Types of Borders on Field Evaluation of Insecticides for Fall Armyworm (Lepidoptera:  Noctuidae) Control in Seedling Corn|J. Entomol. Sci.26(3): 320-330|1991|10.18474/0749-8004-26.3.320
121361|T||Muruvanda,D.A., J.W. Beardsley, and W.C. Mitchell|Insecticidal Control of Sweet Potato Weevils (Coleoptera:  Curculionidae) in Hawaii|Trop. Agric.63(2): 155-157|1986|
121362|T||N'Guessan,K.F., and R.B. Chalfant|Dose Response of the Cowpea Curculio (Coleoptera:  Curculionidae) from Different Regions of Georgia to Some Currently Used Pyrethroid Insecticides|J. Entomol. Sci.25(2): 219-222|1990|10.18474/0749-8004-25.2.219
121363|T||Jhala,R.C., A.H. Shah, C.B. Patel, and R.L. Patel|Effectiveness of Different Insecticides Against Bud Boring Insects, Anarsia achrasella Bradley and Nephopteryx eugraphella Rag. on Chiku|Gujarat Agric. Univ. Res. J.11(1): 27-29|1985|
121364|T||Kumar,K., and R.B. Chapman|Toxicity of Insecticides to Diamondback Moth Plutella xylostella (L.)|N. Z. J. Exp. Agric.11(1): 77-81|1983|10.1080/03015521.1983.10427732
121365|T||Lagnaoui,A., and E.B. Radcliffe|Foliar Sprays for Control of Colorado Potato Beetle on Potato in the Red River Valley of Minnesota and North Dakota, 1990|Insectic. Acaric. Tests16:92-93|1991|10.1093/iat/16.1.92
121366|T||Layton,B., J. Hamer, and R. Smith|Control of Soybean Insects in Mississippi, 1990|Insectic. Acaric. Tests16:222-223|1991|10.1093/iat/16.1.222a
121367|T||Mack,T.P.|Evaluation of Insecticides for Control of Corn Earworms and Fall Armyworms on Peanuts, 1990|Insectic. Acaric. Tests16:211-|1991|10.1093/iat/16.1.211
121368|T||Magaro,J.J., and J.V. Edelson|Topical Bioassay, 1990|Insectic. Acaric. Tests16:294-295|1991|10.1093/iat/16.1.294a
121369|T||Mayer,D.F., and J.D. Lunden|Control of Corn Earworm on Sweet Corn, 1990|Insectic. Acaric. Tests16:77-|1991|10.1093/iat/16.1.77
121370|T||Nigg,H.N., S.E. Simpson, R.A. Schumann, and S. Fraser|Toxicity of Pesticides to Adult Diaprepes abbreviatus L. (Coleoptera:  Curculionidae)|J. Entomol. Sci.39(4): 654-669|2004|10.18474/0749-8004-39.4.654
121371|T||Ramzan,M., and B.S. Chahal|Evaluation of Synthetic Pyrethroids for the Protection of Stored Wheat Grains Against Storage Pests|Int. Pest Control29(2): 42-44|1987|
121372|T||Saleem,M.A., and A.R. Shakoori|Permethrin and Malathion-Induced Macromolecular Abnormalities in Adult Tribolium castaneum (Herbst.)|Arch. Insect Biochem. Physiol.5(1): 45-55|1987|10.1002/arch.940050105
121373|T||Shakoori,A.R., and M.A. Saleem|Some Macromolecular Abnormalities Developed by the Interaction of Malathion and Permethrin and Subsequent Refeeding in Tribolium castaneum Larvae|Arch. Insect Biochem. Physiol.11(4): 203-215|1989|10.1002/arch.940110402
121374|T||Shamiyeh,N.B., C.J. Southards, C.H. Roberts, and D.O. Onks|Field Corn, European Corn Borer Control, 1990|Insectic. Acaric. Tests16:171-172|1991|10.1093/iat/16.1.171a
121375|T||Sharma,S.P., S.C. Goel, and M.L. Saini|Relative Toxicity of Synthetic Pyrethroids to Gram Pod Borer, Heliothis armigera Hubner (Lepidoptera: Noctuidae)|J. Entomol. Res.12(1): 84-86|1988|
121376|T||Zanuncio,J.C., V.C. Batalha, R.N.C. Guedes, and M.C. Picanco|Insecticide Selectivity to Supputius cincticeps (Stal) (Het., Pentatomidae) and Its Prey Spodoptera frugiperda (J. E. Smith) (Lep., Noctuidae)|J. Appl. Entomol.122(8): 457-460|1998|10.1111/j.1439-0418.1998.tb01526.x
121377|T||Yein,B.R.|Field Efficacy of Some Insecticides Against Shoot and Fruit Borer (Leucinodes orbonalis Guen.) of Brinjal|J. Res. Assam Agric. Univ.6(1): 31-34|1985|
121378|T||Mau,R.F.L., L.R. Gusukuma-Minuto, and R.S. Shimabuku|Field Evaluation of Fipronil for DBM Control, 1996|Arthropod Manag. Tests22:101-102|1997|10.1093/amt/22.1.101
121379|T||Leibee,G.L., and K.E. Savage|Evaluation of Selected Insecticides for Control of Diamondback Moth and Cabbage Looper in Cabbage in Central Florida with Observations on Insecticide Resistance in the Diamondback Moth|Fla. Entomol.75(4): 585-591|1992|10.2307/3496140
121380|T||Herbert,D.A.,Jr.|Selected Insectides for Corn Earworm Control in Soybean in Virginia, 1993|Arthropod Manag. Tests19:269-270|1994|10.1093/amt/19.1.269
121381|T||Foster,R.E., and W.G. Buhler|Control of Insects on Sweet Corn, 1995|Arthropod Manag. Tests21:109-|1997|10.1093/amt/21.1.109
121382|T||Edelson,J.V., and M. Peters|Control of Aphids on Mustard, 1996|Arthropod Manag. Tests22:138-|1997|10.1093/amt/22.1.138
121383|T||Teli,V.S., and G.N. Salunkhe|Relative Toxicity of Some Insecticides Against Sweet Potato Weevil|J. Maharashtra Agric. Univ.19(2): 290-291|1994|
121384|T||Tayade,K.T., and P.R. Shivpuje|Relative Toxicity of Some Modern Synthetic Insecticides Against Tur Plume Moth|J. Maharashtra Agric. Univ.10(1): 60-61|1985|
121385|T||Singh,H.M., R. Singh, and S.M.A. Rizvi|Insecticidal Evaluation Against Pigeonpea Pod Borers|Indian J. Plant Prot.16(2): 217-220|1988|
121386|T||Sharma,S.P., M.L. Saini, and S.C. Goel|Effectiveness of Synthetic Pyrethroids Against Heliothis armigera Hubner on Gram|Indian J. Plant Prot.17(1): 59-62|1989|
121387|T||Radke,S.G., and H.G. Kandalkar|Chemical Control of Lemon Butterfly, Papilio demoleus Linnaeus in Vidarbha|PKV Res. J.10(2): 157-159|1986|
121388|T||Krishnakumar,N.K., K. Srinivasan, C.L. Suman, and P.R. Ramachander|Optimum Control Strategy of Cabbage Pests from a Chemical Control Trial|Prog. Hortic.18(1/2): 104-110|1986|
121389|T||Grewal,G.S., H.S. Garcha, and G. Singh|Chemical Control of Castor Semilooper, Achaea janata Linn. (Lepidoptera: Noctuidae) on Castor in Punjab|J. Res. Punjab Agric. Univ.25(4): 581-586|1988|
121390|T||Sparks,A.N.Jr.|Evaluation of Preventive and Rescue Sprays for SPWF on Potted Tomatoes, 1990|Insectic. Acaric. Tests18:183-|1993|10.1093/iat/18.1.183
121391|T||Shelton,A.M., and W.T. Wilsey|Control of the Corn Lepidoptera with Foliar Applications, 1991|Insectic. Acaric. Tests17:109-|1992|10.1093/iat/17.1.109
121392|T||Hoy,C.W., and T.T. Vaughn|Ear Infesting Insect Control in Sweet Corn, 1991|Insectic. Acaric. Tests17:103-104|1992|10.1093/iat/17.1.103a
121393|T||Edelson,J.V., M. Peters, J. Duthie, and W. Roberts|Control of Lepidopterous Larvae on Collard, 1997|Arthropod Manag. Tests23:91-|1998|10.1093/amt/23.1.91
121394|T||Mack,T.P.|Evaluation of Insecticides for Control of Soybean Loopers and Velvetbean Caterpillars on Soybeans, 1991|Insectic. Acaric. Tests17:264-|1992|10.1093/iat/17.1.264
121395|T||Linduska,J.J., M. Ross, and S. Stevenson|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1992|Insectic. Acaric. Tests18:123-|1993|10.1093/iat/18.1.123
121396|T||McPherson,R.M., and M.H. Bass|Control of Arthropod Pests on Georgia Soybean, 1992|Insectic. Acaric. Tests18:271-|1993|10.1093/iat/18.1.271
121397|T||Layton,B., and J. Hamer|Control of Soybean Looper in Mississippi, 1992|Insectic. Acaric. Tests18:269-|1993|10.1093/iat/18.1.269
121398|T||Palumbo,J.C., C.H. Mullis, and F. Reyes|Chemical Control of Lepidopterous Larvae on Fall Lettuce, 1991|Insectic. Acaric. Tests17:114-115|1992|10.1093/iat/17.1.114a
121399|T||Mohan,N.J.|Control of Major Insect Pests of Okra|Pesticides 19(7): 35-37|1985|
121400|T||Schuster,D.J.|Control of Leafminers and Armyworms on Fresh Market Tomatoes in West-Central Florida, Fall, 1990|Insectic. Acaric. Tests17:158-|1992|10.1093/iat/17.1.158
121401|T||Rowland,S., and B. Cartwright|Corn Earworm Control on Sweet Corn, 1992|Insectic. Acaric. Tests18:124|1993|
121402|T||Shamiyeh,N.B., C.H. Roberts, C.J. Southards, and C.A. Mullins|Mexican Bean Beetle Control in Spring-Planted Snap Beans, 1990|Arthropod Manag. Tests16:54-|1991|
121403|T||Wedberg,J., and B. Jensen|Labeled and Unlabeled Insecticides for Control of European Corn Borer on Sweet Corn in Wisconsin, 1991|Arthropod Manag. Tests17:110-|1992|
121404|T||Mack,T.P.|Control of Soybean Loopers and Velvetbean Caterpillars on Soybeans, 1991|Insectic. Acaric. Tests17:263-264|1992|10.1093/iat/17.1.263
121405|T||Dhawan,A.K., G.S. Simwat, and A.S. Sidhu|Evaluation of Synthetic Pyrethroids for Control of Green Samilooper Anomis flava F. Infesting Cotton|Indian J. Plant Prot.13(1): 53-54|1985|
121406|T||Tewari,G.C.|Evaluation of Insecticides Against Epilachna Beetle Infesting Bittergourd and Their Impact of Pediobius foveolatus (Crawford)|Entomon11(1): 11-15|1986|
121407|T||Ahmad,H., and V.K. Sharma|Relative Toxicity of Some Formulations of Synthetic Pyrethroids Against Maize Stem Borer, Chilo partellus (Swinhoe)|Indian J. Plant Prot.13(2): 117-120|1985|
121408|T||Haynes,K.F., and T.C. Baker|Sublethal Effects of Permethrin on the Chemical Communication System of the Pink Bollworm Moth, Pectinophora gossypiella|Arch. Insect Biochem. Physiol.2(3): 283-293|1985|10.1002/arch.940020306
121409|T||Hathaway,D.O., D.F. Mayer, and J.D. Lunden|Efficacy of Pesticides on the Western Spotted Tentiform Leafminer (Lepidoptera: Gracillariidae) in the Pacific Northwest|J. Entomol. Soc. B. C.82:7-11|1985|
121410|T||Bhumannavar,B.S.|Evaluation of Pyrethroid Compounds Against Citrus Leaf Miner, Phyllocnistis citrella Stainton (Lepidoptera) on 'Coorg Mandarin'|Entomon12(3): 183-185|1987|
121411|T||Singh,D., D.D. Narang, and B.S. Chahal|Control of Brinjal Fruit Borer, Leucinodes orbonalis Guen. with Synthetic Pyrethroids|J. Res. Punjab Agric. Univ.22(2): 253-260|1985|
121412|T||Tewari,G.C., N.K.K. Kumar, and P.N.K. Moorthy|Optimising the Dose and Spray Interval of Synthetic Pyrethroids Against Brinjal Fruit and Shoot Borer, Leucinodes orbonalis|Entomon9(3): 197-200|1984|
121413|T||Shaw,J.T., K.L. Steffey, M.E. Gray, and J.W. Finger|Efficacy of Registered and Experimental Insecticides for Control of European Corn Borer Under Artificial Infestation, 1996|Arthropod Manag. Tests22:230-|1997|10.1093/amt/22.1.230
121414|T||Shaw,J.T., K.L. Steffey, M.E. Gray, and J.W. Finger|Efficacy of Registered and Experimental Insecticides for Control of Black Cutworm Larvae, 1996|Arthropod Manag. Tests22:232-|1997|10.1093/amt/22.1.232
121415|T||Bailey,W.C., C.N. Arne, and S.A. Becker|Alfalfa Weevil Control, Missouri (Southern), 1989|Insectic. Acaric. Tests16:123-124|1991|10.1093/iat/16.1.123a
121416|T||Dhamdhere,S.V., J.Y. Deole, O.P. Singh, U.S. Misra, and K.N. Kapoor|Note on the Toxicity of Insecticides Against the Grubs of Lucerne Weevil|Indian J. Agric. Sci.52(4): 265-266|1982|
121417|T||Bowman,J.S., and D.W. Barry|Early Season ECB Control, 1990|Insectic. Acaric. Tests16:74-|1991|10.1093/iat/16.1.74
121418|T||Funderburk,J., J. Maruniak, and D. Boucias|Velvetbean Caterpillar (VBC) Control in Soybean, 1989|Insectic. Acaric. Tests16:217-|1991|10.1093/iat/16.1.217
121419|T||Shelton,A.M., and W.T. Wilsey|Comparing Dupont Esfenvalerate Formulations and Permethrin for Control of Cabbage Looper and Imported Cabbageworm on Cabbage, 1994|Arthropod Manag. Tests20:78-|1995|10.1093/amt/20.1.78
121420|T||Davis,P.M., and L.P. Pedigo|Evaluation of Two Management Strategies for Stalk Borer, Papaipema nebris, in Corn|Crop Prot.9(5): 387-391|1990|10.1016/0261-2194(90)90013-W
121421|T||Shelton,A.M., and W.T. Wilsey|Comparing New American Cyanamid Products and Standard Insecticides for Control of Natural Populations of Lepidoptera on Cabbage, 1993|Arthropod Manag. Tests19:73|1993|10.1093/amt/19.1.73
121422|T||Speese III,J.|Foliar Sprays to Control Lepidopterous Larvae on Cabbage, 1996|Arthropod Manag. Tests22:112|1997|10.1093/amt/22.1.112
121423|T||Palmer,C.R., and J.F. Walgenbach|Control of Lepidopterous Pests on Cabbage, 1995|Arthropod Manag. Tests21:94-95|1996|10.1093/amt/21.1.94a
121424|T||Webb,S.E., and A.M. Shelton|A Simple Action Threshold for Timing Applications of a Granulosis Virus to Control Pieris rapae (Lep.:  Pieridae)|Entomophaga36(3): 379-389|1991|10.1007/BF02377942
121425|T||Hiromori,H., and J. Nishigaki|Joint Action of an Entomopathogenic Fungus (Metarhizium anisopliae) with Synthetic Insecticides Against the Scarab Beetle, Anomala cuprea (Coleoptera: Scarabaeidae) Larvae|Appl. Entomol. Zool.33(1): 77-84|1998|10.1303/aez.33.77
121426|T||Argentine,J.A., S.H. Lee, M.A. Sos, S.R. Barry, and J.M. Clark|Permethrin Resistance in a Near Isogenic Strain of Colorado Potato Beetle|Pestic. Biochem. Physiol.53(2): 97-115|1995|10.1006/pest.1995.1058
121427|T||Shaw,J.T., R.A. Weinzierl, and J.W. Finger|Efficacy of Registered and Experimental Insecticides for Control of Corn Earworm and European Corn Borer on Corn Under Natural Infestation, 1996|Arthropod Manag. Tests22:229-|1997|10.1093/amt/22.1.229
121428|T||Speese III,J.|Soil and Foliar Treatments to Control Insects in Peppers, 1993|Arthropod Manag. Tests19:106-107|1994|10.1093/amt/19.1.106
121429|T||Hoy,C.W., A.J. Adams, and F.R. Hall|Behavioral Response of Plutella xylostella (Lepidoptera:  Plutellidae) Populations to Permethrin Deposits|J. Econ. Entomol.83(4): 1216-1221|1990|10.1093/jee/83.4.1216
121430|T||Wright,C.G., and H.E.,Jr. Dupree|Efficacy of Experimental Formulations of Acephate, Boric Acid, Encapsulated Diazinon, Permethrin, Pirimphos-Methyl, and Propetamphos in Control of German Cockroaches|J. Ga. Entomol. Soc.17(1): 26-32|1982|
121431|T||Webb,R.E., W.H. McLane, J.A. Finney, L. Venables, G.B. White, A.M. Wieber, and D.L. Cohen|Destruction of Gypsy Moth Egg Masses (Using Surfactants, Detergents, Oils or Conventional Insecticides) for Quarantine and Community Action Programs|J. Entomol. Sci.29(3): 305-317|1994|10.18474/0749-8004-29.3.305
121432|T||Robertson,J.L., and K.C. Smith|Western Spruce Budworm: Joint Action of Pyrethroids and Insect Growth Regulators by Contact or Ingestion|J. Ga. Entomol. Soc.19(4): 454-462|1984|
121433|T||Koslinska,M., and Z. Nowakowski|Effectiveness of Insecticides in the Control of Codling Moth, Cydia pomonella L. (Lep. Tortricidae) with Special Reference to Acylureas|Fruit Sci. Rep. (Skierniewice)15(4): 193-198|1988|
121434|T||Speese III,J., and S.B. Sterrett|Crop Rotation Reduces the Cost of Colorado Potato Beetle Control in Potatoes|HortTechnology8(2): 229-234|1998|10.21273/HORTTECH.8.2.229
121435|T||Pandey,A.K.|Bio-Efficacy of Different Insecticides Against Gypsy Moth, Lymantria spp. (Lepidoptera:  Lymantriidae)|J. Entomol. Res.29(2): 119-122|2005|
121436|T||Butler,G.D.,Jr., and A.S. Las|Predaceous Insects:  Effect of Adding Permethrin to the Sticker Used in Gossyplure Applications|J. Econ. Entomol.76(6): 1448-1451|1983|10.1093/jee/76.6.1448
121437|A||Hemmer,M.J., M.G. Barron, and R.M. Greene|Comparative Toxicity of Eight Oil Dispersant Products on Two Gulf of Mexico Aquatic Test Species|U.S.Environmental Protection Agency Office of Research and Development:1-11|2010|
121438|T||Szekely,I., L. Pap, and B. Bertok|MB-599, a New Synergist in Pest Control|Br. Crop Prot. Conf. Pests Dis.:473-480|1996|
121439|T||Mathai,S., M.R.G.K. Nair, and N. Mohandas|Joint Action of Nuclear Polyhedrosis Virus (NPV) and Insecticides Against the Rice Swarming Caterpillar Spodoptera mauritia (Boisduval)|Indian J. Plant Prot.14(2): 13-17|1986|
121440|T||Kuusik,A., L. Metspalu, K. Hiiesaar, A. Kogerman, and U. Tartes|Changes in Muscular and Respiratory Activity Patterns in Yellow Mealworm (Tenebrio molitor) and Greater Wax Moth (Galleria mellonella) Pupae Caused by Some Plant Extracts, Juvenile Hormone Analogues and Pyrethroid|Eesti NSV Tead. Akad. Toim., Biol. (Multiple Languages)42(2): 94-107|1993|
121441|T||Giga,D.P., and J. Canhao|Effects of Sublethal Doses of Insecticides on Population Growth of Mixed Populations of Prostephanus truncatus (Horn) (Coleoptera:  Bostrichidae) and Sitophilus zeamais (Motschulsky) (Coleoptera:  Curculionidae) at Two |Afr. Entomol.1(1): 93-99|1993|
121442|T||Johnson,G.D., and M.E. McLendon|Suppression of Flea Beetles in Canola, 1992|Insectic. Acaric. Tests18:192-|1993|10.1093/iat/18.1.192
121443|T||Tanigoshi,L.K., and H. Aguilar|Control of Twospotted Spider Mite on Azuki Bean, 1992|Insectic. Acaric. Tests18:191-|1993|10.1093/iat/18.1.191
121444|A||Malla,F.A., S. Singh, and A.P. Singh|Changes in Blood Clotting Time in the Fish, Channa punctatus, on Exposure to Chlorpyrifos|Bionotes11(2): 67-|2009|
121445|T||Alston,D.G.|Western Cherry Fruit Fly Control of Tart Cherry, 1990 and 1991|Insectic. Acaric. Tests17:57-|1992|10.1093/iat/17.1.57
121446|T||Johnson,J.W., and J.C. Wise|Cherry, Broad Spectrum Control with Insecticides, All Season Test, 1990|Insectic. Acaric. Tests17:57-58|1992|10.1093/iat/17.1.57a
121447|T||McPherson,R.M., T.H. Mintarsih, and J.D. Taylor|Stink Bug Control in Soybean, 1991|Insectic. Acaric. Tests17:266-267|1992|10.1093/iat/17.1.266
121448|T||McLeod,P.|Evaluation of Insecticides for Control of Diamondback Moth on Collards, 1997|Arthropod Manag. Tests23:91-|1998|10.1093/amt/23.1.91a
121449|T||Raju,N., M. Gopalan, and G. Balasubramanian|Ovicidal Action of Insecticides, Moult Inhibitor and Fungicides on the Eggs of Rice Leaf Folder and Stem Borer|Indian J. Plant Prot.18(1): 5-9|1990|
121450|T||Johnson,J.W., and J.C. Wise|Cherry, Borer Control with Insecticides, All Season, 1990|Insectic. Acaric. Tests17:58-|1992|
121451|T||Pandey,R., and Y.K. Mathur|Quantitative Estimation of Glucose in the Haemolymph of Insecticide Treated Insects|Indian J. Entomol.49(3): 383-386|1987|
121452|T||Pandey,R., and Y.K. Mathur|Aminoacid Alterations in Insecticidal Treated Insects|Indian J. Entomol.52(2): 197-202|1990|
121453|T||Tan,K.H.|Irritancy Response to Temperature After Sublethal Action of Pyrethroids Against Cabbage White Caterpillars Pieris brassicae|Entomol. Exp. Appl.32(2): 151-154|1982|10.1111/j.1570-7458.1982.tb03196.x
121454|T||Van Steenwyk,R.A., L.C. Hendricks, L.W. Barclay, and E.L. Younce|Borer Control in Young Almond Trees|Calif. Agric.40(3/4): 10-11|1986|
121455|T||Riley,D., J. Davis, and G. Herzog|Three Types of Bioassays for 11 Insecticide Treatments, 1996|Arthropod Manag. Tests22:418-419|1997|10.1093/amt/22.1.418a
121456|T||Gunning,R.V., C.S. Easton, M.E. Balfe, and I.G. Ferris|Pyrethroid Resistance Mechanisms in Australian Helicoverpa armigera|Pestic. Sci.33(4): 473-490|1991|10.1002/ps.2780330410
121457|T||Liu,X.J., X.Y. Yu, C.Z. Zhang, and C.W. Hoy|Neurotoxic Action of the Cry3A Toxin on the Colorado Potato Beetle, Leptinotarsa decemlineata, with Permethrin as a Comparison|Kunchong Xuebao (Non-English)47(5): 586-590|2004|
121458|T||Schuster,D.J.|Insect Control on Fresh Market Tomatoes in West-Central Florida, Spring 1993|Arthropod Manag. Tests19:150-152|1994|10.1093/amt/19.1.150a
121459|T||Speese III,J.|Use of Furadan 4F at Planting in an IPM Program to Control Colorado Potato Beetle, 1993|Arthropod Manag. Tests19:134-135|1994|10.1093/amt/19.1.134
121460|T||Hall,F.R., and J.R.M. Thacker|Effects of Droplet Size on the Topical Toxicity of Two Pyrethroids to the Cabbage Looper Trichoplusia ni (Hubner)|Crop Prot.13(3): 225-229|1994|10.1016/0261-2194(94)90082-5
121461|T||Omar,D., and G.A. Matthews|Influence of Formulation and Spray Droplet Size upon the Persistence of Permethrin Deposits on Brussels Sprouts Leaves|Crop Prot.10(1): 41-44|1991|10.1016/0261-2194(91)90023-K
121462|T||Nicholson,R.A., and T.A. Miller|Multifactorial Resistance to Transpermethrin in Field-Collected Strains of the Tobacco Budworm Heliothis virescens F.|Pestic. Sci.16:561-570|1985|10.1002/ps.2780160602
121463|T||Andow,D.A.|Fate of Eggs of First-Generation Ostrinia nubilalis (Lepidoptera:  Pyralidae) in Three Conservation Tillage Systems|Environ. Entomol.21(2): 388-393|1992|10.1093/ee/21.2.388
121464|T||Hill,M.G., D.J. Allan, and J.M. Maindonald|Efficiency of Insecticides for Greasy Cutworm Control|N. Z. J. Exp. Agric.14(3): 369-372|1986|10.1080/03015521.1986.10423053
121465|T||French II,N.M., D.C. Heim, and G.G. Kennedy|Insecticide Resistance Patterns Among Colorado Potato Beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae), Populations in North Carolina|Pestic. Sci.36(2): 95-100|1992|10.1002/ps.2780360203
121466|T||Zanuncio,T.V., J.C. Zanuncio, J.E. Serrao, R.S. Medeiros, T.B.M. Pinon, and C.A.Z. Sediyama|Fertility and Life Expectancy of the Predator Supputius cincticeps (Heteroptera:  Pentatomidae) Exposed to Sublethal Doses of Permethrin|Biol. Res.38(1): 31-39|2005|10.4067/S0716-97602005000100005
121467|T||Oseto,C.Y., and W.F. Burr|Timing Insecticide Applications for Control of the Red Sunflower Seed Weevil (Coleoptera:  Curculionidae) on Cultivated Sunflower|J. Agric. Entomol.7(4): 337-341|1990|
121468|T||Kao,C.H., E.Y. Cheng, and D.F. Lin|Insecticide Resistance Study in Plutella xylostella (L.).  VII.  Action Patterns of Insecticides and the Resistance Impacts|J. Taiwan Agric. Res. Inst. (Multiple Languages)35(1): 107-117|1986|
121469|T||Speese III,J.|Control of European Corn Borer and Green Peach Aphid on Peppers, 1992|Insectic. Acaric. Tests18:140-141|1993|10.1093/iat/18.1.140a
121470|T||Sakr,S.A., H.A. Abdel Samei, and M.E. Soliman|Exploring Hepatotoxicity of Benomyl:  Histological and Histochemical Study on Albino Rats|J.Med.Sci.4(1): 77-83|2004|
121471|T||Dubis,E., A. Dubis, J. Nawrot, Z. Winiecki, and J. Poplawski|Effects of the Endophyte-Associated Alkaloids Peramine and Its Analogues on Selected Storage Pests|In: D.Konopinska (Ed.), 1st Int.Conf., Insects: Chemical, Physiological and Environmental Aspects, Sept.26-29, 1994, Ladek-Zdroj, Poland:306-310|1995|
121472|T||Goodyer,G.J.|Laboratory Assessment of Insecticides Against the Common Armyworm, Mythimna convecta (Walker), and Southern Armyworm, Persectania ewingii (Westwood) (Lepidoptera:  Noctuidae)|Gen. Appl. Entomol.14:33-34|1982|
121473|T||Arnold,R.N., E.J. Gregory, and D. Smeal|Evaluations of Insecticides for Control of Corn Earworm (Heliothis zea Boddie; Lepidoptera:  Noctuidae) on Sweet Corn in Northwestern New Mexico, 1979-1983|Appl. Agric. Res.1(3): 172-174|1986|
121474|T||Bowman,J.S., and M.D. Campbell|Control on Late Season Sweet Corn with Foliar Sprays, 1992|Insectic. Acaric. Tests18:121-|1993|10.1093/iat/18.1.121
121475|T||Bowman,J.S., and M.D. Campbell|Early Season ECB Control on Sweet Corn, 1992|Insectic. Acaric. Tests18:120-121|1993|10.1093/iat/18.1.120
121476|T||Bowman,J.S.|Control on Late Season Sweet Corn with Foliar Sprays, 1991|Insectic. Acaric. Tests17:102-|1992|10.1093/iat/17.1.102
121477|T||Bartels,D.W., W.D. Hutchison, and P.C. Bolin|Insecticidal and Microbial Control of Lepidopteran Larvae in Minnesota Cabbage, 1992|Insectic. Acaric. Tests18:90-91|1993|10.1093/iat/18.1.90a
121478|T||Bartels,D.W., W.D. Hutchinson, B.R. Fontaine, and P.C. Bolin|Evaluation of Microbial and Insecticide Combinations for the Control of Cabbage Pests in Minnesota, 1991|Insectic. Acaric. Tests17:81-82|1992|10.1093/iat/17.1.81
121479|T||Yadav,T.D.|Toxicity of Deltamethrin, Cypermethrin Permethrin Against Thirteen Stored Product Insects|Indian J. Entomol.49(1): 21-26|1987|
121480|T||Vasquez,E.A., E.N. Bernardo, and M.F.A. Carino|Contact Toxicity of Decamethrin and Permethrin on Black Bean Aphid and Two of Its Coccinellid Predators|Ann. Trop. Res.9(3): 117-136|1987|
121481|T||Singh,M., R. Chandel, and D.C. Sharma|Toxicity of Insecticides to Different Larval Instars of Pieris brassicae L.|Indian J. Plant Prot.20(2): 202-204|1992|
121482|T||Reddy,A.A., N.V. Krishnaiah, M.B. Kalode, and I.C. Pasalu|Field Efficacy of Synthetic Pyrethroids Against Rice Insect Pests|Indian J. Plant Prot.15(1): 51-56|1987|
121483|T||Mostafa,T.S., and N.H. Al-Moagel|Relative Efficiency of Certain Natural Inert Dusts and Synthetic Chemical Insecticides on Trogoderma granarium Everts.  (Coleoptera: Dermestidae)|Ann. Agric. Sci.34(1): 381-400|1989|
121484|T||Schuster,D.J., R.B. Workman, and R.B. Chalfant|Evaluation of a Visual Damage Threshold for Management of Lepidopterous Larvae on Cabbage with Pyrethroid Insecticides|J. Agric. Entomol.1(4): 318-322|1984|
121485|T||Radke,S.G., and A.Y. Thakare|Chemical Control of Citrus Leaf Miner|PKV Res. J.13(1): 44-47|1989|
121486|T||Payne,G.T., B.J. Disney, and T.M. Brown|Field Surveillance and Laboratory Selection for Pyrethroid Resistance in the Tobacco Budworm in South Carolina|J. Agric. Entomol.2(1): 85-92|1985|
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121490|T||Raj,B.T., and T.P. Trivedi|Efficacy of Insecticides Against Potato Tuber Moth, Phthorimaea operculella Infesting Potatoes in Maharashtra|J. Indian Potato Assoc.20(3/4): 216-218|1993|
121491|T||Raj,B.T., and T.P. Trivedi|New Insecticides for the Control of Potato Tubermoth Phthorimaea operculella (Zell.) in Country Stores|Indian J. Plant Prot.15(2): 142-144|1987|
121492|T||Johnson,J.W., and J.C. Wise|Peach, Season Long Broad Spectrum Insect Control, 1991|Insectic. Acaric. Tests17:59-|1992|10.1093/iat/17.1.59
121493|A||Lee,J.J., and I.R. Schultz|Sex Differences in the Uptake and Disposition of Perfluorooctanoic Acid in Fathead Minnows After Oral Dosing|Environ. Sci. Technol.44(1): 491-496|2009|
121494|T||Thompson,P.L., and A.S. Polebitski|Effect of Mycorrhizal Fungi on the Phytoremediation of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX)|Environ. Sci. Technol.44(3): 1112-1115|2009|10.1021/es902950r
121495|T||Yu,X.Z., and J.D. Gu|Differences in Uptake and Translocation of Selenate and Selenite by the Weeping Willow and Hybrid Willow|Environ. Sci. Pollut. Res.15(6): 499-508|2008|10.1007/s11356-008-0036-x
121496|T||Aly,M.A.S., and P. Schroder|Effect of Herbicides on Glutathione S-Transferases in the Earthworm, Eisenia fetida|Environ. Sci. Pollut. Res.15(2): 143-149|2008|10.1065/espr2007.02.385
121497|A||Langerveld,A.J., R. Celestine, R. Zaya, D. Mihalko, and C.F. Ide|Chronic Exposure to High Levels of Atrazine Alters Expression of Genes that Regulate Immune and Growth-Related Functions in Developing Xenopus laevis Tadpoles|Environ. Res.109(4): 379-389|2009|10.1016/j.envres.2009.01.006
121498|T||Satre,D., M. Reichert, and C. Corbitt|Effects of Vinclozolin, an Anti-Androgen, on Affiliative Behavior in the Dark-Eyed Junco, Junco hyemalis|Environ. Res.109(4): 400-404|2009|10.1016/j.envres.2009.01.004
121499|A||Svecevicius,G., J. Syvokiene, P. Stasiunaite, and L. Mickeniene|Acute and Chronic Toxicity of Chlorine Dioxide (ClO2) and Chlorite (ClO2-) to Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Pollut. Res.12(5): 302-305|2005|10.1065/espr2005.04.248
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121501|T||Lampis,S., A. Ferrari, A.C.F. Cunha-Queda, P. Alvarenga, S. Di Gregorio, and G. Vallini|Selenite Resistant Rhizobacteria Stimulate SeO3 2- Phytoextraction by Brassica juncea in Bioaugmented Water-Filtering Artificial Beds|Environ. Sci. Pollut. Res.16(6): 663-670|2009|10.1007/s11356-008-0088-y
121502|A||Santos,E.M., J.S. Ball, T.D. Williams, H. Wu, F. Ortega, R. Van Aerle, I. Katsiadaki, F. Falciani, M.R. Viant, J.K. Chi|Identifying Health Impacts of Exposure to Copper Using Transcriptomics and Metabolomics in a Fish Model|Environ. Sci. Technol.44(2): 820-826|2009|10.1021/es902558k
121503|A||Naha,P.C., M. Davoren, A. Casey, and H.J. Byrne|An Ecotoxicological Study of Poly(Amidoamine) Dendrimers-Toward Quantitative Structure Activity Relationships|Environ. Sci. Technol.43(17): 6864-6869|2009|10.1021/es901017v
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150003|A||Marine Bioassay Laboratories|Flow-Through Early-Life Stage Toxicity Tests with Fathead Minnows (Pimephales promelas)|Report Prepared for U.S. EPA, Contract No. 68-03-2947,  Marine Bioassay Laboratories, Watsonville, CA:72 p.|1981|
150004|T||Milks,M.L., and J.H. Myers|Cabbage Looper Resistance to a Nucleopolyhedrovirus Confers Cross-Resistance to Two Granuloviruses|Environ. Entomol.32(2): 286-289|2003|10.1603/0046-225X-32.2.286
150005|T||Jaleel,C.A., R. Gopi, A. Kishorekumar, P. Manivannan, B. Sankar, and R. Panneerselvam|Interactive Effects of Triadimefon and Salt Stress on Antioxidative Status and Ajmalicine Accumulation in Catharanthus roseus|Acta Physiol. Plant.30(3): 287-292|2008|10.1007/s11738-007-0119-1
150006|T||Nouairi,I., W. Ben Ammar, N. Ben Youssef, D.D. Ben Miled, M.H. Ghorbal, and M. Zarrouk|Antioxidant Defense System in Leaves of Indian Mustard (Brassica juncea) and Rape (Brassica napus) Under Cadmium Stress|Acta Physiol. Plant.31(2): 237-247|2009|10.1007/s11738-008-0224-9
150007|T||Zuniga,A.G., A.C. Orea, J.G. Mayer, and A.R. Dorantes|Uptake and Compartmentalization of Phenanthrene by Roots of Cyperus hermaphroditus in Hydroponic System|Afr. J. Biotechnol.8(24): 6799-6806|2009|
150008|A||Wong,S.W.Y., P.T.Y. Leung, A.B. Djurisic, and K.M.Y. Leung|Toxicities of Nano Zinc Oxide to Five Marine Organisms: Influences of Aggregate Size and Ion Solubility|Anal. Bioanal. Chem.396(2): 609-618|2010|10.1007/s00216-009-3249-z
150009|A||Ramesh,M., M. Saravanan, and C. Kavitha|Hormonal Responses of the Fish, Cyprinus carpio, to Environmental Lead Exposure|Afr. J. Biotechnol.8(17): 4154-4158|2009|
150010|A||Horiguchi,T., T. Nishikawa, Y. Ohta, H. Shiraishi, and M. Morita|Time Course of Expression of the Retinoid X Receptor Gene and Induction of Imposex in the Rock Shell, Thais clavigera, Exposed to Triphenyltin Chloride|Anal. Bioanal. Chem.396(2): 597-607|2010|10.1007/s00216-009-3230-x
150011|A||Velasco-Santamaria,Y.M., S.S. Madsen, P. Bjerregaard, and B. Korsgaard|Effects of 17beta-Trenbolone in Male Eelpout Zoarces viviparus Exposed to Ethinylestradiol|Anal. Bioanal. Chem.396(2): 631-640|2010|10.1007/s00216-009-3262-2
150012|A||Sole,M., J.P. Shaw, P.E. Frickers, J.W. Readman, and T.H. Hutchinson|Effects on Feeding Rate and Biomarker Responses of Marine Mussels Experimentally Exposed to Propranolol and Acetaminophen|Anal. Bioanal. Chem.396(2): 649-656|2010|10.1007/s00216-009-3182-1
150013|A||Svecevicius,G.|Fish Avoidance Response to Heavy Metals and Their Mixtures|Acta Zool. Litu.9(2): 103-113|1999|10.1080/13921657.1999.10512293
150014|A||Larson,F., D.G. Petersen, I. Dahllof, and K. Sundback|Combined Effects of an Antifouling Biocide and Nutrient Status on a Shallow-Water Microbenthic Community|Aquat. Microb. Ecol.48(3): 277-294|2007|10.3354/ame048277
150015|T||Vanova,M., J. Hajslova, P. Havlova, P. Matusinsky, K. Lancova, and D. Spitzerova|Effect of Spring Barley Protection on the Production of Fusarium spp. Mycotoxins in Grain and Malt Using Fungicides in Field Trials|Plant Soil Environ.50(10): 447-455|2004|10.17221/4057-PSE
150016|T||Manivannan,P., C.A. Jaleel, B. Sankar, R. Somasundaram, P.V. Murali, R. Sridharan, and R. Panneerselvam|Salt Stress Mitigation by Calcium Chloride in Vigna radiata (L.) Wilczek|Acta Biol. Crac., Ser. Bot. 49(2): 105-109|2007|
150017|A||Mondal,D., S. Barat, and M.K. Mukhopadhyay|Toxicity of Neem Pesticides on a Fresh Water Loach, Lepidocephalichthys guntea (Hamilton Buchanan) of Darjeeling District in West Bengal|J. Environ. Biol.28(1): 119-122|2007|
150018|T||Qian,Z., K. Gong, L. Zhang, J. Lv, F. Jing, Y. Wang, S. Guan, G. Wang, and K. Tang|A Simple and Efficient Procedure to Enhance Artemisinin Content in Artemisia annua L. by Seeding to Salinity Stress|Afr. J. Biotechnol.6(12): 1410-1413|2007|
150019|T||Lahlou,S., L.F.L. Interaminense, P.J.C. Magalhaes, J.H. Leal-Cardoso, and G.P. Duarte|Cardiovascular Effects of Eugenol, a Phenolic Compound Present in Many Plant Essential Oils, in Normotensive Rats|J. Cardiovasc. Pharmacol.43(2): 250-257|2004|10.1097/00005344-200402000-00013
150020|T||Dote,E., T. Dote, H. Shimizu, Y. Shimbo, M. Fujihara, and K. Kono|Acute Lethal Toxicity, Hyperkalemia Associated with Renal Injury and Hepatic Damage After Intravenous Administration of Cadmium Nitrate in Rats|J. Occup. Health49(1): 17-24|2007|10.1539/joh.49.17
150021|T||Asrar,J., Y.W. Ding, R.E. La Monica, and L.C. Ness|Controlled Release of Tebuconazole from a Polymer Matrix Microparticle:  Release Kinetics and Length of Efficacy|J. Agric. Food Chem.52(15): 4814-4820|2004|10.1021/jf0306385
150022|T||Matsuda,S., S. Saika, K. Amano, E. Shimizu, and J. Sajiki|Changes in Brain Monoamine Levels in Neonatal Rats Exposed to Bisphenol A at Low Doses|Chemosphere78(7): 894-906|2010|10.1016/j.chemosphere.2009.11.010
150023|T||Choudhary,A., and D.C. Sharma|Dynamics of Pesticide Residues in Nectar and Pollen of Mustard (Brassica juncea (L.) Czern.) Grown in Himachal Pradesh (India)|Environ. Monit. Assess.144(1-3): 143-150|2008|10.1007/s10661-007-9952-3
150024|T||Pozzebon,A., M. Borgo, and C. Duso|The Effects of Fungicides on Non-Target Mites can be Mediated by Plant Pathogens|Chemosphere79(1): 8-17|2010|10.1016/j.chemosphere.2010.01.064
150025|A||Chebbi,S.G., and M. David|Neurobehavioral Responses of the Freshwater Teleost, Cyprinus carpio (Linnaeus.) Under Quinalphos Intoxication|Biotechnol. Anim. Husb.25(3/4): 241-249|2009|10.2298/BAH0904241C
150026|A||Guimaraes,A.T.B., and P. Calil|Growth Evaluation of Oreochromis niloticus (Cichlidae, Neopterygii) Exposed to Trichlorfon|Braz. Arch. Biol. Technol.51(2): 323-332|2008|10.1590/S1516-89132008000200012
150027|T||Celik,A., B. Mazmanci, Y. Camlica, A. Akin, and U. Comelekoglu|Cytogenetic Effects of lambda-Cyhalothrin on Wistar Rat Bone Marrow|Mutat. Res.539(1/2): 91-97|2003|10.1016/S1383-5718(03)00159-1
150029|A||Khalil,W.K.B., M.A. Mahmoud, M.M. Zahran, and K.F. Mahrous|A Sub-Acute Study of Metronidazole Toxicity Assessed in Egyptian Tilapia zillii|J. Appl. Toxicol.27(4): 380-390|2007|10.1002/jat.1217
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150031|A||Lukancic,S., U. Zibrat, T. Mezek, A. Jerebic, T. Simcic, and A. Brancelj|Effects of Exposing Two Non-Target Crustacean Species, Asellus aquaticus L., and Gammarus fossarum Koch., to Atrazine and Imidacloprid|Bull. Environ. Contam. Toxicol.84(1): 85-90|2010|10.1007/s00128-009-9854-x
150032|A||Ali,H.A.J., and V.J. Rani|Effect of Phosalone on Haematological Indices in the Tilapia, Oreochromis mossambicus|Turk. J. Vet. Anim. Sci.33(5): 407-411|2009|
150033|A||Burnat,M., E. Diestra, I. Esteve, and A. Sole|Confocal Laser Scanning Microscopy Coupled to a Spectrofluorometric Detector as a Rapid Tool for Determining the In Vivo Effect of Metals on Phototrophic Bacteria|Bull. Environ. Contam. Toxicol.84(1): 55-60|2010|10.1007/s00128-009-9907-1
150034|A||Prashanth,M.S., and M. David|Impact of Cypermethrin on Na+-K+, Ca2+ and Mg2+ ATPases in Indian Major Carp, Cirrhinus mrigala (Hamilton)|Bull. Environ. Contam. Toxicol.84(1): 80-84|2010|10.1007/s00128-009-9864-8
150035|A||Ali,F.K., A.M. El-Shehawi, and M.A. Seehy|Micronucleus Test in Fish Genome:  A Sensitive Monitor for Aquatic Pollution|Afr. J. Biotechnol.7(5): 606-612|2008|
150036|A||Rigby,M.C., X. Deng, T.M. Grieb, S.J. Teh, and S.S.O. Hung|Effect Threshold for Selenium Toxicity in Juvenile Splittail, Pogonichthys macrolepidotus A.|Bull. Environ. Contam. Toxicol.84(1): 76-79|2010|10.1007/s00128-009-9882-6
150037|T||Abdel-Razek,A.S., T.M. Abdel-Ghany, S.A. Mahmoud, H.H. El-Sheikh, and M.S. Mahmoud|The Use of Free and Immobilized Cunninghamella elegans for Removing Cobalt Ions from Aqueous Waste Solutions|World J. Microbiol. Biotechnol.25(12): 2137-2145|2009|10.1007/s11274-009-0118-z
150038|A||Davidson,G.|DDT-Resistance and Dieldrin-Resistance in Anopheles albimanus|Bull. W. H. O.28:25-33|1963|
150039|A||Dogan,M., S.D. Saygideger, and U. Colak|Effect of Lead Toxicity on Aquatic Macrophyte Elodea canadensis Michx.|Bull. Environ. Contam. Toxicol.83(2): 249-254|2009|10.1007/s00128-009-9733-5
150040|T||Chiapusio,G., F. Pellissier, and C. Gallet|Uptake and Translocation of Phytochemical 2-Benzoxazolinone (BOA) in Radish Seeds and Seedlings|J. Exp. Bot.55(402): 1587-1592|2004|10.1093/jxb/erh172
150044|T||Luo,Y.R., S.H. Wang, M.X. Yun, X.Y. Li, J.J. Wang, and Z.J. Sun|The Toxic Effects of Ionic Liquids on the Activities of Acetylcholinesterase and Cellulase in Earthworms|Chemosphere77(3): 313-318|2009|10.1016/j.chemosphere.2009.07.026
150046|A||Christensen,K.M., and G.L. Rorrer|Equilibrium Partitioning Behavior of Naphthalene and Phenanthrene with Axenic Microplantlets of the Temperate Green Seaweed Acrosiphonia coalita|Chemosphere76(8): 1135-1142|2009|10.1016/j.chemosphere.2009.04.018
150047|T||Cenkci,S., M. Yildiz, I.H. Cigerci, M. Konuk, and A. Bozdag|Toxic Chemicals-Induced Genotoxicity Detected by Random Amplified Polymorphic DNA (RAPD) in Bean (Phaseolus vulgaris L.) Seedlings|Chemosphere76(7): 900-906|2009|10.1016/j.chemosphere.2009.05.001
150049|A||Awasthi,M.|Nitrate Reductase Activity:  A Solution to Nitrate Problems Tested in Free and Immobilized Algal Cells in Presence of Heavy Metals|Int. J. Environ. Sci. Technol. (Tehran)2(3): 201-206|2005|10.1007/BF03325876
150050|T||Catala,M., M. Esteban, J.L. Rodriguez-Gil, and L.G. Quintanilla|Development of a Naturally Miniaturised Testing Method Based on the Mitochondrial Activity of Fern Spores:  A New Higher Plant Bioassay|Chemosphere77(7): 983-988|2009|10.1016/j.chemosphere.2009.07.080
150051|T||De Silva,P.M.C.S., A. Pathiratne, and C.A.M. Van Gestel|Influence of Temperature and Soil Type on the Toxicity of Three Pesticides to Eisenia andrei|Chemosphere76(10): 1410-1415|2009|10.1016/j.chemosphere.2009.06.006
150052|T||De Silva,P.M.C.S., and C.A.M. Van Gestel|Comparative Sensitivity of Eisenia andrei and Perionyx excavatus in Earthworm Avoidance Tests Using Two Soil Types in the Tropics|Chemosphere77(11): 1609-1613|2009|10.1016/j.chemosphere.2009.09.034
150053|A||De Bel,E., J. Dewulf, B.D. Witte, H. Van Langenhove, and C. Janssen|Influence of pH on the Sonolysis of Ciprofloxacin:  Biodegradability, Ecotoxicity and Antibiotic Activity of Its Degradation Products|Chemosphere77(2): 291-295|2009|10.1016/j.chemosphere.2009.07.033
150054|A||Ding,Y., J. You, and M.J. Lydy|Analysis of Pyrethroid Insecticides in Chironomus dilutus Using Matrix Solid Phase Dispersion Extraction|Bull. Environ. Contam. Toxicol.83(3): 388-392|2009|10.1007/s00128-009-9784-7
150055|A||Ebenso,I.E., and A.D. Ologhobo|Effects of Lead Pollution Against Juvenile Achatina achatina Fed on Contaminated Artificial Diet|Bull. Environ. Contam. Toxicol.82(5): 583-585|2009|10.1007/s00128-008-9625-0
150056|T||Ci,D., D. Jiang, T. Dai, Q. Jing, and W. Cao|Effects of Cadmium on Plant Growth and Physiological Traits in Contrast Wheat Recombinant Inbred Lines Differing in Cadmium Tolerance|Chemosphere77(11): 1620-1625|2009|10.1016/j.chemosphere.2009.08.062
150057|A||Wang,H.W., H.M. Xu, G.H. Xiao, C.L. Zhao, Z.H. Wang, D.B. Cai, H.Q. Li, and J.H. Zhao|Effects of Selenium on the Antioxidant Enzymes Response of Neocaridina heteropoda Exposed to Ambient Nitrite|Bull. Environ. Contam. Toxicol.84(1): 112-117|2010|10.1007/s00128-009-9911-5
150058|A||Nelson,R.W., M. Nipper, A. Lawrence, and S. Watts|Parental Dietary Effect on Embryological Development Response to Toxicants with the Sea Urchin Arbacia punctulata|Bull. Environ. Contam. Toxicol.84(1): 71-75|2010|10.1007/s00128-009-9909-z
150059|A||Turgut,C., and A. Fomin|Sensitivity of the Rooted Macrophyte Myriophyllum aquaticum (Vell.) Verdcourt to Seventeen Pesticides Determined on the Basis of EC50|Bull. Environ. Contam. Toxicol.69:601-608|2002|10.1007/s00128-002-0103-9
150060|A||Ismail,M., R. Ali, T. Ali, U. Waheed, and Q.M. Khan|Evaluation of the Acute Toxicity of Profenofos and Its Effects on the Behavioral Pattern of Fingerling Common Carp (Cyprinus carpio L., 1758)|Bull. Environ. Contam. Toxicol.82(5): 569-573|2009|10.1007/s00128-009-9670-3
150061|A||Katsumata,M., T. Koike, K. Kazumura, A. Takeuchi, and Y. Sugaya|Utility of Delayed Fluorescence as Endpoint for Rapid Estimation of Effect Concentration on the Green Alga Pseudokirchneriella subcapitata|Bull. Environ. Contam. Toxicol.83(4): 484-487|2009|10.1007/s00128-009-9826-1
150062|A||Sial,I.M., M.A. Kazmi, Q.B. Kazmi, and S.N.H. Naqvi|Toxicity of Biosal (Phytopesticide) and Permethrin (Pyrethroid) Against Common Carp, Cyprinus carpio|Pak. J. Zool.41(3): 235-238|2009|
150063|A||Llanos-Rivera,A., L.R. Castro, J. Silva, and E. Bay-Schmith|A New Developmental Toxicity Test for Pelagic Fish Using Anchoveta (Engraulis ringens J.)|Bull. Environ. Contam. Toxicol.83(1): 23-28|2009|10.1007/s00128-009-9714-8
150064|T||Zehnder,G.W., and J. Speese III|Evaluation of Various Spray Nozzle and Volume Combinations for Control of Colorado Potato Beetle (Coleoptera:  Chrysomelidae) with Synthetic and Biological Insecticides|J. Econ. Entomol.84(6): 1842-1849|1991|10.1093/jee/84.6.1842
150065|A||Park,S.Y., and J. Choi|Genotoxic Effects of Nonylphenol and Bisphenol A Exposure in Aquatic Biomonitoring Species:  Freshwater Crustacean, Daphnia magna, and Aquatic Midge, Chironomus riparius|Bull. Environ. Contam. Toxicol.83(4): 463-468|2009|10.1007/s00128-009-9745-1
150066|T||Kakar,K.L., G.S. Dogra, and A. Nath|Incidence and Control of Pomegranate Fruit-Borers, Virachola isocrates (Fabr.) and Deudorix epijarbas (Moore)|Indian J. Agric. Sci.57(10): 749-752|1987|
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150068|T||Williams,P., R.L. Semple, and T.G. Amos|Relative Toxicity and Persistence of Three Pyrethroid Insecticides on Concrete, Wood and Iron Surfaces for Control of Grain Insects|Gen. Appl. Entomol.15:7-10|1983|
150069|T||DeVries,T.A., and R.J. Wright|Evaluation of Insecticides for Control of Larval European Corn Borer on Whorl-Stage Corn, 1997|Arthropod Manag. Tests23:191-192|1998|10.1093/amt/23.1.191
150070|A||Mendez,N., C. Green-Ruiz, and R. Vazquez-Nunez|Mortality and Abnormalities Observed After Experimental Hg Exposure in the Polychaete Eurythoe complanata (Pallas) from Mazatlan, Mexico|Bull. Environ. Contam. Toxicol.83(4): 488-492|2009|10.1007/s00128-009-9820-7
150071|A||Meng,Y., and E. Zou|A Molecular Biomarker for Disruption of Crustacean Molting:  The N-Acetyl-beta-Glucosaminidase mRNA in the Epidermis of the Fiddler Crab|Bull. Environ. Contam. Toxicol.82(5): 554-558|2009|10.1007/s00128-009-9644-5
150072|T||Guedes,R.N.C., J.O.G. Lima, J.P. Santos, and C.D. Cruz|Resistance to DDT and Pyrethroids in Brazilian Populations of Sitophilus zeamais Motsch. (Coleoptera:  Curculionidae)|J. Stored Prod. Res.31(2): 145-150|1995|10.1016/0022-474X(94)00043-S
150073|A||Wu,J., S. Cheng, W. Liang, and Z. Wu|Effects of Organic-Rich Sediment and Below-Ground Sulfide Exposure on Submerged Macrophyte, Hydrilla verticillata|Bull. Environ. Contam. Toxicol.83(4): 497-501|2009|10.1007/s00128-009-9800-y
150074|T||Joshi,R., and B.P. Gupta|Evaluation of Some Insecticides Against the Grubs of Grapevine Beetle, Oides scutellata Hope (Chrysomelidae:  Coleoptera)|Prog. Hortic.19(3/4): 312-315|1987|
150075|T||Huffman,F.R., A.J. Mueller, and J.A. Harding|Dosage-Mortality Studies on Arkansas and Texas Beet Armyworm Strains|J. Ga. Entomol. Soc.17(2): 283-285|1982|
150077|T||Somerville,L., I.R. Challis, and D. Needham|Relevance of Kinetic and Metabolic Data to the Interpretation of Toxicological Findings|Food Addit. Contam.6(1): 33-39|1989|
150078|T||Eastman,C.E., and H. Oloumi-Sadeghi|Control of Lepidopterous Pests on Cabbage, 1991|Insectic. Acaric. Tests17:83-84|1992|10.1093/iat/17.1.83
150079|T||Bishop,B., E. Grafius, W. Boylan-Pett, R. Maier, M. Stehr, S. Merritt, M. Potter, and K. Korpal|Insect Control on Sweet Corn, 1990|Insectic. Acaric. Tests16:73-|1991|10.1093/iat/16.1.73
150080|T||Flessel,J.K.|Alfalfa Weevil Control, 1990|Insectic. Acaric. Tests16:128-129|1991|
150081|T||Veer,V., B.K. Gupta, and P.K. Sen-Sarma|Ovicidal Action of Three Synthetic Pyrethroids Against Poplar Defoliator, Pygaera fulgurita Walk. (Lepidoptera:  Notodontidae)|J. Entomol. Res.16(1): 54-56|1992|
150082|T||Al-Doghairi,M., and W. Cranshaw|Control of Western Black Flea Beetle on Mustard Greens, 1997|Arthropod Manag. Tests23:110-|1998|10.1093/amt/23.1.110
150083|T||Bessin,R.T., and L.H. Townsend|First Generation European Corn Borer Control, 1992|Insectic. Acaric. Tests18(1): 195-196|1993|10.1093/iat/18.1.195a
150084|T||Cogan,P., D. Webb, and M. Wakefield|A Comparison of Four Residual Insecticides for the Control of the Lesser Mealworm Beetle (Alphitobius diaperinus Panzer) in Turkey Broiler Houses in the UK|Int. Pest Control38(2): 52-55|1996|
150085|T||Feng,Q.L., K.G. Davey, A.S.D. Pang, T.R. Ladd, A. Retnakaran, B.L. Tomkins, S. Zheng, and S.R. Palli|Developmental Expression and Stress Induction of Glutathione S-Transferase in the Spruce Budworm, Choristoneura fumiferana|J. Insect Physiol.47(1): 1-10|2001|10.1016/S0022-1910(00)00093-7
150086|A||Damare,C.L., A.K. Kaddoumi, and K.N. Baer|Investigation of the Multixenobiotic Resistance Mechanism in the Freshwater Fishes Western Mosquitofish, Gambusia affinis, and Bluegill Sunfish, Lepomis macrochirus|Bull. Environ. Contam. Toxicol.83(5): 640-643|2009|10.1007/s00128-009-9846-x
150087|A||Deardorff,A.D., and J.D. Stark|Acute Toxicity and Hazard Assessment of Spinosad and R-11 to Three Cladoceran Species and Coho Salmon|Bull. Environ. Contam. Toxicol.82(5): 549-553|2009|10.1007/s00128-009-9643-6
150088|A||Xing,X., Q. Rui, and D. Wang|Lethality Toxicities Induced by Metal Exposure During Development in Nematode Caenorhabditis elegans|Bull. Environ. Contam. Toxicol.83(4): 530-536|2009|10.1007/s00128-009-9816-3
150089|A||Agra,A.R., and A.M.V.M. Soares|Effects of Two Insecticides on Survival, Growth and Emergence of Chironomus riparius Meigen|Bull. Environ. Contam. Toxicol.82(4): 501-504|2009|10.1007/s00128-009-9658-z
150090|A||Amaya-Chavez,A., E. Lopez-Lopez, M. Galar-Martinez, L.M. Gomez-Olivan, and M.M. Garcia-Fabila|Removal of Methyl Parathion in Water, by Dugesia dorotocephala|Bull. Environ. Contam. Toxicol.83(3): 334-336|2009|10.1007/s00128-009-9741-5
150091|A||Zou,E.|Effects of Hypoxia and Sedimentary Naphthalene on the Activity of N-Acetyl-beta-Glucosaminidase in the Epidermis of the Brown Shrimp, Penaeus aztecus|Bull. Environ. Contam. Toxicol.82(5): 579-582|2009|10.1007/s00128-008-9619-y
150092|T||An,Y.J., and C.Y. Yang|Fridericia peregrinabunda (Enchytraeidae) as a New Test Species for Soil Toxicity Assessment|Chemosphere77(3): 325-329|2009|10.1016/j.chemosphere.2009.07.013
150093|A||Aliferis,K.A., S. Materzok, G.N. Paziotou, and M. Chrysayi-Tokousbalides|Lemna minor L. as a Model Organism for Ecotoxicological Studies Performing 1H NMR Fingerprinting|Chemosphere76(7): 967-973|2009|10.1016/j.chemosphere.2009.04.025
150094|T||An,J., Q. Zhou, Y. Sun, and Z. Xu|Ecotoxicological Effects of Typical Personal Care Products on Seed Germination and Seedling Development of Wheat (Triticum aestivum L.)|Chemosphere76(10): 1428-1434|2009|10.1016/j.chemosphere.2009.06.004
150095|T||Bartling,J., A. Kotzerke, M. Mai, J. Esperschutz, F. Buegger, M. Schloter, and B.M. Wilke|Microbial Community Structure and Function During Abnormal Curve Development of Substrate-Induced Respiration Measurements|Chemosphere77(11): 1488-1494|2009|10.1016/j.chemosphere.2009.10.024
150096|A||Vendrell,E., D.G.B. Ferraz, C. Sabater, and J.M. Carrasco|Effect of Glyphosate on Growth of Four Freshwater Species of Phytoplankton: A Microplate Bioassay|Bull. Environ. Contam. Toxicol.82(5): 538-542|2009|10.1007/s00128-009-9674-z
150097|A||Velisek,J., Z. Svobodova, V. Piackova, and E. Sudova|Effects of Acute Exposure to Metribuzin on Some Hematological, Biochemical and Histopathological Parameters of Common Carp (Cyprinus carpio L.)|Bull. Environ. Contam. Toxicol.82(4): 492-495|2009|10.1007/s00128-009-9648-1
150098|T||Brunet,J., G. Varrault, Y. Zuily-Fodil, and A. Repellin|Accumulation of Lead in the Roots of Grass Pea (Lathyrus sativus L.) Plants Triggers Systemic Variation in Gene Expression in the Shoots|Chemosphere77(8): 1113-1120|2009|10.1016/j.chemosphere.2009.07.058
150099|A||Parkhurst,B.R., H.L. Bergman, J.D. Fernandez, D.D. Gulley, J.R. Hockett, and D.A. Sanchez|Inorganic Monomeric Aluminum and pH as Predictors of Acidic Water Toxicity to Brook Trout (Salvelinus fontinalis)|Can. J. Fish. Aquat. Sci.47:1631-1640|1990|10.1139/f90-185
150100|A||Ingersoll,C.G., D.A. Sanchez, J.S. Meyer, D.D. Gulley, and J.E. Tietge|Epidermal Response to pH, Aluminum, and Calcium Exposure in Brook Trout (Salvelinus fontinalis) Fry|Can. J. Fish. Aquat. Sci.47:1616-1622|1990|10.1139/f90-183
150101|A||Banni,M., Z. Bouraoui, C. Clerandeau, J.F. Narbonne, and H. Boussetta|Mixture Toxicity Assessment of Cadmium and Benzo(a)pyrene in the Sea Worm Hediste diversicolor|Chemosphere77(7): 902-906|2009|10.1016/j.chemosphere.2009.08.041
150102|A||Schreiber,R., R. Altenburger, A. Paschke, G. Schuurmann, and E. Kuster|A Novel In Vitro System for the Determination of Bioconcentration Factors and the Internal Dose in Zebrafish (Danio rerio) Eggs|Chemosphere77(7): 928-933|2009|10.1016/j.chemosphere.2009.08.038
150103|A||Re,A., R. Freitas, L. Sampaio, A.M. Rodrigues, and V. Quintino|Estuarine Sediment Acute Toxicity Testing with the European Amphipod Corophium multisetosum Stock, 1952|Chemosphere76(10): 1323-1333|2009|10.1016/j.chemosphere.2009.06.041
150104|A||Ricart,M., D. Barcelo, A. Geiszinger, H. Guasch, M.L. De Alda, A.M. Romani, G. Vidal, M. Villagrasa, and S. Sabater|Effects of Low Concentrations of the Phenylurea Herbicide Diuron on Biofilm Algae and Bacteria|Chemosphere76(10): 1392-1401|2009|10.1016/j.chemosphere.2009.06.017
150105|A||Yadav,K.K., and S.P. Trivedi|Sublethal Exposure of Heavy Metals Induces Micronuclei in Fish, Channa punctata|Chemosphere77(11): 1495-1500|2009|10.1016/j.chemosphere.2009.10.022
150106|T||Son,J., K.I. Shin, and K. Cho|Response Surface Model for Predicting Chronic Toxicity of Cadmium to Paronychiurus kimi (Collembola), with a Special Emphasis on the Importance of Soil Characteristics in the Reproduction Test|Chemosphere77(7): 889-894|2009|10.1016/j.chemosphere.2009.08.047
150107|A||Suryavanshi,U., R.A. Sreepada, Z.A. Ansari, S. Nigam, and S. Badesab|A Study on Biochemical Changes in the Penaeid Shrimp, Metapenaeus monoceros (Fabricius) Following Exposure to Sublethal Doses of Organochlorine Pesticide (Endosulfan)|Chemosphere77(11): 1540-1550|2009|10.1016/j.chemosphere.2009.09.051
150108|A||Sigler,M., and L. Leibovitz|Acute Toxicity of Oil and Bilge Cleaners to Larval American Oysters (Crassostrea virginica)|Bull. Environ. Contam. Toxicol.29:137-145|1982|10.1007/BF01606141
150109|A||Hunt,J., G. Birch, M.S.J. Warne, and R. Krassoi|Evaluation of a Methodology for Toxicity Testing of Volatile Chlorinated Hydrocarbons on Marine Organisms|Bull. Environ. Contam. Toxicol.82(6): 743-748|2009|10.1007/s00128-009-9678-8
150110|A||Barica,J., H. Kling, and J. Gibson|Experimental Manipulation of Algal Bloom Composition by Nitrogen Addition|Can. J. Fish. Aquat. Sci.37:1175-1183|1980|10.1139/f80-150
150111|A||Prado,R., C. Rioboo, C. Herrero, and A. Cid|The Herbicide Paraquat Induces Alterations in the Elemental and Biochemical Composition of Non-Target Microalgal Species|Chemosphere76(10): 1440-1444|2009|10.1016/j.chemosphere.2009.06.003
150112|A||Qian,H., H. Hu, Y. Mao, J. Ma, A. Zhang, W. Liu, and Z. Fu|Enantioselective Phytotoxicity of the Herbicide Imazethapyr in Rice|Chemosphere76(7): 885-892|2009|10.1016/j.chemosphere.2009.05.009
150113|T||Rahman,M.A., H. Hasegawa, K. Kadohashi, T. Maki, and K. Ueda|Hydroxyiminodisuccinic Acid (HIDS):  A Novel Biodegradable Chelating Ligand for the Increase of Iron Bioavailability and Arsenic Phytoextraction|Chemosphere77(2): 207-213|2009|10.1016/j.chemosphere.2009.07.032
150114|T||Raspanti,E., S.O. Cacciola, C. Gotor, L.C. Romero, and I. Garcia|Implications of Cysteine Metabolism in the Heavy Metal Response in Trichoderma harzianum and in Three Fusarium Species|Chemosphere76(1): 48-54|2009|10.1016/j.chemosphere.2009.02.030
150115|T||Navarro,R.R., H. Ichikawa, K. Morimoto, and K. Tatsumi|Enhancing the Release and Plant Uptake of PAHs with a Water-Soluble Purine Alkaloid|Chemosphere76(8): 1109-1113|2009|10.1016/j.chemosphere.2009.04.021
150116|A||Osterauer,R., N. Haus, B. Sures, and H.R. Kohler|Uptake of Platinum by Zebrafish (Danio rerio) and Ramshorn Snail (Marisa cornuarietis) and Resulting Effects on Early Embryogenesis|Chemosphere77(7): 975-982|2009|10.1016/j.chemosphere.2009.08.033
150117|T||Zabludowska,E., J. Kowalska, L. Jedynak, S. Wojas, A. Sklodowska, and D.M. Antosiewicz|Search for a Plant for Phytoremediation - What can we Learn from Field and Hydroponic Studies?|Chemosphere77(3): 301-307|2009|10.1016/j.chemosphere.2009.07.064
150118|A||Lushchak,O.V., O.I. Kubrak, J.M. Storey, K.B. Storey, and V.I. Lushchak|Low Toxic Herbicide Roundup Induces Mild Oxidative Stress in Goldfish Tissues|Chemosphere76(7): 932-937|2009|10.1016/j.chemosphere.2009.04.045
150119|A||Maleva,M.G., G.F. Nekrasova, P. Malec, M.N.V. Prasad, and K. Strzalka|Ecophysiological Tolerance of Elodea canadensis to Nickel Exposure|Chemosphere77(3): 392-398|2009|10.1016/j.chemosphere.2009.07.024
150120|T||Pisani,T., S. Munzi, L. Paoli, M. Backor, and S. Loppi|Physiological Effects of a Geothermal Element:  Boron Excess in the Epiphytic Lichen Xanthoria parietina (L.) TH. FR.|Chemosphere76(7): 921-926|2009|10.1016/j.chemosphere.2009.04.058
150121|T||Yu,X.Y., G.G. Ying, and R.S. Kookana|Reduced Plant Uptake of Pesticides with Biochar Additions to Soil|Chemosphere76(5): 665-671|2009|10.1016/j.chemosphere.2009.04.001
150122|A||Park,K., H.W. Bang, J. Park, and I.S. Kwak|Ecotoxicological Multilevel-Evaluation of the Effects of Fenbendazole Exposure to Chironomus riparius Larvae|Chemosphere77(3): 359-367|2009|10.1016/j.chemosphere.2009.07.019
150124|T||Hatfaludi,T., M. Liska, D. Zellinger, J.P. Ousman, M. Szostak, A. Ambrus, K. Jalava, and W. Lubitz|Bacterial Ghost Technology for Pesticide Delivery|J. Agric. Food Chem.52(18): 5627-5634|2004|10.1021/jf049489w
150125|A||Degger,N., A. Avenant-Oldewage, and R. Greenfield|Innovative Fluorescence Detection Technique for Metals in Cestode Egg-Shells|Afr. Zool.44(2): 204-207|2009|10.1080/15627020.2009.11407453
150127|A||Fodorpataki,L., C. Bartha, and Z.G. Keresztes|Stress-Physiological Reactions of the Green Alga Scenedesmus opoliensis to Water Pollution with Herbicides|An. Univ. Oradea Fasc. Biol.16(1): 51-56|2009|
150128|A||Park,E.K., W.C. Jung, and H.J. Lee|Application of a Solid-Phase Fluorescence Immunoassay to Determine Amoxicillin Residues in Fish Tissue|Acta Vet. Hung.58(1): 83-89|2010|10.1556/avet.58.2010.1.9
150129|T||Pan,X., D. Zhang, X. Chen, G. Mu, L. Li, and A. Bao|Effects of Levofloxacin Hydrochloride on Photosystem II Activity and Heterogeneity of Synechocystis sp.|Chemosphere77(3): 413-418|2009|10.1016/j.chemosphere.2009.06.051
150130|T||Scarponi,L., D. Del Buono, E. Quagliarini, and R. D'Amato|Festuca arundinacea Grass and Herbicide Safeners to Prevent Herbicide Pollution|Agron. Sustain. Dev.29(2): 313-319|2009|10.1051/agro:2008048
150131|A||Mikula,P., K. Kruzikova, R. Dobsikova, D. Harustiakova, and Z. Svobodova|Influence of Propylparaben on Vitellogenesis and Sex Ratio in Juvenile Zebrafish (Danio rerio)|Acta Vet. Brno78(2): 319-326|2009|10.2754/avb200978020319
150132|T||Usman,A.R.A., and H.M. Mohamed|Effect of Microbial Inoculation and EDTA on the Uptake and Translocation of Heavy Metal by Corn and Sunflower|Chemosphere76(7): 893-899|2009|10.1016/j.chemosphere.2009.05.025
150133|A||Uyanikgil,Y., M. Yalcinkaya, U. Ates, M. Baka, and H. Karakisi|Effects of 2,4-Dichlorophenoxyacetic Acid Formulation on Medulla Spinalis of Poecilia reticulata:  A Histopathological Study|Chemosphere76(10): 1386-1391|2009|10.1016/j.chemosphere.2009.06.018
150134|T||Wahid,A., and A. Ghani|Varietal Differences in Mungbean (Vigna radiata) for Growth, Yield, Toxicity Symptoms and Cadmium Accumulation|Ann. Appl. Biol.152(1): 59-69|2008|10.1111/j.1744-7348.2007.00192.x
150135|A||Uhnakova,B., A. Petrickova, D. Biedermann, L. Homolka, V. Vejvoda, P. Bednar, B. Papouskova, M. Sulc, and L. Martinkova|Biodegradation of Brominated Aromatics by Cultures and Laccase of Trametes versicolor|Chemosphere76(6): 826-832|2009|10.1016/j.chemosphere.2009.04.016
150136|A||Tao,X., J.D. Fortner, B. Zhang, Y. He, Y. Chen, and J.B. Hughes|Effects of Aqueous Stable Fullerene Nanocrystals (nC60) on Daphnia magna:  Evaluation of Sub-Lethal Reproductive Responses and Accumulation|Chemosphere77(11): 1482-1487|2009|10.1016/j.chemosphere.2009.10.027
150137|T||Wahid,A., A. Ghani, and F. Javed|Effect of Cadmium on Photosynthesis, Nutrition and Growth of Mungbean|Agron. Sustain. Dev.28(2): 273-280|2008|10.1051/agro:2008010
150138|A||Nath,R.|Influence of Pesticide Decis on Hematology of Air-Breathing Fish Channa punctatus (Bloch.)|Environ. Ecol.27(4): 1530-1531|2009|
150139|T||Mondal,S., and A.K. Biswas|Relative Toxicity of Different Insecticides Against Macrosiphoniella sanborni Gillette on Chrysanthemum|Environ. Ecol.27(3A): 1328-1331|2009|
150140|T||Paul,S.K., B. Bandyopadhyay, and A. Banerjee|Relative Toxicity of Insecticides on Larvae of Spilosoma obliqua Walker (Arcitiidae:  Lepidoptera)|Environ. Ecol.27(3A): 1251-1252|2009|
150141|A||Maroni,G., J. Wise, J.E. Young, and E. Otto|Metallothionein Gene Duplications and Metal Tolerance in Natural Poplulations of Drosophila melanogaster|Genetics117:739-744|1987|10.1093/genetics/117.4.739
150142|A||Dubilier,N.|H2S - A Settlement Cue or a Toxic Substance for Capitella sp. I Larvae?|Biol. Bull.174:30-38|1988|10.2307/1541756
150143|A||Stevant,P.|Reducing Bacterial Contamination of Artemia in Larviculture Using Short Bath Treatments|Fish Farm.32(3): 36-39|2009|
150144|T||Sobrino-Plata,J., C. Ortega-Villasante, M.L. Flores-Caceres, C. Escobar, F.F. Del Campo, and L.E. Hernandez|Differential Alterations of Antioxidant Defenses as Bioindicators of Mercury and Cadmium Toxicity in Alfalfa|Chemosphere77(7): 946-954|2009|10.1016/j.chemosphere.2009.08.007
150146|T||Tabaldi,L.A., D. Cargnelutti, J.F. Goncalves, L.B. Pereira, G.Y. Castro, J. Maldaner, R. Rauber, L.V. Rossato, D.A. Bis|Oxidative Stress is an Early Symptom Triggered by Aluminum in Al-Sensitive Potato Plantlets|Chemosphere76(10): 1402-1409|2009|10.1016/j.chemosphere.2009.06.011
150147|T||Arriagada,C., E. Aranda, I. Sampedro, I. Garcia-Romera, and J.A. Ocampo|Interactions of Trametes versicolor, Coriolopsis rigida and the Arbuscular Mycorrhizal Fungus Glomus deserticola on the Copper Tolerance of Eucalyptus globulus|Chemosphere77(2): 273-278|2009|10.1016/j.chemosphere.2009.07.042
150148|T||Ye,J., Q. Zhang, A. Zhang, Y. Wen, and W. Liu|Enantioselective Effects of Chiral Herbicide Diclofop Acid on Rice Xiushui 63 Seedlings|Bull. Environ. Contam. Toxicol.83(1): 85-91|2009|10.1007/s00128-009-9773-x
150149|T||Peng,K.J., C.L. Luo, Y.H. Chen, G.P. Wang, X.D. Li, and Z.G. Shen|Cadmium and Other Metal Uptake by Lobelia chinensis and Solanum nigrum from Contaminated Soils|Bull. Environ. Contam. Toxicol.83(2): 260-264|2009|10.1007/s00128-009-9701-0
150150|T||Xu,Q., X. Xu, Y. Zhang, C. Ma, G. Li, and L. Hao|Salicylic Acid-Involved in Lead Tolerance Associated with the Maintenance of Reducing Conditions in Mice|Bull. Environ. Contam. Toxicol.83(1): 67-70|2009|10.1007/s00128-009-9750-4
150151|A||Bang,H.W., W. Lee, and I.S. Kwak|Detecting Points as Developmental Delay Based on the Life-History Development and Urosome Deformity of the Harpacticoid Copepod, Tigriopus japonicus sensu lato, Following Exposure to Benzo(a)pyrene|Chemosphere76(10): 1435-1439|2009|10.1016/j.chemosphere.2009.06.002
150152|T||Guo,X.L., C.H. Jia, E.C. Zhao, Y.J. Xu, L.J. Han, and S.R. Jiang|Dissipation and Residues of Chlormequat in Wheat and Soil|Bull. Environ. Contam. Toxicol.84(2): 221-224|2010|10.1007/s00128-009-9920-4
150153|T||Li,R., Y. Jiang, J. Xu, B. Zhou, C. Ma, C. Liu, C. Yang, Y. Xiao, Q. Xu, and L. Hao|Synergistic Action of Exogenous Salicylic Acid and Arbuscular Mycorrhizal Fungus Colonization in Avena nuda Seedlings in Response to NO2 Exposure|Bull. Environ. Contam. Toxicol.84(1): 96-100|2010|10.1007/s00128-009-9895-1
150154|T||Duhan,A., B. Kumari, and R. Gulati|Effect of Household Processing on Fenazaquin Residues in Okra Fruits|Bull. Environ. Contam. Toxicol.84(2): 217-220|2010|10.1007/s00128-009-9863-9
150155|A||Murkowski,A., and E. Skorska|Effect of (C6H5)3PbCl and (C6H5)3SnCl on Delayed Luminescence Intensity, Evolving Oxygen and Electron Transport Rate in Photosystem II of Chlorella vulgaris|Bull. Environ. Contam. Toxicol.84(2): 157-160|2010|10.1007/s00128-009-9880-8
150156|T||Liu,D., D. Qin, and R. Ji|Dissipation of Mefenoxam Residue in Watermelon and Soil Under Field Conditions|Bull. Environ. Contam. Toxicol.84(2): 230-235|2010|10.1007/s00128-009-9887-1
150157|T||Han,D.Y., S.R. Kang, O.S. Park, J.H. Cho, C.K. Won, H.S. Park, K.I. Park, E.H. Kim, and G.S. Kim|Hypothyroidism Induced by Polychlorinated Biphenyls and Up-Regulation of Transthyretin|Bull. Environ. Contam. Toxicol.84(1): 66-70|2010|10.1007/s00128-009-9890-6
150158|T||Khan,M.A., and G.C. Kozub|Systemic Control of Cattle Grubs (Hypoderma spp.) in Steers Treated with Warbex and Weight Gains Associated with Grub Control|Can. J. Comp. Med.45:15-19|1981|
150159|T||Wright,G.W., and J.F. Frank|Ocular Lesions in Chickens Caused by Ammonia Fumes|Can. J. Comp. Med. Vet. Sci.21:225-227|1957|
150160|A||Amutha,C., and P. Subramanian|Tissues Damaging Effect of Zinc Oxide Nanoparticle on Oreochromis mossambicus|Biochem. Cell. Arch.9(2): 235-239|2009|
150161|T||Adaikpoh,M.A., N.E.J. Orhue, and I. Igbe|The Protective Role of Scoparia dulcis on Tissue Antioxidant Defense System of Rats Exposed to Cadmium|Afr. J. Biotechnol.6(10): 1192-1196|2007|
150162|T||Ahmad,M.S.A., M. Hussain, M. Ashraf, R. Ahmad, and M.Y. Ashraf|Effect of Nickel on Seed Germinability of Some Elite Sunflower (Helianthus annuus L.) Cultivars|Pak. J. Bot.41(4): 1871-1882|2009|
150163|A||Tisler,T., A. Jemec, B. Mozetic, and P. Trebse|Hazard Identification of Imidacloprid to Aquatic Environment|Chemosphere76(7): 907-914|2009|10.1016/j.chemosphere.2009.05.002
150164|T||Azad,A.K., N. Islam, A. Alam, H. Mahmud, M.A. Islam, M.R. Karim, and M. Rahman|Arsenic Uptake and Phytotoxicity of T-Aman Rice (Oryza sativa L.) Grown in the As-Amended Soil of Bangladesh|Environmentalist29(4): 436-440|2009|10.1007/s10669-009-9235-3
150165|A||Wang,C., S.H. Zhang, P.F. Wang, J. Qian, J. Hou, W.J. Zhang, and J. Lu|Excess Zn Alters the Nutrient Uptake and Induces the Antioxidative Responses in Submerged Plant Hydrilla verticillata (L.f.) Royle|Chemosphere76(7): 938-945|2009|10.1016/j.chemosphere.2009.04.038
150166|T||Cemek,M., M. Emin Buyukokuroglu, Y. Yurumez, Y. Yavuz, A. Aslan, A. Buyukben, and F. Aymelek|Tissue Trace and Major Element Levels in Organophosphate Insecticide Fenthion (Lebaycid) Toxicity in Rats:  Prophylactic and Therapeutic Effect of Exogenous Melatonin|Ecotoxicol. Environ. Saf.73(2): 206-212|2010|10.1016/j.ecoenv.2009.09.008
150167|A||Whitaker,J., J.S. Chaplow, E. Potter, W.A. Scott, S. Hopkin, M. Harman, I. Sims, and N. Sorokin|The Comparative Toxicity to Soil Invertebrates of Natural Chemicals and Their Synthetic Analogues|Chemosphere76(3): 345-352|2009|10.1016/j.chemosphere.2009.03.060
150168|A||Wiench,K., W. Wohlleben, V. Hisgen, K. Radke, E. Salinas, S. Zok, and R. Landsiedel|Acute and Chronic Effects of Nano- and Non-Nano-Scale TiO(2) and ZnO Particles on Mobility and Reproduction of the Freshwater Invertebrate Daphnia magna|Chemosphere76(10): 1356-1365|2009|10.1016/j.chemosphere.2009.06.025
150170|T||Wu,F.Y., Z.H. Ye, and M.H. Wong|Intraspecific Differences of Arbuscular Mycorrhizal Fungi in Their Impacts on Arsenic Accumulation by Pteris vittata L.|Chemosphere76(9): 1258-1264|2009|10.1016/j.chemosphere.2009.05.020
150171|T||Wang,L., Q. Zhou, and X. Huang|Photosynthetic Responses to Heavy Metal Terbium Stress in Horseradish Leaves|Chemosphere77(7): 1019-1025|2009|10.1016/j.chemosphere.2009.07.065
150172|A||Wang,N., N. Nkejabega, N.N. Hien, T.T. Huynh, F. Silvestre, N.T. Phuong, S. Danyi, J. Widart, C. Douny, M.L. Scippo, P.|Adverse Effects of Enrofloxacin when Associated with Environmental Stress in Tra Catfish (Pangasianodon hypophthalmus)|Chemosphere77(11): 1577-1584|2009|10.1016/j.chemosphere.2009.09.038
150174|T||Ross,J.F., R.C. Switzer, M.R. Poston, and G.T. Lawhorn|Distribution of Bismuth in the Brain After Intraperitoneal Dosing of Bismuth Subnitrate in Mice:  Implications for Routes of Entry of Xenobiotic Metals into the Brain|Brain Res.725:137-154|1996|10.1016/0006-8993(96)00146-1
150175|T||Aden,P., I. Goverud, K. Liestol, E.M. Loberg, R.E. Paulsen, J. Maehlen, and J. Lomo|Low-Potency Glucocorticoid Hydrocortisone has Similar Neurotoxic Effects as High-Potency Glucocorticoid Dexamethasone on Neurons in the Immature Chicken Cerebellum|Brain Res.1236:39-48|2008|10.1016/j.brainres.2008.07.095
150178|T||Castilla,A.M., T. Dauwe, I. Mora, J. Malone, and R. Guitart|Nitrates and Herbicides Cause Higher Mortality than the Traditional Organic Fertilizers on the Grain Beetle, Tenebrio molitor|Bull. Environ. Contam. Toxicol.84(1): 101-105|2010|10.1007/s00128-009-9883-5
150179|T||Ashfaq,M., M.I. Khan, and M.A. Hanif|Use of Morus alba-Bombyx mori as a Useful Template to Assess Pb Entrance in the Food Chain from Wastewater|Environ. Entomol.38(4): 1276-1282|2009|10.1603/022.038.0439
150180|A||Abdullah,K., A.U. Awan, M.K. Khattak, and S. Yasmin|Biological De-Activation of Granular Formulation of a Carbamate Insecticide Cartap in Water Under Laboratory Conditions|Aquacult. Aquarium Conserv. Legis.2(2): 89-95|2009|
150181|T||Borden,J.H., D.S. Pureswaran, and J.P. Lafontaine|Synergistic Blends of Monoterpenes for Aggregation Pheromones of the Mountain Pine Beetle (Coleoptera:  Curculionidae)|J. Econ. Entomol.101(4): 1266-1275|2008|10.1093/jee/101.4.1266
150182|A||Fowler,S.W., and M.Y. Unlu|Factors Affecting Bioaccumulation and Elimination of Arsenic in the Shrimp Lysmata seticaudata|Chemosphere9:711-720|1978|10.1016/0045-6535(78)90108-X
150183|T||Thangavelu,R., G. Sangeetha, and M.M. Mustaffa|Cross-Infection Potential of Crown Rot Pathogen (Lasiodiplodia theobromae) Isolates and Their Management Using Potential Native Bioagents in Banana|Australas. Plant Pathol.36(6): 595-605|2007|10.1071/AP07072
150184|T||Knowles,C.O., and K.M. Chang|Degradation of Formetanate Acaricide by Twospotted Spider Mites|Chemosphere8(1): 3-6|1979|10.1016/0045-6535(79)90080-8
150185|T||Pineda,S., M.I. Schneider, G. Smagghe, A.M. Martinez, P. Del Estal, E. Vinuela, J. Valle, and F. Budia|Lethal and Sublethal Effects of Methoxyfenozide and Spinosad on Spodoptera littoralis (Lepidoptera:  Noctuidae)|J. Econ. Entomol.100(3): 773-780|2007|10.1603/0022-0493(2007)100[773:LASEOM]2.0.CO;2
150186|T||Azmat,R., S. Haider, and M. Riaz|An Inverse Relation Between Pb2+ and Ca2+ Ions Accumulation in Phaseolus mungo and Lens culinaris Under Pb Stress|Pak. J. Bot.41(5): 2289-2295|2009|
150187|T||Azmat,R., S. Haider, H. Nasreen, F. Aziz, and M. Riaz|A Viable Alternative Mechanism in Adapting the Plants to Heavy Metal Environment|Pak. J. Bot.41(6): 2729-2738|2009|
150189|A||Sugni,M., V. Manno, A. Barbaglio, D. Mozzi, F. Bonasoro, P. Tremolada, and M.D.C. Carnevali|Echinoderm Regenerative Response as a Sensitive Ecotoxicological Test for the Exposure to Endocrine Disrupters:  Effects of p,p'DDE and CPA on Crinoid Arm Regeneration|Cell Biol. Toxicol.24(6): 573-586|2008|10.1007/s10565-008-9057-y
150190|A||Hong,Y., J.J. Huang, and H.Y. Hu|Effects of a Novel Allelochemical Ethyl 2-Methyl Acetoacetate (EMA) on the Ultrastructure and Pigment Composition of Cyanobacterium Microcystis aeruginosa|Bull. Environ. Contam. Toxicol.83(4): 502-508|2009|10.1007/s00128-009-9795-4
150191|T||Kashiwagi,T., K. Shindoh, N. Hirotsu, and K. Ishimaru|Evidence for Separate Translocation Pathways in Determining Cadmium Accumulation in Grain and Aerial Plant Parts in Rice|BMC Plant Biol.9(8): 1-10|2009|
150192|A||Beyers,D.W., J.A. Rice, W.H. Clements, and C.J. Henry|Estimating Physiological Cost of Chemical Exposure:  Integrating Energetics and Stress to Quantify Toxic Effects in Fish|Can. J. Fish. Aquat. Sci.56:814-822|1999|10.1139/f99-006
150193|T||Garcia-Baudin,J.M., M. Villarroya, M.C. Chueca, and J.L. Tadeo|Different Tolerance of Two Cultivars of Triticum turgidum L. to Metribuzin|Chemosphere21(1/2): 223-230|1990|10.1016/0045-6535(90)90394-9
150194|T||Schrenk,D., H.P. Lipp, H. Brunner, T. Wiesmuller, H. Hagenmaier, and K.W. Bock|Induction of Hepatic P450-Dependent Monooxygenase in Feral Mice from a PCDD/PCDF-Contaminated Area|Chemosphere22(11): 1011-1018|1991|10.1016/0045-6535(91)90302-T
150195|A||Lurling,M., and I. Roessink|On the Way to Cyanobacterial Blooms: Impact of the Herbicide Metribuzin on the Competition Between a Green Alga (Scenedesmus) and a Cyanobacterium (Microcystis)|Chemosphere65(4): 618-626|2006|10.1016/j.chemosphere.2006.01.073
150196|A||Santos Miron,D., A. Pretto, M. Crestani, L. Glusczak, M.R. Schetinger, V.L. Loro, and V.M. Morsch|Biochemical Effects of Clomazone Herbicide on Piava (Leporinus obtusidens)|Chemosphere74(1): 1-5|2008|10.1016/j.chemosphere.2008.09.070
150197|T||Li,Y., Q. Zhou, F. Li, X. Liu, and Y. Luo|Effects of Tetrabromobisphenol A as an Emerging Pollutant on Wheat (Triticum aestivum) at Biochemical Levels|Chemosphere74(1): 119-124|2008|10.1016/j.chemosphere.2008.08.024
150198|A||Jancula,D., B. Marsalek, Z. Novotna, J. Cerny, M. Karaskova, and J. Rakusan|In Search of the Main Properties of Phthalocyanines Participating in Toxicity Against Cyanobacteria|Chemosphere77(11): 1520-1525|2009|10.1016/j.chemosphere.2009.09.053
150199|T||Hurdzan,C.M., and R.P. Lanno|Determining Exposure Dose in Soil:  The Effect of Modifying Factors on Chlorinated Benzene Toxicity to Earthworms|Chemosphere76(7): 946-951|2009|10.1016/j.chemosphere.2009.04.036
150200|T||Itziou,A., and V.K. Dimitriadis|The Potential Role of cAMP as a Pollution Biomarker of Terrestrial Environments Using the Land Snail Eobania vermiculata:  Correlation with Lysosomal Membrane Stability|Chemosphere76(10): 1315-1322|2009|10.1016/j.chemosphere.2009.06.032
150201|A||Kumari,N., O.P. Narayan, and L.C. Rai|Understanding Butachlor Toxicity in Aulosira fertilissima Using Physiological, Biochemical and Proteomic Approaches|Chemosphere77(11): 1501-1507|2009|10.1016/j.chemosphere.2009.10.005
150202|A||Kim,J., M. Lee, S. Oh, J.L. Ku, K.H. Kim, and K. Choi|Acclimation to Ultraviolet Irradiation Affects UV-B Sensitivity of Daphnia magna to Several Environmental Toxicants|Chemosphere77(11): 1600-1608|2009|10.1016/j.chemosphere.2009.09.035
150203|A||Kochhann,D., M.A. Pavanato, S.F. Llesuy, L.M. Correa, A.P. Konzen Riffel, V.L. Loro, M.F. Mesko, E.M.M. Flores, V.L. Dr|Bioaccumulation and Oxidative Stress Parameters in Silver Catfish (Rhamdia quelen) Exposed to Different Thorium Concentrations|Chemosphere77(3): 384-391|2009|10.1016/j.chemosphere.2009.07.022
150204|A||Duong,C.N., D. Schlenk, N.I. Chang, and S.D. Kim|The Effect of Particle Size on the Bioavailability of Estrogenic Chemicals from Sediments|Chemosphere76(3): 395-401|2009|10.1016/j.chemosphere.2009.03.024
150205|A||Johal,M.S., M.L. Sharma, and Ravneet |Impact of Low Dose of Organophosphate, Monocrotophos on the Epithelial Cells of Gills of Cyprinus carpio communis Linn. - SEM Study|J. Environ. Biol.28(3): 663-667|2007|
150206|A||Egea-Serrano,A., M. Tejedo, and M. Torralva|Populational Divergence in the Impact of Three Nitrogenous Compounds and Their Combination on Larvae of the Frog Pelophylax perezi (Seoane, 1885)|Chemosphere76(7): 869-877|2009|10.1016/j.chemosphere.2009.05.017
150207|A||Dong,X., L. Zhu, J. Wang, H. Xie, X. Hou, and W. Jia|Effects of Atrazine on Cytochrome P450 Enzymes of Zebrafish (Danio rerio)|Chemosphere77(3): 404-412|2009|10.1016/j.chemosphere.2009.06.052
150210|T||Dominguez,M.T., F. Madrid, T. Maranon, and J.M. Murillo|Cadmium Availability in Soil and Retention in Oak Roots:  Potential for Phytostabilization|Chemosphere76(4): 480-486|2009|10.1016/j.chemosphere.2009.03.026
150211|T||Zhou,X.B., A. Cebron, T. Beguiristain, and C. Leyval|Water and Phosphorus Content Affect PAH Dissipation in Spiked Soil Planted with Mycorrhizal Alfalfa and Tall Fescue|Chemosphere77(6): 709-713|2009|10.1016/j.chemosphere.2009.08.050
150212|T||Huang,G.Y., and Y.S. Wang|Expression Analysis of Type 2 Metallothionein Gene in Mangrove Species (Bruguiera gymnorrhiza) Under Heavy Metal Stress|Chemosphere77(7): 1026-1029|2009|10.1016/j.chemosphere.2009.07.073
150213|A||Hano,T., Y. Oshima, M. Kinoshita, M. Tanaka, Y. Wakamatsu, K. Ozato, M. Nassef, Y. Shimasaki, and T. Honjo|In Ovo Nanoinjection of Nonylphenol Affects Embryonic Development of a Transgenic See-Through Medaka (Oryzias latipes), olvas-GFP/STII-YI Strain|Chemosphere77(11): 1594-1599|2009|10.1016/j.chemosphere.2009.09.036
150214|T||Guan,Z., T. Chai, Y. Zhang, J. Xu, and W. Wei|Enhancement of Cd Tolerance in Transgenic Tobacco Plants Overexpressing a Cd-Induced Catalase cDNA|Chemosphere76(5): 623-630|2009|10.1016/j.chemosphere.2009.04.047
150215|A||Banas,D., Y. Vollaire, M. Danger, M. Thomas, C.A. Oliveira-Ribeiro, H. Roche, and Y. Ledore|Can We Use Stable Isotopes for Ecotoxicological Studies?  Effect of DDT on Isotopic Fractionation in Perca fluviatilis|Chemosphere76(6): 734-739|2009|10.1016/j.chemosphere.2009.05.033
150216|T||Hong,C.L., H.X. Weng, Y.C. Qin, A.L. Yan, and L.L. Xie|Transfer of Iodine from Soil to Vegetables by Applying Exogenous Iodine|Agron. Sustain. Dev.28(4): 575-583|2008|10.1051/agro:2008033
150217|T||Jha,S.K., A.K. Nayak, and Y.K. Sharma|Fluoride Toxicity Effects in Onion (Allium cepa L.) Grown in Contaminated Soils|Chemosphere76(3): 353-356|2009|10.1016/j.chemosphere.2009.03.044
150218|T||Zhang,H., J. Chen, Y. Ni, Q. Zhang, and L. Zhao|Uptake by Roots and Translocation to Shoots of Polychlorinated Dibenzo-p-Dioxins and Dibenzofurans in Typical Crop Plants|Chemosphere76(6): 740-746|2009|10.1016/j.chemosphere.2009.05.030
150219|A||Svecevicius,G.|The Use of Fish Avoidance Response in Identifying Sublethal Toxicity of Heavy Metals and Their Mixtures|Acta Zool. Litu.17(2): 139-143|2007|10.1080/13921657.2007.10512825
150220|T||Han,A., L. Yue, Z. Li, H. Wang, Y. Wang, Q. Ye, L. Lu, and J. Gan|Plant Availability and Phytotoxicity of Soil Bound Residues of Herbicide ZJ0273, a Novel Acetolactate Synthase Potential Inhibitor|Chemosphere77(7): 955-961|2009|10.1016/j.chemosphere.2009.08.008
150221|A||Jin,Y., X. Zhang, L. Shu, L. Chen, L. Sun, H. Qian, W. Liu, and Z. Fu|Oxidative Stress Response and Gene Expression with Atrazine Exposure in Adult Female Zebrafish (Danio rerio)|Chemosphere78(7): 846-852|2010|10.1016/j.chemosphere.2009.11.044
150222|A||Spehar,R.L.|Criteria Document Data on Antimony|Aug.27th Memo to C.Stephan, U.S.EPA, Duluth, MN:22 p.|1987|
150223|A||Phipps,G.L.|Carbofuran Snail Aplexa hypnorum 96 h Acute Test|April 29th Memo to R.Spehar, from G.L.Phipps, U.S.EPA, Duluth, MN:1 p.|1988|
150224|A||Nelson,L.S., and J.F. Shearer|Integrated Weed Management Strategies for Control of Hydrilla|Technical Note, TN APCRP-CC-09. Army Engineer Waterways Experiment Station, Coastal Hydraulics Lab, Vicksburg, MS:6 p.|2009|
150225|T||Ghani,A., and A. Wahid|Varietal Differences for Cadmium-Induced Seedling Mortality and Foliar-Toxicity Symptoms in Mungbean (Vigna radiata)|Int. J. Agric. Biol.9(4): 555-558|2007|
150228|T||Wahid,A., A. Ghani, I. Ali, and M.Y. Ashraf|Effects of Cadmium on Carbon and Nitrogen Assimilation in Shoots of Mungbean [Vigna radiata (L.) Wilczek] Seedlings|J. Agron. Crop Sci.193:357-365|2007|10.1111/j.1439-037X.2007.00270.x
150229|A||Vervliet-Scheebaum,M., A. Straus, H. Tremp, M. Hamer, S.J. Maund, E. Wagner, and R. Schulz|A Microcosm System to Evaluate the Toxicity of the Triazine Herbicide Simazine on Aquatic Macrophytes|Environ. Pollut.158:615-623|2010|10.1016/j.envpol.2009.08.005
150230|T||Migliore,L., F. Godeas, S.P. De Filippis, P. Mantovi, D. Barchi, C. Testa, N. Rubattu, and G. Brambilla|Hormetic Effect(s) of Tetracyclines as Environmental Contaminant on Zea mays|Environ. Pollut.158(1): 129-134|2010|10.1016/j.envpol.2009.07.039
150231|T||Heemsbergen,D.A., M.J. McLaughlin, M. Whatmuff, M.S. Warne, K. Broos, M. Bell, D. Nash, G. Barry, D. Pritchard, and N. |Bioavailability of Zinc and Copper in Biosolids Compared to Their Soluble Salts|Environ. Pollut.158(5): 1907-1915|2010|10.1016/j.envpol.2009.10.037
150232|A||Vevers,W.F., D.R. Dixon, and L.R.J. Dixon|The Role of Hydrostatic Pressure on Developmental Stages of Pomatoceros lamarcki (Polychaeta:  Serpulidae) Exposed to Water Accommodated Fractions of Crude Oil and Positive Genotoxins at Simulated Depths of 1000-3000 m|Environ. Pollut.158(5): 1702-1709|2010|10.1016/j.envpol.2009.11.024
150233|A||Contardo-Jara,V., S. Pflugmacher, G. Nutzmann, W. Kloas, and C. Wiegand|The beta-Receptor Blocker Metoprolol Alters Detoxification Processes in the Non-Target Organism Dreissena polymorpha|Environ. Pollut.158(6): 2059-2066|2010|10.1016/j.envpol.2010.03.012
150234|T||Fan,J.L., Z.Y. Hu, N. Ziadi, X. Xia, and C.Y.H. Wu|Excessive Sulfur Supply Reduces Cadmium Accumulation in Brown Rice (Oryza sativa L.)|Environ. Pollut.158(2): 409-415|2010|10.1016/j.envpol.2009.08.042
150235|T||Brown,S.A.E., J.R. McKelvie, A.J. Simpson, and M.J. Simpson|1H NMR Metabolomics of Earthworm Exposure to Sub-Lethal Concentrations of Phenanthrene in Soil|Environ. Pollut.158(6): 2117-2123|2010|10.1016/j.envpol.2010.02.023
150236|A||Schultz,T.W., C.S. Richter, and J.N. Dumont|Cytotoxicity of Acridine, a Synfuel Component, to Tetrahymena|Environ. Pollut. A.26:215-226|1981|10.1016/0143-1471(81)90007-6
150237|T||Ahemad,M., and M.S. Khan|Toxicity Assessment of Herbicides Quizalafop-p-Ethyl and Clodinafop Towards Rhizobium Pea Symbiosis|Bull. Environ. Contam. Toxicol.82(6): 761-766|2009|10.1007/s00128-009-9692-x
150238|A||Andrade,S., M.J. Pulido, and J.A. Correa|The Effect of Organic Ligands Exuded by Intertidal Seaweeds on Copper Complexation|Chemosphere78(4): 397-401|2010|10.1016/j.chemosphere.2009.11.006
150239|A||Sun,L., L. Wen, X. Shao, H. Qian, Y. Jin, W. Liu, and Z. Fu|Screening of Chemicals with Anti-Estrogenic Activity Using In Vitro and In Vivo Vitellogenin Induction Responses in Zebrafish (Danio rerio)|Chemosphere78(7): 793-799|2010|10.1016/j.chemosphere.2009.12.020
150240|T||Balash,K.J., M.A. Al-Omer, and B.M.A. Latif|Effect of Chlordane on Testicular Tissues of Swiss Mice|Bull. Environ. Contam. Toxicol.39:434-442|1987|10.1007/BF01688307
150242|T||Chatterjee,S., A. Ray, P. Bagchi, and C. Deb|Estrogenic Effects of Aldrin and Quinalphos in Rats|Bull. Environ. Contam. Toxicol.48:125-130|1992|10.1007/BF00197494
150243|T||Karatas,A., and Z. Bahceci|Effect of Cypermethrin on Some Developmental Stages of Drosophila melanogaster|Bull. Environ. Contam. Toxicol.82(6): 738-742|2009|10.1007/s00128-008-9604-5
150244|T||Blanco,A., M.R. Moyano, A.M. Molina, C. Blanco, R. Flores-Acuna, J.R. Garcia-Flores, M. Espada, and J.G. Monterde|Quantitative Study of Leydig Cell Populations in Mice Exposed to Low Doses of Cadmium|Bull. Environ. Contam. Toxicol.82(6): 756-760|2009|10.1007/s00128-009-9700-1
150245|T||Bao,T., L. Sun, T. Sun, P. Zhang, and Z. Niu|Iron-Deficiency Induces Cadmium Uptake and Accumulation in Solanum nigrum L.|Bull. Environ. Contam. Toxicol.82(3): 338-342|2009|10.1007/s00128-008-9573-8
150246|T||Snyman,R.G., and J.P. Odendaal|Effect of Cadmium on Haemocyte Viability of the Woodlouse Porcellio laevis (Isopoda, Crustacea)|Bull. Environ. Contam. Toxicol.83(4): 525-529|2009|10.1007/s00128-009-9814-5
150247|T||Walia,S., R.K. Sharma, and B.S. Parmar|Isolation and Simultaneous LC Analysis of Thiram and Its Less Toxic Transformation Product in DS Formulation|Bull. Environ. Contam. Toxicol.83(3): 363-368|2009|10.1007/s00128-009-9754-0
150249|T||Chandra,R., A. Srivastava, and P.C. Srivastava|Fate of Benfuracarb Insecticide in Mollisols and Brinjal Crop|Bull. Environ. Contam. Toxicol.83(3): 348-351|2009|10.1007/s00128-009-9710-z
150250|T||Arora,P.K., G. Jyot, B. Singh, R.S. Battu, and P.S. Aulakh|Persistence of Imidacloprid on Grape Leaves, Grape Berries and Soil|Bull. Environ. Contam. Toxicol.82(2): 239-242|2009|10.1007/s00128-008-9554-y
150251|T||Liu,D., D. Qin, and R. Ji|Dissipation and Residues of N-(2-Bromophenyl)-2-(4,6-Dimethoxypyrimidin-2-Yloxy)Benzylamine Residues in Rape and Soil Under Field Conditions|Bull. Environ. Contam. Toxicol.83(3): 359-362|2009|10.1007/s00128-009-9748-y
150252|T||Li,R.G., T.T. Li, L. Hao, X. Xu, and J. Na|Hydrogen Peroxide Reduces Lead-Induced Oxidative Stress to Mouse Brain and Liver|Bull. Environ. Contam. Toxicol.82(4): 419-422|2009|10.1007/s00128-008-9599-y
150254|T||Inceer,H., S. Hayirlioglu-Ayaz, and M. Ozcan|Genotoxic Effects of the Insecticide Cypermethrin on the Root Meristem Cells of Sunflowers (Helianthus annuus L.)|Bull. Environ. Contam. Toxicol.83(5): 652-656|2009|10.1007/s00128-009-9856-8
150255|T||Li,Y., J. Liu, Y. Liu, and X. Li|Effects of EDTA on Mechanism of Lead Accumulation in Typha orientalis Presl|Bull. Environ. Contam. Toxicol.83(4): 553-557|2009|10.1007/s00128-009-9787-4
150256|T||Mingji,X., Y. Chongling, Y. Jing, and W. Lily|Impact of Phenanthrene on Organic Acids Secretion and Accumulation by Perennial Ryegrass, Lolium perenne L., Root|Bull. Environ. Contam. Toxicol.83(1): 75-80|2009|10.1007/s00128-009-9775-8
150257|T||Street,R.A., E.E. Elgorashi, M.G. Kulkarni, W.A. Stirk, C. Southway, and J. Van Staden|Effect of Cadmium Accumulation on Anti-Inflammatory Activity in Two Eucomis Species|Bull. Environ. Contam. Toxicol.83(5): 644-647|2009|10.1007/s00128-009-9860-z
150258|T||Maity,A., and I. Mukherjee|Assessment of Iprovalicarb, a Systemic Fungicide in/on Cabbage (Brassica oleracea var. capitata)|Bull. Environ. Contam. Toxicol.83(3): 341-347|2009|10.1007/s00128-009-9645-4
150259|T||Pramanik,S.K., S. Dutta, and A. Bhattacharyya|Studies on the Residue of Hydrogen Cyanamide in Grape Berries|Bull. Environ. Contam. Toxicol.82(5): 644-646|2009|10.1007/s00128-009-9642-7
150260|T||Sahoo,S.K., R.K. Sharma, R.S. Battu, and B. Singh|Dissipation Kinetics of Flubendiamide on Chili and Soil|Bull. Environ. Contam. Toxicol.83(3): 384-387|2009|10.1007/s00128-009-9782-9
150261|T||Shafi,M., J. Bakht, M.J. Hassan, M. Raziuddin, and G. Zhang|Effect of Cadmium and Salinity Stresses on Growth and Antioxidant Enzyme Activities of Wheat (Triticum aestivum L.)|Bull. Environ. Contam. Toxicol.82(6): 772-776|2009|10.1007/s00128-009-9707-7
150262|T||Romeh,A.A., T.M. Mekky, R.A. Ramadan, and M.Y. Hendawi|Dissipation of Profenofos, Imidacloprid and Penconazole in Tomato Fruits and Products|Bull. Environ. Contam. Toxicol.83(6): 812-817|2009|10.1007/s00128-009-9852-z
150263|T||Groth,D.H., C. Kommineni, and G.R. Mackay|Carcinogenicity of Beryllium Hydroxide and Alloys|Environ. Res.21:63-84|1980|10.1016/0013-9351(80)90009-2
150264|T||Ray,A., S. Chatterjee, S. Ghosh, K. Bhattacharya, A. Pakrashi, and C. Deb|Quinalphos-Induced Suppression of Spermatogenesis, Plasma Gonadotrophins, Testicular Testosterone Production, and Secretion in Adult Rats|Environ. Res.57:181-189|1992|10.1016/S0013-9351(05)80078-7
150265|T||Sukul,P., M. Lamshoft, S. Kusari, S. Zuhlke, and M. Spiteller|Metabolism and Excretion Kinetics of 14C-Labeled and Non-Labeled Difloxacin in Pigs After Oral Administration, and Antimicrobial Activity of Manure Containing Difloxacin and Its Metabolites|Environ. Res.109(3): 225-231|2009|10.1016/j.envres.2008.12.007
150266|A||Flores-Valverde,A.M., J. Horwood, and E.M. Hill|Disruption of the Steroid Metabolome in Fish Caused by Exposure to the Environmental Estrogen 17alpha-Ethinylestradiol|Environ. Sci. Technol.44(9): 3552-3558|2010|10.1021/es9039049
150267|A||Taylor,J.F., A. Robinson, N. Johnson, A. Marroquin-Cardona, B. Brattin, R. Taylor, and T.D. Phillips|In Vitro Evaluation of Ferrihydrite as an Enterosorbent for Arsenic from Contaminated Drinking Water|Environ. Sci. Technol.43(14): 5501-5506|2009|10.1021/es803624b
150268|A||Steele,C.W., A.D. Scarfe, and D.W. Owens|Effects of Group Size on the Responsiveness of Zebrafish, Brachydanio rerio (Hamilton Buchanan), to Alanine, a Chemical Attractant|J. Fish Biol.38(4): 553-564|1991|10.1111/j.1095-8649.1991.tb03142.x
150269|A||Scarfe,A.D., C.W. Steele, and G.K. Rieke|Quantitative Chemobehavior of Fish:  an Improved Methodology|Environ. Biol. Fishes13(3): 183-194|1985|10.1007/BF00000930
150270|A||Neuwoehner,J., K. Fenner, and B.I. Escher|Physiological Modes of Action of Fluoxetine and Its Human Metabolites in Algae|Environ. Sci. Technol.43(17): 6830-6837|2009|10.1021/es9005493
150271|T||Li,X., Y. Zhu, T. Wu, S. Zhang, and P. Christie|Using a Novel Petroselinic Acid Embedded Cellulose Acetate Membrane to Mimic Plant Partitioning and In Vivo Uptake of Polycyclic Aromatic Hydrocarbons|Environ. Sci. Technol.44(1): 297-301|2009|10.1021/es902283x
150272|A||Lapointe,D., S. Gentes, D.E. Ponton, L. Hare, and P. Couture|Influence of Prey Type on Nickel and Thallium Assimilation, Subcellular Distribution and Effects in Juvenile Fathead Minnows (Pimephales promelas)|Environ. Sci. Technol.43(22): 8665-8670|2009|10.1021/es901929m
150273|T||Bindesbol,A.M., M. Bayley, C. Damgaard, K. Hedlund, and M. Holmstrup|Changes in Membrane Phospholipids as a Mechanistic Explanation for Decreased Freeze Tolerance in Earthworms Exposed to Sublethal Copper Concentrations|Environ. Sci. Technol.43(14): 5495-5500|2009|10.1021/es900898y
150274|A||Kim,K.T., A.J. Edgington, S.J. Klaine, J.W. Cho, and S.D. Kim|Influence of Multiwalled Carbon Nanotubes Dispersed in Natural Organic Matter on Speciation and Bioavailability of Copper|Environ. Sci. Technol.43(23): 8979-8984|2009|10.1021/es900647f
150275|A||Ter Laak,T.L., M.A. Ter Bekke, and J.L.M. Hermens|Dissolved Organic Matter Enhances Transport of PAHs to Aquatic Organisms|Environ. Sci. Technol.43(19): 7212-7217|2009|10.1021/es803684f
150276|A||Coe,T.S., P.B. Hamilton, D. Hodgson, G.C. Paull, and C.R. Tyler|Parentage Outcomes in Response to Estrogen Exposure are Modified by Social Grouping in Zebrafish|Environ. Sci. Technol.43(21): 8400-8405|2009|10.1021/es902302u
150277|A||Craig,P.M., C.M. Wood, and G.B. McClelland|Water Chemistry Alters Gene Expression and Physiological End Points of Chronic Waterborne Copper Exposure in Zebrafish, Danio rerio|Environ. Sci. Technol.44(6): 2156-2162|2010|10.1021/es902995q
150278|T||Liu,X., K. Peng, A. Wang, C. Lian, and Z. Shen|Cadmium Accumulation and Distribution in Populations of Phytolacca americana L. and the Role of Transpiration|Chemosphere78(9): 1136-1141|2010|10.1016/j.chemosphere.2009.12.030
150279|T||Liu,J., D. Hu, G.Z. Jiang, and J.L. Schnoor|In Vivo Biotransformation of 3,3',4,4'-Tetrachlorobiphenyl by Whole Plants - Poplars and Switchgrass|Environ. Sci. Technol.43(19): 7503-7509|2009|10.1021/es901244h
150280|A||Ispas,C., D. Andreescu, A. Patel, D.V. Goia, S. Andreescu, and K.N. Wallace|Toxicity and Developmental Defects of Different Sizes and Shape Nickel Nanoparticles in Zebrafish|Environ. Sci. Technol.43(16): 6349-6356|2009|10.1021/es9010543
150281|T||Collins,R.N., E. Bakkaus, M. Carriere, H. Khodja, O. Proux, J.L. Morel, and B. Gouget|Uptake, Localization, and Speciation of Cobalt in Triticum aestivum L. (Wheat) and Lycopersicon esculentum M. (Tomato)|Environ. Sci. Technol.44(8): 2904-2910|2010|10.1021/es903485h
150282|A||Fini,J.B., S. Pallud-Mothre, S. Le Mevel, K. Palmier, C.M. Havens, M. Le Brun, V. Mataix, G.F. Lemkine, B.A. Demeneix, |An Innovative Continuous Flow System for Monitoring Heavy Metal Pollution in Water Using Transgenic Xenopus laevis Tadpoles|Environ. Sci. Technol.43(23): 8895-8900|2009|10.1021/es9008954
150283|A||Chen,Z., L. Zhu, and K.J. Wilkinson|Validation of the Biotic Ligand Model in Metal Mixtures:  Bioaccumulation of Lead and Copper|Environ. Sci. Technol.44(9): 3580-3586|2010|10.1021/es1003457
150284|A||Mehinto,A.C., E.M. Hill, and C.R. Tyler|Uptake and Biological Effects of Environmentally Relevant Concentrations of the Nonsteroidal Anti-Inflammatory Pharmaceutical Diclofenac in Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Technol.44(6): 2176-2182|2010|10.1021/es903702m
150285|A||Crist,R.H., J.R. Martin, P.W. Guptill, J.M. Eslinger, and D.R. Crist|Interaction of Metals and Protons with Algae. 2. Ion Exchange in Adsorption and Metal Displacement by Protons|Environ. Sci. Technol.24:337-342|1990|10.1021/es00073a008
150286|T||Moody,C., and I.D. Green|Assimilation of Cd and Cu by the Carnivorous Plant Sarracenia leucophylla Raf. fed Contaminated Prey|Environ. Sci. Technol.44(5): 1610-1616|2010|10.1021/es9019386
150287|A||Nishikawa,J.I., S. Mamiya, T. Kanayama, T. Nishikawa, F. Shiraishi, and T. Horiguchi|Involvement of the Retinoid X Receptor in the Development of Imposex Caused by Organotins in Gastropods|Environ. Sci. Technol.38:6271-6276|2004|10.1021/es049593u
150288|A||Conley,J.M., D.H. Funk, and D.B. Buchwalter|Selenium Bioaccumulation and Maternal Transfer in the Mayfly Centroptilum triangulifer in a Life-Cycle, Periphyton-Biofilm Trophic Assay|Environ. Sci. Technol.43(20): 7952-7957|2009|10.1021/es9016377
150289|A||Jeon,J., K. Kannan, H.K. Lim, H.B. Moon, J.S. Ra, and S.D. Kim|Bioaccumulation of Perfluorochemicals in Pacific Oyster Under Different Salinity Gradients|Environ. Sci. Technol.44(7): 2695-2701|2010|10.1021/es100151r
150291|A||Johnston,B.D., T.M. Scown, J. Moger, S.A. Cumberland, M. Baalousha, K. Linge, R. Van Aerle, K. Jarvis, J.R. Lead, and C|Bioavailability of Nanoscale Metal Oxides TiO2, CeO2, and ZnO to Fish|Environ. Sci. Technol.44(3): 1144-1151|2010|10.1021/es901971a
150292|A||Zhong,H., and W.X. Wang|Controls of Dissolved Organic Matter and Chloride on Mercury Uptake by a Marine Diatom|Environ. Sci. Technol.43(23): 8998-9003|2009|10.1021/es901646k
150293|T||Yang,D., X. Li, S. Tao, Y. Wang, Y. Cheng, D. Zhang, and L. Yu|Enantioselective Behavior of alpha-HCH in Mouse and Quail Tissues|Environ. Sci. Technol.44(5): 1854-1859|2010|10.1021/es9030134
150294|A||Kolmakov,N.N., P.C. Hubbard, O. Lopes, and A.V.M. Canario|Effect of Acute Copper Sulfate Exposure on Olfactory Responses to Amino Acids and Pheromones in Goldfish (Carassius auratus)|Environ. Sci. Technol.43(21): 8393-8399|2009|10.1021/es901166m
150295|A||Jonker,M.T.O., M.P.W. Suijkerbuijk, H. Schmitt, and T.L. Sinnige|Ecotoxicological Effects of Activated Carbon Addition to Sediments|Environ. Sci. Technol.43(15): 5959-5966|2009|10.1021/es900541p
150296|A||Antonelli,M., V. Mezzanotte, and M. Panouilleres|Assessment of Peracetic Acid Disinfected Effluents by Microbiotests|Environ. Sci. Technol.43(17): 6579-6584|2009|10.1021/es900913t
150297|T||Qi,Y., and W. Chen|Comparison of Earthworm Bioaccumulation Between Readily Desorbable and Desorption-Resistant Naphthalene:  Implications for Biouptake Routes|Environ. Sci. Technol.44(1): 323-328|2009|10.1021/es902899n
150298|A||Cambier,S., P. Gonzalez, G. Durrieu, R. Maury-Brachet, A. Boudou, and J.P. Bourdineaud|Serial Analysis of Gene Expression in the Skeletal Muscles of Zebrafish Fed with a Methylmercury-Contaminated Diet|Environ. Sci. Technol.44(1): 469-475|2010|10.1021/es901980t
150299|T||Keyte,I., E. Wild, J. Dent, and K.C. Jones|Investigating the Foliar Uptake and Within-Leaf Migration of Phenanthrene by Moss (Hypnum cupressiforme) Using Two-Photon Excitation Microscopy with Autofluorescence|Environ. Sci. Technol.43(15): 5755-5761|2009|10.1021/es900305c
150300|AT||Liu,X., D. Vinson, D. Abt, R.H. Hurt, and D.M. Rand|Differential Toxicity of Carbon Nanomaterials in Drosophila:  Larval Dietary Uptake is Benign, but Adult Exposure Causes Locomotor Impairment and Mortality|Environ. Sci. Technol.43(16): 6357-6363|2009|10.1021/es901079z
150301|A||Fujii,M., A.L. Rose, T. Omura, and T.D. Waite|Effect of Fe(II) and Fe(III) Transformation Kinetics on Iron Acquisition by a Toxic Strain of Microcystis aeruginosa|Environ. Sci. Technol.44(6): 1980-1986|2010|10.1021/es901315a
150303|A||Ashauer,R., A. Hintermeister, I. Caravatti, A. Kretschmann, and B.I. Escher|Toxicokinetic and Toxicodynamic Modeling Explains Carry-Over Toxicity from Exposure to Diazinon by Slow Organism Recovery|Environ. Sci. Technol.44(10): 3963-3971|2010|10.1021/es903478b
150304|A||Wright,D.A., R. Dawson, V. Caceres, C.E. Orano-Dawson, G.E. Kananen, S.J. Cutler, and H.G. Cutler|Shipboard Testing of the Efficacy of SeaKleen as a Ballast Water Treatment to Eliminate Non-Indigenous Species Aboard a Working Tanker in Pacific Waters|Environ. Technol.30(9): 893-910|2009|10.1080/09593330902929889
150305|T||Lopez-Chuken,U.J., S.D. Young, and J.L. Guzman-Mar|Evaluating a 'Biotic Ligand Model' Applied to Chloride-Enhanced Cd Uptake by Brassica juncea from Nutrient Solution at Constant Cd2+ Activity|Environ. Technol.31(3): 307-318|2010|10.1080/09593330903470685
150306|T||Huang,H., S. Zhang, P. Christie, S. Wang, and M. Xie|Behavior of Decabromodiphenyl Ether (BDE-209) in the Soil - Plant System: Uptake, Translocation, and Metabolism in Plants and Dissipation in Soil|Environ. Sci. Technol.44(2): 663-667|2009|10.1021/es901860r
150307|T||Vasilyeva,G.K., E.R. Strijakova, S.N. Nikolaeva, A.T. Lebedev, and P.J. Shea|Dynamics of PCB Removal and Detoxification in Historically Contaminated Soils Amended with Activated Carbon|Environ. Pollut.158(1): 770-777|2010|10.1016/j.envpol.2009.10.010
150308|A||Jeon,J., J.S. Ra, S.H. Lee, M.J. Lee, S.H. Yu, and S.D. Kim|Role of Food and Clay Particles in Toxicity of Copper and Diazinon Using Daphnia magna|Ecotoxicol. Environ. Saf.73(3): 400-406|2010|10.1016/j.ecoenv.2009.10.011
150309|A||Aluigi,M.G., C. Angelini, G. Corte, and C. Falugi|"The Sea Urchin, Paracentrotus lividus, Embryo as a ""Bioethical"" Model for Neurodevelopmental Toxicity Testing:  Effects of Diazinon on the Intracellular Distribution of OTX2-like Proteins"|Cell Biol. Toxicol.24:587-601|2008|10.1007/s10565-008-9061-2
150310|T||Cobos,V.M., M.A. Mora, G. Escalona, S. Calme, and J. Jimenez|Variation in Plasma Cholinesterase Activity in the Clay-Colored Robin (Turdus grayi) in Relation to Time of Day, Season, and Diazinon Exposure|Ecotoxicology19:267-272|2010|10.1007/s10646-009-0409-z
150311|T||Stampoulis,D., S.K. Sinha, and J.C. White|Assay-Dependent Phytotoxicity of Nanoparticles to Plants|Environ. Sci. Technol.43(24): 9473-9479|2009|10.1021/es901695c
150312|A||Bradac,P., R. Behra, and L. Sigg|Accumulation of Cadmium in Periphyton Under Various Freshwater Speciation Conditions|Environ. Sci. Technol.43(19): 7291-7296|2009|10.1021/es9013536
150313|T||Davis,S.|Neurotoxicity of Triphenyl Phosphine in the European Ferret|M.S. Thesis, Michigan State University, East Lansing, MI:56 p. |1998|
150314|A||Srivastava,S., and S.F. D'Souza|Increasing Sulfur Supply Enhances Tolerance to Arsenic and Its Accumulation in Hydrilla verticillata (L.f.) Royle|Environ. Sci. Technol.43(16): 6308-6313|2009|10.1021/es900304x
150315|T||Murakami,M., F. Nakagawa, N. Ae, M. Ito, and T. Arao|Phytoextraction by Rice Capable of Accumulating Cd at High Levels:  Reduction of Cd Content of Rice Grain|Environ. Sci. Technol.43(15): 5878-5883|2009|10.1021/es8036687
150316|T||Williams,P.N., S. Islam, R. Islam, M. Jahiruddin, E. Adomako, A.R.M. Soliaman, G.K.M.M. Rahman, Y. Lu, C. Deacon, Y.G. |Arsenic Limits Trace Mineral Nutrition (Selenium, Zinc, and Nickel) in Bangladesh Rice Grain|Environ. Sci. Technol.43(21): 8430-8436|2009|10.1021/es901825t
150318|A||Trielli,F., A. Amaroli, F. Sifredi, B. Marchi, C. Falugi, and M.U.D. Corrado|Effects of Xenobiotic Compounds on the Cell Activities of Euplotes crassus, a Single-Cell Eukaryotic Test Organism for the Study of the Pollution of Marine Sediments|Aquat. Toxicol.83(4): 272-283|2007|10.1016/j.aquatox.2007.05.002
150319|T||Oloumi-Sadeghi,H., T.A. Royer, and R. Randell|Efficacy of Conventional and Microbial Insecticides for Sweet Corn Insect Control, 1991|Insectic. Acaric. Tests17:107-108|1992|10.1093/iat/17.1.107
150320|T||Mayer,D.F., J.D. Lunden, and K.C. Volker|Control of Corn Earworm on Sweet Corn, 1991|Insectic. Acaric. Tests17:106-107|1992|10.1093/iat/17.1.106a
150321|T||Young,S.Y.|Evaluation of Bacillus thuringiensis Products for Control of a Soybean Looper Population on Soybean, 1989|Insectic. Acaric. Tests17:283-|1992|
150323|T||Boucher,J., R. Adams, F. Johnson, R. Durgy, and R. Ashley|Bell Pepper:  European Corn Borer Control, 1991|Insectic. Acaric. Tests18:139-|1993|
150324|T||Weiszel,J.L., and K.R. Ostlie|Insecticide Performance Comparison on No-Till Corn for Black Cutworm Control, 1992|Insectic. Acaric. Tests18:212-213|1993|10.1093/iat/18.1.212
150325|T||Fuller,B.W., M.A. Boetel, J.M. Jenson, and W.W. Chambers|First Generation European Corn Borer Control, 1991|Insectic. Acaric. Tests18:197-198|1993|10.1093/iat/18.1.197a
150326|T||Boetel,M.A., B.W. Fuller, W.W. Chambers, and J.M. Jenson|Rescue Treatments for First Generation European Corn Borer Control, 1992|Insectic. Acaric. Tests18:197-|1993|10.1093/iat/18.1.197
150327|A||Lundqvist,A., S. Bertilsson, and W. Goedkoop|Effects of Extracellular Polymeric and Humic Substances on Chlorpyrifos Bioavailability to Chironomus riparius|Ecotoxicology19(4): 614-622|2010|10.1007/s10646-009-0430-2
150328|T||Rowland,S., and B. Cartwright|Control of Lepidopterous Pests on Cabbage, Fall, 1992|Insectic. Acaric. Tests18:108-109|1993|10.1093/iat/18.1.108
150329|A||Oruc,E.O.|Oxidative Stress, Steroid Hormone Concentrations and Acetylcholinesterase Activity in Oreochromis niloticus Exposed to Chlorpyrifos|Pestic. Biochem. Physiol.96(3): 160-166|2010|10.1016/j.pestbp.2009.11.005
150330|T||Shelton,A.M., and W.T. Wilsey|Comparing New American Cyanamid Products and Standard Insecticides for Control of Lepidoptera on Cabbage, 1992|Insectic. Acaric. Tests18:111-|1993|
150331|T||Idris,A.B., E. Grafius, and A. Pyle|Seasonal Control of Cabbage Lepidopterous Pests, 1992|Insectic. Acaric. Tests18:91-92|1993|10.1093/iat/18.1.91
150332|A||Vasquez,M.I., M. Violaris, A. Hadjivassilis, and M.C. Wirth|Susceptibility of Culex pipiens (Diptera:  Culicidae) Field Populations in Cyprus to Conventional Organic Insecticides, Bacillus thuringiensis subsp. israelensis, and Methoprene|J. Med. Entomol.46(4): 881-887|2009|10.1603/033.046.0421
150333|T||Ostlie,K.R., and J. Luedeman|Thistle Caterpillar Control on Vegetative Soybean, 1992|Insectic. Acaric. Tests18:273-274|1993|10.1093/iat/18.1.273a
150334|A||Xing,H., J. Wang, J. Li, Z. Fan, M. Wang, and S. Xu|Effects of Atrazine and Chlorpyrifos on Acetylcholinesterase and Carboxylesterase in Brain and Muscle of Common Carp|Environ. Toxicol. Pharmacol.30:26-30|2010|10.1016/j.etap.2010.03.009
150335|T||Tozer,K.N., D.F. Chapman, P.E. Quigley, P.M. Dowling, R.D. Cousens, and G.A. Kearney|Integrated Management of Vulpia in Dryland Perennial Pastures of Southern Australia|Crop Pasture Sci.60(1): 32-42|2009|10.1071/CP07445
150336|A||Wersal,R.M., and J.D. Madsen|Combinations of Diquat and a Methylated Seed Oil Surfactant for Control of Common Duckweed and Watermeal|J. Aquat. Plant Manag.47:59-62|2009|
150337|T||Johnson,J.W., and J.C. Wise|Apple, Season-Long Insecticide Block Treatments, 1992|Insectic. Acaric. Tests18:48-|1993|10.1093/iat/18.1.48
150338|T||Leonard,B.R., and P.A. Clay|Control of Soybean Looper in the Macon Ridge Region of Louisiana, 1992|Insectic. Acaric. Tests18:270-271|1993|10.1093/iat/18.1.270
150339|T||McPherson,R.M., M.L. Padgett, and C. Purvis|Control of Southern Green Stink Bugs and Velvetbean Caterpillars on Georgia Soybean, 1992|Insectic. Acaric. Tests18:273-|1993|10.1093/iat/18.1.273
150340|T||Cranshaw,W., and D. Gerace|Control of Lilac/Ash Borer, 1997|Arthropod Manag. Tests23:359-|1998|
150341|T||Maroli,M., and G. Majori|Permethrin-Impregnated Curtains Against Phlebotomine Sandflies (Diptera:  Psychodidae):  Laboratory and Field Studies|Parassitologia (Rome)33(Suppl. 1): 399-404|1991|
150342|T||Shelton,A.M., and W.T. Wilsey|Control of Lepidoptera on Cabbage:  Comparing an Abbott Bacillus thuringiensis Product to Permethrin in a Full Season Program, 1992|Insectic. Acaric. Tests18:111-|1993|
150343|T||Witkowski,J.F.|Control of Second Generation European Corn Borer in Corn, 1991|Insectic. Acaric. Tests17:219-220|1992|10.1093/iat/17.1.219a
150344|T||Oloumi-Sadeghi,H., and E. Levine|Planting-Time Versus Rescue Insecticide Treatments for Black Cutworm Control, 1991|Insectic. Acaric. Tests17:208-209|1992|10.1093/iat/17.1.208
150345|T||Vaughn,T.T., and C.W. Hoy|Colorado Potato Beetle Control, 1992|Insectic. Acaric. Tests18:162-165|1993|10.1093/iat/18.1.162
150346|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1990|Insectic. Acaric. Tests16:137-|1991|10.1093/iat/16.1.137
150347|T||Wedberg,J., and B. Jensen|Ambush, Pounce, and ICIA 0321 for Control of European Corn Borer on Sweet Corn in Wisconsin, 1991|Insectic. Acaric. Tests17:110-111|1992|
150348|T||Ostlie,K.R., B.L. Giebink, L.J. Luedeman, and R. Venette|Liquid Insecticide Performance Against First-Generation European Corn Borer; Band VS Broadcast, 1991|Insectic. Acaric. Tests17:218-|1992|10.1093/iat/17.1.218
150349|T||Von Arx,R., J. Goueder, M. Cheikh, and A.B. Temime|Integrated Control of Potato Tubermoth Phthorimaea operculella (Zeller) in Tunisia|Insect Sci. Appl.8(4-6): 989-994|1987|
150350|T||Cram,M.M., S.A. Enebak, S.W. Fraedrich, L.D. Dwinell, and S.J. Zarnoch|Evaluation of Fumigants, EPTC Herbicide, and Paenibacillus macerans in the Production of Loblolly Pine Seedlings|For. Sci.53(1): 73-83|2007|
150351|T||Gilreath,J.P., B.M. Santos, and T.N. Motis|Performance of Methyl Bromide Alternatives in Strawberry|HortTechnology18(1): 80-83|2008|10.21273/HORTTECH.18.1.80
150352|T||Santos,B.M., and J.P. Gilreath|Effects of Water Delivery Volume, Rates and Concentrations of Metam Potassium on Purple Nutsedge Emergence in Mulched Beds|HortTechnology17(2): 191-194|2007|10.21273/HORTTECH.17.2.191
150353|T||Santos,B.M., J.E. Mora-Bolanos, and J.A. Solorzano-Arroyo|Impact of Solarization and Soil Fumigants on Hot Pepper Production in High-Tunnels|Asian J. Plant Sci.7(1): 113-115|2008|10.3923/ajps.2008.113.115
150354|T||Zasada,I.A., C.L. Elmore, L.E. Yakabe, and J.D. MacDonald|Evaluation of Propargyl Bromide as a Soil Fumigant|Hortscience42(5): 1212-1216|2007|10.21273/HORTSCI.42.5.1212
150355|T||Pandey,A.K., and K.R. Kanaujia|Effect of Different Insecticides, Fungicides and Herbicides on Growth, Sporulation and Germination of Fungi (Metarhizium anisopliae)|Indian J. Agric. Sci.80(3): 265-268|2010|
150356|T||Werth,J., S. Walker, L. Boucher, and G. Robinson|Applying the Double Knock Technique to Control Conyza bonariensis|Weed Biol. Manag.10(1): 1-8|2010|10.1111/j.1445-6664.2010.00360.x
150357|T||Bethke,P.C., and J.S. Busse|Vine-Kill Treatment and Harvest Date Have Persistent Effects on Tuber Physiology|Am. J. Potato Res.87(3): 299-309|2010|10.1007/s12230-010-9137-4
150358|T||Druart,C., R. Scheifler, and A. De Vaufleury|Towards the Development of an Embryotoxicity Bioassay with Terrestrial Snails:  Screening Approach for Cadmium and Pesticides|J. Hazard. Mater.184(1-3): 26-33|2010|10.1016/j.jhazmat.2010.07.099
150359|T||Hong,J.Y., M. Lebofsky, A. Farhood, and H. Jaeschke|Oxidant Stress-Induced Liver Injury In Vivo:  Role of Apoptosis, Oncotic Necrosis, and C-Jun NH2-Terminal Kinase Activation|Am. J. Physiol. Gasterointest. Liver Physiol.296(3): 572-581|2009|10.1152/ajpgi.90435.2008
150360|T||Klose,S., H.A. Ajwa, G.T. Browne, K.V. Subbarao, F.N. Martin, S.A. Fennimore, and B.B. Westerdahl|Dose Response of Weed Seeds, Plant-Parasitic Nematodes, and Pathogens to Twelve Rates of Metam Sodium in a California Soil|Plant Dis.92(11): 1537-1546|2008|10.1094/PDIS-92-11-1537
150361|T||Bokov,A.F., M.L. Lindsey, C. Khodr, M.R. Sabia, and A. Richardson|Long-Lived Ames Dwarf Mice are Resistant to Chemical Stressors|J. Gerontol. Ser. A Biol. Sci. Med. Sci.64(8): 819-827|2009|10.1093/gerona/glp052
150362|T||Berbegal,M., J. Garcia-Jimenez, and J. Armengol|Effect of Cauliflower Residue Amendments and Soil Solarization on Verticillium Wilt Control in Artichoke|Plant Dis.92(4): 595-600|2008|10.1094/PDIS-92-4-0595
150363|T||Candole,B.L., A.S. Csinos, and D. Wang|Concentrations in Soil and Efficacy of Drip-Applied 1,3-D+Chloropicrin and Metam Sodium in Plastic-Mulched Sandy Soil Beds|Crop Prot.26(12): 1801-1809|2007|10.1016/j.cropro.2007.03.021
150364|T||Covarelli,L., E. Pannacci, G. Beccari, F.P. D'Errico, and L. Tosi|Two-Year Investigations on the Integrated Control of Weeds and Root Parasites in Virginia Bright Tobacco (Nicotiana tabacum L.) in Central Italy|Crop Prot.29(8): 783-788|2010|10.1016/j.cropro.2010.03.015
150365|T||Desaeger,J.A., K.W. Seebold, and A.S. Csinos|Effect of Application Timing and Method on Efficacy and Phytotoxicity of 1,3-D, Chloropicrin and Metam-Sodium Combinations in Squash Plasticulture|Pest Manag. Sci.64(3): 230-238|2008|10.1002/ps.1503
150366|T||Diaz-Perez,M., F. Camacho-Ferre, F. Dianez-Martinez, M. De Cara-Garcia, and J.C. Tello-Marquina|Evaluation of Alternatives to Methyl Bromide in Melon Crops in Guatemala|Microb. Ecol.57(2): 379-383|2009|10.1007/s00248-008-9460-1
150367|T||Graves,A.D., E.H. Holsten, M.E. Ascerno, K.P. Zogas, J.S. Hard, D.P.W. Huber, R.A. Blanchette, and S.J. Seybold|Protection of Spruce from Colonization by the Bark Beetle, Ips perturbatus, in Alaska|For. Ecol. Manag.256(11): 1825-1839|2008|10.1016/j.foreco.2008.07.008
150368|T||Klose,S., H.A. Ajwa, S.A. Fennimore, F.N. Martin, G.T. Browne, and K.V. Subbarao|Dose Response of Weed Seeds and Soilborne Pathogens to 1,3-D and Chloropicrin|Crop Prot.26(4): 535-542|2007|10.1016/j.cropro.2006.05.004
150370|T||Santos,B.M.|Drip-Applied Metam Potassium and Herbicides as Methyl Bromide Alternatives for Cyperus Control in Tomato|Crop Prot.28(1): 68-71|2009|10.1016/j.cropro.2008.08.013
150371|T||Slusarski,C., and S.J. Pietr|Combined Application of Dazomet and Trichoderma asperellum as an Efficient Alternative to Methyl Bromide in Controlling the Soil-Borne Disease Complex of Bell Pepper|Crop Prot.28(8): 668-674|2009|10.1016/j.cropro.2009.03.016
150372|T||Triky-Dotan,S., M. Austerweil, B. Steiner, Y. Peretz-Alon, J. Katan, and A. Gamliel|Accelerated Degradation of Metam-Sodium in Soil and Consequences for Root-Disease Management|Phytopathology99(4): 362-368|2009|10.1094/PHYTO-99-4-0362
150373|T||Yakabe,L.E., S.R. Parker, and D.A. Kluepfel|Effect of Pre-Plant Soil Fumigants on Agrobacterium tumefaciens, Pythiaceous Species, and Subsequent Soil Recolonization by A. tumefaciens|Crop Prot.29(6): 583-590|2010|10.1016/j.cropro.2010.01.001
150374|T||Athie,I., and K.A. Mills|Resistance to Phosphine in Stored-Grain Insect Pests in Brazil|Braz. J. Food Technol.8(2): 143-147|2005|
150375|T||Witkowski,J.F.|Control of Second Generation European Corn Borer in Corn 1992|Insectic. Acaric. Tests18:214-|1993|10.1093/iat/18.1.214
150376|T||Witkowski,J.F.|Control of European Corn Borer in Whorl Stage Corn, 1992|Insectic. Acaric. Tests18:213-214|1993|10.1093/iat/18.1.213a
150378|T||Luedeman,J., and K.R. Ostlie|Control of First Generation European Corn Borer, 1992|Insectic. Acaric. Tests18:205-|1993|10.1093/iat/18.1.205
150379|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1992|Insectic. Acaric. Tests18:188-189|1993|10.1093/iat/18.1.188
150380|T||Rowland,S., B. Cartwright, and B.W. Roberts|Control of Tomato Pests on Tomatoes, Summer, 1992|Insectic. Acaric. Tests18:176-177|1993|10.1093/iat/18.1.176
150381|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of European Corn Borer and Twospotted Spider Mite in West Central Nebraska, 1991|Insectic. Acaric. Tests18:211-212|1993|10.1093/iat/18.1.211
150382|T||Shields,E.J., and P.S. Taylor|Alfalfa Weevil Control in Alfalfa, 1992|Insectic. Acaric. Tests18:189-190|1993|10.1093/iat/18.1.189a
150383|T||Saleem,M.A., and A.R. Shakoori|The Toxicity of Eight Insecticides to Sixth Instar Larvae and Adult Beetles of Tribolium castaneum (Herbst.)|Pak. J. Zool.22(3): 207-216|1990|
150384|T||Saleem,M.A., and A.R. Shakoori|Biochemical Studies on Talcord 10EC.  II.  Effect on Some Enzyme Activities and Macromolecules of Adult Beetles of Tribolium castaneum|Pak. J. Zool.28(2): 151-162|1996|
150385|T||Saleem,M.A., and A.R. Shakoori|Toxicity of Malathion, Permethrin and Cypermethrin Against Resistant and Susceptible Strains of Tribolium castaneum (Herbst.)|Pak. J. Zool.21(4): 347-359|1989|
150386|T||Saleem,M.A., and R.M. Wilkins|Studies on the Cross-Resistance to NRDC 143 of a Malathion-Resistant Strain of Oryzaephilus surinamensis (L.) (Coleoptera: Cucujidae)|Pak. J. Zool.16(2): 203-213|1984|
150387|T||Saleem,M.A., and A.R. Shakoori|Effects of Permethrin and Deltamethrin on Some Biochemical Components of Tribolium castaneum Larvae|Pak. J. Zool.17(4): 321-328|1985|
150388|T||Hussain,A., M.A. Quayyoom, H.R. Rathore, and Z.H. Naqvi|Base Line Susceptibility Values of Three Different Insecticides Against Tribolium castaneum (Herbst) in the Laboratory|Pak. J. Zool.21(4): 387-390|1989|
150389|T||Saleem,M.A., and A.R. Shakoori|Biochemical Studies on Talcord 10EC. I. Effect on Some Enzyme Activities and Macromolecules of 6th Instar Larvae of Tribolium castaneum|Pak. J. Zool.28(1): 75-83|1996|
150390|T||Omar,D., G.A. Matthews, M.G. Ford, and D.W. Salt|The Influence of Spray Droplet Characteristics on the Efficacy of Permethrin Against the Diamondback Moth Plutella xylostella:  The Effect of Drop Size and Concentration on the Potency of ULV- and EC-Based Residual Depo|Pestic. Sci.32(4): 439-450|1991|10.1002/ps.2780320406
150391|T||Hall,F.R., and A.J. Adams|Microdroplet Application for Determination of Comparative Topical and Residual Efficacy of Formulated Permethrin to Two Populations of Diamondback Moth (Plutella xylostella L.)|Pestic. Sci.28(3): 337-343|1990|10.1002/ps.2780280312
150392|T||Thacker,J.R.M., F.R. Hall, and R.A. Downer|The Interactions Between Routes of Exposure and Physicochemical Properties of Four Water-Dilutable Permethrin Formulations in Relation to Their Activities Against Trichoplusia ni (Hubner)|Pestic. Sci.36(3): 239-246|1992|10.1002/ps.2780360310
150393|T||Adams,A.J., C.W. Hoy, F.R. Hall, and S.Y. Nettleton|Larval Feeding and Movement in Two Plutella xylostella (Lepidoptera:  Plutellidae) Populations Exposed to Discrete Deposits of Permethrin|Pestic. Sci.35(3): 243-247|1992|10.1002/ps.2780350308
150394|T||Lee,S., and J.M. Clark|Multiple Forms of Carboxylesterase from Leptinotarsa decemlineata Haemolymph Associated with Permethrin Resistance|Pestic. Sci.43(3): 247-250|1995|10.1002/ps.2780430315
150395|T||Thomas,J.D., J.S. Mink, D.J. Boethel, A.T. Wier, and B.R. Leonard|Activity of Two Novel Insecticides Against Permethrin-Resistant Pseudoplusia includens|Pestic. Sci.40(3): 239-243|1994|10.1002/ps.2780400311
150396|T||Head,G., C.W. Hoy, and F.R. Hall|Influence of Permethrin Droplets on Movement of Larval Plutella xylostella (Lepidoptera:  Plutellidae)|Pestic. Sci.45(3): 271-278|1995|10.1002/ps.2780450311
150397|T||Bariola,L.A., T.J. Henneberry, C.F. Ehlig, and C.M. Brown|Populations and Control of Pink Bollworm, Pectinophora gossypiella (Saunders) in Short- and Full-Season Cotton Production Systems in Imperial Valley, CA|Southwest. Entomol.10(3): 156-162|1985|
150398|T||Sparks,T.C., B.R. Leonard, and J.B. Graves|Pyrethroid-Formamidine Interactions and Behavioral Effects in Pyrethroid Susceptible and Resistant Tobacco Budworms|Southwest. Entomol.15:111-120|1991|
150399|T||Mosupi,P.O.P., and L.I. Terry|Synergism of Permethrin by Formamidines in Heliothis virescens:  A Comparison of Chlordimeform, Amitraz and a Metabolite|Southwest. Entomol. Suppl.15:121-128|1991|
150400|T||Watson,T.F., S.E. Kelly, and B.J. Estesen|Residual Activity of Permethrin, Chlordimeform and Permethrin plus Chlordimeform Against Susceptible and Resistant Tobacco Budworm|Southwest. Entomol. Suppl.15:129-134|1991|
150401|T||Watson,T.F., and S.E. Kelly|Inheritance of Resistance to Permethrin by the Tobacco Budworm, Heliothis virescens (F):  Implications for Resistance Management|Southwest. Entomol. Suppl.15:135-142|1991|
150402|T||Johnson-Nistler,C.M., J.E. Knight, and S.D. Cash|Considerations Related to Richardson's Ground Squirrel (Spermophilus richardsonii) Control in Montana|Agron. J.97(5): 1460-1464|2005|10.2134/agronj2004.0233
150403|T||Witmer,G.W., J.D. Eisemann, T.M. Primus, J.R. O'Hare, K.R. Perry, R.M. Elsey, and P.L. Trosclair III|Assessing Potential Risk to Alligators, Alligator mississippiensis, from Nutria Control with Zinc Phosphide Rodenticide Baits|Bull. Environ. Contam. Toxicol.84(6): 698-702|2010|10.1007/s00128-010-9974-3
150404|T||Leesch,J.G., L.M. Redlinger, H.B. Gillenwater, R. Davis, and J.M. Zehner|An In-Transit Shipboard Fumigation of Corn|J. Econ. Entomol.71(6): 928-935|1978|10.1093/jee/71.6.928
150405|T||Cabrol Telle,A.M., G. De Saint Blanquat, R. Derache, E. Hollande, B. Periquet, and J.P. Thouvenot|Nutritional and Toxicological Effects of Long-Term Ingestion of Phosphine-Fumigated Diet by the Rat|Food Chem. Toxicol.23(11): 1001-1009|1985|10.1016/0278-6915(85)90251-0
150406|T||Banks,H.J., and J.A. Cavanaugh|Toxicity of Phosphine to Trogoderma variabile Ballion (Coleoptera: Dermestidae)|J. Aust. Entomol. Soc.24(3): 179-186|1985|10.1111/j.1440-6055.1985.tb00220.x
150407|T||Bengston,M., P.J. Collins, G.J. Daglish, V.L. Hallman, R. Kopittke, and H. Pavic|Inheritance of Phosphine Resistance in Tribolium castaneum (Coleoptera: Tenebrionidae)|J. Econ. Entomol.92(1): 17-20|1999|10.1093/jee/92.1.17
150408|T||Chaudhry,M.Q., and N.R. Price|Biochemistry of Phosphine Uptake in Susceptible and Resistant Strains of Two Species of Stored Product Beetles|Comp. Biochem. Physiol. C Comp. Pharmacol.94(2): 425-429|1989|10.1016/0742-8413(89)90092-3
150409|T||Hori,M., and Y. Kasaishi|Estimation of the Phosphine Resistance Level of the Cigarette Beetle, Lasioderma serricorne (Fabricius) (Coleoptera: Anobiidae), by the Knockdown Time of Adult|Appl. Entomol. Zool.40(4): 557-561|2005|10.1303/aez.2005.557
150410|T||Price,N.R.|A Comparison of the Uptake and Metabolism of 32P-Radiolabelled Phosphine in Susceptible and Resistant Strains of the Lesser Grain Borer (Rhyzopertha dominica)|Comp. Biochem. Physiol. C Comp. Pharmacol.69(1): 129-131|1981|10.1016/0306-4492(81)90113-1
150411|T||Price,N.R., K.A. Mills, and L.A. Humphries|Phosphine Toxicity and Catalase Activity in Susceptible and Resistant Strains of the Lesser Grain Borer (Rhyzopertha dominica)|Comp. Biochem. Physiol. C Comp. Pharmacol.73(2): 411-413|1982|10.1016/0306-4492(82)90144-7
150412|T||Schlipalius,D.I., W. Chen, P.J. Collins, T. Nguyen, P.E.B. Reilly, and P.R. Ebert|Gene Interactions Constrain the Course of Evolution of Phosphine Resistance in the Lesser Grain Borer, Rhyzopertha dominica|Heredity (Edinb.)100(5): 506-516|2008|10.1038/hdy.2008.4
150413|T||White,G.G., and T.A. Lambkin|Baseline Responses to Phosphine and Resistance Status of Stored-Grain Beetle Pests in Queensland, Australia|J. Econ. Entomol.83(5): 1738-1744|1990|10.1093/jee/83.5.1738
150414|T||Zettler,J.L., and D.W. Keever|Phosphine Resistance in Cigarette Beetle (Coleoptera: Anobiidae) Associated with Tobacco Storage in the Southeastern United States|J. Econ. Entomol.87(3): 546-550|1994|10.1093/jee/87.3.546
150415|T||Jian,F., D.S. Jayas, and N.D.G. White|Toxic Action of Phosphine on the Adults of the Copra Mite Tyrophagus putrescentiae (Astigmata: Acaridae)|Phytoprotection (Multiple Languages)81(1): 23-28|2000|10.7202/706197ar
150417|T||Cheng,Q., N. Valmas, P.E.B. Reilly, P.J. Collins, R. Kopittke, and P.R. Ebert|Caenorhabditis elegans Mutants Resistant to Phosphine Toxicity Show Increased Longevity and Cross-Resistance to the Synergistic Action of Oxygen|Toxicol. Sci.73(1): 60-65|2003|10.1093/toxsci/kfg049
150418|T||Bolter,C.J., and W. Chefurka|The Effect of Phosphine Treatment on Superoxide Dismutase, Catalase, and Peroxidase in the Granary Weevil, Sitophilus granarius|Pestic. Biochem. Physiol.36(1): 52-60|1990|10.1016/0048-3575(90)90020-3
150419|T||Chaudhry,M.Q., and N.R. Price|Comparison of the Oxidant Damage Induced by Phosphine and the Uptake and Tracheal Exchange of 32P-Radiolabelled Phosphine in the Susceptible and Resistant Strains of Rhyzopertha dominica (F.) (Coleoptera:  Bostrychidae)|Pestic. Biochem. Physiol.42(2): 167-179|1992|10.1016/0048-3575(92)90063-6
150420|T||Pirie,A., J.R. Rees, and N.J. Holmberg|Diquat Cataract in the Rat|Biochem. J. (Lond.)114(4): 89-|1969|
150421|T||Sittisuang,P., and H. Nakakita|The Effect of Phosphine and Methyl Bromide on Germination of Rice and Corn Seeds|J. Pestic. Sci. (Multiple Languages)10(3): 461-462|1985|10.1584/jpestics.10.461
150422|T||Leesch,J.G., H.B. Gillenwater, R. Davis, and R.,Jr. Wilson|Phosphine and Methyl Bromide Fumigation of Shelled Peanuts|Peanut Sci.6(1): 18-26|1979|10.3146/i0095-3679-6-1-5
150423|T||Franklin,P.X., A.D. Pillai, P.D. Rathod, S. Yerande, M. Nivsarkar, H. Padh, K.K. Vasu, and V. Sudarsanam|2-Amino-5-thiazolyl motif:  A Novel Scaffold for Designing Anti-Inflammatory Agents of Diverse Structures|Eur. J. Med. Chem.43(1): 129-134|2008|10.1016/j.ejmech.2007.02.008
150424|T||Garcia-Mendez,E., D. Garcia-Sinovas, M. Becerril, A. De Cal, P. Melgarejo, A. Martinez-Treceno, S.A. Fennimore, C. Sori|Chemical Alternatives to Methyl Bromide for Weed Control and Runner Plant Production in Strawberry Nurseries|Hortscience43(1): 177-182|2008|10.21273/HORTSCI.43.1.177
150425|T||Girgis,A.S.|Facile Synthesis of Dithiatetraaza-Macrocycles of Potential Anti-Inflammatory Activity|Eur. J. Med. Chem.43(10): 2116-2121|2008|10.1016/j.ejmech.2007.12.010
150426|T||Particka,C.A., and J.F. Hancock|Breeding for Increased Tolerance to Black Root Rot in Strawberry|Hortscience43(6): 1698-1702|2008|10.21273/HORTSCI.43.6.1698
150427|T||Yakabe,L.E., and J.D. MacDonald|Soil Treatments for the Potential Elimination of Phytophthora ramorum in Ornamental Nursery Beds|Plant Dis.94(3): 320-324|2010|10.1094/PDIS-94-3-0320
150428|T||Reeleder,R.D., J. Miller, B. Capell, and J. Schooley|Mefenoxam Sensitivity and the Impact of Fumigation on Pythium Species and Phytophthora cactorum in Ginseng Soils|Can. J. Plant Pathol.29(4): 427-436|2007|10.1080/07060660709507489
150429|T||Payne,B.J., and E. Arena|The Subacute and Chronic Toxicity of SK&F 36914 and SK&F D-39162 in Dogs|Vet. Pathol.15(Suppl. 5): 9-12|1978|10.1177/0300985878015s0503
150430|T||Rajendran,S., H. Parveen, K. Begum, and R. Chethana|Influence of Phosphine on Hatching of Cryptolestes ferrugineus (Coleoptera: Cucujidae), Lasioderma serricorne (Coleoptera: Anobiidae) and Oryzaephilus surinamensis (Coleoptera: Silvanidae)|Pest Manag. Sci.60(11): 1114-1118|2004|10.1002/ps.931
150431|A||Lewinski,N.A., H. Zhu, H.J. Jo, D. Pham, R.R. Kamath, C.R. Ouyang, C.D. Vulpe, V.L. Colvin, and R.A. Drezek|Quantification of Water Solubilized CdSe/ZnS Quantum Dots in Daphnia magna|Environ. Sci. Technol.44(5): 1841-1846|2010|10.1021/es902728a
150432|T||Songa,J.M., and W. Rono|Indigenous Methods for Bruchid Beetle (Coleoptera:  Bruchidae) Control in Stored Beans (Phaseolus vulgaris L.)|Int. J. Pest Manag.44(1): 1-4|1998|10.1080/096708798228446
150433|A||Ducrot,V., E. Billoir, A.R.R. Peyury, J. Garric, and S. Charles|From Individual to Population Level Effects of Toxicants in the Tubicifid Branchiura sowerbyi Using Threshold Effect Models in a Bayesian Framework|Environ. Sci. Technol.44(9): 3566-3571|2010|10.1021/es903860w
150434|T||Bond,E.J., R.A. Sellen, and T. Dumas|Control of Insects with Phosphine in Open-Ended Bin Spouts|J. Econ. Entomol.70(1): 22-25|1977|10.1093/jee/70.1.22
150435|T||Cogburn,R.R., and H.B. Gillenwater|Interaction of Gamma Radiation and Fumigation of Confused Flour Beetles|J. Econ. Entomol.65(1): 245-248|1972|10.1093/jee/65.1.245
150436|T||Cogburn,R.R., D.L. Calderwood, B.D. Webb, and M.A. Marchetti|Protecting Rough Rice Stored in Metal Farm Bins from Insect Attack|J. Econ. Entomol.76(6): 1377-1383|1983|10.1093/jee/76.6.1377
150437|T||Collins,P.J., G.J. Daglish, M. Bengston, T.M. Lambkin, and H. Pavic|Genetics of Resistance to Phosphine in Rhyzopertha dominica (Coleoptera: Bostrichidae)|J. Econ. Entomol.95(4): 862-869|2002|10.1603/0022-0493-95.4.862
150438|T||Boetel,M.A., R.W. Kieckhefer, B.W. Fuller, D. Beck, J.M. Jenson, and W.W. Chambers|Field Evaluation of Seed and Rescue Treatments for Cereal Aphid Control, 1992|Insectic. Acaric. Tests18:292|1993|10.1093/iat/18.1.292
150439|T||Brandenburg,R.L., and P.T. Hertl|Thrips Control in Peanuts, North Carolina, 1992|Insectic. Acaric. Tests18:259-260|1993|10.1093/iat/18.1.259a
150440|T||Dorman,D.C., J.F. Zachary, and W.B. Buck|Neuropathologic Findings of Bromethalin Toxicosis in the Cat|Vet. Pathol.29(2): 139-144|1992|10.1177/030098589202900206
150441|T||Brunner,J.F., and L.O. Smith|Apple, Codling Moth Control with Imidan and Guthion, 1991|Insectic. Acaric. Tests18:8-9|1993|10.1093/iat/18.1.8
150442|T||Burts,E.|Pear, Grape Mealybug Control, 1992|Insectic. Acaric. Tests18:56-|1993|
150443|T||Edelson,J.V., L. Crouse, and B. Stacey|Control of Green Peach Aphid on Spinach, 1992|Insectic. Acaric. Tests18:167-|1993|10.1093/iat/18.1.167
150444|T||Forsythe,H.Y.,Jr.|Insect Control, 1992|Insectic. Acaric. Tests18:16-17|1993|
150445|T||Fouche,C.F., and R.A. Van Steenwyk|Codling Moth Control with Insect Growth Regulators, 1992|Insectic. Acaric. Tests18:79-|1993|10.1093/iat/18.1.79
150446|T||Graves,J.B., B.R. Leonard, and P.A. Clay|Evaluation of Selected Insecticide Mixtures Against Late Season Populations of Bollworm, Tobacco Budworm and Beet Armyworm, 1992|Insectic. Acaric. Tests18:223-|1993|10.1093/iat/18.1.223a
150447|T||Hammon,R., F. Judson, and F. Peairs|Wheat Curl Mite Control, 1992|Insectic. Acaric. Tests18:294-295|1993|10.1093/iat/18.1.294a
150448|T||Harrison-Bryan,W.W., and D.A.,Jr. Herbert|Planting Time Treatments for Control of Onion Thrips in Cotton, 1992|Insectic. Acaric. Tests18:225-|1993|10.1093/iat/18.1.225
150449|T||Herbert,D.A.,Jr., and W.W. Harrison-Bryan|Selected Insecticide Evaluations for Control of Fall Armyworm in Peanut, 1992|Insectic. Acaric. Tests18:264-265|1993|
150450|T||Herbert,D.A.,Jr., and W.W. Harrison-Bryan|Planting Time Treatments for Control of Tobacco Thrips in Peanut, 1992|Insectic. Acaric. Tests18:264-|1993|
150452|T||Horsburgh,R.L., S.J. Kilmer, and J.R. Warren|Apple, Pesticide Dip Test Number 1, 1992|Insectic. Acaric. Tests18:364-|1993|10.1093/iat/18.1.364
150453|T||Horsburgh,R.L., S.W. Kilmer, and K.E. Cook II|Apple, Seasonal Insecticide Evaluations, 1991|Insectic. Acaric. Tests18:27-30|1993|10.1093/iat/18.1.27
150454|T||Hower,A.A., and S. Alexander|Potato Leafhopper Control, 1992|Insectic. Acaric. Tests18:187-188|1993|10.1093/iat/18.1.187a
150455|T||Hull,L.A.|Apple, Concentrate and Dilute Acaricide Evaluation Test, 1992|Insectic. Acaric. Tests18:42-43|1993|10.1093/iat/18.1.42
150457|T||Ubani,O.N., J.S. Opadokun, J.O. Williams, A. Akimnusi, D.A. Akano, and J.N. Ikeorah|Storage Properties of Melon Seeds (Cucumeriopsis edulis)|Food Chem.47(1): 7-10|1993|10.1016/0308-8146(93)90294-P
150458|T||Tkachuk,R.|Phosphorus Residues in Wheat Due to Phosphine Fumigation|Cereal Chem.49(3): 258-267|1972|
150459|T||Stanton,R.A., J.E. Pratley, D. Hudson, and G.M. Dill|Herbicide Tolerant Canola Systems and Their Impact on Winter Crop Rotations|Field Crops Res.117(1): 161-166|2010|10.1016/j.fcr.2010.02.013
150460|A||Kauss,P.B., and Y.S. Hamdy|Biological Monitoring of Organochlorine Contaminants in the St. Clair and Detroit Rivers Using Introduced Clams, Elliptio complanatus|J. Great Lakes Res.11(3): 247-263|1985|10.1016/S0380-1330(85)71768-6
150461|T||Ho,S.H., and R.G. Winks|The Response of Liposcelis bostrychophila Badonnel and L. entomophila (Enderlein) (Psocoptera) to Phosphine|J. Stored Prod. Res.31(3): 191-197|1995|10.1016/0022-474X(95)00005-R
150462|A||Russell,I.J., and P.M. Sellick|Measurement of Potassium and Chloride Ion Concentrations in the Cupulae of the Lateral Lines of Xenopus laevis|J. Physiol.257(1): 245-255|1976|10.1113/jphysiol.1976.sp011366
150463|T||Bell,C.H., and S.M. Wilson|Phosphine Tolerance and Resistance in Trogoderma granarium Everts (Coleoptera: Dermestidae)|J. Stored Prod. Res.31(3): 199-205|1995|10.1016/0022-474X(95)00012-V
150464|A||Hamdy,M.K., and N.V. Prabhu|Behavior of Mercury in Biosystems III.  Biotransference of Mercury Through Food Chains|Bull. Environ. Contam. Toxicol.21:170-178|1979|10.1007/BF01685406
150465|T||Awasthi,M.D., S.S. Misra, S. Verma, S.K. Handa, and R.S. Dewan|"Phosphine Residues from ""Celphos"" Fumigated Wheat Grains var. Kalyan sona"|Bull. Grain Technol.9(1): 36-39|1971|
150466|A||Das,S., and G.J. Srivastava|Responses of Gill to Various Changes in Salinity in Fresh Water Teleost Colisa fasciatus (Bl. and Schn.)|Z. Mikrosk.-Anat. Forsch. (Leipz.)92(4): 770-780|1978|
150467|T||Hull,L.A., and D.J. Biddinger|Apple, Airblast Evaluation of Insecticides, 1992|Insectic. Acaric. Tests18:36-41|1993|10.1093/iat/18.1.36
150468|T||Jansson,R.K., S.H. Lecrone, and C.F.,Jr. Daigle|Wireworm Control on Potato, 1989|Insectic. Acaric. Tests18:143-144|1993|10.1093/iat/18.1.143
150469|A||Hobson,J.F.|Acclimation-Induced Changes in Toxicity and Induction of Metallothionein-Like Proteins in the Fathead Minnow Following Sublethal Exposure to Cobalt, Silver, and Zinc|Ph.D.Thesis, University of Kentucky, Lexington, KY:145 p.|1986|
150470|T||Johnson,D.R., G. Studebaker, and J. Kimbrough|Control of Thrips in Cotton with In-Furrow Insecticides, 1991|Insectic. Acaric. Tests18:230-|1993|10.1093/iat/18.1.230
150471|T||Johnson,D.R., and G. Studebaker|Control of Bollworm and Budworm in Cotton Using Insecticide Combinations, 1990|Insectic. Acaric. Tests18:234-|1993|
150472|T||Johnson,D.R., and G. Studebaker|Control of Greenbug in Wheat, 1990|Insectic. Acaric. Tests18:301-|1993|
150473|T||Johnson,D.R., and G. Studebaker|Control of Thrips in Cotton with In-Furrow Insecticides, 1990|Insectic. Acaric. Tests18:229-230|1993|10.1093/iat/18.1.229
150474|T||Highland,H.A., J.G. Leesch, L.D. Cline, and J.M. Zehner|Phosphine Fumigation of Thick-Film Polyethylene Food Bags and Laminated Film Food Packets|J. Econ. Entomol.77(4): 1041-1045|1984|10.1093/jee/77.4.1041
150475|T||Hori,M., and Y. Kasaishi|Development of a New Assay Method for Quickly Evaluating Phosphine Resistance of the Cigarette Beetle, Lasioderma serricorne (Fabricius) (Coleoptera: Anobiidae), Based on Knockdown of the Adult Beetles|Appl. Entomol. Zool.40(1): 99-104|2005|10.1303/aez.2005.99
150476|T||Leesch,J.G., and H.B. Gillenwater|Fumigation of Pecans with Methyl Bromide and Phosphine to Control the Pecan Weevil|J. Econ. Entomol.69(2): 241-244|1976|10.1093/jee/69.2.241
150477|T||Adu,O.O., and M. Muthu|The Relative Toxicity of Seven Fumigants to Life Cycle Stages of Callosobruchus chinensis (L).|Insect Sci. Appl.6(1): 75-78|1985|
150478|T||Williams,P., G. Hepworth, F. Goubran, M. Muhunthan, and K. Dunn|Phosphine as a Replacement for Methyl Bromide for Postharvest Disinfestation of Citrus|Postharvest Biol. Technol.19(2): 193-199|2000|10.1016/S0925-5214(00)00093-4
150479|T||Leesch,J.G., F.H. Arthur, and R. Davis|Three Methods of Aluminum Phosphide Application for the in-Transit Fumigation of Grain Aboard Deep-Draft Bulk Cargo Ships|J. Econ. Entomol.83(4): 1459-1467|1990|10.1093/jee/83.4.1459
150480|T||Lorini,I., P.J. Collins, G.J. Daglish, M.K. Nayak, and H. Pavic|Detection and Characterisation of Strong Resistance to Phosphine in Brazilian Rhyzopertha dominica (F.) (Coleoptera: Bostrychidae)|Pest Manag. Sci.63(4): 358-364|2007|10.1002/ps.1344
150482|T||McGaughey,W.H.|Compatibility of Bacillus thuringiensis and Granulosis Virus Treatments of Stored Grain with Four Grain Fumigants|J. Invertebr. Pathol.26(2): 247-250|1975|10.1016/0022-2011(75)90056-7
150483|T||Nakakita,H., and J. Kuroda|Differences in Phosphine Uptake Between Susceptible and Resistant Strains of Insects|J. Pestic. Sci. (Multiple Languages)11(1): 21-26|1986|10.1584/jpestics.11.21
150484|T||Pimentel,M.A.G., L.R.D'.A. Faroni, F.H. Da Silva, M.D. Batista, and R.N.C. Guedes|Spread of Phosphine Resistance Among Brazilian Populations of Three Species of Stored Product Insects|Neotrop. Entomol. (Multiple Languages)39(1): 101-107|2010|10.1590/S1519-566X2010000100014
150485|T||Price,N.R., and S.J. Dance|Some Biochemical Aspects of Phosphine Action and Resistance in Three Species of Stored Product Beetles|Comp. Biochem. Physiol. C Comp. Pharmacol.76C(2): 277-281|1983|10.1016/0742-8413(83)90078-6
150486|T||Redlinger,L.M., J.L. Zettler, J.G. Leesch, H.B. Gillenwater, R. Davis, and J.M. Zehner|In-Transit Shipboard Fumigation of Wheat|J. Econ. Entomol.72(4): 642-647|1979|10.1093/jee/72.4.642
150487|T||Roth,H., and J.W. Kennedy|Methyl Bromide and Aluminum Phosphide as Fumigants for Control of Adult Boll Weevils:  Laboratory Studies|J. Econ. Entomol.65(6): 1650-1651|1972|10.1093/jee/65.6.1650
150488|T||Schlipalius,D.I., Q. Cheng, P.E.B. Reilly, P.J. Collins, and P.R. Ebert|Genetic Linkage Analysis of the Lesser Grain Borer Rhyzopertha dominica Identifies Two Loci that Confer High-Level Resistance to the Fumigant Phosphine|Genetics161(2): 773-782|2002|10.1093/genetics/161.2.773
150489|T||Soderstrom,E.L., D.G. Brandl, P.L. Hartsell, and B. Mackey|Fumigants as Treatments for Harvested Citrus Fruits Infested with Asynonychus godmani (Coleoptera: Curculionidae)|J. Econ. Entomol.84(3): 936-941|1991|10.1093/jee/84.3.936
150491|T||Vardell,H.H., A. Cagle, and E. Cooper|Phosphine Residues on Soybeans Fumigated with Aluminum Phosphide|J. Econ. Entomol.66(3): 800-801|1973|10.1093/jee/66.3.800
150492|T||Vincent,L.E., and D.L. Lindgren|Toxicity of Phosphine to the Life Stages of Four Species of Dermestids|J. Econ. Entomol.65(5): 1429-1431|1972|10.1093/jee/65.5.1429
150493|T||Vincent,L.E., and D.L. Lindgren|Hydrogen Phosphide and Ethyl Formate:  Fumigation of Insects Infesting Dates and Other Dried Fruits|J. Econ. Entomol.65(6): 1667-1669|1972|10.1093/jee/65.6.1667
150494|T||Vincent,L.E., and D.L. Lindgren|Toxicity of Methyl Bromide and Phosphine at Various Temperatures and Exposure Periods to the Metamorphic Stages of Lasioderma serricorne|J. Econ. Entomol.70(4): 497-500|1977|10.1093/jee/70.4.497
150495|T||Wu,H., G.A. Zhang, S. Zeng, and K.C. Lin|Extraction of Allyl Isothiocyanate from Horseradish (Armoracia rusticana) and Its Fumigant Insecticidal Activity on Four Stored-Product Pests of Paddy|Pest Manag. Sci.65(9): 1003-1008|2009|10.1002/ps.1786
150496|T||Yokoyama,V.Y., and G.T. Miller|Bale Compression and Hydrogen Phosphide Fumigation to Control Cereal Leaf Beetle (Coleoptera: Chrysomelidae) in Exported Rye Straw|J. Econ. Entomol.95(2): 513-519|2002|10.1603/0022-0493-95.2.513
150497|T||Zettler,J.L., W.R. Halliday, and F.H. Arthur|Phosphine Resistance in Insects Infesting Stored Peanuts in the Southeastern United States|J. Econ. Entomol.82(6): 1508-1511|1989|10.1093/jee/82.6.1508
150499|T||Payne,B.J., and D.T. Walz|The Toxicity of Three Gold Compounds in Laboratory Animals|Vet. Pathol.15(Suppl. 5): 1-3|1978|10.1177/0300985878015s0501
150500|T||Arsenault,W.J., and J.A. Ivany|Response of Several Potato Cultivars to Metribuzin and Diquat|Crop Prot.20(7): 547-552|2001|10.1016/S0261-2194(00)00137-X
150501|T||Burk,R.F., and J.M. Lane|Modification of Chemical Toxicity by Selenium Deficiency|Fundam. Appl. Toxicol.3(4): 218-221|1983|10.1016/S0272-0590(83)80129-8
150502|T||Couch,R.W., and D.E. Davis|Effect of Atrazine, Bromacil, and Diquat on C14O2-Fixation in Corn, Cotton, and Soybeans|Weeds (Urbana)14(3): 251-255|1966|10.2307/4040925
150503|A||Davies,P.J., and D.E. Seaman|Uptake and Translocation of Diquat in Elodea|Weed Sci.16:293-295|1968|10.1017/S0043174500047172
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150505|A||Masuda,S., Y. Deguchi, Y. Masuda, T. Watanabe, H. Nukaya, Y. Terao, T. Takamura, K. Wakabayashi, and N. Kinae|Genotoxicity of 2-[2-(Acetylamino)-4-[bis(2-Hydroxyethyl)Amino]-5-Methoxyphenyl]-5-Amino-7-Bromo-4-Chloro-2H-Benzotriazole (PBTA-6) and 4-Amino-3,3'-Dichloro-5,4'-Dinitro-Biphenyl (ADDB) in Goldfish (Carassius auratus) |Mutat. Res.560(1): 33-40|2004|10.1016/j.mrgentox.2004.02.005
150506|T||Mudge,C.R., T.J. Koschnick, and W.T. Haller|Ornamental Plant Susceptibility to Diquat in Overhead Irrigation Water|J. Aquat. Plant Manag.45:40-43|2007|
150507|T||Rowe,F.P., T. Swinney, and A. Bradfield|Field Trials of the Rodenticide 5-p-Chlorophenyl Silatrane Against Wild House Mice (Mus musculus L.)|J. Hyg.73:49-52|1974|10.1017/S0022172400023834
150508|A||Riemer,D.N.|Observations on Some Acid Water Lakes Treated with Diquat|Proc. Northeast. Weed Control Conf.18:489-495|1964|
150510|T||Camprubi,A., V. Estauna, M.A. El Bakali, F. Garcia-Figueres, and C. Calvet|Alternative Strawberry Production Using Solarization, Metham Sodium and Beneficial Soil Microbes as Plant Protection Methods|Agron. Sustain. Dev.27(3): 179-184|2007|10.1051/agro:2007007
150511|T||Karanika,E.D., O.K. Voulgari, A.P. Mamolos, D.A. Alifragis, and D.S. Veresoglou|Arbuscular Mycorrhizal Fungi in Northern Greece and Influence of Soil Resources on their Colonization|Pedobiologia (Multiple Languages)51(5-6): 409-418|2008|10.1016/j.pedobi.2007.11.002
150512|T||Tandon,I.N.|Control of Post-Emergence Damping-off of Papaya with Vapam|Indian Phytopathol.16:44-47|1963|
150513|T||Van Schoor,L., S. Denman, and N.C. Cook|Characterisation of Apple Replant Disease under South African Conditions and Potential Biological Management Strategies|Sci. Hortic.119(2): 153-162|2009|10.1016/j.scienta.2008.07.032
150514|A||Schuler,L.J., P.F. Landrum, A.D. Harwood, E.M. Tripp, and M.J. Lydy|Joint Toxicity of Fluoranthene and Pentachlorobenzene to Hyalella azteca and Chironomus dilutus|Chemosphere77(3): 399-403|2009|10.1016/j.chemosphere.2009.07.001
150515|T||Gao,Y., and C.D. Collins|Uptake Pathways of Polycyclic Aromatic Hydrocarbons in White Clover|Environ. Sci. Technol.43(16): 6190-6195|2009|10.1021/es900662d
150516|T||Kania-Korwel,I., M.H.M.E. El-Komy, P. Veng-Pedersen, and H.J. Lehmler|Clearance of Polychlorinated Biphenyl Atropisomers is Enantioselective in Female C57Bl/6 Mice|Environ. Sci. Technol.44(8): 2828-2835|2009|10.1021/es901781p
150517|A||Ontario Water Resources Commission|Cladophora Investigations:  A Report of Observation on the Nature and Control of Excessive Growth of Cladophora sp. in Lake Ontario|Ontario Water Resources Commision, Ontario, Canada:30 p.|1959|
150518|T||Ahmed,M., S.S. Shaukat, M.S. Alam, S. Iqbal, A. Ahmed, and J. Khan|Comparative Cost Effectiveness of Four Integrated Pest Management Methods for Storage of Bagged Wheat in Lahore and Multan|Sarhad J. Agric.9(5): 403-414|1993|
150519|T||Alam,M.S., M. Ahmed, and A. Ahmed|A Survey of Resistance to Phosphine and Contact Insecticides in Major Pests of Stored Wheat and Rice in Pakistan|Sarhad J. Agric.9(6): 562-575|1993|
150520|T||Al-Hakkak,Z.S., M.J. Al-Azzawi, B.W. Al-Adhamy, and S.A. Khalil|Inhibitory Action of Phosphine on Acetylcholinesterase of Ephestia cautella (Lepidoptera: Pyralidae)|J. Stored Prod. Res.25(3): 171-174|1989|10.1016/0022-474X(89)90039-8
150521|T||Atui,M.B., P.W. Flinn, S.M.N. Lazzari, and F.A. Lazzari|Detection of Rhyzopertha dominica Larvae in Stored Wheat Using ELISA: The Impact of Myosin Degradation Following Fumigation|J. Stored Prod. Res.43(2): 156-159|2007|10.1016/j.jspr.2006.04.001
150522|T||Fu,Y., W.H. Cheng, D.A. Ross, and X.G. Lei|Cellular Glutathione Peroxidase Protects Mice Against Lethal Oxidative Stress Induced by Various Doses of Diquat|Proc. Soc. Exp. Biol. Med.222(2): 164-169|1999|10.1046/j.1525-1373.1999.d01-127.x
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150524|T||Burk,R.F., K.E. Hill, J.A. Awad, J.D. Morrow, T. Kato, K.A. Cockell, and P.R. Lyons|Pathogenesis of Diquat-Induced Liver Necrosis in Selenium-Deficient Rats:  Assessment of the Roles of Lipid Peroxidation and Selenoprotein P|Hepatology21(2): 561-569|1995|
150525|T||Clark,D.G., and E.W. Hurst|The Toxicity of Diquat|Br. J. Ind. Med.27:51-55|1970|
150526|T||El-Lakwah,F., F. Meuser, A. Abdel Gawad, R. Wohlgemuth, and A. Darwish|Efficiency of Phosphine Alone and in Mixtures with Carbon Dioxide Against Angoumois Grain Moth Sitotroga cerealella (Olivier); (Gelechiidae; Lepidoptera)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)98(1): 92-102|1991|
150527|T||El-Lakwah,F.A., S.M. Ahmed, M.M. Khattab, and A.M. Abdel-Latief|Selection of the Red Flour Beetle (Tribolium-castaneum Herbst) for Resistance to Phosphine in the Laboratory and Biological Observations on the Resistant Strain|In: Otto,D. and Weber,B. (Eds.), Insecticides: Mechanism of Action and Resistance, Second Symp., Reinhardsbrun, Germany(0): 409-426|1992|
150529|T||Fam,E.Z., A.H. Kamel, M.T. Mahdi, and E.M. Sheltawy|The Effect of Repeated Fumigation on the Germination of Certain Vegetable Seeds|Bull. Entomol. Soc. Egypt8:85-89|1975|
150530|T||Gupta,M., and R.K. Kashyap|Phosphine Fumigation Against Pulse Beetle: Germination and Vigour of Green Gram Seed|Seed Sci. Technol.23(2): 429-438|1995|
150531|T||Hernandez-Betancourt,I., J. Leos-Martinez, E. Olivares-Saenz, R. Gonzalez-Gonzalez, A. Garza-Zuniga, H. Gutierrez-Maule|Gaseous Phosphine from Cylinders v.s. Sitophilus zeamais (Coleoptera: Curculionidae)|Southwest. Entomol.31(3): 251-258|2006|
150532|T||Hole,B.D.|Variation in Tolerance of Seven Species of Stored Product Coleoptera to Methyl Bromide and Phosphine in Strains from Twenty-Nine Countries|Bull. Entomol. Res.71(2): 299-306|1981|10.1017/S0007485300008324
150533|T||Imamura,T., S. Todoriki, A. Miyanoshita, A.K. Horigane, M. Yoshida, and T. Hayashi|Efficacy of Soft-Electron (Low-Energy Electron) Treatment for Disinfestation of Brown Rice Containing Different Ages of the Maize Weevil, Sitophilus zeamais Motschulsky|Radiat. Phys. Chem.78(7/8): 627-630|2009|10.1016/j.radphyschem.2009.03.058
150534|T||Kashi,K.P.|Toxicity of Phosphine to Five Species of Stored-Product Insects in Atmospheres of Air and Nitrogen|Pestic. Sci.12(2): 116-122|1981|10.1002/ps.2780120203
150535|T||Kem,T.R.|Cross Resistance Characteristics of a Phosphine-Resistant Strain of Tribolium castaneum (Herbst) to Some Fumigants|J. Entomol. Res.2(2): 206-208|1978|
150536|T||Leesch,J.G., C. Reichmuth, R. Wolhlgemuth, R. Davis, and L.M. Redlinger|The In-Transit Shipboard Fumigation of Soybeans with Phosphine Probed 2-3 Meters Deep|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)101(5): 534-544|1994|
150537|T||Mahdi,M.T., E.M. Sheltawy, A.H. Kamel, and E.Z. Fam|The Effect of Alternating Fumigation with Carbon Bisulphide and Hydrogen Phosphide on the Viability of Seed of Certain Crops|Bull. Entomol. Soc. Egypt8:81-83|1974|
150538|T||Matton,P., and H. Van Melckebeke|Inefficacy of Phosphine Fumigation Against Ticks|Med. Vet. Entomol.3(3): 321-322|1989|10.1111/j.1365-2915.1989.tb00235.x
150539|T||Munzel,M.|Examination of Efficacy of Magnesium Phosphide (Detiaphos R) Against the Cigarette Beetle Lasioderma serricorne (Fabr.) (Col., Anobiidae) at Low Temperatures|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)60(4): 74-78|1987|10.1007/BF01905729
150540|T||Passlow,T., and K.J. Giesmann|Fumigation of Contarinia sorghicola (Coq.) Diapausing Larvae|Qld. J. Agric. Anim. Sci.35(2): 89-90|1978|
150541|T||Pike,V.|Laboratory Assessment of the Efficacy of Phosphine and Methyl Bromide Fumigation Against all Life Stages of Liposcelis entomophilus (Enderlein)|Crop Prot.13(2): 141-145|1994|10.1016/0261-2194(94)90165-1
150542|T||Pimentel,M.A.G., L.R.D'.A. Faroni, R.N.C. Guedes, A.H. Sousa, and M.R. Totola|Phosphine Resistance in Brazilian Populations of Sitophilus zeamais Motschulsky (Coleoptera: Curculionidae)|J. Stored Prod. Res.45(1): 71-74|2009|10.1016/j.jspr.2008.09.001
150543|T||Pratt,S.J.|A New Measure of Uptake: Desorption of Unreacted Phosphine from Susceptible and Resistant Strains of Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae)|J. Stored Prod. Res.39(5): 507-520|2003|10.1016/S0022-474X(02)00057-7
150544|T||Price,N.R.|Active Exclusion of Phosphine as a Mechanism of Resistance in Rhyzopertha dominica (F.) (Coleoptera: Bostrychidae)|J. Stored Prod. Res.20(3): 163-168|1984|10.1016/0022-474X(84)90025-0
150545|T||Rajendran,S.|Post-Fumigation Productivity of Trogoderma granarium Everts (Coleoptera:  Dermestidae)|Bull. Entomol. Res.72(2): 247-251|1982|10.1017/S0007485300010543
150546|T||Rajendran,S., and H.N. Shivaramaiah|The Differential Effects of Selected Fumigants on the Multiplicative Potential of Rhyzopertha dominica F. (Coleoptera: Bostrichidae)|Entomon10(1): 7-12|1985|
150547|T||Rajendran,S., and M. Muthu|The Toxic Action of Phosphine in Combination with some Alkyl Halide Fumigants and Carbon Dioxide Against the Eggs of Tribolium castaneum Herbst (Coleoptera:  Tenebrionidae)|J. Stored Prod. Res.25(4): 225-230|1989|10.1016/0022-474X(89)90028-3
150548|T||Rajendran,S., and K.S. Narasimhan|Phosphine Resistance in the Cigarette Beetle Lasioderma serricorne (Coleoptera: Anobiidae) and Overcoming Control Failures During Fumigation of Stored Tobacco|Int. J. Pest Manag.40(2): 207-210|1994|10.1080/09670879409371883
150549|T||Rajendran,S.|Responses of Phosphine-Resistant Strains of Two Stored-Product Insect Pests to Changing Concentrations of Phosphine|Pestic. Sci.40(3): 183-186|1994|10.1002/ps.2780400303
150550|T||Rajendran,S., and N. Muralidharan|Performance of Phosphine in Fumigation of Bagged Paddy Rice in Indoor and Outdoor Stores|J. Stored Prod. Res.37(4): 351-358|2001|10.1016/S0022-474X(00)00035-7
150551|T||Udeaan,A.S., and B.K. Judge|Biological Characteristics of Susceptible and Phosphine-Resistant Strains of Trogoderma granarium Everts|Indian J. Ecol.17(1): 81-82|1990|
150552|T||Udeaan,A.S.|Susceptibility Status of Trogoderma granarium Everts Populations to Phosphine in Punjab|Indian J. Ecol.17(2): 195-196|1990|
150553|T||Reynolds,E.M., J.M. Robinson, and C. Howells|The Effect on Sitophilus granarius (L.) (Coleoptera, Curculionidae) of Exposure to Low Concentrations of Phosphine|J. Stored Prod. Res.2(3): 177-186|1967|10.1016/0022-474X(67)90066-5
150554|T||Saxena,J.D., and S.K. Bhatia|Radiosensitivity of a Phosphine-Resistant Strain of Tribolium castaneum (Herbst) and Interaction of Gamma Radiation and Fumigation on Susceptible Strain|J. Nucl. Agric. Biol.10(1): 13-14|1981|
150555|T||Singh,K.N., B.P. Srivastava, and G. Nath|Phosphine Residues and Its Effect on the Germination of Stored Pulses|Indian J. Entomol.45(1): 71-80|1983|
150558|T||Srivastava,C., S.N. Sinha, and D.S. Reddy|Toxicity of Cowdung Cake Smoke to Storage Insects|Indian J. Agric. Sci.76(4): 238-241|2006|
150559|T||Taylor,M.A., R.M. Goodwin, H.M. McBrydie, and H.M. Cox|Destroying Managed and Feral Honey Bee (Apis mellifera) Colonies to Eradicate Honey Bee Pests|N. Z. J. Crop Hortic. Sci.35(3): 313-323|2007|10.1080/01140670709510197
150560|T||Udeaan,A.S.|Studies on the Toxicity of Phosphine to Different Developmental Stages of Susceptible and Resistant Strains of Trogoderma granarium Everts|Indian J. Ecol.18(1): 45-49|1991|
150561|T||Wang,D., P.J. Collins, and X. Gao|Optimising Indoor Phosphine Fumigation of Paddy Rice Bag-Stacks Under Sheeting for Control of Resistant Insects|J. Stored Prod. Res.42(2): 207-217|2006|10.1016/j.jspr.2005.02.001
150562|T||Weller,G.L., and J.E. Van S.Graver|Cut Flower Disinfestation: Assessment of Replacement Fumigants for Methyl Bromide|Postharvest Biol. Technol.14(3): 325-333|1998|10.1016/S0925-5214(98)00054-4
150563|T||Weller,G.L., and R. Morton|Fumigation With Carbonyl Sulfide:  A Model for the Interaction of Concentration, Time and Temperature|J. Stored Prod. Res.37(4): 383-398|2001|10.1016/S0022-474X(00)00041-2
150564|T||Winks,R.G.|The Toxicity of Phosphine to Adults of Tribolium castaneum (Herbst): Phosphine-Induced Narcosis|J. Stored Prod. Res.21(1): 25-29|1985|10.1016/0022-474X(85)90056-6
150565|T||Wright,M.A., D.A. Kendall, and B.D. Smith|Toxicity of Paraquat, Paraquat + Diquat and Glyphosate to the Cereal Aphid Rhopalosiphum padi|Tests Agrochem. Cultiv.6:8-9|1985|
150567|T||Valmas,N., and P.R. Ebert|Comparative Toxicity of Fumigants and a Phosphine Synergist Using a Novel Containment Chamber for the Safe Generation of Concentrated Phosphine Gas|PLoS One1:6 p. (E130)|2006|10.1371/journal.pone.0000130
150568|T||Ahmad,M.|Effect of Phosphine Fumigation on the Germination of Edible Legume Seeds|J. Stored Prod. Res.12(3): 211-212|1976|10.1016/0022-474X(76)90013-8
150569|A||Anguelov,A., A. Hvoynev, G. Anguelov, L. Belchev, and C. Christev|Changes in Protein Content and Activity of Aspartate and Alanine Aminotransferases in Carp (Cyprinus carpio L.) After Experimental Treatment with Herbicide Diquat|Vet. Arh. (Tisak)67(6): 253-260|1997|
150570|T||Bakheit,B.R., R.F. Abdou, and F.H. Abdalla|Germination, Seedling Vigour and Induction of Chromosomal Aberrations in Wheat Grains Fumigated with Phosphine|Seed Sci. Technol.13(3): 725-739|1985|
150571|T||Brian,R.C.|The Uptake and Adsorption of Diquat and Paraquat by Tomato, Sugar Beet and Cocksfoot|Ann. Appl. Biol.59:91-99|1967|10.1111/j.1744-7348.1967.tb04420.x
150575|T||Fu,Y., W.H. Cheng, J.M. Porres, D.A. Ross, and X.G. Lei|Knockout of Cellular Glutathione Peroxidase Gene Renders Mice Susceptible to Diquat-Induced Oxidative Stress|Free Radic. Biol. Med.27(5/6): 605-611|1999|10.1016/S0891-5849(99)00104-5
150576|T||Brian,R.C.|The Bipyridylium Quaternary Salts.  The Effect of Atmospheric and Soil Humidity on the Uptake and Movement of Diquat and Paraquat in Plants|Weed Res. (Multiple Languages)6:292-303|1966|10.1111/j.1365-3180.1966.tb00895.x
150577|T||Brian,R.C., and J. Ward|The Influence of Environment on Potato Haulm Kill by Diquat and on Its Residues in the Tubers|Weed Res. (Multiple Languages)7:117-130|1967|10.1111/j.1365-3180.1967.tb01360.x
150578|T||Howe,R.W.|The Susceptibility of the Immature and Adult Stages of Sitophilus granarius to Phosphine|J. Stored Prod. Res.8(4): 241-262|1973|10.1016/0022-474X(73)90041-6
150579|T||Joubert,P.C., and D.M. Du Toit|The Development and Yield of Plants Derived from Fumigated Seeds.  I.  Maize|Phytophylactica1(3/4): 195-200|1969|
150580|T||Khan,A.A., M. Ahmad, and I. Hussain|Evaluation of Four Fumigants Against the Short-Tailed Mole Rat, Nesokia indica Gray and Hardwicke, 1932|Trop. Pest Manag.37(1): 96-99|1991|
150581|T||Lall,S.B., S.S. Peshin, and S. Mitra|Methemoglobinemia in Aluminium Phosphide Poisoning in Rats|Indian J. Exp. Biol.38(1): 95-97|2000|
150582|T||Mills,K.A., A.L. Clifton, B. Chakrabarti, and N. Savvidou|The Impact of Phosphine Resistance on the Control of Insects in Stored Grain by Phosphine Fumigation|Br. Crop Prot. Conf. Pests Dis.:1181-1187|1990|
150583|T||Winks,R.G.|The Significance of Response Time in the Detection and Measurement of Fumigant Resistance in Insects with Special Reference to Phosphine|Pestic. Sci.17(2): 165-174|1986|10.1002/ps.2780170214
150584|T||Winks,R.G., and C.J. Waterford|The Relationship Between Concentration and Time in the Toxicity of Phosphine to Adults of a Resistant Strain of Tribolium castaneum (Herbst).|J. Stored Prod. Res.22(2): 85-92|1986|10.1016/0022-474X(86)90024-X
150585|T||Williams,P., and M. Muhunthan|Fumigants for Postharvest Control of Insect Pests of Cut Flowers|Acta Hortic.464:291-296|1998|10.17660/ActaHortic.1998.464.43
150586|T||Monro,H.A.U., E. Upitis, and E.J. Bond|Resistance of a Laboratory Strain of Sitophilus granarius (L) (Coleoptera, Curculionidae) to Phosphine|J. Stored Prod. Res.8(3): 199-207|1972|10.1016/0022-474X(72)90040-9
150587|T||Nakakita,H., T. Saito, and K. Iyatomi|Effect of Phosphine on the Respiration of Adult Sitophilus zeamais Motsch. (Coleoptera, Curculionidae)|J. Stored Prod. Res.10(2): 87-92|1974|10.1016/0022-474X(74)90015-0
150588|T||Okolie,N.P., J.U. Aligbe, and E.E. Osakue|Phostoxin-Induced Biochemical and Pathomorphological Changes in Rabbits|Indian J. Exp. Biol.42(11): 1096-1099|2004|
150589|T||Prasad,G.V.S.R.|Effect of Fumigation on Viability and Vigour of Stored Seeds of Sorghum (Sorghum bicolor (L.) Moench) Cultivars|Seed Res.26(1): 57-61|1998|
150590|T||Price,N.R.|The Effect of Phosphine on Respiration and Mitochondrial Oxidation in Susceptible and Resistant Strains of Rhyzopertha dominica|Insect Biochem.10(1): 65-71|1980|10.1016/0020-1790(80)90040-2
150591|T||Price,N.R.|Some Aspects of the Inhibition of Cytochrome C Oxidase by Phosphine in Susceptible and Resistant Strains of Rhyzopertha dominicia|Insect Biochem.10(2): 147-150|1980|10.1016/0020-1790(80)90065-7
150592|T||Rajak,R.L., and P.S. Hewlett|Effects of Some Synergists on the Insecticidal Potency of Phosphine|J. Stored Prod. Res.7(1): 15-19|1971|10.1016/0022-474X(71)90033-6
150593|T||Rangaswamy,J.R., and V.B. Sasikala|Bound Residues of Phosphine and Their Insect Toxicity in Two Wheat Types|LWT Food Sci. Technol.19(5): 360-364|1986|
150594|T||Winks,R.G.|The Toxicity of Phosphine to Adults of Tribolium castaneum (Herbst): Time as a Dosage Factor|J. Stored Prod. Res.20(1): 45-56|1984|10.1016/0022-474X(84)90035-3
150595|T||El-Lakwah,F.A., R. Wohlgemuth, and M.M. Khattab|Efficiency of Phosphine and Combinations of Phosphine with Carbon Dioxide Against Khapra Beetle Larvae Trogoderma granarium Everts. (Col., Dermestidae)|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)62(5): 85-88|1989|10.1007/BF01906546
150596|T||Nayak,M.K., P.J. Collins, H. Pavic, and R.A. Kopittke|Inhibition of Egg Development by Phosphine in the Cosmopolitan Pest of Stored Products Liposcelis bostrychophila (Psocoptera:  Liposcelididae)|Pest Manag. Sci.59(11): 1191-1196|2003|10.1002/ps.753
150597|T||Beckett,S.J., J.A. Darby, and R.I. Forrester|The Effect of Diurnally Interrupted Doses of Phosphine over Four Days on Egg Mortality of Susceptible and Resistant Strains of Sitophilus oryzae (L.)|J. Stored Prod. Res.46(1): 59-65|2010|10.1016/j.jspr.2009.10.001
150598|T||Greening,H.G.|Fumigation Trials with Farm-Stored Grain|Dev. Agric. Eng.5:673-682|1984|10.1016/B978-0-444-42417-4.50068-2
150599|T||Kashi,K.P.|Dose-Mortality Responses of Five Species of Stored-Products Insects to Phosphine|Int. Pest Control24(2): 46-49|1982|
150600|T||Khanna,S.C., T.D. Yadav, and K.N. Katiyar|Studies on Fumigation of Cotton Seed with Methyl Bromide and Hydrogen Phosphide|Seed Res.20(1): 31-33|1992|
150601|T||Tyler,P.S., R.W. Taylor, and D.P. Rees|Insect Resistance to Phosphine Fumigation in Food Warehouses in Bangladesh|Int. Pest Control25(1): 10-13,21|1983|
150602|T||Wainman,H.E., B. Chakrabarti, and M.A. Woodward|Control of Insects in Baled Skins by Fumigation with Methyl Bromide and Phosphine|Int. Pest Control22(2): 28-30|1980|
150604|T||Bell,C.H.|Time, Concentration and Temperature Relationships for Phosphine Activity in Tests on Diapausing Larvae of Ephestia elutella (Huebner) (Lepidoptera:  Pyralidae)|Pestic. Sci.35(3): 255-264|1992|10.1002/ps.2780350310
150605|T||Bell,C.H.|The Tolerance of Developmental Stages of Four Stored Product Moths to Phosphine|J. Stored Prod. Res.12(2): 77-86|1976|10.1016/0022-474X(76)90027-8
150606|T||Bell,C.H., B.D. Hole, and P.H. Evans|The Occurrence of Resistance to Phosphine in Adult and Egg Stages of Strains of Rhyzopertha dominica (F.) (Coleoptera:  Bostrichidae)|J. Stored Prod. Res.13(2): 91-94|1977|10.1016/0022-474X(77)90066-2
150607|T||Bell,C.H., S.M. Wilson, and H.J. Banks|Studies on the Toxicity of Phosphine to Tolerant Stages of Trogoderma granarium Everts (Coleoptera: Dermestidae)|J. Stored Prod. Res.20(2): 111-117|1984|10.1016/0022-474X(84)90017-1
150608|T||Benhalima,H., M.Q. Chaudhry, K.A. Mills, and N.R. Price|Phosphine Resistance in Stored-Product Insects Collected from Various Grain Storage Facilities in Morocco|J. Stored Prod. Res.40(3): 241-249|2004|10.1016/S0022-474X(03)00012-2
150609|T||Bhatia,S.K., and P.C. Bansode|Studies on Resistance to Insecticides in Tribolium castaneum (Herbst).  IV.  Susceptibility of p,p'-DDT-Resistant Strain to Some Fumigants|Indian J. Entomol.33(1): 45-49|1971|
150610|T||Bond,E.J., and E. Upitis|Response of Three Insects to Sublethal Doses of Phosphine|J. Stored Prod. Res.8(4): 307-313|1973|10.1016/0022-474X(73)90047-7
150611|T||Higuchi,M., S. Kobayashi, N. Kawasaki, K. Hamaoka, S. Watabiki, K. Orino, and K. Watanabe|Protective Effects of Wheat Bran Against Diquat Toxicity in Male Fischer-344 Rats|Biosci. Biotechnol. Biochem.71(7): 1621-1625|2007|10.1271/bbb.60698
150612|T||Brar,R.S., R. Sharma, and S. Khandelwal|Effect of Certain Fumigants and Containers on the Viability of Wheat Seeds|Geobios (Jodhpur)32(4): 253-256|2005|
150613|T||Chaudhry,M.Q., and N.R. Price|Insect Mortality at Doses of Phosphine Which Produce Equal Uptake in Susceptible and Resistant Strains of Rhyzopertha dominica (F.) (Coleoptera:  Bostrychidae)|J. Stored Prod. Res.26(2): 101-107|1990|10.1016/0022-474X(90)90008-G
150614|T||Chaudhry,M.Q., H.A. Bell, N. Savvidou, and A.D. MacNicoll|Effect of Low Temperatures on the Rate of Respiration and Uptake of Phosphine in Different Life Stages of the Cigarette Beetle Lasioderma serricorne (F.)|J. Stored Prod. Res.40(2): 125-134|2003|10.1016/S0022-474X(02)00093-0
150615|T||Childs,D.P., J.E. Overby, and B.J. Watkins|Phosphine Fumigation of Flue-Cured Tobacco for Control of the Cigarette Beetle - Laboratory Tests|Tob. Sci.13:160-163|1969|
150616|T||Bang,Y.H., and H.S. Telford|Effect of Sublethal Doses of Fumigants on Stored-Grain Insects|Tech. Bull. No. 50, Wash. Agric. Exp. Stn:22 p.|1966|
150617|T||Cox,P.D., C.H. Bell, J. Pearson, and M.A. Beirne|The Effect of Diapause on the Tolerance of Larvae of Ephestia kuehniella to Methyl Bromide and Phosphine|J. Stored Prod. Res.20(4): 215-219|1984|10.1016/0022-474X(84)90006-7
150618|T||Storey,C.L., and L.I. Davidson|Relative Toxicity of Chloropicrin, Phosphine, EDC-CCl4, and CCl4-CS2 to Various Life Stages of the Indian Meal Moth|Report  ARS-NC-6, U. S., Agr. Res. Serv., N. Cent. Reg:8 p.|1973|
150619|T||Al-Hakkak,Z.S., A.M.B. Murad, and A.F. Hussain|Phosphine-Induced Sterility in Ephestia cautella (Lepidoptera: Pyralidae)|J. Stored Prod. Res.21(3): 119-121|1985|10.1016/0022-474X(85)90003-7
150621|T||Attia,F.I., and H.G. Greening|Survey of Resistance to Phosphine in Coleopterous Pests of Grain and Stored Products in New South Wales|Gen. Appl. Entomol.13:93-97|1981|
150622|T||Xu,J., S. Sun, W. Wei, J. Fu, W. Qi, L.C. Manchester, D.X. Tan, and R.J. Reiter|Melatonin Reduces Mortality and Oxidatively Mediated Hepatic and Renal Damage due to Diquat Treatment|J. Pineal Res.42(2): 166-171|2007|10.1111/j.1600-079X.2006.00401.x
150623|T||Hawkes,C.|Assessment of Phosphine Fumigation as a Plant Quarantine Measure Against Spodoptera littoralis|Ann. Appl. Biol.75(3): 393-399|1973|10.1111/j.1744-7348.1973.tb07987.x
150624|T||Irshad,M., and J. Iqbal|Phosphine Resistance in Important Stored Grain Insect Pests in Pakistan|Pak. J. Zool.26(4): 347-350|1994|
150625|T||Rajendran,S., and M. Muthu|Delayed Mortality of Some Stored Product Insects Exposed to Candidate Fumigants|Indian J. Entomol.49(3): 363-369|1987|
150626|T||Saxena,J.D., and S.K. Bhatia|Reduction in Fecundity of Tribolium castaneum (Herbst) due to Fumigation and Phosphine Resistance|Indian J. Entomol.42(4): 796-798|1980|
150627|T||Sher,F., S.S. Ali, and A.R. Shakoori|Phosphine Induced Changes in Various Esterase Levels in 4th Instar Larvae of Trogoderma granarium|Pak. J. Zool.36(4): 257-260|2004|
150628|T||Zhang,Z., C.W. Van Epenhuijsen, D. Brash, and G.P. Hosking|Phosphine as a Fumigant to Control Hylastes ater and Arhopalus ferus, Pests of Export Logs|N. Z. Plant Prot.57:257-259|2004|10.30843/nzpp.2004.57.6903
150629|T||Soni,G.R., and I. Prakash|Mitigation of Poison Shyness in Desert Gerbil by Adding Conspecific Sebum of Ventral Scent Marking Gland and Urine in Poison Baits|Indian J. Exp. Biol.26(6): 476-478|1988|
150631|T||Blaxland,J.D., and R.F. Gordon|Zinc Phosphide Poisoning in Poultry|Vet. J.101:108-110|1945|
150632|T||Childs,D.P.|Control of Insects that Attack Stored Tobacco|In: Renewable Resour. Plast., Growth Change Adhes., Chem. Requir. Tob.  Ind., Symp.,ARS,USDA,Richmond,VA:231-238|1975|
150633|T||Hartsell,P.L., J.C. Tebbets, and P.V. Vail|Phosphine Fumigation of Inshell Almonds for Insect Control, 1990|Insectic. Acaric. Tests16:42|1991|10.1093/iat/16.1.42
150634|T||Rao,G.V.R., U. Ravi, A. Surender, K.S. Murthy, and N.C. Joshi|Effect of Phosphine and Methyl Bromide Fumigation on Eggs and Larvae of Rice Moth Corcyra cephalonica S., a Common Stored Grain Pest|Indian J. Plant Prot.19(1): 89-91|1991|
150635|T||Rao,G.V.R., U. Ravi, A. Surender, K.S. Murthy, and N.C. Joshi|Effect of Phosphine and Methyl Bromide Fumigation of Different Life Stages of Peanut Bruchid, Caryedon serratus Olivier|Indian J. Plant Prot.21(1): 72-74|1993|
150636|T||Hasan,M.M., and C. Reichmuth|Relative Toxicity of Phosphine Against the Bean Bruchid Acanthoscelides obtectus (Say) (Col., Bruchidae)|J. Appl. Entomol.128(5): 332-336|2004|10.1111/j.1439-0418.2004.00850.x
150637|T||Highland,H.A., W.H. Schoenherr, T.F. Winburn, and D.E. Lawson|Phosphine and Methyl Bromide Fumigation of Commodities in Woven Plastic or Paper Bags|Cereal Food World24(1): 19-21|1979|
150638|T||Madhumathi,T., and G.V. Subbaratnam|Determination of Cross- Resistance and Multiple Resistance in Cryptolestes ferrugineus (Stephens)|Pestic. Res. J.19(1): 63-66|2007|
150639|T||Udeaan,A.S.|Susceptibility Status of Trogoderma granarium Everts to Phosphine in North India|J. Insect Sci.5(2): 217-218|1992|
150640|T||Misumi,T., H. Kitamura, N. Tanigawa, T. Oogita, and K. Asano|The Influence of Plastic Consumer Packaging for Polished Rice on Phosphine Gas Penetration, Desorption, and Residue|Shokubutsu Boekijo Chosa Kenkyu Hokoku (Non-English)45:21-28|2009|
150641|T||Nakakita,H., and R.G. Winks|Phosphine Resistance in Immature Stages of a Laboratory Selected Strain of Tribolium castaneum (Herbst) (Coleoptera:  Tenebrionidae)|J. Stored Prod. Res.17(2): 43-52|1981|10.1016/0022-474X(81)90016-3
150642|T||Robertson,A.J., J.G. Campbell, and D.N. Graves|Experimental Zinc Phosphide Poisoning in Fowls|J. Comp. Path. Ther.55:290-300|1945|10.1016/S0368-1742(45)80027-9
150643|T||Sher,F., A.R. Shakoori, and S.S. Ali|Toxicity of Phosphine Against 4th Instar Larvae of Trogoderma granarium Collected from Different Godowns of Punjab|Proc. Pak. Congr. Zool.23:67-75|2003|
150644|T||Taylor,R.W.D., and D. Halliday|The Geographical Spread of Resistance to Phosphine by Coleopterous Pests of Stored Products|Br. Crop Prot. Conf. Pests Dis.(2): 607-613|1986|
150645|T||Benigni,R., M. Bignami, A. Carere, G. Conti, L. Conti, R. Crebelli, E. Dogliotti, G. Gualandi, A. Novelletto, and V.A. |Mutational Studies with Diquat and Paraquat In Vitro|Mutat. Res.68(3): 183-193|1979|10.1016/0165-1218(79)90148-4
150646|T||Hsu,C.H., B.C. Han, M.Y. Liu, C.Y. Yeh, and J.E. Casida|Phosphine-Induced Oxidative Damage in Rats:  Attenuation by Melatonin|Free Radic. Biol. Med.28(4): 636-642|2000|10.1016/S0891-5849(99)00277-4
150648|T||Sparks,A.N.Jr., and J. Anciso|Evaluation of Biological Insecticides for Control of DBM, 1990|Insectic. Acaric. Tests16:63-64|1991|10.1093/iat/16.1.63a
150649|T||Oloumi-Sadeghi,H., R. Randell, and C.E. Eastman|Sweet Corn Insect Control in Illinois, 1990|Insectic. Acaric. Tests16:77-78|1991|10.1093/iat/16.1.77a
150650|T||Hutchison,W.D., and J.J. Lee|Control of Late-Season Fall Armyworm Infestation of Minnesota Sweet Corn, 1990|Insectic. Acaric. Tests16:74-75|1991|10.1093/iat/16.1.74a
150651|T||Shelton,A.M., and W.T. Wilsey|Comparing New Bioinsecticide Products for Control of Natural Populations of Lepidoptera in a Full Season Program on Cabbage, 1991|Insectic. Acaric. Tests17:87-|1992|10.1093/iat/17.1.87
150652|T||Hoy,C.W., and T.T. Vaughn|Control of Lepidoptera on Late Season Cabbage, 1991|Insectic. Acaric. Tests17:85-|1992|10.1093/iat/17.1.85
150653|T||Sorensen,K.A., and K.A. Kidd|Colorado Potato Beetle Control with Bioinsecticides, 1991|Insectic. Acaric. Tests17:139-140|1992|10.1093/iat/17.1.139
150654|T||Oloumi-Sadeghi,H., and C.G. Helm|Bean Leaf Beetle and Potato Leafhopper Control on Soybean, 1991|Insectic. Acaric. Tests17:268-271|1992|10.1093/iat/17.1.268
150655|T||Layton,B., and J. Hamer|Control of Soybean Looper in Mississippi, 1991|Insectic. Acaric. Tests17:262-263|1992|10.1093/iat/17.1.262
150656|T||Hutchison,W.D., D.W. Bartels, and J.H. Rinkleff|Timing of Late-Season Permethrin Applications for Corn Earworm Control in Sweet Corn, 1991|Insectic. Acaric. Tests17:104-105|1992|10.1093/iat/17.1.104
150657|T||Luedeman,L.J., K.R. Ostlie, and A.M. Journey|Permethrin Efficacy Trial, 1991|Insectic. Acaric. Tests17:201-|1992|10.1093/iat/17.1.201
150658|T||Hutchinson,W.D., D.W. Bartels, J.H. Rinkleff, P.C. Bolin, and C.D. Campbell|Insecticidal and Microbial Control of Late-Season Insect Pests of Minnesota Sweet Corn, 1991|Insectic. Acaric. Tests17:105-|1992|10.1093/iat/17.1.105
150659|T||Young,S.Y., and B.T. Forschler|Evaluation of Bacillus thuringiensis Products for Control of a Mixed VBC:GCW Population on Soybean, 1990|Insectic. Acaric. Tests17:283-284|1992|
150660|T||Kumar,V.|Seasonal Incidence, Foliar Damage and Chemical Control of Thysanoplusia orichalcea Fabr. (Lepidoptera:  Noctuidae) - a Pest of Sunflower|J. Entomol. Res. Soc.9(1): 39-47|2007|
150661|T||Cheng,H.H., and J.J. Hanlon|Control of Several Early-Season Insects of Flue-Cured Tobacco with Acephate in the Transplant Water|Tob. Sci.30:104-108|1986|
150662|AT||Bernhardt,J.L.|Control of Rice Water Weevil with Selected Insecticides, 1997|Arthropod Manag. Tests23:260-261|1998|
150663|T||Bragg,D.E., and J.W. Burns|Control of Insects on Spring Peas, 1997|Arthropod Manag. Tests23:250-251|1998|10.1093/amt/23.1.250
150664|T||Brandenburg,R.L., and B.M. Royals|Evaluating Thrips Control in Peanuts Using Percent Damage Leaflet Ratings, 1997|Arthropod Manag. Tests23:252-|1998|10.1093/amt/23.1.252
150665|T||Brandenburg,R.L., and B.M. Royals|Controlling Fall Armyworm on Peanut, 1997|Arthropod Manag. Tests23:251-|1998|
150666|T||Chappel III,G.F., and D.A.,Jr. Herbert|Evaluation of Selected Insecticides and Application Timings for Control of Cereal Leaf Beetle and Aphids on Wheat, 1997|Arthropod Manag. Tests23:308-|1998|10.1093/amt/23.1.308
150667|T||Collins,J.A., and F.A. Drummond|Spanworm Control, 1997|Arthropod Manag. Tests22:47|1998|10.1093/amt/23.1.47
150668|T||Collins,J.A., and F.A. Drummond|Flea Beetle Control, 1997|Arthropod Manag. Tests22:48|1998|10.1093/amt/23.1.48
150669|T||Collins,J.A., and F.A. Drummond|Maggot Control, 1997|Arthropod Manag. Tests23:49-50|1998|
150670|T||Edelson,J.V., M. Peters, J. Duthie, and W. Roberts|Control of Squash Bug on Summer Squash, 1997|Arthropod Manag. Tests23:140-|1998|10.1093/amt/23.1.140
150671|T||Fouche,C., R. Mullen, and D. Cutter|Evaluation of Acaricides for Control of Spider Mites on Watermelon, 1997|Arthropod Manag. Tests23:167-|1998|10.1093/amt/23.1.167
150672|T||Fouche,C., P. Verdegaal, R. Duncan, and D. Cutter|Evaluation of Acaricides for Control of Spider Mites on Almonds and Impact on Two Beneficial Arthropods, 1997|Arthropod Manag. Tests23:59-|1998|10.1093/amt/23.1.59
150673|T||Fouche,C.F., R. Mullen, and D. Cutter|Evaluation of MP062 for Control of Armyworm on Tomatoes, 1997|Arthropod Manag. Tests23:153-|1998|10.1093/amt/23.1.153
150674|T||Hall,M., and R. Shelton|Evaluation of Insecticide Efficacy for Control of Pecan Spittlebug in Louisiana, 1997|Arthropod Manag. Tests22:71-|1998|10.1093/amt/23.1.71
150675|T||Hall,M., and R. Shelton|Evaluation of Three Insecticides for Control of Pecan Nut Casebearer, 1996|Arthropod Manag. Tests23:69-70|1998|10.1093/amt/23.1.69
150676|T||Hammond,A.M., R.N. Story, and M.J. Murray|Evaluation of Selected Foliar Insecticides for Control of Banded Cucumber Beetle on Sweet Potatoes, 1997|Arthropod Manag. Tests23:143-144|1998|10.1093/amt/23.1.143
150677|T||Herbert,D.A.,Jr.|Evaluation of Selected In-Furrow and Foliar Applied Insecticides for Control of Thrips on Cotton, 1997|Arthropod Manag. Tests23:231-232|1998|10.1093/amt/23.1.231
150678|T||Herbert,D.A.,Jr.|Evaluation of Selected in-Furrow Applied Insecticides/Nematicides with and Without an Additional Foliar Insecticide Band, for Control of Thrips on Cotton, 1997|Arthropod Manag. Tests23:230-231|1998|10.1093/amt/23.1.230
150679|T||Hogmire,H.W., and T. Winfield|Acaricide Evaluation, 1997|Arthropod Manag. Tests23:3-4|1998|10.1093/amt/23.1.3a
150680|T||Howell,M.S., and J.T. Reed|Evaluation of In-Furrow Insecticides for Control of Thrips on Cotton, 1997b|Arthropod Manag. Tests23:235-236|1998|10.1093/amt/23.1.235
150681|T||McLeod,P.|Evaluation of Insecticides for Control of Redlegged Grasshopper in a Pasture Adjacent to Mustard Greens, 1997|Arthropod Manag. Tests23:351|1998|10.1093/amt/23.1.351
150682|T||McLeod,P., and R.W. Katayama|Evaluation of Insecticides for Control of Corn Earworm on Sweet Corn, 1997|Arthropod Manag. Tests23:96|1998|10.1093/amt/23.1.96
150683|T||Palumbo,J.C., C.H. Mullis, and F.J. Reyes|Evaluation of Experimental Compounds for Western Flower Thrips Control in Lettuce, 1997|Arthropod Manag. Tests23:108-109|1998|10.1093/amt/23.1.108
150684|T||Palumbo,J.C., and F.J. Reyes|Evaluation of Experimental Compounds for Leafminer Control on Lettuce, 1996|Arthropod Manag. Tests23:107-108|1998|10.1093/amt/23.1.107a
150685|T||Hoy,C.W., and M.J. Dunlap|Ear-Infesting Insect Control on Sweet Corn, 1997|Arthropod Manag. Tests23:95-|1998|10.1093/amt/23.1.95
150686|T||Fuller,B.W., and M.A. Boetel|Insecticide Rescue Treatments for Control of First-Generation European Corn Borer in South Dakota, 1997|Arthropod Manag. Tests23:195-196|1998|10.1093/amt/23.1.195a
150687|T||Higgins,R.A.|Alfalfa Weevil and Pea Aphid Control, 1990|Insectic. Acaric. Tests16:130-131|1991|10.1093/iat/16.1.130
150688|T||Hutchison,W.D.|Aerial Application of Microbials and Permethrin for Control of Second-Generation ECB Larvae in Minnesota, 1990|Insectic. Acaric. Tests16:75-|1991|
150689|T||Hutchison,W.D., and D.W. Bartels|Microbial and Insecticidal Control of Late-Season Insect Pests of Minnesota Sweet Corn, 1990|Insectic. Acaric. Tests16:75-76|1991|
150690|T||Karner,M., M. Kelley, J. Goodson, and L.D. Smith|Army Cutworm Control, 1991|Insectic. Acaric. Tests17:310-311|1992|10.1093/iat/17.1.310
150691|T||Brandenburg,R.L., and P.T. Hertl|Control of White Grubs in Bermudagrass Sod, North Carolina, 1990|Insectic. Acaric. Tests16:242-243|1991|10.1093/iat/16.1.242a
150692|T||Linduska,J.J., M. Ross, D. Baumann, and A. Parr|Foliar Sprays to Control Ear-Invading Insects on Sweet Corn, 1997|Arthropod Manag. Tests23:95-96|1998|10.1093/amt/23.1.95a
150693|T||Muegge,M.A., D.J. Moellenbeck, and S.S. Quisenberry|Alfalfa Insect Control, 1990|Insectic. Acaric. Tests16:134-|1991|10.1093/iat/16.1.134
150694|T||Oloumi-Sadeghi,H., and K.L. Steffey|Alfalfa Weevil Control in Illinois, 1990|Insectic. Acaric. Tests16:135-136|1991|
150695|T||Cranshaw,W.|Control of Poplar-and-Willow Borer, 1996-1997|Arthropod Manag. Tests23:361-|1998|
150696|T||Cranshaw,W.|Zimmerman Pine Moth Control with Spring Treatments, 1997|Arthropod Manag. Tests23:360-|1998|
150697|T||Boetel,M.A., B.W. Fuller, W.W. Chambers, and J.M. Jenson|First Generation European Corn Borer Control, 1990|Insectic. Acaric. Tests16:143-144|1991|10.1093/iat/16.1.143a
150698|T||Burkness,E.C., P.K. O'Rourke, and W.D. Hutchison|Control of European Corn Borer and Corn Earworm on Sweet Corn, 1997|Arthropod Manag. Tests23:94-|1998|10.1093/amt/23.1.94
150699|T||Berberet,R.C., A.A. Zarrabi, and A.D. Bisges|Early-Season Insect Control in Alfalfa, 1997|Arthropod Manag. Tests23:169-170|1998|10.1093/amt/23.1.169
150700|T||Zehnder,G.W., and J. Speese III|Insecticides for Colorado Potato Beetle Control on Potatoes, 1991|Insectic. Acaric. Tests17:151-152|1992|10.1093/iat/17.1.151
150701|T||Riley,D.|Control of Aphids on Spinach with Imidacloprid and Other Treatments, 1996|Arthropod Manag. Tests23:138-139|1998|10.1093/amt/23.1.138b
150702|T||Royer,T.A., and K.L. Giles|Southwestern Corn Borer Control on Irrigated Corn, 1997|Arthropod Manag. Tests23:204|1998|10.1093/amt/23.1.204
150703|T||Schuster,D.J.|Insect Control on Fresh Market Tomatoes in West-Central Florida, Fall 1988|Insectic. Acaric. Tests16:115-|1991|10.1093/iat/16.1.115
150704|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Colorado Potato Beetle, 1990|Insectic. Acaric. Tests16:98-100|1991|
150705|T||Shamiyeh,N.B., C.J. Southards, and C.H. Roberts|Control of Alfalfa Weevil Larvae in Tennessee, 1990|Insectic. Acaric. Tests16:137-138|1991|10.1093/iat/16.1.137a
150706|T||Shaw,J.T., K.L. Steffey, M.E. Gray, and J.W. Finger|Efficacy of Registered and Experimental Insecticides for Control of First-Generation European Corn Borer, 1997|Arthropod Manag. Tests23:205-206|1998|10.1093/amt/23.1.205a
150707|T||Shaw,J.T., K.L. Steffey, M.E. Gray, and J.W. Finger|Efficacy of Registered and Experimental Insecticides for Control of Second-Generation European Corn Borer, 1997|Arthropod Manag. Tests23:206-207|1998|10.1093/amt/23.1.206
150708|T||Shaw,J.T., R. Weinzierl, and J.W. Finger|Efficacy of Selected Conventional and Experimental Insecticides for Control of European Corn Borer on Snap Beans, 1997|Arthropod Manag. Tests23:75-76|1998|10.1093/amt/23.1.75a
150709|T||Shelton,A.M., W.T. Wilsey, and S.D. Eigenbrode|Control of Diamondback Moth and Cabbage Looper on Cabbage with Bacillus thuringiensis and in Combination with Permethrin, 1990|Insectic. Acaric. Tests16:62-63|1991|10.1093/iat/16.1.62a
150710|T||Witkowski,J., and J. Echtenkamp|Control of Second-Generation European Corn Borer, 1997|Arthropod Manag. Tests23:212-|1998|10.1093/amt/23.1.212
150711|T||Reissig,H., M. Dunham, and C. Smith|Secondary Insecticide Testing on Apple, 1997|Arthropod Manag. Tests23:31-33|1998|10.1093/amt/23.1.31
150712|T||Reissig,H., M. Dunham, and C. Smith|Preliminary Insecticide Test on Apple, 1997|Arthropod Manag. Tests23:27-28|1998|10.1093/amt/23.1.27
150713|T||Riley,D.G.|Evaluation of Insecticide Treatments on Sweet Corn, 1996|Arthropod Manag. Tests23:97-98|1998|10.1093/amt/23.1.97a
150714|T||Schuster,D.J.|Insect Management on Fresh Market Tomatoes, Spring 1997A|Arthropod Manag. Tests23:158-159|1998|
150715|T||Seal,D.R., and E.,Jr. McCord|Control of Melon Thrips and Melon Worms on Zucchini Squash, Spring 1996|Arthropod Manag. Tests23:141-142|1996|10.1093/amt/23.1.141
150716|T||Seal,D.R., and E.,Jr. McCord|Control of Beet Armyworms, Pinworms, and Leafminers on Tomatoes, Spring 1996|Arthropod Manag. Tests23:160-161|1998|10.1093/amt/23.1.160
150717|T||Seal,D.R., and E.,Jr. McCord|Control of the Diamondback Moth on Cabbage Under Field Conditions, Spring 1996|Arthropod Manag. Tests23:83-|1998|10.1093/amt/23.1.83
150718|T||Seal,D.R., and E.,Jr. McCord|Control of Fall Armyworm on Sweet Corn, Spring 1996B|Arthropod Manag. Tests23:98-99|1998|
150719|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Budworm and Tobacco Aphid Control on Flue-Cured Tobacco, 1996|Arthropod Manag. Tests23:294-295|1998|10.1093/amt/23.1.294
150720|T||Semtner,P.J., and W.B. Wilkinson III|Aphid Control on the Flue-Cured Tobacco with Foliar Insecticides, 1997|Arthropod Manag. Tests23:298-|1998|
150721|T||Sorensen,K.A., and C.W. Holloway|Corn Earworm and European Corn Borer Control with Insecticides, 1997|Arthropod Manag. Tests23:102-|1998|10.1093/amt/23.1.102
150722|T||Sorenson,C.E., A.S. Stephenson, S.B. Clewis, and C.E. Ratz|Control of Tobacco Aphids with Foliar Insecticides, 1997a|Arthropod Manag. Tests23:302-303|1998|
150723|T||Stansly,P.A., and J.M. Conner|Impact of Insecticides and an Entomophagous Fungus on Pepper Weevil, Melon Thrips, Broad Mite, and Minute Pirate Bug in Hot Pepper, 1997|Arthropod Manag. Tests23:120-122|1998|10.1093/amt/23.1.120
150724|T||Stansly,P.A., and J.M. Conner|Insecticidal Control of Fall Armyworm, Corn Earworm, and Corn Silkfly on Sweetcorn, 1997|Arthropod Manag. Tests23:103|1998|10.1093/amt/23.1.103
150725|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle and Green Peach Aphid Control with Soil-Applied Insecticides and Foliar Sprays, 1997|Arthropod Manag. Tests23:135-137|1998|10.1093/amt/23.1.135
150726|T||Story,R.N., A.M. Hammond, and M.J. Murray|Evaluation of Selected Foliar Insecticides for Control of Sweetpotato Weevil and Banded Cucumber Beetle on Sweetpotatoes, 1997|Arthropod Manag. Tests23:150-151|1998|10.1093/amt/23.1.150
150727|T||Straub,R.W.|Evaluation of Insecticides Against Fruit-Feeding Insects on Apple, 1997|Arthropod Manag. Tests23(1): 34-35|1998|
150728|T||Straub,R.W.|Evaluation of Insecticides Against Foliar-Feeding Insect Pests on Apple, 1997|Arthropod Manag. Tests23:34-|1998|
150729|A||Way,M.O., R.G. Wallace, and J. Vawter|Control of Rice Water Weevil with Karate in a Drill-Seeded, Delayed Flood Culture at Eagle Lake, 1997|Arthropod Manag. Tests23:263-264|1998|10.1093/amt/23.1.263
150730|T||Weinzierl,R., R.L. Paoli, J.T. Shaw, and J.W. Finger|Evaluation of Efficacy of Conventional and Experimental Insecticides for Control of Lepidopterous Pests of Apples in Illinois, 1997|Arthropod Manag. Tests23:36|1998|10.1093/amt/23.1.36
150731|T||Youngman,R.R., T.P. Kuhar, and C.A. Laub|Efficacy of Foliar Insecticides Against Alfalfa Weevil Larvae, 1997|Arthropod Manag. Tests23:179-180|1998|10.1093/amt/23.1.179a
150732|T||Schuster,D.J.|Control of Armyworms and Pepper Weevil on Bell Pepper, Spring 1997|Arthropod Manag. Tests23:117-118|1998|
150733|T||Johnson,D.R., and G. Studebaker|Control of Bollworm and Budworm in Cotton Using Insecticide Combinations in South-Central Arkansas, 1990|Insectic. Acaric. Tests18:231-232|1993|
150734|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Potato-Infesting Aphids, 1992|Insectic. Acaric. Tests18:153|1993|10.1093/iat/18.1.153
150735|T||Story,R.N., A.M. Hammond, M.J. Murray, W.B. McLemore, and J.M. Cannon|Evaluation of Selected Foliar Insecticides for Control of White Grub and Whitefringed Beetle on Sweetpotatoes, 1997|Arthropod Manag. Tests23:151-|1998|10.1093/amt/23.1.151
150736|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides for Thrips Control on Cotton, 1997|Arthropod Manag. Tests23:218-219|1998|
150737|T||Stansly,P.A., J.M. Conner, and P.W. Carlin|Systemic Insecticidal Control of Brown Citrus Aphid on Valencia Orange, 1997|Arthropod Manag. Tests22:67|1998|10.1093/amt/23.1.67
150738|T||Howell,M.S., and J.T. Reed|Evaluation of In-Furrow Insecticides for Control of Thrips on Cotton, 1997A|Arthropod Manag. Tests23:233-234|1998|10.1093/amt/23.1.233
150739|T||Hogmire,H.W., and T. Winfield|Insecticide Evaluation I, 1997|Arthropod Manag. Tests23:8-10|1998|10.1093/amt/23.1.8
150740|T||Hogmire,H.W., and T. Winfield|Insecticide Evaluation, 1997|Arthropod Manag. Tests23:43-44|1998|10.1093/amt/23.1.43
150741|T||Hull,L.A., and G. Krawczyk|Tufted Apple Bud Moth Control Tactics for Apple, 1997|Arthropod Manag. Tests23:22-26|1998|10.1093/amt/23.1.22
150742|T||Ihrig,R.A., J. Van Duyn, A. Herbert, J.R. Bradley, and D. Bowman|Evaluation of Foliar Applied Insecticides for the Contol of the Cereal Leaf Beetle on Wheat, 1994 and 1995|Arthropod Manag. Tests23:309-310|1998|10.1093/amt/23.1.309a
150743|T||Longtine,C.A., E.B. Radcliffe, and D.W. Ragsdale|Laboratory Tests for Colorado Potato Beetle Control, 1997|Arthropod Manag. Tests23:371|1998|10.1093/amt/23.1.371
150744|T||Mau,R.F.L., L.R. Guskukuma-Minuto, and R.S. Shimabuku|Onion Thrips Management on Dry Onion, 1996|Arthropod Manag. Tests23:112-113|1998|10.1093/amt/23.1.112
150745|T||Hammond,A.M., R.N. Story, M.J. Murray, C.R. McCown, and D. Ring|Evaluation of Selected Soil Insecticides and Foliar Insecticides for Control of Banded Cucumber Beetle, White Grub, and Whitefringed Beetle, 1997|Arthropod Manag. Tests23:144-146|1998|10.1093/amt/23.1.144
150746|T||McCown,C.R., A.M. Hammond, R.N. Story, M.J. Murray, and D. Ring|Evaluation of Selected Soil Insecticides and Foliar Insecticides for Control of Banded Cucumber Beetle, Whitefringed Beetle, White Grub, and Sweetpotato Weevil, 1997|Arthropod Manag. Tests23:147-149|1998|10.1093/amt/23.1.147
150747|T||McPherson,R.M., B.D. Crowe, and J.D. Taylor|Early Season Thrips Control and Impact on Aphid Population Densities in Flue-Cured Tobacco, 1997|Arthropod Manag. Tests23:291-292|1998|10.1093/amt/23.1.291
150748|T||Micinski,S., R.G. Scarborough, F.D. Forrester, and J.B. Graves|Efficacy of Selected Insecticide Mixtures for Bollworm and Tobacco Budworm Control, 1997|Arthropod Manag. Tests23:239-241|1998|10.1093/amt/23.1.239a
150749|T||Palumbo,J.C., C.H. Mullis, and F.J. Reyes|Evaluation of Conventional Insecticides for Western Flower Thrips Control in Lettuce, 1997|Arthropod Manag. Tests23:109-110|1998|10.1093/amt/23.1.109
150750|T||Al-Saqur,A.M.|Mutagenicity of Phosphine Gas in Neurospora sitophila|J. Biol. Sci. Res.20(1): 1-7|1989|
150751|T||Bell,C.H., N. Savvidou, K.A. Mills, S. Bradberry, and M.L. Barlow|A Same-Day Test for Detecting Resistance to Phosphine|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia:41-44|1994|
150752|T||Johnston,F.M., and C.P. Whittle|Effects of Low Oxygen Phosphine Fumigations on Adult Rhyzopertha dominica|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 11:104-107|1994|
150753|T||Purba,E., C. Preston, and S.B. Powles|Paraquat Resistance in a Biotype of Vulpia bromoides (L.) S.F. Gray|Weed Res. (Multiple Languages)33(5): 409-413|1993|10.1111/j.1365-3180.1993.tb01956.x
150754|T||Reichmuth,C.|Uptake of Phosphine by Stored-Product Pest Insects During Fumigation|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia1:157-162|1994|
150755|T||Sulaiman,Z., M. Rahim, M.E. Faridah, and M. Rasal|A Survey of Phosphine and Methyl Bromide Resistance in Malaysia|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia1:192-193|1994|
150756|T||Ren,Y.L., I.G. O'Brien, and C.P. Whittle|Studies on the Effect of Carbon Dioxide in Insect Treatment with Phosphine|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia1:173-177|1994|
150757|T||Waterford,C.J., and R.G. Winks|Correlation Between Phosphine Resistance and Narcotic Response in Tribolium castaneum (Herbst)|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia1:221-225|1994|
150758|T||Winks,R.G., and E.A. Hyne|Measurement of Resistance to Grain Fumigants with Particular Reference to Phosphine|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 11:244-250|1994|
150759|T||Yan-Sheng,L., and L. Wen-Zhi|Inheritance of Phosphine Resistance in Sitophilus oryzae (L.) (Coleoptera, Curculionidae)|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia1:113-115|1994|
150760|T||Sharma,D.R., and R.L. Kalra|Resistance of Trogoderma granarium Everts to Phosphine|Entomon23(4): 259-266|1998|
150761|T||Krishnasamy,V., and D.V. Seshu|Phosphine Fumigation Influence on Rice Seed Germination and Vigor|Crop Sci.30(1): 82-85|1990|10.2135/cropsci1990.0011183X003000010019x
150762|T||Taylor,R.W.D., and A.H. Harris|Control of the Egg Stage of the Larger Grain Borer, Prostephanus truncatus (Horn) (Coleoptera: Bostrichidae), with Phosphine|FAO Plant Prot.Bull.37(2): 67-70|1989|
150763|T||McGregor,H.E., and G.D. White|Effect of Phosphine Against the Pink Bollworm in Bagged Cottonseed|Marketing Research Report 913, Agricultural Research Service, U.S. Department of Agriculture:1-9|1971|
150764|T||Eli Lilly|Initial Submission:  Letter from Eli Lilly & Company to USEPA Submitting Results on Compound #126714 Acute Cat Nasogastric Study with Attachments|EPA/OTS Doc.#88-920006222:18 p.|1992|
150765|T||Eli Lilly and Co.|Initial Submission:  Letter from Eli Lilly & Company to USEPA Submitting Results on Compound #126714 Acute Cat Nasogastric Study with Attachments|EPA/OTS Doc.#88-920006221:33 p.|1992|
150766|T||Eli Lilly and Co.|Initial Submission:  Letter from Eli Lilly & Co. to USEPA Submitting Results on Compound #126714 Acute Cat Nasogastric Study with Attachments|EPA/OTS Doc.#88-920006223:30 p.|1992|
150767|T||Eli Lilly and Co.|Initial Submission:  Five-Day Dietary Toxicity Study with Bromethalin in Bobwhite with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006568:49 p.|1992|
150768|T||Eli Lilly and Co.|Initial Submission:  Five-Day Dietary Toxicity Study with Bromethalin in Bobwhite with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006575:46 p.|1992|
150769|T||Eli Lilly and Co.|Initial Submission:  Acute Bobwhite Oral Pilot Study with N-Methyl-2,4-Dinitro-N-(2,4,6-Tribromophenyl)-6-(Trifluoromethyl)Benzenamine with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006514:34 p.|1992|
150770|T||Eli Lilly and Co.|Initial Submission:  Acute Bobwhite Oral Pilot Study with N-Methyl-2,4-Dinitro-N-(2,4,6-Tribromophenyl)-6-(Trifluoromethyl)Benzenamine with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006510:33 p.|1992|
150771|T||Eli Lilly and Co.|Initial Submission:  14-Day Acute Oral Toxicity Study with Bromethalin in Bobwhite with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006565:36 p.|1992|
150772|T||Eli Lilly and Co.|Initial Submission:  14-Day Acute Oral Toxicity Study with Bromethalin in Bobwhite with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006569:50 p.|1992|
150773|T||Kashi,K.P.|Response of Five Species of Stored-Product Insects to Phosphine in Oxygen-Deficient Atmospheres|Pestic. Sci.12(2): 111-115|1981|10.1002/ps.2780120202
150774|T||Leesch,J.G.|Fumigation of Lettuce:  Efficacy and Phytotoxicity|J. Econ. Entomol.77(1): 142-150|1984|10.1093/jee/77.1.142
150775|T||Reichmuth,C., A. Wudtke, and F. Rath|Quality Aspects of the Fumigation of Malting Barley with Carbon Dioxide and Phosphine for Insect Disinfestation|Colloq. I'INRA101:167-181|2001|
150776|T||Rajendran,S.|Selection for Resistance to Phosphine or Methyl Bromide in Tribolium castaneum (Coleoptera:  Tenebrionidae)|Bull. Entomol. Res.82(1): 119-124|1992|10.1017/S000748530005152X
150777|T||Johnson,D.R., and G. Studebaker|Control of Armyworm in Wheat, 1990|Insectic. Acaric. Tests18:301-|1993|
150778|T||Cassells,J., H.J. Banks, and P.C. Annis|Mortality of Snails, Cernuella virgata and Cochlicella acuta, Exposed to Fumigants, Controlled Atmospheres or Heat Disinfestation|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:50-55|1994|
150779|T||Mueller,D.K.|A New Method of Using Low Levels of Phosphine in Combination with Heat and Carbon Dioxide|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:123-125|1994|
150780|T||Williams,P., and C.P. Whittle|Phosphine Fumigation of Stored Field Peas for Insect Control|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:240-243|1994|
150781|T||Janda,J., and M. Bosseova|The Toxic Effect of Zinc Phosphide Baits on Partridges and Pheasants|J. Wildl. Manag.34(1): 220-223|1970|10.2307/3799515
150782|T||Rahman,M.D.A., and M.D. Shahjahan|Resistance of Red Flour Beetle, Tribolium castaneum (Herbst), Against Some Commonly Used Insecticides in Bangladesh|Bangladesh J. Entomol.10(1/2): 87-95|2000|
150783|T||El-Nahal,A.K.M., A.A. Barakat, M.A. El-Halafawy, and H.I. Hassan|Susceptibility of the Natural Strains of Sitophilus oryzae (L.), Sitophilus granarius (L.), Rhizopertha dominica (F.) and Tribolium castaneum (Herbst) Collected from the Different Governorates of Egypt to Methyl Bromide|Bull. Entomol. Soc. Egypt0(14): 141-154|1984|
150784|T||Eli Lilly and Co.|Initial Submission:  Subchronic Bobwhite Oral Toxicity Study with N-Methyl-2,4-Dinitro-N-(2,4,6-Tribromophenyl)-6-(Trifluoromethyl)Benzenamine with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006513:44 p.|1992|
150785|T||Eli Lilly and Co.|Initial Submission:  Subchronic Mallard Oral Pilot Study with N-Methyl-2,4-Dinitro-N-(2,4,6-Tribromophenyl)-6-(Trifluoromethyl)Benzenamine with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006534:74 p.|1992|
150786|T||Eli Lilly and Co.|Initial Submission:  The Reversibility of Central Nervous System Lesions from Chronic Bromethalin Administration with Cover Letter Dated 082192|EPA/OTS Doc.#88-920006488:71 p.|1992|
150787|T||Eli Lilly and Co.|Initial Submission:  Acute Bobwhite Oral Toxicity Study with N-Methyl-2,4-Dinitro-N-(2,4,6-Tribromophenyl)-6-(Trifluoromethyl)Benzenamine with Cover Letter Dated 081892|EPA/OTS Doc.#88-920006530:66 p.|1992|
150788|T||Worrall,R.J.|Effects of Time of Collection, Growing-Conditions of Mother Plants and Growth Regulators on Rooting of Cuttings of Telopea speciosissima (Proteaceae)|Sci. Hortic.5(2): 153-160|1976|10.1016/0304-4238(76)90077-7
150789|T||Bond,E.J., and P.M. Morse|Joint Action of Methyl Bromide and Phosphine on Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae)|J. Stored Prod. Res.18(2): 83-94|1982|10.1016/0022-474X(82)90006-6
150790|T||Al-Hakkak,Z.S.|Mutagenicity of Phosphine Gas in Drosophila melanogaster|J. Biol. Sci. Res.19(Suppl.): 739-745|1989|
150792|T||Johnson,G.D., and M.E. McLendon|Evaluation of Foliar Treatments for Russian Wheat Aphid Control, 1992|Insectic. Acaric. Tests18:295-296|1993|10.1093/iat/18.1.295a
150793|T||Johnson,J.W., and J.C. Wise|Apple, Broad Spectrum Control with Insecticides, 1990|Arthropod Manag. Tests17:27-28|1992|
150794|T||Johnson,J.W., and J.C. Wise|Apple, Effect of Sevin XLR on Predator Mites and White Apple Leafhopper, 1992|Insectic. Acaric. Tests18:51-|1993|
150795|T||Bolter,C.J.|Generation of Oxygen-Derived Free Radicals Stimulated by the Fumigant Insecticide Phosphine:  In Vivo and In Vitro Studies|Ph.D.Thesis, The Univ. Western Ontario,Canada:225 p.|1988|
150796|T||El-Lakwah,F.A., A.A. Darwish, M.M. Khattab, and A.M. Abdel-Latif|Development of Resistance to Carbon Dioxide and Phosphine in the Red Flour Beetle (Tribolium castaneum, Herbst)|Ann. Agric. Sci. Moshtohor34(4): 1907-1923|1996|
150798|A||Gale,R.W., M. Tanner, and C.E. Orazio|Determination of Diphacinone in Seawater, Vertebrates, Invertebrates, and Bait Pellet Formulations Following Aerial Broadcast on Mokapu Island, Molokai, Hawaii|Open-File Report 2008-1285,  U.S. Geological Survey, Columbia, MO:16 p.|2009|
150799|A||Orazio,C.E., M.J. Tanner, C. Swenson, J. Herod, P. Dunlevy, and R.W. Gale|Results of Laboratory Testing for Diphacinone in Seawater, Fish, Invertebrates, and Soil Following Aerial Application of Rodenticide on Lehua Island, Kauai County, Hawaii, January 2009|Open-File Report 2009-1142, U.S. Geological Survey, Columbia, MO:15 p.|2009|
150800|T||Desmarchelier,J.M.|Carbonyl Sulphide as a Fumigant for Control of Insects and Mites|In: E.Highley, E.J.Wright, H.J.Banks and B.R.Champ (Eds.), Proceedings of the 6th International Working Conference on Stored-Product Protection, Canberra, Australia:78-82|1994|
150801|T||Johnston,J.J., W.C. Pitt, R.T. Sugihara, J.D. Eisemann, T.M. Primus, M.J. Holmes, J. Crocker, and A. Hart|Probabilistic Risk Assessment for Snails, Slugs, and Endangered Honeycreepers in Diphacinone Rodenticide Baited Areas on Hawaii, USA|Environ. Toxicol. Chem.24(6): 1557-1567|2005|10.1897/04-255R.1
150802|T||Rattner,B.A., K.E. Horak, S.E. Warner, and J.J. Johnston|Acute Toxicity of Diphacinone in Northern Bobwhite: Effects on Survival and Blood Clotting|Ecotoxicol. Environ. Saf.73(6): 1159-1164|2010|10.1016/j.ecoenv.2010.05.021
150803|T||Whisson,D.A., and T.P. Salmon|Assessing the Effectiveness of Bait Stations for Controlling California Ground Squirrels (Spermophilus beecheyi)|Crop Prot.28(8): 690-695|2009|10.1016/j.cropro.2009.04.002
150804|T||Waterford,C.J., and R.G. Winks|Response of the Pea Weevil Bruchus pisorum (L.) to Phosphine|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:217-220|1994|
150805|T||Lu,J.H., Z.H. Zhao, Q. Liu, S.T. Hu, and J.S. Qi|Study of Circumfluent Fumigation with Phosphine for Killing Stored-Grain Insects in Silos|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 11:116-119|1994|
150806|T||Rajendran,S., and K.S. Narasimhan|The Current Status of Phosphine Fumigations in India|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:148-152|1994|
150807|T||Emery,R.N.|A Western Australian Farm Survey for Phosphine-Resistant Grain Beetles|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:98-103|1994|
150808|T||Ducom,V.|Methyl Isothiocyanate Used as a Grain Fumigant|In: Proc.6th Int.Working Conf.on Stored Product Protection, Volume 1:91-97|1994|
150809|T||Satpute,U.S., D.N. Sarnaik, and P.D. Bhalerao|Efficacy of ULV and EC Formulations of Some Modern Synthetic Insecticides and Their Methods of Application Against Bollworms of Cotton|PKV Res. J.11(2): 160-162|1987|
150810|T||Shamiyeh,N.B., E.E. Burgess, and R. Thompson|Control of Alfalfa Weevil Larvae in Tennessee, 1997|Arthropod Manag. Tests23:173-174|1998|10.1093/amt/23.1.173a
150811|T||Watson,E., and G. Barson|A Laboratory Assessment of the Behavioural Responses of Three Strains of Oryzaephilus surinamensis (L.) (Coleoptera:  Silvanidae) to Three Insecticides and the Insect Repellent N,N-Diethyl-M-Toluamide|J. Stored Prod. Res.32(1): 59-67|1996|10.1016/0022-474X(95)00033-4
150812|T||Brar,D.S., and H.S. Sukhija|Cyperkill for the Control of Cotton Bollworms at Growers' Level|J. Insect Sci.6(1): 154-155|1993|
150813|T||Saleem,M.A., and A.R. Shakoori|Synergistic Effects of Diflubenzuron and Permethrin on Some Macromolecules of Tribolium castaneum Larvae|Pak. J. Zool.32(2): 117-122|2000|
150814|T||Saleem,M.A., M. Ashfaq, S.S. Ali, R. Hussain, and A.R. Shakoori|Effects of Permethrin and Cypermethrin on the Toxicity of Gamma-HCH.  II.  Studies on Some Biochemical Components of Adult Beetles of Tribolium castaneum|Pak. J. Zool.33(4): 333-340|2001|
150815|T||Roy,S., A. Banerjee, J. Tarafdar, and S.K. Samanta|Superior Bio-Efficacy of a Combined Formulation of Carbendazim and Mancozeb in Inducing Defense Responses in Chilli Seedlings Against Sclerotium rolfsii Sacc. in Comparison with Methyl Jasmonate|Crop Prot.29(2): 163-167|2010|10.1016/j.cropro.2009.09.005
150816|AT||Falfushinska,H.I., L.D. Romanchuk, and O.B. Stolyar|Different Responses of Biochemical Markers in Frogs (Rana ridibunda) from Urban and Rural Wetlands to the Effect of Carbamate Fungicide|Comp. Biochem. Physiol. C Toxicol. Pharmacol.148(3): 223-229|2008|10.1016/j.cbpc.2008.05.018
150817|T||De Silva,P.M.C.S., A. Pathiratne, and C.A.M. Van Gestel|Toxicity of Chlorpyrifos, Carbofuran, Mancozeb and Their Formulations to the Tropical Earthworm Perionyx excavatus|Appl. Soil Ecol.44(1): 56-60|2010|10.1016/j.apsoil.2009.09.005
150818|T||Bringe,K., M. Hunsche, M. Schmitz-Eiberger, and G. Noga|Retention and Rainfastness of Mancozeb as Affected by Physicochemical Characteristics of Adaxial Apple Leaf Surface After Enhanced UV-B Radiation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(2): 133-141|2007|
150819|T||Barbar,Z., M.S. Tixier, and S. Kreiter|Assessment of Pesticide Susceptibility for Typhlodromus exhilaratus and Typhlodromus phialatus Strains (Acari: Phytoseiidae) from Vineyards in the South of France|Exp. Appl. Acarol.42(2): 95-105|2007|10.1007/s10493-007-9084-z
150820|T||Adamski,Z., J. Bloszyk, J. Bruin, and K. Ziemnicki|Non-Omnia Moriantur-Toxicity of Mancozeb on Dead Wood Microarthropod Fauna|Exp. Appl. Acarol.42(1): 47-53|2007|10.1007/s10493-007-9069-y
150822|A||DeLorenzo,M.E., and R.G. De Leon|Toxicity of the Insecticide Etofenprox to Three Life Stages of the Grass Shrimp, Palaemonetes pugio|Arch. Environ. Contam. Toxicol.58(4): 985-990|2010|10.1007/s00244-010-9496-3
150823|A||Barbee,G.C., W.R. McClain, S.K. Lanka, and M.J. Stout|Acute Toxicity of Chlorantraniliprole to Non-Target Crayfish (Procambarus clarkii) Associated with Rice-Crayfish Cropping Systems|Pest Manag. Sci.66(9): 996-1001|2010|10.1002/ps.1972
150824|T||Samson,P.R., and J.A. Keating|Effect of Relative Humidity on the Biological Activity of Insecticides in Impregnated Paper Assays|J. Stored Prod. Res.23(3): 177-181|1987|10.1016/0022-474X(87)90049-X
150825|T||Shelton,A.M., M.K. Kroening, S.D. Eigenbrode, C. Petzold, M.P. Hoffmann, J.A. Wyman, W.T. Wilsey, R.J. Cooley, and L.H.|Diamondback Moth (Lepidoptera:  Plutellidae) Contamination of Cabbage Transplants and the Potential for Insecticide Resistance Problems|J. Entomol. Sci.31(3): 347-354|1996|10.18474/0749-8004-31.3.347
150826|T||Southwick,L.M., J.,Jr. Yanes, D.J. Boethel, and G.H. Willis|Leaf Residue Compartmentalization and Efficacy of Permethrin Applied to Soybean|J. Entomol. Sci.21(3): 248-253|1986|10.18474/0749-8004-21.3.248
150827|T||Stewart,J.G., and M.K. Sears|Marketability of Cauliflower Protected with Permethrin Applied at Intervals Determined by Head Formation|Proc. Entomol. Soc. Ont.121:115-118|1990|
150828|T||Tolman,J.H., C.R. Harris, and R.A. Chapman|Laboratory and Field Studies on the Effectiveness and Persistence of Three Pyrethroid Insecticides Used to Control the Darksided Cutworm, Euxoa messoria (Lepidoptera:  Noctuidae)|Proc. Entomol. Soc. Ont.112:53-58|1981|
150829|T||Vulule,J.M., R.F. Beach, F.K. Atieli, J.M. Roberts, D.L. Mount, and R.W. Mwangi|Reduced Susceptibility of Anopheles gambiae to Permethrin Associated with the Use of Permethrin-Impregnated Bednets and Curtains in Kenya|Med. Vet. Entomol.8(1): 71-75|1994|10.1111/j.1365-2915.1994.tb00389.x
150830|T||Weaver,J.E.|The Lesser Mealworm, Alphitobius diaperinus: Field Trials for Control in a Broiler House with Insect Growth Regulators and Pyrethroids|J. Agric. Entomol.13(2): 93-97|1996|
150831|T||Winters,S., and B. Cartwright|Leaf Disk Bioassay for Cabbage Looper Susceptibility, 1990|Insectic. Acaric. Tests16:299-300|1991|10.1093/iat/16.1.299
150832|T||Witkowski,J.F.|Control of European Corn Borer in Whorl Stage Corn, 1990|Insectic. Acaric. Tests16:178-|1991|10.1093/iat/16.1.178a
150833|T||Wolfenbarger,D.A.|Response to Permethrin of Field-Collected Strain of the Tobacco Budworm (Lepidoptera:  Noctuidae)|Trop. Agric.67(4): 309-312|1990|
150834|T||Zettler,J.L., and L.L. McDonald|Toxicity of Permethrin and Fenitrothion to Six Species of Stored-Product Insects|J. Agric. Entomol.1(3): 231-235|1984|
150835|T||Zylstra,B.F., P. De Groot, and B.V. Helson|Evaluation of Insecticides for Control of the Red Pine Cone Beetle, Conophthorus resinosae Hopkins and the White Pine Cone Beetle, C. coniperda (Schwarz)|Proc. Entomol. Soc. Ont.126:85-90|1995|
150836|T||Llanderal-Cazares,C., A. Lagunes-Tejeda, J.L. Carrillo-Sanchez, C. Sosa-Moss, J. Vera-Graziano, and H. Bravo-Mojica|Susceptibility of Phthorimaea operculella (Zeller) to Insecticides|J. Entomol. Sci.31(4): 420-426|1996|10.18474/0749-8004-31.4.420
150837|T||Lossbroek,T.G., and H. Den Ouden|Tests with a Solid Solution of Permethrin in a Degradable Polymer Formulation as Stomach and Contact Poison on Mamestra brassicae (Lep., Noctuidae) and Calandra granaria (Col., Curculionidae)|J. Appl. Entomol.105(4): 355-359|1988|10.1111/j.1439-0418.1988.tb00197.x
150840|T||Bialecka,B., and J. Kepczynski|Regulation of alpha-Amylase Activity in Amaranthus caudatus Seeds by Methyl Jasmonate, Gibberellin A3, Benzyladenine and Ethylene|Plant Growth Regul.39(1): 51-56|2003|10.1023/A:1021801504749
150841|T||Singh,R.P., S. Dabas, A. Choudhary, and R. Maheshwari|Effect of Lead on Nitrate Reductase Activity and Alleviation of Lead Toxicity by Inorganic Salts and 6-Benzylaminopurine|Biol. Plant. (Praha)40(3): 399-404|1997|10.1023/A:1001155431519
150842|T||Wang,G., C. Li, and F. Zhang|Effects of Different Nitrogen Forms and Combination with Foliar Spraying with 6-Benzylaminopurine on Growth, Transpiration, and Water and Potassium Uptake and Flow in Tobacco|Plant Soil256(1): 169-178|2003|10.1023/A:1026268722353
150843|T||Bonanomi,G., M. Chiurazzi, S. Caporaso, G. Del Sorbo, G. Moschetti, and S. Felice|Soil Solarization with Biodegradable Materials and Its Impact on Soil Microbial Communities|Soil Biol. Biochem.40(8): 1989-1998|2008|10.1016/j.soilbio.2008.02.009
150844|T||Liu,Y.Q., L. Yang, Y.L. Zhao, and H.Y. Li|Synthesis of Novel Derivatives of Camptothecin as Potential Insecticides|Pestic. Biochem. Physiol.98(2): 219-223|2010|10.1016/j.pestbp.2010.06.010
150845|T||Wehrstedt,K.D., W. Wildner, T. Guthner, K. Holzrichter, B. Mertschenk, and A. Ulrich|Safe Transport of Cyanamide|J. Hazard. Mater.170(2/3): 829-835|2009|10.1016/j.jhazmat.2009.05.043
150846|A||Cho,J.Y., J.S. Choi, N.G. Park, H.W. Shin, and Y.K. Hong|Antifouling Properties of Plasticizers BPBG and DNOP Against Algal Spore and Mussel Attachment|Bot. Mar.49(3): 263-265|2006|10.1515/BOT.2006.030
150847|AT||Geissbuhler,H., and J.A. Guth|Behaviour of Urea Herbicides in Soil with Special Reference to Environmental Contamination Problems|Proc. Br. Weed Control Conf.:307-313|1970|
150848|T||Kansouh,A.S.H., M.S. Abdel Fattah, and M.M. Hosny|Effect of Insecticide Rotations on the Susceptibility of Spodoptera littoralis Larvae to Insecticides|Arab Gulf J. Sci. Res.5(2): 167-174|1987|
150849|T||Mallem,L., A. Chouaibia, and M.S. Boulakoud|Comparative Histopathological Effects of Ethylene-Bis-Dithiocarbamate on the Testis in Rabbits and Rats|Commun. Agric. Appl. Biol. Sci.74(1): 155-158|2009|
150850|T||Miles,M., G. Kemmitt, F. Bakker, and S. Aldershof|The Impact of Mancozeb on Entomofauna Communities in Apple Orchards|Commun. Agric. Appl. Biol. Sci.73(3): 409-417|2008|
150851|T||Onda,K., T. Yagisawa, T. Matsui, H. Tanaka, J. Yako, Y. Une, and Y. Wada|Contact Dermatitis in Dairy Cattle Caused by Calcium Cyanamide|Vet. Rec.163(14): 418-422|2008|10.1136/vr.163.14.418
150852|T||Audet,P., and C. Charest|Contribution of Arbuscular Mycorrhizal Symbiosis to In Vitro Root Metal Uptake:  From Trace to Toxic Metal Conditions|Botany87(10): 913-921|2009|10.1139/B09-062
150853|A||Boran,H., I. Altinok, and E. Capkin|Histopathological Changes Induced by Maneb and Carbaryl on Some Tissues of Rainbow Trout, Oncorhynchus mykiss|Tissue Cell42(3): 158-164|2010|10.1016/j.tice.2010.03.004
150854|T||Knutson,A., and D. Marshall|Greenbug Control in Winter Wheat with Seed Treatments and Granular Insecticides, 1991-1992|Insectic. Acaric. Tests18:297-|1993|10.1093/iat/18.1.297
150855|T||Layton,B., M. Howell, and B. Head|Control of Bollworm/Budworm Complex in Mississippi Cotton, Trial III, 1992|Insectic. Acaric. Tests18:238-239|1993|
150856|T||Bound,S.A.|Comparison of Two 6-Benzyladenine Formulations and Carbaryl for Post-Bloom Thinning of Apples|Sci. Hortic.111(1): 30-37|2006|10.1016/j.scienta.2006.07.028
150857|T||Gonzalez-Rodriguez,R.M., B. Cancho-Grande, and J. Simal-Gandara|Decay of Fungicide Residues During Vinification of White Grapes Harvested After the Application of Some New Active Substances Against Downy Mildew|Food Chem.:12 p.|2010|
150859|A||Rahman,Q., and D.N. Sadhu|Effect of Pesticides on Aquatic and Aerial Oxygen Consumption in an Air Breathing Murrel Fish, Channa gachua|Nat. Environ. Pollut. Technol.8(3): 603-608|2009|
150860|T||Zhang,X.J., L. Chang, Y.M. Zhang, S. Deng, Y.J. Li, and J. Peng|Comparing the Role of Glutathione-S-Transferase and Mitochondrial Aldehyde Dehydrogenase in Nitroglycerin Biotransformation and the Correlation with Calcitonin Gene-Related Peptide|Eur. J. Pharmacol.617(1-3): 97-101|2009|10.1016/j.ejphar.2009.06.043
150861|T||Ong,B.L., R. Ramli, and Y.C. Wee|Reduction of CAM by Abscisic Acid and Benzyladenine in the Epiphytic Fern, Pyrrosia piloselloides (L.) Price|Photosynthetica (Praha)32(2): 317-319|1997|10.1023/A:1006813212377
150862|A||Oribhabor,B.J.|Evaluation of the Acute Toxicity of Refined Petroleum Products Against Pila ovata (Gastropoda:  Ampullariidae) and Poecilia reticulata (Teleostei:  Poeciliidae)|Afr. J. Aquat. Sci.32(2): 209-213|2007|10.2989/AJAS.2007.32.2.14.267
150863|T||Preetha,G., J. Stanley, S. Suresh, S. Kuttalam, and R. Samiyappan|Toxicity of Selected Insecticides to Trichogramma chilonis: Assessing Their Safety in the Rice Ecosystem|Phytoparasitica37(3): 209-215|2009|10.1007/s12600-009-0031-x
150864|T||Guevara,E., V.M. Jimenez, J. Herrera, and F. Bangerth|Effect of Hydrogen Cyanamide on the Endogenous Hormonal Content of Pea Seedlings (Pisum sativum L.)|Braz. J. Plant Physiol.20(2): 159-163|2008|10.1590/S1677-04202008000200008
150865|T||Garner,J.M., G.J. Keever, D.J. Eakes, and J.R. Kessler|Benzyladenine-Induced Offset Formation in Hosta Dependent on Cultivar|Hortscience32(1): 91-93|1997|10.21273/HORTSCI.32.1.91
150866|T||Gautam,C.S., P. Pandhi, and P.L. Sharma|Beneficial Effect of Xanthinol Nicotinate in Experimental Aluminium Phosphide Poisoning|Indian J. Pharmacol.24(4): 229-230|1992|
150867|T||Leonard,B.R., P.A. Clay, and J.B. Graves|Control of Boll Weevil in Cotton with Selected Insecticides, 1992|Insectic. Acaric. Tests18:243-244|1993|10.1093/iat/18.1.243
150868|T||Lloyd,J.E., and R. Kumar|Fall Application of 2.5 Percent Ectrin Spray for Control of Sheep Ked, 1991|Insectic. Acaric. Tests18:359-360|1993|10.1093/iat/18.1.359
150869|T||McKenzie,C.L., and B. Cartwright|Efficacy of Insecticides for Control of Thrips on Onions, 1992|Insectic. Acaric. Tests18:135|1993|10.1093/iat/18.1.135
150870|T||McPherson,R.M., M.L. Padgett, and J.D. Taylor|Aphid and Budworm Control in Tobacco, 1992|Insectic. Acaric. Tests18:285-286|1993|10.1093/iat/18.1.285
150871|T||Noetzel,D., C. Holen, and B. Holder|Aphid Control in Headed Spring Wheat, Angus, MN, 1992|Insectic. Acaric. Tests18:297-298|1993|10.1093/iat/18.1.297a
150873|T||Noetzel,D., C. Watrin, and K. Olson|Resistant Colorado Potato Beetle Control, Osseo, MN, 1992|Insectic. Acaric. Tests18:148-149|1993|
150875|T||Noetzel,D., and C. Watrin|Control of Resistant Colorado Potato Beetle, Big Lake, MN, 1992|Insectic. Acaric. Tests18:148-|1993|
150876|T||Banowetz,G.M.|Cultivars of Hexaploid Wheat of Contrasting Stature and Chlorophyll Retention Differ in Cytokinin Content and Responsiveness|Ann. Bot.79(2): 185-190|1997|10.1006/anbo.1996.0325
150877|T||Boichot,E., J.L. Wallace, N. Germain, M. Corbel, C. Lugnier, V. Lagente, and J.J. Bourguignon|Anti-Inflammatory Activities of a New Series of Selective Phosphodiesterase 4 Inhibitors Derived from 9-Benzyladenine|J. Pharmacol. Exp. Ther.292(2): 647-653|2000|
150878|T||Christianson,M.L., and J.S. Hornbuckle|Phenylurea Cytokinins Assayed for Induction of Shoot Buds in the Moss Funaria hygrometrica|Am. J. Bot.86(11): 1645-1648|1999|10.2307/2656801
150879|A||Kahl,M., S. Harting, F. Vande Venter, and L. Brooke|The Effects of Water Hardness, pH, Chloride and Sulfate Salts, and Dissolved Organic Matter on the Toxicity of Silver to Fathead Minnows (Pimephales promelas)|Task Completion Report LSRI0303:12 p.|1992|
150880|T||Gupta,N.K., S. Gupta, D.S. Shukla, and P.S. Deshmukh|Differential Responses of BA Injection on Yield and Specific Grain Growth in Contrasting Genotypes of Wheat (Triticum aestivum L.)|Plant Growth Regul.40(3): 201-205|2003|10.1023/A:1025023822806
150881|T||Haisel,D., J. Pospisilova, H. Synkova, R. Schnablova, and P. Batkova|Effects of Abscisic Acid or Benzyladenine on Pigment Contents, Chlorophyll Fluorescence, and Chloroplast Ultrastructure During Water Stress and After Rehydration|Photosynthetica (Praha)44(4): 606-614|2006|10.1007/s11099-006-0079-5
150882|A||Lake Superior Research Institute|Toxicity of Silver to the Fathead Minnow and an Invertebrate in Aged Toxicant Solutions with Laboratory Water and St. Louis River Water|Report from Contract No. 68-C1-0034, Work Assignment 1-10, October, Environmental Health Laboratory, University of Wisconsin-Superior, Superior, WI:19 p.|1993|
150883|T||Hall,J.C., and M.L. Romano|Morphological and Physiological Differences Between the Auxinic Herbicide-Susceptible (S) and -Resistant (R) Wild Mustard (Sinapis arvensis L.) Biotypes|Pestic. Biochem. Physiol.52(2): 149-155|1995|10.1006/pest.1995.1039
150884|T||Juliano,B.O., and J.E. Varner|Enzymic Degradation of Starch Granules in the Cotyledons of Germinating Peas|Plant Physiol.44(6): 886-892|1969|10.1104/pp.44.6.886
150885|T||Martin,T., B. Sotta, M. Jullien, M. Caboche, and J.D. Faure|ZEA3: a Negative Modulator of Cytokinin Responses in Plant Seedlings|Plant Physiol.114(4): 1177-1185|1997|10.1104/pp.114.4.1177
150886|T||Pospisilova,J., J. Rulcova, and L. Vomacka|Effect of Benzyladenine and Hydroxybenzyladenosine on Gas Exchange of Bean and Sugar Beet Leaves|Biol. Plant. (Praha)44(4): 523-528|2001|10.1023/A:1013782318041
150887|T||Pospisilova,J., and P. Batkova|Effects of Pre-Treatments with Abscisic Acid and/or Benzyladenine on Gas Exchange of French Bean, Sugar Beet, and Maize Leaves During Water Stress and After Rehydration|Biol. Plant. (Praha)48(3): 395-399|2004|10.1023/B:BIOP.0000041092.40705.6b
150888|T||Pospisilova,J., M. Vagner, J. Malbeck, A. Travnickova, and P. Batkova|Interactions Between Abscisic Acid and Cytokinins During Water Stress and Subsequent Rehydration|Biol. Plant. (Praha)49(4): 533-540|2005|10.1007/s10535-005-0047-0
150889|T||Rakova,N.Y., and G.A. Romanov|Polyamines Suppress Manifestation of Cytokinin Primary Effects|Russ. J. Plant Physiol.52(1): 50-57|2005|10.1007/s11183-005-0008-7
150890|T||Singh,D.V., G.C. Srivastava, and M.Z. Abdin|Amelioration of Negative Effect of Water Stress in Cassia angustifolia by Benzyladenine and/or Ascorbic Acid|Biol. Plant. (Praha)44(1): 141-143|2001|10.1023/A:1017955328875
150891|T||Smets,R., J. Le, E. Prinsen, J.P. Verbelen, and H.A. Van Onckelen|Cytokinin-Induced Hypocotyl Elongation in Light-Grown Arabidopsis Plants with Inhibited Ethylene Action or Indole-3-Acetic Acid Transport|Planta (Multiple Languages)221(1): 39-47|2005|10.1007/s00425-004-1421-4
150892|T||Tanaka,Y., T. Sano, M. Tamaoki, N. Nakajima, N. Kondo, and S. Hasezawa|Cytokinin and Auxin Inhibit Abscisic Acid-Induced Stomatal Closure by Enhancing Ethylene Production in Arabidopsis|J. Exp. Bot.57(10): 2259-2266|2006|10.1093/jxb/erj193
150893|T||Thistlewood,H.M.A., and D.C. Elfving|Laboratory and Field Effects of Chemical Fruit Thinners on Tetranychid and Predatory Mites (Acari) of Apple|J. Econ. Entomol.85(2): 477-485|1992|10.1093/jee/85.2.477
150894|T||Vaseva-Gemisheva,I., I. Sergiev, D. Todorova, V. Alexieva, E. Stanoeva, V. Lachkova, and E. Karanov|Antagonistic Effects of Triazolo[4,5-D]Pyrimidine and Pyridylurea Derivatives on Cytokinin-Induced Cytokinin Oxidase/Dehydrogenase Activity in Young Pea Plants|Plant Growth Regul.46(3): 193-197|2005|10.1007/s10725-005-0650-2
150895|T||Vivian-Smith,A., and A.M. Koltunow|Genetic Analysis of Growth-Regulator-Induced Parthenocarpy in Arabidopsis|Plant Physiol.121(2): 437-451|1999|10.1104/pp.121.2.437
150896|T||Waldecker,M.A., and D.L. Wyse|Chemical and Physical Effects of the Accumulation of Glyphosate in Common Milkweed (Asclepias syriaca) Root Buds|Weed Sci.33(5): 605-611|1985|10.1017/S0043174500082953
150897|T||Yu,T., L. Wang, Y. Yin, F. Feng, and X. Zheng|Suppression of Postharvest Blue Mould of Apple Fruit by Cryptococcus Laurentii and N6-Benzyladenine|J. Sci. Food Agric.88(7): 1266-1271|2008|10.1002/jsfa.3217
150898|A||Call,D.J., and D.L. Geiger|Subchronic Toxicities of Industrial and Agricultural Chemicals to Fathead Minnows (Pimephales promelas).  Volume I|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:318 p.|1992|
150899|T||Jimenez,V.M., E. Guevara, J. Herrera, R. Alizaga, and F. Bangerth|Changes in Hormone Concentrations During Dormancy Release of Oil Palm (Elaeis guineensis) Seeds|Seed Sci. Technol.36(3): 575-587|2008|10.15258/sst.2008.36.3.07
150900|T||Kennelly,M.M., T.C. Todd, D.M. Settle, and J.D. Fry|Moss Control on Creeping Bentgrass Greens with Standard and Alternative Approaches|Hortscience45(4): 654-659|2010|10.21273/HORTSCI.45.4.654
150901|T||Muhtaseb,J., and H. Ghnaim|Budbreak, Fruit Quality and Maturity of 'Superior' Seedless Grapes as Affected by Dormex Under Jordan Valley Conditions|Fruits (Les Ulis)63(3): 171-178|2008|
150902|T||Bonafos,R., P. Auger, S. Guichou, and S. Kreiter|Suitability of Two Laboratory Testing Methods to Evaluate the Side Effects of Pesticides on Typhlodromus pyri Scheuten (Acari: Phytoseiidae)|Pest Manag. Sci.64(2): 178-184|2008|10.1002/ps.1500
150903|T||Conover,R.A.|Control of Pole Bean Rust with Maneb-Sulfur Dust|Annu. Meet. Fla. State Hortic. Soc.69:247-250|1957|
150904|T||Boughalleb,N., N. Tarchoun, and W. Dallagi|Effect of Fungicides on In Vitro Infestation Level of Radish, Carrot and Pepper Seeds|Plant Pathol. J.5(3): 388-392|2006|10.3923/ppj.2006.388.392
150905|T||Conover,R.A., and R.E. Stall|Use of Combinations of Maneb and Dyrene for Control of Tomato Disease|Annu. Meet. Fla. State Hortic. Soc.72:204-207|1960|
150906|AT||Lorenz,C., R. Opitz, I. Lutz, and W. Kloas|Teratogenic Effects of Chronic Treatment with Corticosterone on Tadpoles of Xenopus laevis|Ann. N. Y. Acad. Sci.1163(1): 454-456|2009|10.1111/j.1749-6632.2009.04429.x
150907|T||Teng,P.S., and H.L. Bissonnette|Estimating Potato Yield Responses from Chemical Control of Early Blight in Minnesota|Am. Potato J.62(11): 595-606|1985|10.1007/BF02854434
150908|AT||OPPT|OPPT SMILES Verification Source|AIM OPPT SMILES:|2010|
150909|T||Kuiper,J.|Suppression of Wheat Seedling Establishment by Maneb|Aust. J. Exp. Agric. Anim. Husb.14:391-393|1974|10.1071/EA9740391
150910|T||Richardson,A.C., E.F. Walton, J.S. Meekings, and H.L. Boldingh|Carbohydrate Changes in Kiwifruit Buds During the Onset and Release from Dormancy|Sci. Hortic.124(4): 463-468|2010|10.1016/j.scienta.2010.02.010
150911|T||Suzuki,S., S.I. Fuji, H. Furuya, and H. Naito|Citokinin-Mediated Suppression of Cucumber Powdery Mildew Disease: 6-Benzyladenine Suppresses the Growth of Cucumber Powdery Mildew Fungus, Sphaerotheca fuliginea|Plant Pathol. J.5(3): 299-306|2006|10.3923/ppj.2006.299.306
150912|T||Tian,Y., X. Zhang, J. Liu, Q. Chen, and L. Gao|Microbial Properties of Rhizosphere Soils as Affected by Rotation, Grafting, and Soil Sterilization in Intensive Vegetable Production Systems|Sci. Hortic.123(2): 139-147|2009|10.1016/j.scienta.2009.08.010
150913|T||Zheng,X., T. Yu, R. Chen, B. Huang, and V.C.H. Wu|Inhibiting Penicillium expansum Infection on Pear Fruit by Cryptococcus laurentii and Cytokinin|Postharvest Biol. Technol.45(2): 221-227|2007|10.1016/j.postharvbio.2007.03.001
150914|T||Arya,K., and D. Dey|Bioefficacy and Economics of Different Insecticides in the Management of Pieris brassicae on Ethiopian Mustard (Brassica carinata)|Indian J. Agric. Sci.77(10): 705-707|2007|
150915|T||Bairu,M.W., M.G. Kulkarni, R.A. Street, R.B. Mulaudzi, and J. Van Staden|Studies on Seed Germination, Seedling Growth, and In Vitro Shoot Induction of Aloe ferox Mill., a Commercially Important Species|Hortscience44(3): 751-756|2009|10.21273/HORTSCI.44.3.751
150916|T||Beltrano,J., D.O. Caldiz, R. Barreyro, G. Sanchez Vallduvi, and R. Bezus|Effects of Foliar Applied Gibberellic Acid and Benzyladenine Upon Yield Components in Sunflower (Helianthus annuus L.)|Plant Growth Regul.15(2): 101-106|1994|10.1007/BF00024097
150917|T||Bertelsen,M.G.|Benzyladenine and Other Thinning Agents for Pear cv. 'Clara Frijs'|J. Am. Pomol. Soc.56(3): 149-155|2002|
150918|T||Carter,J., B.P. Singh, and W. Whitehead|Dikegulac, but not Benzyladenine, Enhances the Aesthetic Quality of Boston Fern|Hortscience31(6): 978-980|1996|10.21273/HORTSCI.31.6.978
150919|T||Chen,W.S., H.W. Chang, W.H. Chen, and Y.S. Lin|Gibberellic Acid and Cytokinin Affect Phalaenopsis Flower Morphology at High Temperature|Hortscience32(6): 1069-1073|1997|10.21273/HORTSCI.32.6.1069
150920|T||Dale,A., D.C. Elfving, and C.K. Chandler|Benzyladenine and Gibberellic Acid Increase Runner Production in Dayneutral Strawberries|Hortscience31(7): 1190-1194|1996|10.21273/HORTSCI.31.7.1190
150921|T||Dean,J.C.|Some Agronomic Aspects of the Use of Maneb for Blue Mould Control in Flue-Cured Tobacco|Qld. J. Agric. Anim. Sci.27:269-278|1970|
150922|T||Douschkova,P., N. Kouzmanov, D. Ninova, T. Kostova, and I. Paskov|Effect of 6-Benzylaminopurine on Photosynthetic Activities and Pigment Contents of 2,4-Dichlorophenoxyacetic Acid-Treated Sunflower Plants|Photosynthetica (Praha)23(3): 390-394|1989|
150923|T||Fu,T.T., X. Wang, H.Y. Cheng, and S.Q. Song|Effects of Light, Temperature and Dehydration on Germination of Ficus benjamina L. var. nuda Seeds|Seed Sci. Technol.36(3): 601-608|2008|10.15258/sst.2008.36.3.10
150924|A||Hurtubise,Y., L. Proteau, and G. Grenier|Effects of Benzyladenine on [U-14C]Acetate Incorporation into Lipids of Lemna minor|Phytochemistry31(11): 3827-3833|1992|10.1016/S0031-9422(00)97536-8
150925|T||Kan,J., and S. Song|Effects of Dehydration, Chilling, Light, Phytohormones and Nitric Oxide on Germination of Pistia stratiotes Seeds|Seed Sci. Technol.36(1): 38-45|2008|10.15258/sst.2008.36.1.04
150926|T||Kende,H., and T.C. Shen|Nitrate Reductase in Agrostemma githago Comparison of the Inductive Effects of Nitrate and Cytokinin|Biochim. Biophys. Acta286(1): 118-125|1972|10.1016/0304-4165(72)90097-9
150927|T||Kopecny,D., P. Tarkowski, A. Majira, I. Bouchez-Mahiout, F. Nogue, M. Lauriere, G. Sandberg, M. Laloue, and N. Houba-He|Probing Cytokinin Homeostasis in Arabidopsis thaliana by Constitutively Overexpressing Two Forms of the Maize Cytokinin Oxidase/Dehydrogenase 1 Gene|Plant Sci.171(1): 114-122|2006|10.1016/j.plantsci.2006.03.001
150928|T||Li,Y., and X. Yu|Pollination with Laser-Irradiated Pollens Breaks Cross-Incompatibility Between Zicaitai (Brassica campestris var. purpurea) and Ornamental Kale (Brassica oleracea var. acephala) to Produce Hybrids with the Aid of Ovule |Sci. Hortic.108(4): 397-402|2006|10.1016/j.scienta.2006.02.017
150929|T||Liang,J., J. Zhang, and X. Cao|Grain Sink Strength may be Related to the Poor Grain Filling of Indica-Japonica Rice (Oryza sativa) Hybrids|Physiol. Plant. (Multiple Languages)112(4): 470-477|2001|10.1034/j.1399-3054.2001.1120403.x
150930|T||Lu,J.L., J.R. Ertl, and C.M. Chen|Cytokinin Enhancement of the Light Induction of Nitrate Reductase Transcript Levels in Etiolated Barley Leaves|Plant Mol. Biol.14(4): 585-594|1990|10.1007/BF00027504
150931|T||Lynch,R.E., and T. Reed|Rearing the Lesser Cornstalk Borer: Fungicides for Control of Aspergillus niger|J. Entomol. Sci.20(1): 26-33|1985|10.18474/0749-8004-20.1.26
150932|T||Padhye,S.R., and J.K. Groninger|Influence of Benzyladenine, Trinexapac-Ethyl, or Uniconazole Applications on Height and Tillering of Six Ornamental Grasses|HortTechnology19(4): 737-742|2009|10.21273/HORTTECH.19.4.737
150933|T||Panetsos,K., A. Scaltsoyiannes, and P. Alizoti|Effect of Genotype and Cutting Type on the Vegetative Propagation of the Pine Hybrid (Pinus brutia (Ten) X Pinus halepensis (Mill))|Ann. Sci. For. (Non-English)51(5): 447-454|1994|10.1051/forest:19940502
150934|T||Parks,C.A., and T.H. Boyle|Germination of Liatris spicata (L.) Willd. Seed is Enhanced by Stratification, Benzyladenine, or Thiourea but not Gibberellic Acid|Hortscience37(1): 202-205|2002|10.21273/HORTSCI.37.1.202
150935|T||Prat,L., C. Botti, and T. Fichet|Effect of Plant Growth Regulators on Floral Differentiation and Seed Production in Jojoba (Simmondsia chinensis (Link) Schneider)|Ind. Crops Prod.27(1): 44-49|2008|10.1016/j.indcrop.2007.07.001
150936|T||Ranwala,A.P., G. Legnani, and W.B. Miller|Minimizing Stem Elongation During Spray Applications of Gibberellin 4+7 and Benzyladenine to Prevent Leaf Chlorosis in Easter Lilies|Hortscience38(6): 1210-1213|2003|10.21273/HORTSCI.38.6.1210
150937|T||Roy,S., N.K. Shah, R. Bano, P. Saxena, M.I. Azmi, and P.K. Tyagi|Effect of Pest Control Measures on Beneficial Soil Microarthropods in a Year-Round Fodder Production System|Indian J. Agric. Sci.79(5): 406-408|2009|
150938|T||Shripathi,V., and G.S. Swamy|Effect of Triacontanol on the Lipid Composition of Cotton (Gossypium hirsutum L.) Leaves and Its Interaction with Indole-3-Acetic Acid and Benzyladenine|Plant Growth Regul.14(1): 45-50|1994|10.1007/BF00024140
150939|T||Srivastava,H.S., D.P. Ormrod, and B.A. Hale|The Influence of Benzyladenine and Nitrogen Sources on Responses of Bean Plants to Nitrogen Dioxide|Environ. Exp. Bot.32(3): 273-280|1992|10.1016/0098-8472(92)90010-Y
150940|T||Stewart,A.M., and J.D. Bewley|The Participation of cis-4-Cyclohexene-1,2-Dicarboximide in the Inhibition of Light-Controlled Growth Responses|Plant Sci.67(2): 141-149|1990|10.1016/0168-9452(90)90237-I
150941|T||Stoparic,G., and I. Maksimovic|The Effect of Cytokinins on the Concentration of Hydroxyl Radicals and the Intensity of Lipid Peroxidation in Nitrogen Deficient Wheat|Cereal Res. Commun.36(4): 601-609|2008|10.1556/CRC.36.2008.4.9
150942|T||Wismer,P.T., J.T.A. Proctor, and D.C. Elfving|Benzyladenine Affects Cell Division and Cell Size During Apple Fruit Thinning|J. Am. Soc. Hortic. Sci.120(5): 802-807|1995|10.21273/JASHS.120.5.802
150943|T||Wojnar,R.J., K.A. Losee, and R.J. Brittain|Structure-Activity Profile of Substituted Purines and Inflammation in the Delayed Hypersensitivity Skin Reaction|Agents Actions5(2): 145-151|1975|10.1007/BF02027356
150944|T||Wojnar,R.J., and R.J. Brittain|Substituted 9-Benzyladenines: Inhibitors of Inflammation Associated with the Delayed Hypersensitivity Skin Reaction|Agents Actions5(2): 152-160|1975|10.1007/BF02027357
150945|T||Yadav,N., V. Gupta, and V.K. Yadav|Role of Benzyladenine and Gibberellic Acid in Alleviating Water-Stress Effect in Gram (Cicer arietinum)|Indian J. Agric. Sci.67(9): 381-387|1997|
150946|T||Yadav,V.K., and N. Yadav|Effect of Benzyladenine on Leaf Metabolites in Wheat (Triticum aestivum) Genotypes Tolerant and Susceptible to Water Stress|Indian J. Agric. Sci.73(11): 612-614|2003|
150947|T||Yogev,M., B. Rubin, and M. Negbi|Hormonal Induced Transformation of the Tuberous Purple Nutsedge (Cyperus rotundus L.) into a Tuber-Less Phenotype|Isr. J. Plant Sci.44(1): 19-28|1996|10.1080/07929978.1996.10676629
150948|T||Yuan,R., and D.W. Greene|Benzyladenine as a Chemical Thinner for 'McIntosh' Apples.  I. Fruit Thinning Effects and Associated Relationships with Photosynthesis, Assimilate Translocation, and Nonstructural Carbohydrates|J. Am. Soc. Hortic. Sci.125(2): 169-176|2000|10.21273/JASHS.125.2.169
150951|T||Nash,R.G., and M.L.,Jr. Beall|Fate of Maneb and Zineb Fungicides in Microagroecosystem Chambers|J. Agric. Food Chem.28(2): 322-330|1980|10.1021/jf60228a011
150953|T||Kasai,M., M. Nishimori, S.E. Zhu, T. Sakurai, and T. Machida|Survival of Mouse Morulae Vitrified in an Ethylene Glycol-Based Solution After Exposure to the Solution at Various Temperatures|Biol. Reprod.47(6): 1134-1139|1992|10.1095/biolreprod47.6.1134
150956|T||De Meutter,J., T. Tytgat, E. Witters, G. Gheysen, and H. Van Onckelen|Identification of Cytokinins Produced by the Plant Parasitic Nematodes Heterodera schachtii and Meloidogyne incognita|Mol. Plant Pathol.4(4): 271-277|2003|10.1046/j.1364-3703.2003.00176.x
150957|T||Dhruve,J.J., and D.N. Vakharia|Amelioration of Polyethylene Glycol Simulated Water Deficit Stress by Benzyladenine in Groundnut|Indian J. Agric. Biochem.20(2): 53-58|2007|
150958|T||Dietrich,S.M.C., and I.F.M. Valio|Effect of Coumarin and Its Derivatives on the Growth of Pythium and Other Fungi|Trans. Br. Mycol. Soc.61(3): 461-469|1973|10.1016/S0007-1536(73)80116-0
150959|T||Elliott,D.C.|Differential Effects on Fusicoccin- and Cytokinin- Stimulated Betacyanin Synthesis by ATPase Inhibitors and Uncouplers|Plant Sci. Lett.15(3): 251-264|1979|10.1016/0304-4211(79)90117-2
150960|T||Fuzi,I.|Fungicides Against Diseases of Pea, Pisum sativum L., in Hungary|Pestic. Sci.45(3): 292-295|1995|10.1002/ps.2780450319
150961|T||Ripley,B.D., and C.M. Simpson|Residues of Zineb and Ethylene Thiourea in Orchard Treated Pears and Commercial Pear Products|Pestic. Sci.8(5): 487-491|1977|10.1002/ps.2780080509
150962|T||Runeckles,V.C., and H.M. Resh|Effects of Cytokinins on Responses of Bean Leaves to Chronic Ozone Treatment|Atmos. Environ.9(8): 749-753|1975|10.1016/0004-6981(75)90162-6
150963|T||Schupbach,M., and H. Hummler|A Comparative Study on the Mutagenicity of Ethylenethiourea in Bacterial and Mammalian Test Systems|Mutat. Res., Fundam. Mol. Mech. Mutagen.56(2): 111-120|1977|10.1016/0027-5107(77)90199-3
150964|T||Sze,H., and F.M. Ashton|Dipeptidase Development in Cotyledons of Cucurbita maxima During Germination|Phytochemistry10(12): 2935-2942|1971|10.1016/S0031-9422(00)97329-1
150965|T||Van Staden,J., and B.M. Ntingane|The Effect of a Combination of Decapitation Treatments, Zeatin and Benzyladenine on the Initiation and Emergence of Lateral Roots in Pisum sativum|S. Afr. J. Bot.62(1): 11-16|1996|10.1016/S0254-6299(15)30571-8
150966|T||Lewerenz,H.J., and R. Plass|Effect of Ethylenethiourea on Hepatic Microsomal Enzymes in the Rat|Arch. Toxicol.(Suppl.1):189-192|1978|10.1007/978-3-642-66896-8_28
150967|T||Vasudev,V., and N.B. Krishnamurthy|Effect of Dithane M-45 on the Rate of Development, Viability, Morphology and Fecundity in Drosophila melanogaster|J. Mysore Univ., Sect. B29:79-86|1983|
150968|T||Yu,Q., Y. Hu, J. Li, Q. Wu, and Z. Lin|Sense and Antisense Expression of Plasma Membrane Aquaporin BnPIP1 from Brassica napus in Tobacco and Its Effects on Plant Drought Resistance|Plant Sci.169(4): 647-656|2005|10.1016/j.plantsci.2005.04.013
150969|T||Magaro,J.J., J.V. Edelson, and F.W.,Jr. Plapp|Residual Film Bioassay, 1990|Insectic. Acaric. Tests16:295-|1991|10.1093/iat/16.1.295
150970|T||Maier,C.T.|Seasonal Density and Impact of Mining of Lyonetia prunifoliella (Lepidoptera:  Lyonetiidae) on Semidwarf Apple Trees in Connecticut|J. Entomol. Sci.31(4): 440-452|1996|10.18474/0749-8004-31.4.440
150971|T||Lopez-Aranda,J.M., L. Miranda, J.J. Medina, C. Soria, B. De los Santos, F. Romero, R.M. Perez-Jimenez, M. Talavera, S.A|Methyl Bromide Alternatives for High Tunnel Strawberry Production in Southern Spain|HortTechnology19(1): 187-192|2009|10.21273/HORTTECH.19.1.187
150972|T||Sanchez,E., J.M. Soto, J.X. Uvalle, A.P. Hernandez, J.M. Ruiz, and L. Romero|"Chemical Treatments in ""Golden Delicious Spur"" Fruits in Relation to Russeting and Nutritional Status"|J. Plant Nutr.24(1): 191-202|2001|10.1081/PLN-100000320
150973|T||Xu,Z., Q.M. Wang, Y.P. Guo, D.P. Guo, G.A. Shah, H.L. Liu, and A. Mao|Stem-Swelling and Photosynthate Partitioning in Stem Mustard are Regulated by Photoperiod and Plant Hormones|Environ. Exp. Bot.62(2): 160-167|2008|10.1016/j.envexpbot.2007.08.001
150974|T||Ross,R.G., F.A. Wood, and R. Stark|Ethylenebisdithiocarbamate and Ethylenethiourea Residues in Apples and Apple Products Following Sprays of Mancozeb and Metiram|Can. J. Plant Sci.58(3): 601-604|1978|10.4141/cjps78-094
150975|T||During,H., and M. Broquedis|Effects of Abscisic Acid and Benzyladenine on Irrigated and Non-Irrigated Grapevines|Sci. Hortic.13(3): 253-260|1980|10.1016/0304-4238(80)90063-1
150976|AT||Padmaja,B., G.M. Ram, K.S.R.K. Murthy, and N. Chandrasekhar|Effect of a New Insecticide Ethofenprox on the Yellow Fever Mosquito, Aedes aegypti L. (Diptera: Culicidae)|Pestology30(12): 10-14|2006|
150977|T||Aktar,M.W., M. Paramasivam, and D. Sengupta|Occurrence of Benthiocarb Residues at Harvest in/on Paddy and Soil of Rice Ecosystem Under Eastern Indian Climatic Conditions|Curr. Biotica2(3): 337-343|2008|
150978|T||Ghosh,S., and P.S. Basu|Effect of Some Growth Regulators on Sex Expression of Momordica charantia L.|Sci. Hortic.17(2): 107-112|1982|10.1016/0304-4238(82)90002-4
150980|T||Yang,C., G. Liu, M.H. Wang, and G.Z. Qu|Effect of Hormones on Tumor Formation in Tobacco Hybrids|J. Plant Biochem. Biotechnol.18(2): 169-173|2009|10.1007/BF03263315
150981|T||Abdalla,O.A.|Effects of Flurprimidol, Abscisic Acid and Benzyladenine on Growth and Water Relations of Two Bean (Phaseolus vulgaris L.) Lines|Ph.D. Thesis, Kansas State University, Manhattan, KS:104 p.|1984|
150982|T||Lee,D.J.|Population Dynamics of Rhizoctonia Species in Tall Fescue and Creeping Bentgrass in Response to Disease Control Programs|Ph.D.Thesis, North Carolina State University, Raleigh, NC:100 p.|2004|
150984|T||Shetty,P.|Assessment of Trichogramma Wasps as Biological Control Agents for Suppression of Platynota idauesalis Walker in North Carolina Apples|Ph.D.Thesis, North Carolina State University, Raleigh, NC:83 p.|2000|
150985|T||Yuan,R.|Effect of Benzyladenine on Fruit Thinning and Its Mode of Action on 'McIntosh' Apples|Ph.D.University of Massachusetts Amherst:92 p.|1998|
150987|T||Ruano-Rossil,J.M.|Suppression of Entomopathogenic Fungi of Green Peach Aphid, Myzus persicae (Sulzer), by Late Blight Fungicides|Ph.D.Thesis, University of Minnesota, Minneapolis, MN:98 p.|2001|
150988|T||Zegeer,A.M.|Interactions Between Saline Stress and Benzyladenine on Chili Peppers (Capsicum annuum L.)|M.S. Thesis, University of Arizona, Tucson, AZ:66 p.|1989|
150990|T||Adamski,Z., K. Ziemnicki, P. Marciniak, J. Halamunda, M. Nawrocka, F. Lelario, L. Scrano, and S.A. Bufo|Effect of Various Xenobiotics on Hatching Success of Spodoptera exigua Eggs as Compared to a Natural Plant Extract|J. Toxicol. Environ. Health Part A72(19): 1132-1134|2009|10.1080/15287390903091749
150991|T||Bhardwaj,S.S., and S.L. Sharma|Chemical Control of Fruit Rot and Leaf Blight of Bell Pepper in India|Agric. Ecosyst. Environ.14(1/2): 151-153|1985|10.1016/0167-8809(85)90092-1
150993|T||De Goes,A., R.B.O. Garrido, R.F. Reis, R.B. Baldassari, and M.A. Soares|Evaluation of Fungicide Applications to Sweet Orange at Different Flowering Stages for Control of Postbloom Fruit Drop Caused by Colletotrichum acutatum|Crop Prot.27(1): 71-76|2008|10.1016/j.cropro.2007.04.007
150994|T||Kardin,M.K., and J.A. Percich|Adaptation of Mancozeb by Bipolaris oryzae and B. sorokiniana, the Causal Organisms of Brown Spot of Wild Rice|Plant Dis.67(5): 477-480|1983|10.1094/PD-67-477
150995|T||Wicks,T.J., C.W. Davoren, and B.H. Hall|Fungicidal Control of Phytophthora erythroseptica:  The Cause of Pink Rot on Potato|Am. J. Potato Res.77(4): 233-240|2000|10.1007/BF02855791
150996|T||Mirkova,E., and S. Yanev|On Certain Changes in the Excitability of the Central Nervous System of a Generation of Rats Treated Antenatally with Basfungin|Dokl. Bolg. Akad. Nauk29(8): 1227-1229|1976|
150997|T||Negre,M., M. Gennari, and A. Cignetti|Mancozeb and Ethylenethiourea Residues in Green Grass Samples from Fields Alongside Treated Poplar Stands|Fresenius Environ. Bull.4(7): 407-412|1995|
150998|T||Nishiyama,K., J. Ando-Lu, S. Nishimura, M. Takahashi, M. Yoshida, K. Sasahara, K. Miyajima, and A. Maekawa|Initiating and Promoting Effects of Concurrent Oral Administration of Ethylenethiourea and Sodium Nitrite on Uterine Endometrial Adenocarcinoma Development in Donryu Rats|In Vivo12(4): 363-368|1998|
151000|A||Environmental Health Laboratory|The Effects of Feeding and Not Feeding, Aging and Not Aging Test Solutions on the Toxicity of Silver to Daphnia magna|In: Contract No.68-C1-0034, Work Assignment 1-10. Univ.Wisconsin-Superior, Superior, WI:16 p.|1993|
151001|A||Environmental Health Laboratory|The Effects of Feeding and Not Feeding, Aging and Not Aging Test Solutions on the Toxicity of Silver to Fathead Minnows, Pimephales promelas|Contract No.68-C1-0034, Work Assignment No.1-10, Environ.Health Lab, Univ.of Wisconsin-Superior, Superior, WI:16 p.|1993|
151002|AT||Arriaga-Diaz,C.|Some Effects of Diquat on Respiration and on the Metabolism of Amino Acids in Chlorella, Elodea, and Tobacco Leaves|M.S.Thesis, University of California, Davis, CA:54 p.|1966|
151003|A||Whitfort,L.A.|Investigations into the Composition of Epiphytic Communities and Their Influence on the Uptake of Diquat by Elodea canadensis Rich.|M.S.Thesis, University of New South Wales, Griffith, NSW:177 p.|1982|
151004|T||Noetzel,D., and J. Miller|Evaluation of Phorate in Colorado Potato Beetle Control, Verndale, MN, 1992|Insectic. Acaric. Tests18:145-146|1993|10.1093/iat/18.1.145a
151005|T||Noetzel,D.M., and B. Holder|Foliar Insect Control on Potato, Crookston, MN, 1992|Insectic. Acaric. Tests18:147-|1993|10.1093/iat/18.1.147
151006|T||Palumbo,J.C., C.H. Mullis, and F.J. Reyes|Evaluation of Insecticides for Control of Lepidopterous Larvae in Lettuce, 1992|Insectic. Acaric. Tests18:133-134|1993|10.1093/iat/18.1.133
151007|T||Reed,J.T., and C.S. Jackson|Evaluation of 12 Insecticides for Aphid Control on Cotton in Mississippi, 1992|Insectic. Acaric. Tests18:249-250|1993|10.1093/iat/18.1.249
151008|T||Reed,J.T., and C.S. Jackson|Evaluation of Seed Treatments and In-Furrow Insecticides for Thrips Control in Cotton in Mississippi, 1992|Insectic. Acaric. Tests18:250-251|1993|10.1093/iat/18.1.250
151009|T||Rethwisch,M.D., C.W. McDaniel, M. Shaw, and J. Thiessen|Evaluation of Systemic Insecticides for Sweetpotato Whitefly Control on Seedling Cauliflower, 1991|Insectic. Acaric. Tests18:117-118|1993|10.1093/iat/18.1.117a
151010|T||Bewick,T.A., W.M. Stall, S.R. Kostewicz, and K. Smith|Control of Solanum americanum with Paraquat Impaired by Some Fungicides/Bactericides|Hortscience25(11): 1407-1408|1990|10.21273/HORTSCI.25.11.1407
151011|T||Bhardwaj,C.L.|Efficacy and Economics of Fungicide Spray Schedules for the Management of Foliar and Fruit Diseases in Tomato|Indian J. Mycol. Plant Pathol.21(1): 56-59|1991|
151012|T||Groth,J.V., R.J. Zeyen, D.W. Davis, and B.J. Christ|Yield and Quality Losses Caused by Common Rust (Puccinia sorghi Schw.) in Sweet Corn (Zea mays) Hybrids|Crop Prot.2(1): 105-111|1983|10.1016/0261-2194(83)90030-3
151013|T||Kovacs,A.I.|The Effect of Seed Treatment with Chlormequat on the Control of Barley Leaf Stripe, Drechslera graminea (Rabenh. et Schlecht.) Shoemaker, with Fungicides|Crop Prot.1(3): 369-372|1982|10.1016/0261-2194(82)90012-6
151014|T||Lapwood,D.H., A. Bainbridge, J. McEwen, and D.P. Yeoman|An Effect of Rust (Uromyces viciae-fabae) on the Yield of Spring-Sown Field Beans (Vicia faba) in the UK|Crop Prot.3(2): 193-198|1984|10.1016/0261-2194(84)90054-1
151015|T||Preston,S.R., and A. Kowor|Early Blight (Alternaria solani) of Potato in the Highlands of Papua New Guinea|Trop. Pest Manag.37(2): 109-112|1991|10.1080/09670879109371552
151016|T||Samoucha,Y., R.S. Levy, and Y. Cohen|Efficacy Over Time of Cymoxanil Mixtures in Controlling Late Blight in Potatoes Incited by a Phenylamide-Resistant Isolate of Phytophthora infestans|Crop Prot.7(3): 210-215|1988|10.1016/0261-2194(88)90073-7
151017|T||Singh,S.|Leaf Rust Development on Wheat Varieties in Relation to Fungicide Spray Schedule|Indian J. Mycol. Plant Pathol.26(1): 34-37|1996|
151018|T||Sugha,S.K., and B.M. Singh|Fungitoxic Management of Phytophthora Fruit Rot of Eggplant|Indian J. Mycol. Plant Pathol.22(3): 271-273|1992|
151019|T||Sutton,J.C.|Fungicide Seed Treatments, Sowing Dates and Inoculum Densities of Gaeumannomyces graminis var. tritici in Relation to Take-all in Ontario Winter Wheat|Fitopatol. Bras. (Multiple Languages)14(3/4): 253-260|1989|
151020|T||Schuster,D.J.|Leafminer, Armyworm and Tomato Pinworm Control on Fresh Market Tomatoes in West-Central Florida, Spring 1992|Insectic. Acaric. Tests18:180-|1993|
151021|T||Semtner,P.J., and W.B. Wilkinson III|Management of the Tobacco Aphid and Tobacco Budworm, 1992|Insectic. Acaric. Tests18:286-287|1993|10.1093/iat/18.1.286
151022|T||Semtner,P.J., and W.B. Wilkinson III|Insect Control on Dark Fire-Cured Tobacco, 1992|Insectic. Acaric. Tests18:288-|1993|
151023|T||Speese III,J.|Foliar Sprays to Control Colorado Potato Beetle in Potatoes, Painter, VA, 1992|Insectic. Acaric. Tests18:161-|1993|
151024|T||Speese III,J.|Foliar Sprays to Control Worms on Cabbage, 1992|Insectic. Acaric. Tests18:112-113|1993|10.1093/iat/18.1.112
151025|T||Speese III,J.|In-Furrow and Foliar Treatments to Control Colorado Potato Beetle in Potatoes, Painter, VA, 1992|Insectic. Acaric. Tests18:160-|1993|10.1093/iat/18.1.160
151026|T||Stansly,P.A., and B.M. Cawley|Seed Treatment and Foliar Insecticidal Control of Fall Armyworm in Florida Sweet Corn, 1991|Insectic. Acaric. Tests18:125-|1993|10.1093/iat/18.1.125
151027|T||Straub,R.W., and H. Grimsland|Reduction of Aphid Contamination of Sweet Corn Ears, 1992|Insectic. Acaric. Tests18:126-127|1993|10.1093/iat/18.1.126a
151028|T||Straub,R.W., and P.J. Jentsch|Apple, Comparison of Neem Seed Extract and Conventional Insecticides, 1991|Insectic. Acaric. Tests18:54-55|1993|10.1093/iat/18.1.54
151029|T||Tanigoshi,L.K., and W. Hoeschele|Control of Russian Wheat Aphid on Winter Wheat, 1989|Insectic. Acaric. Tests18:300|1993|10.1093/iat/18.1.300
151030|T||Le Pabic,C., M. Hoffelt, and J. Roussaux|Adenine Derivatives as Inhibitors of Photosystem II:  Relation with Cytokinin Activity|Plant Cell Physiol.29(2): 289-294|1988|
151031|T||Thomas,J.D., A.T. Wier, M.L. Boyd, D.J. Boethel, and B.R. Leonard|Soybean Looper Control on North Louisiana Soybean, 1992|Insectic. Acaric. Tests18:274-275|1993|10.1093/iat/18.1.274
151032|T||Sakoda,M., K. Hasegawa, and K. Ishizuka|The Occurrence in Plants of the Growth Inhibitors, the Raphanusanins|Phytochemistry30(1): 57-61|1991|10.1016/0031-9422(91)84098-D
151033|T||Hwang,E.S., J.N. Cash, and M.J. Zabik|Degradation of Mancozeb and Ethylenethiourea in Apples Due to Postharvest Treatments and Processing|J. Food Sci.67(9): 3295-3300|2002|10.1111/j.1365-2621.2002.tb09581.x
151034|T||Vaughn,T.T., and C.W. Hoy|Control of Onion Thrips on Dry Bulb Onions, 1992|Insectic. Acaric. Tests18:136-137|1993|10.1093/iat/18.1.136
151035|T||Webb,D.R., M.L. Hessney, and C.J. Eckenrode|Thrips Control on Onions, 1992|Insectic. Acaric. Tests18:138-|1993|
151036|T||Webb,D.R., C.J. Eckenrode, and M.L. Hessney|Spray Evaluations for Bean Insects, 1992|Insectic. Acaric. Tests18:83-|1993|
151037|T||Whalen,J., and M. Spellman|Colorado Potato Beetle Control with Foliar Sprays, 1992|Insectic. Acaric. Tests18:165-166|1993|10.1093/iat/18.1.165
151038|T||Wier,A.T., J.D. Thomas, M.L. Boyd, D.J. Boethel, and B.R. Leonard|Control of Threecornered Alfalfa Hopper on Soybean, 1992|Insectic. Acaric. Tests18:277-|1993|
151039|T||Barwal,R.N., and N.S. Rao|Comparative Toxicity of Insecticides to Meloid Beetles, Mylabris phalerata Pallas and Epicauta sp. (Coleo:  Meloidae)|Pesticides 22(4): 7-9|1988|
151040|T||Mohan,N.J.|Control of Epilachna Beetle and Fruit Borer on Brinjal|Pesticides 19(7): 32-33|1985|
151041|T||Yadav,T.D., and A.N. Jha|Persistence of Deltamethrin, Cypermethrin and Permethrin on Storage Surfaces|Pesticides 19(7): 28-30|1985|
151042|T||Jadhav,M.D., and G.D. Jadhav|Bioefficacy and Economics in Bollworm Control in SRT-1 Cotton|Pesticides 18(9): 28-29, 31|1984|
151043|T||Wolf,S.P., and T.P. Mack|Evaluation of Insecticides for Control of Soybean Loopers and Threecornered Alfalfa Hoppers on Soybeans, 1992|Insectic. Acaric. Tests18:278-|1993|10.1093/iat/18.1.278
151044|A||Canesi,L., R. Fabbri, G. Gallo, D. Vallotto, A. Marcomini, and G. Pojana|Biomarkers in Mytilus galloprovincialis Exposed to Suspensions of Selected Nanoparticles (Nano Carbon Black, C60 Fullerene, Nano-TiO2, Nano-SiO2)|Aquat. Toxicol.100:168-177|2010|10.1016/j.aquatox.2010.04.009
151045|T||Wolf,S.P., Z. DeLamar, and T.P. Mack|Evaluation of Insecticides for Control of the Threecornered Alfalfa Hopper on Peanuts, 1992|Insectic. Acaric. Tests18:265|1993|10.1093/iat/18.1.265
151046|A||Choi,J.E., S. Kim, J.H. Ahn, P. Youn, J.S. Kang, K. Park, J. Yi, and D.Y. Ryu|Induction of Oxidative Stress and Apoptosis by Silver Nanoparticles in the Liver of Adult Zebrafish|Aquat. Toxicol.100:151-159|2010|10.1016/j.aquatox.2009.12.012
151047|T||Kotikal,Y.K., and M.C. Devaiah|Evaluation of Some Selected Insecticides for Their Efficacy Against Black Headed Hairy Caterpillar, Spilosoma obliqua Walker on Mulberry|Pesticides 22(9): 11-15|1988|
151048|T||Saleem,M.A., and A.R. Shakoori|Joint Effects of Dimilin and Ambush on Enzyme Activities of Tribolium castaneum Larvae|Pestic. Biochem. Physiol.29(2): 127-137|1987|10.1016/0048-3575(87)90070-8
151049|T||Bodnaryk,R.P.|The Effect of Single and Combined Doses of Chlordimeform and Permethrin on cAMP and cGMP Levels in the Moth, Mamestra configurata Wlk.|Pestic. Biochem. Physiol.18(3): 334-340|1982|10.1016/0048-3575(82)90074-8
151051|T||Rethwisch,M.D., C.W. McDaniel, M. Shaw, and J. Theissen|Sweetpotato Whitefly Control on Broccoli, 1991|Insectic. Acaric. Tests18:88-89|1993|
151052|T||McCutcheon,G.S., S.G. Turnipseed, and M.J. Sullivan|Green Cloverworm (Lepidoptera:  Noctuidae) as an Alternate Host for Natural Enemies of Lepidopteran Pests of Soybean in South Carolina|J. Agric. Entomol.14(2): 105-119|1997|
151053|T||McPherson,R.M., and R.B. Moss|Soybean Looper and Velvetbean Caterpillar Control, 1990|Insectic. Acaric. Tests16:219-220|1991|10.1093/iat/16.1.219
151054|T||McPherson,R.M., D.J. Boethel, J.E. Funderburk, and A.T. Wier|The Effect of Alternative Southern Green Stink Bug (Heteroptera: Pentatomidae) Insecticide Controls on Soybean Pest Management, Quality and Yield|J. Entomol. Sci.30(2): 216-236|1995|10.18474/0749-8004-30.2.216
151055|T||Mink,J.S., A.T. Wier, J.D. Thomas, and D.J. Boethel|Evaluation of Insecticides for Soybean Looper Control in South Louisiana, 1990|Insectic. Acaric. Tests16:221-222|1991|10.1093/iat/16.1.221
151056|T||Mink,J.S., D.J. Boethel, and B.R. Leonard|Monitoring Permethrin Resistance in Soybean Looper (Lepidoptera:  Noctuidae) Adults|J. Entomol. Sci.28(1): 43-50|1993|10.18474/0749-8004-28.1.43
151057|T||Johnson,J.W., and J.C. Wise|Apple, Broad-Spectrum Insect Control, 1992|Insectic. Acaric. Tests18:49-|1993|10.1093/iat/18.1.49
151058|T||Mink,J.S., D.J. Boethel, B.R. Leonard, and J.D. Thomas|Developing and Monitoring Permethrin Resistance in the Soybean Looper|La. Agric.37(1): 16-17|1994|
151059|T||Mulgrew,S.M.|Efficacy of Insecticides Against Strawberry Root Weevil Adults, 1989|Insectic. Acaric. Tests16:253-254|1991|10.1093/iat/16.1.253a
151060|T||Naik,P.R., and M.R. Delvi|Effects of Insecticide, Permethrin, on Dietary Water Utilization in Eri-Silkworm Philosamia ricini|Proc. Indian Acad. Sci. Anim. Sci.93(6): 497-504|1984|10.1007/BF03186297
151061|T||Bayer Co.|Support: Mechanistic Studies on Aromatase Induction and Toxicokinetics in Rats (4-Week Feeding Studies) of YRC 2894, with TSCA Hlth & Sfty Cvr Sht Dated 10/1/1998|EPA/OTS Doc.#89990000013:96 p.|1998|
151062|T||Bayer Co.|Support: Further Examination of the Increased Occurrence of Dystocia & Stillbirths Observed in a Reproductive Bioassay W/an Experimental Cyanamide (YRC 2894), W/TSCA Cvr Shts Dated 9/16/98|EPA/OTS Doc.#89980000321:99 p.|1998|
151063|T||Cohen,Y., and U. Gisi|Uptake, Translocation and Degradation of [14C]Cymoxanil in Tomato Plants|Crop Prot.12(4): 284-292|1993|10.1016/0261-2194(93)90048-N
151064|T||Escande,A.R., and E. Echandi|Wound-Healing and the Effect of Soil Temperature, Cultivars and Protective Chemicals on Wound-Healed Potato Seed Pieces Inoculated with Seed Piece Decay Fungi and Bacteria|Am. Potato J.65(12): 741-752|1988|10.1007/BF02853504
151065|T||Floyd,C.N.|Control and Effect of Leaf Scab (Elsinoe batatas) in Sweet Potato|Trop. Agric.65(1): 6-8|1988|
151066|T||Jakhar,S.S., L.S. Suhag, and J.C. Duhan|Studies on the Effect of Stalk Blight on Seed Yield of Onion Crop and Its Control by Chemicals|Crop Res. (Hisar)8(2): 380-383|1994|
151067|T||Mandal,P., T.K. Misra, I.D. Singh, and C.R. Nayak|Chemical Phytotoxicity and Use of Ethrel as Ripening Agent on Productivity and Quality of Tomato (Lycopersicon esculentum)|Indian J. Agric. Sci.78(7): 581-583|2008|
151068|T||Nolte,P., G.A. Secor, and N.C. Gudmestad|Wound Healing, Decay and Chemical Treatment of Cut Potato Tuber Tissue|Am. Potato J.64(1): 1-9|1987|10.1007/BF02853223
151069|T||Rahemi,M., and Z. Pakkish|Gibberellic Acid and Benzyladenine Reduce Hull-Splitting and Aflatoxin Levels in Pistachio Kernels|J. Hortic. Sci. Biotechnol.80(2): 229-232|2005|10.1080/14620316.2005.11511922
151070|T||Riethmuller-Haage,I., L. Bastiaans, C. Kempenaar, V. Smutny, and M.J. Kropff|Are Pre-Spraying Growing Conditions a Major Determinant of Herbicide Efficacy?|Weed Res. (Multiple Languages)47(5): 415-424|2007|10.1111/j.1365-3180.2007.00584.x
151071|T||Sawant,I.S., S.D. Sawant, and K.A. Nanaya|Biological Control of Phytophthora Root-Rot of Coorg Mandarin (Citrus reticulata) by Trichoderma Species Grown on Coffee Waste|Indian J. Agric. Sci.65(11): 842-846|1995|
151072|T||Sharma,K.D., and R.P. Kaushal|Fungicidal Control of Floury Leaf-Spot of French Bean (Phaseolus vulgaris) Caused by Mycovellosiella phaseoli|Indian J. Agric. Sci.64(12): 894-895|1994|
151073|T||Shukla,B.N., P.K. Bhargava, M. Gupta, and R.P. Patel|Epidemiology and Management of Soybean Rust (Phakopsora pachyrhyrhizi)|Indian J. Agric. Sci.75(3): 150-153|2005|
151074|T||Shyam,K.R., and S.K. Gupta|Fungicidal Control of Buckeye Fruit-Rot (Phytophthora nicotianae var. parasitica) and Alternaria Leaf-Spots (Alternaria alternata, A. alternata f. sp lycopersici) of Tomato (Lycopersicon esculentum)|Indian J. Agric. Sci.66(5): 309-312|1996|
151076|T||Singh,D.|Chemical Control of White Rot (Sclerotinia sclerotiorum) of Pea (Pisum sativum)|Indian J. Agric. Sci.61(12): 952-953|1991|
151077|T||Singh,R.A., R.K. De, and R.G. Chaudhary|Influence of Spray Time of Mancozeb on Pea Rust Caused by Uromyces Viciae-fabae|Indian J. Agric. Sci.74(9): 502-504|2004|
151079|T||Sugar,D., K.A. Powers, and S.R. Basile|Mancozeb and Kaolin Applications can Reduce Russet of 'Comice' Pear|HortTechnology15(2): 272-275|2005|10.21273/HORTTECH.15.2.0272
151080|T||Trehan,S.P., K.K. Sharma, and J.S. Grewal|Effect of Soil and Foliar Application of Micronutrients and Fungicides on Late Blight (Phytophthora infestans) and Tuber Yield of Potato (Solanum tuberosum)|Indian J. Agric. Sci.65(11): 836-841|1995|
151081|T||Trimurty,V.S., R.K. Mishra, and R.K. Yadav|Fungicidal Control of Alternaria Blight of Wheat|Adv. Plant Sci.6(1): 166-168|1993|
151082|T||Wicks,T., R.W. Emmett, P.A. Magarey, and G.C. Fletcher|Control of Grapevine Powdery Mildew in Southern Australia: I. Evaluation of Protectant Spray Programmes|Agric. Rec.11(16): 12-15|1985|
151083|T||Wilson,C.R., L.M. Ransom, and B.M. Pemberton|The Relative Importance of Seed-Borne Inoculum to Common Scab Disease of Potato and the Efficacy of Seed Tuber and Soil Treatments for Disease Control|J. Phytopathol. (Berl.)147(1): 13-18|1999|
151084|T||Vanyushin,B.F., B.Y. Shorning, A.V. Seredina, and N.I. Aleksandrushkina|The Effects of Phytohormones and 5-Azacytidine on Apoptosis in Etiolated Wheat Seedlings|Russ. J. Plant Physiol.49(4): 501-506|2002|10.1023/A:1016312009518
151085|T||Noronha,C., G.M. Duke, J.M. Chinn, and M.S. Goettel|Differential Susceptibility to Insecticides by Leptinotarsa decemlineata [Coleoptera:  Chrysomelidae] Populations from Western Canada|Phytoprotection (Multiple Languages)82(3): 113-121|2001|10.7202/706221ar
151086|T||Oloumi-Sadeghi,H., C.G. Helm, and M. Kogan|Bean Leaf Beetle Control on Soybeans in Illinois, 1990|Insectic. Acaric. Tests16:224-225|1991|10.1093/iat/16.1.224a
151087|T||Sanabria,L.G.|Growth Regulation of Hibiscus rosa-sinensis L. Cultivars with Uniconazole, Dikegulac-Sodium, and Benzyladenine Plus Gibberellins A4 + 7|M.S.Thesis, Mississippi State University, Starkville, MS:83 p.|1991|
151088|T||Speese III,J., and B.A. Nault|Foliar Sprays to Control European Corn Borer in Spring and Fall Peppers, 1997|Arthropod Manag. Tests23:119-120|1998|10.1093/amt/23.1.119
151089|T||Arauz,L.F.|Studies on the Epidemiology and Control of Botryosphaeria obtusa on Apples|Ph.D.Thesis, N.C.State Univ., NC:75 p.|1990|
151090|T||Solunke,B.R., and S.V. Deshpande|Studies on Use of Plant Products for the Control of Lemon Butterfly Larvae|J. Maharashtra Agric. Univ.16(2): 302-303|1991|
151091|T||Riggs,D.I.M., M.P. Hoffmann, and L.C. Thetford|Treatment Thresholds for European Corn Borer (Lepidoptera:  Pyralidae) Infestations in Early-Season Fresh Market Sweet Corn|J. Entomol. Sci.33(4): 393-399|1998|10.18474/0749-8004-33.4.393
151092|A||Stokes,D.M., J.S. Turner, and K. Markus|The Effects of the Dipyridyl Diquat on the Metabolism of Chlorella vulgaris II. Effects of Diquat in the Light on Chlorophyll Bleaching and Plastid Structure|Aust. J. Biol. Sci.23:265-274|1970|10.1071/BI9700265
151093|AT||Pap,L., M. Kelemen, A. Toth, I. Szekely, and B. Bertok|The Synthetic Pyrethroid Isomers II. Biological Activity|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes31(3): 527-543|1996|
151094|T||Ostlie,K.R., J. Luedeman, A.M. Journey, and J.L. Weiszel|Granular and Liquid Insecticide Performance Against Black Cutworm, 1992|Insectic. Acaric. Tests18:209-210|1993|10.1093/iat/18.1.209
151095|T||Osmelak,J.A.|Comparison of Carbaryl, Maldison and Permethrin Wettable Powders as Insecticidal Dusts to Protect Potato Tubers for Export Against Potato Moth Phthorimaea operculella (Zeller)|Plant Prot. Q.4(2): 84-85|1989|
151096|T||Villamar,W.A.|Bud Dormancy in Developing Tubers of Yellow Nutsedge Altered by Benzyladenine, Gibberellic Acid, and Abscisic Acid Applications|Ph.D. Thesis, The Ohio State University, Columbus, OH:129 p.|1980|
151097|T||Wedberg,J., and B. Jensen|Use of Labeled and Unlabeled Insecticides for Control of European Corn Borer and Corn Earworm on Sweet Corn in Wisconsin, 1990|Insectic. Acaric. Tests16:80-81|1991|10.1093/iat/16.1.80
151098|T||Sarath,G.|Aspects of Nodule Function and Plant Development in Phaseolus vulgaris L.|Ph.D. Thesis, University of California, Davis:98 p.|1984|
151099|T||Witkowski,J., and J. Echtenkamp|Control of European Corn Borer in Whorl-Stage Corn, 1997|Arthropod Manag. Tests23:211-212|1998|10.1093/amt/23.1.211a
151100|T||Wismer,P.T.|Benzyladenine as a Fruit Thinning Agent for Apples: Applications and Effects on Cell Division and Cell Size|M.S. Thesis,University of Guelph (Canada):146 p.|1994|
151101|T||Asaro,C., C.W. Berisford, M.J. Dalusky, J.L. McLaughlin, and D. Czokajlo|Preliminary Tests of an Attracticide Formulation for Control of the Nantucket Pine Tip Moth (Lepidoptera:  Tortricidae)|J. Entomol. Sci.40(2): 240-245|2005|10.18474/0749-8004-40.2.240
151102|T||Fourcade,M.|The Cytological Effects of Aminopyrine, Benzimidazole and N6-Benzyladenine|Ph.D. Thesis, Fordham University:75 p.|1964|
151103|T||Clark,T.L., J.E. Foster, S.T. Kamble, and E.A. Heinrichs|Comparison of Bt (Bacillus thuringiensis Berliner) Maize and Conventional Measures for Control of the European Corn Borer (Lepidoptera:  Crambidae)|J. Entomol. Sci.35(2): 118-128|2000|10.18474/0749-8004-35.2.118
151104|T||Travis,J.W.|Factors Affecting Pesticide Distribution in Apple Trees|Ph.D.Thesis, North Carolina State University, Raleigh, NC:76 p.|1981|
151105|T||Doss,M., and R. Berberet|Evaluation of Insecticides for Control of Alfalfa Weevil Larvae, 1990|Insectic. Acaric. Tests16:127-|1991|10.1093/iat/16.1.127
151106|T||Balamuralikrishnan,M., and R. Jeyarajan|Effects of Fenarimol Sprays on Powdery Mildew Incidence in Grapevine|J. Mycol. Plant Pathol.28(2): 181-188|1998|
151107|T||Blaszkowski,J.|Biotic Effects of Mycoflora of Leaves, Glumes and Seeds on Septoria nodorum Following Triticum aestivum Treatment with Fungicides|Acta Myol.30(2): 223-232|1995|10.5586/am.1995.020
151108|T||Bolland,L., J.W. Tierney, and B.J. Tierney|Studies on Leaf Spot and Shoot Blight of Eucalyptus Caused by Cylindrocladium quinqueseptatum|Eur. J. For. Pathol.15(7): 385-397|1985|10.1111/j.1439-0329.1985.tb00894.x
151109|T||Conner,R.L., and A.D. Kuzyk|Effectiveness of Fungicides in Controlling Stripe Rust, Leaf Rust, and Black Point in Soft White Spring Wheat|Can. J. Plant Pathol.10(4): 321-326|1988|10.1080/07060668809501706
151110|T||Eidmann,H.H., and F. Von Sydow|Stockings for Protection of Containerized Conifer Seedlings Against Pine Weevil (Hylobius abietis L.) Damage|Scand. J. For. Res.4(4): 537-547|1989|10.1080/02827588909382586
151111|T||Pawar,V.M., G.D. Jadhav, and S.P. Shirshikar|Bioefficacy and Residues of Permethrin in Controlling Bollworms in NHH-1 Cotton|J. Maharashtra Agric. Univ.12(3): 334-337|1987|
151112|T||Duda,B., and Z.H. Sierota|Survival of Scots Pine Seedlings After Biological and Chemical Control of Damping-Off in Plastic Greenhouses|Eur. J. For. Pathol.17(2): 110-117|1987|10.1111/j.1439-0329.1987.tb00735.x
151113|T||Riley,D.G.|Control of Lepidopterous Larvae on Cabbage, 1995|Arthropod Manag. Tests23:81-82|1998|10.1093/amt/23.1.81
151114|T||Naqvi,S.N.H., and F. Parveen|Toxicity and Residual Effect of Nerium indicum Crude Extract as Compared with Coopex Against Adults of Tribolium castaneum (Coleoptera:  Tenebrionidae)|Pak. J. Entomol. Karachi6(1/2): 35-44|1991|
151115|T||Gilbert,J., and A. Tekauz|Effects of Fusarium Head Blight and Seed Treatment on Germination, Emergence, and Seedling Vigour of Spring Wheat|Can. J. Plant Pathol.17(3): 252-259|1995|10.1080/07060669509500687
151116|T||Kang,H.G., S.H. Jeong, M.R. Cho, J.H. Cho, and K. Bischoff|Time-Dependent Changes in Lead and delta-Aminolevulinic Acid After Subchronic Lead Exposure in Rats|Hum. Exp. Toxicol.28(10): 647-654|2009|10.1177/0960327109107046
151117|T||Karabulut,O.A., U. Arslan, K. Ilhan, and K. Yagdi|The Effect of Sodium Bicarbonate Alone or in Combination with a Reduced Rate of Mancozeb on the Control of Leaf Rust (Puccinia triticina) in Wheat|Can. J. Plant Pathol.28(3): 484-488|2006|10.1080/07060660609507323
151118|T||Khan,A., M. Ullah, and M.Z. Khan|Pathological Effects of Sodium Hypochlorite Administration Through Drinking Water in Male Japanese Quails (Coturnix japonica)|Hum. Exp. Toxicol.27(10): 773-780|2008|10.1177/0960327108097435
151119|T||Karna,R., V.T. Sapra, R.P. Pacumbaba, B.M. Cunfer, and J.W. Johnson|Effect of Mancozeb on Incidence of Septoria nodorum Blotch of Wheat at Three Locations in the Southeastern United States|Cereal Res. Commun.14(1): 91-98|1986|
151120|T||Liu,Q., H. Duan, Y. Dai, Y. Niu, H. Chen, P. Bin, and Y. Zheng|The Effect of 2,5-Hexanedione on Permeability of Blood-Nerve Barrier in Rats|Hum. Exp. Toxicol.29(6): 497-506|2010|10.1177/0960327109357213
151121|T||Penrose,L.J., and K.A. Dodds|Incidence of Venturia inaequalis on Apple Fruit During the Second Half of the Season Under Different Fungicide and Weather Regimes|N. Z. J. Crop Hortic. Sci.22(3): 251-261|1994|10.1080/01140671.1994.9513834
151123|T||Rane,K.K., and R.L. Wick|Occurrence of Alternaria gomphrenae in North America|Can. J. Plant Pathol.12(4): 442-444|1990|10.1080/07060669009500989
151124|T||Ojeswi,B.K., M. Khoobchandani, D.K. Hazra, and M.M. Srivastava|Protective Effect of Thuja occidentalis Against DMBA-Induced Breast Cancer with Reference to Oxidative Stress|Hum. Exp. Toxicol.29(5): 369-375|2010|10.1177/0960327110364150
151125|T||Radosavljevic,T., D. Mladenovic, V. Jakovljevic, D. Vucevic, A. Rasic-Markovic, D. Hrncic, D. Djuric, and O. Stanojlovi|Oxidative Stress in Liver and Red Blood Cells in Acute Lindane Toxicity in Rats|Hum. Exp. Toxicol.28(12): 747-757|2009|10.1177/0960327109353055
151126|T||Ripley,B.D., R. Frank, W.R. Jarvis, and J.C. Fisher|Residues of Ethylenebisdithiocarbamates (EBDC) and Dinocap in Greenhouse Cucumber Fruits|Can. J. Plant Sci.65(1): 229-232|1985|10.4141/cjps85-033
151127|T||Sushma,N., and T. Devasena|Aqueous Extract of Trigonella foenum graecum (Fenugreek) Prevents Cypermethrin-Induced Hepatotoxicity and Nephrotoxicity|Hum. Exp. Toxicol.29(4): 311-319|2010|10.1177/0960327110361502
151128|T||Sumner,D.R., and S.C. Phatak|Control of Foliar Diseases of Cucumber with Resistant Cultivars and Fungicides|Appl. Agric. Res.2(5): 324-329|1987|
151129|T||Turk,J.R.|Chronic Parenteral Selenium Administration in a Dog|Vet. Pathol.17(4): 493-496|1980|10.1177/030098588001700411
151130|T||Viswanadh,E.K., B.N. Rao, and B.S.S. Rao|Antigenotoxic Effect of Mangiferin and Changes in Antioxidant Enzyme Levels of Swiss Albino Mice Treated with Cadmium Chloride|Hum. Exp. Toxicol.29(5): 409-418|2010|10.1177/0960327110361752
151131|T||Yu,F.S., C.C. Wu, C.T. Chen, S.P. Huang, J.S. Yang, Y.M. Hsu, P.P. Wu, S.W. Ip, J.P. Lin, J.G. Lin, and J.G. Chung|Diallyl Sulfide Inhibits Murine WEHI-3 Leukemia Cells in BALB/c Mice In Vitro and In Vivo|Hum. Exp. Toxicol.28(12): 785-790|2009|10.1177/0960327109350670
151132|T||Amritphale,D., A. Gutch, and A.I. Hsiao|Acidification, Growth Promoter and Red Light Effects on Germination of Skotodormant Seeds of Hygrophila auriculata|Environ. Exp. Bot.33(4): 471-477|1993|10.1016/0098-8472(93)90020-G
151133|T||Wicks,T.J., B. Hall, and P. Pezzaniti|Fungicidal Control of Downy Mildew (Bremia lactucae) on Lettuce|Aust. J. Exp. Agric.33(3): 381-384|1993|10.1071/EA9930381
151134|T||Ramsey,M.D., L.L. Vawdrey, and J. Hardy|Scab (Sphaceloma batatas) a New Disease of Sweet Potatoes in Australia: Fungicide and Cultivar Evaluation|Aust. J. Exp. Agric.28(1): 137-141|1988|10.1071/EA9880137
151135|T||Marcellos,H., K.J. Moore, and A. Nikandrow|Influence of Foliar-Applied Fungicides on Seed Yield of Faba Bean (Vicia faba L.) In Northern New South Wales|Aust. J. Exp. Agric.35(1): 97-102|1995|10.1071/EA9950097
151137|A||Mataqueiro,M.I., L.S.O. Nakaghi, J.P. De Souza, C. Da Cruz, G.H. De Oliveira, and E.C. Urbinati|Histopathological Changes in the Gill, Liver and Kidney of Pacu (Piaractus mesopotamicus, Holmberg, 1887) Exposed to Various Concentrations of Trichlorfon|J. Appl. Ichthyol.25(1): 124-127|2009|10.1111/j.1439-0426.2008.01160.x
151139|AT||Ezzouhri,L., E. Castro, M. Moya, F. Espinola, and K. Lairini|Heavy Metal Tolerance of Filamentous Fungi Isolated from Polluted Sites in Tangier, Morocco|Afr. J. Microbiol. Res.3(2): 35-48|2009|
151140|A||Ke,L.X., Y.L. Xi, C. Zha, and Z.X. Chu|Effects of Methamidophos and Acephate on Experimental Population Dynamics of Rotifer Brachionus calyciflorus|Shuisheng Shengwu Xuebao (Multiple Languages)33(2): 189-194|2009|
151142|A||Meyer,J.N., C.A. Lord, X.Y. Yang, E.A. Turner, A.R. Badireddy, S.M. Marinakos, A. Chilkoti, M.R. Wiesner, and M. Auffan|Intracellular Uptake and Associated Toxicity of Silver Nanoparticles in Caenorhabditis elegans|Aquat. Toxicol.100:140-150|2010|10.1016/j.aquatox.2010.07.016
151143|T||Becker,S.A., and W.C. Bailey|Alfalfa Weevil Control, Missouri, 1990|Insectic. Acaric. Tests16:125-|1991|10.1093/iat/16.1.125
151144|T||Levine,E., and H. Oloumi-Sadeghi|Field Evaluation of Steinernema carpocapsae (Rhabditida:  Steinernematidae) Against Black Cutworm (Lepidoptera:  Noctuidae) Larvae in Field Corn|J. Entomol. Sci.27(4): 427-435|1992|10.18474/0749-8004-27.4.427
151145|A||Petit,A.N., P. Eullaffroy, T. Debenest, and F. Gagne|Toxicity of PAMAM Dendrimers to Chlamydomonas reinhardtii|Aquat. Toxicol.100:187-193|2010|10.1016/j.aquatox.2010.01.019
151146|T||Karner,M., L.D. Smith, and J. Goodson|Alfalfa Weevil Control, 1990|Insectic. Acaric. Tests16:132-|1991|10.1093/iat/16.1.132
151147|T||De Groot,P., B.V. Helson, B.F. Zylstra, J.W. McFarlane, and D.R. Comba|Control of White Pine Weevil in Young Jack Pine Plantations with Permethrin and Methoxychlor|North. J. Appl. For.12(1): 19-22|1995|10.1093/njaf/12.1.19
151148|A||Tedesco,S., H. Doyle, J. Blasco, G. Redmond, and D. Sheehan|Oxidative Stress and Toxicity of Gold Nanoparticles in Mytilus edulis|Aquat. Toxicol.100:178-186|2010|10.1016/j.aquatox.2010.03.001
151149|A||Wei,L., M. Thakkar, Y. Chen, S.A. Ntim, S. Mitra, and X. Zhang|Cytotoxicity Effects of Water Dispersible Oxidized Multiwalled Carbon Nanotubes on Marine Alga, Dunaliella tertiolecta|Aquat. Toxicol.100:194-201|2010|10.1016/j.aquatox.2010.07.001
151150|A||Wu,Y., Q. Zhou, H. Li, W. Liu, T. Wang, and G.Z. Jiang|Effects of Silver Nanoparticles on the Development and Histopathology Biomarkers of Japanese Medaka (Oryzias latipes) Using the Partial-Life Test|Aquat. Toxicol.100:160-167|2010|10.1016/j.aquatox.2009.11.014
151151|A||Yang,X.Y., R.E. Edelmann, and J.T. Oris|Suspended C60 Nanoparticles Protect Against Short-Term UV and Fluoranthene Photo-Induced Toxicity, but Cause Long-Term Cellular Damage in Daphnia magna|Aquat. Toxicol.100:202-210|2010|10.1016/j.aquatox.2009.08.011
151152|T||Hodges,R.J., and J. Meik|Infestation of Maize Cobs by Prostephanus truncatus (Horn) (Coleoptera:  Bostrichidae) - Aspects of Biology and Control|J. Stored Prod. Res.20(4): 205-213|1984|10.1016/0022-474X(84)90005-5
151154|T||Kolosnjaj-Tabi,J., K.B. Hartman, S. Boudjemaa, J.S. Ananta, G. Morgant, H. Szwarc, L.J. Wilson, and F. Moussa|In Vivo Behavior of Large Doses of Ultrashort and Full-Length Single-Walled Carbon Nanotubes After Oral and Intraperitoneal Administration to Swiss Mice|ACS Nano4(3): 1481-1492|2010|10.1021/nn901573w
151155|T||Higgins,R.A.|First Generation European Corn Borer Control, 1990|Insectic. Acaric. Tests16:153-|1991|10.1093/iat/16.1.153
151156|T||Bhardwaj,C.L., and D.R. Thakur|Fungicidal Management of Angular Leaf Spot of French Bean|Indian J. Mycol. Plant Pathol.22(3): 232-235|1992|
151157|T||Giga,D.P., and J. Canhao|Relative Toxicity and Persistence of Pyrethroid Deposits on Different Surfaces for the Control of Prostephanus truncatus (Horn) and Sitophilus zeamais (Motsch.)|J. Stored Prod. Res.27(3): 153-160|1991|10.1016/0022-474X(91)90039-F
151158|T||Callens,D., R. Sarrazyn, and W. Evens|Signum, a New Fungicide for Control of Leaf Diseases in Outdoor Vegetables|Commun. Agric. Appl. Biol. Sci.70(3): 199-207|2005|
151159|T||Castillo-Pando,M.S., N.G. Nair, R.W. Emmett, and T.J. Wicks|Inhibition in Pycnidial Viability of Phomopsis viticola on Canes In Situ as an Aid to Reducing Inoculum Potential of Cane and Leaf Blight Disease of Grapevines|Australas. Plant Pathol.26(1): 21-25|1997|10.1071/AP97003
151160|T||Follett,P.A.|Effects of Variable Doses of Permethrin on Heliothis zea (Lepidoptera:  Noctuidae) Growth and Development|J. Entomol. Sci.25(3): 357-365|1990|10.18474/0749-8004-25.3.357
151161|T||De,B.K., and P.C. Sengupta|Evaluation of Fungicides Against Late Blight Disease of Potato in Plains of West Bengal|J. Indian Potato Assoc.18(3/4): 176-177|1991|
151162|T||Dharam,V., S.B. Mathur, and P. Neergaard|Control of Seed-Borne Infection of Drechslera spp. on Barley, Rice, and Oats with Dithane M-45|Indian Phytopathol.23:570-572|1970|
151163|T||Geetha,D., and K. Sivaprakasam|Treating Rice Seeds with Fungicides and Antagonists to Control Seedborne Diseases|Int. Rice Res. Notes18(3): 30-31|1993|
151164|T||Kumar,K., and J. Singh|Fungi Associated with Winged Bean Seeds, Their Nature, Effect and Chemical Control|Indian J. Mycol. Plant Pathol.26(1): 19-22|1996|
151165|T||Maheshwari,S.K., P.C. Gupta, and S.K. Gandhi|Evaluation of Different Fungitoxicants Against Early Blight of Tomato (Lycopersicon esculentum Mill)|Agric. Sci. Dig.11(4): 201-202|1991|
151167|T||Rajani,V.V., P.P. Rawal, and R.R. Khandar|Fungicidal Evaluation of Some Chemicals Against Stemphylium lycopersici (Enjoji) - Yamamoto - Causing Leaf Spot of Tomato|Agric. Sci. Dig.12(1): 47-49|1992|
151168|T||Rajpurohit,T.S., and R.D. Singh|Chemical Control of Cercospora Leaf Spot of Sugarbeet|Indian J. Mycol. Plant Pathol.23(1): 42-45|1993|
151169|T||Rodriguez,R., and P.L. Melendez|Effect of Fungicide on Disease Incidence and Yield of Bean (Phaseolus vulgaris L.) Infected with Isariopsis griseola Sacc. and Ascochyta phaseolorum Sacc.|J. Agric. Univ. P. R.70(2): 127-134|1986|10.46429/jaupr.v70i2.7084
151170|T||Singh,M., and T.N. Shukla|Chemical Control of Alternaria Leaf Spot and Fruit Rot of Brinjal Caused by Alternaria alternata|Indian J. Mycol. Plant Pathol.14(1): 81-83|1984|
151171|T||Singh,R., N.N. Tripathi, and C.D. Kaushik|Management of Sclerotinia-Rot of Indian Mustard (Brassica juncea (L.) Czern and Coss.) by Fungicides|Crop Res. (Hisar)7(2): 276-281|1994|
151172|T||Singh,D.|Fungicidal Spray Schedule for Economical Management of Potato Late Blight in North-Western Hills of India|Indian J. Mycol. Plant Pathol.26(3): 252-255|1996|
151173|T||Sitarama Raju,K., and G.S. Rao|Effect of Combined Application of Dithane M-45 with Different Insecticides to Control Fruit Rot and Pest Complex on Chilli|Indian J. Mycol. Plant Pathol.15:239-246|1985|
151174|T||Willingham,S.L., K.G. Pegg, P.W.B. Langdon, A.W. Cooke, D. Peasley, and R. McLennan|Combinations of Strobilurin Fungicides and Acibenzolar (Bion) to Reduce Scab on Passionfruit Caused by Cladosporium oxysporum|Australas. Plant Pathol.31(4): 333-336|2002|10.1071/AP02036
151176|T||National Toxicology Program (NTP)|Bioassay of Calcium Cyanamide for Possible Carcinogenicity|Natl. Toxicol. Program Tech. Rep. Ser.163:126 p.|1979|
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151178|T||Hayashi,K., A. Nakae, Y. Fukushima, K. Sakamoto, T. Furuichi, K. Kitahara, Y. Miyazaki, C. Ikenoue, S. Matumoto, and T.|Contamination of Rice by Etofenprox, Diethylphthalate and Alkylphenols: Effects on First Delivery and Sperm Count in Mice|J. Toxicol. Sci.35(1): 49-55|2010|10.2131/jts.35.49
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151180|T||Bains,S.S., and C. Mohan|Location and Comparative Behaviour of Helminthosporium maydis Isolates, Sensitive and Tolerant to Dithane M-45|Indian Phytopathol.35(4): 585-589|1982|
151181|T||Edelson,J.V., J.J. Magaro, and F.W.,Jr. Plapp|Mortality of Diamondback Moth, Plutella xylostella (L.), Larvae Treated with Insecticides as a Function of Temperature|J. Agric. Entomol.14(4): 435-440|1997|
151182|T||Cloud,J.A., and C.H. Collison|Laboratory Evaluation of Insecticides for Control of Adult and Larval Hide Beetles, Dermestes maculatus Degeer, from Poultry Houses|J. Agric. Entomol.2(3): 297-308|1985|
151183|T||Chadwick,P.R., I.J. Cousins, and B. Dealey|Observations on the Activity of Permethrin Dust|Int. Pest Control29(1): 14-16|1987|
151184|T||Cameron,P.J., A.M. Shelton, G.P. Walker, and J.D. Tang|Comparative Insecticide Resistance of New Zealand and North American Populations of Diamondback Moth, Plutella xylostella (Lepidoptera : Plutellidae)|N. Z. J. Crop Hortic. Sci.25(2): 117-122|1997|10.1080/01140671.1997.9513997
151185|T||Agrawal,S.C.|Fungicidal Control of Stem Blight of Pigeonpea Caused by Phytophthora drechsleri Tucker f.sp. Cajani|Indian J. Plant Prot.15(1): 35-37|1987|
151186|T||Begum,H., R.B. Raj, and E. Satyanarayana|Field Evaluation of Five Fungicides to Control Turcicum Leaf Blight in Maize|Indian J. Plant Prot.21(1): 110-111|1993|
151187|T||Dillard,H.R., and R.C. Seem|Use of an Action Threshold for Common Maize Rust to Reduce Crop Loss in Sweet Corn|Phytopathology80(9): 846-849|1990|10.1094/Phyto-80-846
151188|T||Maheshwari,S.K., and P.C. Gupta|Chemical Control of Anthracnose of Bottle Gourd|Agric. Sci. Dig.12(3): 163-164|1992|
151189|T||Mahrishi,R.P.|Fungicidal Control of Cercospora Leaf Spot of Sugarbeet|Indian J. Plant Prot.16(1): 57-58|1988|
151190|T||Mani,M., and A. Krishnamoorthy|Life Cycle, Host Stage Suitability and Pesticide Susceptibility of the Grape Mealybug Parasitoid, Allotropa japonica sp. n.|J. Biol. Control3(1): 7-9|1989|
151191|T||Munshi,N.A., T.N. Tanki, M.A. Zargar, and B.C. Das|Field Evaluation of Fungicides Against Leaf Spot Disease of Mulberry in Kashmir|Indian J. Seric.26(2): 86-89|1987|
151192|T||Reddy,K.S., K.C. Rao, and M.S. Reddy|Evaluation of Some New Fungicides Against Rhizoctonia solani Kuhn. The Incitant of Damping-Off of Mungbean|Indian J. Plant Prot.20(1): 37-42|1992|
151193|T||Samoucha,Y., and Y. Cohen|Synergy Between Metalaxyl and Mancozeb in Controlling Downy Mildew in Cucumbers|Phytopathology74:1434-1437|1984|10.1094/Phyto-74-1434
151194|T||Sharma,J.P., and B. Mishra|Effect of Spray Schedule of Mancozeb (Dithane M-45) on Turcicum Leaf Blight and Impact on Grain Yield in Maize|Indian J. Plant Prot.16(2): 189-193|1988|
151195|T||Sharma,K.K.|Control of Potato Late Blight with Systemic and Contact Fungicidal Mixtures in North West Indian Plains|J. Indian Potato Assoc.19(1/2): 75-76|1992|
151196|T||Sharma,K.K.|Fungicidal Spray Schedule and Its Economics for Potato Late Blight Management in North Western Plains|In: G.S.Shekhawat, et al.(Eds.), Potato: Present & Future, Natl.Symp., Mar.1-3, 1993, Modipuram, India, Indian Potato Assoc., Shimla, India:197-199|1994|
151197|T||Sharma,J.N., and V.K. Gupta|Reduction in Fungicide Usage by Monitored Control of Apple Scab (Venturia inaequalis (Cke.) Wint.)|Int. J. Trop. Plant Dis.13(2): 167-175|1995|
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151199|T||Singh,S.N., and S.C. Agarwal|Chemical Control of Myrothecium Leaf Spot and Pod Blight of Soybean|Indian J. Plant Prot.15(1): 31-33|1987|
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151256|T||Whitney,N.G.|Fungicide Evaluations for Stripe Rust of Wheat|Tex. Agric. Exp. Stn. Prog. Rep.4555:1-4|1988|
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151261|T||Sivapalan,A.|Fungi Associated with Broccoli Seed and Evaluation of Fungal Antagonists and Fungicides for the Control of Seed-Borne Alternaria brassicicola|Seed Sci. Technol.21(1): 237-245|1993|
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151284|T||Kumar,K., and P. Patnaik|Seed-Borne Nature of Alternaria alternata in Pigeonpea, Its Detection and Control|Indian J. Plant Pathol.3(1): 69-73|1985|
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151299|T||Khaimov,A., and Y. Mizrahi|Effects of Day-Length, Radiation, Flower Thinning and Growth Regulators on Flowering of the Vine Cacti Hylocereus undatus and Selenicereus megalanthus|J. Hortic. Sci. Biotechnol.81(3): 465-470|2006|10.1080/14620316.2006.11512089
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151622|T||Krokene,P., N.E. Nagy, and H. Solheim|Methyl Jasmonate and Oxalic Acid Treatment of Norway Spruce:  Anatomically Based Defense Responses and Increased Resistance Against Fungal Infection|Tree Physiol.28(1): 29-35|2008|10.1093/treephys/28.1.29
151624|T||Belcher,J.L.|Acrolein (2-Propenal):  A Potential Alternative to Methyl Bromide|Ph.D.Thesis, Auburn University, Auburn, AL:74 p.|2008|
151625|T||Simmons,L.J.|Developing Alternatives to Methyl Bromide:  A Focus on Acrolein (2-Propenal)|Ph.D.Thesis, Auburn University, Auburn, AL:259 p.|2008|
151627|T||Union Carbide Corp.|Attachments: Letter from Usepa to Union Carbide Corporation, Listing of Items in Attachment III, Part I - Brc Studies & Part II External Toxicology Reports with Cover Letter 071489|EPA/OTS Doc. #86-890001037:127 p.|1989|
151628|T||Rohm and Haas Co.|Arcylic Acid and Ethyl Acrylate: Range-Finding IV Kinetic Study in Male Mice (Final Report) with Attachments and Cover Letter Date 071789 (Sanitized)|EPA/OTS Doc. #86-890001355S:52 p.|2000|
151629|T||Rohm and Haas Co.|Situation & Results of Recent Investigations into the Toxicity of Acrylic Acid & Its Esters & a NTP Technical Report on the Carcinogenesis Bioassay of Ethyl Acrylate W-Attachments|EPA/OTS Doc. #86-890001294:299 p.|2000|
151631|T||Hoechst Celanese Corp.|Letter from Hoechst Celanese Corp to US EPA Containing Preliminary Information on a Chronic Skin-Painting Study with Acrylic Acid (Sanitized)|EPA/OTS Doc. #89-910000138:4 p.|1991|
151632|T||Indus Acrylate Testing Group|Acrylate Toxicity Data with Cover Letter & EPA Acknowledgement of Receipt of Data|EPA/OTS Doc. #FYI-AX-1082-0212:22 p.|1982|
151633|T||Haskell Laboratories|The Toxicity and Potential Dangers of Methyl Methacrylate (Monomer) with Attachments and Cover Sheet Dated 061289|EPA/OTS Doc. #86-890000817:16 p.|2000|
151635|T||Hazleton Laboratories|A Four-Week Oral (Gavage) Dose-Range Finding Study in Rats with Attachments, Cover Sheets and Letter Dated 031990|EPA/OTS Doc. #89-900000167:314 p.|1990|
151636|T||Borriston Labs|Acute Oral Toxicity Study in Rats (LD50) with 2-Butenal|EPA/OTS Doc. #878221647:24 p.|1986|
151637|T||Borriston Labs|14-Day Subchronic Toxicity Study in Rats with 2-Butenal|EPA/OTS Doc. #878221649:25 p.|2003|
151638|A||Fernandes,T.A., V. Iyer, and S.K. Apte|Differential Responses of Nitrogen-Fixing Cyanobacteria to Salinity and Osmotic Stresses|Appl. Environ. Microbiol.59(3): 899-904|1993|10.1128/aem.59.3.899-904.1993
151639|A||Flippin,J.L., D. Huggett, and C.M. Foran|Changes in the Timing of Reproduction Following Chronic Exposure to Ibuprofen in Japanese Medaka, Oryzias latipes|Aquat. Toxicol.81(1): 73-78|2007|10.1016/j.aquatox.2006.11.002
151640|A||Basaran,F., H. Sen, and S. Karabulut|Effects of 2-Phenoxyethanol on Survival of Normal Juveniles and Malformed Juveniles Having Lordosis or Nonfunctional Swimbladders of European Sea Bass (Dicentrarchus labrax L., 1758)|Aquac. Res.38(9): 933-939|2007|10.1111/j.1365-2109.2007.01753.x
151642|A||De Pedro,J.B., E.T. Quinitio, and F.D. Parado-Estepa|Formalin as an Alternative to Trifluralin as Prophylaxis Against Fungal Infection in Mud Crab Scylla serrata (Forsskal) Larvae|Aquac. Res.38(14): 1554-1562|2007|10.1111/j.1365-2109.2007.01723.x
151643|T||Fife,J.H., B.R. Leonard, K.D. Torrey, and J.B. Graves|Cotton Aphid Control in the Macon Ridge Region of Louisiana, 1995|Arthropod Manag. Tests21:248-249|1996|10.1093/amt/21.1.248
151644|T||Fitzpatrick,B.J., C.G. Clemens, D.J. Boethel, and S. Micinski|Evaluation of Soybean Looper and Stink Bug Control on Soybean, 1996|Arthropod Manag. Tests22:312-313|1997|10.1093/amt/22.1.312
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151646|A||Fournier,E., C. Adam-Guillermin, M. Potin-Gautier, and F. Pannier|Selenate Bioaccumulation and Toxicity in Chlamydomonas reinhardtii: Influence of Ambient Sulphate Ion Concentration|Aquat. Toxicol.97(1): 51-57|2010|10.1016/j.aquatox.2009.12.003
151647|T||Bolon,B., T.J. Bucci, A.R. Warbritton, J.J. Chen, D.R. Mattison, and J.J. Heindel|Differential Follicle Counts as a Screen for Chemically Induced Ovarian Toxicity in Mice: Results from Continuous Breeding Bioassays|Fundam. Appl. Toxicol.39(1): 1-10|1997|10.1006/faat.1997.2338
151648|T||Domingo,J.L., M. Gomez, D.J. Sanchez, J.M. Llobet, and J. Corbella|Effect of Various Dietary Constituents on Gastrointestinal Absorption of Aluminum from Drinking Water and Diet|Res. Commun. Chem. Pathol. Pharmacol.79(3): 377-380|1993|
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151651|T||Siju,K.P., S.R. Hill, B.S. Hansson, and R. Ignell|Influence of Blood Meal on the Responsiveness of Olfactory Receptor Neurons in Antennal sensilla trichodea of the Yellow Fever Mosquito, Aedes aegypti|J. Insect Physiol.56(6): 659-665|2010|10.1016/j.jinsphys.2010.02.002
151652|T||Varga,J., L. Janovak, E. Varga, G. Eros, I. Dekany, and L. Kemeny|Acrylamide, Acrylic Acid and N-Isopropylacrylamide Hydrogels as Osmotic Tissue Expanders|Skin Pharmacol. Physiol.22(6): 305-312|2009|10.1159/000241300
151653|T||McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy|Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid|Food Chem. Toxicol.33(6): 507-513|1995|10.1016/0278-6915(95)00011-P
151655|T||Mizukami,S., R. Ichimura, S. Kemmochi, E. Taniai, K. Shimamoto, T. Ohishi, M. Takahashi, K. Mitsumori, and M. Shibutani|Induction of GST-P-Positive Proliferative Lesions Facilitating Lipid Peroxidation with Possible Involvement of Transferrin Receptor up-Regulation and Ceruloplasmin Down-Regulation from the Early Stage of Liver Tumor Pro|Arch. Toxicol.84(4): 319-331|2010|10.1007/s00204-009-0496-x
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151657|A||Eastman Kodak Co.|Letter Submitting Three Acute Aquatic Studies and One Ready Biodegradability Study as Required by the Testing Consent Order|EPA/OTS Doc. #40-9012050:392 p.|1990|
151658|A||Jpn Chem Indu Ecol-Tox Inf Ctr|Biodegradation and Bioaccumulation Data of Existing Chemicals Based on the CSCL Japan, with Cover Letter Dated 01/19/95|EPA/OTS Doc. #86950000071:82 p.|1995|
151659|T||BASF Aktiengesellschaft|Initial Submission: Report on the Study of the Toxicity of Acrylic Acid in Rats After 3-Month Administration by Gavage with Cover Letter Dated 081092|EPA/OTS Doc. #88-920009570:75 p.|1992|
151660|T||Rohm and Haas Co.|Depletion of Rat Hepatic Glutathione by Acrylic Acid, Ethyl Acrylate and 2-Hydroxyethyl Acrylate with Attachments and Cover Letter Dated 071289|EPA/OTS Doc. #86-890001322:19 p.|1989|
151661|T||Mellon Inst Of Indus Res|Initial Submission: Summary of Range-Finding Tests on Crotonaldehyde with Cover Letter Dated 09/08/92|EPA/OTS Doc. #88-920009348:12 p.|1992|
151662|T||Institut Fur Toxikologie|Results of In Vivo DNA Binding Studies on Acrylic Acid with Cover Letter Dated 031788|EPA/OTS Doc. #FYI-OTS-0388-0608:21 p.|1988|
151666|T||Krogh,P., E. Hasselager, and P. Friis|Studies on Fungal Nephrotoxicity. 2. Isolation of Two Nephrotoxic Compounds from Penicillium viridicatum Westling: Citrinin and Oxalic Acid|Acta Pathol. Microbiol. Scand. B 78(4): 401-413|1970|10.1111/j.1699-0463.1970.tb04320.x
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151668|T||Montelius,J., H. Wahlkvist, A. Boman, P. Fernstrom, L. Grabergs, and J.E. Wahlberg|Experience with the Murine Local Lymph Node Assay: Inability to Discriminate Between Allergens and Irritants|Acta Dermato-Venereol.74(1): 22-27|1994|10.2340/00015555744550
151669|T||Gregorc,A., and I. Planinc|The Control of Varroa destructor Using Oxalic Acid|Vet. J.163(3): 306-310|2002|10.1053/tvjl.2001.0675
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151672|T||Cui,S., Q.X. Zhou, S.H. Wei, W. Zhang, L. Cao, and L.P. Ren|Effects of Exogenous Chelators on Phytoavailability and Toxicity of Pb in Zinnia elegans Jacq.|J. Hazard. Mater.146(1/2): 341-346|2007|10.1016/j.jhazmat.2006.12.028
151673|T||Duncan,A.J., P. Frutos, and S.A. Young|The Effect of Rumen Adaptation to Oxalic Acid on Selection of Oxalic-Acid-Rich Plants by Goats|Br. J. Nutr.83(1): 59-65|2000|10.1017/S000711450000009X
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151675|T||Humar,M., M. Sentjurc, S.A. Amartey, and F. Pohleven|Influence of Acidification of CCB (Cu/Cr/B) Impregnated Wood on Fungal Copper Tolerance|Chemosphere58(6): 743-749|2005|10.1016/j.chemosphere.2004.09.031
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151690|T||Yoshida,M., S.E. Cowgill, and J.A. Wightman|Roles of Oxalic and Malic Acids in Chickpea Trichome Exudate in Host-Plant Resistance to Helicoverpa armigera|J. Chem. Ecol.23(4): 1195-1210|1997|10.1023/B:JOEC.0000006395.45516.e8
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151706|T||Duquene,L., H. Vandenhove, F. Tack, E. Meers, J. Baeten, and J. Wannijn|Enhanced Phytoextraction of Uranium and Selected Heavy Metals by Indian Mustard and Ryegrass Using Biodegradable Soil Amendments|Sci. Total Environ.407(5): 1496-1505|2009|10.1016/j.scitotenv.2008.10.049
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151713|T||Basu,N., A.M. Scheuhammer, K. Rouvinen-Watt, R.D. Evans, V.L. Trudeau, and L.H.M. Chan|In Vitro and Whole Animal Evidence that Methylmercury Disrupts GABAergic Systems in Discrete Brain Regions in Captive Mink|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.151(3): 379-385|2010|10.1016/j.cbpc.2010.01.001
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151717|T||Rohm and Haas Co.|Mutagenicity Evaluation of Ethylene Glycol Dimethacrlate and bis-Glycidyl Metacrylate in the Mouse Lymphoma Forward Mutation Assay (Final Reports) with Cover Letter 031286|EPA/OTS Doc. #FYI-OTS-0386-0367:105 p.|1986|
151718|T||Rohm and Haas Co.|Ethyl Acrylate & Arcylic Acid: Depletion of Non-Protein Sulfhydryl Content in the Stomach of Male Rats Following Oral Dosing W-Attachments & Cover Letter Dated 071789 (Sanitized)|EPA/OTS Doc. #86-890001357S:103 p.|1989|
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151780|T||Dow Chemical Co.|Comparative Metabolism of Acrylic Acid and Acrylamide in Rats Using Ion-Exclusion Chromatography|EPA/OTS Doc.#878210958:13 p.|1979|
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151830|T||Timmer,L.W., G.E. Brown, and S.E. Zitko|The Role of Colletotrichum spp. in Postharvest Anthracnose of Citrus and Survival of C. acutatum on Fruit|Plant Dis.82(4): 415-418|1998|10.1094/PDIS.1998.82.4.415
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151832|T||Dong,H., T.P. Delaney, D.W. Bauer, and S.V. Beer|Harpin Induces Disease Resistance in Arabidopsis Through the Systemic Acquired Resistance Pathway Mediated by Salicylic Acid and the NIM1 Gene|Plant J.20(2): 207-215|1999|10.1046/j.1365-313x.1999.00595.x
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151879|T||Kereszturi,P., N. Andrasi, A. Czudar, I. Gyulai, and G. Lakatos|Effects of Exogenous Salicyclic Acid on Growth and Catalase Enzyme in White Mustard Seedlings Under Heavy Metal and Salt Stress|Cereal Res. Commun.37(Suppl.4): 597-600|2009|
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151885|T||Anandi,S., P. Thangavel, and V. Subburam|Influence of Aluminium on the Restoration Potential of a Terrestrial Vascular Plant, Portulaca oleracea L. as a Biomonitoring Tool of Fresh Water Aquatic Environments|Environ. Monit. Assess.78(1): 19-29|2002|10.1023/A:1016160020858
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151981|T||Deen,W., A. Hamill, C. Shropshire, N. Soltani, and P.H. Sikkema|Control of Volunteer Glyphosate-Resistant Corn (Zea mays) in Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.20(1): 261-266|2006|10.1614/WT-02-128.1
151982|T||Burke,I.C., S.C. Troxler, S.D. Askew, J.W. Wilcut, and W.D. Smith|Weed Management Systems in Glyphosate-Resistant Cotton|Weed Technol.19(2): 422-429|2005|10.1614/WT-04-182R1
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151991|T||Bovey,R.W., R.E. Meyer, and S.G. Whisenant|Effect of Simulated Rainfall on Herbicide Performance in Huisache (Acacia farnesiana) and Honey Mesquite (Prosopis glandulosa)|Weed Technol.4(1): 26-30|1990|10.1017/S0890037X0002491X
151992|T||Bond,J.A., L.R. Oliver, and D.O. Stephenson IV|Response of Palmer Amaranth (Amaranthus palmeri) Accessions to Glyphosate, Fomesafen, and Pyrithiobac|Weed Technol.20(4): 885-892|2006|10.1614/WT-05-189.1
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151998|T||Blackshaw,R.E.|Control of Downy Brome (Bromus tectorum) in Conservation Fallow Systems|Weed Technol.5(3): 557-562|1991|10.1017/S0890037X00027329
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152040|A||Harris,L.E.|Nitrifying Bacterial Substrates for Hatchery Water Re-use|Special Report 40, State Publication Code W-R-S-40, 41-76, Colorado Division of Wildlife, CO:29 p.|1977|
152041|A||Hoar,W.S.|Effects of Synthetic Thyroxine and Gonadal Steroids on the Metabolism of Goldfish|Can. J. Zool.36:113-121|1958|10.1139/z58-011
152042|A||Hepher,B.|Use of Aqueous Ammonia in Fertilizing Fish Ponds|Bamidgeh11(4): 71-80|1959|
152044|A||Eddy,F.B., J.P. Lomholt, R.E. Weber, and K. Johansen|Blood Respiratory Properties of Rainbow Trout (Salmo gairdneri) Kept in Water of High CO2 Tension|J. Exp. Biol.67:37-47|1977|10.1242/jeb.67.1.37
152047|T||EPA/OTS|Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized)|EPA/OTS Doc. #89-910000139s:1460 p.|1990|
152048|T||Borriston Labs|Acute Oral Toxicity Study in Rats (LD50) with 2-Butenal (Addendum to Final Report)|EPA/OTS Doc. #878221648:11 p.|1986|
152049|T||Bushy Run Research Center|Supplemental Information: Letter Submitting an Enclosed Histopathology Study Reviewing a Previously Submitted Chronic Dermal Oncogenicity Study in Mice on Acrylic Acid|EPA/OTS Doc. #89-920000108:67 p.|1992|
152050|T||Carneigie-Mellon Institute of Research|Letter from Carnegie-Mellon Inst of Research Concerning Results of the 2-Week Preliminary Skin Dosing of Acrylic Acid & Ethyl Acrylate with Attached, Cover Sheets (Sanitized)|EPA/OTS Doc. #86-890001491S:18 p.|1989|
152051|T||Hazleton Laboratories|Letter from Ciba-Geigy Corporation to US EPA Regarding Oral Gavage Study in the Rat with 40% 2-Propenoic Acid Mixture with Attachment|EPA/OTS Doc. #88-900000038:6 p.|1990|
152052|T||Hoechst Celanese Corp.|Letter from Hoechst Celanese Corporation to USEPA Submitting Preliminary Information on a Chronic Skin-Painting Study with an Organic Acid, Arylic Acid (Sanitized)|EPA/OTS Doc. #89-900000359:6 p.|1990|
152053|T||Kodak Health Environmental Labs|Toxicity and Health Hazard Summary for 2-Butenal with Cover Letter Dated 042886|EPA/OTS Doc. #878216409:5 p.|1986|
152055|A||Kawamoto,K.Y.|The Influence of Excretory Substances of Fishes on Their Own Growth|Prog. Fish-Cult.23(2): 70-75|1961|10.1577/1548-8659(1961)23[70:TIOESO]2.0.CO;2
152057|T||Daglish,G.J., J.M. Erbacher, and M. Eelkema|Efficacy of Protectants Against Callosobruchus phaseoli (Gyll.) and C. maculatus (F.) (Coleoptera:  Bruchidae) in Mungbeans|J. Stored Prod. Res.29(4): 345-349|1993|10.1016/0022-474X(93)90050-E
152058|T||Couto,W., C. Sanzonowics, and G.G. Leite|Effect of Excess Water in an Oxisol on Ammonium, Nitrate, Iron and Manganese Availability and Nutrient Uptake of Two Tropical Forage Species|Plant Soil73:159-166|1983|10.1007/BF02197712
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152061|T||Das,N.M., S. Mathai, and S.P. Christudas|Control of the Insect Pests Affecting Cowpea Vigna sinensis|Agric. Res. J. Kerala15(1): 69-72|1977|
152062|T||Pujade-Renaud,V., A. Clement, C. Perrot-Rechenmann, J.C. Prevot, H. Chrestin, J.L. Jacob, and J. Guern|Ethylene-Induced Increase in Glutamine Synthetase Activity and mRNA Levels in Hevea brasiliensis Latex Cells|Plant Physiol.105:127-132|1994|10.1104/pp.105.1.127
152063|T||Chen,Q.G., and A.B. Bleecker|Analysis of Ethylene Signal-Transduction Kinetics Associated with Seedling-Growth Response and Chitinase Induction in Wild-Type and Mutant Arabidopsis|Plant Physiol.108:597-607|1995|10.1104/pp.108.2.597
152064|T||Serek,M., and M.S. Reid|Anti-Ethylene Treatments for Potted Christmas Cactus-Efficacy of Inhibitors of Ethylene Action and Biosynthesis|Hortscience28(12): 1180-1181|1993|10.21273/HORTSCI.28.12.1180
152065|T||Johnson,K.D., M.E. O'Neal, D.W. Ragsdale, C.D. Difonzo, S.M. Swinton, P.M. Dixon, B.D. Potter, E.W. Hodgson, and A.C. C|Probability of Cost-Effective Management of Soybean Aphid (Hemiptera:  Aphididae) in North America|J. Econ. Entomol.102(6): 2101-2108|2009|10.1603/029.102.0613
152066|T||Green,J.M., T.T. Obrigawitch, J.D. Long, and J.M. Hutchison|Metribuzin and Chlorimuron Mixtures for Preemergence Broadleaf Weed Control in Soybeans, Glycine max|Weed Technol.2(3): 355-363|1988|10.1017/S0890037X00030736
152067|T||Eliakim,R., F. Karmeli, E. Okon, and D. Rachmilewitz|Ketotifen Ameliorates Capsaicin-Augmented Acetic Acid-Induced Colitis|Dig. Dis. Sci.40(3): 503-509|1995|10.1007/BF02064357
152068|T||McKay,D.M., and J.L. Wallace|Acetic Acid Induced Ulceration in Rats is not Affected by Infection with Hymenolepis diminuta|J. Parasitol.95(2): 481-482|2009|10.1645/GE-1776.1
152069|T||Villasenor,I.M., and A.C. Sanchez|Menthalactone, a New Analgesic from Mentha cordifolia Opiz. Leaves|Z. Naturforsch. Teil C Biochem. Biophys. Biol. Virol.64(11/12): 809-812|2009|
152071|A||Brun,G.L., M. Bernier, R. Losier, K. Doe, P. Jackman, and H.B. Lee|Pharmaceutically Active Compounds in Atlantic Canadian Sewage Treatment Plant Effluents and Receiving Waters, and Potential for Environmental Effects as Measured by Acute and Chronic Aquatic Toxicity|Environ. Toxicol. Chem.25(8): 2163-2176|2006|10.1897/05-426R.1
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152073|T||Gulati,D.K., L.H. Barnes, M. Welch, and W.S. Russell|Oxalic Acid: Reproduction and Fertility Assessment in CD-1 Mice when Administered in Drinking Water (Revised September 1985) |Final Rept. 8 May 84-15 Jan 85.,  Environmental Health Research and Testing, Inc., Lexington, KY:366 p.|1985|
152075|T||Haskell Laboratories|Initial Submission: Ten-Dose Oral Subacute Test of Zonyl FSN in CHR-Cd Rats with Cover Letter Dated 091192|EPA/OTS Doc. #88-920010950:18 p.|1992|
152076|A||Palaniappan,P.R., and V. Vijayasundaram|Effect of Arsenic Intoxication on Proteins and Lipids of Labeo rohita Gill Tissues:  An FT-IR Study|Toxicol. Environ. Chem.91(6): 1125-1134|2009|10.1080/02772240802575617
152077|A||Union Carbide Corp.|The Acute Toxicity of Sodium Acetate to the Bluegill Sunfish Lepomis macrochirus Rafinesque with Attachments and Cover Letter Dated 033178|EPA/OTS Doc. #88-7800120:48 p.|1978|
152078|A||Huque,H.|The Fate of Diazinon Applied to Rice Plants|FAO/IAEA-PL-512/6:29-32|1974|
152079|T||Alumot,E., E. Nachtomi, R. Bielorai, and Z. Harduf|Significance of Fumigant Residues in Animal Feed|In: FAO/IAEA. Isotope Tracer Studies of Chemical Residues in Food and the Agricultural Environment:3-10|1974|
152080|A||Yang,J.H.|Perfluorooctanoic Acid Induces Peroxisomal Fatty Acid Oxidation and Cytokine Expression in the Liver of Male Japanese Medaka (Oryzias latipes)|Chemosphere81(4): 548-552|2010|10.1016/j.chemosphere.2010.06.028
152081|A||Shi,X., and B. Zhou|The Role of Nrf2 and MAPK Pathways in PFOS-Induced Oxidative Stress in Zebrafish Embryos|Toxicol. Sci.115(2): 391-400|2010|10.1093/toxsci/kfq066
152082|T||Fodor,M., A. Hegedus, K. Lesko, and E. Banyai|Effect of Zirconium Treatment on Wheat Seedlings Development, Amino Acid Composition, and Boron Content|J. Plant Nutr.33(10): 1555-1563|2010|10.1080/01904167.2010.489990
152083|T||Yen,H.C., S. Lee, S.D. Tanksley, M.B. Lanahan, H.J. Klee, and J.J. Giovannoni|The Tomato Never-Ripe Locus Regulates Ethylene-Inducible Gene Expression and is Linked to a Homolog of the Arabdopsis ETR1 Gene|Plant Physiol.107:1343-1353|1995|10.1104/pp.107.4.1343
152084|T||Cary,A.J., W. Liu, and S.H. Howell|Cytokinin Action is Coupled to Ethylene in Its Effects on the Inhibition of Root and Hypocotyl Elongation in Arabidopsis thaliana Seedlings|Plant Physiol.107:1075-1082|1995|10.1104/pp.107.4.1075
152085|T||English,P.J., G.W. Lycett, J.A. Roberts, and M.B. Jackson|Increased 1-Aminocyclopropane-1-Carboxylic Acid Oxidase Activity in Shoots of Flooded Tomato Plants Raises Ethylene Production to Physiologically Active Levels|Plant Physiol.109:1435-1440|1995|10.1104/pp.109.4.1435
152086|A||Ince,B.W., and A. Thorpe|The Effects of Starvation and Force-Feeding on the Metabolism of the Northern Pike, Esox lucius L.|J. Fish Biol.8:79-88|1976|10.1111/j.1095-8649.1976.tb03909.x
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152089|A||Imlay,M.J.|Some Research Needs and Methods for Protecting Naiads from Extinction|Annu. Rep. - Am. Malacol. Union Inc.:49-51|1969|
152091|A||Jagadeesan,Y., M. Mutharasi, and P. Subramanian|A Study on the Biochemical Changes in the Semi Synthetic Organophosphate Pesticide Cypermethrin Exposed Commercial Fish Catla catla Hamilton, 1822|Biochem. Cell. Arch.9(1): 33-36|2009|
152093|A||Choi,C.Y., K.W. An, H.S. Shin, M.I. An, and P.G. Jo|Changes of Cytochrome P4501A mRNA Expression and Physiology Responses in the Olive Flounder, Paralichthys olivaceus, Exposed to Benzo(a)pyrene|Mar. Biol. Res.4(6): 470-476|2008|10.1080/17451000802232890
152094|T||El-Zemity,S.R.|Synthesis and Molluscicidal Activity of Novel N-Methyl Carbamate Derivatives Based on Naturally Occurring Monoterpenoids|J. Appl. Sci. Res.2(2): 86-90|2006|
152095|T||Liu,F., Y. Tang, R. Du, H. Yang, Q. Wu, and R. Qiu|Root Foraging for Zinc and Cadmium Requirement in the Zn/Cd Hyperaccumulator Plant Sedum alfredii|Plant Soil327(1/2): 365-375|2010|10.1007/s11104-009-0060-8
152096|T||Ahmed,M.S.H., and S.M.S. Mohamed|Improvement of Groundnut (Arachis hypogaea L.) Productivity Under Saline Condition Through Mutation Induction|World J. Agric. Sci.5(6): 680-685|2009|
152097|T||Theoret,Y., and J.L. Bossu|Effects of Ammonium Salts on Synaptic Transmission to Hippocampal Ca1 and Ca3 Pyramidal Cells In Vivo|Neuroscience14(3): 807-821|1985|10.1016/0306-4522(85)90145-9
152098|T||Grant,N.T., E. Prusinkiewicz, K. Mortensen, and R.M.D. Makowski|Herbicide Interactions with Colletotrichum gloeosporioides f. sp. malvae a Bioherbicide for Round-Leaved Mallow (Malva pusilla) Control|Weed Technol.4(4): 716-723|1990|10.1017/S0890037X00026282
152099|T||Harrington,K.C., and S.J. Gregory|Field Assessment of Herbicides to Release Native Plants from Weeds|N. Z. Plant Prot.62:368-373|2009|10.30843/nzpp.2009.62.4877
152100|T||Tang,X., A.M.T.R. Gomes, A. Bhatia, and W.R. Woodson|Pistil-Specific and Ethylene-Regulated Expression of 1-Aminocyclopropane-1-Carboxylate Oxidase Genes in Petunia Flowers|Plant Cell6:1227-1239|1994|10.2307/3869821
152101|T||Serek,M., E.C. Sisler, and M.S. Reid|Novel Gaseous Ethylene Binding Inhibitor Prevents Ethylene Effects in Potted Flowering Plants|J. Am. Soc. Hortic. Sci.119(6): 1230-1233|1994|10.21273/JASHS.119.6.1230
152102|T||Chen,H.S., Q.Y. Huang, L.N. Liu, P. Cai, W. Liang, and M. Li|Poultry Manure Compost Alleviates the Phytotoxicity of Soil Cadmium: Influence on Growth of Pakchoi (Brassica chinensis L.).|Pedosphere20(1): 63-70|2010|10.1016/S1002-0160(09)60283-6
152103|T||Dong,D., X. Peng, and X. Yan|Organic Acid Exudation Induced by Phosphorus Deficiency and/or Aluminium Toxicity in Two Contrasting Soybean Genotypes|Physiol. Plant. (Multiple Languages)122(2): 190-199|2004|10.1111/j.1399-3054.2004.00373.x
152104|A||Hagenaars,A., L. Vergauwen, W. De Coen, and D. Knapen|Structure-Activity Relationship Assessment of Four Perfluorinated Chemicals Using a Prolonged Zebrafish Early Life Stage Test|Chemosphere82:764-772|2011|10.1016/j.chemosphere.2010.10.076
152105|A||Hulak,M., M. Psenicka, D. Gela, M. Rodina, and O. Linhart|Morphological Sex Change Upon Treatment by Endocrine Modulators in Meiogynogenetic Tench (Tinca tinca L.)|Aquac. Res.41(2): 233-239|2010|10.1111/j.1365-2109.2009.02325.x
152106|T||Haviland,D.R., and B.S. Higbee|Pacific Spider Mite Control in Almond, 2005|Arthropod Manag. Tests31:2 p.|2006|
152107|A||Manivannan,S., S.P. Indumathi, and T. Radha|A Study of Ophiocephalus leucopunctatus (Sykes, 1839) as a Biomarker to Assess the Acute Toxicity and Nutritive Value Changes Induced by Tricyclazole|Biochem. Cell. Arch.8(2): 241-244|2008|
152108|T||Regnault-Roger,C., and A. Hamraoui|Fumigant Toxic Activity and Reproductive Inhibition Induced by Monoterpenes on Acanthoscelides obtectus (Say) (Coleoptera), a Bruchid of Kidney Bean (Phaseolus vulgaris L.)|J. Stored Prod. Res.31(4): 291-299|1995|10.1016/0022-474X(95)00025-3
152111|T||El-Bayoumi,A.S., A.A. Habib, and M. Soliman|"Cytological Studies on the Effect of the Herbicide ""Dual"" on Allium cepa"|Qatar Univ. Sci. Bull.8:69-84|1988|
152112|T||Merchant,M.E.|Spider Mite Control with Soap on Caged Tomatoes, 1990|Insectic. Acaric. Tests17:156-157|1992|10.1093/iat/17.1.156a
152113|A||Smith,M.W.|Copper Sulphate and Rotenone as Fish Poisons|Trans. Am. Fish. Soc.69(1939): 141-157|1940|10.1577/1548-8659(1939)69[141:CSARAF]2.0.CO;2
152114|A||Evans,D.H., C.H. Mallery, and L. Kravitz|Sodium Extrusion by a Fish Acclimated to Sea Water:  Physiological and Biochemical Description of a Na-FOR-K Exchange System|J. Exp. Biol.58:627-636|1973|10.1242/jeb.58.3.627
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152119|T||Klein,W.|Cyclodiene and Other Residues in Growing Crops. Status Report|In: FAO/IAEA. Isotope Tracer Studies of Chemical Residues in Food and the Agricultural Environment:33-46|1974|
152120|T||Eriksson,H., and D. Isaksson|Short-Term Assessment of Dung Beetle Response to Carbosulfan Treatment Against Desert Locust in Sudan|J. Appl. Entomol.133(8): 584-595|2009|10.1111/j.1439-0418.2009.01382.x
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152123|T||Templeman,W.G., and D.J. Halliday|Field Experiments in Selective Weed Control by Plant-Growth Regulators. II. The Effect of Plant-Growth Regulators Upon Cereal Crops|Emp. J. Exp. Agric.18(71): 169-176|1950|
152124|A||Huovinen,P., P. Leal, and I. Gomez|Interacting Effects of Copper, Nitrogen and Ultraviolet Radiation on the Physiology of Three South Pacific Kelps|Mar. Freshw. Res.61(3): 330-341|2010|10.1071/MF09054
152125|A||Jagtap,J.T., and K.B. Shejule|Study of Acute Toxicity of Organotin Tributyltin Chloride on the Freshwater Bivalve Mollusc, Lamellidens marginalis from Godavari River at Maharashtra State, India|Recent Res. Sci. Technol.2(5): 8-11|2010|
152126|T||Jaleel,C.A., K. Jayakumar, C.X. Zhao, and M.M. Azooz|Antioxidant Potentials Protect Vigna radiata (L.) Wilczek Plants from Soil Cobalt Stress and Improve Growth and Pigment Composition|Plant Omics J.2(3): 120-126|2009|
152127|T||Jasinski,J., M. Darr, E. Ozkan, and R. Precheur|Applying Imidacloprid via a Precision Banding System to Control Striped Cucumber Beetle (Coleoptera: Chrysomelidae) in Cucurbits|J. Econ. Entomol.102(6): 2255-2264|2009|10.1603/029.102.0630
152128|A||Joel,O.F., and C.A. Amajuoyi|Evaluation of the Effect of Short-Term Cadmium Exposure on Brackish Water Shrimp-Palaemonetes africanus|J. Appl. Sci. Environ. Manag.13(4): 23-27|2009|
152129|T||Johansson,E.M., P.M.A. Fransson, R.D. Finlay, and P.A.W. Van Hees|Quantitative Analysis of Root and Ectomycorrhizal Exudates as a Response to Pb, Cd and As Stress|Plant Soil313(1/2): 39-54|2008|10.1007/s11104-008-9678-1
152130|T||Kuziemska,B., and S. Kalembasa|Influence of Soil Contamination with Nickel and Liming on Lead and Manganese Contents in Red Clover Biomass|Arch. Environ. Prot.35(1): 95-105|2009|
152131|A||Ansari,B.A., and D.K. Sharma|Toxic Effect of Synthetic Pyrethroid Deltamethrin and Neem Based Formulation Achook on Zebrafish, Danio rerio|Trends Biosci.2(2): 18-20|2009|
152132|T||Kagalkar,A.N., U.B. Jagtap, J.P. Jadhav, V.A. Bapat, and S.P. Govindwar|Biotechnological Strategies for Phytoremediation of the Sulfonated Azo Dye Direct Red 5B Using Blumea malcolmii Hook|Bioresour. Technol.100(18): 4104-4110|2009|10.1016/j.biortech.2009.03.049
152134|A||Khellaf,N., and M. Zerdaoui|Growth, Photosynthesis and Respiratory Response to Copper in Lemna minor:  A Potential Use of Duckweed in Biomonitoring|Iran. J. Environ. Health Sci. Eng.7(2): 299-306|2010|
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152137|T||Chen,L., and S. Zhang|Dissipation and Residues of Boscalid in Strawberries and Soils|Bull. Environ. Contam. Toxicol.84(3): 301-304|2010|10.1007/s00128-010-9934-y
152138|T||Clegg,B.S., R. Frank, G.M. Ritcey, V. Souza-Machado, and D.L. Benoit|Propachlor and N-Isopropylaniline Residues in Onions (Allium cepa) and Muck Soils|Bull. Environ. Contam. Toxicol.47(1): 104-111|1991|10.1007/BF01689460
152139|T||Dey,S.K., and S. Roy|Role of Reduced Glutathione in the Amelioration of Nicotine-Induced Oxidative Stress|Bull. Environ. Contam. Toxicol.84(4): 385-389|2010|10.1007/s00128-010-9948-5
152140|T||Bixby,M.W., G.M. Boush, and F. Matsumura|Degradation of Dieldrin to Carbon Dioxide by Soil Fungus Trichoderma koningi|Bull. Environ. Contam. Toxicol.6(6): 491-494|1971|10.1007/BF01796853
152141|T||Cheng,H.H.|Toxicity and Persistence of Pyrethroid Insecticides as Foliar Sprays Against Darksided Cutworm (Lepidoptera: Noctuidae) on Tobacco in Ontario|Can. Entomol.112(5): 451-456|1980|10.4039/Ent112451-5
152142|T||Dorr,R.T., K. Snead, and J.D. Liddil|Skin Ulceration Potential of Paclitaxel in a Mouse Skin Model In Vivo|Cancer78(1): 152-156|1996|10.1002/(SICI)1097-0142(19960701)78:1<152::AID-CNCR21>3.0.CO;2-Y
152143|T||Cameron,R., G.D. Sweeney, K. Jones, G. Lee, and E. Farber|A Relative Deficiency of Cytochrome P-450 and Aryl Hydrocarbon [Benzo(a)pyrene] Hydroxylase in Hyperplastic Nodules Induced by 2-Acetylaminofluorene in Rat Liver|Cancer Res.36(11 Part 1): 3888-3893|1976|
152144|T||Mohammad,A., A. Moheman, and Seema |The Influence of Single and Multiple Soil Contamination of Cadmium with Lead and Zinc on Growth, Chlorophyll Contents, Uptake and Translocation of Cadmium in Tomato Plants|Arch. Agron. Soil Sci.55(4): 407-413|2009|10.1080/03650340802585221
152145|A||Dutra,B.K., F.A. Fernandes, D.M. Failace, and G.T. Oliveira|Effect of Roundup (Glyphosate Formulation) in the Energy Metabolism and Reproductive Traits of Hyalella castroi (Crustacea, Amphipoda, Dogielinotidae)|Ecotoxicology20:255-263|2011|10.1007/s10646-010-0577-x
152146|A||Herbes,S.E., and J.J. Beauchamp|Toxic Interaction of Mixtures of Two Coal Conversion Effluent Components (Resorcinol and 6-Methylquinoline) to Daphnia magna|Bull. Environ. Contam. Toxicol.17(1): 25-32|1977|10.1007/BF01685259
152147|T||Westlake,W.E., M. Ittig, D.E. Ott, and F.A. Gunther|Persistence of Residues of the Insecticide Phosphamidon on and in Oranges, Lemons, and Grapefruit, and on and in Orange Leaves and in Dried Citrus Pulp Cattle Feed|J. Agric. Food Chem.21(5): 846-850|1973|10.1021/jf60189a026
152148|T||Itokawa,Y., K. Kamohara, and K. Fujiwara|Toxicity of Polychlorinated Biphenyls Increased with Simultaneous Ingestion of Alkylbenzene Sulfonic Acid Salt|Experientia29(7): 822-823|1973|10.1007/BF01946309
152149|T||Dragan,Y.P., X. Xu, T.L. Goldsworthy, H.A. Campbell, R.R. Maronpot, and H.C. Pitot|Characterization of the Promotion of Altered Hepatic Foci by 2,3,7,8 Tetrachlorodibenzo-p-Dioxin in the Female Rat|Carcinogenesis13(8): 1389-1395|1992|10.1093/carcin/13.8.1389
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152266|A||Karbiwnyk,C.M., R.R. Williams, W.C. Andersen, S.B. Turnipseed, M.R. Madson, K.E. Miller, and R. Reimschuessel|Bioaccumulation of Cyanuric Acid in Edible Tissues of Shrimp Following Experimental Feeding|Food Addit. Contam.27(12): 1658-1664|2010|10.1080/19440049.2010.517221
152267|A||Koprucu,K., S.M. Yonar, and E. Seker|Effects of Cypermethrin on Antioxidant Status, Oxidative Stress Biomarkers, Behavior, and Mortality in the Freshwater Mussel Unio elongatulus eucirrus|Fish. Sci.76(6): 1007-1013|2010|10.1007/s12562-010-0293-8
152268|T||Krznaric,E., J.H.L. Wevers, C. Cloquet, J. Vangronsveld, F. Vanhaecke, and J.V. Colpaert|Zn Pollution Counteracts Cd Toxicity in Metal-Tolerant Ectomycorrhizal Fungi and Their Host Plant, Pinus sylvestris|Environ. Microbiol.12(8): 2133-2141|2010|10.1111/j.1462-2920.2009.02082.x
152269|A||Leite,P.Z., T.C.S. Margarido, D. De Lima, D.D.C. Rossa-Feres, and E. Alves de Almeida|Esterase Inhibition in Tadpoles of Scinax fuscovarius (Anura, Hylidae) as a Biomarker for Exposure to Organophosphate Pesticides|Environ. Sci. Pollut. Res.17(8): 1411-1421|2010|10.1007/s11356-010-0326-y
152270|T||Li,Q.Y., H.B. Niu, J. Yin, H.B. Shao, J.S. Niu, J.P. Ren, Y.C. Li, and X. Wang|Transgenic Barley with Overexpressed PTrx Increases Aluminum Resistance in Roots During Germination|J. Zhejiang Univ., Sci. B11(11): 862-870|2010|10.1631/jzus.B1000048
152271|A||Nagarani,N., V.J. Devi, C.A. Devi, and A.K. Kumaraguru|Genotoxicity Assessment of Mercuric Chloride in the Marine Fish Therapon jaruba|Environ. Asia2(2): 50-54|2009|
152272|A||Nassef,M., S. Matsumoto, M. Seki, I.J. Kang, J. Moroishi, Y. Shimasaki, and Y. Oshima|Pharmaceuticals and Personal Care Products Toxicity to Japanese Medaka Fish (Oryzias latipes)|J. Fac. Agric. Kyushu Univ.54(2): 407-411|2009|10.5109/16123
152273|A||Radhakrishnan,M.V.|Immunological Effect of Cadmium in Heteropneustes fossilis Bloch.|Global Veter.4(6): 544-547|2010|
152274|A||Reimschuessel,R., E. Evans, W.C. Andersen, S.B. Turnipseed, C.M. Karbiwnyk, T.D. Mayer, C. Nochetto, N.G. Rummel, and C|Residue Depletion of Melamine and Cyanuric Acid in Catfish and Rainbow Trout Following Oral Administration|J. Vet. Pharmacol. Ther.33(2): 172-182|2010|10.1111/j.1365-2885.2009.01111.x
152275|A||Reimschuessel,R., E.R. Evans, C.B. Stine, N. Hasbrouck, T.D. Mayer, C. Nochetto, and C.M. Gieseker|Renal Crystal Formation After Combined or Sequential Oral Administration of Melamine and Cyanuric Acid|Food Chem. Toxicol.48:2898-2906|2010|10.1016/j.fct.2010.07.024
152276|A||Tilaki,R.A.D.|Effect of Glucose and Lactose on Uptake of Phenol by Lemna minor|Iran. J. Environ. Health Sci. Eng.7(2): 123-128|2010|
152277|A||Wang,W., X. Dai, Z. Li, and Q. Meng|Tissue Distribution and Elimination of Florfenicol in Topmouth Culter (Culter alburnus) After Oral Administration|Czech J. Food Sci.27(3): 216-221|2009|10.17221/183/2008-CJFS
152278|A||Yap,C.K., and A.G.M. Azlan|Muddy Sediments Acting as Sinks of Cu and Zn:  Evidence from a Laboratory Experimental Study by Using Cockle Anadara granosa Plus Muddy Sediments|Malays. Appl. Biol.39(1): 49-52|2010|
152279|A||Yokoyama,A., K. Ohtsu, T. Iwafune, T. Nagai, S. Ishihara, Y. Kobara, T. Horio, and S. Endo|A Useful New Insecticide Bioassay Using First-Instar Larvae of a Net-Spinning Caddisfly, Cheumatopsyche brevilineata (Trichoptera:  Hydropsychidae)|J. Pestic. Sci. (Multiple Languages)34(1): 13-20|2009|10.1584/jpestics.G08-26
152281|T||He,C.J., P.W. Morgan, and M.C. Drew|Transduction of an Ethylene Signal is Required for Cell Death and Lysis in the Root Cortex of Maize During Aerenchyma Formation Induced by Hypoxia|Plant Physiol.112:463-472|1996|10.1104/pp.112.2.463
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152283|A||Norberg-King,T.|Phenol Ceriodaphnia dubia Test|Memo dated 30 September 1987 from T.Norberg-King to D.Call:2 p.|1987|
152284|T||Ahsan,N., D.G. Lee, K.H. Kim, I. Alam, S.H. Lee, K.W. Lee, H. Lee, and B.H. Lee|Analysis of Arsenic Stress-Induced Differentially Expressed Proteins in Rice Leaves by Two-Dimensional Gel Electrophoresis Coupled with Mass Spectrometry|Chemosphere78(3): 224-231|2010|10.1016/j.chemosphere.2009.11.004
152285|T||Butterworth,M., S.S. Lau, and T.J. Monks|Formation of Catechol Estrogen Glutathione Conjugates and gamma-Glutamyl Transpeptidase-Dependent Nephrotoxicity of 17beta-Estradiol in the Golden Syrian Hamster|Carcinogenesis18(3): 561-567|1997|10.1093/carcin/18.3.561
152286|T||Butterworth,M., S.S. Lau, and T.J. Monks|2-Hydroxy-4-Glutathion-S-yl-17beta-Estradiol and 2-Hydroxy-1-Glutathion-S-yl-17beta-Estradiol Produce Oxidative Stress and Renal Toxicity in an Animal Model of 17beta-Estradiol-Mediated Nephrocarcinogenicity|Carcinogenesis19(1): 133-139|1998|10.1093/carcin/19.1.133
152287|T||Butler,C.D., and J.T. Trumble|Predicting Population Dynamics of the Parasitoid Cotesia marginiventris (Hymenoptera:  Braconidae) Resulting from Novel Interactions of Temperature and Selenium|Biocontrol Sci. Technol.20(4): 391-406|2010|10.1080/09583150903551587
152288|A||Khellaf,N., and M. Zerdaoui|Phytoaccumulation of Zinc by the Aquatic Plant, Lemna gibba L.|Bioresour. Technol.100(23): 6137-6140|2009|10.1016/j.biortech.2009.06.043
152290|T||Chao,Y., M. Zhang, Y. Feng, X. Yang, and E. Islam|cDNA-AFLP Analysis of Inducible Gene Expression in Zinc Hyperaccumulator Sedum alfredii Hance Under Zinc Induction|Environ. Exp. Bot.68(2): 107-112|2010|10.1016/j.envexpbot.2009.11.013
152291|A||Miranda,L.A., and G.M. Somoza|Spawning Induction of Pejerrey Odontesthes bonariensis in Captivity Using Sustained-Release Gonadotropin Releasing Hormone Agonist Implants|Aquac. Res.41(1): 129-134|2009|10.1111/j.1365-2109.2009.02314.x
152292|A||Spehar,R.L.|Aquatic Toxicity Test Information on 2,4-Dichlorophenoxyacetic Acid (2,4-D) (99% Pure) with Rainbow Trout, Fathead Minnows, Ceriodaphnia dubia, and Duckweed|Jan.30th Letter to D.Call, Ctr.for Lake Superior, Univ.of Wisconsin, Superior, WI:14 p.|1989|
152293|A||McCauley,D., and C. Lindberg|Seven-Day Larval Fathead Minnow Toxicity Test with Zinc and Copper in Lake Superior Water|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:5 p.|1983|
152294|A||Call,D.J., S.H. Poirier, and T.P. Markee|Trifluralin:  Acute Toxicity to the Mayfly, Hexagenia limbata, Under Flow-Through Conditions|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI:55 p.|1991|
152296|A||Zananski,T.J., M.R. Twiss, and T.B. Mihuc|Use of Fluorimetry to Evaluate Atrazine Toxicity to Phytoplankton Communities|Aquat. Ecosyst. Health Manag.13(1): 56-65|2010|10.1080/14634980903565933
152297|T||Dutkiewicz,R., M. Klimek, B. Klimek, A.M. Stefanowicz, and B. Plytycz|Effects of Cadmium, Copper, Lead or Nickel-Contaminated Soil on Amoebocytes of the Earthworm, Aporrectodea caliginosa (Short Communication)|Acta Biol. Crac., Ser. Zool.51:73-79|2009|
152298|T||Hua,J.F., X.G. Lin, J.F. Bai, Y.F. Shao, R. Yin, and Q. Jiang|Effects of Arbuscular Mycorrhizal Fungi and Earthworm on Nematode Communities and Arsenic Uptake by Maize in Arsenic-Contaminated Soils|Pedosphere20(2): 163-173|2010|10.1016/S1002-0160(10)60004-5
152299|T||Jourand,P., M. Ducousso, R. Reid, C. Majorel, C. Richert, J. Riss, and M. Lebrun|Nickel-Tolerant Ectomycorrhizal Pisolithus albus Ultramafic Ecotype Isolated from Nickel Mines in New Caledonia Strongly Enhance Growth of the Host Plant Eucalyptus globulus at Toxic Nickel Concentrations|Tree Physiol.30(10): 1311-1319|2010|10.1093/treephys/tpq070
152300|A||Kouba,A., J.M. Carral, M. Buric, J. Mraz, T. Policar, and P. Kozak|Artificial Incubation of Noble Crayfish (Astacus astacus) Eggs in a Partially Recirculating System Using Formaldehyde as an Antifungal Treatment|Aquac. Res.41(10): 618-623|2010|
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152302|A||Kim,M.C., and S.S. Han|Two-Dimensional Gel Analysis of Stress Proteins Identified in Chironomus flaviplumus (Diptera: Chironomidae) Exposed to 4-Nonylphenol|Entomol. Res.40(3): 164-170|2010|10.1111/j.1748-5967.2010.00280.x
152303|A||Bajguz,A.|An Enhancing Effect of Exogenous Brassinolide on the Growth and Antioxidant Activity in Chlorella vulgaris Cultures Under Heavy Metals Stress|Environ. Exp. Bot.68(2): 175-179|2010|10.1016/j.envexpbot.2009.11.003
152304|T||Aper,J., T. De Marez, E. Mechant, and R. Bulcke|Chlorophyll Fluorescence Tests for Monitoring Triazinone Resistance in Chenopodium album L.|Commun. Agric. Appl. Biol. Sci.73(4): 939-944|2008|
152306|T||Ito,K., T. Takahashi, and M. Nanzyo|Aluminum Toxicity of Synthetic Aluminum-Humus Complexes Derived from Non-Allophanic and Allophanic Andosols and Its Amelioration with Allophanic Materials|Soil Sci. Plant Nutr.55(1): 35-41|2009|10.1111/j.1747-0765.2008.00328.x
152307|T||Monsanto Co.|Initial Submission:  Acute Dermal Toxicity of Acetic Acid in Rabbits with Cover Letter Dated 081392|EPA/OTS Doc.#88-920007945:5 p.|1992|
152308|T||Monsanto Co.|Initial Submission:  Skin Irritation in Rabbits After Application of 60% Acetic Acid with Cover Letter Dated 072392|EPA/OTS Doc.#88-920008169:6 p.|1992|
152309|T||Chin,L., D.W.M. Leung, and H.H. Taylor|EDTA Reduces Lead Accumulation in Symphytum officinale L. (Comfrey) Roots|Chem. Ecol.25(6): 397-403|2009|10.1080/02757540903325088
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152311|T||Cervilla,L.M., B. Blasco, J.J. Rios, M.A. Rosales, M.M. Rubio-Wilhelmi, E. Sanchez-Rodriguez, L. Romero, and J.M. Ruiz|Response of Nitrogen Metabolism to Boron Toxicity in Tomato Plants|Plant Biol.11(5): 671-677|2009|10.1111/j.1438-8677.2008.00167.x
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152313|T||Blandino,M., A. Pilati, and A. Reyneri|Effect of Foliar Treatments to Durum Wheat on Flag Leaf Senescence, Grain Yield, Quality and Deoxynivalenol Contamination in North Italy|Field Crops Res.114(2): 214-222|2009|10.1016/j.fcr.2009.08.008
152314|A||BAMM: Basic Acrylic Monomers Manufacturers|Letter from BAMM Acrylic Monomers Manufacturers to USEPA Submitting Enclosed Ecotoxicity Reports on Acrylic Acid, Ethyl Acrylate and Butyl Acrylate with Attachments|EPA/OTS Doc. #40-9010139:1391 p.|2000|
152315|T||BASF Aktiengesellschaft|Letter from Basic Acrylic Monomer Manufacturers Submitting Three Oral Toxicity Studies with Acrylic Acid in Rats with Attachments|EPA/OTS Doc. #40-91141016:2284 p.|1991|
152316|T||BASF Aktiengesellschaft|Letter from Bamm to USEPA Regarding TSCA Section 4 Consent Order (OPTS-42146-a) on Acrylic Acid with Attachments, Dated 03/09/94|EPA/OTS Doc. #42146 f4-2:1172 p.|1994|
152317|T||Dow Chemical Co.|Initial Submission: Acrylic Acid: Inclusion in the Drinking Water of Rats for One Generation of Reproduction with Cover Letter Dated 043092 and Attachments|EPA/OTS Doc. #88-920002271:232 p.|1992|
152318|A||Eastman Kodak Co.|Four Final Reports Summarizing Environmental Studies Conducted on Crotonaldehyde with Attachments and Cover Letter Dated 110690|EPA/OTS Doc. #89-910000063:393 p.|1990|
152319|T||BAMM: Basic Acrylic Monomers Manufacturers|Letter from BAMM to USEPA Regarding TSCA Section 4 Consent Order (OPTS-42146-a) on Acrylic Acid with Attachments, Dated 12/02/93|EPA/OTS Doc. #42146 f3-2:675 p.|1993|
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152322|T||BASF Aktiengesellschaft|Initial Submission: Preliminary Results of a Two-Generation Reproduction Toxicology Study with Acrilic Acid with Cover Letter Dated 101392|EPA/OTS Doc. #88-930000021:5 p.|1992|
152323|T||Microbiological Associates|Dominant Lethal Mutations with Acrylic Acid in Mice (Final Report) with Cover Letter Dated 082791|EPA/OTS Doc.# 40-91141021:38 p.|2000|
152324|T||Celanese Chem. Co. Inc.|Drosophila Sex-Linked Recessive Lethal Assay of Acrylic Acid|EPA/OTS Doc. #40-87141024:15 p.|1988|
152325|A||Analytical Bio-Chemistry Laboratories Inc.|Initial Submission: Acute Toxicity of Acrylic Acid to Selenastrum capricornutum Printz with Cover Letter Dated 042192|EPA/OTS Doc. #88-920002532:36 p.|1992|
152326|T||E.I. Du Pont De Nemours|Initial Submission: Acute Oral Test of Acrylic Acid-Butyl Methacrylate-2-Ethylhexyl Acrylate-2-Hydroxyethyl in Rats with Cover Letter Dated 08/10/92|EPA/OTS Doc. #88-920009015:15 p.|1992|
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152333|T||Dutra,F.R., and E.J. Largent|Osteosarcoma Induced by Beryllium Oxide|Am. J. Pathol.26(2): 197-209|1950|
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152340|T||Dong,B., N. Nishimura, C.F. Vogel, C. Tohyama, and F. Matsumura|TCDD-Induced Cyclooxygenase-2 Expression is Mediated by the Nongenomic Pathway in Mouse MMDD1 Macula densa Cells and Kidneys|Biochem. Pharmacol.79(3): 487-497|2010|10.1016/j.bcp.2009.08.031
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152345|T||Ochoa,J., J.A. Franco, S. Banon, and J.A. Fernandez|Distribution in Plant, Substrate and Leachate of Paclobutrazol Following Application to Containerized Nerium oleander L. Seedlings|Spanish J. Agric. Res.7(3): 621-628|2009|10.5424/sjar/2009073-446
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152347|T||Hoechst Celanese Corp.|Initial Submission: Letter from Hoechst Celanese Corp to USEPA Regarding Information on the Enclosed Report with Potassium Acrylate - 60% Neutralized Solution in Albino Rabbits|EPA/OTS Doc. #88-920004507:13 p.|1992|
152348|T||Rohm and Haas Co.|Initial Submission: Inclusion in the Drinking Water of Rats for One Generation of Reproduction (Final Report) with Attachments and Cover Letter Dated 120991|EPA/OTS Doc. #88-920000487:59 p.|1991|
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152362|T||Akagi,A., and H.U. Stotz|Effects of Pathogen Polygalacturonase, Ethylene, and Firmness on Interactions Between Pear Fruits and Botrytis cinerea|Plant Dis.91(10): 1337-1344|2007|10.1094/PDIS-91-10-1337
152363|T||Glazer,I., A. Apelbaum, and D. Orion|Effect of Inhibitors and Stimulators of Ethylene Production on Gall Development in Meloidogyne javanica-Infected Tomato Roots|J. Nematol.17(2): 145-149|1985|
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152383|T||Edelson,J.V., and M. Peters|Control of Aphids on Spinach, 1996|Arthropod Manag. Tests22:165-166|1997|10.1093/amt/22.1.165a
152384|A||Brooke,L.T., D.J. Call, and P.Y. Lu|Uptake, Elimination, and Metabolism of Eight Aromatic Compounds by Fathead Minnows|University of Wisconsin-Superior, WI for U.S. EPA, Duluth, MN:17 p.|1977|
152385|T||Edelson,J.V., and M. Peters|Control of Squash Bug on Summer Squash, 1996|Arthropod Manag. Tests22:166-|1997|10.1093/amt/22.1.166
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152391|T||Younger Labs|Initial Submission:  Skin Irritation in Rabbits After Application of 70% Acetic Acid with Cover Letter Dated 081792|EPA/OTS Doc.#88-920007562:5 p.|1992|
152392|T||Anand,P., H.B. Nair, B. Sung, A.B. Kunnumakkara, V.R. Yadav, R.R. Tekmal, and B.B. Aggarwal|Design of Curcumin-Loaded PLGA Nanoparticles Formulation with Enhanced Cellular Uptake, and Increased Bioactivity In Vitro and Superior Bioavailability In Vivo|Biochem. Pharmacol.79(3): 330-338|2010|10.1016/j.bcp.2009.09.003
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152426|T||Bae,K.H., Y.E. Choi, C.G. Shin, Y.Y. Kim, and Y.S. Kim|Enhanced Ginsenoside Productivity by Combination of Ethephon and Methyl Jasmoante in Ginseng (Panax ginseng C.A. Meyer) Adventitious Root Cultures|Biotechnol. Lett.28(15): 1163-1166|2006|10.1007/s10529-006-9071-1
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152451|T||Andersen,R.N., R. Behrens, and A.J. Linck|Effects of Dalapon on Some Chemical Constituents in Sugar Beets and Yellow Foxtail|Weeds (Urbana)10:4-9|1962|10.2307/4040549
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152453|T||Ackley,J.A., H.P. Wilson, and T.E. Hines|Efficacy of Rimsulfuron and Metribuzin in Potato (Solanum tuberosum)|Weed Technol.10(3): 475-480|1996|10.1017/S0890037X0004029X
152454|T||Blanchard,F.A.|Uptake, Distribution, and Metabolism of Carbon-14 Labeled Trichloroacetate in Corn and Pea Plants|Weeds (Urbana)3:274-278|1954|10.2307/4039978
152455|T||Ziv,M., and T. Ariel|Bud Proliferation and Plant Regeneration in Liquid-Cultured Philodendron Treated with Ancymidol and Paclobutrazol|J. Plant Growth Regul.10:53-57|1991|10.1007/BF02279311
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152457|T||Funderburk,H.H.,Jr., and D.E. Davis|Factors Affecting the Response of Zea mays and Sorgum halepense to Sodium 2,2-Dichloropropionate|Weeds (Urbana)8:6-11|1960|10.2307/4040500
152458|T||Fallahi,E.|Influence of 1-Aminoethoxyvinylglycine Hydrochloride and alpha-Naphthalene Acetic Acid on Fruit Retention, Quality, Evolved Ethylene, and Respiration in Apples|Int. J. Plant Prot.:53-61|2007|
152459|T||Freed,V.H., and M. Montgomery|The Effect of Surfactants on Foliar Absorption of 3-Amino-1,2,4-Triazole|Weeds (Urbana)6:386-389|1958|10.2307/4040232
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152461|T||Foy,C.L.|Absorption and Translocation of Dalpon-2-C14 and -Cl36 in Tradescantia fluminensis|Weeds (Urbana)10:97-100|1962|10.2307/4040654
152462|T||Foote,L.E., and B.F. Himmelman|Vegetation Control Along Fence Lines with Maleic Hydrazide|Weeds (Urbana)15:38-41|1967|10.2307/4041064
152463|T||Fang,S.C.|Absorption, Translocation and Metabolism of 2,4-D-1-C14 in Pea and Tomato Plants|Weeds (Urbana)6:179-186|1958|10.2307/4040291
152464|T||Dowler,C.C., P.F. Sand, and E.L. Robinson|The Effect of Soil Type on Preplanting Soil-Incorporated Herbicides for Witchweed Control|Weeds (Urbana)11:276-279|1963|10.2307/4040530
152465|T||Davis,E.A.|The Role of Starvation in Fenuron Injury to Shrub Live Oak|Weeds (Urbana)14:10-17|1966|10.2307/4041114
152466|T||Dexter,A.G., O.C. Burnside, and T.L. Lavy|Factors Influencing the Phytotoxicity of Foliar Applications of Atrazine|Weeds (Urbana)14:222-228|1966|10.2307/4040918
152467|T||Danielson,L.L.|The Crop Toxicity Period of CMU in a Sandy Clay Loam Soil|Weeds (Urbana)4(3): 255-263|1956|10.2307/4040205
152468|T||Dana,M.N., W.A. Skroch, and D.M. Boone|Granular Herbicides for Cranberry Bogs|Weeds (Urbana)13(1): 5-7|1965|10.2307/4041083
152469|T||Crafts,A.S.|Evidence for Hydrolysis of Esters of 2,4-D During Absorption by Plants|Weeds (Urbana)8(1): 19-25|1960|10.2307/4040502
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152980|T||Ahmad,M.|Observed Potentiation Between Pyrethroid and Organophosphorus Insecticides for the Management of Spodoptera litura (Lepidoptera: Noctuidae)|Crop Prot.28(3): 264-268|2009|10.1016/j.cropro.2008.11.001
152981|T||Chapman,A.V., T.P. Kuhar, P.B. Schultz, T.W. Leslie, S.J. Fleischer, G.P. Dively, and J. Whalen|Integrating Chemical and Biological Control of European Corn Borer in Bell Pepper|J. Econ. Entomol.102(1): 287-295|2009|10.1603/029.102.0138
152982|T||Clough,G.H., S.I. Rondon, S.J. DeBano, N. David, and P.B. Hamm|Reducing Tuber Damage by Potato Tuberworm (Lepidoptera: Gelechiidae) with Cultural Practices and Insecticides|J. Econ. Entomol.103(4): 1306-1311|2010|10.1603/EC09065
152983|T||Attademo,A.M., M. Cabagna-Zenklusen, R.C. Lajmanovich, P.M. Peltzer, C. Junges, and A. Basso|beta-Esterase Activities and Blood Cell Morphology in the Frog Leptodactylus chaquensis (Amphibia: Leptodactylidae) on Rice Agroecosystems from Santa Fe Province (Argentina)|Ecotoxicology20(1): 274-282|2011|10.1007/s10646-010-0579-8
152984|T||Datta,S., P. Dhar, A. Mukherjee, and S. Ghosh|Influence of Polyphenolic Extracts from Enydra fluctuans on Oxidative Stress Induced by Acephate in Rats|Food Chem. Toxicol.48(10): 2766-2771|2010|10.1016/j.fct.2010.07.004
152985|T||Garcia-Santos,G., and K. Keller-Forrer|Avoidance Behaviour of Eisenia fetida to Carbofuran, Chlorpyrifos, Mancozeb and Metamidophos in Natural Soils from the Highlands of Colombia|Chemosphere84:651-656|2011|10.1016/j.chemosphere.2011.03.036
152986|T||Hu,J., P. Liang, X. Shi, and X. Gao|Effects of Insecticides on the Fluidity of Mitochondrial Membranes of the Diamondback Moth, Plutella xylostella, Resistant and Susceptible to Avermectin|J. Insect Sci.8(3): 1-9|2008|10.1673/031.008.0301
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152990|T||Oliver,J.B., M.E. Reding, N.N. Youssef, M.G. Klein, B.L. Bishop, and P.A. Lewis|Surface-Applied Insecticide Treatments for Quarantine Control of Japanese Beetle, Popillia japonica Newman (Coleoptera: Scarabaeidae), Larvae in Field-Grown Nursery Plants|Pest Manag. Sci.65(4): 381-390|2009|10.1002/ps.1701
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152997|T||Ethyl Corp.|Teratogenicity Study of Methyl Bromide Dosed Orally with Cover Letters Dated 072987 |EPA/OTS Doc. #86-870001186:42 p.|1987|
153000|T||Syed,A.R.|Insecticide Resistance in Diamondback Moth in Malaysia|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan:437-440|1992|
153001|T||Abdel-Salam,K.A., and J.M. Nakhlah|Effect of Combination Treatments of Gamma Radiation and Methyl Bromide Fumigation on the Confused Flour Beetles Tribolium confusum Duv.|Insect Sci. Appl.8(1): 103-106|1987|
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153010|T||Hawton,D., C.J. Howitt, and I.D.G. Johnson|A Comparison of Methods for the Control of Cyperus rotundus L.|Trop. Pest Manag.38(3): 305-309|1992|10.1080/09670879209371714
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153013|T||Huang,Y., S.K. Hee, and S.H. Ho|Antifeedant and Growth Inhibitory Effects of alpha-Pinene on the Stored-Product Insects, Tribolium castaneum (Herbst) and Sitophilus zeamais Motsch|Int. Pest Control40(1): 18-20|1998|
153014|T||Hussaini,S.S.|Comparative Efficacy of Durofume and Other Fumigants Against Root-Knot Nematode and Weeds in FCV Tobacco Nurseries|Indian J. Nematol.19(1): 14-17|1989|
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153022|T||Rajendran,S.|The Toxicity of Phosphine, Methyl Bromide, 1,1,1-Trichloroethane and Carbon Dioxide Alone and as Mixtures to the Pupae of Red Flour Beetle, Tribolium castaneum Herbst.|Pestic. Sci.29(1): 75-83|1990|10.1002/ps.2780290110
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153025|T||Shivanandappa,T., and S. Rajendran|Induction of Glutathione S-Transferase by Fumigants in Larvae of the Khapra Beetle, Trogoderma granarium (E.)|Pestic. Biochem. Physiol.28(1): 121-126|1987|10.1016/0048-3575(87)90120-9
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153028|T||Williams,P., W. Minett, S.A. Buchanan, A.D. Wilson, P. Savage, H. Rosenbaum, and V. Guiffre|Assessment of the Commercial Application of a Methyl Bromide and Carbon Dioxide Mixture for the Control of Grain Insects|Plant Prot. Q.1(2): 51-56|1985|
153029|T||Chellemi,D.O., S.M. Olson, D.J. Mitchell, I. Secker, and R. McSorley|Adaptation of Soil Solarization to the Integrated Management of Soilborne Pests of Tomato Under Humid Conditions|Phytopathology87(3): 250-258|1997|10.1094/PHYTO.1997.87.3.250
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153036|T||Minuto,A., G. Gilardi, A. Pome, A. Garibaldi, and M.L. Gullino|Chemical and Physical Alternatives to Methyl Bromide for Soil Disinfestation:  Results Against Soilborne Diseases of Protected Vegetable Crops|J. Plant Pathol.82(3): 179-186|2000|
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153040|T||Richardson,H.H., and H. Roth|Methyl Bromide, Sulfuryl Fluoride, and Other Fumigants Against Quarantinable Cochlicella and Theba Snails|J. Econ. Entomol.58(4): 690-693|1965|10.1093/jee/58.4.690
153041|T||Roth,H., and J.W. Kennedy|Helicella Snails Infesting Rosemary Seeds:  Methyl Bromide and Other Fumigants for Quarantine Control|J. Econ. Entomol.66(4): 935-936|1973|10.1093/jee/66.4.935
153042|T||Scheffrahn,R.H., and N.Y. Su|Comparative Toxicity of Methyl Bromide Against Ten Nearctic Termite Species (Isoptera: Termopsidae, Kalotermitidae, Rhinotermitidae)|J. Econ. Entomol.85(3): 845-847|1992|10.1093/jee/85.3.845
153044|T||Stasz,T.E., and S.P. Martin|Insensitivity of Thick-Walled Oospores of Pythium ultimum to Fungicides, Methyl Bromide, and Heat|Phytopathology78(11): 1409-1412|1988|10.1094/Phyto-78-1409
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153082|T||Jones,R.M.|Toxicity of Methyl Formate, Ethylene Oxide and Methyl Bromide, in Admixture with CO2, to the Rust-Red Flour Beetle|Ph.D.Thesis, Iowa State University, Ames, IA:79 p. |1937|
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153086|A||Saaristo,M., J.A. Craft, K.K. Lehtonen, and K. Lindstrom|Exposure to 17alpha-Ethinyl Estradiol Impairs Courtship and Aggressive Behaviour of Male Sand Gobies (Pomatoschistus minutus)|Chemosphere79(5): 541-546|2010|10.1016/j.chemosphere.2010.02.019
153087|T||Wellejus,A., and S. Loft|Receptor-Mediated Ethinylestradiol-Induced Oxidative DNA Damage in Rat Testicular Cells|FASEB J.16(2): 195-201|2002|10.1096/fj.01-0385com
153089|T||Filer,T.H.,Jr., and E.R. Toole|Effect of Methyl Bromide on Mycorrhizae and Growth of Sweetgum Seedlings|Plant Dis. Rep.52(6): 483-485|1968|
153090|A||Chemical Manufacturers Association|Initial Submission:  Status Report on Study of Methyl Bromide Toxicity to Rainbow Trout by Letter from Chem Mfgs Assn to USEPA Dated 10/25/93 with Attachments|EPA/OTS Doc. #88-940000027:8 p.|1993|
153091|A||Garcia-Reyero,N., K.J. Kroll, L. Liu, E.F. Orlando, K.H. Watanabe, M.S. Sepulveda, D.L. Villeneuve, E.J. Perkins, G.T. |Gene Expression Responses in Male Fathead Minnows Exposed to Binary Mixtures of an Estrogen and Antiestrogen|BMC Genomics10(308): 17 p.|2009|
153092|T||Bell,C.H.|Studies on the Toxicity of Phosphine and Methyl Bromide to Four Moth Pests of Stored Products with Special Emphasis on the Influence of Diapause|Ph.D. Thesis, Brunel Univ., London UK:326 p.|1974|
153094|A||Tu,H.T., F. Silvestre, A. Bernard, C. Douny, N.T. Phuong, C.T. Tao, G. Maghuin-Rogister, and P. Kestemont|Oxidative Stress Response of Black Tiger Shrimp (Penaeus monodon) to Enrofloxacin and to Culture System|Aquaculture285(1-4): 244-248|2008|10.1016/j.aquaculture.2008.08.032
153095|T||Jansson,R.K., and S.H. Lecrone|Potential of Teflubenzuron for Diamondback Moth (Lepidoptera: Plutellidae) Management on Cabbage in Southern Florida|Fla. Entomol.71(4): 605-615|1988|10.2307/3495020
153096|T||Jaworski,E.G.|Analysis of the Mode of Action of Herbicidal alpha-Chloroacetamides|J. Agric. Food Chem.17(2): 165-170|1969|10.1021/jf60162a027
153097|T||Jayasena,K.W., R. Loughman, and J. Majewski|Evaluation of Fungicides in Control of Spot-Type Net Blotch on Barley|Crop Prot.21(1): 63-69|2002|10.1016/S0261-2194(01)00118-1
153098|T||Jeong,G.N., U.B. Jo, H.Y. Ryu, Y.S. Kim, K.S. Song, and I.J. Yu|Histochemical Study of Intestinal Mucins After Administration of Silver Nanoparticles in Sprague Dawley Rats|Arch. Toxicol.84(1): 63-69|2010|10.1007/s00204-009-0469-0
153100|T||Ebdon,J.S., and J.A. Jagschitz|Chemical Control of Spurge and Other Broadleaf Weeds in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:307-313|1982|
153101|T||Albregts,E.E., J.P. Gilreath, and C.K. Chandler|Soil Solarization and Fumigant Alternatives to Methyl Bromide for Strawberry Fruit Production|Proc. Soil Crop Sci. Soc. Fla.55:16-20|1996|
153102|T||Anderson,R.C., and A.E. Liberta|Influence of Supplemental Inorganic Nutrients on Growth, Survivorship, and Mycorrhizal Relationships of Schizachyrium scoparium (Poaceae) Grown in Fumigated and Unfumigated Soil|Am. J. Bot.79(4): 406-414|1992|10.1002/j.1537-2197.1992.tb14567.x
153103|T||Awuah,R.T., and J.W. Lorbeer|Methyl Bromide and Steam Treatment of an Organic Soil for Control of Fusarium Yellows of Celery|Plant Dis.75(2): 123-125|1991|10.1094/PD-75-0123
153104|T||Baltaci,D., D. Klementz, B. Gerowitt, M.J. Drinkall, and C. Reichmuth|Lethal Effects of Sulfuryl Fluoride on Eggs of Different Ages and Other Life Stages of the Warehouse Moth Ephestia elutella (Hubner)|J. Stored Prod. Res.45(1): 19-23|2009|10.1016/j.jspr.2008.06.006
153106|T||Hanson,B.D., and S.A. Schneider|Evaluation of Weed Control and Crop Safety with Herbicides in Open Field Tree Nurseries|Weed Technol.22(3): 493-498|2008|10.1614/WT-08-021.1
153107|T||Hutchinson,C.M., M.E.,Jr. McGiffen, J.J. Sims, and J.O. Becker|Fumigant Combinations for Cyperus esculentum L Control|Pest Manag. Sci.60(4): 369-374|2004|10.1002/ps.781
153109|T||Njoroge,S.M.C., Z. Kabir, F.N. Martin, S.T. Koike, and K.V. Subbarao|Comparison of Crop Rotation for Verticillium Wilt Management and Effect on Pythium Species in Conventional and Organic Strawberry Production|Plant Dis.93(5): 519-527|2009|10.1094/PDIS-93-5-0519
153110|T||Pivonia,S., R. Cohen, S. Cohen, J. Kigel, R. Levita, and J. Katan|Effect of Irrigation Regimes on Disease Expression in Melon Plants Infected with Monosporascus cannonballus|Eur. J. Plant Pathol.110(2): 155-161|2004|10.1023/B:EJPP.0000015341.95455.22
153111|T||Rich,J.R., and S.M. Olson|Influence of Mi-Gene Resistance and Soil Fumigant Application in First Crop Tomato on Root-Galling and Yield in a Succeeding Cantaloupe Crop|Nematropica34(1): 103-108|2004|
153112|T||Ros,M., C. Garcia, M.T. Hernandez, A. Lacasa, P. Fernandez, and J.A. Pascual|Effects of Biosolarization as Methyl Bromide Alternative for Meloidogyne incognita Control on Quality of Soil Under Pepper|Biol. Fertil. Soils45(1): 37-44|2008|10.1007/s00374-008-0307-1
153113|T||Samtani,J.B., H.A. Ajwa, J.B. Weber, G.T. Browne, S. Klose, J. Hunzie, and S.A. Fennimore|Evaluation of Non-Fumigant Alternatives to Methyl Bromide for Weed Control and Crop Yield in California Strawberries (Fragaria ananassa L.)|Crop Prot.30(1): 45-51|2011|10.1016/j.cropro.2010.08.023
153114|T||Shrestha,A., G.T. Browne, B.D. Lampinen, S.M. Schneider, L. Simon, and T.J. Trout|Perennial Crop Nurseries Treated with Methyl Bromide and Alternative Fumigants:  Effects on Weed Seed Viability, Weed Densities, and Time Required for Hand Weeding|Weed Technol.22(2): 267-274|2008|10.1614/WT-07-122.1
153115|T||Subbarao,K.V., Z. Kabir, F.N. Martin, and S.T. Koike|Management of Soilborne Diseases in Strawberry Using Vegetable Rotations|Plant Dis.91(8): 964-972|2007|10.1094/PDIS-91-8-0964
153116|T||Thomas,J.E., L.T. Ou, J.H.,Jr. Allen, J.C. Vu, and D.W. Dickson|Nematode, Fungi, and Weed Control Using Telone C35 and Colored Plastic Mulches|Crop Prot.28(4): 338-342|2009|10.1016/j.cropro.2008.12.003
153117|T||Westphal,A., L. Xing, and S.B. Goodwin|Mature Watermelon Vine Decline: Suppression with Fumigants of a Soil-Borne Problem and Association with Rhizopycnis vagum|Crop Prot.30(2): 111-117|2011|10.1016/j.cropro.2010.11.014
153118|T||Bond,E.J., H.A.U. Monro, and C.T. Buckland|The Influence of Oxygen on the Toxicity of Fumigants to Sitophilus granarius (L)|J. Stored Prod. Res.3(4): 289-294|1967|10.1016/0022-474X(67)90032-X
153119|T||Donahaye,E., S. Navarro, M. Rindner, and R. Dias|The Influence of Different Treatments Causing Emigration of Nitidulid Beetles|Phytoparasitica19(4): 273-282|1991|10.1007/BF02980961
153120|T||Krikun,J., D. Netzer, and M. Sofer|The Role of Soil Fumigation Under Conditions of Intensive Agriculture|Agro-Ecosystems1:117-122|1974|10.1016/0304-3746(74)90019-5
153121|T||Modjo,H.S., J.W. Hendrix, and W.C. Nesmith|Mycorrhizal Fungi in Relation to Control of Tobacco Stunt Disease with Soil Fumigants|Soil Biol. Biochem.19(3): 289-295|1987|10.1016/0038-0717(87)90011-3
153122|T||Santos,B.M., J.P. Gilreath, J.M. Lopez-Aranda, L. Miranda, C. Soria, and J.J. Medina|Comparing Methyl Bromide Alternatives for Strawberry in Florida and Spain|J. Agron.6(1): 225-227|2007|
153123|T||Schisler,D.A., and R.G. Linderman|Selective Influence of Volatiles Purged from Coniferous Forest and Nursery Soils on Microbes of a Nursery Soil|Soil Biol. Biochem.21(3): 389-396|1989|10.1016/0038-0717(89)90149-1
153124|T||Zehnder,G.W., C. Yao, G. Wei, and J.W. Kloepper|Influence of Methyl Bromide Fumigation on Microbe-Induced Resistance in Cucumber|Biocontrol Sci. Technol.10(5): 687-693|2000|10.1080/095831500750016488
153125|T||Gilreath,J.P., B.M. Santos, J.P. Jones, and J.W. Noling|Efficacy of Mulches and Methyl Bromide Alternatives on Soilborne Pests and Weeds in Spring Tomato|Asian J. Plant Sci.3(6): 670-674|2004|10.3923/ajps.2004.670.674
153128|T||Cheetham,T.|Pathological Alterations in Embryos of the Codling Moth (Lepidoptera: Tortricidae) Induced by Methyl Bromide|Ann. Entomol. Soc. Am.83(1): 59-67|1990|10.1093/aesa/83.1.59
153130|T||Parlade,J., J. Pera, I.F. Alvarez, D. Bouchard, B. Genere, and F. Le Tacon|Effect of Inoculation and Substrate Disinfection Method on Rooting and Ectomycorrhiza Formation of Douglas Fir Cuttings|Ann. For. Sci.56(1): 35-40|1999|10.1051/forest:19990105
153131|T||Mohapatra,S., A.K. Ahuja, M. Deepa, and D. Sharma|Residues of Acephate and Its Metabolite Methamidophos in/on Mango Fruit  (Mangifera indica L.)|Bull. Environ. Contam. Toxicol.86(1): 101-104|2011|10.1007/s00128-010-0154-2
153133|T||Barak,A.V., Y. Wang, L. Xu, Z. Rong, X. Hang, and G. Zhan|Methyl Bromide as a Quarantine Treatment for Anoplophora glabripennis (Coleoptera: Cerambycidae) in Regulated Wood Packing Material|J. Econ. Entomol.98(6): 1911-1916|2005|10.1093/jee/98.6.1911
153134|T||Barak,A.V., Y. Weidong, Y. Daojian, J. Yi, K. Lin, C. Zhilin, L. Xingyuan, and Z. Guoping|Methyl Bromide as a Quarantine Treatment for Chlorophorus annularis (Coleoptera: Cerambycidae) in Raw Bamboo Poles|J. Econ. Entomol.102(3): 913-920|2009|10.1603/029.102.0308
153135|T||Cheetham,T.|Methyl Bromide Induces Perineural Glial Cell Damage in the Ventral Nerve Cord of the Codling Moth Cydia pomonella (L.) (Lepidoptera: Tortricidae)|J. Kans. Entomol. Soc.65(1): 53-58|1992|
153136|T||Dentener,P.R., S.M. Alexander, R.J. Petry, G.M. O'Connor, P.J. Lester, K.V. Bennett, and J.H. Maindonald|Effect of a Combined Methyl Bromide Fumigation and Cold Storage Treatment on Cydia pomonella (Lepidoptera: Tortricidae) Mortality on Apples|J. Econ. Entomol.91(2): 528-533|1998|10.1093/jee/91.2.528
153137|T||Eayre,C.G., J.J. Sims, H.D. Ohr, and B. Mackey|Evaluation of Methyl Iodide for Control of Peach Replant Disorder|Plant Dis.84(11): 1177-1179|2000|10.1094/PDIS.2000.84.11.1177
153138|T||Hanson,B.D., J.S. Gerik, and S.M. Schneider|Effects of Reduced-Rate Methyl Bromide Applications Under Conventional and Virtually Impermeable Plastic Film in Perennial Crop Field Nurseries|Pest Manag. Sci.66(8): 892-899|2010|10.1002/ps.1959
153139|T||Hartsell,P.L., P.V. Vail, J.S. Tebbets, and H.D. Nelson|Methyl Bromide Quarantine Treatment for Codling Moth (Lepidoptera: Tortricidae) in Unshelled Walnuts|J. Econ. Entomol.84(4): 1289-1293|1991|10.1093/jee/84.4.1289
153140|T||Jessup,A.J., C.W. Hood, and R.F. Sloggett|The Effects of Hot-Water Dipping, Methyl Bromide with or Without Cold Storage and gamma Irradiation on Egg Hatch of Asynonychus cervinus Boheman (Coleoptera: Curculionidae)|J. Aust. Entomol. Soc.32(2): 99-101|1993|10.1111/j.1440-6055.1993.tb00553.x
153141|T||Maindonald,J.H., B.C. Waddell, and D.B. Birtles|Response to Methyl Bromide Fumigation of Codling Moth (Lepidoptera: Tortricidae) Eggs on Cherries|J. Econ. Entomol.85(4): 1222-1230|1992|10.1093/jee/85.4.1222
153142|T||Moffitt,H.R., S.R. Drake, H.H. Toba, and P.L. Hartsell|Comparative Efficacy of Methyl Bromide Against Codling Moth (Lepidoptera: Tortricidae) Larvae in 'Bing' and 'Rainier' Cherries and Confirmation of Efficacy of a Quarantine Treatment for 'Rainier' Cherries|J. Econ. Entomol.85(5): 1855-1858|1992|10.1093/jee/85.5.1855
153143|T||Nyczepir,A.P., and P.F. Bertrand|Preplanting Bahia Grass or Wheat Compared for Controlling Mesocriconema xenoplax and Short Life in a Young Peach Orchard|Plant Dis.84(7): 789-793|2000|10.1094/PDIS.2000.84.7.789
153144|T||Ohr,H.D., J.J. Sims, N.M. Grech, J.O. Becker, and M.E.,Jr. McGiffen|Methyl Iodide, an Ozone-Safe Alternative to Methyl Bromide as a Soil Fumigant|Plant Dis.80(7): 731-735|1996|10.1094/PD-80-0731
153145|T||Small,G.J.|A Comparison Between the Impact of Sulfuryl Fluoride and Methyl Bromide Fumigations on Stored-Product Insect Populations in UK Flour Mills|J. Stored Prod. Res.43(4): 410-416|2007|10.1016/j.jspr.2006.11.003
153146|T||Wilson,N.H., P.E. Newton, M. Rahi, H.F. Bolte, and R.L. Suber|Methyl Bromide: 1-Year Dietary Study in Dogs|Food Chem. Toxicol.36(1): 575-584|1998|10.1016/S0278-6915(98)00018-0
153147|T||Yao,S., I.A. Merwin, G.S. Abawi, and J.E. Thies|Soil Fumigation and Compost Amendment Alter Soil Microbial Community Composition but do not Improve Tree Growth or Yield in an Apple Replant Site|Soil Biol. Biochem.38(3): 587-599|2006|10.1016/j.soilbio.2005.06.026
153148|T||Wells,S.M.|Granular Forms of Sodium and Potassium Azide as a Nematicide for Established Turfgrasses|Ph.D.Thesis, Auburn University, Auburn, AL:112 p.|2009|
153149|T||Yokoyama,V.Y., G.T. Miller, and P.L. Hartsell|Methyl Bromide Fumigation for Quarantine Control of Codling Moth (Lepidoptera: Tortricidae) on Nectarines|J. Econ. Entomol.80(4): 840-842|1987|10.1093/jee/80.4.840
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153151|T||Yokoyama,V.Y., G.T. Miller, and P.L. Hartsell|Evaluation of a Methyl Bromide Quarantine Treatment to Control Codling Moth (Lepidoptera: Tortricidae) on Nectarine Cultivars Proposed for Export to Japan|J. Econ. Entomol.83(2): 466-471|1990|10.1093/jee/83.2.466
153152|T||Yokoyama,V.Y., G.T. Miller, and P.L. Hartsell|A Methyl Bromide Quarantine Treatment to Control Codling Moth (Lepidoptera: Tortricidae) on Nectarines Packed in Shipping Containers for Export to Japan and Effect on Fruit Attributes|J. Econ. Entomol.83(6): 2335-2339|1990|10.1093/jee/83.6.2335
153153|T||Dilley,C.A.|Soil Quality in Strawberry and Vineyard Agroecosystems Maintained Under Conventional and Alternative Weed Management Systems|Ph.D. Thesis, Iowa State University, IA:135 p.|2007|
153154|T||Yokoyama,V.Y., G.T. Miller, and P.L. Hartsell|Methyl Bromide Efficacy and Residues in Large-Scale Quarantine Tests to Control Codling Moth (Lepidoptera: Tortricidae) on Nectarines in Field Bins and Shipping Containers for Export to Japan|J. Econ. Entomol.87(3): 730-735|1994|10.1093/jee/87.3.730
153155|T||Tanner,S.C.|Peach Tree Root Demography and Soil Microbial Characteristics in Peach Replant Soils|M.S. Thesis, Clemson University, Clemson, SC:127 p.|2007|
153156|T||Beers,E.H.|Tenlined June Beetle Control, 1993|Arthropod Manag. Tests19:37-|1994|10.1093/amt/19.1.37a
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153158|A||Brucka-Jastrzebska,E., and M. Protasowicki|Elimination Dynamics of Cadmium, Administered by a Single Intraperitoneal Injection, in Common Carp, Cyprinus carpio L.|Acta Ichthyol. Piscat.34(2): 167-179|2004|10.3750/AIP2004.34.2.05
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153161|T||Johnson,J.W., and J.C. Wise|Peach, Season-Long Insect Control, 1995|Arthropod Manag. Tests21:54-|1996|10.1093/amt/21.1.54
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153165|T||Frost,T.J., D.A.,Sr. Roland, and G.G. Untawale|Influence of Vitamin D3, 1 alpha-Hydroxyvitamin D3, and 1,25-Dihydroxyvitamin D3 on Eggshell Quality, Tibia Strength, and Various Production Parameters in Commercial Laying Hens|Poult. Sci.69(11): 2008-2016|1990|10.3382/ps.0692008
153166|T||Harms,R.H., S.M. Bootwalla, S.A. Woodward, H.R. Wilson, and G.A. Untawale|Some Observations on the Influence of Vitamin D Metabolites When Added to the Diet of Commercial Laying Hens|Poult. Sci.69(3): 426-432|1990|10.3382/ps.0690426
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153169|T||Saxena,Y.|Toxic Effects of Calciferol (Vit.D2) on the Liver and Kidney of Meriones hurrianae Jerdon|J. Anim. Morphol. Physiol.42(1/2): 39-41|1995|
153170|T||Singh,S.K., and M.C. Prasad|Vitamin D Induced Arteriosclerosis in Goats|Indian J. Anim. Sci.59(9): 1114-1117|1989|
153171|T||Singh,S.K., and M.C. Prasad|Pathology of Hypervitaminosis D in Goats: An Experimental Study|Indian J. Anim. Sci.60(3): 295-301|1990|
153172|T||Takagi,T., D. Leszczynski, and F. Kummerow|Coronary Atherosclerosis in Swine Induced by a Mild Dietary Excess of Vitamin D|Nutr. Rep. Int.28(5): 1111-1118|1983|
153173|T||Dupont Chemicals|Initial Submission:  Eye Irritation Test in Rabbits With Sodium Hydroxide with Cover Letter Dated 101592|EPA/OTS Doc. #88-920009805:15 p.|1992|
153174|T||Saxena,D.K., and M. Saiful-Arfeen|Effect of Cu and Cd on Oxidative Enzymes and Chlorophyll Content of Moss Racomitrium crispulum|Taiwania54(4): 365-374|2009|
153175|A||Jin,Y., L. Shu, L. Sun, W. Liu, and Z. Fu|Temperature and Photoperiod Affect the Endocrine Disruption Effects of Ethinylestradiol, Nonylphenol and Their Binary Mixture in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.151(2): 258-263|2010|10.1016/j.cbpc.2009.11.004
153176|T||Jha,A.K., S. Prakash, N. Jain, K. Nanda, and S.C. Gupta|Production of Adventitious Shoots and Plantlets from the Hypocotyl Explants of Sesbania rostrata (Bremek & Obrem.)|In Vitro Cell. Dev. Biol., Plant38(5): 430-434|2002|10.1079/IVP2002313
153177|T||Budai,P., I.M. Somlyay, L.E. Varnagy, and T. Varga|Comparison of In Vitro (HET-CAM) and In Vivo (Draize) Irritation Tests Using Different Pesticides|Meded. Fac. Landbouwwet. Univ. Gent60(2B): 593-597|1995|
153178|T||Jha,S.K., A.K. Nayak, and Y.K. Sharma|Response of Spinach (Spinacea oleracea) to the Added Fluoride in an Alkaline Soil|Food Chem. Toxicol.46(9): 2968-2971|2008|10.1016/j.fct.2008.05.024
153179|A||Jiang,Y., P. Xie, and G. Liang|Distribution and Depuration of the Potentially Carcinogenic Malachite Green in Tissues of Three Freshwater Farmed Chinese Fish with Different Food Habits|Aquaculture288(1/2): 1-6|2009|10.1016/j.aquaculture.2008.10.025
153180|T||El-Nahal,A.K.M., A.A. Barakat, and M.Y. Hashem|Effect of Sublethal Concentration Time Products on the Biology and Fecundity of the Cowpea Weevil, Callosobruchus maculatus (F.) Fumigated with Methyl Bromide|Bull. Entomol. Soc. Egypt14:133-140|1984|
153181|T||Graham,W.M.|Warehouse Ecology Studies of Bagged Maize in Kenya - IV. Reinfestation Following Fumigation with Methyl Bromide Gas|J. Stored Prod. Res.6(2): 177-180|1970|10.1016/0022-474X(70)90006-8
153182|T||Clason,T.R.|Early Growth Enhancement Increases Loblolly Pine Rotation Yields|South. J. Appl. For.13(2): 94-99|1989|10.1093/sjaf/13.2.94
153183|T||Amin,M.E., A.H. Kamel, I.I. Ismail, and A.K.M. El-Nahal|Effect of Rearing Tribolium castaneum (Hbst.) on Rice Germ and Rice Bran on the Susceptibility of Its Developmental Stages to Methyl Bromide Fumigation|Bull. Entomol. Soc. Egypt11:57-63|1979|
153184|T||Forney,C.F., S.J. Peterson, and P. Hartsell|Preconditioning Grapefruit Callus Tissue Reduces Methyl Bromide-Induced K+ Leakage|Hortscience25(6): 669-670|1990|10.21273/HORTSCI.25.6.669
153185|T||EPA/OTS|Range Finding Tests on Diphenyl Tables of Protocols Attached with Cover Letter|EPA/OTS Doc.#878213680:13 p.|1983|
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153189|T||Fort,S.B., and D.V. Shaw|Genetic Analysis of Strawberry Root System Traits in Fumigated and Nonfumigated Soils II. Relationships Among Root System and Above-Ground Traits of Strawberry Seedlings|J. Am. Soc. Hortic. Sci.125(3): 324-329|2000|10.21273/JASHS.125.3.324
153190|T||Fort,S.B., and D.V. Shaw|Genetic Analysis of Strawberry Root System Traits in Fumigated and Nonfumigated Soils I. Inheritance Patterns of Strawberry Root System Characteristics|J. Am. Soc. Hortic. Sci.125(3): 318-323|2000|10.21273/JASHS.125.3.318
153191|T||Fort,S.B., and D.V. Shaw|Phenotypic Correlations Between Root and Shoot Traits of Strawberry in Fumigated and Nonfumigated Soils|Hortscience33(2): 222-224|1998|
153192|AT||Jessing,K.K., N. Cedergreen, J. Jensen, and H.C.B. Hansen|Degradation and Ecotoxicity of the Biomedical Drug Artemisinin in Soil|Environ. Toxicol. Chem.28(4): 701-710|2009|10.1897/08-153R.1
153193|T||Jin,C., Q. Zhou, Q. Zhou, and J. Fan|Effects of Chlorimuron-Ethyl and Cadimum on Biomass Growth and Cadimum Accumulation of Wheat in the Phaiozem Area, Northeast China|Bull. Environ. Contam. Toxicol.84(4): 395-400|2010|10.1007/s00128-009-9635-6
153194|A||Jones,D.K., J.I. Hammond, and R.A. Relyea|Very Highly Toxic Effects of Endosulfan Across Nine Species of Tadpoles: Lag Effects and Family-Level Sensitivity|Environ. Toxicol. Chem.28(9): 1939-1945|2009|10.1897/09-033.1
153195|A||Katsiadaki,I., T.D. Williams, J.S. Ball, T.P. Bean, M.B. Sanders, H. Wu, E.M. Santos, M.M. Brown, P. Baker, F. Ortega, |Hepatic Transcriptomic and Metabolomic Responses in the Stickleback (Gasterosteus aculeatus) Exposed to Ethinyl-Estradiol|Aquat. Toxicol.97(3): 174-187|2010|10.1016/j.aquatox.2009.07.005
153196|T||Nelson,S.D., C. Riegel, L.H.,Jr. Allen, D.W. Dickson, J. Gan, S.J. Locascio, and D.J. Mitchell|Volatilization of 1,3-Dichloropropene in Florida Plasticulture and Effects on Fall Squash Production|J. Am. Soc. Hortic. Sci.126(4): 496-502|2001|10.21273/JASHS.126.4.496
153197|T||Koopen,N.R., H. Wolters, R. Havinga, R.J. Vonk, P.L.M. Jansen, M. Muller, and F. Kuipers|Impaired Activity of the Bile Canalicular Organic Anion Transporter (Mrp2/cmoat) is Not the Main Cause of Ethinylestradiol-Induced Cholestasis in the Rat|Hepatology27(2): 537-545|1998|10.1002/hep.510270231
153198|T||Li,S.A., D.Z.J. Liao, E.M. Yazlovitskaya, C.G. Pantazis, and J.J. Li|Induction of Cathepsin D Protein During Estrogen Carcinogenesis:  Possible Role in Estrogen-Mediated Kidney Tubular Cell Damage|Carcinogenesis18(7): 1375-1380|1997|10.1093/carcin/18.7.1375
153199|T||Jefferson,W.N., D. Doerge, E. Padilla-Banks, K.A. Woodling, G.E. Kissling, and R. Newbold|Oral Exposure to Genistin, the Glycosylated form of Genistein, During Neonatal Life Adversely Affects the Female Reproductive System|Environ. Health Perspect.117(12): 1883-1889|2009|10.1289/ehp.0900923
153200|T||Jenkins,S., N. Raghuraman, I. Eltoum, M. Carpenter, J. Russo, and C.A. Lamartiniere|Oral Exposure to Bisphenol A Increases Dimethylbenzanthracene-Induced Mammary Cancer in Rats|Environ. Health Perspect.117(6): 910-915|2009|10.1289/ehp.11751
153201|A||Palace,V.P., R.E. Evans, K.G. Wautier, K.H. Mills, P.J. Blanchfield, B.J. Park, C.L. Baron, and K.A. Kidd|Interspecies Differences in Biochemical, Histopathological, and Population Responses in Four Wild Fish Species Exposed to Ethynylestradiol Added to a Whole Lake|Can. J. Fish. Aquat. Sci.66(11): 1920-1935|2009|10.1139/F09-125
153203|T||Ilhan,K., U. Arslan, and O.A. Karabulut|The Effect of Sodium Bicarbonate Alone or in Combination with a Reduced Dose of Tebuconazole on the Control of Apple Scab|Crop Prot.25(9): 963-967|2006|10.1016/j.cropro.2006.01.002
153204|T||Irigaray,P., V. Ogier, S. Jacquenet, V. Notet, P. Sibille, L. Mejean, B.E. Bihain, and F.T. Yen|Benzo(a)pyrene Impairs beta-Adrenergic Stimulation of Adipose Tissue Lipolysis and Causes Weight Gain in Mice - A Novel Molecular Mechanism of Toxicity for a Common Food Pollutant|FEBS J.273(7): 1362-1372|2006|10.1111/j.1742-4658.2006.05159.x
153205|T||Matschke,G.H.|Fertility Control in White-Tailed Deer by Steroid Implants|J. Wildl. Manag.41(4): 731-735|1977|10.2307/3799997
153206|A||Jeanne,N., A.C. Dazy, and A. Moreau|Cadmium Interactions with ATPase Activity in the Euryhaline Alga Dunaliella bioculata|Hydrobiologia (Multiple Languages)252:245-256|1993|10.1007/BF00005473
153207|T||Matschke,G.H.|Antifertility Action of Two Synthetic Progestins in Female White-Tailed Deer|J. Wildl. Manag.41(2): 194-196|1977|10.2307/3800594
153208|T||Matschke,G.H.|Efficacy of Steroid Implants in Preventing Pregnancy in White-Tailed Deer|J. Wildl. Manag.44(3): 756-758|1980|10.2307/3808036
153209|T||Gilreath,J.P., B.M. Santos, J.W. Noling, S.J. Locascio, D.W. Dickson, E.N. Rosskopf, and S.M. Olson|Performance of Containerized and Bare-Root Transplants with Soil Fumigants for Florida Strawberry Production|HortTechnology16(3): 461-465|2006|10.21273/HORTTECH.16.3.0461
153210|T||Particka,C.A., and J.F. Hancock|Field Evaluation of Strawberry Genotypes for Tolerance to Black Root Rot on Fumigated and Nonfumigated Soil|J. Am. Soc. Hortic. Sci.130(5): 688-693|2005|10.21273/JASHS.130.5.688
153212|T||Santos,B.M., J.P. Gilreath, and M.N. Siham|Comparing Fumigant Retention of Polyethylene Mulches for Nutsedge Control in Florida Spodosols|HortTechnology17(3): 308-311|2007|10.21273/HORTTECH.17.3.308
153213|T||Muthu,M., and S. Rajendran|A Biological Method for Methyl Bromide Assay in Fumigation|Int. Pest Control21(1): 8-9|1979|
153214|T||Fraedrich,S.W., and L.D. Dwinell|The Effects of Soil Fumigation on Pine Seedling Production, Weeds, Foliar and Soil Nutrients, and Soilborne Microorganisms at a South Georgia (U.S.A.) Forest Tree Nursery|Can. J. For. Res.33(9): 1698-1708|2003|10.1139/x03-084
153215|T||Ahmed,M.S.H., A.A. Hameed, A.A. Kadhum, S.R. Ali, J. Farkas, D.I. Langerak, and M.D.A. Van Duren|Comparative Evaluation of Trial Shipments of Fumigated and Radiation Disinfested Dates from Iraq|Acta Aliment.14(4): 355-366|1985|
153216|T||Khanna,S.C., T.D. Yadav, and K.N. Katiyar|Efficacy of Hydrogen Phosphide and Methyl Bromide to Check Carryover Source of Infestation of Pink Bollworm, Pectinophora gossypiella Saunders in Cotton|Seed Res.22(2): 184-186|1994|
153217|T||Ngugi,C.W., J.M. Ikahu, and N.K. Koech|Effectiveness of Methyl Bromide in the Control of Nematodes, Fungi and Weeds in Pyrethrum Propagation Nurseries|Pyrethrum Post19(1): 2-7|1993|
153218|T||Bell,C.H.|The Tolerance of Immature Stages of Four Stored Product Moths to Methyl Bromide|J. Stored Prod. Res.12(1): 1-10|1976|10.1016/0022-474X(76)90016-3
153219|T||Bell,C.H.|Minimum Concentration Levels of Methyl Bromide Required for Full Efficacy Against Seven Species of Stored-Product Beetle at Two Temperatures|Pestic. Sci.24(2): 97-109|1988|10.1002/ps.2780240202
153220|T||Hole,B.D., C.H. Bell, and C.R. Bowley|The Toxicity of Methyl Chloroform to Stored Product Insects|J. Stored Prod. Res.21(2): 95-100|1985|10.1016/0022-474X(85)90028-1
153221|T||Hinsch,R.T., C.M. Harris, P.L. Hartsell, and J.C. Tebbets|Methyl Bromide Effects on Fruit Quality, 1990|Insectic. Acaric. Tests16:33-34|1991|10.1093/iat/16.1.33a
153222|T||Starratt,A.N., and E.J. Bond|Metabolism of Methyl Bromide by Susceptible and Resistant Strains of the Granary Weevil, Sitophilus granarius (L.)|Pestic. Biochem. Physiol.15(3): 275-281|1981|10.1016/0048-3575(81)90011-0
153223|T||Stevenson,B.A., T. McLendon, and E.F. Redente|Effects of Soil Fumigation and Seeding Regimes on Secondary Succession in a Semiarid Shrubland|Arid Soil Res. Rehabil.14(1): 87-99|2000|10.1080/089030600263193
153224|T||Upitis,E., H.A.U. Monro, and E.J. Bond|Some Aspects of Inheritance of Tolerance to Methyl Bromide by Sitophilus granarius (L.)|J. Stored Prod. Res.9(1): 13-17|1973|10.1016/0022-474X(73)90033-7
153226|T||Tsai,W.T., L.J. Mason, W. Chayaprasert, D.E. Maier, and K.E. Ileleji|Investigation of Fumigant Efficacy in Flour Mills Under Real-World Fumigation Conditions|J. Stored Prod. Res.47:179-184|2011|10.1016/j.jspr.2010.10.006
153227|T||Suess,A., and H. Staerk|The Application of Activation Analysis for the Control of Bromide Accumulation in Vegetable|J. Radioanal. Chem.37(2): 905-916|1977|10.1007/BF02519402
153228|T||Miner,G.S., and D.A. Worsham|Fumigation of Tobacco Plantbeds with Dazomet|Tob. Sci.34:82-87|1990|
153229|T||Hansen,J.D., D.J. Albano, and M.L. Heidt|Efficacy of Using in-Carton Fumigation with the Quarantine Treatment Against Codling Moth on Apples Intended for Export to Japan|HortTechnology12(3): 441-443|2002|10.21273/HORTTECH.12.3.441
153230|T||Hansen,J.D., S.R. Drake, H.R. Moffitt, D.J. Albano, and M.L. Heidt|Methyl Bromide Fumigation of Five Cultivars of Sweet Cherries as a Quarantine Treatment Against Codling Moth|HortTechnology10(1): 194-198|2000|10.21273/HORTTECH.10.1.194
153231|T||Hansen,J.D., S.R. Drake, H.R. Moffitt, J.L. Robertson, D.J. Albano, and M.L. Heidt|A Two-Component Quarantine Treatment for Postharvest Control of Codling Moth on Apple Cultivars Intended for Export to Japan and Korea|HortTechnology10(1): 186-194|2000|10.21273/HORTTECH.10.1.186
153232|T||Tomomatsu,S., T. Sakaguchi, T. Ogino, T. Hiramatsu, T. Misumi, and F. Kawakami|Methyl Bromide Fumigation for Quarantine Control of Persimmon Fruit Moth and Yellow Peach Moth on Japanese Persimmons|Shokubutsu Boekijo Chosa Kenkyu Hokoku (Non-English)31:67-73|1995|
153233|T||Macdonald,O.C., and R.J. Mitchell|Evaluation of Methyl Bromide as a Fumigant Against Liriomyza huidobrensis|Tests Agrochem. Cultiv.17:2-3|1996|
153234|T||Mehta,V.K., G.R. Sethi, and A.K. Garg|Effect of Gamma Radiation and Fumigants on Tribolium castaneum (Herbst)|J. Nucl. Agric. Biol.13(11): 109-111|1984|
153238|T||Srinath,D., and N.P. Ramchandani|Investigations on Fumigation of Walnuts With Methyl Bromide|J. Food Sci. Technol.15(5): 192-194|1978|
153239|T||Verma,B.R.|Methyl Bromide Fumigation Schedule for Chalcidoids, Bruchophagus mellipes Gahan and Systole albipennis Walker Infesting Different Seeds|J. Entomol. Res.10(2): 138-143|1986|
153240|T||Bletsos,F.A.|Grafting and Calcium Cyanamide as Alternatives to Methyl Bromide for Greenhouse Eggplant Production|Sci. Hortic.107(4): 325-331|2006|10.1016/j.scienta.2005.09.003
153241|T||Wang,Q., W. Klassen, E.A. Evans, Y. Li, and M. Codallo|Combination of Organic and Plastic Mulches to Improve the Yield and Quality of Winter Fresh Market Bell Peppers (Capsicum annuum L.)|Hortscience45(4): 701-706|2010|10.21273/HORTSCI.45.4.701
153242|T||Fennimore,S.A., M.J. Haar, R.E. Goodhue, and C.Q. Winterbottom|Weed Control in Strawberry Runner Plant Nurseries with Methyl Bromide Alternative Fumigants|Hortscience43(5): 1495-1500|2008|10.21273/HORTSCI.43.5.1495
153243|T||Shaw,D.V., T.R. Gordon, and K.D. Larson|Runner Plant Cold Storage Reduces Verticillium dahliae Infection of Nursery Origin in Strawberry|Hortscience37(6): 932-935|2002|10.21273/HORTSCI.37.6.932
153245|T||Schneider,S.M., B.D. Hanson, J.S. Gerik, A. Shrestha, T.J. Trout, and S. Gao|Comparison of Shank- and Drip-Applied Methyl Bromide Alternatives in Perennial Crop Field Nurseries|HortTechnology19(2): 331-339|2009|10.21273/HORTTECH.19.2.331
153246|T||Jarret,R.L., W. Rodriguez, and R. Fernandez|Evaluation, Tissue Culture Propagation, and Dissemination of 'Saba' and 'Pelipita' Plantains in Costa Rica|Sci. Hortic.25(2): 137-147|1985|10.1016/0304-4238(85)90085-8
153247|T||Harvey,J.M., C.M. Harris, and P.L. Hartsell|Tolerances of California Nectarine Cultivars to Methyl Bromide Quarantine Treatments|J. Am. Soc. Hortic. Sci.114(4): 626-629|1989|10.21273/JASHS.114.4.626
153248|T||Yao,S., I.A. Merwin, and M.G. Brown|Root Dynamics of Apple Rootstocks in a Replanted Orchard|Hortscience41(5): 1149-1155|2006|10.21273/HORTSCI.41.5.1149
153250|T||Talbert,R.E., L.A. Schmidt, M.L. Lovelace, and E.F. Scherder|Field Evaluation of Herbicides on Small Fruit, Vegetable, and Ornamental Crops, 1999|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.:1-22|2000|
153252|T||Wolfe,D., J.R. Hartman, G.R. Brown, and J. Strang|The Influence of Soil Fumigation on Strawberry Yield and Economics in Black Root Rot Infested Fields|Appl. Agric. Res.5(1): 17-20|1990|
153253|T||Chandler,C.K., D.E. Legard, and J.W. Noling|Performance of Strawberry Cultivars on Fumigated and Nonfumigated Soil in Florida|HortTechnology11(1): 69-71|2001|10.21273/HORTTECH.11.1.69
153254|T||Tanner,S.C., G.L. Reighard, and C.E. Wells|Soil Treatments Differentially Affect Peach Tree Root Development and Demography in a Replant Site|Acta Hortic.713:381-390|2006|10.17660/ActaHortic.2006.713.55
153255|A||Mayer,F.L., D.R. Buckler, F.J. Dwyer, M.R. Ellersieck, L.C. Sappington, J.M. Besser, and C.M. Bridges|Endangered Aquatic Vertebrates: Comparative and Probabilistic-Based Toxicology|EPA/600/R-08/045, U.S.EPA, Washington, DC:43 p.|2008|
153256|T||Muhammad,F., N.A. Monteiro-Riviere, and J.E. Riviere|Comparative In Vivo Toxicity of Topical JP-8 Jet Fuel and Its Individual Hydrocarbon Components:  Identification of Tridecane and Tetradecane as Key Constituents Responsible for Dermal Irritation|Toxicol. Pathol.33(2): 258-266|2005|10.1080/01926230590908222
153257|T||Nakamura,Y., I. Bando, J.H. Mennear, and B.K. Bernard|Studies of the Toxicological Potential of Tripeptides (L-valyl-L-Prolyl-L-Proline and L-Isoleucyl-L-Prolyl-L-Proline):  IV.  Assessment of the Repeated-Dose Toxicological Potential of Synthesized L-valyl-L-Prolyl-L-Prol|Int. J. Toxicol.24(suppl.4): 25-39|2005|10.1080/10915810500259580
153259|T||Vahle,J.L., G.G. Long, G. Sandusky, M. Westmore, Y.L Ma, and M. Sato|Bone Neoplasms in F344 Rats Given Teriparatide [rhPTH(1-34)] are Dependent on Duration of Treatment and Dose|Toxicol. Pathol.32(4): 426-438|2004|10.1080/01926230490462138
153261|T||Zhang,Z., J.M. Lipman, R.M. Diener, and P. Thomas|Comparative Immunotoxicity Evaluation of Amphotericin B and ABELCET, an Amphotericin B Lipid Complex (ABLC)|Int. J. Toxicol.25(6): 487-492|2006|10.1080/10915810600961242
153262|T||Yu,D.K., and R.J. Sawchuk|Pharmacokinetics of Propylene Glycol in the Rabbit|J. Pharmacokinet. Biopharm.15(5): 453-471|1987|10.1007/BF01061757
153263|T||Chu,I., D.J. Murdoch, D.C. Villeneuve, and A. Viau|Tissue Distribution and Elimination of Trichlorobenzenes in the Rat|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes22(4): 439-453|1987|
153264|T||Moore,D.J., J.I. Brodfuehrer, T.J. Wilke, and G. Powis|Disposition and Metabolism of the Antitumor Agent Pyrazine-2-diazohydroxide in Mouse and Beagle Dog|Cancer Chemother. Pharmacol.21:269-273|1988|10.1007/BF00264190
153266|T||Bonfanti,M., C. Magagnotti, M. Bonati, R. Fanelli, and L. Airoldi|Pharmacokinetic Profile and Metabolism of N-Nitrosobutyl-(4-hydroxybutyl)amine in Rats|Cancer Res.48:3666-3669|1988|
153267|T||Nouws,J.F.M., D. Mevius, T.B. Vree, M. Baakman, and M. Degen|Pharmacokinetics, Metabolism, and Renal Clearance of Sulfadiazine, Sulfamerazine, and Sulfamethazine and of Their N4-Acetyl and Hydroxy Metabolites in Calves and Cows|Am. J. Vet. Res.47(7): 1059-1065|1988|
153268|T||Glanzer,K., H. Pfeiffer, and H. Wetzel|Pharmacokinetic Study of Albendazole and Its Principal Metabolites in Cattle|Acta Pharm. Technol.34(2): 108-114|1988|
153269|T||Thompson,H.C.,Jr., C.L. Holder, P.H. Siitonen, K.L. Rowland, A.B. Gosnell, and J.L. Cmarik|Metabolism of Pyrilamine Maleate in Fischer 344 Rats  Part I: Activity Excretion Profiles|J. Anal. Toxicol.11:252-256|1987|10.1093/jat/11.6.252
153270|T||Stacpoole,P.W., M.G. Gonzalez, J. Vlasak, Y. Oshiro, and N. Bodor|Dichloroacetate Derivatives.  Metabolic Effects and Pharmacodynamics in Normal Rats|Life Sci.:2167-2176|1987|10.1016/0024-3205(87)90535-2
153271|T||Tocco,D.J., F.A. Deluna, A.E.W. Duncan, H.G. Ramjit, S.M. Pitzenberger, and J.Y. Hsieh|Disposition and Metabolism of Sodium 4-((3-(4-acetyl-3-hydroxy-2-propylphenoxy)propyl)sulfonyl)-gamma-Oxobenzenebutanoate in Rats and Dogs|Drug Metab. Dispos.16(5): 690-696|1988|
153272|T||Darnowski,J.W., and R.E. Handschumacher|Benzylacyclouridine:  Pharmacokinetics, Metabolism and Biochemical Effects in Mice|Biochem. Pharmacol.37(13): 2613-2618|1988|10.1016/0006-2952(88)90254-7
153273|AT||Salonen,J.S., and E.M. Suolinna|Metabolism of Detomidine in the Rat.  I. Comparison of 3H-Labelled Metabolites Formed In Vitro and In Vivo|Eur. J. Drug Metab. Pharmacokinet.13(1): 53-58|1988|10.1007/BF03189929
153274|T||Kamataki,T., M. Komori, M. Iwasaki, H. Ohi, M. Kitada, T. Miura, and K. Ono|Effects of Muroctasin on the Activities of Drug Metabolizing Enzymes in Liver Microsomes of Rats|Arzneim. Forsch.38:1019-1022|1988|
153275|T||Weil,A., J. Caldwell, and M. Strolin-Benedetti|The Metabolism and Disposition of Fenofibrate in Rat, Guinea Pig, and Dog|Drug Metab. Dispos.16(2): 302-309|1988|
153276|T||Larson,K.D., and D.V. Shaw|Soil Fumigation, Fruit Production, and Dry Matter Partitioning of Field-Grown Strawberry Plants|J. Am. Soc. Hortic. Sci.121(6): 1137-1140|1996|10.21273/JASHS.121.6.1137
153277|T||Ebert,T.A., and B.C. Kondratieff|Effects of a Methamidophos Application on Pasimachus elongatus LeConte (Coleoptera: Carabidae)|J. Kans. Entomol. Soc.65(2): 151-156|1992|
153278|T||Johnson,G.D., D.A. Palmer, H.O. Krueger, and D.L. Fischer|Stability of Residues and Brain Cholinesterase Activity in Carcasses of Northern Bobwhite Exposed to Three Organophosphate Insecticides|Environ. Toxicol. Chem.12(4): 673-676|1993|10.1002/etc.5620120408
153279|T||Kostromytska,O.S., E.A. Buss, and M.E. Scharf|Toxicity and Neurophysiological Effects of Selected Insecticides on the Mole Cricket, Scapteriscus vicinus (Orthoptera: Gryllotalpidae)|Pestic. Biochem. Physiol.100(1): 27-34|2011|10.1016/j.pestbp.2011.01.012
153280|T||Satpute,U.S., D.N. Sarnaik, and P.D. Bhalerao|New Insecticides for the Management of Cotton Bollworms|Pesticides 23(12): 26-27|1989|
153281|T||Ray,A.N.|Chemical Control of Rice Leaf-Folder Larva Cnaphalocrocis medinalis Guenee|Pesticides 19(5): 46-49|1985|
153282|T||Rajput,S.G., V.P. Dalaya, and B.G. Awate|Field Evaluation of Synthetic Pyrethroids and Other Insecticides Against Groundnut Leaf Miner (Aproaerema modicella, D.)|Pesticides 19(12): 34-35|1985|
153283|T||Bogatko,W., and G. Labanowski|Chemical Control of the Black Vine Weevil (Otiorrhynchus sulcatus F.) on Ornamental Crops|J. Fruit Ornam. Plant Res.1(3): 93-101|1993|
153284|T||Labanowska,B.H.|Effectiveness of Chemical Control of Strawberry Weevil (Otiorrynchus spp.) in Strawberry Plantations|J. Fruit Ornam. Plant Res.2(4): 157-164|1994|
153285|T||Zhang,W., M.E.,Jr. McGiffen, J.O. Becker, H.D. Ohr, J.J. Sims, and S.D. Campbell|Effect of Soil Physical Factors on Methyl Iodide and Methyl Bromide|Pestic. Sci.53(1): 71-79|1998|10.1002/(SICI)1096-9063(199805)53:1<71::AID-PS731>3.0.CO;2-S
153286|T||Mitri,S.H., and A.A.M. Kamel|Initial and Residual Effect Studies of Certain Insecticides on Spodoptera littoralis (Boisd) in 1970 Season (Lepidoptera: Noctuidae)|Bull. Entomol. Soc. Egypt7:261-264|1973|
153287|T||More,G.D., N.R. Kadu, and S.P. Lokhande|Field Evaluation of Some Modern Insecticides for the Control of Leucinodes orbonalis Gn. on Brinjal|PKV Res. J.11(2): 178-|1987|
153288|T||Sarag,D.G., and U.S. Satpute|Efficacy of Some Synthetic Insecticides and Bacillus thuringiensis var. Kenyae Against Bollworms of Cotton|PKV Res. J.12(2): 119-122|1988|
153289|T||Semtner,P.J., and T.R. Terrill|Budworm Control in the Tobacco Nursery|Tob. Sci.30:142-145|1986|
153290|T||Singh,Y.P.|A Note on the Chemical Control of Pomegranate Butterfly (Virachola isocrates Fabr.) on Kinnow Mandarin|Prog. Hortic.17(3): 265-266|1985|
153291|T||Tappan,W.B., and J.R. Rich|Comparison of a New Synthetic Pyrethroid Insecticide with Acephate for Flue-Cured Tobacco Insect Control |Tob. Sci.29:153-154|1985|
153292|T||Wali-Ur-Rahman, and M.I. Chaudhry|Control of Oak Defoliator Gazalina chrysolopha Kollar|Pak. J. For.41(2): 89-93|1991|
153293|AT||Yadav,H.S., and V.P. Gargav|Chemical Control of Singhara Beetle, Galerucella birmanica Jacoby |Indian J. Plant Prot.16(2): 159-162|1988|
153294|T||Zaman,M., and Karimullah |Chemical Control of Yellow Mite, Whitefly and Hairy Caterpillar on Jute in Peshawar|Pak. J. Agric. Res.7(4): 294-301|1986|
153295|T||Zanwar,P.R., and G.D. Jadhav|Toxicity of Some Insecticides to the Predator, Coccinella septempunctata Linn.|J. Maharashtra Agric. Univ.20(2): 259-260|1997|
153296|T||Zethner,O., B.M. Khan, M.I. Chaudhry, B. Bolet, S. Khan, H.U. Khan, H. Gul, L. Ogaard, M. Zaman, and G. Nawaz|Agrotis segetum Granulosis Virus as a Control Agent Against Field Populations of Agrotis ipsilon and A. segetum (Lep.: Noctuidae) on Tobacco, Okra, Potato and Sugar Beet in Northern Pakistan|Entomophaga32(5): 449-455|1987|10.1007/BF02373513
153297|A||Chakraborty,T., Y. Katsu, L.Y. Zhou, S. Miyagawa, Y. Nagahama, and T. Iguchi|Estrogen Receptors in Medaka (Oryzias latipes) and Estrogenic Environmental Contaminants: An In Vitro-In Vivo Correlation|J. Steroid Biochem. Mol. Biol.123(3-5): 115-121|2011|10.1016/j.jsbmb.2010.11.015
153299|T||Jusoh,M.M.|Control of Leaf-Miners and Other Leaf-Feeders Infesting Angsana and Pongamia Trees of Malaysia Via Trunk Injection|J. Trop. Agric. Food Sci.26(2): 159-164|1998|
153300|T||Mohamad,R.B., and P.C. Oloffs|Toxicity and Relative Selectivity of Acephate to Target and Non-Target Organisms|Pertanika10(1): 75-80|1987|
153301|T||Danka,R.G., J.L. Williams, C.W. Harmon, T.E. Rinderer, and H.F. Morris|Doses and Residues of Acephate Baits Used to Eradicate Undesirable Honey Bees:  A Hazard Assessment|Bull. Environ. Contam. Toxicol.47(3): 422-427|1991|10.1007/BF01702205
153302|T||Webster,T.C., and Y.S. Peng|Short-Term and Long-Term Effects of Methamidophos on Brood Rearing in Honey Bee (Hymenoptera: Apidae) Colonies|J. Econ. Entomol.82(1): 69-74|1989|10.1093/jee/82.1.69
153303|T||Speese III,J.|Foliar Sprays to Control Insects in Spring and Fall Planted Snapbeans, 1995|Arthropod Manag. Tests21:85-86|1996|10.1093/amt/21.1.85a
153304|T||McPherson,R.M., B.D. Crowe, and C.S. Bundy|Aphid Control on Tobacco and Impact on Budworm Population Densities, 1998|Arthropod Manag. Tests24:302-303|1999|
153305|T||Flint,H.M., S.E. Naranjo, J.E. Leggett, and T.J. Henneberry|Cotton Water Stress, Arthropod Dynamics, and Management of Bemisia tabaci (Homoptera: Aleyrodidae)|J. Econ. Entomol.89(5): 1288-1300|1996|10.1093/jee/89.5.1288
153306|T||Smilanick,J.M., F.G. Zalom, and L.E. Ehler|Effect of Methamidophos Residue on the Pentatomid Egg Parasitoids Trissolcus basalis and T. utahensis(Hymenoptera: Scelionidae)|Biol. Control6(2): 193-201|1996|10.1006/bcon.1996.0024
153307|A||Anwar,T., S. Tahir, I. Ahmad, A.H. Baladi, and Omm-e-Hani |Residual Toxicity of Methamidophos Against a Common Fresh Water Fish|Int. J. Biol. Biotechnol.3(3): 591-593|2006|
153308|A||Little,E.E., and R.D. Calfee|Toxicity of Chlorine and Copper to Rainbow Trout and to White Sturgeon from the Kootenai River and Columbia River|Report by the U.S. Geological Survey, Columbia MO, for the U.S.. Fish and Wildlife Service, Spokane WA:24 p.|2008|
153309|A||Oliva,M., M.L. Gonzalez de Canales, M.C. Garrido, and S. Sales|Lindane Toxicity Range-Finding Test in Senegal Sole (Solea senegalensis) Juvenile:  Note on Histopathological Alterations|Toxicol. Environ. Chem.92(5): 915-926|2010|10.1080/02772240903090573
153310|A||Fort,D.J., R.L. Rogers, J.W. Gorsuch, L.T. Navarro, R. Peter, and J.R. Plautz|Triclosan and Anuran Metamorphosis: No Effect on Thyroid-Mediated Metamorphosis in Xenopus laevis|Toxicol. Sci.113(2): 392-400|2010|10.1093/toxsci/kfp280
153311|A||Gatidou,G., E. Vassalou, and N.S. Thomaidis|Bioconcentration of Selected Endocrine Disrupting Compounds in the Mediterranean Mussel, Mytilus galloprovincialis|Mar. Pollut. Bull.60(11): 2111-2116|2010|10.1016/j.marpolbul.2010.07.003
153312|A||Oliveira,R., I. Domingues, C.K. Grisolia, and A.M.V.M. Soares|Effects of Triclosan on Zebrafish Early-Life Stages and Adults|Environ. Sci. Pollut. Res. Int.16(6): 679-688|2009|10.1007/s11356-009-0119-3
153313|A||Hannas,B.R., Y.H. Wang, S. Thomson, G. Kwon, H. Li, and G.A. LeBlanc|Regulation and Dysregulation of Vitellogenin mRNA Accumulation in Daphnids (Daphnia magna)|Aquat. Toxicol.101(2): 351-357|2011|10.1016/j.aquatox.2010.11.006
153314|A||Raut,S.A., and R.A. Angus|Triclosan has Endocrine-Disrupting Effects in Male Western Mosquitofish, Gambusia affinis|Environ. Toxicol. Chem.29(6): 1287-1291|2010|10.1002/etc.150
153315|A||Palenske,N.M., G.C. Nallani, and E.M. Dzialowski|Physiological Effects and Bioconcentration of Triclosan on Amphibian Larvae|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(2): 232-240|2010|10.1016/j.cbpc.2010.04.009
153316|T||Banks,W.A.|Insect Growth Regulators for Control of the Imported Fire Ant|In:  C.S. Lofgren and R.K. Vander Meer (Eds.), Fire Ants and Leaf Cutting Ants, Biology and Management. Westview Press, Boulder, CO32:387-398|1986|
153317|A||Fort,D.J., R.L. Rogers, S. Pawlowski, and S. Champ|Triclosan does not Affect Thyroid-Mediated Metamorphosis in Xenopus laevis - Additional Data|Toxicol. Sci.119(2): 419-422|2011|10.1093/toxsci/kfq344
153318|A||Ricart,M., H. Guasch, M. Alberch, D. Barcelo, C. Bonnineau, A. Geiszinger, M. Farre, J. Ferrer, F. Ricciardi, A.M. Roma|Triclosan Persistence Through Wastewater Treatment Plants and Its  Potential Toxic Effects on River Biofilms|Aquat. Toxicol.100(4): 346-353|2010|10.1016/j.aquatox.2010.08.010
153319|A||Nassef,M., S. Matsumoto, M. Seki, F. Khalil, I.J. Kang, Y. Shimasaki, Y. Oshima, and T. Honjo|Acute Effects of Triclosan, Diclofenac and Carbamazepine on Feeding Performance of Japanese Medaka Fish (Oryzias latipes)|Chemosphere80(9): 1095-1100|2010|10.1016/j.chemosphere.2010.04.073
153321|A||Yang,B., G.G. Ying, J.L. Zhao, L.J. Zhang, Y.X. Fang, and L.D. Nghiem|Oxidation of Triclosan by Ferrate:  Reaction Kinetics, Products Identification and Toxicity Evaluation|J. Hazard. Mater.186(1): 227-235|2011|10.1016/j.jhazmat.2010.10.106
153322|A||Call,D., and L. Brooke|Cr+6 Acute Toxicity Test Check with Gammarus (with Attached Data)|Memo from D.Call and L.Brooke to R.Russo:5 p.|1980|
153323|T||Iqbal,J., I.A. Khan, and A.R. Saljoki|Control of Tobacco Cutworm, Agrotis ipsilon Hufn. (Noctuidae; Lepidoptera) with Synthetic Pyrethroids and Organophosphate Insecticides|Sarhad J. Agric.13(5): 485-487|1997|
153324|T||Dix,M.E.|Effectiveness of Carbaryl and Acephate in Reducing Damage by Petrova metallica (Busck) (Lepidoptera: Tortricidae) in  Ponderosa Pine Windbreaks |U.S.D.A. Forest Service, Rocky Mountain Forest and Range Experiment Station, Fort Collins, CO:4 p.|1985|
153325|T||Kinzer,H.G., and J.M. Reeves|Chemical Treatments for Brood Control and Suppression of Dendroctonus adjunctus Attacks on Ponderosa Pine|Southwest. Entomol.10(4): 244-252|1985|
153327|T||El-Sayed,G.N., M.A. El-Guindy, G.M. Moawad, S.M. Madi, and A.M.I. Farrag|Spatial Distribution of Resistance to Insecticides in Different Field Strains of the Greasy Cutworm, Agrotis ipsilon (Rott.)|Bull. Entomol. Soc. Egypt11:209-218|1979|
153329|T||Khan,M.F.R., and R.P. Griffin|Efficacy of Insecticides at Controlling Insect Pests of Tomato in South Carolina|J. Agric. Urban Entomol.16(3): 165-170|1999|
153330|T||Griffin,R.P., and M.F.R. Khan|Efficacy of Insecticides on Tomato Insects, 1997|Arthropod Manag. Tests23:154-155|1998|10.1093/amt/23.1.154
153331|T||Zehnder,G., and J. Speese III|Control of Lepidopterous Larvae on Fall Cabbage, 1990|Insectic. Acaric. Tests16:67-|1991|10.1093/iat/16.1.67
153332|T||Dalvi,C.S., R.B. Dumbre, and V.G. Khanvilkar|Efficacy of Some Insecticides for the Control of Rice Blue Beetle, Leptispa pygmaea Baly|Pesticides 19(7): 11-12|1985|
153333|T||Khan,M.M., M.A. Rustamani, M.A. Talpur, H.B. Balouch, and A.B. Chhutto|Efficacy of Different Insecticides Against Heliothis armigera (Hub.) on Gram|Pak. J. Zool.25(2): 117-119|1993|
153335|T||Mann,J.E., J.A. DuRant, S.G. Turnipseed, and M.J. Sullivan|Alternatives to Pyrethroids for Control of Helicoverpa zea (Boddie) and Heliothis virescens (F.) on Cotton in South Carolina|J. Agric. Entomol.12(2/3): 127-136|1995|
153337|T||Omkar, and S.R. Tripathi|Toxicity of Some Pesticides to the Gram Pod Borer, Heliothis armigera (Hubner) (Lepidoptera:  Noctuidae)|G. Ital. Entomol.3(12): 179-183|1986|
153338|T||Nagia,D.K., S. Kumar, and M.L. Saini|Relative Toxicity of Some Important Insecticides to Bihar Hairy Caterpillar, Spilosoma obliqua (Walker) (Arctiidae:  Lepidoptera)|J. Entomol. Res.14(1): 60-62|1990|
153339|T||Schuster,D.J.|Insect Management on Fresh Market Tomatoes in West-Central Florida, Spring 1995|Arthropod Manag. Tests21:185-186|1996|10.1093/amt/21.1.185
153340|T||Mohamad,R.B., and M.Y. Ismail|Persistence of Insecticides Against Larvae of Plutella xylostella (L.)|Insect Sci. Appl.9(1): 109-112|1988|
153342|T||Lal,S.S., and C.P. Yadava|Efficacy of Certain Insecticides Against Pod Borers Infesting Pigeonpea|Pesticides 22(12): 30-35|1988|
153343|T||Kay,I.R., and J.D. Brown|Insecticidal Control of Eggfruit Caterpillar Sceliodes cordalis (Doubleday) (Lepidoptera:  Pyralidae) in Eggplant|Plant Prot. Q.7(4): 178-179|1992|
153344|T||Kumar,T.P., and M.R.G.K. Nair|Insecticidal Control of Damage to Black Pepper Spikes by Longitarsus nigripennis Mots|Pesticides 22(2): 18-|1988|
153345|T||Hirashima,A., R. Takeya, E. Taniguchi, and M. Eto|Metamorphosis, Activity of Juvenile-Hormone Esterase and Alteration of Ecdysteroid Titres: Effects of Larval Density and Various Stress on the Red Flour Beetle, Tribolium freemani Hinton (Coleoptera: Tenebrionidae)|J. Insect Physiol.41(5): 383-388|1995|10.1016/0022-1910(94)00138-7
153346|T||Gupta,G.P., and R.A. Agarwal|Effect of Insecticides for the Control of Bollworms in Relation to Phenological Characters in Cotton|Pesticides 19(10): 58-60|1985|
153348|T||Gara,R.I., A. Sarango, and P.G. Cannon|The Role of Chemical Control in an Integrated Pest Management of the Neotropical Walnut Shootborer, Gretchena garai ( Lepidoptera:  Tortricidae) in Ecuador|J. Trop. For. Sci.4(2): 147-150|1991|
153349|T||Ascher,K.R.S., and N.E. Nemny|Ovicides for Spodoptera littoralis (Boisd.)|Int. Pest Control32(5): 124-128|1990|
153350|T||Ahmed,K., N.H.P. Rao, and A.S. Reddy|Ovicidal Action of Insecticides on Eggs of Gram Pod-Borer (Heliothis armigera)|Indian J. Agric. Sci.60(2): 154-156|1990|
153351|T||Wyman,J.A.|Management Approaches for Cruciferous Insect Pests in Central North America|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan:503-509|1990|
153352|T||Sukhija,H.S., N.S. Butter, and J. Singh|Efficacy of New Organophosphatic Insecticides Against Bollworms on Hirsutum Cotton|Pesticides 19(10): 45-46,52|1985|
153353|T||Verghese,A., D.K. Nagaraju, V. Vasudev, P.D. Kamala Jayanthi, H.S. Madhura, and J.M. Stonehouse|Effectiveness of Insecticides of Synthetic, Plant and Animal Origin Against the Mango Stone Weevil, Sternochetus mangiferae (Fabricius) (Coleoptera: Curculionidae)|Crop Prot.24(7): 633-636|2005|10.1016/j.cropro.2004.11.004
153354|T||Manley,D.G., and P. Markwell|Acephate and Spinosad Impact on Parasitoids of Heliothis virescens (F.) (Lepidoptera: Noctuidae) on Tobacco in South Carolina|J. Entomol. Sci.41(4): 399-402|2006|10.18474/0749-8004-41.4.399
153355|T||Kashyap,N.P., D.C. Sharma, R.M. Bhagat, and S.M. Suri|Bioefficacy of Insecticides Against Potato Tuber Moth|J. Indian Potato Assoc.20(2): 179-181|1994|
153356|T||Vernon,R.S., and J.R. Mackenzie|Evaluation of Foliar Sprays Against the Tuber Flea Beetle, Epitrix tuberis Gentner (Coleoptera: Chrysomelidae), on Potato|Can. Entomol.123(2): 321-331|1991|10.4039/Ent123321-2
153357|T||Athalye,S.S., and R.S. Patil|Bionomics, Seasonal Incidence and Chemical Control of Cashew Leaf Miner|J. Maharashtra Agric. Univ.23(1): 29-31|1998|
153358|T||Banbote,B.G., R.B. Gawande, and S.U. Satpute|Efficacy of Different Synthetic and Herbal Insecticides Against the Pests of Cotton|PKV Res. J.19(2): 104-106|1995|
153359|T||Cowles,R.S.|Vine Weevil Adulticides |In: D.V.Alford and G.F.Backhaus (Eds.), Mitteilungen aus der Biologischen Bundesanstalt Fuer Land- und Forstwirtschaft Berlin-Dahlem, Heft 316:113-117|1996|
153360|T||Dolmans,N.G.M., and R.W.H.M. Van Tol|Prospects for Chemical Control of Black Vine Weevil (Otiorhynchus sulcatus) in Nursery Stock|In: D.V.Alford and G.F.Backhaus (Eds.), Mitteilungen aus der Biologischen Bundesanstalt Fuer Land- und Forstwirtschaft Berlin-Dahlem, Heft 316:108-112|1996|
153361|T||Zenner de Polania,I.|Research and Management Strategies for Potato Insect Pests in Colombia|In: S.K.Hahn and F.E.Caveness (Eds.), Integrated Pest Management for Tropical Root and Tuber Crops, Workshop on the Global Status of and Prospects for Integrated Pest Management of Root and Tuber Crops in the Tropics, Oct.25-30, 1987, Ibadan, Nigeria:139-|1990|
153362|T||Patil,C.S., V.M. Khaire, and U.N. Mote|Comparative Performance of Different Insecticides Against Pigeonpea Pod Borer Complex on Short Duration Pigeonpea|J. Maharashtra Agric. Univ.15(3): 337-339|1990|
153363|T||Mallikarjunappa,S., and D. Rajagopal|Comparative Efficacy of Insecticides Against Pod Borers Complex of Field Bean Under Field Conditions|Mysore J. Agric. Sci.25(1): 49-54|1991|
153364|T||Kumar,N.P.V.V., M.M.K. Murthy, and G.P.V. Reddy|Effective Insecticidal Schedule for Major Insect Pests of Rice (Oryza sativa)|Indian J. Agric. Sci.58(9): 734-735|1988|
153365|T||El-Sayed,E.I., and E.F. Abdallah|Resistance of Cotton Leafworm, Spodoptera littoralis (Boisd.) Populations, from Different Governorates of Egypt, to Some Insecticides|Ann. Agric. Sci.33(2): 1343-1352|1988|
153366|T||Kisha,J.S.A.|Comparison of the Electrodynamic Spraying Technique with Other Conventional Methods for Control of Vegetable Pests in the Sudan Gezira - Control of Jassid and Budworm on Eggplant|Tests Agrochem. Cultiv.7:8-9|1986|
153367|T||Micinski,S., B.J. Fitzpatrick, F.D. Forrester, and J.B. Graves|Late-Season Control of the Bollworm-Tobacco Budworm Complex in Cotton, 1993 |Arthropod Manag. Tests19:234|1994|10.1093/amt/19.1.234
153368|T||Doss,M., and K. Pinkston|Bagworm Control on Eastern Red Cedar, 1990 |Insectic. Acaric. Tests16:268-|1991|10.1093/iat/16.1.268
153369|T||Doss,M., and K. Pinkston|Bagworm Control of Eastern Red Cedar, 1991 |Insectic. Acaric. Tests17:358-|1992|10.1093/iat/17.1.358a
153370|T||Doss,M., and K. Pinkston|Control of Fall Webworm on Walnut, 1991 |Insectic. Acaric. Tests17:73-|1992|10.1093/iat/17.1.73
153371|T||Wu,G., S. Jiang, and T. Miyata|Seasonal Changes of Methamidophos Susceptibility and Biochemical Properties in Plutella xylostella (Lepidoptera:  Yponomeutidae) and Its Parasitoid Cotesia plutellae (Hymenoptera:  Braconidae)|J. Econ. Entomol.97(5): 1689-1698|2004|10.1603/0022-0493-97.5.1689
153372|T||Doss,M., and K. Pinkston|Bagworm Control on Eastern Red Cedar, 1992 |Insectic. Acaric. Tests18:347-|1993|10.1093/iat/18.1.347a
153373|T||Cao,G., and Z. Han|Tebufenozide Resistance Selected in Plutella xylostella and Its Cross-Resistance and Fitness Cost|Pest Manag. Sci.62(8): 746-751|2006|10.1002/ps.1234
153374|T||Dhamdhere,S.V., J. Bahadur, and U.S. Misra|Efficacy of Some Foliar Insecticides Against Earias vitella Fabricius Infesting Okra, Abelmoschus esculentus (L.) Moench|J. Entomol. Res.8(2): 128-131|1984|
153375|T||Eckenrode,C.J., D.R. Webb, and M.L. Hessney|European Corn Borer Control, 1997 |Arthropod Manag. Tests23:73-|1998|
153376|T||Edelson,J.V., and M. Peters|Evaluation of Insecticide Efficacy and Yield Response in Peppers, 1996 |Arthropod Manag. Tests22:148|1997|10.1093/amt/22.1.148
153377|T||Ali,A.D., J.M. Henry, and J. Garcia|Systemics Prove Impractical for Control of Eucalyptus Borer|Calif. Agric.42(3): 8-9|1988|
153378|T||Crowe,B.D., J.D. Taylor, and R.M. McPherson|Control of Stink Bugs, Velvetbean Caterpillars, and Threecornered Alfalfa Hoppers on Soybeans, 1995 |Arthropod Manag. Tests22:311-312|1997|10.1093/amt/22.1.311
153379|T||Clark,S., and D. Gilrein|Chemical Control of Black Vine Weevil, 1990  |Insectic. Acaric. Tests16:259-260|1991|10.1093/iat/16.1.259a
153380|T||Cranshaw,W.S., and F.C. Schweissing|Control of Larval Striped Cucumber Beetle Injury to Muskmelon Fruit, Rocky Ford, CO 1995|Arthropod Manag. Tests21:124-125|1996|10.1093/amt/21.1.124a
153381|T||Burkness,E.C., P.K. O'Rourke, and W.D. Hutchinson|Control of European Corn Borer in Minnesota Snap Beans, 1988|Arthropod Manag. Tests24:97-|1999|
153382|T||Bacheler,J.S., and D.W. Mott|Control of Second Generation Tobacco Budworms on Cotton in Southern North Carolina, 1995 |Arthropod Manag. Tests21:239-|1996|
153383|T||Adamczyk,J.J.,Jr., B.R. Leonard, J.H. Fife, and J.B. Graves|Control of Boll Weevil on Cotton with Selected Insecticides, 1997|Arthropod Manag. Tests23:213-214|1998|10.1093/amt/23.1.213a
153385|T||Schuster,D.J.|Insect Management on Bell Pepper in West-Central Florida, Fall 1994 |Arthropod Manag. Tests21:133-134|1996|10.1093/amt/21.1.133
153386|T||Berry,E.C., and R.P. Knake|Population Suppression of Black Cutworm (Lepidoptera: Noctuidae) Larvae with Seed Treatments |J. Econ. Entomol.80(4): 921-924|1987|10.1093/jee/80.4.921
153387|T||Semtner,P.J., T.D. Reed, and M.L. Barnes|Tobacco Insect Control with Systemic Insecticides, 1990 |Insectic. Acaric. Tests16:238-|1991|
153388|T||Semtner,P.J., and D.A. Komm|Aphid and Flea Beetle Control with Bay NTN 33893 Applied as Soil Drench and Foliar Treatments, 1990 |Insectic. Acaric. Tests16:238-239|1991|
153389|T||Semtner,P.J., M.B. Reed, and D.A. Komm|Tobacco Insect Control with NTN 33893, 1991 |Insectic. Acaric. Tests17:298-|1992|
153390|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Aphid and Tobacco Flea Beetle Control with Foliar and Transplant Water Treatments, 1992 |Insectic. Acaric. Tests18:290-291|1993|10.1093/iat/18.1.290
153392|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Hornworm and Tobacco Budworm Control on Tobacco with Bacillus thuringiensis, 1993 |Arthropod Manag. Tests19:284-|1994|10.1093/amt/19.1.284
153393|T||Semtner,P.J., and W.B. Wilkinson III|Management of the Tobacco Aphid and Tobacco Budworm on Flue-Cured Tobacco, 1993 |Arthropod Manag. Tests19:289-290|1994|10.1093/amt/19.1.289
153394|T||Semtner,P.J., and W.B. Wilkinson III|Insect Control on Flue-Cured Tobacco with Systemic Insecticides, 1994 |Arthropod Manag. Tests20:258-259|1995|10.1093/amt/20.1.258
153395|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Insect Control with Insecticides Applied in the Transplant Water, 1994 |Arthropod Manag. Tests20:260-261|1995|10.1093/amt/20.1.260
153396|T||Semtner,P.J., and W.B. Wilkinson III|Aphid and Flea Beetle Control of Tobacco Grown in Fumigated Soil, 1994 |Arthropod Manag. Tests20:261-262|1995|10.1093/amt/20.1.261
153397|T||Semtner,P.J., J. Litton, and A. Brock|Flea Beetle and Aphid Control with Transplant Water Treatments on Burley Tobacco, 1995 |Arthropod Manag. Tests21:306-|1996|
153398|T||Semtner,P.J., S.K. Dara, and W.B. Wilkinson III|Insect Control on Flue-Cured Tobacco with Systemic Insecticides, 1995 |Arthropod Manag. Tests21:306-308|1996|
153399|T||Semtner,P.J., S.K. Dara, and W.B. Wilkinson III|Tobacco Insect Control with Insecticides Applied in the Transplant Water, 1995 |Arthropod Manag. Tests21:309-310|1996|10.1093/amt/21.1.309
153400|T||Semtner,P.J., and W.B. Wilkinson III|Aphid and Flea Beetle Control on Tobacco with Insecticides Applied in the Transplant Water, 1997 |Arthropod Manag. Tests23:300-301|1998|10.1093/amt/23.1.300
153401|T||Semtner,P.J., and W.B. Wilkinson III|Tobacco Insect Control with Insecticides Applied in the Transplant Water, 1996 |Arthropod Manag. Tests23:298-299|1998|
153402|T||Semtner,P.J., and W.B. Wilkinson III|Insect Control on Flue-Cured Tobacco with Systemic Insecticides, 1996 |Arthropod Manag. Tests23:295-296|1998|10.1093/amt/23.1.295
153403|T||Semtner,P.J., and W.B. Wilkinson III|Insect Control of Flue-Cured Tobacco with Systemic Insecticides, 1997 |Arthropod Manag. Tests23:296-297|1998|10.1093/amt/23.1.296
153404|T||Cranshaw,W., and F. Schweissing|Adult Control of Striped Cucumber Beetle for Management of Larval Injury to Cantaloupe|Southwest. Entomol.22(2): 217-221|1997|
153405|T||Story,R., A.O. Ameen, M.J. Murray, F. Can, and D. Ring|Control of Yellowmargined Leaf Beetle on Turnip, 1995|Arthropod Manag. Tests22:173-|1997|10.1093/amt/22.1.173
153406|T||Dedek,W., J. Pape, F. Grimmer, and H.J. Korner|Integrated Pest Control in Forest Management - Combined Use of Pheromones and Insecticides for Attracting and Killing the Bark Beetle Ips typographus. II. Effects of Methamidophos Treatment Following Bark Penetration in|For. Ecol. Manag.26(1): 63-76|1988|10.1016/0378-1127(88)90102-8
153407|T||Dedek,W., and J. Pape|Integrated Pest Control in Forest Management -- Combined Use of Pheromones and Insecticides for Attracting and Killing the Bark Beetle Ips typographus. I. Studies with 32P-Labelled Methamidophos in the Ascending Sap of |For. Ecol. Manag.26(1): 47-61|1988|10.1016/0378-1127(88)90101-6
153408|T||Tanigoshi,L.K., and J.D. Chamberlain|Root Weevil Control 1996 |Arthropod Manag. Tests22:388-|1997|10.1093/amt/22.1.388a
153409|T||Teague,T.G., and N.P. Tugwell|Cage Studies with Tarnished Plant Bug Control Using Curacron, 1996 |Arthropod Manag. Tests22:275-276|1997|10.1093/amt/22.1.275
153410|T||Teague,T.G., and N.P. Tugwell|Bollworm and Tarnished Plant Bug Control 1996 |Arthropod Manag. Tests22:277-278|1997|
153411|T||Vittum,P.J.|Efficacy of Several Insecticides Against Annual Bluegrass Weevils, Golf Course Fairway, 1992 |Insectic. Acaric. Tests18:316-317|1993|
153412|T||Vittum,P.J.|Efficacy of Insecticides Applied Curatively Against Annual Bluegrass Weevils, Golf Course Fairway, 1993 |Arthropod Manag. Tests19:317-318|1994|
153413|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Fipronil and Acephate, 1994 |Arthropod Manag. Tests20:228-|1995|10.1093/amt/20.1.228
153414|T||Elzen,G.W., B.R. Leonard, J.B. Graves, E. Burris, and S. Micinski|Resistance to Pyrethroid, Carbamate, and Organophosphate Insecticides in Field Populations of Tobacco Budworm (Lepidoptera: Noctuidae) in 1990|J. Econ. Entomol.85(6): 2064-2072|1992|10.1093/jee/85.6.2064
153416|T||Fleischer,S.J., D. Delorme, F.W. Ravlin, and R.J. Stipes|Implantation of Acephate and Injection of Microbial Insecticides into Pin Oaks for Control of Gypsy Moth: Time and Efficacy Comparisons|J. Arboric.15(7): 153-158|1989|
153417|T||Sweeden,M.B., P.J. McLeod, and W.R. Russell|Acephate Effect on Dryland and Irrigated Cowpeas when Applied for Thrips (Thysanoptera:  Thripidae) and Corn Earworm (Lepidoptera:  Noctuidae) Control|J. Econ. Entomol.87(6): 1627-1631|1994|10.1093/jee/87.6.1627
153418|T||Webb,S.E.|Control of Insect Pests of Squash, 1992 |Insectic. Acaric. Tests18:169-|1993|10.1093/iat/18.1.169
153419|T||Wier,A.T., J.D. Thomas, M.L. Boyd, and D.J. Boethel|Control of Southern Green Stink Bug and Velvetbean Caterpillar on Soybean, 1992 |Insectic. Acaric. Tests18:277-278|1993|
153420|T||Webb,R.E., R.C. Reardon, A.M. Wieber, V.K. Boyd, H.G. Larew, and R.J. Argauer|Suppression of Gypsy Moth (Lepidoptera: Lymantriidae) Populations on Oak Using Implants or Injections of Acephate and Methamidophos|J. Econ. Entomol.81(2): 573-577|1988|10.1093/jee/81.2.573
153421|T||Zoebelein,G.|Long-Term Field Studies About Pesticide Effects on Ladybird Beetles (Coleoptera: Coccinellidae)|Entomol. Gen.13(3/4): 175-187|1988|10.1127/entom.gen/13/1988/175
153422|T||Semtner,P.J., J. Clarke, and W. Wilkinson III|Insect Control on Flue-Cured Tobacco with Foliar Insecticides, 1998|Arthropod Manag. Tests24:312-313|1999|
153423|T||Semtner,P.J., M. Barr, and A. Brock|Insect Control on Burley Tobacco, 1998|Arthropod Manag. Tests24:307-308|1999|
153424|T||Semtner,P.J., J. Clarke, and W.B. Wilkinson III|Aphid and Flea Beetle Control on Burley Tobacco, 1998|Insectic. Acaric. Tests24:308-309|1999|
153425|T||Shamiyeh,N.B., C.H. Roberts, C.A. Mullins, and R.A. Straw|Control of Lepidopterous Pests on Cabbage, 1995 |Arthropod Manag. Tests21:96-97|1996|10.1093/amt/21.1.96a
153426|T||Shamiyeh,N.B., R.A. Straw, C.A. Mullins, and C.J. Southards|Control of Lepidopterous Insects on Cabbage, 1996 |Arthropod Manag. Tests22:107-|1997|10.1093/amt/22.1.107
153427|T||Shamiyeh,N.B., B.R. Gerhardt, C.A. Mullins, and R.A. Straw|Control of Lepidopterous Pests on Cabbage, 1997 |Arthropod Manag. Tests23:83-84|1998|10.1093/amt/23.1.83a
153428|T||Shamiyeh,N.B., E.E. Burgess, and R.A. Follum|Control of Budworms on Burley Tobacco 1998|Arthropod Manag. Tests24:316-|1999|
153429|T||Shetlar,D.J., K.T. Power, M. Belcher, and H.D. Niemczyk|Black Cutworm and Sod Webworm Larval Control on Golf Course Turfgrass Nursery, Medina County, OH, 1994 |Arthropod Manag. Tests20:276-277|1995|10.1093/amt/20.1.276
153430|T||Smithley,D.R., and T.W. Davis|Birch Leafminer Control, Michigan, 1992 |Insectic. Acaric. Tests18:347-|1993|10.1093/iat/18.1.347
153431|T||Smitley,D.R., and T.W. Davis|Control of Gypsy Moth Larvae on Container Grown Crabapple, 1996 |Arthropod Manag. Tests22:393-|1997|10.1093/amt/22.1.393
153432|T||Sorensen,K.A., and K.A. Kidd|Tomato Fruitworm Control, 1990|Insectic. Acaric. Tests17:168-|1992|10.1093/iat/17.1.168
153433|T||Sorenson,C.E., A.S. Stephenson, S.B. Clewis, and C.E. Ratz|Control of Tobacco Hornworms with Foliar Insecticides 1997A |Arthropod Manag. Tests23:304-|1998|
153434|T||Sorenson,C.E., A.S. Stephenson, S.B. Clewis, and C.E. Ratz|Control of Tobacco Hornworms with Foliar Insecticides, 1997B |Arthropod Manag. Tests23:304-305|1998|
153435|T||Thimmaiah,G.|Comparative Efficacy of Certain New Insecticides in the Control of Leaf Hoppers and Bollworms of Cotton|Mysore J. Agric. Sci.19(2): 90-94|1985|
153436|T||Sorensen,K.A., and C.W. Holloway|Control of Lepidopterous Larvae with Insecticides, 1997|Arthropod Manag. Tests23:87-|1998|10.1093/amt/23.1.87
153437|T||Southern,P.S., and M.M. Browne|Tobacco Budworm Control on Flue-Cured Tobacco with Foliar Insecticides, 1996|Arthropod Manag. Tests22:330-|1997|10.1093/amt/22.1.330
153438|T||Speese III,J.|Comparison of Biological and Standard Materials to Control Insects in Fall Tomatoes, 1995|Arthropod Manag. Tests21:188-189|1996|10.1093/amt/21.1.188a
153439|T||Steward,V.B.|Control of Gelechiid Larvae Attacking Baldcypress in Pennsylvania, 1991 |Insectic. Acaric. Tests17:357-|1992|10.1093/iat/17.1.357
153440|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle and Green Peach Aphid Control with Soil Applied Insecticides and Foliar Sprays, 1996|Arthropod Manag. Tests22:162-163|1997|10.1093/amt/22.1.162
153441|T||Reed,T.D., J.W. Todd, and M.H. Bass|A New Technique for Determining the Effects of Soil Moisture on Insecticide Efficacy Against Lesser Cornstalk Borer Larvae|J. Entomol. Sci.22(2): 169-174|1987|10.18474/0749-8004-22.2.169
153442|T||Story,R., A.O. Ameen, M.J. Murray, F. Can, and D. Ring|Control of Yellowmargined Leaf Beetle on Mustard, 1995|Arthropod Manag. Tests22:138-139|1997|10.1093/amt/22.1.138a
153443|T||Lietti,M.M.M., E. Botto, and R.A. Alzogaray|Insecticide Resistance in Argentine Populations of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae)|Neotrop. Entomol. (Multiple Languages)34(1): 113-119|2005|10.1590/S1519-566X2005000100016
153444|T||Fox,C.W., K.J. Waddell, K.D. White, S.H. Faeth, and T.A. Mousseau|Suppression of Leafminer (Coleoptera: Buprestidae) Populations on Turkey Oak (Fagaceae) Using Implants of Acephate|Environ. Entomol.24(6): 1548-1556|1995|10.1093/ee/24.6.1548
153445|T||Karimullah, and S. Ahmad|Chemical Control of Citrus Leaf Miner on Citrus|Pak. J. Agric. Res.9(2): 271-273|1988|
153446|T||Martin,W.R.,Jr., and T.M. Brown|The Action of Acephate in Pseudoplusia includens (Lepidoptera: Noctuidae) and Pristhesancus papuensis (Hemiptera: Reduviidae)|Entomol. Exp. Appl.35(1): 3-10|1984|10.1111/j.1570-7458.1984.tb03350.x
153447|T||Rajput,S.G., V.P. Dalaya, and B.G. Awate|Efficacy of Different Insecticides for the Control of Groundnut Leaf Miner|J. Maharashtra Agric. Univ.9(3): 336-337|1984|
153448|T||Satapathy,M.K., and A. Anjaneyulu|Optimum Dose of Cypermethrin for Tungro Prevention and Its Control|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)92(4): 370-375|1985|
153449|T||Chari,M.S., A.R. Patel, and T.M. Bharpoda|Bio-Efficacy of Some New Insecticides Against Okra Fruit Borer (Earias vittella F.)|Pesticides 21(1): 43-45|1987|
153450|T||Ben-Yakir,D., A.M. Gol'Berg, and M. Chen|Laboratory Efficacy Screening of Insecticides for Control of Maladera matrida Larvae|Phytoparasitica23(2): 119-125|1995|10.1007/BF02980971
153451|T||Bacheler,J.S., and D.W. Mott|Evaluation of Bollworm Thresholds in Bollgard Cotton, 1998|Arthropod Manag. Tests24:235-|1999|
153452|T||Speese III,J.|Comparison of Insect Control on Two Cultivars of BT Transgenic and Non-Transgenic Cotton |Arthropod Manag. Tests22:267-268|1997|10.1093/amt/22.1.267a
153453|T||Acosta,N., C. Cruz, and J. Negron|Insect and Nematode Control in Cucumber (Cucumis sativus) in Puerto Rico|J. Agric. Univ. P. R.70(1): 19-24|1986|10.46429/jaupr.v70i1.7071
153454|T||Suranyi,R.A., and E.B. Radcliffe|Control of Colorado Potato Beetle on Potato, 1995 |Arthropod Manag. Tests21:171-172|1996|10.1093/amt/21.1.171a
153455|T||Sandquist,R.E., and V.J. Erickson|Carry-Over Effects of Trunk-Implanted Acephate for Protecting Douglas Fir from Western-Spruce-Budworm Defoliation|For. Ecol. Manag.40(1/2): 87-91|1991|10.1016/0378-1127(91)90094-C
153456|T||McIntyre,N.E.|Methamidophos Application Effects on Pasimachus elongatus (Coleoptera: Carabidae): an Update|Environ. Entomol.24(3): 559-563|1995|10.1093/ee/24.3.559
153457|T||Rao,G.R., G. Raghavaiah, and B. Nagalingam|Bioefficacy of Botanicals Alone and in Combination with Certain Insecticides Against the Spotted Boll Worm, Earias vittella Infesting Cotton in the Field|J. Entomol. Res.16(3): 242-244|1992|
153458|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Control of the Black Turfgrass Ataenius Larvae on a Golf Course Fairway 1994 |Arthropod Manag. Tests20:273-274|1995|10.1093/amt/20.1.273a
153459|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Control of Northern Masked Chafer Larvae on Turfgrass, 1996 |Arthropod Manag. Tests22:368-|1997|10.1093/amt/22.1.368
153460|T||Reinert,J.A., S.J. Maranz, and M.C. Engelke|Fall Armyworm Control on a Bentgrass Green, Texas, 1997|Arthropod Manag. Tests24:333-|1999|
153461|T||Rethwisch,M.D.|Fall Planting Pre-Emergence Lettuce Insecticides, 1990|Insectic. Acaric. Tests16:86-87|1991|
153462|T||Rodriguez,L.M., J.M. Skias, A.M. Younis, and T.E. Reagan|Aerial Application Control of the Sugarcane Borer, 1992 |Insectic. Acaric. Tests18:279-280|1993|
153463|T||McPherson,R.M., J.D. Taylor, and B.D. Crowe|Late Season Control of Hornworms in GA Flue-Cured Tobacco, 1994 |Arthropod Manag. Tests21:305-|1996|10.1093/amt/21.1.305
153464|T||Rodriguez,L.M., T.E. Reagan, and W.H. White|Efficacy of Aerial Application of Selected Insecticides Against Sugarcane Borer, 1993 |Arthropod Manag. Tests19:279-280|1994|10.1093/amt/19.1.279
153465|T||Leonard,B.R., and J.B. Graves|Evaluation of Ovasyn Mixtures Against Tobacco Budworm and Bollworm, 1990 |Insectic. Acaric. Tests16:190-|1991|10.1093/iat/16.1.190
153466|T||Leonard,B.R., E. Burris, and J.B. Graves|Evaluation of Ovasyn Mixtures Against Tobacco Budworm and Bollworm, 1991 |Insectic. Acaric. Tests18:241-|1993|
153467|T||Klein,C.D., D.R. Johnson, and H.B. Meyers|Evaluation of Selected Insecticides for Control of Boll Weevil, 1995 |Arthropod Manag. Tests21:253-254|1996|10.1093/amt/21.1.253
153468|T||Hata,T.Y., and A.H. Hara|Control of Orchid Weevils on Dendrobium, Hawaii, 1990 |Insectic. Acaric. Tests16:252-|1991|10.1093/iat/16.1.252
153469|T||Hoy,C.W., and M.J. Dunlap|Control of Lepidoptera on Cabbage, 1997|Arthropod Manag. Tests23:77-|1998|10.1093/amt/23.1.77
153470|T||Jasinski,J., E. Grafius, P. Kolarik, and B. Scriber|Control of European Corn Borer on Two Varieties of Peppers, 1992 |Insectic. Acaric. Tests18:139-|1993|10.1093/iat/18.1.139a
153471|T||Heller,P.R., and R. Walker|Evaluation of Conventional Formulations and Entomogenous Nematodes to Control Pine Root Collar Weevil on Austrian Pine in Indiana Co., PA, 1989 |Insectic. Acaric. Tests16:274-|1991|
153472|T||Johnson,D.W., J.H. Herbek, and L.W. Murdock|Cabbage Seedpod Weevil Control, 1990|Insectic. Acaric. Tests17:188-|1992|10.1093/iat/17.1.188
153473|T||Gibb,T.J., W.G. Buhler, and C.K. Gerber|Evaluation of Insecticides for Control of White Grubs, 1996 |Arthropod Manag. Tests22:358-|1997|
153474|T||Rodriguez,L.M., E. Ostheimer, A. Woolwine, T.E. Reagan, D.K. Pollet, and W.H. White|Efficacy of Aerial Application of Selected Insecticides Against Sugarcane Borer, 1994 |Arthropod Manag. Tests20:254-255|1995|10.1093/amt/20.1.254
153475|T||McPherson,R.M., M.L. Padgett, and L. Googe|Tobacco Budworm Control in Flue-Cured Tobacco, 1990 |Insectic. Acaric. Tests16:234-|1991|
153476|T||McPherson,R.M., T. Mintarsih, and J. Donohue|Late Season Tobacco Budworm and Tobacco Hornworm Control on Flue-Cured Tobacco, 1990|Insectic. Acaric. Tests16:235-|1991|10.1093/iat/16.1.235
153477|T||Meyers,H.B., D.R. Johnson, and C.D. Klein|Evaluation of Selected Insecticides for Control of Bollworm and Budworm, 1995|Arthropod Manag. Tests21:258-259|1996|
153478|T||McPherson,R.M., M.L. Padgett, and J.D. Taylor|Budworm and Hornworm Control in Tobacco, 1991|Insectic. Acaric. Tests17:296-297|1992|10.1093/iat/17.1.296
153479|T||McPherson,R.M., B.D. Crowe, and J.D. Taylor|Control of the Stink Bug Complex on Georgia Soybeans, 1994|Arthropod Manag. Tests20:239-240|1995|10.1093/amt/20.1.239
153480|T||McPherson,R.M., B.D. Crowe, and J.D. Taylor|Tobacco Budworm and Hornworm Control in Flue-Cured Tobacco, 1996|Arthropod Manag. Tests22:327-|1997|10.1093/amt/22.1.327
153481|T||McPherson,R.M., J.D. Taylor, and M.L. Wells|Tobacco Budworm Control on Flue-Cured Tobacco, 1998|Arthropod Manag. Tests24:306-307|1999|
153482|T||McPherson,R.M., J.D. Taylor, and B.D. Crowe|Control of Insect Pests on Soybeans, 1998|Arthropod Manag. Tests24:291-|1999|
153484|T||Micinski,S., B.J. Fitzpatrick, and J.B. Graves|Control of the Bollworm-Tobacco Budworm Complex Using Insecticide Combinations, 1992 |Insectic. Acaric. Tests18:248-249|1993|10.1093/iat/18.1.248
153485|T||Micinski,S., B.J. Fitzpatrick, and J.B. Graves|Bollworm-Tobacco Budworm Control, 1992 |Insectic. Acaric. Tests18:247-248|1993|10.1093/iat/18.1.247
153486|T||Micinski,S., R.G. Scarborough, F.D. Forrester, and J.B. Graves|Control of the Bollworm/Tobacco Budworm Complex with Selected Insecticides, 1995|Arthropod Manag. Tests21:260-261|1996|10.1093/amt/21.1.260
153488|T||Micinski,S., R.G. Scarborough, F.D. Forrester, and J.B. Graves|Efficacy of Selected Insecticides for Bollworm/Tobacco Budworm Control, 1996 |Arthropod Manag. Tests22:260-261|1997|10.1093/amt/22.1.260
153489|T||Nault,B.A., and J. Speese III|Evaluation of Foliar Products for Controlling Insect Pests of Snap Beans, 1998|Arthropod Manag. Tests24:97-98|1999|
153490|T||Noetzel,D.M., and J. Miller|Systemic vs Foliar Control of Colorado Potato Beetle, 1993|Arthropod Manag. Tests19:114-|1994|
153491|T||Lampert,E.P., and A.S. Stephenson|Control of Tobacco Budworms with Foliar Insecticides, 1991 |Insectic. Acaric. Tests17:292-293|1992|10.1093/iat/17.1.292
153492|T||Kao,S.S., and C.C. Tzeng|Toxicity of Insecticides to Cotesia plutellae, a Parasitoid of Diamondback Moth|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan32:287-296|1992|
153493|T||Layton,B., M. Howell, and B. Head|Control of Bollworm/Budworm Complex in Mississippi Cotton, Trial II, 1992 |Insectic. Acaric. Tests18:238-|1993|
153494|T||Kono,Y., Y. Okada, and Y. Sato|Activation of Organophosphorus Insecticides in the Central Nerve of Larvae of Spodoptera litura (Lepidoptera:  Noctuidae)|Appl. Entomol. Zool.20(4): 443-449|1985|10.1303/aez.20.443
153495|T||Leonard,B.R., B. Mulkey, and T. Talbot|Control of Diamondback Moth on Spring Planted Cabbage I, 1990|Insectic. Acaric. Tests16:60|1991|
153496|T||Rodriguez,L.M., E.A. Ostheimer, T.E. Reagan, and W.H. White|Small Plot Insecticide Trials, 1993 |Arthropod Manag. Tests19:278-279|1994|10.1093/amt/19.1.278
153497|T||Schuster,D.J., and J.E. Polston|Management of Whiteflies and Armyworm on Fresh Market Tomatoes, Fall 1995|Arthropod Manag. Tests22:180-181|1997|
153498|T||Schuster,D.J.|Armyworm and Pepper Weevil Control on Bell Pepper, Spring 1996|Arthropod Manag. Tests22:150-|1997|10.1093/amt/22.1.150
153499|T||Schuster,D.J.|Control of Armyworm and Pepper Weevil on Bell Pepper, Fall 1996|Arthropod Manag. Tests23:116-117|1998|10.1093/amt/23.1.116
153500|T||Lampert,E.P., and P.S. Southern|Evaluation of Pesticide Application Methods for Control of Tobacco Budworms (Lepidotera: Noctuidae) on Flue-Cured Tobacco|J. Econ. Entomol.80(4): 961-967|1987|10.1093/jee/80.4.961
153501|T||Guerrero-Rodriguez,E., M. Gomez-Cruz, and J. Corrales-Reynaga|Susceptibility to Insecticides in Potato Tuberworm from Different Areas of Mexico, 1990|Arthropod Manag. Tests20:360-|1995|10.1093/amt/20.1.360
153502|T||Noppun,V., T. Miyata, and T. Saito|Cross Resistance and Synergism Studies in the Diamondback Moth, Plutella xylostella L. (Lepidoptera:  Yponomeutidae)|Appl. Entomol. Zool.22(1): 98-104|1987|10.1303/aez.22.98
153503|T||Griffin,R.P., and M.F.R. Khan|Efficacy of Insecticides on Tomato Insects, 1996|Arthropod Manag. Tests23:153-154|1998|10.1093/amt/23.1.153a
153504|T||Gibb,T.J., and W.G. Buhler|Control of the Southern Masked Chafer at the Purdue University Agronomy Research Center, W. Lafayette, IN, 1993|Arthropod Manag. Tests19:321-322|1994|10.1093/amt/19.1.321a
153505|T||Noppun,V., T. Miyata, and T. Saito|Cross Resistance and Synergism in Fenvalerate-Resistant Diamondback Moth, Plutella xylostella (L.)|J. Pestic. Sci. (Multiple Languages)14(2): 203-209|1989|10.1584/jpestics.14.203
153506|T||Rodriguez,L.M., A.E. Woolwine, E.A. Ostheimer, T.E. Reagan, and W.H. White|Small Plot Insecticide Trial Against SCB, 1994 |Arthropod Manag. Tests20:256-|1995|10.1093/amt/20.1.256
153507|T||Russell,W.R., P.J. McLeod, and T.L. Lavy|Acephate as a Potential Management Tool of Helicoverpa zea (Lepidoptera: Noctuidae) in Snap Bean|J. Econ. Entomol.86(3): 860-863|1993|10.1093/jee/86.3.860
153508|T||Schuster,D.J.|Control of Insects on Fresh Market Tomatoes in West-Central Florida, Spring 1994|Arthropod Manag. Tests20:134-136|1995|10.1093/amt/20.1.134
153509|T||Mashaya,N.|Effect of Simulated Rain on Efficacy of Insecticide Deposits on Tobacco|Crop Prot.12(1): 55-58|1993|10.1016/0261-2194(93)90020-J
153510|T||Mink,J.S., and R.G. Luttrell|Mortality of Fall Armyworm, Spodoptera frugiperda (Lepidoptera:  Noctuidae) Eggs, Larvae and Adults Exposed to Several Insecticides on Cotton|J. Entomol. Sci.24(4): 563-571|1989|10.18474/0749-8004-24.4.563
153511|T||Witmer,G.W., N.P. Snow, and P.W. Burke|Evaluating Commercially Available Rodenticide Baits for Invasive Gambian Giant Pouched Rats (Cricetomys gambianus)|Crop Prot.29(9): 1011-1014|2010|10.1016/j.cropro.2010.05.009
153512|T||Gill,J.E.|Laboratory Evaluation of the Toxicity of Flocoumafen as a Single-Feed Rodenticide to Seven Rodent Species|Int. Biodeterior. Biodegrad.30(1): 65-76|1992|10.1016/0964-8305(92)90025-J
153513|T||Hadler,M.R., and R.S. Shadbolt|Novel 4-Hydroxycoumarin Anticoagulants Active Against Resistant Rats|Nature253:275-277|1975|10.1038/253275a0
153514|T||Mahmoud,W., and R. Redfern|The Response of the Egyptian Spiny Mouse (Acomys cahirinus) and Two Other Species of Commensal Rodents to Anticoagulant Rodenticides|J. Hyg.86(3): 329-334|1981|10.1017/S0022172400069072
153515|T||Gill,J.E., and R. Redfern|Some Laboratory Tests of Five Rodenticides for the Control of Arvicanthis niloticus|PANS (Pest Artic. News Summ.)23(1): 33-37|1977|
153516|T||Lam,Y.M.|Laboratory Evaluation of Difenacoum Against the Rice Field Rat, Rattus argentiventer|MARDI Res. Bull.12(2): 194-199|1984|
153517|T||Hata,T.Y., and A.H. Hara|Control of Insect Pests on Red Ginger, Hawaii, 1990|Insectic. Acaric. Tests17:350-351|1992|10.1093/iat/17.1.350a
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153520|T||Hooker,S., and J. Innes|Ranging Behaviour of Forest-Dwelling Ship Rats, Rattus rattus, and Effects of Poisoning with Brodifacoum|N. Z. J. Zool.22(3): 291-304|1995|10.1080/03014223.1995.9518044
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153525|T||Rowe,F.P., A. Bradfield, and T. Swinney|Pen and Field Trials of a New Anticoagulant Rodenticide Flocoumafen Against the House Mouse (Mus musculus L.)|J. Hyg.95(3): 623-627|1985|10.1017/S0022172400060721
153526|T||Gill,J.E., and A.D. Macnicoll|Determination of the Susceptibility of Wild Populations of the Norway Rat (Rattus norvegicus) to the Anticoagulant Rodenticide Brodifacoum|Z. Angew. Zool. (Multiple Languages)78(1): 101-118|1991|
153527|A||El-Shenawy,N.S., R. Greenwood, and I.M. Abdel-Nabi|Histological Responses of Marine Mussel Mytilus edulis to Long-Term Exposure to Sublethal-Level of Lindane and Atrazine|Dongwu Xuebao53(5): 899-909|2007|
153528|T||ICI Americas Inc.|Initial Submission:  Acute Toxicity and Local Irritation Study With PP581 Formulation in Rats and Rabbits with Cover Letter Dated 082892|EPA/OTS Doc.#88-920007121:26 p.|1992|
153529|T||ICI Americas Inc.|Initial Submission:  Talon:  Secondary Toxicity of Brodifacoum to Foxes with Cover Letter Dated 082892|ICI Americas Inc., Wilmington, DE:17 p.|1992|
153530|T||ICI Americas Inc.|Initial Submission:  Secondary Toxicity Hazards Tests of Brodifacoum to Raptors with Cover Letter Dated 082892|ICI Americas Inc., Wilmington, DE:9 p.|1992|
153531|T||ICI Americas Inc.|Initial Submission:  Talon:  Secondary Toxicity of Brodifacoum to Dogs (Beagles) With Cover Letter Dated 082892|ICI Americas Inc., Wilmington, DE:18 p.|1992|
153532|T||Chalermchaikit,T.|Development of Analytical Methodologies for the Diagnosis and Treatment of Anticoagulant Rodenticide Poisoning|Ph.D. Thesis,  University of Minnesota, St. Paul, MN:213 p. |1992|
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153538|T||Hoddle,M.S., and R. Van Driesche|Evaluation of Eretmocerus eremicus and Encarsia formosa (Hymenoptera: Aphelinidae) Beltsville Strain in Commercial Greenhouses for Biological Control of Bemisia argentifolii (Homoptera: Aleyrodidae) on Colored Poinsetti|Fla. Entomol.82(4): 556-569|1999|10.2307/3496473
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153542|A||Bar-Ilan,O., R.M. Albrecht, V.E. Fako, and D.Y. Furgeson|Toxicity Assessments of Multisized Gold and Silver Nanoparticles in Zebrafish Embryos|Small5(16): 1897-1910|2009|10.1002/smll.200801716
153543|T||Ahamed,M., R. Posgai, T.J. Gorey, M. Nielsen, S.M. Hussain, and J.J. Rowe|Silver Nanoparticles Induced Heat Shock Protein 70, Oxidative Stress and Apoptosis in Drosophila melanogaster|Toxicol. Appl. Pharmacol.242(3): 263-269|2010|10.1016/j.taap.2009.10.016
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153550|T||Malek Mohamadi,M., M.S. Mossadegh, M.J. Hejazi, M.T. Goodarzi, M. Khanjani, and H. Galehdari|Synergism of Resistance to Phosalone and Comparison of Kinetic Properties of Acetylcholinesterase from Four Field Populations and a Susceptible Strain of Colorado Potato Beetle|Pestic. Biochem. Physiol.98(2): 254-262|2010|10.1016/j.pestbp.2010.06.016
153551|T||Levot,G., and N. Sales|In Vitro Effectiveness of Ivermectin and Spinosad Flystrike Treatments Against Larvae of the Australian Sheep Blowfly Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae)|Aust. J. Entomol.47(4): 365-369|2008|10.1111/j.1440-6055.2008.00670.x
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153558|T||Slotkin,T.A., F.J. Seidler, I.T. Ryde, and J. Yanai|Developmental Neurotoxic Effects of Chlorpyrifos on Acetylcholine and Serotonin Pathways in an Avian Model|Neurotoxicol. Teratol.30(5): 433-439|2008|10.1016/j.ntt.2008.02.005
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153560|A||Ashauer,R., I. Caravatti, A. Hintermeister, and B.I. Escher|Bioaccumulation Kinetics of Organic Xenobiotic Pollutants in the Freshwater Invertebrate Gammarus pulex Modeled with Prediction Intervals|Environ. Toxicol. Chem.29(7): 1625-1636|2010|10.1002/etc.175
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153566|A||Palm,R.C.,Jr., and D.B. Powell|Alarm Substance Recognition and Predator Avoidance by Chinook Salmon (Oncorhynchus tschawytscha) Following Exposure to an Organophosphate Pesticide|Environ. Toxicol. Chem.29(5): 1113-1122|2010|10.1002/etc.142
153567|A||Tew,K.S., J.D. Conroy, and D.A. Culver|Effects of Lowered Inorganic Phosphorus Fertilization Rates on Pond Production of Percid Fingerlings|Aquaculture255(1-4): 436-446|2006|10.1016/j.aquaculture.2006.01.003
153568|T||Vinuela,A., L.B. Snoek, J.A.G. Riksen, and J.E. Kammenga|Genome-Wide Gene Expression Analysis in Response to Organophosphorus Pesticide Chlorpyrifos and Diazinon in C. elegans|PLoS One5(8): 1-8|2010|10.1371/journal.pone.0012145
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153570|T||Sarabia,L., I. Maurer, and E. Bustos-Obregon|Melatonin Prevents Damage Elicited by the Organophosphorous Pesticide Diazinon on Mouse Sperm DNA|Ecotoxicol. Environ. Saf.72(2): 663-668|2009|10.1016/j.ecoenv.2008.04.023
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153575|T||Ezemonye,L., and I. Tongo|Sublethal Effects of Endosulfan and Diazinon Pesticides on Glutathione-S-Transferase (GST) in Various Tissues of Adult Amphibians (Bufo regularis)|Chemosphere81(2): 214-217|2010|10.1016/j.chemosphere.2010.06.039
153576|A||Machova,J., M. Prokes, M. Penaz, V. Barus, and H. Kroupova|Toxicity of Diazinon 60 EC for Embryos and Larvae of Tench, Tinca tinca (L.)|Rev. Fish Biol. Fish. (Dordr.)20(.3): 409-415|2010|10.1007/s11160-009-9148-8
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153578|T||Moore,M.T., and R. Kroger|Effect of Three Insecticides and Two Herbicides on Rice (Oryza sativa) Seedling Germination and Growth|Arch. Environ. Contam. Toxicol.59(4): 574-581|2010|10.1007/s00244-010-9519-0
153579|T||Okamura,A., M. Kamijima, K. Ohtani, O. Yamanoshita, D. Nakamura, Y. Ito, M. Miyata, J. Ueyama, T. Suzuki, R. Imai, K. T|Broken Sperm, Cytoplasmic Droplets and Reduced Sperm Motility are Principal Markers of Decreased Sperm Quality Due to Organophosphorus Pesticides in Rats|J. Occup. Health51(6): 478-487|2009|10.1539/joh.L9019
153580|T||Chalfant,R.B., K. Bondari, H.R. Sumner, and M.R. Hall|Reduction of Wireworm (Coleoptera: Elateridae) Damage in Sweet Potato with Insecticides Applied by Chemigation|J. Econ. Entomol.86(1): 123-130|1993|10.1093/jee/86.1.123
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153582|T||Slotkin,T.A., C.A. Tate, I.T. Ryde, E.D. Levin, and F.J. Seidler|Organophosphate Insecticides Target the Serotonergic System in Developing Rat Brain Regions: Disparate Effects of Diazinon and Parathion at Doses Spanning the Threshold for Cholinesterase Inhibition|Environ. Health Perspect.114(10): 1542-1546|2006|10.1289/ehp.9337
153584|A||Gaworecki,K.M.|Changes in Brain Biochemistry and Feeding Behavior in Hybrid Striped Bass Exposed to Environmental Contaminants|Ph.D. Thesis, Clemson University, Clemson, SC:127 p.|2008|
153586|T||Adigun,A.A.|Adenylyl Cyclase Cell Signaling as a Target and Underlying Mechanism for Persistent Effects of Early-Life Organophosphate Exposure|Ph.D. Thesis, Duke University, Raleigh, NC:189 p.|2010|
153587|T||Unrine,J.M., S.E. Hunyadi, O.V. Tsyusko, W. Rao, W.A. Shoults-Wilson, and P.M. Bertsch|Evidence for Bioavailability of Au Nanoparticles from Soil and Biodistribution Within Earthworms (Eisenia fetida)|Environ. Sci. Technol.44(21): 8308-8313|2010|10.1021/es101885w
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153589|T||Breckenridge,A.M., S. Cholerton, J.A.D. Hart, B.K. Park, and A.K. Scott|A Study of the Relationship Between the Pharmacokinetics and the Pharmacodynamics of the 4-Hydroxycoumarin Anticoagulants Warfarin, Difenacoum and Brodifacoum in the Rabbit|Br. J. Pharmacol.84:81-91|1985|
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153595|T||Kerins,G.M.|Plasma Fibrinogen Concentration is Increased Following Depletion of Vitamin K-Dependent Clotting Factors by the Indirect Anticoagulant Difenacoum in Norway Rats (Rattus norvegicus)|Comp. Haematol. Int.9(2): 76-82|1999|10.1007/BF02585540
153598|T||Wallin,R.|Vitamin K Antagonism of Coumarin Anticoagulation.  A Dehydrogenase Pathway in Rat Liver is Responsible for the Antagonistic Effect|Biochem. J. (Lond.)236(3): 685-693|1986|10.1042/bj2360685
153599|T||Al-Mohammed,H.I.|Efficacy of Two Rodenticides Against Leishmania Reservoir Host Rat (Psammomys obesus) in the Rural Area of Al-Ahsa Oasis, Saudi Arabia|J. Egypt. Soc. Parasitol.40(3): 609-616|2010|
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153601|T||Rehman,A.B., and S.I. Ahmad|Studies on Warfarin, Coumatetralyl and Difenacoum as Anticoagulant Agents|J. Pharm. Univ. Karachi1(1): 1-13|1982|
153602|A||Zhu,X., Y. Chang, and Y. Chen|Toxicity and Bioaccumulation of TiO2 Nanoparticle Aggregates in Daphnia magna|Chemosphere78(3): 209-215|2010|10.1016/j.chemosphere.2009.11.013
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153604|A||Zhu,X., J. Wang, X. Zhang, Y. Chang, and Y. Chen|Trophic Transfer of TiO2 Nanoparticles from Daphnia to Zebrafish in a Simplified Freshwater Food Chain|Chemosphere79(9): 928-933|2010|10.1016/j.chemosphere.2010.03.022
153605|T||Akcan,R., A. Hilal, N. Daglioglu, N. Cekin, and M.K. Gulmen|Determination of Pesticides in Postmortem Blood and Bone Marrow of Pesticide Treated Rabbits|Forensic Sci. Int.189(1-3): 82-87|2009|10.1016/j.forsciint.2009.04.017
153606|T||Bonham,M., G.M. Ghidiu, E. Hitchner, and E.L. Rossell|Effect of Seed Treatment, In-furrow, and Foliar Application of Insecticides on the Carrot Weevil in Processing Carrot|HortTechnology19(3): 617-619|2009|10.21273/HORTTECH.19.3.617
153607|T||Geraldi,P.A., J.M. Delgado-Garcia, and A. Gruart|Acute and Repeated Effects of Three Organophosphorus Pesticides on the Acquisition and Retention of an Instrumental Learning Task in Rats|Neurotox. Res.13(3/4): 253-263|2008|10.1007/BF03033509
153608|T||Nadaroglu,H., and N. Demir|In Vivo Effects of Chlorpyrifos and Parathion-Methyl on Some Oxidative Enzyme Activities in Chickpea, Bean, Wheat, Nettle and Parsley Leaves|Fresenius Environ. Bull.18(5): 647-652|2009|
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153612|A||Kloas,W., I. Lutz, R. Urbatzka, T. Springer, H. Krueger, J. Wolf, L. Holden, and A. Hosmer|Does Atrazine Affect Larval Development and Sexual Differentiation of South African Clawed Frogs?|Ann. N. Y. Acad. Sci.1163(1): 437-440|2009|10.1111/j.1749-6632.2009.04456.x
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153614|A||Morando,M.B., L.R. Medeiros, and M.D. McDonald|Fluoxetine Treatment Affects Nitrogen Waste Excretion and Osmoregulation in a Marine Teleost Fish|Aquat. Toxicol.95(2): 164-171|2009|10.1016/j.aquatox.2009.10.015
153615|T||Longo,V., S. Marini, A. Salvetti, S. Angelucci, S. Bucci, and P.G. Gervasi|Effects of beta-Naphthoflavone, Phenobarbital and Dichlobenil on the Drug-Metabolizing System of Liver and Nasal Mucosa of Italian Water Frogs|Aquat. Toxicol.69(3): 259-270|2004|10.1016/j.aquatox.2004.06.001
153616|A||Franzellitti,S., S. Buratti, P. Valbonesi, A. Capuzzo, and E. Fabbri|The beta-Blocker Propranolol Affects cAMP-Dependent Signaling and Induces the Stress Response in Mediterranean Mussels, Mytilus galloprovincialis|Aquat. Toxicol.101(2): 299-308|2011|10.1016/j.aquatox.2010.11.001
153617|A||Schmitt-Jansen,M., P. Bartels, N. Adler, and R. Altenburger|Phytotoxicity Assessment of Diclofenac and Its Phototransformation Products |Anal. Bioanal. Chem.387(4): 1389-1396|2007|10.1007/s00216-006-0825-3
153618|A||Mennigen,J.A., W.E. Lado, J.M. Zamora, P. Duarte-Guterman, V.S. Langlois, C.D. Metcalfe, J.P. Chang, T.W. Moon, and V.L|Waterborne Fluoxetine Disrupts the Reproductive Axis in Sexually Mature Male Goldfish, Carassius auratus|Aquat. Toxicol.100(4): 354-364|2010|10.1016/j.aquatox.2010.08.016
153619|A||Smith,E.M., and J.Y. Wilson|Assessment of Cytochrome P450 Fluorometric Substrates with Rainbow Trout and Killifish Exposed to Dexamethasone, Pregnenolone-16alpha-Carbonitrile, Rifampicin, and beta-Naphthoflavone|Aquat. Toxicol.97(4): 324-333|2010|10.1016/j.aquatox.2010.01.005
153620|A||Yang,L., J. Zha, W. Li, Z. Li, and Z. Wang|Atrazine Affects Kidney and Adrenal Hormones (AHs) Related Genes Expressions of Rare Minnow (Gobiocypris rarus)|Aquat. Toxicol.97(3): 204-211|2010|10.1016/j.aquatox.2009.09.005
153621|A||Ericson,H., G. Thorsen, and L. Kumblad|Physiological Effects of Diclofenac, Ibuprofen and Propranolol on Baltic Sea Blue Mussels|Aquat. Toxicol.99(2): 223-231|2010|10.1016/j.aquatox.2010.04.017
153622|A||Martyniuk,C.J., K.J. Kroll, N.J. Doperalski, D.S. Barber, and N.D. Denslow|Environmentally Relevant Exposure to 17alpha-Ethinylestradiol Affects the Telencephalic Proteome of Male Fathead Minnows|Aquat. Toxicol.98(4): 344-353|2010|10.1016/j.aquatox.2010.03.007
153623|A||Li,Z.H., V. Zlabek, R. Grabic, P. Li, J. Machova, J. Velisek, and T. Randak|Effects of Exposure to Sublethal Propiconazole on the Antioxidant Defense System and Na+-K+-ATPase Activity in Brain of Rainbow Trout, Oncorhynchus mykiss|Aquat. Toxicol.98(3): 297-303|2010|10.1016/j.aquatox.2010.02.017
153624|A||Morthorst,J.E., H. Holbech, and P. Bjerregaard|Trenbolone Causes Irreversible Masculinization of Zebrafish at Environmentally Relevant Concentrations|Aquat. Toxicol.98(4): 336-343|2010|10.1016/j.aquatox.2010.03.008
153625|A||Stromqvist,M., N. Tooke, and B. Brunstrom|DNA Methylation Levels in the 5' Flanking Region of the Vitellogenin I Gene in Liver and Brain of Adult Zebrafish (Danio rerio) - Sex and Tissue Differences and Effects of 17alpha-Ethinylestradiol Exposure|Aquat. Toxicol.98(3): 275-281|2010|10.1016/j.aquatox.2010.02.023
153626|A||Han,S., K. Choi, J. Kim, K. Ji, S. Kim, B. Ahn, J. Yun, K. Choi, J.S. Khim, X. Zhang, and J.P. Giesy|Endocrine Disruption and Consequences of Chronic Exposure to Ibuprofen in Japanese Medaka (Oryzias latipes) and Freshwater Cladocerans Daphnia magna and Moina macrocopa|Aquat. Toxicol.98(3): 256-264|2010|10.1016/j.aquatox.2010.02.013
153627|AT||Puglis,H.J., and M.D. Boone|Effects of Technical-Grade Active Ingredient vs. Commercial Formulation of Seven Pesticides in the Presence or Absence of UV Radiation on Survival of Green Frog Tadpoles|Arch. Environ. Contam. Toxicol.60(1): 145-155|2011|10.1007/s00244-010-9528-z
153628|A||Sharma,B., and R. Patino|Effects of Cadmium, Estradiol-17beta and Their Interaction on Gonadal Condition and Metamorphosis of Male and Female African Clawed Frog, Xenopus laevis|Chemosphere79(5): 499-505|2010|10.1016/j.chemosphere.2010.02.044
153629|A||Olivier,H.M., and B.R. Moon|The Effects of Atrazine on Spotted Salamander Embryos and Their Symbiotic Alga|Ecotoxicology19(4): 654-661|2010|10.1007/s10646-009-0437-8
153630|A||Li,Z.H., V. Zlabek, J. Velisek, R. Grabic, J. Machova, and T. Randak|Responses of Antioxidant Status and Na+-K+-ATPase Activity in Gill of Rainbow Trout, Oncorhynchus mykiss, Chronically Treated with Carbamazepine|Chemosphere77(11): 1476-1481|2009|10.1016/j.chemosphere.2009.10.031
153631|A||Li,Z.H., J. Velisek, R. Grabic, P. Li, J. Kolarova, and T. Randak|Use of Hematological and Plasma Biochemical Parameters to Assess the Chronic Effects of a Fungicide Propiconazole on a Freshwater Teleost|Chemosphere83(4): 572-578|2011|10.1016/j.chemosphere.2010.12.024
153632|A||Guo,S., L. Qian, H. Shi, T. Barry, Q. Cao, and J. Liu|Effects of Tributyltin (TBT) on Xenopus tropicalis Embryos at Environmentally Relevant Concentrations|Chemosphere79(5): 529-533|2010|10.1016/j.chemosphere.2010.02.021
153633|A||Van der Ven,K., M. De Wit, D. Keil, L. Moens, K. Van Leemput, B. Naudts, and W. De Coen|Development and Application of a Brain-Specific cDNA Microarray for Effect Evaluation of Neuro-Active Pharmaceuticals in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.141(4): 408-417|2005|10.1016/j.cbpc.2005.05.004
153634|A||Hogan,N.S., S. Currie, S. LeBlanc, L.M. Hewitt, and D.L. MacLatchy|Modulation of Steroidogenesis and Estrogen Signalling in the Estuarine Killifish (Fundulus heteroclitus) Exposed to Ethinylestradiol|Aquat. Toxicol.98(2): 148-156|2010|10.1016/j.aquatox.2010.02.002
153635|A||Vosges,M., Y. Le Page, B.C. Chung, Y. Combarnous, J.M. Porcher, O. Kah, and F. Brion|17alpha-Ethinylestradiol Disrupts the Ontogeny of the Forebrain GnRH System and the Expression of Brain Aromatase During Early Development of Zebrafish|Aquat. Toxicol.99(4): 479-491|2010|10.1016/j.aquatox.2010.06.009
153636|A||Mennigen,J.A., J. Sassine, V.L. Trudeau, and T.W. Moon|Waterborne Fluoxetine Disrupts Feeding and Energy Metabolism in the Goldfish Carassius auratus|Aquat. Toxicol.100(1): 128-137|2010|10.1016/j.aquatox.2010.07.022
153637|A||Li,Z.H., V. Zlabek, R. Grabic, P. Li, J. Machova, J. Velisek, and T. Randak|Effects of Exposure to Sublethal Propiconazole on Intestine-Related Biochemical Responses in Rainbow Trout, Oncorhynchus mykiss|Chem.-Biol. Interact.185(3): 241-246|2010|10.1016/j.cbi.2010.02.040
153638|A||Spolyarich,N., R. Hyne, S. Wilson, C. Palmer, and M. Byrne|Growth, Development and Sex Ratios of Spotted Marsh Frog (Limnodynastes tasmaniensis) Larvae Exposed to Atrazine and a Herbicide Mixture|Chemosphere78(7): 807-813|2010|10.1016/j.chemosphere.2009.11.048
153639|A||Eades,C., and C.P. Waring|The Effects of Diclofenac on the Physiology of the Green Shore Crab Carcinus maenas|Mar. Environ. Res.69:S46-S48|2010|10.1016/j.marenvres.2009.11.001
153640|A||Velasco-Santamaria,Y.M., P. Bjerregaard, and B. Korsgaard|Gonadal Alterations in Male Eelpout (Zoarces viviparus) Exposed to Ethinylestradiol and Trenbolone Separately or in Combination|Mar. Environ. Res.69:S67-S69|2010|10.1016/j.marenvres.2009.09.009
153641|A||Smith,G.R., S.V. Krishnamurthy, A.C. Burger, and L.B. Mills|Differential Effects of Malathion and Nitrate Exposure on American Toad and Wood Frog Tadpoles|Arch. Environ. Contam. Toxicol.60(2): 327-335|2011|10.1007/s00244-010-9559-5
153642|A||Rowe,C.L., A. Heyes, and J. Hilton|Differential Patterns of Accumulation and Depuration of Dietary Selenium and Vanadium During Metamorphosis in the Gray Treefrog (Hyla versicolor)|Arch. Environ. Contam. Toxicol.60(2): 336-342|2011|10.1007/s00244-010-9608-0
153643|A||Nentwig,G.|Effects of Pharmaceuticals on Aquatic Invertebrates.  Part II:  The Antidepressant Drug Fluoxetine|Arch. Environ. Contam. Toxicol.52(2): 163-170|2007|10.1007/s00244-005-7190-7
153644|A||Hata,T., S. Kawai, H. Okamura, and T. Nishida|Removal of Diclofenac and Mefenamic Acid by the White Rot Fungus Phanerochaete sordida YK-624 and Identification of Their Metabolites After Fungal Transformation|Biodegradation (Dordr.)21(5): 681-689|2010|10.1007/s10532-010-9334-3
153645|A||Li,Z.H., J. Velisek, V. Zlabek, R. Grabic, J. Machova, J. Kolarova, and T. Randak|Hepatic Antioxidant Status and Hematological Parameters in Rainbow Trout, Oncorhynchus mykiss, After Chronic Exposure to Carbamazepine|Chem.-Biol. Interact.183(1): 98-104|2010|10.1016/j.cbi.2009.09.009
153646|A||Constantine,L.A., and D.B. Huggett|A Comparison of the Chronic Effects of Human Pharmaceuticals on Two Cladocerans, Daphnia magna and Ceriodaphnia dubia|Chemosphere80(9): 1069-1074|2010|10.1016/j.chemosphere.2010.05.009
153647|A||Bustos-Obregon,E., and A. Vargas|Chronic Toxicity Bioassay with Populations of the Crustacean Artemia salina Exposed to the Organophosphate Diazinon|Biol. Res.43(3): 357-362|2010|10.4067/S0716-97602010000300013
153648|T||Machin,A.F., P.H. Anderson, and C.N. Hebert|Residue Levels and Cholinesterase Activities in Sheep Poisoned Experimentally with Diazinon|Pestic. Sci.5:49-56|1974|10.1002/ps.2780050109
153649|A||Vernouillet,G., P. Eullaffroy, A. Lajeunesse, C. Blaise, F. Gagne, and P. Juneau|Toxic Effects and Bioaccumulation of Carbamazepine Evaluated by Biomarkers Measured in Organisms of Different Trophic Levels|Chemosphere80(9): 1062-1068|2010|10.1016/j.chemosphere.2010.05.010
153650|A||Wassmur,B., J. Grans, P. Kling, and M.C. Celander|Interactions of Pharmaceuticals and Other Xenobiotics on Hepatic Pregnane X Receptor and Cytochrome P450 3A Signaling Pathway in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.100(1): 91-100|2010|10.1016/j.aquatox.2010.07.013
153651|A||Peng,H.C., Y.H. Wang, C.C. Wen, W.H. Wang, C.C. Cheng, and Y.H. Chen|Nephrotoxicity Assessments of Acetaminophen During Zebrafish Embryogenesis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.151(4): 480-486|2010|10.1016/j.cbpc.2010.02.004
153652|A||McDonald,M.D., A. Gonzalez, and K.A. Sloman|Higher Levels of Aggression are Observed in Socially Dominant Toadfish Treated with the Selective Serotonin Reuptake Inhibitor, Fluoxetine|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(1): 107-112|2011|10.1016/j.cbpc.2010.09.006
153653|A||Bhandari,K., and B. Venables|Ibuprofen Bioconcentration and Prostaglandin E2 Levels in the Bluntnose Minnow Pimephales notatus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(2): 251-257|2011|10.1016/j.cbpc.2010.11.004
153654|T||Swan,G.E., R. Cuthbert, M. Quevedo, R.E. Green, D.J. Pain, P. Bartels, A.A. Cunningham, N. Duncan, A.A. Meharg, J.L. Oa|Toxicity of Diclofenac to Gyps Vultures|Biol. Lett.2(2): 279-282|2006|10.1098/rsbl.2005.0425
153655|T||Blomqvist,A., C. Berg, L. Holm, I. Brandt, Y. Ridderstrale, and B. Brunstrom|Defective Reproductive Organ Morphology and Function in Domestic Rooster Embryonically Exposed to o,p'-DDT or Ethynylestradiol|Biol. Reprod.74(3): 481-486|2006|10.1095/biolreprod.105.045104
153656|AT||Yamauchi,K., and G. Sai|Characterization of Plasma Triiodophenol Binding Proteins in Vertebrates and Tissue Distribution of Triiodophenol in Rana catesbeiana Tadpoles|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(3): 328-335|2011|10.1016/j.cbpc.2010.12.003
153659|A||Li,Z.H., V. Zlabek, P. Li, R. Grabic, J. Velisek, J. Machova, and T. Randak|Biochemical and Physiological Responses in Liver and Muscle of Rainbow Trout After Long-Term Exposure to Propiconazole|Ecotoxicol. Environ. Saf.73(6): 1391-1396|2010|10.1016/j.ecoenv.2010.05.017
153660|A||Li,Z.H., V. Zlabek, J. Velisek, R. Grabic, J. Machova, J. Kolarova, P. Li, and T. Randak|Acute Toxicity of Carbamazepine to Juvenile Rainbow Trout (Oncorhynchus  mykiss):  Effects on Antioxidant Responses, Hematological Parameters and Hepatic EROD|Ecotoxicol. Environ. Saf.74(3): 319-327|2011|10.1016/j.ecoenv.2010.09.008
153661|A||Rocco,L., G. Frenzilli, D. Fusco, C. Peluso, and V. Stingo|Evaluation of Zebrafish DNA Integrity After Exposure to Pharmacological Agents Present in Aquatic Environments|Ecotoxicol. Environ. Saf.73(7): 1530-1536|2010|10.1016/j.ecoenv.2010.07.032
153662|A||Van den Brandhof,E.J., and M. Montforts|Fish Embryo Toxicity of Carbamazepine, Diclofenac and Metoprolol|Ecotoxicol. Environ. Saf.73(8): 1862-1866|2010|10.1016/j.ecoenv.2010.08.031
153663|A||Kim,J., J. Park, P.G. Kim, C. Lee, K. Choi, and K. Choi|Implication of Global Environmental Changes on Chemical Toxicity-Effect of Water Temperature, pH, and Ultraviolet B Irradiation on Acute Toxicity of Several Pharmaceuticals in Daphnia magna|Ecotoxicology19(4): 662-669|2010|10.1007/s10646-009-0440-0
153664|A||Mennigen,J.A., E.A. Harris, J.P. Chang, T.W. Moon, and V.L. Trudeau|Fluoxetine Affects Weight Gain and Expression of Feeding Peptides in the Female Goldfish Brain|Regulatory Pept.155(1-3): 99-104|2009|10.1016/j.regpep.2009.01.001
153665|A||Longo,M., S. Zanoncelli, P. Della Torre, F. Rosa, A. Giusti, P. Colombo, M. Brughera, G. Mazue, and P. Olliaro|Investigations of the Effects of the Antimalarial Drug Dihydroartemisinin (DHA) Using the Frog Embryo Teratogenesis Assay-Xenopus (FETAX)|Reprod. Toxicol.25(4): 433-441|2008|10.1016/j.reprotox.2008.02.004
153667|A||Sanchez-Arguello,P., C. Fernandez, and J.V. Tarazona|Assessing the Effects of Fluoxetine on Physa acuta (Gastropoda, Pulmonata) and Chironomus riparius (Insecta, Diptera) Using a Two-Species Water-Sediment Test|Sci. Total Environ.407(6): 1937-1946|2009|10.1016/j.scitotenv.2008.12.004
153668|A||Prindiville,J.S., J.A. Mennigen, J.M. Zamora, T.W. Moon, and J.M. Weber|The Fibrate Drug Gemfibrozil Disrupts Lipoprotein Metabolism in Rainbow Trout|Toxicol. Appl. Pharmacol.251(3): 201-208|2011|10.1016/j.taap.2010.12.013
153669|A||Heckmann,L.H., A. Callaghan, H.L. Hooper, R. Connon, T.H. Hutchinson, S.J. Maund, and R.M. Sibly|Chronic Toxicity of Ibuprofen to Daphnia magna: Effects on Life History Traits and Population Dynamics|Toxicol. Lett.172(3): 137-145|2007|10.1016/j.toxlet.2007.06.001
153670|A||Cleuvers,M.|Aquatic Ecotoxicity of Pharmaceuticals Including the Assessment of Combination Effects|Toxicol. Lett.142:185-194|2003|10.1016/S0378-4274(03)00068-7
153671|A||Weigt,S., N. Huebler, T. Braunbeck, F. Von Landenberg, and T.H. Broschard|Zebrafish Teratogenicity Test with Metabolic Activation (mDarT):  Effects of Phase I Activation of Acetaminophen on Zebrafish Danio rerio Embryos|Toxicology275(1-3): 36-49|2010|10.1016/j.tox.2010.05.012
153672|T||Ma,X., and C. Wang|Fullerene Nanoparticles Affect the Fate and Uptake of Trichloroethylene in Phytoremediation Systems|Environ. Eng. Sci.27(11): 989-992|2010|10.1089/ees.2010.0141
153673|A||Rizzo,L., S. Meric, D. Kassinos, M. Guida, F. Russo, and V. Belgiorno|Degradation of Diclofenac by TiO2 Photocatalysis:  UV Absorbance Kinetics and Process Evaluation Through a Set of Toxicity Bioassays|Water Res.43(4): 979-988|2009|10.1016/j.watres.2008.11.040
153674|A||Andreozzi,R., R. Marotta, G. Pinto, and A. Pollio|Carbamazepine in Water:  Persistence in the Environment, Ozonation Treatment and Preliminary Assessment on Algal Toxicity|Water Res.36(11): 2869-2877|2002|10.1016/S0043-1354(01)00500-0
153675|A||Rizzo,L., S. Meric, M. Guida, D. Kassinos, and V. Belgiorno|Heterogenous Photocatalytic Degradation Kinetics and Detoxification of an Urban Wastewater Treatment Plant Effluent Contaminated with Pharmaceuticals|Water Res.43(16): 4070-4078|2009|10.1016/j.watres.2009.06.046
153677|A||Collins,S.J., and R.W. Russell|Toxicity of Road Salt to Nova Scotia Amphibians|Environ. Pollut.157(1): 320-324|2009|10.1016/j.envpol.2008.06.032
153678|A||Nalecz-Jawecki,G., T. Wojcik, and J. Sawicki|Evaluation of In Vitro Biotransformation of Propranolol with HPLC, MS/MS, and Two Bioassays|Environ. Toxicol.23(1): 52-58|2008|10.1002/tox.20310
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153680|A||Foster,H.R., G.A. Burton, N. Basu, and E.E. Werner|Chronic Exposure to Fluoxetine (Prozac) Causes Developmental Delays in Rana pipiens Larvae|Environ. Toxicol. Chem.29(12): 2845-2850|2010|10.1002/etc.345
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153685|A||Park,J.W., T.B. Henry, F.M. Menn, R.N. Compton, and G. Sayler|No Bioavailability of 17alpha-Ethinylestradiol when Associated with nC60 Aggregates During Dietary Exposure in Adult Male Zebrafish (Danio rerio)|Chemosphere81(10): 1227-1232|2010|10.1016/j.chemosphere.2010.09.036
153686|A||Davis,M.J., P. Kleinhenz, and M.D. Boone|Juvenile Green Frog (Rana clamitans) Predatory Ability not Affected by Exposure to Carbaryl at Different Times During Larval Development|Environ. Toxicol. Chem.30(7): 1618-1620|2011|10.1002/etc.539
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153688|A||Sztrum,A.A., J.L. D'Eramo, and J. Herkovits|Nickel Toxicity in Embryos and Larvae of the South American Toad:  Effects on Cell Differentiation, Morphogenesis, and Oxygen Consumption|Environ. Toxicol. Chem.30(5): 1146-1152|2011|10.1002/etc.484
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153805|T||Newton,M., and L.A. Norris|Herbicide Residues in Blacktail Deer from Forests Treated with 2,4,5-T and Atrazine|Proc. West. Soc. Weed Sci.22:32-34|1968|
153806|A||Jayachandran,K., and K. Pugazhendy|Histopathological Changes in the Gill of Labeo rohita (Hamilton) Fingerlings Exposed to Atrazine|Am.-Eurasian J. Sci. Res.4(3): 219-221|2009|
153807|T||Crouch,G.L.|Atrazine Improves Survival and Growth of Ponderosa Pine Threatened by Vegetative Competition and Pocket Gophers|For. Sci.25(1): 99-111|1979|
153808|A||Tuffnail,W., G.A. Mills, P. Cary, and R. Greenwood|An Environmental 1H NMR Metabolomic Study of the Exposure of the Marine Mussel Mytilus edulis to Atrazine, Lindane, Hypoxia and Starvation|Metabolomics5(1): 33-43|2009|10.1007/s11306-008-0143-1
153809|T||Dalton,R.L., and C. Boutin|Comparison of the Effects of Glyphosate and Atrazine Herbicides on Nontarget Plants Grown Singly and in Microcosms|Environ. Toxicol. Chem.29(10): 2304-2315|2010|10.1002/etc.277
153810|A||Fischer,B.B., K. Rufenacht, K. Dannenhauer, M. Wiesendanger, and R.I.L. Eggen|Multiple Stressor Effects of High Light Irradiance and Photosynthetic Herbicides on Growth and Survival of the Green Alga Chlamydomonas reinhardtii|Environ. Toxicol. Chem.29(10): 2211-2219|2010|10.1002/etc.264
153811|A||Pandey,R.B., G.L. Adams, and L.W. Warren|Survival and Precopulatory Guarding Behavior of Hyalella azteca (Amphipoda) Exposed to Nitrate in the Presence of Atrazine|Environ. Toxicol. Chem.30(5): 1170-1177|2011|10.1002/etc.473
153812|A||Baxter,L.R., D.L. Moore, P.K. Sibley, K.R. Solomon, and M.L. Hanson|Atrazine does not Affect Algal Biomass or Snail Populations in Microcosm Communities at Environmentally Relevant Concentrations|Environ. Toxicol. Chem.30(7): 1689-1696|2011|10.1002/etc.552
153813|T||Dalton,R.L.|Evaluation of Phytotoxicity Testing: Assessing the Effects of Herbicides on Non-Target Plants Using Microcosm Tests|M.S.Thesis, Carleton University, Ottawa, Canada:160 p.|2007|
153814|A||Ralston-Hooper,K.J.|Development of Proteomic and Metabolomic Tools for Application in Aquatic Invertebrate Ecotoxicological Research|Ph.D.Thesis, Purdue University, West Lafayette, IN:161 p.|2009|
153815|A||Ralston-Hooper,K.J., B.C. Sanchez, J. Adamec, and M.S. Sepulveda|Proteomics in Aquatic Amphipods:  Can it be Used to Determine Mechanisms of Toxicity and Interspecies Responses After Exposure to Atrazine?|Environ. Toxicol. Chem.30(5): 1197-1203|2011|10.1002/etc.475
153816|T||Neuman-Lee,L.A., and F.J. Janzen|Atrazine Exposure Impacts Behavior and Survivorship of Neonatal Turtles|Herpetologica67(1): 23-31|2011|10.1655/HERPETOLOGICA-D-09-0003.1
153817|A||Nwani,C.D., W.S. Lakra, N.S. Nagpure, R. Kumar, B. Kushwaha, and S.K. Srivastava|Toxicity of the Herbicide Atrazine:  Effects on Lipid Peroxidation and Activities of Antioxidant Enzymes in the Freshwater Fish Channa punctatus (Bloch)|Int. J. Environ. Res. Public Health7(8): 3298-3312|2010|10.3390/ijerph7083298
153818|A||Choung,C.B., R.V. Hyne, M.M. Stevens, and G.C. Hose|A Low Concentration of Atrazine does not Influence the Acute Toxicity of the Insecticide Terbufos or Its Breakdown Products to Chironomus tepperi|Ecotoxicology19(8): 1536-1544|2010|10.1007/s10646-010-0538-4
153819|T||Garcia-Villada,L., and X. Reboud|Induction of Atrazine Tolerance in a Natural Soil Assemblage of Microalgae Reared in the Laboratory|Ecotoxicol. Environ. Saf.66(1): 102-106|2007|10.1016/j.ecoenv.2005.09.003
153820|T||Novais,S.C., A.M.V.M. Soares, and M.J.B. Amorim|Can Avoidance in Enchytraeus albidus be Used as a Screening Parameter for Pesticides Testing?|Chemosphere79(2): 233-237|2010|10.1016/j.chemosphere.2010.01.011
153821|A||Yan,X., J. Zha, B. Shi, D. Wang, Z. Wang, and H. Tang|In Vivo Toxicity of Nano-C60 Aggregates Complex with Atrazine to Aquatic Organisms|Chin. Sci. Bull.55(4/5): 339-345|2010|10.1007/s11434-009-0702-5
153822|A||Matsumoto,J., A.J. Hosmer, and G. Van der Kraak|Survival and Iono-Regulatory Performance in Atlantic Salmon Smolts is not Affected by Atrazine Exposure|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.152(3): 379-384|2010|10.1016/j.cbpc.2010.06.005
153823|A||Xing,H., Y. Han, S. Li, J. Wang, X. Wang, and S. Xu|Alterations in mRNA Expression of Acetylcholinesterase in Brain and Muscle of Common Carp Exposed to Atrazine and Chlorpyrifos|Ecotoxicol. Environ. Saf.73(7): 1666-1670|2010|10.1016/j.ecoenv.2010.07.013
153824|A||Masojidek,J., P. Soucek, J. Machova, J. Frolik, K. Klem, and J. Maly|Detection of Photosynthetic Herbicides:  Algal Growth Inhibition Test vs.  Electrochemical Photosystem II Biosensor|Ecotoxicol. Environ. Saf.74(1): 117-122|2011|10.1016/j.ecoenv.2010.08.028
153825|A||Williams,B.K., and R.D. Semlitsch|Larval Responses of Three Midwestern Anurans to Chronic, Low-Dose Exposures of Four Herbicides|Arch. Environ. Contam. Toxicol.58(3): 819-827|2010|10.1007/s00244-009-9390-z
153826|A||Karagiannis,D., I.N. Vatsos, and P. Angelidis|Effects of Atrazine on the Viability and the Formation of Byssus of the Mussel Mytilus galloprovincialis|Aquac. Int.19(1): 103-110|2011|10.1007/s10499-010-9344-5
153827|A||Tillitt,D.E., D.M. Papoulias, J.J. Whyte, and C.A. Richter|Atrazine Reduces Reproduction in Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.99(2): 149-159|2010|10.1016/j.aquatox.2010.04.011
153828|A||Mohammad,M., K. Itoh, and K. Suyama|Effects of Herbicides on Lemna gibba and Recovery from Damage After Prolonged Exposure|Arch. Environ. Contam. Toxicol.58(3): 605-612|2010|10.1007/s00244-010-9466-9
153829|T||Kozlowski,T.T., and J.E. Kuntz|Effects of Simazine, Atrazine, Propazine, and EPTAM on Growth and Development of Pine Seedlings|Soil Sci.95:164-174|1963|10.1097/00010694-196303000-00002
153830|A||Yang,L., J. Zha, X. Zhang, W. Li, Z. Li, and Z. Wang|Alterations in mRNA Expression of Steroid Receptors and Heat Shock Proteins in the Liver of Rare Minnow (Grobiocypris rarus) Exposed to Atrazine and p,p'-DDE|Aquat. Toxicol.98(4): 381-387|2010|10.1016/j.aquatox.2010.03.010
153831|T||Song,Y., L.S. Zhu, J. Wang, J.H. Wang, W. Liu, and H. Xie|DNA Damage and Effects on Antioxidative Enzymes in Earthworm (Eisenia foetida) Induced by Atrazine|Soil Biol. Biochem.41(5): 905-909|2009|10.1016/j.soilbio.2008.09.009
153832|A||Reinhold,D., S. Vishwanathan, J.J. Park, D. Oh, and F.M. Saunders|Assessment of Plant-Driven Removal of Emerging Organic Pollutants by Duckweed|Chemosphere80(7): 687-692|2010|10.1016/j.chemosphere.2010.05.045
153833|A||Nwani,C.D., N.S. Nagpure, R. Kumar, B. Kushwaha, P. Kumar, and W.S. Lakra|Mutagenic and Genotoxic Assessment of Atrazine-Based Herbicide to Freshwater Fish Channa punctatus (Bloch) Using Micronucleus Test and Single Cell Gel Electrophoresis|Environ. Toxicol. Pharmacol.31(2): 314-322|2011|10.1016/j.etap.2010.12.001
153834|A||Nwani,C.D., N.S. Nagpure, R. Kumar, B. Kushwaha, P. Kumar, and W.S. Lakra|Lethal Concentration and Toxicity Stress of Carbosulfan, Glyphosate and Atrazine to Freshwater Air Breathing Fish Channa punctatus (Bloch)|Int. Aquat. Res.2(2): 105-111|2010|
153835|A||Negri,A.P., F. Flores, T. Rothig, and S. Uthicke|Herbicides Increase the Vulnerability of Corals to Rising Sea Surface Temperature|Limnol. Oceanogr.56(2): 471-485|2011|10.4319/lo.2011.56.2.0471
153836|A||Magnusson,M., K. Heimann, P. Quayle, and A.P. Negri|Additive Toxicity of Herbicide Mixtures and Comparative Sensitivity of Tropical Benthic Microalgae|Mar. Pollut. Bull.60(11): 1978-1987|2010|10.1016/j.marpolbul.2010.07.031
153837|A||Freitas,E.C., and O. Rocha|Acute Toxicity Tests with the Tropical Cladoceran Pseudosida ramosa:  The Importance of Using Native Species as Test Organisms|Arch. Environ. Contam. Toxicol.60(2): 241-249|2011|10.1007/s00244-010-9541-2
153838|A||Applebaum,S.L.|Regulation of Elements of the Thyroid Hormone and Corticosteroid Systems by Stress, Hormone Treatment, and Atrazine During Ontogeny of Red Drum (Sciaenops ocellatus)|Ph.D.Thesis, University of Texas, Austin, TX:130 p.|2008|
153839|A||Atkinson,S.K.|The Persistence of Steroidal Estrogens in the Aquatic Environment|M.S.Thesis, University of Ottawa, Canada:169 p.|2008|
153840|T||Voicu,M.C., J.J. Zwiazek, and M.T. Tyree|Light Response of Hydraulic Conductance in Bur Oak (Quercus macrocarpa) Leaves|Tree Physiol.28(7): 1007-1015|2008|10.1093/treephys/28.7.1007
153841|A||Storrs-Mendez,S.I., and R.D. Semlitsch|Intersex Gonads in Frogs: Understanding the Time Course of Natural Development and Role of Endocrine Disruptors|J. Exp. Zool. Part B Mol. Dev. Evol.312:1-11|2009|
153842|A||Zhu,L.S., B. Shao, Y. Song, H. Xie, J. Wang, J.H. Wang, W. Liu, and X.X. Hou|DNA Damage and Effects on Antioxidative Enzymes in Zebra Fish (Danio rerio) Induced by Atrazine|Toxicol. Mech. Methods21(1): 31-36|2011|10.3109/15376516.2010.529186
153843|T||Samtani,J.B., J.B. Masiunas, and J.E. Appleby|Injury on White Oak Seedlings from Herbicide Exposure Simulating Drift|Hortscience43(7): 2076-2080|2008|10.21273/HORTSCI.43.7.2076
153844|T||Rey,F., M. Gonzalez, M.A. Zayas, C. Stoker, M. Durando, E.H. Luque, and M. Munoz-De-Toro|Prenatal Exposure to Pesticides Disrupts Testicular Histoarchitecture and Alters Testosterone Levels in Male Caiman latirostris|Gen. Comp. Endocrinol.162(3): 286-292|2009|10.1016/j.ygcen.2009.03.032
153845|A||Raffel,T.R., J.L. Sheingold, and J.R. Rohr|Lack of Pesticide Toxicity to Echinostoma trivolvis Eggs and Miracidia|J. Parasitol.95(6): 1548-1551|2009|10.1645/GE-2078.1
153847|A||Zaya,R.M., Z. Amini, A.S. Whitaker, S.L. Kohler, and C.F. Ide|Atrazine Exposure Affects Growth, Body Condition and Liver Health in Xenopus laevis Tadpoles|Aquat. Toxicol.104(3/4): 243-253|2011|10.1016/j.aquatox.2011.04.021
153848|A||Zaya,R.M., Z. Amini, A.S. Whitaker, and C.F. Ide|Exposure to Atrazine Affects the Expression of Key Genes in Metabolic Pathways Integral to Energy Homeostasis in Xenopus laevis Tadpoles|Aquat. Toxicol.104(3/4): 254-262|2011|10.1016/j.aquatox.2011.04.022
153849|T||Samtani,J.B.|"Determining the Cause of Abnormal Leaf Development ""Leaf Tatters"" on White Oak (Quercus alba L.), and Northern Red Oak (Quercus rubra L.)"|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:142 p.|2008|
153850|T||Lim,S., S.Y. Ahn, I.C. Song, M.H. Chung, H.C. Jang, K.S. Park, K.U. Lee, Y.K. Pak, and H.K. Lee|Chronic Exposure to the Herbicide, Atrazine, Causes Mitochondrial Dysfunction and Insulin Resistance|PLoS One4(4): 1-11|2009|10.1371/journal.pone.0005186
153851|A||Lenkowski,J.R., and K.A. McLaughlin|Acute Atrazine Exposure Disrupts Matrix Metalloproteinases and Retinoid Signaling During Organ Morphogenesis in Xenopus laevis|J. Appl. Toxicol.30(6): 582-589|2010|10.1002/jat.1529
153853|A||Hayes,T.B., V. Khoury, A. Narayan, M. Nazir, A. Park, T. Brown, L. Adame, E. Chan, D. Buchholz, T. Stueve, and S. Galli|Atrazine Induces Complete Feminization and Chemical Castration in Male African Clawed Frogs (Xenopus laevis)|Proc. Natl. Acad. Sci. U.S.A.107(10): 4612-4617|2010|10.1073/pnas.0909519107
153854|A||Choung,C.B., R.V. Hyne, M.M. Stevens, and G.C. Hose|Toxicity of the Insecticide Terbufos, Its Oxidation Metabolites, and the Herbicide Atrazine in Binary Mixtures to Ceriodaphnia cf dubia|Arch. Environ. Contam. Toxicol.60(3): 417-425|2011|10.1007/s00244-010-9560-z
153855|A||Cavas,T.|In Vivo Genotoxicity Evaluation of Atrazine and Atrazine-Based Herbicide on Fish Carassius auratus Using the Micronucleus Test and the Comet Assay|Food Chem. Toxicol.49(6): 1431-1435|2011|10.1016/j.fct.2011.03.038
153856|A||Gibble,R.E., and K.N. Baer|Effects of Atrazine, Agricultural Runoff, and Selected Effluents on Antimicrobial Activity of Skin Peptides in Xenopus laevis|Ecotoxicol. Environ. Saf.74(4): 593-599|2011|10.1016/j.ecoenv.2010.11.009
153857|A||Gibble,R.E.|Developmental and Immunological Effects of Atrazine and Selected Domestic Effluents in the African Clawed Frog (Xenopus laevis)|Ph.D.Thesis, University of Louisiana at Monroe, Monroe, LA:172 p.|2006|
153858|A||Choung,C.B., R.V. Hyne, R.M. Mann, M.M. Stevens, and G.C. Hose|Developmental Toxicity of Two Common Corn Pesticides to the Endangered Southern Bell Frog (Litoria raniformis)|Environ. Pollut.159:2648-2655|2011|10.1016/j.envpol.2011.05.037
153859|A||Gao,Y., J. Fang, J. Zhang, L. Ren, Y. Mao, B. Li, M. Zhang, D. Liu, and M. Du|The Impact of the Herbicide Atrazine on Growth and Photosynthesis of Seagrass, Zostera marina (L.), Seedlings|Mar. Pollut. Bull.62(8): 1628-1631|2011|10.1016/j.marpolbul.2011.06.014
153860|A||Chalifour,A., and P. Juneau|Temperature-Dependent Sensitivity of Growth and Photosynthesis of Scenedesmus obliquus, Navicula pelliculosa and Two Strains of Microcystis aeruginosa to the Herbicide Atrazine|Aquat. Toxicol.103(1/2): 9-17|2011|10.1016/j.aquatox.2011.01.016
153863|T||Falkenberg,N.R.|Interspecific and Intraspecific Competition of Common Sunflower (Helianthus annuus L.) in Field Corn (Zea mays L.)|Ph.D. Thesis, Texas A&M University, College Station TX:109 p.|2009|
153864|A||Fridgen,C.M.|Laboratory Controlled Normal and Atrazine Exposed Development of Northern Leopard Frog, Rana pipiens Tadpoles|M.S. Thesis,  Trent University, Canada:126 p.|2009|
153865|T||Halchak,J.L.|Root Growth Dynamics and Cultivation Aspects of Kosteletzkya virginica (Malvaceae)|M.S.Thesis, University of Delaware, Newark, DE:131 p.|2009|
153866|T||Samtani,J.B., J.B. Masiunas, and J.E. Appleby|White Oak and Northern Red Oak Leaf Injury from Exposure to Chloroacetanilide Herbicides|Hortscience45(4): 696-700|2010|10.21273/HORTSCI.45.4.696
153867|A||James-Yi,S.A.|Systematics, Ecology, and Distribution of Water Mites (Acari: Parasitengonina)|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:181 p.|2008|
153868|A||Mendez,S.I.|Aquatic and Terrestrial Exposure of Amphibians to Estrogenic Endocrine Disrupting Contaminants|Ph.D. Thesis, University of Missouri, Columbia, MO:127 p.|2009|
153870|A||Koprivnikar,J.|Interactions of Environmental Stressors Impact Survival and Development of Parasitized Larval Amphibians|Ecol. Appl.20(8): 2263-2272|2010|10.1890/09-1558.1
153872|A||Wang,X., H. Xing, X. Li, S. Xu, and X. Wang|Effects of Atrazine and Chlorpyrifos on the mRNA Levels of IL-1 and IFN-gamma2b in Immune Organs of Common Carp|Fish Shellfish Immunol.31(1): 126-133|2011|10.1016/j.fsi.2011.04.015
153873|A||Singh,S., P. Datta, and A. Tirkey|Response of Multiple Herbicide Resistant Strain of Diazotrophic Cyanobacterium, Anabaena variabilis, Exposed to Atrazine and DCMU|Indian J. Exp. Biol.49(4): 298-303|2011|
153874|A||Laviale,M., S. Morin, and A. Creach|Short Term Recovery of Periphyton Photosynthesis After Pulse Exposition to the Photosystem II Inhibitors Atrazine and Isoproturon|Chemosphere84(5): 731-734|2011|10.1016/j.chemosphere.2011.03.035
153875|T||Hussain,R., F. Mahmood, M.Z. Khan, A. Khan, and F. Muhammad|Pathological and Genotoxic Effects of Atrazine in Male Japanese Quail (Coturnix japonica)|Ecotoxicology20(1): 1-8|2011|10.1007/s10646-010-0515-y
153876|A||Lenkowski,J.R., G. Sanchez-Bravo, and K.A. McLaughlin|Low Concentrations of Atrazine, Glyphosate, 2,4-Dichlorophenoxyacetic Acid, and Triadimefon Exposures have Diverse Effects on Xenopus laevis Organ Morphogenesis|J. Environ. Sci.22(9): 1305-1308|2010|10.1016/S1001-0742(09)60254-0
153877|T||Tshipala,K.E.|Implications of Residual Atrazine for Wheat|M.S.Thesis, University of Pretoria, Hatfield, South Africa:91 p.|2000|
153878|A||Ralston-Hooper,K.J., J. Adamec, A. Jannash, R. Mollenhauer, H. Ochoa-Acuna, and M.S. Sepulveda|Use of GCxGC/TOF-MS and LC/TOF-MS for Metabolomic Analysis of Hyalella azteca Chronically Exposed to Atrazine and Its Primary Metabolite, Desethylatrazine|J. Appl. Toxicol.31:399-410|2011|10.1002/jat.1587
153879|A||Yi,S.A., B.M. Francis, W.M. Jarrell, and D.J. Soucek|Toxicological Effects of the Aquatic Herbicide, Fluridone, on Male Water Mites (Hydrachnidia: Arrenurus: Megaluracarus)|Ecotoxicology20:81-87|2011|10.1007/s10646-010-0558-0
153880|AT||Hermanutz,R., and K. Allen|Effects and Fate of Atrazine in MERS Wetland Streams During Spring - Summer of 1992|U.S.Environmental Protection Agency Research Laboratory, Duluth, MN:52 p.|1993|
153881|A||Bialk-Bielinska,A., S. Stolte, J. Arning, U. Uebers, A. Boschen, P. Stepnowski, and M. Matzke|Ecotoxicity Evaluation of Selected Sulfonamides|Chemosphere85(6): 928-933|2011|10.1016/j.chemosphere.2011.06.058
153882|AT||Chelinho,S., M. Moreira-Santos, D. Lima, C. Silva, P. Viana, S. Andre, I. Lopes, R. Ribeiro, A.M. Fialho, C.A. Viegas, |Cleanup of Atrazine-Contaminated Soils:  Ecotoxicological Study on the Efficacy of a Bioremediation Tool with Pseudomonas sp. ADP|J. Soils Sediments10(3): 568-578|2010|10.1007/s11368-009-0145-2
153883|A||Sanchez,B.C.|Development of Novel Biomarkers of Fish Exposure to Environmental Contaminants|Ph.D.Thesis, Purdue University, West Lafayette, IN:140 p.|2009|
153885|T||Thornton,B.J., T.E. Elthon, R.L. Cerny, and B.D. Siegfried|Proteomic Analysis of Atrazine Exposure in Drosophila melanogaster (Diptera:  Drosophilidae)|Chemosphere81(2): 235-241|2010|10.1016/j.chemosphere.2010.06.032
153886|A||Brown,T.M.|The Effects of Pesticide Exposure on Gonadal Development, Phonotaxis, and Calling in the African Clawed Frog, Xenopus laevis|Ph.D. Thesis, University of California, Berkeley, CA:358 p.|2009|
153887|T||Rajkovic,V., M. Matavulj, and O. Johansson|Studies on the Synergistic Effects of Extremely Low-Frequency Magnetic Fields and the Endocrine-Disrupting Compound Atrazine on the Thyroid Gland|Int. J. Radiat. Biol.86(12): 1050-1060|2010|10.3109/09553002.2010.501837
153888|A||Sanchez,B.C., B. Carter, H.R. Hammers, and M.S. Sepulveda|Transcriptional Response of Hepatic Largemouth Bass (Micropterus salmoides) mRNA upon Exposure to Environmental Contaminants|J. Appl. Toxicol.31(2): 108-116|2011|10.1002/jat.1553
153889|T||Cooper,R.L., T.E. Stoker, L. Tyrey, J.M. Goldman, and W.K. McElroy|Atrazine Disrupts the Hypothalamic Control of Pituitary-Ovarian Function|Toxicol. Sci.53:297-307|2000|10.1093/toxsci/53.2.297
153890|T||Eldridge,J.C., R.F. McConnell, L.T. Wetzel, and M.O. Tisdel|Appearance of Mammary Tumors in Atrazine-Treated Female Rats:  Probable Mode of Action Involving Strain-Related Control of Ovulation and Estrous Cycling|ACS Symp. Ser.32:414-423|1998|10.1021/bk-1998-0683.ch032
153891|T||Singh,M., R. Sandhir, and R. Kiran|Effects on Antioxidant Status of Liver Following Atrazine Exposure and Its Attenuation by Vitamin E|Exp. Toxicol. Pathol.63(3): 269-276|2011|10.1016/j.etp.2010.01.005
153892|T||Adesiyan,A.C., T.O. Oyejola, S.O. Abarikwu, M.O. Oyeyemi, and E.O. Farombi|Selenium Provides Protection to the Liver but not the Reproductive Organs in an Atrazine-Model of Experimental Toxicity|Exp. Toxicol. Pathol.63(3): 201-207|2011|10.1016/j.etp.2009.11.008
153894|T||Pogrmic-Majkic,K., S. Fa, V. Dakic, S. Kaisarevic, and R. Kovacevic|Upregulation of Peripubertal Rat Leydig Cell Steroidogenesis Following 24  h In Vitro and In Vivo Exposure to Atrazine|Toxicol. Sci.118(1): 52-60|2010|10.1093/toxsci/kfq227
153895|T||Pogrmic,K., S. Fa, V. Dakic, S. Kaisarevic, and R. Kovacevic|Atrazine Oral Exposure of Peripubertal Male Rats Downregulates Steroidogenesis Gene Expression in Leydig Cells|Toxicol. Sci.111(1): 189-197|2009|10.1093/toxsci/kfp135
153896|T||Fraites,M.J.P., R.L. Cooper, A. Buckalew, S. Jayaraman, L. Mills, and S.C. Laws|Characterization of the Hypothalamic-Pituitary-Adrenal Axis Response to Atrazine and Metabolites in the Female Rat|Toxicol. Sci.112(1): 88-99|2009|10.1093/toxsci/kfp194
153897|T||Hovey,R.C., P.S. Coder, J.C. Wolf, R.L.,Jr. Sielken, M.O. Tisdel, and C.B. Breckenridge|Quantitative Assessment of Mammary Gland Development in Female Long Evans Rats Following In Utero Exposure to Atrazine|Toxicol. Sci.119(2): 380-390|2011|10.1093/toxsci/kfq337
153898|T||Belloni,V., F. Dessi-Fulgheri, M. Zaccaroni, E. Di Consiglio, G. De Angelis, E. Testai, M. Santochirico, E. Alleva, and|Early Exposure to Low Doses of Atrazine Affects Behavior in Juvenile and Adult CD1 Mice|Toxicology279(1-3): 19-26|2011|10.1016/j.tox.2010.07.002
153899|T||Rivest,P., P.J. Devine, and J.T. Sanderson|Evaluation of a Bioluminescent Mouse Model Expressing Aromatase PII-Promoter-Controlled Luciferase as a Tool for the Study of Endocrine Disrupting Chemicals|Toxicol. Appl. Pharmacol.249(1): 33-40|2010|10.1016/j.taap.2010.08.011
153900|T||Stanko,J.P., R.R. Enoch, J.L. Rayner, C.C. Davis, D.C. Wolf, D.E. Malarkey, and S.E. Fenton|Effects of Prenatal Exposure to a Low Dose Atrazine Metabolite Mixture on Pubertal Timing and Prostate Development of Male Long-Evans Rats|Reprod. Toxicol.30(4): 540-549|2010|10.1016/j.reprotox.2010.07.006
153901|T||Ross,M.K., T.L. Jones, and N.M. Filipov|Disposition of the Herbicide 2-Chloro-4-(Ethylamino)-6-(Isopropylamino)-S-Triazine (Atrazine) and Its Major Metabolites in Mice:  A Liquid Chromatography/Mass Spectrometry Analysis of Urine, Plasma, and Tissue Levels|Drug Metab. Dispos.37(4): 776-786|2009|10.1124/dmd.108.024927
153902|T||Rowe,A.M., K.M. Brundage, and J.B. Barnett|Developmental Immunotoxicity of Atrazine in Rodents|Basic Clin. Pharmacol. Toxicol.102(2): 139-145|2008|10.1111/j.1742-7843.2007.00175.x
153903|T||Bardullas,U., M. Giordano, and V.M. Rodr guez|Chronic Atrazine Exposure Causes Disruption of the Spontaneous Locomotor Activity and Alters the Striatal Dopaminergic System of the Male Sprague-Dawley Rat|Neurotoxicol. Teratol.33(2): 263-272|2003|10.1016/j.ntt.2010.09.001
153904|T||Victor-Costa,A.B., S.M.C. Bandeira, A.G. Oliveira, G.A.B. Mahecha, and C.A. Oliveira|Changes in Testicular Morphology and Steroidogenesis in Adult Rats Exposed to Atrazine|Reprod. Toxicol.29(3): 323-331|2010|10.1016/j.reprotox.2009.12.006
153905|T||Shibayama,H., T. Kotera, Y. Shinoda, T. Hanada, T. Kajihara, M. Ueda, H. Tamura, S. Ishibashi, Y. Yamashita, and S. Och|Collaborative Work on Evaluation of Ovarian Toxicity. 14) Two- or Four-Week Repeated-Dose Studies and Fertility Study of Atrazine in Female Rats|J. Toxicol. Sci.34(Suppl. 1): 147-155|2009|
153906|T||Singh,M., R. Sandhir, and R. Kiran|Atrazine-Induced Alterations in Rat Erythrocyte Membranes:  Ameliorating Effect of Vitamin E|J. Biochem. Mol. Toxicol.22(5): 363-369|2008|10.1002/jbt.20249
153907|T||Singh,M., R. Sandhir, and R. Kiran|Alterations in Ca2+ Homeostasis in Rat Erythrocytes with Atrazine Treatment:  Positive Modulation by Vitamin E|Mol. Cell. Biochem.340(1/2): 231-238|2010|10.1007/s11010-010-0422-9
153908|T||Singh,M., R. Sandhir, and R. Kiran|Oxidative Stress Induced by Atrazine in Rat Erythrocytes:  Mitigating Effect of Vitamin E|Toxicol. Mech. Methods20(3): 119-126|2010|10.3109/15376511003606253
153909|T||Foradori,C.D., L.R. Hinds, W.H. Hanneman, and R.J. Handa|Effects of Atrazine and Its Withdrawal on Gonadotropin-Releasing Hormone Neuroendocrine Function in the Adult Female Wistar Rat|Biol. Reprod.81(6): 1099-1105|2009|10.1095/biolreprod.109.077453
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153915|T||Rajkovic,V., M. Matavulj, and O. Johansson|Combined Exposure of Peripubertal Male Rats to the Endocrine-Disrupting Compound Atrazine and Power-Frequency Electromagnetic Fields Causes Degranulation of Cutaneous Mast Cells:  A New Toxic Environmental Hazard?|Arch. Environ. Contam. Toxicol.59(2): 334-341|2010|10.1007/s00244-010-9477-6
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153922|T||Armel,G.R., R.J. Richardson, H.P. Wilson, and T.E. Hines|Strategies for Control of Horseweed (Conyza canadensis) and Other Winter Annual Weeds in No-Till Corn|Weed Technol.23(3): 379-383|2009|10.1614/WT-08-094.1
153923|T||Wehtje,G., M.E. Miller, T.L. Grey, and W.R.,Jr. Brawner|Comparisons Between X-Ray Film- and Phosphorescence Imaging-Based Autoradiography for the Visualization of Herbicide Translocation|Weed Technol.21(4): 1109-1114|2007|10.1614/WT-06-152.1
153924|T||Boydston,R.A., H.P. Collins, and S.C. Fransen|Response of Three Switchgrass (Panicum virgatum) Cultivars to Mesotrione, Quinclorac, and Pendimethalin|Weed Technol.24(3): 336-341|2010|10.1614/WT-D-09-00053.1
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153927|T||Salgare,S.A.|Effect of Herbicides on the Rate of Increase in Pollen Germinability and Tube Growth of Successive Flowers of Apocynaceae:  1.  Atrataf 50W, Basalin EC, Fernoxone|Indian Bot. Contactor1:107-110|1984|
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153929|T||Gopinath,K.A., and S. Kundu|Effect of Dose and Time of Atrazine Application on Weeds in Maize (Zea mays) Under Mid-Hill Conditions of Northwestern Himalayas|Indian J. Agric. Sci.78(3): 254-257|2008|
153930|T||Kramer,C., N. Soltani, C.J. Swanton, D.E. Robinson, and P.H. Sikkema|Control of Volunteer Adzuki Bean (Vigna angularis) with Pre- and Postemergence Herbicides in Corn (Zea mays)|Can. J. Plant Sci.90(6): 925-932|2010|10.4141/cjps10075
153931|T||Marinangeli,P., R.L. Castro, C. Facchinetti, L. Reinoso, J. Irigoyen, and N. Curvetto|Evaluation of Herbicides for Chemical Weed Control in Lily Bulb Production|Weed Technol.24(4): 483-488|2010|10.1614/WT-09-055.1
153932|T||Stewart,C.L., R.E. Nurse, and P.H. Sikkema|Time of Day Impacts Postemergence Weed Control in Corn|Weed Technol.23(3): 346-355|2009|10.1614/WT-08-150.1
153933|T||McElroy,J.S., and R.H. Walker|Effect of Atrazine and Mesotrione on Centipedegrass Growth, Photochemical Efficiency, and Establishment|Weed Technol.23(1): 67-72|2009|10.1614/WT-07-109.1
153934|T||Czarnota,M.A.|Controlling Florida Betony (Stachys floridana) with Herbicides|Weed Technol.24(1): 25-27|2010|10.1614/WT-07-026.1
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153936|T||Ribas,L.C.C., M.M. De Mendonca, C.M. Camelini, and C.H.L. Soares|Use of Spent Mushroom Substrates from Agaricus subrufescens (Syn. A. Blazei, A. Brasiliensis) and Lentinula edodes Productions in the Enrichment of a Soil-Based Potting Media for Lettuce (Lactuca sativa) Cultivation: Gr|Bioresour. Technol.100(20): 4750-4757|2009|10.1016/j.biortech.2008.10.059
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153938|T||Singh,H., R.S. Hooda, R.K. Malik, and A.K. Yadav|Performance of Metribuzin, Atrazine, Trifluralin and Their Combinations with Isoproturon Against Weeds in Wheat|Crop Res. (Hisar)17(3): 282-285|1999|
153939|T||Soltani,N., J.D. Vyn, and P.H. Sikkema|Control of Common Waterhemp (Amaranthus tuberculatus var. rudis) in Corn and Soybean with Sequential Herbicide Applications|Can. J. Plant Sci.89(1): 127-132|2009|10.4141/CJPS08051
153940|T||Soltani,N., L.L. Van Eerd, R.J. Vyn, C. Shropshire, and P.H. Sikkema|Weed Control, Environmental Impact and Profitability with Glyphosate Tank Mixes in Glyphosate-Tolerant Corn|Can. J. Plant Sci.90(1): 125-132|2010|10.4141/CJPS09084
153941|T||Soltani,N., M. Kumagai, L. Brown, and P.H. Sikkema|Long-Spine Sandbur (Cenchrus longispinus (Hack. in Kneuck.) Fernald) Control in Corn|Can. J. Plant Sci.90(2): 241-245|2010|10.4141/CJPS09132
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153954|T||Rodriguez-Kabana,R., E.A. Curl, and H.H.,Jr. Funderburk|Effect of Atrazine on Growth Activity of Sclerotium rolfsii and Trichoderma viridi in Soil|Can. J. Microbiol.14(12): 1283-1288|1968|10.1139/m68-215
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153956|T||Salgare,S.A., and R.I. Sharma|Effect of Herbicides (Atrataf 50W, Basalin EC, Fernoxone) on the Rate of Pollen Germination and Tube Growth of Successive Flowers of Petunia grandiflora|J. Palynol.21:191-193|1985|
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153975|T||Perez-Jones,A., S. Intanon, and C. Mallory-Smith|Molecular Analysis of Hexazinone-Resistant Shepherd's-Purse (Capsella bursa-pastoris) Reveals a Novel psbA Mutation|Weed Sci.57(6): 574-578|2009|10.1614/WS-09-089.1
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153992|T||Stewart,C.L., R.E. Nurse, C. Gillard, and P.H. Sikkema|Tolerance of Adzuki Bean to Preplant-Incorporated, Pre-Emergence, and Post-Emergence Herbicides in Ontario, Canada|Weed Biol. Manag.10(1): 40-47|2010|10.1111/j.1445-6664.2010.00365.x
153993|T||Chikoye,D., S. Schulz, and F. Ekeleme|Evaluation of Integrated Weed Management Practices for Maize in the Northern Guinea Savanna of Nigeria|Crop Prot.23(10): 895-900|2004|10.1016/j.cropro.2004.01.013
153994|T||Yang,X., W. Sun, J.P. Liu, Y.J. Liu, and Q.Y. Zeng|Biochemical and Physiological Characterization of a Tau Class Glutathione Transferase from Rice (Oryza sativa)|Plant Physiol. Biochem. (Amsterdam)47(11/12): 1061-1068|2009|10.1016/j.plaphy.2009.07.003
153995|T||Chikoye,D., U.E. Udensi, and A. Fontem Lum|Evaluation of a New Formulation of Atrazine and Metolachlor Mixture for Weed Control in Maize in Nigeria|Crop Prot.24(11): 1016-1020|2005|10.1016/j.cropro.2005.02.011
153996|T||Wanjala,B.W.K.|Evaluation of Promising Herbicides for Control of Weeds in Pyrethrum Fields in Kenya|Pyrethrum Post17(2): 60-65|1989|
153997|T||Dixon,F.L., D.V. Clay, and I. Willoughby|The Efficacy of Pre-Emergence Herbicides on Problem Weeds in Woodland Regeneration|Crop Prot.25(3): 259-268|2006|10.1016/j.cropro.2005.04.014
153998|T||Donald,W.W.|Control of Both Winter Annual and Summer Annual Weeds in No-Till Corn with Between-Row Mowing Systems|Weed Technol.21(3): 591-601|2007|10.1614/WT-05-141.1
153999|T||Nag,S.K., R. Kookana, L. Smith, E. Krull, L.M. MacDonald, and G. Gill|Poor Efficacy of Herbicides in Biochar-Amended Soils as Affected by Their Chemistry and Mode of Action|Chemosphere84:1572-1577|2011|10.1016/j.chemosphere.2011.05.052
154000|T||Runham,S.R., S.J. Town, and J.C. Fitzpatrick|Application of Herbicides Impregnated onto Plastic Film in Early Vegetables and Maize|Br. Crop Prot. Conf. Weeds3B-4:143-150|1997|
154001|T||Engle,D.M., J.F. Stritzke, T.G. Bidwell, and P.L. Claypool|Late-Summer Fire and Follow-Up Herbicide Treatments in Tallgrass Prairie|J. Range Manag.46(6): 542-547|1993|10.2307/4002869
154002|T||Schubert,O.E.|Effect of Diphenamid, Simazine, and Atrazine on the Weight and Development of Strawberry Mother and Runner Plants|Proc. W. Va. Acad. Sci.38:92-101|1966|
154003|T||Gana,A.K., A.A. Ndarubu, and L.D. Busari|Efficacy of CGA 362 and Ametryn with Pre-Emergence Herbicides on Weed Control in Sugarcane|Sugar Technol.8(1): 88-90|2006|10.1007/BF02943750
154004|T||Radosevich,S.R.|Weed Control in Field Corn and Grain Sorghum|Proc. Annu. Calif. Weed Conf.26:50-52|1975|
154005|T||Pritsa,T.S., E.A. Fotiadis, and P.C. Lolas|Corn Tolerance to Atrazine and Cadmium and Sunflower to Cadmium in Soil and Hydroponic Culture|Commun. Soil Sci. Plant Anal.39(7): 1168-1182|2008|10.1080/00103620801925877
154006|T||Grichar,W.J., B.A. Besler, and K.D. Brewer|Effect of Row Spacing and Herbicide Dose on Weed Control and Grain Sorghum Yield|Crop Prot.23(3): 263-267|2004|10.1016/j.cropro.2003.08.004
154007|T||Ishaya,D.B., P. Tunku, and N.C. Kuchinda|Evaluation of Some Weed Control Treatments for Long Season Weed Control in Maize (Zea mays L.) Under Zero and Minimum Tillage at Samaru, in Nigeria|Crop Prot.27(7): 1047-1051|2008|10.1016/j.cropro.2007.11.020
154008|T||Ivanov,S.V., V.S. Alexieva, and E.N. Karanov|Cumulative Effect of Low and High Atrazine Concentrations on Arabidopsis thaliana Plants|Russ. J. Plant Physiol.52(2): 213-219|2005|10.1007/s11183-005-0033-6
154009|T||Kathiresan,G., S. Avudaithai, and K. Kannappan|Controlling Twining Weed (Ipomoea sepiaria) in Sugarcane|Sugar Technol.6(1/2): 53-58|2004|10.1007/BF02942618
154010|T||Kovalchuk,I., J. Filkowski, K. Smith, and O. Kovalchuk|Reactive Oxygen Species Stimulate Homologous Recombination in Plants|Plant Cell Environ.26(9): 1531-1539|2003|10.1046/j.1365-3040.2003.01076.x
154011|T||Krutz,L.J., R.M. Zablotowicz, K.N. Reddy, C.H. Koger III, and M.A. Weaver|Enhanced Degradation of Atrazine Under Field Conditions Correlates with a Loss of Weed Control in the Glasshouse|Pest Manag. Sci.63(1): 23-31|2007|10.1002/ps.1304
154012|T||Frans,R.E., and H.C. Staton|Herbicide Field Evaluation Trials on Field Crops, 1969|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.179:36 p.|1970|
154013|A||Perewoska,I., A.L. Etienne, T. Miranda, and D. Kirilovsky|S1 Destabilization and Higher Sensitivity to Light in Metribuzin-Resistant Mutants|Plant Physiol.104(1): 235-245|1994|10.1104/pp.104.1.235
154014|T||Lin,C.H., R.N. Lerch, H.E. Garrett, and M.F. George|Bioremediation of Atrazine-Contaminated Soil by Forage Grasses: Transformation, Uptake, and Detoxification|J. Environ. Qual.37(1): 196-206|2008|10.2134/jeq2006.0503
154015|T||Nemat Alla,M.M., A.H.M. Badawi, N.M. Hassan, Z.M. El-bastawisy, and E.G. Badran|Induction of Glutathione and Glutathione-Associated Enzymes in Butachlor-Tolerant Plant Species|Am. J. Plant Physiol.2(3): 195-205|2007|10.3923/ajpp.2007.195.205
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154017|T||Parochetti,J.V.|Herbicides and Combinations for Weed Control in Corn|Proc. Northeast. Weed Control Conf.23:173-180|1969|
154018|T||Popov,V.H., and P.S. Cornish|Atrazine Tolerance of Grass Species with Potential for Use in Vegetated Filters in Australia|Plant Soil280(1/2): 115-126|2006|10.1007/s11104-005-2555-2
154019|T||Ramel,F., C. Sulmon, G. Gouesbet, and I. Couee|Natural Variation Reveals Relationships Between Pre-Stress Carbohydrate Nutritional Status and Subsequent Responses to Xenobiotic and Oxidative Stress in Arabidopsis thaliana|Ann. Bot.104(7): 1323-1337|2009|10.1093/aob/mcp243
154020|T||Sibony,M., and B. Rubin|Molecular Basis for Multiple Resistance to Acetolactate Synthase-Inhibiting Herbicides and Atrazine in Amaranthus blitoides (Prostrate Pigweed)|Planta (Multiple Languages)216(6): 1022-1027|2003|10.1007/s00425-002-0955-6
154021|T||Singh,A., and C. Kaur|Weed Control with Pre and Post Emergence Herbicides Application in Spring Planted Sugarcane|Sugar Technol.6(1/2): 93-94|2004|10.1007/BF02942628
154022|T||Sulmon,C., G. Gouesbet, F. Binet, F. Martin-Laurent, A. El Amrani, and I. Couee|Sucrose Amendment Enhances Phytoaccumulation of the Herbicide Atrazine in Arabidopsis thaliana|Environ. Pollut.145(2): 507-515|2007|10.1016/j.envpol.2006.04.018
154023|T||Thiel,H., C. Kluth, and M. Varrelmann|A New Molecular Method for the Rapid Detection of a Metamitron-Resistant Target Site in Chenopodium album|Pest Manag. Sci.66(9): 1011-1017|2010|10.1002/ps.1975
154024|T||Voicu,M.C., and J.J. Zwiazek|Inhibitor Studies of Leaf Lamina Hydraulic Conductance in Trembling Aspen (Populus tremuloides Michx.) Leaves|Tree Physiol.30(2): 193-204|2009|10.1093/treephys/tpp112
154025|T||Geier,P.W., P.W. Stahlman, D.L. Regehr, and B.L. Olson|Preemergence Herbicide Efficacy and Phytotoxicity in Grain Sorghum|Weed Technol.23(2): 197-201|2009|10.1614/WT-08-125.1
154026|T||Lin,C.H., R.N. Lerch, H.E. Garrett, and M.F. George|Improved GC-MS/MS Method for Determination of Atrazine and Its Chlorinated Metabolites in Forage Plants - Laboratory and Field Experiments|Commun. Soil Sci. Plant Anal.38(13/14): 1753-1773|2007|10.1080/00103620701435522
154027|T||Bayer,G.H.|The Relative Effectiveness of Corn Herbicides in the Northeast on Selected Weed Species|Proc. Northeast. Weed Control Conf.23:148-154|1969|
154028|T||Singh,A., and C. Kaur|Evaluation of Herbicides for the Control of Weeds in Spring Planted Sugarcane|Sugar Technol.5(4): 317-318|2003|10.1007/BF02942494
154029|T||Millhollon,R.W.|Preemergence Control of Itchgrass (Rottboellia cochinchinensis) and Johnsongrass (Sorghum halepense) in Sugarcane (Saccharum spp hybrids) with Pendimethalin and Prodiamine|Weed Sci.41(4): 621-626|1993|10.1017/S0043174500076426
154030|T||Avidov,E., N. Aharonson, J. Katan, B. Rubin, and O. Yarden|Persistence of Terbutryn and Atrazine in Soil as Affected by Soil Disinfestation and Fungicides|Weed Sci.33(4): 457-461|1985|10.1017/S0043174500082655
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154032|T||Richard,E.P.,Jr.|Control of Perennated Bermudagrass (Cynodon dactylon) and Johnsongrass (Sorghum halepense) in Sugarcane (Saccharum spp. hybrids)|Weed Technol.12(1): 128-133|1998|10.1017/S0890037X00042688
154033|T||Pavlovic,D., S. Vrbnicanin, D. Bozic, and A.J. Fischer|Morphophysiological Traits and Atrazine Sensitivity in Chenopodium album L.|Pest Manag. Sci.64(2): 101-107|2008|10.1002/ps.1473
154034|T||Hugie,J.A., G.A. Bollero, P.J. Tranel, and D.E. Riechers|Defining the Rate Requirements for Synergism Between Mesotrione and Atrazine in Redroot Pigweed (Amaranthus retroflexus)|Weed Sci.56(2): 265-270|2008|10.1614/WS-07-128.1
154036|T||Jones,C.A., and J.L. Griffin|Residual Red Morningglory (Ipomoea coccinea) Control with Foliar- and Soil-Applied Herbicides|Weed Technol.22(3): 402-407|2008|10.1614/WT-07-099.1
154037|T||Jones,C.A.|Red Morningglory (Ipomoea coccinea L.) Biology and Management in Sugarcane|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:75 p.|2006|
154038|T||Richard,E.P.,Jr.|Effects of Fallow Bermudagrass (Cynodon dactylon) Control Programs on Newly Planted Sugarcane (Saccharum spp. Hybrids)|Weed Technol.11(4): 677-682|1997|10.1017/S0890037X00043244
154039|T||Reddy,K.N., C.T. Bryson, and I.C. Burke|Ragweed Parthenium (Parthenium hysterophorus) Control with Preemergence and Postemergence Herbicides|Weed Technol.21(4): 982-986|2007|10.1614/WT-07-053.1
154040|T||Hart,S.E., F. Yelverton, E.K. Nelson, D.W. Lycan, and G.M. Henry|Response of Glyphosate-Resistant and Glyphosate-Susceptible Bentgrass (Agrostis spp.) to Postemergence Herbicides|Weed Technol.19(3): 549-559|2005|10.1614/WT-03-224R2.1
154041|T||Richard,E.P.,Jr., and J.L. Griffin|Johnsongrass (Sorghum halepense) Control in Sugarcane (Saccharum sp.) with Asulam Applied Alone and in Mixtures|Weed Technol.7(3): 657-662|1993|10.1017/S0890037X00037507
154042|T||Friesen,L.J.S., and S.B. Powles|Physiological and Molecular Characterization of Atrazine Resistance in a Wild Radish (Raphanus raphanistrum) Population|Weed Technol.21(4): 910-914|2007|10.1614/WT-07-008.1
154043|T||Liman,R., I.H. Cigerci, D. Akyil, Y. Eren, and M. Konuk|Determination of Genotoxicity of Fenaminosulf by Allium and Comet Tests|Pestic. Biochem. Physiol.99(1): 61-64|2011|10.1016/j.pestbp.2010.10.006
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154046|T||Park,K.W., and C.A. Mallory-Smith|psbA Mutation (Asn266 to Thr) in Senecio vulgaris L. Confers Resistance to Several PS II-Inhibiting Herbicides|Pest Manag. Sci.62(9): 880-885|2006|10.1002/ps.1252
154047|T||Lichtenstein,E.P., T.T. Liang, and M.K. Koeppe|Effects of Fertilizers, Captafol, and Atrazine on the Fate and Translocation of (14C)Fonofos and (14C)Parathion in a Soil-Plant Microcosm|J. Agric. Food Chem.30:871-878|1982|10.1021/jf00113a019
154048|T||Grillo,R., N.F.S. De Melo, R. De Lima, R.W. Lourenco, A.H. Rosa, and L.F. Fraceto|Characterization of Atrazine-Loaded Biodegradable Poly(Hydroxybutyrate-Co-Hydroxyvalerate) Microspheres|J. Polymers Environ.18(1): 26-32|2010|10.1007/s10924-009-0153-8
154049|T||Williams,M.J., and D.L. Colvin|Herbicide Tolerance and Efficacy During the Establishment Phase of Leucaena leucocephala Plantings in Florida|Proc. Soil Crop Sci. Soc. Fla.48:7-9|1989|
154050|T||Merini,L.J., C. Bobillo, V. Cuadrado, D. Corach, and A.M. Giulietti|Phytoremediation Potential of the Novel Atrazine Tolerant Lolium multiflorum and Studies on the Mechanisms Involved|Environ. Pollut.157(11): 3059-3063|2009|10.1016/j.envpol.2009.05.036
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154052|T||Armel,G.R., H.P. Wilson, R.J. Richardson, C.M. Whaley, and T.E. Hines|Mesotrione Combinations with Atrazine and Bentazon for Yellow and Purple Nutsedge (Cyperus esculentus and C. rotundus) Control in Corn|Weed Technol.22(3): 391-396|2008|10.1614/WT-07-178.1
154053|T||Shaw,D.R., T.F. Peeper, and D.L. Nofziger|Evaluation of Chlorophyll Fluorescence Parameters for an Intact-Plant Herbicide Bioassay|Crop Sci.26(4): 756-760|1986|10.2135/cropsci1986.0011183X002600040027x
154054|T||Schuster,C.L., K. Al-Khatib, and J.A. Dille|Efficacy of Sulfonylurea Herbicides when Tank Mixed with Mesotrione|Weed Technol.22(2): 222-230|2008|10.1614/WT-07-131.1
154055|T||Stewart,C.L., R.E. Nurse, M. Cowbrough, and P.H. Sikkema|How Long can a Herbicide Remain in the Spray Tank Without Losing Efficacy?|Crop Prot.28(12): 1086-1090|2009|10.1016/j.cropro.2009.05.003
154056|T||Su,Y.H., and Y.C. Liang|Transport via Xylem of Atrazine, 2,4-Dinitrotoluene, and 1,2,3-Trichlorobenzene in Tomato and Wheat Seedlings|Pestic. Biochem. Physiol.100(3): 284-288|2011|10.1016/j.pestbp.2011.05.001
154057|T||Bollman,J.D., C.M. Boerboom, R.L. Becker, and V.A. Fritz|Efficacy and Tolerance to HPPD-Inhibiting Herbicides in Sweet Corn|Weed Technol.22(4): 666-674|2008|10.1614/WT-08-036.1
154058|T||Hennigh,D.S., K. Al-Khatib, R.S. Currie, M.R. Tuinstra, P.W. Geier, P.W. Stahlman, and M.M. Claassen|Weed Control with Selected Herbicides in Acetolactate Synthase-Resistant Sorghum|Crop Prot.29(8): 879-883|2010|10.1016/j.cropro.2010.04.019
154059|T||Norsworthy,J.K., K.L. Smith, and G. Griffith|Evaluation of Combinations of Paraquat Plus Photosystem II-Inhibiting Herbicides for Controlling Failed Stands of Maize (Zea mays)|Crop Prot.30(3): 307-310|2011|10.1016/j.cropro.2010.11.016
154060|T||Boydston,R.A., H.P. Collins, and A.K. Alva|Control of Volunteer Potato (Solanum tuberosum) in Sweet Corn with Mesotrione is Unaffected by Atrazine and Tillage|Weed Technol.22(4): 654-659|2008|10.1614/WT-08-025.1
154061|T||Everman,W.J., C.R. Medlin, R.D.,Jr. Dirks, T.T. Bauman, and L. Biehl|The Effect of Postemergence Herbicides on the Spectral Reflectance of Corn|Weed Technol.22(3): 514-522|2008|10.1614/WT-07-021.1
154062|T||Ramel,F., C. Sulmon, M. Bogard, I. Couee, and G. Gouesbet|Differential Patterns of Reactive Oxygen Species and Antioxidative Mechanisms During Atrazine Injury and Sucrose-Induced Tolerance in Arabidopsis thaliana Plantlets|BMC Plant Biol.9:18 p.|2009|10.1186/1471-2229-9-28
154063|T||Ramel,F., C. Sulmon, F. Cabello-Hurtado, L. Taconnat, M.L. Martin-Magniette, J.P. Renou, A. El Amrani, I. Couee, and G.|Genome-Wide Interacting Effects of Sucrose and Herbicide-Mediated Stress in Arabidopsis thaliana:  Novel Insights into Atrazine Toxicity and Sucrose-Induced Tolerance|BMC Genomics8(450): 20 p.|2007|
154065|T||Maravilla-Galvan,R., R. Fierro, H. Gonzalez-Marquez, S. Gomez-Arroyo, I. Jimenez, and M. Betancourt|Effects of Atrazine and Fenoxaprop-Ethyl on Capacitation and the Acrosomal Reaction in Boar Sperm|Int. J. Toxicol.28(1): 24-32|2009|10.1177/1091581809333138
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154067|T||Dailey,O.D.,Jr., C.C. Dowler, and B.G.,Jr. Mullinix|Polymeric Microcapsules of the Herbicides Atrazine and Metribuzin: Preparation and Evaluation of Controlled-Release Properties|J. Agric. Food Chem.41(9): 1517-1522|1993|10.1021/jf00033a031
154068|T||Hugie,J.A.|Understanding the Interaction of Mesotrione and Atrazine in Redroot Pigweed (Amaranthus retroflexus)|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:137 p.|2003|
154070|T||Rowe,A.M.|The Effects of the Herbicide Atrazine on Mammalian Immune Function|Ph.D Thesis, West Virginia University, Morgantown, WV:190 p.|2007|
154071|T||Dooley,G.|Characterization of Atrazine Induced Protein Adducts|Ph.D.Thesis, Colorado State University, Fort Collins, CO:146 p.|2007|
154072|T||Thornton,B.J.|Sex-Dependent Changes in Activity of Detoxification Enzymes, Insecticide Susceptibility, and Alterations in Protein Expression Induced by Atrazine in Drosophila melanogaster|Ph.D. Thesis, University of Nebraska, Lincoln, NE:141 p.|2009|
154073|A||Rentz,N.C.|Evaluating the Field and Laboratory Efficacy of a Toxicity Test for the Aquatic Macrophyte Elodea canadensis|M.S.Thesis, University of Manitoba, Canada:219 p.|2009|
154074|T||Voicu,M.C.|Regulation of Water Flow in Bur Oak (Quercus macrocarpa) and Aspen (Populus tremuloides) Leaves|Ph.D. Thesis, University of Alberta , Canada:201 p.|2009|
154075|T||Hoagland,R.E., and S.O. Duke|Effects of Herbicides on Growth and Extractable Phenylalanine Ammonia-Lyase Activity in Light- and Dark-Grown Soybean (Glycine max) Seedlings|Weed Sci.29(4): 433-439|1981|10.1017/S0043174500039953
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154079|T||Vaishnav,K.A., V.A. Patel, B.M. Dhedhi, and B.K. Kikani|Efficacy and Economy of Different Fungicides Against Rust Disease of Groundnut|Indian J. Mycol. Plant Pathol.21(2): 164-165|1991|
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154081|A||Waser,W., T.P. Sahoo, G. Herczeg, J. Merila, and M. Nikinmaa|Physiological Differentiation Among Nine-Spined Stickleback Populations:  Effects of Copper Exposure|Aquat. Toxicol.98(2): 188-195|2010|10.1016/j.aquatox.2010.02.009
154082|A||Wang,X., C. Fang, H. Hong, and W.X. Wang|Gender Differences in TBT Accumulation and Transformation in Thais clavigera After Aqueous and Dietary Exposure|Aquat. Toxicol.99(3): 413-422|2010|10.1016/j.aquatox.2010.06.001
154083|A||Shappell,N.W., K.M. Hyndman, S.E. Bartell, and H.L. Schoenfuss|Comparative Biological Effects and Potency of 17alpha- and 17beta-Estradiol in Fathead Minnows|Aquat. Toxicol.100(1): 1-8|2010|10.1016/j.aquatox.2010.07.005
154084|A||Pereira,J.L., C.J. Hill, R.M. Sibly, V.N. Bolshakov, F. Goncalves, L.H. Heckmann, and A. Callaghan|Gene Transcription in Daphnia magna: Effects of Acute Exposure to a Carbamate Insecticide and an Acetanilide Herbicide|Aquat. Toxicol.97(3): 268-276|2010|10.1016/j.aquatox.2009.12.023
154085|A||Paul-Pont,I., P. Gonzalez, M. Baudrimont, H. Nili, and X. De Montaudouin|Short-Term Metallothionein Inductions in the Edible Cockle Cerastoderma edule After Cadmium or Mercury Exposure:  Discrepancy Between mRNA and Protein Responses|Aquat. Toxicol.97(3): 260-267|2010|10.1016/j.aquatox.2009.12.007
154086|A||Halden,A.N., J.R. Nyholm, P.L. Andersson, H. Holbech, and L. Norrgren|Oral Exposure of Adult Zebrafish (Danio rerio) to 2,4,6-Tribromophenol Affects Reproduction|Aquat. Toxicol.100(1): 30-37|2010|10.1016/j.aquatox.2010.07.010
154087|A||Hansen,B.H., D. Altin, A. Booth, S.H. Vang, M. Frenzel, K.R. Sorheim, O.G. Brakstad, and T.R. Storseth|Molecular Effects of Diethanolamine Exposure on Calanus finmarchicus (Crustacea:  Copepoda)|Aquat. Toxicol.99(2): 212-222|2010|10.1016/j.aquatox.2010.04.018
154088|A||Harless,M.L., C.J. Huckins, J.B. Grant, and T.G. Pypker|Effects of Six Chemical Deicers on Larval Wood Frogs (Rana sylvatica)|Environ. Toxicol. Chem.30(7): 1637-1641|2011|10.1002/etc.544
154089|A||Hegazi,M.M., Z.I. Attia, and O.A. Ashour|Oxidative Stress and Antioxidant Enzymes in Liver and White Muscle of Nile tilapia Juveniles in Chronic Ammonia Exposure|Aquat. Toxicol.99(2): 118-125|2010|10.1016/j.aquatox.2010.04.007
154090|A||Hogan,N.S., K.S. Lee, B. Kollner, and M.R. Van Den Heuvel|The Effects of the Alkyl Polycyclic Aromatic Hydrocarbon Retene on Rainbow Trout (Oncorhynchus mykiss) Immune Response|Aquat. Toxicol.100(3): 246-254|2010|10.1016/j.aquatox.2010.07.020
154091|T||Huang,G.Y., and Y.S. Wang|Expression and Characterization Analysis of Type 2 Metallothionein from Grey Mangrove Species (Avicennia marina) in Response to Metal Stress|Aquat. Toxicol.99(1): 86-92|2010|10.1016/j.aquatox.2010.04.004
154092|A||Hutchins,C.M., D.F. Simon, W. Zerges, and K.J. Wilkinson|Transcriptomic Signatures in Chlamydomonas reinhardtii as Cd Biomarkers in Metal Mixtures|Aquat. Toxicol.100(1): 120-127|2010|10.1016/j.aquatox.2010.07.017
154093|A||Jacobson,S.M., D.A. Birkholz, M.L. McNamara, S.B. Bharate, and K.M. George|Subacute Developmental Exposure of Zebrafish to the Organophosphate Pesticide Metabolite, Chlorpyrifos-Oxon, Results in Defects in Rohon-Beard Sensory Neuron Development|Aquat. Toxicol.100(1): 101-111|2010|10.1016/j.aquatox.2010.07.015
154094|A||Jasso-Chavez,R., A. Pacheco-Rosales, E. Lira-Silva, J.C. Gallardo-Perez, N. Garcia, and R. Moreno-Sanchez|Toxic Effects of Cr(VI) and Cr(III) on Energy Metabolism of Heterotrophic Euglena gracilis|Aquat. Toxicol.100(4): 329-338|2010|10.1016/j.aquatox.2010.08.006
154095|A||Andhale,A.V., H.M. Pawar, and S.P. Zambare|The Evaluation of Nickel Toxicty on Lamellidens marginalis|Recent Res. Sci. Technol.3(5): 1-5|2011|
154096|A||Lyla,P.S., and S.A. Khan|Pattern of Accumulation of Heavy Metals (Copper and Zinc) in the Estuarine Hermit Crab Clibanarius longitarsus (De Hann)|Indian J. Geo-Marine Sci.40(1): 117-120|2011|
154097|A||Wang,J., X. Liu, H. Wang, T. Wu, X. Hu, F. Qin, and Z. Wang|Expression of Two Cytochrome P450 Aromatase Genes is Regulated by Endocrine Disrupting Chemicals in Rare Minnow Gobiocypris rarus Juveniles|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.152(3): 313-320|2010|10.1016/j.cbpc.2010.05.007
154098|A||Albertsson,E., D.G.J. Larsson, and L. Forlin|Induction of Hepatic Carbonyl Reductase/20beta-Hydroxysteroid Dehydrogenase mRNA in Rainbow Trout Downstream From Sewage Treatment Works - Possible Roles of Aryl Hydrocarbon Receptor Agonists and Oxidative Stress|Aquat. Toxicol.97(3): 243-249|2010|10.1016/j.aquatox.2009.11.007
154099|A||Andrew,M.N., W.A. O'Connor, R.H. Dunstan, and G.R. MacFarlane|Exposure to 17alpha-Ethynylestradiol Causes Dose and Temporally Dependent Changes in Intersex, Females and Vitellogenin Production in the Sydney Rock Oyster|Ecotoxicology19(8): 1440-1451|2010|10.1007/s10646-010-0529-5
154100|A||Partridge,C., A. Boettcher, and A.G. Jones|Short-Term Exposure to a Synthetic Estrogen Disrupts Mating Dynamics in a Pipefish|Horm. Behav.58(5): 800-807|2010|10.1016/j.yhbeh.2010.08.002
154101|A||Saaristo,M., J.A. Craft, K.K. Lehtonen, H. Bjork, and K. Lindstrom|Disruption of Sexual Selection in Sand Gobies (Pomatoschistus minutus) by 17alpha-Ethinyl Estradiol, an Endocrine Disruptor|Horm. Behav.55(4): 530-537|2009|10.1016/j.yhbeh.2009.01.006
154102|A||Abad,Z., R. Gonzalez, I. Mendoza, A. Oliva, E. Pimentel, R. Pimentel, R. Martinez, M.P. Estrada, Y. Ramirez, and A. Are|Production of a High Percentage of Male Offspring in Growth-Enhanced Transgenic Tilapia Using Oreochromis aureus ZZ Selected Pseudofemales|Aquaculture270:541-545|2007|10.1016/j.aquaculture.2007.03.035
154104|A||Kaptaner,B., E. Kankaya, and G. Unal|Effects of 17alpha-Ethynylestradiol on Hepatosomatic Index, Plasma Vitellogenin Levels and Liver Glutathione-S-Transferase Activity in Lake Van Fish (Chalcalburnus tarichi Pallas, 1811)|Fresenius Environ. Bull.18(12): 2366-2372|2009|
154105|A||Bhosale,P.A., A.V. Andhale, and S.P. Zambare|Biochemical Alterations in DNA Content of Gill and Gonad Tissues of Corbicula striatella Due to 5-Fluorouracil Toxicity|Recent Res. Sci. Technol.3(5): 73-74|2011|
154106|T||Purohit,T.J.|Subacute Oral Toxicity Study of Acephate in Synthetic White Leghorn Birds|M.S.Thesis, Anand Agricultural University, Gujarat, India:173 p.|2005|
154107|A||Brande-Lavridsen,N., J. Christensen-Dalsgaard, and B. Korsgaard|Effects of Ethinylestradiol and the Fungicide Prochloraz on Metamorphosis and Thyroid Gland Morphology in Rana temporaria|Open Zool. J.3:7-16|2010|10.2174/1874336601003020007
154108|A||El-Bassat,R.A., H.E. Touliabah, G.I. Harisa, and F.A.Q. Sayegh|Aquatic Toxicity of Various Pharmaceuticals on Some Isolated Plankton Species|Int. J. Med. Med. Sci.3(6): 170-180|2011|
154109|A||Kristensen,T., E. Baatrup, and M. Bayley|17alpha-Ethinylestradiol Reduces the Competitive Reproductive Fitness of the Male Guppy (Poecilia reticulata)|Biol. Reprod.72:150-156|2005|10.1095/biolreprod.104.033001
154110|A||Kang,H.J., K. Choi, M.Y. Kim, and P.G. Kim|Endocrine Disruption Induced by Some Sulfa Drugs and Tetracyclines on Oryzias latipes|Hangug Hwangyeong Bogeon Haghoeji32(3): 227-234|2006|
154111|A||Kang,H.J., H.S. Kim, K.H. Choi, K.T. Kim, and P.G. Kim|Several Human Pharmaceutical Residues in Aquatic Environment may Result in Endocrine Disruption in Japanese Medaka (Oryzias latipes)|Hangug Hwangyeong Bogeon Haghoeji31(3): 227-233|2005|
154112|A||Haut,J.E.|The Effect of Estradiol-17beta, Goitrogen(T3), and Flutamide on Gene Expression in Medaka, Oryzias latipes|Technical Report UCRL-TR-215197, Lawrence Livermore National Laboratory, Livermore, CA:30 p.|2005|
154113|T||Kaur,R., R. Bhardwaj, A.K. Thukral, and U. Narang|Interactive Effects of Binary Combinations of Manganese with Other Heavy Metals on Metal Uptake and Antioxidative Enzymes in Brassica juncea L. Seedlings|J. Plant Interact.6(1): 25-34|2011|10.1080/17429145.2010.516407
154114|A||Barillet,S., V. Larno, M. Floriani, A. Devaux, and C. Adam-Guillermin|Ultrastructural Effects on Gill, Muscle, and Gonadal Tissues Induced in Zebrafish (Danio rerio) by a Waterborne Uranium Exposure|Aquat. Toxicol.100(3): 295-302|2010|10.1016/j.aquatox.2010.08.002
154115|T||Wyse,D.L., W.F. Meggitt, and D. Penner|The Interaction of Atrazine and EPTC on Navy Bean|Weed Sci.24(1): 5-10|1976|10.1017/S0043174500065310
154116|T||Wyse,D.L., W.F. Meggitt, and D. Penner|Effect of Herbicides on the Development of Root Rot on Navy Bean|Weed Sci.24(1): 11-15|1976|10.1017/S0043174500065322
154117|T||Wyse,D.L., W.F. Meggitt, and D. Penner|Herbicide-Root Rot Interaction in Navy Bean|Weed Sci.24(1): 16-21|1976|10.1017/S0043174500065334
154118|A||Berg,K., P. Puntervoll, S. Valdersnes, and A. Goksoyr|Responses in the Brain Proteome of Atlantic Cod (Gadus morhua) Exposed to Methylmercury|Aquat. Toxicol.100(1): 51-65|2010|10.1016/j.aquatox.2010.07.008
154119|A||Biswas,D.K., G. Scannell, N. Akhmetov, D. Fitzpatrick, and M.A.K. Jansen|2,4,6-Trichlorophenol Mediated Increases in Extracellular Peroxidase Activity in Three Species of Lemnaceae|Aquat. Toxicol.100(3): 289-294|2010|10.1016/j.aquatox.2010.08.001
154121|A||Branco,D., A. Lima, S.F.P. Almeida, and E. Figueira|Sensitivity of Biochemical Markers to Evaluate Cadmium Stress in the Freshwater Diatom Nitzschia palea (Kutzing) W. Smith|Aquat. Toxicol.99(2): 109-117|2010|10.1016/j.aquatox.2010.04.010
154123|A||Chang,K.H., M. Sakamoto, J.Y. Ha, Y. Miyabara, S.I. Nakano, H. Doi, and T. Hanazato|Response of the Plankton Community to Herbicide Application (Triazine Herbicide, Simetryn) in a Eutrophicated System:  Short-Term Exposure Experiment Using Microcosms|Limnology12(1): 11-16|2011|10.1007/s10201-010-0317-1
154124|A||Clark,B.W., C.W. Matson, D. Jung, and R.T. Di Giulio|AHR2 Mediates Cardiac Teratogenesis of Polycyclic Aromatic Hydrocarbons and PCB-126 in Atlantic Killifish (Fundulus heteroclitus)|Aquat. Toxicol.99(2): 232-240|2010|10.1016/j.aquatox.2010.05.004
154125|A||Cooper,S., L. Hare, and P.G.C. Campbell|Subcellular Partitioning of Cadmium in the Freshwater Bivalve, Pyganodon grandis, After Separate Short-Term Exposures to Waterborne or Diet-Borne Metal|Aquat. Toxicol.100(4): 303-312|2010|10.1016/j.aquatox.2010.07.027
154127|T||Wyse,D.L., W.F. Meggitt, and D. Penner|Factors Affecting EPTC Injury to Navy Bean|Weed Sci.24(1): 1-4|1976|10.1017/S0043174500065309
154128|A||Cubero-Leon,E., C.M. Ciocan, E.M. Hill, M. Osada, M. Kishida, N. Itoh, R. Kondo, C. Minier, and J.M. Rotchell|Estrogens Disrupt Serotonin Receptor and Cyclooxygenase mRNA Expression in the Gonads of Mussels (Mytilus edulis)|Aquat. Toxicol.98(2): 178-187|2010|10.1016/j.aquatox.2010.02.007
154130|A||Dangre,A.J., S. Manning, and M. Brouwer|Effects of Cadmium on Hypoxia-Induced Expression of Hemoglobin and Erythropoietin in Larval Sheepshead Minnow, Cyprinodon variegatus|Aquat. Toxicol.99(2): 168-175|2010|10.1016/j.aquatox.2010.04.015
154131|A||Herve-Fernandez,P., F. Houlbreque, F. Boisson, S. Mulsow, J.L. Teyssie, F. Oberhaensli, S. Azemard, and R. Jeffree|Cadmium Bioaccumulation and Retention Kinetics in the Chilean Blue Mussel Mytilus chilensis:  Seawater and Food Exposure Pathways|Aquat. Toxicol.99(4): 448-456|2010|10.1016/j.aquatox.2010.06.004
154132|A||Ankley,G.T., K.M. Jensen, M.D. Kahl, E.J. Durhan, E.A. Makynen, J.E. Cavallin, D. Martinovic, L.C. Wehmas, N.D. Mueller|Use of Chemical Mixtures to Differentiate Mechanisms of Endocrine Action in a Small Fish Model|Aquat. Toxicol.99(3): 389-396|2010|10.1016/j.aquatox.2010.05.020
154133|A||Berishvili,G., J.F. Baroiller, E. Eppler, and M. Reinecke|Insulin-like Growth Factor-3 (IGF-3) in Male and Female Gonads of the Tilapia:  Development and Regulation of Gene Expression by Growth Hormone (GH) and 17alpha-Ethinylestradiol (EE2)|Gen. Comp. Endocrinol.167(1): 128-134|2010|10.1016/j.ygcen.2010.01.023
154135|T||Reinhardt,C.F.|Biological Activity and Persistence of Atrazine|Ph.D.Thesis, University of Pretoria, South Africa:259 p.|1993|
154136|T||Fry,D.M.|An Investigation Into the Ecotoxicology of Selenium Bioaccumulation in Birds|In: Salinity/Drainage Research Program and Prosser Trust, University of California, Davis, CA:52-62|2002|
154137|T||Abou-El-Khear,R.K., K.S. El-Gendy, E.S.A. El-Feel, H.M. El-Maghraby, and A.K.H. El-Sebae|Comparison of Antagonism of Brodifacoum and Difenacoum by Vitamin K in Albino Rats|Alex. J. Pharm. Sci.9(3): 227-231|1995|
154138|T||El-Gendy,K.S., R.K. Abou-El-Khear, and A.A. Elsebae|Anticoagulant Poisoning and Vitamin K Antagonism in Albino Rats|Alex. J. Pharm. Sci.10(1): 29-33|1996|
154139|A||Paulos,P., T.J. Runnalls, G. Nallani, T. La Point, A.P. Scott, J.P. Sumpter, and D.B. Huggett|Reproductive Responses in Fathead Minnow and Japanese Medaka Following Exposure to a Synthetic Progestin, Norethindrone|Aquat. Toxicol.99(2): 256-262|2010|10.1016/j.aquatox.2010.05.001
154140|A||Massarin,S., F. Alonzo, L. Garcia-Sanchez, R. Gilbin, J. Garnier-Laplace, and J.C. Poggiale|Effects of Chronic Uranium Exposure on Life History and Physiology of Daphnia magna over Three Successive Generations|Aquat. Toxicol.99(3): 309-319|2010|10.1016/j.aquatox.2010.05.006
154141|A||Qian,H., S. Yu, Z. Sun, X. Xie, W. Liu, and Z. Fu|Effects of  Copper Sulfate, Hydrogen Peroxide and N-Phenyl-2-Naphthylamine on Oxidative Stress and the Expression of Genes Involved Photosynthesis and Microcystin Disposition in Microcystis aeruginosa|Aquat. Toxicol.99(3): 405-412|2010|10.1016/j.aquatox.2010.05.018
154142|A||Greytak,S.R., A.M. Tarrant, D. Nacci, M.E. Hahn, and G.V. Callard|Estrogen Responses in Killifish (Fundulus heteroclitus) from Polluted and Unpolluted Environments are Site- and Gene-Specific|Aquat. Toxicol.99(2): 291-299|2010|10.1016/j.aquatox.2010.05.009
154143|A||Denoel,M., M. Bichot, G.F. Ficetola, J. Delcourt, M. Ylieff, P. Kestemont, and P. Poncin|Cumulative Effects of Road De-Icing Salt on Amphibian Behavior|Aquat. Toxicol.99(2): 275-280|2010|10.1016/j.aquatox.2010.05.007
154144|A||Bakke,M.J., H.K. Hustoft, and T.E. Horsberg|Subclinical Effects of Saxitoxin and Domoic Acid on Aggressive Behaviour and Monoaminergic Turnover in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.99(1): 1-9|2010|10.1016/j.aquatox.2010.03.013
154145|A||Fang,X., W. Dong, C. Thornton, and K.L. Willett|Benzo(a)pyrene Effects on Glycine N-Methyltransferase mRNA Expression and Enzyme Activity in Fundulus heteroclitus Embryos|Aquat. Toxicol.98(2): 130-138|2010|10.1016/j.aquatox.2010.02.004
154147|A||Fernandes,D., J.C. Navarro, C. Riva, S. Bordonali, and C. Porte|Does Exposure to Testosterone Significantly Alter Endogenous Metabolism in the Marine Mussel Mytilus galloprovincialis?|Aquat. Toxicol.100(4): 313-320|2010|10.1016/j.aquatox.2010.08.003
154148|A||Gama-Flores,J.L., S.S.S. Sarma, and S. Nandini|Exposure Time-Dependent Cadmium Toxicity to Moina macrocopa (Cladocera):  A Life Table Demographic Study|Aquat. Ecol.41:639-648|2007|10.1007/s10452-007-9121-3
154150|AT||Jackson,W.B., S.R. Spaulding, R.B.L. Van Lier, and B.A. Dreikorn|Bromethalin - A Promising New Rodenticide|Proceedings - 10th Vertebrate Pest Conference, University of Nebraska - Lincoln:10-16|1982|
154152|T||Nagaich,B.B., and S.S. Misra|Efficacy of Granular Systemic Insecticides Against Henosepilachnia ocellata Redt. Infesting Potato Crop|Indian J. Plant Prot.16(2): 185-187|1988|
154153|T||Parker,W.E., A. Clarke, S.A. Ellis, and J.N. Oakley|Evaluation of Insecticides for the Control of Wireworms (Agriotes spp.) on Potato|Tests Agrochem. Cultiv.11:28-29|1990|
154154|T||Sinha,S.N.|Field Screening of Insecticide for Seed Treatment of Pulses II.  Cowpea, Vigna unguiculata|Seed Res.14(1): 34-40|1986|
154155|T||Ward,A., and S. Morse|Partial Application of Insecticide to Broad Bean (Vicia fabae) as a Means of Controlling Bean Aphid (Aphis fabae) and Bean Weevil (Sitona lineatus)|Ann. Appl. Biol.127(2): 239-249|1995|10.1111/j.1744-7348.1995.tb06669.x
154156|T||Bartley,W.J., N.R. Andrawes, E.L. Chancey, W.P. Bagley, and H.W. Spurr|The Metabolism of Temik Aldicarb Pesticide (2-Methyl-2-(Methylthio)Propionaldehyde O-(Methylcarbamoyl)Oxime) in the Cotton Plant|J. Agric. Food Chem.18(3): 446-453|1970|10.1021/jf60169a049
154157|T||Lewis Ivey,M.L., J.R. Mera, and S.A. Miller|Evaluation of Fungicides and a Plant Defense Booster for the Control of Powdery Mildew of Winter Squash, 2004|Fungic. Nematic. Tests60:1 p.|2005|
154158|T||Nelson,M.E., and G.G. Grove|Evaluation of Fungicides for Control of Hop Powdery Mildew, 2005|Fungic. Nematic. Tests:1 p.|2006|
154159|A||Wang,Q., X. Wang, X. Wang, H. Yang, and B. Liu|Analysis of Metallotionein Expression and Antioxidant Enzyme Activities in Meretrix meretrix Larvae Under Sublethal Cadmium Exposure|Aquat. Toxicol.100(4): 321-328|2010|10.1016/j.aquatox.2010.08.012
154161|A||Wills,L.P., C.W. Matson, C.D. Landon, and R.T. Di Giulio|Characterization of the Recalcitrant CYP1 Phenotype Found in Atlantic Killifish (Fundulus heteroclitus) Inhabiting a Superfund Site on the Elizabeth River, VA|Aquat. Toxicol.99(1): 33-41|2010|10.1016/j.aquatox.2010.03.015
154162|A||Wu,H., and W.X. Wang|NMR-Based Metabolomic Studies on the Toxicological Effects of Cadmium and Copper on Green Mussels Perna viridis|Aquat. Toxicol.100(4): 339-345|2010|10.1016/j.aquatox.2010.08.005
154163|A||Yang,H., G. Shi, H. Wang, and Q. Xu|Involvement of Polyamines in Adaptation of Potamogeton crispus L. to Cadmium Stress|Aquat. Toxicol.100(3): 282-288|2010|10.1016/j.aquatox.2010.07.026
154165|A||Yost,D.M., R.J. Jones, and C.L. Mitchelmore|Alterations in Dimethylsulfoniopropionate (DMSP) Levels in the Coral Montastraea franksi in Response to Copper Exposure|Aquat. Toxicol.98(4): 367-373|2010|10.1016/j.aquatox.2010.03.005
154168|A||Zhu,J., B. Liu, J. Wang, Y. Gao, and Z. Wu|Study on the Mechanism of Allelopathic Influence on Cyanobacteria and Chlorophytes by Submerged Macrophyte (Myriophyllum spicatum) and Its Secretion|Aquat. Toxicol.98(2): 196-203|2010|10.1016/j.aquatox.2010.02.011
154169|A||Jonsson,M.E., K. Gao, J.A. Olsson, J.V. Goldstone, and I. Brandt|Induction Patterns of New CYP1 Genes in Environmentally Exposed Rainbow Trout|Aquat. Toxicol.98(4): 311-321|2010|10.1016/j.aquatox.2010.03.003
154170|A||Li,B., C. Wang, A. Yu, Y. Chen, and Z. Zuo|Identification of Differentially Expressed Genes in the Brain of Sebastiscus marmoratus in Response to Tributyltin Exposure|Aquat. Toxicol.99(2): 248-255|2010|10.1016/j.aquatox.2010.05.002
154171|A||Perkins,E.J.,Jr., and D. Schlenk|In Vivo Acetylcholinesterase Inhibition, Metabolism, and Toxicokinetics of Aldicarb in Channel Catfish: Role of Biotransformation in Acute Toxicity|Toxicol. Sci.53(2): 308-315|2000|10.1093/toxsci/53.2.308
154172|T||Moye,J.K., and C.A. Pritsos|Effects of Chlorpyrifos and Aldicarb on Flight Activity and Related Cholinesterase Inhibition in Homing Pigeons, Columba livia:  Potential for Migration Effects|Bull. Environ. Contam. Toxicol.84(6): 677-681|2010|10.1007/s00128-010-0020-2
154173|T||Wren,J.F., P. Kille, D.J. Spurgeon, S. Swain, S.R. Sturzenbaum, and T. Jager|Application of Physiologically Based Modelling and Transcriptomics to Probe the Systems Toxicology of Aldicarb for Caenorhabditis elegans (Maupas 1900)|Ecotoxicology20(2): 397-408|2011|10.1007/s10646-010-0591-z
154174|T||Jones,A.S.|Metabolism of Aldicarb by Five Soil Fungi|J. Agric. Food Chem.24(1): 115-117|1976|10.1021/jf60203a010
154175|T||Powell,C.A., M.A. Ritenour, and R.C. Bullock|Growth and Yield of Young 'Valencia' Sweet Orange Trees Treated with Insecticides|Hortscience44(3): 686-687|2009|10.21273/HORTSCI.44.3.686
154176|T||Bauer,P.J., B.A. Fortnum, and J.R. Frederick|Cotton Responses to Tillage and Rotation During the Turn of the Century Drought|Agron. J.102(4): 1145-1148|2010|10.2134/agronj2010.0037
154177|T||Drinkwater,T.W., J.H. Giliomee, and K.L. Pringle|Laboratory Trials on the Systemic Activity of Insecticides Against False Wireworms, Somaticus Species (Coleoptera:  Tenebrionidae), Attacking Maize|Phytophylactica21(3): 275-278|1989|
154178|T||Rhodes,L.F., and A. Mansingh|Bioefficacy of Various Insecticidal Formulations on the Coffee Berry Borer Hypothenemus hampei Ferrari in Dry Coffee Berries|J. Coffee Res.15(3/4): 82-89|1985|
154179|T||Visalakshi,A., J. Johnson, and K. Sudharma|Relative Toxicity of Some Insecticides to Banana Rhizome Weevil, Cosmopolites sordidus (Germ.)|Entomon10(1): 81-82|1985|
154180|T||Drinkwater,T.W., J.H. Giliomee, and K.L. Pringle|Efficacy of Soil-Applied and Seed Dressing Insecticides for the Control of False Wireworms, Somaticus Species (Coleoptera:  Tenebrionidae), in Maize|Crop Prot.9(2): 128-130|1990|10.1016/0261-2194(90)90091-K
154181|T||Hollingsworth,C.S., D.N. Ferro, and R.H. Voss|Direct Application of Reduced Rates of Aldicarb to Potato Seedpieces|Am. Potato J.65(8): 449-455|1988|10.1007/BF02854359
154182|T||Hough-Goldstein,J., and Whalen J. |Inundative Release of Predatory Stink Bugs for Control of Colorado Potato Beetle|Biol. Control3(4): 343-347|1993|10.1006/bcon.1993.1045
154183|T||Wells,M.L.|Influence of Aldicarb on Growth and Fruiting of Pecan Transplants|HortTechnology20(3): 556-559|2010|10.21273/HORTTECH.20.3.556
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154186|T||Rhodes,L.F., and A. Mansingh|Susceptibility of the Coffee Berry Borer Hypothenemus hampei Ferrari to Various Insecticidal Formulations|Insect Sci. Appl.2(4): 227-231|1982|
154187|T||Rogers,D.J., and H.B. Brier|Application Methods for Granular Insecticides to Control Heteronyx piceus Blanchard (Coleoptera:  Scarabaeidae) Larvae in Peanuts in Queensland|Plant Prot. Q.7(2): 48-50|1992|
154189|T||Toba,H.H., and D.M. Powell|Soil Application of Insecticides for Controlling Three Insect Pests of Potatoes in Washington|J. Agric. Entomol.3(1): 87-99|1986|
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154192|T||Funderburk,J.E., S.M. Olson, and R. Georgis|Sweet Potato Flea Beetle (FB) and Wireworm (WW) Control in Sweet Potatoes, 1988|Insectic. Acaric. Tests16:111-|1991|10.1093/iat/16.1.111
154193|T||Bull,D.L., D.A. Lindquist, and J.R. Coppedge|Metabolism of 2-Methyl-2-(Methylthio)Propionaldehyde O-(Methylcarbamoyl)oxime (Temik UC-21149) in Insects|J. Agric. Food Chem.15:610-616|1967|10.1021/jf60152a019
154194|T||Rotundo,J.L., G.L. Tylka, and P. Pedersen|Source of Resistance Affect Soybean Yield, Yield Components, and Biomass Accumulation in Heterodera glycines-Infested Fields|Crop Sci.50(6): 2565-2574|2010|10.2135/cropsci2009.12.0724
154195|T||Bakke,J.E., P.W. Aschbacher, V.J. Feil, and B.E. Gustafsson|The Metabolism of Pentachloromethylthiobenzene in Germ-Free and Conventional Rats|Xenobiotica11(3): 173-178|1981|10.3109/00498258109045289
154196|T||Pawuk,W.H., J.L. Ruehle, and D.H. Marx|Fungicide Drenches Affect Ectomycorrhizal Development of Container-Grown Pinus palustris Seedlings|Can. J. For. Res.10(1): 61-64|1980|10.1139/x80-010
154197|T||Renner,G., B. Herforth, J.M. Gokel, G. Goerz, and C. Luderschmidt|Subchronic Toxicity Studies on Pentachloronitrosobenzene (PCNO) in Female Rats|Ecotoxicol. Environ. Saf.5(3): 281-290|1981|10.1016/0147-6513(81)90003-8
154203|T||Umegaki,K., S. Ikegami, and T. Ichikawa|Effects of Restricted Feeding on the Absorption, Metabolism, and Accumulation of Pentachlorobenzene in Rats|J. Nutr. Sci. Vitaminol.39(1): 11-22|1993|10.3177/jnsv.39.11
154207|T||Brown,J.E., C. Stevens, M.C. Osborn, and H.M. Bryce|Black Plastic Mulch and Spunbonded Polyester Row Cover as Method of Southern Blight Control in Bell Pepper|Plant Dis.73(11): 931-932|1989|10.1094/PD-73-0931
154208|T||Stevens,C., V.A. Khan, D.J. Collins, R. Rodriguez-Kabana, L.D. Ploper, J.E. Brown, and P.A. Backman|Effects of Soil Solarization on Early Blight, Southern Blight, and Root-Knot on Tomato, 1990-1991|In: D.S.Wysong (Ed.), Biological and Cultural Tests for Control of Plant Diseases, APS Press, St.Paul, MN:43-|1992|
154210|T||Gangawane,L.V.|Tolerance of N-Fixing Blue-Green Algae to Brassicol, Bavistin and Fytolan|J. Indian Bot. Soc.59:157-160|1980|
154211|T||Halpert,J.R.|Multiplicity of Steroid-Inducible Cytochromes P-450 in Rat Liver Microsomes|Arch. Biochem. Biophys.263(1): 59-68|1988|10.1016/0003-9861(88)90613-3
154213|T||Graves,P.E., L.S. Kaminsky, and J. Halpert|Evidence for Functional and Structural Multiplicity of Pregnenolone-16 alpha-Carbonitrile-Inducible Cytochrome P-450 Isozymes in Rat Liver Microsomes|Biochemistry (Wash.)26(13): 3887-3894|1987|10.1021/bi00387a022
154215|T||Ross,R.E., A.P. Keinath, and M.A. Cubeta|Biological Control of Wirestem on Cabbage Using Binucleate Rhizoctonia spp.|Crop Prot.17(2): 99-104|1998|10.1016/S0261-2194(97)00109-9
154217|T||Twigg,L.E., and B.J. Kay|Evaluation of Quintox for Control of Feral House Mice|J. Wildl. Manag.56(1): 174-185|1992|10.2307/3808806
154221|A||Sharifi,M., and D.W. Connell|Growth Rate Reduction of Goldfish (Carassius auratus) Exposed to p,p'DDT and Chlorobenzenes in Diets with Differing Lipid Contents|Bull. Environ. Contam. Toxicol.59(4): 665-670|1997|10.1007/s001289900531
154222|A||Gobas,F.A.P.C., X. Zhang, and R. Wells|Gastrointestinal Magnification: The Mechanism of Biomagnification and Food Chain Accumulation of Organic Chemicals|Environ. Sci. Technol.27(13): 2855-2863|1993|10.1021/es00049a028
154224|T||Schielen,P., C. Den Besten, J.G. Vos, P.J. Van Bladeren, W. Seinen, and N. Bloksma|Immune Effects of Hexachlorobenzene in the Rat: Role of Metabolism in a 13-Week Feeding Study|Toxicol. Appl. Pharmacol.131(1): 37-43|1995|10.1006/taap.1995.1044
154225|T||Linder,R., T. Scotti, J. Goldstein, and K. McElroy|Acute and Subchronic Toxicity of Pentachlorobenzene|J. Environ. Pathol. Toxicol.4(5/6): 183-196|1980|
154227|T||Poole,R., K.S. McLean, and G.W. Lawrence|Effect of Terraclor Super X and Di-Syston on Cotton Seedling Disease and Thrips on Delta and Pineland 5409 Cotton|Proc. Beltwide Cotton Conf.1:142-143|1997|
154228|T||Umegaki,K., and T. Ichikawa|Effects of Cholesterol Feeding on the Distribution, Metabolism, and Accumulation of Pentachlorobenzene in Rats|J. Nutr. Sci. Vitaminol.35(4): 291-301|1989|10.3177/jnsv.35.291
154229|T||Umegaki,K., S. Ikegami, and T. Ichikawa|Fish Oil Enhances Pentachlorobenzene Metabolism and Reduces Its Accumulation in Rats|J. Nutr.125(1): 147-153|1995|
154232|T||Janssens,T.K.S., D. Giesen, J. Marien, N.M. Van Straalen, C.A.M. Van Gestel, and D. Roelofs|Narcotic Mechanisms of Acute Toxicity of Chlorinated Anilines in Folsomia candida (Collembola) Revealed by Gene Expression Analysis|Environ. Int.37(5): 929-939|2011|10.1016/j.envint.2011.03.012
154234|T||Ou,Y.C., R.B. Conolly, R.S. Thomas, Y. Xu, M.E. Andersen, L.S. Chubb, H.C. Pitot, and R.S.H. Yang|A Clonal Growth Model:  Time-Course Simulations of Liver Foci Growth Following Penta- or Hexachlorobenzene Treatment in a Medium-Term Bioassay|Cancer Res.61(5): 1879-1889|2001|
154236|T||Tam,D.D., W.Y. Shiu, K. Qiang, and D. Mackay|Uptake of Chlorobenzenes by Tissues of the Soybean Plant: Equilibria and Kinetics|Environ. Toxicol. Chem.15(4): 489-494|1996|10.1002/etc.5620150412
154237|T||Thomas,R.S., D.L. Gustafson, H.S. Ramsdell, H.A. El-Masri, S.A. Benjamin, and R.S.H. Yang|Enhanced Regional Expression of Glutathione S-Transferase P1-1 with Colocalized AP-1 and CYP 1A2 Induction in Chlorobenzene-Induced Porphyria|Toxicol. Appl. Pharmacol.150(1): 22-31|1998|10.1006/taap.1998.8385
154238|A||Yakata,N., Y. Sudo, and H. Tadokoro|Influence of Dispersants on Bioconcentration Factors of Seven Organic Compounds with Different Lipophilicities and Structures|Chemosphere64(11): 1885-1891|2006|10.1016/j.chemosphere.2006.01.044
154240|T||Shatla,M.N., and J.B. Sinclair|Tolerance to Pentachloronitrobenzene Among Cotton Isolates of Rhizoctonia solani|Phytopathology53:1407-1411|1963|
154241|T||Park,D.|Pythium fluminum sp. Nov. with One Variety and P. uladhum sp. Nov. from Cellulose in Fresh-Water Habitats|Trans. Br. Mycol. Soc.69(2): 225-231|1977|10.1016/S0007-1536(77)80042-9
154242|T||Billi,S.C., and L.C. San Martin de Viale|"Ability of Several Hexachlorobenzene Metabolites to Induce Porphyrin Accumulation in Chick Embryo Liver ""In Ovo"""|Acta Physiol. Pharmacol. Latinoam.35(4): 399-407|1985|
154243|A||Metcalfe,T.L., P.J. Dillon, and C.D. Metcalfe|Detecting the Transport of Toxic Pesticides from Golf Courses into Watersheds in the Precambrian Shield Region of Ontario, Canada|Environ. Toxicol. Chem.27(4): 811-818|2008|10.1897/07-216.1
154244|A||Nelson,S.M., T. Mahmoud, M. Beaux, P. Shapiro, D.N. McIlroy, and D.L. Stenkamp|Toxic and Teratogenic Silica Nanowires in Developing Vertebrate Embryos|Nanomed. Nanotechnol. Biol. Med.6(1): 93-102|2010|10.1016/j.nano.2009.05.003
154245|A||Lee,W.M., S.W. Ha, C.Y. Yang, J.K. Lee, and Y.J. An|Effect of Fluorescent Silica Nanoparticles in Embryo and Larva of Oryzias latipes:  Sonic Effect in Nanoparticle Dispersion|Chemosphere82(3): 451-459|2011|10.1016/j.chemosphere.2010.09.055
154247|AT||Korte,F.|Ecotoxicology of Belgard EV|Desalination30(1-3): 411-424|1979|10.1016/S0011-9164(00)88471-4
154248|A||Rueter,J.G.,Jr., and F.M.M. Morel|The Interaction Between Zinc Deficiency and Copper Toxicity as it Affects the Silicic Acid Uptake Mechanisms in Thalassiosira pseudonana|Limnol. Oceanogr.26(1): 67-73|1981|10.4319/lo.1981.26.1.0067
154249|A||Wei,C., Y. Zhang, J. Guo, B. Han, X. Yang, and J. Yuan|Effects of Silica Nanoparticles on Growth and Photosynthetic Pigment Contents of Scenedesmus obliquus|J. Environ. Sci.22(1): 155-160|2010|10.1016/S1001-0742(09)60087-5
154250|T||Gomaa,A.H.|Effect of Some Chemicals on the Viability of Pear Pollen Grains and Growth of the Pollen Tube|Egypt. J. Hortic.16(2): 151-163|1989|
154251|T||Bhatt,T., M. Coombs, and C. O'Neill|Biogenic Silica Fibre Promotes Carcinogenesis in Mouse Skin|Int. J. Cancer34(4): 519-528|1984|10.1002/ijc.2910340415
154252|T||Smith,B.C., and C.G. Halliday|Reduction in Damage to Potatoes by Leptinotarsa decemlineata (Coleoptera:  Chrysomelidae) by Mixtures of Insecticides and Silica|Can. Entomol.109(1): 59-66|1977|10.4039/Ent10959-1
154253|A||Pessoa,P.C., K.H. Luchmann, A.B. Ribeiro, M.M. Veras, J.R.M.B. Correa, A.J. Nogueira, A.C.D. Bainy, and P.S.M. Carvalho|Cholinesterase Inhibition and Behavioral Toxicity of Carbofuran on Oreochromis niloticus Early Life Stages|Aquat. Toxicol.105:312-320|2011|10.1016/j.aquatox.2011.06.020
154254|T||De Waard,M.A., and J.G.M. Van Nistelrooy|Antagonistic and Synergistic Activities of Various Chemicals on the Toxicity of Fenarimol to Aspergillus nidulans|Pestic. Sci.13:279-286|1982|10.1002/ps.2780130309
154255|T||Gupta,S.K., S.K. Sharma, and K.R. Shyam|Anti-Sporulant Activity of Ergosterol Biosysnthesis Inhibitor Fungicides Against Powdery Mildew (Sphaerotheca fuliginea) of Cucumber (Cucumis sativus)|Indian J. Agric. Sci.68(7): 382-383|1998|
154256|T||Branham,B.E., and P.E. Rieke|Effects of Turf Cultivation Practices on the Efficacy of Preemergence Grass Herbicides|Agron. J.78(6): 1089-1091|1986|10.2134/agronj1986.00021962007800060029x
154257|T||Brouillet,E.P., L. Shinobu, U. McGarvey, F. Hochberg, and M.F. Beal|Manganese Injection into the Rat Striatum Produces Excitotoxic Lesions by Impairing Energy Metabolism|Exp. Nephrol.120(1): 89-94|1993|
154258|T||Acuna,A.A.|Dissipation and Efficacy of Pendimenthalin, Prodiamine, Dithiopyr and Bensulide as Affected by Dose and Application Timing for Crabgrass (Digitaria sp) Control in a Turfgrass Environment|Ph.D. Thesis, The Ohio State University, Columbus, OH:107 p.|2009|
154259|T||Watkins,D.A.M.|Effects of Leaf Surfaces and Plant Waxes on Rates of Photodegradation of Fenarimol|Asp. Appl. Biol.14:335-346|1987|
154260|A||Jacobson,T., A. Prevodnik, and B. Sundelin|Combined Effects of Temperature and a Pesticide on the Baltic Amphipod Monoporeia affinis|Aquat. Biol.1(3): 269-276|2007|
154261|A||Sugni,M., P. Tremolada, C. Porte, A. Barbaglio, F. Bonasoro, and M.D.C. Carnevali|Chemical Fate and Biological Effects of Several Endocrine Disrupters Compounds in Two Echinoderm Species|Ecotoxicology19(3): 538-554|2010|10.1007/s10646-009-0439-6
154262|T||Ahrens,J.F., and R.J. Lukens|Studies on the Chemical Control of the Poa annua in C1-C19 Putting Green Turf|Proc. Northeast. Weed Control Conf.20:547-551|1966|
154263|T||Ahrens,J.F.|Chemical Control of Crabgrass (Digitaria spp.) and Other Weeds in Nursery Plantings with Fall and Spring Applications|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:241-248|1971|
154264|T||Anderson,W.P., and M.P. Dunford|Control of Purple Nutsedge with Bensulide|Weed Sci.18(3): 338-340|1970|10.1017/S0043174500079923
154265|T||Ashley,R.A.|Weed Control in Marigolds, Pansies and Petunias|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:233-239|1971|
154266|T||Buchenauer,H.|Comparative Studies on the Antifungal Activity of Triadimefon, Triadimenol, Fenarimol, Nuarimol, Imazalil and Fluotrimazole In Vitro|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)86(6): 341-354|1979|
154267|T||Beste,C.E.|Evaluation of Herbicides in No-Till Planted Cucumbers, Tomatoes, and Lima Beans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:232-239|1973|
154268|T||Darvas,B., and H.I. Zseller|Effectiveness of Some Juvenoids and Anti-Ecdysones Against the Mulberry Scale, Pseudaulacaspis pentagona (Homoptera: Diaspididae)|Acta Phytopathol. Entomol. Hung.20(3/4): 341-346|1985|
154269|T||Badii,F., and M.O. Moss|The Effect of the Fungicides Tridemorph, Fenpropimorph and Fenarimol on Growth and Aflatoxin Production by Aspergillus parasiticus Speare|Lett. Appl. Microbiol.7:37-39|1988|10.1111/j.1472-765X.1988.tb01247.x
154270|T||Day,B.E., and L.S. Jordan|A Research Program for Adaptation of Herbicides to Citrus Culture|In: 1st Proc.Int.Citrus Symp.1:459-462|1969|
154271|T||Menges,R.M., T.D. Longbrake, and S. Tamez|Effect of Soil Incorporation on Selectivity, Movement, and Persistence of Herbicides in Watermelon Plantings|Proc. Am. Soc. Hortic. Sci.97(2): 168-172|1972|10.21273/JASHS.97.2.168
154272|T||Rowland,S., and B. Cartwright|Insecticide Evaluation for Corn Earworm Control on Sweet Corn, 1992|Arthropod Manag. Tests18:124-125|1993|
154273|T||Hemphill,D.D.,Jr., and G.D. Crabtree|Growth Response and Weed Control in Slicing Cucumbers Under Row Covers|J. Am. Soc. Hortic. Sci.113(1): 41-45|1988|10.21273/JASHS.113.1.41
154274|A||Wang,X., B. Shan, M. Ge, L. Zhang, C. Zhu, and X. Han|A Model Describing the Time Course and Variability in Toxicity of Hydrophobic Chemicals to Aquatic Organisms|J. Ocean Univ. Qingdao1(1): 71-79|2002|10.1007/s11802-002-0026-4
154276|T||Dow Corning Corp.|Effects of Aerated Silica Gels (Santocels DCS, 62 & C and Antifoams A & M) on the Microflora of the Gastrointestinal Tract of Rats, with Cover Letter Dated 08/26/94|EPA/OTS Doc.#86940001886:15 p.|1994|
154278|T||Berentsen,A.R.|Behavioral Responses of Coyotes to the Coyote Lure Operative Device|M.S. Thesis, Utah State University, UT:129 p.|2004|
154280|A||Qiao,P.|Uptake, Bioavailability, and Bioaccumulation of Lipophilic Xenobiotics in Juvenile Rainbow Trout:  An Assessment of the Role of Gills and Suspended Particles as a Source of Contaminants|Ph.D. Thesis, Simon Fraser University, Burnaby, Canada:187 p.|1997|
154281|A||Schuler,L.J.|Identification and Interpretation of Body Residues for Use in Hazard Assessments|Ph.D.Thesis, Southern Illinois University, Carbondale, IL:229 p.|2006|
154282|T||Cha,K.E., and H. Myung|Cytotoxic Effects of Nanoparticles Assessed In Vitro and In Vivo|J. Microbiol. Biotechnol.17(9): 1573-1578|2007|
154284|T||Kaplan,B.L.F., R.B. Crawford, N. Kovalova, A. Arencibia, S.S. Kim, T.J. Pinnavaia, S.A. Boyd, B.J. Teppen, and N.E. Kam|TCDD Adsorbed on Silica as a Model for TCDD Contaminated Soils: Evidence for Suppression of Humoral Immunity in Mice|Toxicology282(3): 82-87|2011|10.1016/j.tox.2011.01.013
154285|T||Karpov,M.A., V.A. Skurupiy, and A.P. Nadeev|Analysis of Fibrotic Depositions in Granulomas in Chronic Silicotuberculosis in Mice|Bull. Exp. Biol. Med.149(5): 659-662|2010|10.1007/s10517-010-1018-9
154286|T||Kim,L.B., and I.V. Zhilyakov|Content of Fibronectin and Glycosaminoglycans in Blood Serum of Rats with SiO2-Induced Inflammation After Radon-Containing Water Bath|Bull. Exp. Biol. Med.146(6): 717-718|2008|10.1007/s10517-009-0392-7
154287|T||Kuznetsova,N.V., N.A. Palchikova, V.G. Selyatitskaya, and V.A. Shkurupiy|Adrenocortical System Response to Induction of Inflammation with Silicon Dioxide in Rats with Alloxan-Induced Diabetes Mellitus|Bull. Exp. Biol. Med.149(6): 693-696|2010|10.1007/s10517-010-1026-9
154288|A||Mann,R.M., R.V. Hyne, and L.M.E. Ascheri|Foraging, Feeding, and Reproduction on Silica Substrate: Increased Waterborne Zinc Toxicity to the Estuarine Epibenthic Amphipod Melita plumulosa|Environ. Toxicol. Chem.30(7): 1649-1658|2011|10.1002/etc.543
154289|T||Palchikova,N.A., O.I. Kuzminova, N.V. Utkina, V.G. Selyatitskaya, and V.A. Shkurupiy|Content of Steroid Hormones in the Blood and Adrenal Glands of Mice in the Dynamics of BCG- and SiO2-Induced Granulomatous Inflammation|Bull. Exp. Biol. Med.146(6): 705-707|2008|10.1007/s10517-009-0396-3
154290|T||Pluskota,A., E. Horzowski, O. Bossinger, and A. Von Mikecz|In Caenorhabditis elegans Nanoparticle-Bio-Interactions Become Transparent: Silica-Nanoparticles Induce Reproductive Senescence|PLoS One4(8): 11 p.|2009|10.1371/journal.pone.0006622
154291|A||Van Hoecke,K., K.A.C. De Schamphelaere, S. Ramirez-Garcia, P. Van Der Meeren, G. Smagghe, and C.R. Janssen|Influence of Alumina Coating on Characteristics and Effects of SiO2 Nanoparticles in Algal Growth Inhibition Assays at Various pH and Organic Matter Contents|Environ. Int.37(6): 1118-1125|2011|10.1016/j.envint.2011.02.009
154292|T||Voleti,S.R., A.P. Padmakumari, V.S. Raju, S.M. Babu, and S. Ranganathan|Effect of Silicon Solubilizers on Silica Transportation, Induced Pest and Disease Resistance in Rice (Oryza sativa L.)|Crop Prot.27(10): 1398-1402|2008|10.1016/j.cropro.2008.05.009
154293|T||Rolfe,R.E.|Tolerance of Overseeded Meadow Fescue and Tetraploid Ryegrass to Annual Bluegrass Control and Transition Herbicide Programs|M.S. Thesis, University of Arkansas, Fayetteville, AR:65 p.|2009|
154294|T||Locascio,S.J., and W.M. Stall|Pre and Postemergence Weed Control in Cucumber and Squash|Proc. South. Weed Sci. Soc.:112-115|1982|
154295|T||Acuna,A.A., D.S. Gardner, and T.K. Danneberger|A Bioassay Technique to Measure Preemergence Herbicide Activity in Turfgrass|Int. Turfgrass Soc. Res. J.11:293-297|2009|
154296|T||Bhowmik,P.C., and J. Troll|Preemergence Crabgrass Control in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:391-395|1983|
154297|T||Bingham,S.W., and R.L. Shaver|Goosegrass (Eleusine indica) Control During Bermudagrass (Cynodon dactylon) Establishment|Weed Sci.29(1): 11-16|1981|10.1017/S0043174500025741
154300|T||McCullough,P.E., T. Whitwell, L.B. McCarty, and H. Liu|Dwarf Bermudagrass Tolerance to Preemergence Herbicides|Hortscience42(3): 673-677|2007|10.21273/HORTSCI.42.3.673
154301|T||Calabro,J.M.|Biology of Sweet Cherry Powdery Mildew|Ph.D.Thesis, Oregon State University, Corvallis, OR:160 p.|2007|
154303|T||Burgis,D.S.|Evaluation of Herbicides on Crookneck Squash and Cucumbers|Proc. South. Weed Conf.18:257-262|1965|
154304|T||Chang,T.S., and M.G. Merkle|Oximes as Seed Safeners for Grain Sorghum (Sorghum bicolor) to Herbicides|Weed Sci.30(1): 70-73|1982|10.1017/S0043174500026199
154305|T||Chambers,E.E., C.H. Miller, and G.C. Klingman|Weed Control in Pickling Cucumbers|Proc. South. Weed Conf.18:263-268|1965|
154306|T||Deal,E.E.|Control of Crabgrass, Goosegrass and Annual Bluegrass with Preemergence Herbicides|Proc. Northeast. Weed Control Conf.20:537-546|1966|
154307|T||Frans,R.E., H.R. Smith, and T.M. Fullerton|Herbicide Field Evaluation Trials on Field Crops and Turf, 1965|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.152:28 p.|1966|
154308|T||Isayama,S., S. Saito, K. Kuroda, K. Umeda, and K. Kasamatsu|Pyridalyl, a Novel Insecticide: Potency and Insecticidal Selectivity|Arch. Insect Biochem. Physiol.58(4): 226-233|2005|10.1002/arch.20045
154309|T||Johnson,B.J.|Consecutive Herbicide Treatment on Tall Fescue|Ga. Agric. Exp. Stn. Res. Bull.224:3-13|1976|
154310|T||Johnson,B.J.|Sequential Herbicide Treatments for Large Crabgrass and Goosegrass Control in Bermudagrass|Agron. J.69(6): 1012-1014|1977|10.2134/agronj1977.00021962006900060026x
154311|T||Johnson,B.J.|Herbicides for Summer Weed Control in Turfgrasses|Ga. Agric. Exp. Stn. Res. Bull.256:3-23|1980|
154312|T||Johnson,B.J.|Combination of Herbicides for Winter and Summer Weed Control in Turf|Agron. J.74(1): 37-40|1982|10.2134/agronj1982.00021962007400010012x
154313|T||Johnson,B.J.|Kentucky Bluegrass Tolerance to Consecutive Preemergence Herbicide Treatments|Agron. J.74(6): 1063-1066|1982|10.2134/agronj1982.00021962007400060031x
154314|T||Johnson,B.J.|Effect of Core Cultivation on Preemergence Herbicide Activity in Bermudagrass|Hortscience22(3): 440-441|1987|10.21273/HORTSCI.22.3.440
154315|T||Lange,A.H., B.B. Fischer, and G. Suthers|Weed Control in Nonbearing Citrus|Calif. Agric.23(7): 7-8|1969|
154316|T||Lewis,W.M.|Preemergence Crabgrass Control with Comparisons of Spray and Granular Applications|Proc. South. Weed Conf.18:118-127|1965|
154317|T||Lynd,J.Q., C.E. Rieck, and P.W. Santelmann|Soil Components Determining Bensulide Phytotoxicity|Agron. J.58(5): 508-510|1966|10.2134/agronj1966.00021962005800050015x
154319|T||Dernoeden,P.H., and J.K. Mathias|Single Versus Repeat Application of Various Preemergent Herbicides for Crabgrass Control|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:294-298|1981|
154320|T||Menges,R.M., and M.D. Heilman|Weed Control in Seeded Cabbage, Mustard Greens, Spinach and in Transplanted Broccoli Grown Under Conservation Tillage Practices|J. Rio Grande Val. Hortic. Soc.39:83-90|1986|
154321|T||Porter,W.C., and C.E. Johnson|Evaluating Herbicides for Use in Watermelons|La. Agric.26(3): 4-6|1983|
154322|T||Mathias,J.K., and P.H. Dernoeden|The Effect of Rate on Goosegrass Control in Fairway Turf Using Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:304-306|1981|
154323|T||Duich,J.M., D.V. Waddington, and T.A. Perkins|1965 Pre-Emergence Crabgrass Control Results in Pennsylvania|Proc. Northeast. Weed Control Conf.20:514-518|1966|
154324|T||Duich,J.M., and D.V. Waddington|Evaluation of Experimental and Commercial Preemergence Crabgrass Chemicals for Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:97-101|1971|
154325|T||Rouchaud,J.P., J.R. Decallonne, and J.A. Meyer|Metabolism of the Fungicide Triforine in Barley Plants|Pestic. Sci.8(1): 65-70|1977|10.1002/ps.2780080110
154326|T||Bingham,S.W., and R.E. Schmidt|Residue of Bensulide in Turfgrass Soil Following Annual Treatments for Crabgrass Control|Agron. J.59:327-329|1967|10.2134/agronj1967.00021962005900040012x
154327|T||Bingham,S.W., R.E. Schmidt, and C.K. Curry|Annual Bluegrass Control in Overseeded Bermudagrass Putting Green Turf|Agron. J.61(6): 908-911|1969|10.2134/agronj1969.00021962006100060024x
154328|T||Bingham,S.W.|Influence of Selected Herbicides on Rooting of Turfgrass Sod|In: Proceedings of the Second International Turfgrass Research Conference:372-377|1974|
154329|T||Hamilton,K.C., and H.F. Arle|Herbicide Combinations in Irrigated Cotton|Weed Sci.19(2): 178-182|1971|10.1017/S0043174500048608
154330|T||Anderson,W.P., J.N. Corgan, J.W. Whitworth, M. Nour, and P.M. Trujillo|Chemical Weed Control in Onions, Chile, and Tomatoes|N. M. State Univ. Agric. Exp. Stn. Bull.546:16 p.|1969|
154331|T||Shearman,R.C.|Kentucky Bluegrass and Annual Bluegrass Responses to Ethofumesate|Hortscience21(5): 1157-1159|1986|10.21273/HORTSCI.21.5.1157
154332|T||Tisdell,T.F.|Developments in Tomato Weed Control|Proceedings of the 21st Annual California Weed Conference21:81-82|1969|
154333|T||Bruchhausen,V., and M. Stiasni|Transport of the Systemic Fungicide Cela W 524 (Triforine) in Barley Plants.  II.  Uptake and Metabolism|Pestic. Sci.4(6): 767-773|1973|10.1002/ps.2780040602
154334|T||Warwick,S.I., A.S. Hamill, and P.B. Marriage|Response of Different Growth Forms of Poa annua L. (Annual Bluegrass) to Herbicides Applied Before or After Emergence|Can. J. Plant Sci.60(3): 947-952|1980|10.4141/cjps80-138
154335|T||Waters,W.E.|Effects of Several Herbicides on Gladiolus Flower and Corm Production|Proc. South. Weed Conf.18:237-245|1965|
154336|T||Elmstrom,G.W.|Evaluation of Herbicides for Watermelon|Proc. South. Weed Sci. Soc.26:270-275|1973|
154337|T||Talbert,R.E., R.E. Frans, and H.R. Baker|Field Screening of New Chemicals for Herbicidal Activity, 1965|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.147:12 p.|1965|
154338|T||Johnson,B.J.|Frequency and Rates of Bensulide Treatments on Crabgrass Control in Turf|Ga. Agric. Exp. Stn. Res. Bull.377:6 p.|1981|
154339|T||Decallonne,J., M.S. Soliman, J. Weyns, and J. Meyer|Characterization of Potential Side Effects of Systemic Pesticides Applied to Plants:  An Analysis of the Grain Proteins of Barley After Treatments with Triforine|Meded. Fac. Landbouwwet. Rijksuniv. Gent44(2): 943-950|1979|
154340|T||Jagschitz,J.A.|Use of Activated Charcoal to Nullify the Harmful Effects of Chemicals in Turfgrass|In: Proceedings of the Second International Turfgrass Research Conference49:399-409|1974|
154341|T||Hill,L.V., and P.W. Santelmann|The Use of Herbicides to Control Weeds During Alfalfa Establishment|Proc. South. Weed Sci. Soc.22:201-204|1969|
154342|T||Menges,R.M., and S. Tamez|Effect of Soil Incorporation on Selectivity, Movement, and Persistence of Herbicides in Onion Plantings|J. Am. Soc. Hortic. Sci.98(4): 390-393|1973|10.21273/JASHS.98.4.390
154343|T||Jagschitz,J.A.|Effect of Activated Charcoal on the Future Performance of Chemicals for Preemergence Crabgrass Control in Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:109-114|1971|
154344|T||Rao,C.K.|Mitostatic Activity of the Systemic Fungicide Piperazin-1, 4-Diyl-bis-[1-(2,2,2-Trichloroethyl)Formamide] (CA 70203) on the Roots of Allium cepa L.|Vignana Bharathi2(2): 98-103|1976|
154345|T||Perry,J.H., G.E. Coats, and C.O. Box|Evaluation of Selected Herbicides for Weed Control in Tall Bearded Iris|Proc. South. Weed Sci. Soc.27:178-185|1974|
154346|T||Rouchaud,J., P. Dreze, C. Moons, and J.A. Meyer|Metabolic Study of Tritium Labelled Triforine in Barley|Int. J. Appl. Radiat. Isot.34(5): 841-846|1983|10.1016/0020-708X(83)90104-7
154347|T||Cox,T.I.|Herbicides for Horticultural Beet Crops|Proc. N. Z. Weed Pest Control Conf.22:79-87|1969|10.30843/nzpp.1969.22.10443
154348|T||Sistrunk,L.A., and S.J. Locascio|The Influence of Soil and Water Incorporation of Two Herbicides on Weed Control in Watermelons|Proc. South. Weed Conf.24:212-218|1971|
154349|T||Skroch,W.A., S.L. Warren, and A.A. De Hertogh|Phytotoxicity of Herbicides to Spring Flowering Bulbs|J. Environ. Hortic.6(4): 109-113|1988|10.24266/0738-2898-6.4.109
154350|T||Menges,R.M., and J.L. Hubbard|Influence of Climate and Soil Incorporation on Herbicides in Onions|Proc. Am. Soc. Hortic. Sci.92:498-507|1968|
154351|T||Menges,R.M., and J.L. Hubbard|Influence of Soil Incorporation and Climate on Herbicides in Cantaloupe|Proc. Am. Soc. Hortic. Sci.92:446-454|1968|
154352|T||Erickson,L.C.|Comparative Efficiencies of Several Herbicides for Crabgrass in Lawns|West. Weed Control Conf.20:42-43|1965|
154353|T||Hamson,A.R.|Pre-Emergence and Preplanting Soil-Incorporated Applications of Herbicides in Furrow-Irrigated Tomatoes for Processing|West. Weed Control Conf.20:32-33|1965|
154354|T||Leuthold,L.D., and W.J. Carpenter|Pre- and Post-Emergence Herbicide Applications to Annual and Perennial Garden Flowers|Proc. North Cent. Weed Control Conf.20:40-41|1966|
154355|T||Dernoeden,P.H.|Management of Preemergence Herbicides for Crabgrass Control in Transition-Zone Turf|Hortscience19(3): 443-445|1984|10.21273/HORTSCI.19.3.443
154356|T||Day,B.E.|Urea Herbicides for Citrus Weed Control|Calif. Citrogr.40:398, 408, 410 - 412, 414|1955|
154357|T||Rouchaud,J., C. Moons, and J.A. Meyer|Characterisation of Bound Residues of (3H)Triforine in Barley Grain Grown in the Field|Pestic. Sci.10(6): 509-518|1979|10.1002/ps.2780100611
154358|T||Talbert,R.E.|Field Evaluation of Herbicides on Vegetable Crops, 1965|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.148:19 p.|1965|
154359|T||Talbert,R.E., J.E. Vaile, and R.C. Rom|Field Evaluation of Herbicides on Horticultural Crops, 1966|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.157:28 p.|1967|
154360|T||Talbert,R.E.|Field Evaluation of Herbicides in Vegetables Crops, 1971|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.197:19 p.|1971|
154361|T||Talbert,R.E., and J.M. Kennedy|Field Evaluation of Herbicides in Vegetable Crops, 1973|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.219:14 p.|1974|
154362|T||Talbert,R.E., J.M. Kennedy, M.R. Kennedy, and L.E. Ramthun|Field Evaluation of Herbicides in Vegetable Crops, 1974|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.227:17 p.|1974|
154363|T||Talbert,R.E., and L. Hodges|Field Evaluation of Herbicides in Vegetable Crops, 1977|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.258:15 p.|1978|
154364|T||Talbert,R.E., P.A. Saunders, and L. Hodges|Field Evaluation of Herbicides in Vegetable Crops, 1978|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.267:14 p.|1979|
154365|T||Jagschitz,J.A.|Use of Charcoal to Deactivate Herbicide Residues in Turfgrass Seedbeds|Proc. Northeast. Weed Control Conf.22:401-408|1968|
154366|T||Jagschitz,J.A.|Fall and Spring Use of Preemergent Crabgrass Control Chemicals in Turfgrass|Proc. Northeast. Weed Control Conf.23:398-404|1969|
154367|T||Jagschitz,J.A.|Chemical Control of Poa annua L. in Turfgrass and the Effect of Various Chemicals on Seed Production|Proc. Northeast. Weed Control Conf.24:393-400|1970|
154368|T||Jagschitz,J.A.|Pre and Postemergence Chemical Crabgrass Control Studies in Turfgrass 1968-69|Proc. Northeast. Weed Control Conf.24:379-386|1970|
154369|T||Jagschitz,J.A.|Control of Crabgrass and Goosegrass in Turfgrass with Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.27:320-323|1973|
154370|T||Dwivedi,S.C., and A. Kumar|Ovicidal Activity of Synthetic Insecticides Against Corcyra cephalonica Stainton (Lepidoptera:  Pyralidae)|J. Ecotoxicol. Environ. Monit.9(4): 259-261|1999|
154371|T||Rao,P.K., and L.R. Rao|Relative Toxicity of Certain Synthetic Pyrethroid Insecticides to Lasioderma serricorne (Fabricius)|J. Maharashtra Agric. Univ.16(2): 304-305|1991|
154372|T||Rao,G.R., and S. Dhingra|Relative Susceptibility of Different Larval Instars of Spodoptera litura (Fabricius) to Some Synthetic Pyrethroids|J. Entomol. Res.20(2): 103-108|1996|
154373|T||Rathod,B.D., and G.N. Salunkhe|Laboratory Studies on Residual Toxicity of Certain Insecticides to the Parasite of the Potato Tuber Moth|J. Maharashtra Agric. Univ.17(3): 371-372|1992|
154374|T||Saini,R.K., and N.P. Chopra|Relative Toxicity of Different Insecticides to Field-Collected Larvae of Earias vittella (Fab.)|J. Entomol. Res.12(2): 169-170|1988|
154375|T||Selvaraju,N.G., R. Sundarajan, and C. Peter|Residual Toxicity of Certain Grain Protectants to the Rice Weevil and Red Flour Beetle on Wheat|Indian J. Plant Prot.22(1): 83-85|1994|
154376|T||Saleem,M.A.|Toxicity of Fenvalerate Against a Malathion-Resistant and a Susceptible Strain of Oryzaephilus surinamensis (L.)|Biologia (Lahore)32(1): 119-126|1986|
154377|T||Carter,C.D., and G.M. Ghidiu|Host Plant Affects Response of Colorado Potato Beetle to a Pyrethroid Insecticide|Hortscience23(2): 306-308|1988|10.21273/HORTSCI.23.2.306
154378|T||Johnson,B.J.|Dates of Herbicide Application for Summer Weed Control in Turf|Weed Sci.24(4): 422-424|1976|10.1017/S0043174500066315
154379|T||Rahman,M.M., and T.D. Yadav|Efficacy of Deltamethrin, Cypermethrin Permethrin and Fenvalerate Dusts Against Developmental Stages of Callosobruchus maculatus Fab. and C. chinensis Linn.|Indian J. Entomol.49(3): 387-391|1987|
154380|T||Johnson,B.J.|Combinations of MSMA with Preemergence Herbicides for Large Crabgrass (Digitaria sanguinalis) Control in Turf|Weed Sci.29(4): 386-389|1981|10.1017/S0043174500039850
154381|T||Kaul,C.K., P. Mehrotra, and S.D. Singh|Chemical Control of Gram Podborer|Indian J. Entomol.50(4): 532-533|1988|
154382|T||Johnson,B.J.|Creeping Bentgrass Quality Following Preemergence and Postemergence Herbicide Applications|Hortscience29(8): 880-883|1994|10.21273/HORTSCI.29.8.880
154383|T||Rao,V.R., K.C. Chitra, and P.K. Rao|Relative Toxicity of Synthetic Pyrethroids to Henosepilachna vigintioctopunctata (Fabricius)|Indian J. Entomol.51(1): 51-54|1989|
154384|T||Juska,F.V., and A.A. Hanson|Factors Affecting Poa annua L. Control|Weeds (Urbana)15(2): 98-101|1967|10.2307/4041172
154385|T||Arora,R., and H.S. Sidhu|Studies on the Interaction of Diflubenzuron and Fenvalerate Against Helicoverpa armigera (Hub.) and Spodoptera litura Fab.|J. Insect Sci.5(2): 167-168|1992|
154386|T||Juska,F.V., and A.W. Hovin|Preemergence Herbicide Effects on the Growth of Newport Kentucky Bluegrass (Poa pratensis L.) Seedlings|Proc. Northeast. Weed Control Conf.24:387-392|1970|
154387|T||Diraviam,J., and C.A. Viraktamath|Toxicity of Some Insecticides to Curinus coeruleus Mulsant (Coleoptera:  Coccinellidae), an Introduced Predator of the Subabul Psyllid|Entomon18(1/2): 77-79|1993|
154388|T||Goel,S.C., and S. Kumar|Ovicidal Action of Synthetic Pyrethroids on the Eggs of Bihar Hairy Caterpillar, Spilosoma obliqua (Walker) and Sesamum sphinx, Acherontia styx (West Wood)|Entomon16(3): 237-239|1991|
154389|T||Juska,F.V., and A.A. Hanson|Effects of Herbicides on the Germination of Some Turfgrass Species|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:83-87|1971|
154390|T||Klingman,D.L., and J.J. Murray|Crabgrass Control and Changes in Stand of the Turf Species|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:344-349|1977|
154392|T||Landschoot,P.J., T.L. Watschke, and B.F. Hoyland|Influence of Preemergence and Postemergence Herbicides on Rooting of Turfgrasses|Weed Technol.7(1): 123-126|1993|10.1017/S0890037X00036988
154393|T||Masiunas,J.B., and S.C. Weller|Tolerance of Transplanted Muskmelon (Cucumis melo) to Oxyfluorfen Applied Preemergent|Weed Technol.3(1): 30-32|1989|10.1017/S0890037X00031262
154394|T||Subiha,A.D., M.I. Abdel-Megeed, W.M. El-Deeb, F.M. Mariy, and A.A. Hassanein|The Rate of Resistance Development of the Cotton Leafworm, Spodoptera littoralis (Boisd.), to Synthetic Pyrethroids, Caybolt and Fenvalerate|Z. Angew. Zool. (Multiple Languages)71(4): 391-398|1985|
154395|T||Prakash,A.|Joint Toxicity and Stability of Carbaryl with Some Organosynthetic Insecticides|J. Insect Sci.8(1): 76-84|1995|
154396|T||Hoy,C.W., and F.R. Hall|Feeding Behavior of Plutella xylostella and Leptinotarsa decemlineata on Leaves Treated with Bacillus thuringiensis and Esfenvalerate|Pestic. Sci.38(4): 335-340|1993|10.1002/ps.2780380410
154397|T||Reddy,G.R., K.C. Chitra, and P.K. Rao|Susceptibility of Different Populations of Helicoverpa armigera (Hubner) to Insecticides in Andhra Pradesh|J. Insect Sci.6(1): 148-149|1993|
154398|T||Sidhu,A.S., J. Singh, R. Arora, D.S. Brar, C.S. Dhaliwal, and R.S. Bal|Adoption of Plant Protection Measures vis-a-vis Effectiveness of Recommended Insecticides Against Helicoverpa armigera (Hubner) During 1990-a Year of Cotton Crop Failure in Punjab|J. Insect Sci.7(1): 10-13|1994|
154399|T||Menges,R.M., and J.L. Hubbard|Selectivity, Movement, and Persistence of Soil-Incorporated Herbicides in Carrot Plantings|Weed Sci.18(2): 247-252|1970|10.1017/S0043174500079674
154400|T||Khurana,A.D.|Optimum Spray Interval of Fenvalerate and Quinalphos on Arboreum and Hirsutum Cottons|J. Insect Sci.4(2): 145-147|1991|
154401|T||Misra,H.P., and N.C. Patnaik|Comparative Efficacy of Some Insecticides Against the Sesamum Leaf Webber and Pod Borer, Antigastra catalaunalis (Dupon.) (Lepidoptera:  Pyralidae)|J. Entomol. Res.18(2): 177-179|1994|
154402|T||El-Lakwah,F.A., M.S. Hamed, and A.M. Abdel-Latif|Effectiveness of Lantana camara and Nerium oleander Extracts Alone and in Mixtures with Two Insecticides Against Rhizopertha dominica (F.)|Ann. Agric. Sci. Moshtohor34(4): 1879-1905|1996|
154403|T||Menges,R.M., and J.L. Hubbard|Phytotoxicity of Bensulide and Trifluralin in Several Soils|Weed Sci.18(2): 244-247|1970|10.1017/S0043174500079662
154404|T||Menges,R.M., and S. Tamez|Movement and Persistence of Bensulide and Trifluralin in Irrigated Soil|Weed Sci.22(1): 67-71|1974|10.1017/S0043174500036547
154405|T||Rao,G.R., and S. Dhingra|Shift in the Susceptibility Level of Spodoptera litura (Delhi and Guntur Populations) to Cypermethrin and Fenvalerate|J. Entomol. Res.20(3): 225-227|1996|
154406|T||Menges,R.M., and S. Tamez|Response of Cucumber (Cucumis sativus) to Annual Weeds and Herbicides|Weed Sci.29(2): 200-208|1981|10.1017/S0043174500061804
154407|T||Baruah,A.A.L.H., and R. Chauhan|Residual Toxicity of Some Synthetic Pyrethroids Against Gram Pod Borer, Heliothis armigera (Hubner) Infesting Pigeonpea|J. Entomol. Res.24(2): 185-189|2000|
154408|T||Motsenbocker,C.E., and A.R. Bonanno|The Influence of Herbicides on the Growth and Yield of Muskmelons (Cucumis melo)|Weed Sci.36(2): 234-238|1988|10.1017/S0043174500074762
154409|T||Singh,R., and P. Sarup|Effect of Insecticides on the Eggs of Maize Stalk Borer, Chilo partellus (Swinhoe) Reared on Artificial Diet and Natural Host-Plant Maize|J. Entomol. Res.9(1): 1-3|1985|
154410|T||Murray,J.J.|Effects of Herbicides on Cold Temperature Tolerance of Bermudagrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:372-377|1980|
154411|T||Noll,C.J.|Weed Control in Cucumbers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.26:157-160|1972|
154412|T||Perkins,A.T., J.M. Duich, and D.V. Waddington|Pre- and Postemergence Crabgrass Control Results for 1967 and 1968|Proc. Northeast. Weed Control Conf.23:391-397|1969|
154413|T||Bhalani,P.A., and V.S. Kotadia|Field Evaluation of Certain Synthetic Pyrethroids Against Heliothis armigera Hubner of Gram Crop|Pesticides 20(7): 24-26|1986|
154414|T||Durairaj,C., and N. Ganapathy|Toxicity of Nine Insecticides to Three Species of Blister Beetle (Mylabris spp) in Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.69(6): 468-469|1999|
154415|T||Reicher,Z.J., C.S. Throssell, and J.L. Lefton|Annual Grass Control in Cool Season Turf with Sequential Applications of Unlike Preemergence Herbicides|Weed Technol.5(2): 387-391|1991|10.1017/S0890037X00028281
154416|T||George,V., and J.R. Patel|Mint, Mentha spicata - a Promising Botanical Protectant for Green Gram Against Pulse Beetle, Callosobruchus analis F.|Indian J. Plant Prot.20(1): 66-69|1992|
154417|T||Schubert,O.E., and C.E. Hickman|Pretransplant Incorporated and Posttransplant Herbicide Treatments for Weed Control in Tomatoes|Proc. Northeast. Weed Control Conf.24:331-338|1970|
154418|T||Bhalani,P.A., and G.J. Parsana|Chemical Control of the Gram Pod Borer, Heliothis armigera Hubner Infesting Green Gram (Vigna radiata L.)|Pesticides 20(10): 24-25, 30|1986|
154419|T||Butter,N.S., J.S. Kular, and T.H. Singh|Effectiveness of New Synthetic Pyrethroids Against Cotton Bollworms|J. Res. Punjab Agric. Univ.27(4): 620-622|1990|
154420|T||Singh,M., and K.L. Verma|Field Evaluation of Some Synthetic Pyrethroids and Pirimicarb Against Woolly Apple Aphid, Eriosoma lanigerum Hausmann (Hemiptera: Aphididae)|Pesticides 19(7): 38-39|1985|
154421|T||Skogley,C.R., and J.A. Jagschitz|Chemical Control of Crabgrass and Spotted Spurge in Turfgrass|Proc. Northeast. Weed Control Conf.20:531-536|1966|
154422|T||Troutman,B.C., and J.A. Jagschitz|Evaluation of Chemicals for Crabgrass Control in Turfgrass - 1970|Proc. Annu. Meet. Northeast. Weed Sci. Soc.25:91-95|1971|
154423|T||Vekaria,M.V., and H.N. Vyas|Studies on Ovicidal Toxicity of Certain Insecticides Against the Eggs of Heliothis armigera Hubner|Pesticides 19(10): 43-44|1985|
154424|T||Van Yahres,R.D., and J.A. Jagschitz|Pre- and Postemergence Herbicides for the Control of Crabgrass in Lawn Areas|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:292-297|1982|
154425|T||Watschke,T.L., and M.S. Welterlen|Preemergence Control of Crabgrass in 1979 and 1980|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:299-303|1981|
154426|T||Watschke,T.L., J.M. Duich, and D.V. Waddington|Evaluation of Preemergence Herbicides for Crabgrass Control in 1973|Proc. Annu. Meet. Northeast. Weed Sci. Soc.28:395-398|1974|
154427|T||Watschke,T.L., and J.M. Duich|Control of Crabgrass in Kentucky Bluegrass and Red Fescue Turf Using Preemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:303-307|1978|
154428|T||Watschke,T.L.|Control of Smooth Crabgrass in Turf Using Pre- and Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:389-390|1983|
154429|T||Watschke,T.L., D.J. Wehner, and J.M. Duich|Control of Smooth Crabgrass in Kentucky Bluegrass and Red Fescue Using Pre- and Postemergence Herbicides|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:340-343|1977|
154430|T||Watschke,T.L., M.S. Welterlen, and J.M. Duich|Control of Smooth Crabgrass in Turf Using Reduced Rates the Second Year|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:353-356|1980|
154431|T||Watschke,T.L.|Pre- and Postemergence Crabgrass Control in 1983 and 1984|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:279-281|1985|
154432|T||Wilson,R.R., and R.H. Cole|Tests of Several Soybean Herbicides at Georgetown, Delaware, 1965|Proc. Northeast. Weed Control Conf.20:352-357|1966|
154433|T||Wilson,H.P., and R.L. Waterfield|Weed and Crop Responses to Herbicides in Cucumbers and Watermelons|Proc. Northeast. Weed Control Conf.23:1-7|1969|
154434|T||Hoffmann,E.J.|Identification & Characterization of Key Insecticide Performance Mechanisms for the Control of Plum Curculio (Conotrachelus nenuphar) in Michigan Tart Cherries|Ph.D. Thesis, Michigan State University, East Lansing, MI:160 p.|2008|
154435|T||Jones,M.M., J.L. Robertson, and R.A. Weinzierl|Susceptibility of Oriental Fruit Moth (Lepidoptera: Tortricidae) to Two Pyrethroids and a Proposed Diagnostic Dose of Esfenvalerate for Field Detection of Resistance|J. Econ. Entomol.104(3): 1031-1037|2011|10.1603/EC10399
154436|A||Clifford,M.A.|Infectious Hematopoietic Necrosis Virus in Juvenile Chinook Salmon:  Mx-1 and VIG-8 Gene Transcription in Infected Fish and Synergistic Effects of Concurrent Esfenvalerate Exposure|Ph.D. Thesis, University of California, Davis:135 p.|2006|
154437|T||Hopkins,B.W., and P.V. Pietrantonio|Differential Efficacy of Three Commonly Used Pyrethroids Against Laboratory and Field-Collected Larvae and Adults of Helicoverpa zea (Lepidoptera: Noctuidae) and Significance for Pyrethroid Resistance Management|Pest Manag. Sci.66(2): 147-154|2010|10.1002/ps.1847
154439|T||Jones,M.M., J.L. Robertson, and R.A. Weinzierl|Susceptibility of Eggs from Two Laboratory Colonies of Oriental Fruit Moth (Lepidoptera: Tortricidae) to Novaluron|J. Agric. Urban Entomol.26(4): 175-181|2009|10.3954/1523-5475-26.4.175
154440|T||Hoffmann,E.J., S.M. Middleton, and J.C. Wise|Ovicidal Activity of Organophosphate, Oxadiazine, Neonicotinoid and Insect Growth Regulator Chemistries on Northern Strain Plum Curculio, Conotrachelus nenuphar|J. Insect Sci.8(29): 1-6|2008|10.1673/031.008.2901
154441|T||Dernoeden,P.H.|Single Versus Repeat Application of Preemergence Crabgrass Herbicides Using Reduced Rates the Second Year|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:315-320|1982|
154442|T||Sisler,H.D., and N.N. Ragsdale|Fungitoxicity and Growth Regulation Involving Aspects of Lipid Biosynthesis|Neth. J. Plant Pathol.83(suppl. 1): 81-91|1977|10.1007/BF03041423
154443|T||Mishra,B., A.N. Dash, and S.S. Das|Evaluation of Some Insecticides Against Larvae of Corcyra cephalonica Stainton|Indian J. Plant Prot.16(1): 117-119|1988|
154444|T||Sharma,G.C., V.T. Gajbhiye, N.P. Agnihotri, and H.K. Jain|Efficacy of Some Insecticides Against Cotton Bollworms and Persistence of Their Residues in Cotton Seed and Lint|Pesticides 18(11): 10-13|1984|
154445|T||Pimprale,S., and S.A. Nimbalkar|Increased Incidence of Aphid, Aphis gossypii Due to Pesticide Combinations in Upland Cotton|Indian J. Plant Prot.22(1): 125-127|1994|
154446|T||Buchenauer,H.|Inactivation of Triforine by U.V. and Sunlight on Glass and on Leaves of Bean Plants|Pestic. Sci.6(6): 553-559|1975|10.1002/ps.2780060602
154447|T||Dhawan,A.K., G.S. Simwat, and A.S. Sidhu|Testing of Synthetic Pyrethroids for Control of Cotton Leaf Roller, Sylepta derogata F.|J. Res. Punjab Agric. Univ.25(1): 70-72|1988|
154448|T||Dhawan,A.K., G.S. Simwat, and A.S. Sidhu|Field Evaluation of Asymethrin (Chinmix) for Bollworm Control on Cotton|Indian J. Plant Prot.20(1): 24-26|1992|
154449|T||Gupta,P.R., R.C. Mishra, and J.K. Gupta|Effectiveness of Some Insecticide Sprays Against the Cabbage Aphid and Thrips on Seed Crop of Radish|Indian J. Agric. Res.19(1): 6-10|1985|
154450|T||Katti,G., and J.N. Sachan|Field Evaluation of Newer Insecticides for Controlling Pod Fly (Melanagromyza obtusa) in Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.68(4): 222-223|1998|
154451|T||Dey,K., and Y.D. Pande|Efficacy of Insecticides in Controlling Sternochetus gravis (Fabricius)|Indian J. Agric. Sci.57(9): 678-680|1987|
154452|T||Babu,P.C.S., and B. Rajasekaran|Evaluation of Certain Synthetic Pyrethroids and Vegetable Products for the Control of Bengalgram Podborer, Heliothis armigera Hubner|Pesticides 18(10): 58-59|1984|
154453|T||Manoharan,T., and S. Uthamasamy|Differential Susceptibility of Field Population of Gram Podborer (Helicoverpa armigera) to Insecticides in Tamil Nadu|Indian J. Agric. Sci.64(2): 126-131|1994|
154454|T||Sharma,S.P., M.L. Saini, and S.C. Goel|Persistent Toxicity of Synthetic Pyrethroids to Neonate Larvae of Gram Pod Borer, Heliothis armigera Hubner (Lepidoptera: Noctuidae)|In: S.C.Goel (Ed.), Natl.Symp., Insect and Environment.Pesticide Residues and Environmental Pollution, Oct.2-4, 1985, Muzaffarnagar, India, Sanatan Dharm Coll., Muzaffarnagar, India2:64-71|1986|
154455|T||Bhardwaj,V., N. Devi, and D. Raj|Toxicity of Some Insecticides and Biopesticides to Diadegma fenestralis Himage and Cotesia plutellae (Kurdyumov), Two Parasitoids of Diamondback Moth|J. Entomol. Res.29(1): 27-30|2005|
154456|T||Tadas,P.L., H.K. Kene, and S.D. Deshmukh|Effect of Raw Cotton Seed Oil Against Sucking Pests of Cotton|PKV Res. J.18(1): 142-143|1994|
154457|T||Tadas,P.L., H.K. Kene, and S.D. Deshmukh|Efficacy of Some New Insecticides Against Cotton Bollworms|PKV Res. J.18(1): 138-139|1994|
154458|T||Singh,O.P.|Efficacy of Some New Insecticides Against the Bihar Hairy Caterpillar, Spilosoma obliqua Walker and Estimation of Losses to Soybean in Madhya Pradesh|Indian J. Agric. Res.25(4): 189-193|1991|
154459|T||Razaq,M., A. Suhail, M.J. Arif, M. Aslam, and A.H. Sayyed|Effect of Rotational Use of Insecticides on Pyrethroids Resistance in Helicoverpa armigera (Lep.: Noctuidae)|J. Appl. Entomol.131(7): 460-465|2007|10.1111/j.1439-0418.2007.01204.x
154460|T||Saleem,M.A., M.Z. Malik, M. Fayyaz, and A.R. Shakoori|The Toxicity of Four New Synthetic Pyrethroids to Sixth Instar Larvae of a Stored Grain Pest, Tribolium castaneum (Herbst.)|Pak. J. Zool.18(4): 417-431|1986|
154461|T||Sandhu,M.S., R. Arora, G. Singh, and C.S. Dhaliwal|Some New Insecticides for the Control of Cotton Bollworms in Punjab|Pesticides 21(1): 29-32|1987|
154462|T||Prasad,P.S., P.K. Rao, P.R. Prasad, and A. Mani|Evaluation of Newer Insecticides Against Pigeonpea Pod Borers|Pesticides 23(4): 29-31|1989|
154463|T||Sharma,P.D.|A New Approach to Control Bollworms in Cotton|Pesticides 21(6): 28-29|1987|
154464|T||Thangaraju,D., S. Parameswarn, and S. Jayaraj|Insecticidal Control of Bollworms in Upland Cotton (Gossypium hirsutum)|Indian J. Agric. Sci.58(7): 533-536|1988|
154466|T||Singh,B.R., and S.R. Verma|Bio-Efficacy of Some Foliar Insecticides Against Myzus persicae (Sulzer) on Potato|Indian J. Plant Prot.13(2): 75-77|1986|
154467|T||Patel,H.P., A.R. Patel, G.P. Patel, and J.R. Patel|Ovicidal and Larvicidal Effect of Readymix Formulation of Insecticides Against Lepidopteran Borers of Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.69(5): 391-393|1999|
154468|T||Singh,J., B.S. Sandhu, G. Singh, and V.P. Mittal|Efficacy of New Synthetic Pyrethroid Flucythrinate Against Bollworms on Desi Gotton|J. Res. Punjab Agric. Univ.25(2): 221-224|1988|
154469|T||Phillips,S.A.,Jr., D.M. Claborn, and O.F. Francke|Comparison of Aerial Application and Single-Mound Drenches of Fenvalerate Against the Red Imported Fire Ant, Solenopsis invicta Buren, in Texas|Southwest. Entomol.9:164-168|1984|
154470|T||Hirano,M.|A Pyrethroid Insecticide, Esfenvalerate, Its Mode of Action and Efficacy on Cotton Pests|In: M.B.Green and D.J.De Lyon (Ed.), Ellis Horwood Ser.in Agrochem.Sci., Pest Management in Cotton, Soc.of Chem.Ind.Symp., June 1988, London, England, John Wiley and Sons Inc., Somerset, NJ15:166-173|1989|
154471|T||Ahuja,D.B.|Cross-Resistance Characteristics of a Laboratory Selected Pirimiphosmethyl Resistant Strain of Tribolium castaneum (Herbst) to Some Insecticides|J. Entomol. Res.9(2): 174-178|1985|
154472|T||Singh,O.P., and K.J. Singh|Economics of Spray Schedule for the Control of Green Semilooper and Stemfly on Soybean in Madhya Pradesh|Indian J. Plant Prot.18(1): 31-36|1990|
154473|T||Dhingra,S., K. Murugesan, and D. Sridevi|Insecticidal Safety Limits for the Coccinellid, Menochilus sexmaculatus Fabricius Predating on Different Aphid Species|J. Entomol. Res.19(1): 43-47|1995|
154474|T||Jalgan,R.S., and P. Sircar|Effect of Post-Treatment Temperature on the Toxicity of Fenvalerate Emulsion Formulation Against Larvae of Spodoptera litura (Fab.)|Ann. Biol.19(1): 85-89|2003|
154475|T||Patil,C.S., S.A. Pawar, V.M. Khaire, and U.N. Mote|Evaluation of Isoprocarb Against Bollworms of Cotton|Tests Agrochem. Cultiv.12:12-13|1991|
154476|T||Butter,N.S., G.S. Battu, J.S. Kular, T.H. Singh, and J.S. Brar|Integrated Use of Bacillus thuringiensis Berliner with Some Insecticides for the Management of Bollworms on Cotton|J. Entomol. Res.19(3): 255-263|1995|
154477|T||Singh,R., and P. Sarup|Effect of Natural and Artificial Diets on the Susceptibility of Larvae of the Maize Stalk Borer, Chilo partellus (Swinhoe) to Different Insecticides|J. Entomol. Res.15(1): 1-8|1991|
154478|T||Singh,J.P., and G.P. Gupta|Impact of Various Insecticides on Intermittent Population of Jassid and Whitefly Infesting American Cotton During Different Spray Schedules Followed for the Control of Bollworm Complex|J. Entomol. Res.17(4): 297-303|1993|
154479|T||Sparks,A.N.Jr., and D.J. Boethel|Importance of Sampling Nymphs in the Evaluation of Insecticides for Threecornered Alfalfa Hopper (Homoptera:  Membracidae) Control|J. Entomol. Sci.22(3): 253-263|1987|10.18474/0749-8004-22.3.253
154480|T||Frank,R., H.E. Braun, L.A. Miller, and G.W. Allan|Fenvalerate Residues in Milk Following Topical Treatments to Dairy Cows|Pestic. Sci.15:600-604|1984|10.1002/ps.2780150611
154481|T||Ghidiu,G.M., C. Carter, and C.A. Silcox|The Effect of Host Plant on Colorado Potato Beetle (Coleoptera:  Chrysomelidae) Susceptibility to Pyrethroid Insecticides|Pestic. Sci.28(3): 259-270|1990|10.1002/ps.2780280305
154482|T||Gupta,G.P.|Chemical Control of Bollworms Synchronised with Flowering in Cotton|J. Entomol. Res.14(2): 146-149|1990|
154483|T||Jadhav,D.R., and N.J. Armes|Comparative Status of Insecticide Resistance in the Helicoverpa and Heliothis Species (Lepidoptera:  Noctuidae) of South India|Bull. Entomol. Res.86(5): 525-531|1996|10.1017/S0007485300039316
154484|T||Maheshwari,B.K., and S.S. Malik|Some New Insecticides to Control Black Bug in Sugarcane|Pesticides 22(8): 23-24|1988|
154485|T||Manoharan,T., and S. Uthamasamy|Evaluation of Plant Products for Synergistic Action with Insecticides for Control of Gram-Podborer (Helicoverpa armigera)|Indian J. Agric. Sci.63(11): 759-761|1993|
154486|T||Barkhade,U.P., R.B. Gawande, and S.R. Katole|Preliminary Studies on the Critical Stage for Application of Insecticides Against Cotton Bollworms|PKV Res. J.16(1): 126-127|1992|
154487|T||Botha,J.H., H. Van Ark, and A.J. Scholtz|The Effect of Bollworm Control with Regard to Populations of Spider Mites and Some of Their Natural Enemies on Cotton|Phytophylactica18(3): 141-150|1986|
154488|T||Datkhile,R.V., S.A. Pawar, R.G. Jadhav, U.N. Mote, and P.R. Moholkar|Evaluation of Insecticide Dust Formulations Against Brinjal Fruit Borer|Tests Agrochem. Cultiv.15:4-5|1994|
154489|T||Dhawan,A.K., G.S. Simwat, A.S. Sidhu, and D.N. Makwana|Impact of Some Insecticides on Bollworm Damage and Fibre Quality in Gossypium arboreum L.|J. Res. Punjab Agric. Univ.28(1): 52-56|1991|
154490|A||Jayakumar,K., and C. Kandeepan|Impact of Synthetic Insecticides on Biochemical Constituents of the Non-Target Organism Bufo bufo Tadpoles|J. Ecotoxicol. Environ. Monit.19(5): 487-495|2009|
154491|A||Jayakumar,K., and C. Kandeepan|Effect of Pesticides on Growth and Oxygen Consumption in the Tadpoles of Bufo bufo|J. Ecobiol.25(2): 111-119|2009|
154492|T||Manger,W., and J. Koeckhoven|Control of Insects in Brussels' Sprouts with NeemAzal-T/S|In: H.Kleeberg (Ed.), Practice Oriented Results on Use and Production of Neem-Ingredients and Pheromones, Hohensolms, Germany:41-49|1997|
154493|T||Sobeiha,A.M.K., Z.H. Zidan, F.A. Mahmoud, and S. Tantawy|Residual Influence of Dimilin and Bactospaine on the Bio-Efficacy of Certain Synthetic Pyrethroids Against the Cotton Leafworm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt12:165-170|1980|
154494|T||Mathur,Y.K., Satyadev, and P. Kishore|Evaluation of Some Important Insecticides Against Chilo partellus (Swinhoe) and Marasmia trapezalis (Guen.) Infesting Maize Crop|J. Entomol. Res.16(4): 277-282|1992|
154495|T||Taley,Y.M., R.L. Thote, and S.A. Nimbalkar|Assessment of Crop Losses due to Insect Pests of Cotton and Cost Benefit of Protection Schedule|PKV Res. J.12(2): 126-128|1988|
154496|T||Osman,A.A., M.B. Attiah, A. Eisa, and A. El-Nabawi|Relative Toxicity of Pesticides to Certain Predators on Cotton Pests|Indian J. Agric. Sci.55(8): 536-538|1985|
154497|T||Sharma,P.K., and R.M. Bhagat|Comparative Efficacy of Various Insecticides Used as Seed and Soil Treatments Against Cutworm, Agrotis ypsilon (Rott.) Infesting Maize|J. Entomol. Res.24(2): 163-165|2000|
154498|T||Von Berg,A., and A. Biliwa|Control of the Larger Corn Borer (Prostephanus truncatus) (Horn) (Coleoptera:  Bostrichidae) in Traditional Maize Storage Structures in Southern Togo|Trop. Pest Manag.36(3): 270-275|1990|10.1080/09670879009371485
154500|T||Wolfenbarger,D.A., and J.A. Harding|Effects of Pyrethroid Insecticides on Certain Insects Associated with Cotton|Southwest. Entomol.7(4): 202-211|1982|
154501|T||Yellamma,K., and R. Reddy|Behavioural and Physiological Changes in the Cockroach, Periplaneta americana, Exposed to Fenvalerate|Indian J. Exp. Biol.25:256-261|1987|
154502|T||Bharathi,K., S. Kuttalam, T. Manoharan, M. Ravi, and T. Ramasubramanian|Development and Use of Species-Specific Insecticide Mixtures: a Novel Concept for the Management of Insecticide Resistance in Helicoverpa armigera|Indian J. Agric. Sci.80(6): 555-558|2010|
154503|T||Yein,B.R., and M.P. Barthakur|Comparative Efficacy of Different Insecticides Against Earias vittella (Fab.) and Sylepta derogata (Fab.) on Cotton|J. Res. Assam Agric. Univ.6(1): 65-67|1985|
154504|T||Patel,N.C., V.M. Valand, and S.N. Patel|Ovicidal Action of Some New Insecticides Against Eggs of Helicoverpa armigera (Hubner)|Indian J. Plant Prot.23(1): 99-100|1995|
154505|T||Pike,K.S., and D. Allison|Effects on Twospotted Spider Mite of Insecticides Applied to Sweet Corn for Control of Corn Earworm|J. Agric. Entomol.4(4): 327-332|1987|
154506|T||Riskallah,M.R., S.F. Abd-Elghafar, M.R. Abo-Elghar, and M.E. Nassar|Development of Resistance and Cross-Resistance in Fenvalerate and Deltamethrin Selected Strains of Spodoptera littoralis (Boisd.)|Pestic. Sci.14(5): 508-512|1983|10.1002/ps.2780140508
154507|T||Abdel-Megeed,M.I., M.S. El-Zemaity, S.A. El-Refai, and A.A. Zidan|The Ovicidal Action of Certain Insecticides and Their Combinations with Mineral Oils Against S. littoralis|Int. Pest Control28(5): 122-123|1986|
154508|T||Abdel-Salam,K.A., M.A. El-Deeb, and A.A. El-Fishawi|The Role of Gamma Irradiation in Tolerance of the Confused Flour Beetle, Tribolium confusum (Duv.) to Some Insecticides|Insect Sci. Appl.13(1): 105-111|1992|
154509|T||Bloomquist,J.R., and T.A. Miller|A Simple Bioassay for Detecting and Characterising Insecticide Resistance|Pestic. Sci.16(6): 611-614|1985|10.1002/ps.2780160607
154510|T||Borad,P.K., J.R. Patel, H.C. Ratanpara, and B.R. Shah|Evaluation of Some Insecticides for the Relative Efficacy Against Lipaphis erysimi Kalt. and Helicoverpa armigera Hubner on Cabbage|Indian J. Plant Prot.19(2): 191-193|1991|
154511|T||Cameron,P.J., G.P. Walker, and T.J.B. Herman|Development of Resistance to Fenvalerate in Helicoverpa armigera (Lepidoptera:  Noctuidae) in New Zealand|N. Z. J. Crop Hortic. Sci.23(4): 429-436|1995|10.1080/01140671.1995.9513920
154512|T||Chalfant,R.B., and J.R. Young|Cowpea Curculio, Chalcodermes aeneus Boheman (Coleoptera: Curculionidae); Insecticidal Control on the Southern Pea in Georgia, 1980-1986|Appl. Agric. Res.3(1): 8-11|1988|
154513|T||Chari,M.S., A.R. Patel, and T.M. Bharpoda|Bio-Efficacy of Some New Insecticides in the Control of Heliothis armigera Hb. on Chickpea|Pesticides 19(11): 51-52|1985|
154514|T||Chhabra,K.S., and B.S. Kooner|Subsceptibility of Different Stages of Bihar Hairy Caterpillar, Diacrisia obliqua Walker to Some Insecticides|Pesticides 21(6): 22-24|1987|
154515|T||Saeed,M.Q., M. Shahid, and H. Gul|Efficacy of Different Insecticides Against Epilachna spp. and Their Most Preferred Host Plant|Pak. J. Zool.29(1): 94-95|1997|
154516|T||Gohokar,R.T., S.M. Thakre, and M.N. Borle|Chemical Control of Gram Pod Borer (Heliothis armigera Hubner) by Different Synthetic Pyrethroids and Insecticides|Pesticides 21(1): 55-56|1987|
154517|T||Sontakke,B.K., A.N. Dash, and H. Mohapatra|Bio-Efficacy of Insecticides Against Brinjal Pests in Western Orissa|Indian J. Plant Prot.18(1): 101-103|1990|
154518|T||Grubor,V.D., and D.G. Heckel|Evaluation of the Role of CYP6B Cytochrome P450s in Pyrethroid Resistant Australian Helicoverpa armigera|Insect Mol. Biol.16(1): 15-23|2007|10.1111/j.1365-2583.2006.00697.x
154519|T||Wei,H., J. Wang, H.S. Li, H.G. Dai, and X.J. Gu|Sub-Lethal Effects of Fenvalerate on the Development, Fecundity, and Juvenile Hormone Esterase Activity of Diamondback Moth, Plutella xylostella (L.)|Agric. Sci. China9(11): 1612-1622|2010|10.1016/S1671-2927(09)60258-3
154520|T||Gupta,G.P., and K.N. Katiyar|Evaluation of New Synthetic Pyrethroids and Formulations Against Bollworm Complex in Cotton|Pesticides 21(4): 20-22|1987|
154521|T||Yang,Y.H., Y.J. Yang, W.Y. Gao, J.J. Guo, Y.H. Wu, and Y.D. Wu|Introgression of a Disrupted Cadherin Gene Enables Susceptible Helicoverpa armigera to Obtain Resistance to Bacillus Thuringiensis Toxin Cry1Ac|Bull. Entomol. Res.99(2): 175-181|2009|10.1017/S0007485308006226
154522|T||Daly,J.C., and J.H. Fisk|Decrease in Tolerance to Fenvalerate, in Resistant Helicoverpa armigera After Pupal Diapause|Entomol. Exp. Appl.77(2): 217-222|1995|10.1111/j.1570-7458.1995.tb02004.x
154523|T||Hamd,E.E.A., H.A.F. El Shafie, and T. Basedow|The Different Effects of Two Preparations of Neem (Azadirachta indica) and of Sumicidin on the Aphid Predator Hippodamia variegata (Goeze) (Coleoptera:  Coccinellidae)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(6): 580-585|2005|
154524|T||Khan,R.A., and M. Hamed|Toxicity of Different Groups of Insecticides Against First, Second and Third Instar Larvae of Cotton Bollworm, Helicoverpa armigera (Hub.) (Lepidoptera:  Noctuidae)|Pak. J. Zool.37(1): 13-15|2005|
154525|T||Ito,T., T. Shibata, K. Shimohara, and K. Kawachi|Characteristic of Fenvalerate in Controlling the Citrus Leaf Miner Phyllocnistis citrella Stainton (Lepidoptera:  Gracilariidae)|Appl. Entomol. Zool.17(2): 284-286|1982|10.1303/aez.17.284
154526|T||Huang,H., Z. Smilowitz, M.C. Saunders, and R. Weisz|Field Selection for Esfenvalerate Resistance by the Colorado Potato Beetle|Am. Potato J.72(1): 1-12|1995|10.1007/BF02874374
154527|T||Sahoo,B.K., and G. Rout|Comparative Efficacy of Some Synthetic Pyrethroids an Organophosphates Against Rice Weevil Sitophilus oryzae|Environ. Ecol.6(3): 721-723|1988|
154528|T||Justin,C.G.L., R.J. Rabindra, and S. Jayaraj|Increased Insecticide Susceptibility in Heliothis armigera (Hbn.) and Spodoptera litura F. Larvae due to Bacillus thuringiensis Berliner Treatment|Insect Sci. Appl.10(5): 573-576|1989|
154529|T||Rabindra,R.J., C.G.L. Justin, and S. Jayaraj|Relative Susceptibility of Two Larval Populations of Diamond-Back Moth (Plutella xylostella) to Insecticides and Bacillus thuringiensis|Indian J. Agric. Sci.65(2): 152-153|1995|
154530|T||Keddis,M.E., M.M. Abdel-Sattar, Y.H. Issa, and M.A. El-Guindy|The Toxicity of Certain Insecticide Mixtures to Pectinophora gossypiella Saund.|Bull. Entomol. Soc. Egypt14:251-256|1984|
154531|T||Longtine,C.A., G.W. Zehnder, and E.B. Radcliffe|Effect of Amitraz on Colorado Potato Beetle (Coleoptera: Chrysomelidae) Feeding, Development and Survival|J. Entomol. Sci.31(1): 89-101|1996|10.18474/0749-8004-31.1.89
154532|T||Khan,A., P.S. Baker, and G.V. Pollard|Laboratory Tests of the Effects of Three Insecticides on Ancylostomia stercorea and Its Parasitoids|Tests Agrochem. Cultiv.23:2-3|2002|
154533|T||Khurana,A.D.|Bioefficacy of Fenvalerate when Tank Mixed with Systemic Insecticides for the Control of Bollworms on Hirsutum Cotton|J. Insect Sci.9(2): 193-195|1996|
154534|T||Misra,H.P., and P. Bhatia|Cross-Resistance of Laboratory-Selected Fenvalerate-Resistant Strain of Rust-Red Flour Beetle (Tribolium castaneum)|Indian J. Agric. Sci.67(10): 485-487|1997|
154535|T||Misra,H.P., and P. Bhatia|Combined Effect of gamma Irradiation and Fenvalerate Treatment on Susceptible and Fenvalerate - Resistant Strains of Tribolium castaneum (Herbst)|J. Nucl. Agric. Biol.26(1): 39-45|1997|
154536|T||Miyata,T., V. Noppun, and T. Saito|Inheritance of Resistance to Phenthoate and Fenvalerate in Diamondback Moth and Management of Insecticide Resistance|In: N.S.Talekar (Ed.), Diamondback Moth and Other Crucifer Pests, Proceedings of the Second International Workshop, Asian Vegetable Research and Development Center, Shanhua, Taiwan53:477-484|1992|
154537|T||Mote,U.N., and J.R. Kadam|Relative Efficacy of Different Insecticides Against Sorghum Earhead Caterpillar, Heliothis armigera Hubner|Pesticides 19(10): 51-52|1985|
154538|T||Vastrad,A.S., S. Lingappa, and K. Basavanagoud|Vegetable Oils as Synergists of Synthetic Pyrethroids Against Diamondback Moth, Plutella xylostella L. (Yponomeutidae:  Lepidoptera)|J. Entomol. Res.26(4): 285-290|2002|
154539|T||Sahoo,B.K., and G. Rout|Persistent Toxicity of Some Synthetic Pyrethroids and Organophosphates Against Rice Weevil Sitophilus oryzae L.|Environ. Ecol.7(4): 826-828|1989|
154540|T||Tasei,J.N., and P. Debray|The Toxicity and Hazard of Fenvalerate to Alfalfa Leaf-Cutter Bees|Pestic. Sci.16:209-210|1985|
154541|T||Nielsen,D.G.|Comparative Toxicities of Insecticides to Adult Black Vine Weevils Under Laboratory Conditions|J. Ga. Entomol. Soc.18(1): 53-57|1983|
154542|T||Patel,C.C., D.M. Mehta, J.R. Patel, and N.M. Patel|Resistance of Gram-Podborer (Helicoverpa armigera) to Insecticides in Gujarat|Indian J. Agric. Sci.62(6): 421-423|1992|
154543|T||Qureshi,Z.A., and N. Ahmed|Evaluation of Attracticide for the Control of Pink Bollworm|Pak. J. Sci. Ind. Res.30(5): 380-381|1987|
154544|T||Bramhankar,S.A., S.A. Nimbalkar, and Y.M. Taley|Potential of Synthetic Pyrethroids in Alternation with Conventionals in Control of Bollworm Complex of Cotton H-4|Indian J. Entomol.52(3): 456-460|1990|
154545|T||Sudhakar,K.|Ineffectiveness of Insecticides to Control Helicoverpa armigera (Hubner) Larvae on Cotton|Indian J. Plant Prot.19(2): 213-214|1991|
154546|T||Subbarayudu,B.|Field Evaluation of Certain Synthetic Pyrethroids Against Helicoverpa armigera (Hubner) on Chickpea|Indian J. Plant Prot.25(1): 42-44|1997|
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154548|T||Singh,J.P., and R.K. Lakra|Effect of Insecticides on the Growth of Plant and Incidence of Bollworms in Cotton|Indian J. Plant Prot.18(1): 21-26|1990|
154549|T||Pokharkar,D.S., and S.D. Chaudhary|Combined Efficacy of Nuclear Polyhedrosis Virus and Synthetic Insecticides Against Helicoverpa armigera (Hubner) on Tomato|Indian J. Plant Prot.25(1): 20-23|1997|
154550|T||Mishra,H.P.|Evaluation of Synthetic Insecticides and Botanicals Against Cabbage Web-Worm, Crocidolomia binotalis in Indian Rape, Brassica campestris var toria|Indian J. Plant Prot.22(1): 120-122|1994|
154552|T||Kaul,B.K., M. Biswas, and R.M. Bhagat|Evaluation of Some Insecticides Against Potato Tuber Moth Phthorimaea operculella (Zeller) in the Fields of Kangra Valley, Himachal Pradesh|Indian J. Plant Prot.24(1/2): 24-27|1996|
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154555|T||Gupta,A., and B. Singh|Studies on the Persistence of Fenvalerate Dust in Chickpea (Cicer arietinum L.)|Indian J. Plant Prot.25(2): 131-132|1997|
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154591|T||Meng,X.H., P. Liu, H. Wang, X.F. Zhao, Z.M. Xu, G.H. Chen, and D.X. Xu|Gender-Specific Impairments on Cognitive and Behavioral Development in Mice Exposed to Fenvalerate During Puberty|Toxicol. Lett.203(3): 245-251|2011|10.1016/j.toxlet.2011.03.024
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154612|T||Leonard,B.R., E. Burris, J.B. Graves, and A.M. Pavloff|Toxicity of Pyrethroids Tested Against Boll Weevil (Coleoptera:  Curculionidae) Adults in Laboratory and Field Trials|J. Agric. Entomol.6(4): 265-274|1989|
154613|T||Joshi,K.C., and P.B. Meshram|Evaluation of Some Insecticides Against the Tendu Gall Insect, Trioza obsoleta Buckton (Homoptera: Psylidae)|Indian For.117(2): 143-146|1991|
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154633|T||Nag,A., and P. Nath|Insecticidal Control of Greasy Cutworm (Agrotis ipsilon) Infesting Gram (Cicer arietinum)|Indian J. Agric. Sci.63(4): 248-250|1993|
154634|T||Abdallah,S.A.|Efficacy of Certain Synthetic Pyrethroids, Bacillus thuringiensis and Their Combination on the Egyptian Cotton Leafworm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt13:145-156|1982|
154635|T||Sekhar,P.R., N.V. Rao, and M. Venkataiah|Resistance to Insecticides in the Cotton Bollworm, Helicoverpa armigera Hubner from Cotton-Growing Regions of Andhra Pradesh, India|Insect Sci. Appl.15(4/5): 507-511|1994|
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154641|T||Noppun,V., T. Saito, and T. Miyata|Cuticular Penetration of S-Fenvalerate in Fenvalerate-Resistant and Susceptible Strains of the Diamondback Moth, Plutella xylostella (L.)|Pestic. Biochem. Physiol.33(1): 83-87|1989|10.1016/0048-3575(89)90079-5
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154647|T||Saini,R.K., N.P. Chopra, and A.N. Verma|Development of Insecticide Resistance and Cross-Resistance in Fenvalerate-, and Cypermethrin-Selected Strains of Earias vittella (Fab.)|Pestic. Sci.25(3): 289-295|1989|10.1002/ps.2780250309
154648|A||Spehar,R.L.|Aquatic Toxicity Test Information on Thallium with Amphipods and Daphnids|October 17 Memo to L.Brooke, Lake Superior Environmental Studies, Superior, WI:6 p.|1989|
154649|A||Kadar,E., S. Dashfield, and T.H. Hutchinson|Developmental Toxicity of Benzotriazole in the Protochordate Ciona intestinalis (Chordata, Ascidiae)|Anal. Bioanal. Chem.396(2): 641-647|2010|10.1007/s00216-009-3293-8
154650|T||Satpute,U.S., D.N. Sarnaik, B.S. Rajurkar, and P.D. Bhalerao|Efficacy and Economics of Fenvalerate 20 EC in Combination with Carbaryl 50 WP Against Bollworms of Cotton|PKV Res. J.10(1): 38-40|1986|
154652|T||Singh,H., J. Singh, and H.S. Mann|Comparative Performance of EC and LVC Formulations of Fenvalerate (Fenval) for the Control of Bollworms on Cotton|J. Res. Punjab Agric. Univ.27(1): 57-64|1990|
154653|T||Singh,K.J., and O.P. Singh|Residual Toxicity of Some New Insecticides Against Grey Weevil, Myllocerus undecimpustulatus Faust on Soybean|J. Insect Sci.5(1): 99-100|1992|
154654|T||Thakur,N.S.A.|Management of Cabbage Butterfly, Pieris brassicae (Linnaeus) in Meghalaya|In: S.C.Goel (Ed.), Integrated Pest Management and Sustainable Agriculture: An Entomological Approach: Proceedings of the National Symposium on IPM & Sustainable Agriculture, Uttar Pradesh Zoological Society, Muzaffarnagar, India:183-186|1996|
154655|T||Abdel-Megeed,M.I., M.S. El-Zemaity, S.A. El-Refai, A.A. Zidan, and N.M. Hussein|The Ovicidal Action of Certain Insecticides and Their Combinations with Mineral Oils Against Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt14:321-328|1984|
154656|T||Yao,M.C., C.F. Hung, and C.N. Sun|Fenvalerate Resistance and Aldrin Epoxidation in Larvae of the Diamondback Moth|Pestic. Biochem. Physiol.30(3): 272-278|1988|10.1016/0048-3575(88)90041-7
154657|T||Pal,R., and S.K. Handa|Persistence of Fenvalerate on Soybean|Indian J. Plant Prot.17(2): 189-192|1989|
154658|T||Helal H., and Y. El-Sebay|Control Studies on Eucalyptus Borer Phoracantha semipunctata Fab. in Egypt|Bull. Entomol. Soc. Egypt14:305-310|1984|
154659|T||Singh,J., J.S. Gill, and J. Singh|Ovicidal Effect of Insecticides on Eggs of Gram Podborer (Helicoverpa armigera) and Spotted Bollworm (Earias vitella)|Indian J. Agric. Sci.63(12): 853-855|1993|
154660|T||Helal,H., and Y. El-Sebay|Evaluation of Certain Insecticides Against Powder-Post Beetles Lyctus africanus Lesne. in Egypt (Coleoptera, Lyctidae)|Bull. Entomol. Soc. Egypt14:295-304|1984|
154661|T||Kandil,M.A., H.S.M. Fahmy, and M.M. Rabei|Studies on the Mechanism of Resistance to Pyrethroids in the Cotton Leafworm Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt14:107-112|1984|
154662|T||Baruah,A.A.L.H., and R. Chauhan|Relative Toxicity of Three Synthetic Pyrethroids and Endosulfan to Susceptible Strain of Helicoverpa armigera (Hubner) from Hissar (India)|J. Entomol. Res.20(1): 89-91|1996|
154663|T||Chawla,R.P., and B.S. Joia|Toxicity of Some Synthetic Pyrethroids Against Plutella xylostella (L.) and Development of Insecticide Resistance in the Pest|Indian J. Ecol.18(2): 134-138|1991|
154664|T||Helal,H., and Y. El-Sebay|Contribution on the Wood Borers Attacking Date Palm Trees and Its Control in Egypt|Egypt. J. Hortic.21(1): 25-46|1994|
154665|T||Edelson,J.V., and W.D. Woodson|Biology and Control of a Carrot Weevil in the Lower Rio Grande Valley, Texas|J. Rio Grande Val. Hortic. Soc.39:79-82|1986|
154666|T||Sahu,H.R., S.K. Parsai, and R.K. Choudhary|Bioefficacy and Economics of Certain Insecticides Against Pod Infesting Pests of Pigeonpea Cajanus cajan (L.) Millsp.|Indian J. Plant Prot.19(1): 37-41|1991|
154667|T||Peter,C.|Relative Susceptibility of Helicoverpa armigera from Two Locations to Certain Insecticides|Indian J. Plant Prot.22(1): 38-40|1994|
154668|T||Ascher,K.R.S., M. Eliyahu, I. Ishaaya, M. Zur, and E. Ben-Moshe|Synergism of Pyrethroid-Organophosphorus Insecticide Mixtures in Insects and Their Toxicity Against Spodoptera littoralis Larvae|Phytoparasitica14(2): 101-110|1986|10.1007/BF02980896
154670|T||Jaglan,R.S., and P. Sircar|Role of Solvent and Emulsifier Mixture in Designing the Toxicity of Fenvalerate Emulsion Against Larvae of Spodoptera litura (Fab.)|Ann. Agri Bio Res.8(1): 51-54|2003|
154671|T||Al-Doghairi,M., W. Cranshaw, D.C. Sclar, D. Gerace, and A. Tupy|Flea Beetle Control in Broccoli, 1996 |Arthropod Manag. Tests22:86-|1997|10.1093/amt/22.1.86
154672|T||Altre,J., E. Grafius, J. Sirota, E. Eliason, and B. Scriber|Colorado Potato Beetle Control with Biorationals, 1993|Arthropod Manag. Tests19:108-109|1994|10.1093/amt/19.1.108
154673|T||Beers,E.H., and R.W. Browne|First Generation White Apple Leafhopper Control, 1991|Arthropod Manag. Tests17:3-|1992|
154674|T||Boetel,M.A., B.W. Fuller, and R.J. Braun|Evaluation of the Fermentation Byproduct Spinosad and Conventional Insecticide Treatments for Controlling Sunflower Beetle Larvae, 1996|Arthropod Manag. Tests22:324-|1997|10.1093/amt/22.1.324
154675|T||Boetel,M.A., B.W. Fuller, and R.J. Braun|Pyrethroid Insecticides at Standard and Reduced Rates for Management of Sunflower Beetle Larvae, 1996 |Arthropod Manag. Tests22:323-|1997|10.1093/amt/22.1.323
154676|T||Boucher,J., R. Adams, F. Johnson, and R. Packauskas|Summer Squash: Hydrated Lime as an Insect Repellent, 1991|Insectic. Acaric. Tests18:167-168|1993|10.1093/iat/18.1.167a
154677|T||Boucher,J., R. Adams, F. Johnson, and R. Packauskas|Eggplant: Hydrated Lime as an Insect Repellent, 1991 |Insectic. Acaric. Tests18:131-|1993|10.1093/iat/18.1.131
154678|T||Hogmire,H.W.,Jr., T. Winfield, and R. Cheves|Lesser Peachtree Borer Control, 1990|Insectic. Acaric. Tests16:36-|1991|10.1093/iat/16.1.36
154679|T||Brunner,J.F., and L.O. Smith|Apple, Seasonal Control of Codling Moth, 1992|Insectic. Acaric. Tests18:9-|1993|10.1093/iat/18.1.9
154680|T||Brunner,J.F., and L.O. Smith|Apple, Control of the Pandemis Leafroller in String, 1991 |Insectic. Acaric. Tests18:12-13|1993|10.1093/iat/18.1.12
154681|T||Brunner,J.F., and L.O. Smith|Apple, Pandemis Leafroller Control in Summer, 1991|Insectic. Acaric. Tests18:13-14|1993|10.1093/iat/18.1.13
154682|T||Suchita,M.G., G.P.V. Reddy, and M.M.K. Murthy|Relative Efficacy of Pyrethroids Against Rice Weevil (Sitophilus oryzae L.) Infesting Stored Wheat|Indian J. Plant Prot.17(2): 243-246|1989|
154683|T||Singh,D.|Integrated Control of Helicoverpa armigera (Hub.) in Tomato Through Varietal and Chemical Measures|J. Insect Sci.6(2): 207-209|1993|
154684|T||Brust,G.E.|Interaction of Mulch and Bacillus thuringiensis subsp. tenebrionis on Colorado Potato Beetle (Coleoptera: Chrysomelidae) Populations and Damage in Potato|J. Econ. Entomol.89(2): 467-474|1996|10.1093/jee/89.2.467
154685|T||Laub,C.A., and R.R. Youngman|Threshold Control of Armyworm on No-Till Field Corn, 1992|Insectic. Acaric. Tests18:204-205|1993|10.1093/iat/18.1.204a
154686|T||Lawson,D.S., W.H. Reissig, and C.M. Smith|Response of Larval and Adult Obliquebanded Leafroller (Lepidoptera: Tortricidae) to Selected Insecticides|J. Econ. Entomol.90(6): 1450-1457|1997|10.1093/jee/90.6.1450
154687|T||Linduska,J.J., M. Ross, D. Baumann, C. Cain, and M. Boltz|Colorado Potato Beetle Control on Potatoes with Foliar Insecticide Sprays, 1996 |Arthropod Manag. Tests22:153-|1997|10.1093/amt/22.1.153
154688|T||Longtine,C.A., E.B. Radcliffe, and D.W. Ragsdale|Control of Colorado Potato Beetle, 1996A|Arthropod Manag. Tests22:154-155|1997|10.1093/amt/22.1.154a
154689|T||Longtine,C.A., E.B. Radcliffe, and D.W. Ragsdale|Control of Colorado Potato Beetle, 1997B|Arthropod Manag. Tests23:128-|1998|10.1093/amt/23.1.128
154690|T||Longtine,C.A., D.W. Ragsdale, and E.B. Radcliffe|Control of Colorado Potato Beetle, 1997A|Arthropod Manag. Tests23:127-|1998|
154691|T||Mau,R.F.L., and L.R. Gusukuma-Minuto|Control of Corn Ear Worm on Corn, 1998|Arthropod Manag. Tests24:128-|1999|
154692|T||Sharma,P.D.|Relative Efficacy of Different Insecticides for the Control of Cotton Bollworms|J. Insect Sci.6(1): 152-153|1993|
154693|T||McCullough,D.G., R.A. Haack, and W.H. McLane|Control of Tomicus piniperda (Coleoptera: Scolytidae) in Pine Stumps and Logs|J. Econ. Entomol.91(2): 492-499|1998|10.1093/jee/91.2.492
154694|T||Pasupathy,S., and A. Regupathy|Synthetic Pyrethroids - Induced Resurgence of Aphis gossypii Glov. on Cotton - Effect of Dose and Frequency of Application|J. Insect Sci.5(1): 40-44|1992|
154695|T||McLeod,P.|Evaluation of Insecticides for Control or Corn Earworm on Snap Bean, 1997|Arthropod Manag. Tests23:75-|1998|10.1093/amt/23.1.75
154696|T||El-Shahawy,M.I., J.P. Chaudhary, and P.D. Sharma|Effect of Different Insecticides and Spray Intervals on the Population of Major Sucking Insect Pests of Cotton|J. Insect Sci.4(2): 148-150|1991|
154697|T||Mulder,P.G.Jr., and D.J. Prescott|Effect of Insecticides on Caterpillar and Beneficial Arthropod Populations and Peanut Yield, 1997|Arthropod Manag. Tests24:266-|1999|
154698|T||Nault,B.A., and J. Speese III|Evaluation of Foliar Materials to Control Lepidopterous Larvae on Sweet Corn, 1997|Arthropod Manag. Tests23:97|1998|10.1093/amt/23.1.97
154699|T||Kakar,K.L.|Chemical Control of Painted Bug, Bagrada hilaris (Burm.) Infesting Cauliflower Seed Crop Under Mid-Hill Conditions|J. Insect Sci.4(1): 105-106|1991|
154700|T||Singh,G., G.S. Grewal, and R.S. Prihar|Chemical Control of Sesame Leaf Webber and Capsule Borer, Antigastra catalaunalis (Dup.) on Sesame in Punjab|J. Insect Sci.4(2): 197-199|1991|
154701|T||Nault,B.A., and J. Speese III|Evaluation of Insecticides to Control Lepidopterous Pests on Cabbage, 1997 |Arthropod Manag. Tests23:80-81|1998|10.1093/amt/23.1.80
154702|T||Noetzel,D.M., J. Miller, and B. Holder|Fury Dosage Trial for Colorado Potato Beetle Control, 1993|Arthropod Manag. Tests19:118|1994|10.1093/amt/19.1.118
154703|T||Brar,J.S., and B. Singh|Efficacy of Insecticides Against Diamond Back Moth, Plutella xylostella (L.) on Cauliflower|J. Insect Sci.5(1): 51-53|1992|
154704|T||Miyo,T., C.B.O. Keil, J.A. Hough-Goldstein, and Y. Oguma|Inheritance of Resistance to Esfenvalerate in Colorado Potato Beetles (Coleoptera: Chrysomelidae)|J. Econ. Entomol.92(5): 1031-1038|1999|10.1093/jee/92.5.1031
154705|T||Brar,J.S., J.S. Bhalla, and H. Singh|Chemical Control of Leucinodes orbonalis Guen. in Brinjal|J. Insect Sci.5(2): 225-226|1992|
154707|T||Noetzel,D., and C. Watrin|Biological and Synthetic Insecticide Combinations for Control of Resistant Colorado Potato Beetle, Big Lake, MN, 1992 |Insectic. Acaric. Tests18:149-150|1993|10.1093/iat/18.1.149
154708|T||Sharma,J.P., and R.A. Agarwal|Effect of Insecticidal Application on the Fibre Quality, Seed-Cotton and Carry Over of Pectinophora gossypiella (Saund.)|J. Insect Sci.5(2): 153-156|1992|
154709|T||Noetzel,D., and J. Miller|Control of Resistant Colorado Potato Beetle; Regent Dosage Study, Big Lake, MN, 1993|Arthropod Manag. Tests19:116-|1994|10.1093/amt/19.1.116
154710|T||Yadav,G.S., T.S. Kathpal, P.D. Sharma, and G. Singh|Relative Efficacy of Synthetic Pyrethroids Against Bollworm Pests of Cotton and Their Residues in Cotton Seed|J. Insect Sci.6(1): 92-96|1993|
154711|T||Noetzel,D.M., and M. Kasowski|Sunflower Beetle Larval Control, Nielsville, MN, 1994 |Arthropod Manag. Tests21:301|1996|10.1093/amt/21.1.301
154712|T||Noetzel,D.M.|Furadan 4F Soil Treatment vs Asana XL 0.66E for Season-Long Sunflower Beetle Control, Valley City, ND, 1995|Arthropod Manag. Tests21:300-301|1996|10.1093/amt/21.1.300
154713|T||Khurana,A.D.|Efficacy of Some Insecticidal Dusts Against Gram Pod Borer, Helicoverpa armigera (Hub.) on Chickpea|J. Insect Sci.9(2): 191-192|1996|
154714|T||Noetzel,D.M., and C. Holen|Sunflower Beetle Larval Control, Nekoma, ND, 1994 |Arthropod Manag. Tests21:299-300|1996|
154715|T||Noetzel,D.M., and H. Person|Adult Sunflower Beetle Control, Thief River Falls, MN, 1995|Arthropod Manag. Tests21:299-|1996|
154716|T||Noetzel,D.M., and C. Holen|Sunflower Beetle Larval Control, Langdon, ND, 1994 |Arthropod Manag. Tests21:298-299|1996|
154717|T||Andersen,D.C., and S.M. Nelson|Effects of Cottonwood Leaf Beetle Chrysomela scripta (Coleoptera: Chrysomelidae) on Survival and Growth of Fremont Cottonwood (Populus fremontii) in Northwest Colorado|Am. Midl. Nat.147(2): 189-203|2002|10.1674/0003-0031(2002)147[0189:EOCLBC]2.0.CO;2
154718|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Fall Armyworm and Bollworm on Cotton in Southern North Carolina, 1992|Insectic. Acaric. Tests18:218-|1993|10.1093/iat/18.1.218
154719|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Pyrethroids Against Bollworms Under a Traditional and Extended Spray Interval Spray Approach in Southern North Carolina, 1991|Insectic. Acaric. Tests18:217-218|1993|10.1093/iat/18.1.217
154720|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Pyrethroids Against all Armyworm and Bollworm in Southern North Carolina, 1990|Insectic. Acaric. Tests18:216-217|1993|
154721|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Pyrethroids and Pyrethroid-Ovicide Combinations Against Bollworm and European Corn Borer in Southern North Carolina, 1989 |Insectic. Acaric. Tests18:216-|1993|
154722|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Bollworms and Fall Armyworms in Southern North Carolina, 1995|Arthropod Manag. Tests21:238-|1996|10.1093/amt/21.1.238
154723|T||Barrigossi,J.A.F., G.L. Hein, and L.G. Higley|Economic Injury Levels and Sequential Sampling Plans for Mexican Bean Beetle (Coleoptera: Coccinellidae) on Dry Beans|J. Econ. Entomol.96(4): 1160-1167|2003|10.1093/jee/96.4.1160
154724|T||Kain,D.P., and A.M. Agnello|Peach, Control of American Plum Borer and Sesiid Borers with Chemical Insecticides and an Entomopathogenic Nematode, 1995|Arthropod Manag. Tests21:54-55|1996|10.1093/amt/21.1.54a
154725|T||Collins,J.A., and F.A. Drummond|Fireworm Control, 1996|Arthropod Manag. Tests22:51-|1997|10.1093/amt/22.1.51
154726|T||Connelly,M.S., A. Lagnaoui, and E.B. Radcliffe|Control of Colorado Potato Beetle with Natural Product Insecticides, 1991|Arthropod Manag. Tests17:125-|1992|
154727|T||Cranshaw,W., and F. Schweissing|Effect of Treatment Timing on Control of Larval Striped Cucumber Beetle Injury to Cantaloupe Fruit, 1996|Arthropod Manag. Tests22:114-|1997|10.1093/amt/22.1.114
154728|T||Day,M.L., H.W. Hogmire, and T. Winfield|Rose Leafhopper Control, 1992|Insectic. Acaric. Tests18:15-16|1993|10.1093/iat/18.1.15a
154729|T||Dick,G.L., P.E. Sloderbeck, and S.C. Posler|Corn Borer Insecticide Efficacy Trial, 1990|Insectic. Acaric. Tests16:151-152|1991|10.1093/iat/16.1.151
154730|T||Herbert,D.A.,Jr.|Selected Pyrethroid and Non-Pyrethroid Insecticides for Control of Cotton Bollworm on Cotton, 1997 |Arthropod Manag. Tests23:232-233|1998|10.1093/amt/23.1.232
154731|T||Fuller,B.W., M.A. Boetel, and P.E. Rensner|Army Cutworm Control in Spring Wheat, 1990|Insectic. Acaric. Tests16:239-|1991|
154732|T||Fuller,B.W., M.A. Boetel, and M.J. McLeod|Rescue Treatments for Army Cutworm Control in Winter Wheat, 1992 |Insectic. Acaric. Tests18:294|1993|10.1093/iat/18.1.294
154733|T||Gore,J., S. Russell, K.D. Torrey, and B.R. Leonard|Efficacy of Steward and Selected Insecticides to Bollworm and Tobacco Budworm Larvae in Cotton, 1998|Arthropod Manag. Tests24:245-|1999|
154734|T||Hargreaves,J.R., L.P. Cooper, and R. Bull|Caterpillar Control in Cabbages, Summer 1995|Arthropod Manag. Tests21:90-91|1996|10.1093/amt/21.1.90
154735|T||Heller,P.R., and R. Walker|Spring Control of Pales Weevil on Fresh Cut Scotch Pine Stumps with Conventional Formulations in Indiana, Pennsylvania, 1991|Arthropod Manag. Tests17:365-366|1992|
154736|T||Hawthorne,D.J.|Quantitative Trait Locus Mapping of Pyrethroid Resistance in Colorado Potato Beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae)|J. Econ. Entomol.96(4): 1021-1030|2003|10.1603/0022-0493-96.4.1021
154737|T||Herbert,D.A.,Jr., and D.L. Holshouser|Evaluation of Dimilin and Boron on Soybean in Virginia, 1997 |Arthropod Manag. Tests23:282-|1998|10.1093/amt/23.1.282
154738|T||Johnson,J.W., and J.C. Wise|Pear, Broad Spectrum Control of Insects, 1991|Arthropod Manag. Tests17:55-|1992|
154739|T||Kain,D.P., and A.M. Agnello|Tart Cherry, Control of American Plum Borer and Sesiid Borers with Chemical Insecticides and an Entomopathogenic Nematode, 1995 |Arthropod Manag. Tests21:51-|1996|10.1093/amt/21.1.51
154740|T||Karner,M., L.D. Smith, and J. Goodson|Army Cutworm Control, 1990|Insectic. Acaric. Tests16:133-|1991|10.1093/iat/16.1.133
154741|T||Lagnaoui,A., E.B. Radcliffe, J.R. Vaadeland, and A.E. Watland|Evaluation of a Biological and a Botanical Insecticide for Colorado Potato Beetle Control, Rosemount, 1990 |Insectic. Acaric. Tests16:93-94|1991|10.1093/iat/16.1.93
154742|T||Subbarayudu,B.|Economics of Certain Synthetic Pyrethroids for Controlling Helicoverpa armigera (Hubner) on Chickpea|J. Insect Sci.10(1): 89-90|1997|
154743|T||Johnson,J.W., and J.C. Wise|Grape, Season-Long Control of Grape Berry Moth, 1990|Arthropod Manag. Tests17:62-63|1992|
154744|T||Johnson,J.W., and J.C. Wise|Peach, Season-Long Insect Control, 1990 |Arthropod Manag. Tests17:58-59|1992|
154745|T||Cheng,H.H., and R.C. Roy|Field Evaluation of Insecticides for Suppression of Potato Leafhopper (Homoptera: Cicadellidae) on Peanuts in Ontario|Peanut Sci.12(1): 1-3|1985|10.3146/pnut.12.1.0001
154746|T||Noetzel,D.M.|Sunflower Beetle Control with Low Dosages of Asana XL and Karate, Downer, MN, 1994 |Arthropod Manag. Tests21:298|1996|
154747|T||Noetzel,D.M., J. Miller, and C. Holen|Colorado Potato Beetle Control; Asana Wettable Powder Efficacy Trial, Grand Forks, ND, 1994 |Arthropod Manag. Tests21:152-|1996|10.1093/amt/21.1.152
154748|T||Noetzel,D.M., and J. Miller|Control of Resistant Colorado Potato Beetles, Andover, MN, 1994|Arthropod Manag. Tests21:147-|1996|
154749|T||Noetzel,D.M., and J. Miller|Control of Resistant Colorado Potato Beetle, Big Lake, MN, 1995 |Arthropod Manag. Tests21:146-|1996|10.1093/amt/21.1.146
154750|T||Ostheimer,E.A., L.M. Rodriguez, A.E. Woolwine, H.P.,Jr. Schexnayder, and T.E. Reagan|Insecticidal Control of the Sugarcane Borer-Small-Plot Test, 1997|Arthropod Manag. Tests23:286-|1998|10.1093/amt/23.1.286
154751|T||Rodriguez,L.M., A.E. Woolwine, E.A. Ostheimer, H.P.,Jr. Schexnayder, T.E. Reagan, and W.H. White|Insecticidal Control of the Sugarcane Borer-Aerial Application Test, 1997 |Arthropod Manag. Tests23:287|1998|
154752|T||Palmer,C.R., and J.F. Walgenbach|Control of Lepidopterous Pests on Cabbage|Insectic. Acaric. Tests17:85-86|1992|10.1093/iat/17.1.85a
154753|T||Palmer,C.R., and J.F. Walgenbach|Reduced-Rate Combinations of Pyrethroids & MVP on Staked Tomatoes, 1991|Arthropod Manag. Tests17:157-158|1992|
154754|T||Palmer,C.R., and J.F. Walgenbach|Insect Control on Staked Tomatoes, 1991|Arthropod Manag. Tests17:154-155|1992|
154755|T||Palmer,C.R., and J.F. Walgenbach|Insect Control on Staked Tomatoes, 1995|Arthropod Manag. Tests21:183-184|1996|
154756|T||Polk,D.F.|Peach, Control of Peachtree Borers with Chemical Insecticides, 1996|Arthropod Manag. Tests22:48-|1997|10.1093/amt/22.1.48
154757|T||Singh,G., K.S. Brar, and I. Singh|Control of Bihar Hairy Caterpillar, Spilosoma obliqua Walker on Sesame|J. Insect Sci.9(2): 150-152|1996|
154758|T||Mehta,P.K., D.N. Vaidya, and N.P. Kashyap|Efficacy and Economics of Some Insecticides Against Pea Leaf Miner, Chromatomyia horticola (Goureau) on Pea|J. Insect Sci.8(1): 116-117|1995|
154759|T||Sodhi,R.S., and S.S. Sekhon|Chemical Control of Maize Jassid, Zyginidia manaliensis (Singh) on Winter Maize in Punjab|J. Insect Sci.7(2): 226-227|1994|
154760|T||Singla,M.L., and M.S. Duhra|Efficacy of Some Insecticides for the Control of Stalk Borer, Chilo auricilius Ddgn. on Sugarcane|J. Insect Sci.5(1): 111-112|1992|
154761|T||Beamer,C.A., C.T. Migliaccio, F. Jessop, M. Trapkus, D. Yuan, and A. Holian|Innate Immune Processes are Sufficient for Driving Silicosis in Mice|J. Leukoc. Biol.88(3): 547-557|2010|10.1189/jlb.0210108
154762|A||Angioni,S.A., C. Giansante, and N. Ferri|The Clam (Chamelea gallina): Evaluation of the Effects of Solids Suspended in Seawater on Bivalve Molluscs|Vet. Ital.46(1): 101-106|2010|
154763|A||Smith,K.E.C., N. Dom, R. Blust, and P. Mayer|Controlling and Maintaining Exposure of Hydrophobic Organic Compounds in Aquatic Toxicity Tests by Passive Dosing|Aquat. Toxicol.98(1): 15-24|2010|10.1016/j.aquatox.2010.01.007
154764|T||Peter,C., and B.V. David|Residual Toxicity of Some Insecticides on Groundnut to the First and Third Instar Larvae of Spodoptera litura F. (Lepidoptera:  Noctuidae)|Trop. Pest Manag.34(1): 24-26|1988|10.1080/09670878809371199
154765|T||Prasad,V.D., C.T. Devi, K.R. Rao, and P.V. Krishnayya|Host Plant-Induced Response to Insecticides and Haemolymph Esterase Patterns in Spodoptera litura (Fabricius)|Entomon20(3/4): 245-248|1995|
154766|T||Qureshi,Z.A., N. Ahmed, and A.R. Bughio|Efficacy of Gossyplure for the Control of Pink Bollworm, Pectinophora gossypiella (Saund.) (Lep., Gelechiidae)|Z. Angew. Entomol. (Multiple Languages)100(5): 476-479|1985|10.1111/j.1439-0418.1985.tb02809.x
154767|T||Raman,R.V., R.H. Booth, and M. Palacios|Control of the Potato Tuber Moth, Phthorimaea operculella (Zeller), in Rural Potato Stores|In: S.K.Hahn and F.E.Caveness (Eds.), Workshop on the Global Status of and Prspects for Integrated Pest Management of Root and Tuber Crops in the Tropics, Oct.25-30, 1987, Ibadan, Nigeria, Int.Inst.of Trop.Agric., Ibadan, Nigeria:95-107|1990|
154768|T||Reddy,G.P.V., V.D. Prasad, P. Satyavani, and M.M.K. Murthy|Comparative Assessment of Pyrethroid-Resistance in Certain Populations of Heliothis armigera Hbn. in Andhra Pradesh|Entomon16(3): 233-235|1991|
154769|T||Sathiah,N., S. Jayaraj, and R.J. Rabindra|Laboratory Evaluation of Combined Efficacy of Nuclear Polyhedrosis Virus and Insecticides Against Heliothis armigera Larvae|Entomon15(1/2): 117-120|1990|
154770|T||Sontakke,B.K., and P.R. Mishra|Comparative Efficacy and Economics of Synthetic Pyrethroids in the Management of Pod Borer Complex of Pigeonpea|Indian J. Plant Prot.19(2): 167-170|1991|
154771|T||Tan,W., G. Liang, and Y. Guo|Resistance Alleviation in the Larval Cotton Bollworm to Fenvalerate After Pretreatment with Bacillus thuringiensis|Entomol. Sin.6(1): 53-61|1999|
154772|T||Heather,N.W.|Sex-Linked Resistance to Pyrethroids in Sitophilus oryzae (L.) (Coleoptera:  Curculionidae)|J. Stored Prod. Res.22(1): 15-20|1986|10.1016/0022-474X(86)90041-X
154773|T||Heim,D.C., G.G. Kennedy, F.L. Gould, and J.W. Van Duyn|Inheritance of Fenvalerate and Carbofuran Resistance in Colorado Beetles - Leptinotarsa decemlineata (Say), from North Carolina|Pestic. Sci.34(4): 303-311|1992|10.1002/ps.2780340402
154774|T||Luttrell,R.G., K. Knighten, W.F. Kitten, G.L. Andrews, F.A. Harris, and J. Reed|Monitoring Pyrethroid Resistance in the Tobacco Budworm in Mississippi:  Implications for Resistance Management|Southwest. Entomol.15:5-26|1991|
154775|T||Sukul,P., and S.K. Handa|Effect of Decontamination Processes on the Removal of Synthetic Pyrethroids from Green Gram Pods|Indian J. Plant Prot.16(2): 233-235|1988|
154776|T||Patel,B.K., N.B. Rote, N.P. Mehta, and A.H. Shah|Judicious Use of Fenvalerate Based on Economic Threshold Level of Bollworms in Hybrid-4 Cotton|Pesticides 20(2): 31-34|1986|
154777|T||Thakur,B.S., R. Verma, A. Patitunda, and R.R. Rawat|Chemical Control of Aphid, Aphis craccivora Koch. on Lentil|Indian J. Entomol.46(1): 103-105|1984|
154778|T||Daly,J.C., and J.H. Fisk|Inheritance of Metabolic Resistance to the Synthetic Pyrethroids in Australian Helicoverpa armigera (Lepidoptera:  Noctuidae)|Bull. Entomol. Res.82(1): 5-12|1992|10.1017/S0007485300051439
154779|T||Bry,R.E., R.A. Simonaitis, R.E. Boatright, and J.H. Lang|Mothproofing Studies with Fenvalerate|J. Entomol. Sci.20(1): 9-15|1985|10.18474/0749-8004-20.1.9
154780|T||Brar,K.S., G.C. Varma, B.S. Sekhon, and M. Shenhmar|Comparative Efficacy of Trichogramma achaeae Nagaraja and Nagarkatti and Insecticides for Control of Cotton Bollworms|J. Res. Punjab Agric. Univ.28(4): 511-514|1991|
154781|T||Venkataiah,M., G.V. Subbarathnam, and B. Rosaiah|Development of Resistance by Gram Pod Borer to Fenvalerate|Indian J. Plant Prot.18(2): 285-286|1990|
154782|T||Zidan,Z.H., I. Gaber, F.A. Mahmoud, and M. Hindy|Some Factors Influencing the Bio-Residual Efficacy of Aerial Application of Sumicidin Against the Cotton Leafworm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt12:171-178|1980|
154783|T||Zidan,Z.H., A.M.K. Sobeiha, and S. Tantawy|Laboratory Evaluation of Synthetic Pyrethroids, Dimilin and Their Combinations on Mortality and Biotic Potential of the Cotton Leafworm, Spodoptera littoralis (Boisd.)|Bull. Entomol. Soc. Egypt12:153-164|1980|
154784|T||Hassan,E., and S. Graham-Smith|Toxicity of Endosulfan, Esfenvalerate and Bacillus thuringiensis on Adult Microplitis demolitor Wilkinson and Trichogrammatoidea bactrae Nagaraja|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)102(4): 422-428|1995|
154785|T||Olson,D.L., J.R. Nechols, and B.W. Schurle|Comparative Evaluation of Population Effect and Economic Potential of Biological Suppression Tactics Versus Chemical Control for Squash Bug (Heteroptera: Coreidae) Management on Pumpkins|J. Econ. Entomol.89(3): 631-639|1996|10.1093/jee/89.3.631
154786|T||Baloch,A.A.|Effect of Different Temperatures on the Efficacy of Different Pesticides on Sitobion avenae and Its Predator Coccinella septempunctata|Sarhad J. Agric.9(4): 295-303|1993|
154787|T||Khan,S.M., M. Zaman, and K. Alam|Evaluation of Different Insecticides Against Thrips Tabaci on Onion|Sarhad J. Agric.11(1): 35-40|1995|
154788|T||Das,B.B.|Efficacy of Some Synthetic Pyrethroids and Conventional Insecticidal Spray Against Groundnut Pest Complex|Pesticides 22(1): 10-12|1988|
154789|T||Schalk,J.M., B.M. Shepard, and K.A. Stoner|Response of Caterpillar Pests and the Parasite Diadegma insulare to Collard Cultivars and a Pyrethrin Insecticide|Hortscience28(4): 308-310|1993|10.21273/HORTSCI.28.4.308
154790|T||Sayyed,A.H., and N. Crickmore|Selection of a Field Population of Diamondback Moth (Lepidoptera: Plutellidae) with Acetamiprid Maintains, but does not Increase, Cross-Resistance to Pyrethroids|J. Econ. Entomol.100(3): 932-938|2007|10.1093/jee/100.3.932
154791|T||Csizinszky,A.A., and D.J. Schuster|Impact of Insecticide Schedule, N and K Rates, and Transplant Container Size on Cabbage Yield|Hortscience28(4): 299-302|1993|10.21273/HORTSCI.28.4.299
154792|T||Rappaport,N.G., M.I. Haverty, P.J. Shea, and R.E. Sandquist|Efficacy of Esfenvalerate for Control of Insects Harmful to Seed Production in Disease-Resistant Western White Pines|Can. Entomol.126(1): 1-5|1994|10.4039/Ent1261-1
154793|A||Jagadeesan,Y., M. Merecy, and P. Subramanian|The Impact of Synthetic Pyrethroid-Fenvalerate on a Comestible Fresh Water Fish Catla catla|Biochem. Cell. Arch.10(1): 107-110|2010|
154794|T||Prostak,D.J.|Insecticidal and Biological Control of Ear-Infesting Insects in Sweet Corn, 1993|Arthropod Manag. Tests19:93-94|1994|10.1093/amt/19.1.93
154795|T||Palmer,C.R., and J.F. Walgenbach|Lepidopterous Larvae Control on Staked Tomatoes with Gemstar, 1995|Arthropod Manag. Tests21:183-|1996|
154796|T||Prostak,D.J.|Control of Ear-Infesting Insects in Sweet Corn with High Rates of Bacillus thuringiensis, 1993|Arthropod Manag. Tests19:94-95|1994|10.1093/amt/19.1.94
154797|T||Reissig,H., D.H. Dunham, and C. Smith|Control of Plum Curculio, 1991|Arthropod Manag. Tests17:42-43|1992|
154798|T||Reissig,H., D.H. Dunham, and C. Smith|Apple, Summer Control of Obliquebanded Leafroller, 1991 |Arthropod Manag. Tests17:40-42|1992|
154799|T||Reissig,H., D.H. Dunham, and C. Smith|Apple, Comparison of Insecticides Against OBLR, 1995|Arthropod Manag. Tests21:41-42|1996|10.1093/amt/21.1.41
154800|T||Reissig,H., M. Dunham, and C. Smith|Comparison of Insecticides Against OBLR on Apple, 1997 |Arthropod Manag. Tests23:28-31|1998|10.1093/amt/23.1.28
154801|T||Rodriguez,L.M., A.E. Woolwine, E.A. Ostheimer, T.E. Reagan, and W.H. White|Field Test of a Pathogenic Virus Against SCB, 1994 |Arthropod Manag. Tests20:255-|1995|10.1093/amt/20.1.255
154802|T||Rodriguez,L.M., A.E. Woolwine, E.A. Ostheimer, H.P. Schexnayder, and T.E. Reagan|Small Plot Assessment of Insecticides Against the Sugarcane Borer, 1995|Arthropod Manag. Tests21:296-297|1996|10.1093/amt/21.1.296
154803|T||Rodriguez,L.M., E.A. Ostheimer, A.E. Woolwine, H.P.,Jr. Schexnayder, T.E. Reagan, and W.H. White|Insecticidal Control of the Sugarcane Borer - Small-Plot Test, 1996|Arthropod Manag. Tests22:321-322|1997|
154804|T||Hoy,C.W., T.A. Koch, and T.T. Vaughn|Colorado Potato Beetle Control, 1989 |Insectic. Acaric. Tests16:91-92|1991|10.1093/iat/16.1.91
154806|T||Schexnayder,H.P., C.A. White, R.T. Bessin, and T.E. Reagan|Sugarcane Borer Control, 1990 |Insectic. Acaric. Tests16:233-|1991|10.1093/iat/16.1.233a
154807|T||Schexnayder,H.P., C.A. White, and T.E. Reagan|Sugarcane Borer Control, 1991|Arthropod Manag. Tests17:287-|1992|
154808|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Colorado Potato Beetle with EXP60434A (Fipronil), 1991 |Arthropod Manag. Tests19:121-|1994|10.1093/amt/19.1.121
154809|T||Sewell,G.H., and R.H. Storch|Control of Colorado Potato Beetle on Irish Potato, 1996 |Arthropod Manag. Tests23:132-|1998|
154810|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of European Corn Borer Larvae on Reproductive Stage Field Corn, 1994|Arthropod Manag. Tests21:228|1996|10.1093/amt/21.1.228
154811|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Insecticide Control of Western Corn Rootworm Beetles, 1995 |Arthropod Manag. Tests21:225-226|1996|10.1093/amt/21.1.225
154812|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Sunflower Moth, 1996 |Arthropod Manag. Tests22:325|1997|10.1093/amt/22.1.325
154813|T||Shamiyeh,N.B., E.E. Burgess, and C.J. Southards|Control of Alfalfa Weevil Larvae, 1995 |Arthropod Manag. Tests22:198-|1997|10.1093/amt/22.1.198a
154814|T||Shamiyeh,N.B., R.A. Follum, C.A. Mullins, and R.A. Straw|Control of Lepidopterous Pests on Cabbage, 1998|Arthropod Manag. Tests24:110-111|1999|
154815|T||Shelton,A.M., W.T. Wilsey, and S.D. Eigenbrode|Control of Diamondback Moth with MVP Bioinsecticides Compared to Standard Insecticides, 1990 |Insectic. Acaric. Tests16:63|1991|10.1093/iat/16.1.63
154817|T||Sirota,J.M., E. Grafius, M. Bommarito, E. Eliason, and B. Scriber|Colorado Potato Beetle Control, 1993 |Arthropod Manag. Tests19:123-125|1994|10.1093/amt/19.1.123
154818|T||Slocombe,A.C., and D.N. Ferro|Potato Insect Control, 1993 |Arthropod Manag. Tests19:128-|1994|10.1093/amt/19.1.128
154819|T||Slocombe,A.C., and D.N. Ferro|Potato Insect Control, 1992|Arthropod Manag. Tests19(1): 126-127|1994|10.1093/amt/19.1.127
154820|T||Slocombe,A.C., and D.N. Ferro|Potato Insect Control, 1991|Arthropod Manag. Tests19(1): 126-|1994|10.1093/amt/19.1.126
154821|T||Sorensen,K.A., and K.A. Kidd|Lepidopterous Larvae Control on Collards, 1989 |Insectic. Acaric. Tests16:71-72|1991|10.1093/iat/16.1.71a
154822|T||Sorensen,K.A., and K.A. Kidd|Colorado Potato Beetle Control with Biological and Synthetic Insecticides, Pasquotank County, 1989 |Insectic. Acaric. Tests16:106-107|1991|
154823|T||Sorensen,K.A., and K.A. Kidd|Colorado Potato Beetle Control, Currituck Country, 1989 |Insectic. Acaric. Tests16:107-108|1991|10.1093/iat/16.1.107
154824|T||Sorensen,K.A., and K.A. Kidd|Lepidopterous Larvae Control on Collards, 1990 |Arthropod Manag. Tests17:97-98|1992|
154825|T||Sorensen,K.A., and C.W. Holloway|Colorado Potato Beetle and European Corn Borer Control with Insecticides, 1996|Arthropod Manag. Tests22:159-|1997|10.1093/amt/22.1.159
154826|T||Sorensen,K.A., and C.W. Holloway|Control of Lepidopterous Larvae with Insecticides, 1998|Arthropod Manag. Tests24:123-124|1999|
154827|T||Speese III,J.|Use of Furadan 4F for Striped Cucumber Beetle Control in Yellow Squash, Spring, 1993 |Arthropod Manag. Tests19:144-145|1994|10.1093/amt/19.1.144a
154828|T||Speese III,J.|Use of Fipronil 80WG Foliar Sprays for Insect Control in Potatoes, Spring, 1993|Arthropod Manag. Tests19:136-137|1994|10.1093/amt/19.1.136
154829|T||Speese III,J.|Use of Neem-Based and Bacillus thuringiensis Foliar Sprays to Control Colorado Potato Beetle on Potatoes, 1993|Arthropod Manag. Tests19:133-134|1994|10.1093/amt/19.1.133
154830|T||Stoltz,R.L.|Colorado Potato Beetle Control with Foliar Sprays, 1990|Insectic. Acaric. Tests16:108-|1991|10.1093/iat/16.1.108
154831|T||Stoltz,R.L., and N.A. Matteson|Potato Insect Control with Foliar Sprays, 1995|Arthropod Manag. Tests21:166-168|1996|10.1093/amt/21.1.166a
154832|T||Stoltz,R.L., and N.A. Matteson|Colorado Potato Beetle Control with Foliar Sprays II, 1995|Arthropod Manag. Tests21:169-171|1996|10.1093/amt/21.1.169
154833|T||Stoltz,R.L., and N.A. Matteson|Western Bean Cutworm Control in Dry Beans with Foliar Sprays, 1996|Arthropod Manag. Tests22:85-|1997|10.1093/amt/22.1.85
154834|T||Straub,R.W., and P.J. Jentsch|Comparison of Asana and Guthion for Management of Plum Curculio Using Traditional Cover Sprays and an Oviposition Model, 1998|Arthropod Manag. Tests24:41-|1999|
154835|T||Stubbs,C.S., F.A. Drummond, and J.A. Collins|Effects of Asana  XL on Honey Bees and Alfalfa Leafcutting Bees, Pollinators of Lowbush Blueberry, 1998|Arthropod Manag. Tests24:69-|1999|10.1093/amt/24.1.C8
154836|T||Tanigoshi,L.K., and J.D. Chamberlain|Insecticide Efficacy for Root Weevil on Red Raspberry, 1997 |Arthropod Manag. Tests23(1): 55-56|1998|10.1093/amt/23.1.55a
154837|T||Teague,T.G.|Control of Cabbage Looper in Early Fall Collards Using Combinations of Javelin and Asana, 1991|Arthropod Manag. Tests17:100-|1992|
154838|T||Teague,T.G.|Rotations of Bacillus thuringiensis and Esfenvalerate for Control of Cabbage Looper in Fall Cabbage, 1991|Arthropod Manag. Tests17:89-90|1992|
154839|T||Teague,T.G.|Cabbage Looper Control with Esfenvalerate Tank Mixed with Urea Fertilizer, 1991 |Arthropod Manag. Tests17:99-|1992|
154840|T||Teague,T.G.|Rotations of Bacillus thuringiensis and Esfenvalerate for Control of Lepidopterous Pests in Spring Cabbage, 1991 |Arthropod Manag. Tests17:88-89|1992|
154841|T||Van Steenwyk,R.A., C.F. Fouche, J.A. Grant, and A.H. Purcell|Control of Mountain Leafhopper on Cherry, 1992|Insectic. Acaric. Tests18:65-|1993|10.1093/iat/18.1.65
154842|T||Van Steenwyk,R.A., R.M. Nomoto, and C.A. Ingels|Codling Moth Control in Sacramento Delta Pears, 1998|Arthropod Manag. Tests24:55-57|1999|
154843|T||Walgenbach,J.F., and C.R. Palmer|Control of Lepidopterous Pests on Cabbage |Insectic. Acaric. Tests18:115-|1993|10.1093/iat/18.1.115
154844|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomatoes, 1996 |Arthropod Manag. Tests22:190-|1997|10.1093/amt/22.1.190
154845|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomatoes, 1997 |Arthropod Manag. Tests23:166-167|1998|10.1093/amt/23.1.166
154846|T||Walgenbach,J.F., and C.R. Palmer|Control of Lepidopterous Insects on Cabbage, 1997 |Arthropod Manag. Tests23:88-89|1998|10.1093/amt/23.1.88
154849|T||White,C.A., H.P. Schexnayder, and T.E. Reagan|Aerial Application Control of the Sugarcane Borer, 1991|Arthropod Manag. Tests17:287-288|1992|
154850|T||Williams,R.N., M.A. Ellis, and D.S. Fickle|Chemical Evaluations for Control of Japanese Beetle and Grape Berry Moth on Grapes, 1990|Insectic. Acaric. Tests16:40-|1991|10.1093/iat/16.1.40
154851|T||Winters,S., and B. Cartwright|Control of Corn Earworm on Sweet Corn, 1991|Arthropod Manag. Tests17:112-113|1992|
154852|T||Winters,S., and B. Cartwright|Control of Lepidopterous Pests on Broccoli, Fall, 1991|Arthropod Manag. Tests17:80-81|1992|
154854|T||Younis,A.M., L.M. Rodriguez, J.M. Skias, and T.E. Reagan|Effects on Non-Target Arthropods from Sugarcane Borer Control Large Plot Field Trial, 1992|Insectic. Acaric. Tests18:280-|1993|10.1093/iat/18.1.280
154855|T||Pavlista,A.D.|Soil and Foliar Insecticides on Colorado Potato Beetles and Defoliation in Potato, 1995|Arthropod Manag. Tests21:156-|1996|10.1093/amt/21.1.156
154856|T||Marutani,M., and R. Muniappan|Control of Cutworm on Head Cabbage, 1990|Insectic. Acaric. Tests16:61-|1991|10.1093/iat/16.1.61
154857|T||Muckenfuss,A.E., and B.M. Shepard|Seasonal Abundance and Response of Diamondback Moth, Plutella xylostella (L.) (Lepidoptera: Plutellidae), and Natural Enemies to Esfenvalerate and Bacillus thuringiensis subsp. kurstaki Berliner in Coastal South Carolin|J. Agric. Entomol.11(4): 361-373|1994|
154858|A||Garrido-Perez,M.C., J.A. Perales-VargasMachuca, E. Nebot-Sanz, and D. Sales-Marquez|Effect of the Test Media and Toxicity of LAS on the Growth of Isochrysis galbana|Ecotoxicology17(8): 738-746|2008|10.1007/s10646-008-0223-z
154859|T||Prosch,S.D., and J.B. Weber|Interaction of Dinitroaniline and Acetanilide Herbicides in Controlling Ivyleaf Morningglory|Proc. South. Weed Sci. Soc.35:352-357|1982|
154860|A||Black,M.C.|Water Quality Standards for North Carolina's Endangered Mussels|Final Report (Revised), Department of Environmental Health Science, University of Georgia, Athens, GA:26 p.|2003|
154861|T||Awasthi,M.D.|Persistence Pattern and Safety Evaluation of Synthetic Pyrethroids on Grapes|Indian J. Agric. Sci.56(5): 378-381|1986|
154862|T||Patel,P.S., P.G. Shah, B.K. Patel, and J.R. Patel|Residues of Fenvalerate in Pigeon Pea (Cajanus cajan (L.) Millsp.)|J. Food Sci. Technol.27(5): 317-318|1990|
154863|T||Yoshida,T., and S. Fuchs|Blocking Reproduction in Varroa jacobsoni Oud. by Feeding Clofentezin with Pollen to Its Host Apis mellifera L.|J. Appl. Entomol.:519-526|1989|10.1111/j.1439-0418.1989.tb00486.x
154865|T||Jansen,J.P., T. Defrance, and A.M. Warnier|Effects of Organic-Farming-Compatible Insecticides on Four Aphid Natural Enemy Species|Pest Manag. Sci.66(6): 650-656|2010|10.1002/ps.1924
154866|T||Palmer,A.K., M.A. Readshaw, and A.M. Neuff|Assessment of the Teratogenic Potential of Surfactants. Part III - Dermal Application of LAS and Soap|Toxicology4(2): 171-181|1975|10.1016/0300-483X(75)90096-7
154867|T||Prottey,C., and P.J. Hartop|Changes in Glycerolipid Metabolism in Rat Epidermis Following Exaggerated Washing with Soap Solutions|J. Invest. Dermatol.61(3): 168-179|1973|10.1111/1523-1747.ep12676222
154868|T||Urbaneja,A., S. Pascual-Ruiz, T. Pina, R. Abad-Moyano, P. Vanaclocha, H. Monton, O. Dembilio, P. Castanera, and J.A. Ja|Efficacy of Five Selected Acaricides Against Tetranychus urticae (Acari: Tetranychidae) and Their Side Effects on Relevant Natural Enemies Occurring in Citrus Orchards|Pest Manag. Sci.64(8): 834-842|2008|10.1002/ps.1572
154869|T||Gandhale,D.N., A.S. Patil, B.G. Awate, and L.M. Naik|Effective Control of Earias sp. on Bhendi with Synthetic Pyrethroids|Pesticides 21(1): 44-45|1987|
154870|T||Mohan,N.J.|Evaluation of New Insecticides for the Control of Cabbage Pests|Pesticides 21(1): 49-54|1987|
154871|T||Prasad,M.S.R.K., and G.C. Sachan|Toxicity of Some Synthetic Pyrethroids by Three Methods of Application Against Diacrisia obliqua (Walker)|Pesticides 19(12): 50-53|1985|
154872|T||Ramzan,M., R.P. Chawla, and B.S. Chahal|Efficacy of Pre-Harvest Application of Some Insecticides on Wheat for Post-Harvest Protection Against Storage-Pests|Pesticides 20(7): 50-51|1986|
154873|T||Barnes,F.W., W.F. Seip, and C.C. Burch|Proliferation and Resistance of Epidermis in Response to Harmful Stimuli|Proc. Soc. Exp. Biol. Med.129(2): 584-593|1968|10.3181/00379727-129-33376
154875|T||Gershbein,L.L., and J.E. McDonald|Evaluation of the Corneal Irritancy of Test Shampoos and Detergents in Various Animal Species|Food Cosmet. Toxicol.15(2): 131-134|1977|10.1016/S0015-6264(77)80318-0
154876|T||Jones,M.M., J.L. Robertson, and R.A. Weinzierl|Susceptibility of Oriental Fruit Moth (Lepidoptera: Tortricidae) Larvae to Selected Reduced-Risk Insecticides|J. Econ. Entomol.103(5): 1815-1820|2010|10.1603/EC10029
154877|A||Saroglia,M.G., R. Ambrogi, and G. Scarano|Water Treatment for Fouling Prevention.  Residual Toxicity of an Organo-tin Compound Towards Marine Organisms|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)1163:164-170|1982|
154878|T||Herron,G.A., S.E. Learmonth, J. Rophail, and I. Barchia|Clofentezine and Fenbutatin Oxide Resistance in the Two-Spotted Spider Mite, Tetranychus urticae Koch (Acari:  Tetranychidae) from Deciduous Fruit Tree Orchards in Western Australia|Exp. Appl. Acarol.21(3): 163-169|1997|10.1023/A:1018434618919
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154880|T||Kaneko,H., T. Izumi, Y. Ueda, M. Matsuo, and J. Miyamoto|Metabolism and Placental Transfer of Stereoisomers of Tetramethrin Isomers in Pregnant Rats|J. Pestic. Sci. (Multiple Languages)9(2): 249-258|1984|10.1584/jpestics.9.249
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154885|T||Ishii,Y., Y. Samejima, F. Saji, and T. Nomura|Effect of Alcohol Sulfate, Linear Alkylbenzene Sulfonate and Natural Soap on the Development of Fertilized Eggs of the Mouse In Vitro|Mutat. Res.242(2): 151-155|1990|10.1016/0165-1218(90)90041-Y
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154889|T||Senem-Su,Y., L. Ozturk, I. Cakmak, and H. Budak|Turfgrass Species Response Exposed to Increasing Rates of Glyphosate Application|Eur. J. Agron.31(3): 120-125|2009|10.1016/j.eja.2009.05.011
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154892|T||Hanin,O., B. Rubin, S.W. Applebaum, and A. Rafaeli|Structure-Activity Relationships of Pheromonostasis Induced by ACCase-Inhibitor Herbicides in the Moth Helicoverpa armigera|Pestic. Biochem. Physiol.91(3): 153-159|2008|10.1016/j.pestbp.2008.03.007
154894|T||Schumacher,C.E., and H.M. Hatterman-Valenti|Effect of Dose and Spray Volume on Early-Season Broadleaved Weed Control in Allium Using Herbicides|Crop Prot.26(8): 1178-1185|2007|10.1016/j.cropro.2006.10.014
154895|T||Wilson,G.C., N. Soltani, F.J. Tardif, C.J. Swanton, and P.H. Sikkema|Control of Volunteer Cereals with Post-Emergence Herbicides in Maize (Zea mays L.)|Crop Prot.29(12): 1389-1395|2010|10.1016/j.cropro.2010.07.020
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154898|T||All,J.N., M. Ali, E.P. Hornyak, and J.B. Weaver|Joint Action of Two Pyrethroids with Methyl-Parathion, Methomyl, and Chlorpyrifos on Heliothis zea and H. virescens in the Laboratory and in Cotton and Sweetcorn|J. Econ. Entomol.70(6): 813-817|1977|10.1093/jee/70.6.813
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154900|T||Bellows,T.S.,Jr., J.G. Morse, and L.K. Gaston|Residual Toxicity of Pesticides Used for Control of Lepidopteran Insects in Citrus to the Predaceous Mite Euseius stipulatus Athias-Henriot (Acarina, Phytoseiidae)|J. Appl. Entomol.113(5): 493-501|1992|10.1111/j.1439-0418.1992.tb00694.x
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154906|T||Moser,V.C., K.L. McDaniel, P.M. Phillips, and A.B. Lowit|Time-Course, Dose-Response, and Age Comparative Sensitivity of N-Methyl Carbamates in Rats|Toxicol. Sci.114(1): 113-123|2010|10.1093/toxsci/kfp286
154907|T||Waddill,V.H.|Contact Toxicity of Four Synthetic Pyrethroids and Methomyl to Some Adult Insect Parasites|Fla. Entomol.61(1): 27-30|1978|10.2307/3494427
154908|T||Whalen,J., and M. Spellman|Control of Corn Earworm on Sweet Corn, 1991|Insectic. Acaric. Tests17:112-|1992|10.1093/iat/17.1.112
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154910|T||Johnson,B.J.|Tank-Mixed Herbicides on Large Crabgrass (Digitaria sanguinalis) and Goosegrass (Eleusine indica) Control in Common Bermudagrass (Cynodon dactylon) Turf|Weed Sci.42(2): 216-221|1994|10.1017/S0043174500080309
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154914|AT||Way,M.O., and R.G. Wallace|Control of Rice Water Weevil with Fury 1.5 EC in a Dry-Seeded, Delayed Flood Culture, 1997|Arthropod Manag. Tests23:265-266|1998|
154915|T||Campos,M.R., M.C. Picanco, J.C. Martins, A.C. Tomaz, and R.N.C. Guedes|Insecticide Selectivity and Behavioral Response of the Earwig Doru luteipes|Crop Prot.30(12): 1535-1540|2011|10.1016/j.cropro.2011.08.013
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154919|T||Kerns,D.L., and T. Tellez|Efficacy of Fipronil for Thrips Control on Onions, 1996|Arthropod Manag. Tests22:144-145|1997|10.1093/amt/22.1.144a
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154923|T||Schultz,P.B.|Forest Tent Caterpillar, Its Management as an Urban Pest in Virginia|J. Arboric.15(4): 92-93|1989|
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154927|T||McDonald,E., and N. Punja|A Note on the Synthesis and Biological Activity of Polyfluorobenzyl Pyrethroid Esters|Pestic. Sci.17(4): 459-463|1986|10.1002/ps.2780170418
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154932|T||Chawla,R.P., and O.S. Bindra|Laboratory Screening of Some Safe Insecticides as Grain Protectants|Pesticides 10(2): 29-31|1976|
154933|T||Karnatak,A.K., B.P. Khare, and R.K. Johari|Relative Toxicity of Some Synthetic Pyrethroid Insecticides Against Tribolium castaneum (Herbst)|Pesticides 24(2): 21-25|1990|
154934|T||Tsetlin,V.M., I.V. Bessonova, and Y.B. Zhuk|How Solvents can Influence the Effectiveness of Insecticide Aerosols|Int. Pest Control14(1): 16-19|1972|
154935|T||Abit,M.J.M.|Grain Sorghum Response to Postemergence Applications of Mesotrione and Quizalofop|Ph.D. Thesis, Kansas State University, Manhattan, KS:132 p.|2010|
154936|T||Webb,J.C.|Improving Winter Wheat Yield and Quality by Controlling Italian Ryegrass (Lolium multiflorum LAM.) in Winter Canola|M.S.Thesis, Oklahoma State University, Stillwater, OK:31 p.|2006|
154937|T||Blouin,D.C., E.P. Webster, and J.A. Bond|On a Method of Analysis for Synergistic and Antagonistic Joint-Action Effects with Fenoxaprop Mixtures in Rice (Oryza sativa)|Weed Technol.24(4): 583-589|2010|10.1614/WT-D-10-00025.1
154938|T||Brecke,B.J., K.C. Hutto, and J.B. Unruh|Postemergence Southern Crabgrass (Digitaria ciliaris) Control with Sulfonylurea Herbicides|Weed Technol.22(2): 354-358|2008|10.1614/WT-07-063.1
154939|T||Brecke,B.J., D.O. Stephenson IV, and J.B. Unruh|Timing of Oxadiazon and Quinclorac Application on Newly Sprigged Turfgrass Species|Weed Technol.24(1): 28-32|2010|10.1614/WT-08-065.1
154940|T||Griffin,R.M., E.P. Webster, W. Zhang, and D.C. Blouin|Biology and Control of Creeping Rivergrass (Echinochloa polystachya) in Rice|Weed Technol.22(1): 1-7|2008|10.1614/WT-06-170.1
154942|T||Lovelace,M.L., R.E. Talbert, R.E. Hoagland, and E.F. Scherder|Quinclorac Absorption and Translocation Characteristics in Quinclorac- and Propanil-Resistant and -Susceptible Barnyardgrass (Echinochloa crus-galli) Biotypes|Weed Technol.21(3): 683-387|2007|10.1614/WT-06-060.1
154943|T||Lopez-Martinez,N., R.H. Shimabukuro, and R. De Prado|Effect of Quinclorac on Auxin-Induced Growth, Transmembrane Proton Gradient and Ethylene Biosynthesis in Echinochloa spp.|Aust. J. Plant Physiol.25(7): 851-857|1998|
154944|T||Peng,H., J. Zhang, and Q. Xie|A Quinclorac Sensitive Lethality Rice Mutant:  Its Discovery, Genetics and Potential Application|Plant Breed.127(5): 490-493|2008|10.1111/j.1439-0523.2008.01501.x
154945|T||Sunohara,Y., S. Shirai, N. Wongkantrakorn, and H. Matsumoto|Sensitivity and Physiological Responses of Eleusine indica and Digitaria adscendens to Herbicide Quinclorac and 2,4-D|Environ. Exp. Bot.68(2): 157-164|2010|10.1016/j.envexpbot.2009.12.002
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154950|T||Norsworthy,J.K., S.K. Bangarwa, R.C. Scott, J. Still, and G.M. Griffith|Use of Propanil and Quinclorac Tank Mixtures for Broadleaf Weed Control on Rice (Oryza sativa) Levees|Crop Prot.29(3): 255-259|2010|10.1016/j.cropro.2009.10.016
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154952|T||Teuton,T.C.|Management of Hybrid Bluegrass (Poa arachnifera Torr. x Poa pratensis L.) in the Transition Zone|Ph.D.Thesis, University of Tennessee, Knoxville, TN:159 p.|2006|
154953|T||Willingham,S.D., G.N. McCauley, S.A. Senseman, J.M. Chandler, J.S. Richburg, R.B. Lassiter, and R.K. Mann|Influence of Flood Interval and Cultivar on Rice Tolerance to Penoxsulam|Weed Technol.22(1): 114-118|2008|10.1614/WT-07-106.1
154954|T||BASF Corp.|Initial Submission:  Acute Oral Toxicity Study with 3,7-Dichloro-8-Quinoline Carboxylic Acid in the Rat with Cover Letter Dated 052692|BASF Corporation, Parsippany, NJ:20 p.|1992|
154955|T||McElroy,J.S., and G.K. Breeden|Tolerance of Turf-Type Tall Fescue Established from Seed to Postemergence Applications of Mesotrione and Quinclorac|Hortscience42(2): 382-385|2007|10.21273/HORTSCI.42.2.382
154959|A||Sun,L., J. Zhang, Z. Zuo, Y. Chen, X. Wang, X. Huang, and C. Wang|Influence of Triphenyltin Exposure on the Hypothalamus-Pituitary-Gonad Axis in Male Sebastiscus marmoratus|Aquat. Toxicol.104(3/4): 263-269|2011|10.1016/j.aquatox.2011.04.018
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154975|T||EPA/OTS|Initial Submission: Letter From [] to Usepa Re Results in Repeated Dose (Oral Gavage) Developmental Toxicity Probe in Rats W/Cyclopropanecarboxylic Acid*, Dated 120699 (Sanitized)|EPA/OTS; Doc #88000000047S:4 p.|1999|
154976|T||Randall,K.L.|Detection, Documentation, and Spatial Analysis of Resistance in Colorado Potato Beetle Using Bioassay and GIS Technology|M.S. Thesis, University of Guelph, Ontario, Canada:150 p.|2000|
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154978|T||Abney,M.R., C.E. Sorenson, and P.S. Southern|Pyrethroid Insecticide Efficacy Against Tobacco Budworm (Lepidoptera: Noctuidae) in North Carolina Flue-Cured Tobacco: Implications for Insecticide Resistance Management|J. Entomol. Sci.42(4): 582-588|2007|10.18474/0749-8004-42.4.582
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155137|T||Prasad,K., S. Parameswaran, and U. Vijayraghavan|OsMADS1, a Rice MADS-Box Factor, Controls Differentiation of Specific Cell Types in the Lemma and Palea and is an Early-Acting Regulator of Inner Floral Organs|Plant J.43(6): 915-928|2005|10.1111/j.1365-313X.2005.02504.x
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155172|T||Ayalew,G.|Effect of the Insect Growth Regulator Novaluron on Diamondback Moth, Plutella xylostella L. (Lepidoptera: Plutellidae), and Its Indigenous Parasitoids|Crop Prot.30(8): 1087-1090|2011|10.1016/j.cropro.2011.03.027
155173|T||Ekbom,B., and A. Muller|Flea Beetle (Phyllotreta undulata Kutschera) Sensitivity to Insecticides Used in Seed Dressings and Foliar Sprays|Crop Prot.30(10): 1376-1379|2011|10.1016/j.cropro.2011.06.002
155174|T||Reed,J.T., R.G. Luttrell, and C.S. Jackson|Evaluation of AC 303630 (Pirate) for Tobacco Budworm Control in Leflore Co., Mississippi, 1992|Insectic. Acaric. Tests18:251|1993|10.1093/iat/18.1.251
155175|T||Rose,D., S.R. Leather, and G.A. Matthews|Recognition and Avoidance of Insecticide-Treated Scots Pine (Pinus sylvestris) by Hylobius abietis (Coleoptera: Curculionidae): Implications for Pest Management Strategies|Agric. For. Entomol.7(3): 187-191|2005|10.1111/j.1461-9555.2005.00249.x
155176|A||Clements,S., and C.B. Schreck|Chronic Administration of Fluoxetine Alters Locomotor Behavior, but does not Potentiate the Locomotor Stimulating Effects of CRH in Juvenile Chinook Salmon (Oncorhynchus tshawytscha)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.147(1): 43-49|2007|10.1016/j.cbpa.2006.11.011
155177|A||Belem,A.M.G.|Portals of Entry of Aurantiactinomyxon ictaluri and Increased Infection with Aurantiactinomyxon ictaluri After Immunosuppression in Channel Catfish Ictalurus punctatus (Rafinesque)|Ph.D. Thesis, Mississippi State University, Starkville, MS:112 p.|1994|
155179|T||Shields,E.J., R.B. Sher, and P.S. Taylor|Corn Rootworm Control in Field Corn, 1989|Insectic. Acaric. Tests16:176-177|1991|10.1093/iat/16.1.176
155180|A||Johnson,D.J.|Risk Assessment of Selective Serotonin Reuptake Inhibitors:  Comparing Methods in Tiered Environmental Risk Assessment|Ph.D. Thesis, University of Guelph, Ontario, Canada:124 p. |2004|
155181|A||Van Bruinessen,H.|The Effect of the Antidepressants Venlafaxine and Fluoxetine on Food Intake of the Japanese Medaka (Oryzias latipes)|M.S.Thesis, Trent University, Canada:117 p.|2009|
155182|A||Sink,T.D.|The Function of the Stress Hormone Cortisol in Disease Susceptibility of Channel Catfish, Ictalurus punctatus|Ph.D. Thesis, The University of Tennessee, TN:141 p.|2004|
155183|T||Omar,D., and G.A. Matthews|Biological Efficiency of Spray Droplets of Permethrin ULV Against the Diamondback Moth|Asp. Appl. Biol.14:173-179|1987|
155184|T||Western,N.M., and S.E. Woodley|Influence of Drop Size and Application Volume on the Effectiveness of Two Herbicides|Asp. Appl. Biol.14:181-192|1987|
155185|T||Ford,M.G., R.C. Reay, P. Lane, and L. El Jadd|Factors Affecting the Performance of Applications of Cypermethrin for the Control of Spodoptera littoralis (Boisd.)|Asp. Appl. Biol.14:217-232|1987|
155186|T||Hall,F.R.|Studies on Dose Transfer: Effects of Drop Size, Pattern and Formulation on Pest Behaviour|Asp. Appl. Biol.14:245-256|1987|
155187|T||Adams,A.J., M.R. Abdalla, I.J. Wyatt, and A. Palmer|The Relative Influence of the Factors Which Determine the Spray Droplet Density Required to Control the Glasshouse Whitefly, Trialeurodes vaporariorum|Asp. Appl. Biol.14:257-266|1987|
155188|T||Crease,G.J., M.F. Ford, and D.W. Salt|The Use of High Viscosity Carrier Oils to Enhance the Insecticidal Efficacy of ULV Formulations of Cypermethrin|Asp. Appl. Biol.14:307-322|1987|
155189|A||Rodriguez Montes De Oca,G.A.|Evaluation of Dietary Phytochemicals on Sex Differentiation and Growth in Nile Tilapia (Oreochromis niloticus)|Ph.D. Thesis, The Ohio State University, Columbus, OH:158 p.|2005|
155190|T||Cooke,B.K., and E.C. Hislop|Novel Delivery Systems for Arable Crop Spraying-Deposit Distribution and Biological Activity|Asp. Appl. Biol.14:53-70|1987|
155191|A||Cho,E.A.|Bioturbation as a Novel Method to Characterize the Toxicity of Aquatic Sediment|Ph.D. Thesis, North Carolina State University, Raleigh, NC:153 p.|2005|
155192|A||Kinkead,R.|The Role of Circulating Catecholamines in the Regulation of Breathing in Teleosts|M.S. Thesis, University of Ottawa, Canada:164 p.|1990|
155193|A||Wang,Y., H. Zhang, J. Zhang, C. Lu, Q. Huang, J. Wu, and F. Liu|Degradation of Tetracycline in Aqueous Media by Ozonation in an Internal Loop-Lift Reactor|J. Hazard. Mater.192(1): 35-43|2011|
155194|AT||Au,L.A.|Pesticide Interactions in the Laboratory Rice Paddy Model Ecosystem|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:156 p.|1979|
155195|A||Schorderet-Slatkine,S., M. Schorderet, and E.E. Baulieu|Cyclic AMP-Mediated Control of Meiosis:  Effects of Progesterone, Cholera Toxin, and Membrane-Active Drugs in Xenopus laevis Oocytes|Proc. Natl. Acad. Sci. U.S.A.79(3): 850-854|1982|10.1073/pnas.79.3.850
155196|A||Semsar,K., H.A.N. Perreault, and J. Godwin|Fluoxetine-Treated Male Wrasses Exhibit Low AVT Expression|Brain Res.1029:141-147|2004|10.1016/j.brainres.2004.09.030
155197|A||Uyaguari,M., P. Key, J. Moore, K. Jackson, and G. Scott|Acute Effects of the Antibiotic Oxytetracycline on the Bacterial Community of the Grass Shrimp, Palaemonetes pugio|Environ. Toxicol. Chem.28(12): 2715-2724|2009|10.1897/08-514.1
155198|A||Peterson,S.M., G.E. Batley, and M.S. Scammell|Tetracycline in Antifouling Paints|Mar. Pollut. Bull.26(2): 96-100|1993|10.1016/0025-326X(93)90098-5
155200|A||Monaghan,J.P.,Jr.|Comparison of Calcein and Tetracycline as Chemical Markers in Summer Flounder|Trans. Am. Fish. Soc.122(2): 298-301|1993|10.1577/1548-8659(1993)122<0298:NCOCAT>2.3.CO;2
155201|T||Zubidat,A.E., and A. Haim|The Effect of alpha- and beta-Adrenergic Blockade on Daily Rhythms of Body Temperature, Urine Production, and Urinary 6-Sulfatoxymelatonin of Social Voles Microtus socialis|Comp. Biochem. Physiol. A Mol. Integr. Physiol.148(2): 301-307|2007|10.1016/j.cbpa.2007.04.021
155202|A||Nalecz-Jawecki,G., and J. Sawicki|Influence of Water Hardness on the Toxicity of Selected Pharmaceuticals and Metals to the Protozoa Spirostomum ambiguum and Tetrahymena termophila|Fresenius Environ. Bull.14(10): 873-877|2005|
155203|T||Kondidie,D.|Genetic Variability and Gene Flow of the Fall Armyworm Spodoptera frugiperda (J.E. Smith) in the Western Hemisphere and Susceptibility to Insecticides|Ph.D. Thesis, University of Nebraska, Lincoln, NE:219 p.|2011|
155204|T||Brandenburg,R.L., and P.T. Hertl|Southern Corn Rootworm Control in Peanuts, North Carolina, 1990|Insectic. Acaric. Tests16:203-204|1991|
155206|T||Burris,E., and B.R. Leonard|Evaluation of AC 303630 for Control of Selected Cotton Pests, 1991|Insectic. Acaric. Tests18:219-|1993|10.1093/iat/18.1.219
155207|T||Calvin,D.D., and J.E. Losey|Evaluation of Black Cutworm Insecticide Efficacy, 1989|Insectic. Acaric. Tests16:147-|1991|10.1093/iat/16.1.149
155208|T||Graves,J.B., B.R. Leonard, and P.A. Clay|Evaluation of Pirate Against Late Season Populations of Bollworm, Tobacco Budworm and Beet Armyworm, 1992|Insectic. Acaric. Tests18:224-225|1993|10.1093/iat/18.1.224
155209|T||Johnson,D.R., and G. Studebaker|Control of Boll Weevils in Cotton, 1990|Insectic. Acaric. Tests18:228|1993|
155210|T||Leonard,B.R., B. Mulkey, and T. Talbot|Control of Diamondback Moth on Spring Planted Cabbage - II, 1990|Insectic. Acaric. Tests16:60-61|1991|
155211|T||Leonard,B.R., and J.B. Graves|Management of Tobacco Budworm and Bollworm with a Pyrethroid, Bt and Piperonyl Butoxide (PBO) Mixtures, 1990|Insectic. Acaric. Tests16:189-190|1991|10.1093/iat/16.1.189
155212|T||Leonard,B.R., E. Burris, and J.B. Graves|Efficacy of Insecticides Against Tobacco Budworm and Bollworm in Late Season with Post Optimal Application Timing, 1991|Insectic. Acaric. Tests18:240-|1993|10.1093/iat/18.1.240
155213|T||Micinski,S., and B.J. Fitzpatrick|Efficacy of Pirate Plus Adjuvants for Control of the Bollworm-Tobacco Budworm Complex, 1992|Insectic. Acaric. Tests18:246-247|1993|10.1093/iat/18.1.246a
155214|T||Consoli,F.L., J.R.P. Parra, and S.A. Hassan|Side-Effects of Insecticides Used in Tomato Fields on the Egg Parasitoid Trichogramma pretiosum Riley (Hym., Trichogrammatidae), a Natural Enemy of Tuta absoluta (Meyrick) (Lep., Gelechiidae)|J. Appl. Entomol.122(1): 43-47|1998|10.1111/j.1439-0418.1998.tb01459.x
155215|T||Rao,N.B.V.C., V.S. Singh, and S. Chander|Studies on Efficacy of Various Insecticides and Biopesticides on Rice Leaf Folder, Cnaphalocrocis medinalis (Guenee)|J. Entomol. Res.27(4): 297-303|2003|
155216|A||Pettit,W.J., P.I. Whelan, J. McDonnell, and S.P. Jacups|Efficacy of alpha-Cypermethrin and Lambda-Cyhalothrin Applications to Prevent Aedes Breeding in Tires|Am. Mosq. Control Assoc. J.26(4): 387-397|2010|10.2987/09-5962.1
155217|T||Ramoutar,D., S.R. Alm, and R.S. Cowles|Pyrethroid Resistance in Populations of Listronotus maculicollis (Coleoptera: Curculionidae) from Southern New England Golf Courses|J. Econ. Entomol.102(1): 388-392|2009|10.1603/029.102.0150
155218|T||Nielsen,D.G., and M.J. Dunlap|Elm, Cherry, and Mulberry, Efficacy of Selected Insecticides Against Fall Webworm, Wayne Co., Ohio, 1989|Insectic. Acaric. Tests16:272-|1991|
155219|T||Nielsen,D.G., and M.J. Dunlap|Juniper, Control of Eriophyoid Mite, Lake Co., Ohio, 1989|Insectic. Acaric. Tests16:272-|1991|
155220|T||Nielsen,D.G., and M.J. Dunlap|Elm, Control of Elm Leaf Beetle Larvae, Delaware, OH, 1989|Insectic. Acaric. Tests16:271|1991|10.1093/iat/16.1.271a
155221|T||Nielsen,D.G., and M.J. Dunlap|Choke Cherry, Efficacy of Selected Insecticides Against Eastern Tent Caterpillar, Wayne Co., OH, 1989|Insectic. Acaric. Tests16:269-270|1991|10.1093/iat/16.1.269
155222|T||Nielsen,D.G., and M.J. Dunlap|Cotoneaster, Tropical and Foliar Spray Applications Evaluated Against Japanese Beetle Adults, Wooster, Ohio, 1989|Insectic. Acaric. Tests16:249-250|1991|10.1093/iat/16.1.249a
155223|T||Nielsen,D.G., and M.J. Dunlap|Elm, Control of Elm Leaf Beetle Larvae, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:360-361|1992|10.1093/iat/17.1.360a
155224|T||Longtine,C.A., R.A. Suranyi, E.B. Radcliffe, and D.W. Ragsdale|Control of Colorado Potato Beetle, 1996c|Arthropod Manag. Tests22:156-|1997|10.1093/amt/22.1.156
155225|T||Longtine,C.A., D.W. Ragsdale, and E.B. Radcliffe|Control of Colorado Potato Beetle, 1996B|Arthropod Manag. Tests22:155-156|1997|10.1093/amt/22.1.155
155226|T||Nielsen,D.G., and M.J. Dunlap|Choke Cherry, Efficacy of Selected Insecticides Against Eastern Tent Caterpillar, Wayne Co., Ohio, 1990|Insectic. Acaric. Tests17:359-360|1992|10.1093/iat/17.1.359a
155227|T||Nielsen,D.G., and M.J. Dunlap|Birch, Control of Birch Leafminer, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:358-|1992|10.1093/iat/17.1.358
155228|T||Nielsen,D.G., and M.J. Dunlap|Birch, Efficacy and Residual of Selected Insecticides Against Gypsy Moth Larvae, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:357-|1992|10.1093/iat/17.1.357a
155229|T||Nielsen,D.G., and M.J. Dunlap|Flowering Crab, Control of Fall Webworm, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:343-344|1992|10.1093/iat/17.1.343a
155230|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Control of the Japanese Beetle Larvae on a Golf Course Fairway in Tuscarawas County, OH, 1992|Insectic. Acaric. Tests18:324-325|1993|
155231|T||Nielsen,D.G., and M.J. Dunlap|Cotoneaster, Topical and Foliar Sprays Evaluated Against Japanese Beetle Adults, Wooster, Ohio, 1990|Insectic. Acaric. Tests17:341-342|1992|
155232|T||Linduska,J.J., M. Ross, D. Baumann, and M. Lemuiex|Colorado Potato Beetle Control on Potatoes with Foliar Insecticide Sprays, 1998|Arthropod Manag. Tests24:155-|1999|
155233|T||Martin,S.H., J.B. Graves, C.A. White, B.R. Leonard, and P.A. Clay|Efficacy of Selected Pyrethroid Insecticides Against Boll Weevil and Tarnished Plant Bug in Cotton, 1993|Arthropod Manag. Tests19:233-|1994|10.1093/amt/19.1.233
155234|T||McCaffrey,J.P., and B.L. Harmon|Cabbage Seedpod Weevil Control on Winter Canola, 1996|Arthropod Manag. Tests23:186-187|1998|10.1093/amt/23.1.186
155235|T||McLeod,P., and J. Diaz|Control of Colorado Potato Beetle and Eggplant Flea Beetle on Eggplant, 1998|Arthropod Manag. Tests24:136-137|1999|
155236|T||McPherson,R.M., B.D. Crowe, and J.D. Taylor|Control of Insect Pests on Georgia Soybeans, 1994|Arthropod Manag. Tests20:238-239|1995|10.1093/amt/20.1.238a
155237|T||Meyers,H.B., D.R. Johnson, and C.D. Klein|Efficacy of Karate 1EC and Karate 2.09 CS Against Bollworm and Tobacco Budworm, 1995|Arthropod Manag. Tests21:258|1996|
155238|T||Meyers,H.B., D.R. Johnson, and C.D. Klein|Evaluation of Various Insecticide and Insecticide Combinations for Control of Bollworm and Tobacco Budworm, 1995|Arthropod Manag. Tests21:257-|1996|10.1093/amt/21.1.257
155239|T||Micinski,S., R.G. Scarborough, F.D. Forrester, and J.B. Graves|Bollworm and Tobacco Budworm Control with Selected Insecticides, 1997|Arthropod Manag. Tests23:241-242|1998|10.1093/amt/23.1.241
155240|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1995|Arthropod Manag. Tests21:197|1996|10.1093/amt/21.1.197
155241|T||Liu,T.X., W.D. Hutchison, W. Chen, and E.C. Burkness|Comparative Susceptibilities of Diamondback Moth (Lepidoptera: Plutellidae) and Cabbage Looper (Lepidoptera: Noctuidae) from Minnesota and South Texas to lambda-Cyhalothrin and Indoxacarb|J. Econ. Entomol.96(4): 1230-1236|2003|10.1603/0022-0493-96.4.1230
155242|T||Montes-Molina,J.A., M.L. Luna-Guido, N. Espinoza-Paz, B. Govaerts, F.A. Gutierrez-Miceli, and L. Dendooven|Are Extracts of Neem (Azadirachta indica A. Juss. (L.)) and Gliricidia sepium (Jacquin) an Alternative to Control Pests on Maize (Zea mays L.)?|Crop Prot.27(3-5): 763-774|2008|10.1016/j.cropro.2007.11.002
155243|T||Noetzel,D.M., and B. Holder|Colorado Potato Beetle Control, Crookston, MN, 1995|Arthropod Manag. Tests21:145-146|1996|10.1093/amt/21.1.145
155244|T||De Oliveira Filho,A.M.|Differences of Susceptibility of Five Triatomine Species to Pyrethroid Insecticides - Implications for Chagas Disease Vector Control|Mem. Inst. Oswaldo Cruz94(Suppl. 1): 425-428|1999|10.1590/S0074-02761999000700084
155245|T||Palumbo,J.C.|Control of Lepidopterous Larvae in Broccoli, 1995|Arthropod Manag. Tests21:89-|1996|10.1093/amt/21.1.89
155246|T||Schexnayder,H.P.,Jr., E.A. Ostheimer, A.M. Younis, T.E. Reagan, and W.H. White|Insecticidal Control of the Sugarcane Borer-Aerial Application Test, 1998|Arthropod Manag. Tests24:299|1999|10.1093/amt/24.1.F120
155247|T||Schuster,D.J.|Control of Southern Armyworm on Fresh Market Tomatoes, Fall 1996|Arthropod Manag. Tests23:158-|1998|
155248|T||Palumbo,J.C.|Evaluation of Pyrethroids and Selected Insecticides for Control of Cabbage Looper in Broccoli|Arthropod Manag. Tests22:86-|1997|10.1093/amt/22.1.86a
155249|T||Parr,J.C., and B.C. Pass|Alfalfa Weevil Control, 1993|Arthropod Manag. Tests19:175-176|1994|
155250|T||Rose,R., and G.P. Dively|Effects of Insecticide-Treated and Lepidopteran-Active Bt Transgenic Sweet Corn on the Abundance and Diversity of Arthropods|Environ. Entomol.36(5): 1254-1268|2007|10.1603/0046-225X(2007)36[1254:EOIALB]2.0.CO;2
155251|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of European Corn Borer Larvae and Effect on Spider Mites on Reproductive Stage Field Corn, 1995|Arthropod Manag. Tests22:228-229|1997|
155252|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Sunflower Insects in West Central Nebraska, 1997|Arthropod Manag. Tests23:289|1998|10.1093/amt/23.1.289
155253|T||Shaw,J.T., S.J. Roberts, E.J. Armbrust, and J.W. Finger|Alfalfa Weevil Control, 1996|Arthropod Manag. Tests22:199|1997|
155254|T||Shaw,J.T., S.J. Roberts, E.J. Armbrust, and J.W. Finger|Alfalfa Weevil Control, 1997|Arthropod Manag. Tests23:175|1998|10.1093/amt/23.1.175
155255|T||Shaw,J.T., R. Weinzierl, and J.W. Finger|Evaluation of Efficacy of Selected Conventional and Experimental Insecticides and Bt Hybrids for Control of Corn Earworm and European Corn Borer on Sweet Corn, 1997|Arthropod Manag. Tests23:99-100|1998|10.1093/amt/23.1.99a
155256|T||Shelton,A.M., W.T. Wilsey, and J.D. Vandenberg|Season-Long Control of Corn Lepidoptera with Foliar Applications of Beauveria bassiana, 1997|Arthropod Manag. Tests23:101-102|1998|10.1093/amt/23.1.101
155257|T||Shelton,A.M., and W.T. Wilsey|Control of Lepidoptera on Cabbage with Spintor and Warrior, 1997|Arthropod Manag. Tests23:85-86|1998|
155258|T||Shelton,A.M., and W.T. Wilsey|Control of Lepidoptera on Cabbage with Orthene, Spintor and Warrior, 1997|Arthropod Manag. Tests23:85|1998|
155259|T||Shelton,A.M., and W.T. Wilsey|Comparison of Proclaim and Warrior for Control of Lepidoptera on Cabbage, 1997|Arthropod Manag. Tests23:84-|1998|10.1093/amt/23.1.84
155260|T||Shetlar,D.J., H.D. Niemczyk, and W. Pinkston|Preventive Applications for Control of Black Turfgrass Ataenius Adults and Larvae in Bentgrass, 1998|Arthropod Manag. Tests24:333-334|1999|
155261|T||Shetlar,D.J., H.D. Niemczyk, W. Pinkston, and K. Jordon|Black Cutworm Rapidity-of-Kill on Bentgrass, 1998|Arthropod Manag. Tests24:335-336|1999|
155262|T||Way,M.O., and R.G. Wallace|Evaluation of Karate for Soybean Insect Pest Control, 1991|Arthropod Manag. Tests20:244-245|1995|10.1093/amt/20.1.244
155263|T||Sparks,T.C., B.R. Leonard, F. Schneider, and J.B. Graves|Ovicidal Activity and Alteration of Octopamine Titers: Effects of Selected Insecticides on Eggs of the Tobacco Budworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.86(2): 294-300|1993|10.1093/jee/86.2.294
155264|T||Speese III,J., and B.A. Nault|Insecticides to Control Cucumber Beetles on Spring and Fall Cucumbers, 1997|Arthropod Manag. Tests23:103-104|1998|10.1093/amt/23.1.103a
155265|T||Stansly,P.A., J.M. Conner, and M.A. Pomerinke|Insecticidal Control of Fall Armyworm on Sweetcorn with Bt, Insect Growth Regulators and a Synthetic Pyrethroid, 1998|Arthropod Manag. Tests24:132-|1999|
155266|T||Speese III,J., T.P. Kuhar, A.D. Bratsch, B.A. Nault, V.M. Barlow, R.J. Cordero, and Z.X. Shen|Efficacy and Economics of Fresh-Market Bt Transgenic Sweet Corn in Virginia|Crop Prot.24(1): 57-64|2005|10.1016/j.cropro.2004.06.008
155267|T||Spomer,S.M., L.G. Higley, and J.E. Foster|Alfalfa Insect Control, 1993|Arthropod Manag. Tests19:176-177|1994|10.1093/amt/19.1.176
155268|T||Swier,S.R., A. Rollins, L. Nye, and V. Rodgers|Control of Annual Bluegrass Weevil on Golf Greens, 1998|Arthropod Manag. Tests24:360-|1999|
155269|A||Yang,J.L., Y.F. Li, W.Y. Bao, C.G. Satuito, and H. Kitamura|Larval Metamorphosis of the Mussel Mytilus galloprovincialis Lamarck, 1819 in Response to Neurotransmitter Blockers and Tetraethylammonium|Biofouling27(2): 193-199|2011|10.1080/08927014.2011.553717
155270|T||Grispen,V.M.J., H.W.J. Hakvoort, T. Bliek, J.A.C. Verkleij, and H. Schat|Combined Expression of the Arabidopsis Metallothionein MT2b and the Heavy Metal Transporting ATPase HMA4 Enhances Cadmium Tolerance and the Root to Shoot Translocation of Cadmium and Zinc in Tobacco|Environ. Exp. Bot.72(1): 71-76|2011|10.1016/j.envexpbot.2010.01.005
155271|A||Kjaerstad,G., and J.V. Arnekleiv|Effects of Rotenone Treatment on Lotic Invertebrates|Int. Rev. Hydrobiol.96(1): 58-71|2011|10.1002/iroh.201111261
155273|A||Logaswamy,S., and K.M. Remia|Impact of Cypermethrin and Ekalux on Respiratory and Some Biochemical Activities of a Fresh Water Fish, Tilapia mossambica|Curr. Biotica3(1): 65-73|2009|
155274|A||Chakravarty,S., and M.L. Naik|Responses of Chlorococcales Algae to Copper|Adv. Plant Sci.24(1): 381-385|2011|
155275|T||Redjala,T., I. Zelko, T. Sterckeman, V. Legue, and A. Lux|Relationship Between Root Structure and Root Cadmium Uptake in Maize|Environ. Exp. Bot.71(2): 241-248|2011|10.1016/j.envexpbot.2010.12.010
155276|T||Boag,B.|Effect of Aldicarb and Dichloropropene on the Plant Parasitic Nematode Longidorus elongatus and the Yield of a Grass/Clover Sward|Ann. Appl. Biol.104:20-21|1984|
155277|A||Cox,G.V., and E.J. Moran|Summary Report - Environmental Studies - Phase I.  Generation of Environmental Fate and Effects Data Base on 14 Phthalate Esters|Chemical Manufacturers Association, Washington, DC:44 p.|1984|
155278|T||Vittum,P.J.|Field Efficacy of Lambda-Cyhalothrin and Three Other Pyrethroids Against Annual Bluegrass Weevil, Golf Course Fairway, 1998|Arthropod Manag. Tests24:362-363|1999|
155279|A||Boyce,J.|Ontogeny and Regulation of Estrogen Receptor Isoform Expression in Rainbow Trout (Oncorhynchus mykiss)|Ph.D.Thesis, University of Idaho, Moscow, ID:100 p.|2009|
155280|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomatoes Using Imidacloprid (Admire), 1998|Arthropod Manag. Tests24:185-|1999|
155281|T||Wu,K., W. Mu, G. Liang, and Y. Guo|Regional Reversion of Insecticide Resistance in Helicoverpa armigera (Lepidoptera: Noctuidae) is Associated with the Use of Bt Cotton in Northern China|Pest Manag. Sci.61(5): 491-498|2005|10.1002/ps.999
155282|A||Armstrong,B.M.|Determining the Effects of Multiple Stressors on Fathead Minnows (Pimephales promelas) Using a Flow-Through Diluter System|M.S. Thesis, Michigan State University, East Lansing, MI:88 p.|2011|
155283|A||Carr,S.|Saltwater Toxicity Test Data for FY '87 Advisory Chemicals|Memo from S.Carr of Battelle Ocean Sciences to F.Gostomski of USEPA with Attached Test Protocol and 14 Toxicity Test Reports:83 p.|1987|
155284|A||Maniyar,R.A., R.N. Ahmed, and M. David|Monocrotophos:  Toxicity Evaluation and Respiratory Responses of Cyprinus carpio (Linnaeus)|Recent Res. Sci. Technol.3(1): 51-54|2011|
155285|A||Li,N., Q. Ma, J. Yang, Y. Zhao, and J.C. Brochon|Effects of Water-Borne Copper on the Gills and Hepatopancreas of Macrobrachium rosenbergii|Integr. Zool.3(4): 299-310|2008|10.1111/j.1749-4877.2008.00094.x
155286|T||Teli,V.S., and G.N. Salunkhe|Monitoring Adults of Sweet Potato Weevil, Cylas formicarius Fab. with Sex Pheromone|J. Insect Sci.6(2): 283-284|1993|
155287|A||Razzaq,M.A., S. Pandey, and R.K. Tiwari|Toxicity Assay of Copper Sulphate on Fresh Water Fish Clarias batrachus (Linn.) and Heteropneustes fossilis (Bloch.)|J. Exp. Zool.14(1): 241-242|2011|
155288|T||Marquez-Garcia,B., N. Horemans, A. Cuypers, Y. Guisez, and F. Cordoba|Antioxidants in Erica andevalensis:  A Comparative Study Between Wild Plants and Cadmium-Exposed Plants Under Controlled Conditions|Plant Physiol. Biochem. (Amsterdam)49(1): 110-115|2011|10.1016/j.plaphy.2010.10.007
155291|A||Sayegh,J.F.|Steroid Hormones in the Plasma of Channel Catfish (Ictalurus punctatus) and the Changes Induced in These Substances by the Action of ACTH, Metopirone, and Dexamethasone|Ph.D. Thesis, New York University, NY:68 p.|1969|
155292|T||Warren,K.S., and S. Schenker|Differential Effect of Fixed Acid and Carbon Dioxide on Ammonia Toxicity|Am. J. Physiol.203:903-906|1962|10.1152/ajplegacy.1962.203.5.903
155294|T||Galagudza,M.M., D.V. Korolev, D.L. Sonin, V.N. Postnov, G.V. Papayan, I.S. Uskov, A.V. Belozertseva, and E.V. Shlyakhto|Targeted Drug Delivery into Reversibly Injured Myocardium with Silica Nanoparticles: Surface Functionalization, Natural Biodistribution, and Acute Toxicity|Int. J. Nanomed.5:231-237|2010|10.2147/IJN.S8719
155295|T||Dahamna,S., D. Harzallah, A. Guemache, and N. Sekfali|Toxico-Pathological Effects in Rats Induced by lambda-Cyhalothrin|Commun. Agric. Appl. Biol. Sci.74(1): 143-148|2009|
155296|T||Hopkins,S.W.|Influence of Selected Spray Diluents on the Efficacy of lambda-Cyhalothrin Against Heliothis virescens Larvae (Lepidoptera: Noctuidae)|Ph.D. Thesis, Texas A&M University, College Station TX:126 p.|1993|
155297|T||Ihrig,R.A.|Biology and New Management Strategies for the Cereal Leaf Beetle, Oulema melanopus (L.), in Winter Wheat in the Coastal Plain Region of North Carolina and Virginia|Ph.D. Thesis, North Carolina State University, Raleigh, NC:159 p.|1998|
155298|T||Lambert,A.L.|Entomological Consequences of Transgenically Altered Insect Resistant Cottons (Gossypium hirsutum L.) in the Coastal Plain of North Carolina|Ph.D. Thesis, North Carolina State University, Raleigh, NC:148 p.|1998|
155299|T||Leonard,B.R., J.B. Graves, and T.C. Sparks|Ovicidal Effects of Selected Insecticides Against Pyrethroid-Susceptible and -Resistant Tobacco Budworm|Southwest. Entomol.15(Suppl.): 163-172|1991|
155301|T||White,J.S., C.J. Everett, and R.A. Brown|Lambda-Cyhalothrin:  Laboratory and Field Methods to Assess the Effects on Natural Enemies|Br. Crop Prot. Conf. Pests Dis.3:969-974|1990|
155302|T||Plourde,E.G.,Jr.|In Vitro and In Vivo Evaluation of Selected Chemotherapeutic Agents Against Acanthamoeba spp.|Ph.D Thesis, University of North Carolina, Chapel Hill, NC:161 p.|1986|
155303|T||Palumbo,J.C.|Efficacy of Pyrethroids and Lannate on Lepidopterous Larvae in Lettuce, 1995|Insectic. Acaric. Tests21:124-|1996|
155304|T||Peters,M.R., and J.V. Edelson|Control of Lepidopterous Larvae on Spring Cabbage, 1995|Insectic. Acaric. Tests21:95|1996|
155305|T||Anderson,R.M., G.L. Teetes, and B.B. Pendleton|Control of Panicle Caterpillars on Sorghum, 1997|Arthropod Manag. Tests23:275-|1998|10.1093/amt/23.1.275
155306|T||Vaughn,T.T., and C.W. Hoy|Ear-Infesting Insect Control in Sweet Corn, 1992|Insectic. Acaric. Tests18:128-129|1993|10.1093/iat/18.1.128
155307|T||Bacheler,J.S., and D.W. Mott|Control of Early Season Tobacco Budworms on Cotton in Southern North Carolina, 1993|Arthropod Manag. Tests19:217-218|1994|10.1093/amt/19.1.217
155308|T||Young,S.Y., T.J. Kring, D.R. Johnson, and C.D. Klein|Bacillus thuringiensis Alone and in Mixtures with Chemical Insecticides Against Heliothines and Effects on Predator Densities in Cotton|J. Entomol. Sci.32(2): 183-191|1997|10.18474/0749-8004-32.2.183
155309|T||Bacheler,J.S., and D.W. Mott|Efficacy of Two Pyrethroids Employed at Traditional and Extended Spray Intervals Against Fall Armyworm, Bollworm and European Corn Borer in North Carolina, 1993|Arthropod Manag. Tests19:298-|1994|10.1093/amt/19.1.298
155310|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Pyrethroids Against Bollworms and European Corn Borers in Southern North Carolina, 1994|Arthropod Manag. Tests20:190-191|1995|
155311|T||Bacheler,J., and D. Mott|Evaluation of Three Classes of Insecticides Against Bollworms and Budworms Following Poor Control in Southern North Carolina, 1995|Arthropod Manag. Tests21:239|1996|
155312|T||Bacheler,J.S., and D.W. Mott|Evaluation of Pyrethroid Alternatives for Tobacco Budworm Control, 1996|Arthropod Manag. Tests22:239|1997|10.1093/amt/22.1.239
155313|T||Bacheler,J.S., and D.W. Mott|Evaluation of Biological Alternatives for Tobacco Budworms on Cotton, 1996|Arthropod Manag. Tests22:238-239|1997|
155314|T||Avilla,C., and J.E. Gonzalez-Zamora|Monitoring Resistance of Helicoverpa armigera to Different Insecticides Used in Cotton in Spain|Crop Prot.29(1): 100-103|2010|10.1016/j.cropro.2009.09.007
155315|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Bollworms on Cotton, 1996|Arthropod Manag. Tests22:238-|1997|
155316|T||Bacheler,J.S., and D.W. Mott|Evaluation of Selected Alternatives for Tobacco Budworms on Cotton in Southern North Carolina, 1997|Arthropod Manag. Tests23:218|1998|
155317|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Bollworms on Bt Cotton, 1997|Arthropod Manag. Tests23:215-|1998|10.1093/amt/23.1.215
155318|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Bollworms on Cotton, 1997|Arthropod Manag. Tests23:214-|1998|10.1093/amt/23.1.214
155319|T||Bacheler,J.S., and D.W. Mott|Evaluation of Pyrethroid Alternatives for Tobacco Budworm Control, 1998|Arthropod Manag. Tests24:233-|1999|
155320|T||Ball,S.K.|The Antinociceptive Effect of Neuropeptide FF in Golden-Mantled Ground Squirrels (Citellus lateralis)|M.S. Thesis, California State University, Long Beach, CA:65 p.|1995|
155321|T||Bacheler,J.S., and D.W. Mott|Efficacy of Selected Insecticides Against Bollworms on Cotton, 1998|Arthropod Manag. Tests24:234-235|1999|
155322|T||Shah,Z., and W.A. Adams|The Fungus Flora of an Acidic Upland Soil as Influenced by Liming|Sarhad J. Agric.9(4): 345-348|1993|
155323|AT||Treiber,A., R. Schneiter, S. Delahaye, and M. Clozel|Inhibition of Organic Anion Transporting Polypeptide - Mediated Hepatic Uptake is the Major Determinant in the Pharmacokinetic Interaction Between Bosentan and Cyclosporin A in the Rat|J. Pharmacol. Exp. Ther.308(3): 1121-1129|2004|10.1124/jpet.103.061614
155324|A||Mondal,S.|Pesticides and Heavy Metals Influence Steroidogenic Activity in Fish Gonad and Interrenal|Ph.D.Thesis, Visva Bharati University, Santiniketan, India:141 p.|1997|
155326|T||Benedict,J.H., J.C. Correa, and D.J. Porteous|Efficacy of Cyhalothrin, Spinosad, and Cryia(C) Expressing Plants for Lepidopteran Control, 1997|Arthropod Manag. Tests24:236-237|1999|
155327|T||Boetel,M.A., and B.W. Fuller|Red Sunflower Seed Weevil Control Using Warrior Insecticide, 1998|Arthropod Manag. Tests24:301-|1999|
155328|T||Boetel,M.A., and B.W. Fuller|Impact of Spray Volume and Wetting Agent on Efficacy of Aerial Insecticide Applications to Manage First-Generation European Corn Borer Larvae in South Dakota, 1997|Arthropod Manag. Tests23:190|1998|10.1093/amt/23.1.190
155329|T||Boetel,M.A., and B.W. Fuller|Aerial Insecticide Applications to Manage Second-Generation European Corn Borer Larvae, 1997|Arthropod Manag. Tests23:188-189|1998|10.1093/amt/23.1.188
155330|T||Huang,M.Z., F.X. Luo, H.B. Mo, Y.G. Ren, X.G. Wang, X.M. Ou, M.X. Lei, A.P. Liu, L. Huang, and M.C. Xu|Synthesis and Herbicidal Activity of Isoindoline-1,3-Dione Substituted Benzoxazinone Derivatives Containing a Carboxylic Ester Group|J. Agric. Food Chem.57(20): 9585-9592|2009|10.1021/jf901897f
155331|T||Benedict,J.H., J.C. Correa, and D.J. Porteous|Lepidopteran Control with Cyhalothrin, Spinosad and CRYIA(C) and Expressing Plants, 1996|Arthropod Manag. Tests24:238-|1999|
155332|T||Blodgett,S.L., C. Tharp, and D. Waters|Cereal Leaf Beetle Control on Malting Barley, 1996|Arthropod Manag. Tests22:204|1997|10.1093/amt/22.1.204
155333|T||Boyd,M.L., B.J. Fitzpatrick, and D.J. Boethel|Evaluation of Selected Insecticides for Management of Soybean Arthropods in Louisiana, 1995|Arthropod Manag. Tests21:287-288|1996|10.1093/amt/21.1.287a
155334|T||Bragg,D.E.|Control of Insect Pests on Fall-Seeded Canola, 1997B|Arthropod Manag. Tests23:185-186|1998|10.1093/amt/23.1.185
155335|T||Feng,R., C. Wei, S. Tu, S. Tang, and F. Wu|Detoxification of Antimony by Selenium and Their Interaction in Paddy Rice Under Hydroponic Conditions|Microchem. J.97(1): 57-61|2011|10.1016/j.microc.2010.06.003
155336|T||Bragg,D.E.|Control of Insect Pests on Spring Canola, 1997|Arthropod Manag. Tests23:183-184|1998|
155337|T||Bragg,D.E.|Control of Insect Pests on Fall-Seeded Canola, 1997A|Arthropod Manag. Tests23:184-185|1998|10.1093/amt/23.1.184
155338|T||Bragg,D.E., and J.W. Burns|Soft Chemical Research in Spring Canola, 1998|Arthropod Manag. Tests24:206-|1999|
155339|A||Fujisawa,T., K. Ichise-Shibuya, and T. Katagi|Uptake and Transformation of Phenols by Duckweed (Lemna gibba)|J. Pestic. Sci. (Multiple Languages)35(4): 456-463|2010|10.1584/jpestics.G10-42
155340|T||Buschman,L.L., P.E. Sloderbeck, and L. Wildman|Second Generation European Corn Borer Control, 1994|Arthropod Manag. Tests20:163-164|1995|10.1093/amt/20.1.163
155341|T||Chapin,J.W., and J.S. Thomas|Lesser Cornstalk Borer Control with Alternative Application Methods, 1998|Arthropod Manag. Tests24:261-|1999|
155342|T||Hsiang,T., A. Liao, and D. Benedetto|Sensitivity of Sclerotinia homoeocarpa to Demethylation-Inhibiting Fungicides in Ontario, Canada, After a Decade of Use|Plant Pathol.56(3): 500-507|2007|10.1111/j.1365-3059.2007.01573.x
155343|T||Kieling-Rubio,M.A., A. Droste, and P.G. Windisch|Germination and Sporophytic Development of Regnellidium diphyllum Lindman (Marsileaceae) in the Presence of Hexavalent Chromium|Braz. J. Biol.70(Suppl. 4): 1149-1153|2010|10.1590/S1519-69842010000600003
155344|T||Clemens,C.G., B.J. Fitzpatrick, M.L. Boyd, R.N. Mascarenhas, and D.J. Boethel|Velvetbean Caterpillar and Stink Bug Control on Soybean, 1996|Arthropod Manag. Tests22:308-309|1997|10.1093/amt/22.1.308
155345|A||Kreutz,L.C., L.J.G. Barcellos, S.D.F. Valle, T.D.O. Silva, D. Anziliero, E. Davi dos Santos, M. Pivato, and R. Zanatta|Altered Hematological and Immunological Parameters in Silver Catfish (Rhamdia quelen) Following Short Term Exposure to Sublethal Concentration of Glyphosate|Fish Shellfish Immunol.30(1): 51-57|2011|10.1016/j.fsi.2010.09.012
155346|T||Long,J.L., M.B. Layton, and M.R. Williams|Evaluation of Insecticides for Control of Tobacco Budworm on Cotton, 1998|Arthropod Manag. Tests24:248-249|1999|10.1093/amt/24.1.F64
155348|T||Linduska,J.J., M. Ross, D. Baumann, M. Boltz, and C. Cain|Foliar Sprays to Control Ear Invading Insects in Sweet Corn, 1996|Arthropod Manag. Tests22:123-|1997|10.1093/amt/22.1.123
155352|T||Eckberg,T.B., and W. Cranshaw|Evaluation of Relative Speed of Incapacitation of Elm Bark Beetle Insecticides, Laboratory Bioassay, 1993|Arthropod Manag. Tests20:310-|1995|10.1093/amt/20.1.310a
155353|T||Fife,J.H., B.R. Leonard, K.D. Torrey, J.B. Graves, and J. Adamczyk|Control of Boll Weevil in Cotton with Selected Insecticides, 1996|Arthropod Manag. Tests22:252-253|1997|10.1093/amt/22.1.252
155354|T||Fuller,B.W., and M.A. Boetel|Foliar Rescue Insecticide Treatments to Control Army Cutworms in Winter Wheat, 1998|Arthropod Manag. Tests24:322-323|1999|
155355|T||Graves,J.B., B.R. Leonard, and P.A. Clay|Efficacy of Insecticide Mixtures Against Bollworm and Tobacco Budworm During Late Season, 1993|Arthropod Manag. Tests19:222-223|1994|10.1093/amt/19.1.222a
155356|T||Hall,T.S., J.H. Fife, K.D. Torrey, and B.R. Leonard|Efficacy of Selected Insecticides Against Bollworm/Tobacco Budworm in Cotton, 1998|Arthropod Manag. Tests24:245-246|1999|
155357|T||Herbert,D.A.,Jr.|Different Insecticide Rates and Application Schedules for Control of Bollworm on Cotton, 1996|Arthropod Manag. Tests22:256-|1997|10.1093/amt/22.1.256
155358|T||Hoy,C.W., and M.J. Dunlap|Ear Infesting Insect Control in Sweet Corn, 1995|Arthropod Manag. Tests21:110|1996|10.1093/amt/21.1.110
155359|T||Herbert,D.A.,Jr., and S. Malone|Insecticide Rates and Application Schedules for Control of Bollworm on Cotton, 1998|Arthropod Manag. Tests24:246-|1999|
155360|T||Herbert,D.A.,Jr.|Different Application Schedules and Insecticide Rates for Control of Bollworm in Virginia Cotton, 1995|Arthropod Manag. Tests21:252-253|1996|10.1093/amt/21.1.252
155361|T||Bacheler,J.S., and D.W. Mott|Impact of Fruit Removal Simulating Tobacco Budworm Damage on Cotton Maturity and Yields, 1998|Arthropod Manag. Tests24:232-233|1999|
155362|T||Kim,K.B., S.S. Anand, H.J. Kim, C.A. White, J.W. Fisher, R. Tornero-Velez, and J.V. Bruckner|Age, Dose, and Time-Dependency of Plasma and Tissue Distribution of Deltamethrin in Immature Rats|Toxicol. Sci.115(2): 354-368|2010|10.1093/toxsci/kfq074
155363|T||Chareonviriyaphap,T., S. Sungvornyothin, S. Ratanatham, and A. Prabaripai|Insecticide-Induced Behavioral Responses of Anopheles minimus, a Malaria Vector in Thailand|Am. Mosq. Control Assoc. J.17(1): 13-22|2001|
155364|T||Fetoui,H., M. Makni, E.M. Garoui, and N. Zeghal|Toxic Effects of lambda-Cyhalothrin, a Synthetic Pyrethroid Pesticide, on the Rat Kidney: Involvement of Oxidative Stress and Protective Role of Ascorbic Acid|Exp. Toxicol. Pathol.62(6): 593-599|2010|10.1016/j.etp.2009.08.004
155365|T||Ihrig,R.A., D.A.,Jr. Herbert, J.W. Van Duyn, and J.R.,Jr. Bradley|Relationship Between Cereal Leaf Beetle (Coleoptera: Chrysomelidae) Egg and Fourth-Instar Populations and Impact of Fourth-Instar Defoliation of Winter Wheat Yields in North Carolina and Virginia|J. Econ. Entomol.94(3): 634-639|2001|10.1603/0022-0493-94.3.634
155366|T||Lambkin,T.A., S.J. Rice, and M. Furlong|Responses of Susceptible and Cyfluthrin-Resistant Broiler House Populations of Lesser Mealworm (Coleoptera: Tenebrionidae) to gamma-Cyhalothrin|J. Econ. Entomol.103(6): 2155-2163|2010|10.1603/EC09403
155367|T||Kumar,P., Y.S. Chandel, and S. Kumar|Evaluation of Some Insecticides for the Management of Agrotis segetum|Indian J. Agric. Sci.79(2): 155-159|2009|
155368|T||Mohapatra,S., and A.K. Ahuja|Persistence and Dissipation of lambda Cyhalothrin in/on Mango (Mangifera indica)|Indian J. Agric. Sci.80(4): 306-308|2010|
155369|T||Nelson,K.A., P.P. Motavalli, W.E. Stevens, D. Dunn, and C.G. Meinhardt|Soybean Response to Preplant and Foliar-Applied Potassium Chloride with Strobilurin Fungicides|Agron. J.102(6): 1657-1663|2010|10.2134/agronj2010.0065
155370|T||Oztemiz,S.|Natural Parasitism and Release Efficiency of Trichogramma evanescens Westwood in Ostrinia nubilalis Hubner Attacking Maize in Turkey|J. Entomol. Sci.44(2): 132-140|2009|10.18474/0749-8004-44.2.132
155371|T||Johnson,K.D., M.E. O'Neal, J.D. Bradshaw, and M.E. Rice|Is Preventative, Concurrent Management of the Soybean Aphid (Hemiptera: Aphididae) and Bean Leaf Beetle (Coleoptera: Chrysomelidae) Possible?|J. Econ. Entomol.101(3): 801-809|2008|10.1093/jee/101.3.801
155372|T||Rodriguez,M.A., T. Marques, D. Bosch, and J. Avilla|Assessment of Insecticide Resistance in Eggs and Neonate Larvae of Cydia pomonella (Lepidoptera:  Tortricidae)|Pestic. Biochem. Physiol.100(2): 151-159|2011|10.1016/j.pestbp.2011.03.003
155373|T||Quinteiro-Filho,W.M., D.A. Righi, and J. Palermo-Neto|Effect of Cyhalothrin on Ehrlich Tumor Growth and Macrophage Activity in Mice|Braz. J. Med. Biol. Res.42(10): 912-917|2009|10.1590/S0100-879X2009001000006
155374|T||Sloderbeck,P.E., and L.L. Buschman|Aerial Insecticide Treatments for Management of Dectes Stem Borer, Dectes texanus, in Soybean|J. Insect Sci.11(49): 10 p.|2011|10.1673/031.011.4901
155375|T||Kumar,J., and S.D. Sharma|Efficacy and Economics of Bacillus thuringiensis var Kurstaki for Management of Helicoverpa armigera on Tomato (Lycopersicon esculentum) in Lower Kullu Valley, Himachal Pradesh|Indian J. Agric. Sci.74(7): 396-398|2004|
155376|T||Nwana,I.E.|The Quantal Response of Two Flea Beetles, Podagrica sjostedti (Jacoby) and P. uniforma (Jacoby) (Coleoptera: Chrysomelidae) to Different Doses and Methods of Application of Lambdacyhalothrin, 'Karate', in a Laboratory|Discov. Innov.6(4): 409-414|1994|
155377|T||Pruszynski,S., and M. Mrowczynski|Trial Results on Use of lambda-Cyhalothrin for Pest Control in Agricultural Crops in Poland|Br. Crop Prot. Conf. Pests Dis.2:715-720|1990|
155378|T||Speese III,J.|Control of Lepidopterous Pests on Cabbage, 1995|Arthropod Manag. Tests21:100-101|1996|10.1093/amt/21.1.100a
155379|T||Javaid,I.|Application of Insecticides on Cotton in Zambia: Comparison of Application Techniques|Insect Sci. Appl.12(1-3): 111-126|1991|
155381|T||Carcamo,H.A., L.M. Dosdall, D. Johnson, and O. Olfert|Evaluation of Foliar and Seed Treatments for Control of the Cabbage Seedpod Weevil (Coleoptera: Curculionidae) in Canola|Can. Entomol.137(4): 476-487|2005|10.4039/n04-081
155382|T||Amatobi,C.I.|Field Evaluation of Some Insecticides for the Control of Insect Pests of Cowpea (Vigna unguiculata (L.) Walp.) in the Sudan Savanna of Nigeria|Int. J. Pest Manag.40(1): 13-17|1994|10.1080/09670879409371846
155383|T||Ayalew,G.|Comparison of Yield Loss on Cabbage from Diamondback Moth, Plutella xylostella L. (Lepidoptera: Plutellidae) Using Two Insecticides|Crop Prot.25(9): 915-919|2006|10.1016/j.cropro.2005.12.001
155384|T||Chahal,G.S.|Characterization of Biological and Physical Interactions Among Pesticides and Other Agrochemicals|Ph.D. Thesis, North Carolina State University, Raleigh, NC:463 p.|2011|
155385|T||Shankarganesh,K., S. Walia, S. Dhingra, B. Subrahmanyam, and S. Ramesh Babu|Effect of Dihydrodillapiole on Pyrethroid Resistance Associated Esterase Inhibition in an Indian Population of Spodoptera litura (Fabricius)|Pestic. Biochem. Physiol.PRESS:5 p.|2011|
155386|T||Vang,L.V., N.D. Do, L.K. An, P.K. Son, and T. Ando|Sex Pheromone Components and Control of the Citrus Pock Caterpillar, Prays endocarpa, Found in the Mekong Delta of Vietnam|J. Chem. Ecol.37(1): 134-140|2011|10.1007/s10886-010-9883-2
155387|T||Youseff,M.I.|Vitamin E Modulates Reproductive Toxicity of Pyrethroid lambda-Cyhalothrin in Male Rabbits|Food Chem. Toxicol.48(5): 1152-1159|2010|10.1016/j.fct.2010.02.002
155388|T||Garcia,M., A. Scheffczyk, T. Garcia, and J. Rombke|The Effects of the Insecticide lambda-Cyhalothrin on the Earthworm Eisenia fetida Under Experimental Conditions of Tropical and Temperate Regions|Environ. Pollut.159(2): 398-400|2011|10.1016/j.envpol.2010.10.038
155389|T||Barik,S.R., P. Ganguly, S.K. Kunda, R.K. Kole, and A. Bhattacharyya|Persistence Behaviour of Thiamethoxam and lambda Cyhalothrin in Transplanted Paddy|Bull. Environ. Contam. Toxicol.85(4): 419-422|2010|10.1007/s00128-010-0101-2
155390|T||Akey,D.H., and T.J. Henneberry|Beet Armyworm (Lepidoptera: Noctuidae) Behavior and Effects on Insecticide Efficacy in Open and Closed Cotton Flowers and Boll Abscission or Damage from Flower Infestation|J. Econ. Entomol.91(1): 263-266|1998|10.1093/jee/91.1.263
155391|T||Krell,R.K., L.P. Pedigo, J.H. Hill, and M.E. Rice|Bean Leaf Beetle (Coleoptera: Chrysomelidae) Management for Reduction of Bean Pod Mottle Virus|J. Econ. Entomol.97(2): 192-202|2004|10.1093/jee/97.2.192
155392|T||Blandino,M., A. Reyneri, F. Vanara, M. Pascale, M. Haidukowski, and M. Saporiti|Effect of Sowing Date and Insecticide Application Against European Corn Borer (Lepidoptera: Crambidae) on Fumonisin Contamination in Maize Kernels|Crop Prot.27(11): 1432-1436|2008|10.1016/j.cropro.2008.06.005
155393|T||Beuzelin,J.M., W. Akbar, A. Meszaros, F.P.F. Reay-Jones, and T.E. Reagan|Field Assessment of Novaluron for Sugarcane Borer, Diatraea saccharalis (F.) (Lepidoptera: Crambidae), Management in Louisiana Sugarcane|Crop Prot.29(10): 1168-1176|2010|10.1016/j.cropro.2010.06.004
155394|T||Hirosawa,N., J. Ueyama, T. Kondo, M. Kamijima, K. Takagi, S. Fujinaka, A. Hirate, T. Hasegawa, and S. Wakusawa|Effect of DDVP on Urinary Excretion Levels of Pyrethroid Metabolite 3-Phenoxybenzoic Acid in Rats|Toxicol. Lett.203(1): 28-32|2011|10.1016/j.toxlet.2011.02.016
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155396|T||Kuhar,T.P., B.A. Nault, E.M. Hitchner, and J. Speese III|Evaluation of Action Threshold-Based Insecticide Spray Programs for Tomato Fruitworm Management in Fresh-Market Tomatoes in Virginia|Crop Prot.25(6): 604-612|2006|10.1016/j.cropro.2005.08.016
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155485|T||Norsworthy,J.K., M. McClelland, and G.M. Griffith|Conyza canadensis (L.) Cronquist Response to Pre-Plant Application of Residual Herbicides in Cotton (Gossypium hirsutum L.)|Crop Prot.28(1): 62-67|2009|10.1016/j.cropro.2008.08.012
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155488|T||Druart,C., M. Millet, R. Scheifler, O. Delhomme, C. Raeppel, and A. De Vaufleury|Snails as Indicators of Pesticide Drift, Deposit, Transfer and Effects in the Vineyard|Sci. Total Environ.409(20): 4280-4288|2011|10.1016/j.scitotenv.2011.07.006
155489|T||Lee,K.W., K.Y. Kim, K.H. Kim, B.H. Lee, J.S. Kim, and S.H. Lee|Development of Antibiotic Marker-Free Creeping Bentgrass Resistance Against Herbicides|Acta Biochim. Biophys. Sin.43(1): 13-18|2011|10.1093/abbs/gmq106
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155593|T||Bostanian,N.J., S. Beudjekian, E. McGregor, and G. Racette|A Modified Excised Leaf Disc Method to Estimate the Toxicity of Slow- and Fast-Acting Reduced-Risk Acaricides to Mites|J. Econ. Entomol.102(6): 2084-2089|2009|10.1603/029.102.0610
155594|T||Hattab,S., B. Dridi, L. Chouba, M.B. Kheder, and H. Bousetta|Photosynthesis and Growth Responses of Pea Pisum sativum L. Under Heavy Metals Stress|J. Environ. Sci.21(11): 1552-1556|2009|10.1016/S1001-0742(08)62454-7
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155624|T||Hutchinson,P.J.S., B.R. Beutler, and D.M. Hancock|Desiccant Evaluations: Late-Season Hairy Nightshade (Solanum sarrachoides) Control and Seed Response|Weed Technol.20(1): 37-40|2006|10.1614/WT-04-291R2.1
155625|T||He,T., H.V.B. Hirsch, D.M. Ruden, and G.A. Lnenicka|Chronic Lead Exposure Alters Presynaptic Calcium Regulation and Synaptic Facilitation in Drosophila Larvae|Neurotoxicology30(5): 777-784|2009|10.1016/j.neuro.2009.08.007
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155650|T||Jiang,D.X., X.L. Lu, S. Hu, X.B. Zhang, and H.H. Xu|A New Derivative of Fipronil:  Effect of Adding a Glycinyl Group to the 5-Amine of Pyrazole on Phloem Mobility and Insecticidal Activity|Pestic. Biochem. Physiol.95(3): 126-130|2009|10.1016/j.pestbp.2009.07.012
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155655|T||Gunay,N., Z. Kekec, S. Demiryurek, A. Kose, E.S. Namiduru, N.E. Gunay, I. Sari, and A.T. Demiryurek|Cardiac Effects of Magnesium Sulfate Pretreatment on Acute Dichlorvos-Induced Organophosphate Poisoning:  An Experimental Study in Rats|Biol. Trace Elem. Res.133(2): 227-235|2010|10.1007/s12011-009-8418-6
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155657|T||Goncalves,J.F., F.T. Nicoloso, A.G. Becker, L.B. Pereira, L.A. Tabaldi, D. Cargnelutti, C.M.G. De Pelegrin, V.L. Dressl|Photosynthetic Pigments Content, delta-Aminolevulinic Acid Dehydratase and Acid Phosphatase Activities and Mineral Nutrients Concentration in Cadmium-Exposed Cucumis sativus L.|Biologia (Bratisl.)64(2): 310-318|2009|10.2478/s11756-009-0034-6
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155659|T||Guo,X., Y. Ma, X. Wang, and S. Chen|Re-Evaluating the Effects of Organic Ligands on Copper Toxicity to Barley Root Elongation in Culture Solution|Chem. Spec. Bioavail.22(1): 51-59|2010|10.3184/095422910X12632121425090
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155661|T||Droge-Laser,W., U. Siemeling, A. Puhler, and I. Broer|The Metabolites of the Herbicide L-Phosphinothricin (Glufosinate): Identification, Stability, and Mobility in Transgenic, Herbicide-Resistant, and Untransformed Plants|Plant Physiol.105(1): 159-166|1994|10.1104/pp.105.1.159
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155664|T||Gramaje,D., A. Aroca, R. Raposo, J. Garcia-Jimenez, and J. Armengol|Evaluation of Fungicides to Control Petri Disease Pathogens in the Grapevine Propagation Process|Crop Prot.28(12): 1091-1097|2009|10.1016/j.cropro.2009.05.010
155665|T||Eady,C.C., and C.E. Lister|A Comparison of Four Selective Agents for Use with Allium cepa L. Immature Embryos and Immature Embryo-Derived Cultures|Plant Cell Rep.18(1/2): 117-121|1998|10.1007/s002990050542
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155668|T||Ganguly,S., S. Bhattacharya, S. Mandi, and J. Tarafdar|Biological Detection and Analysis of Toxicity of Organophosphate- and Azadirachtin-Based Insecticides in Lathyrus sativus L.|Ecotoxicology19(1): 85-95|2010|10.1007/s10646-009-0391-5
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155771|T||Emond,C., J.H. Raymer, W.B. Studabaker, C.E. Garner, and L.S. Birnbaum|A Physiologically Based Pharmacokinetic Model for Developmental Exposure to BDE-47 in Rats|Toxicol. Appl. Pharmacol.242(3): 290-298|2010|10.1016/j.taap.2009.10.019
155772|T||Girgi,M., M.M. O'Kennedy, A. Morgenstern, G. Mayer, H. Lorz, and K.H. Oldach|Transgenic and Herbicide Resistant Pearl Millet (Pennisetum glaucum L.) R.Br. via Microprojectile Bombardment of Scutellar Tissue|Mol. Breed.10(4): 243-252|2002|10.1023/A:1020558315265
155773|T||Harcourt,R.L., J. Kyozuka, R.B. Floyd, K.S. Bateman, H. Tanaka, V. Decroocq, D.J. Llewellyn, X. Zhu, W.J. Peacock, and |Insect- and Herbicide-Resistant Transgenic Eucalypts|Mol. Breed.6(3): 307-315|2000|10.1023/A:1009676214328
155774|T||Jayaraj,J., and Z.K. Punja|Combined Expression of Chitinase and Lipid Transfer Protein Genes in Transgenic Carrot Plants Enhances Resistance to Foliar Fungal Pathogens|Plant Cell Rep.26(9): 1539-1546|2007|10.1007/s00299-007-0368-x
155775|T||Kang,T.J., S.C. Han, and M.S. Yang|Expression of the B Subunit of E. coli Heat-Labile Enterotoxin in Tobacco Using a Herbicide Resistance Gene as a Selection Marker|Plant Cell Tissue Organ Cult.81(2): 165-174|2005|10.1007/s11240-004-4734-x
155776|T||Kittiwongwattana,C., K. Lutz, M. Clark, and P. Maliga|Plastid Marker Gene Excision by the PhiC31 Phage Site-Specific Recombinase|Plant Mol. Biol.64(1/2): 137-143|2007|10.1007/s11103-007-9140-4
155777|T||Gardner,C.R., J.P. Gray, L.B. Joseph, J. Cervelli, N. Bremer, Y. Kim, V. Mishin, J.D. Laskin, and D.L. Laskin|Potential Role of Caveolin-1 in Acetaminophen-Induced Hepatotoxicity|Toxicol. Appl. Pharmacol.245(1): 36-46|2010|10.1016/j.taap.2010.01.008
155778|T||Kobayashi,T., S. Hisajima, J. Stougaard, and H. Ichikawa|A Conditional Negative Selection for Arabidopsis Expressing a Bacterial Cytosine Deaminase Gene|Idengaku Zasshi70(3): 409-422|1995|
155781|T||Kuai,B., S.J. Dalton, A.J.E. Bettany, and P. Morris|Regeneration of Fertile Transgenic Tall Fescue Plants with a Stable Highly Expressed Foreign Gene|Plant Cell Tissue Organ Cult.58(2): 149-154|1999|10.1023/A:1006340001405
155782|T||Kumar,S., and M.P. Timko|Enhanced Tissue-Specific Expression of the Herbicide Resistance bar Gene in Transgenic Cotton (Gossypium hirsutum L cv. Coker 310FR) Using the Arabidopsis rbcS ats1A Promoter|Plant Biotechnol.21(4): 251-259|2004|10.5511/plantbiotechnology.21.251
155784|T||Li,X., Z. Gong, H. Koiwa, X. Niu, J. Espartero, X. Zhu, P. Veronese, B. Ruggiero, R.A. Bressan, S.C. Weller, and P.M. H|Bar-Expressing Peppermint (Mentha x piperita L. var. Black Mitcham) Plants are Highly Resistant to the Glufosinate Herbicide Liberty|Mol. Breed.8(2): 109-118|2001|10.1023/A:1013316816955
155785|T||Li,R.F., J.H. Wei, H.Z. Wang, J. He, and Z.Y. Sun|Development of Highly Regenerable Callus Lines and Agrobacterium-Mediated Transformation of Chinese Lawngrass (Zoysia sinica Hance) with a Cold Inducible Transcription Factor, CBF1|Plant Cell Tissue Organ Cult.85(3): 297-305|2006|10.1007/s11240-006-9080-8
155786|T||Escandon,A.S., and G. Hahne|Genotype and Composition of Culture Medium are Factors Important in the Selection for Transformed Sunflower (Helianthus annuus) Callus|Physiol. Plant. (Multiple Languages)81(3): 367-376|1991|10.1111/j.1399-3054.1991.tb08745.x
155787|T||Hawkes,T., W. Pline-Srnic, R. Dale, E. Friend, T. Hollinshead, P. Howe, P. Thompson, R. Viner, and A. Greenland|D-Glufosinate as a Male Sterility Agent for Hybrid Seed Production|Plant Biotechnol. J.9(3): 301-314|2011|10.1111/j.1467-7652.2010.00549.x
155788|T||Karunaratne,S., A. Sohn, A. Mouradov, J. Scott, H.H. Steinbiss, and K.J. Scott|Transformation of Wheat with the Gene Encoding the Coat Protein of Barley Yellow Mosaic Virus|Aust. J. Plant Physiol.23(4): 429-435|1996|
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155792|T||Aragao,F.J.L., G.R. Vianna, M.M.C. Albino, and E.L. Rech|Transgenic Dry Bean Tolerant to the Herbicide Glufosinate Ammonium|Crop Sci.42(4): 1298-1302|2002|10.2135/cropsci2002.1298
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155795|T||Curtis,I.S., and H.G. Nam|Transgenic Radish (Raphanus sativus L. Longipinnatus Bailey) by Floral-Dip Method - Plant Development and Surfactant are Important in Optimizing Transformation Efficiency|Transgenic Res.10(4): 363-371|2001|10.1023/A:1016600517293
155796|A||Facciolo,R.M., M. Crudo, G. Giusi, and M. Canonaco|GABAergic Influences on ORX Receptor-Dependent Abnormal Motor Behaviors and Neurodegenerative Events in Fish|Toxicol. Appl. Pharmacol.243(1): 77-86|2010|10.1016/j.taap.2009.11.015
155797|T||Galbiati,M., M.A. Moreno, G. Nadzan, M. Zourelidou, and S.L. Dellaporta|Large-Scale T-DNA Mutagenesis in Arabidopsis for Functional Genomic Analysis|Funct. Integr. Geonom.1(1): 25-34|2000|
155799|T||Duquene,L., H. Vandenhove, F. Tack, M. Van Hees, and J. Wannijn|Diffusive Gradient in Thin FILMS (DGT) Compared with Soil Solution and Labile Uranium Fraction for Predicting Uranium Bioavailability to Ryegrass|J. Environ. Radioact.101(2): 140-147|2010|10.1016/j.jenvrad.2009.09.007
155800|T||Hadibarata,T., and S. Tachibana|Characterization of Phenanthrene Degradation by Strain Polyporus sp. S133|J. Environ. Sci.22(1): 142-149|2010|10.1016/S1001-0742(09)60085-1
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155802|T||Webster,T.M., W.W. Hanna, and B.G.,Jr. Mullinix|Bermudagrass (Cynodon spp.) Dose-Response Relationships with Clethodim, Glufosinate and Glyphosate|Pest Manag. Sci.60(12): 1237-1244|2004|10.1002/ps.934
155803|T||Zhang,W., and W. Chen|Role of Salicylic Acid in Alleviating Photochemical Damage and Autophagic Cell Death Induction of Cadmium Stress in Arabidopsis thaliana|Photochem. Photobiol. Sci.10(6): 947-955|2011|10.1039/c0pp00305k
155804|T||Toler,J.E., T.G. Willis, A.G. Estes, and L.B. McCarty|Postemergent Annual Bluegrass Control in Dormant Nonoverseeded Bermudagrass Turf|Hortscience42(3): 670-672|2007|10.21273/HORTSCI.42.3.670
155805|T||Khalvati,M., B. Bartha, A. Dupigny, and P. Schroder|Arbuscular Mycorrhizal Association is Beneficial for Growth and Detoxification of Xenobiotics of Barley Under Drought Stress|J. Soils Sediments10(1): 54-64|2010|10.1007/s11368-009-0119-4
155806|A||Kalman,J., B.D. Smith, I. Riba, J. Blasco, and P.S. Rainbow|Biodynamic Modelling of the Accumulation of Ag, Cd and Zn by the Deposit-Feeding Polychaete Nereis diversicolor:  Inter-Population Variability and a Generalised Predictive Model|Mar. Environ. Res.69(5): 363-373|2010|10.1016/j.marenvres.2010.01.001
155807|T||Griffin,J.L., D.K. Miller, and M.E. Salassi|Johnsongrass (Sorghum halepense) Control and Economics of Using Glyphosate-Resistant Soybean in Fallowed Sugarcane Fields|Weed Technol.20(4): 980-985|2006|10.1614/WT-05-027.1
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155809|A||Warner,K.E.|Environmental Estrogens and Skeletal Development Disruption in the Fathead Minnow, a Teleost Model of Vertebrate Developmental Toxicity|Ph.D.Thesis, Oregon State University, Corvallis, OR:105 p.|2006|
155810|A||Ba-Omar,T.A., S. Al-Jardani, and R. Victor|Effects of Pesticide Temephos on the Gills of Aphanius dispar (Pisces:  Cyprinodontidae)|Tissue Cell43(1): 29-38|2011|10.1016/j.tice.2010.11.002
155811|A||Mikryakov,V.R., V.M. Stepanova, and G.A. Vinogradov|The Effect that Ammonium and a Deficiency of Calcium have on Lymphocyte Subpopulations in Common Carp (Cyprinus carpio L.)|Inland Water Biol.4(1): 101-103|2011|10.1134/S1995082910041030
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155814|A||Rao,S.R., U. Tripathi, and G.A. Ravishankar|Biotransformation of Codeine to Morphine in Freely Suspended Cells and Immobilized Cultures of Spirulina platensis|World J. Microbiol. Biotechnol.15(4): 465-469|1999|10.1023/A:1008975901642
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155816|T||Burke,I.C., S.D. Askew, J.L. Corbett, and J.W. Wilcut|Glufosinate Antagonizes Clethodim Control of Goosegrass (Eleusine indica)|Weed Technol.19(3): 664-668|2005|10.1614/WT-04-214R1.1
155817|T||Manazhy,A., J. Manazhy, K.V. Nair, and J.W. Reynolds|Sensitivity to Lead in Two Species of Earthworms (Oligochaeta: Megascolecidae)|Megadrilogica15(1): 1-8|2011|
155818|T||Majerus,V., P. Bertin, and S. Lutts|Abscisic Acid and Oxidative Stress Implications in Overall Ferritin Synthesis by African Rice (Oryza glaberrima Steud.) Seedlings Exposed to Short Term Iron Toxicity|Plant Soil324(1/2): 253-265|2009|10.1007/s11104-009-9952-x
155819|A||Sriprapat,W., and P. Thiravetyan|Phytoremediation of Diethylene Glycol Contaminated Wastewater by Echinodorus cordifolius|Int. J. Phytoremediat.13(6): 592-600|2011|10.1080/15226514.2010.525548
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155822|A||Li,Z.H., V. Zlabek, J. Velisek, R. Grabic, J. Machova, J. Kolarova, P. Li, and T. Randak|Antioxidant Responses and Plasma Biochemical Characteristics in the Freshwater Rainbow Trout, Oncorhynchus mykiss, After Acute Exposure to the Fungicide Propiconazole|Czech J. Anim. Sci.56(2): 61-69|2011|10.17221/35/2010-CJAS
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155827|T||Raoof,M.A., and O. Prakash|Effectiveness of Pre-Harvest Field Sprays of Various Chemicals Against Post-Harvest Diseases of Mango|Indian J. Plant Pathol.4(2): 189-190|1986|
155828|T||Ramamurthy,N.S., B.R. Rifkin, R.A. Greenwald, J.W. Xu, Y. Liu, G. Turner, L.M. Golub, and A.T. Vernillo|Inhibition of Matrix Metalloproteinase-Mediated Periodontal Bone Loss in Rats:  A Comparison of 6 Chemically Modified Tetracyclines|J. Periodontol.73(7): 726-734|2002|10.1902/jop.2002.73.7.726
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155845|A||Oweson,C., C. Li, I. Soderhall, and B. Hernroth|Effects of Manganese and Hypoxia on Coelomocyte Renewal in the Echinoderm, Asterias rubens (L.)|Aquat. Toxicol.100(1): 84-90|2010|10.1016/j.aquatox.2010.07.012
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155849|T||Relichova,J.|Shoot Apical Meristems and Existence of Several Mutations in Arabidopsis|Arabidopsis Inf. Serv.26:61-66|1988|
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155860|T||Pezalla,P.D., and C.W. Stevens|Behavioral Effects of Morphine, Levorphanol, Dextrorphan and Naloxone in the Frog Rana pipiens|Pharmacol. Biochem. Behav.21(2): 213-217|1984|10.1016/0091-3057(84)90217-X
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155865|T||Diaz,A., H. Maza, B. Gonzalez-Moro, M. Lacuesta, C. Gonzalez-Murua, and A. Munoz-Rueda|Phosphinothricin Reverts the Ammonia-Dependent Enhancement of Phosphoenolpyruvate Carboxylase Activity|J. Plant Physiol.145(1/2): 11-16|1995|10.1016/S0176-1617(11)81839-0
155866|T||Tillman,P.G.|Susceptibility of Three Parasitoids of Heliothis virescens to Field Rates of Selected Cotton Insecticides|Proc. Beltwide Cotton Conf.2:793-796|1996|
155867|T||Moser,V.C.|Age-Related Differences in Acute Neurotoxicity Produced by Mevinphos, Monocrotophos, Dicrotophos, and Phosphamidon|Neurotoxicol. Teratol.33(4): 451-457|2011|10.1016/j.ntt.2011.05.012
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155874|T||Sarria,R., E. Torres, F. Angel, P. Chavarriaga, and W.M. Roca|Transgenic Plants of Cassava (Manihot esculenta) with Resistance to Basta Obtained by Agrobacterium-Mediated Transformation|Plant Cell Rep.19(4): 339-344|2000|10.1007/s002990050737
155875|T||Krishnamurthy,K.V., K. Suhasini, A.P. Sagare, M. Meixner, A. De Kathen, T. Pickardt, and O. Schieder|Agrobacterium Mediated Transformation of Chickpea (Cicer arietinum L.) Embryo Axes|Plant Cell Rep.19(3): 235-240|2000|10.1007/s002990050005
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155877|T||Takahashi,W., T. Shimada, J. Matsushita, and O. Tanaka|Aluminium Borate Whisker-Mediated DNA Delivery into Callus of Rice and Production of Transgenic Rice Plant|Plant Prod. Sci.3(3): 219-224|2000|10.1626/pps.3.219
155878|T||Lee,B.K., S.H. Yu, Y.H. Kim, B.O. Ahn, H.S. Hur, S.C. Lee, Z. Zhang, and J.Y. Lee|Agrobacterium-Mediated Transformation of Perilla (Perilla frutescens)|Plant Cell Tissue Organ Cult.83(1): 51-58|2005|10.1007/s11240-005-3665-5
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155882|T||King,S.R., and E.S.,Jr. Hagood|Herbicide Programs for the Control of ALS-Resistant Shattercane (Sorghum bicolor) in Corn (Zea mays)|Weed Technol.20(2): 416-421|2006|10.1614/WT-05-127R1.1
155883|T||Cathcart,R.J., K. Chandler, and C.J. Swanton|Fertilizer Nitrogen Rate and the Response of Weeds to Herbicides|Weed Sci.52(2): 291-296|2004|10.1614/WS-03-049R
155885|T||Latha,A.M., K.V. Rao, T.P. Reddy, and V.D. Reddy|Development of Transgenic Pearl Millet (Pennisetum glaucum (L.) R. Br.) Plants Resistant to Downy Mildew|Plant Cell Rep.25(9): 927-935|2006|10.1007/s00299-006-0141-6
155886|T||Simard,M.J., A. Legere, G. Seguin-Swartz, H. Nair, and S. Warwick|Fitness of Double vs. Single Herbicide-Resistant Canola|Weed Sci.53(4): 489-498|2005|10.1614/WS-04-207R1
155887|T||Grey,T.L., P.L. Raymer, and D.C. Bridges|Herbicide-Resistant Canola (Brassica napus) Response and Weed Control with Postemergence Herbicides|Weed Technol.20(3): 551-557|2006|10.1614/WT-05-061R.1
155888|T||McCabe,M.S., F. Schepers, A. Van der Arend, U. Mohapatra, A.M.M. De Laat, J.B. Power, and M.R. Davey|Increased Stable Inheritance of Herbicide Resistance in Transgenic Lettuce Carrying a petE Promoter-Bar Gene Compared with a CaMV 35S-Bar Gene|Theor. Appl. Genet.99(3/4): 587-592|1999|10.1007/s001220051272
155889|T||Zagonel,J.|Herbicide Application Timing in Preharvest Desiccation of Soybean Cultivars with Different Growth Habits|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 13-20|2005|
155891|T||Beckie,H.J., G. Seguin-Swartz, H. Nair, S.I. Warwick, and E. Johnson|Multiple Herbicide-Resistant Canola can be Controlled by Alternative Herbicides|Weed Sci.52(1): 152-157|2004|10.1614/P2002-163
155892|A||McGinn,N.A.|Multidrug Resistance in Marine Invertebrate Eggs and Embryos:  Diversity of Phenotypes and Interactions with a Pharmaceutical Pollutant|Ph.D. Thesis, University of California, Davis:159 p.|2010|
155893|T||Nielson,R.L.|Volunteer Wheat (Triticum aestivum L.) Biological Parameters for the Development of a Mechanistic Agronomic Model|M.S. Thesis, University of Alberta, Canada:158 p.|2008|
155894|T||Smith,J.F.|Early-Season Management of Twospotted Spider Mite on Cotton and Impacts of Infestation Timing on Cotton Yield Loss|Ph.D. Thesis, Mississippi State University, Starkville, MS:124 p.|2010|
155895|T||Vermey,D.J.|Interactions Between Nitrogen and Velvetleaf (Abutilon theophrasti) Densities on Glufosinate and Glyphosate Efficacy|M.S. Thesis, University of Guelph, Canada:82 p.|2008|
155896|T||Ellis,J.M.|Glyphosate- and Glufosinate-Resistant Technologies:  Weed Management and Off-Target Crop Response|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:127 p.|2001|
155898|T||Davis,B.M.|Response of Rice and Wheat to Low Rates of Glufosinate and Glyphosate and Soybean Response to Glufosinate|M.S. Thesis, University of Arkansas, AR:60 p.|2010|
155899|T||Nolte,S.A.|Characterizing the Response of gdhA Transformed Tobacco to Glufosinate|Ph.D.Thesis, Southern Illinois University, Carbondale, IL:163 p.|2009|
155900|T||Herreno-Saenz,D., J.R. Ortiz, and A. Baez|Effects of 3-Nitrobenzothiazolo(3,2-a)Quinolinium Chloride (NBQ) and Doxorubicin on Lens Regeneration in the Adult Newt:  A Morphological Study|Differentiation55(3): 169-174|1994|10.1046/j.1432-0436.1994.5530169.x
155901|A||Doucette,M.|The Detection of the Pesticide Metabolite Triglutathione-Chlorothalonil in Fish Liver Following Acute Chlorothalonil Exposure and Use as a Diagnostic Tool for Fish Kills (La Detection du Metabolite Triglutathione-Chloro|M.S. Thesis, Universite de Moncton, Canada:93 p.|2009|
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155904|A||Groneveld,D., P.H.M. Balm, G.J.M. Martens, and S.E.W. Bonga|Differential Melanin-Concentrating Hormone Gene Expression in Two Hypothalamic Nuclei of the Teleost Tilapia in Response to Environmental Changes|J. Neuroendocrinol.7(7): 527-533|1995|10.1111/j.1365-2826.1995.tb00789.x
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155906|T||Harker,K.N., G.W. Clayton, J.T. O'Donovan, R.E. Blackshaw, and F.C. Stevenson|Herbicide Timing and Rate Effects on Weed Management in Three Herbicide-Resistant Canola (Brassica napus) Systems|Weed Technol.18(4): 1006-1012|2004|10.1614/WT-03-188R1
155907|T||Brabham,C.B.|The Inheritance, Fitness, and Control of Glyphosate-Resistant Giant Ragweed|M.S.Thesis, Purdue University, West Lafayette, IN:95 p.|2011|
155908|AT||Gammill,L.S., and H. Sive|Identification of Otx2 Target Genes and Restrictions in Ectodermal Competence During Xenopus Cement Gland Formation|Development124(2): 471-481|1997|10.1242/dev.124.2.471
155910|T||Everman,W.J., A.J. Lindsey, G.M. Henry, C.F. Glaspie, K. Phillips, and C. McKenney|Response of Miscanthus x giganteus and Miscanthus sinensis to Postemergence Herbicides|Weed Technol.25(3): 398-403|2011|10.1614/WT-D-11-00006.1
155911|AT||Chadzinska,M., E. Kolaczkowska, R. Seljelid, and B. Plytycz|Morphine Modulation of Peritoneal Inflammation in Atlantic Salmon and CB6 Mice|J. Leukoc. Biol.65:590-596|1999|10.1002/jlb.65.5.590
155912|A||Lee,J.A., I.D. Marsden, and C.N. Glover|The Influence of Salinity on Copper Accumulation and Its Toxic Effects in Estuarine Animals with Differing Osmoregulatory Strategies|Aquat. Toxicol.99(1): 65-72|2010|10.1016/j.aquatox.2010.04.006
155913|A||Laviale,M., J. Prygiel, and A. Creach|Light Modulated Toxicity of Isoproturon Toward Natural Stream Periphyton Photosynthesis:  A Comparison Between Constant and Dynamic Light Conditions|Aquat. Toxicol.97(4): 334-342|2010|10.1016/j.aquatox.2010.01.004
155914|T||Khandare,A., U. Kumar, and S. Rao|Magnesium Hydroxide for Protection Against Fluoride Toxicity in Rabbits|Fluoride44(1): 21-26|2011|
155915|T||Abe,T., M. Fukami, and M. Ogasawara|Effect of Hymexazole (3-Hydroxy-5-Methylisoxazole) on Cadmium Stress and Accumulation in Japanese Millet (Echinochloa frumentacea Link)|J. Pestic. Sci. (Multiple Languages)36(1): 48-52|2011|10.1584/jpestics.G10-29
155916|T||Clewis,S.B.|Weed Management Strategies in Conventional- and Reduced-Tillage Cotton Production Systems|Ph.D. Thesis, North Carolina State University, Raleigh, NC:167 p.|2007|
155917|A||Cachat,J., P. Canavello, M. Elegante, B. Bartels, P. Hart, C. Bergner, R. Egan, A. Duncan, D. Tien, A. Chung, K. Wong, |Modeling Withdrawal Syndrome in Zebrafish|Behav. Brain Res.208(2): 371-376|2010|10.1016/j.bbr.2009.12.004
155918|T||Bona,E., F. Marsano, N. Massa, C. Cattaneo, P. Cesaro, E. Argese, L.S. Di Toppi, M. Cavaletto, and G. Berta|Proteomic Analysis as a Tool for Investigating Arsenic Stress in Pteris vittata Roots Colonized or not by Arbuscular Mycorrhizal Symbiosis|J. Proteom.74(8 Sp. Iss.): 1338-1350|2011|10.1016/j.jprot.2011.03.027
155920|T||Gagne,G.|Implementation of a Bioherbicide Strategy for Golf Course Environments|M.S.Thesis, McGill University, Montreal, Canada:84 p.|2008|
155921|AT||Carbonell-Martin,G., J. Pro-Gonzalez, P. Aragonese-Grunert, M.M. Babin-Vich, C. Fernandez-Torija, and J.V. Tarazona-Laf|Targeting the Environmental Assessment of Veterinary Drugs with the Multi-Species-Soil System (MS.3) Agricultural Soil Microcosms: The Ivermectin Case Study|Spanish J. Agric. Res.9(2): 433-443|2011|10.5424/sjar/20110902-389-10
155922|T||Chand,N., D. Muhammad, F.R. Durrani, M.S. Qureshi, and S.S. Ullah|Protective Effects of Milk Thistle (Silybum marianum) Against Aflatoxin B1 in Broiler Chicks|Asian-Australas. J. Anim. Sci.24(7): 1011-1018|2011|10.5713/ajas.2011.10418
155923|T||Dordio,A., R. Ferro, D. Teixeira, A.J. Palace, A.P. Pinto, and C.M.B. Dias|Study on the Use of Typha spp. for the Phytotreatment of Water Contaminated with Ibuprofen|Int. J. Environ. Anal. Chem.91(7/8): 654-667|2011|10.1080/03067311003782708
155924|T||Jhala,A.J.|Environmental Biosafety of Genetically Engineered Crops: Flax (Linum usitatissimum L.) as a Model System|Ph.D. Thesis, University of Alberta, Canada:236 p.|2010|
155925|A||Campbell,A.K., K.T. Wann, and S.B. Matthews|Lactose Causes Heart Arrhythmia in the Water Flea Daphnia pulex|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.139(2): 225-234|2004|10.1016/j.cbpc.2004.07.004
155926|A||Chen,X.D., and J.D. Stark|Lethal and Sublethal Effects of the Neem Insecticide, Azatin, on the Crustacean Ceriodaphnia dubia|Biopestic. Int.6(2): 105-111|2010|
155927|T||Abdel-Aziem,S.H., A.A. El-Nekeety, I.A. Barakat, M.I. Mohamed, and M.A. Abdel-Wahhab|Aquilegia vulgaris Extract Protects Against the Oxidative Stress and the Mutagenic Effects of Cadmium in Balb/C Mice|Exp. Toxicol. Pathol.63(4): 337-344|2011|10.1016/j.etp.2010.02.008
155928|T||Edwards,M.R.A., M.F. Hetu, M. Columbus, A. Silva, and D.D. Lefebvre|The Effect of Ethylene Glycol on the Phytovolatilization of 1,4-Dioxane|Int. J. Phytoremediat.13(7): 702-716|2011|10.1080/15226514.2010.525553
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155931|T||Ryan,C.P.|Seasonal Development of Dollar Spot Epidemics in Maryland and Nitrogen Effects on Fungicide Performance in Creeping Bentgrass|M.S. Thesis, University of Maryland, College Park, MD:153 p.|2011|
155932|T||Schwartz,B.M.|Zoysiagrass Evaluation for DNA Content, Sting Nematode Response, Nitrogen Management, and Estimates of Heritability for Turfgrass Performance Traits|Ph.D Thesis, University of Florida, Gainesville, FL:128 p.|2008|
155933|T||Whitaker,J.R.|Distribution, Biology, and Management of Glyphosate-Resistant Palmer amaranth in North Carolina|Ph.D. Thesis, North Carolina State University, Raleigh, NC:247 p.|2009|
155934|T||Jhala,A.J., L.L. Raatz, J.E. Dexter, and L.M. Hall|Adventitious Presence: Volunteer Flax (Linum usitatissimum) in Herbicide-Resistant Canola (Brassica napus)|Weed Technol.24:244-252|2010|10.1614/WT-D-09-00003.1
155935|T||Everman,W.J., S.B. Clewis, A.C. York, and J.W. Wilcut|Weed Control and Yield with Flumioxazin, Fomesafen, and S-Metolachlor Systems for Glufosinate-Resistant Cotton Residual Weed Management|Weed Technol.23(3): 391-397|2009|10.1614/WT-09-007.1
155936|A||Reyhanian,N., K. Volkova, S. Hallgren, T. Bollner, P.E. Olsson, H. Olsen, and I.P. Hallstrom|17alpha-Ethinyl Estradiol Affects Anxiety and Shoaling Behavior in Adult Male Zebra Fish (Danio rerio)|Aquat. Toxicol.105(1/2): 41-48|2011|10.1016/j.aquatox.2011.05.009
155937|T||Radwan,M.A., K.S. El-Gendy, and A.F. Gad|Oxidative Stress Biomarkers in the Digestive Gland of Theba pisana Exposed to Heavy Metals|Arch. Environ. Contam. Toxicol.58(3): 828-835|2010|10.1007/s00244-009-9380-1
155938|A||Piotrowska,A., A. Bajguz, B. Godlewska-Zylkiewicz, and E. Zambrzycka|Changes in Growth, Biochemical Components, and Antioxidant Activity in Aquatic Plant Wolffia arrhiza (Lemnaceae) Exposed to Cadmium and Lead|Arch. Environ. Contam. Toxicol.58(3): 594-604|2010|10.1007/s00244-009-9408-6
155939|T||Romano,R.M., M.A. Romano, M.M. Bernardi, P.V. Furtado, and C.A. Oliveira|Prepubertal Exposure to Commercial Formulation of the Herbicide Glyphosate Alters Testosterone Levels and Testicular Morphology|Arch. Toxicol.84(4): 309-317|2010|10.1007/s00204-009-0494-z
155940|A||Rico,A., R. Geber-Correa, P.S. Campos, M.V.B. Garcia, A.V. Waichman, and P.J. Van den Brink|Effect of Parathion-Methyl on Amazonian Fish and Freshwater Invertebrates:  A Comparison of Sensitivity with Temperate Data|Arch. Environ. Contam. Toxicol.58(3): 765-771|2010|10.1007/s00244-009-9409-5
155941|T||Lamb,D.T., H. Ming, M. Megharaj, and R. Naidu|Phytotoxicity and Accumulation of Lead in Australian Native Vegetation|Arch. Environ. Contam. Toxicol.58(3): 613-621|2010|
155942|T||Rabea,E.I., H.M. Nasr, and M.E.I. Badawy|Toxic Effect and Biochemical Study of Chlorfluazuron, Oxymatrine, and Spinosad on Honey Bees (Apis mellifera)|Arch. Environ. Contam. Toxicol.58(3): 722-732|2010|10.1007/s00244-009-9403-y
155943|T||Lima,M.I.S., V.O. Arruda, E.V.C. Alves, A.P. Silva de Azevedo, S.G. Monteiro, and S.R.F. Pereira|Genotoxic Effects of the Antileishmanial Drug Glucantime|Arch. Toxicol.84(3): 227-232|2010|10.1007/s00204-009-0485-0
155944|T||Novick,R.M., C.M. Vezina, and A.A. Elfarra|Isoform Distinct Time-, Dose-, and Castration-Dependent Alterations in Flavin-Containing Monooxygenase Expression in Mouse Liver After 2,3,7,8-Tetrachlorodibenzo-p-Dioxin Treatment|Biochem. Pharmacol.79(9): 1345-1351|2010|10.1016/j.bcp.2009.12.020
155945|T||Lei,J., M. Leser, and E. Enan|Nematicidal Activity of Two Monoterpenoids and SER-2 Tyramine Receptor of Caenorhabditis elegans|Biochem. Pharmacol.79(7): 1062-1071|2010|10.1016/j.bcp.2009.11.002
155946|A||Menchaca,I., M.J. Belzunce, J. Franco, J.M. Garmendia, N. Montero, and M. Revilla|Sensitivity Comparison of Laboratory-Cultured and Field-Collected Amphipod Corophium multisetosum in Toxicity Tests|Bull. Environ. Contam. Toxicol.84(4): 390-394|2010|10.1007/s00128-010-9960-9
155947|A||Park,K., and I.S. Kwak|Molecular Effects of Endocrine-Disrupting Chemicals on the Chironomus riparius Estrogen-Related Receptor Gene|Chemosphere79(9): 934-941|2010|10.1016/j.chemosphere.2010.03.002
155948|T||Lemos,M.F.L., C.A.M. Van Gestel, and A.M.V.M. Soares|Reproductive Toxicity of the Endocrine Disrupters Vinclozolin and Bisphenol A in the Terrestrial Isopod Porcellio scaber (Latreille, 1804)|Chemosphere78(7): 907-913|2010|10.1016/j.chemosphere.2009.10.063
155949|T||Lemos,M.F.L., A.C. Esteves, B. Samyn, I. Timperman, J. Van Beeumen, A. Correia, C.A.M. Van Gestel, and A.M.V.M. Soares|Protein Differential Expression Induced by Endocrine Disrupting Compounds in a Terrestrial Isopod|Chemosphere79(5): 570-576|2010|10.1016/j.chemosphere.2010.01.055
155950|A||Lopez-Galindo,C., L. Vargas-Chacoff, E. Nebot, J.F. Casanueva, D. Rubio, M. Sole, and J.M. Mancera|Biomarker Responses in Solea senegalensis Exposed to Sodium Hypochlorite Used as Antifouling|Chemosphere78(7): 885-893|2010|10.1016/j.chemosphere.2009.11.022
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155952|T||Howard,S.W., J.S. Cameron, and C.B. MacConnell|Evaluation of Cane Burning Materials for Red Raspberry|Acta Hortic.262:365-372|1989|10.17660/ActaHortic.1989.262.52
155953|A||Modesto,K.A., and C.B.R. Martinez|Roundup Causes Oxidative Stress in Liver and Inhibits Acetylcholinesterase in Muscle and Brain of the Fish Prochilodus lineatus|Chemosphere78(3): 294-299|2010|10.1016/j.chemosphere.2009.10.047
155954|T||Moreno-Jimenez,E., E. Esteban, T. Fresno, C. Lopez de Egea, and J.M. Penalosa|Hydroponics as a Valid Tool to Assess Arsenic Availability in Mine Soils|Chemosphere79(5): 513-517|2010|10.1016/j.chemosphere.2010.02.034
155955|T||Saifullah, M.H. Zia, E. Meers, A. Ghafoor, G. Murtaza, M. Sabir, M. Zia-Ur-Rehman, and F.M.G. Tack|Chemically Enhanced Phytoextraction of Pb by Wheat in Texturally Different Soils|Chemosphere79(6): 652-658|2010|10.1016/j.chemosphere.2010.01.066
155956|A||Revathi,P., and N. Munuswamy|Effect of Tributyltin on the Early Embryonic Development in the Freshwater Prawn Macrobrachium rosenbergii (De Man)|Chemosphere79(9): 922-927|2010|10.1016/j.chemosphere.2010.03.023
155957|T||Knott,C.M.|Control of Volunteer Oilseed Rape in Peas|Br. Crop Prot. Conf. Weeds3:889-894|1995|
155958|T||Miller,R.P., K.B. Martinson, R.B. Sothern, B.R. Durgan, and J.L. Gunsolus|Circadian Response of Annual Weeds in a Natural Setting to High and Low Application Rates of Four Herbicides with Different Modes of Action|Chronobiol. Int.20(2): 299-324|2003|10.1081/CBI-120019344
155959|T||Popelka,J.C., J. Xu, and F. Altpeter|Generation of Rye (Secale cereale L.) Plants with Low Transgene Copy Number After Biolistic Gene Transfer and Production of Instantly Marker-Free Transgenic Rye|Transgenic Res.12(5): 587-596|2003|10.1023/A:1025822731661
155960|T||Espinosa,P., J.C. Lorenzo, A. Iglesias, L. Yabor, E. Menendez, J. Borroto, L. Hernandez, and A.D. Arencibia|Production of Pineapple Transgenic Plants Assisted by Temporary Immersion Bioreactors|Plant Cell Rep.21(2): 136-140|2002|10.1007/s00299-002-0481-9
155961|T||Bell,C.G.|Weed Control and Economic Evaluation in Glyphosate-, Glufosinate-, Glyphosate Acetyltransferase-Resistant, and Conventional Soybean|M.S. Thesis, University of Arkansas, Fayetteville, AR:104 p.|2011|
155962|T||Ludke,J.L., E.F. Hill, and M.P. Dieter|Cholinesterase (ChE) Response and Related Mortality Among Birds Fed ChE Inhibitors|Arch. Environ. Contam. Toxicol.3(1): 1-21|1975|10.1007/BF02221128
155963|T||Miller,D.K., R.G. Downer, and D.O. Stephenson IV|Interactive Effects of Tank-Mixed Application of Insecticide, Glyphosate, and Pendimethalin on Growth and Yield of Second-Generation Glyphosate-Resistant Cotton|J. Cotton Sci.14(3): 186-190|2010|
155964|T||Eady,C., S. Davis, J. Farrant, J. Reader, and F. Kenel|Agrobacterium Tumefaciens-Mediated Transformation and Regeneration of Herbicide Resistant Onion (Allium cepa) Plants|Ann. Appl. Biol.142(2): 213-217|2003|10.1111/j.1744-7348.2003.tb00243.x
155965|T||Ikuenobe,C.E., and A.O. Ayeni|Herbicidal Control of Chromolaena odorata in Oil Palm|Weed Res. (Multiple Languages)38(6): 397-404|1998|10.1046/j.1365-3180.1998.00094.x
155966|T||Osuna,M.D., A.J. Fischer, and R. De Prado|Herbicide Resistance in Aster squamatus Conferred by a Less Sensitive Form of Acetolactate Synthase|Pest Manag. Sci.59(11): 1210-1216|2003|10.1002/ps.757
155967|T||Pant,P., M. Allen, and B. Tansel|Mercury Uptake and Translocation in Impatiens walleriana Plants Grown in the Contaminated Soil from Oak Ridge|Int. J. Phytoremediat.13(2): 168-176|2011|10.1080/15226510903567489
155968|A||Rigos,G., I. Nengas, M. Alexis, and G.M. Troisi|Potential Drug (Oxytetracycline and Oxolinic Acid) Pollution from Mediterranean Sparid Fish Farms|Aquat. Toxicol.69(3): 281-288|2004|10.1016/j.aquatox.2004.05.009
155969|A||Phillips,N.R., and C.W. Hickey|Genotype-Dependent Recovery from Acute Exposure to Heavy Metal Contamination in the Freshwater Clam Sphaerium novaezelandiae|Aquat. Toxicol.99(4): 507-513|2010|10.1016/j.aquatox.2010.07.004
155970|A||Bugiak,B.J., and L.P. Weber|Phenotypic Anchoring of Gene Expression After Developmental Exposure to Aryl Hydrocarbon Receptor Ligands in Zebrafish|Aquat. Toxicol.99(3): 423-437|2010|10.1016/j.aquatox.2010.06.003
155971|A||Mecozzi,M., and F. Oteri|Effects of Arsenic Alone and in Combination with Other Pollutants in Dunaliella tertiolecta|Chem. Ecol.27(Suppl. 1): 53-65|2011|10.1080/02757540.2010.536154
155972|A||Ivanina,A.V., E.P. Sokolov, and I.M. Sokolova|Effects of Cadmium on Anaerobic Energy Metabolism and mRNA Expression During Air Exposure and Recovery of an Intertidal Mollusk Crassostrea virginica|Aquat. Toxicol.99(3): 330-342|2010|10.1016/j.aquatox.2010.05.013
155973|A||Pesce,S., S. Lissalde, D. Lavieille, C. Margoum, N. Mazzella, V. Roubeix, and B. Montuelle|Evaluation of Single and Joint Toxic Effects of Diuron and Its Main Metabolites on Natural Phototrophic Biofilms Using a Pollution-Induced Community Tolerance (PICT) Approach|Aquat. Toxicol.99(4): 492-499|2010|10.1016/j.aquatox.2010.06.006
155974|A||Peh,W.Y.X., S.F. Chew, B.Y. Ching, A.M. Loong, and Y.K. Ip|Roles of Intestinal Glutamate Dehydrogenase and Glutamine Synthetase in Environmental Ammonia Detoxification in the Euryhaline Four-Eyed Sleeper, Bostrychus sinensis|Aquat. Toxicol.98(1): 91-98|2010|10.1016/j.aquatox.2010.01.018
155975|A||Paris-Palacios,S., Y.Y. Mosleh, M. Almohamad, L. Delahaut, A. Conrad, F. Arnoult, and S. Biagianti-Risbourg|Toxic Effects and Bioaccumulation of the Herbicide Isoproturon in Tubifex tubifex (Oligocheate, Tubificidae):  A Study of Significance of Autotomy and Its Utility as a Biomarker|Aquat. Toxicol.98(1): 8-14|2010|10.1016/j.aquatox.2010.01.006
155976|A||Pavlikova,N., T.M. Kortner, and A. Arukwe|Peroxisome Proliferator-Activated Receptors, Estrogenic Responses and Biotransformation System in the Liver of Salmon Exposed to Tributyltin and Second Messenger Activator|Aquat. Toxicol.99(2): 176-185|2010|10.1016/j.aquatox.2010.04.014
155977|A||Pease,C.J., E.L. Johnston, and A.G.B. Poore|Genetic Variability in Tolerance to Copper Contamination in a Herbivorous Marine Invertebrate|Aquat. Toxicol.99(1): 10-16|2010|10.1016/j.aquatox.2010.03.014
155978|A||Panter,G.H., T.H. Hutchinson, K.S. Hurd, J. Bamforth, R.D. Stanley, J.R. Wheeler, and C.R. Tyler|Effects of a Weak Oestrogenic Active Chemical (4-tert-Pentylphenol) on Pair-Breeding and F1 Development in the Fathead Minnow (Pimephales promelas)|Aquat. Toxicol.97(4): 314-323|2010|10.1016/j.aquatox.2009.12.019
155979|A||Basti,D., D. Bouchard, and A. Lichtenwalner|Safety of Florfenicol in the Adult Lobster (Homarus americanus)|J. Zoo Wildl. Med.42(1): 131-133|2011|10.1638/2010-0023.1
155980|T||Collange,B., C.E. Wheelock, M. Rault, C. Mazzia, Y. Capowiez, and J.C. Sanchez-Hernandez|Inhibition, Recovery and Oxime-Induced Reactivation of Muscle Esterases Following Chlorpyrifos Exposure in the Earthworm Lumbricus terrestris|Environ. Pollut.158(6): 2266-2272|2010|10.1016/j.envpol.2010.02.009
155981|T||Zhou,Y., L. Wang, L. Han, F. Meng, and C. Yang|Synthesis, Antifungal Activities, and Potential Detoxification of N-(2,3,4,6-tetra-O-acetyl-beta-D-glucopyranosyl)thiocarbamates|Carbohydr. Res.344(11): 1289-1296|2009|10.1016/j.carres.2009.05.008
155982|T||Henricks,D.M., S.L. Gray, J.J. Owenby, and B.R. Lackey|Residues from Anabolic Preparations After Good Veterinary Practice|APMIS Acta Pathol. Microbiol. Immunol. Scand.109(4): 273-283|2001|10.1034/j.1600-0463.2001.d01-120.x
155983|T||Galbraith,H., and A.D. Berry|Effect of Naturally Occurring and Synthetic Androgens on Growth, Body Composition and Muscle Glucocorticoid Receptors in Wether Lambs|Anim. Prod.58(3): 357-364|1994|
155984|T||Sillence,M.N., K.M. Thomas, H. Anil, E.J. Redfern, and R.G. Rodway|Adrenal Function in Lambs Treated with Androgenic and Oestrogenic Growth Stimulants|Anim. Prod.44(2): 241-249|1987|
155985|T||Zhu,J., Y. Lu, and W. Chen|Single and Joint Toxic Effects of Cadmium and Phenanthrene on Enchytraeid Fridericia bulbosa|Eur. J. Soil Sci.44(3): 260-265|2008|
155986|A||Alves,L.C., U. Borgmann, and D.G. Dixon|Kinetics of Uranium Uptake in Soft Water and the Effect of Body Size, Bioaccumulation and Toxicity to Hyalella azteca|Environ. Pollut.157(8/9): 2239-2247|2009|10.1016/j.envpol.2009.04.006
155987|T||Capowiez,Y., N. Dittbrenner, M. Rault, R. Triebskorn, M. Hedde, and C. Mazzia|Earthworm Cast Production as a New Behavioural Biomarker for Toxicity Testing|Environ. Pollut.158(2): 388-393|2010|10.1016/j.envpol.2009.09.003
155988|T||Britton,A.J., and J.M. Fisher|Terricolous Alpine Lichens are Sensitive to Both Load and Concentration of Applied Nitrogen and have Potential as Bioindicators of Nitrogen Deposition|Environ. Pollut.158(5): 1296-1302|2010|10.1016/j.envpol.2010.01.015
155989|T||Brentner,L.B., S.T. Mukherji, S.A. Walsh, and J.L. Schnoor|Localization of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) and 2,4,6-Trinitrotoluene (TNT) in Poplar and Switchgrass Plants Using Phosphor Imager Autoradiography|Environ. Pollut.158(2): 470-475|2010|10.1016/j.envpol.2009.08.022
155990|T||Braun,S., V.F.D. Thomas, R. Quiring, and W. Fluckiger|Does Nitrogen Deposition Increase Forest Production?  The Role of Phosphorus|Environ. Pollut.158(6): 2043-2052|2010|10.1016/j.envpol.2009.11.030
155991|T||Cheng,H., Y. Liu, N.F.Y. Tam, X. Wang, S.Y. Li, G.Z. Chen, and Z.H. Ye|The Role of Radial Oxygen Loss and Root Anatomy on Zinc Uptake and Tolerance in Mangrove Seedlings|Environ. Pollut.158(5): 1189-1196|2010|10.1016/j.envpol.2010.01.025
155992|A||Blinova,I., A. Ivask, M. Heinlaan, M. Mortimer, and A. Kahru|Ecotoxicity of Nanoparticles of CuO and ZnO in Natural Water|Environ. Pollut.158(1): 41-47|2010|10.1016/j.envpol.2009.08.017
155993|T||Banerjee,S., C. Mitra, and A.K. Mukherjee|Smooth Muscle Relaxant Properties and Vasomotor Actions of 2-Amino-1-p-Nitrophenylpropane-1,3-Diol|J. Pharm. Sci.66(9): 1239-1241|1977|10.1002/jps.2600660908
155994|A||Brewer,K.J., and D.M. Ensor|Hormonal Control of Osmoregulation in the Chelonia  I. The Effects of Prolactin and Interrenal Steroids in Freshwater Chelonians|Gen. Comp. Endocrinol.42(3): 304-309|1980|10.1016/0016-6480(80)90159-8
155995|A||Churchill,P.C., R.L. Malvin, and M.C. Churchill|Lack of Renal Effects of DOCA, ACTH, Spironolactone, and Angiotensin II in Squalus acanthias|J. Exp. Zool.234(1): 17-22|1985|10.1002/jez.1402340104
155996|T||Samsoe-Petersen,L., M. Bieri, and W. Buchs|Interpretation of Laboratory Measured Effects of Slug Pellets on Soil Dwelling Invertebrates|Asp. Appl. Biol.31:87-96|1992|
155997|A||Meier,S., H.C. Morton, E. Andersson, A.J. Geffen, G.L. Taranger, M. Larsen, M. Petersen, R. Djurhuus, J. Klungsoyr, and|Low-Dose Exposure to Alkylphenols Adversely Affects the Sexual Development of Atlantic Cod (Gadus morhua): Acceleration of the Onset of Puberty and Delayed Seasonal Gonad Development in Mature Female Cod|Aquat. Toxicol.105(1/2): 136-150|2011|10.1016/j.aquatox.2011.06.003
155998|A||Qu,X., K. Zhang, Z. Cui, Y. Zhang, J. Jiang, L. Feng, and Q. Liu|Construction and Analysis of Liver Suppression Subtractive Hybridization Library of Silver Carp (Hypophthalmichthys molitrix) Intraperitoneally Injected with Microcystin-LR|Aquat. Toxicol.105(1/2): 151-156|2011|10.1016/j.aquatox.2011.06.005
155999|A||Beggel,S., R. Connon, I. Werner, and J. Geist|Changes in Gene Transcription and Whole Organism Responses in Larval Fathead Minnow (Pimephales promelas) Following Short-Term Exposure to the Synthetic Pyrethroid Bifenthrin|Aquat. Toxicol.105(1/2): 180-188|2011|10.1016/j.aquatox.2011.06.004
156000|A||Arnold,W.R., R.L. Diamond, and D.S. Smith|"Acute and Chronic Toxicity of Copper to the Euryhaline Rotifer, Brachionus plicatilis (""L"" Strain)"|Arch. Environ. Contam. Toxicol.60(2): 250-260|2011|10.1007/s00244-010-9556-8
156001|A||Boyle,D., C. Hogstrand, and N.R. Bury|Physiological Response to a Metal-Contaminated Invertebrate Diet in Zebrafish: Importance of Metal Speciation and Regulation of Metal Transport Pathways|Aquat. Toxicol.105(1/2): 21-28|2011|10.1016/j.aquatox.2011.05.003
156002|A||Mane,P.C., A.B. Bhosle, and P.A. Kulkarni|Biosorption and Biochemical Study on Water Hyacinth (Eichhornia crassipes) with Reference to Selenium|Arch. Appl. Sci. Res.3(1): 222-229|2011|
156003|A||Piazza,Y.G., M. Pandolfi, and F.L. Lo Nostro|Effect of the Organochlorine Pesticide Endosulfan on GnRH and Gonadotrope Cell Populations in Fish Larvae|Arch. Environ. Contam. Toxicol.61(2): 300-310|2011|10.1007/s00244-010-9621-3
156004|A||Morillo-Velarde,P.S., J. Lloret, A. Marin, and F.J. Sanchez-Vazquez|Effects of Cadmium on Locomotor Activity Rhythms of the Amphipod Gammarus aequicauda|Arch. Environ. Contam. Toxicol.60(3): 444-451|2011|10.1007/s00244-010-9563-9
156005|A||Ayad,M.A., M.A. Fdil, and A. Mouabad|Effects of Cypermethrin (Pyrethroid Insecticide) on the Valve Activity Behavior, Byssal Thread Formation, and Survival in Air of the Marine Mussel Mytilus galloprovincialis|Arch. Environ. Contam. Toxicol.60(3): 462-470|2011|10.1007/s00244-010-9549-7
156006|A||Stevenson,L.M., A.C. Brown, T.M. Montgomery, and E.D. Clotfelter|Reproductive Consequences of Exposure to Waterborne Phytoestrogens in Male Fighting Fish Betta splendens|Arch. Environ. Contam. Toxicol.60(3): 501-510|2011|10.1007/s00244-010-9561-y
156007|A||Alonso,A., and J.A. Camargo|Subchronic Toxic Effects of Fluoride Ion on the Survival and Behaviour of the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca)|Arch. Environ. Contam. Toxicol.60(3): 511-517|2011|10.1007/s00244-010-9562-x
156008|A||Ortiz-Santaliestra,M.E., M.J. Fernandez-Beneitez, M. Lizana, and A. Marco|Influence of a Combination of Agricultural Chemicals on Embryos of the Endangered Gold-Striped Salamander (Chioglossa lusitanica)|Arch. Environ. Contam. Toxicol.60(4): 672-680|2011|10.1007/s00244-010-9570-x
156010|A||Banni,M., J. Jebali, H. Guerbej, F. Dondero, H. Boussetta, and A. Viarengo|Mixture Toxicity Assessment of Nickel and Chlorpyrifos in the Sea Bass Dicentrarchus labrax|Arch. Environ. Contam. Toxicol.60(1): 124-131|2011|10.1007/s00244-010-9529-y
156011|A||Vitova,M., K. Bisova, M. Hlavova, V. Zachleder, M. Rucki, and M. Cizkova|Glutathione Peroxidase Activity in the Selenium-Treated Alga Scenedesmus quadricauda|Aquat. Toxicol.102(1/2): 87-94|2011|10.1016/j.aquatox.2011.01.003
156012|A||Maunder,R.J., J. Buckley, A.L. Val, and K.A. Sloman|Accumulation of Dietary and Aqueous Cadmium into the Epidermal Mucus of the Discus Fish Symphysodon sp.|Aquat. Toxicol.103(3/4): 205-212|2011|10.1016/j.aquatox.2011.03.005
156013|A||Zhou,L., J. Li, X. Lin, and K.A.S. Al-Rasheid|Use of RAPD to Detect DNA Damage Induced by Nitrofurazone in Marine Ciliate, Euplotes vannus (Protozoa, Ciliophora)|Aquat. Toxicol.103(3/4): 225-232|2011|10.1016/j.aquatox.2011.03.002
156014|A||Thomas,J.K., and D.M. Janz|Dietary Selenomethionine Exposure in Adult Zebrafish Alters Swimming Performance, Energetics and the Physiological Stress Response|Aquat. Toxicol.102(1/2): 79-86|2011|10.1016/j.aquatox.2010.12.020
156015|A||Baldwin,D.H., C.P. Tatara, and N.L. Scholz|Copper-Induced Olfactory Toxicity in Salmon and Steelhead:  Extrapolation Across Species and Rearing Environments|Aquat. Toxicol.101(1): 295-297|2011|10.1016/j.aquatox.2010.08.011
156016|A||Vannini,C., G. Domingo, M. Marsoni, A. Fumagalli, R. Terzaghi, M. Labra, F. De Mattia, E. Onelli, and M. Bracale|Physiological and Molecular Effects Associated with Palladium Treatment in Pseudokirchneriella subcapitata|Aquat. Toxicol.102(1/2): 104-113|2011|10.1016/j.aquatox.2011.01.002
156017|A||Kwong,R.W.M., J.A. Andres, and S. Niyogi|Effects of Dietary Cadmium Exposure on Tissue-Specific Cadmium Accumulation, Iron Status and Expression of Iron-Handling and Stress-Inducible Genes in Rainbow Trout:  Influence of Elevated Dietary Iron|Aquat. Toxicol.102(1/2): 1-9|2011|10.1016/j.aquatox.2010.12.010
156018|A||Prado,R., C. Rioboo, C. Herrero, and A. Cid|Characterization of Cell Response in Chlamydomonas moewusii Cultures Exposed to the Herbicide Paraquat:  Induction of Chlorosis|Aquat. Toxicol.102(1/2): 10-17|2011|10.1016/j.aquatox.2010.12.013
156019|A||Thompson,E.L., D.A. Taylor, S.V. Nair, G. Birch, P.A. Haynes, and D.A. Raftos|A Proteomic Analysis of the Effects of Metal Contamination on Sydney Rock Oyster (Saccostrea glomerata) Haemolymph|Aquat. Toxicol.103(3/4): 241-249|2011|10.1016/j.aquatox.2011.03.004
156020|A||Riva,C., A. Binelli, F. Rusconi, G. Colombo, A. Pedriali, R. Zippel, and A. Provini|A Proteomic Study Using Zebra Mussels (D. polymorpha) Exposed to Benzo(alpha)pyrene:  The Role of Gender and Exposure Concentrations|Aquat. Toxicol.104(1/2): 14-22|2011|10.1016/j.aquatox.2011.03.008
156021|A||Cetin,A.K., N. Gur, and Z. Firat|Growth Rate of Scenedesmus acutus in Laboratory Cultures Exposed to Diazinon|Afr. J. Biotechnol.10(34): 6540-6543|2011|
156022|A||Sun,Q., W.B. Liu, and C. Wang|Different Response of Phytochelatins in Two Aquatic Macrophytes Exposed to Cadmium at Environmentally Relevant Concentrations|Afr. J. Biotechnol.10(33): 6292-6299|2011|
156023|A||Yekeen,T.A., and O.O. Fawole|Toxic Effects of Endosulfan on Haematological and Biochemical Indices of Clarias gariepinus|Afr. J. Biotechnol.10(64): 14090-14096|2011|10.5897/AJB10.2468
156024|A||Ahmad,Z.|Acute Toxicity and Haematological Changes in Common Carp (Cyprinus carpio) Caused by Diazinon Exposure|Afr. J. Biotechnol.10(63): 13852-13859|2011|10.5897/AJB11.1247
156025|T||Johnson,B.J.|Response of Bermudagrass (Cynodon spp.) Cultivars to Multiple Plant Growth Regulator Treatments|Weed Technol.4(3): 549-554|1990|10.1017/S0890037X00025951
156026|A||Gemmill,B., K. Pleskach, L. Peters, V. Palace, K. Wautier, B. Park, C. Darling, B. Rosenberg, R. McCrindle, and G.T. To|Toxicokinetics of Tetrabromoethylcyclohexane (TBECH) in Juvenile Brown Trout (Salmo trutta) and Effects on Plasma Sex Hormones|Aquat. Toxicol.101(2): 309-317|2011|10.1016/j.aquatox.2010.11.003
156027|A||Biales,A.D., D.C. Bencic, D.L. Villeneuve, G.T. Ankley, and D.L. Lattier|Proteomic Analysis of Zebrafish Brain Tissue Following Exposure to the Pesticide Prochloraz|Aquat. Toxicol.105(3/4): 618-628|2011|10.1016/j.aquatox.2011.08.021
156028|A||Franca,J.G., M.J.T.R. Paiva, S. Carvalho, L. Miashiro, and J.V. Lombardi|Toxicity of the Therapeutic Potassium Permanganate to Tilapia Oreochromis niloticus and to Non-Target Organisms Ceriodaphnia dubia (Microcrustacean cladocera) and Pseudokirchneriella subcapitata (Green Microalgae)|Aquaculture322/323:249-254|2011|10.1016/j.aquaculture.2011.10.003
156029|A||Planello,R., O. Herrero, J.L. Martinez-Guitarte, and G. Morcillo|Comparative Effects of Butyl Benzyl Phthalate (BBP) and Di(2-Ethylhexyl) Phthalate (DEHP) on the Aquatic Larvae of Chironomus riparius Based on Gene Expression Assays Related to the Endocrine System, the Stress Response|Aquat. Toxicol.105(1/2): 62-70|2011|10.1016/j.aquatox.2011.05.011
156030|A||Nair,P.M.G., S.Y. Park, S.W. Lee, and J. Choi|Differential Expression of Ribosomal Protein Gene, Gonadotrophin Releasing Hormone Gene and Balbiani Ring Protein Gene in Silver Nanoparticles Exposed Chironomus riparius|Aquat. Toxicol.101(1): 31-37|2011|10.1016/j.aquatox.2010.08.013
156031|A||Nair,P.M.G., and J. Choi|Identification, Characterization and Expression Profiles of Chironomus riparius Glutathione S-Transferase (GST) Genes in Response to Cadmium and Silver Nanoparticles Exposure|Aquat. Toxicol.101(3/4): 550-560|2011|10.1016/j.aquatox.2010.12.006
156032|A||Bonventre,J.A., L.A. White, and K.R. Cooper|Methyl Tert Butyl Ether Targets Developing Vasculature in Zebrafish (Danio rerio) Embryos|Aquat. Toxicol.105(1/2): 29-40|2011|10.1016/j.aquatox.2011.05.006
156033|A||Jacobson,T., B. Sundelin, G. Yang, and A.T. Ford|Low Dose TBT Exposure Decreases Amphipod Immunocompetence and Reproductive Fitness|Aquat. Toxicol.101(1): 72-77|2011|10.1016/j.aquatox.2010.09.001
156034|A||Jovanovic,B., L. Anastasova, E.W. Rowe, and D. Palic|Hydroxylated Fullerenes Inhibit Neutrophil Function in Fathead Minnow (Pimephales promelas Rafinesque, 1820)|Aquat. Toxicol.101(2): 474-482|2011|10.1016/j.aquatox.2010.11.002
156035|A||Devaux,A., L. Fiat, C. Gillet, and S. Bony|Reproduction Impairment Following Paternal Genotoxin Exposure in Brown Trout (Salmo trutta) and Arctic Charr (Salvelinus alpinus)|Aquat. Toxicol.101(2): 405-411|2011|10.1016/j.aquatox.2010.11.017
156036|A||Martins,C.M.G., I.F. Barcarolli, E.J. De Menezes, M.M. Giacomin, C.M. Wood, and A. Bianchini|Acute Toxicity, Accumulation and Tissue Distribution of Copper in the Blue Crab Callinectes sapidus Acclimated to Different Salinities:  In Vivo and In Vitro Studies|Aquat. Toxicol.101(1): 88-99|2011|10.1016/j.aquatox.2010.09.005
156037|A||Faria,M., A. Navarro, T. Luckenbach, B. Pina, and C. Barata|Characterization of the Multixenobiotic Resistance (MXR) Mechanism in Embryos and Larvae of the Zebra Mussel (Dreissena polymorpha) and Studies on Its Role in Tolerance to Single and Mixture Combinations of Toxicants|Aquat. Toxicol.101(1): 78-87|2011|10.1016/j.aquatox.2010.09.004
156038|A||Pytharopoulou,S., K. Grintzalis, E. Sazakli, M. Leotsinidis, C.D. Georgiou, and D.L. Kalpaxis|Translational Responses and Oxidative Stress of Mussels Experimentally Exposed to Hg, Cu and Cd:  One Pattern Does not Fit at All|Aquat. Toxicol.105(1/2): 157-165|2011|10.1016/j.aquatox.2011.06.007
156039|A||He,C., Z. Zuo, X. Shi, R. Li, D. Chen, X. Huang, Y. Chen, and C. Wang|Effects of Benzo(a)pyrene on the Skeletal Development of Sebastiscus marmoratus Embryos and the Molecular Mechanism Involved|Aquat. Toxicol.101(2): 335-341|2011|10.1016/j.aquatox.2010.11.008
156040|A||Leung,P.T.Y., Y. Wang, S.S.T. Mak, W.C. Ng, and K.M.Y. Leung|Differential Proteomic Responses in Hepatopancreas and Adductor Muscles of the Green-Lipped Mussel Perna viridis to Stresses Induced by Cadmium and Hydrogen Peroxide|Aquat. Toxicol.105(1/2): 49-61|2011|10.1016/j.aquatox.2011.05.010
156041|A||Galhano,V., J. Gomes-Laranjo, and F. Peixoto|Exposure of the Cyanobacterium Nostoc muscorum from Portuguese Rice Fields to Molinate (Ordram):  Effects on the Antioxidant System and Fatty Acid Profile|Aquat. Toxicol.101(2): 367-376|2011|10.1016/j.aquatox.2010.11.011
156042|A||Wang,M.J., and W.X. Wang|Cadmium Sensitivity, Uptake, Subcellular Distribution and Thiol Induction in a Marine Diatom:  Exposure to Cadmium|Aquat. Toxicol.101(2): 377-386|2011|10.1016/j.aquatox.2010.11.014
156043|A||Bowling,A.M., C.R. Hammerschmidt, and J.T. Oris|Necrophagy by a Benthic Omnivore Influences Biomagnification of Methylmercury in Fish|Aquat. Toxicol.102(3/4): 134-141|2011|10.1016/j.aquatox.2011.01.006
156044|A||Genovese,G., R. Da Cuna, D.W. Towle, M.C. Maggese, and F. Lo Nostro|Early Expression of Zona Pellucida Proteins Under Octylphenol Exposure in Cichlasoma dimerus (Perciformes, Cichlidae)|Aquat. Toxicol.101(1): 175-185|2011|10.1016/j.aquatox.2010.09.017
156045|A||Whyte,S.K., J.D. Westcott, P. Byrne, and K.L. Hammell|Comparison of the Depletion of Emamectin Benzoate (SLICE) Residues from Skeletal Muscle and Skin of Atlantic Salmon (Salmo salar), for Multiple Dietary Dose Regimens at 10 Degrees C|Aquaculture315(3/4): 228-235|2011|10.1016/j.aquaculture.2011.02.043
156046|A||Paust,L.O., A. Foss, and A.K. Imsland|Effects of Chronic and Periodic Exposure to Ammonia on Growth, Food Conversion Efficiency and Blood Physiology in Juvenile Atlantic Halibut (Hippoglossus hippoglossus L.)|Aquaculture315(3/4): 400-406|2011|10.1016/j.aquaculture.2011.03.008
156047|A||Huang,Q., C. Fang, X. Wu, J. Fan, and S. Dong|Perfluorooctane Sulfonate Impairs the Cardiac Development of a Marine Medaka (Oryzias melastigma)|Aquat. Toxicol.105(1/2): 71-77|2011|10.1016/j.aquatox.2011.05.012
156048|A||Nicula,M., I. Banatean-Dunea, I. Gergen, M. Harmanescu, I. Brudiu, S. Patruica, A. Marcu, E. Simiz, T. Ioan, C. Julean,|Effect of EDTA on Reducing Tissue Cadmium Bioaccumulation and Cadmium Antagonism Related to Some Mineral Micro- and Macronutrients in Prussian Carp (Carassius gibelio)|Aquacult. Aquarium Conserv. Legis.4(1): 88-98|2011|
156049|T||Gorai,M., M. Ennajeh, H. Khemira, and M. Neffati|Influence of NaCl-Salinity on Growth, Photosynthesis, Water Relations and Solute Accumulation in Phragmites australis|Acta Physiol. Plant.33(3): 963-971|2011|10.1007/s11738-010-0628-1
156050|A||Marcheselli,M., P. Azzoni, and M. Mauri|Novel Antifouling Agent-Zinc Pyrithione:  Stress Induction and Genotoxicity to the Marine Mussel Mytilus galloprovincialis|Aquat. Toxicol.102(1/2): 39-47|2011|10.1016/j.aquatox.2010.12.015
156051|A||Erickson,R.J., D.R. Mount, T.L. Highland, J.R. Hockett, and C.T. Jenson|The Relative Importance of Waterborne and Dietborne Arsenic Exposure on Survival and Growth of Juvenile Rainbow Trout|Aquat. Toxicol.104(1/2): 108-115|2011|10.1016/j.aquatox.2011.04.003
156052|A||Caldwell,G.S., C. Lewis, G. Pickavance, R.L. Taylor, and M.G. Bentley|Exposure to Copper and a Cytotoxic Polyunsaturated Aldehyde Induces Reproductive Failure in the Marine Polychaete Nereis virens (Sars)|Aquat. Toxicol.104(1/2): 126-134|2011|10.1016/j.aquatox.2011.03.018
156053|A||Bilberg,K., K.B. Doving, K. Beedholm, and E. Baatrup|Silver Nanoparticles Disrupt Olfaction in Crucian Carp (Carassius carassius) and Eurasian Perch (Perca fluviatilis)|Aquat. Toxicol.104(1/2): 145-152|2011|10.1016/j.aquatox.2011.04.010
156054|A||Yang,L., J. Zha, W. Li, Z. Li, and Z. Wang|Vinclozolin Affects the Interrenal System of the Rare Minnow (Gobiocypris rarus)|Aquat. Toxicol.104(1/2): 153-159|2011|10.1016/j.aquatox.2011.04.005
156055|A||Van de Merwe,J.P., A.K.Y. Chan, E.N.Y. Lei, M.S. Yau, M.H.W. Lam, and R.S.S. Wu|Bioaccumulation and Maternal Transfer of PBDE 47 in the Marine Medaka (Oryzias melastigma) Following Dietary Exposure|Aquat. Toxicol.103(3/4): 199-204|2011|10.1016/j.aquatox.2011.02.021
156056|A||Lima,D., M.A. Reis-Henriques, R. Silva, A.I. Santos, L.F.C. Castro, and M.M. Santos|Tributyltin-Induced Imposex in Marine Gastropods Involves Tissue-Specific Modulation of the Retinoid X Receptor|Aquat. Toxicol.101(1): 221-227|2011|10.1016/j.aquatox.2010.09.022
156057|A||Kuz'mina,V.V.|The Influence of Zinc and Copper on the Latency Period for Feeding and the Food Uptake in Common Carp, Cyprinus carpio L.|Aquat. Toxicol.102(1/2): 73-78|2011|10.1016/j.aquatox.2010.12.018
156058|A||Sanchez-Marin,P., J. Bellas, V.K. Mubiana, J.I. Lorenzo, R. Blust, and R. Beiras|Pb Uptake by the Marine Mussel Mytilus sp. Interactions with Dissolved Organic Matter|Aquat. Toxicol.102(1/2): 48-57|2011|10.1016/j.aquatox.2010.12.012
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156063|A||Guzman,J.M., J. Ramos, C.C. Mylonas, and E.L. Mananos|Comparative Effects of Human Chorionic Gonadotropin (hCG) and Gonadotropin-Releasing Hormone Agonist (GnRHa) Treatments on the Stimulation of Male Senegalese Sole (Solea senegalensis) Reproduction|Aquaculture316(1-4): 121-128|2011|10.1016/j.aquaculture.2011.03.014
156064|A||Benstead,R.S., A. Baynes, D. Casey, E.J. Routledge, and S. Jobling|17beta-Oestradiol may Prolong Reproduction in Seasonally Breeding Freshwater Gastropod Molluscs|Aquat. Toxicol.101(2): 326-334|2011|10.1016/j.aquatox.2010.11.005
156065|A||Mestankova,H., B. Escher, K. Schirmer, U. Gunten, and S. Canonica|Evolution of Algal Toxicity During (Photo)Oxidative Degradation of Diuron|Aquat. Toxicol.101(2): 466-473|2011|10.1016/j.aquatox.2010.10.012
156066|A||Bugel,S.M., L.A. White, and K.R. Cooper|Decreased Vitellogenin Inducibility and 17beta-Estradiol Levels Correlated with Reduced Egg Production in Killifish (Fundulus heteroclitus) from Newark Bay, NJ|Aquat. Toxicol.105(1/2): 1-12|2011|10.1016/j.aquatox.2011.03.013
156067|A||Velasco-Santamaria,Y.M., B. Korsgaard, S.S. Madsen, and P. Bjerregaard|Bezafibrate, a Lipid-Lowering Pharmaceutical, as a Potential Endocrine Disruptor in Male Zebrafish (Danio rerio)|Aquat. Toxicol.105(1/2): 107-118|2011|10.1016/j.aquatox.2011.05.018
156068|A||Halden,A.N., K. Arnoldsson, P. Haglund, A. Mattsson, E. Ulleras, J. Sturve, and L. Norrgren|Retention and Maternal Transfer of Brominated Dioxins in Zebrafish (Danio rerio) and Effects on Reproduction, Aryl Hydrocarbon Receptor-Regulated Genes, and Ethoxyresorufin-o-Deethylase (EROD) Activity|Aquat. Toxicol.102(3/4): 150-161|2011|10.1016/j.aquatox.2011.01.008
156070|A||Wang,M., Y. Wang, J. Wang, L. Lin, H. Hong, and D. Wang|Proteome Profiles in Medaka (Oryzias melastigma) Liver and Brain Experimentally Exposed to Acute Inorganic Mercury|Aquat. Toxicol.103(3/4): 129-139|2011|10.1016/j.aquatox.2011.02.020
156071|A||Christen,V., S. Zucchi, and K. Fent|Effects of the UV-Filter 2-Ethyl-Hexyl-4-Trimethoxycinnamate (EHMC) on Expression of Genes Involved in Hormonal Pathways in Fathead Minnows (Pimephales promelas) and Link to Vitellogenin Induction and Histology|Aquat. Toxicol.102(3/4): 167-176|2011|10.1016/j.aquatox.2011.01.013
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156084|T||Nathan,S.S., and K. Kalaivani|Combined Effects of Azadirachtin and Nucleopolyhedrovirus (SpltNPV) on Spodoptera litura Fabricius (Lepidoptera:  Noctuidae) Larvae|Biol. Control39(1): 96-104|2006|10.1016/j.biocontrol.2006.06.013
156085|A||Sura,P., M. Wrobel, and P. Bronowicka|Season Dependent Response of the Marsh Frog (Rana ridibunda) to Cadmium Exposure|Folia Biol. (Krakow)54(3/4): 159-165|2006|10.3409/173491606778557536
156086|A||Dogan,D., and C. Can|Endocrine Disruption and Altered Biochemical Indices in Male Oncorhynchus mykiss in Response to Dimethoate|Pestic. Biochem. Physiol.99(2): 157-161|2011|10.1016/j.pestbp.2010.11.012
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156088|T||Gul,F., M. Tariq, and M. Shahid|Comparative Effectiveness of Pyrethroids and Organophosphorus Group of Insecticides Against Tobacco Budworm|Sci. Khyber11(1): 73-77|1998|
156089|T||Fournet,F., C. Sannier, and N. Monteny|Effects of Two Insect Growth Regulators on the Susceptibility of Aedes aegypti (Diptera: Culicidae) to Molinema dessetae (Nematoda: Filarioidea)|Am. Mosq. Control Assoc. J.13(1): 40-42|1997|
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156092|A||Poirier,S., and D. Cox|Results of Freshwater Exposure with the Chemical p,p'-DDT to Ceriodaphnia dubia in an Acute and Chronic Toxicity Test|Center for Lake Superior Environmental Studies, University of Wisconsin, Superior, WI (Memo to R.Spehar, U.S.EPA, Duluth, MN):9 p.|1991|
156093|A||Poirier,S., D. Cox, and S. McGovern|Results of Freshwater Exposures with the Chemical Fluoranthene and Ultraviolet (UV) Light to the Fathead Minnow, Pimephales promelas, Hydra americana and a Snail, Physella virgata|Lake Superior Research Institute, Superior, WI (Memo to R.Spehar, U.S.EPA, Duluth, MN):14 p.|1991|
156094|A||David,A.M.S.S., and K. Pancharatna|Developmental Anomalies Induced by a Non-Selective COX Inhibitor (Ibuprofen) in Zebrafish (Danio rerio)|Environ. Toxicol. Pharmacol.27:390-395|2009|10.1016/j.etap.2009.01.002
156095|T||Ip,C., H.J. Thompson, and H.E. Ganther|Selenium Modulation of Cell Proliferation and Cell Cycle Biomarkers in Normal and Premalignant Cells of the Rat Mammary Gland|Cancer Epidemiol. Biomark. Prev.9(1): 49-54|2000|
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156099|A||Binelli,A., M. Parolini, A. Pedriali, and A. Provini|Antioxidant Activity in the Zebra Mussel (Dreissena polymorpha) in Response to Triclosan Exposure|Water Air Soil Pollut.217(1-4): 421-430|2011|10.1007/s11270-010-0597-4
156101|A||Gao,Q.T., and N.F.Y. Tam|Growth, Photosynthesis and Antioxidant Responses of Two Microalgal Species, Chlorella vulgaris and Selenastrum capricornutum, to Nonylphenol Stress|Chemosphere82(3): 346-354|2011|10.1016/j.chemosphere.2010.10.010
156102|T||Hauck,S.J., J.M. Aaron, C. Wright, J.J. Kopchick, and A. Bartke|Antioxidant Enzymes, Free-Radical Damage, and Response to Paraquat in Liver and Kidney of Long-Living Growth Hormone Receptor/Binding Protein Gene-Disrupted Mice|Horm. Metab. Res.34(9): 481-486|2002|10.1055/s-2002-34787
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156106|T||Belles,M., V. Alonso, V. Linares, M.L. Albina, J.J. Sirvent, J.L. Domingo, and D.J. Sanchez|Behavioral Effects and Oxidative Status in Brain Regions of Adult Rats Exposed to BDE-99|Toxicol. Lett.194(1/2): 1-7|2010|10.1016/j.toxlet.2010.01.010
156107|T||Godin,S.J., M.J. DeVito, M.F. Hughes, D.G. Ross, E.J. Scollon, J.M. Starr, R.W. Setzer, R.B. Conolly, and R. Tornero-Ve|Physiologically Based Pharmacokinetic Modeling of Deltamethrin:  Development of a Rat and Human Diffusion-Limited Model|Toxicol. Sci.115(2): 330-343|2010|10.1093/toxsci/kfq051
156108|T||Bankoti,J., A. Burnett, S. Navarro, A.K. Miller, B. Rase, and D.M. Shepherd|Effects of TCDD on the Fate of Naive Dendritic Cells|Toxicol. Sci.115(2): 422-434|2010|10.1093/toxsci/kfq063
156109|T||Ferrell,J.A., T.R. Murphy, R.R. Duncan, and W.K. Vencill|Seashore Paspalum Response to Trinexapac-Ethyl and Paclobutrazol|Hortscience38(4): 605-606|2003|10.21273/HORTSCI.38.4.605
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156115|T||Jiang,H., and J. Fry|Drought Responses of Perennial Ryegrass Treated with Plant Growth Regulators|Hortscience33(2): 270-273|1998|
156116|T||Dertinger,S.D., S. Phonethepswath, D. Franklin, P. Weller, D.K. Torous, S.M. Bryce, S. Avlasevich, J.C. Bemis, O. Hyrie|Integration of Mutation and Chromosomal Damage Endpoints into 28-Day Repeat Dose Toxicology Studies|Toxicol. Sci.115(2): 401-411|2010|10.1093/toxsci/kfq070
156117|T||Kawakami,T., H. Sugimoto, R. Furuichi, Y. Kadota, M. Inoue, K. Setsu, S. Suzuki, and M. Sato|Cadmium Reduces Adipocyte Size and Expression Levels of Adiponectin and Peg1/Mest in Adipose Tissue|Toxicology267(1-3): 20-26|2010|10.1016/j.tox.2009.07.022
156118|T||Albina,M.L., V. Alonso, V. Linares, M. Belles, J.J. Sirvent, J.L. Domingo, and D.J. Sanchez|Effects of Exposure to BDE-99 on Oxidative Status of Liver and Kidney in Adult Rats|Toxicology271(1/2): 51-56|2010|10.1016/j.tox.2010.03.006
156119|T||Adesodun,J.K., M.O. Atayese, T.A. Agbaje, B.A. Osadiaye, O.F. Mafe, and A.A. Soretire|Phytoremediation Potentials of Sunflowers (Tithonia diversifolia and Helianthus annuus) for Metals in Soils Contaminated with Zinc and Lead Nitrates|Water Air Soil Pollut.207(1-4): 195-201|2010|10.1007/s11270-009-0128-3
156120|T||Garcia,T., D. Ribes, M.T. Colomina, M. Cabre, J.L. Domingo, and M. Gomez|Evaluation of the Protective Role of Melatonin on the Behavioral Effects of Aluminum in a Mouse Model of Alzheimer's Disease|Toxicology265(1/2): 49-55|2009|10.1016/j.tox.2009.09.009
156121|T||Bowen,J.M., A. Tsykin, A.M. Stringer, R.M. Logan, R.J. Gibson, and D.M.K. Keefe|Kinetics and Regional Specificity of Irinotecan-Induced Gene Expression in the Gastrointestinal Tract|Toxicology269(1): 1-12|2010|10.1016/j.tox.2009.12.020
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156213|A||Shiogiri,N.S., S.P. Carraschi, P. Cubo, B.L. Schiavetti, C.D. Cruz, and R.A. Pitelli|Ecotoxicity of Glyphosate and Aterbane BR Surfactant on Guaru (Phalloceros caudimaculatus)|Acta Sci. Biol. Sci.32(3): 285-289|2010|10.4025/actascibiolsci.v32i3.6795
156214|A||Tichy,M., R. Valigurova, R. Cabala, R. Uzlova, and M. Rucki|Toxicity of Perfluorinated Carboxylic Acids for Aquatic Organisms|Interdisciplinary Toxicol.3(2): 73-75|2010|10.2478/v10102-010-0014-2
156215|A||Chourpagar,A.R., and G.K. Kulkarni|Heavy Metal Toxicity to a Freshwater Crab, Barytelphusa cunicularis (Westwood) from Aurangabad Region|Recent Res. Sci. Technol.3(3): 1-5|2011|
156216|A||Akhtar,M.S., A.K. Pal, N.P. Sahu, C. Alexander, and D.K. Meena|Dietary Pyridoxine Enhances Thermal Tolerance of Labeo rohita (Hamilton) Fingerlings Reared Under Endosulfan Stress|J. Therm. Biol.36(1): 84-88|2011|10.1016/j.jtherbio.2010.10.003
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156219|T||Kamata,R., F. Shiraishi, S. Takahashi, A. Shimizu, and H. Shiraishi|Reproductive and Developmental Effects of Transovarian Exposure to o,p-DDT in Japanese Quails|Environ. Toxicol. Chem.28(4): 782-790|2009|10.1897/08-218R.1
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156222|T||Wrochna,M., M. Malecka-Przybysz, and H. Gawronska|Effect of Road De-Icing Salts with Anti Corrosion Agents on Selected Plant Species|Acta Sci. Pol. Hortorum Cultus9(4): 171-182|2010|
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156225|T||Kelsey,J.W., I.B. Slizovskiy, R.D. Peters, and A.M. Melnick|Sterilization Affects Soil Organic Matter Chemistry and Bioaccumulation of Spiked p,p'-DDE and Anthracene by Earthworms|Environ. Pollut.158(6): 2251-2257|2010|10.1016/j.envpol.2010.02.011
156226|A||De Lange,H.J., E.T.H.M. Peeters, and M. Lurling|Changes in Ventilation and Locomotion of Gammarus pulex (Crustacea, Amphipoda) in Response to Low Concentrations of Pharmaceuticals|Hum. Ecol. Risk Assess.15(1): 111-120|2009|10.1080/10807030802615584
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156255|T||Kershner,K.S.|Herbicide Resistance in Grain Sorghum|Ph.D. Thesis, Kansas State University, Manhattan, KS:243 p.|2010|
156256|T||Kastanias,M.A., M. Chrysayi-Tokousbalides, S. Coward, A. Philippoussis, and P. Diamantopoulou|Residue Evaluation of the Azole Fungicides Prochloraz and Tebuconazole in the White Mushroom Agaricus bisporus|Bull. Environ. Contam. Toxicol.77(1): 149-154|2006|10.1007/s00128-006-1044-5
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156262|T||Christian,M.S., R.G. York, A.M. Hoberman, R.M. Diener, L.C. Fisher, and G.A. Gates|Biodisposition of Dibromoacetic Acid (DBA) and Bromodichloromethane (BDCM) Administered to Rats and Rabbits in Drinking Water During Range-Finding Reproduction and Developmental Toxicity Studies|Int. J. Toxicol.20(4): 239-253|2001|10.1080/109158101750408064
156263|A||Brande-Lavridsen,N., J. Christensen-Dalsgaard, and B. Korsgaard|Effects of Prochloraz and Ethinylestradiol on Sexual Development in Rana temporaria|J. Exp. Zool. Part A. Ecol. Genet. Physiol.309(7): 389-398|2008|10.1002/jez.462
156264|T||Sen,A., and S. Alikamanoglu|Effect of Salt Stress on Growth Parameters and Antioxidant Enzymes of Different Wheat (Triticum aestivum L.) Varieties on In Vitro Tissue Culture|Fresenius Environ. Bull.20(2a): 489-495|2011|
156265|T||Sellers,B.A., R. Diaz, W.A. Overholt, K.A. Langeland, and C.J. Gray|Control of West Indian Marsh Grass with Glyphosate and Imazapyr|J. Aquat. Plant Manag.46:189-192|2008|
156266|T||Atkins,E.O., and P.S. Williamson|Comparison of Four Techniques to Control Elephant Ear|J. Aquat. Plant Manag.46:158-162|2008|
156267|T||Tapia,Y., V. Cala, E. Eymar, I. Frutos, A. Garate, and A. Masaguer|Phytoextraction of Cadmium by Four Mediterranean Shrub Species|Int. J. Phytoremediat.13(6): 567-579|2011|10.1080/15226514.2010.495152
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156269|A||Martins,C.M.G., D.V. Almeida, L.F.F. Marins, and A. Bianchini|mRNA Expression and Activity of Ion-Transporting Proteins in Gills of the Blue Crab Callinectes sapidus:  Effects of Waterborne Copper|Environ. Toxicol. Chem.30(1): 206-211|2011|10.1002/etc.370
156270|T||Mattsson,A., E. Mura, B. Brunstrom, G. Panzica, and K. Halldin|Selective Activation of Estrogen Receptor alpha in Japanese Quail Embryos Affects Reproductive Organ Differentiation but not the Male Sexual Behavior or the Parvocellular Vasotocin System|Gen. Comp. Endocrinol.159(2/3): 150-157|2008|10.1016/j.ygcen.2008.08.012
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156273|T||Klemme,J.C., H. Mukhtar, and C.A. Elmets|Induction of Contact Hypersensitivity to Dimethylbenz(a)anthracene and Benzo(a)pyrene in C3H/HeN Mice|Cancer Res.47:6074-6078|1987|
156274|T||Yermiyahu,U., A. Ben-Gal, P. Sarig, and E. Zipilevitch|Boron Toxicity in Grapevine (Vitis vinifera L.) in Conjunction with Salinity and Rootstock Effects|J. Hortic. Sci. Biotechnol.82(4): 547-554|2007|10.1080/14620316.2007.11512272
156275|T||Li,Z.J., X.Y. Xie, S.Q. Zhang, and Y.C. Liang|Wheat Growth and Photosynthesis as Affected by Oxytetracycline as a Soil Contaminant|Pedosphere21(2): 244-250|2011|10.1016/S1002-0160(11)60124-0
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156280|T||Miler,E.A., S.I. Nudler, F.A. Quinteros, J.P. Cabilla, S.A. Ronchetti, and B.H. Duvilanski|Cadmium Induced-Oxidative Stress in Pituitary Gland is Reversed by Removing the Contamination Source|Hum. Exp. Toxicol.29(10): 873-880|2010|10.1177/0960327110362703
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156282|T||Ghanem,K.M., S.M. Al-Garni, and A.N. Al-Shehri|Statistical Optimization of Cultural Conditions by Response Surface Methodology for Phenol Degradation by a Novel Aspergillus flavus Isolate|Afr. J. Biotechnol.8(15): 3576-3583|2009|
156283|AT||Kamiya,T., M. Tanaka, N. Mitani, J.F. Ma, M. Maeshima, and T. Fujiwara|NIP1;1, an Aquaporin Homolog, Determines the Arsenite Sensitivity of Arabidopsis thaliana|J. Biol. Chem.284(4): 2114-2120|2009|10.1074/jbc.M806881200
156284|A||Rhee,J.S., B.M. Kim, C.J. Lee, Y.D. Yoon, Y.M. Lee, and J.S. Lee|Bisphenol A Modulates Expression of Sex Differentiation Genes in the Self-Fertilizing Fish, Kryptolebias marmoratus|Aquat. Toxicol.104(3/4): 218-229|2011|10.1016/j.aquatox.2011.04.020
156285|A||Tian,L., M. Wang, X. Li, P.K.S. Lam, M. Wang, D. Wang, H.N. Chou, Y. Li, and L.L. Chan|Proteomic Modification in Gills and Brains of Medaka Fish (Oryzias melastigma) After Exposure to a Sodium Channel Activator Neurotoxin, Brevetoxin-1|Aquat. Toxicol.104(3/4): 211-217|2011|10.1016/j.aquatox.2011.04.019
156286|A||Aksmann,A., T. Shutova, G. Samuelsson, and Z. Tukaj|The Mechanism of Anthracene Interaction with Photosynthetic Apparatus: A Study Using Intact Cells, Thylakoid Membranes and PS II Complexes Isolated from Chlamydomonas reinhardtii|Aquat. Toxicol.104(3/4): 205-210|2011|10.1016/j.aquatox.2011.04.017
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156291|T||Rogers,W.M.|Reducing Ergovaline and Ergot Alkaloid Concentrations Through Fertilizer, Herbicide and Clipping Management|Ph.D. Thesis, University of Missouri, Columbia, MO:187 p.|2010|
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156300|A||Hallgren,S., and K.H. Olsen|Effects on Guppy Brain Aromatase Activity Following Short-Term Steroid and 4-Nonylphenol Exposures|Environ. Toxicol.25(3): 261-271|2010|10.1002/tox.20494
156301|A||Kiyomoto,M., A. Kikuchi, S. Morinaga, T. Unuma, and Y. Yokota|Exogastrulation and Interference with the Expression of Major Yolk Protein by Estrogens Administered to Sea Urchins|Cell Biol. Toxicol.24(6): 611-620|2008|10.1007/s10565-008-9073-y
156302|A||Hano,T., Y. Oshima, M. Kinoshita, M. Tanaka, N. Mishima, Y. Wakamatsu, K. Ozato, Y. Shimasaki, and T. Honjo|Evaluation of the Effects of Ethinylestradiol on Sexual Differentiation in the Olvas-GFP/STII-YI Medaka (Transgenic Oryzias latipes) Strain as Estimated by Proliferative Activity of Germ Cells|Aquat. Toxicol.104(3/4): 177-184|2011|10.1016/j.aquatox.2011.04.013
156303|A||Henry,T.B., J.T. McPherson, E.D. Rogers, T.P. Heah, S.A. Hawkins, A.C. Layton, and G.S. Sayler|Changes in the Relative Expression Pattern of Multiple Vitellogenin Genes in Adult Male and Larval Zebrafish Exposed to Exogenous Estrogens|Comp. Biochem. Physiol. A Comp. Physiol.154(1): 119-126|2009|10.1016/j.cbpa.2009.05.009
156304|A||Kim,H.R., Y.J. Park, J.G. Kim, K.H. Chung, and S.M. Oh|Molecular Cloning of Vitellogenin Gene and mRNA Expression by 17alpha-Ethinylestradiol from Slender Bitterling|Gen. Comp. Endocrinol.168(3): 484-495|2010|10.1016/j.ygcen.2010.06.007
156305|A||Al-Subiai,S.N., A.J. Moody, S.A. Mustafa, and A.N. Jha|A Multiple Biomarker Approach to Investigate the Effects of Copper on the Marine Bivalve Mollusc, Mytilus edulis|Ecotoxicol. Environ. Saf.74(7): 1913-1920|2011|10.1016/j.ecoenv.2011.07.012
156306|A||Baraj,B., F. Niencheski, G. Fillmann, and C.M.G. Martins|Assessing the Effects of Cu, Cd, and Exposure Period on Metallothionein Production in Gills of the Brazilian Brown Mussel Perna perna by Using Factorial Design|Environ. Monit. Assess.179:155-162|2011|10.1007/s10661-010-1725-8
156307|A||Hogan,N.S., P. Duarte, M.G. Wade, D.R.S. Lean, and V.L. Trudeau|Estrogenic Exposure Affects Metamorphosis and Alters Sex Ratios in the Northern Leopard Frog (Rana pipiens): Identifying Critically Vulnerable Periods of Development|Gen. Comp. Endocrinol.156(3): 515-523|2008|10.1016/j.ygcen.2008.03.011
156308|A||Barka,S., J.F. Pavillon, and C. Amiard-Triquet|Metal Distributions in Tigriopus brevicornis (Crustacea, Copepoda) Exposed to Copper, Zinc, Nickel, Cadmium, Silver, and Mercury, and Implication for Subsequent Transfer in the Food Web|Environ. Toxicol.25(4): 350-360|2010|10.1002/tox.20505
156309|A||Adeyemi,J.A., L.E. Deaton, T.C. Pesacreta, and P.L. Klerks|Effects of Copper on Osmoregulation in Sheepshead Minnow, Cyprinodon variegatus Acclimated to Different Salinities|Aquat. Toxicol.109:111-117|2012|10.1016/j.aquatox.2011.12.005
156310|A||Alekseev,V., A. Makrushin, and J.S. Hwang|Does the Survivorship of Activated Resting Stages in Toxic Environments Provide Cues for Ballast Water Treatment?|Mar. Pollut. Bull.61(4-6): 254-258|2010|10.1016/j.marpolbul.2010.02.022
156311|T||Amorim,M.J.B., and J.J. Scott-Fordsmand|Toxicity of Copper Nanoparticles and CuCl2 Salt to Enchytraeus albidus Worms:  Survival, Reproduction and Avoidance Responses|Environ. Pollut.164:164-168|2012|10.1016/j.envpol.2012.01.015
156312|A||Ittoop,G., K.C. George, R.M. George, K.S. Sobhana, N.K. Sanil, and P.C. Nisha|Effect of Copper Toxicity on the Hemolymph Factors of the Indian Edible Oyster, Crassostrea madrasensis (Preston)|Indian J. Fish.56(4): 301-306|2009|
156313|A||Aanand,S., C.S. Purushothaman, A.K. Pal, and K.V. Rajendran|Toxicological Studies on the Effect of Copper, Lead and Zinc on Selected Enzymes in the Adductor Muscle and Intestinal Diverticula of the Green Mussel Perna viridis|Indian J. Mar. Sci.39(2): 299-302|2010|
156314|A||De Boeck,G., M. Eyckmans, I. Lardon, R. Bobbaers, A.K. Sinha, and R. Blust|Metal Accumulation and Metallothionein Induction in the Spotted Dogfish Scyliorhinus canicula|Comp. Biochem. Physiol. A Mol. Integr. Physiol.155(4): 503-508|2010|10.1016/j.cbpa.2009.12.014
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156316|A||Angel,B.M., S.L. Simpson, and D.F. Jolley|Toxicity to Melita plumulosa from Intermittent and Continuous Exposures to Dissolved Copper|Environ. Toxicol. Chem.29(12): 2823-2830|2010|10.1002/etc.347
156317|A||Cao,L., W. Huang, J. Liu, Z. Ye, and S. Dou|Toxicity of Short-Term Copper Exposure to Early Life Stages of Red Sea Bream, Pagrus major|Environ. Toxicol. Chem.29(9): 2044-2052|2010|10.1002/etc.247
156318|A||Chairi,H., C. Fernandez-Diaz, J.I. Navas, M. Manchado, L. Rebordinos, and J. Blasco|In Vivo Genotoxicity and Stress Defences in Three Flatfish Species Exposed to CuSO4|Ecotoxicol. Environ. Saf.73(6): 1279-1285|2010|10.1016/j.ecoenv.2010.07.028
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156320|A||Rajkumar,J.S.I., and M.C.J. Milton|Biochemical Markers of Oxidative Stress in Mugil cephalus Exposed to Cadmium, Copper, Lead and Zinc|Int. J. Pharma Bio Sci.2(3): B41- B50|2011|
156321|T||Anwar,R.|Population Dynamics of the Cotton Aphid, Aphis gossypii Glover (Homoptera: Aphididae), and Its Fungal Pathogen, Neozygites fresenii (Nowakowski) Batko (Entomophthorales: Neozygitaceae), in South Carolina|Ph.D. Thesis, Clemson University, Clemson, SC:143 p.|2008|
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156323|A||Wang,H., Y. Li, H. Huang, X. Xu, and Y. Wang|Toxicity Evaluation of Single and Mixed Antifouling Biocides Using the Strongylocentrotus intermedius Sea Urchin Embryo Test|Environ. Toxicol. Chem.30(3): 692-703|2011|10.1002/etc.440
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156328|A||Vosloo,D., J. Sara, and A. Vosloo|Acute Responses of Brown Mussel (Perna perna) Exposed to Sub-Lethal Copper Levels:  Integration of Physiological and Cellular Responses|Aquat. Toxicol.106/107:1-8|2012|10.1016/j.aquatox.2011.10.001
156329|A||Rajkumar,J.S.I., and M.C.J. Milton|Biochemical Changes Induced by Cadmium, Copper, Lead and Zinc Exposure to Perna viridis Under Longterm Toxicity Test|Int. J. Pharma Bio Sci.2(3): B.50-B.59|2011|
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156332|T||Pankey,J.H., B.R. Leonard, J.L. Griffin, and R.W. Costello|Early Season Pest Management in Cotton with Roundup Ultra-Insecticide Combinations|Proc. Beltwide Cotton Conf.2:981-983|1999|
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156334|A||Xu,X., Y. Li, Y. Wang, and Y. Wang|Assessment of Toxic Interactions of Heavy Metals in Multi-Component Mixtures Using Sea Urchin Embryo-Larval Bioassay|Toxicol. In Vitro25:294-300|2011|10.1016/j.tiv.2010.09.007
156335|T||Schnars,J.L., M.A. Voss, and J.R. Stauffer|An Egg Injection Technique to Evaluate the Effect of Polychlorinated Biphenyls on the Hatching Success of the Snapping Turtle (Chelydra serpentina serpentina)|Environ. Toxicol. Chem.30(4): 915-919|2011|10.1002/etc.455
156336|A||Fathallah,S., M.N. Medhioub, A. Medhioub, and M.M. Kraiem|Toxicity of Hg, Cu and Zn on Early Developmental Stages of the European Clam (Ruditapes decussatus) with Potential Application in Marine Water Quality Assessment|Environ. Monit. Assess.171(1-4): 661-669|2010|10.1007/s10661-010-1311-0
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156342|A||Rosen,G., and K. Miller|A Postexposure Feeding Assay Using the Marine Polychaete Neanthes arenaceodentata Suitable for Laboratory and In Situ Exposures|Environ. Toxicol. Chem.30(3): 730-737|2011|10.1002/etc.438
156343|T||Blok,C., M. Aguilera, and E.A. Van Os|Validation of a New Phytotoxicity Test (Phytotoxkit) Against an Established Four-Week Growing Test with Pre-Grown Plant Plugs|Acta Hortic.819:209-214|2009|10.17660/ActaHortic.2009.819.22
156344|A||Henke,R., M. Eberius, and K.J. Appenroth|Induction of Frond Abscission by Metals and Other Toxic Compounds in Lemna minor|Aquat. Toxicol.101(1): 261-265|2011|10.1016/j.aquatox.2010.10.007
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156346|A||Saradhamani,N., and B.J. Selvarani|A Study on the Effect of Herbicide Metribuzin on the Biochemical Constituents of the Freshwater Fish, Tilapia mossambica Peters (Pisces:  Cichlidae)|Curr. Biotica3(2): 220-231|2009|
156347|T||Sarpe,N., and S. Poienaru|The Remanent Effect of Merlin Duo and Gardorprim Plus Gold 500 SC Herbicides Applied to Garden Peas|J. Hortic. For. Biotechnol.14(1): 91-95|2010|
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156400|A||Parolini,M., A. Binelli, D. Cogni, and A. Provini|Multi-Biomarker Approach for the Evaluation of the Cyto-Genotoxicity of Paracetamol on the Zebra Mussel (Dreissena polymorpha)|Chemosphere79(5): 489-498|2010|10.1016/j.chemosphere.2010.02.053
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156484|T||Camoni,I., A. Di Muccio, D. Pontecorvo, M. Rubbiani, L. Vergori, and C. Lugaresi|Residue Levels in Apples and Pears Field-Treated with Two Experimental Chlorothalonil Formulations|Bull. Environ. Contam. Toxicol.46(3): 361-367|1991|10.1007/BF01688932
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156486|T||McMurray,L.S., J.A. Davidson, M.D. Lines, A. Leonforte, and M.U. Salam|Combining Management and Breeding Advances to Improve Field Pea (Pisum sativum L.) Grain Yields Under Changing Climatic Conditions in South-Eastern Australia|Euphytica 180(1): 69-88|2011|10.1007/s10681-011-0362-9
156487|T||Ilbey,Y.O., E. Ozbek, A. Simsek, A. Otunctemur, M. Cekmen, and A. Somay|Potential Chemoprotective Effect of Melatonin in Cyclophosphamide- and Cisplatin-Induced Testicular Damage in Rats|Fertil. Steril.92(3): 1124-1132|2009|10.1016/j.fertnstert.2008.07.1758
156488|T||Adams,A.J., and F.R. Hall|Influence of Bifenthrin Spray Deposit Quality on the Mortality of Trichoplusia ni (Lepidoptera: Noctuidae) on Cabbage|Crop Prot.8:206-211|1989|10.1016/0261-2194(89)90028-8
156489|T||Eickermann,M., P. Delfosse, L. Hoffmann, and M. Beyer|A Note on the Insecticide Sensitivity Status of Meligethes Species (Coleoptera: Nitidulidae) in Luxembourg|J. Plant Dis. Prot.118(3/4): 134-140|2011|10.1007/BF03356393
156490|T||Huitron,M.V., M. Diaz, F. Dianez, F. Camacho, and A. Valverde|Effect of 2,4-D and CPPU on Triploid Watermelon Production and Quality|Hortscience42(3): 559-564|2007|10.21273/HORTSCI.42.3.559
156491|T||Goncalves,J.R., L.R.D. Faroni, and R.N.C. Guedes|Pyrethroid-Acarophenax lacunatus Interaction in Suppressing the Beetle Rhyzopertha dominica on Stored Wheat|Exp. Appl. Acarol.26(3/4): 231-242|2002|10.1023/A:1021196601287
156492|T||Hanlon,C.G., and K. Langeland|Comparison of Experimental Strategies to Control Torpedograss|J. Aquat. Plant Manag.38:40-47|2000|
156493|T||Kay,I.R.|Evaluating New Insecticides for the Control of Helicoverpa spp. (Lepidoptera: Noctuidae) on Capsicum and Zucchini|Aust. J. Entomol.46(4): 339-345|2007|10.1111/j.1440-6055.2007.00611.x
156494|T||Lowe,W.J., L.R. Barber, R.S. Cameron, G.L. DeBarr, G.R. Hodge, J.B. Jett, J.L. McConnell, A. Mangini, J. Nord, and J.W.|A Southwide Test of Bifenthrin (Capture) for Cone and Seed Insect Control in Seed Orchards|South. J. Appl. For.18(2): 72-75|1994|10.1093/sjaf/18.2.72
156495|T||Oliver,J.B., D.C. Fare, N. Youssef, M.A. Halcomb, M.E. Reding, and C.M. Ranger|Evaluation of Systemic Insecticides for Potato Leafhopper Control in Field-Grown Red Maple|J. Environ. Hortic.27(1): 17-23|2009|10.24266/0738-2898-27.1.17
156496|T||Weinstein,I., L.R. Forte, H.V. Werner, and M. Heimberg|Decreased cAMP Responsiveness to Glucagon in Livers from Ethynyl Estradiol Treated Rats|Biochem. Biophys. Res. Commun.86(2): 454-459|1979|10.1016/0006-291X(79)90887-8
156497|A||Jones,D.K., J.I. Hammond, and R.A. Relyea|Competitive Stress can Make the Herbicide Roundup More Deadly to Larval Amphibians|Environ. Toxicol. Chem.30(2): 446-454|2011|10.1002/etc.384
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156499|T||Watanabe,H.|Effect of 17alpha-Ethinylestradiol on the Biliary Metabolites of 17beta-[6,7-3H2]Estradiol in the Rat|Biochim. Biophys. Acta231(2): 399-405|1971|10.1016/0005-2760(71)90153-6
156500|T||Rafey,A., and K. Prasad|Influence of Weed-Control Measures on Weed Growth, Yield and Yield Attributes of Rainfed Groundnut (Arachis hypogaea)|Indian J. Agric. Sci.65(1): 42-45|1995|
156501|T||Chaudhary,R.R.P., and R.B. Sachan|Occurrence of Insect Pests and Loss Caused by them in ''UPAS 120'' Pigeonpea (Cajanus cajan) in Western Plains Zone of Uttar Pradesh|Indian J. Agric. Sci.65(1): 78-81|1995|
156502|A||Tan,X., S.Y. Yim, P. Uppu, and K.M. Kleinow|Enhanced Bioaccumulation of Dietary Contaminants in Catfish with Exposure to the Waterborne Surfactant Linear Alkylbenzene Sulfonate|Aquat. Toxicol.99(2): 300-308|2010|10.1016/j.aquatox.2010.05.008
156503|T||Panwar,R.S., R.K. Malik, R.S. Balyan, and D.P. Singh|Effect of Isoproturon, Sowing Method and Seed Rate on Weeds and Yield of Wheat (Triticum aestivum)|Indian J. Agric. Sci.65(2): 109-111|1995|
156504|T||Nayyar,H., D.P. Walia, and B.L. Kaistha|Performance of Bread Wheat (Triticum aestivum) Seed Primed with Growth-Regulators and Inorganic Salts|Indian J. Agric. Sci.65(2): 112-116|1995|
156505|T||Kitamura,S., T. Suzuki, S. Ohta, and N. Fujimoto|Antiandrogenic Activity and Metabolism of the Organophosphorus Pesticide Fenthion and Related Compounds|Environ. Health Perspect.111(4): 503-508|2003|10.1289/ehp.5917
156506|T||Jakubas,W.J., W.H. Karasov, and C.G. Guglielmo|Ruffed Grouse Tolerance and Biotransformation of the Plant Secondary Metabolite Coniferyl Benzoate|Condor95:625-640|1993|10.2307/1369606
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156508|T||Diao,J., P. Xu, D. Liu, Y. Lu, and Z. Zhou|Enantiomer-Specific Toxicity and Bioaccumulation of alpha-Cypermethrin to Earthworm Eisenia fetida|J. Hazard. Mater.192(3): 1072-1078|2011|10.1016/j.jhazmat.2011.06.010
156509|T||Xu,D., Y. Wen, and K. Wang|Effect of Chiral Differences of Metolachlor and Its (S)-Isomer on Their Toxicity to Earthworms|Ecotoxicol. Environ. Saf.73(8): 1925-1931|2010|10.1016/j.ecoenv.2010.07.035
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156511|T||Britch,S.C., K.J. Linthicum, W.W. Wynn, R.L. Aldridge, T.W. Walker, M. Farooq, J.C. Dunford, V.L. Smith, C.A. Robinson,|Longevity and Efficacy of Bifenthrin Treatment on Desert-Pattern US Military Camouflage Netting Against Mosquitoes in a Hot-Arid Environment|Am. Mosq. Control Assoc. J.27(3): 272-279|2011|10.2987/11-6134.1
156512|T||Scollon,E.J., J.M. Starr, K.M. Crofton, M.J. Wolansky, M.J. DeVito, and M.F. Hughes|Correlation of Tissue Concentrations of the Pyrethroid Bifenthrin with Neurotoxicity in the Rat|Toxicology290(1): 1-6|2011|10.1016/j.tox.2011.08.002
156513|T||Zhang,Z.Y., W.L. Shan, W.C. Song, Y. Gong, and X.J. Liu|Phytotoxicity and Uptake of Chlorpyrifos in Cabbage|Environ. Chem. Lett.9(4): 547-552|2011|10.1007/s10311-011-0320-8
156514|T||Da Rocha,M.S., M.G. Nascimento, A.P.F. Cardoso, P.L.A. De Lima, E.A. Zelandi, J.L.V. De Camargo, and M.L.C.S. De Olivei|Cytotoxicity and Regenerative Proliferation as the Mode of Action for Diuron-Induced Urothelial Carcinogenesis in the Rat|Toxicol. Sci.113(1): 37-44|2010|10.1093/toxsci/kfp241
156515|T||Wagner,G., and E. Nadasy|Effect of Pre-Emergence Herbicides on Growth Parameters of Green Pea|Commun. Agric. Appl. Biol. Sci.71(3, Pt. A): 809-813|2006|
156516|T||Dubey,S.K., and S.D. Billore|Effect of Level and Source of Sulphur on Symbiotic and Biometrical Parameters of Soybean (Glycine max)|Indian J. Agric. Sci.65(2): 140-144|1995|
156517|A||Xu,C., W. Tu, C. Lou, Y. Hong, and M. Zhao|Enantioselective Separation and Zebrafish Embryo Toxicity of Insecticide beta-Cypermethrin|J. Environ. Sci.22(5): 738-743|2010|10.1016/S1001-0742(09)60171-6
156518|T||Ahmad,M., and M. Iqbal Arif|Resistance of Pakistani Field Populations of Spotted Bollworm Earias vittella (Lepidoptera: Noctuidae) to Pyrethroid, Organophosphorus and New Chemical Insecticides|Pest Manag. Sci.65(4): 433-439|2009|10.1002/ps.1702
156519|T||Ahmad,M., and M.I. Arif|Resistance of Beet Armyworm Spodoptera exigua (Lepidoptera: Noctuidae) to Endosulfan, Organophosphorus and Pyrethroid Insecticides in Pakistan|Crop Prot.29(12): 1428-1433|2010|10.1016/j.cropro.2010.07.025
156520|T||Stern,V.M.|Pesticides Applied for Grape Bud Beetle (GBB) Control in Coachella Valley, Calif., 1988|Insectic. Acaric. Tests16:38-|1991|10.1093/iat/16.1.38
156521|T||Tanigoshi,L.K., and J.D. Chamberlain|Black Vine Weevil Insecticide Efficacy in Strawberry, 1998|Arthropod Manag. Tests24:79-|1999|
156522|A||Srivastava,S., and S.F. D'Souza|Effect of Variable Sulfur Supply on Arsenic Tolerance and Antioxidant Responses in Hydrilla verticillata (L.f.) Royle|Ecotoxicol. Environ. Saf.73(6): 1314-1322|2010|10.1016/j.ecoenv.2009.12.023
156523|T||Vittum,P.J.|Efficacy of Several Turf Insecticides Against European Chafer Larvae, Home Lawn, 1995|Arthropod Manag. Tests21:366-|1996|10.1093/amt/21.1.366
156524|T||Swier,S.R., A. Rollins, L. Nye, V. Rodgers, and A. Johnson|The Effect of Irrigation and Clipping Removal on Mach-2 for Black Cutworm Control, 1998|Arthropod Manag. Tests24:338-|1999|
156526|T||Tanigoshi,L.K., J.D. Chamberlain, and C.H.,Jr. Shanks|Root Weevil Control on Strawberry, 1995|Arthropod Manag. Tests21:68-|1996|10.1093/amt/21.1.68a
156527|T||Tanigoshi,L.K., J.D. Chamberlain, and C.H.,Jr. Shanks|Root Weevil Control on Red Raspberry, 1995|Arthropod Manag. Tests21:67-|1996|10.1093/amt/21.1.67
156528|T||Besard,L., V. Mommaerts, J. Vandeven, X. Cuvelier, G. Sterk, and G. Smagghe|Compatibility of Traditional and Novel Acaricides with Bumblebees (Bombus terrestris): A First Laboratory Assessment of Toxicity and Sublethal Effects|Pest Manag. Sci.66(7): 786-793|2010|10.1002/ps.1943
156529|T||Stirling,G.R., L.L. Vawdrey, and E.L. Shannon|Options for Controlling Needle Nematode (Paralongidorus australis) and Preventing Damage to Rice in Northern Queensland|Aust. J. Exp. Agric.29(2): 223-232|1989|10.1071/EA9890223
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156531|T||Tanigoshi,L.K., and J.D. Chamberlain|Control of Root Weevil in Red Raspberry, 1996B|Arthropod Manag. Tests22(0): 56-|1997|10.1093/amt/22.1.56
156532|T||Tanigoshi,L.K., J.D. Chamberlain, and T.A. Murray|Root Weevil Control on Red Raspberry, 1996A|Arthropod Manag. Tests22(1): 55-56|1997|10.1093/amt/22.1.55a
156533|T||Tanigoshi,L.K., and J.D. Chamberlain|Insecticide Efficacy for Root Weevil on Strawberry, 1997|Arthropod Manag. Tests23:56-57|1998|
156534|T||Tanigoshi,L.K., and J.D. Chamberlain|Root Weevil Control on Red Raspberry, 1997|Arthropod Manag. Tests22:56-|1998|10.1093/amt/22.1.56
156535|T||Strom,B.L., and L.M. Roton|Effectiveness of Cedar Oil Products for Preventing Host Use by Ips avulsus (Eichhoff) (Coleoptera: Curculionidae) in a Modified Small-Bolt Assay|J. Entomol. Sci.46(1): 14-22|2011|10.18474/0749-8004-46.1.14
156536|T||Dai,P.L., Q. Wang, J.H. Sun, F. Liu, X. Wang, Y.Y. Wu, and T. Zhou|Effects of Sublethal Concentrations of Bifenthrin and Deltamethrin on Fecundity, Growth, and Development of the Honeybee Apis mellifera Ligustica|Environ. Toxicol. Chem.29(3): 644-649|2010|10.1002/etc.67
156537|T||Adams,A.J., and F.R. Hall|Initial Behavioural Responses of Aphis gossypii to Defined Deposits of Bifenthrin on Chrysanthemum|Crop Prot.9:39-43|1990|10.1016/0261-2194(90)90044-8
156538|T||Mao,W., M.A. Schuler, and M.R. Berenbaum|CYP9Q-Mediated Detoxification of Acaricides in the Honey Bee (Apis mellifera)|Proc. Natl. Acad. Sci. U.S.A.108(31): 12657-12662|2011|10.1073/pnas.1109535108
156539|T||Shean,B., and W.S. Cranshaw|Differential Susceptibilities of Green Peach Aphid (Homoptera: Aphididae) and Two Endoparasitoids (Hymenoptera: Encyrtidae and Braconidae) to Pesticides|J. Econ. Entomol.84(3): 844-850|1991|10.1093/jee/84.3.844
156540|T||Barden,S.A., D.W. Held, and L.C. Graham|Lack of Interactions Between Fire Ant Control Products and White Grubs (Coleoptera: Scarabaeidae) in Turfgrass|J. Econ. Entomol.104(6): 2009-2016|2011|10.1603/EC11131
156541|T||Labanowska,B., and K. Tylus|The Effectiveness of Some New Insecticides Used Against the Currant Shoot Borer (Incurvaria capitella CL)|Fruit Sci. Rep. (Skierniewice)17(3): 129-136|1990|
156542|T||Paloukis,S.|Evaluation of Two New Insecticides for the Control of Scale Insects on Fruits Trees in Northern Greece|Boll. Lab. Entomol. Agrar. Filippo Silvestri Portici43:179-183|1986|
156543|T||Liang,P., X.W. Gao, and B.Z. Zheng|Genetic Basis of Resistance and Studies on Cross-Resistance in a Population of Diamondback Moth, Plutella xylostella (Lepidoptera:  Plutellidae)|Pest Manag. Sci.59(11): 1232-1236|2003|10.1002/ps.760
156544|T||Heller,P.R., and R. Walker|Management of Japanese Beetle Grubs with Experimental and Conventional Formulations on a Golf Course Rough in Carbon County, PA, 1994|Arthropod Manag. Tests20:282-283|1995|
156545|T||Heller,P.R., and R. Walker|Fall Control of Japanese Beetle Grubs with Dursban Pro, Talstar F, and Experimental Formulations on a Golf Course Fairway in Lewistown, Pennsylvania, 1995|Arthropod Manag. Tests21:341-|1996|10.1093/amt/21.1.341
156546|T||Heller,P.R., and R. Walker|Evaluation of Dursban, Sevin, Talstar, and Experimental Formulations for Management of Japanese Beetle Grubs on a Golf Course Rough in Carbon County, Pennsylvania, 1995|Arthropod Manag. Tests21:339-|1996|
156547|T||Heller,P.R., and R. Walker|Annual Bluegrass Weevil Management on a Golf Course Fairway with Chlorpyrifos, Cyfluthrin, Talstar, and Experimental Formulations in Bedford County, Pennsylvania, 1995|Arthropod Manag. Tests21:337-|1996|10.1093/amt/21.1.337
156548|T||Heller,P.R., and R. Walker|Management of Japanese Beetle Grubs with Dursban, Talstar, and Experimental Formulations on a Golf Course Fairway in Centre County, Pennsylvania, 1995|Arthropod Manag. Tests21:338-|1996|
156549|T||Heller,P.R., and R. Walker|Evaluation of Talstar, Dursban, and Experimental Formulations to Manage Black Cutworm on Creeping Bentgrass at the Valentine Turfgrass Research Center, University Park, Pennsylvania, 1995|Arthropod Manag. Tests21:322-323|1996|
156550|T||Heller,P.R., and R. Walker|Management of Scarab White Grubs with Single and Split Applications of Bifenthrin 0.3% ME, Oftanol 21, Dursban Pro, and Dylox 6.2G on a Low Maintenance Turfgrass Area, 1996|Arthropod Manag. Tests22(0): 382-383|1997|
156551|T||Jacobson,A., R. Foster, C. Krupke, W. Hutchison, B. Pittendrigh, and R. Weinzierl|Resistance to Pyrethroid Insecticides in Helicoverpa zea (Lepidoptera: Noctuidae) in Indiana and Illinois|J. Econ. Entomol.102(6): 2289-2295|2009|10.1603/029.102.0634
156552|T||Rhainds,M., and C. Sadof|Control of Bagworms (Lepidoptera: Psychidae) Using Contact and Soil-Applied Systemic Insecticides|J. Econ. Entomol.102(3): 1164-1169|2009|10.1603/029.102.0339
156553|T||Greenberg,L., M.K. Rust, J.H. Klotz, D. Haver, J.N. Kabashima, S. Bondarenko, and J. Gan|Impact of Ant Control Technologies on Insecticide Runoff and Efficacy|Pest Manag. Sci.66(9): 980-987|2010|10.1002/ps.1970
156554|T||Heller,P.R., and R. Walker|Annual Bluegrass Weevil Management on a Golf Course Fairway with Chlorpyrifos and Bifenthrin Formulations, 1996|Arthropod Manag. Tests22(0): 363-|1997|
156555|T||Heller,P.R., and R. Walker|Annual Bluegrass Weevil Management on a Golf Course Fairway with Chlorpyrifos and Bifenthrin Formulations, 1997|Arthropod Manag. Tests23:329-|1998|10.1093/amt/23.1.329
156556|T||Heller,P.R., and R. Walker|Evaluation of Bifenthrin, Diazinon, and Dursban Granular Formulations for Management of Black Cutworm on Creeping Bentgrass, 1997|Arthropod Manag. Tests23:315-|1998|10.1093/amt/23.1.315
156557|T||Heller,P.R., and R. Walker|Evaluation of Spinosad, Bifenthrin, Chlorpyrifos, and Experimental Formulations for Management of Black Cutworm Larvae on Creeping Bentgrass, 1997|Arthropod Manag. Tests23:313-|1998|10.1093/amt/23.1.313
156558|T||Castro,B.A., and J.S. Armstrong|Comparative Efficacy of Selected Insecticide Alternatives for Boll Weevil (Coleoptera: Curculionidae) Control Using Laboratory Bioassays|J. Cotton Sci.13(3): 189-195|2009|
156559|T||Fuller,B.W., M.A. Boetel, M.A. Catangui, J.M. Jenson, D.J. Thompson, M.A. Brinkman, M.P. Smith, and T.S. Voss|Evaluation of Planting-Time Soil Insecticide Applications for Controlling Corn Rootworm Larvae in South Dakota, 1994|Arthropod Manag. Tests20:167-168|1995|10.1093/amt/20.1.167
156560|T||Heller,P.R., and R. Walker|Evaluation of Conventional and Experimental Formulations to Control Japanese Beetle Grubs on a Golf Course Fairway in Mifflin County, PA., 1990|Insectic. Acaric. Tests16:245-|1991|
156561|T||Mujeeb,K.A., M.S. Rahi, and A.R. Shakoori|Toxicity of Synthetic Pyrethroids, Talstar 10EC and K-Othrine 25WP, and Mixture of an Organophosphorus and Synthetic Pyrethroid, Pro-Store 420EC to Adult Beetles of Pakistan Strain of Tribolium castaneum (Herbst)|Pak. J. Zool.32(4): 285-288|2000|
156562|T||Kay,I.R., and J.D. Brown|Evaluating the Efficacy of Insecticides to Control Sceliodes cordalis (Doubleday) (Lepidoptera: Crambidae) in Eggplant|Aust. J. Entomol.48(2): 177-181|2009|10.1111/j.1440-6055.2008.00687.x
156563|T||Swier,S.R., A. Rollins, and B. Carney|Control of Black Cutworm on a Bentgrass Nursery, 1996|Arthropod Manag. Tests22:354-|1997|10.1093/amt/22.1.354
156564|T||Swier,S.R., and A. Rollins|Control of Annual Bluegrass Weevil with Pyrethroids, 1995|Arthropod Manag. Tests21:342-343|1996|
156565|T||Swier,S.R., and A. Rollins|Black Turfgrass Ataenius Larval Control with Bifenthrin, 1995|Arthropod Manag. Tests21:328-|1996|
156566|T||Swier,S.R., and A. Rollins|Control of Black Cutworm with Bifenthrin, 1995|Arthropod Manag. Tests21:327-|1996|
156567|T||Swier,S.R., A. Rollins, R. Lamarche, and M. Hodgson|Efficacy of Talstar Flowable and Granular as a Preventative Against Black Turfgrass Ataenius Adults, 1997|Arthropod Manag. Tests23:337-|1998|
156568|T||Swier,S.R., A. Rollins, L. Nye, V. Rodgers, and A. Johnson|Comparison of Tempo, Talstar and DeltaGard on Black Cutworm, 1998|Arthropod Manag. Tests24:337-338|1999|
156569|T||Vittum,P.J.|Efficacy of Late Season Applications of Various Turf Insecticides Against Japanese Beetle Populations, 1996|Arthropod Manag. Tests23:320-|1998|10.1093/amt/23.1.320
156570|T||Vittum,P.J.|Field Efficacy of Three Pyrethroids, Alone or in Tank Mixes with Chlorpyrifos or Imidacloprid, Against Annual Bluegrass Weevil, Golf Course Fairway, 1998|Arthropod Manag. Tests24:362-|1999|
156571|A||Chang,K.S., J.S. Jung, C. Park, D.K. Lee, and E.H. Shin|Insecticide Susceptibility and Resistance of Larvae of the Anopheles sinensis Group (Diptera: Culicidae) from Paju, Republic of Korea|Entomol. Res.39(3): 196-200|2009|10.1111/j.1748-5967.2009.00218.x
156572|T||Meinke,L.J., B.D. Siegfried, R.J. Wright, and L.D. Chandler|Adult Susceptibility of Nebraska Western Corn Rootworm (Coleoptera: Chrysomelidae) Populations to Selected Insecticides|J. Econ. Entomol.91(3): 594-600|1998|10.1093/jee/91.3.594
156573|T||Weaver,J.E., and J.C. Farren|Black Cutworm Control on a Golf Course Green, WV, 1995|Arthropod Manag. Tests21:331-332|1996|
156574|T||Kuhar,T.P., and J.M. Alvarez|Timing of Injury and Efficacy of Soil-Applied Insecticides Against Wireworms on Potato in Virginia|Crop Prot.27(3-5): 792-798|2008|10.1016/j.cropro.2007.11.011
156575|T||Weaver,J.E., and J.C. Farren|Control of Japanese Beetle Larvae on Golf Course Fairway, WV, 1995|Arthropod Manag. Tests21:353-|1996|10.1093/amt/21.1.353
156576|T||Webb,S.E.|Control of Insect Pests of Squash, Fall, 1991|Insectic. Acaric. Tests17:153-154|1992|10.1093/iat/17.1.153a
156577|T||Ramoutar,D., R.S. Cowles, and S.R. Alm|Pyrethroid Resistance Mediated by Enzyme Detoxification in Listronotus maculicollis (Coleoptera: Curculionidae) from Connecticut|J. Econ. Entomol.102(3): 1203-1208|2009|10.1603/029.102.0345
156578|T||Williams,R.N., D.S. Fickle, and M.R. Ahmed|Field Evaluation of Insecticides on Strawberry Fruit and Foliage, 1998|Arthropod Manag. Tests24:80-|1999|
156579|T||Oliver,J.B., D.C. Fare, N. Youssef, S.S. Scholl, M.E. Reding, C.M. Ranger, J.J. Moyseenko, and M.A. Halcomb|Evaluation of a Single Application of Neonicotinoid and Multi-Application Contact Insecticides for Flatheaded Borer Management in Field Grown Red Maple Cultivars|J. Environ. Hortic.28(3): 135-149|2010|10.24266/0738-2898-28.3.135
156580|T||Shetlar,D.J., K. McClure, and H.D. Niemczyk|Efficacy of Spinosad and Standards for Control of Small Black Cutworm Larvae, 1997|Arthropod Manag. Tests23:317-|1998|10.1093/amt/23.1.317
156581|T||Shetlar,D.J., H.D. Niemczyk, and W. Pinkston|Efficacy of Spinosad and Standards for Control of Large Black Cutworm Larvae, 1997|Arthropod Manag. Tests23:316-|1998|
156582|T||Shetlar,D.J., H.D. Niemczyk, and W. Pinkston|Preventive Control of Black Turfgrass Ataenius Larvae in Bentgrass, 1998|Arthropod Manag. Tests24:334-|1999|
156583|T||Shetlar,D.J., H.D. Niemczyk, and W. Pinkston|Control of Black Turfgrass Ataenius Adults and Larvae in Bentgrass, Columbus, Ohio - 1998|Arthropod Manag. Tests24:335-|1999|
156584|T||Silva,G.A., M.C. Picanco, L. Bacci, A.L.B. Crespo, J.F. Rosado, and R.N.C. Guedes|Control Failure Likelihood and Spatial Dependence of Insecticide Resistance in the Tomato Pinworm, Tuta absoluta|Pest Manag. Sci.67(8): 913-920|2011|10.1002/ps.2131
156585|T||Hara,A.H., and T.Y. Hata|Residual Activity of Insecticides on Dendrobium for Control of Orchid Weevils, 1993|Arthropod Manag. Tests19:369-370|1994|10.1093/amt/19.1.369a
156586|T||Heller,P.R., and R. Walker|Suppression of Black Cutworm Larvae with Spinosad, Bifenthrin, Chlorpyrifos, and Experimental Formulations on Creeping Bentgrass, 1997|Arthropod Manag. Tests23:312-313|1998|10.1093/amt/23.1.312a
156587|T||Heller,P.R., J. Heller, and R. Walker|Black Cutworm Larval Suppression with Dursban, Naturalis-T, Talstar, Tempo, and Experimental Formulations on Creeping Bentgrass, 1998|Arthropod Manag. Tests24:330-|1999|
156588|T||Heller,P.R., and R. Walker|Suppression of Black Cutworm Larvae with Conserve, Mach 2, Naturalis-T, Scimitar, and Talstar Formulations on Creeping Bentgrass, 1998|Arthropod Manag. Tests24:331-|1999|
156589|T||Heller,P.R., and R. Walker|Black Cutworm Larval Suppression with Talstar PL G and Experimental Formulations on Creeping Bentgrass, 1998|Arthropod Manag. Tests24:331-332|1999|
156590|T||Heller,P.R., and R. Walker|Annual Bluegrass Weevil Management with Chlorpyrifos and Bifenthrin Formulations, 1998|Arthropod Manag. Tests24:351-|1999|
156591|T||Heng-Moss,T.M., F.P. Baxendale, and A.P. Weinhold|Black Cutworm Control Using Conserve in Combination with Selected Additives, 1998|Arthropod Manag. Tests24:332-|1999|10.1093/amt/24.1.G8
156592|T||Hulbert,D., R. Isaacs, C. Vandervoort, and J.C. Wise|Rainfastness and Residual Activity of Insecticides to Control Japanese Beetle (Coleoptera: Scarabaeidae) in Grapes|J. Econ. Entomol.104(5): 1656-1664|2011|10.1603/EC11077
156593|T||Langenberg,J.P., G.P. Van der Schans, H.E.T. Spruit, W.C. Kuijpers, R.H. Mars-Groenendijk, H.C.M. Van Dijk-Knijnenburg,|Toxicokinetics of Sulfur Mustard and Its DNA-Adducts in the Hairless Guinea Pig|Drug Chem. Toxicol.21(suppl. 1): 131-147|1998|10.3109/01480549809007407
156594|T||Baxendale,F.P., A.P. Weinhold, and J. Schild|Control of Sod Webworm on a Kentucky Bluegrass Lawn in Scotts Bluff Co., Nebraska, 1995|Arthropod Manag. Tests21:347-|1996|
156595|T||Boetel,M.A., and B.W. Fuller|Comparison of Planting- and Cultivation-Time Applied Insecticides for Managing Corn Rootworm Larvae in South Dakota, 1995|Arthropod Manag. Tests21:215-216|1996|10.1093/amt/21.1.215
156596|T||Nielsen,D.G., and M.J. Dunlap|Taxus, Control of Black Vine Weevil (BVW) Adults, Wooster, Ohio, 1989|Insectic. Acaric. Tests16:261-|1991|10.1093/iat/16.1.261
156597|T||Potter,D.A., P.G. Spicer, and A.J. Powell|Control of Japanese Beetle and Masked Chafer Grubs in Turfgrass Using Pre-Seeding Application of Bifentrin, 1993|Arthropod Manag. Tests19:331-|1994|10.1093/amt/19.1.331
156598|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Preventive Treatments Applied for Control of an Induced Japanese Beetle Larval Population in Turfgrass, 1996|Arthropod Manag. Tests22:365-|1997|10.1093/amt/22.1.365
156599|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M. Belcher|Control of Black Turfgrass Ataenius Adults on a Golf Course Fairway, 1995|Arthropod Manag. Tests22:350-|1997|10.1093/amt/22.1.350
156600|T||Swier,S.R., and A. Rollins|Japanese Beetle Larval Control with Bifentrhin and B.T. var. japonica, 1995|Arthropod Manag. Tests21:330-331|1996|10.1093/amt/21.1.330
156601|T||Strom,B.L., and L.M. Roton|A Small-Bolt Method for Screening Tree Protectants Against Bark Beetles (Coleoptera: Curculionidae)|J. Entomol. Sci.44(4): 297-307|2009|10.18474/0749-8004-44.4.297
156602|T||Sauphanor,B., J.C. Bouvier, and V. Brosse|Spectrum of Insecticide Resistance in Cydia pomonella (Lepidoptera:  Tortricidae) in Southeastern France|J. Econ. Entomol.91(6): 1225-1231|1998|10.1093/jee/91.6.1225
156603|T||Shad,S.A., A.H. Sayyed, S. Fazal, M.A. Saleem, S.M. Zaka, and M. Ali|Field Evolved Resistance to Carbamates, Organophosphates, Pyrethroids, and New Chemistry Insecticides in Spodoptera litura Fab. (Lepidoptera: Noctuidae)|J. Pest Sci.85(1): 153-162|2012|10.1007/s10340-011-0404-z
156604|T||Liesch,P.J., and R.C. Williamson|Evaluation of Chemical Controls and Entomopathogenic Nematodes for Control of Phyllophaga White Grubs in a Fraser Fir Production Field|J. Econ. Entomol.103(6): 1979-1987|2010|10.1603/EC10176
156605|T||McCoy,C.W., R.J. Stuart, I. Jackson, J. Fojtik, and A. Hoyte|Soil Surface Applications of Chemicals for the Control of Neonate Diaprepes abbreviatus  (Coleoptera: Curculionidae) and Their Effect on Ant Predators|Fla. Entomol.84(3): 327-335|2001|10.2307/3496489
156607|T||Mulrooney,J.E., A.R. Womac, and J.C. Greever|The Influence of Carrier Oil Viscosity on the Transfer of Bifenthrin from Cotton to Tobacco Budworm Larvae|Southwest. Entomol.18(2): 91-100|1993|
156608|T||Potter,D.A., L. Foss, R.E. Baumler, and D.W. Held|Managing Eastern Tent Caterpillars Malacosoma americanum (F) on Horse Farms to Reduce Risk of Mare Reproductive Loss Syndrome|Pest Manag. Sci.61(1): 3-15|2005|10.1002/ps.958
156609|T||Seagraves,B.L., K.F. Haynes, C.T. Redmond, S. Tittle, and D.A. Potter|Seasonal Biology and Management of the Maple Shoot Borer, Proteoteras aesculana (Lepidoptera: Tortricidae), in Production Nurseries|Pest Manag. Sci.64(10): 1040-1049|2008|10.1002/ps.1605
156610|T||Shetlar,D.J., K.T. Power, M. Belcher, and H.D. Niemczyk|Black Cutworm and Sod Webworm Larval Control on Short Cut Bentgrass, Columbus, OH, 1995|Arthropod Manag. Tests21:325-|1996|10.1093/amt/21.1.325
156611|T||Shetlar,D.J., M. Belcher, and H.D. Niemczyk|Black Cutworm and Sod Webworm Larval Control on Creeping Bentgrass, 1996|Arthropod Manag. Tests22:351-|1997|
156612|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Western Corn Rootworm and Residual Pest Control, 1996|Arthropod Manag. Tests22(0): 228-|1997|
156613|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Late Season Pests of Field Corn, 1998|Arthropod Manag. Tests24:222-223|1999|
156614|T||Seymour,R.C., J.B. Campbell, and R.J. Wright|Control of Western Corn Rootworm and Residual Pest Control, 1997|Arthropod Manag. Tests24:220-221|1999|
156615|T||Weber,K.M., R.C. Boston, and D.D. Leaver|The Effect of Molybdenum and Sulfur on the Kinetics of Copper Metabolism in Sheep|Aust. J. Agric. Res.34:295-306|1983|10.1071/AR9830295
156616|T||Hidiroglou,M., D.P. Heaney, and K.E. Hartin|Copper Poisoning in a Flock of Sheep. Copper Excretion Patterns After Treatment with Molybdenum and Sulfur or Penicillamine|Can. Vet. J.25:377-382|1984|
156617|T||Pena,J.E., J.H. Crane, J.L. Capinera, R.E. Duncan, P.E. Kendra, R.C. Ploetz, S. McLean, G. Brar, M.C. Thomas, and R.D. |Chemical Control of the Redbay Ambrosia Beetle, Xyleborus glabratus, and Other Scolytinae (Coleoptera: Curculionidae)|Fla. Entomol.94(4): 882-896|2011|10.1653/024.094.0424
156618|T||Olkowski,A.A., S.R. Gooneratne, E.C. Crichlow, C.G. Rousseaux, and D.A. Christensen|Effects of High Dietary Sulfur on Brain Functions Using Evoked Potentials Technique|Can. J. Vet. Res.54(2): 113-118|1990|
156619|T||Galvan,T.L., R.L. Koch, and W.D. Hutchison|Toxicity of Commonly Used Insecticides in Sweet Corn and Soybean to Multicolored Asian Lady Beetle (Coleoptera:  Coccinellidae)|J. Econ. Entomol.98(3): 780-789|2005|10.1603/0022-0493-98.3.780
156620|T||Whanger,P.D., O.H. Muth, J.E. Oldfield, and P.H. Weswig|Influence of Sulfur on Incidence of White Muscle Disease in Lambs|J. Nutr.97:553-561|1969|10.1093/jn/97.4.553
156621|T||Wiltz,B.A., D.R. Suiter, and W.A. Gardner|Activity of Bifenthrin, Chlorfenapyr, Fipronil, and Thiamethoxam Against Red Imported Fire Ants (Hymenoptera: Formicidae)|J. Econ. Entomol.103(3): 754-761|2010|10.1603/EC09350
156622|T||Del Socorro,A.P., P.C. Gregg, and A.J. Hawes|Development of a Synthetic Plant Volatile-Based Attracticide for Female Noctuid Moths. III. Insecticides for Adult Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae)|Aust. J. Entomol.49(1): 31-39|2010|10.1111/j.1440-6055.2009.00735.x
156623|T||Oghiakhe,S., and N.J. Holliday|Evaluation of Insecticides for Control of Overwintering Hylurgopinus rufipes (Coleoptera: Curculionidae)|J. Econ. Entomol.104(3): 889-894|2011|10.1603/EC10336
156624|T||Eckberg,T.B., and W. Cranshaw|Efficacy/Persistence Evaluations of Elm Bark Beetle Insecticides, Laboratory Bioassay|Arthropod Manag. Tests20:332-|1995|10.1093/amt/20.1.332
156625|T||Gerace,D., and W.S. Cranshaw|Control of Tobacco Budworm with Foliar-Applied Insecticides, Trial 2, 1996|Arthropod Manag. Tests22(0): 386-387|1997|
156626|T||Gerace,D., and W.S. Cranshaw|Control of Tobacco Budworm with Foliar-Applied Insecticides, Trial 1, 1996|Arthropod Manag. Tests22(0): 386-|1997|
156627|T||Gibb,T.J., and W.G. Buhler|Control of White Grubs at the Purdue University Agronomy Research Center, W. Lafayette, IN, 1994|Arthropod Manag. Tests20:290-291|1995|10.1093/amt/20.1.290a
156628|T||Vittum,P.J.|Efficacy of Several Turf Insecticides Against Japanese Beetle Larvae, Home Lawn, 1995|Arthropod Manag. Tests21:363-364|1996|10.1093/amt/21.1.363
156629|T||Van Steenwyk,R.A., and R.M. Nomoto|Codling Moth Control in Pears, 1996|Arthropod Manag. Tests22(0): 36-37|1997|10.1093/amt/22.1.36
156630|T||Slocombe,A.C., and D.N. Ferro|Potato Insect Control, 1994|Arthropod Manag. Tests20:122-|1995|10.1093/amt/20.1.122
156631|T||Smitley,D.R., and T.W. Davis|Japanese Beetle Larvae Control on Potted Taxus, 1995|Arthropod Manag. Tests21:378-379|1996|
156632|T||Smitley,D.R., and T.W. Davis|Control of Gypsy Moth on a Colorado Blue Spruce Nursery, Ottawa Co., MI 1995|Arthropod Manag. Tests21:377-378|1996|10.1093/amt/21.1.377a
156633|T||Bragg,D.E.|Comparison of Insecticide Strategies in Spring Canola, 1998|Arthropod Manag. Tests24:205-206|1999|
156634|T||Cowles,R.S.|Optimizing a Basal Bark Spray of Dinotefuran to Manage Armored Scales (Hemiptera: Diaspididae) in Christmas Tree Plantations|J. Econ. Entomol.103(5): 1735-1743|2010|10.1603/EC10077
156635|T||Cross,J.V., D.R. Hall, P.J. Innocenzi, H. Hesketh, C.N. Jay, and C.M. Burgess|Exploiting the Aggregation Pheromone of Strawberry Blossom Weevil Anthonomus rubi (Coleoptera:  Curculionidae):  Part 2. Pest Monitoring and Control|Crop Prot.25(2): 155-166|2006|10.1016/j.cropro.2005.04.004
156636|T||Smitley,D.R., and T.W. Davis|European Chafer on Turf, Jackson Co., MI, 1995|Arthropod Manag. Tests21:351-|1996|10.1093/amt/21.1.351
156637|T||Cone,W.W., and R.H. Miller|Spray Table Evaluation of Brigade and Dibrom for Control of Bertha Armyworm on Hops, 1994|Arthropod Manag. Tests20:335-|1995|10.1093/amt/20.1.335
156638|T||Weinhold,A.P., F.P. Baxendale, and T.M. Heng-Moss|Early Season Control of Bluegrass Billbugs on a Kentucky Bluegrass Lawn in Saunders Co., Nebraska, 1995|Arthropod Manag. Tests21:354-|1996|10.1093/amt/21.1.354
156639|T||Weinhold,A.P., F.P. Baxendale, J. Schild, and T. Merrigan|Selected Rates of Conventional and Biorational Insecticides for Early Season Sod Webworm Control, 1997|Arthropod Manag. Tests23:340-341|1998|10.1093/amt/23.1.340a
156640|T||Williams,R.N., D.S. Fickle, and M.R. Ahmed|Bioassay Evaluation of Insecticides on Strawberry Fruit and Foliage, 1998|Arthropod Manag. Tests24:81-|1999|
156641|T||Winters,S., and B. Cartwright|Control of Lepidopterous Larvae on Cabbage, 1991|Insectic. Acaric. Tests17:90-91|1992|10.1093/iat/17.1.90
156642|T||Witkowski,J.F.|Control of Second Generation European Corn Borer in Corn, 1990|Insectic. Acaric. Tests16:179-|1991|10.1093/iat/16.1.179
156643|T||Power,K.T., D.J. Shetlar, H.D. Niemczyk, and M.G. Belcher|Subsurface Placement and Surface Application of Insecticides for Control of Japanese Beetle Larvae on a Golf Course Fairway in Lucas County, OH, 1993|Arthropod Manag. Tests19:338-339|1994|10.1093/amt/19.1.338
156644|T||Schuster,D.J.|Insect Control on Fresh Market Tomatoes in West-Central Florida, Spring 1989|Insectic. Acaric. Tests16:114-|1991|
156645|T||Sclar,D.C., and W.S. Cranshaw|Persistence of Foliar-Applied Insecticides for Elm Leaf Beetle Control, Trial One, 1995|Arthropod Manag. Tests21:369-370|1996|10.1093/amt/21.1.369b
156646|T||Sclar,D.C., and W.S. Cranshaw|Persistence of Foliar-Applied Insecticides for Elm Leaf Beetle Control, Trial Two, 1995|Arthropod Manag. Tests21:370-371|1996|10.1093/amt/21.1.370
156647|T||Bragg,D.E., J. Burns, and J. Yenish|Antagonism Between Herbicide and Insecticide in Spring Canola, 1998|Arthropod Manag. Tests24:204-205|1999|
156648|T||Van Steenwyk,R.A., and R.M. Nomoto|Codling Moth Control in Pears, 1997|Arthropod Manag. Tests23:40-41|1998|10.1093/amt/23.1.40
156649|T||Milbrath,L.R., M.J. Weiss, and M. Zarnstorff|Insecticide Efficacy Trial for Flea Beetles on Canola, 1997|Arthropod Manag. Tests23:187-|1998|10.1093/amt/23.1.187
156650|T||Stansly,P.A., and T.X. Liu|Selectivity of Insecticides to Encarsia pergandiella (Hymenoptera: Aphelinidae), an Endoparasitoid of Bemisia argentifolii (Hemiptera: Aleyrodidae)|Bull. Entomol. Res.87(5): 525-531|1997|10.1017/S0007485300041390
156651|T||Tufail,N., M.A. Saleem, and A.R. Shakoori|Biochemical Changes in Sixth Instar Larvae of PAK and FSS-II Strains of Red Flour Beetle, Tribolium castaneum (Herbst.) (Coleoptera: Tenebrionidae) Following Administration of Sublethal Doses of a Synthetic Pyrethroid, |Pak. J. Zool.26(3): 197-206|1994|
156652|T||Allan,S.A., D.L. Kline, and T. Walker|Environmental Factors Affecting Efficacy of Bifenthrin-Treated Vegetation for Mosquito Control|J. Am. Mosq. Control Assoc.25(3): 338-346|2009|10.2987/09-5854.1
156653|A||Nguyen,H.T., P.I. Whelan, M.S. Shortus, and S.P. Jacups|Evaluation of Bifenthrin Applications in Tires to Prevent Aedes Mosquito Breeding|Am. Mosq. Control Assoc. J.25(1): 74-82|2009|10.2987/08-5752.1
156654|T||Papadopoulou-Mourkidou,E., A. Kotopoulou, and D. Stylianidis|Field Dissipation of the Pyrethroid Insecticide/Acaricide Biphenthrin on the Foliage of Peach Trees, in the Peel and Pulp of Peaches, and in Tomatoes|Ann. Appl. Biol.115(3): 405-416|1989|10.1111/j.1744-7348.1989.tb06560.x
156655|A||Velisek,J., Z. Svobodova, and V. Piackova|Effects of Acute Exposure to Bifenthrin on Some Haematological, Biochemical and Histopathological Parameters of Rainbow Trout (Oncorhynchus mykiss)|Vet. Med. (Prague)54(3): 131-137|2009|10.17221/15/2009-VETMED
156656|T||Saeed,S., A. Masood, A.H. Sayyed, and Y.J. Kwon|Comparative Efficacy of Different Pesticides Against Mango Bark Beetle Hypocryphalus mangiferae Stebbing (Coleoptera: Scolytidae)|Entomol. Res.41(4): 142-150|2011|10.1111/j.1748-5967.2011.00329.x
156657|T||Shakoori,A.R., N. Tufail, and M.A. Saleem|Response of Malathion-Resistant and Susceptable Strains of Tribolium castaneum (Herbst) to Bifenthrin Toxicity|Pak. J. Zool.26(2): 169-178|1994|
156658|T||Tufail,N., M.A. Saleem, and A.R. Shakoori|Effectiveness of  Synthetic Pyrethroids Against Susceptible and Resistant Strains of Tribolium castaneum|Pak. J. Zool.24(3): 199-209|1992|
156659|T||Seaton,K.A., W.M. Woods, and P.G. Walsh|Postharvest Disinfestation of Arthropods from Field-Grown Geraldton Wax (Chamelaucium uncinatum Schauer)|N. Z. J. Crop Hortic. Sci.21(2): 147-151|1993|10.1080/01140671.1993.9513760
156660|T||Srinivasa Reddy,D., C. Srivastava, and B. Paul|Residual Toxicity of Impregnated Insecticides on Gunnybags Against Red Flour Beetle (Tribolium castaneum)|Indian J. Agric. Sci.75(8): 532-534|2005|
156662|T||Ben-Noon,E., D. Shtienberg, E. Shlevin, H. Vintal, and A. Dinoor|Optimization of Chemical Suppression of Alternaria dauci, the Causal Agent of Alternaria Leaf Blight in Carrots|Plant Dis.85(11): 1149-1156|2001|10.1094/PDIS.2001.85.11.1149
156663|T||Ilyas,M.B., and M. Bashir|Effect of Chickpea Seed Treatment with Fungicides on the Recovery of Seed Borne Fungi|Pak. J. Agric. Res.8(1): 114-116|1987|
156664|T||Hema,L.R., M.B. Shivanna, V. Kumar, M. Krishnappa, H.S. Prakash, and H.S. Shetty|Control of Seed-Borne Fungi in Okra (Hibiscus esculentus) by Fungicidal Seed Treatment|Indian J. Agric. Sci.61(10): 778-782|1991|
156665|T||Ormrod,D.J., M.E. Sweeney, and L.S. MacDonald|Effect of Fungicides on Ramularia Leaf and Stalk Spot of Rhubarb in Coastal British Columbia|Can. Plant Dis. Surv.65(2): 29-30|1985|
156666|T||Boesch,B.P., and N.A. Mitkowski|Chemical Methods of Moss Control on Golf Course Putting Greens|Appl. Turfgrass Sci.:5 p.|2005|
156667|T||Liggitt,J., P. Jenkinson, and D.W. Parry|The Role of Saprophytic Microflora in the Development of Fusarium Ear Blight of Winter Wheat Caused by Fusarium culmorum|Crop Prot.16(7): 679-685|1997|10.1016/S0261-2194(97)00039-2
156668|T||McManus,P.S., T.J. Proffer, R. Berardi, B.R. Gruber, J.E. Nugent, G.R. Ehret, Z. Ma, and G.W. Sundin|Integration of Copper-Based and Reduced-Risk Fungicides for Control of Blumeriella jaapii on Sour Cherry|Plant Dis.91(3): 294-300|2007|10.1094/PDIS-91-3-0294
156669|T||Alvarez,A.M., and M.G. Nelson|Control of Phytophthora palmivora in Papaya Orchards with Weekly Sprays of Chlorothalonil|Plant Dis.66(1): 37-39|1982|10.1094/PD-66-37
156670|T||Demirci,F., M. Mustu, M.B. Kaydan, and S. Ulgenturk|Effects of Some Fungicides on Isaria farinosa, and In Vitro Growth and Infection Rate on Planococcus citri|Phytoparasitica39(4): 353-360|2011|10.1007/s12600-011-0168-2
156671|T||Pratissoli,D., A.M. Milanez, W.F. Barbosa, F.N. Celestino, G.S. Andrade, and R.A. Polanczyk|Side Effects of Fungicides Used in Cucurbitaceous Crop on Trichogramma atopovirilia Oatman & Platner (Hymenoptera: Trichogramatidae)|Chil. J. Agric. Res.70(2): 323-327|2010|10.4067/S0718-58392010000200016
156672|T||Boerth,D.W., E. Eder, J.R. Stanks, P. Wanek, M. Wacker, S. Gaulitz, D. Skypeck, D. Pandolfo, and M. Yashin|DNA Adducts as Biomarkers for Oxidative and Genotoxic Stress from Pesticides in Crop Plants|J. Agric. Food Chem.56(15): 6751-6760|2008|10.1021/jf072816q
156673|T||Cook,T., B. McDonald, and K. Merrifield|Controlling Moss in Putting Greens: Extensive Testing Shows that Some Products Control Moss Infestation to Some Degree, but a Dense Stand of Turf is Still the Best Defense|Golf Course Manag.70:103-106|2002|
156674|T||McCalla,J.H.,Jr., M.D. Richardson, D.E. Karcher, and L.R. Fry|Moss Control in Creeping Bentgrass Putting Greens|Hortic. Stud.:20-21|2002|
156675|T||Yelverton,F.H.|Managing Silvery Thread Moss in Creeping Bentgrass Greens|Golf Course Manag.73:103-107|2005|
156677|T||Freeman,C.P.|Biology, Ecology, and Management of White Grubs in North Carolina Turfgrass|Ph.D. Thesis,  North Carolina State University, NC:211 p.|2010|
156678|T||Jackson,D.M., K.A. Sorensen, C.E. Sorenson, and R.N. Story|Monitoring Cucumber Beetles in Sweetpotato and Cucurbits with Kairomone-Baited Traps|J. Econ. Entomol.98(1): 159-170|2005|10.1093/jee/98.1.159
156679|T||Barman,M., and S.N. Sharma|Effect of Rates and Sources of Sulphur on Growth and Yield of Rice (Oryza sativa) and Soil Sulphur|Indian J. Agric. Sci.78(3): 251-253|2008|
156680|T||Gao,M.X., Z.Y. Hu, G.D. Wang, and X. Xia|Effect of Elemental Sulfur Supply on Cadmium Uptake into Rice Seedlings when Cultivated in Low and Excess Cadmium Soils|Commun. Soil Sci. Plant Anal.41(8): 990-1003|2010|10.1080/00103621003646071
156681|T||MacDaniels,L.H., and J.R. Furr|The Effect of Dusting-Sulfur upon the Germination of the Pollen and the Set of Fruit of the Apple|Cornell Univ. Agric. Exp. Stn. Bull.499:3-13|1930|
156682|T||Cakmak,D., S. Blagojevic, D.R. Stevanovic, M. Jakovljevic, and V. Mrvic|Effect of Sulphur Fertilization on Wheat Yield and on Nutrient Grain Content on Chernozem in Serbia|Agrochimica53(2): 92-100|2009|
156683|T||Cimrin,K.M., Y. Togay, N. Togay, and F. Sonmez|Effects of Different Sulphur and Pyrite Levels on Yield, Yield Components and Nutrients Uptake of Lentil (Lens culinaris)|Indian J. Agric. Sci.78(6): 543-547|2008|
156685|T||Beauchamp,C.J., R.A.A. Morrall, and A.E. Slinkard|Effects of Scheduling Applications of Benomyl, Captafol and Chlorothalonil on Ascochyta Blight of Lentil|Can. J. Plant Pathol.8(3): 260-268|1986|10.1080/07060668609501798
156686|T||Folsom,D.|Comparative Effects of Certain Sulphur Fungicides on McIntosh Apple Trees|Maine Agric. Exp. Stn. Bull.464:31 p.|1948|
156687|T||Hoel,B.O.|Effects of Sulphur Application on Grain Yield and Quality, and Assessment of Sulphur Status in Winter Wheat (Triticum aestivum L.)|Acta Agric. Scand. Sect. B61(6): 499-507|2011|
156688|T||Emeran,A.A., J.C. Sillero, M. Fernandez-Aparicio, and D. Rubiales|Chemical Control of Faba Bean Rust (Uromyces viciae-fabae)|Crop Prot.30(7): 907-912|2011|10.1016/j.cropro.2011.02.004
156689|T||Hussain,Z., and M.H. Leitch|Effects of Foliar Applied Sulfur and Commercial Growth Regulators in Wheat|J. Plant Nutr.31(10-12): 1699-1710|2008|10.1080/01904160802324621
156690|T||Aquino,V.M., F.M. Shokes, R.D. Berger, D.W. Gorbet, and T.A. Kucharek|Relationships Among Late Leafspot, Healthy Leaf Area Duration, Canopy Reflectance, and Pod Yield of Peanut|Phytopathology82(5): 546-552|1992|10.1094/Phyto-82-546
156691|T||Kumar,S., S.K. Verma, T.K. Singh, and S. Singh|Effect of Nitrogen and Sulphur on Growth, Yield and Nutrient Uptake by Indian Mustard (Brassica juncea) Under Rainfed Condition|Indian J. Agric. Sci.79(8): 648-650|2009|
156692|T||Brammall,R.A.|Effect of Foliar Fungicide Treatment on Early Blight and Yield of Fresh Market Tomato in Ontario|Plant Dis.77(5): 484-488|1993|10.1094/PD-77-0484
156693|T||Kumar,S., S.K. Verma, T.K. Singh, and S. Singh|Effect of Nitrogen and Sulphur on Growth, Yield and Nutrient Uptake by Indian Mustard (Brassica juncea) Under Rainfed Condition|Indian J. Agric. Sci.81(2): 145-149|2011|
156694|T||Hwang,S.F., R.L. Conner, K.F. Chang, B.D. Gossen, H. Su, R.J. Howard, and G.D. Turnbull|Impact of Seeding Rate and Depth on Mycosphaerella Blight and Seed Yield of Field Pea|Can. J. Plant Sci.86(3): 845-853|2006|10.4141/P05-023
156695|T||Heazlewood,J.E., S. Wilson, R.J. Clark, and A. Gracie|Pollination of Vitis vinifera L. cv. Pinot Noir as Influenced by Botrytis Fungicides|Vitis (Multiple Languages)44(3): 111-115|2005|
156696|T||Poysa,V., R.A. Brammall, and R.E. Pitblado|Effects of Foliar Fungicide Sprays on Disease and Yield of Processing Tomatoes in Ontario|Can. J. Plant Sci.73(4): 1209-1215|1993|10.4141/cjps93-160
156697|T||Dernoeden,P.H.|Management of Take-All Patch of Creeping Bentgrass with Nitrogen, Sulfur, and Phenyl Mercury Acetate|Plant Dis.71(3): 226-229|1987|10.1094/PD-71-0226
156698|T||Porter,D.M.|Increased Severity of Sclerotinia Blight in Peanuts Treated with Captafol and Chlorothalonil|Plant Dis.64(4): 394-395|1980|10.1094/PD-64-394
156699|T||Porter,D.M., and R.K. Lankow|Growth of Sclerotinia minor on Media Containing Chlorothalonil and Benomyl|Plant Dis.65(7): 591-594|1981|10.1094/PD-65-591
156700|T||Sumner,D.R., T.B. Brenneman, and G.W. Harrison|Populations of Fungi in Soil After Chemigation with Chlorothalonil and Tebuconazole via Center-Pivot Irrigation|Plant Dis.75(10): 999-1004|1991|10.1094/PD-75-0999
156701|T||Porter,D.M.|The Effect of Chlorothalonil and Benomyl on the Severity of Sclerotinia Blight of Peanuts|Plant Dis.61(12): 995-998|1977|
156702|T||Stevenson,W.R.|Use of Captafol and Chlorothalonil on Reduced Application Method Schedules for Tomato Disease Control in Indiana|Plant Dis. Rep.61(9): 803-805|1977|
156703|T||Culbreath,A.K., T.B. Brenneman, K. Bondari, K.L. Reynolds, and H.S. McLean|Late Leaf Spot, Southern Stem Rot, and Peanut Yield Responses to Rates of Cyproconazole and Chlorothalonil Applied Alone and in Combination|Plant Dis.79(11): 1121-1125|1995|10.1094/PD-79-1121
156704|T||Post,L.S., S.E. Schlarbaum, L.R. Barber, D.F. Tolman, and R.A. Cecich|Bifenthrin (Capture) Reduces Curculio spp. (Coleoptera:  Curculioridae) Damage in Northern Red Oak Acorns|J. Entomol. Sci.36(2): 222-225|2001|10.18474/0749-8004-36.2.222
156705|T||Kumral,N.A., N.S. Gencer, H. Susurluk, and C. Yalcin|A Comparative Evaluation of the Susceptibility to Insecticides and Detoxifying Enzyme Activities in Stethorus gilvifrons (Coleoptera: Coccinellidae) and Panonychus ulmi (Acarina: Tetranychidae)|Int. J. Acarol.37(3): 255-268|2011|10.1080/01647954.2010.514289
156706|T||Womac,A.R., J.E. Mulrooney, W.P. Scott, and J.R. Williford|Influence of Oil Droplet Size on the Toxicity of Bifenthrin on Cotton to Tobacco Budworm (Heliothis virescens)|Pestic. Sci.40(1): 77-83|1994|10.1002/ps.2780400113
156707|T||Foshee III,W.G., D.L. Horton, R.T. Boozer, E.K. Blythe, and J.T. Staples|Dermal Efficacy Evaluation of New Insecticides for Control of Plum Curculio in Peaches|Int. J. Fruit Sci.5(3): 19-27|2005|10.1300/J492v05n03_03
156708|T||Cote,K.W., E.E. Lewis, and P.B. Schultz|Compatibility of Acaricide Residues with Phytoseiulus persimilis and Their Effects on Tetranychus urticae|Hortscience37(6): 906-909|2002|10.21273/HORTSCI.37.6.906
156709|T||Wilde,G.E., R.J. Whitworth, R.A. Shufran, K.Y. Zhu, P.E. Sloderbeck, R.A. Higgins, and L.L. Buschman|Rootworm Areawide Management Project in Kansas|J. Agric. Entomol.15(4): 335-349|1998|
156710|T||Goodwin,S.|A New Strategy for the Chemical Control of Fig Longicorn, Acalolepta vastator (Newman) (Coleoptera: Cerambycidae), Infesting Grapevines|Aust. J. Entomol.44(2): 170-174|2005|10.1111/j.1440-6055.2005.00439.x
156711|T||McGrath,M.T.|Successful Management of Powdery Mildew in Pumpkin with Disease Threshold-Based Fungicide Programs|Plant Dis.80(8): 910-916|1996|10.1094/PD-80-0910
156712|A||Holzer,B.R.|Determination of Critical Body Residue Values for Three Current-Use Pesticides in Hyalella azteca: Predictive Techniques Versus Direct Tissue Residue Measurement|M.S. Thesis, Oklahoma State University, Tulsa, OK:42 p.|2011|
156713|T||Park,C.G., J.K. Yoo, and J.O. Lee|Toxicity of Some Pesticides to Twospotted Spider Mite (Acari:  Tetranychidae) and Its Predator Amblyseius womersleyi (Acari:  Phytoseiidae)|Korean J. Appl. Entomol. (Multiple Languages)35(3): 232-237|1996|
156714|T||Jacobi,J.C., and P.A. Backman|Comparison of Yield, Value, and Seed Quality Factors of Florunner and Southern Runner Peanut|Peanut Sci.21(1): 28-34|1994|10.3146/i0095-3679-21-1-8
156715|T||Kowata-Dresch,L.S., and L.L. May-De Mio|Clubroot Management of Highly Infested Soils|Crop Prot.35:47-52|2012|10.1016/j.cropro.2011.12.012
156716|T||Neher,O.T., M.R. Johnston, N.K. Zidack, and B.J. Jacobsen|Evaluation of Bacillus mycoides Isolate BmJ and B. mojavensis Isolate 203-7 for the Control of Anthracnose of Cucurbits Caused by Glomerella cingulata var. orbiculare|Biol. Control48(2): 140-146|2009|10.1016/j.biocontrol.2008.08.012
156717|T||McCartney,C., P.C. Mercer, L.R. Cooke, and B.A. Fraaije|Effects of a Strobilurin-Based Spray Programme on Disease Control, Green Leaf Area, Yield and Development of Fungicide-Resistance in Mycosphaerella graminicola in Northern Ireland|Crop Prot.26(8): 1272-1280|2007|10.1016/j.cropro.2006.10.027
156718|T||Wu,L., J.P. Damicone, and K.E. Jackson|Comparison of Weather-Based Advisory Programs for Managing Early Leaf Spot on Runner and Spanish Peanut Cultivars|Plant Dis.80(6): 640-645|1996|10.1094/PD-80-0640
156719|T||Culbreath,A.K., and T.B. Brenneman|Combining Center Pivot Irrigation Application of Chlorothalonil with a Moderately Resistant Cultivar for Control of Late Leaf Spot in Peanut|Plant Dis.76(1): 29-32|1992|10.1094/PD-76-0029
156720|T||Brenneman,T.B., and D.R. Sumner|Effects of Tractor Traffic and Chlorothalonil Applied via Ground Sprays or Center Pivot Irrigation Systems on Peanut Diseases and Pod Yields|Plant Dis.74(4): 277-279|1990|10.1094/PD-74-0277
156721|T||Wilson,J.P., W.W. Hanna, and G.J. Gascho|Pearl Millet Grain Yield Loss from Rust Infection|J. Prod. Agric.9(4): 543-545|1996|10.2134/jpa1996.0543
156722|T||Israeli,Y., E. Shabi, and W.R. Slabaugh|Effect of Banana Spray Oil on Banana Yield in the Absence of Sigatoka (Mycosphaerella sp.)|Sci. Hortic.56(2): 107-117|1993|10.1016/0304-4238(93)90012-F
156723|T||Wen,G., J.J. Schoenau, X. Yang, X. Zhang, X. Li, and E. Eneji|Carbon and Sulfur Concentrations are Negatively Correlated in Seeds of Canola|J. Plant Nutr.31(7-9): 1523-1533|2008|10.1080/01904160802208725
156724|T||Wang,Y.P., Q.B. Li, W. Hui, J.Y. Shi, Q. Lin, X.C. Chen, and Y.X. Chen|Effect of Sulphur on Soil Cu/Zn Availability and Microbial Community Composition|J. Hazard. Mater.159(2/3): 385-389|2008|10.1016/j.jhazmat.2008.02.029
156725|T||Uwituze,S., G.L. Parsons, C.J. Schneider, K.K. Karges, M.L. Gibson, L.C. Hollis, and J.S. Drouillard|High Sulfur Content in Distillers Grains with Solubles may be Deleterious to Beef Steer Performance and Carcass Quality|Kansas State University, Agricultural Experiment Station and Cooperative Extension Service, Report of Progress 1029:103-107|2010|
156726|T||Uwituze,S., G.L. Parsons, K.K. Karges, M.L. Gibson, L.C. Hollis, and J.S. Drouillard|High Sulfur Content in Distillers Grains Alters Ruminal Fermentation and Diet Digestibility in Beef Steers|Kansas State University, Agricultural Experiment Station and Cooperative Extension Service, Report of Progress 1029:96-102|2010|
156727|T||Wang,Y.T.|Severity of Leaf Harvest, Supplemental Nutrients, and Sulfur Application on Long-Term Leaf Production of Aloe barbadensis Miller|Hortscience42(7): 1584-1588|2007|10.21273/HORTSCI.42.7.1584
156728|T||Lee,E.J., K.S. Yoo, J. Jifon, and B.S. Patil|Application of Extra Sulfur to High-Sulfur Soils does not Increase Pungency and Related Compounds in Shortday Onions|Sci. Hortic.123(2): 178-183|2009|10.1016/j.scienta.2009.09.009
156729|T||Toler,H.D., C.S. Charron, D.A. Kopsell, C.E. Sams, and W.M. Randle|Selenium and Sulfur Increase Sulfur Uptake and Regulate Glucosinolate Metabolism in Brassica oleracea|Acta Hortic.744:311-315|2007|10.17660/ActaHortic.2007.744.32
156730|T||White,R.J., and B.F. Blackwell|Ineffectiveness of Sulfur-Based Odors as Nesting Deterrents Against European Starlings|Ohio J. Sci.103(5): 126-128|2003|
156731|T||Shedd,O.M.|Effect of Sulphur on Different Crops and Soils|J. Agric. Res.11(4): 91-103|1917|
156732|T||Gol'berg,A., H. Avigdori-Avidov, and E. Nuriel|Insecticide Control of a White Grub, Maladera matrida, on Sweet Potato|Phytoparasitica17(3): 175-183|1989|10.1007/BF02979535
156733|T||Anjum,N.A., S. Umar, A. Ahmad, M. Iqbal, and N.A. Khan|Sulphur Protects Mustard (Brassica campestris L.) from Cadmium Toxicity by Improving Leaf Ascorbate and Glutathione|Plant Growth Regul.54(3): 271-279|2008|10.1007/s10725-007-9251-6
156734|T||Thomas,M.D., R.H. Hendricks, L.C. Bryner, and G.R. Hill|A Study of the Sulphur Metabolism of Wheat, Barley and Corn Using Radioactive Sulphur|Plant Physiol.19:227-244|1944|10.1104/pp.19.2.227
156735|A||Foster,B., S. Grewal, O. Graves, F.M.,Jr. Hughes, and I.M. Sokolova|Copper Exposure Affects Hemocyte Apoptosis and Perkinsus marinus Infection in Eastern Oysters Crassostrea virginica (Gmelin)|Fish Shellfish Immunol.31(2): 341-349|2011|10.1016/j.fsi.2011.05.024
156736|T||Cerkauskas,R.F., G. Ferguson, and M. Banik|Powdery Mildew (Leveillula taurica) on Greenhouse and Field Peppers in Ontario - Host Range, Cultivar Response and Disease Management Strategies|Can. J. Plant Pathol.33(4): 485-498|2011|10.1080/07060661.2011.619828
156737|T||Raina,S.K., and R.C. Jaggi|Effects of Sulphur in Presence and Absence of Farmyard Manure on Onion (Allium cepa) Under Onion-Maize (Zea mays) Cropping Sequence|Indian J. Agric. Sci.78(8): 659-662|2008|
156738|T||Hameed,S.F., and B. Singh|Effectiveness of Various Fumigants Against Varroa jacobsoni Mites in Apis cerana indica F. Colonies|J. Entomol. Res.14(1): 75-77|1990|
156739|T||Losak,T., J. Hlusek, S. Kracmar, and A. Martensson|Effect of Nitrogen and Sulphur Fertilisation on Yields, Nitrates and Cysteine and Methionine Content in Onion (Allium cepa L.)|Acta Hortic.852:297-303|2010|10.17660/ActaHortic.2010.852.37
156740|T||Jaggard,K.W., and F.J. Zhao|Responses of Sugar Beet to Sulphur Fertilizer in England|J. Agric. Sci.149:305-311|2011|10.1017/S0021859610000985
156741|T||Huang,Y.Z., Y. Hu, and Y.X. Liu|Interactions Between Sulfur and Selenium Uptake by Corn in Solution Culture|J. Plant Nutr.31(1): 43-54|2008|10.1080/01904160701741826
156742|T||Granath,G., M.M. Wiedermann, and J. Strengbom|Physiological Responses to Nitrogen and Sulphur Addition and Raised Temperature in Sphagnum balticum|Oecologia161(3): 481-490|2009|10.1007/s00442-009-1406-x
156743|T||Tietjen,W.H., W.P.,Jr. Cowgill, M.H. Maletta, P.J. Nitzsche, and S.A. Johnston|Stake Culture Reduces Foliar Disease and Postharvest Fruit Rot in Tomatoes Grown Under Weekly or Forecaster-Generated Fungicide Schedules|HortTechnology11(2): 230-233|2001|10.21273/HORTTECH.11.2.230
156744|T||Malthi,P., and R. Jeyarajan|Persistence of Chlorothalonil in Potato Foliage for Late Blight Control|Indian J. Mycol. Plant Pathol.25(3): 299-300|1995|
156745|T||Swier,S.R., A. Rollins, R. Lamarche, and M. Hodgson|Efficacy of Talstar Formulations and Entomophagous Nematodes Toward Black Vine Weevil in Potting Media; 1997|Arthropod Manag. Tests23:341-|1998|10.1093/amt/23.1.341
156746|T||Eytcheson,A.N.|Field Sandbur (Cenchrus spinifex) Control and Bermudagrass (Cynodon dactylon) Response to Herbicide and Nitrogen Fertilizer Treatments|M.S.Thesis, Oklahoma State University, Stillwater, OK:125 p.|2011|
156747|T||Little,R.M.I.|Herbicide Mixtures at Reduced Rates for Effective Weed Control and Herbicide Resistance Prevention in Soybeans|M.S. Thesis, University of Guelph, Ontario, Canada:114 p.|2008|
156748|T||Gannon,T.W.|Leaching Potential and Efficacy of Select Herbicides in Turfgrass Environments|Ph.D. Thesis, North Carolina State University, Raleigh, NC:151 p.|2011|
156749|T||Glaspie,C.F.|Herbicide and Soil Considerations in Weed Control in Potato|M.S. Thesis, Michigan State University, East Lansing, MI:81 p.|2010|
156751|T||Wedberg,J., and B. Jensen|Use of Unlabeled Insecticides for Control of Alfalfa Insects in Wisconsin, 1990|Insectic. Acaric. Tests16:140-141|1991|10.1093/iat/16.1.140a
156752|T||Gupta,D.K.|Prevalence of Late Blight of Tomato and Its Control in Manipur|Indian J. Mycol. Plant Pathol.17(1): 62-63|1987|
156753|T||Collins,H.L., and A.M. Callcott|RIFA Quarantine Treatments in Commercial Grass Sod, 1992|Insectic. Acaric. Tests18:333-|1993|10.1093/iat/18.1.333
156754|T||Schuster,D.J.|Evaluation of Biorational Pesticides for Management of the Silverleaf Whitefly on Fresh Market Tomatoes, Spring 1994|Arthropod Manag. Tests22:179-|1997|10.1093/amt/22.1.179
156755|T||Speese III,J.|Foliar Sprays to Control Mites in Soybeans, 1995 |Arthropod Manag. Tests21:293-294|1996|
156756|T||Van Steenwyk,R.A., and R.M. Nomoto|Insect and Mite Control on Walnuts, 1996|Arthropod Manag. Tests22:80-81|1997|10.1093/amt/22.1.80
156757|T||Nermut,J., and Z. Mracek|The Influence of Pesticides on the Viability and Infectivity of Entomopathogenic Nematodes (Nematoda: Steinernematidae)|Russ. J. Nematol.18(2): 141-148|2010|
156758|T||Pardeshi,V.F., V.G. Reddy, and P.K. Nalwandikar|Effects of Different Fungicides on Seedling Vigour and Seed Viability in Soybean|J. Maharashtra Agric. Univ.14(1): 33-36|1989|
156759|T||Young,H.C.|The Toxic Property of Sulphur|Ann. Mo. Bot. Gard.9:403-435|1922|10.2307/2989945
156760|T||Petersen,J., J.M. Neser, and M. Dresbach-Runkel|Resistant Factors of Target-Site and Metabolic Resistant Black-Grass (Alopecurus myosuroides Huds.) Biotypes Against Different ACC-ase-Inhibitors|J. Plant Dis. Prot.Sp. Iss. 21:23-28|2008|
156762|A||Danion,M., S. Le Floch, R. Kanan, F. Lamour, and C. Quentel|Effects of In Vivo Chronic Exposure to Pendimethalin/Prowl 400 on Sanitary Status and the Immune System in Rainbow Trout (Oncorhynchus mykiss)|Sci. Total Environ.424:143-152|2012|10.1016/j.scitotenv.2012.02.055
156763|A||Danion,M., S. Le Floch, J. Castric, F. Lamour, J. Cabon, and C. Quentel|Effect of Chronic Exposure to Pendimethalin on the Susceptibility of Rainbow Trout, Oncorhynchus mykiss L., to Viral Hemorrhagic Septicemia Virus (VHSV)|Ecotoxicol. Environ. Saf.79(0): 28-34|2012|10.1016/j.ecoenv.2012.01.018
156764|A||Brazenaite,J., and O. Sakaliene|Availability and Toxicity of Pendimethalin to Aquatic Microorganisms|Biologija3:59-62|2006|
156765|A||Okon-Levy,N., B. Rubin, and E. Tel-Or|The Response of Nitrogen Biofertilizer Azolla to Herbicides|Symbiosis38(2): 175-185|2005|
156766|T||Undeger,U., M. Schlumpf, and W. Lichtensteiger|Effect of the Herbicide Pendimethalin on Rat Uterine Weight and Gene Expression and In Silico Receptor Binding Analysis|Food Chem. Toxicol.48(2): 502-508|2010|10.1016/j.fct.2009.11.001
156767|T||Kampf,A.N., C.S. Fior, and C. Leonhardt|Lowering pH Value with Elemental Sulfur in the Substrate for Ex Vitro Acclimatization|Acta Hortic.812:415-419|2009|10.17660/ActaHortic.2009.812.58
156768|T||Doskocil,J.P., C.E. Sorenson, R.N. Royalty, and R.L. Brandenburg|Evaluation of Insecticides for Lethal Dose, Lethal Concentration, and Field Activity on Hunting Billbug in Warm-Season Turfgrass|Appl. Turfgrass Sci.:1-9|2012|10.1094/ATS-2012-0227-01-RV
156769|T||Williams,R.N., and D.S. Fickle|Bioassay Evaluation of Insecticides on Strawberry Fruit and Foliage, 1997|Arthropod Manag. Tests23:57-58|1998|
156770|T||Budai,P., J. Lehel, J. Tavaszi, and E. Kormos|Het-Cam Test for Determining the Possible Eye Irritancy of Pesticides|Acta Vet. Hung.58(3): 369-377|2010|10.1556/avet.58.2010.3.9
156771|T||Haque,A., R. Das Gupta, and P.P. Chakravorty|Effect of Two Herbicides on Xenylla welchi (Hexapoda:  Collembola) Under Laboratory Conditions|Bull. Environ. Contam. Toxicol.86(6): 583-586|2011|10.1007/s00128-011-0277-0
156772|T||Minor,M.A., and R.A. Norton|Effects of Weed and Erosion Control on Communities of Soil Mites (Oribatida and Gamasina) in Short-Rotation Willow Plantings in Central New York|Can. J. For. Res.38(5): 1061-1070|2008|10.1139/X07-207
156773|T||El-Raheem,A., R. El-Shanshoury, S.M. Abu El-Sououd, O.A. Awadalla, and N.B. El-Bandy|Formation of Tomatine in Tomato Plants Infected with Streptomyces Species and Treated with Herbicides, Correlated with Reduction of Pseudomonas solanacearum and Fusarium oxysporum f. sp. lycopersici|Acta Microbiol. Pol.44(3/4): 255-266|1995|
156774|T||Roca,E., E. D'Errico, A. Izzo, S. Strumia, A. Esposito, and A. Fiorentino|In Vitro Saprotrophic Basidiomycetes Tolerance to Pendimethalin|Int. Biodeterior. Biodegrad.63(2): 182-186|2009|10.1016/j.ibiod.2008.08.004
156775|T||Torra,J., A. Cirujeda, A. Taberner, and J. Recasens|Evaluation of Herbicides to Manage Herbicide-Resistant Corn Poppy (Papaver rhoeas) in Winter Cereals|Crop Prot.29(7): 731-736|2010|10.1016/j.cropro.2010.02.011
156776|T||Chaurasia,A.K., G.P. Richharia, and S. Chaurasia|Response of Soybean (Glycine max) to Doses and Sources of Sulphur|Indian J. Agric. Sci.79(5): 356-358|2009|
156777|T||Kannaiyan,S., and A. Venkata Rao|Control of Blast Disease of Rice by Kocide|Sci. Cult.41:90-|1975|
156778|T||Nanjundan,J., N.K. Thakral, D. Singh, and R. Kumar|Effect of Sulphur on Oil Content and Fatty Acids Profile in 36 Triple Test Cross Families of Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.81(9): 878-880|2011|
156779|T||Maciesiak,A., B. Wojtas-Koziel, and R. Bachnacki|Use of Selected Pyrethroids and of Ethoproxyfen in Control of Leaf Miners in Apple Orchards|Fruit Sci. Rep. (Skierniewice)17(1): 51-56|1990|
156780|T||Derr,J.F.|Pretransplant Application of Goal (Oxyfluorfen) for Weed Control in Container-Grown Nursery Crops|J. Environ. Hortic.7(1): 26-29|1989|10.24266/0738-2898-7.1.26
156781|T||Fain,G.B., C.H. Gilliam, and G.J. Keever|Tolerance of Hardy Ferns to Selected Preemergence Herbicides|HortTechnology16(4): 605-609|2006|10.21273/HORTTECH.16.4.0605
156782|T||Hubbard,J., T. Whitwell, and J. Kelly|Influence of Herbicides on Shipping Quality of Landscape Plants|J. Environ. Hortic.10(1): 17-18|1992|10.24266/0738-2898-10.1.17
156783|T||Jinks,R.L., I. Willoughby, and C. Baker|Direct Seeding of Ash (Fraxinus excelsior L.) and Sycamore (Acer pseudoplatanus L.): The Effects of Sowing Date, Pre-Emergent Herbicides, Cultivation, and Protection on Seedling Emergence and Survival|For. Ecol. Manag.237(1-3): 373-386|2006|10.1016/j.foreco.2006.09.060
156784|T||Kothari,S.K., C.P. Singh, and K. Singh|Weed Control in Rose-Scented Geranium (Pelargonium spp)|Pest Manag. Sci.58(12): 1254-1258|2002|10.1002/ps.592
156785|T||Mennan,H., M. Ngouajio, D. Isik, and E. Kaya|Effects of Alternative Management Systems on Weed Populations in Hazelnut (Corylus avellana L.)|Crop Prot.25(8): 835-841|2006|10.1016/j.cropro.2005.11.007
156786|T||Richardson,R.J., and B.H. Zandstra|Evaluation of Flumioxazin and Other Herbicides for Weed Control in Gladiolus|Weed Technol.20(2): 394-398|2006|10.1614/WT-05-031R2.1
156787|T||Cromack,H.T.H., and J.M. Smith|Calendula officinalis - Production Potential and Crop Agronomy in Southern England|Ind. Crops Prod.7(2/3): 223-229|1998|10.1016/S0926-6690(97)00052-6
156788|T||Samtani,J.B., G.J. Kling, and D.J. Williams|Leaf-Waste Pellets as a Herbicide Carrier for Container-Grown Ornamental Plants|Weed Technol.20(4): 942-949|2006|10.1614/WT-05-055.1
156789|T||Sixto,H., J.M. Grau, and J.M. Garcia-Baudin|Assessment of the Effect of Broad-Spectrum Pre-Emergence Herbicides in Poplar Nurseries|Crop Prot.20(2): 121-126|2001|10.1016/S0261-2194(00)00064-8
156790|T||Bradley,C.A., G.R. Noel, C.R. Grau, J.M. Gaska, N.C. Kurtzweil, A.E. MacGuidwin, L.M. Wax, G.L. Hartman, and W.L. Peder|Impact of Herbicides on Heterodera glycines Susceptible and Resistant Soybean Cultivars|J. Nematol.35(1): 88-97|2003|
156792|T||Bonasia,A., G. Conversa, C. Lazzizera, P. La Rotonda, and A. Elia|Weed Control in Lampascione - Muscari comosum (L.) Mill|Crop Prot.36:65-72|2012|10.1016/j.cropro.2012.02.001
156793|T||Koumanov,K.S., Z. Rankova, K. Kolev, and S. Shilev|Herbigation in a Cherry Orchard - Translocation and Persistence of Pendimethalin in the Soil|Acta Hortic.825:305-312|2009|10.17660/ActaHortic.2009.825.49
156794|T||Rankova,Z., K. Kolev, and V. Dzhuvinov|Herbicide Influence on the Growth of Young Sweet Cherry Trees in a High-Density Orchard|Acta Hortic.795(1): 363-368|2008|10.17660/ActaHortic.2008.795.53
156795|A||Zhang,A., X. Xie, J. Ye, C. Lin, and X. Hu|Stereoselective Toxicity of Malathion and Its Metabolites, Malaoxon and Isomalathion|Environ. Chem. Lett.9(3): 369-373|2011|10.1007/s10311-010-0288-9
156796|T||Hotchkiss,C.E., C. Weis, B. Blaydes, R. Newbold, and K.B. Delclos|Multigenerational Exposure to Ethinyl Estradiol Affects Bone Geometry, but not Bone Mineral Density in Rats|Bone (New York)43(1): 110-118|2008|
156797|T||Cuthbert,R.J., P. Visser, H. Louw, and P.G. Ryan|Palatability and Efficacy of Rodent Baits for Eradicating House Mice (Mus musculus) from Gough Island, Tristan da Cunha|Wildl. Res.38(3): 196-203|2011|10.1071/WR11016
156798|A||Sulekha,B.T., and T.V.A. Mercy|Pesticide Induced Changes in the Proximate Composition of a Freshwater Fish for Estimating Maximum Allowable Toxicant Concentration of the Pesticide Under Tropical Conditions|Indian J. Fish.58(2): 85-90|2011|
156799|A||Zhuang,P., X. Shi, R. Wang, L. Zhang, G. Feng, and J. Liu|Fluoride Toxicity to Chinese Sturgeon (Acipenser sinensis) Larvae and Fluoride Concentrations in the Yangtze Estuary|J. Appl. Ichthyol.27(2): 524-527|2011|10.1111/j.1439-0426.2011.01678.x
156800|T||Chhokar,R.S., and R.S. Balyan|Competition and Control of Weeds in Soybean|Weed Sci.47(1): 107-111|1999|10.1017/S004317450009072X
156801|T||Balyan,R.S., R.K. Malik, and R.S. Panwar|Sensitivity of Wheat Cultivars to Pendimethalin and Its Residual Toxicity on Sorghum|Indian J. Agron.34(1): 124-126|1989|
156802|T||Borgohain,B., K. Thakuria, and M. Saikia|Weed Management Studies in Capsularis Jute|Indian J. Agron.35(4): 410-411|1990|
156803|T||Chaudhary,M., and T.P. Singh|Studies on Weed Control in Lentil|Indian J. Agron.32(3): 295-297|1987|
156804|T||Guo,H., Q. Zhang, Y. Duan, C. Li, and Y. Wang|Genetic Differentiation Among Melilotus officinalis Seedlings Exposed to Mercury|Asian J. Ecotoxicol. (Multiple Languages)6(3): 23-30|2011|
156805|A||Paila,R.V., and P.R. Yallapragada|Antioxidant Responses and Lipid Peroxidation of Penaeus indicus Postlarvae Subjected to Sublethal Copper Exposure|Crustaceana  (Leiden)84(10): 1197-1210|2011|10.1163/156854011X587496
156806|T||Chhokar,R.S., R.S. Balyan, and S.S. Pahuja|Nutrient Removal by Weeds in Soybean (Glycine max) Under Integrated Weed Management|Indian J. Agron.42(1): 138-141|1997|
156807|T||Jamal,A., I.S. Fazli, S. Ahmad, K.T. Kim, D.G. Oh, and M.Z. Abdin|Effect of Sulfur on Nitrate Reductase and ATP Sulfurylase Activities in Groundnut (Arachis hypogea L.)|J. Plant Biol.49(6): 513-517|2006|10.1007/BF03031134
156808|T||Raj,A., A.K. Pandey, Y.K. Sharma, P.B. Khare, P.K. Srivastava, and N. Singh|Metabolic Adaptation of Pteris vittata L. Gametophyte to Arsenic Induced Oxidative Stress|Bioresour. Technol.102(20): 9827-9832|2011|10.1016/j.biortech.2011.08.017
156809|A||Sun,H., W. Yang, Y. Chen, and Z. Yang|Effect of Purified Microcystin on Oxidative Stress of Silver Carp Hypophthalmichthys molitrix Larvae Under Different Ammonia Concentrations|Biochem. Syst. Ecol.39(4-6): 536-543|2011|10.1016/j.bse.2011.08.001
156810|T||Geden,C.J., T.D. Edwards, J.J. Arends, and R.C. Axtell|Efficacies of Mixtures of Disinfectants and Insecticides|Poult. Sci.66(4): 659-665|1987|10.3382/ps.0660659
156811|T||Wiersma,J.J., J. Dai, and B.R. Durgan|Risks of Tank Mixing Fungicides with Grass and Broadleaf Herbicides in Spring Wheat Management|Crop Manag.:8 p. |2011|
156812|A||Bakhtyar,S., and M.M. Gagnon|Comparison of Biomarker Responses Following One Dose of Benzo-a-Pyrene Administered to Three Native Australian Fish Species|J. R. Soc. West. Aust.94(Part 3): 465-472|2011|
156813|T||Nagaba,Y., M. Tufail, H. Inui, and M. Takeda|Hormonal Regulation and Effects of Four Environmental Pollutants on Vitellogenin Gene Transcription in the Giant Water Bug, Lethocerus deyrollei (Hemiptera: Belostomatidae)|J. Insect Conserv.15(3): 421-431|2011|10.1007/s10841-010-9315-1
156814|T||Mikkelson,J.R., and R.G. Lym|Aminopyralid Soil Residues Affect Crop Rotation in North Dakota Soils|Weed Technol.25(3): 422-429|2011|10.1614/WT-D-10-00168.1
156815|T||Zarkawi,A., H. Galbraith, and J.S.M. Hutchinson|Influence of Trenbolone Acetate, Zeranol and Oestradiol-17beta Implantation on Growth Performance and Reproductive Function in Beef Heifers|Anim. Prod.52(2): 249-253|1991|
156816|T||Bohr,H.H.|The Influence of Different Hormones on Bone Formation in Rats|Acta Endocrinol.58(1): 116-122|1968|
156817|T||Coelho,J.F.S., H. Galbraith, and J.H. Topps|The Effect of a Combination of Trenbolone Acetate and Oestradiol-17beta on Growth Performance and Blood, Carcass and Body Characteristics of Wether Lambs|Anim. Prod.32(3): 261-266|1981|
156819|T||Perez-Rojas,J.M., S. Derive, J.A. Blanco, C. Cruz, L.M. De La Maza, G. Gamba, and N.A. Bobadilla|Renocortical mRNA Expression of Vasoactive Factors During Spironolactone Protective Effect in Chronic Cyclosporine Nephrotoxicity|Am. J. Physiol. Ren. Physiol.289(5): 1020-1030|2005|10.1152/ajprenal.00166.2005
156820|T||Das,K., B. Guha, D.K. Patgiri, K. Thakuria, and B. Borgohain|Weed Management in Tossa Jute (Corchorus olitorius)|Indian J. Agron.39(1): 87-92|1994|
156821|T||Kulshrestha,G., and N.T. Yaduraju|Persistence of Pendimethalin in Soil Following Pre-Emergence Application to Wheat|Indian J. Agron.32(3): 271-274|1987|
156822|T||Mehta,H.M., J.R. Chavda, and J.R. Patel|Effect of Methods of Sowing and Weed Management on Yield of Chicory (Cichorium intybus)|Indian J. Agron.40(1): 147-149|1995|
156823|T||Nalayini,P., and S. Sankaran|Effect of Pre-Emergence Herbicides on Soil Micro-Organisms|Indian J. Agron.37(3): 625-626|1992|
156824|T||Pandey,J.|Efficacy of Some Herbicides for Weed Control in Gram|Indian J. Agron.34(1): 110-112|1989|
156825|T||Panwar,R.S., R.K. Malik, and V.M. Bhan|Chemical Weed Control in Cotton (Gossypium hirsutum L.)|Indian J. Agron.33(2): 205-207|1988|
156826|T||Panwar,R.S., S.S. Rathi, R.K. Malik, and R.S. Malik|Effect of Application Time and Hoeing on Efficiency of Pendimethalin in Cotton (Gossypium Species)|Indian J. Agron.40(1): 153-155|1995|
156827|T||Patel,Z.G., N.D. Parmar, and V.C. Raj|Effect of Weed-Control Methods on Yield and Yield Attributes of Sunflower (Helianthus annuus)|Indian J. Agron.39(2): 330-331|1994|
156828|T||Patil,B.M., and J. Pandey|Chemical Weed Control in Pigeonpea (Cajanus cajan) Intercropped with Short-Duration Grain Legumes|Indian J. Agron.41(4): 529-535|1996|
156829|T||Phogat,B.S., V.M. Bhan, and B. Singh|Efficacy of Some Pre- and Post-Emergence Herbicides Either Alone or in Combinations for Weed Control in Wheat|Indian J. Agron.36(1): 103-105|1991|
156830|T||Prathibha,N.C., T.V. Muniyappa, and B.G. Murthy|Studies on Chemical Weed Control of Oxalis latifolia on Growth, Yield and Quality of Grapes|J. Maharashtra Agric. Univ.20(2): 202-205|1995|
156831|T||Ram,B., G.R. Chaudhary, A.S. Jat, and M.L. Jat|Effect of Integrated Weed Management and Intercropping Systems on Growth and Yield of Pearlmillet (Pennisetum glaucum)|Indian J. Agron.48(4): 254-258|2003|
156832|T||Ramamoorthy,K., A. Arokiaraj, and A. Balasubramanian|Effect of Soil Moisture and Continuous Use of Herbicides on Weed Dynamics and Their Control in Upland Direct-Seeded Rice (Oryza sativa)-Blackgram (Phaseolus mungo) Intercropping System|Indian J. Agron.42(4): 564-569|1997|
156833|T||Shaikh,A.R., O.G. Lokhande, R.H. Bhosale, A.N. Giri, and G.G. Shinde|Weed Management in Blackgram (Phaseolus mungo)|Indian J. Agron.47(2): 231-233|2002|
156834|T||Singh,V., S.S. Verma, and M.S. Kairon|Effect of Weed Control and Nitrogen on Weed Growth and Yield of Cotton|Indian J. Agron.33(4): 376-379|1988|
156835|T||Singh,S.J., K.K. Sinha, and S.S. Mishra|Effect of Herbicides on Indian Mustard (Brassica juncea, Coss) in Calcareous Soil|Indian J. Agron.34(4): 494-495|1989|
156836|T||Singh,R.V., A.K. Sharma, and R.K.S. Tomar|Weed Control in Chickpea (Cicer arietinum) Under Late-Sown Condition|Indian J. Agron.48(2): 114-116|2003|
156837|T||Sreenivas,G., and V. Satyanarayana|Nutrient Removal by Weeds and Maize (Zea mays)|Indian J. Agron.41(1): 160-162|1996|
156838|T||Tewari,A.N., and R.D. Singh|Weed Management in Potato (Solanum tuberosum) Intercropped with Wheat (Triticum aestivum)|Indian J. Agron.38(4): 626-627|1993|
156839|T||Tiwari,R.B., L.L. Dhakar, and S.M. Singh|Growth and Water Use by Summer Groundnut (Arachis hypogaea) as Affected by Irrigation Schedule, Fertilizer and Weed-Control Method|Indian J. Agron.42(2): 338-341|1997|
156840|T||Dadhich,S.C., and A.L. Mali|Effect of Herbicide and Phosphorus on Crop-Weed Competition in Chickpea (Cicer arietinum)|Indian J. Agron.36(Suppl.): 283-285|1991|
156841|AT||Li,S., I.A. Mendelssohn, H. Chen, and W.H. Orem|Does Sulphate Enrichment Promote the Expansion of Typha domingensis (Cattail) in the Florida Everglades?|Freshw. Biol.54(9): 1909-1923|2009|10.1111/j.1365-2427.2009.02242.x
156842|A||Marigoudar,S.R., R.N. Ahmed, and M. David|Cypermethrin Induced Respiratory and Behavioural Responses of the Freshwater Teleost, Labeo rohita (Hamilton)|Vet. Arh. (Tisak)79(6): 583-590|2009|
156843|T||Dungarwal,H.S., P.C. Chaplot, and B.L. Nagda|Weed Control in Castor (Ricinus communis)|Indian J. Agric. Sci.72(9): 525-527|2002|
156844|T||Giri,A.N., R.H. Bhosle, and O.G. Lokhande|Weed Management in Cotton (Gossypium hirsutum)-Sunflower (Helianthus annuus) Cropping Sequence|Indian J. Agron.43(2): 264-268|1998|
156845|T||Kumar,B.V., K.A. Reddy, and M.N. Reddy|Chemical Control of Horse Purslane (Trianthema portulacastrum) and Barnyard Grass (Echinochloa crus-galli) in Groundnut (Arachis hypogaea)|Indian J. Agron.39(3): 491-493|1994|
156846|T||Patil,B.M., A.P. Karunakar, H.N. Sethi, R.N. Satao, and G.S. Lahariya|Studies on Weed Management in Soybean (Glycine max L.)|Crop Res. (Hisar)17(1): 28-30|1999|
156847|T||Sharma,R., and H.M. Mehta|Studies on Pendimethalin and Fluchloralin Residues in Soil and Onion|Indian J. Agron.34(2): 245-247|1989|
156848|T||Giri,A.N., R.H. Bhosle, and D.K. Shelke|Weed Management in Cotton (Gossypium hirrutum)-Groundnut (Arachis hypogaea) Sequence|Indian J. Agron.43(1): 50-56|1998|
156849|T||Maheswarappa,H.P., G. Srinivasan, and H.V. Nanjappa|Effects of Integrated Weed Management Practices in Nutrient Removal by Weeds in Pigeonpea|J. Maharashtra Agric. Univ.19(3): 453-454|1994|
156850|T||Mishra,J.S., and V.M. Bhan|Effect of Cultivar and Weed Control on Weed Growth and Yield of Pea (Pisum sativum)|Indian J. Agron.42(2): 316-319|1997|
156851|T||Pandey,A.K., V. Prakash, and H.S. Gupta|Effect of Integrated Weed-Management Practices on Yield and Economics of Babycorn (Zea mays)|Indian J. Agric. Sci.72(4): 206-209|2002|
156852|T||Ramamoorthy,K.|Effect of Herbicides on Weeds and Yield of Upland Rice (Oryza sativa) and Residual Effect on Cowpea (Vigna unguiculata) and Green Gram (Phaseolus radiatus)|Indian J. Agron.36(3): 304-307|1991|
156853|T||Sarpe,N., C. Roibu, T. Fritea, L. Ghinea, G. Mihalcea, G. Budoi, and I. Sarpe|Research Regarding the Remanence of Imazethapyr, Trifluralin, Pendimethalin and Alachlor in Wheat, Maize, Sunflower, Sugarbeet and Mustard Crops on Different Soils in Romania|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.62(3a): 865-873|1997|
156854|T||Sharma,A.R., and O.P. Vats|Effect of Herbicides on Growth, Yield and Nutrient Uptake of Field Peas|Indian J. Agron.33(2): 214-216|1988|
156855|T||Singh,S.J., A. Kumar, K.K. Sinha, and S.S. Mishra|Evaluation of Cultural and Chemical Methods of Weed Control in Wheat|Indian J. Agron.33(3): 303-307|1988|
156858|T||McCordick,S.A., D.E. Hillger, R.H. Leep, and J.J. Kells|Forage Quality of Glyphosate-Resistant Alfalfa as Influenced by Establishment Systems|Weed Technol.22(4): 635-640|2008|10.1614/WT-08-020.1
156859|T||McCordick,S.A., D.E. Hillger, R.H. Leep, and J.J. Kells|Establishment Systems for Glyphosate-Resistant Alfalfa|Weed Technol.22(1): 22-29|2008|10.1614/WT-07-065.1
156860|T||Frantzen,J., F. Rossi, and H. Muller-Scharer|Integration of Biological Control of Common Groundsel (Senecio vulgaris) and Chemical Control|Weed Sci.50(6): 787-793|2002|10.1614/0043-1745(2002)050[0787:IOBCOC]2.0.CO;2
156861|T||Shah,M.A.A., S.K. Garg, and K.M. Garg|Sub-Acute Toxicity Studies on Pendimethalin in Rats|Indian J. Pharmacol.29(5): 322-324|1997|
156862|T||Singh,S.S., R.D. Vaishya, and S.P. Singh|Residual Effect of Herbicides Applied in Transplanted Rice on Succeeding Wheat Crop|Narendra Deva J. Agric. Res.6(1): 228-230|1991|
156863|T||Kurchania,S.P., J.P. Tiwari, M.L. Patel, and H.C. Jain|Effect of Chemical Weed Control Under Different Sowing Dates and Planting Patterns on Growth and Sink Potential of Dwarf Wheat (Triticum aestivum)|Indian J. Agric. Sci.63(9): 591-593|1993|
156864|T||Legha,P.K., R.K. Malik, and A.S. Faroda|Weed Management in Kharif Sunflower (Helianthus annuus L.)|Crop Res. (Hisar)5(2): 376-378|1992|
156865|T||Mali,A.L., and S.N. Suwalka|Studies on Weed Control in Fenugreek (Trigonella foenum-graecum L.)|Indian J. Agron.32(2): 188-189|1987|
156866|T||Moorthy,B.T.S., and G.B. Manna|Performance of Some Herbicides in Upland Rice Under Stale Bed and Conventional Methods of Land Preparation|Pesticides 22(6): 43-44,49|1988|
156867|T||Singh,P.P., and R. Prasad|Comparative Bioefficacy of Different Herbicides Against Coronopus didymus in Berseem|Indian J. Agron.32(2): 200-201|1987|
156868|T||Grichar,W.J.|Using Soil-Applied Herbicides in Glyphosate-Resistant Soybeans Along the Texas Gulf Coast|Weed Technol.20(3): 633-639|2006|10.1614/WT-05-049R1.1
156869|T||Khodayari,K., P. Nastasi, and R.J.,Jr. Smith|Fenoxaprop for Grass Control in Dry Seeded Rice (Oryza sativa)|Weed Technol.3(1): 131-135|1989|10.1017/S0890037X0003147X
156870|T||King,S.R., R.L. Ritter, E.S.,Jr. Hagood, and H. Menbere|Control of Acetolactate Synthase-Resistant Shattercane (Sorghum bicolor) in Field Corn with KIH-485|Weed Technol.21(3): 578-582|2007|10.1614/WT-06-155.1
156871|T||Lins,R.D., J.B. Colquhoun, C.M. Cole, and C.A. Mallory-Smith|Postemergence Small Broomrape (Orobanche minor) Control in Red Clover|Weed Technol.19(2): 411-415|2005|10.1614/WT-04-175R1
156872|T||Lyon,D.J., and R.G. Wilson|Chemical Weed Control in Dryland and Irrigated Chickpea|Weed Technol.19(4): 959-965|2005|10.1614/WT-05-013R.1
156873|T||Manley,B.S., H.P. Wilson, and T.E. Hines|Characterization of Imidazolinone-Resistant Smooth Pigweed (Amaranthus hybridus)|Weed Technol.12(4): 575-584|1998|10.1017/S0890037X00044407
156875|T||Kammler,K.J., S.A. Walters, and B.G. Young|Halosulfuron Tank Mixtures and Adjuvants for Weed Control in Pumpkin Production|Hortscience43(6): 1823-1825|2008|10.21273/HORTSCI.43.6.1823
156876|T||Kammler,K.J., S.A. Walters, and B.G. Young|Effects of Adjuvants, Halosulfuron, and Grass Herbicides on Cucurbita spp. Injury and Grass Control|Weed Technol.24(2): 147-152|2010|10.1614/WT-D-09-00015.1
156877|T||Place,G.T., S.C. Reberg-Horton, and D.L. Jordan|Interaction of Cultivar, Planting Pattern, and Weed Management Tactics in Peanut|Weed Sci.58(4): 442-448|2010|10.1614/WS-D-10-00012.1
156878|T||Singh,R., and G.R. Chaudhary|Effect of Weed Control and Phosphorus on Yield and Yield Attributes of Greengram (Phaseolus radiatus)|Indian J. Agron.37(2): 373-374|1992|
156879|T||Singh,J., and B.S. Sidhu|Chemical Control of Weeds in Safflower (Carthamus tinctorius)|Indian J. Agron.41(4): 660-661|1996|
156880|T||Wanjari,S.S., B.V. Mahakular, N.R. Potdukhe, A.M. Dhope, and V.B. Shekar|Economics of Weed Control in Sorghum (Sorghum bicolor)|Indian J. Agron.37(3): 585-587|1992|
156881|T||Yadav,S.K., V.M. Bhan, and A. Kumar|Studies on Removal of Nutrients by Weeds and Their Control in Groundnut|Indian J. Agron.31(2): 177-181|1986|
156882|T||Culpepper,A.S., and A.C. York|Weed Management and Net Returns with Transgenic, Herbicide-Resistant, and Nontransgenic Cotton (Gossypium hirsutum)|Weed Technol.13(2): 411-420|1999|10.1017/S0890037X00041956
156883|T||Aigner,P.A., and R.J. Woerly|Herbicides and Mowing to Control Barb Goatgrass (Aegilops triuncialis) and Restore Native Plants in Serpentine Grasslands|Invasive Plant Sci. Manag.4(4): 448-457|2011|10.1614/IPSM-D-11-00027.1
156884|T||Barnes,J.W., and L.R. Oliver|Cloransulam Antagonizes Annual Grass Control with Aryloxyphenoxypropionate Graminicides but not Cyclohexanediones|Weed Technol.18(3): 763-772|2004|10.1614/WT-03-181R
156885|T||Bourgeois,L., N.C. Kenkel, and I.N. Morrison|Characterization of Cross-Resistance Patterns in Acetyl-CoA Carboxylase Inhibitor Resistant Wild Oat (Avena fatua)|Weed Sci.45(6): 750-755|1997|10.1017/S0043174500088925
156886|T||Bradley,K.W., J. Wu, K.K. Hatzios, and E.S.,Jr. Hagood|The Mechanism of Resistance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in a Johnsongrass Biotype|Weed Sci.49(4): 477-484|2001|10.1614/0043-1745(2001)049[0477:TMORTA]2.0.CO;2
156887|T||Bradley,K.|How To Kill Your Corn|Integr. Pest Crop Manag.19(11): 2 p.|2009|
156888|T||Bruce,B., R.L. Kallenbach, K. Bradley, and B. Fuqua|Preplant Herbicides Don't Increase Forage Production of Cereal Rye Interseeded into Bermudagrass|Agron. J.101(5): 1175-1181|2009|10.2134/agronj2009.0081
156889|T||Buker III,R.S., S.T. Steed, and W.M. Stall|Confirmation and Control of a Paraquat-Tolerant Goosegrass (Eleusine indica) Biotype|Weed Technol.16(2): 309-313|2002|10.1614/0890-037X(2002)016[0309:CACOAP]2.0.CO;2
156890|T||Burke,I.C., J.W. Wilcut, and D. Porterfield|CGA-362622 Antagonizes Annual Grass Control with Clethodim|Weed Technol.16(4): 749-754|2002|10.1614/0890-037X(2002)016[0749:CAAGCW]2.0.CO;2
156891|T||Burke,I.C., A.J. Price, J.W. Wilcut, D.L. Jordan, A.S. Culpepper, and J. Tredaway-Ducar|Annual Grass Control in Peanut (Arachis hypogaea) with Clethodim and Imazapic|Weed Technol.18(1): 88-92|2004|10.1614/WT-03-026R
156892|T||Bushong,J., T. Peeper, M. Boyles, and A. Stone|Italian Ryegrass (Lolium perenne), Feral Cereal Rye (Secale cereale), and Volunteer Wheat (Triticum aestivum) Control in Winter Canola|Weed Technol.25(3): 344-349|2011|10.1614/WT-D-10-00078.1
156893|T||Crooks,H.L., A.C. York, A.S. Culpepper, and C. Brownie|CGA-362622 Antagonizes Annual Grass Control by Graminicides in Cotton (Gossypium hirsutum)|Weed Technol.17(2): 373-380|2003|10.1614/0890-037X(2003)017[0373:CAAGCB]2.0.CO;2
156894|T||Currie,R., J. Lee, B. Fast, and D. Murray|Clethodim, Glufosinate or Paraquat Tank Mixes for Control of Volunteer Corn|In: Report of Progress. Field Day 2007, Southwest Research-Extension Center980:48-50|2007|
156895|T||Jordan,D.L., J.L. Griffin, and P.R. Vidrine|Comparison of Grass Herbicides Applied at Equivalent Costs in Soybean|La. Agric.39(2): 18-19|1996|
156896|T||Lugo-Torres,M.L., T.M. Ruiz, and R. Macchiavelli|Weed Management During and After Rhizoma Perennial Peanut Establishment|J. Agric. Univ. P. R.94(1/2): 111-119|2010|10.46429/jaupr.v94i1-2.2588
156897|T||Owen,M.J., P.J. Michael, M. Renton, K.J. Steadman, and S.B. Powles|Towards Large-Scale Prediction of Lolium rigidum Emergence. II. Correlation Between Dormancy and Herbicide Resistance Levels Suggests an Impact of Cropping Systems|Weed Res. (Multiple Languages)51(2): 133-141|2011|10.1111/j.1365-3180.2010.00835.x
156898|T||De Villiers,B.L., P. Kudsk, J.J. Smit, and S.K. Mathiassen|Tralkoxydim: Adjuvant, MCPA and Other Effects|Weed Res. (Multiple Languages)41(6): 547-556|2001|10.1046/j.1365-3180.2001.00257.x
156899|T||Duke,S.O., A.M. Rimando, P.F. Pace, K.N. Reddy, and R.J. Smeda|Isoflavone, Glyphosate, and Aminomethylphosphonic Acid Levels in Seeds of Glyphosate-Treated, Glyphosate-Resistant Soybean|J. Agric. Food Chem.51(1): 340-344|2003|10.1021/jf025908i
156900|T||Derr,J.F.|Detection of Fenoxaprop-Resistant Smooth Crabgrass (Digitaria ischaemum) in Turf|Weed Technol.16(2): 396-400|2002|10.1614/0890-037X(2002)016[0396:DOFRSC]2.0.CO;2
156901|T||Ferrell,J.A., T.R. Murphy, W.K. Vencill, and W.R. Guerke|Effects of Postemergence Herbicides on Centipedegrass Seed Production|Weed Technol.17(4): 871-875|2003|10.1614/WT-03-046R
156902|T||Gardner,A.P., A.C. York, D.L. Jordan, and D.W. Monks|Glufosinate Antagonizes Postemergence Graminicides Applied to Annual Grasses and Johnsongrass|J. Cotton Sci.10(4): 319-327|2006|
156903|T||Grichar,W.J., B.A. Besler, K.D. Brewer, and R.G. Lemon|Interaction of Pyrithiobac and Graminicides for Weed Control in Cotton (Gossypium hirsutum)|Weed Technol.17(3): 461-466|2003|10.1614/WT02-028
156904|T||Grichar,W.J., and W.R. Ocumpaugh|Response of Three Annual Medic Species to Postemergence Herbicides|Weed Technol.23(3): 412-415|2009|10.1614/WT-09-021.1
156905|T||Harvey,R.G., and D.J. Porter|Wild-Proso Millet (Panicum miliaceum) Control in Soybeans (Glycine max) with Postemergence Herbicides|Weed Technol.4(2): 420-424|1990|10.1017/S0890037X00025653
156906|T||Johnson III,W.C., E.P. Prostko, and T.L. Grey|Annoying Trends in Strip-Tillage Weed Control in Peanut: What are Our Options?|In: Proceedings of the 25th Southern Conservation Tillage Conference, Making Conservation Tillage Conventional: Building a Future on 25 Years of Research, Auburn University College of Agriculture:165-170|2002|
156908|T||Kaloumenos,N.S., and I.G. Eleftherohorinos|Identification of a Johnsongrass (Sorghum halepense) Biotype Resistant to ACCase-Inhibiting Herbicides in Northern Greece|Weed Technol.23(3): 470-476|2009|10.1614/WT-08-187.1
156909|T||Kuk,Y.I., N.R. Burgos, and R.C. Scott|Resistance Profile of Diclofop-Resistant Italian Ryegrass (Lolium multiflorum) to ACCase- and ALS-Inhibiting Herbicides in Arkansas, USA|Weed Sci.56(4): 614-623|2008|10.1614/WS-08-003.1
156910|T||Llewellyn,R.S., and S.B. Powles|High Levels of Herbicide Resistance in Rigid Ryegrass (Lolium rigidum) in the Wheat Belt of Western Australia|Weed Technol.15(2): 242-248|2001|10.1614/0890-037X(2001)015[0242:HLOHRI]2.0.CO;2
156911|T||Llewellyn,R.S., F.H. D'Emden, M.J. Owen, and S.B. Powles|Herbicide Resistance in Rigid Ryegrass (Lolium rigidum) has not Led to Higher Weed Densities in Western Australian Cropping Fields|Weed Sci.57(1): 61-65|2009|10.1614/WS-08-067.1
156912|T||Maneechote,C., S. Samanwong, X.Q. Zhang, and S.B. Powles|Resistance to ACCase-Inhibiting Herbicides in Sprangletop (Leptochloa chinensis)|Weed Sci.53(3): 290-295|2005|10.1614/WS-04-164R
156913|T||Patel,S.R., N. Lal, and D.S. Thakur|Weed-Control Efficiency of Different Herbicides in Rainfed Groundnut (Arachis hypogaea)|Indian J. Agric. Sci.67(9): 399-401|1997|
156914|T||Reicher,Z.J., and N.E. Christians|Establishment of Kentucky Bluegrass Sod Following Application of Herbicides|Hortscience24(5): 799-801|1989|10.21273/HORTSCI.24.5.799
156915|T||Mueller-Warrant,G.W.|Duration of Control from Preemergence Herbicides for Use in Nonburned Grass Seed Crops|Weed Technol.13(3): 439-449|1999|10.1017/S0890037X00046005
156916|T||Norsworthy,J.K., and J.P. Smith|Tolerance of Leafy Greens to Preemergence and Postemergence Herbicides|Weed Technol.19(3): 724-730|2005|10.1614/WT-04-244R.1
156917|T||Norsworthy,J.K., J.P. Smith, and C. Meister|Tolerance of Direct-Seeded Green Onions to Herbicides Applied Before or After Crop Emergence|Weed Technol.21(1): 119-123|2007|10.1614/WT-06-042.1
156918|T||McNaughton,K.E., P.H. Sikkema, and D.E. Robinson|Snap Bean Tolerance to Herbicides in Ontario|Weed Technol.18(4): 962-967|2004|10.1614/WT-03-140R
156919|T||Pedreros,A., and J. Tay|Effect of Post Emergence Herbicides on Different Development Stages of Dry Bean|Annu. Rep. Bean Improv. Coop.48:178-179|2005|
156920|T||Rossi,F.S., J.C. Neal, and A.F. Senesac|Alleviating the Antagonistic Efect of Moisture Stress on Smooth Crabgrass (Digitaria ischaemum) Control with Fenoxaprop|Weed Sci.42(3): 418-423|1994|10.1017/S0043174500076712
156921|T||Prokop,M., and K. Veverka|Influence of Droplet Spectra on the Efficiency of Contact and Systemic Herbicides|Plant Soil Environ.49(2): 75-80|2003|10.17221/4093-PSE
156922|T||Stauber,L.G., P. Nastasi, R.J.,Jr. Smith, A.M. Baltazar, and R.E. Talbert|Barnyardgrass (Echinochloa crus-galli) and Bearded Sprangletop (Leptochloa fascicularis) Control in Rice (Oryza sativa)|Weed Technol.5(2): 337-344|1991|10.1017/S0890037X00028207
156923|T||Tonks,D.J., C.V. Eberlein, M.J. Guttieri, and B.A. Brinkman|SAN 582 Efficacy and Tolerance in Potato (Solanum tuberosum)|Weed Technol.13(1): 71-76|1999|10.1017/S0890037X00044936
156924|T||Radwan,D.E.M.|Salicylic Acid Induced Alleviation of Oxidative Stress Caused by Clethodim in Maize (Zea mays L.) Leaves|Pestic. Biochem. Physiol.102(2): 182-188|2012|10.1016/j.pestbp.2012.01.002
156925|T||Rainbolt,C.R., D.C. Thill, and F.L. Young|Control of Volunteer Herbicide-Resistant Wheat and Canola|Weed Technol.18(3): 711-718|2004|10.1614/WT-03-160R
156926|T||Woeste,K.E., J.R. Seifert, and M.F. Selig|Evaluation of Four Herbicides and Tillage for Weed Control on Third Year Growth of Tree Seedlings|Weed Sci.53(3): 331-336|2005|10.1614/WS-04-120R
156927|T||Ruffner,M.E., and T.G. Barnes|Natural Grassland Response to Herbicides and Application Timing for Selective Control of Tall Fescue, an Invasive Cool-Season Grass|Invasive Plant Sci. Manag.3(3): 219-228|2010|10.1614/IPSM-09-019.1
156928|T||Stall,W.M., and D.R. Hensel|Onion Herbicide Evaluations in North Florida|Proc. Annu. Meet. Fla. State Hortic. Soc.107:153-155|1994|
156929|T||Steckel,L.E., M.A. Thompson, and R.M. Hayes|Herbicide Options for Controlling Glyphosate-Tolerant Corn in a Corn Replant Situation|Weed Technol.23(2): 243-246|2009|10.1614/WT-08-151.1
156930|T||Yelverton,F.H., A.D. Worsham, and G.F. Peedin|Activated Carbon Reduces Tobacco (Nicotiana tabacum) Injury from Soil-Applied Herbicides|Weed Technol.6(2): 310-316|1992|10.1017/S0890037X00034783
156931|T||Terry,R.M., P.T. Marquardt, J.J. Camberato, and W.G. Johnson|Effect of Plant Nitrogen Concentration on the Response of Glyphosate-Resistant Corn Hybrids and Their Progeny to Clethodim and Glufosinate|Weed Sci.60(1): 121-125|2012|10.1614/WS-D-11-00117.1
156932|T||Uludag,A., K.W. Park, J. Cannon, and C.A. Mallory-Smith|Cross Resistance of Acetyl-CoA Carboxylase (ACCase) Inhibitor-Resistant Wild Oat (Avena fatua) Biotypes in the Pacific Northwest|Weed Technol.22(1): 142-145|2008|10.1614/WE-07-105.1
156933|T||Wall,D.A., and M.A.H. Smith|Quackgrass (Elytrigia repens) Management in Flax (Linum usitatissimum)|Can. J. Plant Sci.80(2): 411-417|2000|10.4141/P99-027
156934|T||Webber III,C.L.|Kenaf (Hibiscus cannabinus L.) Response to Four Grass Control Herbicides Broadcast Postemergence|Weed Technol.8(3): 457-460|1994|10.1017/S0890037X00039506
156935|T||Webster,T.M., C.W. Bednarz, and W.W. Hanna|Sensitivity of Triploid Hybrid Bermudagrass Cultivars and Common Bermudagrass to Postemergence Herbicides|Weed Technol.17(3): 509-515|2003|10.1614/WT02-081
156936|T||Wiederholt,R.J., and D.E. Stoltenberg|Cross-Resistance of a Large Crabgrass (Digitaria sanguinalis) Accession to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides|Weed Technol.9(3): 518-524|1995|10.1017/S0890037X00023782
156937|T||Wright,S.D., R.N. Vargas, T. Martin-Duvall, and M.R.,Jr. Jimenez|Pyrithiobac, Grass Herbicide Antagonism Study in Cotton|Proc. West. Soc. Weed Sci.51:17-18|1998|
156938|T||Beam,J.B., D.L. Jordan, A.C. York, J.E. Bailey, T.G. Isleib, and T.E. McKemie|Interaction of Prohexadione Calcium with Agrichemicals Applied to Peanut (Arachis hypogaea L.)|Peanut Sci.29(1): 29-35|2002|10.3146/pnut.29.1.0006
156939|T||Brighenti,A., E. Voll, and D.L.P. Gazziero|Chloris polydactyla (L.) Sw., a Perennial Poaceae Weed: Emergence, Seed Production, and Its Management in Brazil|Weed Biol. Manag.7(2): 84-88|2007|10.1111/j.1445-6664.2007.00243.x
156940|T||Grichar,W.J., B.A. Besler, K.D. Brewer, and T.A. Baughman|Grass Control in Peanut (Arachis hypogaea) with Clethodim and Selected Broadleaf Herbicide Combinations|Peanut Sci.29(2): 85-88|2002|10.3146/pnut.29.2.0002
156941|T||Giannopolitis,C.N., G. Vassiliou, and S. Vizantinopoulos|Effects of Weed Interference and Herbicides on Nitrate and Carotene Accumulation in Lettuce|J. Agric. Food Chem.37(2): 312-315|1989|10.1021/jf00086a008
156942|T||Pandey,J.|Effect of Cannabis sativa Infestation on Yield of Rabi Maize|Indian J. Agron.34(1): 109-110|1989|
156943|T||Maruthi,V., S.C. Reddy, and T.Y. Reddy|Effect of Irrigation Levels and Weed Management on Growth and Yield of Postrainy Season Redgram (Cajanus cajan L.)|J. Res. APAU (Andhra Pradesh Agric. Univ.)18(2): 175-177|1990|
156944|T||Jena,S.N., A.K. Behera, T. Barik, and S.S. Mishra|Weed Management in Rainfed Upland Rice|Crop Res. (Hisar)17(1): 34-37|1999|
156945|T||Janardhan,G., T.V. Muniyappa, V.C. Reddy, and J.V.N. Gowda|Effect of Pre-Emergence Herbicides on Weed Control in Transplanted Rice|Crop Res. (Hisar)6(1): 155-158|1993|
156946|T||Reddy,M.M., A. Madhavilatha, and L.J. Rao|Integrated Weed Management in Pigeonpea (Cajanus cajan) - Soybean (Glycine max) Intercropping System in Vertisol Under Rainfed Conditions|Indian J. Agric. Sci.77(3): 177-178|2007|
156947|T||Hochberg,O., M. Sibony, and B. Rubin|The Response of ACCase-Resistant Phalaris paradoxa Populations Involves Two Different Target Site Mutations|Weed Res. (Multiple Languages)49(1): 37-46|2009|10.1111/j.1365-3180.2008.00677.x
156948|T||Dixit,A., and K.C. Gautam|Economic Options for Weed Management in Mustard (Brassica juncea L.)|Agric. Sci. Dig.15(3): 122-124|1995|
156949|T||Saha,G.P., and V.C. Srivastava|Smothering of Weeds Through Seed Rates and Herbicides|Indian J. Agron.39(2): 289-290|1994|
156950|T||Kershner,K.S., K. Al-Khatib, K. Krothapalli, and M.R. Tuinstra|Genetic Resistance to Acetyl-Coenzyme A Carboxylase-Inhibiting Herbicides in Grain Sorghum|Crop Sci.52(1): 64-73|2012|10.2135/cropsci2011.02.0082
156951|T||Kudsk,P., S.K. Mathiassen, and T. Olesen|Influence of a Mineral Oil Adjuvant on the Antagonism of Sethoxydim, Cycloxydim, and Clethodim by Bentazon|In: C.L. Foy (Ed.), Adjuvants for Agrichemicals, CRC Press, Boco Raton, FL41:433-440|1992|
156952|T||Pradhan,A.C., and C.N. Choudhary|Performance of Herbicides and Their Economics for Direct Seeded Upland Rice Production|Indian J. Agron.34(2): 268-269|1989|
156953|T||Mesa-Garcia,J., and A. Vazquez-Cobo|Evaluation of Herbicides for Weed Control in Sunflower Grown Under Non-Tillage Stubble Mulch Conditions|Tests Agrochem. Cultiv.8:98-99|1987|
156954|T||Singh,K., and S.S. Lal|Herbicidal Weed-Control Efficiency and Nutrients Removal by Weeds in Potato (Solanum tuberosum) Under North-Eastern Hills Condition|Indian J. Agron.39(2): 336-339|1994|
156955|T||Lugo-Torres,M.L., and M. Diaz|Weed Control in Sweet Potato (Ipomoea batatas (L.) Lam.)|J. Agric. Univ. P. R.91(3/4): 161-167|2007|10.46429/jaupr.v91i3-4.3283
156956|T||Perry,K.M.|Postemergence Grass Control in Cotton Using Clethodim Plus DPX-PE350 Tank Mix Combinations|Proc. Beltwide Cotton Conf.3:1691-1694|1994|
156957|T||Jordan,D.L., S.H. Lancaster, J.E. Lanier, B.R. Lassiter, and P.D. Johnson|Peanut and Eclipta (Eclipta prostrata) Response to Flumioxazin|Weed Technol.23(2): 231-235|2009|10.1614/WT-08-050.1
156958|T||Lassiter,B.R., D.L. Jordan, G.G. Wilkerson, B.B. Shew, and R.L. Brandenburg|Influence of Cover Crops on Weed Management in Strip Tillage Peanut|Weed Technol.25(4): 568-573|2011|10.1614/WT-D-11-00064.1
156959|T||Senesac,A.F., D.T. Warholic, and R.D. Sweet|Tolerance of Snap and Dry Bean Varieties to Bentazon, Metolachlor and Pendimethalin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.33:178-182|1979|
156960|T||Suresh,G., and B.N. Reddy|Effect of Weed Control Practices on Weed Dry Matter, Production Potential and Nutrient Uptake of Sunflower (Helianthus annuus) in Vertisols|Indian J. Agric. Sci.80(1): 33-37|2010|
156961|T||Tomar,S.S., and K.N. Namdeo|Studies on Chemical Weed Control in Mustard|Indian J. Agron.36(1): 118-121|1991|
156962|T||Arya,R.L.|Integrated Weed Management in Chickpea (Cicer arietinum) + Mustard (Brassica juncea) Intercropping System Under Rainfed Conditions|Indian J. Agron.49(2): 98-100|2004|10.59797/ija.v49i2.5167
156963|T||Glaspie,C.F., S.A. McCordick, T.S. Dietz, J.J. Kells, R.H. Leep, and W.J. Everman|Effect of Seeding Rate and Weed Control on Glyphosate-Resistant Alfalfa Establishment|Weed Technol.25(2): 230-238|2011|10.1614/WT-D-10-00144.1
156964|T||Nandula,V.K., D.H. Poston, K.N. Reddy, and C.H. Koger|Formulation and Adjuvant Effects on Uptake and Translocation of Clethodim in Bermudagrass (Cynodon dactylon)|Weed Sci.55(1): 6-11|2007|10.1614/WS-06-024.1
156965|T||Jat,A.S., R.C. Dadheech, B. Ram, and M.L. Jat|Effect of Herbicides, Phosphorus and Phosphate Solubilizers on Growth, Yield and Weed-Control Efficiency of Wheat (Triticum aestivum) in Central Plateau and Hills Zone of India|Indian J. Agron.49(1): 53-56|2004|10.59797/ija.v49i1.5156
156966|T||Singh,R.K., and K.N. Namdeo|Effect of Fertility Levels and Herbicides on Growth, Yield and Nutrient Uptake of Direct-Seeded Rice (Oryza sativa)|Indian J. Agron.49(1): 34-36|2004|
156968|T||Balyan,R.S., R.K. Malik, V.M. Bhan, and R.P. Singh|Studies on Pre and Post-Emergence Weeding Systems in Mungbean|Indian J. Agron.33(3): 234-237|1988|
156969|T||Reddy,K.N.|Weed Management in Transgenic Soybean Resistant to Glyphosate Under Conventional Tillage and No-Tillage Systems|J. New Seeds3(1): 27-40|2001|10.1300/J153v03n01_03
156970|T||Grichar,W.J.|Control of Texas Panicum (Panicum texanum) and Southern Crabgrass (Digitaria ciliaris) in Peanuts (Arachis hypogaea) with Postemergence Herbicides|Peanut Sci.18(1): 6-8|1991|10.3146/i0095-3679-18-1-3
156971|T||Wilcut,J.W.|Efficacy and Economics of Common Bermudagrass (Cynodon dactylon) Control in Peanut (Arachis hypogaea)|Peanut Sci.18(2): 106-109|1991|10.3146/i0095-3679-18-2-11
156972|T||Sharma,R., and H.M. Mehta|Effect of Pre-Emergence Applied Herbicides on Soil and Plant Residues in Onion|Pesticides 23(11): 2 p.|1989|
156973|T||York,A.C., J.W. Wilcut, and W.J. Grichar|Interaction of 2,4-DB with Postemergence Graminicides|Peanut Sci.20(1): 57-61|1993|10.3146/i0095-3679-20-1-15
156974|T||Ramamoorthy,D., and A.S. Lakshmanachary|The Effect of Different Weedicides on the Biochemical Changes in Blackgram (Vigna mungo L. var. T9)|Adv. Plant Sci.10(2): 165-171|1997|
156975|T||Marshall,G., R.C. Kirkwood, and G.E. Leach|Comparative Studies on Graminicide-Resistant and Susceptible Biotypes of Eleusine indica|Weed Res. (Multiple Languages)34(3): 177-185|1994|10.1111/j.1365-3180.1994.tb01985.x
156976|T||Skrzypczak,G.A., and D.L. Wright|Grass Control Herbicides in Soybean|Proc. Soil Crop Sci. Soc. Fla.47(0): 150-153|1988|
156977|T||Bedmar,F.|Evaluation on Postemergence Grass Herbicides Against Cynodon dactylon in Sunflower|Tests Agrochem. Cultiv.13:58-59|1992|
156978|T||Ferrero,A., P. Balsari, and G. Airoldi|Herbicide Dosage Reduction: The Case of Clethodim|Meded. Fac. Landbouwwet. Univ. Gent61(3b): 1189-1195|1996|
156980|T||Renault,S., A. Shukla, E.M. Giblin, S.L. MacKenzie, and M.D. Devine|Plasma Membrane Lipid Composition and Herbicide Effects on Lipoxygenase Activity do not Contribute to Differential Membrane Responses in Herbicide-Resistant and -Susceptible Wild Oat (Avena fatua L.) Biotypes|J. Agric. Food Chem.45(8): 3269-3275|1997|10.1021/jf970178d
156981|T||Wilson,R.G.|New Herbicides for Weed Control in Established Alfalfa (Medicago sativa)|Weed Technol.3(3): 523-526|1989|10.1017/S0890037X0003270X
156982|T||Barnes,T.G.|Using Herbicides to Rehabilitate Native Grasslands|Nat. Areas J.27(1): 56-65|2007|10.3375/0885-8608(2007)27[56:UHTRNG]2.0.CO;2
156983|T||Zaki,M.S., M.R. Hussain, M.I. Makhdum, and T. Masood|Response of Seed Cotton Yield and Technological Properties of Cotton to Some Herbicides|Pak. J. Agric. Res.9(4): 448-452|1988|
156984|T||Bohannan,D.R., and T.N. Jordan|Effects of Ultra-Low Volume Application on Herbicide Efficacy Using Oil Diluents as Carriers|Weed Technol.9(4): 682-688|1995|10.1017/S0890037X00024052
156985|T||Brewster,B.D., and R.L. Spinney|Control of Seedling Grasses with Postemergence Grass Herbicides|Weed Technol.3(1): 39-43|1989|10.1017/S0890037X00031286
156986|T||Cuerrier,M.E., A. Vanasse, and G.D. Leroux|Chemical and Mechanical Weed Management Strategies for Grain Pearl Millet and Forage Pearl Millet|Can. J. Plant Sci.90(3): 371-381|2010|10.4141/CJPS09089
156987|T||Bridges,D.C.|Adjuvant and pH Effects on Sethoxydim and Clethodim Activity on Rhizome Johnsongrass (Sorghum halepense)|Weed Technol.3(4): 615-620|1989|10.1017/S0890037X00032905
156988|T||Elliot,P.C., and K. Moody|Influence of Weed-Control Practices in the First Crop on the Tillage Requirements for the Succeeding Crops in an Upland Rice-Maize-Cowpea Cropping Sequence|Crop Prot.10(1): 28-33|1991|10.1016/0261-2194(91)90021-I
156989|T||Jones,C.A., and J.L. Griffin|Red Morningglory (Ipomoea coccinea) Control and Competition in Sugarcane|J. Am. Soc. Sugar Cane Technol.29:25-35|2009|
156990|T||Bridges,D.C., A.E. Smith, and L.N. Falb|Effect of Adjuvant on Foliar Absorption and Activity of Clethodim and Polar Degradation Products of Clethodim|Weed Sci.39(4): 543-547|1991|10.1017/S0043174500088342
156991|T||Burke,I.C., J.D. Burton, A.C. York, J. Cranmer, and J.W. Wilcut|Mechanism of Resistance to Clethodim in a Johnsongrass (Sorghum halepense) Biotype|Weed Sci.54(3): 401-406|2006|10.1614/WS-05-153R.1
156992|T||Burke,I.C., W.E. Thomas, J.D. Burton, J.F. Spears, and J.W. Wilcut|A Seedling Assay to Screen Aryloxyphenoxypropionic Acid and Cyclohexanedione Resistance in Johnsongrass (Sorghum halepense)|Weed Technol.20(4): 950-955|2006|10.1614/WT-05-160.1
156993|T||Burke,I.C., J.W. Wilcut, and J. Cranmer|Cross-Resistance of a Johnsongrass (Sorghum halepense) Biotype to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides|Weed Technol.20(3): 571-575|2006|10.1614/WT-05-110R.1
156994|T||Burke,I.C., J.B. Holland, J.D. Burton, A.C. York, and J.W. Wilcut|Johnsongrass (Sorghum halepense) Pollen Expresses ACCase Target-Site Resistance|Weed Technol.21(2): 384-388|2007|10.1614/WT-06-061.1
156995|T||Clewis,S.B., S.D. Askew, and J.W. Wilcut|Economic Assessment of Diclosulam and Flumioxazin in Strip- and Conventional-Tillage Peanut|Weed Sci.50(3): 378-385|2002|10.1614/0043-1745(2002)050[0378:EAODAF]2.0.CO;2
156996|T||Richardson,R.J., H.P. Wilson, and T.E. Hines|Preemergence Herbicides Followed by Trifloxysulfuron Postemergence in Cotton|Weed Technol.21(1): 1-6|2007|10.1614/WT-05-047.1
156997|T||Corkern,C.B., D.B. Reynolds, P.R. Vidrine, J.L. Griffin, and D.L. Jordan|Bromoxynil Antagonizes Johnsongrass (Sorghum halepense) Control with Graminicides|Weed Technol.12(2): 205-208|1998|10.1017/S0890037X00043694
156998|T||Ritter,R.L., H. Menbere, and B. Momen|Tolerance of Maryland-Type Tobacco (Nicotiana tabacum) to Sulfentrazone|Weed Technol.19(4): 885-890|2005|10.1614/WT-04-153R3.1
156999|T||Mueller-Warrant,G.W., and S.C. Rosato|Weed Control for Tall Fescue Seed Production and Stand Duration Without Burning|Crop Sci.45(6): 2614-2628|2005|10.2135/cropsci2003.0375
157000|T||Nelson,D.C., and J.F. Giles|Weed Management in Two Potato (Solanum tuberosum) Cultivars Using Tillage and Pendimethalin|Weed Sci.37(2): 228-232|1989|10.1017/S0043174500071836
157001|T||Schleicher,L.C., P.J. Shea, R.N. Stougaard, and D.R. Tupy|Efficacy and Dissipation of Dithiopyr and Pendimethalin in Perennial Ryegrass (Lolium perenne) Turf|Weed Sci.43(1): 140-148|1995|10.1017/S0043174500080954
157002|T||Nelson,E.A., and D. Penner|Enhancing Herbicide Selectivity with Water-Repellent Adjuvants|Weed Technol.20(3): 677-681|2006|10.1614/WT-05-101R1.1
157003|T||Orloff,S.B., R.N. Vargas, D.W. Cudney, W.M. Canevari, and J. Schmierer|Dodder Control in Alfalfa|Calif. Agric.43(4): 30-32|1989|
157004|T||Shenk,M.D., W.S.,Jr. Braunworth, R.J. Fernandez, D.W. Curtis, D. McGrath, and R.D. William|Wild-Proso Millet (Panicum miliaceum) Control in Sweet Corn (Zea mays)|Weed Technol.4(2): 440-445|1990|10.1017/S0890037X00025689
157006|T||Dhawan,R.S., and R.K. Malik|Germination Response of Sorghum to Pendimethalin Residues in Soil|Agric. Sci. Dig.15(4): 212-214|1995|
157007|T||Singh,S., J.K. Ladha, R.K. Gupta, L. Bhushan, A.N. Rao, B. Sivaprasad, and P.P. Singh|Evaluation of Mulching, Intercropping with Sesbania and Herbicide Use for Weed Management in Dry-Seeded Rice (Oryza sativa L.)|Crop Prot.26(4): 518-524|2007|10.1016/j.cropro.2006.04.024
157008|T||Hussain,M.I., L. Gonzalez, and M.J. Reigosa|Phytotoxic Effects of Allelochemicals and Herbicides on Photosynthesis, Growth and Carbon Isotope Discrimination in Lactuca sativa|Allelopathy J.26(2): 157-174|2010|
157009|T||Venu Gopal,P.V.K.S.N., and S.M. Kondap|Studies on the Efficacy of Herbicides in Rice Culture|Pesticides 19(2): 8-10|1985|
157010|T||Speller,C.S., and P.A. Dover|Use of Sequences for the Control of Broad Leaved Weeds in Maincrop Potatoes|Br. Crop Prot. Conf. Weeds:213-218|1989|
157011|T||Singh,M., and R.P. Singh|Efficacy of Herbicides Under Different Methods of Direct-Seeded Rice (Oryza sativa) Establishments|Indian J. Agric. Sci.80(9): 815-819|2010|
157012|T||Sofiatti,V., L.S. Severino, F.M.O. Silva, V.N.B. Silva, and G.G. Brito|Pre and Postemergence Herbicides for Weed Control in Castor Crop|Ind. Crops Prod.37(1): 235-237|2012|10.1016/j.indcrop.2011.12.019
157013|T||Thakur,D.R., K.K. Singh, and R.C. Thakur|Effect of Weed Control and Fertilizer Levels on Weed Growth and Grain Yield of Rainfed Maize|Indian J. Agron.34(1): 50-52|1989|
157014|T||Madhiyazhagan,R., P.K. Rangaiah, K.S. Subramanian, and A. Nandhagopal|Evaluation of Efficient Weed Management Systems in Pigeonpea (Cajanus cajan L.)|J. Agron. Crop Sci.168(1): 65-68|1992|10.1111/j.1439-037X.1992.tb00978.x
157015|T||Whitaker,J.R., A.C. York, D.L. Jordan, and A.S. Culpepper|Palmer Amaranth (Amaranthus palmeri) Control in Soybean with Glyphosate and Conventional Herbicide Systems|Weed Technol.24(4): 403-410|2010|10.1614/WT-D-09-00043.1
157016|T||Culpepper,A.S., D.L. Jordan, A.C. York, F.T. Corbin, and Y. Sheldon|Influence of Adjuvants and Bromoxynil on Absorption of Clethodim|Weed Technol.13(3): 536-541|1999|10.1017/S0890037X00046169
157017|T||Dodds,D.M., D.B. Reynolds, J.A. Huff, and J.T. Irby|Effect of Pendimethalin Formulation and Application Rate on Cotton Fruit Partitioning|Weed Technol.24(2): 77-84|2010|10.1614/WT-09-049.1
157018|T||Johnson III,W.C., E.P. Prostko, and B.G.,Jr. Mullinix|Annual Grass Control in Strip-Tillage Peanut Production with Delayed Applications of Pendimethalin|Weed Technol.24(1): 1-5|2010|10.1614/WT-08-133.1
157019|T||Ferrell,J.A., T.R. Murphy, and D.C. Bridges|Postemergence Control of Hybrid Bermudagrass (Cynodon transvaalensis Burtt-Davy x Cynodon dactylon)|Weed Technol.19(3): 636-639|2005|10.1614/WT-04-184R2.1
157020|T||Grichar,W.J., and T.E. Boswell|Bermudagrass (Cynodon dactylon) Control with Postemergence Herbicides in Peanut (Arachis hypogaea)|Weed Technol.3(2): 267-271|1989|10.1017/S0890037X0003178X
157021|T||Singh,G.|Integrated Weed Management in Soybean (Glycine max)|Indian J. Agric. Sci.77(10): 675-676|2007|
157022|T||Jordan,D.L., M.C. Smith, M.R. McClelland, and R.E. Frans|Weed Control with Bromoxynil Applied Alone and with Graminicides|Weed Technol.7(4): 835-839|1993|10.1017/S0890037X00037842
157023|T||Singh,R.K., D.N. Shukla, and N. De|Effect of Biofertilizers, Fertility Level and Weed Management on Weed Growth and Yield of Late Sown Chickpea (Cicer arietinum)|Indian J. Agric. Sci.76(9): 561-563|2006|
157024|T||Ellis,A.T., L.E. Steckel, C.L. Main, M.S.C. De Melo, D.R. West, and T.C. Mueller|A Survey for Diclofop-Methyl Resistance in Italian Ryegrass from Tennessee and how to Manage Resistance in Wheat|Weed Technol.24(3): 303-309|2010|10.1614/WT-D-09-00035.1
157025|T||Mishra,J.S., and V.P. Singh|Effect of Tillage and Weed Control on Weed Dynamics, Crop Productivity and Energy-Use Efficiency in Rice (Oryza sativa)-Based Cropping Systems in Vertisols|Indian J. Agric. Sci.81(2): 129-133|2011|
157026|T||Mishra,J.S., V.P. Singh, C. Bhanu, and D. Subrahmanyam|Crop Establishment, Tillage and Weed Management Techniques on Weed Dynamics and Productivity of Rice (Oryza sativa)-Chickpea (Cicer arietinum) Cropping System|Indian J. Agric. Sci.82(1): 15-20|2012|10.56093/ijas.v82i1.13852
157027|T||Richardson,R.J., and B.H. Zandstra|Weed Control in Christmas Trees with Flumioxazin and Other Residual Herbicides Applied Alone or in Tank Mixtures|HortTechnology19(1): 181-186|2009|10.21273/HORTTECH.19.1.181
157028|T||Reddy,V.S., H.V. Nanjappa, K.S. Krishnappa, and V. Shankaranarayana|Chemical Weed Control in Potato Under Irrigated Conditions|Crop Res. (Hisar)8(1): 32-36|1994|
157029|T||Tylicki,A., E. Kowalska-Wochna, A. Oscilowicz, and R. Ilasz|Mitodepressive and Cytotoxic Effects of Short-Term Exposure to Relatively Small Doses of Pendimethalin Evaluated by Allium Test|Pol. J. Environ. Stud.19(1): 193-199|2010|
157030|T||Yadav,M.K., and R.S. Singh|Effect of Nitrogen Levels and Weed Management Practices on Pigeonpea (Cajanus cajan) and Rice (Oryza sativa) Intercropping System Under Ridge-Furrow Planting System|Indian J. Agric. Sci.79(4): 268-272|2009|
157031|T||Pornprom,T., W. Sukcharoenvipharat, and D. Sansiriphun|Weed Control with Pre-Emergence Herbicides in Vegetable Soybean (Glycine max L. Merrill)|Crop Prot.29(7): 684-690|2010|10.1016/j.cropro.2010.02.003
157032|T||Cutulle,M.A., J.S. McElroy, R.W. Millwood, J.C. Sorochan, and C.N.,Jr. Stewart|Selection of Bioassay Method Influences Detection of Annual Bluegrass Resistance to Mitotic-Inhibiting Herbicides|Crop Sci.49(3): 1088-1095|2009|10.2135/cropsci2008.05.0242
157033|T||Jordan,D.L., R.E. Frans, and M.R. McClelland|Interactions of DPX-PE350 with Fluazifop-P, Sethoxydim, Clethodim, and Quizalofop-P|Weed Technol.7(3): 605-610|1993|10.1017/S0890037X00037416
157035|T||Jordan,D.L., P.R. Vidrine, J.L. Griffin, and D.B. Reynolds|Influence of Adjuvants on Efficacy of Clethodim|Weed Technol.10(4): 738-743|1996|10.1017/S0890037X00040744
157036|T||Chambers,A., G. Code, and G. Scammell|Annual Ryegrass and Volunteer Cereal Control in Lupins Using Selective Post-Emergent Herbicides|Aust. J. Exp. Agric.35(8): 1141-1149|1995|10.1071/EA9951141
157038|T||Buchanan-Wollaston,V., A. Snape, and F. Cannon|A Plant Selectable Marker Gene Based on the Detoxification of the Herbicide Dalapon|Plant Cell Rep.11:627-631|1992|10.1007/BF00236387
157039|T||Campbell,M.H., D.W. Burbidge, and H.I. Nicol|Control of Carex appressa R.Br. Using Herbicides and Surface Sown Pasture Species|Plant Prot. Q.12(3): 120-124|1997|
157040|T||Leys,A.R., B. Plater, and B. Cullis|Response of Six Temperate Annual Grass Weeds to Six Selective Herbicides|Plant Prot. Q.3(4): 163-168|1988|
157041|T||Marles,M.A.S., M.D. Devine, and J.C. Hall|Herbicide Resistance in Setaria viridis Conferred by a Less Sensitive Form of Acetyl Coenzyme A Carboxylase|Pestic. Biochem. Physiol.46(1): 7-14|1993|10.1006/pest.1993.1031
157042|T||Sondhia,S.|Persistence and Bioaccumulation of Oxyfluorfen Residues in Onion|Environ. Monit. Assess.162(1-4): 163-168|2010|10.1007/s10661-009-0784-1
157043|T||Akhtar,M., Q. Hamyyun, M.B. Gill, and M.S. Nazir|Comparative Study of Various Crop Management Practices on the Weed Growth and Wheat Yield|Sarhad J. Agric.7(2): 91-94|1991|
157044|T||Ramamoorthy,K.|Effect of Integrated Weed Management on Nutrient Uptake by Upland Rice and Associated Weeds|Indian J. Agron.36(2): 213-217|1991|
157045|T||Mueller-Warrant,G.W., W.C. Young III, and M.E. Mellbye|Residue Removal Method and Herbicides for Tall Fescue Seed Production: I. Weed Control|Agron. J.87(3): 551-558|1995|10.2134/agronj1995.00021962008700030026x
157046|T||Pathak,A.K., S. Sankaran, and S.K. De Datta|Effect of Herbicide and Moisture Level on Rottboellia cochinchinensis and Cyperus rotundus in Upland Rice|Trop. Pest Manag.35(3): 311-315|1989|10.1080/09670878909371388
157047|T||Ponnuswamy,K., and O.S. Kandasamy|Effect of Continuous Herbicide Application on Weed Dynamics in a Sorghum-Cotton Cropping Sequence|Acta Agron. Hung.44(4): 325-330|1996|
157048|T||Rana,M.C., A. Singh, S.S. Rana, and N. Kumar|Integrated Pest Management in Pea (Pisum sativum) Under Lahaul Valley Conditions of Himachal Pradesh|Indian J. Agric. Sci.77(1): 59-61|2007|
157049|T||Sharma,S.K., V. Singh, and K.S. Panwar|Weed Management in Indian Mustard (Brassica juncea) Under Dryland Conditions|Indian J. Agric. Sci.75(5): 288-289|2005|
157050|T||Singh,R., and S.K. Katyal|Influence of Weed Control Methods on Nutrients Uptake Under Different Plant Geometry and Fertility Levels in Summer Cowpea (Vigna unguiculata (L.) Walp)|Geobios (Jodhpur)20(4): 222-224|1993|
157051|T||Shaheen,A.M., and K.M. El-Habbasha|Weed Control and Plant Population for Bulb Yield of Onion (Allium cepa L.)|Egypt. J. Hortic.12(2): 131-141|1985|
157052|T||Singh,G., O.P. Singh, R.A. Yadav, R.S. Singh, and B.B. Singh|Response of Linseed to Seed Rates, Fertility and Weed Control as Utera After Deep Water Rice|Crop Res. (Hisar)6(3): 383-385|1993|
157053|T||Patra,A.K., and B.C. Nayak|Integrated Weed Management in Rainy-Season Groundnut (Arachis hypogaea)|Indian J. Agric. Sci.71(6): 378-380|2001|
157054|T||Sharma,R.P., P. Singh, and P.L. Maliwal|Effect of Weed Management and Phosphorus Levels on Yield and Quality of Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.72(8): 461-463|2002|
157055|T||Singh,S.K., N.K. Jain, and B.L. Poonia|Integrated Weed Management in Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.70(12): 850-852|2000|
157056|T||Agrawal,H.P., R.K. Bisen, and V.K. Verma|Economic Evaluation of Various Weedicides in Wheat (Triticum aestivum L.) Variety Mangla (HI-1077)|Adv. Plant Sci.9(2): 67-70|1996|
157057|T||Ali,M.|Weed Management in Pigeonpea Under Rainfed Conditions in India|Trop. Pest Manag.37(4): 345-348|1991|10.1080/09670879109371612
157059|T||Krausz,R.F., G. Kapusta, and J.L. Matthews|The Effect of Giant Foxtail (Setaria faberi) Plant Height on Control with Six Postemergence Herbicides|Weed Technol.7(2): 491-494|1993|10.1017/S0890037X00027937
157060|T||Adam,S.M., T.R. Mohamed, and A.M. Abdalla|Influence of Some Herbicides on the Germination and Early Growth of Garlic (Allium sativum)|Egypt. J. Hortic.23(1): 25-33|1996|
157061|T||Bandyopadhyay,P., A.K. Mitra, and P.K. Jana|Effect of Weed-Control Method on Growth, Yield, Herbicidal Efficiency Index and Net Profit of White Jute (Corchorus capsularis)|Indian J. Agric. Sci.64(7): 485-487|1994|
157062|T||Bateman,R.J., and S.R. Walker|Effect of Stubble Cover on the Efficacy of Some Soil-Incorporated Herbicides|Aust. J. Exp. Agric.25(4): 927-931|1985|10.1071/EA9850927
157063|T||McMullan,P.M.|Effect of Sodium Bicarbonate on Clethodim or Quizalofop Efficacy and the Role of Ultraviolet Light|Weed Technol.8(3): 572-575|1994|10.1017/S0890037X00039701
157064|T||Bhattacharya,S.P., and B.K. Mondal|Efficacy of Some Herbicides for Control of Weeds in Wheat|Pesticides 22(5): 7-8|1988|
157065|T||Chahal,D.S., O.P. Sehgal, and K.K. Singh|Effect of Chemical and Agronomic Treatments on Population and Growth of Weeds in Gladiolus Field|Ann. Biol.10(2): 245-249|1994|
157066|T||Dashora,G.K., P.L. Maliwal, and L.N. Dashora|Effect of Different Herbicides and Nitrogen Levels on Weed Control and Seed Yield of Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.59(11): 742-744|1989|
157067|T||Dhar,S., S.D. Gupta, S.K. Das, and S. Kumar|Influence of Weed-Control Measures on Yield of Perennial Lucerne (Medicago sativa)|Indian J. Agric. Sci.74(12): 654-657|2004|
157068|T||Fishel,F.M., and G.E. Coats|Bermudagrass (Cynodon dactylon) Sod Rooting as Influenced by Preemergence Herbicides|Weed Technol.8(1): 46-49|1994|10.1017/S0890037X0003918X
157069|T||McWhorter,C.G., W.L. Barrentine, and J.E. Hanks|Postemergence Grass Control with Herbicides Applied at ULV in Paraffinic Oil|Weed Technol.6(2): 262-268|1992|10.1017/S0890037X00034709
157070|T||Moyer,J.R., and G.B. Schaalje|Quackgrass (Elytrigia repens) Interference and Control in Seed Alfalfa (Medicago sativa)|Weed Technol.7(1): 58-64|1993|10.1017/S0890037X00036873
157071|T||Myers,P.F., and H.D. Coble|Antagonism of Graminicide Activity on Annual Grass Species by Imazethapyr|Weed Technol.6(2): 333-338|1992|10.1017/S0890037X00034825
157072|T||Nandula,V.K., D.H. Poston, K.N. Reddy, and C.H. Koger|Formulation and Adjuvant Effects on the Absorption and Translocation of 14C-Clethodim in Wheat (Triticum aestivum L.)|Weed Biol. Manag.7(4): 226-231|2007|10.1111/j.1445-6664.2007.00260.x
157073|T||Palmer,E.W., D.R. Shaw, and J.C.,Jr. Holloway|Influence of CGA-277476 on Efficacy of Postemergence Graminicides|Weed Technol.13(1): 48-53|1999|10.1017/S0890037X00044894
157074|T||Rankins,A.,Jr., D.R. Shaw, and J. Douglas|Response of Perennial Grasses Potentially Used as Filter Strips to Selected Postemergence Herbicides|Weed Technol.19(1): 73-77|2005|10.1614/WT-03-244R
157075|T||Reynolds,J.H., W.A. Krueger, and C.L. Walker|Effects of Clethodim on Seedhead Density, Forage Yield, and Quality of Tall Fescue (Festuca arundinacea)|Weed Technol.7(3): 751-755|1993|10.1017/S0890037X00037659
157076|T||Snipes,C.E., and R.L. Allen|Interaction of Graminicides Applied in Combination with Pyrithiobac|Weed Technol.10(4): 889-892|1996|10.1017/S0890037X00040975
157077|T||Grey,T.L., and G.R. Wehtje|Residual Herbicide Weed Control Systems in Peanut|Weed Technol.19(3): 560-567|2005|10.1614/WT-03-247.1
157078|T||Stoltenberg,D.E., and R.J. Wiederholt|Giant Foxtail (Setaria faberi) Resistance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides|Weed Sci.43(4): 527-535|1995|10.1017/S0043174500081595
157079|T||Grichar,W.J., B.A. Besler, and K.D. Brewer|Weed Control and Grain Sorghum (Sorghum bicolor) Response to Postemergence Applications of Atrazine, Pendimethalin, and Trifluralin|Weed Technol.19(4): 999-1003|2005|10.1614/WT-04-180R2.1
157080|T||Teuton,T.C., G.E. MacDonald, C.L. Main, and B.J. Brecke|Characterization of Fluazifop-P-Butyl Activity on Bristly Starbur (Acanthospermum hispidum)|Weed Technol.20(3): 717-721|2006|10.1614/WT-05-106R.1
157081|T||Grichar,W.J.|Control of Smellmelon (Cucumis melo) in Soybean with Herbicides|Weed Technol.21(3): 777-779|2007|10.1614/WT-06-173.1
157082|T||Tredaway,J.A., M.G. Patterson, and G.R. Wehtje|Interaction of Clethodim with Pyrithiobac and Bromoxynil Applied in Low Volume|Weed Technol.12(1): 185-189|1998|10.1017/S0890037X00042779
157083|T||Harvey,R.G., and G.R. McNevin|Combining Cultural Practices and Herbicides to Control Wild-Proso Millet (Panicum miliaceum)|Weed Technol.4(2): 433-439|1990|10.1017/S0890037X00025677
157084|T||Unruh,J.B., D.O. Stephenson IV, B.J. Brecke, and L.E. Trenholm|Tolerance of 'Salam' Seashore Paspalum (Paspalum vaginatum) to Postemergence Herbicides|Weed Technol.20(3): 612-616|2006|10.1614/WT-05-021R1.1
157085|T||Johnson,B.J.|Differential Large Crabgrass Control with Herbicides in Tall Fescue and Common Bermudagrass|Hortscience28(10): 1015-1016|1993|10.21273/HORTSCI.28.10.1015
157087|T||Johnson III,W.C., and B.G.,Jr. Mullinix|Efficacy and Economic Analysis of Texas Panicum (Panicum texanum) Management Systems in Corn (Zea mays)|Weed Technol.4(4): 754-758|1990|10.1017/S0890037X00026348
157088|T||Wiese,A.F., C.D. Salisbury, and B.W. Bean|Downy Brome (Bromus tectorum), Jointed Goatgrass (Aegilops cylindrica) and Horseweed (Conyza canadensis) Control in Fallow|Weed Technol.9(2): 249-254|1995|10.1017/S0890037X00023290
157089|T||Kasera,P.K., and D.N. Sen|Weed Seed Inviability Caused by Post-Emergence Herbicides|Curr. Sci. (Bangalore)55(18): 937-938|1986|
157090|T||Keeling,J.W., and J.R. Abernathy|Response of Cotton (Gossypium hirsutum) to Repeated Applications of Dinitroaniline Herbicides|Weed Technol.3(3): 527-530|1989|10.1017/S0890037X00032711
157091|T||Keeling,J.W., K.T. Siders, and J.R. Abernathy|Palmer Amaranth (Amaranthus palmeri) Control in a Conservation Tillage System for Cotton (Gossypium hirsutum)|Weed Technol.5(1): 137-141|1991|10.1017/S0890037X00033406
157092|T||Ball,D.A., S.M. Frost, and L.H. Bennett|ACCase-Inhibitor Herbicide Resistance in Downy Brome (Bromus tectorum) in Oregon|Weed Sci.55(2): 91-94|2007|10.1614/WS-06-120.1
157093|T||Keeling,J.W., P.A. Dotray, and J.R. Abernathy|Effects of Repeated Applications of Trifluralin and Pendimethalin on Cotton (Gossypium hirsutum)|Weed Technol.10(2): 295-298|1996|10.1017/S0890037X00039981
157094|T||Cox,K.G., and K.C. Harrington|Selective Herbicide Strategies for Use in Australian Desmanthus Seed Crops|Trop. Grassl.39(3): 171-181|2005|
157095|T||Khokhar,K.M., T. Mahmood, M. Shakeel, and M. Farooq Chaudhry|Evaluation of Integrated Weed Management Practices for Onion in Pakistan|Crop Prot.25(9): 968-972|2006|10.1016/j.cropro.2006.01.003
157096|T||Khokhar,K.M., T. Mehmood, and M. Shakeel|Evaluation of Integrated Weed Management Practices for Chilies in Pakistan|Crop Prot.26(8): 1135-1139|2007|10.1016/j.cropro.2006.10.006
157097|T||Lin,H.T., S.W. Chen, C.J. Shen, and C. Chu|Dissipation of Pendimethalin in the Garlic (Allium sativum L.) Under Subtropical Condition|Bull. Environ. Contam. Toxicol.79(1): 84-86|2007|10.1007/s00128-007-9100-3
157098|T||Culpepper,A.S., A.C. York, and C. Brownie|Influence of Bromoxynil on Annual Grass Control by Graminicides|Weed Sci.47(1): 123-128|1999|10.1017/S0043174500090743
157099|T||Koo,S.J., S.C. Ahn, J.S. Lim, S.H. Chae, J.S. Kim, J.H. Lee, and J.H. Cho|Biological Activity of the New Herbicide LGC-40863 (Benzophenone O-(2,6-Bis((4,6-Dimethoxy-2-Pyrimidinyl)Oxy)Benzoyl)Oxime)|Pestic. Sci.51(2): 109-114|1997|10.1002/(SICI)1096-9063(199710)51:2<109::AID-PS585>3.0.CO;2-7
157100|T||Rana,M.C., and N.N. Angiras|Influence of Phosphorus Level and Weed-Control Method on Phosphorus Uptake by Gobhi sarson (Brassica napus subsp Oleifera var annua) and Associated Weeds|Indian J. Agric. Sci.65(4): 250-255|1995|
157101|T||De Prado,R., M.D. Osuna, and A.J. Fischer|Resistance to ACCase Inhibitor Herbicides in a Green Foxtail (Setaria viridis) Biotype in Europe|Weed Sci.52(4): 506-512|2004|10.1614/WS-03-097R
157102|T||Ferrell,J.A., H.J. Earl, and W.K. Vencill|The Effect of Selected Herbicides on CO2 Assimilation, Chlorophyll Fluorescence, and Stomatal Conductance in Johnsongrass (Sorghum halepense L)|Weed Sci.51(1): 28-31|2003|10.1614/0043-1745(2003)051[0028:TEOSHO]2.0.CO;2
157103|T||Grichar,W.J.|Comparison of Postemergence Herbicides for Common Bermudagrass (Cynodon dactylon) Control in Peanut (Arachis hypogaea)|Weed Technol.9(4): 825-828|1995|10.1017/S0890037X00024283
157104|T||Griffin,J.L.|Itchgrass (Rottboellia cochinchinensis) Control Options in Soybean (Glycine max)|Weed Technol.5(2): 426-429|1991|10.1017/S0890037X00028360
157105|T||Harker,K.N.|Ammonium Sulfate Effects on the Activity of Herbicides for Selective Grass Control|Weed Technol.9(2): 260-266|1995|10.1017/S0890037X00023319
157106|T||Hennigh,D.S., K. Al-Khatib, P.W. Stahlman, and D.E. Shoup|Prairie Cupgrass (Eriochloa contract) and Windmillgrass (Chloris verticillata) Response to Glyphosate and Acetyl-CoA Carboxylase-Inhibiting Herbicides|Weed Sci.53(3): 315-322|2005|10.1614/WS-04-112R
157107|T||Johnson,W.G., and R.E. Frans|Johnsongrass (Sorghum halepense) Control in Soybeans (Glycine max) with Postemergence Herbicides|Weed Technol.5(1): 87-91|1991|10.1017/S0890037X00033315
157108|T||Jordan,D.L.|Influence of Adjuvants on the Antagonism of Graminicides by Broadleaf Herbicides|Weed Technol.9(4): 741-747|1995|10.1017/S0890037X00024143
157109|T||Jordan,D.L., J.L. Griffin, P.R. Vidrine, D.R. Shaw, and D.B. Reynolds|Comparison of Graminicides Applied at Equivalent Costs in Soybean (Glycine max)|Weed Technol.11(4): 804-809|1997|10.1017/S0890037X00043475
157110|T||Kurtz,M.E., and S.W. Neill|Tolerance of Kenaf to Selected Postemergence Herbicides|Weed Technol.6(1): 125-128|1992|10.1017/S0890037X00034412
157111|T||Lingenfelter,D.D., and W.S. Curran|Effect of Glyphosate and Several ACCase-Inhibitor Herbicides on Wirestem Muhly (Muhlenbergia frondosa) Control|Weed Technol.21(3): 732-738|2007|10.1614/WT-06-055.1
157112|T||McMullan,P.M.|Grass Herbicide Efficacy as Influenced by Adjuvant, Spray Solution pH, and Ultraviolet Light|Weed Technol.10(1): 72-77|1996|10.1017/S0890037X00045735
157113|T||Minton,B.W., M.E. Kurtz, and D.R. Shaw|Barnyardgrass (Echinochloa crus-galli) Control with Grass and Broadleaf Weed Herbicide Combinations|Weed Sci.37(2): 223-227|1989|10.1017/S0043174500071824
157114|T||Vidrine,P.R., D.B. Reynolds, and D.C. Blouin|Grass Control in Soybean (Glycine max) with Graminicides Applied Alone and in Mixtures|Weed Technol.9(1): 68-72|1995|10.1017/S0890037X00022971
157115|T||Wilson,R.G.|Response of Dry Bean and Weeds to Fomesafen and Fomesafen Tank Mixtures|Weed Technol.19(1): 201-206|2005|10.1614/WT-04-166R
157116|T||Delye,C., A. Matjicek, and S. Michel|Cross-Resistance Patterns to ACCase-Inhibiting Herbicides Conferred by Mutant ACCase Isoforms in Alopecurus myosuroides Huds. (Black-Grass), Re-Examined at the Recommended Herbicide Field Rate|Pest Manag. Sci.64(11): 1179-1186|2008|10.1002/ps.1614
157117|T||Scarabel,L., S. Panozzo, S. Varotto, and M. Sattin|Allelic Variation of the ACCase Gene and Response to ACCase-Inhibiting Herbicides in Pinoxaden-Resistant Lolium spp.|Pest Manag. Sci.67(8): 932-941|2011|10.1002/ps.2133
157118|T||Han,J., H. Liu, P. Guo, and C. Hao|Weed Control in Summer-Sown Soybeans with Flumioxazin plus Acetochlor and Flumiclorac-Pentyl plus Clethodim|Weed Biol. Manag.2(2): 120-122|2002|10.1046/j.1445-6664.2002.00057.x
157119|T||Frans,R., M. McClelland, D. Jordan, and B. Johnson|Herbicide Trials on Field Crops 1989|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.:110 p.|1990|
157120|T||Bond,J.A., D.O. Stephenson IV, J.W. Barnes, M.T. Bararpour, and L.R. Oliver|Diclofop-Resistant Italian Ryegrass (Lolium multiflorum) Control in Imidazolinone-Tolerant Wheat|Weed Technol.19(2): 437-442|2005|10.1614/WT-04-199R
157121|T||Harrington,K.C., R.C. Southward, K.L. Kitchen, and X.Z. He|Investigation of Herbicides Tolerated by Stevia rebaudiana Crops|N. Z. J. Crop Hortic. Sci.39(1): 21-33|2011|10.1080/01140671.2010.520165
157122|T||Tag-El-Din,A., M.O. Ghandorah, D. Al-Rajhi, and F. Meneesy|Evaluation of Herbicides for Weed Control in Irrigated Wheat in Saudi Arabia|Trop. Pest Manag.35(3): 321-325|1989|10.1080/09670878909371390
157123|T||Bailly,G.C., R.P. Dale, S.A. Archer, D.J. Wright, and S.S. Kaundun|Role of Residual Herbicides for the Management of Multiple Herbicide Resistance to ACCase and ALS Inhibitors in a Black-Grass Population|Crop Prot.34(0): 96-103|2012|10.1016/j.cropro.2011.11.017
157124|T||Schwartz,T.K.|The Movement and Phytotoxicity of Pendimethalin [N-(1-Ethylpropyl)-3,4-Dimethyl-2,6-Dinitrobenzenamine] as Influenced by Soil Type, Temperature, Light and Moisture Levels|M.S.Thesis, University of Wyoming, Laramie, WY:63 p.|1977|
157125|T||Nettles,C.J.,Jr.|The Effects of Four Pre-Emergent Herbicides on the Rooting Architecture of Hybrid Bermudagrass|M.S.Thesis, Mississippi State University, Starkville, MS:81 p.|2010|
157126|T||Pandey,J.|Effect of Dose and Mode of Metribuzin Application on Phalaris minor and Yield of Wheat (Triticum aestivum)|Indian J. Agric. Sci.72(1): 11-13|2002|
157127|T||Pandey,J., and K. Shukla|Chemical Weed Control for Intercropped Maize with Potato|Pesticides 19(6): 58-|1985|
157128|T||Ramakrishna,A., O.P. Rupela, S.L.N. Reddy, and C. Sivaramakrishna|Promising Herbicides for Weed Control in Chickpea|Trop. Pest Manag.38(4): 398-399|1992|10.1080/09670879209371735
157129|T||Pahwa,S.K., and J. Prakash|Effect of Some Herbicides on the Growth, Nodulation and Nitrogen Fixation in Chickpea (Cicer arietinum L.)|Indian J. Plant Physiol.35(3): 207-212|1992|
157130|T||Panwar,R.S., R.K. Malik, and S.S. Rathi|Influence of Tank Mixture of Herbicides on Weed Control in Upland Cotton (Gossypium hirsutum)|Indian J. Agron.40(2): 347-348|1995|
157131|T||Jaiswal,V.P.|Differential Response of Weed Species to Herbicides in Potato|J. Indian Potato Assoc.21(1/2): 157-159|1994|
157132|T||Banerjee,M.K., Kalloo, and K.K. Thakral|Genotypic Tolerance of Tomato to Herbicides|Tests Agrochem. Cultiv.10:124-125|1989|
157133|T||Dewitte,K., J. Latre, and G. Haesaert|Possibilities of Chemical Weed Control in Lupinus albus and Lupinus luteus - Screening of Herbicides|Commun. Agric. Appl. Biol. Sci.71(3a): 743-751|2006|
157134|T||Grichar,W.J., and A.E. Colburn|Flumioxazin for Weed Control in Texas Peanuts (Arachis hypogaea L.)|Peanut Sci.23(1): 30-36|1996|10.3146/i0095-3679-23-1-6
157135|T||Poienaru,S., N. Sarpe, and I. Sarpe|The Chemical Weed Control of Maize Culture in the Danube Meadow|Commun. Agric. Appl. Biol. Sci.70(3): 465-470|2005|
157136|T||Yadav,P.K., A.H. Khan, and A.S. Yadav|Effect of Herbicides on Biochemical and Growth Parameters of Chickpea (Cicer arietinum)|Indian J. Agric. Sci.77(8): 542-543|2007|
157137|T||Kaneria,B.B., and Z.G. Patel|Weed and Nitrogen Management in Indian Mustard (Brassica juncea)|Indian J. Agric. Sci.64(1): 44-46|1994|
157138|T||Kehinde,J.K.|Screening of Herbicides for Weed Control in Upland Rice|Tests Agrochem. Cultiv.10:90-91|1989|
157139|T||Varshney,J.G., and R.L. Arya|Effect of Integrated Nutrients Use and Weed-Control Methods on Sole Gram (Cicer arietinum) and Gram + Indian Mustard (Brassica juncea) Intercropping System|Indian J. Agric. Sci.74(3): 121-125|2004|
157140|T||Warner,H.L., and J.A. Holmdal|Thiazopyr Weed Control in Perennial Crops|Br. Crop Prot. Conf. Weeds:943-946|1995|
157141|T||Yadav,K., V. Prasad, R. Rai, and N. Ahmad|Effect of Some Herbicides on Nodulation and Grain Yield of Lentil|J. Indian Soc. Soil Sci.38(4): 749-752|1990|
157142|T||Yadav,A., A.S. Faroda, R.K. Malik, D. Bir, and R. Kumar|Efficiency of Pendimethalin Against Phalaris minor Applied at Different Times in Wheat|Crop Res. (Hisar)9(3): 394-398|1995|
157143|T||Yadav,P.K., A.H. Khan, R. Murti, and R.K. Upadhyay|Effect of Herbicides on Germination, Growth and Nodulation in Chickpea (Cicer arietinum)|Indian J. Agric. Sci.76(11): 682-684|2006|
157144|T||Billore,S.D., O.P. Joshi, and A. Ramesh|Energy Productivity Through Herbicidal Weed Control in Soybean (Glycine max)|Indian J. Agric. Sci.69(11): 770-772|1999|
157145|T||Griffin,J.L., D.B. Reynolds, P.R. Vidrine, and S.A. Bruff|Soybean (Glycine max) Tolerance and Sicklepod (Cassia obtusifolia) Control with AC 263,222|Weed Technol.7(2): 331-336|1993|10.1017/S0890037X00027688
157146|T||Hutchinson,P.J.S., C.V. Ransom, R.A. Boydston, and B.R. Beutler|Dimethenamid-P:  Efficacy and Potato (Solanum tuberosum) Variety Tolerance|Weed Technol.19(4): 966-971|2005|10.1614/WT-04-300R1.1
157147|T||Johnson,B.J.|Sequential Herbicide Treatments for Large Crabgrass (Digitaria sanguinalis) and Goosegrass (Eleusine indica) Control in Bermudagrass (Cynodon dactylon) Turf|Weed Technol.7(3): 674-680|1993|10.1017/S0890037X00037532
157148|T||Kleemann,S.G.L., and G.S. Gill|Applications of Metribuzin for the Control of Rigid Brome (Bromus rigidus) in No-Till Barley Crops of Southern Australia|Weed Technol.22(1): 34-37|2008|10.1614/WT-07-017.1
157149|T||Rao,B.V.|Cytological Effects of Pendimethalin in Allium cepa Root Meristems|Cell Chromosome Res.12(2): 57-59|1989|
157150|T||Zaki,M.S., S.M. Shah, and D.B. Muhammad|Residual Effect of Stomp 330E (Pendimethalin) on the Succeeding Crops|Pak. J. Sci. Ind. Res.38(7): 253-255|1995|
157151|T||Singh,R.D., and A.K. Ghosh|Evaluation of Herbicides for Control of Wild Oat (Avena ludoviciana) in Wheat (Triticum Species)|Indian J. Agron.37(2): 327-331|1992|
157152|T||Tewari,A.N., and S.N. Tiwari|Chemical Control of Asphodelus tenuifolius Infesting Gram (Cicer arietinum) Under Rainfed Condition|Indian J. Agric. Sci.74(8): 436-437|2004|
157153|T||Solaiappan,U., S. Senthilvel, and S. Subramanian|Weed Control in Sorghum (Sorghum bicolor)-Based Intercropping System Under Rainfed Situation|Indian J. Agron.37(1): 143-145|1992|
157154|T||Rana,D.S.|Effect of Planting Patterns and Weed Management on Weed Suppression, Productivity and Economics of African Mustard (Brassica carinata) and Indian Mustard (Brassica juncea) Intercropping|Indian J. Agric. Sci.76(2): 98-102|2006|
157155|T||Rao,K.V., P.G. Rao, and K.R. Rao|Weed-Control Techniques in Transplanted Rice (Oryza sativa)|Indian J. Agron.38(3): 474-475|1993|
157156|T||Sharma,O.L., and N.K. Jain|Effect of Levels and Time of Application of Herbicides on Seed Yield of Cumin (Cuminum cyminum)|Indian J. Agric. Sci.75(12): 812-813|2005|
157157|T||Dashora,G.K., P.L. Maliwal, and L.N. Dashora|Weed Crop Competition Studies in Mustard (Brassica juncea (L.) Czern and Coss)|Indian J. Agron.35(4): 417-419|1990|
157158|T||Singh,B., and T.R. Singh|Performance of Herbicides for Weed Control in Green Gram|Indian J. Agron.31(3): 302-304|1986|
157159|T||Singh,A., I.P.S. Ahlawat, and C.S. Saraf|Studies on Weed Control in Chickpea|Indian J. Agron.31(3): 269-272|1986|10.59797/ija.v67i3.28
157160|T||Kakade,S.U., B.M. Patil, A.P. Karunakar, H.N. Sethi, and P.D. Thakare|Effect of Sequential Application of Pre-Emergence and Post-Emergence Herbicides on Weeds and Yield of Cotton|Crop Res. (Hisar)17(2): 175-178|1999|
157161|T||Chauhan,D.R., K.S. Panwar, and R.S. Balyan|Influence of Irrigation, Phosphorus and Weed Control Methods on Weeds and Field Pea (Pisum sativum L.)|Trop. Pest Manag.38(1): 1-4|1992|10.1080/09670879209371635
157162|T||Mitchell,G.A.|Effects of Trifluralin and Pendimethalin on Selected Characteristics of Cotton|M.S.Thesis, Mississippi State University, Starkville, MS:41 p.|1986|
157163|T||Khan,M.I., G. Hassan, I. Khan, K.B. Marwat, N.U. Khan, and R. Gul|Tolerance of Chickpea (Cicer arietinum L.) Cultivars to the Major Chickpea Herbicides|Pak. J. Bot.43(5): 2497-2501|2011|
157164|T||Singh,G., R.K. Mehta, and O.P. Singh|Effect of Tillage, Fertility and Weed Control on Yield and Economics of Lentil in Rice Lentil Sequence Under Rainfed Lowland Conditions|Crop Res. (Hisar)5(3): 568-570|1992|
157165|T||Konieczka,C.M., J.B. Colquhoun, and R.A. Rittmeyer|Swamp Dodder (Cuscuta gronovii) Management in Carrot Production|Weed Technol.23(3): 408-411|2009|10.1614/WT-08-177.1
157166|T||Wehtje,G., J.P. Bostick, and R.A. Dawkins|Seed Head Suppression of Knotroot Foxtail (Setaria parviflora) in Bahiagrass (Paspalum notatum) Grown for Seed|Weed Technol.22(2): 249-252|2008|10.1614/WT-07-152.1
157167|T||Smith,M.A.K.|Pendimethalin Phytotoxicity and Seedling Weed Control in Indian Spinach (Basella alba L.)|Crop Prot.23(3): 201-204|2004|10.1016/j.cropro.2003.08.020
157168|T||Mehta,R.S., B.S. Patel, and S.S. Meena|Weed Dynamics and Yield of Fenugreek (Trigonella foenum-graecum) as Influenced with Irrigation Levels and Weed Management Practices|Indian J. Agric. Sci.80(11): 970-974|2010|
157169|T||Dev,J., J.N. Singh, and G. Singh|Development and Use of a Soil Bioassay for Pendimethalin and Fluchloralin|Trop. Pest Manag.38(1): 22-24|1992|10.1080/09670879209371639
157170|T||Kehinde,J.K.|Pre-Emergence Control of Weeds in Upland Rice|Int. Rice Res. Newsl.37:31-32|1988|
157171|T||Henderson,C.W.L., and M.J. Webber|Phytotoxicity of Several Pre-Emergence and Post-Emergence Herbicides to Green Beans (Phaseolus vulgaris)|Aust. J. Exp. Agric.33(5): 645-652|1993|10.1071/EA9930645
157172|T||Jordan,D.L., J.W. Wilcut, and J.S. Richburg III|DPX-PE350 for Weed Control in Peanut (Arachis hypogaea L.)|Peanut Sci.20(2): 97-101|1993|10.3146/i0095-3679-20-2-8
157173|T||Kothari,S.K., J.P. Singh, and K. Singh|Chemical Weed Control in Bulgarian Coriander (Coriandrum sativum L.)|Trop. Pest Manag.35(1): 2-5|1989|10.1080/09670878909371309
157174|T||Maliwal,P.L., and O.P. Gupta|Study on the Effect of Four Herbicides with and Without Applied Phosphorus on Weed Control and Seed Yield of Fenugreek (Trigonella foenum-graecum L.)|Trop. Pest Manag.35(3): 307-310|1989|10.1080/09670878909371387
157175|T||Patel,N.M., P.M. Shah, and P.T. Patel|Comparative Effect of Different Herbicides in Potato cv. Kufri Badshah|J. Indian Potato Assoc.22(1/2): 74-76|1995|
157176|T||Mishra,J.S., B.T.S. Moorthy, M. Bhan, and N.T. Yaduraju|Relative Tolerance of Rainy Season Crops to Field Dodder (Cuscuta campestris) and Its Management in Niger (Guizotia abyssinica)|Crop Prot.26(4): 625-629|2007|10.1016/j.cropro.2006.05.016
157177|T||Singh,R., C.S. Patel, and U.K. Hazarika|Effect of Weed-Control Method and Cropping System on Weed Population and Grain Yield of Upland Rice (Oryza sativa) Under Mid-Altitudes of Meghalaya|Indian J. Agron.37(4): 676-680|1992|
157178|T||Tiwana,M.S., T. Singh, and L.S. Brar|Comparative Bioefficacy of Different Herbicides Against Poa annua L. in Berseem (Trifolium alexandrinum L.)|Pesticides 19(6): 52-54|1985|
157179|T||Busari,D.L., and B.A. Olunuga|Evaluation of Herbicides on Soybean Plots|Tests Agrochem. Cultiv.9:52-53|1988|
157180|T||Jhala,A., P.H. Rathod, K.C. Patel, and P. Van Damme|Growth and Yield of Groundnut (Arachis hypogaea L.) as Influenced by Weed Management Practices and Rhizobium Inoculation|Commun. Agric. Appl. Biol. Sci.70(3): 493-500|2005|
157181|T||Mosjidis,J.A., and G. Wehtje|Weed Control in Sunn Hemp and Its Ability to Suppress Weed Growth|Crop Prot.30(1): 70-73|2011|10.1016/j.cropro.2010.08.021
157182|T||Billore,S.D., and O.P. Joshi|Weed Management in Soybean (Glycine max) Ecosystem in Madhya Pradesh|Indian J. Agric. Sci.68(10): 699-700|1998|
157183|T||Devi,L.S., and R.S.D.B. Gowda|Studies on Efficacy of Pendimethalin - II|Pesticides 19(1): 41-43|1985|
157184|T||Lemerle,D., A.R. Leys, R.B. Hinkley, and J.A. Fisher|Tolerances of Wheat Cultivars to Pre-Emergence Herbicides|Aust. J. Exp. Agric.25(4): 922-926|1985|10.1071/EA9850922
157185|T||Panwar,R.S., R.K. Malik, and V.M. Bhan|Studies on Weed Management in Wheat-Raya and Chickpea-Raya Intercropping Systems|Indian J. Agron.32(4): 365-369|1987|
157186|T||Bond,J.A., T.W. Walker, and C.H. Koger|Pendimethalin Applications in Stale Seedbed Rice Production|Weed Technol.23(1): 167-170|2009|10.1614/WT-07-182.1
157187|T||Brown,S.M., J.M. Chandler, J.E.,Jr. Morrison, and D.C. Bridges|Placement Techniques for Preemergence Applications of Pendimethalin in Grain Sorghum (Sorghum bicolor)|Weed Sci.35(5): 678-681|1987|10.1017/S0043174500060781
157188|T||Keeley,S.J., and H.E. Zhou|Preemergence Herbicide and Seeding Method Effects on Seedling Growth of Kentucky Bluegrass|Weed Technol.19(1): 43-46|2005|10.1614/WT-03-199R
157189|T||Johnson,B.J.|Herbicide Programs for Large Crabgrass and Goosegrass Control in Kentucky Bluegrass Turf|Hortscience29(8): 876-879|1994|10.21273/HORTSCI.29.8.876
157190|T||Boz,O., D. Ogut, K. Kir, and M.N. Dogan|Olive Processing Waste as a Method of Weed Control for Okra, Faba Bean, and Onion|Weed Technol.23(4): 569-573|2009|10.1614/WT-08-126.1
157191|T||King,S.R., and J.O. Garcia|Annual Broadleaf Control with KIH-485 in Glyphosate-Resistant Furrow-Irrigated Corn|Weed Technol.22(3): 420-424|2008|10.1614/WT-07-169.1
157192|T||Rankova,Z., L. Nacheva, and P. Gercheva|Growth Habits of the Vegetative Apple Rootstock MM 106 After Treatment with Some Soil Herbicides Under In Vitro Conditions|Acta Hortic.825:49-54|2009|10.17660/ActaHortic.2009.825.4
157193|T||Rankova,Z., K.S. Koumanov, K. Kolev, and S. Shilev|Herbigation in a Cherry Orchard - Efficiency of Pendimethalin|Acta Hortic.825:459-564|2009|10.17660/ActaHortic.2009.825.72
157194|T||Rankova,Z.|Ecologically Sound Approaches for Weed Control in the Production of Seedling Rootstocks for Apricot|Acta Hortic.862:439-446|2010|10.17660/ActaHortic.2010.862.68
157195|T||Gill,G.S., and D.G. Bowran|Tolerance of Wheat Cultivars to Metribuzin and Implications for the Control of Bromus diandrus and B. rigidus in Western Australia|Aust. J. Exp. Agric.30(3): 373-378|1990|10.1071/EA9900373
157196|T||Kathiresan,G., G. Manickam, and P. Gnanamoorthy|Effect of Time of Seeding and Method of Herbicide Application on Pre-Monsoon Sown Semi-Dry Rice (Oryza sativa)|Indian J. Agron.42(4): 618-621|1997|
157197|T||Bhadoria,R.B.S., D.V.S. Chauhan, and H.S. Bhadoria|Effect of Weed Control on Yield Attributes and Yield of Clusterbean (Cyamopsis tetragonoloba)|Indian J. Agron.41(4): 662-664|1996|
157198|T||Derawadan, M. Khan, A. Majeed, and S. Khan|Chemical Weed Control in Transplanted Onion (Allium cepa L.)|Sarhad J. Agric.9(6): 557-561|1993|
157199|T||Mehra,S.P., P.S. Sidhu, and H.S. Gill|Studies on Weed Control in Irrigated Groundnut|J. Res. Punjab Agric. Univ.24(1): 8-14|1987|
157200|T||Mohanty,S.K., S.K. Pani, M. Kar, and N. Baisakh|Effect of Herbicides on Increase in Productivity of Groundnut (Arachis hypogaea)|Indian J. Agric. Sci.67(7): 296-298|1997|
157201|T||Panda,S.C., A. Pattanaik, B.S. Rath, R.K. Tripathy, and B. Behera|Response of Wheat (Triticum aestivum) to Crop Geometry and Weed Management|Indian J. Agron.41(4): 553-557|1996|
157202|T||Ramana,B.S., H. Singh, K.S. Sandhu, and D. Singh|Effect of Herbicides for Weed Control in Seed Crop Methi (Trigonella corniculata L.)|J. Res. Punjab Agric. Univ.31(4): 407-411|1994|
157203|T||Pandey,J., R. Sharma, R.P. Singh, and S. Chander|Effect of Time and Method of Isoproturon Application on Weeds and Yield of Wheat (Triticum aestivum)|Indian J. Agron.41(4): 573-576|1996|
157204|T||Patil,B.M., R.N. Satao, and G.S. Lahariya|Integrated Weed Management in Cotton|PKV Res. J.21(2): 220-221|1997|
157205|T||Patel,I.S., M.V. Patel, H.D. Patel, and R.H. Patel|Weed Management in Blonde Psyllium (Plantago ovata) Under North Gujarat Condition|Indian J. Agron.41(3): 476-479|1996|
157206|T||Porwal,M.K., G.C. Nanawati, and G.S. Bhatnagar|Efficacy of Herbicidal Control of Weeds in Soybean (Glycine max)|Indian J. Agric. Sci.60(2): 132-136|1990|
157207|T||Ram,B., G.R. Chaudhary, and A.S. Jat|Nutrient Depletion by Weeds, Weed-Control Efficiency and Productivity of Pearlmillet (Pennisetum glaucum) as Influenced by Intercropping Systems and Integrated Weed Management|Indian J. Agric. Sci.74(10): 534-538|2004|
157208|T||Ram,M., H. Om, S. Kumar, and S.D. Dhiman|Chemical Weed Control in Direct-Seeded Rice (Oryza sativa) with or Without Sequential Application of 2,4-D (EE)|Indian J. Agron.49(2): 108-110|2004|
157209|T||Singh,R., U.K. Hazarika, and G.C. Munda|Weed Management in Groundnut (Arachis hypogaea) as Influenced by Seed Rate and Weed-Control Methods|Indian J. Agron.41(3): 438-441|1996|
157210|T||Singh,R.P., D. Mukherjee, R.K. Singh, and A.K. Sinha|Bioefficacy of Herbicides in Late-Sown Wheat (Triticum aestivum)|Indian J. Agron.48(3): 196-198|2003|
157211|T||Chhokar,R.S., R.S. Balyan, and S.S. Pahuja|Effect of Weed Interference and Weed Control Practices on Quality of Soybean (Glycine max L. Merrill)|Ann. Biol.11(2): 201-204|1995|
157212|T||Ramana,B.S., H. Singh, and K.S. Sandhu|Efficacy of Different Herbicides for Chemical Weed Control in Seed Crop of Indian Palak (Beta vulgaris var. benegalensis L.)|J. Res. Punjab Agric. Univ.31(3): 285-289|1994|
157213|T||Rao,M.V.B., K. Veeraiah, D. Subrahmanyam, and B.K. Murthy|Herbicide Induced Variation in Greengram (Vigna radiata L. Wilczek)|Int. J. Trop. Agric.11(3): 218-221|1993|
157214|T||Saimbhi,M.S., K.S. Sandhu, D. Singh, K.S. Kooner, and N.P.S. Dhillon|Chemical Weed Control Studies in Okra|J. Res. Punjab Agric. Univ.31(1): 38-41|1994|
157215|T||Sandhu,K.S., D. Singh, and S.P. Mehra|Weed Control in Linseed (Linum usitatissimum L.) Through Herbicides|J. Res. Punjab Agric. Univ.25(4): 521-528|1988|
157216|T||Shah,Q.A.Q., and Z. Hussain|Efficacy of Certain Weedicides on Weed Control in Tobacco Nursery and Field Crop|Sarhad J. Agric.4(3): 219-224|1988|
157217|T||Shekhawat,P.S., and P.L. Maliwal|Effect of Weed-Control Treatments on Nutrient Uptake by Weeds and Crop of Potato (Solanum tuberosum)|Indian J. Agron.37(1): 205-207|1992|
157218|T||Sidhu,P.S., S.C. Bhandari, S.P. Mehra, and H.S. Gill|Effect of Fluchloralin, Oxadiazon and Pendimethalin on Soil Microflora and Nodulation in Groundnut|J. Res. Punjab Agric. Univ.22(1): 33-38|1985|
157219|T||Singh,J., M.L. Chadha, and K.S. Sandhu|Evaluation of Different Herbicides for Weed Control in Kharif Onion|J. Res. Punjab Agric. Univ.28(2): 199-202|1991|
157220|T||Kumar,Y., S. Singh, and O.P. Gill|Integrated Weed Management in Irrigated Groundnut (Arachis hypogaea)|Indian J. Agron.48(2): 117-119|2003|
157221|T||Kumar,A., and D.S. Rana|Effect of Land Configuration and Weed Management on Weed Suppression, Nutrient Depletion by Weeds, Yield and Quality of Rainy-Season Groundnut (Arachis hypogaea)|Indian J. Agric. Sci.74(12): 680-682|2004|
157222|T||Singh,A.K., and M. Lal|Weed Management in Spring Planted Sugarcane (Saccharum spp Hybrid)-Based Intercropping Systems|Indian J. Agric. Sci.78(1): 35-39|2008|
157223|T||Sivakumar,C., and P. Subbian|Growth and Yield of Irrigated Cotton (Gossypium hirsutum) as Influenced by Different Chemical and Non-Chemical Weed-Management Practices|Indian J. Agron.47(1): 123-129|2002|
157224|T||Verma,S.K., and T. Singh|Effect of Weed-Control Measures and Fertility on Growth and Productivity of Rainy-Season Onion (Allium cepa)|Indian J. Agron.42(3): 540-543|1997|
157225|T||Ali,M.|Efficacy of Herbicides for Weed Control in Winter French Bean (Phaseolus vulgaris)|Indian J. Agric. Sci.58(6): 440-443|1988|
157226|T||Mehra,S.P., R.S. Kanwar, and L.S. Brar|Chemical Control of Weeds in Autumn Planted Sugarcane + Wheat Intercropping System|J. Res. Punjab Agric. Univ.30(1/2): 1-7|1993|
157227|T||Blair,A.M., P.A. Jones, R.H. Ingle, N.D. Tillett, and T. Hague|The Integration of Herbicides with Mechanical Weeding for Weed Control in Winter Wheat|J. Agric. Sci.139(4): 385-395|2002|10.1017/S0021859602002617
157228|T||Prostko,E.P., T.L. Grey, and J.W. Davis|Texas Panicum (Panicum texanum) Control in Irrigated Field Corn (Zea mays) with Foramsulfuron, Glyphosate, Nicosulfuron, and Pendimethalin|Weed Technol.20(4): 961-964|2006|10.1614/WT-05-145.1
157229|T||Tsiropoulos,N.G., and G.E. Miliadis|Field Persistence Studies on Pendimethalin Residues in Onions and Soil After Herbicide Postemergence Application in Onion Cultivation|J. Agric. Food Chem.46(1): 291-295|1998|10.1021/jf970712h
157230|T||Lloyd,K.L., J.M. Johnson, A.E. Gover, and J.C. Sellmer|Preemergence and Postemergence Suppression of Kochia on Rights-of-Way|Weed Technol.25(2): 292-297|2011|10.1614/WT-D-10-00117.1
157231|T||Wallace,R.W., and J.C. Hodges|Weed Control Potential and Crop Safety of Selected Herbicides in Field-Grown Cannas|HortTechnology17(1): 102-106|2007|10.21273/HORTTECH.17.1.102
157232|T||Grey,T.L., T.M. Webster, and A.S. Culpepper|Weed Control as Affected by Pendimethalin Timing and Application Method in Conservation Tillage Cotton (Gossypium hirsutum L.)|J. Cotton Sci.12(3): 318-324|2008|
157233|T||Hassan,G., S. Tanveer, N.U. Khan, and M. Munir|Integrating Cultivars with Reduced Herbicide Rates for Weed Management in Maize |Pak. J. Bot.42(3): 1923-1929|2010|
157234|T||Gediya,K.M., D.D. Malavia, and J.C. Patel|Studies on Cultural and Chemical Weed Control in Chickpea (Cicer arietinum L.)|Indian J. Agron.34(4): 511-513|1989|
157235|T||Kathmale,D.K., R.C. Patil, and B.B. Mulik|Integrated Weed Management in Kharif Groundnut|J. Maharashtra Agric. Univ.22(1): 75-76|1997|
157236|T||Hussain,M.I., L. Gonzalez-Rodriguez, and M.J. Reigosa|Germination and Growth Response of Four Plant Species to Different Allelochemicals and Herbicides|Allelopathy J.22(1): 101-110|2008|
157237|T||Barakat,H.M., and H.Z. Hassan|Mutagenic Effects of Pendimethalin Herbicide on Vicia faba and Allium cepa Plants|Egypt. J. Bot.37(1): 13-29|1997|
157238|T||Kasera,P.K., and D.N. Sen|Effect of Some Post-Emergence Herbicides on Sugar Content of Weeds in Indian Arid Agro-Ecosystem|Indian Bot. Rep.6(1): 29-31|1987|
157239|T||Khokhar,K.M., T. Mahmood, and S.I. Hussain|Weed Management in Onion Using Chemical, Non-Chemical, and Manual Methods|J. Hortic. Sci. Biotechnol.85(6): 473-476|2010|10.1080/14620316.2010.11512700
157240|T||Behera,A.K., and S.N. Jena|Weed Control in Direct-Seeded, Rainfed Upland Rice (Oryza sativa)|Indian J. Agron.43(2): 284-290|1998|
157241|T||Knott,C.M., and K.R. Eke|Imazethapyr/Pendimethalin:  A New Herbicide Mixture for Weed Control in Legumes|Br. Crop Prot. Conf. Weeds7:829-834|1989|
157242|T||Kumar,K., and J.S. Kolar|Effect of Chemical Weed Control and Rhizobium Inoculation on the Yield of Lentil|J. Res. Punjab Agric. Univ.26(1): 19-24|1989|
157243|T||Baldwin,F.L., D.R. Gealy, C.B.,Jr. Guy, and R.E. Talbert|A Team Approach to Improved Weed Management in Rice|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.453:46-48|1996|
157244|T||Madhiyazhagan,R., P.K. Rangiah, and K.S. Subramanian|Utilization of Nutrients by Pigeonpea (Cajanus cajan L.) Under Different Weed Management Systems|Acta Agron. Hung.42(1/2): 95-98|1993|
157245|T||Das,T.K., P.K. Sakhuja, and H. Zelleke|Herbicide Efficacy and Non-Target Toxicity in Highland Rainfed Maize of Eastern Ethiopia|Int. J. Pest Manag.56(4): 315-325|2010|10.1080/09670874.2010.497872
157246|T||Kazinczi,G., A. Onofri, J. Horvath, and M. Torma|The Effect of Some Herbicides on Host-Virus Relations |Cereal Res. Commun.36:1155-1158|2008|
157247|T||Nadasy,E., M. Nadasy, and V. Nagy|Effect of Soil Herbicides on Development of Sunflower Hybrids|Cereal Res. Commun.36:847-850|2008|
157248|T||Kumar,R., and O.L. Sharma|Integrated Weed Management in Sunflower (Helianthus annuus L.)|Crop Res. (Hisar)11(3): 381-382|1996|
157249|T||Kumar,R., O.L. Sharma, H. Singh, and S.P. Singh|Weed Control in Sunflower (Helianthus annuus L.)|Ann. Biol.12(2): 264-269|1996|
157250|T||Kumar,R., O.L. Sharma, O.P. Dhaka, and T. Ram|Effect of Weed Control Treatments on Quality of Sunflower (Helianthus annuus L.)|Ann. Biol.12(2): 270-271|1996|
157251|T||Mahadevaswamy,M., and H.V. Nanjappa|Effect of Herbicides on Weed Control in Drill-Sown Rice (Oryza sativa)|Indian J. Agron.36:247-249|1991|
157252|T||Miller,D.K., R.G. Downer, and D.O. Stephenson IV|Impact of Mixing an Aqueous Capsule Suspension Formulation of Pendimethalin and Glyphosate on Growth and Yield of Second-Generation Glyphosate-Resistant Cotton|J. Cotton Sci.14(3): 181-185|2010|
157253|T||Muniyappa,T.V., N.P. Dev, and A. Gowda|Economics of Integrated Weed Control in Hybrid Tomato (Lycopersicon esculentum)|Indian J. Agron.40(2): 339-341|1995|
157254|T||Nandal,T.R., A.K. Singh, and P.S. Arya|Chemical Weed Control in Onion (Allium cepa L.)|Crop Res. (Hisar)8(3): 532-536|1994|
157255|T||Pahwa,S.K., J. Prakash, and H.R. Sharma|Effect of Herbicides on the Growth, Nodulation and Symbiotic Nitrogen Fixation in Pigeon Pea (Cajanus cajan (L.) Millsp.)|Crop Res. (Hisar)1(2): 131-140|1988|
157256|T||Poonguzhalan,R., H.V. Nanjappa, and B.K. Ramachandrappa|Increasing Fertilizer Use Efficiency Through Effective Weed Control in Sunflower (Helianthus annuus L.)|Crop Res. (Hisar)9(2): 181-187|1995|
157257|T||Kulmi,G.S.|Effect of Herbicides on Weed Flora, Growth and Yield of Isabgol (Plantago ovata)|Crop Res. (Hisar)16(1): 28-32|1998|
157258|T||Kumar,K., and J.S. Kolar|Relative Performance of Terbutryn, Methabenzthiazuron and Pendimethalin for Weed Control in Chickpea (Cicer arietinum L.)|J. Res. Punjab Agric. Univ.25(4): 534-538|1988|
157259|T||Kumar,R., S.K. Katyal, and R.S. Banga|Effect of Various Weed Management Practices on Weed Control in Field Pea (Pisum sativum L.)|Crop Res. (Hisar)7(1): 39-43|1994|
157260|T||Kumar,Y., M.S. Shaktawat, S. Singh, and O.P. Gill|Effect of Sowing Dates and Weed-Control Methods on Yield Attributes and Yield of Groundnut (Arachis hypogaea)|Indian J. Agron.48(1): 56-58|2003|
157261|T||Kundra,H.C., K. Singh, and L.S. Brar|Integrated Weed Management in Summer Moong (Vigna radiata (L.) Wilczk)|J. Res. Punjab Agric. Univ.26(4): 556-562|1989|
157262|T||Madhu,M., H.V. Nanjappa, and H.R. Shivakumar|Residual Effect of Herbicides on Succeeding Crops in Puddled Seeded Rice|Crop Res. (Hisar)12(3): 241-246|1996|
157263|T||Mahadevareddy,S., Y.C. Panchal, K.V. Janardhan, S. Manjunath, and R.V. Koti|Effects of Different Methods of Application of Suckericides on Sucker Growth, Leaf Yield and Quality in Bidi Tobacco|J. Maharashtra Agric. Univ.15(2): 201-204|1990|
157264|T||Mustafee,T.P.|Effective Methods for Chemical Weeding in Close Cropping System|Pesticides 24(1): 11-15|1990|
157265|T||Nagy,F., D. Foldesi, L. Banyai, I. Deak, and J. Demcsak|New Chemical Weed Control of Roman Camomile Stands|Herba Hung.30(1/2): 54-59|1991|
157266|T||Nandal,T.R., and M.L. Pandita|Effect of Herbicides on Nutrient Uptake by Weeds in Brinjal (Solanum melongena L.)|Crop Res. (Hisar)4(2): 225-229|1991|
157267|T||Nehru,S.D., S. Rangaiah, G. Ramarao, and G.C. Shekar|Effect of Some Herbicides on Seed Germination and Seedlings Vigour in Mungbean|Crop Res. (Hisar)17(3): 425-426|1999|
157268|T||Patel,B.B., and P.N. Upadhyay|Integrated Weed Management in Chicory (Chicorium intybus L.)|Indian J. Agron.34(4): 474-475|1989|
157269|T||Patel,M.P., V.B. Shelke, and D.K. Shelke|Response of Groundnut to Weed Management and Phosphate in Premonsoon Season|J. Maharashtra Agric. Univ.15(3): 313-316|1990|
157270|T||Patel,M.P., V.B. Shelke, and D.K. Shelke|Integrated Weed Management in Premonsoon Groundnut|PKV Res. J.16(2): 166-170|1992|
157271|T||Prakash,V., A.K. Pandey, R.D. Singh, and H.S. Gupta|Integrated Weed Management in Capsicum (Capsicum annuum) Under Mid-Hill Conditions of North-Western Himalayas|Indian J. Agron.48(2): 139-141|2003|
157272|T||Raj,V.C., and Z.G. Patel|Integrated Weed Management in Forage Lucerne (Medicago sativa)|Indian J. Agron.40(4): 686-688|1995|
157273|T||Reicher,Z.J., and N.E. Christians|Herbicide Effects on Kentucky Bluegrass Rooting|Hortscience24(6): 976-978|1989|10.21273/HORTSCI.24.6.976
157274|T||Saha,J., A. Chowdhury, and S. Chaudhuri|Stimulation of Heterotrophic Dinitrogen Fixation in Barley Root Association by the Herbicide Pendimethalin and Its Metabolic Transformation by Azotobacter spp|Soil Biol. Biochem.23(6): 569-573|1991|10.1016/0038-0717(91)90114-Y
157275|T||Sandhu,K.S., and T. Singh|Chemical Weed Control in Okra for Seed|J. Res. Punjab Agric. Univ.28(4): 469-471|1991|
157276|T||Shelke,D.K., and R.H. Bhosle|Integrated Weed Management in Upland Drilled Irrigated Rice in Jayakwadi Command Area|J. Maharashtra Agric. Univ.14(2): 204-205|1989|
157277|T||Shelke,D.K., and R.H. Bhosle|Integrated Weed Management in Sorghum-Pigeonpea Intercropping System|J. Maharashtra Agric. Univ.14(2): 166-168|1989|
157278|T||Shelke,D.K., and R.K. Bhosle|Emergence of Summer Groundnut as Influenced by Herbicides Applied to Kharif Cotton|J. Maharashtra Agric. Univ.15(2): 265-266|1990|
157279|T||Singh,V., S.S. Verma, and H. Singh|Nitrogen Use Economy Through Integrated Weed Control in Cotton|Indian J. Agron.32(3): 226-228|1987|
157280|T||Singh,A.N., S. Singh, and V.M. Bhan|Effect of Herbicide on Direct-Sown, Drilled Rice (Oryza sativa) and Associated Weeds|Indian J. Agron.41(2): 233-236|1996|
157281|T||Singh,R.P., and U.P. Singh|Effect of Weed-Management Practices on Yield and Economics of Crops Under Upland Rice (Oryza sativa)-Based Cropping System|Indian J. Agron.43(2): 213-218|1998|
157282|T||Singh,P.P., M.D. Vyas, and S. Singh|Efficacy of Anilofos to Control Weeds in Soybean (Glycine max (L.) Merrill)|Crop Res. (Hisar)17(1): 31-33|1999|
157284|T||Walia,U.S., K.P.S. Cheema, G.S. Brar, and R.S. Brar|Control of Trianthema portulacastrum L. and Other Weeds in Berseem|J. Res. Punjab Agric. Univ.28(3): 324-328|1991|
157285|T||Warade,S.D., S.B. Desale, and K.G. Shinde|Effects of Weedicides on Weed Intensity and Yield of Kharif Onion cv. Phule Safed|J. Maharashtra Agric. Univ.20(3): 462-463|1995|
157286|T||Yadav,A., A.S. Faroda, R.K. Malik, V. Kumar, and D. Bir|Persistence of Pendimethalin Applied in Wheat Under Varying Irrigation Levels|Crop Res. (Hisar)9(3): 399-402|1995|
157287|T||Rao,A.R., S.N. Sharma, and S. Mohammad|Nutrient Uptake and Dry Matter Production Patterns of Rajmash (Phaseolus vulgaris L.) and the Associated Weeds in Response to Planting Densities and Herbicides|Crop Res. (Hisar)10(2): 113-121|1995|
157288|T||Rao,A.R., S.N. Sharma, and S. Mohammad|Impact of Varying Plant Population and Herbicide Use on Weeds, Crop Yield and Profitability of Rajmash|Crop Res. (Hisar)13(2): 293-300|1997|
157289|T||Shekhawat,P.S., and P.L. Maliwal|Evaluation of Herbicides for Weed Control in Potato (Solanum tuberosum)|Indian J. Agric. Sci.59(11): 739-741|1989|
157290|T||Singh,T., and L.S. Brar|Efficacy of Different Herbicides for Weed Control in American Cotton|J. Res. Punjab Agric. Univ.27(4): 562-566|1990|
157291|T||Singh,T., B.D. Sharma, M. Ram, and R.S. Panwar|Effect of Chemical Weed Control on Nutrient Uptake by Toria (Brassica campestris var. toria) and Associated Weeds|Ann. Biol.12(2): 274-277|1996|
157292|T||Aulakh,J.S., A.J. Price, and K.S. Balkcom|Weed Management and Cotton Yield Under Two Row Spacings in Conventional and Conservation Tillage Systems Utilizing Conventional, Glufosinate-, and Glyphosate-Based Weed Management Systems|Weed Technol.25(4): 542-547|2011|10.1614/WT-D-10-00124.1
157293|T||Lolas,P.C.|Herbicides for Control of Broomrape (Orobanche ramosa L.) in Tobacco (Nicotiana tabacum L.)|Weed Res. (Multiple Languages)34(3): 205-209|1994|10.1111/j.1365-3180.1994.tb01988.x
157294|T||Trivedi,K.K., J.P. Tiwari, and C.R. Bisen|Integrated Weed Control in Upland Drilled Rice|Pesticides 20(11): 29-33|1986|
157295|T||Sharma,K.K., and D.J. Rajkhowa|Performance of Herbicides for Weed Control in Blackgram|Pesticides 22(6): 39-|1988|
157296|T||Singh,S., S.K. Rastogi, and S.K. Katyal|Relative Efficacy of Different Weedicides in Controlling the Weeds of Transplanted Paddy|Pesticides 20(11): 34-35|1986|
157297|T||Halwankar,G.B., V.M. Raut, and V.P. Patil|Chemical Weed Control in Soybean (Glycine max L.)|Pesticides 20(11): 49-51|1986|
157298|T||Sarmah,S.C., M. Borgohain, and A.K. Pathak|A Note on Herbicidal Control of Weeds in Summer Soybean|Pesticides 20(11): 56,59|1986|
157299|T||Rafey,A., and K. Prasad|Influence of Weed-Management Practices in Pigeonpea (Cajanus cajan) Intercropped with Upland Rice (Oryza sativa)|Indian J. Agric. Sci.65(4): 281-282|1995|
157300|T||Amrutkar,S.D., B.M. Patil, A.P. Karunakar, H.N. Sethi, and D.J. Jiotode|Efficacy of Herbicides for Control of Weeds and Their Effects on Yield of Onion (Allium cepa L.)|Crop Res. (Hisar)16(3): 372-374|1998|
157301|T||Bhadoria,R.B.S., and D.V.S. Chauhan|Efficacy of Herbicides in the Control of Weeds Infesting Indian Mustard (Brassica juncea)|Indian J. Agron.40(2): 327-329|1995|
157302|T||Bond,W., and P.J. Burch|The Response of Brassicas and Other Vegetables to Foliar-Applied Pendimethalin|Tests Agrochem. Cultiv.10:78-79|1989|
157303|T||Brar,H.S., R. Singh, and H.C. Kundra|Control of Annual Blue Grass (Poa annua) and Other Weeds in Fodder Oats|J. Res. Punjab Agric. Univ.28(4): 459-463|1991|
157304|T||Gill,B.S., G.S. Randhawa, and S.S. Saini|Integrated Weed Management in Fenugreek (Trigonella foenum-graecum)|Indian J. Agron.47(2): 284-288|2002|
157305|T||Giri,A.N., and R.H. Bhosle|Weed Management in Sorghum (Sorghum bicolor)-Safflower (Carthamus tinctorius) Sequence|Indian J. Agron.42(2): 214-219|1997|
157306|T||Giri,A.N., R.H. Bhosle, and O.G. Lokhande|Performance of Cultural, Chemical and Integrated Weed-Control Methods in Sunflower (Helianthus annuus)|Indian J. Agron.43(1): 143-148|1998|
157307|T||Gowda,S.J.A., R. Devendra, T.G. Prasad, M.U. Kumar, and M.K.M. Gowda|Selectivity of a Herbicide Pendimethaline on Eleusine coracana and Cajanus cajan|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.60(6): 577-581|1994|
157308|T||Itnal,C.J., B.S. Lingaraju, C.B. Kurdikeri, and N. Naik|Weed Control in Irrigated Pigeonpea|J. Maharashtra Agric. Univ.18(2): 237-240|1993|
157309|T||Jadhav,N.S., D.K. Shelke, R.H. Bhosle, and V.D. Salunke|Residues of Fluchloralin and Pendimethalin in Cotton and Sunflower|J. Maharashtra Agric. Univ.19(2): 302-|1994|
157310|T||Johnson,B.J.|Influence of Herbicides on Bermudagrass Greens Overseeded with Perennial Ryegrass|J. Am. Soc. Hortic. Sci.113(5): 662-666|1988|10.21273/JASHS.113.5.662
157311|T||Khurana,S.C., K.K. Thakral, and A.K. Bhatia|Effect of Pendimethalin and Isoproturon on Weeds and Tuber Yield in Potato|J. Indian Potato Assoc.20(3/4): 255-257|1993|
157312|T||Van Himme,M., R. Bulcke, E. Bal, and F. Lieten|Weed Control in Strawberries in Relation to the Type of Plant Material and the Time of Planting|Meded. Fac. Landbouwwet. Univ. Gent57(3 part b): 1031-1046|1992|
157313|T||Chhokar,R.S., and R.K. Sharma|Multiple Herbicide Resistance in Littleseed Canarygrass (Phalaris minor): A Threat to Wheat Production in India|Weed Biol. Manag.8(2): 112-123|2008|10.1111/j.1445-6664.2008.00283.x
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157319|T||Singh,M., M. Malik, A.H.M. Ramirez, and A.J. Jhala|Tank Mix of Saflufenacil with Glyphosate and Pendimethalin for Broad-Spectrum Weed Control in Florida Citrus|HortTechnology21(5): 606-615|2011|10.21273/HORTTECH.21.5.606
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157358|A||Sharma,D.K., and B.A. Ansari|Effect of the Synthetic Pyrethroid Deltamethrin and the Neem-Based Pesticide Achook on the Reproductive Ability of Zebrafish, Danio rerio (Cyprinidae)|Arch. Pol. Fish. 18(3): 157-161|2010|10.2478/v10086-010-0017-9
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157362|A||Tu,H.T., F. Silvestre, B. De Meulder, J.P. Thome, N.T. Phuong, and P. Kestemont|Combined Effects of Deltamethrin, Temperature and Salinity on Oxidative Stress Biomarkers and Acetylcholinesterase Activity in the Black Tiger Shrimp (Penaeus monodon)|Chemosphere86(1): 83-91|2012|10.1016/j.chemosphere.2011.09.022
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157365|T||Aydin,B.|Effects of Thiacloprid, Deltamethrin and Their Combination on Oxidative Stress in Lymphoid Organs, Polymorphonuclear Leukocytes and Plasma of Rats|Pestic. Biochem. Physiol.100(2): 165-171|2011|10.1016/j.pestbp.2011.03.006
157366|A||Bakry,F.A., W.S. Hasheesh, and S.A.H. Hamdi|Biological, Biochemical, and Molecular Parameters of Helisoma duryi Snails Exposed to the Pesticides Malathion and Deltamethrin|Pestic. Biochem. Physiol.101(2): 86-92|2011|10.1016/j.pestbp.2011.08.004
157367|A||Senturk,M., S.B. Ceyhun, O. Erdogan, and O.I. Kufrevioglu|In Vitro and In Vivo Effects of Some Pesticides on Glucose-6-Phosphate Dehydrogenase Enzyme Activity from Rainbow Trout (Oncorhynchus mykiss) Erythrocytes|Pestic. Biochem. Physiol.95(2): 95-99|2009|10.1016/j.pestbp.2009.07.005
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157371|T||Saxena,P.N., R.C. Murthy, and S.K. Gupta|Evaluation of Cytogenetic Effects of Deltamethrin in Root Meristem Cells of Allium sativum and Allium cepa:  A Possible Mechanism of Chromosome Damage|Toxicol. Environ. Chem.91(3): 577-594|2009|10.1080/02772240802268965
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157385|T||Richardson,M.J.|An Assessment of the Need for Routine Use of Organomercurial Cereal Seed Treatment Fungicides|Field Crops Res.13(1): 3-24|1986|10.1016/0378-4290(86)90003-1
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157400|T||Grafton-Cardwell,E.E., G.M. Montez, C.A. Reagan, R.A. Dunn, and Y. Ouyang|Response of Citrus Peelminer Marmara gulosa Guillen and Davis (Lepidoptera: Gracillariidae) Stages to Various Insecticides|Pest Manag. Sci.64(11): 1143-1150|2008|10.1002/ps.1609
157401|T||Addy-Orduna,L.M., M.E. Zaccagnini, S.B. Canavelli, and P. Mineau|Formulated Beta-Cyfluthrin Shows Wide Divergence in Toxicity Among Bird Species|J. Toxicol.:10 p.|2011|
157402|A||Shin,E.H., N.J. Kim, H.K. Kim, C. Park, D.K. Lee, Y.J. Ahn, and K.S. Chang|Resistance of Field-Collected Populations of Culex pipiens pallens (Diptera: Culicidae) to Insecticides in the Republic of Korea|J. Asia Pac. Entomol.15(1): 1-4|2012|10.1016/j.aspen.2011.07.009
157403|T||Leon-Garcia,I., E. Rodriguez-Leyva, L.D. Ortega-Arenas, and J.F. Solis-Aguilar|Insecticide Susceptiblity of Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae) Associated with Turfgrass at Quintana Roo, Mexico|Agrociencia46(3): 279-287|2012|
157404|T||Kroschel,J., and O. Zegarra|Attract-and-Kill: a New Strategy for the Management of the Potato Tuber Moths Phthorimaea operculella (Zeller) and Symmetrischema tangolias (Gyen) in Potato: Laboratory Experiments Towards Optimising Pheromone and Insec|Pest Manag. Sci.66(5): 490-496|2010|10.1002/ps.1898
157405|T||Kaufman,P.E., C. Strong, and D.A. Rutz|Susceptibility of Lesser Mealworm (Coleoptera: Tenebrionidae) Adults and Larvae Exposed to Two Commercial Insecticides on Unpainted Plywood Panels|Pest Manag. Sci.64(2): 108-111|2008|10.1002/ps.1475
157406|T||Alyokhin,A., G. Dively, M. Patterson, M. Mahoney, D. Rogers, and J. Wollam|Susceptibility of Imidacloprid-Resistant Colorado Potato Beetles to Non-Neonicotinoid Insecticides in the Laboratory and Field Trials|Am. J. Potato Res.83(6): 485-494|2006|10.1007/BF02883509
157407|T||Tiwari,S., S.K. Ghosh, V.P. Ojha, A.P. Dash, and K. Raghavendra|Reduced Susceptibility to Selected Synthetic Pyrethroids in Urban Malaria Vector Anopheles stephensi:  A Case Study in Mangalore City, South India|Malar. J.9:5 p.|2010|10.1186/1475-2875-9-179
157408|T||Bayram,A., G. Salerno, A. Onofri, and E. Conti|Lethal and Sublethal Effects of Preimaginal Treatments with Two Pyrethroids on the Life History of the Egg Parasitoid Telenomus busseolae|Biocontrol55(6): 697-710|2010|10.1007/s10526-010-9288-8
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157467|T||Garcia,C.M.|Management of Powder-Post Beetles, Dinoderus minutus F. in Freshly Cut Bamboo|Ph.D.Thesis, Oregon State University, Corvallis, OR:127 p.|2005|
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157471|T||Jardine,C.M.|Rodent-Associated Bartonella in Saskatchewan, Canada|Ph.D. Thesis, University of Saskatchewan, Canada:126 p.|2006|
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157497|T||Lemos,A.J.J.M., V. Wanderley-Teixeira, A.A.C. Teixeira, F.D.C.A. Silva, J.V. Oliveira, and H.A.A. De Siqueira|Response of Blastocyst-Endometrium Interactions in Albino Rats to Sublethal Doses of Biological and Synthetic Insecticides|Food Chem. Toxicol.49(10): 2541-2547|2011|10.1016/j.fct.2011.06.063
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157499|T||Reithinger,R., L. Ceballos, R. Stariolo, C.R. Davies, and R.E. Gurtler|Extinction of Experimental Triatoma infestans Populations Following Continuous Exposure to Dogs Wearing Deltamethrin-Treated Collars|Am. J. Trop. Med. Hyg.74(5): 766-771|2006|10.4269/ajtmh.2006.74.766
157500|T||Oda,S.S., and Z.K. El-Maddawy|Protective Effect of Vitamin E and Selenium Combination on Deltamethrin-Induced Reproductive Toxicity in Male Rats|Exp. Toxicol. Pathol.64(7/8): 813-819|2012|10.1016/j.etp.2011.03.001
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157503|T||Schulze,T.L., R.A. Jordan, and A.J. Krivenko|Effects of Barrier Application of Granular Deltamethrin on Subadult Ixodes scapularis (Acari: Ixodidae) and Nontarget Forest Floor Arthropods|J. Econ. Entomol.98(3): 976-981|2005|10.1603/0022-0493-98.3.976
157504|T||Verghese,A., D.K. Nagaraju, P.D. Kamala Jayanthi, and H.S. Madhura|Association of Mango Stone Weevil, Sternochetus mangiferae (Fabricius) (Coleoptera: Curculionidae) with Fruit Drop in Mango|Crop Prot.24(5): 479-481|2005|10.1016/j.cropro.2004.07.010
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157509|T||May,W.E., J.J. Soroka, H.A. Loeppky, and D.C. Murrell|The Effects of Trichlorfon and Deltamethrin on Alfalfa Plant Bug and Lygus Bug (Heteroptera: Miridae) Populations in Alfalfa Grown in Canada|Crop Prot.22(6): 883-889|2003|10.1016/S0261-2194(03)00084-X
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157581|T||Singh,N.|Chemical Ecology, Population Dynamics and Insecticide Susceptibility of Lesser Mealworm Alphitobius diaperinus (Panzer) (Coleoptera: Tenebrionidae)|Ph.D. Thesis,  University of Arkansas, AR:175 p.|2011|
157582|T||Campos-Figueroa,M.|Attract-and-Kill Methods for Control of Indianmeal Moth, Plodia interpunctella (Hubner)  (Lepidoptera:  Pyralidae), and Comparisons with Other Pheromone-Based Control Methods|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:128 p.|2009|
157583|T||Zeledon,J.J.|Occurrence, Host Plant Relationships and Management of Sorghum Midge, Stenodiplosis sorghicola (Coq.) (Diptera: Cecidomyiidae), on Sorghum in Nicaragua|M.S. Thesis, Mississippi State University, Starkville, MS:67 p.|2000|
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157586|T||McCullough,P.E., and P.L. Raymer|Sodium Chloride Efficacy for Smooth Crabgrass (Digitaria ischaemum) Control and Safety to Common Bermudagrass and Seashore Paspalum|Weed Technol.25:688-693|2011|10.1614/WT-D-11-00039.1
157587|A||Yilmaz,D.D., and K.U. Parlak|Nickel-Induced Changes in Lipid Peroxidation, Antioxidative Enzymes, and Metal Accumulation in Lemna gibba|Int. J. Phytoremediat.13(8): 805-817|2011|10.1080/15226514.2010.525563
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157590|T||Markiewicz-Gorka,I., M. Zawadzki, L. Januszewska, K. Hombek-Urban, and K. Pawlas|Influence of Selenium and/or Magnesium on Alleviation Alcohol Induced Oxidative Stress in Rats, Normalization Function of Liver and Changes in Serum Lipid Parameters|Hum. Exp. Toxicol.30(11): 1811-1827|2011|10.1177/0960327111401049
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157593|T||Enginar,N., A. Nurten, Y. Karamursel, A. Zengin, and E. Baran|Scopolamine-Induced Convulsions in Fasted Mice After Food Intake: Evaluation of the Sedative Effect in the Suppression of Convulsions|Epilepsy Res.89(1, Spec. Iss.): 2-6|2010|10.1016/j.eplepsyres.2009.10.011
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157596|T||Martin,S.H.|Investigations on Insecticide Resistance in Tobacco Budworm, Heliothis virescens (F.), and Boll Weevil, Anthonomus grandis grandis Boheman, in the Mid-South|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:174 p.|1994|
157597|T||Church,C.J.|Neurotoxins as Probes of Pyrethroid-Induced Nerve Insensitivity Resistance in Tobacco Budworm, Heliothis virescens (F.), Moths|Ph.D. Thesis, University of Missouri, Columbia, MO:167 p.|1992|
157598|T||Zhang,Y., X. Li, Z. Shen, X. Xu, P. Zhang, P. Wang, and Z. Zhou|Stereoselective Metabolism of Fenoxaprop-Ethyl and Its Chiral Metabolite Fenoxaprop in Rabbits|Chirality23(10): 897-903|2011|10.1002/chir.21009
157599|T||Bayram,A., G. Salerno, A. Onofri, and E. Conti|Sub-Lethal Effects of Two Pyrethroids on Biological Parameters and Behavioral Responses to Host Cues in the Egg Parasitoid Telenomus busseolae|Biol. Control53(2): 153-160|2010|10.1016/j.biocontrol.2009.09.012
157601|T||Nabati,D.A., R.E. Schmidt, E.S. Khaleghi, and D.J. Parrish|Assessment of Drought Stress on Physiology Growth of Agrostis palustris Huds. as Affected by Plant Bioregulators and Nutrients|Asian J. Plant Sci.7(8): 717-723|2008|10.3923/ajps.2008.717.723
157603|A||Moser,C.C.|Experimental Evolution of Chlamydomonas reinhardtii Under Salt Stress|M.S.Thesis, McGill University, Montreal, Canada:101 p.|2010|
157604|A||Collins,S.|Toxicity of Deicing Salt Components to Early Amphibian Life Stages|M.S. Thesis, Saint Mary's University, Canada:109 p.|2010|
157605|T||Ibrahim Aibo,D.|Effects of Ozone on Acetaminophen-Induced Liver and Airway Toxicity in Mice|Ph.D. Thesis, Michigan State University, East Lansing, MI:238 p.|2009|
157606|T||Hillis,D.G.|Effects of Selected Pharmaceuticals on Arbuscular Mycorrhizal Fungi|Ph.D. Thesis, University of Guelph, Ontario, Canada:254 p.|2008|
157607|A||Malec,P., M.G. Maleva, M.N.V. Prasad, and K. Strzalka|Responses of Lemna trisulca L. (Duckweed) Exposed to Low Doses of Cadmium:  Thiols, Metal Binding Complexes, and Photosynthetic Pigments as Sensitive Biomarkers of Ecotoxicity|Protoplasma (Multiple Languages)240(1-4): 69-74|2010|10.1007/s00709-009-0091-2
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157609|T||Nagy,G., A. Szarka, G. Lotz, J. Doczi, L. Wunderlich, A. Kiss, K. Jemnitz, Z. Veres, G. Banhegyi, Z. Schaff, B. Sumegi,|BGP-15 Inhibits Caspase-Independent Programmed Cell Death in Acetaminophen-Induced Liver Injury|Toxicol. Appl. Pharmacol.243(1): 96-103|2010|10.1016/j.taap.2009.11.017
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157612|T||Park,H.R., M.S. Kim, S.J. Kim, M. Park, K.H. Kong, H.S. Kim, S.J. Kwack, T.S. Kang, S.H. Kim, H.S. Kim, and J. Lee|Acrylamide Induces Cell Death in Neural Progenitor Cells and Impairs Hippocampal Neurogenesis|Toxicol. Lett.193(1): 86-93|2010|10.1016/j.toxlet.2009.12.015
157613|T||Liu,Y.J., Q. Gao, C.X. Wu, and Z.Z. Guan|Alterations of nAChRs and ERK1/2 in the Brains of Rats with Chronic Fluorosis and Their Connections with the Decreased Capacity of Learning and Memory|Toxicol. Lett.192(3): 324-329|2010|10.1016/j.toxlet.2009.11.002
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157616|T||Paul,K.B., J.M. Hedge, M.J. DeVito, and K.M. Crofton|Short-Term Exposure to Triclosan Decreases Thyroxine In Vivo via Upregulation of Hepatic Catabolism in Young Long-Evans Rats|Toxicol. Sci.113(2): 367-379|2010|10.1093/toxsci/kfp271
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157618|T||Hanafi,A.|Spread and Control of Potato Leafroll Virus in Potato: Implications for Management of Seed Potatoes in the Souss Valley, Morocco|Ph.D. Thesis, University of Minnesota, MN:72 p.|1992|
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157625|T||Martin,S.H., J.B. Graves, B.R. Leonard, E. Burris, S. Micinski, J.D. Powell, and J. Roberson|Susceptibility Status of Boll Weevils from Louisiana to Eleven Insecticides|Southwest. Entomol.21(1): 59-74|1996|
157626|T||Martin,S.H., G.W. Elzen, J.B. Graves, S. Micinski, B.R. Leonard, and E. Burris|Toxicological Responses of Tobacco Budworms from Louisiana, Mississippi and Texas to Selected Insecticides|Proc. Beltwide Cotton Conf.:735-738|1992|
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157631|T||Witmer,G.W., and M.J. Pipas|Porcupine Damage and Repellent Research in the Interior Pacific Northwest|Proc. Vertebr. Pest Conf.23:203-207|1998|
157633|T||Tarrant,K.A., H.M. Thompson, and A.R. Hardy|Biochemical and Histological Effects of the Aphicide Demeton-S-Methyl on House Sparrows (Passer domesticus ) Under Field Conditions|Bull. Environ. Contam. Toxicol.48(3): 360-366|1992|10.1007/BF00195633
157634|T||Chaskopoulou,A., M.D. Latham, R.M. Pereira, R. Connelly, J.A.S. Bonds, and P.G. Koehler|Efficacy of Aerial Ultra-Low Volume Applications of Two Novel Water-Based Formulations of Unsynergized Pyrethroids Against Riceland Mosquitoes in Greece|J. Am. Mosq. Control Assoc.27(4): 414-422|2011|10.2987/11-6177.1
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157641|A||Lopez-Doval,J.C., J.V.K. Kukkonen, P. Rodrigo, and I. Munoz|Effects of Indomethacin and Propranolol on Chironomus riparius and Physella (Costatella) acuta|Ecotoxicol. Environ. Saf.78:110-115|2012|10.1016/j.ecoenv.2011.11.004
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157670|T||Lough,D.S., S. Kahl, M.B. Solomon, and T.S. Rumsey|The Effect of Trenbolone Acetate on Performance, Plasma Lipids, and Carcass Characteristics of Growing Ram and Ewe Lambs|J. Anim. Sci.71(10): 2659-2665|1993|10.2527/1993.71102659x
157671|T||Ampuero,E., F.J. Rubio, R. Falcon, M. Sandoval, G. Diaz-Veliz, R.E. Gonzalez, N. Earle, A. Dagnino-Subiabre, F. Aboitiz|Chronic Fluoxetine Treatment Induces Structural Plasticity and Selective Changes in Glutamate Receptor Subunits in the Rat Cerebral Cortex|Neuroscience169(1): 98-108|2010|10.1016/j.neuroscience.2010.04.035
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157675|A||U.S. Bureau of Commercial Fisheries|Bio-Assay Screening Test - Toxaphene|Bureau of Commercial Fisheries Biological Laboratory, Gulf Breeze, FL:1 p.|1965|
157676|A||Gonzalez-Rey,M., and M.J. Bebianno|Does Non-Steroidal Anti-Inflammatory (NSAID) Ibuprofen Induce Antioxidant Stress and Endocrine Disruption in Mussel Mytilus galloprovincialis?|Environ. Toxicol. Pharmacol.33(2): 361-371|2012|10.1016/j.etap.2011.12.017
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157678|T||Villalba,C.|Neurochemical Control of Social Behavior in Male and Female Prairie Voles (Microtus ochrogaster)|Ph.D. Thesis, University of Massachusetts Amherst, MA:120 p.|2000|
157679|A||Gillis,P.L.|Assessing the Toxicity of Sodium Chloride to the Glochidia of Freshwater  Mussels:  Implications for Salinization of Surface Waters|Environ. Pollut.159(6): 1702-1708|2011|10.1016/j.envpol.2011.02.032
157681|A||Zhang,W., M. Zhang, K. Lin, W. Sun, B. Xiong, M. Guo, X. Cui, and R. Fu|Eco-Toxicological Effect of Carbamazepine on Scenedesmus obliquus and Chlorella pyrenoidosa|Environ. Toxicol. Pharmacol.33(2): 344-352|2012|10.1016/j.etap.2011.12.024
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157683|A||Williams,L.|Cerebellar Noradrenergic Inhibition and the Vestibulo-Ocular Reflex in Goldfish (Carassius auratus)|Ph.D. Thesis, Temple University, PA:182 p.|2001|
157684|T||Chiavegatto,S., M.M. Bernardi, and H. De-Souza-Spinosa|Effects of Prenatal Diphenhydramine Administration on Sexual Behavior in Rats|Braz. J. Med. Biol. Res.22(6): 729-732|1989|
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157686|A||Guiney,P.D.|Mechanistic Investigations of the Developmental Cardiovascular Toxicity of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin in Salmonid Embryos|Ph.D. Thesis, University of Wisconsin - Milwaukee, WI:275 p.|1997|
157687|A||Moffatt,L.T.|The Development and Characterization of Fish Gene Expression Bioassays for Detecting Aquatic Endocrine Disruptors and Other Emerging Contaminants|Ph.D.Thesis, University of Massachusetts, Amherst, MA:267 p.|2008|
157688|T||Barre,N., A.Y. Li, R.J. Miller, H. Gaia, J.M. Delathiere, R.B. Davey, and J.E. George|In Vitro and In Vivo Evaluation of Deltamethrin and Amitraz Mixtures for the Control of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) in New Caledonia|Vet. Parasitol.155(1/2): 110-119|2008|10.1016/j.vetpar.2008.04.016
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157691|T||Chaskopoulou,A.|Testing Vapor Toxicity of Formate, Acetate, and Heterobicyclic Compounds to Aedes aegypti and Musca domestica|M.S.Thesis, University of Florida, Gainesville, FL:100 p.|2007|
157692|T||McDougald,L.R., R.G. White, and M.F. Hansen|Efficacy of Naphthalophos and Coumaphos Against Nematodes of Goats|Am. J. Vet. Res.29(5): 1077-1079|1968|
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157696|T||Callahan,L.M.|Crabgrass and Goosegrass Control in a Bentgrass Green in the Transition Zone|Agron. J.78(4): 625-628|1986|10.2134/agronj1986.00021962007800040013x
157697|T||Misra,S.S., and M.D. Awasthi|Residues of Systemic Insecticides in Potatoes|Pesticides 14(8): 12-16|1980|
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157704|T||Savithri,Y., P.R. Sekhar, K.U. Rani, and P.J. Doss|Impact of Chlorpyrifos on Transaminases, Total Proteins and Free Amino Acids in Muscle and Heart Tissues of Albino Rats|J. Exp. Zool. India13(2): 463-467|2010|
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157706|T||Kavani,H.J., A.M. Thaker, S.K. Bhavsar, J.A. Muchhara, N.D. Bhadja, and B.B. Bhanderi|Evaluation of Subacute Immunotoxicity of Imidacloprid with the Ameliorating Potential of Aqueous Extract of Asparagus racemosus on BALB/c Mice|Indian J. Environ. Toxicol.18(2): 56-60|2008|
157707|T||Brahmankar,M.G., S.B. Wagh, D.B. Kale, and M.V. Joshi|Lead Toxicity in Broiler Chicks with Special Reference to Feed Consumption Body and Various Organs Weight|Indian J. Environ. Toxicol.18(2): 65-68|2008|
157709|T||El-Shahawi,F.I.|In Vivo Toxicological Studies of the Effect of Pyrethroid Insecticide Permethrin on Female Wistar Rats|Alex. J. Pharm. Sci.10(1): 71-76|1996|
157710|A||Weston,A., D. Caminada, H. Galicia, and K. Fent|Effects of Lipid-Lowering Pharmaceuticals Bezafibrate and Clofibric Acid on Lipid Metabolism in Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.28(12): 2648-2655|2009|10.1897/09-087.1
157711|A||Rodriguez,E., C. Santos, E. Lucas, and M.J. Pereira|Evaluation of Chromium (VI) Toxicity to Chlorella vulgaris Beijerinck Cultures|Fresenius Environ. Bull.20(2): 334-339|2011|
157713|T||Langley,W.M., H. Lipps, and P. Theis|Aversiveness of Denatonium Saccharide and Quinine in Grasshopper Mice Onychomys leucogaster|Percept. Mot. Skills68(2): 551-557|1989|10.2466/pms.1989.68.2.551
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157728|T||Calderone,N.W.|Evaluation of Mite-Away-II for Fall Control of Varroa destructor (Acari: Varroidae) in Colonies of the Honey Bee Apis mellifera (Hymenoptera: Apidae) in the Northeastern USA|Exp. Appl. Acarol.50(2): 123-132|2010|10.1007/s10493-009-9288-5
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157732|T||Patel,I.S., and D.N. Yadav|Susceptibility of Amrasca biguttula biguttula and Chrysopa scelestes in Cotton (Gossypium species) to Three Systemic Insecticides|Indian J. Agric. Sci.65(4): 308-309|1995|
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157734|A||Nunes,B., F. Carvalho, and L. Guilhermino|Effects of Widely Used Pharmaceuticals and a Detergent on Oxidative Stress Biomarkers of the Crustacean Artemia parthenogenetica|Chemosphere62:581-594|2006|10.1016/j.chemosphere.2005.06.013
157735|T||Ferguson,S.A., C.D.,Jr. Law, and J.S. Abshire|Developmental Treatment with Bisphenol A or Ethinyl Estradiol Causes Few Alterations on Early Preweaning Measures|Toxicol. Sci.124(1): 149-160|2011|10.1093/toxsci/kfr201
157736|T||Karlsson,S.|Histopathology and Histomorphometry of the Urogenital Tract in 15-Month Old Male and Female Rats Treated Neonatally with SERMs and Estrogens|Exp. Toxicol. Pathol.58(1): 1-12|2006|10.1016/j.etp.2006.03.011
157737|T||Leuenberger,N., S. Pradervand, and W. Wahli|Sumoylated PPARalpha Mediates Sex-Specific Gene Repression and Protects the Liver from Estrogen-Induced Toxicity in Mice|J. Clin. Invest.119(10): 3138-3148|2009|10.1172/JCI39019
157738|T||Shuai,Y., J. Guo, Y. Dong, W. Zhong, P. Xiao, T. Zhou, L. Zhang, and S. Peng|Global Gene Expression Profiles of MT Knockout and Wild-Type Mice in the Condition of Doxorubicin-Induced Cardiomyopathy|Toxicol. Lett.200(1/2): 77-87|2011|10.1016/j.toxlet.2010.10.017
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157740|A||Saravanan,M., S. Karthika, A. Malarvizhi, and M. Ramesh|Ecotoxicological Impacts of Clofibric Acid and Diclofenac in Common Carp (Cyprinus carpio) Fingerlings: Hematological, Biochemical, Ionoregulatory and Enzymological Responses|J. Hazard. Mater.195:188-194|2011|10.1016/j.jhazmat.2011.08.029
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157743|T||Jori,A., A. Bianchetti, and P.E. Prestini|Effect of Contraceptive Agents on Drug Metabolism|Eur. J. Pharmacol.7(2): 196-200|1969|10.1016/0014-2999(69)90010-7
157744|A||Van der Ven,K., D. Keil, L.N. Moens, K. Van Leemput, P. Van Remortel, and W.M. De Coen|Neuropharmaceuticals in the Environment: Mianserin-Induced Neuroendocrine Disruption in Zebrafish (Danio rerio) Using cDNA Microarrays|Environ. Toxicol. Chem.25(10): 2645-2652|2006|10.1897/05-495R.1
157745|T||Takahashi,A., K. Onodera, T. Saito, M. Sugawara, H. Shinoda, and H. Mayanagi|Effects of Antiepileptics Phenytoin, Zonisamide and Valproate on Bone Metabolism in Growing Rats|Int. Congr. Ser.1284:87-88|2005|10.1016/j.ics.2005.06.102
157747|T||Field,K.L., G.K. Beauchamp, B.A. Kimball, J.A. Mennella, and A.A. Bachmanov|Bitter Avoidance in Guinea Pigs (Cavia porcellus) and Mice (Mus musculus and Peromyscus leucopus)|J. Comp. Psychol.124(4): 455-459|2010|10.1037/a0020792
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157749|A||Robison,A.L.|Influence of Predation-Based Chemical Cues on Contaminant Sensitivity in Fathead Minnows (Pimephales promelas) and Daphnia pulex|M.S Thesis, Oklahoma State University, OK:52 p.|2011|
157750|AT||Lambert,M.R.K., I.F. Grant, C.L. Smith, C.C.D. Tingle, and R.J. Douthwaite|Effects of Deltamethrin Ground-Spraying on Non-Target Wildlife|Technical Report No.1. Natural Resources Institute, Chatham, UK:80 p.|1991|
157751|T||Tamura,K., Y. Yatabe, H. Sakamoto, M. Hosokawa, K. Kobayashi, K. Chiba, and H. Kogo|Effects of Carbamazepine on the First Ovulation in Gonadotropin-Primed Immature Female Rats|Br. J. Pharmacol.134(6): 1328-1334|2001|10.1038/sj.bjp.0704375
157752|T||Uphouse,L., J.G. Hensler, J. Sarkar, and B. Grossie|Fluoxetine Disrupts Food Intake and Estrous Cyclicity in Fischer Female Rats|Brain Res.1072(1): 79-90|2006|10.1016/j.brainres.2005.12.033
157753|T||Maswood,N., J. Sarkar, and L. Uphouse|Modest Effects of Repeated Fluoxetine on Estrous Cyclicity and Sexual Behavior in Sprague Dawley Female Rats|Brain Res.1245:52-60|2008|10.1016/j.brainres.2008.09.063
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157755|T||Rihani-Basharat,S., and D. Lewinson|PTHrP(107-111) Inhibits In Vivo Resorption that was Stimulated by PTHrP(1-34) when Applied Intermittently to Neonatal Mice|Calcif. Tissue Int.61(5): 426-428|1997|10.1007/s002239900359
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157757|T||Rodriguez,J.V., A.M. Torres, G. Lunazzi, and C. Tiribelli|Effect of Ethinylestradiol and Epomediol on Bile Flow and Biliary Lipid Composition in Rat|Biochem. Pharmacol.43(6): 1289-1293|1992|10.1016/0006-2952(92)90505-D
157759|A||Yilmaz,M., Y. Ersan, M. Karaman, H. Ozen, E. Koc, and H. Necefoglu|Toxic Effects of Cobalt Parahydroxybenzoate on Tissue Histopathology and Serum Proteins in Capoeta capoeta capoeta|Fresenius Environ. Bull.17(9a): 1322-1327|2008|
157760|A||Kolo,R.J., S.L. Lamai, and R.O. Ojutiku|Sub-Acute Toxicity of Karate to Clarias gariepinus (Burchell, 1822)|J. Aquat. Sci.25(1): 129-136|2010|
157762|T||Johnson,R.M., W. Mao, H.S. Pollock, G. Niu, M.A. Schuler, and M.R. Berenbaum|Ecologically Appropriate Xenobiotics Induce Cytochrome P450s in Apis mellifera|PLoS One7(2): 1-9|2012|
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157767|T||Currie,R.W., and P. Gatien|Timing Acaricide Treatments to Prevent Varroa destructor (Acari: Varroidae) from Causing Economic Damage to Honey Bee Colonies|Can. Entomol.138(2): 238-252|2006|10.4039/n05-024
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157775|T||Van De Kar,L.D., D.K. Raap, G. Battaglia, N.A. Muma, F. Garcia, and L.L. DonCarlos|Treatment of Cycling Female Rats with Fluoxetine Induces Desensitization of Hypothalamic 5-HT(1a) Receptors with No Change in 5-HT(2a) Receptors|Neuropharmacology43(1): 45-54|2002|10.1016/S0028-3908(02)00075-8
157777|T||Marsh,A.E., A.L. Mullins, and J. Lakritz|In Vitro Quantitative Analysis of 3H-Uracil Incorporation by Sarcocytis neurona to Determine Efficacy of Anti-Protozoal Agents|Vet. Parasitol.95(2-4): 241-249|2001|10.1016/S0304-4017(00)00403-9
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157830|T||Bonzini,S., P. Tremolada, I. Bernardinelli, M. Colombo, and M. Vighi|Predicting Pesticide Fate in the Hive (Part 1): Experimentally Determined Tau-Fluvalinate Residues in Bees, Honey and Wax|Apidologie42(3): 378-390|2011|10.1007/s13592-011-0011-2
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157832|T||Smodis Skerl,M.I., and A. Gregorc|Heat Shock Proteins and Cell Death In Situ Localisation in Hypopharyngeal Glands of Honeybee (Apis mellifera carnica) Workers After Imidacloprid or Coumaphos Treatment|Apidologie41(1): 73-86|2010|10.1051/apido/2009051
157833|T||Vongsombath,C., H.J. De Boer, and K. Palsson|Keeping Leeches at Bay: Field Evaluation of Plant-Derived Extracts Against Terrestrial Blood-Sucking Leeches (Haemadipsidae) in Lao PDR|Acta Trop.119(2/3): 178-182|2011|10.1016/j.actatropica.2011.05.014
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157877|A||Liu,B., W. Liu, X. Nie, C. Guan, Y. Yang, Z. Wang, and W. Liao|Growth Response and Toxic Effects of Three Antibiotics on Selenastrum capricornutum Evaluated by Photosynthetic Rate and Chlorophyll Biosynthesis|J. Environ. Sci.23(9): 1558-1563|2011|10.1016/S1001-0742(10)60608-0
157878|A||Paila,R.V., and P.R. Yallapragada|Bioaccumulation and Toxic Effects of Copper on Growth and Oxygen Consumption by the Postlarvae of Penaeus indicus|Chem. Ecol.26(3): 209-221|2010|10.1080/02757541003785809
157879|A||Kar,S., and A.K. Aditya|Impact of Heavy Metal and Pesticide on Total Protein Content in Intact and Regenerating Hydra|Environ. Ecol.28(3B): 2003-2007|2010|
157880|A||Parolini,M., A. Binelli, and A. Provini|Assessment of the Potential Cyto-Genotoxicity of the Nonsteroidal Anti-Inflammatory Drug (NSAID) Diclofenac on the Zebra Mussel (Dreissena polymorpha)|Water Air Soil Pollut.217(104): 589-601|2011|10.1007/s11270-010-0612-9
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157882|A||Affenzeller,M.J., A. Darehshouri, A. Andosch, C. Lutz, and U. Lutz-Meindl|Salt Stress-Induced Cell Death in the Unicellular Green Alga Micrasterias denticulata|J. Exp. Bot.60(3): 939-954|2009|10.1093/jxb/ern348
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157897|T||Fuchs,J., L. Piola, E.P. Gonzalez, M.L. Oneto, S. Basack, E. Kesten, and N. Casabe|Coelomocyte Biomarkers in the Earthworm Eisenia fetida Exposed to 2,4,6-Trinitrotoluene (TNT)|Environ. Monit. Assess.175(1-4): 127-137|2011|10.1007/s10661-010-1499-z
157898|T||Gong,P., X. Guan, M. Pirooznia, C. Liang, and E.J. Perkins|Gene Expression Analysis of CL-20-Induced Reversible Neurotoxicity Reveals GABA(A) Receptors as Potential Targets in the Earthworm Eisenia fetida|Environ. Sci. Technol.46(2): 1223-1232|2012|10.1021/es203642e
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157919|T||Castro-Escobar,A.|The Interaction of Acetolactate Synthase Inhibiting Herbicides with Graminicides and Insecticides|M.S. Thesis, Michigan State University, East Lansing, MI:79 p.|1995|
157920|T||Baerg,R.J.|Basis of Imazethapyr Selectivity in Cowpea (Vigna senensis), Interactions Between Insecticides and Cytochrome P450 Activities, and Cytochrome P450 Monooxyenase Metabolism of Imazethapyr|Ph.D.Thesis, University of Kentucky, Lexington, KY:135 p.|1994|
157921|T||Barillas-Argueta,J.R.|The Influence of Root-Knot Nematode (Meloidogyne incognita (Kofoid and White) Chitwood 1949) on Growth and Development of Kenaf (Hibiscus cannabinus L.) and Its Control|Ph.D. Thesis, Mississippi State University, Starkville, MS:155 p.|1993|
157922|T||Kwon,C.S.|Influence of Antidotes, MFO Inhibitors, Insecticides, and Corn Hybrids on ALS-Inhibiting Herbicide Activity|Ph.D. Thesis, Michigan State University, East Lansing, MI:183 p.|1993|
157923|T||Morton,C.A.|Selectivity and Efficacy of Sulfonylurea Herbicides and Wild-Proso Millet Competition in Field and Sweet Corn|Ph.D Thesis, University of Wisconsin, Madison, WI:173 p.|1993|
157925|T||White,R.D.|Mutagenic and Toxicologic Implications of Pyrrolizidine (Senecio) Alkaloids|Ph.D.Thesis, Oregon State University, Corvallis, OR:105 p.|1983|
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157930|A||Cui,W.W.|From Behavior to Circuitry: The Role of Glycine Regulation in CNS Motor Output|Ph.D.Thesis, University of Michigan, Ann Arbor, MI:190 p.|2006|
157931|T||Melo,M.D.F.F., G. Thomas, and R. Mukherjee|Antidiarrhoeal Activity of Bisnordihydrotoxiferine Isolated from the Root Bark of Strychnos trinervis (Vell.) Mart. (Loganiaceae)|J. Pharm. Pharmacol.40(1): 79-82|1988|10.1111/j.2042-7158.1988.tb05163.x
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157934|T||Iwamoto,Y., H. Kaneko, K. Yoshida, and H. Shimazu|Role of Glycinergic Inhibition in Shaping Activity of Saccadic Burst Neurons|J. Neurophysiol.101(6): 3063-3074|2009|10.1152/jn.90565.2008
157935|T||Kim,S.H., Y. Lee, B. Akitake, O.M. Woodward, W.B. Guggino, and C. Montell|Drosophila TRPA1 Channel Mediates Chemical Avoidance in Gustatory Receptor Neurons|Proc. Natl. Acad. Sci. U.S.A.107(18): 8440-8445|2010|10.1073/pnas.1001425107
157936|T||Leiras,R., P. Velo, F. Martin-Cora, and A. Canedo|Processing Afferent Proprioceptive Information at the Main Cuneate Nucleus of Anesthetized Cats|J. Neurosci.30(46): 15383-15399|2010|10.1523/JNEUROSCI.2193-10.2010
157937|T||Martin,T.L., and V.D.C. Shields|An Electrophysiological Analysis of the Effect of Phagostimulant Mixtures on the Responses of a Deterrent-Sensitive Cell of Gypsy Moth Larvae, Lymantria dispar (L.)|Arthropod-Plant Interact.6(2): 259-267|2012|10.1007/s11829-012-9183-6
157938|T||Shields,V.D.C., K.P. Smith, N.S. Arnold, I.M. Gordon, T.E. Shaw, and D. Waranch|The Effect of Varying Alkaloid Concentrations on the Feeding Behavior of Gypsy Moth Larvae, Lymantria dispar (L.) (Lepidoptera: Lymantriidae)|Arthropod-Plant Interact.2(2): 101-107|2008|10.1007/s11829-008-9035-6
157939|T||Zhou,D., J.J.A. Van Loon, and C.Z. Wang|Experience-Based Behavioral and Chemosensory Changes in the Generalist Insect Herbivore Helicoverpa armigera Exposed to Two Deterrent Plant Chemicals|J. Comp. Physiol. A Sens. Neural Behav. Physiol.196(11): 791-799|2010|10.1007/s00359-010-0558-9
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157942|T||Bu,N., S.H. Wang, C.M. Yu, Y. Zhang, C.Y. Ma, X.M. Li, and L.J. Ma|Genotoxicity of Fenpropathrin and Fenitrothion on Root Tip Cells of Vicia faba|Bull. Environ. Contam. Toxicol.87(5): 517-521|2011|10.1007/s00128-011-0366-0
157943|T||Hall,D.G., and R. Nguyen|Toxicity of Pesticides to Tamarixia radiata, a Parasitoid of the Asian Citrus Psyllid|Biocontrol55(5): 601-611|2010|10.1007/s10526-010-9283-0
157944|T||Wang,D., M. Kamijima, A. Okamura, Y. Ito, Y. Yanagiba, X.F. Jia, H. Naito, J. Ueyama, and T. Nakajima|Evidence for Diazinon-Mediated Inhibition of cis-Permethrin Metabolism and Its Effects on Reproductive Toxicity in Adult Male Mice|Reprod. Toxicol.34(4): 489-497|2012|10.1016/j.reprotox.2012.07.007
157945|T||Zhao,X., C. Wu, Y. Wang, T. Cang, L. Chen, R. Yu, and Q. Wang|Assessment of Toxicity Risk of Insecticides Used in Rice Ecosystem on Trichogramma japonicum, an Egg Parasitoid of Rice Lepidopterans|J. Econ. Entomol.105(1): 92-101|2012|10.1603/EC11259
157947|A||Xue,R.D., J.W. Pridgeon, J.J. Becnel, and A. Ali|Fipronil as a Larvicide Against the Container-Inhabiting Mosquito, Aedes albopictus|Am. Mosq. Control Assoc. J.25(2): 224-227|2009|10.2987/08-5816.1
157948|A||Ghisi,N.C., W.A. Ramsdorf, M.V.M. Ferraro, M.I.M. De Almeida, C.A. De Oliveira Ribeiro, and M.M. Cestari|Evaluation of Genotoxicity in Rhamdia quelen (Pisces, Siluriformes) After Sub-Chronic Contamination with Fipronil|Environ. Monit. Assess.180(1-4): 589-599|2011|10.1007/s10661-010-1807-7
157949|AT||Hayasaka,D., T. Korenaga, F. Sanchez-Bayo, and K. Goka|Differences in Ecological Impacts of Systemic Insecticides with Different Physicochemical Properties on Biocenosis of Experimental Paddy Fields|Ecotoxicology21(1): 191-201|2012|10.1007/s10646-011-0778-y
157950|A||Gaertner,K., G.T. Chandler, J. Quattro, P.L. Ferguson, and T. Sabo-Attwood|Identification and Expression of the Ecdysone Receptor in the Harpacticoid Copepod, Amphiascus tenuiremis, in Response to Fipronil|Ecotoxicol. Environ. Saf.76(1): 39-45|2012|10.1016/j.ecoenv.2011.09.008
157951|AT||Hayasaka,D., T. Korenaga, K. Suzuki, F. Saito, F. Sanchez-Bayo, and K. Goka|Cumulative Ecological Impacts of Two Successive Annual Treatments of Imidacloprid and Fipronil on Aquatic Communities of Paddy Mesocosms|Ecotoxicol. Environ. Saf.80:355-362|2012|10.1016/j.ecoenv.2012.04.004
157952|A||Hayasaka,D., T. Korenaga, K. Suzuki, F. Sanchez-Bayo, and K. Goka|Differences in Susceptibility of Five Cladoceran Species to Two Systemic Insecticides, Imidacloprid and Fipronil|Ecotoxicology21(2): 421-427|2012|10.1007/s10646-011-0802-2
157953|A||Liu,T., P. Wang, Y. Lu, G. Zhou, J. Diao, and Z. Zhou|Enantioselective Bioaccumulation of Soil-Associated Fipronil Enantiomers in Tubifex tubifex|J. Hazard. Mater.219/220:50-56|2012|10.1016/j.jhazmat.2012.03.042
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157956|A||Wang,X., S. Zhou, X. Ding, G. Zhu, and J. Guo|Effect of Triazophos, Fipronil and Their Mixture on miRNA Expression in Adult Zebrafish|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes45(7): 648-657|2010|
157957|A||Beggel,S., I. Werner, R.E. Connon, and J.P. Geist|Impacts of the Phenylpyrazole Insecticide Fipronil on Larval Fish: Time-Series Gene Transcription Responses in Fathead Minnow (Pimephales promelas) Following Short-Term Exposure|Sci. Total Environ.426:160-165|2012|10.1016/j.scitotenv.2012.04.005
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157960|T||Brooke,B.D., R.H. Hunt, and M. Coetzee|Resistance to Dieldrin + Fipronil Assorts with Chromosome Inversion 2La in the Malaria Vector Anopheles gambiae|Med. Vet. Entomol.14(2): 190-194|2000|10.1046/j.1365-2915.2000.00222.x
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157965|T||De Oliveira,P.R., G.H. Bechara, S.E. Denardi, R.J. Oliveira, and M.I.C. Mathias|Genotoxic and Mutagenic Effects of Fipronil on Mice|Exp. Toxicol. Pathol.64(6): 569-573|2012|10.1016/j.etp.2010.11.015
157966|A||Chandler,G.T., P.L. Ferguson, W.W. Klauber, and K.M. Washburn|A Critical Body Residue Approach for Predicting Persistent Bioaccumulative Toxicant Effects on Reproduction and Population Dynamics of Meiobenthic Copepods|Environ. Toxicol. Chem.31(5): 1076-1082|2012|10.1002/etc.1766
157967|T||Kitulagodage,M., W.A. Buttemer, and L.B. Astheimer|Adverse Effects of Fipronil on Avian Reproduction and Development: Maternal Transfer of Fipronil to Eggs in Zebra Finch Taeniopygia guttata and In Ovo Exposure in Chickens Gallus domesticus|Ecotoxicology20(4): 653-660|2011|10.1007/s10646-011-0605-5
157968|T||Kitulagodage,M., J. Isanhart, W.A. Buttemer, M.J. Hooper, and L.B. Astheimer|Fipronil Toxicity in Northern Bobwhite Quail Colinus virginianus:  Reduced Feeding Behaviour and Sulfone Metabolite Formation|Chemosphere83(4): 524-530|2011|10.1016/j.chemosphere.2010.12.057
157969|T||Diaz,S.L.|Efficacy of Fipronil in the Treatment of Pediculosis in Laboratory Rats|Lab. Anim. (Lond.)39(3): 331-335|2005|10.1258/0023677054306980
157970|T||De Oliveira,P.R., G.H. Bechara, S.E. Denardi, R.J. Oliveira, and M.I.C. Mathias|Cytotoxicity of Fipronil on Mice Liver Cells|Microsc. Res. Tech.75(1): 28-35|2012|10.1002/jemt.21018
157971|T||Ferreira,M., P.R. De Oliveira, S.E. Denardi, G.H. Bechara, and M.I.C. Mathias|Fipronil (Active Ingredient of Acaricide Frontline) Acting on the Mice Thyroid|Microsc. Res. Tech.75(3): 265-270|2012|10.1002/jemt.21053
157972|T||Ferreira,M., P.R. De Oliveira, S.E. Denardi, G.H. Bechara, and M.I.C. Mathias|Action of the Chemical Agent Fipronil (Active Ingredient of Acaricide Frontline) on the Liver of Mice: an Ultrastructural Analysis|Microsc. Res. Tech.75(2): 197-205|2012|10.1002/jemt.21043
157973|T||Aajoud,A., M. Raveton, D. Azrou-Isghi, M. Tissut, and P. Ravanel|How Can the Fipronil Insecticide Access Phloem?|J. Agric. Food Chem.56(10): 3732-3737|2008|10.1021/jf800043h
157974|T||Aajoud,A., M. Raveton, H. Aouadi, M. Tissut, and P. Ravanel|Uptake and Xylem Transport of Fipronil in Sunflower|J. Agric. Food Chem.54(14): 5055-5060|2006|10.1021/jf0604081
157975|T||Yang,X.B., G.G. Ying, P.A. Peng, L. Wang, J.L. Zhao, L.J. Zhang, P. Yuan, and H.P. He|Influence of Biochars on Plant Uptake and Dissipation of Two Pesticides in an Agricultural Soil|J. Agric. Food Chem.58(13): 7915-7921|2010|10.1021/jf1011352
157976|T||Garcia Del Pino,F., and M. Jove|Compatibility of Entomopathogenic Nematodes with Fipronil|J. Helminthol.79(4): 333-337|2005|10.1079/JOH2005294
157977|T||Rhone-Poulenc|Support:  Letter from Rhone-Poulenc Inc. to U.S.EPA Regarding Chronic Dietary Toxicity of M&B 46030 in Rats with Cover Letter Dated 092893|EPA/OTS Doc.#89-930000182:3 p.|1993|
157978|T||Chabrier,C., J. Hubervic, and P. Queneherve|Evaluation of Fosthiazate (Nemathorin 10G) for the Control of Nematodes in Banana Fields in Martinique|Nematropica32(2): 137-147|2002|
157979|T||Gugala,M., K. Zarzecka, and I. Mystkowska|Copper and Zinc Contents in Edible Potato Tubers Influenced by an Application of New Generation Insecticides|Fresenius Environ. Bull.20(7A): 1793-1796|2011|
157980|T||Schumacher,V., and H.M. Poehling|In Vitro Effect of Pesticides on the Germination, Vegetative Growth, and Conidial Production of Two Strains of Metarhizium anisopliae|Fungal Biol.116(1): 121-132|2012|10.1016/j.funbio.2011.10.007
157981|T||Da Silva Cruz,A., E.C.M. Da Silva-Zacarin, O.C. Bueno, and O. Malaspina|Morphological Alterations Induced by Boric Acid and Fipronil in the Midgut of Worker Honeybee (Apis mellifera L.) Larvae. Morphological Alterations in the Midgut of A. mellifera|Cell Biol. Toxicol.26(2): 165-176|2010|10.1007/s10565-009-9126-x
157982|T||Sackmann,P., and J.C. Corley|Control of Vespula germanica (Hym. Vespidae) Populations Using Toxic Baits: Bait Attractiveness and Pesticide Efficacy|J. Appl. Entomol.131(9/10): 630-636|2007|10.1111/j.1439-0418.2007.01132.x
157983|T||Xiqing,L., B. Chen, Y. Daibin, Z. Mingqi, L. Xuefeng, and T. Shu|Toxicities of Fipronil Enantiomers to the Honeybee Apis mellifera L. and Enantiomeric Compositions of Fipronil in Honey Plant Flowers|Environ. Toxicol. Chem.29(1): 127-132|2010|10.1002/etc.17
157984|T||Hanna,C., D. Foote, and C. Kremen|Short- and Long-Term Control of Vespula pensylvanica in Hawaii by Fipronil Baiting|Pest Manag. Sci.68(7): 1026-1033|2012|10.1002/ps.3262
157985|T||Bhardwaj,U., R. Kumar, S. Kaur, S.K. Sahoo, K. Mandal, R.S. Battu, and B. Singh|Persistence of Fipronil and Its Risk Assessment on Cabbage, Brassica oleracea var. capitata L.|Ecotoxicol. Environ. Saf.79:301-308|2012|10.1016/j.ecoenv.2012.01.016
157986|T||Adan,A., E. Vinuela, P. Bengochea, F. Budia, P. Del Estal, P. Aguado, and P. Medina|Lethal and Sublethal Toxicity of Fipronil and Imidacloprid on Psyttalia concolor (Hymenoptera: Braconidae)|J. Econ. Entomol.104(5): 1541-1549|2011|10.1603/EC11019
157987|T||Bernadou,A., F. Demares, T. Couret-Fauvel, J.C. Sandoz, and M. Gauthier|Effect of Fipronil on Side-Specific Antennal Tactile Learning in the Honeybee|J. Insect Physiol.55(12): 1099-1106|2009|10.1016/j.jinsphys.2009.08.019
157988|T||Wang,Y., R. Yu, X. Zhao, L. Chen, C. Wu, T. Cang, and Q. Wang|Susceptibility of Adult Trichogramma nubilale (Hymenoptera: Trichogrammatidae) to Selected Insecticides with Different Modes of Action|Crop Prot.34:76-82|2012|10.1016/j.cropro.2011.12.007
157989|T||Huang,J., S.F. Wu, and G.Y. Ye|Evaluation of Lethal Effects of Chlorantraniliprole on Chilo suppressalis and Its Larval Parasitoid, Cotesia chilonis|Agric. Sci. China10(7): 1134-1138|2011|10.1016/S1671-2927(11)60103-X
157990|T||Sackmann,P., M. Rabinovich, and J.C. Corley|Successful Removal of German Yellowjackets (Hymenoptera: Vespidae) by Toxic Baiting|J. Econ. Entomol.94(4): 811-816|2001|10.1603/0022-0493-94.4.811
157991|T||Mohapatra,S., M. Deepa, G.K. Jagdish, N. Rashmi, S. Kumar, and G.S. Prakash|Fate of Fipronil and Its Metabolites in/on Grape Leaves, Berries and Soil Under Semi Arid Tropical Climatic Conditions|Bull. Environ. Contam. Toxicol.84(5): 587-591|2010|10.1007/s00128-010-9965-4
157992|T||Chopra,I., R. Chauhan, B. Kumari, and K.K. Dahiya|Fate of Fipronil in Cotton and Soil Under Tropical Climatic Conditions|Bull. Environ. Contam. Toxicol.86(2): 242-245|2011|10.1007/s00128-010-0180-0
157993|T||San Miguel,A., M. Raveton, G. Lemperiere, and P. Ravanel|Phenylpyrazoles Impact on Folsomia candida (Collembola)|Soil Biol. Biochem.40(9): 2351-2357|2008|10.1016/j.soilbio.2008.05.014
157994|T||Vidau,C., M. Diogon, J. Aufauvre, R. Fontbonne, B. Vigues, J.L. Brunet, C. Texier, D.G. Biron, N. Blot, H. El Alaoui, L|Exposure to Sublethal Doses of Fipronil and Thiacloprid Highly Increases Mortality of Honeybees Previously Infected by Nosema ceranae|PLoS One6(6): 1-8|2011|10.1371/journal.pone.0021550
157995|T||Le Faouder,J., E. Bichon, P. Brunschwig, R. Landelle, F. Andre, and B. Le Bizec|Transfer Assessment of Fipronil Residues from Feed to Cow Milk|Talanta73(4): 710-717|2007|10.1016/j.talanta.2007.04.061
157996|T||Kamler,F., D. Titera, J. Piskulova, J. Hajslova, and K. Mastovska|Intoxication of Honeybees on Chemical Treated Winter Rape: Problem of Its Verification|Bull. Insectol.56(1): 125-127|2003|
157997|T||Ahemad,M., and M.S. Khan|Comparative Toxicity of Selected Insecticides to Pea Plants and Growth Promotion in Response to Insecticide-Tolerant and Plant Growth Promoting Rhizobium leguminosarum|Crop Prot.29(4): 325-329|2010|10.1016/j.cropro.2010.01.005
157998|T||Decourtye,A., J. Devillers, P. Aupinel, F. Brun, C. Bagnis, J. Fourrier, and M. Gauthier|Honeybee Tracking with Microchips:  A New Methodology to Measure the Effects of Pesticides|Ecotoxicology20(2): 429-437|2011|10.1007/s10646-011-0594-4
157999|T||Sun,D., C. Yang, W. Ming, L. Sun, L. Zhang, Q. Zhang, and Y. Chai|Preparation and Activity Study of New Organophosphate Insecticide Candidates|J. Pestic. Sci. (Multiple Languages)36(1): 44-47|2011|10.1584/jpestics.G10-60
158000|T||Balanca,G., and M.N. De Visscher|Effects of Very Low Doses of Fipronil on Grasshoppers and Non-Target Insects Following Field Trials for Grasshopper Control|Crop Prot.16(6): 553-564|1997|10.1016/S0261-2194(97)00028-8
158001|T||Levot,G.W.|An Insecticidal Refuge Trap to Control Adult Small Hive Beetle, Aethina tumida Murray (Coleoptera : Nitidulidae) in Honey Bee Colonies|J. Apic. Res.47(3): 222-228|2008|10.1080/00218839.2008.11101463
158002|T||Przewloka,S.R., B. Ahmed, P. Vinden, J. French, and J.A. Hann|Biodeterioration of Treated Pinus radiata Timber by Australian Decay Fungi and the Termite Coptotermes acinaciformis in Laboratory Bioassays and Field Conditions|Holzforschung61(2): 207-213|2007|10.1515/HF.2007.036
158003|T||Ma,J., S. Tong, P. Wang, W. Liao, H. Liu, and L. Zhang|Insecticidal Activity of Camptothecin Against Nilaparvata lugens, Brevicoryne brassicae, and Chilo suppressalis|J. Econ. Entomol.103(2): 492-496|2010|10.1603/EC08284
158004|T||Barnes,V.G.,Jr., R.M. Anthony, K.A. Fagerstone, and J. Evans|Hazards to Grizzly Bears of Strychnine Baiting for Pocket Gopher Control|Wildl. Soc. Bull.13(4): 552-558|1985|
158005|T||Inukai,T.|Metabolism of Strychnine Nitrate Applied for the Control of the Bear|Residue Rev.25:315-318|1969|
158007|AT||Zoological Institute of Russian Academy of Sciences|Catalogue of the Hydradephage of Asian Part of Russia|http://www.zin.ru/Animalia/Coleoptera/eng/eberlov3.htm:|2012|
158008|T||Bond,J.A., and T.W. Walker|Effect of Postflood Quinclorac Applications on Commercial Rice Cultivars|Weed Technol.26(2): 183-188|2012|10.1614/WT-D-11-00136.1
158009|T||Dhawan,A.K., A.S. Sidhu, and G.S. Simwat|Evaluation of Fenpropathrin and Fluvalinate for the Control of Bollworms on Cotton|Indian J. Plant Prot.16(2): 245-248|1988|
158010|T||Alm,S.R., D.L. Reichard, R.N. Williams, and F.R. Hall|Mortality of First-Instar Grape Berry Moths (Lepidoptera: Tortricidae) Due to Dosage and Size of Spray Drops Containing Fenpropathrin|J. Econ. Entomol.82(4): 1180-1184|1989|10.1093/jee/82.4.1180
158011|T||Williams,R.N., M.A. Ellis, D.S. Fickle, and M.S. Ellis|Chemical Evaluations for Control of Japanese Beetle on Grapes, 1994|Arthropod Manag. Tests20:334-|1995|10.1093/amt/20.1.334
158012|T||Williams,R.N., M.A. Ellis, and D.S. Fickle|Chemical Evaluations for Japanese Beetle on Grapes, 1993|Arthropod Manag. Tests19:375-|1994|10.1093/amt/19.1.375a
158013|T||Taylor,J.D., R.M. McPherson, and B.D. Crowe|Late-Season Tobacco Hornworm Control in Georgia Flue-Cured Tobacco, 1997|Arthropod Manag. Tests23:306-|1998|10.1093/amt/23.1.306
158014|T||Johnson,J.W., and J.C. Wise|Apple, Early Season Rosy Apple Aphid Control, 1990|Insectic. Acaric. Tests17:24-|1992|
158015|T||Hull,L.A., and G. Krawczyk|Early-Season Evaluation of Insecticides on Apple, 1997|Arthropod Manag. Tests23:14-15|1998|10.1093/amt/23.1.14
158016|T||Hull,L.A.|Apple, Early Season Evaluation of Insecticides, 1996|Arthropod Manag. Tests22:21-22|1997|10.1093/amt/22.1.21
158017|T||Grafton-Cardwell,E.E., and P. Gu|Conserving Vedalia Beetle, Rodolia cardinalis (Mulsant) (Coleoptera: Coccinellidae), in Citrus: A Continuing Challenge as New Insecticides Gain Registration|J. Econ. Entomol.96(5): 1388-1398|2003|10.1603/0022-0493-96.5.1388
158018|T||Hogmire,H.W.,Jr., T. Winfield, R. Cheves, and X. Wei|Insecticide Evaluation, 1991|Insectic. Acaric. Tests17:6-7|1992|10.1093/iat/17.1.6
158020|T||Rhainds,M., and G. English-Loeb|Impact of Insecticide Application and Mass Trapping on Infestation by Strawberry Sap Beetles (Coleoptera: Nitidulidae)|J. Entomol. Sci.37(4): 300-307|2002|10.18474/0749-8004-37.4.300
158021|T||Ghattas,A., M.B. Attia, and M.R. Abo-Elghar|Ovicidal Action of Insecticides on Egg-Masses of Cotton Leafworm Spodoptera littoralis (Boisd.)|Indian J. Agric. Sci.57(3): 197-199|1987|
158022|T||Dhandapani,N., A.A. Kareem, and S. Jayaraj|Studies on Poison Baiting for the Tobacco Caterpillar, Spodoptera litura Fb.|Entomon12(3): 223-225|1987|
158023|T||Agnihotri,N.P., S.N. Sinha, H.K. Jain, and A.K. Chakrabarti|Bioefficacy of Some Synthetic Pyrethroid Insecticides Against Leucinodes orbonalis Guen. and Their Residues of Brinjal Fruit|Indian J. Entomol.52(3): 373-378|1990|
158025|T||Bughio,A.R., T. Hussain, and Z.A. Qureshi|Dosage Mortality Studies of Synthetic Pyrethroid, Organophosphate Insecticides and Their Mixture on Spodoptera litura (F.) (Lepidoptera: Noctuidae)|Pak. J. Zool.27(2): 161-163|1995|
158026|T||Grove,T., M.S. De Beer, and P.H. Joubert|Developing a Systems Approach for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) on `Hass' Avocado in South Africa|J. Econ. Entomol.103(4): 1112-1128|2010|10.1603/EC09045
158027|T||Hussain,T., M.A. Talpur, and G.D. Tunio|Relative Toxicity of Pyrethroid Insecticides to Heliothis armigera Hbn. (Noctuidae: Lepidoptera)|Proc. Pak. Congr. Zool.11:119-122|1991|
158028|T||Wise,J.C., P.E. Jenkins, A.M.C. Schilder, C. Vandervoort, and R. Isaacs|Sprayer Type and Water Volume Influence Pesticide Deposition and Control of Insect Pests and Diseases in Juice Grapes|Crop Prot.29(4): 378-385|2010|10.1016/j.cropro.2009.11.014
158029|T||Tabassum,R., M. Jahan, M.A. Azmi, S.N.H. Naqvi, and I. Ahmad|Determination of Toxicity of Danitol, Methoprene and Neem Formulation Against Stored Grain Pest, Sitophilus oryzae L.|Pak. J. Pharm. Sci.5(2): 167-174|1992|
158030|T||Chahal,G.S., D.L. Jordan, R.L. Brandenburg, B.B. Shew, J.D. Burton, D. Danehower, and A.C. York|Interactions of Agrochemicals Applied to Peanut; Part 3: Effects on Insecticides and Prohexadione Calcium|Crop Prot.41:150-157|2012|10.1016/j.cropro.2012.05.006
158031|A||Lin,J., J. Chen, X. Cai, X. Qiao, L. Huang, D. Wang, and Z. Wang|Evolution of Toxicity upon Hydrolysis of Fenoxaprop-p-Ethyl|J. Agric. Food Chem.55(18): 7626-7629|2007|10.1021/jf071009o
158032|T||Solomon,M.G., J.D. Fitzgerald, and M.S. Ridout|Fenazaquin, a Selective Acaricide for Use in IPM in Apple in the UK|Crop Prot.12(4): 255-258|1993|10.1016/0261-2194(93)90043-I
158033|A||Qian,H., J. Li, X. Pan, L. Sun, T. Lu, H. Ran, and Z. Fu|Combined Effect of Copper and Cadmium on Heavy Metal Ion Bioaccumulation and Antioxidant Enzymes Induction in Chlorella vulgaris|Bull. Environ. Contam. Toxicol.87(5): 512-516|2011|10.1007/s00128-011-0365-1
158034|T||Williams,R.N., M.A. Ellis, and D.S. Fickle|Chemical Evaluations for Control of Grape Berry Moth on Grapes, 1993|Arthropod Manag. Tests19:43-|1994|10.1093/amt/19.1.43
158035|T||DeVries,T.A., and R.J. Wright|Evaluation of Insecticides for Control of Larval European Corn Borer on Whorl Stage Corn, 1996|Arthropod Manag. Tests22:212-213|1997|10.1093/amt/22.1.212
158037|T||Shakoori,A.R., M. Fayyaz, and M.A. Saleem|Biochemical Changes Induced by Fenpropathrin in the Sixth Instar Larvae of Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae)|J. Stored Prod. Res.24(4): 215-220|1988|10.1016/0022-474X(88)90021-5
158038|T||McKinlay,R.G., and M.E. Thomson|Recent Field Experiments on Acaricidal Control of Two-Spotted Spider Mite on Strawberries|Crop Prot. North. Britain:373-377|1987|
158039|T||Thwaite,G.|Carpophilus Beetles: Insecticide Trial Results|Coast. Fruitgrowers Newsl.:8-9|2000|
158040|T||Giray,B., and F. Hincal|Fenvalerate Induced Hepatic Oxidative Stress in Selenium- and/or Iodine-Deficient Rats|Hum. Exp. Toxicol.30(10): 1575-1583|2011|10.1177/0960327110393762
158041|T||Warner,J.R.|Bait Preferences and Toxicity of Insecticides to White-Footed Ants Technomyrmex albipes (Hymenoptera: Formicidae)|M.S.Thesis, University of Florida, Gainesville, FL:70 p.|2003|
158043|T||Buschman,L., L. Buschman, H. Davis, R. Currie, and P. Sloderbeck|Efficacy of Systemic Insecticides Applied as Foliar or Seed Treatments to Control Dectes Stem Borers in Soybean at Garden City, KS, 2006|Report of Progress 980, Southwest Research  Extension Center,  Kansas State University, Garden City, KS980:65-67|2007|
158044|T||Buschman,L., A. Joshi, P. Sloderbeck, and T. Niide|Yield Losses Associated with Dectes Stem Borers in Soybean and Efficacy of Fipronil Seed Treatments, Garden City, 2008|Report of Progress 1014, Southwest Research  Extension Center,  Kansas State University, Garden City, KS1014:84-90|2009|
158045|T||Mann,R.S., S.K. Uppal, S. Sharma, and K.K. Mann|Soil Efficacy of Fipronil to Early Stage Pests of Sugarcane, and Its Effect on Development on Chilo infuscatellus Snellen (Crambidae: Lepidoptera)|Int. J. Pest Manag.55(4): 307-315|2009|10.1080/09670870902915780
158046|T||Yang,W., H.X. Wu, H.H. Xu, A.L. Hu, and M.L. Lu|Synthesis of Glucose-Fipronil Conjugate and Its Phloem Mobility|J. Agric. Food Chem.59(23): 12534-12542|2011|10.1021/jf2031154
158047|T||Davis,H., L. Buschman, P. Sloderbeck, and A. Joshi|Efficacy of Fipronil Applied as Foliar and Seed Treatment to Control Dectes Stem Borers in Soybean, Garden City, KS, 2007 - South Circle|Report of Progress 997, Southwest Research  Extension Center,  Kansas State University, Garden City, KS997:49-53|2008|
158048|T||Davis,H., L. Buschman, T. Niide, A. Joshi, and C. Khajuria|Efficacy of Fipronil Applied as Foliar and Seed Treatment to Control Dectes Stem Borers in Soybean, Garden City, KS, 2007 - Ramsey Field|Report of Progress 997, Southwest Research  Extension Center,  Kansas State University, Garden City, KS997:59-63|2008|
158049|T||Niide,T., L. Buschman, B. Gordon, P. Sloderbeck, H. Davis, and C. Khajuria|Efficacy of Fipronil Applied as Foliar and Seed Treatment to Control Dectes Stem Borers in Soybean, Scandia, KS, 2007|Report of Progress 997, Southwest Research  Extension Center,  Kansas State University, Garden City, KS997:54-58|2008|
158050|T||Niide,T., L. Buschman, B. Gordon, P. Sloderbeck, and A. Joshi|Yield Losses Associated with Dectes Stem Borers in Soybean and Efficacy of Fipronil Seed Treatments in Controlling Dectes Stem Borers, Scandia, 2008|Report of Progress 1014, Southwest Research Extension Center,  Kansas State University, Garden City, KS1014:80-83|2009|
158051|T||Shamshad,A., A.D. Clift, and S. Mansfield|Effect of Compost and Casing Treatments of Insecticides Against the Sciarid Bradysia ocellaris (Diptera: Sciaridae) and on the Total Yield of Cultivated Mushrooms, Agaricus bisporus|Pest Manag. Sci.65(4): 375-380|2009|10.1002/ps.1700
158052|T||Grundy,P.R.|Utilizing the Assassin Bug, Pristhesancus plagipennis (Hemiptera : Reduviidae), as a Biological Control Agent Within an Integrated Pest Management Programme for Helicoverpa spp. (Lepidoptera : Noctuidae) and Creontiades|Bull. Entomol. Res.97(3): 281-290|2007|10.1017/S0007485307004993
158053|T||Pridgeon,J.W., J.J. Becnel, G.G. Clark, and K.J. Linthicum|Permethrin Induces Overexpression of Cytochrome C Oxidase Subunit 3 in Aedes aegypti|J. Med. Entomol.46(4): 810-819|2009|10.1603/033.046.0411
158054|T||Castro-Janer,E., J.R. Martins, M.C. Mendes, A. Namindome, G.M. Klafke, and T.T.S. Schumaker|Diagnoses of Fipronil Resistance in Brazilian Cattle Ticks (Rhipicephalus (Boophilus) microplus) Using In Vitro Larval Bioassays|Vet. Parasitol.173:300-306|2010|10.1016/j.vetpar.2010.06.036
158055|T||Castro-Janer,E., L. Rifran, P. Gonzalez, C. Niell, J. Piaggio, A. Gil, and T.T.S. Schumaker|Determination of the Susceptibility of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) to Ivermectin and Fipronil by Larval Immersion Test (LIT) in Uruguay|Vet. Parasitol.178(1/2): 148-155|2011|10.1016/j.vetpar.2010.12.035
158056|T||Ling,S., and R. Zhang|Effect of Fipronil on Brain and Muscle Ultrastructure of Nilaparvata lugens (Stal) (Homoptera:  Delphacidae)|Ecotoxicol. Environ. Saf.74(5): 1348-1354|2011|10.1016/j.ecoenv.2011.03.011
158057|T||Ree,H.I., I.Y. Lee, S.H. Jeon, and T.S. Yong|Field Trial on the Control Effect of Fipronil Bait Against German Cockroaches|Korean J. Parasitol.44(3): 255-257|2006|10.3347/kjp.2006.44.3.255
158058|T||Smith,K.E., R. Wall, J.J. Howard, L. Strong, A.A. Marchiondo, and P. Jeannin|In Vitro Insecticidal Effects of Fipronil and beta-Cyfluthrin on Larvae of the Blowfly Lucilia sericata|Vet. Parasitol.88(3/4): 261-268|2000|10.1016/S0304-4017(99)00223-X
158059|T||Nagamoto,N.S., L.C. Forti, and C.G. Raetano|Evaluation of the Adequacy of Diflubenzuron and Dechlorane in Toxic Baits for Leaf-Cutting Ants (Hymenoptera: Formicidae) Based on Formicidal Activity|J. Pest Sci.80(1): 9-13|2007|10.1007/s10340-006-0143-8
158061|T||Blaney,W.M., M.S.J. Simmonds, S.V. Ley, J.C. Anderson, and P.L. Toogood|Antifeedant Effects of Azadirachtin and Structurally Related Compounds on Lepidopterous Larvae|Entomol. Exp. Appl.55:149-160|1990|10.1111/j.1570-7458.1990.tb01358.x
158062|T||Niide,T.|Development of Soybean Host Plant Resistance and Other Management Options for the Stem Borer, Dectes texanus Leconte|Ph.D. Thesis, Kansas State University, Manhattan, KS:110 p.|2009|
158063|T||Friesen,L.J.S.|Examination of Multiple-Group Herbicide Resistance in Two Wild Oat Populations|M.S. Thesis, University of Guelph, Ontario, Canada:71 p.|2001|
158064|T||Leghait,J., V. Gayrard, P.L. Toutain, N. Picard-Hagen, and C. Viguie|Is the Mechanisms of Fipronil-Induced Thyroid Disruption Specific of the Rat:  Re-evaluation of Fipronil Thyroid Toxicity in Sheep?|Toxicol. Lett.194(3): 51-57|2010|10.1016/j.toxlet.2010.01.018
158065|A||Qin,G., S.M. Presley, T.A. Anderson, W. Gao, and J.D. Maul|Effects of Predator Cues on Pesticide Toxicity:  Toward an Understanding of the Mechanism of the Interaction|Environ. Toxicol. Chem.30(8): 1926-1934|2011|10.1002/etc.575
158066|T||Ozair,C.A., and L.J. Moshier|Effect of Soil Incorporated Trifluralin and Selected Postemergent Herbicides on Growth, Nodulation and Nitrogen Fixation of Soybean|Pak. J. Agric. Res.9(3): 316-320|1988|
158067|T||Kashani,F.B., H.M. Alizadeh, and E. Zand|Investigating the Resistance of Wild Oat (Avena ludoviciana Durieu.) to Fenoxaprop-p-Ethyl by Whole Plant Bioassay and Seed Bioassay|Pak. J. Biol. Sci.10(1): 72-77|2007|
158068|T||Froment,M.A., and N.D. Cooper|Evaluation of Foliar Applications of Herbicide on Wild Oats (Avena fatua) and Yield of Winter Barley Grown for Malting|Tests Agrochem. Cultiv.16:56-57|1995|
158069|T||De Villiers,B.L., and D. Du Toit|Efficacy of Fenoxaprop-p-Ethyl when Applied in Combination with Bromoxynil and MCPA|Appl. Plant Sci.5(2): 60-63|1991|
158070|T||Kumar,A., R.K. Malik, R.M. Sirohi, and R.C. Hasija|Performance of New Herbicides at Two Doses and Spray Volumes Against Resistant Phalaris minor in Wheat at Farmers' Fields|Ann. Biol.22(2): 161-164|2006|
158071|T||Gupta,G.P., and K.N. Katiyar|Effect of Insecticidal Application Against Bollworms and Their Response to Whitefly in Cotton|Pesticides 22(4): 33-35|1988|
158072|T||Letouze,A., and J. Gasquez|A Pollen Test to Detect ACCase-Target-Site Resistance Within Alopecurus myosuroides Populations|Weed Res. (Multiple Languages)40(2): 151-162|2000|
158073|T||Froment,M.A., and N.D. Cooper|Evaluation of Post-Emergence Herbicides for the Control of Wild Oats (Avena fatua) in Winter Barley|Tests Agrochem. Cultiv.17:24-25|1996|
158074|T||Gilliam,C.H., G.J. Keever, D.J. Eakes, and D.C. Fare|Postemergence Applied Herbicides for Use on Ornamental Grasses|J. Environ. Hortic.10(3): 136-139|1992|10.24266/0738-2898-10.3.136
158075|T||Higgins,J.M., L.B. McCarty, T. Whitwell, and L.C. Miller|Bentgrass and Bermudagrass Putting Green Turf Tolerance to Postemergence Herbicides|Hortscience22(2): 248-250|1987|10.21273/HORTSCI.22.2.248
158076|T||Kelly,J.W., and T. Whitwell|Effects of Postemergence Grass Herbicides on Daylily and Hosta|Hortscience24(5): 858-|1989|10.21273/HORTSCI.24.5.858
158077|T||McCarty,L.B., J.M. Higgins, T. Whitwell, and L.C. Miller|Tolerance of Tall Fescue to Postemergence Grass Herbicides|Hortscience24(2): 309-311|1989|10.21273/HORTSCI.24.2.309
158078|T||Neal,J.C., and A.F. Senesac|Cultivar Differences in Postemergence Graminicide Phytotoxicity to Juniperus|Hortscience24(1): 96-98|1989|10.21273/HORTSCI.24.1.96
158079|T||Pool,C.F., B.L. De Villiers, and H.A. Smit|Influence of Growth Stage on the Efficacy of Three Wild Oat Herbicides Applied to Panicum schinzii|Appl. Plant Sci.9(1): 23-25|1995|
158080|T||Punia,S.S., S.S. Rathee, and R.K. Malik|Effect of Fenoxaprop and Clodinafop Alone and in Combination with Isoproturon in Controlling Weeds Infesting Wheat (Triticum aestivum)|Indian J. Agric. Sci.73(4): 232-234|2003|
158081|T||Singh,S., R.C. Kirkwood, and G. Marshall|Evaluation of Isoproturon Resistant Phalaris minor Against Diclofop-Methyl and Fenoxaprop-p-Ethyl|Tests Agrochem. Cultiv.16:54-55|1995|
158082|T||Snipes,C.E., J.E. Street, and D.S. Luthe|Physiological Influences of Fenoxaprop on Corn (Zea mays)|Pestic. Biochem. Physiol.28(3): 333-340|1987|10.1016/0048-3575(87)90128-3
158083|T||Whitwell,T., K.E. Kalmowitz, and G.S. Stapleton|Postemergence Grass Herbicide Activity Changes with Adjuvant and pH and Sodium Level in Spray Solutions|J. Environ. Hortic.10(1): 55-58|1992|10.24266/0738-2898-10.1.55
158084|T||Callens,D., H. Eelen, and R. Bulcke|Influence of Adjuvants on Herbicidal Activity and Selectivity of Systemic Graminicides in Winter Wheat and Sulfonylureas in Maize|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)61(3b): 1155-1162|1996|
158085|T||Bird,G.J., L.E. Cross, G.J. Farquharson, W.A. Jensen, J. Lydiate, A. Serban, R.B. Warner, K.G. Watson, J.E.D. Barton, C|N-Methyl as a Bioisostere for the Oxygen Link Between the Aromatic Rings of Aryloxyphenoxypropionate Herbicides|Bioorg. Med. Chem. Lett.7(12): 1489-1492|1997|10.1016/S0960-894X(97)00235-7
158086|T||Chow,P.N.P.|Broadening Weed Control with Imazamethabenz Combinations|Crop Prot.8(6): 447-450|1989|10.1016/0261-2194(89)90073-2
158087|T||Chow,P.N.P., D.A. Derksen, R.J. Deschamps, and A.I. Hsiao|Growth Regulator Herbicides as Modifiers to Activity of Fenoxaprop-Ethyl: A New Approach for Antidote Adjuvant Research|In: P.N.P. Chow (Ed.), Adjuvants and Agrochemicals, Volume I, Mode of Action and Physiological Activity, Manitoba, Canada1:183-192|1989|
158088|T||Dernoeden,P.H.|Tolerance of Perennial Ryegrass and Tall Fescue Seedlings to Fenoxaprop|Agron. J.79(6): 1035-1037|1987|10.2134/agronj1987.00021962007900060017x
158089|T||Huang,L.C., B.L. Huang, and W.L. Chen|Tissue Culture Investigations of Bamboo - IV.  Organogenesis Leading to Adventitious Shoots and Plants in Excised Shoot Apices|Environ. Exp. Bot.29(3): 307-315|1989|10.1016/0098-8472(89)90004-X
158090|T||Pandya,N., G.S. Chouhan, and V. Nepalia|Influence of Integrated Weed Management on Yield and Economic Viability of Soybean (Glycine max) Varieties Grown at Different Crop Geometries|Indian J. Agric. Sci.75(8): 510-512|2005|
158091|T||Rijckaert,G.|Efficiency and Selectivity of Fenoxaprop-Ethyl in Seed Crops of Perennial Ryegrass (Lolium perenne L.)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)60(2a): 163-170|1995|
158092|T||Meegalla,S.K., D. Doller, R. Liu, D.Y. Sha, Y. Lee, R.M. Soll, N. Wisnewski, G.M. Silver, and D. Dhanoa|Synthesis and Insecticidal Activity of Fluorinated 2-(2,6-Dichloro-4-Trifluoromethylphenyl)-2,4,5,6-Tetrahydrocyclopentapyrazoles|Bioorg. Med. Chem. Lett.16(6): 1702-1706|2006|10.1016/j.bmcl.2005.12.012
158093|T||Kim,J.S., J.I. Oh, T.J. Kim, J.Y. Pyon, and K.Y. Cho|Physiological Basis of Differential Phytotoxic Activity Between Fenoxaprop-p-Ethyl and Cyhalofop-Butyl-Treated Barnyardgrass|Weed Biol. Manag.5(2): 39-45|2005|10.1111/j.1445-6664.2005.00158.x
158094|T||Lefsrud,C., and J.C. Hall|Basis for Sensitivity Differences Among Crabgrass, Oat, and Wheat to Fenoxaprop-Ethyl|Pestic. Biochem. Physiol.34(3): 218-227|1989|10.1016/0048-3575(89)90161-2
158095|T||Liu,S.H., A.I. Hsiao, and W.A. Quick|Interaction Between Imazamethabenz and Fenoxaprop in Wild Oat Control and Crop Tolerance|Crop Prot.13(7): 525-530|1994|10.1016/0261-2194(94)90105-8
158096|T||Santos,M.A.O., A.D.L.C. Novembre, and J. Marcos-Filho|Tetrazolium Test to Assess Viability and Vigour of Tomato Seeds|Seed Sci. Technol.35(1): 213-223|2007|10.15258/sst.2007.35.1.19
158097|T||Scalla,R., and A. Roulet|Cloning and Characterization of a Glutathione S-Transferase Induced by a Herbicide Safener in Barley (Hordeum vulgare)|Physiol. Plant. (Multiple Languages)116(3): 336-344|2002|10.1034/j.1399-3054.2002.1160308.x
158098|T||Gauvrit,C., and T. Lamrani|Influence of Application Volume on the Efficacy of Clodinafop-Propargyl and Fenoxaprop-P-Ethyl on Oats|Weed Res. (Multiple Languages)48(1): 78-84|2008|10.1111/j.1365-3180.2008.00599.x
158099|T||Mohamed,I.A., R. Li, Z. You, and Z. Li|Japanese Foxtail (Alopecurus japonicus) Resistance to Fenoxaprop and Pinoxaden in China|Weed Sci.60(2): 167-171|2012|10.1614/WS-D-11-00111.1
158100|T||Grichar,W.J., G.W. Evers, C.L. Pohler, and A.M. Schubert|Use of Postemergence Grass Herbicides for Coastal Bermudagrass Burndown and Clover Establishment|Prog. Rep. Texas Agric. Exp. Stn.:67-69|1987|
158101|T||Karlowsky,J.D., A.L. Brule-Babel, L.F. Friesen, R.C. Van Acker, and G.H. Crow|Inheritance of Multiple Herbicide Resistance in Wild Oat (Avena fatua L.)|Can. J. Plant Sci.86(1): 317-329|2006|10.4141/P05-008
158102|T||Chen,X., S. Yu, L. Han, S. Sun, Y. Zhi, and W. Li|Residues and Dissipation of the Herbicide Fenoxaprop-p-Ethyl and Its Metabolite in Wheat and Soil|Bull. Environ. Contam. Toxicol.87(1): 50-53|2011|10.1007/s00128-011-0239-6
158103|T||Pornprom,T., P. Mahatamnuchoke, and K. Usui|The Role of Altered Acetyl-CoA Carboxylase in Conferring Resistance to Fenoxaprop-p-Ethyl in Chinese Sprangletop (Leptochloa chinensis (L.) Nees)|Pest Manag. Sci.62(11): 1109-1115|2006|10.1002/ps.1287
158104|T||Moss,S.R., K.M. Cocker, A.C. Brown, L. Hall, and L.M. Field|Characterisation of Target-Site Resistance to ACCase-Inhibiting Herbicides in the Weed Alopecurus myosuroides (Black-Grass)|Pest Manag. Sci.59(2): 190-201|2003|10.1002/ps.623
158105|T||Nicholls,R., J. Buxton, R. Umpelby, and E.B. Dennis|Protection of Blackcurrant Against Blackcurrant Gall Mite with the Synthetic Pyrethroid Fenpropathrin|Br. Crop Prot. Conf. Pests Dis.1:129-135|1986|
158106|T||Hutchinson,M.J., D.E. Jacobs, M.T. Fox, P. Jeannin, and J.M. Postal|Evaluation of Flea Control Strategies Using Fipronil on Cats in a Controlled Simulated Home Environment|Vet. Rec.142(14): 356-357|1998|10.1136/vr.142.14.356
158107|T||McMullan,P.M.|The Influence of Temperature on Barley (Hordeum vulgare L.) Tolerance to Diclofop-Methyl or Fenoxaprop-p-Ethyl Mixtures|Weed Res. (Multiple Languages)34(1): 23-28|1994|10.1111/j.1365-3180.1994.tb01969.x
158108|T||Tal,J.A., J.C. Hall, and G.R. Stephenson|Non-Enzymatic Conjugation of Fenoxaprop-Ethyl with Glutathione and Cysteine in Several Grass Species|Weed Res. (Multiple Languages)35(3): 133-139|1995|10.1111/j.1365-3180.1995.tb02026.x
158109|T||Moyer,J.R., S.N. Acharya, and Z. Mir|Weed Management at the Time of Perennial Cereal Rye Establishment|Can. J. Plant Sci.82(2): 457-462|2002|10.4141/P01-087
158110|T||Murray,B.G., A.L. Brule-Babel, and I.N. Morrison|Two Distinct Alleles Encode for Acetyl-CoA Carboxylase Inhibitor Resistance in Wild Oat (Avena fatua)|Weed Sci.44(3): 476-481|1996|10.1017/S0043174500094212
158111|T||Patra,J., M.K. Sahoo, and B.B. Panda|Persistence and Prevention of Aluminium- and Paraquat-Induced Adaptive Response to Methyl Mercuric Chloride in Plant Cells In Vivo|Mutat. Res.538(1/2): 51-61|2003|10.1016/S1383-5718(03)00085-8
158112|T||Seefeldt,S.S., E.P. Fuerst, D.R. Gealy, A. Shukla, G.P. Irzyk, and M.D. Devine|Mechanisms of Resistance to Diclofop of Two Wild Oat (Avena fatua) Biotypes from the Willamette Valley of Oregon|Weed Sci.44(4): 776-781|1996|10.1017/S0043174500094704
158113|T||Xie,H.S., A.I. Hsiao, and W.A. Quick|Impact of Temperature on the Phytotoxicity of Imazamethabenz and Fenoxaprop to Wild Oat (Avena fatua)|Crop Prot.13(5): 376-380|1994|10.1016/0261-2194(94)90053-1
158114|T||Xie,H.S., W.A. Quick, and A.I. Hsiao|Effect of Drought and Formulation on Wild Oat (Avena fatua) Control with Imazamethabenz and Fenoxaprop|Crop Prot.13(3): 195-200|1994|10.1016/0261-2194(94)90078-7
158115|T||Walker,K.L., and D.J. Williams|Grass Interference in Container-Grown Bailey's Redosier Dogwood (Cornus x baileyi)|Weed Sci.36(5): 621-624|1988|10.1017/S0043174500075512
158116|T||Xie,H.S., A.I. Hsiao, W.A. Quick, and J.A. Hume|Influence of Water Stress on Absorption, Translocation and Phytotoxicity of Fenoxaprop-Ethyl and Imazamethabenz-Methyl in Avena fatua|Weed Res. (Multiple Languages)36(1): 65-71|1996|10.1111/j.1365-3180.1996.tb01802.x
158117|T||Xie,H.S., B.C. Caldwell, A.I. Hsiao, W.A. Quick, and J.F. Chao|Spray Deposition of Fenoxaprop and Imazamethabenz on Wild Oat (Avena fatua) as Influenced by Environmental Factors|Weed Sci.43(2): 179-183|1995|10.1017/S0043174500081030
158118|T||Patton,A.J., D.V. Weisenberger, G.A. Hardebeck, and Z.J. Reicher|Safety of Herbicides on 'Zenith' Zoysiagrass Seedlings|Weed Technol.21(1): 145-150|2007|10.1614/WT-06-099.1
158119|T||Xie,H.S., A.I. Hsiao, and W.A. Quick|Influence of Temperature and Light Intensity on Absorption, Translocation, and Phytotoxicity of Fenoxaprop-Ethyl and Imazamethabenz-Methyl in Avena fatua|J. Plant Growth Regul.15(2): 57-62|1996|10.1007/BF00192932
158120|A||Lin,J., J. Chen, Y. Wang, X. Cai, X. Wei, and X. Qiao|More Toxic and Photoresistant Products from Photodegradation of Fenoxaprop-P-Ethyl|J. Agric. Food Chem.56(17): 8226-8230|2008|10.1021/jf801341s
158121|T||Boydston,R.A.|Soil Water Content Affects the Activity of Four Herbicides on Green Foxtail (Setaria viridis)|Weed Sci.38(6): 578-582|1990|10.1017/S0043174500051523
158122|T||Delye,C., A. Matejicek, and J. Gasquez|PCR-Based Detection of Resistance to Acetyl-CoA Carboxylase-Inhibiting Herbicides in Black-Grass (Alopecurus myosuroides Huds) and Ryegrass (Lolium rigidum Gaud)|Pest Manag. Sci.58(5): 474-478|2002|10.1002/ps.485
158123|T||Deschamps,R.J.A., A.I. Hsiao, and W.A. Quick|Antagonistic Effect of MCPA on Fenoxaprop Activity|Weed Sci.38(1): 62-66|1990|10.1017/S0043174500056125
158124|T||Chism,W.J., and S.W. Bingham|Postemergence Control of Large Crabgrass (Digitaria sanguinalis) with Herbicides|Weed Sci.39(1): 62-66|1991|10.1017/S004317450005788X
158125|T||Hjorth,M., L. Mondolot, B. Buatois, C. Andary, S. Rapior, P. Kudsk, S.K. Mathiassen, and H.W. Ravn|An Easy and Rapid Method Using Microscopy to Determine Herbicide Effects in Poaceae Weed Species|Pest Manag. Sci.62(6): 515-521|2006|10.1002/ps.1194
158126|T||Cudney,D.W., C.L. Elmore, V.A. Gibeault, and J.S. Reints|Common Bermudagrass (Cynodon dactylon) Management in Cool-Season Turfgrass|Weed Technol.11(3): 478-483|1997|10.1017/S0890037X00045280
158127|T||Hubbard,J., and T. Whitwell|Techniques for Detecting Grass Tolerance to Sethoxydim and Fenoxaprop-Ethyl Herbicides|Weed Sci.39(4): 548-552|1991|10.1017/S0043174500088354
158128|T||Johnson,B.J., and R.N. Carrow|Influence of Fenoxaprop and Ethofumesate Treatments on Suppression of Common Bermudagrass (Cynodon dactylon) in Tall Fescue (Festuca arundinacea) Turf|Weed Technol.9(4): 789-793|1995|10.1017/S0890037X00024222
158129|T||Xie,H.S., W.A. Quick, and A.I. Hsiao|Spring Cereal Response to Imazamethabenz and Fenoxaprop-p-Ethyl as Influenced by Environment|Weed Technol.8(4): 713-716|1994|10.1017/S0890037X00028566
158130|T||Judge,C.A., J.C. Neal, and J.F. Derr|Response of Japanese Stiltgrass (Microstegium vimineum) to Application Timing, Rate, and Frequency of Postemergence Herbicides|Weed Technol.19(4): 912-917|2005|10.1614/WT-04-272R.1
158131|A||Gismondi,E., C. Cossu-Leguille, and J.N. Beisel|Acanthocephalan Parasites:  Help or Burden in Gammarid Amphipods Exposed to Cadmium?|Ecotoxicology21(4): 1188-1193|2012|10.1007/s10646-012-0873-8
158132|A||Plusquin,M., O. DeGheselle, A. Cuypers, E. Geerdens, A. Van Roten, T. Artois, and K. Smeets|Reference Genes for qPCR Assays in Toxic Metal and Salinity Stress in Two Flatworm Model Organisms|Ecotoxicology21(2): 475-484|2012|10.1007/s10646-011-0809-8
158133|A||Mukhi,S., X. Pan, G.P. Cobb, and R. Patino|Toxicity of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine to Larval Zebrafish (Danio rerio)|Chemosphere61(2): 178-185|2005|10.1016/j.chemosphere.2005.02.067
158134|A||Billoir,E., H. Delhaye, C. Forfait, B. Clement, G. Triffault-Bouchet, S. Charles, and M.L. Delignette-Muller|Comparison of Bioassays with Different Exposure Time Patterns:  The Added Value of Dynamic Modelling in Predictive Ecotoxicology|Ecotoxicol. Environ. Saf.75(1): 80-86|2012|10.1016/j.ecoenv.2011.08.006
158135|A||Karimullina,E., Y. Li, G.K. Ginjupalli, and W.S. Baldwin|Daphnia HR96 is a Promiscuous Xenobiotic and Endobiotic Nuclear Receptor|Aquat. Toxicol.116-117:69-78|2012|10.1016/j.aquatox.2012.03.005
158136|T||Kegode,G.O., F. Forcella, and B.R. Durgan|Limiting Green and Yellow Foxtail (Setaria viridis and S. glauca) Seed Production Following Spring Wheat (Triticum aestivum) Harvest|Weed Technol.13(1): 43-47|1999|10.1017/S0890037X00044882
158137|A||Ugolini,A., V. Pasquali, D. Baroni, and G. Ungherese|Behavioural Responses of the Supralittoral Amphipod Talitrus saltator (Montagu) to Trace Metals Contamination|Ecotoxicology21(1): 139-147|2012|10.1007/s10646-011-0773-3
158138|T||Linscott,D.L., and R.H. Vaughan|Fenoxaprop for Annual Foxtail (Setaria sp.) Control in Seedling Perennial Forages|Weed Technol.4(3): 560-564|1990|10.1017/S0890037X00025975
158139|T||Malik,N.|Weed Control During Establishment and Yield Response of Timothy (Phleum pratense)|Weed Technol.4(3): 598-605|1990|10.1017/S0890037X00026051
158140|T||Guirlet,E., and K. Das|Cadmium Toxicokinetics and Bioaccumulation in Turtles:  Trophic Exposure of Trachemys scripta elegans|Ecotoxicology21(1): 18-26|2012|10.1007/s10646-011-0758-2
158141|A||Byzitter,J., K. Lukowiak, V. Karnik, and S. Dalesman|Acute Combined Exposure to Heavy Metals (Zn, Cd) Blocks Memory Formation in a Freshwater Snail|Ecotoxicology21(3): 860-868|2012|10.1007/s10646-011-0847-2
158142|A||Faupel,M., K. Ristau, and W. Traunspurger|The Functional Response of a Freshwater Benthic Community to Cadmium Pollution|Environ. Pollut.162:104-109|2012|10.1016/j.envpol.2011.11.004
158143|T||Mueller,T.C., W.W. Witt, and M. Barrett|Antagonism of Johnsongrass (Sorghum halepense) Control with Fenoxaprop, Haloxyfop, and Sethoxydim by 2,4-D|Weed Technol.3(1): 86-89|1989|10.1017/S0890037X00031377
158144|T||Mueller-Warrant,G.W.|Control of Roughstalk Bluegrass (Poa trivialis) with Fenoxaprop in Perennial Ryegrass (Lolium perenne) Grown for Seed|Weed Technol.4(2): 250-257|1990|10.1017/S0890037X00025355
158145|T||Trabace,L., M. Zotti, M.G. Morgese, P. Tucci, M. Colaianna, S. Schiavone, P. Avato, and V. Cuomo|Estrous Cycle Affects the Neurochemical and Neurobehavioral Profile of Carvacrol-Treated Female Rats|Toxicol. Appl. Pharmacol.255(2): 169-175|2011|10.1016/j.taap.2011.06.011
158146|T||Soni,H., G. Pandya, P. Patel, A. Acharya, M. Jain, and A.A. Mehta|Beneficial Effects of Carbon Monoxide-Releasing Molecule-2 (CORM-2) on Acute Doxorubicin Cardiotoxicity in Mice:  Role of Oxidative Stress and Apoptosis|Toxicol. Appl. Pharmacol.253(1): 70-80|2011|10.1016/j.taap.2011.03.013
158147|T||Ferguson,H.C.|Dilution of Dose and Acute Oral Toxicity|Toxicol. Appl. Pharmacol.4:759-762|1962|10.1016/0041-008X(62)90106-0
158148|A||Joseph,B., and S.J. Raj|Effect of Curacron Toxicity on the Total Serum Protein Content of Cyprinus carpio|Toxicol. Environ. Chem.92(10): 1889-1893|2010|10.1080/02772248.2010.494019
158149|A||Sharma,V., D.P. Singh, and M.C. Bhatnagar|SDH Poisoning in Liver and Muscles of Labeo rohita Exposed to Profenofos|J. Exp. Zool. India11(2): 427-429|2008|
158150|A||Sharma,V., and M.C. Bhatnagar|Effect of Temperature on Toxicity of Pesticides to Carp Group of Fishes|J. Exp. Zool. India13(2): 547-549|2010|
158151|T||Paul,S., and H.S. Gill|Tolerance of Wheat Cultivars to Herbicides|J. Res. Punjab Agric. Univ.19(4): 275-282|1982|
158152|A||Revathi,K., and M.D. Bindhuja|Biochemical Changes in Macrobrachium malcolmsonii Exposed to Organophosphate Profenofos|J. Exp. Zool.11(1): 57-61|2008|
158153|T||Bhattacharya,R., G. Saha, M. Jana, B. Mondal, and D.C. Khatua|Technique for Bioassay of Chemotoxicants Against Phytophthora cinnamomi and Its Laboratory Evaluation|Environ. Ecol.23S(Suppl. 3): 532-537|2005|
158154|A||Pandey,A.K., N.S. Nagpure, and S.P. Trivedi|Haematological Responses in a Freshwater Fish Channa punctatus (Bloch) Exposed to Profenofos|Natl. Acad. Sci. Lett.34(9/10): 359-365|2011|
158155|A||Bhatnagar,M.C., V. Sharma, and D.P. Singh|Loss of Growth Bioindicators in Labeo rohita Exposed to Profenofos|J. Ecophysiol. Occup. Health7(3/4): 129-131|2007|
158156|T||Moustafa,G.G., Z.S. Ibrahim, M.M. Ahmed, M.H. Ghoneim, K.Q. Sakamoto, M. Ishizuka, and S. Fujita|Downregulation of Male-Specific Cytochrome P450 by Profenofos|Jpn. J. Vet. Res.56(2): 109-118|2008|
158157|T||Srivastava,A.K., and A.K. Singh|Effects of Insecticide Profenophos on Germination, Early Growth, Meiotic Behavior and Chlorophyll Mutation of Barley (Hordeum vulgare L.)|Acta Physiol. Plant.31(3): 537-544|2009|10.1007/s11738-008-0263-2
158158|T||Srivastava,R., K.D. Upadhyay, and N. Agrawal|Phytotoxic Effect of Insecticides Mixtures on Chlorophyll Content 'A' in Chickpea Leaves|J. Entomol. Res.30(3): 231-233|2006|
158159|T||Neal,J.C., P.C. Bhowmik, and A.F. Senesac|Factors Influencing Fenoxaprop Efficacy in Cool-Season Turfgrass|Weed Technol.4(2): 272-278|1990|10.1017/S0890037X00025380
158160|T||Rossi,F.S., J.M. Di Tomaso, and J.C. Neal|Fate of Fenoxaprop-Ethyl Applied to Moisture-Stressed Smooth Crabgrass (Digitaria ischaemum)|Weed Sci.41(3): 335-340|1993|10.1017/S0043174500052024
158161|T||Stephenson,G.R., A. Tal, N.A. Vincent, and J.C. Hall|Interactions of Fenoxaprop-Ethyl with Fenchlorazole-Ethyl in Annual Grasses|Weed Technol.7(1): 163-168|1993|10.1017/S0890037X00037064
158162|T||Winton-Daniels,K., R. Frans, and M. McClelland|Herbicide Systems for Johnsongrass (Sorghum halepense) Control in Soybeans (Glycine max)|Weed Technol.4(1): 115-122|1990|10.1017/S0890037X00025094
158163|T||Xie,H.S., A.I. Hsiao, and W.A. Quick|Effect of Shading on Activity of Imazamethabenz and Fenoxaprop in Wild Oat (Avena fatua)|Weed Sci.42(1): 66-69|1994|10.1017/S0043174500084174
158164|T||Ivey,M.C., J.A. DeVaney, G.W. Ivie, and K.R. Beerwinkle|Residues of Stirofos (Rabon) in Eggs of Laying Hens Treated for Northern Fowl Mite Control by Dipping|Poult. Sci.61:443-446|1982|10.3382/ps.0610443
158165|A||Sieratowicz,A., D. Stange, U. Schulte-Oehlmann, and J. Oehlmann|Reproductive Toxicity of Bisphenol A and Cadmium in Potamopyrgus antipodarum and Modulation of Bisphenol A Effects by Different Test Temperature|Environ. Pollut.159(10): 2766-2774|2011|10.1016/j.envpol.2011.05.012
158166|A||Gismondi,E., T. Rigaud, J.N. Beisel, and C. Cossu-Leguille|Microsporidia Parasites Disrupt the Responses to Cadmium Exposure in a Gammarid|Environ. Pollut.160:17-23|2012|10.1016/j.envpol.2011.09.021
158167|AT||Wu,X., Y. Jia, and H. Zhu|Bioaccumulation of Cadmium Bound to Ferric Hydroxide and Particulate Organic Matter by the Bivalve M. meretrix|Environ. Pollut.165:133-139|2012|10.1016/j.envpol.2012.02.023
158168|A||Cortez,F.S., C.D.S. Pereira, A.R. Santos, A. Cesar, R.B. Choueri, G.A. Martini, and M.B. Bohrer-Morel|Biological Effects of Environmentally Relevant Concentrations of the Pharmaceutical Triclosan in the Marine Mussel Perna perna (Linnaeus, 1758)|Environ. Pollut.168:145-150|2012|10.1016/j.envpol.2012.04.024
158169|A||Vellinger,C., M. Parant, P. Rousselle, F. Immel, P. Wagner, and P. Usseglio-Polatera|Comparison of Arsenate and Cadmium Toxicity in a Freshwater Amphipod (Gammarus pulex)|Environ. Pollut.160:66-73|2012|10.1016/j.envpol.2011.09.002
158170|A||Webster,R.E., A.P. Dean, and J.K. Pittman|Cadmium Exposure and Phosphorus Limitation Increases Metal Content in the Freshwater Alga Chlamydomonas reinhardtii|Environ. Sci. Technol.45(17): 7489-7496|2011|10.1021/es200814c
158171|A||Tan,C., W.H. Fan, and W.X. Wang|Role of Titanium Dioxide Nanoparticles in the Elevated Uptake and Retention of Cadmium and Zinc in Daphnia magna|Environ. Sci. Technol.46(1): 469-476|2012|10.1021/es202110d
158172|A||Bigot,A., L. Minguez, L. Giamberini, and F. Rodius|Early Defense Responses in the Freshwater Bivalve Corbicula fluminea Exposed to Copper and Cadmium: Transcriptional and Histochemical Studies|Environ. Toxicol.26(6): 623-632|2011|10.1002/tox.20599
158173|A||Razinger,J., L. Drinovec, and A. Zrimec|Real-Time Visualization of Oxidative Stress in a Floating Macrophyte Lemna minor L. Exposed to Cadmium, Copper, Menadione, and AAPH|Environ. Toxicol.25(6): 573-580|2010|10.1002/tox.20518
158174|A||Hasheesh,W.S., and R.T. Mohamed|Bioassay of Two Pesticides on Bulinus truncatus Snails with Emphasis on Some Biological and Histological Parameters|Pestic. Biochem. Physiol.100(1): 1-6|2011|10.1016/j.pestbp.2011.01.008
158175|A||Devi,V.J., N. Nagarani, M.Y. Babu, N. Vijayalakshimi, and A.K. Kumaraguru|Genotoxic Effects of Profenofos on the Marine Fish, Therapon jarbua|Toxicol. Mech. Methods22(2): 111-117|2012|10.3109/15376516.2011.603393
158176|T||Leonard,B.R., J.B. Graves, T.C. Sparks, and A.M. Pavloff|Susceptibility of Bollworm and Tobacco Budworm Larvae to Pyrethroid and Organophosphate Insecticides|Proc. Beltwide Cotton Conf.:320-324|1987|
158177|T||Suganthi,A., S. Chandrasekaran, A. Regupathy, and S. Kuttalam|Dislodgeable Residues of Profenofos on Jasmine and Risk Assessment of Post Application Exposure to Flower Bud Pickers|Toxicol. Environ. Chem.90(1): 43-49|2008|10.1080/02772240701284147
158178|A||Wang,N., C.G. Ingersoll, C.D. Ivey, D.K. Hardesty, T.W. May, T. Augspurger, A.D. Roberts, E. Van Genderen, and M.C. Bar|Sensitivity of Early Life Stages of Freshwater Mussels (Unionidae) to Acute and Chronic Toxicity of Lead, Cadmium, and Zinc in Water|Environ. Toxicol. Chem.29(9): 2053-2063|2010|10.1002/etc.250
158179|A||Pandey,A.K., N.S. Nagpure, S.P. Trivedi, R. Kumar, B. Kushwaha, and W.S. Lakra|Investigation on Acute Toxicity and Behavioral Changes in Channa punctatus (Bloch) Due to Organophosphate Pesticide Profenofos|Drug Chem. Toxicol.34(4): 424-428|2011|10.3109/01480545.2011.585650
158180|A||Patil,R.D., and V.R. Borane|Assessment of Profenophos Toxicity on Oxygen Consumption in the Freshwater Fish, Rasbora daniconius|J. Ecotoxicol. Environ. Monit.19(6): 617-620|2009|
158182|A||Kumar,A., H. Doan, M. Barnes, J.C. Chapman, and R.S. Kookana|Response and Recovery of Acetylcholinesterase Activity in Freshwater Shrimp, Paratya australiensis (Decapoda:  Atyidae) Exposed to Selected Anti-Cholinesterase Insecticides|Ecotoxicol. Environ. Saf.73(7): 1503-1510|2010|10.1016/j.ecoenv.2010.07.016
158183|A||Golding,L.A., U. Borgmann, and D.G. Dixon|Validation of a Chronic Dietary Cadmium Bioaccumulation and Toxicity Model for Hyalella azteca Exposed to Field-Contaminated Periphyton and Lake Water|Environ. Toxicol. Chem.30(11): 2628-2638|2011|10.1002/etc.651
158184|T||Abdel-Kader,M.I.A., H.M. Abdel-Fattah, and S. Hamida|Antifungal Effects of Bavistin, Cotoran and Curacron when Incorporated with Agar or Liquid Medium|Pak. J. Sci. Res.33(1-4): 57-64|1984|
158185|A||Cain,D., M.N. Croteau, and S. Luoma|Bioaccumulation Dynamics and Exposure Routes of Cd and Cu Among Species of Aquatic Mayflies|Environ. Toxicol. Chem.30(11): 2532-2541|2011|10.1002/etc.663
158186|A||Dutton,J., and N.S. Fisher|Salinity Effects on the Bioavailability of Aqueous Metals for the Estuarine Killifish Fundulus heteroclitus|Environ. Toxicol. Chem.30(9): 2107-2114|2011|10.1002/etc.600
158187|A||Li,X., S. Li, S. Liu, and G. Zhu|Lethal Effect and In Vivo Genotoxicity of Profenofos to Chinese Native Amphibian (Rana spinosa) Tadpoles|Arch. Environ. Contam. Toxicol.59(3): 478-483|2010|10.1007/s00244-010-9495-4
158188|A||Perron,M.M., K.T. Ho, M.G. Cantwell, R.M. Burgess, and M.C. Pelletier|Effects of Triclosan on Marine Benthic and Epibenthic Organisms|Environ. Toxicol. Chem.31(8): 1861-1866|2012|10.1002/etc.1884
158189|T||Liu,Y.R., Y.M. Zheng, and J.Z. He|Toxicity of Profenofos to the Springtail, Folsomia candida, and Ammonia-Oxidizers in Two Agricultural Soils|Ecotoxicology21(4): 1126-1134|2012|10.1007/s10646-012-0867-6
158190|T||Hubbard,J., and T. Whitwell|Ornamental Grass Tolerance to Postemergence Grass Herbicides|Hortscience26(12): 1507-1509|1991|10.21273/HORTSCI.26.12.1507
158191|A||Mohamed,A.M., M.A. El-Emam, G.Y. Osman, H. Abdel-Hamid, and R.E.M. Ali|Effect of Basudin, Selecron and the Phytoalkaloid Colchicine (Pesticides) on Biological and Molecular Parameters of Biomphalaria alexandrina Snails|Pestic. Biochem. Physiol.102(1): 68-78|2012|10.1016/j.pestbp.2011.10.013
158192|A||Pandey,A.K., N.S. Nagpure, S.P. Trivedi, R. Kumar, and B. Kushwaha|Profenofos Induced DNA Damage in Freshwater Fish, Channa punctatus (Bloch) Using Alkaline Single Cell Gel Electrophoresis|Mutat. Res., Genet. Toxicol. Environ. Mutagen.726(2): 209-214|2011|10.1016/j.mrgentox.2011.09.011
158193|A||He,J., M. Fan, and X. Liu|Environmental Behavior of Profenofos Under Paddy Field Conditions|Bull. Environ. Contam. Toxicol.84(6): 771-774|2010|10.1007/s00128-010-0023-z
158194|A||Cao,L., W. Huang, X. Shan, Z. Ye, and S. Dou|Tissue-Specific Accumulation of Cadmium and Its Effects on Antioxidative Responses in Japanese Flounder Juveniles|Environ. Toxicol. Pharmacol.33(1): 16-25|2012|10.1016/j.etap.2011.10.003
158195|A||Woods,M., A. Kumar, and R. Correll|Acute Toxicity of Mixtures of Chlorpyrifos, Profenofos, and Endosulfan to Ceriodaphnia dubia|Bull. Environ. Contam. Toxicol.68(6): 801-808|2002|10.1007/s00128-002-0026-5
158196|T||Webster,E.P., R.M. Griffin, and D.C. Blouin|Herbicide Programs for Managing Creeping Rivergrass (Echinochloa polystachya) in Rice|Weed Technol.21(3): 785-790|2007|10.1614/WT-06-177.1
158197|T||Asi,M.R., M.H. Bashir, M. Afzal, M. Ashfaq, and S.T. Sahi|Compatibility of Entomopathogenic Fungi, Metarhizium anisopliae and Paecilomyces fumosoroseus with Selective Insecticides|Pak. J. Bot.42(6): 4207-4214|2010|
158198|T||Abdel-Rahim,G.A., and G.I. Mahmoud|Protective Effects of a Wheat Germ Rich Diet Against the Toxic Influence of Profenofos on Rat Tissue Lipids and Oxidative Pentose Phosphate Shunt Enzymes|Grasas Aceites62(3): 344-352|2011|10.3989/gya.125810
158199|A||Zhang,L., J. Gan, C. Ke, X. Liu, J. Zhao, L. You, J. Yu, and H. Wu|Identification and Expression Profile of a New Cytochrome P450 Isoform (CYP414A1) in the Hepatopancreas of Venerupis (Ruditapes) philippinarum Exposed to Benzo(a)pyrene, Cadmium and Copper|Environ. Toxicol. Pharmacol.33(1): 85-91|2012|10.1016/j.etap.2011.08.015
158200|A||Dabas,A., N.S. Nagpure, R. Kumar, B. Kushwaha, P. Kumar, and W.S. Lakra|Assessment of Tissue-Specific Effect of Cadmium on Antioxidant Defense System and Lipid Peroxidation in Freshwater Murrel, Channa punctatus|Fish Physiol. Biochem.38(2): 469-482|2012|10.1007/s10695-011-9527-7
158201|A||Ghedira,J., J. Jebali, Z. Bouraoui, M. Banni, H. Guerbej, and H. Boussetta|Metallothionein and Metal Levels in Liver, Gills and Kidney of Sparus aurata Exposed to Sublethal Doses of Cadmium and Copper|Fish Physiol. Biochem.36(1): 101-107|2010|10.1007/s10695-008-9295-1
158202|A||Wang,L., L. Pan, N. Liu, D. Liu, C. Xu, and J. Miao|Biomarkers and Bioaccumulation of Clam Ruditapes philippinarum in Response to Combined Cadmium and Benzo(a)Pyrene Exposure|Food Chem. Toxicol.49(12): 3407-3417|2011|10.1016/j.fct.2011.06.015
158203|A||Bere,T., and J.G. Tundisi|Cadmium and Lead Toxicity on Tropical Freshwater Periphyton Communities Under Laboratory-Based Mesocosm Experiments|Hydrobiologia (Multiple Languages)680(1): 187-197|2012|10.1007/s10750-011-0917-8
158204|A||Ahmad,B., T.A. Qureshi, S. Manohar, P. Kaur, and R. Khaliq|Effect of Cadmium Chloride on the Histoarchitecture of Liver and Kidney of a Freshwater Catfish, Clarias batrachus|Int. J. Environ. Sci. Technol. (Tehran)2(2): 531-536|2011|
158205|A||Li,S.P., J.T. Li, J.L. Kuang, H.N. Duan, Y.Q. Zeng, and W.S. Shu|Effects of Species Richness on Cadmium Removal Efficiencies of Algal Microcosms|J. Appl. Ecol.49(1): 261-267|2012|10.1111/j.1365-2664.2011.02091.x
158206|T||Davey,R.B., J.E. George, J.S. Hunter III, and P. Jeannin|Evaluation of a Pour-on Formulation of Fipronil Against Boophilus annulatus (Acari: Ixodidae) Under Natural South Texas Field Conditions|Exp. Appl. Acarol.23:351-364|1999|10.1023/A:1006183419301
158208|AT||Zheng,X., W. Long, Y. Guo, and E. Ma|Effects of Cadmium Exposure on Lipid Peroxidation and the Antioxidant System in Fourth-Instar Larvae of Propsilocerus akamusi (Diptera: Chironomidae) Under Laboratory Conditions|J. Econ. Entomol.104(3): 827-832|2011|10.1603/EC10109
158209|A||Garcia,M.E., A.R. Capitulo, and L. Ferrari|Age Differential Response of Hyalella curvispina to a Cadmium Pulse:  Influence of Sediment Particle Size|Ecotoxicol. Environ. Saf.80:314-320|2012|10.1016/j.ecoenv.2012.03.017
158210|A||Giusto,A., L.A. Somma, and L. Ferrari|Cadmium Toxicity Assessment in Juveniles of the Austral South America Amphipod Hyalella curvispina|Ecotoxicol. Environ. Saf.79:163-169|2012|10.1016/j.ecoenv.2011.12.020
158211|A||Zhang,H., H. Cao, Y. Meng, G. Jin, and M. Zhu|The Toxicity of Cadmium (Cd2+) Towards Embryos and Pro-larva of Soldatov's Catfish (Silurus soldatovi)|Ecotoxicol. Environ. Saf.80:258-265|2012|10.1016/j.ecoenv.2012.03.013
158212|AT||Barjhoux,I., M. Baudrimont, B. Morin, L. Landi, P. Gonzalez, and J. Cachot|Effects of Copper and Cadmium Spiked-Sediments on Embryonic Development of Japanese Medaka (Oryzias latipes)|Ecotoxicol. Environ. Saf.79:272-282|2012|10.1016/j.ecoenv.2012.01.011
158213|A||Anselmo,H.M.R., L. Koerting, S. Devito, J.H.J. Van den Berg, M. Dubbeldam, C. Kwadijk, and A.J. Murk|Early Life Developmental Effects of Marine Persistent Organic Pollutants on the Sea Urchin Psammechinus miliaris|Ecotoxicol. Environ. Saf.74(8): 2182-2192|2011|10.1016/j.ecoenv.2011.07.037
158214|AT||Faupel,M., K. Ristau, and W. Traunspurger|Biomass Estimation Across the Benthic Community in Polluted Freshwater Sediment - a Promising Endpoint in Microcosm Studies?|Ecotoxicol. Environ. Saf.74(7): 1942-1950|2011|10.1016/j.ecoenv.2011.06.022
158215|T||Pivonia,S., Z. Gerstl, A. Maduel, R. Levita, and R. Cohen|Management of Monosporascus Sudden Wilt of Melon by Soil Application of Fungicides|Eur. J. Plant Pathol.128(2): 201-209|2010|10.1007/s10658-010-9644-7
158216|A||Qin,Q., S. Qin, L. Wang, and W. Lei|Immune Responses and Ultrastructural Changes of Hemocytes in Freshwater Crab Sinopotamon henanense Exposed to Elevated Cadmium|Aquat. Toxicol.106/107:140-146|2012|10.1016/j.aquatox.2011.08.013
158217|A||Verheyen,L., R. Merckx, and E. Smolders|A Resin-Buffered Nutrient Solution for Controlling Metal Speciation in the Algal Bottle Assay|Aquat. Toxicol.114:200-205|2012|10.1016/j.aquatox.2012.02.021
158218|A||Martinez-Guitarte,J.L., R. Planello, and G. Morcillo|Overexpression of Long Non-Coding RNAs Following Exposure to Xenobiotics in the Aquatic Midge Chironomus riparius|Aquat. Toxicol.110/111:84-90|2012|10.1016/j.aquatox.2011.12.013
158219|A||Liu,F., and W.X. Wang|Metallothionein-Like Proteins Turnover, Cd and Zn Biokinetics in the Dietary Cd-Exposed Scallop Chlamys nobilis|Aquat. Toxicol.105(3/4): 361-368|2011|10.1016/j.aquatox.2011.07.011
158220|A||Xie,L., and D.B. Buchwalter|Cadmium Exposure Route Affects Antioxidant Responses in the Mayfly Centroptilum triangulifer|Aquat. Toxicol.105(3/4): 199-205|2011|10.1016/j.aquatox.2011.06.009
158221|A||Wang,L., S.M. Harris, H.M. Espinoza, V. McClain, and E.P. Gallagher|Characterization of Phospholipid Hydroperoxide Glutathione Metabolizing Peroxidase (GPX4) Isoforms in Coho Salmon Olfactory and Liver Tissues and Their Modulation by Cadmium|Aquat. Toxicol.114/115:134-141|2012|10.1016/j.aquatox.2012.02.025
158222|A||Proia,L., C. Vilches, C. Boninneau, L. Kantiani, M. Farre, A.M. Romani, S. Sabater, and H. Guasch|Drought Episode Modulates the Response of River Biofilms to Triclosan|Aquat. Toxicol.127:36-45|2012|10.1016/j.aquatox.2012.01.006
158223|A||Alsop,D., and C.M. Wood|Metal Uptake and Acute Toxicity in Zebrafish:  Common Mechanisms Across Multiple Metals|Aquat. Toxicol.105(3/4): 385-393|2011|10.1016/j.aquatox.2011.07.010
158224|A||Spann,N., D.C. Aldridge, J.L. Griffin, and O.A.H. Jones|Size-Dependent Effects of Low Level Cadmium and Zinc Exposure on the Metabolome of the Asian Clam, Corbicula fluminea|Aquat. Toxicol.105(3/4): 589-599|2011|10.1016/j.aquatox.2011.08.010
158225|A||Kamunde,C., and R. MacPhail|Subcellular Interactions of Dietary Cadmium, Copper and Zinc in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.105(3/4): 518-527|2011|10.1016/j.aquatox.2011.08.005
158226|A||Liu,D., B. Yan, J. Yang, W. Lei, and L. Wang|Mitochondrial Pathway of Apoptosis in the Hepatopancreas of the Freshwater Crab Sinopotamon yangtsekiense Exposed to Cadmium|Aquat. Toxicol.105(3/4): 394-402|2011|10.1016/j.aquatox.2011.07.013
158227|A||Hartmann,N.B., S. Legros, F. Der Kammer, T. Hofmann, and A. Baun|The Potential of TiO2 Nanoparticles as Carriers for Cadmium Uptake in Lumbriculus variegatus and Daphnia magna|Aquat. Toxicol.118/119:1-8|2012|10.1016/j.aquatox.2012.03.008
158228|A||Riva,C., S. Cristoni, and A. Binelli|Effects of Triclosan in the Freshwater Mussel Dreissena polymorpha:  A Proteomic Investigation|Aquat. Toxicol.118-119:62-71|2012|10.1016/j.aquatox.2012.03.013
158229|A||Kumar,D., A. Yadav, and J.P. Gaur|Growth, Composition and Metal Removal Potential of a Phormidium bigranulatum-Dominated Mat at Elevated Levels of Cadmium|Aquat. Toxicol.116/117:24-33|2012|10.1016/j.aquatox.2012.02.011
158230|A||Boets,P., K. Lock, P.L.M. Goethals, C.R. Janssen, and K.A.C. De Schamphelaere|A Comparison of the Short-Term Toxicity of Cadmium to Indigenous and Alien Gammarid Species|Ecotoxicology21(4): 1135-1144|2012|10.1007/s10646-012-0868-5
158231|A||Schultz,M.M., S.E. Bartell, and H.L. Schoenfuss|Effects of Triclosan and Triclocarban, Two Ubiquitous Environmental Contaminants, on Anatomy, Physiology, and Behavior of the Fathead Minnow (Pimephales promelas)|Arch. Environ. Contam. Toxicol.63(1): 114-124|2012|10.1007/s00244-011-9748-x
158232|T||Bhamburkar,M.W.|Comparative Efficacy of Synthetic Pyrethroids for the Control of Bollworms of Cotton|Pesticides 22(1): 7-9|1988|
158233|T||Deng,W., A. Lin, A. Yi, D. Wu, L. Feng, Y. Hu, Y. Dong, and J. Mo|Liquid Chemicals for Inhibiting the Damage of Odontotermes formosanus and Macrotermes barneyi (Isoptera: Termitidae) to Trees|Sociobiology58(1): 31-35|2011|
158234|A||Wu,J.P., H.C. Chen, and M.H. Li|Bioaccumulation and Toxicodynamics of Cadmium to Freshwater Planarian and the Protective Effect of N-Acetylcysteine|Arch. Environ. Contam. Toxicol.63(2): 220-229|2012|10.1007/s00244-012-9764-5
158235|T||Amaravathi,P., and C. Srilatha|Endocrine Disturbances in Induced Fenvalerate Toxicity in Rats and Its Amelioration with Withania somnifera|Vet. World3(3): 126-128|2010|
158236|T||Giri,A., S. Giri, and G.D. Sharma|Malathion and Fenvalerate Induce Micronuclei in Mouse Bone Marrow Cells|Environ. Mol. Mutagen.52(8): 607-613|2011|10.1002/em.20649
158237|A||Cirillo,T., R.A. Cocchieri, E. Fasano, A. Lucisano, S. Tafuri, M.C. Ferrante, E. Carpene, G. Andreani, and G. Isani|Cadmium Accumulation and Antioxidant Responses in Sparus aurata Exposed to Waterborne Cadmium|Arch. Environ. Contam. Toxicol.62(1): 118-126|2012|10.1007/s00244-011-9676-9
158238|T||He,J., J.F. Chen, R. Liu, L. Song, H.C. Chang, and X.R. Wang|Fenvalerate-Induced Alterations in Calcium Homeostasis in Rat Ovary|Biomed. Environ. Sci.19(1): 15-20|2006|
158239|A||Jayakumar,K., and C. Kandeepan|Protein-Carbohydrate Ratio in the Tadpoles of Toad Bufo bufo as an Index of Toxic Stress|J. Ecotoxicol. Environ. Monit.19(5): 457-460|2009|
158240|T||Joussen,N., S. Agnolet, S. Lorenz, S.E. Schone, R. Ellinger, B. Schneider, and D.G. Heckel|Resistance of Australian Helicoverpa armigera to Fenvalerate is Due to the Chimeric P450 Enzyme CYP337B3|Proc. Natl. Acad. Sci. U.S.A.109(38): 15206-15211|2012|10.1073/pnas.1202047109
158241|T||Knight,A.L.|Cross-Resistance Between Azinphos-Methyl and Acetamiprid in Populations of Codling Moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae), from Washington State|Pest Manag. Sci.66(8): 865-874|2010|10.1002/ps.1955
158242|T||Xue,M., Y.H. Pang, Q.L. Li, and T.X. Liu|Effects of Four Host Plants on Susceptibility of Spodoptera litura (Lepidoptera: Noctuidae) Larvae to Five Insecticides and Activities of Detoxification Esterases|Pest Manag. Sci.66(12): 1273-1279|2010|10.1002/ps.2005
158243|T||Bowman,J.S.|Early Season ECB Control on Sweet Corn, 1991|Insectic. Acaric. Tests17:101-102|1992|
158244|A||Ranatunge,R.A.A.R., M.R. Wijesinghe, W.D. Ratnasooriya, H.A.S.G. Dharmarathne, and R.D. Wijesekera|Cadmium-Induced Toxicity on Larvae of the Common Asian Toad Duttaphrynus melanostictus (Schneider 1799): Evidence from Empirical Trials|Bull. Environ. Contam. Toxicol.89(1): 143-146|2012|10.1007/s00128-012-0635-6
158245|A||Foit,K., O. Kaske, and M. Liess|Competition Increases Toxicant Sensitivity and Delays the Recovery of Two Interacting Populations|Aquat. Toxicol.106:25-31|2012|10.1016/j.aquatox.2011.09.012
158246|A||Seebaugh,D.R., W.G. Wallace, W.J. L'Amoreaux, and G.M. Stewart|Carbon Assimilation and Digestive Toxicity in Naive Grass Shrimp (Palaemonetes pugio) Exposed to Dietary Cadmium|Bull. Environ. Contam. Toxicol.88(3): 449-455|2012|10.1007/s00128-011-0493-7
158247|T||Felland,C.M., and L.A. Hull|TABM Greenhouse Ground Cover Test, 1990|Insectic. Acaric. Tests16:291-|1991|10.1093/iat/16.1.291a
158248|A||Chouchene,L., M. Banni, A. Kerkeni, K. Said, and I. Messaoudi|Cadmium-Induced Ovarian Pathophysiology is Mediated by Change in Gene Expression Pattern of Zinc Transporters in Zebrafish (Danio rerio)|Chem.-Biol. Interact.193(2): 172-179|2011|10.1016/j.cbi.2011.06.010
158249|T||Funderburk,J.E., D.W. Gorbet, and A.L. Brown|Corn Earworm and Fall Armyworm Control in Peanuts in North Florida, 1989|Insectic. Acaric. Tests16:204-205|1999|10.1093/iat/16.1.204
158250|T||Gao,X., Q. Wang, J. Wang, C. Wang, L. Lu, R. Gao, F. Huan, D. Dixon, and H. Xiao|Expression of Calmodulin in Germ Cells is Associated with Fenvalerate-Induced Male Reproductive Toxicity|Arch. Toxicol.86(9): 1443-1451|2012|10.1007/s00204-012-0825-3
158251|A||Mohapatra,S., T. Chakraborty, A.K. Prusty, K. Kumar, K. Pani Prasad, and K.N. Mohanta|Fenvalerate Induced Stress Mitigation by Dietary Supplementation of Multispecies Probiotic Mixture in a Tropical Freshwater Fish, Labeo rohita (Hamilton)|Pestic. Biochem. Physiol.104(1): 28-37|2012|10.1016/j.pestbp.2012.06.006
158252|A||Boltes,K., R. Rosal, and E. Garcia-Calvo|Toxicity of Mixtures of Perfluorooctane Sulphonic Acid with Chlorinated Chemicals and Lipid Regulators|Chemosphere86(1): 24-29|2012|10.1016/j.chemosphere.2011.08.041
158253|T||Shi,X.D., H.J. Bi, H.L. Fu, L.Y. Li, D.K. Liu, and J.M. Li|Effect of Low-Dose Fenvalerate on Semen Quality Capacitation in Adult Mice|Chin. Med. J.124(10): 1529-1533|2011|
158254|T||Sharma,J.P., and R.A. Agarwal|Effects of Three Synthetic Pyrethroids and Carbaryl on the Incidence of Bollworms and Yield of Cotton (Gossypium hirsutum)|Indian J. Agric. Sci.58(4): 326-329|1988|
158255|T||Meyers,H.B., D.R. Johnson, and C.D. Klein|Efficacy of Various Insecticide and Insecticide Combinations Against Bollworm and Tobacco Budworm, 1995|Arthropod Manag. Tests21:256-257|1996|10.1093/amt/21.1.256
158256|A||Adiele,R.C., D. Stevens, and C. Kamunde|Cadmium- and Calcium-Mediated Toxicity in Rainbow Trout (Oncorhynchus mykiss) In Vivo:  Interactions on Fitness and Mitochondrial Endpoints|Chemosphere85(10): 1604-1613|2011|10.1016/j.chemosphere.2011.08.007
158257|T||Zehnder,G.W., and J. Speese III|Cucumber Beetle Control, 1990|Insectic. Acaric. Tests16:84-|1991|10.1093/iat/16.1.84
158258|A||Zhu,B., K.S. Gao, K.J. Wang, C.H. Ke, and H.Q. Huang|Gonad Differential Proteins Revealed with Proteomics in Oyster (Saccostrea cucullata) Using Alga as Food Contaminated with Cadmium|Chemosphere87(4): 397-403|2012|10.1016/j.chemosphere.2011.12.032
158259|A||Li,L., X. Liu, L. You, L. Zhang, J. Zhao, and H. Wu|Uptake Pathways and Subcellular Fractionation of Cd in the Polychaete Nereis diversicolor|Ecotoxicology21(1): 104-110|2012|10.1007/s10646-011-0770-6
158260|T||Wang,J.H., L.S. Zhu, W. Liu, J. Wang, and H. Xie|Biochemical Responses of Earthworm (Eisenia foetida) to the Pesticides Chlorpyrifos and Fenvalerate|Toxicol. Mech. Methods22(3): 236-241|2012|10.3109/15376516.2011.640718
158261|T||Ramana,V.V., G.P.V. Reddy, and M.M.K. Murthy|Synthetic Pyrethroids and Other Bait Formulations in the Control of Spodoptera litura Fab. Attacking Rabi Groundnut|Pesticides 22(1): 13-16|1988|
158262|A||Liang,X., X. Nie, G. Ying, T. An, and K. Li|Assessment of Toxic Effects of Triclosan on the Swordtail Fish (Xiphophorus helleri) by a Multi-Biomarker Approach|ChemospherePRESS:|2013|
158263|A||Bjergager,M.B.A., M.L. Hanson, K.R. Solomon, and N. Cedergreen|Synergy Between Prochloraz and Esfenvalerate in Daphnia magna from Acute and Subchronic Exposures in the Laboratory and Microcosms|Aquat. Toxicol.110:17-24|2012|10.1016/j.aquatox.2011.12.001
158264|T||Wise,J.C., P.E. Jenkins, R. Vander Poppen, and R. Isaacs|Activity of Broad-Spectrum and Reduced-Risk Insecticides on Various Life Stages of Cranberry Fruitworm (Lepidoptera: Pyralidae) in Highbush Blueberry|J. Econ. Entomol.103(5): 1720-1728|2010|10.1603/EC10079
158266|T||Xu,L.C., N.Y. Zhan, R. Liu, L. Song, and X.R. Wang|Joint Action of Phoxim and Fenvalerate on Reproduction in Male Rats|Asian J. Androl.6(4): 337-341|2004|
158267|T||Jones,M.M., J.L. Robertson, and R.A. Weinzierl|Toxicity of Thiamethoxam and Mixtures of Chlorantraniliprole Plus Acetamiprid, Esfenvalerate, or Thiamethoxam to Neonates of Oriental Fruit Moth (Lepidoptera: Tortricidae)|J. Econ. Entomol.105(4): 1426-1431|2012|10.1603/EC11349
158268|A||Datta,M., and A. Kaviraj|Acute Toxicity of the Synthetic Pyrethroid Pesticide Fenvalerate to Some Air Breathing Fishes|Toxicol. Environ. Chem.93(10): 2034-2039|2011|10.1080/02772248.2011.626416
158269|A||Figueira,E., P. Cardoso, and R. Freitas|Ruditapes decussatus and Ruditapes philippinarum Exposed to Cadmium:  Toxicological Effects and Bioaccumulation Patterns|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(2): 80-86|2012|10.1016/j.cbpc.2012.04.004
158270|A||Wu,S.M., P.R. Tsai, and C.J. Yan|Maternal Cadmium Exposure Induces MT2 and SMTB mRNA Expression in Zebrafish (Danio rerio) Females and Their Offspring|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(1): 1-6|2012|10.1016/j.cbpc.2012.02.001
158271|A||Peles,J.D., D.H. Pistole, and M. Moffe|Influence of Cadmium Concentration and Length of Exposure on Metabolic Rate and Gill Na+/K+ ATPase Activity of Golden Shiners (Notemigonus crysoleucas)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(1): 24-28|2012|10.1016/j.cbpc.2012.03.003
158272|T||Ziezold,A.M.|Chemical Control of Disappearing Root Rot of Ginseng Caused by Cylindrocarpon destructans|M.S. Thesis, University of Guelph, Ontario, Canada:106 p. |1998|
158273|A||Martins,I., R. Bettencourt, A. Colaco, P.M. Sarradin, R.S. Santos, and R. Cosson|The Influence of Nutritional Conditions on Metal Uptake by the Mixotrophic Dual Symbiosis Harboring Vent Mussel Bathymodiolus azoricus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(1): 40-52|2011|10.1016/j.cbpc.2010.08.004
158274|A||Zhang,L., L. Qiu, H. Wu, X. Liu, L. You, D. Pei, L. Chen, Q. Wang, and J. Zhao|Expression Profiles of Seven Glutathione S-Transferase (GST) Genes from Venerupis philippinarum Exposed to Heavy Metals and Benzo(a)pyrene|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(3): 517-527|2012|10.1016/j.cbpc.2012.01.002
158275|A||Nair,P.M.G., and J. Choi|Effects of Cadmium Chloride and Nonylphenol on the Expression of StAR-Related Lipid Transfer Domain Containing Protein (START1) Gene in Aquatic Midge, Chironomus riparius|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 369-374|2012|10.1016/j.cbpc.2011.10.007
158276|A||Kim,B.M., J.S. Rhee, J.S. Seo, I.C. Kim, Y.M. Lee, and J.S. Lee|8-Oxoguanine DNA Glycosylase 1 (OGG1) from the Copepod Tigriopus japonicus:  Molecular Characterization and Its Expression in Response to UV-B and Heavy Metals|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 290-299|2012|10.1016/j.cbpc.2011.09.010
158277|T||Roe,R.M., H.P. Young, T. Iwasa, C.F. Wyss, C.F. Stumpf, T.C. Sparks, G.B. Watson, J.J. Sheets, and G.D. Thompson|Mechanism of Resistance to Spinosyn in the Tobacco Budworm, Heliothis virescens|Pestic. Biochem. Physiol.96(1): 8-13|2010|10.1016/j.pestbp.2009.08.009
158278|A||Dorts,J., A. Bauwin, P. Kestemont, S. Jolly, W. Sanchez, and F. Silvestre|Proteasome and Antioxidant Responses in Cottus gobio During a Combined Exposure to Heat Stress and Cadmium|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 318-324|2012|10.1016/j.cbpc.2011.10.003
158279|A||Xuan,R., L. Wang, M. Sun, G. Ren, and M. Jiang|Effects of Cadmium on Carbohydrate and Protein Metabolisms in the Freshwater Crab Sinopotamon yangtsekiense|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(3): 268-274|2011|10.1016/j.cbpc.2011.06.005
158280|A||Nair,P.M.G., S.Y. Park, and J. Choi|Expression of Catalase and Glutathione S-Transferase Genes in Chironomus riparius on Exposure to Cadmium and Nonylphenol|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(4): 399-408|2011|10.1016/j.cbpc.2011.07.008
158281|A||Lin,Y.S., S.C. Tsai, H.C. Lin, C.D. Hsiao, and S.M. Wu|Changes of Glycogen Metabolism in the Gills and Hepatic Tissue of Tilapia (Oreochromis mossambicus) During Short-Term Cd Exposure|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(4): 296-304|2011|10.1016/j.cbpc.2011.06.014
158282|A||Paul-Pont,I., P. Gonzalez, N. Montero, X. De Montaudouin, and M. Baudrimont|Cloning, Characterization and Gene Expression of a Metallothionein Isoform in the Edible Cockle Cerastoderma edule After Cadmium or Mercury Exposure|Ecotoxicol. Environ. Saf.75(1): 119-126|2012|10.1016/j.ecoenv.2011.08.025
158283|A||Strady,E., J. Schafer, M. Baudrimont, and G. Blanc|Tracing Cadmium Contamination Kinetics and Pathways in Oysters (Crassostrea gigas) by Multiple Stable Cd Isotope Spike Experiments|Ecotoxicol. Environ. Saf.74(4): 600-606|2011|10.1016/j.ecoenv.2010.10.020
158285|T||Phadke,A.D., V.S. Khandal, and S.R. Rahalkar|Use of a Neem Product in Insecticide Resistance Management (IRM) in Cotton|Pesticides 22(4): 36-37|1988|
158286|T||Guillebeau,L.P., J.N. All, and A.M. Javid|Influence of Weather on Efficacy of Pyrethroid Insecticides for Boll Weevil (Coleoptera: Curculionidae) and Bollworm (Lepidoptera: Noctuidae) in Cotton |J. Econ. Entomol.82(1): 291-297|1989|10.1093/jee/82.1.291
158287|T||Hoy,C.W., and T.T. Vaughn|Colorado Potato Beetle Control, 1991|Insectic. Acaric. Tests17:126-127|1992|10.1093/iat/17.1.126
158288|T||Kerns,D.L.|Control of Lepidopterous Larvae and Leafminers in Lettuce, 1995|Arthropod Manag. Tests21:117-118|1996|10.1093/amt/21.1.117
158289|T||Roberts,P.M., J.N. All, and B.H. Tanner|Control of Corn Earworm and Fall Armyworm in Sweetcorn, 1991|Insectic. Acaric. Tests17:108-|1992|10.1093/iat/17.1.108
158290|T||Schuster,D.J.|Insect Control on Fresh Market Tomatoes in West-Central Florida, Fall 1994|Arthropod Manag. Tests21:187-188|1996|10.1093/amt/21.1.187
158291|T||Story,R.N., A. Hammond, and M.J. Murray|Evaluation of Selected Foliar Insecticides on Sweetpotato Weevil, Banded Cucumber Beetle, and White Grub on Sweetpotatoes, 1995|Arthropod Manag. Tests22:172-|1997|10.1093/amt/22.1.172
158292|T||Zhao,X.F., Q. Wang, Y.L. Ji, H. Wang, P. Liu, C. Zhang, Y. Zhang, and D.X. Xu|Fenvalerate Induces Germ Cell Apoptosis in Mouse Testes Through the Fas/FasL Signaling Pathway|Arch. Toxicol.85(9): 1101-1108|2011|10.1007/s00204-011-0654-9
158293|T||Zhou,J., G. Zhang, and Q. Zhou|Molecular Characterization of Cytochrome P450 CYP6B47 cDNAs and 5'-Flanking Sequence from Spodoptera litura (Lepidoptera: Noctuidae): Its Response to Lead Stress|J. Insect Physiol.58(5): 726-736|2012|10.1016/j.jinsphys.2012.02.008
158294|A||Parveen,N., and G.G.H.A. Shadab|Cytogenetic Evaluation of Cadmium Chloride on Channa punctatus|J. Environ. Biol.33(3): 663-666|2012|
158295|AT||Huang,G.Y., Y.S. Wang, and G.G. Ying|Cadmium-Inducible BgMT2, a Type 2 Metallothionein Gene from Mangrove Species (Bruguiera gymnorrhiza), Its Encoding Protein Shows Metal-Binding Ability|J. Exp. Mar. Biol. Ecol.405(1/2): 128-132|2011|10.1016/j.jembe.2011.05.034
158296|A||Zeng,J., and W.X. Wang|Temperature and Irradiance Influences on Cadmium and Zinc Uptake and Toxicity in a Freshwater Cyanobacterium, Microcystis aeruginosa|J. Hazard. Mater.190(1-3): 922-929|2011|10.1016/j.jhazmat.2011.04.009
158297|A||Lira,V.F., G.A.P. Santos, S. Derycke, M.E.L. Larrazabal, V.G. Fonseca-Genevois, and T. Moens|Effects of Barium and Cadmium on the Population Development of the Marine Nematode Rhabditis (Pellioditis) marina|Mar. Environ. Res.72(4): 151-159|2011|10.1016/j.marenvres.2011.07.003
158298|A||Van Wijngaarden,R.P.A., G.H.P. Arts, J.D.M. Belgers, H. Boonstra, I. Roessink, A.F.W. Schroer, and T.C.M. Brock|The Species Sensitivity Distribution Approach Compared to a Microcosm Study:  A Case Study with the Fungicide Fluazinam|Ecotoxicol. Environ. Saf.73(2): 109-122|2010|10.1016/j.ecoenv.2009.09.019
158299|A||Vincent-Hubert,F., A. Arini, and C. Gourlay-France|Early Genotoxic Effects in Gill Cells and Haemocytes of Dreissena polymorpha Exposed to Cadmium, B(a)P and a Combination of B(a)P and Cd|Mutat. Res., Genet. Toxicol. Environ. Mutagen.723(1): 26-35|2011|10.1016/j.mrgentox.2011.03.008
158300|A||Xu,X.Y., H.F. Qian, W. Chen, H. Jiang, and Z.W. Fu|Establishment of Real-Time PCR for Analyzing mRNA Abundance in Chlorella vulgaris Exposed to Xenobiotics|Acta Hydrobiol. Sin.34(1): 139-143|2010|10.3724/SP.J.1035.2010.00139
158301|T||Chadwick,A.J.|Use of a 0.25 per cent Fipronil Pump Spray Formulation to Treat Canine Cheyletiellosis|J. Small Anim. Pract.38:261-262|1997|10.1111/j.1748-5827.1997.tb03364.x
158302|T||Postal,J.M.R., P.C. Jeannin, and P.J. Consalvi|Field Efficacy of a Mechanical Pump Spray Formulation Containing 0.25% Fipronil in the Treatment and Control of Flea Infestation and Associated Dermatological Signs in Dogs and Cats|Vet. Dermatol.6(3): 153-158|1995|10.1111/j.1365-3164.1995.tb00059.x
158304|T||White,G.L.|Control of the Leaf-Cutting Ants Acromyrmex octospinosus (Reich), and Atta cephalotes (L.), with a Bait of Citrus Meal and Fipronil|Int. J. Pest Manag.44(2): 115-117|1998|10.1080/096708798228419
158305|A||Silvestre,F., H.T. Tu, A. Bernard, J. Dorts, M. Dieu, M. Raes, N.T. Phuong, and P. Kestemont|A Differential Proteomic Approach to Assess the Effects of Chemotherapeutics and Production Management Strategy on Giant Tiger Shrimp Penaeus monodon|Comp. Biochem. Physiol. D Genom. Proteom.5(3): 227-233|2010|10.1016/j.cbd.2010.06.003
158307|A||Roubeix,V., N. Mazzella, B. Mechin, M. Coste, and F. Delmas|Impact of the Herbicide Metolachlor on River Periphytic Diatoms: Experimental Comparison of Descriptors at Different Biological Organization Levels|Ann. Limnol. (Multiple Languages)47(3): 239-249|2011|10.1051/limn/2011009
158308|A||Letendre,J., M. Dupont-Rouzeyrol, A.C. Hanquet, F. Durand, H. Budzinski, P. Chan, D. Vaudry, and B. Rocher|Impact of Toxicant Exposure on the Proteomic Response to Intertidal Condition in Mytilus edulis|Comp. Biochem. Physiol. D Genom. Proteom.6(4): 357-369|2011|10.1016/j.cbd.2011.08.002
158309|A||Kursten,D., J. Cao, A. Funfak, P. Muller, and J.M. Kohler|Cultivation of Chlorella vulgaris in Microfluid Segments and Microtoxicological Determination of Their Sensitivity Against CuCl2 in the Nanoliter Range|Eng. Life Sci.11(6): 580-587|2011|10.1002/elsc.201100023
158310|A||Joshi,P.P., and G.K. Kulkarni|Cypermethrin and Fenvalerate Induced Protein Alterations in Freshwater Crab Barytelphusa cunicularis (Westwood)|Recent Res. Sci. Technol.3(12): 7-10|2011|
158311|A||Haluzova,I., H. Modra, J. Blahova, M. Havelkova, Z. Siroka, and Z. Svobodova|Biochemical Markers of Contamination in Fish Toxicity Tests|Interdisciplinary Toxicol.4(2): 85-89|2011|10.2478/v10102-011-0015-9
158312|A||Chebotareva,Y.V., Y.G. Izyumov, and M.G. Talikina|Some Morphological Features of Roach Rutilus rutilus (Cyprindae) Fry After Exposure to Toxicants in the Early Stages of Ontogenesis (Vertebral Phenotypes, Plastic Features, and Fluctuating Assymetry)|J. Ichthyol.49(2): 200-207|2009|10.1134/S0032945209020076
158313|AT||Faupel,M., and W. Traunspurger|Secondary Production of a Zoobenthic Community Under Metal Stress|Water Res.46(10): 3345-3352|2012|10.1016/j.watres.2012.03.052
158314|A||Li,Z.H., P. Li, and T. Randak|Protective Roles of Calcium Channel Blocker Against Cadmium-Induced Physiological Stress in Freshwater Teleost Oncorhynchus mykiss|Water Air Soil Pollut.220(1-4): 293-299|2011|10.1007/s11270-011-0754-4
158316|A||Bere,T., and J.G. Tundisi|Toxicity and Sorption Kinetics of Dissolved Cadmium and Chromium III on Tropical Freshwater Phytoperiphyton in Laboratory Mesocosm Experiments |Sci. Total Environ.409(22): 4772-4780|2011|10.1016/j.scitotenv.2011.07.055
158317|AT||Dabrin,A., C.L. Durand, J. Garric, O. Geffard, B.J.D. Ferrari, and M. Coquery|Coupling Geochemical and Biological Approaches to Assess the Availability of Cadmium in Freshwater Sediment|Sci. Total Environ.424:308-315|2012|10.1016/j.scitotenv.2012.02.069
158318|A||Sarosiek,B., M. Pietrusewicz, J. Radziwoniuk, and J. Glogowski|The Effect of Copper, Zinc, Mercury and Cadmium on Some Sperm Enzyme Activities in the Common Carp (Cyprinus carpio L.)|Reprod. Biol.9(3): 295-301|2009|10.1016/S1642-431X(12)60033-3
158319|A||Deng,L., S.A. Senseman, T.J. Gentry, D.A. Zuberer, T.L. Weiss, T.P. Devarenne, and E.R. Camargo|Effect of Selected Herbicides on Growth and Hydrocarbon Content of Botryococcus braunii (Race B)|Ind. Crops Prod.39:154-161|2012|10.1016/j.indcrop.2012.02.031
158320|A||Casellato,S., L. Masiero, and L. Ballarin|Toxicity of Fluoride to the Freshwater Mollusc Dreissena polymorpha: Effects on Survival, Histology, and Antioxidant Enzyme Activity|Fluoride45(1): 35-46|2012|
158321|A||Zhang,L., X. Liu, L. You, D. Zhou, J. Yu, J. Zhao, J. Feng, and H. Wu|Toxicological Effects Induced by Cadmium in Gills of Manila Clam Ruditapes philippinarum Using NMR-Based Metabolomics|Clean - Soil, Air, Water39(11): 989-995|2011|10.1002/clen.201100208
158322|A||Xiang,F., L. Geng, K. Lu, J. Zhang, E.J.A. Minter, and Z. Yang|Effect of Long-Term Nitrite Exposure on the Cladoceran Daphnia obtusa: Survival, Moults, and Reproduction|Biochem. Syst. Ecol.41:98-103|2012|10.1016/j.bse.2011.12.006
158323|A||Chan,D., J.A. Tarbin, G. Stubbings, J. Kay, and M. Sharman|Analysis of Incurred Crystal Violet in Atlantic Salmon (Salmo salar L.): Comparison Between the Analysis of Crystal Violet as an Individual Parent and Leucocrystal Violet and as Total Crystal Violet After Oxidation with|Food Addit. Contam. Part A29(1): 66-72|2012|
158324|A||Veauvy,C.M., P.J. Walsh, and M.D. McDonald|Effect of Elevated Ammonia on Tissue Nitrogen Metabolites in the Ureotelic Gulf Toadfish (Opsanus beta) and the Ammoniotelic Midshipman (Porichthys notatus)|Physiol. Biochem. Zool.82(4): 345-352|2009|10.1086/588829
158325|A||Aktac,T., E. Bakar, and U. Guner|The Effects of Short-Term Exposure to Cadmium and Copper on Sialic Acid in Carp (Cyprinus carpio) Tissues|Fresenius Environ. Bull.19(3): 432-437|2010|
158326|A||Gundogdu,A., O. Yardim, L. Bat, and S.T. Culha|Accumulation of Zinc in Liver and Muscle Tissues of Rainbow Trout (Onchorhyncus mykiss Walbaum 1792)|Fresenius Environ. Bull.18(1): 40-44|2009|
158327|A||Gungordu,A., A. Birhanli, and M. Ozmen|Assessment of Embryotoxic Effects of Cadmium, Lead and Copper on Xenopus laevis|Fresenius Environ. Bull.19(11): 2528-2535|2010|
158328|A||Klinck,J.S., T.Y.T. Ng, and C.M. Wood|Cadmium Accumulation and In Vitro Analysis of Calcium and Cadmium Transport Functions in the Gastro-Intestinal Tract of Trout Following Chronic Dietary Cadmium and Calcium Feeding|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(3): 349-360|2009|10.1016/j.cbpc.2009.05.018
158329|A||Wolf,R.E., A.S. Todd, S. Brinkman, P.J. Lamothe, K.S. Smith, and J.F. Ranville|Measurement of Total Zn and Zn Isotope Ratios by Quadrupole ICP-MS for Evaluation of Zn Uptake in Gills of Brown Trout (Salmo trutta) and Rainbow Trout (Oncorhynchus mykiss)|Talanta80(2): 676-684|2009|10.1016/j.talanta.2009.07.048
158330|A||Sharma,S., S. Sharma, P.K. Singh, R.C. Swami, and K.P. Sharma|Exploring Fish Bioassay of Textile Dye Wastewaters and Their Selected Constituents in Terms of Mortality and Erythrocyte Disorders|Bull. Environ. Contam. Toxicol.83(1): 29-34|2009|10.1007/s00128-009-9711-y
158331|A||Arnizaut,A.B., and L.A. Hanson|Antibody Response of Channel Catfish After Channel Catfish Virus Infection and Following Dexamethasone Treatment|Dis. Aquat. Org.95(3): 189-201|2011|10.3354/dao02348
158332|A||Jancula,D., P. Mikula, and B. Marsalek|Effects of Polyaluminium Chloride on the Freshwater Invertebrate Daphnia magna|Chem. Ecol.27(4): 351-357|2011|10.1080/02757540.2011.575373
158333|T||Sorensen,K.A., and C.W. Holloway|Eggplant Insect Control, Johnston Co., N.C., 1995|Arthropod Manag. Tests21:116-117|1996|10.1093/amt/21.1.116a
158334|T||Sorensen,K.A., and C.W. Holloway|Colorado Potato Beetle Control with Insecticides, Pasquotank Co., N.C., 1995|Arthropod Manag. Tests21:159-160|1996|10.1093/amt/21.1.159
158335|T||Walgenbach,J.F., and C.R. Palmer|Insect Control on Staked Tomatoes, 1990|Insectic. Acaric. Tests16:121-122|1991|10.1093/iat/16.1.121
158337|T||Nagia,D.K., S. Kumar, P. Sharma, and M.L. Saini|Relative Toxicity of Five Insecticides to Red Cotton Bug, Dysdercus koenigii (Fabricius)|Uttar Pradesh J. Zool.10(1): 76-79|1990|
158338|T||Chandler,L.D., and H.R. Sumner|Effective Use of Chemigation Technology for Managing Soybean Insect Pests, with Notes on Geocoris punctipes (Say)|J. Agric. Entomol.10(2): 125-137|1993|
158339|T||Labanowska,B.H.|Chemical Control of the Strawberry Blossom Weevil (Anthonomus rubi Hbst.) with Some New Insecticides|Fruit Sci. Rep. (Skierniewice)18(1): 45-50|1991|
158340|A||Tan,X.Y., Z. Luo, G.Y. Zhang, X.J. Liu, and M. Jiang|Effect of Dietary Cadmium Level on the Growth, Body Composition and Several Hepatic Enzymatic Activities of Juvenile Yellow Catfish, Pelteobagrus fulvidraco|Aquac. Res.41(7): 1022-1029|2010|
158341|A||Ge,F., Y. Xu, R. Zhu, F. Yu, M. Zhu, and M. Wong|Joint Action of Binary Mixtures of Cetyltrimethyl Ammonium Chloride and Aromatic Hydrocarbons on Chlorella vulgaris|Ecotoxicol. Environ. Saf.73(7): 1689-1695|2010|10.1016/j.ecoenv.2010.06.003
158342|A||Da Silva,J.M., J. Coimbra, and J.M. Wilson|Ammonia Sensitivity of the Glass Eel (Anguilla anguilla L.):  Salinity Dependence and the Role of Branchial Sodium/Potassium Adenosine Triphosphatase|Environ. Toxicol. Chem.28(1): 141-147|2009|10.1897/08-104.1
158343|A||Dehedin,A., C. Piscart, and P. Marmonier|Seasonal Variations of the Effect of Temperature on Lethal and Sublethal Toxicities of Ammonia for Three Common Freshwater Shredders|ChemospherePRESS:7 p.|2012|
158344|A||Braun,M.H., S.L. Steele, and S.F. Perry|The Responses of Zebrafish (Danio rerio) to High External Ammonia and Urea Transporter Inhibition;  Nitrogen Excretion and Expression of Rhesus Glycoproteins and Urea Transporter Proteins|J. Exp. Biol.212:3646-3656|2009|10.1242/jeb.034157
158345|A||Foss,A., A.K. Imsland, B. Roth, E. Schram, and S.O. Stefansson|Effects of Chronic and Periodic Exposure to Ammonia on Growth and Blood Physiology in Juvenile Turbot (Scophthalmus maximus)|Aquaculture296:45-50|2009|10.1016/j.aquaculture.2009.07.013
158346|A||Dayeh,V.R., K. Schirmer, and N.C. Bols|Ammonia-Containing Industrial Effluents, Lethal to Rainbow Trout, Induce Vacuolisation and Neutral Red Uptake in the Rainbow Trout Gill Cell Line, RTgill-W1|Alt. Lab. Anim. (ATLA)37:77-87|2009|10.1177/026119290903700111
158347|T||Sewell,G.H., and R.H. Storch|Irish Potato, Control of Colorado Potato Beetle, 1991|Insectic. Acaric. Tests17:137-|1992|10.1093/iat/17.1.137
158348|T||Forsythe,H.Y.,Jr., and J.A. Collins|Sawfly Control, 1990|Insectic. Acaric. Tests16:37-|1991|10.1093/iat/16.1.37
158349|A||Loong,A.M., Y.R. Chng, S.F. Chew, W.P. Wong, and Y.K. Ip|Molecular Characterization and mRNA Expression of Carbamoyl Phosphate Synthetase III in the Liver of the African Lungfish, Protopterus annectens, During Aestivation or Exposure to Ammonia|J. Comp. Physiol. B Metab. Transp. Funct.182:367-379|2012|10.1007/s00360-011-0626-7
158350|T||Hitchner,E.M., T.P. Kuhar, G.P. Dively, R.R. Youngman, C.R. Philips, and T.D. Anderson|Baseline Toxicity and Field Efficacy of Metaflumizone on Colorado Potato Beetle (Coleoptera: Chrysomelidae)|J. Econ. Entomol.105(1): 207-213|2012|10.1603/EC11103
158351|A||Liakonis,K.M., R. Waagbo, A. Foss, O. Breck, and A.K. Imsland|Effects of Chronic and Periodic Exposures to Ammonia on the Eye Health in Juvenile Atlantic Halibut (Hippoglossus hippoglossus)|Fish Physiol. Biochem.38:421-430|2012|10.1007/s10695-011-9521-0
158352|T||Jenson,E.A., F.H. Arthur, and J.R. Nechols|Efficacy of an Esfenvalerate Plus Methoprene Aerosol for the Control of Eggs and Fifth Instars of Plodia interpunctella (Lepidoptera: Pyralidae)|Insect Sci.17(1): 21-28|2010|10.1111/j.1744-7917.2009.01284.x
158353|A||Loong,A.M., S.F. Chew, W.P. Wong, S.H. Lam, and Y.K. Ip|Both Seawater Acclimation and Environmental Ammonia Exposrue Lead to Increases in mRNA Expression and Protein Abundance of Na+:K+:2Cl- Cotransporter in the Gills of the Climbing Perch, Anabas testudineus|J. Comp. Physiol. B Metab. Transp. Funct.182:491-506|2012|10.1007/s00360-011-0634-7
158354|T||Bishop,B.A., and E. Grafius|An On-Farm Insecticide Resistance Test Kit for Colorado Potato Beetle (Coleoptera:  Chrysomelidae)|Am. Potato J.68(1): 53-64|1991|10.1007/BF02893341
158355|T||Kamei,J., E. Iguchi, M. Sasaki, K. Zushida, K. Morita, and S. Tanaka|Modification of the Fenvalerate-Induced Nociceptive Response in Mice by Diabetes|Brain Res.948(1/2): 17-23|2002|10.1016/S0006-8993(02)02944-X
158356|A||Leung,J., M. Kumar, P. Glatz, and K. Kind|Impacts of Un-Ionized Ammonia in Digested Piggery Effluent on Reproductive Performance and Longevity of Daphnia carinata and Moina australiensis|Aquaculture310:401-406|2011|10.1016/j.aquaculture.2010.11.015
158357|T||Light,D.M., and A.L. Knight|Microencapsulated Pear Ester Enhances Insecticide Efficacy in Walnuts for Codling Moth (Lepidoptera: Tortricidae) and Navel Orangeworm (Lepidoptera: Pyralidae)|J. Econ. Entomol.104(4): 1309-1315|2011|10.1603/EC11058
158358|A||Konnerup,D., and H. Brix|Nitrogen Nutrition of Canna indica:  Effects of Ammonium Versus Nitrate on Growth, Biomass Allocation, Photosynthesis, Nitrate Reductase Activity and N Uptake Rates|Aquat. Bot.92:142-148|2010|10.1016/j.aquabot.2009.11.004
158359|A||Kalogianni,E., M. Alexis, C. Tsangaris, M. Abraham, S.E.W. Bonga, Y. Iger, E.H. Van Ham, and M.T. Stoumboudi|Cellular Responses in the Skin of the Gilthead Sea Bream Sparus aurata L. and the Sea Bass Dicentrarchus labrax (L.) Exposed to High Ammonia|J. Fish Biol.78:1152-1169|2011|10.1111/j.1095-8649.2011.02922.x
158360|A||Walton,R.C., C.R. McCrohan, F. Livens, and K.N. White|Trophic Transfer of Aluminium Through an Aquatic Grazer-Omnivore Food Chain|Aquat. Toxicol.99(1): 93-99|2010|10.1016/j.aquatox.2010.04.003
158361|A||Teraoka,H., A. Ogawa, A. Kubota, J.J. Stegeman, R.E. Peterson, and T. Hiraga|Malformation of Certain Brain Blood Vessels Caused by TCDD Activation of Ahr2/Arnt1 Signaling in Developing Zebrafish|Aquat. Toxicol.99(2): 241-247|2010|10.1016/j.aquatox.2010.05.003
158362|A||Trevisan,R., D.F. Mello, A.S. Fisher, P.M. Schuwerack, A.L. Dafre, and A.J. Moody|Selenium in Water Enhances Antioxidant Defenses and Protects Against Copper-Induced DNA Damage in the Blue Mussel Mytilus edulis|Aquat. Toxicol.101(1): 64-71|2011|10.1016/j.aquatox.2010.09.003
158363|A||Coe,T.S., M.K. Soffker, A.L. Filby, D. Hodgson, and C.R. Tyler|Impacts of Early Life Exposure to Estrogen on Subsequent Breeding Behavior and Reproductive Success in Zebrafish|Environ. Sci. Technol.44(16): 6481-6487|2010|10.1021/es101185b
158365|A||Sarria,M.P., M.M. Santos, M.A. Reis-Henriques, N.M. Vieira, and N.M. Monteiro|The Unpredictable Effects of Mixtures of Androgenic and Estrogenic Chemicals on Fish Early Life|Environ. Int.37(2): 418-424|2011|10.1016/j.envint.2010.11.004
158366|A||Cailleaud,K., H. Budzinski, S. Lardy, S. Augagneur, S. Barka, S. Souissi, and J. Forget-Leray|Uptake and Elimination, and Effect of Estrogen-Like Contaminants in Estuarine Copepods:  An Experimental Study|Environ. Sci. Pollut. Res.18(2): 226-236|2011|10.1007/s11356-010-0355-6
158367|A||Hong,H.S., M.H. Wang, X.G. Huang, and D.Z. Wang|Effects of Macronutrient Additions on Nickel Uptake and Distribution in the Dinoflagellate Prorocentrum donghaiense Lu|Environ. Pollut.157(6): 1933-1938|2009|10.1016/j.envpol.2009.01.009
158368|A||Guler,Y., and A.T. Ford|Anti-Depressants Make Amphipods See the Light|Aquat. Toxicol.99(3): 397-404|2010|10.1016/j.aquatox.2010.05.019
158369|A||Marlatt,V.L., J. Lakoff, K. Crump, C.J. Martyniuk, J. Watt, L. Jewell, S. Atkinson, J.M. Blais, J. Sherry, T.W. Moon, a|Sex- and Tissue-Specific Effects of Waterborne Estrogen on Estrogen Receptor Subtypes and E2-Mediated Gene Expression in the Reproductive Axis of Goldfish|Comp. Biochem. Physiol. A Comp. Physiol.156(1): 92-101|2010|10.1016/j.cbpa.2010.01.001
158370|A||Massari,A., R. Urbatzka, A. Cevasco, L. Canesi, C. Lanza, L. Scarabelli, W. Kloas, and A. Mandich|Aromatase mRNA Expression in the Brain of Adult Xenopus laevis Exposed to Lambro River Water and Endocrine Disrupting Compounds|Gen. Comp. Endocrinol.168(2): 262-268|2010|10.1016/j.ygcen.2010.04.012
158371|A||Aoki,K.A.A., C.A. Harris, I. Katsiadaki, and J.P. Sumpter|Evidence Suggesting that Di-n-Butyl Phthalate has Antiandrogenic Effects in Fish|Environ. Toxicol. Chem.30(6): 1338-1345|2011|10.1002/etc.502
158372|A||Garcia-Santos,S., L. Vargas-Chacoff, I. Ruiz-Jarabo, J.L. Varela, J.M. Mancera, A. Fontainhas-Fernandes, and J.M. Wilso|Metabolic and Osmoregulatory Changes and Cell Proliferation in Gilthead Sea Bream (Sparus aurata) Exposed to Cadmium|Ecotoxicol. Environ. Saf.74(3): 270-278|2011|10.1016/j.ecoenv.2010.08.023
158373|A||Stanley,J.K., A.J. Kennedy, J.D. Farrar, D.R. Mount, and J.A. Steevens|Evaluation of Reduced Sediment Volume Procedures for Acute Toxicity Tests Using the Estuarine Amphipod Leptocheirus plumulosus|Environ. Toxicol. Chem.29(12): 2769-2776|2010|10.1002/etc.333
158374|A||Bahabadi,M.N., A. Shoae, and P.M. Lokman|Effects of Storage Time, Sex Steroids and Media Composition on Egg Viability of Rainbow Trout (Oncorhynchus mykiss)|Aquaculture315(3/4): 306-311|2011|10.1016/j.aquaculture.2011.02.026
158375|T||Langston,D.B.,Jr., P.M. Phipps, and R.J. Stipes|An Algorithm for Predicting Outbreaks of Sclerotinia Blight of Peanut and Improving the Timing of Fungicide Sprays|Plant Dis.86(2): 118-126|2002|10.1094/PDIS.2002.86.2.118
158376|A||Knillmann,S., N.C. Stampfli, M.A. Beketov, and M. Liess|Intraspecific Competition Increases Toxicant Effects in Outdoor Pond Microcosms|Ecotoxicology21(7): 1857-1866|2012|10.1007/s10646-012-0919-y
158377|A||Stampfli,N.C., S. Knillmann, M. Liess, Y.A. Noskov, R.B. Schafer, and M.A. Beketov|Two Stressors and a Community - Effects of Hydrological Disturbance and a Toxicant on Freshwater Zooplankton|Aquat. Toxicol.127:9-20|2013|10.1016/j.aquatox.2012.09.003
158378|T||Barakat,A.A., G.M. Shereef, S.A. Abdallah, and S.A. Amer|Joint Action of Some Pesticides and Plant Extracts Against Tetranychus urticae Koch|Bull. Entomol. Soc. Egypt14:243-250|1984|
158379|A||Knillmann,S., N.C. Stampfli, Y.A. Noskov, M.A. Beketov, and M. Liess|Interspecific Competition Delays Recovery of Daphnia spp. Populations from Pesticide Stress|Ecotoxicology21(4): 1039-1049|2012|10.1007/s10646-012-0857-8
158380|T||Bradshaw,J.D., M.E. Rice, and J.H. Hill|Evaluation of Management Strategies for Bean Leaf Beetles (Coleoptera: Chrysomelidae) and Bean Pod Mottle Virus (Comoviridae) in Soybean   |J. Econ. Entomol.101(4): 1211-1227|2008|10.1093/jee/101.4.1211
158381|A||Martin,M., S. Fehsenfeld, M.M. Sourial, and D. Weihrauch|Effects of High Environmental Ammonia on Branchial Ammonia Excretion Rates and Tissue Rh-Protein mRNA Expression Levels in Seawater Acclimated Dungeness Crab Metacarcinus magister|Comp. Biochem. Physiol. A Comp. Physiol.160:267-277|2011|10.1016/j.cbpa.2011.06.012
158382|A||Moreira-Silva,J., T.K.N. Tsui, J. Coimbra, M.M. Vijayan, Y.K. Ip, and J.M. Wilson|Branchial Ammonia Excretion in the Asian Weatherloach Misgurnus anguillicaudatus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.151(1): 40-50|2010|10.1016/j.cbpc.2009.08.006
158383|A||Sun,H., K. Lu, E.J.A. Minter, Y. Chen, Z. Yang, and D.J.S. Montagnes|Combined Effects of Ammonia and Microcystin on Survival, Growth, Antioxidant Responses, and Lipid Peroxidation of Bighead Carp Hypophthalmythys nobilis Larvae|J. Hazard. Mater.221/222:213-219|2012|10.1016/j.jhazmat.2012.04.036
158384|A||Jampeetong,A., H. Brix, and S. Kantawanichkul|Response of Salvinia cucullata to High NH4+ Concentrations at Laboratory Scales|Ecotoxicol. Environ. Saf.79:69-74|2012|10.1016/j.ecoenv.2011.12.003
158385|A||Jampeetong,A., H. Brix, and S. Kantawanichkul|Effects of Inorganic Nitrogen Forms on Growth, Morphology, Nitrogen Uptake Capacity and Nutrient Allocation of Four Tropical Aquatic Macrophytes (Salvinia cucullata, Ipomoea aquatica, Cyperus involucratus and Vetiveria |Aquat. Bot.97(1): 10-16|2012|10.1016/j.aquabot.2011.10.004
158386|A||Kolarevic,J., H. Takle, O. Felip, E. Ytteborg, R. Selset, C.M. Good, G. Baeverfjord, T. Asgard, and B.F. Terjesen|Molecular and Physiological Responses to Long-Term Sublethal Ammonia Exposure in Atlantic Salmon (Salmo solar)|Aquat. Toxicol.124/125:48-57|2012|10.1016/j.aquatox.2012.07.003
158387|A||Paul-Pont,I., X. De Montaudouin, P. Gonzalez, P. Soudant, and M. Baudrimont|How Life History Contributes to Stress Response in the Manila Clam Ruditapes philippinarum|Environ. Sci. Pollut. Res. Int.17(4): 987-998|2010|10.1007/s11356-009-0283-5
158388|A||Tripathi,G., and A. Shiwanand|Toxicity Bioassay of Ammonia in an Air-Breathing Freshwater Catfish, Clarias batrachus|J. Exp. Zool. India13(2): 393-397|2010|
158389|A||Palanikumar,L., A.K. Kumaraguru, C.M. Ramakritinan, and M. Anand|Genotoxic Assessment of Anthracene and Benzo(a)pyrene to Milkfish Chanos chanos|Toxicol. Environ. Chem.94(2): 350-363|2012|10.1080/02772248.2011.642657
158390|A||Kumar,A., B. Sharma, and R.S. Pandey|Alterations in Nitrogen Metabolism in Freshwater Fishes, Channa punctatus and Clarias batrachus, Exposed to a Commercial-Grade lambda-Cyhalothrin, REEVA-5|Int. J. Exp. Pathol.93(1): 34-45|2012|10.1111/j.1365-2613.2011.00796.x
158391|A||Abhijith,B.D., M. Ramesh, and R.K. Poopal|Sublethal Toxicological Evaluation of Methyl Parathion on Some Haematological and Biochemical Parameters in an Indian Major Carp Catla catla|Comp. Clin. Pathol.21(1): 55-61|2012|10.1007/s00580-010-1064-8
158392|A||O'Shea,S.K., F. Holland, and A. Bilodeau|Modeling the Effects of Salinity and pH on the Cadmium Bioabsorptive Properties of the Microalgae Isochrysis galbana (T-Iso) in Coastal Waters|J. Coast. Res.26(1): 59-66|2010|10.2112/08-1073.1
158393|A||Uysal,Y., and F. Taner|Determination of Growth Rate Change and Accumulation Efficiency of Lemna minor Exposed to Cadmium and Lead Ions|Asian J. Chem.24(3): 1217-1222|2012|
158394|A||Raksheskar,G.A.|Influenced of Cypermethrin on DNA, RNA and RNA/DNA Ratio in Gills of the Freshwater Fish Channa striata|Biosci. Disc.3(1): 17-19|2012|
158395|A||Tsai,J.W., Y.H. Huang, W.Y. Chen, and C.M. Liao|Detoxification and Bioregulation are Critical for Long-Term Waterborne Arsenic Exposure Risk Assessment for Tilapia|Environ. Monit. Assess.184(1): 561-572|2012|10.1007/s10661-011-1988-8
158396|A||Liu,H.J., J.L. Zhang, P. Christie, and F.S. Zhang|Influence of Iron Fertilization on Cadmium Uptake by Rice Seedlings Irrigated with Cadmium Solution|Commun. Soil Sci. Plant Anal.41(5): 584-594|2010|10.1080/00103620903531169
158398|A||Rimet,F., and A. Bouchez|Use of Diatom Life-Forms and Ecological Guilds to Assess Pesticide Contamination in Rivers:  Lotic Mesocosm Approaches|Ecol. Indic.11(2): 489-499|2011|10.1016/j.ecolind.2010.07.004
158399|A||Soto-Jimenez,M.F., C. Arellano-Fiore, R. Rocha-Velarde, M.E. Jara-Marini, J. Ruelas-Inzunza, and F. Paez-Osuna|Trophic Transfer of Lead Through a Model Marine Four-Level Food Chain:  Tetraselmis suecica, Artemia franciscana, Litopenaeus vannamei, and Haemulon scudderi|Arch. Environ. Contam. Toxicol.61(2): 280-291|2011|10.1007/s00244-010-9620-4
158400|A||Kalimuthu,M., and R.S. Pandian|Toxicological Effect of an Insecticide that Contains Organochlorine and Pyrethroid on the Biochemical Constituents of Aquatic Insect, Diplonychus rusticus (Fabr.)|Curr. Biotica4(1): 10-22|2010|
158401|A||Peng,X., S. Palma, N.S. Fisher, and S.S. Wong|Effect of Morphology of ZnO Nanostructures on Their Toxicity to Marine Algae|Aquat. Toxicol.102(3/4): 186-196|2011|10.1016/j.aquatox.2011.01.014
158402|A||Patra,M., X. Ma, C. Isaacson, D. Bouchard, H. Poynton, J.M. Lazorchak, and K.R. Rogers|Changes in Agglomeration of Fullerenes During Ingestion and Excretion in Thamnocephalus platyurus|Environ. Toxicol. Chem.30(4): 828-835|2011|10.1002/etc.468
158403|A||Simmons,D.B.D., and D. Wallschlager|Release of Reduced Inorganic Selenium Species into Waters by the Green Fresh Water Algae Chlorella vulgaris|Environ. Sci. Technol.45(6): 2165-2171|2011|10.1021/es103337p
158404|T||Christian,M., H. Young, H. Yang, and L. Olive|Fipronil Insecticides for Early Season Thrips Control Across the Cotton Belt|Proc. Beltwide Cotton Conf.:1168-1171|1997|
158406|T||Hamon,N.M., H. Gamboa, and J.E.M. Garcia|Fipronil:  A Major Advance for the Control of Boll Weevil in Colombia|Proc. Beltwide Cotton Conf.2:990-994|1996|
158407|T||Mulrooney,J.E., D.A. Wolfenbarger, K.D. Howard, and D. Goli|Efficacy of Ultra Low Volume and High Volume Applications of Fipronil Against the Boll Weevil|J. Cotton Sci.2(3): 110-116|1998|
158408|T||Nuttall,T.J., A.T. French, H.C. Cheetham, and F.J. Proctor|Treatment of Trombicula autumnalis Infestation in Dogs and Cats with a 0.25 per cent Fipronil Pump Spray|J. Small Anim. Pract.39:237-239|1998|10.1111/j.1748-5827.1998.tb03641.x
158409|T||Scott,W.P., G.L. Snodgrass, and D.A. Adams|Mortality of Tarnished Plant Bug and Boll Weevils to Provado and Different Formulations of Fipronil|Proc. Beltwide Cotton Conf.2:987-990|1997|
158410|T||Shaw,R., H.S. Yang, B.K. Rowe, H.R. Smith, and B. Deeter|Summary of Research Results with Fipronil for Control of Plant Bugs on Cotton|Proc. Beltwide Cotton Conf.2:1043-1046|1997|
158411|T||Sparks,A.N.Jr., J.W. Norman, D.W. Spurgeon, and J.R. Raulston|Comparative Efficacy of Fipronil and Guthion for Boll Weevil Control|Proc. Beltwide Cotton Conf.Vol. 2:1040-1043|1997|
158412|T||Coetzee,B.B., G.D. Stanford, and D.A.T. Davis|Resistance by the Blue Tick (Boophilus decoloratus) to the Synthetic Pyrethroid, Fenvalerate|Onderstepoort J. Vet. Res.54:83-86|1987|
158413|T||Rana,J.S.|Evaluation of Different Insecticides Against the Shoot Fly, Atherigona naqvii (Steyskal) Infesting Wheat (Triticum aestivum)|J. Entomol. Res.23(2): 183-184|1999|
158414|T||Saxena,J.D., S. Rai, K.M. Srivastava, and S.R. Sinha|Resistance in the Field Populations of the Diamond Back Moth to Some Commonly Used Synthetic Pyrethroids|Indian J. Entomol.51(3): 265-268|1989|
158415|A||Jackson,B.P., H.E. Pace, A. Lanzirotti, R. Smith, and J.F. Ranville|Synchrotron X-Ray 2D and 3D Elemental Imaging of CdSe/ZnS Quantum Dot Nanoparticles in Daphnia magna|Anal. Bioanal. Chem.394(3): 911-917|2009|10.1007/s00216-009-2768-y
158416|A||Quinlan,E.L., C.T. Nietch, K. Blocksom, J.M. Lazorchak, A.L. Batt, R. Griffiths, and D.J. Klemm|Temporal Dynamics of Periphyton Exposed to Tetracycline in Stream Mesocosms|Environ. Sci. Technol.45(24): 10684-10690|2011|10.1021/es202004k
158417|A||Rodea-Palomares,I., K. Boltes, F. Fernandez-Pinas, F. Leganes, E. Garcia-Calvo, J. Santiago, and R. Rosal|Physicochemical Characterization and Ecotoxicological Assessment of CeO2 Nanoparticles Using Two Aquatic Microorganisms|Toxicol. Sci.119(1): 135-145|2011|10.1093/toxsci/kfq311
158418|A||De Wit,M., D. Keil, K. Van Der Ven, S. Vandamme, E. Witters, and W. De Coen|An Integrated Transcriptomic and Proteomic Approach Characterizing Estrogenic and Metabolic Effects of 17 alpha-Ethinylestradiol in Zebrafish (Danio rerio)|Gen. Comp. Endocrinol.167(2): 190-201|2010|10.1016/j.ygcen.2010.03.003
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158420|A||Chen,H., and H. Huang|Proteomic Analysis of Methyl Parathion-Responsive Proteins in Sparus latus Liver|Fish Shellfish Immunol.30(3): 800-806|2011|10.1016/j.fsi.2011.01.003
158421|A||Gallo,A., F. Silvestre, A. Cuomo, F. Papoff, and E. Tosti|The Impact of Metals on the Reproductive Mechanisms of the Ascidian Ciona intestinalis|Mar. Ecol.32(2): 222-231|2011|10.1111/j.1439-0485.2011.00433.x
158422|T||Kholodova,V., K. Volkov, A. Abdeyeva, and V. Kuznetsov|Water Status in Mesembryanthemum crystallinum Under Heavy Metal Stress|Environ. Exp. Bot.71(3): 382-389|2011|
158423|A||Duman,F.|Effects of Exogenous Glycinebetaine and Trehalose on Lead Accumulation in an Aquatic Plant (Lemna gibba L.)|Int. J. Phytoremediat.13(5): 492-497|2011|10.1080/15226514.2010.495149
158424|A||Anderson,B.S., D. Arenella-Parkerson, B.M. Phillips, R.S. Tjeerdema, and D. Crane|Preliminary Investigation of the Effects of Dispersed Prudhoe Bay Crude Oil on Developing Topsmelt Embryos, Atherinops affinis|Environ. Pollut.157(3): 1058-1061|2009|10.1016/j.envpol.2008.10.013
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158426|A||Gunnarsson,L., E. Kristiansson, L. Forlin, O. Nerman, and D.G.J. Larsson|Sensitive and Robust Gene Expression Changes in Fish Exposed to Estrogen - a Microarray Approach|BMC Genomics8(149): 41|2007|
158427|A||Zhang,D., P. Duarte-Guterman, V.S. Langlois, and V.L. Trudeau|Temporal Expression and Steroidal Regulation of piRNA Pathway Genes (mael, piwi, vasa) During Silurana (Xenopus) tropicalis Embryogenesis and Early Larval Development|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(2): 202-206|2010|10.1016/j.cbpc.2010.04.005
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158431|T||Agrawal,S.S., and M.A. Jose|Anti-Implantation Activity of H2 Receptor Blockers and Meloxicam, a COX-Inhibitor, in Albino Wistar Rats|Eur. J. Contracep. Reprod. Health Care14(6): 444-450|2009|10.3109/13625180903258695
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158447|T||Teli,V.S., and G.N. Salunkhe|Efficacy and Economics of Some Insecticides Against Sweet Potato Weevil, Cylas formicarius Fab.|J. Insect Sci.7(2): 202-204|1994|
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158449|A||Elphick,J.R.F., K.D. Bergh, and H.C. Bailey|Chronic Toxicity of Chloride to Freshwater Species:  Effects of Hardness and Implications for Water Quality Guidelines|Environ. Toxicol. Chem.30(1): 239-246|2011|10.1002/etc.365
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158451|T||Yasmin,N., S.N.H. Naqvi, M.F. Khan, A. Munir, and R.M. Tariq|Role of Neem Product (Biosal) and Its Impact on Cholinesterase and Protein Contents in Larvae of Papilio demoleus L. in Comparison with Cypermethrin|J. Exp. Zool. India13(2): 541-544|2010|
158452|AT||Ahmadizadeh,M., and B.D. Loveimi|Effect of N-Acetyl Cysteine on Lindane Induced Toxicity in Rat Respiratory System|J. Exp. Zool. India11(1): 33-37|2008|
158453|T||Himantharaj,M.T., and G.S. Reddy|Supplementation of Mulberry Leaves with Minerals and Their Effect on Seed Crop Rearing of Silkworm, Bombyx mori L.|J. Exp. Zool. India11(1): 67-72|2008|
158454|AT||Thara,S., S. Kingsley, and N. Revathi|Effect of Neem Extracts on the Bhendi Pest, Earias vittella Fab. (Lepidoptera: Noctuidae)|J. Exp. Zool. India11(1): 93-94|2008|
158455|A||Suryawanshi,G.D.|Changes in Lipid Content of Oyster, Crassostrea cattuckensis During Accumulation and Depuration of Mercury|J. Exp. Zool. India11(1): 161-164|2008|
158456|T||Basseri,H.R., L. Rahmani, R. Hajhosaini, M. Abolhassani, and M.R. Abaie|Isoenzymes of Cytochrome P450 in Insecticide Resistance Strain of Malaria Vector, Anopheles stephensi|J. Exp. Zool. India11(1): 221-224|2008|
158457|T||Singh,A.P., P.P. Singh, and Y.P. Singh|Evaluation of Chemical Insecticides Against Mustard Aphid, Lipaphis erysimi (Kalt.) in Eastern Rajasthan|J. Exp. Zool. India13(2): 405-407|2010|
158458|T||Kavitha,V., and R. Ramalingam|Comparative Toxicity of Four Insecticides to the Indian Earthworm, Lampito mauritii (Kinberg)|J. Exp. Zool. India11(2): 283-286|2008|
158459|T||Dotray,P.A.|Cross Tolerance to Aryloxyphenoxypropionate and Cyclohexanedione Herbicides in Tissue Culture Derived Corn (Zea mays) Lines|Ph.D Thesis, University of Minnesota:107 p.|1993|
158460|A||Achiorno,C.L., C. De Villalobos, and L. Ferrari|Validation Test with Embryonic and Larval Stages of Chordodes nobilii (Gordiida, Nematomorpha):  Sensitivity to Three Reference Toxicants|Chemosphere81(2): 133-140|2010|10.1016/j.chemosphere.2010.06.076
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158462|T||Karlowsky,J.|Inheritance of Multiple Herbicide Resistance in Wild Oat (Avena fatua L.)|M.S.Thesis, University of Manitoba, Canada:102 p.|2004|
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158468|A||Bah,A.M., H. Sun, F. Chen, J. Zhou, H. Dai, G. Zhang, and F. Wu|Comparative Proteomic Analysis of Typha angustifolia Leaf Under Chromium, Cadmium and Lead Stress|J. Hazard. Mater.184(1-3): 191-203|2010|10.1016/j.jhazmat.2010.08.023
158469|A||Bajguz,A.|Suppression of Chlorella vulgaris Growth by Cadmium, Lead, and Copper Stress and Its Restoration by Endogenous Brassinolide|Arch. Environ. Contam. Toxicol.60(3): 406-416|2011|10.1007/s00244-010-9551-0
158470|A||Bakhmet,I.N., N.P. Kantserova, L.A. Lysenko, and N.N. Nemova|Effect of Copper and Cadmium Ions on Heart Function and Calpain Activity in Blue Mussel Mytilus edulis|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.47(11): 1528-1535|2012|
158471|T||Stilkowski,G.D.|Inheritance of Fenoxaprop-p-Ethyl and Trifluralin Resistance, and Genetic Variability Among Green Foxtail (Setaria viridis (L.) Beauv.) Populations|M.S.Thesis, University of Manitoba, Canada:104 p.|1998|
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158474|A||Bhamre,P.R., A.E. Desai, and B.M. Deoray|Effects of Cadmium Intoxication on the Gills of Freshwater Mussel Parreysia favidens|J. Exp. Zool. India13(2): 409-411|2010|
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158479|T||Brunham,W., and L.I. Bendell|The Effect of Temperature on the Accumulation of Cadmium, Copper, Zinc, and Lead by Scirpus acutus and Typha latifolia:  A Comparative Analysis|Water Air Soil Pollut.219(1-4): 417-428|2011|10.1007/s11270-010-0717-1
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158482|A||Reimschuessel,R., C. Gieseker, and S. Poynton|In Vitro Effect of Seven Antiparasitics on Acolpenteron ureteroecetes (Dactylogyridae) from Largemouth Bass Micropterus salmoides (Centrarchidae)|Dis. Aquat. Org.94(1): 59-72|2011|10.3354/dao02303
158483|AT||Leesch,J.G., and T.R. Fukuto|The Metabolism of Abate in Mosquito Larvae and Houseflies|Pestic. Biochem. Physiol.2:223-235|1972|10.1016/0048-3575(72)90025-9
158484|A||Churchel,M.A., J.L. Hanula, C.W. Berisford, J.M. Vose, and M.J. Dalusky|Impact of Imidacloprid for Control of Hemlock Woolly Adelgid on Nearby Aquatic Macroinvertebrate Assemblages|South. J. Appl. For.35(1): 26-32|2011|10.1093/sjaf/35.1.26
158485|A||Chiarelli,R., M. Agnello, and M.C. Roccheri|Sea Urchin Embryos as a Model System for Studying Autophagy Induced by Cadmium Stress|Autophagy7(9): 1028-1034|2011|10.4161/auto.7.9.16450
158486|A||Company,R., A. Serafim, R.P. Cosson, A. Fiala-Medioni, L. Camus, R. Serrao-Santos, and M.J. Bebianno|Sub-Lethal Effects of Cadmium on the Antioxidant Defence System of the Hydrothermal Vent Mussel Bathymodiolus azoricus|Ecotoxicol. Environ. Saf.73(5): 788-795|2010|10.1016/j.ecoenv.2010.01.003
158487|A||Cooper,S., L. Hare, and P.G.C. Campbell|Modeling Cadmium Uptake from Water and Food by the Freshwater Bivalve Pyganodon grandis|Can. J. Fish. Aquat. Sci.67(11): 1874-1888|2010|10.1139/F10-103
158488|A||Creighton,N., and J. Twining|Bioaccumulation from Food and Water of Cadmium, Selenium and Zinc in an Estuarine Fish, Ambassis jacksoniensis|Mar. Pollut. Bull.60(10): 1815-1821|2010|10.1016/j.marpolbul.2010.05.025
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158493|A||Ebau,W., C.S.M. Rawi, Z. Din, and S.A. Al-Shami|Toxicity of Cadmium and Lead on Tropical Midge Larvae, Chironomus kiiensis Tokunaga and Chironomus javanus Kieffer (Diptera: Chironomidae)|Asian Pac. J. Trop. Biomed.2(8): 631-634|2012|10.1016/S2221-1691(12)60110-5
158494|A||Eissa,B.L., N.A. Ossana, L. Ferrari, and A. Salibian|Quantitative Behavioral Parameters as Toxicity Biomarkers: Fish Responses to Waterborne Cadmium|Arch. Environ. Contam. Toxicol.58(4): 1032-1039|2010|10.1007/s00244-009-9434-4
158495|A||Espinoza,H.M., C.R. Williams, and E.P. Gallagher|Effect of Cadmium on Glutathione S-Transferase and Metallothionein Gene Expression in Coho Salmon Liver, Gill and Olfactory Tissues|Aquat. Toxicol.110:37-44|2012|10.1016/j.aquatox.2011.12.012
158496|A||Ferrari,L., B.L. Eissa, and A. Salibian|Energy Balance of Juvenile Cyprinus carpio After a Short-Term Exposure to Sublethal Water-Borne Cadmium|Fish Physiol. Biochem.37(4): 853-862|2011|10.1007/s10695-011-9483-2
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158500|A||Ghiasi,F., S.S. Mirzargar, H. Badakhshan, and S. Shamsi|Effects of Low Concentration of Cadmium on the Level of Lysozyme in Serum, Leukocyte Count and Phagocytic Index in Cyprinus carpio Under the Wintering Conditions|J. Fish. Aquat. Sci.5(2): 113-119|2010|10.3923/jfas.2010.113.119
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158502|A||Golding,L.A., U. Borgmann, and D.G. Dixon|Cadmium Bioavailability to Hyalella azteca from a Periphyton Diet Compared to an Artificial Diet and Application of a Biokinetic Model|Aquat. Toxicol.126:291-298|2013|10.1016/j.aquatox.2012.09.016
158503|A||Hsu,T., H.T. Tsai, K.M. Huang, M.C. Luan, and C.R. Hsieh|Sublethal Levels of Cadmium Down-Regulate the Gene Expression of DNA Mismatch Recognition Protein MutS Homolog 6 (MSH6) in Zebrafish (Danio rerio) Embryos|Chemosphere81(6): 748-754|2010|10.1016/j.chemosphere.2010.07.014
158504|AT||Hu,L., M.B. McBride, H. Cheng, J. Wu, J. Shi, J. Xu, and L. Wu|Root-Induced Changes to Cadmium Speciation in the Rhizosphere of Two Rice (Oryza sativa L.) Genotypes|Environ. Res.111(3): 356-361|2011|10.1016/j.envres.2011.01.012
158505|A||Huang,X., F. Guo, C. Ke, and W.X. Wang|Responses of Abalone Haliotis diversicolor to Sublethal Exposure of Waterborne and Dietary Silver and Cadmium|Ecotoxicol. Environ. Saf.73(6): 1130-1137|2010|10.1016/j.ecoenv.2010.05.018
158506|A||Huang,X., C.W. Fang, Y.W. Guo, and H.Q. Huang|Differential Protein Expression of Kidney Tissue in the Scallop Patinopecten yessoensis Under Acute Cadmium Stress|Ecotoxicol. Environ. Saf.74(5): 1232-1237|2011|10.1016/j.ecoenv.2011.02.005
158507|A||Huang,Q.Y., C.W. Fang, and H.Q. Huang|Alteration of Heart Tissue Protein Profiles in Acute Cadmium-Treated Scallops Patinopecten yessoensis|Arch. Environ. Contam. Toxicol.60(1): 90-98|2011|10.1007/s00244-010-9533-2
158508|A||Ismail,A., and S. Yusof|Effect of Mercury and Cadmium on Early Life Stages of Java Medaka (Oryzias javanicus): a Potential Tropical Test Fish|Mar. Pollut. Bull.63(5-12): 347-349|2011|10.1016/j.marpolbul.2011.02.014
158509|A||Issartel,J., V. Boulo, S. Wallon, O. Geffard, and G. Charmantier|Cellular and Molecular Osmoregulatory Responses to Cadmium Exposure in Gammarus fossarum (Crustacea, Amphipoda)|Chemosphere81(6): 701-710|2010|10.1016/j.chemosphere.2010.07.063
158510|A||Ivanina,A.V., S. Eilers, I.O. Kurochkin, J.S. Chung, S. Techa, H. Piontkivska, E.P. Sokolov, and I.M. Sokolova|Effects of Cadmium Exposure and Intermittent Anoxia on Nitric Oxide Metabolism in Eastern Oysters, Crassostrea virginica|J. Exp. Biol.213(3): 433-444|2010|10.1242/jeb.038059
158511|A||Ivanina,A.V., B. Froelich, T. Williams, E.P. Sokolov, J.D. Oliver, and I.M. Sokolova|Interactive Effects of Cadmium and Hypoxia on Metabolic Responses and Bacterial Loads of Eastern Oysters Crassostrea virginica Gmelin|Chemosphere82(3): 377-389|2011|10.1016/j.chemosphere.2010.09.075
158512|A||Jamers,A., R. Blust, W. De Coen, J.L. Griffin, and O.A.H. Jones|An Omics Based Assessment of Cadmium Toxicity in the Green Alga Chlamydomonas reinhardtii|Aquat. Toxicol.126:355-364|2013|10.1016/j.aquatox.2012.09.007
158514|A||Kamunde,C., and R. MacPhail|Metal-Metal Interactions of Dietary Cadmium, Copper and Zinc in Rainbow Trout, Oncorhynchus mykiss|Ecotoxicol. Environ. Saf.74(4): 658-667|2011|10.1016/j.ecoenv.2010.10.016
158515|A||Kaoud,H.A., and A. Rezk|Effect of Exposure to Cadmium on the Tropical Freshwater Prawn Macrobrachium rosenbergii|Afr. J. Aquat. Sci.36(3): 253-260|2011|10.2989/16085914.2011.636899
158517|A||Karthik,A., D.G. Sekhar, M.A. Raju, S. Adam, and S.D.S. Murthy|Synergistic Effect of Cadmium in Combination with UV-B Radiations in PS II Photochemistry of the Cyanobacterium Spirulina platensis|Bioscan6(1): 81-82|2011|
158518|A||Kim,J.H., J.S. Rhee, J.S. Lee, H.U. Dahms, J. Lee, K.N. Han, and J.S. Lee|Effect of Cadmium Exposure on Expression of Antioxidant Gene Transcripts in the River Pufferfish, Takifugu obscurus (Tetraodontiformes)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(4): 473-479|2010|10.1016/j.cbpc.2010.08.002
158519|A||Kim,S., K. Ji, S. Lee, J. Lee, J. Kim, S. Kim, Y. Kho, and K. Choi|Perfluorooctane Sulfonic Acid Exposure Increases Cadmium Toxicity in Early Life Stage of Zebrafish, Danio rerio|Environ. Toxicol. Chem.30(4): 870-877|2011|10.1002/etc.443
158520|A||Kopecka-Pilarczyk,J.|The Effect of Pesticides and Metals on Acetylcholinesterase (AChE) in Various Tissues of Blue Mussel (Mytilus trossulus L.) in Short-Term In Vivo Exposures at Different Temperatures|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes45(4): 336-346|2010|
158521|A||Kurochkin,I.O., A.V. Ivanina, S. Eilers, C.A. Downs, L.A. May, and I.M. Sokolova|Cadmium Affects Metabolic Responses to Prolonged Anoxia and Reoxygenation in Eastern Oysters (Crassostrea virginica)|Am. J. Physiol., Regul. Integr. Comp. Physiol.297(5): R1262 - R1272|2009|10.1152/ajpregu.00324.2009
158522|A||Lei,W., L. Wang, D. Liu, T. Xu, and J. Luo|Histopathological and Biochemical Alternations of the Heart Induced by Acute Cadmium Exposure in the Freshwater Crab Sinopotamon yangtsekiense|Chemosphere84(5): 689-694|2011|10.1016/j.chemosphere.2011.03.023
158523|A||Li,H., K. Mai, Q. Ai, C. Zhang, and L. Zhang|Effects of Dietary Squid Viscera Meal on Growth and Cadmium Accumulation in Tissues of Large Yellow Croaker, Pseudosciaena crocea R.|Front. Agric. China3(1): 78-83|2009|10.1007/s11703-009-0012-3
158524|A||Li,J.T., H.N. Duan, S.P. Li, J.L. Kuang, Y.Q. Zeng, and W.S. Shu|Cadmium Pollution Triggers a Positive Biodiversity-Productivity Relationship: Evidence from a Laboratory Microcosm Experiment|J. Appl. Ecol.47(4): 890-898|2010|10.1111/j.1365-2664.2010.01818.x
158525|A||Li,X., J. Li, Y. Wang, L. Fu, J. Zhu, and Q. Duan|Kinetic Study of the Bioaccumulation of Heavy Metals (Cu, Pb, and Cd) in Chinese Domestic Oyster Ostrea plicatula|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.45(7): 836-845|2010|
158526|A||Li,R., Y. Zhou, L. Wang, and G. Ren|Low-Molecular-Weight-Chitosan Ameliorates Cadmium-Induced Toxicity in the Freshwater Crab, Sinopotamon yangtsekiense|Ecotoxicol. Environ. Saf.74(5): 1164-1170|2011|10.1016/j.ecoenv.2011.02.018
158527|A||Liao,C.M., Y.R. Ju, W.Y. Chen, and B.C. Chen|Assessing the Impact of Waterborne and Dietborne Cadmium Toxicity on Susceptibility Risk for Rainbow Trout|Sci. Total Environ.409(3): 503-513|2011|10.1016/j.scitotenv.2010.10.044
158528|A||Lin,L., W. Zhou, H. Dai, F. Cao, G. Zhang, and F. Wu|Selenium Reduces Cadmium Uptake and Mitigates Cadmium Toxicity in Rice|J. Hazard. Mater.235/236(0): 343-351|2012|10.1016/j.jhazmat.2012.08.012
158529|A||Liu,X.J., Z. Luo, C.H. Li, B.X. Xiong, Y.H. Zhao, and X.D. Li|Antioxidant Responses, Hepatic Intermediary Metabolism, Histology and Ultrastructure in Synechogobius hasta Exposed to Waterborne Cadmium|Ecotoxicol. Environ. Saf.74(5): 1156-1163|2011|10.1016/j.ecoenv.2011.02.015
158530|A||Long,A., C. Li, S. Chen, W. Yan, A. Dang, Y. Cheng, and D. Lu|Short-Term Metal Accumulation and MTLP Induction in the Digestive Glands of Perna virdis Exposed to Zn and Cd|J. Environ. Sci.22(7): 975-981|2010|10.1016/S1001-0742(09)60207-2
158531|A||Loureiro,C., B.B. Castro, J.L. Pereira, and F. Goncalves|Performance of Standard Media in Toxicological Assessments with Daphnia magna: Chelators and Ionic Composition Versus Metal Toxicity|Ecotoxicology20(1): 139-148|2011|10.1007/s10646-010-0565-1
158532|A||Malekpouri,P., A.A. Moshtaghie, M. Kazemian, and M. Soltani|Protective Effect of Zinc on Related Parameters to Bone Metabolism in Common Carp Fish (Cyprinus carpio L.) Intoxified with Cadmium|Fish Physiol. Biochem.37(1): 187-196|2011|10.1007/s10695-010-9430-7
158533|A||Manzo,S., S. Buono, and C. Cremisini|Cadmium, Lead and Their Mixtures with Copper:  Paracentrotus lividus Embryotoxicity Assessment, Prediction, and Offspring Quality Evaluation|Ecotoxicology19(7): 1209-1223|2010|10.1007/s10646-010-0506-z
158534|A||Mao,H., F.Q. Tan, D.H. Wang, J.Q. Zhu, H. Zhou, and W.X. Yang|Expression and Function Analysis of Metallothionein in the Testis of Stone Crab Charybdis japonica Exposed to Cadmium|Aquat. Toxicol.124/125(0): 11-21|2012|10.1016/j.aquatox.2012.07.005
158535|A||Mastrangelo,M., M.D.S. Afonso, and L. Ferrari|Cadmium Toxicity in Tadpoles of Rhinella arenarum in Relation to Calcium and Humic Acids|Ecotoxicology20(6): 1225-1232|2011|10.1007/s10646-011-0667-4
158536|A||Noskov,Y.A.|Comparative Sensitivity of the Several Zooplankton Species (Cladocera, Copepoda) to Sumicidine-alpha Insecticide|Contemp. Probl. Ecol.4(4): 373-378|2011|10.1134/S1995425511040047
158537|A||Mekkawy,I.A.A., U.M. Mahmoud, E.T. Wassif, and M. Naguib|Effects of Cadmium on Some Haematological and Biochemical Characteristics of Oreochromis niloticus (Linnaeus, 1758) Dietary Supplemented with Tomato Paste and Vitamin E|Fish Physiol. Biochem.37(1): 71-84|2011|10.1007/s10695-010-9418-3
158538|A||Messiaen,M., K.A.C. De Schamphelaere, B.T.A. Muyssen, and C.R. Janssen|The Micro-Evolutionary Potential of Daphnia magna Population Exposed to Temperature and Cadmium Stress|Ecotoxicol. Environ. Saf.73(6): 1114-1122|2010|10.1016/j.ecoenv.2010.05.006
158539|A||Najeeb,U., G. Jilani, S. Ali, M. Sarwar, L. Xu, and W. Zhou|Insights into Cadmium Induced Physiological and Ultra-Structural Disorders in Juncus effusus L. and Its Remediation Through Exogenous Citric Acid|J. Hazard. Mater.186(1): 565-574|2011|10.1016/j.jhazmat.2010.11.037
158540|T||Novais,S.C., S.I.L. Gomes, C. Gravato, L. Guilhermino, W. De Coen, A.M.V.M. Soares, and M.J.B. Amorim|Reproduction and Biochemical Responses in Enchytraeus albidus (Oligochaeta) to Zinc or Cadmium Exposures|Environ. Pollut.159(7): 1836-1843|2011|10.1016/j.envpol.2011.03.031
158542|A||Pellet,B., O. Geffard, C. Lacour, T. Kermoal, C. Gourlay-France, and M.H. Tusseau-Vuillemin|A Model Predicting Waterborne Cadmium Bioaccumulation in Gammarus pulex:  The Effects of Dissolved Organic Ligands, Calcium, and Temperature|Environ. Toxicol. Chem.28(11): 2434-2442|2009|10.1897/09-042.1
158543|A||Penttinen,S., V. Malk, A. Vaisanen, and O.P. Penttinen|Using the Critical Body Residue Approach to Determine the Acute Toxicity of Cadmium at Varying Levels of Water Hardness and Dissolved Organic Carbon Concentrations|Ecotoxicol. Environ. Saf.74(5): 1151-1155|2011|10.1016/j.ecoenv.2011.03.017
158544|A||Pierron,F., M. Baudrimont, S. Dufour, P. Elie, A. Bossy, M. Lucia, and J.C. Massabuau|Ovarian Gene Transcription and Effect of Cadmium Pre-Exposure During Artificial Sexual Maturation of the European Eel (Anguilla anguilla)|BioMetals22(6): 985-994|2009|10.1007/s10534-009-9250-3
158545|A||Pokora,W., and Z. Tukaj|The Combined Effect of Anthracene and Cadmium on Photosynthetic Activity of Three Desmodesmus (Chlorophyta) Species|Ecotoxicol. Environ. Saf.73(6): 1207-1213|2010|10.1016/j.ecoenv.2010.06.013
158546|A||Poteat,M.D., M. Diaz-Jaramillo, and D.B. Buchwalter|Divalent Metal (Ca, Cd, Mn, Zn) Uptake and Interactions in the Aquatic Insect Hydropsyche sparna|J. Exp. Biol.215(9): 1575-1583|2012|10.1242/jeb.063412
158547|A||Pretto,A., V.L. Loro, V.M. Morsch, B.S. Moraes, C. Menezes, B. Clasen, L. Hoehne, and V. Dressler|Acetylcholinesterase Activity, Lipid Peroxidation, and Bioaccumulation in Silver Catfish (Rhamdia quelen) Exposed to Cadmium|Arch. Environ. Contam. Toxicol.58(4): 1008-1014|2010|10.1007/s00244-009-9419-3
158548|A||Revathi,P., L.A. Vasanthi, and N. Munuswamy|Effect of Cadmium on the Ovarian Development in the Freshwater Prawn Macrobrachium rosenbergii (De Man)|Ecotoxicol. Environ. Saf.74(4): 623-629|2011|10.1016/j.ecoenv.2010.08.027
158549|A||Rodgher,S., E.L.G. Espindola, and A.T. Lombardi|Suitability of Daphnia similis as an Alternative Organism in Ecotoxicological Tests:  Implications for Metal Toxicity|Ecotoxicology19(6): 1027-1033|2010|10.1007/s10646-010-0484-1
158550|A||Salice,C.J., T.A. Anderson, and G. Roesijadi|Adaptive Responses and Latent Costs of Multigeneration Cadmium Exposure in Parasite Resistant and Susceptible Strains of a Freshwater Snail|Ecotoxicology19(8): 1466-1475|2010|10.1007/s10646-010-0532-x
158551|A||Sassi,A., A. Annabi, K. Kessabi, A. Kerkeni, K. Said, and I. Messaoudi|Influence of High Temperature on Cadmium-Induced Skeletal Deformities in Juvenile Mosquitofish (Gambusia affinis)|Fish Physiol. Biochem.36(3): 403-409|2010|10.1007/s10695-009-9307-9
158552|A||Sawle,A.D., E. Wit, G. Whale, and A.R. Cossins|An Information-Rich Alternative, Chemicals Testing Strategy Using a High Definition Toxicogenomics and Zebrafish (Danio rerio) Embryos|Toxicol. Sci.118(1): 128-139|2010|10.1093/toxsci/kfq237
158553|A||Stepanyan,I.E., A.S. Tsarukyan, and Y.P. Petrov|Effect of Molybdenum, Chrome and Cadmium Ions on Metamorphosis and Erythrocytes Morphology of the Marsh Frog Pelophylax ridibundus (Amphibia: Anura)|J. Environ. Sci. Technol.4(2): 172-181|2011|10.3923/jest.2011.172.181
158554|A||Stoiber,T.L., M.M. Shafer, and D.E. Armstrong|Differential Effects of Copper and Cadmium Exposure on Toxicity Endpoints and Gene Expression in Chlamydomonas reinhardtii|Environ. Toxicol. Chem.29(1): 191-200|2010|10.1002/etc.6
158555|A||Stout,L.M., E.N. Dodova, J.F. Tyson, and K. Nusslein|Phytoprotective Influence of Bacteria on Growth and Cadmium Accumulation in the Aquatic Plant Lemna minor|Water Res.44(17): 4970-4979|2010|10.1016/j.watres.2010.07.073
158556|A||Suarez,C., E. Torres, M. Perez-Rama, C. Herrero, and J. Abalde|Cadmium Toxicity on the Freshwater Microalga Chlamydomonas moewusii Gerloff: Biosynthesis of Thiol Compounds|Environ. Toxicol. Chem.29(9): 2009-2015|2010|10.1002/etc.242
158557|A||Tan,C.Y., X.Q. Shan, G.Z. Xu, Y.M. Lin, and Z.L. Chen|Phytoaccumulation of Cadmium Through Azolla from Aqueous Solution|Ecol. Eng.37(11): 1942-1946|2011|10.1016/j.ecoleng.2011.01.010
158558|A||Tan,Q.G., and W.X. Wang|Acute Toxicity of Cadmium in Daphnia magna Under Different Calcium and pH Conditions: Importance of Influx Rate|Environ. Sci. Technol.45(5): 1970-1976|2011|10.1021/es102453b
158559|A||Vellinger,C., M. Parant, P. Rousselle, and P. Usseglio-Polatera|Antagonistic Toxicity of Arsenate and Cadmium in a Freshwater Amphipod (Gammarus pulex)|Ecotoxicology21(7): 1817-1827|2012|10.1007/s10646-012-0916-1
158560|A||Vogt,C., M. Hess, C. Nowak, J.B. Diogo, J. Oehlmann, and M. Oetken|Effects of Cadmium on Life-Cycle Parameters in a Multi-Generation Study with Chironomus riparius Following a Pre-Exposure of Populations to Two Different Tributyltin Concentrations for Several Generations|Ecotoxicology19(7): 1174-1182|2010|10.1007/s10646-010-0501-4
158561|A||Williams,J.J., J. Dutton, C.Y. Chen, and N.S. Fisher|Metal (As, Cd, Hg, and CH3Hg) Bioaccumulation from Water and Food by the Benthic Amphipod Leptocheirus plumulosus|Environ. Toxicol. Chem.29(8): 1755-1761|2010|10.1002/etc.207
158562|A||Xin,J., B. Huang, Z. Yang, J. Yuan, H. Dai, and Q. Qiu|Responses of Different Water Spinach Cultivars and Their Hybrid to Cd, Pb and Cd-Pb Exposures|J. Hazard. Mater.175(1-3): 468-476|2010|10.1016/j.jhazmat.2009.10.029
158563|A||Xu,Q., H. Min, S. Cai, Y. Fu, S. Sha, K. Xie, and K. Du|Subcellular Distribution and Toxicity of Cadmium in Potamogeton crispus L.|Chemosphere89(1): 114-120|2012|10.1016/j.chemosphere.2012.04.046
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158569|T||Judge,C.A.|Japanese Stiltgrass (Microstegium vimineum): Population Dynamics and Management for Restoration of Native Plant Communities|Ph.D.Thesis, North Carolina State University, Raleigh, NC:181 p.|2005|
158571|A||Bar-Ilan,O., K.M. Louis, S.P. Yang, J.A. Pedersen, R.J. Hamers, R.E. Peterson, and W. Heideman|Titanium Dioxide Nanoparticles Produce Phototoxicity in the Developing Zebrafish|Nanotoxicology6(6): 670-690|2011|10.3109/17435390.2011.604438
158572|T||Strahan,R.E.|Control of Two Perennial Grasses in Southern Turfgrasses|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:64 p.|2002|
158573|A||Bone,A.J., B.P. Colman, A.P. Gondikas, K.M. Newton, K.H. Harrold, R.M. Cory, J.M. Unrine, S.J. Klaine, C.W. Matson, and|Biotic and Abiotic Interactions in Aquatic Microcosms Determine Fate and Toxicity of Ag Nanoparticles: Part 2-Toxicity and Ag Speciation|Environ. Sci. Technol.46(13): 6925-6933|2012|10.1021/es204683m
158574|T||Hund-Rinke,K., K. Schlich, and T. Klawonn|Influence of Application Techniques on the Ecotoxicological Effects of Nanomaterials in Soil|Environ. Sci. Eur.24:12 p. |2012|10.1186/2190-4715-24-30
158575|A||Allen,H.J., C.A. Impellitteri, D.A. Macke, J.L. Heckman, H.C. Poynton, J.M. Lazorchak, S. Govindaswamy, D.L. Roose, and|Effects from Filtration, Capping Agents, and Presence/Absence of Food on the Toxicity of Silver Nanoparticles to Daphnia magna|Environ. Toxicol. Chem.29(12): 2742-2750|2010|10.1002/etc.329
158576|A||Kennedy,A.J., M.S. Hull, A.J. Bednar, J.D. Goss, J.C. Gunter, J.L. Bouldin, P.J. Vikesland, and J.A. Steevens|Fractionating Nanosilver:  Importance for Determining Toxicity to Aquatic Test Organisms|Environ. Sci. Technol.44(24): 9571-9577|2010|10.1021/es1025382
158577|T||Kool,P.L., M.D. Ortiz, and C.A.M. Van Gestel|Chronic Toxicity of ZnO Nanoparticles, Non-Nano ZnO and ZnCl2 to Folsomia candida (Collembola) in Relation to Bioavailability in Soil|Environ. Pollut.159(10): 2713-2719|2011|10.1016/j.envpol.2011.05.021
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158579|A||Ma,H., A. Brennan, and S.A. Diamond|Phototoxicity of TiO2 Nanoparticles Under Solar Radiation to Two Aquatic Species: Daphnia magna and Japanese Medaka|Environ. Toxicol. Chem.31(7): 1621-1629|2012|10.1002/etc.1858
158580|A||Malhi,G.S.|The Chronic Toxicity of Titanium Dioxide Nanoparticles to the Freshwater Amphipod Hyalella azteca|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:88 p.|2012|
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158588|T||Guadarrama-Cruz,G., F.J. Alarcon-Aguilar, R. Lezama-Velasco, G. Vazquez-Palacios, and H. Bonilla-Jaime|Antidepressant-like Effects of Tagetes lucida Cav. in the Forced Swimming Test|J. Ethnopharmacol.120(2): 277-281|2008|10.1016/j.jep.2008.08.013
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158591|T||Zhang,H., X. He, Z. Zhang, P. Zhang, Y. Li, Y. Ma, Y. Kuang, Y. Zhao, and Z. Chai|Nano-CeO2 Exhibits Adverse Effects at Environmental Relevant Concentrations|Environ. Sci. Technol.45(8): 3725-3730|2011|10.1021/es103309n
158592|T||Schillinger,E., and E. Gerhards|Influence of Hormonal Contraceptives on Carbohydrate and Lipid Metabolism in the Rat|Biochem. Pharmacol.22(15): 1835-1844|1973|10.1016/0006-2952(73)90043-9
158593|T||Hofer,N., P. Diel, J. Wittsiepe, M. Wilhelm, F.M. Kluxen, and G.H. Degen|Investigations on the Estrogenic Activity of the Metallohormone Cadmium in the Rat Intestine|Arch. Toxicol.84(7): 541-552|2010|10.1007/s00204-010-0524-x
158594|T||Hong,S.S., J.M. Choi, H.E. Jin, and C.K. Shim|Altered Pharmacokinetics and Hepatic Uptake of TBuMA in Ethynylestradiol-Induced Cholestasis|Arch. Pharm. Res. (Seoul)29(4): 323-327|2006|10.1007/BF02968578
158595|T||Persson,L., C. Galman, B. Angelin, and M. Rudling|Importance of Proprotein Convertase Subtilisin/Kexin Type 9 in the Hormonal and Dietary Regulation of Rat Liver Low-Density Lipoprotein Receptors|Endocrinology150(3): 1140-1146|2009|10.1210/en.2008-1281
158596|T||Sibonga,J.D., N.H. Bell, and R.T. Turner|Evidence that Ibuprofen Antagonizes Selective Actions of Estrogen and Tamoxifen on Rat Bone|J. Bone Miner. Res.13(5): 863-870|1998|10.1359/jbmr.1998.13.5.863
158597|T||Pongchaidecha,M., and P.T. Daley-Yates|Clearance and Tissue Uptake following 4-Hour and 24-Hour Infusions of Pamidronate in Rats|Drug Metab. Dispos.21(1): 100-104|1993|
158598|T||Jacobson,A., and R.H. Shimabukuro|Metabolism of Diclofop-Methyl in Root-Treated Wheat and Oat Seedlings|J. Agric. Food Chem.32:742-746|1984|10.1021/jf00124a010
158599|T||Demirci,B., K.H.C. Baser, N. Tabanca, and D.E. Wedge|Characterization of Volatile Constituents of Haplopappus greenei and Studies on the Antifungal Activity Against Phytopathogens|J. Agric. Food Chem.54(8): 3146-3150|2006|10.1021/jf053222v
158600|T||Dekeyser,M.A., P.T. McDonald, and G.W.,Jr. Angle|Synthesis and Miticidal and Insecticidal Activities of Biphenylhydrazinecarboxylates|J. Agric. Food Chem.42:1358-1360|1994|10.1021/jf00042a022
158601|T||Cioli,V., S. Putzolu, V. Rossi, P.S. Barcellona, and C. Corradino|The Role of Direct Tissue Contact in the Production of Gastrointestinal Ulcers by Anti-inflammatory Drugs in Rats|Toxicol. Appl. Pharmacol.50(2): 283-289|1979|10.1016/0041-008X(79)90153-4
158602|T||Cioli,V., S. Putzolu, V. Rossi, and C. Corradino|A Toxicological and Pharmacological Study of Ibuprofen Guaiacol Ester (AF 2259) in the Rat|Toxicol. Appl. Pharmacol.54(2): 332-339|1980|10.1016/0041-008X(80)90203-3
158603|T||Bechter,R., and B.P. Schmid|Teratogenicity In Vitro - a Comparative Study of Four Antimycotic Drugs Using the Whole-Embryo Culture System|Toxicol. In Vitro1(1): 11-15|1987|10.1016/0887-2333(87)90032-4
158604|T||An,J., Q. Zhou, F. Sun, and L. Zhang|Ecotoxicological Effects of Paracetamol on Seed Germination and Seedling Development of Wheat (Triticum aestivum L.)|J. Hazard. Mater.169(1-3): 751-757|2009|10.1016/j.jhazmat.2009.04.011
158605|T||Burdan,F.|Evaluation of Bone Formation in Fetal Skeletons Following Prenatal Paracetamol Administration in Single Alizarin-Stained Specimens in Wistar Rats|Folia Morphol. (Prague)59(3): 167-171|2000|
158606|T||Boyd,E.M., and E.P. Sheppard|Dose-Response Changes in Organ Weights and Water Contents Following Administration of Toxic Doses of Paracetamol|Br. J. Pharmacol. Chemother.27(3): 497-505|1966|10.1111/j.1476-5381.1966.tb01862.x
158607|T||Bosela,M.J.|Effects of beta-Lactam Antibiotics, Auxins, and Cytokinins on Shoot Regeneration from Callus Cultures of Two Hybrid Aspens, Populus tremuloides x P. Tremula and P. x canescens x P. gradidentata|Plant Cell Tissue Organ Cult.98(3): 249-261|2009|10.1007/s11240-009-9555-5
158611|T||Virkkunen,P., M. Luostarinen, and G. Johansson|Diazepam, alpha and beta Neurotransmission Modifying Drugs and Contrast Media Mortality in Mice|Acta Radiol. Diagn.25(3): 249-251|1984|10.1177/028418518402500315
158612|T||Van Leeuwen,J.J.J., S.I. Williams, B. Kemp, and N.M. Soede|Post-Weaning Altrenogest Treatment in Primiparous Sows:  The Effect of Duration and Dosage on Follicular Development and Consequences for Early Pregnancy|Anim. Reprod. Sci.119(3/4): 258-264|2010|10.1016/j.anireprosci.2010.02.008
158613|T||Toet,A.E., A. Van De Kuil, W. Vleeming, J. Wemer, W. Bode, J. Meulenbelt, and D.J. De Wildt|Toxic Doses of Rac-, (-)-(S)- and (+)-(R)-Propranolol in Rats and Rabbits|Chirality8(6): 411-417|1996|10.1002/(SICI)1520-636X(1996)8:6<411::AID-CHIR1>3.0.CO;2-F
158614|T||Thiel,C., K. Thiel, A. Etspueler, M.H. Morgalla, S. Rubitschek, S. Schmid, W. Steurer, A. Konigsrainer, and M. Schenk|A Reproducible Porcine Model of Acute Liver Failure Induced by Intrajejunal Acetaminophen Administration|Eur. Surg. Res.46(3): 118-126|2011|10.1159/000323411
158615|T||Sethi,A., and R.R. Chaudhury|Effect of Adrenergic Receptor-Blocking Drugs in Pregnancy in Rats|J. Reprod. Fertil.21(3): 551-554|1970|10.1530/jrf.0.0210551
158616|T||Schoenfeld,N., O. Epstein, M. Rosen, and A. Atsmon|Effects of Propranolol During Pregnancy and Development of Rats. II. Adverse Effects on Development|Eur. J. Pediatr.143(3): 194-195|1985|10.1007/BF00442136
158617|T||Rosen,T.S., M. Lin, S. Spector, and M.R. Rosen|Maternal, Fetal and Neonatal Effects of Chronic Propranolol Administration in the Rat|J. Pharmacol. Exp. Ther.208(1): 118-122|1979|
158618|T||Redshaw,C.H., V.G. Wootton, and S.J. Rowland|Uptake of the Pharmaceutical Fluoxetine Hydrochloride from Growth Medium by Brassicaceae|Phytochemistry69(13): 2510-2516|2008|10.1016/j.phytochem.2008.06.018
158619|T||Rady,M.M.|Effect of 24-Epibrassinolide on Growth, Yield, Antioxidant System and Cadmium Content of Bean (Phaseolus vulgaris L.) Plants Under Salinity and Cadmium Stress|Sci. Hortic.129(2): 232-237|2011|10.1016/j.scienta.2011.03.035
158620|T||Platt,D., M.P. Luboeinski, P. Norwig, and P. Dieker|Influence of Application and Dosis on the Effect of Aldadiene-K* on the Rat Brain|Klin. Wochenschr.50:977-978|1972|10.1007/BF01488072
158621|T||Pirttila,A.M., P. Joensuu, H. Pospiech, J. Jalonen, and A. Hohtola|Bud Endophytes of Scots Pine Produce Adenine Derivatives and Other Compounds that Affect Morphology and Mitigate Browning of Callus Cultures|Physiol. Plant. (Multiple Languages)121(2): 305-312|2004|10.1111/j.0031-9317.2004.00330.x
158622|A||Rajesh,M.|Toxic Effect of Aluminium in Oreochromis mossambicus (Peters)|J. Pure Appl. Microbiol.4(1): 279-284|2010|
158623|A||Wang,C., L.Y. Wang, and Q. Sun|Response of Phytochelatins and Their Relationship with Cadmium Toxicity in a Floating Macrophyte Pistia stratiotes L. at Environmentally Relevant Concentrations|Water Environ. Res.82(2): 147-154|2010|10.2175/106143009X442970
158624|A||Panda,S.K., and M.H. Khan|Lipid Peroxidation and Oxidative Damage in Aquatic Duckweed (Lemna minor L.) in Response to Aluminium Toxicity|Indian J. Plant Physiol.9(2): 176-180|2004|
158626|T||Ward,L.C., and L.E. Carrington|Effect of Trenbolone Acetate on Polyamine Excretion and Concentrations in Muscle of Mice|IRCS Med. Sci. Biochem.9(3): 220-221|1981|
158627|A||Gravato,C., and L. Guilhermino|Effects of Benzo(a)pyrene on Seabass (Dicentrarchus labrax L.):  Biomarkers, Growth and Behavior|Hum. Ecol. Risk Assess.15(1): 121-137|2009|10.1080/10807030802615659
158628|T||Leipheimer,R.E., T.P. Condon, and J.J. Curry|The Role of Neurotransmitters in Mediating Copulation-Induced Ovulation in the Rat|J. Endocrinol.100(3): 361-365|1984|10.1677/joe.0.1000361
158629|T||Lee,S.H., T.H. Byun, J.H. Lee, H.J. Kim, and K.C. Hong|Normal Fertilization and Development of Early Embryos in Gilts Treated with Allyl Trenbolone (Regumate)|Korean J. Anim. Sci.34(5): 257-262|1992|
158631|T||Langemeijer,J., D. De Wildt, G. De Groot, and B. Sangster|Respiratory Arrest as Main Determinant of Toxicity due to Overdose with Different beta-Blockers in Rats|Acta Pharmacol. Toxicol.57(5): 352-356|1985|10.1111/j.1600-0773.1985.tb00057.x
158632|A||Blum,J.J.|An Adrenergic Control System in Tetrahymena|Proc. Natl. Acad. Sci. U.S.A.58:81-88|1967|10.1073/pnas.58.1.81
158633|T||Giannis,A., A. Nikolaou, D. Pentari, and E. Gidarakos|Chelating Agent-Assisted Electrokinetic Removal of Cadmium, Lead and Copper from Contaminated Soils|Environ. Pollut.157(12): 3379-3386|2009|10.1016/j.envpol.2009.06.030
158635|T||Ganther,H.E., and C.A. Baumann|Selenium Metabolism.  I.  Effects of Diet, Arsenic and Cadmium|J. Nutr.77:210-216|1962|10.1093/jn/77.2.210
158636|A||Miller,S.|Ontogeny of Cardiac Regulation and the Effects of Hypoxia in Early Life Stages of Rainbow Trout (Oncorhynchus mykiss)|M.S. Thesis, University of Guelph, Canada:87 p.|2011|
158637|T||Hamdullah, M.Z. Khan, A. Khan, and I. Javed|Toxico-Pathological Effects of Sodium Hypochlorite Administration Through Drinking Water in Female Japanese Quail (Coturnix japonica)|Hum. Exp. Toxicol.29(9): 779-788|2010|10.1177/0960327110361755
158638|T||Abou Auda,M., and E. El Shakh Ali|Cadmium and Zinc Toxicity Effects on Growth and Mineral Nutrients of Carrot (Daucus carota)|Pak. J. Bot.42(1): 341-351|2010|
158639|A||Husaini,Y., and L.C. Rai|pH Dependent Aluminium Toxicity to Nostoc linckia:  Studies on Phosphate Uptake, Alkaline and Acid Phosphatase Activity, ATP Content, Photosynthesis and Carbon Fixation|J. Plant Physiol.139:703-707|1992|10.1016/S0176-1617(11)81714-1
158640|T||Malik,J.A., S. Goel, N. Kaur, S. Sharma, I. Singh, and H. Nayyar|Selenium Antagonises the Toxic Effects of Arsenic on Mungbean (Phaseolus aureus Roxb.) Plants by Restricting Its Uptake and Enhancing the Antioxidative and Detoxification Mechanisms|Environ. Exp. Bot.77:242-248|2012|10.1016/j.envexpbot.2011.12.001
158641|T||Bertelsen,M., N.L. Jensen, and H. Lindhard Pedersen|Flower Thinning of Apples cv 'Elshof' Using Environmentally Friendly Compounds|In: Ecofruit. 14th International Conference on Organic Fruit-Growing, Foerdergemeinschaft Oekolog (FOeKO), Hohenheim, Germany:191-195|2010|
158642|A||Clifford,M.S.A.|A Study of the Waterborne and Dietary Toxicity of Cadmium to Hydra attenuata and Daphnia pulex in Soft Waters and the Development of Biotic Ligand Models to Predict such Toxicity|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:157 p.|2009|
158643|T||Betancur-Galvis,L.A., H. Carrillo, M. Luna-Guido, R. Marsch, and L. Dendooven|Enhanced Dissipation of Polycyclic Aromatic Hydrocarbons in the Rhizosphere of the Athel Tamarisk (Tamarix aphylla L. Karst.) Grown in Saline-Alkaline Soils of the Former Lake Texcoco|Int. J. Phytoremediat.14(8): 741-753|2012|10.1080/15226510903535080
158644|T||Jones,O.A.H., S.C. Swain, C. Svendsen, J.L. Griffin, S.R. Sturzenbaum, and D.J. Spurgeon|Potential New Method of Mixture Effects Testing Using Metabolomics and Caenorhabditis elegans|J. Proteome Res.11(2): 1446-1453|2012|10.1021/pr201142c
158645|A||Cunningham,J.L.|The Effect of Cadmium Exposure on Repeat Swimming Performance and Recovery in Rainbow Trout (Oncorhynchus mykiss), Brown Trout (Salmo trutta) and Lake Whitefish (Coregonus clupeaformis)|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:216 p.|2012|
158646|T||Costa,W.F., and J.C. Nepomuceno|Protective Effects of a Mixture of Antioxidant Vitamins and Minerals on the Genotoxicity of Doxorubicin in Somatic Cells of Drosophila melanogaster|Environ. Mol. Mutagen.47(1): 18-24|2006|10.1002/em.20160
158647|A||Isherwood,D.M.|Photoinduced Toxicity of Metals and PAHs to Hyalella azteca:  UV-Mediated Toxicity and the Effects of Their Photoproducts|M.S. Thesis, University of Waterloo, Canada:266 p.|2009|
158648|AT||Rawash,I.A., F.M. El-Gayar, I.A. Gaaboub, and A.Y. El-Shazli|Residue Analysis of DDT, Malathion and Kelthane on Pears|Toxicology4(2): 157-163|1975|10.1016/0300-483X(75)90094-3
158649|T||Micks,D.W., W.B. Moon, and J.C. McNeill|Malathion Tolerance vs. Resistance in Culex quinquefasciatus|Mosq. News40:520-523|1980|
158650|T||Henson-Ramsey,H., A. Schneider, and M.K. Stoskopf|A Comparison of Multiple Esterases as Biomarkers of Organophosphate Exposure and Effect in Two Earthworm Species|Bull. Environ. Contam. Toxicol.86(4): 373-378|2011|10.1007/s00128-011-0236-9
158651|A||Kara,Y.|Physiological and Toxicological Effects of Pb Plus Cd Mixtures on Rainbow Trout (Oncorhynchus mykiss) in Soft Acidic Water|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:151 p.|2010|
158652|T||Gafar,M.O., Y.M.I. Dagash, A.Z. Elhag, and Y.O. Hassan|Residual Effect of Malathion (Organophosphate) and Sevin (Carbamate) Application on Potato (Solanum tuberosum)|Am. J. Exp. Agric.1(4): 226-230|2011|10.9734/AJEA/2011/338
158653|A||Low,J.S.C.|Sub-Lethal Effects of Cadmium on Auditory Structure and Function in the Fathead (Pimephales promelas) and Bluntnose (Pimephales notatus) Minnows|M.S. Thesis, University of Windsor, Canada:93 p.|2009|
158654|T||Ombir, R. Chauhan, G.R. Batra, and K.S. Khokhar|Instant and Effective Chemical Control of Gram Cutworm on Chickpea|Pesticides 23(8): 42-44|1989|
158655|A||Milne,J.|The Dynamics of Chronically Bioaccumulated Cd in Rainbow Trout (Oncorhynchus mykiss) During Both Moderately Hard and Soft Waterborne Exposures|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:172 p.|2010|
158656|A||Straus,T.|Linking Cd Accumulation and Effect in Resistant and Sensitive Freshwater Invertebrates|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:117 p.|2011|
158657|T||Leggett,J.E.|The Influence of ULV Malathion, Applied for Boll Weevil Control, on Other Pest and Beneficial Species in Arizona Cotton Fields 1989-90|Southwest. Entomol.17(1): 49-61|1992|
158658|T||Pophaly,D.J., and K.K. Marwaha|Relative Residual Toxicity of Some Insecticides Against Pyrilla perpusilla Walker Infesting Maize|J. Entomol. Res.12(1): 12-15|1988|
158659|T||Kumar,S., S. Kumar, and P.K. Singh|Effect of Different Concentrations of Malathion on per cent Head Infestation of Cabbage Infested by Pieris brassicae L. (Lepidoptera:  Pieridae)|Ann. Agri Bio Res.10(1): 91-92|2005|
158660|T||Bhanot,J.P., and A.N. Verma|Effectiveness of Three Granular Systemic Insecticides Applied by Different Methods and Malathion Sprays on Aphid Control and Seed Yield of Radish|Seed Res.6(1): 48-57|1978|
158661|T||Sato,T., K. Nagaoka, H. Nagase, M. Niikawa, and H. Kito|The Effect of Several Antipyretic Analgesics on Mitomycin C-Induced Mutagenesis Using the Wing Spot Test in Drosophila melanogaster|Eisei Kagaku (Multiple Languages)42(2): 136-141|1996|
158662|T||Bounias,M.|Propranolol and Somatostatin Interactions with the Hyperglycemic Effects of Glucagon, Octopamine, Noradrenaline and cAMP in Worker Honeybees In Vivo|Biochimie (Paris)69(6/7): 655-660|1987|10.1016/0300-9084(87)90185-4
158663|T||Ayromlooi,J.|Effect of Propranolol on the Acid Base Balance and Hemodynamics of 'Chronically Instrumented' Pregnant Sheep|Dev. Pharmacol. Ther.6(3): 207-216|1983|10.1159/000457296
158664|T||Leibfried,M.L., and B.D. Bavister|Effects of Epinephrine and Hypotaurine on In-Vitro Fertilization in the Golden Hamster|J. Reprod. Fertil.66(1): 87-93|1982|10.1530/jrf.0.0660087
158665|T||Deka,N., D.C. Borah, and P.K. Das|Insecticidal Control Against Major Insect Pests of Mungbean (Vigna radiata (L.) Wilczek)|Ann. Biol.14(2): 195-198|1998|
158666|T||Baril,S., and G. Pallister|Laboratory Determinations of Acute Oral LD50 and Efficacy of Brodifacoum on the Richardson Ground Squirrel, Spermophilus richardsonii|Montana Department of Agriculture Environmental Management Division. Technical Report 81-1:16 p.|1981|
158667|T||Kaspar,M., M. Grondona, A. Leon, and A. Zambelli|Selection of a Sunflower Line with Multiple Herbicide Tolerance that is Reversed by the P450 Inhibitor Malathion|Weed Sci.59(2): 232-237|2011|10.1614/WS-D-10-00120.1
158668|T||Rahmatullah,M., M.S. Ali, H.K.M. Yusuf, R. Jahan, M. Asaduzzaman, and A.A. Chowdhury|ATP-Induced Reversal of Malathion Inhibition of Citric Acid Fermentation with Aspergillus niger|J. Ferment. Technol.57(4): 379-381|1979|
158669|T||El-Sayed,A.M., and G.E.S. Abo El-Ghar|Selective Toxicity of Organophosphorus Insecticides to the Cabbage Aphid, Brevicoryne brassicae (Homoptera: Aphididae), and Its Parasitoid, Diaeretiella rapae (Hymenoptera: Aphidiidae)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)96(3): 281-288|1989|
158670|T||Rao,V.L.V.P., N.V. Rao, and S.S. Rao|Influence of Seasons on Build Up of Scale Insect Melanaspis glomerata (G.), Insecticidal Performance and Their Effect on Yield and Quality in Sugarcane|Indian J. Plant Prot.19(1): 17-22|1991|
158671|T||Steinheim,G., O.A. Voie, T. Adnoy, K.S. Longva, and O. Holand|Effect of Contamination of Pasture with Military Explosives on Grazing Behaviour in Sheep|Acta Agric. Scand., A Anim. Sci. 61(3): 157-160|2011|
158672|A||Moffatt,L.T., K.D. Fagan-Solis, E.P. Browne, and K.F. Arcaro|Vitellogenin and 11beta Hydroxylase mRNA Expression in Male Japanese Medaka (Oryzias latipes) Exposed in a Short Term Laboratory Assay to Low Levels of Three Estrogenic Contaminants|Environ. Indicators J.:16 p.|2011|
158673|T||Mishra,N.C., and J.M. Satpathy|Selective Toxicity of Some Insecticides Against Cabbage Aphid, Brevicoryne brassicae L. and Its Coccinellid Predator, Coccinella repanda Th.|Indian J. Plant Prot.12(1): 13-17|1984|
158674|T||National Toxicology Program|Toxicology and Carcinogenesis Study of Ethinyl Estradiol (CAS No. 57-63-6) in Sprague-Dawley Rats (Feed Study)|Tech. Rep. Ser. 548, National Toxicology Program:210 p.|2010|
158675|T||Ventura,M.A., C. Gardey, G. Thiroux, M. Nandakumaran, E. Rey, and M.O. Richard|Effect of Propranolol on alpha-Amino-Isobutyric Acid and Water Kinetics in the Materno-Fetal Unit of the Rat|Dev. Pharmacol. Ther.9(4): 266-281|1986|10.1159/000457102
158676|T||Roy,A.R., and M.L. Chatterjee|Modification of Toxicity of Different Adrenergic Drugs by Ouabain|Bull. Calcutta Sch. Trop. Med.16(3): 86-88|1968|
158677|T||Reicks,M.M., and J.N. Hathcock|Effects of Dietary Methionine and Ethanol on Acetaminophen Hepatotoxicity in Mice|Drug-Nutr. Interact.3(1): 43-51|1984|
158679|T||O'Brien,T.P., M.A. Pane, R.J. Traystman, and C.A. Gleason|Propranolol Blocks Cocaine-Induced Cerebral Vasodilation in Newborn Sheep|Crit. Care Med.27(4): 784-789|1999|10.1097/00003246-199904000-00036
158680|T||Nishigori,H., M. Mizumura, and M. Iwatsuru|The Hen's Fertile Egg Screening Test (HEST):  A Comparison Between the Acute Toxicity for Chick Embryos and Rodents of 20 Drugs|Cell Biol. Toxicol.8(4): 255-265|1992|10.1007/BF00156734
158681|T||Nilsson,O.S., H.C.F. Bauer, O. Brosjo, and H. Tornkvist|A Comparison of Indomethacin and Diclofenac in the Inhibition of Experimental Heterotopic New Bone Formation|Int. Orthopaed.11(3): 283-287|1987|10.1007/BF00271462
158682|T||Mule,F., R. Fileccia, A. Postorino, R. Serio, S. Abbadessa Urso, and G. La Grutta|Effects of Adrenergic Drugs on the Electrical Activity of Pigeon Oesophagus|Boll. Soc. Ital. Biol. Sper. (Non-English)61(9): 1365-1370|1985|
158683|T||Marsafy,Y.M., and E.S.E. Hafez|Effect of Adrenoceptor Blockers and Maoi on Postcoital Utero-Oviductal Contractility, Sperm Transport, and Sperm Attachment to Eggs in Rabbits|Arch. Androl.6(4): 307-316|1981|10.3109/01485018108987542
158684|T||Koller,W., and J.P. Wubben|Variable Resistance Factors of Fungicides Acting as Sterol Demethylation Inhibitors|Pestic. Sci.26(2): 133-146|1989|10.1002/ps.2780260205
158685|T||Kao,L.W.L., and A.V. Nalbandov|The Effect of Antiadrenergic Drugs on Ovulation in Hens|Endocrinology90(5): 1343-1349|1972|10.1210/endo-90-5-1343
158686|T||Judlin,P., M.J. Boutroy, and J.P. Mallie|Rat Neonates Renal Function After beta-Receptors and Adrenoceptors Blockade During Pregnancy|Arch. Int. Physiol. Biochim. Biophys.100(5): 355-359|1992|10.3109/13813459209000726
158690|T||Gokcimen,A., G. Aydin, E. Karaoz, M.A. Malas, and M. Oncu|Effect of Diclofenac Sodium Administration During Pregnancy in the Postnatal Period|Fetal Diagn. Ther.16(6): 417-422|2001|10.1159/000053951
158691|T||Gilani,S.H., and A. Silvestri|The Effect of Propranolol upon Chick Embryo Cardiogenesis|Exp. Cell Biol.45(3/4): 158-166|1977|
158692|T||Sheppard,D.C.|Fenvalerate and Flucythrinate Resistance in a Horn Fly Population|J. Agric. Entomol.1:305-310|1984|
158693|T||Fujimoto,S., M. Akahane, K. Uzuki, A. Inagawa, K. Sakai, and K. Ichinoe|Effect of Ritodrine Hydrochloride on Uterine Activity and Maternal and Fetal Circulations in the Pregnant Sheep|Asia-Oceania J. Obstet. Gynaecol.9(3): 325-333|1983|10.1111/j.1447-0756.1983.tb00640.x
158694|T||Adelman,R.D., J. Wright, and W. Spangler|Effect of Chronic Propranolol on Growth of Newborn Beagle Puppies|Dev. Pharmacol. Ther.11(1): 51-56|1988|10.1159/000457664
158695|T||Baranowitz,S.A., and P.F.A. Maderson|Acetaminophen Toxicity is Substantially Reduced by beta-Carotene in Mice|Int. J. Vitam. Nutr. Res.65(3): 175-180|1995|
158696|T||Bauer,D.J., T.J. Christenson, K.R. Clark, S.K. Powell, and R.A. Swain|Acetaminophen as a Postsurgical Analgesic in Rats: A Practical Solution to Neophobia|Contemp. Top. Lab. Anim. Sci.42(2): 20-25|2003|
158698|T||Boyd,E.M., and S.E. Hogan|The Chronic Oral Toxicity of Paracetamol at the Range of the LD50 (100 Days) in Albino Rats|Can. J. Physiol. Pharmacol.46(2): 239-245|1968|10.1139/y68-040
158699|T||Ahmed,T., A. Januszkiewicz, P. Eyre, M.J. Robinson, and M.A. Sackner|Acute Pulmonary Hemodynamic Effects of Intravenous Copper Sulfate: Role of alpha-Adrenergic System|J. Appl. Physiol.51(5): 1204-1213|1981|10.1152/jappl.1981.51.5.1204
158700|T||Altomare,E., M.A. Leo, and C.S. Lieber|Interaction of Acute Ethanol Administration with Acetaminophen Metabolism and Toxicity in Rats Fed Alcohol Chronically|Alcohol. Clin. Exp. Res.8(4): 405-408|1984|10.1111/j.1530-0277.1984.tb05688.x
158701|T||Bristow,M.R., W.A. Minobe, M.E. Billingham, J.B. Marmor, G.A. Johnson, B.M. Ishimoto, W.S. Sageman, and J.R. Daniels|Anthracycline-Associated Cardiac and Renal Damage in Rabbits. Evidence for Mediation by Vasoactive Substances|Lab. Invest.45(2): 157-168|1981|
158702|A||Abbasi,T., T. Kannadasan, and S.A. Abbasi|A Study of the Impact of Acid Rain on Chromium Toxicity|Int. J. Environ. Stud.66(6): 765-771|2009|10.1080/00207230903465296
158703|T||Ahmed,F., and A. Urooj|Cardioprotective Activity of Standardized Extract of Ficus racemosa Stem Bark Against Doxorubicin-Induced Toxicity|Pharm. Biol.50(4): 468-473|2012|10.3109/13880209.2011.613848
158704|T||Arai,H., W. Kikuchi, A. Ishida, and G. Takada|Dexamethasone-Induced Prenatal Alveolar Wall Thinning is Associated with a Decrease in EIIIA+ Fibronectin Isoform in the Fetal Rat Lung|Biol. Neonate87(2): 113-120|2005|10.1159/000082119
158705|T||Sharma,V., P.R. Chaudhari, and S. Satyanarayan|Toxicity Assessment of Free Form of Heavy Metals in Aqueous Media on Earthworm Eudrillus eugeniae|Water Sci. Technol.63(10): 2434-2445|2011|10.2166/wst.2011.240
158706|T||Zhou,D., S. Jin, L. Li, Y. Wang, and N. Weng|Quantifying the Adsorption and Uptake of CuO Nanoparticles by Wheat Root Based on Chemical Extractions|J. Environ. Sci.23(11): 1852-1857|2011|10.1016/S1001-0742(10)60646-8
158707|T||Rahman,L.U., T. Ikenaga, and Y. Kitamura|Penicillin Derivatives Induce Chemical Structure-Dependent Root Development, and Application for Plant Transformation|Plant Cell Rep.22(9): 668-677|2004|10.1007/s00299-003-0731-5
158708|T||Stanghellini,M.E., D.H. Kim, and M. Waugh|Microbe-Mediated Germination of Ascospores of Monosporascus cannonballus|Phytopathology90(3): 243-247|2000|10.1094/PHYTO.2000.90.3.243
158709|T||Panzani,D., A. Crisci, A. Rota, and F. Camillo|Effect of Day of Transfer and Treatment Administration on the Recipient on Pregnancy Rates After Equine Embryo Transfer|Vet. Res. Commun.33(Suppl. 1): 113-116|2009|10.1007/s11259-009-9303-7
158710|T||Schardein,J.L., D.L. Hentz, J.A. Petrere, and S.M. Kurtz|Teratogenesis Studies with Diphenhydramine HCl|Toxicol. Appl. Pharmacol.18(4): 971-976|1971|10.1016/0041-008X(71)90243-2
158711|T||Peever,T.L., and M.G. Milgroom|Lack of Correlation Between Fitness and Resistance to Sterol Biosynthesis-Inhibiting Fungicides in Pyrenophora teres|Phytopathology84(5): 515-519|1994|10.1094/Phyto-84-515
158713|T||Wiger,R., J.K. Hongslo, D.P. Evenson, P. De Angelis, P.E. Schwarze, and J.A. Holme|Effects of Acetaminophen and Hydroxyurea on Spermatogenesis and Sperm Chromatin Structure in Laboratory Mice|Reprod. Toxicol.9(1): 21-33|1995|10.1016/0890-6238(94)00052-X
158714|T||Yoshiyama,Y., T. Sugiyama, H. Miyazaki, M. Kanke, and H. Shimada|Toxic Interactions Between Disopyramide and Propranolol in Chick Embryos|Biol. Pharm. Bull.20(12): 1310-1312|1997|10.1248/bpb.20.1310
158715|T||Yano,A., S. Higuchi, K. Tsuneyama, T. Fukami, M. Nakajima, and T. Yokoi|Involvement of Immune-Related Factors in Diclofenac-Induced Acute Liver Injury in Mice|Toxicology293(1-3): 107-114|2012|10.1016/j.tox.2012.01.008
158716|T||Zomorodi,K., and J.B. Houston|Selectivity of Omeprazole Inhibition Towards Rat Liver Cytochromes P450|Xenobiotica27(1): 49-58|1997|10.1080/004982597240758
158717|T||Sukoff Rizzo,S.J., L.E. Schechter, and S. Rosenzweig-Lipson|A Novel Approach for Predicting Antidepressant-Induced Sexual Dysfunction in Rats|Psychopharmacology195(4): 459-467|2008|10.1007/s00213-007-0924-7
158718|T||Stevenson,P.A., V. Dyakonova, J. Rillich, and K. Schildberger|Octopamine and Experience-Dependent Modulation of Aggression in Crickets|J. Neurosci.25(6): 1431-1441|2005|10.1523/JNEUROSCI.4258-04.2005
158720|T||Terada,M., A.I. Ishii, H. Kino, and M. Sano|Studies on Chemotherapy of Parasitic Helminths  (VI). Effects of Various Neuropharmacological Agents on the Motility of Dipylidium caninum|Jpn. J. Pharmacol.32(3): 479-488|1982|10.1016/S0021-5198(19)52668-3
158721|T||Suppanz,I., E. Sarnighausen, and R. Reski|An Integrated Physiological and Genetic Approach to the Dynamics of FtsZ Targeting and Organisation in a Moss, Physcomitrella patens|Protoplasma (Multiple Languages)232(1/2): 1-9|2007|10.1007/s00709-007-0284-5
158722|T||Tang,H., Z. Ren, and G. Krczal|An Evaluation of Antibiotics for the Elimination of Agrobacterium tumefaciens from Walnut Somatic Embryos and for the Effects on the Proliferation of Somatic Embryos and Regeneration of Transgenic Plants|Plant Cell Rep.19(9): 881-887|2000|10.1007/s002990000201
158723|T||Choy,R.K.M., and J.H. Thomas|Fluoxetine-Resistant Mutants in C. elegans Define a Novel Family of Transmembrane Proteins|Mol. Cell4(2): 143-152|1999|10.1016/S1097-2765(00)80362-7
158724|T||Hissa,R., and J.C. George|Propranolol-Induced Hemodynamic Changes and Thermogenesis in the Pigeon|Comp. Biochem. Physiol. C Comp. Pharmacol.66(1): 65-70|1980|10.1016/0306-4492(80)90073-8
158726|T||Rygula,R., N. Abumaria, E. Domenici, C. Hiemke, and E. Fuchs|Effects of Fluoxetine on Behavioral Deficits Evoked by Chronic Social Stress in Rats|Behav. Brain Res.174(1): 188-192|2006|10.1016/j.bbr.2006.07.017
158728|T||Back,D.J., A.M. Breckenridge, K.J. Cross, M.L. Orme, and E. Thomas|An Antibiotic Interaction with Ethinyloestradiol in the Rat and Rabbit|J. Steroid Biochem.16(3): 407-413|1982|10.1016/0022-4731(82)90053-X
158729|T||Chen,L., X.H. Long, Z.H. Zhang, X.T. Zheng, Z. Rengel, and Z.P. Liu|Cadmium Accumulation and Translocation in Two Jerusalem Artichoke (Helianthus tuberosus L.) Cultivars|Pedosphere21(5): 573-580|2011|10.1016/S1002-0160(11)60159-8
158730|T||Liu,C.S., B.Y. Sun, S.H. Kan, Y.Z. Zhang, S.H. Deng, and G. Yang|Copper Toxicity and Accumulation in Potted Seedlings of Three Apple Rootstock Species: Implications for Safe Fruit Production on Copper-Polluted Soils|J. Plant Nutr.34(9-11): 1268-1277|2011|10.1080/01904167.2011.580814
158731|T||Olatunji,L.A., and A.O. Soladoye|The Effect of Nifedipine on Oral Contraceptive-Induced Hypertension in Rats|Niger. Postgrad. Med. J.13(4): 277-281|2006|10.4103/1117-1936.180807
158734|T||Sato,M.E., M.Z. Da Silva, A. Raga, K.G. Cangani, B. Veronez, and R.L. Nicastro|Spiromesifen Toxicity to the Spider Mite Tetranychus urticae and Selectivity to the Predator Neoseiulus californicus|Phytoparasitica39(5): 437-445|2011|10.1007/s12600-011-0189-x
158735|T||Sharifzadeh,M., M. Tavasoli, M. Soodi, S. Mohammadi-Eraghi, M.H. Ghahremani, and A. Roghani|A Time Course Analysis of Cyclooxygenase-2 Suggests a Role in Spatial Memory Retrieval in Rats|Neurosci. Res.54(3): 171-179|2006|10.1016/j.neures.2005.11.004
158736|T||Shirai,T., T. Sakata, S. Fukushima, E. Ikawa, and N. Ito|Rat Prostate as One of the Target Organs for 3,2' -Dimethyl-4-Aminobiphenyl-Induced Carcinogenesis: Effects of Dietary Ethinyl Estradiol and Methyltestosterone|Jpn. J. Cancer Res.76(9): 803-808|1985|
158737|T||Ventanas,J., G. Sancho, J.A. Garcia-Regueiro, T. Antequera, M. Martinez, and C. Lopez-Bote|Testicular Development, Androstenone Levels and Androstenone Odour of Untreated and Trenbolone Implanted Boars|J. Sci. Food Agric.57(1): 127-133|1991|10.1002/jsfa.2740570114
158738|T||Waterhouse,B.D., E.M. Gould, and I. Bekavac|Monoaminergic Substrates Underlying Cocaine-Induced Enhancement of Somatosensory-Evoked Discharges in Rat Barrel Field Cortical Neurons|J. Pharmacol. Exp. Ther.279(2): 582-592|1996|
158739|T||Weiss,M.H., T. Kurze, and F.E. Nulsen|Antibiotic Neurotoxicity. Laboratory and Clinical Study|J. Neurosurg.41(4): 486-489|1974|10.3171/jns.1974.41.4.0486
158740|T||Vilchis,F., B. Chavez, A.E. Perez, G.A. Garcia, A. Angeles, and G. Perez-Palacios|Evidence that a Non-Aromatizable Metabolite of Norethisterone Induces Estrogen-Dependent Pituitary Progestin Receptors|J. Steroid Biochem.24(2): 525-531|1986|10.1016/0022-4731(86)90115-9
158741|T||Andre,C., D. Couton, J. Gaston, L. Erraji, L. Renia, P. Varlet, P. Briand, and J.G. Guillet|Beta2-Adrenergic Receptor-Selective Agonist Clenbuterol Prevents Fas-Induced Liver Apoptosis and Death in Mice|Am. J. Physiol.276(3, Pt. 1): G647-G654|1999|
158742|T||Cavar,I., T. Kelava, R. Heinzel, and F. Culo|The Role of Prostacyclin in Modifying Acute Hepatotoxicity of Acetaminophen in Mice|Coll. Antropol.33(Suppl.2): 25-29|2009|
158743|T||Gerenutti,M., C.C. De Oliveira, A.C. Ribeiro De Miranda, R.M. Rosa, and F.D.S. Del Fiol|Reproductive Performance and Embriotoxicity of Rats Exposed to Carbamazepine|Rev. Bras. Cienc. Farmaceut.44(3): 509-514|2008|10.1590/S1516-93322008000300022
158744|T||Gill,S.S., N.A. Khan, and N. Tuteja|Cadmium at High Dose Perturbs Growth, Photosynthesis and Nitrogen Metabolism While at Low Dose it up Regulates Sulfur Assimilation and Antioxidant Machinery in Garden Cress (Lepidium sativum L.)|Plant Sci.182:112-120|2012|10.1016/j.plantsci.2011.04.018
158745|T||Ratnasooriya,W.D., and J.R.A.C. Jayakody|Long-Term Administration of Large Doses of Paracetamol Impairs the Reproductive Competence of Male Rats|Asian J. Androl.2(4): 247-255|2000|
158746|T||Smith,D.M., and S.K. Sommers Smith|Time-Dependent Effects of Maternal Continuous Propranolol on Fetal Lung Development in Rats|Histol. Histopathol.17(2): 365-374|2002|
158747|T||Silva Swerts,C.A., A.N.A.M. Duarte Dias Costa, A. Esteves, C.E. Silva Borato, and M.S. Oliveira Swerts|Effects of Fluoxetine and Imipramine in Rat Fetuses Treated During a Critical Gestational Period:  A Macro and Microscopic Study|Rev. Bras. de Psiquiatria32(2): 152-158|2010|10.1590/S1516-44462009005000015
158748|AT||Tesana,S., P. Thapsripair, C. Thammasiri, S. Prasopdee, A. Suwannatrai, S. Harauy, S. Piratae, P. Khampoosa, J. Kulsant|Effects of Bayluscide on Bithynia siamensis goniomphalos, the First Intermediate Host of the Human Liver Fluke, Opisthorchis viverrini, in Laboratory and Field Trials|Parasitol. Int.61(1): 52-55|2012|10.1016/j.parint.2011.08.003
158749|T||Naranjo,P., and E. De Naranjo|Embryotoxic Effects of Antihistamines|Arzneim. Forsch.18(2): 188-194|1968|
158750|T||Manivannan,P., C. Abdul Jaleel, A. Kishorekumar, B. Sankar, R. Somasundaram, R. Sridharan, and R. Panneerselvam|Changes in Antioxidant Metabolism of Vigna unguiculata (L.) Walp. by Propiconazole Under Water Deficit Stress|Colloids Surf. B Biointerfaces57(1): 69-74|2007|10.1016/j.colsurfb.2007.01.004
158751|T||Mmbaga,M.T., and R.J. Sauve|Epiphytic Microbial Communities on Foliage of Fungicide Treated and Non-Treated Flowering Dogwoods|Biol. Control49(2): 97-104|2009|10.1016/j.biocontrol.2009.01.003
158752|T||Lenhart,K., and A. Merkunova|Sensitivity of Trichophyton mentagrophytes Strains to Three Imidazole Drugs|Acta Univ. Palacki. Olomuc. Fac. Med. Biomed. Pap. 129:23-38|1991|
158753|T||Lenhart,K., A. Merkunova, D. Walterova, J. Latinak, and M. Kozeny|Ketaconazole-Resistant Mutants of Microsporum Gypseum. I. Isolation of Mutants, Biochemical Methods|Acta Univ. Palacki. Olomuc. Fac. Med. Biomed. Pap. 122:55-70|1989|
158756|T||Bernardi,M.M., H. De-Souza-Spinosa, I.D. Taricano, and M.H. Richtzenhain|The Diphenhydramine-Induced Decrease in General Open-Field Activity of Female Rats is Gonadal Steroid Dependent|Braz. J. Med. Biol. Res.26(3): 319-322|1993|
158757|T||Malik,V.K., D.P. Singh, and M.S. Panwar|Management of Spot Blotch of Wheat (Triticum aestivum) Caused by Bipolaris sorokiniana Using Foliar Sprays of Botanicals and Fungicides|Indian J. Agric. Sci.78(7): 646-648|2008|
158758|T||Parker,S., R.R. Schade, C.R. Pohl, J.S. Gavaler, and D.H. Van Thiel|Prenatal and Neonatal Exposure of Male Rat Pups to Cimetidine but not Ranitidine Adversely Affects Subsequent Adult Sexual Functioning|Gastroenterology86(4): 675-680|1984|10.1016/S0016-5085(84)80116-X
158759|T||Poddar,R.K., D.V. Singh, and S.C. Dubey|Integrated Application of Trichoderma harzianum Mutants and Carbendazim to Manage Chickpea Wilt (Fusarium oxysporum f. sp. ciceri)|Indian J. Agric. Sci.74(6): 346-348|2004|
158760|T||Rana,S.K., S.K. Sharma, and D.K. Banyal|Management of Loose Smut and Hill Bunt of Wheat (Triticum aestivum) Using Fungicidal Seed Treatment|Indian J. Agric. Sci.78(2): 187-189|2008|
158761|T||Singh,K.P., A.N. Tewari, K. Srivastava, and T. Singh|Assessment of Losses Due to Leaf Blight (Bipolaris sorokiniana and Alternaria triticina) of Wheat (Triticum aestivum) in Foot-Hills Areas of Uttaranchal|Indian J. Agric. Sci.75(7): 447-448|2005|
158762|T||Chism,W.J.|Environmental Influence on Postemergence Chemical Control of Crabgrass (Digitaria spp.) in Turf|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:92 p.|1990|
158763|T||Singh,V., and R.N. Singh|Management of Spot Blotch of Wheat (Triticum aestivum) Caused by Bipolaris sorokiniana|Indian J. Agric. Sci.77(5): 323-326|2007|
158764|T||Singh,D.P., A.K. Sharma, P. Kumar, A.K. Chowdhury, K.P. Singh, S.K. Mann, R.N. Singh, A.K. Singh, I.K. Kalappanavar, an|Management of Leaf Blight Complex of Wheat (Triticum aestivum) Caused by Bipolaris sorokiniana and Alternaria triticina in Different Agroclimatic Zones Using an Integrated Approach|Indian J. Agric. Sci.78(6): 513-517|2008|
158765|T||Himmelstein,F.J.|Efficacy of Postemergence Grass Herbicides and Their Effects on Yield and Quality of Alfalfa During the Establishment Year|Ph.D.Thesis, Univ.of Massachusetts:432 p.|1990|
158767|T||Jacobs,B.A.|Postemergence Control of Crabgrass (Digitaria spp.) in Turfgrass with Fenoxaprop-Ethyl and Tridiphane|M.S. Thesis, Michigan State University, East Lansing, MI:107 p.|1988|
158769|T||Szeitz,A., I. Herjavecz, and L.A. Debreczeni|Effects of Drugs on Aminophylline Elimination in Rats|Arzneim. Forsch.38(12): 1811-1814|1988|
158770|T||Truss,F., and C.L. Fedder|Experimental Effect of Tetracycline on Renal Function|Antimicrob. Agents Chemother.14:184-187|1964|
158771|T||Turkington,T.K., H.R. Kutcher, G.W. Clayton, J.T. O'Donovan, A.M. Johnston, K.N. Harker, K. Xi, and F.C. Stevenson|Impact of Seedbed Utilization and Fungicide Application on Severity of Net Blotch (Pyrenophora teres) and Production of Barley|Can. J. Plant Pathol.26(4): 533-547|2004|10.1080/07060660409507174
158772|T||Urbina,J.A., K. Lazardi, G. Larralde, T. Aguirre, M.M. Piras, and R. Piras|Synergistic Effects of Ketoconazole and SF-86327 on the Proliferation of Epimastigotes and Amastigotes of Trypanosoma (Schizotrypanum) cruzi|Ann. N. Y. Acad. Sci.555:357-358|1988|10.1111/j.1749-6632.1988.tb40421.x
158773|T||Waller,D.A.|Ampicillin, Tetracycline and Urea as Protozoicides for Symbionts of Reticulitermes flavipes and R. virginicus (Isoptera: Rhinotermitidae)|Bull. Entomol. Res.86(1): 77-81|1996|10.1017/S0007485300052238
158774|T||Hermansen,K., and K. Wassermann|The Effect of Vitamin E and Selenium on Doxorubicin (Adriamycin) Induced Delayed Toxicity in Mice|Acta Pharmacol. Toxicol.58(1): 31-37|1986|10.1111/j.1600-0773.1986.tb00066.x
158775|T||Agrawal,S.S., and M.A. Jose|Anti-Ovulatory Activity of H2 Receptor Blockers in Albino Rabbits - a Preliminary Study|Eur. J. Contracep. Reprod. Health Care16(2): 142-146|2011|10.3109/13625187.2010.548882
158776|T||Atef,M., A.Y.I. El-Gendi, M.G.A. El-Sayed, and A.M. Amer|Blood and Tissue Concentrations of Ampicillin in Chickens|Dtsch. Tierarztl. Wochenschr. (Multiple Languages)93(3): 110-112|1986|
158777|T||Bensoltane,S., M. Youbi, H. Djebar, and M.R. Djebar|Effects of Two Systemic Fungicides: Artea (Propiconazole+Cyproconazole) and Punch (Flusilazole) on the Physiology and the Respiratory Metabolism of Durum Wheat (Triticum durum L.)|Commun. Agric. Appl. Biol. Sci.71(3 Pt. B): 1041-1048|2006|
158779|T||Cheng,X., F. Gao, J. Xiang, X. Jiang, J. Chen, and J. Zhang|Galactosylated alpha,beta-Poly[(2-Hydroxyethyl)-L-Aspartamide]-Bound Doxorubicin:  Improved Antitumor Activity Against Hepatocellular Carcinoma with Reduced Hepatotoxicity|Anti-Cancer Drugs22(2): 136-147|2011|10.1097/CAD.0b013e3283406e85
158780|T||Dawit,W., and Y. Andnew|The Study of Fungicides Application and Sowing Date, Resistance, and Maturity of Eragrostis tef for the Management of Teff Rust (Uromyces eragrostidis)|Can. J. Plant Pathol.27(4): 521-527|2005|10.1080/07060660509507253
158781|T||Derbel,S., B. Touzard, M.A. Triki, and M. Chaieb|Seed Germination Responses of the Saharan Plant Species Ephedra alata ssp. alenda to Fungicide Seed Treatments in the Laboratory and the Field|Flora Morphol. Distr. Funct. Ecol. Plants205(7): 471-474|2010|10.1016/j.flora.2009.12.025
158784|T||Guest,I., H.S. Buttar, S. Smith, and D.R. Varma|Evaluation of the Rat Embryo Culture System as a Predictive Test for Human Teratogens|Can. J. Physiol. Pharmacol.72(1): 57-62|1994|10.1139/y94-010
158785|T||Haataja,M., L. Nieminen, L. Kangas, M. Mottonen, and K. Bjondahl|Effect of Spironolactone on Pentobarbital Anaesthesia, Diazepam Metabolism and Toxicity of Spironolactone and Furosemide|Ann. Med. Exp. Biol. Fenn.50(2): 57-60|1972|
158786|T||Hande,K., G. Combs, R. Swingle, G.L. Combs, and L. Anthony|Effect of Cimetidine and Ranitidine on the Metabolism and Toxicity of Hexamethylmelamine|Cancer Treat. Rep.70(12): 1443-1445|1986|
158787|T||Johnson,S.K., R.P. Del Vecchio, E.C. Townsend, and E.K. Inskeep|Role of Prostaglandin F2alpha in Follicular Development and Subsequent Luteal Life Span in Early Postpartum Beef Cows|Domest. Anim. Endocrinol.9(1): 49-56|1992|10.1016/0739-7240(92)90008-L
158788|T||Joshi,S.C., G.C. Jain, and M. Lata|Effects of Ketoconazole (an Imidazole Antifugal Agent) on the Fertility and Reproductive Function of Male Mice|Acta Eur. Fertil.25(1): 55-58|1994|
158789|T||Kannababu,N., I.K. Das, and N. Seetharama|Effect of Chemicals and Bioagents on Control of Molds and Improvement of Seed Quality of Rainy Season Sorghum (Sorghum bicolor)|Indian J. Agric. Sci.79(6): 461-465|2009|
158790|A||Ma,J., J. Chen, P. Wang, and S. Tong|Comparative Sensitivity of Eight Freshwater Phytoplankton Species to Isoprocarb, Propargite, Flumetralin and Propiconazol|Pol. J. Environ. Stud.17(4): 525-529|2008|
158791|A||Parris,M.J., and D.R. Baud|Interactive Effects of a Heavy Metal and Chytridiomycosis on Gray Treefrog Larvae (Hyla chrysoscelis)|Copeia2:344-350|2004|10.1643/CE-03-116R1
158792|T||Dorigo,R.|The Selectivity of Flumetsulam to Chickpeas, Lentils and Vetch var. Popany|Proc. Aust. Weeds Conf.:306-308|1999|
158793|A||Ma,J., L. Xu, and S. Wang|A Quick, Simple, and Accurate Method of Screening Herbicide Activity Using Green Algae Cell Suspension Cultures|Weed Sci.50(5): 555-559|2002|10.1614/0043-1745(2002)050[0555:AQSAAM]2.0.CO;2
158794|A||Lawrence,J.R., G.D.W. Swerhone, L.I. Wassenaar, and T.R. Neu|Effects of Selected Pharmaceuticals on Riverine Biofilm Communities|Can. J. Microbiol.51(8): 655-669|2005|10.1139/w05-047
158795|T||Al-Attar,A.M.|Chemopreventive Effect of Cinnamon Extract on Carbon Tetrachloride-Induced Physiological Changes in the Frog, Rana ridibunda|J. Appl. Sci.7(1): 79-90|2007|10.3923/jas.2007.79.90
158796|T||Black,I.D., A. Mayfield, and R. Matic|Chemical Control of Bedstraw (Galium tricornutum Dandy) and Bifora (Bifora testiculata L.) in Wheat, Barley and Field Peas|Plant Prot. Q.9(1): 24-27|1994|
158797|T||Schmidt,C.D., and S.E. Kunz|Fenvalerate and Stirofos Ear Tags for Control of Horn Flies on Range Cattle|Southwest. Entomol.5(4): 202-206|1980|
158798|T||Adamson,G.M., J.M. Papadimitriou, and A.W. Harman|Postnatal Mice Have Low Susceptibility to Paracetamol Toxicity|Pediatr. Res.29(5): 496-499|1991|10.1203/00006450-199105010-00016
158799|T||Narendranathan,M., M. Kurien, I. Praseeda, V. Balakrishnan, and S. Varghese|Comparison of the Nephrotoxicity of Oral Neomycin and Ampicillin in Rats|Indian J. Gastroenterol.1(1): 19-21|1982|
158800|A||U.S. Bureau of Commercial Fisheries|Bio-Assay Screening Test - Toxaphene|Bureau of Commercial Fisheries Biological Laboratory, Gulf Breeze, FL:1 p.|1967|
158801|A||Lussier,S.M.|Results of Acute Toxicity Tests Conducted with Chromium at ERL, Narragansett|S.M.Lussier to D.Hansen:1 p.|1985|
158802|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Lead at ERL, Narragansett|S.M.Lussier and J.A.Cardin to D.Hansen:3 p.|1985|
158803|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Chromium at ERL, Narragansett|S.M.Lussier and J.A.Cardin to D.Hansen:5 p.|1985|
158804|A||Lussier,S.M., and J.A. Cardin|Results of Acute Toxicity Tests Conducted with Mercury at ERL, Narragansett|S.M.Lussier and J.A.Cardin to D.Hansen:5 p.|1985|
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158812|T||Farouk,S., S.A. Youssef, and A.A. Ali|Exploitation of Biostimulatants and Vitamins as an Alternative Strategy to Control Early Blight of Tomato Plants|Asian J. Plant Sci.11(1): 36-43|2012|10.3923/ajps.2012.36.43
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158815|T||Felix,J., D.J. Doohan, S.C. Ditmarsen, M.E. Schultz, T.R. Wright, B.R. Flood, and T.L. Rabaey|Effect of Flumetsulam Plus Clopyralid Soil Residues on Potatoes (Solanum tuberosum L.), Lima Beans (Phaseolus limensis, L.) and Snap Beans (Phaseolus vulgaris L.) Grown in Rotation|Crop Prot.24(9): 790-797|2005|10.1016/j.cropro.2005.01.004
158817|T||Jin,H.E., S.S. Hong, M.K. Choi, H.J. Maeng, D.D. Kim, S.J. Chung, and C.K. Shim|Reduced Antidiabetic Effect of Metformin and Down-Regulation of Hepatic Oct1 in Rats with Ethynylestradiol-Induced Cholestasis|Pharmacol. Res.26(3): 549-559|2009|10.1007/s11095-008-9770-5
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158833|T||Wise,D.R., and K.N.P. Ranaweera|The Effects of Trienbolone Acetate and Other Anabolic Agents in Growing Turkeys|Br. Poult. Sci.22(2): 93-104|1981|10.1080/00071688108447868
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158838|T||Shaw,D.R., and G.P. Murphy|Field Persistence of Bioavailable Flumetsulam|Weed Sci.45(4): 568-572|1997|10.1017/S0043174500088834
158839|T||Ranaweera,K.N.P., and D.R. Wise|Age Associated Changes in Sodium, Potassium and Moisture Contents of Turkey Skeletal Muscles and a Note on the Effects of Testosterone and 17-beta-Estradiol|Br. Poult. Sci.23(3): 195-198|1982|10.1080/00071688208447947
158840|T||Song,H.Y., S.J. Cho, H.K. Lim, N.J. Park, and I.T. Hwang|Transformation A Mutant Monochoria vaginalis Acetolactate Synthase (ALS) Gene Renders Arabidopsis thaliana Resistant to ALS Inhibitors|Pestic. Biochem. Physiol.97(3): 223-228|2010|10.1016/j.pestbp.2010.02.005
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158842|T||Mrozek,E.,Jr., W.H. Queen, and L.L. Hobbs|Effects of Polychlorinated Biphenyls on Growth of Spartina alterniflora Loisel|Environ. Exp. Bot.23(4): 285-292|1983|10.1016/0098-8472(83)90001-1
158843|T||Yano,C.L., and H. Dolder|Rat Testicular Structure and Ultrastructure After Paracetamol Treatment|Contraception66(6): 463-467|2002|10.1016/S0010-7824(02)00407-9
158844|T||Fong,C.J., L.D. Burgoon, K.J. Williams, A.D. Jones, A.L. Forgacs, and T.R. Zacharewski|Effects of Tamoxifen and Ethynylestradiol Cotreatment on Uterine Gene Expression in Immature, Ovariectomized Mice|J. Mol. Endocrinol.45(3): 161-173|2010|10.1677/JME-09-0158
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158850|A||Yamamoto,H., Y. Nakamura, Y. Nakamura, C. Kitani, T. Imari, J. Sekizawa, Y. Takao, N. Yamashita, N. Hirai, S. Oda, and |Initial Ecological Risk Assessment of Eight Selected Human Pharmaceuticals in Japan|Environ. Sci.14(4): 177-193|2007|
158851|T||Guo,W., and Z.H. Hu|Effects of Stolon Severing on the Expansion of Alternanthera philoxeroides from Terrestrial to Contaminated Aquatic Habitats|Plant Species Biol.27(1): 46-52|2012|10.1111/j.1442-1984.2011.00335.x
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158853|T||Sassoe-Pognetto,M., P. Follesa, P. Panzanelli, A.Z. Perazzini, P. Porcu, C. Sogliano, C. Cherchi, and A. Concas|Fluctuations in Brain Concentrations of Neurosteroids are not Associated to Changes in Gephyrin Levels|Brain Res.1169:1-8|2007|10.1016/j.brainres.2007.06.057
158854|T||Da Silva,V.A., S.P. Altenburg, L.R. Malheiros, Thomaz.T.G., and C.J. Lindsey|Postnatal Development of Rats Exposed to Fluoxetine or Venlafaxine During the Third Week of Pregnancy|Braz. J. Med. Biol. Res.32(1): 93-98|1998|10.1590/S0100-879X1999000100014
158855|T||Van Eenaeme,C., P. Baldwin, O. Lambot, and J.M. Bienfait|Estimation of In Vivo Muscle Protein Turnover in Young Bulls Treated with Anabolic Agents|Colloq.INRA (Inst.Natl.Rech.Agron.)16:81-84|1983|
158856|T||Thai,N.P., L. Van Trung, N.K. Hai, and L. Huynh|Protective Efficacy of Solanum Hainanense hance During Hepatotoxicity in Male Mice with Prolonged and Small Oral Doses of Trinitrotoluene|J. Occup. Health40(4): 276-278|1998|10.1539/joh.40.276
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158859|A||Piasecki,W.G., and D. Zacharzewski|Influence of Coagulants Used for Lake Restoration on Daphnia magna Straus (Crustacea, Cladocera)|Baltic Coast. Zone14:49-56|2010|
158860|T||Chauhan,B.S., and D.E. Johnson|Seed Germination Ecology of Portulaca oleracea L.:  An Important Weed of Rice and Upland Crops|Ann. Appl. Biol.155(1): 61-69|2009|10.1111/j.1744-7348.2009.00320.x
158861|T||Egan,T.P., and I.A. Ungar|Competition Between Salicornia europaea and Atriplex prostrata (Chenopodiaceae) Along an Experimental Salinity Gradient|Wetlands Ecol. Manag.9(6): 457-461|2001|10.1023/A:1012276510818
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158863|T||Maouni,A., A. Lamarti, A. Aidoun, M. Khaddor, and A. Badoc|Effect of Benzimidazole Fungicides and Calcium Chloride on Alternaria alternata and Penicillium expansum Rot During Storage of Pears|Afr. J. Biotechnol.6(11): 1289-1292|2007|
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158872|T||Song,J., and S. Xing|Effects of Salinity and Nitrogen on Growth, Contents of Pigments, and Ion Accumulation of a Euhalophyte Suaeda salsa in an Intertidal Zone and on Saline Inland|Commun. Soil Sci. Plant Anal.41(1): 88-97|2010|10.1080/00103620903360296
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158879|A||Patrick,M.L., R.J. Gonzalez, C.M. Wood, R.W. Wilson, T.J. Bradley, and A.L. Val|The Characterization of Ion Regulation in Amazonian Mosquito Larvae:  Evidence of Phenotypic Plasticity, Population-Based Disparity, and Novel Mechanisms of Ion Uptake|Physiol. Biochem. Zool.75(3): 223-236|2002|10.1086/342002
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158884|T||Vorherr,H.|Catecholamine Antagonism to Oxytocin-Induced Milk-Ejection|Acta Endocrinol.154:3-38|1971|
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158889|T||Afshar,M., S.A. Moallem, A.H. Mohammadpour, A. Shiravi, S.M. Jalalian, and M.J. Golalipour|Teratogenic Effects of Carbamazepine on Embryonic Eye Development in Pregnant Mice|Cutan. Ocul. Toxicol.29(1): 10-15|2010|10.3109/15569520903380353
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158892|T||Daniel,W.A., M. Syrek, A. Haduch, and J. Wojcikowski|The Effect of Selective Serotonin Reuptake Inhibitors (SSRIS) on the Pharmacokinetics and Metabolism of Perazine in the Rat|J. Pharm. Pharmacol.53(4): 449-461|2001|10.1211/0022357011775749
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158896|A||Alaguchamy,N., and M. Chandran|Effect of Selected Pesticides on Phytoplankton Productivity|J. Ecotoxicol. Environ. Monit.18(6): 597-601|2008|
158897|A||Nagaraj,G., and A.L.N. Sarma|Effect of Sevin on Survival and Biochemical Composition of Catla catla|J. Ecotoxicol. Environ. Monit.18(4): 359-371|2008|
158898|A||Tudorache,C., R.A. O'Keefe, and T.J. Benfey|The Effect of Temperature and Ammonia Exposure on Swimming Performance of Brook Charr (Salvelinus fontinalis)|Comp. Biochem. Physiol. A Comp. Physiol.156:523-528|2010|10.1016/j.cbpa.2010.04.010
158899|A||Nataraj,M.B., and S.V. Krishnamurthy|Effects of Combinations of Malathion and Cypermethrin on Survivability and Time of Metamorphosis of Tadpoles of Indian Cricket Frog (Fejervarya limnocharis)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(2): 67-73|2012|
158900|A||Capkin,E., E. Terzi, H. Boran, I. Yandi, and I. Altinok|Effects of Some Pesticides on the Vital Organs of Juvenile Rainbow Trout (Oncorhynchus mykiss)|Tissue Cell42(6): 376-382|2010|10.1016/j.tice.2010.10.001
158901|A||Gonzalez,P.F., A. Llanos-Rivera, N.C. Baeza, and E.U. Perez|Xenobiotic-Induced Changes in the Arginase Activity of Zebrafish (Danio rerio) Eleutheroembryo|Environ. Toxicol. Chem.30(10): 2285-2291|2011|10.1002/etc.623
158902|A||Tang,B., L. Zhu, and Q. Zhou|Joint Effects of Penta-BDE and Heavy Metals on Daphnia magna Survival, Its Antioxidant Enzyme Activities and Lipid Peroxidation|Front. Environ. Sci. Eng. China5(1): 99-110|2011|10.1007/s11783-010-0260-8
158903|A||Patil,V.K., and M. David|Behavioral and Morphological Endpoints:  As an Early Response to Sublethal Malathion Intoxication in the Freshwater Fish, Labeo rohita|Drug Chem. Toxicol.33(2): 160-165|2010|10.3109/01480540903196816
158904|A||Ibrahim,S.A., S.I. Tayel, S.A. Mahmoud, and M.A. El-Kasheif|Impact of the Carbamate Pesticide Sevin on Hematology and Histology of Teleost Fish (Oreochromis niloticus)|Global Veter.3(3): 196-203|2009|
158905|T||Yu,H., Z. Xiang, Y. Zhu, J. Wang, Z. Yang, and Z. Yang|Subcellular and Molecular Distribution of Cadmium in Two Rice Genotypes with Different Levels of Cadmium Accumulation|J. Plant Nutr.35(1): 71-84|2012|10.1080/01904167.2012.631668
158906|A||Giri,A., S.S. Yadav, S. Giri, and G.D. Sharma|Effect of Predator Stress and Malathion on Tadpoles of Indian Skittering Frog|Aquat. Toxicol.106:157-163|2012|10.1016/j.aquatox.2011.11.008
158907|A||Baghfalaki,M., F. Shaluei, A. Hedayati, A. Jahanbakhshi, and M. Khalili|Acute Toxicity Assessment of Tribenuron-Methyl Herbicide in Silver Carp (Hypophthalmicthys molitrix), Common Carp (Cyprinus carpio) and Caspian Roach (Rutilus rutilus caspicus)|Global Veter.8(3): 280-284|2012|
158908|A||Eyckmans,M., D. Benoot, G.A.A. Van Raemdonck, G. Zegels, X.W.M. Van Ostade, E. Witters, R. Blust, and G. De Boeck|Comparative Proteomics of Copper Exposure and Toxicity in Rainbow Trout, Common Carp and Gibel Carp|Comp. Biochem. Physiol. D Genom. Proteom.7(2): 220-232|2012|10.1016/j.cbd.2012.03.001
158909|A||Weiss,L.A., and E. Zaniboni-Filho|Survival of Diploid and Triploid Rhamdia quelen Juveniles in Different Ammonia Concentrations|Aquaculture298:153-156|2009|10.1016/j.aquaculture.2009.10.010
158910|A||Miao,J., M.C. Barnhart, E.L. Brunson, D.K. Hardesty, C.G. Ingersoll, and N. Wang|An Evaluation of the Influence of Substrate on the Response of Juvenile Freshwater Mussels (Fatmucker, Lampsilis siliquoidea) in Acute Water Exposures to Ammonia|Environ. Toxicol. Chem.29(9): 2112-2116|2010|10.1002/etc.259
158911|A||Nawata,C.M., and C.M. Wood|mRNA Expression Analysis of the Physiological Responses to Ammonia Infusion in Rainbow Trout|J. Comp. Physiol. B Metab. Transp. Funct.179:799-810|2009|10.1007/s00360-009-0361-5
158912|T||Avery,M.L., E.A. Tillman, and P.J. Savarie|Responses of Captive Fish Crows (Corvus ossifragus) to Acetaminophen Baits and Bait Stations for Brown Tree Snake (Boiga irregularis) Control on Guam|Bird Behav.16(1/2): 1-6|2004|
158913|T||Zeft,H.J., R.E. Whalen, J.J.,Jr. Morris, N.J. Rummo, and H.D. McIntosh|Prophylaxis Versus Treatment of Acetylstrophanthidin Intoxication|Am. Heart J.77(2): 237-245|1969|10.1016/0002-8703(69)90356-1
158915|T||Rajamma,P.|Effect of Some Synthetic Pyrethroids for the Control of Cylas formicarius fab.|Pesticides 18(10): 59-61|1984|
158916|T||Rote,N.B., B.K. Patel, N.P. Mehta, and A.H. Shah|Synthetic Pyrethroids a New Weapon for Bollworm Control in Cotton|Pesticides 21(1): 33-36|1987|
158917|T||Tripathi,A.K., A.K. Bhattacharya, and S.K. Verma|Relative Efficacy of Some Synthetic Pyrethroids and Commonly Used Insecticides Against Mythimna separata (Walker)|Pesticides 18(10): 32-33|1984|
158918|T||Patel,P.S., and J.R. Patel|Efficacy of Emulsifiable Concentrates and Dust Formulations of Fenvalerate in Comparison to Other Insecticides Against Heliothis armigera Hubner and Melanagromyza obtusa Malloch Infesting Pigeonpea|Indian J. Plant Prot.17(2): 223-226|1989|
158919|T||Farombi,E.O., M.C. Ugwuezunmba, T.T. Ezenwadu, M.O. Oyeyemi, and M. Ekor|Tetracycline-Induced Reproductive Toxicity in Male Rats: Effects of Vitamin C and N-Acetylcysteine|Exp. Toxicol. Pathol.60(1): 77-85|2008|10.1016/j.etp.2008.02.002
158920|T||Jarald,E.E., S. Edwin, V. Saini, L. Deb, V.B. Gupta, S.P. Wate, and K.P. Busari|Anti-Inflammatory and Anthelmintic Activities of Solanum khasianum Clarke|Nat. Prod. Res.22(3): 269-274|2008|10.1080/14786410701590590
158921|AT||Khan,M.F., Fazal-Ur-Rehman, G.M. Khan, I. Khan, and F. Ibad|Antifungal, Insecticidal, Cytotoxicity, and Phytotoxicity Studies of Binuclear Ni(II) and Cu(II) Complexes of Diclofenac|Am. Lab.41(6): 44, 46-49|2009|
158922|T||Orth,A.B., A. Sfarra, E.J. Pell, and M. Tien|Assessing the Involvement of Free Radicals in Fungicide Toxicity Using a-Tocopherol Analogs|Pestic. Biochem. Physiol.47:134-141|1993|10.1006/pest.1993.1071
158923|T||Shetty,A.J., and K. Narayana|The Effects of Carbamazepine on Sperm Morphology in Wistar Rats|Indian J. Physiol. Pharmacol.51(3): 255-260|2007|
158924|A||Soucek,D.J., T.K. Linton, C.D. Tarr, A. Dickinson, N. Wickramanayake, C.G. Delos, and L.A. Cruz|Influence of Water Hardness and Sulfate on the Acute Toxicity of Chloride to Sensitive Freshwater Invertebrates|Environ. Toxicol. Chem.30(4): 930-938|2011|10.1002/etc.454
158925|A||Lasier,P.J., and I.R. Hardin|Observed and Predicted Reproduction of Ceriodaphnia dubia Exposed to Chloride, Sulfate, and Bicarbonate|Environ. Toxicol. Chem.29(2): 347-358|2010|10.1002/etc.29
158927|T||Wang,C., K. Zhang, M. He, C. Jiang, L. Tian, Y. Tian, and X. Wang|Mineral Nutrient Imbalance, DNA Lesion and DNA-Protein Crosslink Involved in Growth Retardation of Vicia faba L. Seedlings Exposed to Lanthanum Ions|J. Environ. Sci.24(2): 214-220|2012|10.1016/S1001-0742(11)60760-2
158928|A||Matozzo,V., A. Formenti, G. Donadello, and M.G. Marin|A Multi-Biomarker Approach to Assess Effects of Triclosan in the Clam Ruditapes philippinarum|Mar. Environ. Res.74:40-46|2012|10.1016/j.marenvres.2011.12.002
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158933|T||Farag,M.M., M. Mikhail, R. Shehata, E. Abdel-Meguid, and S. Abdel-Tawab|Assessment of Gentamicin-Induced Nephrotoxicity in Rats Treated with Low Doses of Ibuprofen and Diclofenac Sodium|Clin. Sci. (Lond.)91(2): 187-191|1996|10.1042/cs0910187
158934|T||Deshpande,V.Y., K.N. Mendulkar, P.J. Moghe, M.T. Brahmapurikar, and N.L. Sadre|Effect of Different beta-Adrenoceptor Antagonists on Reproduction in Male Mice|Arch. Int. Pharmacodyn. Ther.250(1): 131-136|1981|
158935|A||Fulton,B.A., R.A. Brain, S. Usenko, J.A. Back, and B.W. Brooks|Exploring Lemna gibba Thresholds to Nutrient and Chemical Stressors:  Differential Effects of Triclosan on Internal Stoichiometry and Nitrate Uptake Across a Nitrogen:Phosphorus Gradient|Environ. Toxicol. Chem.29(10): 2363-2370|2010|10.1002/etc.289
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158937|T||Acharya,M.|An Investigation of the Effects of Compounds Structurally Related to L-Cysteine and Taurine on Acetaminophen-Induced Hepatotoxicity and Nephrotoxicity in the Rat|Ph.D. Thesis, St. John's University, NY:422 p.|2009|
158938|T||Acuff-Smith,K.D.|Neurobehavioral, Neurochemical, and Ocular Effects of Prenatal Methamphetamine Exposure in Rats as a Function of Dose and Gestational Stage|Ph.D. Thesis, University of Cincinnati, OH:206 p.|1993|
158939|T||Boles,J.J.|Embryotoxic Interaction of Selected Dosages of Fluoxetine and Ethanol: Differences in Embryo Viability in Sprague-Dawley Rat Offspring|Ph.D. Thesis, Texas A&M University, College Station TX:137 p.|1999|
158940|A||Balompapueng,M.D., N. Munuswamy, A. Hagiwara, and K. Hirayama|Effect of Disinfectants on the Hatching of Marine Rotifer Resting Eggs Brachionus plicatilis Muller|Aquac. Res.28(7): 559-565|1997|10.1111/j.1365-2109.1997.tb01074.x
158941|T||Choy,R.K.M.|Worms on Prozac: Genetic and Molecular Analysis of Fluoxetine Resistance in the Nematode Caenorhabditis elegans|Ph.D. Thesis, University of Washington, WA:135 p.|2000|
158942|T||Carp,H.J.A., A. Fein, and L. Nebel|Effect of Diclofenac on Implantation and Embryonic Development in the Rat|Eur. J. Obstet. Gynecol. Reprod. Biol.28(3): 273-277|1988|10.1016/0028-2243(88)90038-X
158943|T||Cave,G., M.G. Harvey, and C.D. Castle|The Role of Fat Emulsion Therapy in a Rodent Model of Propranolol Toxicity:  A Preliminary Study|J. Med. Toxicol.2(1): 4-7|2006|10.1007/BF03161005
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158947|A||Nugroho,A.P., and H. Frank|Effects of Copper Exposure on Calcium, Carbohydrate, and Protein Levels in the Freshwater Mussel Anodonta anatina|Toxicol. Environ. Chem.94(1): 99-108|2012|10.1080/02772248.2011.630910
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158949|A||Li,M.H.|Acute Toxicity of Benzophenone-Type UV Filters and Paraben Preservatives to Freshwater Planarian, Dugesia japonica|Toxicol. Environ. Chem.94(3): 566-573|2012|10.1080/02772248.2012.655695
158950|A||Kamble,V.S., and R.A. Shinde|Impact of Organochlorine Pesticide on Oxygen Consumption in the Freshwater Bivalve Mollusc Lamellidens corrianus|Res. J. Pharm. Biol. Chem. Sci.3(2): 607-613|2012|
158951|A||Mansouri,B., M. Ebrahimpour, and H. Babaei|Bioaccumulation and Elimination of Nickel in the Organs of Black Fish (Capoeta fusca)|Toxicol. Ind. Health28(4): 361-368|2012|10.1177/0748233711412425
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158956|T||Engelke,T., and T. Tatlioglu|The Wi Gene Causes Genic Male Sterility in Allium schoenoprasum|Plant Breed.119(4): 325-328|2000|10.1046/j.1439-0523.2000.00483.x
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158959|T||McLean,M.S.|Neurobehavioral Consequences of Hyperphenylalaninemia in Neonatal Rats|Ph.D. Thesis, University of Cincinnati, OH:198 p.|1986|
158960|T||Gilani,A.H., and K.H. Janbaz|Protective Effect of Artemisia scoparia Extract Against Acetaminophen-Induced Hepatotoxicity|Gen. Pharmacol.24(6): 1455-1458|1993|10.1016/0306-3623(93)90434-Y
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158966|T||Sarkar,J.|Effects of Fluoxetine on Estrous Cycle and Sexual Behavior in Female Rats|Ph.D. Thesis, Texas Woman's University, TX:82 p.|2007|
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158968|A||Das,S., B. Unni, M. Bhattacharjee, S.B. Wann, and P.G. Rao|Toxicological Effects of Arsenic Exposure in a Freshwater Teleost Fish, Channa punctatus|Afr. J. Biotechnol.11(19): 4447-4454|2012|
158969|A||Cowden,J., B. Padnos, D. Hunter, R. MacPhail, K. Jensen, and S. Padilla|Developmental Exposure to Valproate and Ethanol Alters Locomotor Activity and Retino-Tectal Projection Area in Zebrafish Embryos|Reprod. Toxicol.33(2): 165-173|2012|10.1016/j.reprotox.2011.11.111
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158978|T||Mena,F., C. Clapp, D. Aguayo, and G. Martinez De La Escalera|Prolactin and Propranolol Prevent the Suckling-Induced Inhibition of Lactation in Rabbits|Physiol. Behav.48(2): 311-315|1990|10.1016/0031-9384(90)90319-Y
158979|A||Hallgren,S., K. Volkova, N. Reyhanian, K.H. Olsen, and I.P. Hallstrom|Anxiogenic Behaviour Induced by 17alpha-Ethynylestradiol in Male Guppies (Poecilia reticulata)|Fish Physiol. Biochem.37(4): 911-918|2011|10.1007/s10695-011-9488-x
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158985|AT||Del Rayo Camacho,M., G.C. Kirby, D.C. Warhurst, S.L. Croft, and J.D. Phillipson|Oxoaporphine Alkaloids and Quinones from Stephania dinklagei and Evaluation of Their Antiprotozoal Activities|Planta Med.66(5): 478-480|2000|10.1055/s-2000-8597
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158990|T||Anderson,W.I., R.C. Wilson, and D.D. Goetsch|Acute Anaphylaxis in a Goat After Penicillin Administration|Mod. Vet. Pract.64(11): 932-|1983|
158991|T||Roder,F.T., T. Schmulling, and C. Gatz|Efficiency of the Tetracycline-Dependent Gene Expression System:  Complete Suppression and Efficient Induction of the rolB Phenotype in Transgenic Plants|Mol. Gen. Genet.243(1): 32-38|1994|10.1007/BF00283873
158993|T||Quail,M.A., A. Arnoldi, D.J. Moore, M.W. Goosey, and S.L. Kelly|Ketoconazole-Mediated Growth Inhibition in Botrytis cinerea and Saccharomyces cerevisiae|Phytochemistry32(2): 273-280|1993|10.1016/S0031-9422(00)94980-X
158994|T||National Toxicology Program|Multigenerational Reproductive Toxicology Study of Ethinyl Estradiol (CAS No. 57-63-6) in Sprague-Dawley Rats|Tech. Rep. Ser. 547, National Toxicology Program:312 p.|2010|
158995|A||Selderslaghs,I.W.T., R. Blust, and H.E. Witters|Feasibility Study of the Zebrafish Assay as an Alternative Method to Screen for Developmental Toxicity and Embryotoxicity Using a Training Set of 27 Compounds|Reprod. Toxicol.33(2): 142-154|2012|10.1016/j.reprotox.2011.08.003
158996|A||Tlili,A., A. Berard, J.L. Roulier, B. Volat, and B. Montuelle|PO43- Dependence of the Tolerance of Autotrophic and Heterotrophic Biofilm Communities to Copper and Diuron|Aquat. Toxicol.98(2): 165-177|2010|10.1016/j.aquatox.2010.02.008
158997|A||Gadan,K., I.S. Marjara, H. Sundh, K. Sundell, and O. Evensen|Slow Release Cortisol Implants Result in Impaired Innate Immune Responses and Higher Infection Prevalence Following Experimental Challenge with Infectious Pancreatic Necrosis Virus in Atlantic Salmon (Salmo salar) Parr|Fish Shellfish Immunol.32(5): 637-644|2012|10.1016/j.fsi.2012.01.004
158998|T||Iskandar,N.L., N.A.I.M. Zainudin, and S.G. Tan|Tolerance and Biosorption of Copper (Cu) and Lead (Pb) by Filamentous Fungi Isolated from a Freshwater Ecosystem|J. Environ. Sci.23(5): 824-830|2011|10.1016/S1001-0742(10)60475-5
158999|A||Srivastava,S., M. Shrivastava, P. Suprasanna, and S.F. D'Souza|Phytofiltration of Arsenic from Simulated Contaminated Water Using Hydrilla verticillata in Field Conditions|Ecol. Eng.37(11): 1937-1941|2011|10.1016/j.ecoleng.2011.06.012
159000|T||Cakici,O., and E. Akat|Histopathological Effects of Carbaryl on Testes of Snake-Eyed Lizard, Ophisops elegans|Environ. Sci. Pollut. Res.19(1): 64-71|2012|10.1007/s11356-011-0541-1
159001|A||Boettger,S.A., and J.B. McClintock|Acetyl Cholinesterase Activity and Muscle Contraction in the Sea Urchin Lytechinus variegatus (Lamarck) Following Chronic Phosphate Exposure|Environ. Toxicol.27(4): 193-201|2012|10.1002/tox.20629
159002|A||Lee,J., K. Ji, J. Kim, C. Park, K.H. Lim, T.H. Yoon, and K. Choi|Acute Toxicity of Two CdSe/ZnSe Quantum Dots with Different Surface Coating in Daphnia magna Under Various Light Conditions|Environ. Toxicol.25(6): 593-600|2010|10.1002/tox.20520
159003|A||Abirami,J., M. Bharathi, and S. Kumaresan|Studies on Toxicity Effects of Endosulfan on Terapon jarbua and Some Aspects of Histopathology and Biochemical Compositions|J. Pharm. Res.5(2): 754-759|2012|
159004|A||Barbieri,E., and S.A. Doi|Acute Toxicity of Ammonia on Juvenile Cobia (Rachycentron canadum, Linnaeus, 1766) According to the Salinity|Aquac. Int.20(2): 373-382|2012|10.1007/s10499-011-9467-3
159005|A||Hedayati,A., R. Tarkhani, and A. Shadi|Investigation of Acute Toxicity of Two Pesticides Diazinon and Deltamethrin, on Blue Gourami, Trichogaster trichopterus (Pallus)|Global Veter.8(5): 440-444|2012|
159006|A||Khalili,M., S.R. Khaleghi, and A. Hedayati|Acute Toxicity Test of Two Pesticides Diazinon and Deltamethrin, on Swordtail Fish (Xiphophorus helleri)|Global Veter.8(5): 541-545|2012|
159007|A||Sanchez-Lazo,C., and I. Martinez-Pita|Induction of Settlement in Larvae of the Mussel Mytilus galloprovincialis Using Neuroactive Compounds|Aquaculture344-349:210-215|2012|10.1016/j.aquaculture.2012.03.021
159008|A||Oliveira,M., C. Gravato, and L. Guilhermino|Acute Toxic Effects of Pyrene on Pomatoschistus microps (Teleostei, Gobiidae): Mortality, Biomarkers and Swimming Performance|Ecol. Indic.19:206-214|2012|10.1016/j.ecolind.2011.08.006
159009|T||James,T.K., and A. Rahman|Adjuvants Effect on Flumetsulam Efficacy and Rainfastness on Three Pasture Weeds|FRI Bull.193:273-278|1996|
159010|A||Lavado,R., D. Shi, and D. Schlenk|Effects of Salinity on the Toxicity and Biotransformation of L-Selenomethionine in Japanese Medaka (Oryzias latipes) Embryos: Mechanisms of Oxidative Stress|Aquat. Toxicol.108:18-22|2012|10.1016/j.aquatox.2011.07.001
159011|A||Trevisan,R., M. Arl, C.L. Sacchet, C.S. Engel, N.M. Danielli, D.F. Mello, C. Brocardo, A.F. Maris, and A.L. Dafre|Antioxidant Deficit in Gills of Pacific Oyster (Crassostrea gigas) Exposed to Chlorodinitrobenzene Increases Menadione Toxicity|Aquat. Toxicol.108:85-93|2012|10.1016/j.aquatox.2011.09.023
159013|AT||Tng,Y.Y.M., S.F. Chew, N.L.J. Wee, F.K. Wong, W.P. Wong, C.Y. Tok, and Y.K. Ip|Acute Ammonia Toxicity and the Protective Effects of Methionine Sulfoximine on the Swamp Eel, Monopterus albus|J. Exp. Zool.311A:676-688|2009|10.1002/jez.555
159014|A||Stewart,S.C., J.T.A. Dick, P.R. Laming, and A. Gerhardt|Assessment of the Multispecies Freshwater Biomonitoring (MFB) in a Marine Context:  The Green Crab (Carcinus maenas) as an Early Warning Indicator|J. Environ. Monit.12(8): 1566-1574|2010|10.1039/b925474a
159015|A||Goncalves,A.F., I. Pascoa, J.V. Neves, J. Coimbra, M.M. Vijayan, P. Rodrigues, and J.M. Wilson|The Inhibitory Effect of Environmental Ammonia on Danio rerio LPS Induced Acute Phase Response|Dev. Comp. Immunol.36:279-288|2012|10.1016/j.dci.2011.04.008
159016|A||Zhang,L., and C.M. Wood|Ammonia as a Stimulant to Ventilation in Rainbow Trout Oncorhynchus mykiss|Resp. Physiol. Neurobiol.168:261-271|2009|10.1016/j.resp.2009.07.011
159017|A||Sharif,F., F. Porta, A.H. Meijer, A. Kros, and M.K. Richardson|Mesoporous Silica Nanoparticles as a Compound Delivery System in Zebrafish Embryos|Int. J. Nanomed.7:1875-1890|2012|10.2147/IJN.S26547
159018|A||Pandey,S., R. Rai, and L.C. Rai|Proteomics Combines Morphological, Physiological and Biochemical Attributes to Unravel the Survival Strategy of Anabaena sp. PCC7120 Under Arsenic Stress|J. Proteom.75(3): 921-937|2012|10.1016/j.jprot.2011.10.011
159019|A||Liu,Y.D., F.C. Wu, C.W. Ji, and T.S. Chon|Movement Patterning of Daphnia magna Treated with Copper Based on Self-Organizing Map|Proc. Environ. Sci.13:994-1002|2012|10.1016/j.proenv.2012.01.092
159020|A||Kelestemur,G.T., P.T. Seven, and S. Yilmaz|Effects of Dietary Propolis and Vitamin E on Growth Performance and Antioxidant Status in Blood of Juvenile Rainbow Trout, Oncorhynchus mykiss (Teleostei: Salmoniformes) Under Different Flow Rates|Zoologia (Curitiba)29(2): 99-108|2012|
159021|T||Du,J., J. Luan, H. Liu, T.O. Daniel, S. Peiper, T.S. Chen, Y. Yu, L.W. Horton, L.B. Nanney, R.M. Strieter, and A. Richm|Potential Role for Duffy Antigen Chemokine-Binding Protein in Angiogenesis and Maintenance of Homeostasis in Response to Stress|J. Leukoc. Biol.71(1): 141-153|2002|10.1189/jlb.71.1.141
159022|T||Bernards,M.L., R.J. Crespo, G.R. Kruger, R. Gaussoin, and P.J. Tranel|A Waterhemp (Amaranthus tuberculatus) Population Resistant to 2,4-D|Weed Sci.60(3): 379-384|2012|10.1614/WS-D-11-00170.1
159023|A||He,J., Y. Ren, X. Pan, Y. Yan, C. Zhu, and D. Jiang|Salicylic Acid Alleviates the Toxicity Effect of Cadmium on Germination, Seedling Growth, and Amylase Activity of Rice|J. Plant Nutr. Soil Sci.173(2): 300-305|2010|10.1002/jpln.200800302
159024|A||Han,P., G. Wu, Y.Q. Wu, M.T. Li, J. Xiang, and L.J. Yu|Effect of Heavy Metal Stress on Emerging Plants Community Constructions in Wetland|Water Sci. Technol.62(10): 2459-2466|2010|10.2166/wst.2010.464
159025|A||Robles,W., J.D. Madsen, and R.M. Wersal|Potential for Remote Sensing to Detect and Predict Herbicide Injury on Waterhyacinth (Eichhornia crassipes)|Invasive Plant Sci. Manag.3(4): 440-450|2010|10.1614/IPSM-D-09-00040.1
159026|A||Paschoal,J.A.R., A.J.A. Bicudo, J.E.P. Cyrino, F.G.R. Reyes, and S. Rath|Depletion Study and Estimation of the Withdrawal Period for Oxytetracycline in Tilapia Cultured in Brazil|J. Vet. Pharmacol. Ther.35(1): 90-96|2012|10.1111/j.1365-2885.2011.01294.x
159027|A||Zaidi,N., and N. Soltani|Environmental Risks of Two Chitin Synthesis Inhibitors on Gambusia affinis: Chronic Effects on Growth and Recovery of Biological Responses|Biol. Control59(2): 106-113|2011|10.1016/j.biocontrol.2011.04.001
159028|A||Cothran,R.D., F. Radarian, and R.A. Relyea|Altering Aquatic Food Webs with a Global Insecticide:  Arthropod-Amphibian Links in Mesocosms that Simulate Pond Communities|J. North Am. Benthol. Soc.30(4): 893-912|2011|10.1899/11-011.1
159029|A||Groner,M.L., and R.A. Relyea|A Tale of Two Pesticides: How Common Insecticides Affect Aquatic Communities|Freshw. Biol.56(11): 2391-2404|2011|10.1111/j.1365-2427.2011.02667.x
159030|A||Ali,A., and K.K. Tamuli|Effect of Malathion on the Kinetics of Humoral Immune Response and Protective Immunity of the Indian Major Carp, Labeo rohita (Ham.)|Environ. Ecol.28(2A): 984-987|2010|
159032|A||Straus,D.L., J.D. Bowker, M.P. Bowman, D. Carty, A.J. Mitchell, and B.D. Farmer|Safety of Aquaflor-Medicated Feed to Sunshine Bass|N. Am. J. Aquacult.74(1): 1-7|2012|10.1080/15222055.2011.630262
159033|A||Ma,Y.B., Z.F. Zhang, M.Y. Shao, K.H. Kang, X.L. Shi, Y.P. Dong, and J.L. Li|Response of Sulfide:Quinone Oxidoreductase to Sulfide Exposure in the Echiuran Worm Urechis unicinctus|Mar. Biotechnol.14(2): 245-251|2012|10.1007/s10126-011-9408-1
159034|AT||Ahmad,M.A., R. Gaur, and M. Gupta|Comparative Biochemical and RAPD Analysis in Two Varieties of Rice (Oryza sativa) Under Arsenic Stress by Using Various Biomarkers|J. Hazard. Mater.217:141-148|2012|10.1016/j.jhazmat.2012.03.005
159035|A||Zhang,W., L. Huang, and W. Wang|Biotransformation and Detoxification of Inorganic Arsenic in a Marine Juvenile Fish Terapon jarbua After Waterborne and Dietborne Exposure|J. Hazard. Mater.221/222:162-169|2012|10.1016/j.jhazmat.2012.04.027
159036|A||Jemec,A., P. Djinovic, T. Tisler, and A. Pintar|Effects of Four CeO2 Nanocrystalline Catalysts on Early-Life Stages of Zebrafish Danio rerio and Crustacean Daphnia magna|J. Hazard. Mater.219/220:213-220|2012|10.1016/j.jhazmat.2012.03.080
159037|A||Zhang,W., K. Lin, Y. Miao, Q. Dong, C. Huang, H. Wang, M. Guo, and X. Cui|Toxicity Assessment of Zebrafish Following Exposure to CdTe QDs|J. Hazard. Mater.213/214:413-420|2012|10.1016/j.jhazmat.2012.02.014
159038|A||Lim,H., and P.W. Sorensen|Common Carp Implanted with Prostaglandin F2a Release a Sex Pheromone Complex that Attracts Conspecific Males in Both the Laboratory and Field|J. Chem. Ecol.38(2): 127-134|2012|10.1007/s10886-012-0062-5
159039|A||Cogun,H.Y., O. Firat, O. Firat, T.A. Yuzereroglu, G. Gok, F. Kargin, and Y. Kotemen|Protective Effect of Selenium Against Mercury-Induced Toxicity on Hematological and Biochemical Parameters of Oreochromis niloticus|J. Biochem. Mol. Toxicol.26(3): 117-122|2012|10.1002/jbt.20417
159040|A||Pacini,N., M.C. Abete, A.J.M. Dorr, M. Prearo, M. Natali, and A.C. Elia|Detoxifying Response in Juvenile Tench Fed by Selenium Diet|Environ. Toxicol. Pharmacol.33(1): 46-52|2012|10.1016/j.etap.2011.10.004
159041|A||Chishty,N., A. Tripathi, and M. Sharma|Evaluation of Acute Toxicity of Zinc, Lead and Cadmium to Zooplanktonic Community in Upper Berach River System, Rajasthan, India|S. Asian J. Exp. Biol.2(1): 20-26|2012|10.38150/sajeb.2(1).p20-26
159042|AT||Majorel,C., L. Hannibal, M.E. Soupe, F. Carriconde, M. Ducousso, M. Lebrun, and P. Jourand|Tracking Nickel-Adaptive Biomarkers in Pisolithus albus from New Caledonia Using a Transcriptomic Approach|Mol. Ecol.21(9): 2208-2223|2012|10.1111/j.1365-294X.2012.05527.x
159043|AT||Cecchinelli,E., L. Aquiloni, G. Maltagliati, G. Orioli, E. Tricarico, and F. Gherardi|Use of Natural Pyrethrum to Control the Red Swamp Crayfish Procambarus clarkii in a Rural District of Italy|Pest Manag. Sci.68(6): 839-844|2012|10.1002/ps.2335
159044|A||Bagchi,S.N., P.K. Das, S. Banerjee, M. Saggu, and D. Bagchi|A Bentazone-Resistant Mutant of Cyanobacterium, Synechococcus elongatus PCC7942 Adapts Different Strategies to Counteract on Bromoxynil- and Salt-Mediated Oxidative Stress|Physiol. Mol. Biol. Plants18(2): 115-123|2012|10.1007/s12298-012-0111-0
159045|A||Vosges,M., O. Kah, N. Hinfray, E. Chadili, Y. Le Page, Y. Combarnous, J.M. Porcher, and F. Brion|17alpha-Ethinylestradiol and Nonylphenol Affect the Development of Forebrain GnRH Neurons Through an Estrogen Receptors-Dependent Pathway|Reprod. Toxicol.33(2): 198-204|2012|10.1016/j.reprotox.2011.04.005
159046|A||Maleva,M.G., G.F. Nekrasova, G.G. Borisova, N.V. Chukina, and O.S. Ushakova|Effect of Heavy Metals on Photosynthetic Apparatus and Antioxidant Status of Elodea|Russ. J. Plant Physiol.59(2): 190-197|2012|10.1134/S1021443712020069
159047|A||Lessard,C.R., and P.C. Frost|Phosphorus Nutrition Alters Herbicide Toxicity on Daphnia magna|Sci. Total Environ.421/422:124-128|2012|10.1016/j.scitotenv.2012.01.040
159048|A||Van Dam,J.W., A.P. Negri, J.F. Mueller, R. Altenburger, and S. Uthicke|Additive Pressures of Elevated Sea Surface Temperatures and Herbicides on Symbiont-Bearing Foraminifera|PLoS One7(3): 1-12|2012|10.1371/journal.pone.0033900
159050|T||Watts-Williams,S.J., and T.R. Cavagnaro|Arbuscular mycorrhizas Modify Tomato Responses to Soil Zinc and Phosphorus Addition|Biol. Fertil. Soils48(3): 285-294|2012|10.1007/s00374-011-0621-x
159051|T||Tran,H.Y.P., E.J. Shin, K. Saito, X.K.T. Nguyen, Y.H. Chung, J.H. Jeong, J.H. Bach, D.H. Park, K. Yamada, T. Nabeshima,|Protective Potential of IL-6 Against Trimethyltin-Induced Neurotoxicity In Vivo|Free Radic. Biol. Med.52(7): 1159-1174|2012|10.1016/j.freeradbiomed.2011.12.008
159052|T||Zhang,Z., Z. Rengel, H. Chang, K. Meney, L. Pantelic, and R. Tomanovic|Phytoremediation Potential of Juncus subsecundus in Soils Contaminated with Cadmium and Polynuclear Aromatic Hydrocarbons (PAHs)|Geoderma (Amst.)175/176:1-8|2012|10.1016/j.geoderma.2012.01.020
159053|T||Phugare,S.S., Y.B. Gaikwad, and J.P. Jadhav|Biodegradation of Acephate Using a Developed Bacterial Consortium and Toxicological Analysis Using Earthworms (Lumbricus terrestris) as a Model Animal|Int. Biodeterior. Biodegrad.69:1-9|2012|10.1016/j.ibiod.2011.11.013
159054|T||Umbreit,T.H., S. Francke-Carroll, J.L. Weaver, T.J. Miller, P.L. Goering, N. Sadrieh, and M.E. Stratmeyer|Tissue Distribution and Histopathological Effects of Titanium Dioxide Nanoparticles After Intravenous or Subcutaneous Injection in Mice|J. Appl. Toxicol.32(5): 350-357|2012|10.1002/jat.1700
159056|T||Knazicka,Z., E. Tvrda, L. Bardos, and N. Lukac|Dose- and Time-Dependent Effect of Copper Ions on the Viability of Bull Spermatozoa in Different Media|J. Environ. Sci. Health Part A Environ. Sci. Eng.47(9): 1294-1300|2012|
159057|T||Kalafova,A., J. Kovacik, M. Capcarova, A. Kolesarova, N. Lukac, R. Stawarz, G. Formicki, and T. Laciak|Accumulation of  Zinc, Nickel, Lead and Cadmium in some Organs of Rabbits After Dietary Nickel and Zinc Inclusion|J. Environ. Sci. Health Part A Environ. Sci. Eng.47(9): 1234-1238|2012|
159058|T||Bicalho,S.T.T., and T. Langenbach|Distribution of the Herbicide Atrazine in a Microcosm with Riparian Forest Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(6): 505-511|2012|
159059|T||Dasgupta,R., P.P. Chakravorty, and A. Kaviraj|Effects of Carbaryl, Chlorpyrifos and Endosulfan on Growth, Reproduction and Respiration of Tropical Epigeic Earthworm, Perionyx excavatus (Perrier)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(2): 99-103|2012|
159060|T||Herrero,O., J.M. Perez Martin, P. Fernandez Freire, L. Carvajal Lopez, A. Peropadre, and M.J. Hazen|Toxicological Evaluation of Three Contaminants of Emerging Concern by Use of the Allium cepa Test|Mutat. Res.743(1/2): 20-24|2012|10.1016/j.mrgentox.2011.12.028
159061|T||Trivedi,P.P., and G.B. Jena|Dextran Sulfate Sodium-Induced Ulcerative Colitis Leads to Increased Hematopoiesis and Induces both Local as Well as Systemic Genotoxicity in Mice|Mutat. Res., Genet. Toxicol. Environ. Mutagen.744(2): 172-183|2012|10.1016/j.mrgentox.2012.03.001
159062|A||Patil,C.D., S.V. Patil, H.P. Borase, B.K. Salunke, and R.B. Salunkhe|Larvicidal Activity of Silver Nanoparticles Synthesized Using Plumeria rubra Plant Latex Against Aedes aegypti and Anopheles stephensi|Parasitol. Res.110(5): 1815-1822|2012|10.1007/s00436-011-2704-x
159063|T||Fahim,M.A., A. Nemmar, S. Dhanasekaran, S. Singh, M. Shafiullah, J. Yasin, S. Zia, and M.Y. Hasan|Acute Cadmium Exposure Causes Systemic and Thromboembolic Events in Mice|Physiol. Res.61(1): 73-80|2012|10.33549/physiolres.932238
159064|T||Yang,X., S. Guo, L. Guo, and C. Wei|Ammonium Enhances the Uptake, Bioaccumulation, and Tolerance of Phenanthrene in Cucumber Seedlings|Plant Soil354(1/2): 185-195|2012|10.1007/s11104-011-1054-x
159065|T||Cuesta,M., J. Mendoza, D. Clesse, P. Pevet, and E. Challet|Serotonergic Activation Potentiates Light Resetting of the Main Circadian Clock and Alters Clock Gene Expression in a Diurnal Rodent|Exp. Neurol.210(2): 501-513|2008|10.1016/j.expneurol.2007.11.026
159066|T||Fong,C.J., L.D. Burgoon, K.J. Williams, A.L. Forgacs, and T.R. Zacharewski|Comparative Temporal and Dose-Dependent Morphological and Transcriptional Uterine Effects Elicited by Tamoxifen and Ethynylestradiol in Immature, Ovariectomized Mice|BMC Genomics8:15 p.|2007|10.1186/1471-2164-8-151
159067|T||Bansal,R.L., and V.K. Nayyar|Critical Limit of Manganese for Sunflower (Helianthus Annuus) in Ustochrepts|Indian J. Agric. Sci.65(3): 205-206|1995|
159068|T||Ashigh,J.|Resistance to Acetohydroxyacid Synthase-Inhibiting Herbicides in Populations of Eastern Black Nightshade (Solanum ptycanthum Dun.) from Ontario|Ph.D. Thesis, University of Guelph, Ontario, Canada:213 p.|2007|
159070|T||Ieiri,T., H.T. Chen, G.A. Campbell, and J. Meites|Effects of Naloxone and Morphine on the Proestrous Surge of Prolactin and Gonadotropins in the Rat|Endocrinology106:1568-1570|1980|10.1210/endo-106-5-1568
159071|T||Chernobrovkina,N.P., A.F. Titov, E.V. Robonen, and A.K. Morozov|Effect of Boric Acid on the Ability of Plants to Accumulate Heavy Metals|Russ. J. Ecol.43(1): 29-32|2012|10.1134/S1067413612010031
159072|T||Boutin,C., K.L. Aya, D. Carpenter, P.J. Thomas, and O. Rowland|Phytotoxicity Testing for Herbicide Regulation: Shortcomings in Relation to Biodiversity and Ecosystem Services in Agrarian Systems|Sci. Total Environ.415:79-92|2012|10.1016/j.scitotenv.2011.04.046
159073|T||Al-Salim,N., E. Barraclough, E. Burgess, B. Clothier, M. Deurer, S. Green, L. Malone, and G. Weir|Quantum Dot Transport in Soil, Plants, and Insects|Sci. Total Environ.409(17): 3237-3248|2011|10.1016/j.scitotenv.2011.05.017
159074|A||Fidler,A.E., P.T. Holland, E.J. Reschly, S. Ekins, and M.D. Krasowski|Activation of a Tunicate (Ciona intestinalis) Xenobiotic Receptor Orthologue by Both Natural Toxins and Synthetic Toxicants|Toxicon59(2): 365-372|2012|10.1016/j.toxicon.2011.12.008
159075|T||Borowiecka,J., W. Pakulska, and E. Czarnecka|Analgetic Properties of Glycosyl Diclofenac Derivatives|Pharmazie55(9): 704-706|2000|
159076|T||Alsharif,N.Z., E. Hassoun, M. Bagchi, T. Lawson, and S.J. Stohs|The Effects of Anti-TNF-alpha Antibody and Dexamethasone on TCDD-Induced Oxidative Stress in Mice|Pharmacology48:127-136|1994|10.1159/000139171
159077|T||Banda,P.W., and B.D. Quart|The Effect of Alcohol on the Toxicity of Acetaminophen in Mice|Res. Commun. Chem. Pathol. Pharmacol.43(1): 127-138|1984|
159078|A||Aravind,P., M.N.V. Prasad, P. Malec, A. Waloszek, and K. Strzalka|Zinc Protects Ceratophyllum demersum L. (Free-Floating Hydrophyte) Against Reactive Oxygen Species Induced by Cadmium|J. Trace Elem. Med. Biol.23(1): 50-60|2009|10.1016/j.jtemb.2008.10.002
159079|T||El-Shitany,N.A., S. Hegazy, and K. El-Desoky|Evidences for Antiosteoporotic and Selective Estrogen Receptor Modulator Activity of Silymarin Compared with Ethinylestradiol in Ovariectomized Rats|Phytomedicine17(2): 116-125|2010|10.1016/j.phymed.2009.05.012
159080|T||Elger,W., S. Beier, K. Pollow, R. Garfield, S.Q. Shi, and A. Hillisch|Conception and Pharmacodynamic Profile of Drospirenone|Steroids68(10-13): 891-905|2003|10.1016/j.steroids.2003.08.008
159081|T||Costa Lima,S., V. Rodrigues, J. Garrido, F. Borges, P. Kong Thoo Lin, and A. Cordeiro Da Silva|In Vitro Evaluation of Bisnaphthalimidopropyl Derivatives Loaded into Pegylated Nanoparticles Against Leishmania infantum Protozoa|Int. J. Antimicrob. Agents39(5): 424-430|2012|10.1016/j.ijantimicag.2012.01.003
159082|T||Behrendt,W.A., and J. Cserepes|Acute Toxicity and Analgesic Action of a Combination of Buclizine, Codeine and Paracetamol ('Migraleve') in Tablet and Suppository Form in Rats|Pharmatherapeutica4(5): 322-331|1985|
159083|T||Godinho,J.L.P., C. Simas-Rodrigues, R. Silva, T.P. Urmenyi, W. De Souza, and J.C.F. Rodrigues|Efficacy of Miltefosine Treatment in Leishmania amazonensis-Infected BALB/c Mice|Int. J. Antimicrob. Agents39(4): 326-331|2012|10.1016/j.ijantimicag.2011.11.008
159084|T||Finnell,R.H., V.K. Mohl, G.D. Bennett, and S.M. Taylor|Failure of Epoxide Formation to Influence Carbamazepine-Induced Teratogenesis in a Mouse Model|Teratog. Carcinog. Mutagen.6(5): 393-401|1986|10.1002/tcm.1770060506
159085|T||Hansen,D.K., S.L. Dial, K.K. Terry, and T.F. Grafton|In Vitro Embryotoxicity of Carbamazepine and Carbamazepine-10,11-Epoxide|Teratology54(1): 45-51|1996|10.1002/(SICI)1096-9926(199607)54:1<45::AID-TERA6>3.0.CO;2-2
159086|T||Hou,Y., L. Li, H. Wei, L. Wu, Y. Tong, S. Wu, and G. Liu|Protection by Bicyclol Derivatives Against Acetaminophen-Induced Acute Liver Failure in Mice and Its Active Mechanism|Liver Int.28(9): 1226-1235|2008|10.1111/j.1478-3231.2008.01757.x
159087|T||Davis,V.M.|Distribution, Biology, and Management of Glyphosate-Resistant Horseweed in No-Till Crop Production|Ph.D.Thesis, Purdue University, West Lafayette, IN:252 p.|2009|
159088|T||Ishikawa,M., K. Tanno, M. Sasaki, Y. Takayanagi, and K. Sasaki|Antidotal Effect of Lipopolysaccharide Against Acetaminophen-Induced Mortality in Mice|Pharmacol. Toxicol.67(5): 387-391|1990|10.1111/j.1600-0773.1990.tb00850.x
159089|T||Inchiosa,M.A.,Jr., and C.M. Smith|Effects of Ibuprofen on Doxorubicin Toxicity|Res. Commun. Mol. Pathol. Pharmacol.67(1): 63-78|1990|
159090|T||Lipner,H.|Ovulation from Histamine Depleted Ovaries|Proc. Soc. Exp. Biol. Med.136(1): 111-114|1971|10.3181/00379727-136-35206
159091|T||Li,X., M. Kondoh, A. Watari, T. Hasezaki, K. Isoda, Y. Tsutsumi, and K. Yagi|Effect of 70-nm Silica Particles on the Toxicity of Acetaminophen, Tetracycline, Trazodone, and 5-Aminosalicylic Acid in Mice|Pharmazie66(4): 282-286|2011|
159092|T||Mancini,R.E., B.R. Sonawane, and S.J. Yaffe|Developmental Susceptibility to Acetaminophen Toxicity|Res. Commun. Chem. Pathol. Pharmacol.27(3): 603-606|1980|
159093|T||Manna,G.K., and U. Roy|Mutagenic Potential of Ampicillin in Treated Mice and Subsequent F1 and F2 Generations|Nucleus36(3): 117-126|1993|
159094|T||Menasse,R., P.R. Hedwall, J. Kraetz, C. Pericin, L. Riesterer, A. Sallmann, R. Ziel, and R. Jaques|Pharmacological Properties of Diclofenac Sodium and Its Metabolites|Scand. J. Rheumatol. Suppl.(22): 5-16|1978|10.3109/03009747809097211
159095|T||Nation,J.R., D.K. Miller, and G.R. Bratton|Dietary Cadmium Exposure Alters Characteristics of Training, Substitution, and Tolerance when Morphine is Used as a Discriminative Stimulus|Neurotoxicology21(4): 553-568|2000|
159096|T||Dillehay,B.L.|Incorporating Glyphosate-Resistant Alfalfa into Field Crop Integrated Pest Management Programs of Pennsylvania|Ph.D Thesis, Pennsylvania State University, University Park, PA:153 p.|2007|
159097|T||Novosel,K.M.|Efficacy of Annual Grass Control by Metolachlor as Influenced by Flumetsulam, Halosulfuron and Chlorimuron-Ethyl|Ph.D. Thesis, Michigan State University, East Lansing, MI:94 p.|1997|
159098|AT||Heiser,J.W.|Dissipation and Carryover of Imidazolinone Herbicides in Imidazolinone-Resistant Rice (Oryza sativa)|M.S. Thesis, University of Missouri, Columbia, MO:114 p.|2007|
159099|T||McDonald,I.D.|A Whole-Plant Bioassay System for the Detection of Residues of ALS/AHAS Inhibiting Herbicides in Soils and Determination of Safe Planting Intervals for Sensitive Crops|Ph.D. Thesis, University of Guelph, Ontario, Canada:202 p.|2009|
159100|T||Willis,J.B.|Impact of Sulfonylurea Herbicides on Seeded Bermudagrass Establishment and Cold Temperature Influence on Perennial Ryegrass Response to Foramsulfuron|Ph.D. Thesis, Virginia Polytechnic Institute and State University, VA:96 p.|2008|
159101|T||Nelson,E.B.|The Pharmacology and Toxicology of meta-Substituted Acetanilide I:  Acute Toxicity of 3-Hydroxyacetanilide in Mice|Res. Commun. Chem. Pathol. Pharmacol.28(3): 447-456|1980|
159103|T||Poulsen,H.E., A. Lerche, and N.T. Pedersen|Phenobarbital Induction does not Potentiate Hepatotoxicity but Accelerates Liver Cell Necrosis from Acetaminophen Overdose in the Rat|Pharmacology30(2): 100-108|1985|10.1159/000138057
159104|T||Boulay,R., and L.M. Hooper-Bui|The Effect of Chlordimeform on the Foraging Activity of the Red Imported Fire Ant Solenopsis invicta (Hymenoptera: Formicidae)|Sociobiology38(3B): 1-11|2002|
159105|T||Vawda,A.I., and A.G. Davies|An Investigation into the Effects of Ketoconazole on Testicular Function in Wistar Rats|Acta Endocrinol.111(2): 246-251|1986|
159106|T||Gill,M., M.L. Sareen, and S.N. Sanyal|Effect of H2-Receptor Antagonists, Cimetidine and Ranitidine on Reproductive Functions in Male Mice|Indian J. Exp. Biol.29(10): 900-906|1991|
159107|T||David,B.V., R.W.A. Jesudasan, and A.A. Winstone|Effect of Insecticides on the Population Build-up of Bemisia tabaci (Gennadius) on Cotton|In: S.Jayaraj (Ed.), Resurgence of Sucking Pests, Natl.Symp., Tamil Nadu Agric.Univ., Coimbatore, India:125-128|1987|
159108|T||Roohparvar,R., M.A. De Waard, G.H.J. Kema, and L.H. Zwiers|MgMfs1, a Major Facilitator Superfamily Transporter from the Fungal Wheat Pathogen Mycosphaerella graminicola, is a Strong Protectant Against Natural Toxic Compounds and Fungicides|Fungal Genet. Biol.44(5): 378-388|2007|10.1016/j.fgb.2006.09.007
159109|T||Haasio,K., K. Lounatmaa, and A. Sukura|Entacapone does not Induce Conformational Changes in Liver Mitochondria or Skeletal Muscle In Vivo|Exp. Toxicol. Pathol.54(1): 9-14|2002|10.1078/0940-2993-00228
159110|T||Boutsalis,P., and S.B. Powles|Resistance of Dicot Weeds to Acetolactate Synthase (ALS)-Inhibiting Herbicides in Australia|Weed Res. (Multiple Languages)35(3): 149-155|1995|10.1111/j.1365-3180.1995.tb02028.x
159111|T||Stork,P., and M.C. Hannah|A Bioassay Method for Formulation Testing and Residue Studies of Sulfonylurea and Sulfonanylide Herbicides|Weed Res. (Multiple Languages)36(3): 271-281|1996|10.1111/j.1365-3180.1996.tb01656.x
159112|T||Henriquez-Hernandez,L.A., A. Flores-Morales, R. Santana-Farre, M. Axelson, P. Nilsson, G. Norstedt, and L. Fernandez-Pe|Role of Pituitary Hormones on 17alpha-Ethinylestradiol-Induced Cholestasis in Rat|J. Pharmacol. Exp. Ther.320(2): 695-705|2007|10.1124/jpet.106.113209
159113|T||Ramachandran,A., M. Lebofsky, S.A. Weinman, and H. Jaeschke|The Impact of Partial Manganese Superoxide Dismutase (SOD2)-Deficiency on Mitochondrial Oxidant Stress, DNA Fragmentation and Liver Injury During Acetaminophen Hepatotoxicity|Toxicol. Appl. Pharmacol.251(3): 226-233|2011|10.1016/j.taap.2011.01.004
159114|T||Yadav,P.K., S.P. Kurchania, and J.P. Tiwari|Herbicide and Fertilizer Compatibility Under Normal and Stale Seedbed Sowing of Wheat (Triticum aestivum) at Different Levels of Nitrogen|Indian J. Agric. Sci.65(4): 265-270|1995|
159115|T||Tomar,R.K.S., K.N. Namdeo, J.S. Raghu, and K.P. Tiwari|Efficacy of Azotobactor and Plant Growth-Regulators on Productivity of Wheat (Triticum aestivum) in Relation to Fertilizer Application|Indian J. Agric. Sci.65q(4): 256-259|1995|
159116|T||Liu,L., Z. Jiang, J. Liu, X. Huang, T. Wang, J. Liu, Y. Zhang, Z. Zhou, J. Guo, L. Yang, Y. Chen, and L. Zhang|Sex Differences in Subacute Toxicity and Hepatic Microsomal Metabolism of Triptolide in Rats|Toxicology271(1-2): 57-63|2010|10.1016/j.tox.2010.03.004
159117|T||Lumb,G.D., and J.H. Rust|The Pathologic Response of the Liver and Thyroid of the Rat to Potassium Prorenoate (SC-23992)|Toxicol. Pathol.13(4): 315-324|1985|10.1177/019262338501300408
159118|T||Flick,D.F., and R.G. O'Dell|A Chick Bioassay for Oral Diuretics|Toxicol. Appl. Pharmacol.19(1): 29-36|1971|10.1016/0041-008X(71)90186-4
159120|T||Klaassen,C.D.|Studies on the Mechanism of Spironolactone Protection Against Indomethacin Toxicity|Toxicol. Appl. Pharmacol.38(1): 127-135|1976|10.1016/0041-008X(76)90166-6
159121|T||Burdan,F., J. Dudka, J. Szumilo, A. Korobowicz, and L. Klepacz|Prenatal Effects of DuP-697 - the Irreversible, Highly Selective Cyclooxygenase-2 Inhibitor|Reprod. Toxicol.17(4): 413-419|2003|10.1016/S0890-6238(03)00045-5
159122|T||Zarrindast,M.R., S. Fazli-Tabaei, A. Khalilzadeh, M. Farahmanfar, and S.H. Yahyavi|Cross State-Dependent Retrieval Between Histamine and Lithium|Physiol. Behav.86(1/2): 154-163|2005|10.1016/j.physbeh.2005.07.005
159124|T||Chan,M.M., R.B. Rucker, F. Zeman, and R.S. Riggins|Effect of Fluoride on Bone Formation and Strength in Japanese Quail|J. Nutr.103(10): 1431-1440|1973|10.1093/jn/103.10.1431
159125|T||Hayden,J.M., W.G. Bergen, and R.A. Merkel|Skeletal Muscle Protein Metabolism and Serum Growth Hormone, Insulin, and Cortisol Concentrations in Growing Steers Implanted with Estradiol-17b, Trenbolone Acetate, or Estradiol-17b plus Trenbolone Acetate|J. Anim. Sci.70(7): 2109-2119|1992|10.2527/1992.7072109x
159126|T||Harting,M.A., D.M. De Avila, K.A. Johnson, and J.J. Reeves|Late-Gestation Treatment of Pregnant Cows with Trenbolone Acetate does not Increase Subsequent Growth of Heifer Calves|J. Anim. Sci.75(5): 1190-1194|1997|10.2527/1997.7551190x
159127|T||Guthrie,H.D., P.E. Meckley, E.P. Young, and T.G. Hartsock|Effect of Altrenogest and Lutalyse on Parturition Control, Plasma Progesterone, Unconjugated Estrogen and 13,14-Dihydro-15-keto-Prostaglandin F2alpha in Sows|J. Anim. Sci.65(1): 203-211|1987|10.2527/jas1987.651203x
159128|T||Grandadam,J.A., J.P. Scheid, A. Jobard, H. Dreux, and J.M. Boisson|Results Obtained with Trenbolone Acetate in Conjunction with Estradiol 17beta in Veal Calves, Feedlot Bulls, Lambs and Pigs|J. Anim. Sci.41(3): 969-977|1975|10.2527/jas1975.413969x
159129|T||Gerken,C.L., J.D. Tatum, J.B. Morgan, and G.C. Smith|Use of Genetically Identical (Clone) Steers to Determine the Effects of Estrogenic and Androgenic Implants on Beef Quality and Palatability Characteristics|J. Anim. Sci.73(11): 3317-3324|1995|10.2527/1995.73113317x
159130|T||Foutz,C.P., H.G. Dolezal, T.L. Gardner, D.R. Gill, J.L. Hensley, and J.B. Morgan|Anabolic Implant Effects on Steer Performance, Carcass Traits, Subprimal Yields, and Longissimus Muscle Properties|J. Anim. Sci.75(5): 1256-1265|1997|10.2527/1997.7551256x
159131|T||Fabry,J., R. Renaville, V. Halleux, and A. Burny|Plasma Testosterone and LH Responses to LHRH in Double-Muscled Bulls Treated with Trenbolone Acetate and Zeranol|J. Anim. Sci.57(5): 1138-1145|1983|10.2527/jas1983.5751138x
159132|T||Evrard,P., G. Maghuin-Rogister, and A.G. Rico|Fate and Residues of Trenbolone Acetate in Edible Tissues From Sheep and Calves Implanted with Tritium-Labeled Trenbolone Acetate|J. Anim. Sci.67(7): 1489-1496|1989|10.2527/jas1989.6761489x
159134|T||Estienne,M.J., A.F. Harper, B.R. Horsley, C.E. Estienne, and J.W. Knight|Effects of P.G. 600 on the Onset of Estrus and Ovulation Rate in Gilts Treated with Regu-mate|J. Anim. Sci.79(11): 2757-2761|2001|10.2527/2001.79112757x
159135|T||Esbenshade,K.L., A.M. Paterson, and B.N. Day|Glucocorticoids and Estrus in Swine  I. The Relationship Between Triamcinolone Acetonide and Estrogen in the Expression of Estrus in Gilts|J. Anim. Sci.56(2): 460-465|1983|10.2527/jas1983.562460x
159136|T||DeHaan,K.C., L.L. Berger, D.J. Kesler, F.K. McKeith, and D.l. Thomas|Effect of Prenatal Trenbolone Acetate Treatment on Lamb Performance and Carcass Characteristics|J. Anim. Sci.68(10): 3041-3045|1990|10.2527/1990.68103041x
159137|T||Davis,D.L., J.S. Stevenson, and W.E. Schmidt|Scheduled Breeding of Gilts After Estrous Synchronization with Altrenogest|J. Anim. Sci.60(3): 599-602|1985|10.2527/jas1985.603599x
159138|T||Davis,D.L., J.W. Knight, D.B. Killian, and B.N. Day|Control of Estrus in Gilts with a Progestogen|J. Anim. Sci.49(6): 1506-1509|1979|10.2527/jas1979.4961506x
159139|T||Crouse,J.D., B.D. Schanbacher, H.R. Cross, S.C. Seideman, and S.B. Smith|Growth and Carcass Traits of Heifers as Affected by Hormonal Treatment|J. Anim. Sci.64(5): 1434-1440|1987|10.2527/jas1987.6451434x
159140|T||Cranwell,C.D., J.A. Unruh, J.R. Brethour, D.D. Simms, and R.E. Campbell|Influence of Steroid Implants and Concentrate Feeding on Performance and Carcass Composition of Cull Beef Cows|J. Anim. Sci.74(8): 1770-1776|1996|10.2527/1996.7481770x
159141|T||Cranwell,C.D., J.A. Unruh, J.R. Brethour, and D.D. Simms|Influence of Steroid Implants and Concentrate Feeding on Carcass and Longissimus Muscle Sensory and Collagen Characteristics of Cull Beef Cows|J. Anim. Sci.74(8): 1777-1783|1996|10.2527/1996.7481777x
159142|T||Cecava,M.J., and D.L. Hancock|Effects of Anabolic Steroids on Nitrogen Metabolism and Growth of Steers Fed Corn Silage and Corn-Based Diets Supplemented with Urea or Combinations of Soybean Meal and Feathermeal|J. Anim. Sci.72(2): 515-522|1994|10.2527/1994.722515x
159143|T||Bruns,K.W., R.H. Pritchard, and D.L. Boggs|The Effect of Stage of Growth and Implant Exposure on Performance and Carcass Composition in Steers|J. Anim. Sci.83(1): 108-116|2005|10.2527/2005.831108x
159144|T||Bindel,D.J., E.C. Titgemeyer, J.S. Drouillard, and S.E. Ives|Effects of Choline on Blood Metabolites Associated with Lipid Metabolism and Digestion by Steers Fed Corn-Based Diets|J. Anim. Sci.83(7): 1625-1632|2005|10.2527/2005.8371625x
159145|T||Berthiaume,R., I. Mandell, L. Faucitano, and C. Lafreniere|Comparison of Alternative Beef Production Systems Based on Forage Finishing or Grain-Forage Diets with or Without Growth Promotants:  1.  Feedlot Performance, Carcass Quality, and Production Costs|J. Anim. Sci.84(8): 2168-2177|2006|10.2527/jas.2005-328
159146|T||Bartle,S.J., R.L. Preston, R.E. Brown, and R.J. Grant|Trenbolone Acetate/Estradiol Combinations in Feedlot Steers:  Dose-Response and Implant Carrier Effects|J. Anim. Sci.70(5): 1326-1332|1992|10.2527/1992.7051326x
159147|T||Van Leeuwen,J.J.J., S.I. Williams, M.R.T.M. Martens, J. Jourquin, M.A. Driancourt, B. Kemp, and N.M. Soede|The Effect of Different Postweaning Altrenogest Treatments of Primiparous Sows on Follicular Development, Pregnancy Rates, and Litter Sizes|J. Anim. Sci.89(2): 397-403|2011|10.2527/jas.2010-3246
159148|T||Apple,J.K., M.E. Dikeman, D.D. Simms, and G. Kuhl|Effects of Synthetic Hormone Implants, Singularly or in Combinations, on Performance, Carcass Traits, and Longissimus Muscle Palatability of Holstein Steers|J. Anim. Sci.69(11): 4437-4448|1991|10.2527/1991.69114437x
159149|T||Dempsey,C.M., S.M. Mackenzie, A. Gargus, G. Blanco, and J.Y. Sze|Serotonin (5HT), Fluoxetine, Imipramine and Dopamine Target Distinct 5HT Receptor Signaling to Modulate Caenorhabditis elegans Egg-Laying Behavior|Genetics169(3): 1425-1436|2005|10.1534/genetics.104.032540
159150|T||Subbarao,S.K., B.S. Krishnamurthy, C.F. Curtis, T. Adak, and R.K. Chandrahas|Segregation of Cytoplasmic Incompatibility Properties in Culex pipiens fatigans|Genetics87(2): 381-390|1977|10.1093/genetics/87.2.381
159151|T||Pang,K.M., T. Dingermann, and D.A. Knecht|Regulated Expression of Myosin II Heavy Chain and RacB Using an Inducible tRNA Suppressor Gene|Gene277(1/2): 187-197|2001|10.1016/S0378-1119(01)00687-4
159152|T||Comereski,C.R., C.L. Bregman, and R.A. Buroker|Testicular Toxicity of N-Methyltetrazolethiol Cephalosporin Analogs in the Juvenile Rat|Fundam. Appl. Toxicol.8(2): 280-289|1987|10.1016/0272-0590(87)90127-8
159153|T||Byrd,R.A., and J.K. Markham|Developmental Toxicology Studies of Fluoxetine Hydrochloride Administered Orally to Rats and Rabbits|Fundam. Appl. Toxicol.22(4): 511-518|1994|10.1006/faat.1994.1058
159155|T||Sarikaya,R., and M. Yuksel|Genotoxic Assessment of Oxcarbazepine and Carbamazepine in Drosophila Wing Spot Test|Food Chem. Toxicol.46(9): 3159-3162|2008|10.1016/j.fct.2008.06.089
159156|A||Park,K., R. Kim, J.J. Park, H.C. Shin, J.S. Lee, H.S. Cho, Y.G. Lee, J. Kim, and I.S. Kwak|Ecotoxicological Evaluation of Tributyltin Toxicity to the Equilateral Venus Clam, Gomphina veneriformis (Bivalvia: Veneridae)|Fish Shellfish Immunol.32(3): 426-433|2012|10.1016/j.fsi.2011.11.031
159157|A||Hoppe,P.D., E.J. Rosi-Marshall, and H.A. Bechtold|The Antihistamine Cimetidine Alters Invertebrate Growth and Population Dynamics in Artificial Streams|Freshw. Sci.31(2): 379-388|2012|10.1899/11-089
159158|A||Javanshir,A., M. Shapoori, and F. Moezzi|Impact of Water Hardness on Cadmium Absorption by Four Freshwater Mollusks Physa fontinalis, Anodonta cygnea, Corbicula fluminea and Dreissena polymorpha from South Caspian Sea Region|J. Food Agric. Environ.9(2): 763-767|2011|
159159|A||Kumar,K.S., and T. Han|Toxicity of Single and Combined Herbicides on PSII Maximum Efficiency of an Aquatic Higher Plant, Lemna sp.|Toxicol. Environ. Health Sci.3(2): 97-105|2011|10.1007/s13530-011-0084-3
159160|A||Mhadhbi,L., and M. Boumaiza|Toxic Effects of Acute Exposure of Diazinon in Turbot (Psetta maxima) Early Life Stage (ELS)|Int. J. Environ. Res.6(1): 139-144|2012|
159161|A||Narwaria,Y.S., and D.N. Saksena|Acute Toxicity Bioassay and Behavioural Responses Induced by Sodium Fluoride in Freshwater Fish Puntius sophore (Bloch)|Fluoride45(1): 7-12|2012|
159162|A||Plusquin,M., A.S. Stevens, F. Van Belleghem, O. Degheselle, A. Van Roten, J. Vroonen, R. Blust, A. Cuypers, T. Artois, |Physiological and Molecular Characterisation of Cadmium Stress in Schmidtea mediterranea|Int. J. Dev. Biol.56(1-3): 183-191|2012|10.1387/ijdb.113485mp
159163|A||Racz,G., Z. Csenki, R. Kovacs, A. Hegyi, F. Baska, L. Sujbert, I. Zsakovics, R. Kis, R. Gustafson, B. Urbanyi, and B. S|Subacute Toxicity Assessment of Water Disinfection Byproducts on Zebrafish|Pathol. Oncol. Res.18(3): 579-584|2012|10.1007/s12253-011-9479-3
159164|A||Siva Kiran,R.R., G.M. Madhu, S.V. Satyanarayana, and P. Bindiya|Bioaccumulation of Cadmium in Blue Green Algae Spirulina (Arthrospira) indica|J. Bioremed. Biodegrad.3(3): 1-4|2012|
159165|A||Stalin,S.I., and S.S.M. Das|Biochemical Changes in Certain Tissues of Cirrhina mrigala (Hamilton) (Cyprinidae:Cyprniformes) Exposed to Fenthion|Int. J. Environ. Sci.2(3): 1268-1277|2012|10.6088/ijes.00202030013
159166|A||Wolff,G., G.C. Pereira, E.M. Castro, J. Louzada, and F.F. Coelho|The Use of Salvinia auriculata as a Bioindicator in Aquatic Ecosystems: Biomass and Structure Dependent on the Cadmium Concentration |Braz. J. Biol.72(1): 71-77|2012|10.1590/S1519-69842012000100009
159167|A||Calfee,R.D., and E.E. Little|Effects of a Fire-Retardant Chemical to Fathead Minnows in Experimental Streams|Environ. Sci. Pollut. Res.10(5): 296-300|2003|10.1065/espr2003.03.148
159168|A||Lotufo,G.R.|Whole-Body and Body-Part-Specific Bioconcentration of Explosive Compounds in Sheepshead Minnows|Ecotoxicol. Environ. Saf.74(3): 301-306|2011|10.1016/j.ecoenv.2010.07.039
159169|A||Hardy,M.L., H.O. Krueger, A.S. Blankinship, S. Thomas, T.Z. Kendall, and D. Desjardins|Studies and Evaluation of the Potential Toxicity of Decabromodiphenyl Ethane to Five Aquatic and Sediment Organisms|Ecotoxicol. Environ. Saf.75(1): 73-79|2012|10.1016/j.ecoenv.2011.08.005
159170|T||Martinez,J.G., G. Dos Santos, S. Derycke, and T. Moens|Effects of Cadmium on the Fitness of, and Interactions Between, Two Bacterivorous Nematode Species|Appl. Soil Ecol.56:10-18|2012|10.1016/j.apsoil.2012.02.001
159171|A||Rodgher,S., E.L.G. Espindola, F.C.F. Simoes, and A.E. Tonietto|Cadmium and Chromium Toxicity to Pseudokirchneriella subcapitata and Microcystis aeruginosa|Braz. Arch. Biol. Technol.55(1): 161-169|2012|10.1590/S1516-89132012000100020
159172|A||Huang,G.Y., G.G. Ying, S. Liu, and Y.X. Fang|Regulation of Reproduction- and Biomarker-Related Gene Expression by Sex Steroids in the Livers and Ovaries of Adult Female Western Mosquitofish (Gambusia affinis)|Comp. Biochem. Physiol. A Mol. Integr. Physiol.162(1): 36-43|2012|10.1016/j.cbpa.2012.02.006
159173|A||Zhang,W., Y. Liu, H. Zhang, and J. Dai|Proteomic Analysis of Male Zebrafish Livers Chronically Exposed to Perfluorononanoic Acid|Environ. Int.42:20-30|2012|10.1016/j.envint.2011.03.002
159174|A||Madureira,T.V., M.J. Rocha, C. Cruzeiro, I. Rodrigues, R.A.F. Monteiro, and E. Rocha|The Toxicity Potential of Pharmaceuticals Found in the Douro River Estuary (Portugal): Evaluation of Impacts on Fish Liver, by Histopathology, Stereology, Vitellogenin and CYP1A Immunohistochemistry, After Sub-Acute Exp|Environ. Toxicol. Pharmacol.34(1): 34-45|2012|10.1016/j.etap.2012.02.007
159175|T||Liphadzi,K.B., and J.A. Dille|Annual Weed Competitiveness as Affected by Preemergence Herbicide in Corn|Weed Sci.54(1): 156-165|2005|10.1614/WS-05-156R1.1
159176|T||Liphadzi,K.B.|Weed Competitiveness and Soil Health Response to Weed Management Practices|Ph.D. Thesis, Kansas State University, Manhattan, KS:163 p.|2004|
159177|A||Sarma,K., A.K. Pal, N.P. Sahu, R.S. Dalvi, N. Chatterjee, S.C. Mukherjee, and K. Baruah|Acute and Chronic Effects of Endosulfan on the Haemato-Immunological and Histopathological Responses of a Threatened Freshwater Fish, Spotted Murrel, Channa punctatus|Fish Physiol. Biochem.38(2): 499-509|2012|10.1007/s10695-011-9530-z
159178|A||Falco,A., P. Frost, J. Miest, N. Pionnier, I. Irnazarow, and D. Hoole|Reduced Inflammatory Response to Aeromonas salmonicida Infection in Common Carp (Cyprinus carpio L.) Fed with beta-Glucan Supplements|Fish Shellfish Immunol.32(6): 1051-1057|2012|10.1016/j.fsi.2012.02.028
159179|A||Pal,S., E. Kokushi, J. Koyama, S. Uno, and A.R. Ghosh|Histopathological Alterations in Gill, Liver and Kidney of Common Carp Exposed to Chlorpyrifos|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(3): 180-195|2012|
159180|A||Del Giudice,G., M. Prisco, M. Agnese, M. Verderame, L. Rosati, E. Limatola, and P. Andreuccetti|Effects of Nonylphenol on Vitellogenin Synthesis in Adult Males of the Spotted Ray Torpedo marmorata|J. Fish Biol.80(5): 2112-2121|2012|10.1111/j.1095-8649.2011.03172.x
159181|T||Punja,Z.K., A. Wan, and R.S. Goswami|Root Rot and Distortion of Ginseng Seedling Roots Caused by Fusarium oxysporum|Can. J. Plant Pathol.30(4): 565-574|2008|10.1080/07060660809507556
159182|T||Blazevic,I., A. Radonic, J. Mastelic, M. Zekic, M. Skocibusic, and A. Maravic|Hedge Mustard (Sisymbrium officinale): Chemical Diversity of Volatiles and Their Antimicrobial Activity|Chem. Biodivers.7(8): 2023-2034|2010|10.1002/cbdv.200900234
159183|T||Denning,D.W., L.H. Hanson, A.M. Perlman, and D.A. Stevens|In Vitro Susceptibility and Synergy Studies of Aspergillus Species to Conventional and New Agents|Diagn. Microbiol. Infect. Dis.15(1): 21-34|1992|10.1016/0732-8893(92)90053-V
159184|T||Gorawar,M.M., Y.R. Hegde, and S. Kulkarni|Chemical Control of Leaf Spot of Turmeric Caused by Colletotrichum capsici|Ann. Agri Bio Res.10(2): 159-162|2005|
159185|T||Indira,S., V. Muthusubramanian, V.A. Tonapi, S. Varanavasiappan, and N. Seetharama|Utility of Biocontrol Agents in the Suppression of Seed Borne Pathogenic Mycoflora and Their Effect on Seed Quality in Sorghum (Sorghum bicolor (L.) Moench)|Arch. Phytopathol. Plant Prot.39(5): 379-387|2006|10.1080/03235400500301158
159186|T||Khairy,T.M., E.A. Helali, F.M. Attia, and A. Kandil|Effect of the Combination of Both Testosterone and Trenbolone with 17b-Estradiol on Protein Metabolism|J. Drug Res. Egypt16(1/2): 15-20|1985|
159187|T||Dhanaraju,M.D., D. Gopinath, M.R. Ahmed, R. Jayakumar, and C. Vamsadhara|Characterization of Polymeric Poly(Epsilon-Caprolactone) Injectable Implant Delivery System for the Controlled Delivery of Contraceptive Steroids|J. Biomed. Mater. Res.76A(1): 63-72|2006|10.1002/jbm.a.30458
159188|A||Falugi,C., M.G. Aluigi, M.C. Chiantore, D. Privitera, P. Ramoino, M.A. Gatti, A. Fabrizi, A. Pinsino, and V. Matranga|Toxicity of Metal Oxide Nanoparticles in Immune Cells of the Sea Urchin|Mar. Environ. Res.76:114-121|2012|10.1016/j.marenvres.2011.10.003
159189|A||Aliza,D., C.L. Tey, I.S. Ismail, M.K. Kuah, A.C. Shu-Chien, and T.S.T. Muhammad|The Ribosomal Protein L19 mRNA is Induced by Copper Exposure in the Swordtail Fish, Xiphophorus helleri|Mol. Biol. Rep.39(4): 4823-4829|2012|10.1007/s11033-011-1275-3
159190|A||Guilherme,S.I.A.G., I. Gaivao, M.A. Santos, and M. Pacheco|DNA Damage in Fish (Anguilla anguilla) Exposed to a Glyphosate-Based Herbicide - Elucidation of Organ-Specificity and the Role of Oxidative Stress|Mutat. Res., Genet. Toxicol. Environ. Mutagen.743(1/2): 1-9|2012|10.1016/j.mrgentox.2011.10.017
159191|A||Wagner,E.J., R.W. Oplinger, and M. Bartley|Laboratory and Production Scale Disinfection of Salmonid Eggs with Hydrogen Peroxide|N. Am. J. Aquacult.74(1): 92-99|2012|10.1080/15222055.2011.649888
159192|A||Yang,Z., K. Lu, Y. Chen, and D.J.S. Montagnes|The Interactive Effects of Ammonia and Microcystin on Life-History Traits of the Cladoceran Daphnia magna: Synergistic or Antagonistic?|PLoS One7(3): 1-12|2012|
159193|A||Lei,W., L. Wang, and Y. Li|Effect of Cadmium on Cytochrome C Oxidase Isozyme in the Hepatopancreas, Gill and Heart of Freshwater Crab Sinopotamon yangtsekiense|Fresenius Environ. Bull.20(10): 2580-2585|2011|
159194|A||Wu,X., Q. Huang, C. Fang, T. Ye, L. Qiu, and S. Dong|PFOs Induced Precocious Hatching of Oryzias melastigma - from Molecular Level to Individual Level|Chemosphere87(7): 703-708|2012|10.1016/j.chemosphere.2011.12.060
159195|A||El-Amrani,S., M. Pena-Abaurrea, J. Sanz-Landaluze, L. Ramos, J. Guinea, and C. Camara|Bioconcentration of Pesticides in Zebrafish Eleutheroembryos (Danio rerio)|Sci. Total Environ.425:184-190|2012|10.1016/j.scitotenv.2012.02.065
159196|A||Perreault,H.A.N., K. Semsar, and J. Godwin|Fluoxetine Treatment Decreases Territorial Aggression in a Coral Reef Fish|Physiol. Behav.79:719-724|2003|10.1016/S0031-9384(03)00211-7
159197|A||Pinsino,A., G. Turturici, G. Sconzo, and F. Geraci|Rapid Changes in Heat-Shock Cognate 70 Levels, Heat-Shock Cognate Phosphorylation State, Heat-Shock Transcription Factor, and Metal Transcription Factor Activity Levels in Response to Heavy Metal Exposure During Sea Urc|Ecotoxicology20(1): 246-254|2011|10.1007/s10646-010-0576-y
159198|A||Skilbrei,O.T., K.A. Glover, O.B. Samuelsen, and B.T. Lunestad|A Laboratory Study to Evaluate the Use of Emamectin Benzoate in the Control of Sea Lice in Sea-Ranched Atlantic Salmon (Salmo salar L.)|Aquaculture285(1-4): 2-7|2008|10.1016/j.aquaculture.2008.07.055
159199|T||Simoniello,P., C.M. Motta, R. Scudiero, F. Trinchella, and S. Filosa|Cadmium-Induced Teratogenicity in Lizard Embryos:  Correlation with Metallothionein Gene Expression|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(1): 119-127|2011|10.1016/j.cbpc.2010.09.007
159201|A||Spachmo,B., and A. Arukwe|Endocrine and Developmental Effects in Atlantic Salmon (Salmo salar) Exposed to Perfluorooctane Sulfonic or Perfluorooctane Carboxylic Acids|Aquat. Toxicol.108:112-124|2012|10.1016/j.aquatox.2011.07.018
159202|A||Frantzen,M., I.B. Falk-Petersen, J. Nahrgang, T.J. Smith, G.H. Olsen, T.A. Hangstad, and L. Camus|Toxicity of Crude Oil and Pyrene to the Embryos of Beach Spawning Capelin (Mallotus villosus)|Aquat. Toxicol.108:42-52|2012|10.1016/j.aquatox.2011.09.022
159203|A||Chan,W.K., and K.M. Chan|Disruption of the Hypothalamic-Pituitary-Thyroid Axis in Zebrafish Embryo-Larvae Following Waterborne Exposure to BDE-47, TBBPA and BPA|Aquat. Toxicol.108:106-111|2012|10.1016/j.aquatox.2011.10.013
159205|A||Schram,E., J.A.C. Roques, W. Abbink, T. Spanings, P. De Vries, S. Bierman, H. Van de Vis, and G. Flik|The Impact of Elevated Water Ammonia Concentration on Physiology, Growth and Feed Intake of African Catfish (Claras gariepinus)|Aquaculture306:108-115|2010|10.1016/j.aquaculture.2010.06.005
159206|A||Moitra,S., R. Bhattacharjee, and N.S. Sen|Histopathological Changes in the Gills of Air Breathing Teleost Clarias batrachus Linn. Exposed to Endosulfan|Asian J. Exp. Sci26(1): 23-26|2012|
159207|A||Zhang,L.J., G.G. Ying, F. Chen, J.L. Zhao, L. Wang, and Y.X. Fang|Development and Application of Whole-Sediment Toxicity Test Using Immobilized Freshwater Microalgae Pseudokirchneriella subcapitata|Environ. Toxicol. Chem.31(2): 377-386|2012|10.1002/etc.734
159208|A||Mudge,C.R., B.W. Bultemeier, and W.T. Haller|The Influence of pH and Light on Hydrilla (Hydrilla verticillata) Photosynthesis and Chlorophyll After Exposure to Flumioxazin|Weed Sci.60(1): 4-9|2012|10.1614/WS-D-11-00071.1
159209|A||Gonzalo,C., and J.A. Camargo|Fluoride Bioaccumulation in the Signal Crayfish Pacifastacus leniusculus (Dana) as Suitable Bioindicator of Fluoride Pollution in Freshwater Ecosystems|Ecol. Indic.20:244-251|2012|10.1016/j.ecolind.2011.12.019
159210|A||Cui,J., Z. Zhang, W. Bai, L. Zhang, X. He, Y. Ma, Y. Liu, and Z. Chai|Effects of Rare Earth Elements La and Yb on the Morphological and Functional Development of Zebrafish Embryos|J. Environ. Sci.24(2): 209-213|2012|10.1016/S1001-0742(11)60755-9
159211|A||Farmen,E., H.N. Mikkelsen, O. Evensen, J. Einset, L.S. Heier, B.O. Rosseland, B. Salbu, K.E. Tollefsen, and D.H. Oughto|Acute and Sub-Lethal Effects in Juvenile Atlantic Salmon Exposed to Low ug/L Concentrations of Ag Nanoparticles|Aquat. Toxicol.108:78-84|2012|10.1016/j.aquatox.2011.07.007
159212|A||Stillwell,E.F.|Zinc Effects on Cell Division and Calcification in the Coccolithophorid, Cricosphaera carterae|Sci. Biol. J.3(6): 436-443|1977|
159213|T||Naciff,J.M., G.J. Overmann, S.M. Torontali, G.J. Carr, Z.S. Khambatta, J.P. Tiesman, B.D. Richardson, and G.P. Daston|Uterine Temporal Response to Acute Exposure to 17alpha-Ethynyl Estradiol in the Immature Rat|Toxicol. Sci.97(2): 63 p.|2007|10.1093/toxsci/kfm046
159214|A||Boogaard,M.A., T.D. Hubert, J.A. Bernardy, C.A. Kaye, and G.A. Baldwin|Evaluation of 3-Trifluoromethyl-4-Nitrophenol (TFM) Residues Following a Lampricide Treatment as a Risk Assessment to the Endangered Piping Plover|J. Great Lakes Res.38(2): 362-367|2012|10.1016/j.jglr.2012.01.009
159215|T||Canfield,C.J., M. Pudney, and W.E. Gutteridge|Interactions of Atovaquone with Other Antimalarial Drugs Against Plasmodium falciparum In Vitro|Exp. Parasitol.80(3): 373-381|1995|10.1006/expr.1995.1049
159216|T||Gaugler,R., D. Suman, and Y. Wang|An Autodissemination Station for the Transfer of an Insect Growth Regulator to Mosquito Oviposition Sites|Med. Vet. Entomol.26(1): 37-45|2012|10.1111/j.1365-2915.2011.00970.x
159217|A||Xie,L., D.H. Funk, and D.B. Buchwalter|Trophic Transfer of Cd from Natural Periphyton to the Grazing Mayfly Centroptilum triangulifer in a Life Cycle Test|Environ. Pollut.158(1): 272-277|2010|10.1016/j.envpol.2009.07.010
159218|T||Wang,D., P. Liu, Y. Yang, and L. Shen|Formation of a Combined Ca/Cd Toxicity on Lifespan of Nematode Caenorhabditis elegans|Ecotoxicol. Environ. Saf.73(6): 1221-1230|2010|10.1016/j.ecoenv.2010.05.002
159219|T||Rice,M.A., and P.K. Chien|Uptake, Binding and Clearance of Divalent Cadmium in Glycera dibranchiata (Annelida:  Polychaeta)|Mar. Biol.53:33-39|1979|10.1007/BF00386527
159220|A||Kremling,K., J. Piuze, K. Von Brockel, and C.S. Wong|Studies on the Pathways and Effects of Cadmium in Controlled Ecosystem Enclosures|Mar. Biol.48:1-11|1978|10.1007/BF00390525
159222|T||Aoki,H., J. Matsuzaka, Y. Banya, T. Fujioka, S. Nakaya, T. Kubo, T. Ohhori, and N. Yasuda|Effects of Hypogastric Nerve and Sympathetic Chain Stimulation on the Pelvic Nerve Induced Penile Erection in the Dog|Urol. Int.47(1): 25-34|1991|10.1159/000282180
159223|T||Boland,M.P.|Control of Oestrus in Primiparous Sows|Theriogenology19(3): 377-384|1983|10.1016/0093-691X(83)90093-6
159224|T||Degenstein,K.L., R. O'Donoghue, J.L. Patterson, E. Beltranena, D.J. Ambrose, G.R. Foxcroft, and M.K. Dyck|Synchronization of Ovulation in Cyclic Gilts With Porcine Luteinizing Hormone (pLH) and Its Effects on Reproductive Function|Theriogenology70(7): 1075-1085|2008|10.1016/j.theriogenology.2008.06.027
159225|A||Huang,S.Q., J. Peng, C.X. Qiu, and Z.M. Yang|Heavy Metal-Regulated New MicroRNAs from Rice|J. Inorg. Biochem.103(2): 282-287|2009|10.1016/j.jinorgbio.2008.10.019
159226|T||Maltier,J.P., and F. Cavaille|Effects of Injections of Monoamine Oxidase Inhibitor or Saline into the Uterus in Late Pregnancy on Uterine Catecholamine Levels Related to Abnormal Parturition in Rats|J. Endocrinol.67(3): 371-383|1975|10.1677/joe.0.0670371
159227|T||Martinat-Botte,F., E. Venturi, P. Guillouet, M.A. Driancourt, and M. Terqui|Induction and Synchronization of Ovulations of Nulliparous and Multiparvous Sows with an Injection of Gonadotropin-Releasing Hormone Agonist (Receptal)|Theriogenology73(3): 332-342|2010|10.1016/j.theriogenology.2009.09.017
159228|A||Martinez Dominguez,D., F. Cordoba Garcia, A. Canalejo Raya, and R. Torronteras Santiago|Cadmium-Induced Oxidative Stress and the Response of the Antioxidative Defense System in Spartina densiflora|Physiol. Plant. (Multiple Languages)139(3): 289-302|2010|
159229|T||Percival,G.C., and K. Noviss|Triazole Induced Drought Tolerance in Horse Chestnut (Aesculus hippocastanum)|Tree Physiol.28(11): 1685-1692|2008|10.1093/treephys/28.11.1685
159230|A||Plahuta,J.M., A.L. Teel, M. Ahmad, M.W. Beutel, J.A. Rentz, and R.J. Watts|Oxidized Starch Solutions for Environmentally Friendly Aircraft Deicers|Water Environ. Res.83(9): 826-833|2011|10.2175/106143011X12928814445050
159231|T||Pipan-Tkalec,Z., D. Drobne, A. Jemec, T. Romih, P. Zidar, and M. Bele|Zinc Bioaccumulation in a Terrestrial Invertebrate Fed a Diet Treated with Particulate ZnO or ZnCl2 Solution|Toxicology269(2/3): 198-203|2010|10.1016/j.tox.2009.08.004
159232|T||Sawan,R.M.M., G.A.S. Leite, M.C.P. Saraiva, F. Barbosa, J.E. Tanus-Santos, and R.F. Gerlach|Fluoride Increases Lead Concentrations in Whole Blood and in Calcified Tissues from Lead-Exposed Rats|Toxicology271(1/2): 21-26|2010|10.1016/j.tox.2010.02.002
159233|T||N'jai,A.U., M. Larsen, L. Shi, C.R. Jefcoate, and C.J. Czuprynski|Bone Marrow Lymphoid and Myeloid Progenitor Cells are Suppressed in 7,12-Dimethylbenz(a)anthracene (DMBA) Treated Mice|Toxicology271(1/2): 27-35|2010|10.1016/j.tox.2010.02.009
159234|T||Nota,B., R.A. Verweij, D. Molenaar, B. Ylstra, N.M. Van Straalen, and D. Roelofs|Gene Expression Analysis Reveals a Gene Set Discriminatory to Different Metals in Soil|Toxicol. Sci.115(1): 34-40|2010|10.1093/toxsci/kfq043
159235|T||Lin,Y.C., P.L. Yao, and J.H. Richburg|FasL Gene-Deficient Mice Display a Limited Disruption in Spermatogenesis and Inhibition of Mono-(2-Ethylhexyl) Phthalate-Induced Germ Cell Apoptosis|Toxicol. Sci.114(2): 335-345|2010|10.1093/toxsci/kfq015
159236|T||Laifenfeld,D., A. Gilchrist, D. Drubin, M. Jorge, S.F. Eddy, B.P. Frushour, B. Ladd, L.A. Obert, M.M. Gosink, J.C. Cook|The Role of Hypoxia in 2-Butoxyethanol-Induced Hemangiosarcoma|Toxicol. Sci.113(1): 254-266|2010|10.1093/toxsci/kfp213
159237|T||Dodd,M., and J.A. Addison|Toxicity of Methyl Tert Butyl Ether to Soil Invertebrates (Springtails: Folsomia candida, Proisotoma minuta, and Onychiurus folsomi) and Lettuce (Lactuca sativa)|Environ. Toxicol. Chem.29(2): 338-346|2010|10.1002/etc.28
159238|T||Liu,W., Q. Zhou, Y. Zhang, and S. Wei|Lead Accumulation in Different Chinese Cabbage Cultivars and Screening for Pollution-Safe Cultivars|J. Environ. Manag.91(3): 781-788|2010|10.1016/j.jenvman.2009.10.009
159239|T||Passarella,I., I. Elia, B. Guarino, G. Bourlot, and M. Negre|Evaluation of the Field Dissipation of Fungicides and Insecticides Used on Fruit Bearing Trees in Northern Italy|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes44(2): 137-143|2009|
159240|T||Lomonte,C., A.I. Doronila, D. Gregory, A.J.M. Baker, and S.D. Kolev|Phytotoxicity of Biosolids and Screening of Selected Plant Species with Potential for Mercury Phytoextraction|J. Hazard. Mater.173(1-3): 494-501|2010|10.1016/j.jhazmat.2009.08.112
159241|T||Boyd,W.A., S.J. McBride, J.R. Rice, D.W. Snyder, and J.H. Freedman|A High-Throughput Method for Assessing Chemical Toxicity Using a Caenorhabditis elegans Reproduction Assay|Toxicol. Appl. Pharmacol.245(2): 153-159|2010|10.1016/j.taap.2010.02.014
159242|T||Armanini,D., I. Karbowiak, A. Goi, F. Mantero, and J.W. Funder|In-Vivo Metabolites of Spironolactone and Potassium Canrenoate: Determination of Potential Anti-Androgenic Activity by a Mouse Kidney Cytosol Receptor Assay|Clin. Endocrinol.23:341-347|1985|10.1111/j.1365-2265.1985.tb01090.x
159243|T||Ferrari,F.|Cimetidine, but not Ranitidine, Inhibits Penile Erections in Rats|Lancet (Lond.)1(8368): 112-|1984|10.1016/S0140-6736(84)90049-7
159244|T||Whitehorn,P.R., S. O'Connor, F.L. Wackers, and D. Goulson|Neonicotinoid Pesticide Reduces Bumble Bee Colony Growth and Queen Production|Science:3 p.|2012|
159245|T||Pettis,J.S., D. VanEngelsdorp, J. Johnson, and G. Dively|Pesticide Exposure in Honey Bees Results in Increased Levels of the Gut Pathogen Nosema|Naturwissenschaften99:153-158|2012|10.1007/s00114-011-0881-1
159246|T||Floersheim,G.L., and A. Logara-Kalantzis|Synergistic Toxicity of Endotoxins with Oxytetracycline and Tetracycline|Lancet (Lond.)1(7760): 1126-1127|1972|10.1016/S0140-6736(72)91474-2
159247|T||Henry,M., M. Beguin, F. Requier, O. Rollin, J.F. Odoux, P. Aupinel, J. Aptel, S. Tchamitchian, and A. Decourtye|A Common Pesticide Decreases Foraging Success and Survival in Honey Bees|Science336:348-350|2012|10.1126/science.1215039
159248|T||Kagaya,Y., R. Toyoshima, R. Okuda, H. Usui, A. Yamamoto, and T. Hattori|Leafy Cotyledon1 Controls Seed Storage Protein Genes Through Its Regulation of Fusca3 and Abscisic Acid Insensitive3|Plant Cell Physiol.46(3): 399-406|2005|10.1093/pcp/pci048
159249|T||Halterman,S.D., and W.J. Murdoch|Ovarian Function in Ewes Treated with Antihistamines|Endocrinology119(6): 2417-2421|1986|10.1210/endo-119-6-2417
159250|T||Scientific Associates|Initial Submission:  The Minimum Lethal Oral Dose of Thenyl Pyramine Hydrochloride for Rats with Cover Letter Dated 081192|Monsanto Chemical Company, St.Louis, MO:7 p.|1992|
159251|T||Amoco Oil Co.|Letter from Amoco Oil Co to USEPA Regarding Initial Information Studies with Furnace Oil and Several Fractions and Initiation/Promotion Bioassays in Mice|EPA/OTS Doc.#88-880000004:16|1987|
159256|T||Rohm and Haas Company|Initial Submission:  Acute Toxicity Screen for RH-9358 5G (Final Report) with Cover Letter Dated 021992|Dow Chemical Co., Midland, MI:6 p.|1992|
159257|T||Dow Chemical Corp.|Initial Submission:  Letter Regarding an Oral Gavage Study in Rats Dated 041993|Dow Chemical Co., Midland, MI:2 p.|1993|
159259|T||Tapparo,A., D. Marton, C. Giorio, A. Zanella, L. Solda, M. Marzaro, L. Vivan, and V. Girolami|Assessment of the Environmental Exposure of Honeybees to Particulate Matter Containing Neonicotinoid Insecticides Coming from Corn Coated Seeds|Environ. Sci. Technol.46(5): 2592-2599|2012|10.1021/es2035152
159260|A||Mobile Oil Corp.|Initial Submission:  Letter Submitting Information from a 96-Hour Acute Toxicity Study in Mysid Shrimp on MTG Gasoline|Mobil Oil Corporation, Houston, TX:4 p.|1992|
159261|T||Eli Lilly and Company|Intial Submission:  Letter from Eli Lilly and Company to USEPA Submitting Results on Thiophene I Acute Mouse Oral Study with Attachment (Sanitized)|Eli Lilly and Co., Greenfield, IN:12 p.|1992|
159262|T||MB Research Laboratories|Initial Submission:  Para-xylene Diamine:  Rat Acute Oral and Rabbit Acute Dermal Lethal Dose Toxicity Studies with Cover Letter Dated 021392 and Attachment|Sun Company Inc., Philadelphia, PA:11 p.|1992|
159263|T||Mellon Institite|Init Sub:  Evaluation of Skin Cancer Potential of Alkylbenzene, Light and Heavy Residues;  a Mother Liquor from Pyrolysis of P-Xylene;  and UCON 50-HB-260 in Mice w-Letter 072892|Mellon Institute, Pittsburgh, PA:10 p.|1992|
159264|AT||ICI Americas Inc.|Initial Submission:  Cypermethrin:  Toxicity to Daphnia magna, Cloeon dipterum, and Asellus aquaticus in the Presence and Absence of Soil with Cover Letter Dated 082892|ICI Americas Inc., Wilmington, DE:5 p.|1992|
159266|T||Monsanto Company|Initial Submission:  Summary of Evalution of Potential Embryotoxic, Fetal Toxic or Teratogenic Effects of Di-ethylbenzene in Pregnant Rats w Cover Letter Dated 052792 and Attachments|Monsanto Chemical Company, St.Louis, MO:6 p.|1992|
159267|T||Hazelton Laboratories Inc.|Neurotoxicity Study - Chickens Four Compounds (Compound MP-600) (Final Report)|EPA/OTS Doc.#40-6942013:8 p.|2000|
159268|T||Younger Laboratories|Initial Submission:  Toxicity Studies on:  Penta Oil with Cover Letter Dated 081992|Monsanto Chemical Company, St.Louis, MO:5 p.|1992|
159269|T||Younger Laboratories|Initial Submission:  Toxicological Investigation of:  AD 73 with Cover Letter Dated 081392|Monsanto Chemical Company, St.Louis, MO:5 p.|1992|
159270|T||Younger Laboratories|Initial Submission:  Toxicity Studies with Ortho Xylene in Rats and Rabbits with Cover Letter Dated 081792|Monsanto Chemical Company, St.Louis, MO:5 p.|1992|
159271|T||Younger Laboratories|Initial Submission:  Toxicity Studies on:  Mixed Xylene with Cover Letter Dated 081392|Monsanto Chemical Company, St.Louis, MO:5 p.|1992|
159272|T||Haskell Laboratories|Initial Submission:  Oral LD50 Test in Rats with Cover Letter Dated 081092|Du Pont, Wilmington, DE:14 p.|1992|
159273|T||Alper,R.H.|Effects of the Selective Serotonin Reuptake Inhibitor Fluoxetine on Baroreceptor Reflex Sensitivity and Body Weight in Young and Old Rats|J. Gerontol.47(4): 130-136|1992|10.1093/geronj/47.4.B130
159274|T||Arslan,R., N. Bektas, and Y. Ozturk|Antinociceptive Activity of Methanol Extract of Fruits of Capparis ovata in Mice|J. Ethnopharmacol.131(1): 28-32|2010|10.1016/j.jep.2010.05.060
159275|T||Agras,K., E. Willingham, B. Liu, and L.S. Baskin|Ontogeny of Androgen Receptor and Disruption of Its mRNA Expression by Exogenous Estrogens During Morphogenesis of the Genital Tubercle|J. Urol.176(4, Pt. 2): 1883-1888|2006|10.1016/S0022-5347(06)00613-6
159276|T||Bennett,G.D., B.M. Amore, R.H. Finnell, B. Wlodarczyk, T.F. Kalhorn, G.L. Skiles, S.D. Nelson, and J.T. Slattery|Teratogenicity of Carbamazepine-10,11-Epoxide and Oxcarbazepine in the SWV Mouse|J. Pharmacol. Exp. Ther.279(3): 1237-1242|1996|
159277|T||Agras,K., Y. Shiroyanagi, and L.S. Baskin|Progesterone Receptors in the Developing Genital Tubercle:  Implications for the Endocrine Disruptor Hypothesis as the Etiology of Hypospadias|J. Urol.178(2): 722-727|2007|10.1016/j.juro.2007.03.110
159279|T||Cabrera,T.M., and G. Battaglia|Delayed Decreases in Brain 5-Hydroxytryptamine2A/2C Receptor Density and Function in Male Rat Progeny Following Prenatal Fluoxetine|J. Pharmacol. Exp. Ther.269(2): 637-645|1994|
159280|T||Danhaive,P.A., and G.G. Rousseau|Evidence for Sex-Dependent Anabolic Response to Androgenic Steroids Mediated by Muscle Glucocorticoid Receptors in the Rat|J. Steroid Biochem.29(6): 575-581|1988|10.1016/0022-4731(88)90154-9
159282|T||Deluca,C.A., P.M. McCue, M.L. Patten, and E.L. Squires|Effect of a Nonsurgical Embryo Transfer Procedure and/or Altrenogest Therapy on Endogenous Progesterone Concentration in Mares|J. Equine Vet. Sci.31(2): 57-62|2011|10.1016/j.jevs.2010.12.002
159284|T||Beyer,B.K., and M.R. Juchau|Contrasting Effects of Estradiol-17beta and 17alpha-Ethynyl Estradiol-17beta on Cultured Whole Embryos|J. Steroid Biochem.29(6): 629-634|1988|10.1016/0022-4731(88)90162-8
159285|T||Christensen,J.M., B.B. Smith, S.B. Murdane, and N. Hollingshead|The Disposition of Five Therapeutically Important Antimicrobial Agents in Llamas|J. Vet. Pharmacol. Ther.19(6): 431-438|1996|10.1111/j.1365-2885.1996.tb00079.x
159286|T||Boudou,P., J. Fiet, P. Vexiau, J.M. Villette, N. Hardy, and C. Dreux|Greater Conversion of Testosterone to 5alpha-Dihydrotestosterone, Reflecting Increased Peripheral 5alpha-Reductase Activity in Nude Mice Treated with High Doses of Cyclosporine A|J. Steroid Biochem.36(6): 597-601|1990|10.1016/0022-4731(90)90178-U
159287|T||Bouton,M.M., C. Pornin, and J.A. Grandadam|Estrogen Regulation of Rat Prostate Androgen Receptor|J. Steroid Biochem.15:403-408|1981|10.1016/0022-4731(81)90305-8
159288|T||Ebling,F.J.G., and V.A. Randall|Steroid Inhibitors of Androgen-Potentiated Actions on Skin|J. Steroid Biochem.19(1): 587-590|1983|10.1016/0022-4731(83)90222-4
159289|T||Dziegiel,P., E. Murawska-Cialowicz, Z. Jethon, L. Januszewska, M. Podhorska-Okolow, P. Surowiak, M. Zawadzki, J. Rabczy|Melatonin Stimulates the Activity of Protective Antioxidative Enzymes in Myocardial Cells of Rats in the Course of Doxorubicin Intoxication|J. Pineal Res.35(3): 183-187|2003|10.1034/j.1600-079X.2003.00079.x
159290|T||Dostal,L.A., and B.A. Schwetz|Determination of Diphenhydramine in Rat Milk and Plasma and Its Effects on Milk Composition and Mammary Gland Nucleic Acids|J. Pharm. Sci.78(5): 423-426|1989|10.1002/jps.2600780516
159291|T||Gould III,H.J., J.D. England, R.D. Soignier, P. Nolan, L.D. Minor, Z.P. Liu, S.R. Levinson, and D. Paul|Ibuprofen Blocks Changes in Na V 1.7 and 1.8 Sodium Channels Associated with Complete Freund's Adjuvant-Induced Inflammation in Rat|J. Pain5(5): 270-280|2004|10.1016/j.jpain.2004.04.005
159292|T||Williams,G.H.|The Use of Glyphosate in the Control of Bracken|BCPC Monogr. - Br. Crop Prot. Counc.9:157-159|1974|
159293|T||Gee,E.K., C. Deluca, J.L. Stylski, and P.M. McCue|Efficacy of Medroxyprogesterone Acetate in Suppression of Estrus in Cycling Mares|J. Equine Vet. Sci.29(3): 140-145|2009|10.1016/j.jevs.2009.01.003
159294|T||Gettys,T.W., M.J. D'Occhio, D.M. Henricks, and B.D. Schanbacher|Suppression of LH Secretion by Oestradiol, Dihydrotestosterone and Trenbolone Acetate in the Acutely Castrated Bull|J. Endocrinol.100(1): 107-112|1984|10.1677/joe.0.1000107
159295|T||Elger,W., S. Schwarz, A. Hedden, G. Reddersen, and B. Schneider|Sulfamates of Various Estrogens are Prodrugs with Increased Systemic and Reduced Hepatic Estrogenicity at Oral Application|J. Steroid Biochem. Mol. Biol.55(3/4): 395-403|1995|10.1016/0960-0760(95)00214-6
159296|T||Duggin,G.G., and G.H. Mudge|Analgesic Nephropathy:  Renal Distribution of Acetaminophen and Its Conjugates|J. Pharmacol. Exp. Ther.199(1): 1-8|1976|
159297|T||Eluma,F.O., M.E. Sucheston, T.G. Hayes, and R.B. Paulson|Teratogenic Effects of Dosage Levels and Time of Administration of Carbamazepine, Sodium Valproate, and Diphenylhydantoin on Craniofacial Development in the Cd-1 Mouse Fetus|J. Craniofacial Genet. Dev. Biol.4(3): 191-210|1984|
159298|T||Heitzman,R.J., G. Oettel, and B. Hoffmann|The Determination by Radioimmunoassay of Residues of an Anabolic Steroid in Tissues of Calves Treated with a Combined Preparation of Trenbolone Acetate and Oestradiol-17beta|J. Endocrinol.69(3): 10-11|1976|
159299|T||Klaassen,C.D.|Effect of Microsomal Enzyme Inducers on the Biliary Excretion of Cardiac Glycosides|J. Pharmacol. Exp. Ther.191(2): 201-211|1974|
159300|T||Tada,M., M.A.J. O'Reilly, and J.C. Smith|Analysis of Competence and of Brachyury Autoinduction by Use of Hormone-Inducible Xbra|Development124(11): 2225-2234|1997|10.1242/dev.124.11.2225
159301|T||Bollwein,H., B. Kolberg, and R. Stolla|The Effect of Exogenous Estradiol Benzoate and Altrenogest on Uterine and Ovarian Blood Flow During the Estrous Cycle in Mares|Theriogenology61(6): 1137-1146|2004|10.1016/j.theriogenology.2003.07.006
159302|T||Daels,P.F., P.M. McCue, M.J. DeMoraes, and J.P. Hughes|Persistence of the Luteal Phase Following Ovulation During Altrenogest Treatment in Mares|Theriogenology46(5): 799-811|1996|10.1016/S0093-691X(96)00238-5
159303|T||Daels,P.F., G.C. Chang, B. Hansen, and H.O. Mohammed|Testosterone Secretion During Early Pregnancy in Mares|Theriogenology45(6): 1211-1219|1996|10.1016/0093-691X(96)00076-3
159304|T||Dhuka,A.K., S.G. Sadaria, J.C. Patel, and M.N. Vyas|Response of Irrigated Late Sown Wheat to Nitrogen Application|Indian J. Agron.36(2): 276-277|1991|
159306|T||Guilbault,L.A., W.W. Thatcher, M. Drost, and G.K. Haibel|Influence of a Physiological Infusion of Prostaglandin F2alpha Into Postpartum Cows with Partially Suppressed Endogenous Production of Prostaglandins. 1. Uterine and Ovarian Morphological Responses|Theriogenology27(6): 931-946|1987|10.1016/0093-691X(87)90215-9
159307|T||Hinrichs,K., P.L. Sertich, and R.M. Kenney|Use of Altrenogest to Prepare Ovariectomized Mares as Embryo Transfer Recipients|Theriogenology26(4): 455-460|1986|10.1016/0093-691X(86)90037-3
159308|T||Piao,H., N. Kamiya, J. Watanabe, H. Yokoyama, A. Hirata, T. Fujii, I. Shimizu, S. Ito, and M. Goto|Oral Delivery of Diclofenac Sodium Using a Novel Solid-in-Oil Suspension|Int. J. Pharm. (Kidlington)313(1/2): 159-162|2006|10.1016/j.ijpharm.2006.02.003
159309|T||Liu,J., Y. Yang, Y. Yang, Y. Zhang, and W. Liu|Disrupting Effects of Bifenthrin on Ovulatory Gene Expression and Prostaglandin Synthesis in Rat Ovarian Granulosa Cells|Toxicology282(1/2): 47-55|2011|10.1016/j.tox.2011.01.007
159310|T||Attia,F.I.|Insecticide Resistance in Cadra cautella in New South Wales, Australia|J. Econ. Entomol.69(6): 773-774|1976|10.1093/jee/69.6.773
159311|T||Cawley,B.M., W.N. Sullivan, M.S. Schechter, and J.U. McGuire|Desirability of Three Synthetic Pyrethroid Aerosols for Aircraft Disinsection|Bull. W. H. O.51(5): 537-540|1974|
159312|A||Key,P.B., K.W. Chung, J. Hoguet, Y. Sapozhnikova, and M.E. Delorenzo|Toxicity of the Mosquito Control Insecticide Phenothrin to Three Life Stages of the Grass Shrimp (Palaemonetes pugio)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes46(5): 426-431|2011|
159313|T||Rajakulendran,S.V., and F.W.,Jr. Plapp|Synergism of Five Synthetic Pyrethroids by Chlordimeform Against the Tobacco Budworm (Lepidoptera: Noctuidae) and a Predator, Chrysopa carnea (Neuroptera: Chrysopidae)|J. Econ. Entomol.75(6): 1089-1092|1982|10.1093/jee/75.6.1089
159314|T||Robertson,J.L., M. Page, and N.L. Gillette|Calocalpe undulata:  Contact Toxicity of Ten Insecticides to the Larvae|J. Econ. Entomol.67(6): 706-708|1974|10.1093/jee/67.6.706
159315|T||Samson,P.R., R.J. Parker, and A.L. Jones|Comparative Effect of Grain Moisture on the Biological Activity of Protectants on Stored Corn|J. Econ. Entomol.81(3): 949-954|1988|10.1093/jee/81.3.949
159316|T||Williams,D.|Potential Neonate Mortality Due to Use of D-Phenothrin Insecticide ('Aircraft Spray')|Thylacinus14(2): 27-|1989|
159317|T||Sheppard,R.G., and S.J. Norton|Aziridine Analogues of Some Synthetic Pyrethroids|J. Agric. Food Chem.28(6): 1300-1303|1980|10.1021/jf60232a077
159318|T||Skidmore,P.R.|Wellcome Permethrin-Based Insecticides for Control of Stored Products Pests|Dev. Food Sci.5A:389-394|1983|
159319|T||Cinzia,N., C. Manuel, F. Donatella, G. Rosita, D.S. Antonio, L.S. Cerasa, S. Isabel, D. Valentina, and C. Roberto|Effects of Early Life Permethrin Exposure on Spatial Working Memory and on Monoamine Levels in Different Brain Areas of Pre-Senescent Rats|Toxicology303:162-168|2013|10.1016/j.tox.2012.09.016
159320|T||Daglish,G.J., and M.K. Nayak|Uneven Application can Influence the Efficacy of s-Methoprene Against Rhyzopertha dominica (F.) in Wheat|J. Stored Prod. Res.46(4): 250-253|2010|10.1016/j.jspr.2010.06.002
159321|T||Ueyama,J., N. Hirosawa, A. Mochizuki, A. Kimata, M. Kamijima, T. Kondo, K. Takagi, S. Wakusawa, and T. Hasegawa|Toxicokinetics of Pyrethroid Metabolites in Male and Female Rats|Environ. Toxicol. Pharmacol.30(1): 88-91|2010|10.1016/j.etap.2010.03.017
159322|T||Nicholls,R.F., and P.R. Peecock|Control of Fruit Tree Red Spider Mite with the Synthetic Pyrethroid Fenpropathrin|Proc. Br. Weed Control Conf.:89-95|1981|
159323|T||Ku,H.M., C.W. Tan, Y.S. Su, C.Y. Chiu, C.T. Chen, and F.J. Jan|The Effect of Water Deficit and Excess Copper on Proline Metabolism in Nicotiana benthamiana|Biol. Plant. (Praha)56(2): 337-343|2012|10.1007/s10535-012-0095-1
159324|T||Vatehova,Z., K. Kollarova, I. Zelko, D. Richterova-Kucerova, M. Bujdos, and D. Liskova|Interaction of Silicon and Cadmium in Brassica juncea and Brassica napus|Biologia (Bratisl.)67(3): 498-504|2012|10.2478/s11756-012-0034-9
159325|T||Mirck,J., and T.A. Volk|Mass Balances and Allocation of Salt Ions from Solvay Storm Water for Shrub Willow (Salix spp.)|Biomass Bioenergy39(SI): 427-438|2012|10.1016/j.biombioe.2012.01.039
159326|T||Duysen,E.G., J.R. Cashman, L.M. Schopfer, F. Nachon, P. Masson, and O. Lockridge|Differential Sensitivity of Plasma Carboxylesterase-Null Mice to Parathion, Chlorpyrifos and Chlorpyrifos Oxon, but not to Diazinon, Dichlorvos, Diisopropylfluorophosphate, Cresyl Saligenin Phosphate, Cyclosarin Thiocho|Chem.-Biol. Interact.195(3): 189-198|2012|10.1016/j.cbi.2011.12.006
159327|A||Relyea,R.A.|New Effects of Roundup on Amphibians: Predators Reduce Herbicide Mortality; Herbicides Induce Antipredator Morphology|Ecol. Appl.22(2): 634-647|2012|10.1890/11-0189.1
159328|A||Wasik,J.K.C., C.P.J. Mitchell, D.R. Engstrom, E.B. Swain, B.A. Monson, S.J. Balogh, J.D. Jeremiason, B.A. Branfireun, S|Methylmercury Declines in a Boreal Peatland when Experimental Sulfate Deposition Decreases|Environ. Sci. Technol.46(12): 6663-6671|2012|10.1021/es300865f
159331|T||Stemp,G., S. Pascoe, and D. Gatehouse|In Vitro and In Vivo Cytogenetic Studies of Three beta-Lactam Antibiotics (Penicillin VK, Ampicillin and Carbenicillin)|Mutagenesis4(6): 439-445|1989|10.1093/mutage/4.6.439
159332|T||Sucheston,M.E., T.G. Hayes, and F.O. Eluma|Relationship Between Ossification and Body Weight of the Cd-1 Mouse Fetus Exposed In Utero to Anticonvulsant Drugs|Teratog. Carcinog. Mutagen.6(6): 537-546|1986|10.1002/tcm.1770060607
159333|A||Tang,C.F., R.Q. Zhang, S.Z. Wen, C.F. Li, X.F. Guo, and Y.G. Liu|Effects of Exogenous Spermidine on Subcellular Distribution and Chemical Forms of Cadmium in Typha latifolia L. Under Cadmium Stress|Water Sci. Technol.59(8): 1487-1493|2009|10.2166/wst.2009.170
159334|T||Thounaojam,T.C., P. Panda, P. Mazumdar, D. Kumar, G.D. Sharma, L. Sahoo, and S.K. Panda|Excess Copper Induced Oxidative Stress and Response of Antioxidants in Rice|Plant Physiol. Biochem. (Amsterdam)53:33-39|2012|10.1016/j.plaphy.2012.01.006
159335|T||Urasopon,N., Y. Hamada, W. Cherdshewasart, and S. Malaivijitnond|Preventive Effects of Pueraria mirifica on Bone Loss in Ovariectomized Rats|Maturitas59(2): 137-148|2008|10.1016/j.maturitas.2008.01.001
159336|T||Vorhees,C.V., K.D. Acuff, W.P. Weisenberger, and D.R. Minck|Teratogenicity of Carbamazepine in Rats|Teratology41:311-317|1990|10.1002/tera.1420410308
159337|T||Weeks,B.S., P. Gamache, N.W. Klein, J.A. Hinson, M. Bruno, and E. Khairallah|Acetaminophen Toxicity to Cultured Rat Embryos|Teratog. Carcinog. Mutagen.10(5): 361-371|1990|10.1002/tcm.1770100502
159338|T||Wells,P.G.|Physiological and Environmental Determinants of Phenytoin Teratogenicity: Relation to Glutathione Homeostasis, and Potentiation by Acetaminophen|Prog. Clin. Biol. Res.135:367-371|1983|
159339|T||Bry,R.E., R.E. Boatright, J.H. Lang, and R.A. Simonaitis|"""Sumithrin"" Spray Effective Against Fabric Pests"|Soap Cosmet. Chem. Spec.57(5): 40,40A,40B|1981|
159343|T||Dow Chemical Co.|Diethylene Glycol Monomethyl Ether (DEGME):  Dermal Teratology Study in Rabbits (Final Report) with Attachments, Cover Sheets and Letter Dated 060689|EPA/OTS Doc.#86-890000958:63 p.|1989|
159344|T||Celar,F.A., and K. Kos|Compatibility of Selected Herbicides with Entomopathogenic Fungus Beauveria bassiana (Bals.) Vuill.|Acta Agric. Slovenica99(1): 57-63|2012|10.14720/aas.2012.99.1.14520
159345|AT||Cuthbert,R.J., M.D.L. Brooke, and N. Torr|Overcoming Hermit-Crab Interference During Rodent-Baiting Operations:  A Case Study from Henderson Island, South Pacific|Wildl. Res.39(1): 70-77|2012|10.1071/WR11033
159346|T||Prasad,S.K., T.N. Qureshi, S.K. Thakur, S. Qureshi, and S. Saxena|Induction of Egg Laying, Size and Weight by L-Dopa Feeding in Japanese Quail|J. Exp. Zool. India10(1): 133-135|2007|
159347|T||Sharma,S., and P. Bansal|Assessment of Diabetogenic Effects of Alloxan on Liver of Swiss Albino Mice|J. Exp. Zool. India10(1): 181-184|2007|
159348|T||Barai,S.R., S.A. Suryawanshi, and A.K. Pandey|Effects of Sublethal Heroin Administration on Plasma Calcium and Inorganic Phosphate Levels as Well as Parathyroid Gland of Rattus norvegicus|J. Exp. Zool. India10(1): 203-206|2007|
159349|T||Agarwal,V.K., B.S. Tyagi, and N. Goel|Toxic Effects of an Azo Dye Direct Deep Black on the Blood Cells Count of Albino Rat|J. Exp. Zool. India10(1): 257-259|2007|
159350|T||Mostafa,M.G., T. Mima, S.T. Ohnishi, and K. Mori|S-Allylcysteine Ameliorates Doxorubicin Toxicity in the Heart and Liver in Mice|Planta Med.66(2): 148-151|2000|10.1055/s-2000-11124
159351|A||Corso,C.R., E.J.R. Almeida, G.C. Santos, L.G. Morao, G.S.L. Fabris, and E.K. Mitter|Bioremediation of Direct Dyes in Simulated Textile Effluents by a Paramorphogenic Form of Aspergillus oryzae|Water Sci. Technol.65(8): 1490-1495|2012|10.2166/wst.2012.037
159352|T||Rainska,T., S. Juzwiak, T. Dutkiewicz, B. Krasowska, B. Olenderek, L. Rozewicka, J. Wojcicki, L. Samochowiec, and Z. Ju|Caffeine Reduces the Hepatotoxicity of Paracetamol in Mice|J. Int. Med. Res.20(4): 331-342|1992|10.1177/030006059202000404
159354|T||Pannu,M.W., G.A. O'Connor, and G.S. Toor|Toxicity and Bioaccumulation of Biosolids-Borne Triclosan in Terrestrial Organisms|Environ. Toxicol. Chem.31(3): 646-653|2012|10.1002/etc.1721
159356|T||Reel,J.R., A.D. Lawton, and J.C. Lamb IV|Reproductive Toxicity Evaluation of Acetaminophen in Swiss CD-1 Mice Using a Continuous Breeding Protocol|Fundam. Appl. Toxicol.18(2): 233-239|1992|10.1016/0272-0590(92)90051-I
159357|T||Ferret,P.J., R. Hammoud, M. Tulliez, A. Tran, H. Trebeden, P. Jaffray, B. Malassagne, Y. Calmus, B. Weill, and F. Batte|Detoxification of Reactive Oxygen Species by a Nonpeptidyl Mimic of Superoxide Dismutase Cures Acetaminophen-Induced Acute Liver Failure in the Mouse|Hepatology33(5): 1173-1180|2001|10.1053/jhep.2001.24267
159359|T||Sumioka,I., T. Matsura, M. Kai, and K. Yamada|Potential Roles of Hepatic Heat Shock Protein 25 and 70i in Protection of Mice Against Acetaminophen-Induced Liver Injury|Life Sci.74(20): 2551-2561|2004|10.1016/j.lfs.2003.10.011
159360|T||Kling,M., and I. Jakobsen|Direct Application of Carbendazim and Propiconazole at Field Rates to the External Mycelium of Three Arbuscular Mycorrhizal Fungi Species: Effect on 32P Transport and Succinate Dehydrogenase Activity|Mycorrhiza7(1): 33-37|1997|10.1007/s005720050160
159361|T||Ryan,C.L., and B.A. Pappas|Prenatal Exposure to Antiadrenergic Antihypertensive Drugs: Effects on Neurobehavioral Development and the Behavioral Consequences of Enriched Rearing|Neurotoxicol. Teratol.12(4): 359-366|1990|10.1016/0892-0362(90)90055-H
159362|T||Cutler,A.R., A.E. Wilkerson, J.L. Gingras, and E.D. Levin|Prenatal Cocaine and/or Nicotine Exposure in Rats: Preliminary Findings on Long-Term Cognitive Outcome and Genital Development at Birth|Neurotoxicol. Teratol.18(6): 635-643|1996|10.1016/S0892-0362(96)00125-0
159363|T||Nusier,M.K., H.N. Bataineh, and H.M. Daradka|Adverse Effects of Propranolol on Reproductive Function in Adult Male Mice|Pak. J. Biol. Sci.10(16): 2728-2731|2007|10.3923/pjbs.2007.2728.2731
159364|T||Smith,E.R., E.J. Cetrulo, J.P. Donahue, H. Sparrow, J.M. Davidson, B.B. Hoffman, and J.T. Clark|The Inhibitory Effects of Propranolol on Genital Reflexes in Male Rats|Pharmacol. Biochem. Behav.52(3): 541-546|1995|10.1016/0091-3057(95)00130-O
159365|T||Smith,E.R., D. Stoker, T. Kueny, J.M. Davidson, B.B. Hoffman, and J.T. Clark|The Inhibition of Sexual Behavior in Male Rats by Propranolol is Stereoselective|Pharmacol. Biochem. Behav.51(2/3): 439-442|1995|10.1016/0091-3057(95)00004-G
159367|T||Jo,Y.K., S.W. Chang, M. Boehm, and G. Jung|Rapid Development of Fungicide Resistance by Sclerotinia homoeocarpa on Turfgrass|Phytopathology98(12): 1297-1304|2008|10.1094/PHYTO-98-12-1297
159368|T||Collins,J.A., and H.Y.,Jr. Forsythe|Flea Beetle Adult Control, 1991|Insectic. Acaric. Tests17:61-|1992|
159369|T||Collins,J.A., and H.Y.,Jr. Forsythe|Sawfly Control, 1991|Insectic. Acaric. Tests17:61-|1992|
159372|T||Collins,J.A., and H.Y.,Jr. Forsythe|Flea Beetle and Sawfly Control, 1992|Insectic. Acaric. Tests18:67-|1993|10.1093/iat/18.1.67
159374|T||Maggi,M.D., S.R. Ruffinengo, Y. Mendoza, P. Ojeda, G. Ramallo, I. Floris, and M.J. Eguaras|Susceptibility of Varroa destructor (Acari: Varroidae) to Synthetic Acaricides in Uruguay: Varroa Mites' Potential to Develop Acaricide Resistance|Parasitol. Res.108(4): 815-821|2011|10.1007/s00436-010-2122-5
159375|T||Moores,G.D., P. Wegorek, J. Zamojska, L. Field, and D. Philippou|The Effect of a Piperonyl Butoxide/tau-Fluvalinate Mixture on Pollen Beetle (Meligethes aeneus) and Honey Bees (Apis mellifera)|Pest Manag. Sci.68(5): 795-800|2012|10.1002/ps.2328
159376|T||Luo,C.X., and G. Schnabel|Adaptation to Fungicides in Monilinia fructicola Isolates with Different Fungicide Resistance Phenotypes|Phytopathology98(2): 230-238|2008|10.1094/PHYTO-98-2-0230
159377|T||Niu,G., H.S. Pollock, A. Lawrance, J.P. Siegel, and M.R. Berenbaum|Effects of a Naturally Occurring and a Synthetic Synergist on Toxicity of Three Insecticides and a Phytochemical to Navel Orangeworm (Lepidoptera: Pyralidae)|J. Econ. Entomol.105(2): 410-417|2012|10.1603/EC10194
159378|T||Smodis Skerl,M.I., V. Kmecl, and A. Gregorc|Exposure to Pesticides at Sublethal Level and Their Distribution Within a Honey Bee (Apis mellifera) Colony|Bull. Environ. Contam. Toxicol.85(2): 125-128|2010|10.1007/s00128-010-0069-y
159379|T||Pfender,W.F., and J. Eynard|Field Assessment of a Model for Fungicide Effects on Intraplant Spread of Stem Rust in Perennial Ryegrass Seed Crops|Phytopathology99(6): 696-703|2009|10.1094/PHYTO-99-6-0696
159380|T||Hawthorne,D.J., and G.P. Dively|Killing Them with Kindness? In-Hive Medications may Inhibit Xenobiotic Efflux Transporters and Endanger Honey Bees|PLoS One6(11): 1-6|2011|10.1371/journal.pone.0026796
159381|T||Cox,K.D., P.K. Bryson, and G. Schnabel|Instability of Propiconazole Resistance and Fitness in Monilinia fructicola|Phytopathology97(4): 448-453|2007|10.1094/PHYTO-97-4-0448
159382|T||Teeters,B.S., R.M. Johnson, M.D. Ellis, and B.D. Siegfried|Using Video-Tracking to Assess Sublethal Effects of Pesticides on Honey Bees (Apis mellifera L.)|Environ. Toxicol. Chem.31(6): 1349-1354|2012|10.1002/etc.1830
159383|T||Rada,V., M. Machova, J. Huk, M. Marounek, and D. Duskova|Microflora in the Honeybee Digestive Tract:  Counts, Characteristics and Sensitivity to Veterinary Drugs|Apidologie28(6): 357-365|1997|10.1051/apido:19970603
159384|T||Rechav,Y.|Use of Acaricide-Impregnated Ear Tags for Controlling the Brown Ear Tick (Acari: Ixodidae) in South Africa|J. Econ. Entomol.80(4): 822-825|1987|10.1093/jee/80.4.822
159385|T||Reimer,N.J., and J.W. Beardsley|Epizootic of White Halo Fungus, Verticillium lecanii (Zimmerman), and Effectiveness of Insecticides on Coccus viridis (Green) (Homoptera: Coccidae) on Coffee at Kona, Hawaii|Proc. Hawaiian Entomol. Soc.31:73-81|1992|
159386|T||Smith,D.B., and R.G. Luttrell|Performance Specifications for Tobacco Budworm (Lepidoptera: Noctuidae) Larvae Treated with Vegetable Oil and Water Sprays Containing Fluvalinate|J. Econ. Entomol.80(6): 1314-1318|1987|10.1093/jee/80.6.1314
159387|T||Jalali,S.K., and S.P. Singh|Susceptibility of Various Stages of Trichogrammatoidea armigera Nagaraja to Some Pesticides and Effect of Residues on Survival and Parasitizing Ability|Biocontrol Sci. Technol.3(1): 21-27|1993|10.1080/09583159309355255
159388|T||Ward,A.L.|A Non-Destructive Sampling Technique for Spodoptera mauritia (Boisduval) (Lepidoptera: Noctuidae) and Herpetogramma licarsisalis (Walker) (Lepidoptera: Pyralidae) in Turf|Aust. J. Entomol.36(1): 75-79|1997|10.1111/j.1440-6055.1997.tb01435.x
159389|T||Wawrzynski,R.P., and M.E. Ascerno|Ash Flower Gall: Within Tree Distribution and Chemical Management|J. Arboric.15(9): 215-218|1989|
159390|T||Comstock,J.C., S.A. Ferreira, S.A. Ching, and H.W. Hilton|Control of Pineapple Disease of Sugarcane with Propiconazole|Plant Dis.68:1072-1075|1984|10.1094/PD-69-1072
159391|T||Hills,F.J., G.A. Nikolich, and L.D. Leach|Sterol-Inhibiting Fungicides for Control of Sugar Beet Powdery Mildew, Methods and Rates of Applications and Evidence of Growth Regulation|Plant Dis.69:257-261|1985|
159392|A||Kayser,H.|Cadmium Effects in Food Chain Experiments with Marine Plankton Algae (Dinophyta) and Benthic Filter Feeders (Tunicata)|Neth. J. Sea Res.16:444-454|1982|10.1016/0077-7579(82)90049-7
159393|A||Valenti,T.W., D.S. Cherry, R.J. Neves, B.A. Locke, and J.J. Schmerfeld|Case Study: Sensitivity of Mussel Glochidia and Regulatory Test Organisms to Mercury and a Reference Toxicant|In: J.L.Farris and J.H.Van Hassel (Eds.), Freshwater Bivalve Ecotoxicology,SETAC, Pensacola, FL14:351-367|2006|
159394|A||Maurya,A.K., A.K. Singh, and J.P.N. Singh|Chrome Black-T Induced Hyper Pigmentation in the Skin of an Air Breathing Fish, Colisa chuna|J. Exp. Zool. India10(1): 99-102|2007|
159395|AT||Zaheer Khan,M., M. Rais, and G. Yasmeen|Inhibitory Effects on Cholinesterase Activity Produced by the Two Different Pesticides on Brain, Liver and Kidney of Euphlyctis cyanophlyctis|J. Exp. Zool. India10(1): 89-93|2007|
159396|A||Stover,E.L., D.J. Fort, M.B. Copenhaver, and C.C. Stanford|Evaluating Site Specific Impact of Selenium on Aquatic Ecosystems|Proc. Water Environ. Fed.:2006-2016|2000|
159397|T||Pigati,R.L., P.H. Dernoeden, A.P. Grybauskas, and B. Momen|Simulated Rainfall and Mowing Impact Fungicide Performance when Targeting Dollar Spot in Creeping Bentgrass|Plant Dis.94(5): 596-603|2010|10.1094/PDIS-94-5-0596
159398|T||Walker,N.R.|Influence of Fungicide Application Timings on the Management of Bermudagrass Spring Dead Spot Caused by Ophiosphaerella herpotricha|Plant Dis.93(12): 1341-1345|2009|10.1094/PDIS-93-12-1341
159399|A||Negro,C.L., L.E. Senkman, and P. Collins|Metabolic Responses of Pleustonic and Burrowing Freshwater Crabs Exposed to Endosulfan|Fresenius Environ. Bull.21(1A): 216-222|2012|
159400|A||Lefevre,F., A. Chalifour, L. Yu, V. Chodavarapu, P. Juneau, and R. Izquierdo|Algal Fluorescence Sensor Integrated into a Microfluidic Chip for Water Pollutant Detection|Lab Chip12(4): 787-793|2012|10.1039/C2LC20998E
159401|A||Loureiro,S., T.L. Meyer, A.L.G. Ferreira, M.J.B. Amorim, and A.M.V.M. Soares|Single and Joint Effects of Perchlorates to Daphnia magna: Additivity and Interaction Patterns|Fresenius Environ. Bull.21(4): 844-852|2012|
159402|A||Mensah,P.K., C.G. Palmer, and W.J. Muller|Lipid Peroxidation in the Freshwater Shrimp Caridina nilotica as a Biomarker of Roundup Herbicide Pollution of Freshwater Systems in South Africa|Water Sci. Technol.65(9): 1660-1666|2012|10.2166/wst.2012.060
159403|A||Lavoie,M., S. Le Faucheur, A. Boullemant, C. Fortin, and P.G.C. Campbell|The Influence of pH on Algal Cell Membrane Permeability and Its Implications for the Uptake of Lipophilic Metal Complexes|J. Phycol.48(2): 293-302|2012|10.1111/j.1529-8817.2012.01126.x
159406|A||Hedayati,A., P. Zare, and S. Abarghouei|Effect of Environmental Mercury on Some Hormonal Parameters of the Main Mariculture Fish of Persian Gulf|Global Veter.8(1): 43-50|2012|
159407|A||Kaya,I., M. Karapehlivan, M. Yilmaz, Y. Ersan, and E. Koc|Investigation of Effects on Plasma Nitric Oxide, Malondialdehyde and Total Sialic Acid Levels of Glyphosate in Kars Creek Transcaucasian Barb (Capoeta capoeta [Guldenstaedt, 1773]) in Turkey|Fresenius Environ. Bull.21(1A): 123-126|2012|
159408|A||Kondera,E., and M. Witeska|Cadmium-Induced Alterations in Head Kidney Hematopoietic Tissue of Common Carp|Fresenius Environ. Bull.21(3A): 769-773|2012|
159409|A||Laufer,H., B. Baclaski, and U. Koehn|Alkylphenols Affect Lobster (Homarus americanus) Larval Survival, Molting and Metamorphosis|Invertebr. Reprod. Dev.56(1): 67-71|2012|10.1080/07924259.2011.588889
159410|A||Anandhan,R., and S. Hemalatha|Bioaccumulation of Aluminium in Selected Tissues of Zebra Fish Brachydanio rerio (Ham.)|Nat. Environ. Pollut. Technol.8(4): 751-753|2009|
159411|A||Adhikari,S., and M. Mohanty|Effect of Waterborne Boron and Molybdenum on Survival, Growth and Feed Intake of Indian Major Carp, Cirrhinus mrigala (Hamilton)|Chem. Ecol.28(2): 113-121|2012|10.1080/02757540.2011.627856
159412|A||Darwish,A.M., A. Mitchell, and D.L. Straus|Evaluation of a 4-H Static Copper Sulphate Treatment Against Experimental Infection of Flavobacterium columnare in Channel Catfish (Ictalurus punctatus)|Aquac. Res.43(5): 688-695|2012|10.1111/j.1365-2109.2011.02876.x
159413|A||Reichwaldt,E.S., L.Q. Zheng, D.J. Barrington, and A. Ghadouani|Acute Toxicological Response of Daphnia and Moina to Hydrogen Peroxide|J. Environ. Eng.138(5): 607-611|2012|10.1061/(ASCE)EE.1943-7870.0000508
159414|A||Wu,X., Y. Jia, H. Zhu, and H. Wang|Bioaccumulation of Cadmium Bound to Humic Acid by the Bivalve Meretrix meretirx Linnaeus from Solute and Particulate Pathways|J. Environ. Sci.22(2): 198-203|2010|10.1016/S1001-0742(09)60093-0
159415|A||Kovacevic,G., M. Kalafatic, and N. Ljubesic|Effects of Norflurazon on Green and Brown Hydra|Folia Biol. (Krakow)57(1/2): 91-96|2009|
159416|A||Lee,K.J., L.M. Browning, P.D. Nallathamby, T. Desai, P.K. Cherukuri, and X.H.N. Xu|In Vivo Quantitative Study of Sized-Dependent Transport and Toxicity of Single Silver Nanoparticles Using Zebrafish Embryos|Chem. Res. Toxicol.25(5): 1029-1046|2012|10.1021/tx300021u
159417|A||Hashimoto,E.H., M. Kamogae, T.P. Vanzella, I.M.S. Colus, A.P.F.R.L. Bracarense, M.D.C. Bittencourt-Oliveira, E. Itano, |Biomonitoring of Microcystin and Aflatoxin Co-Occurrence in Aquaculture Using Immunohistochemistry and Genotoxicity Assays|Braz. Arch. Biol. Technol.55(1): 151-159|2012|10.1590/S1516-89132012000100019
159418|A||Malpass,G.R.P., D.W. Miwa, R.L. Santos, E.M. Vieira, and A.J. Motheo|Unexpected Toxicity Decrease During Photoelectrochemical Degradation of Atrazine with NaCl|Environ. Chem. Lett.10(2): 177-182|2012|10.1007/s10311-011-0340-4
159419|A||Cahoon,L.B., M.T. Antonini, P.J. Blackmon, D.J. Devito, R.K. Earp, K.D. Marshburn, J.D. Robbins, D.A. Sawyer, W.D. Thom|"Effects of ""Shellbond"" on Water Quality: II. Effects on Phytoplankton Growth"|J. North Carolina Acad. Sci.127(4): 259-263|2011|10.7572/2167-5880-127.4.259
159420|A||Boran,H., E. Capkin, I. Altinok, and E. Terzi|Assessment of Acute Toxicity and Histopathology of the Fungicide Captan in Rainbow Trout|Exp. Toxicol. Pathol.64(3): 175-179|2012|10.1016/j.etp.2010.08.003
159421|A||Botelho,R.G., J.B. Dos Santos, K.M. Fernandes, and C.A. Neves|Effects of Atrazine and Picloram on Grass Carp: Acute Toxicity and Histological Assessment|Toxicol. Environ. Chem.94(1): 121-127|2012|10.1080/02772248.2011.633915
159422|A||Shuhaimi-Othman,M., Y. Nadzifah, N.S. Umirah, and A.K. Ahmad|Toxicity of Metals to Tadpoles of the Common Sunda Toad, Duttaphrynus melanostictus|Toxicol. Environ. Chem.94(2): 364-376|2012|10.1080/02772248.2011.640636
159423|A||Li,S., and Y. Tan|Hormetic Response of Cholinesterase from Daphnia magna in Chronic Exposure to Triazophos and Chlorpyrifos|J. Environ. Sci.23(5): 852-858|2011|10.1016/S1001-0742(10)60516-5
159424|A||Wu,J.P., H.C. Chen, and M.H. Li|The Preferential Accumulation of Cadmium in the Head Portion of the Freshwater Planarian, Dugesia japonica (Platyhelminthes: Turbellaria)|Metallomics3(12): 1368-1375|2011|10.1039/c1mt00093d
159425|A||Niedzwiecka,N., A. Mika, A. Bialk-Bielinska, P. Stepnowski, and E.F. Skorkowski|Effect of Cadmium and Glutathione on Malic Enzyme Activity in Brown Shrimps (Crangon crangon) from the Gulf of Gdansk|Oceanologia (Wroc.)53(3): 793-805|2011|10.5697/oc.53-3.793
159426|A||Khalil,M., D. Furness, A. Polwart, and D. Hoole|X-Ray Microanalysis (EDXMA) of Cadmium-Exposed Eggs of Bothriocephalus acheilognathi (Cestoda:  Bothriocephalidea) and the Influence of this Heavy Metal on Coracidial Hatching and Activity|Int. J. Parasitol.39(10): 1093-1098|2009|10.1016/j.ijpara.2009.02.023
159427|A||Esposito,S., S. Sorbo, B. Conte, and A. Basile|Effects of Heavy Metals on Ultrastructure and Hsp70s Induction in the Aquatic Moss Leptodictyum riparium Hedw.|Int. J. Phytoremediat.14(4): 443-455|2012|10.1080/15226514.2011.620904
159428|A||Daei,S., S. Jamili, A. Mashinchian, and M. Ramin|Effect of Pb and Cd on the Iron Solute in Blood (Chalcalburnus chalcoides)|J. Fish. Aquat. Sci.4(6): 323-329|2009|10.3923/jfas.2009.323.329
159429|A||Upadhyay,R., and S.K. Panda|Zinc Reduces Copper Toxicity Induced Oxidative Stress by Promoting Antioxidant Defense in Freshly Grown Aquatic Duckweed Spirodela polyrhiza L.|J. Hazard. Mater.175(1-3): 1081-1084|2010|10.1016/j.jhazmat.2009.10.016
159430|A||Luo,Y., X.R. Wang, L.L. Ji, and Y. Su|EPR Detection of Hydroxyl Radical Generation and Its Interaction with Antioxidant System in Carassius auratus Exposed to Pentachlorophenol|J. Hazard. Mater.171(1-3): 1096-1102|2009|10.1016/j.jhazmat.2009.06.132
159431|A||Madison,B.N., R.S. Dhillon, B.L. Tufts, and Y.S. Wang|Exposure to Low Concentrations of Dissolved Ammonia Promotes Growth Rate in Walleye Sander vitreus|J. Fish Biol.74(4): 872-890|2009|10.1111/j.1095-8649.2008.02165.x
159432|A||Sarma,S.S.S., F.I. Corral-Jacquez, S. Nandini, and P. Brena-Bustamante|Population Level Indicators of Stress:  Effects of Two Heavy Metals (Copper and Mercury) on the Growth of Lecane quadridentata (Ehrenberg, 1830) (Rotifera: Lecanidae)|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.45(1): 32-36|2010|
159433|A||Sanchez-Ortiz,J.R., S.S.S. Sarma, and S. Nandini|Comparative Population Growth of Ceriodaphnia dubia and Daphnia pulex (Cladocera) Exposed to Zinc Toxicity|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.45(1): 37-41|2010|
159434|T||Wilkerson,M.G., and S.J. Norton|Synthesis and Insecticidal Activity of Some Gem-Dicyanopyrethroid Analogues|J. Agric. Food Chem.29(3): 572-576|1981|10.1021/jf00105a035
159435|T||Takahashi,M., M. Miyakado, and S. Tanaka|The Relationship Between the Bleaching Pattern on Radish Cotyledons and Hydrophobicity of Herbicidal 3-Phenoxybenzamides|J. Pestic. Sci. (Multiple Languages)18(2): 169-173|1993|10.1584/jpestics.18.2_169
159436|A||Passeri,M.J., A. Cinaroglu, C. Gao, and K.C. Sadler|Hepatic Steatosis in Response to Acute Alcohol Exposure in Zebrafish Requires Sterol Regulatory Element Binding Protein Activation|Hepatology49(2): 443-452|2009|10.1002/hep.22667
159437|A||Mackie,J.A., J.S. Levinton, R. Przeslawski, D. DeLambert, and W. Wallace|Loss of Evolutionary Resistance by the Oligochaete Limnodrilus hoffmeisteri to a Toxic Substance - Cost or Gene Flow?|Evolution64(1): 152-165|2010|10.1111/j.1558-5646.2009.00806.x
159438|A||Van Dam,R.A., A.C. Hogan, C.D. McCullough, M.A. Houston, C.L. Humphrey, and A.J.. Harford|Aquatic Toxicity of Magnesium Sulfate, and the Influence of Calcium, in very Low Ionic Concentration Water|Environ. Toxicol. Chem.29(2): 410-421|2010|10.1002/etc.56
159439|A||Woods,M., and A. Kumar|Vitellogenin Induction by 17beta-Estradiol and 17alpha-Ethynylestradiol in Male Murray Rainbowfish (Melanotaenia fluviatilis)|Environ. Toxicol. Chem.30(11): 2620-2627|2011|10.1002/etc.660
159440|T||Stoner,K.A., and B.D. Eitzer|Movement of Soil-Applied Imidacloprid and Thiamethoxam into Nectar and Pollen of Squash (Cucurbita pepo)|PLoS One:6 p.|2012|
159441|T||Eiri,D.M., and J.C. Nieh|A Nicotinic Acetylcholine Receptor Agonist Affects Honey Bee Sucrose Responsiveness and Decreases Waggle Dancing|J. Exp. Biol.215(12): 2022-2029|2012|10.1242/jeb.068718
159442|T||Laycock,I., K.M. Lenthall, A.T. Barratt, and J.E. Cresswell|Effects of Imidacloprid, a Neonicotinoid Pesticide, on Reproduction in Worker Bumble Bees (Bombus terrestris)|Ecotoxicology21:1937-1945|2012|10.1007/s10646-012-0927-y
159443|T||Liu,W., Q. Zhou, J. An, Y. Sun, and R. Liu|Variations in Cadmium Accumulation Among Chinese Cabbage Cultivars and Screening for Cd-Safe Cultivars|J. Hazard. Mater.173(1-3): 737-743|2010|10.1016/j.jhazmat.2009.08.147
159444|T||Archery,V.M.M., and B.B. Panda|Aluminium-Induced DNA Damage and Adaptive Response to Genotoxic Stress in Plant Cells are Mediated Through Reactive Oxygen Intermediates|Mutagenesis25(2): 201-209|2010|10.1093/mutage/gep063
159445|T||Orcaray,L., M. Igal, D. Marino, A. Zabalza, and M. Royuela|The Possible Role of Quinate in the Mode of Action of Glyphosate and Acetolactate Synthase Inhibitors|Pest Manag. Sci.66(3): 262-269|2010|10.1002/ps.1868
159446|T||Lucini,L., and G.P. Molinari|Effect of Different Formulations on Tebuconazole Residues in Stone Fruits|Pest Manag. Sci.65(4): 440-443|2009|10.1002/ps.1708
159447|T||Malekinejad,H., F. Rahmani, and F. Hassanpour|Influences of Sub-Acute Exposure to Paraquat on Cytochrome P450 3A2 Expression in Rat Liver and Lungs|Pestic. Biochem. Physiol.96(3): 149-154|2010|10.1016/j.pestbp.2009.11.003
159448|T||Yu,S.J.|Detection and Biochemical Characterization of Insecticide Resistance in Fall Armyworm (Lepidoptera: Noctuidae)|J. Econ. Entomol.85(3): 675-682|1992|10.1093/jee/85.3.675
159449|T||Saxena,P.N., S.K. Gupta, and R.C. Murthy|Carbofuran Induced Cytogenetic Effects in Root Meristem Cells of Allium cepa and Allium sativum:  A Spectroscopic Approach for Chromosome Damage|Pestic. Biochem. Physiol.96(2): 93-100|2010|10.1016/j.pestbp.2009.09.006
159450|T||Kulincevic,J.M., T.E. Rinderer, and V.J. Mladjan|Effects of Fluvalinate and Amitraz on Bee Lice (Braula coeca Nitzsch) in Honey Bee (Apis mellifera L.) Colonies in Yugoslavia|Apidologie22(1): 43-47|1991|10.1051/apido:19910106
159451|T||Mansour,S.A., and A.T.H. Mossa|Oxidative Damage, Biochemical and Histopathological Alterations in Rats Exposed to Chlorpyrifos and the Antioxidant Role of Zinc|Pestic. Biochem. Physiol.96(1): 14-23|2010|10.1016/j.pestbp.2009.08.008
159452|T||Miller,F.D.|Effects and Control of Periodical Cicada Magicicada septendecim and Magicicada cassini Oviposition Injury on Urban Forest Trees|J. Arboric.23(6): 225-232|1997|
159453|T||Mor,F., and O. Ozmen|Endosulfan-Induced Neurotoxicity and Serum Acetylcholinesterase Inhibition in Rabbits:  The Protective Effect of Vit C|Pestic. Biochem. Physiol.96(2): 108-112|2010|10.1016/j.pestbp.2009.10.004
159454|T||Marchiosi,R., M.L.L. Ferrarese, E.A. Bonini, N.G. Fernandes, A.P. Ferro, and O. Ferrarese-Filho|Glyphosate-Induced Metabolic Changes in Susceptible and Glyphosate-Resistant Soybean (Glycine max L.) Roots|Pestic. Biochem. Physiol.93(1): 28-33|2009|10.1016/j.pestbp.2008.09.003
159455|T||Gough,N., and B.L. Montgomery|Efficacy of Insecticides Against Stethopachys formosa Baly (Coleoptera: Chrysomelidae), a Pest of Orchids in Eastern Australia|J. Aust. Entomol. Soc.33(4): 351-352|1994|10.1111/j.1440-6055.1994.tb01244.x
159456|T||Oguntimehin,I., F. Eissa, and H. Sakugawa|Negative Effects of Fluoranthene on the Ecophysiology of Tomato Plants (Lycopersicon esculentum Mill) Fluoranthene Mists Negatively Affected Tomato Plants|Chemosphere78(7): 877-884|2010|10.1016/j.chemosphere.2009.11.030
159457|T||Hata,T.Y., A.H. Hara, E.B. Jang, L.S. Imaino, B.K.S. Hu, and V.L. Tenbrink|Pest Management Before Harvest and Insecticidal Dip After Harvest as a Systems Approach to Quarantine Security for Red Ginger|J. Econ. Entomol.85(6): 2310-2316|1992|10.1093/jee/85.6.2310
159458|T||Hern,M.D., D.R. Penman, and R.B. Chapman|Use of Fluvalinate for the Protection of Kiwifruit from Contamination by Twospotted Spider Mite (Acari: Tetranychidae)|J. Econ. Entomol.81(3): 863-866|1988|10.1093/jee/81.3.863
159459|T||Owojori,O.J., A.J. Reinecke, and A.B. Rozanov|Influence of Clay Content on Bioavailability of Copper in the Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.73(3): 407-414|2010|10.1016/j.ecoenv.2009.03.017
159460|T||Kulincevic,J.M., T.E. Rinderer, V.J. Mladjan, and S.M. Buco|Control of Varroa jacobsoni in Honey-Bee Colonies in Yugoslavia by Fumigation with Low Doses of Fluvalinate or Amitraz|Apidologie22(2): 147-153|1991|10.1051/apido:19910207
159462|T||Cabras,P., I. Floris, V.L. Garau, M. Melis, and R. Prota|Fluvalinate Content of Apistan Strips During Treatment and Efficacy in Colonies Containing Sealed Worker Brood|Apidologie28(2): 91-96|1997|10.1051/apido:19970206
159463|T||Mukherjee,A., D. Das, S.K. Mondal, R. Biswas, T.K. Das, N. Boujedaini, and A.R. Khuda-Bukhsh|Tolerance of Arsenate-Induced Stress in Aspergillus niger, a Possible Candidate for Bioremediation|Ecotoxicol. Environ. Saf.73(2): 172-182|2010|10.1016/j.ecoenv.2009.09.015
159464|T||Lucia,M., J.M. Andre, P. Gonzalez, M. Baudrimont, M.D. Bernadet, K. Gontier, R. Maury-Brachet, G. Guy, and S. Davail|Effect of Dietary Cadmium on Lipid Metabolism and Storage of Aquatic Bird Cairina moschata|Ecotoxicology19(1): 163-170|2010|10.1007/s10646-009-0401-7
159465|T||Mommaerts,V., S. Reynders, J. Boulet, L. Besard, G. Sterk, and G. Smagghe|Risk Assessment for Side-Effects of Neonicotinoids Against Bumblebees with and Without Impairing Foraging Behavior|Ecotoxicology19(1): 207-215|2010|10.1007/s10646-009-0406-2
159466|T||La Merrill,M., R. Harper, L.S. Birnbaum, R.D. Cardiff, and D.W. Threadgill|Maternal Dioxin Exposure Combined with a Diet high in Fat Increases Mammary Cancer Incidence in Mice|Environ. Health Perspect.118(5): 596-601|2010|10.1289/ehp.0901047
159467|T||Amoo,A.O.J., R.D. Xue, W.A. Qualls, B.P. Quinn, and U.R. Bernier|Residual Efficacy of Field-Applied Permethrin, D-Phenothrin, and Resmethrin on Plant Foliage Against Adult Mosquitoes|J. Am. Mosq. Control Assoc.24(4): 543-549|2008|10.2987/08-5783.1
159468|T||Meisch,M.V., D.A. Dame, and C.N. Lewis|Comparison of Dilute and Neat Formulations of Anvil by Ultra-Low Volume Ground Application Against Anopheles quadrimaculatus in Arkansas|J. Am. Mosq. Control Assoc.23(3): 312-314|2007|10.2987/8756-971X(2007)23[312:CODANF]2.0.CO;2
159469|T||Liu,Y., H.B. Wang, M.H. Wong, and Z.H. Ye|The Role of Arsenate Reductase and Superoxide Dismutase in As Accumulation in Four Pteris Species|Environ. Int.35(3): 491-495|2009|10.1016/j.envint.2008.07.012
159470|T||Rao,C.P., G. Srimannarayana, and V. Sundaramurthy|Synthesis, Insecticidal and Antifeedant Activities of New Type of Pyrethroid Esters|Indian J. Chem. Sect. B Org. Chem. Incl. Med. Chem.29(11): 1034-1040|1990|
159471|T||Kamble,S.I.|Effect of Spray Application of Goal (Oxyfluorfen) on Morphological Characters of Hibiscus cannabinus Linn|Biosci. Biotechnol. Res. Asia5(2): 799-803|2008|
159472|T||Kamble,S.I.|Effect of Herbicide Goal (Oxyfluorfen) on DNA, RNA and Protein Contents of Seedlings of Hibiscus canabinus Linn.|Biosci. Biotechnol. Res. Asia3(2): 357-362|2005|
159473|T||Kaur,R., and B.S. Gill|Efficacy of Weed Control Practices in Celery Crop Production|Environ. Ecol.29(2A): 896-899|2011|
159474|T||Tiwari,J.P., and S.P. Kurchania|Survey and Management of Weeds in Soybean (Glycine max) Ecosystem in Madhya Pradesh|Indian J. Agric. Sci.60(10): 672-676|1990|
159475|T||Pritchard,M.K., G.F. Warren, and R.A. Dilley|Site of Action of Oxyfluorfen|Weed Sci.28(6): 640-645|1980|10.1017/S0043174500061415
159476|A||Srivastava,O.P.|Freshwater Crabs (Potamonids) in the Collection of the Southern Regional Station, Zoological Survey of India, Chennai|Rec. Zool. Surv. India104(1-2): 115-122|2005|10.26515/rzsi/v104/i1-2/2005/159326
159477|T||Ottea,J.A., S.A. Ibrahim, A.M. Younis, R.J. Young, B.R. Leonard, and A.R. McCaffery|Biochemical and Physiological Mechanisms of Pyrethroid Resistance in Heliothis virescens (F.)|Pestic. Biochem. Physiol.51:117-128|1995|10.1006/pest.1995.1012
159478|A||Karapetyan,N.V., R. Strasser, and P. Boger|Variable Fluorescence and Fluorescence Spectra of Algae After Herbicide-Induced Pigment Bleaching|Z. Naturforsch. Sect. C J. Biosci.38C(7/8): 556-562|1983|10.1515/znc-1983-7-811
159479|T||Elmore,C.L., L.R. Costello, and W.D. Hamilton|Ornamental Tree Growth with Basin-Applied Herbicides|Hortscience25(3): 316-318|1990|10.21273/HORTSCI.25.3.316
159480|T||Fischer,B.B., T.I. Cox, and R.M. Kerr|Tolerance of Feijoa to Some Soil-Applied Herbicides|Proc. N. Z. Weed Pest Control Conf.39:170-171|1986|10.30843/nzpp.1986.39.9404
159481|T||Fischer,B.B., T.I. Cox, and R.M. Kerr|Tolerance of Kiwifruit Seedlings and Rooted Cuttings to Residual Herbicides|Proc. N. Z. Weed Pest Control Conf.39:172-174|1986|10.30843/nzpp.1986.39.9405
159482|T||Ghosheh,H.Z.|Single Herbicide Treatments for Control of Broadleaved Weeds in Onion (Allium cepa)|Crop Prot.23(6): 539-542|2004|10.1016/j.cropro.2003.10.010
159483|T||Horowitz,M., C.L. Elmore, and D. Boquist|Directed Application of Goal (Oxyfluorfen) to Container Grown Euonymus, to Minimize Phytotoxicity and Leaching|J. Environ. Hortic.7(1): 17-21|1989|10.24266/0738-2898-7.1.17
159484|T||Coffman,C.B., and J.R. Frank|Weed Management with Fluazifop (Fusilade), Haloxyfop (Verdict), Sethoxydim (Poast) and Oxyfluorfen (Goal) in Groundcovers and Woody Landscape Plants|J. Environ. Hortic.5(2): 85-88|1987|10.24266/0738-2898-5.2.85
159485|T||Anastasov,H.|Influence of Oxyfluorfen on Some Anatomic Indices in the Leaves of Virginia Tobacco Plant (Nicotiana tabacum L.)|Biotechnol. Biotechnol. Equip.24(2): 33-35|2010|10.1080/13102818.2010.10817805
159486|T||Stagg,N.J., M.J. LeBaron, D.L. Eisenbrandt, B.B. Gollapudi, and J.E. Klaunig|Assessment of Possible Carcinogenicity of Oxyfluorfen to Humans Using Mode of Action Analysis of Rodent Liver Effects|Toxicol. Sci.128(2): 334-345|2012|10.1093/toxsci/kfs157
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159488|T||Krijt,J., M. Vokurka, J. Sanitrak, V. Janousek, I. Van Holsteijn, and B.J. Blaauboer|Effect of the Protoporphyrinogen Oxidase-Inhibiting Herbicide Fomesafen on Liver Uroporphyrin and Heptacarboxylic Porphyrin in Two Mouse Strains|Food Chem. Toxicol.32(7): 641-650|1994|10.1016/0278-6915(94)90008-6
159489|T||Whitson,T.D., M.E. Majerus, R.D. Hall, and J.D. Jenkins|Effects of Herbicides on Grass Seed Production and Downy Brome (Bromus tectorum)|Weed Technol.11(4): 644-648|1997|10.1017/S0890037X00043189
159490|T||Kelley,W.D., and D.B. South|Effects of Herbicides on In Vitro Growth of Mycorrhizae of Pine (Pinus spp.)|Weed Sci.28(5): 599-602|1980|10.1017/S0043174500061300
159491|T||Lee,K.W., N. Ahsan, S.H. Lee, D.G. Lee, K.H. Kim, I. Alam, S.Y. Kwon, J.S. Kim, K. Back, S.S. Lee, and B.H. Lee|Responses of MxPPO Overexpressing Transgenic Tall Fescue Plants to Two Diphenyl-Ether Herbicides, Oxyfluorfen and Acifluorfen|Acta Physiol. Plant.30(5): 745-754|2008|10.1007/s11738-008-0177-z
159492|T||Mathers,H.M.|Novel Methods of Weed Control in Containers|HortTechnology13(1): 28-34|2003|10.21273/HORTTECH.13.1.0028
159493|AT||Matsunari,K., T. Shimizu, F. Yoshida, and T. Fujita|Mechanism of the Phytotoxic Action of Herbicidal N-Isobutyl- N-(4-Substituted Benzyl)-4-Halo-2-Pentenamides|J. Pestic. Sci. (Multiple Languages)27(1): 9-16|2002|10.1584/jpestics.27.9
159494|T||Newby,A., J.E. Altland, C.H. Gilliam, and G. Wehtje|Pre-Emergence Liverwort Control in Nursery Containers|HortTechnology17(4): 496-500|2007|10.21273/HORTTECH.17.4.496
159495|T||Travlos,I.S., and D. Chachalis|Glyphosate-Resistant Hairy Fleabane (Conyza bonariensis) is Reported in Greece|Weed Technol.24(4): 569-573|2010|10.1614/WT-D-09-00080.1
159496|T||Altland,J.E.|Preemergence Control of Black Cottonwood in Nursery Containers|J. Environ. Hortic.27(1): 51-55|2009|10.24266/0738-2898-27.1.51
159497|T||Baldos,O.C., J. DeFrank, and G. Sakamoto|Tolerance of Transplanted Seashore Dropseed to Pre- and Postemergence Herbicides|HortTechnology20(4): 772-777|2010|10.21273/HORTTECH.20.4.772
159498|A||Bonnineau,C., I.G. Sague, G. Urrea, and H. Guasch|Light History Modulates Antioxidant and Photosynthetic Responses of Biofilms to Both Natural (Light) and Chemical (Herbicides) Stressors|Ecotoxicology21(4): 1208-1224|2012|10.1007/s10646-012-0876-5
159499|T||Briggs,J., T. Whitwell, M.B. Riley, R. Smith, and G. Legnani|Preemergent Bittercress Control on a Gravel Groundcover|J. Environ. Hortic.19(2): 104-108|2001|10.24266/0738-2898-19.2.104
159500|T||Daugovish,O., and M. Mochizuki|Control of Difficult Weeds in California Strawberry Production|In: Annual International Research Conference on Methyl Bromide Alternatives and Emissions Reductions, October 29 - November 1, 2007, San Diego, CA:106-109|2007|
159501|T||Daugovish,O., S.A. Fennimore, and M.J. Mochizuki|Integration of Oxyfluorfen into Strawberry (Fragaria X ananassa) Weed Management Programs|Weed Technol.22(4): 685-690|2008|10.1614/WT-08-077.1
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159503|T||Maggi,M.D., S.R. Ruffinengo, L.B. Gende, M.J. Eguaras, and N.H. Sardella|LC50 Baseline Levels of Amitraz, Coumaphos, Fluvalinate and Flumethrin in Populations of Varroa destructor from Buenos Aires Province, Argentina|J. Apic. Res.47(4): 292-295|2008|10.1080/00218839.2008.11101477
159504|T||Kay,I.R., and J.D. Brown|Insecticidal Control of Eggfruit Caterpillar Sceliodes cordalis (Doubleday) (Lepidoptera:  Pyralidae) in Eggplant|Plant Prot. Q.7(3): 100-101|1992|
159505|T||Bhalani,P.A., and G.J. Parsana|Relative Toxicity of Certain Newer Insecticides to Maruca testulalis (Geyer) Attacking Pigeonpea|Pesticides 21(4): 23-25|1987|
159506|T||Gopal,M., I. Mukherjee, N.K. Roy, S.C. Das, and B. Gope|Efficacy of Fluvalinate Against Pests of Tea and Its Residue Studies|Pesticides 21(8): 33-36|1987|
159507|T||Jursik,M., J. Andr, J. Holec, and J. Soukup|Efficacy and Selectivity of Post-Emergent Application of Flumioxazin and Oxyfluorfen in Sunflower|Plant Soil Environ.57(11): 532-539|2011|10.17221/285/2011-PSE
159508|T||Agamuthu,P., Y.K. Chan, R. Jesinger, K.M. Khoo, and W.J. Broughton|Effect of Diphenyl Ether Pre-Emergence Herbicides on Legume Cover Establishment Under Oil Palm (Elaeis guineensis Jacq.)|Agro-Ecosystems6(3): 193-208|1980|10.1016/0304-3746(80)90021-9
159509|T||Beste,C.E., and J.R. Frank|Weed Control in Newly Planted Azaleas|J. Environ. Hortic.3(1): 12-14|1985|10.24266/0738-2898-3.1.12
159510|T||Johnson,J.|The Role of Pesticides on Honey Bee Health and Hive Maintenance with an Emphasis on the Neonicotinoid, Imidacloprid|Ph.D. Thesis, University of Maryland, Baltimore, MD:187 p.|2012|
159511|T||Betts,M.|Chemical Weed Control in Lupins|Proc. N. Z. Weed Pest Control Conf.28:24-26|1975|10.30843/nzpp.1975.28.9170
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159516|T||Ramaprasad,G., S.N. Rao, and B.G. Joshi|Relative Efficacy of Synthetic Pyrethroids and Some Other Insecticides Against Spodoptera litura on Tobacco|Indian J. Plant Prot.21(2): 201-204|1993|
159517|T||Khan,S.M., and N.I. Khattak|Chemical Control of Red Pumpkin Beetle Aulacophora foveicollis (Lucas) Attacking Muskmelon Crop|Sarhad J. Agric.8(3): 363-368|1992|
159518|T||Harrington,K.C., and V.T. Fakava|Herbicide Tolerance of Garden Nasturtium (Tropaeolum majus)|Proc. N. Z. Plant Prot. Conf.46:49-52|1993|10.30843/nzpp.1993.46.11178
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159520|T||Kalra,V.K., S.S. Sharma, R. Chauhan, and J.P. Bhanot|Shift in the Level of Resistance Together with Relative Toxicity of Some Commonly Used and Important Insecticides to Diamond Back Moth, Plutella xylostella (L.) in Haryana, India|J. Entomol. Res.21(4): 351-354|1997|
159521|T||Hartley,M.J., and D.L. Loader|Weed Control in Newly Planted Raspberries|Proc. N. Z. Weed Pest Control Conf.38:244-247|1985|10.30843/nzpp.1985.38.9499
159522|T||Hartley,M.J.|Herbicide Tolerance and Weed Control in Young Nectarines|Proc. N. Z. Weed Pest Control Conf.40:140-143|1987|10.30843/nzpp.1987.40.9942
159523|T||Hartley,M.J.|Herbicide Tolerance of Young Nashi and Apples|Proc. N. Z. Weed Pest Control Conf.40:136-139|1987|10.30843/nzpp.1987.40.9941
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159525|T||Mitchell,R.B., and R.J. Abernethy|Tolerance of Clary Sage, Coriander and Caraway to Herbicides Applied Pre- and Post-Emergence|Proc. N. Z. Plant Prot. Conf.46:24-29|1993|10.30843/nzpp.1993.46.11173
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159528|T||Wilson,G.J.|Kiwifruit Seedling Tolerance to Herbicides|Proc. N. Z. Weed Pest Control Conf.33:88-91|1980|10.30843/nzpp.1980.33.10692
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159538|T||Vyas,S.C., M. Ahmed, R. Singh, and P.P. Shastry|Suppression of Soil Borne Pathogens of Soybean In Vitro and In Vivo by Herbicides|Indian Phytopathol.39(3): 395-399|1986|
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159543|T||Bayer,G.H.|Herbicide Combinations for Soy, Snap and Kidney Beans in New York|Proc. Annu. Meet. Northeast. Weed Sci. Soc.31:34-38|1977|
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159546|T||Bewick,T.A., W.M. Stall, S.R. Kostewicz, and K. Smith|Alternatives for Control of Paraquat Tolerant American Black Nightshade (Solanum americana)|Weed Technol.5(1): 61-65|1991|10.1017/S0890037X00033261
159547|T||Bhattacharya,M., B. Bhattacharya, D. Bhattacharjee, S.P. Bhattacharya, and B. Roy|Effect of Herbicides on the Growth and Yield of Chili (Capsicum annum L.)|Environ. Ecol.9(1): 47-51|1991|
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159549|T||Creager,R.A.|Chemical Control of Weeds in Container-Grown Azaleas|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:322-326|1983|
159550|T||Cudney,D.W., and S.B. Orloff|Russian Thistle, Salsola iberica, Control in Onion, Allium cepa|Weed Technol.2(3): 375-378|1988|10.1017/S0890037X00030761
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159552|T||Fadayomi,O., and G.F. Warren|Adsorption, Desorption, and Leaching of Nitrofen and Oxyfluorfen|Weed Sci.25(2): 97-100|1977|10.1017/S0043174500033038
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159560|T||Cilek,J.E., and C.F. Hallmon|Residual Effectiveness of Three Pyrethroids on Vegetation Against Adult Aedes albopictus and Culex quinquefasciatus in Screened Field Cages|J. Am. Mosq. Control Assoc.24(2): 263-269|2008|10.2987/5653.1
159561|A||Ichiyanagi,H.|Life History of the Stream-Dwelling Bug Aphelocheirus vittatus (Heteroptera: Aphelocheiridae) in Central Japan|Entomol. Sci.:603-610|2000|
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159563|T||Hata,T.Y., and A.H. Hara|Evaluation of Insecticides Against Pests of Red Ginger in Hawaii|Trop. Pest Manag.38(3): 234-236|1992|10.1080/09670879209371697
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159565|T||Zaman,M.|Effect of Four Pyrethroids on the Insect Pests of Rape|Pak. J. Agric. Res.29(3): 213-216|1986|
159566|T||Tufail,N., M.A. Saleem, and A.R. Shakoori|Toxicity of Fluvalinate (Marvik 2EC) in Adult Beetles of a Malathion Resistant and a Susceptible Strain of Tribolium castaneum|Proc. Pak. Congr. Zool.15:289-312|1995|
159567|T||M'Diaye,K., and M. Bounias|Time and Dose-Related Effects of the Pyrethroid Fluvalinate on Haemolymph Carbohydrates and Gut Lipids of Honeybees, Following In Vivo Injection of Very Low Doses|Biomed. Environ. Sci.6(2): 145-153|1993|
159568|AT||Blow,W.H.|The Cainozoic Globigerinida: A Study of the Morphology, Taxonomy, Evolutionary Relationships and the Stratigraphical Distribution of Some Globigerinida (Mainly Globigerinacea)|Leiden: Brill.:1413|1979|
159569|T||Ferrer-Dufol,M., A.I. Martinez-Vinuales, and C. Sanchez-Acedo|Comparative Tests of Fluvalinate and Flumethrin to Control Varroa jacobsoni Oudemans|J. Apic. Res.30(2): 103-106|1991|10.1080/00218839.1991.11101241
159570|AT||The Marine Biological Laboratory|UBIO- Universal Biological Indexer and Organizer Web Site|Internet Site,Taxon Index:|2009|
159571|T||Lubinevski,Y., Y. Stern, Y. Slabezki, Y. Lensky, H. Ben-Yossef, and U. Gerson|Control of Varroa jacobsoni and Tropilaelaps clareaae Mites Using Mavrik in A. mellifera Colonies Under Subtropical and Tropical Climates|Am. Bee J.128(1): 48-52|1988|
159572|T||Hanula,J.L.|Monitoring Adult Emergence, Ovary Maturation, and Control of the Black Vine Weevil (Coleoptera: Curculionidae)|J. Entomol. Sci.25(1): 134-142|1990|10.18474/0749-8004-25.1.134
159573|T||Negron,J.F., and S.R. Clarke|Scale Insect Outbreaks Associated with New Pyrethroids in a Loblolly Pine Seed Orchard|J. Entomol. Sci.30(1): 149-153|1995|10.18474/0749-8004-30.1.149
159574|T||Kyparissoudas,D.S.|Simultaneous Control of Cydia molesta and Anarsia lineatella in Peach Orchards of Northern Greece by Combining Mating Disruption and Insecticide Treatment|Entomol. Hell.7:13-16|1989|10.12681/eh.13963
159576|T||Mutinelli,F., S. Cremasco, and A. Irsara|Formic Acid in the Control of Varroatosis: a Practical Approach|Zentralbl. Veterinarmed. B41(7/8): 433-440|1994|
159577|T||Kubik,M., J. Nowacki, L. Michalczuk, A. Pidek, and J. Marcinkowski|Penetration of Fluvalinate into Bee-Products|J. Fruit Ornam. Plant Res.3(1): 13-22|1995|
159578|T||Verma,R.R., and G.M. Tripathi|Varroa jacobsoni Oudemans, an External Parasitic Mite of Apis mellifera Linn. and Its Control|Indian J. Plant Prot.23(1): 91-92|1995|
159579|T||Skerl,M.I.S., M. Nakrst, L. Zvokelj, and A. Gregorc|The Acaricidal Effect of Flumethrin, Oxalic Acid and Amitraz Against Varroa destructor in Honey Bee (Apis mellifera carnica) Colonies|Acta Vet. Brno80(1): 51-56|2011|10.2754/avb201180010051
159580|T||Cheng,H.H., and J.J. Hanlon|New Synthetic Pyrethroid Insecticides for Control of Cutworms on Flue-Cured Tobacco|Tob. Sci.34:35-38|1990|
159581|T||Mann,J.A., G.M. Tatchell, M.J. Dupuch, R. Harrington, S.J. Clark, and H.A. McCartney|Postharvest Treatments Against Western Flower Thrips (Frankliniella occidentalis (Pergande)) and Melon Thrips (Thrips palmi Karny) on Orchids|Ann. Appl. Biol.126(3): 403-415|1995|10.1111/j.1744-7348.1995.tb05375.x
159582|T||McCullough,P.E., L.B. McCarty, H. Liu, and T. Whitwell|Response of 'TifEagle' Bermudagrass (Cynodon dactylon x Cynodon transvaalensis) to Ethephon and Trinexapac-Ethyl|Weed Technol.19(2): 251-254|2005|10.1614/WT-04-230
159583|T||Huang,S.P., I.C. Resende, P.E. De Souza, and V.P. Campos|Effect of Aldicarb, Ethoprop, and Carbofuran on Control of Coffee Root-Knot Nematode, Meloidogyne exigua|J. Nematol.15(4): 510-514|1983|
159584|T||Pandian,V.|Evaluation of Nightshade (Solanum spp.) and Groundcherry Species (Physalis spp.) Response to Herbicides|M.S. Thesis, Michigan State University, East Lansing, MI:144 p.|2005|
159585|T||Pereira,W.|Yellow Nutsedge (Cyperus esculentus L.) Control with Herbicides: The Role of Tuberization |Ph.D.Thesis, Oregon State University, Corvallis, OR:176 p.|1985|
159586|T||Bing,A.|1979 Results with Postplant Preemergence Herbicide Treatments on Nursery Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.34:309-314|1980|
159587|T||Bing,A.|1980 Preemergence Weed Control in Nursery Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:235-239|1981|
159588|T||Bing,A.|Preemergence Weed Control on Nursery Liners, 1981|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:271-275|1982|
159589|T||Bing,A.|Container Weed Control Studies, 1981|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:248-252|1982|
159590|T||Bing,A.|Postplant Preemergence Weed Control on Nursery Liners, 1982|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:339-342|1983|
159591|T||Bing,A.|Weed Control on Perennials|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:352-356|1983|
159592|T||Bing,A.|Weed Control in Field Grown Pot Chrysanthemum|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:362-366|1983|
159593|T||Bovey,B.W., R.E. Meyer, M.G. Merkle, and E.C. Bashaw|Effect of Herbicides and Handweeding on Establishment of Kleingrass and Buffelgrass|J. Range Manag.39(6): 547-551|1986|10.2307/3898768
159594|T||Chism,W.J., and M.J. Snyder|Selective Herbicides for Use in Celery (Apium graveolens)|Proc. West. Soc. Weed Sci.35:60-62|1982|
159595|T||Dusky,J.A.|Herbicides for Celery, Lettuce and Carrots in the Everglades Agricultural Area|Proc. Annu. Meet. Fla. State Hortic. Soc.95:339-342|1983|
159596|T||Falk,J.S., D.E. Shoup, K. Al-Khatib, and D.E. Peterson|Protox-Resistant Common Waterhemp (Amaranthus rudis) Response to Herbicides Applied at Different Growth Stages|Weed Sci.54(4): 793-799|2006|10.1614/WS-06-020R.1
159597|T||Finckh,B.F., and K.J. Kunert|Vitamins C and E: An Antioxidative System Against Herbicide-Induced Lipid Peroxidation in Higher Plants|J. Agric. Food Chem.33(4): 574-577|1985|10.1021/jf00064a006
159598|T||Gilreath,J.P.|Weed Control in Cauliflower|Proc. Annu. Meet. Fla. State Hortic. Soc.95:342-344|1982|
159599|T||Gilreath,J.P., B.K. Harbaugh, and C.S. Lott|Chemical Weed Control in Caladiums Grown in Organic Soil|Proc. Annu. Meet. Fla. State Hortic. Soc.98:107-110|1986|
159600|T||Gilreath,J.P., and P.R. Gilreath|Chemical Weed Control in Transplanted Cabbage|Proc. Annu. Meet. Fla. State Hortic. Soc.99:339-342|1986|
159601|T||Ahrens,J.F.|Effects of Herbicides on Ground Covers and Turfgrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.41:195-199|1987|
159602|T||Ahrens,J.F.|Herbicides for Conifer Transplants|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:305-309|1983|
159603|T||Gilreath,J.P., D.A. Botts, W.M. Stall, and J.A. Dusky|Preemergence Weed Control in Row Middles of Polyethylene-Mulched Cauliflower (Brassica oleracea)|Weed Technol.3(2): 340-344|1989|10.1017/S0890037X00031912
159604|T||Ahrens,J.F.|Herbicides for Field-Grown Nursery Stock|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:282-286|1982|
159605|T||Gilreath,J.P., and B.M. Santos|Weed Management with Oxyfluorfen and Napropamide in Mulched Strawberry|Weed Technol.19(2): 325-328|2005|10.1614/WT-04-114R
159606|T||Grichar,W.J., B.A. Besler, and K.D. Brewer|Citronmelon (Citrullus lanatus var. citroides) Control in Texas Peanut (Arachis hypogaea) Using Soil-Applied Herbicides|Weed Technol.16(3): 528-531|2002|10.1614/0890-037X(2002)016[0528:CCLVCC]2.0.CO;2
159607|T||Haramaki,C., and L. Kuhns|Preemergent Herbicides on Newly Planted Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:240-244|1981|
159608|T||Haramaki,C., L. Kuhns, and A. Fine|Selected Herbicides and Combinations on Ornamental Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:266-270|1982|
159609|T||Haramaki,C., and L.J. Kuhns|Post Transplant Herbicide Applications on Selected Woody Liners|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:335-338|1983|
159610|T||Kuhns,L.J., C. Haramaki, and V.D. Thompson|Screening Herbicides for Use on Peach Seedbeds|Proc. Annu. Meet. Northeast. Weed Sci. Soc.35:186-189|1981|
159611|T||Kuhns,L.J., G. Twerdok, and C. Haramaki|Pre- and Postemergence Herbicides for Use on Conifer Seedbeds|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:310-311|1983|
159612|T||Sieczka,J.B., J.F. Creighton, and W.J. Sanok|1982 Results of Onion Weed Control Experiments on Mineral Soil - Long Island|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:174-177|1983|
159613|T||Sieczka,J.B., and J.F. Creighton|Weed Control in Transplanted Crucifers|Proc. Annu. Meet. Northeast. Weed Sci. Soc.39:134-135|1985|
159614|T||Stiles,W.C., and J.C. Civiletto|Herbicide Evaluation in Tart Cherry Orchards|Proc. Annu. Meet. Northeast. Weed Sci. Soc.37:228-230|1983|
159615|T||Teasdale,J.R., G.J. Galletta, and A.D. Draper|Blackberry Herbicide Evaluations|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:177-180|1982|
159616|T||Vitolo,D.B., R.D. Ilnicki, M.W. Beale, and P. Chitapong|Oxyfluorfen in Combination with Several Grass Herbicides in Transplanted Cole Crops|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:106-112|1984|
159617|T||Majek,B.A., J.L. Frecon, and L.A. Miller|Effectiveness and Safety of Commonly Used Residual Herbicides for Peaches|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:178-183|1984|
159618|AT||Muro,C., H. Tsujibo, Y. Inamori, M. Sumida, T. Tanaka, K. Wakabayashi, and P. Boger|Effect of Rhodanine and 2(5H)-Thiophenone in Green Algae and Liverwort Cells|J. Pestic. Sci. (Multiple Languages)22(1): 1-5|1997|10.1584/jpestics.22.1
159619|T||Lee,J.J., H. Matsumoto, and K. Ishizuka|Light Involvement in Oxyfluorfen-Induced Protoporphyrin IX Accumulation in Several Species of Intact Plants|Pestic. Biochem. Physiol.44(2): 119-125|1992|10.1016/0048-3575(92)90109-D
159620|T||Hatterman-Valenti,H.M.|A Screening of Weed Control Options During Juneberry (Amelanchier alnifolia) Establishment|Weed Technol.19(3): 623-628|2005|10.1614/WT-04-167R1.1
159621|T||Kadir,S., and K. Al-Khatib|Weed Control in Grape After Fall and Spring Application of Selected Herbicides|Weed Technol.20(1): 74-80|2006|10.1614/WT-05-053R.1
159622|T||Dalavai,B.L., O.S. Kandasamy, M. Hanumanthappa, and L. Arasumallaiah|Response of Growth, Yield and Quality Parameters of Onion to Herbicides and Their Application Techniques|Environ. Ecol.26(4B): 2145-2148|2008|
159623|T||Dalavai,B.L., O.S. Kandasamy, and M. Hanumanthappa|Evaluation of Herbicides and Their Application Techniques for Control of Weeds in Transplanted Onion (Allium cepa var cepa I.)|Environ. Ecol.26(4B): 2136-2139|2008|
159624|T||Dalavai,B.L., O.S. Kandasamy, M. Hanumanthappa, and L. Arasumallaiah|Effect of Herbicides and Their Application Techniques on Weed Flora in Onion at Coimbatore|Environ. Ecol.26(4B): 2157-2160|2008|
159625|T||Dash,S.N., S.N. Jena, A. Nayak, T. Barik, and P. Pati|Weed Management in Potato|Environ. Ecol.27(2A): 940-941|2009|
159626|T||Jain,H.C., and J.P. Tiwari|Influence of Herbicides on the Growth and Yield of Soybean (Glycine max) Under Different Spacings and Seeding Rates|Indian J. Agron.37(1): 86-89|1992|
159627|T||Zandstra,B.H., and T.F.,Jr. Wallace|Postemergence Weed Control in Onions (Allium cepa) with Air-Assisted, Flat Fan, and Rotary Nozzles|Weed Technol.3(3): 467-471|1989|10.1017/S0890037X00032589
159628|T||Qasem,J.R., and C.L. Foy|Selective Weed Control in Syrian Marjoram (Origanum syriacum) with Oxadiazon and Oxyfluorfen Herbicides|Weed Technol.20(3): 670-676|2006|10.1614/WT-04-129R1.1
159629|T||Schroeder,J.|Oxyfluorfen for Directed Postemergence Weed Control in Chile Peppers (Capsicum annuum)|Weed Technol.6(4): 1010-1014|1992|10.1017/S0890037X00036630
159630|T||West,L.D., R.C. Hildreth, M.F. Jehle, and J.T. Schlesselman|Postdirected Weed Control in California and Arizona Cotton with Oxyfluorfen|Proc. West. Soc. Weed Sci.37:183-185|1984|
159631|T||Jung,S., Y. Lee, and K. Back|A Tobacco Plastidal Transit Sequence Cannot Override the Dual Targeting Capacity of Myxococcus xanthus Protoporphyrinogen Oxidase in Transgenic Rice|Pestic. Biochem. Physiol.86(1): 49-56|2006|10.1016/j.pestbp.2005.11.010
159632|T||Khare,A.K., U.K. Vaishya, and H.C. Jain|Effect of Cultural Practices and Herbicides on Nodulation in Soybean|Geobios16(6): 272-274|1989|
159633|T||Dalavai,B.L., O.S. Kandasamy, and M. Hanumanthappa|Response of Bioassay Crops to Residual Herbicides and Their Application Techniques in Onion|Environ. Ecol.26(4B): 2169-2171|2008|
159634|T||Fischer,B.B.|Evaluation of Herbicides for Weed Control in Feijoa Orchards|Proc. West. Soc. Weed Sci.42:204-208|1989|
159635|T||Yih,R.Y., and C. Swithenbank|New Potent Diphenyl Ether Herbicides|J. Agric. Food Chem.23(3): 592-593|1975|10.1021/jf60199a062
159636|T||Singh,M., D.P.H. Tucker, and C.A. Lowery|An Evaluation of Herbicides for Weed Control in a Young Citrus Grove|Proc. Annu. Meet. Fla. State Hortic. Soc.98:14-16|1986|
159637|T||Lolas,P.C.|Control of Broomrape (Orobanche ramosa) in Tobacco (Nicotiana tabaccum)|Weed Sci.34(3): 427-430|1986|10.1017/S0043174500067126
159638|T||Yang,K., S. Jung, Y. Lee, and K. Back|Modifying Myxococcus xanthus Protoporphyrinogen Oxidase to Plant Codon Usage and High Level of Oxyfluorfen Resistance in Transgenic Rice|Pestic. Biochem. Physiol.86(3): 186-194|2006|10.1016/j.pestbp.2006.04.003
159639|T||Canevari,M., D. Colbert, R. Chavarria, and P. Verdegaal|Efficacy and Yield Comparison of Herbicides in Seedling Alfalfa in the Central Valley of California|Proc. West. Soc. Weed Sci.42:70-74|1989|
159640|T||Singh,M., and D.P.H. Tucker|Evaluation of Herbicides for Water Ring Treatments in Citrus|Proc. Annu. Meet. Fla. State Hortic. Soc.97:51-53|1985|
159641|T||Minor,M.A., T.A. Volk, and R.A. Norton|Effects of Site Preparation Techniques on Communities of Soil Mites (Acari: Oribatida, Acari: Gamasida) Under Short-Rotation Forestry Plantings in New York, USA|Appl. Soil Ecol.25(3): 181-192|2004|10.1016/j.apsoil.2003.10.002
159642|T||Vanstone,D.E., and E.H. Stobbe|Light Requirement of the Diphenylether Herbicide Oxyfluorfen|Weed Sci.27(1): 88-91|1979|10.1017/S0043174500043551
159643|T||Ha,I.J., and I.K. Yong|Resistance Mechanisms in Protoporphyrinogen Oxidase (Protox) Inhibitor-Resistant Transgenic Rice|J. Plant Biol.50(5): 586-594|2007|10.1007/BF03030713
159644|T||Kempen,H.M.|Development of Weed Management Programs for Carrots|Proc. West. Soc. Weed Sci.42:57-67|1989|
159645|T||Gitaitis,R.D., F.H. Sanders, J.C. Diaz-Perez, and R.R. Walcott|Integrated Management of Bacterial Streak and Bulb Rot of Onion|In:  6th International Conference on Pseudomonas Syringae Pathovars and Related Pathogens, Pseudomonas syringae and Related Pathogens:  Biology and Genetic, Sept. 15-19, 2002, Maratea, Italy:443-449|2003|
159646|T||Jung,H.I., Y.I. Kuk, H.Y. Kim, K. Back, D.J. Lee, S. Lee, and N.R. Burgos|Resistance Levels and Fitness of Protoporphyrinogen Oxidase (Protox) Inhibitor-Resistant Transgenic Rice in Paddy Fields|Field Crops Res.115(2): 125-131|2010|10.1016/j.fcr.2009.10.010
159647|T||Yu,C.Y., and J.B. Masiunas|Characterization of Acifluorfen Tolerance in Selected Somaclones of Eastern Black Nightshade (Solanum ptycanthum)|Weed Sci.40(3): 408-412|1992|10.1017/S0043174500051821
159650|T||Verma,S., and A.K. Dikshit|Efficacy and Persistence of Some Insecticides Against Pests of Cowpea|J. Insect Sci.3(2): 162-166|1990|
159651|T||Harris,A.R.|Comparison of Some Nematicides on Vitis vinifera cv. Sultana in Victoria, Australia|Am. J. Enol. Vitic.37(3): 224-227|1986|10.5344/ajev.1986.37.3.224
159652|T||Atkinson,J.L., L.B. McCarty, H. Liu, J. Faust, and J.E. Toler|Diamond Zoysiagrass Golf Green Response to Reduced Light Environments with the Use of Trinexapac-Ethyl|Agron. J.104(4): 847-852|2012|10.2134/agronj2011.0383
159653|T||Jung,S.|Level of Protoporphyrinogen Oxidase Activity Tightly Correlates with Photodynamic and Defense Responses in Oxyfluorfen-Treated Transgenic Rice|J. Pestic. Sci. (Multiple Languages)36(1): 16-21|2011|10.1584/jpestics.G10-46
159654|T||Catanzaro,C.J.|Resistance of Selected Ornamental Grasses to Graminicides In Vivo and In Vitro|Ph.D.Thesis, North Carolina State University, Raleigh, NC:81 p.|1992|
159655|T||Sato,Y.|Studies on the Herbicidal Mode of Action and the Bio-Activation of Peroxidizing Herbicides|J. Pestic. Sci. (Multiple Languages)24(3): 315-327|1999|10.1584/jpestics.24.315
159656|T||Choi,J.C.K.|Electrophysiological Study of Neuronal Ion Channels in Drosophila melanogaster|Ph.D. Thesis, Brandeis University, Waltham, MA:125 p.|2006|
159657|T||Gatien,P., and R.W. Currie|Timing of Acaracide Treatments for Control of Low-Level Populations of Varroa destructor (Acari: Varroidae) and Implications for Colony Performance of Honey Bees|Can. Entomol.135(5): 749-763|2003|10.4039/n02-086
159658|T||Butter,N.S., and J.S. Kular|Laboratory Evaluation of Different Insecticides for Ovicidal Action Against Helicoverpa armigera (Hub.)|J. Insect Sci.11(2): 190-191|1998|
159659|T||Amor,R.L., and P.E. Ridge|Chemical Fallow Systems for Wheat Production in the Victorian Wimmera|Plant Prot. Q.2(2): 74-78|1987|
159660|T||Balyan,R.S., R.K. Malik, R.P.S. Vedwan, and V.M. Bhan|Chemical Weed Control in Chickpea (Cicer arietinum L.)|Trop. Pest Manag.33(1): 16-18|1987|10.1080/09670878709371106
159661|T||Campbell,M.H.|Residual Effects of Oxyfluorfen on the Establishment of Surface-Sown Pasture Species|Plant Prot. Q.7(2): 46-47|1992|
159662|T||Dubey,M.P., J.P. Tiwari, and K.K. Trivedi|Herbicidal Weed Control in Soybean|Pesticides 22(7): 21-25|1988|
159663|T||El-Deeb,S.T., A.M. Ibrahim, A.T. El-Din, and M.A. Dawoud|Chemical Weed Control in Cotton with Respect to Its Effect on Fibre Properties|Meded. Fac. Landbouwwet. Univ. Gent49(3b): 1005-1017|1984|
159664|T||Ghobrial,G.I.|Weed Control in Irrigated Dry Seeded Rice|Weed Res. (Multiple Languages)21(5): 201-204|1981|10.1111/j.1365-3180.1981.tb00118.x
159665|T||Abdel-Aal,S.M., and M.S. El-Haroun|Eefficiency of Some Herbicides on Weed Control and Yield of Onion (Allium cepa, L.)|Egypt. J. Agron.15(1/2): 35-44|1990|
159666|T||Orengo-Santiago,E., N. Semidey, and L. Almodovar-Vega|Influence of Glyphosate and Paraquat Pre-Transplant Treatments on Weed Control and Peppers Yields|J. Agric. Univ. P. R.71(1): 65-73|1987|10.46429/jaupr.v71i1.6925
159667|T||Patel,C.L., Z.G. Patel, R.B. Patel, and A.G. Naik|Chemical Weed Control in Onion Bulb Crop|Indian J. Agron.31(4): 414-415|1986|
159668|T||Reddy,B.G.M., K. Krishnamurthy, and T.V.R. Prasad|Studies on Herbicidal Residues in Irrigated Drill Sown Finger Millet (Eleusine coracana Gaertn) Through Bioassay|Mysore J. Agric. Sci.24(1): 32-38|1990|
159669|T||Saha,G.P., and V.C. Srivastava|Chemical Weed Control in Pigeonpea (Cajanus cajan) + Rice (Oryza sativa) Mixed-Cropping System|Indian J. Agron.37(4): 792-794|1992|
159670|T||Salisbury,D.A., G.L. Ritenour, and E.E. Sieckert|Phytotoxicity of Foliar Applied Goal as Influenced by Precipitation Following Application|Proc. Annu. Calif. Weed Conf.31:30-38|1979|
159671|T||Selvan,C.T., K. Valliappan, and R. Sundararajan|Studies on the Weed Control Efficiency and Residues of Oxyfluorfen in Onion (Allium cepa L.)|Int. J. Trop. Agric.8(2): 123-128|1990|
159672|T||Semidey,N., E. Caraballo, and N. Acin|Broadleaf Weed Control in Peppers with Herbicides Applied Pre-Transplant|J. Agric. Univ. P. R.73(1): 67-73|1989|10.46429/jaupr.v73i1.6375
159673|T||South,D.B., and D.H. Gjerstad|Postemergence Weed Control in Loblolly, Slash, Longleaf, and Eastern White Pine Nursery Seedbeds|Can. J. For. Res.13(6): 1257-1261|1983|10.1139/x83-167
159674|T||Sun,Y., H.L. Warner, and P.G. Fitzgerald|Effect of MOR-ACT on Post-Emergence Activity and Particle Size of Oxyfluorfen Emulsion|FRI Bull.193:237-242|1996|
159675|T||Yaduraju,N.T., and K.N. Ahuja|Response of Herbicide Resistant Phalaris minor to Pre-and Post-Emergence Herbicides, Herbicide Mixtures and Adjuvants|Br. Crop Prot. Conf. Weeds1:225-230|1995|
159676|T||Yeh,H.J.|Weed Control with New Herbicide Oxyfluorfen in Sugarcane Field|Taiwan Sugar27(4): 125-129|1980|
159677|T||Frans,R.E., and T.O. Blythe|Herbicide Field Evaluation Trials on Field Crops, 1974|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.230:28 p.|1975|
159678|T||Gill,H.S., U.S. Walia, and L.S. Brar|Chemical Weed Control in Wheat (Triticum aestivum) with Particular Reference to Phalaris minor Retz. and Wild Oats (Avena ludoviciana Dur.)|Pesticides 13(12): 15-20|1979|
159679|T||Harrison,S., and L.R. Oliver|Texas Gourd, a Potentially Serious Weed Problem to Arkansas Producers|Ark. Farm Res.26(3): 7-|1977|
159680|T||Hooda,R.S.|Studies on Chemical Control of Weeds in Potato|Indian J. Agron.32(1): 111-112|1987|
159681|T||Jain,N.K., K.B. Nigam, N.R. Jamley, and U.R. Khandkar|Chemical Weed Control in Wheat|Pesticides 19(6): 14-16|1985|
159682|T||Yadav,S.K., S.P. Singh, and V.M. Bhan|Weed Control in Chickpea|Trop. Pest Manag.29(3): 297-298|1983|10.1080/09670878309370819
159684|T||Sundararajan,R., C. Tamilselvan, and K. Valliappan|Bioefficacy and Residue of Oxyfluorfen in Sugarcane (Saccharum officinarum)|Indian J. Agric. Sci.61(5): 356-358|1991|
159685|T||Torbert,J.L., and J.E. Johnson|Establishing American Sycamore Seedlings on Land Irrigated with Paper Mill Sludge|New For. 7(4): 305-317|1993|10.1007/BF00036751
159686|T||South,D.B.|Response of Loblolly Pine and Sweetgum Seedlings to Oxyfluorfen|Can. J. For. Res.14(4): 601-604|1984|10.1139/x84-109
159687|T||Singh,A., M. Singh, and D.V. Singh|The Successful Use of Intercropping for Weed Management in Medicinal Yam (Dioscorea floribunda Mart and Gal)|Trop. Pest Manag.32(2): 105-107|1986|10.1080/09670878609371040
159688|T||Rom,R.C.|Field Evaluation of Herbicides in Tree Fruits, 1976|Mimeogr. Ser. - Agric. Exp. Stn. Div. Agric. Univ. Ark. Fayettev.252:23 p.|1977|
159689|T||Nishimoto,R.K.|Oxyfluorfen Tolerance and Weed Control in Young Papaya|Int. J. Pest Manag.39(3): 366-369|1993|10.1080/09670879309371822
159691|T||Jung,S., and K. Back|Herbicidal and Antioxidant Responses of Transgenic Rice Overexpressing Myxococcus xanthus Protoporphyrinogen Oxidase|Plant Physiol. Biochem. (Amsterdam)43(5): 423-430|2005|10.1016/j.plaphy.2005.03.008
159692|T||Khokhar,U.U., V.P. Sharma, and D.R. Gautam|Effect of Chemical Weed Control of Lantana camara and Artemisia roxburghiana Perennial Weeds in Plum Orchards|Acta Hortic.696:315-321|2005|10.17660/ActaHortic.2005.696.55
159693|T||Leela,D.|Weed Control by Herbicides in Knol Khol and Radish|Trop. Pest Manag.33(3): 214-219|1987|10.1080/09670878709371153
159694|T||Montemurro,P., M. Fracchiolla, D. Guarini, and C. Lasorella|Results of a Chemical Weed Control Trial in an Oil Olive Orchard|Acta Hortic.586:397-400|2002|10.17660/ActaHortic.2002.586.80
159695|T||Mullins,C.A., and F.D. Tompkins|Evaluation of Herbicide Treatments for Weed Control in No-Till Snap Beans|Tenn. Farm Home Sci.118:23-26|1981|
159697|T||Rao,K.A.S.S.S., V. Ravuri, M.M. Luther, and K.L. Rao|Weed Management in Soybean (Glycine max)|Indian J. Agron.40(4): 711-713|1995|
159698|T||Semidey,N., and E. Caraballo|Chemical Weed Management in Onions (Allium cepa L.)|J. Agric. Univ. P. R.73(1): 59-65|1989|10.46429/jaupr.v73i1.6374
159699|T||Singh,P.P., and R. Prasad|Studies on Chemical Weed Control in Fodder Cowpea|Indian J. Agron.32(3): 280-281|1987|
159700|T||Singh,G., K.P. Singh, and U.C. Pandey|Effect of Weedicides on Weed Control and Yield in Onion|Pesticides 16(10): 9-12|1982|
159701|T||Sinha,A.C., B.B. Mandal, and P.K. Jana|Effect of Time of Sowing, Row Spacing and Weed-Control Treatments on Weeds and Grain Yield of Pigeonpea (Cajanus cajan)|Indian J. Agric. Sci.59(6): 353-358|1989|
159702|T||Smith,D.R., C.H. Gilliam, J.H. Edwards, J.W. Olive, D.J. Eakes, and J.D. Williams|Recycled Waste Paper as a Non-Chemical Alternative for Weed Control in Container Production|J. Environ. Hortic.16(2): 69-75|1998|10.24266/0738-2898-16.2.69
159704|T||Berchielli,D.L., C.H. Gilliam, and D.C. Fare|Evaluation of Preemergence Herbicides for Control of Oxalis dillenii Jacq. in a Pinebark-Amended Medium|Hortscience23(1): 170-172|1988|10.21273/HORTSCI.23.1.170
159705|T||Beste,C.E., and J.R. Frank|Sequential Herbicide Applications for Weed Control in Azaleas|Hortscience21(3): 449-451|1986|10.21273/HORTSCI.21.3.449
159706|T||Bhowmik,P.C., and E.N. McGlew|Effects of Oxyfluorfen as a Pretransplant Treatment on Weed Control and Cabbage Yield|J. Am. Soc. Hortic. Sci.111(5): 686-689|1986|10.21273/JASHS.111.5.686
159707|T||Biroli,C., S. Kodirah, and B. Croci|Oxyfluorfen - a New Versatile Selective Herbicide|Br. Crop Prot. Conf. Weeds15(1): 165-172|1980|
159708|T||Clement,C.R., R.M. Manshardt, J. DeFrank, C.G. Cavaletto, and N.Y. Nagai|Introduction of Pejibaye for Heart-of-Palm in Hawaii|Hortscience31(5): 765-768|1996|10.21273/HORTSCI.31.5.765
159709|T||Creager,R.A.|A Comparison of Oxyfluorfen and Oryzalin in Container-Grown Woody Ornamentals|Hortscience17(2): 207-209|1982|10.21273/HORTSCI.17.2.207
159710|T||Frost,P., and G. Barnes|Evaluation of New Herbicides for Management of Black Nightshade (Solanum nigrum) in Processing Tomatoes|Acta Hortic.613:201-203|2003|10.17660/ActaHortic.2003.613.30
159711|T||Ghosheh,H.Z.|Garlic (Allium sativum) Response to Weed Control Practices|Bodenkultur51(3): 157-160|2000|
159712|T||Gilreath,J.P., and B.K. Harbaugh|Use of Herbicides as Harvesting Aids for Field-Grown Caladiums|Hortscience21(2): 260-261|1986|10.21273/HORTSCI.21.2.260
159713|T||Grabowski,J.M., and H.J. Hopen|Evaluation of Oxyfluorfen Formulations for Cabbage Weed Control|J. Am. Soc. Hortic. Sci.109(4): 539-543|1984|10.21273/JASHS.109.4.539
159714|T||Gurjar,M.S., S.S. Kushwah, V.K. Jain, and H.S. Kushwaha|Effect of Different Herbicides and Cultural Practices on Growth, Yield and Economics of Soybean {Glycine max (L.) Merrill}|Agric. Sci. Dig.21(1): 13-16|2001|
159715|T||Singh,A., M. Singh, K. Singh, and D.V. Singh|Comparative Efficacy of Thiobencarb, Nitrofen and Oxyfluorfen in German Chamomile (Matricaria chamomilla L.)|Indian Perfum.33(4): 228-231|1989|
159716|T||Singhal,B.K., R.P. Bansal, and D.N. Sen|Weed Effect Exhibited by Different Herbicides in Cultivated Fields of Indian Desert|Haryana Agric. Univ. J. Res.12(3): 495-502|1982|
159717|T||Patil,R.J., D.D. Dudhade, and J.V. Patil|Integrated Weed Management in Late Sown Chickpea|Agric. Sci. Dig.22(3): 179-181|2002|
159718|T||Punzalan,F.L., and E.L. De La Cruz|Evaluation of Some Preemergence Herbicides for Weed Control in Sugarcane|Philipp. Weed Sci. Bull.4:21-26|1977|
159719|T||Wilcut,J.W., C.H. Gilliam, G.R. Wehtje, and D.C. Fare|Grass Control in Container-Grown Ornamentals with Pre- and Postemergence Herbicide Combinations|Hortscience24(3): 456-459|1989|10.21273/HORTSCI.24.3.456
159720|T||Rao,V.S., and B. Kotoky|Oxyfluorfen:  A New Preemergence Herbicide for Tea|Two Bud28(2): 40-42|1981|
159721|T||Saimbhi,M.S., K.S. Sandhu, D. Singh, K.S. Kooner, and N.P.S. Dhillon|Weed Control Studies in Peas|J. Res. Punjab Agric. Univ.29(4): 480-485|1992|
159722|T||Chaudhary,G.R.|Weed-Population Dynamics and Fennel (Foeniculum vulgare) Growth as Influenced by Integrated Weed Management|Indian J. Agron.45(2): 421-428|2000|
159723|T||Murray,R.J., R.E. Gaskin, and M.R. Grassam|Evaluation of a Novel Adjuvant for Use with Glyphosate on Perennial Ryegrass|Proc. N. Z. Plant Prot. Conf.51:162-165|1998|10.30843/nzpp.1998.51.11680
159724|T||Dubey,M.P.|Weed Management in Soybean (Glycine max)-Based Intercropping System|Indian J. Agron.43(4): 606-611|1998|
159725|T||Reddy,K.J.M., M.P. Rolston, and W.J. Archie|Phalaris and Tall Fescue Seed Production:  Volunteer Control and Herbicide Tolerance|Proc. N. Z. Plant Prot. Conf.52:214-217|1999|10.30843/nzpp.1999.52.11568
159726|T||Semidey,N.|Clomazone and Oxyfluorfen for Weed Control in Transplanted Cabbage (Brassica oleracea L.)|J. Agric. Univ. P. R.81(3/4): 203-210|1997|10.46429/jaupr.v81i3-4.3643
159727|T||Faiz,M.A.A.|Efficacy of Imazapyr and Its Mixtures Against Weeds Under Rubber|J. Rubber Res. Inst. Malays.5(1): 41-52|2002|
159728|T||Jaiswal,V.P., and S.S. Lal|Efficacy of Cultural and Chemical Weed Control Methods in Potato|J. Indian Potato Assoc.23(1/2): 20-25|1996|
159729|T||Faiz,M.A.A.|Studies on Growth of Arachis pintoi and Its Response to Herbicides|J. Rubber Res.5(3): 179-190|2002|
159730|T||Johnson,B.J.|Annual Bluegrass and Broadleaf Weed Control in Bermudagrass Turf|Annu. Rep. Ga. Agric. Exp. Stn.307:3-14|1979|
159731|T||Kaur,M., and S.S. Saini|Effect of Different Weed Control Practices on Yield and Quality of Essential Oil in Peppermint (Mentha piperita Linn.)|Indian Perfum.46(4): 343-347|2002|
159732|T||Infante,M.L., and R.D. Morse|Integration of no Tillage and Overseeded Legume Living Mulches for Transplanted Broccoli Production|Hortscience31(3): 376-380|1996|10.21273/HORTSCI.31.3.376
159733|T||Singh,M., N.C. Glaze, and S.C. Phatak|Herbicidal Response of Container-Grown Rhododendron Species|Hortscience16(2): 213-215|1981|10.21273/HORTSCI.16.2.213
159734|T||Nagy,F., D. Foldesi, J. Svab, and J. Domokos|New Results in the Chemical Weed Control of Salvia sclarea L.|Herba Hung.27(2/3): 75-79|1988|
159735|T||Kennedy,J.M., R.E. Talbert, and J.R. Morris|Weed Control in 'Concord' Grapes in Arkansas|J. Am. Soc. Hortic. Sci.104(5): 713-716|1979|10.21273/JASHS.104.5.713
159736|T||Nepalia,V., and G.L. Jain|Effect of Weed Control and Sulphur on Yield of Indian Mustard (Brassica juncea) and Their Residual Effect on Summer Greengram (Phaseolus radiatus)|Indian J. Agron.45(3): 483-488|2000|
159737|T||Singh,O.P., and S.S. Tripathi|Efficiency of Herbicides for Control of Weeds in Potato|Indian J. Weed Sci.15(2): 232-234|1983|
159739|T||Liu,L.C., M. Santiago-Cordova, and A. Gonzalez|Further Evaluation of Herbicides in Yam (Dioscorea sp.)|J. Agric. Univ. P. R.74(3): 221-228|1990|10.46429/jaupr.v74i3.6654
159740|T||Tewari,A.N., K.S. Rathi, S.K. Singh, and B. Singh|Weed Control by Herbicides in Potato (Solanum tuberosum) Intercropped with Indian Mustard (Brassica juncea)|Indian J. Agron.43(3): 407-410|1998|
159741|T||Yadav,R.P., U.K. Shrivastava, and S.C. Dwivedi|Weed Control in Indian Mustard (Brassica juncea)|Indian J. Agron.44(3): 613-616|1999|
159742|T||Yadav,R.P., K.S. Yadav, and U.K. Shrivastava|Integrated Weed Management in Blackgram (Phaseolus mungo)|Indian J. Agron.42(1): 124-126|1997|
159743|T||Severino,F.J., and P.J. Christoffoleti|Weed Supression by Smother Crops and Selective Herbicides|Sci. Agric. (Piracicaba, Braz. )61(1): 21-26|2004|10.1590/S0103-90162004000100004
159744|T||Semidey,N., and L. Almodovar|Oxyfluorfen:  A Candidate Herbicide for Weed Control in Pigeon Peas|J. Agric. Univ. P. R.71(3): 277-285|1987|10.46429/jaupr.v71i3.6968
159745|T||Hanson,G.P., H.H. Naqvi, I. Mehta, N. Elder, and C. Beaupre|Guayule - a Potential Rubber Crop for Semi-Arid Lands|In: Arid Lands Plant Resources: Proceedings of the International Arid Lands Conference on Plant Resources, Texas Tech University:195-211|1979|
159746|T||Abraham,M., and C.T. Abraham|Pre-Emergence Herbicides for Control of Mikania micrantha H.B.K.|J. Trop. Agric.40(1/2): 81-82|2002|
159747|T||Balasubramanian,K., and S. Sankaran|Influence of Herbicides and Tillage on the Quality Characters of Cotton|Indian Agric.45(3/4): 253-260|2001|
159748|T||Taib,I.M., L. Sin, and A.F. Alif|Chemical Weed Control in Legume Management|Proc. Rubber Res. Inst. Malaysia Plant. Conf.:375-391|1979|
159749|T||Teoh,C.H., and C.F. Chong|Use of Pre-Emergence Herbicides During Establishment of Leguminous Cover Crops|In: D.A.Earp and W.Newall (Eds.), International Developments in Oil Palm, Malaysian International Agricultural Oil Palm Conference, Kuala Lumpur:485-500|1977|
159750|T||Semidey,N., A. Gonzalez, and A. Aponte|Application Timing for Clomazone and Oxyfluorfen in Transplanted Cabbage|J. Agric. Univ. P. R.83(3/4): 175-180|1999|10.46429/jaupr.v83i3-4.3887
159751|T||Kothari,S.K., and K. Singh|Chemical Weed Control in Japanese Mint (Mentha arvensis L.)|J. Essent. Oil Res.6(1): 47-55|1994|10.1080/10412905.1994.9698324
159752|T||Dimeska,V., S. Stojkov, and V. Krsteska|Application of Up-to-Date and Ecologically Acceptable Herbicides for Weed Control in Tobacco Crop|Rasteniev'dni Nauki (Non-English)43(5): 468-470|2006|
159753|T||Clay,D.V.|The Response of Simazine-Resistant and Susceptible Biotypes of Chamomilla suaveolens, Epilobium ciliatum and Senecio vulgaris to Other Herbicides|Br. Crop Prot. Conf. Weeds3:925-932|1987|
159754|A||Tongbai,W., R. Boonplueng, and P. Damrongphol|Enzymatic Responses of the Riceland Prawn, Macrobrachium lanchesteri, to Chlorpyrifos Exposure|Biologia (Bratisl.)67(4): 762-766|2012|10.2478/s11756-012-0061-6
159755|A||Somnuek,C., C. Boonphakdee, V. Cheevaporn, K. Tanaka, and K. Nongnutch|Gene Expression of Cytochrome P450 1A in Hybrid Catfish (Clarias gariepinus x Clarias macrocephalus) Exposed to Chlorpyrifos or Carbaryl Insecticides|Environ. Asia5(2): 16-21|2012|
159756|A||Ozkan,F., S.G. Gunduz, M. Berkoz, A.O. Hunt, and S. Yalin|The Protective Role of Ascorbic Acid (Vitamin C) Against Chlorpyrifos-Induced Oxidative Stress in Oreochromis niloticus|Fish Physiol. Biochem.38(3): 635-643|2012|10.1007/s10695-011-9544-6
159757|A||Narra,M.R., R.R. Regatte, and R. Kodimyala|Effects of Chlorpyrifos on Enzymes as Biomarkers of Toxicity in Fresh Water Field Crab Barytelphusa guerini|Int. J. Environ. Sci.2(4): 2015-2023|2012|
159758|A||Narra,M.R., R.R. Regatte, and R. Kodimyala|Sub-Acute Toxicity Effects of Chlorpyrifos on Acetylcholinesterase Activity and Recovery in the Freshwater Field Crab Barytelphusa guerini|Int. J. Environ. Sci.3(1): 98-107|2012|
159759|A||Shoaib,N., P.J.A. Siddiqui, and H. Khalid|Toxicity of Chlorpyrifos on Some Marine Cyanobacteria Species|Pak. J. Bot.44(3): 1131-1133|2012|
159760|A||Botte,E.S., D.R. Jerry, S.C. King, C. Smith-Keune, and A.P. Negri|Effects of Chlorpyrifos on Cholinesterase Activity and Stress Markers in the Tropical Reef Fish Acanthochromis polyacanthus|Mar. Pollut. Bull.65(4-9): 384-393|2012|10.1016/j.marpolbul.2011.08.020
159762|A||Rao,P.S., N.B. Babu, and R.R. Raju|Study the Effect of Chlorpyrifos on Proteins in Fresh Water Fish Labeo rohita by Using HPLC Method|Int. J. Res. Pharm. Biomed. Sci.1(1): 1-5|2010|
159763|A||Liwag,A.G., P.P. Ocampo, and N.N. Ubaldo|Effects of Acetylcholinesterase-Inhibiting Chemicals on Nile Tilapia (Oreochromis niloticus Linn) at Pre- and Post-Hatching Stages of Development|Philipp. Entomol.23(2): 155-173|2009|
159764|A||Zafar,M.I., R.P.A. Van Wijngaarden, I. Roessink, and P.J. Van den Brink|Effects of Time-Variable Exposure Regimes of the Insecticide Chlorpyrifos on Freshwater Invertebrate Communities in Microcosms|Environ. Toxicol. Chem.30(6): 1383-1394|2011|10.1002/etc.509
159765|A||Yen,J., S. Donerly, E.D. Levin, and E.A. Linney|Differential Acetylcholinesterase Inhibition of Chlorpyrifos, Diazinon and Parathion in Larval Zebrafish|Neurotoxicol. Teratol.33(6): 735-741|2011|10.1016/j.ntt.2011.10.004
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159767|T||Yadav,A., R.K. Malik, R.S. Banga, and R.C. Hasija|Performance of Isoproturon, Atrazine, Oxyfluorfen and Diclofop Alone and in Combination Against Complex Weed Flora in Wheat|Environ. Ecol.24S(3A): 800-804|2006|
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159769|T||Fagerness,M.J., and D. Penner|14C-Trinexapac-Ethyl Absorption and Translocation in Kentucky Bluegrass|Crop Sci.38(4): 1023-1027|1998|10.2135/cropsci1998.0011183X003800040023x
159771|T||Carnegie,A.J.M.|White Grubs (Scarabaeoidea) Continue to Cause Sporadic Damage to Sugarcane in South Africa and Swaziland|Proc. S. Afr. Sugar Technol. Assoc.62:161-163|1988|
159772|T||Georgis,R., H.K. Kaya, and R. Gaugler|Effect of Steinernematid and Heterorhabditid Nematodes (Rhabditida: Steinernematidae and Herterorhabditidae) on Nontarget Arthropods|Environ. Entomol.20(3): 815-822|1991|10.1093/ee/20.3.815
159773|T||Larsen,N.A., and G.S. Nuessly|Effectiveness of Reduced Rates of Insecticides for the Control of Melanotus communis (Coleoptera: Elateridae) in Sugarcane|Fla. Entomol.92(4): 629-634|2009|10.1653/024.092.0416
159774|T||Meher,H.C., V.T. Gajbhiye, G. Singh, A. Kamra, and G. Chawla|Persistence and Nematicidal Efficacy of Carbosulfan, Cadusafos, Phorate, and Triazophos in Soil and Uptake by Chickpea and Tomato Crops Under Tropical Conditions|J. Agric. Food Chem.58(3): 1815-1822|2010|10.1021/jf903609d
159775|T||Robertson,L.N.|Soil-Insecticide Bioassays and Seed Treatments for Soil-Insect Control in Central Queensland, Australia|Crop Prot.10(4): 293-298|1991|10.1016/0261-2194(91)90008-F
159777|T||Beasley,J.S., and B.E. Branham|Trinexapac-Ethyl and Paclobutrazol Affect Kentucky Bluegrass Single-Leaf Carbon Exchange Rates and Plant Growth|Crop Sci.47(1): 132-138|2007|10.2135/cropsci2005.12.0453
159778|T||Beasley,J.S., B.E. Branham, and L. Arthur Spomer|Plant Growth Regulators Alter Kentucky Bluegrass Canopy Leaf Area and Carbon Exchange|Crop Sci.47(2): 757-766|2007|10.2135/cropsci2005.11.0432
159780|T||Kreuser,W.C., and D.J. Soldat|Frequent Trinexapac-Ethyl Applications Reduce Nitrogen Requirements of Creeping Bentgrass Golf Putting Greens|Crop Sci.52(3): 1348-1357|2012|10.2135/cropsci2011.07.0364
159781|T||Rolston,P., J. Trethewey, R. Chynoweth, and B. McCloy|Trinexapac-Ethyl Delays Lodging and Increases Seed Yield in Perennial Ryegrass Seed Crops|N. Z. J. Agric. Res.53(4): 403-406|2010|10.1080/00288233.2010.512625
159782|T||Severmutlu,S., N. Mutlu, E. Gurbuz, R.C. Shearman, and T.P. Riordan|Effects of Seasonal Trinexapac-Ethyl Application on Warm-Season Turfgrass Species Growth Under Mediterranean Environment|Eur. J. Hortic. Sci.77(6): 279-287|2012|
159783|A||Palanisami,S., D. Prabaharan, and L. Uma|Fate of Few Pesticide-Metabolizing Enzymes in the Marine Cyanobacterium Phormidium valderianum BDU 20041 in Perspective with Chlorpyrifos Exposure|Pestic. Biochem. Physiol.94(2/3): 68-72|2006|
159784|A||Xing,H., S. Li, Z. Wang, X. Gao, S. Xu, and X. Wang|Oxidative Stress Response and Histopathological Changes Due to Atrazine and Chlorpyrifos Exposure in Common Carp|Pestic. Biochem. Physiol.103(1): 74-80|2012|10.1016/j.pestbp.2012.03.007
159785|A||Xing,H., X. Wang, G. Sun, X. Gao, S. Xu, and X. Wang|Effects of Atrazine and Chlorpyrifos on Activity and Transcription of Glutathione S-Transferase in Common Carp (Cyprinus carpio L.)|Environ. Toxicol. Pharmacol.33(2): 233-244|2012|10.1016/j.etap.2011.12.014
159786|A||Wijesinghe,M.R., M.G.D.K. Bandara, W.D. Ratnasooriya, and G.P. Lakraj|Chlorpyrifos-Induced Toxicity in Duttaphrynus melanostictus (Schneider 1799) Larvae|Arch. Environ. Contam. Toxicol.60(4): 690-696|2011|10.1007/s00244-010-9577-3
159787|A||Wang,C., G. Lu, and J. Cui|Responses of AChE and GST Activities to Insecticide Coexposure in Carassius auratus|Environ. Toxicol.27(1): 50-57|2012|10.1002/tox.20612
159788|A||Tripathi,G., and J. Shasmal|Concentration Related Responses of Chlorpyriphos in Antioxidant, Anaerobic and Protein Synthesizing Machinery of the Freshwater Fish, Heteropneustes fossilis|Pestic. Biochem. Physiol.99(3): 215-220|2011|10.1016/j.pestbp.2010.12.006
159789|A||Tripathi,G., and J. Shasmal|Reparation of Chlorpyrifos-Induced Impairment by Thyroxine and Vitamin C in Fish|Ecotoxicol. Environ. Saf.73(6): 1397-1401|2010|10.1016/j.ecoenv.2010.07.022
159790|A||Tongbai,W., and P. Damrongphol|Bioactivation of Chlorpyrifos in the Riceland Prawn, Macrobrachium lanchesteri|J. Biol. Sci. (Faisalabad)11(3): 275-281|2011|10.3923/jbs.2011.275.281
159791|A||Tilton,F.A., T.K. Bammler, and E.P. Gallagher|Swimming Impairment and Acetylcholinesterase Inhibition in Zebrafish Exposed to Copper or Chlorpyrifos Separately, or as Mixtures|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(1): 9-16|2011|10.1016/j.cbpc.2010.07.008
159792|A||Thengodkar,R.R.M., and S. Sivakami|Degradation of Chlorpyrifos by an Alkaline Phosphatase from the Cyanobacterium Spirulina platensis|Biodegradation (Dordr.)21(4): 637-644|2010|10.1007/s10532-010-9331-6
159793|T||Wang,X.Y., T.M. Hu, Q.Z. Wang, L.M. Tian, X.L. Zhang, and K. Tian|Growth of Kentucky Bluegrass as Influenced by Nitrogen and Trinexapac-Ethyl|Agric. Sci. China8(12): 1498-1502|2009|10.1016/S1671-2927(08)60364-8
159794|T||Arghavani,M., M. Kafi, M. Babalar, R. Naderi, M.A. Hoque, and Y. Murata|Improvement of Salt Tolerance in Kentucky Bluegrass by Trinexapac-Ethyl|Hortscience47(8): 1163-1170|2012|10.21273/HORTSCI.47.8.1163
159795|T||Baldwin,C.M., H. Liu, L.B. McCarty, H. Luo, and J.E. Toler|Nitrogen and Plant Growth Regulator Influence on 'Champion' Bermudagrass Putting Green Under Reduced Sunlight|Agron. J.101(1): 75-81|2009|10.2134/agronj2008.0004x
159796|T||Evans,L.T., and C. Blundell|The Acceleration of Primordium Initiation as a Component of Floral Evocation in Lolium temulentum L.|Aust. J. Plant Physiol.23(5): 569-576|1996|
159797|T||Brosnan,J.T., G.K. Breeden, G.R. Armel, and J.J. Vargas|Common Bermudagrass Seedhead Suppression and Growth Regulation with Fenoxaprop|Weed Technol.25(3): 404-410|2011|10.1614/WT-D-10-00123.1
159798|T||Brosnan,J.T., A.W. Thoms, G.K. Breeden, and J.C. Sorochan|Effects of Various Plant Growth Regulators on the Traffic Tolerance of 'Riviera' Bermudagrass (Cynodon dactylon L.)|Hortscience45(6): 966-970|2010|10.21273/HORTSCI.45.6.966
159799|T||Volterrani,M., S. Magni, M. Gaetani, and F. Lulli|Trinexapac-Ethyl Effects on Stolon Activity and Node Vitality of 'Tifway' Hybrid Bermudagrass|HortTechnology22(4): 479-483|2012|10.21273/HORTTECH.22.4.479
159800|T||Deaton,M.T., and D.W. Williams|Overseeding and Trinexapac-Ethyl Effects on Tolerance to Simulated Traffic of Four Bermudagrass Cultivars Grown as a Sand-Based Athletic Field|HortTechnology20(4): 724-729|2010|10.21273/HORTTECH.20.4.724
159801|T||Wolf,C., M. Riffel, G. Weyman, M. Douglas, and S. Norman|Telemetry-Based Field Studies for Assessment of Acute and Short-Term Risk to Birds from Spray Applications of Chlorpyrifos|Environ. Toxicol. Chem.29(8): 1795-1803|2010|10.1002/etc.227
159802|A||Sledge,D., J. Yen, T. Morton, L. Dishaw, A. Petro, S. Donerly, E. Linney, and E.D. Levin|Critical Duration of Exposure for Developmental Chlorpyrifos-Induced Neurobehavioral Toxicity|Neurotoxicol. Teratol.33(6): 742-751|2011|10.1016/j.ntt.2011.06.005
159803|A||Sharbidre,A.A., V. Metkari, and P. Patode|Effect of Methyl Parathion and Chlorpyrifos on Certain Biomarkers in Various Tissues of Guppy Fish, Poecilia reticulata|Pestic. Biochem. Physiol.101(2): 132-141|2011|10.1016/j.pestbp.2011.09.002
159804|A||Rubach,M.N., S.J.H. Crum, and P.J. Van den Brink|Variability in the Dynamics of Mortality and Immobility Responses of Freshwater Arthropods Exposed to Chlorpyrifos|Arch. Environ. Contam. Toxicol.60(4): 708-721|2011|10.1007/s00244-010-9582-6
159805|A||Rubach,M.N., R. Ashauer, S.J. Maund, D.J. Baird, D.J. Baird, and P.J. Van den Brink|Toxicokinetic Variation in 15 Freshwater Arthropod Species Exposed to the Insecticide Chlorpyrifos|Environ. Toxicol. Chem.29(10): 2225-2234|2010|10.1002/etc.273
159806|T||Ruan,Q.L., J.J. Ju, Y.H. Li, X.B. Li, R. Liu, G.Y. Liang, J. Zhang, Y.P. Pu, D.Y. Wang, and L.H. Yin|Chlorpyrifos Exposure Reduces Reproductive Capacity Owing to a Damaging Effect on Gametogenesis in the Nematode Caenorhabditis elegans|J. Appl. Toxicol.32(7): 527-535|2012|10.1002/jat.1783
159807|A||Robles-Mendoza,C., S.R. Zuniga-Lagunes, C.A.P. De Leon-Hill, J. Hernandez-Soto, and C. Vanegas-Perez|Esterases Activity in the Axolotl Ambystoma mexicanum Exposed to Chlorpyrifos and Its Implication to Motor Activity|Aquat. Toxicol.105(3/4): 728-734|2011|10.1016/j.aquatox.2011.09.001
159808|T||Blundell,C., L.T. Evans, R.W. King, L.N. Mander, and J.T. Wood|Modified Gibberellins Retard Growth of Cool-Season Turfgrasses|Crop Sci.37(6): 1878-1883|1997|10.2135/cropsci1997.0011183X003700060036x
159809|T||Nangle,E.J., D.S. Gardner, J.D. Metzger, J.R. Street, and T.K. Danneberger|Impact of Nitrogen Source and Trinexapac-Ethyl Application on Creeping Bentgrass (Agrostis stolonifera L.) Physiology Under Neutral Shade, Deciduous Tree Shade, and Full Sunlit Conditions|Hortscience47(7): 936-942|2012|10.21273/HORTSCI.47.7.936
159810|T||Alvarez,R.C.F., C.A.C. Crusciol, A.S. Nascente, J.D. Rodrigues, and G. Habermann|Gas Exchange Rates, Plant Height, Yield Components, and Productivity of Upland Rice as Affected by Plant Regulators|Pesqui. Agropecu. Bras. (Multiple Languages)47(10): 1455-1461|2012|10.1590/S0100-204X2012001000007
159811|T||Baldwin,C.M., H. Liu, L.B. McCarty, H. Luo, and J.E. Toler|'L-93' Creeping Bentgrass Putting Green Responses to Various Winter Light Intensities in the Southern Transition Zone|Hortscience44(6): 1751-1756|2009|10.21273/HORTSCI.44.6.1751
159812|T||Bian,X., E. Merewitz, and B. Huang|Effects of Trinexapac-Ethyl on Drought Responses in Creeping Bentgrass Associated with Water Use and Osmotic Adjustment|J. Am. Soc. Hortic. Sci.134(5): 505-510|2009|10.21273/JASHS.134.5.505
159813|T||Caldas,L.S., L.L. Machado, S.C. Caldas, M.L. Campos, J.A. Caldas, R.P. Pharis, and A.B. Pereira-Netto|"Growth-Active Gibberellins Overcome the Very Slow Shoot Growth of Hancornia speciosa, an Important Fruit Tree from the Brazilian ""Cerrado"""|Trees23(6): 1229-1235|2009|10.1007/s00468-009-0361-9
159814|T||Ervin,E.H., and C. Ok|Influence of Plant Growth Regulators on Suppression and Quality of 'Meyer' Zoysiagrass|J. Environ. Hortic.19(2): 57-60|2001|10.24266/0738-2898-19.2.57
159815|T||Fan,G., X. Bian, H. Li, Z. Meng, and S. Liu|Growth Responses of Kentucky Bluegrass (Poa pratensis L.) to Trinexapac-Ethyl Applied in Spring and Autumn|Front. Agric. China3(2): 186-189|2009|10.1007/s11703-009-0038-6
159816|T||Hare,M.D., A. Lunpha, and S. Phengphet|Effect of Foliar Applications of Trinexapac-Ethyl Plant Growth Regulator on Seed Yield in Brachiaria Hybrid cv. Mulato II and Paspalum atratum|Trop. Grassl.42(3): 181-187|2008|
159817|T||Hixson,A.C., T.W. Gannon, and F.H. Yelverton|Efficacy of Application Placement Equipment for Tall Fescue (Lolium arundinaceum) Growth and Seedhead Suppression|Weed Technol.21(3): 801-806|2007|10.1614/WT-06-108.1
159818|T||Honma,T.|An Approach for the Conquest of the Sugi pollinosis Using Plant Growth Regulation|Biol. Sci. Space17(1): 48-50|2003|10.2187/bss.17.48
159819|T||King,R.W., L.N. Mander, T. Asp, C.P. MacMillan, C.A. Blundell, and L.T. Evans|Selective Deactivation of Gibberellins Below the Shoot Apex is Critical to Flowering but not to Stem Elongation of Lolium|Mol. Plant1(2): 295-307|2008|10.1093/mp/ssm030
159820|T||Chen,C.M.|The Geographic Distribution, Genetic Structure and Cultural Management of Waitea circinata var. circinata, the Causal Agent of Brown Ring Patch Isolated from Turf Grass in the U.S.|Ph.D Thesis, University of California, Riverside, CA:123 p.|2011|
159821|T||McDonald,S., D. Settle, L. Stowell, C.M. Chen, and F. Wong|Chemical Control of Brown Ring Patch. Results from Three Trial Locations Show that Some Fungicides on the Market Provide Control of Brown Ring Patch Disease|Golf Course Manag.77(8): 82-88|2009|
159822|T||Atkinson,J.L.|Response of Warm Season Turfgrasses to Reduced Light Environments|M.S. Thesis, Clemson University, Clemson, SC:94 p.|2010|
159824|A||Oruc,E.|Oxidative Stress Responses and Recovery Patterns in the Liver of Oreochromis niloticus Exposed to Chlorpyrifos-Ethyl|Bull. Environ. Contam. Toxicol.88(5): 678-684|2012|10.1007/s00128-012-0548-4
159825|A||Mugni,H., P. Demetrio, A. Paracampo, M. Pardi, G. Bulus, and C. Bonetto|Toxicity Persistence in Runoff Water and Soil in Experimental Soybean Plots Following Chlorpyrifos Application|Bull. Environ. Contam. Toxicol.89(1): 208-212|2012|10.1007/s00128-012-0643-6
159826|A||Mugni,H., P. Demetrio, D. Marino, A. Ronco, and C. Bonetto|Toxicity Persistence Following an Experimental Cypermethrin and Chlorpyrifos Application in Pampasic Surface Waters (Buenos Aires, Argentina)|Bull. Environ. Contam. Toxicol.84(5): 524-528|2010|10.1007/s00128-010-9986-z
159827|A||Malla,F.A., G. Sharma, and S. Singh|Chlorpyrifos Pesticide Toxicity on Erythrocyte Sedimentation Rate in Fish, Channa punctatus (Bloch)|Biol. Med.1(2): 54-55|2009|
159828|A||Langer-Jaesrich,M., C. Kienle, H.R. Kohler, and A. Gerhardt|Impairment of Trophic Interactions Between Zebrafish (Danio rerio) and Midge Larvae (Chironomus riparius) by Chlorpyrifos|Ecotoxicology19(7): 1294-1301|2010|10.1007/s10646-010-0516-x
159829|A||Jayawardena,U.A., R.S. Rajakaruna, A.N. Navaratne, and P.H. Amerasinghe|Toxicity of Agrochemicals to Common Hourglass Tree Frog (Polypedates cruciger) in Acute and Chronic Exposure|Int. J. Agric. Biol.12(5): 641-648|2010|
159830|A||Huynh,H.P.V., and D. Nugegoda|Effects of Chlorpyrifos Exposure on Growth and Food Utilization in Australian Catfish, Tandanus tandanus|Bull. Environ. Contam. Toxicol.88(1): 25-29|2012|10.1007/s00128-011-0431-8
159831|T||McCullough,P.E., H. Liu, and L.B. McCarty|Mowing Operations Influence Creeping Bentgrass Putting Green Ball Roll Following Plant Growth Regulator Applications|Hortscience40(2): 471-474|2005|10.21273/HORTSCI.40.2.471
159832|T||McCullough,P.E., S.E. Hart, and D.W. Lycan|Plant Growth Regulator Regimens Reduce Poa annua Populations in Creeping Bentgrass|Appl. Turfgrass Sci.:6 p.|2005|
159833|T||McCullough,P.E., H. Liu, L.B. McCarty, and J.E. Toler|Ethephon and Trinexapac-Ethyl Influence Creeping Bentgrass Growth, Quality, and Putting Green Performance|Appl. Turfgrass Sci.:7 p.|2006|
159834|T||McCullough,P.E., and S.E. Hart|Creeping Bentgrass (Agrostis stolonifera) Putting Green Tolerance to Bispyribac-Sodium|Weed Technol.23(3): 425-430|2009|10.1614/WT-09-005.1
159835|T||McCullough,P.E., and S.E. Hart|Trinexapac-Ethyl Influences Bispyribac-Sodium Absorption and Efficacy for Annual Bluegrass (Poa annua) Control in Creeping Bentgrass (Agrostis stolonifera)|Weed Technol.24(3): 326-331|2010|10.1614/WT-08-015.1
159836|T||Mccalla,J.,Jr., M. Richardson, D. Karcher, J. Landreth, and A. Patton|Sod Production Utilizing an Improved Seeded Bermudagrass Cultivar|Appl. Turfgrass Sci.:9 p.|2008|
159837|T||McCullough,P.E., W. Nutt, T.R. Murphy, and P. Raymer|Seashore Paspalum Seedhead Control and Growth Regulation with Flazasulfuron and Trinexapac-Ethyl|Weed Technol.25(1): 64-69|2011|10.1614/WT-D-10-00009.1
159838|T||McCann,S.E., and B. Huang|Drought Responses of Kentucky Bluegrass and Creeping Bentgrass as Affected by Abscisic Acid and Trinexapac-Ethyl|J. Am. Soc. Hortic. Sci.133(1): 20-26|2008|10.21273/JASHS.133.1.20
159839|T||Na,C.I., M. Hamayun, A.L. Khan, Y.H. Kim, K.I. Choi, S.M. Kang, S.I. Kim, J.T. Kim, J.G. Won, and I.J. Lee|Influence of Prohexadione-Calcium, Trinexapac-Ethyl and Hexaconazole on Lodging Characteristic and Gibberellin Biosynthesis of Rice (Oryza sativa L.)|Afr. J. Biotechnol.10(61): 13097-13106|2011|
159840|T||Ok,C.H., J.T.,Jr. Popko, K. Campbell-Nelson, and G. Jung|In Vitro Assessment of Sclerotinia homoeocarpa Resistance to Fungicides and Plant Growth Regulators|Plant Dis.95(1): 51-56|2011|10.1094/PDIS-02-10-0098
159841|T||Putman,A.I., and J.E. Kaminski|Mowing Frequency and Plant Growth Regulator Effects on Dollar Spot Severity and on Duration of Dollar Spot Control by Fungicides|Plant Dis.95(11): 1433-1442|2011|10.1094/PDIS-04-11-0278
159842|T||Qian,Y.L., and M.C. Engelke|Zoysiagrass in Shade: Influence of Trinexapac-Ethyl|Turf Grass Trends.8(1): 12-14|1999|
159843|T||Roohollahi,I., M. Kafi, and R. Naderi|Drought Reaction and Rooting Characteristics in Response to Plant Growth Regulators on Poa pratensis cv. Barimpala|J. Food Agric. Environ.8(1): 285-288|2010|
159844|T||Wherley,B., and T.R. Sinclair|Growth and Evapotranspiration Response of Two Turfgrass Species to Nitrogen and Trinexapac-Ethyl|Hortscience44(7): 2053-2057|2009|10.21273/HORTSCI.44.7.2053
159845|T||Williams,D.W., P.B. Burrus, and K.L. Cropper|Seeded Bermudagrass Tolerance to Simulated Athletic Field Traffic as Affected by Cultivars and Trinexapac-Ethyl|HortTechnology20(3): 533-538|2010|10.21273/HORTTECH.20.3.533
159846|T||Xu,Y., and B. Huang|Responses of Creeping Bentgrass to Trinexapac-Ethyl and Biostimulants Under Summer Stress|Hortscience45(1): 125-131|2010|10.21273/HORTSCI.45.1.125
159847|T||Heckman,N.L., G.L. Horst, R.E. Gaussoin, and L.J. Young|Heat Tolerance of Kentucky Bluegrass as Affected by Trinexapac-Ethyl|Hortscience36(2): 365-367|2001|10.21273/HORTSCI.36.2.365
159848|T||Ervin,E.H., and A.J. Koski|Trinexapac-Ethyl Increases Kentucky Bluegrass Leaf Cell Density and Chlorophyll Concentration|Hortscience36(4): 787-789|2001|10.21273/HORTSCI.36.4.787
159849|T||Fagerness,M.J., and D. Penner|Evaluation of V-10029 and Trinexapac-Ethyl for Annual Bluegrass Seedhead Suppression and Growth Regulation of Five Cool-Season Turfgrass Species|Weed Technol.12(3): 436-440|1998|10.1017/S0890037X00044109
159850|T||Rolston,M.P., W.J. Archie, and W. Rumball|Branched Inflorescence Perennial Ryegrass (Lolium perenne L.)-Seed Yield Evaluated in Field Trials and Response to Nitrogen and Trinexapac-Ethyl Plant Growth Regulator|N. Z. J. Agric. Res.48(1): 87-92|2005|10.1080/00288233.2005.9513635
159851|T||Johnson,B.J.|Response of Bermudagrass (Cynodon spp.) to CGA 163935|Weed Technol.6(3): 577-582|1992|10.1017/S0890037X0003582X
159852|T||Keever,G.J., and J.W. Olive|Effects of Primo on Selected Bedding and Woody Landscape Plants|J. Environ. Hortic.16(1): 11-14|1998|10.24266/0738-2898-16.1.11
159853|T||Xu,C., and B. Huang|Proteins and Metabolites Regulated by Trinexapac-Ethyl in Relation to Drought Tolerance in Kentucky Bluegrass|J. Plant Growth Regul.31(1): 25-37|2012|10.1007/s00344-011-9216-x
159854|T||Rajala,A., P. Peltonen-Sainio, M. Onnela, and M. Jackson|Effects of Applying Stem-Shortening Plant Growth Regulators to Leaves on Root Elongation by Seedlings of Wheat, Oat and Barley: Mediation by Ethylene|Plant Growth Regul.38(1): 51-59|2002|10.1023/A:1020924307455
159855|T||Kreuser,W.C., and D.J. Soldat|A Growing Degree Day Model to Schedule Trinexapac-Ethyl Applications on Agrostis stolonifera Golf Putting Greens|Crop Sci.51(5): 2228-2236|2011|10.2135/cropsci2011.01.0034
159856|T||Roohollahi,I., and M. Kafi|Salinity and Trinexapac-Ethyl Effects on Seed Reserve Utilization and Seedling Growth of Two Lolium perenne Cultivars|Hortic. Environ. Biotechnol.51(2): 78-82|2010|
159857|T||Han,S., T.W. Fermanian, J.A. Juvik, and L.A. Spomer|Total Nonstructural Carbohydrate Storage in Creeping Bentgrass Treated with Trinexapac-Ethyl|Hortscience39(6): 1461-1464|2004|10.21273/HORTSCI.39.6.1461
159858|T||Tan,Z.G., and Y.L. Qian|Light Intensity Affects Gibberellic Acid Content in Kentucky Bluegrass|Hortscience38(1): 113-116|2003|10.21273/HORTSCI.38.1.113
159859|T||McCarty,L.B., J.S. Weinbrecht, J.E. Toler, and G.L. Miller|St. Augustinegrass Response to Plant Growth Retardants|Crop Sci.44(4): 1323-1329|2004|10.2135/cropsci2004.1323
159860|T||Zapiola,M.L., T.G. Chastain, C.J. Garbacik, T.B. Silberstein, and W.C. Young III|Trinexapac-Ethyl and Open-Field Burning Maximize Seed Yield in Creeping Red Fescue|Agron. J.98(6): 1427-1434|2006|10.2134/agronj2005.0223
159861|A||Eddins,D., D. Cerutti, P. Williams, E. Linney, and E.D. Levin|Zebrafish Provide a Sensitive Model of Persisting Neurobehavioral Effects of Developmental Chlorpyrifos Exposure: Comparison with Nicotine and Pilocarpine Effects and Relationship to Dopamine Deficits|Neurotoxicol. Teratol.32(1): 99-108|2010|10.1016/j.ntt.2009.02.005
159862|A||Eamkamon,T., S. Klinbunga, K. Thirakhupt, P. Menasveta, and N. Puanglarp|Acute Toxicity and Neurotoxicity of Chlorpyrifos in Black Tiger Shrimp, Penaeus monodon|Environ. Asia5(1): 26-31|2012|
159863|A||Dondero,F., M. Banni, A. Negri, L. Boatti, A. Dagnino, and A. Viarengo|Interactions of a Pesticide/Heavy Metal Mixture in Marine Bivalves:  A Transcriptomic Assessment|BMC Genomics12(195): 17 p.|2011|
159864|A||Demetrio,P.M., G.D.B. Rossini, C.A. Bonetto, and A.E. Ronco|Effects of Pesticide Formulations and Active Ingredients on the Coelenterate Hydra attenuata (Pallas, 1766)|Bull. Environ. Contam. Toxicol.88(1): 15-19|2012|10.1007/s00128-011-0463-0
159865|A||Canesi,L., A. Negri, C. Barmo, M. Banni, G. Gallo, A. Viarengo, and F. Dondero|The Organophosphate Chlorpyrifos Interferes with the Responses to 17beta-Estradiol in the Digestive Gland of the Marine Mussel Mytilus galloprovincialis|PLoS One6(5): 1-9|2011|10.1371/journal.pone.0019803
159866|A||Buono,S., S. Manzo, G. Maria, and G. Sansone|Toxic Effects of Pentachlorophenol, Azinphos-Methyl and Chlorpyrifos on the Development of Paracentrotus lividus Embryos|Ecotoxicology21(3): 688-697|2012|10.1007/s10646-011-0827-6
159867|A||Bernabo,I., E. Sperone, S. Tripepi, and E. Brunelli|Toxicity of Chlorpyrifos to Larval Rana dalmatina:  Acute and Chronic Effects on Survival, Development, Growth and Gill Apparatus|Arch. Environ. Contam. Toxicol.61(4): 704-718|2011|10.1007/s00244-011-9655-1
159868|A||Amanullah,B., A. Stalin, P. Prabu, and S. Dhanapal|Analysis of AchE and LDH in Mollusc, Lamellidens marginalis After Exposure to Chlorpyrifos|J. Environ. Biol.31(4): 417-419|2010|
159869|A||Yonar,M.E., S.M. Yonar, M.S. Ural, S. Silici, and M. Dusukcan|Protective Role of Propolis in Chlorpyrifos-Induced Changes in the Haematological Parameters and the Oxidative/Antioxidative Status of Cyprinus carpio carpio|Food Chem. Toxicol.50(8): 2703-2708|2012|10.1016/j.fct.2012.05.032
159870|A||Vijayakumar,M., K. Veeraiah, D.K. Rao, and N.G. Rao|Effect of Chlorpyrifos on Oxygen Consumption and Histopathological Changes of Indian Major Carps|J. Ecotoxicol. Environ. Monit.19(5): 423-432|2009|
159871|A||Dimitrie,D.A.|The Effects of Two Insecticides on California Anurans (Rana sierrae and Pseudacris sierra) and the Implications for Declining Amphibian Populations|M.S.Thesis, Southern Illinois University, Carbondale, IL:101 p.|2010|
159872|A||Yen,J.H.|Organophosphorus Pesticide Exposure Effects on Neurobehavioral Development of Zebrafish and Characterization of Developmental Switch Between Two Cation-Chloride Cotransporters (Zfnkcc1 and Zfkcc2)|Ph.D. Thesis, Duke University, NC:166 p.|2012|
159874|T||Lowe,D.B., and T. Whitwell|Plant Growth Regulators Alter the Growth of 'Tifway' Bermudagrass (Cynodon transvaalensis x C. dactylon) and Selected Turfgrass Weeds|Weed Technol.13(1): 132-138|1999|10.1017/S0890037X00045036
159875|T||Johnson,B.J.|Response of Centipedegrass (Eremochloa ophiuroides) to Plant Growth Regulators|Weed Technol.6(1): 113-118|1992|10.1017/S0890037X00034394
159876|T||Han,S.W., T.W. Fermanian, J.A. Juvik, and L.A. Spomer|Growth Retardant Effects on Visual Quality and Nonstructural Carbohydrates of Creeping Bentgrass|Hortscience33(7): 1197-1199|1998|10.21273/HORTSCI.33.7.1197
159877|T||Fagerness,M.J., F.H. Yelverton, J. Isgrigg III, and R.J. Cooper|Plant Growth Regulators and Mowing Height Affect Ball Roll and Quality of Creeping Bentgrass Putting Greens|Hortscience35(4): 755-759|2000|10.21273/HORTSCI.35.4.755
159878|T||Heckman,N.L., G.L. Horst, R.E. Gaussoin, and B.T. Tavener|Trinexapac-Ethyl Influence on Cell Membrane Thermostability of Kentucky Bluegrass Leaf Tissue|Sci. Hortic.92(2): 183-186|2002|10.1016/S0304-4238(01)00283-7
159879|T||Pessarakli,M., K.B. Marcum, and D.M. Kopec|Interactive Effects of Salinity and Primo on the Growth of Kentucky Bluegrass|J. Food Agric. Environ.4(1): 325-327|2006|
159880|T||Syhre,M., G. Hanschmann, and R. Heber|Problems in Analyzing Trinexapac-Ethyl - a New Plant Growth Regulator|J. Agric. Food Chem.45(1): 178-179|1997|10.1021/jf960504+
159881|T||Spinelli,F., G. Costa, J.L. Vanneste, D.A. Cornish, and J. Yu|Growth-Regulating Acylcyclohexanediones, Trinexapac-Ethyl and Prohexadione-Calcium Decrease Blossom Blight Incidence in Pome Fruits|Acta Hortic.704:245-248|2006|10.17660/ActaHortic.2006.704.33
159882|A||Li,C.J., Y. Luo, J.W. Yang, L. Chen, and Q.F. Jiang|Study on the Toxicity Effect of Abamectin and Chlorpyrifos on Grass Carp (Ctenopharyngodon idllus)|Plant Dis. Pests2(1): 67-70|2011|
159883|T||Zhou,S., C. Duan, W.H.G. Michelle, F. Yang, and X. Wang|Individual and Combined Toxic Effects of Cypermethrin and Chlorpyrifos on Earthworm|J. Environ. Sci.23(4): 676-680|2011|10.1016/S1001-0742(10)60462-7
159884|T||Li,S., M. Ye, D. Liu, and S. Li|Effects of Paclobutrazol and Krenite on Photosynthesis and Distribution of 14C-Assimilates of Satsuma Mandarin|In: B.Huang and Q.Yang (Eds.), Proceedings of the International Citrus Symposium, Guangzhou, China, International Academic Publishers, Beijing:338-342|1991|
159885|T||Coupland,D., and D.V. Peabody|Effect of Four Foliage-Applied Herbicides on Field Horsetail (Equisetum arvense)|Weed Sci.29(1): 113-119|1981|10.1017/S0043174500025959
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159887|T||Marrs,R.H.|The Use of Krenite to Control Birch on Lowland Heaths|Biol. Conserv.32(2): 149-164|1985|10.1016/0006-3207(85)90083-7
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159889|T||Yeiser,J.L.|Screening Krovar IDF, R6447 (Azafenidin) and Krenite S for Wilding Pine Control|Proc. South. Weed Sci. Soc.53:133-137|2000|
159890|T||Frank,J.R., J.A. King, P.C. Goetz, and W.E. Tozer|Greenhouse Evaluation of the Response of Ash and Maple to Growth Inhibitors|Hortscience13(4): 434-436|1978|10.21273/HORTSCI.13.4.434
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159892|T||Gonzalez,F.E.|"""Krenite"" - Brush Control Agent, a New Concept for Brush Control"|Proc. North Cent. Weed Control Conf.30:89-91|1975|
159893|T||McLemore,B.F.|Survival of Loblolly Pine Seedlings Planted on Areas Fall-Sprayed with Soil-Active Herbicides|Tree Plant. Notes39(2): 10-12|1988|
159894|T||Barring,U.|Results of Country-Wide Experiments in Forestry|Weeds Weed Control23:270-276|1982|
159895|T||Campion,J.G.|Fosamine - a New Brush Control Agent|Proc. Conf. Counc. Aust. Weed Sci. Soc.1:57-63|1978|
159896|T||Ervin,E.H., and X. Zhang|Influence of Sequential Trinexapac-Ethyl Applications on Cytokinin Content in Creeping Bentgrass, Kentucky Bluegrass, and Hybrid Bermudagrass|Crop Sci.47(5): 2145-2151|2007|10.2135/cropsci2007.01.0056
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159898|T||Wills,G.D., D.H. Poston, E.J. Jones, B.W. Alford, and R.E. Mack|Effect of the Harvest Aids, Def 6, Prep, Dropp SC, XP 2006A, Cotton Quick, Finish Pro and Resource on Cotton Defoliation, Boll Opening, and Regrowth|Proc. Beltwide Cotton Conf.:472-474|2007|
159899|T||Eyherabide,J.J.|Evaluation of Flumiclorac-Pentyl in Mixtures with Low Doses of Post-Emergence Herbicides for Weed Control in Soybeans|Tests Agrochem. Cultiv.14:64-65|1993|
159900|T||Beyers,J.T., R.J. Smeda, and W.G. Johnson|Weed Management Programs in Glufosinate-Resistant Soybean (Glycine max)|Weed Technol.16(2): 267-273|2002|10.1614/0890-037X(2002)016[0267:WMPIGR]2.0.CO;2
159901|T||Culpepper,A.S., D.S. Carlson, and A.C. York|Pre-Plant Control of Cutleaf Eveningprimrose (Oenothera laciniata Hill) and Wild Radish (Raphanus raphanistrum L.) in Conservation Tillage Cotton (Gossypium hirsutum L.)|J. Cotton Sci.9(4): 223-228|2005|
159902|T||Hiraki,M., S. Ishida, H. Watanabe, H. Ogawa, H. Kohno, P. Boger, and K. Wakabayashi|Variation of Protoporphyrinogen-IX Oxidase Sensitivity to Peroxidizing Herbicides Among Corn Varieties|Zasso Kenkyu45(1): 7-12|2000|10.3719/weed.45.7
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159905|T||Gelmini,G.A., R. Victoria Filho, M.C.S.S. Novo, and M.L. Adoryan|Resistance of Euphorbia heterophylla L. to ALS-Inhibiting Herbicides in Soybean|Sci. Agric. (Piracicaba, Braz. )62(5): 452-457|2005|10.1590/S0103-90162005000500007
159906|T||Murphy,C.A., and J.L. Lindquist|Growth Response of Velvetleaf to Three Postemergence Herbicides|Weed Sci.50(3): 364-369|2002|10.1614/0043-1745(2002)050[0364:GROVTT]2.0.CO;2
159907|T||Terra,B.R.M., A.R. Martin, and J.L. Lindquist|Corn-Velvetleaf (Abutilon theophrasti) Interference is Affected by Sublethal Doses of Postemergence Herbicides|Weed Sci.55(5): 491-496|2007|10.1614/WS-06-140.1
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159909|T||York,A.C., A.M. Stewart, P.R. Vidrine, and A.S. Culpepper|Control of Volunteer Glyphosate-Resistant Cotton in Glyphosate-Resistant Soybean|Weed Technol.18(3): 532-539|2004|10.1614/WT-03-073R1
159910|T||Warrick,B.E.|Overview of PPO Inhibitor Cotton Harvest Aids in West Central Texas|Proc. Beltwide Cotton Conf.:1-4|2006|
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159912|A||Yan,S., P. Nan, F. Cui, Z. Wu, and C. Qiao|Distribution and Dynamics of Esterase Alleles in Culex pipiens Complex in China|J. Asia Pac. Entomol.16(1): 43-48|2013|10.1016/j.aspen.2012.09.002
159913|A||Ural,M.S.|Chlorpyrifos-Induced Changes in Oxidant/Antioxidant Status and Haematological Parameters of Cyprinus carpio carpio: Ameliorative Effect of Lycopene|Chemosphere90(7): 2059-2064|2013|10.1016/j.chemosphere.2012.12.006
159914|AT||Tikar,S.N., M.J. Mendki, A.K. Sharma, D. Sukumaran, V. Veer, S. Prakash, and B.D. Parashar|Resistance Status of the Malaria Vector Mosquitoes, Anopheles stephensi and Anopheles subpictus Towards Adulticides and Larvicides in Arid and Semi-Arid Areas of India|J. Insect Sci.11:10 p.|2011|10.1673/031.011.8501
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159916|A||Selderslaghs,I.W.T., J. Hooyberghs, W. De Coen, and H.E. Witters|Locomotor Activity in Zebrafish Embryos: a New Method to Assess Developmental Neurotoxicity|Neurotoxicol. Teratol.32(4): 460-471|2010|10.1016/j.ntt.2010.03.002
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159920|A||Levin,E.D., D. Sledge, S. Roach, A. Petro, S. Donerly, and E. Linney|Persistent Behavioral Impairment Caused by Embryonic Methylphenidate Exposure in Zebrafish|Neurotoxicol. Teratol.33(6): 668-673|2011|10.1016/j.ntt.2011.06.004
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159925|A||Franzellitti,S., A. Capuzzo, A. Viarengo, and E. Fabbri|Interactive Effects of Nickel and Chlorpyrifos on Mediterranean Mussel cAMP-Mediated Cell Signaling and MXR-Related Gene Expressions|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(4): 377-382|2011|10.1016/j.cbpc.2011.07.006
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159928|T||Laufenberg,S.M., R.L. Sheley, J.S. Jacobs, and J. Borkowski|Herbicide Effects on Density and Biomass of Russian Knapweed (Acroptilon repens) and Associated Plant Species|Weed Technol.19(1): 62-72|2005|
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159930|A||Barata,C., M. Fernandez-San Juan, M.L. Feo, E. Eljarrrat, A.M.V.M. Soares, D. Barcelo, and D.J. Baird|Population Growth Rate Responses of Ceriodaphnia dubia to Ternary Mixtures of Specific Acting Chemicals: Pharmacological Versus Ecotoxicological Modes of Action|Environ. Sci. Technol.46(17): 9663-9672|2012|10.1021/es301312h
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159932|A||Clark,B.W., and R.T. Di Giulio|Fundulus heteroclitus Adapted to PAHs are Cross-Resistant to Multiple Insecticides|Ecotoxicology21(2): 465-474|2012|10.1007/s10646-011-0807-x
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159935|T||Streu,H.T., and C. Cruz|Control of the Hairy Chinch Bug in Turfgrass in the Northeast with Dursban Insecticide|Down Earth28(1): 1-4|1972|
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159942|T||Mirajkar,N.S.|Cholinergic Modulation of Cardiac Function: Selective Disruption by Organophosphorus Anticholinesterases|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:366 p.|2008|
159943|T||Baireddy,P.R.|Pre-Synaptic Cholinergic and Cannabinergic Signaling in the Expression of Organophosphate Toxicity|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:214 p.|2009|
159944|A||Matson,C.W., B.W. Clark, M.J. Jenny, C.R. Fleming, M.E. Hahn, and R.T. Di Giulio|Development of the Morpholino Gene Knockdown Technique in Fundulus heteroclitus: A Tool for Studying Molecular Mechanisms in an Established Environmental Model|Aquat. Toxicol.87(4): 289-295|2008|10.1016/j.aquatox.2008.02.010
159945|T||Liu,J.N., Q.X. Zhou, S. Wang, and T. Sun|Cadmium Tolerance and Accumulation of Althaea rosea Cav. and Its Potential as a Hyperaccumulator Under Chemical Enhancement|Environ. Monit. Assess.149(1-4): 419-427|2009|10.1007/s10661-008-0218-5
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159948|T||Krzeslowska,M., M. Lenartowska, S. Samardakiewicz, H. Bilski, and A. Wozny|Lead Deposited in the Cell Wall of Funaria hygrometrica Protonemata is not Stable - a Remobilization can Occur|Environ. Pollut.158(1): 325-338|2010|10.1016/j.envpol.2009.06.035
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159959|T||Varley,M.A.|The Regulation of Oestrous Cycles in Groups of Post-Pubertal Female Pigs Using Allyl-Trenbolone|Anim. Prod.36(2): 211-215|1983|
159960|T||Vernon,B.G., and P.J. Buttery|Protein Metabolism of Rats Treated with Trienbolone Acetate|Anim. Prod.26(1): 1-9|1978|
159961|T||Wood,J.D., A.V. Fisher, and O.P. Whelehan|The Effects of a Combined Androgenic-Oetrogenic Anabolic Agent in Steers and Bulls  2.  Muscle Weight Distribution, Partition of Body Fat and Carcass Value|Anim. Prod.42(2): 213-222|1986|
159962|T||Yang,H., M.A. Varley, and R.G. Rodway|Effect of Allyl-Trenbolone on the Attainment of Puberty in Gilts Treated with Oestradiol|Anim. Prod.45(3): 503-510|1987|
159963|T||Yasin,A.R.M., and H. Galbraith|A Note on the Response of Wether Lambs to Treatment with Trenbolone Acetate Combined with Oestradiol-17beta or Zeranol|Anim. Prod.32(3): 337-340|1981|
159964|T||Dhar,J.D., and B.S. Setty|Effect of Centchroman on the Genital Organs of the Offspring of Rats when Administered During Lactation or During the Neonatal Period:  A Comparative Study with Ethynylestradiol and Diethylstilbestrol|Acta Eur. Fertil.17(4): 285-292|1986|
159965|T||O'Keeffe,M.|Tissue Levels of the Anabolic Agents, Trenbolone and Zeranol, Determined by Radioimmunoassay|Anal. Chem. Symp. Ser.23:225-229|1985|
159966|T||Costa,A.N., and M.A. Varley|The Influence of Food Intake and Allyl Trenbolone Administration During Lactation on Plasma Steroid Concentrations and the Reproductive Performance of Multiparous Sows|Anim. Prod.59(1): 111-118|1994|
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159968|T||Galbraith,H.|Growth, Hormonal and Metabolic Response of Post-pubertal Entire Male Cattle to Trenbolone Acetate and Hexestrol|Anim. Prod.35(2): 269-276|1982|
159969|T||Galbraith,H., and K.J. Geraghty|A Note on the Response of British Friesian Steers to Trenbolone Acetate and Hexestrol, and to Alternation in Dietary Energy Intake|Anim. Prod.35(2): 277-280|1982|
159970|T||Southgate,J.R., A.R. Peters, and S.N. Dixon|Effects of Oestradiol-17beta or Zeranol with or Without Trenbolone Acetate on Live-Weight Gain, Carcass Composition and Zeranol Residues in Steers on an 18-Month Beef System|Anim. Prod.47(2): 209-214|1988|
159971|T||Sulieman,A.H., H. Galbraith, and J.H. Topps|Growth Performance and Body Composition of Wether Lambs Implanted at Two Different Initial Live Weights with Trenbolone Acetate Combined with Oetradiol-17beta|Anim. Prod.47(1): 65-74|1988|
159972|T||Lauwers,H., P. Simoens, and R. De Wilde|Hormonally Induced Alterations in the Genital Tract of Young Pigs Part I. Gilts and Boars|Agri-Pract.7(2): 11-15|1986|
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159975|A||Nimi,A.J., and G.P. Dookhran|Dietary Absorption Efficiencies and Elimination Rates of Polycyclic Aromatic Hydrocarbons (PAHS) in Rainbow Trout (Salmo gairdneri)|Environ. Toxicol. Chem.8(8): 719-722|1989|10.1002/etc.5620080809
159976|T||Pastor-Soler,N.M., J.S. Fisher, R. Sharpe, E. Hill, A. Van Hoek, D. Brown, and S. Breton|Aquaporin 9 Expression in the Developing Rat Epididymis is Modulated by Steroid Hormones|Reproduction (Camb.)139(3): 613-621|2010|10.1530/REP-09-0284
159977|T||Saito,C., J.J. Lemasters, and H. Jaeschke|c-Jun N-Terminal Kinase Modulates Oxidant Stress and Peroxynitrite Formation Independent of Inducible Nitric Oxide Synthase in Acetaminophen Hepatotoxicity|Toxicol. Appl. Pharmacol.246(1/2): 8-17|2010|10.1016/j.taap.2010.04.015
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160040|A||Jhajhria,A.|Observations on the Breeding of Cyprinus carpio (Linn.) Using Synthetic Hormones in the Thar Desert|J. Exp. Zool. India14(2): 513-516|2011|
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160047|A||Celebi,H., and D.T. Sponza|Comparison of the Sensitivities of Fish, Microtox and Daphnia-magna Bioassays to Amoxycillin in Anaerobic/Aerobic Sequential Reactor Systems|Water Sci. Technol.66(5): 1117-1131|2012|10.2166/wst.2012.293
160048|A||Garcia-Garcia,J.D., V. Olin-Sandoval, E. Saavedra, L. Girard, G. Hernandez, and R. Moreno-Sanchez|Sulfate Uptake in Photosynthetic Euglena gracilis.  Mechanisms of Regulation and Contribution to Cysteine Homeostasis|Biochim. Biophys. Acta1820(10): 1567-1575|2012|10.1016/j.bbagen.2012.05.002
160049|A||Sharma,R., and S. Singh|Effect of Antracol on Some Biochemical Parameters of the Fish Channa punctatus|Bionotes13(3): 116-|2011|
160050|A||Yilmaz,D.D., and K.U. Parlak|Antioxidative Parameters in the Opposite-Leaved Pondweed (Gronlendi densa) in Response to Nickel Stress|Chem. Spec. Bioavail.23(2): 71-79|2011|10.3184/095422911X13026931812524
160052|A||Allinson,G., T. Hagen, S. Salzman, A. Wightwick, and D. Nugegoda|Effect of Increasing Salinity on the Acute Toxicity of a Commercial Endosulfan Formulation to the Bdelloid Rotifer Philodina acuticornis odiosa|Toxicol. Environ. Chem.93(4): 722-728|2011|10.1080/02772248.2011.556639
160053|A||Ghodageri,M.G., and K. Pancharatna|Morphological and Behavioral Alterations Induced by Endocrine Disrupters in Amphibian Tadpoles|Toxicol. Environ. Chem.93(10): 2012-2021|2011|10.1080/02772248.2011.621595
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160058|T||Farhat,G.N., N.I. Affara, and H.U. Gali-Muhtasib|Seasonal Changes in the Composition of the Essential Oil Extract of East Mediterranean Sage (Salvia libanotica) and Its Toxicity in Mice|Toxicon39(10): 1601-1605|2001|10.1016/S0041-0101(01)00143-X
160059|A||Chu,Z., Y. Wu, S. Gong, G. Zhang, L. Zhang, Y. Yuan, and H. Yuan|Effects of Estradiol Valerate on Steroid Hormones and Sex Reversal of Female Rice Field Eel, Monopterus albus (Zuiew)|J. World Aquac. Soc.42(1): 96-104|2011|10.1111/j.1749-7345.2010.00448.x
160060|A||Faroongsarng,D., S. Chiayvareesajja, and Y. Theapparat|A Toxicokinetic Study of Oxytetracycline Antibiotics in Farmed Pacific White Shrimp, Penaeus vannamei|J. World Aquac. Soc.42(4): 484-493|2011|10.1111/j.1749-7345.2011.00490.x
160061|A||Isani,G., G. Andreani, E. Carpene, S. Di Molfetta, D. Eletto, and E. Spisni|Effects of Waterborne Cu Exposure in Gilthead Sea Bream (Sparus aurata):  A Proteomic Approach|Fish Shellfish Immunol.31(6): 1051-1058|2011|10.1016/j.fsi.2011.09.005
160062|A||Li,R., Y. Zhou, J. Ji, and L. Wang|Oxidative Damages by Cadmium and the Protective Effects of Low-Molecular-Weight Chitosan in the Freshwater Crab (Sinopotamon yangtsekiense Bott 1967)|Aquac. Res.42(4): 506-515|2011|10.1111/j.1365-2109.2010.02646.x
160063|AT||Hua,J., C. Zhang, Y. Yin, R. Chen, and X. Wang|Phytoremediation Potential of Three Aquatic Macrophytes in Manganese-Contaminated Water|Water Environ. J.26(3): 335-342|2012|10.1111/j.1747-6593.2011.00293.x
160064|A||Kim,K.Y., T. Lee, and S.I. Lee|One-Hour Temperature-Based Toxicity Test with Daphnia magna|Environ. Eng. Sci.29(7): 573-579|2012|10.1089/ees.2011.0006
160065|A||Kim,J., S. Kim, and S. Lee|Differentiation of the Toxicities of Silver Nanoparticles and Silver Ions to the Japanese Medaka (Oryzias latipes) and the Cladoceran Daphnia magna|Nanotoxicology5(2): 208-214|2011|10.3109/17435390.2010.508137
160066|A||Huang,X., P. Zhuang, L. Zhang, Z. Yao, T. Liu, J. Liu, and G. Feng|Effects of Cryoprotectant Toxicity on Embryos of the Chinese Mitten Crab, Eriocheir sinensis (Decapoda, Brachyura)|Crustaceana  (Leiden)84(3): 281-291|2011|10.1163/001121611X554355
160067|A||Kumar,J.I.N., M.K. Amb, R.N. Kumar, and A. Bora|Evidences Showing 2,4-D Ethyl Ester and Pencycuron-Induced DNA Damage in Cyanobacteria and Detection by PCR|Toxicol. Environ. Chem.93(5): 974-984|2011|10.1080/02772248.2011.565149
160068|A||Nagarani,N., V.J. Devi, and A.K. Kumaraguru|Mercuric Chloride Induced Proteotoxicity and Structural Destabilization in Marine Fish (Therapon jarbua)|Toxicol. Environ. Chem.93(2): 296-306|2011|10.1080/02772248.2010.512812
160069|A||Nugroho,A.P., and H. Frank|Producing Cu-Loaded Algae for Feeding Experiments:  Effects of Copper on Parachlorella kessleri|Toxicol. Environ. Chem.93(3): 537-548|2011|10.1080/02772248.2010.537859
160070|A||Pourkhabbaz,A., M.E. Kasmani, V. Kiyani, and M.H. Hosynzadeh|Effects of Water Hardness and Cu and Zn on LC50 in Gambusia holbrooki|Chem. Spec. Bioavail.23(4): 224-228|2011|10.3184/095422911X13201685540769
160071|A||Meenambal,M., K. Pugazhendy, C. Vasantharaja, and S. Venkatesan|Ameliorative Property of Delonix elata Supplementary Feed Against Cypermethrin Induced Serum Biochemical Changes in Fresh Water Fish Cyprinus carpio (Linn)|J. Pharm. Res.5(5): 2489-2492|2012|
160072|A||Minghong,W., X. Hai, Y. Ming, and X. Gang|Effects of Chronic Bisphenol A Exposure on Hepatic Antioxidant Parameters in Medaka (Oryzias latipes)|Toxicol. Environ. Chem.93(2): 270-278|2011|10.1080/02772248.2010.530136
160073|A||Santos,L.B., A.T. Paulino, E.B. Tambourgi, and V. De Cinque Almeida|Toxic Effects of Dietary of Al3+ Ions in Tilapias (Oreochromis niloticus) and Protective Effect of Zn2+ Ion|Toxicol. Environ. Chem.93(1): 92-101|2011|10.1080/02772248.2010.486232
160074|A||Rioboo,C., O. Gonzalez-Barreiro, J. Abalde, and A. Cid|Flow Cytometric Analysis of the Encystment Process Induced by Paraquat Exposure in Haematococcus pluvialis (Chlorophyceae)|Eur. J. Phycol.46(2): 89-97|2011|10.1080/09670262.2011.561775
160075|A||Tramboo,S.M., A.R. Yousuf, and S. Akbar|Oxidative Stress-Inducing Potential of Butachlor in a Freshwater Fish, Cyprinus carpio (L.)|Toxicol. Environ. Chem.93(2): 285-295|2011|10.1080/02772248.2010.515413
160076|A||Prasad,S.M., M. Zeeshan, and D. Kumar|Toxicity of Endosulfan on Growth, Photosynthesis, and Nitrogenase Activity in Two Species of Nostoc (Nostoc muscorum and Nostoc calcicola)|Toxicol. Environ. Chem.93(3): 513-525|2011|10.1080/02772248.2010.542157
160077|A||Thinglum,K.A., C.W. Riggins, A.S. Davis, K.W. Bradley, K. Al-Khatib, and P.J. Tranel|Wide Distribution of the Waterhemp (Amaranthus tuberculatus) deltaG210  PPX2 Mutation, Which Confers Resistance to PPO-Inhibiting Herbicides|Weed Sci.59(1): 22-27|2011|10.1614/WS-D-10-00085.1
160078|A||Wu,H.Y., H.X. Xu, Y.B. Hong, J.F. Zhang, and J.C. Wu|The Use of Biomarkers in the Antioxidant Responses of Daphnia magna to the Acute and Chronic Exposure to No. 20 Diesel Oil and 2,4-Dichlorophenol|Chem. Spec. Bioavail.23(2): 80-87|2011|10.3184/095422911X13027015402949
160079|A||Venkateshwarlu,M., S.N. Sanagoudra, and S. Syed|Influence of Carbaryl on the Carbohydrate Levels in the Tissues of Common Carp, Cyprinus carpio|Toxicol. Environ. Chem.93(2): 279-284|2011|10.1080/02772248.2010.522772
160080|A||Lin,R., L. Buijse, M.R. Dimitrov, P. Dohmen, S. Kosol, L. Maltby, I. Roessink, J.A. Sinkeldam, H. Smidt, R.P.A. Van Wij|Effects of the Fungicide Metiram in Outdoor Freshwater Microcosms:  Responses of Invertebrates, Primary Producers and Microbes|Ecotoxicology21(5): 1550-1569|2012|10.1007/s10646-012-0909-0
160081|A||Shao,B., L. Zhu, M. Dong, J. Wang, J. Wang, H. Xie, Q. Zhang, Z. Du, and S. Zhu|DNA Damage and Oxidative Stress Induced by Endosulfan Exposure in Zebrafish (Danio rerio)|Ecotoxicology21(5): 1533-1540|2012|10.1007/s10646-012-0907-2
160082|A||Gutierrez,M.F., J.C. Paggi, and A.M. Gagneten|Infodisruptions in Predator-Prey Interactions:  Xenobiotics Alter Microcrustaceans Responses to Fish Infochemicals|Ecotoxicol. Environ. Saf.81:11-16|2012|10.1016/j.ecoenv.2012.04.001
160083|A||Vicari,T., M.V.M. Ferraro, W.A. Ramsdorf, M. Mela, C.A. De Oliveira Ribeiro, and M.M. Cestari|Genotoxic Evaluation of Different Doses of Methylmercury (CH3Hg+) in Hoplias malabaricus|Ecotoxicol. Environ. Saf.82:47-55|2012|10.1016/j.ecoenv.2012.05.007
160084|A||Simbeya,C.K., C.E. Csuzdi, W.A. Dew, and G.G. Pyle|Electroantennogram Measurement of the Olfactory Response of Daphnia spp. and Its Impairment by Waterborne Copper|Ecotoxicol. Environ. Saf.82:80-84|2012|10.1016/j.ecoenv.2012.05.011
160085|A||De Liguoro,M., V. Di Leva, M. Dalla Bona, R. Merlanti, G. Caporale, and G. Radaelli|Sublethal Effects of Trimethoprim on Four Freshwater Organisms|Ecotoxicol. Environ. Saf.82:114-121|2012|10.1016/j.ecoenv.2012.05.016
160086|A||Sengar,M.S., and J.P.N. Singh|Effect of Herbicide 2,4-Dichlorophenoxy Acetic Acid on Mucous Gland Cells in the Gills of Air Breathing Fish- Anabas testudineus|J. Exp. Zool. India14(2): 569-573|2011|
160087|A||Azizullah,A., A. Nasir, P. Richter, M. Lebert, and D.P. Hader|Evaluation of the Adverse Effects of Two Commonly Used Fertilizers, DAP and Urea, on Motility and Orientation of the Green Flagellate Euglena gracilis|Environ. Exp. Bot.74:140-150|2011|10.1016/j.envexpbot.2011.05.011
160088|A||Hu,X., X.C. Li, B.B. Sun, W.H. Fang, S. Zhou, L.L. Hu, and J.F. Zhou|Effects of Enrofloxacin on Cytochromes P4501a and P4503a in Carassius auratus gibelio (Crucian Carp)|J. Vet. Pharmacol. Ther.35(3): 216-223|2012|10.1111/j.1365-2885.2011.01318.x
160089|A||Reddy,P.B., B.S. Baghel, and S. Srivastava|Biochemical Effects of Cadmium on the Liver of Catfish, Mystus tengara (Ham.)|Nat. Environ. Pollut. Technol.9(3): 593-595|2010|
160090|A||Liu,C., W. Yan, B. Zhou, Y. Guo, H. Liu, H. Yu, J.P. Giesy, J. Wang, G. Li, and X. Zhang|Characterization of a Bystander Effect Induced by the Endocrine-Disrupting Chemical 6-Propyl-2-Thiouracil in Zebrafish Embryos|Aquat. Toxicol.118/119:108-115|2012|10.1016/j.aquatox.2012.04.001
160091|A||Kwok,K.W.H., M. Auffan, A.R. Badireddy, C.M. Nelson, M.R. Wiesner, A. Chilkoti, J. Liu, S.M. Marinakos, and D.E. Hinton|Uptake of Silver Nanoparticles and Toxicity to Early Life Stages of Japanese Medaka (Oryzias latipes):  Effect of Coating Materials|Aquat. Toxicol.120-121:59-66|2012|10.1016/j.aquatox.2012.04.012
160092|A||Keiter,S., L. Baumann, H. Farber, H. Holbech, D. Skutlarek, M. Engwall, and T. Braunbeck|Long-Term Effects of a Binary Mixture of Perfluorooctane Sulfonate (PFOS) and Bisphenol A (BPA) in Zebrafish (Danio rerio)|Aquat. Toxicol.118/119:116-129|2012|10.1016/j.aquatox.2012.04.003
160093|A||Chandra,K., T. Bosker, N. Hogan, A. Lister, D. MacLatchy, and S. Currie|Sustained High Temperature Increases the Vitellogenin Response to 17alpha-Ethynylestradiol in Mummichog (Fundulus heteroclitus)|Aquat. Toxicol.118/119:130-140|2012|10.1016/j.aquatox.2012.04.004
160094|A||Mochida,K., H. Amano, K. Ito, M. Ito, T. Onduka, H. Ichihashi, A. Kakuno, H. Harino, and K. Fujii|Species Sensitivity Distribution Approach to Primary Risk Analysis of the Metal Pyrithione Photodegradation Product, 2,2 '-Dipyridyldisulfide in the Inland Sea and Induction of Notochord Undulation in Fish Embryos|Aquat. Toxicol.118/119:152-163|2012|10.1016/j.aquatox.2012.04.002
160095|A||Chen,L., C. Hu, C. Huang, Q. Wang, X. Wang, L. Yang, and B. Zhou|Alterations in Retinoid Status After Long-Term Exposure to PBDEs in Zebrafish (Danio rerio)|Aquat. Toxicol.120/121:11-18|2012|10.1016/j.aquatox.2012.04.010
160096|A||Chen,H., J. Chen, Y. Guo, Y. Wen, J. Liu, and W. Liu|Evaluation of the Role of the Glutathione Redox Cycle in Cu(II) Toxicity to Green Algae by a Chiral Perturbation Approach|Aquat. Toxicol.120/121:19-26|2012|10.1016/j.aquatox.2012.04.011
160097|A||Rojo-Nieto,E., K.E.C. Smith, J.A. Perales, and P. Mayer|Recreating the Seawater Mixture Composition of HOCs in Toxicity Tests with Artemia franciscana by Passive Dosing|Aquat. Toxicol.120/121:27-34|2012|10.1016/j.aquatox.2012.04.006
160098|A||Chen,X., C. Huang, X. Wang, J. Chen, C. Bai, Y. Chen, X. Chen, Q. Dong, and D. Yang|BDE-47 Disrupts Axonal Growth and Motor Behavior in Developing Zebrafish|Aquat. Toxicol.120/121:35-44|2012|10.1016/j.aquatox.2012.04.014
160099|A||Bonventre,J.A., L.A. White, and K.R. Cooper|Craniofacial Abnormalities and Altered wnt and mmp mRNA Expression in Zebrafish Embryos Exposed to Gasoline Oxygenates ETBE and TAME|Aquat. Toxicol.120/121:45-53|2012|10.1016/j.aquatox.2012.04.008
160100|T||Jiang,W., E.G. Duysen, and O. Lockridge|Mice Treated with a Nontoxic Dose of Chlorpyrifos Oxon have Diethoxyphosphotyrosine Labeled Proteins in Blood up to 4 Days Post Exposure, Detected by Mass Spectrometry|Toxicology295(1-3): 15-22|2012|10.1016/j.tox.2012.03.001
160101|A||Huang,Q., S. Dong, C. Fang, X. Wu, T. Ye, and Y. Lin|Deep Sequencing-Based Transcriptome Profiling Analysis of Oryzias melastigma Exposed to PFOS|Aquat. Toxicol.120/121:54-58|2012|10.1016/j.aquatox.2012.04.013
160102|A||Bundschuh,M., A. Appeltauer, A. Dabrunz, and R. Schulz|Combined Effect of Invertebrate Predation and Sublethal Pesticide Exposure on the Behavior and Survival of Asellus aquaticus (Crustacea; Isopoda)|Arch. Environ. Contam. Toxicol.63(1): 77-85|2012|10.1007/s00244-011-9743-2
160103|A||Brix,K.V., P. Gillette, A. Pourmand, T.R. Capo, and M. Grosell|The Effects of Dietary Silver on Larval Growth in the Echinoderm Lytechinus variegatus|Arch. Environ. Contam. Toxicol.63(1): 95-100|2012|10.1007/s00244-012-9757-4
160104|A||Sirtori,C., A. Zapata, W. Gernjak, S. Malato, and A. Aguera|Photolysis of Flumequine:  Identification of the Major Phototransformation Products and Toxicity Measures|Chemosphere88(5): 627-634|2012|10.1016/j.chemosphere.2012.03.047
160105|A||Jancula,D., and B. Marsalek|The Toxicity of Phthalocyanines to the Aquatic Plant Lemna minor (Duckweed) - Testing of 31 Compounds|Chemosphere88(8): 962-965|2012|10.1016/j.chemosphere.2012.03.028
160106|A||Lee,W., C.W. Kang, C.K. Su, K. Okubo, and Y. Nagahama|Screening Estrogenic Activity of Environmental Contaminants and Water Samples Using a Transgenic Medaka Embryo Bioassay|Chemosphere88(8): 945-952|2012|10.1016/j.chemosphere.2012.03.024
160107|A||Adolfsson-Erici,M., G. Akerman, and M.S. McLachlan|In-Vivo Passive Sampling to Measure Elimination Kinetics in Bioaccumulation Tests|Chemosphere88(1): 62-68|2012|10.1016/j.chemosphere.2012.02.063
160108|T||Api,A.M., G. Ritacco, and D.R. Hawkins|The Fate of Dermally Applied [14C]D-Limonene in Rats and Humans|Int. J. Toxicol.32(2): 130-135|2013|10.1177/1091581813479979
160109|T||Brott,D.A., P. Bentley, M.V.P. Nadella, D. Thurman, J. Fikes, L. Cheatham, F. McGrath, W. Luo, and L.B. Kinter|Renal Biomarker Changes Associated with Hyaline Droplet Nephropathy in Rats are Time and Potentially Compound Dependent|Toxicology303:133-138|2013|10.1016/j.tox.2012.11.003
160110|T||Abdelgaleil,S.A.M.|Molluscicidal and Insecticidal Potential of Monoterpenes on the White Garden Snail, Theba pisana (Muller) and the Cotton Leafworm, Spodoptera littoralis (Boisduval)|Appl. Entomol. Zool.45(3): 425-433|2010|10.1303/aez.2010.425
160111|T||Amri,I., S. Gargouri, L. Hamrouni, M. Hanana, T. Fezzani, and B. Jamoussi|Chemical Composition, Phytotoxic and Antifungal Activities of Pinus pinea Essential Oil|J. Pest Sci.85(2): 199-207|2012|10.1007/s10340-012-0419-0
160112|A||David,R.M., H.S. Jones, G.H. Panter, M.J. Winter, T.H. Hutchinson, and J.K. Chipman|Interference with Xenobiotic Metabolic Activity by the Commonly Used Vehicle Solvents Dimethylsulfoxide and Methanol in Zebrafish (Danio rerio) Larvae but not Daphnia magna|Chemosphere88(8): 912-917|2012|10.1016/j.chemosphere.2012.03.018
160113|A||Nowak,C., C. Vogt, J. Oehlmann, M. Pfenninger, K. Schwenk, B. Streit, and M. Oetken|Impact of Genetic Diversity and Inbreeding on the Life-History of Chironomus Midges over Consecutive Generations|Chemosphere88(8): 988-993|2012|10.1016/j.chemosphere.2012.03.036
160114|A||Falfushynska,H., L. Gnatyshyna, O. Stoliar, N. Mitina, T. Skorokhoda, Y. Filyak, A. Zaichenko, and R. Stoika|Evaluation of Biotargeting and Ecotoxicity of Co2+-Containing Nanoscale Polymeric Complex by Applying Multi-Marker Approach in Bivalve Mollusk Anodonta cygnea|Chemosphere88(8): 925-936|2012|10.1016/j.chemosphere.2012.02.087
160115|A||Simpson,S.L., D. Ward, D. Strom, and D.F. Jolley|Oxidation of Acid-Volatile Sulfide in Surface Sediments Increases the Release and Toxicity of Copper to the Benthic Amphipod Melita plumulosa|Chemosphere88(8): 953-961|2012|10.1016/j.chemosphere.2012.03.026
160116|A||Sengupta,S., W.H. Bisson, L.K. Mathew, S.K. Kolluri, and R.L. Tanguay|Alternate Glucocorticoid Receptor Ligand Binding Structures Influence Outcomes in an In Vivo Tissue Regeneration Model|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(2): 121-129|2012|10.1016/j.cbpc.2012.05.003
160117|A||Park,K., and I.S. Kwak|Gene Expression of Ribosomal Protein mRNA in Chironomus riparius: Effects of Endocrine Disruptor Chemicals and Antibiotics|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(2): 113-120|2012|10.1016/j.cbpc.2012.05.002
160118|T||National Toxicology Program|NTP Technical Report on the Toxicology and Carcinogenesis Studies of beta-Myrcene (CAS No. 123-35-3) in F344/N Rats and B6C3F1 Mice (Gavage Studies)|Technical Report 557. National Toxicology Program:169 p.|2010|
160119|T||Anwar,F., M. Ali, A.I. Hussain, and M. Shahid|Antioxidant and Antimicrobial Activities of Essential Oil and Extracts of Fennel (Foeniculum vulgare Mill.) Seeds from Pakistan|Flavour Fragr. J.24(4): 170-176|2009|10.1002/ffj.1929
160120|T||Cloyd,R.A., C.L. Galle, S.R. Keith, N.A. Kalscheur, and K.E. Kemp|Effect of Commercially Available Plant-Derived Essential Oil Products on Arthropod Pests|J. Econ. Entomol.102(4): 1567-1579|2009|10.1603/029.102.0422
160121|A||Lampert,W., K.P. Lampert, and P. Larsson|Induction of Male Production in Clones of Daphnia pulex by the Juvenoid Hormone Methyl Farnesoate Under Short Photoperiod|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(2): 130-133|2012|10.1016/j.cbpc.2012.05.004
160122|A||De Menezes,C.C., J. Leitemperger, A. Santi, T. Lopes, C.A. Veiverberg, S. Peixoto, M.B. Adaime, R. Zanella, N.B.V. Barb|The Effects of Diphenyl Diselenide on Oxidative Stress Biomarkers in Cyprinus carpio Exposed to Herbicide Quinclorac (Facet)|Ecotoxicol. Environ. Saf.81:91-97|2012|10.1016/j.ecoenv.2012.04.022
160123|A||Alonso,A., and J.A. Camargo|A Video-Based Tracking Analysis to Assess the Chronic Toxic Effects of Fluoride Ion on the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca)|Ecotoxicol. Environ. Saf.81:70-75|2012|10.1016/j.ecoenv.2012.04.019
160124|A||Bottger,R., J. Schaller, and S. Mohr|Closer to Reality - the Influence of Toxicity Test Modifications on the Sensitivity of Gammarus roeseli to the Insecticide Imidacloprid|Ecotoxicol. Environ. Saf.81:49-54|2012|10.1016/j.ecoenv.2012.04.015
160125|T||Shrestha,A., M. Moretti, and N. Mourad|Evaluation of Thermal Implements and Organic Herbicides for Weed Control in a Nonbearing Almond (Prunus dulcis) Orchard|Weed Technol.26:110-116|2012|10.1614/WT-D-11-00083.1
160126|A||Zheng,S., Q. Zhou, J. Gao, H. Xiong, and C. Chen|Behavioral Alteration and DNA Damage of Freshwater Snail Bellamya aeruginosa Stressed by Ethylbenzene and Its Tissue Residue|Ecotoxicol. Environ. Saf.81:43-48|2012|10.1016/j.ecoenv.2012.04.016
160127|T||Taylor,W.E., and B. Vickery|Insecticidal Properties of Limonene, a Constituent of Citrus Oil|Ghana J. Agric. Sci.7:61-62|1974|
160129|T||Regnier,T., S. Combrinck, W. Du Plooy, and B. Botha|Evaluation of Lippia scaberrima Essential Oil and Some Pure Terpenoid Constituents as Postharvest Mycobiocides for Avocado Fruit|Postharvest Biol. Technol.57(3): 176-182|2010|10.1016/j.postharvbio.2010.03.010
160130|A||Freitas,E.C., and O. Rocha|Acute and Chronic Effects of Atrazine and Sodium Dodecyl Sulfate on the Tropical Freshwater Cladoceran Pseudosida ramosa|Ecotoxicology21(5): 1347-1357|2012|10.1007/s10646-012-0888-1
160131|T||Mandour,N.S., Y. Kainoh, R. Ozawa, M. Uefune, and J. Takabayashi|Effects of Prohydrojasmon-Treated Corn Plants on Attractiveness to Parasitoids and the Performance of Their Hosts|J. Appl. Entomol.137:104-112|2013|10.1111/j.1439-0418.2012.01721.x
160132|A||Liao,S., Q. Li, A. Wang, J. Xian, X. Chen, N. Gou, S. Zhang, L. Wang, and X. Xu|Effect of Nitrite on Immunity of the White Shrimp Litopenaeus vannamei at Low Temperture and Low Salinity|Ecotoxicology21(6): 1603-1608|2012|10.1007/s10646-012-0947-7
160133|T||Okyar,A., M. Nuriyev, A. Yildiz, Z. Pala-Kara, N. Ozturk, and E. Kaptan|The Effect of Terpenes on Percutaneous Absorption of Tiaprofenic Acid Gel|Arch. Pharm. Res. (Seoul)33(11): 1781-1788|2010|10.1007/s12272-010-1110-8
160134|T||Pandey,R.R., R.C. Dubey, and S. Saini|Phytochemical and Antimicrobial Studies on Essential Oils of Some Aromatic Plants|Afr. J. Biotechnol.9(28): 4364-4368|2010|
160135|A||Wang,Q., H. Yang, B. Liu, and X. Wang|Toxic Effects of Benzo(a)pyrene (Bap) and Aroclor1254 on Embryogenesis, Larval Growth, Survival and Metamorphosis of the Bivalve Meretrix meretrix|Ecotoxicology21(6): 1617-1624|2012|10.1007/s10646-012-0936-x
160136|A||Soares,J., L.F.C. Castro, M.A. Reis-Henriques, N.M. Monteiro, and M.M. Santos|Zebrafish (Danio rerio) Life-Cycle Exposure to Chronic Low Doses of Ethinylestradiol Modulates p53 Gene Transcription Within the Gonads, but not NER Pathways|Ecotoxicology21(5): 1513-1522|2012|10.1007/s10646-012-0905-4
160137|T||Singh,P., R. Shukla, B. Prakash, A. Kumar, S. Singh, P.K. Mishra, and N.K. Dubey|Chemical Profile, Antifungal, Antiaflatoxigenic and Antioxidant Activity of Citrus maxima Burm. and Citrus sinensis (L.) Osbeck Essential Oils and Their Cyclic Monoterpene, DL-Limonene|Food Chem. Toxicol.48(6): 1734-1740|2010|10.1016/j.fct.2010.04.001
160138|A||Fang,Y., H. Yang, and B. Liu|Tissue-Specific Response of Metallothionein and Superoxide Dismutase in the Clam Mactra veneriformis Under Sublethal Mercury Exposure|Ecotoxicology21(6): 1593-1602|2012|10.1007/s10646-012-0938-8
160139|A||Guo,R., and J.S. Ki|Differential Transcription of Heat Shock Protein 90 (HSP90) in the Dinoflagellate Prorocentrum minimum by Copper and Endocrine-Disrupting Chemicals|Ecotoxicology21(5): 1448-1457|2012|10.1007/s10646-012-0898-z
160141|AT||Carroll,J.F., N. Tabanca, M. Kramer, N.M. Elejalde, D.E. Wedge, U.R. Bernier, M. Coy, J.J. Becnel, B. Demirci, K.H.C. B|Essential Oils of Cupressus funebris, Juniperus communis, and J. chinensis (Cupressaceae) as Repellents Against Ticks (Acari: Ixodidae) and Mosquitoes (Diptera: Culicidae) and as Toxicants Against Mosquitoes|J. Vector Ecol.36(2): 258-268|2011|10.1111/j.1948-7134.2011.00166.x
160142|T||Gende,L., M. Maggi, C. Van Baren, A.D.D. Lira, A. Bandoni, R. Fritz, and M. Eguaras|Antimicrobial and Miticide Activities of Eucalyptus globulus Essential Oils Obtained from Different Argentine Regions|Spanish J. Agric. Res.8(3): 642-650|2010|10.5424/sjar/2010083-1260
160143|AT||Giatropoulos,A., D.P. Papachristos, A. Kimbaris, G. Koliopoulos, M.G. Polissiou, N. Emmanouel, and A. Michaelakis|Evaluation of Bioefficacy of Three Citrus Essential Oils Against the Dengue Vector Aedes albopictus (Diptera: Culicidae) in Correlation to Their Components Enantiomeric Distribution|Parasitol. Res.111(6): 2253-2263|2012|10.1007/s00436-012-3074-8
160144|T||Grafton-Cardwell,E.E., and C.A. Reagan|Citricola Scale Insecticide Efficacy Trial, 1997|Arthropod Manag. Tests24:90-|1999|
160145|A||Koliopoulos,G., D. Pitarokili, E. Kioulos, A. Michaelakis, and O. Tzakou|Chemical Composition and Larvicidal Evaluation of Mentha, Salvia, and Melissa Essential Oils Against the West Nile Virus Mosquito Culex pipiens|Parasitol. Res.107(2): 327-335|2010|10.1007/s00436-010-1865-3
160147|T||Lim,J.H., M.S. Kim, Y.H. Hwang, I.B. Song, T.W. Kim, and H.I. Yun|Effect of Orange Oil on the Oral Absorption of Enrofloxacin in Rats|Exp. Anim.61(1): 71-75|2012|10.1538/expanim.61.71
160148|T||Lima,N.G.P.B., D.P. De Sousa, F.C.F. Pimenta, M.F. Alves, F.S. De Souza, R.O. Macedo, R.B. Cardoso, L.C.S.L. De Morais,|Anxiolytic-Like Activity and GC-MS Analysis of (R)-(+)-Limonene Fragrance, a Natural Compound Found in Foods and Plants|Pharmacol. Biochem. Behav.103:450-454|2013|10.1016/j.pbb.2012.09.005
160149|A||Ozkan,F., S.G. Gunduz, M. Berkoz, A.O. Hunt, and S. Yalin|Effects of Dietary Supplementation of Vitamin C on Level of Protein Carbonyl in Liver and Nuclear Abnormalities in Peripheral Erythrocytes of Oreochromis niloticus|Fresenius Environ. Bull.20(6A): 1520-1524|2011|
160150|T||Choi,H.K., Y.R. Pokharel, S.C. Lim, H.K. Han, C.S. Ryu, S.K. Kim, M.K. Kwak, and K.W. Kang|Inhibition of Liver Fibrosis by Solubilized Coenzyme Q10:  Role of Nrf2 Activation in Inhibiting Transforming Growth Factor-beta1 Expression|Toxicol. Appl. Pharmacol.240(3): 377-384|2009|10.1016/j.taap.2009.07.030
160151|T||Lenie,S., and J. Smitz|Steroidogenesis-Disrupting Compounds can be Effectively Studied for Major Fertility-Related Endpoints Using In Vitro Cultured Mouse Follicles|Toxicol. Lett.185(3): 143-152|2009|10.1016/j.toxlet.2008.12.015
160152|A||Liu,X.C., H.W. Dong, L. Zhou, S.S. Du, and Z.L. Liu|Essential Oil Composition and Larvicidal Activity of Toddalia asiatica Roots Against the Mosquito Aedes albopictus (Diptera: Culicidae)|Parasitol. Res.112:1197-1203|2013|10.1007/s00436-012-3251-9
160153|A||Ng,G.H.B., and Z. Gong|Maize Ac/Ds Transposon System Leads to Highly Efficient Germline Transmission of Transgenes in Medaka (Oryzias latipes)|Biochimie (Paris)93(10): 1858-1864|2011|10.1016/j.biochi.2011.07.006
160154|T||Murali,R., A. Karthikeyan, and R. Saravanan|Protective Effects of d-Limonene on Lipid Peroxidation and Antioxidant Enzymes in Streptozotocin-Induced Diabetic Rats|Basic Clin. Pharmacol. Toxicol.112(3): 175-181|2013|10.1111/bcpt.12010
160155|A||Park,H.M., J. Kim, K.S. Chang, B.S. Kim, Y.J. Yang, G.H. Kim, S.C. Shin, and I.K. Park|Larvicidal Activity of Myrtaceae Essential Oils and Their Components Against Aedes aegypti, Acute Toxicity on Daphnia magna, and Aqueous Residue|J. Med. Entomol.48(2): 405-410|2011|10.1603/ME10108
160156|AT||Pitarokili,D., A. Michaelakis, G. Koliopoulos, A. Giatropoulos, and O. Tzakou|Chemical Composition, Larvicidal Evaluation, and Adult Repellency of Endemic Greek Thymus Essential Oils Against the Mosquito Vector of West Nile Virus|Parasitol. Res.109(2): 425-430|2011|10.1007/s00436-011-2271-1
160157|T||Prescott-Mathews,J.S., T.S. Poet, and S.J. Borghoff|Evaluation of the In Vivo Interaction of Methyl tert-Butyl Ether with alpha 2u-Globulin in Male F-344 Rats|Toxicol. Appl. Pharmacol.157(1): 60-67|1999|10.1006/taap.1999.8661
160159|T||Santiago,J.V.A., J. Jayachitra, M. Shenbagam, and N. Nalini|Dietary d-Limonene Alleviates Insulin Resistance and Oxidative Stress-Induced Liver Injury in High-Fat Diet and L-NAME-Treated Rats|Eur. J. Nutr.51:57-68|2012|10.1007/s00394-011-0182-7
160160|T||Williams,T.M., and S.J. Borghoff|Characterization of tert-Butyl Alcohol Binding to alpha 2u-Globulin in F-344 Rats|Toxicol. Sci.62(2): 228-235|2001|10.1093/toxsci/62.2.228
160163|A||Parvin,E., M.K. Ahmed, M.M. Islam, M.S. Akter, and M.A. Kabir|Preliminary Acute Toxicity Bioassays of Lead and Cadmium on Fresh Water Climbing Perch, Anabas testudineus (Bloch)|Terrestrial Aquat. Environ. Toxicol.5(1): 55-58|2011|
160164|T||Nomura,D.K.|Organophosphate Interactions with the Serine Hydrolase Superfamily Exemplified by KIAA1363 and the Endocannabinoid System|Ph.D. Thesis, University of California, Berkeley, CA:146 p.|2008|
160165|T||Nallapaneni,A.|Modulation of Cholinergic Toxicity by Cannabinergic Compounds|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:162 p.|2008|
160166|T||Lopez-Crespo,G.A., F. Carvajal, P. Flores, F. Sanchez-Santed, and M.C. Sanchez-Amate|Time Course of Biochemical and Behavioural Effects of a Single High Dose of Chlorpyrifos|Neurotoxicology28(3): 541-547|2007|10.1016/j.neuro.2007.01.013
160167|T||Wang,L., D. Lu, J. Wang, D. Du, Z. Zou, H. Wang, J.N. Smith, C. Timchalk, F. Liu, and Y. Lin|A Novel Immunochromatographic Electrochemical Biosensor for Highly Sensitive and Selective Detection of Trichloropyridinol, a Biomarker of Exposure to Chlorpyrifos|Biosens. Bioelectron.26(6): 2835-2840|2011|10.1016/j.bios.2010.11.008
160168|T||Kanga,L.H.B., and A.B. Somorin|Susceptibility of the Small Hive Beetle, Aethina tumida (Coleoptera: Nitidulidae), to Insecticides and Insect Growth Regulators|Apidologie43(1): 95-102|2012|10.1007/s13592-011-0101-1
160169|T||Dhal,A., L. Tripathy, N. Panda, and S.K. Dash|Efficacy of Some Insecticides in the Management of Chilli Thrips (Scriptothrips dorsalis)|Environ. Ecol.27(2A): 838-840|2009|
160170|T||Wang,H.P., Y.J. Liang, Q. Zhang, D.X. Long, W. Li, L. Li, L. Yang, X.Z. Yan, and Y.J. Wu|Changes in Metabolic Profiles of Urine from Rats Following Chronic Exposure to Anticholinesterase Pesticides|Pestic. Biochem. Physiol.101(3): 232-239|2011|10.1016/j.pestbp.2011.09.011
160171|T||Selvaraju,S., S. Nandi, P.S.P. Gupta, and J.P. Ravindra|Effects of Heavy Metals and Pesticides on Buffalo (Bubalus bubalis) Spermatozoa Functions In Vitro|Reprod. Domest. Anim.46(5): 807-813|2011|10.1111/j.1439-0531.2010.01745.x
160173|T||Duysen,E.G., and O. Lockridge|Induction of Plasma Acetylcholinesterase Activity in Mice Challenged with Organophosphorus Poisons|Toxicol. Appl. Pharmacol.255(2): 214-220|2011|10.1016/j.taap.2011.06.021
160174|T||Montes De Oca,L., M. Moreno, D. Cardona, L. Campa, C. Sunol, M. Galofre, P. Flores, and F. Sanchez-Santed|Long Term Compulsivity on the 5-Choice Serial Reaction Time Task After Acute Chlorpyrifos Exposure|Toxicol. Lett.216(2/3): 73-85|2013|10.1016/j.toxlet.2012.11.012
160175|T||Parween,T., S. Jan, Mahmooduzzafar, and T. Fatma|Assessing the Impact of Chlorpyrifos on Growth, Photosynthetic Pigments and Yield in Vigna radiata L. at Different Phenological Stages|Afr. J. Agric. Res.6(19): 4432-4440|2011|
160176|T||Parween,T., S. Jan, Mahmooduzzafar, and T. Fatma|Alteration in Nitrogen Metabolism and Plant Growth During Different Developmental Stages of Green Gram (Vigna radiata L.) in Response to Chlorpyrifos|Acta Physiol. Plant.33(6): 2321-2328|2011|10.1007/s11738-011-0772-2
160177|T||Picco,E.J., H.R. Fernandez, D.C. Diaz David, M.I. San Andres, J.C. Boggio, and C. Rodriguez|Use of Cholinesterase Activity in Monitoring Chlorpyrifos Exposure of Steer Cattle After Topical Administration|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(5): 405-409|2008|
160178|T||Piola,L., J. Fuchs, M.L. Oneto, S. Basack, R. Gimenez, R. Massaro, J.C. Papa, E. Kesten, and N. Casabe|Biomarkers for the Assessment of Chlorpyrifos Effects on Earthworms and on Soil Functional Parameters|Pesqui. Agropecu. Bras. (Multiple Languages)44(8): 874-880|2009|10.1590/S0100-204X2009000800011
160179|T||Santos,M.J.G., M.F.L. Ferreira, A. Cachada, A.C. Duarte, and J.P. Sousa|Pesticide Application to Agricultural Fields: Effects on the Reproduction and Avoidance Behaviour of Folsomia candida and Eisenia andrei|Ecotoxicology21(8): 2113-2122|2012|10.1007/s10646-012-0963-7
160180|T||Slotkin,T.A., and F.J. Seidler|Developmental Exposure to Organophosphates Triggers Transcriptional Changes in Genes Associated with Parkinson's Disease In Vitro and In Vivo|Brain Res. Bull.86(5/6): 340-347|2011|10.1016/j.brainresbull.2011.09.017
160181|T||Tang,F., X.B. Zhang, Y.S. Liu, and X.W. Gao|Tissue Distribution and Properties of Glutathione S-Transferases in Micromelalopha troglodyta (Lepidoptera: Notodontidae)|J. Entomol. Sci.43(3): 268-278|2008|10.18474/0749-8004-43.3.268
160182|A||Dzul-Caamal,R., M.L. Dominguez-Lopez, E. Garcia-Latorre, and A. Vega-Lopez|Implications of Cytochrome 450 Isoenzymes, Aryl-Esterase and Oxonase Activity in the Inhibition of the Acetylcholinesterase of Chirostoma jordani Treated with Phosphorothionate Pesticides|Ecotoxicol. Environ. Saf.84:199-206|2012|10.1016/j.ecoenv.2012.07.008
160183|A||Mensah,P.K., W.J. Muller, and C.G. Palmer|Acetylcholinesterase Activity in the Freshwater Shrimp Caridina nilotica as a Biomarker of Roundup Herbicide Pollution of Freshwater Systems in South Africa|Water Sci. Technol.66(2): 402-408|2012|10.2166/wst.2012.206
160184|A||Davies,R., and E. Zou|Polybrominated Diphenyl Ethers Disrupt Molting in Neonatal Daphnia magna|Ecotoxicology21(5): 1371-1380|2012|10.1007/s10646-012-0891-6
160185|A||Guilherme,S.I.A.G., M.A. Santos, C. Barroso, I. Gaivao, and M. Pacheco|Differential Genotoxicity of Roundup Formulation and Its Constituents in Blood Cells of Fish (Anguilla anguilla): Considerations on Chemical Interactions and DNA Damaging Mechanisms|Ecotoxicology21(5): 1381-1390|2012|10.1007/s10646-012-0892-5
160186|A||Hooser,E.A., J.B. Belden, L.M. Smith, and S.T. McMurry|Acute Toxicity of Three Strobilurin Fungicide Formulations and Their Active Ingredients to Tadpoles|Ecotoxicology21(5): 1458-1464|2012|10.1007/s10646-012-0899-y
160187|A||Shi,H., P. Zhu, Z. Sun, B. Yang, and L.Q. Zheng|Divergent Teratogenicity of Agonists of Retinoid X Receptors in Embryos of Zebrafish (Danio rerio)|Ecotoxicology21(5): 1465-1475|2012|10.1007/s10646-012-0900-9
160188|A||Park,J.W., T.P. Heah, J.S. Gouffon, T.B. Henry, and G.S. Sayler|Global Gene Expression in Larval Zebrafish (Danio rerio) Exposed to Selective Serotonin Reuptake Inhibitors (Fluoxetine and Sertraline) Reveals Unique Expression Profiles and Potential Biomarkers of Exposure|Environ. Pollut.167:163-170|2012|10.1016/j.envpol.2012.03.039
160189|A||Campana,O., S.L. Simpson, D.A. Spadaro, and J. Blasco|Sub-Lethal Effects of Copper to Benthic Invertebrates Explained by Sediment Properties and Dietary Exposure|Environ. Sci. Technol.46(12): 6835-6842|2012|10.1021/es2045844
160190|A||Poynton,H.C., J.M. Lazorchak, C.A. Impellitteri, B.J. Blalock, K. Rogers, H.J. Allen, A. Loguinov, J.L. Heckman, and S.|Toxicogenomic Responses of Nanotoxicity in Daphnia magna Exposed to Silver Nitrate and Coated Silver Nanoparticles|Environ. Sci. Technol.46(11): 6288-6296|2012|10.1021/es3001618
160191|A||Bjerregaard,P., and A. Christensen|Selenium Reduces the Retention of Methyl Mercury in the Brown Shrimp Crangon crangon|Environ. Sci. Technol.46(11): 6324-6329|2012|10.1021/es300549y
160192|A||Kashiwada,S., M.E. Ariza, T. Kawaguchi, Y. Nakagame, B.S. Jayasinghe, K. Gartner, H. Nakamura, Y. Kagami, T. Sabo-Attwo|Silver Nanocolloids Disrupt Medaka Embryogenesis Through Vital Gene Expressions|Environ. Sci. Technol.46(11): 6278-6287|2012|10.1021/es2045647
160193|A||Jackson,B.P., D. Bugge, J.F. Ranville, and C.Y. Chen|Bioavailability, Toxicity, and Bioaccumulation of Quantum Dot Nanoparticles to the Amphipod Leptocheirus plumulosus|Environ. Sci. Technol.46(10): 5550-5556|2012|10.1021/es202864r
160194|A||Bulloch,D.N., R. Lavado, K.L. Forsgren, S. Beni, D. Schlenk, and C.K. Larive|Analytical and Biological Characterization of Halogenated Gemfibrozil Produced Through Chlorination of Wastewater|Environ. Sci. Technol.46(10): 5583-5589|2012|10.1021/es3006173
160195|A||Aristilde,L., Y. Xu, and F.M.M. Morel|Weak Organic Ligands Enhance Zinc Uptake in Marine Phytoplankton|Environ. Sci. Technol.46(10): 5438-5445|2012|10.1021/es300335u
160196|T||Mandal,T.K., and N.S. Das|Correlation of Testicular Toxicity and Oxidative Stress Induced by Chlorpyrifos in Rats|Hum. Exp. Toxicol.30(10): 1529-1539|2011|10.1177/0960327110392400
160197|T||Mehta,A., R.S. Verma, and N. Srivastava|Chlorpyrifos Induced Alterations in the Levels of Hydrogen Peroxide, Nitrate and Nitrite in Rat Brain and Liver|Pestic. Biochem. Physiol.94(2/3): 55-59|2006|
160198|T||Moreira,E.G., X. Yu, J.F. Robinson, W. Griffith, S.W. Hong, R.P. Beyer, T.K. Bammler, and E.M. Faustman|Toxicogenomic Profiling in Maternal and Fetal Rodent Brains Following Gestational Exposure to Chlorpyrifos|Toxicol. Appl. Pharmacol.245(3): 310-325|2010|10.1016/j.taap.2010.03.015
160199|A||Togunde,O.P., K.D. Oakes, M.R. Servos, and J. Pawliszyn|Determination of Pharmaceutical Residues in Fish Bile by Solid-Phase Microextraction Couple with Liquid Chromatography-Tandem Mass Spectrometry (LC/MS/MS)|Environ. Sci. Technol.46(10): 5302-5309|2012|10.1021/es203758n
160200|T||Abdel-Gawad,H., and H. Taha|Bioavailability and Toxicological Potential of Sunflower-Bound Residues of 14C-Chlorpyrifos Insecticide in Rats|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes46(8): 683-690|2011|
160201|T||Acker,C.I., and C.W. Nogueira|Chlorpyrifos Acute Exposure Induces Hyperglycemia and Hyperlipidemia in Rats|Chemosphere89(5): 602-608|2012|10.1016/j.chemosphere.2012.05.059
160202|T||Akhtar,N., M.K. Srivastava, and R.B. Raizada|Assessment of Chlorpyrifos Toxicity on Certain Organs in Rat, Rattus norvegicus|J. Environ. Biol.30(6): 1047-1053|2009|
160203|A||Piccapietra,F., C.G. Allue, L. Sigg, and R. Behra|Intracellular Silver Accumulation in Chlamydomonas reinhardtii Upon Exposure to Carbonate Coated Silver Nanoparticles and Silver Nitrate|Environ. Sci. Technol.46(13): 7390-7397|2012|10.1021/es300734m
160204|T||Ahmed,N.S., A.S. Mohamed, and M.A. Abdel-Wahhab|Chlorpyrifos-Induced Oxidative Stress and Histological Changes in Retinas and Kidney in Rats: Protective Role of Ascorbic Acid and alpha Tocopherol|Pestic. Biochem. Physiol.98(1): 33-38|2010|10.1016/j.pestbp.2010.04.006
160205|T||Ambali,S.F., A.T. Abubakar, M. Shittu, L.S. Yaqub, S.B. Anafi, and A. Abdullahi|Chlorpyrifos-Induced Alteration of Hematological Parameters in Wistar Rats: Ameliorative Effect of Zinc|Res. J. Environ. Toxicol.4(2): 55-66|2010|10.3923/rjet.2010.55.66
160206|T||Ambali,S.F., J.O. Ayo, S.A. Ojo, and K.A.N. Esievo|Vitamin E Protects Wistar Rats from Chlorpyrifos-Induced Increase in Erythrocyte Osmotic Fragility|Food Chem. Toxicol.48(12): 3477-3480|2010|10.1016/j.fct.2010.09.026
160207|A||Lilley,T.M., L. Ruokolainen, A. Pikkarainen, V.N. Laine, J. Kilpimaa, M.J. Rantala, and M. Nikinmaa|Impact of Tributyltin on Immune Response and Life History Traits of Chironomus riparius:  Single and Multigeneration Effects and Recovery from Pollution|Environ. Sci. Technol.46(13): 7382-7389|2012|10.1021/es300536t
160208|A||Agatz,A., M. Hammers-Wirtz, F. Gabsi, H.T. Ratte, C.D. Brown, and T.G. Preuss|Promoting Effects on Reproduction Increase Population Vulnerability of Daphnia magna|Environ. Toxicol. Chem.31(7): 1604-1610|2012|10.1002/etc.1862
160209|A||Hazelton,P.D., W.G. Cope, T.J. Pandolfo, S. Mosher, M.J. Strynar, M.C. Barnhart, and R.B. Bringolf|Partial Life-Cycle and Acute Toxicity of Perfluoroalkyl Acids to Freshwater Mussels|Environ. Toxicol. Chem.31(7): 1611-1620|2012|10.1002/etc.1866
160210|A||Miao,A.J., N.X. Wang, L.Y. Yang, and W.X. Wang|Accumulation Kinetics of Arsenic in Daphnia magna Under Different Phosphorus and Food Density Regimes|Environ. Toxicol. Chem.31(6): 1283-1291|2012|10.1002/etc.1822
160211|A||Liu,F., D.Z. Wang, and W.X. Wang|Cadmium-Induced Changes in Trace Element Bioaccumulation and Proteomics Perspective in Four Marine Bivalves|Environ. Toxicol. Chem.31(6): 1292-1300|2012|10.1002/etc.1823
160212|T||Abdelqader,A., B. Qarallah, D. Al-Ramamneh, and G. Das|Anthelmintic Effects of Citrus Peels Ethanolic Extracts Against Ascaridia galli|Vet. Parasitol.188(1/2): 78-84|2012|10.1016/j.vetpar.2012.03.003
160213|T||Awang,K., H. Ibrahim, D.R. Syamsir, M. Mohtar, R.M. Ali, and N.A.M. Ali|Chemical Constituents and Antimicrobial Activity of the Leaf and Rhizome Oils of Alpinia pahangensisridl RIDL., an Endemic Wild Ginger from Peninsular Malaysia|Chem. Biodivers.8(4): 668-673|2011|10.1002/cbdv.201000225
160214|T||Cabral,C., V. Francisco, C. Cavaleiro, M.J. Goncalves, M.T. Cruz, F. Sales, M.T. Batista, and L. Salgueiro|Essential Oil of Juniperus communis subsp. alpina (Suter) Celak Needles: Chemical Composition, Antifungal Activity and Cytotoxicity|PTR. Phytother.Res.26:1352-1357|2012|10.1002/ptr.3730
160215|T||Roman-Ruiz,A.K., E.A. Malo, G. Huerta, A. Castillo, J.F. Barrera, and J.C. Rojas|Identification and Origin of Host-Associated Volatiles Attractive to Prorops nasuta, a Parasitoid of the Coffee Berry Borer|Arthropod-Plant Interact.6:611-620|2012|10.1007/s11829-012-9197-0
160216|A||Nascimento,J.C., J.M. David, L.C.A. Barbosa, V.F. De Paula, A.J. Demuner, J.P. David, L.M. Conserva, J.C.,Jr. Ferreira,|Larvicidal Activities and Chemical Composition of Essential Oils from Piper klotzschianum (Kunth) C. DC. (Piperaceae)|Pest Manag. Sci.:5 p.|2013|
160217|AT||Zahran,H.E.D.M., and S.A.M. Abdelgaleil|Insecticidal and Developmental Inhibitory Properties of Monoterpenes on Culex pipiens L. (Diptera: Culicidae)|J. Asia Pac. Entomol.14(1): 46-51|2011|10.1016/j.aspen.2010.11.013
160218|T||Arevalo,H.A., and P.A. Stansly|Suppression of Myllocerus undatus (Coleoptera: Curculionidae) in Valencia Orange with Chlorpyrifos Sprays Directed at Ground and Foliage|Fla. Entomol.92(1): 150-152|2009|10.1653/024.092.0123
160219|AT||Pavela,R.|Larvicidal Property of Essential Oils Against Culex quinquefasciatus Say (Diptera: Culicidae)|Ind. Crops Prod.30:311-315|2009|10.1016/j.indcrop.2009.06.005
160221|T||Baireddy,P., J. Liu, M. Hinsdale, and C. Pope|Comparative Effects of Chlorpyrifos in Wild Type and Cannabinoid Cb1 Receptor Knockout Mice|Toxicol. Appl. Pharmacol.256(3): 324-329|2011|10.1016/j.taap.2011.05.018
160222|T||Barski,D., A. Spodniewska, and A. Zasadowski|Activity of Superoxide Dysmutase, Catalase and Glutathione Peroxidase in Rats Exposed to Chlorpyrifos and Erofloxacin|Pol. J. Vet. Sci.14(4): 523-529|2011|10.2478/v10181-011-0078-8
160223|T||Basha,P.M., and A. Poojary|Chlorpyrifos Induced Region Specific Vulnerability in Rat CNS and Modulation by Age and Cold Stress: An Interactive Study|Neurochem. Res.36(2): 241-249|2011|10.1007/s11064-010-0311-3
160224|T||Arslan,M., and S. Dervis|Antifungal Activity of Essential Oils Against Three Vegetative-Compatibility Groups of Verticillium dahliae|World J. Microbiol. Biotechnol.26:1813-1821|2010|10.1007/s11274-010-0362-2
160225|T||Basha,P.M., and A. Poojary|Oxidative Macromolecular Alterations in the Rat Central Nervous System in Response to Experimentally Co-Induced Chlorpyrifos and Cold Stress: a Comparative Assessment in Aging Rats|Neurochem. Res.37(2): 335-348|2012|10.1007/s11064-011-0617-9
160226|T||Waikedre,J., A. Dugay, I. Barrachina, C. Herrenknecht, P. Cabalion, and A. Fournet|Chemical Composition and Antimicrobial Activity of the Essential Oils from New Caledonian Citrus macroptera and Citrus hystrix|Chem. Biodivers.7(4): 871-877|2010|10.1002/cbdv.200900196
160227|T||Bhatti,G.K., R. Kiran, and R. Sandhir|Modulation of Ethion-Induced Hepatotoxicity and Oxidative Stress by Vitamin E Supplementation in Male Wistar Rats|Pestic. Biochem. Physiol.98(1): 26-32|2010|10.1016/j.pestbp.2010.04.005
160228|T||Braquenier,J.B., E. Quertemont, E. Tirelli, and J.C. Plumier|Anxiety in Adult Female Mice Following Perinatal Exposure to Chlorpyrifos|Neurotoxicol. Teratol.32(2): 234-239|2010|10.1016/j.ntt.2009.08.008
160229|T||Bozkurt,A., T. Yardan, E. Ciftcioglu, A. Baydin, A. Hakligor, M. Bitigic, and S. Bilge|Time Course of Serum S100B Protein and Neuron-Specific Enolase Levels of a Single Dose of Chlorpyrifos in Rats|Basic Clin. Pharmacol. Toxicol.107(5): 893-898|2010|10.1111/j.1742-7843.2010.00593.x
160230|A||Cacciatore,L.C., N.V. Guerrero, and A.C. Cochon|Cholinesterase and Carboxylesterase Inhibition in Planorbarius corneus Exposed to Binary Mixtures of Azinphos-Methyl and Chlorpyrifos|Aquat. Toxicol.128/129:124-134|2013|10.1016/j.aquatox.2012.12.005
160231|T||Kurdelas,R.R., S. Lopez, B. Lima, G.E. Feresin, J. Zygadlo, S. Zacchino, M.L. Lopez, A. Tapia, and M.L. Freile|Chemical Composition, Anti-Insect and Antimicrobial Activity of Baccharis darwinii Essential Oil from Argentina, Patagonia|Ind. Crops Prod.40:261-267|2012|10.1016/j.indcrop.2012.03.024
160232|A||Rosa,R., P. Materatski, M. Moreira-Santos, J.P. Sousa, and R. Ribeiro|A Scaled-up System to Evaluate Zooplankton Spatial Avoidance and the Population Immediate Decline Concentration|Environ. Toxicol. Chem.31(6): 1301-1305|2012|10.1002/etc.1813
160233|A||Mebane,C.A., F.S. Dillon, and D.P. Hennessy|Acute Toxicity of Cadmium, Lead, Zinc, and Their Mixtures to Stream-Resident Fish and Invertebrates|Environ. Toxicol. Chem.31(6): 1334-1348|2012|10.1002/etc.1820
160234|A||Simmons,J.A.|Toxicity of Major Cations and Anions (Na+, K+, Ca2+, Cl-, and SO2/4-) to a Macrophyte and an Alga|Environ. Toxicol. Chem.31(6): 1370-1374|2012|10.1002/etc.1819
160235|A||Hogan,N.S., M.J. Gallant, and M.R. Van den Heuvel|Exposure to the Pesticide Linuron Affects Androgen-Dependent Gene Expression in the Three-Spined Stickleback (Gasterosteus aculeatus)|Environ. Toxicol. Chem.31(6): 1391-1395|2012|10.1002/etc.1815
160237|A||Boone,M.D., and N.H. Sullivan|Impact of an Insecticide Changes with Amount of Leaf Litter Input:  Implications for Amphibian Populations|Environ. Toxicol. Chem.31(7): 1518-1524|2012|10.1002/etc.1832
160238|A||Gutierrez-Praena,D., M. Puerto, A.I. Prieto, A. Jos, S. Pichardo, V. Vasconcelos, and A.M. Camean|Protective Role of Dietary N-Acetylcysteine on the Oxidative Stress Induced by Cylindrospermopsin in Tilapia (Oreochromis niloticus)|Environ. Toxicol. Chem.31(7): 1548-1555|2012|10.1002/etc.1838
160239|A||Adeyemi,J.A., and P.L. Klerks|Salinity Acclimation Modulates Copper Toxicity in the Sheepshead Minnow, Cyprinodon variegatus|Environ. Toxicol. Chem.31(7): 1573-1578|2012|10.1002/etc.1850
160240|A||Lance,S.L., M.R. Erickson, R.W. Flynn, G.L. Mills, T.D. Tuberville, and D.E. Scott|Effects of Chronic Copper Exposure on Development and Survival in the Southern Leopard Frog (Lithobates (Rana) sphenocephalus)|Environ. Toxicol. Chem.31(7): 1587-1594|2012|10.1002/etc.1849
160241|A||Simmons,D.B.D., and R.J.N. Emery|Phytochelatin Induction by Selenate in Chlorella vulgaris, and Regulation of Effect by Sulfate Levels|Environ. Toxicol. Chem.30(2): 469-476|2011|10.1002/etc.392
160242|A||Coors,A., J. Dobrick, M. Moder, and A. Kehrer|Mixture Toxicity of Wood Preservative Products in the Fish Embryo Toxicity Test|Environ. Toxicol. Chem.31(6): 1239-1248|2012|10.1002/etc.1827
160243|A||Van der Welle,M.E.W., A.J.P. Smolders, H.J.M. Op den Camp, J.G.M. Roelofs, and L.P.M. Lamers|Biogeochemical Interactions Between Iron and Sulphate in Freshwater Wetlands and Their Implications for Interspecific Competition Between Aquatic Macrophytes|Freshw. Biol.52(3): 434-447|2007|10.1111/j.1365-2427.2006.01683.x
160244|A||Werner,J., V.P. Palace, K.G. Wautier, K.H. Mills, S.M. Chalanchuk, and K.A. Kidd|Reproductive Fitness of Lake Trout (Salvelinus namaycush) Exposed to Environmentally Relevant Concentrations of the Potent Estrogen Ethynylestradiol (EE2) in a Whole Lake Exposure Experiment|Sci. Mar.70(Suppl. 2): 59-66|2006|10.3989/scimar.2006.70s259
160245|A||Li,X., Y. Ma, D. Li, X. Gao, P. Li, N. Bai, M. Luo, X. Tan, C. Lu, and X. Ma|Arsenic Impairs Embryo Development via Down-Regulating Dvr1 Expression in Zebrafish|Toxicol. Lett.212(2): 161-168|2012|10.1016/j.toxlet.2012.05.011
160246|A||Bukaveckas,P.A.|Effects of Calcite Treatment on Primary Producers in Acidified Adirondack Lakes.  II.  Short-Term Response by Phytoplankton Communities|Can. J. Fish. Aquat. Sci.46:352-359|1989|10.1139/f89-046
160247|T||Carrasco-Letelier,L., Y. Mendoza-Spina, and M.B. Branchiccela|Acute Contact Toxicity Test of Insecticides (Cipermetrina 25, Lorsban 48E, Thionex 35) on Honeybees in the Southwestern Zone of Uruguay|Chemosphere88(4): 439-444|2012|10.1016/j.chemosphere.2012.02.062
160248|A||Lizieri,C., K.N. Kuki, and R. Aguiar|The Morphophysiological Responses of Free-Floating Aquatic Macrophytes to a Supra-Optimal Supply of Manganese|Water Air Soil Pollut.223(5): 2807-2820|2012|10.1007/s11270-011-1068-2
160249|T||Cole,T.B., J.C. Fisher, T.M. Burbacher, L.G. Costa, and C.E. Furlong|Neurobehavioral Assessment of Mice Following Repeated Postnatal Exposure to Chlorpyrifos-Oxon|Neurotoxicol. Teratol.34(3): 311-322|2012|10.1016/j.ntt.2012.02.003
160250|T||Eells,J.B., and T. Brown|Repeated Developmental Exposure to Chlorpyrifos and Methyl Parathion Causes Persistent Alterations in Nicotinic Acetylcholine Subunit mRNA Expression with Chlorpyrifos Altering Dopamine Metabolite Levels|Neurotoxicol. Teratol.31(2): 98-103|2009|10.1016/j.ntt.2008.10.002
160251|T||Chen,W.Q., L. Yuan, R. Xue, Y.F. Li, R.B. Su, Y.Z. Zhang, and J. Li|Repeated Exposure to Chlorpyrifos Alters the Performance of Adolescent Male Rats in Animal Models of Depression and Anxiety|Neurotoxicology32(4): 355-361|2011|10.1016/j.neuro.2011.03.008
160252|T||Slotkin,T.A., and F.J. Seidler|Developmental Neurotoxicity of Organophosphates Targets Cell Cycle and Apoptosis, Revealed by Transcriptional Profiles In Vivo and In Vitro|Neurotoxicol. Teratol.34(2): 232-241|2012|10.1016/j.ntt.2011.12.001
160253|A||Khan,M.R., S.I. Mozumder, A. Islam, D.M.R. Prasad, and M.M. Alam|Methylene Blue Adsorption onto Water Hyacinth:  Batch and Column Study|Water Air Soil Pollut.223(6): 2943-2953|2012|10.1007/s11270-012-1078-8
160254|A||Diaz,S., R. Villares, and A. Carballeira|Uptake Kinetics of As, Hg, Sb, and Se in the Aquatic Moss Fontinalis antipyretica Hedw.|Water Air Soil Pollut.223(6): 3409-3423|2012|10.1007/s11270-012-1120-x
160255|T||Cloyd,R.A., N.R. Timmons, J.M. Goebel, and K.E. Kemp|Effect of Pesticides on Adult Rove Beetle Atheta coriaria (Coleoptera: Staphylinidae) Survival in Growing Medium|J. Econ. Entomol.102(5): 1750-1758|2009|10.1603/029.102.0504
160256|T||Tripathi,S., and A.K. Srivastav|Nephrotoxicity Induced by Long-Term Oral Administration of Different Doses of Chlorpyrifos|Toxicol. Ind. Health26(7): 439-47|2010|10.1177/0748233710371110
160257|T||Ahmad,F., S. Iqbal, S. Anwar, M. Afzal, E. Islam, T. Mustafa, and Q.M. Khan|Enhanced Remediation of Chlorpyrifos from Soil Using Ryegrass (Lollium multiflorum) and Chlorpyrifos-Degrading Bacterium Bacillus pumilus C2A1|J. Hazard. Mater.237/238:110-115|2012|10.1016/j.jhazmat.2012.08.006
160258|T||Chu,X., H. Fang, X. Pan, X. Wang, M. Shan, B. Feng, and Y. Yu|Degradation of Chlorpyrifos Alone and in Combination with Chlorothalonil and Their Effects on Soil Microbial Populations|J. Environ. Sci.20(4): 464-469|2008|10.1016/S1001-0742(08)62080-X
160259|A||Rema,L.P., and P. Babu|Metallothionein or Metallothionein like Proteins and Heavy Metal Toxicity in Oreochromis mossambicus (Peters)|Indian J. Exp. Biol.34(6): 527-530|1996|
160260|A||Kumar,P., V.K. Singh, C.P.M. Tripathi, and D.K. Singh|Effects of Molluscicidal Constituents in Spices on Reproduction in Snails|J. Herbs Spices Med. Plants16:24-35|2010|10.1080/10496475.2010.481918
160261|A||Kumar,P., V.K. Singh, and D.K. Singh|Combination of Molluscicides with Attractant Carbohydrates and Amino Acids in Bait Formulation Against the Snail Lymnaea acuminata|Eur. Rev. Med. Pharmacol. Sci.15(5): 550-555|2011|
160262|T||Zhang,F., J. Guo, F. Chen, W. Liu, and F. Wan|Identification of Volatile Compounds Released by Leaves of the Invasive Plant Croftonweed (Ageratina adenophora, Compositae), and Their Inhibition of Rice Seedling Growth|Weed Sci.60:205-211|2012|10.1614/WS-D-11-00156.1
160263|A||Cheng,S.S., C.G. Huang, Y.J. Chen, J.J. Yu, W.J. Chen, and S.T. Chang|Chemical Compositions and Larvicidal Activities of Leaf Essential Oils from Two Eucalyptus Species|Bioresour. Technol.100:452-456|2009|10.1016/j.biortech.2008.02.038
160264|A||Cheng,S.S., M.T. Chua, E.H. Chang, C.G. Huang, W.J. Chen, and S.T. Chang|Variations in Insecticidal Activity and Chemical Compositions of Leaf Essential Oils from Cryptomeria japonica at Different Ages|Bioresour. Technol.100:465-470|2009|10.1016/j.biortech.2007.11.060
160265|T||Yang,T., G. Stoopen, N. Yalpani, J. Vervoort, R. De Vos, A. Voster, F.W.A. Verstappen, H.J. Bouwmeester, and M.A. Jongs|Metabolic Engineering of Geranic Acid in Maize to Achieve Fungal Resistance is Compromised by Novel Glycosylation Patterns|Metab. Eng.13:414-425|2011|10.1016/j.ymben.2011.01.011
160266|T||Lennartsson,P.R., P. Ylitervo, C. Larsson, L. Edebo, and M.J. Taherzadeh|Growth Tolerance of Zygomycetes Mucor indicus in Orange Peel Hydrolysate Without Detoxification|Process Biochem.47(5): 836-842|2012|10.1016/j.procbio.2012.02.019
160267|T||Zhou,W., M. Yoshioka, and H. Yokogoshi|Sub-Chronic Effects of s-Limonene on Brain Neurotransmitter Levels and Behavior of Rats|J. Nutr. Sci. Vitaminol.55:367-373|2009|10.3177/jnsv.55.367
160268|A||Youn,S., R. Wang, J. Gao, A. Hovespyan, K.J. Ziegler, J.C.J. Bonzongo, and G. Bitton|Mitigation of the Impact of Single-Walled Carbon Nanotubes on a Freshwater Green Algae: Pseudokirchneriella subcapitata|Nanotoxicology6(2): 161-172|2012|10.3109/17435390.2011.562329
160269|T||Zhang,B., G. Chu, C. Wei, J. Ye, Z. Li, and Y. Liang|The Growth and Antioxidant Defense Responses of Wheat Seedlings to Omethoate Stress|Pestic. Biochem. Physiol.100(3): 273-279|2011|10.1016/j.pestbp.2011.04.012
160270|T||Landry,R.S.|The Response of Bermudagrasses (Cynodon dactylon (L.) pers. X C. transvaalensis Burtt-Davy) and Creeping Bentgrass (Agrostis stolonifera (L.)) to a Commercial Humectant and Wetting Agents During Summer|M.S. Thesis, Clemson University, Clemson, SC:98 p.|2012|
160271|A||Sutthanont,N., W. Choochote, B. Tuetun, A. Junkum, A. Jitpakdi, U. Chaithong, D. Riyong, and B. Pitasawat|Chemical Composition and Larvicidal Activity of Edible Plant-Derived Essential Oils Against the Pyrethroid-Susceptible and -Resistant Strains of Aedes aegypti (Diptera: Culicidae)|J. Vector Ecol.35(1): 106-115|2010|10.1111/j.1948-7134.2010.00066.x
160272|T||Yan,C., L. Jiao, J. Zhao, H. Yang, and S. Peng|Repeated Exposures to Chlorpyrifos Lead to Spatial Memory Retrieval Impairment and Motor Activity Alteration|Neurotoxicol. Teratol.34(4): 442-449|2012|10.1016/j.ntt.2012.05.053
160273|T||Casabe,N., L. Piola, J. Fuchs, M.L. Oneto, L. Pamparato, S. Basack, R. Gimenez, R. Massaro, J.C. Papa, and E. Kesten|Ecotoxicological Assessment of the Effects of Glyphosate and Chlorpyrifos in an Argentine Soya Field|J. Soils Sediments7(4): 232-239|2007|10.1065/jss2007.04.224
160274|T||Werner,S.J., G.M. Linz, S.K. Tupper, and J.C. Carlson|Laboratory Efficacy of Chemical Repellents for Reducing Blackbird Damage in Rice and Sunflower Crops|J. Wildl. Manag.74(6): 1400-1404|2010|10.2193/2009-287
160275|T||Chen,X.P., X. Wang, and J.Y. Dong|Different Reaction Patterns of Dopamine Content to Prenatal Exposure to Chlorpyrifos in Different Periods|J. Appl. Toxicol.31(4): 355-359|2011|10.1002/jat.1598
160276|T||De Moraes,J., A.A.C. Almeida, M.R.M. Brito, T.H.C. Marques, T.C. Lima, D.P. De Sousa, E. Nakano, R.Z. Mendonca, and R.M|Anthelmintic Activity of the Natural Compound (+)-Limonene Epoxide Against Schistosoma mansoni|Planta Med.79(3/4): 253-258|2013|
160277|A||Govindarajan,M., R. Sivakumar, M. Rajeswari, and K. Yogalakshmi|Chemical Composition and Larvicidal Activity of Essential Oil from Mentha spicata (Linn.) Against Three Mosquito Species|Parasitol. Res.110(5): 2023-2032|2012|10.1007/s00436-011-2731-7
160278|T||Arruda,D.C., D.C. Miguel, J.K.U. Yokoyama-Yasunaka, A.M. Katzin, and S.R.B. Uliana|Inhibitory Activity of Limonene Against Leishmania Parasites In Vitro and In Vivo|Biomed. Pharmacother.63(9): 643-649|2009|10.1016/j.biopha.2009.02.004
160280|T||Kennedy,J.E., P.C. Dave, L.N. Harbin, and W.N. Setzer|Allelopathic Potential of Sassafras albidum and Pinus taeda Essential Oils|Allelopathy J.27:111-122|2011|
160281|T||Rammanee,K., and T. Hongpattarakere|Effects of Tropical Citrus Essential Oils on Growth, Aflatoxin Production, and Ultrastructure Alterations of Aspergillus flavus and Aspergillus parasiticus|Food Bioprocess Technol.4:1050-1059|2011|10.1007/s11947-010-0507-1
160282|T||Vale-Silva,L., M.J. Silva, D. Oliveira, M.J. Goncalves, C. Cavaleiro, L. Salgueiro, and E. Pinto|Correlation of the Chemical Composition of Essential Oils from Origanum vulgare subsp. virens with Their In Vitro Activity Against Pathogenic Yeasts and Filamentous Fungi|J. Med. Microbiol.61:252-260|2012|10.1099/jmm.0.036988-0
160284|T||De Silva,P.M.C.S., and C.A.M. Van Gestel|Development of an Alternative Artificial Soil for Earthworm Toxicity Testing in Tropical Countries|Appl. Soil Ecol.43(2/3): 170-174|2009|10.1016/j.apsoil.2009.07.002
160285|A||Xing,H., H. Wu, G. Sun, Z. Zhang, S. Xu, and S. Li|Alterations in Activity and mRNA Expression of Acetylcholinesterase in the Liver, Kidney and Gill of Common Carp Exposed to Atrazine and Chlorpyrifos|Environ. Toxicol. Pharmacol.35(1): 47-54|2013|10.1016/j.etap.2012.11.004
160286|A||Xing,H., S. Li, X. Wang, X. Gao, S. Xu, and X. Wang|Effects of Atrazine and Chlorpyrifos on the mRNA Levels of HSP70 and HSC70 in the Liver, Brain, Kidney and Gill of Common Carp (Cyprinus carpio L.)|Chemosphere90(3): 910-916|2013|10.1016/j.chemosphere.2012.06.028
160287|A||Xing,H., S. Li, Z. Wang, X. Gao, S. Xu, and X. Wang|Histopathological Changes and Antioxidant Response in Brain and Kidney of Common Carp Exposed to Atrazine and Chlorpyrifos|Chemosphere88(4): 377-383|2012|10.1016/j.chemosphere.2012.02.049
160288|A||Rivadeneira,P.R., M. Agrelo, S. Otero, and G. Kristoff|Different Effects of Subchronic Exposure to Low Concentrations of the Organophosphate Insecticide Chlorpyrifos in a Freshwater Gastropod|Ecotoxicol. Environ. Saf.90:82-88|2013|10.1016/j.ecoenv.2012.12.013
160289|A||Patetsini,E., V.K. Dimitriadis, and M. Kaloyianni|Biomarkers in Marine Mussels, Mytilus galloprovincialis, Exposed to Environmentally Relevant Levels of the Pesticides, Chlorpyrifos and Penoxsulam|Aquat. Toxicol.126:338-345|2013|10.1016/j.aquatox.2012.09.009
160290|A||Narra,M.R., G. Begum, K. Rajender, and J.V. Rao|Sub-Lethal Effect of Chlorpyrifos on Protein Metabolism of the Food Fish Clarias batrachus and Monitoring of Recovery|Toxicol. Environ. Chem.93(8): 1650-1658|2011|10.1080/02772248.2011.593520
160291|A||Narra,M.R., G. Begum, K. Rajender, and J.V. Rao|Toxic Impact of Two Organophosphate Insecticides on Biochemical Parameters of a Food Fish and Assessment of Recovery Response|Toxicol. Ind. Health28(4): 343-352|2012|10.1177/0748233711412423
160293|A||LeBlanc,H.M.K., J.M. Culp, D.J. Baird, A.C. Alexander, and A.J. Cessna|Single Versus Combined Lethal Effects of Three Agricultural Insecticides on Larvae of the Freshwater Insect Chironomus dilutus|Arch. Environ. Contam. Toxicol.63(3): 378-390|2012|10.1007/s00244-012-9777-0
160294|A||Ding,Y., P.F. Landrum, J. You, A.D. Harwood, and M.J. Lydy|Use of Solid Phase Microextraction to Estimate Toxicity: Relating Fiber Concentrations to Toxicity - Part I|Environ. Toxicol. Chem.31(9): 2159-2167|2012|10.1002/etc.1935
160295|A||Gawish,A.M., A.M. Issa, M.A. Ali, and G.A. Ismail|Histopathological, Histochemical and Biochemical Studies on the Effects of Lorsban on the Liver of Nile Tilapia and the Possible Declaring Effect of Antioxidants|Aust. J. Basic. Appl. Sci.5(12): 75-94|2011|
160296|T||Vassiliou,V.A.|Chemical Control of Pezothrips kellyanus (Thysanoptera: Thripidae) in Citrus Plantations in Cyprus|Crop Prot.26(10): 1579-1584|2007|10.1016/j.cropro.2007.02.004
160297|T||Suma,P., L. Zappala, G. Mazzeo, and G. Siscaro|Lethal and Sub-Lethal Effects of Insecticides on Natural Enemies of Citrus Scale Pests|Biocontrol54(5): 651-661|2009|10.1007/s10526-009-9215-z
160298|T||Shapiro-Ilan,D.I., T.E. Cottrell, R.F. Mizell III, D.L. Horton, and J. Davis|A Novel Approach to Biological Control with Entomopathogenic Nematodes: Prophylactic Control of the Peachtree Borer, Synanthedon exitiosa|Biol. Control48:259-263|2009|10.1016/j.biocontrol.2008.10.008
160299|T||Saracco,P., C. Marzachi, and D. Bosco|Activity of Some Insecticides in Preventing Transmission of Chrysanthemum Yellows Phytoplasma ('Candidatus Phytoplasma asteris') by the Leafhopper Macrosteles quadripunctulatus Kirschbaum|Crop Prot.27(1): 130-136|2008|10.1016/j.cropro.2007.05.002
160300|T||Rahman,K., W.C.,Jr. Bridges, J.W. Chapin, and J.S. Thomas|Threecornered Alfalfa Hopper (Hemiptera: Membracidae): Seasonal Occurrence, Girdle Distribution, and Response to Insecticide Treatment on Peanut in South Carolina|J. Econ. Entomol.100(4): 1229-1240|2007|10.1093/jee/100.4.1229
160301|T||Morales-Rodriguez,A., A. Ospina, and D.C. Peck|Variation in the Laboratory Susceptibility of Turf-Infesting White Grubs (Coleoptera: Scarabaeidae) to Biological, Biorational and Chemical Control Products|Pest Manag. Sci.66(1): 90-99|2010|10.1002/ps.1835
160302|T||Khatri-Chhetri,H.B., G.P. Timsina, H.K. Manandhar, and M. Moens|Potential of Nepalese Entomopathogenic Nematodes as Biocontrol Agents Against Holotrichia longipennis Blanch. (Coleoptera: Scarabaeidae)|J. Pest Sci.84(4): 457-469|2011|10.1007/s10340-011-0370-5
160303|T||Goh,W.L., P.H. Yiu, S.C. Wong, and A. Rajan|Safe Use of Chlorpyrifos for Insect Pest Management in Leaf Mustard (Brassica juncea L. Coss.)|J. Food Agric. Environ.9(3/4): 1064-1066|2011|
160304|T||Dupont,C., R. Allemand, and J.M. Delpuech|Induction by Chlorpyrifos, of the Confusion of Males in Discriminating Female Sexual Pheromones Used for Mate Finding by Two Sympatric Trichogramma Species (Hymenoptera: Trichogrammatidae)|Environ. Entomol.39(2): 535-544|2010|10.1603/EN08126
160305|T||Delpuech,J.M., and L. Leger|Modifications of Trichogramma Behaviors During the Exploitation of Host Patches Induced by the Insecticide Chlorpyrifos|EcoHealth8(2): 190-198|2011|10.1007/s10393-011-0695-9
160306|T||Lister,L.J., C. Svendsen, J. Wright, H.L. Hooper, and D.J. Spurgeon|Modelling the Joint Effects of a Metal and a Pesticide on Reproduction and Toxicokinetics in Lumbricid Earthworms|Environ. Int.37(4): 663-670|2011|10.1016/j.envint.2011.01.006
160307|T||Itziou,A., M. Kaloyianni, and V.K. Dimitriadis|Effects of Organic Contaminants in Reactive Oxygen Species, Protein Carbonylation and DNA Damage on Digestive Gland and Haemolymph of Land Snails|Chemosphere85(6): 1101-1107|2011|10.1016/j.chemosphere.2011.07.043
160308|T||Gupta,S.C., M. Mishra, A. Sharma, T.G.R. Deepak Balaji, R. Kumar, R.K. Mishra, and D.K. Chowdhuri|Chlorpyrifos Induces Apoptosis and DNA Damage in Drosophila Through Generation of Reactive Oxygen Species|Ecotoxicol. Environ. Saf.73(6): 1415-1423|2010|10.1016/j.ecoenv.2010.05.013
160309|T||Gonzales Vejares,S., P. Sabat, and J.C. Sanchez-Hernandez|Tissue-Specific Inhibition and Recovery of Esterase Activities in Lumbricus terrestris Experimentally Exposed to Chlorpyrifos|Comp. Biochem. Physiol. C Toxicol. Pharmacol.151(3): 351-359|2010|10.1016/j.cbpc.2009.12.008
160310|T||DeSouza,O., O. Miramontes, C.A. Santos, and D.L. Bernardo|Social Facilitation Affecting Tolerance to Poisoning in Termites (Insecta, Isoptera)|Insectes Sociaux48(1): 21-24|2001|10.1007/PL00001739
160311|T||De Silva,P.M.C.S., A. Pathiratne, N.M. Van Straalen, and C.A.M. Van Gestel|Chlorpyrifos Causes Decreased Organic Matter Decomposition by Suppressing Earthworm and Termite Communities in Tropical Soil|Environ. Pollut.158(10): 3041-3047|2010|10.1016/j.envpol.2010.06.032
160312|T||Broerse,M., and C.A.M. Van Gestel|Chlorpyrifos Reduces Nickel-Induced Growth Retardation of the Soil Dwelling Collembolan Folsomia candida|Ecotoxicol. Environ. Saf.73(5): 1051-1056|2010|10.1016/j.ecoenv.2010.02.002
160313|T||Arthur,F.H., J.E. Throne, and R.A. Simonaitis|Chlorpyrifos-Methyl Degradation and Biological Efficacy Toward Maize Weevils (Coleoptera: Curculionidae) on Corn Stored at Four Temperatures and Three Moisture Contents|J. Econ. Entomol.84(6): 1926-1932|1991|10.1093/jee/84.6.1926
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160315|T||Wu,H., R. Zhang, J. Liu, Y. Guo, and E. Ma|Effects of Malathion and Chlorpyrifos on Acetylcholinesterase and Antioxidant Defense System in Oxya chinensis (Thunberg) (Orthoptera:  Acrididae)|Chemosphere83(4): 599-604|2011|10.1016/j.chemosphere.2010.12.004
160316|AT||Ludwig,P.D., J.C. McNeill IV, and W.O. Miller|Preliminary Results Obtained with Dursban in the Biotic Community|Down Earth22(4): 3-5|1967|
160317|T||Moustafa,O.K., and K.A. Abdel-Salam|Effect of Chlorpyrifos/Diflubenzuron and gamma Irradiation on the Relative Susceptibility of Spodoptera littoralis Larvae to Some Insecticides|Boll. Zool. Agrar. Bachic.23(2): 123-132|1991|
160318|T||Juan-Blasco,M., A. Tena, P. Vanaclocha, M. Cambra, A. Urbaneja, and C. Monzo|Efficacy of a Micro-Encapsulated Formulation Compared with a Sticky Barrier for Excluding Ants from Citrus Canopies|J. Appl. Entomol.135(6): 467-472|2011|10.1111/j.1439-0418.2010.01572.x
160319|T||Kanzaki,S., and T. Tanaka|Different Responses of a Solitary (Meteorus pulchricornis) and a Gregarious (Cotesia kariyai) Endoparasitoid to Four Insecticides in the Host Pseudaletia separata|J. Pestic. Sci. (Multiple Languages)35(1): 1-9|2010|10.1584/jpestics.G09-34
160320|T||Chandla,V.K., and R.S. Chandel|Integrated Management of Soil Pests of Potato in Higher Hills of Himachal Pradesh|Natl. Acad. Sci. Lett.30(7/8): 221-222|2007|
160321|T||He,G., Y. Sun, and F. Li|RNA Interference of Two Acetylcholinesterase Genes in Plutella xylostella Reveals Their Different Functions|Arch. Insect Biochem. Physiol.79(2): 75-86|2012|10.1002/arch.21007
160322|A||Singh,D.P., J.I.S. Khattar, J. Nadda, Y. Singh, A. Garg, N. Kaur, and A. Gulati|Chlorpyrifos Degradation by the Cyanobacterium Synechocystis sp. Strain PUPCCC 64|Environ. Sci. Pollut. Res. Int.18(8): 1351-1359|2011|10.1007/s11356-011-0472-x
160323|T||Vinuela,A., L.B. Snoek, J.A.G. Riksen, and J.E. Kammenga|Gene Expression Modifications by Temperature-Toxicants Interactions in Caenorhabditis elegans|PLoS One6(9): 1-11|2011|10.1371/journal.pone.0024676
160324|T||Fountain,M.T., R.S. Thomas, V.K. Brown, A.C. Gange, P.J. Murray, and W.O.C. Symondson|Effects of Nutrient and Insecticide Treatments on Invertebrate Numbers and Predation on Slugs in an Upland Grassland: a Monoclonal Antibody-Based Approach|Agric. Ecosyst. Environ.131(3/4): 145-153|2009|10.1016/j.agee.2009.01.005
160327|T||Angioni,A., F. Dedola, A. Garau, G. Sarais, P. Cabras, and P. Caboni|Chlorpyrifos Residues Levels in Fruits and Vegetables After Field Treatment|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes46(6): 544-549|2011|
160328|T||Pant,H., and S. Tripathi|Fungal Decay Resistance of Wood Fumigated with Chlorpyrifos|Int. Biodeterior. Biodegrad.64(7): 665-669|2010|10.1016/j.ibiod.2010.06.015
160329|T||Kunal, and P. Sharma|Compatibility of Mesorhizobium sp. Cicer with Seed Treatment of Fungicide and Insecticide in Chickpea|Arch. Agron. Soil Sci.58(1-3): 115-123|2012|10.1080/03650340.2010.506483
160330|T||Baylay,A.J., D.J. Spurgeon, C. Svendsen, J.L. Griffin, S.C. Swain, S.R. Sturzenbaum, and O.A.H. Jones|A Metabolomics Based Test of Independent Action and Concentration Addition Using the Earthworm Lumbricus rubellus|Ecotoxicology21(5): 1436-1447|2012|10.1007/s10646-012-0897-0
160331|T||Nandi,S., P.S.P. Gupta, S.C. Roy, S. Selvaraju, and J.P. Ravindra|Chlorpyrifos and Endosulfan Affect Buffalo Oocyte Maturation, Fertilization, and Embryo Development In Vitro Directly and Through Cumulus Cells|Environ. Toxicol.26(1): 57-67|2011|10.1002/tox.20529
160332|T||Samriti, R. Chauhan, and B. Kumari|Persistence of Chlorpyriphos in Okra (Abelmoschus esculentus) Fruits and Soil|Toxicol. Environ. Chem.94(9): 1726-1734|2012|10.1080/02772248.2012.728601
160333|AT||Mycobank|Fungal Databases and Nomenclature and Species Banks|www.mycobank.org:|2013|
160334|T||Asita,A.O., and R. Makhalemele|Genotoxicity of Chlorpyrifos, alpha-Thrin, Efekto Virikop and Springbok to Onion Root Tip Cells|Afr. J. Biotechnol.7(23): 4244-4250|2008|
160336|T||Warnasuriya,G.D., B.M. Elcombe, J.R. Foster, and C.R. Elcombe|A Mechanism for the Induction of Renal Tumours in Male Fischer 344 Rats by Short-Chain Chlorinated Paraffins|Arch. Toxicol.84(3): 233-243|2010|10.1007/s00204-009-0489-9
160337|A||Santos,S.R.L., M.A. Melo, A.V. Cardoso, R.L.C. Santos, D.P. De Sousa, and S.C.H. Cavalcanti|Structure-Activity Relationships of Larvicidal Monoterpenes and Derivatives Against Aedes aegypti Linn|Chemosphere84(1): 150-153|2011|10.1016/j.chemosphere.2011.02.018
160338|T||Olounlade,P.A., E.V.B. Azando, M.S. Hounzangbe-Adote, T.B.T. Ha, E. Leroy, C. Moulis, N. Fabre, J.F. Magnaval, H. Hoste|In Vitro Anthelmintic Activity of the Essential Oils of Zanthoxylum zanthoxyloides and Newbouldia laevis Against Strongyloides ratti|Parasitol. Res.110(4): 1427-1433|2012|10.1007/s00436-011-2645-4
160339|T||Marei,G.I.K., M.A.A. Rasoul, and S.A.M. Abdelgaleil|Comparative Antifungal Activities and Biochemical Effects of Monoterpenes on Plant Pathogenic Fungi|Pestic. Biochem. Physiol.103(1): 56-61|2012|10.1016/j.pestbp.2012.03.004
160340|T||Zhou,J., L. Zhang, Y. Chang, X. Lu, Z. Zhu, and G. Xu|Alteration of Leaf Metabolism in Bt-Transgenic Rice (Oryza sativa L.) and Its Wild Type Under Insecticide Stress|J. Proteome Res.11(8): 4351-4360|2012|10.1021/pr300495x
160341|T||Maya,K., S.N. Upadhyay, R.S. Singh, and S.K. Dubey|Degradation Kinetics of Chlorpyrifos and 3,5,6-Trichloro-2-Pyridinol (TCP) by Fungal Communities|Bioresour. Technol.126:216-223|2012|10.1016/j.biortech.2012.09.003
160342|T||Chai,L.K., N. Mohd-Tahir, and H.C. Bruun Hansen|Dissipation of Acephate, Chlorpyrifos, Cypermethrin and Their Metabolites in a Humid-Tropical Vegetable Production System|Pest Manag. Sci.65(2): 189-196|2009|10.1002/ps.1667
160344|T||Galietta,G., E. Egana, F. Gemelli, D. Maeso, N. Casco, P. Conde, and S. Nunez|Pesticide Dissipation Curves in Peach, Pear and Tomato Crops in Uruguay|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes45(8): 862-867|2010|
160345|T||Silambarasan,S., and J. Abraham|Ecofriendly Method for Bioremediation of Chlorpyrifos from Agricultural Soil by Novel Fungus Aspergillus terreus JAS1|Water Air Soil Pollut.224(1): 11 p.|2013|10.1007/s11270-012-1369-0
160346|T||Virag,D., Z. Naar, and A. Kiss|Microbial Toxicity of Pesticide Derivatives Produced with UV-Photodegradation|Bull. Environ. Contam. Toxicol.79(3): 356-359|2007|10.1007/s00128-007-9230-7
160347|T||Sharma,I., R. Bhardwaj, and P.K. Pati|Mitigation of Adverse Effects of Chlorpyrifos by 24-Epibrassinolide and Analysis of Stress Markers in a Rice Variety Pusa Basmati-1|Ecotoxicol. Environ. Saf.85:72-81|2012|10.1016/j.ecoenv.2012.07.003
160349|T||Lee,K.Y., S.E. Strand, and S.L. Doty|Phytoremediation of Chlorpyrifos by Populus and Salix|Int. J. Phytoremediat.14(1): 48-61|2012|10.1080/15226514.2011.560213
160350|T||Tejada,M., I. Gomez, and M. Del Toro|Use of Organic Amendments as a Bioremediation Strategy to Reduce the Bioavailability of Chlorpyrifos Insecticide in Soils. Effects on Soil Biology|Ecotoxicol. Environ. Saf.74(7): 2075-2081|2011|10.1016/j.ecoenv.2011.07.005
160351|T||Samriti, R. Chauhan, and B. Kumari|Persistence and Effect of Processing on Reduction of Chlorpyriphos Residues in Okra Fruits|Bull. Environ. Contam. Toxicol.87(2): 198-201|2011|10.1007/s00128-011-0306-z
160352|T||Myers,C.M., L.L. Lewallen, and B. Nobe|Residue Studies of Fenthion (Baytex) and Dursban in Central California Pastures|Calif. Vector Views15(5): 51-|1968|
160353|A||Antunes,S.C., J.L. Pereira, A. Cachada, A.C. Duarte, F. Gonalves, J.P. Sousa, and R. Pereira|Structural Effects of the Bioavailable Fraction of Pesticides in Soil:  Suitability of Elutriate Testing|J. Hazard. Mater.184(1-3): 215-225|2010|10.1016/j.jhazmat.2010.08.025
160354|T||Arthur,F.H., J.E. Throne, and R.A. Simonaitis|Degradation and Biological Efficacy of Chlorpyrifos-Methyl on Wheat Stored at Five Temperatures and Three Moisture Contents|J. Econ. Entomol.85(5): 1994-2002|1992|10.1093/jee/85.5.1994
160355|T||Leuck,D.B., M.C. Bowman, and E.W. Beck|Dursban Insecticide Persistence in Grass and Corn Forage|J. Econ. Entomol.61(3): 689-690|1968|10.1093/jee/61.3.689
160356|T||Juraske,R., C.S.M. Vivas, A.E. Velasquez, G.G. Santos, M.B.B. Moreno, J.D. Gomez, C.R. Binder, S. Hellweg, and J.A.G. D|Pesticide Uptake in Potatoes:  Model and Field Experiments|Environ. Sci. Technol.45(2): 651-657|2011|10.1021/es102907v
160357|T||Seidler,F.J., and T.A. Slotkin|Developmental Neurotoxicity Targeting Hepatic and Cardiac Sympathetic Innervation: Effects of Organophosphates are Distinct from Those of Glucocorticoids|Brain Res. Bull.85(3/4): 225-230|2011|10.1016/j.brainresbull.2011.03.021
160358|T||Wielgomas,B., and J. Krechniak|Effect of alpha-Cypermethrin and Chlorpyrifos in a 28-Day Study on Free Radical Parameters and Cholinesterase Activity in Wistar Rats|Pol. J. Environ. Stud.16(1): 91-95|2007|
160359|T||Wielgomas,B., and J. Krechniak|Toxicokinetic Interactions of alpha-Cypermethrin and Chlorpyrifos in Rats|Pol. J. Environ. Stud.16(2): 267-274|2007|
160360|T||Wang,L., T. Ohishi, H. Akane, A. Shiraki, M. Itahashi, K. Mitsumori, and M. Shibutani|Reversible Effect of Developmental Exposure to Chlorpyrifos on Late-Stage Neurogenesis in the Hippocampal Dentate Gyrus in Mouse Offspring|Reprod. Toxicol.PRESS:41 p.|2013|
160361|T||Venerosi,A., L. Ricceri, A. Rungi, V. Sanghez, and G. Calamandrei|Gestational Exposure to the Organophosphate Chlorpyrifos Alters Social-Emotional Behaviour and Impairs Responsiveness to the Serotonin Transporter Inhibitor Fluvoxamine in Mice|Psychopharmacology208(1): 99-107|2010|10.1007/s00213-009-1713-2
160362|T||Venerosi,A., L. Ricceri, M.L. Scattoni, and G. Calamandrei|Prenatal Chlorpyrifos Exposure Alters Motor Behavior and Ultrasonic Vocalization in CD-1 Mouse Pups|Environ. Health (London)8(12): 11 p.|2009|
160363|T||Venerosi,A., D. Cutuli, V. Colonnello, D. Cardona, L. Ricceri, and G. Calamandrei|Neonatal Exposure to Chlorpyrifos Affects Maternal Responses and Maternal Aggression of Female Mice in Adulthood|Neurotoxicol. Teratol.30(6): 468-474|2008|10.1016/j.ntt.2008.07.002
160364|T||Uzun,F.G., and Y. Kalender|Chlorpyrifos Induced Hepatotoxic and Hematologic Changes in Rats: The Role of Quercetin and Catechin|Food Chem. Toxicol.55:549-556|2013|10.1016/j.fct.2013.01.056
160365|T||Uzun,F.G., F. Demir, S. Kalender, H. Bas, and Y. Kalender|Protective Effect of Catechin and Quercetin on Chlorpyrifos-Induced Lung Toxicity in Male Rats|Food Chem. Toxicol.48(6): 1714-1720|2010|10.1016/j.fct.2010.03.051
160366|T||Demir,F., F.G. Uzun, D. Durak, and Y. Kalender|Subacute Chlorpyrifos-Induced Oxidative Stress in Rat Erythrocytes and the Protective Effects of Catechin and Quercetin|Pestic. Biochem. Physiol.99(1): 77-81|2011|10.1016/j.pestbp.2010.11.002
160367|T||Kalender,Y., S. Kaya, D. Durak, F.G. Uzun, and F. Demir|Protective Effects of Catechin and Quercetin on Antioxidant Status, Lipid Peroxidation and Testis-Histoarchitecture Induced by Chlorpyrifos in Male Rats|Environ. Toxicol. Pharmacol.33(2): 141-148|2012|10.1016/j.etap.2011.12.008
160368|T||Tuna,B.G., N. Ozturk, U. Comelekoglu, and B.C. Yilmaz|Effects of Organophosphate Insecticides on Mechanical Properties of Rat Aorta|Physiol. Res.60(1): 39-46|2011|10.33549/physiolres.931941
160369|T||Terry,A.V.,Jr., W.D. Beck, S. Warner, L. Vandenhuerk, and P.M. Callahan|Chronic Impairments in Spatial Learning and Memory in Rats Previously Exposed to Chlorpyrfos or Diisopropylfluorophosphate|Neurotoxicol. Teratol.34(1): 1-8|2012|10.1016/j.ntt.2011.08.015
160370|T||Smith,J.N., J. Wang, Y. Lin, E.M. Klohe, and C. Timchalk|Pharmacokinetics and Pharmacodynamics of Chlorpyrifos and 3,5,6-Trichloro-2-pyridinol in Rat Saliva After Chlorpyrifos Administration|Toxicol. Sci.130(2): 245-256|2012|10.1093/toxsci/kfs251
160371|T||Slotkin,T.A., E.D. Levin, and F.J. Seidler|Developmental Neurotoxicity of Parathion: Progressive Effects on Serotonergic Systems in Adolescence and Adulthood|Neurotoxicol. Teratol.31(1): 11-17|2009|10.1016/j.ntt.2008.08.004
160372|T||Ruiz-Munoz,A.M., F.A. Nieto-Escamez, S. Aznar, M.T. Colomina, and F. Sanchez-Santed|Cognitive and Histological Disturbances After Chlorpyrifos Exposure and Chronic Abeta (1-42) Infusions in Wistar Rats|Neurotoxicology32(6): 836-844|2011|10.1016/j.neuro.2011.05.014
160373|T||Raees,K., A. Ullah, T. Abbas, M.K. Mukhtar, M. Arshad, S.Y. Khan, H.M. Tahir, and K.R. Ahmad|Fetal Neurohistopathology of Chloropyrifos in Mice|Afr. J. Biotechnol.11(29): 7565-7569|2012|
160374|T||Chen,X.P., W.Z. Chen, F.S. Wang, and J.X. Liu|Selective Cognitive Impairments are Related to Selective Hippocampus and Prefrontal Cortex Deficits After Prenatal Chlorpyrifos Exposure|Brain Res.1474:19-28|2012|10.1016/j.brainres.2012.07.036
160375|T||Ohishi,T., L. Wang, H. Akane, M. Itahashi, D. Nakamura, A. Yafune, K. Mitsumori, and M. Shibutani|Reversible Effect of Maternal Exposure to Chlorpyrifos on the Intermediate Granule Cell Progenitors in the Hippocampal Dentate Gyrus of Rat Offspring|Reprod. Toxicol.35:125-136|2013|10.1016/j.reprotox.2012.10.008
160376|T||Noworyta-Glowacka,J., R. Bankowski, J. Siennicka, B. Wiadrowska, and J.K. Ludwicki|Influence of Chlorpyrifos on the Profile of Subpopulations of Immunoactive Cells and Their Phagocytic Activity in an Experimental In Vivo Model|AAEM Ann. Agric. Environ. Med.19(3): 483-485|2012|
160377|T||Naseh,M., J. Vatanparast, M. Baniasadi, and G.A. Hamidi|Alterations in Nitric Oxide Synthase-Expressing Neurons in the Forebrain Regions of Rats After Developmental Exposure to Organophosphates|Neurotoxicol. Teratol.PRESS:10 p.|2013|
160378|T||Mitra,N.K., V.D. Nadarajah, and H.H. Siong|Effect of Concurrent Application of Heat, Swim Stress and Repeated Dermal Application of Chlorpyrifos on the Hippocampal Neurons in Mice|Folia Neuropathol.47(1): 60-68|2009|
160379|T||Mitra,N.K., H.H. Siong, and V.D. Nadarajah|Evaluation of Neurotoxicity of Repeated Dermal Application of Chlorpyrifos on Hippocampus of Adult Mice|AAEM Ann. Agric. Environ. Med.15(2): 211-216|2008|
160380|T||Mitra,N.K., M.S. Lee, and V.D. Nadarajah|Evaluation of Difference in the Neurotoxicity Produced by Dermal Application of Chlorpyrifos on the Neonatal and Adult Mice|Trop. Biomed.27(1): 19-29|2010|
160381|T||Elsharkawy,E.E., D. Yahia, and N.A. El-Nisr|Sub-Chronic Exposure to Chlorpyrifos Induces Hematological, Metabolic Disorders and Oxidative Stress in Rat: Attenuation by Glutathione|Environ. Toxicol. Pharmacol.35(2): 218-227|2013|10.1016/j.etap.2012.12.009
160382|T||ElMazoudy,R.H., A.A. Attia, and N.S. El-Shenawy|Protective Role of Propolis Against Reproductive Toxicity of Chlorpyrifos in Male Rats|Pestic. Biochem. Physiol.101(3): 175-181|2011|10.1016/j.pestbp.2011.09.003
160383|T||Lee,S., T.S. Poet, J.N. Smith, A.L. Busby-Hjerpe, and C. Timchalk|Effect of In Vivo Nicotine Exposure on Chlorpyrifos Pharmacokinetics and Pharmacodynamics in Rats|Chem.-Biol. Interact.184(3): 449-457|2010|10.1016/j.cbi.2010.01.024
160384|T||Lee,S., T.S. Poet, J.N. Smith, A.L. Hjerpe, R. Gunawan, and C. Timchalk|Impact of Repeated Nicotine and Alcohol Coexposure on In Vitro and In Vivo Chlorpyrifos Dosimetry and Cholinesterase Inhibition|J. Toxicol. Environ. Health Part A74(20): 1334-1350|2011|10.1080/15287394.2011.567958
160385|T||Middlemore-Risher,M.L., J.J. Buccafusco, and A.V.,Jr. Terry|Repeated Exposures to Low-Level Chlorpyrifos Results in Impairments in Sustained Attention and Increased Impulsivity in Rats|Neurotoxicol. Teratol.32(4): 415-424|2010|10.1016/j.ntt.2010.03.008
160386|T||Mehta,A., R.S. Verma, and N. Srivastava|Chlorpyrifos-Induced DNA Damage in Rat Liver and Brain|Environ. Mol. Mutagen.49(6): 426-433|2008|10.1002/em.20397
160387|T||Verma,R.S., A. Mehta, and N. Srivastava|Comparative Studies on Chlorpyrifos and Methyl Parathion Induced Oxidative Stress in Different Parts of Rat Brain:  Attenuation by Antioxidant Vitamins|Pestic. Biochem. Physiol.95(3): 152-158|2009|10.1016/j.pestbp.2009.08.004
160388|T||Cole,T.B., R.P. Beyer, T.K. Bammler, S.S. Park, F.M. Farin, L.G. Costa, and C.E. Furlong|Repeated Developmental Exposure of Mice to Chlorpyrifos Oxon is Associated with Paraoxonase 1 (PON1)-Modulated Effects on Cerebellar Gene Expression|Toxicol. Sci.123(1): 155-169|2011|10.1093/toxsci/kfr157
160389|T||Mansour,S.A., and A.T.H. Mossa|Adverse Effects of Exposure to Low Doses of Chlorpyrifos in Lactating Rats|Toxicol. Ind. Health27(3): 213-224|2011|10.1177/0748233710384054
160390|T||Lopez-Crespo,G.A., P. Flores, F. Sanchez-Santed, and M.C. Sanchez-Amate|Acute High Dose of Chlorpyrifos Alters Performance of Rats in the Elevated Plus-Maze and the Elevated T-Maze|Neurotoxicology30(6): 1025-1029|2009|10.1016/j.neuro.2009.07.009
160391|T||Lim,K.L., A. Tay, V.D. Nadarajah, and N.K. Mitra|The Effect of Consequent Exposure of Stress and Dermal Application of Low Doses of Chlorpyrifos on the Expression of Glial Fibrillary Acidic Protein in the Hippocampus of Adult Mice|J. Occup. Med. Toxicol. (Lond.)6(1): 9 p.|2011|
160392|T||Krishnan,K., N.K. Mitra, L.S. Yee, and H.M. Yang|A Comparison of Neurotoxicity in Cerebellum Produced by Dermal Application of Chlorpyrifos in Young and Adult Mice|J. Neural Transm.119(3): 345-352|2012|10.1007/s00702-011-0715-5
160393|T||Werner,S.J., J.L. Cummings, S.K. Tupper, D.A. Goldade, and D. Beighley|Blackbird Repellency of Selected Registered Pesticides|J. Wildl. Manag.72:1007-1011|2008|10.2193/2007-366
160394|T||Werner,S.J., J.L. Cummings, S.K. Tupper, J.C. Hurley, R.S. Stahl, and T.M. Primus|Caffeine Formulation for Avian Repellency|J. Wildl. Manag.71:1676-1681|2007|10.2193/2006-451
160395|T||Werner,S.J., J.L. Cummings, P.A. Pipas, S.K. Tupper, and R.W. Byrd|Registered Pesticides and Citrus Terpenes as Blackbird Repellents for Rice|J. Wildl. Manag.72:1863-1868|2008|10.2193/2007-575
160396|T||Haviland,J.A., D.E. Butz, and W.P. Porter|Long-Term Sex Selective Hormonal and Behavior Alterations in Mice Exposed to Low Doses of Chlorpyrifos In Utero|Reprod. Toxicol.29(1): 74-79|2010|10.1016/j.reprotox.2009.10.008
160397|T||Farag,A.T., A.H. Radwan, F. Sorour, A. El Okazy, E.S. El-Agamy, and A.E.K. El-Sebae|Chlorpyrifos Induced Reproductive Toxicity in Male Mice|Reprod. Toxicol.29(1): 80-85|2010|10.1016/j.reprotox.2009.10.003
160398|T||Lopez-Granero,C., F. Canadas, D. Cardona, Y. Yu, E. Gimenez, R. Lozano, D.S. Avila, M. Aschner, and F. Sanchez-Santed|Chlorpyrifos-, Diisopropylphosphorofluoridate-, and Parathion-Induced Behavioral and Oxidative Stress Effects: Are They Mediated by Analogous Mechanisms of Action?|Toxicol. Sci.131(1): 206-216|2013|10.1093/toxsci/kfs280
160399|T||Khokhar,J.Y., and R.F. Tyndale|Rat Brain CYP2B-Enzymatic Activation of Chlorpyrifos to the Oxon Mediates Cholinergic Neurotoxicity|Toxicol. Sci.126(2): 325-335|2012|10.1093/toxsci/kfs029
160400|T||Ellison,C.A., J.N. Smith, P.J. Lein, and J.R. Olson|Pharmacokinetics and Pharmacodynamics of Chlorpyrifos in Adult Male Long-Evans Rats Following Repeated Subcutaneous Exposure to Chlorpyrifos|Toxicology287(1-3): 137-144|2011|10.1016/j.tox.2011.06.010
160401|T||Buratti,F.M., G. De Angelis, L. Ricceri, A. Venerosi, G. Calamandrei, and E. Testai|Foetal and Neonatal Exposure to Chlorpyrifos:  Biochemical and Metabolic Alterations in the Mouse Liver at Different Developmental Stages|Toxicology280(3): 98-108|2011|10.1016/j.tox.2010.11.013
160402|T||Attia,A.A., R.H. ElMazoudy, and N.S. El-Shenawy|Antioxidant Role of Propolis Extract Against Oxidative Damage of Testicular Tissue Induced by Insecticide Chlorpyrifos in Rats|Pestic. Biochem. Physiol.103(2): 87-93|2012|10.1016/j.pestbp.2012.04.002
160403|T||Marty,M.S., A.K. Andrus, M.P. Bell, J.K. Passage, A.W. Perala, K.A. Brzak, M.J. Bartels, M.J. Beck, and D.R. Juberg|Cholinesterase Inhibition and Toxicokinetics in Immature and Adult Rats After Acute or Repeated Exposures to Chlorpyrifos or Chlorpyrifos-Oxon|Regul. Toxicol. Pharmacol.63(2): 209-224|2012|10.1016/j.yrtph.2012.03.015
160404|T||Acker,C.I., A.C.G. Souza, M.P. Dos Santos, C.M. Mazzanti, and C.W. Nogueira|Diphenyl Diselenide Attenuates Hepatic and Hematologic Toxicity Induced by Chlorpyrifos Acute Exposure in Rats|Environ. Sci. Pollut. Res.19(8): 3481-3490|2012|10.1007/s11356-012-0882-4
160405|T||Tripathi,S., and A.K. Srivastav|Liver Profile of Rats After Long-Term Ingestion of Different Doses of Chlorpyrifos|Pestic. Biochem. Physiol.97(1): 60-65|2010|10.1016/j.pestbp.2009.12.005
160406|T||Carr,R.L., A. Borazjani, and M.K. Ross|Effect of Developmental Chlorpyrifos Exposure, on Endocannabinoid Metabolizing Enzymes, in the Brain of Juvenile Rats|Toxicol. Sci.122(1): 112-120|2011|10.1093/toxsci/kfr081
160407|T||Malhotra,A., P. Nair, and D.K. Dhawan|Efficacy of Zinc as a Nutritional Supplement in Ameliorating Chlorpyrifos-Induced Neurotoxicity in Rats|J. Environ. Pathol. Toxicol. Oncol.30(3): 225-233|2011|10.1615/JEnvironPatholToxicolOncol.v30.i3.50
160408|T||Rogers-Cotrone,T., M.P. Burgess, S.H. Hancock, J. Hinckley, K. Lowe, M.F. Ehrich, and B.S. Jortner|Vacuolation of Sensory Ganglion Neuron Cytoplasm in Rats with Long-Term Exposure to Organophosphates|Toxicol. Pathol.38(4): 554-559|2010|10.1177/0192623310369343
160409|T||Ray,A., J. Liu, P. Ayoubi, and C. Pope|Dose-Related Gene Expression Changes in Forebrain Following Acute, Low-Level Chlorpyrifos Exposure in Neonatal Rats|Toxicol. Appl. Pharmacol.248(2): 144-155|2010|10.1016/j.taap.2010.07.026
160410|T||Pope,C.N., and T.K. Chakraborti|Dose-Related Inhibition of Brain and Plasma Cholinesterase in Neonatal and Adult Rats Following Sub-Lethal Organophosphate Exposure|Toxicology73(1): 35-43|1992|10.1016/0300-483X(92)90168-E
160411|T||Uggini,G.K., P.V. Patel, and S. Balakrishnan|Embryotoxic and Teratogenic Effects of Pesticides in Chick Embryos:  A Comparative Study Using Two Commercial Formulations|Environ. Toxicol.27(3): 166-174|2012|10.1002/tox.20627
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160503|A||Lorenzi,V., A.C. Mehinto, N.D. Denslow, and D. Schlenk|Effects of Exposure to the beta-Blocker Propranolol on the Reproductive Behavior and Gene Expression of the Fathead Minnow, Pimephales promelas|Aquat. Toxicol.116/117:8-15|2012|10.1016/j.aquatox.2012.03.001
160504|A||Rasmussen,J.J., R.J. Monberg, A. Baattrup-Pedersen, N. Cedergreen, P. Wiberg-Larsen, B. Strobel, and B. Kronvang|Effects of a Triazole Fungicide and a Pyrethroid Insecticide on the Decomposition of Leaves in the Presence or Absence of Macroinvertebrate Shredders|Aquat. Toxicol.118/119:54-61|2012|10.1016/j.aquatox.2012.03.015
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160514|A||Guimaraes,F.P., R. Aguiar, D. Karam, J.A. Oliveira, J.A.A. Silva, C.L. Santos, B.F. Sant'Anna-Santos, and C. Lizieri-Sa|Potential of Macrophytes for Removing Atrazine from Aqueous Solution|Planta Daninha (Impr.) (Multiple Languages)29:1137-1147|2011|10.1590/S0100-83582011000500022
160515|A||Brautigam,A., D. Schaumloffel, H. Preud'Homme, I. Thondorf, and D. Wesenberg|Physiological Characterization of Cadmium-Exposed Chlamydomonas reinhardtii|Plant Cell Environ.34(12): 2071-2082|2011|10.1111/j.1365-3040.2011.02404.x
160516|A||Kirichuk,G.Y., and A.P. Stadnichenko|Effect of Trematoda Infestation and Zinc Ions of the Aquatic Medium on Hemocytes and Some Hematological Characteristics of Planorbarius purpura (Mollusca:  Gastropoda:  Pulmonata:  Bulinidae)|Hydrobiol. J.47(1): 105-113|2011|10.1615/HydrobJ.v47.i1.100
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160518|T||Cakici,O., and E. Akat|Histopathological Effects of Carbaryl on Digestive System of Snake-Eyed Lizard, Ophisops elegans|Bull. Environ. Contam. Toxicol.88(5): 685-690|2012|10.1007/s00128-012-0571-5
160519|A||Paetow,L.J., J.D. McLaughlin, R.I. Cue, B.D. Pauli, and D.J. Marcogliese|Effects of Herbicides and the Chytrid Fungus Batrachochytrium dendrobatidis on the Health of Post-metamorphic Northern Leopard Frogs (Lithobates pipiens)|Ecotoxicol. Environ. Saf.80:372-380|2012|10.1016/j.ecoenv.2012.04.006
160520|A||Moreno,L.E., A.O. Juarez, and L.E. Pelzer|Lethal Effect of Dehydroleucodine (DhL) on Amphibian Bufo arenarum Embryos|Food Chem. Toxicol.50(3/4): 672-674|2012|10.1016/j.fct.2011.12.037
160521|A||Mousavi,S.E., and M. Yousefian|The Alterations in the Hematological Parameters of Endangered Caspian Brown Trout, Salmo trutta caspius, Exposed to Waterborne Mercuric Chloride|Asian J. Anim. Sci.6(4): 154-163|2012|10.3923/ajas.2012.154.163
160522|A||Yilmaz,D.D., and K.U. Parlak|Changes in Proline Accumulation and Antioxidative Enzyme Activities in Groenlandia densa Under Cadmium Stress|Ecol. Indic.11(2): 417-423|2011|10.1016/j.ecolind.2010.06.012
160523|A||Morgan,M.B., C.C. Parker, J.W. Robinson, and E.M. Pierce|Using Representational Difference Analysis to Detect Changes in Transcript Expression of Aiptasia Genes After Laboratory Exposure to Lindane|Aquat. Toxicol.110/111:66-73|2012|10.1016/j.aquatox.2012.01.001
160524|A||Forni,C., R. Braglia, F.J.M. Harren, and S.M. Cristescu|Stress Responses of Duckweed (Lemna minor L.) and Water Velvet (Azolla filiculoides Lam.) to Anionic Surfactant Sodium-Dodecyl-Sulphate (SDS)|Aquat. Toxicol.110/111:107-113|2012|10.1016/j.aquatox.2011.12.017
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160528|T||Li,W.C., Z.H. Ye, and M.H. Wong|Effects of Bacteria on Enhanced Metal Uptake of the Cd/Zn-Hyperaccumulating Plant, Sedum alfredii|J. Exp. Bot.58(15/16): 4173-4182|2007|10.1093/jxb/erm274
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160530|A||Jubeaux,G., R. Simon, A. Salvador, H. Queau, A. Chaumot, and O. Geffard|Vitellogenin-like Proteins in the Freshwater Amphipod Gammarus fossarum (Koch, 1835):  Functional Characterization Throughout Reproductive Process, Potential for Use as an Indicator of Oocyte Quality and Endocrine Disru|Aquat. Toxicol.112/113:72-82|2012|10.1016/j.aquatox.2012.01.011
160531|A||Kristoff,G., D.C. Barrionuevo, L.C. Cacciatore, N.R.V. Guerrero, and A.C. Cochon|In Vivo Studies on Inhibition and Recovery of B-Esterase Activities in Biomphalaria glabrata Exposed to Azinphos-Methyl:  Analysis of Enzyme, Substrate and Tissue Dependence|Aquat. Toxicol.112/113:19-26|2012|10.1016/j.aquatox.2012.01.016
160532|A||Janssens,L., and R. Stoks|How Does a Pesticide Pulse Increase Vulnerability to Predation? Combined Effects on Behavioral Antipredator Traits and Escape Swimming|Aquat. Toxicol.110/111:91-98|2012|10.1016/j.aquatox.2011.12.019
160533|A||Volland,S., C. Lutz, B. Michalke, and U. Lutz-Meindl|Intracellular Chromium Localization and Cell Physiological Response in the Unicellular Alga Micrasterias|Aquat. Toxicol.109:59-69|2012|10.1016/j.aquatox.2011.11.013
160534|A||Cheng,L.J., and T.S. Cheng|Oxidative Effects and Metabolic Changes Following Exposure of Greater Duckweed (Spirodela polyrhiza) to Diethyl Phthalate|Aquat. Toxicol.109:166-175|2012|10.1016/j.aquatox.2011.10.003
160535|A||Campos,B., B. Pina, M. Fernandez-Sanjuan, S. Lacorte, and C. Barata|Enhanced Offspring Production in Daphnia magna Clones Exposed to Serotonin Reuptake Inhibitors and 4-Nonylphenol. Stage- and Food-Dependent Effects|Aquat. Toxicol.109:100-110|2012|10.1016/j.aquatox.2011.12.003
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160537|A||Van Schmidt,N.D., T.L. Cary, M.E. Ortiz-Santaliestra, and W.H. Karasov|Effects of Chronic Polybrominated Diphenyl Ether Exposure on Gonadal Development in the Northern Leopard Frog, Rana pipiens|Environ. Toxicol. Chem.31(2): 347-354|2012|10.1002/etc.1702
160538|A||Han,Z., S. Jiao, D. Kong, Z. Shan, and X. Zhang|Effects of beta-Endosulfan on the Growth and Reproduction of Zebrafish (Danio rerio)|Environ. Toxicol. Chem.30(11): 2525-2531|2011|10.1002/etc.646
160539|A||Peters,A., S. Lofts, G. Merrington, B. Brown, W. Stubblefield, and K. Harlow|Development of Biotic Ligand Models for Chronic Manganese Toxicity to Fish, Invertebrates, and Algae|Environ. Toxicol. Chem.30(11): 2407-2415|2011|10.1002/etc.643
160540|A||Shaluei,F., A. Hedayati, H. Kolangi, A. Jahanbakhshi, and M. Baghfalaki|Evaluation of the Acute Toxicity of Cypermethrin and Its Effect on Behavioral Responses of Caspian Roach (Rutilus rutilus caspicus) and Silver Carp (Hypophthalmicthys molitrix)|Global Veter.9(2): 215-219|2012|
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160542|A||Singh,R.N.|Histopathological Alterations in the Kidney of Cyprinus carpio After Exposure to Dimethoate (EC 30%)|Indian J. Sci. Res.3(1): 127-131|2012|
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160545|T||Kratz,F., G. Ehling, H.M. Kauffmann, and C. Unger|Acute and Repeat-Dose Toxicity Studies of the (6-Maleimidocaproyl)Hydrazone Derivative of Doxorubicin (DOXO-EMCH), an Albumin-Binding Prodrug of the Anticancer Agent Doxorubicin|Hum. Exp. Toxicol.26(1): 19-35|2007|10.1177/0960327107073825
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160681|A||Prado,R., C. Rioboo, C. Herrero, P. Suarez-Bregua, and A. Cid|Flow Cytometric Analysis to Evaluate Physiological Alterations in Herbicide-Exposed Chlamydomonas moewusii Cells|Ecotoxicology21(2): 409-420|2012|10.1007/s10646-011-0801-3
160682|A||Weber,R.A., J.J.P. Maceira, M.J. Mancebo, J.B. Peleteiro, L.O.G. Martin, and M. Aldegunde|Effects of Acute Exposure to Exogenous Ammonia on Cerebral Monoaminergic Neurotransmitters in Juvenile Solea senegalensis|Ecotoxicology21(2): 362-369|2012|10.1007/s10646-011-0797-8
160683|A||Knudsen,J.J.G., H. Holbech, S.S. Madsen, and P. Bjerregaard|Uptake of 17beta-Estradiol and Biomarker Responses in Brown Trout (Salmo trutta) Exposed to Pulses|Environ. Pollut.159(12): 3374-3380|2011|10.1016/j.envpol.2011.08.039
160684|T||Lawson,J.A., and T.J. Hocking|Responses of Late-Season Septoria tritici and Leaf Senescence to Propiconazole in Winter Wheat|Tests Agrochem. Cultiv.7:80-81|1986|
160685|T||Jiriaie,M., and N.A. Sajedi|Effect of Plant Growth Regulators on Agro Physiological Traits of Wheat (Triticum aestivum (L.) var. Shahriar) Under Water Deficit Stress|Res. Crops13(1): 37-45|2012|
160686|T||Ghamari,M., M. Farbod, M.H. Gharineh, A. Bakhshandeh, M. Delfieh, and M. Behmanesh|Effects of Silver Nano Particles Seed Coating on Germination and Early Growth of Wheat (Triticum aestivum L.) Seedlings|Res. Crops13(1): 52-57|2012|
160687|A||Miranda,A.A., S.M. Shaikh, P.R. Sarode, and P.V. Desai|Carbon Nanoparticle Toxicity to Marine Algae Navicula longa and Isochrysis galbana|Indian J. Geo-Marine Sci.41(4): 331-337|2012|
160688|T||Darvishi,H.H., and M.R. Dadnia|Effects of Irrigation with Saline Water in Production of Two Cultivars of Sweet Sorghum (Sorghum bicolor L.)|Res. Crops13(1): 100-102|2012|
160689|T||Saeedipour,S.|Salinity Tolerance of Canola Cultivars at Germination and Early-Seedling Growth|Res. Crops13(1): 123-127|2012|
160690|T||Jing,Z., C. Xiao-Lin, Y. Tai-Wen, and Y. Wen-Yu|Seed Treatment with Uniconazole Powder Induced Drought Tolerance of Soybean in Relation to Changes in Photosynthesis and Chlorophyll Flourescence|Res. Crops13(1): 147-154|2012|
160691|T||Golparvar,A.R.|Screening for Salinity Tolerance in Agropyron desertorum Accessions at the Seedling Stage|Res. Crops13(1): 187-190|2012|
160692|T||Shabani,G., S. Vazan, M.R. Chaichi, F. Paknejad, G. Mohammadi, and F. Golzardi|Effects of Weed Control Methods on Seed Yield, Seed Protein and Percentage of Seed Hardiness in Annual Medic (Medicago scutellata cv. Robinson)|Res. Crops13(1): 214-218|2012|
160693|T||Gowda,A.P.M., Chandrappa, C.S. Ravi, and B. Raju|Conservation of Terminalia chebula Through Vegetative Propagation|Res. Crops13(1): 334-337|2012|
160694|A||Ogeleka,D.F., F.E. Okieimen, J.O.O. Okonedo, and D. Olademehin|Acute Toxicity of Phasetreat 4633 (Demulsifier) Against the Cichlid, Tilapia guineensis (Gunther, 1862)|Trop. Freshw. Biol.19(1): 25-31|2010|
160697|A||Venkatesan,S., K. Pugazhendy, M. Meenambal, D. Sangeetha, C. Vasantharaja, K. Jayachandren, and S. Prabakaran|Protective Role of Spirulina on the Variation of Haematological Parameter Induced by Herbicide Atrazine in the Fresh Water Fish Cyprinus carpio (Linn)|Int. J. Pharm. Biol. Arch.3(1): 249-254|2012|
160698|A||Feng,D., Z. Chen, S. Xue, and W. Zhang|Increased Lipid Production of the Marine Oleaginous Microalgae Isochrysis zhangjiangensis (Chrysophyta) by Nitrogen Supplement|Bioresour. Technol.102(12): 6710-6716|2011|10.1016/j.biortech.2011.04.006
160699|T||Kidd,F.A., and W.N. Kline III|Plantation Release Through Use of Garlon 3A Herbicide|Proc. South. Weed Sci. Soc.38:234-245|1985|
160700|T||Von Krueger,X., and W. Heuwieser|Effect of Flunixin Meglumine and Carprofen on Pregnancy Rates in Dairy Cattle|J. Dairy Sci.93(11): 5140-5146|2010|10.3168/jds.2010-3072
160701|T||Shwartz,G., K.L. Hill, M.J. VanBaale, and L.H. Baumgard|Effects of Flunixin Meglumine on Pyrexia and Bioenergetic Variables in Postparturient Dairy Cows|J. Dairy Sci.92(5): 1963-1970|2009|10.3168/jds.2008-1581
160702|T||Staben,C.|Resistance to Azole Drugs in Neurospora crassa|Exp. Mycol.19(2): 163-165|1995|10.1006/emyc.1995.1019
160703|T||Savitha,P., M.S. Nandish, S. Mishra, and M.K. Shivaprakash|Field Performance of Nomuraea rileyi Formulations Against Helicoverpa armigera (Hubner) in Tomato Crop|Res. Crops13(1): 385-387|2012|
160704|T||Bogdanov,S., A. Imdorf, and V. Kilchenmann|Thymol Residues in Wax and Honey After Apilife VAR Treatment|Swiss Bee Research Centre:1-9|1998|
160705|T||Meng,X.Y., J. Qin, L.H. Wang, G. Duan, G.X. Sun, H.L. Wu, C.C. Chu, H.Q. Ling, B.P. Rosen, and Y.G. Zhu|Arsenic Biotransformation and Volatilization in Transgenic Rice|New Phytol.191(1): 49-56|2011|10.1111/j.1469-8137.2011.03743.x
160706|T||Akiyama,T., A.W. Merrill, M.I. Carstens, and E. Carstens|Activation of Superficial Dorsal Horn Neurons in the Mouse by a PAR-2 Agonist and 5-HT: Potential Role in Itch|J. Neurosci.29(20): 6691-6699|2009|10.1523/JNEUROSCI.6103-08.2009
160707|T||Darvishi,H.H., and M.R. Dadnia|Effects of Saline Water on Antioxidant Enzymes and Yield of Two Cultivars of Millet (Panicum miliaceum L.)|Res. Crops13(1): 103-106|2012|
160708|T||Lydon,J., B.F. Engelke, and C.S. Helling|Simplified High-Performance Liquid Chromatography Method for the Simultaneous Analysis of Tebuthiuron and Hexazinone|J. Chromatogr.536(1/2): 223-228|1991|10.1016/S0021-9673(01)89253-0
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160711|T||Cain,M.D.|Hardwoods on Pine Sites:  Competition or Antagonistic Symbiosis|For. Ecol. Manag.44(2-4): 147-160|1991|10.1016/0378-1127(91)90004-F
160712|T||Curry,P.S., J. Waddington, N. Malik, and G.G. Bowes|Nectar Sugar Production in Alfalfa Fields Treated with Several Herbicides|Can. J. Plant Sci.75(2): 521-524|1995|10.4141/cjps95-091
160713|T||Drouin,J.A.|Herbicide Efficacy Trials in Alberta and Manitoba, 1980-85|Information Report NOR-X-306, Northern Forestry Center, Edmonton, Alberta:41 p.|1989|
160714|T||Eaton,L.J.|Long-Term Effects of Herbicide and Fertilizers on Lowbush Blueberry Growth and Production|Can. J. Plant Sci.74(2): 341-345|1994|10.4141/cjps94-066
160715|T||Ferrell,J.A., J.J. Mullahey, J.A. Dusky, and F.M. Roka|Competition of Giant Smutgrass (Sporobolus indicus) in a Bahiagrass Pasture|Weed Sci.54(1): 100-105|2006|10.1614/WS-05-061R1.1
160716|T||Ferrell,J.A., and J.J. Mullahey|Effect of Mowing and Hexazinone Application on Giant Smutgrass (Sporobolus indicus var. pyramidalis) Control|Weed Technol.20(1): 90-94|2006|10.1614/WT-05-008R2.1
160717|T||Glass,B.P.|The Cost/Benefit of Using Hexazinone for Selective Grass Control in Radiata Pine in Canterbury|N. Z. J. For. Sci.30(1): 115-120|1985|
160718|T||Gous,S.F.|Season of Application Affects Herbicide Efficacy in Pinus radiata Plantations in South Africa|N. Z. J. For. Sci.26(1/2): 298-306|1996|
160719|T||Jeffery,L.S., and L.R. Robison|Poison-Hemlock (Conium maculatum) Control in Alfalfa (Medicago sativa)|Weed Technol.4(3): 585-587|1990|10.1017/S0890037X00026026
160720|T||Johnson,J.D., and H.E. Stelzer|Loblolly Pine Photosynthesis is Enhanced by Sublethal Hexazinone Concentrations|Tree Physiol.8(4): 371-379|1991|10.1093/treephys/8.4.371
160721|T||Ketchum,J.S., and R. Rose|Preventing Establishment of Exotic Shrubs (Cytisus scoparius (L.) Link. and Cytisus striatus (Hill)) with Soil Active Herbicides (Hexazinone, Sulfometuron, and Metsulfuron)|New For. 25(2): 83-92|2003|10.1023/A:1022609408153
160722|T||Malik,N., and J. Waddington|Weed Control Strategies for Forage Legumes|Weed Technol.3(2): 288-296|1989|10.1017/S0890037X00031821
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160725|T||McDonald,P.M., and G.O. Fiddler|Effect of Cattle Grazing, Seeded Grass, and an Herbicide on Ponderosa Pine Seedling Survival and Growth|Research Paper PSW-RP-242, USDA Forestry Service:15 p.|1999|
160726|T||Miller,J.H.|Soil Spot Herbicides for Single-Stem Hardwood Control|South. J. Appl. For.12(3): 199-203|1988|10.1093/sjaf/12.3.199
160727|T||Millhollon,R.W., and H. Koike|Combined Effect of Disease and Herbicide Treatment on Yield of Sugarcane (Saccharum officinarum)|Weed Sci.34(1): 137-142|1986|10.1017/S0043174500026606
160728|T||Minogue,P.J., B.R. Zutter, and D.H. Gjerstad|Soil Factors and Efficacy of Hexazinone Formulations for Loblolly Pine (Pinus taeda) Release|Weed Sci.36(3): 399-405|1988|10.1017/S0043174500075081
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160730|T||Freeman,J.E., and S. Jose|The Role of Herbicide in Savanna Restoration: Effects of Shrub Reduction Treatments on the Understory and Overstory of a Longleaf Pine Flatwoods|For. Ecol. Manag.257(3): 978-986|2009|10.1016/j.foreco.2008.10.041
160731|T||Moyer,J.R., and S. Smoliak|Shrubby Cinquefoil Control Changes Range Forage Production|Can. J. Plant Sci.67(3): 727-734|1987|10.4141/cjps87-100
160732|T||Amorim,M.J.B., C. Pereira, V.B. Menezes-Oliveira, B. Campos, A.M.V.M. Soares, and S. Loureiro|Assessing Single and Joint Effects of Chemicals on the Survival and Reproduction of Folsomia candida (Collembola) in Soil|Environ. Pollut.160:145-152|2012|10.1016/j.envpol.2011.09.005
160733|T||Mullahey,J.J., J.A. Cornell, and D.L. Colvin|Tropical Soda Apple (Solanum viarum) Control|Weed Technol.7(3): 723-727|1993|10.1017/S0890037X0003760X
160734|A||Huang,Q., C. Fang, Y. Chen, X. Wu, T. Ye, Y. Lin, and S. Dong|Embryonic Exposure to Low Concentration of Bisphenol A Affects the Development of Oryzias melastigma Larvae|Environ. Sci. Pollut. Res.19(7): 2506-2514|2012|10.1007/s11356-012-1034-6
160735|T||O'Brien,T., and B. Murray|The Efficacy and Cost of Four Herbicide Products Applied Using Selective Methods|Forestry Research Report, No. 65, Nova Scotia Department of Natural Resources, Nova Scotia:7 p.|1998|
160736|T||Outcalt,K.W.|Factors Affecting Wiregrass (Aristida stricta Michx.) Cover on Uncut and Site Prepared Sandhills Areas in Central Florida|Ecol. Eng.1(3): 245-251|1992|10.1016/0925-8574(92)90006-N
160737|A||Seeland,A., M. Oetken, A. Kiss, E. Fries, and J. Oehlmann|Acute and Chronic Toxicity of Benzotriazoles to Aquatic Organisms|Environ. Sci. Pollut. Res.19(5): 1781-1790|2012|10.1007/s11356-011-0705-z
160738|A||Jin,X., J. Zha, Y. Xu, J.P. Giesy, and Z. Wang|Toxicity of Pentachlorophenol to Native Aquatic Species in the Yangtze River|Environ. Sci. Pollut. Res.19(3): 609-618|2012|10.1007/s11356-011-0594-1
160740|A||Dom,N., L. Vergauwen, T. Vandenbrouck, M. Jansen, R. Blust, and D. Knapen|Physiological and Molecular Effect Assessment Versus Physico-Chemistry Based Mode of Action Schemes:  Daphnia magna Exposed to Narcotics and Polar Narcotics|Environ. Sci. Technol.46(1): 10-18|2012|10.1021/es201095r
160741|A||Li,J., Y. Liang, X. Zhang, J. Lu, J. Zhang, T. Ruan, Q. Zhou, and G.Z. Jiang|Impaired Gas Bladder Inflation in Zebrafish Exposed to a Novel Heterocyclic Brominated Flame Retardant Tris(2,3-Dibromopropyl) Isocyanurate|Environ. Sci. Technol.45(22): 9750-9757|2011|10.1021/es202420g
160742|T||Ibanez,F., and R. Zoppolo|Assessment of Allelopathic Properties of Baccharis dracunculifolia DC in Laboratory and Field Conditions|Allelopathy J.28(1): 77-85|2011|
160743|A||Singh,S.K., and S.K. Verma|Modulation of Antioxidant Activities by Nostoc calcicola Exposed to Hexazinone Toxicity|Flora Fauna15(2): 321-326|2009|
160744|T||Pehl,C.E., and H.E. Shelnutt|Hexazinone Influences on Pinus taeda Seedlings|For. Ecol. Manag.35(3/4): 271-276|1990|10.1016/0378-1127(90)90008-Y
160745|T||Petersen,J.L., and D.N. Ueckert|Nolina texana Control with Soil-Applied Herbicides|Weed Technol.6(4): 904-908|1992|10.1017/S0890037X00036459
160747|T||Phillips,M.J., and K.M. Goh|Growth Response of Pinus radiata to Fertiliser and Herbicide Treatment in a Clearfelled Logged and a Clearfelled Logged and Burned Nothofagus Forest|N. Z. J. For. Sci.16(1): 19-29|1986|
160748|T||Pollack,J.C., P. LePage, and F. Van Thienen|Some Effects of Different Forest Herbicides on Upland Salix spp.|Can. J. For. Res.20(9): 1271-1276|1990|10.1139/x90-169
160749|T||Prasad,R., and J.C. Feng|Spotgun-Applied Hexazinone:  Release of Red Pine (Pinus resinosa) from Quaking Aspen (Populus tremuloides) Competition and Residue Persistence in Soil|Weed Technol.4(2): 371-375|1990|10.1017/S0890037X00025562
160750|T||Prasad,R., and B.L. Cadogan|Influence of Droplet Size and Density on Phytotoxicity of Three Herbicides|Weed Technol.6(2): 415-423|1992|10.1017/S0890037X00034977
160751|T||Provencher,L., B.J. Herring, D.R. Gordon, H.L. Rodgers, K.E.M. Galley, G.W. Tanner, J.L. Hardesty, and L.A. Brennan|Effects of Hardwood Reduction Techniques on Longleaf Pine Sandhill Vegetation in Northwest Florida|Restor. Ecol.9(1): 13-27|2001|10.1046/j.1526-100x.2001.009001013.x
160752|T||Richard,E.P.,Jr.|Response of Sugarcane (Saccharum sp.) Cultivars to Preemergence Herbicides|Weed Technol.3(2): 358-363|1989|10.1017/S0890037X0003195X
160753|T||Rose,R., J.S. Ketchum, and D.E. Hanson|Three-Year Survival and Growth of Douglas-Fir Seedlings Under Various Vegetation-Free Regimes|For. Sci.45(1): 117-126|1999|
160754|T||Sidhu,S.S., and J.C. Feng|Hexazinone and Its Metabolites in Boreal Forest Vegetation|Weed Sci.41(2): 281-287|1993|10.1017/S0043174500076177
160755|T||Sutton,R.F.|Species Composition in Two Boreal Mixedwoods Before and 10 Years After Hexazinone Treatment for Establishing Underplanted Picea glauca (Moench) Voss.|For. Ecol. Manag.57(1-4): 201-212|1993|10.1016/0378-1127(93)90173-K
160756|T||Sharpe,S.|Potential for Hyperspectral Technology in Wild Blueberry (Vaccinium angustifolium Ait.) Production|M.S.Thesis, Dalhousie University, Canada:129 p.|2008|
160757|T||White,S.|Spatial and Temporal Variability of Vegetation in Wild Blueberry Production|M.S.Thesis, Dalhousie University, Canada:167 p.|2007|
160758|T||Cutts III,G.S., T.M. Webster, T.L. Grey, W.K. Vencill, R.D. Lee, R.S. Tubbs, and W.F. Anderson|Herbicide Effect on Napiergrass (Pennisetum purpureum) Control|Weed Sci.59(2): 255-262|2011|10.1614/WS-D-10-00130.1
160759|T||Ferrell,J., R. Charudattan, M. Elliott, and E. Hiebert|Effects of Selected Herbicides on the Efficacy of Tobacco Mild Green Mosaic Virus to Control Tropical Soda Apple (Solanum viarum)|Weed Sci.56(1): 128-132|2008|10.1614/WS-07-083.1
160760|T||Hardesty,J.L.|Scientific Coordination and Adaptive Management and Experimental Restoration of Longleaf Pine Community Structure, Function, and Composition|DAMD17-98-2-8006, U.S. Army Medical Research and Material Command, Ft. Detrick, MD:88 p.|1999|
160762|T||Perez-Chiesa,Y., A.N. Soto, A. Figueroa, J.L. Colon, and J.M. Del Hoyo|Inhibitory Effect of Chlorophyllin on the Genotoxicity of Adriamycin in Drosophila melanogaster|Rev. Int. Contam. Ambient.10(1): 23-|1994|
160763|T||Chiuchetta,S.J.R., and M.A.A. De Castro-Prado|Doxorubicin and Etoposide Induce Somatic Recombination in Diploid Cells of Aspergillus nidulans|Braz. J. Microbiol.33(3): 255-259|2002|10.1590/S1517-83822002000300014
160764|T||Kline,Y., K.V. Clemons, L. Woods, D.A. Stevens, and L.A. Tell|Pharmacokinetics of Voriconazole in Adult Mallard Ducks (Anas platyrhynchos)|Med. Mycol.49(5): 500-512|2011|
160765|T||Beernaert,L.A., K. Baert, P. Marin, K. Chiers, P. De Backer, F. Pasmans, and A. Martel|Designing Voriconazole Treatment for Racing Pigeons:  Balancing Between Hepatic Enzyme Auto Induction and Toxicity|Med. Mycol.47(3): 276-285|2009|10.1080/13693780802262115
160766|T||Zutter,B.R., D.H. Gjerstad, A.L. Webb, and G.R. Glover|Response of a Young Loblolly Pine (Pinus taeda) Plantation to Herbicide Release Treatments Using Hexazinone|For. Ecol. Manag.25(2): 91-104|1988|10.1016/0378-1127(88)90122-3
160767|T||Zutter,B.R., and S.M. Zedaker|Short-Term Effects of Hexazinone Applications on Woody Species Diversity in Young Loblolly Pine (Pinus taeda) Plantations|For. Ecol. Manag.24(3): 183-189|1988|10.1016/0378-1127(88)90043-6
160768|T||Yarborough,D.E., and P.C. Bhowmik|Effect of Hexazinone on Weed Populations and on Lowbush Blueberries in Maine|Acta Hortic.241:344-349|1989|10.17660/ActaHortic.1989.241.59
160770|T||Reynolds,P.E., and M.J. Roden|Growth of Multipot Black Spruce Seedlings Planted After Site Preparation with Liquid and Dry-Flowable Hexazinone|North. J. Appl. For.12(2): 75-79|1995|10.1093/njaf/12.2.75
160771|T||Minogue,P.J., B.R. Zutter, and D.H. Gjerstad|Second Year Results of a Pine Release Field Screening Trial with Arsenal and Other Promising Herbicides|Proc. South. Weed Sci. Soc.38:231-233|1985|
160772|T||Clements,J., M. Phillips, and N. Todd|Mutagenicity of Adriamycin in Drosophila melanogaster|Mutat. Res.135(3): 175-179|1984|10.1016/0165-1218(84)90118-6
160773|T||Wood,J.E., R.A. Campbell, and F.W. Curtis|Black Spruce Outplantings in Boreal Ontario: Chemical Site Preparation with Hexazinone|Information Report O-X-398. Forestry Canada, Great Lakes Forestry Centre:22 p.|1989|
160774|T||Clements,J., and E.W. Vogel|Somatic Recombination and Mutation Assays in Drosophila:  A Comparison of the Response of Two Different Strains to Four Mutagens|Mutat. Res.209(1/2): 1-6|1988|
160775|T||Clements,J., D. Howe, M. Phillips, and N.K. Todd|The Drosophila Wing Test: A Comparison of the Sensitivity of Different Strains|Mutat. Res.203(2): 117-123|1988|10.1016/0165-1161(88)90026-X
160776|T||Clements,J., D. Howe, A. Lowry, and M. Phillips|The Effects of a Range of Anti-Cancer Drugs in the White-Ivory Somatic Mutation Test in Drosophila|Mutat. Res.228(2): 171-176|1990|10.1016/0027-5107(90)90073-D
160777|T||Wood,J.E., F.W. Von Althen, and R.A. Campbell|Black Spruce Outplant Performance:  Effect of Winter Application of Hexazinone on Shear-Bladed Sites in Boreal Ontario|Can. J. For. Res.20(10): 1541-1548|1990|10.1139/x90-205
160778|T||Wood,J.E., J.B. Scarratt, and G.R. Stephenson|Hexazinone Toxicity in Red Pine and Jack Pine|Can. J. For. Res.23(10): 2230-2235|1993|10.1139/x93-276
160780|T||Brannelly,L.A., C.L. Richards-Zawacki, and A.P. Pessier|Clinical Trials with Itraconazole as a Treatment for Chytrid Fungal Infections in Amphibians|Dis. Aquat. Org.101(2): 95-104|2012|10.3354/dao02521
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160782|AT||Di Renzo,F., R. Bacchetta, A. Bizzo, E. Giavini, and E. Menegola|Is the Amphibian X. laevis WEC a Good Alternative Method to Rodent WEC Teratogenicity Assay? The Example of the Three Triazole Derivative Fungicides Triadimefon, Tebuconazole, Cyproconazole|Reprod. Toxicol.32(2): 220-226|2011|10.1016/j.reprotox.2011.05.001
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160784|A||Liu,C., X. Zhang, J. Deng, M. Hecker, A. Al-Khedhairy, J.P. Giesy, and B. Zhou|Effects of Prochloraz or Propylthiouracil on the Cross-Talk Between the HPG, HPA, and HPT Axes in Zebrafish|Environ. Sci. Technol.45(2): 769-775|2011|10.1021/es102659p
160785|T||Lopez-Antia,A., M.E. Ortiz-Santaliestra, F. Mougeot, and R. Mateo|Experimental Exposure of Red-Legged Partridges (Alectoris rufa) to Seeds Coated with Imidacloprid, Thiram and Difenoconazole|Ecotoxicology22(1): 125-138|2013|10.1007/s10646-012-1009-x
160786|A||Rime,H., T. Nguyen, J. Bobe, A. Fostier, and G. Monod|Prochloraz-Induced Oocyte Maturation in Rainbow Trout (Oncorhynchus mykiss), a Molecular and Functional Analysis|Toxicol. Sci.118(1): 61-70|2010|10.1093/toxsci/kfq255
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160790|T||Embrechts,E.|Procaine Penicillin Toxicity in Pigs|Vet. Rec.111(14): 314-315|1982|10.1136/vr.111.14.314
160791|T||Boyd,E.M.|Testicular Atrophy from Analgesic Drugs|J. Clin. Pharmacol. New Drugs10(4): 222-227|1970|10.1177/009127007001000402
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160794|T||Garcia-Morales,S., L.I. Trejo-Tellez, F.C. Gomez-Merino, and D. Espinosa-Victoria|Growth Inhibition and Changes in Nutrient Accumulation in Cucumber Plants Under Salinity Conditions|Acta Hortic.947:83-90|2012|10.17660/ActaHortic.2012.947.8
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160796|T||Elzen,P.J., J.R. Baxter, G.W. Elzen, R. Rivera, and W.T. Wilson|Evaluation of Grapefruit Essential Oils for Controlling Varroa jacobsoni and Acarapis woodi|Am. Bee J.140(8): 666-668|2000|
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160799|A||Dethlefsen,V.|Uptake, Retention and Loss of Cadmium by Brown Shrimp (Crangon crangon)|Meeresforschung26:137-152|1978|
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160807|T||Bliyev,Y.U., and N.I. Mel'nikova|Effect of Hexazinone on the Agrochemical Properties of Sod-Podzolic Soil and Growth of Pine Seedlings|Sov. Soil Sci.19(3): 53-58|1987|
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160814|T||Bai,X.J., L.J. Liu, C.H. Zhang, Y. Ge, and W.D. Cheng|Effect of H2O2 Pretreatment on Cd Tolerance of Different Rice Cultivars|Rice Sci.18(1): 29-35|2011|10.1016/S1672-6308(11)60005-X
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160816|T||Haywood,J.D.|Prescribed Burning and Hexazinone Herbicide as Release Treatments in a Sapling Hardwood-Loblolly Pine Stand|New For. 10(1): 39-53|1995|10.1007/BF00034175
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160825|T||Yeiser,J.L.|Tree Injection for Early Pine Seedling Release in the Ozark Mountains of Arkansas|South. J. Appl. For.10(4): 249-251|1986|10.1093/sjaf/10.4.249
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160828|T||Sinnett-Smith,P.A., N.W. Dumelow, and P.J. Buttery|Effects of Trenbolone Acetate and Zeranol on Protein Metabolism in Male Castrate and Female Lambs|Br. J. Nutr.50(2): 225-234|1983|10.1079/BJN19830092
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160831|T||Watanabe,H.|Effect of 17alpha-Ethinylestradiol on Biliary Excretion of Bile Acids|Biochim. Biophys. Acta399(1): 79-84|1975|10.1016/0304-4165(75)90213-5
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160833|T||Weinstein,I., F.C. Turner, C. Soler-Argilaga, and M. Heimberg|Effects of Ethynyl Estradiol on Serum Lipoprotein Lipids in Male and Female Rats|Biochim. Biophys. Acta530(3): 394-401|1978|10.1016/0005-2760(78)90159-5
160834|T||Chao,W.S., M.D. Serpe, J.V. Anderson, R.W. Gesch, and D.P. Horvath|Sugars, Hormones, and Environment Affect the Dormancy Status in Underground Adventitious Buds of Leafy Spurge (Euphorbia esula)|Weed Sci.54(1): 59-68|2006|10.1614/WS-05-088R.1
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160836|T||Moore,J.H., and E.B. Hoskins|Arum Lily (Zantedeschia aethiopica) Control in the South West of Western Australia|In: J.K.Scott and B.J.Wykes (Eds.), Proceedings of a Workshop on Arum Lily (Zantedeschia aethiopica), Garden Island, Western Australia:31-37|1997|
160837|T||Lin,C., T. Zhu, L. Liu, and D. Wang|Influences of Major Nutrient Elements on Pb Accumulation of Two Crops from a Pb-Contaminated Soil|J. Hazard. Mater.174(1-3): 202-208|2010|10.1016/j.jhazmat.2009.09.137
160838|T||Danh,L.T., P. Truong, R. Mammucari, and N. Foster|Economic Incentive for Applying Vetiver Grass to Remediate Lead, Copper and Zinc Contaminated Soils|Int. J. Phytoremediat.13(1): 47-60|2011|10.1080/15226511003671338
160840|T||Lin,Y.C., E.M. Leano, and K.L. Pang|Effects of Cu(II) and Zn(II) on Growth and Cell Morphology of Thraustochytrids Isolated from Fallen Mangrove Leaves in Taiwan|Bot. Mar.53(6): 581-586|2010|10.1515/bot.2010.070
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160845|T||Shiver,B.D., S.A. Knowe, and W.N. Kline|Comparison of Chemical Site Preparation Treatments in the Georgia Piedmont|South. J. Appl. For.14(1): 24-32|1990|10.1093/sjaf/14.1.24
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160849|T||Kaya,C., A.L. Tuna, M. Dikilitas, and M.A. Cullu|Responses of Some Enzymes and Key Growth Parameters of Salt-Stressed Maize Plants to Foliar and Seed Applications of Kinetin and Indole Acetic Acid|J. Plant Nutr.33(3): 405-422|2010|10.1080/01904160903470455
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160853|T||Sugimoto,Y., S. Uchida, S. Inanaga, and A. Isogai|Effect of P-450 Inhibitors on Benzylisoquinoline Alkaloid Biosynthesis in Cultured Roots of Stephania cepharantha and Menispermum dauricum|J. Plant Physiol.150(4): 376-380|1997|10.1016/S0176-1617(97)80085-5
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160862|T||Ambethgar,V., M. Swamiappan, R.J. Rabindra, and R. Rabindran|Effect of Selected Fungicides on In Vitro Vegetative Growth of Beauveria bassiana (Balsamo) Vuillemin, a Pathogen of Rice Leaf Folders|J. Biol. Control24(1): 85-87|2010|
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160883|T||Van Haaren,P., and J. Vitelli|Chemical Control of Thunbergia (Thunbergia grandiflora)|Plant Prot. Q.12(1): 29-32|1997|
160884|A||Brain,R.A., J. Hoberg, A.J. Hosmer, and S.B. Wall|Influence of Light Intensity on the Toxicity of Atrazine to the Submerged Freshwater Aquatic Macrophyte Elodea canadensis|Ecotoxicol. Environ. Saf.79:55-61|2012|10.1016/j.ecoenv.2011.12.001
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160888|T||McDonald,P.M., C.S. Abbott, and G.O. Fiddler|Response of Young Ponderosa Pines, Shrubs, and Ferns to Three Release Treatments|West. J. Appl. For.9(1): 24-28|1994|10.1093/wjaf/9.1.24
160889|T||Pitt,D.G., C.S. Krishka, F.W. Bell, and A. Lehela|Five-Year Performance of Three Conifer Stock Types on Fine Sandy Loam Soils Treated with Hexazinone|North. J. Appl. For.16(2): 72-81|1999|10.1093/njaf/16.2.72
160891|T||Outcalt,K.W.|Maintaining the Native Plant Community During Longleaf Pine (Pinus palustris) Establishment|FRI Bull.192:283-285|1995|
160892|T||Baron,J.J., T.J. Monaco, and C.M. Mainland|Tolerance of Highbush and Rabbiteye Blueberry Cultivars to Hexazinone|Hortscience20(6): 1074-1075|1985|10.21273/HORTSCI.20.6.1074
160893|T||Jensen,K.I.N., and E.R. Kimball|Uptake and Metabolism of Hexazinone in Rubus hispidus L. and Pyrus melanocarpa (Michx.) Willd|Weed Res. (Multiple Languages)30(1): 35-41|1990|10.1111/j.1365-3180.1990.tb01685.x
160894|T||Steele,K.D., N.A. Davenhill, and J.A. Zabkiewicz|Weed Control as Influenced by Hexazinone Dose, Application Method, and Formulation in Post-Plant Pinus radiata Spot Releasing|FRI Bull.192:307-309|1995|
160895|T||Michael,J.L.|Formulation, Rate and Season of Application Effects of Hexazinone (Velpar) Gridball on Oak Topkill|Proc. South. Weed Sci. Soc.33:110-113|1980|
160896|A||Ferrari,L., B.L. Eissa, N.A. Ossana, and A. Salibian|Effects of Sublethal Waterborne Cadmium on Gills in Three Teleosteans Species:  Scanning Electron Microscope Study|Int. J. Environ. Health3(4): 410-426|2009|10.1504/IJENVH.2009.030111
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160899|T||Groppa,M.D., E.P. Rosales, M.F. Iannone, and M.P. Benavides|Nitric Oxide, Polyamines and Cd-Induced Phytotoxicity in Wheat Roots|Phytochemistry69(14): 2609-2615|2008|10.1016/j.phytochem.2008.07.016
160900|A||Kumar,M., A.J. Bijo, R.S. Baghel, C.R.K. Reddy, and B. Jha|Selenium and Spermine Alleviate Cadmium Induced Toxicity in the Red Seaweed Gracilaria dura by Regulating Antioxidants and DNA Methylation|Plant Physiol. Biochem. (Amsterdam)51:129-138|2012|10.1016/j.plaphy.2011.10.016
160901|T||Reynolds,P.E., T.S. Mackay, and M.L.,Jr. McCormack|Results of a Hexazinone-Mechanical Site Preparation Trial|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:222-229|1986|
160902|A||Li,M., C. Wan, X. Pan, Y. Zou, J. Chang, and P. Xie|Acute Toxic Effects of Zinc, Cadmium, and Mercury on the Growths of Three Unicellular Green Microalgae with Relatively High Initial Densities|Fresenius Environ. Bull.21(6): 1349-1356|2012|
160903|T||Hwang,S.F., H. Wang, B.D. Gossen, K.F. Chang, G.D. Turnbull, and R.J. Howard|Impact of Foliar Diseases on Photosynthesis, Protein Content and Seed Yield of Alfalfa and Efficacy of Fungicide Application|Eur. J. Plant Pathol.115(4): 389-399|2006|10.1007/s10658-006-9027-2
160904|A||Macova,S., J. Machova, M. Prokes, L. Plhalova, Z. Siroka, K. Dleskova, P. Dolezelova, and Z. Svobodova|Polyaluminium Chloride (PAX-18) - Acute Toxicity and Toxicity for Early Development Stages of Common Carp (Cyprinus carpio)|Neuroendocrinol. Lett.30(1): 192-198|2009|
160905|T||Markoglou,A.N., and B.N. Ziogas|SBI-Fungicides:  Fungicidal Effectiveness and Resistance in Botrytis cinerea|Phytopathol. Mediterr.41(2): 120-130|2002|
160906|A||Ogamba,E.N., I.R. Inyang, and S.S. Alforgod|Alterations in the Levels of Ions in Muscle and Liver of African Catfish, Clarias gariepinus Exposed to Paraquat Dichloride|Curr. Res. J. Biol. Sci.3(6): 547-549|2011|
160907|T||Moyses,Z.P., F.K. Nakandakari, and A.J. Magaldi|Fluoxetine Effect on Kidney Water Reabsorption|Nephrol. Dial. Transplant.23(4): 1173-1178|2008|10.1093/ndt/gfm714
160908|T||Martini,A.C., L.M. Vincenti, M.E. Santillan, G. Stutz, R. Kaplan, R.D. Ruiz, and M.F. De Cuneo|Chronic Administration of Nonsteroidal-Antiinflammatory Drugs (NSAIDs):  Effects Upon Mouse Reproductive Functions|Rev. Fac. Cienc. Med. Univ. Nac. Cordoba65(2): 41-51|2008|
160909|A||Ogamba,E.N., I.R. Inyang, and I.K. Azuma|Effect of Paraquat Dichloride on Some Metabolic and Enzyme Parameters of Clarias gariepinus|Curr. Res. J. Biol. Sci.3(3): 186-190|2011|
160910|T||Medina,M.F., A. Cosci, S. Cisint, C.A. Crespo, I. Ramos, A.L. Iruzubieta Villagra, and S.N. Fernandez|Histopathological and Biological Studies of the Effect of Cadmium on Rhinella arenarum Gonads|Tissue Cell44(6): 418-426|2012|10.1016/j.tice.2012.08.005
160911|A||Musthafa,M.S., S. Shajithanoop, A. Paneerselvam, and A.S. Bukhari|Bioaccumulation of Cadmium in Selected Tissues of Oreochromis mossambicus Exposed to Sublethal Concentrations of Cadmium Chloride|Asian J. Exp. Sci23(3): 511-518|2009|
160912|T||Oleson,J.D., J.R. Rouse, P.J. Boeve, D.A. Baker, D.H. Scmidt, and J.T. Tollesfon|Field Corn, Corn Rootworm Larval Control, 1990|Insectic. Acaric. Tests16:156-161|1991|10.1093/iat/16.1.156a
160913|A||Inyang,I.R., E.R. Daka, and E.N. Ogamba|Effect of Diazinon on Acid and Alkaline Phosphatase Activities in Plasma and Organs of Clarias gariepinus|Curr. Res. J. Biol. Sci.3(3): 191-194|2011|
160914|A||Sharbidre,A.A., V. Metkari, and P. Patode|Effect of Diazinon on Acetylcholinesterase Activity and Lipid Peroxidation of Poecilia reticulata|Res. J. Environ. Toxicol.5(2): 152-161|2011|10.3923/rjet.2011.152.161
160915|A||Far,M.S., H.V. Roodsari, A. Zamini, E. Mirrasooli, and R. Kazemi|The Effects of Diazinon on Behavior and Some Hematological Parameters of Fry Rainbow Trout (Oncorhynchus mykiss)|World J. Fish Mar. Sci.4(4): 369-375|2012|
160916|A||Rakhodaei,M., M. Alishahi, and M.J. Baboli|Determining the Lethal Concentration of Diazinon Pesticide (LC50 96 H) on Barbus grypus|World J. Fish Mar. Sci.4(4): 390-395|2012|
160917|A||Tarkhani,R., and M.R. Imanpoor|Mortality Response of Xiphophorus maculatus (Cyprinodontiformes: Poeciliidae) to Some Agricultural Pesticides|World J. Fish Mar. Sci.4(5): 512-516|2012|
160918|A||Notch,E.G., D.M. Miniutti, J.P. Berry, and G.D. Mayer|Cyanobacterial LPS Potentiates Cadmium Toxicity in Zebrafish (Danio rerio) Embryos|Environ. Toxicol.26(5): 498-505|2011|10.1002/tox.20578
160919|A||Pinkina,T.V.|Effect of the Heavy Metals on Biological Characteristics of the Pond Snail (Lymnaea stagnalis L.) from the Water Bodies with Different Rate of Radionuclide Contamination|Hydrobiol. J.46(3): 103-111|2010|10.1615/HydrobJ.v46.i3.90
160920|A||Singh,A., P. Malodia, M. Kachhawaha, N. Ansari, S.K. Jain, and P.K. Khatri|Effect of EDTA, Phosphate, pH and Metal Species on Cadmium and Nickel Uptake by Aquatic Macrophyte Spirodela polyrhiza|Asian J. Water Environ. Pollut.8(2): 51-60|2011|
160921|A||Solanke,A.K.|Toxicity of Cadmium in Fresh Water Fish Cyprinus carpio|Environ. Ecol.30(1): 32-33|2012|
160923|T||Baron,J.J., and T.J. Monaco|Uptake, Translocation, and Metabolism of Hexazinone in Blueberry (Vaccinium sp.) and Hollow Goldenrod (Solidago fistulosa)|Weed Sci.34(6): 824-829|1986|10.1017/S0043174500067953
160924|T||Thompson,A.R., A.L. Percivall, and G.H. Edmonds|Evaluation of SD 208304, a Soil-Acting Insecticide, Against Carrot Fly|Tests Agrochem. Cultiv.:4-5|1986|
160925|T||Thompson,A.R., A.L. Percivall, and G.H. Edmonds|Evaluation of SD 208304, a Soil-Acting Insecticide, Against Cabbage Root Fly|Tests Agrochem. Cultiv.:30-31|1986|
160926|T||Zorb,G.L., and C.T. Black|Effects of Diazinon and Guthion on Penned Pheasants|U.S.Fish and Wildlife Service, Patuxent Wildlife Research Center, Laurel, MD:85-86|1965|
160927|T||ElMazoudy,R.H., A.A. Attia, and H.S. AbdElGawad|Evaluation of Developmental Toxicity Induced by Anticholinesterase Insecticide, Diazinon in Female Rats|Birth Defects Res. B Dev. Reprod. Toxicol.92(6): 534-542|2011|10.1002/bdrb.20322
160928|T||Amirkabirian,N., F. Teimouri, H. Esmaily, A. Mohammadirad, A. Aliahmadi, and M. Abdollahi|Protection by Pentoxifylline of Diazinon-Induced Toxic Stress in Rat Liver and Muscle|Toxicol. Mech. Methods17:215-221|2007|10.1080/15376510600943783
160929|T||Shadnia,S., M. Dasgar, S. Taghikhani, A. Mohammadirad, R. Khorasani, and M. Abdollahi|Protective Effects of alpha-Tocopherol and N-Acetyl-Cysteine on Diazinon-Induced Oxidative Stress and Acetylcholinesterase Inhibition in Rats|Toxicol. Mech. Methods17:109-115|2007|10.1080/15376510600860318
160930|T||Baxendale,F.P., A.P. Weinhold, K. Von Bargen, and R.D. Grisso|Annual White Grub Control on a Golf Course Fairway Using Subsurface and Conventional Application Methods, 1994|Arthropod Manag. Tests20:287-|1995|
160932|T||Costa,M.D., B.M. Gai, C.I. Acker, A.C.G. Souza, R. Brandao, and C.W. Nogueira|Ebselen Reduces Hyperglycemia Temporarily-Induced by Diazinon: A Compound with Insulin-Mimetic Properties|Chem.-Biol. Interact.197(2/3): 80-86|2012|10.1016/j.cbi.2012.03.008
160933|A||Kretschmann,A., R. Ashauer, K. Hitzfeld, P. Spaak, J. Hollender, and B.I. Escher|Mechanistic Toxicodynamic Model for Receptor-Mediated Toxicity of Diazinon, the Active Metabolite of Diazinon, in Daphnia magna|Environ. Sci. Technol.45:4980-4987|2011|10.1021/es1042386
160934|T||Jamshidi,H.R., M.H. Ghahremani, S.N. Ostad, M. Sharifzadeh, A.R. Dehpour, and M. Abdollahi|Effects of Diazinon on the Activity and Gene Expression of Mitochondrial Glutamate Dehydrogenase from Rat Pancreatic Langerhans Islets|Pestic. Biochem. Physiol.93:23-27|2009|10.1016/j.pestbp.2008.09.002
160935|T||Ibrahim,N.A., and B.A. El-Gamal|Effect of Diazinon, an Organophosphate Insecticide, on Plasma Lipid Constituents in Experimental Animals|J. Biochem. Mol. Biol.36(5): 499-504|2003|
160936|T||Frampton,G.K.|The Effects of Some Commonly-Used Foliar Fungicides on Collembola in Winter Barley:  Laboratory and Field Studies|Ann. Appl. Biol.113(1): 1-14|1988|10.1111/j.1744-7348.1988.tb03276.x
160937|A||Gutierrez,M.F., J.C. Paggi, and A.M. Gagneten|Microcrustaceans Escape Behavior as an Early Bioindicator of Copper, Chromium and Endosulfan Toxicity|Ecotoxicology21(2): 428-438|2012|10.1007/s10646-011-0803-1
160938|A||Denoel,M., B. D'Hooghe, G.F. Ficetola, C. Brasseur, E. De Pauw, J.P. Thome, and P. Kestemont|Using Sets of Behavioral Biomarkers to Assess Short-Term Effects of Pesticide:  A Study Case with Endosulfan on Frog Tadpoles|Ecotoxicology21(4): 1240-1250|2012|10.1007/s10646-012-0878-3
160939|A||Sanchez-Bayo,F., and K. Goka|Evaluation of Suitable Endpoints for Assessing the Impacts of Toxicants at the Community Level|Ecotoxicology21(3): 667-680|2012|10.1007/s10646-011-0823-x
160940|T||Adamkovicova,M., R. Toman, M. Cabaj, J. Golian, P. Massanyi, N. Lukac, M. Martiniakova, and T. Kimakova|Morphometric Analysis of Rat Testes After Intraperitoneal Administration of Single Dose of Cadmium and Diazinon|Curr. Topics Toxicol.7:51-58|2011|
160941|A||Ton,S.S., S.H. Chang, L.Y. Hsu, M.H. Wang, and K.S. Wang|Evaluation of Acute Toxicity and Teratogenic Effects of Disinfectants by Daphnia magna Embryo Assay|Environ. Pollut.168:54-61|2012|10.1016/j.envpol.2012.04.008
160942|A||Melvin,S.D., and V.L. Trudeau|Growth, Development and Incidence of Deformities in Amphibian Larvae Exposed as Embryos to Naphthenic Acid Concentrations Detected in the Canadian Oil Sands Region|Environ. Pollut.167:178-183|2012|10.1016/j.envpol.2012.04.002
160943|A||Guo,Y.W., Y. Zhang, X. Huang, K.S. Gao, K.J. Wang, C.H. Ke, and H.Q. Huang|Proteomic Analysis of Dimethoate-Responsive Proteins in the Oyster (Saccostrea cucullata) Gonad|Environ. Sci. Pollut. Res.19(6): 2248-2258|2012|10.1007/s11356-011-0729-4
160944|A||Manar,R., P. Vasseur, and H. Bessi|Chronic Toxicity of Chlordane to Daphnia magna and Ceriodaphnia dubia:  A Comparative Study|Environ. Toxicol.27(2): 90-97|2012|10.1002/tox.20616
160945|A||Brain,R.A., A.J. Hosmer, D. Desjardins, T.Z. Kendall, H.O. Krueger, and S.B. Wall|Recovery of Duckweed from Time-Varying Exposure to Atrazine|Environ. Toxicol. Chem.31(5): 1121-1128|2012|10.1002/etc.1806
160946|A||Ding,G.H., T. Fromel, E.J. Van den Brandhof, R. Baerselman, and W.J.G.M. Peijnenburg|Acute Toxicity of Poly- and Perfluorinated Compounds to Two Cladocerans, Daphnia magna and Chydorus sphaericus|Environ. Toxicol. Chem.31(3): 605-610|2012|10.1002/etc.1713
160947|A||Teodorovic,I., V. Knezevic, T. Tunic, M. Cucak, J.N. Lecic, A. Leovac, and I.I. Tumbas|Myriophyllum aquaticum Versus Lemna minor:  Sensitivity and Recovery Potential After Exposure to Atrazine|Environ. Toxicol. Chem.31(2): 417-426|2012|10.1002/etc.748
160949|A||Guyon,N.F., M.A. Roggio, M.V. Ame, A.C. Hued, M.E. Valdes, L.C. Giojalas, D.A. Wunderlin, and M.A. Bistoni|Impairments in Aromatase Expression, Reproductive Behavior, and Sperm Quality of Male Fish Exposed to 17 beta-Estradiol|Environ. Toxicol. Chem.31(5): 935-940|2012|10.1002/etc.1790
160950|A||Pandolfo,T.J., W.G. Cope, G.B. Young, J.W. Jones, D. Hua, and S.F. Lingenfelser|Acute Effects of Road Salts and Associated Cyanide Compounds on the Early Life Stages of the Unionid Mussel Villosa iris|Environ. Toxicol. Chem.31(8): 1801-1806|2012|10.1002/etc.1876
160951|A||Anasco,N.C., J. Koyama, S. Imai, and K. Nakamura|Toxicity of Residual Chlorines from Hypochlorite-Treated Seawater to Marine Amphipod Hyale barbicornis and Estuarine Fish Oryzias javanicus|Water Air Soil Pollut.195(1-4): 129-136|2008|10.1007/s11270-008-9732-x
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160953|T||Li,H., H. Luo, D. Li, T. Hu, and J. Fu|Antioxidant Enzyme Activity and Gene Expression in Response to Lead Stress in Perennial Ryegrass|J. Am. Soc. Hortic. Sci.137(2): 80-85|2012|10.21273/JASHS.137.2.80
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160961|T||Davis,P.G., C.V. Chaptal, and B.S. McEwen|Independence of the Differentiation of Masculine and Feminine Sexual Behavior in Rats|Horm. Behav.12(1): 12-19|1979|10.1016/0018-506X(79)90022-9
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160963|T||Carreras,F.I., G.L. Lehmann, D. Ferri, M.F. Tioni, G. Calamita, and R.A. Marinelli|Defective Hepatocyte Aquaporin-8 Expression and Reduced Canalicular Membrane Water Permeability in Estrogen-Induced Cholestasis|Am. J. Physiol. Gasterointest. Liver Physiol.292(3): 905-912|2007|10.1152/ajpgi.00386.2006
160964|T||Wegulo,S.N., J.A. Breathnach, and P.S. Baenziger|Effect of Growth Stage on the Relationship Between Tan Spot and Spot Blotch Severity and Yield in Winter Wheat|Crop Prot.28(8): 696-702|2009|10.1016/j.cropro.2009.04.003
160965|T||Sturchio,E., P. Boccia, C. Meconi, M. Zanellato, S. Marconi, C. Beni, R. Aromolo, A. Ciampa, G. Diana, and M. Valentini|Effects of Arsenic on Soil-Plant Systems|Chem. Ecol.27(Suppl. 1): 67-78|2011|10.1080/02757540.2010.536762
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160967|T||Nel,B., C. Steinberg, N. Labuschagne, and A. Viljoen|Evaluation of Fungicides and Sterilants for Potential Application in the Management of Fusarium Wilt of Banana|Crop Prot.26(4): 697-705|2007|10.1016/j.cropro.2006.06.008
160968|T||Parry-Weeks,L.C., and D.W. Holtan|Effect of Altrenogest on Pregnancy Maintenance in Unsynchronized Equine Embryo Recipients|J. Reprod. Fertil.35(4): 433-438|1987|
160969|T||Gautam,L.S., and M. Kumar|Study of Enzymatic Modulation in Brain of White Rat Due to Alcoholism|J. Exp. Zool. India14(2): 657-661|2011|
160970|T||Saxena,S., and S.P. Singh|Effectiveness of the Syzgium cumini on Reproductive Organs of Albino Rats Against Silica Induced Toxicity|J. Exp. Zool. India14(2): 643-649|2011|
160971|T||Amrendra|Neuropathologic Changes in the Rat Following Tri-Orthocresyl - Phosphate|J. Exp. Zool. India14(2): 633-636|2011|
160972|T||Jorgensen,L.N., and L.V. Olsen|Control of Tan Spot (Drechslera tritici-repentis) Using Cultivar Resistance, Tillage Methods and Fungicides|Crop Prot.26(11): 1606-1616|2007|10.1016/j.cropro.2007.01.009
160973|T||Dhembare,A.J., A.B. Gholap, and R. Khatode|Haematological Modulations in Male European Rabbit, Oryctolagus cuniculus (Linn.) Exposed to Potassium Dihydrogen Orthophosphate|J. Exp. Zool. India14(2): 523-526|2011|
160974|T||Kambale,N.A., and V.V. Potdar|Histopathological Alterations and Metal Accumulation in the Mantle of Slug Semperula maculata (Semper)|J. Exp. Zool. India14(2): 531-535|2011|
160975|T||Seyran,M., T.B. Brenneman, and K.L. Stevenson|A Rapid Method to Monitor Fungicide Sensitivity in the Pecan Scab Pathogen, Fusicladium effusum|Crop Prot.29(11): 1257-1263|2010|10.1016/j.cropro.2010.07.016
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161074|T||Khurana,M.P.S., and B.D. Kansal|Influence of Zinc Supply on the Phytotoxicity of Cadmium in Maize (Zea mays L.) Grown on Cadmium-Contaminated Soil|Acta Agron. Hung.60(1): 37-46|2012|10.1556/AAgr.60.2012.1.5
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161087|T||Cuervo-Arango,J.|The Effect of Treatment with Flunixin Meglumine at Different Times Relative to hCG Administration on Ovulation Failure and Luteal Function in Mares|Anim. Reprod. Sci.127(1/2): 84-90|2011|10.1016/j.anireprosci.2011.07.008
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161110|T||Ducic,T., and A. Polle|Manganese Toxicity in Two Varieties of Douglas Fir (Pseudotsuga menziesii var. viridis and glauca) Seedlings as Affected by Phosphorus Supply|Funct. Plant Biol.34(1): 31-40|2007|10.1071/FP06157
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161115|T||Crump,D., C. Egloff, S. Chiu, R.J. Letcher, S. Chu, and S.W. Kennedy|Pipping Success, Isomer-Specific Accumulation, and Hepatic mRNA Expression in Chicken Embryos Exposed to HBCD|Toxicol. Sci.115(2): 492-500|2010|10.1093/toxsci/kfq068
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161121|T||Gertzog,B.J., L.J. Kaplan, D. Nichols, G.R. Smith, and J.E. Rettig|Avoidance of Three Herbicide Formulations by Eastern Red-Backed Salamanders (Plethodon cinereus)|Herpetol. Conserv. Biol.6(2): 237-241|2011|
161122|T||Hernandez-Moreno,D., M. Perez-Lopez, M.P. Miguez, F. Soler, and B. Jimenez|Porphyrin Levels in Excreta of Rabbit as Non-Destructive Biomarkers of Diazinon Exposure|Environ. Toxicol. Pharmacol.34(2): 466-472|2012|10.1016/j.etap.2012.06.009
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161129|T||Yamamoto,K., H. Ichinose, Y. Aso, Y. Banno, M. Kimura, and T. Nakashima|Molecular Characterization of an Insecticide-Induced Novel Glutathione Transferase in Silkworm|Biochim. Biophys. Acta1810(4): 420-426|2011|10.1016/j.bbagen.2011.01.003
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161138|T||Tripathi,M.K., and T.N. Maurya|Efficacy of Synthetic, Botanical and Bio-Pesticides for Management of Earias vittella in Okra|J. Exp. Zool. India14(2): 595-596|2011|
161139|T||Singh,K., and S.C. Patnaik|Modulatory Action of Vitamin C on the Genotoxicity of an Anti Cancer Drug (Etoposide) Tested in the Wing Spot of Drosophila|Nat. Environ. Pollut. Technol.9(3): 473-479|2010|
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161142|T||Singh,R., and S. Gupta|Effects of Garlic Oil Supplementation Against Stavudine Induced Genotoxicity|J. Exp. Zool. India11(2): 335-339|2008|
161143|T||Abdel-Moneim,A.M., M.M. Al-Rawi, A.M. Abu El-Saad, and J.M. Sorour|Changes in Oxidative Stress, Testicular Enzymes, Histological and Ultrastructural Characteristics of Seminiferous Epithelium and Semen Quality of Rats After In Vivo Exposure to Lead and/or Cadmium|J. Exp. Zool. India11(2): 341-352|2008|
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161146|T||Choudhary,A., R. Mangal, and S. Gour|Alteration of Glucose-6-Phosphatase Activities Due to Fluoride Toxicity in Albino Rat|J. Exp. Zool. India11(2): 411-413|2008|
161147|T||Kumar,T.R., D.M. Emerald, and S.M. Prabu|Effect of Heavy Metal Mercury on Histological Changes in the Fat Body of Adult Male Laccotrephes ruber (Linn.) (Heteroptera : Nepidae)|J. Exp. Zool. India11(2): 455-457|2008|
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161347|T||Giltrap,N.J.|Evaluation of Fungicides and Surfactants Against Light Leaf Spot of Winter Oilseed Rape|Tests Agrochem. Cultiv.7:60-61|1986|
161348|T||Entwistle,A.R.|Evaluation of SC9906 for the Control of White Rot in Spring-Sown Bulb Onions|Tests Agrochem. Cultiv.7:64-65|1986|
161349|T||Entwistle,A.R.|Evaluation of SC9906 for the Control of White Rot in Spring Sown Salad Onions|Tests Agrochem. Cultiv.7:66-67|1986|
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161535|T||Evans,K., and A.M. Spaull|Comparison of Autumn and Spring Applications of Oxamyl to Winter Oilseed Rape cv. Bienvenu Infected by Brassica Cyst Nematodes|Tests Agrochem. Cultiv.:16-17|1986|
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162095|T||Singh,H., and A. Haq|Trial of Some New Insecticides for the Control of Sugarcane Whitefly in Uttar Pradesh|Indian Sugar18(6): 457-459|1968|
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162131|T||Naden,J., E.L. Squires, and T.M. Nett|Effect of Maternal Treatment with Altrenogest on Age at Puberty, Hormone Concentrations, Pituitary Response to Exogenous GnRH, Oestrous Cycle Characteristics and Fertility of Fillies|J. Reprod. Fertil.88(1): 185-195|1990|10.1530/jrf.0.0880185
162133|T||Homeida,A.M.|Use of Spironolactone to Investigate the Role of Testosterone Secretion During Luteolysis in the Goat|J. Reprod. Fertil.76(1): 153-157|1986|10.1530/jrf.0.0760153
162134|T||Myung,C.S., B.T. Kim, S.H. Choi, G.Y. Song, S.Y. Lee, and J.W. Jahng|Role of Neuropeptide Y and Proopiomelanocortin in Fluoxetine-Induced Anorexia|Arch. Pharm. Res. (Seoul)28(6): 716-721|2005|10.1007/BF02969363
162135|T||Martin,M.J.|Development of In Vivo-Matured Porcine Oocytes Following Intracytoplasmic Sperm Injection|Biol. Reprod.63(1): 109-112|2000|10.1095/biolreprod63.1.109
162136|T||McDowell,K.J., D.C. Sharp, W. Grubaugh, W.W. Thatcher, and C.J. Wilcox|Restricted Conceptus Mobility Results in Failure of Pregnancy Maintenance in Mares|Biol. Reprod.39(2): 340-348|1988|10.1095/biolreprod39.2.340
162137|T||Lin,X., D.A. Levitsky, J.M. King, and T.C. Campbell|The Promotion Effect of Anorectic Drugs on Aflatoxin B1-Induced Hepatic Preneoplastic Foci|Carcinogenesis20(9): 1793-1799|1999|10.1093/carcin/20.9.1793
162138|T||Nalcaci,O.O., S. Ozgen, and B. Ovez|Metal Contamination Characteristics of Lepidium sativum in a Phosphate-, Saline-, and Nitrate-Contaminated Media|J. Environ. Eng.136(11): 1260-1266|2010|10.1061/(ASCE)EE.1943-7870.0000264
162139|T||Hasanuzzaman,M., M.A. Hossain, and M. Fujita|Nitric Oxide Modulates Antioxidant Defense and the Methylglyoxal Detoxification System and Reduces Salinity-Induced Damage of Wheat Seedlings|Plant Biotech. Rep.5(4): 353-365|2011|10.1007/s11816-011-0189-9
162140|T||Mansee,A.H., M.M. Abo-El-Saad, and M.S. Shawir|Interaction of Cypermethrin and Permethrin with Certain Enzymes Isolated from Male Rat Liver|Alex. J. Pharm. Sci.9(3): 209-212|1995|
162141|T||Baxendale,F.P., M.A.A. Ali, K. Bargen, and R.D. Grisso|Subsurface Placement of Insecticides for Control of Southern Masked Chafer Grubs, 1992|Insectic. Acaric. Tests18:319-|1993|10.1093/iat/18.1.319
162142|T||Gutting,B.W., L.W. Updyke, and D.E. Amacher|BALB/c Mice Orally Pretreated with Diclofenac have Augmented and Accelerated PLNA Responses to Diclofenac|Toxicology172(3): 217-230|2002|10.1016/S0300-483X(02)00008-2
162143|A||Fini,J.B., A. Riu, L. Debrauwer, A. Hillenweck, S. Le Mevel, S. Chevolleau, A. Boulahtouf, K. Palmier, P. Balaguer, J.P|Parallel Biotransformation of Tetrabromobisphenol A in Xenopus laevis and Mammals:  Xenopus as a Model for Endocrine Perturbation Studies|Toxicol. Sci.125(2): 359-367|2012|10.1093/toxsci/kfr312
162144|A||Akhtar,M.S., A.K. Pal, N.P. Sahu, A. Ciji, and S.K. Gupta|Effects of Dietary Pyridoxine on Growth and Biochemical Responses of Labeo rohita Fingerlings Exposed to Endosulfan|Pestic. Biochem. Physiol.103(1): 23-30|2012|10.1016/j.pestbp.2012.02.004
162145|A||Cuklev,F., J. Fick, M. Cvijovic, E. Kristiansson, L. Forlin, and D.G.J. Larsson|Does Ketoprofen or Diclofenac Pose the Lowest Risk to Fish?|J. Hazard. Mater.229/230:100-106|2012|10.1016/j.jhazmat.2012.05.077
162146|T||Chen,B., J. Xia, G. Li, and Y. Zhou|The Effects of Acute Alcohol Exposure on the Response Properties of Neurons in Visual Cortex Area 17 of Cats|Toxicol. Appl. Pharmacol.243(3): 348-358|2010|10.1016/j.taap.2009.11.027
162147|T||Barraud,B., A. Lugnier, and G. Dirheimer|Determination of the Binding of Trenbolone and Zeranol to Rat-Liver DNA In Vivo as Compared to 17b-Oestradiol and Testosterone|Food Addit. Contam.1(2): 147-155|1984|10.1080/02652038409385836
162148|T||Guarino,N., and P. Puri|Antenatal Dexamethasone Enhances Endothelin-1 Synthesis and Gene Expression in the Heart in Congenital Diaphragmatic Hernia in Rats|J. Pediatr. Surg.37(11): 1563-1567|2002|10.1053/jpsu.2002.36185
162149|T||Blais,S., F. Boudreau, K. Thorneloe, and C. Asselin|Differential Expression of fos and jun Family Members During Murine Postnatal Intestinal Development|Biol. Neonate69(5): 342-349|1996|10.1159/000244328
162151|T||Green,M.D., T.K. Shires, and L.J. Fischer|Hepatotoxicity of Acetaminophen in Neonatal and Young Rats.  I. Age-Related Changes in Susceptibility|Toxicol. Appl. Pharmacol.74(1): 116-124|1984|10.1016/0041-008X(84)90277-1
162152|T||Fox,G.R., and B.B. Virgo|The Effects of Phenobarbital, Atropine, L-alpha-Methyldopa, and DL-Propranolol on Dieldrin-Induced Hyperglycemia in the Adult Rat|Toxicol. Appl. Pharmacol.78(3): 342-350|1985|10.1016/0041-008X(85)90239-X
162153|A||Boonsaner,M., and D.W. Hawker|Investigation of the Mechanism of Uptake and Accumulation of Zwitterionic Tetracyclines by Rice (Oryza sativa L.)|Ecotoxicol. Environ. Saf.78:142-147|2012|10.1016/j.ecoenv.2011.11.023
162154|T||Wright,F.C.|Comparative Efficacy of Acaricides for Control of Psoroptes ovis (Hering) and P. cuniculi (Delafond)|Southwest. Entomol.5(4): 222-225|1980|
162155|T||Roberts,I.H., G.I. Wilson, and W.P. Meleney|Evaluation of Phosmet for the Control of the Common Scabies Mite on Cattle|J. Am. Vet. Med. Assoc.173(7): 840-842|1978|
162156|T||Chen,J.S., and K.C. Lo|Susceptibility of Two Bulb Mites, Rhizoglyphus robini and R. setosus (Acarina: Acaridae), to Some Acaricides and Insecticides|Exp. Appl. Acarol.6(1): 55-66|1989|10.1007/BF01193233
162157|T||Fan,L., R. Linker, S. Gepstein, E. Tanimoto, R. Yamamoto, and P.M. Neumann|Progressive Inhibition by Water Deficit of Cell Wall Extensibility and Growth Along the Elongation Zone of Maize Roots is Related to Increased Lignin Metabolism and Progressive Stelar Accumulation of Wall Phenolics|Plant Physiol.140(2): 603-612|2006|10.1104/pp.105.073130
162158|T||Page,L.M., H.B. Meyers, T.L. Singer, and D.R. Johnson|Comparison of Various Insecticides in the Control of the Cotton Boll Weevil (Anthonomus grandis)|Proc. Beltwide Cotton Conf.2:1222-1223|1997|
162159|T||Hagley,E.A.C.|Note on the Ovicidal Effect of Three Insecticides Against the Codling Moth (Lepidoptera:  Olethreutidae)|Proc. Entomol. Soc. Ont.106:55-58|1976|
162160|T||Henderson,D., D.P. Stevens, J. Parry, and G.H. Yeoman|Prolate Pour-ons for the Control of Sarcoptic and Chorioptic Mange in Cattle|Vet. Rec.120(17): 418-419|1987|10.1136/vr.120.17.418
162161|T||Heong,K.L., and K.J. Ng|The Control of Nephotettix virescens (Dist.) and Prevention of Tungro Virus by Insecticides|MARDI Res. Bull.6(1): 36-47|1978|
162162|T||Grausem,B., N. Chaubet, C. Gigot, J.C. Loper, and P. Benveniste|Functional Expression of Saccharomyces cerevisiae CYP51A1 Encoding Lanosterol-14-Demethylase in Tobacco Results in Bypass of Endogenous Sterol Biosynthetic Pathway and Resistance to an Obtusifoliol-14-Demethylase Herbic|Plant J.7(5): 761-770|1995|10.1046/j.1365-313X.1995.07050761.x
162163|T||Dhaliwal,H.S., E.C. Yeung, and T.A. Thorpe|TIBA Inhibition of In Vitro Organogenesis in Excised Tobacco Leaf Explants|In Vitro Cell. Dev. Biol., Plant40(2): 235-238|2004|10.1079/IVP2003514
162165|T||Baxendale,F.P., A.P. Weinhold, K. Von Bargen, and R.D. Grisso|Subsurface vs. Conventional Insecticide Applications for Control of Annual White Grubs on a Golf Course Fairway, 1993|Arthropod Manag. Tests19:320-|1994|
162166|T||Allsopp,P.G., and N.G. McGill|Use of Cadusafos and Terbufos Against Larvae of Antitrogus parvulus and Antitrogus consanguineus (Coleoptera: Scarabaeidae) in Sugarcane in Southern Queensland|Crop Prot.16(4): 371-374|1997|10.1016/S0261-2194(96)00106-8
162168|T||Corrado,M.L., M. Kramer, M. Cummings, and R.H. Eng|Susceptibility of Dematiaceous Fungi to Amphotericin B, Miconazole, Ketoconazole, Flucytosine and Rifampin Alone and in Combination|Sabouraudia20(2): 109-113|1982|10.1080/00362178285380181
162169|T||Fanelli,C., A.A. Fabbri, S. Brasini, C. De Luca, and S. Passi|Effect of Different Inhibitors of Sterol Biosynthesis on Both Fungal Growth and Aflatoxin Production|Nat.Toxins3(2): 109-113|1995|10.1002/nt.2620030209
162170|T||Bourland,F.M., C.A. Mitchell, and B.W. White|Effects of Selection for Tolerance to Trifluralin in Cotton|Proc. Beltwide Cotton Conf.:200-202|1985|
162171|T||Kettle,P.R., and J.M. Lukies|The Efficacy of Some Pour-on Insecticides for the Control of Long-Nosed Sucking Lice (Linognathus vituli) on Cattle|N. Z. Vet. J.27(4): 78-79|1979|10.1080/00480169.1979.34604
162172|T||Mohammad,A.B., and M.T. AliNiazee|Toxicity of Foliar Residues of Phosmet to the Apple Maggot, Rhagoletis pomonella (Diptera:  Tephritidae)|J. Entomol. Soc. B. C.87:55-58|1990|
162173|T||Page,L.M., D.R. Johnson, M.P. Maret, and S.R. Amaden|Summary of Insecticide Performance for Boll Weevil (Anthonomus grandis) Control in Arkansas Cotton|Proc. Beltwide Cotton Conf.2:1168-1169|1999|
162174|T||Pree,D.J., and E.A.C. Hagley|Toxicity of Some Insecticides to Eggs of the Oriental Fruit Moth and Codling Moth|Proc. Entomol. Soc. Ont.108:69-74|1977|
162175|T||Radha,N.V.|Efficacy of Some Synthetic Insecticides in the Control of the Castor White Fly, Trialeurodes ricini M.|Madras Agric. J.58(4): 300-302|1971|
162176|T||Stevenson,A.B., and D.J. Pree|Toxicity of Insecticides to the Aster Leafhopper, Macrosteles fascifrons (Homoptera:Cicadellidae) in the Laboratory and Field|Proc. Entomol. Soc. Ont.115:89-92|1985|
162177|T||Tucker,G.R., P. Collingwood, O. Hildebrand, and W. McCormack|The Use of Synthetic Acaricides as Tools for Management of Redlegged Earth Mite in Crop and Pasture Systems in Southern Australia|Plant Prot. Q.10(2): 60-61|1995|
162178|T||Wang,T., and J.E. Laing|Toxicity of Selected Insecticides to Adult Holcothorax testaceipes (Hymenoptera:  Encyrtidae), an Imported Parasitoid of Phyllonorycter blancardella (Lepidoptera:  Gracillariidae)|Proc. Entomol. Soc. Ont.121:119-122|1990|
162179|T||Galowalia,M.M.S.|Evaluation of Selected Insecticides on Cattle and Three Types of Surface for Control of Stomoxys nigra|Trop. Pest Manag.26(2): 157-161|1980|10.1080/09670878009414387
162180|T||Garris,G.I., and N. Barre|Acaricide Susceptibility of Amblyomma variegatum (Acari:  Ixodidae) from Puerto Rico and Guadeloupe|Exp. Appl. Acarol.12(3/4): 171-179|1991|10.1007/BF01193465
162181|T||Loomis,E.C., G.L. Crenshaw, R.B. Bushnell, and L.L. Dunning|Systemic Insecticide Study on Livestock in California, 1965-67. 1. Cattle Grub Control|J. Econ. Entomol.63(4): 1237-1241|1970|
162182|T||Nord,J.C., and W.D. Pepper|Rainfastness of Insecticide Deposits on Loblolly Pine Foliage and the Efficacy of Adjuvants in Preventing Washoff|J. Entomol. Sci.26(2): 287-298|1991|10.18474/0749-8004-26.2.287
162183|T||Reinert,J.A., and G.E. Fitzpatrick|Citrus Blackfly Control with Foliar-Applied Insecticides|Citrus Ind.59(2): 8,10,12|1978|
162184|T||Rapp,R.E.|Integrated Management of Common Reed Along the Platte River in Nebraska: Control, Timing, Water Use, and Economic Analysis|Ph.D. Thesis, University of Nebraska, Lincoln, NE:159 p.|2012|
162185|A||Monahan,T.J.|Lead Inhibition of Hormotila blennista (Chlorophyceae, Chlorococcales)|Phycologia12(3/4): 247-|1973|10.2216/i0031-8884-12-3-247.1
162186|T||Faludi,G., J. Gotlieb, and J. Meyers|Factors Influencing the Development of Steroid-Induced Myopathies|Ann. N. Y. Acad. Sci.138(1): 61-72|1966|10.1111/j.1749-6632.1966.tb41155.x
162187|T||Abrol,D.P., and A.A. Bhat|Effect of Spacing, Intercropping and Insecticides on the Management of Tomato Fruit Borer, Helicoverpa armigera (Hubner)|J. Insect Sci.9(2): 170-171|1996|
162188|T||Sumpter,D.W.F., H.R. Knight, and D.G. Bartlett|Experiments on the Control of Weeds in Field Beans with N-(1,1-Dimethylpropynyl)-3,5-Dichlorobenzamide (RH 315)|Proc. Br. Weed Control Conf.2:524-528|1971|
162189|T||Braithwaite,J.R., G.M. Booth, and L. Robison|Field Efficacy of Two Organophosphates and an Insect Growth Regulator on the Alfalfa Weevil Hypera postica (Gyllenhal)|Sci. Biol. J.2(5): 170-179|1976|
162190|T||Rodriguez-Medina,M., E. Canchola, M. Vergara-Onofre, and A. Rosado|Ca2+/Calmodulin System:  Participation on Rat Sexual Hypothalamic Differentiation|Pharmacol. Biochem. Behav.46(3): 697-702|1993|10.1016/0091-3057(93)90564-A
162191|T||Rojavin,M., I. Szabo, J.L. Bussiere, T.J. Rogers, M.W. Adler, and T.K. Eisenstein|Morphine Treatment In Vitro or In Vivo Decreases Phagocytic Functions of Murine Macrophages|Life Sci.53:997-1006|1993|10.1016/0024-3205(93)90122-J
162192|A||Marchyulenene,D.P., and E.B. Moteyunene|The Effect on Hydrophytes of Various Contaminants in the Aquatic Environment|In: Agrochemical-Biota Interactions in soil and Water Using Nuclear Techniques, Technical Document Volume 283, International Atomic Energy Agency, Vienna, Austria:61-63|1983|
162193|A||Pestana,J.L.T., S. Loureiro, D.J. Baird, and A.M.V.M. Soares|Pesticide Exposure and Inducible Antipredator Responses in the Zooplankton Grazer, Daphnia magna Straus|Chemosphere78(3): 241-248|2010|10.1016/j.chemosphere.2009.10.066
162194|T||Petersen,I.L., G. Tomasi, H. Sorensen, E.S. Boll, H.C.B. Hansen, and J.H. Christensen|The Use of Environmental Metabolomics to Determine Glyphosate Level of Exposure in Rapeseed (Brassica napus L.) Seedlings|Environ. Pollut.159(10): 3071-3077|2011|10.1016/j.envpol.2011.04.005
162195|A||Weizenbaum,N.|The Effect of Humic Acid on the Acute Toxicity of Mercury to Daphnia magna|Tutorial in Biology, Chatham College, Pittsburgh, PA:75 p.|1991|
162196|T||Patterson,J., A. Wellen, M. Hahn, A. Pasternak, J. Lowe, S. DeHaas, D. Kraus, N. Williams, and G. Foxcroft|Responses to Delayed Estrus After Weaning in Sows Using Oral Progestagen Treatment|J. Anim. Sci.86(8): 1996-2004|2008|10.2527/jas.2007-0440
162197|T||Pfleeger,T., M. Blakeley-Smith, G. King, E.H. Lee, M. Plocher, and D. Olszyk|The Effects of Glyphosate and Aminopyralid on a Multi-Species Plant Field Trial|Ecotoxicology21(7): 1771-1787|2012|10.1007/s10646-012-0912-5
162198|T||Stasiak,M.A., G. Hofstra, N.J. Payne, R. Prasad, and R.A. Fletcher|Alterations of Growth and Shikimic Acid Levels by Sublethal Glyphosate Applications on Pin Cherry and Trembling Aspen|Can. J. For. Res.21(7): 1086-1090|1991|10.1139/x91-149
162199|T||Stephenson IV,D.O., L.R. Oliver, and J.A. Bond|Response of Pitted Morningglory (Ipomoea lacunosa) Accessions to Chlorimuron, Fomesafen, and Glyphosate|Weed Technol.21(1): 179-185|2007|10.1614/WT-06-067.1
162200|T||Stephenson IV,D.O., M.G. Patterson, W.H. Faircloth, and J.N. Lunsford|Weed Management with Fomesafen Preemergence in Glyphosate-Resistant Cotton|Weed Technol.18(3): 680-686|2004|10.1614/WT-03-133
162201|T||Wilde,G., A. Kadoum, and T. Mize|Absence of Synergism with Insecticide Combinations Used on Chinch Bugs (Heteroptera:  Lygaeidae)|J. Econ. Entomol.77:1297-1298|1984|10.1093/jee/77.5.1297
162202|T||Di Nucci,A., C. Gregotti, and L. Manzo|Triphenyl Tin Hepatotoxicity in Rats|Arch. Toxicol.9:402-405|1986|10.1007/978-3-642-71248-7_80
162203|T||Bushnell,P.J., and H.L. Evans|Effects of Trimethyltin on Homecage Behavior of Rats|Toxicol. Appl. Pharmacol.79:134-142|1985|10.1016/0041-008X(85)90375-8
162204|T||Rolston,L.H.|Insecticide Tests in Laboratory and Field Against the Pepper Weevil, Anthonomus eugenii Cano|J. Ga. Entomol. Soc.12(2): 117-120|1977|
162205|T||Schaber,B.D., W.A. Charnetski, and T. Entz|Early and Late-Season Insecticide Applications in Seed Alfalfa: Impact on Pest Species and Yield|J. Entomol. Sci.25(4): 548-558|1990|10.18474/0749-8004-25.4.548
162206|T||Adlerz,W.C.|Pickleworm Control on Cantaloupe and Summer Squash|Annu. Meet. Fla. State Hortic. Soc.90:399-400|1978|
162207|T||Bailey,P.T., and D.F. O'Sullivan|Insecticides Against Larvae of the Cacao Webworm Pansepta teleturga Meyrick (Lepidoptera:  Xyloryctidae)|Papua New Guinea Agric. J.29(1-4): 27-31|1978|
162208|T||Ahrens,E.H., R.B. Davey, J.E. George, and J.R. Pemberton|Management of a Phosmet-Charged Dipping Vat and the Control of Boophilus annulatus|Southwest. Entomol.20(3): 335-340|1995|
162209|T||Turner,D.D., M.C. Garcia, S.K. Webel, and O.J. Ginther|Influence of Follicular Size on the Response of Mares to Allyl Trenbolone Given Before the Onset of the Ovulatory Season|Theriogenology16(1): 73-84|1981|10.1016/0093-691X(81)90115-1
162210|T||Wise,J.C., K. Schoenborn, and L.J. Gut|Control of Apple Maggot in 'RedMaxx', 2005|Arthropod Manag. Tests31:1 p.|2006|
162211|T||Drummond,R.O., and W.J. Gladney|Acaricides Applied to Cattle for Control of the Lone Star Tick|Southwest. Entomol.3(2): 96-105|1978|
162212|T||Fisher,W.F., W.E. Robbins, G.I. Wilson, M.J. Thompson, J.P. Kochansky, and S.N. Page|Control of the Rabbit Ear Mite, Psoroptes cuniculi (Delafond), with Experimental Alkyl Amines|Southwest. Entomol.4(3): 249-253|1979|
162213|T||Gupta,R.N., and K. Dhari|Chemical Control of Brinjal Shoot & Fruit Borer, Leucinodes orbonalis Guen.|Pesticides 15(11): 37-39|1981|
162214|T||Hastings,F.L., A.S. Jones, and C.J. Kislow|Outlook for New Insecticides for Bark Beetle Control|Proc. Lightwood Res. Coord. Counc.:25-32|1977|
162215|T||Wakefield,R.C., and C.D. Sawyer|Use of Growth Retardants and Herbicides for Management of Roadside Vegetation|Technical Report, Rhode Island Agricultural Experiment Station, Kingston, RI:71 p. |1986|
162216|T||Kislow,C.J., A.S. Jones, and F.L. Hastings|Screening Modern Insecticides for Control of Black Turpentine Beetles and IPS Species|Proc. Lightwood Res. Coord. Counc.6:65-68|1979|
162217|T||Nigam,P.C.|Summary of Contact, Stomach and Residual Toxicity of Insecticides Against Forest Insect Pests During 1974|Report CC-X-100, Chemical Control Research Institute, Department of the Environment Canada, Ottawa, Ontario:10 p.|1975|
162218|T||Shea,P.J., D.R. Johnson, and R. Nakamoto|Effects of Five Insecticides on Two Primary Parasites of the Western Spruce Budworm, Choristoneura occidentalis (Freeman) (Lepidoptera:  Tortricidae)|Prot. Ecol.7(4): 259-268|1984|
162219|T||Forsythe,H.Y.,Jr.|Insect and Mite Control, 1991|Insectic. Acaric. Tests17:4-5|1992|10.1093/iat/17.1.4
162220|T||Starke,R.J., and L.R. Oliver|Interaction of Glyphosate with Chlorimuron, Fomesafen, Imazethapyr, and Sulfentrazone|Weed Sci.46(6): 652-660|1998|10.1017/S0043174500089670
162221|T||Geier,A., C.G. Dietrich, T. Gerloff, J. Haendly, G.A. Kullak-Ublick, B. Stieger, P.J. Meier, S. Matern, and C. Gartung|Regulation of Basolateral Organic Anion Transporters in Ethinylestradiol-Induced Cholestasis in the Rat|Biochim. Biophys. Acta1609(1): 87-94|2003|10.1016/S0005-2736(02)00657-0
162222|T||Sosnoskie,L.M., J.M. Kichler, R.D. Wallace, and A.S. Culpepper|Multiple Resistance in Palmer Amaranth to Glyphosate and Pyrithiobac Confirmed in Georgia|Weed Sci.59(3): 321-325|2011|10.1614/WS-D-10-00132.1
162223|T||Johnson,J.W., and J.C. Wise|Apple, Broad-Spectrum Insect Control, 1991|Insectic. Acaric. Tests17:31-32|1992|10.1093/iat/17.1.31
162224|T||Mulder,P.G., and M.W. Smith|Control of Pecan Weevil in Pecans, 1995|Arthropod Manag. Tests22:77-|1997|
162225|T||Varnagy,L., M. Korzenszky, and T. Fancsi|Teratological Examination of the Insecticide Methylparathion /Wofatox 50 EC/ on Pheasant Embryos. 1. Morphological Study|Vet. Res. Commun.8:131-139|1984|10.1007/BF02214704
162226|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Sensitivity of Winter Wheat to Preplant and Preemergence Glyphosate Tankmixes|Crop Prot.28(5): 449-452|2009|10.1016/j.cropro.2009.01.004
162227|T||Simarmata,M., J.E. Kaufmann, and D. Penner|Potential Basis of Glyphosate Resistance in California Rigid Ryegrass (Lolium rigidum)|Weed Sci.51(5): 678-682|2003|10.1614/P2002-124
162228|T||Polk,D.F., and G.C. Hamilton|Apple, Acaricide Airblast Evaluation, 1995|Arthropod Manag. Tests21:39-40|1996|10.1093/amt/21.1.39
162229|T||Scursoni,J., F. Forcella, J. Gunsolus, M. Owen, R. Oliver, R. Smeda, and R. Vidrine|Weed Diversity and Soybean Yield with Glyphosate Management Along a North-South Transect in the United States|Weed Sci.54(4): 713-719|2006|10.1614/WS-06-004R.1
162230|T||Schilling,B.S., K.N. Harker, and J.R. King|Glyphosate can Reduce Glyphosate-Resistant Canola Growth After Individual or Sequential Applications|Weed Technol.20(4): 825-830|2006|10.1614/WT-05-062
162231|T||Reissig,H., D.H. Dunham, and C. Smith|Apple, Secondary Insecticide Testing, 1991|Insectic. Acaric. Tests17:39-40|1992|10.1093/iat/17.1.39
162232|T||Wise,J.C.|Blueberry, Early-Season Control of Cranberry Fruitworm and Cherry Fruitworm, 1996|Arthropod Manag. Tests22:53-|1997|10.1093/amt/22.1.53
162233|T||Riechers,D.E., L.M. Wax, R.A. Liebl, and D.G. Bullock|Surfactant Effects on Glyphosate Efficacy|Weed Technol.9(2): 281-285|1995|10.1017/S0890037X00023356
162234|T||Robertson,J.L., N.L. Gillette, B.A. Lucas, R.M. Russell, and N.E. Savin|Comparative Toxicity of Insecticides to Choristoneura Species (Lepidoptera:  Tortricidae)|Can. Entomol.110(4): 399-406|1978|10.4039/Ent110399-4
162235|A||Zlotkin,E., and S.H. Gruber|Synthetic Surfactants:  A New Approach to the Development of Shark Repellents|Arch. Toxicol.56:55-58|1984|10.1007/BF00316354
162236|T||Schaefers,G.A.|Control of the Strawberry Leaf Roller, Ancylis comptana fragariae (Lepidoptera: Tortricidae)|J. Econ. Entomol.57(6): 983-986|1964|10.1093/jee/57.6.983
162237|T||Perez-Jones,A., K.W. Park, J. Colquhoun, C. Mallory-Smith, and D. Shaner|Identification of Glyphosate-Resistant Italian Ryegrass (Lolium multiflorum) in Oregon|Weed Sci.53(6): 775-779|2005|10.1614/WS-04-200R.1
162238|T||Shearer,P.W., and A. Rucker|Seasonal Oriental Fruit Moth Control, 2004|Arthropod Manag. Tests30:2 p.|2005|
162239|T||Snoeij,N.J., A.A.J. Van Iersel, A.H. Penninks, and W. Seinen|Toxicity of Triorganotin Compounds:  Comparative In Vivo Studies with a Series of Trialkyltin Compounds and Triphenyltin Chloride in Male Rats|Toxicol. Appl. Pharmacol.81:274-286|1985|10.1016/0041-008X(85)90164-4
162240|T||Shearer,P.W., and A. Rucker|Plum Curculio Control, 2004|Arthropod Manag. Tests30:2 p.|2005|
162241|T||Parker,R.G., A.C. York, and D.L. Jordan|Weed Control in Glyphosate-Resistant Corn as Affected by Preemergence Herbicide and Timing of Postemergence Herbicide Application|Weed Technol.20(3): 564-570|2006|10.1614/WT-04-288R.1
162242|T||Shearer,P.W., A. Atanassov, and A. Rucker|Seasonal Oriental Fruit Moth Control with DPX-E2Y45 35WG, 2005|Arthropod Manag. Tests31:2 p.|2006|
162243|T||Servaites,J.C., M.A. Tucci, and D.R. Geiger|Glyphosate Effects on Carbon Assimilation, Ribulose Bisphosphate Carboxylase Activity, and Metabolite Levels in Sugar Beet Leaves|Plant Physiol.85:370-374|1987|10.1104/pp.85.2.370
162244|T||Shearer,P.W., A. Atanassov, and A. Rucker|Seasonal Oriental Fruit Moth Control with DPX-E2Y45 35WG, 2004|Arthropod Manag. Tests31:1 p.|2006|
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162249|T||Schafer,J.R., S.G. Hallett, and W.G. Johnson|Response of Giant Ragweed (Ambrosia trifida), Horseweed (Conyza canadensis), and Common Lambsquarters (Chenopodium album) Biotypes to Glyphosate in the Presence and Absence of Soil Microorganisms|Weed Sci.60(4): 641-649|2012|10.1614/WS-D-12-00050.1
162250|T||Gradish,A.E., C.D. Scott-Dupree, A.J. Frewin, and G.C. Cutler|Lethal and Sublethal Effects of Some Insecticides Recommended for Wild Blueberry on the Pollinator Bombus impatiens|Can. Entomol.144:478-486|2012|10.4039/tce.2012.40
162251|T||Thompson,D.G., D.G. Pitt, B. Staznik, N.J. Payne, D. Jaipersaid, R.A. Lautenschlager, and F.W. Bell|On-Target Deposit and Vertical Distribution of Aerially Released Herbicides|For. Chron.73(1): 47-59|1997|10.5558/tfc73047-1
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162253|T||Russo,V.M.|Reaction of Tomato Cultivars to a Sublethal Dose of Glyphosate|Hortscience25(12): 1662-|1990|10.21273/HORTSCI.25.12.1662
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162255|A||Wall,W.J.,Jr., and O.W.,Jr. Doane|Control of Culicoides melleus (Coq.) (Diptera:  Heleidae) with Granular Insecticides and the Effect on Other Fauna|Mosq. News25(2): 191-196|1965|
162256|T||Hoffer,E., Z. Zonis, A. Tabak, and U. Taitelman|The Administration of Desferrioxamine to Paraquat-Intoxicated Rats|Vet. Hum. Toxicol.34(4): 300-303|1992|
162258|T||Pandit,T.K., S.K. Naik, P.K. Patra, and D.K. Das|Influence of Lime and Organic Matter on the Mobility of Cadmium in Cadmium-Contaminated Soil in Relation to Nutrition of Spinach|Soil Sediment Contam.21(4): 419-433|2012|10.1080/15320383.2012.672487
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162260|T||Horsley,S.B.|Regeneration Success and Plant Species Diversity of Allegheny Hardwood Stands After Roundup Application and Shelterwood Cutting|North. J. Appl. For.11(4): 109-116|1994|10.1093/njaf/11.4.109
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162262|T||Kurtak,D.C., B.V. Travis, and J.R. Meyer|Tests (1971) with Black Fly Larvicides|Proc. Annu. Meet. N. J. Mosq. Exterm. Assoc.59:169-174|1972|
162263|T||Newton,M., E.C. Cole, R.A. Lautenschlager, D.E. White, and M.L.,Jr. McCormack|Browse Availability After Conifer Release in Maine's Spruce-Fir Forests|J. Wildl. Manag.53(3): 643-649|1989|10.2307/3809189
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162265|T||Myers,M.W., W.S. Curran, M.J. VanGessel, B.A. Majek, B.A. Scott, D.A. Mortensen, D.D. Calvin, H.D. Karsten, and G.W. Ro|The Effect of Weed Density and Application Timing on Weed Control and Corn Grain Yield|Weed Technol.19(1): 102-107|2005|10.1614/WT-03-263R
162266|T||Moola,F.M., A.U. Mallik, and R.A. Lautenschlager|Effects of Conifer Release Treatments on the Growth and Fruit Production of Vaccinium spp. in Northwestern Ontario|Can. J. For. Res.28(6): 841-851|1998|10.1139/x98-046
162267|T||Forsythe,H.Y.,Jr., and R.W. Rings|Two Promising Experimental Insecticides for Control of the Plum Curculio|J. Econ. Entomol.58(6): 1116-1117|1965|10.1093/jee/58.6.1116
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162269|T||Monnig,N., and K.W. Bradley|Influence of Fall and Early Spring Herbicide Applications on Winter and Summer Annual Weed Populations in No-Till Soybean|Weed Technol.21(3): 724-731|2007|10.1614/WT-06-157.1
162270|T||Marrs,R.H., A.J. Frost, and R.A. Plant|Effects of Herbicide Spray Drift on Selected Species of Nature Conservation Interest:  The Effects of Plant Age and Surrounding Vegetation Structure|Environ. Pollut.69:223-235|1991|10.1016/0269-7491(91)90146-N
162271|T||De Falandre,A., I. Bouvier-Fourcade, J.M. Seng, and P. Leroux|Induction and Characterization of Penicillium caseicolum Mutants Resistant to Ergosterol Biosynthesis Inhibitors|Appl. Environ. Microbiol.53(7): 1500-1503|1987|10.1128/aem.53.7.1500-1503.1987
162272|T||Mager,H.J., B.G. Young, and J.E. Preece|Efficacy of POST Herbicides on Weeds During Compensatory Growth|Weed Sci.54(2): 321-325|2006|10.1614/WS-05-027R1.1
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162275|T||Keesing,V.F.|The Toxicity of Four Insecticides to the Mite Hemisarcoptes coccophagus and Its Host Scale Hemiberlesia lataniae|Proc. N. Z. Weed Pest Control Conf.43:247-251|1990|10.30843/nzpp.1990.43.10890
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162278|T||Schneegurt,M.A., and M.J. Henry|Effects of Piperalin and Fenpropidin on Sterol Biosynthesis in Ustilago maydis|Pestic. Biochem. Physiol.43(1): 45-52|1992|10.1016/0048-3575(92)90018-U
162279|T||Markin,G.P., and D.R. Johnson|Aerial Field Tests of Five Insecticides on Western Spruce Budworm in Idaho and Montana, 1978-1980|Research Note PSW-385. U.S. Department of Agriculture, Forest Service, Pacific Southwest Forest and Range Experiment Station, Berkeley, CA:6 p.|1986|
162280|T||Kuk,Y.I., N.R. Burgos, and V.K. Shivrain|Natural Tolerance to Imazethapyr in Red Rice (Oryza sativa)|Weed Sci.56(1): 1-11|2008|10.1614/WS-07-073.1
162281|T||Krueger-Mangold,J., R.L. Sheley, and B.D. Roos|Maintaining Plant Community Diversity in a Waterfowl Production Area by Controlling Canada thistle (Cirsium arvense) Using Glyphosate|Weed Technol.16:457-463|2002|10.1614/0890-037X(2002)016[0457:MPCDIA]2.0.CO;2
162282|T||Kelley,K.B., L.M. Wax, A.G. Hager, and D.E. Riechers|Soybean Response to Plant Growth Regulator Herbicides is Affected by Other Postemergence Herbicides|Weed Sci.53(1): 101-112|2005|10.1614/WS-04-078R
162283|T||Kaminski,J.E., P.H. Dernoeden, and C.A. Bigelow|Creeping Bentgrass Seedling Tolerance to Herbicides and Paclobutrazol|Hortscience39(5): 1126-1129|2004|10.21273/HORTSCI.39.5.1126
162284|T||Johnson III,W.C., and B.G.,Jr. Mullinix|Stale Seedbed Weed Control in Cucumber|Weed Sci.46(6): 698-702|1998|10.1017/S0043174500089736
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162286|T||Fewkes,D.W., and D.A. Buxo|Recent Work on Chemical Control of the Sugarcane Froghopper (Homoptera, Cercopidae) in Trinidad|Proc. Meet. West Indies Sugar Technol.1:192-223|1966|
162287|T||Hoskinson,R.M., R.J. Mayfield, and I.M. Russell|Studies on Textile Insectproofing.  Part VI:  Further Evaluation of Organophosphorus Insecticides|J. Textile Inst.67(1): 19-22|1976|10.1080/00405007608630543
162288|T||Hernandez,A., J.I. Garcia-Plazola, and J.M. Beccerril|Glyphosate Effects on Phenolic Metabolism of Nodulated Soybean (Glycine max L. Merr.)|J. Agric. Food Chem.47(7): 2920-2925|1999|10.1021/jf981052z
162289|T||Harbour,J.D., C.G. Messersmith, and B.K. Ramsdale|Surfactants Affect Herbicides on Kochia (Kochia scoparia) and Russian Thistle (Salsola iberica)|Weed Sci.51(3): 430-434|2003|10.1614/0043-1745(2003)051[0430:SAHOKK]2.0.CO;2
162290|T||Nuzzo,V.A.|Experimental Control of Garlic Mustard (Alliaria petiolata (Bieb.) Cavara & Grande) in Northern Illinois Using Fire, Herbicide, and Cutting|Nat. Areas J.11(3): 158-167|1991|
162291|T||Merritt,C.R.|The Influence of Form of Deposit on the Phytotoxicity of MCPA, Paraquat and Glyphosate Applied as Individual Drops|Ann. Appl. Biol.101(3): 527-532|1982|10.1111/j.1744-7348.1982.tb00854.x
162292|A||Szeto,C., and D. Nyberg|The Effect of Temperature on Copper Tolerance of Paramecium|Bull. Environ. Contam. Toxicol.21:131-135|1979|10.1007/BF01685400
162293|T||Higbee,B.S., and C.S. Burks|Effects of Mating Disruption Treatments on Navel Orangeworm (Lepidoptera: Pyralidae) Sexual Communication and Damage in Almonds and Pistachios|J. Econ. Entomol.101(5): 1633-1642|2008|10.1093/jee/101.5.1633
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162295|T||Speirs,R.D., and J.H. Lang|Contact, Residue, and Vapor Toxicity of New Insecticides to Stored-Product Insects. II|ARS (U.S. Agric. Res. Serv.)885:35 p.|1970|
162296|T||Robertson,J.L., and M. Look|Toxicity of Isothiourea Lepidoptericides to Western Spruce Budworm|J. Ga. Entomol. Soc.17(4): 466-471|1982|
162297|T||Vaidya,V.G., and N. Patankar|Mutagenic Effect of Monocrotophos - an Insecticide - in Mammalian Test Systems|Indian J. Med. Res.76:912-917|1982|
162298|A||Klein,S.A., and D. Jenkins|The Toxicity of Jet Fuels to Fish - II. The Toxicity of JP-8 to Flagfish (Jordanella floridae) and Rainbow Trout (Salmo gairdneri) and Golden Shiners (Notemigonus chysoleucas)|Water Res.17(10): 1213-1220|1983|10.1016/0043-1354(83)90244-0
162299|AT||Gile,J.D.|Biological Effects and Interactions of Pesticides in a Soil-Plant-Water Microcosm|EPA 600/D-82-272, U. S. Environmental Protection Agency, Environmental Research Laboratory, Corvallis, OR:9 p.|1982|
162300|A||Dorsa,W.J., H.R. Robinette, E.H. Robinson, and W.E. Poe|Effects of Dietary Cottonseed Meal and Gossypol on Growth of Young Channel Catfish|Trans. Am. Fish. Soc.111:651-655|1982|10.1577/1548-8659(1982)111<651:EODCMA>2.0.CO;2
162302|T||Suckling,D.M., R.B. Chapman, and D.R. Penman|Toxicity of Insecticides to Epiphyas postvittana (Walker) and Planotortrix excessana (Walker) (Lepidoptera: Tortricidae)|N. Z. J. Exp. Agric.14(1): 89-95|1986|10.1080/03015521.1986.10426130
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162304|T||DuRant,J.A.|Cotton Insect Pests:  Field Evaluation of Selected Insecticide Treatments|J. Agric. Entomol.1(3): 201-211|1984|
162305|T||Drummond,R.O., S.E. Ernst, J.L. Trevino, and O.H. Graham|Control of Larvae of the Screw-Worm in Cattle with Insecticidal Sprays|J. Econ. Entomol.60(1): 199-200|1967|10.1093/jee/60.1.199
162306|T||Drummond,R.O.|Further Evaluation of Animal Systemic Insecticides, 1966|J. Econ. Entomol.60(3): 733-737|1967|10.1093/jee/60.3.733
162307|T||Drummond,R.O., T.M. Whetstone, and S.E. Ernst|Insecticidal Control of the Ear Tick in the Ears of Cattle|J. Econ. Entomol.60(4): 1021-1025|1967|10.1093/jee/60.4.1021
162308|T||Drummond,R.O., T.M. Whetstone, and S.E. Ernst|Control of the Lone Star Tick on Cattle|J. Econ. Entomol.60(6): 1735-1738|1967|10.1093/jee/60.6.1735
162309|T||Drummond,R.O.|Further Evaluation of Animal Systemic Insecticides, 1967|J. Econ. Entomol.61(5): 1261-1264|1968|10.1093/jee/61.5.1261
162310|T||Drummond,R.O., W.J. Gladney, T.M. Whetstone, and S.E. Ernst|Small-Scale Field Tests with Dermally Applied Animal Systemic Insecticides for Control of the Common Cattle Grub|J. Econ. Entomol.63(4): 1233-1241|1970|10.1093/jee/63.4.1233
162311|T||Hair,J.A., and T.R.,Jr. Adkins|Dusting Stations and Cable Backrubbers as Self-Applicatory Devices for Control of the Face Fly|J. Econ. Entomol.58(1): 39-40|1965|10.1093/jee/58.1.39
162312|T||Nielson,R.L.|Stem Weevil Control|Proc. N. Z. Weed Pest Control Conf.19:177-179|1966|10.30843/nzpp.1966.19.10189
162313|T||Oloumi-Sadeghi,H., and K.L. Steffey|Alfalfa Insect Control in Illinois, 1991|Insectic. Acaric. Tests17:178-179|1992|10.1093/iat/17.1.178a
162314|T||Pottinger,R.P., G.M. Barker, N.R. Wrenn, P.J. Addison, and R.A. McGhie|Insecticidal Control of Adult Argentine Stem Weevil:  A Review and Bioassay Evaluations|Proc. N. Z. Weed Pest Control Conf.37:101-105|1984|10.30843/nzpp.1984.37.9537
162315|T||Reissig,W.H., and D. Combs|Evaluation of Seasonal Insecticide Programs Against New York Apple Pests, 2004|Arthropod Manag. Tests30:5 p.|2005|
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162319|T||Matsunari,K., F. Yoshida, Y. Nakamura, and T. Fujita|Quantitative Structure-Activity Relationships of Herbicidal N-Alkyl-N-(4-Substituted Benzyl)-4-Chloro-2-Pentenamides Against Echinochloa oryzicola|J. Pestic. Sci. (Multiple Languages)24:7-12|1999|10.1584/jpestics.24.7
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162323|T||Matsunari,K., H. Sugiyama, H. Sadohara, and K. Motojima|Synthesis and Herbicidal Activity of N-Alkyl-N-(Substituted Benzyl)-4-Halo-2-Alkenamides|J. Pestic. Sci. (Multiple Languages)24:1-6|1999|10.1584/jpestics.24.1
162324|T||Wise,J.C., K. Schoenborn, and R. Isaacs|Control of Grape Berry Moth in Concord Grape, 2004|Arthropod Manag. Tests30:2 p.|2005|
162325|T||Wise,J.C., K. Schoenborn, and L.J. Gut|Control of Plum Curculio, 2004|Arthropod Manag. Tests30:2 p.|2005|
162327|T||Wise,J.C., K. Schoenborn, and R. Isaacs|Control of Grape Berry Moth in Concord Grape, 2005|Arthropod Manag. Tests31:3 p.|2006|
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162329|T||Wise,J.C., K. Schoenborn, and R. Isaacs|Control of Blueberry Maggot, 2005|Arthropod Manag. Tests31:1 p.|2006|
162330|T||Wise,J.C., K. Schoenborn, and R. Isaacs|Control of Adult Japanese Beetle in Blueberry, 2005|Arthropod Manag. Tests31:1 p.|2006|
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162332|T||Wise,J.C., K. Schoenborn, and L.J. Gut|Control of Apple Maggot in 'Gala', 2005|Arthropod Manag. Tests31:2 p.|2006|
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162633|T||Yuan,J.S., L.L.G. Abercrombie, Y. Cao, M.D. Halfhill, X. Zhou, Y. Peng, J. Hu, M.R. Rao, G.R. Heck, T.J. Larosa, R.D. S|Functional Genomics Analysis of Horseweed (Conyza canadensis) with Special Reference to the Evolution of Non-Target-Site Glyphosate Resistance|Weed Sci.58(2): 109-117|2010|10.1614/WS-D-09-00037.1
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162635|T||Westhoven,A.M., G.R. Kruger, C.K. Gerber, J.M. Stachler, M.M. Loux, and W.G. Johnson|Characterization of Selected Common Lambsquarters (Chenopodium album) Biotypes with Tolerance to Glyphosate|Weed Sci.56(5): 685-691|2008|10.1614/WS-08-018.1
162636|T||Wells,B.H., and A.P. Appleby|Lactofen Increases Glyphosate-Stimulated Shikimate Production in Little Mallow (Malva parviflora)|Weed Sci.40(2): 171-173|1992|10.1017/S0043174500057167
162637|T||Webster,T.M., T.L. Grey, J.W. Davis, and A.S. Culpepper|Glyphosate Hinders Purple Nutsedge (Cyperus rotundus) and Yellow Nutsedge (Cyperus esculentus) Tuber Production|Weed Sci.56(5): 735-742|2008|10.1614/WS-07-188.1
162638|T||Viator,R.P., R.M. Johnson, E.P.,Jr. Richard, H.L. Waguespack, and W. Jackson|Influence of Nonoptimal Ripener Applications and Postharvest Residue Retention on Sugarcane Second Ratoon Yields|Agron. J.100(6): 1769-1773|2008|10.2134/agronj2008.0147
162639|T||Werth,J.A., C. Preston, G.N. Roberts, and I.N. Taylor|Weed Management Practices in Glyphosate-Tolerant and Conventional Cotton Fields in Australia|Aust. J. Exp. Agric.46(9): 1177-1183|2006|10.1071/EA05163
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162641|T||Ye,G.N., P.T. Hajdukiewicz, D. Broyles, D. Rodriguez, C.W. Xu, N. Nehra, and J.M. Staub|Plastid-Expressed 5-Enolpyruvylshikimate-3-Phosphate Synthase Genes Provide High Level Glyphosate Tolerance in Tobacco|Plant J.25(3): 261-270|2001|10.1046/j.1365-313x.2001.00958.x
162642|T||Wiese,A.F., W.L. Harman, and C. Regier|Economic Evaluation of Conservation Tillage Systems for Dryland and Irrigated Cotton (Gossypium hirsutum) in the Southern Great Plains|Weed Sci.42(2): 316-321|1994|10.1017/S0043174500080449
162643|T||Schroder,P., L. Lyubenova, and C. Huber|Do Heavy Metals and Metalloids Influence the Detoxification of Organic Xenobiotics in Plants?|Environ. Sci. Pollut. Res.16(7): 795-804|2009|10.1007/s11356-009-0168-7
162644|T||Sunmonu,T.O., and O.B. Oloyede|Performance and Haematological Indices in Rats Exposed to Monocrotophos Contamination|Hum. Exp. Toxicol.29(10): 845-850|2010|10.1177/0960327110363441
162645|T||Oliveira,H., and C. Santos|An Integrative View of Sodium Chloride Stress and Phaeomoniella sp. Inoculation on Growth and Nutrient Accumulation and Patterning in In Vitro Grapevine Plants|J. Plant Nutr.34(4): 557-572|2011|10.1080/01904167.2011.538117
162646|T||Shevyakova,N.I., E.N. Il'Ina, L.A. Stetsenko, and V.V. Kuznetsov|Nickel Accumulation in Rape Shoots (Brassica napus L.) Increased by Putrescine|Int. J. Phytoremediat.13(4): 345-356|2011|10.1080/15226514.2010.495147
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162648|T||Stemmelin,J., C. Cohen, J.P. Terranova, M. Lopez-Grancha, P. Pichat, O. Bergis, M. Decobert, V. Santucci, D. Francon, R|Stimulation of the beta3-Adrenoceptor as a Novel Treatment Strategy for Anxiety and Depressive Disorders|Neuropsychopharmacology (N.Y.)33(3): 574-587|2008|10.1038/sj.npp.1301424
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162650|T||Peacock,L., M. Bailey, and W. Gibson|Tetracycline Induction of Gene Expression in Trypanosoma brucei Within the Tsetse Fly Vector|Mol. Biochem. Parasitol.140(2): 247-249|2005|10.1016/j.molbiopara.2005.01.005
162651|T||Lee,C.D., D. Penner, and R. Hammerschmidt|Glyphosate and Shade Effects on Glyphosate-Resistant Soybean Defense Response to Sclerotinia sclerotiorum|Weed Sci.51(3): 294-298|2003|10.1614/0043-1745(2003)051[0294:GASEOG]2.0.CO;2
162652|T||Koger,C.H., A.J. Price, and K.N. Reddy|Weed Control and Cotton Response to Combinations of Glyphosate and Trifloxysulfuron|Weed Technol.19(1): 113-121|2005|10.1614/WT-03-273R
162653|T||Hart,S.E., J.F. Derr, D.W. Lycan, C. Rose-Fricker, and W.A. Meyer|Increased Glyphosate Tolerance in 'Aurora Gold' Hard Fescue (Festuca longifolia)|Weed Technol.19(3): 640-646|2005|10.1614/WT-04-200R.1
162654|T||Mueller,T.C., J.H. Massey, R.M. Hayes, C.L. Main, and C.N.,Jr. Stewart|Shikimate Accumulates in Both Glyphosate-Sensitive and Glyphosate-Resistant Horseweed (Conyza canadensis L. Cronq.)|J. Agric. Food Chem.51(3): 680-684|2003|10.1021/jf026006k
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162661|T||Liu,L., Z.K. Punja, and J.E. Rahe|Effect of Pythium spp. and Glyphosate on Phytoalexin Production and Exudation by Bean (Phaseolus vulgaris L.) Roots Grown in Different Media|Physiol. Mol. Plant Pathol.47(6): 391-405|1995|10.1006/pmpp.1995.1067
162662|T||Nalewaja,J., B. Devilliers, and R. Matysiak|Surfactant and Salt Affect Glyphosate Retention and Absorption|Weed Res. (Multiple Languages)36(3): 241-247|1996|10.1111/j.1365-3180.1996.tb01653.x
162663|T||Monteiro,A., and I. Moreira|Reduced Rates of Residual and Post-Emergence Herbicides for Weed Control in Vineyards|Weed Res. (Multiple Languages)44(2): 117-128|2004|10.1111/j.1365-3180.2004.00380.x
162664|T||Heap,I.M., and R. Knight|Variation in Herbicide Cross-Resistance Among Populations of Annual Ryegrass (Lolium rigidum) Resistant to Diclofop-Methyl|Aust. J. Agric. Res.41:121-128|1990|10.1071/AR9900121
162665|T||Nadler-Hassar,T., D.L. Shaner, S. Nissen, P. Westra, and B. Rubin|Are Herbicide-Resistant Crops the Answer to Controlling Cuscuta?|Pest Manag. Sci.65(7): 811-816|2009|10.1002/ps.1760
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162668|T||Klomp,G.J., and A.C.,Jr. Hull|Herbicidal Residues on Crested Wheatgrass|Weed Sci.16(3): 315-317|1968|10.1017/S004317450004724X
162669|T||Dye,M.H.|Studies on the Uptake and Translocation of Streptomycin by Peach Seedlings|Ann. Appl. Biol.44(4): 567-575|1956|10.1111/j.1744-7348.1956.tb02154.x
162670|T||Hammett,K.R.W.|Root Application of a Systemic Fungicide for Control of Powdery Mildews|Plant Dis. Rep.52(10): 754-758|1968|
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162674|T||Yokoyama,M., K. Naito, and H. Suzuki|Benzyladenine-Enhanced Cell Proliferation and -Suppressed Greening in Attached Young Bean Leaves|Plant Cell Physiol.22(4): 623-627|1981|
162675|T||Nyffeler,A., H.R. Gerber, and J.R. Hensley|Laboratory Studies on the Behavior of the Herbicide Safener CGA-43089|Weed Sci.28(1): 6-10|1980|10.1017/S0043174500027661
162676|T||Duncan,R.R., and F.C. Boswell|Seed Element Uptake, Grain Yield, and Bird Damage of Methiocarb-Treated Sorghum Hybrids|Agron. J.73:290-292|1981|10.2134/agronj1981.00021962007300020011x
162677|T||Eshel,Y., and G.N. Prendeville|A Technique for Studying Root vs. Shoot Uptake of Soil-Applied Herbicides|Weed Res. (Multiple Languages)7:242-245|1967|10.1111/j.1365-3180.1967.tb01376.x
162678|T||Ferri,M.G.|Preliminary Observations on the Translocation of Synthetic Growth Substances|Contrib. Boyce Thompson Inst.14:51-68|1945|
162679|A||Zizza,M., G. Giusi, M. Crudo, M. Canonaco, and R.M. Facciolo|Lead-Induced Neurodegenerative Events and Abnormal Behaviors Occur via ORXRergic/GABAARergic Mechanisms in a Marine Teleost|Aquat. Toxicol.126:231-241|2013|10.1016/j.aquatox.2012.11.011
162680|T||Votrubova-Vanousova,O.|The Effect of 2,4-Dinitrophenol on the Absorption and Translocation of Calcium by Pumpkin Plants|Biol. Plant. (Praha)19(3): 166-172|1977|10.1007/BF02923104
162681|T||Wiles,J.A.|Predicting the Risk Posed by Deltamethrin to Beneficial Invertebrates in Temperate Cereal Crops|Ph.D. Thesis, University of Southampton, United Kingdom:184 p.|1992|
162682|T||Meyers,S.L.|Interference and Control of Palmer Amaranth (Amaranthus palmeri) in Sweetpotato|Ph.D.Thesis, North Carolina State University, Raleigh, NC:90 p.|2009|
162683|T||Simchon,S., Y. Silberstein, A.H. Halevy, and Y. Henis|The Mode of Action of Ethephon in Increasing Health of Gladiolus Corms|J. Hortic. Sci.47:369-374|1972|10.1080/00221589.1972.11514480
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162686|T||Sumbul,S., M.A. Ahmad, M. Asif, I. Saud, and M. Akhtar|Evaluation of Myrtus communis Linn. Berries (Common Myrtle) in Experimental Ulcer Models in Rats|Hum. Exp. Toxicol.29(11): 935-944|2010|10.1177/0960327110364154
162687|T||Taspinar,M.S., G. Agar, L. Alpsoy, N. Yildirim, S. Bozari, and S. Sevsay|The Protective Role of Zinc and Calcium in Vicia faba Seedlings Subjected to Cadmium Stress|Toxicol. Ind. Health27(1): 73-80|2011|10.1177/0748233710381888
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162689|T||Smith,K.R., S.K. Duckett, M.J. Azain, R.N.,Jr. Sonon, and T.D. Pringle|The Effect of Anabolic Implants on Intramuscular Lipid Depostion in Finished Beef Cattle|J. Anim. Sci.85(2): 430-440|2007|10.2527/jas.2006-280
162690|T||Hamilton,A.N., C.A. Bryden, and C.J. Clement|Impacts of Glyphosate Application on Grizzly Bear Forage Production in the Coastal Western Hemlock Zone|FRDA Rep.:49 p.|1991|
162691|A||Pan,K.|Application of Biokinetic Model in Studying the Bioaccumulation of Cadmium, Zinc, and Copper in the Scallop Chlamys nobilis|Ph.D. Thesis, Hong Kong University of Science and Technology, Hong Kong:158 p.|2009|
162692|T||Jefferies,C.J., and K.G. Stott|Response of Some Weed Species and Strawberry c.v. Cambridge Favourite to Phenmedipham, Terbacil and Pronamide|Proc. Br. Weed Control Conf.1:378-385|1972|
162693|T||King,S.R.|Investigation of Methods and Mechanisms of Control of Italian Ryegrass (Lolium multiflorum) in Corn (Zea mays) and Small Grains and of the Effects of Johnsongrass (Sorghum halepense) Control on Virus Diseases in Glyphos|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:144 p. |2002|
162694|T||Krishnaiah,N.V., and M.B. Kalode|Comparative Efficacy of Spray and Granular Insecticides Against Whitebacked Planthopper, Sogatella furcifera Horvath in Rice|Indian J. Plant Prot.14(1): 69-73|1986|
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162700|T||Al-Hachim,G.M., and A. Al-Baker|Effects of Chlordane on Conditioned Avoidance Response, Brain Seizure Threshold and Open-Field Performance of Prenatally-Treated Mice|Br. J. Pharmacol.49:311-315|1973|10.1111/j.1476-5381.1973.tb08377.x
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162702|A||Cristini,A., and E. Saiff|The Effects of Benzene on the Histopathology of the Midgut Gland of Juvenile Blue Crabs, Callinectes sapidus|Ann. N. Y. Acad. Sci.435:248-253|1984|10.1111/j.1749-6632.1984.tb13785.x
162703|T||Nurse,R.E., C.J. Swanton, F. Tardif, and P.H. Sikkema|Weed Control and Yield are Improved when Glyphosate is Preceded by a Residual Herbicide in Glyphosate-Tolerant Maize (Zea mays)|Crop Prot.25(11): 1174-1179|2006|10.1016/j.cropro.2006.02.015
162704|T||Nandula,V.K., K.N. Reddy, D.H. Poston, A.M. Rimando, and S.O. Duke|Glyphosate Tolerance Mechanism in Italian Ryegrass (Lolium multiflorum) from Mississippi|Weed Sci.56(3): 344-349|2008|10.1614/WS-07-115.1
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162706|T||Robinson,A.P.|Aryloxyalkanoate Dioxygenase-12 Transformed Soybean Biological Response, Protein Expression, and Off-Site Movement of 2,4-D and Dicamba|Ph.D.Thesis, Purdue University, West Lafayette, IN:171 p.|2012|
162707|T||Minogue,P.J., K.K. Bohn, A. Osiecka, and D.K. Lauer|Japanese Climbing Fern (Lygodium japonicum) Management in Florida's Apalachicola Bottomland Hardwood Forests|Invasive Plant Sci. Manag.3(3): 246-252|2010|10.1614/IPSM-D-09-00023.1
162708|T||Hutchinson,J.T., K.A. Langeland, G.E. MacDonald, and R. Querns|Absorption and Translocation of Glyphosate, Metsulfuron, and Triclopyr in Old World Climbing Fern (Lygodium microphyllum)|Weed Sci.58(2): 118-125|2010|10.1614/WS-D-09-00046.1
162709|T||Matallo,M.B., S.D.B. Almeida, A.L. Cerdeira, D.A. Franco, F.M.G. Blanco, P.T.C. Menezes, L.C. Luchini, M.A.M. Moura, an|Microwave-Assisted Solvent Extraction and Analysis of Shikimic Acid from Plant Tissues|Planta Daninha (Impr.) (Multiple Languages)27:987-994|2009|10.1590/S0100-83582009000500012
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162712|A||Mozdzer,T.J., C.J. Hutto, P.A. Clarke, and D.P. Field|Efficacy of Imazapyr and Glyphosate in the Control of Non-Native Phragmites australis|Restor. Ecol.16(2): 221-224|2008|10.1111/j.1526-100X.2008.00386.x
162713|T||Nandula,V.K., D.H. Poston, T.W. Eubank, C.H. Koger, and K.N. Reddy|Differential Response to Glyphosate in Italian Ryegrass (Lolium multiflorum) Populations from Mississippi|Weed Technol.21(2): 477-482|2007|10.1614/WT-06-168.1
162714|T||Hoagland,R.E.|Effects of Glyphosate on Metabolism of Phenolic Compounds: VI. Effects of Glyphosine and Glyphosate Metabolites on Phenylalanine Ammonia-Lyase Activity, Growth, and Protein, Chlorophyll, and Anthocyanin Levels in Soybea|Weed Sci.28:393-400|1980|10.1017/S0043174500055545
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162719|T||Jha,P., J.K. Norsworthy, W.,Jr. Bridges, and M.B. Riley|Influence of Glyphosate Timing and Row Width on Palmer Amaranth (Amaranthus palmeri) and Pusley (Richardia spp.) Demographics in Glyphosate-Resistant Soybean|Weed Sci.56(3): 408-415|2008|10.1614/WS-07-174.1
162720|T||Jiang,L.C., M. Basri, D. Omar, M.B.A. Rahman, A.B. Salleh, R.N.Z.R.A. Rahman, and A. Selamat|Green Nano-Emulsion Intervention for Water-Soluble Glyphosate Isopropylamine (IPA) Formulations in Controlling Eleusine indica (E. indica)|Pestic. Biochem. Physiol.102(1): 19-29|2012|10.1016/j.pestbp.2011.10.004
162721|T||Kumar,G., and P. Srivastava|Clastogenic Assessment of Two Antibiotics on Safflower|Natl. Acad. Sci. Lett.31(3/4): 95-99|2008|
162722|A||Kumar,S., R.K. Pandey, S. Das, and V.K. Das|Acute Toxicity and Behavioural Responses of a Freshwater Mussel Lamellidens marginalis (Lamarck) to Dimethoate Exposure|Recent Res. Sci. Technol.4(11): 39-45|2012|
162723|T||Denham,S., and J.G. Hall|Studies on the Adjuvant Action of Beryllium. III. The Activity in the Plasma of Lymph Efferent from Nodes Stimulated with Beryllium|Immunology (Oxf.)64(2): 341-344|1988|
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162726|T||Farooqi,Z.U.R., M.Z. Iqbal, M. Kabir, and M. Shafiq|Tolerance of Albizia lebbeck (L) Benth to Different Levels of Lead in Natural Field Conditions|Pak. J. Bot.43(1): 445-452|2011|
162727|T||Mueller,T.C., K.A. Barnett, J.T. Brosnan, and L.E. Steckel|Glyphosate-Resistant Goosegrass (Eleusine indica) Confirmed in Tennessee|Weed Sci.59(4): 562-566|2011|10.1614/WS-D-11-00063.1
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162931|T||Millan,M.J., and S. Perrin-Monneyron|Potentiation of Fluoxetine-Induced Penile Erections by Combined Blockade of 5-HT1A and 5-HT1B Receptors|Eur. J. Pharmacol.321(3): R11-R13|1997|
162932|A||Libralato,G., A.V. Ghirardini, and F. Avezzu|Seawater Ecotoxicity of Monoethanolamine, Diethanolamine and Triethanolamine|J. Hazard. Mater.176(1-3): 535-539|2010|10.1016/j.jhazmat.2009.11.062
162933|T||Liu,B., K. Agras, E. Willingham, M.L.B. Vilela, and L.S. Baskin|Activating Transcription Factor 3 is Estrogen-Responsive In Utero and Upregulated During Sexual Differentiation|Horm. Res.65(5): 217-222|2006|10.1159/000092402
162934|A||Lapointe,D., and P. Couture|Accumulation and Effects of Nickel and Thallium in Early-Life Stages of Fathead Minnows (Pimephales promelas)|Ecotoxicol. Environ. Saf.73(4): 572-578|2010|10.1016/j.ecoenv.2010.01.004
162935|A||Monteiro,D.A., F.T. Rantin, and A.L. Kalinin|Inorganic Mercury Exposure:  Toxicological Effects, Oxidative Stress Biomarkers and Bioaccumulation in the Tropical Freshwater Fish Matrinxa, Brycon amazonicus (Spix and Agassiz, 1829)|Ecotoxicology19(1): 105-123|2010|10.1007/s10646-009-0395-1
162936|A||Lambert,S.J., and A.J. Davy|Water Quality as a Threat to Aquatic Plants:  Discriminating Between the Effects of Nitrate, Phosphate, Boron and Heavy Metals on Charophytes|New Phytol.189(4): 1051-1059|2010|10.1111/j.1469-8137.2010.03543.x
162937|T||Martinez,M.J., K. Farsaoui, and R. De Prado|Weed Control and Persistence of Two Oxyfluorfen Formulations in Olive Groves Under Non Tillage Conditions|Commun. Agric. Appl. Biol. Sci.69(3): 77-82|2004|
162940|T||Matheron,M.E., M. Porchas, and D.M. Bigelow|Factors Affecting the Development of Wood Rot on Lemon Trees Infected with Antrodia sinuosa, Coniophora eremophila, and a Nodulisporium sp.|Plant Dis.90(5): 554-558|2006|10.1094/PD-90-0554
162941|T||James,D., and J.E. Jones|Effects of Leaf and Bract Isolines on Spray Penetration and Insecticidal Efficacy|Proc. Beltwide Cotton Conf.:395-396|1985|
162942|T||Laska,P.|Test of Buprofezin, Cyhalothrin and Other Chemicals Used Against Glasshouse Whitefly|Tests Agrochem. Cultiv.:2-3|1986|
162943|T||Wilczek,G., A. Babczynska, and P. Wilczek|Antioxidative Responses in Females and Males of the Spider Xerolycosa nemoralis (Lycosidae) Exposed to Natural and Anthropogenic Stressors|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(2): 119-131|2013|10.1016/j.cbpc.2012.10.005
162944|AT||Li,J., and H.J. Xu|Bioactive Compounds from the Bark of Eucalyptus exserta F. Muell.|Ind. Crops Prod.40:302-306|2012|10.1016/j.indcrop.2012.03.032
162945|AT||Mersie,W., and C.L. Foy|Interaction of Chlorsulfuron and Diclofop on Italian Ryegrass|Proc. South. Weed Sci. Soc.38:426-431|1985|
162946|T||Neary,D.G., T.E. Cooksey, N.B. Comerford, and P.B. Bush|Slash and Loblolly Pine Response to Weed Control and Fertilization at Establishment|Proc. South. Weed Sci. Soc.38:246-253|1985|
162947|T||Lobley,G.E., A. Connell, G.S. Mollison, A. Brewer, C.I. Harris, V. Buchan, and H. Galbraith|The Effects of a Combined Implant of Trenbolone Acetate and Oestradiol-17beta on Protein and Energy Metabolism in Growing Beef Steers|Br. J. Nutr.54(3): 681-694|1985|10.1079/BJN19850154
162948|T||Miller,J.H., and G.W. Andrews|Banded Herbicides can be as Effective as Windrowing|Proc. South. Weed Sci. Soc.38:216-225|1985|
162949|T||McLemore,B.F.|An Evaluation of Herbicides for Tree Injection|Proc. South. Weed Sci. Soc.38:169-175|1985|
162951|A||Magnusson,M., K. Heimann, M. Ridd, and A.P. Negri|Chronic Herbicide Exposures Affect the Sensitivity and Community Structure of Tropical Benthic Microalgae|Mar. Pollut. Bull.65(4-9): 363-372|2012|10.1016/j.marpolbul.2011.09.029
162952|T||Michael,J.L.|Hardwood Control by Injection with Two New Chemicals|Proc. South. Weed Sci. Soc.38:164-167|1985|
162953|A||Jeng,S.R., J. Pasquier, W.S. Yueh, G.R. Chen, Y.H. Lee, S. Dufour, and C.F. Chang|Differential Regulation of the Expression of Cytochrome P450 Aromatase, Estrogen and Androgen Receptor Subtypes in the Brain-Pituitary-Ovarian Axis of the Japanese Eel (Anguilla japonica) Reveals Steroid Dependent and I|Gen. Comp. Endocrinol.175(1): 163-172|2012|10.1016/j.ygcen.2011.11.005
162954|A||Majumdar,T.N., and A. Gupta|Acute and Chronic Toxicity of Copper on Aquatic Insect Chironomus ramosus from Assam, India|J. Environ. Biol.33(1): 139-142|2012|
162955|A||Jin,S., F. Yang, T. Liao, Y. Hui, S. Wen, and Y. Xu|Enhanced Effects by Mixtures of Three Estrogenic Compounds at Environmentally Relevant Levels on Development of Chinese Rare Minnow (Gobiocypris rarus)|Environ. Toxicol. Pharmacol.33(2): 277-283|2012|10.1016/j.etap.2011.12.016
162956|T||Glen,D.M., N.F. Milsom, and C.W. Wiltshire|Evaluation of a Mixture Containing Copper Sulphate, Aluminium Sulphate and Borax for Control of Slug Damage to Potatoes|Tests Agrochem. Cultiv.:26-27|1986|
162957|T||Hide,G.A., and J.P. Sandison|Assessing Fungicides as Potato Seed Tuber Treatments for Controlling Stem Canker and Black Scurf|Tests Agrochem. Cultiv.6:58-59|1985|
162958|T||McKinlay,R.G., and M.E. Halford|Acaricidal Control of Red Spider Mites in Strawberry Crops|Tests Agrochem. Cultiv.:2 p.|1986|
162959|T||Kessler,B., Z.W. Moscicki, and R. Bak|The Effects of Decapitation and Growth Regulators on the Movement of Calcium in Apricot Trees|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:387-395|1961|
162960|AT||Leopold,A.C., and S.L. Lam|Polar Transport of Three Auxins|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:411-418|1961|
162961|T||Jones,O.W.|Comparison of Fungicides for Control of Rust on Leeks, 1982-83|Tests Agrochem. Cultiv.6:54-55|1985|
162962|T||Lockhart,J.A.|The Hormonal Mechanism of Growth Inhibition by Visible Radiation|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:543-557|1961|
162963|T||Jones,O.W.|Comparison of Fungicides for Control of Rust on Leeks, 1980-82|Tests Agrochem. Cultiv.6:52-53|1985|
162964|T||Kato,J.|Physiological Action of Gibberellin with Special Reference to Auxin|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:601-609|1961|
162965|T||Halford,M.E., and R.G. McKinlay|Evaluation of Several Acaricides for Red Spider Mite Control in Strawberry Crops|Tests Agrochem. Cultiv.6:28-29|1985|
162967|T||Jaipal,S.|Evaluation of Diflubenzuron for the Control of Bihar Hairy Caterpillar|Tests Agrochem. Cultiv.6:20-21|1985|
162968|T||Hayashi,T.|The Effect of Gibberellin Treatment on the Photosynthetic Activity of Plants|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:579-588|1961|
162969|T||Harris,P.G.W., and A.L. Winfield|Chemical Control of Brassica Cyst Nematode (Heterodera cruciferae) on Winter Oilseed Rape|Tests Agrochem. Cultiv.6:14-15|1985|
162970|A||Miller,I.L., and S.E. Pickering|Eradication of Salvinia (Salvinia molesta) from the Adelaide River, Northern Territory|Plant Prot. Q.3(2): 69-73|1988|
162971|T||Naylor,R.E.L.|The Effect of Chlormequat on Five Perennial Ryegrass Cultivars|Tests Agrochem. Cultiv.6:140-141|1985|
162972|T||Helyer,N.L., and M.S. Ledieu|Phytotoxicity Trial of Pyrazophos on Chrysanthemum Cultivars|Tests Agrochem. Cultiv.6:116-117|1985|
162973|T||Lovegrove,A.W.|The Effect of Glyphosate Applied Through a Rope Wick Applicator on the Viability of Avena fatua Seeds|Tests Agrochem. Cultiv.6:102-103|1985|
162974|T||Lowday,J.E.|Asulam Applied by Rope Wick Applicator for Controlling Scattered Bracken on a Grassland Nature Reserve|Tests Agrochem. Cultiv.6:90-91|1985|
162975|T||Mulinari,F., F. Staniscuaski, L.R. Bertholdo-Vargas, M. Postal, O.B. Oliveira-Neto, D.J. Rigden, M.F. Grossi-de-Sa, and|Jaburetox-2Ec:  An Insecticidal Peptide Derived from an Isoform of Urease from the Plant Canavalia ensiformis|Peptides28(10): 2042-2050|2007|10.1016/j.peptides.2007.08.009
162976|T||Kendall,S.J.|Activity of Fungicides Against Metalaxyl-Sensitive and Metalaxyl-Resistant Strains of Phytophthora infestans|Tests Agrochem. Cultiv.6:82-83|1985|
162977|A||Hedrick,R.P., T.S. McDowell, K. Mukkatira, E. MacConnell, and B. Petri|Effects of Freezing, Drying, Ultraviolet Irradiation, Chlorine, and Quaternary Ammonium Treatments on the Infectivity of Myxospores of Myxobolus cerebralis for Tubifex tubifex|J. Aquat. Anim. Health20(2): 116-125|2008|10.1577/H07-042.1
162978|T||Johnson,B.J.|Response of Tall Fescue (Festuca arundinacea) to Plant Growth Regulator Application Dates|Weed Technol.3(2): 408-413|1989|10.1017/S0890037X0003205X
162979|T||Hanks,G.R., and S.K. Jones|Gibberellic Acid Treatment and the Flowering Performance of Tulip Cultivars|Tests Agrochem. Cultiv.7:134-135|1986|
162980|T||Johnson,B.J., and T.R. Murphy|Effect of Paclobutrazol and Flurprimidol on Suppression of Poa annua spp. reptans in Creeping Bentgrass (Agrostis stolonifera) Greens|Weed Technol.9(1): 182-186|1995|10.1017/S0890037X00023150
162981|AT||Hanks,G.R., and S.K. Jones|Gibberellin and Auxin Treatments and Scape Length in Narcissus|Tests Agrochem. Cultiv.7:128-129|1986|
162982|T||Kumar,J., and V.N. Singh|Effect of Neem Oil on Seminal Quality of Mice|J. Exp. Zool. India13(1): 57-59|2010|
162983|T||Johri,R., and P.K. Johri|Hepatoprotective Activity of Andrographis paniculata (Nees) Leaves on Paracetamol Induced Hepatic Damage in Rats|J. Exp. Zool. India13(1): 51-52|2010|
162984|T||Hoare,F.A.|Evaluation of Carbendazim and Prochloraz Spray Programmes Against Carbendazim Sensitive and Resistant Eyespot|Tests Agrochem. Cultiv.7:82-83|1986|
162985|T||Maude,R.B., J.M. Bambridge, and A. Spencer|Tests of Fungicide Seed Treatments to Eliminate Seed-Borne Ascochyta pisi (Leaf and Pod Spot of Peas)|Tests Agrochem. Cultiv.(7): 70-71|1986|
162986|T||Hunt,T.W., T.J. Sheets, and W.K. Collins|MH Residues on Flue-Cured Tobacco|Tob. Sci.179(24): 128-130|1977|
162987|A||Nyman,A.M., K. Schirmer, and R. Ashauer|Toxicokinetic-Toxicodynamic Modelling of Survival of Gammarus pulex in Multiple Pulse Exposures to Propiconazole: Model Assumptions, Calibration Data Requirements and Predictive Power|Ecotoxicology21(7): 1828-1840|2012|10.1007/s10646-012-0917-0
162988|T||Karasova,J.Z., J. Chladek, M. Hroch, F. Josef, D. Hnidkova, and K. Kuca|Pharmacokinetic Study of Two Acetylcholinesterase Reactivators, Trimedoxime and Newly Synthesized Oxime K027, in Rat Plasma|J. Appl. Toxicol.33(1): 18-23|2013|10.1002/jat.1699
162989|T||Jones,D.R.|Evaluation of Fungicides for Control of Sclerotinia minor on Outdoor Lettuce|Tests Agrochem. Cultiv.7:58-59|1986|
162991|T||McKinlay,R.G.|Insecticidal Control of Cabbage and Turnip Root Flies in Swede Turnips|Tests Agrochem. Cultiv.7:34-35|1986|
162992|A||Liew,H.J., A.K. Sinha, C.M. Nawata, R. Blust, C.M. Wood, and G. De Boeck|Differential Responses in Ammonia Excretion, Sodium Fluxes and Gill Permeability Explain Different Sensitivities to Acute High Environmental Ammonia in Three Freshwater Teleosts|Aquat. Toxicol.126:63-76|2013|10.1016/j.aquatox.2012.10.012
162993|A||Marlatt,V.L., N. Veldhoen, B.P. Lo, D. Bakker, V. Rehaume, K. Vallee, M. Haberl, D. Shang, G.C. Van Aggelen, R.C. Skirr|Triclosan Exposure Alters Postembryonic Development in a Pacific Tree Frog (Pseudacris regilla) Amphibian Metamorphosis Assay (TREEMA)|Aquat. Toxicol.126:85-94|2013|10.1016/j.aquatox.2012.10.010
162994|A||Milan,M., M. Pauletto, T. Patarnello, L. Bargelloni, M.G. Marin, and V. Matozzo|Gene Transcription and Biomarker Responses in the Clam Ruditapes philippinarum After Exposure to Ibuprofen|Aquat. Toxicol.126:17-29|2013|10.1016/j.aquatox.2012.10.007
162995|A||MacDonald,G.Z., N.S. Hogan, B. Kollner, K.L. Thorpe, L.J. Phalen, B.D. Wagner, and M.R. Van den Heuvel|Immunotoxic Effects of Oil Sands-Derived Naphthenic Acids to Rainbow Trout|Aquat. Toxicol.126:95-103|2013|10.1016/j.aquatox.2012.10.009
162996|A||Huang,S.S.Y., A.B. Strathe, J.G. Fadel, M.L. Johnson, P. Lin, T.Y. Liu, and S.S.O. Hung|The Interactive Effects of Selenomethionine and Methylmercury on Their Absorption, Disposition, and Elimination in Juvenile White Sturgeon|Aquat. Toxicol.126:274-282|2013|10.1016/j.aquatox.2012.09.018
162997|A||Hsu,T., K.M. Huang, H.T. Tsai, S.T. Sung, and T.N. Ho|Cadmium(Cd)-Induced Oxidative Stress Down-Regulates the Gene Expression of DNA Mismatch Recognition Proteins MutS Homolog 2 (MSH2) and MSH6 in Zebrafish (Danio rerio) Embryos|Aquat. Toxicol.126:9-16|2013|10.1016/j.aquatox.2012.09.020
162998|T||Iversen,N.K., A.R.U. Nielsen, T. Wang, and E. Baatrup|Intravascular Infusion of PEGylated Au Nanoparticles Affects Cardiovascular Function in Healthy Mice|Hum. Exp. Toxicol.32(2): 216-221|2013|10.1177/0960327112462724
162999|A||Jorge,M.B., V.L. Loro, A. Bianchini, C.M. Wood, and P.L. Gillis|Mortality, Bioaccumulation and Physiological Responses in Juvenile Freshwater Mussels (Lampsilis siliquoidea) Chronically Exposed to Copper|Aquat. Toxicol.126:137-147|2013|10.1016/j.aquatox.2012.10.014
163000|T||Iversen,N.K., S. Frische, K. Thomsen, C. Laustsen, M. Pedersen, P.B.L. Hansen, P. Bie, J. Fresnais, J.F. Berret, E. Baa|Superparamagnetic Iron Oxide Polyacrylic Acid Coated gamma-Fe2O3 Nanoparticles do not Affect Kidney Function but Cause Acute Effect on the Cardiovascular Function in Healthy Mice|Toxicol. Appl. Pharmacol.266(2): 276-288|2013|10.1016/j.taap.2012.10.014
163001|T||Hill,C.R., D. Jamieson, H.D. Thomas, C.D.A. Brown, A.V. Boddy, and G.J. Veal|Characterisation of the Roles of ABCB1, ABCC1, ABCC2 and ABCG2 in the Transport and Pharmacokinetics of Actinomycin D In Vitro and In Vivo|Biochem. Pharmacol.85(1): 29-37|2013|10.1016/j.bcp.2012.10.004
163002|T||Liu,S.H., and R.A. Campbell|Effect of Droplet Size and Spray Volume on Efficacy of Glyphosate on Aspen (Populus tremuloides)|FRI Bull.192:194-196|1995|
163003|T||Mason,E.G., D.B. South, and Z. Weizhong|Interactions Among Seedling Grade, Weed Control, and Soil Cultivation for Pinus radiata in the Central North Island of New Zealand|FRI Bull.192:107-109|1995|
163004|A||Lyubenova,L., P. Pongrac, K. Vogel-Mikus, G.K. Mezek, P. Vavpetic, N. Grlj, P. Kump, M. Necemer, M. Regvar, P. Pelicon,|Localization and Quantification of Pb and Nutrients in Typha latifolia by Micro-PIXE|Metallomics4(4): 333-341|2012|10.1039/c2mt00179a
163005|T||Ni,H.M., A. Bockus, N. Boggess, H. Jaeschke, and W.X. Ding|Activation of Autophagy Protects Against Acetaminophen-Induced Hepatotoxicity|Hepatology55(1): 222-231|2012|10.1002/hep.24690
163006|A||Ilyas,R., and M. Javed|Acute Toxicity of Endosulfan to the Fish Species Catla catla, Cirrhina mrigala and Labeo rohita|Int. J. Agric. Biol.15(1): 149-152|2013|
163007|T||Nallathambi,P., C. Umamaheswari, B.B.L. Thakore, and T.A. More|Post-Harvest Management of Ber (Ziziphus mauritiana Lamk) Fruit Rot (Alternaria alternata Fr. Keissler) Using Trichoderma Species, Fungicides and Their Combinations|Crop Prot.28(6): 525-532|2009|10.1016/j.cropro.2009.02.002
163008|T||Kjoller,R., and S. Rosendahl|Effects of Fungicides on Arbuscular Mycorrhizal Fungi: Differential Responses in Alkaline Phosphatase Activity of External and Internal Hyphae|Biol. Fertil. Soils31(5): 361-365|2000|10.1007/s003749900180
163009|A||Hale,L.A.|Testing the Effects of Water Current Velocity on Zinc Toxicity to Psephenus herricki|M.S.Thesis, Tennessee Technological University, Cookeville, TN:92 p.|2009|
163010|T||Koe,B.K.|Preclinical Pharmacology of Sertraline:  A Potent and Specific Inhibitor of Serotonin Reuptake|J. Clin. Psych.51(Suppl. B): 13-17|1990|
163011|A||Jackson,D.T.|Effects of Stream Flow on Zinc Toxicity to Stenonema femoratum|M.S.Thesis, Tennessee Technological University, Cookeville, TN:86 p.|2009|
163012|A||Mishchenko,T.V.|"Effect of Herbicide ""Roundup"" on Characteristics of Lipid Peroxidation in Carp"|Hydrobiol. J.47(5): 67-71|2011|10.1615/HydrobJ.v47.i5.60
163013|T||Hall,K.R.|Alternative Management Techniques for Controlling Microstegium vimineum on Stream and Riparian Restoration Sites|Ph.D.Thesis, North Carolina State University, Raleigh, NC:338 p.|2012|
163014|T||Kumar,V., J. Lal, M.M. Singh, and R.C. Gupta|Effect of Concurrently Coadministered Drugs on the Pharmacokinetic/Pharmacodynamic Profile of Centchroman, a Nonsteroidal Oral Contraceptive, in Rats|Contraception74(2): 165-173|2006|10.1016/j.contraception.2006.02.007
163016|T||Ilic,S., D. Drmic, K. Zarkovic, D. Kolenc, L. Brcic, B. Radic, V. Djuzel, A.B. Blagaic, Z. Romic, S. Dzidic, L. Kalogje|Ibuprofen Hepatic Encephalopathy, Hepatomegaly, Gastric Lesion and Gastric Pentadecapeptide BPC 157 in Rats|Eur. J. Pharmacol.667(1-3): 322-329|2011|10.1016/j.ejphar.2011.05.038
163017|T||McGinnis,M.Y., and R.A. Gorski|Effects of Neonatal Septal Lesions on Reproductive Behavior of Male and Female Rats|Horm. Behav.14(3): 191-203|1980|10.1016/0018-506X(80)90028-8
163018|T||Matuszczyk,J.V., and K. Larsson|Sexual Preference and Feminine and Masculine Sexual Behavior of Male Rats Prenatally Exposed to Antiandrogen or Antiestrogen|Horm. Behav.29(2): 191-206|1995|10.1006/hbeh.1995.1014
163019|T||Heitzman,R.J., D.J. Harwood, R.M. Kay, W. Little, C.B. Mallinson, and I.P. Reynolds|Effects of Implanting Prepuberal Dairy Heifers with Anabolic Steroids on Hormonal Status, Puberty and Parturition|J. Anim. Sci.48(4): 859-866|1979|10.2527/jas1979.484859x
163020|T||Matuszczyk,J.V., A. Fernandez-Guasti, and K. Larsson|Sexual Orientation, Proceptivity, and Receptivity in the Male Rat as a Function of Neonatal Hormonal Manipulation|Horm. Behav.22(3): 362-378|1988|10.1016/0018-506X(88)90008-6
163021|T||Machnik,G., K.H. Chemnitius, and H. Niekrenz|Liver Neoplasms After Long-Term Steroid Application in Rats|Exp. Pathol.  (Jena)24(2/3): 183-187|1983|10.1016/S0232-1513(83)80031-0
163022|T||Impullitti,A.E.|Colonization of Soybean (Glycine max) by the Pathogen Phialophora gregata and Endophytic Fungi|Ph.D. Thesis, University of Minnesota, MN:121 p.|2010|
163023|T||Little,W., R.M. Kay, D.J. Harwood, and R.J. Heitzman|The Effects of Implanting Prepuberal Dairy Heifers with Anabolic Steroids on Live-Weight Gain, Blood and Urine Composition and Milk Yield|J. Agric. Sci.93(2): 321-327|1979|10.1017/S0021859600037990
163024|T||Kondo,Y., A. Shinoda, K. Yamanouchi, and Y. Arai|Role of Septum and Preoptic Area in Regulating Masculine and Feminine Sexual Behavior in Male Rats|Horm. Behav.24(3): 421-434|1990|10.1016/0018-506X(90)90019-T
163025|T||Kirigaya,A., S. Hayashi, T. Iguchi, and T. Sato|Developmental Effects of Ethinylestradiol on Reproductive Organs of Female Mice|In Vivo20(6B): 867-873|2006|
163026|T||Hunter,R.A., and J.E. Vercoe|Reduction of Energy Requirements of Steers Fed on Low-Quality-Roughage Diets Using Trenbolone Acetate|Br. J. Nutr.58(3): 477-483|1987|10.1079/BJN19870115
163027|T||Hackenberger,B.K., M. Velki, S. Stepic, and D.K. Hackenberger|First Evidence for the Presence of Efflux Pump in the Earthworm Eisenia andrei|Ecotoxicol. Environ. Saf.75(1): 40-45|2012|10.1016/j.ecoenv.2011.06.024
163028|T||Kraka,E.K.|Assessment of Herbicides for Control of Non-Native Species:  Italian Ryegrass (Lolium perenne spp. multiflorum), Tropical Spiderwort (Commelina benghalensis), and Tropical Soda Apple (Solanum viarum)|Ph.D. Thesis, Mississippi State University, Starkville, MS:109 p.|2012|
163029|T||Maggs,J.L., P.S. Grabowski, and B.K. Park|Drug-Protein Conjugates - V.  Sex-Linked Differences in the Metabolism and Irreversible Binding of 17alpha-Ethinylestradiol in the Rat|Biochem. Pharmacol.32(18): 2793-2800|1983|10.1016/0006-2952(83)90094-1
163031|T||Miccio,M., N. Orzes, G.C. Lunazzi, B. Gazzin, R. Corsi, and C. Tiribelli|Reversal of Ethinylestradiol-Induced Cholestasis by Epomediol in Rat:  The Role of Liver Plasma-Membrane Fluidity|Biochem. Pharmacol.38(20): 3559-3563|1989|10.1016/0006-2952(89)90128-7
163032|T||Lopez-Malo,A., S.M. Alzamora, and E. Palou|Aspergillus flavus Growth in the Presence of Chemical Preservatives and Naturally Occurring Antimicrobial Compounds|Int. J. Food Microbiol.99(2): 119-128|2005|10.1016/j.ijfoodmicro.2004.08.010
163033|T||Kaur,G., A. Aggarwal, and R.S. Mehrotra|In Vitro Assay of Seven Antibiotics Against Stem Blight of Pigeonpea and Their Effects on Pectolytic and Cellulolytic Enzyme Production|Indian Bot. Rep.6(1): 25-28|1987|
163034|T||Liu,J., B. Bai, S. Zhao, and D. Shi|Comparison of the Effects of Salt Stress and Salt-Alkaline Mixed Stress on the Mineral Nutrition of Sunflower|Commun. Soil Sci. Plant Anal.43(15): 1963-1975|2012|10.1080/00103624.2012.693228
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163054|T||Caudill,G.E.|Effects of Habitat Manipulations on Utah Prairie Dogs (Cynomys parvidens) and Their Habitats on the Awapa Plateau Recovery Area in South-Central Utah|M.S.Thesis, Utah State University, Logan, UT:112 p.|2012|
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163058|A||Minghetti,M., M.J. Leaver, and S.G. George|Multiple Cu-ATPase Genes are Differentially Expressed and Transcriptionally Regulated by Cu Exposure in Sea Bream, Sparus aurata|Aquat. Toxicol.97(1): 23-33|2010|10.1016/j.aquatox.2009.11.017
163059|T||Pekas,K.M.|Seed Pool Dynamics of a Great Basin Sagebrush Community in the Context of Restoration|M.S.Thesis, Utah State University, Logan, UT:128 p.|2010|
163060|T||He,L.Y., Y.F. Zhang, H.Y. Ma, L.N. Su, Z.J. Chen, Q.Y. Wang, M. Qian, and X.F. Sheng|Characterization of Copper-Resistant Bacteria and Assessment of Bacterial Communities in Rhizosphere Soils of Copper-Tolerant Plants|Appl. Soil Ecol.44(1): 49-55|2010|10.1016/j.apsoil.2009.09.004
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163066|T||Jaligama,S., V.M. Kale, M.S. Wilbanks, E.J. Perkins, and S.A. Meyer|Delayed Myelosuppression with Acute Exposure to Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) and Environmental Degradation Product Hexahydro-1-Nitroso-3,5-Dinitro-1,3,5-Triazine (MNX) in Rats|Toxicol. Appl. Pharmacol.266(3): 443-451|2013|10.1016/j.taap.2012.11.022
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163068|A||Kang,K.H., L. Zhang, Z. Zhang, Z. Sui, and J. Hur|Acute Toxicity and Biodegradation of Endosulfan by the Polychaeta Perinereis aibuhitensis in an Indoor Culture|Chin. J. Oceanol. Limnol.31(1): 75-80|2013|10.1007/s00343-013-2051-0
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163130|T||Heitzman,R.J., K.H. Chan, and I.C. Hart|Liveweight Gains, Blood Levels of Metabolites, Proteins and Hormones Following Implantation of Anabolic Agents in Steers|Br. Vet. J.133(1): 62-70|1977|10.1016/S0007-1935(17)34189-1
163131|T||Muller,J., F. Huaux, N. Moreau, P. Misson, J.F. Heilier, M. Delos, M. Arras, A. Fonseca, J.B. Nagy, and D. Lison|Respiratory Toxicity of Multi-Wall Carbon Nanotubes|Toxicol. Appl. Pharmacol.207:221-231|2005|10.1016/j.taap.2005.01.008
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163134|T||Moon,H.J., T.S. Kang, T.S. Kim, I.H. Kang, H.Y. Ki, S.H. Kim, and S.Y. Han|OECD Validation of Phase 3 Hershberger Assay in Korea Using Surgically Castrated Male Rats with Coded Chemicals|J. Appl. Toxicol.29(4): 350-355|2009|10.1002/jat.1418
163136|T||Nigam,P.C.|Toxicity of Insecticides to Sixth Instar Jack-Pine Budworm Larvae Under Laboratory Conditions|Bi-Mon. Res. Notes Environ. Can. For. Serv.26(1): 2-7|1970|
163137|T||Haasnoot,W., R. Schilt, A.R.M. Hamers, F.A. Huf, A. Farjam, R.W. Frei, and U.A.T. Brinkman|Determination of beta-19-Nortestosterone and Its Metabolite alpha-19-Nortestosterone in Biological Samples at the sub Parts per Billion Level by High-Performance Liquid Chromatography with On-Line Immunoaffinity Sample |J. Chromatogr. B Biomed. Appl.489(1): 157-171|1989|10.1016/S0378-4347(00)82892-3
163138|A||Howland,R.M., and R.A. Schoettger|Efficacy of Methylpentynol as an Anesthetic on Four Salmonids|Invest. Fish Control29:11 p.|1969|
163139|AT||Lautenschlager,R.A., F.W. Bell, and R.G. Wagner|The Fallingsnow Ecosystem Project:  Comparing Manual, Mechanical, and Aerial Herbicide Conifer Release in Northwestern Ontario|FRI Bull.192:262-264|1995|
163140|A||Lascano,C.I., A. Ferrari, L.E. Gauna, C. Cocca, A.C. Cochon, N. Verrengia, and A. Venturino|Organophosphorus Insecticides Affect Normal Polyamine Metabolism in Amphibian Embryogenesis|Pestic. Biochem. Physiol.101(3): 240-247|2011|10.1016/j.pestbp.2011.10.001
163141|A||Meenambal,M., K. Pugazhendy, C. Vasantharaja, and S. Venkatesan|Chelating Properties of Delonix elata Against Cypermethrin Induced Oxitative Stress and Antioxidant Enzyme Activity in Cyprinus carpio (Linn)|Int. J. Pharm. Biol. Arch.3(1): 237-243|2012|
163142|T||Jean-Philippe,S.R., N. Labbe, J. Damay, J.A. Franklin, and K. Hughes|Effect of Mercuric Compounds on Pine and Sycamore Germination and Early Survival|Am. J. Plant Sci.3(1): 150-158|2012|10.4236/ajps.2012.31017
163143|A||Mansueto,V., M.V. Cangialosi, and A.S. Faqi|Post-Embryonic Development Effect of Bisphenol A and Tributyltin Effects in Ciona intestinalis|Caryologia (Multiple Languages)64(4): 478-484|2011|
163144|T||Joshi,S.V., N.T. Patel, I.B. Pandey, and A.N. Pandey|Effect of Supplemental Ca2+ on NaCl-Stressed Castor Plants (Ricinus communis L.)|Acta Bot. Croat. (Multiple Languages)71(1): 13-29|2012|10.2478/v10184-011-0061-6
163146|A||Jin,Y., X. Pan, L. Cao, B. Ma, and Z. Fu|Embryonic Exposure to cis-Bifenthrin Enantioselectively Induces the Transcription of Genes Related to Oxidative Stress, Apoptosis and Immunotoxicity in Zebrafish (Danio rerio)|Fish Shellfish Immunol.34(2): 717-723|2013|10.1016/j.fsi.2012.11.046
163147|A||Nwani,C.D., U.I. Ama, F. Okoh, U.O. Oji, R.C. Ogbonyealu, A. Agha, Ibiam, and O. Udu-Ibiam|Acute Toxicity of the Chloroacetanilide Herbicide Butachlor and Its Effects on the Behavior of the Freshwater Fish Tilapia zillii|Afr. J. Biotechnol.12(5): 499-503|2013|10.5897/AJB12.2433
163148|T||Mommaerts,V., A. Hagenaars, J. Meyer, W. De Coen, L. Swevers, H. Mosallanejad, and G. Smagghe|Impact of a Perfluorinated Organic Compound PFOS on the Terrestrial Pollinator Bombus terrestris (Insecta, Hymenoptera)|Ecotoxicology20(2): 447-456|2011|10.1007/s10646-011-0596-2
163149|A||Das,M.K.|Differential Response of Cyanobacteria to an Organo-Phosphate Pesticide, Rogor (Dimethoate 30 EC)|Nat. Environ. Pollut. Technol.7(1): 139-143|2008|
163150|A||Liu,X.J., Z. Luo, J.L. Zheng, and B.X. Xiong|Effects of Waterborne Acephate Exposure on Antioxidant Responses and Acetylcholinesterase Activities in Synechogobius hasta|Environ. Toxicol.28:42-50|2013|10.1002/tox.20697
163152|T||Meyer,S.A., A.J. Marchand, J.L. Hight, G.H. Roberts, L.B. Escalon, L.S. Inouye, and D.K. MacMillan|Up-and-Down Procedure (UDP) Determinations of Acute Oral Toxicity of Nitroso Degradation Products of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX)|J. Appl. Toxicol.25:427-434|2005|10.1002/jat.1090
163153|T||Joshee,N., B.K. Biswas, and A.K. Yadav|Somatic Embryogenesis and Plant Development in Centella asiatica L., a Highly Prized Medicinal Plant of the Tropics|Hortscience42(3): 633-637|2007|10.21273/HORTSCI.42.3.633
163154|T||Koechel,D.A., M.E. Krejci, and R.E. Ridgewell|S-(1,2-Dichlorovinyl)-3-Mercaptopropionic Acid Effects on Renal Function and Ultrastructure in Pentobarbital-Anesthitized Dogs:  Site-Specific Toxicity and Evidence for Its Toxification via the Pathway Responsible for b|Toxicology85:1-24|1993|10.1016/0300-483X(93)90080-C
163156|T||Chailakhyan,M.K., and V.N. Khryanin|The Influence of Growth Regulators Absorbed by the Root of Sex Expression in Hemp Plants|Planta (Multiple Languages)138:181-184|1978|10.1007/BF00391176
163157|T||Li,H.Y., D.W. Li, C.M. He, Z.P. Zhou, T. Mei, and H.M. Xu|Diversity and Heavy Metal Tolerance of Endophytic Fungi from Six Dominant Plant Species in a Pb-Zn Mine Wasteland in China|Fungal Ecol.5(3): 309-315|2012|10.1016/j.funeco.2011.06.002
163158|T||Kreeger,T.J.|The Physiological, Biochemical, and Pathological Responses of Wild Canids to Stress|Ph.D. Thesis, University of Minnesota, St. Paul, MN:209 p.|1988|
163159|A||Nevid,N.J.|Circadian Neuroendocrine Regulation of Scale Allograft Reactions in Gulf Killifish, Fundulus grandis|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:115 p.|1993|
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163161|T||Esashi,Y., S. Wakabayashi, Y. Tsukada, and S. Satoh|Possible Involvement of the Alternative Respiration System in the Ethylene-Stimulated Germination of Cocklebur Seeds|Plant Physiol.63:1039-1043|1979|10.1104/pp.63.6.1039
163162|T||Rincon,D.J., and G.F. Warren|Effect of Soil Placement on the Activity of Herbicides on Cyperus rotundus L.|Weed Res. (Multiple Languages)19:81-87|1979|10.1111/j.1365-3180.1979.tb01579.x
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163165|T||Hite,G.A., S.R. King, E.S. Hagood, and G.I. Holtzman|Differential Response of a Virginia Common Lambsquarters (Chenopodium album) Collection to Glyphosate|Weed Sci.56(2): 203-209|2008|10.1614/WS-07-114.1
163166|T||Galston,A.W., and D.C. McCune|An Analysis of Gibberellin-Auxin Interaction and Its Possible Metabolic Basis|In: R.M.Klein (Ed.), Plant Growth Regulation, Iowa State University, Ames, IA:611-625|1961|
163167|A||Mathas,M., O. Burk, H. Qiu, C. NuBhag, U. Godtel-Armbrust, D. Baranyai, S. Deng, K. Romer, D. Nem, B. Windshugel, and L|Evolutionary History and Functional Characterization of the Amphibian Xenosensor CAR|Mol. Endocrinol.26(1): 14-26|2012|10.1210/me.2011-1235
163168|T||Alghazal,M.A., V. Lenartova, K. Holovska, A. Sobekova, M. Falis, and J. Legath|Activities of Antioxidant and Detoxifying Enzymes in Rats After Lead Exposure|Acta Vet. Brno77:347-354|2008|10.2754/avb200877030347
163169|T||Sun,C., H. Zhang, T. Tang, M. Qian, Y. Yuan, and Z. Zhang|Comparison of Greenhouse and Field Degradation Behaviour of Isoprocarb, Hexaflumuron and Difenoconazole in Perilla frutescens|Bull. Environ. Contam. Toxicol.89(4): 868-872|2012|10.1007/s00128-012-0765-x
163170|T||Dias,N.M.P., M.R.D.B. Pereira, R.F. Lopez-Ovejero, P.J. Christoffoleti, J.F. Barela, and V.L. Tornisielo|Population Dynamics of Digitaria spp. Submitted to Selection Pressure by Herbicides in Sugarcane Crop|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes40(1): 21-28|2005|
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163175|A||Goulding,A.T., L.K. Shelley, P.S. Ross, and C.J. Kennedy|Reduction in Swimming Performance in Juvenile Rainbow Trout (Oncorhynchus mykiss) Following Sublethal Exposure to Pyrethroid Insecticides|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(3): 280-286|2013|10.1016/j.cbpc.2013.01.001
163176|T||Huang,F., Z.Y. Guo, L. Chen, Z. Xu, Y. Liu, and C. Yang|Dissipation and Evaluation of Hexaflumuron Residues in Chinese Cabbage Grown in Open Fields|J. Agric. Food Chem.58(8): 4839-4843|2010|10.1021/jf904358v
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163178|AT||Sun,R., Y. Liu, Y. Zhang, L. Xiong, and Q. Wang|Design and Synthesis of Benzoylphenylureas with Fluorinated Substituents on the Aniline Ring as Insect Growth Regulators|J. Agric. Food Chem.59:2471-2477|2011|10.1021/jf104578j
163179|T||Dastjerdi,H.R., M.J. Hejazi, G.N. Ganbalani, and M. Saber|Sublethal Effects of Some Conventional and Biorational Insecticides on Ectoparasitoid, Habrobracon hebetor Say (Hymenoptera: Braconidae)|J. Entomol.6(2): 82-89|2009|10.3923/je.2009.82.89
163180|T||Kabiri,M., and B. Amiri-Besheli|Toxicity of Palizin, Mospilan and Consult on Agonoscena pistaciae Burckhardt and Lauterer (Hemiptera: Psyllidae), Oenopia conglobata L. (Coleoptera: Coccinellidae) and Psyllaephagus pistaciae Ferriere (Hymenoptera: Ency|Acad. J. Entomol.5(2): 99-107|2012|
163181|T||Kabiri,M., B. Amiri-Besheli, and M. Basirat|A Comparison of the Toxicity of the Botanical Insecticide, Sirinol and Two Chemical Insecticides, Mospilan and Consult, on Two Natural Enemies of the Pistachio Psyllid, Coccinellid Predator (Oenopia conglobata) and Para|Afr. J. Biotechnol.11(74): 13888-13895|2012|
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163183|T||Rashid,M., A. Baghdadi, A. Sheikhi, H.R. Pourian, and M. Gazavi|Compatibility of Metarhizium anisopliae (Ascomycota: Hypocreales) with Several Insecticides|J. Plant Prot. Res.50(1): 22-27|2010|10.2478/v10045-010-0004-6
163184|T||Wang,Y., T. Cang, X. Zhao, R. Yu, L. Chen, C. Wu, and Q. Wang|Comparative Acute Toxicity of Twenty-Four Insecticides to Earthworm, Eisenia fetida|Ecotoxicol. Environ. Saf.79:122-128|2012|10.1016/j.ecoenv.2011.12.016
163185|T||Wang,Y., L. Chen, R. Yu, X. Zhao, C. Wu, T. Cang, and Q. Wang|Insecticide Toxic Effects on Trichogramma ostriniae (Hymenoptera: Trichogrammatidae)|Pest Manag. Sci.68(12): 1564-1571|2012|10.1002/ps.3343
163186|T||Wang,Y., L. Chen, X. An, J. Jiang, Q. Wang, L. Cai, and X. Zhao|Susceptibility to Selected Insecticides and Risk Assessment in the Insect Egg Parasitoid Trichogramma confusum (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.106(1): 142-149|2013|10.1603/EC12313
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163189|A||Khebbeb,M.E.H., S. Nadji, and A. Amrani|The Effect of Cadmium Exposure on Malonedialdehyde and Reduced Glutathione Concentrations in Several Tissues of a Bivalve Mollusc (Ruditapes decussatus) Fished from Mellah Lagoon (North East of Algeria)|Ann. Biol. Res.1(2): 166-173|2010|
163190|A||Lavoie,M., P.G.C. Campbell, and C. Fortin|Extending the Biotic Ligand Model to Account for Positive and Negative Feedback Interactions Between Cadmium and Zinc in a Freshwater Alga|Environ. Sci. Technol.46(21): 12129-12136|2012|10.1021/es302512r
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163209|T||Shiverick,K.T., and M. Notelovitz|Regulation of Cytochrome P-450-Dependent Catechol Estrogen Formation in Rat Liver Microsomes:  Evidence for Involvement of Estrogen Receptors|Biochem. Pharmacol.32(16): 2399-2403|1983|10.1016/0006-2952(83)90682-2
163210|T||Skett,P., P. Eneroth, and J.A. Gustafsson|The Effect of 2-Br-alpha-Ergocryptine on the Hepatic Steroid Metabolism and Serum Pituitary Hormone Levels in Normal Rats and Rats with an Ectopic Pituitary|Biochem. Pharmacol.27(13): 1713-1716|1978|10.1016/0006-2952(78)90544-0
163211|T||Reddy,K.R.N., C.S. Reddy, and K. Muralidharan|Efficacy of Certain Agrochemicals on Aspergillus spp. and Subsequent Aflatoxin Production in Rice|Pestic. Biochem. Physiol.93(2): 53-57|2009|10.1016/j.pestbp.2008.11.002
163212|T||Steel,C.C., and N.G. Nair|The Physiological Basis of Resistance to the Dicarboximide Fungicide Iprodione in Botrytis cinerea|Pestic. Biochem. Physiol.47(1): 60-68|1993|10.1006/pest.1993.1063
163214|T||Sato,G., T. Aoki, S. Hosokawa, F. Sagami, and K. Tsukidate|Protection from Drug-Induced Hepatocellular Changes by Pretreatment with Conjugating Enzyme Inhibitors in Rats|Life Sci.68(24): 2665-2673|2001|10.1016/S0024-3205(01)01037-2
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163908|T||Grekul,C.W., D.E. Cole, and E.W. Bork|Canada Thistle (Cirsium arvense) and Pasture Forage Responses to Wiping with Various Herbicides|Weed Technol.19(2): 298-306|2005|10.1614/WT-03-272R1
163909|A||Schneider,S.C., and L. Nizzetto|Bioconcentration and Intracellular Storage of Hexachlorobenzene in Charophytes and Their Potential Role in Monitoring and Remediation Actions|Environ. Sci. Technol.46(22): 12427-12434|2012|10.1021/es302185g
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163912|T||Parker,S., M. Udani, J.S. Gavaler, and D.H. Van Thiel|Pre- and Neonatal Exposure to Cimetidine but not Ranitidine Adversely Affects Adult Sexual Functioning of Male Rats|Neurobehav. Toxicol. Teratol.6(4): 313-318|1984|
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163925|T||Cakmak,I., A. Yazici, Y. Tutus, and L. Ozturk|Glyphosate Reduced Seed and Leaf Concentrations of Calcium, Manganese, Magnesium, and Iron in Non-Glyphosate Resistant Soybean|Eur. J. Agron.31(3): 114-119|2009|10.1016/j.eja.2009.07.001
163926|T||Bell,F.W., R.A. Lautenschlager, R.G. Wagner, D.G. Pitt, J.W. Hawkins, and K.R. Ride|Motor-Manual, Mechanical, and Herbicide Release Affect Early Successional Vegetation in Northwestern Ontario|For. Chron.73(1): 61-68|1997|10.5558/tfc73061-1
163927|T||Deeds,Z.A., K. Al-Khatib, D.E. Peterson, and P.W. Stahlman|Wheat Response to Simulated Drift of Glyphosate and Imazamox Applied at Two Growth Stages|Weed Technol.20(1): 23-31|2006|10.1614/WT-04-273R.1
163928|T||Baerson,S.R., D.J. Rodriguez, N.A. Biest, M. Tran, J. You, R.W. Kreuger, G.M. Dill, J.E. Pratley, and K.J. Gruys|Investigating the Mechanism of Glyphosate Resistance in Rigid Ryegrass (Lolium ridigum)|Weed Sci.50(6): 721-730|2002|10.1614/0043-1745(2002)050[0721:ITMOGR]2.0.CO;2
163929|T||Grey,T.L., and P. Raymer|Sicklepod (Senna obtusifolia) and Red Morningglory (Ipomoea coccinea) Control in Glyphosate-Resistant Soybean with Narrow Rows and Postemergence Herbicide Mixtures|Weed Technol.16(3): 669-674|2002|10.1614/0890-037X(2002)016[0669:SSOARM]2.0.CO;2
163930|T||Gower,S.A., M.M. Loux, J. Cardina, and S.K. Harrison|Effect of Planting Date, Residual Herbicide, and Postemergence Application Timing on Weed Control and Grain Yield in Glyphosate-Tolerant Corn (Zea mays)|Weed Technol.16(3): 488-494|2002|10.1614/0890-037X(2002)016[0488:EOPDRH]2.0.CO;2
163931|T||Gimenez,A.E., A.C. York, J.W. Wilcut, and R.B. Batts|Annual Grass Control by Glyphosate plus Bentazon, Chlorimuron, Fomesafen, or Imazethapyr Mixtures|Weed Technol.12(1): 134-136|1998|10.1017/S0890037X0004269X
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163933|T||De Carvalho,L.B., H. Cruz-Hipolito, F. Gonzalez-Torralva, P.L.C.A. Alves, P.J. Christoffoleti, and R. De Prado|Detection of Sourgrass (Digitaria insularis) Biotypes Resistant to Glyphosate in Brazil|Weed Sci.59(2): 171-176|2011|10.1614/WS-D-10-00113.1
163934|A||Van Meter,R.J., C.M. Swan, J. Leips, and J.W. Snodgrass|Road Salt Stress Induces Novel Food Web Structure and Interactions|Wetlands31(5): 843-851|2011|10.1007/s13157-011-0199-y
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163937|A||Bartlett,A.J., Q. Rochfort, L.R. Brown, and J. Marsalek|Causes of Toxicity to Hyalella azteca in a Stormwater Management Facility Receiving Highway Runoff and Snowmelt. Part II: Salts, Nutrients, and Water Quality|Sci. Total Environ.414:238-247|2012|10.1016/j.scitotenv.2011.11.036
163938|A||Chen,H., Y.M. Lao, and J.G. Jiang|Effects of Salinities on the Gene Expression of a (NAD+)-Dependent Glycerol-3-Phosphate Dehydrogenase in Dunaliella salina|Sci. Total Environ.409(7): 1291-1297|2011|10.1016/j.scitotenv.2010.12.038
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163940|A||Gaitan-Espitia,J.D., M. Martinez-Silva, C.E. Borrero, L. Ramirez, and J.P. Valencia|Cryogenic Preservation of Sperm from Lane Snapper (Lutjanus synagris): Testing the Effects of Extenders and Freezing Rates on Sperm Quality|Aquaculture384-387:6-12|2013|10.1016/j.aquaculture.2012.12.002
163941|A||Goncalves,R.A., C. Aragao, P.A. Frias, and A.V. Sykes|The Use of Different Anaesthetics as Welfare Promoters During Short-Term Human Manipulation of European Cuttlefish (Sepia officinalis) Juveniles|Aquaculture370/371:130-135|2012|10.1016/j.aquaculture.2012.10.014
163942|A||Kolkmeier,M.A., and B.W. Brooks|Sublethal Silver and NaCl Toxicity in Daphnia magna:  A Comparative Study of Standardized Chronic Endpoints and Progeny Phototaxis|Ecotoxicology22(4): 693-706|2013|10.1007/s10646-013-1061-1
163943|A||Lee,S.P., and H. Ueda|Effects of Aggressive Interaction on Downstream Movement and Olfactory Function in Masu Salmon, Oncorhynchus masou|Aquaculture362/363(0): 167-171|2012|10.1016/j.aquaculture.2010.09.012
163944|A||Linbo,T.L., D.H. Baldwin, J.K. McIntyre, and N.L. Scholz|Effects of Water Hardness, Alkalinity, and Dissolved Organic Carbon on the Toxicity of Copper to the Lateral Line of Developing Fish|Environ. Toxicol. Chem.28(7): 1455-1461|2009|10.1897/08-283.1
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163975|T||Taga,C., Y. Sugimoto, M. Nishiga, Y. Fujii, and C. Kamei|Effects of Vasopressin on Histamine H1 Receptor Antagonist-Induced Spatial Memory Deficits in Rats|Eur. J. Pharmacol.423(2/3): 167-170|2001|10.1016/S0014-2999(01)01080-9
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164086|T||Balakrishnan,M., and K.M. Alexander|Hormonal Control of Scent Marking in the Indian Musk Shrew, Suncus murinus viridescens (Blyth)|Horm. Behav.7(4): 431-439|1976|10.1016/0018-506X(76)90014-3
164088|T||Whitty,E.B., and M. Wilcox|Field Evaluation of Prime+ for Tobacco Sucker Control|Proc. South. Weed Sci. Soc.38:401-406|1985|
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164090|T||Whitehead,A.G., R.H. Bromilow, J.E. Fraser, and A.J.F. Nichols|Control of Potato Cyst-Nematode, Globodera rostochiensis, and Root-Knot Nematode, Meloidogyne incognita, by Organophosphorus, Carbamate, Benzimidazole and Other Compounds|Ann. Appl. Biol.106(1): 489-498|1985|10.1111/j.1744-7348.1985.tb03140.x
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164092|A||Parsons,A.|The Fate of Aromatic Compounds in Neptunea lyrata decemcostata and Ilyanassa obsoleta|M.S.Thesis, Dalhousie University, Canada:117 p.|2008|
164093|A||Lister,A.L.|Prostaglandins in the Zebrafish Ovary: Role, Regulation, and Modulation by Environmental Pharmaceuticals|Ph.D. Thesis, University of Guelph, Ontario, Canada:245 p.|2009|
164094|T||Castle,L.A., D.L. Siehl, R. Gorton, P.A. Patten, Y.H. Chen, S. Bertain, H.J. Cho, N. Duck, J. Wong, D. Liu, and M.W. La|Discovery and Directed Evolution of a Glyphosate Tolerance Gene|Science304(5674): 1151-1154|2004|10.1126/science.1096770
164095|A||Urena,R., M.J. Bebianno, J. Del Ramo, and A. Torreblanca|Metallothionein in the Freshwater Gastropod Melanopsis dufouri Chronically Exposed to Cadmium:  A Methodological Approach|Ecotoxicol. Environ. Saf.73(5): 779-787|2010|10.1016/j.ecoenv.2010.02.010
164096|A||Lavado,R., L.A. Maryoung, and D. Schlenk|Hypersalinity Acclimation Increases the Toxicity of the Insecticide Phorate in Coho Salmon (Oncorhynchus kisutch)|Environ. Sci. Technol.45(10): 4623-4629|2011|10.1021/es200451j
164097|A||Urbatzka,R., E. Rocha, B. Reis, C. Cruzeiro, R.A.F. Monteiro, and M.J. Rocha|Effects of Ethinylestradiol and of an Environmentally Relevant Mixture of Xenoestrogens on Steroidogenic Gene Expression and Specific Transcription Factors in Zebrafish|Environ. Pollut.164:28-35|2012|10.1016/j.envpol.2012.01.018
164098|A||Riar,N.|Impacts of Hypersaline Conditions on the Biotransformation and Toxicity of the Pesticide Bifenthrin in Salmonid Species of the San Francisco Bay Delta|M.S.Thesis, University of California, Riverside, CA:94 p.|2012|
164099|T||Yurumez,Y., Y. Yavuz, O. Sahin, I.H. Ciftci, S. Ozkan, and M.E. Buyukokuroglu|Can Diphenhydramine Prevent Organophosphate-Induced Acute Pancreatitis?  An Experimental Study in Rats|Pestic. Biochem. Physiol.87(3): 271-275|2007|10.1016/j.pestbp.2006.11.001
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164102|A||Warren,E.|On the Reaction of Daphnia magna (Straus) to Certain Changes in Its Environment|Q. J. Microsc. Sci.43(2): 199-224|1899|
164103|T||Boydston,R.A., and M.M. Williams II|Combined Effects of Aceria malherbae and Herbicides on Field Bindweed (Convolvulus arvensis) Growth|Weed Sci.52(2): 297-301|2004|10.1614/WS-03-080R1
164104|A||Peters,R.E.M.|Effects of 17alpha-Ethynylestradiol on Endocrine Status, Reproduction, Early-Life Development and Sexual Differentiation in Mummichog (Fundulus heteroclitus)|M.A.Thesis, University of New Brunswick, Canada:148 p.|2005|
164105|AT||Olufunsho,A., J.A. Teixeira da Silva, and A. Akintonwa|Toxicity Testing of Paraquat and 2,4-Dimethylamine on Lumbricus terristris, Palaemonetes africanus and Tilapia guineensis|Terrestrial Aquat. Environ. Toxicol.5(1): 59-60|2011|
164106|T||Bostamam,Y., J.M. Malone, F.C. Dolman, P. Boutsalis, and C. Preston|Rigid Ryegrass (Lolium rigidum) Populations Containing a Target Site Mutation in EPSPS and Reduced Glyphosate Translocation are more Resistant to Glyphosate|Weed Sci.60(3): 474-479|2012|10.1614/WS-D-11-00154.1
164107|T||Zarea,M.J., S. Hajinia, N. Karimi, E.M. Goltapeh, F. Rejali, and A. Varma|Effect of Piriformospora indica and Azospirillum Strains from Saline or Non-Saline Soil on Mitigation of the Effects of NaCl|Soil Biol. Biochem.45:139-146|2012|10.1016/j.soilbio.2011.11.006
164108|T||Blackshaw,R.E., and K.N. Harker|Selective Weed Control with Glyphosate in Glyphosate-Resistant Spring Wheat (Triticum aestivum)|Weed Technol.16(4): 885-892|2002|10.1614/0890-037X(2002)016[0885:SWCWGI]2.0.CO;2
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164110|T||Binkholder,K.M., B.S. Fresenburg, T.C. Teuton, X. Xiong, and R.J. Smeda|Selection of Glyphosate-Resistant Annual Bluegrass (Poa annua) on a Golf Course|Weed Sci.59(3): 286-289|2011|10.1614/WS-D-10-00131.1
164111|T||Basantani,M., A. Srivastava, and S. Sen|Elevated Antioxidant Response and Induction of Tau-Class Glutathione s-Transferase After Glyphosate Treatment in Vigna radiata (L.) Wilczek|Pestic. Biochem. Physiol.99(1): 111-117|2011|10.1016/j.pestbp.2010.11.007
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164113|T||Reddy,V.B.G., G.A. Doss, B.V. Karanam, K. Samuel, T.J.,Jr. Lanza, L.S. Lin, N.X. Yu, A.S. Zhang, C.E. Raab, R.A. Stearn|In Vitro and In Vivo Metabolism of a Novel Cannabinoid-1 Receptor Inverse Agonist, Taranabant, in Rats and Monkeys|Xenobiotica40(9): 650-662|2010|10.3109/00498254.2010.501117
164114|T||Brinke,M., P. Heininger, and W. Traunspurger|Effects of a Bioassay-Derived Ivermectin Lowest Observed Effect Concentration on Life-Cycle Traits of the Nematode Caenorhabditis elegans|Ecotoxicology22(1): 148-155|2013|10.1007/s10646-012-1011-3
164115|A||Bugel,S.M., L.A. White, and K.R. Cooper|Inhibition of Vitellogenin Gene Induction by 2,3,7,8-Tetrachlorodibenzo-p-Dioxin is Mediated by Aryl Hydrocarbon Receptor 2 (AHR2) in Zebrafish (Danio rerio)|Aquat. Toxicol.126:1-8|2013|10.1016/j.aquatox.2012.09.019
164116|A||Hakalahti-Siren,T., V.N. Mikheev, and E.T. Valtonen|Control of Freshwater Fish Louse Argulus coregoni: a Step Towards an Integrated Management Strategy|Dis. Aquat. Org.82:67-77|2008|10.3354/dao01971
164117|T||Bogdanovic,M., M. Ilic, S. Zivkovic, A. Sabovljevic, D. Grubisic, and M. Sabovljevic|Comparative Study on the Effects of NaCl on Selected Moss and Fern Representatives|Aust.J.Bot.59:734-740|2011|10.1071/BT11059
164118|A||Duncan,A.B., S. Fellous, R. Accot, M. Alart, K. Chantung Sobandi, A. Cosiaux, and O. Kaltz|Parasite-Mediated Protection Against Osmotic Stress for Paramecium caudatum Infected by Holospora undulata is Host Genotype Specific|FEMS Microbiol. Ecol.74(2): 353-360|2010|10.1111/j.1574-6941.2010.00952.x
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164121|A||Brungs,W.A.|Recommended Zinc and Copper Criteria for Aquatic Life in Ohio|Unpublished Report.  National Water Quality Laboratory,  U.S. Environmental Protection Agency, Duluth, MN:12 p.|1974|
164122|A||Abdul,J.M., A. Colville, R. Lim, S. Vigneswaran, and J. Kandasamy|Use of Duckweed (Lemna disperma) to Assess the Phytotoxicity of the Products of Fenton Oxidation of Metsulfuron Methyl|Ecotoxicol. Environ. Saf.83:89-95|2012|10.1016/j.ecoenv.2012.06.014
164123|A||Coesel,S.N., A.C. Baumgartner, L.M. Teles, A.A. Ramos, N.M. Henriques, L. Cancela, and J.C.S. Varela|Nutrient Limitation is the Main Regulatory Factor for Carotenoid Accumulation and for Psy and Pds Steady State Transcript Levels in Dunaliella salina (Chlorophyta) Exposed to High Light and Salt Stress|Mar. Biotechnol.10:602-611|2008|10.1007/s10126-008-9100-2
164124|A||Suzuki,E., H. Ohkawa, K. Moriya, T. Matsubara, Y. Nagaike, I. Iwasaki, S. Fujiwara, M. Tsuzuki, and Y. Nakamura|Carbohydrate Metabolism in Mutants of the Cyanobacterium Synechococcus elongatus PCC 7942 Defective in Glycogen Synthesis|Antimicrob. Agents Chemother.76(10): 3153-3159|2010|
164125|A||Gioda,C.R., V.L. Loro, A. Pretto, J. Salbego, V. Dressler, and E.M.M. Flores|Sublethal Zinc and Copper Exposure Affect Acetylcholinesterase Activity and Accumulation in Different Tissues of Leporinus obtusidens|Bull. Environ. Contam. Toxicol.90(1): 12-16|2013|10.1007/s00128-012-0896-0
164126|A||Cannas,M., F. Atzori, F. Rupsard, P. Bustamante, V. Loizeau, and C. Lefrancois|PCBs Contamination does not Alter Aerobic Metabolism and Tolerance to Hypoxia of Juvenile Sole (Solea solea L. 1758)|Aquat. Toxicol.127:54-60|2013|10.1016/j.aquatox.2012.04.017
164127|T||Dobrzynska,M.M., and J. Radzikowska|Genotoxicity and Reproductive Toxicity of Bisphenol A and X-Ray/Bisphenol A Combination in Male Mice|Drug Chem. Toxicol.36(1): 19-26|2013|10.3109/01480545.2011.644561
164128|T||Moldes,C.A., J.M. Camina, L.O. Medici, S.M. Tsai, and R.A. Azevedo|Physiological Effects of Glyphosate over Amino Acid Profile in Conventional and Transgenic Soybean (Glycine max)|Pestic. Biochem. Physiol.102(2): 134-141|2012|10.1016/j.pestbp.2011.12.004
164129|T||Mommaerts,V., K. Jodko, L.C.J. Thomassen, J.A. Martens, M. Kirsch-Volders, and G. Smagghe|Assessment of Side-Effects by Ludox TMA Silica Nanoparticles Following a Dietary Exposure on the Bumblebee Bombus terrestris|Nanotoxicology6(5): 554-561|2012|10.3109/17435390.2011.590905
164130|T||Mohan,N., C.S. Chen, H.H. Hsieh, Y.C. Wu, and H.C. Chang|In Vivo Imaging and Toxicity Assessments of Fluorescent Nanodiamonds in Caenorhabditis elegans|Nano Lett.10(9): 3692-3699|2010|10.1021/nl1021909
164131|T||Bernotiene,R., L. Ivanoviene, I. Sadauskiene, A. Liekis, and L. Ivanov|The Effects of Cadmium Chloride and Sodium Selenite on Protein Synthesis in Mouse Liver (Cadmium and Selenite Ions in Protein Synthesis)|Environ. Toxicol. Pharmacol.PRESS:17 p.|2013|
164132|T||Urbina,J.A., J. Vivas, G. Visbal, and L.M. Contreras|Modification of the Sterol Composition of Trypanosoma (Schizotrypanum) cruzi Epimastigotes by delta 24(25)-Sterol Methyl Transferase Inhibitors and Their Combinations with Ketoconazole|Mol. Biochem. Parasitol.73(1/2): 199-210|1995|10.1016/0166-6851(95)00117-J
164133|T||Zhuo,X., J. Gu, M.J. Behr, P.J. Swiatek, H. Cui, Q.Y. Zhang, Y. Xie, D.N. Collins, and X. Ding|Targeted Disruption of the Olfactory Mucosa-Specific Cyp2g1 Gene:  Impact on Acetaminophen Toxicity in the Lateral Nasal Gland, and Tissue-Selective Effects on Cyp2a5 Expression|J. Pharmacol. Exp. Ther.308(2): 719-728|2004|10.1124/jpet.103.060301
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164135|A||Coon,S.L., D.B. Bonar, and R.M. Weiner|Chemical Production of Cultchless Oyster Spat Using Epinephrine and Norepinephrine|Aquaculture58(3/4): 255-262|1986|10.1016/0044-8486(86)90090-6
164136|A||Coon,S.L., D.B. Bonar, and R.M. Weiner|Induction of Settlement and Metamorphosis of the Pacific Oyster, Crassostrea gigas (Thunberg), by L-DOPA and Catecholamines|J. Exp. Mar. Biol. Ecol.94(1-3): 211-221|1985|10.1016/0022-0981(85)90059-0
164137|T||Chen,B.C., P.C. Ho, and K.W. Juang|Alleviation Effects of Magnesium on Copper Toxicity and Accumulation in Grapevine Roots Evaluated with Biotic Ligand Models|Ecotoxicology22(1): 174-183|2013|10.1007/s10646-012-1015-z
164138|A||Chen,J., S.R. Das, J. La Du, M.M. Corvi, C. Bai, Y. Chen, X. Liu, G. Zhu, R.L. Tanguay, Q. Dong, and C. Huang|Chronic PFOS Exposures Induce Life Stage-Specific Behavioral Deficits in Adult Zebrafish and Produce Malformation and Behavioral Deficits in F1 Offspring|Environ. Toxicol. Chem.32(1): 201-206|2013|10.1002/etc.2031
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164140|A||Bouetard,A., A.L. Besnard, D. Vassaux, L. Lagadic, and M.A. Coutellec|Impact of the Redox-Cycling Herbicide Diquat on Transcript Expression and Antioxidant Enzymatic Activities of the Freshwater Snail Lymnaea stagnalis|Aquat. Toxicol.126:256-265|2013|10.1016/j.aquatox.2012.11.013
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164145|T||Cathey,G.W., C.D. Elmore, and B.L. McMichael|Some Physiological Responses of Cotton Leaves to Foliar Applications of Potassium 3,4-Dichloroisothiazole-5-Carboxylate and S,S,S-Tributyl Phosphorotrithioate|Physiol. Plant. (Multiple Languages)51(1): 140-144|1981|10.1111/j.1399-3054.1981.tb00892.x
164146|T||Skene,K.G.M.|Cytokinin-like Properties of the Systemic Fungicide Benomyl|J. Hortic. Sci.47:179-182|1972|10.1080/00221589.1972.11514454
164147|T||Scott,D.C., and J.B. Weber|Herbicide Phytotoxicity as Influenced by Adsorption|Soil Sci.104(3): 151-158|1967|10.1097/00010694-196709000-00002
164148|T||Looney,N.E., and W.P. Cochrane|Relative Effectiveness of, and Residue Declination Values for Dichlorprop, Fenoprop and Naphthalene-Acetic Acid Used to Control Preharvest Drop of McIntosh Apples|Can. J. Plant Sci.61(1): 87-91|1981|10.4141/cjps81-011
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164150|T||Battal,D., A. Hilal, K. Daglioglu, I. Unal, and M.K. Gulmen|Evaluation of Paracetamol Distribution and Stability in Case of Acute Intoxication in Rats|Hum. Exp. Toxicol.32(1): 82-89|2013|10.1177/0960327112456314
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164152|A||Deblois,C.P., K. Dufresne, and P. Juneau|Response to Variable Light Intensity in Photoacclimated Algae and Cyanobacteria Exposed to Atrazine|Aquat. Toxicol.126:77-84|2013|10.1016/j.aquatox.2012.09.005
164153|A||Carlsson,G., J. Patring, J. Kreuger, L. Norrgren, and A. Oskarsson|Toxicity of 15 Veterinary Pharmaceuticals in Zebrafish (Danio rerio) Embryos|Aquat. Toxicol.126:30-41|2013|10.1016/j.aquatox.2012.10.008
164154|A||Eyckmans,M., I. Lardon, C.M. Wood, and G. De Boeck|Physiological Effects of Waterborne Lead Exposure in Spiny Dogfish (Squalus acanthias)|Aquat. Toxicol.126:373-381|2013|10.1016/j.aquatox.2012.09.004
164155|A||Asadpour,Y.A., P.N. Manavi, and M. Baniamam|Evaluating the Bioaccumulation of Nickel and Vanadium and Their Effects on the Growth of Artemia urmiana and A. franciscana|Environ. Monit. Assess.12(1): 183-192|2013|
164156|A||Adams,M.B., P.B.B. Crosbie, and B.F. Nowak|Preliminary Success Using Hydrogen Peroxide to Treat Atlantic Salmon, Salmo salar L., Affected with Experimentally Induced Amoebic Gill Disease (AGD)|J. Fish Dis.35(11): 839-848|2012|10.1111/j.1365-2761.2012.01422.x
164157|A||Bourgeault,A., C. Gourlay-France, S. Ayrault, and M.H. Tusseau-Vuillemin|Bioaccumulation of Waterborne Ni in Dreissena polymorpha:  A Stable Isotope Experiment to Assess the Effect of Zinc, Calcium, and Dissolved Organic Matter|Environ. Toxicol. Chem.31(4): 819-827|2012|10.1002/etc.1755
164158|T||Doddamani,M.B., D. Kashid, U.V. Mummigatti, V.B. Kuloigod, and M.B. Chetti|Effect of Growth Regulators on Physiological and Bio-Chemical Traits and Yield in Sunflower (Helianthus annus L.)|Environ. Ecol.28(1B): 697-702|2010|
164160|T||Blixt,E., A. Djurle, J. Yuen, and A. Olson|Fungicide Sensitivity in Swedish Isolates of Phaeosphaeria nodorum|Plant Pathol.58(4): 655-664|2009|10.1111/j.1365-3059.2009.02041.x
164161|T||Dai,N.V., W. Bessei, and N.H. Quang|The Effects of Sodium Chloride and Potassium Chloride Supplementation in Drinking Water on Performance of Broilers Under Tropical Summer Conditions|Arch. Gefluegelkd.73(1): 41-48|2009|
164162|T||Dai,N.V., W. Bessei, and Z. Nasir|The Effect of Sodium Chloride Supplementation in the Drinking Water on Water and Feed Intake and Egg Quality of Laying Hens Under Cyclic Heat Stress|Arch. Gefluegelkd.73(4): 217-226|2009|
164163|T||Calvo-Polanco,M., M.D. Jones, and J.J. Zwiazek|Effects of pH on NaCl Tolerance of American Elm (Ulmus americana) Seedlings Inoculated with Hebeloma crustuliniforme and Laccaria bicolor|Acta Physiol. Plant.31:515-522|2009|10.1007/s11738-008-0260-5
164164|T||Gorai,M., A.M. Vadel, M. Neffati, and H. Khemira|The Effect of Sodium Chloride Salinity on the Growth, Water Status and Ion Content of Phragmites communis Trin|Pak. J. Biol. Sci.10(13): 2225-2230|2007|10.3923/pjbs.2007.2225.2230
164165|T||Reid,T.C.|Evaluation of Strategies for the Control of Fusarium Crown and Root Rot of Asparagus|M.S. Thesis, Michigan State University, East Lansing, MI:131 p.|2000|
164168|T||Chen,S., M. Chai, Y. Jia, Z. Gao, L. Zhang, and M. Gu|In Vitro Selection of Salt Tolerant Variants Following 60Co gamma Irradiation of Long-Term Callus Cultures of Zoysia matrella [L.] Merr|Plant Cell Tissue Organ Cult.107(3): 493-500|2011|10.1007/s11240-011-9999-2
164169|T||De la Rosa-Mera,C.J., R. Ferrera-Cerrato, A. Alarcon, M. De Jesus Sanchez-Colin, and O.D. Munoz-Muniz|Arbuscular Mycorrhizal Fungi and Potassium Bicarbonate Enhance the Foliar Content of the Vinblastine Alkaloid in Catharanthus roseus|Plant Soil349(1/2): 367-376|2011|10.1007/s11104-011-0883-y
164170|T||Escalante-Perez,M., S. Lautner, U. Nehls, A. Selle, M. Teuber, J.P. Schnitzler, T. Teichmann, P. Fayyaz, W. Hartung, A.|Salt Stress Affects Xylem Differentiation of Grey Poplar (Populus x canescens)|Planta (Multiple Languages)229(2): 299-309|2009|10.1007/s00425-008-0829-7
164171|T||Geilfus,C.M., and K.H. Muhling|Transient Alkalinization in the Leaf Apoplast of Vicia faba L. Depends on NaCl Stress Intensity:  An In Situ Ratio Imaging Study|Plant Cell Environ.35(3): 578-587|2012|10.1111/j.1365-3040.2011.02437.x
164172|T||Geissler,N., S. Hussin, and H.W. Koyro|Elevated Atmospheric CO2 Concentration Enhances Salinity Tolerance in Aster tripolium L.|Planta (Multiple Languages)231(3): 583-594|2010|10.1007/s00425-009-1064-6
164173|T||Grigoriadou,K., and E. Maloupa|Micropropagation and Salt Tolerance of In Vitro Grown Crithmum maritimum L.|Plant Cell Tissue Organ Cult.94(2): 209-217|2008|10.1007/s11240-008-9406-9
164174|T||Li,J., S. Bao, Y. Zhang, X. Ma, M. Mishra-Knyrim, J. Sun, G. Sa, X. Shen, A. Polle, and S. Chen|Paxillus involutus Strains MAJ and NAU Mediate K+/Na+ Homeostasis in Ectomycorrhizal Populus x canescens Under Sodium Chloride Stress|Plant Physiol.159(4): 1771-1786|2012|10.1104/pp.112.195370
164175|T||Lokhande,V.H., T.D. Nikam, and S. Penna|Biochemical, Physiological and Growth Changes in Response to Salinity in Callus Cultures of Sesuvium portulacastrum L.|Plant Cell Tissue Organ Cult.102(1): 17-25|2010|10.1007/s11240-010-9699-3
164176|T||Sanchez,D.H., F.L. Pieckenstain, F. Escaray, A. Erban, U. Kraemer, M.K. Udvardi, and J. Kopka|Comparative Ionomics and Metabolomics in Extremophile and Glycophytic Lotus Species Under Salt Stress Challenge the Metabolic Pre-Adaptation Hypothesis|Plant Cell Environ.34(4): 605-617|2011|10.1111/j.1365-3040.2010.02266.x
164177|A||Subramanyam,R., C. Jolley, B. Thangaraj, S. Nellaepalli, A.N. Webber, and P. Fromme|Structural and Functional Changes of PSI-LHCI Supercomplexes of Chlamydomonas reinhardtii Cells Grown Under High Salt Conditions|Planta (Multiple Languages)231(4): 913-922|2010|10.1007/s00425-009-1097-x
164178|T||Brini,F., I. Amara, K. Feki, M. Hanin, H. Khoudi, and K. Masmoudi|Physiological and Molecular Analyses of Seedlings of Two Tunisian Durum Wheat (Triticum turgidum L. Subsp. Durum [Desf.]) Varieties Showing Contrasting Tolerance to Salt Stress|Acta Physiol. Plant.31:145-154|2009|10.1007/s11738-008-0215-x
164179|T||Cha-Um,S., T. Trakulyingcharoen, P. Smitamana, and C. Kirdmanee|Salt Tolerance in Two Rice Cultivars Differing Salt Tolerant Abilities in Responses to Iso-Osmotic Stress|Aust. J. Crop Sci.3:221-230|2009|
164180|A||Authman,M.M.N., W.T. Abbas, I.M.K. Abumourad, and A.M. Kenawy|Effects of Illegal Cyanide Fishing on Vitellogenin in the Freshwater African Catfish, Clarias gariepinus (Burchell, 1822)|Ecotoxicol. Environ. Saf.91(0): 61-70|2013|10.1016/j.ecoenv.2013.01.006
164181|T||Colmer,T.D., H. Vos, and O. Pedersen|Tolerance of Combined Submergence and Salinity in the Halophytic Stem-Succulent Tecticornia pergranulata|Ann. Bot.103:303-312|2009|10.1093/aob/mcn120
164182|T||De Vos,A.C., R. Broekman, M.P. Groot, and J. Rozema|Ecophysiological Response of Crambe maritima to Airborne and Soil-Borne Salinity|Ann. Bot.105:925-937|2010|10.1093/aob/mcq072
164183|T||De Zelicourt,A., A. Diet, J. Marion, C. Laffont, F. Ariel, M. Moison, O. Zahaf, M. Crespi, V. Gruber, and F. Frugier|Dual Involvement of a Medicago truncatula NAC Transcription Factor in Root Abiotic Stress Response and Symbiotic Nodule Senescence|Plant J.70:220-230|2012|10.1111/j.1365-313X.2011.04859.x
164184|T||D'Souza,M.R., and V.R. Devaraj|Biochemical Responses of Hyacinth Bean (Lablab purpureus) to Salinity Stress|Acta Physiol. Plant.32:341-353|2010|10.1007/s11738-009-0412-2
164185|T||Egamberdieva,D.|Alleviation of Salt Stress by Plant Growth Regulators and IAA Producing Bacteria in Wheat|Acta Physiol. Plant.31:861-864|2009|10.1007/s11738-009-0297-0
164186|T||Herschbach,C., M. Teuber, M. Eiblmeier, B. Ehlting, P. Ache, A. Polle, J.P. Schnitzler, and H. Rennenberg|Changes in Sulphur Metabolism of Grey Poplar (Populus x canescens) Leaves During Salt Stress: a Metabolic Link to Photorespiration|Tree Physiol.30:1161-1173|2010|10.1093/treephys/tpq041
164187|T||Idrees,M., M. Naeem, T. Aftab, M.M.A. Khan, and Moinuddin |Salicylic Acid Mitigates Salinity Stress by Improving Antioxidant Defence System and Enhances Vincristine and Vinblastine Alkaloids Production in Periwinkle [Catharanthus roseus (L.) G. Don]|Acta Physiol. Plant.33(3): 987-999|2011|10.1007/s11738-010-0631-6
164188|T||Islam,S.M.T., R.S. Tammi, R. Malo, M. Amin, M.S. Rahman, S.M. Elias, and Z.I. Seraj|Constitutive Expression of OsNHX1 Under the Promoter Actin1D can Improve the Salt Tolerance and Yield Characteristics of Bangladeshi Rice Binnatoa|Aust. J. Crop Sci.3(6): 329-335|2009|
164189|T||Kaddour,R., S. M'Rah, N. Karray-Bouraoui, C. Lambert, P. Berthomieu, and M. Lachaal|Physiological and Molecular Characterization of Salt Response of Arabidopsis thaliana NOK2 Ecotype|Acta Physiol. Plant.32:503-510|2010|10.1007/s11738-009-0427-8
164190|T||Kaddour,R., O. Baatour, H. Mahmoudi, N. Nasri, M. Zaghdoudi, and M. Lachaal|Salt Tolerance Analysis of Arabidopsis thaliana NOK2 Accession Under Saline Conditions and Potassium Supply|Acta Physiol. Plant.33:2083-2090|2011|10.1007/s11738-011-0747-3
164191|T||Kaddour,R., H. Mahmoudi, O. Baatour, I. Tarchoun, N. Nasri, I. Ben Saleh, P. Berthomieu, M. Gruber, and M. Lachaal|Physiological and Molecular Responses of Two Arabidopsis Accessions to Calcium Amendment and Salt Constraint|Acta Physiol. Plant.34:439-450|2012|10.1007/s11738-011-0840-7
164192|T||Khaldi,A., R. Ben Ammar, S.Y. Woo, N. Akrimi, and E. Zid|Salinity Tolerance of Hydroponically Grown Pinus pinea L. Seedlings|Acta Physiol. Plant.33:765-775|2011|10.1007/s11738-010-0601-z
164193|T||Khedr,A.H.A., M.S. Serag, M.M. Nemat-Alla, A.Z. Abo El-Naga, R.M. Nada, W.P. Quick, and G.M. Abogadallah|Growth Stimulation and Inhibition by Salt in Relation to Na+ Manipulating Genes in Xero-Halophyte Atriplex halimus L.|Acta Physiol. Plant.33:1769-1784|2011|10.1007/s11738-011-0714-z
164194|T||Liu,P., G.D. Yang, H. Li, C.C. Zheng, and C.A. Wu|Overexpression of NHX1s in Transgenic Arabidopsis Enhances Photoprotection Capacity in High Salinity and Drought Conditions|Acta Physiol. Plant.32:81-90|2010|10.1007/s11738-009-0383-3
164195|T||Lv,S., L. Nie, P. Fan, X. Wang, D. Jiang, X. Chen, and Y. Li|Sodium Plays a More Important Role than Potassium and Chloride in Growth of Salicornia europaea|Acta Physiol. Plant.34:503-513|2012|10.1007/s11738-011-0847-0
164196|T||Malik,A.I., J.P. English, and T.D. Colmer|Tolerance of Hordeum marinum Accessions to O2 Deficiency, Salinity and These Stresses Combined|Ann. Bot.103:237-248|2009|10.1093/aob/mcn142
164197|T||Marosz,A.|Effect of Green Waste Compost and Mycorrhizal Fungi on Calcium, Potassium, and Sodium Uptake of Woody Plants Grown Under Salt Stress|Water Air Soil Pollut.223(2): 787-800|2012|10.1007/s11270-011-0902-x
164198|T||Nasir Khan,M., M.H. Siddiqui, F. Mohammad, M. Naeem, and M.M.A. Khan|Calcium Chloride and Gibberellic Acid Protect Linseed (Linum usitatissimum L.) from NaCl Stress by Inducing Antioxidative Defence System and Osmoprotectant Accumulation|Acta Physiol. Plant.32:121-132|2010|10.1007/s11738-009-0387-z
164199|T||Nedjimi,B., and Y. Daoud|Ameliorative Effect of CaCl2 on Growth, Membrane Permeability and Nutrient Uptake in Atriplex halimus Subsp. schweinfurthii Grown at High (NaCl) Salinity|Desalination249(1): 163-166|2009|10.1016/j.desal.2009.01.019
164200|T||Nemat Alla,M.M., A.H.A. Khedr, M.M. Serag, A.Z. Abu-Alnaga, and R.M. Nada|Physiological Aspects of Tolerance in Atriplex halimus L. to NaCl and Drought|Acta Physiol. Plant.33:547-557|2011|10.1007/s11738-010-0578-7
164201|T||Praxedes,S.C., C.F. De Lacerda, T.M. Ferreira, J.T. Prisco, F.M. DaMatta, and E. Gomes-Filho|Salt Tolerance is Unrelated to Carbohydrate Metabolism in Cowpea Cultivars|Acta Physiol. Plant.33:887-896|2011|10.1007/s11738-010-0615-6
164202|T||Qiao,G., R. Zhuo, M. Liu, J. Jiang, H. Li, W. Qiu, L. Pan, S. Lin, X. Zhang, and Z. Sun|"Over-Expression of the Arabidopsis Na+/H+ Antiporter Gene in Populus deltoides CL x P. euramericana CL ""NL895"" Enhances Its Salt Tolerance"|Acta Physiol. Plant.33:691-696|2011|10.1007/s11738-010-0591-x
164203|T||Qu,X.X., Z.Y. Huang, J.M. Baskin, and C.C. Baskin|Effect of Temperature, Light and Salinity on Seed Germination and Radicle Growth of the Geographically Widespread Halophyte Shrub Halocnemum strobilaceum|Ann. Bot.101:293-299|2008|10.1093/aob/mcm047
164204|T||Redondo-Gomez,S., E. Mateos-Naranjo, J. Cambrolle, T. Luque, M.E. Figueroa, and A.J. Davy|Carry-Over of Differential Salt Tolerance in Plants Grown from Dimorphic Seeds of Suaeda splendens|Ann. Bot.102:103-112|2008|10.1093/aob/mcn069
164205|T||Sai Kachout,S., A. Ben Mansoura, K. Jaffel Hamza, J.C. Leclerc, M.N. Rejeb, and Z. Ouerghi|Leaf-Water Relations and Ion Concentrations of the Halophyte Atriplex hortensis in Response to Salinity and Water Stress|Acta Physiol. Plant.33:335-342|2011|10.1007/s11738-010-0552-4
164206|T||Sarkar,R.K., K.R. Mahata, and D.P. Singh|Differential Responses of Antioxidant System and Photosynthetic Characteristics in Four Rice Cultivars Differing in Sensitivity to Sodium Chloride Stress|Acta Physiol. Plant.35:2915-2926|2013|10.1007/s11738-013-1322-x
164207|T||Sorkheh,K., B. Shiran, V. Rouhi, M. Khodambashi, and A. Sofo|Salt Stress Induction of Some Key Antioxidant Enzymes and Metabolites in Eight Iranian Wild Almond Species|Acta Physiol. Plant.34:203-213|2012|10.1007/s11738-011-0819-4
164208|T||Sun,J., S. Dai, R. Wang, S. Chen, N. Li, X. Zhou, C. Lu, X. Shen, X. Zheng, Z. Hu, Z. Zhang, J. Song, and Y. Xu|Calcium Mediates Root K+/Na+ Homeostasis in Poplar Species Differing in Salt Tolerance|Tree Physiol.29:1175-1186|2009|10.1093/treephys/tpp048
164209|T||Tattini,M., and M.L. Traversi|Responses to Changes in Ca2+ Supply in Two Mediterranean Evergreens, Phillyrea latifolia and Pistacia lentiscus, During Salinity Stress and Subsequent Relief|Ann. Bot.102(4): 609-622|2008|10.1093/aob/mcn134
164210|T||Vallejo,A.J., M.J. Yanovsky, and J.F. Botto|Germination Variation in Arabidopsis thaliana Accessions Under Moderate Osmotic and Salt Stresses|Ann. Bot.106:833-842|2010|10.1093/aob/mcq179
164211|T||Li,H., T. Hu, and J. Fu|Identification of Genes Associated with Adaptation to NaCl Toxicity in Perennial Ryegrass (Lolium perenne L.)|Ecotoxicol. Environ. Saf.79:153-162|2012|10.1016/j.ecoenv.2011.12.011
164212|T||Libik-Konieczny,M., R. Konieczny, E. Surowka, I. Slesak, Z. Michalec, P. Rozpadek, and Z. Miszalski|Pathways of ROS Homeostasis Regulation in Mesembryanthemum crystallinum L. Calli Exhibiting Differences in Rhizogenesis|Plant Cell Tissue Organ Cult.110:123-131|2012|10.1007/s11240-012-0136-7
164213|T||Ortega-Amaro,M.A., M. Rodriguez-Kessler, A. Becerra-Flora, and J.F. Jimenez-Bremont|Modulation of Arabidopsis CYCB1 Expression Patterns by Polyamines and Salt Stress|Acta Physiol. Plant.34:461-469|2012|10.1007/s11738-011-0842-5
164214|T||He,Z.Q., C.X. He, Z.B. Zhang, Z.R. Zou, and H.S. Wang|Changes of Antioxidative Enzymes and Cell Membrane Osmosis in Tomato Colonized by Arbuscular mycorrhizae Under NaCl Stress|Colloids Surf. B Biointerfaces59(2): 128-133|2007|10.1016/j.colsurfb.2007.04.023
164215|T||Abdelkader,A.F., H. Aronsson, and C. Sundqvist|Prolonged Salt Stress Alters the Ratios of Protochlorophyllide Spectral Forms in Dark-Grown Wheat (Triticum aestivum) and Influences Chlorophyll a Accumulation Following Irradiation|Acta Physiol. Plant.32:971-978|2010|10.1007/s11738-010-0486-x
164216|T||Abdolzadeh,A., K. Shima, H. Lambers, and K. Chiba|Change in Uptake, Transport and Accumulation of Ions in Nerium oleander (Rosebay) as Affected by Different Nitrogen Sources and Salinity|Ann. Bot.102:735-746|2008|10.1093/aob/mcn156
164217|T||Abrol,E., D. Vyas, and S. Koul|Metabolic Shift from Secondary Metabolite Production to Induction of Anti-Oxidative Enzymes During NaCl Stress in Swertia chirata Buch.-Ham|Acta Physiol. Plant.34:541-546|2012|10.1007/s11738-011-0851-4
164218|T||Attia,H., C. Ouhibi, A. Ellili, N. Msilini, G. Bouzaien, N. Karray, and M. Lachaal|Analysis of Salinity Effects on Basil Leaf Surface Area, Photosynthetic Activity, and Growth|Acta Physiol. Plant.33(3): 823-833|2011|10.1007/s11738-010-0607-6
164219|T||Baatour,O., R. Kaddour, W. Aidi Wannes, M. Lachaal, and B. Marzouk|Salt Effects on the Growth, Mineral Nutrition, Essential Oil Yield and Composition of Marjoram (Origanum majorana)|Acta Physiol. Plant.32:45-51|2010|10.1007/s11738-009-0374-4
164220|T||Newland,P.L., and P. Yates|The Role of Contact Chemoreception in Egg-Laying Behaviour of Locusts|J. Insect Physiol.54:273-285|2008|10.1016/j.jinsphys.2007.09.011
164221|T||Bazihizina,N., T.D. Colmer, and E.G. Barrett-Lennard|Response to Non-Uniform Salinity in the Root Zone of the Halophyte Atriplex nummularia: Growth, Photosynthesis, Water Relations and Tissue Ion Concentrations|Ann. Bot.104:737-745|2009|10.1093/aob/mcp151
164222|T||Tang,M., M. Sheng, H. Chen, and F.F. Zhang|In Vitro Salinity Resistance of Three Ectomycorrhizal Fungi|Soil Biol. Biochem.41(5): 948-953|2009|10.1016/j.soilbio.2008.12.007
164223|T||Stergiopoulos,K., P. Cabrero, S.A. Davies, and J.A.T. Dow|Salty Dog, an SLC5 Symporter, Modulates Drosophila Response to Salt Stress|Physiol. Genomics37:1-11|2009|10.1152/physiolgenomics.90360.2008
164224|T||Ben Hassine,A., M.E. Ghanem, S. Bouzid, and S. Lutts|Abscisic Acid has Contrasting Effects on Salt Excretion and Polyamine Concentrations of an Inland and a Coastal Population of the Mediterranean Xero-Halophyte Species Atriplex halimus|Ann. Bot.104:925-936|2009|10.1093/aob/mcp174
164225|T||Ben Taarit,M., K. Msaada, K. Hosni, and B. Marzouk|Physiological Changes and Essential Oil Composition of Clary Sage (Salvia sclarea L.) Rosette Leaves as Affected by Salinity|Acta Physiol. Plant.33:153-162|2011|10.1007/s11738-010-0532-8
164226|T||Bianco,C., and R. Defez|Medicago truncatula Improves Salt Tolerance when Nodulated by an Indole-3-Acetic Acid-Overproducing Sinorhizobium meliloti Strain|J. Exp. Bot.60(11): 3097-3107|2009|10.1093/jxb/erp140
164227|T||Banaszkiewicz,T., and K. Wysocki|Application of White Mustard (Sinapis alba) Biotest in the Assessment of Environmental Contamination by Glyphosate|Pol. J. Environ. Stud.21(5): 37-42|2012|
164228|T||Bourgou,S., I. Bettaieb, I. Hamrouni, and B. Marzouk|Effect of NaCl on Fatty Acids, Phenolics and Antioxidant Activity of Nigella sativa Organs|Acta Physiol. Plant.34:379-386|2012|10.1007/s11738-011-0836-3
164229|T||Devkota,A., and P.K. Jha|Seed Germination Responses of the Medicinal Herb Centella asiatica|Braz. J. Plant Physiol.22(1): 143-150|2010|10.1590/S1677-04202010000200008
164230|T||Anderson,E.J., J.L. Honegger, and C.A. Porter|Correlation of Shikimate and Glyphosate Concentrations in Glyphosate Treated Field Bindweed and Hemp Dogbane|Proc. South. Weed Sci. Soc.:407-|1985|
164231|T||Baird,D.D., J.M. Rosemond, and V.M. Urrutia|Reducing Antagonism of Glyphosate from Triazine Tank Mixtures|Proc. South. Weed Sci. Soc.38:411-419|1985|
164232|A||Ariole,C.N., and O. Ezevununwo|Acute Toxicity of Dichlorvos on Tropical Freshwater Snail (Pila ovata)|Int. J. Biosci.3(1): 70-75|2013|
164233|T||Chenault,E.W., and A.F. Wiese|Effect of Carrier on Herbicide Toxicity|Proc. South. Weed Sci. Soc.38:501-502|1985|
164234|T||Downs,J.P., and R.D. Voth|Glyphosate and Sulfometuron Methyl Combinations for Control of Herbaceous Weeds in Newly Established Pine Plantations|Proc. South. Weed Sci. Soc.38:181-188|1985|
164235|T||Mota-Cadenas,C., C. Alcaraz-Lopez, M.C. Martinez-Ballesta, and M. Carvajal|How Salinity Affects CO2 Fixation by Horticultural Crops|Hortscience45(12): 1798-1803|2010|10.21273/HORTSCI.45.12.1798
164236|T||Rivelli,A.R., and P. Gherbin|Ion Distribution and Gas Exchange of Hydroponically Grown Sunflower Plants as Affected by Salinity|Ital. J. Agron.1(3): 393-402|2006|10.4081/ija.2006.393
164237|T||Geiger,D.R., S.W. Kapitan, and M.A. Tucci|Glyphosate Inhibits Photosynthesis and Allocation of Carbon to Starch in Sugar Beet Leaves|Plant Physiol.82:468-472|1986|10.1104/pp.82.2.468
164238|T||Kim,S.K., E.Y. Sohn, G.J. Joo, and I.J. Lee|Influence of Jasmonic Acid on Endogenous Gibberellin and Abscisic Acid in Salt-Stressed Chard Plant|J. Environ. Biol.30(3): 333-338|2009|
164239|T||Davis,V.M., G.R. Kruger, S.G. Hallett, P.J. Tranel, and W.G. Johnson|Heritability of Glyphosate Resistance in Indiana Horseweed (Conyza canadensis) Populations|Weed Sci.58(1): 30-38|2010|10.1614/WS-09-055.1
164240|T||Kovacik,J., B. Klejdus, J. Hedbavny, and M. Backor|Salicylic Acid Alleviates NaCl-Induced Changes in the Metabolism of Matricaria chamomilla Plants|Ecotoxicology18(5): 544-554|2009|10.1007/s10646-009-0312-7
164241|T||Davis,V.M., K.D. Gibson, T.T. Bauman, S.C. Weller, and W.G. Johnson|Influence of Weed Management Practices and Crop Rotation on Glyphosate-Resistant Horseweed (Conyza canadensis) Population Dynamics and Crop Yield-Years III and IV|Weed Sci.57(4): 417-426|2009|10.1614/WS-09-006.1
164242|T||Lankadeva,Y.R., R.R. Singh, L.M. Hilliard, K.M. Moritz, and K.M. Denton|Blunted Sodium Excretion in Response to a Saline Load in 5 Year Old Female Sheep Following Fetal Uninephrectomy|PLoS One7(10): 1-10|2012|10.1371/journal.pone.0047528
164243|T||Golobic,M., A. Jemec, D. Drobne, T. Romih, K. Kasemets, and A. Kahru|Upon Exposure to Cu Nanoparticles, Accumulation of Copper in the Isopod Porcellio scaber is Due to the Dissolved Cu Ions Inside the Digestive Tract|Environ. Sci. Technol.46(21): 12112-12119|2012|10.1021/es3022182
164244|T||Van der Geyten,S., N. Buys, J.P. Sanders, E. Decuypere, T.J. Visser, E.R. Kuhn, and V.M. Darras|Acute Pretranslational Regulation of Type III Iodothyronine Deiodinase by Growth Hormone and Dexamethasone in Chicken Embryos|Mol. Cell. Endocrinol.147(1/2): 49-56|1999|10.1016/S0303-7207(98)00218-4
164245|T||Bulcke,R., F. Verstraete, M. Van Himme, and J. Stryckers|Variability of Epilobium ciliatum Rafin (Syn.: E. adenocaulon Hausskn.) (X)|Meded. Fac. Landbouwwet. Rijksuniv. Gent51(2A): 345-353|1986|
164246|T||Dillehay,B.L., and W.S. Curran|Comparison of Herbicide Programs for Weed Control in Glyphosate-Resistant Alfafa|Weed Technol.24(2): 130-138|2010|10.1614/WT-D-09-00039.1
164247|A||Boonstra,H., E.P. Reichman, and P.J. Van den Brink|Effects of the Veterinary Pharmaceutical Ivermectin in Indoor Aquatic Microcosms|Arch. Environ. Contam. Toxicol.60(1): 77-89|2011|10.1007/s00244-010-9526-1
164248|A||Draredja-Beldi,H., and N. Soltani|Laboratory Evaluation of Dimilin on Growth and Glutathione Activity in Mosquitofish, a Non-Target Species|Commun. Agric. Appl. Biol. Sci.68(4a): 299-305|2003|
164249|T||Sima,N.A.K.K., H. Askari, H.H. Mirzaei, and M. Pessarakli|Genotype-Dependent Differential Responses of Three Forage Species to Calcium Supplement in Saline Conditions|J. Plant Nutr.32:579-597|2009|10.1080/01904160802714979
164250|T||Sima,N.A.K.K., S.T. Ahmad, and M. Pessarakli|Comparative Study of Different Salts (Sodium Chloride, Sodium Sulfate, Potassium Chloride, and Potassium Sulfate) on Growth of Forage Species|J. Plant Nutr.36:214-230|2013|10.1080/01904167.2012.739242
164251|T||Slabu,C., C. Zorb, D. Steffens, and S. Schubert|Is Salt Stress of Faba Bean (Vicia faba) Caused by Na+ or Cl- Toxicity?|J. Plant Nutr. Soil Sci.172(5): 644-650|2009|10.1002/jpln.200900052
164252|T||Tahir,M.A., Rahmatullah, T. Aziz, and M. Ashraf|Wheat Genotypes Differed Significantly in Their Response to Silicon Nutrition Under Salinity Stress|J. Plant Nutr.33:1658-1671|2010|10.1080/01904167.2010.496889
164253|T||Musyimi,D.M., G.W. Netondo, and G. Ouma|Growth of Avocado Plants Under Saline Conditions|Int. J. Fruit Sci.7(1): 59-75|2007|10.1300/J492v07n01_06
164254|T||Nhiri,M., N. Bakrim, N. Bakrim, Z. El Hachimi-Messouak, C. Echevarria, and J. Vidal|Posttranslational Regulation of Phosphoenolpyruvate Carboxylase During Germination of Sorghum Seeds:  Influence of NaCl and L-Malate|Plant Sci.151(1): 29-37|2000|10.1016/S0168-9452(99)00191-0
164255|T||Shiyab,S.M., R.A. Shibli, and M.M. Mohammad|Influence of Sodium Chloride Salt Stress on Growth and Nutrient Acquisition of Sour Orange In Vitro|J. Plant Nutr.26(5): 985-996|2003|10.1081/PLN-120020070
164256|T||Tang,W., X. Peng, and R.J. Newton|Enhanced Tolerance to Salt Stress in Transgenic Loblolly Pine Simultaneously Expressing Two Genes Encoding Mannitol-1-Phosphate Dehydrogenase and Glucitol-6-Phosphate Dehydrogenase|Plant Physiol. Biochem.43(2): 139-146|2005|10.1016/j.plaphy.2005.01.009
164257|T||Tobe,K., L. Zhang, and K. Omasa|Alleviatory Effects of Calcium on the Toxicity of Sodium, Potassium and Magnesium Chlorides to Seed Germination in Three Non-Halophytes|Seed Sci. Res.13:47-54|2003|10.1079/SSR2002123
164258|T||He,L., Y. Ban, H. Inoue, N. Matsuda, J. Liu, and T. Moriguchi|Enhancement of Spermidine Content and Antioxidant Capacity in Transgenic Pear Shoots Overexpressing Apple Spermidine Synthase in Response to Salinity and Hyperosmosis|Phytochemistry69(11): 2133-2141|2008|10.1016/j.phytochem.2008.05.015
164259|T||Li,C., B. Fang, C. Yang, D. Shi, and D. Wang|Effects of Various Salt-Alkaline Mixed Stresses on the State of Mineral Elements in Nutrient Solutions and the Growth of Alkali Resistant Halophyte Chloris virgata|J. Plant Nutr.32:1137-1147|2009|10.1080/01904160902943163
164260|T||Li,W., C. Zhang, Q. Lu, X. Wen, and C. Lu|The Combined Effect of Salt Stress and Heat Shock on Proteome Profiling in Suaeda salsa|J. Plant Physiol.168:1743-1752|2011|10.1016/j.jplph.2011.03.018
164261|T||Lopez-Gomez,E., M.A. Botella, J.A. Moreno-Martinez, J.J. Mataix-Beneyto, and M.F. Garcia-Legaz|Effect of Rootstock on Salt Tolerance of Loquat: Growth and Mineral Composition|J. Plant Nutr.33:1324-1337|2010|10.1080/01904167.2010.484093
164262|T||Nasim,M., R.H. Qureshi, T. Aziz, M. Saqib, S. Nawaz, J. Akhtar, M.A. Haq, and S.T. Sahi|Different Eucalyptus Species Show Different Mechanisms of Tolerance to Salinity and Salinity x Hypoxia|J. Plant Nutr.32:1427-1439|2009|10.1080/01904160903092648
164263|T||Nedjimi,B., and Y. Daoud|Effects of Calcium Chloride on Growth, Membrane Permeability and Root Hydraulic Conductivity in Two Atriplex Species Grown at High (Sodium Chloride) Salinity|J. Plant Nutr.32:1818-1830|2009|10.1080/01904160903242342
164264|T||Orlikowska,T., and M. Zawadzka|In Vitro Selection of Anthurium andreanum for Salt Stress Resistance|Acta Hortic.:213-219|2010|10.17660/ActaHortic.2010.855.31
164265|T||Patel,A.D., H. Bhensdadia, and A.N. Pandey|Effect of Salinisation of Soil on Growth, Water Status and General Nutrient Accumulation in Seedlings of Delonix regia (Fabaceae)|Acta Ecol. Sin. (Multiple Languages)29(2): 109-115|2009|10.1016/j.chnaes.2009.05.005
164266|T||Rivelli,A.R., S. De Maria, S. Pizza, and P. Gherbin|Growth and Physiological Response of Hydroponically-Grown Sunflower as Affected by Salinity and Magnesium Levels|J. Plant Nutr.33:1307-1323|2010|10.1080/01904167.2010.484092
164267|T||Azizpour,K., M.R. Shakiba, N.A.K.K. Sima, H. Alyari, M. Mogaddam, E. Esfandiari, and M. Pessarakli|Physiological Response of Spring Durum Wheat Genotypes to Salinity|J. Plant Nutr.33:859-873|2010|10.1080/01904161003654097
164268|T||Carretero,C.L., M. Cantos, J.L. Garcia, R. Azcon, and A. Troncoso|Arbuscular-Mycorrhizal Contributes to Alleviation of Salt Damage in Cassava Clones|J. Plant Nutr.31:959-971|2008|10.1080/01904160802043296
164269|T||Gulden,R.H., P.H. Sikkema, A.S. Hamill, F. Tardif, and C.J. Swanton|Conventional vs. Glyphosate-Resistant Cropping Systems in Ontario:  Weed Control, Diversity, and Yield|Weed Sci.57(6): 665-672|2009|10.1614/WS-09-023.1
164270|T||Grichar,W.J., and B.W. Minton|Using Trifloxysulfuron with Glyphosate for Cotton Weed Control|Weed Technol.21(2): 431-436|2007|10.1614/WT-06-062
164271|T||Don,K.K.G., Y.P. Xia, Z. Zhu, C. Le, and A.W. Wijeratne|Some Deleterious Effects of Long-Term Salt Stress on Growth, Nutrition, and Physiology of Gerbera (Gerbera jamesonii L.) and Potential Indicators of Its Salt Tolerance|J. Plant Nutr.33:2010-2027|2010|10.1080/01904167.2010.512058
164272|T||Green,J.M., T. Hale, M.A. Pagano, J.L. Andreassi II, and S.A. Gutteridge|Response of 98140 Corn with Gat4621 and hra Transgenes to Glyphosate and ALS-Inhibiting Herbicides|Weed Sci.57(2): 142-148|2009|10.1614/WS-08-152.1
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164274|T||Ehsanzadeh,P., M.S. Nekoonam, J.N. Azhar, H. Pourhadian, and S. Shaydaee|Growth, Chlorophyll, and Cation Concentration of Tetraploid Wheat on a Solution High in Sodium Chloride Salt: Hulled Versus Free-Threshing Genotypes|J. Plant Nutr.32:58-70|2009|10.1080/01904160802531019
164276|T||Grantz,D.A., A. Shrestha, and H.B. Vu|Ozone Enhances Adaptive Benefit of Glyphosate Resistance in Horseweed (Conyza canadensis)|Weed Sci.56(4): 549-554|2008|10.1614/WS-07-202.1
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164280|T||Frey,M.N., C.P. Herms, and J. Cardina|Cold Weather Application of Glyphosate for Garlic Mustard (Alliaria petiolata) Control|Weed Technol.21(3): 656-660|2007|10.1614/WT-06-153.1
164281|T||Baldos,O., J. DeFrank, and G. Sakamoto|Effect of Pre and Post Emergence Herbicide Application Timing on Hydroseeded Fimbristylis cymosa R. Br.|Hawaii Conservation Conference, Hawaii in a Changing Climate: Ecological, Cultural, Economic and Policy Challenges and Solutions, Honolulu HI:2 p.|2009|
164282|T||Elmer,W.H.|Does Applying Salt (NaCl) Increase Spear Earliness?|Acta Hortic.:69-73|2008|10.17660/ActaHortic.2008.776.7
164283|T||Frances,A.L., C.R. Adams, and J.G. Norcini|Importance of Seed and Microsite Limitation: Native Wildflower Establishment in Non-Native Pasture|Restor. Ecol.18(6): 944-953|2010|10.1111/j.1526-100X.2009.00629.x
164284|T||Fall,D., D. Diouf, M. Neyra, O. Diouf, and N. Diallo|Physiological and Biochemical Responses of Acacia seyal (Del.) Seedlings Under Salt Stress Conditions|J. Plant Nutr.32:1122-1136|2009|10.1080/01904160902943155
164285|T||Gama,P.B.S., K. Tanaka, A.E. Eneji, A.E. Eltayeb, and K. El Siddig|Salt-Induced Stress Effects on Biomass, Photosynthetic Rate, and Reactive Oxygen Species-Scavenging Enzyme Accumulation in Common Bean|J. Plant Nutr.32:837-854|2009|10.1080/01904160902787925
164286|T||Khayyat,M., S. Khanizadeh, E. Tafazoli, S. Rajaee, B. Kholdebarin, and Y. Emam|Effects of Different Calcium Forms on Gas Exchange Activities, Water Usage and Macronutrient Uptake by Strawberry Plants Under Sodium Chloride Stress|J. Plant Nutr.34:427-435|2011|10.1080/01904167.2011.536882
164287|T||Frances,A.|Establishment and Management of Native Wildflowers on Florida Roadsides and Former Pastures|Ph.D Thesis, University of Florida, Gainesville, FL:129 p.|2008|
164288|T||Ma,Q., R. Bell, and R. Brennan|Moderate Sodium has Positive Effects on Shoots but not Roots of Salt-Tolerant Barley Grown in a Potassium-Deficient Sandy Soil|Crop Pasture Sci.62:972-981|2011|10.1071/CP11162
164289|A||Chen,P.J., W.L. Wu, and K.C.W. Wu|The Zerovalent Iron Nanoparticle Causes Higher Developmental Toxicity than Its Oxidation Products in Early Life Stages of Medaka Fish|Water Res.47:3899-3909|2013|10.1016/j.watres.2012.12.043
164290|T||Mapfumo,E., M.A. Behdani, Z. Rengel, and E.G. Barrett-Lennard|Growth and Physiological Responses of Balansa Clover and Burr Medic to Low Levels of Salinity|Aust. J. Agric. Res.59:605-615|2008|10.1071/AR07235
164291|T||Escorial,C., I. Loureiro, E. Rodriguez-Garcia, and C. Chueca|Population Variability in the Response of Ripgut Brome (Bromus diandrus) to Sulfosulfuron and Glyphosate Herbicides|Weed Sci.59(1): 107-112|2011|10.1614/WS-D-10-00033.1
164292|T||Duke,S.O., R.E. Hoagland, and C.D. Elmore|Effects of Glyphosate on Metabolism of Phenolic Compounds. V. L-alpha Aminooxy-beta-Phenylpropionic Acid and Glyphosate Effects on Phenylalanine Ammonia-lyase in Soybean Seedlings |Plant Physiol.65:17-21|1980|10.1104/pp.65.1.17
164293|T||Nedjimi,B.|Salt Tolerance Strategies of Lygeum spartum L.: A New Fodder Crop for Algerian Saline Steppes|Flora (Multiple Languages)204(10): 747-754|2009|10.1016/j.flora.2008.11.004
164294|T||Ruiz-Lozano,J.M., and R. Azcon|Symbiotic Efficiency and Infectivity of an Autochthonous Arbuscular Mycorrhizal Glomus sp. from Saline Soils and Glomus deserticola Under Salinity|Mycorrhiza10(3): 137-143|2000|10.1007/s005720000075
164295|T||Burpee,L., and R. Latin|Reassessment of Fungicide Synergism for Control of Dollar Spot|Plant Dis.92(4): 601-606|2008|10.1094/PDIS-92-4-0601
164296|T||Tlig,T., M. Gorai, and M. Neffati|Germination Responses of Diplotaxis harra to Temperature and Salinity|Flora (Multiple Languages)203:421-428|2008|10.1016/j.flora.2007.07.002
164297|T||Ding,W., K.N. Reddy, R.M. Zablotowicz, N. Bellaloui, and H.A. Bruns|Physiological Responses of Glyphosate-Resistant and Glyphosate-Sensitive Soybean to Aminomethylphosphonic Acid, a Metabolite of Glyphosate|Chemosphere83(4): 593-598|2011|10.1016/j.chemosphere.2010.12.008
164298|T||Bourgou,S., M.E. Kchouk, A. Bellila, and B. Marzouk|Effect of Salinity on Phenolic Composition and Biological Activity of Nigella sativa|Acta Hortic.:57-60|2010|10.17660/ActaHortic.2010.853.5
164299|T||Hardikar,S.A., N.S. Panchal, and A.N. Pandey|Growth, Water Status and Nutrient Accumulation of Seedlings of Salvadora oleoides (Decne.) in Response to Soil Salinity|Trop. Ecol.52(3): 253-264|2011|
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164301|T||Kernaghan,G., B. Hambling, M. Fung, and D. Khasa|In Vitro Selection of Boreal Ectomycorrhizal Fungi for Use in Reclamation of Saline-Alkaline Habitats|Restor. Ecol.10(1): 43-51|2002|10.1046/j.1526-100X.2002.10105.x
164302|A||Adedeji,O.B., E.J. Durhan, N. Garcia-Reyero, M.D. Kahl, K.M. Jensen, C.A. LaLone, E.A. Makynen, E.J. Perkins, L. Thomas|Short-Term Study Investigating the Estrogenic Potency of Diethylstilbesterol in the Fathead Minnow (Pimephales promelas)|Environ. Sci. Technol.46(14): 7826-7835|2012|10.1021/es301043b
164303|T||Gamalero,E., G. Berta, N. Massa, B.R. Glick, and G. Lingua|Interactions Between Pseudomonas putida UW4 and Gigaspora rosea BEG9 and Their Consequences for the Growth of Cucumber Under Salt-Stress Conditions|J. Appl. Microbiol.108(1): 236-245|2010|10.1111/j.1365-2672.2009.04414.x
164304|T||Canas-Gutierrez,G.P., M.J. Angarita-Velasquez, J.M. Restrepo-Florez, P. Rodriguez, C.X. Moreno, and R. Arango|Analysis of the CYP51 Gene and Encoded Protein in Propiconazole-Resistant Isolates of Mycosphaerella fijiensis|Pest Manag. Sci.65(8): 892-899|2009|10.1002/ps.1770
164305|T||De,A.K., and J.J. Ghosh|Acute Capsaicin Treatment Causes Alteration in Rat Lung Lipids|Med. Sci. Res.16(17): 929-930|1988|
164306|T||Campbell,A.|Development of PBPK Model of Molinate and Molinate Sulfoxide in Rats and Humans|Regul. Toxicol. Pharmacol.53(3): 195-204|2009|10.1016/j.yrtph.2009.01.003
164307|A||Ates,M., J. Daniels, Z. Arslan, I.O. Farah, and H.F. Rivera|Comparative Evaluation of Impact of Zn and ZnO Nanoparticles on Brine Shrimp (Artemia salina) Larvae:  Effects of Particle Size and Solubility on Toxicity|Environ. Sci. Proc. Impacts15:225-233|2013|10.1039/C2EM30540B
164308|T||Ahmad,S.T., N.A.K.K. Sima, and H.H. Mirzaei|Effects of Sodium Chloride on Physiological Aspects of Salicornia persica Growth|J. Plant Nutr.36(3): 401-414|2013|10.1080/01904167.2012.746366
164309|A||Fan,W., X. Yang, Z. Shi, and J. Ren|Effect of Humic Acid on Copper Uptake and Metallothionein Induction in Daphnia magna|Fresenius Environ. Bull.21(8): 2056-2061|2012|
164310|T||Daabees,T.T., M.M. Mohy El-Din, R. Zeitoun, and A.B. Makar|Injectable and Oral Contraceptive Steroids in Relation to Some Neurotransmitters in the Rat Brain|Biochem. Pharmacol.30(12): 1581-1585|1981|10.1016/0006-2952(81)90384-1
164311|T||Das,J., J. Ghosh, P. Manna, and P.C. Sil|Taurine Suppresses Doxorubicin-Triggered Oxidative Stress and Cardiac Apoptosis in Rat Via Up-Regulation of PI3-K/Akt and Inhibition of p53, p38-JNK|Biochem. Pharmacol.81(7): 891-909|2011|10.1016/j.bcp.2011.01.008
164312|T||Garg,N., and P. Singla|The Role of Glomus mosseae on Key Physiological and Biochemical Parameters of Pea Plants Grown in Arsenic Contaminated Soil|Sci. Hortic.143:92-101|2012|10.1016/j.scienta.2012.06.010
164313|A||Eide-Haugmo,I., O.G. Brakstad, K.A. Hoff, E.F. Da Silva, and H.F. Svendsen|Marine Biodegradability and Ecotoxicity of Solvents for CO2-Capture of Natural Gas|Int. J. Greenhouse Gas Control9:184-192|2012|10.1016/j.ijggc.2012.03.006
164314|T||Krishnamurthy,P., K. Ranathunge, R. Franke, H.S. Prakash, L. Schreiber, and M.K. Mathew|The Role of Root Apoplastic Transport Barriers in Salt Tolerance of Rice (Oryza sativa L.)|Planta (Multiple Languages)230:119-134|2009|10.1007/s00425-009-0930-6
164315|T||Janz,D., S. Lautner, H. Wildhagen, K. Behnke, J.P. Schnitzler, H. Rennenberg, J. Fromm, and A. Polle|Salt Stress Induces the Formation of a Novel Type of 'Pressure Wood' in Two Populus Species|New Phytol.194:129-141|2012|10.1111/j.1469-8137.2011.03975.x
164316|T||Davies,A.G., R.I. Friedberg, H. Gupta, C.L. Chan, K.L. Shelton, and J.C. Bettinger|Different Genes Influence Toluene- and Ethanol-Induced Locomotor Impairment in C. elegans|Drug Alcohol Depend.122(1/2): 47-54|2012|10.1016/j.drugalcdep.2011.08.030
164317|T||Chen,X., H. Han, P. Jiang, L. Nie, H. Bao, P. Fan, S. Lv, J. Feng, and Y. Li|Transformation of beta-Lycopene Cyclase Genes from Salicornia europaea and Arabidopsis Conferred Salt Tolerance in Arabidopsis and Tobacco|Plant Cell Physiol.52(5): 909-921|2011|10.1093/pcp/pcr043
164318|T||Dirican,E.K., and Y. Kalender|Dichlorvos-Induced Testicular Toxicity in Male Rats and the Protective Role of Vitamins C and E|Exp. Toxicol. Pathol.64(7/8): 821-830|2012|10.1016/j.etp.2011.03.002
164319|T||Athar,H.R., A. Khan, and M. Ashraf|Inducing Salt Tolerance in Wheat by Exogenously Applied Ascorbic Acid Through Different Modes|J. Plant Nutr.32:1799-1817|2009|10.1080/01904160903242334
164320|T||Chauhan,B.S., and D.E. Johnson|Seed Germination and Seedling Emergence of Synedrella (Synedrella nodiflora) in a Tropical Environment|Weed Sci.57:36-42|2009|10.1614/WS-08-015.1
164321|T||Ahmed,F.R.S., I.J. Alexander, M. Mwinyihija, and K. Killham|Effect of Arsenic Contaminated Irrigation Water on Lens culinaris L. and Toxicity Assessment Using Lux Marked Biosensor|J. Environ. Sci.24(6): 1106-1116|2012|10.1016/S1001-0742(11)60898-X
164322|T||Austin,C.A., T.H. Umbreit, K.M. Brown, D.S. Barber, B.J. Dair, S. Francke-Carroll, A. Feswick, M.A. Saint-Louis, H. Hik|Distribution of Silver Nanoparticles in Pregnant Mice and Developing Embryos|Nanotoxicology6(8): 912-922|2012|10.3109/17435390.2011.626539
164323|T||Wankhade,S.D., A. Bahaji, I. Mateu-Andres, and M.J. Cornejo|Phenotypic Indicators of NaCl Tolerance Levels in Rice Seedlings: Variations in Development and Leaf Anatomy|Acta Physiol. Plant.32(6): 1161-1169|2010|10.1007/s11738-010-0511-0
164324|T||Almeida,V.C., F.F. Sodre, A.M.M. Vargas, L. Bukman, A.C. Martins, J.C.G. Moraes, A.C.S. Da Costa, and E. Lenzi|Phytotoxicity and Distribution of Copper in Tropical Soil Amended with Sewage Sludge and Copper Sulfate|Chem. Spec. Bioavail.24(2): 97-104|2012|10.3184/095422912X13334505546124
164325|T||Al-Taisan,W.A., A.A. Al-Qarawi, and M.S. Alsubiee|Effect of Water Stress by Polyethylene Glycol 8000 and Sodium Chloride on Germination of Ephedra alata Decne Seeds|Saudi J. Biol. Sci.17(3): 253-257|2010|10.1016/j.sjbs.2010.04.011
164326|T||Zhu,H., G.H. Ding, K. Fang, F.G. Zhao, and P. Qin|New Perspective on the Mechanism of Alleviating Salt Stress by Spermidine in Barley Seedlings|Plant Growth Regul.49(2/3): 147-156|2006|10.1007/s10725-006-9004-y
164327|T||Theriappan,P., A.K. Gupta, and P. Dhasarathan|Accumulation of Proline Under Salinity and Heavy Metal Stress in Cauliflower Seedlings|J. Appl. Sci. Environ. Manag.15(2): 251-255|2011|10.4314/jasem.v15i2.68497
164328|T||Williams,C.G.|Long-Distance Pine Pollen Still Germinates After Meso-Scale Dispersal|Am. J. Bot.97(5): 1-10|2010|10.3732/ajb.0900255
164329|T||Sheng,M., M. Tang, F. Zhang, and Y. Huang|Influence of Arbuscular Mycorrhiza on Organic Solutes in Maize Leaves Under Salt Stress|Mycorrhiza21(5): 423-430|2011|10.1007/s00572-010-0353-z
164330|T||Yuan,K., A.M. Rashotte, and J.W. Wysocka-Diller|ABA and GA Signaling Pathways Interact and Regulate Seed Germination and Seedling Development Under Salt Stress|Acta Physiol. Plant.33:261-271|2011|10.1007/s11738-010-0542-6
164331|T||Cabidoche,Y.M., and M. Lesueur-Jannoyer|Contamination of Harvested Organs in Root Crops Grown on Chlordecone-Polluted Soils|Pedosphere22(4): 562-571|2012|10.1016/S1002-0160(12)60041-1
164332|T||Ralphs,M.H., L. Woolsey, and J.E. Bowns|Mechanism by Which Ammonium Fertilizers Kill Tall Larkspur|J. Range Manag.56(5): 524-528|2003|10.2307/4003845
164333|T||Zhou,Y., Y. Chen, K.T. Yamamoto, J. Duan, and C. Tian|Sequence and Expression Analysis of the Arabidopsis IQM Family|Acta Physiol. Plant.32:191-198|2010|10.1007/s11738-009-0398-9
164334|T||Aguin,O., J.P. Mansilla, and M.J. Sainz|In Vitro Selection of an Effective Fungicide Against Armillaria mellea and Control of White Root Rot of Grapevine in the Field|Pest Manag. Sci.62(3): 223-228|2006|10.1002/ps.1149
164335|T||Arora,M., A. Kaushik, N. Rani, and C.P. Kaushik|Effect of Cyanobacterial Exopolysaccharides on Salt Stress Alleviation and Seed Germination|J. Environ. Biol.31:701-704|2010|
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164337|T||Elfeky,S.S., M.E.H. Osman, S.M. Hamada, and A.M. Hasan|Effect of Salinity and Drought on Growth Criteria and Biochemical Analysis of Catharanthus roseus Shoot|Int. J. Bot.3(2): 202-207|2007|10.3923/ijb.2007.202.207
164338|T||Del Bello,F., E. Diamanti, M. Giannella, V. Mammoli, C. Marchioro, L. Mattioli, F. Titomanlio, A. Piergentili, W. Quagl|Low Doses of Allyphenyline and Cyclomethyline, Effective Against Morphine Dependence, Elicit an Antidepressant-like Effect|ACS Med. Chem. Lett.3(7): 535-539|2012|10.1021/ml300064v
164339|T||Eyidogan,F., and M.T. Oz|Effect of Salinity on Antioxidant Responses of Chickpea Seedlings|Acta Physiol. Plant.29(5): 485-493|2007|10.1007/s11738-007-0059-9
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164341|T||Gapinska,M., M. Sklodowska, and B. Gabara|Effect of Short- and Long-Term Salinity on the Activities of Antioxidative Enzymes and Lipid Peroxidation in Tomato Roots|Acta Physiol. Plant.30(1): 11-18|2008|10.1007/s11738-007-0072-z
164342|T||Cesur,A., and S. Tabur|Chromotoxic Effects of Exogenous Hydrogen Peroxide (H2O2) in Barley Seeds Exposed to Salt Stress|Acta Physiol. Plant.33(3): 705-709|2011|10.1007/s11738-010-0594-7
164343|T||Akbari,G.A., M. Hojati, S.A.M. Modarres-Sanavy, and F. Ghanati|Exogenously Applied Hexaconazole Ameliorates Salinity Stress by Inducing an Antioxidant Defense System in Brassica napus L. Plants|Pestic. Biochem. Physiol.100(3): 244-250|2011|10.1016/j.pestbp.2011.04.008
164344|T||Amiri,A., H. Scherm, P.M. Brannen, and G. Schnabel|Laboratory Evaluation of Three Rapid, Agar-Based Assays to Assess Fungicide Sensitivity in Monilinia fructicola|Plant Dis.92(3): 415-420|2008|10.1094/PDIS-92-3-0415
164345|T||Arshi,A., A. Ahmad, I.M. Aref, and M. Iqbal|Effect of Calcium Against Salinity-Induced Inhibition in Growth, Ion Accumulation and Proline Contents in Cichorium intybus L|J. Environ. Biol.31:939-944|2010|
164346|T||Arshi,A., A. Ahmad, I.M. Aref, and M. Iqbal|Comparative Studies on Antioxidant Enzyme Action and Ion Accumulation in Soybean Cultivars Under Salinity Stress|J. Environ. Biol.33:9-20|2012|
164347|T||Bauddh,K., and R.P. Singh|Growth, Tolerance Efficiency and Phytoremediation Potential of Ricinus communis (L.) and Brassica juncea (L.) in Salinity and Drought Affected Cadmium Contaminated Soil|Ecotoxicol. Environ. Saf.85:13-22|2012|10.1016/j.ecoenv.2012.08.019
164348|T||Gabrijel,O., R. Davor, R. Zed, R. Marija, and Z. Monika|Cadmium Accumulation by Muskmelon Under Salt Stress in Contaminated Organic Soil|Sci. Total Environ.407(7): 2175-2182|2009|10.1016/j.scitotenv.2008.12.032
164349|T||Ferrari,F., and G. Baggio|Influence of Cimetidine, Ranitidine and Imidazole on the Behavioral Effects of (+/-) N-N-Propylnorapomorphine in Male Rats|Psychopharmacology85(2): 197-200|1985|10.1007/BF00428413
164351|T||Ahmad,M.S.A., M. Ashraf, and Q. Ali|Soil Salinity as a Selection Pressure is a Key Determinant for the Evolution of Salt Tolerance in Blue Panicgrass (Panicum antidotale Retz.)|Flora (Multiple Languages)205:37-45|2010|10.1016/j.flora.2008.12.002
164352|T||Al Sherif,E.A.|Melilotus indicus (L.) all., a Salt-Tolerant Wild Leguminous Herb with High Potential for Use as a Forage Crop in Salt-Affected Soils|Flora (Multiple Languages)204:737-746|2009|10.1016/j.flora.2008.10.004
164353|T||Baron,A., A. Riesselmann, and M.J. Fregly|Effect of Chronic Treatment with Clonidine and Spironolactone on Cold-Induced Elevation of Blood Pressure|Pharmacology43(4): 173-186|1991|10.1159/000138844
164354|T||Fagervall,I., and S.B. Ross|Failure to Detect any Transport of the Irreversible Monoamine Oxidase Inhibitor N-Cyclopropyl-4-Chloroamphetamine by the Carrier of 5-Hydroxytryptamine in the Brain of the Rat In Vivo|Neuropharmacology25(8): 911-913|1986|10.1016/0028-3908(86)90018-3
164355|T||Britt,J.H., K.L. Esbenshade, and K. Heller|Responses of Seasonally Anestrous Gilts and Weaned Primiparous Sows to Treatment with Pregnant Mare's Serum Gonadotropin and Altrenogest|Theriogenology26(6): 697-707|1986|10.1016/0093-691X(86)90001-4
164356|T||Cooke,R.G., and K.M. Benhaj|A Possible Role for Testosterone During Luteolysis in the Ewe|Res. Vet. Sci.45(2): 222-224|1988|10.1016/S0034-5288(18)30935-4
164357|T||Adriaens,E., and J.P. Remon|Gastropods as an Evaluation Tool for Screening the Irritating Potency of Absorption Enhancers and Drugs|Pharm. Res.16(8): 1240-1244|1999|10.1023/A:1014801714590
164358|T||Donaldson,I.A., I.C. Hart, and R.J. Heitzman|Growth Hormone, Insulin, Prolactin and Total Thyroxine in the Plasma of Sheep Implanted with the Anabolic Steroid Trenbolone Acetate Alone or with Oestradiol|Res. Vet. Sci.30(1): 7-13|1981|10.1016/S0034-5288(18)32598-0
164359|T||Eilts,B.E., D.L. Paccamonti, G. Hosgood, R.C. Causey, and J.L. Milliken|The Use of Ally-Trenbolone as a Progestational Agent to Maintain Pregnancy in Ovariectomized Bitches|Theriogenology42(7): 1237-1245|1994|10.1016/0093-691X(94)90872-9
164360|T||Ake-Lopeza,R., J.C. Segura-Correa, and J. Quintal-Franco|Effect of Flunixin Meglumine on the Corpus Luteum and Possible Prevention of Embryonic Loss in Pelibuey Ewes|Small Ruminant Res.59(1): 83-87|2005|10.1016/j.smallrumres.2004.11.008
164361|T||Coyle,P., J.C. Philcox, and A.M. Rofe|Metallothionein-Null Mice Absorb Less Zn from an Egg-White Diet, but a Similar Amount from Solutions, Although with Altered Intertissue Zn Distribution|J. Nutr.129(2): 372-379|1999|10.1093/jn/129.2.372
164362|T||Dalhoff,K., H. Laursen, K. Bangert, H.E. Poulsen, M.E. Anderson, N. Grunnet, and N. Tygstrup|Autoprotection in Acetaminophen Intoxication in Rats: The Role of Liver Regeneration|Pharmacol. Toxicol.88(3): 135-141|2001|10.1034/j.1600-0773.2001.d01-94.x
164363|T||Ashraf,M.A., M. Ashraf, and M. Shahbaz|Growth Stage-Based Modulation in Antioxidant Defense System and Proline Accumulation in Two Hexaploid Wheat (Triticum aestivum L.) Cultivars Differing in Salinity Tolerance|Flora (Multiple Languages)207:388-397|2012|10.1016/j.flora.2012.03.004
164364|T||Ayala-Astorga,G.I., L. Alcaraz-Melendez, F.P. Ayala, and A.E. Castellanos|Effect of Sodium Chloride Stress in Paulownia imperialis (Siebold & Zuccarini) and Paulownia fortunei (Seemann and Hemsley) Plants Growing In Vitro|Agrochimica53:65-78|2009|
164365|T||Barzgar,A.B.|The Effects of some Environmental Stresses on the Stimulation of Germination of Hyssop (Hyssopus officinalis)|Acta Hortic.:51-59|2008|10.17660/ActaHortic.2008.771.6
164366|T||Cartmill,A.D., L.A. Valdez-Aguilar, D.L. Cartmill, A. Volder, and A. Alarcon|Arbuscular Mycorrhizal Colonization does not Alleviate Sodium Chloride-Salinity Stress in Vinca [Catharanthus roseus (L.) G. Don]|J. Plant Nutr.36:164-178|2013|10.1080/01904167.2012.738275
164367|T||Conesa,E., M.J. Vicente, J.J. Martinez-Sanchez, M. Munuera, and J.A. Franco|Germination of Crithmum maritimum Under Saline Conditions|Acta Hortic.:115-119|2008|10.17660/ActaHortic.2008.782.11
164368|T||Kumar,V., V. Shriram, T.D. Nikam, N. Jawali, and M.G. Shitole|Sodium Chloride-Induced Changes in Mineral Nutrients and Proline Accumulation in Indica Rice Cultivars Differing in Salt Tolerance|J. Plant Nutr.31:1999-2017|2008|10.1080/01904160802403466
164369|T||Manousaki,E., F. Kokkali, and N. Kalogerakis|Influence of Salinity on Lead and Cadmium Accumulation by the Salt Cedar (Tamarix smyrnensis Bunge)|J. Chem. Technol. Biotechnol.84(6): 877-883|2009|10.1002/jctb.2177
164370|T||Mateos-Naranjo,E., S. Redondo-Gomez, L. Andrades-Moreno, and A.J. Davy|Growth and Photosynthetic Responses of the Cordgrass Spartina maritima to CO2 Enrichment and Salinity|Chemosphere81(6): 725-731|2010|10.1016/j.chemosphere.2010.07.047
164371|T||Paz,R.C., R.A. Rocco, H. Reinoso, A.B. Menendez, F.L. Pieckenstain, and O.A. Ruiz|Comparative Study of Alkaline, Saline, and Mixed Saline-Alkaline Stresses with Regard to Their Effects on Growth, Nutrient Accumulation, and Root Morphology of Lotus tenuis|J. Plant Growth Regul.31(3): 448-459|2012|10.1007/s00344-011-9254-4
164372|T||Qin,J., W.Y. Dong, K.N. He, J. Chen, J. Liu, and Z.L. Wang|Physiological Responses to Salinity in Silver Buffaloberry (Shepherdia argentea) Introduced to Qinghai High-Cold and Saline Area, China|Photosynthetica (Praha)48(1): 51-58|2010|10.1007/s11099-010-0008-5
164373|T||Reid,T.C., M.K. Hausbeck, and K. Kizilkaya|Effects of Sodium Chloride on Commercial Asparagus and of Alternate Forms of Chloride Salt on Fusarium Crown and Root Rot|Plant Dis.85(12): 1271-1275|2001|10.1094/PDIS.2001.85.12.1271
164374|T||Robert,O.E., and O.A. Ulamen|Response of Fluted Pumpkin (Telfairia occidentalis Hook F.) to Sodium Chloride (NaCl) Application|Agric. J.6(6): 288-293|2011|10.3923/aj.2011.288.293
164375|T||Rubio,J.S., F. Rubio, V. Martinez, and F. Garcia-Sanchez|Amelioration of Salt Stress by Irrigation Management in Pepper Plants Grown in Coconut Coir Dust|Agric. Water Manag.97(10): 1695-1702|2010|10.1016/j.agwat.2010.05.026
164376|T||Goodrich,B.A., and W.R. Jacobi|Foliar Damage, Ion Content, and Mortality Rate of Five Common Roadside Tree Species Treated with Soil Applications of Magnesium Chloride|Water Air Soil Pollut.223(2): 847-862|2012|10.1007/s11270-011-0907-5
164377|T||Ali,S., F. Zeng, S. Cai, B. Qiu, and G. Zhang|The Interaction of Salinity and Chromium in the Influence of Barley Growth and Oxidative Stress|Plant Soil Environ.57(4): 153-159|2011|10.17221/335/2010-PSE
164378|T||Anjum,M.A.|Response of Cleopatra Mandarin Seedlings to a Polyamine-Biosynthesis Inhibitor Under Salt Stress|Acta Physiol. Plant.32(5): 951-959|2010|10.1007/s11738-010-0483-0
164379|T||Ashraf,M., and N. Parveen|Photosynthetic Parameters at the Vegetative Stage and During Grain Development of Two Hexaploid Wheat Cultivars Differing in Salt Tolerance|Biol. Plant. (Praha)45(3): 401-407|2002|10.1023/A:1016221801887
164380|T||Ben Amor,N., W. Megdiche, A. Jimenez, F. Sevilla, and C. Abdelly|The Effect of Calcium on the Antioxidant Systems in the Halophyte Cakile maritima Under Salt Stress|Acta Physiol. Plant.32(3): 453-461|2010|10.1007/s11738-009-0420-2
164381|T||Downton,W.J.S., and E. Torokfalvy|Effect of Sodium Chloride on the Photosynthesis of Aeluropus litoralis, a Halophytic Grass|Z. Pflanzenphysiol. (Multiple Languages)75:143-150|1975|10.1016/S0044-328X(75)80110-3
164382|T||Boonsaner,M., and D.W. Hawker|Remediation of Saline Soil from Shrimp Farms by Three Different Plants Including Soybean (Glycine max (L.) Merr.)|J. Environ. Sci. Health Part A Environ. Sci. Eng.47(4): 558-564|2012|
164383|T||Zhang,B.L., S.H. Shang, H.T. Zhang, Z. Jabeen, and G.P. Zhang|Sodium Chloride Enhances Cadmium Tolerance Through Reducing Cadmium Accumulation and Increasing Anti-Oxidative Enzyme Activity in Tobacco|Environ. Toxicol. Chem.32(6): 1420-1425|2013|10.1002/etc.2183
164384|T||Xie,Y., T. Ling, Y. Han, K. Liu, Q. Zheng, L. Huang, X. Yuan, Z. He, B. Hu, L. Fang, Z. Shen, Q. Yang, and W. Shen|Carbon Monoxide Enhances Salt Tolerance by Nitric Oxide-Mediated Maintenance of Ion Homeostasis and Up-Regulation of Antioxidant Defence in Wheat Seedling Roots|Plant Cell Environ.31:1864-1881|2008|10.1111/j.1365-3040.2008.01888.x
164385|T||Correia,P.J., F. Gama, M. Pestana, and M.A. Martins-Loucao|Tolerance of Young (Ceratonia siliqua L.) Carob Rootstock to NaCl|Agric. Water Manag.97(6): 910-916|2010|10.1016/j.agwat.2010.01.022
164386|T||Croser,C., S. Renault, J. Franklin, and J. Zwiazek|The Effect of Salinity on the Emergence and Seedling Growth of Picea mariana, Picea glauca, and Pinus banksiana|Environ. Pollut.115(1): 9-16|2001|10.1016/S0269-7491(01)00097-5
164387|T||Fisarakis,I., K. Chartzoulakis, and D. Stavrakas|Response of Sultana Vines (V. vinifera L.) on Six Rootstocks to NaCl Salinity Exposure and Recovery|Agric. Water Manag.51(1): 13-27|2001|10.1016/S0378-3774(01)00115-9
164388|T||Orlovsky,N.S., U.N. Japakova, I. Shulgina, and S. Volis|Comparative Study of Seed Germination and Growth of Kochia prostrata and Kochia scoparia (Chenopodiaceae) Under Salinity|J. Arid Environ.75(6): 532-537|2011|10.1016/j.jaridenv.2011.01.014
164389|T||Gorai,M., and M. Neffati|Osmotic Adjustment, Water Relations and Growth Attributes of the Xero-Halophyte Reaumuria vermiculata L. (Tamaricaceae) in Response to Salt Stress|Acta Physiol. Plant.33(4): 1425-1433|2011|10.1007/s11738-010-0677-5
164390|T||Rahman,M.M., M.A. Rahman, T. Maki, and H. Hasegawa|Phytotoxicity of Arsenate and Salinity on Early Seedling Growth of Rice (Oryza sativa L.): A Threat to Sustainable Rice Cultivation in South and South-East Asia|Bull. Environ. Contam. Toxicol.88(5): 695-702|2012|10.1007/s00128-012-0580-4
164391|T||Laurie,S., K.A. Feeney, F.J.M. Maathuis, P.J. Heard, S.J. Brown, and R.A. Leigh|A Role for HKT1 in Sodium Uptake by Wheat Roots|Plant J.32(2): 139-149|2002|10.1046/j.1365-313X.2002.01410.x
164392|T||Rouifed,S., C. Byczek, D. Laffray, and F. Piola|Invasive Knotweeds are Highly Tolerant to Salt Stress|Environ. Manag.50:1027-1034|2012|10.1007/s00267-012-9934-2
164393|T||Monteiro,C.C., R.F. Carvalho, P.L. Gratao, G. Carvalho, T. Tezotto, L.O. Medici, L.E.P. Peres, and R.A. Azevedo|Biochemical Responses of the Ethylene-Insensitive Never Ripe Tomato Mutant Subjected to Cadmium and Sodium Stresses|Environ. Exp. Bot.71(2): 306-320|2011|10.1016/j.envexpbot.2010.12.020
164394|T||Meloni,D.A., M.R. Gulotta, and C.A. Martinez|Salinity Tolerance in Schinopsis quebracho colorado: Seed Germination, Growth, Ion Relations and Metabolic Responses|J. Arid Environ.72(10): 1785-1792|2008|10.1016/j.jaridenv.2008.05.003
164395|T||Liang,M., V. Haroldsen, X. Cai, and Y. Wu|Expression of a Putative Laccase Gene, ZmLAC1, in Maize Primary Roots Under Stress|Plant Cell Environ.29(5): 746-753|2006|10.1111/j.1365-3040.2005.01435.x
164396|T||Mane,A.V., B.A. Karadge, and J.S. Samant|Salt Stress Induced Alteration in Growth Characteristics of a Grass Pennisetum alopecuroides|J. Environ. Biol.32(6): 753-758|2011|
164397|T||Guma,I.R., M.A. Padron-Mederos, A. Santos-Guerra, and J.A. Reyes-Betancort|Effect of Temperature and Salinity on Germination of Salsola vermiculata L. (Chenopodiaceae) from Canary Islands|J. Arid Environ.74(6): 708-711|2010|10.1016/j.jaridenv.2009.10.001
164398|T||Guo,Q., L. Meng, P. Mao, and X. Tian|Role of Silicon in Alleviating Salt-Induced Toxicity in White Clover|Bull. Environ. Contam. Toxicol.91(2): 213-216|2013|10.1007/s00128-013-1034-3
164399|T||Gulzar,S., and M.A. Khan|Alleviation of Salinity-Induced Dormancy in Perennial Grasses|Biol. Plant. (Praha)45(4): 617-619|2002|10.1023/A:1022352012012
164400|T||Hu,T., H.Y. Li, X.Z. Zhang, H.J. Luo, and J.M. Fu|Toxic Effect of NaCl on Ion Metabolism, Antioxidative Enzymes and Gene Expression of Perennial Ryegrass|Ecotoxicol. Environ. Saf.74(7): 2050-2056|2011|10.1016/j.ecoenv.2011.07.013
164401|T||Krishnamurthy,P., K. Ranathunge, S. Nayak, L. Schreiber, and M.K. Mathew|Root Apoplastic Barriers Block Na+ Transport to Shoots in Rice (Oryza sativa L.)|J. Exp. Bot.62(12): 4215-4228|2011|10.1093/jxb/err135
164402|T||Lazarus,B.E., J.H. Richards, P.E. Gordon, L.R. Oki, and C.S. Barnes|Plasticity Tradeoffs in Salt Tolerance Mechanisms Among Desert Distichlis spicata Genotypes|Funct. Plant Biol.38:187-198|2011|10.1071/FP10192
164403|T||Lisa,L.A., S.M. Elias, M.S. Rahman, S. Shahid, T. Iwasaki, A.K.M.M. Hasan, K. Kosuge, Y. Fukami, and Z.I. Seraj|Physiology and Gene Expression of the Rice Landrace Horkuch Under Salt Stress|Funct. Plant Biol.38:282-292|2011|10.1071/FP10198
164404|T||Ma,Q., L.J. Yue, J.L. Zhang, G.Q. Wu, A.K. Bao, and S.M. Wang|Sodium Chloride Improves Photosynthesis and Water Status in the Succulent Xerophyte Zygophyllum xanthoxylum|Tree Physiol.32:4-13|2012|10.1093/treephys/tpr098
164405|A||Noble,W.J., R.R. Cocks, J.O. Harris, and K. Benkendorff|Application of Anaesthetics for Sex Identification and Bioactive Compound Recovery from Wild Dicathais orbita|J. Exp. Mar. Biol. Ecol.380(1/2): 53-60|2009|10.1016/j.jembe.2009.09.006
164406|T||Pandolfi,C., I. Pottosin, T. Cuin, S. Mancuso, and S. Shabala|Specificity of Polyamine Effects on NaCl-Induced Ion Flux Kinetics and Salt Stress Amelioration in Plants|Plant Cell Physiol.51(3): 422-434|2010|10.1093/pcp/pcq007
164407|T||Parida,A.K., and B. Jha|Antioxidative Defense Potential to Salinity in the Euhalophyte Salicornia brachiata|J. Plant Growth Regul.29:137-148|2010|10.1007/s00344-009-9129-0
164408|T||Qiu,L., D. Wu, S. Ali, S. Cai, F. Dai, X. Jin, F. Wu, and G. Zhang|Evaluation of Salinity Tolerance and Analysis of Allelic Function of HvHKT1 and HvHKT2 in Tibetan Wild Barley|Theor. Appl. Genet.122:695-703|2011|10.1007/s00122-010-1479-2
164409|T||Quinet,M., A. Ndayiragije, I. Lefevre, B. Lambillotte, C.C. Dupont-Gillain, and S. Lutts|Putrescine Differently Influences the Effect of Salt Stress on Polyamine Metabolism and Ethylene Synthesis in Rice Cultivars Differing in Salt Resistance|J. Exp. Bot.61(10): 2719-2733|2010|10.1093/jxb/erq118
164410|T||Redondo-Gomez,S., L. Andrades-Moreno, E. Mateos-Naranjo, R. Parra, J. Valera-Burgos, and R. Aroca|Synergic Effect of Salinity and Zinc Stress on Growth and Photosynthetic Responses of the Cordgrass, Spartina densiflora|J. Exp. Bot.62(15): 5521-5530|2011|10.1093/jxb/err234
164411|T||Rubio,M.C., P. Bustos-Sanmamed, M.R. Clemente, and M. Becana|Effects of Salt Stress on the Expression of Antioxidant Genes and Proteins in the Model Legume Lotus japonicus|New Phytol.181:851-859|2009|10.1111/j.1469-8137.2008.02718.x
164412|T||Salam,A., Z. Ali, and M. Aslam|Sodium Chloride Tolerance in Rice (Oryza sativa L.) at Early Seedling Growth: Genotypic Variability, Identification and Selection|Pak. J. Bot.43(6): 2701-2705|2011|
164413|T||Sengupta,S., and A.L. Majumder|Insight into the Salt Tolerance Factors of a Wild Halophytic Rice, Porteresia coarctata: a Physiological and Proteomic Approach|Planta (Multiple Languages)229:911-929|2009|10.1007/s00425-008-0878-y
164414|T||Wang,S., and Q. Zhang|Responses of Creeping Bentgrass to Salt Stress During In Vitro Germination|Hortscience45(11): 1747-1750|2010|10.21273/HORTSCI.45.11.1747
164415|T||Wen,H., X. Cao, Z. Gu, J. Tang, and Y. Han|Effects of Components in the Culture Solution on Peptides Accumulation During Germination of Brown Rice|Eur. Food Res. Technol.228:959-967|2009|10.1007/s00217-009-1011-6
164416|T||Anastacio,A., and I.S. Carvalho|Accumulation of Fatty Acids in Purslane Grown in Hydroponic Salt Stress Conditions|Int. J. Food Sci. Nutr.64(2): 235-242|2013|10.3109/09637486.2012.713915
164417|T||Vicente,M.J., E. Conesa, J. Alvarez-Rogel, J.A. Franco, and J.J. Martinez-Sanchez|Relationships Between Salt Type and Seed Germination in Three Plant Species Growing in Salt Marsh Soils of Semi-Arid Mediterranean Environments|Arid Land Res. Manag.23:103-114|2009|10.1080/15324980902813559
164418|T||Xu,F., D.W. Zhang, F. Zhu, H. Tang, X. Lv, J. Cheng, H.F. Xie, and H.H. Lin|A Novel Role for Cyanide in the Control of Cucumber (Cucumis sativus L.) Seedlings Response to Environmental Stress|Plant Cell Environ.35(11): 1983-1997|2012|10.1111/j.1365-3040.2012.02531.x
164419|T||Yu,X.Z., F. Li, and K. Li|A Possible New Mechanism Involved in Ferro-Cyanide Metabolism by Plants|Environ. Sci. Pollut. Res.18(8): 1343-1350|2011|10.1007/s11356-011-0489-1
164420|T||Wang,C., S. Lower, V.P. Thomas, and V.M. Williamson|Root-Knot Nematodes Exhibit Strain-Specific Clumping Behavior that is Inherited as a Simple Genetic Trait|PLoS One5(12): 1-7|2010|
164421|A||Prado,C., L. Rodriguez-Montelongo, J.A. Gonzalez, E.A. Pagano, M. Hilal, and F.E. Prado|Uptake of Chromium by Salvinia minima: Effect on Plant Growth, Leaf Respiration and Carbohydrate Metabolism|J. Hazard. Mater.177(1-3): 546-553|2010|10.1016/j.jhazmat.2009.12.067
164422|A||Tzaneva,V., and S.F. Perry|The Control of Breathing in Goldfish (Carassius auratus) Experiencing Thermally Induced Gill Remodelling|J. Exp. Biol.213:3666-3675|2010|10.1242/jeb.047431
164423|A||Tzaneva,V., S. Bailey, and S.F. Perry|The Interactive Effects of Hypoxemia, Hyperoxia, and Temperature on the Gill Morphology of Goldfish (Carassius auratus)|Am. J. Physiol., Regul. Integr. Comp. Physiol.300:R1344-R1351|2011|10.1152/ajpregu.00530.2010
164424|T||Jamil,M., and E.S. Rha|Response of Transgenic Rice at Germination and Early Seedling Growth Under Salt Stress|Pak. J. Biol. Sci.10(23): 4303-4306|2007|10.3923/pjbs.2007.4303.4306
164425|T||Kafi,M., H. Griffiths, A. Nezami, H.R. Kazaie, and A. Sharif|Effects of Salinity on Carbon Isotope Discrimination of Shoot and Grain of Salt-Tolerant and Salt-Sensitive Wheat Cultivars|Asian J. Plant Sci.6(8): 1166-1173|2007|10.3923/ajps.2007.1166.1173
164427|T||Hay-Roe,M.M., R.L. Meagher, and R.N. Nagoshi|Effects of Cyanogenic Plants on Fitness in Two Host Strains of the Fall Armyworm (Spodoptera frugiperda)|J. Chem. Ecol.37(12): 1314-1322|2011|10.1007/s10886-011-0049-7
164428|A||Ingermann,R.L., C.L.F. Schultz, M.K. Kanuga, and J.G. Wilson-Leedy|Metabolism of Motile Zebrafish Sperm|Comp. Biochem. Physiol. A Mol. Integr. Physiol.158(4): 461-467|2011|10.1016/j.cbpa.2010.12.008
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164430|A||McDonald,M.D., K.M. Gilmour, P.J. Walsh, and S.F. Perry|Cardiovascular and Respiratory Reflexes of the Gulf Toadfish (Opsanus beta) During Acute Hypoxia|Resp. Physiol. Neurobiol.170(1): 59-66|2010|10.1016/j.resp.2009.12.012
164431|T||Gniazdowska,A., U. Krasuska, K. Czajkowska, and R. Bogatek|Nitric Oxide, Hydrogen Cyanide and Ethylene are Required in the Control of Germination and Undisturbed Development of Young Apple Seedlings|Plant Growth Regul.61(1): 75-84|2010|10.1007/s10725-010-9452-2
164432|T||Arshi,A., M.Z. Abdin, and M. Iqbal|Ameliorative Effects of CaCl2 on Growth, Ionic Relations, and Proline Content of Senna Under Salinity Stress|J. Plant Nutr.28(1): 101-125|2005|10.1081/PLN-200042185
164433|T||Gulzar,S., M.A. Khan, and I.A. Ungar|Effect of Salinity and Temperature on the Germination of Urochondra setulosa (Trin.) C. E. Hubbard|Seed Sci. Technol.29(1): 21-30|2001|
164434|T||Wang,X., P. Yang, Q. Gao, X. Liu, T. Kuang, S. Shen, and Y. He|Proteomic Analysis of the Response to High-Salinity Stress in Physcomitrella patens|Planta (Multiple Languages)228(1): 167-177|2008|10.1007/s00425-008-0727-z
164435|T||Yao,Y., A. Bilichak, A. Golubov, and I. Kovalchuk|ddm1 Plants are Sensitive to Methyl Methane Sulfonate and NaCl Stresses and are Deficient in DNA Repair|Plant Cell Rep.31(9): 1549-1561|2012|10.1007/s00299-012-1269-1
164436|T||Sun,J., S. Chen, S. Dai, R. Wang, N. Li, X. Shen, X. Zhou, C. Lu, X. Zheng, Z. Hu, Z. Zhang, J. Song, and Y. Xu|NaCl-Induced Alternations of Cellular and Tissue Ion Fluxes in Roots of Salt-Resistant and Salt-Sensitive Poplar Species|Plant Physiol.149(2): 1141-1153|2009|10.1104/pp.108.129494
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164440|T||Jiang,L., L. Wang, C.H. Yin, and C.Y. Tian|Differential Salt Tolerance and Similar Responses to Nitrogen Availability in Plants Grown from Dimorphic Seeds of Suaeda salsa|Flora (Multiple Languages)207:565-571|2012|10.1016/j.flora.2012.06.006
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164442|T||Rao,N., L. Dong, J. Li, and H. Zhang|Influence of Environmental Factors on Seed Germination and Seedling Emergence of American Sloughgrass (Beckmannia syzigachne)|Weed Sci.56(4): 529-533|2008|10.1614/WS-07-158.1
164443|T||Radic,S., M. Radic-Stojkovic, and B. Pevalek-Kozlina|Influence of NaCl and Mannitol on Peroxidase Activity and Lipid Peroxidation in Centaurea ragusina L. Roots and Shoots|J. Plant Physiol.163(12): 1284-1292|2006|10.1016/j.jplph.2005.08.019
164444|T||Park,J.M., C.J. Park, S.B. Lee, B.K. Ham, R. Shin, and K.H. Paek|Overexpression of the Tobacco Tsi1 Gene Encoding an EREBP/AP2-Type Transcription Factor Enhances Resistance Against Pathogen Attack and Osmotic Stress in Tobacco|Plant Cell13(5): 1035-1046|2001|
164445|T||Musyimi,D.M., G.W. Netondo, and G. Ouma|Salinity and Temperature Effects on CO2 Assimilation in Leaves of Avocados|Am. J. Plant Physiol.3(1): 40-49|2008|10.3923/ajpp.2008.40.49
164446|T||Lee,S.B., B.K. Ham, J.M. Park, Y.J. Kim, and K.H. Paek|BnNHL18A Shows a Localization Change by Stress-Inducing Chemical Treatments|Biochem. Biophys. Res. Commun.339(1): 399-406|2006|10.1016/j.bbrc.2005.10.210
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164458|T||Yu,X.Z., P.C. Lu, and Z. Yu|On the Role of beta-Cyanoalanine Synthase (CAS) in Metabolism of Free Cyanide and Ferri-Cyanide by Rice Seedlings|Ecotoxicology21(2): 548-556|2012|10.1007/s10646-011-0815-x
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164471|T||Morais,M.C., M.R. Panuccio, A. Muscolo, and H. Freitas|Does Salt Stress Increase the Ability of the Exotic Legume Acacia longifolia to Compete with Native Legumes in Sand Dune Ecosystems?|Environ. Exp. Bot.82:74-79|2012|10.1016/j.envexpbot.2012.03.012
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164512|T||Kalaji,H.M., G. Govindjee, K. Bosa, J. Koscielniak, and K. Zuk-Golaszewska|Effects of Salt Stress on Photosystem II Efficiency and CO2 Assimilation of Two Syrian Barley Landraces|Environ. Exp. Bot.73:64-72|2011|10.1016/j.envexpbot.2010.10.009
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164621|A||Shoaib,N., P.J.A. Siddiqui, and H. Khalid|Toxicity of Synthetic Pyrethroid Pesticides, Fenpropathrin and Fenvalerate, on Killifish Aphanius dispar Juveniles|Pak. J. Zool.45(4): 1160-1164|2013|
164622|T||Wang,S., G. Zhao, Y. Gao, Z. Tang, and C. Zhang|Puccinellia tenuiflora Exhibits Stronger Selectivity for K+ over Na+ than Wheat|J. Plant Nutr.27(10): 1841-1857|2004|10.1081/PLN-200026435
164624|A||Lucas,T., P.J. Palmer, S. Wang, R. Scoones, and E. O'Brien|Marking the Shell of the Saucer Scallop Amusium balloti for Sea Ranching Using Oxytetracycline, Calcein and Alizarin Red S|J. Shellfish Res.27(5): 1183-1188|2008|10.2983/0730-8000-27.5.1183
164625|T||Zilli,C.G., K.B. Balestrasse, G.G. Yannarelli, A.H. Polizio, D.M. Santa-Cruz, and M.L. Tomaro|Heme Oxygenase Up-Regulation Under Salt Stress Protects Nitrogen Metabolism in Nodules of Soybean Plants|Environ. Exp. Bot.64:83-89|2008|10.1016/j.envexpbot.2008.03.005
164626|T||Yusuf,M., Q. Fariduddin, P. Varshney, and A. Ahmad|Salicylic Acid Minimizes Nickel and/or Salinity-Induced Toxicity in Indian Mustard (Brassica juncea) Through an Improved Antioxidant System|Environ. Sci. Pollut. Res. Int.19(1): 8-18|2012|10.1007/s11356-011-0531-3
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164628|A||Barnidge,D., D. Brooke, G. Elonen, T. Goldenstein, M. Hoglund, M. Kahl, G. Mielke, and A. Puglisi|Toxicity of Data Gap Compounds to Fathead Minnows (Pimephales promelas) and Daphnids (Daphnia magna)|U. S. Environmental Protection Agency, Environmental Research Laboratory, Duluth, MN:47 p.|1990|
164629|A||Gismondi,E., C. Cossu-Leguille, and J.N. Beisel|Do Male and Female Gammarids Defend Themselves Differently During Chemical Stress?|Aquat. Toxicol.140/141:432-438|2013|10.1016/j.aquatox.2013.07.006
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164631|A||Faimali,M., F. Garaventa, V. Piazza, E. Costa, G. Greco, V. Mazzola, M. Beltrandi, E. Bongiovanni, S. Lavorano, and G. |Ephyra Jellyfish as a New Model for Ecotoxicological Bioassays|Mar. Environ. Res.93:93-101|2014|10.1016/j.marenvres.2013.07.004
164632|A||Costa,P.M., S. Caeiro, and M.H. Costa|Multi-Organ Histological Observations on Juvenile Senegalese Soles Exposed to Low Concentrations of Waterborne Cadmium|Fish Physiol. Biochem.39(2): 143-158|2013|10.1007/s10695-012-9686-1
164633|A||Dutton,J., and N.S. Fisher|Influence of Humic Acid on the Uptake of Aqueous Metals by the Killifish Fundulus heteroclitus|Environ. Toxicol. Chem.31(10): 2225-2232|2012|10.1002/etc.1947
164634|A||Echeveste,P., S. Agusti, and A. Tovar-Sanchez|Toxic Thresholds of Cadmium and Lead to Oceanic Phytoplankton: Cell Size and Ocean Basin-Dependent Effects|Environ. Toxicol. Chem.31(8): 1887-1894|2012|10.1002/etc.1893
164635|T||Luo,Z.B., K. Li, Y. Gai, C. Gobel, H. Wildhagen, X. Jiang, I. Feussner, H. Rennenberg, and A. Polle|The Ectomycorrhizal Fungus (Paxillus involutus) Modulates Leaf Physiology of Poplar Towards Improved Salt Tolerance|Environ. Exp. Bot.72(2): 304-311|2011|10.1016/j.envexpbot.2011.04.008
164636|T||Hayat,S., S.A. Hasan, M. Yusuf, Q. Hayat, and A. Ahmad|Effect of 28-Homobrassinolide on Photosynthesis, Fluorescence and Antioxidant System in the Presence or Absence of Salinity and Temperature in Vigna radiata|Environ. Exp. Bot.69:105-112|2010|10.1016/j.envexpbot.2010.03.004
164637|T||Murata,N., F. Iwanaga, A. Maimaiti, S. Imada, N. Mori, K. Tanaka, and N. Yamanaka|Significant Improvement of Salt Tolerance with 2-Day Acclimatization Treatment in Elaeagnus oxycarpa Seedlings|Environ. Exp. Bot.77:170-174|2012|10.1016/j.envexpbot.2011.11.019
164638|T||Munoz,N., G. Robert, M. Melchiorre, R. Racca, and R. Lascano|Saline and Osmotic Stress Differentially Affects Apoplastic and Intracellular Reactive Oxygen Species Production, Curling and Death of Root Hair During Glycine max L. - Bradyrhizobium japonicum Interaction|Environ. Exp. Bot.78:76-83|2012|10.1016/j.envexpbot.2011.12.008
164639|T||Athar,H.R., A. Khan, and M. Ashraf|Exogenously Applied Ascorbic Acid Alleviates Salt-Induced Oxidative Stress in Wheat|Environ. Exp. Bot.63:224-231|2008|10.1016/j.envexpbot.2007.10.018
164640|T||Hafsi,C., M.C. Romero-Puertas, D.K. Gupta, L.A. Del Rio, L.M. Sandalio, and C. Abdelly|Moderate Salinity Enhances the Antioxidative Response in the Halophyte Hordeum maritimum L. Under Potassium Deficiency|Environ. Exp. Bot.69:129-136|2010|10.1016/j.envexpbot.2010.04.008
164641|A||Messiaen,M., C.R. Janssen, O. Thas, and K.A.C. De Schamphelaere|The Potential for Adaptation in a Natural Daphnia magna Population: Broad and Narrow-Sense Heritability of Net Reproductive Rate Under Cd Stress at Two Temperatures|Ecotoxicology21(7): 1899-1910|2012|10.1007/s10646-012-0923-2
164642|A||Jing,J., H. Liu, H. Chen, S. Hu, K. Xiao, and X. Ma|Acute Effect of Copper and Cadmium Exposure on the Expression of Heat Shock Protein 70 in the Cyprinidae Fish Tanichthys albonubes|Chemosphere91(8): 1113-1122|2013|10.1016/j.chemosphere.2013.01.014
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164644|T||Morozov,A.S.|Effect of NaCl and Na2SO4 Salts on Sugar Content in Melons|Dokl. Akad. Nauk SSSR (Non-English)21(6): 279-281|1938|
164645|A||Ray,A.K., and A.K. Medda|Effect of Thyroid Hormones and Analogues on Ammonia and Urea Excretion in Lata Fish (Ophicephalus punctatus)|Gen. Comp. Endocrinol.29:190-197|1976|10.1016/0016-6480(76)90021-6
164646|T||Hayward,H.E., and W.B. Spurr|The Tolerance of Flax to Saline Conditions:  Effect of Sodium Chloride, Calcium Chloride, and Sodium Sulfate|J. Am. Soc. Agron.36:287-300|1944|10.2134/agronj1944.00021962003600040004x
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164648|T||Kapp,L.C.|The Effect of Common Salt on Rice Production|Ark. Agric. Exp. Stn. Bull.465:7 p.|1947|
164649|T||Kofranek,A.M., O.R. Lunt, and H.C. Kohl|Tolerance of Poinsettias to Saline Conditions and High Boron Concentrations|Proc. Am. Soc. Hortic. Sci.68:551-555|1956|
164650|T||Nishimura,H., and S. Miyamoto|Teratogenic Effects of Sodium Chloride in Mice|Acta Anat.74(1): 121-124|1969|10.1159/000143369
164651|T||Sucre,B., and N. Suarez|Effect of Salinity and PEG-Induced Water Stress on Water Status, Gas Exchange, Solute Accumulation, and Leaf Growth in Ipomoea pes-caprae|Environ. Exp. Bot.70(2/3): 192-203|2011|10.1016/j.envexpbot.2010.09.004
164652|T||Pitann,B., T. Kranz, C. Zorb, A. Walter, U. Schurr, and K.H. Muhling|Apoplastic pH and Growth in Expanding Leaves of Vicia faba Under Salinity|Environ. Exp. Bot.74:31-36|2011|10.1016/j.envexpbot.2011.04.015
164653|T||Qu,Y.N., Q. Zhou, and B.J. Yu|Effects of Zn2+ and Niflumic Acid on Photosynthesis in Glycine soja and Glycine max Seedlings Under NaCl Stress|Environ. Exp. Bot.65:304-309|2009|10.1016/j.envexpbot.2008.11.005
164654|T||Orsini,F., M. Alnayef, S. Bona, A. Maggio, and G. Gianquinto|Low Stomatal Density and Reduced Transpiration Facilitate Strawberry Adaptation to Salinity|Environ. Exp. Bot.81:1-10|2012|10.1016/j.envexpbot.2012.02.005
164655|T||Ho,T.M., and M.K. Fauziah|Laboratory Evaluation of Propoxur and Fenvalerate Against Infected and Noninfected Leptotrombidium fletcheri (Acari: Trombiculidae)|Southeast Asian J. Trop. Med. Public Health24(3): 570-572|1993|
164656|T||Rodriguez-Rosales,M.P., L. Kerkeb, P. Bueno, and J.P. Donaire|Changes Induced by NaCl in Lipid Content and Composition, Lipoxygenase, Plasma Membrane H+-ATPase and Antioxidant Enzyme Activities of Tomato (Lycopersicon esculentum. Mill) Calli|Plant Sci.143(2): 143-150|1999|10.1016/S0168-9452(99)00046-1
164657|A||Pirastru,L., F. Perreault, F.L. Chu, A. Oukarroum, L. Sleno, R. Popovic, and D. Dewez|Long-Term Stress Induced by Nitrate Deficiency, Sodium Chloride, and High Light on Photosystem II Activity and Carotenogenesis of Green Alga Scenedesmus sp.|Botany90:1007-1014|2012|10.1139/b2012-077
164658|T||Oliveira,H., A.S. Barros, I. Delgadillo, M.A. Coimbra, and C. Santos|Effects of Fungus Inoculation and Salt Stress on Physiology and Biochemistry of In Vitro Grapevines:  Emphasis on Sugar Composition Changes by FT-IR Analyses|Environ. Exp. Bot.65:1-10|2009|10.1016/j.envexpbot.2008.05.003
164659|T||Tounekti,T., M.E. Abreu, H. Khemira, and S. Munne-Bosch|Canopy Position Determines the Photoprotective Demand and Antioxidant Protection of Leaves in Salt-Stressed Salvia officinalis L. Plants|Environ. Exp. Bot.78:146-156|2012|10.1016/j.envexpbot.2011.12.037
164660|T||Tounekti,T., A.M. Vadel, M. Onate, H. Khemira, and S. Munne-Bosch|Salt-Induced Oxidative Stress in Rosemary Plants:  Damage or Protection?|Environ. Exp. Bot.71:298-305|2011|10.1016/j.envexpbot.2010.12.016
164661|T||Teakle,N.L., N. Bazihizina, S. Shabala, T.D. Colmer, E.G. Barrett-Lennard, A. Rodrigo-Moreno, and A.E. Lauchli|Differential Tolerance to Combined Salinity and O2 Deficiency in the Halophytic Grasses Puccinellia ciliata and Thinopyrum ponticum:  The Importance of K+ Retention in Roots|Environ. Exp. Bot.87:69-78|2013|10.1016/j.envexpbot.2012.09.006
164662|T||Surabhi,G.K., A.M. Reddy, G.J. Kumari, and C. Sudhakar|Modulations in Key Enzymes of Nitrogen Metabolism in Two High Yielding Genotypes of Mulberry (Morus alba L.) with Differential Sensitivity to Salt Stress|Environ. Exp. Bot.64:171-179|2008|10.1016/j.envexpbot.2008.04.006
164663|T||Silveira,J.A.G., S.A.M. Araujo, J.P.M.S. Lima, and R.A. Viegas|Roots and Leaves Display Contrasting Osmotic Adjustment Mechanisms in Response to NaCl-Salinity in Atriplex nummularia|Environ. Exp. Bot.66:1-8|2009|10.1016/j.envexpbot.2008.12.015
164664|T||Seckin,B., I. Turkan, A.H. Sekmen, and C. Ozfidan|The Role of Antioxidant Defense Systems at Differential Salt Tolerance of Hordeum marinum Huds. (Sea Barleygrass) and Hordeum vulgare L. (Cultivated Barley)|Environ. Exp. Bot.69:76-85|2010|10.1016/j.envexpbot.2010.02.013
164665|T||Samineni,S., K.H.M. Siddique, P.M. Gaur, and T.D. Colmer|Salt Sensitivity of the Vegetative and Reproductive Stages in Chickpea (Cicer arietinum L.):  Podding is a Particularly Sensitive Stage|Environ. Exp. Bot.71:260-268|2011|10.1016/j.envexpbot.2010.12.014
164666|T||Ben Salah,I., T. Slatni, M. Gruber, D. Messedi, M. Gandour, M. Benzarti, R. Haouala, K. Zribi, K.B. Hamed, F. Perez-Alf|Relationship Between Symbiotic Nitrogen Fixation, Sucrose Synthesis and Anti-Oxidant Activities in Source Leaves of Two Medicago ciliaris Lines Cultivated Under Salt Stress|Environ. Exp. Bot.70:166-173|2011|10.1016/j.envexpbot.2010.08.014
164667|T||Sabra,A., L. Adam, F. Daayf, and S. Renault|Salinity-Induced Changes in Caffeic Acid Derivatives, Alkamides and Ketones in Three Echinacea Species|Environ. Exp. Bot.77:234-241|2012|10.1016/j.envexpbot.2011.11.013
164668|T||Rodriguez-Gamir,J., G. Ancillo, F. Legaz, E. Primo-Millo, and M.A. Forner-Giner|Influence of Salinity on Pip Gene Expression in Citrus Roots and Its Relationship with Root Hydraulic Conductance, Transpiration and Chloride Exclusion from Leaves|Environ. Exp. Bot.78:163-166|2012|10.1016/j.envexpbot.2011.12.027
164669|T||Petridis,A., I. Therios, G. Samouris, and C. Tananaki|Salinity-Induced Changes in Phenolic Compounds in Leaves and Roots of Four Olive Cultivars (Olea europaea L.) and Their Relationship to Antioxidant Activity|Environ. Exp. Bot.79:37-43|2012|10.1016/j.envexpbot.2012.01.007
164670|T||Soccio,M., M.N. Laus, G.P. Spera, D. Trono, M. Pompa, Z. Flagella, and D. Pastore|Mitochondrial Proline Oxidation is Affected by Hyperosmotic Stress in Durum Wheat Seedlings|Ann. Appl. Biol.157(1): 1-11|2010|10.1111/j.1744-7348.2010.00392.x
164671|T||Swanson,C.R., and W.C. Shaw|The Effect of 2,4-Dichlorophenoxyacetic Acid on the Hydrocyanic Acid and Nitrate Content of Sudan Grass|Agron. J.46(9): 418-421|1954|10.2134/agronj1954.00021962004600090007x
164672|A||Srivastava,A.K., P. Bhargava, R. Thapar, and L.C. Rai|Salinity-Induced Physiological and Proteomic Changes in Anabaena doliolum|Environ. Exp. Bot.64:49-57|2008|10.1016/j.envexpbot.2007.12.012
164673|A||Amiano,I., J. Olabarrieta, J. Vitorica, and S. Zorita|Acute Toxicity of Nanosized TiO2 to Daphnia magna Under UVA Irradiation|Environ. Toxicol. Chem.31(11): 2564-2566|2012|10.1002/etc.1981
164674|A||Alloy,M.M., and A.P. Roberts|Effects of Suspended Multi-Walled Carbon Nanotubes on Daphnid Growth and Reproduction|Ecotoxicol. Environ. Saf.74(7): 1839-1843|2011|10.1016/j.ecoenv.2011.06.020
164675|A||Domingos,R.F., D.F. Simon, C. Hauser, and K.J. Wilkinson|Bioaccumulation and Effects of CdTe/CdS Quantum Dots on Chlamydomonas reinhardtii - Nanoparticles or the Free Ions?|Environ. Sci. Technol.45(18): 7664-7669|2011|10.1021/es201193s
164676|A||Croteau,M.N., S.K. Misra, S.N. Luoma, and E. Valsami-Jones|Silver Bioaccumulation Dynamics in a Freshwater Invertebrate After Aqueous and Dietary Exposures to Nanosized and Ionic Ag|Environ. Sci. Technol.45(15): 6600-6607|2011|10.1021/es200880c
164677|A||Dybowska,A.D., M.N. Croteau, S.K. Misra, D. Berhanu, S.N. Luoma, P. Christian, P. O'Brien, and E. Valsami-Jones|Synthesis of Isotopically Modified ZnO Nanoparticles and Their Potential as Nanotoxicity Tracers|Environ. Pollut.159(1): 266-273|2011|10.1016/j.envpol.2010.08.032
164678|A||Croteau,M.N., A.D. Dybowska, S.N. Luoma, and E. Valsami-Jones|A Novel Approach Reveals that Zinc Oxide Nanoparticles are Bioavailable and Toxic After Dietary Exposures|Nanotoxicology5(1): 79-90|2011|10.3109/17435390.2010.501914
164679|A||Cowart,D.A., S.M. Guida, S.I. Shah, and A.G. Marsh|Effects of Ag Nanoparticles on Survival and Oxygen Consumption of Zebra Fish Embryos, Danio rerio|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.46(10): 1122-1128|2011|
164680|A||Cherchi,C., T. Chernenko, M. Diem, and A.Z. Gu|Impact of Nano Titanium Dioxide Exposure on Cellular Structure of Anabaena variabilis and Evidence of Internalization|Environ. Toxicol. Chem.30(4): 861-869|2011|10.1002/etc.445
164681|A||Bowman,C.R., F.C. Bailey, M. Elrod-Erickson, A.M. Neigh, and R.R. Otter|Effects of Silver Nanoparticles on Zebrafish (Danio rerio) and Escherichia coli (ATCC 25922):  A Comparison of Toxicity Based on Total Surface Area Versus Mass Concentration of Particles in a Model Eukaryotic and Prokar|Environ. Toxicol. Chem.31(8): 1793-1800|2012|10.1002/etc.1881
164682|T||Gill,T., Y. Sreenivasulu, S. Kumar, and P.S. Ahuja|Over-Expression of Superoxide Dismutase Exhibits Lignification of Vascular Structures in Arabidopsis thaliana|J. Plant Physiol.167(9): 757-760|2010|10.1016/j.jplph.2009.12.004
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164684|T||Chen,F., L. Chen, H. Zhao, H. Korpelainen, and C. Li|Sex-Specific Responses and Tolerances of Populus cathayana to Salinity|Physiol. Plant. (Multiple Languages)140(2): 163-173|2010|10.1111/j.1399-3054.2010.01393.x
164685|T||Awada,S., W.F. Campbell, L.M. Dudley, J.J. Jurinak, and M.A. Khan|Interactive Effects of Sodium Chloride, Sodium Sulfate, Calcium Sulfate, and Calcium Chloride on Snapbean Growth, Photosynthesis, and Ion Uptake|J. Plant Nutr.18(5): 889-900|1995|10.1080/01904169509364946
164686|T||Guidi,L., E. Degl'Innocenti, G. Carmassi, D. Massa, and A. Pardossi|Effects of Boron on Leaf Chlorophyll Fluorescence of Greenhouse Tomato Grown with Saline Water|Environ. Exp. Bot.73:57-63|2011|10.1016/j.envexpbot.2010.09.017
164687|A||Faroongsarng,D., S. Chiayvareesajja, and Y. Theapparat|The Complete Analysis of the Distribution Kinetics of the Oxytetracycline Antibiotic in the Exoskeleton of Farmed Pacific White Shrimp, Litopenaeus vannamei|J. World Aquac. Soc.44(2): 239-248|2013|10.1111/jwas.12029
164688|T||Cassaniti,C., C. Leonardi, and T.J. Flowers|The Effects of Sodium Chloride on Ornamental Shrubs|Sci. Hortic.122(4): 586-593|2009|10.1016/j.scienta.2009.06.032
164689|A||Barnes,W.W., and A.B. Webb|A Field Evaluation of Abate Briquettes in Woodland Pools|Mosq. News28(3): 458-461|1968|
164690|A||Amutha,C., and P. Subramanian|Cadmium Alters the Reproductive Endocrine Disruption and Enhancement of Growth in the Early and Adult Stages of Oreochromis mossambicus|Fish Physiol. Biochem.39(2): 351-361|2013|10.1007/s10695-012-9704-3
164691|T||Roberts,R.J.|Availability of Dieldrin to Adult Blissus leucopterus and Larval Cyclocephala immaculata in Treated Sand, Loam, and Muck Soils|J. Econ. Entomol.56(6): 781-785|1963|10.1093/jee/56.6.781
164692|A||Al-Shami,S., C.S.M. Rawi, A.H. Ahmad, and S.A.M. Nor|Genotoxicity of Heavy Metals to the Larvae of Chironomus kiiensis Tokunaga After Short-Term Exposure|Toxicol. Ind. Health28(8): 734-739|2012|10.1177/0748233711422729
164693|A||Boughammoura,S., K. Kessabi, L. Chouchene, and I. Messaoudi|Effects of Cadmium and High Temperature on Some Parameters of Calcium Metabolism in the Killifish (Aphanius fasciatus)|Biol. Trace Elem. Res.154(1): 73-80|2013|10.1007/s12011-013-9714-8
164694|A||Boudet,L.C., P. Polizzi, M.B. Romero, A. Robles, and M. Gerpe|Lethal and Sublethal Effects of Cadmium in the White Shrimp Palaemonetes argentinus:  A Comparison Between Populations from Contaminated and Reference Sites|Ecotoxicol. Environ. Saf.89:52-58|2013|10.1016/j.ecoenv.2012.11.008
164695|A||Amachree,D., A.J. Moody, and R.D. Handy|Comparison of Intermittent and Continuous Exposures to Cadmium in the Blue Mussel, Mytilus edulis:  Accumulation and Sub-Lethal Physiological Effects|Ecotoxicol. Environ. Saf.95:19-26|2013|10.1016/j.ecoenv.2013.04.023
164696|A||Chen,Q.L., Y. Gong, Z. Luo, J.L. Zheng, and Q.L. Zhu|Differential Effect of Waterborne Cadmium Exposure on Lipid Metabolism in Liver and Muscle of Yellow Catfish Pelteobagrus fulvidraco|Aquat. Toxicol.142/143:380-386|2013|10.1016/j.aquatox.2013.09.011
164697|A||Chandurvelan,R., I.D. Marsden, S. Gaw, and C.N. Glover|Biochemical Biomarker Responses of Green-Lipped Mussel, Perna canaliculus, to Acute and Subchronic Waterborne Cadmium Toxicity|Aquat. Toxicol.140/141:303-313|2013|10.1016/j.aquatox.2013.06.015
164698|A||Chiarelli,R., M. Agnello, L. Bosco, and M.C. Roccheri|Sea Urchin Embryos Exposed to Cadmium as an Experimental Model for Studying the Relationship Between Autophagy and Apoptosis|Mar. Environ. Res.PRESS:9 p.|2013|
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164700|A||Chandurvelan,R., I.D. Marsden, S. Gaw, and C.N. Glover|Waterborne Cadmium Impacts Immunocytotoxic and Cytogenotoxic Endpoints in Green-Lipped Mussel, Perna canaliculus|Aquat. Toxicol.142/143:283-293|2013|10.1016/j.aquatox.2013.09.002
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164702|A||Dugmonits,K., A. Ferencz, Z. Jancso, R. Juhasz, and E. Hermesz|Major Distinctions in the Antioxidant Responses in Liver and Kidney of Cd2+-Treated Common Carp (Cyprinus carpio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.158(4): 225-230|2013|10.1016/j.cbpc.2013.07.005
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164752|T||Zhang,C.Q., X. Huang, J.X. Wang, and M.G. Zhou|Resistance Development in Rice Blast Disease Caused by Magnaporthe grisea to Tricyclazole|Pestic. Biochem. Physiol.94(1): 43-47|2009|10.1016/j.pestbp.2009.03.001
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164894|A||Shen,X., Z. Shao, Q. Xian, H. Zou, S. Gao, and J. Zhang|Detection Method and Toxicity Study of a New Disinfection By-Product, 2,2,4-Trichloro-5-Methoxycyclopenta-4-ene-1,3-Dione (TCMCD), in Chlorinated Drinking Water|Water Res.44(3): 974-980|2010|10.1016/j.watres.2009.10.006
164895|A||Rosenkrantz,R.T., A. Baun, and K.O. Kusk|Growth Inhibition and Recovery of Lemna gibba After Pulse Exposure to Sulfonylurea Herbicides|Ecotoxicol. Environ. Saf.89:89-94|2013|10.1016/j.ecoenv.2012.11.017
164896|A||Saili,K.S., M.M. Corvi, D.N. Weber, A.U. Patel, S.R. Das, J. Przybyla, K.A. Anderson, and R.L. Tanguay|Neurodevelopmental Low-Dose Bisphenol A Exposure Leads to Early Life-Stage Hyperactivity and Learning Deficits in Adult Zebrafish|Toxicology291(1-3): 83-92|2012|10.1016/j.tox.2011.11.001
164897|T||Peng,Y.S.C., E. Mussen, A. Fong, M.A. Montague, and T. Tyler|Effects of Chlortetracycline on Honey Bee Worker Larvae Reared In Vitro|J. Invertebr. Pathol.60:127-133|1992|10.1016/0022-2011(92)90085-I
164898|T||Bhatnagar,S., and A.K. Karnatak|Evaluation of Toxicity of Monocrotophos, Alphamethrin and Endosulfan to Apis mellifera L.|Pantnagar J. Res.7(2): 135-138|2009|
164899|A||Chen,Y., H. Sun, W. Yang, and Z. Yang|Response of Crucian Carp Carassius auratus Newly-Hatched Larvae Exposed to Mixtures of Microcystin and Ammonia:  Growth and Antioxidant Defenses|Fresenius Environ. Bull.22(4b): 1253-1258|2013|
164900|T||Brito,L.F.C., P.L. Sertich, W. Rives, M. Knobbe, F. Del Piero, and G.B. Stull|Effects of Intratesticular Zinc Gluconate Treatment on Testicular Dimensions, Echodensity, Histology, Sperm Production, and Testosterone Secretion in American Black Bears (Ursus americanus)|Theriogenology75(8): 1444-1452|2011|10.1016/j.theriogenology.2010.10.036
164901|A||Ahmad,R., and G.B. Chand|Cytoprotective Effect of Emblica officinalis Against Endosulfan Induced Toxicity in Liver of Clarias batrachus:  An Ultrastructural Study|J. Ecophysiol. Occup. Health9(3/4): 153-162|2009|
164902|T||Al-Mansour,M.I., N.M. Al-Otaibi, S.S. Alarifi, S.A. Ibrahim, and B.M. Jarrar|Histological and Histochemical Alterations Induced by Lead in the Liver of the Quail Coturnix coturnix|Toxicol. Environ. Chem.91(6): 1191-1203|2009|10.1080/02772240802590285
164903|A||Adeyemi,J.A., and L.E. Deaton|The Effect of Cadmium Exposure on Digestive Enzymes in the Eastern Oyster Crassostrea virginica|J. Shellfish Res.31(3): 631-634|2012|10.2983/035.031.0306
164904|A||Al-Ghanem,K.A.|Effect of Cobalt-Supplemented Diets on Bioaccumulation, Digestive Enzyme Activities and Growth of Cyprinus carpio|Toxicol. Environ. Chem.93(5): 985-995|2011|10.1080/02772248.2011.568088
164905|T||Winfield,L.E.|Development of a Plant-Based Screening Method for Assessment of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX) Bioavailability, Bioconcentration, and Phytotoxicity from Contaminated Soils|Ph.D Thesis, University of Mississippi, University, MS:175 p. |2001|
164906|A||Guardiola,F.A., A. Cuesta, J. Meseguer, S. Martinez, M.J. Martinez-Sanchez, C. Perez-Sirvent, and M.A. Esteban|Accumulation, Histopathology and Immunotoxicological Effects of Waterborne Cadmium on Gilthead Seabream (Sparus aurata)|Fish Shellfish Immunol.35(3): 792-800|2013|10.1016/j.fsi.2013.06.011
164907|A||Doganlar,Z.B.|Metal Accumulation and Physiological Responses Induced by Copper and Cadmium in Lemna gibba, L. minor and Spirodela polyrhiza|Chem. Spec. Bioavail.25(2): 79-88|2013|10.3184/095422913X13706128469701
164908|A||Ponti,B., R. Piscia, R. Bettinetti, and M. Manca|Long-Term Adaptation of Daphnia to Toxic Environment in Lake Orta:  The Effects of Short-Term Exposure to Copper and Acidification|J. Limnol.69(2): 217-224|2010|10.4081/jlimnol.2010.217
164909|A||Saravanan,T.S., S. Boopathi, D. Ashok, and C. Karthick|Impact of Exposure to Sub Lethal Concentration of Monocrotophos on Blood Parameters, Biochemical Constituents and Histology of Major Carp, Catla catla (Hamilton)|Malays. J. Sci.29(3): 191-198|2010|10.22452/mjs.vol29no3.1
164910|A||Sunmonu,T.O., O.D. Owolabi, and O.B. Oloyede|Anthracene-Induced Enzymatic Changes as Stress Indicators in African Catfish, Heterobranchus bidorsalis Geoffroy Saint Hilaire, 1809|Res. J. Environ. Sci.3(6): 677-686|2009|10.3923/rjes.2009.677.686
164911|A||Chaudhari,G.H., K.S. Chennubhotla, K. Chatti, and P. Kulkarni|Optimization of the Adult Zebrafish ECG Method for Assessment of Drug-Induced QTc Prolongation|J. Pharmacol. Toxicol. Methods67(2): 115-120|2013|10.1016/j.vascn.2013.01.007
164912|T||Schrold,J.|Behavioural Effects of d-Amphetamine Alone and in Combination with Antidepressants, Antihistamines or Other Psychotropic Drugs in Young Chicks|Psychopharmacologia23(2): 115-124|1972|10.1007/BF00401186
164913|A||Pietroletti,M., A. Capobianchi, E. Ragosta, and M. Mecozzi|Preliminary Evaluation of Hydrocarbon Removal Power of Caulerpa racemosa in Seawater by Means of Infrared and Visible Spectroscopic Measurements|Spectrochim. Acta Part A77(3): 673-679|2010|10.1016/j.saa.2010.07.010
164914|A||Boaru,A., C.I. El Mahdy, and B. Georgescu|The Effect of Fipronil on Some Reproduction Parameters of Zebrafish (Danio rerio)|Aquacult. Aquarium Conserv. Legis.6(2): 71-73|2013|
164915|A||Davoodi,R., and G. Abdi|Comparative Study on the Acute Toxicity of Synthetic Pesticides, Permethrin 25% and Monocrotophos 36%, and Neem-Based Pesticide, Neem Gold EC 0.03%, to Juvenile Cyprinus carpio Linn.|J. Biol Environ. Sci.6(16): 105-108|2012|
164916|A||Bai,W., Z. Zhang, W. Tian, X. He, Y. Ma, Y. Zhao, and Z. Chai|Toxicity of Zinc Oxide Nanoparticles to Zebrafish Embryo:  A Physicochemical Study of Toxicity Mechanism|J. Nanopart. Res.12(5): 1645-1654|2010|10.1007/s11051-009-9740-9
164917|A||Giusti,A., V. Ducrot, C. Joaquim-Justo, and L. Lagadic|Testosterone Levels and Fecundity in the Hermaphroditic Aquatic Snail Lymnaea stagnalis Exposed to Testosterone and Endocrine Disruptors|Environ. Toxicol. Chem.32(8): 1740-1745|2013|10.1002/etc.2234
164919|T||Liang,Y., and R. Ding|Influence of Silicon on Microdistribution of Mineral Ions in Roots of Salt-Stressed Barley as Associated with Salt Tolerance in Plants|Sci. China Ser. C, Life Sci.45(3): 298-308|2002|10.1360/02yc9033
164920|T||He,Z., H. Tang, H. Li, C. He, Z. Zhang, and H. Wang|Arbuscular Mycorrhizal Alleviated Ion Toxicity, Oxidative Damage and Enhanced Osmotic Adjustment in Tomato Subjected to NaCl Stress|Am.-Eurasian J. Agric. Environ. Sci.7(6): 676-683|2010|
164921|A||Lin,D., J. Ji, Z. Long, K. Yang, and F. Wu|The Influence of Dissolved and Surface-Bound Humic Acid on the Toxicity of TiO2 Nanoparticles to Chlorella sp.|Water Res.46(14): 4477-4487|2012|10.1016/j.watres.2012.05.035
164922|A||Kim,K.T., M.H. Jang, J.Y. Kim, B. Xing, R.L. Tanguay, B.G. Lee, and S.D. Kim|Embryonic Toxicity Changes of Organic Nanomaterials in the Presence of Natural Organic Matter|Sci. Total Environ.426:423-429|2012|10.1016/j.scitotenv.2012.03.050
164923|A||Kulacki,K.J., B.J. Cardinale, A.A. Keller, R. Bier, and H. Dickson|How do Stream Organisms Respond to, and Influence, the Concentration of Titanium Dioxide Nanoparticles?  A Mesocosm Study with Algae and Herbivores|Environ. Toxicol. Chem.31(10): 2414-2422|2012|10.1002/etc.1962
164924|A||Kadar,E., G.A. Tarran, A.N. Jha, and S.N. Al-Subiai|Stabilization of Engineered Zero-Valent Nanoiron with Na-Acrylic Copolymer Enhances Spermiotoxicity|Environ. Sci. Technol.45(8): 3245-3251|2011|10.1021/es1029848
164925|A||Jovanovic,B., L. Anastasova, E.W. Rowe, Y. Zhang, A.R. Clapp, and D. Palic|Effects of Nanosized Titanium Dioxide on Innate Immune System of Fathead Minnow (Pimephales promelas Rafinesque, 1820)|Ecotoxicol. Environ. Saf.74(4): 675-683|2011|10.1016/j.ecoenv.2010.10.017
164926|A||Jovanovic,B., T. Ji, and D. Palic|Gene Expression of Zebrafish Embryos Exposed to Titanium Dioxide Nanoparticles and Hydroxylated Fullerenes|Ecotoxicol. Environ. Saf.74(6): 1518-1525|2011|10.1016/j.ecoenv.2011.04.012
164927|A||Hoheisel,S.M., S. Diamond, and D. Mount|Comparison of Nanosilver and Ionic Silver Toxicity in Daphnia magna and Pimephales promelas|Environ. Toxicol. Chem.31(11): 2557-2563|2012|10.1002/etc.1978
164928|A||Hu,J., D. Wang, J. Wang, and J. Wang|Toxicity of Lead on Ceriodaphnia dubia in the Presence of Nano-CeO2 and Nano-TiO2|Chemosphere89(5): 536-541|2012|10.1016/j.chemosphere.2012.05.045
164929|A||Jiang,H.S., M. Li, F.Y. Chang, W. Li, and L.Y. Yin|Physiological Analysis of Silver Nanoparticles and AgNO3 Toxicity to Spirodela polyrhiza|Environ. Toxicol. Chem.31(8): 1880-1886|2012|10.1002/etc.1899
164930|A||Hrenovic,J., J. Milenkovic, N. Daneu, R.M. Kepcija, and N. Rajic|Antimicrobial Activity of Metal Oxide Nanoparticles Supported onto Natural Clinoptilolite|Chemosphere88(9): 1103-1107|2012|10.1016/j.chemosphere.2012.05.023
164931|A||Kumar,V.A., C. Janaiah, and P. Venkateshwarlu|Effect of Thiamethoxam Alters Serum Biochemical Parameters in Channa punctatus (Bloch)|Asian J. Biosci.5(1): 106-110|2010|
164932|A||Nations,S., M. Long, M. Wages, J. Canas, J.D. Maul, C. Theodorakis, and G.P. Cobb|Effects of ZnO Nanomaterials on Xenopus laevis Growth and Development|Ecotoxicol. Environ. Saf.74(2): 203-210|2011|10.1016/j.ecoenv.2010.07.018
164933|A||Uno,K., T. Chaweepack, and L. Ruangpan|Pharmacokinetics and Bioavailability of Oxytetracycline in Vannamei Shrimp (Penaeus vannamei) and the Effect of Processing on the Residues in Muscle and Shell|Aquac. Int.18:1003-1015|2010|10.1007/s10499-009-9318-7
164935|A||Rigos,G., V. Zonaras, D. Nikolopoulou, M. Henry, X. Nikoloudaki, and M. Alexis|The Effect of Diet Composition (Plant vs Fish Oil-Based Diets) on the Availability of Oxytetracycline in Gilthead Sea Bream (Sparus aurata) at Two Water Temperatures|Aquaculture311(1-4): 31-35|2011|10.1016/j.aquaculture.2010.11.018
164936|A||Rhee,J.S., B.M. Kim, C.B. Jeong, H.G. Park, K.M.Y. Leung, Y.M. Lee, and J.S. Lee|Effect of Pharmaceuticals Exposure on Acetylcholinesterase (AchE) Activity and on the Expression of AchE Gene in the Monogonont Rotifer, Brachionus koreanus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.158(4): 216-224|2013|10.1016/j.cbpc.2013.08.005
164937|A||Miller,R.A., F.R. Pelsor, A.S. Kane, and R. Reimschuessel|Oxytetracycline Pharmacokinetics in Rainbow Trout During and After an Orally Administered Medicated Feed Regimen|J. Aquat. Anim. Health24:121-128|2012|10.1080/08997659.2012.675933
164938|T||Farkas,M., J.O. Berry, and D.S. Aga|Determination of Enzyme Kinetics and Glutathione Conjugates of Chlortetracycline and Chloroacetanilides Using Liquid Chromatography-Mass Spectrometry|Analyst (Lond.)132(7): 664-671|2007|10.1039/B700561J
164939|T||Liu,L., Y.H. Liu, C.X. Liu, Z. Wang, J. Dong, G.F. Zhu, and X. Huang|Potential Effect and Accumulation of Veterinary Antibiotics in Phragmites australis Under Hydroponic Conditions|Ecol. Eng.53(0): 138-143|2013|10.1016/j.ecoleng.2012.12.033
164940|A||Lai,H.T., J.H. Hou, C.I. Su, and C.L. Chen|Effects of Chloramphenicol, Florfenicol, and Thiamphenicol on Growth of Algae Chlorella pyrenoidosa, Isochrysis galbana, and Tetraselmis chui|Ecotoxicol. Environ. Saf.72(2): 329-334|2009|10.1016/j.ecoenv.2008.03.005
164941|T||Batchelder,A.R.|Chlortetracycline and Oxytetracycline Effects on Plant Growth and Development in Liquid Cultures|J. Environ. Qual.10(4): 515-518|1981|10.2134/jeq1981.00472425001000040019x
164942|A||Kolodziejska,M., J. Maszkowska, A. Bialk-Bielinska, S. Steudte, J. Kumirska, P. Stepnowski, and S. Stolte|Aquatic Toxicity of Four Veterinary Drugs Commonly Applied in Fish Farming and Animal Husbandry|Chemosphere92(9): 1253-1259|2013|10.1016/j.chemosphere.2013.04.057
164943|A||Gonzalez-Pleiter,M., G. Suarez, I. Rodea-Palomares, F. Leganes, R. Rosal, K. Boltes, E. Marco, and F. Fernandez-Pinas|Toxicity of Five Antibiotics and Their Mixtures Towards Photosynthetic Aquatic Organisms: Implications for Environmental Risk Assessment|Water Res.47(6): 2050-2064|2013|10.1016/j.watres.2013.01.020
164944|A||Feng-Jiao,L., L. Shun-Xing, Z. Feng-Ying, H. Xu-Guang, Z. Yue-Gang, T. Teng-Xiu, and W. Xue-Qing|Risk Assessment of Nitrate and Oxytetracycline Addition on Coastal Ecosystem Functions|Aquat. Toxicol.146:76-81|2014|10.1016/j.aquatox.2013.10.028
164945|A||Carraschi,S.P., C. Da Cruz, J.G.M. Neto, N.F. Ignacio, R. Barbuio, and M.R.F. Machado|Histopathological Biomarkers in Pacu (Piaractus mesopotamicus) Infected with Aeromonas hydrophila and Treated with Antibiotics|Ecotoxicol. Environ. Saf.83:115-120|2012|10.1016/j.ecoenv.2012.06.016
164946|A||Boonsaner,M., and D.W. Hawker|Evaluation of Food Chain Transfer of the Antibiotic Oxytetracycline and Human Risk Assessment|Chemosphere93(6): 1009-1014|2013|10.1016/j.chemosphere.2013.05.070
164947|A||Barros-Becker,F., J. Romero, A. Pulgar, and C.G. Feijoo|Persistent Oxytetracycline Exposure Induces an Inflammatory Process that Improves Regenerative Capacity in Zebrafish Larvae|PLoS One7(5): 1-9|2012|10.1371/journal.pone.0036827
164948|A||Englert,D., M. Bundschuh, and R. Schulz|Thiacloprid Affects Trophic Interaction Between Gammarids and Mayflies|Environ. Pollut.167:41-46|2012|10.1016/j.envpol.2012.03.024
164949|A||Ekman,D.R., P.C. Hartig, M. Cardon, D.M. Skelton, Q. Teng, E.J. Durhan, K.M. Jensen, M.D. Kahl, D.L. Villeneuve, L.E.,J|Metabolite Profiling and a Transcriptional Activation Assay Provide Direct Evidence of Androgen Receptor Antagonism by Bisphenol A in Fish|Environ. Sci. Technol.46(17): 9673-9680|2012|10.1021/es3014634
164950|A||Favret,K.P., and J.W. Lynn|Flow-Cytometric Analyses of Viability Biomarkers in Pesticide-Exposed Sperm of Three Aquatic Invertebrates|Arch. Environ. Contam. Toxicol.58:973-984|2010|10.1007/s00244-009-9410-z
164951|A||Yang,W., Z. Tang, F. Zhou, W. Zhang, and L. Song|Toxicity Studies of Tetracycline on Microcystis aeruginosa and Selenastrum capricornutum|Environ. Toxicol. Pharmacol.35:320-324|2013|10.1016/j.etap.2013.01.006
164952|A||Reda,R.M., R.E. Ibrahim, E.N.G. Ahmed, and Z.M. El-Bouhy|Effect of Oxytetracycline and Florfenicol as Growth Promoters on the Health Status of Cultured Oreochromis niloticus|Egypt. J. Aquat. Res.:8 p.|2013|
164953|A||Maklakova,M.E., I.A. Kondratieva, E.S. Mikhailova, R.V. Stupin, S.Y. Khapchaev, and A.O. Kasumyan|Effect of Antibiotics on Immunophysiological Status and Their Taste Attractiveness for Rainbow Trout Parasalmo (=Oncorhynchus) mykiss (Salmoniformes, Salmonidae)|J. Ichthyol.51(11): 1133-1142|2011|10.1134/S0032945211110063
164954|A||Jerbi,M.A., Z. Ouanes, R. Besbes, L. Achour, and A. Kacem|Single and Combined Genotoxic and Cytotoxic Effects of Two Xenobiotics Widely Used in Intensive Aquaculture|Mutat. Res., Genet. Toxicol. Environ. Mutagen.724(1/2): 22-27|2011|10.1016/j.mrgentox.2011.04.010
164955|T||Rodriguez-Perez,J.A.|Effect of Salinity on Seedling Emergence of Leucospermum cuneiforme (Proteaceae)|Acta Hortic.:31-35|2010|10.17660/ActaHortic.2010.869.2
164956|T||Garg,G.|Response in Germination and Seedling Growth in Phaseolus mungo Under Salt and Drought Stress|J. Environ. Biol.31(3): 261-264|2010|
164957|T||Farhoudi,R., and F. Sharifzadeh|The Effects of NaCl Priming on Salt Tolerance in Canola (Brassica napus L.) Seedlings Grown Under Saline Conditions|Indian J. Crop Sci.1(1/2): 74-78|2006|
164958|T||Zadeh,H.M., and M.B. Naeini|Effects of Salinity Stress on the Morphology and Yield of Two Cultivars of Canola (Brassica napus L.)|J. Agron.6(3): 409-414|2007|10.3923/ja.2007.409.414
164959|T||Avarseji,Z., M. Kafi, M. Sabet Teimouri, and K. Orooji|Investigation of Salinity Stress and Potassium Levels on Morphophysiological Characteristics of Saffron|J. Plant Nutr.36(2): 299-310|2013|10.1080/01904167.2012.739249
164960|T||Patel,A.D., H. Jadeja, and A.N. Pandey|Effect of Salinization of Soil on Growth, Water Status and Nutrient Accumulation in Seedlings of Acacia auriculiformis (Fabaceae)|J. Plant Nutr.33(6): 914-932|2010|10.1080/01904161003669939
164961|T||Gomez-Pando,L.R., R. Alvarez-Castro, and A. Eguiluz-de la Barra|Effect of Salt Stress on Peruvian Germplasm of Chenopodium quinoa Willd.: A Promising Crop|J. Agron. Crop Sci.196:391-396|2010|10.1111/j.1439-037X.2010.00429.x
164962|T||Kopittke,P.M., R.A. Kopittke, and N.W. Menzies|Measurement and Interpretation of Salinity Tolerance in Four Perennial Grasses|J. Plant Nutr.32:30-43|2009|10.1080/01904160802530995
164963|A||Gagne,F., C. Andre, R. Skirrow, M. Gelinas, J. Auclair, G. Van Aggelen, P. Turcotte, and C. Gagnon|Toxicity of Silver Nanoparticles to Rainbow Trout:  A Toxicogenomic Approach|Chemosphere89(5): 615-622|2012|10.1016/j.chemosphere.2012.05.063
164964|A||Fouqueray,M., B. Dufils, B. Vollat, P. Chaurand, C. Botta, K. Abacci, J. Labille, J. Rose, and J. Garric|Effects of Aged TiO2 Nanomaterial from Sunscreen on Daphnia magna Exposed by Dietary Route|Environ. Pollut.163:55-61|2012|10.1016/j.envpol.2011.11.035
164965|A||Fang,L., O.K. Borggaard, P.E. Holm, H.C.B. Hansen, and N. Cedergreen|Toxicity and Uptake of Tri- and Dibutyltin in Daphnia magna in the Absence and Presence of Nano-Charcoal|Environ. Toxicol. Chem.30(11): 2553-2561|2011|10.1002/etc.649
164966|A||Fan,W., M. Cui, H. Liu, C. Wang, Z. Shi, C. Tan, and X. Yang|Nano-TiO2 Enhances the Toxicity of Copper in Natural Water to Daphnia magna|Environ. Pollut.159(3): 729-734|2011|10.1016/j.envpol.2010.11.030
164967|A||Chen,P.J., C.H. Su, C.Y. Tseng, S.W. Tan, and C.H. Cheng|Toxicity Assessments of Nanoscale Zerovalent Iron and Its Oxidation Products in Medaka (Oryzias latipes) Fish|Mar. Pollut. Bull.63(5-12): 339-346|2011|10.1016/j.marpolbul.2011.02.045
164968|A||Dolezelova,P., S. Macova, L. Plhalova, V. Pistekova, Z. Svobodova, I. Bedanova, and E. Voslarova|Comparison of the Sensitivity of Different Fish Species to Medical Substances|Neuroendocrinol. Lett.30(1): 248-252|2009|
164969|A||Chen,L., L. Zhou, Y. Liu, S. Deng, H. Wu, and G. Wang|Toxicological Effects of Nanometer Titanium Dioxide (Nano-TiO2) on Chlamydomonas reinhardtii|Ecotoxicol. Environ. Saf.84:155-162|2012|10.1016/j.ecoenv.2012.07.019
164970|A||Chen,D., D. Zhang, J.C. Yu, and K.M. Chan|Effects of Cu2O Nanoparticle and CuCl2 on Zebrafish Larvae and a Liver Cell-Line|Aquat. Toxicol.105(3/4): 344-354|2011|10.1016/j.aquatox.2011.07.005
164971|T||Bao-Cutrona,M., and P. Moral|Unexpected Expression Pattern of Tetracycline-Regulated Transgenes in Mice|Genetics181:1687-1691|2009|10.1534/genetics.108.097600
164972|AT||Chen,S.J., F. Lu, J.A. Cheng, M.X. Jiang, and M.O. Way|Identification and Biological Role of the Endosymbionts Wolbachia in Rice Water Weevil (Coleoptera: Curculionidae)|Environ. Entomol.41(3): 469-477|2012|10.1603/EN11195
164973|A||Denson,M.R., and T.I.J. Smith|Use of Oxytetracycline to Mark Larval Red Drum: Survival and Mark Persistence|N. Am. J. Fish. Manag.28:1779-1789|2008|10.1577/M07-049.1
164974|T||Dong,L., J. Gao, X. Xie, and Q. Zhou|DNA Damage and Biochemical Toxicity of Antibiotics in Soil on the Earthworm Eisenia fetida|Chemosphere89(1): 44-51|2012|10.1016/j.chemosphere.2012.04.010
164975|A||Gallina,G., C. Poltronieri, R. Merlanti, and M. De Liguoro|Acute Toxicity Evaluation of Four Antibacterials with Daphnia magna|Vet. Res. Commun.32(Suppl.1): S287-S290|2008|
164976|A||Bundschuh,M., J.P. Zubrod, D. Englert, F. Seitz, R.R. Rosenfeldt, and R. Schulz|Effects of Nano-TiO2 in Combination with Ambient UV-Irradiation on a Leaf Shredding Amphipod|Chemosphere85(10): 1563-1567|2011|10.1016/j.chemosphere.2011.07.060
164977|T||Giordano,R., E. Weber, J. Waite, N. Bencivenga, P.H. Krogh, and F. Soto-Adames|Effect of a High Dose of Three Antibiotics on the Reproduction of a Parthenogenetic Strain of Folsomia candida (Isotomidae: Collembola)|Environ. Entomol.39(4): 1170-1177|2010|10.1603/EN10027
164978|T||Henry,R.S., K.A. Wise, and W.G. Johnson|Glyphosate's Effect upon Mineral Accumulation in Soybean|Crop Manag.10(1): 8 p.|2011|10.1094/CM-2011-1024-01-RS
164979|T||Fernandez,R., A. Bertrand, J.I. Garcia, R.S. Tames, and A. Gonzalez|Lead Accumulation and Synthesis of Non-Protein Thiolic Peptides in Selected Clones of Melilotus alba and Melilotus officinalis|Environ. Exp. Bot.78:18-24|2012|10.1016/j.envexpbot.2011.12.016
164980|A||Cangialosi,M.V., V. Mansueto, E. Puccia, I. Corsi, S. Bonacci, S. Focardi, and A. Mazzola|A Biochemical Study of the Effects of Tributyltin on Unfertilized Eggs, Embryos and Larvae of the Sea Squirt Ciona intestinalis|Caryologia (Multiple Languages)62(4): 309-315|2009|
164981|A||Fan,T., M. Yu, L. Yang, Z. Shi, W. Sun, R. Cong, X. Yang, and G.Z. Jiang|Effects of Several Immunostimulants on Phenoloxidase and Hemocytes of the Crab Charybdis japonka|J. Ocean Univ. China8(3): 222-228|2009|10.1007/s11802-009-0222-6
164982|A||Chourpagar,A.R., and G.K. Kulkarni|Toxic Effect of Copper Sulphate on Lactate Dehydrogenase Activity in a Freshwater Crab, Barytelphusa cunicularis (Westwood)|World J. Zool.4(3): 180-183|2009|
164983|A||Cheevaporn,V., M. Pindang, and H.F. Helander|Polycyclic Aromatic Hydrocarbon Contamination in Nile Tilapia (Oreochromis niloticus):  Analysis in Liver and Bile|Environ. Asia3(2): 8-14|2010|
164984|AT||Aziz,A., and A. Ahmed|Effects of Arsenic on Diversity of Rice Field Weeds|Dhaka Univ. J. Biol. Sci.19(1): 95-98|2010|10.3329/dujbs.v19i1.8949
164985|A||Annabi,A., K. Kessabi, A. Kerkeni, K. Said, and I. Messaoudi|Influence of Cadmium Exposure on Growth and Fecundity of Freshwater Mosquitofish Gambusia affinis:  In Situ and In Vivo Studies|Biol. Trace Elem. Res.148(3): 345-355|2012|10.1007/s12011-012-9372-2
164986|A||Nations,S., M. Wages, J.E. Canas, J. Maul, C. Theodorakis, and G.P. Cobb|Acute Effects of Fe2O3, TiO2, ZnO and CuO Nanomaterials on Xenopus laevis|Chemosphere83(8): 1053-1061|2011|10.1016/j.chemosphere.2011.01.061
164987|T||Ma,H., N.J. Kabengi, P.M. Bertsch, J.M. Unrine, T.C. Glenn, and P.L. Williams|Comparative Phototoxicity of Nanoparticulate and Bulk ZnO to a Free-Living  Nematode Caenorhabditis elegans:  The Importance of Illumination Mode and  Primary Particle Size|Environ. Pollut.159(6): 1473-1480|2011|10.1016/j.envpol.2011.03.013
164988|A||McLaughlin,J., and J.C.J. Bonzongo|Effects of Natural Water Chemistry on Nanosilver Behavior and Toxicity to Ceriodaphnia dubia and Pseudokirchneriella subcapitata|Environ. Toxicol. Chem.31(1): 168-175|2012|10.1002/etc.720
164989|A||Mendonca,E., M. Diniz, L. Silva, I. Peres, L. Castro, J.B. Correia, and A. Picado|Effects of Diamond Nanoparticle Exposure on the Internal Structure and Reproduction of Daphnia magna|J. Hazard. Mater.186(1): 265-271|2011|10.1016/j.jhazmat.2010.10.115
164990|T||Islam,K.M.S., S. Afrin, P.M. Das, M.M. Hassan, M. Valks, U. Klein, D.G.S. Burch, and B.W. Kemppainen|Compatibility of a Combination of Tiamulin and Chlortetracycline with Salinomycin in Feed During a Pulsed Medication Program Coadministration in Broilers|Poult. Sci.87:2528-2534|2008|10.3382/ps.2008-00219
164991|T||Islam,K.M.S., S. Afrin, M.J. Khan, P.M. Das, M.M. Hassan, M. Valks, D.G.S. Burch, and G.M. Pesti|Compatibility of a Combination of Tiamulin Plus Chlortetracycline with Salinomycin in Feed During a Long-Term Co-Administration in Broilers|Poult. Sci.87:1565-1568|2008|10.3382/ps.2008-00071
164992|A||Langdon,C., A. Nordgreen, M. Hawkyard, and K. Hamre|Evaluation of Wax Spray Beads for Delivery of Low-Molecular Weight, Water-Soluble Nutrients and Antibiotics to Artemia|Aquaculture284(1-4): 151-158|2008|10.1016/j.aquaculture.2008.07.032
164993|T||Mason,S.E., R.E. Baynes, G.W. Almond, J.E. Riviere, and A.B. Scheidt|Pharmacology of Tetracycline Water Medication in Swine|J. Anim. Sci.87:3179-3186|2009|10.2527/jas.2009-1877
164994|A||Mauk,R.|Efficacy of Oxytetracycline Marking of Fingerling Palmetto Bass in Hard Water|N. Am. J. Fish. Manag.28:258-262|2008|10.1577/M06-101.1
164995|T||Oliver,B.G., P.M. Silver, C. Marie, S.J. Hoot, S.E. Leyde, and T.C. White|Tetracycline Alters Drug Susceptibility in Candida albicans and Other Pathogenic Fungi|Microbiology154:960-970|2008|10.1099/mic.0.2007/013805-0
164996|T||Opris,O., F. Copaciu, M.L. Soran, D. Ristoiu, U. Niinemets, and L. Copolovici|Influence of Nine Antibiotics on Key Secondary Metabolites and Physiological Characteristics in Triticum aestivum: Leaf Volatiles as a Promising New Tool to Assess Toxicity|Ecotoxicol. Environ. Saf.87:70-79|2012|10.1016/j.ecoenv.2012.09.019
164997|T||Osselaere,A., M. Devreese, A. Watteyn, V. Vandenbroucke, J. Goossens, V. Hautekiet, M. Eeckhout, S. De Saeger, S. De Ba|Efficacy and Safety Testing of Mycotoxin-Detoxifying Agents in Broilers Following the European Food Safety Authority Guidelines|Poult. Sci.91(8): 2046-2054|2012|10.3382/ps.2012-02245
165000|A||Rosenblum,E.S., T.T. Robbins, B.B. Scott, S. Nelson, C. Juhasz, A. Craigmill, R.S. Tjeerdema, J.D. Moore, and C.S. Frie|Efficacy, Tissue Distribution, and Residue Depletion of Oxytetracycline in WS-RLP Infected California Red Abalone Haliotis rufescens|Aquaculture277(3/4): 138-148|2008|10.1016/j.aquaculture.2008.03.005
165001|T||Shelton,N.W., M.E. Jacob, M.D. Tokach, J.L. Nelssen, R.D. Goodband, S.S. Dritz, J.M. DeRouchey, R.G. Amachawadi, X. Shi|Effects of Copper Sulfate, Zinc Oxide, and NeoTerramycin on Weanling Pig Growth and Antibiotic Resistance Rate for Fecal Escherichia coli|Rep. Prog. Kansas Agric. Exp. Stn.:73-79|2009|10.4148/2378-5977.6794
165002|T||Stanton,A.L., D.F. Kelton, S.J. LeBlanc, J. Wormuth, and K.E. Leslie|The Effect of Respiratory Disease and a Preventative Antibiotic Treatment on Growth, Survival, Age at First Calving, and Milk Production of Dairy Heifers|J. Dairy Sci.95(9): 4950-4960|2012|10.3168/jds.2011-5067
165003|T||Xu,X.M., Y.S. Wang, R.Y. Chen, C.L. Feng, F. Yao, S.S. Tong, L. Wang, F. Yamashita, and J.N. Yu|Formulation and Pharmacokinetic Evaluation of Tetracycline-Loaded Solid Lipid Nanoparticles for Subcutaneous Injection in Mice|Chem. Pharm. Bull.59(2): 260-265|2011|10.1248/cpb.59.260
165004|T||Yang,Q., J. Zhang, W. Zhang, Z. Wang, Y. Xie, and H. Zhang|Influence of Tetracycline Exposure on the Growth of Wheat Seedlings and the Rhizosphere Microbial Community Structure in Hydroponic Culture|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes45:190-197|2010|
165005|A||Macken,A., H.J. Byrne, and K.V. Thomas|Effects of Salinity on the Toxicity of Ionic Silver and Ag-PVP Nanoparticles to Tisbe battagliai and Ceramium tenuicorne|Ecotoxicol. Environ. Saf.86:101-110|2012|10.1016/j.ecoenv.2012.08.025
165006|T||Yu,H.Y., B.L. Wang, J. Zhao, X.M. Yao, Y. Gu, and Y. Li|Protective Effect of Bicyclol on Tetracycline-Induced Fatty Liver in Mice|Toxicology261:112-118|2009|10.1016/j.tox.2009.04.058
165007|A||Manusadzianas,L., C. Caillet, L. Fachetti, B. Gylyte, R. Grigutyte, S. Jurkoniene, R. Karitonas, K. Sadauskas, F. Thoma|Toxicity of Copper Oxide Nanoparticle Suspensions to Aquatic Biota|Environ. Toxicol. Chem.31(1): 108-114|2012|10.1002/etc.715
165008|A||Nandi,I., P. Mitra, P. Banerjee, A. Chakrabarti, M. Ghosh, and S. Chakrabarti|Ecotoxicological Impact of Sunlight Assisted Photoreduction of Hexavalent Chromium Present in Wastewater with Zinc Oxide Nanoparticles on Common Anabaena flos-aquae|Ecotoxicol. Environ. Saf.86:7-12|2012|10.1016/j.ecoenv.2012.08.020
165009|A||Han,Z., J. Li, W. Bao, and J. Wang|Enhanced Toxicity of Atrazine to Daphnia magna in the Presence of Nano-CeO2|Chin. J. Geochem.31(3): 297-302|2012|10.1007/s11631-012-0578-y
165010|A||Mwangi,J.N., N. Wang, A. Ritts, J.L. Kunz, C.G. Ingersoll, H. Li, and B. Deng|Toxicity of Silicon Carbide Nanowires to Sediment-Dwelling Invertebrates in Water or Sediment Exposures|Environ. Toxicol. Chem.30(4): 981-987|2011|10.1002/etc.467
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165014|A||Mortimer,M., K. Kasemets, M. Vodovnik, R. Marinsek-Logar, and A. Kahru|Exposure to CuO Nanoparticles Changes the Fatty Acid Composition of Protozoa Tetrahymena thermophila|Environ. Sci. Technol.45(15): 6617-6624|2011|10.1021/es201524q
165017|T||Liu,K., X. Pan, Y. Han, F. Tang, and Y. Yu|Estimating the Toxicity of the Weak Base Carbendazim to the Earthworm (Eisenia fetida) Using In Situ Pore Water Concentrations in Different Soils|Sci. Total Environ.438:26-32|2012|10.1016/j.scitotenv.2012.08.008
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165026|T||Hitoshi,K., M. Katoh, Y. Tanaka, S. Kurono, K. Hotta, H. Saito, T. Hasegawa, and M. Nadai|Mechanism of Drug Interaction Between a Kampo Medicine, Byakkokaninjinto, and Tetracycline in Rats|J. Infect. Chemother.18:75-82|2012|10.1007/s10156-011-0294-2
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165070|T||Digby,S.N., D.G. Masters, D. Blache, P.I. Hynd, and D.K. Revell|Offspring Born to Ewes Fed High Salt During Pregnancy have Altered Responses to Oral Salt Loads|Animal4(1): 81-88|2010|10.1017/S1751731109990772
165071|T||Chadwick,M.A., I.H. Williams, P.E. Vercoe, and D.K. Revell|Feeding Pregnant Ewes a High-Salt Diet or Saltbush Suppresses Their Offspring's Postnatal Renin Activity|Animal3(7): 972-979|2009|10.1017/S175173110900425X
165072|A||Ebrahimpour,M., M. Mosavisefat, and R. Mohabbati|Acute Toxicity Bioassay of Mercuric Chloride:  An Alien Fish from a River|Toxicol. Environ. Chem.92(1): 169-173|2010|10.1080/02772240902794977
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165074|A||Das,P.C., J.K. Jena, N.B.P. Nanda, and D.D. Bhatnagar|Cube Root Powder is a Better Piscicide than Bleaching Powder for Pre-Stocking Carp Nursery Pond Preparation|Toxicol. Environ. Chem.92(1): 137-147|2010|10.1080/02772240902756802
165075|A||Gopal,R., S. Narmada, R. Vijayakumar, and C.A. Jaleel|Chelating Efficacy of CaNa2 EDTA on Nickel-Induced Toxicity in Cirrhinus mrigala (Ham.) Through Its Effects on Glutathione Peroxidase, Reduced Glutathione and Lipid Peroxidation|C. R. Biol. (Multiple Languages)332(8): 685-696|2009|10.1016/j.crvi.2009.03.004
165076|T||Abdel-Rahman,S.M., and G.M. Abd El-Aziz|Effect of Three Insecticides on Development of Trichogramma cacoeciae Marchal (Hymenoptera: Trichogrammatidae) Under Laboratory Conditions|Egypt. J. Biol. Pest Control22(2): 109-114|2012|
165077|A||Abdel-Tawwab,M., G.O. El-Sayed, and S.H. Shady|Effects of Dietary Protein Levels and Environmental Zinc Exposure on the Growth, Feed Utilization, and Biochemical Variables of Nile Tilapia, Oreochromis niloticus (L.)|Toxicol. Environ. Chem.94(7): 1368-1382|2012|10.1080/02772248.2012.703202
165078|T||Carrasco-Letelier,L., Y. Mendoza, and G. Ramallo|Acute Contact Toxicity Test of Oxalic Acid on Honeybees in the Southwestern Zone of Uruguay|Chil. J. Agric. Res.72(2): 285-289|2012|10.4067/S0718-58392012000200019
165079|A||Koc,N.D., C. Akbulut, F.E. Kayhan, and G. Kaymak|Histopathological Changes in Testis of the Swordtail Fish, Xiphophorus helleri (Pisces: Poecilidae) Exposed to Deltamethrin|Fresenius Environ. Bull.21(10): 2866-2870|2012|
165080|A||Li,M., C.Y. Wan, X.J. Pan, Y. Zou, S.Y. Chi, and J.B. Chang|Comparative Study of Stress by Four Heavy Metals on Chlamydomonas reinhardtii and the Potential Application in BBE Algae Toximeter|Fresenius Environ. Bull.22(5a): 1494-1500|2013|
165081|A||Ellouze,M., F. Aloui, and S. Sayadi|Study on the Influence of High Salts Content on Fungal Treatment of Saline Wastewaters|Desalin. Water Treatment13(1-3): 411-417|2009|10.5004/dwt.2010.998
165082|T||Flores,P., M.A. Botella, A. Cerda, and V. Martinez|Influence of Nitrate Level on Nitrate Assimilation in Tomato (Lycopersicon esculentum) Plants Under Saline Stress|Can. J. Bot.82(2): 207-213|2004|10.1139/b03-152
165084|T||Garcia-Sanchez,F., V. Martinez, J. Jifon, J.P. Syvertsen, and J.W. Grosser|Salinity Reduces Growth, Gas Exchange, Chlorophyll and Nutrient Concentrations in Diploid Sour Orange and Related Allotetraploid Somatic Hybrids|J. Hortic. Sci. Biotechnol.77(4): 379-386|2002|10.1080/14620316.2002.11511509
165085|A||Schumann,T., J. Grudzinska, D. Kuzmin, H. Betz, and B. Laube|Binding-Site Mutations in the alpha1 Subunit of the Inhibitory Glycine Receptor Convert the Inhibitory Metal Ion Cu2+ into a Positive Modulator|Neuropharmacology56(1): 310-317|2009|10.1016/j.neuropharm.2008.08.024
165086|A||Saeedi Saravi,S.S., S. Karami, B. Karami, and M. Shokrzadeh|Toxic Effects of Cobalt Chloride on Hematological Factors of Common Carp (Cyprinus carpio)|Biol. Trace Elem. Res.132(1-3): 144-152|2009|10.1007/s12011-009-8388-8
165087|A||Bayram,Y., M. Yilmaz, Y. Ersan, E. Koc, and A. Baysal|Toxic Effects of Cobalt II Chloride on Tissue Histopathology and Serum Proteins in Capoeta capoeta capoeta (Guldenstaedt 1772)|Kafkas Univ. Veter. Fakult. Dergisi16(Suppl.B): 259-263|2010|
165088|A||Zaki,M.S., N.E. Sharaf, and M.H. Osfor|Effect of Vanadium Toxicity on Biochemical, Haematological and Clinicopathological Changes in Clarias lazera Present in the River Nile|Am.-Eurasian J. Agric. Environ. Sci.2(6): 741-745|2007|
165089|A||Li,M., Q. Zhu, C.W. Hu, L. Chen, Z.L. Liu, and Z.M. Kong|Cobalt and Manganese Stress in the Microalga Pavlova viridis (Prymnesiophyceae):  Effects on Lipid Peroxidation and Antioxidant Enzymes|J. Environ. Sci. (China)19(11): 1330-1335|2007|10.1016/S1001-0742(07)60217-4
165090|A||Kumar,A., and V.P. Sabhlok|Effect of Heavy Metals on Physical and Behavioral Characteristics of Fresh Water Fish (Cirrhinus mrigala)|Environ. Ecol.29(1): 238-241|2011|
165091|A||Jee,J.H., J.G. Koo, Y.H. Keum, K.H. Park, S.H. Choi, and J.C. Kang|Effects of Dibutyl Phthalate and Di-Ethylhexyl Phthalate on Acetylcholinesterase Activity in Bagrid Catfish, Pseudobagrus fulvidraco (Richardson)|J. Appl. Ichthyol.25(6): 771-775|2009|10.1111/j.1439-0426.2009.01331.x
165092|A||Kumari,B., J. Ahsan, and V. Kumar|Comparative Studies of Liver and Brain Glycogen Content of Male and Female Clarias batrachus (L.) After Exposure of Different Doses of Arsenic|Toxicol. Environ. Chem.94(9): 1758-1767|2012|10.1080/02772248.2012.726823
165093|A||Nagarani,N., and A.K. Kumaraguru|Influence of Marine Alga Against Mercury-Induced Biochemical Changes, Structural Destabilization, and Genotoxicity in Marine Tiger Fish, Therapon jarbua|Toxicol. Environ. Chem.94(7): 1383-1400|2012|10.1080/02772248.2012.698850
165094|A||Nagarani,N., V. JanakiDevi, M. YokeshBabu, and A.K. Kumaraguru|Protective Effect of Kappaphycus alvarezii (Rhodophyta) Extract Against DNA Damage Induced by Mercury Chloride in Marine Fish|Toxicol. Environ. Chem.94(7): 1401-1410|2012|10.1080/02772248.2012.707792
165095|A||Ling,F., J.G. Wang, Q.F. Liu, M. Li, L.T. Ye, and X.N. Gong|Prevention of Ichthyophthirius multifiliis Infestation in Goldfish (Carassius auratus) by Potassium Ferrate(VI) Treatment|Vet. Parasitol.168(3/4): 212-216|2010|10.1016/j.vetpar.2009.11.009
165096|A||Lu,X.F., F.Y. Liu, X.P. Zhou, Q.F. Zhou, and Y.L. Deng|Effects of Cadmium, 17 beta -Estradiol and Their Interaction in the Male Chinese Loach (Misgurnus anguillicaudatus)|Chin. Sci. Bull.57(8): 858-863|2012|10.1007/s11434-011-4708-4
165097|A||Lu,Z.Q., W.J. Zheng, and L. Ma|Growth and Physiological Responses of Mangrove Kandelia candel (L.) Druce (Rhizophoracea) to Naphthalene Exposure|Vie Milieu62(2): 55-59|2012|
165098|A||Deng,B., Q. Xu, H. Lu, L. Ye, and Y. Wang|Pharmacokinetics and Residues of Tetracycline in Crucian Carp Muscle Using Capillary Electrophoresis On-Line Coupled with Electrochemiluminescence Detection|Food Chem.134(4): 2350-2354|2012|10.1016/j.foodchem.2012.03.117
165099|A||Ando,D., T. Fujisawa, and T. Katagi|Uptake, Translocation, and Metabolism of 3-Phenoxybenzoic Acid in the Submerged Rooted Macrophyte Water Milfoil (Myriophyllum elatinoides)|J. Pestic. Sci. (Multiple Languages)37(4): 342-346|2012|10.1584/jpestics.D12-031
165100|T||Nguyen,N.T., H. Saneoka, R. Suwa, and K. Fujita|The Interaction Among Provenances of Melaleuca leucadendra (Weeping Paperbark), Salt, and Aluminum|For. Sci.55(5): 443-454|2009|
165101|T||Muralitharan,M.S., S. Chandler, and R.F.M. Van Steveninck|Effects of NaCl and Na2SO4 on Growth and Solute Composition of Highbush Blueberry (Vaccinium corymbosum)|Aust. J. Plant Physiol.19(2): 155-164|1992|
165102|T||Minervino,A.H.H., R.A. Barreto-Junior, R.N.F. Ferreira, F.A.M.L. Rodrigues, S.A. Headley, C.S. Mori, and E.L. Ortolani|Clinical Observations of Cattle and Buffalos with Experimentally Induced Chronic Copper Poisoning|Res. Vet. Sci.87(3): 473-478|2009|10.1016/j.rvsc.2009.05.002
165103|T||Liu,J., M.M. Peden-Adams, S. Knuteson, J. Dancik, K. Bryant, A.B. Bodine, and R.L. Dickerson|Alterations in Immune Function and CYP450 Activity of Adult Male Deer Mice Following Exposure to Either 7,12-Dimethylbenz(a)anthracene or Benzo(b)fluoranthene|Toxicol. Environ. Chem.93(4): 761-779|2011|10.1080/02772248.2011.558998
165104|A||Lee,K.H., A. Yamaguchi, H. Rashid, K. Kadomura, S. Yasumoto, and M. Matsuyama|Estradiol-17beta Treatment Induces Intersexual Gonadal Development in the Pufferfish, Takifugu rubripes|Zool. Sci.26(9): 639-645|2009|
165105|A||Liu,D., J. Yang, and L. Wang|Cadmium Induces Ultrastructural Changes in the Hepatopancreas of the Freshwater Crab Sinopotamon henanense|Micron47:24-32|2013|10.1016/j.micron.2013.01.002
165106|T||Laurino,D., A. Manino, A. Patetta, and M. Porporato|Toxicity of Neonicotinoid Insecticides on Different Honey Bee Genotypes|Bull. Insectol.66(1): 119-126|2013|
165107|A||Li,X., Q. Zhou, Y. Luo, G. Yang, and T. Zhou|Joint Action and Lethal Levels of Toluene, Ethylbenzene, and Xylene on Midge (Chironomus plumosus) Larvae|Environ. Sci. Pollut. Res.20(2): 957-966|2013|10.1007/s11356-012-1264-7
165109|A||MacPhail,R.C., J. Brooks, D.L. Hunter, B. Padnos, T.D. Irons, and S. Padilla|Locomotion in Larval Zebrafish:  Influence of Time of Day, Lighting and Ethanol|Neurotoxicology30:52-58|2009|10.1016/j.neuro.2008.09.011
165110|A||Ma,R.X., D.H. Liu, H. Qu, G.X. Zhou, Z.Q. Zhou, and P. Wang|Enantioselective Toxicokinetics Study of the Bioaccumulation and Elimination of alpha-Hexachlorocyclohexane in Loaches (Misgurnus anguillicaudatus) and Its Environmental Implications|Chemosphere90(7): 2181-2186|2013|10.1016/j.chemosphere.2012.11.028
165111|A||La Carbona,S., S. Viitasalo-Frosen, D. Masson, J. Sassi, S. Pineau, M. Lehtiniemi, and D. Corroler|Efficacy and Environmental Acceptability of Two Ballast Water Treatment Chemicals and an Alkylamine Based-Biocide|Sci. Total Environ.409(2): 247-255|2010|10.1016/j.scitotenv.2010.10.006
165112|A||Mihaich,E.M., U. Friederich, N. Caspers, A.T. Hall, G.M. Klecka, S.S. Dimond, C.A. Staples, L.S. Ortego, and S.G. Hentg|Acute and Chronic Toxicity Testing of Bisphenol A with Aquatic Invertebrates and Plants|Ecotoxicol. Environ. Saf.72(5): 1392-1399|2009|10.1016/j.ecoenv.2009.02.005
165113|A||Habib,K., N. Manikar, S. Ansari, and T. Fatma|Carbaryl Stress Induced Cellular Changes in Calothrix brevissima|Environ. Sci. Pollut. Res.20(2): 862-871|2013|10.1007/s11356-012-1217-1
165114|T||Carlsen,L., B.N. Kenessov, S. Batyrbekova, S.Z. Kolumbaeva, and T.M. Shalakhmetova|Assessment of the Mutagenic Effect of 1,1-Dimethyl Hydrazine|Environ. Toxicol. Pharmacol.28(3): 448-452|2009|10.1016/j.etap.2009.08.004
165116|A||Johnson,J., W. Manzo, E. Gardner, and J. Menon|Reactive Oxygen Species and Anti-Oxidant Defenses in Tail of Tadpoles, Xenopus laevis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.158(2): 101-108|2013|10.1016/j.cbpc.2013.05.003
165118|A||Huang,G.Y., G.G. Ying, Y.Q. Liang, Y.S. Liu, and S.S. Liu|Effects of Steroid Hormones on Reproduction- and Detoxification-Related Gene Expression in Adult Male Mosquitofish, Gambusia affinis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.158(1): 36-43|2013|10.1016/j.cbpc.2013.05.001
165119|T||Lodeta,K.B., S.G. Ban, S. Perica, G. Dumicic, and L. Bucan|Response of Poinsettia to Drench Application of Growth Regulators|J. Food Agric. Environ.8(1): 297-301|2010|
165120|A||Garnham,G.W., G.A. Codd, and G.M. Gadd|Uptake of Cobalt and Cesium by Microalgal-Clay and Cyanobacterial-Clay Mixtures|Microb. Ecol.25:71-82|1993|10.1007/BF00182130
165122|A||Puttaswamy,N., and K. Liber|Influence of Inorganic Anions on Metals Release from Oil Sands Coke and on Toxicity of Nickel and Vanadium to Ceriodaphnia dubia|Chemosphere86(5): 521-529|2012|10.1016/j.chemosphere.2011.10.018
165123|A||Jemec,A., T. Tisler, B. Erjavec, and A. Pintar|Antioxidant Responses and Whole-Organism Changes in Daphnia magna Acutely and Chronically Exposed to Endocrine Disruptor Bisphenol A|Ecotoxicol. Environ. Saf.86:213-218|2012|10.1016/j.ecoenv.2012.09.016
165125|A||Kubrak,O.I., V.V. Husak, B.M. Rovenko, J.M. Storey, K.B. Storey, and V.I. Lushchak|Cobalt-Induced Oxidative Stress in Brain, Liver and Kidney of Goldfish Carassius  auratus|Chemosphere85(6): 983-989|2011|10.1016/j.chemosphere.2011.06.078
165126|A||Kramarova,Z., A. Fargasova, M. Molnarova, and M. Bujdos|Arsenic and Selenium Interactive Effect on Alga Desmodesmus quadricauda|Ecotoxicol. Environ. Saf.86:1-6|2012|10.1016/j.ecoenv.2012.08.028
165127|T||Zeng,Q., L. Jiang, D. Wang, S. Huang, and D. Yang|Camptothecin and 10-Hydroxycamptothecin Accumulation in Tender Leaves of Camptotheca acuminata Saplings After Treatment with Plant Growth Regulators|Plant Growth Regul.68:467-473|2012|10.1007/s10725-012-9736-9
165128|A||Iyapparaj,P., P. Revathi, R. Ramasubburayan, S. Prakash, P. Anantharaman, G. Immanuel, and A. Palavesam|Antifouling Activity of the Methanolic Extract of Syringodium isoetifolium, and Its Toxicity Relative to Tributyltin on the Ovarian Development of Brown Mussel Perna indica|Ecotoxicol. Environ. Saf.89:231-238|2013|10.1016/j.ecoenv.2012.12.001
165129|A||Humble,J.L., E. Hands, M. Saaristo, K. Lindstrom, K.K. Lehtonen, O. Diaz de Cerio, I. Cancio, G. Wilson, and J.A. Craft|Characterisation of Genes Transcriptionally Upregulated in the Liver of Sand Goby (Pomatoschistus minutus) by 17alpha-Ethinyloestradiol:  Identification of Distinct Vitellogenin and Zona radiata Protein Transcripts|Chemosphere90(11): 2722-2729|2013|10.1016/j.chemosphere.2012.11.053
165130|A||Liu,J., and G. Yang|Changes in Copper Content of Allogynogenetic Silver Crucian Carp After Application of Copper Sulfate to Fishponds|Isr. J. Aquacult. Bamidgeh61(4): 351-355|2009|
165131|A||Kotsyuba,E.P., I.V. Dyuizen, and N.E. Lamash|Stress-Induced Changes in the Nitric Oxide System of Shore Crabs Living Under Different Ecological Conditions|Russ. J. Mar. Biol.36(3): 201-208|2010|10.1134/S1063074010030065
165132|A||Huang,L.Z., G.M. Zeng, D.L. Huang, L.F. Li, C.Y. Du, and L. Zhang|Biosorption of Cadmium(II) from Aqueous Solution onto Hydrilla verticillata|Environ. Earth Sci.60(8): 1683-1691|2010|10.1007/s12665-009-0302-3
165133|T||Kaushik,P., and A. Malik|Comparative Performance Evaluation of Aspergillus lentulus for Dye Removal Through Bioaccumulation and Biosorption|Environ. Sci. Pollut. Res. Int.20(5): 31 p.|2013|10.1007/s11356-012-1190-8
165134|T||Drozdowski,L.A., C. Iordache, M.T. Clandinin, Z. Todd, M. Gonnet, G. Wild, R.R.E. Uwiera, and A.B.R. Thomson|Maternal Dexamethasone and GLP-2 Have Early Effects on Intestinal Sugar Transport in Their Suckling Rat Offspring|J. Nutr. Biochem.20(10): 771-782|2009|10.1016/j.jnutbio.2008.07.006
165135|A||Tabouret,H., S. Pomerleau, A. Jolivet, C. Pecheyran, R. Riso, J. Thebault, L. Chauvaud, and D. Amouroux|Specific Pathways for the Incorporation of Dissolved Barium and Molybdenum into the Bivalve Shell:  An Isotopic Tracer Approach in the Juvenile Great Scallop (Pecten maximus)|Mar. Environ. Res.78:15-25|2012|10.1016/j.marenvres.2012.03.006
165136|A||Mukherjee,S., and A. Kaviraj|Ecotoxicological Assessment of Cobalt Used as Supplement in the Diet of Common Carp Cyprinus carpio|Bull. Environ. Contam. Toxicol.87(5): 527-530|2011|10.1007/s00128-011-0384-y
165137|A||Kubrak,O.I., B.M. Rovenko, V.V. Husak, O.Y. Vasylkiv, K.B. Storey, J.M. Storey, and V.I. Lushchak|Goldfish Exposure to Cobalt Enhances Hemoglobin Level and Triggers Tissue-Specific Elevation of Antioxidant Defenses in Gills, Heart and Spleen|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 325-332|2012|10.1016/j.cbpc.2011.09.012
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165139|T||Thanik,D.D.|The Effects of Four Tetracycline Drugs on Animal Growth and Hard Tissue Development in Rats|M.S. Thesis, University of Alberta, Canada:231 p.|1974|
165140|T||Ci,X., X. Chu, C. Chen, X. Li, S. Yan, X. Wang, Y. Yang, and X. Deng|Oxytetracycline Attenuates Allergic Airway Inflammation in Mice via Inhibition of the NF-kB Pathway|J. Clin. Immunol.31:216-227|2011|10.1007/s10875-010-9481-7
165141|T||Feng,Y.N., S. Zhao, W. Sun, M. Li, W.C. Lu, and L. He|The Sodium Channel Gene in Tetranychus cinnabarinus (Boisduval): Identification and Expression Analysis of a Mutation Associated with Pyrethroid Resistance|Pest Manag. Sci.67(8): 904-912|2011|10.1002/ps.2129
165142|T||Martin,N.A., P.J. Workman, and R.C. Butler|Insecticide Bioassays for Western Flower Thrips (Frankliniella occidentalis) (Thysanoptera:  Thripidae) and Greenhouse Whitefly (Trialeurodes vaporariorum) (Hemiptera:  Aleyrodidae)|N. Z. J. Crop Hortic. Sci.33(2): 177-184|2005|10.1080/01140671.2005.9514347
165143|T||Wardlow,L.R., and R.F. Nicholls|Chemical Control of Blackcurrant Leaf Midge Using Fenpropathrin|Br. Crop Prot. Conf. Pests Dis.1:359-362|1986|
165144|A||Lawal,M.O., and O.B. Samuel|Investigation of Acute Toxicity of Pirimiphos-Methyl (Actellic, 25%EC) on Guppy (Poecilia reticulata, Peters, 1859)|Pak. J. Biol. Sci.13(8): 405-408|2010|10.3923/pjbs.2010.405.408
165145|A||Serdoz,F., D. Voinovich, B. Perissutti, I. Grabnar, D. Hasa, R. Ballestrazzi, E. Coni, and E. Pellegrini|Development and Pharmacokinetic Evaluation of Erythromycin Lipidic Formulations for Oral Administration in Rainbow Trout (Oncorhynchus mykiss)|Eur. J. Pharm. Biopharm.78(3): 401-407|2011|10.1016/j.ejpb.2011.03.007
165147|A||Yonar,M.E.|The Effect of Lycopene on Oxytetracycline-Induced Oxidative Stress and Immunosuppression in Rainbow Trout (Oncorhynchus mykiss, W.)|Fish Shellfish Immunol.32:994-1001|2012|10.1016/j.fsi.2012.02.012
165148|A||Yonar,M.E., S.M. Yonar, and S. Silici|Protective Effect of Propolis Against Oxidative Stress and Immunosuppression Induced by Oxytetracycline in Rainbow Trout (Oncorhynchus mykiss, W.)|Fish Shellfish Immunol.31(2): 318-325|2011|10.1016/j.fsi.2011.05.019
165149|A||Popovic,N.T., T. Howell, J.G. Babish, and P.R. Bowser|Cross-Sectional Study of Hepatic CYP1A and CYP3A Enzymes in Hybrid Striped Bass, Channel Catfish and Nile Tilapia Following Oxytetracycline Treatment|Res. Vet. Sci.92:283-291|2012|10.1016/j.rvsc.2011.03.003
165150|A||Liang,T., Q. Feng, T. Wu, W. Gu, and W. Wang|Use of Oxytetracycline for the Treatment of Tremor Disease in the Chinese Mitten Crab Eriocheir sinensis|Dis. Aquat. Org.84:243-250|2009|10.3354/dao02052
165151|A||Aguilar-Macias,O.L., J.J. Ojeda-Ramirez, A.I. Campa-Cordova, and P.E. Saucedo|Evaluation of Natural and Commercial Probiotics for Improving Growth and Survival of the Pearl Oyster, Pinctada mazatlanica, During Late Hatchery and Early Field Culturing|J. World Aquac. Soc.41(3): 447-454|2010|10.1111/j.1749-7345.2010.00386.x
165152|A||Feng,Q., G.H. Wu, T.M. Liang, H.Y. Ji, X.J. Jiang, W. Gu, and W. Wang|Pharmacokinetics of Oxytetracycline in Hemolymph from the Chinese Mitten Crab, Eriocheir sinensis|J. Vet. Pharmacol. Ther.34:51-57|2010|10.1111/j.1365-2885.2010.01192.x
165153|T||Bimazubute,M., C. Cambier, K. Baert, S. Vanbelle, P. Chiap, and P. Gustin|Penetration of Oxytetracycline into the Nasal Secretions and Relationship Between Nasal Secretions and Plasma Oxytetracycline Concentrations After Oral and Intramuscular Administration in Healthy Pigs|J. Vet. Pharmacol. Ther.34(2): 176-183|2011|10.1111/j.1365-2885.2010.01210.x
165154|T||El-Deek,A.A., M.A. Al-Harthi, M. Osman, F. Al-Jassas, and R. Nassar|Hot Pepper (Capsicum annum) as an Alternative to Oxytetracycline in Broiler Diets and Effects on Productive Traits, Meat Quality, Immunological Responses and Plasma Lipids|Arch. Gefluegelkd.76(2): 73-80|2012|
165155|T||El-Deek,A.A., M.A. Al-Harthi, M. Osman, F. Al-Jassas, and R. Nassar|Effect of Different Levels of Green Tea (Camellia sinensis) as a Substitute for Oxytetracycline as a Growth Promoter in Broilers Diets Containing Two Crude Protein Levels|Arch. Gefluegelkd.76(2): 88-98|2012|
165156|T||Fugler,L.A., S.C. Eades, R.M. Moore, C.E. Koch, and M.L. Keowen|Plasma Matrix Metalloproteinase Activity in Horses After Intravenous Infusion of Lipopolysaccharide and Treatment with Matrix Metalloproteinase Inhibitors|Am. J. Vet. Res.74(3): 473-480|2013|10.2460/ajvr.74.3.473
165157|T||Gatti,M., and R. Ungerfeld|Intravaginal Sponges to Synchronize Estrus Decrease Sexual Attractiveness in Ewes|Theriogenology78(8): 1796-1799|2012|10.1016/j.theriogenology.2012.07.001
165158|T||Guillot,M., K. Alexander, C. Pomar, and J.R.E. Del Castillo|Dietary Chlortetracycline Induces Differential Effects on the Accuracy of Quantitative Computed Tomography and Dual Energy X-Ray Absorptiometry in Assessing Vertebral Bone Mineral Density in Growing Pigs|Vet. J.185:169-173|2010|10.1016/j.tvjl.2009.05.012
165159|T||McLelland,D.J., I.K. Barker, G. Crawshaw, L.A. Hinds, L. Spilsbury, and R. Johnson|Single-Dose Pharmacokinetics of Oxytetracycline and Penicillin G in Tammar Wallabies (Macropus eugenii)|J. Vet. Pharmacol. Ther.34:160-167|2011|10.1111/j.1365-2885.2010.01216.x
165160|A||Sanchez-Martinez,J.G., R. Perez-Castaneda, J.L. Rabago-Castro, G. Aguirre-Guzman, and M.L. Vazquez-Sauceda|A Preliminary Study on the Effects on Growth, Condition, and Feeding Indexes in Channel Catfish, Ictalurus punctatus, After the Prophylactic Use of Potassium Permanganate and Oxytetracycline|J. World Aquac. Soc.39(5): 664-670|2008|10.1111/j.1749-7345.2008.00195.x
165161|T||Sieg,J., J. Hein, A. Jass, C. Sauter-Louis, K. Hartmann, and A. Fischer|Clinical Evaluation of Therapeutic Success in Rabbits with Suspected Encephalitozoonosis|Vet. Parasitol.187(1/2): 328-332|2012|10.1016/j.vetpar.2011.12.014
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165164|T||Li,Z.J., X.Y. Xie, S.Q. Zhang, and Y.C. Liang|Negative Effects of Oxytetracycline on Wheat (Triticum aestivum L.) Growth, Root Activity, Photosynthesis, and Chlorophyll Contents|Agric. Sci. China10(10): 1545-1553|2011|10.1016/S1671-2927(11)60150-8
165165|T||Kaiser,T., A. Werner, W. Baumer, and M. Kietzmann|Tissue Distribution of Dexamethasone in Canine Ocular Compartments Following Topical Application of Dexamethasone-21-Isonicotinate and Oxytetracycline HCl|Vet. Ophthalmol.11(5): 335-339|2008|10.1111/j.1463-5224.2008.00644.x
165166|T||Zhao,H.M., X. Yi, Y.Y. Deng, M.Y. Hu, G.H. Zhong, and P.D. Wang|Resistance to Fenpropathrin, Chlorpyriphos and Abamectin in Different Populations of Amblyseius longispinosus (Acari: Phytoseiidae) from Vegetable Crops in South China|Biol. Control67(1): 61-65|2013|10.1016/j.biocontrol.2013.07.007
165167|T||Kim,Y.H., A.L. Khan, M. Hamayun, J.T. Kim, J.H. Lee, I.C. Hwang, C.S. Yoon, and I.J. Lee|Effects of Prohexadione Calcium on Growth and Gibberellins Contents of Chrysanthemum morifolium R. cv Monalisa White|Sci. Hortic.123(3): 423-427|2010|10.1016/j.scienta.2009.09.022
165168|T||Meijon,M., R. Rodriguez, M. Jesus Canal, and I. Feito|Improvement of Compactness and Floral Quality in Azalea by Means of Application of Plant Growth Regulators|Sci. Hortic.119(2): 169-176|2009|10.1016/j.scienta.2008.07.023
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165170|T||Ribeiro,D.M., F.J.A. Pinheiro, C.R. Pelacani, B.M. De Lana Souza, A.M. Mapeli, C. Muller, E.C. Cabrini, T.G. Coelho, G.|A Simple Index for Describing the Efficacy of Chemicals in Breaking Seed Dormancy|Seed Technol.30:76-81|2008|
165171|T||Papafotiou,M., and A. Vagena|Cotton Gin Trash Compost in the Substrate Reduces the Daminozide Spray Dose Needed to Produce Compact Potted Chrysanthemum|Sci. Hortic.143(0): 102-108|2012|10.1016/j.scienta.2012.06.004
165172|T||Schmiderer,C., S. Grausgruber-Groger, P. Grassi, R. Steinborn, and J. Novak|Influence of Gibberellin and Daminozide on the Expression of Terpene Synthases and on Monoterpenes in Common Sage (Salvia officinalis)|J. Plant Physiol.167(10): 779-786|2010|10.1016/j.jplph.2009.12.009
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165180|T||Gbaye,O.A., J.C. Millard, and G.J. Holloway|Legume Type and Temperature Effects on the Toxicity of Insecticide to the Genus Callosobruchus (Coleoptera: Bruchidae)|J. Stored Prod. Res.47(1): 8-12|2011|10.1016/j.jspr.2010.08.001
165181|T||Lagisz,M., K. Wolff, and G. Port|Time Matters: Delayed Toxicity of Pirimiphos-Methyl on Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) and Its Effects on Efficacy Estimation of Residual Treatments|J. Stored Prod. Res.46(3): 161-165|2010|10.1016/j.jspr.2010.02.003
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165185|T||Seifert,J.|Structural Requirements of Organophosphorus Insecticides (OPI) to Inhibit Chicken Yolk Sac Membrane Kynurenine Formamidase Related to OPI Teratogenesis|Environ. Toxicol. Pharmacol.35(2): 200-206|2013|10.1016/j.etap.2012.12.005
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165193|T||Foster,C.M.|The Effects of Antibiotics on the Growth and Development of Peach Seeds In Vitro|M.A. Thesis, California State University, Fresno, CA:62 p.|1994|
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165198|T||Rowland,N.C.|Effects of Plant Growth Regulators on Growth and Reproduction of Humulus lupulus|M.S. Thesis, Tennessee State University, Nashville, TN:58 p.|2011|
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165235|T||Garton,E.O.|Analysis of the Forest Bird Population Changes Associated with the Use of Orthene Insecticides, 1977|Final Report, University of Idaho, Moscow:72 p.|1977|
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165246|T||Mushtaq,M., I. Hussain, and A. Mian|Effectiveness of Groundnut-Maize Bait as Carrier of Coumatetralyl Against Indian Crested Porcupine, Hystrix indica Kerr|Pak. J. Zool.44(2): 579-581|2012|
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165248|T||Basanth,Y.S., V.T. Sannaveerappanavar, and D.K. Sidde Gowda|Susceptibility of Different Populations of Nilaparvata lugens from Major Rice Growing Areas of Karnataka, India to Different Groups of Insecticides|Rice Sci.20(5): 371-378|2013|10.1016/S1672-6308(13)60147-X
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165250|T||Byrne,F.J., R.I. Krieger, J. Doccola, and J.G. Morse|Seasonal Timing of Neonicotinoid and Organophosphate Trunk Injections to Optimize the Management of Avocado Thrips in California Avocado Groves|Crop Prot.57:20-26|2014|10.1016/j.cropro.2013.11.023
165251|T||De Castro,A.A., A.S. Correa, J.C. Legaspi, R.N.C. Guedes, J.E. Serrao, and J.C. Zanuncio|Survival and Behavior of the Insecticide-Exposed Predators Podisus nigrispinus and Supputius cincticeps (Heteroptera: Pentatomidae)|Chemosphere93(6): 1043-1050|2013|10.1016/j.chemosphere.2013.05.075
165252|T||Foudoulakis,M., C. Balaskas, A. Csato, C. Szentes, and G. Arapis|Japanese Quail Acute Exposure to Methamidophos:  Experimental Design, Lethal, Sub-Lethal Effects and Cholinesterase Biochemical and Histochemical Expression|Sci. Total Environ.450/451:334-347|2013|10.1016/j.scitotenv.2012.10.066
165253|T||Lima,C.S., A.L. Nunes-Freitas, A. Ribeiro-Carvalho, C.C. Filgueiras, A.C. Manhaes, A. Meyer, and Y. Abreu-Villaca|Exposure to Methamidophos at Adulthood Adversely Affects Serotonergic Biomarkers in the Mouse Brain|Neurotoxicology32(6): 718-724|2011|10.1016/j.neuro.2011.08.002
165254|T||Noriega-Ortega,B.R., E. Armienta-Aldana, J.A. Cervantes-Pompa, E. Armienta-Aldana, E. Hernandez-Ruiz, V. Chaparro-Huert|GABA and Dopamine Release from Different Brain Regions in Mice with Chronic Exposure to Organophosphate Methamidophos|J. Toxicol. Pathol.24(3): 163-168|2011|10.1293/tox.24.163
165255|T||Rolando,C.A., S.F. Gous, L.A. Berndt, L.S. Bulman, and C.A. Carlson|Stem Injection of a Systemic Insecticide to Control Uraba lugens on Urban Lophostemon confertus Trees|Pest Manag. Sci.67:1062-1068|2011|10.1002/ps.2146
165256|T||Shang,Q., Y. Pan, K. Fang, J. Xi, and J.A. Brennan|Biochemical Characterization of Acetylcholinesterase, Cytochrome P450 and Cross-Resistance in an Omethoate-Resistant Strain of Aphis gossypii Glover|Crop Prot.31(1): 15-20|2012|10.1016/j.cropro.2011.09.014
165257|T||Zhu,Y.C., Z. Guo, Y. He, and R. Luttrell|Microarray Analysis of Gene Regulations and Potential Association with Acephate-Resistance and Fitness Cost in Lygus lineolaris|PLoS One7(5): 1-17|2012|
165258|T||Hanafy,M.S.M., A.H. Atta, and M.M. Hashim|Studies on the Teratogenic Effects of Tamaron (an Organophosphorus Pesticide)|Vet. Med. J. Giza34(3): 357-363|1986|
165259|T||Chandran,R.S., J.F. Derr, and S.W. Bingham|Effect of Isoxaben Application Rate and Timing on Residual Broadleaf Weed Control in Turf|Weed Technol.12(4): 569-574|1998|10.1017/S0890037X00044390
165260|T||Wehtje,G., J.E. Altland, C.H. Gilliam, S.C. Marble, A.J. Van Hoogmoed, and G.B. Fain|Weed Growth and Efficacy of PRE-Applied Herbicides in Alternative Rooting Substrates Used in Container-Grown Nursery Crops|Weed Technol.23:455-459|2009|10.1614/WT-09-011.1
165261|T||Heim,D.R., I.M. Larrinua, M.G. Murdoch, and J.L. Roberts|Triazofenamide is a Cellulose Biosynthesis Inhibitor|Pestic. Biochem. Physiol.59(3): 163-168|1998|10.1006/pest.1998.2317
165262|T||Wehtje,G., C.H. Gilliam, M.E. Miller, and J.E. Altland|Foliar vs. Root Sensitivity of Hairy Bittercress (Cardamine hirsuta) to Isoxaben|Weed Technol.20(2): 326-333|2006|10.1614/WT-05-054R1.1
165263|T||Tegg,R.S., S.N. Shabala, T.A. Cuin, N.W. Davies, and C.R. Wilson|Enhanced Resistance to the Cellulose Biosynthetic Inhibitors, Thaxtomin A and Isoxaben in Arabidopsis thaliana Mutants, also Provides Specific Co-Resistance to the Auxin Transport Inhibitor, 1-NPA|BMC Plant Biol.13:10 p.|2013|10.1186/1471-2229-13-76
165264|T||Bernal,A.J., J.K. Jensen, J. Harholt, S. Sorensen, I. Moller, C. Blaukopf, B. Johansen, R. De Lotto, M. Pauly, H.V. Sch|Disruption of ATCSLD5 Results in Reduced Growth, Reduced Xylan and Homogalacturonan Synthase Activity and Altered Xylan Occurrence in Arabidopsis|Plant J.52:791-802|2007|10.1111/j.1365-313X.2007.03281.x
165265|A||Blahova,J., L. Plhalova, M. Hostovsky, L. Divisova, R. Dobsikova, I. Mikulikova, S. Stepanova, and Z. Svobodova|Oxidative Stress Responses in Zebrafish Danio rerio After Subchronic Exposure to Atrazine|Food Chem. Toxicol.61:82-85|2013|10.1016/j.fct.2013.02.041
165266|A||Hayashi,S., K. Itoh, and K. Suyama|Evaluation of River Model Biofilm for Assessing Pesticide Effects:  A Case Study with Atrazine|J. Pestic. Sci. (Multiple Languages)36(2): 243-247|2011|10.1584/jpestics.G10-88
165267|A||Lagator,M., T. Vogwill, N. Colegrave, and P. Neve|Herbicide Cycling has Diverse Effects on Evolution of Resistance in Chlamydomonas reinhardtii|Evol. Appl.6(2): 197-206|2013|10.1111/j.1752-4571.2012.00276.x
165268|A||Mona,M.H., R.M. Gaafar, I.B. Helal, N.E. Omran, and W.M. Salama|Evaluation of Cytotoxic Effects of Atrazine and Glyphosate Herbicides on Biomphalaria glabrata Snails|J. Basic Appl. Zool.66(2): 68-75|2013|10.1016/j.jobaz.2013.05.004
165269|A||Wang,X., H. Xing, Y. Jiang, H. Wu, G. Sun, Q. Xu, and S. Xu|Accumulation, Histopathological Effects and Response of Biochemical Markers in the Spleens and Head Kidneys of Common Carp Exposed to Atrazine and Chlorpyrifos|Food Chem. Toxicol.62:148-158|2013|10.1016/j.fct.2013.08.044
165270|A||Xue,M., Y. Qin, J. Wang, J. Qiu, X. Wu, Y. Zheng, and Q. Wang|Plasma Pharmacokinetics of Melamine and a Blend of Melamine and Cyanuric Acid in Rainbow Trout (Oncorhynchus mykiss)|Regul. Toxicol. Pharmacol.61(1): 93-97|2011|10.1016/j.yrtph.2011.06.005
165271|A||Pirarat,N., T. Katagiri, N. Chansue, A. Ponpornpisit, M. Endo, and M. Maita|The Pathological Effects of Melamine and Cyanuric Acid in the Diet of Walking Catfish (Clarius batrachus)|J. Comp. Pathol.147(2/3): 259-266|2012|10.1016/j.jcpa.2011.12.008
165272|A||DeLorenzo,M.E., L.E. Danese, and T.D. Baird|Influence of Increasing Temperature and Salinity on Herbicide Toxicity in Estuarine Phytoplankton|Environ. Toxicol.28(7): 359-371|2013|10.1002/tox.20726
165273|A||Dos Santos,K.C., and C.B.R. Martinez|Genotoxic and Biochemical Effects of Atrazine and Roundup, Alone and in Combination, on the Asian Clam Corbicula fluminea|Ecotoxicol. Environ. Saf.100:7-14|2014|10.1016/j.ecoenv.2013.11.014
165274|A||Knauer,K., and U. Hommen|Sensitivity, Variability, and Recovery of Functional and Structural Endpoints of an Aquatic Community Exposed to Herbicides|Ecotoxicol. Environ. Saf.78:178-183|2012|10.1016/j.ecoenv.2011.11.019
165275|A||Liu,T., Z. Zhang, D. Chen, L. Wang, H. Yao, F. Zhao, H. Xing, and S. Xu|Effect of Atrazine and Chlorpyrifos Exposure on Heat Shock Protein Response in the Brain of Common Carp (Cyprinus carpio L.)|Pestic. Biochem. Physiol.107(2): 277-283|2013|10.1016/j.pestbp.2013.09.002
165276|A||Pacini,N., M. Prearo, M.C. Abete, P. Brizio, A.J.M. Dorr, R. Reimschuessel, W. Andersen, L. Gasco, M. Righetti, and A.C|Antioxidant Responses and Renal Crystal Formation in Rainbow Trout Treated with Melamine Administered Individually or in Combination with Cyanuric Acid|J. Toxicol. Environ. Health Part A76(8): 491-508|2013|10.1080/15287394.2013.785205
165277|A||Perez,J., I. Domingues, A.M.V.M. Soares, and S. Loureiro|Growth Rate of Pseudokirchneriella subcapitata Exposed to Herbicides Found in Surface Waters in the Alqueva Reservoir (Portugal): A Bottom-up Approach Using Binary Mixtures|Ecotoxicology20(6): 1167-1175|2011|10.1007/s10646-011-0661-x
165278|A||Qian,H., X. Pan, J. Chen, D. Zhou, Z. Chen, L. Zhang, and Z. Fu|Analyses of Gene Expression and Physiological Changes in Microcystis aeruginosa Reveal the Phytotoxicities of Three Environmental Pollutants|Ecotoxicology21(3): 847-859|2012|10.1007/s10646-011-0845-4
165279|A||Shenoy,K.|Environmentally Realistic Exposure to the Herbicide Atrazine Alters Some Sexually Selected Traits in Male Guppies|PLoS One7(2): 1-10|2012|10.1371/journal.pone.0030611
165280|A||Sjollema,S.B., G. MartinezGarcia, H.G. Van der Geest, M.H.S. Kraak, P. Booij, A.D. Vethaak, and W. Admiraal|Hazard and Risk of Herbicides for Marine Microalgae|Environ. Pollut.187:106-111|2014|10.1016/j.envpol.2013.12.019
165281|A||Zhang,X., and Z. Gong|Fluorescent Transgenic Zebrafish Tg(nkx2.2a:mEGFP) Provides a Highly Sensitive Monitoring Tool for Neurotoxins|PLoS One8(2): 1-9|2013|
165282|A||Zhu,L., X. Dong, H. Xie, J. Wang, J. Wang, J. Su, and C. Yu|DNA Damage and Effects on Glutathione-S-Transferase Activity Induced by Atrazine Exposure in Zebrafish (Danio rerio)|Environ. Toxicol.26(5): 480-488|2011|10.1002/tox.20575
165283|A||St.Clair,C.R., and C.A. Fuller|Atrazine Exposure Increases Time Until Cannibalistic Response in the Widow Skimmer Dragonfly (Libellula luctuosa)|Can. J. Zool.92(2): 113-117|2014|10.1139/cjz-2013-0214
165284|A||Baxter,L., R. Brain, R. Prosser, K. Solomon, and M. Hanson|Sensitivity of a Green Alga to Atrazine is not Enhanced by Previous Acute Exposure|Environ. Pollut.181:325-328|2013|10.1016/j.envpol.2013.06.019
165285|A||Benedetto,A., S. Squadrone, M. Prearo, A.C. Elia, I. Giorgi, and M.C. Abete|Evaluation of ABC Efflux Transporters Genes Expression in Kidney of Rainbow Trout (Oncorhynchus mykiss) Fed with Melamine and Cyanuric Acid Diets|Chemosphere84(5): 727-730|2011|10.1016/j.chemosphere.2011.04.028
165286|A||Crespo,E., P. Lozano, J. Blasco, and I. Moreno-Garrido|Effect of Copper, Irgarol and Atrazine on Epiphytes Attached to Artificial Devices for Coastal Ecotoxicology Bioassays|Bull. Environ. Contam. Toxicol.91:656-660|2013|10.1007/s00128-013-1122-4
165287|A||Choung,C.B., R.V. Hyne, M.M. Stevens, and G.C. Hose|The Ecological Effects of a Herbicide-Insecticide Mixture on an Experimental Freshwater Ecosystem|Environ. Pollut.172:264-274|2013|10.1016/j.envpol.2012.09.002
165288|T||Willingham,E.J.|The Effects of Atrazine and Temperature on Turtle Hatchling Size and Sex Ratios|Front. Ecol. Environ.3(6): 309-313|2005|10.1890/1540-9295(2005)003[0309:TEOAAT]2.0.CO;2
165289|T||Wang,F., R. Ji, Z. Jiang, and W. Chen|Species-Dependent Effects of Biochar Amendment on Bioaccumulation of Atrazine in Earthworms|Environ. Pollut.186:241-247|2014|10.1016/j.envpol.2013.12.012
165290|T||Walters,A.D., K. Chamberlain, N.B. Ford, and J.S.,Jr. Placyk|Influence of Atrazine on the Scalation of Marcy's Checkered Gartersnake, Thamnophis m. marcianus (Baird and Girard, 1853)|Bull. Environ. Contam. Toxicol.92(1): 1-5|2014|10.1007/s00128-013-1147-8
165292|A||Moore,M.T., H.L. Tyler, and M.A. Locke|Aqueous Pesticide Mitigation Efficiency of Typha latifolia (L.), Leersia oryzoides (L.) Sw., and Sparganium americanum Nutt.|Chemosphere92(10): 1307-1313|2013|10.1016/j.chemosphere.2013.04.099
165293|T||Albright III,V.C.|Investigations Into the Capabilities of Switchgrass to Phytoremediate Atrazine Contamination in Surface Water Runoff|M.S. Thesis, Iowa State University, Ames, IA:57 p.|2011|
165294|A||Touloupakis,E., A. Margelou, and D.F. Ghanotakis|Intercalation of the Herbicide Atrazine in Layered Double Hydroxides for Controlled-Release Applications|Pest Manag. Sci.67(7): 837-841|2011|10.1002/ps.2121
165295|A||Osborn,H.L., and S.E. Hook|Using Transcriptomic Profiles in the Diatom Phaeodactylum tricornutum to Identify and Prioritize Stressors|Aquat. Toxicol.138/139:12-25|2013|10.1016/j.aquatox.2013.04.002
165296|A||Bagwill,A.L.|Evaluation of Amphibian Communities of Playa Wetlands in the Southern High Plains, Texas and Physiological Effects of Environmental Stressors on the New Mexico Spadefoot Toad, Spea multiplicata|Ph.D.Thesis, Oklahoma State University, Stillwater, OK:145 p.|2012|
165297|T||Balachandran,A., M.N. Parajulee, and D.L. Kerns|Effect of Selected Insecticides on Lygus hesperus (Heteroptera: Miridae) Oviposition Behavior in Cotton|Environ. Entomol.43(1): 83-90|2014|10.1603/EN12181
165298|T||Frank,S.D.|Reduced Risk Insecticides to Control Scale Insects and Protect Natural Enemies in the Production and Maintenance of Urban Landscape Plants|Environ. Entomol.41(2): 377-386|2012|10.1603/EN11230
165299|T||Pennetier,C., C. Costantini, V. Corbel, S. Licciardi, R.K. Dabire, B. Lapied, F. Chandre, and J.M. Hougard|Mixture for Controlling Insecticide-Resistant Malaria Vectors|Emerg. Infect. Dis.14(11): 1707-1714|2008|10.3201/eid1411.071575
165300|T||De Groote,H., S.C. Kimenju, P. Likhayo, F. Kanampiu, T. Tefera, and J. Hellin|Effectiveness of Hermetic Systems in Controlling Maize Storage Pests in Kenya|J. Stored Prod. Res.53(0): 27-36|2013|10.1016/j.jspr.2013.01.001
165301|T||Reicher,Z.J., and D.V. Weisenberger|Herbicide Selection and Application Timing in the Fall Affects Control of Ground Ivy|Appl. Turfgrass Sci.4(1): 9 p.|2007|10.1094/ATS-2007-0831-01-RS
165303|T||Ding,X.M., K.Y. Zhang, L. Wang, and S.P. Bai|Toxicity of Melamine and Cyanuric Acid in Broilers and Residues in Tissues|Hum. Exp. Toxicol.31(2): 174-184|2012|10.1177/0960327111422405
165305|T||Pogrmic-Majkic,K., S. Kaisarevic, S. Fa, V. Dakic, B. Glisic, J. Hrubik, and R. Kovacevic|Atrazine Effects on Antioxidant Status and Xenobiotic Metabolizing Enzymes After Oral Administration in Peripubertal Male Rat|Environ. Toxicol. Pharmacol.34(2): 495-501|2012|10.1016/j.etap.2012.06.004
165306|T||Rodriguez,V.M., J.H. Limon-Pacheco, M.S. Mendoza-Trejo, A. Gonzalez-Gallardo, I. Hernandez-Plata, and M. Giordano|Repeated Exposure to the Herbicide Atrazine Alters Locomotor Activity and the Nigrostriatal Dopaminergic System of the Albino Rat|Neurotoxicology34:82-94|2013|10.1016/j.neuro.2012.10.012
165307|T||Stine,C.B., R. Reimschuessel, C.M. Gieseker, E.R. Evans, T.D. Mayer, N.R. Hasbrouck, E. Tall, J. Boehmer, G.G. Da Costa|A No Observable Adverse Effects Level (NOAEL) for Pigs Fed Melamine and Cyanuric Acid|Regul. Toxicol. Pharmacol.60(3): 363-372|2011|10.1016/j.yrtph.2011.05.004
165308|T||Taketa,Y., K. Inoue, M. Takahashi, J. Yamate, and M. Yoshida|Differential Morphological Effects in Rat Corpora lutea Among Ethylene Glycol Monomethyl Ether, Atrazine, and Bromocriptine|Toxicol. Pathol.41:736-743|2012|10.1177/0192623312464305
165309|T||Wang,L., X.M. Ding, K.Y. Zhang, S.P. Bai, and C.M. Wu|Toxicity of Cyanuric Acid to Broilers on Hepatic and Renal Health with and Without Melamine|Hum. Exp. Toxicol.31(2): 166-173|2012|10.1177/0960327111420744
165310|T||Zhao,S., J. Liu, F. Zhao, W. Liu, N. Li, Q. Suo, J. Zhao, and L. Zhao|Sub-Acute Exposure to the Herbicide Atrazine Suppresses Cell Immune Functions in Adolescent Mice|Biosci. Trends7(4): 193-201|2013|
165311|A||Olsvik,P.A., F. Kroglund, B. Finstad, and T. Kristensen|Effects of the Fungicide Azoxystrobin on Atlantic Salmon (Salmo solar L.)  Smolt|Ecotoxicol. Environ. Saf.73(8): 1852-1861|2010|10.1016/j.ecoenv.2010.07.017
165312|T||Sahoo,S.K., G. Jyot, R.S. Battu, and B. Singh|Dissipation Kinetics of Trifloxystrobin and Tebuconazole on Chili and Soil|Bull. Environ. Contam. Toxicol.88(3): 368-371|2012|10.1007/s00128-011-0464-z
165313|T||Rekanovic,E., I. Potocnik, S. Milijasevic-Marcic, M. Stepanovic, B. Todorovic, and M. Mihajlovic|Toxicity of Metalaxyl, Azoxystrobin, Dimethomorph, Cymoxanil, Zoxamide and Mancozeb to Phytophthora infestans Isolates from Serbia|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(5): 403-409|2012|
165314|T||Tsror,L., and I. Peretz-Alon|Control of Silver Scurf on Potato by Dusting or Spraying Seed Tubers with Fungicides Before Planting|Am. J. Potato Res.81(4): 291-294|2004|10.1007/BF02871771
165315|T||Swoboda,C., and P. Pedersen|Effect of Fungicide on Soybean Growth and Yield|Agron. J.101(2): 352-356|2009|10.2134/agronj2008.0150
165316|T||You,X., C. Liu, F. Liu, Y. Liu, and J. Dong|Dissipation of Pyraclostrobin and Its Metabolite BF-500-3 in Maize Under Field Conditions|Ecotoxicol. Environ. Saf.80:252-257|2012|10.1016/j.ecoenv.2012.03.012
165317|T||Gajbhiye,V.T., S. Gupta, I. Mukherjee, S.B. Singh, N. Singh, P. Dureja, and Y. Kumar|Persistence of Azoxystrobin in/on Grapes and Soil in Different Grapes Growing Areas of India|Bull. Environ. Contam. Toxicol.86(1): 90-94|2011|10.1007/s00128-010-0170-2
165318|T||Olaya,G., D. Zheng, and W. Koller|Differential Responses of Germinating Venturia inaequalis Conidia to Kresoxim-Methyl|Pestic. Sci.54(3): 230-236|1998|10.1002/(SICI)1096-9063(1998110)54:3<230::AID-PS815>3.0.CO;2-O
165319|T||Zhang,Y.J., X. Zhang, C.J. Chen, M.G. Zhou, and H.C. Wang|Effects of Fungicides JS399-19, Azoxystrobin, Tebuconazloe, and Carbendazim on the Physiological and Biochemical Indices and Grain Yield of Winter Wheat|Pestic. Biochem. Physiol.98(2): 151-157|2010|10.1016/j.pestbp.2010.04.007
165320|T||Ziogas,B.N., B.C. Baldwin, and J.E. Young|Alternative Respiration:  A Biochemical Mechanism of Resistance to Azoxystrobin (ICIA 5504) in Septoria tritici|Pestic. Sci.50(1): 28-34|1997|10.1002/(SICI)1096-9063(199705)50:1<28::AID-PS555>3.0.CO;2-1
165321|A||Zafar,M.I., J.D.M. Belgers, R.P.A. Van Wijngaarden, A. Matser, and P.J. Van den Brink|Ecological Impacts of Time-Variable Exposure Regimes to the Fungicide Azoxystrobin on Freshwater Communities in Outdoor Microcosms|Ecotoxicology21(4): 1024-1038|2012|10.1007/s10646-012-0856-9
165322|T||Zhang,C.Q., Y. Zhang, and G.N. Zhu|The Mixture of Kresoxim-Methyl and Boscalid, an Excellent Alternative Controlling Grey Mould Caused by Botrytis cinerea|Ann. Appl. Biol.153(2): 205-213|2008|10.1111/j.1744-7348.2008.00248.x
165323|T||Jia,C., X. Zhu, E. Zhao, M. He, P. Yu, and L. Chen|Dissipation Rates and Final Residues of Kresoxim-Methyl in Strawberry and Soil|Bull. Environ. Contam. Toxicol.90(2): 264-267|2013|10.1007/s00128-012-0952-9
165324|T||Jiang,J., L. Ding, T.J. Michailides, H. Li, and Z. Ma|Molecular Characterization of Field Azoxystrobin-Resistant Isolates of Botrytis cinerea|Pestic. Biochem. Physiol.93(2): 72-76|2009|10.1016/j.pestbp.2008.11.004
165325|A||Morrison,S.A., S.T. McMurry, L.M. Smith, and J.B. Belden|Acute Toxicity of Pyraclostrobin and Trifloxystrobin to Hyalella azteca|Environ. Toxicol. Chem.32(7): 1516-1525|2013|10.1002/etc.2228
165326|T||Kaur,S., R. Takkar, U. Bhardwaj, R. Kumar, R.S. Battu, and B. Singh|Dissipation Kinetics of Trifloxystrobin and Tebuconazole on Wheat Leaves and Their Harvest Time Residues in Wheat Grains and Soil|Bull. Environ. Contam. Toxicol.89(3): 606-610|2012|10.1007/s00128-012-0748-y
165327|A||Friberg-Jensen,U., G. Nachman, and K.S. Christoffersen|Early Signs of Lethal Effects in Daphnia magna (Branchiopoda, Cladocera) Exposed to the Insecticide Cypermethrin and the Fungicide Azoxystrobin|Environ. Toxicol. Chem.29(10): 2371-2378|2010|10.1002/etc.290
165328|T||Duan,Y., S. Liu, C. Ge, X. Feng, C. Chen, and M. Zhou|In Vitro Inhibition of Sclerotinia sclerotiorum by Mixtures of Azoxystrobin, SHAM, and Thiram|Pestic. Biochem. Physiol.103(2): 101-107|2012|10.1016/j.pestbp.2012.04.004
165329|A||Bony,S., I. Gaillard, and A. Devaux|Genotoxicity Assessment of Two Vineyard Pesticides in Zebrafish|Int. J. Environ. Anal. Chem.90(3-6): 421-428|2010|10.1080/03067310903033659
165330|T||Besler,B.A.|Effects of Row Spacing on Diseases, Herbicide Persistence, and Qualitative Characteristics of Peanut|Ph.D. Thesis, Texas A&M University, College Station TX:133 p. |2004|
165331|T||Connor,E.B.|Modelling Efficacy of Control of Seedling Diseases of Chickpea Caused by Rhizoctonia solani|M.S. Thesis, University of Guelph, Ontario, Canada:103 p.|2004|
165332|T||Ma,B.|Azoxystrobin Sensitivity and Resistance Management Strategies of Magnaporthe grisea Causing Gray Leaf Spot on Perennial Ryegrass (Lolium perenne) Turf|Ph.D Thesis, Pennsylvania State University, University Park, PA:168 p.|2006|
165333|T||Pirgozliev,S.R.|Effect of Fungicides on Fusarium Ear Blight and Mycotoxin Accumulation in Winter Wheat (Triticum aestivum L.)|Ph.D.Thesis, Open University, United Kingdom:163 p.|2002|
165334|T||Tbaileh,T.|Effect of Azoxystrobin and Arbuscular Mycorrhizal Fungal Colonization on Four Non-Target Plant Species|M.S. Thesis, University of Ottawa, Canada:67 p.|2012|
165335|A||Corvi,M.M., K.A. Stanley, T.S. Peterson, M.L. Kent, S.W. Feist, J.K. La Du, D.C. Volz, A.J. Hosmer, and R.L. Tanguay|Investigating the Impact of Chronic Atrazine Exposure on Sexual Development in Zebrafish|Birth Defects Res. Part B Dev. Reprod. Toxicol.95(4): 276-288|2012|10.1002/bdrb.21016
165336|A||Koprivnikar,J., and P.A. Walker|Effects of the Herbicide Atrazine's Metabolites on Host Snail Mortality and Production of Trematode cercariae|J. Parasitol.97(5): 822-827|2011|10.1645/GE-2814.1
165337|T||Foradori,C.D., L.R. Hinds, A.M. Quihuis, A.F. Lacagnina, C.B. Breckenridge, and R.J. Handa|The Differential Effect of Atrazine on Luteinizing Hormone Release in Adrenalectomized Adult Female Wistar Rats|Biol. Reprod.85(4): 684-689|2011|10.1095/biolreprod.111.092452
165338|T||Foradori,C.D., A.D. Zimmerman, L.R. Hinds, K.L. Zuloaga, C.B. Breckenridge, and R.J. Handa|Atrazine Inhibits Pulsatile Gonadotropin-Releasing Hormone (GnRH) Release Without Altering GnRH Messenger RNA or Protein Levels in the Female Rat|Biol. Reprod.88(1): 1-7|2013|10.1095/biolreprod.112.102277
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165356|T||Vidal,E., A. Moreno, E. Bertolini, J. Perez-Panades, E.A. Carbonell, and M. Cambra|Susceptibility of Prunus Rootstocks to Natural Infection of Plum Pox Virus and Effect of Mineral Oil Treatments|Ann. Appl. Biol.157(3): 447-457|2010|10.1111/j.1744-7348.2010.00436.x
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165361|T||Zhang,J.J., Z.S. Zhou, J.B. Song, Z.P. Liu, and H. Yang|Molecular Dissection of Atrazine-Responsive Transcriptome and Gene Networks in Rice by High-Throughput Sequencing|J. Hazard. Mater.219/220:57-68|2012|10.1016/j.jhazmat.2012.03.041
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165515|T||Sabo-Attwood,T., J.M. Unrine, J.W. Stone, C.J. Murphy, S. Ghoshroy, D. Blom, P.M. Bertsch, and L.A. Newman|Uptake, Distribution and Toxicity of Gold Nanoparticles in Tobacco (Nicotiana xanthi) Seedlings|Nanotoxicology6(4): 353-360|2012|10.3109/17435390.2011.579631
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165520|A||Srivastava,S., K.C. Bhainsa, and S.F. D'Souza|Investigation of Uranium Accumulation Potential and Biochemical Responses of an Aquatic Weed Hydrilla verticillata (L.f.) Royle|Bioresour. Technol.101(8): 2573-2579|2010|10.1016/j.biortech.2009.10.054
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165523|T||Starnes,D.L., A. Jain, and S.V. Sahi|In Planta Engineering of Gold Nanoparticles of Desirable Geometries by Modulating Growth Conditions:  An Environment-Friendly Approach|Environ. Sci. Technol.44(18): 7110-7115|2010|10.1021/es101136q
165524|T||Tartivel,R., R. Tatin, T. Delhaye, A. Maupas, A. Gendron, S. Gautier, and O. Lavastre|Visualization and Localization of Bromotoluene Distribution in Hedera helix Using NanoSIMS|Chemosphere89(7): 805-809|2012|10.1016/j.chemosphere.2012.04.058
165525|T||Speranza,A., R. Crinelli, V. Scoccianti, A.R. Taddei, M. Iacobucci, P. Bhattacharya, and P.C. Ke|In Vitro Toxicity of Silver Nanoparticles to Kiwifruit Pollen Exhibits Peculiar Traits Beyond the Cause of Silver Ion Release|Environ. Pollut.179:258-267|2013|10.1016/j.envpol.2013.04.021
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165532|A||Shi,J., B. Xu, X. Sun, C. Ma, C. Yu, and H. Zhang|Light Induced Toxicity Reduction of Silver Nanoparticles to Tetrahymena pyriformis:  Effect of Particle Size|Aquat. Toxicol.132/133:53-60|2013|10.1016/j.aquatox.2013.02.001
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165556|T||Hu,P.J., Y.Y. Gan, Y.T. Tang, Q.F. Zhang, D. Jiang, N. Yao, and R.L. Qiu|Cellular Tolerance, Accumulation and Distribution of Cadmium in Leaves of Hyperaccumulator Picris divaricata|Pedosphere22(4): 497-507|2012|10.1016/S1002-0160(12)60034-4
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165599|A||Cherchi,C., and A.Z. Gu|Impact of Titanium Dioxide Nanomaterials on Nitrogen Fixation Rate and Intracellular Nitrogen Storage in Anabaena variabilis|Environ. Sci. Technol.44(21): 8302-8307|2010|10.1021/es101658p
165600|T||Dimkpa,C.O., J.E. McLean, N. Martineau, D.W. Britt, R. Haverkamp, and A.J. Anderson|Silver Nanoparticles Disrupt Wheat (Triticum aestivum L.) Growth in a Sand Matrix|Environ. Sci. Technol.47(2): 1082-1090|2013|10.1021/es302973y
165601|A||Das,P., C.D. Metcalfe, and M.A. Xenopoulos|Interactive Effects of Silver Nanoparticles and Phosphorus on Phytoplankton Growth in Natural Waters|Environ. Sci. Technol.48(8): 4573-4580|2014|10.1021/es405039w
165602|T||Khurshid,I., J. Alam, A. Ali, H. Ullah, A. Raqib, and G. Naz|Population Trend of Corn Leaf Aphid (Rhopalosiphum maidis.) with Different Chemical Doses in Three Maize Varieties|Biol. Divers. Conserv.6(1): 1-7|2013|10.1111/icad.12022
165603|T||Jhala,A.J., and M. Singh|Leaching of Indaziflam Compared with Residual Herbicides Commonly Used in Florida Citrus|Weed Technol.26(3): 602-607|2012|10.1614/WT-D-11-00161.1
165604|A||Netto,I., V. Bostan, L. McCarthy, A. Laursen, K. Gilbride, M. Mehrvar, and R. Pushchak|Automated Image Analysis of Euglena gracilis Klebs (Euglenophyta) for Measuring Sublethal Effects of Three Model Contaminants|Water Sci. Technol.66(8): 1708-1715|2012|10.2166/wst.2012.387
165605|A||Gelbic,I., and P. Rozsypalova|Autogeny Induced by a Nonsteroidal Ecdysone Agonist Tebufenozide in the Mosquito Culex quinquefasciatus|Physiol. Entomol.37:119-126|2012|10.1111/j.1365-3032.2011.00817.x
165606|T||Peck,D.C.|Comparative Impacts of White Grub (Coleoptera: Scarabaeidae) Control Products on the Abundance of Non-Target Soil-Active Arthropods in Turfgrass|Pedobiologia (Multiple Languages)52(5): 287-299|2009|10.1016/j.pedobi.2008.10.003
165607|T||Stavrinides,M.C., and N.J. Mills|Demographic Effects of Pesticides on Biological Control of Pacific Spider Mite (Tetranychus pacificus) by the Western Predatory Mite (Galendromus occidentalis)|Biol. Control48(3): 267-273|2009|10.1016/j.biocontrol.2008.10.017
165608|T||Walter,M., C.M. Frampton, K.S.H. Boyd-Wilson, P. Harris-Virgin, and N.W. Waipara|Agrichemical Impact on Growth and Survival of Non-Target Apple Phyllosphere Microorganisms|Can. J. Microbiol.53:45-55|2007|10.1139/w06-093
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165620|T||Lee,W.M., J.I. Kwak, and Y.J. An|Effect of Silver Nanoparticles in Crop Plants Phaseolus radiatus and Sorghum bicolor:  Media Effect on Phytotoxicity|Chemosphere86(5): 491-499|2012|10.1016/j.chemosphere.2011.10.013
165621|T||Kim,S., S. Lee, and I. Lee|Alteration of Phytotoxicity and Oxidant Stress Potential by Metal Oxide Nanoparticles in Cucumis sativus|Water Air Soil Pollut.223(5): 2799-2806|2012|10.1007/s11270-011-1067-3
165622|A||Li,H., Q. Zhou, Y. Wu, J. Fu, T. Wang, and G.Z. Jiang|Effects of Waterborne Nano-Iron on Medaka (Oryzias latipes):  Antioxidant Enzymatic Activity, Lipid Peroxidation and Histopathology|Ecotoxicol. Environ. Saf.72(3): 684-692|2009|10.1016/j.ecoenv.2008.09.027
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165624|A||Auffan,M., D. Bertin, P. Chaurand, C. Pailles, C. Dominici, J. Rose, J.Y. Bottero, and A. Thiery|Role of Molting on the Biodistribution of CeO2 Nanoparticles Within Daphnia pulex|Water Res.47:3921-3930|2013|10.1016/j.watres.2012.11.063
165625|T||El-Temsah,Y.S., and E.J. Joner|Impact of Fe and Ag Nanoparticles on Seed Germination and Differences in Bioavailability During Exposure in Aqueous Suspension and Soil|Environ. Toxicol.27(1): 42-49|2012|10.1002/tox.20610
165626|A||Gao,J., K. Powers, Y. Wang, H. Zhou, S.M. Roberts, B.M. Moudgil, B. Koopman, and D.S. Barber|Influence of Suwannee River Humic Acid on Particle Properties and Toxicity of Silver Nanoparticles|Chemosphere89(1): 96-101|2012|10.1016/j.chemosphere.2012.04.024
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165628|A||Ghafari,P., C.H. St-Denis, M.E. Power, X. Jin, V. Tsou, H.S. Mandal, N.C. Bols, and X. Tang|Impact of Carbon Nanotubes on the Injection and Digestion of Bacteria by Ciliated Protozoa|Nat. Nanotechnol.3(6): 347-351|2008|10.1038/nnano.2008.109
165629|A||Felix,L.C., V.A. Ortega, J.D. Ede, and G.G. Goss|Physicochemical Characteristics of Polymer-Coated Metal-Oxide Nanoparticles and Their Toxicological Effects on Zebrafish (Danio rerio) Development|Environ. Sci. Technol.47(12): 6589-6596|2013|10.1021/es401403p
165630|T||De la Torre-Roche,R., J. Hawthorne, C. Musante, B. Xing, L.A. Newman, X. Ma, and J.C. White|Impact of Ag Nanoparticle Exposure on p,p'-DDE Bioaccumulation by Cucurbita pepo  (Zucchini) and Glycine max (Soybean)|Environ. Sci. Technol.47(2): 718-725|2013|10.1021/es3041829
165631|A||Su,Y., X. Yan, Y. Pu, F. Xiao, D. Wang, and M. Yang|Risks of Single-Walled Carbon Nanotubes Acting as Contaminants-Carriers:  Potential Release of Phenanthrene in Japanese Medaka (Oryzias latipes)|Environ. Sci. Technol.47(9): 4704-4710|2013|10.1021/es304479w
165632|T||Petersen,E.J., R.A. Pinto, L. Zhang, Q. Huang, P.F. Landrum, and W.J.,Jr. Weber|Effects of Polyethyleneimine-Mediated Functionalization of Multi-Walled Carbon Nanotubes on Earthworm Bioaccumulation and Sorption by Soils|Environ. Sci. Technol.45(8): 3718-3724|2011|10.1021/es103004r
165633|A||Gul,A., M. Yilmaz, and Z. Isilak|Acute Toxicity of Zinc Sulphate (ZnSO4.H2O) to Guppies (Poecilia reticulata P., 1859)|Gazi Univ. Fen Bilim. Derg.22(2): 59-65|2009|
165634|A||Kumar,K.S., Y.S. Han, K.S. Choo, J.A. Kong, and T. Han|Chlorophyll Fluorescence Based Copper Toxicity Assessment of Two Algal Species|Toxicol. Environ. Health Sci.1(1): 17-23|2009|10.1007/BF03216459
165635|T||Ghodake,G., Y.D. Seo, and D.S. Lee|Hazardous Phytotoxic Nature of Cobalt and Zinc Oxide Nanoparticles Assessed Using Allium cepa|J. Hazard. Mater.186(1): 952-955|2011|10.1016/j.jhazmat.2010.11.018
165636|A||Boogaard,M.A., and J.E. Rivera|Acute Toxicity of Two Lampricides, 3-Trifluoromethyl-4-Nitrophenol (TFM) and a TFM:1% Niclosamide Mixture, to Sea Lamprey, Three Species of Unionids, Haliplid Water Beetles, and American Eel|Technical Report, No. 70, 0-3, Great Lakes Fishery Commission:44 p.|2011|
165637|A||Huang,C.P., D.K. Cha, and S.S. Ismat|2005 Progress Report:  Short-Term Chronic Toxicity of Photocatalytic Nanoparticles to Bacteria, Algae, and Zooplankton|EPA Grant No. R831721, Oct. 1, 2005 to Sept. 30, 2007, University of Delaware:6 p.|2005|
165638|A||Turner,A., D. Brice, and M.T. Brown|Interactions of Silver Nanoparticles with the Marine Macroalga, Ulva lactuca|Ecotoxicology21(1): 148-154|2012|10.1007/s10646-011-0774-2
165639|A||Truong,L., K.S. Saili, J.M. Miller, J.E. Hutchison, and R.L. Tanguay|Persistent Adult Zebrafish Behavioral Deficits Results from Acute Embryonic Exposure to Gold Nanoparticles|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 269-274|2012|10.1016/j.cbpc.2011.09.006
165640|A||Tomilina,I.I., V.A. Gremyachikh, A.P. Myl'nikov, and V.T. Komov|The Effect of Metal Oxide Nanoparticles (CeO2, TiO2, and ZnO) on Biological Parameters of Freshwater Nanoflagellates and Crustaceans|Dokl. Biol. Sci.436(1-6): 53-55|2011|10.1134/S0012496611010169
165641|A||Munaswamy,V., and M. David|Static Renewal Bioassay Test of Cadmium on the Freshwater Fish, Labeo rohita|J. Ecobiol.25(3): 221-228|2009|
165642|A||Chinathamby,K., R.D. Reina, P.C.E. Bailey, and B.K. Lees|Effects of Salinity on the Survival, Growth and Development of Tadpoles of the Brown Tree Frog, Litoria ewingii|Aust. J. Zool.54:97-105|2006|10.1071/ZO06006
165644|T||Ogra,Y., E. Okubo, and M. Takahira|Distinct Uptake of Tellurate from Selenate in a Selenium Accumulator, Indian Mustard (Brassica juncea)|Metallomics2(5): 328-333|2010|10.1039/c000088d
165645|T||Roy,B., and S. Bhadra|Hematoxylin Staining of Seedling Roots is a Potential Phenotypic Index for Screening of Aluminium Tolerance in Rice (Oryza sativa L.)|Indian J. Genet. Plant Breed.73(2): 194-198|2013|10.5958/j.0975-6906.73.2.028
165646|A||Pythoglou,P., Z. Vryzas, C. Alexoudis, S.A. Senseman, and G. Vassiliou|Influence of Biotic and Abiotic Factors on Dissipation of Fenoxaprop-p-Ethyl in Water|Fresenius Environ. Bull.21(10a): 3012-3017|2012|
165647|T||Ghosh,M., J. Manivannan, S. Sinha, A. Chakraborty, S.K. Mallick, M. Bandyopadhyay, and A. Mukherjee|In Vitro and In Vivo Genotoxicity of Silver Nanoparticles|Mutat. Res., Genet. Toxicol. Environ. Mutagen.749(1/2): 60-69|2012|10.1016/j.mrgentox.2012.08.007
165648|T||Adhikari,T., S. Kundu, A.K. Biswas, J.C. Tarafdar, and A.S. Rao|Effect of Copper Oxide Nano Particle on Seed Germination of Selected Crops|J. Agric. Sci. Technol. A2(6): 815-823|2012|
165649|T||Gomes,S.I.L., S.C. Novais, J.J. Scott-Fordsmand, W. De Coen, A.M.V.M. Soares, and M.J.B. Amorim|Effect of Cu-Nanoparticles Versus Cu-Salt in Enchytraeus albidus (Oligochaeta): Differential Gene Expression Through Microarray Analysis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 219-227|2012|10.1016/j.cbpc.2011.08.008
165650|T||Ghosh,M., M. Bandyopadhyay, and A. Mukherjee|Genotoxicity of Titanium Dioxide (TiO2) Nanoparticles at Two Trophic Levels:  Plant and Human Lymphocytes|Chemosphere81(10): 1253-1262|2010|10.1016/j.chemosphere.2010.09.022
165651|A||Kadar,E., F. Simmance, O. Martin, N. Voulvoulis, S. Widdicombe, S. Mitov, J.R. Lead, and J.W. Readman|The Influence of Engineered Fe2O3 Nanoparticles and Soluble (FeCl3) Iron on the Developmental Toxicity Caused by CO2-Induced Seawater Acidification|Environ. Pollut.158(12): 3490-3497|2010|10.1016/j.envpol.2010.03.025
165652|T||Shoults-Wilson,W.A., O.I. Zhurbich, D.H. McNear, O.V. Tsyusko, P.M. Bertsch, and J.M. Unrine|Evidence for Avoidance of Ag Nanoparticles by Earthworms (Eisenia fetida)|Ecotoxicology20(2): 385-396|2011|10.1007/s10646-010-0590-0
165653|T||Deng,X., G. Jia, H. Wang, H. Sun, X. Wang, S. Yang, T. Wang, and Y. Liu|Translocation and Fate of Multi-Walled Carbon Nanotubes In Vivo|Carbon45(7): 1419-1424|2007|10.1016/j.carbon.2007.03.035
165654|A||Ringwood,A.H., M. McCarthy, T.C. Bates, and D.L. Carroll|The Effects of Silver Nanoparticles on Oyster Embryos|Mar. Environ. Res.69:S49-S51|2010|10.1016/j.marenvres.2009.10.011
165655|A||Song,G., Y. Gao, H. Wu, W. Hou, C. Zhang, and H. Ma|Physiological Effect of Anatase TiO2 Nanoparticles on Lemna minor|Environ. Toxicol. Chem.31(9): 2147-2152|2012|10.1002/etc.1933
165656|A||Sun,H., X. Zhang, Z. Zhang, Y. Chen, and J.C. Crittenden|Influence of Titanium Dioxide Nanoparticles on Speciation and Bioavailability of Arsenite|Environ. Pollut.157(4): 1165-1170|2009|10.1016/j.envpol.2008.08.022
165657|T||Chen,C., G. Xing, J. Wang, Y. Zhao, B. Li, J. Tang, G. Jia, T. Wang, J. Sun, L. Xing, H. Yuan, Y. Gao, H. Meng, Z. Chen|Multihydroxylated (Gd@C82(OH)22)n Nanoparticles:  Antineoplastic Activity of High Efficiency and Low Toxicity|Nano Lett.5(10): 2050-2057|2005|10.1021/nl051624b
165658|T||Qu,J., X. Yuan, X. Wang, and P. Shao|Zinc Accumulation and Synthesis of ZnO Nanoparticles Using Physalis alkekengi L.|Environ. Pollut.159(7): 1783-1788|2011|10.1016/j.envpol.2011.04.016
165659|A||Tyne,W., S. Lofts, D.J. Spurgeon, K. Jurkschat, and C. Svendsen|A New Medium for Caenorhabditis elegans Toxicology and Nanotoxicology Studies Designed to Better Reflect Natural Soil Solution Conditions|Environ. Toxicol. Chem.32(8): 1711-1717|2013|10.1002/etc.2247
165660|A||Salvaterra,T., M.G. Alves, I. Domingues, R. Pereira, M.G. Rasteiro, R.A. Carvalho, A.M.V.M. Soares, and I. Lopes|Biochemical and Metabolic Effects of a Short-Term Exposure to Nanoparticles of Titanium Silicate in Tadpoles of Pelophylax perezi (Seoane)|Aquat. Toxicol.128/129:190-192|2013|10.1016/j.aquatox.2012.12.014
165661|T||Manna,P., M. Ghosh, J. Ghosh, J. Das, and P.C. Sil|Contribution of Nano-Copper Particles to In Vivo Liver Dysfunction and Cellular Damage:  Role of IkBa/NF-KB, MAPKs and Mitochondrial Signal|Nanotoxicology6(1): 1-21|2012|10.3109/17435390.2011.552124
165662|A||McCarthy,M.P., D.L. Carroll, and A.H. Ringwood|Tissue Specific Responses of Oysters, Crassostrea virginica, to Silver Nanoparticles|Aquat. Toxicol.138/139:123-128|2013|10.1016/j.aquatox.2013.04.015
165663|A||Melegari,S.P., F. Perreault, R.H.R. Costa, R. Popovic, and W.G. Matias|Evaluation of Toxicity and Oxidative Stress Induced by Copper Oxide Nanoparticles in the Green Alga Chlamydomonas reinhardtii|Aquat. Toxicol.142/143:431-440|2013|10.1016/j.aquatox.2013.09.015
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165665|A||Manier,N., A. Bado-Nilles, P. Delalain, O. Aguerre-Chariol, and P. Pandard|Ecotoxicity of Non-Aged and Aged CeO2 Nanomaterials Towards Freshwater Microalgae|Environ. Pollut.180:63-70|2013|10.1016/j.envpol.2013.04.040
165666|A||Robbens,J., C. Vanparys, I. Nobels, R. Blust, K. Van Hoecke, C. Janssen, K. De Schamphelaere, K. Roland, G. Blanchard, |Eco-, Geno- and Human Toxicology of Bio-Active Nanoparticles for Biomedical Applications|Toxicology269(2/3): 170-181|2010|10.1016/j.tox.2009.11.002
165667|A||Oukarroum,A., S. Polchtchikov, F. Perreault, and R. Popovic|Temperature Influence on Silver Nanoparticles Inhibitory Effect on Photosystem II Photochemistry in Two Green Algae, Chlorella vulgaris and Dunaliella tertiolecta|Environ. Sci. Pollut. Res.19(5): 1755-1762|2012|10.1007/s11356-011-0689-8
165668|T||Lopez-Moreno,M.L., G. De La Rosa, J.A. Hernandez-Viezcas, H. Castillo-Michel, C.E. Botez, J.R. Peralta-Videa, and J.L. |Evidence of the Differential Biotransformation and Genotoxicity of ZnO and CeO2 Nanoparticles on Soybean (Glycine max) Plants|Environ. Sci. Technol.44(19): 7315-7320|2010|10.1021/es903891g
165669|A||Marques,B.F., L.F. Cordeiro, L.W. Kist, M.R. Bogo, G. Lopez, G. Pagano, D.T. Muratt, L.M. De Carvalho, I.C. Kulkamp-Gue|Toxicological Effects Induced by the Nanomaterials Fullerene and Nanosilver in the Polychaeta Laeonereis acuta (Nereididae) and in the Bacteria Communities Living at Their Surface|Mar. Environ. Res.89:53-62|2013|10.1016/j.marenvres.2013.05.002
165671|A||Li,L., M. Sillanpaa, M. Tuominen, K. Lounatmaa, and E. Schultz|Behavior of Titanium Dioxide Nanoparticles in Lemna minor Growth Test Conditions|Ecotoxicol. Environ. Saf.88:89-94|2013|10.1016/j.ecoenv.2012.10.024
165672|A||Ramesh,R., P. Kavitha, N. Kanipandian, S. Arun, R. Thirumurugan, and P. Subramanian|Alteration of Antioxidant Enzymes and Impairment of DNA in the SiO2 Nanoparticles Exposed Zebra Fish (Danio rerio)|Environ. Monit. Assess.185(7): 5873-5881|2013|10.1007/s10661-012-2991-4
165673|A||Li,W.M., and W.X. Wang|Distinct Biokinetic Behavior of ZnO Nanoparticles in Daphnia magna Quantified by Synthesizing 65Zn Tracer|Water Res.47:895-902|2013|10.1016/j.watres.2012.11.018
165674|T||Sugunan,A., P. Melin, J. Schnurer, J.G. Hilborn, and J. Dutta|Nutrition-Driven Assembly of Colloidal Nanoparticles:  Growing Fungi Assemble Gold Nanoparticles as Microwires|Adv. Mater.19:77-81|2007|10.1002/adma.200600911
165675|A||Yeo,M.K., and M. Kang|The Effect of Nano-Scale Zn-Doped TiO2 and Pure TiO2 Particles on Hydra magnipapillata|Mol. Cell. Toxicol.6:9-17|2010|10.1007/s13273-010-0002-9
165676|A||Yeo,M.K., and M. Kang|Effects of Nanometer Sized Silver Materials on Biological Toxicity During Zebrafish Embryogenesis|Bull. Kor. Chem. Soc.29(6): 1179-1184|2008|10.5012/bkcs.2008.29.6.1179
165677|A||AshaRani,P.V., N.G.B. Serina, M.H. Nurmawati, Y.L. Wu, Z. Gong, and S. Valiyaveettil|Impact of Multi-Walled Carbon Nanotubes on Aquatic Species|J. Nanosci. Nanotechnol.8:3603-3609|2008|10.1166/jnn.2008.432
165678|T||Canas,J.E., B. Qi, S. Li, J.D. Maul, S.B. Cox, S. Das, and M.J. Green|Acute and Reproductive Toxicity of Nano-Sized Metal Oxides (ZnO and TiO2) to Earthworms (Eisenia fetida)|J. Environ. Monit.13(12): 3351-3357|2011|10.1039/c1em10497g
165679|A||Hund-Rinke,K., K. Schlich, and A. Wenzel|TiO2 Nanoparticles - Relationship Between Dispersion Preparation Method and Ecotoxicity in the Algal Growth Test|Umweltwiss. Schadst.-Forsch. (Multiple Languages)22(5): 517-528|2010|10.1007/s12302-010-0147-0
165680|T||Kumari,M., S.S. Khan, S. Pakrashi, A. Mukherjee, and N. Chandrasekaran|Cytogenetic and Genotoxic Effects of Zinc Oxide Nanoparticles on Root Cells of Allium cepa|J. Hazard. Mater.190(1-3): 613-621|2011|10.1016/j.jhazmat.2011.03.095
165681|A||Hu,J., D. Wang, B.E. Forthaus, and J. Wang|Quantifying the Effect of Nanoparticles on As(V) Ecotoxicity Exemplified by Nano-Fe2O3 (Magnetic) and Nano-Al2O3|Environ. Toxicol. Chem.31(12): 2870-2876|2012|10.1002/etc.2013
165682|T||Lapied,E., J.Y. Nahmani, E. Moudilou, P. Chaurand, J. Labille, J. Rose, J.M. Exbrayat, D.H. Oughton, and E.J. Joner|Ecotoxicological Effects of an Aged TiO2 Nanocomposite Measured as Apoptosis in the Anecic Earthworm Lumbricus terrestris After Exposure Through Water, Food and Soil|Environ. Int.37(6): 1105-1110|2011|10.1016/j.envint.2011.01.009
165683|A||Hu,C., Y. Liu, X. Li, and M. Li|Biochemical Responses of Duckweed (Spirodela polyrhiza) to Zinc Oxide Nanoparticles|Arch. Environ. Contam. Toxicol.64(4): 643-651|2013|10.1007/s00244-012-9859-z
165684|A||Jarvis,T.A., R.J. Miller, H.S. Lenihan, and G.K. Bielmyer|Toxicity of ZnO Nanoparticles to the Copepod Acartia tonsa, Exposed Through a Phytoplankton Diet|Environ. Toxicol. Chem.32(6): 1264-1269|2013|10.1002/etc.2180
165685|A||Mirzajani,F., H. Askari, S. Hamzelou, M. Farzaneh, and A. Ghassempour|Effect of Silver Nanoparticles on Oryza sativa L. and Its Rhizosphere Bacteria|Ecotoxicol. Environ. Saf.88:48-54|2013|10.1016/j.ecoenv.2012.10.018
165686|T||Musante,C., and J.C. White|Toxicity of Silver and Copper to Cucurbita pepo: Differential Effects of Nano and Bulk-Size Particles|Environ. Toxicol.27(9): 510-517|2012|10.1002/tox.20667
165687|A||Hull,M.S., P.J. Vikesland, and I.R. Schultz|Uptake and Retention of Metallic Nanoparticles in the Mediterranean Mussel (Mytilus galloprovincialis)|Aquat. Toxicol.140/141:89-97|2013|10.1016/j.aquatox.2013.05.005
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165689|A||Lee,W.M., and Y.J. An|Effects of Zinc Oxide and Titanium Dioxide Nanoparticles on Green Algae Under Visible, UVA, and UVB Irradiations:  No Evidence of Enhanced Algal Toxicity Under UV Pre-Irradiation|Chemosphere91(4): 536-544|2013|10.1016/j.chemosphere.2012.12.033
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165693|T||Mallakpour,S., F. Zeraatpisheh, and M.R. Sabzalian|Construction, Characterization and Biological Activity of Chiral and Thermally Stable Nanostructured Poly(Ester-Imide)s as Tyrosine-Containing Pseudo-Poly(Amino Acid)s|J. Polymers Environ.20(1): 117-123|2012|10.1007/s10924-011-0308-2
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165697|T||Recillas,S., A. Garcia, E. Gonzalez, E. Casals, V. Puntes, A. Sanchez, and X. Font|Use of CeO2, TiO2 and Fe3O4 Nanoparticles for the Removal of Lead from Water. Toxicity of Nanoparticles and Derived Compounds|Desalination277(1-3): 213-220|2011|10.1016/j.desal.2011.04.036
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165764|A||Zhao,C.M., and W.X. Wang|Biokinetic Uptake and Efflux of Silver Nanoparticles in Daphnia magna|Environ. Sci. Technol.44(19): 7699-7704|2010|10.1021/es101484s
165765|A||Sulekha,B.T., and T.V.A. Mercy|Pesticide-Induced Histopathological Changes in the Freshwater Fishes of Kuttanand, Kerala-A Tool to Assess Water Quality and the Health Status of Fishes|Asian Fish. Sci.22(2): 729-749|2009|10.33997/j.afs.2009.22.2.033
165766|A||Borane,V.R., and R.D. Patil|Effect of Lead Chloride on Ascorbic Acid Content of the Freshwater Fish, Channa orientalis|J. Ecotoxicol. Environ. Monit.19(5): 497-501|2009|
165767|T||Zheng,L.Q., F. Hong, S.N. Lu, and C. Liu|Effect of Nano-TiO2 on Strength of Naturally Aged Seeds and Growth of Spinach|Biol. Trace Elem. Res.104:83-91|2005|10.1385/BTER:104:1:083
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165770|A||Zou,X.Y., B. Xu, C.P. Yu, and H.W. Zhang|Combined Toxicity of Ferroferric Oxide Nanoparticles and Arsenic to the Ciliated Protozoa Tetrahymena pyriformis|Aquat. Toxicol.134/135:66-73|2013|10.1016/j.aquatox.2013.03.006
165771|A||Blinova,I., J. Niskanen, P. Kajankari, L. Kanarbik, A. Kakinen, H. Tenhu, O.P. Penttinen, and A. Kahru|Toxicity of Two Types of Silver Nanoparticles to Aquatic Crustaceans Daphnia magna and Thamnocephalus platyurus|Environ. Sci. Pollut. Res.20(5): 3456-3463|2013|10.1007/s11356-012-1290-5
165772|A||Ahlawat,P., and S. Lata|Bioaccumulation of Cadmium and Zinc by Water Hyacinth, Eichhornia crassipes|Ann. Biol.26(2): 121-127|2010|
165773|A||Dougherty,C.K., and G.R. Smith|Acute Effects of Road De-Icers on the Tadpoles of Three Anurans|Appl. Herpetol.3:87-93|2006|10.1163/157075406776984266
165774|A||Anjali,C.H., S.S. Khan, K. Margulis-Goshen, S. Magdassi, A. Mukherjee, and N. Chandrasekaran|Formulation of Water-Dispersible Nanopermethrin for Larvicidal Applications|Ecotoxicol. Environ. Saf.73(8): 1932-1936|2010|10.1016/j.ecoenv.2010.08.039
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165781|AT||Byrne,M., M. Hill, M. Robertson, A. King, A. Jadhav, N. Katembo, J. Wilson, R. Brudvig, and J. Fisher|Integrated Management of Water Hyacinth in South Africa:  Development of an Integrated Management Plan for Water Hyacinth Control, Combining Biological Control, Herbicidal Control and Nutrient Control, Tailored to the C|WRC Report, Number 454/10, Water Research Commission, Gezina:302 p. |2010|
165782|A||Al-Hameedi,S.|Energetic Costs of Toxicant Metabolism in Rainbow Trout (Oncorhynchus mykiss)|M.S.Thesis, University of Ottawa, Canada:124 p.|2009|
165783|A||Nault,R., S. Al-Hameedi, and T.W. Moon|Effects of Polychlorinated Biphenyls on Whole Animal Energy Mobilization and Hepatic Cellular Respiration in Rainbow Trout, Oncorhynchus mykiss|Chemosphere87(9): 1057-1062|2012|10.1016/j.chemosphere.2012.02.012
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165790|A||Pereira,L., M.N. Fernandes, and C.B.R. Martinez|Hematological and Biochemical Alterations in the Fish Prochilodus lineatus Caused by the Herbicide Clomazone|Environ. Toxicol. Pharmacol.36:1-8|2013|10.1016/j.etap.2013.02.019
165791|T||Raza,N., T.A. Saqib, M.A. Azmi, and S.N.H. Naqvi|Effects of Cadmium, Chromium, and Lead on Enzyme Inhibition in Treated Marine Bird, Larus argentatus the Herring Gull|Pak. J. Entomol. Karachi25(2): 91-96|2010|
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165799|T||Perez-Tornero,O., C.I. Tallon, S. Andujar, F. Cordoba, M. Rodriguez-Moran, and J.M. Navarro|Growth and Physiological Characterisation of In Vitro Rooted Citrus macrophylla Explants as Affected by NaCl Stress and Different Concentrations of NO3-, K+ and Ca2+|Acta Hortic.928:345-349|2012|10.17660/ActaHortic.2012.928.46
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165802|T||Stein,J.M., M.J. Wayner, K.M. Kantak, and R.L. Adler-Stein|Synergistic Action of p-Chloroamphetamine and Fluoxetine on Food and Water Consumption Patterns in the Rat|Pharmacol. Biochem. Behav.9(5): 677-685|1978|10.1016/0091-3057(78)90221-6
165803|A||Vijayendran,K.G., A.W.M. Effendy, T.S. Cha, and T. Mariam|Identification of Putative Pre-B Cell Leukaemia Transcription Factor 1 Gene by Differential Display:  A Novel Fish mRNA Expressed upon Cadmium Exposure|Pertanika32(1): 91-98|2009|
165804|A||Wightwick,A., and G. Allinson|Effect of Increasing Salinity on the Toxicity of Methidathion to Freshwater Rotifers (Philodina acuticornis odiosa)|Australas. J. Ecotoxicol.15(1): 11-15|2009|
165805|A||Witeska,M., E. Kondera, M. Szymanska, and M. Ostrysz|Hematological Changes in Common Carp (Cyprinus carpio L.) After Short-Term Lead (Pb) Exposure|Pol. J. Environ. Stud.19(4): 825-831|2010|
165806|A||Wang,N.|Assessment of the Use of Sodium Chloride (NaCl) as a Reference Toxicant in Acute Water-Only Toxicity Tests with Juvenile Mussels|CERC Project Number 06-TOX-04. USGS, Columbia, MO - Study Outline:7 p.|2007|
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165808|A||Choi,V.W.Y., C.Y.P. Ng, M.K.Y. Kong, S.H. Cheng, and K.N. Yu|Adaptive Response to Ionising Radiation Induced by Cadmium in Zebrafish Embryos|J. Radiol. Prot.33(1): 101-112|2013|10.1088/0952-4746/33/1/101
165809|A||Cao,C.W., X.P. Li, S.L. Ge, L.L. Sun, and Z.Y. Wang|Enzymatic Activities as Potential Stress Biomarkers of Two Substituted Benzene Compounds in Propsilocerus akamusi (Diptera: Chironomidae)|Afr. J. Aquat. Sci.37(3): 265-270|2012|10.2989/16085914.2012.703127
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165813|T||Tornwall,M., and P.T. Mannisto|Acute Toxicity of Three New Selective COMT Inhibitors in Mice with Special Emphasis on Interactions with Drugs Increasing Catecholaminergic Neurotransmission|Pharmacol. Toxicol.69(1): 64-70|1991|10.1111/j.1600-0773.1991.tb00412.x
165814|A||Saxena,A., and S. Singh|Effect of Toxicity of Phorate-10 on the Liver of Fish Channa punctatus|Bionotes12(4): 123-|2010|
165815|A||Teodorescu,D., M.C. Munteanu, A.C. Staicu, and A. Dinischiotu|Changes in Lactate Dehydrogenase Activity in Carassius auratus gibelio (L. Pysces) Kidney, Gills and Intestine Induced by Acute Exposure to Copper|Rom. Biotechnol. Lett.17(6): 7873-7880|2012|
165816|A||Soyut,H., S. Beydemir, S.B. Ceyhun, O. Erdogan, and E.D. Kaya|Changes in Carbonic Anhydrase Activity and Gene Expression of Hsp70 in Rainbow Trout (Oncorhynchus mykiss) Muscle After Exposure to Some Metals|Turk. J. Vet. Anim. Sci.36(5): 499-508|2012|
165817|T||Tang,T., D.W. Huang, C.Q. Zhou, X. Li, Q.J. Xie, and F.S. Liu|Molecular Cloning and Expression Patterns of Copper/Zinc Superoxide Dismutase and Manganese Superoxide Dismutase in Musca domestica|Gene505(2): 211-220|2012|10.1016/j.gene.2012.06.025
165818|A||Ulhaq,M., G. Carlsson, S. Orn, and L. Norrgren|Comparison of Developmental Toxicity of Seven Perfluoroalkyl Acids to Zebrafish Embryos|Environ. Toxicol. Pharmacol.36:423-426|2013|10.1016/j.etap.2013.05.004
165819|A||Saez,M.I., S. Garcia-Mesa, J.J. Casas, J.L. Guil-Guerrero, C.E. Venegas-Venegas, A.E. Morales, and M.D. Suarez|Effect of Sublethal Concentrations of Waterborne Copper on Lipid Peroxidation and Enzymatic Antioxidant Response in Gambusia holbrooki|Environ. Toxicol. Pharmacol.36:125-134|2013|10.1016/j.etap.2013.03.011
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165822|A||Li,M.|The Oxidation of Carbon Nanotubes and Their Environmental Implications Exemplified by the Responses of Ceriodaphnia dubia|Ph.D. Thesis, University of Delaware, DE:229 p.|2009|
165823|A||Lovern,S.B.|The Effects of Manufactured Nanoparticles on Daphnia magna|Ph.D.Thesis, University of Wisconsin, Milwaukee, WI:112 p.|2007|
165824|A||Hanna,S.K.|Implications of Engineered Nanomaterials in Marine Coastal Ecosystems: Fate, Transport, and Toxicity|Ph.D Thesis, University of California, Santa Barbara:112 p.|2012|
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165827|T||Keiser,J., V. Veneziano, L. Rinaldi, L. Mezzino, U. Duthaler, and G. Cringoli|Anthelmintic Activity of Artesunate Against Fasciola hepatica in Naturally Infected Sheep|Res. Vet. Sci.88(1): 107-110|2010|10.1016/j.rvsc.2009.05.007
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165830|T||Shao,X., H. Lu, H. Bao, X. Xu, Z. Liu, and Z. Li|The Mode of Action of a Nitroconjugated Neonicotinoid and the Effects of Target Site Mutation Y151S on Its Potency|Insect Biochem. Mol. Biol.41(7): 440-445|2011|10.1016/j.ibmb.2011.04.005
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165833|T||Feberwee,A., J.J. De Wit, and W.J.M. Landman|Induction of Eggshell Apex Abnormalities by Mycoplasma synoviae: Field and Experimental Studies|Avian Pathol.38(1): 77-85|2009|10.1080/03079450802662772
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165859|T||Kone,A., M. Van de Vegte-Bolmer, R. Siebelink-Stoter, G.J. Van Gemert, A. Dara, H. Niangaly, A. Luty, O.K. Doumbo, R. S|Sulfadoxine-Pyrimethamine Impairs Plasmodium falciparum Gametocyte Infectivity and Anopheles Mosquito Survival|Int. J. Parasitol.40(10): 1221-1228|2010|10.1016/j.ijpara.2010.05.004
165860|A||Garibay,R.|Chloride Threshold Recommendations for the Protection of Aquatic Life in the Upper Santa Clara River|ADVENT Project No. 03729. USCR Chloride Threshold Recommendations:73 p.|2004|
165861|A||Wainscott,B.C.|Behavioral Reactions by Bullfrog Larvae (Rana catesbeiana) to Deicing Chemicals, Agricultural Fertilizers, and Herbicides|M.S.Thesis, Illinois State University, Normal, IL:90 p.|1997|
165862|A||Parkerton,T.F.|Estimating Toxicokinetic Parameters for Modeling the Bioaccumulation of Non-Ionic Organic Chemicals in Aquatic Organisms|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:346 p.|1993|
165863|A||Isensee,A.R.|Pesticide Availability:  Influence of Sediment in a Simulated Aquatic Environment|ACS Symp. Ser.259:261-277|1984|10.1021/bk-1984-0259.ch016
165864|A||Gangopadhyay,K., M. Bhattacharyya, and S. Homechaudhuri|Pesticide-Induced Alterations of Hemopoietic Functions in Anabas testudineus Inhabiting Wetlands in Agricultural Landscape|Toxicol. Environ. Chem.95(5): 806-813|2013|10.1080/02772248.2013.808846
165865|T||Minshall,W.H.|Translocation Path and Place of Action 3-(4-Chlorophenyl)-1:1-Dimethylurea in Bean and Tomato|Can. J. Bot.32:795-798|1954|10.1139/b54-068
165866|T||Metcalf,R.L., E.M. Stafford, T.R. Fukuto, and R.B. March|The Systemic Behavior of O,O-Diethyl S-2-(Diethylamino)Ethyl Phosphorothiolate and Its Salts|J. Econ. Entomol.50(2): 205-210|1957|10.1093/jee/50.2.205
165867|T||Sazhina,L.A.|Experimental Data to Substantiate the Maximum Permissible Concentration of Beryllium in the Water of Reservoirs|Hyg. Sanit.30(1-3): 169-176|1965|
165868|A||Valkama,E.L., and O.V. Lindqvist|A Radiographic Whole-Body Study on the Distribution of (14C) DDT (Dichloro(U14C)phenyltrichloroethane) in the Crayfish (Astacus astacus)|Acta Pharmacol. Toxicol. Suppl.41(Suppl. 1): 152-153|1977|
165869|T||Karssen,C.M.|Uptake and Effect of Abscisic Acid During Induction and Progress of Radicle Growth in Seeds of Chenopodium album|Physiol. Plant. (Multiple Languages)36:259-263|1976|10.1111/j.1399-3054.1976.tb04425.x
165870|T||Claus,J.S., and R. Behrens|Glyphosate Translocation and Quackgrass Rhizome Bud Kill|Weed Sci.24(2): 149-152|1976|10.1017/S0043174500065644
165871|T||Bravdo,B., S. Mayak, and Y. Gravrieli|Sucrose and Water Uptake from Concentrated Sucrose Solutions by Gladiolus Shoots and the Effect of These Treatments on Floret Life|Can. J. Bot.52:1271-1281|1974|10.1139/b74-165
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165874|T||Fogg,G.E.|The Penetration of 3:5-Dinitro-o-Cresol into Leaves|Ann. Appl. Biol.35(3): 315-329|1948|10.1111/j.1744-7348.1948.tb07376.x
165875|T||Chow,P.N.P.|Absorption and Dissipation of TCA by Wheat and Oats|Weed Sci.18(4): 492-496|1970|10.1017/S004317450007853X
165876|T||Bagni,N.|Absorption of Spermine and Spermidine and Their Degradation in Explants of Helianthus tuberosus In Vitro|Z. Pflanzenphysiol. (Multiple Languages)57:22-25|1967|
165877|T||Eliasson,L.|Translocation of Shoot-Applied Indolylacetic Acid into the Roots of Populus tremula|Physiol. Plant. (Multiple Languages)27:412-416|1972|10.1111/j.1399-3054.1972.tb03636.x
165878|T||Damanakis,M., D.S.H. Drennan, J.D. Fryer, and K. Holly|Availability to Plants of Paraquat Adsorbed on Soil or Sprayed on Vegetation|Weed Res. (Multiple Languages)10:305-315|1970|10.1111/j.1365-3180.1970.tb00958.x
165879|T||Singh,V.S., and M.G. Jotwani|Control of Sorghum Shootfly, Atherigona soccata Rond. with Phorate and Disulfoton Granules|Indian J. Entomol.37(3): 219-224|1975|
165880|T||Hacskaylo,J., and R.B. Stewart|Efficacy of Phorate as a Fungicide|Phytopathology52:371-372|1962|
165881|T||Patterson,R.S., and W.A. Rawlins|Evaluation of Phorate and Di-Syston for Potato Insect Control in New York|Am. Potato J.41(7): 196-200|1964|10.1007/BF02855083
165882|T||Al-Azawi,A.F.|Seed Treatment with Phorate, Disulfoton, and Other Insecticides to Control Pea Insects in Iraq|J. Econ. Entomol.59(4): 859-864|1966|10.1093/jee/59.4.859
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165884|T||Ball,H.J.|A Five-Year Study of Potential Western Corn Rootworm Resistance to Diazinon and Phorate in Nebraska|J. Econ. Entomol.61(2): 496-498|1968|10.1093/jee/61.2.496
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165886|T||Bowman,J.S., and J.E. Casida|Further Studies on the Metabolism of Thimet by Plants, Insects, and Mammals|J. Econ. Entomol.51(6): 838-843|1958|10.1093/jee/51.6.838
165887|T||Chisholm,D., and H.B. Specht|Effect of Application Rates of Disulfoton and Phorate, and of Irrigation on Aphid Control and Residues in Canning Peas|Can. J. Plant Sci.47(2): 175-180|1967|10.4141/cjps67-030
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165889|T||Hammond,R.B.|Phytotoxic Interactions Among Phorate, Metribuzin, and Certain Soybean Cultivars|J. Econ. Entomol.79(5): 1338-1342|1986|10.1093/jee/79.5.1338
165890|T||Parker,B.L., and J.E. Dewey|Decline of Phorate and Dimethoate Residues in Treated Soils Based on Toxicity to Drosophila melanogaster|J. Econ. Entomol.58(1): 106-111|1965|10.1093/jee/58.1.106
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165899|T||Hoogcarspel,A.P., and J.A. Jobsen|Laboratory Method for Testing Side-Effects of Pesticides on Encarsia formosa Gahan (Hym., Aphelinidae).  Results with Pesticides Used in Glasshouse Tomato Crops in the Netherlands|Z. Angew. Entomol. (Multiple Languages)97:268-278|1984|10.1111/j.1439-0418.1984.tb03748.x
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165901|A||Vijayakumar,M., M.S. Butchiram, and K.S. Tilak|Effect of Quinalphos, an Organophosphorous Pesticide on Nucleic Acids and Proteins of the Freshwater Fish Channa punctaus|J. Ecotoxicol. Environ. Monit.19(1): 7-12|2009|
165902|T||Bellec,C., G. Hebrard, and A. d'Almeida|The Effects of Helicopter Applied Adulticides for Riverine Tsetse Control on Simulium Populations in a West African Savanna Habitat. II. Effects as Estimated by Non-Biting Stages of Simulium damnosum s.I. and Other Blac|Trop. Pest Manag.29(1): 7-12|1983|10.1080/09670878309370761
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165922|T||Zhao,P., Z. Lu, M.R. Strand, and H. Jiang|Antiviral, Antiparasitic, and Cytotoxic Effects of 5,6-Dihydroxyindole (DHI), a Reactive Compound Generated by Phenoloxidase During Insect Immune Response|Insect Biochem. Mol. Biol.49(9): 645-652|2011|10.1016/j.ibmb.2011.04.006
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165956|A||Wu,H., X. Zhang, Q. Wang, L. Li, C. Ji, X. Liu, J. Zhao, and X. Yin|A Metabolomic Investigation on Arsenic-Induced Toxicological Effects in the Clam Ruditapes philippinarum Under Different Salinities|Ecotoxicol. Environ. Saf.90:1-6|2013|10.1016/j.ecoenv.2012.02.022
165957|A||Zhu,X., J. Zhou, and Z. Cai|The Toxicity and Oxidative Stress of TiO2 Nanoparticles in Marine Abalone (Haliotis diversicolor supertexta)|Mar. Pollut. Bull.63(5-12): 334-338|2011|10.1016/j.marpolbul.2011.03.006
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165969|T||Yang,Y., Y. Sun, Y. Liu, J. Peng, Y. Wu, Y. Zhang, W. Feng, and F. Li|Long-Term In Vivo Biodistribution and Toxicity of Gd(OH)3 Nanorods|Biomaterials34(2): 508-515|2013|10.1016/j.biomaterials.2012.09.075
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165972|A||Vedamanikam,V.J., A. Bandara, and P. Boncoeur|A Study on the Effects of Four Heavy Metals on Five Species of Chironomous Larvae Present on Mahe Island of Seychelles|Toxicol. Environ. Chem.95(7): 1171-1175|2013|10.1080/02772248.2013.862388
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165976|A||Watters,A., S.L. Gerstenberger, and W.H. Wong|Effectiveness of EarthTec for Killing Invasive Quagga Mussels (Dreissena rostriformis bugensis) and Preventing Their Colonization in the Western United States|Biofouling29(1): 21-28|2013|10.1080/08927014.2012.744825
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165999|T||Prado-Ochoa,M.G., M.A. Munoz-Guzman, V.H. Abrego-Reyes, A.M. Velazquez-Sanchez, M. Lara-Rocha, C. Cuenca-Verde, E. Ange|Effect of New Ethyl and Methyl Carbamates on Biological Parameters and Reproduction of the Cattle Tick Rhipicephalus microplus|Vet. Parasitol.194(1): 49-57|2013|10.1016/j.vetpar.2012.12.026
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166001|AT||Sikorski,L., A.I. Piotrowicz-Cieslak, and B. Adomas|Phytotoxicity of Sodium Chloride Towards Common Duckweed (Lemna minor L.) and Yellow Lupin (Lupinus luteus L.)|Arch. Environ. Prot.39(2): 117-128|2013|10.2478/aep-2013-0018
166002|A||Simeon,E.O., E.O. Adaunwo, and E.E. Simeon|Effect of Paraquat on Organ Indices and Heamatology in Clarias gariepinus After Chronic Exposure|Br. J. Pharmaceut. Res.3(4): 1106-1114|2013|10.9734/BJPR/2013/3647
166003|A||Park,M.S., P.G. Jo, Y.K. Choi, K.W. An, and C.Y. Choi|Characterization and mRNA Expression of Mn-SOD and Physiological Responses to Stresses in the Pacific Oyster Crassostrea gigas|Mar. Biol. Res.5(5): 451-461|2009|10.1080/17451000802626554
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166008|A||Pradhan,A., S. Seena, C. Pascoal, and F. Cassio|Can Metal Nanoparticles be a Threat to Microbial Decomposers of Plant Litter in Streams?|Microb. Ecol.62(1): 58-68|2011|10.1007/s00248-011-9861-4
166009|A||Kennedy,C.J., P. Stecko, B. Truelson, and D. Petkovich|Dissolved Organic Carbon Modulates the Effects of Copper on Olfactory-Mediated Behaviors of Chinook Salmon|Environ. Toxicol. Chem.31(10): 2281-2288|2012|10.1002/etc.1948
166010|A||Jordaan,M.S., and O.L.F. Weyl|Determining the Minimum Effective Dose of Rotenone for Eradication of Alien Smallmouth Bass Micropterus dolomieu from a South African River|Afr. J. Aquat. Sci.38(Supp1.): 91-95|2013|10.2989/16085914.2013.784699
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166012|A||Thomas,T.G., V. Prakash, S. Singh, A.K. Mandal, and L.S. Chauhan|Insecticide Susceptibility Status of Culex quinquefasciatus Say, the Vector of Bancroftian Filariasis Against Temephos in Delhi and National Capital Region|Jpn. J. Infect. Dis.66(3): 238-240|2013|10.7883/yoken.66.238
166013|A||Tassou,K.T., and R. Schulz|Low Field-Relevant Tebufenozide Concentrations Affect Reproduction in Chironomus riparius (Diptera: Chironomidae) in a Long-Term Toxicity Test|Environ. Sci. Pollut. Res. Int.20(6): 3735-3742|2013|10.1007/s11356-012-1311-4
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166015|T||Akbar,W., J.A. Ottea, J.M. Beuzelin, T.E. Reagan, and F. Huang|Selection and Life History Traits of Tebufenozide-Resistant Sugarcane Borer (Lepidoptera: Crambidae)|J. Econ. Entomol.101(6): 1903-1910|2008|10.1603/0022-0493-101.6.1903
166016|T||Barani,A., A. Franchi, R. Bugiani, and A. Montermini|Efficacy of Unit Canopy Row Spraying System for Control of European Vine Moth (Lobesia botrana) in Vineyards|CIGR E-Journal10:12 p.|2008|
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166018|T||Barrett,B.A.|Assessment of Methoxyfenozide Exposure on the Sexual Attractiveness and Responsiveness of Adult Codling Moth, Cydia pomonella L., in Small Orchard Blocks|Pest Manag. Sci.64:916-922|2008|10.1002/ps.1584
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166020|T||Singh,S.P., M.F. Rahman, U.S.N. Murty, M. Mahboob, and P. Grover|Comparative Study of Genotoxicity and Tissue Distribution of Nano and Micron Sized Iron Oxide in Rats After Acute Oral Treatment|Toxicol. Appl. Pharmacol.266(1): 56-66|2013|10.1016/j.taap.2012.10.016
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166043|T||Hockner,M., K. Stefanon, D. Schuler, R. Fantur, A. De Vaufleury, and R. Dallinger|Coping with Cadmium Exposure in Various Ways:  The Two Helicid Snails Helix pomatia and Cantareus aspersus Share the Metal Transcription Factor-2, but Differ in Promoter Organization and Transcription of  Their Cd-Metal|J. Exp. Zool. Part A. Ecol. Genet. Physiol.311(10): 776-787|2009|10.1002/jez.564
166044|A||Mirza,N., Q. Mahmood, A. Pervez, R. Ahmad, R. Farooq, M.M. Shah, and M.R. Azim|Phytoremediation Potential of Arundo donax in Arsenic-Contaminated Synthetic Wastewater|Bioresour. Technol.101(15): 5815-5819|2010|10.1016/j.biortech.2010.03.012
166045|T||Hughes,S.L., J.G. Bundy, E.J. Want, P. Kille, and S.R. Sturzenbaum|The Metabolomic Responses of Caenorhabditis elegans to Cadmium are Largely Independent of Metallothionein Status, but Dominated by Changes in Cystathionine and Phytochelatins|J. Proteome Res.8(7): 3512-3519|2009|10.1021/pr9001806
166046|A||Chandrudu,M.V., and K. Radhakrishnaiah|Cadmium-Induced Histopathological Changes in Liver and Muscle of the Freshwater Fish Labeo rohita|J. Ecotoxicol. Environ. Monit.19(3): 265-272|2009|
166047|A||Morabito,G., D. Trombetta, K.S. Brajendra, K.P. Ashok, S.P. Virinder, C. Naccari, F. Mancari, A. Saija, M. Cristani, O.|Antioxidant Properties of 4-Methylcoumarins in In Vitro Cell-Free Systems|Biochimie (Paris)92(9): 1101-1107|2010|10.1016/j.biochi.2010.04.017
166048|A||King,K., and P. Farrell|Sensitivity of Juvenile Atlantic Sturgeon to Three Therapeutic Chemicals Used in Aquaculture|N. Am. J. Aquacult.64:60-65|2002|10.1577/1548-8454(2002)064<0060:SOJAST>2.0.CO;2
166049|A||Xin,L., H. Hong-Ying, Y. Jia, and W. Yin-Hu|Enhancement Effect of Ethyl-2-Methyl Acetoacetate on Triacylglycerols Production by a Freshwater Microalga, Scenedesmus sp. LX1|Bioresour. Technol.101(24): 9819-9821|2010|10.1016/j.biortech.2010.07.103
166050|A||Abdel-Tawwab,M., M.A.A. Mousa, and M.A. Mohammed|Use of Live Baker's Yeast, Saccharomyces cerevisiae, in Practical Diet to Enhance the Growth Performance of Galilee Tilapia, Sarotherodon galilaeus (L.), and Its Resistance to Environmental Copper Toxicity|J. World Aquac. Soc.41(s2): 214-223|2010|10.1111/j.1749-7345.2010.00361.x
166051|A||Ansari,Z.A., P. Farshchi, and M. Faniband|Naphthalene Induced Activities on Growth, Respiratory Metabolism and Biochemical Composition in Juveniles of Metapenaeus affinis (H.Milne Edward, 1837)|Indian J. Mar. Sci.39(2): 285-289|2010|
166052|T||Patil,A.V., and B.A. Karadge|Effect of NaCl Salinity on the Growth and Mineral Nutrition of One Month Old Prosopis juliflora (Sw.) DC Seedlings|Pharmacog. J.4(31): 63-66|2012|10.5530/pj.2012.31.12
166053|A||Daka,E.R.|Copper and Cadmium Accumulation in Populations of Littorina saxatilis from the Isle of Man Having Differential Tolerance to Zinc and Lead|Int. J. Anim. Vet. Adv.1(2): 92-98|2009|
166054|A||Al-Daham,N.K., and M.N. Bhatti|Salinity Tolerance of Gambusia affinis (Baird & Girard) and Heteropneustes fossilis (Bloch)|J. Fish Biol.11:309-313|1977|10.1111/j.1095-8649.1977.tb04124.x
166055|A||Baker,S.L., and N.D. Yan|Accumulated Organic Debris in Catch Basins Improves the Efficacy of S-Methoprene Against Mosquitoes in Toronto, Ontario, Canada|Am. Mosq. Control Assoc. J.26(2): 172-182|2010|10.2987/09-5928.1
166056|T||Bonmatin,J.M., P.A. Marchand, R. Charvet, I. Moineau, E.R. Bengsch, and M.E. Colin|Quantification of Imidacloprid Uptake in Maize Crops|J. Agric. Food Chem.53(13): 5336-5341|2005|10.1021/jf0479362
166057|T||Chao,Y.Y., C.Y. Hong, and C.H. Kao|The Decline in Ascorbic Acid Content is Associated with Cadmium Toxicity of Rice Seedlings|Plant Physiol. Biochem. (Amsterdam)48(5): 374-381|2010|10.1016/j.plaphy.2010.01.009
166058|A||Chainark,S., and C.E. Boyd|Water and Sediment Quality, Phytoplankton Communities, and Channel Catfish Production in Sodium Nitrate-Treated Ponds|J. Appl. Aquacult.22(2): 171-185|2010|10.1080/10454431003736524
166059|A||Agostini,M.G., G.S. Natale, and A.E. Ronco|Impact of Endosulphan and Cypermethrin Mixture on Amphibians Under Field Use for Biotech Soya Bean Production|Int. J. Environ. Health3(4): 379-389|2009|10.1504/IJENVH.2009.030109
166060|T||Shaw,A.K., and Z. Hossain|Impact of Nano-CuO Stress on Rice (Oryza sativa L.) Seedlings|Chemosphere93(6): 906-915|2013|10.1016/j.chemosphere.2013.05.044
166061|A||Tao,X., Y. He, J.D. Fortner, Y. Chen, and J.B. Hughes|Effects of Aqueous Stable Fullerene Nanocrystal (NC60) on Copper (Trace Necessary Nutrient Metal):  Enhanced Toxicity and Accumulation of Copper in Daphnia magna|Chemosphere92:1245-1252|2013|10.1016/j.chemosphere.2013.04.056
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166064|T||Doucet,D., C. Frisco, M. Cusson, E. Bauce, S.R. Palli, B. Tomkins, B. Arif, and A. Retnakaran|Diapause Disruption with Tebufenozide for Early-Instar Control of the Spruce Budworm, Choristoneura fumiferana|Pest Manag. Sci.63(8): 730-736|2007|10.1002/ps.1400
166065|AT||He,H., H. Gao, G. Chen, H. Li, H. Lin, and Z. Shu|Effects of Perchlorate on Growth of Four Wetland Plants and Its Accumulation in Plant Tissues|Environ. Sci. Pollut. Res. Int.20(10): 7301-7308|2013|10.1007/s11356-013-1744-4
166066|T||Gelbic,I., M.M. Adel, and H.M. Hussein|Effects of Nonsteroidal Ecdysone Agonist RH-5992 and Chitin Biosynthesis Inhibitor Lufenuron on Spodoptera littoralis (Boisduval, 1833)|Central Eur. J. Biol.6(5): 861-869|2011|
166067|A||Kubrak,O.I., T.M. Atamaniuk, V.V. Husak, and V.I. Lushchak|Transient Effects of 2,4-Dichlorophenoxyacetic Acid (2,4-D) Exposure on Some Metabolic and Free Radical Processes in Goldfish White Muscle|Food Chem. Toxicol.59:356-361|2013|10.1016/j.fct.2013.06.023
166068|T||Hannig,G.T., M. Ziegler, and P.G. Marcon|Feeding Cessation Effects of Chlorantraniliprole, a New Anthranilic Diamide Insecticide, in Comparison with Several Insecticides in Distinct Chemical Classes and Mode-of-Action Groups|Pest Manag. Sci.65(9): 969-974|2009|10.1002/ps.1781
166069|A||Mishra,S., G. Wellenreuther, J. Mattusch, H.J. Stark, and H. Kupper|Speciation and Distribution of Arsenic in the Nonhyperaccumulator Macrophyte Ceratophyllum demersum|Plant Physiol.163(3): 1396-1408|2013|10.1104/pp.113.224303
166070|T||Hardke,J.T., J.H. Temple, B. Leonard, and R.E. Jackson|Laboratory Toxicity and Field Efficacy of Selected Insecticides Against Fall Armyworm (Lepidoptera: Noctuidae)|Fla. Entomol.94(2): 272-278|2011|10.1653/024.094.0221
166071|A||Maharajan,A., S. Rajalakshmi, and M. Vijayakumaran|Effect of Copper in Protein, Carbohydrate and Lipid Contents of the Juvenile Lobster, Panulirus homarus homarus (Linnaeus, 1758)|Sri Lanka J. Aquat. Sci.17:19-34|2012|10.4038/sljas.v17i0.6853
166072|T||Jia,B., Y. Liu, Y.C. Zhu, X. Liu, C. Gao, and J. Shen|Inheritance, Fitness Cost and Mechanism of Resistance to Tebufenozide in Spodoptera exigua (Hubner) (Lepidoptera: Noctuidae)|Pest Manag. Sci.65(9): 996-1002|2009|10.1002/ps.1785
166073|T||Knight,A.L., and D.M. Light|Adding Microencapsulated Pear Ester to Insecticides for Control of Cydia pomonella (Lepidoptera: Tortricidae) in Apple|Pest Manag. Sci.69(1): 66-74|2013|10.1002/ps.3363
166074|T||Magalhaes,L.C., J.B. Van Kretschmar, V.M. Barlow, R.M. Roe, and J.F. Walgenbach|Development of a Rapid Resistance Monitoring Bioassay for Codling Moth Larvae|Pest Manag. Sci.68(6): 883-888|2012|10.1002/ps.3246
166075|A||Nilsson,J.R.|Vanadate Affects Nuclear Division and Induces Aberrantly-Shaped Cells During Subsequent Cytokinesis in Tetrahymena|J. Eukaryot. Microbiol.46(1): 24-33|1999|10.1111/j.1550-7408.1999.tb04580.x
166076|A||Lopes,S., F. Ribeiro, J. Wojnarowicz, W. Lojkowski, K. Jurkschat, A. Crossley, A.M.V.M. Soares, and S. Loureiro|Zinc Oxide Nanoparticles Toxicity to Daphnia magna:  Size-Dependent Effects and Dissolution|Environ. Toxicol. Chem.33(1): 190-198|2014|10.1002/etc.2413
166077|T||Mahdian,K., T. Van Leeuwen, L. Tirry, and P. De Clercq|Susceptibility of the Predatory Stinkbug Picromerus bidens to Selected Insecticides|Biocontrol52:765-774|2007|10.1007/s10526-007-9075-3
166078|A||Massarsky,A., L. Dupuis, J. Taylor, S. Eisa-Beygi, L. Strek, V.L. Trudeau, and T.W. Moon|Assessment of Nanosilver Toxicity During Zebrafish (Danio rerio) Development|Chemosphere92(1): 59-66|2013|10.1016/j.chemosphere.2013.02.060
166079|T||Mota-Sanchez,D., J.C. Wise, R. Vander Poppen, L.J. Gut, and R.M. Hollingworth|Resistance of Codling Moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae), Larvae in Michigan to Insecticides with Different Modes of Action and the Impact on Field Residual Activity|Pest Manag. Sci.64(9): 881-890|2008|10.1002/ps.1576
166080|A||Luzio,A., S.M. Monteiro, A.A. Fontainhas-Fernandes, O. Pinto-Carnide, M. Matos, and A.M. Coimbra|Copper Induced Upregulation of Apoptosis Related Genes in Zebrafish (Danio rerio) Gill|Aquat. Toxicol.128/129:183-189|2013|10.1016/j.aquatox.2012.12.018
166081|T||Osorio,A., A.M. Martinez, M.I. Schneider, O. Diaz, J.L. Corrales, M.C. Aviles, G. Smagghe, and S. Pineda|Monitoring of Beet Armyworm Resistance to Spinosad and Methoxyfenozide in Mexico|Pest Manag. Sci.64(10): 1001-1007|2008|10.1002/ps.1594
166082|A||Lorin-Nebel,C., V. Felten, E. Blondeau-Bidet, E. Grousset, E. Amilhat, G. Simon, S. Biagianti, and G. Charmantier|Individual and Combined Effects of Copper and Parasitism on Osmoregulation in the European Eel Anguilla anguilla|Aquat. Toxicol.130/131:41-50|2013|10.1016/j.aquatox.2012.11.018
166083|T||Pineda,S., A.M. Martinez, J.I. Figueroa, M.I. Schneider, P. Del Estal, E. Vinuela, B. Gomez, G. Smagghe, and F. Budia|Influence of Azadirachtin and Methoxyfenozide on Life Parameters of Spodoptera littoralis (Lepidoptera:  Noctuidae)|J. Econ. Entomol.102(4): 1490-1496|2009|10.1603/029.102.0413
166084|T||Lozano,O., J. Laloy, L. Alpan, J. Mejia, S. Rolin, O. Toussaint, J.M. Dogne, S. Lucas, and B. Masereel|Effects of SiC Nanoparticles Orally Administered in a Rat Model:  Biodistribution, Toxicity and Elemental Composition Changes in Feces and Organs|Toxicol. Appl. Pharmacol.264(2): 232-245|2012|10.1016/j.taap.2012.08.004
166085|A||Loteste,A., J. Scagnetti, M.F. Simoniello, M. Campana, and M.J. Parma|Hepatic Enzymes Activity in the Fish Prochilodus lineatus (Valenciennes, 1836) After Sublethal Cypermethrin Exposure|Bull. Environ. Contam. Toxicol.90(5): 601-604|2013|10.1007/s00128-013-0961-3
166086|T||Rehan,A., and S. Freed|Resistance Selection, Mechanism and Stability of Spodoptera litura (Lepidoptera: Noctuidae) to Methoxyfenozide|Pestic. Biochem. Physiol.110:7-12|2014|10.1016/j.pestbp.2014.02.001
166087|A||Nair,P.M.G., S.Y. Park, and J. Choi|Evaluation of the Effect of Silver Nanoparticles and Silver Ions Using Stress Responsive Gene Expression in Chironomus riparius|Chemosphere92(5): 592-599|2013|10.1016/j.chemosphere.2013.03.060
166088|A||Misra,S.K., A. Dybowska, D. Berhanu, M.N. Croteau, S.N. Luoma, A.R. Boccaccini, and E. Valsami-Jones|Isotopically Modified Nanoparticles for Enhanced Detection in Bioaccumulation Studies|Environ. Sci. Technol.46(2): 1216-1222|2012|10.1021/es2039757
166089|T||Reinke,M.D., and B.A. Barrett|Sublethal Exposure to Methoxyfenozide-Treated Surfaces Reduces the Attractiveness and Responsiveness in Adult Oriental Fruit Moth (Lepidoptera: Tortricidae)|J. Econ. Entomol.100(1): 72-78|2007|10.1093/jee/100.1.72
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166091|T||Smagghe,G., and D. Degheele|The Significance of Pharmacokinetics and Metabolism to the Biological Activity of RH-5992 (Tebufenozide) in Spodoptera exempta, Spodoptera exigua, and Leptinotarsa decemlineata|Pestic. Biochem. Physiol.49:224-234|1994|10.1006/pest.1994.1050
166092|T||Smirle,M.J., D.T. Lowery, and C.L. Zurowski|Influence of Mixtures of Kaolin Particle Film and Synthetic Insecticides on Mortality of Larval Obliquebanded Leafrollers (Lepidoptera: Tortricidae) from Resistant and Susceptible Populations|J. Econ. Entomol.100(6): 1831-1835|2007|10.1093/jee/100.6.1831
166093|T||Sundaram,K.M.S., A. Sundaram, and L. Sloane|Foliar Persistence and Residual Activity of Tebufenozide Against Spruce Budworm Larvae|Pestic. Sci.47(1): 31-40|1996|10.1002/(SICI)1096-9063(199605)47:1<31::AID-PS380>3.0.CO;2-4
166094|T||Xu,Z., G.C. Cao, and S.L. Dong|Changes of Sex Pheromone Communication Systems Associated with Tebufenozide and Abamectin Resistance in Diamondback Moth, Plutella xylostella (L.)|J. Chem. Ecol.36(5): 526-534|2010|10.1007/s10886-010-9785-3
166095|A||Lone,J.A., A. Kumar, S. Kundu, F.A. Lone, and M.R. Suseela|Characterization of Tolerance Limit in Spirulina platensis in Relation to Nanoparticles|Water Air Soil Pollut.224(9): 6 p.|2013|10.1007/s11270-013-1670-6
166096|T||Zibaee,A., A.R. Bandani, and D. Malagoli|Methoxyfenozide and Pyriproxifen Alter the Cellular Immune Reactions of Eurygaster integriceps Puton (Hemiptera: Scutelleridae) Against Beauveria bassiana|Pestic. Biochem. Physiol.102(1): 30-37|2012|10.1016/j.pestbp.2011.10.006
166097|T||Ahmad,M., A.H. Sayyed, M.A. Saleem, and M. Ahmad|Evidence for Field Evolved Resistance to Newer Insecticides in Spodoptera litura (Lepidoptera: Noctuidae) from Pakistan|Crop Prot.27:1367-1372|2008|10.1016/j.cropro.2008.05.003
166098|A||Licursi,M., and N. Gomez|Short-Term Toxicity of Hexavalent-Chromium to Epipsammic Diatoms of a Microtidal Estuary (Rio de la Plata):  Responses from the Individual Cell to the Community Structure|Aquat. Toxicol.134/135:82-91|2013|10.1016/j.aquatox.2013.03.007
166099|T||Alfaro,C., V. Navarro-Llopis, and J. Primo|Optimization of Pheromone Dispenser Density for Managing the Rice Striped Stem Borer, Chilo suppressalis (Walker), by Mating Disruption|Crop Prot.28:567-572|2009|10.1016/j.cropro.2009.02.006
166100|T||Mosleh,Y.Y., L.H. Yousry, and A. Abo-El-Elaa|Toxicological and Biochemical Effects of Some Insecticides on Peach Fly, Bactrocera zonata (Diptera: Tephritidae)|Plant Prot. Sci.47(3): 121-130|2011|10.17221/51/2009-PPS
166101|T||Mosleh,Y.Y., S.F.M. Moussa, and L.H.Y. Mohamed|Comparative Toxicity of Certain Pesticides to Peach Fruit Fly, Bactrocera zonata Saunders (Diptera: Tephritidae) Under Laboratory Conditions|Plant Prot. Sci.47(3): 115-120|2011|10.17221/52/2009-PPS
166102|T||Palli,S.R., M. Primavara, W. Tomkins, D. Lambert, and A. Retnakaran|Age-Specific Effects of a Non-Steroidal Ecdysteroid Agonist, RH-5992, on the Spruce Budworm, Choristroneura fumiferana (Lepidoptera: Tortricidae)|Eur. J. Entomol.92:325-332|1995|
166103|T||Rehan,A., and S. Freed|Selection, Mechanism, Cross Resistance and Stability of Spinosad Resistance in Spodoptera litura (Fabricius) (Lepidoptera: Noctuidae)|Crop Prot.56:10-15|2014|10.1016/j.cropro.2013.10.013
166104|A||Bakry,F.A., K. El-Hommossany, M.S.A. El-Atti, and S.M. Ismail|Alterations in the Fatty Acid Profile, Antioxidant Enzymes and Protein Pattern of Biomphalaria alexandrina Snails Exposed to the Pesticides Diazinon and Profenofos|Afr. J. Pharm. Pharmacol.7(37): 11 p.|2013|10.5897/AJPP2012.1537
166105|T||Saber,M., E. Parsaeyan, S. Vojoudi, M. Bagheri, A. Mehrvar, and S.G. Kamita|Acute Toxicity and Sublethal Effects of Methoxyfenozide and Thiodicarb on Survival, Development and Reproduction of Helicoverpa armigera (Lepidoptera: Noctuidae)|Crop Prot.43:14-17|2013|10.1016/j.cropro.2012.09.011
166106|T||Koziara,J.M., P.R. Lockman, D.D. Allen, and R.J. Mumper|In Situ Blood-Brain Barrier Transport of Nanoparticles|Pharm. Res.20(11): 1772-1778|2003|10.1023/B:PHAM.0000003374.58641.62
166107|T||Shahout,H.A., J.X. Xu, J. Qiao, and Q.D. Jia|Sublethal Effects of Methoxyfenozide, in Comparison to Chlorfluazuron and beta-Cypermethrin, on the Reproductive Characteristics of Common Cutworm Spodoptera litura (Fabricius) (Lepidoptera: Noctuidae)|J. Entomol. Res. Soc.13(3): 53-63|2011|
166108|T||Leitao,S., M.J. Cerejeira, P.J. Van den Brink, and J.P. Sousa|Effects of Azoxystrobin, Chlorothalonil, and Ethoprophos on the Reproduction of Three Terrestrial Invertebrates Using a Natural Mediterranean Soil|Appl. Soil Ecol.76(0): 124-131|2014|10.1016/j.apsoil.2013.12.013
166109|A||Li,M.H.|Acute Toxicity of 30 Pharmaceutically Active Compounds to Freshwater Planarians, Dugesia japonica|Toxicol. Environ. Chem.95(7): 1157-1170|2013|10.1080/02772248.2013.857671
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166111|T||Lopez-Novoa,J.M., J.C. Garcia, M.A. Cruz-Soto, J.E. Benabe, and M. Martinez-Maldonado|Effect of Sodium Orthovanadate on Renal Renin Secretion In Vivo|J. Pharmacol. Exp. Ther.222(2): 447-451|1982|
166112|A||Li,S.W., D. Wang, H.B. Liu, and T.Y. Lu|Effects of Norfloxacin on the Drug Metabolism Enzymes of Two Sturgeon Species (Acipenser schrencki and Acipenser ruthenus)|J. Appl. Ichthyol.29(6): 1204-1207|2013|10.1111/jai.12239
166113|A||Hauser-Davis,R.A., F.F. Bastos, B. Tuton, R.C. Rocha, T.S. Pierre, R.L. Ziolli, and M.A.Z. Arruda|Bile and Liver Metallothionein Behavior in Copper-Exposed Fish|J. Trace Elem. Med. Biol.28(1): 70-74|2014|10.1016/j.jtemb.2013.09.003
166114|AT||Slama,K.|Hormonal Status of RH-5849 and RH-5992 Synthetic Ecdysone Agonists (Ecdysoids) Examined on Several Standard Bioassays for Ecdysteroids|Eur. J. Entomol.92:317-323|1995|
166115|T||Li,B., R. Hu, Z. Cheng, J. Cheng, Y. Xie, S. Gui, Q. Sun, X. Sang, X. Gong, Y. Cui, W. Shen, and F. Hong|Titanium Dioxide Nanoparticles Relieve Biochemical Dysfunctions of Fifth-Instar Larvae of Silkworms Following Exposure to Phoxim Insecticide|Chemosphere89(5): 609-614|2012|10.1016/j.chemosphere.2012.05.061
166116|T||Hu,C., M. Li, W. Wang, Y. Cui, J. Chen, and L. Yang|Ecotoxicity of Silver Nanoparticles on Earthworm Eisenia fetida: Responses of the Antioxidant System, Acid Phosphatase and ATPase|Toxicol. Environ. Chem.94(4): 732-741|2012|10.1080/02772248.2012.668020
166117|A||Jovanovic,B., E.M. Whitley, and D. Palic|Histopathology of Fathead Minnow (Pimephales promelas) Exposed to Hydroxylated Fullerenes|Nanotoxicology8(7): 755-763|2014|
166118|A||Levard,C., E.M. Hotze, B.P. Colman, A.L. Dale, L. Truong, X.Y. Yang, A.J. Bone, G.E.,Jr. Brown, R.L. Tanguay, R.T. Di G|Sulfidation of Silver Nanoparticles: Natural Antidote to Their Toxicity|Environ. Sci. Technol.47(23): 13440-13448|2013|10.1021/es403527n
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166120|A||Irons,T.D., P.E. Kelly, D.L. Hunter, R.C. MacPhail, and S. Padilla|Acute Administration of Dopaminergic Drugs has Differential Effects on Locomotion in Larval Zebrafish|Pharmacol. Biochem. Behav.103(4): 792-813|2013|10.1016/j.pbb.2012.12.010
166121|T||Parthasarathy,R., A. Tan, Z. Sun, J. Chen, M. Rainkin, and S.R. Palli|Juvenile Hormone Regulation of Male Accessory Gland Activity in the Red Flour Beetle, Tribolium castaneum|Mech. Dev.126(7): 563-579|2009|10.1016/j.mod.2009.03.005
166122|A||Hontoria,F., M.A. Gonzalez, A. Sitja-Bobadilla, O. Palenzuela, and P. Alvarez-Pellitero|Ketoconazole Modulates the Infectivity of Ichthyophonus sp. (Mesomycetozoa) In Vivo in Experimentally Injected European Sea Bass|Dis. Aquat. Org.105(3): 225-235|2013|10.3354/dao02607
166123|A||Gowda,K.M.D., N.K. Subbalakshmi, V.M. Nair, S.H. Palil, and A.P. Krishna|Effect of Cadmium on Oxygen Consumption and Schooling Behavior of the Fish Labeo rohita|Environ. Ecol.27(2): 718-722|2009|
166124|A||Ng,T.Y.T., N.M. Pais, T. Dhaliwal, and C.M. Wood|Use of Whole-Body and Subcellular Cu Residues of Lumbriculus variegatus to Predict Waterborne Cu Toxicity to Both L. variegatus and Chironomus riparius in Fresh Water|Chemosphere87(11): 1208-1214|2012|10.1016/j.chemosphere.2012.01.018
166125|A||Manimaran,K., P. Karthikeyan, S. Ashokkumar, V.A. Prabu, and P. Sampathkumar|Effect of Copper on Growth and Enzyme Activities of Marine Diatom, Odontella mobiliensis|Bull. Environ. Contam. Toxicol.88(1): 30-37|2012|10.1007/s00128-011-0427-4
166126|A||Agwuocha,S., B.G. Kulkarni, and A.K. Pandey|Alterations in Enzyme Activities in Hepatopancreas, Gill and Adductor Muscles of Intertidal Clam, Gafrarium divaricatum, Exposed Chronically to Xylene, Benzene and Gear Oil-WSF|J. Ecophysiol. Occup. Health13(1/2): 79-90|2013|
166127|A||Bat,L., F. Ustun, O.G. Baki, and F. Sahin|Effects of Some Heavy Metals on the Sizes of the Mediterranean Mussel Mytilus galloprovincialis Lamarck, 1819|Fresenius Environ. Bull.22(7): 1933-1938|2013|
166128|T||Franklin,A.K.|The Sublethal Effects of Methoxyfenozide on the Field Orientation and Courtship Behavior of Cydia pomonella (Linnaeus) (Lepidoptera:  Tortricidae)|M.S. Thesis, University of Missouri, Columbia, MO:148 p.|2008|
166129|A||Wan Maznah,W.O., A.T. Al-Fawwaz, and M. Surif|Biosorption of Copper and Zinc by Immobilised and Free Algal Biomass, and the Effects of Metal Biosorption on the Growth and Cellular Structure of Chlorella sp. and Chlamydomonas sp. Isolated from Rivers in Penang, Mala|J. Environ. Sci.24(8): 1386-1393|2012|10.1016/S1001-0742(11)60931-5
166130|A||Little,E.E., R.D. Calfee, and G. Linder|Toxicity of Copper to Early-Life Stage Kootenai River White Sturgeon, Columbia River White Sturgeon, and Rainbow Trout|Arch. Environ. Contam. Toxicol.63(3): 400-408|2012|10.1007/s00244-012-9782-3
166131|T||Maloney,K.M., J. Ancca-Juarez, R. Salazar, K. Borrini-Mayori, M. Niemierko, J.O. Yukich, C. Naquira, J.A. Keating, and |Comparison of Insecticidal Paint and Deltamethrin Against Triatoma infestans (Hemiptera: Reduviidae) Feeding and Mortality in Simulated Natural Conditions|J. Vector Ecol.38(1): 6-11|2013|10.1111/j.1948-7134.2013.12003.x
166132|A||Cho,J.G., K.T. Kim, T.K. Ryu, J.W. Lee, J.E. Kim, J. Kim, B.C. Lee, E.H. Jo, J. Yoon, I.C. Eom, K. Choi, and P. Kim|Stepwise Embryonic Toxicity of Silver Nanoparticles on Oryzias latipes|BioMed Res. Int.2013:7 p.|2013|
166133|A||Monteiro,S.C.R., G.L.L. Pinho, K. Hoffmann, I.F. Barcarolli, and A. Bianchini|Acute Waterborne Copper Toxicity to the Euryhaline Copepod Acartia tonsa at Different Salinities:  Influence of Natural Freshwater and Marine Dissolved Organic Matter|Environ. Toxicol. Chem.32(6): 1412-1419|2013|10.1002/etc.2197
166134|A||Li,M., D.M. Costello, and G.A.,Jr. Burton|Interactive Effects of Phosphorus and Copper on Hyalella azteca via Periphyton in Aquatic Ecosystems|Ecotoxicol. Environ. Saf.83:41-46|2012|10.1016/j.ecoenv.2012.06.004
166135|A||Li,Z.C., L.H. An, Q. Fu, Y. Liu, L. Zhang, H. Chen, X.R. Zhao, L.J. Wang, B.H. Zheng, and L.B. Zhang|Construction and Characterization of a Normalized cDNA Library from the River Snail Bellamya aeruginosa After Exposure to Copper|Ecotoxicology21(1): 260-267|2012|10.1007/s10646-011-0786-y
166136|A||Metzger,D.C., P. Pratt, and S.B. Roberts|Characterizing the Effects of Heavy Metal and Vibrio Exposure on HSP70 Expression in Crassostrea gigas Gill Tissue|J. Shellfish Res.31(3): 627-630|2012|10.2983/035.031.0305
166137|A||Gaion,A., A. Scuderi, D. Pellegrini, and D. Sartori|The Influence of Solid Matrices on Arsenic Toxicity to Corophium orientale|Chem. Ecol.29(7): 653-659|2013|10.1080/02757540.2013.810722
166138|A||Isani,G., G. Sarli, G. Andreani, B. Brunetti, R. Marrocco, E. Carpene, G. Beha, F. Morandi, and C. Benazzi|Effects of Waterborne Copper on Gills Catalase and Blood Biochemistry in Gilthead Seabream (Sparus aurata L.)|J. Elem.17(2): 255-267|2012|
166139|A||Li,Y., Z. Gu, H. Liu, H. Shen, and J. Yang|Biochemical Response of the Mussel Mytilus coruscus (Mytiloida: Mytilidae) Exposed to In Vivo Sub-Lethal Copper Concentrations|Chin. J. Oceanol. Limnol.30(5): 738-745|2012|10.1007/s00343-012-1232-6
166140|A||Lance,S.L., R.W. Flynn, M.R. Erickson, and D.E. Scott|Within- and Among-Population Level Differences in Response to Chronic Copper Exposure in Southern Toads, Anaxyrus terrestris|Environ. Pollut.177:135-142|2013|10.1016/j.envpol.2013.02.009
166142|A||Lebrun,J.D., M. Perret, A. Geffard, and C. Gourlay-France|Modelling Copper Bioaccumulation in Gammarus pulex and Alterations of Digestive Metabolism|Ecotoxicology21(7): 2022-2030|2012|10.1007/s10646-012-0955-7
166143|A||Flouty,R., and G. Estephane|Bioaccumulation and Biosorption of Copper and Lead by a Unicellular Algae Chlamydomonas reinhardtii in Single and Binary Metal Systems:  A Comparative Study|J. Environ. Manag.111:106-114|2012|10.1016/j.jenvman.2012.06.042
166144|A||Gomiero,A., S. Sforzini, A. Dagnino, C. Nasci, and A. Viarengo|The Use of Multiple Endpoints to Assess Cellular Responses to Environmental Contaminants in the Interstitial Marine Ciliate Euplotes crassus|Aquat. Toxicol.114/115:206-216|2012|10.1016/j.aquatox.2012.02.030
166145|A||Guo,R., V. Ebenezer, and J.S. Ki|Transcriptional Responses of Heat Shock Protein 70 (HSP70) to Thermal, Bisphenol A, and Copper Stresses in the Dinoflagellate Prorocentrum minimum|Chemosphere89:512-520|2012|10.1016/j.chemosphere.2012.05.014
166146|T||Aye,T.T., J.K. Shim, I.K. Rhee, and K.Y. Lee|Upregulation of the Immune Protein Gene Hemolin in the Epidermis During the Wandering Larval Stage of the Indian Meal Moth, Plodia interpunctella|J. Insect Physiol.54(8): 1301-1305|2008|10.1016/j.jinsphys.2008.07.003
166147|A||Gomes,T., O. Araujo, R. Pereira, A.C. Almeida, A. Cravo, and M.J. Bebianno|Genotoxicity of Copper Oxide and Silver Nanoparticles in the Mussel Mytilus galloprovincialis|Mar. Environ. Res.84:51-59|2013|10.1016/j.marenvres.2012.11.009
166148|A||Fabrizio,F., and C. Rodolfo|The Response of Benthic Foraminiferal Assemblages to Copper Exposure:  A Pilot Mesocosm Investigation|J. Environ. Prot.3(4): 342-352|2012|10.4236/jep.2012.34044
166149|A||Fiori,E., M. Mazzotti, F. Guerrini, and R. Pistocchi|Combined Effects of the Herbicide Terbuthylazine and Temperature on Different Flagellates from the Northern Adriatic Sea|Aquat. Toxicol.128:79-90|2013|10.1016/j.aquatox.2012.12.001
166150|T||Giraudo,M., P. Audant, R. Feyereisen, and G. Le Goff|Nuclear Receptors HR96 and Ultraspiracle from the Fall Armyworm (Spodoptera frugiperda), Developmental Expression and Induction by Xenobiotics|J. Insect Physiol.59(5): 560-568|2013|10.1016/j.jinsphys.2013.03.003
166151|A||Bailey,K.M., J.E. Hempstead, J.R. Tobias, L.B. Borst, A.B. Clode, and L.P. Posner|Evaluation of the Effects of Tricaine Methanesulfonate on Retinal Structure and Function in Koi Carp (Cyprinus carpio)|J. Am. Vet. Med. Assoc.242(11): 1578-1582|2013|10.2460/javma.242.11.1578
166152|A||Di Salvo,A., G. Della Rocca, P. Cagnardi, and R.M. Pellegrino|Pharmacokinetics and Residue Depletion of Erythromycin in Rainbow Trout Oncorhynchus mykiss (Walbaum)|J. Fish Dis.36(12): 1021-1029|2013|10.1111/jfd.12074
166153|T||Ioriatti,C., M. Tasin, P.J. Charmillot, M. Reyes, and B. Sauphanor|Early Detection of Resistance to Tebufenozide in Field Populations of Cydia pomonella L.:  Methods and Mechanisms|J. Appl. Entomol.131(7): 453-459|2007|10.1111/j.1439-0418.2007.01203.x
166154|A||Garcia-Cambero,J.P., M.N. Garcia, G.D. Lopez, A.L. Herranz, L. Cuevas, E. Perez-Pastrana, J.S. Cuadal, M.R. Castelltort|Converging Hazard Assessment of Gold Nanoparticles to Aquatic Organisms|Chemosphere93(6): 1194-1200|2013|10.1016/j.chemosphere.2013.06.074
166155|A||Al-Reasi,H.A., D.S. Smith, and C.M. Wood|Evaluating the Ameliorative Effect of Natural Dissolved Organic Matter (DOM) Quality on Copper Toxicity to Daphnia magna: Improving the BLM|Ecotoxicology21(2): 524-537|2012|10.1007/s10646-011-0813-z
166156|A||Boyle,R.T., L.F. Oliveira, A. Bianchini, and M.M. Souza|The Effects of Copper on Na+/K+-ATPase and Aquaporin Expression in Two Euryhaline Invertebrates|Bull. Environ. Contam. Toxicol.90(3): 387-390|2013|10.1007/s00128-012-0949-4
166157|A||Chen,W.Y., C.J. Lin, Y.R. Ju, J.W. Tsai, and C.M. Liao|Assessing the Effects of Pulsed Waterborne Copper Toxicity on Life-Stage Tilapia Populations|Sci. Total Environ.417/418:129-137|2012|10.1016/j.scitotenv.2011.12.043
166158|A||Gunawan,C., A. Sirimanoonphan, W.Y. Teoh, C.P. Marquis, and R. Amal|Submicron and Nano Formulations of Titanium Dioxide and Zinc Oxide Stimulate Unique Cellular Toxicological Responses in the Green Microalga Chlamydomonas reinhardtii|J. Hazard. Mater.260:984-992|2013|10.1016/j.jhazmat.2013.06.067
166159|A||Chen,W.Y., C.J. Lin, Y.R. Ju, J.W. Tsai, and C.M. Liao|Coupled Dynamics of Energy Budget and Population Growth of Tilapia in Response to Pulsed Waterborne Copper|Ecotoxicology21(8): 2264-2275|2012|10.1007/s10646-012-0983-3
166160|A||Bao,V.W.W., K.M.Y. Leung, G.C.S. Lui, and M.H.W. Lam|Acute and Chronic Toxicities of Irgarol Alone and in Combination with Copper to the Marine Copepod Tigriopus japonicus|Chemosphere90(3): 1140-1148|2013|10.1016/j.chemosphere.2012.09.022
166161|A||Caramujo,M.J., C.C.C.R. De Carvalho, S.J. Silva, and K.R. Carman|Dietary Carotenoids Regulate Astaxanthin Content of Copepods and Modulate Their Susceptibility to UV Light and Copper Toxicity|Mar. Drugs10(5): 998-1018|2012|10.3390/md10050998
166162|T||Gad,S.C., K.L. Sharp, C. Montgomery, J.D. Payne, and G.P. Goodrich|Evaluation of the Toxicity of Intravenous Delivery of Auroshell Particles (Gold-Silica Nanoshells)|Int. J. Toxicol.:11 p.|2012|
166163|A||Clements,W.H., P. Cadmus, and S.F. Brinkman|Responses of Aquatic Insects to Cu and Zn in Stream Microcosms:  Understanding Differences Between Single Species Tests and Field Responses|Environ. Sci. Technol.47(13): 7506-7513|2013|10.1021/es401255h
166164|A||Dang,F., W.X. Wang, and P.S. Rainbow|Unifying Prolonged Copper Exposure, Accumulation, and Toxicity from Food and Water in a Marine Fish|Environ. Sci. Technol.46(6): 3465-3471|2012|10.1021/es203951z
166165|A||Ebenezer,V., and J.S. Ki|Evaluation of the Sub-Lethal Toxicity of Cu, Pb, Bisphenol A and Polychlorinated Biphenyl to the Marine Dinoflagellate Cochlodinium polykrikoides|Algae27(1): 63-70|2012|10.4490/algae.2012.27.1.063
166166|A||Gall,M.L., S.P. Holmes, K.A. Dafforn, and E.L. Johnston|Differential Tolerance to Copper, but no Evidence of Population-Level Genetic Differences in a Widely-Dispersing Native Barnacle|Ecotoxicology22(5): 929-937|2013|10.1007/s10646-013-1063-z
166167|T||Pszczolkowski,M.A., and G. Smagghe|Effect of 20-Hydroxyecdysone Agonist, Tebufenozide, on Pre- and Post-Diapause Larvae of Dendrolimus pini (L.) (Lep., Lasiocampidae)|J. Appl. Entomol.123(3): 151-157|1999|10.1046/j.1439-0418.1999.00326.x
166168|A||Hsu,P.C.L., M. O'Callaghan, N. Al-Salim, and M.R.H. Hurst|Quantum Dot Nanoparticles Affect the Reproductive System of Caenorhabditis elegans|Environ. Toxicol. Chem.31(10): 2366-2374|2012|10.1002/etc.1967
166169|T||Retnakaran,A., K. Hiruma, S.R. Palli, and L.M. Riddiford|Molecular Analysis of the Mode of Action of RH-5992, a Lepidopteran-Specific, Non-Steroidal Ecsysteroid Agonist|Insect Biochem. Mol. Biol.25(1): 109-117|1995|10.1016/0965-1748(94)00037-I
166170|T||Folkmann,J.K., L.K. Vesterdal, M. Sheykhzade, S. Loft, and P. Moller|Endothelial Dysfunction in Normal and Prediabetic Rats with Metabolic Syndrome Exposed by Oral Gavage to Carbon Black Nanoparticles|Toxicol. Sci.129(1): 98-107|2012|10.1093/toxsci/kfs180
166171|T||Smagghe,G., E. Vinuela, F. Budia, and D. Degheele|In Vivo and In Vitro Effects of the Nonsteroidal Ecdysteroid Agonist Tebufenozide on Cuticle Formation in Spodoptera exigua:  An Ultrastructural Approach|Arch. Insect Biochem. Physiol.33(2): 121-134|1996|10.1002/(SICI)1520-6327(1996)33:2<121::AID-ARCH3>3.0.CO;2-0
166172|T||Smagghe,G., E. Vinuela, F. Budia, and D. Degheele|Effects of the Non-Steroidal Ecdysteroid Mimic Tebufenozide on the Tomato Looper Chrysodeixis chalcites (Lepidoptera: Noctuidae): An Ultrastructural Analysis|Arch. Insect Biochem. Physiol.35:179-190|1997|10.1002/(SICI)1520-6327(1997)35:1/2<179::AID-ARCH16>3.0.CO;2-8
166173|T||Smagghe,G., D. Gelman, and L. Tirry|In Vivo and In Vitro Effects of Tebufenozide and 20-Hydroxyecdysone on Chitin Synthesis|Arch. Insect Biochem. Physiol.41(1): 33-41|1999|10.1002/(SICI)1520-6327(1999)41:1<33::AID-ARCH6>3.0.CO;2-M
166174|T||Gaiser,B.K., S. Hirn, A. Kermanizadeh, N. Kanase, K. Fytianos, A. Wenk, N. Haberl, A. Brunelli, W.G. Kreyling, and V. S|Effects of Silver Nanoparticles on the Liver and Hepatocytes In Vitro|Toxicol. Sci.131(2): 537-547|2013|10.1093/toxsci/kfs306
166175|T||Smagghe,G., D. Bylemans, P. Medina, F. Budia, J. Avilla, and E. Vinuela|Tebufenozide Distorted Codling Moth Larval Growth and Reproduction, and Controlled Field Populations|Ann. Appl. Biol.145(3): 291-298|2004|10.1111/j.1744-7348.2004.tb00386.x
166176|AT||El-Temsah,Y.S., and E.J. Joner|Effects of Nano-Sized Zero-Valent Iron (nZVI) on DDT Degradation in Soil and Its Toxicity to Collembola and Ostracods|Chemosphere92(1): 131-137|2013|10.1016/j.chemosphere.2013.02.039
166177|A||Fassbender,C., and T. Braunbeck|Reproductive and Genotoxic Effects in Zebrafish After Chronic Exposure to Methyl Methanesulfonate in a Multigeneration Study|Ecotoxicology22(5): 825-837|2013|10.1007/s10646-013-1057-x
166178|T||Valentine,B.J., G.M. Gurr, and W.G. Thwaite|Efficacy of the Insect Growth Regulators Tebufenozide and Fenoxycarb for Lepidopteran Pest Control in Apples, and Their Compatibility with Biological Control for Integrated Pest Management|Aust. J. Exp. Agric.36(4): 501-506|1996|10.1071/EA9960501
166179|A||Doyle,M.A., T. Bosker, C.J. Martyniuk, D.L. MacLatchy, and K.R. Munkittrick|The Effects of 17-alpha-Ethinylestradiol (EE2) on Molecular Signaling Cascades in Mummichog (Fundulus heteroclitus)|Aquat. Toxicol.134/135:34-46|2013|10.1016/j.aquatox.2013.03.001
166180|T||Gao,Z.K., T. Zhao, M. Wang, W.L. Zhang, J.P. He, and R.F. Gao|Effects of Pesticide on the Chlorophyll Fluorescence Parameters in No-Heading Chinese Cabbage|Acta Hortic.:211-216|2010|10.17660/ActaHortic.2010.856.28
166181|A||Fan,W., X. Wang, M. Cui, D. Zhang, Y. Zhang, T. Yu, and L. Guo|Differential Oxidative Stress of Octahedral and Cubic Cu2O Micro/Nanocrystals to Daphnia magna|Environ. Sci. Technol.46(18): 10255-10262|2012|10.1021/es3011578
166182|A||Esbaugh,A.J., E.M. Mager, K.V. Brix, R. Santore, and M. Grosell|Implications of pH Manipulation Methods for Metal Toxicity:  Not all Acidic Environments are Created Equal|Aquat. Toxicol.130/131:27-30|2013|10.1016/j.aquatox.2012.12.012
166183|T||Zorb,G.L.|Effects of Phorate and Phosphamidon on Penned Pheasants|U.S.Fish and Wildlife Service, Patuxent Wildlife Research Center, Laurel, MD:80-81|1968|
166184|T||Esmaeillou,M., M. Moharamnejad, R. Hsankhani, A.A. Tehrani, and H. Maadi|Toxicity of ZnO Nanoparticles in Healthy Adult Mice|Environ. Toxicol. Pharmacol.35:67-71|2013|10.1016/j.etap.2012.11.003
166185|T||Barwal,R.N.|Evaluation of Carbofuran and Phorate Granules Against Insect Pests of Seed Crop of Cabbage|J. Insect Sci.9(2): 143-146|1996|
166186|T||Mrig,K.K., and J.P. Chaudhary|Comparative Efficacy of Carbofuran and Phorate for the Control of Top and Root Borers in Sugarcane Ratoon|J. Insect Sci.5(1): 57-61|1992|
166187|T||Eybe,T., J.N. Audinot, T. Udelhoven, E. Lentzen, B. El Adib, J. Ziebel, L. Hoffmann, and T. Bohn|Determination of Oral Uptake and Biodistribution of Platinum and Chromium by the Garden Snail (Helix aspersa) Employing Nano-Secondary Ion Mass-Spectrometry|Chemosphere90(6): 1829-1838|2013|10.1016/j.chemosphere.2012.09.038
166188|T||Cheng,Q., L. Perlmutter, P.N. Smith, S.T. McMurry, W.A. Jackson, and T.A. Anderson|A Study on Perchlorate Exposure and Absorption in Beef Cattle|J. Agric. Food Chem.52(11): 3456-3461|2004|10.1021/jf049951c
166189|A||Dong,W., L.J. Macaulay, K.W.H. Kwok, D.E. Hinton, and H.M. Stapleton|Using Whole Mount In Situ Hybridization to Examine Thyroid Hormone Deiodinase Expression in Embryonic and Larval Zebrafish: A Tool for Examining OH-BDE Toxicity to Early Life Stages|Aquat. Toxicol.132/133:190-199|2013|10.1016/j.aquatox.2013.02.008
166190|T||Visalakshi,A., G. Shobhana, T. Nalinakumari, and N. Mohandas|Residues of Phorate, Disulfoton and Carbofuran in Banana Fruits Applied to Control Banana Aphid|In: A.Regupathy, K.Rajukkannu, and S.Chelliah (Eds.), National Seminar on Pesticides and Environment, Department of Agricultural Entomology Centre for Plant Protection Studies, Coimbatore, India:52-54|1984|
166191|T||Eisenreich,K.M., K.M. Dean, M.A. Ottinger, and C.L. Rowe|Comparative Effects of In Ovo Exposure to Sodium Perchlorate on Development, Growth, Metabolism, and Thyroid Function in the Common Snapping Turtle (Chelydra serpentina) and Red-Eared Slider (Trachemys scripta elegans)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(3/4): 166-170|2012|10.1016/j.cbpc.2012.07.005
166192|A||Clemente,Z., V.L. Castro, L.O. Feitosa, R. Lima, C.M. Jonsson, A.H.N. Maia, and L.F. Fraceto|Fish Exposure to Nano-TiO2 Under Different Experimental Conditions:  Methodological Aspects for Nanoecotoxicology Investigations|Sci. Total Environ.463/464:647-656|2013|10.1016/j.scitotenv.2013.06.022
166193|A||Cao,J., J. Chen, J. Wang, X. Wu, Y. Li, and L. Xie|Tissue Distributions of Fluoride and Its Toxicity in the Gills of a Freshwater Teleost, Cyprinus carpio|Aquat. Toxicol.130/131:68-76|2013|10.1016/j.aquatox.2012.11.022
166194|A||Cusick,K.D., R.K. Wetzel, S.C. Minkin Jr., S.C. Dodani, S.W. Wilhelm, and G.S. Sayler|Paralytic Shellfish Toxins Inhibit Copper Uptake in Chlamydomonas reinhardtii|Environ. Toxicol. Chem.32(6): 1388-1395|2013|10.1002/etc.2187
166195|T||Lizzio,E.F.|A Boric Acid-Rodenticide Mixture Used in the Control of Coexisting Rodent-Cockroach Infestations|Lab. Anim. Sci.36(1): 74-76|1986|
166196|A||Antunes,P.M.C., M.L. Scornaienchi, and H.D. Roshon|Copper Toxicity to Lemna minor Modelled Using Humic Acid as a Surrogate for the Plant Root|Chemosphere88:389-394|2012|10.1016/j.chemosphere.2012.02.052
166197|T||Hyrsl,P., E. Buyukguzel, and K. Buyukguzel|The Effects of Boric Acid-Induced Oxidative Stress on Antioxidant Enzymes and Survivorship in Galleria mellonella|Arch. Insect Biochem. Physiol.66(1): 23-31|2007|10.1002/arch.20194
166198|T||Matsi,T., V. Antoniadis, and N. Barbayiannis|Evaluation of the NH4HCO3-DTPA Soil Test for Assessing Boron Availability to Wheat|Commun. Soil Sci. Plant Anal.31(5/6): 669-678|2000|10.1080/00103620009370468
166199|T||Hall,D.G., and M.L. Richardson|Toxicity of Insecticidal Soaps to the Asian Citrus Psyllid and Two of Its Natural Enemies|J. Appl. Entomol.137(5): 347-354|2013|10.1111/j.1439-0418.2012.01749.x
166200|T||Muhr,G.R.|Plant Symptoms of Boron Deficiency and the Effects of Borax on the Yield and Chemical Composition of Several Crops|Soil Sci.54:55-65|1942|10.1097/00010694-194207000-00005
166202|T||Conner,S.D., and E.N. Fergus|Borax in Fertilizers|Purdue Univ. Agric. Exp. Stn.239:16 p.|1920|
166203|T||Landauer,W.|Complex Formation and Chemical Specificity of Boric Acid in Production of Chicken Embryo Malformations|Proc. Soc. Exp. Biol. Med.82:633-636|1953|10.3181/00379727-82-20200
166204|T||Patel,A., and S.C. Agrawal|Sensitivity of Ornithophillic Fungi to Some Drugs|Hindustan Antibiot. Bull.44(1-4): 49-52|2002|
166205|T||Verma,J.S., and A. Nath|Effect of Boric Acid on the Egg Laying by Fruit Flies|J. Entomol. Res.27(3): 267-268|2003|
166206|T||Kilani-Morakchi,S., N. Aribi, J.P. Farine, G. Smagghe, and N. Soltani|Effects of Tebufenozide on Ovarian Growth and Sexual Behavior in the German Cockroach (Blattella germanica)|Commun. Agric. Appl. Biol. Sci.74(2): 429-436|2009|
166207|A||Matojo,N.D., and H.B. Pratap|Histopathology of Gills and Gut of the Edible Cockle Anadara antiquata (Bivalvia:  Arcidae) Exposed to Acute Level of Ammonium Sulfate|Int. J. Integr. Biol.7(3): 166-170|2009|
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166209|T||Brown,J.J.|The Compatibility of Tebufenozide with a Laboratory Lepidopteran Host/Hymenopteran Parasitoid Population|Biol. Control6(1): 96-104|1996|10.1006/bcon.1996.0012
166210|A||Waldemarin,K.C.D., R.N. Alves, M.E. Beletti, F.T. Rantin, and A.L. Kalinin|Copper Sulfate Affects Nile Tilapia (Oreochromis niloticus) Cardiomyocytes Structure and Contractile Function|Ecotoxicology21(3): 783-794|2012|10.1007/s10646-011-0838-3
166211|A||Velcheva,I., A. Arnaudov, E. Georgieva, and P. Atanasova|Influence of Copper on the Hepatic Morphology of the Gibelio Carp (Carassius gibelio)|J. Environ. Prot. Ecol.13(3A): 1928-1932|2012|
166212|T||Retnakaran,A., A. MacDonald, W.L. Tomkins, C.N. Davis, A.J. Brownwright, and S.R. Palli|Ultrastructural Effects of a Non-Steroidal Ecdysone Agonist, RH-5992, on the Sixth Instar Larva of the Spruce Budworm, Choristoneura fumiferana|J. Insect Physiol.43(1): 55-68|1997|10.1016/S0022-1910(96)00062-5
166213|A||Van den Wyngaert,S., A.S. Gsell, P. Spaak, and B.W. Ibelings|Herbicides in the Environment Alter Infection Dynamics in a Microbial Host-Parasite System|Environ. Microbiol.15(3): 837-847|2013|10.1111/j.1462-2920.2012.02874.x
166214|T||Zheng,Y.P., P.J. Krell, D. Doucet, B.M. Arif, and Q.L. Feng|Cloning, Expression, and Localization of a Molt-Related beta-N-Acetylglucosaminidase in the Spruce Budworm, Choristoneura fumiferana|Arch. Insect Biochem. Physiol.68(1): 49-59|2008|10.1002/arch.20235
166215|A||Aguirre-Martinez,G.V., S. Buratti, E. Fabbri, A.T. DelValls, and M.L. Martin-Diaz|Using Lysosomal Membrane Stability of Haemocytes in Ruditapes philippinarum as a Biomarker of Cellular Stress to Assess Contamination by Caffeine, Ibuprofen, Carbamazepine and Novobiocin|J. Environ. Sci.25(7): 1408-1418|2013|10.1016/S1001-0742(12)60207-1
166216|T||Bryden,J., R.J. Gill, R.A.A. Mitton, N.E. Raine, and V.A.A. Jansen|Chronic Sublethal Stress Causes Bee Colony Failure|Ecol. Lett.16(12): 1463-1469|2013|10.1111/ele.12188
166217|T||Almansour,M.I.|Histological Alterations Induced by Lead in the Testes of the Quail Coturnix coturnix|Res. J. Environ. Toxicol.3(1): 24-30|2009|10.3923/rjet.2009.24.30
166218|A||Hao,L., Z. Wang, and B. Xing|Effect of Sub-Acute Exposure to TiO2 Nanoparticles on Oxidative Stress and Histopathological Changes in Juvenile Carp (Cyprinus carpio)|J. Environ. Sci. (China)21(10): 1459-1466|2009|10.1016/S1001-0742(08)62440-7
166219|A||He,J.H., S.Y. Guo, F. Zhu, J.J. Zhu, Y.X. Chen, C.J. Huang, J.M. Gao, Q.X. Dong, Y.X. Xuan, and C.Q. Li|A Zebrafish Phenotypic Assay for Assessing Drug-Induced Hepatotoxicity|J. Pharmacol. Toxicol. Methods67(1): 25-32|2013|10.1016/j.vascn.2012.10.003
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166221|T||Khan,M., F. Hussain, and I. Ilahi|The Effects of Saline Conditions on the Emergence and Establishment of Various Cultivars of Sunflower|Sarhad J. Agric.10(1): 1-19|1994|
166222|T||Naik,S.K., and D.K. Das|Evaluation of Various Zinc Extractants in Lowland Rice Soil Under the Influence of Zinc Sulfate and Chelated Zinc|Commun. Soil Sci. Plant Anal.41(1): 122-134|2010|10.1080/00103620903361674
166223|A||McCormick,J.M.|Microbial Transformations of Tetrabromobisphenol A and Its Metabolites, and Their Impact on Toxicity to the Developing Zebrafish (Danio rerio) Embryo|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:191 p.|2010|
166224|A||Nair,P.M.G., and J. Choi|Modulation in the mRNA Expression of Ecdysone Receptor Gene in Aquatic Midge, Chironomus riparius upon Exposure to Nonylphenol and Silver Nanoparticles|Environ. Toxicol. Pharmacol.33(1): 98-106|2012|10.1016/j.etap.2011.09.006
166225|A||Petersen,E.J., R.A. Pinto, D.J. Mai, P.F. Landrum, and W.J.,Jr. Weber|Influence of Polyethyleneimine Graftings of Multi-Walled Carbon Nanotubes on Their Accumulation and Elimination by and Toxicity to Daphnia magna|Environ. Sci. Technol.45(3): 1133-1138|2011|10.1021/es1030239
166226|A||Pham,C.H., J. Yi, and M.B. Gu|Biomarker Gene Response in Male Medaka (Oryzias latipes) Chronically Exposed to Silver Nanoparticle|Ecotoxicol. Environ. Saf.78:239-245|2012|10.1016/j.ecoenv.2011.11.034
166227|T||Rengasamy,P.|Osmotic and Ionic Effects of Various Electrolytes on the Growth of Wheat|Aust. J. Soil Res.48(2): 120-124|2010|10.1071/SR09083
166228|A||Pakrashi,S., S. Dalai, Ritika, B. Sneha, N. Chandrasekaran, and A. Mukherjee|A Temporal Study on Fate of Al2O3 Nanoparticles in a Fresh Water Microcosm at Environmentally Relevant Low Concentrations|Ecotoxicol. Environ. Saf.84:70-77|2012|10.1016/j.ecoenv.2012.06.015
166229|AT||Reboredo,F.|Zinc Compartmentation in Halimione portulacoides (L.) Aellen and Some Effects on Leaf Ultrastructure|Environ. Sci. Pollut. Res. Int.19(7): 2644-2657|2012|10.1007/s11356-012-0757-8
166230|T||Lacerda,L., H. Ali-Boucetta, M.A. Herrero, G. Pastorin, A. Bianco, M. Prato, and K. Kostarelos|Tissue Histology and Physiology Following Intravenous Administration of Different Types of Functionalized Multiwalled Carbon Nanotubes|Nanomedicine3(2): 149-161|2008|10.2217/17435889.3.2.149
166231|A||Lee,K.J., P.D. Nallathamby, L.M. Browning, C.J. Osgood, and X.H.N. Xu|In Vivo Imaging of Transport and Biocompatibility of Single Silver Nanoparticles in Early Development of Zebrafish Embryos|ACS Nano1(2): 133-143|2007|
166232|T||Ma,Y., X. He, P. Zhang, Z. Zhang, Z. Guo, R. Tai, Z. Xu, L. Zhang, Y. Ding, Y. Zhao, and Z. Chai|Phytotoxicity and Biotransformation of La2O3 Nanoparticles in a Terrestrial Plant Cucumber (Cucumis sativus)|Nanotoxicology5(4): 743-753|2011|10.3109/17435390.2010.545487
166233|A||Johari,S.A., M.R. Kalbassi, M. Soltani, and I.J. Yu|Toxicity Comparison of Colloidal Silver Nanoparticles in Various Life Stages of Rainbow Trout (Oncorhynchus mykiss)|Iran. J. Fish. Sci.12(1): 76-95|2013|
166234|A||Babu,T.S., S.C. Sabat, and P. Mohanty|Alterations in Photosystem II Organization by Cobalt Treatment in the Cyanobacterium Spirulina platensis|J. Plant Biochem. Biotechnol.1:61-63|1992|10.1007/BF03262897
166235|A||Guclu,Z.|Toxicity of Copper on Desmodesmus subspicatus Growth|Fresenius Environ. Bull.21(6B): 1703-1707|2012|
166236|T||Das,S., N. Debnath, P. Patra, A. Datta, and A. Goswami|Nanoparticles Influence on Expression of Cell Cycle Related Genes in Drosophila:  A Microarray-Based Toxicogenomics Study|Toxicol. Environ. Chem.94(5): 952-957|2012|10.1080/02772248.2012.680755
166237|T||Debnath,N., S. Das, P. Patra, S. Mitra, and A. Goswami|Toxicological Evaluation of Entomotoxic Silica Nanoparticle|Toxicol. Environ. Chem.94(5): 944-951|2012|10.1080/02772248.2012.682462
166238|A||Basha,K.A., R.P. Raman, K.P. Prasad, K. Kumar, E. Nilavan, and S. Kumar|Effect of Dietary Supplemented Andrographolide on Growth, Non-Specific Immune Parameters and Resistance Against Aeromonas hydrophila in Labeo rohita (Hamilton)|Fish Shellfish Immunol.35:1433-1441|2013|10.1016/j.fsi.2013.08.005
166239|A||Das,V.K., A. Malviya, and R.K. Pandey|Alterations in Serum Electrolyte Levels After Dimethoate Exposure and Recovery in the Freshwater Air-Breathing Catfish, Heteropneustes fossilis (Bloch)|Toxicol. Environ. Chem.95(7): 1176-1182|2013|10.1080/02772248.2013.856913
166240|T||Ciofani,G., S. Danti, S. Nitti, B. Mazzolai, V. Mattoli, and M. Giorgi|Biocompatibility of Boron Nitride Nanotubes:  An Up-Date of In Vivo Toxicological Investigation|Int. J. Pharmaceut.444:85-88|2013|10.1016/j.ijpharm.2013.01.037
166241|T||Demir,E., G. Vales, B. Kaya, A. Creus, and R. Marcos|Genotoxic Analysis of Silver Nanoparticles in Drosophila|Nanotoxicology5(3): 417-424|2011|10.3109/17435390.2010.529176
166242|A||Fraser,T.W.K., H.C. Reinardy, B.J. Shaw, T.B. Henry, and R.D. Handy|Dietary Toxicity of Single-Walled Carbon Nanotubes and Fullerenes (C60) in Rainbow Trout (Oncorhynchus mykiss)|Nanotoxicology5(1): 98-108|2010|10.3109/17435390.2010.502978
166243|A||Banote,R.K., S. Koutarapu, K.S. Chennubhotla, K. Chatti, and P. Kulkarni|Oral Gabapentin Suppresses Pentylenetetrazole-Induced Seizure-Like Behavior and Cephalic Field Potential in Adult Zebrafish|Epilepsy Behav.27(1): 212-219|2013|10.1016/j.yebeh.2013.01.018
166244|T||Mao,C.H., K.L. Wang, Z.W. Wang, X.M. Ou, R.Q. Huang, F.C. Bi, and Q.M. Wang|Synthesis and Insecticidal Evaluation of Novel N'-Tert-Butyl-N'-Substitutedbenzoyl-N-5-Chloro-6-Chromanecarbohydrazide Derivatives|Bioorg. Med. Chem.16(1): 488-494|2008|10.1016/j.bmc.2007.09.018
166245|T||Thompson,A.R., D.L. Suett, A.L. Percivall, and C.E. Padbury|Protection of Carrots Against Carrot Fly by Carbofuran, Disulfoton or Phorate Applied at Drilling in a Sandy Loam, Followed by Carbofuran Applied in Mid-Season|Tests Agrochem. Cultiv.3:22-23|1982|
166246|A||Gissi,F., M.T. Binet, and M.S. Adams|Acute Toxicity Testing with the Tropical Marine Copepod Acartia sinjiensis: Optimisation and Application|Ecotoxicol. Environ. Saf.97:86-93|2013|10.1016/j.ecoenv.2013.07.008
166247|A||Guo,F., R. Tu, and W.X. Wang|Different Responses of Abalone Haliotis discus hannai to Waterborne and Dietary-Borne Copper and Zinc Exposure|Ecotoxicol. Environ. Saf.91:10-17|2013|10.1016/j.ecoenv.2013.01.002
166248|A||Pang,C., H. Selck, G.T. Banta, S.K. Misra, D. Berhanu, A. Dybowska, E. Valsami-Jones, and V.E. Forbes|Bioaccumulation, Toxicokinetics, and Effects of Copper from Sediment Spiked with Aqueous Cu, Nano-CuO, or Micro-CuO in the Deposit-Feeding Snail, Potamopyrgus antipodarum|Environ. Toxicol. Chem.32(7): 1561-1573|2013|10.1002/etc.2216
166249|T||Rezvanfar,M.A., M.A. Rezvanfar, A.R. Shahverdi, A. Ahmadi, M. Baeeri, A. Mohammadirad, and M. Abdollahi|Protection of Cisplatin-Induced Spermatotoxicity, DNA Damage and Chromatin Abnormality by Selenium Nano-Particles|Toxicol. Appl. Pharmacol.266(3): 356-365|2013|10.1016/j.taap.2012.11.025
166250|A||Pokhrel,L.R., B. Dubey, and P.R. Scheuerman|Impacts of Select Organic Ligands on the Colloidal Stability, Dissolution Dynamics, and Toxicity of Silver Nanoparticles|Environ. Sci. Technol.47(22): 12877-12885|2013|10.1021/es403462j
166251|A||Poynton,H.C., J.M. Lazorchak, C.A. Impellitteri, B. Blalock, M.E. Smith, K. Struewing, J. Unrine, and D. Roose|Toxicity and Transcriptomic Analysis in Hyalella azteca Suggests Increased Exposure and Susceptibility of Epibenthic Organisms to Zinc Oxide Nanoparticles|Environ. Sci. Technol.47(16): 9453-9460|2013|10.1021/es401396t
166252|A||Perreault,F., R. Popovic, and D. Dewez|Different Toxicity Mechanisms Between Bare and Polymer-Coated Copper Oxide Nanoparticles in Lemna gibba|Environ. Pollut.185:219-227|2014|10.1016/j.envpol.2013.10.027
166253|T||Okia,M., R. Ndyomugyenyi, J. Kirunda, A. Byaruhanga, S. Adibaku, D.K. Lwamafa, and F. Kironde|Bioefficacy of Long-Lasting Insecticidal Nets Against Pyrethroid-Resistant Populations of Anopheles gambiae S.S. from Different Malaria Transmission Zones in Uganda|Parasites Vectors6(130): 10 p.|2013|
166254|A||Sugrue,P., and M.E.J. Holwill|Changes in Beat Frequency of Reactivated Flagella of Crithidia oncopelti Inhibited with Vanadate|J. Theor. Biol.143(3): 421-423|1990|10.1016/S0022-5193(05)80037-2
166255|A||Siebel,A.M., A.L. Piato, I.C. Schaefer, L.R. Nery, M.R. Bogo, and C.D. Bonan|Antiepileptic Drugs Prevent Changes in Adenosine Deamination During Acute Seizure Episodes in Adult Zebrafish|Pharmacol. Biochem. Behav.104:20-26|2013|10.1016/j.pbb.2012.12.021
166256|A||Shi,J.P., C.Y. Ma, B. Xu, H.W. Zhang, and C.P. Yu|Effect of Light on Toxicity of Nanosilver to Tetrahymena pyriformis|Environ. Toxicol. Chem.31(7): 1630-1638|2012|10.1002/etc.1864
166258|A||Pan,X., C. Wan, M. Li, X. Chen, Y. Zou, and J. Chang|Monitoring of Copper Contamination:  A Laboratory Study About the Possibility to Use Chlorophyll Fluorescence Parameters of Three Green Microalgae|Fresenius Environ. Bull.22(3a): 800-807|2013|
166259|T||Szakova,J., P. Tlustos, W. Goessler, S. Findenig, E. Richtrova, and J. Balik|A Comparison of Arsenic Mobility in Phaseolus vulgaris, Mentha aquatica, and Pteris cretica Rhizosphere|Central Eur. J. Biol.4(1): 107-116|2009|
166260|T||Raj,R., P. Singh, N.T. Haberkern, R.M. Faucher, N. Patel, K.M. Land, and V. Kumar|Synthesis of 1H-1,2,3-Triazole Linked beta-Lactam-Isatin Bi-Functional Hybrids and Preliminary Analysis of In Vitro Activity Against the Protozoal Parasite Trichomonas vaginalis|Eur. J. Med. Chem.63:897-906|2013|10.1016/j.ejmech.2013.03.019
166261|A||Saez,M.I., J.J. Casas, J.L. Guil-Gerrero, M.D. Gil, R. Canero, and M.D. Suarez|Effects of Organic Matter, Alkalinity and pH on Acute Copper Toxicity to Mosquitofish, Gambusia holbrooki: Implications for a Multipurpose Management of Irrigation Ponds|Int. Rev. Hydrobiol.98(5): 262-270|2013|
166262|T||Shalaby,F.F., A.A. Hafez, S.A. Mohamed, and M.F. Abd El-Aziz|Comparative Efficacy of Certain Plant Extracts Alone and Combination with Profenofos Against Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae)|Toxicol. Environ. Chem.95(5): 778-789|2013|10.1080/02772248.2013.817724
166263|A||Shi,C.Y., H.C. Zhang, G.W. Chen, L.Q. Sun, and D.Z. Liu|Toxicity of Ionic Liquid 1-Octyl-3-Methylimidazolium Bromide on Freshwater Planarian, Dugesia japonica|Fresenius Environ. Bull.22(5a): 1609-1615|2013|
166264|A||Romer,I., T.A. White, M. Baalousha, K. Chipman, M.R. Viant, and J.R. Lead|Aggregation and Dispersion of Silver Nanoparticles in Exposure Media for Aquatic Toxicity Tests|J. Chromatogr. A1218(27): 4226-4233|2011|10.1016/j.chroma.2011.03.034
166265|A||Sarma,D., J. Das, and A. Dutta|Acute Toxicity and Behavioural Changes in Channa punctatus (Bloch) Exposed to Rogor (An Organophosphorus Pesticide)|Nat. Environ. Pollut. Technol.12(4): 641-644|2013|
166266|A||Shuhaimi-Othman,M., Y. Nadzifah, R. Nur-Amalina, and N.S. Umirah|Deriving Freshwater Quality Criteria for Copper, Cadmium, Aluminum and Manganese for Protection of Aquatic Life in Malaysia|Chemosphere90(11): 2631-2636|2013|10.1016/j.chemosphere.2012.11.030
166267|A||Sanchez-Marin,P., J.I. Lorenzo, V.K. Mubiana, R. Blust, and R. Beiras|Copper Uptake by the Marine Mussel Mytilus edulis in the Presence of Fulvic Acids|Environ. Toxicol. Chem.31(8): 1807-1813|2012|10.1002/etc.1874
166268|A||Seder-Colomina,M., A. Burgos, J. Maldonado, A. Sole, and I. Esteve|The Effect of Copper on Different Phototrophic Microorganisms Determined In Vivo and at Cellular Level by Confocal Laser Microscopy|Ecotoxicology22(1): 199-205|2013|10.1007/s10646-012-1014-0
166269|A||Poynton,H.C., J.M. Lazorchak, C.A. Impellitteri, M.E. Smith, K. Rogers, M. Patra, K.A. Hammer, H.J. Allen, and C.D. Vul|Differential Gene Expression in Daphnia magna Suggests Distinct Modes of Action and Bioavailability for ZnO Nanoparticles and Zn Ions|Environ. Sci. Technol.45(2): 762-768|2011|10.1021/es102501z
166270|A||Song,Y.F., Z. Luo, C. Huang, X. Liu, Y.X. Pan, and Q.L. Chen|Effects of Calcium and Copper Exposure on Lipogenic Metabolism, Metal Element Compositions and Histology in Synechogobius hasta|Fish Physiol. Biochem.39:1641-1656|2013|10.1007/s10695-013-9816-4
166271|A||Tsai,J.W., Y.R. Ju, Y.H. Huang, Y.S. Deng, W.Y. Chen, C.C. Wu, and C.M. Liao|Toxicokinetics of Tilapia Following High Exposure to Waterborne and Dietary Copper and Implications for Coping Mechanisms|Environ. Sci. Pollut. Res. Int.20(6): 3771-3780|2013|10.1007/s11356-012-1304-3
166272|A||Owen,J.R., C.A. Morris, B. Nicolaus, J.L. Harwood, and P. Kille|Induction of Expression of a 14-3-3 Gene in Response to Copper Exposure in the Marine Alga, Fucus vesiculosus|Ecotoxicology21(1): 124-138|2012|10.1007/s10646-011-0772-4
166273|A||Ranatunge,R.A.A.R., M.R. Wijesinghe, W.D. Ratnasooriya, and R. Wijesekera|Effects of Cadmium on Some Haematological Parameters of the Mozambique Tilapia, Oreochromis mossambicus (Peters 1852)|Asian J. Water Environ. Pollut.10(1): 149-153|2013|
166274|A||Reboleira,A.S.P.S., N. Abrantes, P. Oromi, and F. Goncalves|Acute Toxicity of Copper Sulfate and Potassium Dichromate on Stygobiont Proasellus:  General Aspects of Groundwater Ecotoxicology and Future Perspectives|Water Air Soil Pollut.224(1550): 9 p.|2013|
166275|A||Seitz,F., M. Bundschuh, A. Dabrunz, N. Bandow, G.E. Schaumann, and R. Schulz|Titanium Dioxide Nanoparticles Detoxify Pirimicarb Under UV Irradiation at Ambient Intensities|Environ. Toxicol. Chem.31(3): 518-523|2012|10.1002/etc.1715
166276|A||Pradhan,A., S. Seena, C. Pascoal, and F. Cassio|Copper Oxide Nanoparticles can Induce Toxicity to the Freshwater Shredder Allogamus ligonifer|Chemosphere89(9): 1142-1150|2012|10.1016/j.chemosphere.2012.06.001
166277|A||Rodea-Palomares,I., G. Suarez, J. Santiago-Morales, F. Leganes, E. Garcia-Calvo, R. Rosal, and F. Fernandez-Pinas|An Insight into the Mechanisms of Nanoceria Toxicity in Aquatic Photosynthetic Organisms|Aquat. Toxicol.122/123:133-143|2012|10.1016/j.aquatox.2012.06.005
166278|T||Jeon,Y.M., W.J. Kim, and M.Y. Lee|Studies on Liver Damage Induced by Nanosized-Titanium Dioxide in Mouse|J. Environ. Biol.34:283-287|2013|
166279|A||Hall,C.J., and C.W. Burns|Mortality and Growth Responses of Daphnia carinata to Increases in Temperature and Salinity|Freshw. Biol.47:451-458|2002|10.1046/j.1365-2427.2002.00815.x
166280|A||Oukarroum,A., S. Bras, F. Perreault, and R. Popovic|Inhibitory Effects of Silver Nanoparticles in Two Green Algae, Chlorella vulgaris and Dunaliella tertiolecta|Ecotoxicol. Environ. Saf.78:80-85|2012|10.1016/j.ecoenv.2011.11.012
166281|T||Khom,S., B. Strommer, A. Schoffmann, J. Hintersteiner, I. Baburin, T. Erker, T. Schwarz, C. Schwarzer, J. Zaugg, M. Ham|GABAA Receptor Modulation by Piperine and a Non-TRPV1 Activating Derivative|Biochem. Pharmacol.85(12): 1827-1836|2013|10.1016/j.bcp.2013.04.017
166282|A||Isani,G., M.L. Falcioni, G. Barucca, D. Sekar, G. Andreani, E. Carpene, and G. Falcioni|Comparative Toxicity of CuO Nanoparticles and CuSO4 in Rainbow Trout|Ecotoxicol. Environ. Saf.97:40-46|2013|10.1016/j.ecoenv.2013.07.001
166283|A||Pan,J.F., P.E. Buffet, L. Poirier, C. Amiard-Triquet, D. Gilliland, Y. Joubert, P. Pilet, M. Guibbolini, C.R. De Favern|Size Dependent Bioaccumulation and Ecotoxicity of Gold Nanoparticles in an Endobenthic Invertebrate:  The Tellinid Clam Scrobicularia plana|Environ. Pollut.168:37-43|2012|10.1016/j.envpol.2012.03.051
166284|A||Khan,F.R., A. Laycock, A. Dybowska, F. Larner, B.D. Smith, P.S. Rainbow, S.N. Luoma, M. Rehkamper, and E. Valsami-Jones|Stable Isotope Tracer to Determine Uptake and Efflux Dynamics of ZnO Nano- and Bulk Particles and Dissolved Zn to an Estuarine Snail|Environ. Sci. Technol.47(15): 8532-8539|2013|10.1021/es4011465
166285|T||Khurana,S., N.K. Jain, and P.M.S. Bedi|Nanoemulsion Based Gel for Transdermal Delivery of Meloxicam: Physico-Chemical, Mechanistic Investigation|Life Sci.92(6/7): 383-392|2013|10.1016/j.lfs.2013.01.005
166286|A||Kim,K.H., H.J. Park, J.H. Kim, S. Kim, D.R. Williams, M.K. Kim, Y.D. Jung, H. Teraoka, H.C. Park, H.E. Choy, B.A. Shin,|Cyp1a Reporter Zebrafish Reveals Target Tissues for Dioxin|Aquat. Toxicol.134/135:57-65|2013|10.1016/j.aquatox.2013.03.010
166288|A||Hinther,A., S. Vawda, R.C. Skirrow, N. Veldhoen, P. Collins, J.T. Cullen, G. Van Aggelen, and C.C. Helbing|Nanometals Induce Stress and Alter Thyroid Hormone Action in Amphibia at or Below North American Water Quality Guidelines|Environ. Sci. Technol.44:8314-8321|2010|10.1021/es101902n
166289|T||Kim,S.W., and Y.J. An|Jumping Behavior of the Springtail Folsomia candida as a Novel Soil Quality Indicator in Metal-Contaminated Soils|Ecol. Indic.38:67-71|2014|10.1016/j.ecolind.2013.10.033
166290|T||Liu,J., D.H. Dyer, J. Cheng, J. Wang, S. Wang, Z. Yang, X. Wang, and W. Hu|Aldose Reductase from Schistosoma japonicum:  Crystallization and Structure-Based Inhibitor Screening for Discovering Antischistosomal Lead Compounds|Parasites Vectors6(162): 10 p.|2013|
166291|A||Karimzadeh,K., and A. Zahmatkesh|Biomarker Responses in Persian Sturgeon (Acipenser persicus) Exposed to Benzo-a-Pyrene and beta-Naphthoflavone|Arch. Biol. Sci. (Beogr.)65(4): 1397-1403|2013|10.2298/ABS1304397K
166292|A||Nan,P., X.H. Xia, Q.Y. Du, J.J. Chen, X.H. Wu, and Z.J. Chang|Genotoxic Effects of 8-Hydroxylquinoline in Loach (Misgurnus anguillicaudatus) Assessed by the Micronucleus Test, Comet Assay and RAPD Analysis|Environ. Toxicol. Pharmacol.35(3): 434-443|2013|10.1016/j.etap.2013.02.005
166293|A||Lerebours,A., S. Cambier, L. Hislop, C. Adam-Guillermin, and J.P. Bourdineaud|Genotoxic Effects of Exposure to Waterborne Uranium, Dietary Methylmercury and Hyperoxia in Zebrafish Assessed by the Quantitative RAPD-PCR Method|Mutat. Res.755(1): 55-60|2013|10.1016/j.mrgentox.2013.05.012
166294|A||Nikpour,Y., H. Zolgharnein, M. Sinaei, H. Najafzadeh, and M. Ghavasi|Evaluation of Metallothionein Expression as a Biomarker of Mercury Exposure in Scatophagus argus|Pak. J. Biol. Sci.11(18): 2269-2273|2008|10.3923/pjbs.2008.2269.2273
166295|A||Nardelli,M.P., A. Sabbatini, and A. Negri|Experimental Chronic Exposure of the Foraminifer Pseudotriloculina rotunda to Zinc|Acta Protozool.52(3): 193-202|2013|
166296|A||Nadrah,P., U. Maver, A. Jemec, T. Tisler, M. Bele, G. Drazic, M. Bencina, A. Pintar, O. Planinsek, and M. Gaberscek|Hindered Disulfide Bonds to Regulate Release Rate of Model Drug from Mesoporous Silica|ACS Appl. Mat. Interfaces5(9): 3908-3915|2013|10.1021/am400604d
166297|A||Lyu,K., H. Cao, Q. Wang, R. Chen, E.J.A. Minter, and Z. Yang|Differences in Long-Term Impacts of Un-Ionized Ammonia on Life-History Traits of Three Species of Daphnia|Int. Rev. Hydrobiol.98(5): 253-261|2013|
166298|A||McIntyre,J.K., D.H. Baldwin, D.A. Beauchamp, and N.L. Scholz|Low-Level Copper Exposures Increase Visibility and Vulnerability of Juvenile Coho Salmon to Cutthroat Trout Predators|Ecol. Appl.22(5): 1460-1471|2012|
166299|A||Li,M.H.|Acute Toxicity of Industrial Endocrine-Disrupting Chemicals, Natural and Synthetic Sex Hormones to the Freshwater Planarian, Dugesia japonica|Toxicol. Environ. Chem.95(6): 984-991|2013|10.1080/02772248.2013.840376
166300|A||Lu,G., Z. Li, and J. Liu|Effects of Selected Pharmaceuticals on Growth, Reproduction and Feeding of Daphnia magna|Fresenius Environ. Bull.22(9): 2583-2589|2013|
166301|A||Di Poi,C., A.S. Darmaillacq, L. Dickel, M. Boulouard, and C. Bellanger|Effects of Perinatal Exposure to Waterborne Fluoxetine on Memory Processing in the Cuttlefish Sepia officinalis|Aquat. Toxicol.132/133:84-91|2013|10.1016/j.aquatox.2013.02.004
166302|A||Chang,C.C., A. Rahmawaty, and Z.W. Chang|Molecular and Immunological Responses of the Giant Freshwater Prawn, Macrobrachium rosenbergii, to the Organophosphorus Insecticide, Trichlorfon|Aquat. Toxicol.130/131:18-26|2013|10.1016/j.aquatox.2012.12.024
166303|A||Dalai,S., S. Pakrashi, N. Chandrasekaran, and A. Mukherjee|Acute Toxicity of TiO2 Nanoparticles to Ceriodaphnia dubia Under Visible Light and Dark Conditions in a Freshwater System|PLoS One8(4): 11 p.|2013|10.1371/journal.pone.0062970
166304|A||Boyle,D., J.E. Fox, J.M. Akerman, K.A. Sloman, T.B. Henry, and R.D. Handy|Minimal Effects of Waterborne Exposure to Single-Walled Carbon Nanotubes on Behaviour and Physiology of Juvenile Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.146:154-164|2014|10.1016/j.aquatox.2013.11.006
166305|A||Da Rocha,A.M., J.R. Ferreira, D.M. Barros, T.C.B. Pereira, M.R. Bogo, S. Oliveira, V. Geraldo, R.G. Lacerda, A.S. Ferla|Gene Expression and Biochemical Responses in Brain of Zebrafish Danio rerio Exposed to Organic Nanomaterials:  Carbon Nanotubes (SWCNT) and Fullerenol (C60(OH)18-22(OK4))|Comp. Biochem. Physiol. A Mol. Integr. Physiol.165(4): 460-467|2013|10.1016/j.cbpa.2013.03.025
166306|A||Boone,M.D., S.A. Hammond, N. Veldhoen, M. Youngquist, and C.C. Helbing|Specific Time of Exposure During Tadpole Development Influences Biological Effects of the Insecticide Carbaryl in Green Frogs (Lithobates clamitans)|Aquat. Toxicol.130/131:139-148|2013|10.1016/j.aquatox.2012.12.022
166307|T||Tazib,T., Y. Kobayashi, T. Ikka, C.R. Zhao, S. Iuchi, M. Kobayashi, K. Kimura, and H. Koyama|Association Mapping of Cadmium, Copper and Hydrogen Peroxide Tolerance of Roots and Translocation Capacities of Cadmium and Copper in Arabidopsis thaliana|Physiol. Plant. (Multiple Languages)137(3): 235-248|2009|10.1111/j.1399-3054.2009.01286.x
166308|A||Han,Y.S., A.S. Kumar, and T. Han|Comparison of Metal Toxicity Bioassays Based on Inhibition of Sporulation and Spore Release in Ulva pertusa|Toxicol. Environ. Health Sci.1(1): 24-31|2009|10.1007/BF03216460
166309|T||Muller,G.C., A. Junnila, W. Qualls, E.E. Revay, D.L. Kline, S. Allan, Y. Schlein, and R.D. Xue|Control of Culex quinquefasciatus in a Storm Drain System in Florida Using Attractive Toxic Sugar Baits|Med. Vet. Entomol.24(4): 346-351|2010|10.1111/j.1365-2915.2010.00876.x
166310|A||Kovacik,J., B. Klejdus, J. Hedbavny, and M. Backor|Effect of Copper and Salicylic Acid on Phenolic Metabolites and Free Amino Acids in Scenedesmus quadricauda (Chlorophyceae)|Plant Sci. (Oxford)178(3): 307-311|2010|10.1016/j.plantsci.2010.01.009
166311|AT||Brayner,R., S.A. Dahoumane, C. Yepremian, C. Djediat, M. Meyer, A. Coute, and F. Fievet|ZnO Nanoparticles:  Synthesis, Characterization, and Ecotoxicological Studies|Langmuir26(9): 6522-6528|2010|10.1021/la100293s
166312|A||Truong,L., I.S. Moody, D.P. Stankus, J.A. Nason, M.C. Lonergan, and R.L. Tanguay|Differential Stability of Lead Sulfide Nanoparticles Influences Biological Responses in Embryonic Zebrafish|Arch. Toxicol.85(7): 787-798|2011|10.1007/s00204-010-0627-4
166313|A||Shi,J., A.D. Abid, I.M. Kennedy, K.R. Hristova, and W.K. Silk|To Duckweeds (Landoltia punctata), Nanoparticulate Copper Oxide is More Inhibitory than the Soluble Copper in the Bulk Solution|Environ. Pollut.159(5): 1277-1282|2011|10.1016/j.envpol.2011.01.028
166314|A||Arndt,D.A., M. Moua, J. Chen, and R.D. Klaper|Core Structure and Surface Functionalization of Carbon Nanomaterials Alter Impacts to Daphnid Mortality, Reproduction, and Growth: Acute Assays do not Predict Chronic Exposure Impacts|Environ. Sci. Technol.47(16): 9444-9452|2013|10.1021/es4030595
166315|A||Battin,T.J., F.V.D. Kammer, A. Weilhartner, S. Ottofuelling, and T. Hofmann|Nanostructured TiO2: Transport Behavior and Effects on Aquatic Microbial Communities Under Environmental Conditions|Environ. Sci. Technol.43:8098-8104|2009|10.1021/es9017046
166316|T||An,L., S. Liu, Z. Yang, and T. Zhang|Cognitive Impairment in Rats Induced by Nano-CuO and Its Possible Mechanisms|Toxicol. Lett.213(2): 220-227|2012|10.1016/j.toxlet.2012.07.007
166317|A||Arukwe,A., M.V. Cangialosi, R.J. Letcher, E. Rocha, and A.S. Mortensen|Changes in Morphometry and Association Between Whole-Body Fatty Acids and Steroid Hormone Profiles in Relation to Bioaccumulation Patterns in Salmon Larvae Exposed to Perfluorooctane Sulfonic or Perfluorooctane Carboxyl|Aquat. Toxicol.130/131:219-230|2013|10.1016/j.aquatox.2012.12.026
166318|A||Alquezar,R., and A. Anastasi|The Use of the Cyanobacteria, Cyanobium sp., as a Suitable Organism for Toxicity Testing by Flow Cytometry|Bull. Environ. Contam. Toxicol.90(6): 684-690|2013|10.1007/s00128-013-0977-8
166319|T||Armstrong,N., M. Ramamoorthy, D. Lyon, K. Jones, and A. Duttaroy|Mechanism of Silver Nanoparticles Action on Insect Pigmentation Reveals Intervention of Copper Homeostasis|PLoS One8(1): 9 p.|2013|10.1371/journal.pone.0053186
166320|A||Baumann,L., H. Holbech, S. Keiter, K.L. Kinnberg, S. Knorr, T. Nagel, and T. Braunbeck|The Maturity Index as a Tool to Facilitate the Interpretation of Changes in Vitellogenin Production and Sex Ratio in the Fish Sexual Development Test|Aquat. Toxicol.128/129:34-42|2013|10.1016/j.aquatox.2012.11.016
166321|A||Longaray-Garcia,M., J.A. Flores, I.C. Kulkamp-Guerreiro, S.S. Guterres, T.C.B. Pereira, M.R. Bogo, and J.M. Monserrat|Modulation of Antioxidant and Detoxifying Capacity in Fish Cyprinus carpio (Cyprinidae) After Treatment with Nanocapsules Containing Lipoic Acid|Comp. Biochem. Physiol. A Comp. Physiol.165(4): 468-475|2013|10.1016/j.cbpa.2013.02.004
166322|A||Golovanova,I.L., A.A. Filippov, V.V. Krylov, Y.V. Chebotareva, and Y.G. Izyumov|Effect of a Magnetic Field and Copper upon Activity of Hydrolytic Enzymes in Roach (Rutilus rutilus) Underyearlings|J. Ichthyol.53(3): 225-230|2013|10.1134/S0032945213020045
166323|A||Cothran,R.D., J.M. Brown, and R.A. Relyea|Proximity to Agriculture is Correlated with Pesticide Tolerance: Evidence for the Evolution of Amphibian Resistance to Modern Pesticides|Evol. Appl.6(5): 832-841|2013|10.1111/eva.12069
166324|T||Da Silva,C.V., L.C.L. Schneider, and H. Conte|Toxicity and Residual Activity of a Commercial Formulation of Oil from Neem, Azadirachta indica A. Juss. (Meliaceae), in the Embryonic Development of Diatraea saccharalis F. (Lepidoptera: Crambidae)|J. Biofert. Biopestic.4(1): 6 p.|2013|
166325|A||Dorr,A.J.M., M.C. Abete, M. Prearo, N. Pacini, G. La Porta, M. Natali, and A.C. Elia|Effects of Selenium Supplemented Diets on Growth and Condition Indexes in Juvenile Red Swamp Crayfish, Procambarus clarkii|Environ. Toxicol. Pharmacol.36:484-492|2013|10.1016/j.etap.2013.05.011
166326|A||De Wilde,R., L. Swevers, T. Soin, O. Christiaens, P. Rouge, K. Cooreman, C.R. Janssen, and G. Smagghe|Cloning and Functional Analysis of the Ecdysteroid Receptor Complex in the Opossum Shrimp Neomysis integer (Leach, 1814)|Aquat. Toxicol.130/131:31-40|2013|10.1016/j.aquatox.2012.12.011
166327|T||Butler,L., V. Kondo, and D. Blue|Effects of Tebufenozide (RH-5992) for Gypsy Moth (Lepidoptera:  Lymantriidae) Suppression on Nontarget Canopy Arthropods|Environ. Entomol.26(5): 1009-1015|1997|10.1093/ee/26.5.1009
166328|A||Fang,X., C. Thornton, B.E. Scheffler, and K.L. Willett|Benzo(a)pyrene Decreases Global and Gene Specific DNA Methylation During Zebrafish Development|Environ. Toxicol. Pharmacol.36(1): 40-50|2013|10.1016/j.etap.2013.02.014
166329|A||Capkin,E., and I. Altinok|Effects of Chronic Carbosulfan Exposure on Liver Antioxidant Enzyme Activities in Rainbow Trout|Environ. Toxicol. Pharmacol.36:80-87|2013|10.1016/j.etap.2013.03.022
166330|T||Ardestani,M.M., and C.A.M. Van Gestel|The Effect of pH and Calcium on Copper Availability to the Springtail Folsomia candida in Simplified Soil Solutions|Pedobiologia (Multiple Languages)57:53-55|2014|10.1016/j.pedobi.2013.12.001
166331|T||Liu,W.W., W. Mu, B.Y. Zhu, and F. Liu|Effects of Tebufenozide on the Biological Characteristics of Beet Armyworm (Spodoptera exigua Hubner) and Its Resistance Selection|Agric. Sci. China7(10): 1222-1227|2008|10.1016/S1671-2927(08)60168-6
166332|A||Andresen,E., J. Mattusch, G. Wellenreuther, G. Thomas, U.A. Abad, and H. Kupper|Different Strategies of Cadmium Detoxification in the Submerged Macrophyte Ceratophyllum demersum L.|Metallomics5(10): 1377-1386|2013|10.1039/c3mt00088e
166333|A||Wang,Y., and K. Yang|Toxicity of Single-Walled Carbon Nanotubes on Green Microalga Chromochloris zofingiensis|Chin. J. Oceanol. Limnol.31(2): 306-311|2013|10.1007/s00343-013-2131-1
166334|T||Smagghe,G., and D. Degheele|Action of a Novel Nonsteroidal Ecdysteroid Mimic, Tebufenozide (RH-5992), on Insects of Different Orders|Pestic. Sci.42:85-92|1994|10.1002/ps.2780420204
166335|T||Xue,R.D., M.L. Smith, and W.A. Qualls|Field Evaluation of Truck-Mounted Thermal Fog of Duet and Aqualuer Using Different Solvents Against Aedes albopictus|Am. Mosq. Control Assoc. J.29(3): 301-303|2013|10.2987/13-6329R.1
166336|A||Yang,D., Y. Zhou, H. Zhao, X. Zhou, N. Sun, B. Wang, and X. Yuan|Molecular Cloning, Sequencing, and Expression Analysis of cDNA Encoding Metalloprotein II (MP II) Induced by Single and Combined Metals (Cu(II), Cd(II)) in Polychaeta Perinereis aibuhitensis|Environ. Toxicol. Pharmacol.34(3): 841-848|2012|10.1016/j.etap.2012.09.001
166337|T||Johnson,D.H., R.E. Talbert, and D.R. Horton|Carryover Potential of Imazaquin to Cotton, Grain Sorghum, Wheat, Rice, and Corn|Weed Sci.43(3): 454-460|1995|10.1017/S0043174500081467
166338|AT||Jayaseelan,C., A.A. Rahuman, G. Rajakumar, T. Santhoshkumar, A.V. Kirthi, S. Marimuthu, A. Bagavan, C. Kamaraj, A.A. Za|Efficacy of Plant-Mediated Synthesized Silver Nanoparticles Against Hematophagous Parasites|Parasitol. Res.111(2): 921-933|2012|10.1007/s00436-011-2473-6
166339|T||Guimaraes,T.T., M.C.F.R. Pinto, J.S. Lanza, M.N. Melo, R.L. Do Monte-Neto, I.M.M. De Melo, E.B.T. Diogo, V.F. Ferreira,|Potent Naphthoquinones Against Antimony-Sensitive and -Resistant Leishmania Parasites: Synthesis of Novel alpha- and nor-alpha-Lapachone-Based 1,2,3-Triazoles by Copper-Catalyzed Azide-Alkyne Cycloaddition|Eur. J. Med. Chem.63:523-530|2013|10.1016/j.ejmech.2013.02.038
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166341|T||Neller,J.R., and W.J. Morse|Effects upon the Growth of Potatoes, Corn and Beans Resulting from the Addition of Borax to the Fertilizer Used|Soil Sci.12(2): 79-132|1921|10.1097/00010694-192108000-00001
166342|T||West,R.J., D. Thompson, K.M.S. Sundaram, A. Sundaram, A. Retnakaran, and R. Mickle|Efficacy of Aerial Applications of Bacillus thuringiensis Berliner and Tebufenozide Against Eastern Hemlock Looper (Lepidoptera:  Geometridae)|Can. Entomol.129(4): 613-626|1997|10.4039/Ent129613-4
166343|T||McLeod,P., J.B. Hensley, A. Vangilder, and J. Kelley|Use of Methoxyfenozide (Intrepid) and Bifenthrin (Capture) for Management of Southwestern and European Corn Borers in Conventional Field Corn in Arkansas|Crop Manag.:6 p.|2007|
166344|T||Patyal,S.K., I.D. Sharma, R.S. Chandel, and J.K. Dubey|Dissipation Kinetics of Trifloxystrobin and Tebuconazole on Apple (Malus domestica) and Soil - a Multi Location Study from North Western Himalayan Region|Chemosphere92(8): 949-954|2013|10.1016/j.chemosphere.2013.02.069
166345|T||Sui,Y.P., J.X. Wang, and X.F. Zhao|Effects of Classical Insect Hormones on the Expression Profiles of a Lipase Gene from the Cotton Bollworm (Helicoverpa armigera)|Insect Mol. Biol.17(5): 523-529|2008|10.1111/j.1365-2583.2008.00820.x
166346|T||Kartal,S.N., N. Ayrilmis, and Y. Imamura|Decay and Termite Resistance of Plywood Treated with Various Fire Retardants|Build. Environ.42(3): 1207-1211|2007|10.1016/j.buildenv.2005.11.018
166347|T||Mohareb,A., M.F. Thevenon, E. Wozniak, and P. Gerardin|Effects of Monoglycerides on Leachability and Efficacy of Boron Wood Preservatives Against Decay and Termites|Int. Biodeterior. Biodegrad.64(2): 135-138|2010|10.1016/j.ibiod.2009.12.004
166348|T||Askew,H.O., and E.T. Chittenden|The Effect of Tree Injection of Borax Solutions on the Boron Status of Apple Trees|J. Pomol.14:239-242|1936|
166349|T||Aquea,F., F. Federici, C. Moscoso, A. Vega, P. Jullian, J. Haseloff, and P. Arce-Johnson|A Molecular Framework for the Inhibition of Arabidopsis Root Growth in Response to Boron Toxicity|Plant Cell Environ.35(4): 719-734|2012|10.1111/j.1365-3040.2011.02446.x
166350|T||Ardic,M., A.H. Sekmen, I. Turkan, S. Tokur, and F. Ozdemir|The Effects of Boron Toxicity on Root Antioxidant Systems of Two Chickpea (Cicer arietinum L.) Cultivars|Plant Soil314:99-108|2009|10.1007/s11104-008-9709-y
166351|T||Bharti,V.K., M. Gupta, and D. Lall|Ameliorative Effects of Boron on Serum Profile in Buffalo (Bubalus bubalis) Fed High Fluoride Ration|Trop. Anim. Health Prod.40(2): 111-116|2008|10.1007/s11250-007-9069-2
166352|T||Chernobrovkina,N.P., O.S. Dorofeeva, M.K. Il'Inova, E.V. Robonen, and A.G. Vereshchagin|Fatty Acid Composition of Total Lipids from the Needles of Pine Seedlings as Related to Boron Availability|Russ. J. Plant Physiol.55(3): 365-371|2008|10.1134/S1021443708030126
166353|T||Chouliaras,V., M. Tasioula, C. Chatzissavvidis, I. Therios, and E. Tsabolatidou|The Effects of a Seaweed Extract in Addition to Nitrogen and Boron Fertilization on Productivity, Fruit Maturation, Leaf Nutritional Status and Oil Quality of the Olive (Olea europaea L.) Cultivar Koroneiki|J. Sci. Food Agric.89:984-988|2009|10.1002/jsfa.3543
166354|T||Krupa,T., M. Goldova, Z. Hurnikova, and M. Halan|Comparison of Efficacy of Anthelminthics in Parrot Breeding|Folia Vet.56(2): 30-33|2012|
166355|T||Vendel'ova,E., G. Hrckova, and S. Velebny|Immunomodulation of Inflammation in Peritoneal Cavity of Mice Infected with Cestode Mesocestoides vogae After Treatment with Anthelminthic Praziquantel in Combination with a Flavonoid|Folia Vet.56(2): 54-56|2012|
166356|T||Raghu,K., M.G. Mendes, N.B.K. Murthy, and J. Ferreira|Hexachlorocyclohexane and Carbaryl Residues in Groundnut|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:3-12|1979|
166357|T||Zayed,S.M.A.D., S.A. Mansour, I.Y. Mostafa, and A. Hassan|Determination and Characterization of Carbaryl Residues in Maize Products|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:13-20|1979|
166358|T||Qureshi,M.J.|14C-Carbaryl Residues in Cotton Seed Products|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:21-28|1979|
166360|T||Qureshi,M.J.|Isotopic Tracer Aided Studies on the Fate of Leptophos Residues in Cotton Seed and Its Products Under Pakistan Conditions|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:59-62|1979|
166361|T||Hassan,A., M. Farghaly, and S.I. Mohammed|Leptophos Residues in Milk and Meat of Lactating Goats|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:73-84|1979|
166362|T||Hassan,A., S.M.A.D. Zayed, and I.Y. Mostafa|Toxicological Assessment of Leptophos Residues in Cotton Seed Products|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:63-72|1979|
166363|T||Rodriguez-Hernandez,M.C., D.A. Moreno, M. Carvajal, and M.C. Martinez-Ballesta|Interactive Effects of Boron and NaCl Stress on Water and Nutrient Transport in Two Broccoli Cultivars|Funct. Plant Biol.40(7): 739-748|2013|10.1071/FP12314
166364|T||Eichert,T., and H.E. Goldbach|Transpiration Rate Affects the Mobility of Foliar-Applied Boron in Ricinus communis L. cv. Impala|Plant Soil328:165-174|2010|10.1007/s11104-009-0094-y
166365|T||Esim,N., D. Tiryaki, O. Karadagoglu, and O. Atici|Toxic Effects of Boron on Growth and Antioxidant System Parameters of Maize (Zea mays L.) Roots|Toxicol. Ind. Health29(9): 800-805|2013|10.1177/0748233712442729
166366|T||Huguier,P., N. Manier, C. Meline, P. Bauda, and P. Pandard|Improvement of the Caenorhabditis elegans Growth and Reproduction Test to Assess the Ecotoxicity of Soils and Complex Matrices|Environ. Toxicol. Chem.32(9): 2100-2108|2013|10.1002/etc.2282
166367|T||Lee,S.R., S.Y. Kang, and Y.H. Kim|Behaviour of Nitrofen, Alachlor and Butachlor Applied to Oil-Bearing Crops in Korea|In: Radiotracer Studies of Pesticide Residues in Edible Oil Seeds and Related Products, IAEA-218 Conference Report No. 7804117:43-50|1979|
166369|T||Owojori,O.J., J. Healey, J. Princz, and S.D. Siciliano|Can Avoidance Behavior of the Mite Oppia nitens be Used as a Rapid Toxicity Test for Soils Contaminated with Metals or Organic Chemicals?|Environ. Toxicol. Chem.30(11): 2594-2601|2011|10.1002/etc.658
166370|T||Owojori,O.J., K. Waszak, and J. Roembke|Avoidance and Reproduction Tests with the Predatory Mite Hypoaspis aculeifer:  Effects of Different Chemical Substances|Environ. Toxicol. Chem.33(1): 230-237|2014|10.1002/etc.2421
166371|T||Palanti,S., E. Feci, G. Predieri, and F. Vignali|A Wood Treatment Based on Siloxanes and Boric Acid Against Fungal Decay and Coleopter Hylotrupes bajulus|Int. Biodeterior. Biodegrad.75(0): 49-54|2012|10.1016/j.ibiod.2012.07.019
166372|T||Princz,J.I., V.M. Behan-Pelletier, R.P. Scroggins, and S.D. Siciliano|Oribatid Mites in Soil Toxicity Testing - The Use of Oppia nitens (C.L. Koch) as a New Test Species|Environ. Toxicol. Chem.29(4): 971-979|2010|10.1002/etc.98
166373|T||Rolshausen,P.E., J.R. Urbez-Torres, S. Rooney-Latham, A. Eskalen, R.J. Smith, and W.D. Gubler|Evaluation of Pruning Wound Susceptibility and Protection Against Fungi Associated with Grapevine Trunk Diseases|Am. J. Enol. Vitic.61(1): 113-119|2010|10.5344/ajev.2010.61.1.113
166374|T||Shi,X.Q., B.Q. Li, G.Z. Qin, and S.P. Tian|Antifungal Activity and Possible Mode of Action of Borate Against Colletotrichum gloeosporioides on Mango|Plant Dis.95:63-69|2011|10.1094/PDIS-06-10-0437
166375|T||Stegger,P., K.P. Ebke, and J. Rombke|Boric Acid as Alternative Reference Substance for Earthworm Field Tests|J. Soils Sediments11:330-335|2011|10.1007/s11368-010-0307-2
166376|A||Teixido,E., E. Pique, J. Gomez-Catalan, and J.M. Llobet|Assessment of Developmental Delay in the Zebrafish Embryo Teratogenicity Assay|Toxicol. In Vitro27:469-478|2013|10.1016/j.tiv.2012.07.010
166377|T||Van der Vliet,L., J. Velicogna, J. Princz, and R. Scroggins|Phytotoxkit:  A Critical Look at a Rapid Assessment Tool|Environ. Toxicol. Chem.31(2): 316-323|2012|10.1002/etc.743
166378|T||Varghese,M., N. Ravi, R. Kamalakannan, and C.E. Harwood|Effect of Silvicultural Treatments on Growth, Fertility and Capsule Traits in Seedling Seed Orchards of Eucalyptus camaldulensis and E. tereticornis|New For. 37:99-107|2009|10.1007/s11056-008-9111-x
166379|T||Will,S., T. Eichert, V. Fernandez, J. Mohring, T. Muller, and V. Romheld|Absorption and Mobility of Foliar-Applied Boron in Soybean as Affected by Plant Boron Status and Application as a Polyol Complex|Plant Soil344(1/2): 283-293|2011|10.1007/s11104-011-0746-6
166380|T||Cao,B., H. Li, S. Tian, and G. Qin|Boron Improves the Biocontrol Activity of Cryptococcus laurentii Against Penicillium expansum in Jujube Fruit|Postharvest Biol. Technol.68:16-21|2012|10.1016/j.postharvbio.2012.01.008
166381|T||Capinera,J.L.|Cuban Brown Snail, Zachrysia provisoria (Gastropoda): Damage Potential and Control|Crop Prot.52(0): 57-63|2013|10.1016/j.cropro.2013.05.014
166382|T||Chen,G.C.|Synthesis and Evaluation of Aminoborates Derived from Boric Acid and Diols for Protecting Wood Against Fungal and Thermal Degradation|Wood Fiber Sci.40(2): 248-257|2008|
166383|T||El-Feky,S.S., F.A. El-Shintinawy, E.M. Shaker, and H.A.S. El-Din|Effect of Elevated Boron Concentrations on the Growth and Yield of Barley (Hordeum vulgare L.) and Alleviation of Its Toxicity Using Different Plant Growth Modulators|Aust. J. Crop Sci.6(12): 1687-1695|2012|
166384|T||Gentz,M.C., and J.K. Grace|Native Boron Levels and the Effect of Boron Treatment on Coptotermes formosanus Shiraki (Isoptera: Rhinotermitidae), Coptotermes acinaciformis (Froggatt) (Isoptera: Rhinotermitidae), and Mastotermes darwiniensis Froggat|J. Entomol. Sci.43(2): 217-224|2008|10.18474/0749-8004-43.2.217
166385|T||Ozturkcan,S., R. Dundar, H. Katilmis, A.E. Ilknur, S. Aktas, and S. Haciomeroglu|The Ototoxic Effect of Boric Acid Solutions Applied into the Middle Ear of Guinea Pigs|Eur. Arch. Otorhinolaryngol.266(5): 663-667|2009|10.1007/s00405-008-0806-6
166386|T||Qin,G., Y. Zong, Q. Chen, D. Hua, and S. Tian|Inhibitory Effect of Boron Against Botrytis cinerea on Table Grapes and Its Possible Mechanisms of Action|Int. J. Food Microbiol.138:145-150|2010|10.1016/j.ijfoodmicro.2009.12.018
166387|T||Singh,D.K., F. Abood, H. Abdul-Hamid, Z. Ashaari, and A. Abdu|Boric Acid Toxicity Trials on the Wood Borer Heterobostrychus aequalis Waterhouse (Coleoptera: Bostrychidae)|Am. J. Agric. Biol. Sci.6(1): 84-91|2011|10.3844/ajabssp.2011.84.91
166388|T||Thomidis,T., and E. Exadaktylou|Effect of Boron on the Development of Brown Rot (Monilinia laxa) on Peaches|Crop Prot.29:572-576|2010|10.1016/j.cropro.2009.12.023
166389|T||Turan,M.A., N. Taban, and S. Taban|Effect of Calcium on the Alleviation of Boron Toxicity and Localization of Boron and Calcium in Cell Wall of Wheat|Notulae Bot. Horti Agrobot. Cluj-Napoca37(2): 99-103|2009|
166390|T||Gupta,A.P., and M.D. Parrish|Effectiveness of a New Boric Acid Bait (Roach Killer Cream) on German Cockroach (Blattella germanica) Populations in Urban Dwellings|Uttar Pradesh J. Zool.4(1): 51-56|1984|
166391|T||Appel,A.G., M.J. Gehret, and M.J. Tanley|Effects of Moisture on the Toxicity of Inorganic and Organic Insecticidal Dust Formulations to German Cockroaches (Blattodea:  Blattellidae)|J. Econ. Entomol.97(3): 1009-1016|2004|10.1093/jee/97.3.1009
166393|T||Becker,L., A. Scheffczyk, B. Forster, J. Oehlmann, J. Princz, J. Rombke, and T. Moser|Effects of Boric Acid on Various Microbes, Plants, and Soil Invertebrates|J. Soils Sediments11(2): 238-248|2011|10.1007/s11368-010-0282-7
166394|T||Buyukguzel,E., K. Buyukguzel, M. Snela, M. Erdem, K. Radtke, K. Ziemnicki, and Z. Adamski|Effect of Boric Acid on Antioxidant Enzyme Activity, Lipid Peroxidation, and Ultrastructure of Midgut and Fat Body of Galleria mellonella|Cell Biol. Toxicol.29(2): 117-129|2013|10.1007/s10565-013-9240-7
166395|T||Colak,S., F. Geyikoglu, O.N. Keles, H. Turkez, A. Topal, and B. Unal|The Neuroprotective Role of Boric Acid on Aluminum Chloride-Induced Neurotoxicity|Toxicol. Ind. Health27(8): 700-710|2011|10.1177/0748233710395349
166396|T||Ferreira,R.A.C., E.C.M.S. Zacarin, O. Malaspina, O.C. Bueno, M.E.M. Tomotake, and A.M. Pereira|Cellular Responses in the Malpighian Tubules of Scaptotrigona postica (Latreille, 1807) Exposed to Low Doses of Fipronil and Boric Acid|Micron46:57-65|2013|10.1016/j.micron.2012.12.008
166397|T||Naranjo,D.P., W.A. Qualls, G.C. Muller, D.M. Samson, D. Roque, T. Alimi, K. Arheart, J.C. Beier, and R.D. Xue|Evaluation of Boric Acid Sugar Baits Against Aedes albopictus (Diptera: Culicidae) in Tropical Environments|Parasitol. Res.112(4): 1583-1587|2013|10.1007/s00436-013-3312-8
166399|T||Turkez,H., F. Geyikoglu, and A. Tatar|Borax Counteracts Genotoxicity of Aluminum in Rat Liver|Toxicol. Ind. Health29(9): 775-779|2013|10.1177/0748233712442739
166400|T||Canesin,R.C.F.S., S. Buzetti, A.C. Boliani, and J.S. Isepon|Leaf Spray Fertilization of Boron and Zinc on Productivity and Fruit Quality of Japanese Pear Tree|Acta Hortic.:281-288|2010|10.17660/ActaHortic.2010.872.38
166401|T||Hosseini,S.M., M. Maftoun, N. Karimian, A. Ronaghi, and Y. Emam|Effect of Zinc x Boron Interaction on Plant Growth and Tissue Nutrient Concentration of Corn|J. Plant Nutr.30:773-781|2007|10.1080/01904160701289974
166402|T||Li,Y., Z. Yang, Y. Bi, J. Zhang, and D. Wang|Antifungal Effect of Borates Against Fusarium sulphureum on Potato Tubers and Its Possible Mechanisms of Action|Postharvest Biol. Technol.74:55-61|2012|10.1016/j.postharvbio.2012.06.016
166403|T||Nagy,P.T., S. Thurzo, Z. Szabo, J. Nyeki, A.P. Silva, and B. Goncalves|Influence of Foliar Fertilization on Mineral Composition, Sugar and Organic Acid Content of Sweet Cherry|Acta Hortic.:353-358|2010|10.17660/ActaHortic.2010.868.47
166404|T||Razeto,B., and M.J. Castro|Fruit Analysis as a New Approach to Evaluate Boron Status in Avocado|J. Plant Nutr.30:881-885|2007|10.1080/15226510701375069
166405|T||Thurzo,S., Z. Szabo, J. Nyeki, P.T. Nagy, A.P. Silva, and B. Goncalves|Effect of Boron and Calcium Sprays on Photosynthetic Pigments, Total Phenols and Flavonoid Content of Sweet Cherry (Prunus avium L.)|Acta Hortic.:457-461|2010|10.17660/ActaHortic.2010.868.64
166406|T||Wise,L.D., and C.T. Winkelmann|Micro-Computed Tomography and Alizarin Red Evaluations of Boric Acid-Induced Fetal Skeletal Changes in Sprague-Dawley Rats|Birth Defects Res. B Dev. Reprod. Toxicol.86(3): 214-219|2009|10.1002/bdrb.20195
166407|T||Zhang,J., M. Wang, L. Wu, J. Wu, and C. Shi|Impacts of Combination of Foliar Iron and Boron Application on Iron Biofortification and Nutritional Quality of Rice Grain|J. Plant Nutr.31:1599-1611|2008|10.1080/01904160802244803
166408|T||Aguirre,O.U., A.M. Martinez, J. Campos-Garcia, L.A. Hernandez, J.I. Figueroa, P. Lobit, E. Vinuela, J.M. Chavarrieta, G|Foliar Persistence and Residual Activity of Methoxyfenozide Against Beet Armyworm (Lepidoptera: Noctuidae)|Insect Sci.20(6): 734-742|2013|10.1111/j.1744-7917.2012.01576.x
166409|T||Bangels,E., and B. Gobin|Efficacy Results of Insecticides Against Cydia pomonella, the Codling Moth, in Belgium During the Last Decade (1998-2007)|Commun. Agric. Appl. Biol. Sci.73(3): 655-658|2008|
166410|T||Huang,J., L.L. Stelinski, J.R. Miller, and L.J. Gut|Attraction and Fecundity of Adult Codling Moth, Cydia pomonella, as Influenced by Methoxyfenozide-Treated Electrostatic Powder|J. Appl. Entomol.133(9/10): 666-672|2009|10.1111/j.1439-0418.2009.01418.x
166411|T||Reynolds,S.E., A.M. Brown, R.K. Seth, L.M. Riddiford, and K. Hiruma|Induction of Supernumerary Larval Moulting in the Tobacco Hornworm Manduca sexta:  Interaction of Bisacylhydrazine Ecdysteroid Agonists with Endogenous Juvenile Hormone|Physiol. Entomol.34:30-38|2009|10.1111/j.1365-3032.2008.00648.x
166413|T||Fry,R.S., K.E. Lloyd, S.K. Jacobi, P.D. Siciliano, W.P. Robarge, and J.W. Spears|Effect of Dietary Boron on Immune Function in Growing Beef Steers|J. Anim. Physiol. Anim. Nutr.94:273-279|2010|10.1111/j.1439-0396.2008.00906.x
166414|A||Hall,S., R. Lockwood, and M.C. Harrass|Application of a Unique Test Design to Determine the Chronic Toxicity of Boron to the Aquatic Worm Lumbriculus variegatus and Fatmucket Mussel Lampsilis siliquoidea|Arch. Environ. Contam. Toxicol.66(1): 58-68|2014|10.1007/s00244-013-9956-7
166415|T||Haribhushan,A., H.S. Athokpam, N.B. Singh, N. Chongtham, and N.G. Singh|Effect of Vermicompost and Boron on Boron Availability, Yield and Uptake by Tomato (Lycopersicon esculentum Mill.) and Soil Fertility|Environ. Ecol.26(1): 187-190|2008|
166416|T||Kocabek,T., Z. Svoboda, A.M. Al-Zwi, S.A. Rolfe, and M. Fellner|Boron-Regulated Hypocotyl Elongation is Affected in Arabidopsis Mutants with Defects in Light Signalling Pathways|Environ. Exp. Bot.67:101-111|2009|10.1016/j.envexpbot.2009.06.005
166418|T||Lee,S.H., W.S. Kim, and T.H. Han|Effects of Post-Harvest Foliar Boron and Calcium Applications on Subsequent Season's Pollen Germination and Pollen Tube Growth of Pear (Pyrus pyrifolia)|Sci. Hortic.122:77-82|2009|10.1016/j.scienta.2009.04.006
166419|T||Lehtijarvi,A., H.T. Dogmus-Lehtijarvii, A.G. Aday, and F. Oskay|The Efficacy of Selected Biological and Chemical Control Agents Against Heterobasidion abietinum on Abies cilicica|For. Pathol.41(6): 470-476|2011|10.1111/j.1439-0329.2010.00705.x
166422|T||Rajak,U., R. Rani, R. Kumar, B.K. Mandal, and K.K. Prasad|Effect of Foliar Application of Urea, Borax and Zinc on Flowering, Fruiting and Fruit Quality of Amrapali Mango|Environ. Ecol.28(3): 1668-1671|2010|
166423|T||Saadati,S., N. Moallemi, S.M.H. Mortazavi, and S.M. Seyyednejad|Effects of Zinc and Boron Foliar Application on Soluble Carbohydrate and Oil Contents of Three Olive Cultivars During Fruit Ripening|Sci. Hortic.164(0): 30-34|2013|10.1016/j.scienta.2013.08.033
166427|T||Wang,X., L.Q. Ma, B. Rathinasabapathi, Y. Liu, and G. Zeng|Uptake and Translocation of Arsenite and Arsenate by Pteris vittata L.: Effects of Silicon, Boron and Mercury|Environ. Exp. Bot.68:222-229|2010|10.1016/j.envexpbot.2009.11.006
166428|T||Warington,K.|The Effect of Boric Acid and Borax on the Broad Bean and Certain Other Plants|Ann. Bot.37:629-672|1923|10.1093/oxfordjournals.aob.a089871
166429|T||Will,S., T. Eichert, V. Fernandez, T. Muller, and V. Romheld|Boron Foliar Fertilization of Soybean and Lychee: Effects of Side of Application and Formulation Adjuvants|J. Plant Nutr. Soil Sci.175:180-188|2012|10.1002/jpln.201100107
166431|T||Jayaraman,V.|Study on Repellent Action of Phorate Against Rhinoceros Beetle, Oryctes rhinoceros Linn|In: National Seminar on Behavioural and Physiological Approaches in Pest Management, Tamil Nadu Agricultural University:116-119|1985|
166432|T||Albright III,V.C., and J.R. Coats|Disposition of Atrazine Metabolites Following Uptake and Degradation of Atrazine in Switchgrass|Int. J. Phytoremediat.16(1): 62-72|2014|10.1080/15226514.2012.759528
166433|T||Luo,Y.P., and N.T. Chang|Strategies for Controlling the Ghost Ant, Tapinoma melanocephalum (Hymenoptera: Formicidae) with Liquid Bait|J. Asia Pac. Entomol.16(2): 113-118|2013|10.1016/j.aspen.2012.12.001
166434|T||Martinez-Ballesta,M.C., E. Bastias, C. Zhu, A.R. Schaffner, B. Gonzalez-Moro, C. Gonzalez-Murua, and M. Carvajal|Boric Acid and Salinity Effects on Maize Roots. Response of Aquaporins ZmPIP1 and ZmPIP2, and Plasma Membrane H+-ATPase, in Relation to Water and Nutrient Uptake|Physiol. Plant. (Multiple Languages)132(4): 479-490|2008|10.1111/j.1399-3054.2007.01045.x
166435|T||Rajavel,M., and S. Vincent|Influence of Nutrients and Hormones on Yield Maximization of Blackgram|J. Ecobiol.24(4): 387-394|2009|
166436|T||Ahn,S.H., S.C. Oh, I.G. Choi, H.Y. Kim, and I. Yang|Efficacy of Wood Preservatives Formulated from Okara with Copper and/or Boron Salts|J. Wood Sci.54:495-501|2008|10.1007/s10086-008-0982-4
166437|A||Vincent-Akpu,I.F., and M.E. Allison|Effect of Chronic Exposure to Drilling Fluid XP-07 on Gonad Histology in Tilapia guineensis|Toxicol. Environ. Chem.92(2): 271-277|2010|10.1080/02772240902927502
166438|A||Binukumari,S., and M. Manimegalai|Impact of Quinalphos on Acid Phosphatase and Alkaline Phosphatase Activity in the Tissues of Freshwater Fish, Labeo rohita|Nat. Environ. Pollut. Technol.11(2): 199-201|2012|
166439|A||Vijayakumari,K.N., and G.A. Akhila|Sublethal Effect of Quinalphos on Peripheral Haematology of Oreochromis mossambicus (Peters)|Nat. Environ. Pollut. Technol.11(2): 253-256|2012|
166440|T||Vales,G., E. Demir, B. Kaya, A. Creus, and R. Marcos|Genotoxicity of Cobalt Nanoparticles and Ions in Drosophila|Nanotoxicology7(4): 462-468|2013|10.3109/17435390.2012.689882
166441|T||Reinke,M.D., and B.A. Barrett|Fecundity, Fertility and Longevity Reductions in Adult Oriental Fruit Moth (Lepidoptera: Tortricidae) Exposed to Surfaces Treated with the Edysteroid Agonists Tebufenozide and Methoxyfenozide|J. Entomol. Sci.42(4): 457-466|2007|10.18474/0749-8004-42.4.457
166442|T||Krutz,L.J., I.C. Burke, K.N. Reddy, R.M. Zablotowicz, and A.J. Price|Enhanced Atrazine Degradation:  Evidence for Reduced Residual Weed Control and a Method for Identifying Adapted Soils and Predicting Herbicide Persistence|Weed Sci.57(4): 427-434|2009|10.1614/WS-09-010.1
166443|T||Mitchkash,M.G., T. McPeek, and M.D. Boone|The Effects of 24-H Exposure to Carbaryl or Atrazine on the Locomotor Performance and Overwinter Growth and Survival of Juvenile Spotted Salamanders (Ambystoma maculatum)|Environ. Toxicol. Chem.33(3): 548-552|2014|10.1002/etc.2451
166444|T||Rogers,J.M., R.G. Ellis-Hutchings, B.E. Grey, R.M. Zucker, J.,Jr. Norwood, C.E. Grace, C.J. Gordon, and C. Lau|Elevated Blood Pressure in Offspring of Rats Exposed to Diverse Chemicals During Pregnancy|Toxicol. Sci.137(2): 436-446|2014|10.1093/toxsci/kft248
166445|T||Zhang,J.J., Y.C. Lu, J.J. Zhang, L.R. Tan, and H. Yang|Accumulation and Toxicological Response of Atrazine in Rice Crops|Ecotoxicol. Environ. Saf.102:105-112|2014|10.1016/j.ecoenv.2013.12.034
166446|A||Dornelles,M.F., and G.T. Oliveira|Effect of Atrazine, Glyphosate and Quinclorac on Biochemical Parameters, Lipid Peroxidation and Survival in Bullfrog Tadpoles (Lithobates catesbeianus)|Arch. Environ. Contam. Toxicol.66(3): 415-429|2014|10.1007/s00244-013-9967-4
166447|A||Larras,F., F. Keck, B. Montuelle, F. Rimet, and A. Bouchez|Linking Diatom Sensitivity to Herbicides to Phylogeny:  A Step Forward for Biomonitoring?|Environ. Sci. Technol.48(3): 1921-1930|2014|10.1021/es4045105
166448|A||Lozano,P., C. Trombini, E. Crespo, J. Blasco, and I. Moreno-Garrido|ROI-Scavenging Enzyme Activities as Toxicity Biomarkers in Three Species of Marine Microalgae Exposed to Model Contaminants (Copper, Irgarol and Atrazine)|Ecotoxicol. Environ. Saf.104:294-301|2014|10.1016/j.ecoenv.2014.03.021
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166450|A||Singh,S.P., and V. Yadava|Cadmium Induced Inhibition of Ammonium and Phosphate Uptake in Anacystis nidulans:  Interaction with Other Divalent Cations|J. Gen. Appl. Microbiol.30:79-86|1984|10.2323/jgam.30.79
166451|AT||Simon,E.W., H.A. Roberts, and G.E. Blackman|Studies in the Principles of Phytotoxicity:  III. The pH Factor and the Toxicity of 3:5-Dinitro-o-cresol, a Weak Acid|J. Exp. Bot.3(7): 99-109|1952|10.1093/jxb/3.1.99
166452|A||Georgieva,E., I. Velcheva, A. Arnaudov, and P. Atanasova|Study on the Influence of Copper on Some Indices of the Hepatic Homeostasis of the Gibelio Carp (Carassius gibelio)|J. Environ. Prot. Ecol.13(3A): 1902-1906|2012|
166453|A||Nath,S., S. Bose, and I. Kundu|Effects of Thiamethoxam on Liver Protein of Oreochromis niloticus (Trewavas)|Proc. Zool. Soc.65(2): 118-120|2012|10.1007/s12595-012-0037-0
166454|A||Kim,J.H., J.S. Rhee, H.U. Dahms, Y.M. Lee, K.N. Han, and J.S. Lee|The Yellow Catfish, Pelteobagrus fulvidraco (Siluriformes) Metallothionein cDNA:  Molecular Cloning and Transcript Expression Level in Response to Exposure to the Heavy Metals Cd, Cu, and Zn|Fish Physiol. Biochem.38(5): 1331-1342|2012|10.1007/s10695-012-9621-5
166455|A||Kondera,E., and M. Witeska|Cadmium and Copper Reduce Hematopoietic Potential in Common Carp (Cyprinus carpio L.) Head Kidney|Fish Physiol. Biochem.39(4): 755-764|2013|10.1007/s10695-012-9738-6
166456|A||Hoher,N., F. Regoli, A. Dissanayake, M. Nagel, M. Kriews, A. Kohler, and K. Broeg|Immunomodulating Effects of Environmentally Realistic Copper Concentrations in Mytilus edulis Adapted to Naturally Low Salinities|Aquat. Toxicol.140/141:185-195|2013|10.1016/j.aquatox.2013.06.001
166457|A||Kim,W.K., S.K. Lee, K. Choi, and J. Jung|Integrative Assessment of Biomarker Responses in Pale Chub (Zacco platypus) Exposed to Copper and Benzo[a]Pyrene|Ecotoxicol. Environ. Saf.92:71-78|2013|10.1016/j.ecoenv.2013.02.010
166458|A||Khan,F.R., N.R. Bury, and C. Hogstrand|Copper and Zinc Detoxification in Gammarus pulex (L.)|J. Exp. Biol.215(5): 822-832|2012|10.1242/jeb.062505
166459|A||Mallo,N., J. Lamas, and J.M. Leiro|Evidence of an Alternative Oxidase Pathway for Mitochondrial Respiration in the Scuticociliate Philasterides dicentrarchi|Protist164(6): 824-836|2013|10.1016/j.protis.2013.09.003
166460|A||Kulac,B., G. Atli, and M. Canli|Response of ATPases in the Osmoregulatory Tissues of Freshwater Fish Oreochromis niloticus Exposed to Copper in Increased Salinity|Fish Physiol. Biochem.39(2): 391-401|2013|10.1007/s10695-012-9707-0
166461|A||Kovacs,A., N. Abdel-Hameid, A. Acs, A. Ferincz, and N. Kovats|A Novel Protocol for Assessing Aquatic Pollution, Based on the Feeding Inhibition of Daphnia magna|Knowledge Manag. Aquat. Ecosyst.404:7 p.|2012|
166463|A||Hedouin,L., and R.D. Gates|Assessing Fertilization Success of the Coral Montipora capitata Under Copper Exposure: Does the Night of Spawning Matter?|Mar. Pollut. Bull.66(1/2): 221-224|2013|10.1016/j.marpolbul.2012.11.020
166465|A||Mesaric,T., K. Sepcic, V. Piazza, C. Gambardella, F. Garaventa, D. Drobne, and M. Faimali|Effects of Nano Carbon Black and Single-Layer Graphene Oxide on Settlement, Survival and Swimming Behaviour of Amphibalanus amphitrite Larvae|Chem. Ecol.29(7): 643-652|2013|10.1080/02757540.2013.817563
166466|A||Kim,J.H., H.J. Jeon, J.M. Baek, K.N. Han, and H.U. Dahms|EDCs-Induced Glucocorticoid Receptor Related Genes Expression of the River Pufferfish, Takifugu obscurus|Aquac. Res.44(6): 985-994|2013|10.1111/j.1365-2109.2012.03104.x
166467|T||Dedaldechamp,F., S. Saeedi, P. Fleurat-Lessard, and G. Roblin|Uptake and Metabolic Effects of Salicylic Acid on the Pulvinar Motor Cells of Mimosa pudica L.|Plant Physiol. Biochem.74(0): 125-132|2014|10.1016/j.plaphy.2013.11.010
166468|A||Hjorth,M., J.H. Hansen, and L. Camus|Short-Term Effects of Sucralose on Calanus finmarchicus and Calanus glacialis in Disko Bay, Greenland|Chem. Ecol.26(5): 385-393|2010|10.1080/02757540.2010.504672
166469|T||Yu,X.Z., X.H. Zhang, and W. Liu|Responses of Free Amino Acids in Rice Seedlings During Cyanide Metabolism|Environ. Sci. Pollut. Res.21(2): 1411-1417|2014|10.1007/s11356-013-2034-x
166470|A||Mudgal,L.K., P.K. Joshi, and R. Sharma|Aloe Vera Extract Characterization and Its Protection Against Fenvalerate Induced Toxicity in Heteropneustes fossilis|Environ. Conserv. J.13(1/2): 65-71|2012|10.36953/ECJ.2012.131212
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166472|A||Pourkhabbaz,A., T. Khazaei, S. Behravesh, M. Ebrahimpour, and H. Pourkhabbaz|Effect of Water Hardness on the Toxicity of Cobalt and Nickel to a Freshwater Fish, Capoeta fusca|Biomed. Environ. Sci.24(6): 656-660|2011|
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166647|T||Xu,D., C. Li, Y. Wen, and W. Liu|Antioxidant Defense System Responses and DNA Damage of Earthworms Exposed to Perfluorooctane Sulfonate (PFOS)|Environ. Pollut.174:121-127|2013|10.1016/j.envpol.2012.10.030
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166817|T||Souza,L.A., S.A.L. Andrade, S.C.R. Souza, and M.A. Schiavinato|Evaluation of Mycorrhizal Influence on the Development and Phytoremediation Potential of Canavalia gladiata in Pb-Contaminated Soils|Int. J. Phytoremediat.15(5): 465-476|2013|10.1080/15226514.2012.716099
166818|A||Branco,V., J. Canario, J. Lu, A. Holmgren, and C. Carvalho|Mercury and Selenium Interaction In Vivo: Effects on Thioredoxin Reductase and Glutathione Peroxidase|Free Radic. Biol. Med.52(4): 781-793|2012|10.1016/j.freeradbiomed.2011.12.002
166819|A||Sabatini,S.E., P.I. Leonardi, and M.C. Rodriguez|Responses to Sublethal Copper Exposure in Two Strains of Chlamydomonas reinhardtii (Volvocales, Chlorophyceae) in Autotrophic and Mixotrophic Conditions|Phycologia50(1): 78-88|2011|10.2216/09-101.1
166820|A||Sagun,V.G., and P.P. Ocampo|Proliferation of Melanomacrophage Centers (MMCs) in Nile Tilapia (Oreochromis niloticus Linn.) as Induced by Exposure to Imidacloprid Insecticide|Philipp. Entomol.20(2): 150-164|2006|
166821|T||Saiyood,S., D. Inthorn, A.S. Vangnai, and P. Thiravetyan|Phytoremediation of Bisphenol A and Total Dissolved Solids by the Mangrove Plant, Bruguiera gymnorhiza|Int. J. Phytoremediat.15(5): 427-438|2013|10.1080/15226514.2012.716096
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166823|T||Morgan,K.L., A.O. Estevez, C.L. Mueller, B. Cacho-Valadez, A. Miranda-Vizuete, N.J. Szewczyk, and M. Estevez|The Glutaredoxin GLRX-21 Functions to Prevent Selenium-Induced Oxidative Stress in Caenorhabditis elegans|Toxicol. Sci.118(2): 530-543|2010|10.1093/toxsci/kfq273
166824|A||Beaty,T.V.,Jr.|The Use of Chironomus riparius (Diptera: Chironomidae) in Benthic Toxicity Tests and Its Response to Selenium|M.S.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:92 p.|1995|
166825|A||Jones-Witthuhn,R.L.|Effect of Selenium on the Alga Chlamydomonous reinhardtii|M.S.Thesis, University of Wisconsin, Milwaukee, WI:60 p.|1985|
166826|A||Bagchi,D., and D. Verma|Selenate-Regulation of Sulfur Metabolism in a Cyanobacterium, Phormidium uncinatum|J. Plant Physiol.150(6): 762-764|1997|10.1016/S0176-1617(97)80297-0
166827|A||Nugroho,A.P., and H. Frank|Uptake, Distribution, and Bioaccumulation of Copper in the Freshwater Mussel Anodonta anatina|Toxicol. Environ. Chem.93(9): 1838-1850|2011|10.1080/02772248.2011.582989
166828|T||Nyalala,S.O., M.A. Petersen, and B.W.W. Grout|Volatile Compounds from Leaves of the African Spider Plant (Gynandropsis gynandra) with Bioactivity Against Spider Mite (Tetranychus urticae)|Ann. Appl. Biol.162(3): 290-298|2013|10.1111/aab.12021
166829|A||Negri,A.P., A.J. Harford, D.L. Parry, and R.A. Van Dam|Effects of Alumina Refinery Wastewater and Signature Metal Constituents at the Upper Thermal Tolerance of:  2.  The Early Life Stages of the Coral Acropora tenuis|Mar. Pollut. Bull.62(3): 474-482|2011|10.1016/j.marpolbul.2011.01.011
166830|A||Tse,J.J., M. Gallego-Gallegos, E.D. Franz, K. Liber, and I.J. Pickering|Selenium Speciation and Localization in Chironomids from Lakes Receiving Treated Metal Mine Effluent|Chemosphere89(3): 274-279|2012|10.1016/j.chemosphere.2012.04.036
166832|A||Razo-Estrada,A.C., S. Garcia-Medina, E. Madrigal-Bujaidar, L.M. Gomez-Olivan, and M. Galar-Martinez|Aluminum-Induced Oxidative Stress and Apoptosis in Liver of the Common Carp, Cyprinus carpio|Water Air Soil Pollut.224(5): 1-9|2013|10.1007/s11270-013-1510-8
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166834|A||Olsson,M., C. Hogstrand, A. Dahlberg, and S.A. Berglind|Acid-Shock, Aluminium, and Presence of Sphagnum aurantiacum:  Effects on Embryological Development in the Common Frog, Rana temporaria and the Moor Frog, Rana arvalis|Bull. Environ. Contam. Toxicol.39:37-44|1987|10.1007/BF01691786
166835|T||Pandey,P., R.K. Srivastava, and R.S. Dubey|Salicylic Acid Alleviates Aluminum Toxicity in Rice Seedlings Better than Magnesium and Calcium by Reducing Aluminum Uptake, Suppressing Oxidative Damage and Increasing Antioxidative Defense|Ecotoxicology22(4): 656-670|2013|10.1007/s10646-013-1058-9
166836|A||Pacini,N., A.C. Elia, M.C. Abete, A.J.M. Dorr, P. Brizio, L. Gasco, M. Righetti, and M. Prearo|Antioxidant Response Versus Selenium Accumulation in the Liver and Kidney of the Siberian Sturgeon (Acipenser baeri)|Chemosphere93(10): 2405-2412|2013|10.1016/j.chemosphere.2013.08.042
166837|A||Pastierova,J., Z. Kramarova, M. Molnarova, and A. Fargasova|Comparison of the Sensitivity of Four Freshwater Microalgae to Selenate and Selenite|Fresenius Environ. Bull.18(11): 2029-2033|2009|
166838|A||Pieterek,T., and M. Pietrock|Comparative Selenium Toxicity to Laboratory-Reared and Field-Collected Hyalella azteca (Amphipoda, Hyalellidae)|Water Air Soil Pollut.223(7): 4245-4252|2012|10.1007/s11270-012-1188-3
166839|A||Phibbs,J., C.I.E. Wiramanaden, D. Hauck, I.J. Pickering, K. Liber, and D.M. Janz|Selenium Uptake and Speciation in Wild and Caged Fish Downstream of a Metal Mining and Milling Discharge|Ecotoxicol. Environ. Saf.74(5): 1139-1150|2011|10.1016/j.ecoenv.2011.02.020
166840|A||Orun,I., B. Ates, Z. Selamoglu, H. Yazlak, E. Ozturk, and I. Yilmaz|Effects of Various Sodium Selenite Concentrations on Some Biochemical and Hematological Parameters of Rainbow Trout (Oncorhynchus mykiss)|Fresenius Environ. Bull.14(1): 18-22|2005|
166841|A||Papathanasiou,G., K.N. White, R. Walton, and S. Boult|Toxicity of Aluminium in Natural Waters Controlled by Type Rather than Quantity of Natural Organic Matter|Sci. Total Environ.409(24): 5277-5283|2011|10.1016/j.scitotenv.2011.08.064
166842|A||Phibbs,J., E. Franz, D. Hauck, M. Gallego, J.J. Tse, I.J. Pickering, K. Liber, and D.M. Janz|Evaluating the Trophic Transfer of Selenium in Aquatic Ecosystems Using Caged Fish, X-Ray Absorption Spectroscopy and Stable Isotope Analysis|Ecotoxicol. Environ. Saf.74(7): 1855-1863|2011|10.1016/j.ecoenv.2011.06.015
166843|T||Chandi,A., D.L. Jordan, A.C. York, S.R. Milla-Lewis, J.D. Burton, A.S. Culpepper, and J.R. Whitaker|Interference and Control of Glyphosate-Resistant and -Susceptible Palmer Amaranth (Amaranthus palmeri) Populations Under Greenhouse Conditions|Weed Sci.61(2): 259-266|2012|10.1614/WS-D-12-00063.1
166844|T||Alarcon,A.L., M. Canovas, R. Senn, and R. Correia|The Safety of Thiamethoxam to Pollinating Bumble Bees (Bombus terrestris L.) when Applied to Tomato Plants Through Drip Irrigation|Commun. Agric. Appl. Biol. Sci.70(4): 569-579|2005|
166845|T||Sondhia,S.|Harvest Time Residues of Pendimethalin in Tomato, Cauliflower, and Radish Under Field Conditions|Toxicol. Environ. Chem.95(2): 254-259|2013|10.1080/02772248.2013.765620
166847|A||Roopadevi,H., R.K. Somashekar, and B.R. Balagangadhar|Effects of pH on Copper Accumulation and Toxicity in the Common Carp, Cyprinus carpio|J. Environ. Sci. Eng.53(3): 335-340|2011|
166848|T||Robinson,A.P., V.M. Davis, D.M. Simpson, and W.G. Johnson|Response of Soybean Yield Components to 2,4-D|Weed Sci.61(1): 68-76|2013|10.1614/WS-D-12-00077.1
166849|T||Chandi,A., A.C. York, D.L. Jordan, and J.B. Beam|Resistance to Acetolactate Synthase and Acetyl Co-A Carboxylase Inhibitors in North Carolina Italian Ryegrass (Lolium perenne)|Weed Technol.25(4): 659-666|2011|10.1614/WT-D-11-00050.1
166850|T||O'Leary,B., G.M. Preston, and L.J. Sweetlove|Increased beta-Cyanoalanine Nitrilase Activity Improves Cyanide Tolerance and Assimilation in Arabidopsis|Mol. Plant7(1): 231-243|2014|10.1093/mp/sst110
166851|A||Appelberg,M.|Changes in Haemolymph Ion Concentrations of Astacus astacus L. and Pacifastacus leniusclus (Dana) After Exposure to Low pH and Aluminium|Hydrobiologia (Multiple Languages)121:19-25|1985|10.1007/BF00035225
166852|T||Canam,T., X. Li, J. Holowachuk, M. Yu, J. Xia, R. Mandal, R. Krishnamurthy, S. Bouatra, I. Sinelnikov, B. Yu, L. Grenko|Differential Metabolite Profiles and Salinity Tolerance Between Two Genetically Related Brown-Seeded and Yellow-Seeded Brassica carinata Lines|Plant Sci.198:17-26|2013|10.1016/j.plantsci.2012.09.011
166853|T||Cheshier,J.C., J.D. Madsen, R.M. Wersal, P.D. Gerard, and M.E. Welch|Evaluating the Potential for Differential Susceptibility of Common Reed (Phragmites australis) Haplotypes I and M to Aquatic Herbicides|Invasive Plant Sci. Manag.5:101-105|2012|10.1614/IPSM-D-11-00051.1
166854|T||Ahmad-Hamdani,M.S., Q. Yu, H. Han, G.R. Cawthray, S.F. Wang, and S.B. Powles|Herbicide Resistance Endowed by Enhanced Rates of Herbicide Metabolism in Wild Oat (Avena spp.)|Weed Sci.61(1): 55-62|2013|10.1614/WS-D-12-00078.1
166855|T||Cui,S., T. Zhang, S. Zhao, P. Li, Q. Zhou, Q. Zhang, and Q. Han|Evaluation of Three Ornamental Plants for Phytoremediation of Pb-Contamined Soil|Int. J. Phytoremediat.15(4): 299-306|2013|10.1080/15226514.2012.694502
166856|T||Coyne,M.J.|Efficacy of a Topical Ectoparasiticide Containing Dinotefuran, Pyriproxyfen, and Permethrin Against Amblyomma americanum (Lone Star Tick) and Amblyomma maculatum (Gulf Coast Tick) on Dogs|Vet. Ther.10(1/2): 17-23|2009|
166858|A||ENSR Corporation|Acute Toxicity of Cyanide to the Frog, Rana pipiens, in Horsetooth Reservoir Water Under Flow-Through Test Conditions|Report 8503-124-020-075, ENSR Corporation, Fort Collins, CO:45 p.|2005|
166859|A||ENSR Corporation|Acute Toxicity of Cyanide to the Frog, Rana berlandieri, in Horsetooth Reservoir Water Under Flow-Through Test Conditions|Report 8503-124-020-076, ENSR Corporation, Fort Collins, CO:38 p.|2005|
166860|A||ENSR Corporation|Acute Toxicity of Cyanide to the Frog, Xenopus laevis, in Horsetooth Reservoir Water Under Flow-Through Test Conditions|Report 8503-124-020-074, ENSR Corporation, Fort Collins, CO:50 p.|2005|
166861|A||Northwestern Aquatic Sciences|Yellow Rock Crab (Cancer irroratus) Larval Acute Toxicity Test of Cyanide|Report 677-1, Northwestern Aquatic Sciences, Newport, OR:30 p.|2005|
166862|A||Northwestern Aquatic Sciences|Yellow Rock Crab (Cancer irroratus) Larval Acute Toxicity Test of Cyanide|Report 677-4, Northwestern Aquatic Sciences, Newport, OR:36 p.|2005|
166863|T||Cabello-Conejo,M.I., T. Centofanti, P.S. Kidd, A. Prieto-Fernandez, and R.L. Chaney|Evaluation of Plant Growth Regulators to Increase Nickel Phytoextraction by Alyssum Species|Int. J. Phytoremediat.15(4): 365-375|2013|10.1080/15226514.2012.702806
166864|A||Conley,J.M., D.H. Funk, N.J. Cariello, and D.B. Buchwalter|Food Rationing Affects Dietary Selenium Bioaccumulation and Life Cycle Performance in the Mayfly Centroptilum triangulifer|Ecotoxicology20(8): 1840-1851|2011|10.1007/s10646-011-0722-1
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166870|A||Cuello,S., J. Sanz-Landaluze, Y. Madrid, J. Guinea, and C. Camara|Bioaccumulation and Transformation of Methylmercury and Selenite Using Zebrafish (Danio rerio) Larvae as a Model|Talanta89:169-177|2012|10.1016/j.talanta.2011.12.011
166871|T||Amin,A.A., A.A. Abd El-Kader, M.A.F. Shalaby, F.A.E. Gharib, E.M. Rashad, and J.A.T. Dasilva|Physiological Effects of Salicylic Acid and Thiourea on Growth and Productivity of Maize Plants in Sandy Soil|Commun. Soil Sci. Plant Anal.44(7): 1141-1155|2013|10.1080/00103624.2012.756006
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166885|T||Datkhile,R.V., S.A. Pawar, U.N. Mote, and P.R. Moholkar|Evaluation of Imidacloprid in a Seed Treatment Against Sucking Pests of Cotton|Tests Agrochem. Cultiv.15:6-7|1994|
166887|T||Datta,R., P. Das, S. Smith, P. Punamiya, D.M. Ramanathan, R. Reddy, and D. Sarkar|Phytoremediation Potential of Vetiver Grass (Chrysopogon zizanioides (L.)) for Tetracycline|Int. J. Phytoremediat.15(4): 343-351|2013|10.1080/15226514.2012.702803
166889|T||Childers,W.E.,Jr., L.M. Havran, M. Asselin, J.J. Bicksler, D.C. Chong, G.T. Grosu, Z. Shen, M.A. Abou-Gharbia, A.C. Bac|The Synthesis and Biological Evaluation of Quinolyl-Piperazinyl Piperidines as Potent Serotonin 5-HT1A Antagonists|J. Med. Chem.53(10): 4066-4084|2010|10.1021/jm1000908
166891|T||Ding,Y., W. Wei, W. Wu, R.E. Davis, Y. Jiang, I.M. Lee, R.W. Hammond, L. Shen, J.P. Sheng, and Y. Zhao|Role of Gibberellic Acid in Tomato Defence Against Potato Purple Top Phytoplasma Infection|Ann. Appl. Biol.162(2): 191-199|2013|10.1111/aab.12011
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166899|T||Yamamoto,H.A.|Hyperammonemia, Increased Brain Neutral and Aromatic Amino Acid Levels, and Encephalopathy Induced by Cyanide in Mice|Toxicol. Appl. Pharmacol.99:415-420|1989|10.1016/0041-008X(89)90150-6
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166901|T||Cortina,J., N. Martin, F.T. Maestre, and S. Bautista|Disturbance of the Biological Soil Crusts and Performance of Stipa tenacissima in a Semi-Arid Mediterranean Steppe|Plant Soil334:311-322|2010|10.1007/s11104-010-0384-4
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166904|T||Semple,B., and T. Koen|Effect of Some Selective Herbicide Oversprays on Newly Emerged Eucalypt and Hopbush Seedlings in Central Western New South Wales|Ecol. Manag. Restor.7(1): 45-50|2006|10.1111/j.1442-8903.2006.00247.x
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167015|T||Seymour,M.|Narbon Bean (Vicia narbonensis) Agronomy in South-Western Australia|Aust. J. Exp. Agric.46(10): 1355-1362|2006|10.1071/EA04091
167016|T||Proctor,C.A., and Z.J. Reicher|Efficacy of Preemergence and Postemergence Herbicides for Controlling Common Purslane|Hortscience48(7): 902-905|2013|10.21273/HORTSCI.48.7.902
167017|T||Upstone,M.E., and J.C. Davies|The Effect of Simazine on the Incidence of American Gooseberry Mildew on Black Currants|Plant Pathol.16:68-69|1967|10.1111/j.1365-3059.1967.tb00369.x
167018|T||Cummings,H.D., J.B. Weber, F.H. Yelverton, and R.B. Leidy|Downward Mobility of 14C-Labeled Simazine in a Bermudagrass System vs. a Fallow Soil System|Crop Sci.49(2): 704-713|2009|10.2135/cropsci2008.05.0297
167019|T||Brosnan,J.T., R.K. Nishimoto, and J. DeFrank|Metribuzin-Resistant Goosegrass (Eleusine indica) in Bermudagrass Turf|Weed Technol.22(4): 675-678|2008|10.1614/WT-08-014.1
167020|T||McCullough,P.E., and W. Nutt|Bermudagrass Reseeding Intervals for Rimsulfuron, Simazine, and Sulfosulfuron|Hortscience45(4): 693-695|2010|10.21273/HORTSCI.45.4.693
167021|T||DaSilva,A., C. Garretson, J. Troiano, G. Ritenour, and C. Krauter|Relating Simazine Performance to Irrigation Management|Weed Technol.17(2): 330-337|2003|10.1614/0890-037X(2003)017[0330:RSPTIM]2.0.CO;2
167022|T||Devlin,R.M.|Preliminary Studies of the Influence of Indole-3-Acetic Acid and Gibberellic Acid on the Uptake of Simazine by Agrostis alba L.|Proc. Northeast. Weed Control Conf.:585-588|1967|
167023|T||Dhillon,P.S., W.R. Byrnes, and C. Merritt|Simazine Distribution and Degradation in Red Pine Seedlings|Weed Sci.16(3): 374-376|1968|10.1017/S0043174500047421
167024|T||Ferrell,J.A., T.R. Murphy, and T.M. Webster|Using Preemergence Herbicides to Improve Establishment of Centipedegrass (Eremochloa ophiuroides) from Seed|Weed Technol.20(3): 682-687|2006|10.1614/WT-03-256R4.1
167025|T||Magne,C., G. Saladin, and C. Clement|Transient Effect of the Herbicide Flazasulfuron on Carbohydrate Physiology in Vitis vinifera L.|Chemosphere62(4): 650-657|2006|10.1016/j.chemosphere.2005.04.119
167026|T||Jiang,L.|Simazine Treated Mulch an Integrated Management Tool for Vinifera Grape (Vitis vinifera L.) Production|Ph.D. Thesis, The Ohio State University, Columbus, OH:178 p.|2010|
167027|T||Sheets,T.J.|Uptake and Distribution of Simazine by Oat and Cotton Seedlings|Weeds (Urbana)9(1): 1-13|1961|10.2307/4040379
167028|T||Skroch,W.A., T.J. Sheets, and T.J. Monaco|Weed Populations and Herbicide Residues in Apple Orchards After 5 Years|Weed Sci.23(1): 53-57|1975|10.1017/S0043174500062512
167029|T||Waddington,J.|Chemical Control of Dandelion (Taraxacum officinale) and Perennial Sowthistle (Sonchus arvensis) in Alfalfa (Medicago sativa) Grown for Seed|Weed Sci.28(2): 164-167|1980|10.1017/S004317450005503X
167030|T||Willis,J.B., S.D. Askew, and J.S. McElroy|Improved White Clover Control with Mesotrione by Tank-Mixing Bromoxynil, Carfentrazone, and Simazine|Weed Technol.21(3): 739-743|2007|10.1614/WT-06-091.1
167031|A||Hesse,M.S.|Embryolarval Effects of Selenate (Na2SeO4) and Selenite (Na2SeO3) on the Fathead Minnow, Pimephales promelas|M.S.Thesis, Southeast Missouri State University, Cape Girardeau, MO:55 p.|1998|
167032|A||Krauth,P.H.|The Effect of Selenium on the Toxicity of Methyl Mercury in Medaka Embryos|M.A.Thesis, Indiana State University, Terre Haute, IN:35 p.|1978|
167033|A||Jaramillo,F.,Jr.|Selenium Nutrition of Morone Hybrids Including Dietary Requirements, Bioavailability, Toxicity and Effects on Immune Responses and Disease Resistance|Ph.D. Thesis, Texas A&M University, College Station TX:100 p.|2006|
167034|A||Hamilton,S.J., K.M. Holley, and K.J. Buhl|Hazard Assessment of Selenium to Endangered Razorback Suckers (Xyrauchen texanus)|Sci. Total Environ.291:111-121|2002|10.1016/S0048-9697(01)01080-4
167035|A||Hamilton,S.J., K.J. Buhl, F.A. Bullard, and S.F. McDonald|Evaluation of Toxicity to Larval Razorback Sucker of Selenium-Laden Food Organisms for Ouray NWR on the Green River, Utah|Revised Final Report to Recovery Implementation Program for Endangered Fish Species in the Upper Colorado River Basin, National Biological Service, Yankton, SD:104 p.|1996|
167037|T||Okolie,N.P., I.O. Onoagbe, and F.A. Aisien|A Comparative Study of Effect of Oral Chronic Cyanide Administration on Some Rabbit Tissue ATPases|Comp. Biochem. Physiol. C Pharmacol. Toxicol. Endocrinol.109(2): 215-217|1994|10.1016/0742-8413(94)00027-8
167040|T||Abouziena,H.F.H., S.D. Sharma, and M. Singh|Impact of Adjuvants on Bentazon Efficacy on Selected Broadleaf Weeds|Crop Prot.28:1081-1085|2009|10.1016/j.cropro.2009.06.013
167041|T||Balah,M.A., A. Hanafi, and S.B.A. Ghani|Tank Mixture Additives Approach to Improve Efficiency of Bentazon Against Broadleaf Weeds in Peas|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47:390-396|2012|
167042|T||Banks,M.L., A.C. Kennedy, R.J. Kremer, and F. Eivazi|Soil Microbial Community Response to Surfactants and Herbicides in Two Soils|Appl. Soil Ecol.74:12-20|2014|10.1016/j.apsoil.2013.08.018
167043|T||Brosnan,J.T., G.R. Armel, W.E. Klingeman III, G.K. Breeden, J.J. Vargas, and P.C. Flanagan|Selective Star-of-Bethlehem Control with Sulfentrazone and Mixtures of Mesotrione and Topramezone with Bromoxynil and Bentazon in Cool-Season Turfgrass|HortTechnology20(2): 315-318|2010|10.21273/HORTTECH.20.2.315
167044|T||Da Silva,R.A., E.D. Quintela, G.M. Mascarin, J.A.F. Barrigossi, and L.M. Liao|Compatibility of Conventional Agrochemicals Used in Rice Crops with the Entomopathogenic Fungus Metarhizium anisopliae|Sci. Agric. (Piracicaba, Braz. )70(3): 152-160|2013|10.1590/S0103-90162013000300003
167045|A||Das,P.K., and S.N. Bagchi|Bentazone and Bromoxynil Induce H+ and H2O2 Accumulation, and Inhibit Photosynthetic O2 Evolution in Synechococcous elongatus PCC7942|Pestic. Biochem. Physiol.97:256-261|2010|10.1016/j.pestbp.2010.03.005
167046|A||Das,P.K., and S.N. Bagchi|Role of Bacterioferritin Comigratory Protein and Glutathione Peroxidase-Reductase System in Promoting Bentazone Tolerance in a Mutant of Synechococcus elongatus PCC7942|Protoplasma (Multiple Languages)249:65-74|2012|10.1007/s00709-011-0262-9
167047|T||Frihauf,J.C., P.W. Stahlman, and P.W. Geier|Winter Wheat and Weed Response to Postemergence Saflufenacil Alone and in Mixtures|Weed Technol.24:262-268|2010|10.1614/WT-D-09-00020.1
167048|A||Galhano,V., F. Peixoto, J. Gomes-Laranjo, and E. Fernandez-Valiente|Differential Effects of Bentazon and Molinate on Anabaena cylindrica, an Autochthonous Cyanobacterium of Portuguese Rice Field Agro-Ecosystems|Water Air Soil Pollut.197:211-222|2009|10.1007/s11270-008-9804-y
167049|A||Galhano,V., H. Santos, M.M. Oliveira, J. Gomes-Laranjo, and F. Peixoto|Changes in Fatty Acid Profile and Antioxidant Systems in a Nostoc muscorum Strain Exposed to the Herbicide Bentazon|Process Biochem.46:2152-2162|2011|10.1016/j.procbio.2011.08.015
167050|T||Grichar,W.J., D.L. Jordan, and E.P. Prostko|Weed Control and Peanut (Arachis hypogaea L.) Response to Formulations of Imazapic|Crop Prot.36:31-36|2012|10.1016/j.cropro.2012.01.017
167051|A||Iwakami,S., H. Watanabe, T. Miura, H. Matsumoto, and A. Uchino|Occurrence of Sulfonylurea Resistance in Sagittaria trifolia, a Basal Monocot Species, Based on Target-Site and Non-Target-Site Resistance|Weed Biol. Manag.14:43-49|2014|10.1111/wbm.12031
167052|T||Liu,C., S. Liu, F. Wang, Y. Wang, and K. Liu|Expression of a Rice CYP81A6 Gene Confers Tolerance to Bentazon and Sulfonylurea Herbicides in both Arabidopsis and Tobacco|Plant Cell Tissue Organ Cult.109:419-428|2012|10.1007/s11240-011-0106-5
167053|T||Stewart,C.L., R.E. Nurse, A.S. Hamill, and P.H. Sikkema|Environment and Soil Conditions Influence Pre- and Postemergence Herbicide Efficacy in Soybean|Weed Technol.24:234-243|2010|10.1614/WT-09-009.1
167054|T||O'Farrell,T.P., and J.V. Dilley|A Comparison of Radiation Response, Cyanide Toxicity and Sulfur Transferase Activity in Native North American Rodents|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.50(3): 443-447|1975|10.1016/0305-0491(75)90256-4
167055|T||Okolie,N.P., and A.U. Osagie|Liver and Kidney Lesions and Associated Enzyme Changes Induced in Rabbits by Chronic Cyanide Exposure|Food Chem. Toxicol.37(7): 745-750|1999|10.1016/S0278-6915(99)00059-9
167056|T||Okolie,N.P., and C.U. Iroanya|Some Histologic and Biochemical Evidence for Mitigation of Cyanide-Induced Tissue Lesions by Antioxidant Vitamin Administration in Rabbits|Food Chem. Toxicol.41(4): 463-469|2003|10.1016/S0278-6915(02)00224-7
167057|T||Chandi,A., D.L. Jordan, A.C. York, and B.R. Lassiter|Confirmation and Management of Common Ragweed (Ambrosia artemisiifolia) Resistant to Diclosulam|Weed Technol.26:29-36|2012|10.1614/WT-D-11-00058.1
167058|T||Cutulle,M.A., G.R. Armel, J.T. Brosnan, D.A. Kopsell, W.E. Klingeman, P.C. Flanagan, G.K. Breeden, J.J. Vargas, R. Koep|Evaluation of Container Ornamental Species Tolerance to Three p-Hydroxyphenylpyruvate Dioxygenase-Inhibiting Herbicides|HortTechnology23(3): 319-324|2013|10.21273/HORTTECH.23.3.319
167059|T||El-Mahdi,M.M., and M.M. Lotfi|Teratological Effects of Pesticide (Basagran) on Embryo of Albino Rat|Arch. Exp. Vetmed.42(2): 261-266|1988|
167060|T||Forthoffer,N., C. Helvig, N. Dillon, I. Benveniste, A. Zimmerlin, F. Tardif, and J.P. Salaun|Induction and Inactivation of a Cytochrome P450 Confering Herbicide Resistance in Wheat Seedlings|Eur. J. Drug Metab. Pharmacokinet.26(1/2): 9-16|2001|10.1007/BF03190370
167061|T||Karimmojeni,H., A.G. Pirbaloti, P. Kudsk, V. Kanani, and A. Ghafori|Influence of Postemergence Herbicides on Weed Management in Spring-Sown Linseed|Agron. J.105(3): 821-826|2013|10.2134/agronj2012.0238
167062|T||McCurdy,J.D., J.S. McElroy, and M.L. Flessner|Differential Response of Four Trifolium Species to Common Broadleaf Herbicides: Implications for Mixed Grass-Legume Swards|Weed Technol.27:123-128|2013|10.1614/WT-D-12-00093.1
167063|T||Pantoja,F.R., J.C. Huchim, and L.O. Reyes|Selectivity of Herbicides and Weed Control in the Establishment of Brachiaria brizantha-Leucaena leucocephala Mixtures|Tec. Pec. Mex.47(4): 339-355|2009|
167064|A||Saratovskikh,E.A.|Complexation with ATP as a Cause of Pollutants Toxicity to Aquatic Life|J. Environ. Prot.4(6): 585-594|2013|10.4236/jep.2013.46068
167065|T||Stopps,G.J., R.E. Nurse, and P.H. Sikkema|The Effect of Time of Day on the Activity of Postemergence Soybean Herbicides|Weed Technol.27:690-695|2013|10.1614/WT-D-13-00035.1
167066|T||Vasic,V., B. Konstantinovic, and S. Orlovic|Application of Post-Emergence Herbicides in the Regeneration of Pedunculate Oak (Quercus robur L.) Forests|Forestry87:407-415|2014|10.1093/forestry/cpt060
167067|T||Wang,Q.Z., H.W. Fu, J.Z. Huang, H.J. Zhao, Y.F. Li, B. Zhang, and Q.Y. Shu|Generation and Characterization of Bentazon Susceptible Mutants of Commercial Male Sterile Lines and Evaluation of Their Utility in Hybrid Rice Production|Field Crops Res.137:12-18|2012|10.1016/j.fcr.2012.09.001
167069|T||Bellinder,R.R., M. Arsenovic, D.A. Shah, and B.J. Rauch|Effect of Weed Growth Stage and Adjuvant on the Efficacy of Fomesafen and Bentazon|Weed Sci.51(6): 1016-1021|2003|10.1614/P2002-047
167070|T||Da Silva Coelho,J., C.G. Marques de Souza, A. Luiza de Oliveira, A. Bracht, M.A.F. Costa, and R.M. Peralta|Comparative Removal of Bentazon by Ganoderma lucidum in Liquid and Solid State Cultures|Curr. Microbiol.60(5): 350-355|2010|10.1007/s00284-009-9548-y
167071|T||Da Silva Coelho,J., A. Luiza de Oliveira, C.G. Marques de Souza, A. Bracht, and R.M. Peralta|Effect of the Herbicides Bentazon and Diuron on the Production of Ligninolytic Enzymes by Ganoderma lucidum|Int. Biodeterior. Biodegrad.64(2): 156-161|2010|10.1016/j.ibiod.2009.12.006
167072|A||Galhano,V., F. Peixoto, and J. Gomes-Laranjo|Bentazon Triggers the Promotion of Oxidative Damage in the Portuguese Ricefield Cyanobacterium Anabaena cylindrica:  Response of the Antioxidant System|Environ. Toxicol.25(5): 517-526|2010|10.1002/tox.20597
167073|A||Galhano,V., F. Peixoto, J. Gomes-Laranjo, and E. Fernandez-Valiente|Comparative Toxicity of Bentazon and Molinate on Growth, Photosynthetic Pigments, Photosynthesis, and Respiration of the Portuguese Ricefield Cyanobacterium Nostoc muscorum|Environ. Toxicol.25(2): 147-156|2010|10.1002/tox.20486
167074|T||Little,D.L., R.D. Ilnicki, and M.W. Beale|Postemergence Combinations of Fomesafen with Fluazifop, Bentazon, or Acifluorfen, for Weed Control in Soybeans|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:20-26|1984|
167075|T||Mahoney,M.D., and D. Penner|The Basis for Bentazon Selectivity in Navy Bean, Cocklebur, and Black Nightshade|Weed Sci.23(4): 272-276|1975|10.1017/S0043174500053017
167076|T||McGiffen,M.E.,Jr., and J.B. Masiunas|Postemergence Control of Broadleaf Weeds in Tomato (Lycopersicon esculentum)|Weed Technol.5(4): 739-745|1991|10.1017/S0890037X00033789
167077|T||Wall,D.A., and G.H. Friesen|Effectiveness of Selective Herbicides for the Control of Annual Weed Species in Lathyrus (Lathyrus sativus L.)|Crop Prot.10(6): 496-500|1991|10.1016/S0261-2194(91)80139-7
167078|T||Wehtje,G., J.W. Wilcut, and J.A. McGuire|Influence of Bentazon on the Phytotoxicity of Paraquat to Peanuts (Arachis hypogaea) and Associated Weeds|Weed Sci.40(1): 90-95|1992|10.1017/S0043174500057015
167079|T||Ohta,S., T. Kuniga, F. Nishikawa, A. Yamasaki, T. Endo, T. Iwanami, and T. Yoshioka|Evaluation of Novel Antiviral Agents in the Elimination of Satsuma dwarf virus (SDV) by Semi-Micrografting in Citrus|J. Jpn. Soc. Hortic. Sci.80(2): 145-149|2011|10.2503/jjshs1.80.145
167081|T||De Oliveira Costa Silva,J., E.A.S. Paiva, L.V. Modolo, C.C. Nascentes, and M.G.C. Franca|Removal of Root Apices Enables Study of Direct Toxic Effects of Aluminum on Rice (Oryza sativa L.) Leaf Cells|Environ. Exp. Bot.95:41-49|2013|10.1016/j.envexpbot.2013.08.001
167082|T||Guo,T.R., P.C. Yao, Z.D. Zhang, J.J. Wang, and M. Wang|Involvement of Antioxidative Defense System in Rice Seedlings Exposed to Aluminum Toxicity and Phosphorus Deficiency|Rice Sci.19(3): 207-212|2012|10.1016/S1672-6308(12)60042-0
167083|T||Hackett,C.|Ecological Aspects of the Nutrition of Deschampsia flexuosa (L.) Trin. III. Investigation of Phosphorus Requirement and Response to Aluminium in Water Culture, and a Study of Growth in Soil|J. Ecol.55:831-840|1967|10.2307/2258428
167084|T||Everett,D.J., and S.M. Maddock|HMX:  13 Week Toxicity Study in Mice by Dietary Administration|IRI Report No. 2195, U.S.Army Medical Research and Development Command, Frederick, MD:324 p.|1985|
167085|A||Exley,C., A. Tollervey, G. Gray, S. Roberts, and J.D. Birchall|Silicon, Aluminium and the Biological Availability of Phosphorus in Algae|Proc. R. Soc. Lond. Ser. B Biol. Sci.253:93-99|1993|10.1098/rspb.1993.0086
167086|A||Tyler-Jones,R., R.C. Beattie, and R.J. Aston|The Effects of Acid Water and Aluminium on the Embryonic Development of the Common Frog, Rana temporaria|J. Zool. (Lond.)219:355-372|1989|10.1111/j.1469-7998.1989.tb02585.x
167087|A||Lund,M.A., and E.T. Chester|The Use of Aluminium Sulphate to Control Algal Blooms and Chironomids in Jackadder Lake, Western Australia|Verh. Int. Ver. Theor. Angew. Limnol.24:1129-1133|1991|
167088|AT||Jacob,D.L., J.D. Borchardt, L. Navaratnam, M.L. Otte, and A.N. Bezbaruah|Uptake and Translocation of TI from Nanoparticles in Crops and Wetland Plants|Int. J. Phytoremediat.15(2): 142-153|2013|10.1080/15226514.2012.683209
167090|T||Roque,H.|Selenite Induced Peroxidation due to Alterations in Glutathione Maintenance|M.S. Thesis, St. John's University, Queens, NY:67 p.|1989|
167091|A||Oral,R., and H. Uysal|Toxic Effects of Selenium on Embryonic Development of Sea Urchin Arbacia lixula|Su Urunleri Dergisi (Izmer)13(3/4): 273-283|1996|
167092|T||Perry,D.H., J.S. McElroy, F. Dane, E. Van Santen, and R.H. Walker|Triazine-Resistant Annual Bluegrass (Poa annua) Populations with Ser264 Mutation are Resistant to Amicarbazone|Weed Sci.60(3): 355-359|2012|10.1614/WS-D-11-00200.1
167093|A||Herkovits,J., F.D. Herkovits, and C.S. Perez-Coll|Identification of Aluminum Toxicity and Aluminum-Zinc Interaction in Amphibian Bufo arenarum Embryos|Environ. Sci.5(1): 57-64|1997|
167094|AT||Mitchell,M.A., S.M. Riggs, C.B. Singleton, O. Diaz-Figueroa, and L.K. Hale|Evaluating the Clinical and Cardiopulmonary Effects of Clove Oil and Propofol in Tiger Salamanders (Ambystoma tigrinum)|J. Exotic Pet Med.18(1): 50-56|2009|10.1053/j.jepm.2008.11.001
167095|T||Murugesan,K., and A. Mahadevan|Control of Rhizoctonia bataticola of Groundnut by Trace Elements|Int. J. Trop. Plant Dis.5(1): 43-57|1987|
167096|T||Furedi,E.M., B.S. Levine, D.E. Gordon, V.S. Rac, and P.M. Lish|Determination of the Chronic Mammalian Toxicological Effects of TNT (Twenty-Four Month Chronic Toxicity/Carcinogenicity Study of Trinitrotoluene (TNT) in the Fischer 344 Rat)|IITRI Project No. L6116, U.S. Army Medical Research and Development Command, Chicago, IL:346 p. |1984|
167097|A||Harford,A.J., A.C. Hogan, J.J. Tsang, D.L. Parry, A.P. Negri, M.S. Adams, J.L. Stauber, and R.A. Van Dam|Effects of Alumina Refinery Wastewater and Signature Metal Constituents at the Upper Thermal Tolerance of:  1.  The Tropical Diatom Nitzschia closterium|Mar. Pollut. Bull.2011:466-473|2011|10.1016/j.marpolbul.2011.01.013
167098|T||Everett,D.J., I.R. Johnson, P. Hudson, and M. Jones|HMX:  13-Week Toxicity Study in Rats by Dietary Administration|IRI Report No.2188, U.S. Army Medical Research and Development Command, Chicago, IL:323 p.|1985|
167099|A||Best,E.P.H., S.L. Sprecher, S.L. Larson, and H.L. Fredrickson|Environmental Behavior and Fate of Explosives in Groundwater from the Milan Army Ammunition Plant in Aquatic and Wetland Plants.  Fate of TNT and RDX|Report No. SFIM-AEC-ET-CR-97060, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS:85 p.|1998|
167100|T||Gomes,M.P., M. Carvalho, G.S. Carvalho, T.C.L.L.S.M. Marques, Q.S. Garcia, L.R.G. Guilherme, and A.M. Soares|Phosphorus Improves Arsenic Phytoremediation by Anadenanthera peregrina by Alleviating Induced Oxidative Stress|Int. J. Phytoremediat.15:633-646|2013|10.1080/15226514.2012.723064
167101|T||Lee,C.C., H.V. Ellis III, J.J. Kowalski, J.R. Hodgson, S.W. Hwang, R.D. Short, J.C. Bhandari, J.L. Sanyer, T.W. Reddig,|Mammalian Toxicity of Munitions Compounds.  Phase II:  Effects of Multiple Doses. Part I: Trinitroglycerin|Progress Report No.2, U.S. Army Medical Bioengineering Research and Development Laboratory, Fort Detrick, MD:187 p.|1977|
167102|A||Upreti,N., S. Sharma, S. Sharma, and K.P. Sharma|Toxic Effects of Aluminium and Fluoride on Planktonic Community of the Microcosms|Nat. Environ. Pollut. Technol.12(3): 523-528|2013|
167103|A||Beeby,J.|Water Quality and Survivability of Didymosphenia geminata|M.S. Thesis, Colorado State University, Fort Collins, Co:84 p.|2012|
167104|A||Saunders,C.E.|Effects of Dissolved Organic Matter and Salinity on the Toxicity of Individual and Metal Mixtures of Copper with Zinc and Silver to the Saltwater Rotifer, Brachionus plicatilis|M.S. Thesis, Stephen F. Austin State University, Nacogdoches, TX:189 p.|2012|
167105|A||Oughton,D.H., B. Salbu, H.E. Bjornstad, and J.P. Day|Use of an Aluminium-26 Tracer to Study the Deposition of Aluminium Species on Fish Gills Following Mixing of Limed and Acidic Waters|Analyst (Lond.)117:619-621|1992|10.1039/AN9921700619
167106|A||Bringolf,R.B.|Effects of Environmental Estrogens on Reproductive Biology of the Fathead Minnow|Ph.D. Thesis, Iowa State University, Ames, IA:101 p.|2002|
167107|T||Qualls,W.A., and R.D. Xue|Evaluation of a New Formulation of Adulticide, Duet Against West Nile Virus Vector Mosquitoes|Am. Mosq. Control Assoc. J.26(2): 219-222|2010|10.2987/10-5993.1
167108|A||Jain,S., S. Sharma, A. Rajawat, N. Upreti, S. Sharma, and K.P. Sharma|Acute and Chronic Toxicity of Aluminium Fluoride to Flora and Fauna in a Microcosm|Nat. Environ. Pollut. Technol.11(1): 7-15|2012|
167109|A||Klimek,B., E. Fialkowska, J. Fyda, W. Kocerba-Soroka, A. Pajdak-Stos, and L. Sobczyk|The Toxicity of Aluminium Salts to Lecane inermis Rotifers: Are Chemical and Biological Methods Used to Overcome Activated Sludge Bulking Mutually Exclusive?|Arch. Environ. Prot.39(3): 127-138|2013|10.2478/aep-2013-0024
167110|A||Juganson,K., M. Mortimer, A. Ivask, K. Kasemets, and A. Kahru|Extracellular Conversion of Silver Ions into Silver Nanoparticles by Protozoan Tetrahymena thermophila|Environ. Sci. Proc. Impacts15:244-250|2013|10.1039/C2EM30731F
167111|AT||Kalcikova,G., J. Zagorc-Koncan, P. Znidarsic-Plazl, and A.Z. Gotvajn|Assessment of Environmental Impact of Pyridinium-Based Ionic Liquid|Fresenius Environ. Bull.21(8B): 2320-2325|2012|
167112|T||Kumar,R., P. Kumar, and U.P. Singh|Effect of Foliar Application of Nitrogen, Zinc and Boron on Flowering and Fruiting of Mango (Mangifera indica L.) cv Amrapali|Environ. Ecol.26(4b): 1965-1967|2008|
167113|A||National Association of Photographic Manufacturers|Environmental Effect of Photoprocessing Chemicals Vol I and II (557)|EPA/OTS Doc. #40-8469216:536 p.|1974|
167115|A||Chaturvedi,N., A.K. Srivastav, Abhinav, and S.J. Srivastava|Studies on Acute Toxicity of Malachite Green and Pyceze on Certain Freshwater Fish, Cyprinus carpio, Colisa fasciatus and Heteropneustes fossilis|J. Interacad.16(1): 147-153|2012|
167117|T||Famoso,A.N., R.T. Clark, J.E. Shaff, E. Craft, S.R. McCouch, and L.V. Kochian|Development of a Novel Aluminum Tolerance Phenotyping Platform Used for Comparisons of Cereal Aluminum Tolerance and Investigations into Rice Aluminum Tolerance Mechanisms|Plant Physiol.153:1678-1691|2010|10.1104/pp.110.156794
167118|T||Lin,C., P. Nie, W. Lu, Q. Zhang, J. Li, and Z. Shen|A Selectively Terminable Transgenic Rice Line Expressing Human Lactoferrin|Protein Expr. Purific.74:60-64|2010|10.1016/j.pep.2010.04.015
167119|T||Otto,S., P. Beutel, N. Drescher, and R. Huber|Investigations into the Degradation of Bentazon in Plant and Soil|In: H.Geissbuhler (Ed.), Advances in Pesticide Science, IUPAC Publications, Pergamon Press, Oxford3:551-556|1978|
167120|T||Rusu,T., P. Gus, I. Bogdan, P.I. Moraru, A.I. Pop, M.L. Sopterean, and L.I. Pop|Influence of Infestation with Echinochloa crus-galli Species on Crop Production in Corn|J. Food Agric. Environ.8(2): 760-763|2010|
167121|A||Anderson,R.D.|Reducing Orthophosphates in Retention Ponds and Its Impact on Larval Mosquito Abundance|M.S.Thesis, University of Delaware, Newark, DE:98 p.|2007|
167122|T||Ellis,H.V., J.J. Kowalski, J.R. Hodgson, J.C. Bhandari, J.L. Sanyer, T.W. Reddig, J.L. Minor, and C.C. Lee|Mammalian Toxicity of Munitions Compounds.  Phase II:  Effects of Multiple Doses. Part IV: Nitrocellulose|Progress Report No.5, U.S.Army Medical Research and Development Command, Frederick, MD:103 p.|1976|
167123|T||Ren,R., D.J. Sun, H. Yan, Y.P. Wu, and Y. Zhang|Oral Exposure to the Herbicide Simazine Induces Mouse Spleen Immunotoxicity and Immune Cell Apoptosis|Toxicol. Pathol.41(1): 63-72|2013|10.1177/0192623312452488
167124|A||Plhalova,L., I. Haluzova, S. Macova, P. Dolezelova, E. Praskova, P. Marsalek, M. Skoric, Z. Svobodova, V. Pistekova, an|Effects of Subchronic Exposure to Simazine on Zebrafish (Danio rerio)|Neuroendocrinol. Lett.32(Suppl. 1): 89-94|2011|
167125|A||Velisek,J., A. Stara, J. Machova, P. Dvorak, E. Zuskova, and Z. Svobodova|Effects of Low-Concentrations of Simazine on Early Life Stages of Common Carp (Cyprinus carpio L.)|Neuroendocrinol. Lett.33(3): 90-95|2012|
167126|T||Katayama,H., N. Banba, Y. Sugimura, M. Tatsumi, S.I. Kusakari, H. Oyama, and A. Nakahira|Subcellular Compartmentation of Strontium and Zinc in Mulberry Idioblasts in Relation to Phytoremediation Potential|Environ. Exp. Bot.85:30-35|2013|10.1016/j.envexpbot.2012.06.001
167127|A||Zhuo,H.Q., L. Huang, H.Q. Huang, and Z. Cai|Effects of Chronic Tramadol Exposure on the Zebrafish Brain: A Proteomic Study|J. Proteom.75(11): 3351-3364|2012|10.1016/j.jprot.2012.03.038
167128|T||Leberer,M.R., and S.C. Fowler|Drug Discrimination and Generalization in Pigeons|Pharmacol. Biochem. Behav.7(5): 483-486|1977|10.1016/0091-3057(77)90219-2
167129|T||Cameron,B.D.|HMX: Toxicokinetics of 14C-HMX Following Oral Administration to the Rat and Mouse and Intravenous Administration to the Rat|IRI Report No.2588, U.S.Army Medical Research and Development Command, Frederick, MD:77 p.|1986|
167130|A||Kundman,J.M.|The Effects of Road Salt Runoff (NaCl) on Caddisfly (Hydropsyche betteni) Drift in Mill Run, Meadville, Pennsylvania|Senior Thesis, Allegheny College, Meadville, PA:54 p.|1998|
167131|A||Playle,R.S., and C.M. Wood|Water pH and Aluminum Chemistry in the Gill Micro-Environment of Rainbow Trout During Acid and Aluminum Exposures|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.159:539-550|1989|10.1007/BF00694378
167132|T||Romeh,A.A.|Phytoremediation of Water and Soil Contaminated with Imidacloprid Pesticide by Plantago major, L.|Int. J. Phytoremediat.12(2): 188-199|2010|10.1080/15226510903213936
167133|A||Heydarnejad,M.S., M. Khosravian-Hemami, A. Nematollahi, and S. Rahnama|Effects of Copper at Sublethal Concentrations on Growth and Biochemical Parameters in Rainbow Trout (Oncorhynchus mykiss)|Int. Rev. Hydrobiol.98(2): 71-79|2013|10.1002/iroh.201201443
167134|T||Koo,N., M.S. Kim, S. Hyun, and J.G. Kim|Effects of the Incorporation of Phosphorus and Iron into Arsenic-Spiked Artificial Soils on Root Growth of Lettuce Using Response Surface Methodology|Commun. Soil Sci. Plant Anal.44(7): 1259-1271|2013|10.1080/00103624.2012.756003
167136|A||Garcia-Medina,S., J.A. Nunez-Betancourt, A.L. Garcia-Medina, M. Galar-Martinez, N. Neri-Cruz, H. Islas-Flores, and L.M.|The Relationship of Cytotoxic and Genotoxic Damage with Blood Aluminum Levels and Oxidative Stress Induced by this Metal in Common Carp (Cyprinus carpio) Erythrocytes|Ecotoxicol. Environ. Saf.96:191-197|2013|10.1016/j.ecoenv.2013.06.010
167137|T||Heatherington,P.J., and B.J.G. Bolton|Pest Control and Crop Establishment in Sugar Beet Using an Imidacloprid-Based Seed Treatment|Asp. Appl. Biol.32:65-72|1992|
167139|A||Kurteshi,K., Z. Shaqiri, and K. Letaj|Biomonitoring of Genotoxic Effect of Fungicide Propineb Through Micronucleus|Rad. Poljop. Fakult. Univ. Sarajevu57(62): 57-62|2012|
167140|A||Stuart,R.K.|Copper Stress Response in Marine Synechococcus|Ph.D.Thesis, University of California, San Diego,CA:239 p.|2012|
167141|A||Bernard,D.P.|Impact of Stream Acification on Invertebrates: Drift Response to In Situ Experiments Augmenting Aluminum Ion Concentrations|M.S.Thesis, University of British Columbia, Canada:133 p.|1985|
167142|T||Ellis III,H.V., J.H. Hagenson, J.R. Hodgson, J.L. Minor, C.B. Hong, E.R. Ellis, J.D. Girvin, D.O. Helton, B.L. Herndon,|Mammalian Toxicity of Munitions Compounds. Phase III: Effects of Life-Time Exposure. Part I: 2,4-Dinitrotoluene|Final Report No.7, Prepared for U.S.Army Medical Bioengineering Research. Kansas City, MO:282 p.|1979|
167143|A||Newton,K.M.|The Influence of Dissolved Organic Carbon and Surface Chemistry on the Toxicity of Silver Nanoparticles in Daphnia magna|Ph.D. Thesis, Clemson University, Clemson, SC:51 p.|2012|
167144|T||Reddy,T.V., F.B. Daniel, G.R. Olson, B. Wiechman, J. Torsella, and G. Reddy|Chronic Toxicity Studies on 1,3,5-Trinitrobenzene in Fischer 344 Rats|U.S.EPA, Cincinnati, OH; U.S.Army Medical Research and Material Command, Frederick, MD:806 p.|1996|
167145|A||Pulley,T.E.|The Effect of Aluminum Chloride in Small Concentrations on Various Marine Organisms|Texas J. Sci.2(3): 405-411|1950|
167146|A||Helgesen,K.O., and T.E. Horsberg|Single-Dose Field Bioassay for Sensitivity Testing in Sea Lice, Lepeophtheirus salmonis: Development of a Rapid Diagnostic Tool|J. Fish Dis.36(3): 261-272|2013|10.1111/jfd.12053
167148|T||Bushey,J.T.|Modeling Cyanide Uptake by Willows for Phytoremediation|Ph.D Thesis, Carnegie Mellon University, Pittsburgh, PA:343 p.|2003|
167149|A||Parametrix Inc.|Acute Toxicity of Sodium Cyanide to Marine Copepods (Acartia tonsa)|Report 3555, Parametrix Environmental Research Laboratory, Albany, OR:158 p.|2006|
167150|T||Morin,F.|Vesicular-Arbuscular Mycorrhizal Efficiency on Apple Rootstocks:  Effects of Genotypes and Herbicides|M.S.Thesis, McGill University, Montreal, Canada:87 p.|1994|
167152|T||Dow Chemical Co.|Initial Submission: Acute Dermal Toxicity Studies with Three Sodium Cyanide Solutions in Albino Rabbits (Final Report) with Cover Letter Dated 031892 (Sanitized)|EPA/OTS Doc. #88-920001477S:13 p.|1992|
167153|A||Parametrix Inc.|96-h Acute Toxicity of Cyanide to Gasterosteus aculeatus Under Flow-Through Conditions|Report 3539-15, Parametrix Environmental Research Laboratory, Albany, OR:10 p.|2005|
167154|T||Peng,G., K.L. Bailey, H.L. Hinz, and K.N. Byer|Colletotrichum sp.:  A Potential Candidate for Biocontrol of Scentless Chamomile (Matricaria perforata) in Western Canada|Biocontrol Sci. Technol.15(5): 497-511|2005|10.1080/09583150500086854
167155|T||Vaverkova,S., J. Tekel, and M. Holla|The Effect of Herbicides on the Qualitative Properties of Medicinal Plants. Part 3: Content and Composition of the Essential Oil from Melissa officinalis L. After Application of Basagran|Pharmazie50(12): 835-836|1995|
167156|A||Moore,B.C., D. Christensen, and A.C. Richter|Newman Lake Restoration:  A Case Study.  Part II.  Microfloc Alum Injection|Lake Reserv. Manag.25(4): 351-363|2009|10.1080/07438140903172923
167157|A||Jagoe,C.H., T.A. Haines, and D.R. Buckler|Abnormal Gill Development in Atlantic Salmon (Salmo salar) Fry Exposed to Aluminium at Low pH|Ann. Soc. R. Zool. Belg.117:375-386|1987|
167158|A||Ingersoll,C.G., T.W. LaPoint, H.L. Bergman, and J. Breck|An Early Life Stage Brook Trout (Salvelinus fontinalis) Experiment to Determine the Effects of pH, Calcium, and Aluminum in Low Conductivity Water|Fish Wildl. Res.21:42-48|1985|
167159|T||Mohammadi,M.M., A. Liaghat, and G. Savaghebi|Effect of Saline Water on Cadmium Uptake and Remediability of Soil with Brassica napus|J. Chem. Chem. Eng.4(12): 1-6|2010|
167160|T||Brar,L.S., U.S. Walia, S.P. Mehra, and B.K. Dhaliwal|Effect of Time and Method of Atrazine Application on Weeds and Grain Yield of Maize|J. Res. Punjab Agric. Univ.28(4): 455-458|1991|
167161|T||Tian,Z., X. Shao, Z. Li, X. Qian, and Q. Huang|Synthesis, Insecticidal Activity, and QSAR of Novel Nitromethylene Neonicotinoids with Tetrahydropyridine Fixed cis Configuration and Exo-Ring Ether Modification|J. Agric. Food Chem.55(6): 2288-2292|2007|10.1021/jf063418a
167162|T||Shao,X., H. Fu, X. Xu, X. Xu, Z. Liu, Z. Li, and X. Qian|Divalent and Oxabridged Neonicotinoids Constructed by Dialdehydes and Nitromethylene Analogues of Imidacloprid: Design, Synthesis, Crystal Structure, and Insecticidal Activities|J. Agric. Food Chem.58(5): 2696-2702|2010|10.1021/jf902531y
167163|T||Jose-Marina,L., L. Armengot, L. Chamorro, and F. Xavier Sans|The Conservation of Arable Weeds at Crop Edges of Barley Fields in Northeast Spain|Ann. Appl. Biol.163(1): 47-55|2013|10.1111/aab.12032
167164|T||El-Demerdash,F., Y. Dewer, R.H. ElMazoudy, and A.A. Attia|Kidney Antioxidant Status, Biochemical Parameters and Histopathological Changes Induced by Methomyl in CD-1 Mice|Exp. Toxicol. Pathol.65:897-901|2013|10.1016/j.etp.2013.01.002
167166|A||Kamel,N.H., I.M. Bahgat, and G.A. El Kady|Digestive Enzyme as Benchmark for Insecticide Resistance Development in Culex pipiens Larvae to Chemical and Bacteriologic Insecticides|J. Egypt. Soc. Parasitol.43(1): 245-258|2013|
167167|T||Kay,I.R., and G.A. Herron|Evaluation of Existing and New Insecticides Including Spirotetramat and Pyridalyl to Control Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) on Peppers in Queensland|Aust. J. Entomol.49:175-181|2010|10.1111/j.1440-6055.2010.00751.x
167170|T||Shimshoni,J.A., S. Soback, O. Cuneah, A. Shlosberg, and M. Britzi|New Validated Multiresidue Analysis of Six 4-Hydroxy-Coumarin Anticoagulant Rodenticides in Hen Eggs|J. Vet. Diagn. Invest.25(6): 736-743|2013|10.1177/1040638713501510
167171|T||Broughton,S., and J. Harrison|Evaluation of Monitoring Methods for Thrips and the Effect of Trap Colour and Semiochemicals on Sticky Trap Capture of Thrips (Thysanoptera) and Beneficial Insects (Syrphidae, Hemerobiidae) in Deciduous Fruit Trees in W|Crop Prot.42(0): 156-163|2012|10.1016/j.cropro.2012.05.004
167172|T||Aktar,M.W., D. Sengupta, S. Alam, and A. Chowdhury|Risk Assessment and Chemical Decontamination of an Oxime Carbamate Insecticide (Methomyl) from Eggplant, Solanum melongena L.|Environ. Monit. Assess.168:657-668|2010|10.1007/s10661-009-1141-0
167173|T||Al-Sarar,A., H. Hussein, Y. Abobakr, and A. Bayoumi|Molluscicidal Activity of Methomyl and Cardenolide Extracts from Calotropis procera and Adenium arabicum Against the Land Snail Monacha cantiana|Molecules17(5): 5310-5318|2012|10.3390/molecules17055310
167174|T||Belay,D.K., R.M. Huckaba, A.M. Ramirez, J.C.V. Rodrigues, and J.E. Foster|Insecticidal Control of Bemisia tabaci (Hemiptera: Aleyrodidae) Transmitting Carlavirus on Soybeans and Detection of the Virus in Alternate Hosts|Crop Prot.35(0): 53-57|2012|10.1016/j.cropro.2011.12.020
167175|T||Carrillo,D., J.H. Crane, and J.E. Pena|Potential of Contact Insecticides to Control Xyleborus glabratus (Coleoptera: Curculionidae), a Vector of Laurel Wilt Disease in Avocados|J. Econ. Entomol.106(6): 2286-2295|2013|10.1603/EC13205
167176|T||Latif,M.A., M.M. Rahman, and M.Z. Alam|Efficacy of Nine Insecticides Against Shoot and Fruit Borer, Leucinodes orbonalis Guenee (Lepidoptera: Pyralidae) in Eggplant|J. Pest Sci.83:391-397|2010|10.1007/s10340-010-0309-2
167177|T||El-Fakharany,S.K.M., M.A. Samy, S.A. Ahmed, and M.A. Khattab|Effect of Intercropping of Maize, Bean, Cabbage and Toxicants on the Population Levels of Some Insect Pests and Associated Predators in Sugar Beet Plantations|J. Basic Appl. Zool.65(1): 21-28|2012|10.1016/j.jobaz.2012.02.002
167178|T||Fitzgerald,J., and C. Jay|Chemical Control of the European Tarnished Plant Bug, Lygus rugulipennis, on Strawberry in the UK|Crop Prot.30(9): 1178-1183|2011|10.1016/j.cropro.2011.04.006
167179|T||Juraimi,A.S., M. Begum, M.P. Anwar, E.S. Shari, I. Sahid, and A. Man|Controlling Resistant Limnocharis flava (L.) Buchenau Biotype Through Herbicide Mixture|J. Food Agric. Environ.10(2): 1344-1348|2012|
167180|T||Tubbs,R.S., E.P. Prostko, R.C. Kemerait, T.B. Brenneman, and D.Q. Wann|Influence of Paraquat on Yield and Tomato Spotted Wilt Virus for Georgia-02C and Georgia-03L Peanut|Peanut Sci.37(1): 39-43|2010|10.3146/PS09-006.1
167181|A||Meng,S.L., J.Z. Chen, P. Xu, J.H. Qu, L.M. Fan, C. Song, and L.P. Qiu|Hepatic Antioxidant Enzymes SOD and CAT of Nile Tilapia (Oreochromis niloticus) in Response to Pesticide Methomyl and Recovery Pattern|Bull. Environ. Contam. Toxicol.92(4): 388-392|2014|10.1007/s00128-014-1232-7
167182|A||Meng,S.L., G.D. Hu, L.P. Qiu, C. Song, L.M. Fan, J.Z. Chen, and P. Xu|Effects of Chronic Exposure of Methomyl on the Antioxidant System in Kidney of Nile Tilapia (Oreochromis niloticus) and Recovery Pattern|J. Toxicol. Environ. Health Part A76(15): 937-943|2013|10.1080/15287394.2013.825893
167183|A||Khan,H.A.A., W. Akram, K. Shehzad, and E.A. Shaalan|First Report of Field Evolved Resistance to Agrochemicals in Dengue Mosquito, Aedes albopictus (Diptera: Culicidae), from Pakistan|Parasites Vectors4(146): 11 p.|2011|
167184|A||Mishra,A., and Y. Devi|Histopathological Alterations in the Brain (Optic Tectum) of the Fresh Water Teleost Channa punctatus in Response to Acute and Subchronic Exposure to the Pesticide Chlorpyrifos|Acta Histochem.116(1): 176-181|2014|10.1016/j.acthis.2013.07.001
167185|T||Dias,E., M. Gomes, C. Domingues, E. Ramalheira, S. Morais, and M.L. Pereira|Subacute Effects of the Thiodicarb Pesticide on Target Organs of Male Wistar Rats: Biochemical, Histological, and Flow Cytometry Studies|J. Toxicol. Environ. Health Part A76(9): 533-539|2013|10.1080/15287394.2013.785216
167186|T||Mossa,A.T.H., and M.A. Abbassy|Adverse Haematological and Biochemical Effects of Certain Formulated Insecticides in Male Rats|Res. J. Environ. Toxicol.6(4): 160-168|2012|10.3923/rjet.2012.160.168
167187|T||El-Demerdash,F., A.A. Attia, and R.H. ElMazoudy|Biochemical and Histopathological Changes Induced by Different Time Intervals of Methomyl Treatment in Mice Liver|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.47(12): 1948-1954|2012|
167189|T||Schmidt,L.M., T.E. Hewlett, A. Green, L.J. Simmons, K. Kelley, M. Doroh, and S.R. Stetina|Molecular and Morphological Characterization and Biological Control Capabilities of a Pasteuria ssp. Parasitizing Rotylenchulus reniformis, the Reniform Nematode|J. Nematol.42(3): 207-217|2010|
167190|T||Kumar,N.K.K., and K. Srinivasan|Efficacy of Insecticides on Okra Petiole Maggot, Melanagromyza hibisci Spencer (Agromyzidae, Diptera) and Its Parasite Eurytoma sp.|Pesticides 21(2): 10-11|1987|
167191|T||Mansour,S.A.|Protection of Stored Potatoes from the Larvae of Potato Tuber Moth by Coating Tubers with a Thin Layer of Insecticide|Pesticides 18(9): 40-42|1984|
167192|A||Tien,C.J., M.C. Lin, W.H. Chiu, and C.S. Chen|Biodegradation of Carbamate Pesticides by Natural River Biofilms in Different Seasons and Their Effects on Biofilm Community Structure|Environ. Pollut.179(0): 95-104|2013|10.1016/j.envpol.2013.04.009
167193|T||Hussain,S.I., M.A. Saleem, and S. Freed|Toxicity of Some Insecticides to Control Mango Mealy Bug, Drosicha mangiferae, a Serious Pest of Mango in Pakistan|Pak. J. Zool.44(2): 353-359|2012|
167194|T||Legind,C.N., C.M. Kennedy, A. Rein, N. Snyder, and S. Trapp|Dynamic Plant Uptake Model Applied for Drip Irrigation of an Insecticide to Pepper Fruit Plants|Pest Manag. Sci.67(5): 521-527|2011|10.1002/ps.2087
167195|T||Matsuda,K., and T. Saito|Insecticide Susceptibility and Carboxylesterase Activity in Leafminers (Diptera: Agromyzidae) and Their Associated Hymenopteran Parasitoids|Crop Prot.55(0): 50-54|2014|10.1016/j.cropro.2013.10.011
167196|T||Muthusamy,R., R. Suganya, M. Gowri, and M.S. Shivakumar|Biochemical Mechanisms of Organophosphate and Pyrethroid Resistance in Red Hairy Caterpillar Amsacta albistriga (Lepidoptera: Arctiidae)|J. Saudi Soc. Agric. Sci.12(1): 47-52|2013|10.1016/j.jssas.2012.06.002
167197|T||Nault,B.A., and A.M. Shelton|Impact of Insecticide Efficacy on Developing Action Thresholds for Pest Management: A Case Study of Onion Thrips (Thysanoptera: Thripidae) on Onion|J. Econ. Entomol.103(4): 1315-1326|2010|10.1603/EC10096
167198|T||Olmstead,D.L., and A.M. Shelton|Evaluation of Insecticide Chemistries Against the Leek Moth (Lepidoptera: Acrolepiidae), a New Pest in North America|Fla. Entomol.95(4): 1127-1131|2012|10.1653/024.095.0443
167199|T||Van Timmeren,S., and R. Isaacs|Control of Spotted Wing Drosophila, Drosophila suzukii, by Specific Insecticides and by Conventional and Organic Crop Protection Programs|Crop Prot.54(0): 126-133|2013|10.1016/j.cropro.2013.08.003
167200|T||Wheeler,T.A., K.S. Lawrence, D.O. Porter, W. Keeling, and B.G.,Jr. Mullinix|The Relationship Between Environmental Variables and Response of Cotton to Nematicides|J. Nematol.45(1): 8-16|2013|
167201|A||Payne,J., C. Andrews, J. Guiney, and S. Whiteway|Risks Associated with Drilling Fluids at Petroleum Development Sites in the Offshore:  Evaluation of the Potential for an Aliphatic Hydrocarbon Based Drilling Fluid to Produce Sedimentary Toxicity and for Barite to be A|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2679:33 p.|2006|
167202|A||Bishayee,A., and M. Chatterjee|Increased Lipid Peroxidation in Tissues of the Catfish Clarias batrachus Following Vanadium Treatment:  In Vivo and In Vitro Evaluation|J. Inorg. Biochem.54(4): 277-284|1994|10.1016/0162-0134(94)80033-2
167203|T||Williams,P.L., and D.B. Dusenbery|Screening Test for Neurotoxins Using Caenorhabditis elegans|Prog. Clin. Biol. Res.253:163-170|1987|
167204|A||Bernhardt,R.R., and F.A. Hippel|Chronic Perchlorate Exposure Impairs Stickleback Reproductive Behaviour and Swimming Performance|Behaviour (Leiden, Print)145(4/5): 527-559|2008|
167205|T||Heungens,A., and D. Degheele|Control of the Broad Mite, Polyphagotarsonemus latus (Banks), with Acaricides on Psophocarpus tetragonolobus and Ricinus communis|Parasitica42(1): 3-10|1986|
167206|T||Hirano,M.|Characteristics of Pyrethroids for Insect Pest Control in Agriculture|Pestic. Sci.27(4): 353-360|1989|10.1002/ps.2780270404
167207|T||Kuhn,D.G., R.W. Addor, R.E. Diehl, J.A. Furch, V.M. Kamhi, K.E. Henegar, K.A. Kremer, G.T. Lowen, B.C. Black, T.P. Mill|Insecticidal Pyrroles|ACS Symp. Ser.524:219-232|1993|10.1021/bk-1993-0524.ch015
167208|T||Ma,D.L., G. Gordh, and M.P. Zalucki|Toxicity of Biorational Insecticides to Helicoverpa spp. (Lepidoptera:  Noctuidae) and Predators in Cotton Field|Int. J. Pest Manag.46(3): 237-240|2000|10.1080/096708700415580
167209|T||McLeod,P.|Pyrethroids Tested for Cucurbit Insect Suppression|Ark. Farm Res.35(6): 6-|1986|
167210|T||Pap,L., B. Bertok, I. Bakonyvari, and I. Szekely|Use of New Alkynyl Synergists to Counter Insecticide Resistance|Br. Crop Prot. Conf. Pests Dis.:751-760|1996|
167211|T||Peter,C., and B.V. David|Comparative Toxicities of Some Insecticides to Chilocorus nigritus (F) (Coccinellidae: Coleoptera)|Pesticides 22(1): 23-25|1988|
167212|T||Isakeit,T., and J.L. Lockwood|Abiotic Soil Factors Influencing the Deleterious Effect of Atrazine on Ungerminated Conidia of Cochliobolus sativus|Soil Biol. Biochem.22(1): 35-41|1990|10.1016/0038-0717(90)90057-7
167213|A||Creson,T.K., P.J. Monaco, E.M. Rasch, A.H. Hagardorn, and K.E. Ferslew|Capillary Ion Analysis of Lithium Concentrations in Biological Fluids and Tissues of Poecilia (Teleost)|Electrophoresis19(16/17): 3018-3021|1998|10.1002/elps.1150191637
167214|A||Crouch,N.T.|Investigation of the Effects of Perchlorate on Thyroid and Reproductive System Function in Goldfish|M.S. Thesis, Pennsylvania State University, University Park, PA:40 p.|2003|
167215|A||Holmberg,A., J. Fogel, E. Albertsson, J. Fick, J.N. Brown, N. Paxeus, L. Forlin, J.I. Johnsson, and D.G.J. Larsson|Does Waterborne Citalopram Affect the Aggressive and Sexual Behaviour of Rainbow Trout and Guppy?|J. Hazard. Mater.187(1-3): 596-599|2011|10.1016/j.jhazmat.2011.01.055
167216|A||Yasumasu,I., K. Mitsunaga, and Y. Fujino|Mechanism for Electrosilent Ca2+ Transport to Cause Calcification of Spicules in Sea Urchin Embryos|Exp. Cell Res.159(1): 80-90|1985|10.1016/S0014-4827(85)80039-2
167217|A||Ramakrishnan,L., and C. DeSaer|Carbamazepine Inhibits Distinct Chemoconvulsant-Induced Seizure-Like Activity in Dugesia tigrina|Pharmacol. Biochem. Behav.99(4): 665-670|2011|10.1016/j.pbb.2011.06.003
167218|A||Wang,J., J. Lu, R.A.,Jr. Mook, M. Zhang, S. Zhao, L.S. Barak, J.H. Freedman, H.K. Lyerly, and W. Chen|The Insecticide Synergist Piperonyl Butoxide Inhibits Hedgehog Signaling: Assessing Chemical Risks|Toxicol. Sci.128(2): 517-523|2012|10.1093/toxsci/kfs165
167219|A||Uner,N., P. Piner, and O. Temiz|Piperonyl Butoxide Increases Oxidative Toxicity of Fenthion in the Brain of Oreochromis niloticus|J. Biochem. Mol. Toxicol.28(2): 84-90|2014|10.1002/jbt.21539
167220|A||Valenca-Silva,G., M.G. Braz, R.E. Barreto, D.M.F. Salvadori, and G.L. Volpato|Low Dose of the Anesthetic Propofol does not Induce Genotoxic or Mutagenic Effects in Nile Tilapia|Trans. Am. Fish. Soc.143(2): 414-419|2014|10.1080/00028487.2013.856814
167221|A||Ogunsanya,T., R.M. Durborow, C.D. Webster, J.H. Tidwell, S. Coyle, K. Thompson, H.H. Jarboe, D.L. Straus, C. Wang, and |Toxicity of Rotenone to Giant River Freshwater Prawn Macrobrachium rosenbergii|N. Am. J. Aquacult.73(2): 159-163|2011|10.1080/15222055.2011.568861
167222|A||Kumar,M., M.K. Tripathi, A. Srivastava, J.K. Gour, R.K. Singh, R. Tilak, and R.K. Asthana|Cyanobacteria, Lyngbya aestuarii and Aphanothece bullosa as Antifungal and Antileishmanial Drug Resources|Asian Pac. J. Trop. Biomed.3(6): 458-463|2013|10.1016/S2221-1691(13)60096-9
167223|A||Jeon,J., D. Kurth, R. Ashauer, and J. Hollender|Comparative Toxicokinetics of Organic Micropollutants in Freshwater Crustaceans|Environ. Sci. Technol.47(15): 8809-8817|2013|
167224|A||Groppelli,S., G. Zega, M. Biggiogero, F. De Bernardi, C. Sotgia, and R. Pennati|Fluconazole Induces Teratogenic Effects in the Tunicate Phallusia mammillata|Environ. Toxicol. Pharmacol.23(3): 265-271|2007|10.1016/j.etap.2006.11.005
167225|AT||Leicht,W., R. Fuchs, and M. Londershausen|Stability and Biological Activity of Cyfluthrin Isomers|Pestic. Sci.48(4): 325-332|1996|10.1002/(SICI)1096-9063(199612)48:4<325::AID-PS482>3.0.CO;2-6
167226|A||Minguez,L., E. Farcy, C. Ballandonne, A. Lepailleur, A. Serpentini, J.M. Lebel, R. Bureau, and M.P. Halm-Lemeille|Acute Toxicity of 8 Antidepressants: What are Their Modes of Action?|Chemosphere108(0): 314-319|2014|10.1016/j.chemosphere.2014.01.057
167227|A||Komukai,M., A. Fujiwara, Y. Fujino, and I. Yasumasu|The Effects of Several Ion Channel Blockers and Calmodulin Antagonists on Fertilization-Induced Acid Release and 45Ca2+ Uptake in Sea Urchin Eggs|Exp. Cell Res.159(2): 463-472|1985|10.1016/S0014-4827(85)80019-7
167228|A||Le,T.H., E.S. Lim, S.K. Lee, J.S. Park, Y.H. Kim, and J. Min|Toxicity Evaluation of Verapamil and Tramadol Based on Toxicity Assay and Expression Patterns of Dhb, Vtg, Arnt, CYP4, and CYP314 in Daphnia magna|Environ. Toxicol.26(5): 515-523|2011|10.1002/tox.20665
167229|A||Li,Z., H. Fenet, E. Gomez, and S. Chiron|Transformation of the Antiepileptic Drug Oxcarbazepine upon Different Water Disinfection Processes|Water Res.45(4): 1587-1596|2011|10.1016/j.watres.2010.11.038
167230|A||Lampman,R.L., C.H. Kim, and E.J. Muturi|The Importance of Oxidases in the Tolerance of Deciduous Leaf Infusions by Aedes (Stegomyia) aegypti and Aedes (Stegomyia) albopictus (Diptera: Culicidae)|J. Med. Entomol.51(1): 68-75|2014|10.1603/ME13131
167231|A||Borowitz,J.L., and J.L. McLaughlin|Evidence for Calcium Channels in Brine Shrimp: Diltiazem Protects Shrimp Against Cadmium|Bull. Environ. Contam. Toxicol.48(3): 435-440|1992|10.1007/BF00195644
167232|T||Darriet,F., and F. Chandre|Combining Piperonyl Butoxide and Dinotefuran Restores the Efficacy of Deltamethrin Mosquito Nets Against Resistant Anopheles gambiae (Diptera: Culicidae)|J. Med. Entomol.48(4): 952-955|2011|10.1603/ME11022
167233|A||Olsen,K.H., K. Ask, H. Olsen, I. Porsch-Hallstrom, and S. Hallgren|Effects of the SSRI Citalopram on Behaviours Connected to Stress and Reproduction in Endler Guppy, Poecilia wingei|Aquat. Toxicol.148:113-121|2014|10.1016/j.aquatox.2013.12.032
167234|A||Chen,Z.F., G.G. Ying, Y.X. Jiang, B. Yang, H.J. Lai, Y.S. Liu, C.G. Pan, and F.Q. Peng|Photodegradation of the Azole Fungicide Fluconazole in Aqueous Solution Under UV-254: Kinetics, Mechanistic Investigations and Toxicity Evaluation|Water Res.52(0): 83-91|2014|10.1016/j.watres.2013.12.039
167235|A||Jeon,J., D. Kurth, and J. Hollender|Biotransformation Pathways of Biocides and Pharmaceuticals in Freshwater Crustaceans Based on Structure Elucidation of Metabolites Using High Resolution Mass Spectrometry|Chem. Res. Toxicol.26(3): 313-324|2013|10.1021/tx300457f
167236|A||Lepage,O., I. Molina Vilchez, T.G. Pottinger, and S. Winberg|Time-Course of the Effect of Dietary L-Tryptophan on Plasma Cortisol Levels in Rainbow Trout Oncorhynchus mykiss|J. Exp. Biol.206:3589-3599|2003|10.1242/jeb.00614
167237|T||Clift,A.D., and R.B. Toffolon|Laboratory Screening of Insecticides Against Larvae of the Lawn Armyworm, Spodoptera mauritia (Boisduval) (Lepidoptera:  Noctuidae)|Gen. Appl. Entomol.14:13-14|1982|
167238|T||Riskallah,M.R.|Reduced Sensitivity of Cholinesterase as a Factor of Resistance in Leptophos Selected Strain of the Egyptian Cotton Leafworm|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(2): 181-192|1980|
167239|T||Singh,K.K., O.P. Singh, and A.K. Choudhary|Chemical Control of Major Insect-Pests of Soybean in Madhya Pradesh|J. Insect Sci.11(2): 145-148|1998|
167240|T||Ioannou,N., and N. Iordanou|Suppression of Potato Leaf Roll Virus Spread by Chemical Control of the Aphid Vectors in Locally-Grown Seed Potatoes|Cyprus Agric. Res. Inst. Tech. Bull.97:1-12|1987|
167241|T||Reinert,J.A., and H.M. Donselman|Oleander Aphid Control on Oleander with Insecticides|Hortscience16(2): 205-206|1981|10.21273/HORTSCI.16.2.205
167242|T||Das,S.N., N. Biswas, and M.L. Chatterjee|Bio-Efficacy of Some New Chemicals Against Different Sucking and Boring Insects of Okra|Environ. Ecol.20(2): 397-401|2002|
167243|A||Miranda,L.A., A. Pisano, and V. Casco|Ultrastructural Study on Thyroid Glands of Bufo arenarum Larvae kept in Potassium Perchlorate Solution|Biocell20(2): 147-153|1996|
167244|A||Liu,F.|Evaluation on Combinative Toxicology of Sodium Perchlorate and Sodium Arsenate Using Zebrafish Danio rerio as a Model|Ph.D Thesis, Texas Tech University, Lubbock, TX:227 p.|2006|
167245|A||Bernard,D.P., W.E. Neill, and L. Rowe|Impact of Mild Experimental Acidification on Short Term Invertebrate Drift in a Sensitive British Columbia Stream|Hydrobiologia (Multiple Languages)203:63-72|1990|10.1007/BF00005614
167246|T||Raffa,K.F.|Maintenance of Innate Feeding Preferences by a Polyphagous Insect Despite Ingestion of Applied Deleterious Chemicals|Entomol. Exp. Appl.44(3): 221-227|1987|10.1111/j.1570-7458.1987.tb00548.x
167247|T||Trumble,J.T., I.P. Ting, and L. Bates|Analysis of Physiological, Growth, and Yield Responses of Celery to Liriomyza trifolii|Entomol. Exp. Appl.38(1): 15-21|1985|10.1111/j.1570-7458.1985.tb03492.x
167248|T||Coutts,I.G.C., P.C.A. Bulpitt, P.J. Cummins, G.A. Buckley, and S.D. Mills|Calmodulin Antagonists as Potential Antifungal Agents|Pestic. Sci.51(1): 99-101|1997|10.1002/(SICI)1096-9063(199709)51:1<99::AID-PS610>3.0.CO;2-P
167249|A||Velisek,J., A. Kouba, and A. Stara|Acute Toxicity of Triazine Pesticides to Juvenile Signal Crayfish (Pacifastacus leniusculus)|Neuroendocrinol. Lett.34(2): 31-36|2013|
167250|T||Peter,C., and B.V. David|Residual Toxicity of Some Insecticides to the Larvae of Diaphania indica (Saunders) (Lepidoptera:  Pyralidae)|Mysore J. Agric. Sci.23(2): 172-176|1989|
167251|T||Manisegaran,S., and T. Kumarasamy|Assessment of Contact Toxicity of Insecticides to Chelonus blackburni Cam. (Hymenoptera: Braconidae)|J. Biol. Control2(2): 126-127|1988|
167252|T||Moustafa,O.K., and Z.M. El Attal|Enhancement of the Efficiency of Some Insecticides Against Thrips and Cotton Leafworm by Mineral Oils|J. Agric. Sci.105(1): 63-66|1985|10.1017/S0021859600055714
167253|T||Saha,A.K., and B.K. De|Efficacy of Different Insecticides in the Control of Chilli Leaf Curl Virus Disease|Environ. Ecol.19(3): 544-546|2001|
167254|A||Pereira,J.L., C.D. Mendes, and F. Goncalves|Acute and Chronic Effects of a Mixture of Formulated Pesticides and Its Corresponding Active Ingredients in Daphnia magna|Fresenius Environ. Bull.18(7b): 1281-1288|2009|
167255|T||Assal,O.M., H.S.A. Radwan, and M.E. Samy|Egg Hatch Inhibition in the Cotton Leafworm with Certain IGRs and Synthetic Pyrethroids|Z. Angew. Entomol. (Multiple Languages)95(3): 259-263|1983|10.1111/j.1439-0418.1983.tb02641.x
167256|T||Du Plessis,H., and J. Van den Berg|Laboratory Assay to Determine Efficacy of Insecticides for Control of the Spotted Maize Beetle, Astylus atromaculatus Blanchard (Coleoptera:  Melyridae), a Pest of Sorghum|S. Afr. J. Plant Soil18(3): 136-138|2001|10.1080/02571862.2001.10634418
167257|T||Jalaluddin,M., and M. Mohanasundaram|Control of the Coconut Scale Aspidiotus destructor Sign. in the Nursery|Entomon14(3/4): 203-206|1989|
167258|T||Krishnaiah,K., and N.J. Mohan|Control of Cabbage Pests by New Insecticides|Indian J. Entomol.45(3): 222-228|1983|
167259|T||Mundiwale,S.K., U.B. Men, V.S. Govindwar, and M.N. Borle|Efficacy of Five Insecticides Alone and in Combination with DDT Against Cotton Pests|Indian J. Entomol.45(3): 282-285|1983|
167260|T||Radwan,H.S.A., A.E. El-Sheikh, and A.I. Farag|Comparative Toxicity of Certain Organophosphates and Carbamates Against Tropinota squalida Scop. in Relation to Method of Treatments|Acta Phytopathol. Entomol. Hung.37(1-4): 517-523|1992|
167261|T||Richter,A.R., and J.R. Fuxa|Preference of Five Species of Noctuidae for Feeding-Stimulant Adjuvants|J. Ga. Entomol. Soc.19(3): 383-387|1984|
167262|T||Stride,A.B., and N. Balittro|Evaluation of Insecticides Against Hindola fulva, a Vector of Sumatra Disease of Cloves in Indonesia|Tests Agrochem. Cultiv.12:10-11|1991|
167263|T||Yearian,W.C., and A.J. Mueller|Efficacy of Methomyl in Vegetable Oil or Vegetable Oil: Water on Soybean Insects|Ark. Farm Res.35(1): 7-|1986|
167264|T||Kalushkov,P., and J. Zeleny|Investigation of the Effect of Methomyl and Pirimicarb on Fecundity and Longevity of Propylea quatuordecimpunctata|In:  I.Hodek (Ed.) Ecology of Aphidophaga, Series Entomology, W. Junk Publisher, Boston, MA35:489-492|1986|
167265|T||Kranthi,K.R., D.R. Jadhav, R.R. Wanjari, S.S. Ali, and D. Russell|Carbamate and Organophosphate Resistance in Cotton Pests in India, 1995 to 1999|Bull. Entomol. Res.91(1): 37-46|2001|10.1079/BER200067
167266|T||Renn,N.|The Efficacy of Entomopathogenic Nematodes for Controlling Housefly Infestations of Intensive Pig Units|Med. Vet. Entomol.12(1): 46-51|1998|10.1046/j.1365-2915.1998.00081.x
167267|A||Wilkinson,R.E., and R.R. Duncan|Seashore Paspalum (Paspalum vaginatum swartz) Seminal Root Response to Calcium (45Ca2+) Absorption Modifiers|J. Plant Nutr.17(8): 1385-1392|1994|10.1080/01904169409364813
167268|T||Machuca,J.R., J.E. Araya, P. Arretz-V, and P.I. Larrain|Evaluation of Chemical and Cultural Control for Noctuid Larvae in Chilean Artichokes Produced for Foreign Markets|Crop Prot.9(2): 115-118|1990|10.1016/0261-2194(90)90089-P
167269|T||Palumbo,J.C., and C.,Jr. Mullis|Control in Lettuce, 1990|Insectic. Acaric. Tests16:85-|1991|
167270|T||Palumbo,J.C., and C.H. Mullis|Control of Leafminers on Cantaloupe, 1991|Insectic. Acaric. Tests17:92-93|1992|10.1093/iat/17.1.92
167271|T||Semtner,P.J., and J. Litton|Aphid Control on Burley Tobacco, 1990|Insectic. Acaric. Tests16:236-237|1991|
167272|T||Ahrens,W.H., and W.R. Panaram|Basis for Thifensulfuron-Insecticide Synergism in Soybeans (Glycine max) and Corn (Zea mays)|Weed Sci.45(5): 648-653|1997|
167273|T||Desaeger,J.A., M. Rivera, R. Leighty, and H. Portillo|Effect of Methomyl and Oxamyl Soil Applications on Early Control of Nematodes and Insects|Pest Manag. Sci.67(5): 507-513|2011|10.1002/ps.2058
167274|T||Palumbo,J.C.|Evaluation of Selective Insecticides for Control of Lepidopterous Larvae in Lettuce|Arthropod Manag. Tests22:136-|1997|10.1093/amt/22.1.136
167275|A||Martins-Sousa,R.L., D. Negrao-Correa, F.S.M. Bezerra, and P.M.Z. Coelho|Anesthesia of Biomphalaria spp. (Mollusca, Gastropoda): Sodium Pentobarbital is the Drug of Choice|Mem. Inst. Oswaldo Cruz96(3): 391-392|2001|10.1590/S0074-02762001000300019
167276|T||Pereira,J.L., S.C. Antunes, A.C. Ferreira, F. Goncalves, and R. Pereira|Avoidance Behavior of Earthworms Under Exposure to Pesticides: Is It Always Chemosensorial?|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes45(3): 229-232|2010|
167277|T||Shalaby,M.A., H.Y. El Zorba, and R.M. Ziada|Reproductive Toxicity of Methomyl Insecticide in Male Rats and Protective Effect of Folic Acid|Food Chem. Toxicol.48(11): 3221-3226|2010|10.1016/j.fct.2010.08.027
167279|AT||Moghaddam,K.M., M. Arfan, J. Rafique, S. Rezaee, P.J. Fesharaki, A.R. Gohari, and A.R. Shahverdi|The Antifungal Activity of Sarcococca saligna Ethanol Extract and Its Combination Effect with Fluconazole Against Different Resistant Aspergillus Species|Appl. Biochem. Biotechnol.162(1): 127-133|2010|10.1007/s12010-009-8737-2
167280|T||Speese III,J.|Foliar Sprays to Control Insects in Wheat, 1995|Arthropod Manag. Tests21:318-|1996|10.1093/amt/21.1.318
167281|T||Studebaker,G.|Control of Plant Bugs on Cotton, 1995|Arthropod Manag. Tests22:269-|1997|
167282|T||Trumble,J.T.|Vegetable Insect Control with Minimal Use of Insecticides|Hortscience25(2): 159-164|1990|10.21273/HORTSCI.25.2.159
167283|A||Lett,B.T., and V.L. Grant|The Hedonic Effects of Amphetamine and Pentobarbital in Goldfish|Pharmacol. Biochem. Behav.32(1): 355-356|1989|10.1016/0091-3057(89)90254-2
167284|T||Zenner,I., A. Alvarez, and S. Barreto|Influence of Parasitism by Chelonus insularis Cresson (Hymenoptera: Braconidae) on the Susceptibility of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) to Insecticides|Neotrop. Entomol. (Multiple Languages)35(6): 818-822|2006|10.1590/S1519-566X2006000600015
167285|T||Zasada,I.A., T.W. Walters, and J.N. Pinkerton|Post-Plant Nematicides for the Control of Root Lesion Nematode in Red Raspberry|HortTechnology20(5): 856-862|2010|10.21273/HORTTECH.20.5.856
167286|A||Galli,A., R. Del Chiaro, R. Nieri, and G. Bronzetti|Studies on Cytochrome P450 in Mytilus galloprovincialis : Induction by Na-Phenobarbital and Ability to Biotransform Xenobiotics|Mar. Biol.100(1): 69-73|1988|10.1007/BF00392956
167287|A||Dixon,D.R., I.M. Jones, and F.L. Harrison|Cytogenetic Evidence of Inducible Processes Linked with Metabolism of a Xenobiotic Chemical in Adult and Larval Mytilus edulis|Sci. Total Environ.46(0): 1-8|1985|10.1016/0048-9697(85)90278-5
167288|T||Gil,D.L., H.A. Rose, R.S.H. Yang, R.G. Young, and C.F. Wilkinson|Enzyme Induction by Phenobarbital in the Madagascar Cockroach, Gromphadorhina portentosa|Comp. Biochem. Physiol. B Comp. Biochem.47(3): 657-662|2011|10.1016/0305-0491(74)90013-3
167289|A||Fryer,J.N., and D.M. Ogilvie|Temperature Selection Response of Atlantic Salmon, Salmo salar, and Rainbow Trout, Salmo gairdneri, After Exposure to Pentobarbital|Comp. Gen. Pharmacol.5(2): 111-116|1974|10.1016/S0306-3623(74)80015-7
167290|A||Correa,S.A.L., and A. Hoffmann|Effect of Drugs that Alter Alertness and Emotionality on the Novelty Response of a Weak Electric Fish, Gymnotus carapo|Physiol. Behav.65(4/5): 863-869|1998|10.1016/S0031-9384(98)00242-X
167291|T||Sorensen,K.A., and K.A. Kidd|Lepidopterous Larva Control on Cabbage, 1991|Arthropod Manag. Tests17:88-|1992|
167292|T||Sengonca,C., and B. Liu|Effect of GCSC-BtA Biocide on Population Dynamics of Cabbage Pests and Their Natural Enemies from Fields in Southeastern China|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)75(2): 46-50|2002|10.1046/j.1439-0280.2002.02014.x
167293|A||Bainy,A.C.D., A. Kubota, J.V. Goldstone, R. Lille-Langoy, S.I. Karchner, M.C. Celander, M.E. Hahn, A. Goksoyr, and J.J.|Functional Characterization of a Full Length Pregnane X Receptor, Expression In Vivo, and Identification of PXR Alleles, in Zebrafish (Danio rerio)|Aquat. Toxicol.142/143(0): 447-457|2013|10.1016/j.aquatox.2013.09.014
167294|T||Semtner,P.J., M.B. Reed, and W.B. Wilkinson III|Tobacco Insect Control on Dark-Fired Tobacco, 1991|Arthropod Manag. Tests17:300-|1992|
167295|T||Sechser,B., S. Ayoub, and N. Monuir|Selectivity of Emamectin Benzoate to Predators of Sucking Pests on Cotton|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)110(2): 184-194|2003|
167296|T||Horsburgh,R.L., S.W. Kilmer, and K.E. Cook|Apple, Laboratory Evaluation of Penncap M for Control of Larvae of RBLR, 1991|Insectic. Acaric. Tests17:9-|1992|10.1093/iat/17.1.9
167297|T||Horne,J., and P. Bailey|Bruchus pisorum L. (Coleoptera, Bruchidae) Control by a Knockdown Pyrethroid in Field Peas|Crop Prot.10(1): 53-56|1991|10.1016/0261-2194(91)90026-N
167298|T||Charles,J.G., E. Collyer, and V. White|Integrated Control of Tetranychus urticae with Phytoseilus persimilis and Stethorus bifidus in Commercial Raspberry Gardens|N. Z. J. Exp. Agric.13(4): 385-394|1985|10.1080/03015521.1985.10426107
167299|T||Carson,W.G., A. Jones, and J.T. Trumble|Impact of Insecticides on Lepidopterous Larvae and Leafminers on Tomatoes, 1990|Insectic. Acaric. Tests16:111-112|1991|10.1093/iat/16.1.111a
167300|A||Cakir,Y., and S.M. Strauch|Tricaine (MS-222) is a Safe Anesthetic Compound Compared to Benzocaine and Pentobarbital to Induce Anesthesia in Leopard Frogs (Rana pipiens)|Pharmacol. Rep.57(4): 467-474|2005|
167301|T||Bull,D.L., and R.J. Coleman|Effects of Pesticides on Trichogramma spp.|Southwest. Entomol.Suppl.8:156-168|1985|
167302|T||Bull,D.L., and V.S. House|Effects of Different Insecticides on Parasitism of Host Eggs by Trichogramma pretiosum Riley|Southwest. Entomol.8(1): 46-53|1983|
167303|A||Walker,M.D.|Physiologic and Pharmacologic Aspects of Barbiturates in Elasmobranchs|Comp. Biochem. Physiol. A Physiol.42(1): 213-221|1972|10.1016/0300-9629(72)90380-5
167304|T||Bailey,J.B., and K.N. Olsen|Chemical Control of Amorbia, an Insect Pest of Avocado and Citrus|Calif. Agric.44(6): 10-11|1990|10.3733/ca.v044n06p10
167305|T||Moyal,P., N. El-Hefnawy, G. Fediere, M.F. El-Metwally, J. Giannotti, and S. Abol-Ela|Biocontrol of the Maize Borer Sesamia cretica Led. (Lepidoptera:  Noctuidae) in Egypt Using a Granulovirus|Int. J. Pest Manag.48(1): 49-57|2002|10.1080/09670870110087385
167306|T||Armstrong,A.M.|Field Evaluations of Pigeon Pea Genotypes for Resistance Against Pod Borers|J. Agric. Univ. P. R.75(1): 73-80|1991|10.46429/jaupr.v75i1.3551
167307|T||Denholm,I., K.J. Gorman, G.D. Moores, and A.L. Devonshire|Biochemical Assays for Insecticide Resistance: Strengths and Limitations|Br. Crop Prot. Conf. Pests Dis.:1175-1180|1990|
167308|A||Sharma,P.D., H.H. Nollens, J.A. Keogh, and P.K. Probert|Sodium Pentobarbitone-Induced Relaxation in the Abalone Haliotis iris (Gastropoda): Effects of Animal Size and Exposure Time|Aquaculture1-4:589-599|2003|10.1016/S0044-8486(02)00195-3
167309|A||Pruvot,B., Y. Quiroz, A. Voncken, N. Jeanray, A. Piot, J.A. Martial, and M. Muller|A Panel of Biological Tests Reveals Developmental Effects of Pharmaceutical Pollutants on Late Stage Zebrafish Embryos|Reprod. Toxicol.34(4): 568-583|2012|10.1016/j.reprotox.2012.07.010
167310|A||Mussulini,B.H.M., C.E. Leite, K.C. Zenki, L. Moro, S. Baggio, E.P. Rico, D.B. Rosemberg, R.D. Dias, T.M. Souza, M.E. Ca|Seizures Induced by Pentylenetetrazole in the Adult Zebrafish: A Detailed Behavioral Characterization|PLoS One8(1): 9 p.|2013|10.1371/journal.pone.0054515
167311|A||Mattsson,A., E. Ulleras, J. Patring, and A. Oskarsson|Albendazole Causes Stage-Dependent Developmental Toxicity and is Deactivated by a Mammalian Metabolization System in a Modified Zebrafish Embryotoxicity Test|Reprod. Toxicol.34(1): 31-42|2012|10.1016/j.reprotox.2012.02.007
167312|A||Lopez-Patino,M.A., L. Yu, H. Cabral, and I.V. Zhdanova|Anxiogenic Effects of Cocaine Withdrawal in Zebrafish|Physiol. Behav.93(1/2): 160-171|2008|10.1016/j.physbeh.2007.08.013
167313|A||Ladouceur,M.F.|Biodegradation of the Organophosphorus Insecticide Fenitrothion by the Alga Chlamydomonas reinhardtii: The Role of Cytochrome P450 Monooxygenase|M.S.Thesis, University of Ottawa, Canada:185 p.|1992|
167314|A||Flores,F., C.J. Collier, P. Mercurio, and A.P. Negri|Phytotoxicity of Four Photosystem II Herbicides to Tropical Seagrasses|PLoS One8(9): 12 p.|2013|10.1371/journal.pone.0075798
167315|A||Wang,Q., J. Yang, C. Li, B. Xiao, and X. Que|Influence of Initial Pesticide Concentrations in Water on Chlorpyrifos Toxicity and Removal by Iris pseudacorus|Water Sci. Technol.67(9): 1908-1915|2013|10.2166/wst.2013.071
167316|A||Zhang,Y., J. Song, H. Yuan, Y. Xu, Z. He, and L. Duan|Biomarker Responses in the Bivalve (Chlamys farreri) to Exposure of the Environmentally Relevant Concentrations of Lead, Mercury, Copper|Environ. Toxicol. Pharmacol.30(1): 19-25|2010|10.1016/j.etap.2010.03.008
167317|T||Wang,S.P., X.X. Hu, Q.W. Meng, S.A. Muhammad, R.R. Chen, F. Li, and G.Q. Li|The Involvement of Several Enzymes in Methanol Detoxification in Drosophila melanogaster Adults|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.166(1): 7-14|2013|10.1016/j.cbpb.2013.05.008
167318|T||Pau,D., D. Belelli, H. Callachan, D.R. Peden, J.I. Dunlop, J.A. Peters, X. Guitart, B. Gutierrez, and J.J. Lambert|GABAA Receptor Modulation by the Novel Intravenous General Anaesthetic E-6375|Neuropharmacology45(8): 1029-1040|2003|10.1016/S0028-3908(03)00299-5
167320|T||Katayama,R.W., C.H. Cobb, J.G. Burleigh, and W.R. Robinson|Susceptibility of Adult Microplitis croceipes (Hymenoptera: Braconidae) to Insecticides Used for Heliothis spp. (Lepidoptera: Noctuidae) Control|Fla. Entomol.70(4): 530-532|1987|10.2307/3494799
167321|T||Mulcahy,D.M., P. Tuomi, and R.S. Larsen|Differential Mortality of Male Spectacled Eiders (Somateria fischeri ) and King Eiders (Somateria spectabilis ) Subsequent to Anesthesia with Propofol, Bupivacaine, and Ketoprofen|J. Avian Med. Surg.17(3): 117-123|2003|10.1647/2001-024
167322|A||Alaimo,J.|The Transfer, Bioaccumulation, and Toxicity of Selenium in a Widgeongrass (Ruppia maritima)-to-Midge Larvae (Chironomus decorus) Food Chain|M.S.Thesis, University of California, Davis, CA:71 p.|1991|
167323|T||Meyers,S.L., K.M. Jennings, D.W. Monks, D.L. Jordan, and J.R. Ballington|Effect of PRE and POST Herbicides on Carolina Redroot (Lachnanthes caroliniana) Growth|Weed Technol.27:747-751|2013|10.1614/WT-D-13-00029.1
167324|T||Meyers,S.L., K.M. Jennings, D.W. Monks, J.R. Ballington, and D.L. Jordan|POST Control of Carolina Redroot (Lachnanthes caroliniana)|Weed Technol.27:534-537|2013|10.1614/WT-D-12-00164.1
167326|T||Haywood,J.D.|Effects of Herbaceous and Woody Plant Control on Longleaf Pine Growth and Understory Plant Cover|South. J. Appl. For.37(2): 108-112|2013|10.5849/sjaf.11-045
167327|T||Liu,M., A.G. Hulting, and C.A. Mallory-Smith|Characterization of Multiple-Herbicide-Resistant Italian Ryegrass (Lolium perenne spp. multiflorum)|Pest Manag. Sci.70:1145-1150|2014|10.1002/ps.3665
167328|A||Wolfenberger,V.A.|Oxygen Consumption of the Hermit Crab Clibanarius vittatus (Decapoda:  Anomura) and Selected Tissues as Influenced by Salinity, Temperature, Collection Site and Selenium|Ph.D. Thesis, Texas A&M University, College Station TX:60 p.|1981|
167329|A||Xi,L., Z. Tian, X. Hongyu, and L. Peng|Microcalorimetric Study of Tetrahymena Growth Affected by Copper(II) Complexes|Biol. Trace Elem. Res.137(1): 117-124|2010|10.1007/s12011-009-8558-8
167330|A||Siekierska,E., J. Kalus, M. Nowak, R. Klimaszewska-Guzik, and H. Pospieszalowska|The Influence of Cadmium and Selenium on the Process of Oogenesis in Leech Herpobdella octooculata L.|Zool. Pol.38(1-4): 71-84|1993|
167331|A||Ossana,N.A., P.M. Castane, G.L. Poletta, M.D. Mudry, and A. Salibian|Toxicity of Waterborne Copper in Premetamorphic Tadpoles of Lithobates catesbeianus (Shaw, 1802)|Bull. Environ. Contam. Toxicol.84(6): 712-715|2010|10.1007/s00128-010-0014-0
167332|T||White,I.N.H., A.R. Mattocks, and W.H. Butler|The Conversion of the Pyrrolizidine Alkaloid Retrorsine to Pyrrolic Derivatives In Vivo and In Vitro and Its Acute Toxicity to Various Animal Species|Chem.-Biol. Interact.6(4): 207-218|1973|10.1016/0009-2797(73)90048-3
167333|T||Shanmugaraj,B.M., H.M. Chandra, B. Srinivasan, and S. Ramalingam|Cadmium Induced Physio-Biochemical and Molecular Response in Brassica juncea|Int. J. Phytoremediat.15(3): 206-218|2013|10.1080/15226514.2012.687020
167334|A||Lee,J.W.|Effects of Dietary Methylmercury and Selenomethionine on Juvenile Green (Acipenser medirostris) and White Sturgeon (A. transmontanus): Growth Performance, Tissue Burden, and Histopathology|Ph.D. Thesis, University of California, Davis:107 p.|2011|
167335|T||Lazzeri,L., G. Curto, E. Dallavalle, L. D'Avino, L. Malaguti, R. Santi, and G. Patalano|Nematicidal Efficacy of Biofumigation by Defatted Brassicaceae Meal for Control of Meloidogyne incognita (Kofoid et White) Chitw. on a Full Field Zucchini Crop|J. Sustain. Agric.33:349-358|2009|10.1080/10440040902773202
167336|T||Abo-Elyousr,K.A., Z. Khan, M.E.M. Award, and M.F. Abedel-Moneim|Evaluation of Plant Extracts and Pseudomonas spp. for Control of Root-Knot Nematode, Meloidogyne incognita on Tomato|Nematropica40:289-299|2010|
167337|T||Charlton,B.A., R.E. Ingham, N.L. David, N.M. Wade, and N. McKinley|Effects of In-Furrow and Water-Run Oxamyl on Paratrichodorus allius and Corky Ringspot Disease of Potato in the Klamath Basin|J. Nematol.42(1): 1-7|2010|
167338|A||Park,J.W.|Toxicological Effects and Kinetics of Perchlorate on Fishes|M.S. Thesis, Texas Tech University, Lubbock, TX:102 p.|2003|
167339|T||Danquah,W.B., M.A. Back, I.G. Grove, and P.P.J. Haydock|In Vitro Nematicidal Activity of a Garlic Extract and Salicylaldehyde on the Potato Cyst Nematode, Globodera pallida|Nematology13(7): 869-885|2011|10.1163/138855411X560959
167340|T||Danquah,W.B., I.G. Grove, M.A. Back, and P.P.J. Haydock|Effects of a Plant Extract-Based Nematicide (G8014S) and Its Components on the Host Finding Behaviour and Multiplication of Globodera pallida on Glasshouse-Grown Potatoes|Nematology15:821-834|2013|10.1163/15685411-00002721
167341|T||Deliopoulos,T., S.T. Minnis, P.W. Jones, and P.P.J. Haydock|Enhancement of the Efficacy of a Carbamate Nematicide Against the Potato Cyst Nematode, Globodera pallida, Through Mycorrhization in Commercial Potato Fields|J. Nematol.42(1): 22-32|2010|
167343|T||El-Sherif,A.G., and A.F.A. Ismail|Integrated Management of Meloidogyne incognita Infecting Soybean by Certain Organic Amendments, Bacillus thuringiensis, Trichoderma harzianum and Oxamyl with Reference to NPK and Total Chlorophyll Statuus|Plant Pathol. J.8(4): 159-164|2009|10.3923/ppj.2009.159.164
167344|T||Fabiyi,O.A., G.A. Olatunji, and A.A. Omoyele|Nematicidal and Quantitative Phytochemical Analysis of the Chromatographic Fractions from the Leaf and Stem of Allamanda cathartica (L)|Ethiop. J. Environ. Stud. Manag.7(3): 253-257|2014|10.4314/ejesm.v7i3.4
167345|T||Giannakou,I.O.|Efficacy of a Formulated Product Containing Quillaja saponaria Plant Extracts for the Control of Root-Knot Nematodes|Eur. J. Plant Pathol.130:587-596|2011|10.1007/s10658-011-9780-8
167347|T||Habash,S., and L. Al-Banna|Phosphonate Fertilizers Suppressed Root Knot Nematodes Meloidogyne javanica and M. incognita|J. Nematol.43(2): 95-100|2011|
167348|T||King,B.A., and J.P.,Jr. Taberna|Site-Specific Management of Meloidogyne chitwoodi in Idaho Potatoes Using 1,3-Dichloropropene; Approach, Experiences, and Economics|J. Nematol.45(3): 202-213|2013|
167349|T||Lopez-Perez,J.A., S. Edwards, and A. Ploeg|Control of Root-Knot Nematodes on Tomato in Stone Wool Substrate with Biological Nematicides|J. Nematol.43(2): 110-117|2011|
167350|T||McClure,M.A., and M.E. Schmitt|A Method for Screening Candidate Nematicides Against the Pacific Shoot-Gall Nematode, Anguina pacificae|Nematropica42:146-152|2012|
167351|T||Mervat,A.A., S.M. Shawky, and G.S. Shaker|Comparative Efficacy of Some Bioagents, Plant Oil and Plant Aqueous Extracts in Controlling Meloidogyne incognita on Growth and Yield of Grapevines|Ann. Agric. Sci.57(1): 7-18|2012|10.1016/j.aoas.2012.03.009
167352|T||Metin,M., and B. Burun|Effects of the High Doses of Urginea maritima (L.) Baker Extract on Chromosomes|Caryologia (Multiple Languages)63(4): 367-375|2010|10.1080/00087114.2010.10589748
167353|T||Oka,Y., S. Shuker, and N. Tkachi|Systemic Nematicidal Activity of Fluensulfone Against the Root-Knot Nematode Meloidogyne incognita on Pepper|Pest Manag. Sci.68:268-275|2012|10.1002/ps.2256
167354|T||Qureshi,J.A., and P.A. Stansly|Dormant Season Foliar Sprays of Broad-Spectrum Insecticides: An Effective Component of Integrated Management for Diaphorina citri (Hemiptera: Psyllidae) in Citrus Orchards|Crop Prot.29:860-866|2010|10.1016/j.cropro.2010.04.013
167355|T||Radwan,M.A., S.A.A. Farrag, M.M. Abu-Elamayem, and N.S. Ahmed|Biological Control of the Root-Knot Nematode, Meloidogyne incognita on Tomato Using Bioproducts of Microbial Origin|Appl. Soil Ecol.56:58-62|2012|10.1016/j.apsoil.2012.02.008
167356|T||Radwan,M.A., S.A.A. Farrag, M.M. Abu-Elamayem, and N.S. Ahmed|Extraction, Characterization, and Nematicidal Activity of Chitin and Chitosan Derived from Shrimp Shell Wastes|Biol. Fertil. Soils48:463-468|2012|10.1007/s00374-011-0632-7
167357|T||Reddy,C.S., A. Srinivas, and A. Nagaraj|Synthesis, Nematicidal and Antimicrobial Properties of bis-(4-Methoxy-3-(3-(4-Fluorophenyl)-6-(4-Methylphenyl)-2(aryl)-Tetrahydro-2H-Pyrazolo(3,4-d)Thiazol-5-yl) Phenyl) Methanes|Chem. Pharm. Bull.57(7): 685-693|2009|10.1248/cpb.57.685
167358|A||Ren,Z., L. Liu, R. Fu, and M. Miao|The Stepwise Behavioral Responses: Behavioral Adjustment of the Chinese Rare Minnow (Gobiocypris rarus) in the Exposure of Carbamate Pesticides|BioMed Res. Int.:9 p.|2013|
167361|T||Walters,T.W., J.N. Pinkerton, E. Riga, I.A. Zasada, M. Particka, H.A. Yoshida, and C. Ishida|Managing Plant-Parasitic Nematodes in Established Red Raspberry Fields|HortTechnology19(4): 762-768|2009|10.21273/HORTTECH.19.4.762
167363|T||Wimer,A.F.|Resistance Evaluation and Management of Colorado Potato Beetle, Leptinotarsa decemlineata (Say), Using Novel Chemistries|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:135 p.|2013|
167364|A||McIntyre,J.K.|Linking Sublethal Copper Neurotoxicity to Population Survival in Coho Salmon (Oncorhynchus kisutch)|Ph.D. Thesis, University of Washington, Seattle, WA:163 p.|2010|
167365|A||Kim,J.H.|Protective Action of Selenium Against Mercury in Northern Creek Chubs|M.S. Thesis, University of South Dakota, Vermillion, SD:23 p.|1976|
167366|A||Hotchkiss,J.A.|Effects of Cadmium and Selenium Pretreatment on the Toxicity of Cadmium to Selected Developmental Stages of the Japanese Medaka (Oryzias latipes)|M.A. Thesis, University of South Dakota, Vermillion, SD:38 p.|1980|
167368|A||Jensen,P.D.|Ecological Impact of Selenium and Mercury on Two Insect Food Chains|Ph.D Thesis, University of California, Riverside, CA:139 p.|2006|
167369|A||Linville,R.G.|Effects of Excess Selenium on the Health and Reproduction of White Sturgeon (Acipenser transmontanus):  Implications for San Francisco Bay-Delta|Ph.D. Thesis, University of California, Davis:232 p.|2006|
167370|T||Valles,S.M.|Biochemical Mechanisms Responsible for Stage-Dependent Propoxur Tolerance in the German Cockroach|Ph.D Thesis, University of Florida, Gainesville, FL:127 p.|1995|
167371|A||Zahner,H.M.|Recovery of Fathead Minnows (Pimephales promelas) Following Episodic Copper Exposure:  A Biochemical, Physiological, Individual, and Population Perspective|Ph.D. Thesis, Clemson University, Clemson, SC:246 p.|2009|
167373|T||Quesada,R.J., C. Aitken-Palmer, K. Conley, and D.J. Heard|Accidental Submeningeal Injection of Propofol in Gopher Tortoises (Gopherus polyphemus)|Vet. Rec.167(13): 494-495|2010|10.1136/vr.c4746
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167375|A||Wold,L.A., B.C. Moore, and N. Dasgupta|Life-History Responses of Daphnia pulex with Exposure to Aluminum Sulfate|Lake Reserv. Manag.21(4): 383-390|2005|10.1080/07438140509354443
167376|T||Xia,J., N. Yamaji, T. Kasai, and J.F. Ma|Plasma Membrane-Localized Transporter for Aluminum in Rice|Proc. Natl. Acad. Sci. U.S.A.107(43): 18381-18385|2010|10.1073/pnas.1004949107
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167380|T||Uthman,A., M. Dockal, J. Soltz-Szots, and E. Tschachler|Fluconazole Upregulates sconC Expression and Inhibits Sulphur Metabolism in Microsporum canis|Fungal Genet. Biol.42(8): 719-725|2005|10.1016/j.fgb.2005.04.005
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167382|T||Vincent,D.R., A.F. Moldenke, D.E. Farnsworth, and L.C. Terriere|Cytochrome P-450 in Insects 6. Age Dependency and Phenobarbital Induction of Cytochrome P-450, P-450 Reductase and Monooxygenase Activities in Susceptible and Resistant Strains of Musca domestica|Pestic. Biochem. Physiol.23(2): 171-181|1985|10.1016/0048-3575(85)90004-5
167384|A||Rwehumbiza,V.M., R. Harrison, and L. Thomsen|Alum-Induced Flocculation of Preconcentrated Nannochloropsis salina: Residual Aluminium in the Biomass, FAMEs and Its Effects on Microalgae Growth upon Media Recycling|Chem. Eng. J.200-202:168-175|2012|10.1016/j.cej.2012.06.008
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167389|T||Soppelsa,O., R. Giacometti, G. D'Errico, and M. D'Alessio|Effectiveness of Soil Solarization Combined with a Plant-Derived Formulation for the Control of the Root-Knot Nematode Meloidogyne incognita (Kofoid et White) Chitw. in Greenhouse Tomato|Redia94:163-166|2011|
167390|A||Osgood,R.A.|Controlling Wolffia Using Alum in a Pond|Lake Reserv. Manag.28(1): 27-30|2012|10.1080/07438141.2011.642932
167391|T||Saman,S., S. Moradhaseli, A. Shokouhian, and M. Ghorbani|Histopathological Effects of ZnO Nanoparticles on Liver and Heart Tissues in Wistar Rats|Adv. Biores.4(2): 83-88|2013|
167392|T||Onuaguluchi,G., and I.N.A. Igbo|Comparative Local Anaesthetic and Antiarrhythmic Actions of Levamisole Hydrochloride and Lignocaine Hydrochloride|Arch. Int. Pharmacodyn. Ther.289(2): 278-289|1987|
167393|T||Ottea,J.A., and F.W.,Jr. Plapp|Induction of Glutathione S-Aryl Transferase by Phenobarbital in the House Fly|Pestic. Biochem. Physiol.15(1): 10-13|1981|10.1016/0048-3575(81)90029-8
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167398|T||Nunez-Vergara,L.J., J.A. Squella, S. Bollo-Dragnic, A. Morello, Y. Repetto, J. Aldunate, and M.E. Letelier|Nitro Aryl 1,4-Dihydropyridine Derivatives:  Effects on Trypanosoma cruzi|Comp. Biochem. Physiol. C Pharmacol. Toxicol. Endocrinol.118(1): 105-111|1997|10.1016/S0742-8413(97)00078-9
167399|T||Mohseni-Moghadam,M., J. Schroeder, R. Heerema, and J. Ashigh|Resistance to Glyphosate in Palmer Amaranth (Amaranthus palmeri) Populations from New Mexico Pecan Orchards|Weed Technol.27:85-91|2013|10.1614/WT-D-11-00144.1
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167401|T||Mocko,J.B., A. Kern, B. Moosmann, C. Behl, and P. Hajieva|Phenothiazines Interfere with Dopaminergic Neurodegeneration in Caenorhabditis elegans Models of Parkinson's Disease|Neurobiol. Dis.40(1): 120-129|2010|10.1016/j.nbd.2010.03.019
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167403|T||Kharbouche,H., M. Augsburger, D. Cherix, F. Sporkert, C. Giroud, C. Wyss, C. Champod, and P. Mangin|Codeine Accumulation and Elimination in Larvae, Pupae, and Imago of the Blowfly Lucilia sericata and Effects on Its Development|Int. J. Leg. Med.122(3): 205-211|2008|10.1007/s00414-007-0217-z
167404|A||Villavicencio,G., P. Urrestarazu, J. Arbildua, and P.H. Rodriguez|Application of an Acute Biotic Ligand Model to Predict Chronic Copper Toxicity to Daphnia magna in Natural Waters of Chile and Reconstituted Synthetic Waters|Environ. Toxicol. Chem.30(10): 2319-2325|2011|10.1002/etc.629
167405|T||Zimmering,S.|Evidence for the Absence of a Mutagenic Effect of Methadone in Germ Cells of Drosophila melanogaster|Mutat. Res.66(2): 133-134|1979|10.1016/0165-1218(79)90057-0
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167455|T||Brevault,T., Y. Oumarou, J. Achaleke, M. Vaissayre, and S. Nibouche|Initial Activity and Persistence of Insecticides for the Control of Bollworms (Lepidoptera: Noctuidae) in Cotton Crops|Crop Prot.28(5): 401-406|2009|10.1016/j.cropro.2008.12.006
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167462|T||Hayaoka,T., and W.C. Dauterman|Induction of Glutathione S-Transferase by Phenobarbital and Pesticides in Various House Fly Strains and Its Effect on Toxicity|Pestic. Biochem. Physiol.17(2): 113-119|1982|10.1016/0048-3575(82)90015-3
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167464|T||Kotze,A.C.|Induced Insecticide Tolerance in Larvae of Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae) Following Dietary Phenobarbital Treatment|J. Aust. Entomol. Soc.34(3): 205-209|1995|10.1111/j.1440-6055.1995.tb01319.x
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167467|T||De la Rosa,G., M.L. Lopez-Moreno, J. Hernandez-Viezcas, M.O. Montes, J.R. Peralta-Videa, and J.L. Gardea-Torresdey|Toxicity and Biotransformation of ZnO Nanoparticles in the Desert Plants Prosopis juliflora-velutina, Salsola tragus and Parkinsonia florida|Int. J. Nanotechnol.8(6/7): 492-506|2011|10.1504/IJNT.2011.040190
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167473|T||Bao,W.X., Y. Narai, A. Nakano, T. Kaneda, T. Murai, and S. Sonoda|Spinosad Resistance of Melon Thrips, Thrips palmi, is Conferred by G275E Mutation in alpha6 Subunit of Nicotinic Acetylcholine Receptor and Cytochrome P450 Detoxification|Pestic. Biochem. Physiol.112:51-55|2014|10.1016/j.pestbp.2014.04.013
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167478|T||Abbassy,M.A., S.A.M. Abdelgaleil, and R.Y.A. Rabie|Insecticidal and Synergistic Effects of Majorana hortensis Essential Oil and Some of Its Major Constituents|Entomol. Exp. Appl.131(3): 225-232|2009|10.1111/j.1570-7458.2009.00854.x
167479|T||D'Errico,G., R. Giacometti, O. Soppelsa, and D. Marco|Effectiveness of Plant-Derived Formulations Against the Root-Knot Nematode Meloidogyne incognita (Kofoid et White) Chitw. in a Protected Tomato Crop|Redia94:167-169|2011|
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167481|T||Enloe,S.F., and A.R. Kniss|Does a Diflufenzopyr Plus Dicamba Premix Synergize Russian Knapweed (Acroptilon repens) Control with Auxinic Herbicides?|Invasive Plant Sci. Manag.2(4): 318-323|2009|10.1614/IPSM-08-143.1
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167484|T||Abd-Elraof,T.K., and W.C. Dauterman|The Effect of Phenobarbital on Mercapturic Acid Biosynthesis in the House Fly Musca domestica|Insect Biochem.11(6): 649-651|1981|10.1016/0020-1790(81)90054-8
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167487|T||Gagnon,D.C.|Neem Products for the Control of the European Corn Borer, Ostrinia nubilalis, in Sweet Corn|M.S.Thesis, University of Ottawa, Canada:258 p.|1992|
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167489|T||Stump,A.D., S.E. Jablonski, L. Bouton, and J.A. Wilder|Distribution and Mechanism of alpha-Amanitin Tolerance in Mycophagous Drosophila (Diptera: Drosophilidae)|Environ. Entomol.40(6): 1604-1612|2011|10.1603/EN11136
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167511|T||Arthur,A.L., S.A. McColl, and P.A. Umina|Synthetic Pesticides Show Little Efficacy Against Balaustium medicagoense (Prostigmata: Erythraeidae) in the Field Compared with Other Pest Mites|Aust. J. Entomol.52:259-267|2013|10.1111/aen.12031
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167522|T||Lym,R.G., and K.J. Deibert|Diflufenzopyr Influences Leafy Spurge (Euphorbia esula) and Canada Thistle (Cirsium arvense) Control by Herbicides|Weed Technol.19:329-341|2005|10.1614/WT-04-115R1
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167525|T||Shahnazariaval,S., J. Karimi, S. Aghajanzade, G. Hasanshahi, A.S. Gojan, and H. Abbasipour|The Toxicity and Synergistic Effects of Alkyl-Succinate Oil on the First Nymphal Instars of the Citrus Cottony Scale, Pulvinaria aurantii Cock. (Hem.: Coccidae)|Arch. Phytopathol. Plant Prot.46(17): 2062-2069|2013|10.1080/03235408.2013.783983
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167527|T||Enloe,S.F., and A.R. Kniss|Influence of Diflufenzopyr Addition to Picolinic Acid Herbicides for Russian Knapweed (Acroptilon repens) Control|Weed Technol.23:450-454|2009|10.1614/WT-08-184.1
167528|T||Enloe,S.F., R.G. Lym, R. Wilson, P. Westra, S. Nissen, G. Beck, M. Moechnig, V. Peterson, R.A. Masters, and M. Halstved|Canada Thistle (Cirsium arvense) Control with Aminopyralid in Range, Pasture, and Noncrop Areas|Weed Technol.21:890-894|2007|10.1614/WT-07-004.1
167529|T||Ansari,M.A., and T.M. Butt|Influence of the Application Methods and Doses on the Susceptibility of Black Vine Weevil Larvae Otiorhynchus sulcatus to Metarhizium anisopliae in Field-Grown Strawberries|Biocontrol58:257-267|2013|10.1007/s10526-012-9491-x
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167532|T||Bunting,J.A., C.L. Sprague, and D.E. Riechers|Incorporating Foramsulfuron into Annual Weed Control Systems for Corn|Weed Technol.19:160-167|2005|10.1614/WT-04-063R1
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167538|T||Matocha,M.E., P.A. Baumann, and M.A. Matocha|Western Ragweed (Ambrosia psilostachya) Control and Bermudagrass Response to Diflufenzopyr Tank-Mix Combinations|Weed Technol.27:757-761|2013|10.1614/WT-D-13-00053.1
167539|T||Besler,B.A., W.J. Grichar, S.A. Senseman, R.G. Lemon, and T.A. Baughman|Effects of Row Pattern Configurations and Reduced (1/2x) and Full Rates (1x) of Imazapic and Diclosulam for Control of Yellow Nutsedge (Cyperus esculentus) in Peanut|Weed Technol.22(3): 558-562|2008|10.1614/WT-08-030.1
167540|T||Pirgozliev,S.R., R.V. Ray, S.G. Edwards, M.C. Hare, and P. Jenkinson|Effect of Timing of Fungicide Application on the Development of Fusarium Head Blight and the Accumulation of Deoxynivalenol (DON) in Winter Wheat Grain|Cereal Res. Commun.36(2): 289-299|2008|10.1556/CRC.36.2008.2.9
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167542|T||Shoup,D.E., and K. Al-Khatib|Control of Protoporphyrinogen Oxidase Inhibitor-Resistant Common Waterhemp (Amaranthus rudis) in Corn and Soybean|Weed Technol.18(2): 332-340|2004|10.1614/WT-03-079R1
167543|T||Nordby,J.N., M.M. Williams, J.K. Pataky, D.E. Riechers, and J.D. Lutz|A Common Genetic Basis in Sweet Corn Inbred Cr1 for Cross Sensitivity to Multiple Cytochrome P450-Metabolized Herbicides|Weed Sci.56(3): 376-382|2008|10.1614/WS-07-145.1
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167582|T||Baba,N.A., R. Raina, P.K. Verma, M. Sultana, S. Prawez, and N.A. Nisar|Toxic Effects of Fluoride and Chlorpyrifos on Antioxidant Parameters in Rats: Protective Effects of Vitamins C and E|Fluoride46(2): 73-79|2013|
167583|A||Zhang,X., H. Tong, S. Bi, Q. Pang, X. Song, and B. Zhao|Effects of Chlorpyrifos on Acute Toxicity, Mobility and Regeneration of Planarian Dugesia japonica|Fresenius Environ. Bull.22(9): 2610-2615|2013|
167584|T||Chen,C., Y. Wang, X. Zhao, Q. Wang, and Y. Qian|Comparative and Combined Acute Toxicity of Butachlor, Imidacloprid and Chlorpyrifos on Earthworm, Eisenia fetida|Chemosphere100:111-115|2014|10.1016/j.chemosphere.2013.12.023
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167647|T||Bednarska,A.J., and J. Kaszowska|Combined Effect of Nickel and Chlorpyrifos on the Ground Beetle Pterostichus oblongopunctatus|Ecotoxicol. Environ. Saf.108(0): 242-248|2014|10.1016/j.ecoenv.2014.07.017
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167649|T||Khan,M.R., Z. Haque, and N. Kausar|Management of the Root-Knot Nematode Meloidogyne graminicola Infesting Rice in the Nursery and Crop Field by Integrating Seed Primingand Soil Application Treatments of Pesticides|Crop Prot.63(0): 15-25|2014|10.1016/j.cropro.2014.04.024
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167651|T||Ma,B., and W. Uddin|Fitness and Competitive Ability of Azoxystrobin-Resistant G143A Mutant of Magnaporthe oryzae from Perennial Ryegrass|Plant Dis.93(10): 1044-1049|2009|10.1094/PDIS-93-10-1044
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167660|T||Nong,X., Y.J. Tan, J.H. Wang, Y. Xie, C.L. Fang, L. Chen, T.F. Liu, D.Y. Yang, X.B. Gu, X.R. Peng, S.X. Wang, and G.Y. |Evaluation Acaricidal Efficacy of Botanical Extract from Eupatorium adenophorum Against the Hard Tick Haemaphysalis longicornis (Acari: Ixodidae)|Exp. Parasitol.135:558-563|2013|10.1016/j.exppara.2013.09.001
167661|T||Pozidi-Metaxa,E., and C.G. Athanassiou|Comparison of Spinosad with Three Traditional Grain Protectants Against Prostephanus truncatus (Horn) and Ephestia kuehniella (Zeller) at Different Temperatures|J. Pest Sci.86:203-210|2013|10.1007/s10340-012-0445-y
167662|T||Quesada-Moraga,E., M. Yousef, A. Ortiz, M. Ruiz-Torres, I. Garrido-Jurado, and A. Estevez|Beauveria bassiana (Ascomycota: Hypocreales) Wound Dressing for the Control of Euzophera pinguis (Lepidoptera: Pyralidae)|J. Econ. Entomol.106(4): 1602-1607|2013|10.1603/EC13203
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167665|T||Sanchez-Hernandez,J.C., S.M. Morcillo, J.N. Del Pino, and P. Ruiz|Earthworm Activity Increases Pesticide-Sensitive Esterases in Soil|Soil Biol. Biochem.75:186-196|2014|10.1016/j.soilbio.2014.04.015
167666|A||Majmudar,K.|The Effects of Cobalt on Cardiovascular and Ventilatory Mechanisms in Channel Catfish, Ictalurus punctatus|M.S. Thesis, University of Texas, Arlington, TX:71 p.|2004|
167669|A||Ingersoll,C.G.|The Effects of pH, Aluminum, and Calcium on Survival and Growth of Brook Trout (Salvelinus fontinalis) Early Life Stages|Ph.D Thesis, University of Wyoming, Laramie, WY:138 p.|1986|
167670|A||Gillespie,R.B.|Elevated Selenium Levels in Bluegills and Their Effect on Reproduction|Ph.D. Thesis, The Ohio State University, Columbus, OH:111 p.|1985|
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167672|T||Chen,X., M. Song, S. Qi, and C. Wang|Safety Evaluation of Eleven Insecticides to Trichogramma nubilale (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.106(1): 136-141|2013|10.1093/jee/106.1.136
167673|A||Chen,C., Y. Wang, X. Zhao, Q. Wang, and Y. Qian|The Combined Toxicity Assessment of Carp (Cyprinus carpio) Acetylcholinesterase Activity by Binary Mixtures of Chlorpyrifos and Four Other Insecticides|Ecotoxicology23:221-228|2014|10.1007/s10646-013-1165-7
167674|T||Chen,X.P., W.F. Chen, and D.W. Wang|Prenatal Organophosphates Exposure Alternates the Cleavage Plane Orientation of Apical Neural Progenitor in Developing Neocortex|PLoS One9(4): 5 p.|2014|
167675|A||Chen,D., Z. Zhang, H. Yao, Y. Cao, H. Xing, and S. Xu|Pro- and Anti-Inflammatory Cytokine Expression in Immune Organs of the Common Carp Exposed to Atrazine and Chlorpyrifos|Pestic. Biochem. Physiol.114(0): 8-15|2014|10.1016/j.pestbp.2014.07.011
167677|T||Dahlgren,L.A.P.|Mechanisms of Differential Toxicity Between Honey Bee (Apis mellifera L.) Castes wth an Emphasis on Coumaphos|Ph.D. Thesis, University of Nebraska, Lincoln, NE:93 p.|2014|
167678|T||Di Prisco,G., V. Cavaliere, D. Annoscia, P. Varricchio, E. Caprio, F. Nazzi, G. Gargiulo, and F. Pennacchio|Neonicotinoid Clothianidin Adversely Affects Insect Immunity and Promotes Replication of a Viral Pathogen in Honey Bees|Proc. Natl. Acad. Sci. U.S.A.110:18466-18471|2013|10.1073/pnas.1314923110
167679|A||Janssens,L., K.D. Van, and R. Stoks|Extreme Temperatures in the Adult Stage Shape Delayed Effects of Larval Pesticide Stress: A Comparison Between Latitudes|Aquat. Toxicol.148:74-82|2014|10.1016/j.aquatox.2014.01.002
167680|A||Janssens,L., and R. Stoks|Exposure to a Widespread Non-Pathogenic Bacterium Magnifies Sublethal Pesticide Effects in the Damselfly Enallagma cyathigerum:  From the Suborganismal Level to Fitness-Related Traits|Environ. Pollut.177:143-149|2013|10.1016/j.envpol.2013.02.016
167681|A||Hua,J., D.K. Jones, and R.A. Relyea|Induced Tolerance from a Sublethal Insecticide Leads to Cross-Tolerance to Other Insecticides|Environ. Sci. Technol.48(7): 4078-4085|2014|10.1021/es500278f
167682|A||Hua,J., and R. Relyea|Chemical Cocktails in Aquatic Systems: Pesticide Effects on the Response and Recovery of > 20 Animal Taxa|Environ. Pollut.189:18-26|2014|10.1016/j.envpol.2014.02.007
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167684|A||Forsgren,K.L., N. Riar, and D. Schlenk|The Effects of the Pyrethroid Insecticide, Bifenthrin, on Steroid Hormone Levels and Gonadal Development of Steelhead (Oncorhynchus mykiss) Under Hypersaline Conditions|Gen. Comp. Endocrinol.186:101-107|2013|10.1016/j.ygcen.2013.02.047
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167687|A||Selderslaghs,I.W.T., J. Hooyberghs, R. Blust, and H.E. Witters|Assessment of the Developmental Neurotoxicity of Compounds by Measuring Locomotor Activity in Zebrafish Embryos and Larvae|Neurotoxicol. Teratol.37:44-56|2013|10.1016/j.ntt.2013.01.003
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167692|T||Slotkin,T.A., J. Card, and F.J. Seidler|Prenatal Dexamethasone, as Used in Preterm Labor, Worsens the Impact of Postnatal Chlorpyrifos Exposure on Serotonergic Pathways|Brain Res. Bull.100:44-54|2014|10.1016/j.brainresbull.2013.10.014
167693|A||Srivastava,P.K., V.P. Singh, and S.M. Prasad|Low and High Doses of UV-B Differentially Modulate Chlorpyrifos-Induced Alterations in Nitrogen Metabolism of Cyanobacteria|Ecotoxicol. Environ. Saf.107(0): 291-299|2014|10.1016/j.ecoenv.2014.06.008
167694|T||Swiergosz-Kowalewska,R., P. Molenda, and A. Halota|Effects of Chemical and Thermal Stress on Acetylcholinesterase Activity in the Brain of the Bank Vole, Myodes glareolus|Ecotoxicol. Environ. Saf.106:204-212|2014|10.1016/j.ecoenv.2014.04.021
167695|T||Tiwari,S., N. Killiny, and L.L. Stelinski|Dynamic Insecticide Susceptibility Changes in Florida Populations of Diaphorina citri (Hemiptera: Psyllidae)|J. Econ. Entomol.106(1): 393-399|2013|10.1603/EC12281
167696|T||Tiwari,S., N. Killiny, R.S. Mann, E.J. Wenninger, and L.L. Stelinski|Abdominal Color of the Asian Citrus Psyllid, Diaphorina citri, is Associated with Susceptibility to Various Insecticides|Pest Manag. Sci.69:535-541|2013|10.1002/ps.3407
167697|A||Vera-Candioti,J., S. Soloneski, and M.L. Larramendy|Single-Cell Gel Electrophoresis Assay in the Ten Spotted Live-Bearer Fish, Cnesterodon decemmaculatus (Jenyns, 1842), as Bioassay for Agrochemical-Induced Genotoxicity|Ecotoxicol. Environ. Saf.98:368-373|2013|10.1016/j.ecoenv.2013.08.011
167698|T||Vernon,R.S., W.G. Van Herk, M. Clodius, and C. Harding|Further Studies on Wireworm Management in Canada: Damage Protection Versus Wireworm Mortality in Potatoes|J. Econ. Entomol.106(2): 786-799|2013|10.1603/EC12180
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167709|T||Zhu,W., D.R. Schmehl, C.A. Mullin, and J.L. Frazier|Four Common Pesticides, Their Mixtures and a Formulation Solvent in the Hive Environment have High Oral Toxicity to Honey Bee Larvae|PLoS One9(1): 11 p.|2014|
167710|A||Gupta,A., H.S. Singh, and R.C. Gupta|Biochemical Alterations Induced by Lindane and Chlorpyrifos Pesticides in Fresh Water Cat Fish Clarias batrachus (Bloch)|J. Exp. Zool. India14(1): 149-152|2011|
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167716|T||Vazquez-Gomez,G., A. Sanchez-Santos, J. Vazquez-Medrano, R. Quintanar-Zuniga, A.C. Monsalvo-Reyes, E. Piedra-Ibarra, I.|Sulforaphane Modulates the Expression of CYP6a2 and CYP6g1 in Larvae of the ST and HB Crosses of the Drosophila Wing Spot Test and is Genotoxic in the ST Cross|Food Chem. Toxicol.48(12): 3333-3339|2010|10.1016/j.fct.2010.08.038
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167728|T||Guo,W., X. Yan, G. Zhao, and R. Han|Efficacy of Entomopathogenic steinernema and Heterorhabditis Nematodes Against White Grubs (Coleoptera: Scarabaeidae) in Peanut Fields|J. Econ. Entomol.106(3): 1112-1117|2013|10.1603/EC12477
167729|T||Gupta,S., R. Gupta, and S. Sharma|Impact of Pesticides on Plant Growth Promotion of Vigna radiata and Non-Target Microbes: Comparison Between Chemical- and Bio-Pesticides|Ecotoxicology23:1015-1021|2014|10.1007/s10646-014-1245-3
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167754|T||Gadelhak,G.G.|Novel Pesticides Affecting Mitochondrial Functions|Ph.D. Thesis, Michigan State University, East Lansing, MI:194 p.|1993|
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167764|T||Charp,P.A.|A Possible Role for Calcium in the Regulation of Cell Division in Synchronized Tetrahymena|Ph.D.Thesis, University of Tennessee, Knoxville, TN:89|1981|
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167805|T||Chauhan,R., S. Monga, and B. Kumari|Dissipation and Decontamination of Bifenthrin Residues in Tomato (Lycopersicon esculentum Mill)|Bull. Environ. Contam. Toxicol.89(1): 181-186|2012|10.1007/s00128-012-0629-4
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167823|T||Choe,D.H., K. Tsai, C.M. Lopez, and K. Campbell|Pheromone-Assisted Techniques to Improve the Efficacy of Insecticide Sprays Against Linepithema humile (Hymenoptera: Formicidae)|J. Econ. Entomol.107(1): 319-325|2014|10.1603/EC13262
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167825|T||Heimbach,U., and A. Muller|Incidence of Pyrethroid-Resistant Oilseed Rape Pests in Germany|Pest Manag. Sci.69:209-216|2013|10.1002/ps.3351
167826|A||Huynh,C.K., S.R. Poquette, and W.L. Whitlow|Pyrethroid Pesticide Effects on Behavioral Responses of Aquatic Isopods to Danger Cues|Environ. Sci. Pollut. Res.21:5211-5216|2014|10.1007/s11356-013-2475-2
167827|T||Jin,Y., J. Wang, X. Sun, Y. Ye, M. Xu, J. Wang, S. Chen, and Z. Fu|Exposure of Maternal Mice to cis-Bifenthrin Enantioselectively Disrupts the Transcription of Genes Related to Testosterone Synthesis in Male Offspring|Reprod. Toxicol.42:156-163|2013|10.1016/j.reprotox.2013.08.006
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167829|T||Larson,J.L., C.T. Redmond, and D.A. Potter|Comparative Impact of an Anthranilic Diamide and Other Insecticidal Chemistries on Beneficial Invertebrates and Ecosystem Services in Turfgrass|Pest Manag. Sci.68:740-748|2012|10.1002/ps.2321
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167845|T||Peachey,E.|Studies on the Walnut Twig Beetle (WTB), Pityophthorus juglandis, in Relation to Its Association with Geosmithia morbida, Its Survival in Felled Logs, and Its Sensitivity to Temperature Extremes|M.S. Thesis, Colorado State University, Boulder, CO:75 p.|2012|
167846|T||Athanassiou,C.G., N.G. Kavallieratos, F.H. Arthur, and J.E. Throne|Efficacy of a Combination of beta-Cyfluthrin and Imidacloprid and beta-Cyfluthrin Alone for Control of Stored-Product Insects on Concrete|J. Econ. Entomol.106(2): 1064-1070|2013|10.1603/EC12406
167847|T||Echegaray,E.R., and R.A. Cloyd|Effects of Reduced-Risk Pesticides and Plant Growth Regulators on Rove Beetle (Coleoptera: Staphylinidae) Adults|J. Econ. Entomol.105(6): 2097-2106|2012|10.1603/EC12244
167848|T||Rong,L.S., A.T.W. Ann, N.W. Ahmad, L.H. Lim, and M.S. Azirun|Insecticide Susceptibility Status of Field-Collected Aedes (Stegomyia) aegypti (L.) at a Dengue Endemic Site in Shah Alam, Selangor, Malaysia|Southeast Asian J. Trop. Med. Public Health43(1): 34-47|2012|
167849|T||Stringfellow,T.L.|Summary of Turfgrass Insect Control in South Florida|In: Proceedings of the Florida Turf-Grass Management Conference:105-110|1967|
167850|T||Harrison,R.P., and W.K. Whitney|Laboratory and Field Performance of Dursban Insecticide Against Cockroaches and Other Household Pests|Down Earth23(3): 3-7|1967|
167851|T||Collier,B.L., and C.E. Dieter|Dursban...A New Insecticide for Chinch Bug and Sod Webworm Control in St. Augustinegrass|Down Earth21(3): 3-9|1965|
167852|T||Heimbach,U., C. Abel, J. Siebers, and A. Wehling|Influence of Different Soils on the Effects of Pesticides on Carabids and Spiders|Asp. Appl. Biol.31:49-59|1992|
167853|T||Heimbach,U., and C. Abel|Comparison of Effects of Pesticides on Adult Carabid Beetles in Laboratory, Semi-Field and Field Experiments|IOBC-WPRS Bull.17(10): 99-111|1994|
167854|T||Yan,X., X. Wang, R. Han, and X. Qiu|Utilisation of Entomopathogenic Nematodes, Heterorhabditis spp. and Steinernema spp., for the Control of Agrotis ipsilon (Lepidoptera, Noctuidae) in China|Nematology16:31-40|2014|10.1163/15685411-00002741
167855|T||Savage,J., M. Meaney, G.P. Brennan, E. Hoey, A. Trudgett, and I. Fairweather|Effect of the P-Glycoprotein Inhibitor, R(+)-Verapamil on the Drug Susceptibility of a Triclabendazole-Resistant Isolate of Fasciola hepatica|Vet. Parasitol.195(1/2): 72-86|2013|10.1016/j.vetpar.2013.03.007
167856|A||Romeo,M., M. Gnassia-Barelli, C.S. Karez, and S. Puiseux-Dao|Cadmium Uptake by a Phytoplankton Species in the Presence of Different Inhibitors|Toxicol. Environ. Chem.22(1-4): 97-100|1989|10.1080/02772248909357429
167857|T||Reddy,G.S., and M.S. Rao|Mutagenic Potential of Diphenylhydantoin in Drosophila melanogaster|IRCS Med. Sci. Psychol. Psych.13(9/10): 1016-|1985|
167858|T||Tipton,C.L., P.V. Paulsen, and R.E. Betts|Effects of Ophiobolin A on Ion Leakage and Hexose Uptake by Maize Roots|Plant Physiol.59:907-910|1977|10.1104/pp.59.5.907
167859|A||Lindstrom-Seppa,P., and O. Hanninen|Induction of Cytochrome P-450 Mediated Mono-Oxygenase Reactions and Conjugation Activities in Freshwater Crayfish (Astacus astacus)|Arch. Toxicol. Suppl.9(0): 374-377|1986|10.1007/978-3-642-71248-7_73
167860|T||Anene,B.M., C.A. Ross, S.M. Anika, and C.C. Chukwu|Trypanocidal Resistance in Trypanosoma evansi In Vitro: Effects of Verapamil, Cyproheptidine, Desipramine and Chlorpromazine Alone and in Combination with Trypanocides|Vet. Parasitol.62(1/2): 43-50|1996|10.1016/0304-4017(95)00856-X
167861|A||Estus,S., and J.L. Blumer|Critical Period of Phenytoin Teratogenic Action in the Sea Urchin Arbacia punctulata Embryo|J. Pharmacol. Exp. Ther.251(2): 782-789|1989|
167862|A||Figueira-Mansur,J., A. Ferreira-Pereira, J.F. Mansur, T.A. Franco, E.S.L. Alvarenga, M.H.F. Sorgine, B.C. Neves, A.C.A.|Silencing of P-Glycoprotein Increases Mortality in Temephos-Treated Aedes aegypti Larvae|Insect Mol. Biol.22(6): 648-658|2013|10.1111/imb.12052
167863|A||Estus,S., and J.L. Blumer|Role of Microtubule Assembly in Phenytoin Teratogenic Action in the Sea Urchin (Arbacia punctulata) Embryo|Mol. Pharmacol.36(5): 708-715|1989|
167864|T||Bishnoi,S.K., B. Kumar, K.S. Datta, I.S. Sheoran, and R. Angrish|Effect of NaCl and Boron Stress and Alleviatory Effects of Ca2+ on Protein Profile of Pigeonpea Genotypes|Physiol. Mol. Biol. Plants12(4): 313-316|2006|
167865|T||Abo El-Ghar,G.E.S., and A.E.G.M. El-Sayed|Impact of Two Synthetic Pyrethroids and Methomyl on Management of the Cabbage Aphid, Brevicoryne brassicae (L.) and Its Associated Parasitoid, Diaeretiella rapae (M'Intosh)|Pestic. Sci.25(1): 35-41|1989|10.1002/ps.2780250106
167866|AT||De Filippis,L.F.|Localization of Organomercurials in Plant Cells|Z. Pflanzenphysiol. (Multiple Languages)88:133-146|1978|10.1016/S0044-328X(78)80081-6
167867|T||Clancy,M.J., J.M. Lester, and J.F. Roche|The Effects of Anabolic Agents and Breed on the Fibers of the Longissimus Muscle of Male Cattle|J. Anim. Sci.63(1): 83-91|1986|10.2527/jas1986.63183x
167868|T||National Toxicology Program|Toxicology and Carcinogenesis Studies of 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) (CAS No. 57465-28-8) in Female Harlan Sprague-Dawley Rats|Natl. Toxicol. Program Tech. Rep. Ser.520:246 p.|2006|
167869|AT||Moulton,C.A.|Assessing Effects of Pesticides on Frog Populations|Ph.D. Thesis, North Carolina State University, Raleigh, NC:137 p.|1996|
167870|T||Cheng,H.H., and H.E. Braun|Chlorpyrifos, Carbaryl, Endosulfan, Leptophos, and Trichlorfon Residues on Cured Tobacco Leaves from Field-Treated Tobacco in Ontario|Can. J. Plant Sci.57(3): 689-695|1977|10.4141/cjps77-101
167871|A||Wang,M.|Prediction of Cadmium Toxicity in Marine Phytoplankton|Ph.D. Thesis, Hong Kong University of Science and Technology, Hong Kong:126 p. |2010|
167872|T||Kukanich,S.P.|Pharmacokinetics and Its Application to Dosage Design in Veterinary Medicine: Pharmacokinetics and Pharmacodynamics of Opiates in Dogs|Ph.D. Thesis, North Carolina State University, Raleigh, NC:162 p.|2005|
167873|T||Kukanich,B., B.D.X. Lascelles, A.M. Aman, K.L. Mealey, and M.G. Papich|The Effects of Inhibiting Cytochrome P450 3A, p-Glycoprotein, and Gastric Acid Secretion on the Oral Bioavailability of Methadone in Dogs|J. Vet. Pharmacol. Ther.28:461-466|2005|10.1111/j.1365-2885.2005.00681.x
167874|A||LeBlanc,H.M.K.|Single and Combined Effects of the Agricultural Insecticides Chlorpyrifos, Imidacloprid and Dimethoate on Freshwater Insect Larvae|M.S. Thesis, University of New Brunswick, Canada:113 p.|2011|
167876|A||Karen,D.J.|Sublethal Impacts of Episodic Pesticide Exposure on Fundulus heteroclitus|Ph.D. Thesis, Clemson University, Clemson, SC:162 p.|1999|
167878|A||Detra,R.L.|Organophosphate Toxicology of Larval Chironomus riparius meigen (= Thummi Kiefer) (Diptera: Chironomidae)|Ph.D. Thesis, The Ohio State University, Columbus, OH:163 p.|1982|
167879|T||Medina,D., H. Lane, and F. Shepherd|Effects of Selenium on Mouse Mammary Tumorigenesis and Glutathione Peroxidase Activity|Anticancer Res.1(6): 377-382|1981|
167880|T||Babicky,A., I. Ostadalova, J. Zicha, and J. Krecek|Peculiar Response of Brattleboro Rats to Selenite|Experientia38(7): 839-|1982|10.1007/BF01972303
167881|T||Fattoretti,P., C. Bertoni-Freddari, M. Balietti, B. Giorgetti, M. Solazzi, and P. Zatta|Chronic Aluminum Administration to Old Rats Results in Increased Levels of Brain Metal Ions and Enlarged Hippocampal Mossy Fibers|Ann. N. Y. Acad. Sci.1019:44-47|2004|10.1196/annals.1297.010
167882|T||Motsenbocker,M.A., and A.L. Tappel|Selenium and Selenoproteins in the Rat Kidney|Biochim. Biophys. Acta709(2): 160-165|1982|10.1016/0167-4838(82)90456-3
167884|T||Ip,C., and D. Sinha|Anticarcinogenic Effect of Selenium in Rats Treated with Dimethylbenz[a]anthracene and Fed Different Levels and Types of Fat|Carcinogenesis2(5): 435-438|1981|10.1093/carcin/2.5.435
167885|A||Marinowic,D.R., M. Mergener, T.A. Pollo, S.W. Maluf, and L.B. Da Silva|In Vivo Genotoxicity of the Pyrethroid Pesticide beta-Cyfluthrin Using the Comet Assay in the Fish Bryconamericus iheringii|Z. Naturforsch. Sect. C J. Biosci.67(5/6): 308-311|2012|
167886|A||Saenz,M.E., W.D. Di Marzio, and J.L. Alberdi|Assessment of Cyfluthrin Commercial Formulation on Growth, Photosynthesis and Catalase Activity of Green Algae|Pestic. Biochem. Physiol.104(1): 50-57|2012|10.1016/j.pestbp.2012.07.001
167887|T||Vatandoost,H., and A.A. Hanafi-Bojd|Indication of Pyrethroid Resistance in the Main Malaria Vector, Anopheles stephensi from Iran|Asian Pac. J. Trop. Med.5(9): 722-726|2012|10.1016/S1995-7645(12)60114-X
167888|A||Wang,Z., J.R. Kim, M. Wang, S. Shu, and Y.J. Ahn|Larvicidal Activity of Cnidium monnieri Fruit Coumarins and Structurally Related Compounds Against Insecticide-Susceptible and Insecticide-Resistant Culex pipiens pallens and Aedes aegypti|Pest Manag. Sci.68:1041-1047|2012|10.1002/ps.3265
167889|T||Anadon,A., M.A. Martinez, M. Martinez, V. Castellano, I. Ares, A. Romero, R. Fernandez, and M.R. Martinez-Larranaga|Differential Induction of Cytochrome P450 Isoforms and Peroxisomal Proliferation by Cyfluthrin in Male Wistar Rats|Toxicol. Lett.220(2): 135-142|2013|10.1016/j.toxlet.2013.04.015
167890|T||Bhushan,B., N. Saxena, and P.N. Saxena|Beta-Cyfluthrin Induced Histochemical Alterations in the Liver of the Albino Rat|Scand. J. Lab. Animl. Sci.37(2): 61-66|2010|
167891|T||Bhushan,B., P.N. Saxena, and N. Saxena|Biochemical and Histological Changes in Rat Liver Caused by Cypermethrin and beta-Cyfluthrin|Arh. Hig. Rada Toksikol.64(1): 57-67|2013|10.2478/10004-1254-64-2013-2184
167892|T||Alim,M.A., and U.T. Lim|Ecotoxicological Effect of Insecticides on Ooencyrtus nezarae (Hymenoptera: Encyrtidae) Reared from Refrigerated and Unrefrigerated Riptortus pedestris (Hemiptera: Alydidae) Host|Biocontrol Sci. Technol.24(2): 133-144|2014|10.1080/09583157.2013.851170
167893|T||Tilley,D.R., B. Subramanyam, M.E. Casada, and F.H. Arthur|Stored-Grain Insect Population Commingling Densities in Wheat and Corn from Pilot-Scale Bucket Elevator Boots|J. Stored Prod. Res.59:1-8|2014|10.1016/j.jspr.2014.04.003
167894|T||Barker,R.W.|Insect Growth Regulating Chemicals:  Efficacy and Potential Value as a Tool to Control Horn Flies|Ga. Agric. Res.18(4): 12-13|1977|
167895|T||Johnson,B.J.|Kerb Aids the Transition of Overseeded Cool-Season Grass Back to Warm-Season Grass|Ga. Agric. Res.18(4): 16-18|1977|
167896|T||Thilenius,J.F., and G.R. Brown|Long-Term Effects of Chemical Control of Big Sagebrush|J. Range Manag.27(3): 223-224|1974|10.2307/3897038
167897|A||Lacey,L.A., and M.S. Mulla|A New Bioassay Unit for Evaluating Larvicides Against Blackflies|J. Econ. Entomol.70(4): 453-456|1977|10.1093/jee/70.4.453
167898|T||Naruse,H., and K. Maekawa|Controlled-Release Pesticides  4. Synthesis and Decomposition of Poly(S-vinyl alkyldithiocarbamate)s|J. Fac. Agric. Kyushu Univ.21:173-179|1977|10.5109/23498
167899|T||Naruse,H., and K. Maekawa|Controlled-Release Pesticides  3. Herbicidal Synthetic Polymer|J. Fac. Agric. Kyushu Univ.21:167-172|1977|10.5109/23497
167900|A||Payan,P.|A Study of the Na+/NH4+ Exchange Across the Gill of the Perfused Head of the Trout (Salmo gairdneri)|J. Comp. Physiol.124:181-188|1978|10.1007/BF00689179
167901|T||Echegaray Wilson,E.R.|Life Cycle of the Rove Beetle, Atheta coriaria (Kraatz) (Coleoptera: Staphylinidae) and Suitability as a Biological Control Agent Against the Fungus Gnat, Brasysia sp. Nr. Coprophila (Lintner)|Ph.D. Thesis, Kansas State University, Manhattan, KS:203 p.|2012|
167902|T||Johnson,K.J.|Effectiveness of Carbaryl and Pyrethroid Insecticides for Protection of Engelmann Spruce from Attack by Spruce Beetle (Coleoptera: Scolytidae)|M.S.Thesis, Utah State University, Logan, UT:87 p.|1996|
167903|T||Subramanyam,B., and P.K. Harein|Effect of Bioallethrin and Cyfluthrin on Knockdown and Mortality of Indianmeal Moth and Almond Moth Larvae|J. Agric. Entomol.3(4): 310-314|1986|
167904|T||Goulart,R.M., H.X.L. Volpe, A.M. Vacari, R.T. Thuler, and S.A. De Bortoli|Insecticide Selectivity to Two Species of Trichogramma in Three Different Hosts, as Determined by IOBC/WPRS Methodology|Pest Manag. Sci.68:240-244|2012|10.1002/ps.2251
167905|T||Jaiswal,A.K., J.P. Singh, and P. Patamajhi|Residual Toxicity of Certain Newer Pesticides on Eupelmus tachardiae: A Parasitoid of Lac Insect Kerria lacca (Kerr)|Natl. Acad. Sci. Lett.37(1): 97-101|2014|10.1007/s40009-013-0199-y
167906|T||Koffi,A.A., L.P.A. Alou, M.A. Adja, M. Kone, F. Chandre, and R. N'Guessan|"Update on Resistance Status of Anopheles gambiae s.s. to Conventional Insecticides at a Previous WHOPES Field Site, ""Yaokoffikro"", 6 Years After the Political Crisis in Cote d'Ivoire"|Parasites Vectors5(68): 7 p.|2012|
167907|T||Matsumoto,T.|Reduction in Homing Flights in the Honey Bee Apis mellifera After a Sublethal Dose of Neonicotinoid Insecticides|Bull. Insectol.66(1): 1-9|2013|
167908|T||Tran,D.H., and T. Ueno|Toxicity of Insecticides to Neochrysocharis okazakii, a Parasitoid Liriomyza Leafminers on Vegetables|J. Fac. Agric. Kyushu Univ.57:127-131|2012|10.5109/22059
167909|A||Stuart,R.K., B. Brahamsha, K. Busby, and B. Palenik|Genomic Island Genes in a Coastal Marine Synechococcus Strain Confer Enhanced Tolerance to Copper and Oxidative Stress|ISME J.7(6): 1139-1149|2013|10.1038/ismej.2012.175
167910|T||Veysi,A., H. Vatandoost, M.H. Arandian, R. Jafari, M.R. Yaghoobi-Ershadi, Y. Rassi, and A.A. Akhavan|Laboratory Evaluation of a Rodenticide-Insecticide, Coumavec, Against Rhombomys opimus, the Main Reservoir Host of Zoonotic Cutaneouse Leishmaniasis in Iran|J. Arthropod-Borne Dis.7(2): 188-193|2013|
167911|T||Hojo,Y., A. Shiraki, T. Tsuchiya, K. Shimamoto, Y. Ishii, K. Suzuki, M. Shibutani, and K. Mitsumori|Liver Tumor Promoting Effect of Etofenprox in Rats and Its Possible Mechanism of Action|J. Toxicol. Sci.37(2): 297-306|2012|10.2131/jts.37.297
167912|T||Puhvel,S.M., and M. Sakamoto|Effect of 2,3,7,8-Tetrachlorodibenzo-p-Dioxin on Murine Skin|J. Invest. Dermatol.90:354-358|1978|10.1111/1523-1747.ep12456367
167913|A||Koou,S.Y., C.S. Chong, I. Vythilingam, L.C. Ng, and C.Y. Lee|Pyrethroid Resistance in Aedes aegypti Larvae (Diptera: Culicidae) from Singapore|J. Med. Entomol.51(1): 170-181|2014|10.1603/ME13113
167914|T||Malhat,F., H. Abdallah, and I. Nasr|Estimation of Etofenprox Residues in Tomato Fruits by QuEChERS Methodology and HPLC-DAD|Bull. Environ. Contam. Toxicol.88(6): 891-893|2012|10.1007/s00128-012-0627-6
167915|T||Sun,D., L. Li, H. Liang, W. Li, R. Ji, Y. Wu, and C. Liu|The Dissipation of Ethofenprox in Cabbage and Soil Under Open Conditions|Environ. Monit. Assess.184(9): 5743-5747|2012|10.1007/s10661-011-2377-z
167917|T||LaMondia,J.A.|Fungicide Efficacy Against Calonectria pseudonaviculata, Causal Agent of Boxwood Blight|Plant Dis.98(1): 99-102|2014|10.1094/PDIS-04-13-0373-RE
167918|A||Knacker,T., H.J. Schallnass, U. Klaschka, and J. Ahlers|Application of the Criteria for Classification of Existing Chemicals as Dangerous for the Environment|Environ. Sci. Pollut. Res. Int.2(3): 179-187|1995|10.1007/BF02987538
167919|T||Majchrowicz,I., and T.J. Poprawski|Effects In Vitro of Nine Fungicides on Growth of Entomopathogenic Fungi|Biocontrol Sci. Technol.3(3): 321-336|1993|10.1080/09583159309355287
167920|T||McFadden,W., and R. Hall|Yield Response to Differential Suppression by Fungicides of the Stem Rot Phase of Bean Foot Rot|Can. J. Plant Pathol.9(3): 246-251|1987|10.1080/07060668709501882
167921|T||Byford,W.J., and P.A. Payne|Experiments with Hymexazol Treatment of Sugar-Beet Seed and Observations on Sugar-Beet Plants Infected at the Seedling Stage by Aphanomyces cochlioides|Asp. Appl. Biol.2:99-101|1983|
167922|T||Doyle,O.P.E., and K.J. Clancy|Effects of Eight Fungicides on Clubroot of Brassicas, Disease Severity and Plant Yield|Tests Agrochem. Cultiv.0(8): 50-51|1987|
167923|T||Doyle,O.P.E., and K.J. Clancy|Effects of Eight Fungicides on Clubroot of Brassicas, Plant Survival, Phytotoxicity and Disease Incidence|Tests Agrochem. Cultiv.0(8): 48-49|1987|
167924|T||Takahi,Y., T. Nakanishi, and S. Kamimura|Characteristics of Hymexazol as a Soil-Fungicide|Ann. Phytopathol. Soc. Jpn.40(4): 362-367|1974|10.3186/jjphytopath.40.362
167925|T||Young,J.W., T.M. Graves, R. Curtis, and M.M. Furniss|Controlled Release Formulations of Insect Growth Regulators and Pheromones - Evaluation Methods and Field Test Results|ACS Symp. Ser.53:184-199|1977|10.1021/bk-1977-0053.ch016
167926|T||Kurtz,D.A., and J.L. George|DDT Metabolism in Pennsylvania White-Tail Deer|In: G.W.Ivie and H.W.Dorough (Eds.), Fate of Pesticides in Large Animals, Academic Press,  New York, NY:193-215|1977|
167927|T||Woodrow,J.E., J.N. Seiber, D.G. Crosby, K.W. Moilanen, C.J. Soderquist, and C. Mourer|Airborne and Surface Residues of Parathion and Its Conversion Products in a Treated Plum Orchard Environment|Arch. Environ. Contam. Toxicol.6:175-191|1977|10.1007/BF02097759
167928|A||Kingsbury,P.D.|Monitoring Aquatic Insect Populations in Forest Streams Exposed to Chemical and Biological Insecticide Applications|Proc. Entomol. Soc. Ont.106:19-24|1975|
167930|T||Markin,G.P., and S.O. Hill|Microencapsulated Oil Bait for Control of the Imported Fire Ant|J. Econ. Entomol.64:193-196|1971|10.1093/jee/64.1.193
167931|T||Tiedeman,G.T., J.H. Oh, K. Oita, and G.V. Christoffers|Wildlife Damage Control II:  Identification of the Active Ingredients in Big Game Repellents Derived from Fish and Eggs|Weyerhaeuser Company, Research and Engineering, Seattle WA:31 p.|1978|
167932|T||Doane,W.M., B.S. Shasha, and C.R. Russell|Encapsulation of Pesticides Within a Starch Matrix|ACS Symp. Ser.53:74-83|1977|10.1021/bk-1977-0053.ch007
167933|A||Kinkead,R., S. Aota, S.F. Perry, and D.J. Randall|Propranolol Impairs the Hyperventilatory Response to Acute Hypercapnia in Rainbow Trout|J. Exp. Biol.175:115-126|1993|10.1242/jeb.175.1.115
167934|T||Taymans,S.E., A.C. DeVries, M.B. DeVries, R.J. Nelson, T.C. Friedman, M. Castro, S. Detera-Wadleigh, C.S. Carter, and G|The Hypothalamic-Pituitary-Adrenal Axis of Prairie Voles (Microtus ochrogaster): Evidence for Target Tissue Resistance|Gen. Comp. Endocrinol.106(1): 48-61|1997|10.1006/gcen.1996.6849
167935|T||Oita,K., J.H. Oh, G.T. Tiedeman, and I. Gauditz|Wildlife Damage Control I:  Development of Deer Repellents|Weyerhaeuser Company, Research and Engineering, Seattle WA:15 p.|1977|
167936|T||Barker,R.W., and R.L. Jones|Inhibition of Larval Horn Fly Development in the Manure of Bovines Fed Dimilin Mineral Blocks|J. Econ. Entomol.69(4): 441-443|1976|10.1093/jee/69.4.441
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167938|T||Tsror,L., M. Hazanovsky, S. Mordechai-Lebiush, T. Ben-David, I. Dori, and E. Matan|Control of Root Rot and Wilt Caused by Pythium myriotylum in Kangaroo Paw (Anigozanthos)|J. Phytopathol.153:150-154|2005|10.1111/j.1439-0434.2005.00944.x
167939|T||Vincelli,P.C.|Potential for Seedling Disease of Alfalfa Caused by Aphanomyces euteiches in a Kentucky Soil|Plant Dis.76(6): 622-626|1992|10.1094/PD-76-0622
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167942|T||Kamimura,S., M. Nishikawa, and Y. Takahi|Mode of Action of Soil Fungicide Hymexazol, 3-Hydroxy-5-Methylisoxazole, on Fusarium oxysporum f. cucumerinum|Ann. Phytopathol. Soc. Jpn.3(4): 242-252|1976|10.3186/jjphytopath.42.242
167943|T||Jones,D.R.|Chemical Control of Crown Rot in Queensland Bananas|Aust. J. Exp. Agric.31(5): 693-698|1991|10.1071/EA9910693
167945|T||McQuilken,M.P., J.M. Whipps, and R.C. Cooke|Control of Damping-Off in Cress and Sugar-Beet by Commercial Seed-Coating with Pythium oligandrum|Plant Pathol.39(3): 452-462|1990|10.1111/j.1365-3059.1990.tb02521.x
167946|T||Zhang,L.H., M. Li, Z.Y. Gao, Z.K. Zhang, F.Z. Yang, Y.X. Xie, M.J. Hu, and Y. Yang|Screening and Cross-Resistance Analysis of Alternative Fungicides Against Carbendazim-Resistant Colletotrichum gloeosporioides Penz. from Mango (Mangifera indica L.)|Acta Hortic.:415-421|2013|10.17660/ActaHortic.2013.992.52
167947|T||Wang,D.M., C.C. Zhang, Q. Zhang, N. Shafiq, G. Pescitelli, D.W. Li, and J.M. Gao|Wightianines A-E, Dihydro-beta-Agarofuran Sesquiterpenes from Parnassia wightiana, and Their Antifungal and Insecticidal Activities|J. Agric. Food Chem.62:6669-6676|2014|10.1021/jf501767s
167948|T||Kennedy,T.F., and J. Connery|An Evaluation of Seed-Pellet Insecticides in a Precision Drilled Crop of Sugar Beet|Ir. J. Agric. Food Res.45:211-222|2006|
167949|T||Bai,Y.B., A.L. Zhang, J.J. Tang, and J.M. Gao|Synthesis and Antifungal Activity of 2-Chloromethyl-1H-Benzimidazole Derivatives Against Phytopathogenic Fungi In Vitro|J. Agric. Food Chem.61:2789-2795|2013|10.1021/jf3053934
167950|T||Al-Sadi,A.M., A.H. Al-Jabri, I.H. Al-Mahmooli, F.A. Al-Said, and M.L. Deadman|Characterization of Fungal Pathogens Occurring in Potting Mixtures and Organic Fertilizers in Oman|Acta Hortic.:437-440|2010|10.17660/ActaHortic.2010.871.60
167951|T||Watson,A., S.L. Browne, M.G. Snudden, and E.M. Mudford|Aphanomyces Root Rot of Beans and Control Options|Australas. Plant Pathol.42:321-327|2013|10.1007/s13313-012-0180-0
167952|T||Xu,H.J., K.Z. Jian, Q. Guan, F. Ye, and M. Lv|Antifungal Activity of Some Diaryl Ethers|Chem. Pharm. Bull.55(12): 1755-1757|2007|10.1248/cpb.55.1755
167953|T||Triki,M.A., and S. Priou|Using Chemical and Biological Treatments to Reduce the Potential of Potato Leak Caused by Pythium aphanidermatum in Tunisia|Potato Res.40:391-398|1997|10.1007/BF02357998
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167955|T||Myresiotis,C.K., G.S. Karaoglanidis, Z. Vryzas, and E. Papadopoulou-Mourkidou|Evaluation of Plant-Growth-Promoting Rhizobacteria, Acibenzolar-S-Methyl and Hymexazol for Integrated Control of Fusarium Crown and Root Rot on Tomato|Pest Manag. Sci.68:404-411|2012|10.1002/ps.2277
167956|T||Ali-Shtayeh,M., A.M.A. Salah, and R.M. Jamous|Ecology of Hymexazol-Insensitive Pythium Species in Field Soils|Mycopathologia156:333-342|2003|10.1023/B:MYCO.0000003561.47451.f7
167957|A||Saxena,P., S. Singh, and F.A. Malla|Assay of Haemoglobin of the Fish, Channa punctatus, After Intoxication of Ridomil|Bionotes11(3): 99-|2009|
167958|T||Xu,H.J., Q. Wang, and W.B. Yang|Antifungal Activities of Some Indole Derivatives|Z. Naturforsch. Sect. C J. Biosci.65:437-439|2010|10.1515/znc-2010-7-803
167959|T||Thompson,R.J., and R.G. Burns|Control of Pythium ultimum with Antagonistic Fungal Metabolites Incorporated into Sugar Beet Seed Pellets|Soil Biol. Biochem.21(6): 745-748|1989|10.1016/0038-0717(89)90164-8
167960|T||Shen,C.Y., and P.H. Tsao|Sensitivity of Phytophthora infestans to Hymexazol in Selective Media|Trans. Br. Mycol. Soc.80(3): 567-570|1983|10.1016/S0007-1536(83)80062-X
167961|T||Murakoshi,I., F. Ikegami, T. Nishimura, and K. Tomita|Biosynthesis and Biological Activity of beta-(5-Methylisoxazolin-3-on-2-YL)Alanine in Higher Plants|Phytochemistry24(8): 1693-1695|1985|10.1016/S0031-9422(00)82536-4
167962|T||Miyake,T., Y. Yagasaki, K. Nakashima, and S. Kagabu|Potential Fungicidal Activity of 3-(Substituted Oxy)-5-Methylisoxazoles|J. Pestic. Sci. (Multiple Languages)38(3): 96-104|2013|10.1584/jpestics.D12-028
167963|T||Miyake,T., Y. Yagasaki, and S. Kagabu|Potential New Fungicides: N-Acyl-5-Methyl-3(2H)-Isoxazolone Derivatives|J. Pestic. Sci. (Multiple Languages)37(1): 89-94|2012|10.1584/jpestics.D11-004
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167965|T||Kato,S., R. Coe, L. New, and M.W. Dick|Sensitivities of Various Oomycetes to Hymexazol and Metalaxyl|J. Gen. Microbiol.136(10): 2127-2134|1990|10.1099/00221287-136-10-2127
167966|T||Kamimura,S., M. Nishikawa, H. Saeki, and Y. Takahi|Absorption and Metabolism of 3-Hydroxy-5-Methylisoxazole in Plants and the Biological Activities of Its Metabolites|Phytopathology64(10): 1273-1281|1974|10.1094/Phyto-64-1273
167967|T||Al-Sadi,A.M., F.A. Al-Said, A.H. Al-Jabri, I.H. Al-Mahmooli, A.H. Al-Hinai, and A.W.A.M. De Cock|Occurrence and Characterization of Fungi and Oomycetes Transmitted via Potting Mixtures and Organic Manures|Crop Prot.30:38-44|2011|10.1016/j.cropro.2010.09.015
167968|T||Yamaguchi,T.|Stimulating Effects of Some Chemical and Physical Treatments on the Growth of Carnation|Acta Hortic.216:281-288|1987|10.17660/ActaHortic.1987.216.37
167969|T||Xu,H.J., and L.L. Fan|Synthesis and Antifungal Activities of Novel 5,6-Dihydro-Indolo(1,2-a)Quinoxaline Derivatives|Eur. J. Med. Chem.46:1919-1925|2011|10.1016/j.ejmech.2011.02.035
167970|T||Xu,H.J., and X. Zeng|Synthesis of Diaryl-Azo Derivatives as Potential Antifungal Agents|Bioorg. Med. Chem. Lett.20:4193-4195|2010|10.1016/j.bmcl.2010.05.048
167971|T||Ozbahce,A.|Chemigation for Soil-Borne Pathogen Management on Melon Growth Under Drought Stress|Australas. Plant Pathol.43:299-306|2014|10.1007/s13313-014-0270-2
167972|A||Bisesi,J.H.,Jr., W. Bridges, and S.J. Klaine|Effects of the Antidepressant Venlafaxine on Fish Brain Serotonin and Predation Behavior|Aquat. Toxicol.148:130-138|2014|10.1016/j.aquatox.2013.12.033
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167974|T||Xu,H.J., and L.L. Fan|Antifungal Agents. Part 4: Synthesis and Antifungal Activities of Novel Indole(1,2-c)-1,2,4-Benzotriazine Derivatives Against Phytopathogenic Fungi In Vitro|Eur. J. Med. Chem.46:364-369|2011|10.1016/j.ejmech.2010.10.022
167975|T||Heijbroek,W., and A.W.M. Huijbregts|Fungicides and Insecticides Applied to Pelleted Sugar-Beet Seeds - II. Control of Pathogenic Fungi in Soil|Crop Prot.14(5): 363-366|1995|10.1016/0261-2194(94)00014-Y
167976|T||Ma,Y.T., H.F. Fan, Y.Q. Gao, H. Li, A.L. Zhang, and J.M. Gao|Natural Products as Sources of New Fungicides (I): Synthesis and Antifungal Activity of Acetophenone Derivatives Against Phytopathogenic Fungi|Chem. Biol. Drug Design81:545-552|2013|10.1111/cbdd.12064
167977|T||Xu,H.J., and Y.Y. Wang|Antifungal Agents. Part 5: Synthesis and Antifungal Activities of Aminoguanidine Derivatives of N-Arylsulfonyl-3-Acylindoles|Bioorg. Med. Chem. Lett.20:7274-7277|2010|10.1016/j.bmcl.2010.10.084
167978|T||Xu,H.J., W.B. Yang, and Q. Wang|Antifungal Agents. Part 3: Synthesis and Antifungal Activities of 3-Acylindole Analogs Against Phytopathogenic Fungi In Vitro|Chem. Biol. Drug Design78:864-868|2011|10.1111/j.1747-0285.2011.01212.x
167979|T||Kudo,N., T. Yoneda, K. Sato, T. Honma, and S. Sugai|4-Sulfenyl-2-Carbamoyl-4-Isoxazolin-3-Ones: Biological Isostere to 4-Chloro-2-Carbamoyl-4-Isoxazolin-3-Ones|Chem. Pharm. Bull.48(4): 509-515|2000|10.1248/cpb.48.509
167980|T||Berruti,A., and V. Scariot|Efficacy of Flurprimidol and Peat Alternatives on Growth Control of Potted Camellias|N. Z. J. Crop Hortic. Sci.41(4): 230-239|2013|10.1080/01140671.2013.811091
167981|T||Miller,W.B.|Dark-Stored Flurprimidol Solutions Maintain Efficacy Over Many Weeks|Hortscience48(1): 77-81|2013|10.21273/HORTSCI.48.1.77
167982|T||Barnes,J., B. Whipker, W. Buhler, and I. McCall|Greenhouse and Landscape Growth of Tiger Lily Cultivars Following Flurprimidol Preplant Bulb Soaks|HortTechnology23(6): 820-822|2013|10.21273/HORTTECH.23.6.820
167983|T||Berruti,A., V. Scariot, R. Borriello, V. Bianciotto, M.T. Della Beffa, A. Christiaens, M.C. Van Labeke, and E. De Keyse|Rationalization of Camellia japonica L. Pot Cultivation: A Multidisciplinary Approach|Acta Hortic.:159-166|2013|10.17660/ActaHortic.2013.990.17
167984|T||Currey,C.J., and R.G. Lopez|Early Flurprimidol Drench Applications Suppress Final Height of Four Poinsettia Cultivars|HortTechnology21(1): 35-40|2011|10.21273/HORTTECH.21.1.35
167985|T||Currey,C.J., R.G. Lopez, B.A. Krug, I. McCall, and B.E. Whipker|Substrate Drenches Containing Flurprimidol Suppress Height of 'Nellie White' Easter Lilies|HortTechnology22(2): 164-168|2012|10.21273/HORTTECH.22.2.164
167986|T||Fair,B.A., B. Whipker, I. McCall, and W. Buhler|Height Control of 'Hot Lips' Hybrid Sage to Flurprimidol Substrate Drench|HortTechnology22(4): 539-541|2012|10.21273/HORTTECH.22.4.539
167987|T||McCarty,L.B., T.G. Willis, J.E. Toler, and T. Whitwell|'Tifeagle' Bermudagrass Response to Plant Growth Regulators and Mowing Height|Agron. J.103(4): 988-994|2011|10.2134/agronj2010.0467
167988|T||Pepin,R.E., and J.C. Cole|Paclobutrazol, Uniconazole, or Flurprimidol Applied at Various Concentrations as a Substrate Drench or Through Subirrigation Have Little Effect on Bee Balm Growth|HortTechnology24(3): 313-317|2014|10.21273/HORTTECH.24.3.313
167989|T||Whipker,B.E., I. McCall, W. Buhler, and B. Krug|Flurprimidol Preplant Soaks and Substrate Drenches Control Excessive Growth of Forced Bulbs|Acta Hortic.:383-389|2011|
167990|T||Whipker,B.E., I. McCall, and W. Buhler|Control of Zantedeschia aethiopica Growth with Flurprimidol Preplant Tuber Soaks and Substrate Drenches|Acta Hortic.:395-398|2011|
167991|T||Whipker,B.E., I. McCall, W. Buhler, and B. Krug|Flurprimidol Preplant Tuber Soaks for Dahlia Growth Control|Acta Hortic.:391-394|2011|
167992|T||Giannakoula,A.E., I.F. Ilias, J.J.D. Maksimovic, V.M. Maksimovic, and B.D. Zivanovic|The Effects of Plant Growth Regulators on Growth, Yield, and Phenolic Profile of Lentil Plants|J. Food Compos. Anal.28:46-53|2012|10.1016/j.jfca.2012.06.005
167993|T||Whipker,B.E., I. McCall, J. Barnes, W. Buhler, B. Krug, C. Currey, and R. Lopez|Flurprimidol Preplant Bulb Soaks Control Growth of Potted Liliums|Acta Hortic.:79-87|2011|10.17660/ActaHortic.2011.900.8
167994|T||Kepczynski,J., D. Cembrowska-Lech, and J. Van Staden|Necessity of Gibberellin for Stimulatory Effect of KAR1 on Germination of Dormant Avena fatua L. Caryopses|Acta Physiol. Plant.35:379-387|2013|10.1007/s11738-012-1080-1
167995|T||Ribalta,F.M., J.S. Croser, W. Erskine, P.M. Finnegan, M.M. Lulsdorf, and S.J. Ochatt|Antigibberellin-Induced Reduction of Internode Length Favors In Vitro Flowering and Seed-Set in Different Pea Genotypes|Biol. Plant. (Praha)58(1): 39-46|2014|10.1007/s10535-013-0379-0
167996|T||Lu,S.N., R.C. Luo, F.H. Nong, S.S. Ye, and W. Hofner|Effect of Plant Growth Regulators on Paddy Rice|Z. Pflanzenernaehr. Bodenkd. (Multiple Languages)153(5): 319-321|1990|10.1002/jpln.19901530506
167997|T||Barrett,J.E., C.A. Bartuska, and T.A. Nell|Efficacy of Ancymidol, Daminozide, Flurprimidol, Paclobutrazol, and XE-1019 when Followed by Irrigation|Hortscience22(6): 1287-1289|1987|10.21273/HORTSCI.22.6.1287
167998|T||Graham,J.S., S.D. Hobbs, and J.B. Zaerr|The Effect of Flurprimidol on Bud Flush, Shoot Growth, and on Endogenous Gibberellins and Abscisic Acid of Douglas-Fir Seedlings|J. Plant Growth Regul.13(3): 131-136|1994|10.1007/BF00196376
167999|T||Pobudkiewicz,A., and J. Treder|Effects of Flurprimidol and Daminozide on Growth and Flowering of Oriental Lily 'Mona Lisa'|Sci. Hortic.110(4): 328-333|2006|10.1016/j.scienta.2006.07.019
168000|T||Gaussoin,R.E., and B.E. Branham|Annual Bluegrass and Creeping Bentgrass Germination Response to Flurprimidol|Hortscience22(3): 441-442|1987|10.21273/HORTSCI.22.3.441
168001|T||Johnson,B.J.|Influence of Nitrogen on the Response of 'Tifway' Bermudagrass (Cynodon dactylon) to Flurprimidol|Weed Technol.2(1): 53-58|1988|10.1017/S0890037X00030086
168002|T||Krug,B.A., B.E. Whipker, I. McCall, and J.M. Dole|Comparison of Flurprimidol to Ancymidol, Paclobutrazol, and Uniconazole for Tulip Height Control|HortTechnology15(2): 370-373|2005|10.21273/HORTTECH.15.2.0370
168003|T||Krug,B.A., B.E. Whipker, and I. McCall|Hyacinth Height Control Using Preplant Bulb Soaks of Flurprimidol|HortTechnology16(2): 370-375|2006|10.21273/HORTTECH.16.2.0370
168004|T||McCullough,P.E., H. Liu, and L.B. McCarty|Dwarf Bermudagrass Responses to Flurprimidol and Paclobutrazol|Hortscience40(5): 1549-1551|2005|10.21273/HORTSCI.40.5.1549
168005|T||Premachandra,G.S., W.R. Chaney, and H.A. Holt|Effects of Mulch Made from Flurprimidol Treated Zinnia, Silver Maple, and White Ash on Growth of Zinnia|J. Environ. Hortic.15(4): 215-221|1997|10.24266/0738-2898-15.4.215
168006|T||Whipker,B.E., I. McCall, J.L. Gibson, and T.J. Cavins|Flurprimidol Foliar Sprays and Substrate Drenches Control Growth of 'Pacino' Pot Sunflowers|HortTechnology14(3): 411-414|2004|10.21273/HORTTECH.14.3.0411
168007|T||Saniewski,M., H. Okubo, K. Miyamoto, and J. Ueda|The Role of Endogenous Gibberellin in Tulip Stem Growth Induced by IAA and IBA: Relevance to Inhibitors of Gibberellin Biosynthesis|Acta Hortic.:397-403|2012|10.17660/ActaHortic.2012.932.58
168008|T||Hoffman,L.E., and W.F. Wilcox|Factors Influencing the Efficacy of Myclobutanil and Azoxystrobin for Control of Grape Black Rot|Plant Dis.87(3): 273-281|2003|10.1094/PDIS.2003.87.3.273
168009|T||Maryland University|The Acute and Chronic Biochemical and Behavioral Effects of Cyclotrimethylenetrinitramine|Maryland University, Baltimore School of Pharmacy, Baltimore, MD:37 p.|1975|
168010|T||Oliver,J.B., C.M. Ranger, M.E. Reding, J.J. Moyseenko, N.N. Youssef, and A.M. Bray|Preharvest Quarantine Treatments of Chlorantraniliprole, Clothianidin, and Imidacloprid-Based Insecticides for Control of Japanese Beetle (Coleoptera: Scarabaeidae) and Other Scarab Larvae in the Root Zone of Field-Grow|J. Econ. Entomol.106(3): 1190-1199|2013|10.1603/EC13059
168012|T||Addison,P.|Application of DDT in Control of Spruce Budworm. Lake Nipigon Area - 1945|In: Biological Bulletin No.2, Forest Spraying and Some Effects of DDT, Department of Lands and Forests, Ontario, Canada:79-91|1949|
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168015|T||Rush,C.M.|Stand Establishment of Sugar Beet Seedlings in Pathogen-Infested Soils as Influenced by Cultivar and Seed-Priming Technques|Plant Dis.76(8): 800-805|1992|10.1094/PD-76-0800
168016|A||Fargasova,A.|Cd, Cu, Zn, Al and Their Binary Combinations Acute Toxicity for Chironomus plumosus Larvae|Fresenius Environ. Bull.12(8): 830-834|2003|
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168018|T||Gracey,J.F., and J.R. Todd|Chronic Copper Poisoning in Sheep Following the Use of Copper Sulphate as a Molluscicide|Br. Vet. J.116:405-408|1960|10.1016/S0007-1935(17)43951-0
168019|T||Kopittke,P.M., and N.W. Menzies|Effect of Cu Toxicity on Growth of Cowpea (Vigna unguiculata)|Plant Soil279(1/2): 287-296|2006|10.1007/s11104-005-1578-z
168020|A||Planello,R., J.L. Martinez-Guitarte, and G. Morcillo|The Endocrine Disruptor Bisphenol A Increases the Expression of HSP70 and Ecdysone Receptor Genes in the Aquatic Larvae of Chironomus riparius|Chemosphere71(10): 1870-1876|2008|10.1016/j.chemosphere.2008.01.033
168022|AT||Seccacini,E., A. Lucia, L. Harburguer, E. Zerba, S. Licastro, and H. Masuh|Effectiveness of Pyriproxyfen and Diflubenzuron Formulations as Larvicides Against Aedes aegypti|Am. Mosq. Control Assoc. J.24(3): 398-403|2008|10.2987/5697.1
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168024|T||Longhurst,J.C., M.P. Kaufman, G.A. Ordway, and T.I. Musch|Effects of Bradykinin and Capsaicin on Endings of Afferent Fibers from Abdominal Visceral Organs|Am. J. Physiol.247:552-559|1984|
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168027|T||Clifton,G., and N. Kaplowitz|The Glutathione S-Transferases of the Small Intestine in the Rat|Cancer Res.37(3): 788-791|1977|
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168033|T||Berg,D.|Biochemical Mode of Action of Fungicides. Ergosterol Biosynthesis Inhibitors|ACS Symp. Ser.304:25-51|1986|10.1021/bk-1986-0304.ch002
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168037|T||Ho,H.H.|Effect of Hymexazol on Growth and Reproduction of Low Temperature Phytophthora Species|Mycopathologia98(1): 17-20|1987|10.1007/BF00431012
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168039|A||Gambardella,C., M.G. Aluigi, S. Ferrando, L. Gallus, P. Ramoino, A.M. Gatti, M. Rottigni, and C. Falugi|Developmental Abnormalities and Changes in Cholinesterase Activity in Sea Urchin Embryos and Larvae from Sperm Exposed to Engineered Nanoparticles|Aquat. Toxicol.130/131:77-85|2013|10.1016/j.aquatox.2012.12.025
168040|A||Li,K., Y. Chen, W. Zhang, Z. Pu, L. Jiang, and Y. Chen|Surface Interactions Affect the Toxicity of Engineered Metal Oxide Nanoparticles Toward Paramecium|Chem. Res. Toxicol.25(8): 1675-1681|2012|10.1021/tx300151y
168041|A||Alonso,A., and J.A. Camargo|Nitrate Causes Deleterious Effects on the Behaviour and Reproduction of the Aquatic Snail Potamopyrgus antipodarum (Hydrobiidae, Mollusca)|Environ. Sci. Pollut. Res. Int.20(8): 5388-5396|2013|10.1007/s11356-013-1544-x
168042|A||Revathi,P., P. Iyapparaj, L.A. Vasanthi, N. Munuswamy, and M. Krishnan|Impact of TBT on the Vitellogenesis and Sex Hormones in Freshwater Prawn Macrobrachium rosenbergii (De Man, 1879)|Aquat. Biosyst.9(1): 13 p.|2013|10.1186/2046-9063-9-10
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168044|T||Pan,X., K.M. Ochoa, M.J. San Francisco, S.B. Cox, K. Dixon, T.A. Anderson, and G.P. Cobb|Absorption, Distribution, and Biotransformation of Hexahydro-1,3,5-Trinitro-1,3,5-Triazine in B6C3F1 Mice (Mus musculus)|Environ. Toxicol. Chem.32(6): 1295-1303|2013|10.1002/etc.2188
168045|A||Oliveira,M., A. Ribeiro, K. Hylland, and L. Guilhermino|Single and Combined Effects of Microplastics and Pyrene on Juveniles (0+Group) of the Common Goby Pomatoschistus microps (Teleostei, Gobiidae)|Ecol. Indic.34:641-647|2013|10.1016/j.ecolind.2013.06.019
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168047|A||Saravanan,K., K.D. Raj, and P. Serfoji|Effect of Cadmium on the Alterations in the Histological Organization of the Gill of Edible Estuarine Clam Meretrix casta|Global J. Trad. Med. Syst.2(2): 4-7|2013|
168048|A||Nevid,N.J., and A.H. Meier|Timed Daily Administrations of Hormones and Antagonists of Neuroendocrine Receptors Alter Day-Night Rhythms of Allograft Rejection in the Gulf Killifish, Fundulus grandis|Gen. Comp. Endocrinol.97(3): 327-339|1995|10.1006/gcen.1995.1033
168049|T||Vahaba,D.M., W.H. Lacey, and M.L. Tomaszycki|DSP-4, a Noradrenergic Neurotoxin, Produces Sex-Specific Effects on Pairing and Courtship Behavior in Zebra Finches|Behav. Brain Res.252:164-175|2013|10.1016/j.bbr.2013.05.056
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168052|T||McKeen,W.E.|A Study of Sugar Beet Rootrot in Southern Ontario|Can. J. Res.27:284-311|1949|10.1139/cjr49c-025
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168056|T||Kreeger,T.J., U.S. Seal, and E.D. Plotka|Influence of Hypothalamic-Pituitary-Adrenocortical Hormones on Reproductive Hormones in Gray Wolves (Canis lupus)|J. Exp. Zool.264(1): 32-41|1992|10.1002/jez.1402640106
168057|T||Lee,K.Y.|Phytoremediation of Chlorpyrifos Insecticide: The Use of Woody Plants and Transgenics to Enhance and Understand the Uptake, Translocation, and Transformation of Chlorpyrifos|Ph.D. Thesis, University of Washington, Seattle, WA:105 p.|2013|
168058|A||Pelli,M.|Effects of Fluoxetine in Juvenile Guppies, Poecilia reticulata|M.S.Thesis, American University, Washington, DC:40 p.|2011|
168059|A||Mennigen,J.A.|The Serotonergic System as a Target of Neuroendocrine Disruption for the Pharmaceutical Fluoxetine in the Brain of Goldfish (Carassius auratus)|Ph.D Thesis, University of Ottawa, Canada:242 p.|2011|
168060|A||Mitchell,K.|The Physiological and Behavioural Adjustments of the Zebrafish Danio rerio Exposed to the beta-Blocker Propranolol|M.S.Thesis, University of Ottawa, Canada:154 p.|2013|
168061|T||Frank,M.R.|Cytochrome P450 and Allelochemical Tolerance in the Sonoran Desert Drosophila|Ph.D.Thesis, University of Colorado, Denver, CO:163 p.|1992|
168062|T||Zhu,W.|Assessing Impacts of Pesticides and Other Stressors on Honey Bee Colony Health: Experimental and Modeling Approaches|Ph.D Thesis, Pennsylvania State University, University Park, PA:197 p.|2013|
168063|T||Prado,J.K.|Management of Potato Leafhopper and Maple Spider Mite on Nursery Grown Maples|Ph.D.Thesis, Purdue University, West Lafayette, IN:128 p.|2013|
168064|A||Fryer,J.N.|Effect of Pentobarbital and 5-Hydroxytryptamine on the Temperature Selection Response of Fish|M.S.Thesis, The University of Western Ontario, Canada:113 p.|1972|
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168066|T||Nunez,J., H. Maldonado, A. Miralto, and N. Balderrama|The Stinging Response of the Honeybee: Effects of Morphine, Naloxone and Some Opioid Peptides|Pharmacol. Biochem. Behav.19(16): 921-924|1983|10.1016/0091-3057(83)90391-X
168067|T||Park,J.Y., H.J. Kim, and J. Kim|Mutation in Domain II of IAA1 Confers Diverse Auxin-Related Phenotypes and Represses Auxin-Activated Expression of Aux/IAA Genes in Steroid Regulator-Inducible System|Plant J.32(5): 669-683|2002|10.1046/j.1365-313X.2002.01459.x
168068|A||Parolini,M., A. Pedriali, and A. Binelli|Application of a Biomarker Response Index for Ranking the Toxicity of Five Pharmaceutical and Personal Care Products (PPCPs) to the Bivalve Dreissena polymorpha|Arch. Environ. Contam. Toxicol.64(3): 439-447|2013|10.1007/s00244-012-9847-3
168069|A||Shivashri,C., T. Rajarajeshwari, and P. Rajasekar|Hepatoprotective Action of Celery (Apium graveolens) Leaves in Acetaminophen-Fed Freshwater Fish (Pangasius sutchi)|Fish Physiol. Biochem.39(5): 1057-1069|2013|10.1007/s10695-012-9762-6
168070|T||Shaw,G., M.B. Renfree, and T.P. Fletcher|A Role for Glucocorticoids in Parturition in a Marsupial, Macropus eugenii|Biol. Reprod.54(3): 728-733|1996|10.1095/biolreprod54.3.728
168071|A||Skolness,S.Y., E.J. Durhan, K.M. Jensen, M.D. Kahl, E.A. Makynen, D.L. Villeneuve, and G.T. Ankley|Effects of Gemfibrozil on Lipid Metabolism, Steroidogenesis, and Reproduction in the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.31(11): 2615-2624|2012|10.1002/etc.1989
168072|T||Robison,M.M., M.P.L. Smid, and D.J. Wolyn|Organic Solvents for the Glucocorticoid Inducer Dexamethasone: Are They Toxic and Unnecessary in Hydroponic Systems?|Can. J. Bot.84(6): 1013-1018|2006|10.1139/b06-055
168073|T||Shin,B., G. Choi, H. Yi, S. Yang, I. Cho, J. Kim, S. Lee, N.C. Paek, J.H. Kim, P.S. Song, and G. Choi|AtMYB21, a Gene Encoding a Flower-Specific Transcription Factor, is Regulated by COP1|Plant J.30(1): 23-32|2002|10.1046/j.1365-313X.2002.01264.x
168074|T||Seif El-Din,S.H., A.N. Abdel-Aal Sabra, O.A. Hammam, and N.M. El-Lakkany|Effect of Ketoconazole, a Cytochrome P450 Inhibitor, on the Efficacy of Quinine and Halofantrine Against Schistosoma mansoni in Mice|Korean J. Parasitol.51(2): 165-175|2013|10.3347/kjp.2013.51.2.165
168075|T||Sanchez,J.P., and N.H. Chua|Arabidopsis PLC1 is Required for Secondary Responses to Abscisic Acid Signals|Plant Cell13(5): 1143-1154|2001|10.1105/tpc.13.5.1143
168076|A||Schultz,I.R., J.J. Nagler, P. Swanson, D. Wunschel, A.D. Skillman, V. Burnett, D. Smith, and R. Barry|Toxicokinetic, Toxicodynamic, and Toxicoproteomic Aspects of Short-Term Exposure to Trenbolone in Female Fish|Toxicol. Sci.136(2): 413-429|2013|10.1093/toxsci/kft220
168077|A||Shamoushaki,M.M.N.|Acute Toxicity of Insecticide, Diazinon and Fungicide, Tilt (Propiconazole) on Pacific White Shrimp, Litopenaeus vannamei Postlarvae and Palaemon adspersus Juveniles|J. Res. Biol.2:160-166|2012|
168078|A||Saravanan,M., and M. Ramesh|Short and Long-Term Effects of Clofibric Acid and Diclofenac on Certain Biochemical and Ionoregulatory Responses in an Indian Major Carp, Cirrhinus mrigala|Chemosphere93(2): 388-396|2013|10.1016/j.chemosphere.2013.05.015
168079|A||Stefanidou,M., M. Georgiou, C. Maravelias, and A. Koutselinis|The Effects of Morphine, Cocaine, Amphetamine and Hashish on the Phagocytosis of the Protozoon Tetrahymena pyriformis Strain W|Toxicol. In Vitro4(6): 779-781|1990|10.1016/0887-2333(90)90048-X
168080|A||Weinberger,J., and R. Klaper|Environmental Concentrations of the Selective Serotonin Reuptake Inhibitor Fluoxetine Impact Specific Behaviors Involved in Reproduction, Feeding and Predator Avoidance in the Fish Pimephales promelas (Fathead Minnow)|Aquat. Toxicol.151:77-83|2014|10.1016/j.aquatox.2013.10.012
168081|A||Velasco-Santamaria,Y.M., P. Bjerregaard, and B. Korsgaard|Evidence of Small Modulation of Ethinylestradiol Induced Effects by Concurrent Exposure to Trenbolone in Male Eelpout Zoarces viviparus|Environ. Pollut.178:189-196|2013|10.1016/j.envpol.2013.03.011
168082|A||Tsiaka,P., V. Tsarpali, I. Ntaikou, M.N. Kostopoulou, G. Lyberatos, and S. Dailianis|Carbamazepine-Mediated Pro-Oxidant Effects on the Unicellular Marine Algal Species Dunaliella tertiolecta and the Hemocytes of Mussel Mytilus galloprovincialis|Ecotoxicology22(8): 1208-1220|2013|10.1007/s10646-013-1108-3
168083|A||Zhang,D.Q., T. Hua, R.M. Gersberg, J. Zhu, W.J. Ng, and S.K. Tan|Fate of Diclofenac in Wetland Mesocosms Planted with Scirpus validus|Ecol. Eng.49:59-64|2012|10.1016/j.ecoleng.2012.08.018
168084|A||Stepanova,S., E. Praskova, L. Chromcova, L. Plhalova, M. Prokes, J. Blahova, and Z. Svobodova|The Effects of Diclofenac on Early Life Stages of Common Carp (Cyprinus carpio)|Environ. Toxicol. Pharmacol.35(3): 454-460|2013|10.1016/j.etap.2012.09.011
168085|A||Kostyra,E., H. Kostyra, B. Jarmolowska, and S. Krawczuk|Tetrahymena termophila as a Source of the Opioid Receptors for Testing of Opioid Peptides|Pol. J. Environ. Stud.11(6): 707-712|2002|
168086|A||Kolodziej,E.P., S. Qu, K.L. Forsgren, S.A. Long, J.B. Gloer, G.D. Jones, D. Schlenk, J. Baltrusaitis, and D.M. Cwiertny|Identification and Environmental Implications of Photo-Transformation Products of Trenbolone Acetate Metabolites|Environ. Sci. Technol.47(10): 5031-5041|2013|10.1021/es3052069
168087|T||Lally,D., P. Ingmire, H.Y. Tong, and Z.H. He|Antisense Expression of a Cell Wall-Associated Protein Kinase, WAK4, Inhibits Cell Elongation and Alters Morphology|Plant Cell13(6): 1317-1331|2001|
168088|T||Joachim,A., E. Lautscham, J. Christoffers, and B. Ruttkowski|Oesophagostomum dentatum: Effect of Glutathione S-Transferase (GST) Inhibitors on GST Activity and Larval Development|Exp. Parasitol.127(4): 762-767|2011|10.1016/j.exppara.2011.01.005
168089|T||Kang,H.G., Y. Fang, and K.B. Singh|A Glucocorticoid-Inducible Transcription System Causes Severe Growth Defects in Arabidopsis and Induces Defense-Related Genes|Plant J.20(1): 127-133|1999|10.1046/j.1365-313X.1999.00575.x
168090|A||Islas-Flores,H., L.M. Gomez-Olivan, M. Galar-Martinez, A. Colin-Cruz, N. Neri-Cruz, and S. Garcia-Medina|Diclofenac-Induced Oxidative Stress in Brain, Liver, Gill and Blood of Common Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.92:32-38|2013|10.1016/j.ecoenv.2013.01.025
168091|T||Kawai-Yamada,M., L. Jin, K. Yoshinaga, A. Hirata, and H. Uchimiya|Mammalian Bax-Induced Plant Cell Death can be Down-Regulated by Overexpression of Arabidopsis Bax Inhibitor-1 (AtBI-1)|Proc. Natl. Acad. Sci. U.S.A.98(21): 12295-12300|2001|10.1073/pnas.211423998
168092|T||Iwai,H., A. Hokura, M. Oishi, H. Chida, T. Ishii, S. Sakai, and S. Satoh|The Gene Responsible for Borate Cross-Linking of Pectin Rhamnogalacturonan-II is Required for Plant Reproductive Tissue Development and Fertilization|Proc. Natl. Acad. Sci. U.S.A.103(44): 16592-16597|2006|10.1073/pnas.0605141103
168094|A||Liu,J., G. Lu, D. Wu, and Z. Yan|A Multi-Biomarker Assessment of Single and Combined Effects of Norfloxacin and Sulfamethoxazole on Male Goldfish (Carassius auratus)|Ecotoxicol. Environ. Saf.102:12-17|2014|10.1016/j.ecoenv.2014.01.014
168095|A||Lang,J., and L. Kohidai|Effects of the Aquatic Contaminant Human Pharmaceuticals and Their Mixtures on the Proliferation and Migratory Responses of the Bioindicator Freshwater Ciliate Tetrahymena|Chemosphere89(5): 592-601|2012|10.1016/j.chemosphere.2012.05.058
168096|A||Matozzo,V., S. Rova, and M.G. Marin|The Nonsteroidal Anti-Inflammatory Drug, Ibuprofen, Affects the Immune Parameters in the Clam Ruditapes philippinarum|Mar. Environ. Res.79:116-121|2012|10.1016/j.marenvres.2012.06.003
168097|A||Melvin,S.D., M.C. Cameron, and C.M. Lanctot|Individual and Mixture Toxicity of Pharmaceuticals Naproxen, Carbamazepine, and Sulfamethoxazole to Australian Striped Marsh Frog Tadpoles (Limnodynastes peronii)|J. Toxicol. Environ. Health Part A77(6): 337-345|2014|10.1080/15287394.2013.865107
168098|A||Lamichhane,K., S.N. Garcia, D.B. Huggett, D.L. DeAngelis, and T.W. La Point|Chronic Effects of Carbamazepine on Life-History Strategies of Ceriodaphnia dubia in Three Successive Generations|Arch. Environ. Contam. Toxicol.64(3): 427-438|2013|10.1007/s00244-012-9845-5
168099|A||Lamichhane,K., S.N. Garcia, D.B. Huggett, D.L. DeAngelis, and T.W. La Point|Exposures to a Selective Serotonin Reuptake Inhibitor (SSRI), Sertraline Hydrochloride, over Multiple Generations:  Changes in Life History Traits in Ceriodaphnia dubia|Ecotoxicol. Environ. Saf.101:124-130|2014|10.1016/j.ecoenv.2013.11.026
168100|A||Luna,T.O., S.C. Plautz, and C.J. Salice|Effects of 17alpha-Ethynylestradiol, Fluoxetine, and the Mixture on Life History Traits and Population Growth Rates in a Freshwater Gastropod|Environ. Toxicol. Chem.32(12): 2771-2778|2013|10.1002/etc.2372
168101|T||Liu,S., N. Saul, B. Pan, R. Menzel, and C.E.W. Steinberg|The Non-Target Organism Caenorhabditis elegans Withstands the Impact of Sulfamethoxazole|Chemosphere93(10): 2373-2380|2013|10.1016/j.chemosphere.2013.08.036
168102|A||Morthorst,J.E., A. Lister, P. Bjerregaard, and G. Van der Kraak|Ibuprofen Reduces Zebrafish PGE2 Levels but Steroid Hormone Levels and Reproductive Parameters are not Affected|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(2): 251-257|2013|10.1016/j.cbpc.2012.12.001
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168104|T||Beugnet,F., M. Gauthey, and D. Kerboeuf|Partial In Vitro Reversal of Benzimidazole Resistance by the Free-Living Stages of Haemonchus contortus with Verapamil|Vet. Rec.141(22): 575-576|1997|10.1136/vr.141.22.575
168105|A||Hazelton,P.D., B. Du, S.P. Haddad, A.K. Fritts, C.K. Chambliss, B.W. Brooks, and R.B. Bringolf|Chronic Fluoxetine Exposure Alters Movement and Burrowing in Adult Freshwater Mussels|Aquat. Toxicol.151:27-35|2014|10.1016/j.aquatox.2013.12.019
168106|T||Huber,C., B. Bartha, and P. Schroder|Metabolism of Diclofenac in Plants - Hydroxylation is Followed by Glucose Conjugation|J. Hazard. Mater.243:250-256|2012|10.1016/j.jhazmat.2012.10.023
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168108|T||Iori,V., M. Zacchini, and F. Pietrini|Growth, Physiological Response and Phytoremoval Capability of Two Willow Clones Exposed to Ibuprofen Under Hydroponic Culture|J. Hazard. Mater.262:796-804|2013|10.1016/j.jhazmat.2013.09.017
168109|A||Hampel,M., J.E. Bron, J.B. Taggart, and M.J. Leaver|The Antidepressant Drug Carbamazepine Induces Differential Transcriptome Expression in the Brain of Atlantic Salmon, Salmo salar|Aquat. Toxicol.151:114-123|2014|10.1016/j.aquatox.2013.12.018
168110|AT||Kralj-Klobucar,N., and M. Gorup|Histochemical Investigations of NADPH- and NADH-Tetrazolium Reductase Activity in the Liver of Selenium and Copper Treated Carp (Cyprinus carpio L.)|Vet. Arh. (Tisak)74(5): 331-340|2004|
168111|T||Xiong,W., X. Ding, Y. Zhang, and Y. Sun|Ecotoxicological Effects of a Veterinary Food Additive, Copper Sulphate, on Antioxidant Enzymes and mRNA Expression in Earthworms|Environ. Toxicol. Pharmacol.37(1): 134-140|2014|10.1016/j.etap.2013.11.014
168112|T||Xie,X., Q. Zhou, Z. He, and Y. Bao|Physiological and Potential Genetic Toxicity of Chlortetracycline as an Emerging Pollutant in Wheat (Triticum aestivum L.)|Environ. Toxicol. Chem.29(4): 922-928|2010|10.1002/etc.79
168113|A||Xia,J., S. Fu, Z. Cao, J. Peng, J. Peng, T. Dai, and L. Cheng|Ecotoxicological Effects of Waterborne PFOS Exposure on Swimming Performance and Energy Expenditure in Juvenile Goldfish (Carassius auratus)|J. Environ. Sci.25(8): 1672-1679|2013|10.1016/S1001-0742(12)60219-8
168114|A||Zou,X.Y., B. Xu, C.P. Yu, and H.W. Zhang|Imbalance Between Oxidative and Antioxidative Systems:  Toward an Understanding of Visible Light-Induced Titanium Dioxide Nanoparticles Toxicity|Chemosphere93(10): 2451-2457|2013|10.1016/j.chemosphere.2013.08.076
168115|T||Van der Ploeg,M.J.C., J.M. Baveco, A. Van der Hout, R. Bakker, I.M.C.M. Rietjens, and N.W. Van den Brink|Effects of C60 Nanoparticle Exposure on Earthworms (Lumbricus rubellus) and Implications for Population Dynamics|Environ. Pollut.159(1): 198-203|2011|10.1016/j.envpol.2010.09.003
168116|A||Garcia,S.N., M. Foster, L.A. Constantine, and D.B. Huggett|Field and Laboratory Fish Tissue Accumulation of the Anti-Convulsant Drug Carbamazepine|Ecotoxicol. Environ. Saf.84:207-211|2012|10.1016/j.ecoenv.2012.07.013
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168121|T||Corder,R.F.|The Sublethal Effects of Methoxyfenozide and Spinosad on the Aphid Parasitoid, Lysiphlebus testaceipes|M.S. Thesis, University of Arkansas, Fayetteville, AR:58 p.|2006|
168122|T||Harvey,G.J.|Australian Weeds Research Newsletter Number 33, 1985|Aust. Weeds Res. Newsl.:60 p. |1985|
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168124|T||Grichar,W.J.|Horse Purslane (Trianthema portulacastrum) Control in Peanut (Arachis hypogaea)|Weed Technol.7(3): 570-572|1993|10.1017/S0890037X00037350
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168126|T||Ivany,J.A., and J. Reddin|Effect of Post-Emergence Herbicide Injury and Planting Date on Yield of Narrow-Row Soybean (Glycine max)|Can. J. Plant Sci.82:249-252|2002|10.4141/P01-028
168127|T||Mosallanejad,H., T. Soin, L. Swevers, K. Iatrou, Y. Nakagawa, and G. Smagghe|Non-Steroidal Ecdysteroid Agonist Chromafenozide:  Gene Induction Activity, Cell Proliferation Inhibition and Larvicidal Activity|Pestic. Biochem. Physiol.92(2): 70-76|2008|10.1016/j.pestbp.2008.06.004
168128|T||Abbas,N., S.A. Shad, and M. Razaq|Fitness Cost, Cross Resistance and Realized Heritability of Resistance to Imidacloprid in Spodoptera litura (Lepidoptera: Noctuidae)|Pestic. Biochem. Physiol.103(3): 181-188|2012|10.1016/j.pestbp.2012.05.001
168129|T||Anhalt,F.A., J.L. Azevedo, R.L. Sugayama, A. Specht, and N.M. Barros|Potential of Metarhizium anisopliae (Metsch.) Sorokin (Ascomycetes, Hypocreales) in the Control of Bonagota salubricola (Meyrick) (Lepidoptera, Tortricidae) and Its Compatibility with Chemical Insecticides|Braz. J. Biol.70(4): 931-936|2010|10.1590/S1519-69842010000500003
168130|T||Cordero,R.J., T.P. Kuhar, J. Speese III, R.R. Youngman, E.E. Lewis, J.R. Bloomquist, L.T. Kok, and A.D. Bratsch|Field Efficacy of Insecticides for Control of Lepidopteran Pests on Collards in Virginia|Plant Health Prog.:13-20|2006|
168131|T||Ioriatti,C., E. Pasqualini, D. Pasquier, and C. Tomasi|Efficacy Baselines of Seven Insecticides Against Larvae of Pandemis heparana (Lepidoptera : Tortricidae)|J. Pest Sci.79:163-168|2006|10.1007/s10340-006-0130-0
168132|T||Jin,T., L. Zeng, Y. Lin, Y. Lu, and G. Liang|Insecticide Resistance of the Oriental Fruit Fly, Bactrocera dorsalis (Hendel) (Diptera: Tephritidae), in Mainland China|Pest Manag. Sci.67:370-376|2011|10.1002/ps.2076
168133|T||Magalhaes,L.C., and J.F. Walgenbach|Life Stage Toxicity and Residual Activity of Insecticides to Codling Moth and Oriental Fruit Moth (Lepidoptera: Tortricidae)|J. Econ. Entomol.104(6): 1950-1959|2011|10.1603/EC11070
168134|T||Martinez-Andujar,C., M.I. Ordiz, Z. Huang, M. Nonogaki, R.N. Beachy, and H. Nonogaki|Induction of 9-cis-Epoxycarotenoid Dioxygenase in Arabidopsis thaliana Seeds Enhances Seed Dormancy|Proc. Natl. Acad. Sci. U.S.A.108(41): 17225-17229|2011|10.1073/pnas.1112151108
168135|T||Mathias,D.K., E. Ochomo, F. Atieli, M. Ombok, M. Nabie Bayoh, G. Olang, D. Muhia, L. Kamau, J.M. Vulule, M.J. Hamel, W.|Spatial and Temporal Variation in the kdr Allele L1014S in Anopheles gambiae s.s. and Phenotypic Variability in Susceptibility to Insecticides in Western Kenya|Malar. J.10:10 p.|2011|10.1186/1475-2875-10-10
168136|T||Mommaerts,V., G. Sterk, and G. Smagghe|Bumblebees can be Used in Combination with Juvenile Hormone Analogues and Ecdysone Agonists|Ecotoxicology15:513-521|2006|10.1007/s10646-006-0087-z
168137|T||Owen,L.N., A.L. Catchot, F.R. Musser, J. Gore, D.C. Cook, and R. Jackson|Susceptibility of Chrysodeixis includens (Lepidoptera: Noctuidae) to Reduced-Risk Insecticides|Fla. Entomol.96(2): 554-559|2013|10.1653/024.096.0221
168138|T||Pineda,S., G. Smagghe, M.I. Schneider, P. Del Estal, E. Vinuela, A.M. Martinez, and F. Budia|Toxicity and Pharmacokinetics of Spinosad and Methoxyfenozide to Spodoptera littoralis (Lepidoptera: Noctuidae)|Environ. Entomol.35(4): 856-864|2006|10.1603/0046-225X-35.4.856
168140|T||Rajathi,A., J. Pandiarajan, and M. Krishnan|Effect of RH-2485 on Development, Metamorphosis and Synthesis of Major Proteins in Female Silkworm Bombyx mori|Biologia65(5): 903-913|2010|10.2478/s11756-010-0104-9
168141|T||Roubos,C.R., C. Rodriguez-Saona, R. Holdcraft, K.S. Mason, and R. Isaacs|Relative Toxicity and Residual Activity of Insecticides Used in Blueberry Pest Management: Mortality of Natural Enemies|J. Econ. Entomol.107(1): 277-285|2014|10.1603/EC13191
168142|T||Tanani,M.A., K.S. Ghoneim, and K.S. Hamadah|Comparative Effects of Certain IGRS on the Carbohydrates of Hemolymph and Fat Body of the Desert Locust, Schistocerca gregaria (Orthoptera: Acrididae)|Fla. Entomol.95(4): 928-935|2012|10.1653/024.095.0416
168143|A||Volkoff,H., D. Hamoutene, and J.F. Payne|Potential Effects of Tebufenozide on Feeding and Metabolism of Lake Trout (Salvelinus namaycush)|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2777:24 p.|2007|
168144|T||Wang,D.S., Y.R. He, X.L. Guo, and Y.L. Luo|Acute Toxicities and Sublethal Effects of Some Conventional Insecticides on Trichogramma chilonis (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.105(4): 1157-1163|2012|10.1603/EC12042
168145|T||Zheng,X., X. Ren, and J. Su|Insecticide Susceptibility of Cnaphalocrocis medinalis (Lepidoptera: Pyralidae) in China|J. Econ. Entomol.104(2): 653-658|2011|10.1603/EC10419
168146|T||Held,D., D.A. Potter, C. Williamson, B. Kunkel, B. Kreuger, N. Mason, E. Eliason, and C. Keathley|Control of White Grubs with Halofenozide (RH 0345) and Imidacloprid (Merit), 1996|Arthropod Manag. Tests22:359-360|1997|
168147|T||Held,D., D.A. Potter, C. Williamson, B. Kunkel, B. Kreuger, N. Mason, E. Eliason, and C. Keathley|Effects of Timing on Efficacy of Halofenozide (RH0345) and Imidacloprid (Merit) Against White Grubs, 1996|Arthropod Manag. Tests22:359-|1997|
168148|T||Heller,P.R., and R. Walker|Management of a White Grub Complex Prior to Egg Lay with 1.5-G Formulations of Halofenozide and Mach-2 Liquid Insecticide, 1997|Arthropod Manag. Tests23:353-|1998|
168149|T||Heller,P.R., and R. Walker|Curative Management of Northern Masked Chafer Grubs with Dylox 6.2 G, Mach-2 1.5G, and Merit 0.5G, 1998|Arthropod Manag. Tests24:380-381|1999|
168150|T||Weinhold,A.P., F.P. Baxendale, and R.D. Grisso|High Pressure Injection of Liquid Insecticides for Control of Masked Chafer Larvae, 1998|Arthropod Manag. Tests24:363-|1999|
168151|T||Ellis,J.M., and J.L. Griffin|Benefits of Soil-Applied Herbicides in Glyphosate-Resistant Soybean (Glycine max)|Weed Technol.16(3): 541-547|2002|10.1614/0890-037X(2002)016[0541:BOSAHI]2.0.CO;2
168152|T||Shoup,D.E., K. Al-Khatib, and P.A. Kulakow|Inheritance of Resistance of Common Waterhemp (Amaranthus rudis) to Protoporphyrinogen Oxidase-Inhibiting Herbicide|Trans. Kans. Acad. Sci.111(3/4): 283-291|2008|10.1660/0022-8443-111.3.283
168153|T||Shoup,D.E., and K. Al-Khatib|Fate of Acifluorfen and Lactofen in Common Waterhemp (Amaranthus rudis) Resistant to Protoporphyrinogen Oxidase-Inhibiting Herbicides|Weed Sci.53:284-289|2005|10.1614/WS-04-169R1
168154|T||Grichar,W.J., and D.C. Sestak|Control of Golden Crownbeard (Verbesina encelioides) in Peanut (Arachis hypogaea) with Postemergence Herbicides|Peanut Sci.25(1): 39-43|1998|10.3146/i0095-3679-25-1-10
168155|T||Harrison,S.K., and E.E. Regnier|Assessing Herbicide Phytotoxicity with Covariance Analysis|Weed Technol.4(4): 828-832|1990|10.1017/S0890037X00026488
168156|T||Holshouser,D.L., and H.D. Coble|Compatibility of Sethoxydim with Five Postemergence Broadleaf Herbicides|Weed Technol.4(1): 128-133|1990|10.1017/S0890037X00025112
168157|T||Mayo,C.M., M.J. Horak, D.E. Peterson, and J.E. Boyer|Differential Control of Four Amaranthus Species by Six Postemergence Herbicides in Soybean (Glycine max)|Weed Technol.9(1): 141-147|1995|10.1017/S0890037X00023083
168158|T||Nimbal,C.I., D.R. Shaw, S.O. Duke, and J.D.,Jr. Byrd|Response of MSMA-Resistant and -Susceptible Common Cocklebur (Xanthium strumarium) Biotypes to Cotton (Gossypium hirsutum) Herbicides and Cross-Resistance to Arsenicals and Membrane Disruptors|Weed Technol.9(3): 440-445|1995|10.1017/S0890037X00023654
168159|T||Pline,W.A., J.W. Wilcut, and K.L. Edmisten|Postemergence Weed Control in Soybean (Glycine max) with Cloransulam-Methyl and Diphenyl Ether Tank-Mixtures|Weed Technol.16(4): 737-742|2002|10.1614/0890-037X(2002)016[0737:PWCISG]2.0.CO;2
168160|T||Shaw,D.R., and M.T. Wesley|Interacting Effects on Absorption and Translocation from Tank Mixtures of ALS-Inhibiting and Diphenylether Herbicides|Weed Technol.7(3): 693-698|1993|10.1017/S0890037X00037568
168161|T||Teasdale,J.R.|Selectivity of Diphenyl Ether Herbicides Between Tomato (Lycopersicon esculentum) and Eastern Black Nightshade (Solanum ptycanthum)|Weed Technol.1(2): 165-167|1987|10.1017/S0890037X00029389
168162|T||Tierens,K.F.M.J., B.P.H.J. Thomma, R.P. Bari, M. Garmier, K. Eggermont, M. Brouwer, I.A.M.A. Penninckx, W.F. Broekaert,|Esa1, an Arabidopsis Mutant with Enhanced Susceptibility to a Range of Necrotrophic Fungal Pathogens, Shows a Distorted Induction of Defense Responses by Reactive Oxygen Generating Compounds|Plant J.29(2): 131-140|2002|10.1046/j.1365-313x.2002.01199.x
168163|T||Unland,R.D., K. Al-Khatib, and D.E. Peterson|Interactions Between Imazamox and Diphenylethers|Weed Sci.47(4): 462-466|1999|10.1017/S0043174500092080
168164|T||Wesley,M.T., and D.R. Shaw|Interactions of Diphenylether Herbicides with Chlorimuron and Imazaquin|Weed Technol.6(2): 345-351|1992|10.1017/S0890037X00034849
168165|T||Wichert,R.A., R. Bozsa, R.E. Talbert, and L.R. Oliver|Temperature and Relative Humidity Effects on Diphenylether Herbicides|Weed Technol.6(1): 19-24|1992|10.1017/S0890037X00034230
168166|T||Wicks,G.A., A.R. Martin, and G.E. Hanson|Controlling Kochia (Kochia scoparia) in Soybean (Glycine max) with Postemergence Herbicides|Weed Technol.11(3): 567-572|1997|10.1017/S0890037X00045437
168168|T||Boyette,C.D., P.C.,Jr. Quimby, C.T. Bryson, G.H. Egley, and F.E. Fulgham|Biological Control of Hemp Sesbania (Sesbania exaltata) Under Field Conditions with Colletotrichum truncatum Formulated in an Invert Emulsion|Weed Sci.41(3): 497-500|1993|10.1017/S0043174500052243
168169|T||Gaba,V., and J. Gressel|Acifluorfen Enhancement of Cryptochrome-Modulated Sporulation Following an Inductive Light Pulse|Plant Physiol.83(1): 225-227|1987|10.1104/pp.83.1.225
168170|T||Huckaba,R.M., and H.D. Coble|Effect of Soybean Thrips (Thysanoptera: Thripidae) Feeding Injury on Penetration of Acifluorfen in Soybean|J. Econ. Entomol.84(1): 300-305|1991|10.1093/jee/84.1.300
168171|T||Reddy,K.N., and D. Chachalis|Redvine (Brunnichia ovata) and Trumpetcreeper (Campsis radicans) Management in Glufosinate- and Glyphosate-Resistant Soybean|Weed Technol.18:1058-1064|2004|10.1614/WT-03-234R1
168172|AT||Ensminger,M.P., F.D. Hess, and J.T. Bahr|Nitro Free Radical Formation of Diphenyl Ether Herbicides is not Necessary for Their Toxic Action|Pestic. Biochem. Physiol.23(2): 163-170|1985|10.1016/0048-3575(85)90003-3
168173|T||Heim,D.R., and I.M. Larrinua|Primary Site of Action of Amitrole in Arabidopsis thaliana Involves Inhibition of Root Elongation but not of Histidine or Pigment Biosynthesis|Plant Physiol.91(3): 1226-1231|1989|10.1104/pp.91.3.1226
168174|T||Kim,J.G., K. Back, H.Y. Lee, H.J. Lee, T.H. Phung, B. Grimm, and S. Jung|Increased Expression of Fe-Chelatase Leads to Increased Metabolic Flux into Heme and Confers Protection Against Photodynamically Induced Oxidative Stress|Plant Mol. Biol.86:271-287|2014|10.1007/s11103-014-0228-3
168175|T||Minton,B.W., D.R. Shaw, and M.E. Kurtz|Postemergence Grass and Broadleaf Herbicide Interactions for Red Rice (Oryza sativa) Control in Soybeans (Glycine max)|Weed Technol.3(2): 329-334|1989|10.1017/S0890037X00031894
168176|T||Petersen,J.L., D.N. Ueckert, and M.W. Wagner|Herbicides to Aid Establishment of Fourwing Saltbush|Gen. Tech. Rep. INT276:305-309|1990|
168177|T||Price,A.J., J.W. Wilcut, and C.W. Swann|Weed Management with Diclosulam in Peanut (Arachis hypogaea)|Weed Technol.16:724-730|2002|10.1614/0890-037X(2002)016[0724:WMWDIP]2.0.CO;2
168178|T||Argentine,J.A., R.K. Jansson, W.R. Halliday, D. Rugg, and C.S. Jany|Potency, Spectrum and Residual Activity of Four New Insecticides Under Glasshouse Conditions|Fla. Entomol.85(4): 552-562|2002|10.1653/0015-4040(2002)085[0552:PSARAO]2.0.CO;2
168179|T||Clarke-Harris,D., and S.J. Fleischer|Sequential Sampling and Biorational Chemistries for Management of Lepidopteran Pests of Vegetable Amaranth in the Caribbean|J. Econ. Entomol.96(3): 798-804|2003|10.1093/jee/96.3.798
168180|T||Heller,P.R., and R. Walker|Management of White Grubs with Applications of Experimental CGA-293343 Formulations, Isofenphos, Imidacloprid, and Halofenozide, 1998|Arthropod Manag. Tests24:352-353|1999|
168181|T||Kuwano,E., M. Shimizu, K. Shimazu, S. Nakazawa, and K. Suzuki|Synthesis and Precocious-Metamorphosis-Inducing Activity of 3-Pyridyl Ethers|Pestic. Sci.52(3): 251-257|1998|10.1002/(SICI)1096-9063(199803)52:3<251::AID-PS693>3.0.CO;2-P
168182|T||Mansfield,S., T.M. Withers, S.F. Gous, K.J.B. Potter, D.J. Kriticos, M.C. Watson, and M.O. Kimberley|Potential of Selective Insecticides for Managing Uraba lugens (Lepidoptera: Nolidae) on Eucalypts|J. Econ. Entomol.99(3): 780-789|2006|10.1093/jee/99.3.780
168183|T||Sun,J., P. Liang, and X. Gao|Cross-Resistance Patterns and Fitness in Fufenozide-Resistant Diamondback Moth, Plutella xylostella (Lepidoptera: Plutellidae)|Pest Manag. Sci.68:285-289|2012|10.1002/ps.2258
168184|T||Sonoda,M., E. Kuwano, and E. Taniguchi|Precocious Metamorphosis Induced by 1,5-Disubstituted Imidazoles is Counteracted by Tebufenozide (RH-5992), an Ecdysteroid Agonist|J. Pestic. Sci. (Multiple Languages)20(3): 325-327|1995|10.1584/jpestics.20.325
168185|T||Chatterjee,M.L., and S. Mondal|Sustainable Management of Key Lepidopteran Insect Pests of Vegetables|Acta Hortic.:147-153|2012|10.17660/ActaHortic.2012.958.17
168186|T||Davies,L., D.R. Williams, I.A. Aguiar-Santana, J. Pedersen, P.C. Turner, and H.H. Rees|Expression and Down-Regulation of Cytochrome P450 Genes of the CYP4 Family by Ecdysteroid Agonists in Spodoptera littoralis and Drosophila melanogaster|Insect Biochem. Mol. Biol.36(10): 801-807|2006|10.1016/j.ibmb.2006.08.001
168187|T||Gurr,G.M., W.G. Thwaite, and H.I. Nicol|Field Evaluation of the Effects of the Insect Growth Regulator Tebufenozide on Entomophagous Arthropods and Pests of Apples|Aust. J. Entomol.38(2): 135-140|1999|10.1046/j.1440-6055.1999.00097.x
168188|T||Zhang,P., M. Gao, W. Mu, C. Zhou, and X.H. Li|Resistant Levels of Spodoptera exigua to Eight Various Insecticides in Shandong, China|J. Pestic. Sci. (Multiple Languages)39(1): 7-13|2014|10.1584/jpestics.D13-053
168189|T||Lysandrou,M., S.A. Temerak, and A.A. Sayed|The Use of Different Insect Control Regimes Using Three Green Chemicals to Combat Batrachedra amydraula Meyrick and Cadra spp. on Date Palm Fruit in Egypt|Acta Hortic.:481-489|2010|10.17660/ActaHortic.2010.882.55
168190|T||Sayed,A.A., S.A. Temerak, and M. Lysandrou|The Use of Different Insect Control Regimes Using Three Green Chemicals to Combat Viracola livia on Date Palm Fruit in Egypt|Acta Hortic.:471-479|2010|10.17660/ActaHortic.2010.882.54
168191|T||Tomkins,A.R., C. Thomson, and D.J. Wilson|Effect of Tebufenozide on Encarsia citrina, an Armoured Scale Parasitoid|Proc. N. Z. Plant Prot. Conf.48:139-142|1995|10.30843/nzpp.1995.48.11508
168192|T||Soltani-Mazouni,N., M. Hami, and H. Gramdi|Sublethal Effects of Methoxyfenozide on Reproduction of the Mediterranean Flour Moth, Ephestia kuehniella Zeller|Invertebr. Reprod. Dev.56(2): 157-163|2012|10.1080/07924259.2011.582695
168193|T||Wang,H., Z. Yang, Z. Fan, Q. Wu, Y. Zhang, N. Mi, S. Wang, Z. Zhang, H. Song, and F. Liu|Synthesis and Insecticidal Activity of N-tert-Butyl-N,N '-Diacylhydrazines Containing 1,2,3-Thiadiazoles|J. Agric. Food Chem.59:628-634|2011|10.1021/jf104004q
168194|T||Sanogo,S., X.B. Yang, and P. Lundeen|Field Response of Glyphosate-Tolerant Soybean to Herbicides and Sudden Death Syndrome|Plant Dis.85(7): 773-779|2001|10.1094/PDIS.2001.85.7.773
168195|A||Scrano,L., S.A. Bufo, M. D'Auria, P. Meallier, A. Behechti, and K.W. Shramm|Photochemistry and Photoinduced Toxicity of Acifluorfen, a Diphenyl-Ether Herbicide|J. Environ. Qual.31:268-274|2002|
168196|T||Shaaltiel,Y., A. Glazer, P.F. Bocion, and J. Gressel|Cross Tolerance to Herbicidal and Environmental Oxidants of Plant Biotypes Tolerant to Paraquat, Sulfur Dioxide, and Ozone|Pestic. Biochem. Physiol.31(1): 13-23|1988|10.1016/0048-3575(88)90024-7
168197|T||Bradley,C.A., G.L. Hartman, L.M. Wax, and W.L. Pedersen|Quality of Harvested Seed Associated with Soybean Cultivars and Herbicides Under Weed-Free Conditions|Plant Dis.86(9): 1036-1042|2002|10.1094/PDIS.2002.86.9.1036
168198|T||Fronning,B.E., and G. Kegode|Biennial Wormwood (Artemisia biennis) Postemergence Control in Soybean|Weed Technol.18:380-387|2004|10.1614/WT-03-113R1
168199|T||Johnson,W.O., G.E. Kollman, C. Swithenbank, and R.Y. Yih|RH-6201 (Blazer): A New Broad Spectrum Herbicide for Postemergence Use in Soybeans|J. Agric. Food Chem.26(1): 285-286|1978|10.1021/jf60215a027
168200|T||Nalewaja,J., and R. Matysiak|Spray Carrier Salts Affect Herbicide Toxicity to Kochia (Kochia scoparia)|Weed Technol.7(1): 154-158|1993|10.1017/S0890037X00037040
168201|A||Matsumoto,H., and S.O. Duke|Acifluorfen-Methyl Effects on Porphyrin Synthesis in Lemna pausicostata Hegelm. 6746|J. Agric. Food Chem.38(11): 2066-2071|1990|10.1021/jf00101a014
168202|T||Murphy,T.R., and B.J. Gossett|Control of Cowpea (Vigna unguiculata) in Soybean (Glycine max) with Acifluorfen|Weed Sci.32(4): 427-431|1984|10.1017/S0043174500059270
168203|T||Soldatova,O., A. Apchelimov, N. Radukina, T. Ezhova, S. Shestakov, V. Ziemann, B. Hedtke, and B. Grimm|An Arabidopsis Mutant that is Resistant to the Protoporphyrinogen Oxidase Inhibitor Acifluorfen Shows Regulatory Changes in Tetrapyrrole Biosynthesis|Mol. Genet. Genomics273:311-318|2005|10.1007/s00438-005-1129-6
168204|T||Wills,G.D., and C.G. McWhorter|Effect of Environment on the Translocation and Toxicity of Acifluorfen to Showy Crotalaria (Crotalaria spectabilis)|Weed Sci.29(4): 397-401|1981|10.1017/S0043174500039886
168205|A||Becerril,J.M., M.V. Duke, U.B. Nandihalli, H. Matsumoto, and S.O. Duke|Light Control of Porphyrin Accumulation in Acifluorfen-Methyl-Treated Lemna paucicostata|Physiol. Plant. (Multiple Languages)86(1): 6-16|1992|10.1111/j.1399-3054.1992.tb01305.x
168206|T||Bridger,G.M., W. Yang, D.E. Falk, and B.D. McKersie|Cold Acclimation Increases Tolerance of Activated Oxygen in Winter Cereals|J. Plant Physiol.144(2): 235-240|1994|10.1016/S0176-1617(11)80549-3
168207|T||Browde,J.A., L.P. Pedigo, M.D.K. Owen, and G.L. Tylka|Soybean Yield and Pest Management as Influenced by Nematodes, Herbicides, and Defoliating Insects|Agron. J.86(4): 601-608|1994|10.2134/agronj1994.00021962008600040005x
168208|T||Gealy,D.R., M. Anders, B. Watkins, and S. Duke|Crop Performance and Weed Suppression by Weed-Suppressive Rice Cultivars in Furrow- and Flood-Irrigated Systems Under Reduced Herbicide Inputs|Weed Sci.62(2): 303-320|2014|10.1614/WS-D-13-00104.1
168209|T||Sumner,H.R., C.C. Dowler, and P.M. Garvey|Application of Agrichemicals by Chemigation, Pivot-Attached Sprayer Systems, and Conventional Sprayers|Appl. Eng. Agric.16(2): 103-107|2000|10.13031/2013.5063
168210|T||Barna,B., A.L. Adam, G. Gullner, and Z. Kiraly|Role of Antioxidant Systems and Juvenility in Tolerance of Plants to Diseases and Abiotic Stresses|Acta Phytopathol. Entomol. Hung.30(1/2): 39-45|1995|
168211|T||Saayman-du Toit,A.E.J.|Phytotoxicity of Seven Graminicides on Maize|S. Afr. J. Plant Soil19(2): 111-113|2002|10.1080/02571862.2002.10634448
168212|T||Johnson,W.G., G.S. Chahal, and D.L. Regehr|Efficacy of Various Corn Herbicides Applied Preplant Incorporated and Preemergence|Weed Technol.26(2): 220-229|2012|10.1614/WT-D-11-00149.1
168213|T||Eyherabide,J.J.|Evaluation of Pre-Emergent Herbicides for Weed Control in No Tillage Soybeans|Tests Agrochem. Cultiv.17:64-65|1996|
168214|T||Hulting,A.G., J.T. Dauer, B. Hinds-Cook, D. Curtis, R.M. Koepke-Hill, and C. Mallory-Smith|Management of Italian Ryegrass (Lolium perenne ssp. multiflorum) in Western Oregon with Preemergence Applications of Pyroxasulfone in Winter Wheat|Weed Technol.26(2): 230-235|2012|10.1614/WT-D-11-00059.1
168215|A||Tucci,S., R. Vacula, J. Krajcovic, P. Proksch, and W. Martin|Variability of Wax Ester Fermentation in Natural and Bleached Euglena gracilis Strains in Response to Oxygen and the Elongase Inhibitor Flufenacet|J. Eukaryot. Microbiol.57(1): 63-69|2010|10.1111/j.1550-7408.2009.00452.x
168216|T||Koepke-Hill,R.M., G.R. Armel, K.W. Bradley, W.A. Bailey, H.P. Wilson, and T.E. Hines|Evaluation of Flufenacet plus Metribuzin Mixtures for Control of Italian Ryegrass in Winter Wheat|Weed Technol.25:563-567|2011|10.1614/WT-D-10-00149.1
168217|T||Mullen,R.J., J. Caprile, T.C. Viss, R.W. Whiteley, and C.J. Rivara|Recent Research Developments in Tomato Weed Management|Acta Hortic.487:165-170|1999|10.17660/ActaHortic.1999.487.21
168218|T||Singh,D., P. Lal, P.C. Pandey, P.S. Bisth, and S.K. Singh|Integrated Weed Management in Transplanted Rice (Oryza sativa L.)|Environ. Ecol.30(3C): 1146-1149|2012|
168219|T||Daugovish,O., S.A. Fennimore, and R.F. Smith|Herbicide Evaluation for Fresh Market Celery|Weed Technol.21(3): 719-723|2007|10.1614/WT-06-202.1
168220|T||Haar,M.J., S.A. Fennimore, M.E. McGiffen, W.T. Lanini, and C.E. Bell|Evaluation of Preemergence Herbicides in Vegetable Crops|HortTechnology12(1): 95-99|2002|10.21273/HORTTECH.12.1.95
168221|T||Jobling,G.L., D.J. Bluett, and N.M. Adam|Control of Broad-Leaved Weeds, Particularly Galium aparine, in UK Potato Trials Using a Mixture of Flufenacet and Metribuzin|Br. Crop Prot. Conf. Weeds1:343-348|1999|
168222|T||King,S.R., and E.S.,Jr. Hagood|Effect of Application Rate and Timing of AE F130060 03 plus AE F107892 for Control of Italian Ryegrass (Lolium multiflorum) in Barley (Hordeum vulgare)|Weed Technol.17(4): 866-870|2003|10.1614/wt-03-024-r1
168223|T||Singh,S., S. Narwal, H. Singh, and R.K. Malik|Evaluation of YRC-2388 for the Control of Weeds in Transplanted Rice|Agric. Sci. Dig.25(1): 29-31|2005|
168224|T||Soltani,N., B. Deen, S. Bowley, and P.H. Sikkema|Effects of Pre-Emergence Applications of Flufenacet plus Metribuzin on Weeds and Soybean (Glycine max)|Crop Prot.24(6): 507-511|2005|10.1016/j.cropro.2004.09.018
168225|T||Vasilakoglou,I.B., and I.G. Eleftherohorinos|Persistence, Efficacy, and Selectivity of Amide Herbicides in Corn|Weed Technol.17(2): 381-388|2003|10.1614/0890-037X(2003)017[0381:PEASOA]2.0.CO;2
168226|T||Vyn,J.D., C.J. Swanton, S.E. Weaver, and P.H. Sikkema|Control of Herbicide-Resistant Common Waterhemp (Amaranthus tuberculatus var. rudis) with Pre- and Post-Emergence Herbicides in Soybean|Can. J. Plant Sci.87(1): 175-182|2007|10.4141/P06-016
168227|T||Grichar,W.J., B.A. Besler, K.D. Brewer, and D.T. Palrang|Flufenacet and Metribuzin Combinations for Weed Control and Corn (Zea mays) Tolerance|Weed Technol.17:346-351|2003|10.1614/0890-037X(2003)017[0346:FAMCFW]2.0.CO;2
168228|T||Idziak,R., and Z. Woznica|Impact of Tembotrione and Flufenacet plus Isoxaflutole Application Timings, Rates, and Adjuvant Type on Weeds and Yield of Maize|Chil. J. Agric. Res.74(2): 129-134|2014|10.4067/S0718-58392014000200001
168229|T||Ritter,R.L., and H. Menbere|Preemergence Control of Italian Ryegrass (Lolium multiflorum) in Wheat (Triticum aestivum)|Weed Technol.16(1): 55-59|2002|10.1614/0890-037X(2002)016[0055:PCOIRL]2.0.CO;2
168230|T||Sikkema,P.H., A.S. Hamill, M.M. Qaderi, and C. Doucet|Processing Tomato and Weed Response to Flufenacet Plus Metribuzin|Weed Technol.18:801-809|2004|10.1614/WT00-204
168231|T||Fennimore,S.A., W.T. Lanini, M.E. McGiffen, and C.E. Bell|Evaluation of Low-Rate Herbicides for Potential Use in Vegetable Crops|Proc. West. Soc. Weed Sci.53:53-57|2000|
168232|T||Nandihalli,U.B., M.V. Duke, J.W. Ashmore, V.A. Musco, R.D. Clark, and S.O. Duke|Enantioselectivity of Protoporphyrinogen Oxidase-Inhibiting Herbicides|Pestic. Sci.40(4): 265-277|1994|10.1002/ps.2780400404
168233|T||Williams,D.R., M.J. Fisher, G. Smagghe, and H.H. Rees|Species Specificity of Changes in Ecdysteroid Metabolism in Response to Ecdysteroid Agonists|Pestic. Biochem. Physiol.72(2): 91-99|2002|10.1006/pest.2001.2588
168234|A||Boudjelida,H., A. Bouaziz, G. Smagghe, and N. Soltani|Insecticidal Activity of a Nonsteroidal Moulting Hormone Agonist on Mosquito Larvae and Effects on Ecdysteroid Amounts|Meded. Fac. Landbouwwet. Univ. Gent67(3): 657-663|2002|
168235|T||Daas,O., P. Scaps, N. Bouzerna, and M. Descamps|Effects of Two Ecdysteroid Analogs (RH-0345 and RH-2485) on the Total Growth of Eupolybothrus nudicornis (Myriapoda, Chilopoda)|Vie Milieu57(1/2): 43-47|2007|
168236|T||Jacas,J., M. Gonzales, and E. Vinuela|Influence of the Application Method on the Toxicity of the Moulting Accelerating Compound Tebufenozide on Adults of the Parasitic Wasp Opius concolor Szepl.|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.60(3b): 935-939|1995|
168237|T||Rimoldi,F., M.N. Fogel, M.I. Schneider, and A.E. Ronco|Lethal and Sublethal Effects of Cypermethrin and Methoxyfenozide on the Larvae of Rachiplusia nu (Guenee) (Lepidoptera: Noctuidae)|Invertebr. Reprod. Dev.56(3): 200-208|2012|10.1080/07924259.2011.591177
168238|T||Soltani,N., N. Aribi, H. Berghiche, S. Lakbar, and G. Smagghe|Activity of RH-0345 on Ecdysteroid Production and Cuticle Secretion in Tenebrio molitor Pupae In Vivo and In Vitro|Pestic. Biochem. Physiol.72(2): 83-90|2002|10.1006/pest.2001.2586
168239|T||Forkpah,C., L.R. Dixon, S.E. Fahrbach, and O. Rueppell|Xenobiotic Effects on Intestinal Stem Cell Proliferation in Adult Honey Bee (Apis mellifera L.) Workers|PLoS One9(3): 9 p.|2014|10.1371/journal.pone.0091180
168240|T||Nakamura,A., A. Sagisaka, M. Sakaguchi, K. Suzuki, and E. Kuwano|Precocious Metamorphosis in Bombyx mori Larvae and Diapause Termination in Pharate First-Instar Larvae of Antheraea yamamai Induced by 1-Substituted Imidazoles|J. Pestic. Sci. (Multiple Languages)23(2): 117-122|1998|10.1584/jpestics.23.117
168241|T||Baxendale,F.P., A.P. Weinhold, and T.P. Riordan|Effect of Application Timing of Selected Insecticides for Control of Bluegrass Billbug, 1998|Arthropod Manag. Tests24:350-|1999|10.1093/amt/24.1.G33
168242|T||Hami,M., F. Taibi, G. Smagghe, and N. Soltani-Mazouni|Comparative Toxicity of Three Ecdysone Agonist Insecticides Against the Mediterranean Flour Moth|Commun. Agric. Appl. Biol. Sci.70(4): 767-773|2005|
168243|T||Philip,M.M., D.B. Orr, and F.P. Hain|Evaluation of Biological and Biorational Control Tactics for Suppression of Nantucket Pine Tip Moth Damage in Virginia Pine Christmas Trees|J. Econ. Entomol.98(2): 409-414|2005|10.1093/jee/98.2.409
168244|T||Power,K.T., P.S. Grewal, and D.J. Shetlar|The Effect of Clipping Removal, Post-Treatment Irrigation, and Spray Volume on the Efficacy of Biorational Insecticides Against Japanese Beetle Larvae in Turfgrass, 1998|Arthropod Manag. Tests24:356-|1999|
168245|A||Natarajan,N.|Impact of a Synthetic Pyrethroid Decamethrin on Metabolism of Anabas testudineus|J. Ecotoxicol. Environ. Monit.21(6): 527-532|2011|
168246|T||Armstrong,L.E., M.V. Driscoll, V.R. More, A.C. Donepudi, J. Xu, A. Baker, L.M. Aleksunes, J.R. Richardson, and A.L. Sli|Effects of Developmental Deltamethrin Exposure on White Adipose Tissue Gene Expression|J. Biochem. Mol. Toxicol.27(2): 165-171|2013|10.1002/jbt.21477
168247|T||Abdel-Daim,M.M., S.M.M. Abuzead, and S.M. Halawa|Protective Role of Spirulina platensis Against Acute Deltamethrin-Induced Toxicity in Rats|PLoS One8(9): 7 p.|2013|10.1371/journal.pone.0072991
168248|A||Abdel-Daim,M.M., N.K.M. Abdelkhalek, and A.M. Hassan|Antagonistic Activity of Dietary Allicin Against Deltamethrin-Induced Oxidative Damage in Freshwater Nile Tilapia; Oreochromis niloticus|Ecotoxicol. Environ. Saf.111(0): 146-152|2015|10.1016/j.ecoenv.2014.10.019
168249|A||Ahmed,M.A.I., and F. Matsumura|Synergistic Actions of Formamidine Insecticides on the Activity of Pyrethroids and Neonicotinoids Against Aedes aegypti (Diptera: Culicidae)|J. Med. Entomol.49(6): 1405-1410|2012|10.1603/ME12030
168250|A||Anogwih,J.A.|Toxicity of Pirimiphos Methyl (Actellic 25EC) on Anopheles gambiae s.s., Culex quinquefasciatus (Diptera: Culicidae), and Potential Biocontrol Agent, Poecilia reticulata (Pisces: Poeciliidae)|J. Econ. Entomol.107(4): 1440-1446|2014|10.1603/EC13483
168252|A||Lancas,F.M., O.R. De Sa, S.R. Rissato, and M.S. Galhiane|HPLC/UV Determination of Sodium Acifluorfen in Tropical Fish|J. Liq. Chromatogr. Related Technol.20(12): 1945-1957|1997|10.1080/10826079708005554
168253|A||Jessick,A.M., S. Skolness, and A.S. Kolok|Sandy Sediment and the Bioavailability of 17beta-Trenbolone to Adult Female Fathead Minnows|Aquat. Toxicol.148:48-54|2014|10.1016/j.aquatox.2013.12.025
168254|A||Kim,P., Y. Park, K. Ji, J. Seo, S. Lee, K. Choi, Y. Kho, J. Park, and K. Choi|Effect of Chronic Exposure to Acetaminophen and Lincomycin on Japanese Medaka (Oryzias latipes) and Freshwater Cladocerans Daphnia magna and Moina macrocopa, and Potential Mechanisms of Endocrine Disruption|Chemosphere89(1): 10-18|2012|10.1016/j.chemosphere.2012.04.006
168255|T||Craft,J., M. Samalova, C. Baroux, H. Townley, A. Martinez, I. Jepson, M. Tsiantis, and I. Moore|New pOp/LhG4 Vectors for Stringent Glucocorticoid-Dependent Transgene Expression in Arabidopsis|Plant J.41(6): 899-918|2005|10.1111/j.1365-313X.2005.02342.x
168256|A||Di Poi,C., F. Bidel, L. Dickel, and C. Bellanger|Cryptic and Biochemical Responses of Young Cuttlefish Sepia officinalis Exposed to Environmentally Relevant Concentrations of Fluoxetine|Aquat. Toxicol.151:36-45|2014|10.1016/j.aquatox.2013.12.026
168257|A||Brockmeier,E.K., Y. Ogino, T. Iguchi, D.S. Barber, and N.D. Denslow|Effects of 17beta-Trenbolone on Eastern and Western Mosquitofish (Gambusia holbrooki and G. affinis) Anal Fin Growth and Gene Expression Patterns|Aquat. Toxicol.128/129:163-170|2013|10.1016/j.aquatox.2012.12.007
168258|A||Franzellitti,S., S. Buratti, M. Capolupo, B. Du, S.P. Haddad, C.K. Chambliss, B.W. Brooks, and E. Fabbri|An Exploratory Investigation of Various Modes of Action and Potential Adverse Outcomes of Fluoxetine in Marine Mussels|Aquat. Toxicol.151:14-26|2014|10.1016/j.aquatox.2013.11.016
168259|T||Feito,R., Y. Valcarcel, and M. Catala|Preliminary Data Suggest that Venlafaxine Environmental Concentrations Could be Toxic to Plants|Chemosphere90(7): 2065-2069|2013|10.1016/j.chemosphere.2012.09.028
168260|A||Brozinski,J.M., M. Lahti, A. Oikari, and L. Kronberg|Identification and Dose Dependency of Ibuprofen Biliary Metabolites in Rainbow Trout|Chemosphere93(9): 1789-1795|2013|10.1016/j.chemosphere.2013.06.018
168261|T||Dos santos Pyrrho,A., J.A. Ramos, R.M. Neto, C.S. Da Silva, H.L. Lenzi, C.M. Takiya, and C.R. Gattass|Dexamethasone, a Drug for Attenuation of Schistosoma mansoni Infection Morbidity|Antimicrob. Agents Chemother.46(11): 3490-3498|2002|10.1128/AAC.46.11.3490-3498.2002
168262|A||De Felice,B., L. Copia, and M. Guida|Gene Expression Profiling in Zebrafish Embryos Exposed to Diclofenac, an Environmental Toxicant|Mol. Biol. Rep.39(3): 2119-2128|2012|10.1007/s11033-011-0959-z
168263|A||Galus,M., N. Kirischian, S. Higgins, J. Purdy, J. Chow, S. Rangaranjan, H. Li, C. Metcalfe, and J.Y. Wilson|Chronic, Low Concentration Exposure to Pharmaceuticals Impacts Multiple Organ Systems in Zebrafish|Aquat. Toxicol.132/133:200-211|2013|10.1016/j.aquatox.2012.12.021
168264|A||Finn,J., M. Hui, V. Li, V. Lorenzi, N. De La Paz, S.H. Cheng, L. Lai-Chan, and D. Schlenk|Effects of Propranolol on Heart Rate and Development in Japanese Medaka (Oryzias latipes) and Zebrafish (Danio rerio)|Aquat. Toxicol.122/123:214-221|2012|10.1016/j.aquatox.2012.06.013
168265|A||Aguirre-Martinez,G.V., T.A. Del Valls, and M.L. Martin-Diaz|Early Responses Measured in the Brachyuran Crab Carcinus maenas Exposed to Carbamazepine and Novobiocin:  Application of a 2-Tier Approach|Ecotoxicol. Environ. Saf.97:47-58|2013|10.1016/j.ecoenv.2013.07.002
168266|A||Antunes,S.C., R. Freitas, E. Figueira, F. Goncalves, and B. Nunes|Biochemical Effects of Acetaminophen in Aquatic Species: Edible Clams Venerupis decussata and Venerupis philippinarum|Environ. Sci. Pollut. Res.20(9): 6658-6666|2013|10.1007/s11356-013-1784-9
168267|A||Barry,M.J.|Effects of Fluoxetine on the Swimming and Behavioural Responses of the Arabian Killifish|Ecotoxicology22(2): 425-432|2013|10.1007/s10646-012-1036-7
168268|A||Boulassel,A., M.R. Djebar, R. Rouabhi, and H. Djebar|Physiological and Biochemical Changes Observed in Alternative Cellular Model: Paramecuim tetraurelia Treated with Paracetamol|Int. J. Biosci.3(9): 132-141|2013|
168269|T||Blackwell,B.R., A. Karnjanapiboonwong, T.A. Anderson, and P.N. Smith|Uptake of 17beta-Trenbolone and Subsequent Metabolite Trendione by the Pinto Bean Plant (Phaseolus vulgaris)|Ecotoxicol. Environ. Saf.85:110-114|2012|10.1016/j.ecoenv.2012.08.006
168270|T||Bedick,J.C., H. Tunaz, A.R. Nor Aliza, S.M. Putnam, M.D. Ellis, and D.W. Stanley|Eicosanoids Act in Nodulation Reactions to Bacterial Infections in Newly Emerged Adult Honey Bees, Apis mellifera, but not in Older Foragers|Comp. Biochem. Physiol. C Toxicol. Pharmacol.130(1): 107-117|2001|10.1016/S1532-0456(01)00226-5
168271|T||Aoyama,T., and N.H. Chua|A Glucocorticoid-Mediated Transcriptional Induction System in Transgenic Plants|Plant J.11(3): 605-612|1997|10.1046/j.1365-313X.1997.11030605.x
168272|T||Al Khateeb,W., and H. Al-Qwasemeh|Cadmium, Copper and Zinc Toxicity Effects on Growth, Proline Content and Genetic Stability of Solanum nigrum L., a Crop Wild Relative for Tomato; Comparative Study|Physiol. Mol. Biol. Plants20(1): 31-39|2014|10.1007/s12298-013-0211-5
168273|T||Acharya,B.R., S. Raina, S.B. Maqbool, G. Jagadeeswaran, S.L. Mosher, H.M. Appel, J.C. Schultz, D.F. Klessig, and R. Rai|Overexpression of CRK13, an Arabidopsis Cysteine-Rich Receptor-Like Kinase, Results in Enhanced Resistance to Pseudomonas syringae|Plant J.50(3): 488-499|2007|10.1111/j.1365-313X.2007.03064.x
168274|A||Bossus,M.C., Y.Z. Guler, S.J. Short, E.R. Morrison, and A.T. Ford|Behavioural and Transcriptional Changes in the Amphipod Echinogammarus marinus Exposed to Two Antidepressants, Fluoxetine and Sertraline|Aquat. Toxicol.151:46-56|2014|10.1016/j.aquatox.2013.11.025
168275|T||Walker,J.F., L.C. Johnson, N.B. Simpson, M. Bill, and A. Jumpponen|Application of Fungistatics in Soil Reduces N Uptake by an Arctic Ericoid Shrub (Vaccinium vitis-idaea)|Mycologia102(4): 822-834|2010|10.3852/09-224
168276|T||Mate,K.E., and J.C. Rodger|Role of Diacylglycerols and Calcium in the Marsupial Acrosome Reaction|J. Reprod. Fertil.99(2): 367-373|1993|10.1530/jrf.0.0990367
168277|T||Hedouin,V., B. Bourel, L. Martin-Bouyer, A. Becart, G. Tournel, M. Deveaux, and D. Gosset|Determination of Drug Levels in Larvae of Lucilia sericata (Diptera: Calliphoridae) Reared on Rabbit Carcasses Containing Morphine|J. Forensic Sci.44(2): 351-353|1999|10.1520/JFS14462J
168278|T||Lambertucci,J.R., J. Modha, R. Curtis, and M. Doenhoff|The Association of Steroids and Schistosomicides in the Treatment of Experimental Schistosomiasis|Trans. R. Soc. Trop. Med. Hyg.83(3): 354-357|1989|10.1016/0035-9203(89)90502-6
168279|T||Hedouin,V., B. Bourel, A. Becart, G. Tournel, M. Deveaux, M.L. Goff, and D. Gosset|Determination of Drug Levels in Larvae of Protophormia terraenovae and Calliphora vicina (Diptera: Calliphoridae) Reared on Rabbit Carcasses Containing Morphine|J. Forensic Sci.46(1): 12-14|2001|10.1520/JFS14905J
168280|T||Lee,H.W., and J. Kim|Ectopic Expression of LBD18/ASL20 Results in Arrest of Plant Growth and Development with Repression of Aintegumenta and Plethora Genes|J. Plant Biol.53(3): 214-221|2010|10.1007/s12374-010-9108-9
168281|T||Bourel,B., G. Tournel, V. Hedouin, M.L. Goff, and D. Gosset|Determination of Drug Levels in Two Species of Necrophagous Coleoptera Reared on Substrates Containing Morphine|J. Forensic Sci.46(3): 600-603|2001|10.1520/JFS15010J
168282|T||Bourel,B., L. Fleurisse, V. Hedouin, J.C. Cailliez, C. Creusy, D. Gosset, and M.L. Goff|Immunohistochemical Contribution to the Study of Morphine Metabolism in Calliphoridae Larvae and Implications in Forensic Entomotoxicology|J. Forensic Sci.46(3): 596-599|2001|10.1520/JFS15009J
168283|A||Gonzalez-Rey,M., and M.J. Bebianno|Effects of Non-Steroidal Anti-Inflammatory Drug (NSAID) Diclofenac Exposure in Mussel Mytilus galloprovincialis|Aquat. Toxicol.148:221-230|2014|10.1016/j.aquatox.2014.01.011
168284|T||Ichikawa,K., C. Miyake, M. Iwano, M. Sekine, A. Shinmyo, and K. Kato|Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase Large Subunit Translation is Regulated in a Small Subunit-Independent Manner in the Expanded Leaves of Tobacco|Plant Cell Physiol.49(2): 214-225|2008|10.1093/pcp/pcm179
168285|A||Wong,R.Y., S.E. Oxendine, and J. Godwin|Behavioral and Neurogenomic Transcriptome Changes in Wild-Derived Zebrafish with Fluoxetine Treatment|BMC Genomics14:13 p.|2013|
168286|T||Novak,M., L.G. Buchannan, and H. Howlader|Effects of Cyclophosphamide and Dexamethasone on Mast Cell Populations in Hymenolepis microstoma-Infected Mice|Parasitology100(2): 337-343|1990|10.1017/S0031182000061357
168287|T||Miller-Perez,C., E. Sanchez-Islas, F. Pellicer, G. Rodriguez-Manzo, S.L. Cruz, and M. Leon-Olea|Role of Nociceptin/Orphanin FQ and the Pseudopeptide [Phe1psi(CH2NH)Gly2]-Nociceptin(1-13)-NH2 and Their Interaction with Classic Opioids in the Modulation of Thermonociception in the Land Snail Helix aspersa|Eur. J. Pharmacol.581(1/2): 77-85|2008|10.1016/j.ejphar.2007.11.039
168288|T||Zabala,N.A., and M.A. Gomez|Morphine Analgesia, Tolerance and Addiction in the Cricket Pteronemobius sp. (Orthoptera, Insecta)|Pharmacol. Biochem. Behav.40(4): 887-891|1991|10.1016/0091-3057(91)90102-8
168289|A||Maximino,C., B. Puty, R. Benzecry, J. Araujo, M.G. Lima, E. De Jesus Oliveira Batista, K. Renata De Matos Oliveira, M.E|Role of Serotonin in Zebrafish (Danio rerio) Anxiety: Relationship with Serotonin Levels and Effect of Buspirone, WAY 100635, SB 224289, Fluoxetine and para-Chlorophenylalanine (pCPA) in Two Behavioral Models|Neuropharmacology71:83-97|2013|10.1016/j.neuropharm.2013.03.006
168290|T||Yang,Y., H. Zhang, G. Li, W. Li, X. Wang, and F. Song|Ectopic Expression of MgSM1, a Cerato-Platanin Family Protein from Magnaporthe grisea, Confers Broad-Spectrum Disease Resistance in Arabidopsis|Plant Biotechnol. J.7(8): 763-777|2009|10.1111/j.1467-7652.2009.00442.x
168291|T||Moss,S.R., R. Hull, and R. Marshall|Control of Alopecurus myosuroides (Black-Grass) Resistant to Mesosulfuron+Iodosulfuron|Commun. Agric. Appl. Biol. Sci.74(2): 479-488|2009|
168292|T||Larson,J.L., C.T. Redmond, and D.A. Potter|Assessing Insecticide Hazard to Bumble Bees Foraging on Flowering Weeds in Treated Lawns|PLoS One8(6): 7 p.|2013|10.1371/journal.pone.0066375
168293|T||Scholer,J., and V. Krischik|Chronic Exposure of Imidacloprid and Clothianidin Reduce Queen Survival, Foraging, and Nectar Storing in Colonies of Bombus impatiens|PLoS One9(3): 14 p.|2014|10.1371/journal.pone.0091573
168294|T||Yamada,T., K. Yamada, and N. Wada|Influence of Dinotefuran and Clothiandin on a Bee Colony|Jpn. J. Clin. Ecol.21(1): 10-23|2012|
168295|T||Poston,D.H., V.K. Nandula, R.M. Griffin, D.R. Shaw, and M.C. Smith|Weed Control Alternatives in Very Early-Maturing Mississippi Soybean|Crop Manag.6(1): 15 p.|2007|10.1094/CM-2007-0323-02-RS
168296|A||Amira,K., H. Boudjelida, and J.P. Farine|Effect of an Insect Growth Regulator (Halofenozide) on the Cuticular Hydrocarbons of Culex pipiens Larvae|Afr. Entomol.21(2): 343-348|2013|10.4001/003.021.0228
168298|T||Chebira,S., N. Soltani, S. Muylle, and G. Smagghe|Uptake and Distribution of Three Insect Growth Regulators - Diflubenzuron, Flucycloxuron and Halofenozide - in Pupae and Adults of Tenebrio molitor|Phytoparasitica34(2): 187-196|2006|10.1007/BF02981319
168299|T||Rimoldi,F., M.I. Schneider, S. Pineda, and A.E. Ronco|Effect of Conventional and Biorational Insecticides on Larvae of Chrysoperla externa|Commun. Agric. Appl. Biol. Sci.72(3): 561-563|2007|
168300|T||Kavallieratos,N.G., C.G. Athanassiou, B.J. Vayias, and Z. Tomanovic|Efficacy of Insect Growth Regulators as Grain Protectants Against Two Stored-Product Pests in Wheat and Maize|J. Food Prot.75(5): 942-950|2012|10.4315/0362-028x.jfp-11-397
168301|T||Smagghe,G., H. Salem, L. Tirry, and D. Degheele|Action of a Novel Insect Growth Regulator Tebufenozide Against Different Developmental Stages of Four Stored Product Insects|Parasitica52(2): 61-69|1996|
168302|T||Heller,P.R., and R. Walker|Management of Scarab White Grubs with Imidacloprid and Halofenozide in a Low Maintenance Turfgrass Area, 1997|Arthropod Manag. Tests23:343-344|1998|10.1093/amt/23.1.343a
168303|T||Held,D., D.A. Potter, C. Williamson, C. Keathley, and B. Kunkel|Control of White Grubs with Halofenozide (RH-0345), 1995|Arthropod Manag. Tests22:376-|1997|
168304|T||Chhokar,R.S., R.K. Sharma, D.S. Chauhan, and A.D. Mongia|Evaluation of Herbicides Against Phalaris minor in Wheat in North-Western Indian Plains|Weed Res. (Multiple Languages)46(1): 40-49|2006|10.1111/j.1365-3180.2006.00485.x
168305|T||Baird,J.H.|Uptake, Translocation, and Metabolism of FOE 5043 in Tolerant and Susceptible Plant Species|Ph.D.Thesis, Auburn University, Auburn, AL:149 p.|1994|
168306|A||Egea-Serrano,A., and M. Tejedo|Contrasting Effects of Nitrogenous Pollution on Fitness and Swimming Performance of Iberian Waterfrog, Pelophylax perezi (Seoane, 1885), Larvae in Mesocosms and Field Enclosures|Aquat. Toxicol.146:144-153|2014|10.1016/j.aquatox.2013.11.003
168307|T||Feltham,H., K. Park, and D. Goulson|Field Realistic Doses of Pesticide Imidacloprid Reduce Bumblebee Pollen Foraging Efficiency|Ecotoxicology23(3): 317-323|2014|10.1007/s10646-014-1189-7
168308|A||Galus,M., S. Rangarajan, A. Lai, L. Shaya, S. Balshine, and J.Y. Wilson|Effects of Chronic, Parental Pharmaceutical Exposure on Zebrafish (Danio rerio) Offspring|Aquat. Toxicol.151:124-134|2014|10.1016/j.aquatox.2014.01.016
168309|A||Chen,L., R. Ye, Y. Xu, Z. Gao, D.W.T. Au, and P.Y. Qian|Comparative Safety of the Antifouling Compound Butenolide and 4,5-Dichloro-2-n-Octyl-4-Isothiazolin-3-one (DCOIT) to the Marine Medaka (Oryzias melastigma)|Aquat. Toxicol.149:116-125|2014|10.1016/j.aquatox.2014.01.023
168310|A||Bhatia,H., A. Kumar, Y. Ogino, A. Gregg, J. Chapman, M.J. McLaughlin, and T. Iguchi|Di-n-Butyl Phthalate Causes Estrogenic Effects in Adult Male Murray Rainbowfish (Melanotaenia fluviatilis)|Aquat. Toxicol.149:103-115|2014|10.1016/j.aquatox.2014.01.025
168311|A||Cary,T.L., M.E. Ortiz-Santaliestra, and W.H. Karasov|Immunomodulation in Post-Metamorphic Northern Leopard Frogs, Lithobates pipiens, Following Larval Exposure to Polybrominated Diphenyl Ether|Environ. Sci. Technol.48(10): 5910-5919|2014|10.1021/es405776m
168312|A||Agatz,A., R. Ashauer, and C.D. Brown|Imidacloprid Perturbs Feeding of Gammarus pulex at Environmentally Relevant Concentrations|Environ. Toxicol. Chem.33(3): 648-653|2014|10.1002/etc.2480
168313|T||N'Guessan,R., A. Asidi, P. Boko, A. Odjo, M. Akogbeto, O. Pigeon, and M. Rowland|An Experimental Hut Evaluation of PermaNet 3.0, a Deltamethrin-Piperonyl Butoxide Combination Net, Against Pyrethroid-Resistant Anopheles gambiae and Culex quinquefasciatus Mosquitoes in Southern Benin|Trans. R. Soc. Trop. Med. Hyg.104(12): 758-765|2010|10.1016/j.trstmh.2010.08.008
168314|T||Kong,Y., X.P. Liu, P.J. Wan, X.Q. Shi, W.C. Guo, and G.Q. Li|The P450 Enzyme Shade Mediates the Hydroxylation of Ecdysone to 20-Hydroxyecdysone in the Colorado Potato Beetle, Leptinotarsa decemlineata|Insect Mol. Biol.23(5): 632-643|2014|10.1111/imb.12115
168315|T||Halder,J., and A.K. Patra|Effect of Chemical Weed-Control Methods on Productivity of Transplanted Rice (Oryza sativa)|Indian J. Agron.52(2): 111-113|2007|10.59797/ija.v52i2.4903
168316|A||Kumar,A., B. Sharma, and R.S. Pandey|lambda-Cyhalothrin and Cypermethrin Induce Stress in the Freshwater Muddy Fish, Clarias batrachus|Toxicol. Environ. Chem.96(1): 136-149|2014|10.1080/02772248.2014.913865
168317|A||Lutnicka,H., P. Fochtman, B. Bojarski, A. Ludwikowska, and G. Formicki|The Influence of Low Concentration of Cypermethrin and Deltamethrin on Phyto- and Zooplankton of Surface Waters|Folia Biol. (Krakow)62(3): 251-257|2014|10.3409/fb62_3.251
168318|T||Silfver,T., M. Autelo, U. Paaso, K. Koikkalainen, and J. Mikola|Use of an Insecticide in Field-Scale Plant-Herbivore Studies: No Side Effects of Synthetic Pyrethrin on Betula pendula Growth or Chemistry|Ann. Bot. Fenn.50:337-346|2013|10.5735/086.050.0508
168319|AT||Belinato,T.A., A.J. Martins, J.B.P. Lima, and D. Valle|Effect of Triflumuron, a Chitin Synthesis Inhibitor, on Aedes aegypti, Aedes albopictus and Culex quinquefasciatus Under Laboratory Conditions|Parasites Vectors6(83): 7 p.|2013|
168320|A||Bravo,S., M. Nunez, and M.T. Silva|Efficacy of the Treatments Used for the Control of Caligus rogercresseyi Infecting Atlantic Salmon, Salmo salar L., in a New Fish-Farming Location in Region XI, Chile|J. Fish Dis.36:221-228|2013|10.1111/jfd.12023
168321|A||Guardiola,F.A., P. Gonzalez-Parraga, J. Meseguer, A. Cuesta, and M.A. Esteban|Modulatory Effects of Deltamethrin-Exposure on the Immune Status, Metabolism and Oxidative Stress in Gilthead Seabream (Sparus aurata L.)|Fish Shellfish Immunol.36:120-129|2014|10.1016/j.fsi.2013.10.020
168322|A||Tome,H.V., T.V. Pascini, R.A.C. Dangelo, R.N.C. Guedes, and G.F. Martins|Survival and Swimming Behavior of Insecticide-Exposed Larvae and Pupae of the Yellow Fever Mosquito Aedes aegypti|Parasites Vectors7(1): 17 p.|2014|10.1186/1756-3305-7-195
168323|A||Bravo,S., M. Sepulveda, M.T. Silva, and M.J. Costello|Efficacy of Deltamethrin in the Control of Caligus rogercresseyi (Boxshall and Bravo) Using Bath Treatment|Aquaculture432:175-180|2014|10.1016/j.aquaculture.2014.05.018
168324|A||Burridge,L.E., M.C. Lyons, D.K.H. Wong, K. Mackeigan, and J.L. VanGeest|The Acute Lethality of Three Anti-Sea Lice Formulations: AlphaMax, Salmosan, and Interox Paramove50 to Lobster and Shrimp|Aquaculture420/421:180-186|2014|10.1016/j.aquaculture.2013.10.041
168325|A||Chan,H.H., and J. Zairi|Permethrin Resistance in Aedes albopictus (Diptera: Culicidae) and Associated Fitness Costs|J. Med. Entomol.50(2): 362-370|2013|10.1603/ME12182
168326|A||Chavez-Mardones,J., and C. Gallardo-Escarate|Deltamethrin (AlphaMax) Reveals Modulation of Genes Related to Oxidative Stress in the Ectoparasite Caligus rogercresseyi: Implications on Delousing Drug Effectiveness|Aquaculture433:421-429|2014|10.1016/j.aquaculture.2014.06.017
168327|A||DeLorenzo,M.E., P.B. Key, K.W. Chung, Y. Sapozhnikova, and M.H. Fulton|Comparative Toxicity of Pyrethroid Insecticides to Two Estuarine Crustacean Species, Americamysis bahia and Palaemonetes pugio|Environ. Toxicol.29:1099-1106|2014|10.1002/tox.21840
168328|A||Devi,M.S., and A. Gupta|Sublethal Toxicity of Commercial Formulations of Deltamethrin and Permethrin on Selected Biochemical Constituents and Enzyme Activities in Liver and Muscle Tissues of Anabas testudineus|Pestic. Biochem. Physiol.115:48-52|2014|10.1016/j.pestbp.2014.08.004
168329|A||Ensibi,C., D. Hernandez-Moreno, M.P.M. Santiyan, M.N.D. Yahya, F.S. Rodriguez, and M. Perez-Lopez|Effects of Carbofuran and Deltamethrin on Acetylcholinesterase Activity in Brain and Muscle of the Common Carp|Environ. Toxicol.29:386-393|2014|10.1002/tox.21765
168331|A||Ernst,W., K. Doe, A. Cook, L. Burridge, B. Lalonde, P. Jackman, J.G. Aube, and F. Page|Dispersion and Toxicity to Non-Target Crustaceans of Azamethiphos and Deltamethrin After Sea Lice Treatments on Farmed Salmon, Salmo solar|Aquaculture424/425:104-112|2014|10.1016/j.aquaculture.2013.12.017
168332|A||Hedayati,A., and R. Tarkhani|Hematological and Gill Histopathological Changes in Iridescent Shark, Pangasius hypophthalmus (Sauvage, 1878) Exposed to Sublethal Diazinon and Deltamethrin Concentrations|Fish Physiol. Biochem.40:715-720|2014|10.1007/s10695-013-9878-3
168333|A||Huang,Y., J. Zhang, X. Han, and T. Huang|The Use of Zebrafish (Danio rerio) Behavioral Responses in Identifying Sublethal Exposures to Deltamethrin|Int. J. Environ. Res. Public Health11:3650-3660|2014|10.3390/ijerph110403650
168334|AT||Komalamisra,N., R. Srisawat, T. Phanbhuwong, and S. Oatwaree|Insecticide Susceptibility of the Dengue Vector, Aedes aegypti (L.) in Metropolitan Bangkok|Southeast Asian J. Trop. Med. Public Health42(4): 814-823|2011|
168335|AT||Liu,H., Y. Lu, Q. Liu, X. Huo, B. Peng, D. Ren, D. Wu, J. Wang, X. Wang, Z. Tang, W. Liu, and F. Meng|Comparison of Pyrethroid Resistance in Adults and Larvae of Culex pipiens pallens (Diptera: Culicidae) from Four Field Populations in China|J. Econ. Entomol.106(1): 360-365|2013|10.1603/EC11439
168336|T||Lermontova,I., and B. Grimm|Overexpression of Plastidic Protoporphyrinogen IX Oxidase Leads to Resistance to the Diphenyl-Ether Herbicide Acifluorfen|Plant Physiol.122:75-83|2000|10.1104/pp.122.1.75
168337|A||Coulon,D.P.|Toxicity of Ambush and Pydrin to Red Crawfish, Procambarus clarkii (Girard) and Channel Catfish, Ictalurus punctatus Rafinesque in Laboratory and Field Studies and the Accumulation and Dissipation of Associated Residues|Ph.D. Thesis, Louisiana State University and Agricultural & Mechanical College, Baton Rouge, LA:115 p.|1982|
168338|T||Grichar,W.J., and A.E. Colburn|Herbicide Efficacy in Peanuts Grown Under Reduced Tillage Systems|Texas J. Agric. Nat. Res.8:99-112|1995|
168339|T||Lengwiler,U., and G. Benz|Effects of Selected Pesticides on Web Building Behaviour of Larinioides sclopetarius (Clerck) (Araneae, Araneidae)|J. Appl. Entomol.117(1): 99-108|1994|10.1111/j.1439-0418.1994.tb00713.x
168340|T||Lin,T., H. Wu, and L. Luo|The Gene Expression Profile of Monochamus alternatus in Response to Deltamethrin Exposure|J. Asia Pac. Entomol.17(4): 893-899|2014|10.1016/j.aspen.2014.10.004
168341|T||Mani,V.M., S. Asha, and A.M.M. Sadiq|Pyrethroid Deltamethrin-Induced Developmental Neurodegenerative Cerebral Injury and Ameliorating Effect of Dietary Glycoside Naringin in Male Wistar Rats|Biomed. Aging Pathol.4(1): 1-8|2014|10.1016/j.biomag.2013.11.001
168342|T||Unal,G., and P.C. Jepson|The Toxicity of Aphicide Residues to Beneficial Invertebrates in Cereal Crops|Ann. Appl. Biol.118(3): 493-502|1991|10.1111/j.1744-7348.1991.tb05339.x
168343|T||Chandra,N., N.K. Jain, S. Sondhia, and A.B. Srivastava|Deltamethrin Induced Toxicity and Ameliorative Effect of alpha-Tocopherol in Broilers|Bull. Environ. Contam. Toxicol.90(6): 673-678|2013|10.1007/s00128-013-0981-z
168344|A||Chen,X., Y. Zhou, D. Yang, H. Zhao, L. Wang, and X. Yuan|CYP4 mRNA Expression in Marine Polychaete Perinereis aibuhitensis in Response to Petroleum Hydrocarbon and Deltamethrin|Mar. Pollut. Bull.64(9): 1782-1788|2012|10.1016/j.marpolbul.2012.05.035
168346|T||Delpuech,J.M., C. Dupont, and R. Allemand|Effects of Deltamethrin on the Specific Discrimination of Sex Pheromones in Two Sympatric Trichogramma Species|Ecotoxicol. Environ. Saf.84:32-38|2012|10.1016/j.ecoenv.2012.06.007
168347|T||Dinsmore,S.J.|Mountain Plover Responses to Deltamethrin Treatments on Prairie Dog Colonies in Montana|Ecotoxicology22(2): 415-424|2013|10.1007/s10646-012-1035-8
168348|T||Dubey,N., R. Raina, and A.M. Khan|Toxic Effects of Deltamethrin and Fluoride on Antioxidant Parameters in Rats|Fluoride45(3): 242-246|2012|
168349|T||Dubey,N., A.M. Khan, and R. Raina|Sub-Acute Deltamethrin and Fluoride Toxicity Induced Hepatic Oxidative Stress and Biochemical Alterations in Rats|Bull. Environ. Contam. Toxicol.91(3): 334-338|2013|10.1007/s00128-013-1052-1
168350|T||George,J., and Y. Shukla|Early Changes in Proteome Levels upon Acute Deltamethrin Exposure in Mammalian Skin System Associated with Its Neoplastic Transformation Potential|J. Toxicol. Sci.38(4): 629-642|2013|10.2131/jts.38.629
168351|T||Ismail,M.F., and H.M. Mohamed|Deltamethrin-Induced Genotoxicity and Testicular Injury in Rats: Comparison with Biopesticide|Food Chem. Toxicol.50(10): 3421-3425|2012|10.1016/j.fct.2012.07.060
168352|T||Ismail,M.F., and H.M. Mohamed|Modulatory Effect of Lycopene on Deltamethrin-Induced Testicular Injury in Rats|Cell Biochem. Biophys.65(3): 425-432|2013|10.1007/s12013-012-9446-y
168353|A||Sadeghi,A., and M.R. Imanpoor|Acute Toxicity of Two Pesticides Diazinon and Deltamethrin on Gambusia|World J. Zool.8(3): 303-307|2013|
168354|T||Tsuji,R., N. Isobe, and H. Kawasaki|Mechanism of Prolongation of Pentobarbital-Induced Sleeping Time by Empenthrin in Mice|Toxicology108(3): 185-190|1996|10.1016/0300-483X(95)03298-T
168355|A||Toumi,H., M. Boumaiza, M. Millet, C.M. Radetski, V. Felten, C. Fouque, and J.F. Ferard|Effects of Deltamethrin (Pyrethroid Insecticide) on Growth, Reproduction, Embryonic Development and Sex Differentiation in Two Strains of Daphnia magna (Crustacea, Cladocera)|Sci. Total Environ.458-460:47-53|2013|10.1016/j.scitotenv.2013.03.085
168356|A||Toumi,H., M. Boumaiza, F. Immel, B. Sohm, V. Felten, and J.F. Ferard|Effect of Deltamethrin (Pyrethroid Insecticide) on Two Clones of Daphnia magna (Crustacea, Cladocera): A Proteomic Investigation|Aquat. Toxicol.148:40-47|2014|10.1016/j.aquatox.2013.12.022
168357|T||Unkiewicz-Winiarczyk,A., and K. Gromysz-Kalkowska|Effect of Temperature on Toxicity of Deltamethrin and Oxygen Consumption by Porcellio scaber Latr (Isopoda)|Bull. Environ. Contam. Toxicol.89(5): 960-965|2012|10.1007/s00128-012-0814-5
168358|AT||Nkya,T.E., I. Akhouayri, R. Poupardin, B. Batengana, F. Mosha, S. Magesa, W. Kisinza, and J.P. David|Insecticide Resistance Mechanisms Associated with Different Environments in the Malaria Vector Anopheles gambiae: A Case Study in Tanzania|Malar. J.13(28): 15 p.|2014|
168359|A||Raghavendra,B.S., K.P. Prathibha, and V.A. Vijayan|Synergistic Effect of Eugenia jambolana Linn. and Solidago canadensis Linn. Leaf Extracts with Deltamethrin Against the Dengue Vector Aedes aegypti Linn. at Mysore|Environ. Sci. Pollut. Res. Int.20(6): 3830-3835|2013|10.1007/s11356-012-1308-z
168360|A||Toumi,H., M. Boumaiza, M. Millet, C.M. Radetski, V. Felten, and J.F. Ferard|Is Acetylcholinesterase a Biomarker of Susceptibility in Daphnia magna (Crustacea, Cladocera) After Deltamethrin Exposure?|Chemosphere120(0): 351-356|2015|10.1016/j.chemosphere.2014.07.087
168361|AT||Maestre-Serrano,R., D. Gomez-Camargo, G. Ponce-Garcia, and A.E. Flores|Susceptibility to Insecticides and Resistance Mechanisms in Aedes aegypti from the Colombian Caribbean Region|Pestic. Biochem. Physiol.116:63-73|2014|10.1016/j.pestbp.2014.09.014
168362|A||Marques,A., M. Custodio, S.I.A.G. Guilherme, I. Gaivao, M.A. Santos, and M. Pacheco|Assessment of Chromosomal Damage Induced by a Deltamethrin-Based Insecticide in Fish (Anguilla anguilla L.) - A Follow-Up Study Upon Exposure and Post-Exposure Periods|Pestic. Biochem. Physiol.113:40-46|2014|10.1016/j.pestbp.2014.06.003
168363|A||Rodriguez,M.M., D. Hurtado, D.W. Severson, and J.A. Bisset|Inheritance of Resistance to Deltamethrin in Aedes aegypti (Diptera: Culicidae) from Cuba|J. Med. Entomol.51(6): 1213-1219|2014|10.1603/ME13237
168364|A||Sun,L., Y. Ye, H. Sun, J. Yu, L. Zhang, Y. Sun, D. Zhang, L. Ma, B. Shen, and C. Zhu|Identification of Proteasome Subunit beta Type 6 (PSMb6) Associated with Deltamethrin Resistance in Mosquitoes by Proteomic and Bioassay Analyses|PLoS One8(6): 10 p.|2013|
168366|A||Van Geest,J.L., L.E. Burridge, and K.A. Kidd|The Toxicity of the Anti-Sea Lice Pesticide AlphaMax to the Polychaete Worm Nereis virens|Aquaculture430:98-106|2014|10.1016/j.aquaculture.2014.03.044
168367|T||Charpentier,G., C. Vidau, J.B. Ferdy, J. Tabart, and A. Vetillard|Lethal and Sub-Lethal Effects of Thymol on Honeybee (Apis mellifera) Larvae Reared In Vitro|Pest Manag. Sci.70(1): 140-147|2014|10.1002/ps.3539
168368|A||Chen,J., R.L. Tanguay, T.L. Tal, Z. Gai, X. Ma, C. Bai, S.C. Tilton, D. Jin, D. Yang, C. Huang, and Q. Dong|Early Life Perfluorooctanesulphonic Acid (PFOS) Exposure Impairs Zebrafish Organogenesis|Aquat. Toxicol.150:124-132|2014|10.1016/j.aquatox.2014.03.005
168369|A||Arany,E., J. Lang, D. Somogyvari, O. Lang, T. Alapi, I. Ilisz, K. Gajda-Schrantz, A. Dombi, L. Kohidai, and K. Hernadi|Vacuum Ultraviolet Photolysis of Diclofenac and the Effects of Its Treated Aqueous Solutions on the Proliferation and Migratory Responses of Tetrahymena pyriformis|Sci. Total Environ.468/469:996-1006|2014|10.1016/j.scitotenv.2013.09.019
168370|T||Choe,D.H., and K. Campbell|Effect of Feeding Status on Mortality Response of Adult Bed Bugs (Hemiptera: Cimicidae) to Some Insecticide Products|J. Econ. Entomol.107(3): 1206-1215|2014|10.1603/EC13478
168371|A||Connors,K.A., T.W. Valenti, K. Lawless, J. Sackerman, E.S. Onaivi, B.W. Brooks, and G.G. Gould|Similar Anxiolytic Effects of Agonists Targeting Serotonin 5-HT1A or Cannabinoid CB Receptors on Zebrafish Behavior in Novel Environments|Aquat. Toxicol.151:105-113|2014|10.1016/j.aquatox.2013.12.005
168372|A||Bhatia,H., A. Kumar, Y. Ogino, J. Du, A. Gregg, J. Chapman, M.J. McLaughlin, and T. Iguchi|Effects of the Commercial Antiandrogen Flutamide on the Biomarkers of Reproduction in Male Murray Rainbowfish (Melanotaenia fluviatilis)|Environ. Toxicol. Chem.33(5): 1098-1107|2014|10.1002/etc.2524
168373|T||Memarizadeh,N., M. Ghadamyari, M. Adeli, and K. Talebi|Preparation, Characterization and Efficiency of Nanoencapsulated Imidacloprid Under Laboratory Conditions|Ecotoxicol. Environ. Saf.107:77-83|2014|10.1016/j.ecoenv.2014.05.009
168374|A||Ginjupalli,G.K.|Arachidonic Acid Reverses the Pyriproxyfen and Ibuprofen Induced Toxicity in Daphnia magna|Ph.D. Thesis, Clemson University, Clemson, SC:135 p.|2013|
168375|A||Lei,B., J. Kang, Y. Yu, J. Zha, W. Li, Z. Wang, Y. Wang, and Y. Wen|Long-Term Exposure Investigating the Estrogenic Potency of Estriol in Japanese Medaka (Oryzias latipes)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.160:86-92|2014|10.1016/j.cbpc.2013.11.001
168376|T||Laycock,I., K.C. Cotterell, T.A. O'Shea-Wheller, and J.E. Cresswell|Effects of the Neonicotinoid Pesticide Thiamethoxam at Field-Realistic Levels on Microcolonies of Bombus terrestris Worker Bumble Bees|Ecotoxicol. Environ. Saf.100:153-158|2014|10.1016/j.ecoenv.2013.10.027
168377|T||Larson,J.L., C.T. Redmond, and D.A. Potter|Impacts of a Neonicotinoid, Neonicotinoid-Pyrethroid Premix, and Anthranilic Diamide Insecticide on Four Species of Turf-Inhabiting Beneficial Insects|Ecotoxicology23(2): 252-259|2014|10.1007/s10646-013-1168-4
168378|A||Naderi,M., M.Y.L. Wong, and F. Gholami|Developmental Exposure of Zebrafish (Danio rerio) to Bisphenol-S Impairs Subsequent Reproduction Potential and Hormonal Balance in Adults|Aquat. Toxicol.148:195-203|2014|10.1016/j.aquatox.2014.01.009
168379|A||Murussi,C.R., M.L. Thorstenberg, J. Leitemperger, M.G.S. Costa, B. Clasen, A. Santi, C. Menezes, V.K. Engers, and V.L. |Toxic Effects of Penoxsulam Herbicide in Two Fish Species Reared in Southern Brazil|Bull. Environ. Contam. Toxicol.92(1): 81-84|2014|10.1007/s00128-013-1137-x
168380|A||Hartman,E.A.H., J.B. Belden, L.M. Smith, and S.T. McMurry|Chronic Effects of Strobilurin Fungicides on Development, Growth, and Mortality of Larval Great Plains Toads (Bufo cognatus)|Ecotoxicology23(3): 396-403|2014|10.1007/s10646-014-1203-0
168381|A||Hwang,J., S.S. Suh, M. Chang, S.Y. Park, T.K. Ryu, S. Lee, and T.K. Lee|Effects of Triclosan on Reproductive Parameters and Embryonic Development of Sea Urchin, Strongylocentrotus nudus|Ecotoxicol. Environ. Saf.100:148-152|2014|10.1016/j.ecoenv.2013.10.029
168382|A||Ieromina,O., W.J.G.M. Peijnenburg, G. De Snoo, J. Muller, T.P. Knepper, and M.G. Vijver|Impact of Imidacloprid on Daphnia magna Under Different Food Quality Regimes|Environ. Toxicol. Chem.33(3): 621-631|2014|10.1002/etc.2472
168383|A||Hedgespeth,M.L., P.A. Nilsson, and O. Berglund|Ecological Implications of Altered Fish Foraging After Exposure to an Antidepressant Pharmaceutical|Aquat. Toxicol.151:84-87|2014|10.1016/j.aquatox.2013.12.011
168384|A||Helgesen,K.O., S. Bravo, S. Sevatdal, J. Mendoza, and T.E. Horsberg|Deltamethrin Resistance in the Sea Louse Caligus rogercresseyi (Boxhall and Bravo) in Chile: Bioassay Results and Usage Data for Antiparasitic Agents with References to Norwegian Conditions|J. Fish Dis.37:877-890|2014|10.1111/jfd.12223
168385|T||Nieradko-Iwanicka,B., and A. Borzecki|Subacute Poisoning of Mice with Deltamethrin Produces Memory Impairment, Reduced Locomotor Activity, Liver Damage and Changes in Blood Morphology in the Mechanism of Oxidative Stress|Pharmacol. Rep.0:7 p.|2014|
168386|A||Van Geest,J.L., L.E. Burridge, and K.A. Kidd|Toxicity of Two Pyrethroid-Based Anti-Sea Lice Pesticides, AlphaMax and Excis, to a Marine Amphipod in Aqueous and Sediment Exposures|Aquaculture434:233-240|2014|10.1016/j.aquaculture.2014.08.025
168387|A||Van Geest,J.L., L.E. Burridge, F.J. Fife, and K.A. Kidd|Feeding Response in Marine Copepods as a Measure of Acute Toxicity of Four Anti-Sea Lice Pesticides|Mar. Environ. Res.101:145-152|2014|10.1016/j.marenvres.2014.09.011
168388|A||Honda,M., A. Muta, T. Akasaka, Y. Inoue, Y. Shimasaki, K. Kannan, N. Okino, and Y. Oshima|Identification of Perfluorooctane Sulfonate Binding Protein in the Plasma of Tiger Pufferfish Takifugu rubripes|Ecotoxicol. Environ. Saf.104:409-413|2014|10.1016/j.ecoenv.2013.11.010
168389|A||Whyte,S.K., J.D. Westcott, D. Jimenez, C.W. Revie, and K.L. Hammell|Assessment of Sea Lice (Lepeophtheirus salmonis) Management in New Brunswick, Canada Using Deltamethrin (AlphaMax) Through Clinical Field Treatment and Laboratory Bioassay Responses|Aquaculture422/423:54-62|2014|10.1016/j.aquaculture.2013.11.027
168390|A||Hazon,N., and I.W. Henderson|Factors Affecting the Secretory Dynamics of 1 alpha-Hydroxycorticosterone in the Dogfish, Scyliorhinus canicula|Gen. Comp. Endocrinol.59(1): 50-55|1985|10.1016/0016-6480(85)90417-4
168391|A||Al-Ghanbousi,R., T. Ba-Omar, and R. Victor|Effect of Deltamethrin on the Liver and Ovary of Aphanius dispar: A Microscopic Study|Fresenius Environ. Bull.23(1a): 190-198|2014|
168392|T||Min,S., S.W. Lee, B.R. Choi, S.H. Lee, and D.H. Kwon|Insecticide Resistance Monitoring and Correlation Analysis to Select Appropriate Insecticides Against Nilaparvata lugens (Stal), a Migratory Pest in Korea|J. Asia Pac. Entomol.17(4): 711-716|2014|10.1016/j.aspen.2014.07.005
168393|T||Balmert,N.J., S.S.C. Rund, J.P. Ghazi, P. Zhou, and G.E. Duffield|Time-of-Day Specific Changes in Metabolic Detoxification and Insecticide Resistance in the Malaria Mosquito Anopheles gambiae|J. Insect Physiol.64:30-39|2014|10.1016/j.jinsphys.2014.02.013
168394|A||Shanthanagouda,A.H., D. Nugegoda, and J.G. Patil|Effects of Bisphenol A and Fadrozole Exposures on CYP19a1 Expression in the Murray Rainbowfish, Melanotaenia fluviatilis|Arch. Environ. Contam. Toxicol.67(2): 270-280|2014|10.1007/s00244-014-0047-1
168395|A||Rossaro,B., L. Marziali, and P. Cortesi|The Effects of Tricyclazole Treatment on Aquatic Invertebrates in a Rice Paddy Field|Clean - Soil, Air, Water42(1): 29-35|2014|10.1002/clen.201200215
168396|A||Ruiz de Arcaute,C., J.M. Perez-Iglesias, N. Nikoloff, G.S. Natale, S. Soloneski, and M.L. Larramendy|Genotoxicity Evaluation of the Insecticide Imidacloprid on Circulating Blood Cells of Montevideo Tree Frog Hypsiboas pulchellus Tadpoles (Anura, Hylidae) by Comet and Micronucleus Bioassays|Ecol. Indic.45:632-639|2014|10.1016/j.ecolind.2014.05.034
168397|T||Pszczolkowski,M.A., and J.J. Brown|Enhancement of Insecticides Against Codling Moth (Lepidoptera: Tortricidae) with L-Aspartate in Laboratory and Field Experiments|J. Econ. Entomol.107(3): 1163-1171|2014|10.1603/EC13446
168398|T||Chargui,I., I. Grissa, F. Bensassi, M.Y. Hrira, S. Haouem, Z. Haouas, and H. Bencheikh|Oxidative Stress, Biochemical and Histopathological Alterations in the Liver and Kidney of Female Rats Exposed to Low Doses of Deltamethrin (DM): A Molecular Assessment|Biomed. Environ. Sci.25(6): 672-683|2012|
168400|T||Schnug,L., J. Jensen, J.J. Scott-Fordsmand, and H.P. Leinaas|Toxicity of Three Biocides to Springtails and Earthworms in a Soil Multi-Species (SMS) Test System|Soil Biol. Biochem.74:115-126|2014|10.1016/j.soilbio.2014.03.007
168401|T||Abdel-Daim,M.M., M.A. Abd Eldaim, and M.M. Mahmoud|Trigonella foenum-graecum Protection Against Deltamethrin-Induced Toxic Effects on Haematological, Biochemical, and Oxidative Stress Parameters in Rats|Can. J. Physiol. Pharmacol.92:679-685|2014|10.1139/cjpp-2014-0144
168402|T||Rattner,B.A., K.E. Horak, R.S. Lazarus, D.A. Goldade, and J.J. Johnston|Toxicokinetics and Coagulopathy Threshold of the Rodenticide Diphacinone in Eastern Screech-Owls (Megascops asio)|Environ. Toxicol. Chem.33(1): 74-81|2014|10.1002/etc.2390
168404|T||Freeborn,D.L., K.L. McDaniel, V.C. Moser, and D.W. Herr|Use of Electroencephalography (EEG) to Assess CNS Changes Produced by Pesticides with Different Modes of Action: Effects of Permethrin, Deltamethrin, Fipronil, Imidacloprid, Carbaryl, and Triadimefon|Toxicol. Appl. Pharmacol.282(2): 184-194|2015|10.1016/j.taap.2014.11.011
168405|T||Liang,Y.J., H.P. Wang, D.X. Long, W. Li, and Y.J. Wu|A Metabonomic Investigation of the Effects of 60 Days Exposure of Rats to Two Types of Pyrethroid Insecticides|Chem.-Biol. Interact.206(2): 302-308|2013|10.1016/j.cbi.2013.10.002
168406|T||Tungu,P., S. Magesa, C. Maxwell, R. Malima, D. Masue, W. Sudi, J. Myamba, O. Pigeon, and M. Rowland|Evaluation of PermaNet 3.0 a Deltamethrin-PBO Combination Net Against Anopheles gambiae and Pyrethroid Resistant Culex quinquefasciatus Mosquitoes: An Experimental Hut Trial in Tanzania|Malar. J.9(21): 13 p.|2010|
168407|T||Sharma,P., R. Singh, and M. Jan|Dose-Dependent Effect of Deltamethrin in Testis, Liver, and Kidney of Wistar Rats|Toxicol. Int.21(2): 131-139|2014|10.4103/0971-6580.139789
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168409|T||Halima,N.B., A.B. Slima, I. Moalla, H. Fetoui, C. Pichon, R. Gdoura, and S. Abdelkafi|Protective Effects of Oat Oil on Deltamethrin-Induced Reprotoxicity in Male Mice|Food Funct.5:2070-2077|2014|10.1039/C4FO00190G
168411|T||Mani,M., S. Nagarkatti, and K.P. Jayanth|Reaction of Four Parasitoids to Some Synthetic Pyrethroids|Entomon10(2): 111-115|1985|
168412|T||Percival,G.C., J. Banks, and I. Keary|Evaluation of Organic, Synthetic and Physical Insecticides for the Control of Horse Chestnut Leaf Miner (Cameraria ohridella)|Urban For. Urban Greening11:426-431|2012|10.1016/j.ufug.2012.07.001
168413|T||Yu,Y.M., J.W. Kim, W.S. Na, Y.N. Youn, I.W. Choi, and Y.H. Lee|Effects of Some Pesticides on Development of Ascaris suum Eggs|Korean J. Parasitol.52(1): 111-115|2014|10.3347/kjp.2014.52.1.111
168414|T||Delpuech,J.M., and M. Delahaye|The Sublethal Effects of Deltamethrin on Trichogramma Behaviors During the Exploitation of Host Patches|Sci. Total Environ.447:274-279|2013|10.1016/j.scitotenv.2012.12.096
168415|T||Del Sarto,M.C.L., E.E. Oliveira, R.N.C. Guedes, and L.A.O. Campos|Differential Insecticide Susceptibility of the Neotropical Stingless Bee Melipona quadrifasciata and the Honey Bee Apis mellifera|Apidologie45:626-636|2014|10.1007/s13592-014-0281-6
168416|T||Singh,N.K., Jyoti, B. Vemu, A. Nandi, H. Singh, R. Kumar, and V.K. Dumka|Laboratory Assessment of Acaricidal Activity of Cymbopogon winterianus, Vitex negundo and Withania somnifera Extracts Against Deltamethrin Resistant Hyalomma anatolicum|Exp. Appl. Acarol.63:423-430|2014|10.1007/s10493-014-9791-1
168417|T||Costa,E.M., E.L. Araujo, A.V.P. Maia, F.E.L. Silva, C.E.S. Bezerra, and J.G. Silva|Toxicity of Insecticides Used in the Brazilian Melon Crop to the Honey Bee Apis mellifera Under Laboratory Conditions|Apidologie45:34-44|2014|10.1007/s13592-013-0226-5
168418|T||Carvalho,S.M., L.P. Belzunces, G.A. Carvalho, J.L. Brunet, and A. Badiou-Beneteau|Enzymatic Biomarkers as Tools to Assess Environmental Quality:  A Case Study of Exposure of the Honeybee Apis mellifera to Insecticides|Environ. Toxicol. Chem.32(9): 2117-2124|2013|10.1002/etc.2288
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168422|T||Kumar,A., Y.S. Shivay, and J. Pandey|Effect of Crop Establishment Methods and Weed Control Practices on Weed Dynamics, Productivity, Nutrient Removal by Weeds vis-a-vis Crop and Quality of Aromatic Rice (Oryza sativa)|Indian J. Agric. Sci.77(3): 179-183|2007|
168423|T||Galal,M.K., A.A.A. Khalaf, H.A. Ogaly, and M.A. Ibrahim|Vitamin E Attenuates Neurotoxicity Induced by Deltamethrin in Rats|BMC Complement. Altern. Med.14(458): 7 p.|2014|
168424|T||Habr,S.F., D.J. Macrini, H.S. De Spinosa, J.C. Florio, and M.M. Bernardi|Repeated Forced Swim Stress has Additive Effects in Anxiety Behavior and in Cathecolamine Levels of Adult Rats Exposed to Deltamethrin|Neurotoxicol. Teratol.46(0): 57-61|2014|10.1016/j.ntt.2014.10.001
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168431|T||Vickerman,G.P., D.S. Coombes, G. Turner, M.A. Mead-Briggs, and J. Edwards|The Effects of Pirimicarb, Dimethoate and Deltamethrin on Carabidae and Staphylinidae in Winter Wheat|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(2, Pt. A): 213-224|1987|
168432|T||Hossain,M.M., T. Suzuki, J.R. Richardson, and H. Kobayashi|Acute Effects of Pyrethroids on Serotonin Release in the Striatum of Awake Rats: An In Vivo Microdialysis Study|J. Biochem. Mol. Toxicol.27(2): 150-156|2013|10.1002/jbt.21450
168433|T||Kumar,K., N. Patro, and I. Patro|Impaired Structural and Functional Development of Cerebellum Following Gestational Exposure of Deltamethrin in Rats: Role of Reelin|Cell. Mol. Neurobiol.33:731-746|2013|10.1007/s10571-013-9942-7
168434|T||Moser,V.C., N. Stewart, D.L. Freeborn, J. Crooks, D.K. MacMillan, J.M. Hedge, C.E. Wood, R.L. McMahen, M.J. Strynar, an|Assessment of Serum Biomarkers in Rats After Exposure to Pesticides of Different Chemical Classes|Toxicol. Appl. Pharmacol.282(2): 161-174|2015|10.1016/j.taap.2014.11.016
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168436|T||Sekeroglu,V., Z.A. Sekeroglu, and E.S. Demirhan|Effects of Commercial Formulations of Deltamethrin and/or Thiacloprid on Thyroid Hormone Levels in Rat Serum|Toxicol. Ind. Health30(1): 40-46|2014|10.1177/0748233712448114
168437|T||Stanley,J., K. Sah, S.K. Jain, J.C. Bhatt, and S.N. Sushil|Evaluation of Pesticide Toxicity at Their Field Recommended Doses to Honeybees, Apis cerana and A. mellifera Through Laboratory, Semi-Field and Field Studies|Chemosphere119:668-674|2015|10.1016/j.chemosphere.2014.07.039
168438|T||Velki,M., B.K. Hackenberger, Z. Loncaric, and D.K. Hackenberger|Application of Microcosmic System for Assessment of Insecticide Effects on Biomarker Responses in Ecologically Different Earthworm Species|Ecotoxicol. Environ. Saf.104:110-119|2014|10.1016/j.ecoenv.2014.02.006
168439|T||Wang,H.P., Y.J. Liang, Y.J. Sun, J.X. Chen, W.Y. Hou, D.X. Long, and Y.J. Wu|1H NMR-Based Metabonomic Analysis of the Serum and Urine of Rats Following Subchronic Exposure to Dichlorvos, Deltamethrin, or a Combination of These Two Pesticides|Chem.-Biol. Interact.203:588-596|2013|10.1016/j.cbi.2013.03.017
168440|A||Bouboulis,D., F. Athanassopoulou, and A. Tyrpenou|Experimental Treatments with Diflubenzuron and Deltamethrin of Sea Bass, Dicentrarchus labrax L., Infected with the Isopod, Ceratothoa oestroides|J. Appl. Ichthyol. (Z. Angew. Ichthyol.)20:314-317|2004|10.1111/j.1439-0426.2004.00579.x
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168442|T||Prabhaker,N., S. Castle, and T.M. Perring|Baseline Susceptibility of Bemisia tabaci B Biotype (Hemiptera: Aleyrodidae) Populations from California and Arizona to Spirotetramat|J. Econ. Entomol.107(2): 773-780|2014|10.1603/EC13429
168443|A||Sarma,S.S.S., B.K. Gonzalez-Perez, R.M. Moreno-Gutierrez, and S. Nandini|Effect of Paracetamol and Diclofenac on Population Growth of Plationus patulus and Moina macrocopa|J. Environ. Biol.35:119-126|2014|
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168447|T||Pitt,W.C., G.W. Witmer, S.M. Jojola, and H. Sin|Potential Citric Acid Exposure and Toxicity to Hawaiian Hoary Bats (Lasiurus cinereus semotus) Associated with Eleutherodactylus Frog Control|Ecotoxicology23(3): 429-436|2014|10.1007/s10646-014-1208-8
168448|A||Peng,H., S. Zhang, J. Sun, Z. Zhang, J.P. Giesy, and J. Hu|Isomer-Specific Accumulation of Perfluorooctanesulfonate from (N-Ethyl Perfluorooctanesulfonamido)Ethanol-Based Phosphate Diester in Japanese Medaka (Oryzias latipes)|Environ. Sci. Technol.48(2): 1058-1066|2014|10.1021/es404867w
168449|A||Perez-Iglesias,J.M., C.R. De Arcaute, N. Nikoloff, L. Dury, S. Soloneski, G.S. Natale, and M.L. Larramendy|The Genotoxic Effects of the Imidacloprid-Based Insecticide Formulation Glacoxan Imida on Montevideo Tree Frog Hypsiboas pulchellus Tadpoles (Anura, Hylidae)|Ecotoxicol. Environ. Saf.104:120-126|2014|10.1016/j.ecoenv.2014.03.002
168450|A||Yang,M., W. Qiu, J. Chen, J. Zhan, C. Pan, X. Lei, and M. Wu|Growth Inhibition and Coordinated Physiological Regulation of Zebrafish (Danio rerio) Embryos Upon Sublethal Exposure to Antidepressant Amitriptyline|Aquat. Toxicol.151:68-76|2014|10.1016/j.aquatox.2013.12.029
168451|T||Xu,L., M. Wu, and Z. Han|Biochemical and Molecular Characterisation and Cross-Resistance in Field and Laboratory Chlorpyrifos-Resistant Strains of Laodelphax striatellus (Hemiptera: Delphacidae) from Eastern China|Pest Manag. Sci.70:1118-1129|2014|10.1002/ps.3657
168453|T||Wang,H., J. Chen, B.Y. Guo, and J. Li|Enantioseletive Bioaccumulation and Metabolization of Diniconazole in Earthworms (Eisenia fetida) in an Artificial Soil|Ecotoxicol. Environ. Saf.99:98-104|2014|10.1016/j.ecoenv.2013.10.017
168454|A||Zhao,Y., C. Wang, S. Xia, J. Jiang, R. Hu, G. Yuan, and J. Hu|Biosensor Medaka for Monitoring Intersex Caused by Estrogenic Chemicals|Environ. Sci. Technol.48(4): 2413-2420|2014|
168455|A||Zhai,W., Z. Huang, L. Chen, C. Feng, B. Li, and T. Li|Thyroid Endocrine Disruption in Zebrafish Larvae After Exposure to Mono-(2-Ethylhexyl) Phthalate (MEHP)|PLoS One9(3): 6 p.|2014|
168456|A||Zhang,L., J. Niu, Y. Wang, J. Shi, and Q. Huang|Chronic Effects of PFOA and PFOS on Sexual Reproduction of Freshwater Rotifer Brachionus calyciflorus|Chemosphere114:114-120|2014|10.1016/j.chemosphere.2014.03.099
168457|A||Wolkowicz,I.R.H., J. Herkovits, and C.S.P. Coll|Stage-Dependent Toxicity of Bisphenol A on Rhinella arenarum (Anura, Bufonidae) Embryos and Larvae|Environ. Toxicol.29:146-154|2014|10.1002/tox.20781
168458|T||Yang,Y.J., B.Q. Dong, H.X. Xu, X.S. Zheng, K.L. Heong, and Z.X. Lu|Susceptibility to Insecticides and Ecological Fitness in Resistant Rice Varieties of Field Nilaparvata lugens Stal Population Free from Insecticides in Laboratory|Rice Sci.21(3): 181-186|2014|10.1016/S1672-6308(13)60181-X
168459|A||Zenobio,J.E., B.C. Sanchez, L.C. Archuleta, and M.S. Sepulveda|Effects of Triclocarban, N,N-Diethyl-meta-Toluamide, and a Mixture of Pharmaceuticals and Personal Care Products on Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.33(4): 910-919|2014|10.1002/etc.2511
168460|A||Yang,S., S. Liu, Z. Ren, X. Jiao, and S. Qin|Induction of Oxidative Stress and Related Transcriptional Effects of Perfluorononanoic Acid Using an In Vivo Assessment|Comp. Biochem. Physiol. C Toxicol. Pharmacol.160:60-65|2014|10.1016/j.cbpc.2013.11.007
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168463|T||Rodeheaver,D.P.|The Mixed Function Oxidase System and Aflatoxin Metabolism in Japanese Quail|Ph.D.Thesis, University of Georgia, Athens, GA:165 p.|1987|
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168466|T||Terry,L.I.|Pest and Predator Populations Following Early-Season Cotton Insect Control in Arizona|Southwest. Entomol.16(1): 51-62|1991|
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168470|T||Rodriguez-Kabana,R., N. Kokalis-Burelle, D.G. Robertson, C.F. Weaver, and L. Wells|Effects of Partridge Pea-Peanut Rotations on Populations of Meloidogyne arenaria, Incidence of Sclerotium rolfsii, and Yield of Peanut|Nematropica25(1): 27-34|1995|
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168472|T||Kemerait,R.C.Jr., P. Roberts, C.L. Brewer, S.N. Brown, W.E. Harrison, B.R. Mitchell, R.G. McDaniel, and R.D. McNeill IV|Efficacy of Nematicides with Thrips-Management Considerations on Southern Root-Knot and Columbia Lance Nematodes in Georgia|Proc. Beltwide Cotton Conf.:227-236|2004|
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168478|T||Das,B.B.|Insects Pests of Potato and Their Control in Tripura|Indian J. Entomol.50(3): 298-301|1988|
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168482|T||Alvarez,J.M., R. Srinivasan, and F.A. Cervantes|Occurrence of the Carabid Beetle, Pterostichus melanarius (Illiger), in Potato Ecosystems of Idaho and Its Predatory Potential on the Colorado Potato Beetle and Aphids|Am. J. Potato Res.90:83-92|2013|10.1007/s12230-012-9279-7
168483|A||Di Marzio,W.D., D. Castaldo, T. Di Lorenzo, A. Di Cioccio, M.E. Saenz, and D.M.P. Galassi|Developmental Endpoints of Chronic Exposure to Suspected Endocrine-Disrupting Chemicals on Benthic and Hyporheic Freshwater Copepods|Ecotoxicol. Environ. Saf.96:86-92|2013|10.1016/j.ecoenv.2013.06.029
168484|T||Jensen,L.T., T.H. Moeller, S.A. Larsen, H. Jakobsen, and A. Olsen|A New Role for Laminins as Modulators of Protein Toxicity in Caenorhabditis elegans|Aging Cell11(1): 82-92|2012|10.1111/j.1474-9726.2011.00767.x
168485|T||Liao,V.H.C., J.T. Liu, W.H. Li, C.W. Yu, and Y.C. Hsieh|Caenorhabditis elegans Bicarbonate Transporter ABTS-1 is Involved in Arsenite Toxicity and Cholinergic Signaling|Chem. Res. Toxicol.23:926-932|2010|10.1021/tx100016e
168486|T||Bergen,P., G.H. Whitfield, and C.E. Lilly|Effect of Insecticides and Herbicides on Sugarbeet Establishment, Yield and Control of the Sugarbeet Root Maggot|J. Am. Soc. Sugar Beet Technol.23(3/4): 162-173|1986|10.5274/jsbr.23.3.162
168487|T||Khan,A., S.S. Shaukat, and M. Aslam|Effect of Three Nematicides on Populaton Density of Two Plant Parasitic Nematodes and Yield of Okra|Pak. J. Sci. Ind. Res.33(3): 115-116|1990|
168488|T||Clements,R.O., B.R. Bentley, and R.M. Nuttall|The Invertebrate Population and Response to Pesticide Treatment of Two Permanent and Two Temporary Pastures|Ann. Appl. Biol.111(2): 399-407|1987|10.1111/j.1744-7348.1987.tb01467.x
168489|T||Dickson,D.W., and R. McSorley|Evaluation of Two Soybean Cultivars and Aldicarb Treatment in Soil Infested with Plant-Parasitic Nematodes|J. Nematol.23(4S): 678-681|1991|
168490|T||French,N., D.B.R. Nichols, J.A. Badcock, and A.J. Wright|Effect of Stubby-Root Nematodes on Growth and Yield of Oilseed Rape and Their Control with Aldicarb in Sandy Soils|Tests Agrochem. Cultiv.11:22-23|1990|
168491|T||McConnell,J.S., D.R. Johnson, and B.S. Frizzell|Response of Eight Cotton Cultivars to In-Furrow Aldicarb Treatments|Res. Ser. Univ. Ark. Fayettev. Agric. Exp. Stn.922:14 p.|1989|
168492|T||Hall,M.R., A.W. Johnson, and D.A. Smittle|Nematode Population Densities and Yield of Sweet Potato and Onion as Affected by Nematicides and Time of Application|Ann. Appl. Nematol.2:15-21|1988|
168493|T||Petr,J., E. Chmelikova, T. Zalmanova, L. Tumova, K. Kheilova, V. Kucerova-Chrpova, and F. Jilek|Pyrethroids Cypermethrin, Deltamethrin and Fenvalerate have Different Effects on In Vitro Maturation of Pig Oocytes at Different Stages of Growth|Animal7(1): 134-142|2013|10.1017/S1751731112001140
168494|T||Heitholt,J.J., A. Knutson, J.B. Farr, and B. Langston|Early-Season Thrips (Thysanoptera:  Thripidae) Control and Soybean Yield in North Texas|Southwest. Entomol.31(2): 113-120|2006|
168495|T||Kimpinski,J., and K.B. McRae|Relationship Between Root Lesion Nematodes and Potato Yields|Can. Plant Dis. Surv.66(2): 33-34|1986|
168496|T||Leach,S.S., and J.A. Frank|Influence of Three Systemic Insecticides on Verticillium Wilt and Rhizoctonia Disease Complex of Potato|Plant Dis.66(12): 1180-1182|1982|10.1094/PD-66-1180
168497|T||Babu,B.S., and G.P. Gupta|Efficacy of Systemic Insecticides Against Cotton Jassid (Amrasca devastans) and Their Effect on Non-Target Organisms in Upland Cotton (Gossypium hirsutum)|Indian J. Agric. Sci.58(6): 496-499|1988|
168498|T||Badra,T., and S.O. Adesiyan|Field Corn Response to Granular Pesticides:  Residues in Grains and Soils and Nematode Biological Interactions|Indian J. Nematol.20(1): 1-9|1990|
168499|T||Banerjee,S.K., and K.N. Katiyar|Insecticidal Control of Cotton Pests|Indian J. Entomol.46(1): 1-11|1984|
168500|T||Bhushan,V.S., K. Ramasubbiah, V.V.N. Nath, and K.M. Azam|Bio-Efficiency of Different Doses of Aldicarb (Temik) Against Certain Groundnut Pests|Pesticides 22(4): 23-26|1988|
168501|T||Ellis,S.A.|Permanent Pasture Rejuvenation and the Invertebrate Population|BCPC Monogr. - Br. Crop Prot. Counc.29:73-81|1985|
168502|T||Hussaini,S.S.|Efficacy of Durofume, Rabbing and Aldicarb Against Root Knot Nematode and Weeds in Tobacco Nurseries|Indian J. Nematol.15(1): 88-92|1985|
168503|T||Ioannou,N., and N. Iordanou|Prevention of the Spread of Potato Virus Y in Seed Potatoes by Mineral-Oil Sprays|Cyprus Agric. Res. Inst. Tech. Bull.98:1-8|1987|
168504|T||Kalmoukos,P., P. Patsakos, T. Tomazou, G. Miliadis, and K. Liapis|Effectiveness of Granular Insecticides on Potato Insects and Residues in Potatoes|Ann. Inst. Phytopathol. Benaki (Multiple Languages)17(1): 11-23|1994|
168505|T||Grabau,Z.|Management Strategies for Control of Soybean Cyst Nematode and Their Effect on Nematode Community|M.S.Thesis, University of Minnesota, Minneapolis, MN:144 p.|2013|
168506|T||Kimpinski,J., L.M. Edwards, C.E. Gallant, H.W. Johnston, J.A. MacLeod, and J.B. Sanderson|Influence of Previous Crops and Nematicide Treatments on Root Lesion Nematode Populations and Crop Yields|Phytoprotection (Multiple Languages)73(1): 3-11|1992|10.7202/706015ar
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168508|T||Kimpinski,J., R.V. Anderson, H.W. Johnston, and R.A. Martin|Nematodes and Fungal Diseases in Barley and Wheat on Prince Edward Island|Crop Prot.8(6): 412-416|1989|10.1016/0261-2194(89)90066-5
168509|T||Grichar,W.J., B.A. Besler, and D.T. Palrang|Flufenacet and Isoxaflutole Combinations for Weed Control and Corn (Zea mays) Tolerance|Weed Technol.19(4): 891-896|2005|10.1614/WT-04-290R1.1
168510|T||Hossain,M.M., E. Dicicco-Bloom, and J.R. Richardson|Hippocampal ER Stress and Learning Deficits Following Repeated Pyrethroid Exposure|Toxicol. Sci.143(1): 220-228|2015|10.1093/toxsci/kfu226
168511|T||Watier-Grillot,S., S. Herder, J.L. Marie, G. Cuny, and B. Davoust|Chemoprophylaxis and Treatment of African Canine Trypanosomosis in French Military Working Dogs: A Retrospective Study|Vet. Parasitol.194:1-8|2013|10.1016/j.vetpar.2013.01.025
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168514|T||Wiles,J.A., and P.C. Jepson|The Susceptibility of a Cereal Aphid Pest and Its Natural Enemies to Deltamethrin|Pestic. Sci.36(3): 263-272|1992|10.1002/ps.2780360313
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168518|T||Azmi,M.I.|Control of Lesion Nematode on Seedlings of Subabool, Leucaena leucocephala with Systemic Nematicides|Indian J. For.11(2): 160-161|1988|
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168522|T||Weeks,J.R., and W. Birdsong|Thrips Control on Bollgard and Non-Bt Cotton Varieties|Proc. Beltwide Cotton Conf.:1056-1059|2003|
168523|T||Ottens,R.J., J.R. Ruberson, P.M. Roberts, and J.D. Griffin|Thrips Abundance and Effects of Insecticidal Control on Cotton Growth and Yield in South Georgia|In: O.L.May, P.H.Jost and P.M.Roberts (Eds.), Cotton Research-Extension Report 2003, University of Georgia, Athens, GA:186-192|2004|
168524|T||Lawrence,K.S., W.S. Gazaway, G.W. Lawrence, C.H. Burmester, Y. Feng, and S.H. Norwood|Microbial Degradation of Aldicarb in Reniform Nematode Infested Cotton Field Soils|Proc. Beltwide Cotton Conf.:395-396|2004|
168525|T||Mishra,S.D., and H.S. Gaur|Effect of Nematicidal Seed Treatment of Lentil on Nematode Populations and Crop Performance and Its Residual Effect Under the Subsequent Mung Crop|Indian J. Entomol.51(4): 401-407|1989|
168526|T||Saifee,O., L.B. Metz, M.L. t, and C.M. Crowder|A Gain-of-Function Mutation in Adenylate Cyclase Confers Isoflurane Resistance in Caenorhabditis elegans|Anesthesiology115(6): 1162-1171|2011|10.1097/ALN.0b013e318239355d
168527|T||Sweelam,M.E., A.M. Zaki, and S.M. Abo-Taka|Efficacy of Some Pesticides in Field Control of Soil Mites and Nematodes Infesting Potato Plants|In: F.Dusbabek and V.Bukva (Eds.), Modern Acarology, Academica, Prague and SPB Academic Publishing, The Hague:713-717|1991|
168528|A||Olsvik,P.A., R. Ornsrud, B.T. Lunestad, N. Steine, and B.N. Fredriksen|Transcriptional Responses in Atlantic Salmon (Salmo salar) Exposed to Deltamethrin, Alone or in Combination with Azamethiphos|Comp. Biochem. Physiol. C Toxicol. Pharmacol.162:23-33|2014|10.1016/j.cbpc.2014.03.005
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168530|T||Rizk,G.A., H.S.A. Radwan, and I.B. Sheta|Systemic Activity of Certain Soil Granular Insecticides Against the Cotton Leafworm, Spodoptera littoralis (Boisd.) (Lepidoptera:  Noctuidae)|Bull. Entomol. Soc. Egypt12:11-18|1980|
168531|T||Salman,S.Y., and E. Saritas|Acequinocyl Resistance in Tetranychus urticae Koch (Acari: Tetranychidae): Inheritance, Synergists, Cross-Resistance and Biochemical Resistance Mechanisms|Int. J. Acarol.40(6): 428-435|2014|10.1080/01647954.2014.944932
168532|T||Irigaray,F.J.S., F.G. Zalom, and P.B. Thompson|Residual Toxicity of Acaricides to Galendromus occidentalis and Phytoseiulus persimilis Reproductive Potential|Biol. Control40:153-159|2007|10.1016/j.biocontrol.2006.10.012
168533|T||Kim,S.S., S.G. Seo, J.D. Park, S.G. Kim, and D.I. Kim|Effects of Selected Pesticides on the Predatory Mite, Amblyseius cucumeris (Acari: Phytoseiidae)|J. Entomol. Sci.40(2): 107-114|2005|10.18474/0749-8004-40.2.107
168534|T||Van Leeuwen,T., L. Tirry, and R. Nauen|Complete Maternal Inheritance of Bifenazate Resistance in Tetranychus urticae Koch (Acari: Tetranychidae) and Its Implications in Mode of Action Considerations|Insect Biochem. Mol. Biol.36:869-877|2006|10.1016/j.ibmb.2006.08.005
168535|T||Gotoh,T., S. Fujiwara, and Y. Kitashima|Susceptibility to Acaricides in Nine Strains of the Tomato Red Spider Mite Tetranychus evansi (Acari: Tetranychidae)|Int. J. Acarol.37(2): 93-102|2011|10.1080/01647954.2010.497498
168536|T||Latheef,M.A., and W.C. Hoffmann|Toxicity of Selected Acaricides in a Glass-Vial Bioassay to Twospotted Spider Mite (Acari: Tetranychidae)|Southwest. Entomol.39(1): 29-36|2014|10.3958/059.039.0104
168537|T||Price,J.F., and C.A. Nagle|Response of Twospotted Spider Mite Populations to Programs of Abamectin, Bifenazate, Hexythiazox, Spiromesifen, and an Essential Oil of Chenopodium ambrosioides Miticides in Florida Strawberry Crops|Acta Hortic.:331-334|2009|10.17660/ActaHortic.2009.842.61
168538|T||Ullah,M.S., D. Moriya, M. Kongchuensin, P. Konvipasruang, and T. Gotoh|Comparative Toxicity of Acaricides to Tetranychus merganser Boudreaux and Tetranychus kanzawai Kishida (Acari: Tetranychidae)|Int. J. Acarol.37(6): 535-543|2011|10.1080/01647954.2010.525531
168539|T||Ullah,M.S., and T. Gotoh|Laboratory-Based Toxicity of Some Acaricides to Tetranychus macfarlanei and Tetranychus truncatus (Acari: Tetranychidae)|Int. J. Acarol.39(3): 244-251|2013|10.1080/01647954.2012.758655
168540|T||Cloyd,R.A., C.L. Galle, and S.R. Keith|Greenhouse Pesticide Mixtures for Control of Silverleaf Whitefly (Homoptera: Aleyrodidae) and Twospotted Spider Mite (Acari: Tetranychidae)|J. Entomol. Sci.42(3): 375-382|2007|10.18474/0749-8004-42.3.375
168541|T||Lee,Y.S., M.H. Song, K.S. Ahn, K.Y. Lee, J.W. Kim, and G.H. Kim|Monitoring of Acaricide Resistance in Two-Spotted Spider Mite (Tetranychus urticae) Populations from Rose Greenhouses in Korea|J. Asia Pac. Entomol.6(1): 91-96|2003|10.1016/S1226-8615(08)60173-9
168542|T||Van Leeuwen,T., P. Van Nieuwenhuyse, B. Vanholme, W. Dermauw, R. Nauen, and L. Tirry|Parallel Evolution of Cytochrome b Mediated Bifenazate Resistance in the Citrus Red Mite Panonychus citri|Insect Mol. Biol.20(1): 135-140|2011|10.1111/j.1365-2583.2010.01040.x
168543|T||Warnock,D.F., and R.A. Cloyd|Effect of Pesticide Mixtures in Controlling Western Flower Thrips (Thysanoptera: Thripidae)|J. Entomol. Sci.40(1): 54-66|2005|10.18474/0749-8004-40.1.54
168544|T||Chow,A., A. Chau, and K.M. Heinz|Reducing Fertilization for Cut Roses: Effect on Crop Productivity and Twospotted Spider Mite Abundance, Distribution, and Management|J. Econ. Entomol.102(5): 1896-1907|2009|10.1603/029.102.0521
168545|T||Fountain,M.T., A.L. Harris, and J.V. Cross|The Use of Surfactants to Enhance Acaricide Control of Phytonemus pallidus (Acari: Tarsonemidae) in Strawberry|Crop Prot.29:1286-1292|2010|10.1016/j.cropro.2010.06.016
168546|T||Holt,K.M., G. Opit, J.R. Nechols, D.C. Margolies, and K.A. Williams|Comparing Chemical and Biological Control Strategies for Twospotted Spider Mites in Mixed Production of Ivy Geranium and Impatiens|HortTechnology17:322-327|2007|10.21273/HORTTECH.17.3.322
168547|T||Liburd,O.E., J.C. White, E.M. Rhodes, and A.A. Browdy|The Residual and Direct Effects of Reduced-Risk and Conventional Miticides on Twospotted Spider Mites, Tetranychus urticae (Acari: Tetranychidae) and Predatory Mites (Acari: Phytoseiidae)|Fla. Entomol.90:249-257|2007|10.1653/0015-4040(2007)90[249:TRADEO]2.0.CO;2
168548|T||Lindquist,R.K., M.L. Casey, T. Moore, and R.A.J. Taylor|Control of Two-Spotted Spider Mite, Western Flower Thrips, and Melon Aphid on Mini-Roses, 1998|Arthropod Manag. Tests24:377-378|1999|
168550|T||Nyoike,T.W., and O.E. Liburd|Effect of Tetranychus urticae (Acari: Tetranychidae), on Marketable Yields of Field-Grown Strawberries in North-Central Florida|J. Econ. Entomol.106(4): 1757-1766|2013|10.1603/EC12033
168551|T||Opit,G.P., J. Perret, K. Holt, J.R. Nechols, D.C. Margolies, and K.A. Williams|Comparing Chemical and Biological Control Strategies for Twospotted Spider Mites (Acari: Tetranychidae) in Commercial Greenhouse Production of Bedding Plants|J. Econ. Entomol.102(1): 336-346|2009|10.1603/029.102.0144
168552|T||Rhodes,E.M., O.E. Liburd, C. Kelts, S.I. Rondon, and R.R. Francis|Comparison of Single and Combination Treatments of Phytoseiulus persimilis, Neoseiulus californicus, and Acramite (Bifenazate) for Control of Twospotted Spider Mites in Strawberries|Exp. Appl. Acarol.39:213-225|2006|10.1007/s10493-006-9005-6
168553|T||Rhodes,E.M., and O.E. Liburd|Evaluation of Predatory Mites and Acramite for Control of Twospotted Spider Mites in Strawberries in North Central Florida|J. Econ. Entomol.99(4): 1291-1298|2006|10.1093/jee/99.4.1291
168554|T||Smitley,D.R., and T.W. Davis|Twospotted Spider Mite on Marigold in the Greenhouse, 1998|Arthropod Manag. Tests24:375-|1999|
168555|T||Stavrinides,M.C., P. Van Nieuwenhuyse, T. Van Leeuwen, and N.J. Mills|Development of Acaricide Resistance in Pacific Spider Mite (Tetranychus pacificus) from California Vineyards|Exp. Appl. Acarol.50:243-254|2010|10.1007/s10493-009-9310-y
168556|T||Tang,X., Y. Zhang, Q. Wu, W. Xie, and S. Wang|Stage-Specific Expression of Resistance to Different Acaricides in Four Field Populations of Tetranychus urticae (Acari: Tetranychidae)|J. Econ. Entomol.107(5): 1900-1907|2014|10.1603/EC14064
168557|T||Tirello,P., A. Pozzebon, S. Cassanelli, T. Van Leeuwen, and C. Duso|Resistance to Acaricides in Italian Strains of Tetranychus urticae: Toxicological and Enzymatic Assays|Exp. Appl. Acarol.57:53-64|2012|10.1007/s10493-012-9536-y
168558|T||Van Leeuwen,T., S. Van Pottelberge, and L. Tirry|Comparative Acaricide Susceptibility and Detoxifying Enzyme Activities in Field-Collected Resistant and Susceptible Strains of Tetranychus urticae|Pest Manag. Sci.61(5): 499-507|2005|10.1002/ps.1001
168559|T||Van Leeuwen,T., S. Van Pottelberge, R. Nauen, and L. Tirry|Organophosphate Insecticides and Acaricides Antagonise Bifenazate Toxicity Through Esterase Inhibition in Tetranychus urticae|Pest Manag. Sci.63(12): 1172-1177|2007|10.1002/ps.1453
168560|T||Van Leeuwen,T., B. Vanholme, S. Van Pottelberge, P. Van Nieuwenhuyse, R. Nauen, L. Tirry, and I. Denholm|Mitochondrial Heteroplasmy and the Evolution of Insecticide Resistance: Non-Mendelian Inheritance in Action|Proc. Natl. Acad. Sci. U.S.A.105(16): 5980-5985|2008|10.1073/pnas.0802224105
168561|T||Van Nieuwenhuyse,P., T. Van Leeuwen, J. Khajehali, B. Vanholme, and L. Tirry|Mutations in the Mitochondrial Cytochrome b of Tetranychus urticae Koch (Acari: Tetranychidae) Confer Cross-Resistance Between Bifenazate and Acequinocyl|Pest Manag. Sci.65:404-412|2009|10.1002/ps.1705
168562|T||Van Nieuwenhuyse,P., P. Demaeght, W. Dermauw, M. Khalighi, C.V. Stevens, B. Vanholme, L. Tirry, P. Lummen, and T. Van L|On the Mode of Action of Bifenazate: New Evidence for a Mitochondrial Target Site|Pestic. Biochem. Physiol.104(2): 88-95|2012|10.1016/j.pestbp.2012.05.013
168563|T||Vassiliou,V.A., and P. Kitsis|Acaricide Resistance in Tetranychus urticae (Acari: Tetranychidae) Populations from Cyprus|J. Econ. Entomol.106(4): 1848-1854|2013|10.1603/EC12369
168564|T||Dutcher,J.D., G.E. Fonsah, and W.G. Hudson|Integration of Bifenazate and Western Predatory Mite (Acari: Phytoseiidae) for Control of Pecan Leaf Scorch Mite (Acari: Tetranychidae) in Pecan Orchards|J. Entomol. Sci.44(2): 98-110|2009|10.18474/0749-8004-44.2.98
168565|T||Irigaray,F.J.S., and F.G. Zalom|Side Effects of Five New Acaricides on the Predator Galendromus occidentalis (Acari, Phytoseiidae)|Exp. Appl. Acarol.38:299-305|2006|10.1007/s10493-006-0017-z
168566|T||Richardson,M.L., and D.G. Hall|Toxicity of 6 Miticides to the Asian Citrus Psyllid, Diaphorina citri (Hemiptera: Liviidae)|Fla. Entomol.96(2): 433-441|2013|10.1653/024.096.0207
168568|A||Uhler,G.C., P.T. Huminski, F.T. Les, and P.P. Fong|Cilia-Driven Rotational Behavior in Gastropod (Physa elliptica) Embryos Induced by Serotonin and Putative Serotonin Reuptake Inhibitors (SSRIs)|J. Exp. Zool.286(4): 414-421|2000|10.1002/(SICI)1097-010X(20000301)286:4<414::AID-JEZ9>3.0.CO;2-B
168569|T||Cloyd,R.A., C.L. Galle, and S.R. Keith|Compatibility of Three Miticides with the Predatory Mites Neoseiulus californicus McGregor and Phytoseiulus persimilis Athias-Henriot (Acari: Phytoseiidae)|Hortscience41(3): 707-710|2006|10.21273/HORTSCI.41.3.707
168570|A||Fong,P.P., P.T. Huminski, and L.M. D'Urso|Induction and Potentiation of Parturition in Fingernail Clams (Sphaerium striatinum) by Selective Serotonin Re-Uptake Inhibitors (SSRIs)|J. Exp. Zool.280(3): 260-264|1998|10.1002/(SICI)1097-010X(19980215)280:3<260::AID-JEZ7>3.0.CO;2-L
168572|A||Ginjupalli,G.K., and W.S. Baldwin|The Time- and Age-Dependent Effects of the Juvenile Hormone Analog Pesticide, Pyriproxyfen on Daphnia magna Reproduction|Chemosphere92(9): 1260-1266|2013|10.1016/j.chemosphere.2013.04.061
168573|A||Ginjupalli,G.K., P.D. Gerard, and W.S. Baldwin|Arachidonic Acid Enhances Reproduction in Daphnia magna and Mitigates Changes in Sex Ratios Induced by Pyriproxyfen|Environ. Toxicol. Chem.:9 p. |2015|
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168576|A||Campos,B., N. Garcia-Reyero, C. Rivetti, L. Escalon, T. Habib, R. Tauler, S. Tsakovski, B. Pina, and C. Barata|Identification of Metabolic Pathways in Daphnia magna Explaining Hormetic Effects of Selective Serotonin Reuptake Inhibitors and 4-Nonylphenol Using Transcriptomic and Phenotypic Responses|Environ. Sci. Technol.47(16): 9434-9443|2013|10.1021/es4012299
168577|T||Jansen,J.P.|Side Effects of Insecticides on Larvae of the Aphid Specific Predator Episyrphus balteatus (Degeer) (Dipt. Syrphidae) in the Laboratory|Meded. Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent.63(2B): 585-592|1998|
168578|T||Ottens,R.J., J.R. Ruberson, P.M. Roberts, and J.D. Griffin|Thrips Abundance and Effects of Insecticidal Control on Cotton Growth and Yield in South Georgia|Proc. Beltwide Cotton Conf.:1912-1915|2004|
168579|AT||Ahmed,M.A.I., C.F.A. Vogel, and F. Matsumura|Unique Biochemical and Molecular Biological Mechanism of Synergistic Actions of Formamidine Compounds on Selected Pyrethroid and Neonicotinoid Insecticides on the Fourth Instar Larvae of Aedes aegypti (Diptera: Culicida|Pestic. Biochem. Physiol.:7 p.|2015|
168580|T||Ahmed,M.A.I.|Biochemical and Molecular Biological Studies on the Action of Formamidines in Synergizing Insecticidal Action of Pyrethroids and Neonicotinoids in Aedes aegypti Mosquitoes|Ph.D. Thesis, University of California, Davis:96 p.|2011|
168581|T||Sims,S.R., A.G. Appel, and M.J. Eva|Comparative Toxicity and Repellency of Microencapsulated and Other Liquid Insecticide Formulations to the German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.103(6): 2118-2125|2010|10.1603/EC09415
168582|A||Sharma,D.K., and B.A. Ansari|Influence of Deltamethrin and Achook on Activities of Phosphatases in the Nervous Tissue of Zebrafish, Danio rerio|Trends Biosci.6(1): 46-49|2013|
168583|T||Wiles,J.A., and P.C. Jepson|Sub-Lethal Effects of Deltamethrin Residues on the Within-Crop Behaviour and Distribution of Coccinella septempunctata|Entomol. Exp. Appl.72(1): 33-45|1994|10.1111/j.1570-7458.1994.tb01800.x
168584|T||Almasi,A., Q. Sabahi, and A. Kavousi|The Persistence Toxicity of Four Insecticides Against Adult Hippodamia varigata (Coleptera: Cocinellidae)|Commun. Agric. Appl. Biol. Sci.77(4): 627-633|2012|
168585|T||Steiner,M.Y., L.J. Spohr, and S. Goodwin|Impact of Two Formulations of the Acaricide Bifenazate on the Spider Mite Predator Phytoseiulus persimilis Athias-Henriot (Acari: Phytoseiidae)|Aust. J. Entomol.50:99-105|2011|10.1111/j.1440-6055.2010.00789.x
168586|T||Vandervalk,L.P.|New Options for Integrated Pest Management of Varroa destructor (Acari: Varroidae) in Colonies of Apis mellifera (Hymenoptera: Apidae) Under Canadian Prairie Conditions|M.S. Thesis, University of Alberta, Canada:131 p.|2013|
168587|T||Cilgi,T., S.D. Wratten, J.L. Robertson, D.E. Turner, J.M. Holland, and G.K. Frampton|Residual Toxicities of Three Insecticides to Four Species (Coleoptera: Carabidae) of Arthropod Predator|Can. Entomol.128(6): 1115-1124|1996|10.4039/Ent1281115-6
168588|T||Strausbaugh,C.A., E.J. Wenninger, and I.A. Eujayl|Control of Curly Top in Sugar Beet with Seed and Foliar Insecticides|Plant Dis.98(8): 1075-1080|2014|10.1094/PDIS-12-13-1260-RE
168589|T||Svobodova,H., H. Rysava, M. Pavl k, D. Saman, P. Drasar, and Z. Wimmer|Steroid Conjugates:  Synthesis and Preliminary Biological Testing of Pro-Juvenoids|Bioorg. Med. Chem.18(23): 8194-8203|2010|10.1016/j.bmc.2010.10.013
168590|A||Bhan,S., L. Mohan, and C.N. Srivastava|Relative Larvicidal Potentiality of Nano-Encapsulated Temephos and Imidacloprid Against Culex quinquefasciatus|J. Asia Pac. Entomol.17(4): 787-791|2014|10.1016/j.aspen.2014.07.006
168591|A||Bandyopadhyay,P., M. Sathe, S.N. Tikar, R. Yadav, P. Sharma, A. Kumar, and M.P. Kaushik|Synthesis of Some Novel Phosphorylated and Thiophosphorylated Benzimidazoles and Benzothiazoles and Their Evaluation for Larvicidal Potential to Aedes albopictus and Culex quinquefasciatus|Bioorg. Med. Chem. Lett.24(13): 2934-2939|2014|10.1016/j.bmcl.2014.04.082
168593|A||Venkatesan,R., and N. Subramanian|Effect of Copper Sulphate on Histopathological Changes in the Freshwater Fish Oreochromis mossambicus|J. Ecotoxicol. Environ. Monit.17(4): 353-361|2007|
168594|T||Zappala,M.N., J.T. Ellzey, J. Bader, J.R. Peralta-Videa, and J. Gardea-Torresdey|Effects of Copper Sulfate on Seedlings of Prosopis pubescens (Screwbean Mesquite)|Int. J. Phytoremediat.16(7-12): 1031-1041|2014|10.1080/15226514.2013.810582
168595|A||Pretto,A., V.L. Loro, V.M.M. Silva, J. Salbego, C.C. De Menezes, C.D.F. Souza, C.R. Gioda, and B. Baldisserotto|Exposure to Sublethal Concentrations of Copper Changes Biochemistry Parameters in Silver Catfish, Rhamdia quelen, Quoy & Gaimard|Bull. Environ. Contam. Toxicol.92(4): 399-403|2014|10.1007/s00128-014-1215-8
168596|T||Horn,C.C., K. Meyers, A. Lim, M. Dye, D. Pak, L. Rinaman, and B.J. Yates|Delineation of Vagal Emetic Pathways: Intragastric Copper Sulfate-Induced Emesis and Viral Tract Tracing in Musk Shrews|Am. J. Physiol., Regul. Integr. Comp. Physiol.306(5): R341-R351|2014|10.1152/ajpregu.00413.2013
168597|A||Amin,M.A.|Large-Scale Assessment of the Molluscicides Copper Sulphate and N-Tritylmorpholine (Frescon) in the North Group of the Gezira Irrigated Area, Sudan|J. Trop. Med. Hyg.75:169-175|1972|
168598|A||Casares,M.V., L.I. De Cabo, R.S. Seoane, O.E. Natale, M. Castro Rios, C. Weigandt, and A.F. De Iorio|Measured Copper Toxicity to Cnesterodon decemmaculatus (Pisces: Poeciliidae) and Predicted by Biotic Ligand Model in Pilcomayo River Water: A Step for a Cross-Fish-Species Extrapolation|J. Toxicol.:11 p.|2012|
168599|A||Dogan,Z., A. Eroglu, E.G. Kanak, G. Atli, and M. Canli|Response of Antioxidant System of Tilapia (Oreochromis niloticus) Following Exposure to Chromium and Copper in Differing Hardness|Bull. Environ. Contam. Toxicol.92(6): 680-686|2014|10.1007/s00128-014-1245-2
168600|A||Harley,R.A., and C.N. Glover|The Impacts of Stress on Sodium Metabolism and Copper Accumulation in a Freshwater Fish|Aquat. Toxicol.147:41-47|2014|10.1016/j.aquatox.2013.12.004
168601|A||Hassaan,M.S., A.M.A.S. Goda, S.A. Mahmoud, and S.I. Tayel|Protective Effect of Dietary Vitamin E Against Fungicide Copperoxychloride Stress on Nile Tilapia, Oreochromis niloticus (L.), Fingerlings|Int. Aquat. Res.6(1): 17 p.|2014|10.1007/s40071-014-0058-6
168602|A||Jiang,W.D., Y. Liu, K. Hu, J. Jiang, S.H. Li, L. Feng, and X.Q. Zhou|Copper Exposure Induces Oxidative Injury, Disturbs the Antioxidant System and Changes the Nrf2/ARE (CuZnSOD) Signaling in the Fish Brain: Protective Effects of Myo-Inositol|Aquat. Toxicol.155:301-313|2014|10.1016/j.aquatox.2014.07.003
168603|A||Kim,W.K., J.W. Park, E.S. Lim, S.K. Lee, J. Kim, S. Kim, S.W. Lee, K. Choi, and J. Jung|Tissue-Specific Antioxidant Responses in Pale Chub (Zacco platypus) Exposed to Copper and Benzo[a]Pyrene|Bull. Environ. Contam. Toxicol.92(5): 540-545|2014|10.1007/s00128-014-1213-x
168604|A||Kondera,E., K. Lugowska, and P. Sarnowski|High Affinity of Cadmium and Copper to Head Kidney of Common Carp (Cyprinus carpio L.)|Fish Physiol. Biochem.40(1): 9-22|2014|10.1007/s10695-013-9819-1
168605|A||Maltais,D., R.L. Roy, and C.M. Couillard|Hybrid ELISAs for Vitellogenins of the Endangered Copper Redhorse Moxostoma hubbsi and the Shorthead Redhorse Moxostoma macrolepidotum (Cypriniformes, Catostomidae)|Ecotoxicol. Environ. Saf.73(5): 883-892|2010|10.1016/j.ecoenv.2010.03.005
168606|A||Nunes,B., R.C. Capela, T. Sergio, C. Caldeira, F. Goncalves, and A.T. Correia|Effects of Chronic Exposure to Lead, Copper, Zinc, and Cadmium on Biomarkers of the European Eel, Anguilla anguilla|Environ. Sci. Pollut. Res.21(8): 5689-5700|2014|10.1007/s11356-013-2485-0
168607|A||Song,Y.F., Z. Luo, Y.X. Pan, X. Liu, C. Huang, and Q.L. Chen|Effects of Copper and Cadmium on Lipogenic Metabolism and Metal Element Composition in the Javelin Goby (Synechogobius hasta) After Single and Combined Exposure|Arch. Environ. Contam. Toxicol.67(2): 167-180|2014|10.1007/s00244-014-0011-0
168608|A||Wang,T., X. Long, Y. Cheng, Z. Liu, and S. Yan|The Potential Toxicity of Copper Nanoparticles and Copper Sulphate on Juvenile Epinephelus coioides|Aquat. Toxicol.152:96-104|2014|10.1016/j.aquatox.2014.03.023
168609|T||Bartov,I.|Effects of Propionic Acid and of Copper Sulfate on the Nutritional Value of Diets Containing Moldy Corn for Broiler Chicks|Poult. Sci.62(11): 2195-2200|1983|10.3382/ps.0622195
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168611|T||El Araqi,K.T., J. Gilot-Delhalle, I. Roelandts, G. Weber, R. Deltova, and J. Moutschen|Modified Fast Rejoining of Chromosomes After Fractionated X-Ray Exposures with Iron and Copper Sulfate Pretreatments Related to Uptake Detected by PIXE Analysis in Nigella damascena Seeds|Environ. Exp. Bot.38(1): 87-97|1997|10.1016/S0098-8472(96)01050-7
168612|A||Fish,F.F., and R.E. Burrows|Experiments upon the Control of Trichodiniasis of Salmonid Fishes by the Prolonged Recirculation of Formalin Solutions|Trans. Am. Fish. Soc.69(1): 94-100|1940|10.1577/1548-8659(1939)69[94:EUTCOT]2.0.CO;2
168613|T||Kelleher,C.A., and M. Ivan|Liver Distribution of Copper and 99Mo in Sheep Following Intravenous Administration of Copper Sulfate and (99Mo)-Tetathiomolybdate|Can. J. Anim. Sci.66:563-565|1986|10.4141/cjas86-061
168614|T||Rajapakse,N.C., and J.W. Kelly|Influence of CuSO4 Spectral Filters, Daminozide, and Exogenous Gibberellic Acid on Growth of Dendranthema X grandiflorum (Ramat.) Kitamura 'Bright Golden Anne'|J. Plant Growth Regul.10(4): 207-214|1991|10.1007/BF02279336
168615|T||Wiles,J.A., and P.C. Jepson|Dosage Reduction to Improve the Selectivity of Deltamethrin Between Aphids and Coccinellids in Cereals|Entomol. Exp. Appl.76(1): 83-96|1995|10.1111/j.1570-7458.1995.tb01948.x
168616|A||McBrien,D.C.H., and K.A. Hassall|Loss of Cell Potassium by Chlorella vulgaris After Contact with Toxic Amounts of Copper Sulphate|Physiol. Plant. (Multiple Languages)18:1059-1065|1965|10.1111/j.1399-3054.1965.tb07005.x
168617|AT||Mitra,E., and A.C. Banerjee|Some Observations on the Use of Copper Sulphate in Pond Soils for the Control of Rooted Aquatic Weeds|Sci. Cult.36(3): 159-161|1970|
168618|T||Bewick,T.A., S.R. Kostewicz, W.M. Stall, D.G. Shilling, and K. Smith|Interaction of Cupric Hydroxide, Paraquat, and Biotype of American Black Nightshade (Solanum americanum)|Weed Sci.38(6): 634-638|1990|10.1017/S0043174500051626
168619|T||Bampidis,V.A., V. Christodoulou, A. Chatzipanagiotou, E. Sossidou, and A. Salangoudis|Serum Enzyme Status of Chios Ewes Fed Increasing Amounts of Copper from Copper Sulfate|Res. Vet. Sci.88(3): 456-457|2010|10.1016/j.rvsc.2009.12.006
168620|T||Ali,A., J.C. Streibig, J. Duus, and C. Andreasen|Use of Image Analysis to Assess Color Response on Plants Caused by Herbicide Application|Weed Technol.27:604-611|2013|10.1614/WT-D-12-00136.1
168621|T||Colzi,I., S. Doumett, M. Del Bubba, J. Fornaini, M. Arnetoli, R. Gabbrielli, and C. Gonnelli|On the Role of the Cell Wall in the Phenomenon of Copper Tolerance in Silene paradoxa L.|Environ. Exp. Bot.72(1): 77-83|2011|10.1016/j.envexpbot.2010.02.006
168622|A||Patil,P.B., and A.Y. Mahajan|Effect of Copper Sulphate on Protein Content of Lamellidens corrianus (Lea)|Int. J. Pharmacol. Biol. Sci.6(1): 69-73|2012|
168623|T||Deng,Q., J. Xu, B. Yu, J. He, K. Zhang, X. Ding, and D. Chen|Effect of Dietary Tea Polyphenols on Growth Performance and Cell-Mediated Immune Response of Post-Weaning Piglets Under Oxidative Stress|Arch. Anim. Nutr.64(1): 12-21|2010|10.1080/17450390903169138
168624|A||Smith,N.W.|The Use of Copper Sulphate for Eradicating the Predatory Fish Population of a Lake|Trans. Am. Fish. Soc.65:101-114|1935|10.1577/1548-8659(1935)65[101:TUOCSF]2.0.CO;2
168625|T||Hansi,M., J.D. Weidenhamer, and A. Sinkkonen|Plant Growth Responses to Inorganic Environmental Contaminants are Density-Dependent: Experiments with Copper Sulfate, Barley and Lettuce|Environ. Pollut.184:443-448|2014|10.1016/j.envpol.2013.09.027
168626|T||Veloukas,T., P. Kalogeropoulou, A.N. Markoglou, and G.S. Karaoglanidis|Fitness and Competitive Ability of Botrytis cinerea Field Isolates with Dual Resistance to SDHI and QoI Fungicides, Associated with Several sdhB and the cytb G143A Mutations|Phytopathology104(4): 347-356|2014|10.1094/PHYTO-07-13-0208-R
168627|T||Shahzad,M.N., M.T. Javed, S. Shabir, M. Irfan, and R. Hussain|Effects of Feeding Urea and Copper Sulphate in Different Combinations on Live Body Weight, Carcass Weight, Percent Weight to Body Weight of Different Organs and Histopathological Tissue Changes in Broilers|Exp. Toxicol. Pathol.64(3): 141-147|2012|10.1016/j.etp.2010.07.009
168628|T||Colzi,I., M. Arnetoli, A. Gallo, S. Doumett, M. Del Bubba, S. Pignattelli, R. Gabbrielli, and C. Gonnelli|Copper Tolerance Strategies Involving the Root Cell Wall Pectins in Silene paradoxa L.|Environ. Exp. Bot.78:91-98|2012|10.1016/j.envexpbot.2011.12.028
168629|T||Fatima,N., N. Ahmad, and M. Anis|Enhanced In Vitro Regeneration and Change in Photosynthetic Pigments, Biomass and Proline Content in Withania somnifera L. (Dunal) Induced by Copper and Zinc Ions|Plant Physiol. Biochem. (Amsterdam)49(12): 1465-1471|2011|10.1016/j.plaphy.2011.08.011
168630|A||Wersal,R.M., and J.D. Madsen|Comparison of Subsurface and Foliar Herbicide Applications for Control of Parrotfeather (Myriophyllum aquaticum)|Invasive Plant Sci. Manag.3:262-267|2010|10.1614/IPSM-D-09-00058.1
168631|T||Bokov,A.F., N. Garg, Y. Ikeno, S. Thakur, N. Musi, R.A. DeFronzo, N. Zhang, R.C. Erickson, J. Gelfond, G.B. Hubbard, M.|Does Reduced IGF-1R Signaling in Igf1r+/- Mice Alter Aging?|PLoS One6(11): 10 p.|2011|10.1371/journal.pone.0026891
168632|T||Chiconela,T.F., T.J. Koschnick, and W.T. Haller|Effect of Diquat in Irrigation Water on Germination and Vegetative Growth of Rice|J. Agric. Biol. Sci.8(2): 101-107|2013|
168633|T||Djukic,M., M. Jovanovic, M. Ninkovic, I. Stevanovic, D. Djurdjevic, and U. Vasic|Influence of Glutathione Reductase on Diquat Neurotoxicity Assessed by Oxidative/Nitrosative Stress in the Cortex of Intrastriatally Treated Rats|Acta Vet. (Beogr. )62(5/6): 553-568|2012|10.2298/AVB1206553D
168634|T||Djurdjevic,D., M. Djukic, M. Ninkovic, I. Stevanovic, M. Jovanovic, and U. Vasic|Glutathione Cycle in Diquat Neurotoxicity: Assessed by Intrastriatal Pre-Treatment with Glutathione Reductase|Acta Vet. (Beogr. )63(2/3): 159-175|2013|10.2298/AVB1303159D
168635|T||Gous,S., P. Raal, and M.S. Watt|Dense Wilding Conifer Control with Aerially Applied Herbicides in New Zealand|N. Z. J. For. Sci.44:4 p.|2014|
168636|T||Higuchi,M., Y. Yoshikawa, K. Orino, and K. Watanabe|Effect of Diquat-Induced Oxidative Stress on Iron Metabolism in Male Fischer-344 Rats|BioMetals24:1123-1131|2011|10.1007/s10534-011-9471-0
168637|T||Higuchi,M., J. Oshida, K. Orino, and K. Watanabe|Wheat Bran Protects Fischer-344 Rats from Diquat-Induced Oxidative Stress by Activating Antioxidant System: Selenium as an Antioxidant|Biosci. Biotechnol. Biochem.75(3): 496-499|2011|10.1271/bbb.100719
168638|T||Karuppagounder,S.S., M. Ahuja, M. Buabeid, K. Parameshwaran, E. Abdel-Rehman, V. Suppiramaniam, and M. Dhanasekaran|Investigate the Chronic Neurotoxic Effects of Diquat|Neurochem. Res.37(5): 1102-1111|2012|10.1007/s11064-012-0715-3
168639|T||Martin,S.G., R.C. Van Acker, and L.F. Friesen|Critical Period of Weed Control in Spring Canola|Weed Sci.49(3): 326-333|2001|10.1614/0043-1745(2001)049[0326:CPOWCI]2.0.CO;2
168640|T||McNeill,M.R., T.M. Eden, and V.M. Cave|Toxicity of Selected Agrichemicals to Clover Root Weevil and Its Parasitoid Microctonus aethiopoides|N. Z. Plant Prot.67:256-266|2014|10.30843/nzpp.2014.67.5789
168641|A||Mitchell,A.J., D.L. Straus, B. Farmer, and R. Carter|Comparison of Percent Hatch and Fungal Infestation in Channel Catfish Eggs After Copper Sulfate, Diquat Bromide, Formalin, and Hydrogen Peroxide Treatment|N. Am. J. Aquacult.72:201-206|2010|10.1577/A09-066.1
168642|T||Mougeot,F., I. Galvan, and C. Alonso-Alvarez|Contrasted Effects of an Oxidative Challenge and alpha-Melanocyte-Stimulating Hormone on Cellular Immune Responsiveness: An Experiment with Red-Legged Partridges Alectoris rufa|Oecologia169:385-394|2012|10.1007/s00442-011-2220-9
168643|T||Stanisavljevic,R., D. Djokic, J. Milenkovic, D. Terzic, L. Djukanovic, V. Stevovic, and D. Dodig|Desiccation, Postharvest Maturity and Seed Aging of Tall Oat-Grass|Pesqui. Agropecu. Bras. (Multiple Languages)45(11): 1297-1302|2010|10.1590/S0100-204X2010001100010
168644|T||Sun,L.Y., A.F. Bokov, A. Richardson, and R.A. Miller|Hepatic Response to Oxidative Injury in Long-Lived Ames Dwarf Mice|FASEB J.25:398-408|2011|10.1096/fj.10-164376
168645|T||Walker,S., L. Boucher, T. Cook, B. Davidson, A. McLean, and M. Widderick|Weed Age Affects Chemical Control of Conyza bonariensis in Fallows|Crop Prot.38(0): 15-20|2012|10.1016/j.cropro.2012.03.008
168646|T||Wang,A.N., C.J. Cai, X.F. Zeng, F.R. Zhang, G.L. Zhang, P.A. Thacker, J.J. Wang, and S.Y. Qiao|Dietary Supplementation with Lactobacillus fermentum I5007 Improves the Anti-Oxidative Activity of Weanling Piglets Challenged with Diquat|J. Appl. Microbiol.114:1582-1591|2013|10.1111/jam.12188
168647|A||Wersal,R.M., J.D. Madsen, J.H. Massey, W. Robles, and J.C. Cheshier|Comparison of Daytime and Night-Time Applications of Diquat and Carfentrazone-Ethyl for Control of Parrotfeather and Eurasian Watermilfoil|J. Aquat. Plant Manag.48:56-58|2010|
168648|T||Zheng,P., B. Yu, M. Lv, and D. Chen|Effects of Oxidative Stress Induced by Diquat on Arginine Metabolism of Postweaning Pigs|Asian-Australas. J. Anim. Sci.23(1): 98-105|2010|10.5713/ajas.2010.90270
168649|T||Awad,J.A., R.F. Burk, and L.J. Roberts II|Effect of Selenium Deficiency and Glutathione-Modulating Agents on Diquat Toxicity and Lipid Peroxidation in Rats|J. Pharmacol. Exp. Ther.270(3): 858-864|1994|
168650|A||Bouetard,A., C. Noirot, A.L. Besnard, O. Bouchez, D. Choisne, E. Robe, C. Klopp, L. Lagadic, and M.A. Coutellec|Pyrosequencing-Based Transcriptomic Resources in the Pond Snail Lymnaea stagnalis, with a Focus on Genes Involved in Molecular Response to Diquat-Induced Stress|Ecotoxicology21(8): 2222-2234|2012|10.1007/s10646-012-0977-1
168651|T||Djukic,M., M. Jovanovic, M. Ninkovic, I. Stevanovic, M. Curcic, A. Topic, D. Vujanovic, and D. Djurdjevic|Intrastriatal Pre-Treatment with L-NAME Protects Rats from Diquat Neurotoxcity|AAEM Ann. Agric. Environ. Med.19(4): 666-672|2012|
168652|A||Ducrot,V., A.R.R. Pery, and L. Lagadic|Modelling Effects of Diquat Under Realistic Exposure Patterns in Genetically Differentiated Populations of the Gastropod Lymnaea stagnalis|Philos. Trans. R. Soc., B Biol. Sci.365(1557): 3485-3494|2010|10.1098/rstb.2010.0047
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168656|T||Zhang,C., S. Li, B. Li, and W. Li|Effect of Coal-Based Acid on Bioactivity of the Herbicide|Fuel Process. Technol.89(4): 406-414|2008|10.1016/j.fuproc.2007.11.020
168657|T||Andersson,L.|Effects of Dose and Application Timing on the Seed Production of Three Weed Species Treated with MCPA or Tribenuron-Methyl|Weed Res. (Multiple Languages)35(2): 67-74|1995|10.1111/j.1365-3180.1995.tb02018.x
168658|T||Banerjee,N.C., and S.S. Mishra|Passage of Sulfanilamide and Sulfapyridine Combination Across Caprine Uterine Membrane into Body Fluids|Indian Vet. J.52(5): 363-365|1975|
168659|T||Beckie,H.J., R.E. Blackshaw, R. Low, L.M. Hall, C.A. Sauder, S. Martin, R.N. Brandt, and S.W. Shirriff|Glyphosate- and Acetolactate Synthase Inhibitor-Resistant Kochia (Kochia scoparia) in Western Canada|Weed Sci.61(2): 310-318|2012|10.1614/WS-D-12-00140.1
168661|T||Francis,J., J.M. Peters, and O.L. Davies|Studies on Str. Agalactiae Infection: III - The Relative Potencies of Sulphanilamide, Sulphapyridine, 4: 4'-Diamino-Diphenyl Sulphone and Various Soluble Derivatives Against Str. Agalactiae Infection in the Chick-Embryo|J. Comp. Path. Ther.57(0): 162-169|1947|10.1016/S0368-1742(47)80020-7
168662|T||Saha,A.K., S. Chatterjee, and S.K. Goswami|Effect of an Antibacterial Drug Sulfanilamide on Male Germinal Chromosomes of the Grasshopper Spathosternum prasiniferum|Environ. Ecol.4(3): 897-899|1986|
168663|T||Singh,M.K., R.K. Varma, and A. Ahmad|Distribution of Sulfanilamide and Sulfamezathine into Cerebrospinal Fluid of Buffalo|Indian J. Anim. Sci.46(9): 479-481|1976|
168664|T||Singh,M.K., and A. Ahmad|Studies on Blood Level and Urinary Excretion of Sulphanilamide, Sulphapyridine and Sulphadiazine in Buffalo|Indian J. Anim. Sci.47(5): 260-264|1977|
168665|T||Singh,M.K., R.K. Varma, and A. Ahmad|Subacute Toxicity Study on Sulfanilamide snd Sulfamezathine in Buffalo|Indian Vet. J.54(5): 356-359|1977|
168666|T||Streibig,J.C., J. Rasmussen, D. Andujar, C. Andreasen, T.W. Berge, D. Chachalis, T. Dittmann, R. Gerhards, T.M. Giselss|Sensor-Based Assessment of Herbicide Effects|Weed Res. (Multiple Languages)54:223-233|2014|10.1111/wre.12079
168667|T||Walia,U.S., L. Kaur, and L.S. Brar|Control of Broad Leaf Weeds in Wheat with Sulfonyl Urea Herbicides|J. Res. Punjab Agric. Univ.37(3/4): 176-180|2000|
168668|T||Kienholz,E.W., W.R. Chappell, R.R. Meglen, and H. Rudolph|Effects of Dietary Supplements of Copper, Sulfate and Molybdate upon Liver and Kidney Concentrations of Ten Minerals in Young Chickens|Trace Subst. Environ. Health8:373-378|1974|
168669|A||Mischke,C.C., D.J. Wise, and P.V. Zimba|Impact of Copper Sulfate on Plankton in Channel Catfish Nursery Ponds|J. World Aquac. Soc.40(1): 122-128|2009|10.1111/j.1749-7345.2008.00225.x
168670|T||Pogach,L.M., Y. Lee, W. Giglio, M. Naumoff, and H.F.S. Huang|Zinc Acetate Pretreatment Ameliorates Cisplatin-Induced Sertoli Cell Dysfunction in Sprague-Dawley Rats|Cancer Chemother. Pharmacol.24(3): 177-180|1989|10.1007/BF00300239
168671|T||Picco,S.J., D.E. Rosa, J.P. Anchordoquy, J.M. Anchordoquy, A. Seoane, G.A. Mattioli, and C.C. Furnus|Effects of Copper Sulphate Concentrations During In Vitro Maturation of Bovine Oocytes|Theriogenology77(2): 373-381|2012|10.1016/j.theriogenology.2011.08.009
168672|A||Hoffman,D.O., and R. Zakhary|The Relationship of Exposure Time to the Molluscicidal Activity of Copper Sulfate|Am. J. Trop. Med. Hyg.2:332-336|1953|10.4269/ajtmh.1953.2.332
168673|A||Martin,S.G.|An Analysis of the Histopathologic Effects of Copper Sulfate on the Asiatic Freshwater Clam, Corbicula fluminea (Muller)|Ph.D. Thesis, University of Washington, Seattle, WA:132 p.|1971|
168674|T||Scholl,R.L., and K.M. Dennison|Sensitivity of Cultured Tissue of Arabidopsis thaliana Races to Sulfanilamide|Physiol. Plant. (Multiple Languages)43(4): 321-325|1978|10.1111/j.1399-3054.1978.tb01588.x
168675|A||Rounsefell,G.A., and J.E. Evans|Large-Scale Experimental Test of Copper Sulfate as a Control for the Florida Red Tide|Special Scientific Report: Fisheries, Fish and Wildlife Services, U. S. Department of the Interior, Washington, DC270:57 p.|1958|
168676|T||Stevenson,M.H., and N. Jackson|Comparison of Dietary Hydrated Copper Sulphate, Dietary Zinc Oxide and a Direct Method for Inducing a Moult in Laying Hens|Br. Poult. Sci.25(4): 505-517|1984|10.1080/00071668408454892
168677|A||Titcomb,J.W.|The Use of Copper Sulphate for the Destruction of Obnoxious Fishes in Ponds and Lakes|Trans. Am. Fish. Soc.44:20-26|1914|10.1577/1548-8659(1914)44[20:TUOCSF]2.0.CO;2
168678|T||Lawrie,J., and D.V. Clay|Tolerance of Some Broadleaved and Coniferous Forestry Tree Species to Herbicides with Potential for Bracken Control|Forestry67(3): 237-244|1994|10.1093/forestry/67.3.237
168679|T||Du,Z., R.W. Hemken, J.A. Jackson, and D.S. Trammell|Utilization of Copper in Copper Proteinate, Copper Lysine, and Cupric Sulfate Using the Rat as an Experimental Model|J. Anim. Sci.74(7): 1657-1663|1996|10.2527/1996.7471657x
168680|T||Matysiak,K., and S. Stachecki|Weed Control Efficacy of Reduced Herbicide Doses in Spring Wheat Depending on Weather Conditions|J. Plant Prot. Res.43(4): 405-413|2003|
168681|T||Jensen,P.K.|Herbicide Performance with Low Volume Low-Drift and Air-Inclusion Nozzles|Br. Crop Prot. Conf. Weeds:453-460|1999|
168682|T||Stefan,S., E. Bucur, and G. Galani|Sulfonylurea Herbicides Used in Romania for Weed Control in Winter Wheat|Br. Crop Prot. Conf. Weeds2:651-656|2001|
168683|T||Thompson,C., A. Schlegel, and J. Holman|ExpressSun Sunflower-  A New Weed Control System|Rep. Prog. Kansas Agric. Exp. Stn.:40-44|2008|
168684|T||Tyler,C.|A Further Study of the Effect of Sulphanilamide on the Metabolism of Calcium and Phosphorus in the Laying Hen|J. Agric. Sci.45:156-163|1954|10.1017/S0021859600046700
168685|T||Beres,I., D. Szente, V. Gyenes, and I. Somlyay|Weed Control in Sunflower (Helianthus annuus L.) with Post-Emergent Herbicides|Commun. Agric. Appl. Biol. Sci.70(3): 475-479|2005|
168686|T||Bradley,K., and S. Conley|Influence of Imazamox Rate and Tank-Mix Combinations on Winter Annual Broadleaf Weed Control and Yield in Imidazolinone-Resistant Wheat|Crop Manag.5(1): 7 p.|2006|
168687|T||Cashmore,W.J., and J.C. Caseley|Effects of Low Doses of Herbicides, Temperature and Simulated Harrowing on the Survival of Three Weed Species|Br. Crop Prot. Conf. Weeds1-3:719-724|1995|
168688|T||Chinnarajan,A.M., S. Jayaraj, and K. Narayanan|Destruction of Endosymbionts with Oxytetracycline and Sulphanilamide in the Gourd Fruitfly, Dacus cucurbitae Coq. (Trypetidae, Diptera)|Hindustan Antibiot. Bull.15(1/2): 16-22|1972|
168689|T||Chinnarajan,A.M., S. Jayaraj, and R. Sankaranarayanan|Effect of Terramycin and Sulphanilamide on the Mineral Content of Melonfly, Dacus cucurbitae Coq. (Trypetidae: Diptera)|Hindustan Antibiot. Bull.15(4): 151-153|1973|
168690|T||Clay,D.V., and F.L. Dixon|Tolerance of Poplar and Willow Cultivars to Foliar-Acting Herbicides|Tests Agrochem. Cultiv.14:90-91|1993|
168691|T||Donald,W.W.|Herbicidal Control of Cirsium arvense (L.) Scop. Roots and Shoots in No-Till Spring Wheat (Triticum aestivum L.)|Weed Res. (Multiple Languages)32(4): 259-266|1992|10.1111/j.1365-3180.1992.tb01885.x
168692|T||Grey,T.L., G.S. Cutts III, and J. Johnson|Imidazolinone-Resistant Soft Red Winter Wheat Weed Control and Crop Response to ALS-Inhibiting Herbicides|Weed Technol.26:405-409|2012|10.1614/WT-D-11-00122.1
168693|T||Lawrie,J., and D.V. Clay|Tolerance of 2-Year-Old Forestry Trees to Five Herbicides|Forestry67(4): 287-295|1994|10.1093/forestry/67.4.287
168694|T||Matysiak,K., and S. Stacheki|Efficacy of Reduced Doses of Sulfonylurea and Phenoxyacid Herbicides in Spring Wheat|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages):773-778|2004|
168695|T||Menegat,A., O. Jack, J. Zhang, K. Kleinknecht, B.U. Muller, H.P. Piepho, H. Ni, and R. Gerhards|Japanese Bindweed (Calystegia hederacea) Abundance and Response to Winter Wheat Seeding Rate and Nitrogen Fertilization in the North China Plain|Weed Technol.27:768-777|2013|10.1614/WT-D-13-00020.1
168696|T||Venugopal,M.S., N. Rajmohan, and A.A. Basha|Studies on the Sterility Inducing Effects of Two Antibiotics and a Sulphanilamide on Red Flour Beetle Tribolium castaneum F.|Hindustan Antibiot. Bull.15(1/2): 7-8|1972|
168697|T||West,T.M.|Response of Bracken Plants from Different Sites to Potential New Herbicide Treatments|Asp. Appl. Biol.29:451-456|1992|
168698|T||Bostrom,U., and H. Fogelfors|Response of Weeds and Crop Yield to Herbicide Dose Decision-Support Guidelines|Weed Sci.50(2): 186-195|2002|10.1614/0043-1745(2002)050[0186:ROWACY]2.0.CO;2
168699|T||Liu,W., Y. Bi, L. Li, G. Yuan, L. Du, and J. Wang|Target-Site Basis for Resistance to Acetolactate Synthase Inhibitor in Water Chickweed (Myosoton aquaticum L.)|Pestic. Biochem. Physiol.107(1): 50-54|2013|10.1016/j.pestbp.2013.05.003
168700|T||Laurino,D., A. Manino, A. Patetta, M. Ansaldi, and M. Porporato|Acute Oral Toxicity of Neonicotinoids on Different Honey Bee Strains|Redia93:99-102|2010|
168701|T||Li,W., X.F. Fang, and C.F. Sheng|Impact of Sixteen Chemical Pesticides on Conidial Germination of Two Entomophthoralean Fungi:  Conidiobolus thromboides and Pandora nouryi|Biocontrol Sci. Technol.14(7): 737-741|2004|10.1080/209583150410001683574
168702|T||Pannacci,E., S.K. Mathiassen, and P. Kudsk|Effect of Adjuvants on the Rainfastness and Performance of Tribenuron-Methyl on Broad-Leaved Weeds|Weed Biol. Manag.10:126-131|2010|10.1111/j.1445-6664.2010.00376.x
168703|T||Sarpe,N., S. Poienaru, and M. Maschio|No-Tillage System Applied to the Sunflower (Hybrid Pioneer PR64E83) Resistant to the Tribenuron-Methyl in the Conditions from Romania|Commun. Agric. Appl. Biol. Sci.72(2): 271-277|2007|
168704|T||Song,J., J. Gu, Y. Zhai, W. Wu, H. Wang, Z. Ruan, Y. Shi, and Y. Yan|Biodegradation of Nicosulfuron by a Talaromyces flavus LZM1|Bioresour. Technol.140:243-248|2013|10.1016/j.biortech.2013.02.086
168705|T||Beckie,H.J., S.I. Warwick, C.A. Sauder, C. Lozinski, and S. Shirriff|Occurrence and Molecular Characterization of Acetolactate Synthase (ALS) Inhibitor-Resistant Kochia (Kochia scoparia) in Western Canada|Weed Technol.25:170-175|2011|10.1614/WT-D-10-00067.1
168706|T||Cui,H.L., C.X. Zhang, S.H. Wei, H.J. Zhang, X.J. Li, Y.Q. Zhang, and G.Q. Wang|Acetolactate Synthase Gene Proline (197) Mutations Confer Tribenuron-Methyl Resistance in Flixweed (Descurainia sophia) Populations from China|Weed Sci.59:376-379|2011|10.1614/WS-D-10-00099.1
168707|T||Deng,W., Y. Cao, Q. Yang, M.J. Liu, Y. Mei, and M.Q. Zheng|Different Cross-Resistance Patterns to AHAS Herbicides of Two Tribenuron-Methyl Resistant Flixweed (Descurainia sophia L.) Biotypes in China|Pestic. Biochem. Physiol.112:26-32|2014|10.1016/j.pestbp.2014.05.003
168708|T||Deng,W., M.J. Liu, Q. Yang, Y. Mei, X.F. Li, and M.Q. Zheng|Tribenuron-Methyl Resistance and Mutation Diversity of Pro197 in Flixweed (Descurainia sophia L.) Accessions from China|Pestic. Biochem. Physiol.117(0): 68-74|2015|10.1016/j.pestbp.2014.10.012
168709|T||Godar,A.S., P.W. Stahlman, and J.A. Dille|Single and Sequential Applications of Tribenuron on Broadleaf Weed Control and Crop Response in Tribenuron-Resistant Sunflower|Weed Technol.25:391-397|2011|10.1614/WT-D-10-00154.1
168710|T||Radivojevic,L., R. Stankovic-Kalezic, D. Pavlovic, and D. Marisavljevic|Efficacy of Several Herbicides in Controlling Weeds in Wheat|J. Plant Dis. Prot.:787-793|2006|
168711|T||Bulcke,R.A.J., and D. Callens|Response of Witloof Chicory (Cichorium intybus var. foliosum) and Sugarbeet (Beta vulgaris var. saccharifera) to Soil-Applied Cereal Sulfonylureas|Br. Crop Prot. Conf. Weeds1-3:673-678|1995|
168713|T||Fan,Z.J., Y.W. Ai, C.F. Qian, and Z.M. Li|Herbicide Activity of Monosulfuron and Its Mode of Action|J. Environ. Sci.17(3): 399-403|2005|
168714|T||Grey,T.L., G.S. Cutts III, L. Sosnoskie, and A.S. Culpepper|Italian Ryegrass (Lolium perenne) Control and Winter Wheat Response to POST Herbicides|Weed Technol.26:644-648|2012|10.1614/WT-D-12-00046.1
168715|T||Intanon,S., A. Perez-Jones, A.G. Hulting, and C.A. Mallory-Smith|Multiple Pro197 ALS Substitutions Endow Resistance to ALS Inhibitors Within and Among Mayweed Chamomile Populations|Weed Sci.59(3): 431-437|2011|10.1614/WS-D-10-00146.1
168716|T||Javaid,M.M., and A. Tanveer|Optimization of Application Efficacy for POST Herbicides with Adjuvants on Three-Cornered Jack (Emex australis Steinheil) in Wheat|Weed Technol.27:437-444|2013|10.1614/WT-D-11-00130.1
168717|T||Lawrie,J., and R.C. Butler|Study of the Low Dose Stimulation of Buds and Rhizome Growth in Bracken Using a Peaked Logistic Curve|Br. Crop Prot. Conf. Weeds:1003-1008|1995|
168718|T||Liu,W., Y. Bi, L. Li, G. Yuan, and J. Wang|Molecular Basis of Resistance to Tribenuron in Water Starwort (Myosoton aquaticum) Populations from China|Weed Sci.61(3): 390-395|2013|10.1614/WS-D-12-00200.1
168719|T||Marshall,R., R. Hull, and S.R. Moss|Target Site Resistance to ALS Inhibiting Herbicides in Papaver rhoeas and Stellaria media Biotypes from the UK|Weed Res. (Multiple Languages)50:621-630|2010|10.1111/j.1365-3180.2010.00813.x
168720|T||Mehta,P.M., B.V.N. Rao, and H.R. Bhat|The Effects of Ascorbic Acid, Kinetin, Sulphanilamide and the Combination of Sulphanilamide with Kinetin on Germination and Enzymes Lipase and Catalase of Soybean (Glycine max L. var. j 202)|Bull. Bot. Soc. Bengal29(1): 39-42|1975|
168721|T||Sinkkonen,A., O.P. Penttinen, and R. Strommer|Testing the Homogenizing Effect of Low Copper Sulfate Concentrations on the Size Distribution of Portulaca oleracea Seedlings In Vitro|Sci. Total Environ.407(15): 4461-4464|2009|10.1016/j.scitotenv.2009.04.014
168722|A||Jena,S.D., M. Behera, J. Dandapat, and N. Mohanty|Non-Enzymatic Antioxidant Status and Modulation of Lipid Peroxidation in the Muscles of Labeo rohita by Sub Lethal Exposure of CuSO4|Vet. Res. Commun.33(5): 421-429|2009|10.1007/s11259-008-9188-x
168723|A||Gharedaashi,E., H. Nekoubin, M.R. Imanpoor, and V. Taghizadeh|Effect of Copper Sulfate on the Survival and Growth Performance of Caspian Sea Kutum, Rutilus frisii kutum|SpringerPlus2(498): 5 p.|2013|
168724|A||Donmez,G.C., and Ozturk A. |Response of Some Microalgae to Herbicides|Turk. J. Bot.21(2): 81-83|1997|10.55730/1300-008X.2581
168725|A||Farmer,B.D., B.H. Beck, A.J. Mitchell, and D.L. Straus|Pretreating Channel Catfish with Copper Sulfate Affects Susceptibility to Columnaris Disease|N. Am. J. Aquacult.75(2): 205-211|2013|10.1080/15222055.2012.758210
168726|T||Oguz,E.O., H. Yuksel, Y. Enli, A.C. Tufan, and G. Turgut|The Effects of Copper Sulfate on Liver Histology and Biochemical Parameters of Term Ross Broiler Chicks|Biol. Trace Elem. Res.133(3): 335-341|2010|10.1007/s12011-009-8447-1
168727|T||Lal,S., and T.L. Sourkes|Intracellular Distribution of Copper in the Liver During Chronic Administration of Copper Sulfate to the Rat|Toxicol. Appl. Pharmacol.18:562-572|1971|10.1016/S0041-008X(71)80009-1
168728|T||Nawaz,M.|Pharmacokinetics and Dosage of Sulphanilamide in Sheep|Zentbl. Vetmed. Reihe A28(7): 552-558|1981|10.1111/j.1439-0442.1981.tb01226.x
168729|A||Palanisami,S., and U. Lakshmanan|Role of Copper in Poly R-478 Decolorization by the Marine Cyanobacterium Phormidium valderianum BDU140441|World J. Microbiol. Biotechnol.27(3): 669-677|2011|10.1007/s11274-010-0505-5
168730|T||Shah,B.H., M. Nawaz, and R. Nawaz|Pharmacokinetics, Renal Clearance and Elimination of Sulfanilamide in Goats|Pak. Vet. J.3(4): 151-156|1983|
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168732|T||Szentpetery,Z., C. Kleinheincz, A. Tarnawa, and M. Jolankai|Herbicide Residues' Changes in Wheat Samples in Late Weed Control|Acta Aliment.35(1): 25-31|2006|10.1556/AAlim.35.2006.1.4
168733|T||Venugopal,M.S., and T.R. Subramaniam|Biochemical Changes in the Red Cotton Bug, Dysdercus cingulatus F. Due to Treatments with Oxytetracycline and Sulphanilamide|Entomon4(2): 121-124|1979|
168734|T||West,T.M., J. Lawrie, and T. Cromack|Responses of Bracken and Its Understorey Flora to Some Sulfonylurea Herbicides and Asulam|Br. Crop Prot. Conf. Weeds1-3:997-1002|1995|
168735|T||Delye,C., F. Pernin, and L. Scarabel|Evolution and Diversity of the Mechanisms Endowing Resistance to Herbicides Inhibiting Acetolactate-Synthase (ALS) in Corn Poppy (Papaver rhoeas L.)|Plant Sci.180:333-342|2011|10.1016/j.plantsci.2010.10.007
168736|T||Jensen,K.I.N., and E.G. Specht|Use of Two Sulfonyl Urea Herbicides in Lowbush Blueberry|Small Fruits Rev.3:257-272|2004|10.1300/J301v03n03_03
168737|T||Punia,S.S., R.S. Hooda, R.K. Malik, and B.P. Singh|Response of Varying Doses of Tribenuron-Methyl on Weed Control in Wheat|Haryana Agric. Univ. J. Res.26(4): 243-248|1996|
168738|T||Salonen,J.|Performance of Reduced Herbicide Doses in Spring Cereals|Agric. Sci. Finl.2(6): 537-548|1993|
168739|T||Sankaranarayanan,R., and S. Jayaraj|Sterility-Inducing Effects of Antibiotics and Sulphanilamide on the Gourd Fruitfly, Dacus cucurbitae Coq. (Trypetidae, Diptera)|Z. Angew. Entomol. (Multiple Languages)79(2): 129-136|1975|10.1111/j.1439-0418.1975.tb02323.x
168740|T||Scott,H.M., E. Jungherr, and L.D. Matterson|The Effect of Feeding Sulfanilamide to the Laying Fowl|Poult. Sci.23:446-453|1944|10.3382/ps.0230446
168741|T||Srivastava,S.N.S.|The Role of Sulphanilamide in the Control of Rice Diseases|Proc. Indian Acad. Sci. Sect. B72(3): 120-128|1970|10.1007/BF03050454
168742|T||Yarborough,D.E., and T.M. Hess|Control of Bunchberry in Wild Blueberry Fields|J. Small Fruit Viticult.3(2/3): 125-132|1995|
168743|T||Bozic,D., M. Saric, G. Malidza, C. Ritz, and S. Vrbnicanin|Resistance of Sunflower Hybrids to Imazamox and Tribenuron-Methyl|Crop Prot.39:1-10|2012|10.1016/j.cropro.2012.04.009
168744|T||Chinnarajan,A.M., and S. Jayaraj|Influence of Oxytetracycline and Sulphanilamide on the Amino Acid Content in the Melonfly, Dacus cucurbitae Coq.|Curr. Sci. (Bangalore)44(16): 597-599|1975|
168745|T||Clemmer,K.C., A.C. York, and C. Brownie|Italian Ryegrass (Lolium multiflorum) Control in Imidazolinone-Resistant Wheat|Weed Technol.18:481-489|2004|10.1614/WT-03-017R
168746|T||Cumberland,P.F.T., M. Richold, J.F. Parsons, and M.K. Pratten|Intravitelline Injection of Cultured Rat Embryos: An Improved Method for the Identification of Cytotoxic and Non-Cytotoxic Teratogens|Toxicol. In Vitro6(6): 503-508|1992|10.1016/0887-2333(92)90061-U
168747|T||Jursik,M., K. Hamouzova, J. Soukup, J. Andr, and J. Holec|Differences in Sensitivity of F1 and F2 Generations of Herbicide Tolerant Sunflower Volunteers to Selected Acetolactate Synthase Inhibiting Herbicides|Plant Soil Environ.60(10): 446-451|2014|10.17221/185/2014-PSE
168748|T||Kaloumenos,N.S., and I.G. Eleftherohorinos|Corn Poppy (Papaver rhoeas) Resistance to ALS-Inhibiting Herbicides and Its Impact on Growth Rate|Weed Sci.56(6): 789-796|2008|10.1614/WS-08-074.1
168749|T||Kaloumenos,N.S., V.N. Adamouli, C.A. Dordas, and I.G. Eleftherohorinos|Corn Poppy (Papaver rhoeas) Cross-Resistance to ALS-Inhibiting Herbicides|Pest Manag. Sci.67:574-585|2011|10.1002/ps.2104
168750|T||Kucera,P., E. Cano, P. Honegger, B. Schilter, J.A. Zijlstra, and B. Schmid|Validation of Whole Chick Embryo Cultures, Whole Rat Embryo Cultures and Aggregating Embryonic Brain Cell Cultures Using Six Pairs of Coded Compounds|Toxicol. In Vitro7(6): 785-798|1993|10.1016/0887-2333(93)90082-G
168752|T||Olszyk,D., M. Blakeley-Smith, T. Pfleeger, E.H. Lee, and M. Plocher|Effects of Low Levels of Herbicides on Prairie Species of the Willamette Valley, Oregon|Environ. Toxicol. Chem.32(11): 2542-2551|2013|10.1002/etc.2331
168753|T||Sala,C.A., M. Bulos, M. Echarte, S.R. Whitt, and R. Ascenzi|Molecular and Biochemical Characterization of an Induced Mutation Conferring Imidazolinone Resistance in Sunflower|Theor. Appl. Genet.118:105-112|2008|10.1007/s00122-008-0880-6
168754|T||Samson,N., A. Legere, and R. Rioux|Chemical Weed Control Options for Zero-Tillage Spring Barley|Can. J. Plant Sci.76(2): 383-386|1996|10.4141/cjps96-068
168755|T||Singh,D., D.A. Ball, and J.P. McMorran|Varietal Tolerance of Seedling Kentucky Bluegrass to Primisulfuron and Tribenuron|Proc. West. Soc. Weed Sci.52:30-33|1999|
168756|T||Unay,A., M.N. Dogan, and O. Boz|Effects of Different Herbicides and Application Times on the Apical Development and Grain Yield of Wheat (Triticum aestivum L.)|J. Plant Dis. Prot.:795-799|2006|
168757|T||Andersson,L.|Characteristics of Seeds and Seedlings from Weeds Treated with Sublethal Herbicide Doses|Weed Res. (Multiple Languages)36(1): 55-64|1996|10.1111/j.1365-3180.1996.tb01801.x
168758|T||Cui,H.L., C.X. Zhang, H.J. Zhang, H.J. Huang, S.H. Wei, X. Liu, G.Q. Wang, and Y. Liu|Tribenuron-Methyl Resistant Flixweed (Descurainia sophia)|Agric. Sci. China8(4): 488-490|2009|10.1016/S1671-2927(08)60236-9
168759|T||Rijckaert,G., K. Cools, H. Eelen, and R. Bulcke|Selectivity of Sulfonylureas in Seed Crops of Perennial Ryegrass (Lolium perenne L.)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)65(2a): 87-98|2000|
168760|T||Roux,F., A. Matejicek, and X. Reboud|Response of Arabidopsis thaliana to 22 ALS Inhibitors:  Baseline Toxicity and Cross-Resistance of csr1-1 and csr1-2 Resistant Mutants|Weed Res. (Multiple Languages)45(3): 220-227|2005|10.1111/j.1365-3180.2005.00450.x
168761|T||Stagnari,F., M. Chiarini, and M. Pisante|Influence of Fluorinated Surfactants on the Efficacy of Some Post-Emergence Sulfonylurea Herbicides|J. Pestic. Sci. (Multiple Languages)32(1): 16-23|2007|10.1584/jpestics.G06-29
168762|T||Tyler,C.|The Effect of Sulphanilamide on the Metabolism of Calcium, Carbonate, Phosphorus, Chloride and Nitrogen in the Laying Hen|Br. J. Nutr.4:112-128|1950|10.1079/BJN19500026
168763|T||Han,X.J., Y. Dong, X.N. Sun, X.F. Li, and M.Q. Zheng|Molecular Basis of Resistance to Tribenuron-Methyl in Descurainia sophia (L.) Populations from China|Pestic. Biochem. Physiol.104(1): 77-81|2012|10.1016/j.pestbp.2012.07.007
168764|T||Oztetik,E.|Effects of Tribenuron-Methyl Treatment on Glutathione S-Transferase (GST) Activities in Some Wheat and Barley Varieties|Pure Appl. Chem.82(1): 289-297|2010|10.1351/PAC-CON-09-01-17
168765|T||Pasquer,F., U. Ochsner, J. Zarn, and B. Keller|Common and Distinct Gene Expression Patterns Induced by the Herbicides 2,4-Dichlorophenoxyacetic Acid, Cinidon-Ethyl and Tribenuron-Methyl in Wheat|Pest Manag. Sci.62(12): 1155-1167|2006|10.1002/ps.1291
168766|T||Sabra,F.S., M.A. Marzouk, and A.H. Mossa|Reproductive Effects of Technical and Formulated Tribenuron-Methyl on Male Albino Rats|Int. J. Agric. Biol.7(6): 1030-1033|2005|
168767|T||Webb,H.J., and K.C. Harrington|Control Strategies for Madeira Vine (Anredera cordifolia)|N. Z. Plant Prot.58:169-173|2005|10.30843/nzpp.2005.58.4324
168768|T||Zand,E., M. Ali Baghestani, S. Soufizadeh, A. Eskandari, R. PourAzar, M. Veysi, K. Mousavi, and A. Barjasteh|Evaluation of Some Newly Registered Herbicides for Weed Control in Wheat (Triticum aestivum L.) in Iran|Crop Prot.26(9): 1349-1358|2007|10.1016/j.cropro.2006.10.011
168769|T||Pocino,M., L. Baute, and I. Malave|Influence of the Oral Administration of Excess Copper on the Immune Response|Fundam. Appl. Toxicol.16:249-256|1991|10.1016/0272-0590(91)90109-H
168770|A||Fan,J., L. Ho, P. Hobson, and J. Brookes|Evaluating the Effectiveness of Copper Sulphate, Chlorine, Potassium Permanganate, Hydrogen Peroxide and Ozone on Cyanobacterial Cell Integrity|Water Res.47:5153-5164|2013|10.1016/j.watres.2013.05.057
168771|T||Eckert,G.E., L.W. Greene, G.E. Carstens, and W.S. Ramsey|Copper Status of Ewes Fed Increasing Amounts of Copper from Copper Sulfate or Copper Proteinate|J. Anim. Sci.77:244-249|1999|10.2527/1999.771244x
168772|A||Deeds,J.R., D.E. Terlizzi, J.E. Adolf, D.K. Stoecker, and A.R. Place|Toxic Activity from Cultures of Karlodinium micrum (=Gyrodinium galatheanum) (Dinophyceae) - a Dinoflagellate Associated with Fish Mortalities in an Estuarine Aquaculture Facility|Harmful Algae1(2): 169-189|2002|10.1016/S1568-9883(02)00027-6
168773|T||Johnson III,W.C., J.A. Baldwin, and B.G.,Jr. Mullinix|Winter Fallow Management of Volunteer Peanut (Arachis hypogaea L.) and Cutleaf Eveningprimrose (Oenothera laciniata Hill)|Peanut Sci.27(2): 67-70|2000|10.3146/i0095-3679-27-2-6
168774|A||Chaudhry,R., and A.R. Shakoori|Characterization of Copper Resistant Ciliates: Potential Candidates for Consortia of Organisms Used in Bioremediation of Wastewater|Afr. J. Biotechnol.10(45): 9101-9113|2011|10.5897/AJB10.2405
168775|A||Rawi,S.M., M. Al-Hazmi, and F.S. Al-Nassr|Comparative Study of the Molluscicidal Activity of Some Plant Extracts on the Snail Vector of Schistosoma mansoni, Biomphalaria alexandrina|Int. J. Zool. Res.7(2): 169-189|2011|10.3923/ijzr.2011.169.189
168776|T||Montazeri,M.|Efficacy of Several Herbicides in Control of Weeds in Wheat|Iran. J. Plant Pathol.30(1-4): 29-31|1994|
168777|A||Rothschild,L., and P.H. Tuft|The Physiology of Sea-Urchin Spermatozoa. The Dilution Effect in Relation to Copper and Zinc|J. Exp. Biol.27:59-72|1950|10.1242/jeb.27.1.59
168778|A||Skea,J., G. Neuderfer, J. Symula, G. Aylesworth, and J. Miccoli|The Toxicity of Ortho-Diquat to the Fry of Several Species of Warm Water Fish|Technical Report 87, Division of Fish and Wildlife, Bureau of Environmental Protection:21 p.|1987|
168779|T||Steinbaugh,M.J., L.Y. Sun, A. Bartke, and R.A. Miller|Activation of Genes Involved in Xenobiotic Metabolism is a Shared Signature of Mouse Models with Extended Lifespan|Am. J. Physiol. Endocrinol. Metab.303:E488-E495|2012|10.1152/ajpendo.00110.2012
168781|T||Lv,M., B. Yu, X.B. Mao, P. Zheng, J. He, and D.W. Chen|Responses of Growth Performance and Tryptophan Metabolism to Oxidative Stress Induced by Diquat in Weaned Pigs|Animal6(6): 928-934|2012|10.1017/S1751731111002382
168782|T||Liu,G., T. Fang, T. Yan, G. Jia, H. Zhao, X. Chen, C. Wu, and J. Wang|Systemic Responses of Weaned Rats to Spermine Against Oxidative Stress Revealed by a Metabolomic Strategy|RSC Adv.4:56766-56778|2014|10.1039/C4RA09975C
168783|T||Fenni,M., A.N. Shakir, and J. Maillet|Comparative Efficacy of Five Herbicides on Winter Cereal Weeds in Semi-Arid Region of Algeria|Meded. Fac. Landbouwwet. Univ. Gent66(2b): 791-795|2001|
168784|A||Bravo,S.|Caligidae Ectoparasites on Farmed Salmonids in Chile: Classification, Distribution, Biology, Control and Resistance Development|Ser. Diss. Submit. Nor. Sch. Vet. Sci.80:155 p.|2010|
168786|T||Hoy,J.W., and N. Blackwelder|Effects of Seed Treatment Chemicals on Stand Establishment and Yield Obtained from Billet Planting in Louisiana|Int. Sugar J.116:438-440|2014|
168787|T||Maschmann,E.T., N.A. Slaton, R.D. Cartwright, and R.J. Norman|Rate and Timing of Potassium Fertilization and Fungicide Influence Rice Yield and Stem Rot|Agron. J.102(1): 163-170|2010|10.2134/agronj2009.0245
168788|T||Naz,R., A. Bano, N.L. Wilson, D. Guest, and T.H. Roberts|Pathogenesis-Related Protein Expression in the Apoplast of Wheat Leaves Protected Against Leaf Rust Following Application of Plant Extracts|Phytopathology104(9): 933-944|2014|10.1094/PHYTO-11-13-0317-R
168789|AT||Queiroz,S.C.N., C.L. Cantrell, S.O. Duke, D.E. Wedge, V.K. Nandula, R.M. Moraes, and A.L. Cerdeira|Bioassay-Directed Isolation and Identification of Phytotoxic and Fungitoxic Acetylenes from Conyza canadensis|J. Agric. Food Chem.60:5893-5898|2012|10.1021/jf3010367
168790|A||Garanzini,D.S., and M.L. Menone|Azoxystrobin Causes Oxidative Stress and DNA Damage in the Aquatic Macrophyte Myriophyllum quitense|Bull. Environ. Contam. Toxicol.94(2): 146-151|2015|10.1007/s00128-014-1428-x
168791|T||Gatarayiha,M.C., M.D. Laing, and R.M. Miller|In Vitro Effects of Flutriafol and Azoxystrobin on Beauvaria bassiana and Its Efficacy Against Tetranychus urticae|Pest Manag. Sci.66:773-778|2010|10.1002/ps.1941
168792|T||Han,Y., L. Zhu, J. Wang, J. Wang, H. Xie, and S. Zhang|Integrated Assessment of Oxidative Stress and DNA Damage in Earthworms (Eisenia fetida) Exposed to Azoxystrobin|Ecotoxicol. Environ. Saf.107:214-219|2014|10.1016/j.ecoenv.2014.06.006
168793|T||Howell,C.C., S. Hilton, K.T. Semple, and G.D. Bending|Resistance and Resilience Responses of a Range of Soil Eukaryote and Bacterial Taxa to Fungicide Application|Chemosphere112:194-202|2014|10.1016/j.chemosphere.2014.03.031
168794|T||Hwang,S.F., T. Cao, Q. Xiao, H.U. Ahmed, V.P. Manolii, G.D. Turnbull, B.D. Gossen, G. Peng, and S.E. Strelkov|Effects of Fungicide, Seeding Date and Seedling Age on Clubroot Severity, Seedling Emergence and Yield of Canola|Can. J. Plant Sci.92:1175-1186|2012|10.4141/cjps2011-149
168795|T||Mueller,T.A., M.R. Miles, W. Morel, J.J. Marois, D.L. Wright, R.C. Kemerait, C. Levy, and G.L. Hartman|Effect of Fungicide and Timing of Application on Soybean Rust Severity and Yield|Plant Dis.93(3): 243-248|2009|10.1094/PDIS-93-3-0243
168796|T||Brosnan,J.T., B.J. Horvath, M.T. Elmore, G.K. Breeden, and J.C. Sorochan|Greenhouse Investigation of Strobilurin Fungicide Applications on Creeping Bentgrass Root Characteristics Under Two Irrigation Regimes|Crop Sci.50:2605-2612|2010|10.2135/cropsci2010.02.0088
168797|T||Id El Mouden,O., R. Salghi, M. Zougagh, A. Rios, A. Chakir, M. El Rachidi, L. Bazzi, and A. Hormatallah|Pesticide Residue Levels in Peppers Cultivated in Souss Masa Valley (Morocco) After Multiple Applications of Azoxystrobin and Chlorothalonil|Int. J. Environ. Anal. Chem.93(5): 499-510|2013|10.1080/03067319.2012.656097
168798|T||Bonasia,A., G. Conversa, C. Lazzizera, and A. Elia|Pre-Harvest Nitrogen and Azoxystrobin Application Enhances Postharvest Shelf-Life in Butterhead Lettuce|Postharvest Biol. Technol.85:67-76|2013|10.1016/j.postharvbio.2013.04.012
168799|T||Gao,A.H., Y.Y. Fu, K.Z. Zhang, M. Zhang, H.W. Jiang, L.X. Fan, F.J. Nan, C.G. Yuan, J. Li, Y.B. Zhou, and J.Y. Li|Azoxystrobin, a Mitochondrial Complex III Qo Site Inhibitor, Exerts Beneficial Metabolic Effects In Vivo and In Vitro|Biochim. Biophys. Acta (BBA) - Gen. Subjects1840:2212-2221|2014|10.1016/j.bbagen.2014.04.002
168800|T||Bingham,I.J., S.P. Hoad, W.T.B. Thomas, and A.C. Newton|Yield Response to Fungicide of Spring Barley Genotypes Differing in Disease Susceptibility and Canopy Structure|Field Crops Res.139:9-19|2012|10.1016/j.fcr.2012.10.004
168801|T||Blandino,M., M. Galeazzi, W. Savoia, and A. Reyneri|Timing of Azoxystrobin + Propiconazole Application on Maize to Control Northern Corn Leaf Blight and Maximize Grain Yield|Field Crops Res.139:20-29|2012|10.1016/j.fcr.2012.09.014
168802|T||Cabizza,M., F. Dedola, and M. Satta|Residues Behavior of Some Fungicides Applied on Two Greenhouse Tomato Varieties Different in Shape and Weight|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47:379-384|2012|
168803|T||De Curtis,F., V. De Cicco, and G. Lima|Efficacy of Biocontrol Yeasts Combined with Calcium Silicate or Sulphur for Controlling Durum Wheat Powdery Mildew and Increasing Grain Yield Components|Field Crops Res.134:36-46|2012|10.1016/j.fcr.2012.04.014
168804|T||Ijaz,M., and B. Honermeier|Effect of Triazole and Strobilurin Fungicides on Seed Yield Formation and Grain Quality of Winter Rapeseed (Brassica napus L.)|Field Crops Res.130:80-86|2012|10.1016/j.fcr.2012.02.017
168805|T||Marinaccio,F., A. Reyneri, and M. Blandino|Enhancing Grain Yield and Quality of Winter Barley Through Agronomic Strategies to Prolong Canopy Greenness|Field Crops Res.170:109-118|2015|10.1016/j.fcr.2014.10.002
168806|T||Solorzano,C.D., and D.K. Malvick|Effects of Fungicide Seed Treatments on Germination, Population, and Yield of Maize Grown from Seed Infected with Fungal Pathogens|Field Crops Res.122:173-178|2011|10.1016/j.fcr.2011.02.011
168807|T||Wu,W., Y. Liao, F. Shah, L. Nie, S. Peng, K. Cui, and J. Huang|Plant Growth Suppression Due to Sheath Blight and the Associated Yield Reduction Under Double Rice-Cropping System in Central China|Field Crops Res.144:268-280|2013|10.1016/j.fcr.2013.01.012
168808|T||Mahl,D.L., R.A. Zanette, F.P.K. Jesus, A.B. Friedriczewski, S.H. Alves, and J.M. Santurio|Animal-Crop Rotation System:  A Hurdle for the Use of the Nematophagous Fungus Duddingtonia flagrans|Biol. Control62:82-85|2012|10.1016/j.biocontrol.2012.03.009
168809|T||Pani,G., M.G. Molinu, T. Venditti, A. Dore, G. Ladu, and G. D'Hallewin|Import Risk Analysis of Fruit from Spain to Italy|Commun. Agric. Appl. Biol. Sci.77(3): 181-186|2012|
168810|T||Lava,S.S., R. Zipper, and O. Spring|Sunflower White Blister Rust - Host Specificity and Fungicide Effects on Infectivity and Early Infection Stages|Crop Prot.67:214-222|2015|10.1016/j.cropro.2014.10.019
168811|T||Lira-De Leon,K., M.V. Ramirez-Mares, V. Sanchez-Lopez, M. Ramirez-Lepe, R. Salas-Coronado, N.F. Santos-Sanchez, R. Vala|Effect of Crude Plant Extracts from Some Oaxacan Flora on Two Deleterious Fungal Phytopathogens and Extract Compatibility with a Biofertilizer Strain|Front. Microbiol.5(383): 1-10|2014|
168812|T||Marinozzi,M., L. Coppola, E. Monaci, D.G. Karpouzas, E. Papadopoulou, U. Menkissoglu-Spiroudi, and C. Vischetti|The Dissipation of Three Fungicides in a Biobed Organic Substrate and Their Impact on the Structure and Activity of the Microbial Community|Environ. Sci. Pollut. Res.20:2546-2555|2013|10.1007/s11356-012-1165-9
168813|T||Pfender,W.|A Damage Function for Stem Rust of Perennial Ryegrass Seed Crops|Phytopathology99(5): 498-505|2009|10.1094/PHYTO-99-5-0498
168814|T||Ploetz,R.C., J.M. Perez-Martinez, E.A. Evans, and S.A. Inch|Toward Fungicidal Management of Laurel Wilt of Avocado|Plant Dis.95(8): 977-982|2011|10.1094/PDIS-08-10-0595
168815|T||Rogers,P.M., and W.R. Stevenson|Aggressiveness and Fungicide Sensitivity of Alternaria dauci from Cultivated Carrot|Plant Dis.94:405-412|2010|10.1094/PDIS-94-4-0405
168816|T||Saadoun,I., S. Bataineh, Q. Ababneh, K. Hameed, K. Schrader, C. Cantrell, F. Dayan, and D. Wedge|Evaluation of the Toxicity of Streptomyces aburaviensis (R9) Extract Towards Various Agricultural Pests|Agric. Sci.2(4): 491-497|2011|10.4236/as.2011.24063
168817|T||Safrankova,I., L. Holkova, and M. Kmoch|Leaf Spot and Dieback of Buxus Caused by Cylindrocladium buxicola|Plant Prot. Sci.49(4): 165-168|2013|10.17221/82/2012-PPS
168818|A||Sharma,S.R.K., and S. Thomas|Hemolymph Acid Phosphatase Activity in the Green Mussel (Perna viridis Linnaeus,1758) Exposed to Copper and Mercury|J. Mar. Biol. Assoc. India49(2): 226-229|2007|
168819|A||Surber,E.W.|Results of Varying the Ratio of Largemouth Black Bass and Bluegills in the Stocking of Experimental Farm Ponds|Trans. Am. Fish. Soc.77(1): 141-151|1949|10.1577/1548-8659(1947)77[141:ROVTRO]2.0.CO;2
168820|A||Sutton,D.L., and R.D. Blackburn|Uptake of Copper by Parrotfeather|Weed Sci.19(3): 282-285|1971|10.1017/S0043174500048906
168821|A||Taju,G., S.A. Majeed, K.S.N. Nambi, and A.S.S. Hameed|Development and Characterization of Cell Line from the Gill Tissue of Catla catla (Hamilton, 1822) for Toxicological Studies|Chemosphere90(7): 2172-2180|2013|10.1016/j.chemosphere.2012.11.027
168822|A||Van Hullebusch,E., V. Deluchat, P.M. Chazal, and M. Baudu|Environmental Impact of Two Successive Chemical Treatments in a Small Shallow Eutrophied Lake: Part II. Case of Copper Sulfate|Environ. Pollut.120:627-634|2002|10.1016/S0269-7491(02)00191-4
168823|A||Van Hullebusch,E., P. Chatenet, V. Deluchat, P.M. Chazal, D. Froissard, M. Botineau, A. Ghestem, and M. Baudu|Copper Accumulation in a Reservoir Ecosystem Following Copper Sulfate Treatment (St. Germain Les Belles, France)|Water Air Soil Pollut.150(1-4): 3-22|2003|10.1023/A:1026148914108
168824|A||Zhou,Q., C. Wu, B. Dong, F. Li, F. Liu, and J. Xiang|Proteomic Analysis of Acute Responses to Copper Sulfate Stress in Larvae of the Brine Shrimp, Artemia sinica|Chin. J. Oceanol. Limnol.28(2): 224-232|2010|10.1007/s00343-010-9232-x
168825|T||Clewis,S.B., D.L. Jordan, J.F. Spears, and J.W. Wilcut|Influence of Environmental Factors on Cutleaf Eveningprimrose (Oenothera laciniata) Germination, Emergence, Development, Vegetative Growth, and Control|Weed Sci.55(3): 264-272|2007|10.1614/WS-06-089
168826|T||Li,H.C., C.L. Liu, B.S. Chai, M. Li, Z.N. Li, and J.C. Yang|Design, Synthesis and Fungicidal Activity of Novel Strobilurin Analogues Containing Substituted N-Phenylpyrimidin-2-Amines|Nat. Prod. Commun.4(9): 1209-1214|2009|
168827|T||Chemical Manufacturers Association|Diethylene Glycol Monomethyl Ether (DEGME):  Dermal Teratology Study in Rabbits with Cover Letter Dated 040485|EPA/OTS Doc.#FYI-AX-0485-0178:53 p.|1985|
168828|A||Robertson,L.S., L.R. Iwanowicz, and J.M. Marranca|Identification of Centrarchid Hepcidins and Evidence that 17 beta-Estradiol Disrupts Constitutive Expression of Hepcidin-1 and Inducible Expression of Hepcidin-2 in Largemouth Bass (Micropterus salmoides)|Fish Shellfish Immunol.26(6): 898-907|2009|10.1016/j.fsi.2009.03.023
168829|T||Su,J., Y.C. Wang, S.K. Zhang, and X.B. Ren|Antifungal Agents Against Aspergillus niger for Rearing Rice Leaffolder Larvae (Lepidoptera: Pyralidae) on Artificial Diet|J. Econ. Entomol.107(3): 1092-1100|2014|10.1603/EC13296
168830|T||Woolverton,C.J., P.G. Fotos, M.J. Mokas, and M.E. Mermigas|Evaluation of Eugenol for Mutagenicity by the Mouse Micronucleus Test|J. Oral Pathol.15(8): 450-453|1986|10.1111/j.1600-0714.1986.tb00656.x
168831|T||Ajigboye,O.O., E. Murchie, and R.V. Ray|Foliar Application of Isopyrazam and Epoxiconazole Improves Photosystem II Efficiency, Biomass and Yield in Winter Wheat|Pestic. Biochem. Physiol.114:52-60|2014|10.1016/j.pestbp.2014.07.003
168832|T||Bagchi,R., R.E. Gallery, S. Gripenberg, S.J. Gurr, L. Narayan, C.E. Addis, R.P. Freckleton, and O.T. Lewis|Pathogens and Insect Herbivores Drive Rainforest Plant Diversity and Composition|Nature506(7486): 85-88|2014|10.1038/nature12911
168833|T||Bataller,M., J.E. Gonzalez, E. Veliz, and L.A. Fernandez|Ozone Applications in the Post-Harvest of Papaya (Carica papaya L.): An Alternative to Amistar Fungicide|Ozone Sci. Eng.34:151-155|2012|10.1080/01919512.2012.662728
168834|T||Berdugo,C.A., U. Steiner, H.W. Dehne, and E.C. Oerke|Effect of Bixafen on Senescence and Yield Formation of Wheat|Pestic. Biochem. Physiol.104(3): 171-177|2012|10.1016/j.pestbp.2012.07.010
168835|T||Bradley,C.A., and K.A. Ames|Effect of Foliar Fungicides on Corn with Simulated Hail Damage|Plant Dis.94(1): 83-86|2010|10.1094/PDIS-94-1-0083
168836|T||Cloyd,R.A., C.L. Galle, S.R. Keith, and K.E. Kemp|Effect of Fungicides and Miticides with Mitochondria Electron Transport Inhibiting Activity on the Twospotted Spider Mite, Tetranychus urticae (Acari: Tetranychidae)|Hortscience45(4): 687-689|2010|10.21273/HORTSCI.45.4.687
168837|T||Falis,M., I. Krupicer, J. Legath, V. Pitonak, and M. Spalek|The Effects of Heavy Metals and Pesticides on Survival of Miracidia Stage of Fasciola hepatica|Helminthologia50(4): 287-290|2013|10.2478/s11687-013-0142-2
168838|A||Falis,M., M. Spalkova, and J. Legath|Effects of Heavy Metals and Pesticides on Survival of Artemia franciscana|Acta Vet. Brno83:95-99|2014|10.2754/avb201483020095
168839|T||Fenoll,J., E. Ruiz, P. Hellin, A. Lacasa, and P. Flores|Strobilurin Residue Levels in Greenhouse-Grown Pepper and Under Cold-Storage Conditions|J. Sci. Food Agric.89:299-303|2009|10.1002/jsfa.3441
168841|T||Saitanis,C.J., D.V. Lekkas, E. Agathokleous, and F. Flouri|Screening Agrochemicals as Potential Protectants of Plants Against Ozone Phytotoxicity|Environ. Pollut.197(0): 247-255|2015|10.1016/j.envpol.2014.11.013
168842|T||Salman,M., and R. Abuamsha|Potential for Integrated Biological and Chemical Control of Damping-Off Disease Caused by Pythium ultimum in Tomato|Biocontrol57:711-718|2012|10.1007/s10526-012-9444-4
168843|T||Chahal,G.S., D.L. Jordan, B.B. Shew, R.L. Brandenburg, A.C. York, J.D. Burton, and D. Danehower|Interactions of Agrochemicals Applied to Peanut; Part 1: Effects on Herbicides|Crop Prot.41:134-142|2012|10.1016/j.cropro.2012.05.014
168844|T||Chahal,G.S., D.L. Jordan, B.B. Shew, R.L. Brandenburg, J.D. Burton, D. Danehower, and A.C. York|Interactions of Agrochemicals Applied to Peanut; Part 2: Effects on Fungicides|Crop Prot.41:143-149|2012|10.1016/j.cropro.2012.05.008
168845|T||Itoiz,E.S., P. Fantke, R. Juraske, A. Kounina, and A.A. Vallejo|Deposition and Residues of Azoxystrobin and Imidacloprid on Greenhouse Lettuce with Implications for Human Consumption|Chemosphere89:1034-1041|2012|10.1016/j.chemosphere.2012.05.066
168846|T||Woodward,J.E., T.B. Brenneman, and B.G.,Jr. Mullinix|Irrigation Timing Impacts the Efficacy of Foliar-Applied Fungicides Toward Foliar and Soilborne Pathogens of Peanut|Plant Dis.96(12): 1785-1790|2012|10.1094/PDIS-01-12-0042-RE
168847|T||Zhang,G., D.K. Pedersen, D.V. Phillips, and C.A. Bradley|Sensitivity of Cercospora sojina Isolates to Quinone Outside Inhibitor Fungicides|Crop Prot.40:63-68|2012|10.1016/j.cropro.2012.04.025
168848|T||Zhang,C.Q., Y.H. Liu, H.M. Wu, B.C. Xu, P.L. Sun, and Z.H. Xu|Baseline Sensitivity of Pestalotiopsis microspora, Which Causes Black Spot Disease on Chinese Hickory (Carya cathayensis), to Pyraclostrobin|Crop Prot.42:256-259|2012|10.1016/j.cropro.2012.07.018
168849|T||Tobutt,K.R., J.B. Clarke, G. Boskovic, R. De La Rosa, and R.I. Boskovic|A Gene for Susceptibility to the Fungicide Azoxystrobin in Apple and a Tightly Linked Microsatellite Marker|Plant Breed.128:312-316|2009|10.1111/j.1439-0523.2008.01599.x
168850|T||Vostrel,J.|Negative Effect of Fungicides Used in Practical Hop Protection Against Downy Mildew (Pseudoperonospora humuli) on Aphidophagous coccinellids Propylea quatuordecimpunctata L.|Acta Hortic.1010:109-112|2013|10.17660/ActaHortic.2013.1010.12
168851|T||Giuliani,M.M., E. Nardella, G. Gatta, A. De Caro, and M. Quitadamo|Processing Tomato Cultivated Under Water Deficit Conditions: The Effect of Azoxystrobin|Acta Hortic.:287-294|2011|10.17660/ActaHortic.2011.914.52
168852|T||Conversa,G., A. Bonasia, C. Lazzizera, and A. Elia|Pre-Harvest Nitrogen and Azoxystrobin Application Enhances Raw Product Quality and Post-Harvest Shelf-Life of Baby Spinach (Spinacia oleracea L.)|J. Sci. Food Agric.94:3263-3272|2014|10.1002/jsfa.6679
168853|AT||Hu,X.G., L. Liu, K. Hu, X.L. Yang, and G.X. Wang|In Vitro Screening of Fungicidal Chemicals for Antifungal Activity Against Saprolegnia|J. World Aquac. Soc.44(4): 528-535|2013|10.1111/jwas.12052
168854|T||Urrea,K., J.C. Rupe, and C.S. Rothrock|Effect of Fungicide Seed Treatments, Cultivars, and Soils on Soybean Stand Establishment|Plant Dis.97:807-812|2013|10.1094/PDIS-08-12-0772-RE
168855|T||King,J.O.L.|The Feeding of Virginiamycin to Growing Rabbits|Vet. Rec.89(26): 677-679|1971|10.1136/vr.89.26.677
168856|A||Van Wijngaarden,R.P.A., D.J.M. Belgers, M.I. Zafar, A.M. Matser, M.C. Boerwinkel, and G.H.P. Arts|Chronic Aquatic Effect Assessment for the Fungicide Azoxystrobin|Environ. Toxicol. Chem.33(12): 2775-2785|2014|10.1002/etc.2739
168857|T||Wang,S., H. Sun, and Y. Liu|Dissipation and Residue of Azoxystrobin in Banana Under Field Condition|Environ. Monit. Assess.185:7757-7761|2013|10.1007/s10661-013-3133-3
168858|A||Zubrod,J.P., P. Baudy, R. Schulz, and M. Bundschuh|Effects of Current-Use Fungicides and Their Mixtures on the Feeding and Survival of the Key Shredder Gammarus fossarum|Aquat. Toxicol.150:133-143|2014|10.1016/j.aquatox.2014.03.002
168860|A||Saejung,C., K. Hatai, and L.O. Sanoamuang|Bath Efficacy of Sodium Hypochlorite, Oxytetracycline Dihydrate and Chloramphenicol Against Bacterial Black Disease in Fairy Shrimp Branchinella thailandensis|Aquac. Res.45:1697-1705|2014|10.1111/are.12115
168861|A||Jiang,L., A. Zhu, C. Wu, Y. Su, J. Zhang, and Z.D. Dong|Tetracycline Immersion Tagging of Cuttlefish, Sepiella japonica, Larvae|J. World Aquac. Soc.45(3): 342-349|2014|10.1111/jwas.12116
168862|T||Lindquist,D., H. Wu, S. Mason, J. Yeatts, J. Brooks, B. Barlow, K. Schill, and R. Baynes|Tetracycline Residues in Porcine Stomach After Administration via Drinking Water on a Swine Farm|J. Food Prot.77(1): 122-126|2014|10.4315/0362-028X.JFP-13-199
168863|T||Munoz,R., J. Cornejo, A. Maddaleno, C. Araya-Jordan, D. Iraguen, N. Pizarro, and B. San Martin|Withdrawal Times of Oxytetracycline and Tylosin in Eggs of Laying Hens After Oral Administration|J. Food Prot.77(6): 1017-1021|2014|10.4315/0362-028X.JFP-13-440
168864|A||Baldisserotto,B., R.P. Brinn, F.R. Brandao, L.C. Gomes, J.S. Abreu, D.M. McComb, and J.L. Marcon|Ion Flux and Cortisol Responses of Cardinal Tetra, Paracheirodon axelrodi (Schultz, 1956), to Additives (Tetracycline, Tetracycline + Salt or Amquel) Used During Transportation: Contributions to Amazonian Ornamental Fis|J. Appl. Ichthyol.30:86-92|2014|10.1111/jai.12282
168865|T||Vangheel,M., W. Traunspurger, and N. Spann|Effects of the Antibiotic Tetracycline on the Reproduction, Growth and Population Growth Rate of the Nematode Caenorhabditis elegans|Nematology16:19-29|2014|10.1163/15685411-00002740
168866|T||Xu,Q., and M. Zhang|Oxytetracycline Uptake and Growth of Radish Plants (Raphanus sativus L.) in Animal Manure-Amended Soils|Agric. Sci. Technol.15(7): 1229-1234|2014|
168867|A||Yuan,J., R.Q. Li, Y. Shi, X.Y. Peng, X.X. Chen, and Z.X. Wu|Pharmacokinetics of Oxytetracycline in Yellow Catfish (Pelteobagrus fulvidraco (Richardson, 1846)) with a Single and Multiple-Dose Oral Administration|J. Appl. Ichthyol.30:109-113|2014|10.1111/jai.12286
168870|T||Bah,G.S., E.L. Ward, A. Srivastava, A.J. Trees, V.N. Tanya, and B.L. Makepeace|Efficacy of Three-Week Oxytetracycline or Rifampin Monotherapy Compared with a Combination Regimen Against the Filarial Nematode Onchocerca ochengi|Antimicrob. Agents Chemother.58(2): 801-810|2014|10.1128/AAC.01995-13
168871|T||Barbosa,G.F., M.A.P.C. Centurion, B.T. Marin, and G.F. Barbosa|Effect of Reduced Fungicide Doses on Control of Soybean Asian Rust and Bean Yield|Interciencia38(5): 347-352|2013|
168872|A||Boonsaner,M., and D.W. Hawker|Transfer of Oxytetracycline from Swine Manure to Three Different Aquatic Plants: Implications for Human Exposure|Chemosphere122:176-182|2015|10.1016/j.chemosphere.2014.11.045
168873|A||Elia,A.C., V. Ciccotelli, N. Pacini, A.J.M. Dorr, M. Gili, M. Natali, L. Gasco, M. Prearo, and M.C. Abete|Transferability of Oxytetracycline (OTC) from Feed to Carp Muscle and Evaluation of the Antibiotic Effects on Antioxidant Systems in Liver and Kidney|Fish Physiol. Biochem.40:1055-1068|2014|
168874|T||Gao,M., Q. Zhou, W. Song, and X. Ma|Combined Effects of Oxytetracycline and Pb on Earthworm Eisenia fetida|Environ. Toxicol. Pharmacol.37(2): 689-696|2014|10.1016/j.etap.2014.02.004
168875|A||Gomiero,A., and A. Viarengo|Effects of Elevated Temperature on the Toxicity of Copper and Oxytetracycline in the Marine Model, Euplotes crassus: A Climate Change Perspective|Environ. Pollut.194:262-271|2014|10.1016/j.envpol.2014.07.035
168876|A||Kim,H.Y., J. Jeon, J. Hollender, S. Yu, and S.D. Kim|Aqueous and Dietary Bioaccumulation of Antibiotic Tetracycline in D. magna and Its Multigenerational Transfer|J. Hazard. Mater.279:428-435|2014|10.1016/j.jhazmat.2014.07.031
168877|A||Kim,H.Y., S. Yu, T.Y. Jeong, and S.D. Kim|Relationship Between Trans-Generational Effects of Tetracycline on Daphnia magna at the Physiological and Whole Organism Level|Environ. Pollut.191:111-118|2014|10.1016/j.envpol.2014.04.022
168878|A||Kolar,B., L. Arnus, B. Jeretin, A. Gutmaher, D. Drobne, and M.K. Durjava|The Toxic Effect of Oxytetracycline and Trimethoprim in the Aquatic Environment|Chemosphere115:75-80|2014|10.1016/j.chemosphere.2014.02.049
168880|A||Nunes,B., S.C. Antunes, R. Gomes, J.C. Campos, M.R. Braga, A.S. Ramos, and A.T. Correia|Acute Effects of Tetracycline Exposure in the Freshwater Fish Gambusia holbrooki: Antioxidant Effects, Neurotoxicity and Histological Alterations|Arch. Environ. Contam. Toxicol.68:371-381|2015|10.1007/s00244-014-0101-z
168881|A||Seo,J.S., E.J. Jeon, S.H. Jung, M.A. Park, and N.Y. Kim|Pharmacokinetics of Amoxicillin Trihydrate in Cultured Olive Flounder (Paralichthys olivaceus)|J. Vet. Pharmacol. Ther.38:86-92|2015|10.1111/jvp.12155
168882|A||Seoane,M., C. Rioboo, C. Herrero, and A. Cid|Toxicity Induced by Three Antibiotics Commonly Used in Aquaculture on the Marine Microalga Tetraselmis suecica (Kylin) Butch|Mar. Environ. Res.101:1-7|2014|10.1016/j.marenvres.2014.07.011
168883|A||Shibata,K., T. Amemiya, and K. Itoh|Effects of Oxytetracycline on Populations and Community Metabolism of an Aquatic Microcosm|Ecol. Res.29:401-410|2014|10.1007/s11284-014-1128-3
168884|A||Zhu,J.J., Y.Q. Xu, J.H. He, H.P. Yu, C.J. Huang, J.M. Gao, Q.X. Dong, Y.X. Xuan, and C.Q. Li|Human Cardiotoxic Drugs Delivered by Soaking and Microinjection Induce Cardiovascular Toxicity in Zebrafish|J. Appl. Toxicol.34:139-148|2014|10.1002/jat.2843
168885|A||El-Sayed,A.K.I.M., M.A. Soltan, H.A. Radwan, and M.G. Mohamed|Effect of Oxytetracycline and Florfenicol on the Cytogenetic Picture of Nile Tilapia (Oreochromis niloticus) Fish|J. Appl. Biol. Sci.7(2): 102-106|2013|
168886|T||May,K.D., J.E. Wells, C.V. Maxwell, and W.T. Oliver|Granulated Lysozyme as an Alternative to Antibiotics Improves Growth Performance and Small Intestinal Morphology of 10-Day-Old Pigs|J. Anim. Sci.90:1118-1125|2012|10.2527/jas.2011-4297
168887|T||National Toxicology Program|Toxicology and Carcinogenesis Studies of Oxytetracycline Hydrochloride (CAS No. 2058-46-0) in F344/N Rats and B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.315:194 p.|1987|
168888|T||National Toxicology Program|Toxicology and Carcinogenesis Studies of Tetracycline Hydrochloride (CAS No.64-75-5) in F344/N Rats and B6C3F1 Mice (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.344:174 p.|1989|
168889|A||Oliveira,R., S. McDonough, J.C.L. Ladewig, A.M.V.M. Soares, A.J.A. Nogueira, and I. Domingues|Effects of Oxytetracycline and Amoxicillin on Development and Biomarkers Activities of Zebrafish (Danio rerio)|Environ. Toxicol. Pharmacol.36:903-912|2013|10.1016/j.etap.2013.07.019
168890|T||Sourassou,N.F., R. Hanna, J.A.J. Breeuwer, K. Negloh, G.J. De Moraes, and M.W. Sabelis|The Endosymbionts Wolbachia and Cardinium and Their Effects in Three Populations of the Predatory Mite Neoseiulus paspalivorus|Exp. Appl. Acarol.64:207-221|2014|10.1007/s10493-014-9820-0
168891|T||Charles-Tollerup,J.J.|Resource Provisioning as a Habitat Manipulation Tactic to Enhance the Aphid Parasitoid, Aphidius colemani Viereck (Hymenoptera: Braconidae: Aphidiinae), and the Plant-Mediated Effects of a Systemic Insecticide, Imidaclo|Ph.D Thesis, University of California, Riverside, CA:151 p.|2013|
168892|T||Cardone,A.|Imidacloprid Induces Morphological and Molecular Damages on Testis of Lizard (Podarcis sicula)|Ecotoxicology24:94-105|2015|10.1007/s10646-014-1361-0
168893|T||De Almeida Rossi,C., T.C. Roat, D.A. Tavares, P. Cintra-Socolowski, and O. Malaspina|Effects of Sublethal Doses of Imidacloprid in Malpighian Tubules of Africanized Apis mellifera (Hymenoptera, Apidae)|Microsc. Res. Tech.76(5): 552-558|2013|10.1002/jemt.22199
168894|T||Williamson,S.M., D.D. Baker, and G.A. Wright|Acute Exposure to a Sublethal Dose of Imidacloprid and Coumaphos Enhances Olfactory Learning and Memory in the Honeybee Apis mellifera|Invertebr. Neurosci.13(1): 63-70|2013|10.1007/s10158-012-0144-7
168895|T||Sohrabi,F., P. Shishehbor, M. Saber, and M.S. Mosaddegh|Effects of Buprofezin and Imidacloprid on the Functional Response of Eretmocerus mundus Mercet|Plant Prot. Sci.50(3): 145-150|2014|10.17221/64/2012-PPS
168896|T||Sohrabi,F., P. Shishehbor, M. Saber, and M.S. Mosaddegh|Lethal and Sublethal Effects of Buprofezin and Imidacloprid on the Whitefly Parasitoid Encarsia inaron (Hymenoptera: Aphelinidae)|Crop Prot.32:83-89|2012|10.1016/j.cropro.2011.10.005
168897|T||Sohrabi,F., P. Shishehbor, M. Saber, and M.S. Mosaddegh|Lethal and Sublethal Effects of Imidacloprid and Buprofezin on the Sweetpotato Whitefly Parasitoid Eretmocerus mundus (Hymenoptera: Aphelinidae)|Crop Prot.45:98-103|2013|10.1016/j.cropro.2012.11.024
168898|T||De Almeida Rossi,C., T.C. Roat, D.A. Tavares, P. Cintra-Socolowski, and O. Malaspina|Brain Morphophysiology of Africanized Bee Apis mellifera Exposed to Sublethal Doses of Imidacloprid|Arch. Environ. Contam. Toxicol.65(2): 234-243|2013|10.1007/s00244-013-9897-1
168899|T||Carrillo,M.P., T. De Souza Bovi, A.F. Negrao, and R. De Oliveira Orsi|Influence of Agrochemicals Fipronil and Imidacloprid on the Learning Behavior of Apis mellifera L. Honeybees.|Acta Sci. Anim. Sci.35(4): 431-434|2013|10.4025/actascianimsci.v35i4.18683
168900|T||Cresswell,J.E., F.X.L. Robert, H. Florance, and N. Smirnoff|Clearance of Ingested Neonicotinoid Pesticide (Imidacloprid) in Honey Bees (Apis mellifera) and Bumblebees (Bombus terrestris)|Pest Manag. Sci.70:332-337|2014|10.1002/ps.3569
168901|T||Carrillo,D., J.E. Pena, and M.E. Rogers|Relative Susceptibility of Haeckeliania sperata (Hymenoptera: Trichogrammatidae) to Pesticides Used in Citrus and Ornamental Systems in Florida|J. Econ. Entomol.102(3): 905-912|2009|10.1603/029.102.0307
168902|T||Byrne,F.J., P.K. Visscher, B. Leimkuehler, D. Fischer, E.E. Grafton-Cardwell, and J.G. Morse|Determination of Exposure Levels of Honey Bees Foraging on Flowers of Mature Citrus Trees Previously Treated with Imidacloprid|Pest Manag. Sci.70:470-482|2014|10.1002/ps.3596
168903|T||Biddinger,D.J., J.L. Robertson, C. Mullin, J. Frazier, S.A. Ashcraft, E.G. Rajotte, N.K. Joshi, and M. Vaughn|Comparative Toxicities and Synergism of Apple Orchard Pesticides to Apis mellifera (L.) and Osmia cornifrons (Radoszkowski)|PLoS One8(9): 6 p.|2013|10.1371/journal.pone.0072587
168904|T||Wise,J.C., and L.J. Gut|Blueberry, Control of Cranberry Fruitworm and Cherry Fruitworm, 1997|Arthropod Manag. Tests22:52-53|1998|10.1093/amt/23.1.52a
168905|T||Abbott,V.A., J.L. Nadeau, H.A. Higo, and M.L. Winston|Lethal and Sublethal Effects of Imidacloprid on Osmila lignaria and Clothianidin on Megachile rotundata (Hymenoptera: Megachilidae)|J. Econ. Entomol.101(3): 784-796|2008|10.1603/0022-0493(2008)101[784:LASEOI]2.0.CO;2
168906|T||Decourtye,A., M. Le Metayer, H. Pottiau, M. Tisseur, J.F. Odoux, and M.H. Pham-Delegue|Impairment of Olfactory Learning Performances in the Honey Bee After Long Term Ingestion of Imidacloprid|In: L.P.Belzunces, C.Pellissier and G.B.Lewis (Eds.), Hazard of Pesticides to Bees, INRA, Paris:113-117|2001|
168907|A||Alexander,A.C., K.S. Heard, and J.M. Culp|Emergent Body Size of Mayfly Survivors|Freshw. Biol.53:171-180|2008|10.1111/j.1365-2427.2007.01880.x
168908|T||Ince,S., I. Kucukkurt, H.H. Demirel, R. Turkmen, F. Zemheri, and E. Akbel|The Role of Thymoquinone as Antioxidant Protection on Oxidative Stress Induced by Imidacloprid in Male and Female Swiss Albino Mice|Toxicol. Environ. Chem.95(2): 318-329|2013|10.1080/02772248.2013.764672
168909|T||Armengaud,C., M. Lambin, and M. Gauthier|Effects of Imidacloprid on the Neural Processes of Memory in Honey Bees|In: J.Devillers and M.H.Pham-Delegue (Eds.), Honey Bees:  Estimating the Environemental Impact of Chemicals, Taylor and Francis, London, U.K.:85-100|2002|
168910|T||Aufauvre,J., B. Misme-Aucouturier, B. Vigues, C. Texier, F. Delbac, and N. Blot|Transcriptome Analyses of the Honeybee Response to Nosema ceranae and Insecticides|PLoS One9(3): 12 p.|2014|10.1371/journal.pone.0091686
168911|T||Yang,E.C., H.C. Chang, W.Y. Wu, and Y.W. Chen|Impaired Olfactory Associative Behavior of Honeybee Workers due to Contamination of Imidacloprid in the Larval Stage|PLoS One7(11): 8 p.|2012|
168912|T||Xu,T., C.M. Jacobsen, A.H. Hara, J. Li, and Q.X. Li|Efficacy of Systemic Insecticides on the Gall Wasp Quadrastichus erythrinae in Wiliwili Trees (Erythrina spp.)|Pest Manag. Sci.65:163-169|2009|10.1002/ps.1663
168913|T||Williamson,S.M., S.J. Willis, and G.A. Wright|Exposure to Neonicotinoids Influences the Motor Function of Adult Worker Honeybees|Ecotoxicology23:1409-1418|2014|10.1007/s10646-014-1283-x
168914|T||Gawade,L., S.S. Dadarkar, R. Husain, and M. Gatne|A Detailed Study of Developmental Immunotoxicity of Imidacloprid in Wistar Rats|Food Chem. Toxicol.51:61-70|2013|10.1016/j.fct.2012.09.009
168915|T||Tome,H.V.V., G.F. Martins, M.A.P. Lima, L.A.O. Campos, and R.N.C. Guedes|Imidacloprid-Induced Impairment of Mushroom Bodies and Behavior of the Native Stingless Bee Melipona quadrifasciata anthidioides|PLoS One7(6): 9 p.|2012|10.1371/journal.pone.0038406
168916|T||Tome,H.V.V., W.F. Barbosa, G.F. Martins, and R.N.C. Guedes|Spinosad in the Native Stingless Bee Melipona quadrifasciata: Regrettable Non-Target Toxicity of a Bioinsecticide|Chemosphere124:103-109|2015|10.1016/j.chemosphere.2014.11.038
168917|A||Hayasaka,D., K. Suzuki, T. Nomura, M. Nishiyama, T. Nagai, F. Sanchez-Bayo, and K. Goka|Comparison of Acute Toxicity of Two Neonicotinoid Insecticides, Imidacloprid and Clothianidin, to Five Cladoceran Species|J. Pestic. Sci. (Multiple Languages)38(1): 44-47|2013|10.1584/jpestics.D12-061
168918|T||Williamson,S.M., and G.A. Wright|Exposure to Multiple Cholinergic Pesticides Impairs Olfactory Learning and Memory in Honeybees|J. Exp. Biol.216:1799-1807|2013|
168919|T||Kapoor,U., M.K. Srivastava, P. Trivedi, V. Garg, and L.P. Srivastava|Disposition and Acute Toxicity of Imidacloprid in Female Rats After Single Exposure|Food Chem. Toxicol.68:190-195|2014|10.1016/j.fct.2014.03.019
168920|T||Kreutzweiser,D.P., K.P. Good, D.T. Chartrand, T.A. Scarr, S.B. Holmes, and D.G. Thompson|Effects on Litter-Dwelling Earthworms and Microbial Decomposition of Soil-Applied Imidacloprid for Content of Wood-Boring Insects|Pest Manag. Sci.64:112-118|2008|10.1002/ps.1478
168921|T||Mohany,M., M. El-Feki, I. Refaat, O. Garraud, and G. Badr|Thymoquinone Ameliorates the Immunological and Histological Changes Induced by Exposure to Imidacloprid Insecticide|J. Toxicol. Sci.37(1): 1-11|2012|10.2131/jts.37.1
168923|A||Nyman,A.M., A. Hintermeister, K. Schirmer, and R. Ashauer|The Insecticide Imidacloprid Causes Mortality of the Freshwater Amphipod Gammarus pulex by Interfering with Feeding Behavior|PLoS One8(5): 13 p.|2013|10.1371/journal.pone.0062472
168924|A||Priya,B.P., and Y.A. Maruthi|Imidacloprid Toxicity on Biochemical Constituents in Liver Tissue of Fresh Water Teleost Channa punctatus|Int. J. Pharma Bio Sci.4(4): B50-B54|2013|
168925|T||Radwan,M.A., and M.S. Mohamed|Imidacloprid Induced Alterations in Enzyme Activities and Energy Reserves of the Land Snail, Helix aspersa|Ecotoxicol. Environ. Saf.95:91-97|2013|10.1016/j.ecoenv.2013.05.019
168926|T||Carvajal,G., M.I. Picollo, and A.C. Toloza|Is Imidacloprid an Effective Alternative for Controlling Pyrethroid-Resistant Populations of Triatoma infestans (Hemiptera: Reduviidae) in the Gran Chaco Ecoregion?|Mem. Inst. Oswaldo Cruz109(6): 761-766|2014|10.1590/0074-0276140100
168927|T||Sharma,I., R. Bhardwaj, and P.K. Pati|Stress Modulation Response of 24-Epibrassinolide Against Imidacloprid in an Elite Indica Rice Variety Pusa Basmati-1|Pestic. Biochem. Physiol.105(2): 144-153|2013|10.1016/j.pestbp.2013.01.004
168929|T||Toor,H.K., G.K. Sangha, and K.S. Khera|Imidacloprid Induced Histological and Biochemical Alterations in Liver of Female Albino Rats|Pestic. Biochem. Physiol.105(1): 1-4|2013|10.1016/j.pestbp.2012.10.001
168930|T||Guan,H., D. Chi, J. Yu, and X. Li|A Novel Photodegradable Insecticide:  Preparation, Characterization and Properties Evaluation of Nano-Imidacloprid|Pestic. Biochem. Physiol.92(2): 83-91|2008|10.1016/j.pestbp.2008.06.008
168931|T||Vohra,P., K.S. Khera, and G.K. Sangha|Physiological, Biochemical and Histological Alterations Induced by Administration of Imidacloprid in Female Albino Rats|Pestic. Biochem. Physiol.110:50-56|2014|10.1016/j.pestbp.2014.02.007
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168933|T||Ramakrishnan,R., D.R. Suiter, C.H. Nakatsu, R.A. Humber, and G.W. Bennett|Imidacloprid-Enhanced Reticulitermes flavipes (Isoptera: Rhinotermitidae) Susceptibility to the Entomopathogen Metarhizium anisopliae|J. Econ. Entomol.92(5): 1125-1132|1999|10.1093/jee/92.5.1125
168934|A||Daam,M.A., A.C.S. Pereira, E. Silva, L. Caetano, and M.J. Cerejeira|Preliminary Aquatic Risk Assessment of Imidacloprid After Application in an Experimental Rice Plot|Ecotoxicol. Environ. Saf.97:78-85|2013|10.1016/j.ecoenv.2013.07.011
168935|T||Yu,C., R. Lin, M. Fu, Y. Zhou, F. Zong, H. Jiang, N. Lv, X. Piao, J. Zhang, Y. Liu, and T.C.M. Brock|Impact of Imidacloprid on Life-Cycle Development of Coccinella septempunctata in Laboratory Microcosms|Ecotoxicol. Environ. Saf.110:168-173|2014|10.1016/j.ecoenv.2014.08.022
168937|T||Bhaskar,R., and B. Mohanty|Pesticides in Mixture Disrupt Metabolic Regulation:  In Silico and In Vivo Analysis of Cumulative Toxicity of Mancozeb and Imidacloprid on Body Weight of Mice|Gen. Comp. Endocrinol.205:226-234|2014|10.1016/j.ygcen.2014.02.007
168938|T||Heylen,K., B. Gobin, L. Arckens, R. Huybrechts, and J. Billen|The Effects of Four Crop Protection Products on the Morphology and Ultrastructure of the Hypopharyngeal Gland of the European Honeybee, Apis mellifera|Apidologie42:103-116|2011|10.1051/apido/2010043
168939|T||Bhattacherjee,A.K.|Persistence Behavior of Imidacloprid and Carbosulfan in Mango (Mangifera indica L.)|Bull. Environ. Contam. Toxicol.90(2): 233-237|2013|10.1007/s00128-012-0902-6
168940|A||Bottger,R., M. Feibicke, J. Schaller, and G. Dudel|Effects of Low-Dosed Imidacloprid Pulses on the Functional Role of the Caged Amphipod Gammarus roeseli in Stream Mesocosms|Ecotoxicol. Environ. Saf.93:93-100|2013|10.1016/j.ecoenv.2013.04.006
168941|T||Chahil,G.S., K. Mandal, S.K. Sahoo, R.S. Battu, and B. Singh|Risk Assessment of beta-Cyfluthrin and Imidacloprid in Chickpea Pods and Leaves|Ecotoxicol. Environ. Saf.101:177-183|2014|10.1016/j.ecoenv.2013.12.010
168942|T||Zhu,G., M.J. Petersen, G. Liu, and D.C. Peck|Imidacloprid as a Contact Arrestant for Larvae of the European Chafer, Amphimallon majale|Pest Manag. Sci.69(4): 483-492|2013|10.1002/ps.3394
168943|T||Stygar,D., K. Michalczyk, B. Dolezych, M. Nakonieczny, P. Migula, M. Zaak, T. Sawczyn, I. Karcz-Socha, M. Kukla, K. Zwi|Digestive Enzymes Activity in Subsequent Generations of Cameraria ohridella Larvae Harvested from Horse Chestnut Trees After Treatment with Imidacloprid|Pestic. Biochem. Physiol.105(1): 5-12|2013|10.1016/j.pestbp.2012.10.003
168944|T||Drinkwater,T.W.|Effect of Application Rate and Beetle Age on Efficacy of Imidacloprid (Gaucho) Against Black Maize Beetle, Heteronychus arator Fabricius (Coleoptera: Scarabaeidae)|S. Afr. J. Plant Soil19(2): 99-103|2002|10.1080/02571862.2002.10634446
168946|A||Colombo,V., S. Mohr, R. Berghahn, and V.J. Pettigrove|Structural Changes in a Macrozoobenthos Assemblage After Imidacloprid Pulses in Aquatic Field-Based Microcosms|Arch. Environ. Contam. Toxicol.65(4): 683-692|2013|10.1007/s00244-013-9940-2
168947|T||El-Gendy,K.S., N.M. Aly, F.H. Mahmoud, A. Kenawy, and A.K.H. El-Sebae|The Role of Vitamin C as Antioxidant in Protection of Oxidative Stress Induced by Imidacloprid|Food Chem. Toxicol.48(1): 215-221|2010|10.1016/j.fct.2009.10.003
168948|T||Tanis,S.R., B.M. Cregg, D. Mota-Sanchez, D.G. McCullough, and T.M. Poland|Spatial and Temporal Distribution of Trunk-Injected 14C-Imidacloprid in Fraxinus Trees|Pest Manag. Sci.68:529-536|2012|10.1002/ps.2281
168949|T||Tu,C., Y. Wang, W. Duan, P. Hertl, L. Tradway, R. Brandenburg, D. Lee, M. Snell, and S. Hu|Effects of Fungicides and Insecticides on Feeding Behavior and Community Dynamics of Earthworms: Implications for Casting Control in Turfgrass Systems|Appl. Soil Ecol.47:31-36|2011|10.1016/j.apsoil.2010.11.002
168950|T||Ugine,T.A., S. Gardescu, and A.E. Hajek|The Within-Season and Between-Tree Distribution of Imidacloprid Trunk-Injected Into Acer platanoides (Sapindales: Sapindaceae)|J. Econ. Entomol.106(2): 874-882|2013|10.1603/EC12329
168951|T||Van Meter,R.J., D.A. Glinski, T. Hong, M. Cyterski, W.M. Henderson, and S.T. Purucker|Estimating Terrestrial Amphibian Pesticide Body Burden Through Dermal Exposure|Environ. Pollut.193:262-268|2014|10.1016/j.envpol.2014.07.003
168952|T||Wang,Y., C. Chen, Y. Qian, X. Zhao, Q. Wang, and X. Kong|Toxicity of Mixtures of lambda-Cyhalothrin, Imidacloprid and Cadmium on the Earthworm Eisenia fetida by Combination Index (CI)-Isobologram Method|Ecotoxicol. Environ. Saf.111:242-247|2015|10.1016/j.ecoenv.2014.10.015
168953|T||Wang,Y., C. Chen, Y. Qian, X. Zhao, and Q. Wang|Ternary Toxicological Interactions of Insecticides, Herbicides, and a Heavy Metal on the Earthworm Eisenia fetida|J. Hazard. Mater.284:233-240|2015|10.1016/j.jhazmat.2014.11.017
168955|T||Zhang,Q., B. Zhang, and C. Wang|Ecotoxicological Effects on the Earthworm Eisenia fetida Following Exposure to Soil Contaminated with Imidacloprid|Environ. Sci. Pollut. Res.21:12345-12353|2014|10.1007/s11356-014-3178-z
168956|A||Lanteigne,M., S.A. Whiting, and M.J. Lydy|Mixture Toxicity of Imidacloprid and Cyfluthrin to Two Non-Target Species, the Fathead Minnow Pimephales promelas and the Amphipod Hyalella azteca|Arch. Environ. Contam. Toxicol.68:354-361|2015|10.1007/s00244-014-0086-7
168957|T||Acimovic,S.G., A.H. VanWoerkom, P.D. Reeb, C. Vandervoort, T. Garavaglia, B.M. Cregg, and J.C. Wise|Spatial and Temporal Distribution of Trunk-Injected Imidacloprid in Apple Tree Canopies|Pest Manag. Sci.70:1751-1760|2014|10.1002/ps.3747
168958|A||Agatz,A., and C.D. Brown|Evidence for Links Between Feeding Inhibition, Population Characteristics, and Sensitivity to Acute Toxicity for Daphnia magna|Environ. Sci. Technol.47(16): 9461-9469|2013|10.1021/es401428h
168959|T||Akoijam,R., and B. Singh|Persistence and Metabolism of Imidacloprid in Rice|Bull. Environ. Contam. Toxicol.92:609-615|2014|10.1007/s00128-013-1190-5
168960|T||Alves,P.R.L., E.J.B.N. Cardoso, A.M. Martines, J.P. Sousa, and A. Pasini|Seed Dressing Pesticides on Springtails in Two Ecotoxicological Laboratory Tests|Ecotoxicol. Environ. Saf.105:65-71|2014|10.1016/j.ecoenv.2014.04.010
168962|AT||Antonio-Arreola,G.E., R. Lopez-Bello, D.K. Romero-Moreno, and D. Sanchez|Laboratory and Field Evaluation of the Effects of the Neonicotinoid Imidacloprid on the Oviposition Response of Aedes (Stegomyia) aegypti Linnaeus (Diptera: Culicidae)|Mem. Inst. Oswaldo Cruz106(8): 997-1001|2011|10.1590/S0074-02762011000800016
168963|T||Bhattarai,K., D.A. Johnson, T.A. Jones, K.J. Connors, and D.R. Gardner|Physiological and Morphological Characterization of Basalt Milkvetch (Astragalus filipes): Basis for Plant Improvement|Rangeland Ecol. Manag.61(4): 444-455|2008|10.2111/08-011.1
168964|T||Bostanian,N.J., H.A. Thistlewood, J.M. Hardman, M.C. Laurin, and G. Racette|Effect of Seven New Orchard Pesticides on Galendromus occidentalis in Laboratory Studies|Pest Manag. Sci.65:635-639|2009|10.1002/ps.1721
168965|T||Broughton,S., J. Harrison, and T. Rahman|Effect of New and Old Pesticides on Orius armatus (Gross) - an Australian Predator of Western Flower Thrips, Frankliniella occidentalis (Pergande)|Pest Manag. Sci.70:389-397|2014|10.1002/ps.3565
168966|T||Coots,C., P. Lambdin, J. Grant, and R. Rhea|Spatial and Temporal Distribution of Residues of Imidacloprid and Its Insecticidal 5-Hydroxy and Olefin and Metabolites in Eastern Hemlock (Pinales: Pinaceae) in the Southern Appalachians|J. Econ. Entomol.106(6): 2399-2406|2013|10.1603/EC13142
168967|T||Lopez-Antia,A., M.E. Ortiz-Santaliestra, and R. Mateo|Experimental Approaches to Test Pesticide-Treated Seed Avoidance by Birds Under a Simulated Diversification of Food Sources|Sci. Total Environ.496:179-187|2014|10.1016/j.scitotenv.2014.07.031
168968|T||Lopez-Antia,A., M.E. Ortiz-Santaliestra, F. Mougeot, and R. Mateo|Imidacloprid-Treated Seed Ingestion has Lethal Effect on Adult Partridges and Reduces both Breeding Investment and Offspring Immunity|Environ. Res.136:97-107|2015|10.1016/j.envres.2014.10.023
168969|A||Mahabali,S., and P. Spanoghe|Mitigation of Two Insecticides by Wetland Plants: Feasibility Study for the Treatment of Agricultural Runoff in Suriname (South America)|Water Air Soil Pollut.225(1771): 12 p.|2014|
168970|T||Maremanda,K.P., S. Khan, and G. Jena|Zinc Protects Cyclophosphamide-Induced Testicular Damage in Rat: Involvement of Metallothionein, Tesmin and Nrf2|Biochem. Biophys. Res. Commun.445(3): 591-596|2014|10.1016/j.bbrc.2014.02.055
168971|T||Martinez,L.C., A. Plata-Rueda, J.C. Zanuncio, and J.E. Serrao|Comparative Toxicity of Six Insecticides on the Rhinoceros Beetle (Coleoptera: Scarabaeidae)|Fla. Entomol.97(3): 1056-1062|2014|10.1653/024.097.0308
168972|T||Mayfield,A.E., B.C. Reynolds, C.I. Coots, N.P. Havill, C. Brownie, A.R. Tait, J.L. Hanula, S.V. Joseph, and A.B. Gallow|Establishment, Hybridization and Impact of Laricobius Predators on Insecticide-Treated Hemlocks: Exploring Integrated Management of the Hemlock Woolly Adelgid|For. Ecol. Manag.335:1-10|2015|10.1016/j.foreco.2014.09.021
168973|T||Schoning,R., and R. Schmuck|Analytical Determination of Imidacloprid and Relevant Metabolite Residues by LC MS/MS|Bull. Insectol.56(1): 41-50|2003|
168974|T||Stebbins,M.J., S. Urlinger, G. Byrne, B. Bello, W. Hillen, and J.C.P. Yin|Tetracycline-Inducible Systems for Drosophila|Proc. Natl. Acad. Sci. U.S.A.98(19): 10775-10780|2001|10.1073/pnas.121186498
168975|A||Nyman,A.M., K. Schirmer, and R. Ashauer|Importance of Toxicokinetics for Interspecies Variation in Sensitivity to Chemicals|Environ. Sci. Technol.48(10): 5946-5954|2014|10.1021/es5005126
168976|T||Pandey,S.P., and B. Mohanty|The Neonicotinoid Pesticide Imidacloprid and the Dithiocarbamate Fungicide Mancozeb Disrupt the Pituitary-Thyroid Axis of a Wildlife Bird|Chemosphere122(0): 227-234|2015|10.1016/j.chemosphere.2014.11.061
168977|A||Pavlaki,M.D., A.L.G. Ferreira, A.M.V.M. Soares, and S. Loureiro|Changes of Chemical Chronic Toxicity to Daphnia magna Under Different Food Regimes|Ecotoxicol. Environ. Saf.109(0): 48-55|2014|10.1016/j.ecoenv.2014.07.039
168978|T||Rodriguez,Y.A., C.A. Christofoletti, J. Pedro, O.C. Bueno, O. Malaspina, R.A.C. Ferreira, and C.S. Fontanetti|Allium cepa and Tradescantia pallida Bioassays to Evaluate Effects of the Insecticide Imidacloprid|Chemosphere120:438-442|2015|10.1016/j.chemosphere.2014.08.022
168979|T||Sabahi,Q., A. Rasekh, and J.P. Michaud|Toxicity of Three Insecticides to Lysiphlebus fabarum, a Parasitoid of the Black Bean Aphid, Aphis fabae|J. Insect Sci.11(104): 8 p.|2011|10.1673/031.011.10401
168980|T||Syvertsen,J.P., and J.M. Dunlop|Imidacloprid has Little Effect on Growth or Drought Tolerance of Citrus Rootstock Seedlings Without Pests|Annu. Meet. Fla. State Hortic. Soc.122:81-84|2009|
168981|T||VanWoerkom,A.H., S.G. Acimovic, G.W. Sundin, B.M. Cregg, D. Mota-Sanchez, C. Vandervoort, and J.C. Wise|Trunk Injection: An Alternative Technique for Pesticide Delivery in Apples|Crop Prot.65:173-185|2014|10.1016/j.cropro.2014.05.017
168982|T||Zhao,H., C. Xie, F. Liu, X. He, J. Zhang, and J. Song|Effects of Sprayers and Nozzles on Spray Drift and Terminal Residues of Imidacloprid on Wheat|Crop Prot.60:78-82|2014|10.1016/j.cropro.2014.02.009
168983|T||Varenhorst,A.J., and M.E. O'Neal|The Response of Natural Enemies to Selective Insecticides Applied to Soybean|Environ. Entomol.41(6): 1565-1574|2012|10.1603/EN12068
168984|T||Dittbrenner,N., Y. Capowiez, H.R. Kohler, and R. Triebskorn|Stress Protein Response (Hsp70) and Avoidance Behaviour in Eisenia fetida, Aporrectodea caliginosa and Lumbricus terrestris when Exposed to Imidacloprid|J. Soils Sediments12:198-206|2012|10.1007/s11368-011-0437-1
168986|T||Fernandez-Gomez,M.J., E. Romero, and R. Nogales|Impact of Imidacloprid Residues on the Development of Eisenia fetida During Vermicomposting of Greenhouse Plant Waste|J. Hazard. Mater.192(3): 1886-1889|2011|10.1016/j.jhazmat.2011.06.077
168987|T||Ford,K.A., J.E. Casida, D. Chandran, A.G. Gulevich, R.A. Okrent, K.A. Durkin, R. Sarpong, E.M. Bunnelle, and M.C. Wilde|Neonicotinoid Insecticides Induce Salicylate-Associated Plant Defense Responses|Proc. Natl. Acad. Sci. U.S.A.107(41): 17527-17532|2010|10.1073/pnas.1013020107
168988|A||Geissler,T., and L.A. Wessjohann|A Whole-Plant Microtiter Plate Assay for Drought Stress Tolerance-Inducing Effects|J. Plant Growth Regul.30(4): 504-511|2011|10.1007/s00344-011-9212-1
168989|T||Gonias,E.D., D.M. Oosterhuis, and A.C. Bibi|Physiologic Response of Cotton to the Insecticide Imidacloprid Under High-Temperature Stress|J. Plant Growth Regul.27:77-82|2008|10.1007/s00344-007-9033-4
168990|T||Grafton-Cardwell,E.E., J.E. Lee, S.M. Robillard, and J.M. Gorden|Role of Imidacloprid in Integrated Pest Management of California Citrus|J. Econ. Entomol.101(2): 451-460|2008|10.1093/jee/101.2.451
168991|T||Gradish,A.E., C.D. Scott-Dupree, L. Shipp, C.R. Harris, and G. Ferguson|Effect of Reduced Risk Pesticides for Use in Greenhouse Vegetable Production on Bombus impatiens (Hymenoptera: Apidae)|Pest Manag. Sci.66:142-146|2010|10.1002/ps.1846
168992|T||Dussaubat,C., A. Maisonnasse, C. Alaux, S. Tchamitchan, J.L. Brunet, E. Plettner, L.P. Belzunces, and Y. Le Conte|Nosema spp. Infection Alters Pheromone Production in Honey Bees (Apis mellifera)|J. Chem. Ecol.36:522-525|2010|10.1007/s10886-010-9786-2
168993|T||Alaux,C., J.L. Brunet, C. Dussaubat, F. Mondet, S. Tchamitchan, M. Cousin, J. Brillard, A. Baldy, L.P. Belzunces, and Y|Interactions Between Nosema Microspores and a Neonicotinoid Weaken Honeybees (Apis mellifera)|Environ. Microbiol.12(3): 774-782|2010|10.1111/j.1462-2920.2009.02123.x
168994|T||Gill,R.J., and N.E. Raine|Chronic Impairment of Bumblebee Natural Foraging Behaviour Induced by Sublethal Pesticide Exposure|Funct. Ecol.28:1459-1471|2014|10.1111/1365-2435.12292
168995|T||Gill,R.J., O. Ramos-Rodriguez, and N.E. Raine|Combined Pesticide Exposure Severely Affects Individual- and Colony-Level Traits in Bees|Nature491(7422): 105-108|2012|10.1038/nature11585
168996|A||Rico-Martinez,R., I.A. Perez-Legaspi, G.E. Quintero-Diaz, M.G. Rodriguez-Martinez, M.A. Hernandez-Rodriguez, and J.E. Z|Effects of Copper Addition to Laboratory Maintained Microcosms of Presidente Calles Reservoir Organisms (Aguascalientes, Mexico)|Aquat. Ecosyst. Health Manag.1(3/4): 323-332|1999|
168997|A||Mehta,S.K., and J.P. Gaur|Characterization and Optimization of Ni and Cu Sorption from Aqueous Solution by Chlorella vulgaris|Ecol. Eng.18(1): 1-13|2001|10.1016/S0925-8574(00)00174-9
168998|T||Han,P., C.Y. Niu, C.L. Lei, J.J. Cui, and N. Desneux|Quantification of Toxins in a Cry1Ac+CpTI Cotton Cultivar and Its Potential Effects on the Honey Bee Apis mellifera L.|Ecotoxicology19:1452-1459|2010|10.1007/s10646-010-0530-z
168999|A||Dayeh,V.R., S. Grominsky, S.J. DeWitte-Orr, D. Sotornik, C.R. Yeung, L.E.J. Lee, D.H. Lynn, and N.C. Bols|Comparing a Ciliate and a Fish Cell Line for Their Sensitivity to Several Classes of Toxicants by the Novel Application of Multiwell Filter Plates to Tetrahymena|Res. Microbiol.156(1): 93-103|2005|10.1016/j.resmic.2004.08.005
169000|T||Han,P., C.Y. Niu, A. Biondi, and N. Desneux|Does Transgenic Cry1Ac+CpTI Cotton Pollen Affect Hypopharyngeal Gland Development and Midgut Proteolytic Enzyme Activity in the Honey Bee Apis mellifera L. (Hymenoptera, Apidae)?|Ecotoxicology21:2214-2221|2012|10.1007/s10646-012-0976-2
169001|T||Han,P., C.Y. Niu, C.L. Lei, J.J. Cui, and N. Desneux|Use of an Innovative T-Tube Maze Assay and the Proboscis Extension Response Assay to Assess Sublethal Effects of GM Products and Pesticides on Learning Capacity of the Honey Bee Apis mellifera L|Ecotoxicology19:1612-1619|2010|10.1007/s10646-010-0546-4
169002|A||Yazdandoost,M.Y., and M. Katdare|Toxicity Effect of Some Selected Chemicals on Fish Tilapia mossambicus|Pollut. Res.18(4): 539-540|1999|
169003|T||Derecka,K., M.J. Blythe, S. Malla, D.P. Genereux, A. Guffanti, P. Pavan, A. Moles, C. Snart, T. Ryder, C.A. Ortori, D.A|Transient Exposure to Low Levels of Insecticide Affects Metabolic Networks of Honeybee Larvae|PLoS One8(7): 11 p.|2013|10.1371/journal.pone.0068191
169005|T||Schneider,C.W., J. Tautz, B. Grunewald, and S. Fuchs|RFID Tracking of Sublethal Effects of Two Neonicotinoid Insecticides on the Foraging Behavior of Apis mellifera|PLoS One7(1): 9 p.|2012|10.1371/journal.pone.0030023
169006|T||Prabhaker,N., S.J. Castle, S.E. Naranjo, N.C. Toscano, and J.G. Morse|Compatibility of Two Systemic Neonicotinoids, Imidacloprid and Thiamethoxam, with Various Natural Enemies of Agricultural Pests|J. Econ. Entomol.104(3): 773-781|2011|10.1603/EC10362
169007|T||Boelle,J., R. Schneider, P. Gerardin, and B. Loubinoux|Synthesis and Insecticidal Evaluation of N-Substituted 2-Nitroiminoimidazolidines|Pestic. Sci.54(3): 307-309|1998|10.1002/(SICI)1096-9063(1998110)54:3<307::AID-PS833>3.0.CO;2-T
169008|T||Lo Verde,G., R. Rizzo, G. Barraco, and A. Lombardo|Effects of Kaolin on Ophelimus maskelli (Hymenoptera: Eulophidae) in Laboratory and Nursery Experiments|J. Econ. Entomol.104(1): 180-187|2011|10.1603/EC10164
169009|T||Laycock,I., and J.E. Cresswell|Repression and Recuperation of Brood Production in Bombus terrestris Bumble Bees Exposed to a Pulse of the Neonicotinoid Pesticide Imidacloprid|PLoS One8(11): 8 p.|2013|10.1371/journal.pone.0079872
169010|T||Liu,F., S.W. Bao, Y. Song, H.Y. Lu, and J.X. Xu|Effects of Imidacloprid on the Orientation Behavior and Parasitizing Capacity of Anagrus nilaparvatae, an Egg Parasitoid of Nilaparvata lugens|Biocontrol55:473-483|2010|10.1007/s10526-010-9276-z
169011|T||Hoseini,S.A., and A.A. Pourmirza|Short Communication. Evaluation of the Efficiency of Imidacloprid and Encarsia inaron Walker (Hymenoptera: Aphelinidae) Integration to Control the Whitefly, Trialeurodes vaporariorum Westwood (Homoptera: Aleyrodidae), U|Spanish J. Agric. Res.9(3): 906-911|2011|10.5424/sjar/20110903-424-10
169012|T||Thompson,H.M., S.L. Fryday, S. Harkin, and S. Milner|Potential Impacts of Synergism in Honeybees (Apis mellifera) of Exposure to Neonicotinoids and Sprayed Fungicides in Crops|Apidologie45:545-553|2014|10.1007/s13592-014-0273-6
169013|T||Babu,K.S., B. Singh, B.M. Mhaske, and A.K. Sharma|Clothianidin, a New Neonicotinoid Insecticide for the Management of Foliar Aphid Complex of Wheat in India and Its Safety to Coccinellid Predators|Cereal Res. Commun.40(2): 296-303|2012|10.1556/CRC.40.2012.2.14
169014|T||Navarro,P.D., J.G. McMullen II, and S.P. Stock|Effect of Dinotefuran, Indoxacarb, and Imidacloprid on Survival and Fitness of Two Arizona-Native Entomopathogenic Nematodes Against Helicoverpa zea (Lepidoptera: Noctuidae)|Nematropica44:64-73|2014|
169015|T||Turner,D.E.|Reduced Dose Rate Insecticide Use in Cereals:  Effects on Insect Pests and Predators|Ph.D. Thesis, University of Southampton, United Kingdom:175 p.|1995|
169016|T||Fenoll,J., P. Hellin, M.D. Camacho, J. Lopez, A. Gonzalez, A. Lacasa, and P. Flores|Dissipation Rates of Procymidone and Azoxystrobin in Greenhouse Grown Lettuce and Under Cold Storage Conditions|Int. J. Environ. Anal. Chem.88(10): 737-746|2008|10.1080/03067310801975118
169017|T||Kwon,M.S., B.C. Koo, J.Y. Roh, M. Kim, J.H. Kim, and T. Kim|Production of Transgenic Chickens Expressing a Tetracycline-Inducible GFP Gene|Biochem. Biophys. Res. Commun.410:890-894|2011|10.1016/j.bbrc.2011.06.088
169018|T||Gu,Y.H., Y. Li, X.F. Huang, J.F. Zheng, J. Yang, H. Diao, Y. Yuan, Y. Xu, M. Liu, H.J. Shi, and W.P. Xu|Reproductive Effects of Two Neonicotinoid Insecticides on Mouse Sperm Function and Early Embryonic Development In Vitro|PLoS One8(7): 7 p.|2013|
169019|T||He,X., A.J. Wubie, Q. Diao, W. Li, F. Xue, Z. Guo, T. Zhou, and S. Xu|Biodegradation of Neonicotinoid Insecticide, Imidacloprid by Restriction Enzyme Mediated Integration (REMI) Generated Trichoderma Mutants|Chemosphere112(0): 526-530|2014|10.1016/j.chemosphere.2014.01.023
169020|T||Hoffmann,E.J., and S.J. Castle|Imidacloprid in Melon Guttation Fluid: A Potential Mode of Exposure for Pest and Beneficial Organisms|J. Econ. Entomol.105(1): 67-71|2012|10.1603/EC11251
169021|T||Juraske,R., F. Castells, A. Vijay, P. Munoz, and A. Anton|Uptake and Persistence of Pesticides in Plants: Measurements and Model Estimates for Imidacloprid After Foliar and Soil Application|J. Hazard. Mater.165(1-3): 683-689|2009|10.1016/j.jhazmat.2008.10.043
169022|T||Kapoor,U., M.K. Srivastava, S. Bhardwaj, and L.P. Srivastava|Effect of Imidacloprid on Antioxidant Enzymes and Lipid Peroxidation in Female Rats to Derive Its No Observed Effect Level (NOEL)|J. Toxicol. Sci.35(4): 577-581|2010|10.2131/jts.35.577
169023|T||Larson,J.L., C.T. Redmond, and D.A. Potter|Mowing Mitigates Bioactivity of Neonicotinoid Insecticides in Nectar of Flowering Lawn Weeds and Turfgrass Guttation|Environ. Toxicol. Chem.34(1): 127-132|2015|10.1002/etc.2768
169024|T||Laznik,Z., and S. Trdan|The Influence of Insecticides on the Viability of Entomopathogenic Nematodes (Rhabditida: Steinernematidae and Heterorhabditidae) Under Laboratory Conditions|Pest Manag. Sci.70:784-789|2014|10.1002/ps.3614
169025|T||Epperlein,K., and H.W. Schmidt|Effects of Pelleting Sugar-Beet Seed with Gaucho (Imidacloprid) on Associated Fauna in the Agricultural Ecosystem|Pflanzenschutz-Nachr. Bayer (English Ed.)54:369-398|2001|
169026|T||Rudolph,R.D., and W.D. Rogers|The Efficacy of Imidacloprid Treatment for Reduction in the Severity of Insect Vectored Virus Diseases of Tobacco|Pflanzenschutz-Nachr. Bayer (English Ed.)54:311-336|2001|
169029|T||Shang,J., R. Sun, Y. Li, R. Huang, F. Bi, and Q. Wang|Synthesis and Insecticidal Evaluation of N-tert-Butyl-N'-thio[1-(6-Chloro-3-Pyridylmethyl)-2-Nitroiminoimidazolidine]-N,N'-Diacylhydrazines|J. Agric. Food Chem.58(3): 1834-1837|2010|10.1021/jf903642s
169030|A||Lauan,M.C.B., and P.P. Ocampo|Low-Dose Effects of Carbaryl, Chlorpyrifos and Imidacloprid Insecticides on the Gonad and Plasma Testosterone Level of Male Juvenile and Adult Nile Tilapia (Oreochromis niloticus Linnaeus)|Asia Life Sci.22(1): 239-250|2013|
169031|A||Agatz,A., T.A. Cole, T.G. Preuss, E. Zimmer, and C.D. Brown|Feeding Inhibition Explains Effects of Imidacloprid on the Growth, Maturation, Reproduction, and Survival of Daphnia magna|Environ. Sci. Technol.47(6): 2909-2917|2013|10.1021/es304784t
169032|T||Moise,A., L.A. Marghitas, D. Dezmirean, and M. Man|Research Concerning the Effect of Imidacloprid on Honey Bees (Apis mellifera carpatica)|Bull. Univ. Agric. Sci. Vet. Med.59:184-187|2003|
169033|T||Alves,P.R.L., E.J.B.N. Cardoso, A.M. Martines, J.P. Sousa, and A. Pasini|Earthworm Ecotoxicological Assessments of Pesticides Used to Treat Seeds Under Tropical Conditions|Chemosphere90(11): 2674-2682|2013|10.1016/j.chemosphere.2012.11.046
169034|T||Badgujar,P.C., S.K. Jain, A. Singh, J.S. Punia, R.P. Gupta, and G.A. Chandratre|Immunotoxic Effects of Imidacloprid Following 28 Days of Oral Exposure in BALB/c Mice|Environ. Toxicol. Pharmacol.35(3): 408-418|2013|10.1016/j.etap.2013.01.012
169035|T||Bal,R., M. Naziroglu, G. Turk, O. Yilmaz, T. Kuloglu, E. Etem, and G. Baydas|Insecticide Imidacloprid Induces Morphological and DNA Damage Through Oxidative Toxicity on the Reproductive Organs of Developing Male Rats|Cell Biochem. Funct.30:492-499|2012|10.1002/cbf.2826
169036|T||Fernandez-Gomez,M.J., R. Nogales, H. Insam, E. Romero, and M. Goberna|Role of Vermicompost Chemical Composition, Microbial Functional Diversity, and Fungal Community Structure in Their Microbial Respiratory Response to Three Pesticides|Bioresour. Technol.102:9638-9645|2011|10.1016/j.biortech.2011.07.113
169037|T||Sarao,P.S., and M.S. Mahal|Diversity of Natural Enemy Under Different Insecticide Regimes in Irrigated Rice Production System of Punjab, India|Cereal Res. Commun.40(2): 256-266|2012|10.1556/CRC.40.2012.2.10
169038|A||Chen,M.Y., M. Ike, and M. Fujita|Acute Toxicity, Mutagenicity, and Estrogenicity of Bisphenol-A and Other Bisphenols|Environ. Toxicol.17(1): 80-86|2002|10.1002/tox.10035
169039|T||Austin,C.M., D.J. Kok, D. Crafford, and R. Schaper|The Efficacy of a Topically Applied Imidacloprid 10%/Moxidectin 2.5% Formulation (Advocate, Advantage Multi, Bayer) Against Immature and Adult Spirocerca lupi Worms in Experimentally Infected Dogs|Parasitol. Res.112:91-108|2013|10.1007/s00436-013-3284-8
169040|T||Reetz,J.E., S. Zuhlke, M. Spiteller, and K. Wallner|Neonicotinoid Insecticides Translocated in Guttated Droplets of Seed-Treated Maize and Wheat: A Threat to Honeybees?|Apidologie42:596-606|2011|10.1007/s13592-011-0049-1
169041|T||Watson,A.M., M.C. Hare, P.S. Kettlewell, J.M. Brosnan, and R.C. Agu|Relationships Between Disease Control, Green Leaf Duration, Grain Quality and the Production of Alcohol from Winter Wheat|J. Sci. Food Agric.90:2602-2607|2010|10.1002/jsfa.4128
169042|T||Nason,M.A., J. Farrar, and D. Bartlett|Strobilurin Fungicides Induce Changes in Photosynthetic Gas Exchange that do not Improve Water Use Efficiency of Plants Grown Under Conditions of Water Stress|Pest Manag. Sci.63:1191-1200|2007|10.1002/ps.1443
169043|T||Fischer,M.S., and R.J. Rodriguez|Fungal Endophytes of Invasive Phagramites australis Populations Vary in Species Composition and Fungicide Susceptibility|Symbiosis61(2): 55-62|2013|10.1007/s13199-013-0261-z
169044|T||Aoki,Y., Y. Hada, and S. Suzuki|Development of a Multiplex Allele-Specific Primer PCR Assay for Simultaneous Detection of QoI and CAA Fungicide Resistance Alleles in Plasmopara viticola Populations|Pest Manag. Sci.69:268-273|2013|10.1002/ps.3384
169045|T||Tort,N., I. Ozturk, and A. Guvensen|Effects of Some Fungicides on Pollen Morphology and Anatomy of Tomato (Lycopersicon esculentum Mill.)|Pak. J. Bot.37(1): 23-30|2005|
169046|A||Dobsikova,R., J. Blahova, I. Mikulikova, H. Modra, E. Praskova, Z. Svobodova, M. Skoric, J. Jarkovsky, and A.K. Siwicki|The Effect of Oyster Mushroom beta-1.3/1.6-D-Glucan and Oxytetracycline Antibiotic on Biometrical, Haematological, Biochemical, and Immunological Indices, and Histopathological Changes in Common Carp (Cyprinus carpio L.|Fish Shellfish Immunol.35(6): 1813-1823|2013|10.1016/j.fsi.2013.09.006
169047|T||Mayer,D.F., and J.D. Lunden|Effects of Imidacloprid Insecticide on Three Bee Pollinators|Hortic. Sci.29:93-97|1997|
169048|T||Alsayeda,H., S. Pascal-Lorber, C. Nallanthigal, L. Debrauwer, and F. Laurent|Transfer of the Insecticide (14C) Imidacloprid from Soil to Tomato Plants|Environ. Chem. Lett.6:229-234|2008|10.1007/s10311-007-0121-2
169049|T||Arfat,Y., N. Mahmood, M.U. Tahir, M. Rashid, S. Anjum, F. Zhao, D.J. Li, Y.L. Sun, L. Hu, C. Zhihao, C. Yin, P. Shang, |Effect of Imidacloprid on Hepatotoxicity and Nephrotoxicity in Male Albino Mice|Toxicol. Rep.1(0): 554-561|2014|10.1016/j.toxrep.2014.08.004
169050|T||Argolo,P.S., N. Banyuls, S. Santiago, O. Molla, J.A. Jacas, and A. Urbaneja|Compatibility of Phytoseiulus persimilis and Neoseiulus californicus (Acari: Phytoseiidae) with Imidacloprid to Manage Clementine Nursery Pests|Crop Prot.43:175-182|2013|10.1016/j.cropro.2012.09.018
169051|T||Bhardwaj,S., M.K. Srivastava, U. Kapoor, and L.P. Srivastava|A 90 Days Oral Toxicity of Imidacloprid in Female Rats: Morphological, Biochemical and Histopathological Evaluations|Food Chem. Toxicol.48:1185-1190|2010|10.1016/j.fct.2010.02.009
169053|T||Kapoor,U., M.K. Srivastava, and L.P. Srivastava|Toxicological Impact of Technical Imidacloprid on Ovarian Morphology, Hormones and Antioxidant Enzymes in Female Rats|Food Chem. Toxicol.49:3086-3089|2011|10.1016/j.fct.2011.09.009
169054|T||Karthik,P., S. Venugopal, K.D. Murthy, S. Lokesh, G. Karthik, U. Sharmila, M. Paramasivam, K. Senguttuvan, K. Gunasekar|Bioefficacy, Phytotoxicity, Safety to Natural Enemies and Residue Dynamics of Imidacloprid 70 WG in Okra (Abelmoschus esculenta (L) Moench) Under Open Field Conditions|Crop Prot.71(0): 88-94|2015|10.1016/j.cropro.2015.01.025
169055|T||Knoepp,J.D., J.M. Vose, J.L. Michael, and B.C. Reynolds|Imidacloprid Movement in Soils and Impacts on Soil Microarthropods in Southern Appalachian Eastern Hemlock Stands|J. Environ. Qual.41:469-478|2012|10.2134/jeq2011.0306
169056|T||Nix,K., P. Lambdin, J. Grant, C. Coots, and P. Merten|Concentration Levels of Imidacloprid and Dinotefuran in Five Tissue Types of Black Walnut, Juglans nigra|Forests4:887-897|2013|10.3390/f4040887
169057|T||Preetha,G., and J. Stanley|Influence of Neonicotinoid Insecticides on the Plant Growth Attributes of Cotton and Okra|J. Plant Nutr.35:1234-1245|2012|10.1080/01904167.2012.676134
169058|T||Soujanya,S., M. Lakshman, A.A. Kumar, and A.G. Reddy|Evaluation of the Protective Role of Vitamin C in Imidacloprid-Induced Hepatotoxicity in Male Albino Rats|J. Nat. Sci. Biol. Med.4(1): 63-67|2013|10.4103/0976-9668.107262
169059|T||Amirzade,N., H. Izadi, M.A. Jalali, and H. Zohdi|Evaluation of Three Neonicotinoid Insecticides Against the Common Pistachio Psylla, Agonoscena pistaciae, and Its Natural Enemies|J. Insect Sci.14(35): 8 p.|2014|10.1673/031.014.35
169060|T||Daglish,G.J., and M.K. Nayak|Potential of the Neonicotinoid Imidacloprid and the Oxadiazine Indoxacarb for Controlling Five Coleopteran Pests of Stored Grain|Insect Sci.19:96-101|2012|10.1111/j.1744-7917.2011.01430.x
169061|T||Ford,K.A., and J.E. Casida|Comparative Metabolism and Pharmacokinetics of Seven Neonicotinoid Insecticides in Spinach|J. Agric. Food Chem.56(21): 10168-10175|2008|10.1021/jf8020909
169062|T||Robinson,D.E., and R. Nurse|Effect of Herbicide-Fungicide Tank-Mix Combinations on Weed Control and Tomato Tolerance|Acta Hortic.823:129-134|2009|10.17660/ActaHortic.2009.823.15
169063|T||Fairbanks,M.M., G.E.S. Hardy, and J.A. McComb|Effect of the Fungicide Phosphite on Pollen Fertility of Perennial Species of the Eucalyptus marginata Forest and Northern Sandplains of Western Australia|Aust.J.Bot.50:769-779|2002|10.1071/BT01094
169065|T||Scott-Dupree,C.D., M. Spivak, G. Bruns, C. Blenkinsop, and S. Nelson|The Impact of Gaucho and TI-435 Seed Treated Canola on Honey Bees, Apis mellifera L.|Bayer Corporation Report No.110403:28 p.|2001|
169066|T||Dosdall,L.M.|Responses of the Cabbage Seedpod Weevil, Ceutorhynchus obstrictus (Marsham) (Coleoptera: Curculionidae), to Seed Treatments of Canola (Brassica napus L.) with the Neonicotinoid Compounds Clothianidin and Imidacloprid|Pest Manag. Sci.65:1329-1336|2009|10.1002/ps.1818
169067|T||Morandin,L.A., M.L. Winston, M.T. Franklin, and V.A. Abbott|Lethal and Sub-Lethal Effects of Spinosad on Bumble Bees (Bombus impatiens Cresson)|Pest Manag. Sci.61(7): 619-626|2005|10.1002/ps.1058
169068|T||Wang,H., Z. Yang, R. Liu, Q. Fu, S. Zhang, Z. Cai, J. Li, X. Zhao, Q. Ye, W. Wang, and Z. Li|Stereoselective Uptake and Distribution of the Chiral Neonicotinoid Insecticide, Paichongding, in Chinese Pak Choi (Brassica campestris ssp. chinenesis)|J. Hazard. Mater.262:862-869|2013|10.1016/j.jhazmat.2013.09.054
169069|T||Lorenzana,A., A. Hermoso-De-Mendoza, M.V. Seco, and P.A. Casquero|Population Dynamics and Integrated Control of the Damson-Hop Aphid Phorodon humuli (Schrank) on Hops in Spain|Spanish J. Agric. Res.11(2): 505-517|2013|10.5424/sjar/2013112-2968
169070|T||Van Herk,W.G., R.S. Vernon, C. Moffat, and C. Harding|Response of the Pacific Coast Wireworm, Limonius canus, and the Dusky Wireworm, Agriotes obscurus (Coleoptera: Elateridae), to Insecticide-Treated Wheat Seeds in a Soil Bioassay|Phytoprotection (Multiple Languages)89:7-19|2008|10.7202/000378ar
169071|T||Van Timmeren,S., J.C. Wise, and R. Isaacs|Soil Application of Neonicotinoid Insecticides for Control of Insect Pests in Wine Grape Vineyards|Pest Manag. Sci.68:537-542|2012|10.1002/ps.2285
169072|T||Wakil,W., and T. Schmitt|Field Trials on the Efficacy of Beauveria bassiana, Diatomaceous Earth and Imidacloprid for the Protection of Wheat Grains from Four Major Stored Grain Insect Pests|J. Stored Prod. Res.PRESS:8 p.|2014|
169073|T||Aliakbarpour,H., M.R.C. Salmah, and O. Dzolkhifli|Efficacy of Neem Oil Against Thrips (Thysanoptera) on Mango Panicles and Its Compatibility with Mango Pollinators|J. Pest Sci.84:503-512|2011|10.1007/s10340-011-0372-3
169074|A||Bringmann,G., and R. Kuhn|Threshold Values for the Damaging Effect of Water Pollutants on Bacteria (Pseudomonas putida) and Green Algae (Scenedesmus quadricauda) in the Multiplication Test|TR-78-0043, Literature Research Company, Annandale, VA:12 p.|1977|
169075|T||Cook,S.P., B.D. Sloniker, and M.L. Rust|Using Systemically Applied Insecticides for Management of Ponderosa Pine Cone Beetle and Dioryctria Coneworms in Seed Orchards|West. J. Appl. For.28(2): 66-70|2013|10.5849/wjaf.12-020
169076|T||Eisenback,B.M., S.M. Salom, L.T. Kok, and A.F. Lagalante|Lethal and Sublethal Effects of Imidacloprid on Hemlock Woolly Adelgid (Hemiptera: Adelgidae) and Two Introduced Predator Species|J. Econ. Entomol.103(4): 1222-1234|2010|10.1603/EC09270
169078|T||Haviland,D.R., and N.M. Hernandez|Development of Management Programs for White Grubs in California Blueberries|Int. J. Fruit Sci.12:114-123|2012|10.1080/15538362.2011.619355
169079|T||King,J.S., A.M. Kelley, and R. Rees|Systemic Control of Nantucket Pine Tip Moth (Rhyacionia frustrana Scudder in Comstock, 1880) Enhances Seedling Vigor, Plantation Establishment, and Early Stand-Level Productivity in Pinus taeda L.|For. Sci.60(1): 97-108|2014|10.5849/forsci.12-081
169080|T||Kumar,R., S. Kranthi, M. Nitharwal, S.L. Jat, and D. Monga|Influence of Pesticides and Application Methods on Pest and Predatory Arthropods Associated with Cotton|Phytoparasitica40:417-424|2012|10.1007/s12600-012-0241-5
169081|T||Morales-Rodriguez,A., and D.C. Peck|Synergies Between Biological and Neonicotinoid Insecticides for the Curative Control of the White Grubs Amphimallon majale and Popillia japonica|Biol. Control51:169-180|2009|10.1016/j.biocontrol.2009.06.008
169082|T||Vernon,R.S., W.G. Van Herk, M. Clodius, and C. Harding|Wireworm Management I: Stand Protection Versus Wireworm Mortality with Wheat Seed Treatments|J. Econ. Entomol.102(6): 2126-2136|2009|10.1603/029.102.0616
169083|T||Weston,P.A.|Plant Defense Elicitors Fail to Protect Viburnum dentatum from Herbivory by Viburnum Leaf Beetle (Coleoptera: Chrysomelidae)|J. Econ. Entomol.101(4): 1466-1470|2008|10.1603/0022-0493(2008)101[1466:PDEFTP]2.0.CO;2
169084|T||Smaili,M.C., L. El Ghadraoui, F. Gaboun, R. Benkirane, and A. Blenzar|Impact of Some Alternative Methods to Chemical Control in Controlling Aphids (Hemiptera: Sternorrhyncha) and Their Side Effects on Natural Enemies on Young Moroccan Citrus Groves|Phytoparasitica42:421-436|2014|
169085|T||Al-Mazra'awi,M.S., and M. Ateyyat|Insecticidal and Repellent Activities of Medicinal Plant Extracts Against the Sweet Potato Whitefly, Bemisia tabaci (Hom.: Aleyrodidae) and Its Parasitoid Eretmocerus mundus (Hym.: Aphelinidae)|J. Pest Sci.82:149-154|2009|10.1007/s10340-008-0233-x
169086|T||Cocco,A., and M.A. Hoy|Toxicity of Organosilicone Adjuvants and Selected Pesticides to the Asian Citrus Psyllid (Hemiptera: Psyllidae) and Its Parasitoid Tamarixia radiata (Hymenoptera: Eulophidae)|Fla. Entomol.91(4): 610-620|2008|
169087|T||Tobback,J., V. Mommaerts, H.P. Vandersmissen, G. Smagghe, and R. Huybrechts|Age- and Task-Dependent Foraging Gene Expression in the Bumblebee Bombus terrestris|Arch. Insect Biochem. Physiol.76(1): 30-42|2011|10.1002/arch.20401
169088|T||Sabahi,Q., A. Rasekh, A.H. Sangaki, and A.S. Garjan|The Persistence Toxicity of Three Insecticides Against Adult of a Thelytokous Parasitoid, Lysiphlebus fabarum (Hymenoptera: Aphidiidae)|Commun. Agric. Appl. Biol. Sci.74(1): 159-164|2009|
169089|T||Hatjina,F., C. Papaefthimiou, L. Charistos, T. Dogaroglu, M. Bouga, C. Emmanouil, and G. Arnold|Sublethal Doses of Imidacloprid Decreased Size of Hypopharyngeal Glands and Respiratory Rhythm of Honeybees In Vivo|Apidologie44:467-480|2013|10.1007/s13592-013-0199-4
169090|T||Cresswell,J.E., C.J. Page, M.B. Uygun, M. Holmbergh, Y. Li, J.G. Wheeler, I. Laycock, C.J. Pook, N.H. De Ibarra, N. Smi|Differential Sensitivity of Honey Bees and Bumble Bees to a Dietary Insecticide (Imidacloprid)|Zoology115:365-371|2012|10.1016/j.zool.2012.05.003
169091|T||Belien,T., J. Kellers, K. Heylen, W. Keulemans, J. Billen, L. Arckens, R. Huybrechts, and B. Gobin|Effects of Sublethal Doses of Crop Protection Agents on Honey Bee (Apis mellifera) Global Colony Vitality and Its Potential Link with Aberrant Foraging Activity|Commun. Agric. Appl. Biol. Sci.74(1): 245-253|2009|
169092|T||Kant,K., Y.K. Sharma, B.K. Mishra, M.K. Vishal, and S.R. Meena|Management of Chalcid Wasp (Systole albipennis) (Eurytomidae: Hymenoptera) in Coriander: A Pest of Field and Quarantine Significance|Indian J. Agric. Sci.83(10): 1043-1045|2013|
169093|T||Jiang,Y.M., H. Zhang, and L. Yin|Effect of CIPC and Intervention of Ca2+ Regulated Factors on CaN, cbl-b and p-AKT Expression in Neurons|Brain Res.1389:1-8|2011|10.1016/j.brainres.2011.02.085
169094|T||Turley,R.H., and R.M. Adamson|Response of Legumes to TCA, IPC, CIPC, Preemerge and Dalapon|Res. Rep. West. Sect. Natl. Weed Comm.:80-81|1954|
169095|T||Ransom,J.K., and M.V. McMullen|Yield and Disease Control on Hard Winter Wheat Cultivars with Foliar Fungicides|Agron. J.100(4): 1130-1137|2008|10.2134/agronj2007.0397
169096|T||Butkute,B., G. Sidlauskas, and I. Brazauskiene|Seed Yield and Quality of Winter Oilseed Rape as Affected by Nitrogen Rates, Sowing Time, and Fungicide Application|Commun. Soil Sci. Plant Anal.37(15-20): 2725-2744|2006|10.1080/00103620600830211
169097|T||Lakshmanan,P.S., T. Eeckhaut, J. Van Huylenbroeck, and E. Van Bockstaele|Micronucleation by Mitosis Inhibitors in Developing Microspores of Spathiphyllum wallisii Regel|Plant Cell Rep.32:369-377|2013|10.1007/s00299-012-1370-5
169098|A||Shell Oil Co.|The Acute Toxicity of 3,4-Dichloroaniline to Rainbow Trout (Salmo gairdneri)|EPA/OTS Doc.#878210116:6 p.|1982|
169099|A||Shell Oil Co.|The Toxicity of 3,4-Dichloroaniline to Rainbow Trout (Salmo gairdneri) 28 Days Exposure|Shell Oil Company, Washington, DC:14 p.|1982|
169100|T||Ware,G.W., and W.J. Brakel|Excretion of 3-Cl-Aniline and Isopropyl-N-(3-Chlorophenyl)Carbamate (CIPC) in the Milk and Urine of Dairy Cows Fed CIPC|J. Dairy Sci.46:120-123|1963|10.3168/jds.S0022-0302(63)88984-5
169101|A||Martyniuk,C.J., S. Alvarez, B.P. Lo, J.R. Elphick, and V.L. Marlatt|Hepatic Protein Expression Networks Associated with Masculinization in the Female Fathead Minnow (Pimephales promelas)|J. Proteome Res.11:4147-4161|2012|10.1021/pr3002468
169102|T||Pascal-Lorber,S., E. Rathahao, J.P. Cravedi, and F. Laurent|Metabolic Fate of [14C]-2,4-Dichlorophenol in Macrophytes|Chemosphere56(3): 275-284|2004|10.1016/j.chemosphere.2004.02.017
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169105|T||Wiese,J.L., E.N. Keren, and F.D. Menalled|Tolerance of Native Wildflower Species to Postemergence Herbicides|Native Plants J.12:31-36|2011|10.3368/npj.12.1.31
169107|T||Vaughan,M.A., and K.A. Vaughn|DCPA Causes Cell Plate Disruption in Wheat Roots|Ann. Bot.65(4): 379-388|1990|10.1093/oxfordjournals.aob.a087948
169108|T||Hirase,K., and S. Matsunaka|Physiological Role of the Propanil Hydrolyzing Enzyme (Aryl Acylamidase I) in Rice Plants|Pestic. Biochem. Physiol.41(1): 82-88|1991|10.1016/0048-3575(91)90062-Q
169109|T||Kumar,V., and P. Jha|Influence of Herbicides Applied Postharvest in Wheat Stubble on Control, Fecundity, and Progeny Fitness of Kochia scoparia in the US Great Plains|Crop Prot.71(0): 144-149|2015|10.1016/j.cropro.2015.02.016
169110|T||Rodriguez-Salamanca,L.M., J.M. Foster, and M.K. Hausbeck|Greenhouse and Field Herbicide Evaluation on Asparagus Plants|Acta Hortic.:101-107|2012|10.17660/ActaHortic.2012.950.10
169111|A||Bichara,D., N.B. Calcaterra, S. Arranz, P. Armas, and S.H. Simonetta|Set-up of an Infrared Fast Behavioral Assay Using Zebrafish (Danio rerio) Larvae, and Its Application in Compound Biotoxicity Screening|J. Appl. Toxicol.34:214-219|2014|10.1002/jat.2856
169112|T||Castro-Ferreira,M.P., D. Roelofs, C.A.M. Van Gestel, R.A. Verweij, A.M.V.M. Soares, and M.J.B. Amorim|Enchytraeus crypticus as Model Species in Soil Ecotoxicology|Chemosphere87(11): 1222-1227|2012|10.1016/j.chemosphere.2012.01.021
169113|T||Cocaign,A., L.C. Bui, P. Silar, L.C. Ho Tong, F. Busi, A. Lamouri, C. Mougin, F. Rodrigues-Lima, J.M. Dupret, and J. Da|Biotransformation of Trichoderma spp. and Their Tolerance to Aromatic Amines, a Major Class of Pollutants|Antimicrob. Agents Chemother.79(15): 4719-4726|2013|
169114|A||Crago,J., and R. Klaper|A Mixture of an Environmentally Realistic Concentration of a Phthalate and Herbicide Reduces Testosterone in Male Fathead Minnow (Pimephales promelas) Through a Novel Mechanism of Action|Aquat. Toxicol.110/111:74-83|2012|10.1016/j.aquatox.2011.12.021
169115|A||Diepens,N.J., G.H.P. Arts, A. Focks, and A.A. Koelmans|Uptake, Translocation, and Elimination in Sediment-Rooted Macrophytes: A Model-Supported Analysis of Whole Sediment Test Data|Environ. Sci. Technol.48:12344-12353|2014|10.1021/es503121x
169116|A||Dom,N., D. Knapen, D. Benoot, I. Nobels, and R. Blust|Aquatic Multi-Species Acute Toxicity of (Chlorinated) Anilines:  Experimental Versus Predicted Data|Chemosphere81(2): 177-186|2010|10.1016/j.chemosphere.2010.06.059
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169118|A||Gatidou,G., A.S. Stasinakis, and E.I. Iatrou|Assessing Single and Joint Toxicity of Three Phenylurea Herbicides Using Lemna minor and Vibrio fischeri Bioassays|Chemosphere119:S69-S74|2015|10.1016/j.chemosphere.2014.04.030
169119|A||Ge,H., Z. Lin, Z. Yao, Y. Gao, Y. Cong, and H. Yu|Balance Between Herbicidal Activity and Toxicity Effect: A Case Study of the Joint Effects of Triazine and Phenylurea Herbicides on Selenastrum capricornutum  and Photobacterium phosphoreum|Aquat. Toxicol.150:165-174|2014|10.1016/j.aquatox.2014.03.007
169120|A||Henn,K., and T. Braunbeck|Dechorionation as a Tool to Improve the Fish Embryo Toxicity Test (FET) with the Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(1): 91-98|2011|10.1016/j.cbpc.2010.09.003
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169123|T||Moon,H.J., T.S. Kang, T.S. Kim, I.H. Kang, S.H. Kim, and S.Y. Han|OECD Validation of Phase-3 Hershberger Assay Using the Stimulated Weanling Male Rat in Korea|J. Appl. Toxicol.30:361-368|2010|10.1002/jat.1506
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169125|T||Rodriguez-Hernandez,D., A. Oliveros-Bastidas, M.E. Alonso-Amelot, and M.P. Calcagno-Pissarelli|Diterpene Foliar Exudates of Blakiella bartsiifolia and Phytotoxicity of Clerodanes|Nat. Prod. Commun.9(10): 1407-1412|2014|10.1177/1934578X1400901003
169126|T||National Toxicology Program|Toxicology and Carcinogenesis Studies of 3,3',4,4'-Tetrachloroazobenzene (TCAB) (CAS No. 14047-09-7) in Harlan Sprague-Dawley Rats and B6C3F1 Mice (Gavage Studies)|Natl. Toxicol. Program Tech. Rep. Ser.558:206 p.|2010|
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169128|T||Chandler,K.J., and G.R. Tucker|SuSCon Maxi and Control of Childers, Negatoria and Southern One-Year Canegrubs in Sugarcane|Int. Sugar J.114:504-511|2012|
169129|T||Hoseini,S.A., A.A. Pourmirza, A. Ebadollahi, and M.G. Jahromi|Impacts of Two Conventional Insecticides on Different Stages of Encarsia inaron Walker Parasitizing the Whitefly, Trialeurodes vaporariorum Westwood Under Greenhouse Condition|Arch. Phytopathol. Plant Prot.45(3): 268-275|2012|10.1080/03235408.2011.559043
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169218|A||Chen,D.S., and K.M. Chan|PCR-Cloning of Tilapia ATP7a cDNA and Its mRNA Levels in Tissues of Tilapia Following Copper Administrations|Aquat. Toxicol.105(3/4): 717-727|2011|10.1016/j.aquatox.2011.09.011
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169220|A||Nakayama,S.M.M., Y. Ikenaka, K. Muzandu, K. Choongo, J. Yabe, T. Muroya, S. Ijiri, M. Minagawa, T. Umemura, and M. Ishi|Geographic Information System-Based Source Estimation of Copper Pollution in Lake Itezhi-Tezhi and Metal-Accumulation Profiles in Oreochromis spp. from Both Field and Laboratory Studies|Arch. Environ. Contam. Toxicol.64(1): 119-129|2013|10.1007/s00244-012-9802-3
169221|A||Lyu,K., X. Zhu, Q. Wang, Y. Chen, and Z. Yang|Copper/Zinc Superoxide Dismutase from the Cladoceran Daphnia magna: Molecular Cloning and Expression in Response to Different Acute Environmental Stressors|Environ. Sci. Technol.47(15): 8887-8893|2013|
169222|A||Lopes,T.M., I.F. Barcarolli, C.B. De Oliveira, M.M. De Souza, and A. Bianchini|Mechanisms of Copper Accumulation in Isolated Mantle Cells of the Marine Clam Mesodesma mactroides|Environ. Toxicol. Chem.30(7): 1586-1592|2011|10.1002/etc.527
169223|A||Liu,F., and W.X. Wang|Facilitated Bioaccumulation of Cadmium and Copper in the Oyster Crassostrea hongkongensis Solely Exposed to Zinc|Environ. Sci. Technol.47(3): 1670-1677|2013|
169224|T||Menezes-Oliveira,V.B., J.J. Scott-Fordsmand, A.M.V.M. Soares, and M.J.B. Amorim|Effects of Temperature and Copper Pollution on Soil Community - Extreme Temperature Events can Lead to Community Extinction|Environ. Toxicol. Chem.32(12): 2678-2685|2013|10.1002/etc.2345
169225|A||McKenzie,L.A., R. Brooks, and E.L. Johnston|Heritable Pollution Tolerance in a Marine Invader|Environ. Res.111(7): 926-932|2011|10.1016/j.envres.2010.12.007
169226|A||Ward,A.J.W., M. Thistle, K. Ghandi, and S. Currie|Copper Interacts with Nonylphenol to Cancel the Effect of Nonylphenol on Fish Chemosensory Behaviour|Aquat. Toxicol.142/143:203-209|2013|10.1016/j.aquatox.2013.08.010
169227|T||Owojori,O.J., and A.J. Reinecke|Effects of Natural (Flooding and Drought) and Anthropogenic (Copper and Salinity) Stressors on the Earthworm Aporrectodea caliginosa Under Field Conditions|Appl. Soil Ecol.44(2): 156-163|2010|10.1016/j.apsoil.2009.11.006
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169229|A||Chakraborty,P., P.V. Raghunadh Babu, T. Acharyya, and D. Bandyopadhyay|Stress and Toxicity of Biologically Important Transition Metals (Co, Ni, Cu and Zn) on Phytoplankton in a Tropical Freshwater System:  An Investigation with Pigment Analysis by HPLC|Chemosphere80(5): 548-553|2010|10.1016/j.chemosphere.2010.04.039
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169231|A||Montz,G.R., J. Hirsch, R. Rezanka, and D.F. Staples|Impacts of Copper on a Lotic Benthic Invertebrate Community:  Response and Recovery|J. Freshw. Ecol.25(4): 575-587|2010|10.1080/02705060.2010.9664407
169232|A||Rety,C., R. Gilbin, and E. Gomez|Induction of Reactive Oxygen Species and Algal Growth Inhibition by Tritiated Water with or Without Copper|Environ. Toxicol.27(3): 155-165|2012|10.1002/tox.20626
169233|A||Lelong,A., D.F. Jolley, P. Soudant, and H. Hegaret|Impact of Copper Exposure on Pseudo-nitzschia spp. Physiology and Domoic Acid Production|Aquat. Toxicol.118/119:37-47|2011|10.1016/j.aquatox.2012.03.010
169234|A||Levy,J.L., J.L. Stauber, S.A. Wakelin, and D.F. Jolley|The Effect of Field-Collected Biofilms on the Toxicity of Copper to a Marine Microalga (Tetraselmis sp.) in Laboratory Bioassays|Mar. Freshw. Res.62(12): 27 p.|2011|10.1071/MF10313
169235|A||Ferreira,D., P. Ciffroy, M.H. Tusseau-Vuillemin, A. Bourgeault, and J.M. Garnier|DGT as Surrogate of Biomonitors for Predicting the Bioavailability of Copper in Freshwaters:  An Ex Situ Validation Study|Chemosphere91(3): 241-247|2013|10.1016/j.chemosphere.2012.10.016
169236|A||Fuentes,M.S., and G.H. Wikfors|Control of Domoic Acid Toxin Expression in Pseudo-nitzschia multiseries by Copper and Silica: Relevance to Mussel Aquaculture in New England (USA)|Mar. Environ. Res.83:23-28|2013|10.1016/j.marenvres.2012.10.005
169237|A||Gonzalez,A., J. Vera, J. Castro, G. Dennett, M. Mellado, B. Morales, J.A. Correa, and A. Moenne|Co-Occurring Increases of Calcium and Organellar Reactive Oxygen Species Determine Differential Activation of Antioxidant and Defense Enzymes in Ulva compressa (Chlorophyta) Exposed to Copper Excess|Plant Cell Environ.33(10): 1627-1640|2010|10.1111/j.1365-3040.2010.02169.x
169238|A||Perez,P., R. Beiras, and E. Fernandez|Monitoring Copper Toxicity in Natural Phytoplankton Assemblages:  Application of Fast Repetition Rate Fluorometry|Ecotoxicol. Environ. Saf.73(6): 1292-1303|2010|10.1016/j.ecoenv.2010.06.008
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169240|A||Braunbeck,T., M. Bottcher, H. Hollert, T. Kosmehl, E. Lammer, E. Leist, M. Rudolf, and N. Seitz|Towards an Alternative for the Acute Fish LC50 Test in Chemical Assessment:  The Fish Embryo Toxicity Test Goes Multi-Species - An Update|ALTEX22(2): 87-102|2005|
169241|A||Tompsett,A.R., S. Wiseman, E. Higley, S. Pryce, H. Chang, J.P. Giesy, and M. Hecker|Effects of 17alpha-Ethynylestradiol on Sexual Differentiation and Development of  the African Clawed Frog (Xenopus laevis)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.156(3/4): 202-210|2012|10.1016/j.cbpc.2012.06.002
169242|A||Srivastava,P., and A. Singh|In Vivo Study of Effects of Dithiocarbamates Fungicide (Mancozeb) and Its Metabolite Ethylenethiourea (ETU) on Fresh Water Fish Clarius batrachus|J. Biol. Earth Sci.3(2): B228-B235|2013|
169243|A||Srivastava,P., and A. Singh|Study of In-Vivo Effects Caused by Metabolites (1,2,4-Trizole Alanine) of Steroid-Inhibitor Fungicide on Aquatic Life (Fish)|J. Aquac. Res. Develop.4(3): 5 p.|2013|
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169247|AT||Richter,E., A. Wick, T.A. Ternes, and A. Coors|Ecotoxicity of Climbazole, a Fungicide Contained in Antidandruff Shampoo|Environ. Toxicol. Chem.32(12): 2816-2825|2013|10.1002/etc.2367
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169258|T||Ardestani,M.M., and C.A.M. Van Gestel|Toxicodynamics of Copper and Cadmium in Folsomia candida Exposed to Simulated Soil Solutions|Environ. Toxicol. Chem.32(12): 2746-2754|2013|10.1002/etc.2353
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169260|A||Xian,J.A., A.L. Wang, C.X. Ye, X.D. Chen, and W.N. Wang|Phagocytic Activity, Respiratory Burst, Cytoplasmic Free-Ca2+ Concentration and Apoptotic Cell Ratio of Haemocytes from the Black Tiger Shrimp, Penaeus monodon Under Acute Copper Stress|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.152(2): 182-188|2010|10.1016/j.cbpc.2010.04.003
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169262|A||Xu,Q., H. Qiu, W. Chu, Y. Fu, S. Cai, H. Min, and S. Sha|Copper Ultrastructural Localization, Subcellular Distribution, and Phytotoxicity in Hydrilla verticillata (L.F.) Royle|Environ. Sci. Pollut. Res.20:8672-8679|2013|10.1007/s11356-013-1828-1
169263|A||Wen,Y., H. Chen, C. Shen, M. Zhao, and W. Liu|Enantioselectivity Tuning of Chiral Herbicide Dichlorprop by Copper:  Roles of Reactive Oxygen Species|Environ. Sci. Technol.45(11): 4778-4784|2011|10.1021/es2003793
169264|A||Rico,M., A. Lopez, J. Santana-Casiano, A.G. Gonzalez, and M. Gonzalez-Davila|Variability of the Phenolic Profile in the Diatom Phaeodactylum tricornutum Growing Under Copper and Iron Stress|Limnol. Oceanogr.58(1): 144-152|2013|10.4319/lo.2013.58.1.0144
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169275|T||Yang,W., J. Wang, L. Liu, X. Zhu, X. Wang, Z. Liu, Z. Wang, L. Yang, and G. Liu|Effect of High Dietary Copper on Somatostatin and Growth Hormone-Releasing Hormone Levels in the Hypothalami of Growing Pigs|Biol. Trace Elem. Res.143(2): 893-900|2011|10.1007/s12011-010-8904-x
169276|A||Wang,C., H. Li, X. Wang, and Y. Zhang|Estimating Toxic Effect of Copper on Population of Microalgae Through a Three-Dimensional Toxic Effect Growth Model|Bull. Environ. Contam. Toxicol.86(6): 576-582|2011|10.1007/s00128-011-0274-3
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169284|A||Singh,V.P., P.K. Srivastava, and S.M. Prasad|Differential Effect of UV-B Radiation on Growth, Oxidative Stress and Ascorbate-Glutathione Cycle in Two Cyanobacteria Under Copper Toxicity|Plant Physiol. Biochem.61:61-70|2012|10.1016/j.plaphy.2012.09.005
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169293|T||Paynter,D.I., R.J. Moir, and E.J. Underwood|Changes in Activity of the Cu-Zn Superoxide Dismutase Enzyme in Tissues of the Rat with Changes in Dietary Copper|J. Nutr.109(9): 1570-1576|1979|10.1093/jn/109.9.1570
169294|A||Singh,V.P., P.K. Srivastava, and S.M. Prasad|Differential Effects of UV-B Radiation Fluence Rates on Growth, Photosynthesis, and Phosphate Metabolism in Two Cyanobacteria Under Copper Toxicity|Toxicol. Environ. Chem.94(8): 1511-1535|2012|10.1080/02772248.2012.713956
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169296|T||Pal,A., R.K. Vasishta, and R. Prasad|"Hepatic and Hippocampus Iron Status is not Altered in Response to Increased Serum Ceruloplasmin and Serum ""Free"" Copper in Wistar Rat Model for Non-Wilsonian Brain Copper Toxicosis"|Biol. Trace Elem. Res.154(3): 403-411|2013|10.1007/s12011-013-9753-1
169297|T||Naseri,Z., M. Mohri, M.R. Aslani, and A.A. Alavi Tabatabaee|Effects of Short-Term Over-Supplementation of Copper in Milk on Hematology, Serum Proteins, Weight Gain, and Health in Dairy Calves|Biol. Trace Elem. Res.139(1): 24-31|2011|10.1007/s12011-010-8640-2
169299|T||Liew,F.J., and J.S. Schilling|Choice Tests and Neighbor Effects During Fungal Brown Rot of Copper- and Non-Treated Wood|Int. Biodeterior. Biodegrad.74:7-10|2012|10.1016/j.ibiod.2012.07.003
169300|T||Lenartowicz,M., R. Windak, G. Tylko, M. Kowal, and J. Styrna|Effects of Copper Supplementation on the Structure and Content of Elements in Kidneys of Mosaic Mutant Mice|Biol. Trace Elem. Res.136(2): 204-220|2010|10.1007/s12011-009-8533-4
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169303|T||Karunasekera,H., and G. Daniel|Molecular Identification and Phylogenic Analysis by Sequencing the rDNA of Copper-Tolerant Soft-Rot Phialophora spp.|Int. Biodeterior. Biodegrad.82:45-52|2013|10.1016/j.ibiod.2013.01.019
169304|T||Cambrolle,J., J.M. Mancilla-Leyton, S. Munoz-Valles, E. Figueroa-Luque, T. Luque, and M.E. Figueroa|Effects of Copper Sulfate on Growth and Physiological Responses of Limoniastrum monopetalum|Environ. Sci. Pollut. Res.20(12): 8839-8847|2013|10.1007/s11356-013-1833-4
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169366|T||Sarkar,A., J. Das, P. Manna, and P.C. Sil|Nano-Copper Induces Oxidative Stress and Apoptosis in Kidney via Both Extrinsic and Intrinsic Pathways|Toxicology290(2/3): 208-217|2011|10.1016/j.tox.2011.09.086
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169386|A||Contreras-Porcia,L., G. Dennett, A. Gonzalez, E. Vergara, C. Medina, J.A. Correa, and A. Moenne|Identification of Copper-Induced Genes in the Marine Alga Ulva compressa (Chlorophyta)|Mar. Biotechnol.13(3): 544-556|2011|10.1007/s10126-010-9325-8
169387|A||Cooper,S., E. Bonneris, A. Michaud, B. Pinel-Alloul, and P.G.C. Campbell|Influence of a Step-Change in Metal Exposure (Cd, Cu, Zn) on Metal Accumulation and Subcellular Partitioning in a Freshwater Bivalve, Pyganodon grandis:  A Long-Term Transplantation Experiment Between Lakes with Contras|Aquat. Toxicol.132/133:73-83|2013|10.1016/j.aquatox.2013.01.021
169388|T||Costa,D., D. Bouchon, N.M. Van Straalen, J.P. Sousa, and R. Ribeiro|Copper Tolerance and Genetic Diversity of Porcellionides sexfasciatus (Isopoda) in a Highly Contaminated Mine Habitat|Environ. Toxicol. Chem.32(4): 884-888|2013|10.1002/etc.2120
169389|T||De Boer,T.E., N. Tas, M. Braster, E.J.M. Temminghoff, W.F.M. Roling, and D. Roelofs|The Influence of Long-Term Copper Contaminated Agricultural Soil at Different pH Levels on Microbial Communities and Springtail Transcriptional Regulation|Environ. Sci. Technol.46(1): 60-68|2012|10.1021/es2013598
169390|A||Gusso-Choueri,P.K., R.B. Choueri, A.T. Lombardi, and M.G.G. Melao|Effects of Dietary Copper on Life-History Traits of a Tropical Freshwater Cladoceran|Arch. Environ. Contam. Toxicol.62(4): 589-598|2012|10.1007/s00244-011-9725-4
169391|T||Krylova,E.G.|The Effect that Nickel, Copper, and Zinc Salts have on Seed Germination and Initial Ontogenesis of Water Parsnip (Sium latifolium L.) and Wood Club-Rush (Scirpus silvaticus L.)|Inland Water Biol.4(4): 468-474|2011|10.1134/S1995082911030138
169392|A||Lombardi,A.T., and M.T. Maldonado|The Effects of Copper on the Photosynthetic Response of Phaeocystis cordata|Photosynth. Res.108(1): 77-87|2011|10.1007/s11120-011-9655-z
169393|A||Monferran,M.V., M.L. Pignata, and D.A. Wunderlin|Enhanced Phytoextraction of Chromium by the Aquatic Macrophyte Potamogeton pusillus in Presence of Copper|Environ. Pollut.161:15-22|2012|10.1016/j.envpol.2011.09.032
169394|A||Mustafa,S.A., S.J. Davies, and A.N. Jha|Determination of Hypoxia and Dietary Copper Mediated Sub-Lethal Toxicity in Carp, Cyprinus carpio, at Different Levels of Biological Organisation|Chemosphere87(4): 413-422|2012|10.1016/j.chemosphere.2011.12.037
169395|A||Paila,R.V., P.R. Yallapragada, and S.D.R. Thatipaka|Response of Glutathione System and Carotenoids to Sublethal Copper in the Postlarvae of Penaeus indicus|Ecotoxicol. Environ. Saf.75(1): 127-133|2012|10.1016/j.ecoenv.2011.08.023
169396|A||Pandolfo,T.J., W.G. Cope, and C. Arellano|Thermal Tolerance of Juvenile Freshwater Mussels (Unionidae) Under the Added Stress of Copper|Environ. Toxicol. Chem.29(3): 691-699|2010|10.1002/etc.92
169397|A||Pinho,G.L.L., A. Bianchini, and C. Rouleau|Whole-Body Autoradiography: An Efficient Technique to Study Copper Accumulation and Body Distribution in Small Organisms|Chemosphere85(1): 1-6|2011|10.1016/j.chemosphere.2011.06.065
169398|T||Zhang,G., Y. Lin, and M. Wang|Remediation of Copper Polluted Red Soils with Clay Materials|J. Environ. Sci.23(3): 461-467|2011|10.1016/S1001-0742(10)60431-7
169399|A||Chen,H., X. Sheng, Y. Wen, L. Zhang, H. Bao, L. Li, and W. Liu|New Insights into the Effects of the Herbicide Imazethapyr on Cu(II) Ecotoxicity to the Aquatic Unicellular Alga Scenedesmus obliquus|Aquat. Toxicol.140/141:407-414|2013|10.1016/j.aquatox.2013.06.017
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169401|T||Owojori,O.J., and S.D. Siciliano|Accumulation and Toxicity of Metals (Copper, Zinc, Cadmium, and Lead) and Organic Compounds (Geraniol and Benzo[a]pyrene) in the Oribatid Mite Oppia nitens|Environ. Toxicol. Chem.31(7): 1639-1648|2012|10.1002/etc.1857
169402|A||Serra,A., H. Guasch, W. Admiraal, H.G. Van der Geest, and S.A.M. Van Beusekom|Influence of Phosphorus on Copper Sensitivity of Fluvial Periphyton:  The Role of Chemical, Physiological and Community-Related Factors|Ecotoxicology19(4): 770-780|2010|10.1007/s10646-009-0454-7
169403|A||Wang,N., C.A. Mebane, J.L. Kunz, C.G. Ingersoll, W.G. Brumbaugh, R.C. Santore, J.W. Gorsuch, and W.R. Arnold|Influence of Dissolved Organic Carbon on Toxicity of Copper to a Unionid Mussel (Villosa iris) and a Cladoceran (Ceriodaphnia dubia) in Acute and Chronic Water Exposures|Environ. Toxicol. Chem.30(9): 2115-2125|2011|10.1002/etc.596
169404|A||Zhang,L., X. Liu, L. You, D. Zhou, H. Wu, L. Li, J. Zhao, J. Feng, and J. Yu|Metabolic Responses in Gills of Manila Clam Ruditapes philippinarum Exposed to Copper Using NMR-Based Metabolomics|Mar. Environ. Res.72(1/2): 33-39|2011|10.1016/j.marenvres.2011.04.002
169405|A||Svecevicius,G., G. Sauliute, R.L. Idzelis, and J. Grigeleviciute|Accumulation of Heavy Metals in Different Body Tissues of Atlantic Salmon, Salmo  salar L., Exposed to a Model Mixture (Cu, Zn, Ni, Cr, Pb, Cd) and Singly to Nickel, Chromium, and Lead|Bull. Environ. Contam. Toxicol.92(4): 440-445|2014|10.1007/s00128-014-1237-2
169406|A||Soedarini,B., L. Klaver, I. Roessink, B. Widianarko, N.M. Van Straalen, and C.A.M. Van Gestel|Copper Kinetics and Internal Distribution in the Marbled Crayfish (Procambarus sp.)|Chemosphere87(4): 333-338|2012|10.1016/j.chemosphere.2011.12.017
169407|A||Silva-Aciares,F., M. Zapata, J. Tournois, D. Moraga, and C. Riquelme|Identification of Genes Expressed in Juvenile Haliotis rufescens in Response to Different Copper Concentrations in the North of Chile Under Controlled Conditions|Mar. Pollut. Bull.62(12): 2671-2680|2011|10.1016/j.marpolbul.2011.09.023
169408|A||Cotou,E., M. Henry, C. Zeri, G. Rigos, A. Torreblanca, and V.A. Catsiki|Short-Term Exposure of the European Sea Bass Dicentrarchus labrax to Copper-Based Antifouling Treated Nets: Copper Bioavailability and Biomarkers Responses|Chemosphere89(9): 1091-1097|2012|10.1016/j.chemosphere.2012.05.075
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169410|A||Clearwater,S.J., P.G. Jellyman, B.J.F. Biggs, C.W. Hickey, N. Blair, and J.S. Clayton|Pulse-Dose Application of Chelated Copper to a River for Didymosphenia geminata Control:  Effects on Macroinvertebrates and Fish|Environ. Toxicol. Chem.30(1): 181-195|2011|10.1002/etc.369
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169415|T||Sabrine,H., H. Afif, B. Mohamed, B. Hamadi, and H. Maria|Effects of Cadmium and Copper on Pollen Germination and Fruit Set in Pea (Pisum sativum L.)|Sci. Hortic.125(4): 551-555|2010|10.1016/j.scienta.2010.05.031
169416|T||Wu,S., Y. Wang, Y. Hu, and W. Zhong|Single and Binary Toxic Effects of Copper, Lead, and 1,2,4-Trichlorobenzene on Eisenia fetida in Microcosms|Environ. Eng. Sci.30(7): 365-373|2013|10.1089/ees.2012.0265
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169426|T||Ozcelik,D., H. Uzun, and M. Naziroglu|N-Acetylcysteine Attenuates Copper Overload-Induced Oxidative Injury in Brain of Rat|Biol. Trace Elem. Res.147(1-3): 292-298|2012|10.1007/s12011-012-9320-1
169427|A||Hoyer,S.|Can Copper-Based Substrates be Used to Protect Hatcheries from Invasion by the New Zealand Mudsnail?|M.S. Thesis, Colorado State University, CO:70 p.|2011|
169428|T||Carpenter,T.O., M.L. Pendrak, and C.S. Anast|Metabolism of 25-Hydroxyvitamin D in Copper-Laden Rat: A Model of Wilson's Disease|Am. J. Physiol. Endocrinol. Metab.254(2): 150-154|1988|10.1152/ajpendo.1988.254.2.E150
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169430|T||Kassabova,T., and E. Russanov|Effect of Chronic Copper Loading on the Functions of Rat Liver Mitochondria|Acta Physiol. Pharmacol. Bulg.3(3): 42-48|1977|
169431|T||Van Ryssen,J.B.J., and P.R. Barrowman|Effect of Ionophores on the Accumulation of Copper in the Livers of Sheep|Anim. Prod.44(2): 255-261|1987|
169433|T||Norvell,M.J., M.C. Thomas, W.D. Goatcher, D.A. Gable, and C.C. Calvert|Some Effects of High Dietary Levels of Various Salts of Copper in Broiler Chickens|Trace Subst. Environ. Health8:367-372|1974|
169434|T||Kunhikrishnan,A., N.S. Bolan, R. Naidu, and W.I. Kim|Recycled Water Sources Influence the Bioavailability of Copper to Earthworms|J. Hazard. Mater.261:784-792|2013|10.1016/j.jhazmat.2012.10.015
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169437|T||Koutensky,J., V. Eybl, M. Koutenska, J. Sykora, and F. Mertl|Influence of Sodium Diethyldithiocarbamate on the Toxicity and Distribution of Copper in Mice|Eur. J. Pharmacol.14:389-392|1971|10.1016/0014-2999(71)90194-4
169439|A||Maria,V.L., and M.J. Bebianno|Antioxidant and Lipid Peroxidation Responses in Mytilus galloprovincialis Exposed to Mixtures of Benzo(a)pyrene and Copper|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(1): 56-63|2011|10.1016/j.cbpc.2011.02.004
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169445|A||Burnat,M., E. Diestra, I. Esteve, and A. Sole|In Situ Determination of the Effects of Lead and Copper on Cyanobacterial Populations in Microcosms|PLoS One4(7): 6 p.|2009|10.1371/journal.pone.0006204
169446|A||Rossetto,A.L.O.F., D.S. Vicentini, C.H. Costa, S.P. Melegari, and W.G. Matias|Synthesis, Characterization and Toxicological Evaluation of a Core-Shell Copper Oxide/Polyaniline Nanocomposite|Chemosphere108:107-114|2014|10.1016/j.chemosphere.2014.03.038
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169448|T||Moshtaghie,A.A., P. Malekpouri, M. Moshtaghie, M. Mohammadi-Nejad, and M. Ani|Protective Effects of Copper Against Aluminum Toxicity on Acetylcholinesterase and Catecholamine Contents of Different Regions of Rat's Brain|Neurol. Sci.34(9): 1639-1650|2013|10.1007/s10072-013-1305-0
169449|T||Fry,R.S., J.W. Spears, K.E. Lloyd, A.T. O'Nan, and M.S. Ashwell|Effect of Dietary Copper and Breed on Gene Products Involved in Copper Acquisition, Distribution, and Use in Angus and Simmental Cows and Fetuses|J. Anim. Sci.91(2): 861-871|2013|10.2527/jas.2011-3888
169450|T||Han,X.Y., W.L. Du, Q.C. Huang, Z.R. Xu, and Y.Z. Wang|Changes in Small Intestinal Morphology and Digestive Enzyme Activity with Oral Administration of Copper-Loaded Chitosan Nanoparticles in Rats|Biol. Trace Elem. Res.145(3): 355-360|2012|10.1007/s12011-011-9191-x
169451|T||Zhang,W., Y. Zhang, S.W. Zhang, X.Z. Song, Z.H. Jia, and R.L. Wang|Effect of Different Levels of Copper and Molybdenum Supplements on Serum Lipid Profiles and Antioxidant Status in Cashmere Goats|Biol. Trace Elem. Res.148(3): 309-315|2012|10.1007/s12011-012-9380-2
169452|T||Bayyari,G.R., W.E. Huff, J.N. Beasley, J.M. Balog, and N.C. Rath|The Effect of Dietary Copper Sulfate on Infectious Proventriculitis|Poult. Sci.74(12): 1961-1969|1995|10.3382/ps.0741961
169453|T||Wiener,G., I. Wilmut, C. Woolliams, J.A. Woolliams, and A.C. Field|The Role of the Breed of Dam and of the Breed of Lamb in Determining the Copper Status of the Lamb. 2.  Under a Dietary Regime Moderately High in Copper|Anim. Prod.39:219-227|1984|
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169458|T||Itakura,C., T. Kazama, and M. Goto|Comparative Pathology of Gizzard Lesions in Broiler Chicks Fed Fish Meal Histamine and Copper|Avian Pathol.11(3): 487-502|1982|10.1080/03079458208436120
169459|T||Humphries,W.R., P.C. Morrice, and A.N. Mitchell|Copper Poisoning in Angora Goats|Vet. Rec.121(10): 231-|1987|10.1136/vr.121.10.231
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169464|T||Clegg,M.S., S.M. Casey, and C.L. Keen|Waterborne Copper Toxicity in Sheep|Agri-Pract.7(1): 19-22|1986|
169465|A||Shao,X.P., W.B. Liu, W.N. Xu, K.L. Lu, W. Xia, and Y.Y. Jiang|Effects of Dietary Copper Sources and Levels on Performance, Copper Status, Plasma Antioxidant Activities and Relative Copper Bioavailability in Carassius auratus gibelio|Aquaculture308(1/2): 60-65|2010|10.1016/j.aquaculture.2010.07.021
169466|T||Castillo,O.S., N. Dasgupta-Schubert, C.J. Alvarado, E.M. Zaragoza, and H.J. Villegas|The Effect of the Symbiosis Between Tagetes erecta L. (Marigold) and Glomus intraradices in the Uptake of Copper(II) and Its Implications for Phytoremediation|New Biotechnol.29(1): 156-164|2011|10.1016/j.nbt.2011.05.009
169467|A||Fagundes-Klen,M.R., M.T. Veit, C.E. Borba, R. Bergamasco, L.G. De Lima Vaz, and E.A. Da Silva|Copper Biosorption by Biomass of Marine Alga:  Study of Equilibrium and Kinetics in Batch System and Adsorption/Desorption Cycles in Fixed Bed Column|Water Air Soil Pollut.213(1-4): 15-26|2010|10.1007/s11270-010-0363-7
169468|A||Zheng,Q., Q. Meng, Y.Y. Wei, and Z.M. Yang|Alleviation of Copper-Induced Oxidative Damage in Chlamydomonas reinhardtii by Carbon Monoxide|Arch. Environ. Contam. Toxicol.61(2): 220-227|2011|10.1007/s00244-010-9602-6
169469|A||Yan,X., H. Wang, Q. Wang, and L.G. Rudstam|Risk Spreading, Habitat Selection and Division of Biomass in a Submerged Clonal Plant: Responses to Heterogeneous Copper Pollution|Environ. Pollut.174:114-120|2013|10.1016/j.envpol.2012.10.013
169470|A||Zizza,M., M. Canonaco, and R.M. Facciolo|ORX Neuroreceptor System and HSP90 are Linked to Recovery Strategies Against Copper Toxicity in Thalassoma pavo|Toxicol. Sci.137(1): 135-146|2014|10.1093/toxsci/kft229
169471|A||Ly,S.Y., and J.K. Kim|Simultaneous Real-Time Assay of Copper and Cadmium Ions by Infrared Photo Diode Electrode Implanted in the Muscle of Live Fish|J. Biochem. Mol. Toxicol.23(4): 256-262|2009|10.1002/jbt.20287
169472|A||Zhu,B., L. Liu, D.L. Li, F. Ling, and G.X. Wang|Developmental Toxicity in Rare Minnow (Gobiocypris rarus) Embryos Exposed to Cu, Zn and Cd|Ecotoxicol. Environ. Saf.104:269-277|2014|10.1016/j.ecoenv.2014.03.018
169473|A||Witeska,M., E. Kondera, J. Lipionoga, and R. Nienaltowska|The Changes in Blood Leukocyte Profile of Common Carp Induced by Acute Exposures to Copper and Cadmium|Fresenius Environ. Bull.18(8): 1534-1540|2009|
169474|A||Kosai,P., W. Jiraungkoorskul, T. Thammasunthorn, and K. Jiraungkoorskul|Reduction of Copper-Induced Histopathological Alterations by Calcium Exposure in Nile Tilapia (Oreochromis niloticus)|Toxicol. Mech. Methods19(6/7): 461-467|2009|10.1080/15376510903173674
169475|A||Rhee,J.S., E.J. Won, R.O. Kim, J. Lee, K.H. Shin, and J.S. Lee|Expression of Superoxide Dismutase (SOD) Genes from the Copper-Exposed Polychaete, Neanthes succinea|Mar. Pollut. Bull.63(5-12): 277-286|2011|10.1016/j.marpolbul.2011.04.023
169476|A||Fan,W., C. Wu, C. Zhao, T. Yu, and Y. Zhang|Application of Enriched Stable Isotope Technique to the Study of Copper Bioavailability in Daphnia magna|J. Environ. Sci.23(5): 831-836|2011|10.1016/S1001-0742(10)60483-4
169477|A||Ren,F., H. Jiang, J. Sun, L. He, W. Li, Y. Wang, and Q. Wang|Cloning, Characterization, Expression, and Copper Sensitivity of the Metallothionein-1 Gene in the Chinese Mitten Crab, Eriocheir sinensis|Mol. Biol. Rep.38(4): 2383-2393|2011|10.1007/s11033-010-0372-z
169478|A||Shelar,S.D., and V. Kanse|Toxicity of Mercuric Chloride and Copper Sulphate to Fresh Water Leech, Poecilobdella viridis and Changes Induced in the Brain Neurosecretory Profile|Life Sci. Bull. 8(2): 260-262|2011|
169479|A||Raftopoulou,E.K., and V.K. Dimitriadis|Comparative Study of the Accumulation and Detoxification of Cu (Essential Metal) and Hg (ssential Metal) in the Digestive Gland and Gills of Mussels Mytilus galloprovincialis, Using Analytical and Histochemical Tech|Chemosphere83(8): 1155-1165|2011|10.1016/j.chemosphere.2011.01.003
169480|T||Qiu,H., M.G. Vijver, E. He, and W.J.G.M. Peijnenburg|Predicting Copper Toxicity to Different Earthworm Species Using a Multicomponent Freundlich Model|Environ. Sci. Technol.47(9): 4796-4803|2013|10.1021/es305240n
169481|A||Haak,D.M.|Impact of Copper Mine Tailings (Stamp Sand) on Survival and Development of Aquatic Organisms Near Gay, Michigan|M.S. Thesis, Michigan Technological University, Houghton, MI:82 p.|2011|
169482|A||Sun,S., L. Chen, J. Qin, J. Ye, C. Qin, H. Jiang, and E. Li|Molecular Cloning, Characterization and mRNA Expression of Copper-Binding Protein Hemocyanin Subunit in Chinese Mitten Crab, Eriocheir sinensis|Fish Shellfish Immunol.33(5): 1222-1228|2012|10.1016/j.fsi.2012.09.023
169483|A||Liu,H., H. Chen, J. Jing, and X. Ma|Cloning and Characterization of the HSP90 beta Gene from Tanichthys albonubes Lin (Cyprinidae): Effect of Copper and Cadmium Exposure|Fish Physiol. Biochem.38(3): 745-756|2012|10.1007/s10695-011-9556-2
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169487|T||Wang,M.Q., Y.J. Du, C. Wang, W.J. Tao, Y.D. He, and H. Li|Effects of Copper-Loaded Chitosan Nanoparticles on Intestinal Microflora and Morphology in Weaned Piglets|Biol. Trace Elem. Res.149(2): 184-189|2012|10.1007/s12011-012-9410-0
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169534|T||Mateos-Naranjo,E., L. Andrades-Moreno, J. Cambrolle, and A. Perez-Martin|Assessing the Effect of Copper on Growth, Copper Accumulation and Physiological Responses of Grazing Species Atriplex halimus: Ecotoxicological Implications|Ecotoxicol. Environ. Saf.90:136-142|2013|10.1016/j.ecoenv.2012.12.020
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169542|T||Wang,X., L. Hua, and Y. Ma|A Biotic Ligand Model Predicting Acute Copper Toxicity for Barley (Hordeum vulgare): Influence of Calcium, Magnesium, Sodium, Potassium and pH|Chemosphere89(1): 89-95|2012|10.1016/j.chemosphere.2012.04.022
169543|T||Yang,L., C. Luo, Y. Liu, L. Quan, Y. Chen, and Z. Shen|Residual Effects of EDDS Leachates on Plants During EDDS-Assisted Phytoremediation of Copper Contaminated Soil|Sci. Total Environ.444:263-270|2013|10.1016/j.scitotenv.2012.11.085
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169562|T||Guerra,F., S. Duplessis, A. Kohler, F. Martin, J. Tapia, P. Lebed, F. Zamudio, and E. Gonzalez|Gene Expression Analysis of Populus deltoides Roots Subjected to Copper Stress|Environ. Exp. Bot.67(2): 335-344|2009|10.1016/j.envexpbot.2009.08.004
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169576|T||Vatta,A.F., P.J. Waller, J.B. Githiori, and G.F. Medley|Persistence of the Efficacy of Copper Oxide Wire Particles Against Haemonchus contortus in Grazing South African Goats|Vet. Parasitol.190(1/2): 159-166|2012|10.1016/j.vetpar.2012.06.018
169577|T||Lin,C.Y., N.N. Trinh, S.F. Fu, Y.C. Hsiung, L.C. Chia, C.W. Lin, and H.J. Huang|Comparison of Early Transcriptome Responses to Copper and Cadmium in Rice Roots|Plant Mol. Biol.81(4/5): 507-522|2013|10.1007/s11103-013-0020-9
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169579|T||Kalinowska,R., and B. Pawlik-Skowronska|Response of Two Terrestrial Green Microalgae (Chlorophyta, Trebouxiophyceae) Isolated from Cu-Rich and Unpolluted Soils to Copper Stress|Environ. Pollut.158(8): 2778-2785|2010|10.1016/j.envpol.2010.03.003
169580|T||Pocino,M., I. Malave, and L. Baute|Zinc Administration Restores the Impaired Immune Response Observed in Mice Receiving Excess Copper by Oral Route|Immunopharmacol. Immunotoxicol.12(4): 697-713|1990|10.3109/08923979009019685
169581|T||Sanchez-Pardo,B., M. Fernandez-Pascual, and P. Zornoza|Copper Microlocalisation, Ultrastructural Alterations and Antioxidant Responses in the Nodules of White Lupin and Soybean Plants Grown Under Conditions of Copper Excess|Environ. Exp. Bot.84:52-60|2012|10.1016/j.envexpbot.2012.04.017
169582|T||Shahbaz,M., S. Parmar, C.E.E. Stuiver, M.J. Hawkesford, and L.J. De Kok|Copper Toxicity and Sulfur Metabolism in Chinese Cabbage are Affected by UV Radiation|Environ. Exp. Bot.88:60-70|2013|10.1016/j.envexpbot.2012.04.007
169583|T||Sofo,A., A. Vitti, M. Nuzzaci, G. Tataranni, A. Scopa, J. Vangronsveld, T. Remans, G. Falasca, M.M. Altamura, F. Degola|Correlation Between Hormonal Homeostasis and Morphogenic Responses in Arabidopsis thaliana Seedlings Growing in a Cd/Cu/Zn Multi-Pollution Context|Physiol. Plant. (Multiple Languages)149(4): 487-498|2013|10.1111/ppl.12050
169584|T||Soliemanzadeh,A., V. Mozafari, and M. Kamali|Treatment of Pistachio Trees with Zinc and Copper in Time of Swollen Bud in Two Consecutive Years|Commun. Soil Sci. Plant Anal.45(8): 1025-1036|2014|10.1080/00103624.2014.883627
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169588|T||Zambrosi,F.C.B., G.L. Mesquita, F.A.O. Tanaka, J.A. Quaggio, and D. Mattos Jr.|Phosphorus Availability and Rootstock Affect Copper-Induced Damage to the Root Ultra-Structure of Citrus|Environ. Exp. Bot.95:25-33|2013|10.1016/j.envexpbot.2013.07.004
169589|T||Wannaz,E.D., H.A. Carreras, G.A. Abril, and M.L. Pignata|Maximum Values of Ni2+, Cu2+, Pb2+ and Zn2+ in the Biomonitor Tillandsia capillaris (Bromeliaceae): Relationship with Cell Membrane Damage|Environ. Exp. Bot.74:296-301|2011|10.1016/j.envexpbot.2011.06.012
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169592|T||Rojas-Tapias,D.F., R.R. Bonilla, and J. Dussan|Effect of Inoculation with Plant Growth-Promoting Bacteria on Growth and Copper Uptake by Sunflowers|Water Air Soil Pollut.223(2): 643-654|2012|10.1007/s11270-011-0889-3
169593|T||Solanki,R., Anju, Poonam, and R. Dhankhar|Zinc and Copper Induced Changes in Physiological Characteristics of Vigna mungo (L.)|J. Environ. Biol.32(6): 747-751|2011|
169594|T||Song,J., Y.Q. Yang, S.H. Zhu, G.C. Chen, X.F. Yuan, T.T. Liu, X.H. Yu, and J.Y. Shi|Spatial Distribution and Speciation of Copper in Root Tips of Cucumber Revealed by Mu-XRF and Mu-XANES|Biol. Plant. (Praha)57(3): 581-586|2013|10.1007/s10535-013-0317-1
169595|T||Song,Y., J. Cui, H. Zhang, G. Wang, F.J. Zhao, and Z. Shen|Proteomic Analysis of Copper Stress Responses in the Roots of Two Rice (Oryza sativa L.) Varieties Differing in Cu Tolerance|Plant Soil366(1/2): 647-658|2013|10.1007/s11104-012-1458-2
169596|T||Sowndhararajan,K., S. Marimuthu, and S. Manian|Integrated Control of Blister Blight Disease in Tea Using the Biocontrol Agent Ochrobactrum anthropi Strain BMO-111 with Chemical Fungicides|J. Appl. Microbiol.114(5): 1491-1499|2013|10.1111/jam.12159
169597|T||Soydam Aydin,S., E. Gokce, I. Buyuk, and S. Aras|Characterization of Stress Induced by Copper and Zinc on Cucumber (Cucumis sativus L.) Seedlings by Means of Molecular and Population Parameters|Mutat. Res.746(1): 49-55|2012|10.1016/j.mrgentox.2012.03.005
169598|T||Li,B., Y. Ma, M.J. McLaughlin, J.K. Kirby, G. Cozens, and J. Liu|Influences of Soil Properties and Leaching on Copper Toxicity to Barley Root Elongation|Environ. Toxicol. Chem.29(4): 835-842|2010|10.1002/etc.108
169599|T||Maynard,C.J., R. Cappai, I. Volitakis, K.M. Laughton, C.L. Masters, A.I. Bush, and Q.X. Li|Chronic Exposure to High Levels of Zinc or Copper has Little Effect on Brain Metal Homeostasis or Abeta Accumulation in Transgenic APP-C100 Mice|Cell. Mol. Neurobiol.29(5): 757-767|2009|10.1007/s10571-009-9401-7
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169601|T||Meier,S., F. Borie, G. Curaqueo, N. Bolan, and P. Cornejo|Effects of Arbuscular Mycorrhizal Inoculation on Metallophyte and Agricultural Plants Growing at Increasing Copper Levels|Appl. Soil Ecol.61:280-287|2012|10.1016/j.apsoil.2011.10.018
169602|T||Kovacik,J., B. Klejdus, J. Hedbavny, P. Martonfi, F. Stork, and L. Martonfiova|Copper Uptake, Physiology and Cytogenetic Characteristics in Three Matricaria chamomilla Cultivars|Water Air Soil Pollut.218(1-4): 681-691|2011|10.1007/s11270-010-0677-5
169603|T||Graz,M., A. Jarosz-Wilkolazka, and B. Pawlikowska-Pawlega|Abortiporus biennis Tolerance to Insoluble Metal Oxides: Oxalate Secretion, Oxalate Oxidase Activity, and Mycelial Morphology|BioMetals22(3): 401-410|2009|10.1007/s10534-008-9176-1
169604|T||Dagostin,S., H.J. Scharer, I. Pertot, and L. Tamm|Are There Alternatives to Copper for Controlling Grapevine Downy Mildew in Organic Viticulture?|Crop Prot.30(7): 776-788|2011|10.1016/j.cropro.2011.02.031
169605|T||Elleuch,A., Z. Chaabene, D.C. Grubb, N. Drira, H. Mejdoub, and B. Khemakhem|Morphological and Biochemical Behavior of Fenugreek (Trigonella foenum-graecum) Under Copper Stress|Ecotoxicol. Environ. Saf.98:46-53|2013|10.1016/j.ecoenv.2013.09.028
169606|T||Ghasemi,R., S.M. Ghaderian, and U. Kramer|Interference of Nickel with Copper and Iron Homeostasis Contributes to Metal Toxicity Symptoms in the Nickel Hyperaccumulator Plant Alyssum inflatum|New Phytol.184(3): 566-580|2009|10.1111/j.1469-8137.2009.02993.x
169607|T||Smith,B.S.W., A.C. Field, and N.F. Suttle|Effect of Intake of Copper, Molybdenum and Sulphate on Copper Metabolism in the Sheep. III. Studies with Radioactive Copper in Male Castrated Sheep|J. Comp. Pathol.78:449-461|1968|10.1016/0021-9975(68)90044-3
169608|T||Chmielowska,J., J. Veloso, J. Gutierrez, C. Silvar, and J. Diaz|Cross-Protection of Pepper Plants Stressed by Copper Against a Vascular Pathogen is Accompanied by the Induction of a Defence Response|Plant Sci.178(2): 176-182|2010|10.1016/j.plantsci.2009.11.007
169609|T||Mylroie,A.A., C. Umbles, and J. Kyle|Effects of Dietary Copper Supplementation on Erythrocyte Superoxide Dismutase Activity, Ceruloplasmin and Related Parameters in Rats Ingesting Lead Acetate|Trace Subst. Environ. Health:497-505|1984|
169610|T||Peng,H., Q. Wang-Muller, T. Witt, F. Malaisse, and H. Kupper|Differences in Copper Accumulation and Copper Stress Between Eight Populations of Haumaniastrum katangense|Environ. Exp. Bot.79(0): 58-65|2012|10.1016/j.envexpbot.2011.12.015
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169614|T||Cheng,H., N.F.Y. Tam, Y. Wang, S. Li, G. Chen, and Z. Ye|Effects of Copper on Growth, Radial Oxygen Loss and Root Permeability of Seedlings of the Mangroves Bruguiera gymnorrhiza and Rhizophora stylosa|Plant Soil359(1/2): 255-266|2012|10.1007/s11104-012-1171-1
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169616|T||Collin,B., E. Doelsch, C. Keller, F. Panfili, and J.D. Meunier|Effects of Silicon and Copper on Bamboo Grown Hydroponically|Environ. Sci. Pollut. Res.20(9): 6482-6495|2013|10.1007/s11356-013-1703-0
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169619|T||Flis,S.A., C.S. Ballard, E.D. Thomas, S.C. Bosworth, and J.W. Darrah|Corn Silage Growth and Yield After Application of Dairy Manure with High Copper Concentrations|Agron. J.102(2): 815-819|2010|10.2134/agronj2009.0369
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169623|T||Hadzi-Taskovic Sukalovic,V., M. Vuletic, S. Veljovic-Jovanovic, and Z. Vucinic|The Effects of Manganese and Copper In Vitro and In Vivo on Peroxidase Catalytic Cycles|J. Plant Physiol.167(18): 1550-1557|2010|10.1016/j.jplph.2010.05.026
169624|T||Harris,D.J., P.R. Cheeke, and N.M. Patton|Effect of Supplemental Copper on Postweaning Performance of Rabbits|J. Appl. Rabbit Res.7(1): 10-12|1984|
169625|T||Hermann,J., C. Goad, B. Stoecker, A. Arquitt, R. Porter, B. Adeleye, P.L. Claypool, and G. Brusewitz|Effects of Dietary Chromium, Copper and Zinc on Femur Fracture Force and Femur Calcium Concentration in Male Japanese Quail|Nutr. Res.17(10): 1529-1540|1997|10.1016/S0271-5317(97)00149-8
169626|T||Hermann,J., C. Goad, A. Arquitt, B. Stoecker, R. Porter, H. Chung, and P.L. Claypool|Effects of Dietary Chromium, Copper and Zinc on Plasma Lipid Concentrations in Male Japanese Quail|Nutr. Res.18(6): 1017-1027|1998|10.1016/S0271-5317(98)00084-0
169627|T||Janas,K.M., J. Zielinska-Tomaszewska, D. Rybaczek, J. Maszewski, M.M. Posmyk, R. Amarowicz, and A. Kosinska|The Impact of Copper Ions on Growth, Lipid Peroxidation, and Phenolic Compound Accumulation and Localization in Lentil (Lens culinaris Medic.) Seedlings|J. Plant Physiol.167(4): 270-276|2010|10.1016/j.jplph.2009.09.016
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169629|T||Kabala,K., M. Janicka-Russak, and G. Klobus|Different Responses of Tonoplast Proton Pumps in Cucumber Roots to Cadmium and Copper|J. Plant Physiol.167(16): 1328-1335|2010|10.1016/j.jplph.2010.03.020
169630|T||Lebrun,J.D., I. Lamy, and C. Mougin|Favouring the Bioavailability of Zn and Cu to Enhance the Production of Lignin-Modifying Enzymes in Trametes versicolor Cultures|Bioresour. Technol.102(3): 3103-3109|2011|10.1016/j.biortech.2010.10.064
169631|T||Lee,H.J., J.Y. Cho, and J.H. Moon|Comparison of the Inhibitory Effect Against Copper Ion-Induced Oxidation in Rat Plasma After Oral Administration of Salvianolic Acid B and Its Decocted Solutions|J. Med. Food16(3): 239-245|2013|10.1089/jmf.2012.2456
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169648|T||Zhao,H., L. Wu, T. Chai, Y. Zhang, J. Tan, and S. Ma|The Effects of Copper, Manganese and Zinc on Plant Growth and Elemental Accumulation in the Manganese-Hyperaccumulator Phytolacca americana|J. Plant Physiol.169:1243-1252|2012|10.1016/j.jplph.2012.04.016
169649|T||Wrobel,S., and K. Nowak-Winiarska|Interaction of Liming and Earthworm Humus in Detoxification of Soil Contaminated with Excess Copper|Pol. J. Environ. Stud.20(6): 1611-1616|2011|
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169653|T||Gill,T., V. Dogra, S. Kumar, P.S. Ahuja, and Y. Sreenivasulu|Protein Dynamics During Seed Germination Under Copper Stress in Arabidopsis Over-Expressing Potentilla superoxide dismutase|J. Plant Res.125(1): 165-172|2012|10.1007/s10265-011-0421-2
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169659|T||Vantova,I., M. Backor, B. Klejdus, M. Backorova, and J. Kovacik|Copper Uptake and Copper-Induced Physiological Changes in the Epiphytic Lichen Evernia prunastri|Plant Growth Regul.69(1): 1-9|2013|10.1007/s10725-012-9741-z
169661|T||Navarrete,J.U., M. Viveros, J.T. Ellzey, and D.M. Borrok|Copper Isotope Fractionation by Desert Shrubs|Appl. Geochem.26:S319-S321|2011|10.1016/j.apgeochem.2011.04.002
169662|T||Sassmann,S., S. Wernitznig, I.K. Lichtscheidl, and I. Lang|Comparing Copper Resistance in Two Bryophytes:  Mielichhoferia elongata Hornsch. Versus Physcomitrella patens Hedw.|Protoplasma (Multiple Languages)246(1-4): 119-123|2010|10.1007/s00709-010-0106-z
169663|T||Zappala,M.N., J.T. Ellzey, J. Bader, J.R. Peralta-Videa, and J. Gardea-Torresdey|Prosopis pubescens (Screw Bean Mesquite) Seedlings are Hyperaccumulators of Copper|Arch. Environ. Contam. Toxicol.65(2): 212-223|2013|10.1007/s00244-013-9904-6
169664|T||Zuo,X., R. Balasubramanian, D.F. Fu, and H. Li|Biosorption of Copper, Zinc and Cadmium Using Sodium Hydroxide Immersed Cymbopogon schoenanthus L. Spreng (Lemon Grass)|Ecol. Eng.49:186-189|2012|10.1016/j.ecoleng.2012.08.027
169665|T||Chen,L., L. Wang, F. Chen, H. Korpelainen, and C. Li|The Effects of Exogenous Putrescine on Sex-Specific Responses of Populus cathayana to Copper Stress|Ecotoxicol. Environ. Saf.97:94-102|2013|10.1016/j.ecoenv.2013.07.009
169666|T||Cambrolle,J., J.L. Garcia, R. Ocete, M.E. Figueroa, and M. Cantos|Growth and Photosynthetic Responses to Copper in Wild Grapevine|Chemosphere93(2): 294-301|2013|10.1016/j.chemosphere.2013.04.080
169667|T||Kramarz,P.E., A. Mordarska, and M. Mroczka|Response of Tribolium castaneum to Elevated Copper Concentrations is Influenced by History of Metal Exposure, Sex-Specific Defences, and Infection by the Parasite Steinernema feltiae|Ecotoxicology23(5): 757-766|2014|10.1007/s10646-014-1212-z
169668|A||Wang,Q., X. Ning, L. Chen, D. Pei, J. Zhao, L. Zhang, X. Liu, and H. Wu|Responses of Thioredoxin 1 and Thioredoxin-Related Protein 14 mRNAs to Cadmium and Copper Stresses in Venerupis philippinarum|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(3): 154-160|2011|10.1016/j.cbpc.2011.04.009
169669|T||Green,I.D., and K. Walmsley|Time-Response Relationships for the Accumulation of Cu, Ni and Zn by Seven-Spotted Ladybirds (Coccinella septempunctata L.) Under Conditions of Single and Combined Metal Exposure|Chemosphere93(1): 184-189|2013|10.1016/j.chemosphere.2013.05.028
169670|T||Mao,R., J. Zheng, and R. Zhang|Side Effects of Copper Fungicides on Amblyseius cucumeris by Laboratory Bioassays|Bull. Insectol.64(1): 69-72|2011|
169671|T||Shutcha,M.N., M.M. Mubemba, M.P. Faucon, M.N. Luhembwe, M. Visser, G. Colinet, and P. Meerts|Phytostabilisation of Copper-Contaminated Soil in Katanga: An Experiment with Three Native Grasses and Two Amendments|Int. J. Phytoremediat.12(6): 616-632|2010|10.1080/15226510903390411
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169674|T||Pimentel,E., M.P. Cruces, and S. Zimmering|A Study of the Inhibition/Promotion Effects of Sodium-Copper Chlorophyllin (SCC)-Mediated Mutagenesis in Somatic Cells of Drosophila|Mutat. Res.722(1): 52-55|2011|10.1016/j.mrgentox.2011.03.001
169675|T||Kannaiyan,R., N. Mahinpey, T. Mani, R.J. Martinuzzi, and V. Kostenko|Enhancement of Dichomitus squalens Tolerance to Copper and Copper-Associated Laccase Activity by Carbon and Nitrogen Sources|Biochem. Eng. J.67:140-147|2012|10.1016/j.bej.2012.06.007
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169688|T||Cambrolle,J., J.M. Mancilla-Leyton, S. Munoz-Valles, T. Luque, and M.E. Figueroa|Tolerance and Accumulation of Copper in the Salt-Marsh Shrub Halimione portulacoides|Mar. Pollut. Bull.64(4): 721-728|2012|10.1016/j.marpolbul.2012.02.002
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169692|T||Cheruiyot,D.J., R.S. Boyd, T.A. Coudron, and P.A. Cobine|Biotransfer, Bioaccumulation and Effects of Herbivore Dietary Co, Cu, Ni, and Zn on Growth and Development of the Insect Predator Podisus maculiventris (Say)|J. Chem. Ecol.39(6): 764-772|2013|10.1007/s10886-013-0289-9
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169704|T||Jiang,L., G. Shi, Y. Ding, L. Lou, and Q. Cai|Differential Responses of Two Bamboo Species (Phyllostachys auresulcata 'Spectabilis' and Pleioblastus chino 'Hisauchii') to Excess Copper|BioEnergy Res.6(4): 1223-1229|2013|10.1007/s12155-013-9317-4
169705|T||Khandekar,S., and S. Leisner|Soluble Silicon Modulates Expression of Arabidopsis thaliana Genes Involved in Copper Stress|J. Plant Physiol.168(7): 699-705|2011|10.1016/j.jplph.2010.09.009
169706|T||Bouazizi,H., H. Jouili, A. Geitmann, and E. El Ferjani|Cell Wall Accumulation of Cu Ions and Modulation of Lignifying Enzymes in Primary Leaves of Bean Seedlings Exposed to Excess Copper|Biol. Trace Elem. Res.139(1): 97-107|2011|10.1007/s12011-010-8642-0
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169709|T||Brunel,F., N.E. El Gueddari, and B.M. Moerschbacher|Complexation of Copper(II) with Chitosan Nanogels: Toward Control of Microbial Growth|Carbohydr. Polym.92:1348-1356|2013|10.1016/j.carbpol.2012.10.025
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169743|T||Xu,X., G. Shi, C. Ding, Y. Xu, J. Zhao, H. Yang, and Q. Pan|Regulation of Exogenous Spermidine on the Reactive Oxygen Species Level and Polyamine Metabolism in Alternanthera philoxeroides (Mart.) Griseb Under Copper Stress|Plant Growth Regul.63(3): 251-258|2011|10.1007/s10725-010-9522-5
169744|T||Zhang,Y.F., L.Y. He, Z.J. Chen, Q.Y. Wang, M. Qian, and X.F. Sheng|Characterization of ACC Deaminase-Producing Endophytic Bacteria Isolated  from Copper-Tolerant Plants and Their Potential in Promoting the Growth and Copper Accumulation of Brassica napus|Chemosphere83(1): 57-62|2011|10.1016/j.chemosphere.2011.01.041
169745|A||Kamble,N.A., and S.B. Kamble|Effect of Copper Sulphate on Mucosubstances in the Freshwater Snail Bellamya bengalensis|J. Ecobiol.28(4): 363-370|2011|
169746|T||Le,T.T.Y., M.G. Vijver, T.B. Kinraide, W.J.G.M. Peijnenburg, and A.J. Hendriks|Modelling Metal-Metal Interactions and Metal Toxicity to Lettuce Lactuca sativa Following Mixture Exposure (Cu2+ -Zn2+ and Cu2+ -Ag+)|Environ. Pollut.176:185-192|2013|10.1016/j.envpol.2013.01.017
169747|A||Arnold,W.R.|Effects of Dissolved Organic Carbon on Copper Toxicity: Implications for Saltwater Copper Criteria|Integr. Environ. Assess. Manag.1(1): 34-39|2005|10.1897/IEAM_2004a-002b.1
169748|A||Cordova,S., A. Neaman, I. Gonzalez, R. Ginocchio, and P. Fine|The Effect of Lime and Compost Amendments on the Potential for the Revegetation of Metal-Polluted, Acidic Soils|Geoderma (Amst.)166:135-144|2011|10.1016/j.geoderma.2011.07.022
169749|T||Ulriksen,C., R. Ginocchio, M. Mench, and A. Neaman|Lime and Compost Promote Plant Re-Colonization of Metal-Polluted, Acidic Soils|Int. J. Phytoremediat.14(8): 820-833|2012|10.1080/15226514.2011.628716
169750|T||Steele,D.Z.|Assessing Copper Resistance and Tolerance in Male and Female Baccharis salicifolia for Remediation|M.S.Thesis, California State University, Dominguez Hills, CA:162 p.|2008|
169751|AT||De Perre,C., K.W.J. Williard, J.E. Schoonover, B.G. Young, T.M. Murphy, and M.J. Lydy|Assessing the Fate and Effects of an Insecticidal Formulation|Environ. Toxicol. Chem.34(1): 197-207|2015|10.1002/etc.2786
169752|A||Anderson,B.S., B.M. Phillips, J.P. Voorhees, M.A. Petersen, L.L. Jennings, T.L. Fojut, M.E. Vasquez, C. Siegler, and R.|Relative Toxicity of Bifenthrin to Hyalella azteca in 10 Day Versus 28 Day Exposures|Integr. Environ. Assess. Manag.11(2): 319-328|2015|10.1002/ieam.1609
169753|T||Brown,C., C.J. Hanna, and C.J.B. Hanna|The Importance of Pesticide Exposure Duration and Mode on the Foraging of an Agricultural Pest Predator|Bull. Environ. Contam. Toxicol.94:178-182|2015|10.1007/s00128-014-1425-0
169754|A||Crago,J., and D. Schlenk|The Effect of Bifenthrin on the Dopaminergic Pathway in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.162:66-72|2015|10.1016/j.aquatox.2015.03.005
169755|A||Crago,J., K. Tran, A. Budicin, B. Schreiber, R. Lavado, and D. Schlenk|Exploring the Impacts of Two Separate Mixtures of Pesticide and Surfactants on Estrogenic Activity in Male Fathead Minnows and Rainbow Trout|Arch. Environ. Contam. Toxicol.68:362-370|2015|10.1007/s00244-014-0098-3
169758|T||Panchal,J.A., K.D. Patel, R.K. Jaiman, and N.R. Patel|Efficacy of Plant Extracts, Biological Agents and Fungicides Against Sclerotinia sclerotiorum Incited Stem Rot of Fennel (Foeniculum vulgare Mill.)|Environ. Ecol.29(4A): 2178-2184|2011|
169759|T||Ansari,M.K.A., E. Oztetik, A. Ahmad, S. Umar, M. Iqbal, and G. Owens|Identification of the Phytoremediation Potential of Indian Mustard Genotypes for Copper, Evaluated from a Hydroponic Experiment|Clean - Soil, Air, Water41(8): 789-796|2013|10.1002/clen.201200262
169760|T||Benimeli,C.S., A. Medina, C.M. Navarro, R.B. Medina, M.J. Amoroso, and M.I. Gomez|Bioaccumulation of Copper by Zea mays: Impact on Root, Shoot and Leaf Growth|Water Air Soil Pollut.210(1-4): 365-370|2010|10.1007/s11270-009-0259-6
169762|A||Garcia-Villada,L., M. Rico, M. Altamirano, L. Sanchez-Martin, V. Lopez-Rodas, and E. Costas|Occurrence of Copper Resistant Mutants in the Toxic Cyanobacteria Microcystis aeruginosa: Characterisation and Future Implications in the Use of Copper Sulphate as Algaecide|Water Res.38:2207-2213|2004|10.1016/j.watres.2004.01.036
169763|T||Kopliku,D., and A. Mesi|Toxicity Screening of Water Sources in Flooded Agricultural Areas of Nen-Shkodra Lowland Using Allium cepa L. Assay|J. Environ. Sci. Eng.1:1197-1202|2012|
169764|A||Barad,V.S., and R.S. Kulkarni|Haematological Changes Induced by Short-Term Exposure to Copper in the Indian Freshwater Fish, Notopterus notopterus (Pallas)|Bioscan5(2): 313-316|2010|
169765|A||Saez,C.A., F. Roncarati, A. Moenne, A.J. Moody, and M.T. Brown|Copper-Induced Intra-Specific Oxidative Damage and Antioxidant Responses in Strains of the Brown Alga Ectocarpus siliculosus with Different Pollution Histories|Aquat. Toxicol.159:81-89|2015|10.1016/j.aquatox.2014.11.019
169766|A||Ghelichpour,M.|The Acute Effect of Copper Exposure on Serum Biochemical Characteristics of Common Carp (Cyprinus carpio L.)|Int. J. Aquat. Biol.2(3): 124-128|2014|
169767|T||Hair-Bejo,M.|Gastrointestinal Response to Copper Excess: Studies on Copper (and Zinc) Loaded Rats|Ph.D. Thesis, University of Liverpool, UK:272 p.|1990|
169768|A||Roncarati,F., C.A. Saez, M. Greco, M. Gledhill, M.B. Bitonti, and M.T. Brown|Response Differences Between Ectocarpus siliculosus Populations to Copper Stress Involve Cellular Exclusion and Induction of the Phytochelatin Biosynthetic Pathway|Aquat. Toxicol.159:167-175|2015|10.1016/j.aquatox.2014.12.009
169769|T||Quesada Machigua,C.R.|Effects of Selected Pesticides on Calico Scale and Its Natural Enemies|M.S.Thesis, Purdue University, West Lafayette, IN:74 p.|2013|
169770|T||Marcic,D., P. Peric, S. Stamenkovic, and S. Milenkovic|Field Evaluation of Spiromesifen, a New Tetronic Acid Derivative, Against European Red Mite (Acari: Tetranychidae) on Apple|Acta Hortic.:501-505|2013|10.17660/ActaHortic.2013.981.80
169771|A||Sanil,D., V. Shetty, and N.J. Shetty|Differential Expression of Glutathione s-Transferase Enzyme in Different Life Stages of Various Insecticide-Resistant Strains of Anopheles stephensi: A Malaria Vector|J. Vector Borne Dis.51(2): 97-105|2014|
169772|A||Ng,G.H.B., H.J. Xu, N. Pi, B.C. Kelly, and Z. Gong|Differential GFP Expression Patterns Induced by Different Heavy Metals in Tg(hsp70:gfp) Transgenic Medaka (Oryzias latipes)|Mar. Biotechnol.17:317-327|2015|10.1007/s10126-015-9620-5
169773|A||Feng,M., Q. He, L. Meng, X. Zhang, P. Sun, and Z. Wang|Evaluation of Single and Joint Toxicity of Perfluorooctane Sulfonate, Perfluorooctanoic Acid, and Copper to Carassius auratus Using Oxidative Stress Biomarkers|Aquat. Toxicol.161:108-116|2015|10.1016/j.aquatox.2015.01.025
169774|A||Brooks,S.J., E. Farmen, L.S. Heier, E. Blanco-Rayon, and U. Izagirre|Differences in Copper Bioaccumulation and Biological Responses in Three Mytilus Species|Aquat. Toxicol.160:1-12|2015|10.1016/j.aquatox.2014.12.018
169775|A||De Rossetto,A.L., S.P. Melegari, L.C. Ouriques, and W.G. Matias|Comparative Evaluation of Acute and Chronic Toxicities of CuO Nanoparticles and Bulk Using Daphnia magna and Vibrio fischeri|Sci. Total Environ.490:807-814|2014|10.1016/j.scitotenv.2014.05.056
169777|T||Soare,L.C., C.M. Dobrescu, M. Popescu, and A.G. Boeru|The Effects of Some Pesticides on Spore Germination and Gametophyte Differentiation in Athyrium filix-femina (L.) Roth. and Polypodium vulgare L.|Notulae Bot. Horti Agrobot. Cluj-Napoca41(2): 458-462|2013|10.15835/nbha4129088
169778|A||Cheloni,G., C. Cosio, and V.I. Slaveykova|Antagonistic and Synergistic Effects of Light Irradiation on the Effects of Copper on Chlamydomonas reinhardtii|Aquat. Toxicol.155:275-282|2014|10.1016/j.aquatox.2014.07.010
169780|T||Torres,J.B., A.R.S. Rodrigues, E.M. Barros, and D.S. Santos|Lambda-Cyhalothrin Resistance in the Lady Beetle Eriopis connexa (Coleoptera: Coccinellidae) Confers Tolerance to Other Pyrethroids|J. Econ. Entomol.108(1): 60-68|2015|10.1093/jee/tou035
169781|A||Weston,D.P., D. Schlenk, N. Riar, M.J. Lydy, and M.L. Brooks|Effects of Pyrethroid Insecticides in Urban Runoff on Chinook Salmon, Steelhead Trout, and Their Invertebrate Prey|Environ. Toxicol. Chem.34(3): 649-657|2015|10.1002/etc.2850
169782|T||Peng,H., P.M.H. Kroneck, and H. Kupper|Toxicity and Deficiency of Copper in Elsholtzia splendens Affect Photosynthesis Biophysics, Pigments and Metal Accumulation|Environ. Sci. Technol.47(12): 6120-6128|2013|10.1021/es3050746
169783|A||Weston,D.P., and M.J. Lydy|Stormwater Input of Pyrethroid Insecticides to an Urban River|Environ. Toxicol. Chem.31(7): 1579-1586|2012|10.1002/etc.1847
169784|T||Mleczek,M., M. Gasecka, K. Drzewiecka, P. Golinski, Z. Magdziak, and T. Chadzinikolau|Copper Phytoextraction with Willow (Salix viminalis L.) Under Various Ca/Mg Ratios. Part 1. Copper Accumulation and Plant Morphology Changes|Acta Physiol. Plant.35(11): 3251-3259|2013|10.1007/s11738-013-1360-4
169785|T||Liu,X., Y. Shen, L. Lou, C. Ding, and Q. Cai|Copper Tolerance of the Biomass Crops Elephant Grass (Pennisetum purpureum Schumach), Vetiver Grass (Vetiveria zizanioides) and the Upland Reed (Phragmites australis) in Soil Culture|Biotechnol. Adv.27(5): 633-640|2009|10.1016/j.biotechadv.2009.04.017
169786|T||Gan,J.H., Z.T. Xiong, J.P. Li, and D.Q. Chen|Differential Response to Copper Stress in the Reproductive Resources and Allocation of Metallophyte Kummerowia stipulacea|Ecotoxicol. Environ. Saf.89:204-211|2013|10.1016/j.ecoenv.2012.11.033
169787|T||Israr,M., A. Jewell, D. Kumar, and S.V. Sahi|Interactive Effects of Lead, Copper, Nickel and Zinc on Growth, Metal Uptake and Antioxidative Metabolism of Sesbania drummondii|J. Hazard. Mater.186(2/3): 1520-1526|2011|10.1016/j.jhazmat.2010.12.021
169788|T||Lin,Q., Z. Wang, S. Ma, and Y. Chen|Evaluation of Dissipation Mechanisms by Lolium perenne L., and Raphanus sativus for Pentachlorophenol (PCP) in Copper Co-Contaminated Soil|Sci. Total Environ.368(2/3): 814-822|2006|10.1016/j.scitotenv.2006.03.024
169789|T||Lehotai,N., A. Peto, S. Bajkan, L. Erdei, I. Tari, and Z. Kolbert|In Vivo and In Situ Visualization of Early Physiological Events Induced by Heavy Metals in Pea Root Meristem|Acta Physiol. Plant.33(6): 2199-2207|2011|10.1007/s11738-011-0759-z
169790|T||Chigbo,C., L. Batty, and R. Bartlett|Interactions of Copper and Pyrene on Phytoremediation Potential of Brassica juncea in Copper-Pyrene Co-Contaminated Soil|Chemosphere90(10): 2542-2548|2013|10.1016/j.chemosphere.2012.11.007
169791|T||Cuypers,A., K. Smeets, J. Ruytinx, K. Opdenakker, E. Keunen, T. Remans, N. Horemans, N. Vanhoudt, S. Van Sanden, F. Van|The Cellular Redox State as a Modulator in Cadmium and Copper Responses in Arabidopsis thaliana Seedlings|J. Plant Physiol.168(4): 309-316|2011|10.1016/j.jplph.2010.07.010
169792|T||Azooz,M.M., M.F. Abou-Elhamd, and M.A. Al-Fredan|Biphasic Effect of Copper on Growth, Proline, Lipid Peroxidation and Antioxidant Enzyme Activities of Wheat (Triticum aestivum cv. Hasaawi) at Early Growing Stage|Aust. J. Crop Sci.6(4): 688-694|2012|
169793|T||Le,T.T.Y., W.J.G.M. Peijnenburg, A.J. Hendriks, and M.G. Vijver|Predicting Effects of Cations on Copper Toxicity to Lettuce (Lactuca sativa) by the Biotic Ligand Model|Environ. Toxicol. Chem.31(2): 355-359|2012|10.1002/etc.736
169794|T||Jamar,L., B. Lefrancq, C. Fassotte, and M. Lateur|A During-Infection Spray Strategy Using Sulphur Compounds, Copper, Silicon and a New Formulation of Potassium Bicarbonate for Primary Scab Control in Organic Apple Production|Eur. J. Plant Pathol.122(4): 481-493|2008|10.1007/s10658-008-9315-0
169795|T||Al-Hakimi,A.B.M., and A.M. Hamada|Ascorbic Acid, Thiamine or Salicylic Acid Induced Changes in Some Physiological Parameters in Wheat Grown Under Copper Stress|Plant Prot. Sci.47(3): 92-108|2011|10.17221/20/2010-PPS
169796|A||Angel,B.M., S.L. Simpson, A.A. Chariton, J.L. Stauber, and D.F. Jolley|Time-Averaged Copper Concentrations from Continuous Exposures Predicts Pulsed Exposure Toxicity to the Marine Diatom, Phaeodactylum tricornutum: Importance of Uptake and Elimination|Aquat. Toxicol.164:1-9|2015|10.1016/j.aquatox.2015.04.008
169797|T||Fan,L.M., Z.Q. Ma, J.Q. Liang, H.F. Li, E.T. Wang, and G.H. Wei|Characterization of a Copper-Resistant Symbiotic Bacterium Isolated from Medicago lupulina Growing in Mine Tailings|Bioresour. Technol.102(2): 703-709|2011|10.1016/j.biortech.2010.08.046
169798|T||Majid,N.M., M.M. Islam, and R.A. Rauf|Evaluation of Jelutong (Dyera cotulata) as a Phytoremediator to Uptake Copper (Cu) from Contaminated Soils|Aust. J. Crop Sci.6(2): 369-374|2012|
169799|T||Turchi,A., I. Tamantini, A.M. Camussi, and M.L. Racchi|Expression of a Metallothionein A1 Gene of Pisum sativum in White Poplar Enhances Tolerance and Accumulation of Zinc and Copper|Plant Sci.183:50-56|2012|10.1016/j.plantsci.2011.11.008
169800|T||Rodriguez-Llorente,I.D., A. Lafuente, B. Doukkali, M.A. Caviedes, and E. Pajuelo|Engineering Copper Hyperaccumulation in Plants by Expressing a Prokaryotic copC Gene|Environ. Sci. Technol.46(21): 12088-12097|2012|10.1021/es300842s
169801|T||Zhang,H., F. Zhang, Y. Xia, G. Wang, and Z. Shen|Excess Copper Induces Production of Hydrogen Peroxide in the Leaf of Elsholtzia haichowensis Through Apoplastic and Symplastic CuZn-Superoxide Dismutase|J. Hazard. Mater.178(1-3): 834-843|2010|10.1016/j.jhazmat.2010.02.014
169802|A||Adam,N., L. Vergauwen, R. Blust, and D. Knapen|Gene Transcription Patterns and Energy Reserves in Daphnia magna Show no Nanoparticle Specific Toxicity when Exposed to ZnO and CuO Nanoparticles|Environ. Res.138:82-92|2015|10.1016/j.envres.2015.02.014
169803|T||Zhang,L., Z.T. Xiong, Z.R. Xu, C. Liu, and S.W. Cai|Cloning and Characterization of Acid Invertase Genes in the Roots of the Metallophyte Kummerowia stipulacea (Maxim.) Makino from Two Populations: Differential Expression Under Copper Stress|Ecotoxicol. Environ. Saf.104:87-95|2014|10.1016/j.ecoenv.2014.02.005
169804|T||Price,J.F., and C.A. Nagle|Insecticidal Control of Adult Haptoncus luteolus as a Component of a Comprehensive Sap Beetle Management Plan in Strawberries|Int. J. Fruit Sci.13:227-233|2013|10.1080/15538362.2012.698178
169805|T||Chen,F., W. Fang, Z. Yang, and J. Yuan|Cadmium and Copper Uptake and Accumulation by Sesbania rostrata Seedling, a N-Fixing Annual Plant: Implications for the Mechanism of Heavy Metal Tolerance|Front. Biol. China4(2): 200-206|2009|10.1007/s11515-009-0008-7
169806|T||Salahuddin,B., H. Ur Rahman, I. Khan, and M.K. Daud|Incidence and Management of Coconut Scale, Aspidiotus destructor Signoret (Hemiptera: Diaspididae), and Its Parasitoids on Mango (Mangifera sp.)|Crop Prot.74:103-109|2015|10.1016/j.cropro.2015.03.019
169807|A||Traudt,E.M.|Toxicity of Binary Mixtures of Nickel, Copper, Cadmium and Zinc to Daphnia magna|M.S.Thesis, Colorado School of Mines, Golden, CO:76 p.|2014|
169808|A||Azizishirazi,A., W.A. Dew, B. Bougas, L. Bernatchez, and G.G. Pyle|Dietary Sodium Protects Fish Against Copper-Induced Olfactory Impairment|Aquat. Toxicol.161:1-9|2015|10.1016/j.aquatox.2015.01.017
169809|A||Adam,N., A. Vakurov, D. Knapen, and R. Blust|The Chronic Toxicity of CuO Nanoparticles and Copper Salt to Daphnia magna|J. Hazard. Mater.283:416-422|2015|10.1016/j.jhazmat.2014.09.037
169810|A||Rosenfeldt,R.R., F. Seitz, J.P. Zubrod, A. Feckler, T. Merkel, S. Luderwald, R. Bundschuh, R. Schulz, and M. Bundschuh|Does the Presence of Titanium Dioxide Nanoparticles Reduce Copper Toxicity? A Factorial Approach with the Benthic Amphipod Gammarus fossarum|Aquat. Toxicol.165:154-159|2015|10.1016/j.aquatox.2015.05.011
169811|A||Ramskov,T., A. Thit, M.N. Croteau, and H. Selck|Biodynamics of Copper Oxide Nanoparticles and Copper Ions in an Oligochaete - Part I: Relative Importance of Water and Sediment as Exposure Routes|Aquat. Toxicol.164:81-91|2015|10.1016/j.aquatox.2015.04.022
169812|A||Piscia,R., M. Colombini, B. Ponti, R. Bettinetti, D. Monticelli, V. Rossi, and M. Manca|Lifetime Response of Contemporary Versus Resurrected Daphnia galeata Sars (Crustacea, Cladocera) to Cu(II) Chronic Exposure|Bull. Environ. Contam. Toxicol.94:46-51|2015|10.1007/s00128-014-1413-4
169813|A||Jiang,W.D., Y. Liu, J. Jiang, P. Wu, L. Feng, and X.Q. Zhou|Copper Exposure Induces Toxicity to the Antioxidant System via the Destruction of Nrf2/ARE Signaling and Caspase-3-Regulated DNA Damage in Fish Muscle: Amelioration by Myo-Inositol|Aquat. Toxicol.159:245-255|2015|10.1016/j.aquatox.2014.12.020
169814|A||Abdel-Moneim,A., M. Moreira-Santos, and R. Ribeiro|A Short-Term Sublethal Toxicity Assay with Zebra Fish Based on Preying Rate and Its Integration with Mortality|Chemosphere120:568-574|2015|10.1016/j.chemosphere.2014.09.083
169815|A||Zhao,Z., H. Shi, D. Duan, H. Li, T. Lei, M. Wang, H. Zhao, and Y. Zhao|The Influence of Duckweed Species Diversity on Ecophysiological Tolerance to Copper Exposure|Aquat. Toxicol.164:92-98|2015|10.1016/j.aquatox.2015.04.019
169816|A||Wang,B., L. Feng, W.D. Jiang, P. Wu, S.Y. Kuang, J. Jiang, L. Tang, W.N. Tang, Y.A. Zhang, Y. Liu, and X.Q. Zhou|Copper-Induced Tight Junction mRNA Expression Changes, Apoptosis and Antioxidant Responses Via Nf-KB, TOR and Nrf2 Signaling Molecules in the Gills of Fish: Preventive Role of Arginine|Aquat. Toxicol.158:125-137|2015|10.1016/j.aquatox.2014.10.025
169817|T||Yeary,W., A. Fulcher, W. Klingeman, J. Grant, and X. Sun|Responses of Three Natural Enemy Species to Contact and Systemic Insecticide Exposures in Confined Assays|J. Entomol. Sci.50(1): 35-46|2015|10.18474/0749-8004-50.1.35
169818|T||Zimmer,C.T., A. Muller, U. Heimbach, and R. Nauen|Target-Site Resistance to Pyrethroid Insecticides in German Populations of the Cabbage Stem Flea Beetle, Psylliodes chrysocephala L. (Coleoptera: Chrysomelidae)|Pestic. Biochem. Physiol.108:1-7|2014|10.1016/j.pestbp.2013.11.005
169819|A||Canli,E.G., and M. Canli|Low Water Conductivity Increases the Effects of Copper on the Serum Parameters in Fish (Oreochromis niloticus)|Environ. Toxicol. Pharmacol.39:606-613|2015|10.1016/j.etap.2014.12.019
169820|T||Khammuang,S., T. Yuwa-Amornpitak, J. Svasti, and R. Sarnthima|Copper Induction of Laccases by Lentinus polychrous Under Liquid-State Fermentation|Biocatal. Agric. Biotechnol.2:357-362|2013|10.1016/j.bcab.2013.05.004
169821|A||Von Moos,N., L. Maillard, and V.I. Slaveykova|Dynamics of Sub-Lethal Effects of Nano-CuO on the Microalga Chlamydomonas reinhardtii During Short-Term Exposure|Aquat. Toxicol.161:267-275|2015|10.1016/j.aquatox.2015.02.010
169822|T||Baud,D.R., and S.R. Pezeshki|Root Porosity Changes in Salix nigra Cuttings in Response to Copper and Ultraviolet-B Radiation Exposure|Water Air Soil Pollut.221(104): 99-105|2011|10.1007/s11270-011-0772-2
169823|T||Huang,W.X., Y. Cao, L.J. Huang, C. Ren, and Z.T. Xiong|Differential Expression of Acid Invertase Genes in Roots of Metallicolous and Non-Metallicolous Populations of Rumex japonicus Under Copper Stress|Chemosphere84(10): 1432-1439|2011|10.1016/j.chemosphere.2011.04.053
169824|A||Meyer,J.S., J.F. Ranville, M. Pontasch, J.W. Gorsuch, and W.J. Adams|Acute Toxicity of Binary and Ternary Mixtures of Cd, Cu, and Zn to Daphnia magna|Environ. Toxicol. Chem.34(4): 799-808|2015|10.1002/etc.2787
169825|T||Huang,W.X., Y. Huang, F.Y. Ye, S. Shan, and Z.T. Xiong|Effects of Copper on Phenology and Reproduction in Rumex dentatus from Metalliferous and Non-Metalliferous Sites|Ecotoxicol. Environ. Saf.74(4): 1043-1049|2011|10.1016/j.ecoenv.2011.01.020
169827|T||Juang,K.W., H.Y. Lai, and B.C. Chen|Coupling Bioaccumulation and Phytotoxicity to Predict Copper Removal by Switchgrass Grown Hydroponically|Ecotoxicology20(4): 827-835|2011|10.1007/s10646-011-0635-z
169828|T||Cai,S.W., W.X. Huang, Z.T. Xiong, F.Y. Ye, C. Ren, Z.R. Xu, C. Liu, S.Q. Deng, and J. Zhao|Comparative Study of Root Growth and Sucrose-Cleaving Enzymes in Metallicolous and Non-Metallicolous Populations of Rumex dentatus Under Copper Stress|Ecotoxicol. Environ. Saf.98:95-102|2013|10.1016/j.ecoenv.2013.09.017
169829|A||Saglam,D., G. Atli, Z. Dogan, E. Baysoy, C. Gurler, A. Eroglu, and M. Canli|Response of the Antioxidant System of Freshwater Fish (Oreochromis niloticus) Exposed to Metals (Cd, Cu) in Differing Hardness|Turk. J. Fish. Aquat. Sci.14:43-52|2014|
169830|A||Nunes,B., A.R. Barbosa, S.C. Antunes, and F. Goncalves|Combination Effects of Anticholinesterasics in Acetylcholinesterase of a Fish Species:  Effects of a Metallic Compound, an Organophosphate Pesticide, and a Pharmaceutical Drug|Environ. Sci. Pollut. Res.21:6258-6262|2014|10.1007/s11356-014-2584-6
169831|A||Kim,S.H., S.J. Kim, J.S. Lee, and Y.M. Lee|Acute Effects of Heavy Metals on the Expression of Glutathione-Related Antioxidant Genes in the Marine Ciliate Euplotes crassus|Mar. Pollut. Bull.85:455-462|2014|10.1016/j.marpolbul.2014.05.025
169832|T||Shan,Q., X. Liu, J. Zhang, G. Chen, S. Liu, P. Zhang, and Y. Wang|Analysis on the Tolerance of Four Ecotype Plants Against Copper Stress in Soil|Proc. Environ. Sci.10(Part B): 1802-1810|2011|10.1016/j.proenv.2011.09.282
169833|A||Huang,C., Q.L. Chen, Z. Luo, X. Shi, Y.X. Pan, Y.F. Song, M.Q. Zhuo, and K. Wu|Time-Dependent Effects of Waterborne Copper Exposure Influencing Hepatic Lipid Deposition and Metabolism in Javelin Goby Synechogobius hasta and Their Mechanism|Aquat. Toxicol.155:291-300|2014|10.1016/j.aquatox.2014.07.013
169834|A||Gomes,T., S. Chora, C.G. Pereira, C. Cardoso, and M.J. Bebianno|Proteomic Response of Mussels Mytilus galloprovincialis Exposed to CuO NPs and Cu2+: An Exploratory Biomarker Discovery|Aquat. Toxicol.155:327-336|2014|10.1016/j.aquatox.2014.07.015
169835|A||Da Silva,E.S., S.I.M. Abril, J. Zanette, and A. Bianchini|Salinity-Dependent Copper Accumulation in the Guppy Poecilia vivipara is Associated with CTR1 and ATP7B Transcriptional Regulation|Aquat. Toxicol.152:300-307|2014|10.1016/j.aquatox.2014.04.024
169836|A||Boudjema,K., S. Kourdali, N. Bounakous, A. Meknachi, and A. Badis|Catalase Activity in Brown Mussels (Perna perna) Under Acute Cadmium, Lead, and Copper Exposure and Depuration Tests|J. Mar. Biol.:9 p.|2014|
169837|T||Giampaoli,P., F. Tresmondi, G.P.P. Lima, S. Kanashiro, E.S. Alves, M. Domingos, and A.R. Tavares|Analysis of Tolerance to Copper and Zinc in Aechmea blanchetiana Grown In Vitro|Biol. Plant. (Praha)56(1): 83-88|2012|10.1007/s10535-012-0020-7
169838|T||Dasgupta-Schubert,N., M.G. Barrera, C.J. Alvarado, O.S. Castillo, E.M. Zaragoza, S. Alexander, S. Landsberger, and S. R|The Uptake of Copper by Aldama dentata: Ecophysiological Response, Its Modeling, and the Implication for Phytoremediation|Water Air Soil Pollut.220(1-4): 37-55|2011|10.1007/s11270-010-0733-1
169839|T||Suherman, C. Schmidt, M. Kolb, D. Zachmann, and M. Bahadir|Partitioning of Copper and Lead Between Solid and Dissolved Organic Matter in a Humus-Rich Soil of the Harz Mountains (Germany) and Ecotoxicity Test with Lepidium sativum|Fresenius Environ. Bull.22(2): 318-327|2013|
169840|A||Bao,V.W.W., G.C.S. Lui, and K.M.Y. Leung|Acute and Chronic Toxicities of Zinc Pyrithione Alone and in Combination with Copper to the Marine Copepod Tigriopus japonicus|Aquat. Toxicol.157(0): 81-93|2014|10.1016/j.aquatox.2014.09.013
169841|T||Majid,N.M., M.M. Islam, V. Justin, A. Abdu, and P. Ahmadpour|Evaluation of Heavy Metal Uptake and Translocation by Acacia mangium as a Phytoremediator of Copper Contaminated Soil|Afr. J. Biotechnol.10(42): 8373-8379|2011|10.5897/AJB11.392
169842|A||De Polo,A., L. Margiotta-Casaluci, A.E. Lockyer, and M.D. Scrimshaw|A New Role for Carbonic Anhydrase 2 in the Response of Fish to Copper and Osmotic Stress: Implications for Multi-Stressor Studies|PLoS One9(10): 15 p.|2014|10.1371/journal.pone.0107707
169843|A||Bresnehan,A.M.|Fleeing Predation: The Effect of Copper Exposure on Inducible Antipredator Defenses in Daphnia pulicaria Clones from a Historically Metal Contaminated Lake|M.S.Thesis, Queens University, Kingston, Canada:81 p.|2012|
169844|T||Heuberger,J.W., and J.G. Horsfall|Relation of Particle Size and Color to Fungicidal and Protective Value of Cuprous Oxide|Phytopathology29:303-321|1939|
169845|T||Lamb,D.T., H. Ming, M. Megharaj, and R. Naidu|Relative Tolerance of a Range of Australian Native Plant Species and Lettuce to Copper, Zinc, Cadmium, and Lead|Arch. Environ. Contam. Toxicol.59(3): 424-432|2010|10.1007/s00244-010-9481-x
169846|T||Andreazza,R., B.C. Okeke, M.R. Lambais, L. Bortolon, G.W. Bastos de Melo, and F.A. De Oliveira Camargo|Bacterial Stimulation of Copper Phytoaccumulation by Bioaugmentation with Rhizosphere Bacteria|Chemosphere81(9): 1149-1154|2010|10.1016/j.chemosphere.2010.09.047
169847|T||Lamb,D.T., R. Naidu, H. Ming, and M. Megharaj|Copper Phytotoxicity in Native and Agronomical Plant Species|Ecotoxicol. Environ. Saf.85:23-29|2012|10.1016/j.ecoenv.2012.08.018
169848|T||Gonzalez,I., A. Cortes, A. Neaman, and P. Rubio|Biodegradable Chelate Enhances the Phytoextraction of Copper by Oenothera picensis Grown in Copper-Contaminated Acid Soils|Chemosphere84:490-496|2011|10.1016/j.chemosphere.2011.03.015
169849|A||Bosse,C., G. Rosen, M. Colvin, P. Earley, R. Santore, and I. Rivera-Duarte|Copper Bioavailability and Toxicity to Mytilus galloprovincialis in Shelter Island Yacht Basin, San Diego, CA|Mar. Pollut. Bull.85:225-234|2014|10.1016/j.marpolbul.2014.05.045
169850|A||Brahim Errahmani,M., F. Zouaoui, and D. Bendjoudi|Metabolic Effects in the Bivalve Perna perna and Mytilus galloprovincialis: Impact on the Environment Due to Contamination by Copper|J. Mar. Biol.:9 p.|2014|
169851|A||Arrhenius,S., T. Backhaus, A. Hilvarsson, I. Wendt, A. Zgrundo, and H. Blanck|A Novel Bioassay for Evaluating the Efficacy of Biocides to Inhibit Settling and Early Establishment of Marine Biofilms|Mar. Pollut. Bull.87(1/2): 292-299|2014|10.1016/j.marpolbul.2014.07.011
169852|A||Cazan,A.M., and P.L. Klerks|Effects from a Short-Term Exposure to Copper or Cadmium in Gravid Females of the Livebearer Fish (Gambusia affinis)|Ecotoxicol. Environ. Saf.118:199-203|2015|10.1016/j.ecoenv.2015.04.039
169853|A||Closson,K.R., and E.A. Paul|Comparison of the Toxicity of Two Chelated Copper Algaecides and Copper Sulfate to Non-Target Fish|Bull. Environ. Contam. Toxicol.93:660-665|2014|10.1007/s00128-014-1394-3
169854|A||De Lima,D., G.M. Roque, and E.A. De Almeida|In Vitro and In Vivo Inhibition of Acetylcholinesterase and Carboxylesterase by Metals in Zebrafish (Danio rerio)|Mar. Environ. Res.91:45-51|2013|10.1016/j.marenvres.2012.11.005
169855|A||Fabbri,R., M. Montagna, T. Balbi, E. Raffo, F. Palumbo, and L. Canesi|Adaptation of the Bivalve Embryotoxicity Assay for the High Throughput Screening of Emerging Contaminants in Mytilus galloprovincialis|Mar. Environ. Res.99:1-8|2014|10.1016/j.marenvres.2014.05.007
169856|A||Jeong,C.B., B.M. Kim, R.K. Kim, H.G. Park, S.J. Lee, K.H. Shin, K.M.Y. Leung, J.S. Rhee, and J.S. Lee|Functional Characterization of P-Glycoprotein in the Intertidal Copepod Tigriopus japonicus and Its Potential Role in Remediating Metal Pollution|Aquat. Toxicol.156:135-147|2014|10.1016/j.aquatox.2014.08.005
169857|A||Fulton,B.A., and J.S. Meyer|Development of a Regression Model to Predict Copper Toxicity to Daphnia magna and Site-Specific Copper Criteria Across Multiple Surface-Water Drainages in an Arid Landscape|Environ. Toxicol. Chem.33(8): 1865-1873|2014|10.1002/etc.2631
169858|A||Li,A.J., P.T.Y. Leung, V.W.W. Bao, A.X.L. Yi, and K.M.Y. Leung|Temperature-Dependent Toxicities of Four Common Chemical Pollutants to the Marine Medaka Fish, Copepod and Rotifer|Ecotoxicology23:1564-1573|2014|10.1007/s10646-014-1297-4
169859|A||Maisano,M., T. Cappello, E. Catanese, V. Vitale, A. Natalotto, A. Giannetto, D. Barreca, E. Brunelli, A. Mauceri, and S|Developmental Abnormalities and Neurotoxicological Effects of CuO NPs on the Black Sea Urchin Arbacia lixula by Embryotoxicity Assay|Mar. Environ. Res.111:121-127|2015|10.1016/j.marenvres.2015.05.010
169860|A||Nielsen,S.L., H.D. Nielsen, and M.F. Pedersen|Juvenile Life Stages of the Brown Alga Fucus serratus L. are More Sensitive to Combined Stress from High Copper Concentration and Temperature than Adults|Mar. Biol.161:1895-1904|2014|10.1007/s00227-014-2471-1
169861|A||Park,A., Y.J. Kim, E.M. Choi, M.T. Brown, and T. Han|A Novel Bioassay Using Root Re-Growth in Lemna|Aquat. Toxicol.140/141:415-424|2013|10.1016/j.aquatox.2013.06.004
169862|A||Rainville,L.C., A.V. Coelho, and D. Sheehan|Application of a Redox-Proteomics Toolbox to Daphnia magna Challenged with Model Pro-Oxidants Copper and Paraquat|Environ. Toxicol. Chem.34(1): 84-91|2015|10.1002/etc.2761
169863|A||Rosenfeldt,R.R., F. Seitz, R. Schulz, and M. Bundschuh|Heavy Metal Uptake and Toxicity in the Presence of Titanium Dioxide Nanoparticles:  A Factorial Approach Using Daphnia magna|Environ. Sci. Technol.48(12): 6965-6972|2014|10.1021/es405396a
169865|T||Zappala,M.N.|Biological Effects of Copper on Prosopis pubescens  (Screw Bean Mesquite)|Ph.D. Thesis, The University of Texas at El Paso, TX:152 p.|2012|
169866|A||Kanak,E.G., Z. Dogan, A. Eroglu, G. Atli, and M. Canli|Effects of Fish Size on the Response of Antioxidant Systems of Oreochromis niloticus Following Metal Exposures|Fish Physiol. Biochem.40:1083-1091|2014|
169867|T||Oliveira,T., A.P. Mucha, I. Reis, P. Rodrigues, C.R. Gomes, and C.M.R. Almeida|Copper Phytoremediation by a Salt Marsh Plant (Phragmites australis) Enhanced by Autochthonous Bioaugmentation|Mar. Pollut. Bull.88:231-238|2014|10.1016/j.marpolbul.2014.08.038
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169869|T||Bordas,E., S. Gabor, and S. Nagy|In Vivo Interactions of Copper and Cadmium|Rev. Roum. Biochim.16(1): 3-6|1979|
169871|T||Evering,W.E., S. Haywood, M.E. Elmes, B. Jasani, and J. Trafford|Histochemical and Immunocytochemical Evaluation of Copper and Metallothionein in the Liver and Kidney of Copper-Loaded Rats|J. Pathol.160(4): 305-312|1990|10.1002/path.1711600406
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169873|T||Helman,R.G., L.G. Adams, K.R. Pierce, C.H. Bridges, and E.M. Bailey|The Role of Lysosomes in the Pathogenesis of Copper-Induced Hepatotoxicity:  Morphological Studies|J. Comp. Pathol.95(1): 25-35|1985|10.1016/0021-9975(85)90074-X
169874|A||Siddiqui,S., R.H. Goddard, and G.K. Bielmyer-Fraser|Comparative Effects of Dissolved Copper and Copper Oxide Nanoparticle Exposure to the Sea Anemone, Exaiptasia pallida|Aquat. Toxicol.160:205-213|2015|10.1016/j.aquatox.2015.01.007
169875|A||Bautista-Covarrubias,J.C., M.G. Frias-Espericueta, G.J. Velarde-Montes, D. Voltolina, L.M. Garcia-De La Parra, and M.F.|Relationships Between Copper and Stress Indicators in the Pacific White Shrimp, Litopenaeus vannamei|Mar. Freshw. Behav. Physiol.48(3): 193-203|2015|10.1080/10236244.2015.1024079
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169877|T||Maritz,G.S., H.L. Matthews, and J. Aalbers|Maternal Copper Supplementation Protects the Neonatal Rat Lung Against the Adverse Effects of Maternal Nicotine Exposure|Reprod. Fertil. Develop.12(1/2): 97-103|2000|10.1071/RD98127
169878|T||Mehrotra,R., P. Nath, V. Wahal, P. Tandon, and R.K. Pandey|Copper Induced Mallory Body Formation in Albino Mice|Indian J. Pathol. Microbiol.28(4): 341-347|1985|
169880|T||Mejborn,H.|Effect of Copper Addition to Mink Feed During the Growth and Moulting Period on Growth, Skin Production, and Copper Retention|Scientifur13(3): 229-234|1989|
169881|T||Rangachar,T.R.S., Jayaprakash, and K. Thimmaiah|Immunological Responses to Copper and Zinc Supplementation in Poultry|Indian J. Poult. Sci.13(1): 39-43|1978|
169882|T||Sevkovic,N., I. Rajic, S. Murgaski, and G. Mrvos|The Effect of Copper on Embryonal Mortality of Piglets|In: Proceedings of Third International Pig Veterinary Society Congress, Lyon, June 14-14, 1974, Lyon, France7:1-3|1974|
169883|T||Sharma,V., and T. Prasad|Erythrocyte Superoxide Dismutase Activity in Goats Fed on Different Levels of Dietary Available Copper|Indian J. Anim. Sci.55(11): 967-970|1985|
169884|T||Buss,W., C. Kammann, and H.W. Koyro|Biochar Reduces Copper Toxicity in Chenopodium quinoa Willd. in a Sandy Soil|J. Environ. Qual.41(4): 1157-1165|2012|10.2134/jeq2011.0022
169885|T||Kunhikrishnan,A., N.S. Bolan, and R. Naidu|Phytoavailability of Copper in the Presence of Recycled Water Sources|Plant Soil348(1/2): 425-438|2011|10.1007/s11104-011-0899-3
169886|T||Peto,A., N. Lehotai, J. Lozano-Juste, J. Leon, I. Tari, L. Erdei, and Z. Kolbert|Involvement of Nitric Oxide and Auxin in Signal Transduction of Copper-Induced Morphological Responses in Arabidopsis Seedlings|Ann. Bot.108(3): 449-457|2011|10.1093/aob/mcr176
169887|T||Chen,C.C., Y.Y. Chen, I.C. Tang, H.M. Liang, C.C. Lai, J.M. Chiou, and K.C. Yeh|Arabidopsis SUMO E3 Ligase SIZ1 is Involved in Excess Copper Tolerance|Plant Physiol.156(4): 2225-2234|2011|10.1104/pp.111.178996
169888|T||Xu,J., Y.S. Tian, R.H. Peng, A.S. Xiong, B. Zhu, X.F. Jin, J.J. Gao, X.L. Hou, and Q.H. Yao|Yeast Copper-Dependent Transcription Factor ACE1 Enhanced Copper Stress Tolerance in Arabidopsis|BMB Rep.42(11): 752-757|2009|10.5483/BMBRep.2009.42.11.752
169889|T||Singh,S., S. Singh, V. Ramachandran, and S. Eapen|Copper Tolerance and Response of Antioxidative Enzymes in Axenically Grown Brassica juncea (L.) Plants|Ecotoxicol. Environ. Saf.73(8): 1975-1981|2010|10.1016/j.ecoenv.2010.08.020
169890|T||Meier,S., M. Alvear, F. Borie, P. Aguilera, R. Ginocchio, and P. Cornejo|Influence of Copper on Root Exudate Patterns in Some Metallophytes and Agricultural Plants|Ecotoxicol. Environ. Saf.75(1): 8-15|2012|10.1016/j.ecoenv.2011.08.029
169891|T||Iseri,O.D., D.A. Korpe, E. Yurtcu, F.I. Sahin, and M. Haberal|Copper-Induced Oxidative Damage, Antioxidant Response and Genotoxicity in Lycopersicum esculentum Mill. and Cucumis sativus L.|Plant Cell Rep.30(9): 1713-1721|2011|10.1007/s00299-011-1079-x
169892|T||Fan,J., Z. He, L.Q. Ma, T.A.R. Nogueira, Y. Wang, Z. Liang, and P.J. Stoffella|Calcium Water Treatment Residue Reduces Copper Phytotoxicity in Contaminated Sandy Soils|J. Hazard. Mater.199/200:375-382|2012|10.1016/j.jhazmat.2011.11.030
169893|T||Kulikova,A.L., N.A. Kuznetsova, and V.P. Kholodova|Effect of Copper Excess in Environment on Soybean Root Viability and Morphology|Russ. J. Plant Physiol.58(5): 836-843|2011|10.1134/S102144371105013X
169894|T||Korpe,D.A., and S. Aras|Evaluation of Copper-Induced Stress on Eggplant (Solanum melongena L.) Seedlings at the Molecular and Population Levels by Use of Various Biomarkers|Mutat. Res.719(1/2): 29-34|2011|10.1016/j.mrgentox.2010.10.003
169895|T||Barnes,J.W., and L.R. Oliver|Cloransulam Absorption, Translocation, and Efficacy on Common Broadleaf Weed Species|Weed Sci.52(4): 634-641|2004|10.1614/WS-03-112R
169896|T||Byker,H.P., N. Soltani, D.E. Robinson, F.J. Tardif, M.B. Lawton, and P.H. Sikkema|Glyphosate-Resistant Canada Fleabane (Conyza canadensis (L). Cronq.): Dose Response to Glyphosate and Control with Postemergence Herbicides in Soybean in Ontario|Can. J. Plant Sci.93:1187-1193|2013|10.4141/cjps2013-067
169897|T||Kering,M.K., C. Huo, S.M. Interrante, D.W. Hancock, and T.J. Butler|Effect of Various Herbicides on Warm-Season Grass Weeds and Switchgrass Establishment|Crop Sci.53:666-673|2013|10.2135/cropsci2012.04.0252
169898|T||Olszyk,D., T. Pfleeger, E.H. Lee, and M. Plocher|Phytotoxicity Assay for Seed Production Using Brassica rapa L.|Integr. Environ. Assess. Manag.6(4): 725-734|2010|10.1002/ieam.89
169899|T||Zheng,D., G.R. Kruger, S. Singh, V.M. Davis, P.J. Tranel, S.C. Weller, and W.G. Johnson|Cross-Resistance of Horseweed (Conyza canadensis) Populations with Three Different ALS Mutations|Pest Manag. Sci.67:1486-1492|2011|10.1002/ps.2190
169900|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Tolerance of Black, Cranberry, Kidney, and White Bean to Cloransulam-Methyl|Weed Biol. Manag.10:33-39|2010|10.1111/j.1445-6664.2010.00364.x
169901|T||Baldos,O.C., J. DeFrank, and G. Sakamoto|Pre- and Postemergence Herbicide Tolerance of Tropical Fimbry, a Native Hawaiian Sedge with Potential Use for Roadside Revegetation|HortTechnology22(1): 126-130|2012|10.21273/HORTTECH.22.1.126
169902|A||Asih,A.Y.P., B. Irawan, and A. Soegianto|Effect of Copper on Survival, Osmoregulation, and Gill Structures of Freshwater Prawn (Macrobrachium rosenbergii, de Man) at Different Development Stages|Mar. Freshw. Behav. Physiol.46(2): 75-88|2013|10.1080/10236244.2013.793471
169903|T||Menezes-Oliveira,V.B., C. Damgaard, J.J. Scott-Fordsmand, and M.J.B. Amorim|Interaction Between Density and Cu Toxicity for Enchytraeus crypticus - Comparing First and Second Generation Effects|Sci. Total Environ.458-460:361-366|2013|10.1016/j.scitotenv.2013.04.053
169904|A||Smith,C.L., J.E. Steele, J.L. Stauber, and D.F. Jolley|Copper-Induced Changes in Intracellular Thiols in Two Marine Diatoms: Phaeodactylum tricornutum and Ceratoneis closterium|Aquat. Toxicol.156:211-220|2014|10.1016/j.aquatox.2014.08.010
169905|A||Upadhyay,A.K., N.K. Singh, and U.N. Rai|Comparative Metal Accumulation Potential of Potamogeton pectinatus L. and Potamogeton crispus L.: Role of Enzymatic and Non-Enzymatic Antioxidants in Tolerance and Detoxification of Metals|Aquat. Bot.117:27-32|2014|10.1016/j.aquabot.2014.04.003
169906|A||Tu,T., S. Li, L. Chen, F. Zheng, and X.G. Huang|Effect of Coastal Eutrophication on Heavy Metal Bioaccumulation and Oral Bioavailability in the Razor Clam, Sinonovacula constricta|Aquat. Toxicol.155:269-274|2014|10.1016/j.aquatox.2014.07.012
169907|A||Prato,E., I. Parlapiano, and F. Biandolino|Evaluation of a Bioassays Battery for Ecotoxicological Screening of Marine Sediments from Ionian Sea (Mediterranea Sea, Southern Italy)|Environ. Monit. Assess.184(9): 5225-5238|2012|10.1007/s10661-011-2335-9
169908|A||Seo,J., S. Kim, S. Choi, D. Kwon, T.H. Yoon, W.K. Kim, J.W. Park, and J. Jung|Effects of Physiochemical Properties of Test Media on Nanoparticle Toxicity to Daphnia magna Straus|Bull. Environ. Contam. Toxicol.93(3): 257-262|2014|10.1007/s00128-014-1337-z
169909|A||Al-Akel,A.S., H.F.A. Al-Balawi, F. Al-Misned, S. Mahboob, Z. Ahmad, and E.M. Suliman|Effects of Dietary Copper Exposure on Accumulation, Growth, and Hematological Parameters in Cyprinus carpio|Toxicol. Environ. Chem.92(10): 1865-1878|2010|10.1080/02772248.2010.486230
169910|A||Edullantes,B., and R.P. Galapate|Embryotoxicity of Copper and Zinc in Tropical Sea Urchin Tripneustes gratilla|Sci. Diliman26(1): 25-40|2014|
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169913|A||Semeniuk,D.M., R.M. Bundy, C.D. Payne, K.A. Barbeau, and M.T. Maldonado|Acquisition of Organically Complexed Copper by Marine Phytoplankton and Bacteria in the Northeast Subarctic Pacific Ocean|Mar. Chem.173:222-233|2015|10.1016/j.marchem.2015.01.005
169914|A||Prato,E., F. Biandolino, A.P. Bisci, and C. Caroppo|Preliminary Assessment of Ostreopsis cfr. ovata Acute Toxicity by Using a Battery Bioassay|Chem. Ecol.27(S2): 117-125|2011|10.1080/02757540.2011.625930
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169916|A||Usman,N., B. Irawan, and A. Soegianto|Effect of Lead on Survival, Osmoregulation, and Histological Changes of the Gills of the White Shrimp, Litopenaeus vannamei, Boone, 1931|J. World Aquac. Soc.44(4): 547-556|2013|10.1111/jwas.12054
169917|A||Zhang,X., B. Zhang, H. Yi, and B. Zhao|Mortality and Antioxidant Responses in the Planarian (Dugesia japonica) After Exposure to Copper|Toxicol. Ind. Health30:1-9|2014|10.1177/0748233712452600
169918|T||Chen,J., D. Peng, M. Shafi, S. Li, J. Wu, Z. Ye, W. Yan, K. Lu, and D. Liu|Effect of Copper Toxicity on Root Morphology, Ultrastructure, and Copper Accumulation in Moso Bamboo (Phyllostachys pubescens)|Z. Naturforsch. Sect. C J. Biosci.69:399-406|2014|10.5560/znc.2014-0022
169919|A||Vedamanikam,V.J., and T. Hayimad|Effect of Mixtures of Metals on the Spotted Babylon Snail (Babylonia areolata) Under Different Temperature Conditions|Toxicol. Environ. Chem.95(8): 1388-1394|2014|10.1080/02772248.2014.881077
169920|A||Zubrod,J.P., A. Feckler, D. Englert, N. Koksharova, R.R. Rosenfeldt, F. Seitz, R. Schulz, and M. Bundschuh|Inorganic Fungicides as Routinely Applied in Organic and Conventional Agriculture can Increase Palatability but Reduce Microbial Decomposition of Leaf Litter|J. Appl. Ecol.52:310-322|2015|10.1111/1365-2664.12393
169921|A||Regier,N., C. Cosio, N. Von Moos, and V.I. Slaveykova|Effects of Copper-Oxide Nanoparticles, Dissolved Copper and Ultraviolet Radiation on Copper Bioaccumulation, Photosynthesis and Oxidative Stress in the Aquatic Macrophyte Elodea nuttallii|Chemosphere128:56-61|2015|10.1016/j.chemosphere.2014.12.078
169922|A||Ravlic,S., M. Smodlaka, and N. Bihari|Mussel DNase Activity as a New Biomarker for Environmental Contamination: Response to Model Pollutants|Rapp. P. V. Reun. Comm. Int. Explor. Sci. Mer Mediterr.:305-|2010|
169923|A||Dang,F.|Dietary Metal Exposure of Marine Fish and Its Toxicological Significance|Ph.D. Thesis, Hong Kong University of Science and Technology, Hong Kong:177 p.|2011|
169924|A||Strmecki,S., M. Plavsic, S. Steigenberger, and U. Passow|Characterization of Phytoplankton Exudates and Carbohydrates in Relation to Their Complexation of Copper, Cadmium and Iron|Mar. Ecol. Prog. Ser.408:33-46|2010|10.3354/meps08555
169925|A||El-Serafy,S.S., M.E. Zowail, N.A.H. Abdel-Hameid, M.H. Awwad, and E.H. Omar|Effect of Dietborne Cu and Cd on Body Indices of Nile Tilapia (Oreochromis niloticus) with Emphasis on Protein Pattern|Turk. J. Fish. Aquat. Sci.13:593-602|2013|10.4194/1303-2712-v13_4_04
169926|A||Kudlak,B., L. Wolska, and J. Namiesnik|"Determination of EC50 in Toxicity Data of Selected Heavy Metals Toward Heterocypris incongruens and Their Comparison to ""Direct-Contact"" and Microbiotests"|Environ. Monit. Assess.174(1-4): 509-516|2011|10.1007/s10661-010-1474-8
169927|A||Biswas,H., D. Bandyopadhyay, and A. Waite|Copper Addition Helps Alleviate Iron Stress in a Coastal Diatom: Response of Chaetoceros gracilis from the Bay of Bengal to Experimental Cu and Fe Addition|Mar. Chem.157:224-232|2013|10.1016/j.marchem.2013.10.006
169928|A||Bach,L., L. Ferguson, V. Feltelius, and J. Sondergaard|Orchomenella pinguis (Amphipoda) - A Possible Species for Heavy Metal Biomonitoring of Marine Sediments|J. Coast. Life Med.2(2): 116-123|2014|
169929|A||Song,L., M.G. Vijver, and W.J.G.M. Peijnenburg|Comparative Toxicity of Copper Nanoparticles Across Three Lemnaceae Species|Sci. Total Environ.518/519:217-224|2015|10.1016/j.scitotenv.2015.02.079
169930|A||Sikorska,J., and J. Wolnicki|Cadmium and Copper Toxicity to Tench Tinca tinca (L.) Larvae After a Short-Term Exposure|Rev. Fish Biol. Fish. (Dordr.)20:417-423|2010|10.1007/s11160-009-9145-y
169931|A||Lalau,C.M., R.A. Mohedano, E.C. Schmidt, Z.L. Bouzon, L.C. Ouriques, R.W. Dos Santos, C.H. Da Costa, D.S. Vicentini, an|Toxicological Effects of Copper Oxide Nanoparticles on the Growth Rate, Photosynthetic Pigment Content, and Cell Morphology of the Duckweed Landoltia punctata|Protoplasma (Multiple Languages)252:221-229|2015|10.1007/s00709-014-0671-7
169932|A||Guner,U., and E. Bakar|Effects of Cadmium and Copper on Sialic Acid Levels in Blood and Brain Tissues of Cyprinus carpio L.|J. Coast. Life Med.2(9): 673-678|2014|
169933|A||Kalman,J., E. Bonnail-Miguel, B.D. Smith, N.R. Bury, and P.S. Rainbow|Toxicity and the Fractional Distribution of Trace Metals Accumulated from Contaminated Sediments by the Clam Scrobicularia plana Exposed in the Laboratory and the Field|Sci. Total Environ.506:109-117|2015|10.1016/j.scitotenv.2014.11.013
169934|A||Lagrana,C.C., D.C. Apodaca, and C.P.C. David|Chironomids as Biological Indicators of Metal Contamination in Aquatic Environment|Int. J. Environ. Sci. Dev.2(4): 306-310|2011|10.7763/IJESD.2011.V2.142
169935|A||Zahedi,S., A. Mirvaghefi, M. Rafati, G. Rafiee, B.M. Amiri, M. Hedayati, C. Makhdoomi, and M.Z. Dangesaraki|The Effect of Sub-Lethal Exposure to Copper and the Time Course of Recovery in Clean Water on Biochemical Changes in Juvenile Fish (Acipenser persicus)|Mar. Freshw. Behav. Physiol.47(4): 253-264|2014|10.1080/10236244.2014.926077
169936|A||Santini,O., N. Chahbane, P. Vasseur, and H. Frank|Effects of Low-Level Copper Exposure on Ca2+-ATPase and Carbonic Anhydrase in the Freshwater Bivalve Anodonta anatina|Toxicol. Environ. Chem.93(9): 1826-1837|2011|10.1080/02772240903217598
169937|T||Ungherese,G., V. Pasquali, D. Baroni, and A. Ugolini|Effect of Sand Contamination on Locomotor Activity of Talitrus saltator (Montagu)|Biol. Mar. Mediterr. (Multiple Languages)17(1): 396-397|2010|
169938|A||Domozych,D.S., I. Sorensen, C. Sacks, H. Brechka, A. Andreas, J.U. Fangel, J.K.C. Rose, W.G.T. Willats, and Z.A. Popper|Disruption of the Microtubule Network Alters Cellulose Deposition and Causes Major Changes in Pectin Distribution in the Cell Wall of the Green Alga, Penium margaritaceum|J. Exp. Bot.65(2): 465-479|2014|10.1093/jxb/ert390
169939|T||Eisinger,W., D. Ehrhardt, and W. Briggs|Microtubules are Essential for Guard-Cell Function in Vicia and Arabidopsis|Mol. Plant5(3): 601-610|2012|10.1093/mp/sss002
169940|T||Gupta,A., M. Singh, A.M. Jones, and A. Laxmi|Hypocotyl Directional Growth in Arabidopsis: A Complex Trait|Plant Physiol.159:1463-1476|2012|10.1104/pp.112.195776
169941|T||Ma,C., J. Tran, F. Gu, R. Ochoa, C. Li, D. Sept, K. Werbovetz, and N. Morrissette|Dinitroaniline Activity in Toxoplasma gondii Expressing Wild-Type or Mutant alpha-Tubulin|Antimicrob. Agents Chemother.54(4): 1453-1460|2010|10.1128/AAC.01150-09
169942|T||Pressel,S., R. Ligrone, and J.G. Duckett|Cellular Differentiation in Moss Protonemata:  A Morphological and Experimental Study|Ann. Bot.102(2): 227-245|2008|10.1093/aob/mcn080
169943|T||Terra,L.L., L. Campanati, and W. De Souza|Heterogeneity in the Sensitivity of Microtubules of Giardia lamblia to the Herbicide Oryzalin|Parasitol. Res.107:47-54|2010|10.1007/s00436-010-1831-0
169946|T||Babaei,H., and J. Abshenas|Zinc Therapy Improves Adverse Effects of Long Term Administration of Copper on Epididymal Sperm Quality of Rats|Iran. J. Reprod. Med.11(7): 577-582|2013|
169947|A||Stevens,M.M., G. Doran, and J. Mo|Efficacy and Environmental Fate of Copper Sulphate Applied to Australian Rice Fields for Control of the Aquatic Snail Isidorella newcombi|Crop Prot.63:48-56|2014|10.1016/j.cropro.2014.05.004
169948|A||Loebus,J., B. Leitenmaier, D. Meissner, B. Braha, G.J. Krauss, D. Dobritzsch, and E. Freisinger|The Major Function of a Metallothionein from the Aquatic Fungus Heliscus lugdunensis is Cadmium Detoxification|J. Inorg. Biochem.127:253-260|2013|10.1016/j.jinorgbio.2013.06.001
169949|T||Mostofa,M.G., Z.I. Seraj, and M. Fujita|Exogenous Sodium Nitroprusside and Glutathione Alleviate Copper Toxicity by Reducing Copper Uptake and Oxidative Damage in Rice (Oryza sativa L.) Seedlings|Protoplasma (Multiple Languages)251:1373-1386|2014|10.1007/s00709-014-0639-7
169950|T||Makarski,B., M. Gortat, J. Lechowski, W. Zukiewicz-Sobczak, P. Sobczak, and K. Zawislak|Impact of Copper (Cu) at the Dose of 50 mg on Haematological and Biochemical Blood Parameters in Turkeys, and Level of Cu Accumulation in the Selected Tissues as a Source of Information on Product Safety for Consumers|AAEM Ann. Agric. Environ. Med.21(3): 567-570|2014|10.5604/12321966.1120603
169951|T||Kurnik,V., V. Gabersek, T. Unuk, S. Tojnko, A. Vogrin, S. Vajs, and M. Lesnik|Influence of Alternative Copper Fungicide Formulations on Copper Content in Apple Fruits|Erwerbsobstbau54:161-170|2012|
169952|T||Krofta,K., J. Pokorny, T. Kudrna, J. Jezek, J. Pulkrabek, J. Krivanek, and D. Becka|The Effect of Application of Copper Fungicides on Photosynthesis Parameters and Level of Elementary Copper in Hops|Plant Soil Environ.58(2): 91-97|2012|10.17221/437/2011-PSE
169953|T||Kowal,M., M. Lenartowicz, A. Pecio, A. Golas, T. Blaszkiewicz, and J. Styrna|Copper Metabolism Disorders Affect Testes Structure and Gamete Quality in Male Mice|Syst. Biol. Reprod. Med.56:431-444|2010|10.3109/19396361003734624
169954|T||Babaei,H., L. Roshangar, E. Sakhaee, J. Abshenas, R. Kheirandish, and R. Dehghani|Ultrastructural and Morphometrical Changes of Mice Ovaries Following Experimentally Induced Copper Poisoning|Iran. Red Crescent Med. J.14(9): 558-568|2012|
169955|T||Steinberg,C., J. Laurent, V. Edel-Hermann, M. Barbezant, N. Sixt, F. Dalle, S. Aho, A. Bonnin, P. Hartemann, and M. Sau|Adaptation of Fusarium oxysporum and Fusarium dimerum to the Specific Aquatic Environment Provided by the Water Systems of Hospitals|Water Res.76:53-65|2015|10.1016/j.watres.2015.02.036
169956|A||Pradhan,A., S. Seena, D. Schlosser, K. Gerth, S. Helm, M. Dobritzsch, G.J. Krauss, D. Dobritzsch, C. Pascoal, and F. Ca|Fungi from Metal-Polluted Streams may have High Ability to Cope with the Oxidative Stress Induced by Copper Oxide Nanoparticles|Environ. Toxicol. Chem.34(4): 923-930|2015|10.1002/etc.2879
169957|A||Pradhan,A., S. Seena, D. Dobritzsch, S. Helm, K. Gerth, M. Dobritzsch, G.J. Krauss, D. Schlosser, C. Pascoal, and F. Ca|Physiological Responses to NanoCuO in Fungi from Non-Polluted and Metal-Polluted Streams|Sci. Total Environ.466/467:556-563|2014|10.1016/j.scitotenv.2013.07.073
169958|T||Ornelas,A.M., L.P. Labejof, L.V. Lage dos Santos, and J.A. Santos|Assessment of Maternal and Embryo-Fetal Toxicity of Copper Oxide Fungicide|World Acad. Sci. Eng. Technol.6(6): 802-804|2012|
169959|T||Olgun,O., O. Yazgan, and Y. Cufadar|Effects of Boron and Copper Dietary Supplementation in Laying Hens on Egg Shell Quality, Plasma and Tibia Mineral Concentrations and Bone Biomechanical Properties|Rev. Med. Vet. (Multiple Languages)163:335-342|2012|
169960|T||Novoa,M.D., S.S. Palma, and O.H. Gaete|Effect of Arbuscular Mycorrhizal Fungi Glomus spp. Inoculation on Alfalfa Growth in Soils with Copper|Chil. J. Agric. Res.70(2): 259-265|2010|10.4067/S0718-58392010000200009
169961|T||Tinkov,A.A., and A.A. Nikonorov|Serum Lipoprotein Profile and Oxidative Stress Biomarkers in Wistar Rats Fed Drinking Water Containing Iron and Copper|Biologia68(4): 738-742|2013|10.2478/s11756-013-0213-3
169962|T||Musacco-Sebio,R., N. Ferrarotti, C. Saporito-Magrina, J. Semprine, J. Fuda, H. Torti, A. Boveris, and M.G. Repetto|Oxidative Damage to Rat Brain in Iron and Copper Overloads|Metallomics6:1410-1416|2014|10.1039/C3MT00378G
169964|T||Huang,Y., Y. Hu, and Y. Liu|Heavy Metal Accumulation in Iron Plaque and Growth of Rice Plants upon Exposure to Single and Combined Contamination by Copper, Cadmium and Lead|Acta Ecol. Sin. (Multiple Languages)29(6): 320-326|2009|10.1016/j.chnaes.2009.09.011
169965|T||Musacco-Sebio,R., C. Saporito-Magrina, J. Semprine, H. Torti, N. Ferrarotti, M. Castro-Parodi, A. Damiano, A. Boveris, |Rat Liver Antioxidant Response to Iron and Copper Overloads|J. Inorg. Biochem.137:94-100|2014|10.1016/j.jinorgbio.2014.04.014
169966|T||Kurzbard,R.A.|Effects of Copper and Zinc on Broiler Health and Performance During a Subclinical Coccidiosis Challenge|M.S.Thesis, University of California, Davis, CA:81 p.|2014|
169967|T||Stuard,R.W.|The Impact of Broiler Litter and Copper Fertility on Soybean Yield Components in Western Kentucky|M.S.Thesis, Murray State University, Murray, KY:40 p.|2012|
169968|T||Sharma,H.S., S. Hussain, J. Schlager, S.F. Ali, and A. Sharma|Influence of Nanoparticles on Blood-Brain Barrier Permeability and Brain Edema Formation in Rats|Acta Neurochir. Suppl.106:359-364|2010|10.1007/978-3-211-98811-4_65
169969|T||Chigbo,C., and L. Batty|Phytoremediation Potential of Brassica juncea in Cu-Pyrene Co-Contaminated Soil: Comparing Freshly Spiked Soil with Aged Soil|J. Environ. Manag.129:18-24|2013|10.1016/j.jenvman.2013.05.041
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169971|T||Martins,V., A. Teixeira, E. Bassil, M. Hanana, E. Blumwald, and H. Geros|Copper-Based Fungicide Bordeaux Mixture Regulates the Expression of Vitis vinifera Copper Transporters|Aust. J. Grape Wine Res.20:451-458|2014|10.1111/ajgw.12096
169972|T||Lepp,N.W., N.M. Dickinson, and K.L. Ormand|Distribution of Fungicide-Derived Copper in Soils, Litter and Vegetation of Different Aged Stands of Coffee (Coffea arabica L.) in Kenya|Plant Soil77:263-270|1984|10.1007/BF02182929
169973|T||Lolkema,P.C.|Copper Resistance in Higher Plants|Ph.D. Thesis, Free University Amsterdam, Free University Press, Amsterdam, The Netherlands:128 p.|1985|
169974|A||Witeska,M., P. Sarnowski, K. Lugowska, and E. Kowal|The Effects of Cadmium and Copper on Embryonic and Larval Development of Ide Leuciscus idus L.|Fish Physiol. Biochem.40(1): 151-163|2014|10.1007/s10695-013-9832-4
169975|A||Villarreal,F.D., G.K. Das, A. Abid, I.M. Kennedy, and D. Kultz|Sublethal Effects of CuO Nanoparticles on Mozambique Tilapia (Oreochromis mossambicus) are Modulated by Environmental Salinity|PLoS One9(2): |2014|10.1371/journal.pone.0088723
169976|A||Perreault,F., M. Samadani, and D. Dewez|Effect of Soluble Copper Released from Copper Oxide Nanoparticles Solubilisation on Growth and Photosynthetic Processes of Lemna gibba L|Nanotoxicology8(4): 374-382|2014|10.3109/17435390.2013.789936
169977|A||Mo,H.H., S.E. Lee, J. Son, J.M. Hwang, Y.J. Bae, and K. Cho|Exposure of Mayfly Ephemera orientalis (Ephemeroptera) Eggs to Heavy Metals and Discovery of Biomarkers|Environ. Toxicol. Pharmacol.36:1167-1175|2013|10.1016/j.etap.2013.10.004
169978|T||Kour,P., N.K. Tripathi, and Poonam |Evaluation of Acute Toxicity of Copper Sulphate in Different Tissues of Euphlyctis cyanophlyctis|J. Asian Sci. Res.4(2): 59-69|2014|
169979|A||Acharya,R., T. Saify, B. Sharma, and J. Mehta|Comparative Toxicity Assessment of NaCl and CuSO4 on Cell Plasticity of Microalga, Scenedesmus sp. Chodat|Res. J. Bot.9(1): 9 p.|2014|10.3923/rjb.2014.9.12
169980|A||Espiritu,E.Q., A.B. Teran, and R.L. Antonio|Development of Standard Toxicity Tests for Tropical Aquatic Environments: 1. The Use of Tilapia, Oreochromis niloticus (L.), as Toxicity Test Organism for Freshwater Habitats|Philipp. Sci.48:17-34|2011|
169981|A||Mashifane,T.B., and N.A.G. Moyo|Acute Toxicity of Selected Heavy Metals to Oreochromis mossambicus Fry and Fingerlings|Afr. J. Aquat. Sci.39(3): 279-285|2014|10.2989/16085914.2014.960358
169982|T||Nadgorska-Socha,A., A. Kafel, M. Kandziora-Ciupa, J. Gospodarek, and A. Zawisza-Raszka|Accumulation of Heavy Metals and Antioxidant Responses in Vicia faba Plants Grown on Monometallic Contaminated Soil|Environ. Sci. Pollut. Res. Int.20(2): 1124-1134|2013|10.1007/s11356-012-1191-7
169983|T||Geremias,R., V.T. De Favere, R.C. Pedrosa, and D. Fattorini|Bioaccumulation and Adverse Effects of Trace Metals and Polycyclic Aromatic Hydrocarbons in the Common Onion Allium cepa as a Model in Ecotoxicological Bioassays|Chem. Ecol.27(6): 515-522|2011|10.1080/02757540.2011.602972
169984|T||Fuentealba,I.D.C.|Cellular Mechanisms of Toxicity and Tolerance in the Copper-Loaded Rat|Ph.D. Thesis, University of Liverpool, UK:316 p.|1988|
169985|T||Gonzalez-Chavez,M.C.A., and R. Carrillo-Gonzalez|Tolerance of Chrysantemum maximum to Heavy Metals: The Potential for Its Use in the Revegetation of Tailings Heaps|J. Environ. Sci.25(2): 367-375|2013|10.1016/S1001-0742(12)60060-6
169986|T||DeWerff,R.P., S.P. Conley, J.B. Colquhoun, and V.M. Davis|Weed Control in Soybean as Influenced by Residual Herbicide Use and Glyphosate-Application Timing Following Different Planting Dates|Weed Technol.29:71-81|2015|10.1614/WT-D-14-00040.1
169987|T||Grichar,W.J., J. Lloyd-Reilley, J. Rahmes, W.R. Ocumpaugh, and J.L. Foster|Safening of Native Grass to Herbicides by Using Carbon Bands|Weed Technol.26:499-505|2012|10.1614/WT-D-11-00147.1
169988|T||Kumar,V., and P. Jha|Effective Preemergence and Postemergence Herbicide Programs for Kochia Control|Weed Technol.29:24-34|2015|10.1614/WT-D-14-00026.1
169989|T||Blanchon,D.J., I.L. Ennis, J.R. Lewthwaite, M.F. Large, and W.T. Bussell|New Method for the Devitalization of Imported Horsetail (Equisetum hyemale)|N. Z. J. Crop Hortic. Sci.40(1): 21-30|2012|10.1080/01140671.2011.600321
169990|T||Ha,N.T.H., M. Sakakibara, and S. Sano|Accumulation of Indium and Other Heavy Metals by Eleocharis acicularis:  An Option for Phytoremediation and Phytomining|Bioresour. Technol.102(3): 2228-2234|2011|10.1016/j.biortech.2010.10.014
169991|T||Herring,R.|Modulation of the Coelomic Fluid Protein Profile in the Earthworm Lumbricus terrestris After Exposure to Copper as Copper Sulfate|M.S. Thesis, University of North Texas, TX:24 p.|2010|
169992|A||Blanchard,J.|Copper Toxicity and Accumulation Across Salinities:  Physiology, Chemistry, and Molecular Biology|Ph.D. Thesis, University of Miami, Miami, FL:162 p.|2009|
169993|A||Czedli,H., L. Csedreki, A.G. Sziki, G. Jolankai, B. Pataki, C. Hancz, L. Antal, and S.A. Nagy|Investigation of the Bioaccumulation of Copper in Fish|Fresenius Environ. Bull.23(7): 1547-1552|2014|
169994|A||Sayin,S.|The Interaction Effects of Cu (II), and Cd (II) and Cu (III) +Cd (II) in the Presence or Absence of EDTA (Ethylenediaminetetraacetate) on the Growth of Green Algae Chlorella vulgaris (Chlorophyta)|Fresenius Environ. Bull.22:3155-3159|2013|
169995|T||Shahbaz,M., C.E.E. Stuiver, F.S. Posthumus, S. Parmar, M.J. Hawkesford, and L.J. De Kok|Copper Toxicity in Chinese Cabbage is not Influenced by Plant Sulphur Status, but Affects Sulphur Metabolism-Related Gene Expression and the Suggested Regulatory Metabolites|Plant Biol.16(1): 68-78|2014|10.1111/plb.12019
169996|A||Arias-Almeida,J.C., and R. Rico-Martinez|Inhibition of Two Enzyme Systems in Euchlanis dilatata (Rotifera: Monogononta) as Biomarker of Effect of Metals and Pesticides|Biomarkers (Lond.)16(1): 12-19|2011|10.3109/1354750X.2010.520336
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169998|A||Butler,R.|Effect of Heavy Metals Found in Flue Gas on Growth and Lipid Accumulation for Green Algae Scenedesmus obliquus|M.S.Thesis, Utah State University, Logan, UT:83 p.|2012|
169999|T||Drazkiewicz,M., E. Skorzynska-Polit, and Z. Krupa|Effect of BSO-Supplemented Heavy Metals on Antioxidant Enzymes in Arabidopsis thaliana|Ecotoxicol. Environ. Saf.73(6): 1362-1369|2010|10.1016/j.ecoenv.2010.06.004
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170001|T||Itziou,A., M. Kaloyianni, and V.K. Dimitriadis|In Vivo and In Vitro Effects of Metals in Reactive Oxygen Species Production, Protein Carbonylation, and DNA Damage in Land Snails Eobania vermiculata|Arch. Environ. Contam. Toxicol.60(4): 697-707|2011|10.1007/s00244-010-9583-5
170002|T||Kim,Y.H., H.S. Lee, and S.S. Kwak|Differential Responses of Sweetpotato Peroxidases to Heavy Metals|Chemosphere81(1): 79-85|2010|10.1016/j.chemosphere.2010.06.063
170003|T||Lingua,G., E. Bona, V. Todeschini, C. Cattaneo, F. Marsano, G. Berta, and M. Cavaletto|Effects of Heavy Metals and Arbuscular Mycorrhiza on the Leaf Proteome of a Selected Poplar Clone:  A Time Course Analysis|PLoS One7(6): 25 p.|2012|10.1371/journal.pone.0038662
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170006|T||Narayanaswamy,M., and M.B. Piler|Effect of Maternal Exposure of Fluoride on Biometals and Oxidative Stress Parameters in Developing CNS of Rat|Biol. Trace Elem. Res.133(1): 71-82|2010|10.1007/s12011-009-8413-y
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170009|T||Sharma,V.J., and S. Satyanarayan|Effect of Selected Heavy Metals on the Histopathology of Different Tissues of Earthworm Eudrillus eugeniae|Environ. Monit. Assess.180(1-4): 257-267|2011|10.1007/s10661-010-1786-8
170010|T||Shimazu,S., M. Ohta, H. Ohkawa, and H. Ashida|Assays of Polychlorinated Biphenyl Congeners and Co-Contaminated Heavy Metals in the Transgenic Arabidopsis Plants Carrying the Recombinant Guinea Pig Aryl Hydrocarbon Receptor-Mediated beta-Glucuronidase Reporter Gene |J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(10): 925-932|2012|
170011|T||Soudek,P., A. Katrusakova, L. Sedlacek, S. Petrova, V. Koci, P. Marsik, M. Griga, and T. Vanek|Effect of Heavy Metals on Inhibition of Root Elongation in 23 Cultivars of Flax (Linum usitatissiumum L.)|Arch. Environ. Contam. Toxicol.59(2): 194-203|2010|10.1007/s00244-010-9480-y
170012|T||Li,P., X. Wang, G. Allinson, X. Li, F. Stagnitti, F. Murray, and X. Xiong|Effects of Sulfur Dioxide Pollution on the Translocation and Accumulation of Heavy Metals in Soybean Grain|Environ. Sci. Pollut. Res.18(7): 1090-1097|2011|10.1007/s11356-011-0454-z
170013|T||Curguz,V.G., V. Raicevic, M. Veselinovic, M. Tabakovic-Tosic, and D. Vilotic|Influence of Heavy Metals on Seed Germination and Growth of Picea abies L. Karst|Pol. J. Environ. Stud.21(2): 355-361|2012|
170014|T||Zhang,X., L. Lin, M. Chen, Z. Zhu, W. Yang, B. Chen, X. Yang, and Q. An|A Nonpathogenic Fusarium oxysporum Strain Enhances Phytoextraction of Heavy Metals by the Hyperaccumulator Sedum alfredii Hance|J. Hazard. Mater.229:361-370|2012|10.1016/j.jhazmat.2012.06.013
170015|T||Rawat,A.P., K. Giri, and J.P.N. Rai|Biosorption Kinetics of Heavy Metals by Leaf Biomass of Jatropha curcas in Single and Multi-Metal System|Environ. Monit. Assess.186(3): 1679-1687|2014|10.1007/s10661-013-3485-8
170016|T||Nacke,H., A.C.,Jr. Goncalves, D. Schwantes, I.A. Nava, L. Strey, and G.F. Coelho|Availability of Heavy Metals (Cd, Pb, and Cr) in Agriculture from Commercial Fertilizers|Arch. Environ. Contam. Toxicol.64(4): 537-544|2013|10.1007/s00244-012-9867-z
170017|T||Phillips,C.J.C., M.O. Mohamed, and P.C. Chiy|Effects of Duration of Exposure to Dietary Lead on Rumen Metabolism and the Accumulation of Heavy Metals in Sheep|Small Ruminant Res.100(2/3): 113-121|2011|10.1016/j.smallrumres.2011.06.004
170018|T||Seth,C.S., V. Misra, and L.K.S. Chauhan|Accumulation, Detoxification, and Genotoxicity of Heavy Metals in Indian Mustard (Brassica juncea L.)|Int. J. Phytoremediat.14(1): 1-13|2012|10.1080/15226514.2011.555799
170019|T||Elouear,Z., F. Bouhamed, and J. Bouzid|Evaluation of Different Amendments to Stabilize Cadmium, Zinc, and Copper in a Contaminated Soil: Influence on Metal Leaching and Phytoavailability|Soil Sediment Contam.23:628-640|2014|10.1080/15320383.2014.857640
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170021|T||Sun,Y., Q. Zhou, Y. Xu, L. Wang, and X. Liang|Phytoremediation for Co-Contaminated Soils of Benzo[a]Pyrene (B[a]P) and Heavy Metals Using Ornamental Plant Tagetes patula|J. Hazard. Mater.186(2/3): 2075-2082|2011|10.1016/j.jhazmat.2010.12.116
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170023|T||Kopittke,P.M., F.P.C. Blamey, B.A. McKenna, P. Wang, and N.W. Menzies|Toxicity of Metals to Roots of Cowpea in Relation to Their Binding Strength|Environ. Toxicol. Chem.30(8): 1827-1833|2011|10.1002/etc.557
170024|T||Sabir,M., M.M. Hanafi, M. Zia-Ur-Rehman, Saifullah, H.R. Ahmad, K.R. Hakeem, and T. Aziz|Comparison of Low-Molecular-Weight Organic Acids and Ethylenediaminetetraacetic Acid to Enhance Phytoextraction of Heavy Metals by Maize|Commun. Soil Sci. Plant Anal.45(1): 42-52|2014|10.1080/00103624.2013.848879
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170026|T||Demirci,F., and E. Denizhan|Paecilomyces lilacinus, a Potential Biocontrol Agent on Apple Rust Mite Aculus schlechtendali and Interactions with some Fungicides In Vitro|Phytoparasitica38:125-132|2010|10.1007/s12600-010-0082-z
170027|T||Bissonnette,L., M. St-Arnaud, and M. Labrecque|Phytoextraction of Heavy Metals by Two Salicaceae Clones in Symbiosis with Arbuscular Mycorrhizal Fungi During the Second Year of a Field Trial|Plant Soil332(1/2): 55-67|2010|10.1007/s11104-009-0273-x
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170099|T||Fariduddin,Q., T.A. Khan, and M. Yusuf|Hydrogen Peroxide Mediated Tolerance to Copper Stress in the Presence of 28-Homobrassinolide in Vigna radiata|Acta Physiol. Plant.36(10): 2767-2778|2014|10.1007/s11738-014-1647-0
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170190|A||Matsushima,A., K. Ryan, Y. Shimohigashi, and I.A. Meinertzhagen|An Endocrine Disruptor, Bisphenol A, Affects Development in the Protochordate Ciona intestinalis: Hatching Rates and Swimming Behavior Alter in a Dose-Dependent Manner|Environ. Pollut.173:257-263|2013|10.1016/j.envpol.2012.10.015
170191|A||Mechora,S., P. Cuderman, V. Stibilj, and M. Germ|Distribution of Se and Its Species in Myriophyllum spicatum and Ceratophyllum demersum Growing in Water Containing Se (VI)|Chemosphere84(11): 1636-1641|2011|10.1016/j.chemosphere.2011.05.024
170192|T||Oshima,A., R. Yamashita, K. Nakamura, M. Wada, and K. Shibuya|In Ovo Exposure to Nonylphenol and Bisphenol A Resulted in Dose-Independent Feminization of Male Gonads in Japanese Quail (Coturnix japonica) Embryos|Environ. Toxicol. Chem.31(5): 1091-1097|2012|10.1002/etc.1787
170193|A||Mihaich,E., J. Rhodes, J. Wolf, N. Van Der Hoeven, D. Dietrich, A.T. Hall, N. Caspers, L. Ortego, C. Staples, S. Dimond|Adult Fathead Minnow, Pimephales promelas, Partial Life-Cycle Reproductive and Gonadal Histopathology Study with Bisphenol A|Environ. Toxicol. Chem.31(11): 2525-2535|2012|10.1002/etc.1976
170194|A||McCormick,J.M., T. Van Es, K.R. Cooper, L.A. White, and M.M. Haggblom|Microbially Mediated O-Methylation of Bisphenol A Results in Metabolites with Increased Toxicity to the Developing Zebrafish (Danio rerio) Embryo|Environ. Sci. Technol.45(15): 6567-6574|2011|10.1021/es200588w
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170199|T||Lemos,M.F.L., C.A.M. Gestel, and A.M.V.M. Soares|Endocrine Disruption in a Terrestrial Isopod Under Exposure to Bisphenol A and Vinclozolin|J. Soils Sediments9(5): 492-500|2009|10.1007/s11368-009-0104-y
170200|A||Lei,B., Y. Wen, X. Wang, J. Zha, W. Li, Z. Wang, Y. Sun, J. Kang, and Y. Wang|Effects of Estrone on the Early Life Stages and Expression of Vitellogenin and Estrogen Receptor Genes of Japanese Medaka (Oryzias latipes)|Chemosphere93(6): 1104-1110|2013|10.1016/j.chemosphere.2013.06.025
170201|A||Lockard,L., C.L. Rowe, and A. Heyes|Dietary Selenomethionine Exposure Induces Physical Malformations and Decreases Growth and Survival to Metamorphosis in an Amphibian (Hyla chrysoscelis)|Arch. Environ. Contam. Toxicol.64(3): 504-513|2013|10.1007/s00244-012-9850-8
170202|A||Huang,G.Y., G.G. Ying, Y.Q. Liang, J.L. Zhao, B. Yang, S. Liu, and Y.S. Liu|Hormonal Effects of Tetrabromobisphenol A Using a Combination of In Vitro and In Vivo Assays|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(4): 344-351|2013|10.1016/j.cbpc.2013.03.003
170203|T||Lemos,M.F.L., C.A.M. Van Gestel, and A.M.V.M. Soares|Developmental Toxicity of Endocrine Disrupters Bisphenol A and Vinclozolin in a Terrestrial Isopod|Arch. Environ. Contam. Toxicol.59(2): 274-281|2010|10.1007/s00244-010-9474-9
170204|A||Li,R., G.Z. Chen, N.F.Y. Tam, T.G. Luan, P.K.S. Shin, S.G. Cheung, and Y. Liu|Toxicity of Bisphenol A and Its Bioaccumulation and Removal by a Marine Microalga Stephanodiscus hantzschii|Ecotoxicol. Environ. Saf.72(2): 321-328|2009|10.1016/j.ecoenv.2008.05.012
170205|T||Li,Y., Q. Zhou, Y. Wang, and X. Xie|Fate of Tetrabromobisphenol A and Hexabromocyclododecane Brominated Flame Retardants in Soil and Uptake by Plants|Chemosphere82(2): 204-209|2011|10.1016/j.chemosphere.2010.10.021
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170209|A||Lu,Y., A. Zhang, C. Li, P. Zhang, X. Su, Y. Li, C. Mu, and T. Li|The Link Between Selenium Binding Protein from Sinonovacula constricta and Environmental Pollutions Exposure|Fish Shellfish Immunol.35(2): 271-277|2013|10.1016/j.fsi.2013.04.040
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170211|A||Wang,X., Q. Dong, Y. Chen, H. Jiang, Q. Xiao, Y. Wang, W. Li, C. Bai, C. Huang, and D. Yang|Bisphenol A Affects Axonal Growth, Musculature and Motor Behavior in Developing Zebrafish|Aquat. Toxicol.142/143:104-113|2013|10.1016/j.aquatox.2013.07.011
170212|A||Wu,M., H.J. Xu, Y. Shen, W. Qiu, and M. Yang|Oxidative Stress in Zebrafish Embryos Induced by Short-Term Exposure to Bisphenol A, Nonylphenol, and Their Mixture|Environ. Toxicol. Chem.30(10): 2335-2341|2011|10.1002/etc.634
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170214|T||Stara,J., V. Stejskal, M. Nesvorna, J. Plachy, and J. Hubert|Efficacy of Selected Pesticides Against Synanthropic Mites Under Laboratory Assay|Pest Manag. Sci.67(4): 446-457|2011|10.1002/ps.2083
170215|T||Thulasiram,K., K. Kumar, and A.N.V. Krishna|Effect of Bifenthrin 8 SC on the Population of Spiders (Arachnida: Araneae) in Okra (Abelmoschus esculentus (L.) Moench) Ecosystem|Int. J. Plant Anim. Environ. Sci.4(3): 730-733|2014|
170216|A||Staples,C.A., A. Tilghman Hall, U. Friederich, N. Caspers, and G.M. Klecka|Early Life-Stage and Multigeneration Toxicity Study with Bisphenol A and Fathead Minnows (Pimephales promelas)|Ecotoxicol. Environ. Saf.74(6): 1548-1557|2011|10.1016/j.ecoenv.2011.05.010
170217|A||Ganeshakumar,M.|Chronic Toxicity of Phthalates, Bisphenol A and a Canadian Bottled Water Stored Under Different Light Regimes Using the Cnidarian Hydra viridissima|M.A. Thesis, University of Ontario, Institute of Technology, Canada:183 p.|2009|
170218|A||Thomas,J.K., and D.M. Janz|In Ovo Exposure to Selenomethionine via Maternal Transfer Increases Developmental Toxicities and Impairs Swim Performance in F1 Generation Zebrafish (Danio rerio)|Aquat. Toxicol.152:20-29|2014|10.1016/j.aquatox.2014.03.022
170219|T||Princz,J., M. Bonnell, E. Ritchie, J. Velicogna, P.Y. Robidoux, and R. Scroggins|Estimation of the Bioaccumulation Potential of a Nonchlorinated Bisphenol and an Ionogenic Xanthene Dye to Eisenia andrei in Field-Collected Soils, in Conjunction with Predictive In Silico Profiling|Environ. Toxicol. Chem.33(2): 308-316|2014|10.1002/etc.2445
170220|A||Rhee,J.S., R.O. Kim, J.S. Seo, H.S. Kang, C.B. Park, K. Soyano, J. Lee, Y.M. Lee, and J.S. Lee|Bisphenol A Modulates Expression of Gonadotropin Subunit Genes in the Hermaphroditic Fish, Kryptolebias marmoratus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(4): 456-466|2010|10.1016/j.cbpc.2010.07.003
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170223|A||Ramesh,M., M. Sankaran, V. Veera-Gowtham, and R.K. Poopal|Hematological, Biochemical and Enzymological Responses in an Indian Major Carp Labeo rohita Induced by Sublethal Concentration of Water-Borne Selenite Exposure|Chem.-Biol. Interact.207:67-73|2014|10.1016/j.cbi.2013.10.018
170225|A||Wiseman,S., J.K. Thomas, L. McPhee, O. Hursky, J.C. Raine, M. Pietrock, J.P. Giesy, M. Hecker, and D.M. Janz|Attenuation of the Cortisol Response to Stress in Female Rainbow Trout Chronically Exposed to Dietary Selenomethionine|Aquat. Toxicol.105(3/4): 643-651|2011|10.1016/j.aquatox.2011.09.002
170226|A||Park,K., and I.S. Kwak|Expression of Stress Response HSP70 Gene in Asian Paddle Crabs, Charybdis japonica, Exposure to Endocrine Disrupting Chemicals, Bisphenol A (BPA) and 4-Nonylphenol (NP)|Ocean Sci. J.48(2): 207-214|2013|10.1007/s12601-013-0017-y
170227|A||Debenest,T., F. Gagne, A.N. Petit, M. Kohli, P. Eullafroy, and C. Blaise|Monitoring of a Flame Retardant (Tetrabromobisphenol A) Toxicity on Different Microalgae Assessed by Flow Cytometry|J. Environ. Monit.12(10): 1918-1923|2010|10.1039/c0em00105h
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170230|T||Evers,G.W.|Subterranean Clover Response to Preemergence, Postemergence, and Grass Desiccant Herbicides|Texas Agric. Exp. Stn. Prog. Rep.4537:62-64|1987|
170231|T||Franco,A.R., and P.M.L. Castro|Inoculation of Pinus pinea Seedlings with Pisolithus tinctorius and Suillus bellinii Promotes Plant Growth in Benfluralin Contaminated Soil|Plant Soil386:113-123|2015|10.1007/s11104-014-2247-x
170232|T||Heldman,E., A. Balan, O. Horowitz, S. Ben-Zion, and M. Torten|A Novel Immunoassay with Direct Relevance to Protection Against Organophosphate Poisoning|FEBS Lett.180(2): 243-248|1985|10.1016/0014-5793(85)81079-6
170233|T||Jennings,E.A., and D.S.H. Drennan|Weed Control with Pre-Sowing Herbicides in Irrigated Cotton (Gossypium barbadense L.) and Groundnut (Arachis hypogaea L.) in Sudan. II. Economic, Labour Requirement, Crop Safety and Operational Aspects of Trifluralin an|Weed Res. (Multiple Languages)19(5): 301-306|1979|10.1111/j.1365-3180.1979.tb01542.x
170234|T||Mueller,T.C., and P.A. Banks|Peanut Weed Control Systems Utilizing RE-40885|Peanut Sci.16(2): 87-91|1989|10.3146/i0095-3679-16-2-7
170235|T||Richburg III,J.S., J.W. Wilcut, and E.F. Eastin|Weed Control and Peanut (Arachis hypogaea) Response to Nicosulfuron and Bentazon Alone and in Mixture|Weed Sci.41(4): 615-620|1993|10.1017/S0043174500076414
170236|T||Wilcut,J.W., G.R. Wehtje, and M.G. Patterson|Economic Assessment of Weed Control Systems for Peanuts (Arachis hypogaea)|Weed Sci.35(3): 433-437|1987|10.1017/S0043174500053959
170237|T||Wilcut,J.W., G.R. Wehtje, and R.H. Walker|Economics of Weed Control in Peanuts (Arachis hypogaea) with Herbicides and Cultivations|Weed Sci.35(5): 711-715|1987|10.1017/S0043174500060859
170238|T||E.I. Du Pont De Nemours|Supplement: 90-Day Subchronic Feeding Neurotoxicity Study with Cymoxanil in Rats (Final Report) with Cover Letter Dated 061192 and Attachments|EPA/OTS Doc #89-920000312:723 p.|1992|
170239|T||E.I. Du Pont De Nemours|Initial Submission: Reproduction Study with  2-Cyano-2-Methoxyimino-N-Ethylcarbamoyl in Rats with Cover Letter Dated 061592 and Attachments|EPA/OTS Doc #88-920004166:31 p.|1992|
170240|T||E.I. Du Pont De Nemours|Initial Submission: Teratogenicity Study of Cymoxanil in New Zealand White Rabbits (Segment II Evaluation) with Cover Letter Dated 08/20/92|EPA/OTS Doc #88-920008244:113 p.|1992|
170242|T||DuPont Chemical Corp.|Support: Preliminary Results of a Developmental Toxicity Study with Cymoxanil in Rats Submitted as a Letter Dated 122992|EPA/OTS Doc #89-930000035:1 p.|1992|
170243|T||DuPont Chemical Corp.|Initial Submission: Acute Oral Toxicity of Acetamide, 2-Cyano-N-[(Ethylamino)-Carbonyl]-2-M(Methoxyimino) in Dogs with Cover Letter Dated 082092|EPA/OTS Doc #88-920008530:13 p.|1992|
170244|A||Jarvis,A.L., M.J. Bernot, and R.J. Bernot|The Effects of the Pharmaceutical Carbamazepine on Life History Characteristics of Flat-Headed Mayflies (Heptageniidae) and Aquatic Resource Interactions|Ecotoxicology23(9): 1701-1712|2014|10.1007/s10646-014-1309-4
170245|T||DuPont Chemical Corp.|Support: Preliminary Results of a Two-Generation Reproduction Toxicity Study in Rats with Cymoxanil Submitted as a Letter Dated 031193|EPA/OTS Doc #89-930000164:1 p.|1992|
170246|T||DuPont Chemical Corp.|Support: Interim Sacrifice Results of a 2-Year Feeding Study in Rats with Cymoxanil Submitted as a Letter Dated 063093|EPA/OTS Doc #89-930000165:1 p.|1992|
170247|T||Jeong,E.Y., M.G. Kim, and H.S. Lee|Acaricidal Activity of Triketone Analogues Derived from Leptospermum scoparium Oil Against House-Dust and Stored-Food Mites|Pest Manag. Sci.65(3): 327-331|2009|10.1002/ps.1684
170248|T||DuPont Chemical Corp.|Support: Two-Generation Reproduction Toxicity Study with Cymoxanil in Rats Submitted as a Letter Dated 120293|EPA/OTS Doc #89-940000038:1 p.|1992|
170249|T||DuPont Chemical Corp.|Support: Preliminary Results of a 2-Year Feeding Study in Rats and an 18-Month Feeding Study in Mice with Cymoxanil Submitted as a Letter Dated 031794|EPA/OTS Doc #89-940000156:26 p.|1992|
170250|A||Khan,F.R., K. Schmuecking, S.H. Krishnadasan, D. Berhanu, B.D. Smith, J.C. DeMello, P.S. Rainbow, S.N. Luoma, and E. Va|Dietary Bioavailability of Cadmium Presented to the Gastropod Peringia ulvae as Quantum Dots and in Ionic Form|Environ. Toxicol. Chem.32(11): 2621-2629|2013|10.1002/etc.2348
170251|T||DuPont Chemical Corp.|Support: Letter from DuPont Chem to USEPA Regarding the Pharmacological Studies of Cymoxanil Dated 081194|EPA/OTS Doc #89-940000264:26 p.|1992|
170252|T||DuPont Chemical Corp.|Initial Submission: Acute Oral Toxicity of Acetamide, 2-Cyano- N-[(Ethylamino)Carboxnyl)-2-(Methoxyimino)- in Rats with Cover Letter Dated 082092|EPA/OTS Doc #88-920008426:9 p.|1992|
170253|A||Kang,J.C., J.H. Jee, J.G. Koo, Y.H. Keum, S.G. Jo, and K.H. Park|Anti-Oxidative Status and Hepatic Enzymes Following Acute Administration of Diethyl Phthalate in Olive Flounder Paralichthys olivaceus, a Marine Culture Fish|Ecotoxicol. Environ. Saf.73(6): 1449-1455|2010|10.1016/j.ecoenv.2010.07.025
170254|T||Jiang,W.H., W.P. Lu, W.C. Guo, Z.H. Xia, W.J. Fu, and G.Q. Li|Chlorantraniliprole Susceptibility in Leptinotarsa decemlineata in the North Xinjiang Uygur Autonomous Region in China|J. Econ. Entomol.105(2): 549-554|2012|10.1603/EC11194
170255|A||Almeida,A., V. Calisto, V.I. Esteves, R.J. Schneider, A.M.V.M. Soares, E. Figueira, and R. Freitas|Presence of the Pharmaceutical Drug Carbamazepine in Coastal Systems: Effects on Bivalves|Aquat. Toxicol.156:74-87|2014|10.1016/j.aquatox.2014.08.002
170256|A||Agbo,S.O., E. Kuster, A. Georgi, J. Akkanen, M.T. Leppanen, and J.V.K. Kukkonen|Photostability and Toxicity of Pentachlorophenol and Phenanthrene|J. Hazard. Mater.189(1/2): 235-240|2011|10.1016/j.jhazmat.2011.02.024
170257|A||Beklioglu,M., S.B. Akkas, H.E. Ozcan, G. Bezirci, and I. Togan|Effects of 4-Nonylphenol, Fish Predation and Food Availability on Survival and Life History Traits of Daphnia magna Straus|Ecotoxicology19(5): 901-910|2010|10.1007/s10646-010-0470-7
170258|A||Bluthgen,N., S. Zucchi, and K. Fent|Effects of the UV Filter Benzophenone-3 (Oxybenzone) at Low Concentrations in Zebrafish (Danio rerio)|Toxicol. Appl. Pharmacol.263(2): 184-194|2012|10.1016/j.taap.2012.06.008
170259|A||Bosnjak,I., M. Borra, F. Iamunno, G. Benvenuto, I. Ujevic, I. Buselic, R. Roje-Busatto, and I. Mladineo|Effect of Bisphenol A on P-Glycoprotein-Mediated Efflux and Ultrastructure of the Sea Urchin Embryo|Aquat. Toxicol.156:21-29|2014|10.1016/j.aquatox.2014.07.018
170260|T||Devine,C., G.P. Brennan, C.E. Lanusse, L.I. Alvarez, A. Trudgett, E. Hoey, and I. Fairweather|Inhibition of Cytochrome P450-Mediated Metabolism Enhances Ex Vivo Susceptibility of Fasciola hepatica to Triclabendazole|Parasitology137:871-880|2010|10.1017/S003118200999148X
170261|AT||Kumar,S., and M.K.K. Pillai|Correlation Between the Reproductive Potential and the Pyrethroid Resistance in an Indian Strain of Filarial Vector, Culex quinquefasciatus Say (Diptera: Culicidae)|Bull. Entomol. Res.101:25-31|2011|10.1017/S0007485310000131
170262|T||Sargison,N.D., F. Jackson, D.J. Wilson, D.J. Bartley, C.D. Penny, and J.S. Gilleard|Characterisation of Milbemycin-, Avermectin-, Imidazothiazole- and Benzimidazole-Resistant Teladorsagia circumcincta from a Sheep Flock|Vet. Rec.166:681-686|2010|10.1136/vr.b4853
170263|A||Chaube,R., G.J. Gautam, and K.P. Joy|Teratogenic Effects of 4-Nonylphenol on Early Embryonic and Larval Development of the Catfish Heteropneustes fossilis|Arch. Environ. Contam. Toxicol.64(4): 554-561|2013|10.1007/s00244-012-9851-7
170264|T||Wegorek,P., J. Zamojska, and M. Mrowczynski|High Resistance to Pyrethroid Insecticides in the Polish Pollen Beetle (Meligethes aeneus F.): The Role of Oxidative Metabolism|Phytoparasitica39:43-49|2011|10.1007/s12600-010-0138-0
170265|A||Cheng,L.J., M.J. Hung, Y.I. Cheng, and T.S. Cheng|Calcium-Mediated Responses and Glutamine Synthetase Expression in Greater Duckweed (Spirodela polyrhiza L.) Under Diethyl Phthalate-Induced Stress|Aquat. Toxicol.144-145:124-132|2013|10.1016/j.aquatox.2013.10.008
170266|AT||Yuan,J.Z., Q.F. Li, J.B. Huang, and J.F. Gao|Effect of Chlorfenapyr on Cypermethrin-Resistant Culex pipiens pallens Coq Mosquitoes|Acta Trop.143:13-17|2015|10.1016/j.actatropica.2014.12.002
170267|T||Snodgrass,W.R.|Phenytoin Liver Glutathione Depletion - A Possible Mechanism of Liver Injury|Vet. Hum. Toxicol.23(5): 351-|1981|
170268|A||Cheng,T.S.|The Toxic Effects of Diethyl Phthalate on the Activity of Glutamine Synthetase in Greater Duckweed (Spirodela polyrhiza L.)|Aquat. Toxicol.124/125:171-178|2012|10.1016/j.aquatox.2012.08.014
170269|A||Cocci,P., G. Mosconi, and F.A. Palermo|Effects of 4-Nonylphenol on Hepatic Gene Expression of Peroxisome Proliferator-Activated Receptors and Cytochrome P450 Isoforms (CYP1A1 and CYP3A4) in Juvenile Sole (Solea solea)|Chemosphere93(6): 1176-1181|2013|10.1016/j.chemosphere.2013.06.058
170270|T||AlGusbi,S., J. Krucken, S. Ramunke, G. Samson-Himmelstjerna, and J. Demeler|Analysis of Putative Inhibitors of Anthelmintic Resistance Mechanisms in Cattle Gastrointestinal Nematodes|Int. J. Parasitol.44:647-658|2014|10.1016/j.ijpara.2014.04.007
170271|A||Downs,C.A., E. Kramarsky-Winter, J.E. Fauth, R. Segal, O. Bronstein, R. Jeger, Y. Lichtenfeld, C.M. Woodley, P. Penning|Toxicological Effects of the Sunscreen UV Filter, Benzophenone-2, on Planulae and In Vitro Cells of the Coral, Stylophora pistillata|Ecotoxicology23(2): 175-191|2014|10.1007/s10646-013-1161-y
170272|A||Ahmed,M.A.I., and C.F.A. Vogel|Synergistic Action of Octopamine Receptor Agonists on the Activity of Selected Novel Insecticides for Control of Dengue Vector Aedes aegypti (Diptera: Culicidae) Mosquito|Pestic. Biochem. Physiol.120:51-56|2015|10.1016/j.pestbp.2015.01.014
170273|A||De Morais,P., T. Stoichev, M.C.P. Basto, V. Ramos, V.M. Vasconcelos, and M.T.S.D. Vasconcelos|Cyanobacterium Microcystis aeruginosa Response to Pentachlorophenol and Comparison with that of the Microalga Chlorella vulgaris|Water Res.52:63-72|2014|10.1016/j.watres.2013.12.036
170274|A||De Morais,P., T. Stoichev, M.C.P. Basto, V. Ramos, V.M. Vasconcelos, and M.T.S.D. Vasconcelos|Pentachlorophenol Toxicity to a Mixture of Microcystis aeruginosa and Chlorella vulgaris Cultures|Aquat. Toxicol.150:159-164|2014|10.1016/j.aquatox.2014.03.008
170275|T||Faulde,M.K., and O. Nehring|Synergistic Insecticidal and Repellent Effects of Combined Pyrethroid and Repellent-Impregnated Bed Nets Using a Novel Long-Lasting Polymer-Coating Multi-Layer Technique|Parasitol. Res.111:755-765|2012|10.1007/s00436-012-2896-8
170276|A||Fang,Y., X. Gao, J. Zha, B. Ning, X. Li, Z. Gao, and F. Chao|Identification of Differential Hepatic Proteins in Rare Minnow (Gobiocypris rarus) Exposed to Pentachlorophenol (PCP) by Proteomic Analysis|Toxicol. Lett.199(1): 69-79|2010|10.1016/j.toxlet.2010.08.008
170277|T||Farrow,E.M., J. Wang, J.G. Burken, H. Shi, W. Yan, J. Yang, B. Hua, and B. Deng|Reducing Arsenic Accumulation in Rice Grain Through Iron Oxide Amendment|Ecotoxicol. Environ. Saf.118:55-61|2015|10.1016/j.ecoenv.2015.04.014
170278|A||Feswick,A., J.S. Ings, M.A. Doyle, T. Bosker, K.R. Munkittrick, and C.J. Martyniuk|Transcriptomics Profiling and Steroid Production in Mummichog (Fundulus heteroclitus) Testes After Treatment with 5alpha-Dihydrotestosterone|Gen. Comp. Endocrinol.203:106-119|2014|10.1016/j.ygcen.2014.01.003
170279|T||Feng,Y., Q. Wu, S. Wang, X. Chang, W. Xie, B. Xu, and Y. Zhang|Cross-Resistance Study and Biochemical Mechanisms of Thiamethoxam Resistance in B-Biotype Bemisia tabaci (Hemiptera: Aleyrodidae)|Pest Manag. Sci.66:313-318|2010|10.1002/ps.1877
170280|T||Gao,C.F., S.Z. Ma, C.H. Shan, and S.F. Wu|Thiamethoxam Resistance Selected in the Western Flower Thrips Frankliniella occidentalis (Thysanoptera: Thripidae): Cross-Resistance Patterns, Possible Biochemical Mechanisms and Fitness Costs Analysis|Pestic. Biochem. Physiol.114:90-96|2014|10.1016/j.pestbp.2014.06.009
170281|T||Ay,R., and S. Yorulmaz|Inheritance and Detoxification Enzyme Levels in Tetranychus urticae Koch (Acari: Tetranychidae) Strain Selected with Chlorpyrifos|J. Pest Sci.83:85-93|2010|10.1007/s10340-009-0274-9
170282|A||Navarro,V.C., M.T. Leppanen, J.V.K. Kukkonen, and S.G. Olmos|Trophic Transfer of Pyrene Metabolites Between Aquatic Invertebrates|Environ. Pollut.173:61-67|2013|10.1016/j.envpol.2012.09.023
170283|T||Hayashi,S., Y. Taketa, K. Inoue, M. Takahashi, S. Matsuo, K. Irie, G. Watanabe, and M. Yoshida|Effects of Pyperonyl Butoxide on the Female Reproductive Tract in Rats|J. Toxicol. Sci.38(6): 891-902|2013|10.2131/jts.38.891
170284|A||Javidmehr,A., P.H. Kass, L.A. Deanovic, R.E. Connon, and I. Werner|10-Day Survival of Hyalella azteca as a Function of Water Quality Parameters|Ecotoxicol. Environ. Saf.115:250-256|2015|10.1016/j.ecoenv.2015.02.008
170285|T||Kotze,A.C., A.P. Ruffell, and A.B. Ingham|Phenobarbital Induction and Chemical Synergism Demonstrate the Role of UDP-Glucuronosyltransferases in Detoxification of Naphthalophos by Haemonchus contortus Larvae|Antimicrob. Agents Chemother.58:7475-7483|2014|10.1128/AAC.03333-14
170286|T||Kresinova,Z., M. Moeder, M. Ezechias, K. Svobodova, and T. Cajthaml|Mechanistic Study of 17 alpha-Ethinylestradiol Biodegradation by Pleurotus ostreatus: Tracking of Extracelullar and Intracelullar Degradation Mechanisms|Environ. Sci. Technol.46:13377-13385|2012|10.1021/es3029507
170287|T||Li,A.Y., R.B. Davey, and R.J. Miller|Laboratory Evaluation of Verbutin as a Synergist of Acaricides Against Larvae of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae)|J. Econ. Entomol.103(4): 1360-1364|2010|10.1603/EC09329
170288|T||Martini,L.F.D., N.R. Burgos, J.A. Noldin, L.A. De Avila, and R.A. Salas|Absorption, Translocation and Metabolism of Bispyribac-Sodium on Rice Seedlings Under Cold Stress|Pest Manag. Sci.71:1021-1029|2015|10.1002/ps.3882
170289|T||Radova,S.|Effects of Selected Pesticides on Survival and Virulence of Two Nematode Species|Pol. J. Environ. Stud.20(1): 181-185|2011|
170290|A||Mehler,W.T., H. Li, M.J. Lydy, and J. You|Identifying the Causes of Sediment-Associated Toxicity in Urban Waterways of the Pearl River Delta, China|Environ. Sci. Technol.45:1812-1819|2011|10.1021/es103552d
170291|T||Mendes,E.C., M.C. Mendes, and M.E. Sato|Diagnosis of Amitraz Resistance in Brazilian Populations of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) with Larval Immersion Test|Exp. Appl. Acarol.61:357-369|2013|10.1007/s10493-013-9697-3
170292|T||Muthusamy,R., and M.S. Shivakumar|Resistance Selection and Molecular Mechanisms of Cypermethrin Resistance in Red Hairy Caterpillar (Amsacta albistriga Walker)|Pestic. Biochem. Physiol.117:54-61|2015|10.1016/j.pestbp.2014.10.009
170293|A||Guo,Y., and B. Zhou|Thyroid Endocrine System Disruption by Pentachlorophenol:  An In Vitro and In Vivo Assay|Aquat. Toxicol.142/143:138-145|2013|10.1016/j.aquatox.2013.08.005
170295|T||Gattullo,C.E., A. Traversa, N. Senesi, and E. Loffredo|Phytodecontamination of the Endocrine Disruptor 4-Nonylphenol in Water also in the Presence of Two Natural Organic Fractions|Water Air Soil Pollut.223(9): 6035-6044|2012|10.1007/s11270-012-1337-8
170296|A||Hong,H.C., H.Y. Zhou, C.Y. Lan, and Y. Liang|Pentachlorophenol Induced Physiological-Biochemical Changes in Chlorella pyrenoidosa Culture|Chemosphere81(10): 1184-1188|2010|10.1016/j.chemosphere.2010.09.044
170298|T||Hechmi,N., N. Ben Aissa, H. Abdenaceur, and N. Jedidi|Evaluating the Phytoremediation Potential of Phragmites australis Grown in Pentachlorophenol and Cadmium Co-Contaminated Soils|Environ. Sci. Pollut. Res.21:1304-1313|2014|10.1007/s11356-013-1997-y
170299|T||Demkovich,M., J.P. Siegel, B.S. Higbee, and M.R. Berenbaum|Mechanism of Resistance Acquisition and Potential Associated Fitness Costs in Amyelois transitella (Lepidoptera: Pyralidae) Exposed to Pyrethroid Insecticides|Environ. Entomol.44(3): 855-863|2015|10.1093/ee/nvv047
170300|T||Nishino,R., T. Fukuyama, T. Kosaka, K. Hayashi, Y. Watanabe, Y. Kurosawa, H. Ueda, and T. Harada|Effects of Short-Term Oral Combined Exposure to Environmental Immunotoxic Chemicals in Mice|J. Immunotoxicol.11(4): 359-366|2014|10.3109/1547691X.2013.851747
170301|T||Hu,Y., G. Duan, Y.Z. Huang, Y.X. Liu, and G.X. Sun|Interactive Effects of Different Inorganic As and Se Species on Their Uptake and Translocation by Rice (Oryza sativa L.) Seedlings|Environ. Sci. Pollut. Res.21(5): 3955-3962|2014|10.1007/s11356-013-2321-6
170302|T||Hu,Y., G.J. Norton, G. Duan, Y. Huang, and Y. Liu|Effect of Selenium Fertilization on the Accumulation of Cadmium and Lead in Rice Plants|Plant Soil384:131-140|2014|10.1007/s11104-014-2189-3
170303|A||Ji,C., L. Wei, J. Zhao, and H. Wu|Metabolomic Analysis Revealed that Female Mussel Mytilus galloprovincialis was Sensitive to Bisphenol A Exposures|Environ. Toxicol. Pharmacol.37:844-849|2014|10.1016/j.etap.2014.02.015
170304|A||Kortner,T.M., A.S. Mortensen, M.D. Hansen, and A. Arukwe|Neural Aromatase Transcript and Protein Levels in Atlantic Salmon (Salmo salar) are Modulated by the Ubiquitous Water Pollutant, 4-Nonylphenol|Gen. Comp. Endocrinol.164(1): 91-99|2009|10.1016/j.ygcen.2009.05.009
170305|A||Kim,S., D. Jung, Y. Kho, and K. Choi|Effects of Benzophenone-3 Exposure on Endocrine Disruption and Reproduction of Japanese Medaka (Oryzias latipes) - A Two Generation Exposure Study|Aquat. Toxicol.155:244-252|2014|10.1016/j.aquatox.2014.07.004
170306|T||Klobucar,G.I.V., A. Stambuk, M. Srut, I. Husnjak, M. Merkas, L. Traven, and Z. Cvetkovic|Aporrectodea caliginosa, a Suitable Earthworm Species for Field Based Genotoxicity Assessment?|Environ. Pollut.159(4): 841-849|2011|10.1016/j.envpol.2011.01.009
170307|T||Niu,J.Z., G.Y. Liu, W. Dou, and J.J. Wang|Susceptibility and Activity of Glutathione S-Transferases in Nine Field Populations of Panonychus citri (Acari: Tetranychidae) to Pyridaben and Azocyclotin|Fla. Entomol.94:321-329|2011|10.1653/024.094.0227
170308|T||Pasay,C., L. Arlian, M. Morgan, R. Gunning, L. Rossiter, D. Holt, S. Walton, S. Beckham, and J. McCarthy|The Effect of Insecticide Synergists on the Response of Scabies Mites to Pyrethroid Acaricides|PLoS Neglected Trop. Dis.3(1): 8 p.|2009|10.1371/journal.pntd.0000354
170309|A||Pereira,B.B., J.E. Limongi, E.O.,Jr. Campos, D.P. Luiz, and W.E. Kerr|Effects of Piperonyl Butoxide on the Toxicity of the Organophosphate Temephos and the Role of Esterases in the Insecticide Resistance of Aedes aegypti|Rev. Soc. Bras. Med. Trop.47(5): 579-582|2014|10.1590/0037-8682-0195-2014
170310|T||Ning,D., H. Wang, and Y. Zhuang|Induction of Functional Cytochrome P450 and Its Involvement in Degradation of Benzoic Acid by Phanerochaete chrysosporium|Biodegradation (Dordr.)21:297-308|2010|10.1007/s10532-009-9301-z
170311|T||Shi,L., Z. Xu, G. Shen, C. Song, Y. Wang, J. Peng, J. Zhang, and L. He|Expression Characteristics of Two Novel Cytochrome P450 Genes Involved in Fenpropathrin Resistance in Tetranychus cinnabarinus (Boisduval)|Pestic. Biochem. Physiol.119:33-41|2015|10.1016/j.pestbp.2015.02.009
170312|T||Tan,L.R., Y.C. Lu, J.J. Zhang, F. Luo, and H. Yang|A Collection of Cytochrome P450 Monooxygenase Genes Involved in Modification and Detoxification of Herbicide Atrazine in Rice (Oryza sativa) Plants|Ecotoxicol. Environ. Saf.119:25-34|2015|10.1016/j.ecoenv.2015.04.035
170313|AT||Tong,F., and J.R. Bloomquist|Plant Essential Oils Affect the Toxicities of Carbaryl and Permethrin Against Aedes aegypti (Diptera: Culicidae)|J. Med. Entomol.50(4): 826-832|2013|10.1603/ME13002
170314|T||Virkel,G., A. Lifschitz, J. Sallovitz, M. Ballent, S. Scarcella, and C. Lanusse|Inhibition of Cytochrome P450 Activity Enhances the Systemic Availability of Triclabendazole Metabolites in Sheep|J. Vet. Pharmacol. Ther.32(1): 79-86|2009|10.1111/j.1365-2885.2008.01006.x
170315|T||Ling,S., H. Zhang, and R. Zhang|Effect of Fenvalerate on the Reproduction and Fitness Costs of the Brown Planthopper, Nilaparvata lugens and Its Resistance Mechanism|Pestic. Biochem. Physiol.101(3): 148-153|2011|10.1016/j.pestbp.2011.08.009
170316|T||Wang,J., H. Hirai, and H. Kawagishi|Biotransformation of Acetamiprid by the White-Rot Fungus Phanerochaete sordida YK-624|Appl. Microbiol. Biotechnol.93:831-835|2012|10.1007/s00253-011-3435-8
170317|A||Werner,I., L.A. Deanovic, D. Markewicz, M. Khamphanh, C.K. Reece, M. Stillway, and C. Reece|Monitoring Acute and Chronic Water Column Toxicity in the Northern Sacramento-San Joaquin Estuary, California, USA, Using the Euryhaline Amphipod, Hyalella azteca: 2006 to 2007|Environ. Toxicol. Chem.29(10): 2190-2199|2010|10.1002/etc.281
170318|A||Lai,K.M., M.D. Scrimshaw, and J.N. Lester|Biotransformation and Bioconcentration of Steroid Estrogens by Chlorella vulgaris|Appl. Environ. Microbiol.68(2): 859-864|2002|10.1128/AEM.68.2.859-864.2002
170319|A||Lin,K.|Joint Acute Toxicity of Tributyl Phosphate and Triphenyl Phosphate to Daphnia magna|Environ. Chem. Lett.7(4): 309-312|2009|10.1007/s10311-008-0170-1
170320|T||Zamojska,J., and P. Wegorek|Preliminary Studies on the Susceptibility Level of Ceutorchynhus assimilis (Coleoptera: Curculionidae) to Acetamiprid and Chlorpyrifos in Poland and Resistance Mechanisms of the Pest to Acetamiprid|J. Insect Sci.14:265-265|2014|10.1093/jisesa/ieu127
170321|A||Liu,Y., C. Yuan, S. Chen, Y. Zheng, Y. Zhang, J. Gao, and Z. Wang|Global and CYP19a1a Gene Specific DNA Methylation in Gonads of Adult Rare Minnow Gobiocypris rarus Under Bisphenol A Exposure|Aquat. Toxicol.156:10-16|2014|10.1016/j.aquatox.2014.07.017
170322|T||Clark,J.D., R.C. Hatch, A.V. Jain, and R. Weiss|Effect of Enzyme Inducers and Inhibitors and Glutathione Precursor and Depleter on Induced Acute Aflatoxicosis in Rabbits|Am. J. Vet. Res.43(6): 1027-1033|1982|
170323|A||Liu,C., Q. Wang, K. Liang, J. Liu, B. Zhou, X. Zhang, H. Liu, J.P. Giesy, and H. Yu|Effects of Tris(1,3-Dichloro-2-Propyl) Phosphate and Triphenyl Phosphate on Receptor-Associated mRNA Expression in Zebrafish Embryos/Larvae|Aquat. Toxicol.128:147-157|2013|10.1016/j.aquatox.2012.12.010
170324|T||Nemoto,K., T. Tanaka, A. Ikeda, S. Ito, M. Mizukami, T. Hikida, T. Gamou, W. Habano, S. Ozawa, K. Inoue, M. Yoshida, A.|Super-Induced Gene Expression of the N-Methyl-D-Aspartate Receptor 2C Subunit in Chemical-Induced Hypertrophic Liver in Rats|J. Toxicol. Sci.36(5): 507-514|2011|10.2131/jts.36.507
170325|A||Li,P., C.Y. Liu, H. Liu, Q. Zhang, and L. Wang|Protective Function of Nitric Oxide on Marine Phytoplankton Under Abiotic Stresses|Nitric Oxide33:88-96|2013|10.1016/j.niox.2013.06.007
170326|T||Fujimoto,N., K. Inoue, M. Yoshida, A. Nishikawa, S. Ozawa, T. Gamou, K. Nemoto, and M. Degawa|Estrogen and Androgen Receptor Status in Hepatocellular Hypertrophy Induced by Phenobarbital, Clofibrate, and Piperonyl Butoxide in F344 Rats|J. Toxicol. Sci.37(2): 281-286|2012|10.2131/jts.37.281
170327|T||Fukuyama,T., T. Kosaka, K. Hayashi, L. Miyashita, Y. Tajima, K. Wada, R. Nishino, H. Ueda, and T. Harada|Immunotoxicity in Mice Induced by Short-Term Exposure to Methoxychlor, Parathion, or Piperonyl Butoxide|J. Immunotoxicol.10(2): 150-159|2013|10.3109/1547691X.2012.703252
170328|T||Kawai,M., Y. Saegusa, S. Kemmochi, T. Harada, K. Shimamoto, M. Shibutani, and K. Mitsumori|Cytokeratin 8/18 is a Useful Immunohistochemical Marker for Hepatocellular Proliferative Lesions in Mice|J. Vet. Med. Sci.72(3): 263-269|2010|10.1292/jvms.09-0329
170329|T||Suzuki,T., M. Jin, Y. Dewa, R. Ichimura, Y. Shimada, S. Mizukami, M. Shibutani, and K. Mitsumori|Evaluation of In Vivo Liver Genotoxic Potential of Wy-14,643 and Piperonyl Butoxide in Rats Subjected to Two-Week Repeated Oral Administration|Arch. Toxicol.84(6): 493-500|2010|10.1007/s00204-010-0516-x
170331|T||E.I. Du Pont De Nemours|Initial Submission: Long-Term Feeding Study in Rats with Acetamide, 2-Cyano-2-Methoxyimino-N-Ethylcarbamoyl (INT-3217) (Two-Year Report) with Cover Sheets and Letter Dated 082092|EPA/OTS Doc #88-920006866:462 p.|1992|
170332|T||Yafune,A., M. Kawai, M. Itahashi, M. Kimura, F. Nakane, K. Mitsumori, and M. Shibutani|Global DNA Methylation Screening of Liver in Piperonyl Butoxide-Treated Mice in a Two-Stage Hepatocarcinogenesis Model|Toxicol. Lett.222(3): 295-302|2013|10.1016/j.toxlet.2013.08.006
170333|T||Li,W.H., Y.R. Ju, C.M. Liao, and V.H.C. Liao|Assessment of Selenium Toxicity on the Life Cycle of Caenorhabditis elegans|Ecotoxicology23(7): 1245-1253|2014|10.1007/s10646-014-1267-x
170334|A||Miao,J., Y. Cai, L. Pan, and Z. Li|Molecular Cloning and Characterization of a MXR-Related P-Glycoprotein cDNA in Scallop Chlamys farreri: Transcriptional Response to Benzo(a)Pyrene, Tetrabromobisphenol A and Endosulfan|Ecotoxicol. Environ. Saf.110:136-142|2014|10.1016/j.ecoenv.2014.08.029
170335|A||Kusk,K.O., M. Avdolli, and L. Wollenberger|Effect of 2,4-Dihydroxybenzophenone (BP1) on Early Life-Stage Development of the Marine Copepod Acartia tonsa at Different Temperatures and Salinities|Environ. Toxicol. Chem.30(4): 959-966|2011|10.1002/etc.458
170336|T||Lima,D.B., V.B. Monteiro, R.N.C. Guedes, H.A.A. Siqueira, A. Pallini, and M.G.C.,Jr. Gondim|Acaricide Toxicity and Synergism of Fenpyroximate to the Coconut Mite Predator Neoseiulus baraki|Biocontrol58(5): 595-605|2013|10.1007/s10526-013-9520-4
170337|T||Maciel-Rezende,C.M., L. De Almeida, E.D. Costa, F.R. Pires, K.F. Alves, C.,Jr. Viegas, D.F. Dias, A.C. Doriguetto, M.J.|Synthesis and Biological Evaluation Against Leishmania amazonensis of a Series of Alkyl-Substituted Benzophenones|Bioorg. Med. Chem.21(11): 3114-3119|2013|10.1016/j.bmc.2013.03.045
170338|T||Durgesha,M.|Effect of Dinitroaniline Herbicides on Rhizobia, Nodulation and N2(C2H2) Fixation of Four Groundnut Cultivars|Ann. Appl. Biol.124(1): 75-82|1994|10.1111/j.1744-7348.1994.tb04117.x
170339|T||Fagerness,M.J., F.H. Yelverton, and R.J. Cooper|Bermudagrass (Cynodon dactylon (L.) Pers.) and Zoysiagrass (Zoysia japonica) Establishment After Preemergence Herbicide Applications|Weed Technol.16:597-602|2002|10.1614/0890-037X(2002)016[0597:BCDLPA]2.0.CO;2
170340|T||Lou,L., B. Wu, L. Wang, L. Luo, X. Xu, J. Hou, B. Xun, B. Hu, and Y. Chen|Sorption and Ecotoxicity of Pentachlorophenol Polluted Sediment Amended with Rice-Straw Derived Biochar|Bioresour. Technol.102(5): 4036-4041|2011|10.1016/j.biortech.2010.12.010
170341|T||Webster,H.L., D.L. Grant, R.B. Cooper, M.D. Hammond, and R.D. Hicks|Oryzalin and XL (Benefin + Oryzalin) for Weed Control in Southern Turfgrasses|Proc. South. Weed Sci. Soc.39:133-136|1986|
170342|A||Ong,K.J.|Aquatic Nanotoxicity Testing: Insights at the Biochemical, Cellular, and Whole Animal Levels|Ph.D. Thesis, University of Alberta, Canada:199 p.|2013|
170344|T||Teuton,T.C., J.B. Unruh, B.J. Brecke, G.E. MacDonald, G.L. Miller, and J.T. Ducar|Tropical Signalgrass (Urochloa subquadripara) Control with Preemergence- and Postemergence-Applied Herbicides|Weed Technol.18:419-425|2004|10.1614/WT-03-155R1
170345|T||Simoniello,P., F. Trinchella, S. Filosa, R. Scudiero, D. Magnani, T. Theil, and C.M. Motta|Cadmium Contaminated Soil Affects Retinogenesis in Lizard Embryos|J. Exp. Zool. Part A. Ecol. Genet. Physiol.321(4): 207-219|2014|10.1002/jez.1852
170346|AT||Rahman,N., M. Ahmad, M. Riaz, Mehjabeen, N. Jahan, and R. Ahmad|Phytochemical, Antimicrobial, Insecticidal and Brine Shrimp Lethality Bioassay of the Crude Methanolic Extract of Ajuga parviflora Benth.|Pak. J. Pharm. Sci.26(4): 751-756|2013|
170347|A||Pasichna,O.O.|Use of Macrophytes for Biomonitoring and Purification of the Aquatic Environmnet at Combined Pollution by Heavy Metals|Hydrobiol. J.49(6): 72-79|2013|10.1615/HydrobJ.v49.i6.70
170349|A||Tang,S., Y. Wu, C.N. Ryan, S. Yu, G. Qin, D.S. Edwards, and G.D. Mayer|Distinct Expression Profiles of Stress Defense and DNA Repair Genes in Daphnia pulex Exposed to Cadmium, Zinc, and Quantum Dots|Chemosphere120:92-99|2015|10.1016/j.chemosphere.2014.06.011
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170351|T||Jagschitz,J.A., and C.D. Sawyer|Preemergence Control of Crabgrass, Spurge and Oxalis and Pre-Post, Post Control of Crabgrass in Turf|Proc. Annu. Meet. Northeast. Weed Sci. Soc.43:96-97|1989|
170352|T||Dempsey,E., M. Prudencio, B.J. Fennell, C.S. Gomes-Santos, J.W. Barlow, and A. Bell|Antimitotic Herbicides Bind to an Unidentified Site on Malarial Parasite Tubulin and Block Development of Liver-Stage Plasmodium Parasites|Mol. Biochem. Parasitol.188:116-127|2013|10.1016/j.molbiopara.2013.03.001
170353|T||Ning,D., H. Wang, C. Ding, and H. Lu|Novel Evidence of Cytochrome P450-Catalyzed Oxidation of Phenanthrene in Phanerochaete chrysosporium Under Ligninolytic Conditions|Biodegradation (Dordr.)21(6): 889-901|2010|10.1007/s10532-010-9349-9
170354|T||Ning,D., and H. Wang|Involvement of Cytochrome P450 in Pentachlorophenol Transformation in a White Rot Fungus Phanerochaete chrysosporium|PLoS One7(9): 7 p.|2012|10.1371/journal.pone.0045887
170355|T||Zehnder,G.W., and J. Speese III|Colorado Potato Beetle Control on Potatoes, 1990|Insectic. Acaric. Tests16:109-110|1991|10.1093/iat/16.1.109a
170356|T||De Falco,M., A. Sellitti, R. Sciarrillo, A. Capaldo, S. Valiante, G. Iachetta, M. Forte, and V. Laforgia|Nonylphenol Effects on the HPA Axis of the Bioindicator Vertebrate, Podarcis sicula Lizard|Chemosphere104:190-196|2014|10.1016/j.chemosphere.2013.11.014
170357|A||Capaldo,A., F. Gay, S. Valiante, M. De Falco, R. Sciarrillo, M. Maddaloni, and V. Laforgia|Endocrine-Disrupting Effects of Nonylphenol in the Newt, Triturus carnifex (Amphibia, Urodela)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 352-358|2012|10.1016/j.cbpc.2011.10.004
170358|T||Weiner,A.K., A. Ramirez, T. Zintel, R.W. Rose, E. Wolff, A.L. Parker, K. Bennett, K. Johndreau, C. Rachfalski, J. Zhou,|Bisphenol A Affects Larval Growth and Advances the Onset of Metamorphosis in Drosophila melanogaster|Ecotoxicol. Environ. Saf.101:7-13|2014|10.1016/j.ecoenv.2013.12.008
170359|T||Yuan,H.X., X. Xu, Y.H. Sima, and S.Q. Xu|Reproductive Toxicity Effects of 4-Nonylphenol with Known Endocrine Disrupting Effects and Induction of Vitellogenin Gene Expression in Silkworm, Bombyx mori|Chemosphere93(2): 263-268|2013|10.1016/j.chemosphere.2013.04.075
170360|A||Yu,L.Q., G.F. Zhao, M. Feng, W. Wen, K. Li, P.W. Zhang, X. Peng, W.J. Huo, and H.D. Zhou|Chronic Exposure to Pentachlorophenol Alters Thyroid Hormones and Thyroid Hormone Pathway mRNAs in Zebrafish|Environ. Toxicol. Chem.33(1): 170-176|2014|10.1002/etc.2408
170361|T||Wollenhaupt,S.G.N., A.T.G. Soares, W.G. Salgueiro, S. Noremberg, G. Reis, C. Viana, P. Gubert, F.A. Soares, R.F. Affeld|Seleno- and Telluro-Xylofuranosides Attenuate Mn-Induced Toxicity in C. elegans via the DAF-16/FOXO Pathway|Food Chem. Toxicol.64:192-199|2014|10.1016/j.fct.2013.11.030
170362|A||Xu,T., J. Zhao, P. Hu, Z. Dong, J. Li, H. Zhang, D. Yin, and Q. Zhao|Pentachlorophenol Exposure Causes Warburg-Like Effects in Zebrafish Embryos at Gastrulation Stage|Toxicol. Appl. Pharmacol.277(2): 183-191|2014|10.1016/j.taap.2014.03.004
170363|A||Chen,Y., J. Huang, L. Xing, H. Liu, J.P. Giesy, H. Yu, and X. Zhang|Effects of Multigenerational Exposures of D. magna to Environmentally Relevant Concentrations of Pentachlorophenol|Environ. Sci. Pollut. Res.21:234-243|2014|10.1007/s11356-013-1692-z
170364|T||Kumar,A., R.P. Singh, P.K. Singh, S. Awasthi, D. Chakrabarty, P.K. Trivedi, and R.D. Tripathi|Selenium Ameliorates Arsenic Induced Oxidative Stress Through Modulation of Antioxidant Enzymes and Thiols in Rice (Oryza sativa L.)|Ecotoxicology23(7): 1153-1163|2014|10.1007/s10646-014-1257-z
170366|T||Lou,L., L. Luo, W. Wang, X. Xu, J. Hou, B. Xun, and Y. Chen|Impact of Black Carbon Originated from Fly Ash and Soot on the Toxicity of Pentachlorophenol in Sediment|J. Hazard. Mater.190(1-3): 474-479|2011|10.1016/j.jhazmat.2011.03.073
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170369|A||Naderi,M., S.M. Mousavi, A. Safahieh, E.R. Ghatrami, and D. Zargham|Effects of 4-Nonylphenol on Balance of Steroid and Thyroid Hormones in Sexually Immature Male Yellowfin Seabream (Acanthopagrus latus)|Environ. Toxicol.29:459-465|2014|10.1002/tox.21772
170370|A||Oliveira,L.L.D., S.C. Antunes, F. Goncalves, O. Rocha, and B. Nunes|Evaluation of Ecotoxicological Effects of Drugs on Daphnia magna Using Different Enzymatic Biomarkers|Ecotoxicol. Environ. Saf.119:123-131|2015|10.1016/j.ecoenv.2015.04.028
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170376|A||Ramos,A.S., A.T. Correia, S.C. Antunes, F. Goncalves, and B. Nunes|Effect of Acetaminophen Exposure in Oncorhynchus mykiss Gills and Liver: Detoxification Mechanisms, Oxidative Defence System and Peroxidative Damage|Environ. Toxicol. Pharmacol.37(3): 1221-1228|2014|10.1016/j.etap.2014.04.005
170377|T||Rodrigues,A.R.S., H.A.A. Siqueira, and J.B. Torres|Enzymes Mediating Resistance to lambda-Cyhalothrin in Eriopis connexa (Coleoptera: Coccinellidae)|Pestic. Biochem. Physiol.110(0): 36-43|2014|10.1016/j.pestbp.2014.02.005
170378|T||Shan,J., T. Wang, C. Li, E. Klumpp, and R. Ji|Bioaccumulation and Bound-Residue Formation of a Branched 4-Nonylphenol Isomer in the Geophagous Earthworm Metaphire guillelmi in a Rice Paddy Soil|Environ. Sci. Technol.44(12): 4558-4563|2010|10.1021/es100139w
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170381|T||Snell-Rood,E.C., A. Espeset, C.J. Boser, W.A. White, and R. Smykalski|Anthropogenic Changes in Sodium Affect Neural and Muscle Development in Butterflies|Proc. Natl. Acad. Sci. U.S.A.111(28): 10221-10226|2014|10.1073/pnas.1323607111
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170452|T||Contreras,E.Q., M. Cho, H. Zhu, H.L. Puppala, G. Escalera, W. Zhong, and V.L. Colvin|Toxicity of Quantum Dots and Cadmium Salt to Caenorhabditis elegans After Multigenerational Exposure|Environ. Sci. Technol.47(2): 1148-1154|2013|10.1021/es3036785
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170623|T||Eeva,T., M. Rainio, A. Berglund, M. Kanerva, J. Stauffer, M. Stowe, and S. Ruuskanen|Experimental Manipulation of Dietary Lead Levels in Great Tit Nestlings: Limited Effects on Growth, Physiology and Survival|Ecotoxicology23(5): 914-928|2014|10.1007/s10646-014-1235-5
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170625|T||Doering,J., C. Maus, and R. Schoening|Residues of Imidacloprid WG 5 in Blossom and Leaf Samples of Amelanchier sp. After Soil Treatment in the Field|Bayer CropScience AG, Report No.G201799:17 p.|2005|
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170627|T||Goldman,M., and R.D. Dillon|Interaction of Selenium and Lead on Several Aspects of Thyroid Function in Pekin Ducklings|Res. Commun. Chem. Pathol. Pharmacol.37(3): 487-490|1982|
170628|T||Gao,M., W. Mu, W. Wang, C. Zhou, and X. Li|Resistance Mechanisms and Risk Assessment Regarding Indoxacarb in the Beet Armyworm, Spodoptera exigua|Phytoparasitica42:585-594|2014|10.1007/s12600-014-0396-3
170629|AT||Detwiler,S.J.|Toxicokinetics of Selenium in the Avian Egg:  Comparisons Between Species Differing in Embryonic Tolerance|Ph.D. Thesis, University of California, Davis:193 p.|2002|
170630|T||Jorgensen,M., P. Henriksen, and A. Brandt|Blood Selenium Dependent Glutathione Peroxidase Activity Related to Endometritis in Blue Fox (Alopex lagopus)|Scientifur11(1): 70-72|1987|
170631|A||Li,M.H.|Effects of Bisphenol A, Two Synthetic and a Natural Estrogens on Head Regeneration of the Freshwater Planarians, Dugesia japonica|Toxicol. Environ. Chem.96(8): 1174-1184|2015|
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170635|T||Allen,B.L., R.M. Engeman, and L.K.P. Leung|The Short-Term Effects of a Routine Poisoning Campaign on the Movements and Detectability of a Social Top-Predator|Environ. Sci. Pollut. Res.21(3): 2178-2190|2014|10.1007/s11356-013-2118-7
170637|T||Ghosh,M., S. Pal, and P.C. Sil|Taurine Attenuates Nano-Copper-Induced Oxidative Hepatic Damage via Mitochondria-Dependent and Nf- Kappa B/TNF-alpha-Mediated Pathway|Toxicol. Res. (Oxf.)3(6): 474-486|2014|
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170644|T||Robertson,L.W., I. Berberian, T. Borges, L.C. Chen, C.K. Chow, H.P. Glauert, J.G. Filser, and H. Thomas|Suppression of Peroxisomal Enzyme Activities and Cytochrome P450 4a Isozyme Expression by Congeneric Polybrominated and Polychlorinated Biphenyls|PPAR Res.2007:5 p.|2007|10.1155/2007/15481
170645|A||Romero Gonzalez,R., R. Fernandez Fernandez, J.L. Martinez Vidal, M.J. Sanchez Muros, and A. Garrido Frenich|Depletion of Veterinary Drugs Used in Aquaculture After Administration in Feed to Gilthead Seabream (Sparus aurata)|J. Food Prot.73(9): 1664-1670|2010|10.4315/0362-028X-73.9.1664
170646|A||Miller,L.L., J.B. Rasmussen, V.P. Palace, G. Sterling, and A. Hontela|Selenium Bioaccumulation in Stocked Fish as an Indicator of Fishery Potential in Pit Lakes on Reclaimed Coal Mines in Alberta, Canada|Environ. Manag.52(1): 72-84|2013|10.1007/s00267-013-0038-4
170647|A||LaLone,C.A., D.L. Villeneuve, J.E. Cavallin, M.D. Kahl, E.J. Durhan, E.A. Makynen, K.M. Jensen, K.E. Stevens, M.N. Seve|Cross-Species Sensitivity to a Novel Androgen Receptor Agonist of Potential Environmental Concern, Spironolactone|Environ. Toxicol. Chem.32(11): 2528-2541|2013|10.1002/etc.2330
170648|A||Lonkar,A.N.|Changes in Oxygen Consumption Rates of Snail Indoplanorbis exustus (Deshayas) Exposed to Sublethal Concentrations of Fungicide Contaf Plus|J. Environ. Sci. Eng.54(2): 241-244|2012|
170652|A||Civitello,D.J., P. Forys, A.P. Johnson, and S.R. Hall|Chronic Contamination Decreases Disease Spread: A Daphnia-Fungus-Copper Case Study|Proc. R. Soc. Lond. Ser. B Biol. Sci.:8 p.|2012|
170654|T||Du,L., G.D. Li, M.M. Liu, Y.Q. Li, S.Z. Yin, J. Zhao, and X.Y. Zhang|Evaluation of  DNA Damage and Antioxidant System Induced by di-n-Butyl Phthalates Exposure in Earthworms (Eisenia fetida)|Ecotoxicol. Environ. Saf.115:75-82|2015|10.1016/j.ecoenv.2015.01.031
170655|A||Avigliano,L., N. Alvarez, C. Mac Loughlin, and E.M. Rodriguez|Effects of Glyphosate on Egg Incubation, Larvae Hatching, and Ovarian Rematuration in the Estuarine Crab Neohelice granulata|Environ. Toxicol. Chem.33(8): 1879-1884|2014|10.1002/etc.2635
170656|T||Chen,W., H. Huang, Y. Wang, and J. Yen|Effect of Benzyl Butyl Phthalate on Physiology and Proteome Characterization of Water Celery (Ipomoea aquatica Forsk.)|Ecotoxicol. Environ. Saf.74(5): 1325-1330|2011|10.1016/j.ecoenv.2011.03.009
170657|A||Chen,P.Y., S. Li, L. Liu, and N. Xu|Long-Term Effects of Binary Mixtures of 17alpha-Ethinyl Estradiol and Dibutyl Phthalate in a Partial Life-Cycle Test with Zebrafish (Danio rerio)|Environ. Toxicol. Chem.34(3): 518-526|2015|10.1002/etc.2803
170658|A||Demetrio,P.M., C. Bonetto, and A.E. Ronco|The Effect of Cypermethrin, Chlorpyrifos, and Glyphosate Active Ingredients and Formulations on Daphnia magna (Straus)|Bull. Environ. Contam. Toxicol.93(3): 268-273|2014|10.1007/s00128-014-1336-0
170659|A||Aguirre-Martinez,G.V., A.T. DelValls, and M.L. Martin-Diaz|Yes, Caffeine, Ibuprofen, Carbamazepine, Novobiocin and Tamoxifen have an Effect on Corbicula fluminea (Muller, 1774)|Ecotoxicol. Environ. Saf.120:142-154|2015|10.1016/j.ecoenv.2015.05.036
170660|A||Ahmadivand,S., H. Farahmand, A. Mirvaghefi, S. Eagderi, and A. Zargar|Effects of (Anti) Androgenic Endocrine Disruptors (DEHP and Butachlor) on Immunoglobulin M (IgM) and Leukocytes Counts of Male Rainbow Trout (Oncorhynchus mykiss)|Bull. Environ. Contam. Toxicol.94(6): 695-700|2015|10.1007/s00128-015-1503-y
170661|A||Baker,L.F., J.F. Mudge, J.E. Houlahan, D.G. Thompson, and K.A. Kidd|The Direct and Indirect Effects of a Glyphosate-Based Herbicide and Nutrients on Chironomidae (Diptera) Emerging from Small Wetlands|Environ. Toxicol. Chem.33(9): 2076-2085|2014|10.1002/etc.2657
170662|A||Carnevali,O., L. Tosti, C. Speciale, C. Peng, Y. Zhu, and F. Maradonna|DEHP Impairs Zebrafish Reproduction by Affecting Critical Factors in Oogenesis|PLoS One5(4): 7 p.|2010|10.1371/journal.pone.0010201
170663|A||Fairbairn,E.A., J. Bonthius, and G.N. Cherr|Polycyclic Aromatic Hydrocarbons and Dibutyl Phthalate Disrupt Dorsal-Ventral Axis Determination via the Wnt/beta-Catenin Signaling Pathway in Zebrafish Embryos|Aquat. Toxicol.124/125:188-196|2012|10.1016/j.aquatox.2012.08.017
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170666|T||Garcia-Torres,T., L. Giuffre, R. Romaniuk, R.P. Rios, and E.A. Pagano|Exposure Assessment to Glyphosate of Two Species of Annelids|Bull. Environ. Contam. Toxicol.93(2): 209-214|2014|10.1007/s00128-014-1312-8
170667|A||Eisele,T.A., R.A. Coulombe, N.E. Pawlowski, and J.E. Nixon|The Effects of Route of Exposure and Combined Exposure of Mixed Function Oxidase Inducers and Suppressors on Hepatic Parameters in Rainbow Trout (Salmo gairdneri)|Aquat. Toxicol.5:211-226|1984|10.1016/0166-445X(84)90021-3
170668|T||Filho,I.N., N.C. Vieceli, E.M. Cardoso, E.R. Lovatel, C.F. Gonzatti, J.A. Marzotto, D.G. Montezano, and A. Specht|Two Generations of Fall Armyworm (Lepidoptera: Noctuidae) Contamination by di-n-Butylphthalate|J. Toxicol. Environ. Health Part A76(16): 973-977|2013|10.1080/15287394.2013.827996
170669|A||Levis,N.A., and J.R. Johnson|Level of UV-B Radiation Influences the Effects of Glyphosate-Based Herbicide on the Spotted Salamander|Ecotoxicology24(5): 1073-1086|2015|10.1007/s10646-015-1448-2
170670|T||Khoobdel,M., M.A. Oshaghi, N. Jonaidi, M. Shayeghi, M.R. Abaei, Y. Panahi, H. Vatandoost, H. Vatani, A. Tajik, and H. S|Laboratory Evaluation of Dimethyl Phthalate Against Anopheles stephensi and Culex pipiens|Pak. J. Biol. Sci.10(5): 745-750|2007|10.3923/pjbs.2007.745.750
170671|A||Li,F.M., M. Wu, Y. Yao, X. Zheng, J. Zhao, Z.Y. Wang, and B.S. Xing|Inhibitory Effects and Oxidative Target Site of Dibutyl Phthalate on Karenia brevis|Chemosphere132:32-39|2015|10.1016/j.chemosphere.2015.01.051
170672|A||Kaplan,L.A.E., M. Nabel, K. Van Cleef-Toedt, A.R. Proffitt, and H.M.,Jr. Pylypiw|Impact of Benzyl Butyl Phthalate on Shoaling Behavior in Fundulus heteroclitus (Mummichog) Populations|Mar. Environ. Res.86:70-75|2013|10.1016/j.marenvres.2013.02.014
170673|A||Lanctot,C., L. Navarro-Martin, C. Robertson, B. Park, P. Jackman, B.D. Pauli, and V.L. Trudeau|Effects of Glyphosate-Based Herbicides on Survival, Development, Growth and Sex Ratios of Wood Frog (Lithobates sylvaticus) Tadpoles. II: Agriculturally Relevant Exposures to Roundup WeatherMax and Vision Under Laborato|Aquat. Toxicol.154:291-303|2014|10.1016/j.aquatox.2014.05.025
170674|A||Herrero,O., R. Planello, and G. Morcillo|The Plasticizer Benzyl Butyl Phthalate (BBP) Alters the Ecdysone Hormone Pathway, the Cellular Response to Stress, the Energy Metabolism, and Several Detoxication Mechanisms in Chironomus riparius Larvae|Chemosphere128:266-277|2015|10.1016/j.chemosphere.2015.01.059
170675|A||Liu,H., P. Sun, S. Yang, L. Wang, Z. Wang, and H. Liu|Hepatic Oxidative Stress Biomarker Responses in Freshwater Fish Carassius auratus Exposed to Four Benzophenone UV Filters|Ecotoxicol. Environ. Saf.119:116-122|2015|10.1016/j.ecoenv.2015.05.017
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170677|T||Helmer,S.H., A. Kerbaol, P. Aras, C. Jumarie, and M. Boily|Effects of Realistic Doses of Atrazine, Metolachlor, and Glyphosate on Lipid Peroxidation and Diet-Derived Antioxidants in Caged Honey Bees (Apis mellifera)|Environ. Sci. Pollut. Res.22:8010-8021|2014|10.1007/s11356-014-2879-7
170678|A||Tooby,T.E., and D.H. Spencer-Jones|The Fate of the Aquatic Herbicide Dichlobenil in Hydrosoil, Water and Roach (Rutilus rutilus L.) Following Treatment of Three Areas of a Lake|In: Proceedings of the EWRS Symposium on Aquatic Weeds:323-331|1978|
170679|A||Bayir,M., A.N. Sirkecioglu, A. Bayir, and M. Aras|Alterations in Fatty Acids of Polar Lipids in Salmo trutta on Long-Term Exposure to a Glyphosate-Based Herbicide (Roundup)|Pak. J. Biol. Sci.16(20): 1194-1198|2013|10.3923/pjbs.2013.1194.1198
170680|A||Braz-Mota,S., H. Sadauskas-Henrique, R.M. Duarte, A.L. Val, and V.M.F. Almeida-Val|Roundup Exposure Promotes Gills and Liver Impairments, DNA Damage and Inhibition of Brain Cholinergic Activity in the Amazon Teleost Fish Colossoma macropomum|Chemosphere135:53-60|2015|10.1016/j.chemosphere.2015.03.042
170681|A||Cheng,Y., M. Ekker, and H.M. Chan|Relative Developmental Toxicities of Pentachloroanisole and Pentachlorophenol in a Zebrafish Model (Danio rerio)|Ecotoxicol. Environ. Saf.112:7-14|2015|10.1016/j.ecoenv.2014.10.004
170682|A||Currie,Z., R.S. Prosser, J.L. Rodriguez-Gil, K. Mahon, D. Poirier, and K.R. Solomon|Toxicity of Cuspide 480SL Spray Mixture Formulation of Glyphosate to Aquatic Organisms|Environ. Toxicol. Chem.34(5): 1178-1184|2015|10.1002/etc.2913
170683|A||Schiller,V., A. Wichmann, R. Kriehuber, E. Muth-Kohne, J.P. Giesy, M. Hecker, and M. Fenske|Studying the Effects of Genistein on Gene Expression of Fish Embryos as an Alternative Testing Approach for Endocrine Disruption|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(1): 41-53|2013|10.1016/j.cbpc.2012.09.005
170684|A||De Souza Filho,J., C.C. Sousa, C.C. Da Silva, S.M. De Saboia-Morais, and C.K. Grisolia|Mutagenicity and Genotoxicity in Gill Erythrocyte Cells of Poecilia reticulata Exposed to a Glyphosate Formulation|Bull. Environ. Contam. Toxicol.91(5): 583-587|2013|10.1007/s00128-013-1103-7
170685|A||Erhunmwunse,N.O., F.I. Alohan, A. Enuneku, I. Tongo, M. Ainerua, and S. Idugboe|Pathological Alterations in the Liver of Post-Juvenile African Catfish (Clarias gariepinus) Exposed to Sublethal Concentrations of the Herbicide Glyphosate|J. Nat. Sci. Res.3(15): 87-91|2013|
170686|A||Fan,J.Y., J.J. Geng, H.Q. Ren, X.R. Wang, and C. Han|Herbicide Roundup and Its Main Constituents Cause Oxidative Stress and Inhibit Acetylcholinesterase in Liver of Carassius auratus|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes48:844-850|2013|
170687|A||Gholami-Seyedkolaei,S.J., A. Mirvaghefi, H. Farahmand, and A.A. Kosari|Effect of a Glyphosate-Based Herbicide in Cyprinus carpio:  Assessment of Acetylcholinesterase Activity, Hematological Responses and Serum Biochemical Parameters|Ecotoxicol. Environ. Saf.98:135-141|2013|10.1016/j.ecoenv.2013.09.011
170688|A||Gholami-Seyedkolaei,S.J., A. Mirvaghefi, H. Farahmand, A.A. Kosari, S.J. Gholami-Seyedkolaei, and S.J. Gholami-Seyedkol|Optimization of Recovery Patterns in Common Carp Exposed to Roundup Using Response Surface Methodology:  Evaluation of Neurotoxicity and Genotoxicity Effects and Biochemical Parameters|Ecotoxicol. Environ. Saf.98:152-161|2013|10.1016/j.ecoenv.2013.09.009
170689|A||Guilherme,S., M.A. Santos, I. Gaivao, and M. Pacheco|Are DNA-Damaging Effects Induced by Herbicide Formulations (Roundup and Garlon) in Fish Transient and Reversible Upon Cessation of Exposure?|Aquat. Toxicol.155:213-221|2014|10.1016/j.aquatox.2014.06.007
170690|A||Harayashiki,C.A., A.S.,Jr. Varela, A.A. Machado, Cabrera L.C., E.G. Primel, A. Bianchini, and C.D. Corcini|Toxic Effects of the Herbicide Roundup in the Guppy Poecilia vivipara Acclimated to Fresh Water|Aquat. Toxicol.142/143:176-184|2013|10.1016/j.aquatox.2013.08.006
170692|T||Hu,C.W., L.J. Zhang, W.L. Wang, Y.B. Cui, and M. Li|Evaluation of the Combined Toxicity of Multi-Walled Carbon Nanotubes and Sodium Pentachlorophenate on the Earthworm Eisenia fetida Using Avoidance Bioassay and Comet Assay|Soil Biol. Biochem.70:123-130|2014|10.1016/j.soilbio.2013.12.018
170693|A||Levine,S.L., G. Merey, T. Minderhout, P. Manson, and P. Sutton|Aminomethylphosphonic Acid has Low Chronic Toxicity to Daphnia magna and Pimephales promelas|Environ. Toxicol. Chem.34(6): 1382-1389|2015|10.1002/etc.2940
170694|A||Lopes,F.M., A.S.,Jr. Varela, C.D. Corcini, A.C. Da Silva, V.G. Guazzelli, G. Tavares, and C.E. Da Rosa|Effect of Glyphosate on the Sperm Quality of Zebrafish Danio rerio|Aquat. Toxicol.155:322-326|2014|10.1016/j.aquatox.2014.07.006
170695|A||Lopez-Romero,F., G. Zuniga, and F. Martinez-Jeronimo|Asymmetric Patterns in the Cranial Skeleton of Zebrafish (Danio rerio) Exposed to Sodium Pentachlorophenate at Different Embryonic Developmental Stages|Ecotoxicol. Environ. Saf.84:25-31|2012|10.1016/j.ecoenv.2012.06.008
170696|A||Ma,J., and X. Li|Alteration in the Cytokine Levels and Histopathological Damage in Common Carp Induced by Glyphosate|Chemosphere128:293-298|2015|10.1016/j.chemosphere.2015.02.017
170697|A||Marques,A., S. Guilherme, I. Gaivao, M.A. Santos, and M. Pacheco|Progression of DNA Damage Induced by a Glyphosate-Based Herbicide in Fish (Anguilla anguilla) upon Exposure and Post-Exposure Periods  - Insights into the Mechanisms of Genotoxicity and DNA Repair|Comp. Biochem. Physiol. C Toxicol. Pharmacol.166:126-133|2014|10.1016/j.cbpc.2014.07.009
170698|A||Menendez-Helman,R.J., L.A. Miranda, M.D. Afonso, and A. Salibian|Subcellular Energy Balance of Odontesthes bonariensis Exposed to a Glyphosate-Based Herbicide|Ecotoxicol. Environ. Saf.114:157-163|2015|10.1016/j.ecoenv.2015.01.014
170699|A||Morales,M., P. Martinez-Paz, R. Martin, R. Planello, J. Urien, J.L. Martinez-Guitarte, and G. Morcillo|Transcriptional Changes Induced by In Vivo Exposure to Pentachlorophenol (PCP) in Chironomus riparius (Diptera) Aquatic Larvae|Aquat. Toxicol.157:1-9|2014|10.1016/j.aquatox.2014.09.009
170700|A||Nwani,C.D., N.S. Nagpure, R. Kumar, B. Kushwaha, P. Kumar, and W.S. Lakra|Induction of Micronuclei and Nuclear Lesions in Channa punctatus Following Exposure to Carbosulfan, Glyphosate and Atrazine|Drug Chem. Toxicol.37(4): 370-377|2014|10.3109/01480545.2013.866138
170701|A||Okonkwo,F.O., C.E.C.C. Ejike, A.N. Anoka, and I.N.E. Onwurah|Toxicological Studies on the Short Term Exposure of Clarias albopunctatus (Lamonte and Nichole 1927) to Sub-Lethal Concentrations of Roundup|Pak. J. Biol. Sci.16(18): 939-944|2013|10.3923/pjbs.2013.939.944
170702|A||Orsted,M., and P. Roslev|A Fluorescence-Based Hydrolytic Enzyme Activity Assay for Quantifying Toxic Effects of Roundup to Daphnia magna|Environ. Toxicol. Chem.34(8): 1841-1850|2015|10.1002/etc.2997
170703|T||Qiao,M., G.P. Wang, C. Zhang, D. Roelofs, N.M. Van Straalen, and Y.G. Zhu|Transcriptional Profiling of the Soil Invertebrate Folsomia candida in Pentachlorophenol-Contaminated Soil|Environ. Toxicol. Chem.34(6): 1362-1368|2015|10.1002/etc.2930
170704|A||Paredes,E., S. Perez, R. Rodil, J.B. Quintana, and R. Beiras|Ecotoxicological Evaluation of Four UV Filters Using Marine Organisms from Different Trophic Levels Isochrysis galbana, Mytilus galloprovincialis, Paracentrotus lividus, and Siriella armata|Chemosphere104:44-50|2014|10.1016/j.chemosphere.2013.10.053
170705|A||Perez,S., D. Rial, and R. Beiras|Acute Toxicity of Selected Organic Pollutants to Saltwater (Mysid Siriella armata) and Freshwater (Cladoceran Daphnia magna) Ecotoxicological Models|Ecotoxicology24(6): 1229-1238|2015|10.1007/s10646-015-1489-6
170706|A||Richard,S., N. Prevot-D'Alvise, R. Bunet, R. Simide, S. Couvray, S. Coupe, and J.P. Grillasca|Effect of a Glyphosate-Based Herbicide on Gene Expressions of the Cytokines Interleukin-1beta and Interleukin-10 and of Heme Oxygenase-1 in European Sea Bass, Dicentrarchus labrax L.|Bull. Environ. Contam. Toxicol.92(3): 294-299|2014|10.1007/s00128-013-1180-7
170707|A||Salbego,J., A. Pretto, V.M.M. Da Silva, V.L. Loro, R. Lazzari, C.R. Gioda, and B. Baldisserotto|Glyphosate on Digestive Enzymes Activity in Piava (Leporinus obtusidens)|Ciencia Rural44(9): 1603-1607|2014|10.1590/0103-8478cr20131399
170708|A||Sinhorin,V.D.G., A.P. Sinhorin, J.M.S. Teixeira, K.M.L. Mileski, P.C. Hansen, P.R. Moeller, P.S.A. Moreira, A.M. Bavier|Metabolic and Behavior Changes in Surubim Acutely Exposed to a Glyphosate-Based Herbicide|Arch. Environ. Contam. Toxicol.67(4): 659-667|2014|10.1007/s00244-014-0073-z
170709|A||Topal,A., M. Atamanalp, A. Ucar, E. Oruc, E.M. Kocaman, E. Sulukan, F. Akdemir, S. Beydemir, N. Kilinc, O. Erdogan, and|Effects of Glyphosate on Juvenile Rainbow Trout (Oncorhynchus mykiss): Transcriptional and Enzymatic Analyses of Antioxidant Defence System, Histopathological Liver Damage and Swimming Performance|Ecotoxicol. Environ. Saf.111:206-214|2015|10.1016/j.ecoenv.2014.09.027
170710|A||Uren Webster,T.M., L.V. Laing, H. Florance, and E.M. Santos|Effects of Glyphosate and Its Formulation, Roundup, on Reproduction in Zebrafish (Danio rerio)|Environ. Sci. Technol.48(2): 1271-1279|2014|10.1021/es404258h
170711|T||Zhang,L., C. Hu, W. Wang, F. Ji, Y. Cui, and M. Li|Acute Toxicity of Multi-Walled Carbon Nanotubes, Sodium Pentachlorophenate, and Their Complex on Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.103:29-35|2014|10.1016/j.ecoenv.2014.01.041
170712|A||Gosiewski,G., M. Socha, E. Nowak, J. Kuchinka, and M. Sokolowska-Mikolajczyk|Influence of Short- and Long-Term Exposition to Roundup on the Spontaneous and Hormonally Stimulated LH Secretion and Gills Condition in Prussian Carp (Carassius gibelio)|AES Bioflux4(3): 146-152|2012|
170713|A||Moreno,N.C., S.H. Sofia, and C.B.R. Martinez|Genotoxic Effects of the Herbicide Roundup Transorb and Its Active Ingredient Glyphosate on the Fish Prochilodus lineatus|Environ. Toxicol. Pharmacol.37:448-454|2014|10.1016/j.etap.2013.12.012
170714|A||Ritchie,L.S., L.A. Berrios-Duran, and R. Sierra|A Field Screening Test on a Slow-Release Formulation of Sodium Pentachlorophenate for Molluscicidal Use|Bull. W. H. O.40(3): 474-476|1969|
170715|T||Agbo,S.O., J. Lemmetyinen, M. Keinanen, S. Keski-Saari, J. Akkanen, M.T. Leppanen, Z. Wang, H. Wang, D.A. Price, and J.|Response of Lumbriculus variegatus Transcriptome and Metabolites to Model Chemical Contaminants|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(2): 183-191|2013|10.1016/j.cbpc.2012.11.005
170716|A||Armiliato,N., D. Ammar, L. Nezzi, M. Straliotto, Y.M.R. Muller, and E.M. Nazari|Changes in Ultrastructure and Expression of Steroidogenic Factor-1 in Ovaries of Zebrafish Danio rerio Exposed to Glyphosate|J. Toxicol. Environ. Health Part A77(7): 405-414|2014|10.1080/15287394.2014.880393
170718|T||Li,Y.W., Q.Y. Cai, C.H. Mo, Q.Y. Zeng, H. Lu, Q.S. Li, and G.S. Xu|Plant Uptake and Enhanced Dissipation of di(2-Ethylhexyl) Phthalate (DEHP) in Spiked Soils by Different Plant Species|Int. J. Phytoremediat.16(6): 609-620|2014|10.1080/15226514.2013.803021
170719|A||Orun,I., M.I. Dogru, K. Erdogan, A. Dogru, A. Ongun, E. Yuksel, and Z.S. Talas|Effects of Acute and Chronic Exposure to Glyphosate on Common Carp (Cyprinus carpio L.) Hematological Parameters: The Beneficial Effect of Propolis|Fresenius Environ. Bull.22(9): 2504-2509|2013|
170720|A||Sinhorin,V.D.G., A.P. Sinhorin, J.M.D. Teixeira, K.M.L. Mileski, P.C. Hansen, P.S.A. Moreira, N.H. Kawashita, A.M. Bavi|Effects of the Acute Exposition to Glyphosate-Based Herbicide on Oxidative Stress Parameters and Antioxidant Responses in a Hybrid Amazon Fish Surubim (Pseudoplatystoma sp)|Ecotoxicol. Environ. Saf.106:181-187|2014|10.1016/j.ecoenv.2014.04.040
170722|T||Mansour,N., F. Lahnsteiner, and R.A. Patzner|Optimization of the Cryopreservation of African Clawed Frog (Xenopus laevis) Sperm|Theriogenology72(9): 1221-1228|2009|10.1016/j.theriogenology.2009.07.013
170723|A||Park,K., and I.S. Kwak|Alcohol Dehydrogenase Gene Expression in Chironomus riparius Exposed to di(2-Ethylhexyl) Phthalate|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.150(3): 361-367|2009|10.1016/j.cbpc.2009.05.015
170724|A||Park,K., and I.S. Kwak|Expression of Chironomus riparius Serine-Type Endopeptidase Gene Under di-(2-Ethylhexyl) Phthalate (DEHP) Exposure|Comp. Biochem. Physiol. B Comp. Biochem.151:349-354|2008|10.1016/j.cbpb.2008.08.004
170725|A||Issa,A.A.E., M.S. Adam, and M.A. Fawzy|Alterations in Some Metabolic Activities of Scenedesmus quadricauda and Merismopedia glauca in Response to Glyphosate Herbicide|J. Biol. Earth Sci.3(1): B17-B23|2013|
170726|A||Alvarez-Moya,C., M.R. Silva, C.V. Ramirez, D.G. Gallardo, R.L. Sanchez, A.C. Aguirre, and A.F. Velasco|Comparison of the In Vivo and In Vitro Genotoxicity of Glyphosate Isopropylamine Salt in Three Different Organisms|Genet. Mol. Biol.37(1): 105-110|2014|10.1590/S1415-47572014000100016
170727|A||Figueiredo,J., and D. De Jesus Rodrigues|Effects of Four Types of Pesticides on Survival, Time and Size to Metamorphosis of Two Species of Tadpoles (Rhinella and Physalaemus Centralis) from the Southern Amazon, Brazil|Herpetol. J.24(1): 7-15|2014|
170728|T||Brosnan,J.T., and G.K. Breeden|Surface Applications of Dazomet Provide Nonselective Control of Seashore Paspalum (Paspalum vaginatum) Turf|Weed Technol.23:270-273|2009|10.1614/WT-08-147.1
170729|A||Orbea,A., M. Ortiz-Zarragoitia, and M.P. Cajaraville|Interactive Effects of Benzo(a)pyrene and Cadmium and Effects of di(2-Ethylhexyl) Phthalate on Antioxidant and Peroxisomal Enzymes and Peroxisomal Volume Density in the Digestive Gland of Mussel Mytilus galloprovinciali|Biomarkers (Lond.)7(1): 33-48|2002|10.1080/13547500110066119
170730|T||Mittelhauser,J.R., P.W. Barnes, and T.G. Barnes|The Effect of Herbicide on the Re-Establishment of Native Grasses in the Blackland Prairie|Nat. Areas J.31(3): 226-233|2011|10.3375/043.031.0305
170732|A||Heimeier,R.A., B. Das, D.R. Buchholz, and Y.B. Shi|The Xenoestrogen Bisphenol A Inhibits Postembryonic Vertebrate Development by Antagonizing Gene Regulation by Thyroid Hormone|Endocrinology150(6): 2964-2973|2009|10.1210/en.2008-1503
170733|A||Scanlan,L.D., A.V. Loguinov, Q. Teng, P. Antczak, K.P. Dailey, D.T. Nowinski, J. Kornbluh, X.X. Lin, E. Lachenauer, A. |Gene Transcription, Metabolite and Lipid Profiling in Eco-Indicator Daphnia magna Indicate Diverse Mechanisms of Toxicity by Legacy and Emerging Flame-Retardants|Environ. Sci. Technol.49(12): 7400-7410|2015|10.1021/acs.est.5b00977
170734|A||Wang,J.X., Y.L. Xi, K. Hu, and X.B. Liu|Effect of Butyl Benzyl Phthalate on Life Table-Demography of Two Successive Generations of Cladoceran Moina macrocopa Straus|J. Environ. Biol.32(1): 17-22|2011|
170735|A||Navarro-Martin,L., C. Lanctot, P. Jackman, B.J. Park, K. Doe, B.D. Pauli, and V.L. Trudeau|Effects of Glyphosate-Based Herbicides on Survival, Development, Growth and Sex Ratios of Wood Frogs (Lithobates sylvaticus) Tadpoles. I: Chronic Laboratory Exposures to VisionMax|Aquat. Toxicol.154:278-290|2014|10.1016/j.aquatox.2014.05.017
170736|A||Zhang,C., X. Yang, Z. He, Q. Zhong, J. Guo, X.J. Hu, L. Xiong, and D. Liu|Influence of BBP Exposure on Nervous System and Antioxidant System in Zebrafish|Ecotoxicology23(10): 1854-1857|2014|10.1007/s10646-014-1351-2
170737|A||Xu,N., P. Chen, L. Liu, Y. Zeng, H. Zhou, and S. Li|Effects of Combined Exposure to 17alpha-Ethynylestradiol and Dibutyl Phthalate on the Growth and Reproduction of Adult Male Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.107:61-70|2014|10.1016/j.ecoenv.2014.05.001
170738|A||Samanta,P., S. Pal, A.K. Mukherjee, and A.R. Ghosh|Biochemical Effects of Glyphosate Based Herbicide, Excel Mera 71 on Enzyme Activities of Acetylcholinesterase (AChE), Lipid Peroxidation (LPO), Catalase (CAT), Glutathione-S-Transferase (GST) and Protein Content on Tele|Ecotoxicol. Environ. Saf.107:120-125|2014|10.1016/j.ecoenv.2014.05.025
170739|A||Zhou,J., X.S. Zhu, and Z.H. Cai|Influences of DMP on the Fertilization Process and Subsequent Embryogenesis of Abalone (Haliotis diversicolor supertexta) by Gametes Exposure|PLoS One:e25951|2011|10.1371/journal.pone.0025951
170740|A||Shen,O., W. Wu, G. Du, R. Liu, L. Yu, H. Sun, X. Han, Y. Jiang, W. Shi, W. Hu, L. Song, Y. Xia, S. Wang, and X. Wang|Thyroid Disruption by Di-n-Butyl Phthalate (DBP) and Mono-n-Butyl Phthalate (MBP) in Xenopus laevis|PLoS One6(4): 10 p.|2011|10.1371/journal.pone.0019159
170742|T||Jain,M., and N. Bhalla-Sarin|Glyphosate-Induced Increase in Glutathione S-Transferase Activity and Glutathione Content in Groundnut (Arachis hypogaea L.)|Pestic. Biochem. Physiol.69(3): 143-152|2001|10.1006/pest.2000.2535
170743|T||Givaudan,N., F. Binet, B. Le Bot, and C. Wiegand|Earthworm Tolerance to Residual Agricultural Pesticide Contamination: Field and Experimental Assessment of Detoxification Capabilities|Environ. Pollut.192:9-18|2014|10.1016/j.envpol.2014.05.001
170744|A||Whitney,F.A., K. Perry, C. Philpott, A. Ramey, and C.S. Wong|Pentachlorophenol in a Pelagic Marine Ecosystem:  Effects on the Ecosystem|Pacific Marine Science Report 81-3, Institute of Ocean Sciences, Sidney, British Columbia, Canada:32 p.|1981|
170745|T||Harmoney,K.R., P.W. Stahlman, P.W. Geier, and K.R. Hickman|Rate and Timing of Glyphosate Application to Control Caucasian Old World Bluestem (Bothriochloa bladhii)|Invasive Plant Sci. Manag.3(3): 310-314|2010|10.1614/IPSM-D-10-00006.1
170747|T||Harmoney,K.R., and P.W. Stahlman|Glyphosate Application Rate and Timing to Control Old World Bluestems|Report of Progress 1016, Southwest Research Extension Center, Kansas State University, Garden City, KS:43-45|2009|
170748|T||Davis,B., R.C. Scott, J.K. Norsworthy, and E. Gbur|Response of Rice (Oryza sativa) to Low Rates of Glyphosate and Glufosinate|Weed Technol.25:198-203|2011|10.1614/WT-D-10-00131.1
170749|A||Forlani,G., M. Pavan, M. Gramek, P. Kafarski, and J. Lipok|Biochemical Bases for a Widespread Tolerance of Cyanobacteria to the Phosphonate Herbicide Glyphosate|Plant Cell Physiol.49(3): 443-456|2008|10.1093/pcp/pcn021
170750|A||Lee,Y.M., J.S. Rhee, D.S. Hwang, I.C. Kim, S. Raisuddin, and J.S. Lee|Mining of Biomarker Genes from Expressed Sequence Tags and Differential Display Reverse Transcriptase-Polymerase Chain Reaction in the Self-Fertilizing Fish, Kryptolebias marmoratus, and Their Expression Patterns in Res|Mol. Cells23(3): 287-303|2007|10.1016/S1016-8478(23)10719-9
170751|T||Nelson,A.S., and R.G. Wagner|Improving the Composition of Beech-Dominated Northern Hardwood Understories in Northern Maine|North. J. Appl. For.28(4): 186-193|2011|10.1093/njaf/28.4.186
170752|T||Piola,L., J. Fuchs, M.L. Oneto, S. Basack, E. Kesten, and N. Casabe|Comparative Toxicity of Two Glyphosate-Based Formulations to Eisenia andrei Under Laboratory Conditions|Chemosphere91(4): 545-551|2013|10.1016/j.chemosphere.2012.12.036
170753|T||Priest,A., and H. Epstein|Native Grass Restoration in Virginia Old Fields|Castanea76(2): 149-156|2011|10.2179/09-056.1
170754|T||Rodriguez,A.M., and E.J. Jacobo|Glyphosate Effects on Floristic Composition and Species Diversity in the Flooding Pampa Grassland (Argentina)|Agric. Ecosyst. Environ.138(3/4): 222-231|2010|10.1016/j.agee.2010.05.003
170755|T||Yanniccari,M., C. Istilart, D.O. Gimenez, and A.M. Castro|Glyphosate Resistance in Perennial Ryegrass (Lolium perenne L.) from Argentina|Crop Prot.32(0): 12-16|2012|10.1016/j.cropro.2011.09.021
170756|T||Buch,A.C., G.G. Brown, C.C. Niva, K.D. Sautter, and J.P. Sousa|Toxicity of Three Pesticides Commonly Used in Brazil to Pontoscolex corethrurus (Muller, 1857) and Eisenia andrei (Bouche, 1972)|Appl. Soil Ecol.69:32-38|2013|10.1016/j.apsoil.2012.12.011
170757|A||Burraco,P., L.J. Duarte, and I. Gomez-Mestre|Predator-Induced Physiological Responses in Tadpoles Challenged with Herbicide Pollution|Curr. Zool.59(4): 475-484|2013|10.1093/czoolo/59.4.475
170758|T||Cai,Q.Y., P.Y. Xiao, T. Chen, H. Lu, H.M. Zhao, Q.Y. Zeng, Y.W. Li, H. Li, L. Xiang, and C.H. Mo|Genotypic Variation in the Uptake, Accumulation, and Translocation of di-(2-Ethylhexyl) Phthalate by Twenty Cultivars of Rice (Oryza sativa L.)|Ecotoxicol. Environ. Saf.116:50-58|2015|10.1016/j.ecoenv.2015.02.038
170760|A||Di Fiori,E., H. Pizarro, M. Dos Santos Afonso, and D. Cataldo|Impact of the Invasive Mussel Limnoperna fortunei on Glyphosate Concentration in Water|Ecotoxicol. Environ. Saf.81(0): 106-113|2012|10.1016/j.ecoenv.2012.04.024
170761|A||Wang,G., S. Deng, C. Li, Y. Liu, L. Chen, and C. Hu|Damage to DNA Caused by UV-B Radiation in the Desert Cyanobacterium Scytonema javanicum and the Effects of Exogenous Chemicals on the Process|Chemosphere88(4): 413-417|2012|10.1016/j.chemosphere.2012.02.056
170762|T||Edge,C.B., M.K. Gahl, D.G. Thomson, and J.E. Houlahan|Laboratory and Field Exposure of Two Species of Juvenile Amphibians to a Glyphosate-Based Herbicide and Batrachochytrium dendrobatidis  |Sci. Total Environ.444:145-152|2013|10.1016/j.scitotenv.2012.11.045
170763|T||England,G.K., W.M. Stall, A. MacRae, and K. Muzyk|New and Potential Herbicides for Blueberries|Proc. Annu. Meet. Fla. State Hortic. Soc.122:10-13|2009|
170764|T||Evans,S.C., E.M. Shaw, and A.L. Rypstra|Exposure to a Glyphosate-Based Herbicide Affects Agrobiont Predatory Arthropod Behaviour and Long-Term Survival|Ecotoxicology19:1249-1257|2010|10.1007/s10646-010-0509-9
170765|T||Fansler,V.A., and J.M. Mangold|Restoring Native Plants to Crested Wheatgrass Stands|Restor. Ecol.19:16-23|2011|10.1111/j.1526-100X.2010.00678.x
170766|A||Fuentes,L., L.J. Moore, J.H.,Jr. Rodgers, W.W. Bowerman, G.K. Yarrow, and W.Y. Chao|Role of Sediments in Modifying the Toxicity of Two Roundup Formulations to Six Species of Larval Anurans|Environ. Toxicol. Chem.33(11): 2616-2620|2014|10.1002/etc.2725
170768|T||Tortella,G.R., R.A. Mella-Herrera, D.Z. Sousa, O. Rubilar, J.J. Acuna, G. Briceno, and M.C. Diez|Atrazine Dissipation and Its Impact on the Microbial Communities and Community Level Physiological Profiles in a Microcosm Simulating the Biomixture of On-Farm Biopurification System|J. Hazard. Mater.260:459-467|2013|10.1016/j.jhazmat.2013.05.059
170769|A||Gungordu,A.|Comparative Toxicity of Methidathion and Glyphosate on Early Life Stages of Three Amphibian Species:  Pelophylax ridibundus, Pseudepidalea viridis, and Xenopus laevis|Aquat. Toxicol.140/141:220-228|2013|10.1016/j.aquatox.2013.06.012
170770|T||Houx III,J.H., R.L. McGraw, H.E. Garrett, R.L. Kallenbach, F.B. Fritschi, and W. Rogers|Extent of Vegetation-Free Zone Necessary for Silvopasture Establishment of Eastern Black Walnut Seedlings in Tall Fescue|Agrofor. Syst.87(1): 73-80|2013|10.1007/s10457-012-9523-7
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170773|T||Kulesza,A.E., J.R. Holomuzki, and D.M. Klarer|Benthic Community Structure in Stands of Typha angustifolia and Herbicide-Treated and Untreated Phragmites australis|Wetlands28(1): 40-56|2008|10.1672/07-63.1
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170777|A||Oehlmann,J., U. Schulte-Oehlmann, W. Kloas, O. Jagnytsch, L. Lutz, K.O. Kusk, L. Wollenberger, E.M. Santos, G.C. Paull,|A Critical Analysis of the Biological Impacts of Plasticizers on Wildlife|Philos. Trans. R. Soc. Lond., B Biol. Sci.364(1526): 2047-2062|2009|10.1098/rstb.2008.0242
170778|T||Paganelli,A., V. Gnazzo, H. Acosta, S.L. Lopez, and A.E. Carrasco|Glyphosate-Based Herbicides Produce Teratogenic Effects on Vertebrates by Impairing Retinoic Acid Signaling|Chem. Res. Toxicol.23(10): 1586-1595|2010|10.1021/tx1001749
170779|T||Rojano-Delgado,A.M., F. Priego-Capote, M.D. Luque De Castro, and R. De Prado|Screening and Confirmatory Analysis of Glyoxylate: A Biomarker of Plants Resistance Against Herbicides|Talanta82(5): 1757-1762|2010|10.1016/j.talanta.2010.07.068
170780|T||Santos,M.J.G., A.M.V.M. Soares, and S. Loureiro|Joint Effects of Three Plant Protection Products to the Terrestrial Isopod Porcellionides pruinosus and the Collembolan Folsomia candida|Chemosphere80(9): 1021-1030|2010|10.1016/j.chemosphere.2010.05.031
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170782|T||True,S.L., R.J. Richardson, P.L. Hipkins, and A.P. Gardner|Efficacy of Selected Aquatic Herbicides on Common Reed|J. Aquat. Plant Manag.48:121-123|2010|
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170786|T||DeSesso,J.M., A.R. Scialli, T.E.K. White, and C.B. Breckenridge|Multigeneration Reproduction and Male Developmental Toxicity Studies on Atrazine in Rats|Birth Defects Res. Part B Dev. Reprod. Toxicol.101:237-253|2014|10.1002/bdrb.21106
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170793|T||Akunna,G.G., C.L. Saalu, O.S. Ogunmodede, B. Ogunlade, and A.J. Bello|Aqueous Extract of Date Fruit (Phoenix dactylifera) Protects Testis Against Atrazine-Induced Toxicity in Rat|World J. Life Sci. Med. Res.2(2): 100-108|2012|
170794|T||Cantemir,C., C. Cozmei, B. Scutaru, S. Nicoara, and E. Carasevici|p53 Protein Expression in Peripheral Lymphocytes from Atrazine Chronically Intoxicated Rats|Toxicol. Lett.93(2/3): 87-94|1997|10.1016/S0378-4274(97)00050-7
170795|A||Chen,X., J. Wang, H. Zhu, J. Ding, and Y. Peng|Proteomics Analysis of Xenopus laevis Gonad Tissue Following Chronic Exposure to Atrazine|Environ. Toxicol. Chem.34(8): 1770-1777|2015|10.1002/etc.2980
170796|A||Copin,P.J., and N. Chevre|Modelling the Effects of Pulse Exposure of Several PSII Inhibitors on Two Algae|Chemosphere137:70-77|2015|10.1016/j.chemosphere.2015.05.035
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170798|T||Pillay,A.R., and Y.T. Tchan|Study of Soil Algae. VII. Adsorption of Herbicides in Soil and Prediction of Their Rate of Application by Algal Methods|Plant Soil36:571-594|1972|10.1007/BF01373508
170799|A||Rodea-Palomares,I., M. Makowski, G. Suarez, M. Gonzalez-Pleiter, F. Leganes, and F. Fernandez-Pinas|Effect of PFOA/PFOS Pre-Exposure on the Toxicity of the Herbicides 2,4-D, Atrazine, Diuron and Paraquat to a Model Aquatic Photosynthetic Microorganism|Chemosphere139:65-72|2015|10.1016/j.chemosphere.2015.05.078
170800|T||Song,Y., Z.C. Jia, J.Y. Chen, J.X. Hu, and L.S. Zhang|Toxic Effects of Atrazine on Reproductive System of Male Rats|Biomed. Environ. Sci.27(4): 281-288|2014|
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170803|A||Adeyemi,J.A., A.D.C. Martins-Junior, and F.,Jr. Barbosa|Teratogenicity, Genotoxicity and Oxidative Stress in Zebrafish Embryos (Danio rerio) Co-Exposed to Arsenic and Atrazine|Comp. Biochem. Physiol. C Toxicol. Pharmacol.172/173:7-12|2015|10.1016/j.cbpc.2015.04.001
170806|A||Baxter,L., R. Brain, J.L. Rodriguez-Gil, A. Hosmer, K. Solomon, and M. Hanson|Response of the Green Alga Oophila sp., a Salamander Endosymbiont, to a PSII-Inhibitor Under Laboratory Conditions|Environ. Toxicol. Chem.33(8): 1858-1864|2014|10.1002/etc.2629
170807|A||Belanger,R.M., T.J. Peters, G.S. Sabhapathy, S. Khan, J. Katta, and N.K. Abraham|Atrazine Exposure Affects the Ability of Crayfish (Orconectes rusticus) to Localize a Food Odor Source|Arch. Environ. Contam. Toxicol.68(4): 636-645|2015|10.1007/s00244-015-0142-y
170808|A||Blahova,J., H. Modra, M. Sevcikova, P. Marsalek, L. Zelnickova, M. Skoric, and Z. Svobodova|Evaluation of Biochemical, Haematological, and Histopathological Responses and Recovery Ability of Common Carp (Cyprinus carpio L.) After Acute Exposure to Atrazine Herbicide|BioMed Res. Int.2014:8 p.|2014|10.1155/2014/980948
170809|T||Chen,C., Y. Wang, X. Zhao, Y. Qian, and Q. Wang|Combined Toxicity of Butachlor, Atrazine and lambda-Cyhalothrin on the Earthworm Eisenia fetida by Combination Index (CI)-Isobologram Method|Chemosphere112:393-401|2014|10.1016/j.chemosphere.2014.04.070
170810|A||Crespo,E., P. Lozano, J. Blasco, and I. Moreno-Garrido|Epiphyte Toxicity Bioassay for Ecotoxicological and Coastal Monitoring|Environ. Monit. Assess.186:4647-4654|2014|10.1007/s10661-014-3725-6
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170812|T||Hart,S.E., J.J. Kells, and D. Penner|Influence of Adjuvants on the Efficacy, Absorption, and Spray Retention of Primisulfuron|Weed Technol.6(3): 592-598|1992|10.1017/S0890037X00035855
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170814|A||Khoshnood,Z.|Histopathological Alterations in the Kidney of Caspian Kutum, Rutilus frisii kutum, Larvae and Fingerlings Exposed to Sublethal Concentration of Atrazine|Bull. Environ. Contam. Toxicol.94(2): 158-163|2015|10.1007/s00128-014-1431-2
170815|T||Kim,G.H., M.J. Kang, K. Noh, D.G. Oh, W. Kang, H.G. Jeong, K.Y. Lee, H. Kim, H.S. Kim, and T.C. Jeong|Nephrotoxic Potential and Toxicokinetics of Melamine Combined with Cyanuric Acid in Rats|J. Toxicol. Environ. Health Part A77(22/24): 1346-1358|2014|10.1080/15287394.2014.951592
170816|A||Kroon,F.J., S.E. Hook, D. Jones, S. Metcalfe, and H.L. Osborn|Effects of Atrazine on Endocrinology and Physiology in Juvenile Barramundi, Lates calcarifer (Bloch)|Environ. Toxicol. Chem.33(7): 1607-1614|2014|10.1002/etc.2594
170817|T||Lin,Z., C.A. Dodd, S. Xiao, S. Krishna, X. Ye, and N.M. Filipov|Gestational and Lactational Exposure to Atrazine via the Drinking Water Causes Specific Behavioral Deficits and Selectively Alters Monoaminergic Systems in C57BL/6 Mouse Dams, Juvenile and Adult Offspring|Toxicol. Sci.141(1): 90-102|2014|10.1093/toxsci/kfu107
170818|T||Lin,Z., J.R. Roede, C. He, D.P. Jones, and N.M. Filipov|Short-Term Oral Atrazine Exposure Alters the Plasma Metabolome of Male C57BL/6 Mice and Disrupts alpha-Linolenate, Tryptophan, Tyrosine and Other Major Metabolic Pathways|Toxicology326:130-141|2014|10.1016/j.tox.2014.11.001
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170822|T||Neuman-Lee,L.A., K.F. Gaines, K.A. Baumgartner, J.R. Voorhees, J.M. Novak, and S.J. Mullin|Assessing Multiple Endpoints of Atrazine Ingestion on Gravid Northern Watersnakes (Nerodia sipedon) and Their Offspring|Environ. Toxicol.29(9): 1072-1082|2014|10.1002/tox.21837
170823|T||Novais,S.C., N.C. Gomes, A.M.V.M. Soares, and M.J.B. Amorim|Antioxidant and Neurotoxicity Markers in the Model Organism Enchytraeus albidus (Oligochaeta): Mechanisms of Response to Atrazine, Dimethoate and Carbendazim|Ecotoxicology23(7): 1220-1233|2014|10.1007/s10646-014-1265-z
170824|A||Papoulias,D.M., D.E. Tillitt, M.G. Talykina, J.J. Whyte, and C.A. Richter|Atrazine Reduces Reproduction in Japanese Medaka (Oryzias latipes)|Aquat. Toxicol.154:230-239|2014|10.1016/j.aquatox.2014.05.022
170825|A||Prosser,R.S., R.A. Brain, J.M. Andrus, A.J. Hosmer, K.R. Solomon, and M.L. Hanson|Assessing Temporal and Spatial Variation in Sensitivity of Communities of Periphyton Sampled from Agroecosystem to, and Ability to Recover from, Atrazine Exposure|Ecotoxicol. Environ. Saf.118:204-216|2015|10.1016/j.ecoenv.2015.04.047
170826|A||Sai,L., Q. Wu, B. Qu, C. Bo, G. Yu, Q. Jia, L. Xie, Y. Li, Q. Guo, J.C. Ng, and C. Peng|Assessing Atrazine-Induced Toxicities in Bufo bufo gargarizans Cantor|Bull. Environ. Contam. Toxicol.94(2): 152-157|2015|10.1007/s00128-014-1441-0
170827|A||Sengupta,N., E.J. Litoff, and W.S. Baldwin|The HR96 Activator, Atrazine, Reduces Sensitivity of D. magna to Triclosan and DHA|Chemosphere128:299-306|2015|10.1016/j.chemosphere.2015.02.027
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170836|T||Haywood,J.D.|Loblolly Pine and Herbaceous Plant Response to Agricultural Herbicides|Gen. Tech. Rep. SO74:335-340|1989|
170837|T||Kawahigashi,H., S. Hirose, H. Ohkawa, and Y. Ohkawa|Phytoremediation of the Herbicides Atrazine and Metolachlor by Transgenic Rice Plants Expressing Human CYP1A1, CYP2B6, and CYP2C19|J. Agric. Food Chem.54:2985-2991|2006|10.1021/jf052610u
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170839|T||Bandele,O.J., C.B. Stine, M. Ferguson, T. Black, N. Olejnik, Z. Keltner, E.R. Evans, T.C. Crosby, R. Reimschuessel, and|Use of Urinary Renal Biomarkers to Evaluate the Nephrotoxic Effects of Melamine or Cyanuric Acid in Non-Pregnant and Pregnant Rats|Food Chem. Toxicol.74:301-308|2014|10.1016/j.fct.2014.10.013
170840|T||Breckenridge,C.B., P.S. Coder, M.O. Tisdel, J.W. Simpkins, K.D. Yi, C.D. Foradori, and R.J. Handa|Effect of Age, Duration of Exposure, and Dose of Atrazine on Sexual Maturation and the Luteinizing Hormone Surge in the Female Sprague-Dawley Rat|Birth Defects Res. B Dev. Reprod. Toxicol.104:204-217|2015|10.1002/bdrb.21154
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170842|T||Van Driesche,R.G., M.S. Hoddle, S. Lyon, and J.P. Sanderson|Compatibility of Insect Growth Regulators with Eretmocerus eremicus (Hymenoptera: Aphelinidae) for Whitefly (Homoptera: Alyerodidae) Control on Poinsettias. II. Trials in Commercial Poinsettia Crops|Biol. Control20:132-146|2001|10.1006/bcon.2000.0886
170843|AT||Sun,D., N. Indelicato, J. Petersen, E. Williges, I. Unlu, and A. Farajollahi|Susceptibility of Field-Collected Mosquitoes in Central New Jersey to Organophosphates and a Pyrethroid|J. Am. Mosq. Control Assoc.30(2): 138-142|2014|10.2987/14-6410.1
170844|A||Chia,M.A., S.Y. Galadima, and W.S. Japhet|Combined Effect of Atrazine and Copper on the Growth, Biomass Production, Morphology and Antioxidant Response of Scenedesmus quadricauda|Phycologia54(2): 109-117|2015|10.2216/14-71.1
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170846|T||Wang,L., D.A. Samac, N. Shapir, L.P. Wackett, C.P. Vance, N.E. Olszewski, and M.J. Sadowsky|Biodegradation of Atrazine in Transgenic Plants Expressing a Modified Bacterial Atrazine Chlorohydrolase (atzA) Gene|Plant Biotechnol. J.3:475-486|2005|10.1111/j.1467-7652.2005.00138.x
170847|T||Foradori,C.D., P.S. Coder, M. Tisdel, K.D. Yi, J.W. Simpkins, R.J. Handa, and C.B. Breckenridge|The Effect of Atrazine Administered by Gavage or in Diet on the LH Surge and Reproductive Performance in Intact Female Sprague-Dawley and Long Evans Rats|Birth Defects Res. B Dev. Reprod. Toxicol.101:262-275|2014|10.1002/bdrb.21109
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170850|T||Saini,R.K., S.G.L. Kleemann, C. Preston, and G.S. Gill|Control of Clethodim-Resistant Lolium rigidum (Rigid Ryegrass) in Triazine-Tolerant Canola (Brassica napus L.) in Southern Australia|Crop Prot.78:99-105|2015|10.1016/j.cropro.2015.08.023
170851|T||Stine,C.B., R. Reimschuessel, Z. Keltner, C.B. Nochetto, T. Black, N. Olejnik, M. Scott, O. Bandele, S.M. Nemser, A. Tk|Reproductive Toxicity in Rats with Crystal Nephropathy Following High Doses of Oral Melamine or Cyanuric Acid|Food Chem. Toxicol.68:142-153|2014|10.1016/j.fct.2014.02.029
170852|T||Sun,Y., Y.S. Li, J.W. Yang, J. Yu, Y.P. Wu, and B.X. Li|Exposure to Atrazine During Gestation and Lactation Periods: Toxicity Effects on Dopaminergic Neurons in Offspring by Downregulation of Nurr1 and VMAT2|Int. J. Mol. Sci.15:2811-2825|2014|10.3390/ijms15022811
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170854|T||Yang,G., C. Chen, Y. Wang, L. Cai, X. Kong, Y. Qian, and Q. Wang|Joint Toxicity of Chlorpyrifos, Atrazine, and Cadmium at Lethal Concentrations to the Earthworm Eisenia fetida|Environ. Sci. Pollut. Res.22:9307-9315|2015|10.1007/s11356-015-4097-3
170855|T||Scialli,A.R., J.M. DeSesso, and C.B. Breckenridge|Developmental Toxicity Studies with Atrazine and Its Major Metabolites in Rats and Rabbits|Birth Defects Res. B Dev. Reprod. Toxicol.101:199-214|2014|10.1002/bdrb.21099
170856|A||Madhu,S.K., and V.A. Vijayan|Laboratory Evaluation of a Juvenile Hormone Mimic, Pyriproxyfen on Culex quinquefasciatus Say and Aedes aegypti Linn. at Mysore, India|J. Commun. Dis.41(3): 169-174|2009|
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170858|A||Harburguer,L., E. Zerba, and S. Licastro|Sublethal Effect of Pyriproxyfen Released from a Fumigant Formulation on Fecundity, Fertility, and Ovicidal Action in Aedes aegypti (Diptera: Culicidae)|J. Med. Entomol.51(2): 436-443|2014|10.1603/ME13137
170859|A||Abe,F.R., A.C. Coleone, A.A. Machado, and J.G. Machado-Neto|Ecotoxicity and Environmental Risk Assessment of Larvicides Used in the Control of Aedes aegypti to Daphnia magna (Crustacea, Cladocera)|J. Toxicol. Environ. Health Part A77(1-3): 37-45|2014|10.1080/15287394.2014.865581
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170861|T||Biondi,A., O. Campolo, N. Desneux, G. Siscaro, V. Palmeri, and L. Zappala|Life Stage-Dependent Susceptibility of Aphytis melinus DeBach (Hymenoptera:  Aphelinidae) to Two Pesticides Commonly Used in Citrus Orchards|Chemosphere128:142-147|2015|10.1016/j.chemosphere.2015.01.034
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170870|T||Liu,T.X., and P.A. Stansly|Lethal and Sublethal Effects of Two Insect Growth Regulators on Adult Delphastus catalinae (Coleoptera: Coccinellidae), a Predator of Whiteflies (Homoptera: Aleyrodidae)|Biol. Control30:298-305|2004|10.1016/j.biocontrol.2004.01.007
170871|T||Ross,D.H., D.R. Young, R. Young, and R.G. Pennington|Topical Pyriproxyfen for Control of the Cat Flea and Management of Insecticide Resistance|Feline Pract.26(2): 18-22|1998|
170872|A||Seng,C.M., T. Setha, N. Chanta, D. Socheat, P. Guillet, and M.B. Nathan|Inhibition of Adult Emergence of Aedes aegypti in Simulated Domestic Water-Storage Containers by Using a Controlled-Release Formulation of Pyriproxyfen|J. Am. Mosq. Control Assoc.22(1): 152-154|2006|10.2987/8756-971X(2006)22[152:IOAEOA]2.0.CO;2
170873|T||Steigenga,M.J., K.H. Hoffmann, and K. Fischer|Effects of the Juvenile Hormone Mimic Pyriproxyfen on Female Reproduction and Longevity in the Butterfly Bicyclus anynana|Entomol. Sci.9:269-279|2006|10.1111/j.1479-8298.2006.00173.x
170874|A||Webb,G., P. Miller, and B. Peters|Pyriproxyfen for the Control of Australian Salt-Marsh Mosquito, Aedes vigilax|J. Am. Mosq. Control Assoc.28(1): 50-52|2012|10.2987/11-6139.1
170875|T||Kroeger,A., A. Lenhart, M. Ochoa, E. Villegas, M. Levy, N. Alexander, and P.J. McCall|Effective Control of Dengue Vectors with Curtains and Water Container Covers Treated with Insecticide in Mexico and Venezuela: Cluster Randomised Trials|Br. Med. J. (Clin. Res. Ed.):6 p.|2006|
170876|A||Lau,K.W., C.D. Chen, H.L. Lee, Y. Norma-Rashid, and M. Sofian-Azirun|Evaluation of Insect Growth Regulators Against Field-Collected Aedes aegypti and Aedes albopictus (Diptera: Culicidae) from Malaysia|J. Med. Entomol.52(2): 199-206|2015|10.1093/jme/tju019
170877|T||Liu,T.X., and P.A. Stansly|Effects of Pyriproxyfen on Three Species of Encarsia (Hymenoptera: Aphelinidae), Endoparasitoids of Bemisia argentifolii (Homoptera: Aleyrodidae)|J. Econ. Entomol.90(2): 404-411|1997|10.1093/jee/90.2.404
170878|A||Mbare,O., S.W. Lindsay, and U. Fillinger|Dose-Response Tests and Semi-Field Evaluation of Lethal and Sub-Lethal Effects of Slow Release Pyriproxyfen Granules (Sumilarv 0.5G) for the Control of the Malaria Vectors Anopheles gambiae sensu lato|Malar. J.12(94): 12 p.|2013|
170879|T||Nagai,K.|Effects of a Juvenile Hormone Mimic Material, 4-Phenoxyphenyl-(RS)-2-(2-Pyridyloxy) Propyl Ether, on Thrips palmi Karny (Thysanoptera: Thripidae) and Its Predator Orius sp. (Hemiptera: Anthocoridae)|Appl. Entomol. Zool.25(2): 199-204|1990|10.1303/aez.25.199
170880|T||Naranjo,S.E., and D.H. Akey|Conservation of Natural Enemies in Cotton: Comparative Selectivity of Acetamiprid in the Management of Bemisia tabaci|Pest Manag. Sci.61(6): 555-566|2005|10.1002/ps.1030
170881|T||Reimer,N.J., B.M. Glancey, and J.W. Beardsley|Development of Pheidole megacephala (Hymenoptera: Formicidae) Colonies Following Ingestion of Fenoxycarb and Pyriproxyfen|J. Econ. Entomol.84(1): 56-60|1991|10.1093/jee/84.1.56
170882|T||Rill,S.M., E.E. Grafton-Cardwell, and J.G. Morse|Effects of Two Insect Growth Regulators and a Neonicotinoid on Various Life Stages of Aphytis melinus (Hymenoptera: Aphelinidae)|Biocontrol53:579-587|2008|10.1007/s10526-007-9097-x
170883|T||Rothwangl,K.B., R.A. Cloyd, and R.N. Wiedenmann|Effects of Insect Growth Regulators on Citrus Mealybug Parasitoid Leptomastix dactylopii (Hymenoptera: Encyrtidae)|J. Econ. Entomol.97(4): 1239-1244|2004|10.1093/jee/97.4.1239
170884|A||Seccacini,E., L. Juan, E. Zerba, and S. Licastro|Aedes aegypti (Diptera: Culicidae): Evaluation of Natural Long-Lasting Materials Containing Pyriproxyfen to Improve Control Strategies|Parasitol. Res.113:3355-3360|2014|10.1007/s00436-014-3998-2
170885|AT||Sihuincha,M., E. Zamora-Perea, W. Orellana-Rios, J.D. Stancil, V. Lopez-Sifuentes, C. Vidal-Ore, and G.J. Devine|Potential Use of Pyriproxyfen for Control of Aedes aegypti (Diptera: Culicidae) in Iquitos, Peru|J. Med. Entomol.42(4): 620-630|2005|10.1093/jmedent/42.4.620
170886|A||Su,T., and M.L. Cheng|Cross Resistances in Spinosad-Resistant Culex quinquefasciatus (Diptera: Culicidae)|J. Med. Entomol.51(2): 428-435|2014|10.1603/ME13207
170887|A||Suman,D.S., Y. Wang, L. Dong, and R. Gaugler|Effects of Larval Habitat Substrate on Pyriproxyfen Efficacy Against Aedes albopictus (Diptera: Culicidae)|J. Med. Entomol.50(6): 1261-1266|2013|10.1603/ME13068
170888|T||Yao,G., X. Jing, W. Peng, X. Liu, Z. Zhou, and D. Liu|Chiral Insecticide alpha-Cypermethrin and Its Metabolites: Stereoselective Degradation Behavior in Soils and the Toxicity to Earthworm Eisenia fetida|J. Agric. Food Chem.63:7714-7720|2015|10.1021/acs.jafc.5b03148
170889|T||Guidugli,K.R., M.D. Piulachs, X. Belles, A.P. Lourenco, and Z.L.P. Simoes|Vitellogenin Expression in Queen Ovaries and in Larvae of Both Sexes of Apis mellifera|Arch. Insect Biochem. Physiol.59:211-218|2005|10.1002/arch.20061
170890|A||Jambulingam,P., C. Sadanandane, P.S.B. Doss, S. Subramanian, and M. Zaim|Field Evaluation of an Insect Growth Regulator, Pyriproxyfen 0.5% GR Against Culex quinquefasciatus, the Vector of Bancroftian Filariasis in Pondicherry, India|Acta Trop.107:20-24|2008|10.1016/j.actatropica.2008.04.005
170891|T||Lashein,A.M.S., K.H. Sabry, and M.M.A. Youssef|A Possible New Approach for Controlling Root Knot Nematode, Meloidogyne incognita, Infecting Eggplant by Certain Insect Growth Regulators|Arch. Phytopathol. Plant Prot.47(6): 675-680|2014|10.1080/03235408.2013.818398
170892|AT||Melo-Santos,M.A.V., J.J.M. Varjal-Melo, A.P. Araujo, T.C.S. Gomes, M.H.S. Paiva, L.N. Regis, A.F. Furtado, T. Magalhaes|Resistance to the Organophosphate Temephos: Mechanisms, Evolution and Reversion in an Aedes aegypti Laboratory Strain from Brazil|Acta Trop.113:180-189|2010|10.1016/j.actatropica.2009.10.015
170893|AT||Ocampo,C.B., N.J. Mina, M. Carabali, N. Alexander, and L. Osorio|Reduction in Dengue Cases Observed During Mass Control of Aedes (Stegomyia) in Street Catch Basins in an Endemic Urban Area in Colombia|Acta Trop.132:15-22|2014|10.1016/j.actatropica.2013.12.019
170894|A||Suman,D.S., Y. Wang, A.L. Bilgrami, and R. Gaugler|Ovicidal Activity of Three Insect Growth Regulators Against Aedes and Culex Mosquitoes|Acta Trop.128:103-109|2013|10.1016/j.actatropica.2013.06.025
170895|AT||Suman,D.S., A. Farajollahi, S. Healy, G.M. Williams, Y. Wang, G. Schoeler, and R. Gaugler|Point-Source and Area-Wide Field Studies of Pyriproxyfen Autodissemination Against Urban Container-Inhabiting Mosquitoes|Acta Trop.135:96-103|2014|10.1016/j.actatropica.2014.03.026
170896|T||Wang,F., Y. Zhang, P. Yao, X. Guo, H. Li, and B. Xu|Molecular Identification and Stress Response of the Apoptosis-Inducing Factor Gene 3 (AccAIF3) from Apis cerana cerana|Apidologie45:685-700|2014|10.1007/s13592-014-0285-2
170897|A||Yapabandara,A.M.G.M., and C.F. Curtis|Laboratory and Field Comparisons of Pyriproxyfen, Polystyrene Beads and Other Larvicidal Methods Against Malaria Vectors in Sri Lanka|Acta Trop.81:211-223|2002|10.1016/S0001-706X(01)00208-X
170898|AT||Wang,Y., D.S. Suman, J. Bertrand, L. Dong, and R. Gaugler|Dual-Treatment Autodissemination Station with Enhanced Transfer of an Insect Growth Regulator to Mosquito Oviposition Sites|Pest Manag. Sci.70:1299-1304|2014|10.1002/ps.3702
170899|A||Suman,D.S., C.W. Brey, Y. Wang, M. Sanad, M.S.M. Shamseldean, and R. Gaugler|Effects of Insect Growth Regulators on the Mosquito-Parasitic Nematode Romanomermis iyengari|Parasitol. Res.112:817-824|2013|10.1007/s00436-012-3201-6
170900|T||Van Driesche,R.G., S. Lyon, J.P. Sanderson, K.C. Bennett, E.J. Stanek, and R. Zhang|Greenhouse Trials of Aphidius colemani (Hymenoptera: Braconidae) Banker Plants for Control of Aphids (Hemiptera: Aphididae) in Greenhouse Spring Floral Crops|Fla. Entomol.91:583-591|2008|10.1653/0015-4040(2008)091[0022:BCOPRI]2.0.CO;2
170901|A||Wang,Y.H., G. Wang, and G.A. LeBlanc|Cloning and Characterization of the Retinoid X Receptor from a Primitive Crustacean Daphnia magna|Gen. Comp. Endocrinol.150:309-318|2007|10.1016/j.ygcen.2006.08.002
170902|T||Yan,Y., Y. Zhang, Y. Huaxia, X. Wang, P. Yao, X. Guo, and B. Xu|Identification and Characterisation of a Novel 1-Cys Thioredoxin Peroxidase Gene (AccTpx5) from Apis cerana cerana|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.172:39-48|2014|10.1016/j.cbpb.2014.04.004
170903|T||Karhu,R.R.|Field Trials of Technical Pyriproxyfen (Nylar) and Pyraperm in Black-Tailed Prairie Dog (Cynomys ludovicianus) Towns on the Rocky Mountain Arsenal National Wildlife Refuge, Colorado|M.S.Thesis, University of Wyoming, Laramie, WY:164 p.|1999|
170904|T||Ahemad,M.|Growth Suppression of Legumes in Pyriproxyfen Stressed Soils: A Comparative Study|Emirates J. Food Agric.26(1): 66-72|2014|10.9755/ejfa.v26i1.15463
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170906|T||Cai,Y., T. Ai, X. Yu, B. Xu, and X. Guo|Molecular Cloning and Characterization of the S6K-p70 Gene in Chinese Honeybees, Apis cerana cerana (Hymenoptera: Apidae)|Eur. J. Entomol.110(1): 21-30|2013|10.14411/eje.2013.003
170907|A||Darriet,F., S. Marcombe, M. Etienne, A. Yebakima, P. Agnew, M.M. Yp-Tcha, and V. Corbel|Field Evaluation of Pyriproxyfen and Spinosad Mixture for the Control of Insecticide Resistant Aedes aegypti in Martinique (French West Indies)|Parasites Vectors3(88): 8 p.|2010|
170908|T||Dryden,M.W., P.A. Payne, S. Vicki, and D. Kobuszewski|Efficacy of Topically Applied Dinotefuran Formulations and Orally Administered Spinosad Tablets Against the KS1 Flea Strain Infesting Dogs|Int. J. Appl. Res. Vet. Med.9(2): 124-129|2011|
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170910|A||Estrada,J.G., and M.S. Mulla|Evaluation of Two New Insect Growth Regulators Against Mosquitoes in the Laboratory|J. Am. Mosq. Control Assoc.2:57-60|1986|
170911|AT||Itoh,T., H. Kawada, A. Abe, Y. Eshita, Y. Rongsriyam, and A. Igarashi|Utilization of Bloodfed Females of Aedes aegypti as a Vehicle for the Transfer of the Insect Growth Regulator Pyriproxyfen to Larval Habitats|J. Am. Mosq. Control Assoc.10(3): 344-347|1994|
170912|A||Kono,Y., K. Omata-Iwabuchi, and M. Takahashi|Changes in Susceptibility to Pyriproxyfen, a JH Mimic, During Late Larval and Early Pupal Stages of Culex pipiens molestus|Eisei Dobutsu48(2): 85-89|1997|10.7601/mez.48.85
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170914|T||Mbare,O., S.W. Lindsay, and U. Fillinger|Pyriproxyfen for Mosquito Control: Female Sterilization or Horizontal Transfer to Oviposition Substrates by Anopheles gambiae Sensu Stricto and Culex quinquefasciatus|Parasites Vectors7(280): 12 p.|2014|
170915|T||Mendel,Z., D. Blumberg, and I. Ishaaya|Effects of Some Insect Growth Regulators on Natural Enemies of Scale Insects (Hom.: Coccoidea)|Entomophaga39(2): 199-209|1994|10.1007/BF02372358
170916|A||Mulligan III,F.S., and C.H. Schaefer|Efficacy of a Juvenile Hormone Mimic, Pyriproxyfen (S-31183), for Mosquito Control in Dairy Wastewater Lagoons|J. Am. Mosq. Control Assoc.6(1): 89-92|1990|
170917|A||Okazawa,T., B. Bakote'E, H. Suzuki, H. Kawada, and N. Kere|Field Evaluation of an Insect Growth Regulator, Pyriproxyfen, Against Anopheles punctulatus on North Guadalcanal, Solomon Islands|J. Am. Mosq. Control Assoc.7(4): 604-607|1991|
170918|A||Olmstead,A.W., and G.A. LeBlanc|The Environmental-Endocrine Basis of Gynandromorphism (Intersex) in a Crustacean|Int. J. Biol. Sci.3:77-84|2007|10.7150/ijbs.3.77
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170921|AT||Tsunoda,T., H. Kawada, T.T.T. Huynh, L. Le Luu, S.H. Le, H.N. Tran, H.T.Q. Vu, H.M. Le, F. Hasebe, A. Tsuzuki, and M. T|Field Trial on a Novel Control Method for the Dengue Vector, Aedes aegypti by the Systematic Use of Olyset Net and Pyriproxyfen in Southern Vietnam|Parasites Vectors6(6): 11 p.|2013|
170922|A||Vythilingam,I., B.M. Luz, R. Hanni, T.S. Beng, and T.C. Huat|Laboratory and Field Evaluation of the Insect Growth Regulator Pyriproxyfen (Sumilarv 0.5G) Against Dengue Vectors|J. Am. Mosq. Control Assoc.21(3): 296-300|2005|10.2987/8756-971X(2005)21[296:LAFEOT]2.0.CO;2
170923|A||Wang,S., T.V. Phong, N. Tuno, H. Kawada, and M. Takagi|Sensitivity of the Larvivorous Copepod Species, Mesocyclops pehpeiensis and Megacyclops viridis, to the Insect Growth Regulator, Pyriproxyfen|J. Am. Mosq. Control Assoc.21(4): 483-488|2005|10.2987/8756-971X(2006)21[483:SOTLCS]2.0.CO;2
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170926|A||Olmstead,A.W.|Environmental Toxicant Effects on Sexual Reproduction in Daphnia magna|Ph.D.Thesis, North Carolina State University, Raleigh, NC:159 p.|2003|
170927|T||Camara-Zapata,J.M., F. Garcia-Sanchez, V. Martinez, M. Nieves, and A. Cerda|Effect of NaCl on Citrus Cultivars|Agronomie (Multiple Languages)24(3): 155-160|2004|10.1051/agro:2004013
170928|T||Stevenson,A.B.|Chemical Control of Carrot Weevil, Listronotus oregonensis (Coleoptera:  Curculionidae), and Damage to Carrots in the Holland Marsh, Ontario|Proc. Entomol. Soc. Ont.114:101-103|1983|
170930|T||Hladun,K.R., O. Kaftanoglu, D.R. Parker, K.D. Tran, and J.T. Trumble|Effects of Selenium on Development, Survival, and Accumulation in the Honeybee (Apis mellifera L.)|Environ. Toxicol. Chem.32(11): 2584-2592|2013|10.1002/etc.2357
170931|T||Hladun,K.R., B.H. Smith, J.A. Mustard, R.R. Morton, and J.T. Trumble|Selenium Toxicity to Honey Bee (Apis mellifera L.) Pollinators: Effects on Behaviors and Survival|PLoS One7(4): 10 p.|2012|10.1371/journal.pone.0034137
170933|T||Fernie,K.J., V. Palace, L.E. Peters, N. Basu, R.J. Letcher, N.K. Karouna-Renier, S.L. Schultz, R.S. Lazarus, and B.A. R|Investigating Endocrine and Physiological Parameters of Captive American Kestrels Exposed by Diet to Selected Organophosphate Flame Retardants|Environ. Sci. Technol.49(12): 7448-7455|2015|10.1021/acs.est.5b00857
170934|T||Silva,A.L.P., M.J.B. Amorim, and M. Holmstrup|Salinity Changes Impact of Hazardous Chemicals in Enchytraeus albidus|Environ. Toxicol. Chem.34(9): 2159-2166|2015|10.1002/etc.3058
170935|A||Thomas,J.K., and D.M. Janz|Developmental and Persistent Toxicities of Maternally Deposited Selenomethionine in Zebrafish (Danio rerio)|Environ. Sci. Technol.49(16): 10182-10189|2015|10.1021/acs.est.5b02451
170936|T||Hladun,K.R.|Selenium Accumulation in Brassicaceae Plant Species and Its Biotransfer to Insect Pollinators|Ph.D Thesis, University of California, Riverside, CA:181 p.|2012|
170938|A||Ji,K., S. Hong, Y. Kho, and K. Choi|Effects of Bisphenol S Exposure on Endocrine Functions and Reproduction of Zebrafish|Environ. Sci. Technol.47(15): 8793-8800|2013|10.1021/es400329t
170940|A||Kuntz,R.E.|Evaluation of Sodium-Pentachlorophenate as a Molluscicide in Egypt|Am. J. Trop. Med. Hyg.5(2): 274-285|1956|10.4269/ajtmh.1956.5.274
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170942|A||Jacquet,M., M. Tilquin, P. Ravanel, and S. Boyer|Increase in Tolerance of Aedes aegypti Larvae (Diptera: Culicidae) to the Insecticide Temephos After Exposure to Atrazine|Afr. Entomol.23(1): 110-119|2015|10.4001/003.023.0116
170943|A||Phromkunthong,W., P. Choochuay, V. Kiron, N. Nuntapong, and M. Boonyaratpalin|Pathophysiological Changes Associated with Dietary Melamine and Cyanuric Acid Toxicity in Red Tilapia|J. Fish Dis.38:161-173|2015|10.1111/jfd.12219
170944|T||Carranza,C.S., C.L. Barberis, S.M. Chiacchiera, and C.E. Magnoli|Influence of the Pesticides Glyphosate, Chlorpyrifos and Atrazine on Growth Parameters of Nonochratoxigenic Aspergillus Section Nigri Strains Isolated from Agricultural Soils|Region. Stud. Mar. Sci.49:747-755|2014|
170946|A||Chaudhari,V.R., A. Vyawahare, S.K. Bhattacharjee, and B.J. Rao|Enhanced Excision Repair and Lack of PSII Activity Contribute to Higher UV Survival of Chlamydomonas reinhardtii Cells in Dark|Plant Physiol. Biochem.88:60-69|2015|10.1016/j.plaphy.2015.02.001
170947|A||Chen,D., Z. Zhang, H. Yao, Y. Liang, H. Xing, and S. Xu|Effects of Atrazine and Chlorpyrifos on Oxidative Stress-Induced Autophagy in the Immune Organs of Common Carp (Cyprinus carpio L.)|Fish Shellfish Immunol.44:12-20|2015|10.1016/j.fsi.2015.01.014
170948|T||Cupul,W.C., G.H. Abarca, R.R. Vazquez, D. Salmones, R.G. Hernandez, and E.A. Gutierrez|Response of Ligninolytic Macrofungi to the Herbicide Atrazine: Dose-Response Bioassays|Rev. Argent. Microbiol.46(4): 348-357|2014|10.1016/S0325-7541(14)70094-X
170949|A||Khoshnood,Z., S. Jamili, and S. Khodabandeh|Histopathological Effects of Atrazine on Gills of Caspian Kutum Rutilus frisii kutum Fingerlings|Dis. Aquat. Org.113:227-234|2015|10.3354/dao02850
170951|T||Boleli,I.C., M.M.G. Bitondi, V.L.C. Figueiredo, and Z.L.P. Simoes|Mispatterning in the Ommatidia of Apis mellifera Pupae Treated with a Juvenile Hormone Analogue|J. Morph.249:89-99|2001|10.1002/jmor.1042
170952|T||Gracioli,L.F., and R.L.M. Silva De Moraes|Juvenile Hormone Promotes Changes in the Expression of Hypopharyngeal Gland Proteins of Worker Apis mellifera (Hymenoptera: Apidae)|Sociobiology40(2): 443-448|2002|
170953|T||Mercier,P., P. Jasmin, and A. Sanquer|Prevention of Sand Fly Attack by Topical Application of a Permethrin/Pyriproxyfen Combination on Dogs|Vet. Ther.4:309-316|2003|
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170955|T||Pinto,L.Z., K. Hartfelder, M.M.G. Bitondi, and Z.L.P. Simoes|Ecdysteroid Titers in Pupae of Highly Social Bees Relate to Distinct Modes of Caste Development|J. Insect Physiol.48(8): 783-790|2002|10.1016/S0022-1910(02)00103-8
170956|A||Qian,H., Y. Wei, G. Bao, B. Huang, and Z. Fu|Atrazine Affects the Circadian Rhythm of Microcystis aeruginosa|Chronobiol. Int.31(1): 17-26|2014|10.3109/07420528.2013.817414
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170958|T||Santos,A.E., M.M.G. Bitondi, and Z.L.P. Simoes|Hormone-Dependent Protein Patterns in Integument and Cuticular Pigmentation in Apis mellifera During Pharate Adult Development|J. Insect Physiol.47:1275-1282|2001|10.1016/S0022-1910(01)00114-7
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170960|T||Stoker,T.E., D.R. Hallinger, J.C. Seely, and L.M. Zorrilla|Evaluation of Hydroxyatrazine in the Endocrine Disruptor Screening and Testing Program's Male and Female Pubertal Protocols|Birth Defects Res. B Dev. Reprod. Toxicol.98(5): 428-435|2013|10.1002/bdrb.21086
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170964|A||Yapabandara,A.M.G.M., and C.F. Curtis|Control of Vectors and Incidence of Malaria in an Irrigated Settlement Scheme in Sri Lanka by Using the Insect Growth Regulator Pyriproxyfen|J. Am. Mosq. Control Assoc.20(4): 395-400|2004|
170965|A||Ozmen,M., A. Gungordu, S. Erdemoglu, N. Ozmen, and M. Asilturk|Toxicological Aspects of Photocatalytic Degradation of Selected Xenobiotics with Nano-Sized Mn-Doped TiO2|Aquat. Toxicol.165:144-153|2015|10.1016/j.aquatox.2015.05.020
170966|A||Pacini,N., A.J.M. Dorr, A.C. Elia, M. Scoparo, M.C. Abete, and M. Prearo|Melamine-Cyanurate Complexes and Oxidative Stress Markers in Trout Kidney Following Melamine and Cyanuric Acid Long-Term Co-Exposure and Withdrawal|Fish Physiol. Biochem.40:1609-1619|2014|10.1007/s10695-014-9952-5
170967|A||Takagi,M., Y. Tsuda, and Y. Wada|Laboratory Evaluation of a Juvenile Hormone Mimic, Pyriproxyfen, Against Chironomus fusciceps (Diptera: Chironomidae)|J. Am. Mosq. Control Assoc.11(4): 474-475|1995|
170968|A||Phromkunthong,W., N. Nuntapong, S. Wanlem, and M. Boonyaratpalin|A Study on Growth, Histopathology and Oxidative Stress in Asian Sea Bass on Diets with Various Loadings of Melamine and Cyanuric Acid Adulterants|Aquaculture435:336-346|2015|10.1016/j.aquaculture.2014.10.009
170969|T||Qin,L., Z.H. Du, S.Y. Zhu, X.N. Li, N. Li, J.A. Guo, J.L. Li, and Y. Zhang|Atrazine Triggers Developmental Abnormality of Ovary and Oviduct in Quails (Coturnix coturnix coturnix) via Disruption of Hypothalamo-Pituitary-Ovarian Axis|Environ. Pollut.207:299-307|2015|10.1016/j.envpol.2015.09.044
170970|A||Sifkarovski,J., L. Grayfer, F. De Jesus Andino, B.P. Lawrence, and J. Robert|Negative Effects of Low Dose Atrazine Exposure on the Development of Effective Immunity to FV3 in Xenopus laevis|Dev. Comp. Immunol.47:52-58|2014|10.1016/j.dci.2014.06.012
170971|A||Schmidel,A.J., K.L. Assmann, C.C. Werlang, K.T. Bertoncello, F. Francescon, C.L. Rambo, G.M. Beltrame, D. Calegari, C.B|Subchronic Atrazine Exposure Changes Defensive Behaviour Profile and Disrupts Brain Acetylcholinesterase Activity of Zebrafish|Neurotoxicol. Teratol.44:62-69|2014|10.1016/j.ntt.2014.05.006
170972|A||Tunic,T., V. Knezevic, U. Kerkez, A. Tubic, D. Sunjka, S. Lazic, D. Brkic, and I. Teodorovic|Some Arguments in Favor of a Myriophyllum aquaticum Growth Inhibition Test in a Water-Sediment System as an Additional Test in Risk Assessment of Herbicides|Environ. Toxicol. Chem.34:2104-2115|2015|10.1002/etc.3034
170973|T||Vail,A.W., P. Wang, H. Uefuji, D.A. Samac, C.P. Vance, L.P. Wackett, and M.J. Sadowsky|Biodegradation of Atrazine by Three Transgenic Grasses and Alfalfa Expressing a Modified Bacterial Atrazine Chlorohydrolase Gene|Transgenic Res.24:475-488|2015|10.1007/s11248-014-9851-7
170974|T||Van Meter,R.J., D.A. Glinski, W.M. Henderson, A.W. Garrison, M. Cyterski, and S.T. Purucker|Pesticide Uptake Across the Amphibian Dermis Through Soil and Overspray Exposures|Arch. Environ. Contam. Toxicol.69:545-556|2015|10.1007/s00244-015-0183-2
170975|A||Wood,L., and A.M. Welch|Assessment of Interactive Effects of Elevated Salinity and Three Pesticides on Life History and Behavior of Southern Toad (Anaxyrus terrestris) Tadpoles|Environ. Toxicol. Chem.34(3): 667-676|2015|10.1002/etc.2861
170976|T||Abarikwu,S.O., O.F. Akiri, M.A. Durojaiye, and A. Adenike|Combined Effects of Repeated Administration of Bretmont Wipeout (Glyphosate) and Ultrazin (Atrazine) on Testosterone, Oxidative Stress and Sperm Quality of Wistar Rats|Toxicol. Mech. Methods25(1): 70-80|2015|10.3109/15376516.2014.989349
170977|A||Bara,J.J., A. Montgomery, and E.J. Muturi|Sublethal Effects of Atrazine and Glyphosate on Life History Traits of Aedes aegypti and Aedes albopictus (Diptera: Culicidae)|Parasitol. Res.113:2879-2886|2014|10.1007/s00436-014-3949-y
170978|A||Baxter,L., R.A. Brain, A.J. Hosmer, M. Nema, K.M. Muller, K.R. Solomon, and M.L. Hanson|Effects of Atrazine on Egg Masses of the Yellow-Spotted Salamander (Ambystoma maculatum) and Its Endosymbiotic Alga (Oophila amblystomatis)|Environ. Pollut.206:324-331|2015|10.1016/j.envpol.2015.07.017
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170980|A||Dos Santos,E.A., C. Da Cruz, S.P. Carraschi, J.R.M. Silva, R.G. Botelho, E.D. Velini, and R.A. Pitelli|Atrazine Levels in the Jaboticabal Water Stream (Sao Paulo State, Brazil) and Its Toxicological Effects on the Pacu Fish Piaractus mesopotamicus|Arh. Hig. Rada Toksikol.66(1): 73-82|2015|10.1515/aiht-2015-66-257
170981|A||Esperanza,M., M. Seoane, C. Rioboo, C. Herrero, and A. Cid|Chlamydomonas reinhardtii Cells Adjust the Metabolism to Maintain Viability in Response to Atrazine Stress|Aquat. Toxicol.165:64-72|2015|10.1016/j.aquatox.2015.05.012
170982|AT||Iriel,A., J.M. Novo, G.B. Cordon, and M.G. Lagorio|Atrazine and Methyl Viologen Effects on Chlorophyll-A Fluorescence Revisited - Implications in Photosystems Emission and Ecotoxicity Assessment|Photochem. Photobiol.90:107-112|2014|10.1111/php.12142
170983|A||Jia,X., D. Wang, N. Gao, H. Cao, and H. Zhang|Atrazine Triggers the Extrinsic Apoptosis Pathway in Lymphocytes of the Frog Pelophylax nigromaculata In Vivo|Chem. Res. Toxicol.28:2010-2018|2015|10.1021/acs.chemrestox.5b00238
170984|A||Kreutz,L.C., T.R. Pavan, A.G. Alves, A.G. Correia, B. Barriquel, E.D. Dos Santos, and L.J.G. Barcellos|Increased Immunoglobulin Production in Silver Catfish (Rhamdia quelen) Exposed to Agrichemicals|Braz. J. Med. Biol. Res.47(6): 499-504|2014|10.1590/1414-431X20143890
170985|A||Leet,J.K., S. Sassman, J.J. Amberg, A.W. Olmstead, L.S. Lee, G.T. Ankley, and M.S. Sepulveda|Environmental Hormones and Their Impacts on Sex Differentiation in Fathead Minnows|Aquat. Toxicol.158:98-107|2015|10.1016/j.aquatox.2014.10.022
170986|T||Leite,G.L.D., P.D. De Paulo, J.C. Zanuncio, A.C. Alvarenga, M.A. Soares, W.S. Tavares, L.D. Tuffi-Santos, and P.R.C. Sp|Effects of Atrazine-Based Herbicide on Emergence and Sex Ratio of Trichogrammatidae (Hymenoptera)|Fla. Entomol.98(3): 85-88|2015|10.1653/024.098.0313
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170989|A||Gilmore,A.|The Effects of Atrazine and Predation Risk on Larval Dragonflies Ladona deplanata (Odonata: Libellulidae)|M.S.Thesis, Murray State University, Murray, KY:68 p.|2014|
170990|T||Yu,Q., A. Cairns, and S. Powles|Glyphosate, Paraquat and ACCase Multiple Herbicide Resistance Evolved in a Lolium rigidum Biotype|Planta (Multiple Languages)225(2): 15 p.|2007|
170991|A||Starkey,C.B.|Subthreshold Toxic Effects of Atrazine and Three Degradates on Behavior in Procambarus clarkii|M.S.Thesis, Marshall University, Huntington, WV:139 p.|2014|
170992|T||Vogel,A.R.|Effects of Atrazine Exposure on Male Reproductive Performance in Drosophila melanogaster|Ph.D.Thesis, State University of New York at Binghamton, NY:51 p.|2013|
170993|A||Hauta,C.C.|Seawater Survival and Osmoregulation of Atlantic Salmon (Salmo salar) Parr-Smolts Exposed to Four Different Pesticides|M.S. Thesis, Royal Roads University, Victoria, BC, Canada:73 p.|2014|
170994|T||Zufelato,M.S., M.M.G. Bitondi, Z.L.P. Simoes, and K. Hartfelder|The Juvenile Hormone Analog Pyriproxyfen Affects Ecdysteroid-Dependent Cuticle Melanization and Shifts the Pupal Ecdysteroid Peak in the Honey Bee (Apis mellifera)|Arthropod Struct. Develop.29(2): 111-119|2000|10.1016/S1467-8039(00)00023-2
170995|T||Abdelgader,H., and U. Heimbach|The Effect of Some Insect Growth Regulators (IGRs) on First Instar Larvae of the Carabid Beetle Poecilus cupreus (Coleoptera: Carabidae) Using Different Application Methods|Asp. Appl. Biol.31:171-177|1992|
170996|A||Vasanth,S., G. Arul, S. Karthikeyeni, T.S.V. Kumar, V. Vignesh, M. Manimegalai, G. Bupesh, R. Thirumurugan, and P. Subr|Influence of Triazine Herbicide Exposure on Guppies (Poecilia sphenops) Aromatase Activities, Altered Sex Steroid Concentration and Vitellogenin Induction|Indian J. Pharm. Sci.77:156-162|2015|10.4103/0250-474X.156549
170997|T||Dani,V.|Understanding Earthworm Sub-Lethal Responses to Atrazine and Imidacloprid Using 1H NMR Metabolomics|M.S. Thesis, University of Toronto, Ontario, Canada:120 p.|2015|
170998|T||Ahemad,M., and M.S. Khan|Insecticide-Tolerant and Plant Growth Promoting Bradyrhizobium sp. (Vigna) Improves the Growth and Yield of Greengram (Vigna radiata (L.) Wilczek) in Insecticide-Stressed Soils|Symbiosis54:17-27|2011|10.1007/s13199-011-0122-6
170999|T||Shennan,C., D.P. Schachtman, and G.R. Cramer|Variation in (75Se)Selenate Uptake and Partitioning Among Tomato Cultivars and Wild Species|New Phytol.115(3): 523-530|1990|10.1111/j.1469-8137.1990.tb00480.x
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171002|AT||Chism,B.D., and C.S. Apperson|Horizontal Transfer of the Insect Growth Regulator Pyriproxyfen to Larval Microcosms by Gravid Aedes albopictus and Ochlerotatus triseriatus Mosquitoes in the Laboratory|Med. Vet. Entomol.17:211-220|2003|10.1046/j.1365-2915.2003.00433.x
171003|T||Christiansen-Weniger,P., and J. Hardie|Environmental and Physiological Factors for Diapause Induction and Termination in the Aphid Parasitoid, Aphidius ervi (Hymenoptera: Aphidiidae)|J. Insect Physiol.45(4): 357-364|1999|10.1016/S0022-1910(98)00134-6
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171007|T||Maynard,L., P. Houffschmitt, and B. Lebreux|Field Efficacy of a 10 per cent Pyriproxyfen Spot-On for the Prevention of Flea Infestations on Cats|J. Small Anim. Pract.42:491-494|2001|10.1111/j.1748-5827.2001.tb02454.x
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171009|A||Trapp,J., J. Armengaud, O. Pible, J.C. Gaillard, K. Abbaci, Y. Habtoul, A. Chaumot, and O. Geffard|Proteomic Investigation of Male Gammarus fossarum, a Freshwater Crustacean, in Response to Endocrine Disruptors|J. Proteome Res.14:292-303|2015|10.1021/pr500984z
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171011|T||Yildiztekin,M., C. Kaya, A.L. Tuna, and M. Ashraf|Oxidative Stress and Antioxidative Mechanisms in Tomato (Solanum lycopersicum L.) Plants Sprayed with Different Pesticides|Pak. J. Bot.47(2): 717-721|2015|
171012|T||Teakle,N.L., A. Snell, D. Real, E.G. Barrett-Lennard, and T.D. Colmer|Variation in Salinity Tolerance, Early Shoot Mass and Shoot Ion Concentrations Within Lotus tenuis: Towards a Perennial Pasture Legume for Saline Land|Crop Pasture Sci.61:379-388|2010|10.1071/CP09318
171013|T||Barbieri,G., A. Bottino, E. Di Stasio, S. Vallone, and A. Maggio|Proline and Light as Quality Enhancers of Rocket (Eruca sativa Miller) Grown Under Saline Conditions|Sci. Hortic.128:393-400|2011|10.1016/j.scienta.2011.02.010
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171015|T||Xing,X., M. Du, Y. Zhang, and D. Wang|Adverse Effects of Metal Exposure on Chemotaxis Towards Water-Soluble Attractants Regulated Mainly by ASE Sensory Neuron in Nematode Caenorhabditis elegans|J. Environ. Sci.21:1684-1694|2009|10.1016/S1001-0742(08)62474-2
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171023|T||Suzuki,K., T. Nakamura, T. Yanbe, M. Kurihara, and E. Kuwano|Termination of Diapause in Pharate First-Instar Larvae of the Gypsy Moth Lymantria dispar japonica by an Imidazole Derivative KK-42|J. Insect Physiol.39(2): 107-110|1993|10.1016/0022-1910(93)90101-V
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171026|T||Kim,J.S., Y.H. Je, and J.Y. Choi|Complementary Effect of Phloxine B on the Insecticidal Efficacy of Isaria fumosorosea SFP-198 Wettable Powder Against Greenhouse Whitefly, Trialeurodes vaporariorum West.|Pest Manag. Sci.66(12): 1337-1343|2010|10.1002/ps.2020
171027|T||Sharma,P., S. Thakur, and P. Awasthi|Synthesis, Characterization, Biological Evaluation and Docking Study of Heterocyclic-Based Synthetic Sulfonamides as Potential Pesticide Against G. mellonella|Appl. Biochem. Biotechnol.176(1): 125-139|2015|10.1007/s12010-015-1562-x
171028|T||Bemani,M., H. Izadi, and K. Mahdian|Effects of Pyriproxyfen on Some Physiological Aspects of the Pistachio Fruit Hull Borer, Arimania comaroffi Ragonot, Pupae|Arch. Phytopathol. Plant Prot.46(20): 2436-2442|2013|10.1080/03235408.2013.796697
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171146|A||Ansari,S., and B.A. Ansari|Toxic Effect of Alphamethrin on Catalase, Reduced Glutathione and Lipid Peroxidation in the Gill and Liver of Zebrafish, Danio rerio|World J. Zool.9(3): 155-161|2014|
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171150|A||Nataraj,M.B., and S.V. Krishnamurthy|Exposure of Tadpoles of Fejervarya limnocharis (Anura: Ranidae) to Combinations of Carbaryl and Cypermethrin|Toxicol. Environ. Chem.95(8): 1408-1415|2013|10.1080/02772248.2014.881828
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171154|A||ICI Americas Inc.|Initial Submission:  Determination of the Acute Toxicity of PP383 to Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 082892|EPA/OTS Doc.#88-920007485:20 p.|1992|
171155|A||ICI Americas Inc.|Initial Submission:  Determination of the Acute Toxicity of GFU 061 a 36% w/v Formulation of Cypermethrin to Bluegill Sunfish with Cover Letter Dated 082892|EPA/OTS Doc.#88-920007632:32 p.|1992|
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171232|A||Suvetha,L., M. Ramesh, and M. Saravanan|Influence of Cypermethrin Toxicity on Ionic Regulation and Gill Na+/K+-ATPase Activity of a Freshwater Teleost Fish Cyprinus carpio|Environ. Toxicol. Pharmacol.29(1): 44-49|2010|10.1016/j.etap.2009.09.005
171233|A||Altinok,I., E. Capkin, and H. Boran|Influence of Bioassay Volume, Water Column Height, and Octanol-Water Partition Coefficient on the Toxicity of Pesticides to Rainbow Trout|Bull. Environ. Contam. Toxicol.86(6): 596-600|2011|10.1007/s00128-011-0281-4
171234|T||Shakirova,F.M., C.R. Allagulova, M.V. Bezrukova, A.M. Aval'Baev, and F.R. Gimalov|The Role of Endogenous ABA in Cold-Induced Expression of the TADHN Dehydrin Gene in Wheat Seedlings|Russ. J. Plant Physiol.56(5): 720-723|2009|10.1134/S1021443709050203
171235|A||Shridhar,S., K. Hassan, D.J. Sullivan, G.R. Vasta, and J.A.F. Robledo|Quantitative Assessment of the Proliferation of the Protozoan Parasite Perkinsus marinus Using a Bioluminescence Assay for ATP Content|Int. J. Parasitol.3:85-92|2013|
171236|A||Smith,C.S., K.D. Getsinger, A.G. Poovey, W.F. James, M.D. Netherland, R.M. Stewart, M.A. Heilman, S. McNaught, A. Grove|Selective Control of Eurasian Watermilfoil in Houghton Lake, Michigan: 2002-2006|ERDC/EL TR-12-15, U.S.Army Engineer Research and Development Center, Vicksburg, MS16:200 p.|2013|
171237|A||Babu,V., S. Mariadoss, C.E. Ipek, B. Serbest, and S. Ali|Surface Structures of Gill, Scale and Erythrocyte of Anabas testudineus Exposed to Sublethal Concentration of Cypermethrin|Environ. Toxicol. Pharmacol.37(3): 1109-1115|2014|10.1016/j.etap.2014.04.009
171238|T||Stroinski,A., K. Gizewska, and M. Zielezinska|Abscisic Acid is Required in Transduction of Cadmium Signal to Potato Roots|Biol. Plant. (Praha)57(1): 121-127|2013|10.1007/s10535-012-0135-x
171239|T||Yin,Y.X., W.L. Guo, Y.L. Zhang, J.J. Ji, H.J. Xiao, F. Yan, Y.Y. Zhao, W.C. Zhu, R.G. Chen, W.G. Chai, and Z.H. Gong|Cloning and Characterisation of a Pepper Aquaporin, CaAQP, Which Reduces Chilling Stress in Transgenic Tobacco Plants|Plant Cell Tissue Organ Cult.118:431-444|2014|10.1007/s11240-014-0495-3
171240|T||Zeng,Q.P., X.M. Zeng, R.Y. Yang, and X.Q. Yang|Singlet Oxygen as a Signaling Transducer for Modulating Artemisinin Biosynthetic Genes in Artemisia annua|Biol. Plant. (Praha)55(4): 669-674|2011|10.1007/s10535-011-0166-8
171241|A||Jaensson,A., A.P. Scott, A. Moore, H. Kylin, and K.H. Olsen|Effects of a Pyrethroid Pesticide on Endocrine Responses to Female Odours and Reproductive Behaviour in Male Parr of Brown Trout (Salmo trutta L.)|Aquat. Toxicol.81(1): 1-9|2007|10.1016/j.aquatox.2006.10.011
171242|A||Shi,X., A. Gu, G. Ji, Y. Li, J. Di, J. Jin, F. Hu, Y. Long, Y. Xia, C. Lu, L. Song, S. Wang, and X. Wang|Developmental Toxicity of Cypermethrin in Embryo-Larval Stages of Zebrafish|Chemosphere85(6): 1010-1016|2011|10.1016/j.chemosphere.2011.07.024
171243|T||Zhang,H., H. Li, L. Yuan, Z. Wang, J. Yang, and J. Zhang|Post-Anthesis Alternate Wetting and Moderate Soil Drying Enhances Activities of Key Enzymes in Sucrose-to-Starch Conversion in Inferior Spikelets of Rice|J. Exp. Bot.63(1): 215-227|2012|10.1093/jxb/err263
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171245|T||Cohen,A.C., C.N. Travaglia, R. Bottini, and P.N. Piccoli|Participation of Abscisic Acid and Gibberellins Produced by Endophytic Azospirillum in the Alleviation of Drought Effects in Maize|Botany87:455-462|2009|10.1139/B09-023
171246|T||Hamadina,E.I., P.Q. Craufurd, N.H. Battey, and R. Asiedu|In Vitro Micro-Tuber Initiation and Dormancy in Yam|Ann. Appl. Biol.157(2): 203-212|2010|10.1111/j.1744-7348.2010.00418.x
171247|T||Kondhare,K.R., P. Hedden, P.S. Kettlewell, A.D. Farrell, and J.M. Monaghan|Use of the Hormone-Biosynthesis Inhibitors Fluridone and Paclobutrazol to Determine the Effects of Altered Abscisic Acid and Gibberellin Levels on Pre-Maturity alpha-Amylase Formation in Wheat Grains|J. Cereal Sci.60:210-216|2014|10.1016/j.jcs.2014.03.001
171248|T||Li,X., J. Cai, F. Liu, T. Dai, W. Cao, and D. Jiang|Exogenous Abscisic Acid Application During Grain Filling in Winter Wheat Improves Cold Tolerance of Offspring's Seedlings|J. Agron. Crop Sci.200:467-478|2014|10.1111/jac.12064
171249|T||Wang,G.J., W. Miao, J.Y. Wang, D.R. Ma, J.Q. Li, and W.F. Chen|Effects of Exogenous Abscisic Acid on Antioxidant System in Weedy and Cultivated Rice with Different Chilling Sensitivity Under Chilling Stress|J. Agron. Crop Sci.199:200-208|2013|10.1111/jac.12004
171250|T||Wei,L.X., B.S. Lv, M.M. Wang, H.Y. Ma, H.Y. Yang, X.L. Liu, C.J. Jiang, and Z.W. Liang|Priming Effect of Abscisic Acid on Alkaline Stress Tolerance in Rice (Oryza sativa L.) Seedlings|Plant Physiol. Biochem.90:50-57|2015|10.1016/j.plaphy.2015.03.002
171251|A||Johnson,J.A., A.R. Jones, and R.M. Newman|Evaluation of Lakewide, Early Season Herbicide Treatments for Controlling Invasive Curlyleaf Pondweed (Potamogeton crispus) in Minnesota Lakes|Lake Reserv. Manag.28:346-363|2012|10.1080/07438141.2012.744782
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171253|T||Jamil,M., T. Charnikhova, F. Verstappen, and H. Bouwmeester|Carotenoid Inhibitors Reduce Strigolactone Production and Striga hermonthica Infection in Rice|Arch. Biochem. Biophys.504(1): 123-131|2010|10.1016/j.abb.2010.08.005
171254|T||Kalinina,E.B., B.K. Keith, A.J. Kern, and W.E. Dyer|Salt- and Osmotic Stress-Induced Choline Monooxygenase Expression in Kochia scoparia is ABA-Independent|Biol. Plant. (Praha)56(4): 699-704|2012|10.1007/s10535-012-0132-0
171255|T||Webb,J., S.L. Miao, and X.H. Zhang|Factors and Mechanisms Influencing Seed Germination in a Wetland Plant Sawgrass|Plant Growth Regul.57(3): 243-250|2009|10.1007/s10725-008-9341-0
171256|A||Hao,X., Q. Ling, and F. Hong|Effects of Dietary Selenium on the Pathological Changes and Oxidative Stress in Loach (Paramisgurnus dabryanus)|Fish Physiol. Biochem.40(5): 1313-1323|2014|10.1007/s10695-014-9926-7
171257|A||Germ,M., I. Kreft, and A. Gaberscik|UV-B Radiation and Selenium Affected Energy Availability in Green Alga Zygnema|Biologia64(4): 676-679|2009|10.2478/s11756-009-0062-2
171258|A||Chen,L., J. Chen, and Z. Ren|Tissue-Specific Effect of Mercury on Antioxidant Defense System and Protective Role of Selenium on Mercury-Induced Oxidative Stress in Blue Mussel Mytilus galloprovincialis (Lamarck 1819)|Fresenius Environ. Bull.22(7): 1831-1836|2013|
171259|A||Hursky,O., and M. Pietrock|Intestinal Nematodes Affect Selenium Bioaccumulation, Oxidative Stress Biomarkers, and Health Parameters in Juvenile Rainbow Trout (Oncorhynchus mykiss)|Environ. Sci. Technol.49(4): 2469-2476|2015|10.1021/es5048792
171261|A||Gojkovic,Z., I. Garbayo-Nores, V. Gomez-Jacinto, T. Garcia-Barrera, J.L. Gomez-Ariza, I. Marova, and C. Vilchez-Lobato|Continuous Production of Selenomethionine-Enriched Chlorella sorokiniana Biomass in a Photobioreactor|Process Biochem.48:1235-1241|2013|10.1016/j.procbio.2013.06.013
171262|A||Hnain,A., J. Brooks, and D.D. Lefebvre|The Synthesis of Elemental Selenium Particles by Synechococcus leopoliensis|Appl. Microbiol. Biotechnol.97(24): 10511-10519|2013|10.1007/s00253-013-5304-0
171263|T||Estevez,A.O., K.L. Morgan, N.J. Szewczyk, D. Gems, and M. Estevez|The Neurodegenerative Effects of Selenium are Inhibited by FOXO and PINK1/PTEN Regulation of Insulin/Insulin-Like Growth Factor Signaling in Caenorhabditis elegans|Neurotoxicology41:28-43|2014|10.1016/j.neuro.2013.12.012
171264|A||Fournier,E., C. Adam, J.C. Massabuau, and J. Garnier-Laplace|Selenium Bioaccumulation in Chlamydomonas reinhardtii and Subsequent Transfer to Corbicula fluminea: Role of Selenium Speciation and Bivalve Ventilation|Environ. Toxicol. Chem.25(10): 2692-2700|2006|10.1897/05-386R1.1
171266|A||Choudhury,S., J.K. Thomas, N.J. Sylvain, O. Ponomarenko, R.A. Gordon, S.M. Heald, D.M. Janz, P.H. Krone, I. Coulthard, |Selenium Preferentially Accumulates in the Eye Lens Following Embryonic Exposure: A Confocal X-Ray Fluorescence Imaging Study|Environ. Sci. Technol.49(4): 2255-2261|2015|10.1021/es503848s
171267|A||Verma,G.P., and A.K. Gupta|Effect of Water Hardness on Acute Toxicity of Cypermethrin to Freshwater Zooplankters - Moina, Daphnia, Cyclops and Nauplii|Indian J. Anim. Res.42(3): 209-212|2008|
171268|A||Berger,S.T., M.D. Netherland, and G.E. MacDonald|Laboratory Documentation of Multiple-Herbicide Tolerance to Fluridone, Norflurazon, and Topramazone in a Hybrid Watermilfoil (Myriophyllum spicatum x M. sibiricum) Population|Weed Sci.63(1): 235-241|2015|10.1614/WS-D-14-00085.1
171269|T||Popova,L.P., and K.A. Riddle|Development and Accumulation of ABA in Fluridone-Treated and Drought-Stressed Vicia faba Plants Under Different Light Conditions|Physiol. Plant. (Multiple Languages)98(4): 791-797|1996|10.1111/j.1399-3054.1996.tb06686.x
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171271|A||Cheshier,J.C., R.M. Wersal, and J.D. Madsen|The Susceptibility of Duckweed (Lemna minor L.) to Fluridone and Penoxsulam|J. Aquat. Plant Manag.49:50-52|2011|
171272|T||Kay,S.H., D.W. Monks, and R.B. Leidy|Preliminary Evaluation of the Effects of Fluridone in Irrigation Water on Container-Grown Azaleas|HortTechnology7(1): 60-62|1997|10.21273/HORTTECH.7.1.60
171273|A||Puri,A.|Biochemical, Molecular and Physiological Aspects of Fluridone Herbicide Resistance in Hydrilla (Hydrilla verticillata)|Ph.D Thesis, University of Florida, Gainesville, FL:148 p.|2006|
171274|A||Puri,A., W.T. Haller, and M.D. Netherland|Cross-Resistance in Fluridone-Resistant Hydrilla to Other Bleaching Herbicides|Weed Sci.57(5): 482-488|2009|10.1614/WS-09-060.1
171275|A||Slade,J.G., A.G. Poovey, and M.D. Netherland|Efficacy of Fluridone on Eurasian and Hybrid Watermilfoll|J. Aquat. Plant Manag.45:116-118|2007|
171276|A||Mu,X., K. Wang, X. Chen, S. Pang, L. Zhu, Y. Yang, J. Zhang, X. Li, and C. Wang|Impact of Environmental Concentrations of beta-Cypermethrin on the Antioxidant System in the Brain and Liver of Zebrafish (Danio rerio)|Chem. Ecol.30(7): 643-652|2014|10.1080/02757540.2014.889121
171277|A||Prashanth,M.S., and S.E. Neelagund|Impact of Cypermethrin on Enzyme Activities in the Freshwater Fish Cirrhinus mrigala (Hamilton)|Caspian J. Environ. Sci.6(2): 91-95|2008|
171278|A||Velmurugan,B., T. Mathews, and E.I. Cengiz|Histopathological Effects of Cypermethrin on Gill, Liver and Kidney of Fresh Water Fish Clarias gariepinus (Burchell, 1822), and Recovery After Exposure|Environ. Technol.30(13): 1453-1460|2009|10.1080/09593330903207194
171279|A||Dobsikova,R., J. Velisek, T. Wlasow, P. Gomulka, Z. Svobodova, and L. Novotny|Effects of Cypermethrin on Some Haematological, Biochemical and Histopathological Parameters of Common Carp (Cyprinus carpio L.)|Neuroendocrinol. Lett.27:91-95|2006|
171280|A||Yang,Y., H. Ma, J. Zhou, J. Liu, and W. Liu|Joint Toxicity of Permethrin and Cypermethrin at Sublethal Concentrations to the Embryo-Larval Zebrafish|Chemosphere96:146-154|2014|10.1016/j.chemosphere.2013.10.014
171281|A||McPhee,D.L., and D.M. Janz|Dietary Selenomethionine Exposure Alters Swimming Performance, Metabolic Capacity and Energy Homeostasis in Juvenile Fathead Minnow|Aquat. Toxicol.155:91-100|2014|10.1016/j.aquatox.2014.06.012
171282|A||Kouba,A., J. Velisek, A. Stara, J. Masojidek, and P. Kozak|Supplementation with Sodium Selenite and Selenium-Enriched Microalgae Biomass Show Varying Effects on Blood Enzymes Activities, Antioxidant Response, and Accumulation in Common Barbel (Barbus barbus)|BioMed Res. Int.:8 p.|2014|
171283|A||Kim,J.H., and J.C. Kang|Oxidative Stress, Neurotoxicity, and Non-Specific Immune Responses in Juvenile Red Sea Bream, Pagrus major, Exposed to Different Waterborne Selenium Concentrations|Chemosphere135:46-52|2015|10.1016/j.chemosphere.2015.03.062
171284|A||Le,K.T., and R. Fotedar|Toxic Effects of Excessive Levels of Dietary Selenium in Juvenile Yellowtail Kingfish (Seriola lalandi)|Aquaculture433:229-234|2014|10.1016/j.aquaculture.2014.06.021
171286|A||Lin,Y.H.|Effects of Dietary Organic and Inorganic Selenium on the Growth, Selenium Concentration and Meat Quality of Juvenile Grouper Epinephelus malabaricus|Aquaculture430:114-119|2014|10.1016/j.aquaculture.2014.03.048
171287|T||Pandey,C., and M. Gupta|Selenium and Auxin Mitigates Arsenic Stress in Rice (Oryza sativa L.) by Combining the Role of Stress Indicators, Modulators and Genotoxicity Assay|J. Hazard. Mater.287:384-391|2015|10.1016/j.jhazmat.2015.01.044
171288|A||Ozkan-Yilmaz,F., A. Ozluer-Hunt, S.G. Gunduz, M. Berkoz, and S. Yalin|Effects of Dietary Selenium of Organic Form Against Lead Toxicity on the Antioxidant System in Cyprinus carpio|Fish Physiol. Biochem.40(2): 355-363|2014|10.1007/s10695-013-9848-9
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171290|A||Olsvik,P.A., H. Amlund, O. Saele, S. Ellingsen, and K.H. Skjaerven|Impact of Dietary Selenium on Methylmercury Toxicity in Juvenile Atlantic Cod: A Transcriptional Survey|Chemosphere120:199-205|2015|10.1016/j.chemosphere.2014.06.036
171291|A||Reunova,Y.A., N.A. Aizdaicher, N.K. Khristoforova, and A.A. Reunov|Growth and Ultrastructure of the Marine Unicellular Alga Dunaliella salina (Chlorophyta) After Chronic Selenium Intoxication|Russ. J. Mar. Biol.33(3): 166-172|2007|10.1134/S1063074007030042
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171293|A||Jones,A.R.|Effects of Repeated Early Season Herbicide Treatments of Curlyleaf Pondweed on Native Macrophyte Assemblages in Minnesota Lakes|M.S.Thesis, University of Minnesota, Minneapolis, MN:115 p.|2010|
171294|A||Wei,K., and J. Yang|Oxidative Damage Induced by Copper and beta-Cypermethrin in Gill of the Freshwater Crayfish Procambarus clarkii|Ecotoxicol. Environ. Saf.113:446-453|2015|10.1016/j.ecoenv.2014.12.032
171295|A||Vani,T., N. Saharan, S.D. Roy, R. Ranjan, A.K. Pal, G.M. Siddaiah, and R. Kumar|Alteration in Haematological and Biochemical Parameters of Catla Catla Exposed to Sub-Lethal Concentration of Cypermethrin|Fish Physiol. Biochem.38(6): 1577-1584|2012|10.1007/s10695-012-9650-0
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171298|A||Sarikaya,R.|Investigation of Acute Toxicity of alpha-Cypermethrin on Adult Nile Tilapia (Oreochromis niloticus L.)|Turk. J. Fish. Aquat. Sci.9(1): 85-89|2009|
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171302|A||Tashjian,D.H., and S.S.O. Hung|Selenuim Absorption, Distribution, and Excretion in White Sturgeon Orally Dosed with L-Selenomethionine|Environ. Toxicol. Chem.25(10): 2618-2622|2006|10.1897/05-572R.1
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171305|AT||Sabbioni,E., A.E. Polettini, S. Fortaner, M. Farina, F. Groppi, S. Manenti, and G. Libralato|Uptake from Water, Internal Distribution and Bioaccumulation of Selenium in Scenedesmus obliquus, Unio mancus and Rattus norvegicus: Part B|Bull. Environ. Contam. Toxicol.94(1): 90-95|2015|10.1007/s00128-014-1406-3
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171309|T||Zhou,X.B., W.M. Shi, and L.H. Zhang|Iron Plaque Outside Roots Affects Selenite Uptake by Rice Seedlings (Oryza sativa L.) Grown in Solution Culture|Plant Soil290(1/2): 17-28|2007|10.1007/s11104-006-9072-9
171310|A||Weber,D.N., V.P. Connaughton, J.A. Dellinger, D. Klemer, A. Udvadia, and M.J. Carvan III|Selenomethionine Reduces Visual Deficits Due to Developmental Methylmercury Exposures|Physiol. Behav.93(1/2): 250-260|2008|10.1016/j.physbeh.2007.08.023
171312|A||Wang,W., K. Mai, W. Zhang, W. Xu, Q. Ai, Z. Liufu, and H. Li|Dietary Selenium Requirement and Its Toxicity in Juvenile Abalone Haliotis discus hannai Ino|Aquaculture330-333(0): 42-46|2012|10.1016/j.aquaculture.2011.11.032
171313|A||Seriani,R., J.G. Franca, J.V. Lombardi, J.M. Brito, and M.J.T. Ranzani-Paiva|Hematological Changes and Cytogenotoxicity in the Tilapia Oreochromis niloticus Caused by Sub-Chronic Exposures to Mercury and Selenium|Fish Physiol. Biochem.41(1): 311-322|2015|10.1007/s10695-014-9984-x
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171316|T||Estevez,A.O., C.L. Mueller, K.L. Morgan, N.J. Szewczyk, L. Teece, A. Miranda-Vizuete, and M. Estevez|Selenium Induces Cholinergic Motor Neuron Degeneration in Caenorhabditis elegans|Neurotoxicology33:1021-1032|2012|10.1016/j.neuro.2012.04.019
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171511|A||Rumschlag,S.L., M.D. Boone, and G. Fellers|The Effects of the Amphibian Chytrid Fungus, Insecticide Exposure, and Temperature on Larval Anuran Development and Survival|Environ. Toxicol. Chem.33(11): 2545-2550|2014|10.1002/etc.2707
171512|A||Polson,K.A., W.G. Brogdon, S.C. Rawlins, and D.D. Chadee|Impact of Environmental Temperatures on Resistance to Organophosphate Insecticides in Aedes aegypti from Trinidad|Rev. Panam. Salud Publica32:1-8|2012|
171513|A||Perez-Legaspi,I.A., R. Rico-Martinez, and J.L. Quintanar|Reduced Expression of Exocytotic Proteins Caused by Anti-Cholinesterase Pesticides in Brachionus calyciflorus (Rotifera: Monogononta)|Braz. J. Biol.75(3): 759-765|2015|10.1590/1519-6984.01614
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171516|AT||Padhy,R.N., N. Nayak, and S. Rath|Antagonism at Combined Effects of Chemical Fertilizers and Carbamate Insecticides on the Rice-Field N2-Fixing Cyanobacterium Cylindrospermum sp. In Vitro|Interdisciplinary Toxicol.7(1): 5-11|2014|10.2478/intox-2014-0001
171517|A||Kerby,J.L., and A. Sih|Effects of Carbaryl on Species Interactions of the Foothill Yellow Legged Frog (Rana boylii) and the Pacific Treefrog (Pseudacris regilla)|Hydrobiologia (Multiple Languages)746:255-269|2015|10.1007/s10750-014-2137-5
171518|A||Kerby,J.L., A.J. Hart, and A. Storfer|Combined Effects of Virus, Pesticide, and Predator Cue on the Larval Tiger Salamander (Ambystoma tigrinum)|EcoHealth8:46-54|2011|10.1007/s10393-011-0682-1
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171521|A||Jansen,M., A. Coors, J. Vanoverbeke, M. Schepens, P. De Voogt, K.A.C. De Schamphelaere, and L. De Meester|Experimental Evolution Reveals High Insecticide Tolerance in Daphnia Inhabiting Farmland Ponds|Evol. Appl.8:442-453|2015|10.1111/eva.12253
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171524|A||Jansen,M., R. Stoks, A. Coors, and L. De Meester|No Evidence for a Cost of Selection by Carbaryl Exposure in Terms of Vulnerability to Fish Predation in Daphnia magna|Hydrobiologia (Multiple Languages)643:123-128|2010|10.1007/s10750-010-0129-7
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171528|A||Suwanchaichinda,C.|Characterization and Identification of Cytochrome P450 Monooxygenases Involved in Insecticide Detoxification in Aedes albopictus Mosquito Larvae|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:113 p.|2001|
171529|T||Crozier,H.L., and G.C. Cutler|Susceptibility of Chrysochus auratus, a Natural Enemy of Spreading Dogbane, to Insecticides Used in Wild Blueberry Production|J. Appl. Entomol.138:159-162|2014|10.1111/jen.12089
171530|T||Hajatmand,F., H. Abbasipour, G. Amin, A. Askarianzadeh, and J. Karimi|Evaluation of Infestation Percentage of Cotton Fields to the Spiny Bollworm, Earias insulana Boisduval (Lep.: Noctuidae), and Its Relationship with Pheromone Traps|Arch. Phytopathol. Plant Prot.47(12): 1523-1529|2014|10.1080/03235408.2013.848709
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171539|T||Whitehead,A.G., and D.J. Tite|Effects of Seed Row and Foliar Applied Pesticides on the Yield of Lucerne in Clay Soil in the Presence or Absence of Lucerne Stem Nematode, Ditylenchus dipsaci|J. Agric. Sci.110(2): 279-283|1988|10.1017/S0021859600081302
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171708|T||Nelson,R.L., M.D. Peel, and C.V. Ransom|Small Burnet Response to Spring and Fall Postemergence Herbicide Applications|Weed Technol.28:168-175|2014|10.1614/WT-D-13-00045.1
171709|T||Sankar,P., A.G. Telang, A. Manimaran, and J.K. Malik|Immunoprotective Effect of Curcumin on Cypermethrin-Induced Toxicity in Rats|Toxicol. Environ. Chem.92(10): 1909-1917|2010|10.1080/02772248.2010.493156
171710|T||Dahamna,S., A. Belguet, D. Bouamra, A. Guendouz, M. Mergham, and D. Harzallah|Evaluation of the Toxicity of Cypermethrin Pesticide on Organs Weight Loss and Some Biochemical and Histological Parameters|Commun. Agric. Appl. Biol. Sci.76(4): 915-921|2011|
171711|T||Dahamna,S., F. Bencheikh, D. Harzallah, S. Boussahel, A. Belgeit, M. Merghem, and H. Bouriche|Cypermethrin Toxic Effects on Spermatogenesis and Male Mouse Reproductive Organs|Commun. Agric. Appl. Biol. Sci.75(2): 209-216|2010|
171713|T||Mahajan,G., V. Poonia, and B.S. Chauhan|Integrated Weed Management Using Planting Pattern, Cultivar, and Herbicide in Dry-Seeded Rice in Northwest India|Weed Sci.62(2): 350-359|2014|10.1614/WS-D-13-00115.1
171714|T||Mahajan,G., and B.S. Chauhan|Weed Control in Dry Direct-Seeded Rice Using Tank Mixtures of Herbicides in South Asia|Crop Prot.72:90-96|2015|10.1016/j.cropro.2015.03.002
171715|T||Yousefi,A.R., and M.R. Rahimi|Integration of Soil-Applied Herbicides at the Reduced Rates with Physical Control for Weed Management in Fennel (Foeniculum vulgare Mill.)|Crop Prot.63:107-112|2014|10.1016/j.cropro.2014.05.018
171716|T||Sondhia,S.|Dissipation of Pendimethalin in Soil and Its Residues in Chickpea (Cicer arietinum L.) Under Field Conditions|Bull. Environ. Contam. Toxicol.89(5): 1032-1036|2012|10.1007/s00128-012-0804-7
171717|T||Samanta,A., S. Patra, K. Chakraborti, A. Ghosh, T.K. Hembram, and A.K. Somchowdhury|Relative Toxicity of Some Insecticides Against Two Indigenous Parasites Associated with Lepidopteran Pests|Environ. Ecol.27(4): 1545-1549|2009|
171718|T||Chikoye,D., R. Abaidoo, and L.A. Fontem|Response of Weeds and Soil Microorganisms to Imazaquin and Pendimethalin in Cowpea and Soybean|Crop Prot.65:168-172|2014|10.1016/j.cropro.2014.07.004
171719|T||Hutchinson,P.J.S.|Common Lambsquarters and Hairy Nightshade Control in Potato with Dimethenamid-p Alone and in Tank Mixtures and Comparison of Control by Dimethenamid-p with S-Metolachlor and Metolachlor|Weed Technol.26:279-283|2012|10.1614/WT-D-10-00119.1
171720|T||Neskovic,N., G. Slavica, B. Dragica, P. Zlatica, and R. Cmiljanic|Effects of Dietary Cypermethrin on Chickens|Acta Vet. (Beogr. )63(2/3): 325-335|2013|10.2298/AVB1303325N
171721|T||Veneziano,V., G. Neglia, R. Cimmino, A. Balestrieri, D. Rufrano, E. Bastianetto, M. Santoro, and C. Gokbulut|The Efficacy and Safety of Alphacypermethrin as a Pour-On Treatment for Water Buffalo (Bubalus bubalis) Infested with Haematopinus tuberculatus (Phthiraptera: Haematopinidae)|Parasitol. Res.112(8): 2907-2912|2013|10.1007/s00436-013-3462-8
171722|T||Jhala,A.J., A.H.M. Ramirez, S.Z. Knezevic, P. Van Damme, and M. Singh|Herbicide Tank Mixtures for Broad-Spectrum Weed Control in Florida Citrus|Weed Technol.27:129-137|2013|10.1614/WT-D-12-00105.1
171723|T||Kaur,N., M.S. Bhullar, and G. Gill|Weed Management Options for Sugarcane-Vegetable Intercropping Systems in North-Western India|Crop Prot.74:18-23|2015|10.1016/j.cropro.2015.03.025
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171725|T||Vasilakoglou,I., D. Vlachostergios, K. Dhima, and A. Lithourgidis|Response of Vetch, Lentil, Chickpea and Red Pea to Pre- or Post-Emergence Applied Herbicides|Spanish J. Agric. Res.11(4): 1101-1111|2013|10.5424/sjar/2013114-4083
171726|T||Castillo,M.S., L.E. Sollenberger, J.A. Ferrell, A.R. Blount, M.J. Williams, and C.L. Mackowiak|Strategies to Control Competition to Strip-Planted Legume in a Warm-Season Grass Pasture|Crop Sci.53:2255-2263|2013|10.2135/cropsci2012.11.0629
171727|T||Chauhan,B.S., and S.B. Abugho|Interaction of Rice Residue and PRE Herbicides on Emergence and Biomass of Four Weed Species|Weed Technol.26:627-632|2012|10.1614/WT-D-12-00067.1
171728|T||Das,A.C., S. Barman, and R. Das|Effect of Pre-Emergence Herbicides on Microbial Biomass and Biochemical Processes in a Typic Fluvaquent Soil Amended with Farm Yard Manure|Bull. Environ. Contam. Toxicol.95:395-400|2015|10.1007/s00128-015-1571-z
171729|T||Dar,S.A., and R. Kaur|Hematobiochemical Evaluation of Dermal Subacute Cypermethrin Toxicity in Buffalo Calves|Toxicol. Int.21(3): 283-287|2014|10.4103/0971-6580.155364
171730|T||Ahmed,S., and B.S. Chauhan|Performance of Different Herbicides in Dry-Seeded Rice in Bangladesh|Sci. World J.2014:14 p.|2014|
171731|T||Chirollo,C., A. Radovnikovic, V. Veneziano, R. Marrone, T. Pepe, M. Danaher, and A. Anastasio|Persistence of alpha-Cypermethrin Residues in Milk of Lactating Donkeys (Equus asinus) Using UHPLC-MS/MS|Food Addit. Contam. Part A31(7): 1205-1211|2014|
171732|T||Ahmed,S., and B.S. Chauhan|Efficacy and Phytotoxicity of Different Rates of Oxadiargyl and Pendimethalin in Dry-Seeded Rice (Oryza sativa L.) in Bangladesh|Crop Prot.72:169-174|2015|10.1016/j.cropro.2015.03.021
171733|T||Alshallash,K.S.|Effect of Pendimethalin, Trifluralin and Terbutryn on Lolium multiflorum Growing with Barley During Pre-Emergence Stage|Ann. Agric. Sci.59(2): 239-242|2014|10.1016/j.aoas.2014.11.012
171734|T||Awan,T.H., P.C.S. Cruz, and B.S. Chauhan|Efficacy and Economics of Different Herbicides, Their Weed Species Selectivity, and the Productivity of Mechanized Dry-Seeded Rice|Crop Prot.78:239-246|2015|10.1016/j.cropro.2015.09.016
171735|T||Maciel,W.G., W.D.Z. Lopes, B.C. Cruz, W.F.P. Teixeira, G. Felippelli, C.A.M. Sakamoto, F.C. Favero, C. Buzzulini, V.E. |Effects of Haematobia irritans Infestation on Weight Gain of Nelore Calves Assessed with Different Antiparasitic Treatment Schemes|Prev. Vet. Med.118(1): 182-186|2015|10.1016/j.prevetmed.2014.11.006
171736|T||Chauhan,B.S., and A.A. Bajwa|Management of Rottboellia cochinchinensis and Other Weeds Through Sequential Application of Herbicides in Dry Direct-Seeded Rice in the Philippines|Crop Prot.78:131-136|2015|10.1016/j.cropro.2015.09.007
171737|T||Ihsan,M.Z., A. Khaliq, A. Matloob, F.S. El-Nakhlawy, R.A.A. Ahmed, I. Daur, and Z. Aslam|Influence of Herbicides Applied Alone or Supplemented with Manual Weeding on Weed Growth, Rice Yield and Grain Quality in Direct-Seeded Rice (Oryza saliva L.)|Philipp. Agric. Sci.97(4): 377-384|2014|
171738|T||Singh,V.P., V.C. Dhyani, S.P. Singh, A. Kumar, S. Manalil, and B.S. Chauhan|Effect of Herbicides on Weed Management in Dry-Seeded Rice Sown Under Different Tillage Systems|Crop Prot.80:118-126|2016|10.1016/j.cropro.2015.09.018
171739|T||Singh,V., M.L. Jat, Z.A. Ganie, B.S. Chauhan, and R.K. Gupta|Herbicide Options for Effective Weed Management in Dry Direct-Seeded Rice Under Scented Rice-Wheat Rotation of Western Indo-Gangetic Plains|Crop Prot.81:168-176|2016|10.1016/j.cropro.2015.12.021
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171742|T||Stahnke,G.K.|Pendimethalin Dissipation and the Influence of Preemergence Herbicides on Kentucky Bluegrass Shoot and Root Growth|Ph.D. Thesis, University of Nebraska, Lincoln, NE:254 p.|1989|
171743|T||Hoglund,H.O., and R. Klockare|Stomatal Responses to Rapidly Imposed Water Stress and Light/Dark Transition in Norflurazon-Treated Wheat Leaves|Physiol. Plant. (Multiple Languages)69(3): 477-480|1987|10.1111/j.1399-3054.1987.tb09228.x
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171754|T||Shell Oil Co.|Initial Submission: No-Effect Level of Neurotoxicity in Rats by Short-Term Feeding of NRDC 149 and NRDC 143 (Final Report) with Cover Letter Dated 120391|EPA/OTS Doc.#88-920000499:50 p.|1991|
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171760|T||Soeda,T., and T. Uchida|Inhibition of Pigment Synthesis by 1,3-Dimethyl-4-(2,4-Dichlorobenzoyl)-5-Hydroxypyrazole, Norflurazon, and New Herbicidal Compounds in Radish and Flatsedge Plants|Pestic. Biochem. Physiol.29:35-42|1987|10.1016/0048-3575(87)90082-4
171761|A||Vogs,C., N. Bandow, and R. Altenburger|Effect Propagation in a Toxicokinetic/Toxicodynamic Model Explains Delayed Effects on the Growth of Unicellular Green Algae Scenedesmus vacuolatus|Environ. Toxicol. Chem.32(5): 1161-1172|2013|10.1002/etc.2139
171762|A||Zhekisheva,M., A. Zarka, I. Khozin-Goldberg, Z. Cohen, and S. Boussiba|Inhibition of Astaxanthin Synthesis Under High Irradiance does not Abolish Triacylglycerol Accumulation in the Green Alga Haematococcus pluvialis (Chlorophyceae)|J. Phycol.41(4): 819-826|2005|10.1111/j.0022-3646.2005.05015.x
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171765|T||Sajid,M.S., Z. Iqbal, M.N. Khan, G. Muhammad, G. Needham, and M.K. Khan|Prevalence, Associated Determinants, and In Vivo Chemotherapeutic Control of Hard Ticks (Acari: Ixodidae) Infesting Domestic Goats (Capra hircus) of Lower Punjab, Pakistan|Parasitol. Res.108(3): 601-609|2011|10.1007/s00436-010-2103-8
171767|T||Xiang,L., Y. Xia, Y. Cai, J. Liu, X. He, Q. Sun, X. Wang, Y. Fu, Y. Fan, D. Dong, G. Zhou, J. Shen, and Y. Liu|Characterization of the First Tuber Mustard Calmodulin-Like Gene, BjAAR1, and Its Functions in Responses to Abiotic Stress and Abscisic Acid in Arabidopsis|J. Plant Biol.56:168-175|2013|10.1007/s12374-013-0108-4
171768|T||Zhang,Z.W., S. Yuan, H. Feng, F. Xu, J. Cheng, J. Shang, D.W. Zhang, and H.H. Lin|Transient Accumulation of Mg-Protoporphyrin IX Regulates Expression of PhANGs - New Evidence for the Signaling Role of Tetrapyrroles in Mature Arabidopsis Plants|J. Plant Physiol.168:714-721|2011|10.1016/j.jplph.2010.10.016
171769|A||Dimier,C., S. Giovanni, T. Ferdinando, and C. Brunet|Comparative Ecophysiology of the Xanthophyll Cycle in Six Marine Phytoplanktonic Species|Protist160:397-411|2009|10.1016/j.protis.2009.03.001
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171777|T||Scherder,E.F.|Weed Control in an Intermittent Irrigation System of Rice Production & Environmental Effects on Efficacy with Cyhalofop-butyl|Ph.D. Thesis, University of Arkansas, Fayetteville, AR:115 p.|2003|
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171796|T||Pass,D.A.|The Pathology of Methyl Mercury Poisoning of the Mallard Duck (Anas platyrhynchos) and the Red-Tailed Hawk (Buteo jamaicensis)|Ph.D. Thesis, University of Guelph, Ontario, Canada:292 p.|1973|
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172061|A||Stara,A., C. Steinbach, T. Wlasow, P. Gomulka, E. Ziemok, J. Machova, and J. Velisek|Effect of zeta-Cypermethrin on Common Carp (Cyprinus carpio L.)|Neuroendocrinol. Lett.34(Suppl. 2): 37-42|2013|
172062|A||Tendulkar,M., and A. Kulkarni|Cypermethrin-Induced Toxic Effect on Glycogen Metabolism in Estuarine Clam, Marcia opima (Gmelin, 1791) of Ratnagiri Coast, Maharashtra|J. Toxicol.2012:3 p.|2012|10.1155/2012/576804
172063|A||Parate,S.K.|Effect of Cypermethrin on Lipid Level of Freshwater Crab P. jacquemontii Hepatopancreas and Muscle|Biosci. Disc.4(1): 128-132|2013|
172064|A||Mugni,H., A. Paracampo, N. Marrochi, and C. Bonetto|Acute Toxicity of Cypermethrin to the Non Target Organism Hyalella curvispina|Environ. Toxicol. Pharmacol.35(1): 88-92|2013|10.1016/j.etap.2012.11.008
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172074|A||Jee,J.H., F. Masroor, and J.C. Kang|Responses of Cypermethrin-Induced Stress in Haematological Parameters of Korean Rockfish, Sebastes schlegeli (Hilgendorf)|Aquac. Res.36(9): 898-905|2005|10.1111/j.1365-2109.2005.01299.x
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172084|A||Mishra,D., R. Rai, S.K. Srivastav, and A.K. Srivastav|Histological Alterations in the Prolactin Cells of a Teleost, Heteropneustes fossilis, After Exposure to Cypermethrin|Environ. Toxicol.26(4): 359-363|2011|10.1002/tox.20562
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172087|A||Singh,V., and D.K. Singh|The Effect of Abiotic Factors on the Toxicity of Cypermethrin Against the Snail Lymnaea acuminata in the Control of Fascioliasis|J. Helminthol.83(1): 39-45|2009|10.1017/S0022149X08086252
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172089|A||Gabriel,U.U., I.R. Jack, O.S. Edori, and E. Egobueze|Electrolytes in Selected Tissues of Heterobranchus bidorsalis Treated with Sub Lethal Levels of Cypermethrin|Ethiop. J. Environ. Stud. Manag.2(3): 83-87|2009|10.4314/ejesm.v2i3.48269
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172092|T||Maute,K., K. French, C.M. Bull, P. Story, and G. Hose|Current Insecticide Treatments Used in Locust Control have Less of a Short-Term Impact on Australian Arid-Zone Reptile Communities than does Temporal Variation|Wildl. Res.42:50-59|2015|10.1071/WR14194
172093|T||Assefa,S., J.T. Curtis, S. Sethi, R.L. Davis, Y. Chen, and R. Kaul|Inorganic Mercury Exposure in Prairie Voles (Microtus ochrogaster) Alters the Expression of Toll-Like Receptor 4 and Activates Inflammatory Pathways in the Liver in a Sex-Specific Manner|Hum. Exp. Toxicol.31(4): 376-386|2012|10.1177/0960327111407223
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172130|T||Baimey,H., L. Zadji, L. Afouda, M. Moens, and W. Decraemer|Influence of Pesticides, Soil Temperature and Moisture on Entomopathogenic Nematodes from Southern Benin and Control of Underground Termite Nest Populations|Nematology17:1057-1069|2015|10.1163/15685411-00002923
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172142|T||Singh,J.P., and R.K. Lakra|Persistent Toxicity of Some Systemic Insecticides vis-a-vis Resurgence of Leafhopper, Amrasca biguttula biguttula (Ishida) in Haryana|Indian J. Plant Prot.17(2): 247-250|1989|
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172822|T||Anand,S.K., and N.P. Ramchandani|Fumigation of Alphanso Mangoes with Ethylene-di-Bromide|Plant Prot. Bull.36(2/3): 131-132|1984|
172823|T||Kim,S.K., S.C. Lee, K.M. Kim, B.H. Lee, and I.J. Lee|Possible Residual Effects of Gibberellic Acid and Gibberellin Biosynthesis Inhibitors on Sprouting, Early Bulbil Formation and Tuber Yield in Chinese Yam|J. Agron. Crop Sci.189:428-432|2003|10.1046/j.0931-2250.2003.00074.x
172824|T||Stirling,G.R., S.R. Dullahide, and A. Nikulin|Management of Lesion Nematode (Pratylenchus jordanensis) on Replanted Apple Trees|Aust. J. Exp. Agric.35:247-258|1995|10.1071/EA9950247
172825|T||Stirling,G.R., and M.F. Wachtel|Root-Knot Nematode (Meloidogyne hapla) on Potato in South-Eastern South Australia|Aust. J. Exp. Agric.25:455-457|1985|10.1071/EA9850455
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172828|T||Rodriguez-Kabana,R., P.S. King, H.W. Penick, F.A. Gray, E.L. Carden, R.N. McDaniel, F.B. Selman, and H. Ivey|Use of Planting Time Application of Ethylene Dibromide for Control of Plant Parasitic Nematodes on Soybeans: New Uses for an Old Fumigant|Highlights Agric. Res.26(1): 18-19|1979|
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172831|T||Ijani,A.S.M., and M.T. Mmbaga|Studies on the Control of Root Knot Nematodes (Meloidogyne Species) on Tomato in Tanzania Using Marigold Plants (Tagetes Species), Ethylene Dibromide and Aldicarb|Trop. Pest Manag.34(2): 147-149|1988|10.1080/09670878809371229
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172834|T||Ellis,C.R.|Susceptibility of Two Strains of Sitophilus granarius to 1,2-Dibromoethane. 2. Strain Difference in Uptake and Metabolism of Radiolabeled Fumigant|J. Econ. Entomol.65(6): 1573-1577|1972|10.1093/jee/65.6.1573
172835|T||Carsky,R.J., L. Singh, and R. Ndikawa|Effect of Herbicide and Handweeding on Current and Subsequent Season Striga hermonthica Density on Sorghum|Int. J. Pest Manag.40(2): 111-116|1994|10.1080/09670879409371866
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172837|T||Ismail,B.S., T.S. Chuah, S. Salmijah, and K.H. Hussin|Role of Superoxide Dismutase and Peroxidase Activities in Paraquat-Resistant Redflower Ragleaf (Crassocephalum crepidioides (Benth.) S. Moore)|Aust. J. Agric. Res.52(5): 583-586|2001|10.1071/AR00053
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172842|T||Modenesi,P.|An SEM Study of Injury Symptoms in Parmotrema reticulatum Treated with Paraquat or Growing in Sulphur Dioxide-Polluted Air|Lichenologist25(4): 423-433|1993|10.1006/lich.1993.1006
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172846|T||Singh,S., and J.S. Bal|Effect of Mulches on Soil NPK Availability and Leaf Nutrient Levels in Indian Jujube|Acta Hortic.:131-136|2013|10.17660/ActaHortic.2013.993.19
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172848|T||Szemruch,C.L., S.J. Renteria, F. Moreira, M.A. Cantamutto, L. Ferrari, and D.P. Rondanini|Germination, Vigour and Dormancy of Sunflower Seeds Following Chemical Desiccation of Female Plants|Seed Sci. Technol.42:454-460|2014|10.15258/sst.2014.42.3.12
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172852|T||Cuevas,J.C., D.H. Sanchez, M. Marina, and O.A. Ruiz|Do Polyamines Modulate the Lotus glaber NADPH Oxidation Activity Induced by the Herbicide Methyl Viologen?|Funct. Plant Biol.31(9): 921-928|2004|10.1071/FP04007
172853|T||Vogel,M.O., D. Gomez-Perez, N. Probst, and K.J. Dietz|Combinatorial Signal Integration by APETALA2/Ethylene Response Factor (ERF)-Transcription Factors and the Involvement of AP2-2 in Starvation Response|Int. J. Mol. Sci.13:5933-5951|2012|10.3390/ijms13055933
172854|T||Branco,A.T., and B. Lemos|High Intake of Dietary Sugar Enhances Bisphenol A (BPA) Disruption and Reveals Ribosome-Mediated Pathways of Toxicity|Genetics197:147-157|2014|10.1534/genetics.114.163170
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172856|A||Mariager,L.P.|Effects of Environmental Endocrine Disruptors on a Freshwater and a Marine Crustacean|M.S. Thesis, Aarhus University, Institute of Biological Sciences, Aarhus, Denmark:143 p.|2001|
172857|T||Rizhsky,L., S. Davletova, H. Liang, and R. Mittler|The Zinc Finger Protein Zat12 is Required for Cytosolic Ascorbate Peroxidase 1 Expression During Oxidative Stress in Arabidopsis|J. Biol. Chem.279(12): 11736-11743|2004|10.1074/jbc.M313350200
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172859|T||Rao,J.V.S., K.R. Reddy, and M.S. Devi|Effect of Paraquat and 2,4,5-T on Biosynthesis of Epicuticular Wax in Some Semiarid Shrubs|J. Nucl. Agric. Biol.16(3): 127-133|1987|
172860|T||Singh,S., S.S. Pahuja, and S.M. Singh|Effect of Herbicides Contaminated Irrigation Water on Germination and Seedlings Growth of Different Crops|Int. J. Trop. Agric.7(3/4): 173-178|1989|
172861|T||Romero,H.M., E.J. Pell, and M. Tien|Expression Profile Analysis and Biochemical Properties of the Peptide Methionine Sulfoxide Reductase A (PMSRA) Gene Family in Arabidopsis|Plant Sci.170(4): 705-714|2006|10.1016/j.plantsci.2005.10.005
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172865|T||Orendi,G., P. Zimmermann, C. Baar, and U. Zentgraf|Loss of Stress-Induced Expression of Catalase3 During Leaf Senescence in Arabidopsis thaliana is Restricted to Oxidative Stress|Plant Sci.161(2): 301-314|2001|10.1016/S0168-9452(01)00409-5
172867|T||Tucker,E.S., and S.B. Powles|Occurrence and Distribution in South-Eastern Australia of Barley Grass (Hordeum glaucum Steud.) Resistant to Paraquat|Plant Prot. Q.3(1): 19-21|1988|
172868|T||Bick,J.A., A.T. Setterdahl, D.B. Knaff, Y. Chen, L.H. Pitcher, B.A. Zilinskas, and T. Leustek|Regulation of the Plant-Type 5'-Adenylyl Sulfate Reductase by Oxidative Stress|Biochemistry (Wash.)40(30): 9040-9048|2001|10.1021/bi010518v
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172870|T||Parfitt,R.I.|Response of Established Willow Stools at Different Growth Stages to Foliar Herbicide Applications|Proc. Br. Crop Prot. Conf. Weeds1-3:355-360|1989|
172871|T||Shergill,L.S., B. Fleet, C. Preston, and G. Gill|Incidence of Herbicide Resistance, Seedling Emergence, and Seed Persistence of Smooth Barley (Hordeum glaucum) in South Australia|Weed Technol.29:782-792|2015|10.1614/WT-D-15-00064.1
172873|T||Chen,Y., R.E. Strahan, and R.P. Bracy|Effects of Mulching and Preemergence Herbicide Placement on Yellow Nutsedge Control and Ornamental Plant Quality in Landscape Beds|HortTechnology23(5): 651-658|2013|10.21273/HORTTECH.23.5.651
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172875|T||Wallace,R.D., A.S. Culpepper, A.W. MacRae, L.M. Sosnoskie, and T.L. Grey|Vegetable Crop Response to EPTC Applied Preemergence Under Low-Density Polyethylene and High Barrier Plastic Mulch|Weed Technol.26:54-60|2012|10.1614/WT-D-11-00016.1
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172877|T||Chandra,P., W.R. Furtick, and W.B. Bollen|The Effects of Four Herbicides on Microorganisms in Nine Oregon Soils|Weeds (Urbana)8:589-598|1960|10.2307/4040360
172878|T||Duke,W.B., B.J. Brecke, and P.F. Boldt|Comparative Effects of EPTC, Butylate, and VCS 438 on Annual Weeds and Alfalfa|Proc. Annu. Meet. Northeast. Weed Sci. Soc.24:213-219|1970|
172879|T||Gray,R.A., and A.J. Weierich|Importance of Root, Shoot, and Seed Exposure on the Herbicidal Activity of EPTC|Weed Sci.17:223-229|1969|10.1017/S0043174500031374
172880|T||Mortland,M.M., and W.F. Meggitt|Interaction of Ethyl N-N-di-n-Propylthiolcarbamate (EPTC) with Montmorillonite|J. Agric. Food Chem.14(2): 127-129|1966|10.1021/jf60144a008
172881|T||Stirling,G.R.|Organic Amendments for Control of Root-Knot Nematode (Meloidogyne incognita) on Ginger|Australas. Plant Pathol.18(2): 39-44|1989|10.1071/APP9890039
172882|T||Oliver,L.R., G.N. Prendeviller, and M.M. Schreiber|Species Differences in Site of Root Uptake and Tolerance to EPTC|Weed Sci.16:534-537|1968|10.1017/S0043174500047962
172883|T||Prendeville,G.N., L.R. Oliver, and M.M. Schreiber|Species Differences in Site of Shoot Uptake and Tolerance to EPTC|Weed Sci.16:538-540|1968|10.1017/S0043174500047974
172884|T||Rodriguez-Kabana,R., E.A. Curl, and J.L. Peeples|Growth Response of Sclerotium rolfsii to the Herbicide EPTC in Liquid Culture and Soil|Phytopathology60:431-436|1970|10.1094/Phyto-60-431
172885|T||Yamaguchi,S.|Absorption and Distribution of EPTC-S35|Weeds (Urbana)9:374-380|1961|10.2307/4040855
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172889|T||Gardiner,L.M.|Attraction of Hylurgopinus rufipes to Cacodylic Acid-Treated Elms|Bull. Entomol. Soc. Am.25(1): 102-104|1979|10.1093/besa/25.1.102
172890|T||Hostetler,B.B., and J.W. Brewer|Translocation of Cacodylic Acid in Dutch Elm-Diseased American Elms and Its Effect on Scolytus multistriatus (Coleoptera: Scolytidae)|Can. Entomol.108(8): 893-896|1976|10.4039/Ent108893-8
172891|T||Kolberg,M.L.|Cactus Control with MSMA Invert Emulsion|Proc. South. Weed Sci. Soc.22:268-269|1969|
172892|T||Reddy,K.R., J.V.S. Rao, and V.S.R. Das|Inhibition of Epicuticlar Wax Deposition by Ansar 529 & EPTC in Some Semiarid Shrubs|Indian J. Exp. Biol.17(8): 813-815|1979|
172893|T||Bussel,J., and S.S. Kamburov|Ethylene Dibromide Fumigation of Citrus Fruit to Control the Mediterranean Fruit Fly, Ceratitis capitata (Wied.)|J. Am. Soc. Hortic. Sci.101(1): 11-14|1976|10.21273/JASHS.101.1.11
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172895|T||Kinloch,R.A.|Influence of Nemacur and Soilbrom on Southern Root-Knot Nematode and Soybean Yield, 1981|Fungic. Nematic. Tests38:9-|1983|
172896|T||Kinloch,R.A.|Influence of Temik and Soilbrom on Southern Root-Knot Nematode and Soybean Yield, 1981|Fungic. Nematic. Tests38:10-|1983|
172899|T||Dyer,E.D.A., and P.M. Hall|Timing Cacodylic Acid Treatments to Kill Mountain Pine Beetles Infesting Lodgepole Pine|Bi-Mon. Res. Notes Environ. Can. For. Serv.35(3): 13-|1979|
172902|T||Rexrode,C.O.|Effect of Pressure-Injected Oxydemetonmethyl, Cacodylic Acid, and 2,4-D Amine on Elm Bark Beetle Populations in Elms Infected with Dutch Elm Disease|Plant Dis. Rep.58(4): 382-384|1974|
172904|T||Rexrode,C.O.|Cacodylic Acid Reduces the Spread of Oak Wilt|Plant Dis. Rep.61(11): 972-975|1977|
172905|T||Rizki,M., E. Kossatz, A. Velazquez, A. Creus, M. Farina, S. Fortaner, E. Sabbioni, and R. Marcos|Metabolism of Arsenic in Drosophila melanogaster and the Genotoxicity of Dimethylarsinic Acid in the Drosophila Wing Spot Test|Environ. Mol. Mutagen.47:162-168|2006|10.1002/em.20178
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172908|T||Lee,S.H., and C.S. An|Ectopic Overexpression of the Hot Pepper Cat1 in Arabidopsis Enhances Resistance to Paraquat, but not to Wounding|J. Plant Biol.49(6): 421-426|2006|10.1007/BF03031121
172909|T||Radyukina,N.L., A.V. Shashukova, N.I. Shevyakova, and V.V. Kuznetsov|Proline Involvement in the Common Sage Antioxidant System in the Presence of NaCl and Paraquat|Russ. J. Plant Physiol.55(5): 649-656|2008|10.1134/S1021443708050087
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172916|T||Qin,L., M. Wang, J. Zuo, X. Feng, X. Liang, Z. Wu, and H. Ye|Cytosolic BolA Plays a Repressive Role in the Tolerance against Excess Iron and MV-Induced Oxidative Stress in Plants|PLoS One10:20 p.|2015|
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172919|T||Driver,C.H., R.E. Wood, R.L. Edmonds, and T.M. Finnis|Effect of Thinning by Herbicides on Occurrence of Fomes annosus in Young-Growth Western Hemlock|Plant Dis. Rep.54(4): 330-331|1970|
172920|T||Baker,R.S., M.L. Laster, and W.F. Kitten|Effects of the Herbicide Monosodium Methanearsonate on Insect and Spider Populations in Cotton Fields|J. Econ. Entomol.78:1481-1484|1985|10.1093/jee/78.6.1481
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172922|T||Guo,J., P. Bai, Q. Yang, F. Liu, X. Wang, L. Huang, and Z. Kang|Wheat Zinc Finger Protein TaLSD1, a Negative Regulator of Programmed Cell Death, is Involved in Wheat Resistance Against Stripe Rust Fungus|Plant Physiol. Biochem.71:164-172|2013|10.1016/j.plaphy.2013.07.009
172923|T||Prematilake,K.G., R.J. Froud-Williams, and P.B. Ekanayake|Weed Infestation and Tea Growth Under Various Weed Management Methods in a Young Tea (Camellia sinensis (L.) Kuntze) Plantation|Weed Biol. Manag.4(4): 239-248|2004|10.1111/j.1445-6664.2004.00144.x
172924|T||Proctor,M.C.F., and N. Smirnoff|Ecophysiology of Photosynthesis in Bryophytes: Major Roles for Oxygen Photoreduction and Non-Photochemical Quenching?|Physiol. Plant. (Multiple Languages)141:130-140|2011|10.1111/j.1399-3054.2010.01424.x
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173028|T||Hill,N.S., J.G. Andrae, R.G. Durham, and D.W. Hancock|Herbicide Treatments to Renovate Toxic Endophyte Infected Tall Fescue Pastures with 'Jesup' MaxQ|Crop Sci.50(3): 1086-1093|2010|10.2135/cropsci2009.03.0130
173029|T||Guo,S.L., H.W. Jiang, F. Fang, and G.Q. Chen|Influences of Herbicides, Uprooting and Use as Cut Flowers on Sexual Reproduction of Solidago canadensis|Weed Res. (Multiple Languages)49:291-299|2009|10.1111/j.1365-3180.2009.00693.x
173030|T||Ge,X., D.A. d'Avignon, J.J.H. Ackerman, A. Collavo, M. Sattin, E.L. Ostrander, E.L. Hall, R.D. Sammons, and C. Preston|Vacuolar Glyphosate-Sequestration Correlates with Glyphosate Resistance in Ryegrass (Lolium spp.) from Australia, South America, and Europe: A 31P NMR Investigation|J. Agric. Food Chem.60:1243-1250|2012|10.1021/jf203472s
173031|T||Piotrowicz-Cieslak,A.I., B. Adomas, and D.J. Michalczyk|Different Glyphosate Phytotoxicity of Seeds and Seedlings of Selected Plant Species|Pol. J. Environ. Stud.19(1): 123-129|2010|
173032|T||Rimi,F., S. Macolino, and B. Leinauer|Winter-Applied Glyphosate Effects on Spring Green-up of Zoysiagrasses and 'Yukon' Bermudagrass in a Transition Zone|HortTechnology22(1): 131-136|2012|10.21273/HORTTECH.22.1.131
173033|T||McKee,S.E., J.R. Seiler, W.M. Aust, B.D. Strahm, E.B. Schilling, and S. Brooks|Carbon Pools and Fluxes in a Tupelo (Nyssa aquatica)-Baldcypress (Taxodium distichum) Swamp 24-Years After Harvest Disturbances|Biomass Bioenergy55:130-140|2013|10.1016/j.biombioe.2013.01.022
173034|T||Saunders,L.E., and R. Pezeshki|Morphological Differences in Response to Physiological Integration and Spatial Heterogeneity of Root Zone Glyphosate Exposure in Connected Ramets of Ludwigia peploides (Creeping Water Primrose)|Water Air Soil Pollut.226(6): 10 p.|2015|10.1007/s11270-015-2435-1
173035|T||Rodriguez,A.M., and E.J. Jacobo|Glyphosate Effects on Seed Bank and Vegetation Composition of Temperate Grasslands|Appl. Veg. Sci.16:51-62|2013|10.1111/j.1654-109X.2012.01213.x
173036|A||Miko,Z., J. Ujszegi, Z. Gal, Z. Imrei, and A. Hettyey|Choice of Experimental Venue Matters in Ecotoxicology Studies: Comparison of a Laboratory-Based and an Outdoor Mesocosm Experiment|Aquat. Toxicol.167:20-30|2015|10.1016/j.aquatox.2015.07.014
173038|T||Nyamai,P.A., T.S. Prather, and J.M. Wallace|Evaluating Restoration Methods Across a Range of Plant Communities Dominated by Invasive Annual Grasses to Native Perennial Grasses|Invasive Plant Sci. Manag.4(3): 306-316|2011|10.1614/IPSM-D-09-00048.1
173039|A||Pang,T., J. Liu, Q. Liu, L. Zhang, and W. Lin|Impacts of Glyphosate on Photosynthetic Behaviors in Kappaphycus alvarezii and Neosiphonia savatieri Detected by JIP-Test|J. Appl. Phycol.24:467-473|2012|10.1007/s10811-012-9796-2
173040|T||Rogers,R.A., T.J. Zabadal, D.E. Crowe, and T.D. Jordan|The Relation of the Phytotoxicity of Glyphosate to Its Injury-Free Use in Vineyards. Part II: Injury-Free Use in New York Vineyards|Proc. Annu. Meet. Northeast. Weed Sci. Soc.32:254-259|1978|
173041|T||Hahn,M., M. Geisthardt, and C.A. Bruhl|Effects of Herbicide-Treated Host Plants on the Development of Mamestra brassicae L. Caterpillars|Environ. Toxicol. Chem.33(11): 2633-2638|2014|10.1002/etc.2726
173042|T||Allison,J.E., C. Boutin, and D. Carpenter|Influence of Soil Organic Matter on the Sensitivity of Selected Wild and Crop Species to Common Herbicides|Ecotoxicology22(8): 1289-1302|2013|10.1007/s10646-013-1116-3
173044|T||Ge,X., D.A. d'Avignon, J.J.H. Ackerman, and R.D. Sammons|Observation and Identification of 2-C-Methyl-D-Erythritol-2,4-Cyclopyrophosphate in Horseweed and Ryegrass Treated with Glyphosate|Pestic. Biochem. Physiol.104(3): 187-191|2012|10.1016/j.pestbp.2012.07.009
173045|T||De Carvalho,L.B., P.L.C.A. Alves, F. Gonzalez-Torralva, H.E. Cruz-Hipolito, A.M. Rojano-Delgado, R. De Prado, J. Gil-Hu|Pool of Resistance Mechanisms to Glyphosate in Digitaria insularis|J. Agric. Food Chem.60:615-622|2012|10.1021/jf204089d
173046|T||Vaughn,K.H.|Evaluation of Dormant-Season Herbicide Treatment Methods for Chinese Privet at Congaree National Park|Ph.D. Thesis, Clemson University:113 p.|2013|
173047|T||Rapp,R.E., A. Datta, S. Irmak, T.J. Arkebauer, and S.Z. Knezevic|Integrated Management of Common Reed (Phragmites australis) Along the Platte River in Nebraska|Weed Technol.26:326-333|2012|10.1614/WT-D-11-00119.1
173048|T||Schultz,M.E., and O.C. Burnside|Absorption, Translocation, and Metabolism of 2,4-D and Glyphosate in Hemp Dogbane (Apocynum cannabinum)|Weed Sci.28:13-20|1980|10.1017/S0043174500027685
173049|T||Schulz,K.E., J. Wright, and S. Ashbaker|Comparison of Invasive Shrub Honeysuckle Eradication Tactics for Amateurs: Stump Treatment Versus Regrowth Spraying of Lonicera maackii|Restor. Ecol.20(6): 788-793|2012|10.1111/j.1526-100X.2012.00866.x
173050|T||Tanigoshi,L.K., and B.D. Congdon|Laboratory Toxicity of Commonly-Used Pesticides in California Citriculture to Euseius hibisci (Chant) (Acarina: Phytoseiidae)|J. Econ. Entomol.76(2): 247-250|1983|10.1093/jee/76.2.247
173051|T||Mazzolari,A.C., V.M. Comparatore, and F. Bedmar|Control of Elmleaf Blackberry Invasion in a Natural Reserve in Argentina|J. Nat. Conserv.19(3): 185-191|2011|10.1016/j.jnc.2010.12.002
173052|T||Selleck,G.W., T. Zabadal, and S.M. McCargo|Glyphosate for Weed Control in Vineyards|Proc. Annu. Meet. Northeast. Weed Sci. Soc.29:237-238|1975|
173053|T||Li,Q., G. Li, Z. Liu, X. Deng, and Y. Zou|Effects of Herbicides Application on Allelopathic Potential of Eupatorium catarium|Allelopathy J.31(1): 139-146|2013|
173054|T||Dornbos,D.L.,Jr., and R. Pruim|Moist Soils Reduce the Effectiveness of Glyphosate on Cut Stumps of Buckthorn|Nat. Areas J.32(3): 240-246|2012|10.3375/043.032.0302
173055|T||Rojano-Delgado,A.M., H. Cruz-Hipolito, R. De Prado, M.D. Luque De Castro, and A.R. Franco|Limited Uptake, Translocation and Enhanced Metabolic Degradation Contribute to Glyphosate Tolerance in Mucuna pruriens var. utilis Plants|Phytochemistry73:34-41|2012|10.1016/j.phytochem.2011.09.007
173056|A||Mekhed,O.B., and A.A. Zhydenko|Impact of Water Pollution by Herbicides Zenkor and Roundup on Metabolism in Liver of Fishes of the Fam. Cyprinidae|Hydrobiol. J.49(5): 74-80|2013|10.1615/HydrobJ.v49.i5.80
173057|T||Olson,M.G., R.G. Wagner, and J.C. Brissette|Forty Years of Spruce-Fir Stand Development Following Herbicide Application and Precommercial Thinning in Central Maine, USA|Can. J. For. Res.42(1): 1-11|2012|10.1139/x11-132
173058|T||Loureiro,I., E. Rodriguez-Garcia, C. Escorial, J.M. Garcia-Baudin, J.L. Gonzalez-Andujar, and M.C. Chueca|Distribution and Frequency of Resistance to Four Herbicide Modes of Action in Lolium rigidum Gaud. Accessions Randomly Collected in Winter Cereal Fields in Spain|Crop Prot.29(11): 1248-1256|2010|10.1016/j.cropro.2010.07.005
173060|T||Busi,R., and S.B. Powles|Reduced Sensitivity to Paraquat Evolves Under Selection with Low Glyphosate Doses in Lolium rigidum|Agron. Sustain. Dev.31(3): 525-531|2011|10.1007/s13593-011-0012-6
173061|A||Knowles,C.O., H.J. Benezet, and F.L.,Jr. Mayer|Thidiazuron Uptake, Distribution and Metabolism in Bluegills and Channel Catfish|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes15(4): 351-364|1980|
173062|A||Squibb,K.S., C.M.F. Michel, J.T. Zelikoff, and J.M. O'Connor|Sulfadimethoxine Pharmacokinetics and Metabolism in the Channel Catfish (Ictalurus punctatus)|Vet. Hum. Toxicol.30(suppl. 1): 31-35|1988|
173063|T||Wise,J.C., K. Schoenborn, and L.J. Gut|Control of European Red Mites on Apple, 2006|Arthropod Manag. Tests32:2 p.|2007|
173064|T||Hawkins,C.D.B., A. Dhar, and J. Lange|Vegetation Management with Glyphosate has Little Impact on Understory Species Diversity or Tree Growth in a Sub Boreal Spruce Plantation - A Case Study|Plant Biosyst.147:105-114|2013|10.1080/11263504.2012.736421
173065|T||Hutchinson,J.T., K.A. Langeland, and M. Meisenburg|Field Trials for Herbicide Control of Coral Ardisia (Ardisia crenata) in Natural Areas of North-Central Florida|Invasive Plant Sci. Manag.4:234-238|2011|10.1614/IPSM-D-10-00062.1
173066|T||Hutchinson,J.T., E.A. Gandy, and K.A. Langeland|Herbicide Management of Umbrella Dracaena (Dianella ensifolia) in a Florida State Park|Invasive Plant Sci. Manag.4(3): 349-355|2011|10.1614/IPSM-D-10-00076.1
173067|T||Langeland,K., and M. Meisenburg|Herbicide Evaluation to Control Clematis terniflora Invading Natural Areas in Gainesville, Florida|Invasive Plant Sci. Manag.2(1): 70-73|2009|10.1614/IPSM-08-110.1
173068|T||Barroso,J., I. Loureiro, M.C. Escorial, and M.C. Chueca|The Response of Bromus diandrus and Lolium rigidum to Dalapon and Glyphosate I: Baseline Sensitivity|Weed Res. (Multiple Languages)50:312-319|2010|10.1111/j.1365-3180.2010.00782.x
173069|T||Bried,J.T., and J.A. Hecht|Comparison of Herbicide Treatments to Control Native Aspen Encroachment in Pine Barrens|Nat. Areas J.31(3): 288-293|2011|10.3375/043.031.0311
173070|T||Klimkowska,A., P. Dzierza, W. Kotowski, and K. Brzezinska|Methods of Limiting Willow Shrub Re-Growth After Initial Removal on Fen Meadows|J. Nat. Conserv.18(1): 12-21|2010|10.1016/j.jnc.2009.01.002
173071|T||Wu,C.|The Effects of Emergence Timing and Herbicide Resistance on the Ecological Fitness and Adaptation of Common Waterhemp (Amaranthus tuberculatus (Moq) Sauer) to Agricultural Systems|M.S. Thesis, Iowa State University, Ames, IA:143 p.|2012|
173072|T||Tavares,C.R.D., J.A. Bendassolli, D.N. Ribeiro, A.L.R.M. Rossete, C.V. Prestes, and G.A. Tavares|15N-Labeled Glyphosate Synthesis and Its Practical Effectiveness|Sci. Agric. (Piracicaba, Braz. )67(1): 96-101|2010|10.1590/S0103-90162010000100014
173073|T||Vila-Aiub,M.M., P.E. Gundel, Q. Yu, and S.B. Powles|Glyphosate Resistance in Sorghum halepense and Lolium rigidum is Reduced at Suboptimal Growing Temperatures|Pest Manag. Sci.69:228-232|2013|10.1002/ps.3464
173074|T||Ward,J.S., S.C. Williams, and T.E. Worthley|Effectiveness of Two-Stage Control Strategies for Japanese Barberry (Berberis thunbergii) Varies by Initial Clump Size|Invasive Plant Sci. Manag.3(1): 60-69|2010|10.1614/IPSM-D-09-00003.1
173076|T||Aronsson,H., M. Stenberg, and B. Ulen|Leaching of N, P and Glyphosate from Two Soils After Herbicide Treatment and Incorporation of a Ryegrass Catch Crop|Soil Use Manag.27:54-68|2011|10.1111/j.1475-2743.2010.00311.x
173077|T||Beck,P.A., C.B. Stewart, J.M. Phillips, S.A. Gunter, and K.B. Watkins|Case Study: Effects of Interseeding Date of Cool-Season Annual Grasses and Preplant Glyphosate Application onto a Warm-Season Grass Sod on Forage Production, Forage Nutritive Value, Performance of Stocker Cattle, and Ne|Prof. Anim. Sci.27(4): 375-384|2011|10.15232/S1080-7446(15)30502-7
173078|T||Kaundun,S.S., R.P. Dale, I.A. Zelaya, G. Dinelli, I. Marotti, E. McIndoe, and A. Cairns|A Novel P106L Mutation in EPSPS and an Unknown Mechanism(s) Act Additively to Confer Resistance to Glyphosate in a South African Lolium rigidum Population|J. Agric. Food Chem.59:3227-3233|2011|10.1021/jf104934j
173079|T||Leslie,G.W.|The Toxicity of Some Agrochemicals to Pheidole sp. (Hymenoptera: Formicidae) a Common Ant in Natal Cane Fields|Proc. Annu. Cong. S. Afr. Sugar Technol. Assoc.51:21-23|1977|
173080|T||Lewis,T., and J. De Faveri|Fuel Manipulation with Herbicide Treatments to Reduce Fire Hazard in Young Pine (Pinus elliottii x P. caribaea) Plantations in South-East Queensland, Australia|Int. J. Wildland Fire21:992-1003|2012|10.1071/WF11101
173081|T||Li,P., S. He, T. Tang, K. Qian, H. Ni, and Y. Cao|Evaluation of the Efficacy of Glyphosate plus Urea Phosphate in the Greenhouse and the Field|Pest Manag. Sci.68:170-177|2012|10.1002/ps.2240
173082|A||Chen,L., M. Xie, Y. Bi, G. Wang, S. Deng, and Y. Liu|The Combined Effects of UV-B Radiation and Herbicides on Photosynthesis, Antioxidant Enzymes and DNA Damage in Two Bloom-Forming Cyanobacteria|Ecotoxicol. Environ. Saf.80:224-230|2012|10.1016/j.ecoenv.2012.03.007
173083|T||Toews,M.D., R.S. Tubbs, D.Q. Wann, and D. Sullivan|Thrips (Thysanoptera: Thripidae) Mitigation in Seedling Cotton Using Strip Tillage and Winter Cover Crops|Pest Manag. Sci.66:1089-1095|2010|10.1002/ps.1983
173084|A||Ugurlu,P., E. Unlu, and E.I. Satar|The Toxicological Effects of Thiamethoxam on Gammarus kischineffensis (Schellenberg 1937) (Crustacea: Amphipoda)|Environ. Toxicol. Pharmacol.39(2): 720-726|2015|10.1016/j.etap.2015.01.013
173085|A||Vehovszky,A., A. Farkas, A. Acs, O. Stoliar, A. Szekacs, M. Mortl, and J. Gyori|Neonicotinoid Insecticides Inhibit Cholinergic Neurotransmission in a Molluscan (Lymnaea stagnalis) Nervous System|Aquat. Toxicol.167:172-179|2015|10.1016/j.aquatox.2015.08.009
173086|T||Wang,X., Z. Xiang, X. Yan, H. Sun, Y. Li, and C. Pan|Dissipation Rate and Residual Fate of Thiamethoxam in Tobacco Leaves and Soil Exposed to Field Treatments|Bull. Environ. Contam. Toxicol.91(2): 246-250|2013|10.1007/s00128-013-1043-2
173088|T||Zarzecka,K., M. Gugala, and I. Mystkowska|Glycoalkaloid Contents in Potato Leaves and Tubers as Influenced by Insecticide Application|Plant Soil Environ.59:183-188|2013|10.17221/763/2012-PSE
173089|T||Stamm,M.D.|Effects of Neonicotinoid Seed Treatments on Soybean Aphid Feeding Behavior and Gene Expression in Soybean|Ph.D. Thesis, University of Nebraska, Lincoln, NE:146 p.|2014|
173090|A||Fodor,M.|The Metabolism of Carassius auratus gibelio Bloch Species Intoxicated with Xenobiotics (Pesticide, Thiamethoxam)|An. Univ. Craiova Biol. Hortic. Tecnol. Prelucr. Prod. Agric. Ing. Med.18:479-484|2013|
173091|T||Dann,P.R., A.G. Thomas, R.B. Cunningham, and P.H.R. Moore|Response by Wheat, Rape, and Field Peas to Pre-Sowing Herbicides and Deep Tillage|Aust. J. Exp. Agric.27(3): 431-437|1987|10.1071/EA9870431
173092|T||West,A.M., R.J. Richardson, A.P. Gardner, and S.T. Hoyle|Bushkiller (Cayratia japonica) Response to Selected Herbicides|Invasive Plant Sci. Manag.4(1): 73-77|2011|10.1614/IPSM-D-10-00038.1
173093|T||Yanniccari,M., C. Istilart, D.O. Gimenez, and A.M. Castro|Effects of Glyphosate on the Movement of Assimilates of two Lolium perenne L. Populations with Differential Herbicide Sensitivity|Environ. Exp. Bot.82(0): 14-19|2012|10.1016/j.envexpbot.2012.03.006
173094|T||Henry,G.|Best Management Practices for the Conversion of Established Bermudagrass to Buffalograss|Hortscience48:67-|2013|
173095|T||Hu,T., S. He, G. Yang, H. Zeng, G. Wang, Z. Chen, and X. Huang|Isolation and Characterization of a Rice Glutathione S-Transferase Gene Promoter Regulated by Herbicides and Hormones|Plant Cell Rep.30:539-549|2011|10.1007/s00299-010-0964-z
173096|T||Das,M., J.R. Reichman, G. Haberer, G. Welzl, F.F. Aceituno, M.T. Mader, L.S. Watrud, T.G. Pfleeger, R.A. Gutierrez, A.R|A Composite Transcriptional Signature Differentiates Responses Towards Closely Related Herbicides in Arabidopsis thaliana and Brassica napus|Plant Mol. Biol.72:545-556|2010|10.1007/s11103-009-9590-y
173097|T||Hulet,A., B.A. Roundy, and B. Jessop|Crested Wheatgrass Control and Native Plant Establishment in Utah|Rangeland Ecol. Manag.63(4): 450-460|2010|10.2111/REM-D-09-00067.1
173098|T||Lojka,B., P.H. Cepkova, L. Navratilova, P. Van Damme, J. Banout, Z. Polesny, and D. Preininger|Methods for Short-Term Control of Imperata Grass in Peruvian Amazon|J. Agric. Rural Develop. Trop. Subtrop.112(1): 37-43|2011|
173099|T||Love,J.P., and J.T. Anderson|Seasonal Effects of Four Control Methods on the Invasive Morrow's Honeysuckle (Lonicera morrowii) and Initial Responses of Understory Plants in a Southwestern Pennsylvania Old Field|Restor. Ecol.17(4): 549-559|2009|10.1111/j.1526-100X.2008.00421.x
173100|T||Man,R., J.A. Rice, L. Freeman, and S. Stuart|Effects of Pre- and Post-Harvest Spray with Glyphosate and Partial Cutting on Growth and Quality of Aspen Regeneration in a Boreal Mixedwood Forest|For. Ecol. Manag.262(7): 1298-1304|2011|10.1016/j.foreco.2011.06.031
173101|T||Marushia,R.G., M.W. Cadotte, and J.S. Holt|Phenology as a Basis for Management of Exotic Annual Plants in Desert Invasions|J. Appl. Ecol.47(6): 1290-1299|2010|10.1111/j.1365-2664.2010.01881.x
173102|T||Cruz-Hipolito,H., M.D. Osuna, A. Heredia, J.P. Ruiz-Santaella, and R. De Prado|Nontarget Mechanisms Involved in Glyphosate Tolerance Found in Canavalia ensiformis Plants|J. Agric. Food Chem.57:4844-4848|2009|10.1021/jf9003253
173103|T||Cruz-Hipolito,H., A. Rojano-Delgado, J.A. Dominguez-Valenzuela, A. Heredia, M.D.L. De Castro, and R. De Prado|Glyphosate Tolerance by Clitoria ternatea and Neonotonia wightii Plants Involves Differential Absorption and Translocation of the Herbicide|Plant Soil347(1/2): 221-230|2011|10.1007/s11104-011-0840-9
173104|T||Damgaard,C., B. Strandberg, S.K. Mathiassen, and P. Kudsk|The Combined Effect of Nitrogen and Glyphosate on the Competitive Growth, Survival and Establishment of Festuca ovina and Agrostis capillaris|Agric. Ecosyst. Environ.142(3/4): 374-381|2011|10.1016/j.agee.2011.06.008
173105|T||Busi,R., and S.B. Powles|Evolution of Glyphosate Resistance in a Lolium rigidum Population by Glyphosate Selection at Sublethal Doses|Heredity (Edinb.)103:318-325|2009|10.1038/hdy.2009.64
173106|T||Baldwin,C.M., A.D. Brede, and J.J. Mayer|'JS501' and 'Replay' Perennial Ryegrass Glyphosate Tolerance and Rates Required for Annual Bluegrass (Poa annua L.) Control|Hortscience47(7): 932-935|2012|10.21273/HORTSCI.47.7.932
173107|T||Scheufele,L.S.|Factors Affecting Glyphosate Control of Horseweed (Conyza canadensis) and Hairy Fleabane (Conyza bonariensis)|M.S. Thesis, California State University, Fresno, CA:97 p.|2009|
173108|A||Bowman,J.H.|Acute Toxicity of SC-0224 4LC-E to Rainbow Trout (Salmo gairdneri)|Final Report 35638. ABC Laboratories, Missouri, Stauffer Chemcial Company:6 p. |1987|
173109|T||Caviglia,A.M., P. Nicora, P. Giordani, G. Brunialti, and P. Modenesi|Oxidative Stress and Usnic Acid Content in Parmelia caperata and Parmelia soredians (Lichenes)|Farmaco (Pavia) (Multiple Languages)56(5-7): 379-382|2001|10.1016/S0014-827X(01)01090-4
173110|T||Baltazar,M.T., R.J. Dinis-Oliveira, M.D. Bastos, J.A. Duarte, and F. Carvalho|Lysine Acetylsalicylate Improves the Safety of Paraquat Formulation in Rats by Increasing Its Elimination and Preventing Lung and Kidney Injury|Toxicol. Res. (Oxf.)3(4): 266-277|2014|
173112|AT||Hirata,K., S. Yoshitomi, S. Dwi, O. Iwabe, A. Mahakhant, J. Polchai, and K. Miyamoto|Bioactivities of Nostocine A Produced by a Freshwater Cyanobacterium Nostoc spongiaeforme TISTR 8169|J. Biosci. Bioeng.95(5): 512-517|2003|10.1016/S1389-1723(03)80053-1
173113|A||Hirata,K., S. Yoshitomi, S. Dwi, O. Iwabe, A. Mahakant, J. Polchai, and K. Miyamoto|Generation of Reactive Oxygen Species Undergoing Redox Cycle of Nostocine A: A Cytotoxic Violet Pigment Produced by Freshwater Cyanobacterium Nostoc spongiaeforme|J. Biotechnol.110(1): 29-35|2004|10.1016/j.jbiotec.2003.12.014
173114|T||Doker,I., M.L. Pappas, K. Samaras, A. Triantafyllou, C. Kazak, and G.D. Broufas|Compatibility of Reduced-Risk Insecticides with the Non-Target Predatory Mite Iphiseius degenerans (Acari: Phytoseiidae)|Pest Manag. Sci.71(9): 1267-1273|2015|10.1002/ps.3921
173115|T||Carcamo,H.A., C.E. Herle, and N.Z. Lupwayi|Sitona lineatus (Coleoptera: Curculionidae) Larval Feeding on Pisum sativum L. Affects Soil and Plant Nitrogen|J. Insect Sci.15(1): 5 p.|2015|10.1093/jisesa/iev055
173116|T||Yu,R.X., Y.H. Wang, X.Q. Hu, S.G. Wu, L.M. Cai, and X.P. Zhao|Individual and Joint Acute Toxicities of Selected Insecticides Against Bombyx mori (Lepidoptera: Bombycidae)|J. Econ. Entomol.109(1): 327-333|2016|10.1093/jee/tov316
173117|T||Kandel,Y.R., K.A. Wise, C.A. Bradley, M.I. Chilvers, A.U. Tenuta, and D.S. Mueller|Fungicide and Cultivar Effects on Sudden Death Syndrome and Yield of Soybean|Plant Dis.100(7): 1339-1350|2016|10.1094/PDIS-11-15-1263-RE
173118|T||Clymans,R., K. Vrancken, D. Bylemans, and T. Belien|Side-Effects on Spiders of Plant Protection Products Commonly Used During Spring and Autumn in Belgian Pear Production|Acta Hortic.1094:451-456|2015|10.17660/ActaHortic.2015.1094.59
173119|T||Piiroinen,S., and D. Goulson|Chronic Neonicotinoid Pesticide Exposure and Parasite Stress Differentially Affects Learning in Honeybees and Bumblebees|Proc. R. Soc. Lond. Ser. B Biol. Sci.283:8 p.|2016|
173120|T||Turini,T.A., M. Le Strange, and R.L. Gilbertson|Impact of Variety Selection and Insecticide Programs on Tomato Spotted Wilt Virus Symptom Expression in Central California|Acta Hortic.:59-68|2015|10.17660/ActaHortic.2015.1081.4
173121|T||Yousuf,M., D. Mukherjee, A. Pal, S. Dey, S. Mandal, C. Pal, and S. Adhikari|Synthesis and Biological Evaluation of Ferrocenylquinoline as a Potential Antileishmanial Agent|ChemMedChem10(3): 546-554|2015|10.1002/cmdc.201402537
173123|T||Elmore,C.L., and D.E. Bayer|Mitotic and Structural Effects of Nitralin and Butralin on Ryegrass (Lolium perenne L.) Root Meristems|Weed Res. (Multiple Languages)32:77-86|1992|10.1111/j.1365-3180.1992.tb01864.x
173124|T||Brandt,A., A. Gorenflo, R. Siede, M. Meixner, and R. Buchler|The Neonicotinoids Thiacloprid, Imidacloprid, and Clothianidin Affect the Immunocompetence of Honey Bees (Apis mellifera L.)|J. Insect Physiol.86:40-47|2016|10.1016/j.jinsphys.2016.01.001
173125|T||Huang,L., C.L. Zhao, F. Huang, R.E. Bai, Y.B. Lu, F.M. Yan, and Z.P. Hao|Effects of Imidacloprid and Thiamethoxam as Seed Treatments on the Early Seedling Characteristics and Aphid-Resistance of Oilseed Rape|J. Integr. Agric.14(12): 2581-2589|2015|10.1016/S2095-3119(15)61140-6
173126|T||Derksen,R.C., L.A. Canas, C.M. Ranger, and M.E. Reding|The Effect of Application Method on the Temporal and Spatial Distribution of Neonicotinoid Insecticides in Greehouse Zinnia and Impact on Aphid Populations|Appl. Eng. Agric.31(2): 211-216|2015|
173127|T||Babendreier,D., P. Jeanneret, C. Pilz, and S. Toepfer|Non-Target Effects of Insecticides, Entomopathogenic Fungi and Nematodes Applied Against Western Corn Rootworm Larvae in Maize|J. Appl. Entomol.139:457-467|2015|10.1111/jen.12229
173128|A||Hua,J., N. Buss, J. Kim, S.A. Orlofske, and J.T. Hoverman|Population-Specific Toxicity of Six Insecticides to the Trematode Echinoparyphium sp.|Parasitology143:542-550|2016|10.1017/S0031182015001894
173129|T||Dhungana,S.K., I.D. Kim, H.S. Kwak, and D.H. Shin|Unraveling the Effect of Structurally Different Classes of Insecticide on Germination and Early Plant Growth of Soybean (Glycine max (L.) Merr.)|Pestic. Biochem. Physiol.130:39-43|2016|10.1016/j.pestbp.2015.12.002
173130|T||Difonzo,C.D., M.M. Chludzinski, M.R. Jewett, and F. Springborn|Impact of Western Bean Cutworm (Lepidoptera: Noctuidae) Infestation and Insecticide Treatments on Damage and Marketable Yield of Michigan Dry Beans|J. Econ. Entomol.108(2): 583-591|2015|10.1093/jee/tov037
173131|T||Esser,A.D., I. Milosavljevic, and D.W. Crowder|Effects of Neonicotinoids and Crop Rotation for Managing Wireworms in Wheat Crops|J. Econ. Entomol.108(4): 1786-1794|2015|10.1093/jee/tov160
173132|T||Everett,M., G. Lorenz, N. Slaton, and J. Hardke|Efficacy of Rice Insecticide Seed Treatments at Selected Nitrogen Rates for Control of the Rice Water Weevil (Coleoptera: Curculionidae)|J. Econ. Entomol.108(4): 1757-1769|2015|10.1093/jee/tov129
173133|T||Fernandes,M.E.S., F.M. Alves, R.C. Pereira, L.A. Aquino, F.L. Fernandes, and J.C. Zanuncio|Lethal and Sublethal Effects of Seven Insecticides on Three Beneficial Insects in Laboratory Assays and Field Trials|Chemosphere156:45-55|2016|10.1016/j.chemosphere.2016.04.115
173134|T||Gregorc,A., E.C.M. Silva-Zacarin, S.M. Carvalho, D. Kramberger, E.W. Teixeira, and O. Malaspina|Effects of Nosema ceranae and Thiametoxam in Apis mellifera: A Comparative Study in Africanized and Carniolan Honey Bees|Chemosphere147:328-336|2016|10.1016/j.chemosphere.2015.12.030
173135|T||Jin,N., S. Klein, F. Leimig, G. Bischoff, and R. Menzel|The Neonicotinoid Clothianidin Interferes with Navigation of the Solitary Bee Osmia cornuta in a Laboratory Test|J. Exp. Biol.218:2821-2825|2015|
173136|T||Kessler,S.C., E.J. Tiedeken, K.L. Simcock, S. Derveau, J. Mitchell, S. Softley, J.C. Stout, and G.A. Wright|Bees Prefer Foods Containing Neonicotinoid Pesticides|Nature521:74-76|2015|10.1038/nature14414
173137|T||Myresiotis,C.K., Z. Vryzas, and E. Papadopoulou-Mourkidou|Effect of Specific Plant-Growth-Promoting Rhizobacteria (PGPR) on Growth and Uptake of Neonicotinoid Insecticide Thiamethoxam in Corn (Zea mays L.) Seedlings|Pest Manag. Sci.71:1258-1266|2015|10.1002/ps.3919
173138|T||Reetz,J.E., W. Schulz, W. Seitz, M. Spiteller, S. Zuhlke, W. Armbruster, and K. Wallner|Uptake of Neonicotinoid Insecticides by Water-Foraging Honey Bees (Hymenoptera: Apidae) Through Guttation Fluid of Winter Oilseed Rape|J. Econ. Entomol.109:31-40|2016|10.1093/jee/tov287
173139|T||Macedo,P.E.F., L.A. Maffia, L.V. Cota, V.,Jr. Lourenco, and E.S.G. Mizubuti|Sensitivity of Four Isolates of Clonostachys rosea to Pesticides Used in the Strawberry Crop in Brazil|J. Pestic. Sci. (Multiple Languages)37(4): 333-337|2012|10.1584/jpestics.D11-055
173140|T||Joseph,S.V., I. Grettenberger, and L. Godfrey|Insecticides Applied to Soil of Transplant Plugs for Bagrada hilaris (Burmeister) (Hemiptera: Pentatomidae) Management in Broccoli|Crop Prot.87:68-77|2016|10.1016/j.cropro.2016.04.023
173141|T||Jerkovic,Z., Z. Prijic, R. Jevtic, and M. Lalosevic|Interaction of Two Neonicotinoid Insecticides and Lr Genes Focusing Wheat Growth and Residues|Plant Prot. Sci.51(2): 108-113|2015|10.17221/35/2014-PPS
173142|T||Afifi,M., E. Lee, L. Lukens, and C. Swanton|Thiamethoxam as a Seed Treatment Alters the Physiological Response of Maize (Zea mays) Seedlings to Neighbouring Weeds|Pest Manag. Sci.71:505-514|2015|10.1002/ps.3789
173143|T||Afifi,M., E. Lee, L. Lukens, and C. Swanton|Maize (Zea mays) Seeds can Detect Above-Ground Weeds; Thiamethoxam Alters the View|Pest Manag. Sci.71:1335-1345|2015|10.1002/ps.3936
173144|T||Bhattacherjee,A.K., and A. Dikshit|Dissipation Kinetics and Risk Assessment of Thiamethoxam and Dimethoate in Mango|Environ. Monit. Assess.188(165): 6 p.|2016|
173145|T||Bredeson,M.M., and J.G. Lundgren|Thiamethoxam Seed Treatments have no Impact on Pest Numbers or Yield in Cultivated Sunflowers|J. Econ. Entomol.108(6): 2665-2671|2015|10.1093/jee/tov249
173146|T||Christen,V., F. Mittner, and K. Fent|Molecular Effects of Neonicotinoids in Honey Bees (Apis mellifera)|Environ. Sci. Technol.50:4071-4081|2016|10.1021/acs.est.6b00678
173147|T||Minton,B.W., S.A. Senseman, J.T. Cothren, J.M. Chandler, and J.W. Wells|Cotton Response to CGA-362622 Applied Alone and in Combination with Selected Insecticides|Weed Technol.19(2): 244-250|2005|10.1614/WT-04-213R
173148|T||Lim,U.T., and A.M.A. Mahmoud|Ecotoxicological Effect of Fenitrothion on Trissolcus nigripedius (Hymenoptera: Scelionidae) an Egg Parasitoid of Dolycoris baccarum (Hemiptera: Pentatomidae)|J. Asia Pac. Entomol.11(4): 207-210|2008|10.1016/j.aspen.2008.09.004
173149|T||Li,W., P. Zhang, J. Zhang, W. Lin, Y. Lu, and Y. Gao|Acute and Sublethal Effects of Neonicotinoids and Pymetrozine on an Important Egg Parasitoid, Trichogramma ostriniae (Hymenoptera: Trichogrammatidae)|Biocontrol Sci. Technol.25(2): 121-131|2015|10.1080/09583157.2014.957163
173150|T||Kocsis,L., and R. Andor|Efficacy of Pesticides on Grape Phylloxera Populations In Vitro and In Situ|Acta Hortic.1045:33-36|2014|10.17660/ActaHortic.2014.1045.4
173151|A||Van den Brink,P.J., J.M. Van Smeden, R.S. Bekele, W. Dierick, D.M. De Gelder, M. Noteboom, and I. Roessink|Acute and Chronic Toxicity of Neonicotinoids to Nymphs of a Mayfly Species and Some Notes on Seasonal Differences|Environ. Toxicol. Chem.35(1): 128-133|2016|10.1002/etc.3152
173152|AT||Uragayala,S., V. Verma, E. Natarajan, P.S. Velamuri, and R. Kamaraju|Adulticidal & Larvicidal Efficacy of Three Neonicotinoids Against Insecticide Susceptible & Resistant Mosquito Strains|Indian J. Med. Res.142:64-70|2015|10.4103/0971-5916.176624
173153|T||Thompson,H., M. Coulson, N. Ruddle, S. Wilkins, and S. Harkin|Thiamethoxam: Assessing Flight Activity of Honeybees Foraging on Treated Oilseed Rape Using Radio Frequency Identification Technology|Environ. Toxicol. Chem.35(2): 385-393|2016|10.1002/etc.3183
173154|T||Thompson,H.M., S. Wilkins, S. Harkin, S. Milner, and K.F.A. Walters|Neonicotinoids and Bumblebees (Bombus terrestris): Effects on Nectar Consumption in Individual Workers|Pest Manag. Sci.71:946-950|2015|10.1002/ps.3868
173156|T||Rahmani,S., and A.R. Bandani|Sublethal Concentrations of Thiamethoxam Adversely Affect Life Table Parameters of the Aphid Predator, Hippodamia variegata (Goeze) (Coleoptera: Coccinellidae)|Crop Prot.54:168-175|2013|10.1016/j.cropro.2013.08.002
173157|T||Rahmani,S., A.R. Bandani, and Q. Sabahi|Population Statistics and Biological Traits of Hippodamia variegata (Goeze) (Coleoptera: Coccinellidae) Affected by LC30 of Thiamethoxam and Pirimicarb|Arch. Phytopathol. Plant Prot.46(15): 1839-1847|2013|10.1080/03235408.2013.779072
173159|T||Elston,C., H.M. Thompson, and K.F.A. Walters|Sub-Lethal Effects of Thiamethoxam, a Neonicotinoid Pesticide, and Propiconazole, a DMI Fungicide, on Colony Initiation in Bumblebee (Bombus terrestris) Micro-Colonies|Apidologie44(5): 563-574|2013|10.1007/s13592-013-0206-9
173160|A||Carraschi,S.P., R. Barbuio, C.V. Ikefuti, T. Florencio, C. Da Cruz, and M.J.T. Ranzani-Paiva|Effectiveness of Therapeutic Agents in Disease Treatment in Piaractus mesopotamicus|Aquaculture431:124-128|2014|10.1016/j.aquaculture.2013.12.026
173161|T||Catae,A.F., T.C. Roat, R.A. De Oliveira, R.C.F. Nocelli, and O. Malaspina|Cytotoxic Effects of Thiamethoxam in the Midgut and Malpighian Tubules of Africanized Apis mellifera (Hymenoptera: Apidae)|Microsc. Res. Tech.77:274-281|2014|10.1002/jemt.22339
173162|T||Ciglar,I., and B. Baric|Monitoring the Appearance and Possibility for Prevention of the Apple Sawfly in Croatia|Anz. Schaedlingskd.75(2): 41-45|2002|10.1046/j.1439-0280.2002.02013.x
173163|T||Costa,M.A., V.F. Moscardini, P.C. Gontijo, G.A. Carvalho, R.L. Oliveira, and H.N. Oliveira|Sublethal and Transgenerational Effects of Insecticides in Developing Trichogramma galloi (Hymenoptera: Trichogrammatidae): Toxicity of Insecticides to Trichogramma galloi|Ecotoxicology23(8): 1399-1408|2014|10.1007/s10646-014-1282-y
173164|A||Georgieva,E., S. Stoyanova, I. Velcheva, and V. Yancheva|Histopathological Alterations in Common Carp (Cyprinus carpio L.) Gills Caused by Thiamethoxam|Braz. Arch. Biol. Technol.57(6): 991-996|2014|10.1590/S1516-8913201402582
173166|T||McHenry,W.B., L.L. Buschmann, and N.L. Smith|Seasonal Response of Hardstem Bulrush to MSMA, Pyriclor, 2,4-D and Dalapon + TCA|Res. Prog. Rep. West. Soc. Weed Sci.:92-|1968|
173167|T||Hamlet,S.A., M. Djekoun, M. Smati, A. Semassel, S.D. Bensoltane, and H. Berrebbah|Histopathological Effects of Neonicotinoid Insecticide in the Hepatopancreas of Terrestrial Gastropod Helix aspersa|Fresenius Environ. Bull.23(12): 3041-3047|2014|
173168|A||Hua,J., D.K. Jones, B.M. Mattes, R.D. Cothran, R.A. Relyea, and J.T. Hoverman|Evolved Pesticide Tolerance in Amphibians: Predicting Mechanisms Based on Pesticide Novelty and Mode of Action|Environ. Pollut.206:56-63|2015|10.1016/j.envpol.2015.06.030
173169|T||Ko,K., Y.D. Liu, M. Hou, D. Babendreier, F. Zhang, and K. Song|Toxicity of Insecticides Targeting Rice Planthoppers to Adult and Immature Stages of Trichogramma chilonis (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.108(1): 69-76|2015|10.1093/jee/tou053
173170|T||Oliveira,R.A., T.C. Roat, S.M. Carvalho, and O. Malaspina|Side-Effects of Thiamethoxam on the Brain and Midgut of the Africanized Honeybee Apis mellifera (Hymenopptera: Apidae)|Environ. Toxicol.29:1-12|2014|10.1002/tox.21842
173171|T||Moscardini,V.F., P.C. Gontijo, J.P. Michaud, and G.A. Carvalho|Sublethal Effects of Chlorantraniliprole and Thiamethoxam Seed Treatments when Lysiphlebus testaceipes Feed on Sunflower Extrafloral Nectar|Biocontrol59:503-511|2014|10.1007/s10526-014-9588-5
173173|T||Macedo,W.R., G.M. Fernandes, R.A. Possenti, G.R. Lambais, and P. Castro|Responses in Root Growth, Nitrogen Metabolism and Nutritional Quality in Brachiaria with the Use of Thiamethoxam|Acta Physiol. Plant.35(1): 205-211|2013|10.1007/s11738-012-1064-1
173174|T||Moffat,C., J.G. Pacheco, S. Sharp, A.J. Samson, K.A. Bollan, J. Huang, S.T. Buckland, and C.N. Connolly|Chronic Exposure to Neonicotinoids Increases Neuronal Vulnerability to Mitochondrial Dysfunction in the Bumblebee (Bombus terrestris)|FASEB J.29:2112-2119|2015|10.1096/fj.14-267179
173175|T||Larsen,R.J., and D.E. Falk|Effects of a Seed Treatment with a Neonicotinoid Insecticide on Germination and Freezing Tolerance of Spring Wheat Seedlings|Can. J. Plant Sci.93:535-540|2013|10.4141/cjps2012-127
173176|T||Saeed,R., M. Razaq, and I.C.W. Hardy|Impact of Neonicotinoid Seed Treatment of Cotton on the Cotton Leafhopper, Amrasca devastans (Hemiptera: Cicadellidae), and Its Natural Enemies|Pest Manag. Sci.72:1260-1267|2016|10.1002/ps.4146
173177|T||Koppel,A.L., D.A.,Jr. Herbert, T.P. Kuhar, S. Malone, and M. Arrington|Efficacy of Selected Insecticides Against Eggs of Euschistus servus and Acrosternum hilare (Hemiptera: Pentatomidae) and the Egg Parasitoid Telenomus podisi (Hymenoptera: Scelionidae)|J. Econ. Entomol.104:137-142|2011|10.1603/EC10222
173178|T||McCornack,B.P., and D.W. Ragsdale|Efficacy of Thiamethoxam to Suppress Soybean Aphid Populations in Minnesota Soybean|Crop Manag.5(1): 8 p.|2006|10.1094/CM-2006-0915-01-RS
173179|T||Saad,A.S.A., M.A. Massoud, A.A.M. Abdel-Megeed, N.A. Hamid, A.K.K. Mourad, and A.S.T. Barakat|Abamectin, Pymetrozine and Azadirachtin Sequence as a Unique Solution to Control the Leafminer Liriomyza trifolii (Burgess) (Diptera: Agromyzidae) Infesting Garden Beans (Phaseolus vulgaris L.) in Egypt|Commun. Agric. Appl. Biol. Sci.72(3): 583-593|2007|
173180|T||Karmakar,R., R. Bhattacharya, and G. Kulshrestha|Comparative Metabolite Profiling of the Insecticide Thiamethoxam in Plant and Cell Suspension Culture of Tomato|J. Agric. Food Chem.57(14): 6369-6374|2009|10.1021/jf9008394
173181|T||Vankosky,M.A., H.A. Carcamo, R.H. Mckenzie, and L.M. Dosdall|Integrated Management of Sitona lineatus with Nitrogen Fertilizer, Rhizobium, and Thiamethoxam Insecticide|Agron. J.103(3): 565-572|2011|10.2134/agronj2010.0314
173182|T||Koppenhofer,A.M., R.S. Cowles, E.A. Cowles, E.M. Fuzy, and H.K. Kaya|Effect of Neonicotinoid Synergists on Entomopathogenic Nematode Fitness|Entomol. Exp. Appl.106(1): 7-18|2003|10.1046/j.1570-7458.2003.00008.x
173183|T||Hoshi,N., T. Hirano, T. Omotehara, J. Tokumoto, Y. Umemura, Y. Mantani, T. Tanida, K. Warita, Y. Tabuchi, T. Yokoyama, |Insight into the Mechanism of Reproductive Dysfunction Caused by Neonicotinoid Pesticides|Biol. Pharm. Bull.37(9): 1439-1443|2014|10.1248/bpb.b14-00359
173184|T||Carcamo,H., C. Herle, and V. Hervet|Greenhouse Studies of Thiamethoxam Effects on Pea Leaf Weevil, Sitona lineatus|J. Insect Sci.12(151): 12 p.|2012|10.1673/031.012.15101
173185|T||Douglas,M.R., J.R. Rohr, and J.F. Tooker|Neonicotinoid Insecticide Travels Through a Soil Food Chain, Disrupting Biological Control of Non-Target Pests and Decreasing Soya Bean Yield|J. Appl. Ecol.52:250-260|2015|10.1111/1365-2664.12372
173186|T||Krupke,C.H., G.J. Hunt, B.D. Eitzer, G. Andino, and K. Given|Multiple Routes of Pesticide Exposure for Honey Bees Living Near Agricultural Fields|PLoS One7(1): 8 p.|2012|10.1371/journal.pone.0029268
173187|T||Moscardini,V.F., P.C. Gontijo, J.P. Michaud, and G.A. Carvalho|Sublethal Effects of Insecticide Seed Treatments on Two Nearctic Lady Beetles (Coleoptera: Coccinellidae)|Ecotoxicology24(5): 1152-1161|2015|10.1007/s10646-015-1462-4
173189|T||Ravaneli,G.C., L.L. Madaleno, L.E. Presotti, M.A. Mutton, and M.J.R. Mutton|Spittlebug Infestation in Sugarcane Affects Ethanolic Fermentation|Sci. Agric. (Piracicaba, Braz. )63(6): 534-539|2006|10.1590/S0103-90162006000600004
173190|T||Sechser,B., and J. Freuler|The Impact of Thiamethoxam on Bumble Bee Broods (Bombus terrestris L.) Following Drip Application in Covered Tomato Crops|Anz. Schaedlingskd.76(3): 74-77|2003|10.1046/j.1439-0280.2003.03017.x
173191|T||Singh,S.B., and G. Kulshrestha|Residues of Thiamethoxam and Acetamaprid, Two Neonicotinoid Insecticides, in/on Okra Fruits (Abelmoschus esculentus L.)|Bull. Environ. Contam. Toxicol.75(5): 945-951|2005|10.1007/s00128-005-0841-6
173192|T||Slosser,J.E., M.N. Parajulee, D.L. Hendrix, T.J. Henneberry, and D.R. Rummel|Relationship Between Aphis gossypii (Homoptera: Aphididae) and Sticky Lint in Cotton|J. Econ. Entomol.95(2): 299-306|2002|10.1603/0022-0493-95.2.299
173193|T||Stoetzer,A., J. Kawakami, A.L.,Jr. Marsaro, D. Lau, P. Pereira, N. Antoniazzi, and P.R.V.S. Pereira|Protective Effect and Economic Impact of Insecticide Application Methods on Barley|Pesqui. Agropecu. Bras. (Multiple Languages)49(3): 153-162|2014|10.1590/S0100-204X2014000300001
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173201|T||Anjum,F., and D. Wright|Relative Toxicity of Insecticides to the Crucifer Pests Plutella xylostella and Myzus persicae and Their Natural Enemies|Crop Prot.88:131-136|2016|10.1016/j.cropro.2016.06.002
173202|T||Fisara,P., R.M. Sargent, M. Shipstone, A. Von Berky, and J. Von Berky|An Open, Self-Controlled Study on the Efficacy of Topical Indoxacarb for Eliminating Fleas and Clinical Signs of Flea-Allergy Dermatitis in Client-Owned Dogs in Queensland, Australia|Vet. Dermatol.25(3): 195-198|2014|10.1111/vde.12132
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173204|T||Wei,Q., H.Y. Yu, C.D. Niu, R. Yao, S.F. Wu, Z. Chen, and C.F. Gao|Comparison of Insecticide Susceptibilities of Empoasca vitis (Hemiptera: Cicadellidae) from Three Main Tea-Growing Regions in China|J. Econ. Entomol.108(3): 1251-1259|2015|10.1093/jee/tov063
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173787|T||Rallos,L.E.E.|Characterizing Resistance of the Grapevine Powdery Mildew Erysiphe necator to Fungicides Belonging to Quinone Outside Inhibitors and Demethylation Inhibitors|Ph.D. Thesis, Virginia Polytechnic Institute and State University:146 p.|2012|
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174067|T||Khan,S.U.|Studies on Bound 14C-Prometryn Residues in Soil and Plants|Chemosphere11(8): 771-795|1982|10.1016/0045-6535(82)90107-2
174068|A||Rotter,S., H. Heilmeier, R. Altenburger, and M. Schmitt-Jansen|Multiple Stressors in Periphyton - Comparison of Observed and Predicted Tolerance Responses to High Ionic Loads and Herbicide Exposure|J. Appl. Ecol.50(6): 1459-1468|2013|10.1111/1365-2664.12146
174069|T||Stone,C.L.|The Interaction of Selenium and Lead in the Japanese Quail, Coturnix coturnix japonica|M.S.Thesis, University of Maryland, College Park, MD:141 p.|1974|
174070|T||Gilardi,G., M.L. Gullino, and A. Garibaldi|Effect of Fungicides and of Biocontrol Agents Against Powdery Mildew of Turnip|Commun. Agric. Appl. Biol. Sci.73(2): 21-29|2008|
174072|T||Areskog,M., A. Engstrom, J. Tallkvist, G. Samson-Himmelstjerna, and J. Hoglund|PGP Expression in Cooperia oncophora Before and After Ivermectin Selection|Parasitol. Res.112(8): 3005-3012|2013|10.1007/s00436-013-3473-5
174074|T||McFadden,J.R.|The Effect of Selenium Intoxication on Glucose Catabolism|Ph.D.Thesis, Purdue University, West Lafayette, IN:109 p.|1971|
174075|T||Toy-Manning,P.A.|Evaluation of Selenium Toxicity on Cellular Metabolism:  Effects of Selenite and Selenomethionine|Ph.D. Thesis, The Ohio State University, Columbus, OH:170 p.|1980|
174076|T||Waldridge,B.M.|The Effect of Subcutaneous Selenium Administration on Whole Blood Selenium and Glutathione Peroxidase in Llamas|M.S.Thesis, Auburn University, Auburn, AL:68 p.|1996|
174077|T||Forster,B., A. Boxall, A. Coors, J. Jensen, M. Liebig, L. Pope, T. Moser, and J. Rombke|Fate and Effects of Ivermectin on Soil Invertebrates in Terrestrial Model Ecosystems|Ecotoxicology20(1): 234-245|2011|10.1007/s10646-010-0575-z
174078|T||Schaeffer,J.M., E.G. Fraizier, A.R. Bergstrom, J.M. Williamson, J.M. Liesch, and M.A. Goetz|Cochlioquinone A, a Nematicidal Agent Which Competes for Specific (3H)Ivermectin Binding Sites|J. Antibiot.43(9): 1179-1182|1990|10.7164/antibiotics.43.1179
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174080|T||El-Bagoury,M.E., and E.M. El-Banhawy|Effect of Feeding Treated Prey with Dicofol and Avermectin on the Survival, Reproduction and Development of the Predacious Mite Phytoseius finitimus (Acari, Phytoseiidae)|J. Appl. Entomol.104:35-39|1987|10.1111/j.1439-0418.1987.tb00493.x
174081|T||Park,C.G., M.H. Lee, J.K. Yoo, J.O. Lee, and B.R. Choi|Relative Toxicity of Abamectin to the Predatory Mite Amblyseius womersleyi Schicha (Acari: Phytoseiidae) and Twospotted Spider Mite Tetranychus urticae Koch (Acari: Tetranychidae)|Korean J. Appl. Entomol. (Multiple Languages)34(4): 360-367|1995|
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174083|T||James,C.E., and M.W. Davey|Increased Expression of ABC Transport Proteins is Associated with Ivermectin Resistance in the Model Nematode Caenorhabditis elegans|Int. J. Parasitol.39(2): 213-220|2009|10.1016/j.ijpara.2008.06.009
174084|T||May,W.E., E.N. Johnson, K.L. Sapsford, F.C. Stevenson, G.P. Lafond, C.B. Holzapfel, and F.A. Holm|Tolerance of Annual Canarygrass (Phalaris canariensis L.) to Combinations of MCPA, Clopyralid, Fluroxypyr and Florasulam|Can. J. Plant Sci.94:701-708|2014|10.4141/cjps2013-299
174085|A||Graham,R.V.|A Comparison of the Environmental Cycling and Toxicity of Selenite and Selenomethionine|Ph.D.Thesis, University of Tennessee, Knoxville, TN:216 p.|1992|
174086|T||El-Masry,M.H., D.J. Charles, and J.E. Simon|Bentazon and Terbacil as Postemergent Herbicides for Sweet Basil and Sweet Marjoram|J. Herbs Spices Med. Plants3(3): 19-26|1995|10.1300/J044v03n03_04
174088|T||Singh,R.K., and R.S. Dwivedi|Effect of Herbicides and Insecticides on Viability of Sclerotia of Sclerotium rolfsii Sacc. Causing Foot-Rot Disease of Barley|Acta Bot. Indica18(2): 270-273|1990|
174089|T||Smith,E.M., and S.A. Treaster|Follow-Up Evaluation of Cyanazine, Terbacil and Metolachlor Slow-Release Herbicide Tablets on Woody Landscape Crops|Spec. Circ. Ohio Agric. Res. Dev. Ctr.115:1-2|1988|
174090|T||Borzsonyi,M., Z. Kocsis, A. Pinter, M. Csik, Z. Kelecsenyi, A. Surjan, and G. Torok|Mutagenicity Studies on Terbacil, an Uracil-Analogue Pesticide|Acta Morphol. Hung.35(1/2): 3-8|1987|
174091|T||Ionescu,A.|Herbicide-Induced Changes of Soil Algocenosis|Arch. Hydrobiol.71(3): 471-477|1985|
174092|T||Shawa,A.Y.|Control of False Lily-of-the-Valley (Maianthemum dilatatum) in Cranberries (Vaccinium macrocarpon Ait.)|Acta Hortic.241:350-353|1989|10.17660/ActaHortic.1989.241.60
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174094|T||Roslycky,E.B.|Influence of Terbacil on Microbiota in Soil and Cultures|Can. J. Soil Sci.61(1): 11-17|1981|10.4141/cjss81-002
174095|AT||Devine,J.M., and H.H. Willcox III|Persistence of Dylox Residues in a Forest and Lake Environment|AFRI Res. Rep.10:21-36|1972|
174098|T||Adamovic,D.S., N. Mimica-Dukic, O. Gasic, and V. Macko|Variability of Herbicide Efficiency and Their Effect upon Yield and Quality of Peppermint (Mentha x piperita L.)|Acta Hortic.249:75-80|1989|10.17660/ActaHortic.1989.249.8
174099|T||Richard,E.P.,Jr.|Sugarcane (Saccharum spp. Hybrids) Tolerance to Clomazone|Weed Technol.10(1): 90-94|1996|10.1017/S0890037X00045760
174105|T||Waddington,J.|Effects of Herbicides and Their Application Time on Alfalfa Forage Production|Can. J. Plant Sci.67(3): 849-852|1987|10.4141/cjps87-121
174106|T||Escobar-Ochoa,C.|Study of Chemical and Microbial-Mediated Strategies for Managing Sclerotinia Stem Rot of Soybean (Glycine max L.)|M.S. Thesis, Michigan State University, East Lansing, MI:111 p.|2014|
174107|T||Grabau,Z.J., and S. Chen|Determining the Role of Plant-Parasitic Nematodes in the Corn-Soybean Crop Rotation Yield Effect Using Nematicide Application: I. Corn|Agron. J.108(2): 782-793|2016|10.2134/agronj2015.0431
174108|T||Grabau,Z.J., and S. Chen|Determining the Role of Plant-Parasitic Nematodes in the Corn-Soybean Crop Rotation Yield Effect Using Nematicide Application: II. Soybean|Agron. J.108(3): 1168-1179|2016|10.2134/agronj2015.0432
174109|AT||Pinke,G., J. Csiky, A. Mesterhazy, L. Tari, R.W. Pal, Z. Botta-Dukat, and B. Czucz|The Impact of Management on Weeds and Aquatic Plant Communities in Hungarian Rice Crops|Weed Res. (Multiple Languages)54:388-397|2014|10.1111/wre.12084
174110|A||Yuan,C., Y. Zhang, Y. Liu, T. Zhang, and Z. Wang|Enhanced GSH Synthesis by Bisphenol A Exposure Promoted DNA Methylation Process in the Testes of Adult Rare Minnow Gobiocypris rarus|Aquat. Toxicol.178:99-105|2016|10.1016/j.aquatox.2016.07.015
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174112|A||Lance,E., J. Desprat, B.F. Holbech, C. Gerard, M. Bormans, L.A. Lawton, C. Edwards, and C. Wiegand|Accumulation and Detoxication Responses of the Gastropod Lymnaea stagnalis to Single and Combined Exposures to Natural (Cyanobacteria) and Anthropogenic (the Herbicide RoundUp Flash) Stressors|Aquat. Toxicol.177:116-124|2016|10.1016/j.aquatox.2016.05.024
174113|T||Bond,J.A., T.W. Eubank, R.C. Bond, B.R. Golden, and H.M. Edwards|Glyphosate-Resistant Italian Ryegrass (Lolium perenne ssp. multiflorum) Control with Fall-Applied Residual Herbicides|Weed Technol.28:361-370|2014|10.1614/WT-D-13-00149.1
174114|A||Gandhi,J.S., and K.K. Cecala|Interactive Effects of Temperature and Glyphosate on the Behavior of Blue Ridge Two-Lined Salamanders (Eurycea wilderae)|Environ. Toxicol. Chem.35(9): 2297-2303|2016|10.1002/etc.3398
174115|T||Bashar,M.A., and B. Rai|Effect of Phenolic Compounds on Fusarium oxysporum f. sp. ciceri Causing Wilt of  Chickpea|Dhaka Univ. J. Biol. Sci.6(2): 165-167|1991|
174117|T||Krasavage,W.J., A.M. Blacker, J.C. English, and S.J. Murphy|Hydroquinone: A Developmental Toxicity Study in Rats|Fundam. Appl. Toxicol.18(3): 370-375|1992|10.1016/0272-0590(92)90135-5
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174119|T||Carter,L.J., J.J. Ryan, and A.B.A. Boxall|Effects of Soil Properties on the Uptake of Pharmaceuticals into Earthworms|Environ. Pollut.213:922-931|2016|10.1016/j.envpol.2016.03.044
174120|A||Qiang,L., J. Cheng, J. Yi, J.M. Rotchell, X. Zhu, and J. Zhou|Environmental Concentration of Carbamazepine Accelerates Fish Embryonic Development and Disturbs Larvae Behavior|Ecotoxicology25(7): 1426-1437|2016|10.1007/s10646-016-1694-y
174121|T||Yang,D., J. Zhu, W. Wang, and H. Yao|Evaluation of Genotoxicity of Single and Combined Soil Pollution by Mercury and Bromoxynil on Earthworms (Eisenia fetida)|Fresenius Environ. Bull.22(2a): 614-619|2013|
174122|T||Lund-Hoie,K.|Distribution and Degradation of MCPA in Woody Species and the Influence of Ioxynil or Bromoxynil on These Processes|Meld. Nor. Landbrukshogsk.52(19): 1-15|1973|
174123|T||Nilsson,H.E.|Influence of Herbicides on Take-all and Eyespot Disease of Winter Wheat in a Field Trial|Swed. J. Agric. Res.3(3): 115-118|1973|
174124|T||Friesen,H.A., and D.A. Dew|The Effect of Two Herbicides, Bromoxynil and Dicamba, on Transpiration of Tartary Buckwheat and Barley|Can. J. Plant Sci.47:533-537|1967|10.4141/cjps67-094
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174127|AT||Fukuto,T.R., M.A.H. Fahmy, and R.L. Metcalf|Alkaline Hydrolysis, Acetylcholinesterase and Insecticidal Properties of Some Nitro-Substituted Phenyl Carbamates|J. Agric. Food Chem.15(2): 273-281|1967|10.1021/jf60150a020
174129|T||Keinath,A.P., and V.B. DuBose|Controlling Powdery Mildew on Cucurbit Rootstock Seedlings in the Greenhouse with Fungicides and Biofungicides|Crop Prot.42:338-344|2012|10.1016/j.cropro.2012.06.009
174130|T||Matheron,M.E., and M. Porchas|Efficacy of Fungicides and Rotational Programs for Management of Powdery Mildew on Cantaloupe|Plant Dis.97(2): 196-200|2013|10.1094/PDIS-04-12-0370-RE
174131|A||Shi,J., Y. Yang, J. Zhang, Y. Feng, and B. Shao|Uptake, Depuration and Bioconcentration of Bisphenol AF (BPAF) in Whole-Body and Tissues of Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.132:339-344|2016|10.1016/j.ecoenv.2016.05.025
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174134|T||Petrov,P., and D. Mitev|Effect of Bracken Control and Introduction of Improved Grass Species on Botanical Composition and Yield of Natural Meadow|In:  L.t'Mannetje and J.Frame (Eds.), Grassland and Society, Proceedings of the 15th General Meeting of the European Grassland Fed., Jun. 6-9, 1994, Wageningen:194-196|1994|
174135|T||Bull,D.L.|Environmental Fate of Avermectin|Southwest. Entomol. Suppl.7:2-10|1985|
174136|T||Oliva,J., T. Garde-Cerdan, A.M. Martinez-Gil, M.R. Salinas, and A. Barba|Fungicide Effects on Ammonium and Amino Acids of Monastrell Grapes|Food Chem.129:1676-1680|2011|10.1016/j.foodchem.2011.06.030
174137|T||Liu,W.T., G.H. Yuan, L. Du, W.L. Guo, L.X. Li, Y.L. Bi, and J.X. Wang|A Novel Pro197glu Substitution in Acetolactate Synthase (ALS) Confers Broad-Spectrum Resistance Across ALS Inhibitors|Pestic. Biochem. Physiol.117:31-38|2015|10.1016/j.pestbp.2014.10.005
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174142|T||Zheljazkov,V., B. Yankov, and V. Topalov|Effect of Mechanical and Chemical Weed Control on the Growth, Development and Productivity of Mentha piperita and M. arvensis var. piperascens Grown for Planting Material|J. Essent. Oil Res.8(2): 171-176|1996|10.1080/10412905.1996.9700585
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174146|T||Genez,A.L., and T.J. Monaco|Metabolism of Terbacil in Strawberry (Fragaria x ananassa) and Goldenrod (Solidago fistulosa)|Weed Sci.31(2): 221-225|1983|10.1017/S0043174500068867
174147|A||Wei,L., W.W. Shao, G.H. Ding, X.L. Fan, M.L. Yu, and Z.H. Lin|Acute and Joint Toxicity of Three Agrochemicals to Chinese Tiger Frog (Hoplobatrachus chinensis) Tadpoles|Zool. Res.35(4): 272-279|2014|
174148|T||Daniel,G.H.|Terbacil as a Residual Herbicide for Mentha spicata|Proc. Br. Crop Prot. Conf. Weeds13(2): 549-555|1976|
174149|T||Boydston,R.A., and K. Al-Khatib|DC X2-5309 Organosilicone Adjuvant Improves Control of Kochia (Kochia scoparia) with Bentazon and Bromoxynil|Weed Technol.8(1): 99-104|1994|10.1017/S0890037X00039270
174150|T||Mallory-Smith,C.|Bromoxynil-Resistant Common Groundsel (Senecio vulgaris)|Weed Technol.12:322-324|1998|10.1017/S0890037X00043888
174151|T||Oksanen,A., and S. Nikander|Ivermectin as a Bird Anthelmintic - Trials with Naturally Infected Domestic Fowl|J. Vet. Med. Ser. B36(7): 495-499|1989|10.1111/j.1439-0450.1989.tb00635.x
174152|T||Yarborough,D.E.|Evaluation of Preemergence Herbicides for Grass Suppression in Lowbush Blueberry Fields|Proc. Annu. Meet. Northeast. Weed Sci. Soc.43:152-155|1989|
174154|T||Lankas,G.R., D.H. Minsker, and R.T. Robertson|Effects of Ivermectin on Reproduction and Neonatal Toxicity in Rats|Food Chem. Toxicol.27(8): 523-529|1989|10.1016/0278-6915(89)90048-3
174155|T||El-Nahas,A.F., and I.M. El-Ashmawy|Effect of Ivermectin on Male Fertility and Its Interaction with P-Glycoprotein Inhibitor (Verapamil) in Rats|Environ. Toxicol. Pharmacol.26(2): 206-211|2008|10.1016/j.etap.2008.03.011
174156|T||Celik-Ozenci,C., A. Tasatargil, M. Tekcan, L. Sati, E. Gungor, M. Isbir, and R. Demir|Effects of Abamectin Exposure on Male Fertility in Rats: Potential Role of Oxidative Stress-Mediated Poly(Adp-Ribose) Polymerase (Parp) Activation|Regul. Toxicol. Pharmacol.61(3): 310-317|2011|10.1016/j.yrtph.2011.09.001
174157|T||Diab,T.M., H.H. Mansour, and S.S. Mahmoud|Fasciola gigantica: Parasitological and Scanning Electron Microscopy Study of the In Vitro Effects of Ivermectin and/or Artemether|Exp. Parasitol.124:279-284|2010|10.1016/j.exppara.2009.10.013
174158|A||Shimmen,T.|Unique Cellular Effect of the Herbicide Bromoxynil Revealed by Electrophysiological Studies Using Characean Cells|J. Plant Res.123(5): 715-722|2010|10.1007/s10265-009-0297-6
174159|T||Follak,S., and K. Hurle|Recovery of Non-Target Plants Affected by Airborne Herbicides|Meded. Fac. Landbouwwet. Univ. Gent67(3): 451-463|2002|
174160|T||Ester,A., A. Darwinkel, H.W.G. Floot, and J.H. Nijenstein|Control of Field Slugs Deroceras reticulatum in Winter Wheat Using Seeds Treated with Pesticides|BCPC Monogr. - Br. Crop Prot. Counc.66:165-172|1996|
174161|T||Smitley,D.R., and T.W. Davis|European Chafer Larvae Control, Michigan, 1992|Insectic. Acaric. Tests18:343-344|1993|
174162|T||Redak,R.A., and J.A. Bethke|Control of the Sweetpotato Whitefly on Poinsettia Using Soil Treatments, Summer 1992|Insectic. Acaric. Tests18:338-339|1993|
174163|T||Pound,J.M., J.A. Miller, and D.D. Oehler|Depletion Rates of Injected and Ingested Ivermectin from Blood Serum of Penned White-Tailed Deer, Odocoileus virginianus (Zimmermann) (Artiodactyla: Cervidae)|J. Med. Entomol.41(1): 65-68|2004|10.1603/0022-2585-41.1.65
174164|T||Wicks,S.R., B. Kaye, A.J. Weatherley, D. Lewis, E. Davison, S.P. Gibson, and D.G. Smith|Effect of Formulation on the Pharmacokinetics and Efficacy of Doramectin|Vet. Parasitol.49(1): 17-26|1993|10.1016/0304-4017(93)90219-D
174165|T||Iglesias,J., J. Castillejo, and A. Ester|Laboratory Evaluation of Potential Molluscicides for the Control of Eggs of the Pest Slug Deroceras reticulatum (Muller) (Pulmonata: Limacidae)|Int. J. Pest Manag.48(1): 19-23|2002|10.1080/09670870110062553
174166|T||Kawanishi,C.Y., P. Hartig, K.L. Bobseine, J. Schmid, M. Cardon, G. Massenburg, and N. Chernoff|Axial Skeletal and Hox Expression Domain Alterations Induced by Retinoic Acid, Valproic Acid, and Bromoxynil During Murine Development|J. Biochem. Mol. Toxicol.17(6): 346-356|2003|10.1002/jbt.10098
174167|T||Tomilova,O.G., V.Y. Kryukov, B.A. Duisembekov, O.N. Yaroslavtseva, M.V. Tyurin, N.A. Kryukova, V. Skorokhod, I.M. Dubov|Immune-Physiological Aspects of Synergy Between Avermectins and the Entomopathogenic Fungus Metarhizium robertsii in Colorado Potato Beetle Larvae|J. Invertebr. Pathol.140:8-15|2016|10.1016/j.jip.2016.08.008
174168|T||Omar,S.A., and M.A. Abdel-Sater|Microbial Populations and Enzyme Activities in Soil Treated with Pesticides|Water Air Soil Pollut.127(1-4): 49-63|2001|10.1023/A:1005209516845
174169|T||Perumalla,C.J., and M.C. Heath|The Effect of Inhibitors of Various Cellular Processes on the Wall Modifications Induced in Bean Leaves by the Cowpea Rust Fungus|Physiol. Mol. Plant Pathol.38(4): 293-300|1991|10.1016/S0885-5765(05)80120-1
174170|T||Takai,K., T. Suzuki, and K. Kawazu|Development and Preventative Effect Against Pine Wilt Disease of a Novel Liquid Formulation of Emamectin Benzoate|Pest Manag. Sci.59:365-370|2003|10.1002/ps.651
174171|T||Redak,R.A., and J.A. Bethke|Control of the Sweetpotato Whitefly on Poinsettia Using Soil Treatments and a Parasitoid, Summer 1992|Insectic. Acaric. Tests18:339-|1993|10.1093/iat/18.1.339
174172|T||Kobylinski,K.C., B.D. Foy, and J.H. Richardson|Ivermectin Inhibits the Sporogony of Plasmodium falciparum in Anopheles gambiae|Malar. J.11(381): 9 p.|2012|
174173|T||Smitley,D.R., T.W. Davis, and K.A. Kearns|Japanese Beetle Control on Containerized Taxus Plants, Michigan, 1992|Insectic. Acaric. Tests18:352-|1993|10.1093/iat/18.1.352
174174|T||Smitley,D.R., and T.W. Davis|Fletcher Scale Control on Taxus, Michigan, 1992|Insectic. Acaric. Tests18:351-352|1993|
174175|T||Goolsby,J.A., R. Zonneveld, and A. Bourne|Prerelease Assessment of Impact on Biomass Production of an Invasive Weed, Lygodium microphyllum (Lygodiaceae: Pteridophyta), by a Potential Biological Control Agent, Floracarus perrepae (Acariformes: Eriophyidae)|Environ. Entomol.33(4): 997-1002|2004|10.1603/0046-225X-33.4.997
174176|T||Smitley,D.R., and T.W. Davis|Ant Control on a Golf Course Fairway, 1996|Arthropod Manag. Tests22:391-|1997|10.1093/amt/22.1.391
174177|T||Yang,D., J. Zhu, R. Fu, W. Wang, X. Guo, Z. Wang, and H. Yao|Enchytraeidae Fridericia bulbosa as a New Test Species for Soil Ecotoxicity Assessment|Chemosphere88(4): 501-506|2012|10.1016/j.chemosphere.2012.03.007
174178|T||Chernoff,N., J.M. Rogers, C.I. Turner, and B.M. Francis|Significance of Supernumerary Ribs in Rodent Developmental Toxicity Studies: Postnatal Persistence in Rats and Mice|Fundam. Appl. Toxicol.17(3): 448-453|1991|10.1016/0272-0590(91)90196-B
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174184|T||Bhutani,V.P., and H.S. Bhatia|The Effect of Herbicides and Nitrogen on Leaf Nutrient Status of Santa Rosa Plum|In:  T.R.Chadha (Ed.), Advances in Research on Temperate Fruits, March 15-18, 1984, Solan, India:199-202|1986|
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174186|T||Shternshis,M.V., A.A. Beljaev, T.V. Shpatova, J.V. Bokova, and A.B. Duzhak|Field Testing of Bacticide, Phytoverm and Chitinase for Control of the Raspberry Midge Blight in Siberia|Biocontrol47:697-706|2002|10.1023/A:1020574914831
174187|T||Yi,C.G., T.T. Hieu, S.H. Lee, B.R. Choi, M. Kwon, and Y.J. Ahn|Toxicity of Lavandula angustifolia Oil Constituents and Spray Formulations to Insecticide-Susceptible and Pyrethroid-Resistant Plutella xylostella and Its Endoparasitoid Cotesia glomerata|Pest Manag. Sci.72:1202-1210|2016|10.1002/ps.4098
174189|T||Ferracini,C., and A. Alma|How to Preserve Horse Chestnut Trees from Cameraria ohridella in the Urban Environment|Crop Prot.27(9): 1251-1255|2008|10.1016/j.cropro.2008.03.009
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174195|T||Shaver,B.R., P. Agudelo, and S.B. Martin|Use of Abamectin and Azoxystrobin for Managing Stubby-Root Nematode (Trichodorus obtusus Cobb) Damage to Zoysiagrass|Crop Sci.56:1330-1336|2016|10.2135/cropsci2015.08.0528
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174203|T||Kerns,D.L., M. Maurer, and T. Tellez|Efficacy of Insecticides to Citrus Peel Miner Larvae on Grapefruit, 1996|Arthropod Manag. Tests22:59-|1997|10.1093/amt/22.1.59
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174205|T||Liu,Y.Q., B. Liu, A. Ali, S.P. Luo, Y.H. Lu, and G.M. Liang|Insecticide Toxicity to Adelphocoris lineolatus (Hemiptera: Miridae) and its Nymphal Parasitoid Peristenus spretus (Hymenoptera: Braconidae)|J. Econ. Entomol.108(4): 1779-1785|2015|10.1093/jee/tov144
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174207|T||Rethwisch,M.D.|Jojoba Thrips Control, 1989|Insectic. Acaric. Tests16:1|1991|10.1093/iat/16.1.1
174208|T||Johnson,J.W., and J.C. Wise|Pears Residual Control of Pear Rust Mite, 1990|Insectic. Acaric. Tests17:53-54|1992|10.1093/iat/17.1.53
174209|A||U.S.Department of the Interior|Agricultural Irrigation Drainwater Studies in Support of the San Joaquin Valley Drainage Program|U.S. Department of the Interior, Fish and Wildlife Service:309 p.|1990|
174210|T||Lachance,M.W., D.G. Pfeiffer, and L.F. Ponton|Apple, Midseason Mite Control, 1990|Insectic. Acaric. Tests16:21-22|1991|10.1093/iat/16.1.21
174211|T||Burts,E.|Pear Agri-Mek Timing Study, Wenatchee 1991|Insectic. Acaric. Tests17:1|1992|
174212|A||Andrews,M.|Arthropod Parasites of Cultured Striped Trumpeter, Latris lineata (Forster, 1801), and Potential Treatments|Ph.D Thesis, University of Tasmania, Hobart, Australia:97 p.|2010|
174213|T||Burts,E.|Pear, Agri-Mek Timing Study, Orondo,1991|Insectic. Acaric. Tests17:43-44|1992|
174214|T||Ma,Y.N., X.J. Yang, L. Pan, Z. Hou, H.L. Geng, X.P. Song, L. Zhou, and F. Miao|Synthesis of 2-Aryl-3,4-Dihydroisoquinolin-2-Ium Bromides and Their In Vitro Acaricidal Activity Against Psoroptes cuniculi|Chem. Pharm. Bull. (Tokyo)61(2): 204-211|2013|10.1248/cpb.c12-00876
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174216|T||Van der Merwe,J.S., F.J. Smit, A.M. Durand, L.P. Kruger, and L.M. Michael|Acaricide Efficiency of Amitraz/Cypermethrin and Abamectin Pour-on Preparations in Game|Onderstepoort J. Vet. Res.72(4): 309-314|2005|10.4102/ojvr.v72i4.180
174217|T||Johnson,J.W., and J.C. Wise|Pear, Summer Control of Pear Psylla and Pear Rust Mite, 1992|Insectic. Acaric. Tests18:62-63|1993|10.1093/iat/18.1.62
174218|T||Miao,F., X.J. Yang, Y.N. Ma, F. Zheng, X.P. Song, and L. Zhou|Structural Modification of Sanguinarine and Chelerythrine and Their In Vitro Acaricidal Activity Against Psoroptes cuniculi|Chem. Pharm. Bull.60(12): 1508-1513|2012|10.1248/cpb.c12-00618
174219|T||Bozzatto,V., P.R. De Oliveira, and M.I. Camargo-Mathias|Histopathology of the Tegument of Rabbits Infested by Rhipicephalus sanguineus (Acari: Ixodidae) Ticks and Exposed to Selamectin (Active Principle of Acaricide Revolution, Pfizer)|Parasitol. Res.112(7): 2551-2560|2013|10.1007/s00436-013-3422-3
174220|T||Hara,A.H.|Effects of Certain Insecticides on Liriomyza trifolii (Burgess) (Diptera:  Agromyzidae) and Its Parasitoids on Chrysanthemums in Hawaii|Proc. Hawaiian Entomol. Soc.26:65-70|1986|
174221|T||Grosman,D.M., C.J. Fettig, C.L. Jorgensen, and A.S. Munson|Effectiveness of Two Systemic Insecticides for Protecting Western Conifers from Mortality Due to Bark Beetle Attack|West. J. Appl. For.25(4): 181-185|2010|10.1093/wjaf/25.4.181
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174227|T||Gover,J., and L. Strong|Determination of the Toxicity of Faeces of Cattle Treated with an Ivermectin Sustained-Release Bolus and Preference Trials Using a Dung Fly, Neomyia cornicina|Entomol. Exp. Appl.81(2): 133-139|1996|10.1111/j.1570-7458.1996.tb02025.x
174228|T||Bowman,D.D., S. Kato, and E.A. Fogarty|Effects of an Ivermectin Otic Suspension on Egg Hatching of the Cat Ear Mite, Otodectes cynotis, In Vitro|Vet. Ther.2:311-316|2001|
174229|T||Kumar,P., M. Whitten, G. Thoeming, C. Borgemeister, and H.M. Poehling|Effects of Bio-Pesticides on Eretmocerus warrae (Hym., Aphelinidae), a Parasitoid of Bemisia tabaci (Hom., Aleyrodidae)|J. Appl. Entomol.132:605-613|2008|10.1111/j.1439-0418.2008.01282.x
174230|T||Smith,A., N.J. Smith, and K.M. Smith|Effect of Abamectin on Citrus Rust Mite Phyllocoptruta oleivora and Brown Citrus Rust Mite Tegolophus australis and the Scale Natural Enemies Aphytis lingnanensis and Chilocorus circumdatus on Oranges|Plant Prot. Q.13:136-139|1998|
174231|T||Pang,S., S.Z. Qi, Z.J. Ran, X.Y. Song, X.F. Li, C.J. Wang, and L.S. Duan|Synergistic Effect of gamma-Aminobutyric Acid with Avermectin on Bombyx mori|J. Food Agric. Environ.11:1022-1024|2013|
174232|T||Miller,R.W.|Use of Ivermectin to Control the Lesser Mealworm (Coleoptera: Tenebrionidae) in a Simulated Poultry Broiler House|Poult. Sci.69:1281-1284|1990|10.3382/ps.0691281
174233|T||Hull,L.A.|Pear Seasonal Insecticide Evaluation of Pear Psylla, 1996|Arthropod Manag. Tests22:34-35|1997|10.1093/amt/22.1.34
174234|T||Auvil,T.D., T.R. Schmidt, I. Hanrahan, F. Castillo, J.R. McFerson, and G. Fazio|Evaluation of Dwarfing Rootstocks in Washington Apple Replant Sites|Acta Hortic.:265-271|2011|10.17660/ActaHortic.2011.903.33
174235|T||Bogoescu,M., M. Doltu, D. Sora, and N. Tanasa|Greenhouse Grafting Cucumber Crop - Methyl Bromide Alternative in Romania|Acta Hortic.:129-134|2010|10.17660/ActaHortic.2010.883.14
174236|T||Brown,G., and D. Jennings|The Effect of Calcium Hydroxide Pre-Plant Soil Treatment on Apple Replant Disease|Acta Hortic.:505-512|2012|10.17660/ActaHortic.2012.933.66
174238|T||Ceustermans,A., E. Van Wambeke, and J. Coosemans|Efficacy of Chemical Alternatives for Methyl Bromide in Lettuce Production:  Field Experiment|Acta Hortic.:135-143|2010|10.17660/ActaHortic.2010.883.15
174239|T||Chalanska,A., C. Slusarski, Z. Ulinski, E. Malusa, J. Ciesielska, B. Meszka, and P. Sobiczewski|The Effectiveness of Grafting and Soil Fumigation on the Performance of Greenhouse Tomatoes|Acta Hortic.:263-268|2014|10.17660/ActaHortic.2014.1044.32
174240|T||Arbona,R.J.R., N.S. Lipman, and F.R. Wolf|Treatment and Eradication of Murine Fur Mites: III. Treatment of a Large Mouse Colony with Ivermectin-Compounded Feed|J. Am. Assoc. Lab. Anim. Sci.49:633-637|2010|
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174243|T||De Cal,A., A. Sztejnberg, P. Sabuquillo, and P. Melgarejo|Management Fusarium Wilt on Melon and Watermelon by Penicillium oxalicum|Biol. Control51:480-486|2009|10.1016/j.biocontrol.2009.08.011
174244|T||Earlywine,D.T., R.J. Smeda, T.C. Teuton, C.E. Sams, and X. Xiong|Evaluation of Oriental Mustard (Brassica juncea) Seed Meal for Weed Suppression in Turf|Weed Technol.24:440-445|2010|10.1614/WT-D-09-00058.1
174245|T||Gallo,M., F. Ciccarese, and N. Sasanelli|Control of Pyrenochaeta lycopersici and Meloidogyne incognita on Tomato by Eco-Compatible Treatments|Acta Hortic.:341-344|2011|10.17660/ActaHortic.2011.914.62
174246|T||Eo,J., and K.C. Park|Effects of Dazomet on Soil Organisms and Recolonisation of Fumigated Soil|Pedobiologia (Multiple Languages)57:147-154|2014|10.1016/j.pedobi.2014.01.008
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174249|T||Giraud,D., L.J. Riddle, C.E. Anderson, and B.B. Westerdahl|New Products to Improve Growth of Field Grown Easter Lily Bulbs|Acta Hortic.:333-337|2011|10.17660/ActaHortic.2011.900.42
174250|T||Yee,W.L., P.S. Chapman, and L.K. Tanigoshi|Alternative Fumigants to Methyl Bromide for Killing Pupae and Preventing Emergence of Apple Maggot Fly (Diptera: Tephritidae)|J. Entomol. Sci.48(1): 36-42|2013|10.18474/0749-8004-48.1.36
174251|T||Hoyle,J.A., J.S. Mcelroy, and J.J. Rose|Weed Control Using an Enclosed Thermal Heating Apparatus|Weed Technol.26:699-707|2012|10.1614/WT-D-12-00057.1
174252|T||Kaskavalci,C.|Effects of Soil Solarization and Organic Amendment Treatments for Controlling Meloidogyne incognita in Tomato Cultivars in Western Anatolia|Turk. J. Agric. For.31:159-167|2007|
174253|T||Lopez-Aranda,J.M., S. Urbina, G. Castella, J.F. Estrada, and M.A. Cotero|Large Plot Demonstrations for Methyl Bromide Alternatives on Strawberry in Baja California, Mexico|Acta Hortic.:415-422|2012|10.17660/ActaHortic.2012.926.58
174254|A||Bayliff,W.H., and E.F. Klima|Live-Box Experiments with Anchovetas, Cetengraulis mysticetus, in the Gulf of Panama|Bull. Inter-Am. Trop. Tuna Comm.6(8): 114 p.|1962|
174255|T||Subramanian,R., G.R.K. Murthy, and P.V. Sarma|Control of Paddy Stemborer Tryporyza incertulas Wlk. with a Phenyl Carbamate Insecticide|Pestology5(1): 22-24|1981|
174256|T||Sarma,P.V., V.K. Sharma, U. Bahadur, and K.B. Chakravarti|Evaluation of Phenyl Carbamate Insecticides for the Control of Mango Hopper Idioscopus spp.|Pestology5(11): 13-14|1981|
174257|T||Sharma,V.K., P.V. Sarma, U. Bahadur, and K.B. Chakrabarti|Comparative Efficacy of Phenyl Carbamate Insecticides Against Sugarcane Leafhopper Pyrilla perpusilla Wlk.|Pestology5(3): 22-23|1981|
174258|AT||Lord,S.|The Interactions of Pesticides with Free-Living Protozoa|Ph.D. Thesis, University of Bath, United Kingdom:488 p.|1986|
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174263|T||Jansen,J.P., and G.S.Y. Gomez|A Large Field Trial to Assess the Short-Term and Long-Term Effects of 5 Insecticides Used to Control the Pollen Beetle on Parasitic Hymenoptera in Oilseed Rape|IOBC-WPRS Bull.103:9-16|2014|
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174268|T||Sandberg,G.|Application of Growth Regulators in Aqueous Media and Organic Solvents to Seeds of Picea abies and Pinus sylvestris|Scand. J. For. Res.3(1): 97-105|1988|10.1080/02827588809382499
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174281|A||National Toxicology Program (NTP)|NTP Technical Report on the Carcinogenesis Studies of 2,2-bis(Bromomethyl)-1,3-Propanediol, Nitromethane, and 1,2,3-Trichloropropane (CAS Nos. 3296-90-0, 75-52-5, and 96-18-4) in Guppies (Poecilia reticulata) and Medaka|Natl. Toxicol. Program Tech. Rep. Ser.528:190 p.|2005|
174282|T||Williams,C.K., and R.J. Moore|Effectiveness and Cost-Efficiency of Control of the Wild Rabbit, Oryctolagus cuniculus (L.), by Combinations of Poisoning, Ripping, Fumigation and Maintenance Fumigation|Wildl. Res.22(3): 253-269|1995|10.1071/WR9950253
174283|T||Mcilwaine,R.S., and J.P. Malone|Effects of Chloropicrin Soil Treatment on the Microflora of Soil and Ryegrass Roots and on Ryegrass Yield|Trans. Br. Mycol. Soc.67(1): 113-120|1976|10.1016/S0007-1536(76)80015-0
174284|T||Carey,W.A.|Fumigation with Chloropicrin, Metham Sodium, and EPTC as Replacements for Methyl Bromide in Southern Pine Nurseries|South. J. Appl. For.24(3): 135-139|2000|10.1093/sjaf/24.3.135
174286|T||Bassallote-Ureba,M.J., M.D. Vela-Delgado, F.J. Macias, C.J. Lopez-Herrera, and J.M. Melero-Vara|Soil Chemical Treatments for the Control of Fusarium Wilt of Carnation in Spain|Acta Hortic.883:175-179|2010|10.17660/ActaHortic.2010.883.20
174288|T||Campbell,S.J., and B.R. Kelpsas|Comparison of Three Soil Fumigants in a Barefoot Conifer Nursery|Tree Plant. Notes39(4): 16-22|1988|
174289|T||Garren,T.R., T.D. Landis, and S.J. Campbell|Methyl Bromide Fumigation of Containers Filled with Growing Media|Gen. Tech. Rep. RM184:43-48|1989|
174290|T||Highley,T.L., and W.E. Eslyn|Using Fumigants to Control Interior Decay in Waterfront Timbers|For. Prod. J.32(2): 32-34|1982|
174291|T||Pecchia,S., A. Franceschini, A. Santori, G. Vannacci, and A. Myrta|Efficacy of Dimethyl Disulfide (DMDS) for the Control of Chrysanthemum Verticillium Wilt in Italy|Crop Prot.93:28-32|2017|10.1016/j.cropro.2016.11.019
174292|T||Angus Chem. Co.|Acute Toxicological Data (Vol. 1) for 1-Nitropropane with Cover Letter Dated 032594|EPA/OTS Doc #86-940000207:177 p.|1994|
174293|T||Halloin,J.M., E.B. Minton, and H.D. Petersen|Fungicide Application to Cottonseed Using Methylene Chloride Carrier|Crop Sci.18(5): 909-910|1978|10.2135/cropsci1978.0011183X001800050063x
174294|T||Muchovej,J.J., and O.D. Dhingra|Dichloromethane and Tetrachloromethane as Fungicide Carriers in Soybean Seeds|Phytopathol. Z. (Multiple Languages)96(1): 87-90|1979|10.1111/j.1439-0434.1979.tb01625.x
174295|T||Rodriguez-Arnaiz,R.|Biotransformation of Several Structurally Related 2B Compounds to Reactive Metabolites in the Somatic w/w+ Assay of Drosophila melanogaster|Environ. Mol. Mutagen.31:390-401|1998|10.1002/(SICI)1098-2280(1998)31:4<390::AID-EM12>3.0.CO;2-7
174296|T||Bloodworth,K.M., D.B. Reynolds, R.H.,Jr. Blackley, and W.F. Bloodworth|Staple (Pyrithiobac) Interactions with Boll Weevil Eradication ULV Applications of Malathion|Proc. Beltwide Cotton Conf.2:1483-1484|2000|
174297|T||Costello,R.W., J.L. Griffin, B.R. Leonard, D.K. Miller, and G.E. Church|Pyrithiobac and Insecticide Coapplication Effects on Cotton Tolerance and Broadleaf Weed and Thrips (Frankliniella spp.) Control|Weed Technol.19(2): 430-436|2005|10.1614/WT-04-191R1
174298|T||Brewer,P.E., and R.E. Wilson|Dichloromethane: Variability in Penetration and Resulting Effects on Seed Germination and CO2 Evoluation|Bot. Gaz.136(2): 216-218|1975|10.1086/336806
174299|T||Vidhyasekaran,P.|The Use of Dichloromethane to Incorporate Fungicides into Rice Seeds for Control of Drechslera oryzae|Seed Sci. Technol.8(3): 357-362|1980|
174300|AT||Shimizu,T., I. Nakayama, T. Nakao, Y. Nezu, and H. Abe|Inhibition of Plant Acetolactate Synthase by Herbicides, Pyrimidinylsalicylic Acids|J. Pestic. Sci. (Multiple Languages)19(1): 59-67|1994|10.1584/jpestics.19.59
174301|T||Shay,J.R.|Seedling Stands of Root Crops as Influenced by Chloropicrin Applications and Status of Benlate for White Mold Control in Beans|Annu. Rep. Annu. Meet. Ore. Hortic. Soc. Meet.66:43-47|1975|
174302|T||Schmidt,E.L., and E.R. Christopherson|Effects of Fumigants on Parenchyma Viability in Red Oak Log Sections|For. Prod. J.47(5): 61-63|1997|
174304|T||Morrell,J.J., S.M. Smith, M.A. Newbill, and R.D. Graham|Reducing Internal and External Decay of Untreated Douglas-Fir Poles: A Field Test|For. Prod. J.36(4): 47-52|1986|
174305|T||Kanampiu,F.K., J.K. Ransom, D. Friesen, and J. Gressel|Imazapyr and Pyrithiobac Movement in Soil and from Maize Seed Coats to Control Striga in Legume Intercropping|Crop Prot.21(8): 611-619|2002|10.1016/S0261-2194(01)00151-X
174306|T||Lamego,F.P., D. Charlson, C.A. Delatorre, N.R. Burgos, and R.A. Vidal|Molecular Basis of Resistance to ALS-Inhibitor Herbicides in Greater Beggarticks|Weed Sci.57(5): 474-481|2009|10.1614/WS-09-056.1
174307|T||Hurst,H.R.|Ivyleaf Morning Glory (Ipomoea hederacea (L.) Jacq.) and Slender Amaranth (Amaranthus viridus L.) Control in BXN Cotton|Proc. Beltwide Cotton Conf.1:852-854|1998|
174308|T||Rowland,C.D.,Jr.|Crop Tolerance to Non-Target and Labeled Herbicide Applications|M.S. Thesis, Mississippi State University, Starkville, MS:72|2000|
174309|T||Askew,S.D.|Ecology, Physiology, and Management of Troublesome Weeds in North Carolina Cotton|Ph.D. Thesis, North Carolina State University, Raleigh, NC:215 p.|2001|
174310|T||Richardson,R.J.|Incorporating the Experimental Herbicide CGA 362622 into Cotton Weed Management Programs in Virginia|Ph.D.Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA:133 p.|2002|
174311|T||Corkern,C.B.|Bromoxynil and Pyrithiobac Weed Control Systems in Transgenic BXN Cotton|Ph.D. Thesis,  Louisiana State University and Agricultural and Mechanical College:83 p.|1999|
174312|T||Lamego,F.P., R.A. Vidal, N.R. Burgos, and L.C. Federizzi|Cross-Resistance of Bidens subalternans to Acetolactate Synthase Inhibitors in Brazil|Weed Res. (Multiple Languages)49(6): 634-641|2009|10.1111/j.1365-3180.2009.00734.x
174313|T||Castellano,M.A., D. Mckay, and W.G. Thies|Ecological Impacts of Using Chloropicrin to Control Laminated Root Rot in Northwest Conifer Forests: Growth and Mycorrhiza Formation of Planted Douglas-Fir Seedlings After Two Growing Seasons|USDA For. Serv. Res. Pap.0(464): 1-4|1993|
174314|T||Sivasithamparam,K., G.C. MacNish, C.S. Fang, and C.A. Parker|Microflora of Soil and Wheat Rhizosphere in a Field Following Fumigation|Aust. J. Soil Res.25(4): 491-498|1987|10.1071/SR9870491
174316|T||Hildebrand,D.M., and G.B. Dinkel|Basamid and Solar Heating Effective for Control of Plant-Parasitic Nematodes at Bessey Nursery, Nebraska|Gen. Tech. Rep. RM167:139-144|1988|
174317|T||W.R.Grace|Primary Eye Irritation Study of Nitromethane in New Zealand White Rabbits with Cover Letter Dated 060989|EPA/OTS Doc #86-890000306:|1989|
174318|T||Dow Chemical Co.|Telone C-17 Soil Fungicide and Nematicide: Acute Oral Toxicity Study in Fischer 344 Rats (Final Report) with Cover Letter Dated 102688|EPA/OTS Doc #86-890000016:33 p.|2000|
174319|T||Burke,I.C., S.C. Troxler, J.W. Wilcut, and W.D. Smith|Purple and Yellow Nutsedge (Cyperus rotundus and C. esculentus) Response to Postemergence Herbicides in Cotton|Weed Technol.22(4): 615-621|2008|10.1614/WT-07-183.1
174321|T||Corbett,J.L., S.D. Askew, W.E. Thomas, and J.W. Wilcut|Weed Efficacy Evaluations for Bromoxynil, Glufosinate, Glyphosate, Pyrithiobac, and Sulfosate|Weed Technol.18:443-453|2004|10.1614/WT-03-139R
174322|T||Damalas,C.A.|Pyrithiobac Reduces Control of Green Foxtail (Setaria viridis) and Bristly Foxtail (Setaria verticillata) by Propaquizafop|Crop Prot.28(7): 616-618|2009|10.1016/j.cropro.2009.03.004
174323|T||Dotray,P.A., J.W. Keeling, C.G. Henniger, and J.R. Abernathy|Palmer Amaranth (Amaranthus palmeri) and Devil's-Claw (Proboscidea louisianica) Control in Cotton (Gossypium hirsutum) with Pyrithiobac|Weed Technol.10(1): 7-12|1996|10.1017/S0890037X00045632
174324|T||Faircloth,W.H., M.G. Patterson, C.D. Monks, and W.R. Goodman|Weed Management Programs for Glyphosate-Tolerant Cotton (Gossypium hirsutum)|Weed Technol.15(3): 544-551|2001|10.1614/0890-037X(2001)015[0544:WMPFGT]2.0.CO;2
174325|T||Ghosheh,H.Z., E.P. Prostko, C.H. Tingle, and J.M. Chandler|Simulated Pyrithiobac Drift Effects on Corn (Zea mays) and Grain Sorghum (Sorghum bicolor)|Crop Prot.21(7): 529-532|2002|10.1016/S0261-2194(01)00136-3
174326|T||Grey,T.L., A. MacRae, and A.S. Culpepper|Transplanted Onion Response to Previously Applied Residual Herbicides|Weed Technol.22(3): 477-480|2008|10.1614/WT-08-018.1
174327|T||Harrison,M.A., R.M. Hayes, and T.C. Mueller|Environment Affects Cotton and Velvetleaf Response to Pyrithiobac|Weed Sci.44(2): 241-247|1996|10.1017/S004317450009384X
174328|A||Carmichael,S.N., J.E. Bron, J.B. Taggart, J.H. Ireland, M. Bekaert, S.T.G. Burgess, P.J. Skuce, A.J. Nisbet, K. Gharbi,|Salmon Lice (Lepeophtheirus salmonis) Showing Varying Emamectin Benzoate Susceptibilities Differ in Neuronal Acetylcholine Receptor and GABA-Gated Chloride Channel mRNA Expression|BMC Genomics14:16 p.|2013|10.1186/1471-2164-14-408
174329|T||Richardson,R.J., H.P. Wilson, G.R. Armel, and T.E. Hines|Trifloxysulfuron plus Pyrithiobac Mixtures for Broadleaf Weed Control in Cotton (Gossypium hirsutum)|Weed Technol.20(1): 130-136|2006|10.1614/WT-04-282R.1
174330|T||Jha,P., and J.K. Norsworthy|Influence of Late-Season Herbicide Applications on Control, Fecundity, and Progeny Fitness of Glyphosate-Resistant Palmer Amaranth (Amaranthus palmeri) Biotypes from Arkansas|Weed Technol.26(4): 807-812|2012|10.1614/WT-D-12-00060.1
174331|T||Warrick,B.E.|Antagonism of Over-the-Top Grass Control Materials when Tank Mixed with Staple|Proc. Beltwide Cotton Conf.1:844-846|1998|
174332|T||Johnson,D.H., D.L. Jordan, W.G. Johnson, R.E. Talbert, and R.E. Frans|Nicosulfuron, Primisulfuron, Imazethapyr, and DPX-PE350 Injury to Succeeding Crops|Weed Technol.7(3): 641-644|1993|10.1017/S0890037X00037477
174333|T||Rinaldi,L., S. Pennacchio, V. Musella, M.P. Maurelli, F. La Torre, and G. Cringoli|Helminth Control in Kennels: Is the Combination of Milbemycin Oxime and Praziquantel a Right Choice?|Parasites Vectors8(1): 7 p.|2015|10.1186/s13071-015-0647-2
174334|T||Jordan,D.L., D.H. Johnson, W.G. Johnson, J.A. Kendig, R.E. Frans, and R.E. Talbert|Carryover of DPX-PE350 to Grain Sorghum (Sorghum bicolor) and Soybean (Glycine max) on Two Arkansas Soils|Weed Technol.7(3): 645-649|1993|10.1017/S0890037X00037489
174335|T||Murray,M.W., and J. Schroeder|Response of Nine Cotton Cultivars to Pyrithiobac Treatment|Proc. West. Soc. Weed Sci.50:32-33|1997|
174336|T||Molin,W.T., V.K. Nandula, A.A. Wright, and J.A. Bond|Transfer and Expression of ALS Inhibitor Resistance from Palmer Amaranth (Amaranthus palmeri) to an A. spinosus x A. palmeri Hybrid|Weed Sci.64(2): 240-247|2016|10.1614/WS-D-15-00172.1
174337|T||South,D.B., W.A. Carey, and S. Enebak|Chloropicrin as a Soil Fumigant in Forest Nurseries|For. Chron.73(4): 489-494|1997|10.5558/tfc73489-4
174338|T||Jordan,D.L., R.E. Frans, and M.R. McClelland|Influence of Application Variables on Efficacy of Postemergence Applications of DPX-PE350|Weed Technol.7(3): 619-624|1993|10.1017/S0890037X00037441
174339|T||Tanaka,Y., K.W. Russell, and R.G. Linderman|Fumigation Effect on Soilborne Pathogens, Mycorrhizae, and Growth of Douglas-Fir Seedlings|Gen. Tech. Rep. RM137:147-152|1986|
174340|T||E.I. Du Pont De Nemours|Initial Submission: Oral Toxicity Tests of Ethylene Glycol Dinitrate, Ethylene Glycol Glycolate Dinitrate and Trimethylol-Nitromethane Trinitrate with Cover Letter Dated 10/15/92|EPA/OTS Doc #88-920010600:1 p.|1992|
174341|T||Desaeger,J.A.J., J.E. Eger, A.S. Csinos, J.P. Gilreath, S.M. Olson, and T.M. Webster|Movement and Biological Activity of Drip-Applied 1,3-Dichloropropene and Chloropicrin in Raised Mulched Beds in the Southeastern USA|Pest Manag. Sci.60(12): 1220-1230|2004|10.1002/ps.950
174342|T||Pacheco,J.L., K. Umeda, S.H. Husman, and W.B. Mccloskey|Rotational Crop Response Following Staple Use in Arizona Cotton|Proc. Beltwide Cotton Conf.1:772-775|1997|
174343|T||Jordan,D.L., R.E. Frans, and M.R. McClelland|Cotton (Gossypium hirsutum) Response to DPX-PE350 Applied Postemergence|Weed Technol.7(1): 159-162|1993|10.1017/S0890037X00037052
174344|T||Wang,Q.R., W. Klassen, Z.A. Handoo, A. Abdul-Baki, H.H. Bryan, and Y.C. Li|Influence of Summer Cover Crops on Soil Nematodes in a Tomato Field|Proc. Soil Crop Sci. Soc. Fla.62:86-91|2002|
174345|T||Kendig,J.A., R.L. Nichols, and G.A. Ohmes|Tolerance of Cotton (Gossypium hirsutum) Seedlings to Preemergence and Postemergence Herbicides with Four Modes of Action|Plant Health Prog.:9 p.|2007|
174346|T||Jordan,D.L., R.E. Frans, and M.R. McClelland|Influence of Application Rate and Timing on Efficacy of DPX-PE350 Applied Postemergence|Weed Technol.7(1): 216-219|1993|10.1017/S0890037X00037155
174347|T||Meyer,C.J., J.K. Norsworthy, D.O. Stevenson IV, M.T. Bararpour, R.L. Landry, and B.C. Woolam|Control of Johnsongrass in the Absence of Glyphosate in Midsouth Cotton Production Systems|Weed Technol.29(4): 730-739|2015|10.1614/WT-D-15-00057.1
174348|T||McClelland,M.R., M.C. Smith, and R.E. Frans|Weed Control in Conservation-Tillage Cotton in Arkansas|Ark. Agric. Exp. Stn. Rep. Ser.442:49-55|1995|
174349|T||Mahan,J.R., P.A. Dotray, and G.G. Light|Thermal Dependence of Enzyme Function and Inhibition; Implications for, Herbicide Efficacy and Tolerance|Physiol. Plant. (Multiple Languages)120(2): 187-195|2004|10.1111/j.0031-9317.2004.0255.x
174350|T||Jordan,D., R. Frans, M. McClelland, D. Johnson, A. Kendig, and R. Talbert|Postemergence Broadleaf Weed Control in Cotton with DPX-PE350|Ark. Agric. Exp. Stn. Bull.41(6): 4-5|1992|
174351|T||Dor,E., E. Smirnov, S. Galili, A. Guy, and J. Hershenhorn|Characterization of the Novel Tomato Mutant HRT, Resistant to Acetolactate Synthase-Inhibiting Herbicides|Weed Sci.64(2): 348-360|2016|10.1614/WS-D-15-00207.1
174352|T||Culpepper,A.S., J.T. Flanders, A.C. York, and T.M. Webster|Tropical Spiderwort (Commelina benghalensis) Control in Glyphosate-Resistant Cotton|Weed Technol.18(2): 432-436|2004|10.1614/WT-03-175R
174354|T||Hiremath,R., G.S. Yadahalli, V.G. Yadahalli, B.M. Chittapur, and A.D. Siddapur|Herbicidal Effects: Evaluation of Soil and Crop Health in Cotton|Environ. Ecol.34(4): 1803-1807|2016|
174355|T||Moens,J., L. Tirry, and P. De Clercq|Susceptibility of Cocooned Pupae and Adults of the Parasitoid Microplitis mediator to Selected Insecticides|Phytoparasitica40:5-9|2012|10.1007/s12600-011-0198-9
174356|T||McClelland,M., R. Frans, C. Smith, R. Chavez, and P. Carter|Herbicide Trials on Field Crops, 1994|Ark. Agric. Exp. Stn. Bull.445:1-110|1995|
174357|T||Polavarapu,S., and H. Peng|Evaluation of Insecticides Against Blackheaded Fireworm in Cranberries, 1997|Arthropod Manag. Tests22:53-|1998|10.1093/amt/22.1.53a
174358|T||Scheffer,T.C., and R.D. Graham|Bioassay Appraisal of Vapam and Chloropicrin Fumigant-Treating for Controlling Internal Decay of Douglas-Fir Poles|For. Prod. J.25(6): 50-56|1975|
174359|T||Mardani,A., Q. Sabahi, A. Rasekh, and A. Almasi|Lethal and Sublethal Effects of Three Insecticides on the Aphid Parasitoid, Lysiphlebus fabarum Marshall (Hymenoptera: Aphidiidae)|Phytoparasitica44:91-98|2016|10.1007/s12600-015-0502-1
174360|T||Cahoon,C.W., A.C. York, D.L. Jordan, W.J. Everman, R.W. Seagroves, A.S. Culpepper, and P.M. Eure|Palmer Amaranth (Amaranthus palmeri) Management in Dicamba-Resistant Cotton|Weed Technol.29(4): 758-770|2015|10.1614/WT-D-15-00041.1
174361|T||Burke,I.C., and J.W. Wilcut|Weed Management in Cotton with CGA-362622, Fluometuron, and Pyrithiobac|Weed Technol.18:268-276|2004|10.1614/WT-03-035R
174362|T||Kaloumenos,N.S., V.G. Veletza, A.N. Papantoniou, S.G. Kadis, and I.G. Eleftherohorinos|Influence of Pyrithiobac Application Rate and Timing on Weed Control and Cotton Yield in Greece|Weed Technol.19(1): 207-216|2005|10.1614/WT-04-188
174363|T||Keeling,J.W., C.G. Henniger, and J.R. Abernathy|Effects of DPX PE350 on Cotton (Gossypium hirsutum) Growth, Yield, and Fiber Quality|Weed Technol.7(4): 930-933|1993|10.1017/S0890037X00038021
174364|T||Keeton,A., E.C. Murdock, G.S. Stapleton, and J.E. Toler|Chemical Control Systems for Coffee Senna (Cassia occidentalis) in Cotton (Gossypium hirsutum)|Weed Technol.10(3): 550-555|1996|10.1017/S0890037X00040422
174365|T||Batla,M.A., J.W. Keeling, and P.A. Dotray|Management of Palmer Amaranth (Amaranthus palmeri) in Second-Generation Glyphosate-Resistant Cotton|Texas J. Agric. Nat. Res.23:64-70|2010|
174366|A||Dornelles,M.F., and G.T. Oliveira|Toxicity of Atrazine, Glyphosate, and Quinclorac in Bullfrog Tadpoles Exposed to Concentrations Below Legal Limits|Environ. Sci. Pollut. Res.23:1610-1620|2016|10.1007/s11356-015-5388-4
174368|A||Duan,R.Y., and M.Y. Huang|The Influence of Low-Dose Cadmium on the Laryngeal Microstructure and Ultrastructure of Pelophylax nigromaculata|Environ. Sci. Pollut. Res.23:17322-17331|2016|10.1007/s11356-016-6942-4
174369|T||Sunderland,S.L., and H.D. Coble|Differential Tolerance of Moringglory Species (Ipomoea sp.) to DPX-PE350|Weed Sci.42(2): 227-232|1994|10.1017/S0043174500080322
174370|A||Esperanza,M., M. Seoane, C. Rioboo, C. Herrero, and A. Cid|Early Alterations on Photosynthesis-Related Parameters in Chlamydomonas reinhardtii Cells Exposed to Atrazine: A Multiple Approach Study|Sci. Total Environ.554-555:237-245|2016|10.1016/j.scitotenv.2016.02.175
174371|T||Figueira,F.H., L.M. De Aguiar, and C.E. Da Rosa|Embryo-Larval Exposure to Atrazine Reduces Viability and Alters Oxidative Stress Parameters in Drosophila melanogaster|Comp. Biochem. Physiol. C Toxicol. Pharmacol.191:78-85|2017|10.1016/j.cbpc.2016.09.008
174372|T||Sunderland,S.L., J.D. Burton, H.D. Coble, and E.P. Maness|Physiological Mechanism for Tall Morningglory (Ipomoea purpurea) Resistance to DPX-PE350|Weed Sci.43(1): 21-27|1995|10.1017/S0043174500080772
174373|T||Laplante,J., I. Rajcan, and F.J. Tardif|Multiple Allelic Forms of Acetohydroxyacid Synthase are Responsible for Herbicide Resistance in Setaria viridis|Theor. Appl. Genet.119(4): 577-585|2009|10.1007/s00122-009-1067-5
174374|A||Glisic,B., J. Hrubik, S. Fa, N. Dopudj, R. Kovacevic, and N. Andric|Transcriptional Profiles of Glutathione-S-Transferase Isoforms, Cyp, and AOE Genes in Atrazine-Exposed Zebrafish Embryos|Environ. Toxicol.31:233-244|2016|10.1002/tox.22038
174375|T||Toler,J.E., E.C. Murdock, and A. Keeton|Weed Management Systems for Cotton (Gossypium hirsutum) with Reduced Tillage|Weed Technol.16(4): 773-780|2002|10.1614/0890-037X(2002)016[0773:WMSFCG]2.0.CO;2
174376|A||Gripp,H.S., J.S. Freitas, E.A. Almeida, M.C. Bisinoti, and A.B. Moreira|Biochemical Effects of Fipronil and Its Metabolites on Lipid Peroxidation and Enzymatic Antioxidant Defense in Tadpoles (Eupemphix nattereri: Leiuperidae)|Ecotoxicol. Environ. Saf.136:173-179|2017|10.1016/j.ecoenv.2016.10.027
174377|T||Veletza,V.G., N.S. Kaloumenos, A.N. Papantoniou, S.G. Kadis, and I.G. Eleftherohorinos|Activity, Adsorption, Mobility, and Field Persistence of Pyrithiobac in Three Soils|Weed Sci.53(2): 212-219|2005|10.1614/WS-03-151R2
174378|A||Hu,L.L., L.J. Wu, Y.G. Xue, J.M. Zhu, and H.H. Shi|An Assay to Determine the Sensitive Window of Embryos to Chemical Exposure Using Xenopus tropicalis|J. Appl. Toxicol.36:685-691|2016|10.1002/jat.3200
174379|A||Hu,L.X., G.G. Ying, X.W. Chen, G.Y. Huang, Y.S. Liu, Y.X. Jiang, C.G. Pan, F. Tian, and F.L. Martin|Fourier-Transform Infrared Spectroscopy as a Novel Approach to Providing Effect-Based Endpoints in Duckweed Toxicity Testing|Environ. Toxicol. Chem.36(2): 346-353|2017|10.1002/etc.3534
174381|A||Baert,J.M., F. De Laender, K. Sabbe, and C.R. Janssen|Biodiversity Increases Functional and Compositional Resistance, but Decreases Resilience in Phytoplankton Communities|Ecology97(12): 3433-3440|2016|10.1002/ecy.1601
174382|A||Bai,X., C. Sun, J. Xie, H. Song, Q. Zhu, Y. Su, H. Qian, and Z. Fu|Effects of Atrazine on Photosynthesis and Defense Response and the Underlying Mechanisms in Phaeodactylum tricornutum|Environ. Sci. Pollut. Res.22:17499-17507|2015|10.1007/s11356-015-4923-7
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174388|A||Great Lakes Chemical Corp.|Initial Submission: Letter from Great Lakes Chem Corp to Corp/USEPA Submitting Info re Hexabromocyclododecane and bis(Tribromophenoxy) Ethane w/Attchmts, Dated 2/13/89|EPA/OTS Doc #0001055:203 p.|1994|
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174757|T||Young,R.R., K.J. Morthorpe, P.H. Croft, and H. Nicol|Differential Tolerance of Annual Medics, Nungarin Subterranean Clover and Hedge Mustard to Broadleaf Herbicides|Aust. J. Exp. Agric.32(1): 49-57|1992|10.1071/EA9920049
174758|T||Sandral,G.A., B.S. Dear, J.E. Pratley, and B.R. Cullis|Herbicide Dose Rate Response Curves in Subterranean Clover Determined by a Bioassay|Aust. J. Exp. Agric.37(1): 67-74|1997|10.1071/EA96067
174759|T||Bedmar,F., J. Castano, C. Bacchiani, M. Barcelonna, G.C. Diharce, J. Perdigon, and G. Perez|Evaluation of Herbicides for Weed Control in Phalaris (Phalaris aquatic) Seed Production|Tests Agrochem. Cultiv.16:38-39|1995|
174760|T||Leaden,M.I.|Weed Control in Wheat at Early Growth Stages with Bromoxynil and Diflufenican|Tests Agrochem. Cultiv.11:66-67|1990|
174761|T||Stoddart,G.B., and P.B. Sutton|Wild-Oat (Avena fatua) Control in Cereals in Scotland Using the Development Herbicide FD4026|Crop Prot. North. Britain:49-54|1987|
174762|T||Van Biljon,J.J., K.J. Hugo, and W. Iwanzik|Triasulfuron: A New Broadleaf Herbicide in Wheat and Barley|Appl. Plant Sci.2(2): 49-52|1988|
174763|T||Wilson,B.J., and H.M. Lawson|Seedbank Persistence and Seedling Emergence of Seven Weed Species in Autumn-Sown Crops Following a Single Year's Seeding|Ann. Appl. Biol.120(1): 105-116|1992|10.1111/j.1744-7348.1992.tb03408.x
174764|T||Kudsk,P., and S.K. Mathiassen|Effects of Broadleaf Herbicides on Imazamethabenz-Methyl Performance on Wild Oat (Avena fatua L.)|Weed Res. (Multiple Languages)34(4): 251-263|1994|10.1111/j.1365-3180.1994.tb01993.x
174765|T||O'Sullivan,P.A., and W.H. Vanden Born|Interaction Between Benzoylprop Ethyl, Flamprop Methyl or Flamprop Isopropyl and Herbicides Used for Broadleaved Weed Control|Weed Res. (Multiple Languages)20:53-57|1980|10.1111/j.1365-3180.1980.tb00041.x
174766|T||Doty,S.L., T.Q. Shang, A.M. Wilson, J. Tangen, A.D. Westergreen, L.A. Newman, S.E. Strand, and M.P. Gordon|Enhanced Metabolism of Halogenated Hydrocarbons in Transgenic Plants Containing Mammalian Cytochrome P450 2E1|Proc. Natl. Acad. Sci. U.S.A.97(12): 6287-6291|2000|10.1073/pnas.97.12.6287
174767|T||Fulton,M., and G. Furness|Low Volume Applications of Herbicides Sprayed on to Soil, Crop or Pasture with a Bluff Plate Sprayer|Plant Prot. Q.3(3): 108-111|1988|
174768|T||Ahmad,S., Z.A. Cheema, R.M. Iqbal, and F.M. Kundi|Comparative Study of Different Weedicides for the Control of Broad-Leaved Weeds in Wheat|Sarhad J. Agric.7(1): 1-9|1991|
174769|T||Goldwasser,Y., Y. Kleifeld, S. Golan, A. Bargutti, and B. Rubin|Dissipation of Metham-Sodium from Soil and Its Effect on the Control of Orobanche aegyptiaca|Weed Res. (Multiple Languages)35(6): 445-452|1995|10.1111/j.1365-3180.1995.tb01641.x
174770|T||Singh,D.R., S.U. Ahmad, and K. Kumar|Root Rot of Kochia trichophylla|Indian J. Microbiol.12(4): 213-215|1973|
174771|T||Highley,T.L., and W.E. Eslyn|Evaluation of Fumigants for Control of Decay in Non-Pressure-Treated Southern Pine Timbers   II. Wrapped Timbers|Holzforschung43(5): 355-357|1989|10.1515/hfsg.1989.43.5.355
174772|T||Graham,R.D.|Stopping Internal Decay of Pressure-Treated Douglas-Fir Poles and Piles|Holzforschung31(5): 164-166|1977|10.1515/hfsg.1977.31.5.164
174773|T||Corden,M.E., J.J. Morrell, M.A. Newbill, and R.D. Graham|Fumigant Protection of Untreated Douglas-Fir Posts|Holzforschung42(2): 127-130|1988|10.1515/hfsg.1988.42.2.127
174774|T||Yathom,S., and Y. Ben-Yephet|Control of Rhizoglyphus (Astigmata: Acaridae) Mites by Metham-Sodium Soil Disinfection|Isr. J. Entomol.17(17): 109-114|1983|
174775|T||Guttowa,A.|The Influence of Chemical Contamination of the Natural Environment on the Parasitological Organisms|Wiad. Parazytol.22(4/5): 423-428|1976|
174776|T||Gardner,B.R., and J.L. Troutman|Use of Soil Sterilants to Defoliate and to Terminate Growth of Irrigated Cotton|Agron. J.67(1): 95-97|1975|10.2134/agronj1975.00021962006700010029x
174777|T||Ahrens,J.F., and D.M. Dunbar|Are Herbicides Effective in Control of Pales and Northern Pine Weevils in Christmas Tree Plantations?|Am. Christmas Tree J.19(2): 17-20|1975|
174778|T||Brown,J.E., S.P. Kovach, W.D. Goff, D.G. Himelrick, K.M. Tilt, W.S. Gazaway, L.M. Curtis, and T.W. Tyson|Fumigation and Mulch Affect Yield, Weight, and Quality of 'Pimiento L' Pepper, Capsicum annuum L.|J. Veg. Crop Prod.1(2): 71-80|1995|10.1300/J068v01n02_06
174779|T||Neely,D., and E.B. Himelick|Effects of SMDC on Elm Roots|Plant Dis. Rep.50(7): 473-476|1966|
174780|T||Helsing,G.G., R.D. Graham, and M.A. Newbill|Effectiveness of Fumigants Against Marine Wood-Borers|For. Prod. J.34(6): 61-64|1984|
174781|T||Guttowa,A., and S. Grabiec|Effect of Chronic Action of Sublethal Pesticide Concentrations (Sodium Methyldithiocarbamate- VAPAM) Activity on the Metabolic of Fasciola hepatica (Trematoda) and Triaenophorus nodulosus (Cestoda) Embryos|Bull. Acad. Pol. Sci. Ser. Sci. Biol.22(5): 329-334|1974|
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174788|T||Graham,R.D.|Fumigants can stop Internal Decay of Wood Products|For. Prod. J.23(2): 35-38|1973|
174789|T||Himelrick,D.G., F.M. Woods, W.A.,Jr. Dozier, and J.D. Williams|Soil Fumigation and Soil Solarization in the Annual-Hill Strawberry Plasticulture System|Adv. Strawberry Res.14:69-72|1995|
174790|T||Sparacino,A.C., R. Ferro, N. Riva, D. Ditto, F. Tano, G. Croce, and J.M. Rabasse|Weed Control in Rice with Metham-Sodium|Commun. Agric. Appl. Biol. Sci.71(3a): 815-819|2006|
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174794|A||Zavanella,T., N.P. Zaffaroni, and E. Arias|Evaluation of the Carcinogenic Risk of the Phenoxyherbicide MCPA to an Urodele Amphibian|Ecotoxicol. Environ. Saf.16:114-122|1988|10.1016/0147-6513(88)90024-3
174795|T||Kueh,T.K., and K.L. Khew|Evaluation of Chemicals for the Control of Phytophthora from Piper nigrum|Malays. Agric. J.52(3): 263-272|1980|
174796|T||Buck,D.C., R.D.H. Cohen, and D.A. Christensen|Effects of Various Plant Growth Regulators on the Nutritive Value and Yield of Some Grass Species, Red Clover and Grass-Legume Mixtures|Can. J. Plant Sci.69(2): 465-480|1989|10.4141/cjps89-058
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174798|A||Bisewska,J., E.I. Sarnowska, and Z.H. Tukaj|Phytotoxicity and Antioxidative Enzymes of Green Microalga (Desmodesmus subspicatus) and Duckweed (Lemna minor) Exposed to Herbicides MCPA, Chloridazon and Their Mixtures|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes47(8): 814-822|2012|
174800|T||Lawrence,K.S., S.R. Moore, G.W. Lawrence, and J.R. Akridge|Efficacy of Telone II on Root-Knot Nematodes and Yield in Corn in Southern Alabama, 2009|Plant Dis. Manag. Rep.4:1 p.|2010|
174801|T||Wolcott,M., C. Overstreet, and E. Burris|Cotton Yield Response to Residual Effects of Telone Fumigation|Proc. Beltwide Cotton Conf.:1361-1366|2007|
174802|T||Smith,M.K., J.P. Smith, and G.R. Stirling|Integration of Minimum Tillage, Crop Rotation and Organic Amendments into a Ginger Farming System: Impacts on Yield and Soilborne Diseases|Soil Tillage Res.114(2): 108-116|2011|10.1016/j.still.2011.04.006
174803|T||Ortiz,B.V., C. Perry, D. Sullivan, P. Lu, R. Kemerait, R.F. Davis, A. Smith, G. Vellidis, and R. Nichols|Variable Rate Application of Nematicides on Cotton Fields: A Promising Site-Specific Management Strategy|J. Nematol.44(1): 31-39|2012|
174804|T||Kokalis-Burelle,N., E.N. Rosskopf, and R.D. Hartman|Evaluation of Soil Treatments for Control of Meloidogyne arenaria in Caladium Tubers (Caladium x Hortulanum) and Nematode Susceptibility of Selected Cultivars|Nematropica40(2): 177-189|2010|
174806|T||Leandro,L.F.S., L.M. Ferguson, F.J. Louws, and G.E. Fernandez|Strawberry Growth and Productivity in Fumigated Compared to Compost-Amended Production Systems|Hortscience42(2): 227-231|2007|10.21273/HORTSCI.42.2.227
174807|T||Gazaway,W.S., K.S. Lawrence, and J.R. Akridge|Impact of Selected Cotton Varieties and Telone II on Cotton Production in a Reniform Nematode Infested Field, 2009|Res. Rep. Ser.36:9-|2010|
174808|T||Lawrence,K.S., S.R. Moore, G.W. Lawrence, and J.R. Akridge|Cotton Cultivar Response to Telone II for Reniform Nematode Management in Cotton in South Alabama|Res. Rep. Ser.32:32-9999|2008|
174809|T||Ozores-Hampton,M., R. McSorley, and P.A. Stansly|Effects of Long-Term Organic Amendments and Soil Sanitation on Weed and Nematode Populations in Pepper and Watermelon Crops in Florida|Crop Prot.41:106-112|2012|10.1016/j.cropro.2012.03.017
174810|T||Burris,E., D. Burns, K.S. McCarter, C. Overstreet, M. Wolcott, and E. Clawson|Evaluation of the Effects of Telone II (Fumigation) on Nitrogen Management and Yield in Louisiana Delta Cotton|Precis. Agric.11(3): 239-257|2010|10.1007/s11119-009-9129-x
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174812|T||Makwana,O., L. Ahles, A. Lencinas, O.I. Selmin, and R.B. Runyan|Low-Dose Trichloroethylene Alters Cytochrome P450-2C Subfamily Expression in the Developing Chick Heart|Cardiovasc. Toxicol.13(1): 77-84|2013|10.1007/s12012-012-9180-0
174813|T||Arias,E., R. Maci, and A. Santagostino|Toxicity and Distribution of 2-Methyl-4-Chlorophenoxyacetic Acid (MCPA) in Developing Chick Embryos|Toxicology48(2): 119-125|1988|10.1016/0300-483X(88)90094-7
174814|T||Arias,E.|Sister Chromatid Exchanges in Chick Embryos After Treatment with the Phenoxy Herbicide MCPA|Environ. Mol. Mutagen.19(4): 327-330|1992|10.1002/em.2850190411
174815|T||Catska,V., and J. Vrany|Rhizosphere Mycoflora of Wheat After Foliar Application of Chlorocholine Chloride, Urea and 4-Chloro-2-Methylphenoxyacetic Acid|Folia Microbiol. (Prague)21(4): 268-273|1976|10.1007/BF02876902
174816|T||Klyuchnikov,L.Y., and A.N. Petrova|Effect of Repeated Applications of Herbicides on Soil Microflora|Mikrobiologiya29(2): 177-179|1960|
174817|T||Griffith,G.W., A. Graham, R.G. Woods, G.L. Easton, and H. Halbwachs|Effect of Biocides on the Fruiting of Waxcap Fungi|Fungal Ecol.7:67-69|2014|10.1016/j.funeco.2013.09.004
174818|T||Cornette,R., H. Gotoh, S. Koshikawa, and T. Miura|Juvenile Hormone Titers and Caste Differentiation in the Damp-Wood Termite Hodotermopsis sjostedti (Isoptera, Termopsidae)|J. Insect Physiol.54(6): 922-930|2008|10.1016/j.jinsphys.2008.04.017
174819|T||Holopainen,J.K., E. Kainulainen, and O. Hanninen|Palatability of Herbicide-Treated Maize to the Indian Stick Insect (Carausius morosus)|Agric. Ecosyst. Environ.36(3/4): 191-197|1991|10.1016/0167-8809(91)90016-Q
174820|AT||Way,M.O., A.A. Grigarick, and S.E. Mahr|The Aster Leafhopper (Homoptera: Cicadellidae) in California Rice: Herbicide Treatment Affects Population Density and Induced Infestations Reduce Grain Yield|J. Econ. Entomol.77(4): 936-942|1984|10.1093/jee/77.4.936
174821|T||Badawi,N., A.R. Johnsen, K.K. Brandt, J. Sorensen, and J. Aamand|Protozoan Predation in Soil Slurries Compromises Determination of Contaminant Mineralization Potential|Environ. Pollut.170:32-38|2012|10.1016/j.envpol.2012.06.013
174822|T||Kwiecinska-Poppe,E., P. Kraska, and E. Palys|The Effect of Intercropping on Weed Infestation of a Spring Barley Crop Cultivated in Monoculture|Acta Agrobot. (Multiple Languages)62(1): 163-170|2009|10.5586/aa.2009.019
174823|T||Mithila,J., and J.C. Hall|Comparison of ABP1 Over-Expressing Arabidopsis and Under-Expressing Tobacco with an Auxinic Herbicide-Resistant Wild Mustard (Brassica kaber) Biotype|Plant Sci.169(1): 21-28|2005|10.1016/j.plantsci.2005.02.010
174824|T||Schroder,P.M., and P.J. Stapleton|Reduction in the Seed Reserve of Subterranean Clover Following the Application of 2,4-D Amine, Dicamba, Dicamba Plus MCPA Amine or Glyphosate in Spring|Aust. J. Exp. Agric.32(6): 701-706|1992|10.1071/EA9920701
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174827|T||Tang,W., J. Chen, J. Zhang, and Y. Lu|Seed Germination, Seedling Emergence, and Response to Herbicides of Triquetrous Murdannia (Murdannia triquetra) in Rice|Weed Sci.65(1): 141-150|2017|10.1614/WS-D-16-00048.1
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174832|T||Preston,C., F.C. Dolman, and P. Boutsalis|Multiple Resistance to Acetohydroxyacid Synthase-Inhibiting and Auxinic Herbicides in a Population of Oriental Mustard (Sisymbrium orientale)|Weed Sci.61(2): 185-192|2013|10.1614/WS-D-12-00117.1
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174836|T||Filip,G.M., and L.F. Roth|Stump Injections with Soil Fumigants to Eradicate Armillariella mellea from Young-Growth Ponderosa Pine Killed by Root Rot|Can. J. For. Res.7(2): 226-231|1977|10.1139/x77-032
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174839|T||Odiemah,M., S. Gaspar, and M. Atta|The Influence of Herbicidal Applications on Seed Quality of Winter Wheat|Acta Agron. Hung.37(1/2): 47-54|1988|
174840|T||Lu,C.Y., and T.A. Thorpe|Somatic Embryogenesis and Plantlet Regeneration in Cultured Immature Embryos of Picea glauca|J. Plant Physiol.128(3): 297-302|1987|10.1016/S0176-1617(87)80244-4
174842|T||Damalas,C.A., A.S. Lithourgidis, and I.G. Eleftherohorinos|Echinochloa Species Control in Maize (Zea mays L.) with Sulfonylurea Herbicides Applied Alone and in Mixtures with Broadleaf Herbicides|Crop Prot.34:70-75|2012|10.1016/j.cropro.2011.11.024
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174844|T||Kumar,V., and P. Jha|Influence of Nitrogen Rate, Seeding Rate, and Weed Removal Timing on Weed Interference in Barley and Effect of Nitrogen on Weed Response to Herbicides|Weed Sci.65(1): 189-201|2017|10.1614/WS-D-16-00047.1
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174846|T||Bell,C.E.|Field Evaluation of MKH-6561 for Phalaris minor Control in Durum Wheat|Br. Crop Prot. Conf. Weeds1-3:211-216|1999|
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174851|T||Harvey,G.J.|Low-Volume Application of Herbicides for Control of Rubber Vine|Proc. Aust. Weeds Conf.:45-48|1987|
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174853|T||MacRae,I.C., and M. Alexander|Microbial Degradation of Selected Herbicides in Soil|J. Agric. Food Chem.13(1): 72-76|1965|10.1021/jf60137a021
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174855|T||Guerrero,M.M., P. Guirao, M.C. Martinez-Lluch, J.C. Tello, and A. Lacasa|Soil Fatigue and Its Specificity Towards Pepper Plants in Greenhouses|Spanish J. Agric. Res.12(3): 644-652|2014|10.5424/sjar/2014123-5701
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174859|T||Chroust,K., M. Pavlova, Z. Prokop, J. Mendel, K. Bozkova, Z. Kubat, V. Zajickova, and J. Damborsky|Quantitative Structure-Activity Relationships for Toxicity and Genotoxicity of Halogenated Aliphatic Compounds: Wing Spot Test of Drosophila melanogaster|Chemosphere67:152-159|2007|10.1016/j.chemosphere.2006.09.020
174860|T||Shew,H.D., and P.B. Shoemaker|Effects of Host Resistance and Soil Fumigation on Thielaviopsis basicola and Development of Black Root Rot on Burley Tobacco|Plant Dis.77(10): 1035-1039|1993|10.1094/PD-77-1035
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174862|T||Murillo-Williams,A., T.C. Kaspar, and P. Pedersen|Root Characteristics of Two Soybean Cultivars Grown in Fumigated Fields in Iowa|Crop Sci.50(5): 2037-2045|2010|10.2135/cropsci2009.09.0511
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174903|T||Wu,M., B. Singh, M.T. Wu, D.K. Salunkhe, and G.G. Dull|Effects of Certain Soil Fumigants on Essential Nutritive Components and the Respiratory Rate of Carrot (Daucus carota L.) Roots|Hortscience5(4): 221-222|1970|10.21273/HORTSCI.5.4.221
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174909|T||Thies,W.G., and E.E. Nelson|Control of Phellinus weirii in Douglas-Fir Stumps by the Fumigants Chloropicrin, Allyl Alcohol, Vapam, or Vorlex|Can. J. For. Res.12(3): 528-532|1982|10.1139/x82-082
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174953|A||Hajjar,N.P.|Diflubenzuron Inhibits Chitin Synthesis in Culex pipiens L. Larvae|Mosq. News39:381-384|1979|
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175227|T||Kanga,L.H.B., J. Eason, M. Haseeb, J. Qureshi, and P. Stansly|Monitoring for Insecticide Resistance in Asian Citrus Psyllid (Hemiptera: Psyllidae) Populations in Florida|J. Econ. Entomol.109(2): 832-836|2016|10.1093/jee/tov348
175228|T||Vanhoudt,N., H. Vandenhove, N. Horemans, J. Wannijn, M. Van Hees, J. Vangronsveld, and A. Cuypers|The Combined Effect of Uranium and Gamma Radiation on Biological Responses and Oxidative Stress Induced in Arabidopsis thaliana|J. Environ. Radioact.101(11): 923-930|2010|10.1016/j.jenvrad.2010.06.008
175230|T||Stanley,J.K., J.G. Coleman, S.M. Brasfield, A.J. Bednar, and C.Y. Ang|Environmental Assessment of Depleted Uranium Used in Military Armor-Piercing Rounds in Terrestrial Systems|Environ. Toxicol. Chem.33(6): 1308-1314|2014|10.1002/etc.2551
175231|T||Sheppard,S.C., and G.L. Stephenson|Ecotoxicity of Aged Uranium in Soil Using Plant, Earthworm and Microarthropod Toxicity Tests|Bull. Environ. Contam. Toxicol.88(1): 43-47|2012|10.1007/s00128-011-0442-5
175232|A||Trenfield,M.A., J.C. Ng, B.N. Noller, S.J. Markich, and R.A. Van Dam|Dissolved Organic Carbon Reduces Uranium Bioavailability and Toxicity. 2. Uranium(VI) Speciation and Toxicity to Three Tropical Freshwater Organisms|Environ. Sci. Technol.45(7): 3082-3089|2011|10.1021/es103349a
175233|A||Simon,O., M. Floriani, V. Camilleri, R. Gilbin, and S. Frelon|Relative Importance of Direct and Trophic Uranium Exposures in the Crayfish Orconectes limosus:  Implication for Predicting Uranium Bioaccumulation and Its Associated Toxicity|Environ. Toxicol. Chem.32(2): 410-416|2013|10.1002/etc.2068
175234|A||Simon,O., M. Floriani, I. Cavalie, V. Camilleri, C. Adam, R. Gilbin, and J. Garnier-Laplace|Internal Distribution of Uranium and Associated Genotoxic Damages in the Chronically Exposed Bivalve Corbicula fluminea|J. Environ. Radioact.102(8): 766-773|2011|10.1016/j.jenvrad.2011.04.004
175235|A||Plaire,D., J.P. Bourdineaud, A. Alonzo, V. Camilleri, L. Garcia-Sanchez, C. Adam-Guillermin, and F. Alonzo|Transmission of DNA Damage and Increasing Reprotoxic Effects over Two Generations of Daphnia magna Exposed to Uranium|Comp. Biochem. Physiol. C Toxicol. Pharmacol.158(4): 231-243|2013|10.1016/j.cbpc.2013.09.001
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175240|T||Loffredo,E., and A. Traversa|Soil and Compost Humic Fractions Regulate the Response of Sclerotinia sclerotiorum to Exogenously Added Allelochemical Compounds|Biol. Fertil. Soils50(8): 1281-1290|2014|10.1007/s00374-014-0944-5
175241|T||Lin,Q., S. Chen, Y. Chao, X. Huang, S. Wang, and R. Qiu|Carboxylesterase-Involved Metabolism of Di-n-butyl Phthalate in Pumpkin (Cucurbita moschata) Seedlings|Environ. Pollut.220:421-430|2017|10.1016/j.envpol.2016.09.084
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175260|A||Yang,S., F. Xu, F. Wu, S. Wang, and B. Zheng|Development of PFOS and PFOA Criteria for the Protection of Freshwater Aquatic Life in China|Sci. Total Environ.470/471:677-683|2014|10.1016/j.scitotenv.2013.09.094
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175317|T||Paulson,G.S., L.A. Hull, and D.J. Biddinger|Effect of a Plant Growth Regulator Prohexadione-Calcium on Insect Pests of Apple and Pear|J. Econ. Entomol.98(2): 423-431|2005|10.1093/jee/98.2.423
175318|T||Rayirath,U.P., R.R. Lada, C.D. Caldwell, S.K. Asiedu, K.J. Sibley, and A.D. Adams|CCC and Prohexadione-Ca Enhance Rhizome Growth and Lateral Bud Production in Rhubarb (Rheum rhabarbarum L.)|J. Plant Growth Regul.28(2): 137-146|2009|10.1007/s00344-009-9082-y
175319|T||Carra,B., J.C. Fachinello, E.S. De Abreu, M.S. Pasa, D. Spagnol, M.A. Giovanaz, and C.P. Da Silva|Control of the Vegetative Growth of 'Shinseiki' Pear Trees by Prohexadione Calcium and Root Pruning|Pesqui. Agropecu. Bras. (Multiple Languages)52(3): 177-185|2017|10.1590/s0100-204x2017000300005
175320|T||Pasa,M.S., and T. Einhorn|Prohexadione Calcium on Shoot Growth of 'Starkrimson' Pear Trees|Pesqui. Agropecu. Bras. (Multiple Languages)52(2): 75-83|2017|10.1590/s0100-204x2017000200001
175321|T||Folta,K.M., M.A. Pontin, G. Karlin-Neumann, R. Bottini, and E.P. Spalding|Genomic and Physiological Studies of Early Cryptochrome 1 Action Demonstrate Roles for Auxin and Gibberellin in the Control of Hypocotyl Growth by Blue Light|Plant J.36(2): 203-214|2003|10.1046/j.1365-313X.2003.01870.x
175322|A||Thavara,U., A. Tawatsin, J. Chompoosri, P. Bhakdeenuan, C. Khamsawads, S. Sangkitporn, P. Siriyasatien, P. Asavadachanu|Comparative Field Efficacy of Newly Developed Formulations of Larvicides Against Aedes aegypti (L.) (Diptera: Culicidae)|Southeast Asian J. Trop. Med. Public Health44(5): 753-760|2013|
175323|A||Da Silva,G.N.S., F.T.T. Trindade, F. Dos Santos, G. Gosmann, A.A.E. Silva, and S.C.B. Gnoatto|Larvicidal Activity of Natural and Modified Triterpenoids Against Aedes aegypti (Diptera: Culicidae)|Pest Manag. Sci.72(10): 1883-1887|2016|10.1002/ps.4221
175324|A||Chen,C.D., B. Seleena, Y.F. Chiang, and H.L. Lee|Field Evaluation of the Bioefficacy of Diflubenzuron (Dimilin) Against Container-Breeding Aedes sp. Mosquitoes|Trop. Biomed.25(1): 80-86|2008|
175325|A||Belinato,T.A., and D. Valle|The Impact of Selection with Diflubenzuron, a Chitin Synthesis Inhibitor, on the Fitness of Two Brazilian Aedes aegypti Field Populations|PLoS One10(6): 19 p.|2015|10.1371/journal.pone.0130719
175326|A||Rathburn,C.B.,Jr., and A.H.,Jr. Boike|Laboratory and Small Plot Field Tests of Altosid and Dimilin for the Control of Aedes taeniorhynchus and Culex nigripalpus Larvae|Mosq. News35(4): 540-546|1975|
175327|T||Argauer,R.J., and W.W. Cantelo|Diflubenzuron and BAY SIR 8514 in Mushrooms Grown in Treated Compost or Casing|J. Econ. Entomol.77(2): 462-464|1984|10.1093/jee/77.2.462
175328|T||Freitag,D., I. Scheunert, W. Klein, and F. Korte|Long-Term Fate of 4-Chloroaniline-14C in Soil and Plants Under Outdoor Conditions. A Contribution to Terrestrial Ecotoxicology of Chemicals|J. Agric. Food Chem.32(2): 203-207|1984|10.1021/jf00122a008
175329|T||Miller,R.W., C. Corley, and S.R. Shufelt|Effects of Feeding TH-6040 to Two Breeds of Chickens|J. Econ. Entomol.69(6): 741-743|1976|10.1093/jee/69.6.741
175331|A||Crossley,S.M.G., A.L. George, and C.J. Keller|A Method for Eradicating Amphipod Parasites (Hyperiidae) from Host Jellyfish, Chrysaora fuscescens (Brandt, 1835), in a Closed Recirculating System|J. Zoo Wildl. Med.40(1): 174-180|2009|10.1638/2008-0100.1
175332|A||Suman,D.S., B.D. Parashar, and S. Prakash|Effect of Sublethal Dose of Diflubenzuron and Azadirachtin on Various Life Table Attributes of Culex quinquefasciatus (Diptera: Culicidae)|J. Med. Entomol.47(6): 996-1002|2010|10.1603/ME09190
175333|A||Sharma,V.P., C.P. Batra, and G.D. Brooks|Laboratory and Field Evaluation of a Growth-Regulating Compound (TH-6040) Against Culex pipiens fatigans (Diptera: Culicidae)|J. Med. Entomol.15(5/6): 506-509|1979|10.1093/jmedent/15.5-6.506
175334|AT||Schaefer,C.H., W.H. Wilder, and F.S. Mulligan III|A Practical Evaluation of TH6040 as a Mosquito Control Agent in California|J. Econ. Entomol.68(2): 183-185|1975|10.1093/jee/68.2.183
175335|AT||Miura,T., C.H. Schaffer, R.M. Takahashi, and F.S. Mulligan III|Effects of the Insect Growth Inhibitor, Dimilin, on Hatching of Mosquito Eggs|J. Econ. Entomol.69(5): 655-658|1976|10.1093/jee/69.5.655
175336|A||Sadanandane,C., P.S.B. Doss, and P. Jambulingam|Efficacy of Three Formulations of Diflubenzuron, an Insect Growth Regulator, Against Culex quinquefasciatus Say, the Vector of Bancroftian Filariasis in India|Indian J. Med. Res.136(5): 783-791|2012|
175337|A||Benze,T.P., M.M. Sakuragui, L.H. de Paula Zago, and M.N. Fernandes|Subchronic Exposure to Diflubenzuron Causes Health Disorders in Neotropical Freshwater Fish, Prochilodus lineatus|Environ. Toxicol.31(5): 533-542|2016|10.1002/tox.22065
175338|A||Liu,X.J., X.W. Chen, S. Yang, and X.D. Wang|Continuous-Flow Microextration Coupled with HPLC for the Determination of 4-Chloroaniline in Chlamydomonas reinhardtii|Bull. Environ. Contam. Toxicol.78(5): 368-372|2007|10.1007/s00128-007-9200-0
175339|A||Nelson,F.R.S.|Laboratory Evaluation of Tolerance of Dugesia dorotocephala to Different Dosages of Diflubenzuron|Mosq. News41(4): 784-785|1981|
175340|T||Salman,S.Y., F. Aydinli, and R. Ay|Etoxazole Resistance in Predatory Mite Phytoseiulus persimilis A.-H. (Acari: Phytoseiidae): Cross-Resistance, Inheritance and Biochemical Resistance Mechanisms|Pestic. Biochem. Physiol.122:96-102|2015|10.1016/j.pestbp.2014.12.014
175341|T||Hallett,R.H., and J.D. Heal|Efficacy of Insecticides for Control of Pea Leafminer on Mustard Greens, 2003|Pest Manage. Res. Rep.:35-36|2003|
175342|T||Brunet,J.L., A. Badiou, and L.P. Belzunces|In Vivo Metabolic Fate of [C-14]-Acetamiprid in Six Biological Compartments of the Honeybee, Apis mellifera L.|Pest Manag. Sci.61:742-748|2005|10.1002/ps.1046
175343|T||Fogel,M.N., M.I. Schneider, N. Desneux, B. Gonzalez, and A.E. Ronco|Impact of the Neonicotinoid Acetamiprid on Immature Stages of the Predator Eriopis connexa (Coleoptera: Coccinellidae)|Ecotoxicology22(6): 1063-1071|2013|10.1007/s10646-013-1094-5
175344|T||Sundaram,K.M.S.|Persistence and Degradation of Diflubenzuron in Conifer Foliage, Forest Litter and Soil, Following Simulated Aerial Application|Information Report FPM-X-74, Forest Pest Management Institute74:21 p.|1986|
175345|T||Amalin,D.M., P. Stansly, and J.E. Pena|Effect of Micromite on the Egg Parasitoids Ceratogramma etiennei (Hymenoptera: Trichogrammatidae) and Quadrastichus haitiensis (Hymenoptera: Eulophidae)|Fla. Entomol.87(2): 222-224|2004|10.1653/0015-4040(2004)087[0222:EOMOTE]2.0.CO;2
175346|T||Ramos,M.A., N.R. Sousa, A.R. Franco, V. Costa, R.S. Oliveira, and P.M.L. Castro|Effect of Diflubenzuron on the Development of Pinus pinaster Seedlings Inoculated with the Ectomycorrhizal Fungus Pisolithus tinctorius|Environ. Sci. Pollut. Res.20(1): 582-590|2013|10.1007/s11356-012-1056-0
175347|T||Rix,R.R., and G.C. Cutler|Acute Exposure to Worst-Case Concentrations of Amitraz does not Affect Honey Bee Learning, Short-Term Memory, or Hemolymph Octopamine Levels|J. Econ. Entomol.110(1): 127-132|2017|
175348|T||Chen,X.D., T.A. Gill, K.S. Pelz-Stelinski, and L.L. Stelinski|Risk Assessment of Various Insecticides Used for Management of Asian Citrus Psyllid, Diaphorina citri in Florida Citrus, Against Honey Bee, Apis mellifera|Ecotoxicology26(3): 351-359|2017|10.1007/s10646-017-1768-5
175349|T||Dai,P., C.J. Jack, A.N. Mortensen, and J.D. Ellis|Acute Toxicity of Five Pesticides to Apis mellifera Larvae Reared In Vitro|Pest Manag. Sci.9:5 p.|2017|
175350|T||Chang,J., W. Li, P. Xu, B. Guo, Y. Wang, J. Li, and H. Wang|The Tissue Distribution, Metabolism and Hepatotoxicity of Benzoylurea Pesticides in Male Eremias argus After a Single Oral Administration|Chemosphere183:1-8|2017|10.1016/j.chemosphere.2017.05.009
175351|T||Papezikova,I., M. Palikova, S. Navratil, R. Heumannova, and M. Fronc|The Effect of Oxalic Acid Applied by Sublimation on Honey Bee Colony Fitness: A Comparison with Amitraz|Acta Vet. Brno85(3): 255-260|2016|10.2754/avb201685030255
175352|T||Pogany,E., K.H. Pawlizki, and P.R. Wallnofer|Formation, Distribution and Bioavailability of Cell Wall Bound Residues of 4-Chloroaniline and 2,4-Dichlorophenol|Chemosphere21(3): 349-358|1990|10.1016/0045-6535(90)90005-E
175353|T||Adamski,Z., J. Bloszyk, K. Piosik, and K. Tomczak|Effects of Diflubenzuron and Mancozeb on Soil Microarthropods: A Long-Term Study|Biol. Lett.46(1): 3-13|2009|10.2478/v10120-009-0008-y
175354|T||Mysyakina,I.S., and N.S. Funtikova|Lipid Composition of the Yeastlike and Mycelial Mucor hiemalis Cells Grown in the Presence of 4-Chloroaniline|Microbiology69(6): 670-675|2000|10.1023/A:1026654124308
175356|T||Cavins,T.J.|Experimental Plant Growth Regulator A 1699-DF Affects Flower Petal Pigmentation|Proc. Plant Growth Regul. Soc. Am.34(1): 4-9|2006|
175357|A||Palmer,S.J., and H.O. Krueger|PFOS: A Frog Embryo Teratogenesis Assay - Xenopus (FETAX)|Project 454A-116, Wildlife International Ltd., Easton, MD:181 p.|2001|
175358|A||Sutherland,C.A., and H.O. Krueger|PFOS: A 96-Hour Toxicity Test with the Freshwater Diatom (Navicula pelliculosa)|Project 454A-112, Wildlife International Ltd., Easton, MD:56 p.|2001|
175359|A||Drottar,K.R., R.L. VanHoven, and H.O. Krueger|Perfluorooctanesulfonate, Potassium Salt (PFOS): A Flow-Through Bioconcentration Test with the Bluegill (Lepomis macrochirus)|Project 454A-134, Wildlife International Ltd., Easton, MD:129 p.|2001|
175360|A||Drottar,K.R., and H.O. Krueger|PFOS: A 96-Hour Shell Deposition Test with the Eastern Oyster (Crassostrea virginica)|Project 454-A-106, Wildlife International Ltd., Easton, MD:56 p.|2000|
175361|T||Brignole,A.J., J.R. Porch, H.O. Krueger, and R.L. Van Hoven|PFOS: A Toxicity Test to Determine the Effects of the Test Substance on Seedling Emergence of Seven Species of Plants|EPA Docket AR226-1369, Wildlife International Ltd., Easton, MD:136 p.|2003|
175362|A||Desjardins,D., C.A. Sutherland, R.L. Van Hoven, and H.O. Krueger|PFOS: A 96-Hour Toxicity Test with the Marine Diatom (Skeletonema costatum)|Project 454-A-113A, Wildlife International Ltd., Easton, MD:54 p.|2001|
175363|A||Drottar,K.R., and H.O. Krueger|PFOS: A Flow-Through Life-Cycle Toxicity Test with the Saltwater Mysid (Mysidopsis bahia)|Project 454-A-107, Wildlife International Ltd., Easton, MD:76 p.|2000|
175364|A||Drottar,K.R., and H.O. Krueger|PFOS: A 96-Hour Static Acute Toxicity Test with the Saltwater Mysid (Mysidopsis bahia)|Project 454-A-101, Wildlife International Ltd., Easton, MD:58 p.|2000|
175365|A||Drottar,K.R., and H.O. Krueger|PFOS: A 48-Hour Static Acute Toxicity Test with the Cladoceran (Daphnia magna)|Project 454-A-104, Wildlife International Ltd., Easton, MD:55 p.|2000|
175366|A||Drottar,K.R., and H.O. Krueger|PFOS: An Early Life-Stage Toxicity Test with the Fathead Minnow (Pimephales promelas)|PROJECT 454A-108, Wildlife International Ltd., Easton, MD:88 p.|2000|
175367|A||Drottar,K.R., and H.O. Krueger|PFOS: A Semi-Static Life-Cycle Toxicity Test with the Cladoceran (Daphnia magna)|Project 454-A-109, Wildlife International Ltd., Easton, MD:93 p.|2000|
175368|A||Drottar,K.R., and H.O. Krueger|PFOS: A 96-Hour Toxicity Test with the Freshwater Alga (Selenastrum capricornutum)|Project 454-A-103A, Wildlife International Ltd., Easton, MD:75 p.|2000|
175369|A||Drottar,K.R., and H.O. Krueger|PFOS: A 96-Hour Static Acute Toxicity Test with the Freshwater Mussel (Unio complamatus)|Project 454-A-105, Wildlife International Ltd., Easton, MD:60 p.|2000|
175370|T||Cummings,J.L., J.F. Glahn, E.A. Wilson, and J.E.,Jr. Davis|Potential Hazards of DRC-1339 Treated Rice to Non-Target Birds when Used at Roost Staging Areas in Louisiana to Reduce Local Populations of Depredating Blackbirds|Int. Biodeterior. Biodegrad.49(2/3): 185-188|2002|10.1016/S0964-8305(01)00121-4
175371|T||Seamans,T.W., and J.L. Belant|Comparison of DRC-1339 and Alpha-Chloralose to Reduce Herring Gull Populations|Wildl. Soc. Bull.27(3): 729-733|1999|
175374|T||Elzen,G.W.|Ovicidal Activity Trial, 1995|Arthropod Manag. Tests21:405-406|1996|10.1093/amt/21.1.405
175375|A||Robertson,J.L., and G. Craig|Potential for Environmental Impact of AFA-6 Surfactant|EPA Docket AR226-1030a043. Beak Consultants Ltd., Missassauga, Ontario, Canada:31 p.|1986|
175376|T||Goldade,D.A., J.D. Tessari, and J.J. Johnston|Absorption, Distribution, and Excretion of [14C]-3-Chloro-4-Methylaniline Hydrochloride in Two Species of Birds Following a Single Oral Dose|J. Agric. Food Chem.52(26): 8074-8080|2004|10.1021/jf0493977
175377|T||Pipas,P.A., J.L. Cummings, J.C. Hurley, and K.H. Sheffer|Evaluation of Different Rice Baits and Chemicals to Improve Efficacy of 2% DRC-1339 to Reduce Blackbird Damage to Rice|Proc. Vertebr. Pest Conf.21:77-82|2004|
175378|T||Heisterberg,J.F., J.L. Cummings, G.M. Linz, E. Knittle, T.W. Seamans, and P.P. Woronecki|Field Trial of a CPT-Avicide Aerial Spray|Proc. Vertebr. Pest Conf.14:350-356|1990|
175379|T||Eoff,H.J., R.E. Davies, T.M. Ferguson, and J.R. Couch|Studies on the Influence of Terephthalic Acid and Broad Spectrum Antibiotics on Egg Production and Egg Shell Coloration in Caged Layers|Poult. Sci.41(4): 1036-1041|1962|10.3382/ps.0411036
175380|T||Johnson,R.M., L. Dahlgren, B.D. Siegfried, and M.D. Ellis|Effect of In-Hive Miticides on Drone Honey Bee Survival and Sperm Viability|J. Apic. Res.52(2): 88-95|2013|10.3896/IBRA.1.52.2.18
175382|T||Reginato,G.H., and K.G. Mesa|Prohexadione-Calcium and NAA Sprays Increase Fruit Weight of 'Castlebrite' Apricot|Acta Hortic.903:841-847|2011|10.17660/ActaHortic.2011.903.117
175383|T||Treutter,D., J. Hadersdorfer, J. Pietzner, and M. Steber|Effect of Bioregulators on Growth and Secondary Metabolism of Actinidia arguta Plants|Acta Hortic.884:689-694|2010|10.17660/ActaHortic.2010.884.93
175384|T||Vattiprolu,N.M.R., D.J. Woolley, and B.M. Van Hooijdonk|Effect of Gibberellins and Anti-Gibberellins on the Vegetative Growth of 'Hayward' Kiwifruit (Actinidia deliciosa)|Acta Hortic.913:433-439|2011|10.17660/ActaHortic.2011.913.58
175385|T||Roberson,G.T., and D.L. Jordan|RTK GPS and Automatic Steering for Peanut Digging|Appl. Eng. Agric.30(3): 405-409|2014|
175386|T||Sabatini,E., M. Noferini, G. Fiori, L.C. Grappadelli, and G. Costa|Prohexadione-Ca Positively Affects Gas Exchanges and Chlorophyll Content of Apple and Pear Trees|Eur. J. Hortic. Sci.68(3): 123-128|2003|
175388|T||Rademacher,W., K. Van Saarloos, J.A.G. Porte, F.R. Forcades, Y. Senechal, C. Andreotti, F. Spinelli, E. Sabatini, and G|Impact of Prohexadione-Ca on the Vegetative and Reproductive Performance of Apple and Pear Trees|Eur. J. Hortic. Sci.69(6): 221-228|2004|
175389|T||Rademacher,W., and R. Kober|Efficient Use of Prohexadione-Ca in Pome Fruits|Eur. J. Hortic. Sci.68(3): 101-107|2003|
175390|T||Gosch,C., I. Puhl, H. Halbwirth, K. Schlangen, S. Roemmelt, C. Andreotti, G. Costa, T.C. Fischer, D. Treutter, K. Stich|Effect of Prohexadione-Ca on Various Fruit Crops: Flavonoid Composition and Substrate Specificity of Their Dihydroflavonol 4-Reductases|Eur. J. Hortic. Sci.68(3): 144-151|2003|
175391|T||Carra,B., M.S. Pasa, J.C. Fachinello, D. Spagnol, E.S. Abreu, and M.A. Giovanaz|Prohexadione Calcium Affects Shoot Growth, but not Yield Components, of 'Le Conte' Pear in Warm-Winter Climate Conditions|Sci. Hortic.209:241-248|2016|10.1016/j.scienta.2016.06.036
175392|T||Fan,Z.W., H. Buschmann, and J. Sauerborn|Prohexadione-Calcium Induces Sunflower (Helianthus annuus) Resistance Against the Root Parasitic Weed Orobanche cumana|Weed Res. (Multiple Languages)47(1): 34-43|2007|10.1111/j.1365-3180.2007.00536.x
175393|T||Choi,S.T., D.S. Park, K.P. Hong, H.Y. Shin, C.W. Rho, and S.M. Kang|Dwarfing and Canopy Manipulation Technology of Persimmon in Korea|Acta Hortic.996:239-249|2013|10.17660/ActaHortic.2013.996.33
175394|T||Salman,A.G.A., T.K. Abd El-Raof, and M. Rizk|Toxicity of New Formamidine Compounds to Spider Mites and Aphid Infesting Cotton in Egypt|Bull. Entomol. Soc. Egypt11:41-48|1979|
175395|AT||Schaefer,C.H., W.H. Wilder, and F.S. Mulligan III|Evaluation of Dimilin, BAY MEB 6046, SD41706 and SD43775 as Mosquito Control Agents|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.44:97-99|1976|
175396|T||Hatzios,K.K., and D. Penner|The Effect of Diflubenzuron and Fentin Hydroxide on Soybean Seed Quality|J. Seed Technol.2(1): 73-80|1977|
175397|T||Homan,H.J., R.S. Stahl, and G.M. Linz|Comparing a Bioenergetics Model with Feeding Rates of Caged European Starlings|J. Wildl. Manag.75(1): 126-131|2011|10.1002/jwmg.19
175398|T||Bowers,Z.L.|Protecting Canada Geese on a Wildlife Management Area in East-Central Nevada|Proc. Vertebr. Pest Conf.21:113-115|2004|
175399|T||Hatzios,K.K., and D. Penner|Effect of Diflubenzuron on Cotton Seed Viability and Vigor|J. Seed Technol.4(1): 12-17|1979|
175400|A||Zahn,T., C. Hauck, and T. Braunbeck|Cytological Alterations in Fish Fibrocytic R1 Cells as an Alternative Test System for the Detection of Sublethal Effects of Environmental Pollutants: A Case-Study with 4-Chloroaniline|In: T.Braunbeck, and W.Hanke, and H.Segner (Eds.), Fish Ecotoxicology and Ecophysiology VCH Weinheim:103-126|1993|
175401|T||Niemczyk,E., M. Koslinska, A. Maciesiak, Z. Nowakowski, R. Olszak, and A. Szufa|Some Growth Regulators: Their Effectiveness Against Orchard Pests and Selectivity to Predatory and Parasitic Arthropods|Acta Hortic.285:157-164|1990|10.17660/ActaHortic.1990.285.21
175402|T||Dmoch,J.|Effect of Some Insecticides on Mushroom Mycelial Growth|Acta Hortic.219:15-20|1988|10.17660/ActaHortic.1988.219.2
175403|T||Poletti,M., A.H.N. Maia, and C. Omoto|Toxicity of Neonicotinoid Insecticides to Neoseiulus californicus and Phytoseiulus macropilis (Acari: Phytoseiidae) and Their Impact on Functional Response to Tetranychus urticae (Acari: Tetranychidae)|Biol. Control40:30-36|2007|10.1016/j.biocontrol.2006.09.001
175404|T||Jamil,R.Z.R., C. Vandervoort, L.J. Gut, M.E. Whalon, and J.C. Wise|Lethal Time of Insecticides on the Predator Mite Neoseiulus fallacis (Acari: Phytoseiidae) Following Topical Exposure|Can. Entomol.148(3): 353-360|2016|10.4039/tce.2015.67
175405|T||Stevens,M.M., J. Mo, G.N. Warren, and G.S. Doran|Evaluation of Potential Biocides for Control of the Earthworm Eukerria saltensis (Oligochaeta: Ocnerodrilidae), a Pest of Rice in Southern Australia|Crop Prot.84:159-167|2016|10.1016/j.cropro.2016.03.004
175406|T||Boopathi,T., K.S. Meena, M. Ravi, and K. Thirunavukarasu|Impact of Insecticides on Spiralling Whitefly, Aleurodicus dispersus (Hemiptera: Aleyrodidae) and Its Natural Enemy Complex in Cassava Under Open Field Conditions|Crop Prot.94:137-143|2017|10.1016/j.cropro.2016.12.021
175407|T||Sukhoruchenko,G.I., N.A. Belyakova, I.M. Pazyuk, and G.P. Ivanova|The Toxic Effect of Greenhouse Insecticides on the Predatory Bugs Nesidiocoris tenuis Reuter and Macrolophus pygmaeus H.-S. (Heteroptera, Miridae)|Entomol. Rev.95(9): 1166-1173|2015|10.1134/S0013873815090031
175408|T||Ullah,M.S., M. Hanawa, and T. Gotoh|Pesticide-Mediated Displacement of a Phytoseiid Predator, Neoseiulus womersleyi, by Another Phytoseiid Predator, N. californicus (Acari: Phytoseiidae)|Exp. Appl. Acarol.69(4): 453-464|2016|10.1007/s10493-016-0053-2
175409|T||Alister,C., M. Araya, K. Becerra, J. Saavedra, and M. Kogan|Preharvest Interval Periods and Their Relation to Fruit Growth Stages and Pesticide Formulations|Food Chem.221:548-554|2017|10.1016/j.foodchem.2016.11.140
175410|A||Raj,S.J., and B. Joseph|Impact of Acetamiprid Toxicity on Lactate Dehydrogenase in Some Tissues of the Fish Oreochromis mossambicus|Int. J. Zool. Res.11(3): 112-115|2015|10.3923/ijzr.2015.112.115
175411|T||Shankarganesh,K., S.S. Suroshe, and B. Paul|Relative Susceptibility of the Bikaner and Delhi Populations of Mustard Aphid, Lipaphis erysimi (Kalt.) (Homoptera: Aphididae), and Its Predator, Coccinella septempunctata L. (Coleoptera: Coccinellidae), to Different In|Phytoprotection (Multiple Languages)95(1): 27-31|2015|10.7202/1031955ar
175412|T||Hogendorp,B.K., and R.A. Cloyd|Effect of Potassium Bicarbonate (MilStop) and Insecticides on the Citrus Mealybug, Planococcus citri (Risso), and the Natural Enemies Leptomastix dactylopii (Howard) and Cryptolaemus montrouzieri (Mulsant)|Hortscience48(12): 1513-1517|2013|10.21273/HORTSCI.48.12.1513
175413|T||Guseman,A.J., K. Miller, G. Kunkle, G.P. Dively, J.S. Pettis, J.D. Evans, D. VanEngelsdorp, and D.J. Hawthorne|Multi-Drug Resistance Transporters and a Mechanism-Based Strategy for Assessing Risks of Pesticide Combinations to Honey Bees|PLoS One11(2): 15 p.|2016|10.1371/journal.pone.0148242
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175459|T||Maroufpoor,M., Y. Ghoosta, and A.A. Pourmirza|Toxicity of Diazinon and Acetamipridon on Life Table Parameters of the Predatory Mite, Neoseiulus californicus (Acari: Phytoseiidae) when Fed on the European Red Mite Panonychus ulmi (Koch)|Egypt. J. Biol. Pest Control26(1): 15-19|2016|
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175474|T||Faleiro,F.G., B. Kannan, and F. Altpeter|Regeneration of Fertile, Hexaploid, Interspecific Hybrids of Elephantgrass and Pearl Millet Following Treatment of Embryogenic Calli with Antimitotic Agents|Plant Cell Tissue Organ Cult.124(1): 57-67|2016|10.1007/s11240-015-0874-4
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175508|T||Parker,F.D.|Effect of Fungicide Treatments on Incidence of Chalkbrood Disease in Nests of the Alfalfa Leafcutting Bee (Hymenoptera: Megachilidae) |J. Econ. Entomol.77(1): 113-117|1984|10.1093/jee/77.1.113
175509|T||Palmer,E.W.|Soybean Weed Control with CGA-277476 and CGA-248757|M.S.Thesis, Mississippi State University, Starkville, MS:93 p.|1998|
175510|T||Parker,F.D.|Effective Fungicide Treatment for Controlling Chalkbrood Disease (Ascomycetes: Ascosphaeraceae) of the Alfalfa Leafcutting Bee (Hymenoptera: Megachilidae) in the Field |J. Econ. Entomol.78(1): 35-40|1985|10.1093/jee/78.1.35
175511|T||Sass,M.E., R.L. Groves, and J. Nienhuis|Management of Seed Corn Maggot for Organic Snap Bean Production|Annu. Rep. Bean Improv. Coop.52:142-143|2009|
175512|T||Grant,R.D.|S. R. Project 60- Toxicity Studies on Starlicide: Experiment 6|Ralston Purina:4 p.|1967|
175513|T||Grant,R.D.|S. R. Project 60- Toxicity Studies on Starlicide: Experiment 5|Ralston Purina:4 p.|1967|
175514|T||Grant,R.D.|S. R. Project 60- Toxicity Studies on Starlicide: Experiment 4|Ralston Purina:4 p.|1967|
175516|T||Anonymous|Toxicology of Compound 47676|American Cyanamid Company:3 p.|1966|
175517|T||Dubey,S.C., V. Singh, K. Priyanka, B.K. Upadhyay, and B. Singh|Combined Application of Fungal and Bacterial Bio-Agents, Together with Fungicide and Mesorhizobium for Integrated Management of Fusarium Wilt of Chickpea|Biocontrol60(3): 413-424|2015|10.1007/s10526-015-9653-8
175518|T||Krishnamurthy,Y.L., J. Shashikala, and B.S. Naik|Antifungal Potential of Some Natural Products Against Aspergillus flavus in Soybean Seeds During Storage|J. Stored Prod. Res.44(4): 305-309|2008|10.1016/j.jspr.2008.03.001
175519|T||Thobunluepop,P., E. Pawelzik, and S. Vearasilp|The Perspective Effects of Various Seed Coating Substances on Rice Seed Variety Khao DAWK Mali 105 Storability I: The Case Study of Physiological Properties|Pak. J. Biol. Sci.11(19): 2291-2299|2008|10.3923/pjbs.2008.2291.2299
175520|T||Xu,X.M., R.A. Murray, J.D. Salazar, and K. Hyder|The Temporal Pattern of Captan Residues on Apple Leaves and Fruit Under Field Conditions in Relation to Weather and Canopy Structure|Pest Manag. Sci.64(5): 565-578|2008|10.1002/ps.1527
175521|T||MacKenzie,S.J., and N.A. Peres|Use of Leaf Wetness and Temperature to Time Fungicide Applications to Control Anthracnose Fruit Rot of Strawberry in Florida|Plant Dis.96(4): 522-528|2012|10.1094/PDIS-03-11-0181
175522|T||Reddy,S.S., P.W. Stahlman, P.W. Geier, B.W. Bean, and T. Dozier|Grain Sorghum Response and Palmer amaranth Control with Postemergence Application of Fluthiacet-Methyl|Int. J. Pest Manag.60(3): 147-152|2014|10.1080/09670874.2014.934407
175523|T||Crow,W.D., L.E. Steckel, R.M. Hayes, and T.C. Mueller|Evaluation of POST-Harvest Herbicide Applications for Seed Prevention of Glyphosate-Resistant Palmer amaranth (Amaranthus palmeri)|Weed Technol.29(3): 405-411|2015|10.1614/WT-D-14-00146.1
175524|T||Wills,G.D., E.J. Jones, J.E. Hanks, and R.E. Mack|Effect of Adjuvants of KIH-9201 Defoliant|Proc. Beltwide Cotton Conf.:2220-2221|2004|
175525|T||Lemon,R.G., T.A. Hoelewyn, A. Abrameit, and T.J. Gerik|Evaluation of CGA-248757 (Action) as a Harvest-Aid in Central Texas|Proc. Beltwide Cotton Conf.1:605-606|1999|
175526|T||Oliveira,M.C., A.J. Jhala, T. Gaines, S. Irmak, K. Amundsen, J.E. Scott, and S.Z. Knezevic|Confirmation and Control of HPPD-Inhibiting Herbicide-Resistant Waterhemp (Amaranthus tuberculatus) in Nebraska|Weed Technol.31(1): 67-79|2017|10.1017/wet.2016.4
175527|T||Sarangi,D., L.D. Sandell, S.Z. Knezevic, J.S. Aulakh, J.L. Lindquist, S. Irmak, and A.J. Jhala|Confirmation and Control of Glyphosate-Resistant Common Waterhemp (Amaranthus rudis) in Nebraska|Weed Technol.29(1): 82-92|2015|10.1614/WT-D-14-00090.1
175528|T||Shimizu,T., N. Hashimoto, I. Nakayama, T. Nakao, H. Mizutani, T. Unai, M. Yamaguchi, and H. Abe|A Novel Isourazole Herbicide, Fluthiacet-Methyl, is a Potent Inhibitor of Protoporphyrinogen Oxidase After Isomerization by Glutathione S-Transferase|Plant Cell Physiol.36(4): 625-632|1995|
175529|T||Huang,W., H.S. Mayton, M. Amirkhani, D. Wang, and A.G. Taylor|Seed Dormancy, Germination and Fungal Infestation of Eastern Gamagrass Seed|Ind. Crops Prod.99:109-116|2017|10.1016/j.indcrop.2017.01.041
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175532|T||Berbegal,M., E. Landeras, D. Sanchez, P. Abad-Campos, A. Perez-Sierra, and J. Armengol|Evaluation of Pinus radiata Seed Treatments to Control Fusarium circinatum: Effects on Seed Emergence and Disease Incidence|For. Pathol.45(6): 525-533|2015|10.1111/efp.12204
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175534|T||Mach,J.J.|DRC-1339: An Acute Oral Toxicity Study with the American Tree Sparrow (Spizella arborea)|National Wildlife Research Center, Fort Collins, Co.:100 p.|2001|
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175536|T||Samarah,N.H., H. Wang, and G.E. Welbaum|Pepper (Capsicum annuum) Seed Germination and Vigour Following Nanochitin, Chitosan or Hydropriming Treatments|Seed Sci. Technol.44(3): 609-623|2016|10.15258/sst.2016.44.3.18
175537|T||Hislop,R.G., C. Acker, N. Alves, and R.J. Prokopy|Laboratory Toxicity of Pesticides and Growth Regulators to Amblyseius fallacis, an Important Spider Mite Predator in Massachusetts Apple Orchards|Fruit Notes43(6): 28 p.|1978|
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175539|T||Malone,L.A., C.D. Scott-Dupree, J.H. Todd, and P. Ramankutty|No Sub-Lethal Toxicity to Bumblebees, Bombus terrestris, Exposed to Bt-Corn Pollen, Captan and Novaluron|N. Z. J. Crop Hortic. Sci.35(4): 435-439|2007|10.1080/01140670709510211
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175541|T||Bellantuono,V., G. Cassano, and C. Lippe|Pesticides Alter Ion Transport Across Frog (Pelophylax kl. esculentus) Skin|Chem. Ecol.30(7): 602-610|2014|10.1080/02757540.2014.917177
175542|T||Boonyapipat,P.|Study of Three Fungicides to Control Anthracnose (Colletotrichum capsici) in Chilli (Capsicum frutescens): Case Study from Songkhla Province, Thailand|Acta Hortic.973:103-108|2013|10.17660/ActaHortic.2013.973.12
175543|T||Steyn,W.P., M.S. Daneel, S. Serfontein, and J.J. Serfontein|Investigations into the Control of Litchi Tree Die-Back in South Africa|Acta Hortic.1029:439-444|2014|10.17660/ActaHortic.2014.1029.56
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175545|T||Kumar,D., N. Maurya, P. Kumar, H. Singh, and S.K. Addy|Assessment of Germination and Carnivorous Activities of a Nematode-Trapping Fungus Arthrobotrys dactyloides in Fungistatic and Fungicidal Soil Environment|Biol. Control82:76-85|2015|10.1016/j.biocontrol.2014.12.014
175546|T||Gupta,A.|Integrated Management of Seed Health for Prolonging Seed Storability in Parental Lines of Pearl Millet (Pennisetum glaucum)|Indian J. Agric. Sci.77(4): 212-219|2007|
175547|T||Ghyczy,M., J. Hager, and R. Bohm|The Influence of Liposomes from Soybean Lecithin on the Efficacy of Fungicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent56(3, Pt. A): 843-853|1991|
175548|T||Mac An Tsaoir,S., and J. Mansfield|Evaluation of 1-MCP on Storage Quality of Bramley's Apple Seedling Under Controlled Atmosphere Storage|Acta Hortic.857:319-323|2010|10.17660/ActaHortic.2010.857.38
175549|T||Burlakoti,R.R., J. Zandstra, and K. Jackson|Evaluation of Epidemics and Weather-Based Fungicide Application Programmes in Controlling Anthracnose Fruit Rot of Day-Neutral Strawberry in Outdoor Field and Protected Cultivation Systems|Can. J. Plant Pathol.36(1): 64-72|2014|10.1080/07060661.2014.895422
175550|T||Lukens,R.J.|Injury to Peach Foliage by Dodine and Dodine-Captan Spray|Plant Dis.54(2): 152-154|1970|
175551|T||Imani,A., M. Keshavarzi, and S. Hosseinava|Impacts of Selected Fungicides on Pollen Development in Almond|Acta Hortic.912:757-758|2011|10.17660/ActaHortic.2011.912.113
175552|T||Browne,F.B., L.A. Fall, P.M. Brannen, J. Taylor, J. Shealey, and E.D. Beasley|Assessment of Algicides, Disinfectants and Fungicides for Control of Orange Cane Blotch Caused by the Alga Cephaleuros virescens|Acta Hortic.1133:497-502|2016|10.17660/ActaHortic.2016.1133.77
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175554|T||Bruggink,H., H.L. Kraak, and J. Bekendam|Some Factors Affecting Maize (Zea mays L.) Cold Test Results|Seed Sci. Technol.19(1): 15-23|1991|
175555|T||Silva,M.G., A. Domingos, M.A. Esteves, M.E.M. Cruz, and C.E. Suarez|Evaluation of the Growth-Inhibitory Effect of Trifluralin Analogues on In Vitro Cultured Babesia bovis Parasites|Int. J. Parasitol. Drugs Drug Resist.3:59-68|2013|10.1016/j.ijpddr.2013.01.003
175556|T||Lukens,R.J.|Chemical Control of Stripe Smut|Plant Dis. Rep.51(5): 355-356|1967|
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175562|T||Zlesak,D.C., C.A. Thill, and N.O. Anderson|Trifluralin-Mediated Polyploidization of Rosa chinensis minima (Sims) Voss Seedlings|Euphytica 141:281-290|2005|10.1007/s10681-005-7512-x
175563|AT||Ibrahim,A.N.|Effect of Certain Herbicides on Growth of Nitrogen-Fixing Algae and Rice Plants|Symp. Biol. Hung.11:445-448|1972|
175564|T||Zaidenberg,A., H. Tournier, G. Schinella, G. Marin, and H. Buschiazzo|Effects of Trifluralin on Trypanosoma cruzi In Vitro and In Vivo|Pharmacol. Toxicol.84(2): 98-100|1999|10.1111/j.1600-0773.1999.tb00881.x
175565|T||Kaidoh,T., J. Nath, H. Fujioka, V. Okoye, and M. Aikawa|Effect and Localization of Trifluralin in Plasmodium falciparum Gametocytes: An Electron Microscopic Study|J. Eukaryot. Microbiol.42(1): 61-64|1995|10.1111/j.1550-7408.1995.tb01540.x
175566|T||Tworkoski,T.J., M.E. Engle, and P.T. Kujawski|Growth Regulatory Effects and Soil Concentration of Controlled-Release Trifluralin Applied to Roots of Yellow Poplar and Red Oak|J. Am. Soc. Hortic. Sci.121(3): 461-465|1996|10.21273/JASHS.121.3.461
175567|T||Schweizer,E.E.|Aberrations in Sugarbeet Roots as Induced by Trifluralin|Weed Sci.18(1): 131-134|1970|10.1017/S0043174500077523
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175569|T||Kumar,V., H.J. Vasanthi, S. Lokesha, and H.S. Shetty|Effect of Chemical Seed Treatment on Externally and Internally Seed-Borne Fungi, Seed Germination and Seedling Vigour of Maize|Int. J. Trop. Plant Dis.10(2): 261-268|1992|
175571|T||Sanders,G.Q., E.S. Sanchez, and K. Demchak|Evaluation of Alternative Management Options for Gray Mold on Field Grown Raspberries|J. Am. Pomol. Soc.65(2): 39-46|2011|
175572|T||Padma,K.N., B.M. Reddy, R. Ankaiah, and P. Sarada|Characterisation of Twenty-Three Maize Inbred Lines Through Seed Morphology, Leaf Stomatal Studies and Response of Seedlings to Added Chemicals|Seed Res.24(1): 15-19|1996|
175573|A||Sharpe,R.L., M. Drolet, and D.L. MacLatchy|Investigation of De Novo Cholesterol Synthetic Capacity in the Gonads of Goldfish (Carassius auratus) Exposed to the Phytosterol beta-Sitosterol|Reprod. Biol. Endocrinol.4(60): 11 p.|2006|
175574|T||Cicero,S.M., H.M.C.P. Chamma, A.D.L.C. Novembre, and M.H.D. Moraes|Physiological and Sanitary Quality of Corn Seeds Submitted to Different Fungicide Treatments|Seed Sci. Technol.20(3): 695-702|1992|
175575|T||Kucey,R.M.N., and R. Bonetti|Effect of Vesicular-Arbuscular Mycorrhizal Fungi and Captan on Growth and N2 Fixation by Rhizobium-Inoculated Field Beans|Can. J. Soil Sci.68(1): 143-149|1988|10.4141/cjss88-013
175576|T||Joshi,D.P., O. Singh, B.S. Sidhu, H.S. Randhawa, and J. Kaur|Effect of Seed Dressers on the Germination Efficiency of Sugarcane Setts|Agric. Sci. Dig.4(3): 156-158|1984|
175577|T||Menzel,C.M., A. Gomez, and L.A. Smith|Control of Grey Mould and Stem-End Rot in Strawberry Plants Growing in a Subtropical Environment|Australas. Plant Pathol.45(5): 489-498|2016|10.1007/s13313-016-0440-5
175578|T||Begum H., S. Mohammad, G.K. Rao, and R.B. Raj|Influence of Seed Dressing Fungicides on the Incidence of Post Flowering Stalk Rots (Late Wilt and Charcoal Rot), Yield and Profitability of Maize|Crop Res. (Hisar)2(2): 142-146|1989|
175579|T||Halfon-Meiri,A., and Z. Solel|Control of Seed-Borne Penicillium oxalicum in Sweet Corn by Seed Treatment|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)96(6): 636-639|1989|
175580|T||Powell,D.|The Effect of Captan on Gray Mold Rot Incidence and Yield of Strawberry|Plant Dis. Rep.38(3): 209-211|1954|
175581|T||Bondada,B.R., C.E. Sams, D.E. Deyton, and J.C. Cummins|Oil Emulsions Enhance Transcuticular Movement of Captan in Apple Leaves|Crop Prot.26(4): 691-696|2007|10.1016/j.cropro.2006.06.007
175582|T||Frank,R., H.E. Braun, and G. Ritcey|Disappearance of Captan from Field- and Greenhouse-Grown Tomato Fruit in Relationship to Time of Harvest and Amount of Rainfall|Can. J. Plant Sci.67(1): 355-357|1987|10.4141/cjps87-051
175583|T||Sultana,V., S. Ehteshamul-Haque, J. Ara, and M. Athar|Effect of Brown Seaweeds and Pesticides on Root Rotting Fungi and Root-Knot Nematode Infecting Tomato Roots|J. Appl. Bot. Food Qual.83(1): 50-53|2009|
175584|T||Sadlo,S., P. Grodzicki, and B. Piechowicz|Dissipation of Captan, Boscalid and Trifloxystrobin Residues in Apples of Four Varieties Within 2 Months Before Their Harvest|J. Plant Dis. Prot.124(2): 177-184|2017|10.1007/s41348-016-0069-1
175585|T||Rosenberger,D.A., and K.D. Cox|Using Phosphite Fungicides to Control Apple Diseases|N.Y. Fruit Q.17(2): 9-13|2009|
175586|T||Bao,Y., D.A. Neher, and S. Chen|Effect of Soil Disturbance and Biocides on Nematode Communities and Extracellular Enzyme Activity in Soybean Cyst Nematode Suppressive Soil|Nematology13(6): 687-699|2011|10.1163/138855410X541230
175587|T||Fritz,V.A., and C.J. Rosen|Productivity of Processing Peas as Influenced by Nitrogen Fertilization, Rhizobium Inoculation, and Fungicide Seed Treatment|Can. J. Plant Sci.71(4): 1271-1274|1991|10.4141/cjps91-177
175588|T||Rodriguez-Kabana,R., E.A. Curl, and H.H.,Jr. Funderburk|Effect of Trifluralin on Growth of Sclerotium rolfsii in Liquid Culture and Soil|Phytopathology59:228-232|1969|
175589|T||South,D.B., and S.J.S. Sung|A New Method for Screening Herbicides for Use in Pine Nurseries|Can. J. For. Res.10(2): 164-168|1980|10.1139/x80-029
175590|T||Sawamura,S., and W.T. Jackson|An In Vivo Comparison of the Effects of Picloram and Trifluralin on Cell Elongation and Plastid Development in Tradescantia and Vicia|Cytologia33:555-557|1968|10.1508/cytologia.33.555
175591|T||Sawamura,S., and W.T. Jackson|Cytological Studies In Vivo of Picloram, Pyriclor, Trifluralin, 2,3,6-TBA, 2,3,5,6-TBA, and Nitralin|Cytologia33:545-554|1968|10.1508/cytologia.33.545
175592|A||Cetin,A.K., and N. Mert|Growth Rate of Scenedesmus acutus (Meyen) in Cultures Exposed to Trifluralin|Pol. J. Environ. Stud.15(4): 631-633|2006|
175593|T||Fischer,B.B.|The Effect of Trifluralin on the Root Development of Seedling Cotton|Aust. J. Exp. Agric. Anim. Husb.6:214-218|1966|10.1071/EA9660214
175594|T||Friesen,H.A., and K.E. Bowren|Factors Affecting the Control of Wild Oats in Rapeseed with Trifluralin|Can. J. Plant Sci.53(1): 199-205|1973|10.4141/cjps73-036
175595|T||Ferguson,J., B. Rathinasabapathi, and C. Warren|Southern Redcedar and Southern Magnolia Wood Chip Mulches for Weed Suppression in Containerized Woody Ornamentals|HortTechnology18(2): 266-270|2008|10.21273/HORTTECH.18.2.266
175596|T||Golab,T., R.J. Herberg, S.J. Parka, and J.B. Tepe|Metabolism of Carbon-14 Trifluralin in Carrots|J. Agric. Food Chem.15(4): 638-641|1967|10.1021/jf60152a017
175597|T||Wang,T., A. Fleury, J. Ma, and H. Darmency|Genetic Control of Dinitroaniline Resistance in Foxtail Millet (Setaria italica)|J. Hered.87(6): 423-426|1996|10.1093/oxfordjournals.jhered.a023031
175598|A||Chan,D., R.J. Fussell, M.T. Hetmanski, C.J. Sinclair, J.F. Kay, A. Grant, and M. Sharman|Investigation of the Fate of Trifluralin in Shrimp|J. Agric. Food Chem.61(10): 2371-2377|2013|10.1021/jf3046329
175599|T||Bogitsh,B.J., O.L. Middleton, and R. Ribeiro-Rodrigues|Effects of the Antitubulin Drug Trifluralin on the Proliferation and Metacyclogenesis of Trypanosoma cruzi Epimastigotes|Parasitol. Res.85(6): 475-480|1999|10.1007/s004360050580
175600|T||Tang,A., E.A. Curl, and R. Rodriguez-Kabana|Effect of Trifluralin on Inoculum Density and Spore Germination of Fusarium oxysporum f. sp. vasinfectum in Soil|Phytopathology60:1082-1086|1970|10.1094/Phyto-60-1082
175601|T||Pietsch,G.M., and N.O. Anderson|Epigenetic Variation in Tissue Cultured Gaura lindheimeri|Plant Cell Tissue Organ Cult.89(2/3): 91-103|2007|10.1007/s11240-007-9217-4
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175603|T||Feeny,R.W.|Effect of Trifluralin on the Growth of Oat Seedlings and Respiration of Excised Oat Roots|Proc. Northeast. Weed Control Conf.20:595-603|1966|
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175605|T||Wauchope,R.D., J.M. Chandler, and K.E. Savage|Soil Sample Variation and Herbicide Incorporation Uniformity|Weed Sci.25(2): 193-196|1977|10.1017/S0043174500033269
175606|T||Weidemann,G.J., and G.E. Templeton|Control of Texas Gourd, Cucurbita texana, with Fusarium solani f. sp. cucurbitae|Weed Technol.2(3): 271-274|1988|10.1017/S0890037X00030578
175607|T||Owen,M.J., M.J. Walsh, R.S. Llewellyn, and S.B. Powles|Widespread Occurrence of Multiple Herbicide Resistance in Western Australian Annual Ryegrass (Lolium rigidum) Populations|Aust. J. Agric. Res.58(7): 711-718|2007|10.1071/AR06283
175608|T||Moyer,J.R.|Soil Organic Matter, Moisture, and Temperature: Effect on Wild Oats Control with Trifluralin|Can. J. Plant Sci.59(3): 763-768|1979|10.4141/cjps79-118
175609|T||Chow,P.N.P.|Sequential Application of Soil-Incorporated and Post-Emergence Herbicides for Controlling Wild Oat (Avena fatua L.) and Green Foxtail (Setaria viridis (L.) Beauv.) in Spring Wheat|Crop Prot.5(3): 209-213|1986|10.1016/0261-2194(86)90104-3
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175657|T||Lankadurai,B.P., D.M. Wolfe, A.J. Simpson, and M.J. Simpson|1H NMR-Based Metabolomics of Time-Dependent Responses of Eisenia fetida to Sub-Lethal Phenanthrene Exposure|Environ. Pollut.159(10): 2845-2851|2011|10.1016/j.envpol.2011.04.044
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175721|T||Lake,C.T.|3,6-Dichloropicolinic Acid for the Control of Creeping Thistle (Cirstum arvense) and Annual Composite Weeds in Vegetable Crops|Proc. Br. Crop Prot. Conf. Weeds:107-114|1980|
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175723|T||Bovey,R.W., H.,Jr. Hein, and R.E. Meyer|Phytotoxicity and Uptake of Clopyralid in Honey Mesquite (Prosopis glandulosa) as Affected by Adjuvants and Other Herbicides|Weed Sci.36:20-23|1988|10.1017/S0043174500074397
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175728|T||Bovey,R.W., H.,Jr. Hein, R.E. Meyer, and L.F. Bouse|Influence of Adjuvants on the Deposition, Absorption, and Translocation of Clopyralid in Honey Mesquite (Prosopis glandulosa)|Weed Sci.35(2): 253-258|1987|10.1017/S0043174500079157
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175731|AT||Lewis,D.F., R.J. Richardson, F.H. Yelverton, and T.R. Wentworth|Bioavailability of Aminocyclopyrachlor and Triclopyr plus Clopyralid from Turfgrass Clippings in Aquatic and Riparian Plants|Weed Sci.61(4): 594-600|2013|10.1614/WS-D-13-00013.1
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175733|T||Dowling,P.M., and P.T.W. Wong|Influence of Preseason Weed Management and In-Crop Treatments on Two Successive Wheat Crops: 1. Weed Seedling Numbers and Wheat Grain Yield|Aust. J. Exp. Agric.33(2): 167-172|1993|10.1071/EA9930167
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175735|T||Saini,R.K., S.G.L. Kleemann, C. Preston, and G.S. Gill|Alternative Herbicides for the Control of Clethodim-Resistant Rigid Ryegrass (Lolium rigidum) in Clearfield Canola in Southern Australia|Weed Technol.30(2): 423-430|2016|10.1614/WT-D-15-00078.1
175736|T||Marshall,M.W., J.D. Green, D.C. Ditsch, and J.W. Turner|Tall Ironweed (Vernonia altissima Nutt.) Control in Pastures with Fall-Applied Herbicides|Weed Technol.20(1): 52-57|2006|10.1614/WT-04-293R.1
175737|T||Shergill,L.S., B. Fleet, C. Preston, and G. Gill|Management of ACCase-Inhibiting Herbicide-Resistant Smooth Barley (Hordeum glaucum) in Field Pea with Alternative Herbicides|Weed Technol.30(2): 441-447|2016|10.1614/WT-D-15-00099.1
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175740|T||Kloppenburg,D.J., and J.C. Hall|Penetration of Clopyralid and Related Weak Acid Herbicides into and Through Isolated Cuticular Membranes of Euonymus fortunei|Weed Res. (Multiple Languages)30:431-438|1990|10.1111/j.1365-3180.1990.tb01731.x
175741|T||Conn,J.S., and S.S. Seefeldt|Invasive White Sweetclover (Melilotus officinalis) Control with Herbicides, Cutting, and Flaming|Invasive Plant Sci. Manag.2(3): 270-277|2009|10.1614/IPSM-08-118.1
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175743|T||Scifres,C.J., R.A. Crane, B.H. Koerth, and R.C. Flinn|Roller Application of Clopyralid for Huisache, Acacia farnesiana, Control|Weed Technol.2(3): 317-322|1988|10.1017/S0890037X00030669
175745|T||Smith,L.J., and W.A. Skroch|Turf Herbicide Injury to Landscape Trees as Influenced by Mulch|J. Environ. Hortic.13(2): 60-63|1995|10.24266/0738-2898-13.2.60
175746|T||Orfanedes,M.S., L.M. Wax, and R.A. Liebl|Absence of a Role for Absorption, Translocation, and Metabolism in Differential Sensitivity of Hemp Dogbane (Apocynum cannabinum) to Two Pyridine Herbicides|Weed Sci.41(1): 1-6|1993|10.1017/S0043174500057489
175747|T||Wilson,R., K.G. Beck, and P. Westra|Combined Effects of Herbicides and Sphenoptera jugoslavica on Diffuse Knapweed (Centaurea diffusa) Population Dynamics|Weed Sci.52:418-423|2004|10.1614/P2001-061
175748|T||Meyer,R.E., and R.W. Bovey|Influence of Sulfonylurea and Other Herbicides on Selected Woody and Herbaceous Species|Weed Sci.38(3): 249-255|1990|10.1017/S0043174500056484
175749|T||Steinke,K., and J. Stier|Tolerance of Supina Bluegrass to Pre and Post-Emergence Herbicides|J. Environ. Hortic.20(2): 118-121|2002|10.24266/0738-2898-20.2.118
175750|T||Sistachs,M., and J.J. Leon|Susceptibility of Acacia farnesiana, Dichrostachys glomerata, and Mimosa asperata to Different Pre-Emergent Herbicides|Cuban J. Agric. Sci.21(2): 201-207|1987|
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175752|T||Dembele,B., D. Dembele, and J.H. Westwood|Herbicide Seed Treatments for Control of Purple Witchweed (Striga hermonthica) in Sorghum and Millet|Weed Technol.19(3): 629-635|2005|10.1614/WT-04-183R2.1
175753|T||Cobb,A.H., and P. Barnwell|Anti-Auxin Activity of Graminicides|Br. Crop Prot. Conf. Weeds3:183-190|1989|
175754|T||Evans,A.M., J. McCaw, and W. Beggs|Could Herbicide Used to Control Alien Weeds be Harming Threatened New Zealand Spiders?|J. Appl. Entomol.133(9/10): 767-770|2009|10.1111/j.1439-0418.2009.01409.x
175755|A||Stott,L.C., S. Schnell, C. Hogstrand, S.F. Owen, and N.R. Bury|A Primary Fish Gill Cell Culture Model to Assess Pharmaceutical Uptake and Efflux: Evidence for Passive and Facilitated Transport|Aquat. Toxicol.159:127-137|2015|10.1016/j.aquatox.2014.12.007
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175768|T||Lym,R.G., R.L. Becker, M.J. Moechnig, M.B. Halstvedt, and V.F. Peterson|Native Grass Establishment Following Application of Pyridine Herbicides|Invasive Plant Sci. Manag.10(1): 110-117|2017|10.1017/inp.2017.6
175769|T||Jorgensen,N.A., M.J. Moechnig, M.B. Halstvedt, and M.J. Renz|Native Forb Establishment Following Application of Aminopyralid or Clopyralid|Invasive Plant Sci. Manag.10(1): 90-98|2017|10.1017/inp.2016.1
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175773|T||Pritchard,G.H.|Poverty Weed (Iva axillaris Pursh): Its Distribution and Control|Plant Prot. Q.2(2): 69-73|1987|
175774|T||McKenzie,J., D. Brazier, S. Campbell, J. Vitelli, A. Anderson, and R. Mayer|Foliar Herbicide Control of Sticky Florestina (Florestina tripteris DC.)|Rangeland J.36(3): 259-265|2014|10.1071/RJ13091
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175778|T||Brant,V., J. Pivec, K. Hamouzova, P. Zabransky, J. Satrapova, and M. Skerikova|Determination of the Influence of Herbicides on Dicotyledons Plant Transpiration Using the Sap Flow Method|Plant Soil Environ.60(12): 562-568|2014|10.17221/655/2014-PSE
175779|T||Twyford,K.L., and G.S. Baxter|Chemical Control of Blue Periwinkle (Vinca major L.) in Croajingolong National Park, Victoria|Plant Prot. Q.14(2): 47-50|1999|
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175790|A||Danulat,E., and T.P. Mommsen|Norepinephrine: A Potent Activator of Glycogenolysis and Gluconeogenesis in Rockfish Hepatocytes|Gen. Comp. Endocrinol.78(1): 12-22|1990|10.1016/0016-6480(90)90042-K
175791|A||Ceballos-Laita,L., L. Calvo, M.T. Bes, M.F. Fillat, and M.L. Peleato|Effects of Benzene and Several Pharmaceuticals on the Growth and Microcystin Production in Microcystis aeruginosa PCC 7806|Limnetica34(1): 237-245|2015|
175792|T||Tsangaris,G.T., C.A. Demopoulos, D.C. Tsoukatos, and V.M. Kapoulas|Study of the Glycogenolytic Action of Platelet Activating Factor in Tetrahymena pyriformis|Comp. Biochem. Physiol. C Comp. Pharmacol.102C(3): 495-502|1992|10.1016/0742-8413(92)90149-2
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175794|T||Beal,A.M.|Effect of beta-Antagonists on Isoprenaline-Induced Secretion of Fluid, Amylase and Protein by the Parotid Gland of the Red Kangaroo, Macropus rufus|Comp. Biochem. Physiol. A Mol. Integr. Physiol.125(2): 189-196|2000|10.1016/S1095-6433(99)00176-2
175795|A||Hoyer,S.A., and C.A. Myrick|Can Copper-Based Substrates be Used to Protect Hatcheries from Invasion by the New Zealand Mudsnail?|N. Am. J. Aquacult.74(2): 575-583|2012|10.1080/15222055.2012.685213
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175797|T||Kleemann,S.G.L., C. Preston, and G.S. Gill|Influence of Management on Long-Term Seedbank Dynamics of Rigid Ryegrass (Lolium rigidum) in Cropping Systems of Southern Australia|Weed Sci.64(2): 303-311|2016|10.1614/WS-D-15-00119.1
175798|T||Orfanedes,M.S.|An Investigation into the Differential Response of Hemp Dogbane (Apocynum cannabinum L.) to Two Pyridine Herbicides|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:87 p.|1990|
175799|T||Meyer,R.E., and R.W. Bovey|Response of Yankeeweed (Eupatorium compositifolium) and Associated Pasture Plants to Herbicides|Weed Technol.5(1): 214-217|1991|10.1017/S0890037X00033558
175801|T||Hall,J.C., and W.H. Vanden Born|The Absence of a Role of Absorption, Translocation, or Metabolism in the Selectivity of Picloram and Clopyralid in Two Plant Species|Weed Sci.36(1): 9-14|1988|10.1017/S0043174500074373
175802|T||Wilson,R.G., and S.D. Kachman|Effect of Perennial Grasses on Canada Thistle (Cirsium arvense) Control|Weed Technol.13(1): 83-87|1999|10.1017/S0890037X0004495X
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175804|T||Horak,M.J., and L.M. Wax|Control of Bigroot Morningglory (Ipomoea pandurata)|Weed Technol.6(4): 824-827|1992|10.1017/S0890037X00036332
175805|T||Rolando,C.A., M.S. Watt, C. Todoroki, D. Henley, and A. Leckie|Herbicide Options for Managing Competitive Vegetation During the Establishment of Pinus radiata and Pseudotsuga menziesii var. menziesii in Southland, New Zealand|N. Z. J. For. Sci.47(1): 13 p.|2017|10.1186/s40490-016-0076-9
175806|T||Khan,A.R., M. Ijaz, I.U. Haq, A. Farzand, and M. Tariqjaved|Management of Cercospora Leaf Spot of Groundnut (Cercospora arachidicola & Cercosporidium personatum) Through the Use of Systemic Fungicides|Cercet. Agron. Moldova47(2): 97-102|2014|10.2478/cerce-2014-0020
175807|T||Nault,B.A., C.L. Hsu, and C.A. Hoepting|Consequences of Co-Applying Insecticides and Fungicides for Managing Thrips tabaci (Thysanoptera: Thripidae) on Onion|Pest Manag. Sci.69(7): 841-849|2013|10.1002/ps.3444
175808|A||Zhu,L., X. Mu, K. Wang, T. Chai, Y. Yang, L. Qiu, and C. Wang|Cyhalofop-Butyl has the Potential to Induce Developmental Toxicity, Oxidative Stress and Apoptosis in Early Life Stage of Zebrafish (Danio rerio)|Environ. Pollut.203:40-49|2015|10.1016/j.envpol.2015.03.044
175809|T||Bradley,K.W., E.S.,Jr. Hagood, K.P. Love, and R.D. Heidel|Response of Biennial and Perennial Weeds to Selected Herbicides and Prepackaged Herbicide Combinations in Grass Pastures and Hay Fields|Weed Technol.18(3): 795-800|2004|10.1614/WT-03-202R1
175810|T||Wise,J.C., and L.J. Gut|Peach, Control of Oriental Fruit Moth, 1998|Arthropod Manag. Tests24:61-62|1999|
175811|T||Hall,J.C., P.K. Bassi, M.S. Spencer, and W.H. Vanden Born|An Evaluation of the Role of Ethylene in Herbicidal Injury Induced by Picloram or Clopyralid in Rapeseed and Sunflower Plants|Plant Physiol.79(1): 18-23|1985|10.1104/pp.79.1.18
175812|T||South,D.B.|Tolerance of Southern Pine Seedlings to Clopyralid|South. J. Appl. For.24(1): 51-56|2000|10.1093/sjaf/24.1.51
175814|T||O'Sullivan,P.A., and K.J. Kirkland|Control of Avena fatua L. and Cirsium arvense (L.) Scop. with Mixtures of 3,6-Dichloropicolinic Acid and Four Herbicides for Control of A. fatua|Weed Res. (Multiple Languages)24(1): 23-28|1984|10.1111/j.1365-3180.1984.tb00567.x
175815|T||Yu,G.B., Y. Zhang, G.J. Ahammed, X.J. Xia, W.H. Mao, K. Shi, Y.H. Zhou, and J.Q. Yu|Glutathione Biosynthesis and Regeneration Play an Important Role in the Metabolism of Chlorothalonil in Tomato|Chemosphere90(10): 2563-2570|2013|10.1016/j.chemosphere.2012.10.100
175816|T||Clay,D.V.|Evaluation of Herbicides for Post-Emergence Control of Galium aparine|Tests Agrochem. Cultiv.4:118-119|1983|
175817|T||Jin,X., N. Cui, W. Zhou, M.S. Khorram, D. Wang, and Y. Yu|Soil Genotoxicity Induced by Successive Applications of Chlorothalonil Under Greenhouse Conditions|Environ. Toxicol. Chem.33(5): 1043-1047|2014|10.1002/etc.2538
175818|T||Clay,D.V.|The Tolerance of Blackcurrants to Shoot and Root Applications of 30 Herbicides|Proc. Br. Crop Prot. Conf. Weeds3:1065-1072|1985|
175819|T||Clay,D.V., and T.M. West|The Response to Triazine Resistant and Susceptible Biotypes of Erigeron canadensis to 23 Herbicides|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3, Pt. b): 1195-1205|1987|
175820|T||Carrithers,V.F.|Transline Herbicide in Rangeland and Wildlife Habitat Restoration|Proc. Calif. Weed Sci. Soc.50:138-141|1998|
175821|T||Wetzel,D.K., M.J. Horak, D.Z. Skinner, and P.A. Kulakow|Transferal of Herbicide Resistance Traits from Amaranthus palmeri to Amaranthus rudis|Weed Sci.47(5): 538-543|1999|10.1017/S0043174500092237
175822|T||Sheley,R.L.|Revegetating Russian Knapweed (Acroptilon repens) and Green Rabbitbrush (Ericameria teretifolia) Infested Rangeland in a Single Entry|Weed Sci.55(4): 365-370|2007|10.1614/WS-06-206
175823|A||Karaaslan,M.A., and H. Parlak|The Embryotoxic and Genotoxic Effects of Widely Used beta Blockers on Sea Urchin (Paracentrotus lividus) Embryos|Fresenius Environ. Bull.25(12A): 6100-6105|2016|
175824|T||Miller,T.W., and C.R. Libbey|Sensitivity of Red Raspberry to Several Herbicides with Potential to Aid in the Control of Perennial Weeds|Acta Hortic.(946): 317-321|2012|10.17660/ActaHortic.2012.946.52
175825|T||Whisenant,S.G.|Control of Threadleaf Rubber Rabbitbrush with Herbicides|J. Range Manag.41(6): 470-472|1988|10.2307/3899518
175826|T||Wallace,J.M., T.S. Prather, and L.M. Wilson|Plant Community Response to Integrated Management of Meadow Hawkweed (Hieracium caespitosum) in the Pacific Northwest|Invasive Plant Sci. Manag.3(3): 268-275|2010|10.1614/IPSM-09-012.1
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175828|T||Tyser,R.W., J.M. Asebrook, R.W. Potter, and L.L. Kurth|Roadside Revegetation in Glacier National Park, U.S.A.: Effects of Herbicide and Seeding Treatments|Restor. Ecol.6(2): 197-206|1998|10.1111/j.1526-100X.1998.06211.x
175829|T||Hohn,F.M., and D.L. Wagner|Larval Substrates of Herminiine Noctuids (Lepidoptera): Macrodecomposers of Temperate Leaf Litter|Environ. Entomol.29(2): 207-212|2000|10.1093/ee/29.2.207
175830|T||Hall,M., and M. Burns|Weed Control Among Planted and Direct-Seeded Eucalyptus, Acacia and Casuarina with the Herbicides Diphenamid, Oryzalin, Clopyralid and Fluazifop-Butyl|Aust.For.54(1/2): 16-22|1991|10.1080/00049158.1991.10674552
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175834|T||Ralphs,M.H., and M.C. Williams|Total Alkaloid, Crude Protein, and Fiber Concentrations in Velvet Lupine (Lupinus leucophyllus) Following Herbicide Application|Weed Sci.34(6): 948-952|1986|10.1017/S0043174500068156
175835|T||Harrison,J.G.|Effects of Chlorothalonil on Disease Severity and Yield of Faba Bean (Vicia faba) in Scotland|FABIS Newsl.9:37-40|1984|
175836|T||Mayeux,H.S.,Jr., and R.W. Bovey|Response of Huisache (Acacia farnesiana) Seedlings to Herbicides Applied with a Model Carpeted Roller|Weed Technol.3(2): 232-237|1989|10.1017/S0890037X00031730
175837|T||Hernandez-Dorrego,A., and J.M. Pares|Evaluation of Some Fungicides on Mycorrhizal Symbiosis Between Two Glomus Species from Commercial Inocula and Allium porrum L. Seedlings|Spanish J. Agric. Res.8(S1): S43-S50|2010|10.5424/sjar/201008S1-1222
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175842|T||Mancino,C.F., D.D. Holdren, L. Tredway, M.D. Soika, and W. Uddin|Influence of Mancozeb Fungicides, Chlorothalonil, Manganese and Zinc on Bentgrass Color and Disease Incidence|J. Turfgrass Manag.3(1): 13-22|1999|
175843|T||Cralle,H.T., and R.W. Bovey|Total Nonstructural Carbohydrates and Regrowth in Honey Mesquite (Prosopis glandulosa) Following Hand Defoliation or Clopyralid Treatment|Weed Sci.44(3): 566-569|1996|10.1017/S0043174500094340
175844|T||Sheldrake,R.,Jr., and J. Rodebaugh|Phytotoxicity Studies with Tetrachloroisophthalonitrile (Termil) on 12 Cultivars of Poinsettia (Euphorbia pulcherrima)|Hortscience4(2): 93-94|1969|10.21273/HORTSCI.4.2.93
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175847|A||Oetken,M., K.U. Ludwichowski, and R. Nagel|Validation of the Preliminary EU-Concept of Assessing the Impact of Chemicals to Organisms in Sediment by Using Selected Substances|Institute of Hydrobiology, Dresden University of Technology, German Federal Environmental Agency, Berlin:97 p.|2001|
175848|T||Wang,B.L., Y.X. Shi, S.J. Zhang, Y. Ma, H.X. Wang, L.Y. Zhang, W. Wei, X.H. Liu, Y.H. Li, Z.M. Li, and B.J. Li|Syntheses, Biological Activities and SAR Studies of Novel Carboxamide Compounds Containing Piperazine and Arylsulfonyl Moieties|Eur. J. Med. Chem.117:167-178|2016|10.1016/j.ejmech.2016.04.005
175849|T||Ralphs,M.H., L.V. Mickelsen, D.L. Turner, and D.B. Nielsen|Control of White Locoweed (Oxytropis sericea)|Weed Sci.36(3): 353-358|1988|10.1017/S0043174500075007
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175851|T||Satou,M., K. Sumitomo, and Y. Chikuo|Cultivar Resistance, Infection Sources, and Effective Fungicides Identified to Control Chrysanthemum Cutting Rot Caused by Plectosporium tabacinum|J. Gen. Plant Pathol.79(3): 168-174|2013|10.1007/s10327-013-0446-6
175853|T||Jacoby,P.W., C.H. Meadors, and M.A. Foster|Control of Honey Mesquite (Prosopis juliflora var. glandulosa) with 3,6-Dichloropicolinic Acid|Weed Sci.29(4): 376-378|1981|10.1017/S0043174500039825
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175859|T||Patch,N.L., D. Geesing, and P. Felker|Suppression of Resprouting in Pruned Mesquite (Prosopis glandulosa var glandulosa) Saplings with Chemical or Physical Barrier Treatments|For. Ecol. Manag.112(1/2): 23-29|1998|10.1016/S0378-1127(98)00303-X
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175861|T||Jacoby,P.W., R.J. Ansley, C.H. Meadors, and C.J. Cuomo|Control of Honey Mesquite with Herbicides: Influence of Stem Number|J. Range Manag.43(1): 36-38|1990|10.2307/3899117
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175864|T||Yin,Y.L., Y. Zhou, Y.H. Zhou, K. Shi, J. Zhou, Y. Yu, J.Q. Yu, and X.J. Xia|Interplay Between Mitogen-Activated Protein Kinase and Nitric Oxide in Brassinosteroid-Induced Pesticide Metabolism in Solanum lycopersicum|J. Hazard. Mater.316:221-231|2016|10.1016/j.jhazmat.2016.04.070
175865|T||Weirich,J.W.|Alternative Control Practices for Amaranthus palmeri Resistant to Acetolactate Synthase Inhibiting Herbicides in Oklahoma Peanut Fields|M.S.Thesis, Oklahoma State University, Stillwater, OK:63 p.|2007|
175866|T||Paul,P.A., and M.W. Wallhead|Foliar Fungicide Effect on Yield and Disease Severity of Hybrid Corn in Ohio, 2010|Plant Dis. Manag. Rep.5:1 p.|2011|
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175868|T||Paul,P.A., and M.W. Wallhead|Fungicide Effect on Foliar Leaf Diseases and Stalk Rot Severity and Yield of Hybrid Corn in Ohio, 2009|Plant Dis. Manag. Rep.5:1 p.|2011|
175869|T||Paul,P.A., and M.W. Wallhead|Foliar Fungicide Effect on Gray Leaf Spot and Northern Corn Leaf Blight Severity and Yield of Hybrid Corn in Ohio, 2009|Plant Dis. Manag. Rep.5:1 p.|2011|
175870|A||Brown,J.M.|Net Effects of Batrachochytrium dendrobatidis (Bd) and Fungicides on Anurans Across Life Stages|M.S.Thesis, University of South Florida, Tampa, FL:48 p.|2013|
175871|T||Paul,P.A., and M.W. Wallhead|Foliar Fungicide Effect on Gray Leaf Spot Severity and Yield in Continuous Corn in Ohio, 2009|Plant Dis. Manag. Rep.5:1 p.|2011|
175872|T||Holm,R.E., and L.J. Edgerton|Enhancement of Ethephon-Induced Fruit Maturity with Chlorothalonil|J. Am. Soc. Hortic. Sci.101(6): 661-664|1976|10.21273/JASHS.101.6.661
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175874|T||Paul,P.A., and M.W. Wallhead|Foliar Fungicide Effect on Gray Leaf Spot Severity and Yield of Hybrid Corn in Ohio, 2009|Plant Dis. Manag. Rep.5:1 p.|2011|
175876|T||Chatzicharisis,I., T. Thomidis, C. Tsipouridis, E. Mourkidou-Papadopoulou, and Z. Vryzas|Residues of Six Pesticides in Fresh Peach- Nectarine Fruits After Preharvest Treatment|Phytoparasitica40(4): 311-317|2012|10.1007/s12600-012-0231-7
175877|T||Bedos,C., M.F. Rousseau-Djabri, B. Loubet, B. Durand, D. Flura, O. Briand, and E. Barriuso|Fungicide Volatilization Measurements: Inverse Modeling, Role of Vapor Pressure, and State of Foliar Residue|Environ. Sci. Technol.44(7): 2522-2528|2010|10.1021/es9030547
175878|T||Engstrom,E.|Weed Control in Winter Oilseeds with 3,6-Dichloropicolinic Acid + Benazolin|Weeds Weed Control17:F1-F5|1976|
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175887|T||Bernauer,O.M., H.R. Gaines-Day, and S.A. Steffan|Colonies of Bumble Bees (Bombus impatiens) Produce Fewer Workers, Less Bee Biomass, and Have Smaller Mother Queens Following Fungicide Exposure|Insects6(2): 478-488|2015|10.3390/insects6020478
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175890|A||Baier-Anderson,C., and R.S. Anderson|Characterization of the Immunotoxicity of Chlorothalonil to Striped Bass Phagocytes Following In Vitro Exposure|Mar. Environ. Res.46(1-5): 337-340|1998|10.1016/S0141-1136(97)00038-X
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175895|A||Saito,H., S. Iwami, and T. Shigeoka|In Vitro Cytotoxicity of 45 Pesticides to Goldfish GF-Scale (GFS) Cells|Chemosphere23(4): 525-537|1991|10.1016/0045-6535(91)90202-O
175896|T||Culbreath,A.K., T.B. Brenneman, and R.C.,Jr. Kemerait|Applications of Mixtures of Copper Fungicides and Chlorothalonil for Management of Peanut Leaf Spot Diseases|Plant Health Prog.:9 p.|2001|
175897|T||Antoun,H., L. Couture, and H. Guilmette|Effect of Some Systemic and Protectant Fungicides on Growth of Verticillium albo-atrum, Rhizobium meliloti and Lucerne Seedlings in the Laboratory|Prot. Ecol.6(4): 279-286|1984|
175898|A||Gallagher,E.P., G.L. Kedderis, and R.T. Di Giulio|Glutathione S-Transferase-Mediated Chlorothalonil Metabolism in Liver and Gill Subcellular Fractions of Channel Catfish|Biochem. Pharmacol.42(1): 139-145|1991|10.1016/0006-2952(91)90692-X
175899|A||Johansson,P., K.M. Eriksson, L. Axelsson, and H. Blanck|Effects of Seven Antifouling Compounds on Photosynthesis and Inorganic Carbon Use in Sugar Kelp Saccharina latissima (Linnaeus)|Arch. Environ. Contam. Toxicol.63(3): 365-377|2012|10.1007/s00244-012-9778-z
175900|A||DeLorenzo,M.E., and M.H. Fulton|Comparative Risk Assessment of Permethrin, Chlorothalonil, and Diuron to Coastal Aquatic Species|Mar. Pollut. Bull.64(7): 1291-1299|2012|10.1016/j.marpolbul.2012.05.011
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175902|A||Alza,C.M., M.A. Donnelly, and S.M. Whitfield|Additive Effects of Mean Temperature, Temperature Variability, and Chlorothalonil to Red-Eyed Treefrog (Agalychnis callidryas) Larvae|Environ. Toxicol. Chem.35(12): 2998-3004|2016|10.1002/etc.3484
175903|A||Du Gas,L.M., P.S. Ross, J. Walker, V.L. Marlatt, and C.J. Kennedy|Effects of Atrazine and Chlorothalonil on the Reproductive Success, Development, and Growth of Early Life Stage Sockeye Salmon (Oncorhynchus nerka)|Environ. Toxicol. Chem.36(5): 1354-1364|2017|10.1002/etc.3753
175904|A||Johnson,L.A., B. Welch, and S.M. Whitfield|Interactive Effects of Pesticide Mixtures, Predators, and Environmental Regimes on the Toxicity of Two Pesticides to Red-Eyed Tree Frog Larvae|Environ. Toxicol. Chem.32(10): 2379-2386|2013|10.1002/etc.2319
175905|T||Burnell,K.D., F.H. Yelverton, J.C. Neal, T.W. Gannon, and J.S. McElroy|Control of Silvery-Thread Moss (Bryum argenteum Hedw.) in Creeping Bentgrass (Agrostis palustris Huds.) Putting Greens|Weed Technol.18(3): 560-565|2004|10.1614/WT-03-082R1
175906|A||Zhang,Q., C. Ji, L. Yan, M. Lu, C. Lu, and M. Zhao|The Identification of the Metabolites of Chlorothalonil in Zebrafish (Danio rerio) and Their Embryo Toxicity and Endocrine Effects at Environmentally Relevant Levels|Environ. Pollut.218:8-15|2016|10.1016/j.envpol.2016.08.026
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175908|T||Sumner,D.R., S.C. Phatak, D. Smittle, A.W. Johnson, and N.C. Glaze|Control of Cucumber Foliar Diseases, Fruit Rot, and Nematodes by Chemicals Applied Through Overhead Sprinkler Irrigation|Plant Dis.65(5): 401-404|1981|10.1094/PD-65-401
175909|T||Budai,P., R. Szabo, J. Lehel, E. Kormos, A. Takacs, A. Tatai, and G. Somody|Toxicity of Chlorothalonil Containing Formulation and Cu-Sulphate to Chicken|Commun. Agric. Appl. Biol. Sci.77(4): 449-454|2012|
175910|T||Ostry,M.E., and T.H. Nicholls|Effect of Lophodermium seditiosum on Growth of Pine Nursery Seedlings in Wisconsin|Plant Dis.73(10): 798-800|1989|10.1094/PD-73-0798
175911|T||Sandler,H.A.|Application of Antitranspirant and Reduced Rate Fungicide Combinations for Fruit Rot Management in Cranberries|Plant Dis.79(9): 956-961|1995|10.1094/PD-79-0956
175912|T||Campbell,C.L., and J.A. Duthie|Impact of Leaf Spot Diseases on Yield and Quality of Alfalfa in North Carolina|Plant Dis.74(3): 241-245|1990|10.1094/PD-74-0241
175914|T||Shekoofa,A., P. Rosas-Anderson, D.S. Carley, T.R. Sinclair, and T.W. Rufty|Limited Transpiration Under High Vapor Pressure Deficits of Creeping Bentgrass by Application of Daconil-Action|Planta (Multiple Languages)243(2): 421-427|2016|10.1007/s00425-015-2417-y
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175917|T||Hildebrand,G.L., and K.R. Bock|Effect of Timing of Single Applications of Fungicide on Groundnut Yield|ICRISAT Rep.:3-7|1990|
175918|A||Porsbring,T., T. Backhaus, P. Johansson, M. Kuylenstierna, and H. Blanck|Mixture Toxicity from Photosystem II Inhibitors on Microalgal Community Succession is Predictable by Concentration Addition|Environ. Toxicol. Chem.29(12): 2806-2813|2010|10.1002/etc.346
175919|T||Samuelian,S., C. Wright, and L.L. Vawdrey|Evaluation of Chlorothalonil and Paraffinic Oil Alone and in Combinations with Registered Fungicides for the Control of Yellow Sigatoka (Mycosphaerella musicola) of Bananas in Northern Queensland, Australia|Crop Prot.82:45-50|2016|10.1016/j.cropro.2016.01.002
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175921|T||Walgenbach,J.F., P.B. Shoemaker, and K.A. Sorenson|Timing Pesticide Applications for Control of Heliothis zea (Boddie) (Lepidoptera: Noctuidae), Alternaria solani (Ell. and G. Martin) Sor., and Phytophthora infestans (Mont.) De Bary, on Tomatoes in Western North Carolin|J. Agric. Entomol.6(3): 159-168|1989|
175922|T||Culbreath,A.K., T.B. Brenneman, and F.M. Shokes|Quantitative Comparison of Stem Lesions Caused by Cercosporidium personatum in Florunner and Southern Runner Peanut Cultivars|Peanut Sci.18(2): 116-121|1991|10.3146/i0095-3679-18-2-14
175923|T||Trueman,C.L., M.R. Mcdonald, B.D. Gossen, and A.W. Mckeown|Evaluation of Disease Forecasting Programs for Management of Septoria Late Blight (Septoria apiicola) on Celery|Can. J. Plant Pathol.29(4): 330-339|2007|10.1080/07060660709507479
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175925|T||Shtienberg,D., S.N. Bergeron, D.E. Legard, A.T. Dyer, and W.E. Fry|Incorporation of Cultivar Resistance in a Reduced-Sprays Strategy to Suppress Early and Late Blights on Potato|Plant Dis.78(1): 23-26|1994|10.1094/PD-78-0023
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175928|T||Feng,M.G., and Q. Xu|Quantitative Assessment of the Infection Rate of the Entomophthoraceous Fungus, Zoophthora anhuiensis Against the Green Peach Aphid Myzus persicae|J. Zhejiang Univ., Sci. A4(1): 95-100|2003|10.1631/jzus.2003.0095
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175931|T||Ozgen,M., and J.P. Palta|A Natural Lipid, Lysophosphatidylethanolamine (LPE), can Mitigate Adverse Effect of Fungicide, Chlorothalonil, on Fruit Set and Yield in Cranberries|Acta Hortic.628(2): 747-752|2003|10.17660/ActaHortic.2003.628.94
175932|T||Patterson,J.M., S.E. Nokes, M.A. Bennett, and R.E. Riedel|Evaluation of Residual Chlorothalonil Levels on Processing Tomato Foliage Using the TOM-CAST Spray Program|Appl. Eng. Agric.17(4): 445-448|2001|10.13031/2013.6459
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175936|T||Mustu,M., F. Demirci, M.B. Kaydan, and S. Ulgenturk|Laboratory Assay of the Effectiveness of the Entomopathogenic Fungus Isaria farinosa (Holmsk.) Fries (Sordariomycetes: Hypocreales) Against the Vine Mealybug Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae), eve|Int. J. Pest Manag.61(3): 264-271|2015|10.1080/09670874.2015.1047811
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175939|T||Rothwell,N.L.|Effects of Maintenance and Cultural Practices on Ataenius spretulus Haldeman (Coleoptera: Scarabaeidae) and Their Natural Enemies on Golf Course Turf|Ph.D. Thesis, Michigan State University, East Lansing, MI:114 p.|1997|
175940|T||Turner,N.J., and R. Battershell|The Relationship Between Chemical Reactivity, Oil: Water Partitioning, and Temperature on the Rate of Fungicidal Action of Tetrachloroisophthalonitrile and Some of Its Analogues|Contrib. Boyce Thompson Inst.24(10): 203-212|1970|
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175942|T||Wilson,J.P., and R.N. Gates|Disease Resistance and Biomass Stability of Forage Pearl Millet Hybrids with Partial Rust Resistance|Plant Dis.83(8): 733-738|1999|10.1094/PDIS.1999.83.8.733
175944|T||Esau,T.J., Q.U. Zaman, Y.K. Chang, A.W. Schumann, D.C. Percival, and A.A. Farooque|Spot-Application of Fungicide for Wild Blueberry Using an Automated Prototype Variable Rate Sprayer|Precis. Agric.15(2): 147-161|2014|10.1007/s11119-013-9319-4
175946|T||Reicher,Z.J.|Non-Target Effects of Fungicides on Creeping Bentgrass (Agrostis palustris Huds.)|Ph.D.Thesis, Purdue University, West Lafayette, IN:105 p.|1993|
175947|T||Chen,S.K.|Use of Key Indicator Processes to Assess the Effects of Fungicides on Soil Microbial Processes and Nitrogen Dynamics|Ph.D. Thesis, The Ohio State University, Columbus, OH:167 p.|1997|
175948|T||Chen,S.K., C.A. Edwards, and S. Subler|Effects of the Fungicides Benomyl, Captan and Chlorothalonil on Soil Microbial Activity and Nitrogen Dynamics in Laboratory Incubations|Soil Biol. Biochem.33:1971-1980|2001|10.1016/S0038-0717(01)00131-6
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175950|T||Raya,M.D.|Field Control of Groundnut Foliar Diseases by Fungicides in Tanzania|ICRISAT Rep.:55-57|1989|
175951|T||Woodward,J.E., N.R. Walker, J.W. Dillwith, H. Zhang, and D.L. Martin|The Influence of Fungicides on Arthrobotrys oligospora in Simulated Putting Green Soil|Ann. Appl. Biol.146(1): 115-121|2005|10.1111/j.1744-7348.2005.04043.x
175952|T||Theberge,R.L.|Late Leaf Spot Management Strategies for Peanut Production in South China|Ph.D Thesis, Pennsylvania State University, University Park, PA:89 p.|1983|
175953|T||Obear,G.R., A.W. Adesanya, P.J. Liesch, R.C. Williamson, and D.W. Held|Fungicides Affect Japanese Beetle Popillia japonica (Coleoptera: Scarabaeidae) Egg Hatch, Larval Survival and Detoxification Enzymes|Pest Manag. Sci.72(5): 966-973|2016|10.1002/ps.4076
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175955|T||Ferguson,J.S.|Factors Affecting Green Peach Aphid, Myzus persicae (Sulzer), Populations on Potatoes|Ph.D Thesis, University of Wisconsin, Madison, WI:238 p.|1982|
175956|T||Moorhouse,E.R., A.T. Gillespie, E.K. Sellers, and A.K. Charnley|Influence of Fungicides and Insecticides on the Entomogenous Fungus Metarhizium anisopliae, a Pathogen of the Vine Weevil, Otiorhynchus sulcatus|Biocontrol Sci. Technol.2(1): 49-58|1992|10.1080/09583159209355217
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175958|T||Coolong,T., and K. Seebold|Impact of Fungicide Program and Powdery Mildew Resistance in Three Varieties of Pumpkin|HortTechnology21(5): 533-538|2011|10.21273/HORTTECH.21.5.533
175959|T||Bretag,T.W., W.J. MacLeod, R.B.E. Kimber, K.J. Moore, E.J.C. Knights, and J.A. Davidson|Management of Ascochyta Blight in Chickpeas in Australia|Australas. Plant Pathol.37(5): 486-497|2008|10.1071/AP08046
175960|T||Takai,Y., Y. Kitazawa, Y.C. Sol, and H. Wada|Long-Term Effects of Pesticide Application on Soil Community|In: J.Szegi (Ed.), Proceedings of the 9th International Symposium on Soil Biology and Conservation of the Biosphere, Szegi, Budapest:137-151|1987|
175961|T||Olanya,O.M., and R.P. Larkin|Efficacy of Essential Oils and Biopesticides on Phytophthora infestans Suppression in Laboratory and Growth Chamber Studies|Biocontrol Sci. Technol.16(9): 901-917|2006|10.1080/09583150600827918
175962|T||Wale,S.J., and S. Oxley|An Evaluation of the Potential of Reduced Dose Fungicide Programmes in Winter Wheat|Br. Crop Prot. Conf. Pests Dis.:603-608|1992|
175963|T||Hanks,G.R.|Yield and Basal Rot in Narcissus Bulbs Treated with Post-Lifting Fungicide Sprays|Tests Agrochem. Cultiv.15:66-67|1994|
175964|T||Culbreath,A.K., T.B. Brenneman, and R.C.,Jr. Kemerait|Management of Early Leaf Spot of Peanut with Pyraclostrobin as Affected by Rate and Spray Interval|Plant Health Prog.:9 p.|2002|
175965|T||Bowen,K.L., A.K. Hagan, H.L. Campbell, and L. Wells|Comparison of Calendar and AU-Pnut Advisory Programs with Azoxystrobin for the Control of Leaf Spot and Southern Stem Rot on Peanut|Peanut Sci.33(2): 76-82|2006|10.3146/0095-3679(2006)33[76:COCAAA]2.0.CO;2
175966|T||Sumner,D.R., and D.A. Smittle|Influence of Chlorothalonil, Nitrogen, and Tillage Practices on Cercospora Leafspots and Rust in Southernpea (Vigna unguiculata (L.) Walp)|Hortscience14(3): 266-268|1979|10.21273/HORTSCI.14.3.266
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175968|T||Wenner,N.G., and W. Merrill|Control of Cyclaneusma Needlecast on Scots Pine in Pennsylvania|Gen. Tech. Rep. WO56:27-33|1990|
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175970|T||Yang,C., J.W. Pflugrath, D.L. Camper, M.L. Foster, D.J. Pernich, and T.A. Walsh|Structural Basis for Herbicidal Inhibitor Selectivity Revealed by Comparison of Crystal Structures of Plant and Mammalian 4-Hydroxyphenylpyruvate Dioxygenases|Biochemistry (Wash.)43(32): 10414-10423|2004|10.1021/bi049323o
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175973|T||Hagan,A.K., K.L. Bowen, H.L. Campbell, and L. Wells|Calendar-Based and AU-Pnuts Advisory Programs with Pyraclostrobin and Chlorothalonil for the Control of Early Leaf Spot and Stem Rot on Peanut|Peanut Sci.34(2): 114-121|2007|10.3146/0095-3679(2007)34[114:CAAAPW]2.0.CO;2
175974|T||Dayan,F.E., N. Singh, C.R. McCurdy, C.A. Godfrey, L. Larsen, R.T. Weavers, J.W. Van Klink, and N.B. Perry|beta-Triketone Inhibitors of Plant p-Hydroxyphenylpyruvate Dioxygenase: Modeling and Comparative Molecular Field Analysis of Their Interactions|J. Agric. Food Chem.57(12): 5194-5200|2009|10.1021/jf9005593
175975|T||Mougin,C., F.D. Boyer, E. Caminade, and R. Rama|Cleavage of the Diketonitrile Derivative of the Herbicide Isoxaflutole by Extracellular Fungal Oxidases|J. Agric. Food Chem.48(10): 4529-4534|2000|10.1021/jf000397q
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175978|T||Kucharski,J., M. Tomkiel, M. Bacmaga, A. Borowik, and J. Wyszkowska|Enzyme Activity and Microorganisms Diversity in Soil Contaminated with the Boreal 58WG Herbicide|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes51(7): 446-454|2016|
175979|T||Stoklosa,A., R. Nandanavanam, U. Puczel, and M.K. Upadhyaya|Influence of Isoxaflutole on Colonization of Corn (Zea mays L.) Roots with Arbuscular Mycorrhizal Fungus Glomus intraradices|Can. J. Plant Sci.91(1): 143-145|2011|10.4141/cjps10077
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175981|T||Celar,F.A., and K. Kos|Effects of Selected Herbicides and Fungicides on Growth, Sporulation and Conidial Germination of Entomopathogenic Fungus Beauveria bassiana|Pest Manag. Sci.72(11): 2110-2117|2016|10.1002/ps.4240
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175983|T||Andr,J., V. Hejnak, M. Jursik, and V. Fendrychova|Effects of Application Terms of Three Soil Active Herbicides on Herbicide Efficacy and Reproductive Ability for Weeds in Maize|Plant Soil Environ.60(10): 452-458|2014|10.17221/561/2014-PSE
175984|T||Ozgen,M.|Modulation of Fruit Ripening and Plant Senescence by a Natural Lipid Lysophosphatidylethanolamine (LPE)|Ph.D Thesis, University of Wisconsin, Madison, WI:153 p.|2002|
175985|T||Song,J.S., S.H. Lim, Y. Lim, G. Nah, D. Lee, and D.S. Kim|Herbicide-Based Weed Management in Miscanthus sacchariflorus|BioEnergy Res.9(1): 326-334|2016|10.1007/s12155-015-9693-z
175986|T||Reid,B.L., and G.W. Bennett|Speed of Action in Cockroach Baits, 1989|Insectic. Acaric. Tests17:391-|1992|10.1093/iat/17.1.391
175987|T||Reid,B.L., and G.W. Bennett|Oral Toxicity of Cockroach Bait Toxins, 1989|Insectic. Acaric. Tests17:380-|1992|10.1093/iat/17.1.380
175988|T||Greenberg,L., D. Reierson, and M.K. Rust|Fipronil Trials in California Against the Red Imported Fire Ants, Solenopsis invicta Buren, Using Sugar Water Consumption and Mound Counts as Measures of Ant Abundance|J. Agric. Urban Entomol.20(4): 221-233|2003|
175989|T||Lee,C.Y., L.C. Lee, J.P.S. Na, P.Y. Loke, K.T. Lim, and E.H.H. Teo|Evaluation of Methoprene Granular Baits Against Foraging Pharaoh Ants, Monomorium pharaonis (Hymenoptera : Formicidae)|Sociobiology41(3): 717-723|2003|
175990|T||Shahraki,G.H., M.N. Hafidzi, M.S. Khadri, J. Rafinejad, and Y.B. Ibrahim|Cost-Effectiveness of Integrated Pest Management Compared with Insecticidal Spraying Against the German Cockroach in Apartment Buildings|Neotrop. Entomol. (Multiple Languages)40(5): 607-612|2011|
175991|T||Decio,P., E.C.M. Silva-Zacarin, F.C. Bueno, and O.C. Bueno|Toxicological and Histopathological Effects of Hydramethylnon on Atta sexdens rubropilosa (Hymenoptera: Formicidae) Workers|Micron45:22-31|2013|10.1016/j.micron.2012.10.008
175992|T||Da Silva Souza,E.H.L., P.A. Follett, D.K. Price, and E.A. Stacy|Field Suppression of the Invasive Ant Wasmannia auropunctata (Hymenoptera: Formicidae) in a Tropical Fruit Orchard in Hawaii|J. Econ. Entomol.101(4): 1068-1074|2008|10.1603/0022-0493(2008)101[1068:FSOTIA]2.0.CO;2
175993|T||Nondillo,A., C.C. Chaves, F.B. Fialho, O.C. Bueno, and M. Botton|Evaluation of Insecticides for the Control of Linepithema micans (Hymenoptera: Formicidae)|J. Econ. Entomol.107(1): 215-222|2014|10.1603/EC13255
175994|T||Sims,S.R., and A.G. Appel|Efficacy of Commercial Baits and New Active Ingredients Against Firebrats and Silverfish (Zygentoma: Lepismatidae)|J. Econ. Entomol.105(4): 1385-1391|2012|10.1603/EC12084
175995|T||Fouche,C., D. Brunmeier, W. Rogers, and D. Colbert|Control of Southern Fire Ants and Pavement Ants in Almond Orchards Using Baits, 1998|Arthropod Manag. Tests24:83-|1999|
175996|T||Grafton-Cardwell,E.E., and C.A. Reagan|Southern Fire Ant Insecticide Efficacy Trial, 1998|Arthropod Manag. Tests24:92-|1999|
175997|T||Kaakeh,W., M.E. Scharf, B.L. Reid, G.W. Bennett, and T.J. Bohnert|Field Trials of Cockroach Bait, 1992-1993|Arthropod Manag. Tests19:355-|1994|10.1093/amt/19.1.355
175998|T||Scott,J.G.|Toxicity of Abamectin and Hydramethylnon to Insecticide-Susceptible and Resistant Strains of German Cockroach (Dictyoptera: Blattellidae)|J. Agric. Entomol.8(2): 77-82|1991|
175999|T||Hara,A.H., and T.Y. Hata|Ant Control on Protea in Hawaii|Sci. Hortic.51:155-163|1992|10.1016/0304-4238(92)90114-R
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176001|A||Boscolo,C.N.P., T.S.B. Pereira, I.G. Batalhao, P.L.R. Dourado, D. Schlenk, and E.A. De Almeida|Diuron Metabolites Act as Endocrine Disruptors and Alter Aggressive Behavior in Nile Tilapia (Oreochromis niloticus)|Chemosphere191:832-838|2018|10.1016/j.chemosphere.2017.10.009
176003|T||Reid,B.L., and G.W. Bennett|Field Trials of Cockroach Baits, 1989|Insectic. Acaric. Tests17:375-|1992|10.1093/iat/17.1.375
176004|T||Dayan,F.E., and M.L.M. Zaccaro|Chlorophyll Fluorescence as a Marker for Herbicide Mechanisms of Action|Pestic. Biochem. Physiol.102(3): 189-197|2012|10.1016/j.pestbp.2012.01.005
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176006|T||Datta,A., B.M. Sindel, P. Kristiansen, R.S. Jessop, and W.L. Felton|Effect of Isoxaflutole on the Growth, Nodulation and Nitrogen Fixation of Chickpea (Cicer arietinum L.)|Crop Prot.28(11): 923-927|2009|10.1016/j.cropro.2009.07.009
176007|T||Ditschun,S., N. Soltani, D.E. Robinson, F.J. Tardif, A.C. Kaastra, and P.H. Sikkema|Control of Glyphosate-Resistant Canada Fleabane (Conyza canadensis (L.) Cronq.) with Isoxaflutole and Metribuzin Tank Mix|Can. J. Plant Sci.96:72-80|2016|10.1139/cjps-2015-0121
176009|T||Hausman,N.E., P.J. Tranel, D.E. Riechers, D.J. Maxwell, L.C. Gonzini, and A.G. Hager|Responses of an HPPD Inhibitor-Resistant Waterhemp (Amaranthus tuberculatus) Population to Soil-Residual Herbicides|Weed Technol.27(4): 704-711|2013|10.1614/WT-D-13-00032.1
176010|T||Kaur,H., Inderjit, and P.C. Bhowmik|Phytotoxicity of Isoxaflutole to Phalaris minor Retz.|Plant Soil258(1): 161-168|2004|10.1023/B:PLSO.0000016547.02218.c8
176011|T||Kaushik,S., and Inderjit |Effect of Rice Straw Incorporation on Phytotoxicity of Isoxaflutole to an Exotic Weed Phalaris minor Retz.|Plant Soil277(1/2): 35-40|2005|10.1007/s11104-004-5128-x
176012|T||Viviani,F., J.P. Little, and K.E. Pallett|The Mode of Action of Isoxaflutole: II. Characterization of the Inhibition of Carrot 4-Hydroxyphenylpyruvate Dioxygenase by the Diketonitrile Derivative of Isoxaflutole|Pestic. Biochem. Physiol.62(2): 125-134|1998|10.1006/pest.1998.2375
176013|T||Soukup,J., M. Jursik, P. Hamouz, J. Holec, and J. Krupka|Influence of Soil pH, Rainfall, Dosage, and Application Timing of Herbicide Merlin 750 WG (Isoxaflutole) on Phytotoxicity Level in Maize (Zea mays L.)|Plant Soil Environ.50(2): 88-94|2004|10.17221/3687-PSE
176014|T||Willis,J.B., J.B. Beam, W.L. Barker, S.D. Askew, and J.S. McElroy|Selective Nimblewill (Muhlenbergia schreberi) Control in Cool-Season Turfgrass|Weed Technol.21(4): 886-889|2007|10.1614/WT-07-016.1
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176020|T||De Cauwer,B., T. Geeroms, S. Claerhout, D. Reheul, and R. Bulcke|Sensitivity of Locally Naturalized Panicum Species to HPPD- and ALS-Inhibiting Herbicides in Maize|Commun. Agric. Appl. Biol. Sci.77(3): 353-361|2012|
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176106|T||Datta,A., B.M. Sindel, P. Kristiansen, R.S. Jessop, and W.L. Felton|The Effects of Temperature and Soil Moisture on Chickpea (Cicer arietinum L.) Genotype Sensitivity to Isoxaflutole|J. Agron. Crop Sci.195(3): 178-185|2009|10.1111/j.1439-037X.2009.00362.x
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176110|T||Silverman,J.|Preliminary Findings on the Use of Protozoa (Tetrahymena thermophila) as Models for Ocular Irritation in Rabbits|Lab. Anim. Sci.33(1): 56-59|1983|
176111|T||McLaughlin,J.L., B. Freedman, R.G. Powell, and C.R.,Jr. Smith|Neriifolin and 2'-Acetylneriifolin: Insecticidal and Cytotoxic Agents of Thevetia thevetioides Seeds|J. Econ. Entomol.73(3): 398-402|1980|10.1093/jee/73.3.398
176112|T||Zhang,Y.C., M.S. Perzanowski, and G.L. Chew|Sub-Lethal Exposure of Cockroaches to Boric Acid Pesticide Contributes to Increased Bla G 2 Excretion|Allergy60(7): 965-968|2005|10.1111/j.1398-9995.2005.00814.x
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176114|T||Reinert,J.A.|Individual Mound Control of Red Imported Fire Ant in Residential Turf with Bait Formulations, 1995|Arthropod Manag. Tests21:367-|1996|
176115|T||Ross,M.H.|Control of German Cockroaches with a Hydramethylnon Bait|Arthropod Manag. Tests21:415-|1996|10.1093/amt/21.1.415
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176137|T||Hagenbuch,B.E., R.S. Patterson, and P.G. Koehler|Biological Control of the American Cockroach (Orthoptera: Blattidae) with Inundative Releases of Tetrastichus hagenowii (Hymenoptera: Eulophidae)|J. Econ. Entomol.82(1): 90-94|1989|10.1093/jee/82.1.90
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176144|T||Reimer,N.J., and J.W.,Jr. Beardsley|Effectiveness of Hydramethylnon and Fenoxycarb for Control of Bigheaded Ant (Hymenoptera: Formicidae), an Ant Associated with Mealybug Wilt of Pineapple in Hawaii|J. Econ. Entomol.83(1): 74-80|1990|10.1093/jee/83.1.74
176145|T||Borth,P.W.|Field Evaluation of Several Insecticides on Maricopa Harvester Ant (Hymenoptera: Formicidae) Colony Activity in Fallow Southwestern Arizona Cropland|J. Econ. Entomol.79(6): 1632-1636|1986|10.1093/jee/79.6.1632
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176149|T||Thoms,E.M., and W.H. Robinson|Insecticide and Structural Modification Strategies for Management of Oriental Cockroach (Orthoptera: Blattidae) Populations|J. Econ. Entomol.80(1): 131-135|1987|10.1093/jee/80.1.131
176150|T||Rust,M.K., D.A. Reierson, and K.H. Hansgen|Control of American Cockroaches (Dictyoptera: Blattidae) in Sewers|J. Med. Entomol.28(2): 210-213|1991|10.1093/jmedent/28.2.210
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176152|A||Fodor,M.|The Eco-Toxicological Influence of the Chlorothalonil Pesticide/Fungicides in Some Varieties of Carassius auratus gibelio Bloch Species|An. Univ. Craiova Biol. Hortic. Tecnol. Prelucr. Prod. Agric. Ing. Med.18:473-478|2013|
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176158|T||Mukherjee,S.|Influence of Plant Allelochemicals on Growth Rate, Nutritional Physiology and Mid-Gut Esterase Activity in Fifth Instar Larvae of Spodoptera litura (F.) (Lepidoptera: Noctuidae)|Invertebr. Reprod. Dev.43(2): 125-132|2003|10.1080/07924259.2003.9652531
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176176|T||Ree,H.I., D.H. Lee, I.Y. Lee, and S.H. Jeon|Field Trial on Control Effect of Poison Baits Against German Cockroaches (Blattella germanica)|Korean J. Entomol.25(3): 219-223|1995|
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176184|T||Seagraves,M.P., and R.M. McPherson|Monitoring Red Imported Fire Ant (Hymenoptera: Formicidae) Foraging Behavior and Impact on Foliage-Dwelling Arthropods on Soybean Produced Under Three Ant Suppression Regimes|J. Entomol. Sci.41(4): 374-384|2006|10.18474/0749-8004-41.4.374
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176196|T||Reinert,J.A.|Bait Applications for Control of Individual Mounds of the Red Imported Fire Ant in Urban Landscapes, 1996|Arthropod Manag. Tests23:326-|1998|10.1093/amt/23.1.326
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176203|T||Hollingshaus,J.G., and R.J.,Jr. Little|Toxicity, Penetration, and Metabolism of AC-217300 (Amdro) in the Tobacco Budworm (Heliothis virescens) by Various Methods of Application|Pestic. Biochem. Physiol.22(3): 329-336|1984|10.1016/0048-3575(84)90025-7
176204|T||Krushelnycky,P.D., and N.J. Reimer|Efficacy of Maxforce Bait for Control of the Argentine Ant (Hymenoptera: Formicidae) in Haleakala National Park, Maui, Hawaii|Environ. Entomol.27(6): 1473-1481|1998|10.1093/ee/27.6.1473
176205|T||Reinert,J.A.|Amdro for Control of Individual Colonies of the Red Imported Fire Ant|SNA Nursery Res.J.27:99-100|1982|
176206|T||Greenberg,L., M. Martinez, A. Tilzer, K. Nelson, S. Koenig, and R. Cummings|Comparison of Different Protocols for Control of the Red Imported Fire Ant, Solenopsis invicta Buren (Hymenoptera: Formicidae), in Orange County, California, Including a List of Co-Occurring Ants|Southwest. Entomol.40(2): 297-305|2015|10.3958/059.040.0206
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176210|T||Abera-Kalibata,A.M., C.S. Gold, and R. Van Driesche|Experimental Evaluation of the Impacts of Two Ant Species on Banana Weevil in Uganda|Biol. Control46(2): 147-157|2008|10.1016/j.biocontrol.2008.04.017
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176218|T||Chatterjee,P.B.|Evaluation of Hydramethylnon as a Poison Bait in the Control of Cockroaches|Pesticides 23(10): 48-49|1989|
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176220|T||Hanna,R., A.F. Kuate, S.N. Nanga, M. Tindo, and P. Nagel|Boric Acid for Suppression of the Ant Anoplolepis tenella and Effects on an Associated Scale Insect Pest Stictococcus vayssierei in Cassava Fields in the Congo Basin|Crop Prot.74:131-137|2015|10.1016/j.cropro.2015.04.016
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176228|T||Taniguchi,G., T. Thompson, and B.S. Sipes|Prevention and Control of the Big-Headed Ant, Pheidole megacephala (Hymenoptera: Formicidae) in Pineapple Cultivation Using Bait Stations with Amdro|Acta Hortic.702:173-177|2006|10.17660/ActaHortic.2006.702.22
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176251|T||Causton,C.E., C.R. Sevilla, and S.D. Porter|Eradication of the Little Fire Ant, Wasmannia auropunctata (Hymenoptera: Formicidae), from Marchena Island, Galapagos: On the Edge of Success?|Fla. Entomol.88(2): 159-168|2005|10.1653/0015-4040(2005)088[0159:EOTLFA]2.0.CO;2
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176255|T||Nondillo,A., S. Andzeiewski, F.B. Fialho, O.C. Bueno, and M. Botton|Control of Linepithema micans (Hymenoptera: Formicidae) and Eurhizococcus brasiliensis (Hemiptera: Margarodidae) in Vineyards Using Toxic Baits|J. Econ. Entomol.109(4): 1660-1666|2016|10.1093/jee/tow127
176256|T||Matos,Y.K., and C. Schal|Laboratory and Field Evaluation of Zyrox Fly Granular Bait Against Asian and German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.109(4): 1807-1812|2016|10.1093/jee/tow092
176257|T||Taniguchi,G.|Clumped Versus Broadcast Applications of Bait to Control Big-Headed Ants, Pheidole megacephala (F.), (Hymenoptera: Formicidae) in Pineapple Fields|Sociobiology57(2): 285-290|2011|
176258|T||Liang,D.S., J. McGill, and J.E. Pietri|Unidirectional Cross-Resistance in German Cockroach (Blattodea: Blattellidae) Populations Under Exposure to Insecticidal Baits|J. Econ. Entomol.110(4): 1713-1718|2017|10.1093/jee/tox144
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176285|T||Hoffman,A.M., S.G. Mayer, G.A. Strobel, W.M. Hess, G.W. Sovocool, A.H. Grange, J.K. Harper, A.M. Arif, D.M. Grant, and |Purification, Identification and Activity of Phomodione, a Furandione from an Endophytic Phoma Species|Phytochemistry69(4): 1049-1056|2008|10.1016/j.phytochem.2007.10.031
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176430|T||Monsanto Co.|Initial Submission: Letter from Monsanto Co to USEPA Regarding the Toxicity of Two Samples of Triaryl Phosphate with Attachments and Cover Letter Dated 080792|EPA/OTS #88-920007736:85 p.|1992|
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176857|A||Riethmuller,N., S. Markich, D. Parry, and R. Van Dam|The Effect of True Water Hardness and Alkalinity on the Toxicity of Cu and U to Two Tropical Australian Freshwater Organisms|Super. Sci. Rep.:70 p.|2000|
176858|A||Bywater,J.F., R. Banaczkowski, and M. Bailey|Sensitivity to Uranium of Six Species of Tropical Freshwater Fishes and Four Species of Cladocerans from Northern Australia|Environ. Toxicol. Chem.10:1449-1458|1991|10.1002/etc.5620101110
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176860|A||Campoy-Diaz,A.D., M.A. Arribere, S.R. Guevara, and I.A. Vega|Bioindication of Mercury, Arsenic and Uranium in the Apple Snail Pomacea canaliculata (Caenogastropoda, Ampullariidae): Bioconcentration and Depuration in Tissues and Symbiotic Corpuscles|Chemosphere196:196-205|2018|10.1016/j.chemosphere.2017.12.145
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176864|A||Semann,M|Population Variability in the Response of Moinodaphnia macleayi to Uranium and Cadmium|B.S.Thesis, Royal Melbourne Institute of Technology, Melbourne, Victoria:143 p.|2000|
176866|A||Silicone Health Council|Letter from Silicones Health Council to USEPA Submitting Enclosed Preliminary Information and a Final Report on Octamethylcyclotetrasiloxane with Attachments 081089|EPA/ OTS Report Number 89941128994112:51 p.|1989|
176869|AT||Dow Corning Corp.|Letter from Dow Corning Corp to US EPA Submitting Data on Octamethylcyclotetrasiloxane with Attachments|EPA/OTS 40-8294005:45 p.|1982|
176870|T||Parker,N.S., N.R. Anderson, D.S. Richmond, E.Y. Long, K.A. Wise, and C.H. Krupke|Larval Western Bean Cutworm Feeding Damage Encourages the Development of Gibberella Ear Rot on Field Corn|Pest Manag. Sci.73(3): 546-553|2017|10.1002/ps.4313
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176873|T||Matagne,R.|Induction of Chromosomal Aberrations and Mutations with Isomeric Forms of L-Threitol-1,4-Bismethanesulfonate in Plant Materials|Mutat. Res., Fundam. Mol. Mech. Mutagen.7(2): 241-247|1969|10.1016/0027-5107(69)90037-2
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176885|T||Schnabel,G., and C.H. Crisosto|Seasonal Applications of a Pyraclostrobin and Boscalid Mixture do not Impact Same-Year Peach Fruit Quality Attributes|HortTechnology18(4): 678-684|2008|10.21273/HORTTECH.18.4.678
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176889|T||Kalebich,C.C., M.E. Weatherly, K.N. Robinson, G.M. Fellows, M.R. Murphy, and F.C. Cardoso|Foliar Fungicide (Pyraclostrobin) Application Effects on Plant Composition of a Silage Variety Corn|Anim. Feed Sci. Technol.225:38-53|2017|10.1016/j.anifeedsci.2016.12.016
176890|T||Zantedeschi,R., M. Rakes, R.A. Pasini, M.B. Araujo, F.A. Bueno, and A.D. Grutzmacher|Toxicity of Soybean-Registered Agrochemicals to Telenomus podisi and Trissolcus basalis Immature Stages|Phytoparasitica46(2): 203-212|2018|10.1007/s12600-018-0660-z
176891|T||Hautier,L., J.P. Jansen, N. Mabon, and B. Schiffers|Pesticides Selectivity List to Beneficial Arthropods in Four Field Vegetable Crops|Commun. Agric. Appl. Biol. Sci.72(2): 99-107|2007|
176892|T||Dominguez,I., F. Ferreres, F.P. Del Riquelme, R. Font, and M.I. Gil|Influence of Preharvest Application of Fungicides on the Postharvest Quality of Tomato (Solanum lycopersicum L.)|Postharvest Biol. Technol.72:1-10|2012|10.1016/j.postharvbio.2012.04.010
176893|T||Li,L., M. Li, H. Chi, J. Yang, Z. Li, and C. Liu|Discovery of Flufenoxystrobin: Novel Fluorine-Containing Strobilurin Fungicide and Acaricide|J. Fluorine Chem.185:173-180|2016|10.1016/j.jfluchem.2016.03.013
176894|T||Schmitz,G.L., N.T. Fassler, G.M. Fellows, A.M. Shirley, R.W. Chamblee, C.W. Finch, M.A. Storr, P.M. Vassalotti, T.D. Kl|Arrested Ear Development in Corn Caused by a Component of Certain Surfactants|Agron. J.103(6): 1697-1703|2011|10.2134/agronj2011.0048
176895|AT||Li,B.X., W.C. Wang, X.P. Zhang, D.X. Zhang, Y.P. Ren, Y. Gao, W. Mu, and F. Liu|Using Coordination Assembly as the Microencapsulation Strategy to Promote the Efficacy and Environmental Safety of Pyraclostrobin|Adv. Funct. Mater.27(29): 9 p.|2017|
176896|T||Dai,H., J. Chen, G. Li, S. Ge, Y. Shi, Y. Fang, and Y. Ling|Design, Synthesis, and Bioactivities of Novel Oxadiazole-Substituted Pyrazole Oximes|Bioorg. Med. Chem. Lett.27(4): 950-953|2017|10.1016/j.bmcl.2016.12.083
176897|T||Inagaki,M.N., M. Mori, and M.M. Nachit|Effect of a Strobilurin-Class Fungicide on Water Use in Synthetic Bread Wheat Genotypes Grown Under Increasing Water Deficit Conditions|Cereal Res. Commun.37(4): 513-519|2009|10.1556/CRC.37.2009.4.4
176898|T||Mahoney,K.J., and C.L. Gillard|Plant Health and Yield of Dry Bean not Affected by Strobilurin Fungicides Under Disease-Free or Simulated Hail Conditions|Can. J. Plant Sci.94(8): 1385-1389|2014|10.4141/cjps-2014-159
176899|T||Werner,S.J., S.K. Tupper, S.E. Pettit, J.W. Ellis, J.C. Carlson, D.A. Goldade, N.M. Hofmann, H.J. Homan, and G.M. Linz|Application Strategies for an Anthraquinone-Based Repellent to Protect Oilseed Sunflower Crops from Pest Blackbirds|Crop Prot.59:63-70|2014|10.1016/j.cropro.2014.01.016
176900|A||Hong,H., D. Lv, W. Liu, L. Huang, L. Chen, R. Shen, and D. Shi|Toxicity and Bioaccumulation of Three Hexabromocyclododecane Diastereoisomers in the Marine Copepod Tigriopus japonicas|Aquat. Toxicol.188:1-9|2017|10.1016/j.aquatox.2017.04.010
176901|T||Ratel,J., C. Planche, F. Mercier, P. Blinet, N. Kondjoyan, P. Marchand, A. Fournier, A. Travel, C. Jondreville, and E. |Liver Volatolomics to Reveal Poultry Exposure to gamma-Hexabromocyclododecane (HBCD)|Chemosphere189:634-642|2017|10.1016/j.chemosphere.2017.09.074
176902|A||Liu,X., Y. Wang, H. Chen, J. Zhang, C. Wang, X. Li, and S. Pang|Acute Toxicity and Associated Mechanisms of Four Strobilurins in Algae|Environ. Toxicol. Pharmacol.60:12-16|2018|10.1016/j.etap.2018.03.021
176903|A||Della Vechia,J.F., C. Cruz, A.F. Silva, W.R.,Jr. Cerveira, and N. Garlich|Macrophyte Bioassay Applications for Monitoring Pesticides in the Aquatic Environment|Planta Daninha (Impr.) (Multiple Languages)34(3): 597-603|2016|10.1590/s0100-83582016340300021
176904|T||Pinheiro,V., L.F. Stone, and J.A.F. Barrigossi|Rice Grain Yield as Affected by Subsoiling, Compaction on Sowing Furrow and Seed Treatment|Rev. Bras. Eng. Agric. Ambient.20(5): 395-400|2016|10.1590/1807-1929/agriambi.v20n5p395-400
176905|A||Cui,Y., S. Lv, J. Liu, S. Nie, J. Chen, Q. Dong, C. Huang, and D. Yang|Chronic Perfluorooctanesulfonic Acid Exposure Disrupts Lipid Metabolism in Zebrafish|Hum. Exp. Toxicol.36(3): 207-217|2017|10.1177/0960327116646615
176906|T||Cantore,V., O. Lechkar, E. Karabulut, M.H. Sellami, R. Albrizio, F. Boari, A.M. Stellacci, and M. Todorovic|"Combined Effect of Deficit Irrigation and Strobilurin Application on Yield, Fruit Quality and Water Use Efficiency of ""Cherry"" Tomato (Solanum lycopersicum L.)"|Agric. Water Manag.167:53-61|2016|10.1016/j.agwat.2015.12.024
176907|A||Cui,Y., W. Liu, W. Xie, W. Yu, C. Wang, and H. Chen|Investigation of the Effects of Perfluorooctanoic Acid (PFOA) and Perfluorooctane Sulfonate (PFOS) on Apoptosis and Cell Cycle in a Zebrafish (Danio rerio) Liver Cell Line|Int. J. Environ. Res. Public Health12(12): 15673-15682|2015|10.3390/ijerph121215012
176908|T||Schilling,J.V., B. Schillheim, S. Mahr, Y. Reufer, S. Sanjoyo, U. Conrath, and J. Buchs|Oxygen Transfer Rate Identifies Priming Compounds in Parsley Cells|BMC Plant Biol.15(282): 11 p.|2015|
176909|A||Elskus,A.A., K.L. Smalling, M.L. Hladik, and K.M. Kuivila|Effects of Two Fungicide Formulations on Microbial and Macroinvertebrate Leaf Decomposition Under Laboratory Conditions|Environ. Toxicol. Chem.35(11): 2834-2844|2016|10.1002/etc.3465
176910|A||Fidder,B.N., E.G. Reategui-Zirena, and C.J. Salice|Diet Quality Affects Chemical Tolerance in the Freshwater Snail Lymnaea stagnalis|Environ. Toxicol. Chem.37(4): 1158-1167|2018|10.1002/etc.4064
176911|AT||Gonzalez-Naranjo,V., and K. Boltes|Toxicity of Ibuprofen and Perfluorooctanoic Acid for Risk Assessment of Mixtures in Aquatic and Terrestrial Environments|Int. J. Environ. Sci. Technol. (Tehran)11(6): 1743-1750|2014|10.1007/s13762-013-0379-9
176912|T||Gadino,A.N., V.M. Walton, and A.J. Dreves|Impact of Vineyard Pesticides on a Beneficial Arthropod, Typhlodromus pyri (Acari: Phytoseiidae), in Laboratory Bioassays|J. Econ. Entomol.104(3): 970-977|2011|10.1603/EC10330
176913|T||Stahl,T., R.A. Riebe, S. Falk, K. Failing, and H. Brunn|Long-Term Lysimeter Experiment to Investigate the Leaching of Perfluoroalkyl Substances (PFASs) and the Carry-over from Soil to Plants: Results of a Pilot Study|J. Agric. Food Chem.61(8): 1784-1793|2013|10.1021/jf305003h
176914|T||Felizeter,S., M.S. McLachlan, and P. De Voogt|Root Uptake and Translocation of Perfluorinated Alkyl Acids by Three Hydroponically Grown Crops|J. Agric. Food Chem.62(15): 3334-3342|2014|10.1021/jf500674j
176915|A||Zhang,L., Y.Y. Li, H.C. Zeng, J. Wei, Y.J. Wan, J. Chen, and S.Q. Xu|MicroRNA Expression Changes During Zebrafish Development Induced by Perfluorooctane Sulfonate|J. Appl. Toxicol.31(3): 210-222|2011|10.1002/jat.1583
176916|T||Woods,J.L., and D.H. Gent|Suppression of Hop Looper (Lepidoptera: Noctuidae) by the Fungicide Pyraclostrobin|J. Econ. Entomol.107(2): 875-879|2014|10.1603/EC13546
176917|T||Artz,D.R., and T.L. Pitts-Singer|Effects of Fungicide and Adjuvant Sprays on Nesting Behavior in Two Managed Solitary Bees, Osmia lignaria and Megachile rotundata|PLoS One10(8): 14 p.|2015|10.1371/journal.pone.0135688
176918|T||Jordan,D.L., R.C. Nuti, J.B. Beam, S.H. Lancaster, J.E. Lanier, and P.D. Johnson|Influence of Application Variables on Peanut (Arachis hypogaea L.) Response to Prohexadione Calcium|Peanut Sci.36(1): 96-103|2009|10.3146/PS08-016.1
176920|T||Cinquerrui,A., G. Polizzi, D. Aiello, and A. Vitale|Integrated Management for the Reduction of Calonectria Infections in Ornamental Nurseries|Plant Dis.101(1): 165-169|2017|10.1094/PDIS-06-16-0801-RE
176921|T||Henricot,B., C. Gorton, G. Denton, and J. Denton|Studies on the Control of Cylindrocladium buxicola Using Fungicides and Host Resistance|Plant Dis.92(9): 1273-1279|2008|10.1094/PDIS-92-9-1273
176922|T||Amiri,A., A.I. Zuniga, J. Mertely, and N.A. Peres|First Report on Resistance to Pyraclostrobin, Thiophanate-Methyl, Fenhexamid and Boscalid in Botrytis cinerea from Eucalyptus Seedlings in Florida Greenhouses|Plant Dis.98(6): 851-|2014|10.1094/PDIS-10-13-1107-PDN
176923|A||Hu,L., J. Zhu, J.M. Rotchell, L. Wu, J. Gao, and H. Shi|Use of the Enhanced Frog Embryo Teratogenesis Assay-Xenopus (FETAX) to Determine Chemically-Induced Phenotypic Effects|Sci. Total Environ.508:258-265|2015|10.1016/j.scitotenv.2014.11.086
176924|T||Ryan,C.P., P.H. Dernoeden, A.P. Grybauskas, and B. Momen|Influence of Summer Spoonfeeding Six Nitrogen Sources on Dollar Spot Severity and Chlorothalonil Efficacy in Creeping Bentgrass|Appl. Turfgrass Sci.8(1): 9 p.|2011|10.1094/ATS-2011-1223-02-RS
176925|A||Leguen,I., and P. Prunet|In Vitro Effect of Various Xenobiotics on Trout Gill Cell Volume Regulation After Hypotonic Shock|Aquat. Toxicol.53(3/4): 201-214|2001|10.1016/S0166-445X(01)00166-7
176926|A||Levine,C., and M.A. Cheney|Metabolic Responses to Acute Toxicity of Alkylphenols and Alkylphenol Polyethoxylates in Elliptio complanata Measured by Calorespirometry|Environ. Toxicol. Chem.19(7): 1906-1910|2000|10.1002/etc.5620190727
176928|A||Dow Chem Co.|The Acute Fish Toxicity of Hexachlorobutadiene and to Sheepshead Minnow, Cyprinodon variegatus|EPA/OTS Doc #878211370:6 p.|1982|
176929|T||Dow Chem Co.|Analysis of Quail Eggs for Hexachlorobutadiene by Gas Liquid Chromatography|EPA/OTS Doc #878211372:12 p.|1982|
176930|T||Omer,E., R. Cariou, A. Huneau-Salaun, G. Dervilly-Pinel, E. Baeza, A. Travel, S. Le Bouquin, C. Jondreville, and B. Le |Enantiomer-Specific Accumulation and Depuration of alpha-Hexabromocyclododecane (alpha-HBCDD) in Chicken (Gallus gallus) as a Tool to Identify Contamination Sources|Chemosphere180:365-372|2017|10.1016/j.chemosphere.2017.04.031
176931|T||Jondreville,C., R. Cariou, B. Meda, E. Dominguez-Romero, E. Omer, G. Dervilly-Pinel, B. Le Bizec, A. Travel, and E. Bae|Accumulation of alpha-Hexabromocyclododecane (alpha-HBCDD) in Tissues of Fast- and Slow-Growing Broilers (Gallus domesticus)|Chemosphere178:424-431|2017|10.1016/j.chemosphere.2017.03.064
176932|T||Li,B., H. Chen, H. Sun, and Z. Lan|Distribution, Isomerization and Enantiomer Selectivity of Hexabromocyclododecane (HBCD) Diastereoisomers in Different Tissue and Subcellular Fractions of Earthworms|Ecotoxicol. Environ. Saf.139:326-334|2017|10.1016/j.ecoenv.2017.01.004
176933|A||Dong,L., L. Zheng, S. Yang, Z. Yan, W. Jin, and Y. Yan|Deriving Freshwater Safety Thresholds for Hexabromocyclododecane and Comparison of Toxicity of Brominated Flame Retardants|Ecotoxicol. Environ. Saf.139:43-49|2017|10.1016/j.ecoenv.2017.01.005
176934|T||Shi,Y., X. Xu, J. Chen, R. Liang, X. Zheng, Y. Shi, and Y. Wang|Antioxidant Gene Expression and Metabolic Responses of Earthworms (Eisenia fetida) After Exposure to Various Concentrations of Hexabromocyclododecane|Environ. Pollut.232:245-251|2018|10.1016/j.envpol.2017.09.039
176935|A||Sun,J., S. Tang, H. Peng, D.M.V. Saunders, J.A. Doering, M. Hecker, P.D. Jones, J.P. Giesy, and S. Wiseman|Combined Transcriptomic and Proteomic Approach to Identify Toxicity Pathways in Early Life Stages of Japanese Medaka (Oryzias latipes) Exposed to 1,2,5,6-Tetrabromocyclooctane (TBCO)|Environ. Sci. Technol.50(14): 7781-7790|2016|10.1021/acs.est.6b01249
176936|T||Huang,H., S. Zhang, J. Lv, B. Wen, S. Wang, and T. Wu|Experimental and Theoretical Evidence for Diastereomer- and Enantiomer-Specific Accumulation and Biotransformation of HBCD in Maize Roots|Environ. Sci. Technol.50(22): 12205-12213|2016|10.1021/acs.est.6b03223
176937|T||Marteinson,S.C., S. Kimmins, R.J. Letcher, V.P. Palace, D.M. Bird, I.J. Ritchie, and K.J. Fernie|Diet Exposure to Technical Hexabromocyclododecane (HBCD) Affects Testes and Circulating Testosterone and Thyroxine Levels in American Kestrels (Falco sparverius).|Environ. Res.111(8): 1116-1123|2011|10.1016/j.envres.2011.08.006
176938|T||Ministry of the Environment, Japan|6-Week Administration Study of 1,2,5,6,9,10-Hexabromocyclododecane for Avian Reproduction Toxicity Under Long-Day Conditions Using Japanese Quail |Research Institute for Animal Science in Biochemistry and Toxicology:20 p.|2009|
176939|A||American Chemical Council|Letter from Amer Chem Cncl Submitting Flow-Through Bioconcentrations Test w/Rainbow Trout & End-User Survey-Phase 1 Study of Brominated Flame Retardant, w/Attchmts & Dated 8/28/00|EPA/OTS Doc #84010000001:183 p.|2000|
176940|A||Xia,J., Z. Cao, J. Peng, S. Fu, and C. Fu|The Use of Spontaneous Behavior, Swimming Performances and Metabolic Rate to Evaluate Toxicity of PFOS on Topmouth Gudgeon Pseudorasbora parva|Acta Ecol. Sin. (Multiple Languages)34(5): 284-289|2014|10.1016/j.chnaes.2014.07.006
176941|T||Nagamoto,N.S., L.C. Forti, A.P.P. Andrade, M.A.C. Boaretto, and C.F. Wilcken|Method for the Evaluation of Insecticidal Activity over Time in Atta sexdens rubropilosa workers (Hymenoptera: Formicidae)|Sociobiology44(2): 413-431|2004|
176942|A||Qiu,W., H. Shao, P. Lei, C. Zheng, C. Qiu, M. Yang, and Y. Zheng|Immunotoxicity of Bisphenol S and F are Similar to that of Bisphenol A During Zebrafish Early Development|Chemosphere194:1-8|2018|10.1016/j.chemosphere.2017.11.125
176943|A||Fraser,T.W.K., A. Khezri, A.M. Lewandowska-Sabat, T. Henry, and E. Ropstad|Endocrine Disruptors Affect Larval Zebrafish Behavior: Testing Potential Mechanisms and Comparisons of Behavioral Sensitivity to Alternative Biomarkers|Aquat. Toxicol.193:128-135|2017|10.1016/j.aquatox.2017.10.002
176944|T||Zheng,X.Q., Y.J. Shi, Y.L. Lu, and X.B. Xu|Growth Inhibition and DNA Damage in the Earthworm (Eisenia fetida) Exposed to Perfluorooctane Sulphonate and Perfluorooctanoic Acid|Chem. Ecol.32(2): 103-116|2016|10.1080/02757540.2015.1116524
176945|A||Feng,C., Y. Xu, G. Zhao, J. Zha, F. Wu, and Z. Wang|Relationship Between BDE 209 Metabolites and Thyroid Hormone Levels in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.122-123:28-35|2012|10.1016/j.aquatox.2012.05.008
176946|A||Shi,J., Z. Jiao, S. Zheng, M. Li, J. Zhang, Y. Feng, J. Yin, and B. Shao|Long-Term Effects of Bisphenol AF (BPAF) on Hormonal Balance and Genes of Hypothalamus-Pituitary-Gonad Axis and Liver of Zebrafish (Danio rerio), and the Impact on Offspring|Chemosphere128:252-257|2015|10.1016/j.chemosphere.2015.01.060
176947|A||Le Fol,V., S. Ait-Aissa, M. Sonavane, J.M. Porcher, P. Balaguer, J.P. Cravedi, D. Zalko, and F. Brion|In Vitro and In Vivo Estrogenic Activity of BPA, BPF and BPS in Zebrafish-Specific Assays|Ecotoxicol. Environ. Saf.142:150-156|2017|10.1016/j.ecoenv.2017.04.009
176948|A||Zhao,F., G. Jiang, P. Wei, H. Wang, and S. Ru|Bisphenol S Exposure Impairs Glucose Homeostasis in Male Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.147:794-802|2018|10.1016/j.ecoenv.2017.09.048
176949|A||Zhu,B., Q. Wang, X. Wang, and B. Zhou|Impact of Co-Exposure with Lead and Decabromodiphenyl Ether (BDE-209) on Thyroid Function in Zebrafish Larvae|Aquat. Toxicol.157:186-195|2014|10.1016/j.aquatox.2014.10.011
176950|T||Crump,D., S. Chiu, and K.L. Williams|Bisphenol S Alters Embryonic Viability, Development, Gallbladder Size, and Messenger RNA Expression in Chicken Embryos Exposed Via Egg Injection|Environ. Toxicol. Chem.35(6): 1541-1549|2016|10.1002/etc.3313
176951|A||Han,Z., Y. Li, S. Zhang, N. Song, H. Xu, Y. Dang, C. Liu, J.P. Giesy, and H. Yu|Prenatal Transfer of Decabromodiphenyl Ether (BDE-209) Results in Disruption of the Thyroid System and Developmental Toxicity in Zebrafish Offspring|Aquat. Toxicol.190:46-52|2017|10.1016/j.aquatox.2017.06.020
176952|A||Zhang,J., Y. Wang, B. Zhou, K.M. Sun, and X. Tang|Reproductive Effects of Two Polybrominated Diphenyl Ethers on the Rotifer Brachionus plicatilis|Bull. Environ. Contam. Toxicol.97(2): 198-202|2016|10.1007/s00128-016-1832-5
176953|T||Liang,J., X. Xia, W.Q. Zaman, W. Zhang, K. Lin, S. Hu, and Z. Lin|Bioaccumulation and Toxic Effects of Decabromodiphenyl Ether in the Presence of Nanoscale Zero-Valent Iron in an Earthworm-Soil System|Chemosphere169:78-88|2017|10.1016/j.chemosphere.2016.11.012
176954|T||Zhang,W., L. Chen, K. Liu, L. Chen, K. Lin, Y. Chen, and Z. Yan|Bioaccumulation of Decabromodiphenyl Ether (BDE209) in Earthworms in the Presence of Lead (Pb)|Chemosphere106:57-64|2014|10.1016/j.chemosphere.2014.01.059
176955|T||Xu,G., and J. Wang|Biodegradation of Decabromodiphenyl Ether (BDE-209) by White-Rot Fungus Phlebia lindtneri|Chemosphere110:70-77|2014|10.1016/j.chemosphere.2014.03.052
176956|A||Huang,Q., Y. Chen, Y. Chi, Y. Lin, H. Zhang, C. Fang, and S. Dong|Immunotoxic Effects of Perfluorooctane Sulfonate and Di(2-Ethylhexyl) Phthalate on the Marine Fish Oryzias melastigma|Fish Shellfish Immunol.44(1): 302-306|2015|10.1016/j.fsi.2015.02.005
176957|T||Chow,K.L., Y.B. Man, N.F.Y. Tam, Y. Liang, and M.H. Wong|Uptake and Transport Mechanisms of Decabromodiphenyl Ether (BDE-209) by Rice (Oryza sativa)|Chemosphere119:1262-1267|2015|10.1016/j.chemosphere.2014.10.016
176958|T||Zhao,S., Z. Fan, L. Sun, T. Zhou, Y. Xing, and L. Liu|Interaction Effects on Uptake and Toxicity of Perfluoroalkyl Substances and Cadmium in Wheat (Triticum aestivum L.) and Rapeseed (Brassica campestris L.) from Co-Contaminated Soil|Ecotoxicol. Environ. Saf.137:194-201|2017|10.1016/j.ecoenv.2016.12.007
176959|A||Chao,S.J., C.P. Huang, P.C. Chen, and C. Huang|Teratogenic Responses of Zebrafish Embryos to Decabromodiphenyl Ether (BDE-209) in the Presence of Nano-SiO2 Particles|Chemosphere178:449-457|2017|10.1016/j.chemosphere.2017.03.075
176960|A||Yuan,Z., J. Zhang, B. Zhao, Z. Miao, and X. Wu|Effects of Perfluorooctanoic Acid on Neural Genes Expression and Neuronal Morphology in the Planarian Dugesia japonica|Chem. Ecol.32(6): 575-582|2016|10.1080/02757540.2016.1162298
176961|A||Zhu,B., Q. Wang, X. Shi, Y. Guo, T. Xu, and B. Zhou|Effect of Combined Exposure to Lead and Decabromodiphenyl Ether on Neurodevelopment of Zebrafish Larvae|Chemosphere144:1646-1654|2016|10.1016/j.chemosphere.2015.10.056
176962|T||Deng,D., J. Liu, M. Xu, G. Zheng, J. Guo, and G. Sun|Uptake, Translocation and Metabolism of Decabromodiphenyl Ether (BDE-209) in Seven Aquatic Plants|Chemosphere152:360-368|2016|10.1016/j.chemosphere.2016.03.013
176963|T||Zhang,W., J. Liang, J. Li, K. Lin, and R. Fu|Diverse Impacts of a Step and Repeated BDE209-Pb Exposures on Accumulation and Metabolism of BDE209 in Earthworms|Chemosphere159:235-243|2016|10.1016/j.chemosphere.2016.06.009
176964|T||Su,G., R.J. Letcher, R. Farmahin, and D. Crump|Photolysis of Highly Brominated Flame Retardants Leads to Time-Dependent Dioxin-Responsive mRNA Expression in Chicken Embryonic Hepatocytes|Chemosphere194:352-359|2018|10.1016/j.chemosphere.2017.11.153
176965|AT||Nam,S.H.|Aquatic Ecotoxicity Assessment of Vinyl Chloride using a Battery of Bioassay|M.S. Thesis, Konkuk University, Korea:82 p.|2008|
176966|T||Xie,X., Y. Qian, Y. Wu, J. Yin, and J. Zhai|Effects of Decabromodiphenyl Ether (BDE-209) on the Avoidance Response, Survival, Growth and Reproduction of Earthworms (Eisenia fetida)|Ecotoxicol. Environ. Saf.90:21-27|2013|10.1016/j.ecoenv.2012.12.009
176967|T||Zhang,W., K. Liu, J. Li, L. Chen, and K. Lin|Uptake and Depuration Kinetics of Lead (Pb) and Biomarker Responses in the Earthworm Eisenia fetida After Simultaneous Exposure to Decabromodiphenyl Ether (BDE209)|Ecotoxicol. Environ. Saf.113:45-51|2015|10.1016/j.ecoenv.2014.11.014
176969|A||Sha,J., Y. Wang, H. Chen, M. Wang, H. Wang, X. Li, L. Qi, and X. Tang|Using Population Demographic Parameters to Assess Impacts of Two Polybrominated Diphenyl Ethers (BDE-47, BDE-209) on the Rotifer Brachionus plicatilis|Ecotoxicol. Environ. Saf.119:106-115|2015|10.1016/j.ecoenv.2015.05.009
176970|A||Feng,M., Y. Li, R. Qu, L. Wang, and Z. Wang|Oxidative Stress Biomarkers in Freshwater Fish Carassius auratus Exposed to Decabromodiphenyl Ether and Ethane, or Their Mixture|Ecotoxicology22(7): 1101-1110|2013|10.1007/s10646-013-1097-2
176971|T||Liu,K., L. Chen, W. Zhang, K. Lin, and L. Zhao|EPR Detection of Hydroxyl Radical Generation and Oxidative Perturbations in Lead-Exposed Earthworms (Eisenia fetida) in the Presence of Decabromodiphenyl Ether|Ecotoxicology24(2): 301-308|2015|10.1007/s10646-014-1378-4
176972|T||Xie,X., Y. Wu, M. Zhu, Y.K. Zhang, and X. Wang|Hydroxyl Radical Generation and Oxidative Stress in Earthworms (Eisenia fetida) Exposed to Decabromodiphenyl Ether (BDE-209)|Ecotoxicology20(5): 993-999|2011|10.1007/s10646-011-0645-x
176973|T||Letcher,R.J., S.C. Marteinson, and K.J. Fernie|Dietary Exposure of American Kestrels (Falco sparverius) to Decabromodiphenyl Ether (BDE-209) Flame Retardant: Uptake, Distribution, Debromination and Cytochrome P450 Enzyme Induction|Environ. Int.63:182-190|2014|10.1016/j.envint.2013.11.010
176974|T||Vogt,W., and H. Buchenauer|Enhancement of Biological Control by Combination of Antagonistic Fluorescent Pseudomonas Strains and Resistance Inducers Against Damping Off and Powdery Mildew in Cucumber|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)104(3): 272-280|1997|
176975|A||Vu,H.T., M.J. Keough, S.M. Long, and V.J. Pettigrove|Toxicological Effects of Fungicide Mixtures on the Amphipod Austrochiltonia subtenuis|Environ. Toxicol. Chem.36(10): 2651-2659|2017|10.1002/etc.3809
176976|A||Vu,H.T., M.J. Keough, S.M. Long, and V.J. Pettigrove|Effects of the Boscalid Fungicide Filan on the Marine Amphipod Allorchestes compressa at Environmentally Relevant Concentrations|Environ. Toxicol. Chem.35(5): 1130-1137|2016|10.1002/etc.3247
176977|A||Vu,H.T., M.J. Keough, S.M. Long, and V.J. Pettigrove|Effects of Two Commonly Used Fungicides on the Amphipod Austrochiltonia subtenuis|Environ. Toxicol. Chem.36(3): 720-726|2017|10.1002/etc.3584
176978|A||Wang,W., X. Zhang, Z. Wang, J. Qin, W. Wang, H. Tian, and S. Ru|Bisphenol S Induces Obesogenic Effects Through Deregulating Lipid Metabolism in Zebrafish (Danio rerio) Larvae|Chemosphere199:286-296|2018|10.1016/j.chemosphere.2018.01.163
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176980|T||Banks,W.A., A.S. Las, C.T. Adams, and C.S. Lofgren|Comparison of Several Sulfluramid Bait Formulations for Control of the Red Imported Fire Ant (Hymenoptera: Formicidae)|J. Entomol. Sci.27(1): 50-55|1992|10.18474/0749-8004-27.1.50
176981|T||Morrison,I.M., and D. Stewart|Plant Cell Wall Fragments Released on Solubilisation in Trifluoroacetic Acid|Phytochemistry49(6): 1555-1563|1998|10.1016/S0031-9422(98)00244-1
176982|A||Hoover,G.M., M.F. Chislock, B.J. Tornabene, S.C. Guffey, Y.J. Choi, C. De Perre, J.T. Hoverman, L.S. Lee, and M.S. Sepu|Uptake and Depuration of Four Per/Polyfluoroalkyl Substances (PFASs) in Northern Leopard Frog Rana pipiens Tadpoles|Environ. Sci. Technol. Lett.4(10): 399-403|2017|10.1021/acs.estlett.7b00339
176983|T||Wang,X., J. Wei, J. Mo, W. Mao, and T. Ye|The Susceptibility of Reticulitermes chinensis (Isoptera: Rhinotermitidae) to Sulfluramid, Imidacloprid and Ivermectin|Sociobiology50(2): 561-572|2007|
176984|T||Li,W., Y. Tong, Q. Xiong, and Q. Huang|Efficacy of Three Kinds of Baits Against the Subterranean Termite Reticulitermes chinensis (Isoptera: Rhinotermitidae) in Rural Houses in China|Sociobiology56(1): 209-221|2010|
176985|A||Cheng,K.L.|The Development and Application of a 28 Day Larval Fish Toxicity Test|B.S.Thesis, Charles Darwin University, Darwin, NT:79 p.|2008|
176986|AT||Giles,M.S.|Toxicity Studies on Aquatic Organisms and Grass-Sedge Communities in the Magela Creek Area|In: Alligator Rivers Area Fact Finding Study. Australian Atomic Energy Commission Report II. Australia Capital Territory, Australia:15 p.|1974|
176987|T||Nakahara,Y., T. Hiraoka, and K. Iwabuchi|Growth-Promoting Effects of Ecdysteroids and Juvenile Hormone on In Vitro Development of the Larval Endoparasitoid, Venturia canescens (Hymenoptera: Ichneumonidae)|J. Insect Physiol.46(4): 467-476|2000|10.1016/S0022-1910(99)00133-X
176988|T||Beggs,J.R., R.J. Toft, J.P. Malham, J.S. Rees, J.A.V. Tilley, H. Moller, and P. Alspach|The Difficulty of Reducing Introduced Wasp (Vespula vulgaris) Populations for Conservation Gains|N. Z. J. Ecol.22(1): 55-63|1998|
176990|A||Dow Corning Corp.|Bioconcentration of Octamethylcyclotetrasiloxane in Fish|Dow Corning Rep.:16 p.|1984|
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176994|A||Hidaka,I.|The Effects of Transition Metals on the Palatal Chemoreceptors of the Carp|Jpn. J. Physiol.20:599-609|1970|
176995|A||Bjerkeng,B., T. Storebakken, and E. Wathne|Cholesterol and Short-Chain Fatty Acids in Diets for Atlantic Salmon Salmo salar (L.): Effects on Growth, Organ Indices, Macronutrient Digestibility, and Fatty Acid Composition|Aquac. Nutr.5(3): 181-191|1999|10.1046/j.1365-2095.1999.00103.x
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176997|T||Kruski,A.W., and K.A. Narayan|Effect of Orotic Acid and Cholesterol on the Synthesis and Composition of Chicken (Gallus domesticus) Serum Lipoproteins|Int. J. Biochem.7(12): 635-638|1976|10.1016/0020-711X(76)90104-X
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177000|A||Teshima,S.I., A. Kanazawa, and H. Sasada|Nutritional Value of Dietary Cholesterol and Other Sterols to Larval Prawn, Penaeus japonicus Bate|Aquaculture31(2-4): 159-167|1983|10.1016/0044-8486(83)90310-1
177001|A||Briggs,M.R.P., K. Jauncey, and J.H. Brown|The Cholesterol and Lecithin Requirements of Juvenile Prawn (Macrobrachium rosenbergii) Fed Semi-Purified Diets|Aquaculture70(1/2): 121-129|1988|10.1016/0044-8486(88)90011-7
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177005|A||Sheen,S.S.|Dietary Cholesterol Requirement of Juvenile Mud Crab Scylla serrata|Aquaculture189(3/4): 277-285|2000|10.1016/S0044-8486(00)00379-3
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177007|T||Dambre-Raes,H.|The Effect of Dietary Cholesterol on the Development of Hylemya brassicae|J. Insect Physiol.22(9): 1287-1289|1976|10.1016/0022-1910(76)90108-6
177008|T||Madariaga,M.A., F. Mata, A.M. Municio, and A. Ribera|Effect of Cholesterol Feeding on the Relative Fatty Acid Distribution During Development of Ceratitis capitata|J. Insect Physiol.18(1): 1-8|1972|10.1016/0022-1910(72)90058-3
177009|T||Al-Izzi,M.A.J., and T.L. Hopkins|Effects of Dietary Sterols on Development and Reproduction of Southwestern Corn Borer Diatraea grandiosella Dyar|J. Insect Physiol.28(2): 189-192|1982|10.1016/0022-1910(82)90128-7
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177013|T||Sehgal,S.S., and H.C. Agarwal|Quantitative Dietary Requirements of the Beetle Trogoderma for Cholesterol and Choline|J. Insect Physiol.19(2): 419-425|1973|10.1016/0022-1910(73)90116-9
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177019|T||Blackshaw,R.P.|The Effect of Benzimidazole Fungicides on the Ecology of Soil Fauna in Winter Wheat|Ph.D.Thesis, Newcastle University, Newcastle upon Tyne, United Kingdom:236 p.|1980|
177020|A||Schoenmakers,H.J.N.|In Vitro Biosynthesis of Steroids from Cholesterol by the Ovaries and Pyloric Caeca of the Starfish Asterias rubens|Comp. Biochem. Physiol. B Comp. Biochem.63(2): 179-184|1979|10.1016/0305-0491(79)90026-9
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177022|A||Lupo Di Prisco,C., C. Basile, G. Delrio, and G. Chieffi|In Vitro Metabolism of Cholesterol-4-14c and Testosterone-4-14c in Testes and Fat Bodies of Triturus cristatus carnifex|Comp. Biochem. Physiol. B Comp. Biochem.41(1): 245-249|1972|10.1016/0305-0491(72)90026-0
177023|T||Dow Corning Corp.|Acaricidal and Insecticidal Activity of Various Silicone Fluids|EPA/OTS 878215084:28 p.|1985|
177024|T||Dinan,L.N., and H.H. Rees|Incorporation In Vivo of [4-14c]-Cholesterol into the Conjugated Ecdysteroids in Ovaries and Eggs of Schistocerca americana gregaria|Insect Biochem.11(3): 255-265|1981|10.1016/0020-1790(81)90003-2
177025|T||Dow Corning Corp.|Environmental Effects of Silicon Fluids on Plants in a Terrestrial Environment: One Year After Fluid Application|EPA/OTS 878215087:32 p.|1985|
177026|T||Bergmann,E.D., and Z. Aizenshtat|Inhibitory Effect of Steroids Competing with Cholesterol on the Growth and Pupation of Dermestes maculatus Larvae|Insect Biochem.5(6): 733-736|1975|10.1016/0020-1790(75)90017-7
177027|A||Silicone Health Council|Octamethylcyclotetrasiloxane - Acute Toxicity to Sheepshead Minnow (Cyprinodon variegatus) During a 14-Day Flow-Through Exposure|EPA/OTS Doc #86-940000630:63 p.|1990|
177028|A||Dow Corning Corp.|An 18-Day Aquatic Toxicity Test of Octamethylcyclotetrasiloxane in Rainbow Trout of Different Size Under Flow-Through Saturated Conditions (Final Report) W-Attach & Letter 042392|EPA/OTS #86-920000905:28 p.|1992|
177029|T||Chino,H., and L.I. Gilbert|The Uptake and Transport of Cholesterol by Haemolymph Lipoproteins|Insect Biochem.1(3): 337-347|1971|10.1016/0020-1790(71)90051-5
177030|T||Dwivedy,A.K.|Dietary Cholesterol Utilization by the Housefly, Musca domestica|Insect Biochem.15(1): 137-140|1985|10.1016/0020-1790(85)90054-X
177031|T||Monroe,R.E., T.L. Hopkins, and S.A. Valder|Metabolism and Utilization of Cholesterol-4-C14 for Growth and Reproduction of Aseptically Reared Houseflies, Musca domestica L.|J. Insect Physiol.13(2): 219-233|1967|10.1016/0022-1910(67)90150-3
177032|T||Katz,M., P. Budowski, and A. Bondi|The Effect of Phytosterols on the Growth and Sterol Composition of Dermestes maculatus|J. Insect Physiol.17(7): 1295-1303|1971|10.1016/0022-1910(71)90194-6
177033|T||Larsen,W.P.|Growth in an Insect Organ Culture|J. Insect Physiol.13(4): 613-619|1967|10.1016/0022-1910(67)90072-8
177035|T||Chvapil,M., P.L. Stith, J.A. Owen, and C.D. Eskelson|Biochemical Reactivity of Aortic Connective Tissue in Chickens Treated with Cholesterol Diet in Combination with a Nonspecific Immunization or with Epinephrine and Thyroxine|Life Sci.23(1): 55-59|1978|10.1016/0024-3205(78)90325-9
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177041|T||Fujimoto,Y., M. Hiramoto, K. Kakinuma, and N. Ikekawa|Elimination of C-6-Hydrogen During the Formation of Ecdysteroids from Cholesterol in Locusta migratoria Ovaries|Steroids53(3-5): 477-485|1989|10.1016/0039-128X(89)90026-3
177042|T||Morrison,I.M.|Hydrolysis of Plant Cell Walls with Trifluoroacetic Acid|Phytochemistry27(4): 1097-1100|1988|10.1016/0031-9422(88)80281-4
177043|T||Garraffo,H.M., and E.G. Gros|Biosynthesis of Bufadienolides in Toads VI. Experiments with (1 2-3H) Cholesterol, 21-14C) Coprostanol,and 5-beta (21-14C) Pregnanolone in the Toad Bufo arenarum|Steroids48(3/4): 251-257|1986|10.1016/0039-128X(86)90008-5
177044|A||Yuan,Z., Z. Miao, X. Gong, B. Zhao, Y. Zhang, H. Ma, J. Zhang, and B. Zhao|Changes on Lipid Peroxidation, Enzymatic Activities and Gene Expression in Planarian (Dugesia japonica) Following Exposure to Perfluorooctanoic Acid|Ecotoxicol. Environ. Saf.145:564-568|2017|10.1016/j.ecoenv.2017.08.008
177045|A||Hoshita,T.|Stero-Bile Acids and Bile Sterols: LXII. Formation of 5alpha-Cyprinol from Cholesterol in Carp|Steroids3(5): 523-529|1964|10.1016/0039-128X(64)90084-4
177046|T||Mehdi,A.Z., and A. Carballeira|Steroid Biosynthesis by Painted Turtle (Chrysemys picta picta) Adrenals|Steroids19(1): 137-150|1972|10.1016/0039-128X(72)90032-3
177047|T||Li,J., W. Zhang, L. Chen, J. Liang, and K. Lin|Biological Effects of Decabromodiphenyl Ether (BDE209) and Pb on Earthworm (Eisenia fetida) in a Soil System|Environ. Pollut.207:220-225|2015|10.1016/j.envpol.2015.09.034
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177137|A||Gorrochategui,E., S. Lacorte, R. Tauler, and F.L. Martin|Perfluoroalkylated Substance Effects in Xenopus laevis A6 Kidney Epithelial Cells Determined by ATR-FTIR Spectroscopy and Chemometric Analysis|Chem. Res. Toxicol.29(5): 924-932|2016|10.1021/acs.chemrestox.6b00076
177138|A||Liang,R., J. He, Y. Shi, Z. Li, S. Sarvajayakesavalu, Y. Baninla, F. Guo, J. Chen, X. Xu, and Y. Lu|Effects of Perfluorooctane Sulfonate on Immobilization, Heartbeat, Reproductive and Biochemical Performance of Daphnia magna|Chemosphere168:1613-1618|2017|10.1016/j.chemosphere.2016.11.147
177139|A||Godfrey,A., A. Abdel-Moneim, and M.S. Sepulveda|Acute Mixture Toxicity of Halogenated Chemicals and Their Next Generation Counterparts on Zebrafish Embryos|Chemosphere181:710-712|2017|10.1016/j.chemosphere.2017.04.146
177140|A||Fisher,D., L. Yonkos, G. Ziegler, E. Friedel, and D. Burton|Acute and Chronic Toxicity of Selected Disinfection Byproducts to Daphnia magna, Cyprinodon variegatus, and Isochrysis galbana|Water Res.55:233-244|2014|10.1016/j.watres.2014.01.056
177141|A||Li,G., H. Ye, G. Su, Z. Han, C. Xie, B. Zhou, R.J. Letcher, J.P. Giesy, H. Yu, and C. Liu|Establishment of a Three-Step Method to Evaluate Effects of Chemicals on Development of Zebrafish Embryo/Larvae|Chemosphere186:209-217|2017|10.1016/j.chemosphere.2017.07.163
177142|T||Bizkarguenaga,E., I. Zabaleta, A. Prieto, L.A. Fernandez, and O. Zuloaga|Uptake of 8:2 Perfluoroalkyl Phosphate Diester and Its Degradation Products by Carrot and Lettuce from Compost-Amended Soil|Chemosphere152:309-317|2016|10.1016/j.chemosphere.2016.02.130
177143|T||Karnjanapiboonwong,A., S.K. Deb, S. Subbiah, D. Wang, and T.A. Anderson|Perfluoroalkylsulfonic and Carboxylic Acids in Earthworms (Eisenia fetida): Accumulation and Effects Results from Spiked Soils at PFAS Concentrations Bracketing Environmental Relevance|Chemosphere199:168-173|2018|10.1016/j.chemosphere.2018.02.027
177144|A||Xia,J., and C. Niu|Acute Toxicity Effects of Perfluorooctane Sulfonate on Sperm Vitality, Kinematics and Fertilization Success in Zebrafish|Chin. J. Oceanol. Limnol.35(4): 723-728|2017|10.1007/s00343-017-6086-5
177145|T||Cwinn,M.A., S.P. Jones, and S.W. Kennedy|Exposure to Perfluorooctane Sulfonate or Fenofibrate Causes PPAR-a Dependent Transcriptional Responses in Chicken Embryo Hepatocytes|Comp. Biochem. Physiol. C Toxicol. Pharmacol.148(2): 165-171|2008|10.1016/j.cbpc.2008.05.002
177146|A||Krovel,A.V., L. Softeland, B. Torstensen, and P.A. Olsvik|Transcriptional Effects of PFOS in Isolated Hepatocytes from Atlantic Salmon Salmo salar L.|Comp. Biochem. Physiol. C Toxicol. Pharmacol.148(1): 14-22|2008|10.1016/j.cbpc.2008.03.001
177147|T||Watanabe,M.X., S.P. Jones, H. Iwata, E.Y. Kim, and S.W. Kennedy|Effects of Co-Exposure to 2,3,7,8-Tetrachlorodibenzo-P-Dioxin and Perfluorooctane Sulfonate or Perfluorooctanoic Acid on Expression of Cytochrome P450 Isoforms in Chicken (Gallus gallus) Embryo Hepatocyte Cultures|Comp. Biochem. Physiol. C Toxicol. Pharmacol.149(4): 605-612|2009|10.1016/j.cbpc.2009.01.001
177148|A||Balbi,T., C. Ciacci, E. Grasselli, A. Smerilli, A. Voci, and L. Canesi|Utilization of Mytilus Digestive Gland Cells for the In Vitro Screening of Potential Metabolic Disruptors in Aquatic Invertebrates|Comp. Biochem. Physiol. C Toxicol. Pharmacol.191:26-35|2017|10.1016/j.cbpc.2016.08.009
177149|A||Huang,T.S., P.A. Olsvik, A. Krovel, H.S. Tung, and B.E. Torstensen|Stress-Induced Expression of Protein Disulfide Isomerase Associated 3 (PDIA3) in Atlantic Salmon (Salmo salar L.)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.154(4): 435-442|2009|10.1016/j.cbpb.2009.08.009
177150|A||Li,C., L. Qin, R. Qu, P. Sun, and Z. Wang|Responses of Antioxidant Defense System to Polyfluorinated Dibenzo-p-Dioxins (PFDDs) Exposure in Liver of Freshwater Fish Carassius auratus|Ecotoxicol. Environ. Saf.126:170-176|2016|10.1016/j.ecoenv.2015.12.036
177151|T||Molina,E.D.|The Effects of Air Cell Injection of Perfluorooctane Sulfonate Prior to Incubation on the Development of the White Leghorn Chicken (Gallus domesticus) Embryo|Ph.D. Thesis, Michigan State University, East Lansing, MI:58 p.|2004|
177152|AT||Hu,W.Y.|In Vitro Studies of the Biochemical Toxicity of Perfluorooctane Sulfonic Acid and Its Possible Interaction with 2,3,7,8-Tetrachlorodibenzo-p-Dioxin|Ph.D. Thesis, Michigan State University, East Lansing, MI:82 p.|2000|
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177154|A||Xia,J.G., Y.J. Ma, W.M. Guo, L. Huang, and S.J. Fu|Temperature-Dependent Effects of PFOS on Risk Recognition and Fast-Start Performance in Juvenile Spinibarbus sinensis|Aquat. Biol.24(2): 101-108|2015|10.3354/ab00640
177156|T||Albans,K.R., R. Baker, O.T. Jones, A.R. Jutsum, and M.D. Turnbull|Inhibition of Response of Heliothis virescens to Its Natural Pheromone by Antipheromones|Crop Prot.3(4): 501-506|1984|10.1016/0261-2194(84)90031-0
177157|A||Manera,M., L. Giari, F. Vincenzi, C. Guerranti, J.A. DePasquale, and G. Castaldelli|Texture Analysis in Liver of Common Carp (Cyprinus carpio) Sub-Chronically Exposed to Perfluorooctanoic Acid|Ecol. Indic.81:54-64|2017|10.1016/j.ecolind.2017.05.001
177158|T||Yuan,Z., J. Zhang, L. Zhao, J. Li, and H. Liu|Effects of Perfluorooctanoic Acid and Perfluorooctane Sulfonate on Acute Toxicity, Superoxide Dismutase, and Cellulase Activity in the Earthworm Eisenia fetida|Environ. Sci. Pollut. Res. Int.24(22): 18188-18194|2017|10.1007/s11356-017-9477-4
177160|A||Honda,M., A. Muta, A. Shimazaki, T. Akasaka, M. Yoshikuni, Y. Shimasaki, and Y. Oshima|High Concentrations of Perfluorooctane Sulfonate in Mucus of Tiger Puffer Fish Takifugu rubripes: A Laboratory Exposure Study|Environ. Sci. Pollut. Res. Int.25(2): 1551-1558|2018|10.1007/s11356-017-0537-6
177161|T||Zhao,Y., G. Li, D. Qi, L. Sun, C. Wen, and S. Yin|Biomarker Responses of Earthworms (Eisenia fetida) to Soils Contaminated with Perfluorooctanoic Acid|Environ. Sci. Pollut. Res. Int.24(27): 22073-22081|2017|10.1007/s11356-017-9776-9
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177163|T||Pinkas,A., T.A. Slotkin, Y. Brick-Turin, E.A. Van Der Zee, and J. Yanai|Neurobehavioral Teratogenicity of Perfluorinated Alkyls in an Avian Model|Neurotoxicol. Teratol.32(2): 182-186|2010|10.1016/j.ntt.2009.11.004
177164|T||Chen,N., J. Li, D. Li, Y. Yang, and D. He|Chronic Exposure to Perfluorooctane Sulfonate Induces Behavior Defects and Neurotoxicity Through Oxidative Damages, In Vivo and In Vitro|PLoS One9(11): 10 p.|2014|
177165|T||Bringmann,G., K. Wolf, M. Meininger, M. Rokitta, and A. Haase|In Vivo 19F NMR Chemical-Shift Imaging of Ancistrocladus Species|Protoplasma (Multiple Languages)218(3/4): 134-143|2001|10.1007/BF01306603
177166|A||Jantzen,C.E., F. Toor, K.A. Annunziato, and K.R. Cooper|Effects of Chronic Perfluorooctanoic Acid (PFOA) at Low Concentration on Morphometrics, Gene Expression, and Fecundity in Zebrafish (Danio rerio)|Reprod. Toxicol.69:34-42|2017|10.1016/j.reprotox.2017.01.009
177167|A||Keiter,S., K. Burkhardt-Medicke, P. Wellner, B. Kais, H. Farber, D. Skutlarek, M. Engwall, T. Braunbeck, S.H. Keiter, a|Does Perfluorooctane Sulfonate (PFOS) Act as Chemosensitizer in Zebrafish Embryos?|Sci. Total Environ.548/549:317-324|2016|10.1016/j.scitotenv.2015.12.089
177169|A||Jeong,T.Y., M.S. Yuk, J. Jeon, and S.D. Kim|Multigenerational Effect of Perfluorooctane Sulfonate (PFOS) on the Individual Fitness and Population Growth of Daphnia magna|Sci. Total Environ.569/570:1553-1560|2016|10.1016/j.scitotenv.2016.06.249
177170|A||Zabaleta,I., E. Bizkarguenaga, U. Izagirre, N. Negreira, A. Covaci, J.P. Benskin, A. Prieto, and O. Zuloaga|Biotransformation of 8:2 Polyfluoroalkyl Phosphate Diester in Gilthead Bream (Sparus aurata)|Sci. Total Environ.609:1085-1092|2017|10.1016/j.scitotenv.2017.07.241
177171|T||Zhao,S., X. Ma, S. Fang, and L. Zhu|Behaviors of N-Ethyl Perfluorooctane Sulfonamide Ethanol (N-EtFOSE) in a Soil-Earthworm System: Transformation and Bioaccumulation|Sci. Total Environ.554/555:186-191|2016|10.1016/j.scitotenv.2016.02.180
177172|A||Blanc,M., A. Karrman, P. Kukucka, N. Scherbak, and S. Keiter|Mixture-Specific Gene Expression in Zebrafish (Danio rerio) Embryos Exposed to Perfluorooctane Sulfonic Acid (PFOS), Perfluorohexanoic Acid (PFHxA) and 3,3',4,4',5-Pentachlorobiphenyl (PCB126)|Sci. Total Environ.590:249-257|2017|10.1016/j.scitotenv.2017.02.232
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177174|T||Oehrle,N.W., L.S. Green, D.B. Karr, and D.W. Emerich|The HFC/HCFC Breakdown Product Trifluoroacetic Acid (TFA) and Its Effects on the Symbiosis Between Bradyrhizobium japonicum and Soybean (Glycine max)|Soil Biol. Biochem.36(2): 333-342|2004|10.1016/j.soilbio.2003.10.008
177175|T||O'Brien,J.M., A. Williams, C.L. Yauk, D. Crump, and S.W. Kennedy|In Vitro Microarray Analysis Identifies Genes in Acute-Phase Response Pathways that are Down-Regulated in the Liver of Chicken Embryos Exposed In Ovo to PFUdA|Toxicol. In Vitro27(6): 1649-1658|2013|10.1016/j.tiv.2013.04.003
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177179|A||Anselmo,H.M.R., J.H.J. Van Den Berg, I.M.C.M. Rietjens, and A.J. Murk|Inhibition of Cellular Efflux Pumps Involved in Multi Xenobiotic Resistance (MXR) in Echinoid Larvae as a Possible Mode of Action for Increased Ecotoxicological Risk of Mixtures|Ecotoxicology21(8): 2276-2287|2012|10.1007/s10646-012-0984-2
177180|T||He,W., M. Megharaj, and R. Naidu|Toxicity of Perfluorooctanoic Acid Towards Earthworm and Enzymatic Activities in Soil|Environ. Monit. Assess.188(7): 7 p.|2016|10.1007/s10661-016-5416-y
177181|T||Zhao,S., T. Zhou, L. Zhu, B. Wang, Z. Li, L. Yang, and L. Liu|Uptake, Translocation and Biotransformation of N-Ethyl Perfluorooctanesulfonamide (N-EtFOSA) by Hydroponically Grown Plants|Environ. Pollut.235:404-410|2018|10.1016/j.envpol.2017.12.053
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177183|T||Zhao,S., and L. Zhu|Uptake and Metabolism of 10:2 Fluorotelomer Alcohol in Soil-Earthworm (Eisenia fetida) and Soil-Wheat (Triticum aestivum L.) Systems|Environ. Pollut.220:124-131|2017|10.1016/j.envpol.2016.09.030
177184|A||Liu,W., J. Li, L. Gao, Z. Zhang, J. Zhao, X. He, and X. Zhang|Bioaccumulation and Effects of Novel Chlorinated Polyfluorinated Ether Sulfonate in Freshwater Alga Scenedesmus obliquus|Environ. Pollut.233:8-15|2018|10.1016/j.envpol.2017.10.039
177185|T||Perales,S., M.J. Alejandre, R.P. Morales, C. Torres, and A. Linares|Fish Oil Supplementation Reverses the Effect of Cholesterol on Apoptotic Gene Expression in Smooth Muscle Cells|Lipids Health Dis.9(70): 9 p.|2010|
177186|T||Tang,J., X. Jia, N. Gao, Y. Wu, Z. Liu, X. Lu, Q. Du, J. He, N. Li, B. Chen, J. Jiang, W. Liu, Y. Ding, W. Zhu, and H. |Role of the Nrf2-ARE Pathway in Perfluorooctanoic Acid (PFOA)-Induced Hepatotoxicity in Rana nigromaculata|Environ. Pollut.238:1035-1043|2018|10.1016/j.envpol.2018.02.037
177187|A||Zhang,W., K. Mai, C. Yao, W. Xu, W. Wang, Z. Liufu, and X. Wang|Effects of Dietary Cholesterol on Growth, Survival and Body Composition of Juvenile Abalone Haliotis discus hannai Ino|Aquaculture295(3/4): 271-274|2009|10.1016/j.aquaculture.2009.07.006
177188|T||Navarro,I., A. De La Torre, P. Sanz, M.A. Porcel, J. Pro, G. Carbonell, and M.A. Martinez|Uptake of Perfluoroalkyl Substances and Halogenated Flame Retardants by Crop Plants Grown in Biosolids-Amended Soils|Environ. Res.152:199-206|2017|10.1016/j.envres.2016.10.018
177189|A||Holme,M.H., C. Zeng, and P.C. Southgate|The Effects of Supplemental Dietary Cholesterol on Growth, Development and Survival of Mud Crab, Scylla serrata, Megalopa Fed Semi-Purified Diets|Aquaculture261(4): 1328-1334|2006|10.1016/j.aquaculture.2006.08.032
177190|T||Yousef,L.F., A.F. Yousef, J.S. Mymryk, W.A. Dick, and R.P. Dick|Stigmasterol and Cholesterol Regulate the Expression of Elicitin Genes in Phytophthora sojae|J. Chem. Ecol.35(7): 824-832|2009|10.1007/s10886-009-9653-1
177191|A||Hassett,R.P.|Supplementation of a Diatom Diet with Cholesterol can Enhance Copepod Egg-Production Rates|Limnol. Oceanogr.49(2): 488-494|2004|10.4319/lo.2004.49.2.0488
177192|T||Ouahrouch,A., H. Ighachane, M. Taourirte, J.W. Engels, M.H. Sedra, and H.B. Lazrek|Benzimidazole-1,2,3-Triazole Hybrid Molecules: Synthesis and Evaluation for Antibacterial/Antifungal Activity|Arch. Pharm. (Weinh.)347(10): 748-755|2014|10.1002/ardp.201400142
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177195|T||Appel,A.G., and S.F. Abd-Elghafar|Toxicity, Sublethal Effects, and Performance of Sulfluramid Against the German Cockroach (Dictyoptera: Blattellidae)|J. Econ. Entomol.83(4): 1409-1414|1990|10.1093/jee/83.4.1409
177196|A||Liu,C., K.Y.H. Gin, and V.W.C. Chang|Multi-Biomarker Responses in Green Mussels Exposed to PFCs: Effects at Molecular, Cellular, and Physiological Levels|Environ. Sci. Pollut. Res.21:2785-2794|2014|10.1007/s11356-013-2216-6
177197|T||Zabaleta,I., E. Bizkarguenaga, D.B.O. Nunoo, L. Schultes, J. Leonel, A. Prieto, O. Zuloaga, and J.P. Benskin|Biodegradation and Uptake of the Pesticide Sulfluramid in a Soil-Carrot Mesocosm|Environ. Sci. Technol.52(5): 2603-2611|2018|10.1021/acs.est.7b03876
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177199|A||Tomy,G.T., S.A. Tittlemier, V.P. Palace, W.R. Budakowski, E. Braekevelt, L. Brinkworth, and K. Friesen|Biotransformation of N-Ethyl Perfluorooctanesulfonamide by Rainbow Trout (Onchorhynchus mykiss) Liver Microsomes|Environ. Sci. Technol.38(3): 758-762|2004|10.1021/es034550j
177200|T||Lee,H., A.G. Tevlin, S.A. Mabury, and S.A. Mabury|Fate of Polyfluoroalkyl Phosphate Diesters and Their Metabolites in Biosolids-Applied Soil: Biodegradation and Plant Uptake in Greenhouse and Field Experiments|Environ. Sci. Technol.48(1): 340-349|2014|10.1021/es403949z
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177221|A||Zhao,A., H. Liu, A. Zhang, X. Wang, H. Zhang, and H. Wang|Effect of BDE-209 on Glutathione System in Carassius auratus|Environ. Toxicol. Pharmacol.32(1): 35-39|2011|10.1016/j.etap.2011.03.004
177222|A||Xie,Z., G. Lu, and P. Qi|Effects of BDE-209 and Its Mixtures with BDE-47 and BDE-99 on Multiple Biomarkers in Carassius auratus|Environ. Toxicol. Pharmacol.38:554-561|2014|10.1016/j.etap.2014.08.008
177224|T||Zhang,W., K. Liu, J. Li, J. Liang, and K. Lin|Impacts of BDE209 Addition on Pb Uptake, Subcellular Partitioning and Gene Toxicity in Earthworm (Eisenia fetida)|J. Hazard. Mater.300:737-744|2015|10.1016/j.jhazmat.2015.08.014
177225|T||Huang,H., S. Zhang, S. Wang, and J. Lv|In Vitro Biotransformation of PBDEs by Root Crude Enzyme Extracts:  Potential Role of Nitrate Reductase (NaR) and Glutathione S-Transferase (GST) in Their Debromination|Chemosphere90(6): 1885-1892|2013|10.1016/j.chemosphere.2012.10.013
177226|T||Wu,J., Y. Xie, Z. Fang, W. Cheng, and P.E. Tsang|Effects of Ni/Fe Bimetallic Nanoparticles on Phytotoxicity and Translocation of Polybrominated Diphenyl Ethers in Contaminated Soil|Chemosphere162:235-242|2016|10.1016/j.chemosphere.2016.07.101
177227|T||Eng,M.L., J.E. Elliott, and T.D. Williams|An Assessment of the Developmental Toxicity of BDE-99 in the European Starling Using an Integrated Laboratory and Field Approach|Ecotoxicology23(8): 1505-1516|2014|10.1007/s10646-014-1292-9
177228|T||Liang,J., X. Xia, L. Yuan, W. Zhang, K. Lin, B. Zhou, and S. Hu|The Reproductive Responses of Earthworms (Eisenia fetida) Exposed to Nanoscale Zero-Valent Iron (nZVI) in the Presence of Decabromodiphenyl Ether (BDE209)|Environ. Pollut.237:784-791|2017|10.1016/j.envpol.2017.10.130
177230|A||Yang,J., and K.M. Chan|Evaluation of the Toxic Effects of Brominated Compounds (BDE-47, 99, 209, TBBPA) and Bisphenol A (BPA) Using a Zebrafish Liver Cell Line, ZFL|Aquat. Toxicol.159:138-147|2015|10.1016/j.aquatox.2014.12.011
177231|T||Li,K., J. Chen, and L. Zhu|The Phytotoxicities of Decabromodiphenyl Ether (BDE-209) to Different Rice Cultivars (Oryza sativa L.)|Environ. Pollut.235:692-699|2018|10.1016/j.envpol.2017.12.079
177232|T||Wu,J., Y. Yi, Z. Fang, and E.P. Tsang|Effects of Biochar on Phytotoxicity and Translocation of Polybrominated Diphenyl Ethers in Ni/Fe Bimetallic Nanoparticle-Treated Soil|Environ. Sci. Pollut. Res.25(3): 2570-2579|2018|10.1007/s11356-017-0627-5
177233|A||Noyes,P.D., S.C. Lema, L.J. Macaulay, N.K. Douglas, and H.M. Stapleton|Low Level Exposure to the Flame Retardant BDE-209 Reduces Thyroid Hormone Levels and Disrupts Thyroid Signaling in Fathead Minnows|Environ. Sci. Technol.47(17): 10012-10021|2013|10.1021/es402650x
177234|A||Li,H., B. Zhang, Y. Wei, F. Wang, M.J. Lydy, and J. You|Bioaccumulation of Highly Hydrophobic Organohalogen Flame Retardants from Sediments: Application of Toxicokinetics and Passive Sampling Techniques|Environ. Sci. Technol.48(12): 6957-6964|2014|10.1021/es5011708
177235|A||Roberts,S.C., P.D. Noyes, E.P. Gallagher, and H.M. Stapleton|Species-Specific Differences and Structure-Activity Relationships in the Debromination of PBDE Congeners in Three Fish Species|Environ. Sci. Technol.45(5): 1999-2005|2011|10.1021/es103934x
177236|T||Xie,Y., W. Cheng, P.E. Tsang, and Z. Fang|Remediation and Phytotoxicity of Decabromodiphenyl Ether Contaminated Soil by Zero Valent Iron Nanoparticles Immobilized in Mesoporous Silica Microspheres|J. Environ. Manag.166:478-483|2016|10.1016/j.jenvman.2015.10.042
177237|A||Luo,Q., Z. Jin-Miao, Z. Wang, M.H. Wong, and Z. Cai|Bioaccumulation and Debromination of BDE-209 in Japanese Medaka (Oryzias latipes) when Continuously Exposed to Environmental Relevant Concentrations|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.48(11): 1349-1355|2013|
177239|A||Zhang,J., Y. Wang, K.M. Sun, K. Fang, and X. Tang|A Study of Oxidative Stress Induced by Two Polybrominated Diphenyl Ethers in the Rotifer Brachionus plicatilis|Mar. Pollut. Bull.113(1/2): 408-413|2016|10.1016/j.marpolbul.2016.10.032
177240|A||Zhang,X., X. Tang, B. Zhou, and Y. Wang|Effects of Decabromodiphenyl Ether (BDE-209) on Inter-Specific Competition Between Two Species of Marine Bloom-Forming Microalgae.|PLoS One8(3): 11 p.|2013|
177242|T||Zhang,W., J. Li, K. Liu, and K. Lin|The Behavior and Toxicological Effects of Decabromodiphenyl Ether (BDE209) in a Soil-Earthworm System|Sci. Total Environ.537:377-384|2015|10.1016/j.scitotenv.2015.08.022
177243|T||Zhu,H., Y. Wang, and N.F.Y. Tam|Microcosm Study on Fate of Polybrominated Diphenyl Ethers (PBDEs) in Contaminated Mangrove Sediment|J. Hazard. Mater.265:61-68|2014|10.1016/j.jhazmat.2013.11.046
177244|T||Hu,S., W. Zhang, J. Li, K. Lin, and R. Ji|Antioxidant and Gene Expression Responses of Eisenia fetida Following Repeated Exposure to BDE209 and Pb in a Soil-Earthworm System|Sci. Total Environ.556:163-168|2016|10.1016/j.scitotenv.2016.02.194
177245|A||Jin,S., F. Yang, Y. Hui, Y. Xu, Y. Lu, and J. Liu|Cytotoxicity and Apoptosis Induction on RTG-2 Cells of 2,2',4,4'-Tetrabromodiphenyl Ether (BDE-47) and Decabrominated Diphenyl Ether (BDE-209)|Toxicol. In Vitro24(4): 1190-1196|2010|10.1016/j.tiv.2010.02.012
177246|A||Wang,H., B. Che, A. Duan, J. Mao, R.A. Dahlgren, M. Zhang, H. Zhang, A. Zeng, and X. Wang|Toxicity Evaluation of beta-Diketone Antibiotics on the Development of Embryo-Larval Zebrafish (Danio rerio)|Environ. Toxicol.29(10): 1134-1146|2014|10.1002/tox.21843
177248|T||Zhu,H., H. Sun, Y. Yao, F. Wang, Y. Zhang, and X. Liu|Fate and Adverse Effects of Hexabromocyclododecane Diastereoisomers (HBCDDs) in a Soil-Ryegrass Pot System|Chemosphere184:452-459|2017|10.1016/j.chemosphere.2017.05.166
177249|T||Hou,X., H. Zhang, Y. Li, M. Yu, J. Liu, and G. Jiang|Bioaccumulation of Hexachlorobutadiene in Pumpkin Seedlings After Waterborne Exposure|Environ. Sci. Proc. Impacts19(10): 1327-1335|2017|10.1039/C7EM00304H
177250|A||Reimschuessel,R., R.O. Bennett, E.B. May, and M.M. Lipsky|Development of Newly Formed Nephrons in the Goldfish Kidney Following Hexachlorobutadiene-Induced Nephrotoxicity|Toxicol. Pathol.18(1): 32-38|1990|10.1177/019262339001800105
177251|A||Mu,X., Y. Huang, X. Li, Y. Lei, M. Teng, X. Li, C. Wang, and Y. Li|Developmental Effects and Estrogenicity of Bisphenol A Alternatives in a Zebrafish Embryo Model|Environ. Sci. Technol.52(5): 3222-3231|2018|10.1021/acs.est.7b06255
177252|A||Shi,G., Q. Cui, Y. Pan, N. Sheng, Y. Guo, and J. Dai|6:2 Fluorotelomer Carboxylic Acid (6:2 FTCA) Exposure Induces Developmental Toxicity and Inhibits the Formation of Erythrocytes During Zebrafish Embryogenesis|Aquat. Toxicol.190:53-61|2017|10.1016/j.aquatox.2017.06.023
177253|A||Yang,X., Y. Liu, J. Li, M. Chen, D. Peng, Y. Liang, M. Song, J. Zhang, and G. Jiang|Exposure to Bisphenol AF Disrupts Sex Hormone Levels and Vitellogenin Expression in Zebrafish|Environ. Toxicol.31(3): 285-294|2016|10.1002/tox.22043
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177255|T||Ma,M., D. Crump, R. Farmahin, and S.W. Kennedy|Comparing the Effects of Tetrabromobisphenol-A, Bisphenol A, and Their Potential Replacement Alternatives, TBBPA-Bis(2,3-Dibromopropyl Ether) and Bisphenol S, on Cell Viability and Messenger Ribonucleic Acid Expression |Environ. Toxicol. Chem.34(2): 391-401|2015|10.1002/etc.2814
177256|A||Tang,T., Y. Yang, Y. Chen, W. Tang, F. Wang, and X. Diao|Thyroid Disruption in Zebrafish Larvae by Short-Term Exposure to Bisphenol AF|Int. J. Environ. Res. Public Health12(10): 13069-13084|2015|10.3390/ijerph121013069
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177258|A||Herrero,O., M. Aquilino, P. Sanchez-Arguello, and R. Planello|The BPA-Substitute Bisphenol S Alters the Transcription of Genes Related to Endocrine, Stress Response and Biotransformation Pathways in the Aquatic Midge Chironomus riparius (Diptera, Chironomidae)|PLoS One13(2): 17 p.|2018|10.1371/journal.pone.0193387
177259|A||Zhang,S., X. Guo, S. Lu, N. Sang, G. Li, P. Xie, C. Liu, L. Zhang, and Y. Xing|Exposure to PFDoA Causes Disruption of the Hypothalamus-Pituitary-Thyroid Axis in Zebrafish Larvae|Environ. Pollut.235:974-982|2018|10.1016/j.envpol.2018.01.015
177260|A||Zhang,D.H., E.X. Zhou, and Z.L. Yang|Waterborne Exposure to BPS Causes Thyroid Endocrine Disruption in Zebrafish Larvae|PLoS One12(5): 17 p.|2017|
177261|A||Lee,J., Y. Kho, P.G. Kim, and K. Ji|Exposure to Bisphenol S Alters the Expression of MicroRNA in Male Zebrafish|Toxicol. Appl. Pharmacol.338:191-196|2018|10.1016/j.taap.2017.11.019
177262|A||Rotondo,J.C., L. Giari, C. Guerranti, M. Tognon, G. Castaldelli, E.A. Fano, and F. Martini|Environmental Doses of Perfluorooctanoic Acid Change the Expression of Genes in Target Tissues of Common Carp|Environ. Toxicol. Chem.37(3): 942-948|2018|10.1002/etc.4029
177263|A||Butt,C.M., D.C.G. Muir, and S.A. Mabury|Biotransformation of the 8:2 Fluorotelomer Acrylate in Rainbow Trout. 1. In Vivo Dietary Exposure|Environ. Toxicol. Chem.29(12): 2726-2735|2010|10.1002/etc.349
177264|T||Itako,A.T., J.B.,Jr. Tolentino, T.A.F.,Jr. Da Silva, J.M. Soman, and A.C. Maringoni|Chemical Products Induce Resistance to Xanthomonas perforans in Tomato|Braz. J. Microbiol.46(3): 701-706|2015|10.1590/S1517-838246320140177
177265|T||Garcia-Valcarcel,A.I., E. Molero, M.C. Escorial, M.C. Chueca, and J.L. Tadeo|Uptake of Perfluorinated Compounds by Plants Grown in Nutrient Solution|Sci. Total Environ.472:20-26|2014|10.1016/j.scitotenv.2013.10.054
177266|T||Damalas,C.A., K.V. Dhima, and I.G. Eleftherohorinos|Morphological and Physiological Variation Among Species of the Genus Echinochloa in Northern Greece|Weed Sci.56(3): 416-423|2008|10.1614/WS-07-168.1
177267|A||Schreiber,B., M. Petrenz, J. Monka, B. Drozd, H. Hollert, and R. Schulz|Weatherfish (Misgurnus fossilis) as a New Species for Toxicity Testing?|Aquat. Toxicol.183:46-53|2017|10.1016/j.aquatox.2016.12.006
177268|A||Pereira,T.S.B., C.N.P. Boscolo, D.G.H. Da Silva, S.R. Batlouni, D. Schlenk, and E.A. De Almeida|Anti-Androgenic Activities of Diuron and Its Metabolites in Male Nile Tilapia (Oreochromis niloticus)|Aquat. Toxicol.164:10-15|2015|10.1016/j.aquatox.2015.04.013
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177270|T||Siderhurst,M.S., S.J. Park, C.N. Buller, I.M. Jamie, N.C. Manoukis, E.B. Jang, and P.W. Taylor|Raspberry Ketone Trifluoroacetate, a New Attractant for the Queensland Fruit Fly, Bactrocera tryoni (Froggatt)|J. Chem. Ecol.42(2): 156-162|2016|10.1007/s10886-016-0673-3
177271|T||Tong,L.C.H., J. Dairou, L.C. Bui, J. Bouillon, F. Rodrigues-Lima, J.M. Dupret, and P. Silar|Screen for Soil Fungi Highly Resistant to Dichloroaniline Uncovers Mostly Fusarium Species|Fungal Genet. Biol.81:82-87|2015|10.1016/j.fgb.2015.05.011
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177278|T||Su,G., R.J. Letcher, D. Crump, R. Farmahin, J.P. Giesy, and S.W. Kennedy|Photolytic Degradation Products of Two Highly Brominated Flame Retardants Cause Cytotoxicity and mRNA Expression Alterations in Chicken Embryonic Hepatocytes|Environ. Sci. Technol.48(20): 12039-12046|2014|10.1021/es503399r
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177282|T||Zong,Y., J. Gao, H. Feng, B. Cheng, and X. Zhang|Toxicity of 7-Ketocholesterol on Lethality, Growth, Reproduction, and Germline Apoptosis in the Nematode Caenorhabditis elegans|J. Toxicol. Environ. Health Part A77(12): 716-723|2014|10.1080/15287394.2014.888693
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177314|A||Morris,T.C., T.M. Samocha, D.A. Davis, and J.M. Fox|Cholesterol Supplements for Litopenaeus vannamei Reared on Plant Based Diets in the Presence of Natural Productivity|Aquaculture314(1-4): 140-144|2011|10.1016/j.aquaculture.2011.01.052
177316|A||Saunders,D.M.V., M. Podaima, S. Wiseman, and J.P. Giesy|Effects of the Brominated Flame Retardant TBCO on Fecundity and Profiles of Transcripts of the HPGL-Axis in Japanese Medaka|Aquat. Toxicol.160:180-187|2015|10.1016/j.aquatox.2015.01.018
177317|A||Gu,X., H. Fu, S. Sun, H. Qiao, W. Zhang, S. Jiang, Y. Xiong, S. Jin, Y. Gong, and Y. Wu|Dietary Cholesterol-Induced Transcriptome Differences in the Intestine, Hepatopancreas, and Muscle of Oriental River Prawn Macrobrachium nipponense|Comp. Biochem. Physiol. D Genom. Proteom.23:39-48|2017|10.1016/j.cbd.2017.06.001
177318|A||Chimsung,N., S.P. Lall, C. Tantikitti, V. Verlhac-Trichet, and J.E. Milley|Effects of Dietary Cholesterol on Astaxanthin Transport in Plasma of Atlantic Salmon (Salmo salar)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.165(1): 73-81|2013|10.1016/j.cbpb.2013.02.007
177319|A||Deng,J., X. Zhang, X. Long, L. Tao, Z. Wang, G. Niu, and B. Kang|Effects of Dietary Cholesterol Supplementation on Growth and Cholesterol Metabolism of Rainbow Trout (Oncorhynchus mykiss) Fed Diets with Cottonseed Meal or Rapeseed Meal|Fish Physiol. Biochem.40(6): 1827-1838|2014|10.1007/s10695-014-9971-2
177321|T||Fletcher,D.|Report to Dow Corning Corporation 8-Day Dietary LC50 Study with TX-948 in Mallard Ducklings with Cover Letter Dated 04/20/94|Dow Corning Rep.:20 p.|1973|
177322|T||Fletcher,D.|Report to Dow Corning Corporation 8-Day Dietary LC50 Study with TX-948 in Bobwhite Quail with cover letter dated 04/20/94|Dow Corning Rep.:20 p.|1973|
177324|A||Dow Chemical Co.|Letter from Dow Chemical Company Regarding the Toxicity Data on Selected Compounds with Attachment (Sanitized)|EPA/OTS 86-890001133S:4 p.|1978|
177325|A||Bionomics Inc.|Bioassay Report - Acute Toxicity - Fish with Cover Sheet Dated 061289 (Sanitized)|EPA/OTS 86-890000909S:13 p.|1971|
177326|T||Mayle,B.A., M. Ferryman, A. Peace, C.A. Yoder, L. Miller, and D. Cowan|The Use of DiazaCon to Limit Fertility by Reducing Serum Cholesterol in Female Grey Squirrels, Sciurus carolinensis|Pest Manag. Sci.69(3): 414-424|2013|10.1002/ps.3347
177327|T||Yoder,C.A., W.F. Andelt, L.A. Miller, J.J. Johnston, and M.J. Goodall|Effectiveness of Twenty, Twenty-Five Diazacholesterol, Avian Gonadotropin-Releasing Hormone, and Chicken Riboflavin Carrier Protein for Inhibiting Reproduction in Coturnix Quail|Poult. Sci.83(2): 234-244|2004|10.1093/ps/83.2.234
177329|T||Rouse,C.E., N. Roma-Burgos, J.K. Norsworthy, T.M. Tseng, C.E. Starkey, and R.C. Scott|Echinochloa Resistance to Herbicides Continues to Increase in Arkansas Rice Fields|Weed Technol.32(1): 34-44|2018|10.1017/wet.2017.82
177330|T||Novillo,A., S.J. Won, C. Li, and I.P. Callard|Changes in Nuclear Receptor and Vitellogenin Gene Expression in Response to Steroids and Heavy Metal in Caenorhabditis elegans|Integr. Comp. Biol.45:61-71|2005|10.1093/icb/45.1.61
177331|A||Samaee,S., H. Nikkhah, Z.M. Varga, and B. Rezaei|A Simple and Inexpensive Microinjection System for Zebrafish Embryos and Larvae|Zebrafish14(6): 581-585|2017|10.1089/zeb.2017.1425
177332|T||Calha,I.M., A. Matias, M. Neto, and F. Rocha|Are Portuguese Echinochloa spp. Populations Still Susceptible to Propanil?|Commun. Agric. Appl. Biol. Sci.74(2): 515-519|2009|
177333|T||Macias,F.A., N. Chinchilla, E. Arroyo, R.M. Varela, J.M.G. Molinillo, and D. Marin|Multifunctionalised Benzoxazinones in the Systems Oryza sativa-Echinochloa crus-galli and Triticum aestivum-Avena fatua as Natural-Product-Based Herbicide Leads|Pest Manag. Sci.66(10): 1137-1147|2010|10.1002/ps.1992
177335|T||Bordeleau,L.M., and R. Bartha|Ecology of a Herbicide Transformation: Synergism of Two Soil Fungi|Soil Biol. Biochem.3(4): 281-284|1971|10.1016/0038-0717(71)90036-8
177336|A||E.I. Du Pont De Nemours|Flow-Through Acute 96-Hour LC50 of Methylene Chloride to Rainbow Trout (Sanitized)|EPA/OTS 86-880000118S:13 p.|1987|
177337|A||E.I. Du Pont De Nemours|Daphnia magna Static Acute 48-Hour EC50 of Methylene Chloride (Sanitized)|EPA/OTS 86-880000119S:13 p.|1987|
177338|A||Dow Chemical Co.|Acute Fish Toxicity of Five Chlorinated Solvents|EPA/OTS 86-870002073:22 p.|1976|
177340|A||Upjohn Co.|Acute Toxicity of Selected Compounds in the Upjohn Company's North Haven Facility NPDES Discharge Serial #001 to Juvenile Grass & Shrimp Mummichogs (Final Report) w-Cover Letter|EPA/OTS Doc.#86-890000585:56 p.|1989|
177342|T||Pinto,A.R.,Jr., L.A. Kozlowski, and A.L. Lopes da Silva|Control of Pseudoplusia includens (Walker, 1857) in the Soybean Culture with Different Insecticides|J. Biotechnol. Biodivers.2(4): 16-20|2011|10.20873/jbb.uft.cemaf.v2n4.junior
177343|T||Hocart,M.J.|Fungicide Resistance and Parasexual Recombination in Pseudocercosporella herpotrichoides|Ph.D. Thesis,  The University of Nottingham, U.K:348 p.|1987|
177344|T||Kang,B.K., G. Jyot, R.K. Sharma, R.S. Battu, and B. Singh|Persistence of Propargite on Okra Under Subtropical Conditions at Ludhiana, Punjab, India|Bull. Environ. Contam. Toxicol.85(4): 414-418|2010|10.1007/s00128-010-0098-6
177345|T||Siderhurst,M.S., S.J. Park, I.M. Jamie, and S.G. De Faveri|Electroantennogram Responses of Six Bactrocera and Zeugodacus Species to Raspberry Ketone Analogues|Environ. Chem.14(6): 378-384|2017|10.1071/EN17091
177346|T||Loutre,C., D.P. Dixon, M. Brazier, M. Slater, D.J. Cole, and R. Edwards|Isolation of a Glucosyltransferase from Arabidopsis thaliana Active in the Metabolism of the Persistent Pollutant 3,4-Dichloroaniline|Plant J.34(4): 485-493|2003|10.1046/j.1365-313X.2003.01742.x
177347|A||Nishimura,M., and A. Takamiya|Energy- and Electron-Transfer Systems in Algal Photosynthesis I. Actions of Two Photochemical Systems in Oxidation-Reduction Reactions of Cytochrome in Porphyra|Biochim. Biophys. Acta120(1): 45-56|1966|10.1016/0926-6585(66)90275-5
177348|T||Frear,D.S., and G.G. Still|The Metabolism of 3,4-Dichloropropionanilide in Plants. Partial Purification and Properties of an Aryl Acylamidase from Rice|Phytochemistry7:913-920|1968|10.1016/S0031-9422(00)82175-5
177349|T||Kamireddy,K., P. Matam, P.S. Priyanka, and G. Parvatam|Biochemical Characterization of a Key Step Involved in 2H4MB Production in Decalepis hamiltonii|J. Plant Physiol.214:74-80|2017|10.1016/j.jplph.2017.04.006
177350|A||American Chemistry Council|HPV Data Summary and Test Plan for Hexabromocyclododecane (HBCD)|American Chemistry Council:264 p.|2001|
177351|A||Li,H., F. Cao, F. Zhao, Y. Yang, M. Teng, C. Wang, and L. Qiu|Developmental Toxicity, Oxidative Stress and Immunotoxicity Induced by Three Strobilurins (Pyraclostrobin, Trifloxystrobin and Picoxystrobin) in Zebrafish Embryos|Chemosphere207:781-790|2018|10.1016/j.chemosphere.2018.05.146
177352|T||Bhatia,S.S.|Effects of Fumigants on the Water Loss in Periplaneta americana (L.)|Proc. Indian Natl. Sci. Acad. Part B Biol. Sci.83B(1): 18-25|1976|10.1007/BF03045470
177353|T||Wegulo,S.N., M.V. Zwingman, J.A. Breathnach, and P.S. Baenziger|Economic Returns from Fungicide Application to Control Foliar Fungal Diseases in Winter Wheat|Crop Prot.30:685-692|2011|10.1016/j.cropro.2011.02.002
177356|AT||Dow Chemical Co.|Acute Toxicity and Environmental Studies|EPA/OTS Doc. #87-7800300:114 p.|1978|
177357|AT||Eastman Kodak Co.|Studies on Tetrachloroethylene with Cover Letter Dated 072787|EPA/OTS 86-870001167:19 p.|1986|
177358|A||Ciba-Geigy Corp.|96 Hour Static Fish Bioassay Test with Attachments (Attachment 59)|EPA/OTS 86-870001961:7 p.|1980|
177359|A||E.I. Du Pont De Nemours|96 Hour LC50 to Fathead Minnows|EPA/OTS 86-870001016:4 p.|1977|
177360|A||Dow Chemical Co.|Toxicity of Perchloroethylene to Daphnids|EPA/OTS 86-870002119:12 p.|1979|
177361|T||Plant Research International|Initial Submission: Assessing the Chronic Effects of Atmospheric Tetrachloroethylene (PER) on Plants (Final Report), with Cover Letter Dated 3/27/2001|EPA/OTS 88010000099:43 p.|2001|
177362|A||Dow Chem Co.|Summary Environmental Data for Perchloroethylene|EPA/OTS 86-870002272:2 p.|1987|
177363|A||Woodward Research Corporation|Perclene Evaluation of Acute LC50 for Bluefill Sunfish with Cover Letter|EPA/OTS 86-870001014:6 p.|1969|
177364|T||Quesada,C.R., and C.S. Sadof|Efficacy of Horticultural Oil and Insecticidal Soap Against Selected Armored and Soft Scales|HortTechnology27(5): 618-624|2017|10.21273/HORTTECH03752-17
177365|T||Quesada,C.R., A. Witte, and C.S. Sadof|Factors Influencing Insecticide Efficacy Against Armored and Soft Scales|HortTechnology28(3): 267-275|2018|10.21273/HORTTECH03993-18
177366|A||Gu,X., H. Fu, S. Sun, H. Qiao, W. Zhang, S. Jiang, Y. Xiong, S. Jin, Y. Gong, and Y. Wu|Effects of Cholesterol on Growth, Feed Utilization, Body Composition and Immune Parameters in Juvenile Oriental River Prawn, Macrobrachium nipponense (De Haan)|Aquac. Res.48(8): 4262-4271|2017|10.1111/are.13247
177367|T||Chvapil,M., P.L. Stith, L.M. Tillema, E.C. Carlson, J.B. Campbell, and C.D. Eskelson|Early Changes in the Arterial Wall of Chickens Fed a Cholesterol Diet|Atherosclerosis24(3): 393-405|1976|10.1016/0021-9150(76)90132-5
177368|T||Hikim,A.P.S.|Effect of 22,25-Diazacholesterol Dihydrochloride on the Spermatogenesis of a Wild Rat, Bandicota bengalensis|Int. J. Fertil.32(4): 320-323|1987|
177369|T||Aurade,R.M., S.K. Jayalakshmi, S.S. Udikeri, and K. Sreeramulu|Modulation of P-Glycoprotein ATPase of Helicoverpa armigera by Cholesterol: Effects on ATPase Activity and Interaction of Insecticides|Arch. Insect Biochem. Physiol.79(1): 47-60|2012|10.1002/arch.21004
177370|A||Schulte,C., and R. Nagel|Testing Acute Toxicity in the Embryo of Zebrafish, Brachydanio rerio, as an Alternative to the Acute Fish Test:  Preliminary Results|Alt. Lab. Anim. (ATLA)22:12-19|1994|10.1177/026119299402200104
177371|T||Gallandt,E.R., and N.E. Balke|Xenobiotic Glucosyltransferase Activity from Suspension-Cultured Glycine max Cells|Pestic. Sci.43(1): 31-40|1995|10.1002/ps.2780430105
177372|T||Zahnow,E.W.|Analysis of the Herbicide Diuron in Crops|J. Agric. Food Chem.35(3): 403-406|1987|10.1021/jf00075a029
177373|A||Natsch,A., H. Laue, T. Haupt, V. Von Niederhausern, and G. Sanders|Accurate Prediction of Acute Fish Toxicity of Fragrance Chemicals with the Rtgill-W1 Cell Assay|Environ. Toxicol. Chem.37(3): 931-941|2018|10.1002/etc.4027
177374|A||Saeed,S., N. Al-Naema, J.D. Butler, and E.J. Febbo|Arabian Killifish (Aphanius dispar) Embryos:  A Model Organism for the Risk Assessment of the Arabian Gulf Coastal Waters|Environ. Toxicol. Chem.34(12): 2898-2905|2015|10.1002/etc.3167
177376|T||Xia,W., J. Wang, H. Yang, H. Zhang, B. Yang, Y. Zeng, J. Xu, Z. Li, and M. Qian|Bioaccumulation and Distribution of Hexabromocyclododecane Isomers in Duck Tissues|Bull. Environ. Contam. Toxicol.100(6): 754-759|2018|10.1007/s00128-018-2342-4
177377|T||Elder,W.H.|Chemical Inhibitors of Ovulation in the Pigeon|J. Wildl. Manag.28(3): 556-575|1964|10.2307/3798209
177378|A||Park,J.C., M.C. Lee, D.S. Yoon, J. Han, M. Kim, U.K. Hwang, J.H. Jung, and J.S. Lee|Effects of Bisphenol A and Its Analogs Bisphenol F and S on Life Parameters, Antioxidant System, and Response of Defensome in the Marine Rotifer Brachionus koreanus|Aquat. Toxicol.199:21-29|2018|10.1016/j.aquatox.2018.03.024
177379|T||Khan,M.R., S. Shahid, F.A. Mohidin, and U. Mustafa|Interaction of Fusarium oxysporum f. sp. gladioli and Meloidogyne incognita on Gladiolus Cultivars and Its Management Through Corm Treatment with Biopesticides and Pesticides|Biol. Control115:95-104|2017|10.1016/j.biocontrol.2017.09.010
177380|A||Encina,F., P.D.L.R. Escalante, and K. Salazar|Acute Toxicity (LC50) of a Pesticide (Carbendazim) on Two Native Crustacean Zooplankton Species: Daphnia pulex Leydig, 1860 and Tumeodiaptomus diabolicus (Brehm, 1935) from Northern Patagonian Lakes (Chile)|Crustaceana  (Leiden)90(2): 199-206|2017|10.1163/15685403-00003637
177381|A||Nwani,C.D., M.C. Omah, N. Ivoke, H.O. Nwamba, C. Ani, and S.U. Ogbonna|Biochemical, Haematological and Morphological Variations in Juvenile Clarias gariepinus Exposed to Carbendazim  Fungicide|Afr. J. Aquat. Sci.40(1): 63-71|2015|10.2989/16085914.2015.1014022
177382|T||Tripathi,R.K., K. Tandon, E. Schlosser, and W.M. Hess|Effect of Fungicides on the Physiology of Plants. Part IV: Protection of Cellular Organelles of Senescent Wheat Leaves by Carbendazim|Pestic. Sci.13(4): 395-400|1982|10.1002/ps.2780130409
177383|T||Bailiss,K.W., G.A. Partis, C.J. Hodgson, and E.V. Stone|Some Effects of Benomyl and Carbendazim on Aphis fabae and Acyrthosiphon pisum on Field Bean (Vicia faba)|Ann. Appl. Biol.89(3): 443-449|1978|10.1111/j.1744-7348.1978.tb05972.x
177384|T||Shukla,R.M., N.N. Saxena, A.K. Bansal, P.K. Mishra, N.D. Banerjee, A.K. Goel, and S.S. Sinha|Studies on Total Protein Recovery in the Gut Tissues of Pebrine Infected Larvae of Antheraea mylitta D. After Treatment with Carbendazim and Chloroquine|J. Adv. Zool.18(2): 107-109|1997|
177385|T||Muller,F., and S. Jiang|Uptake, Distribution and Metabolism of 14C-Labelled Carbendazim in Gossypium hirsutum|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)97(2): 216-229|1990|
177386|T||Kishore,M.A., and J.P. Gupta|Organic Solvents as Carrier of Carbendazim in Sunflower Seeds|Seed Sci. Technol.25(3): 391-397|1997|
177387|T||Yoder,C.A.|Use of 20,25 Diazacholesterol, AGnRH, and cRCP to Inhibit Reproduction in Coturnix Quail|M.S.Thesis, Colorado State University, Fort Collins, CO:73 p.|2000|
177388|T||Sai Gopal,D.V.R., T. Satyanarayana, K. Gopinath, and P. Sreenivasulu|Effect of Bavistin on Chlorophylls and delta-Aminolevulinic Acid (ALA) in Peanut Green Mosaic Virus (PGMV)-Infected Groundnut Leaves|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)94(6): 600-605|1987|
177389|T||Karadge,B.A., and A.V. Karne|Influence of Systemic Fungicides, Bavistin and Calixin on Lycopersicon esculentum Mill. Leaves|Biovigyanam11(2): 166-168|1985|
177390|T||Tripathi,R.K., K. Vohra, and E. Schlosser|Effect of Fungicides on the Physiology of Plants. III. Mechanism of Cytokinin-Like Antisenescent Action of Carbendazim on Wheat Leaves|J. Plant Dis. Prot.87(10/11): 631-639|1980|
177391|T||Tripathi,R.K., and E. Schlosser|Effect of Fungicides on the Physiology of Plants. II. Inhibition of Adventitious Root Formation by Carbendazim and Kinetin|J. Plant Dis. Prot.86(1): 12-17|1979|
177392|T||Prasad,R., and G. Mohammad|Effect of Gibberellic Acid, Nutrients and Bavistin on Chlorosis and Growth of Grevillia Species|J. Trop. For.3(2): 156-159|1987|
177393|T||Koohzad-Mohammadi,P., M. Ziaee, and A. Nikpay|Insecticides from Different Classes Impact on Neomaskellia andropogonis Population Under Sugarcane Field Conditions|Sugar Technol.19(6): 623-631|2017|10.1007/s12355-017-0532-8
177394|T||Ghadim Mollaloo,M., K. Kheradmand, R. Sadeghi, and A.A. Talebi|Demographic Analysis of Sublethal Effects of Spiromesifen on Neoseiulus californicus (Acari: Phytoseiidae)|Acarologia57(3): 571-580|2017|10.24349/acarologia/20174173
177395|T||Nauen,R., H.J. Schnorbach, and A. Elbert|The Biological Profile of Spiromesifen (Oberon) - A New Tetronic Acid Insecticide / Acaricide|Pflanzenschutz-Nachr. Bayer (English Ed.)58(3): 417-440|2005|
177396|T||Asma,C., I. Ons, B.A. Sabrine, and L.G. Kaouthar|Life-Stage-Dependent Side Effects of Selected Insecticides on Trichogramma cacoeciae (Marchal) (Hymenoptera: Trichogrammatidae) Under Laboratory Conditions|Phytoparasitica46(1): 105-113|2018|10.1007/s12600-018-0638-x
177397|T||Fanigliulo,A., C.G. Massa, L. Ielpo, R. Pacella, and A. Crescenzi|Evaluation of the Efficacy of Oberon (Spiromesifen), to Contain Infestations of Mites and Whiteflies on Capsicum annuum L.|Commun. Agric. Appl. Biol. Sci.75(3): 341-344|2010|
177398|T||Fanigliulo,A., V. Fili, T. Colella, and A. Crescenzi|Evaluation of the Efficacy and Selectivity of Oberon (Spiromesifen) for the Control of Tetranychus urticae on Strawberry|Commun. Agric. Appl. Biol. Sci.75(3): 337-340|2010|
177399|T||Kaplan,P., S. Yorulmaz, and R. Ay|Toxicity of Insecticides and Acaricides to the Predatory Mite Neoseiulus californicus (McGregor) (Acari: Phytoseiidae)|Int. J. Acarol.38(8): 699-705|2012|10.1080/01647954.2012.719031
177400|T||Johnson,D.T., M.E. Garcia, C. Rom, L. Freeman, S.H. Kim, and B. Lewis|Management of Arthropods on Blackberries and Raspberries in Arkansas, USA|Acta Hortic.1133:437-444|2016|10.17660/ActaHortic.2016.1133.67
177401|T||Cuthbertson,A.G.S., J.J. Mathers, P. Northing, A.J. Prickett, and K.F.A. Walters|The Integrated Use of Chemical Insecticides and the Entomopathogenic Nematode, Steinernema carpocapsae (Nematoda: Steinernematidae), for the Control of Sweetpotato Whitefly, Bemisia tabaci (Hemiptera: Aleyrodidae)|Insect Sci.15(5): 447-453|2008|10.1111/j.1744-7917.2008.00232.x
177402|T||Cuthbertson,A.G.S., L.F. Blackburn, P. Northing, W. Luo, R.J.C. Cannon, and K.F.A. Walters|Further Compatibility Tests of the Entomopathogenic Fungus Lecanicillium muscarium with Conventional Insecticide Products for Control of Sweetpotato Whitefly, Bemisia tabaci on Poinsettia Plants|Insect Sci.15(4): 355-360|2008|10.1111/j.1744-7917.2008.00221.x
177403|A||Bouabida,H., F. Tine-Djebbar, S. Tine, and N. Soltani|Activity of a Lipid Synthesis Inhibitor (Spiromesifen) in Culiseta longiareolata (Diptera: Culicidae)|Asian Pac. J. Trop. Biomed.7(12): 1120-1124|2017|10.1016/j.apjtb.2017.10.015
177404|T||Assis,C.P.O., M.G.C.,Jr. Gondim, and H.A.A. Siqueira|Synergism to Acaricides in Resistant Neoseiulus californicus (Acari: Phytoseiidae), a Predator of Tetranychus urticae (Acari: Tetranychidae)|Crop Prot.106:139-145|2018|10.1016/j.cropro.2017.12.026
177405|T||Salman,S.Y., and R. Ay|Effect of Hexythiazox and Spiromesifen Resistance on the Life Cycle of the Predatory Mite Neoseiulus californicus (Acari: Phytoseiidae)|Exp. Appl. Acarol.64(2): 245-252|2014|10.1007/s10493-014-9817-8
177406|T||Sarbaz,S., S. Goldasteh, A.A. Zamani, E. Solymannejadiyan, and R.V. Shoushtari|Side Effects of Spiromesifen and Spirodiclofen on Life Table Parameters of the Predatory Mite, Neoseiulus californicus McGregor (Acari: Phytoseiidae)|Int. J. Acarol.43(5): 380-386|2017|10.1080/01647954.2017.1325396
177407|T||Kim,S.Y., H.G. Ahn, P.J. Ha, U.T. Lim, and J.H. Lee|Toxicities of 26 Pesticides Against 10 Biological Control Species|J. Asia Pac. Entomol.21(1): 1-8|2018|10.1016/j.aspen.2017.10.015
177408|T||Bielza,P., E. Fernandez, C. Gravalos, and J. Izquierdo|Testing for Non-Target Effects of Spiromesifen on Eretmocerus mundus and Orius laevigatus Under Greenhouse Conditions|Biocontrol54(2): 229-236|2009|10.1007/s10526-008-9162-0
177409|T||Hoagland,R.E., J.K. Norsworthy, and R.E. Talbert|Chemical Interactions with the Herbicide Propanil on Propanil-Resistant Barnyardgrass|Pestic. Sci.55(5): 571-573|1999|10.1002/(SICI)1096-9063(199905)55:5<571::AID-PS951>3.0.CO;2-3
177410|T||Antonietta,G.M., H.I. Ahmad, M. Maurizio, and S. Alvaro|Preliminary Research on Conversion of Encapsulated Somatic Embryos of Citrus reticulata Blanco, cv. Mandarino Tardivo Di Ciaculli|Plant Cell Tissue Organ Cult.88(1): 117-120|2007|10.1007/s11240-006-9185-0
177411|T||Ramseh,M., R. Marx, G. Mathan, and S.K. Pandian|Effect of Bavistin on In Vitro Plant Conversion from Encapsulated Uninodal Microcuttings of Micropropagated Bacopa monnieri (L.) - an Ayurvedic Herb|J. Environ. Biol.30(3): 441-444|2009|
177412|T||McCain,K.N.S., G.W.T. Wilson, and J.M. Blair|Mycorrhizal Suppression Alters Plant Productivity and Forb Establishment in a Grass-Dominated Prairie Restoration|Plant Ecol. (Dordr.)212(10): 1675-1685|2011|10.1007/s11258-011-9940-0
177413|T||Hossain,K.S., M.A.T. Mia, and M.A. Bashar|Management of Bakanae Disease of Rice|Bangladesh J. Bot.44(2): 277-283|2015|10.3329/bjb.v44i2.38517
177414|A||Zhang,C., Y. Zhang, Z. Wang, S. Chen, and Y. Luo|Production and Identification of Antioxidant and Angiotensin-Converting Enzyme Inhibition and Dipeptidyl Peptidase IV Inhibitory Peptides from Bighead Carp (Hypophthalmichthys nobilis) Muscle Hydrolysate|J. Funct. Foods35:224-235|2017|10.1016/j.jff.2017.05.032
177415|T||Shakil,N.A., M.K. Singh, M. Sathiyendiran, and J. Kumar|Microwave Accelerated Solvent-Free Synthesis and Antifungal Evaluations of Flavanones|Arch. Phytopathol. Plant Prot.44(20): 1958-1965|2011|10.1080/03235408.2010.544467
177416|T||Rodrigues,A., F.C. Pagnocca, M.,Jr. Bacci, M.J.A. Hebling, O.C. Bueno, and L.H. Pfenning|Variability of Non-Mutualistic Filamentous Fungi Associated with Atta sexdens rubropilosa Nests|Folia Microbiol. (Prague)50(5): 421-425|2005|10.1007/BF02931424
177417|T||Leroux,P., and M. Gredt|Absorption of Methyl Benzimidazol-2-yl Carbamate (Carbendazim) by Corn Roots|Pestic. Biochem. Physiol.5(6): 507-514|1975|10.1016/0048-3575(75)90025-5
177418|T||Goodall,J.L., R.A. Bailey, and M.D. Laing|Improving Germination of Single-Budded Sugarcane Setts Using Thermotherapy and Fungicide Treatments|Proc. S. Afr. Sugar Technol. Assoc.72:85-90|1998|
177419|T||Jha,A.C., B. Rai, and M.M. Jha|Effect of Seed Treating Chemicals on Seed Germination, Root and Shoot Development and Health of Seedlings|Ann. Biol.20(2): 199-201|2004|
177420|T||Tiwari,R.K.S., S.C. Vyas, and P.P. Shastry|The Role of Adjuvants in the Foliar Absorption of Benzimidazoles and in Controlling Leaf Spots of Groundnut|Indian J. Plant Prot.15(1): 71-75|1987|
177421|T||Collado,R., R.M. Schmelz, T. Moser, and J. Rombke|Enchytraeid Reproduction Test (ERT): Sublethal Responses of Two Enchytraeus Species (Oligochaeta) to Toxic Chemicals|Pedobiologia (Multiple Languages)43(6): 625-629|1999|10.1016/S0031-4056(24)00589-4
177422|T||Somashekar,R.K., G.H.P. Shetty, and M.T.G. Gowda|Cytological Effects of Topsin in the Root Meristem of Vicia faba L.|Cell Chromosome Res.6(3): 84-87|1983|
177423|T||Fernandez,M.M., P. Medina, A. Wanumen, P. Del Estal, G. Smagghe, and E. Vinuela|Compatibility of Sulfoxaflor and Other Modern Pesticides with Adults of the Predatory Mite Amblyseius swirskii. Residual Contact and Persistence Studies|Biocontrol62(2): 197-208|2017|10.1007/s10526-017-9784-1
177424|T||Sharma,K.K., J.K. Dubey, I. Mukherjee, N.S. Parihar, R.S. Battu, B. Singh, A. Kumar, P. Gupta, B. Kalpana, B. Singh, I.|Residual Behavior and Risk Assessment of Spiromesifen (Oberon 240 SC) on Eggplant (Solanum melonongena L) in India: A Multilocational Study|Bull. Environ. Contam. Toxicol.76(5): 760-765|2006|10.1007/s00128-006-0985-z
177425|T||Sharma,D.C., A. Choudhary, and D.K. Sharma|Maximum Residue Limit and Risk Assessment of Spiromesifen (Bay BSN 2060; Oberon 240SC) on Tea (Camellia sinensis (L) O' Kuntze)|Bull. Environ. Contam. Toxicol.75(4): 768-774|2005|10.1007/s00128-005-0817-6
177426|T||Fenoll,J., I. Garrido, N. Vela, C. Ros, and S. Navarro|Enhanced Degradation of Spiro-Insecticides and Their Leacher Enol Derivatives in Soil by Solarization and Biosolarization Techniques|Environ. Sci. Pollut. Res.24(10): 9278-9285|2017|10.1007/s11356-017-8589-1
177427|T||Prabhaker,N., S. Naranjo, T. Perring, and S. Castle|Comparative Toxicities of Newer and Conventional Insecticides: Against Four Generalist Predator Species|J. Econ. Entomol.110(6): 2630-2636|2017|10.1093/jee/tox202
177428|A||Marina,C.F., J.G. Bond, J. Munoz, J. Valle, H. Quiroz-Martinez, J.A. Torres-Monzon, and T. Williams|Efficacy of Larvicides for the Control of Dengue, Zika, and Chikungunya Vectors in an Urban Cemetery in Southern Mexico|Parasitol. Res.117(6): 1941-1952|2018|10.1007/s00436-018-5891-x
177429|T||Yorulmaz-Salman,S., and R. Ay|Determination of the Inheritance, Cross-Resistance and Detoxifying Enzyme Levels of a Laboratory-Selected, Spiromesifen-Resistant Population of the Predatory Mite Neoseiulus californicus (Acari: Phytoseiidae)|Pest Manag. Sci.70:819-826|2014|10.1002/ps.3623
177430|T||Devine,C., G.P. Brennan, C.E. Lanusse, L.I. Alvarez, A. Trudgett, E. Hoey, and I. Fairweather|Potentiation of Triclabendazole Action In Vivo Against a Triclabendazole-Resistant Isolate of Fasciola hepatica Following Its Co-Administration with the Metabolic Inhibitor, Ketoconazole|Vet. Parasitol.184:37-47|2012|10.1016/j.vetpar.2011.08.006
177431|T||Devine,C., G.P. Brennan, C.E. Lanusse, L.I. Alvarez, A. Trudgett, E. Hoey, and I. Fairweather|Enhancement of Triclabendazole Action In Vivo Against a Triclabendazole-Resistant Isolate of Fasciola hepatica by Co-Treatment with Ketoconazole|Vet. Parasitol.177:305-315|2011|10.1016/j.vetpar.2010.12.002
177432|T||Ellis,S.R., M.E. Hodson, and P. Wege|The Soil-Dwelling Earthworm Allolobophora chlorotica Modifies Its Burrowing Behaviour in Response to Carbendazim Applications|Ecotoxicol. Environ. Saf.73(6): 1424-1428|2010|10.1016/j.ecoenv.2010.05.010
177433|T||Rico,A., C. Sabater, and M.A. Castillo|Lethal and Sub-Lethal Effects of Five Pesticides Used in Rice Farming on the Earthworm Eisenia fetida|Ecotoxicol. Environ. Saf.127:222-229|2016|10.1016/j.ecoenv.2016.02.004
177434|A||Silva,A.R.R., D.N. Cardoso, A. Cruz, J. Lourenco, S. Mendo, A.M.V.M. Soares, and S. Loureiro|Ecotoxicity and Genotoxicity of a Binary Combination of Triclosan and Carbendazim to Daphnia magna|Ecotoxicol. Environ. Saf.115:279-290|2015|10.1016/j.ecoenv.2015.02.022
177435|T||Cardone,A.|Testicular Toxicity of Methyl Thiophanate in the Italian Wall Lizard (Podarcis sicula): Morphological and Molecular Evaluation|Ecotoxicology21(2): 512-523|2012|10.1007/s10646-011-0812-0
177436|A||Del Arco,A.I., A. Rico, and P.J. Van den Brink|Effects of Intra- and Interspecific Competition on the Sensitivity of Daphnia magna Populations to the Fungicide Carbendazim|Ecotoxicology24(6): 1362-1371|2015|10.1007/s10646-015-1512-y
177438|T||Srinivasulu,M., G. Jaffer Mohiddin, K. Subramanyam, and V. Rangaswamy|Effect of Insecticides Alone and in Combination with Fungicides on Nitrification and Phosphatase Activity in Two Groundnut (Arachis hypogeae L.) Soils|Environ. Geochem. Health34(3): 365-374|2012|10.1007/s10653-011-9399-x
177439|T||Liu,K., S. Wang, K. Luo, X. Liu, and Y. Yu|Amelioration of Acidic Soil Increases the Toxicity of the Weak Base Carbendazim to the Earthworm Eisenia fetida|Environ. Toxicol. Chem.32(12): 2870-2873|2013|10.1002/etc.2386
177440|T||Ellis,S.R., M.E. Hodson, and P. Wege|Determining the Influence of Rainfall Patterns and Carbendazim on the Surface Activity of the Earthworm Lumbricus terrestris|Environ. Toxicol. Chem.29(8): 1821-1827|2010|10.1002/etc.219
177441|A||Silva,A.R.R., D.N. Cardoso, A. Cruz, J.L.T. Pestana, S. Mendo, A.M.V.M. Soares, and S. Loureiro|Multigenerational Effects of Carbendazim in Daphnia magna|Environ. Toxicol. Chem.36(2): 383-394|2017|10.1002/etc.3541
177442|T||Pech,P., and P. Heneberg|Benomyl Treatment Decreases Fecundity of Ant Queens|J. Invertebr. Pathol.130:61-63|2015|10.1016/j.jip.2015.06.012
177443|A||Andrade,T.S., J.F. Henriques, A.R. Almeida, A.L. Machado, O. Koba, P.T. Giang, A.M.V.M. Soares, and I. Domingues|Carbendazim Exposure Induces Developmental, Biochemical and Behavioural Disturbance in Zebrafish Embryos|Aquat. Toxicol.170:390-399|2016|10.1016/j.aquatox.2015.11.017
177445|T||Hull,L.A., and E. Bohnenblust|Mite Airblast Threshold Study, 2007|Arthropod Manag. Tests33:3 p.|2008|
177446|T||Mandal,S., S. Das, and A. Bhattacharyya|Dissipation Study of Thiophanate Methyl Residue in/on Grapes (Vitis vinifera L.) in India|Bull. Environ. Contam. Toxicol.84(5): 592-595|2010|10.1007/s00128-010-9985-0
177447|T||Huan,Z., J. Luo, Z. Xu, and D. Xie|Acute Toxicity and Genotoxicity of Carbendazim, Main Impurities and Metabolite to Earthworms (Eisenia foetida)|Bull. Environ. Contam. Toxicol.96(1): 62-69|2016|10.1007/s00128-015-1653-y
177448|T||Chelinho,S., X. Domene, P. Campana, P. Andres, J. Rombke, and J.P. Sousa|Toxicity of Phenmedipham and Carbendazim to Enchytraeus crypticus and Eisenia andrei (Oligochaeta) in Mediterranean Soils|J. Soils Sediments14(3): 584-599|2014|10.1007/s11368-013-0818-8
177449|T||Nanthakumar,M., V.J. Lakshmi, V.S. Bhushan, S.M. Balachandran, and M. Mohan|Decrease of Rice Plant Resistance and Induction of Hormesis and Carboxylesterase Titre in Brown Planthopper, Nilaparvata lugens (Stal) by Xenobiotics|Pestic. Biochem. Physiol.102(2): 146-152|2012|10.1016/j.pestbp.2011.12.006
177450|T||Das,D.K., N.S. Prakash, and N. Bhalla-Sarin|Multiple Shoot Induction and Plant Regeneration in Litchi (Litchi chinensis Sonn.)|Plant Cell Rep.18(7/8): 691-695|1999|10.1007/s002990050644
177451|T||Kimaro,W.H., M.C. Madekurozwa, and H.B. Groenewald|Histomorphometrical and Ultrastructural Study of the Effects of Carbendazim on the Magnum of the Japanese Quail (Coturnix coturnix japonica)|Onderstepoort J. Vet. Res.80(1): 8 p.|2013|10.4102/ojvr.v80i1.579
177452|T||Siddiqui,Z.S., S. Ahmed, and S. Gulzar|Effect of Topsin-M (Methyl-Thiophenate) and Bayleton (Triademifon) on Seedling Growth, Biomass, Nodulation and Phenolic Content of Sesbania sesban (L.) Merril|Bangladesh J. Bot.26(2): 127-130|1997|
177453|A||Ludwikowska,A., B. Bojarski, M. Socha, H. Lutnicka, and K.B. Trzeciak|The Effect of Carbendazim on Embryonic Prussian Carp (Carassius gibelio) Development and Hatching|Arch. Pol. Fish. 21(4): 367-371|2013|
177454|T||Sastry,R.K., and M.S. Chatrath|Uptake and Translocation of Carbendazim in Wheat After Seed Treatment|J. Nucl. Agric. Biol.10(4): 105-108|1981|
177455|T||Wu,Y., J. Ding, B. Xu, L. You, L. Ge, G. Yang, F. Liu, D. Stanley, Q. Song, and J. Wu|Two Fungicides Alter Reproduction of the Small Brown Planthopper Laodelphax striatellus by Influencing Gene and Protein Expression|J. Proteome Res.17(3): 978-986|2018|10.1021/acs.jproteome.7b00612
177456|T||Cole,D.L.|Uptake from Foliar Sprays of Carbendazim and Benomyl into Tobacco Leaves|Rhod. J. Agric. Res.16(2): 165-173|1978|
177457|T||Dejonckheere,W., W. Steurbaut, and R.H. Kips|Influence of Artificial Rainfall and Washing on the Benomyl and Thiophanate-Methyl Residue Content in Lettuce|Pestic. Sci.7(2): 161-170|1976|10.1002/ps.2780070210
177458|T||Anderson,H.M., and T. Hunter|Survival and Vigour of Cold-Stored Strawberry Runner Plants After Pre-Storage Treatment with Thiophanate-Methyl|Hortic. Res.20:9-17|1980|
177459|T||Zheng,X., L. Qiao, R. Sun, X. Luo, J. Zheng, Q. Xie, Y. Sun, and B. Mai|Alteration of Diastereoisomeric and Enantiomeric Profiles of Hexabromocyclododecanes (HBCDs) in Adult Chicken Tissues, Eggs, and Hatchling Chickens |Environ. Sci. Technol.51:5492-5499|2017|10.1021/acs.est.6b06557
177460|T||Lu,X., R. Zhang, M. Cong, J. Li, and F. Zhu|Stimulatory Effects of Flusilazole on Virulence of Sclerotinia sclerotiorum|Plant Dis.102(1): 197-201|2018|10.1094/PDIS-07-17-1041-RE
177461|T||Cong,M., S. He, H. Ma, G. Li, and F. Zhu|Hormetic Effects of Carbendazim on the Virulence of Botrytis cinerea|Plant Dis.102(5): 886-891|2018|10.1094/PDIS-10-17-1602-RE
177462|T||Lu,X., S. He, H. Ma, J. Li, and F. Zhu|Hormetic Effects of Flusilazole Preconditioning on Mycelial Growth and Virulence of Sclerotinia sclerotiorum|Plant Dis.102(6): 1165-1170|2018|10.1094/PDIS-10-17-1638-RE
177463|T||Raut,B.T., and R.B. Somani|Efficacy of Different Fungicides. IV. Field Trials on Root Rot of Chickpea|PKV Res. J.11(2): 182-184|1987|
177464|T||Oliver,A.M., D.M. Leathwick, T.S. Waghorn, C.M. Miller, and D.S. Atkinson|Carbendazim, at Concentrations Used on Pasture for Facial Eczema Control, Reduces Development of Trichostrongylus colubriformis when Sprayed onto Infected Sheep Faeces|N. Z. Vet. J.57(6): 383-387|2009|10.1080/00480169.2009.64733
177465|T||Kurdikeri,M.B., B. Aswathaiah, and S.R. Prasad|Seed Invigouration Studies in Maize Hybrids|Seed Res.21(1): 8-12|1993|
177466|T||Kumar,B.S.V., and A.V.L. Narasimhan|Effect of Different Concentrations of Carbendazim on the Mitotic Index of Root Tips of Arachis hypogea L.|Indian J. Mycol. Plant Pathol.23(1): 102-104|1993|
177467|T||Tripathi,R.K., and S. Ram|Induction of Growth & Differentiation of Carrot Callus Cultures by Carbendazim & Benzimidazole|Indian J. Exp. Biol.20(9): 674-677|1982|
177468|T||Singh,P.P., and M.S. Kang|Effect of Bavistin on Biochemical Composition of Groundnut|J. Res. Punjab Agric. Univ.20(4): 489-492|1983|
177469|T||Virk,K.S.|Effect of Thiophanate-Methyl on Leaf Pigments and Nodulation of a Few Crop Plants|Haryana Agric. Univ. J. Res.XI(3): 408-410|1981|
177471|T||Moghaddam,S.S., H.B. Jaafar, M.A. Aziz, R. Ibrahim, A.B. Rahmat, and E. Philip|Optimization of an Efficient Semi-Solid Culture Protocol for Sterilization and Plant Regeneration of Centella asiatica (L.) as a Medicinal Herb|Molecules16(11): 8981-8991|2011|10.3390/molecules16118981
177472|T||Pinheiro,V., L.F. Stone, J.A.F. Barrigossi, and A.S. Nascente|Grain Yield and Termite Damage in Rice by Compaction on the Furrow and Seed Treatment|Pesqui. Agropecu. Bras. (Multiple Languages)51(11): 1813-1820|2016|10.1590/s0100-204x2016001100003
177473|T||Celik,T.A.|Cytogenetic Effects of Some Fungicides on Barley Root Tip Meristem Cells|Pak. J. Biol. Sci.9(13): 2508-2511|2006|10.3923/pjbs.2006.2508.2511
177474|A||Hanlon,S.M., J.L. Kerby, and M.J. Parris|Unlikely Remedy: Fungicide Clears Infection from Pathogenic Fungus in Larval Southern Leopard Frogs (Lithobates sphenocephalus)|PLoS One7(8): 8 p.|2012|10.1371/journal.pone.0043573
177475|T||Tiwari,V., R.P. Singh, B.D. Singh, P. Singh, M.K. Singh, and R.K. Singh|Comparative Analysis on the Effect of Trimethoprim and Bavistin on Direct Shoot Regeneration in Brahmi (Bacopa monniera) in Growth Regulator Free MS Medium|J. Environ. Biol.37(3): 383-390|2016|
177476|T||Monico-Pifarre,A., and M. Xirau-Vayreda|Study of Carbendazim Residue Accumulation on Greenhouse and Field-Grown Strawberries, After Successive Treatments with Benomyl|J. Assoc. Off. Anal. Chem.73(4): 553-556|1990|
177478|T||Somashekar,R.K., M.T.G. Gowda, and P. Venkatasubbaiah|Cytological Effects of Fungicide Topsin in Allium cepa|Cytologia49(1): 171-175|1984|10.1508/cytologia.49.171
177479|T||Rasuli,F., J.N. Rafie, and A. Sadeghi|Acute Contact Toxicity of Six Pesticides in Honeybees (Apis mellifera meda) in Iran|J. Apic. Sci.61(1): 29-36|2017|10.1515/jas-2017-0003
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177481|T||Kumar,U., and S.S.N. Sinha|Genotoxic Effects of Two Pesticides (Rogor and Bavistin) and an Antibiotic (Streptomycin) in Meiotic Cells of Grasspea (Lathyrus sativus L.)|Cytologia56(2): 209-214|1991|10.1508/cytologia.56.209
177482|A||Lazartigues,A., M. Thomas, D. Banas, J. Brun-Bellut, C. Cren-Olive, and C. Feidt|Accumulation and Half-Lives of 13 Pesticides in Muscle Tissue of Freshwater Fishes Through Food Exposure|Chemosphere91(4): 530-535|2013|10.1016/j.chemosphere.2012.12.032
177484|T||Tiwana,P.S., H.S. Rattanpal, and J.S. Randhawa|Effect of Plant Growth Regulators and Fungicides on the Quality of Fruit in Kinnow Mandarin|Environ. Ecol.26(4): 1632-1634|2008|
177485|T||Rasuli,F., J.N. Rafie, and A. Sadeghi|The Acute Oral Toxicity of Commonly Used Pesticides in Iran, to Honeybees (Apis mellifera meda)|J. Apic. Sci.59(1): 17-26|2015|10.1515/jas-2015-0007
177486|T||Su,Y., S.H. Mitchell, and S. Mac Antsaoir|Carbendazim and Metalaxyl Residues in Post-Harvest Treated Apples|Food Addit. Contam.20(8): 720-727|2003|10.1080/0265203031000138268
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177488|T||Polk,D.F., F.C. Swift, and M. Cantarella|Apple, Evaluation of Experimental Miticides, 1991|Insectic. Acaric. Tests17(0): 36-|1992|10.1093/iat/17.1.36
177489|T||Horsburgh,R.L., S.W. Kilmer, and J.R. Warren|Apple, Miticide Evaluations, 1993|Insectic. Acaric. Tests19(0): 9-11|1994|
177490|T||Singh,P., and P.N. Thapliyal|Effect of Some Soil Factors on Root Uptake of Carbendazim|Indian Phytopathol.39(3): 403-408|1986|
177491|T||Kumar,J., U.S. Singh, S.P.S. Beniwal, and P.C. Srivastava|Binding of Carbendazim by Lignin|Indian J. Mycol. Plant Pathol.17(1): 24-28|1987|
177492|T||Buts,A.K., D. Singh, V.L. Chaudhary, and M. Singh|Effect of Bavistin on Seed Germination, Morphological Features and Yield of Vigna radiata|Indian J. Life Sci.3(1): 15-20|2013|
177494|T||Yasuda,Y., and T. Noguchi|Incorporation of 14C -Thiophanate-Methyl into the Germ Tubes of Pyricularia oryzae Spores|Ann. Phytopathol. Soc. Jpn.38(3): 252-253|1972|10.3186/jjphytopath.38.252
177495|T||Hawkins,T.S., N.M. Schiff, E.S. Gardiner, T. Leininger, M.S. Devall, D. Wilson, P. Hamel, D.D. McCown, and K. Connor|Micropropagation of the Endangered Shrub Pondberry (Lindera melissifolia (Walt.) Blume)|Hortscience42(2): 407-409|2007|10.21273/HORTSCI.42.2.407
177496|T||Bielza,P., E. Fernandez, C. Gravalos, and J. Abellan|Carbamates Synergize the Toxicity of Acrinathrin in Resistant Western Flower Thrips (Thysanoptera: Thripidae)|J. Econ. Entomol.102(1): 393-397|2009|10.1603/029.102.0151
177497|T||Devi,P.A., M. Paramasivam, and V. Prakasam|Degradation Pattern and Risk Assessment of Carbendazim and Mancozeb in Mango Fruits|Environ. Monit. Assess.187(1): 6 p.|2015|10.1007/s10661-014-4142-6
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177499|T||Fan,S., P. Zhao, F. Zhang, C. Yu, and C. Pan|Spinach or Amaranth may Represent Highest Residue of Thiophanate-Methyl with Open Field Application on Six Leaf Vegetables|Bull. Environ. Contam. Toxicol.90(4): 477-481|2013|10.1007/s00128-012-0925-z
177500|T||Sonkar,R.K., and M.S. Ladaniya|Effect of Pre-Harvest Sprays of Ethephon, Calcium Acetate and Carbendazim on Rind Colour, Abscission and Shelf-Life of Nagpur Mandarin (Citrus reticulata)|Indian J. Agric. Sci.69(2): 130-135|1999|
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177502|T||Smith,B.D.|Effects of Soil Applied Benzimidazole Fungicides on the Behaviour of Cecidophyopsis ribis and on the Transmission of Reversion Virus|Ann. Appl. Biol.80(2): 205-209|1975|10.1111/j.1744-7348.1975.tb01623.x
177503|T||Austin,J.R.|Broad Spectrum Disease Control in Winter Cereals with a Combined Formulation of DPX H6573 Plus Carbendazim|Br. Crop Prot. Conf. Pests Dis.1:71-78|1986|
177504|T||Sastry,R.K., and M.S. Chatrath|Persistence of Carbendazim on Stored Wheat Seed|Indian Phytopathol.37(4): 637-640|1984|
177505|T||Vyas,S.C., O.K. Sinha, and L.K. Joshi|Systemic Uptake and Translocation of Bavistin and Calixin in Peanut (Arachis hypogaea L.) Seedlings|Pesticides 10(4): 32-33|1976|
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177507|T||Krishnaiah,N.V., and C.S. Reddy|Compatibility and Co-Toxicity of Selected Insecticides and Fungicides Against Brown Planthopper and Sheath Blight in Rice|Indian J. Plant Prot.20(1): 99-101|1992|
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177614|T||Vanhoudt,N., H. Vandenhove, K. Opdenakker, T. Remans, K. Smeets, D. Bello, M. Van Hees, J. Wannijn, J. Vangronsveld, an|Induction of Oxidative Stress Related Responses in Arabidopsis thaliana Following Uranium Exposure|Radioprotection44(5): 191-196|2009|10.1051/radiopro/20095039
177615|A||Horemans,N., M. Van Hees, A. Van Hoeck, E. Saenen, T. De Meutter, R. Nauts, R. Blust, and H. Vandenhove|Uranium and Cadmium Provoke Different Oxidative Stress Responses in Lemna minor L.|Plant Biol.17((suppl. 1)): 91-100|2015|10.1111/plb.12222
177616|A||Deviram,G.V.N.S., G. Pant, and R.G. Prasuna|Biochemical Changes Induced by Fungicides in Nitrogen Fixing Nostoc sp|J. Environ. Sci. Eng.55(1): 81-93|2013|
177617|T||Barbosa,P.R.R., J.P. Michaud, C.L. Bain, and J.B. Torres|Toxicity of Three Aphicides to the Generalist Predators Chrysoperla carnea (Neuroptera: Chrysopidae) and Orius insidiosus (Hemiptera: Anthocoridae)|Ecotoxicology26(5): 589-599|2017|10.1007/s10646-017-1792-5
177618|T||Joseph,S.V.|Repellent Effects of Insecticides Against Protaphorura fimata (Collembola: Poduromorpha: Onychiuridae)|J. Econ. Entomol.111(2): 747-754|2018|10.1093/jee/tox375
177619|T||Wanumen,A.C., I. Sanchez-Ramos, E. Vinuela, P. Medina, and A. Adan|Impact of Feeding on Contaminated Prey on the Life Parameters of Nesidiocoris tenuis (Hemiptera: Miridae) Adults|J. Insect Sci.16(1): 1-7|2016|10.1093/jisesa/iew084
177620|T||Frewin,A.J., A.W. Schaafsma, and R.H. Hallett|Susceptibility of Aphelinus certus to Foliar-Applied Insecticides Currently or Potentially Registered for Soybean Aphid Control|Pest Manag. Sci.68(2): 202-208|2012|10.1002/ps.2245
177621|T||Kuk,Y.I., and S.S. Kim|Impacts of Selected Insecticides on the Predatory Mite, Neoseiulus californicus (Acari: Phytoseiidae)|J. Entomol. Sci.52(1): 60-67|2017|10.18474/JES16-21.1
177622|T||Joseph,S.V.|Effects of Insecticides on Protaphorura fimata (Collembola: Poduromorpha: Onychiuridae) Feeding on Germinating Lettuce|J. Entomol. Sci.52(1): 68-81|2017|10.18474/JES16-23.1
177623|T||Pezzini,D.T., and R.L. Koch|Compatibility of Flonicamid and a Formulated Mixture of Pyrethrins and Azadirachtin with Predators for Soybean Aphid (Hemiptera: Aphididae) Management|Biocontrol Sci. Technol.25(9): 1024-1035|2015|10.1080/09583157.2015.1027659
177624|T||Romanenko,A.S., G.Y. Kovtun, and R.K. Salyaev|Effect of Metabolic Inhibitors on Pinocytosis of Uranyl Ions by Radish Root Cells: Probable Mechanisms of Pinocytosis|Ann. Bot.57(1): 1-10|1986|10.1093/oxfordjournals.aob.a087084
177625|A||Tagliaferro,M., A.M.M. Goncalves, M. Bergman, O. Sobral, and M.A.S. Graca|Assessment of Metal Exposure (Uranium and Copper) by the Response of a Set of Integrated Biomarkers in a Stream Shredder|Ecol. Indic.95(2): 991-1000|2018|10.1016/j.ecolind.2017.10.065
177626|T||Zhukov,B.I., and N.V. Zudilkin|Influence of Uranium on the Yield of Spring Wheat|Radiobiology11:206-210|1971|
177627|T||Saenen,E., N. Horemans, N. Vanhoudt, H. Vandenhove, G. Biermans, M. Van Hees, J. Wannijn, J. Vangronsveld, and A. Cuype|The pH Strongly Influences the Uranium-Induced Effects on the Photosynthetic Apparatus of Arabidopsis thaliana Plants|Plant Physiol. Biochem.82:254-261|2014|10.1016/j.plaphy.2014.06.012
177628|T||Robinson,G.A., C.C. Kupsh, D.C. Wasnidge, F. Floto, and B.L. Robinson|Increased Deposition of Uranium in the Bones of Vitellogenic Male Japanese Quail. Effect of Estradiol-17b on the Distribution of Uranium (VI), Thorium (IV),  Gadolinium (III),  and Calcium (II)|Poult. Sci.65(6): 1178-1183|1986|10.3382/ps.0651178
177629|A||Ng,C.Y.P., S. Pereira, S.H. Cheng, C. Adam-Guillermin, J. Garnier-Laplace, and K.N. Yu|Combined Effects of Depleted Uranium and Ionising Radiation on Zebrafish Embryos|Radiat. Prot. Dosimetry167(1-3): 311-315|2015|10.1093/rpd/ncv269
177630|T||Wang,J.S., X.J. Hu, J. Wang, Z.L. Bao, S.B. Xie, and J.H. Yang|The Tolerance of Rhizopus arrihizus to U(VI) and Biosorption Behavior of U(VI) onto R. arrihizus|Biochem. Eng. J.51(1/2): 19-23|2010|10.1016/j.bej.2010.04.010
177631|AT||Newete,S.W., B.F.N. Erasmus, I.M. Weiersbye, and M.J. Byrne|The Effect of Water Pollution on Biological Control of Water Hyacinth|Biol. Control79:101-109|2014|10.1016/j.biocontrol.2014.08.006
177632|A||Eb-Levadoux,Y., S. Frelon, O. Simon, C. Arnaudguilhem, R. Lobinski, and S. Mounicou|In Vivo Identification of Potential Uranium Protein Targets in Zebrafish Ovaries After Chronic Waterborne Exposure|Metallomics9(5): 525-534|2017|10.1039/C6MT00291A
177633|T||Koul,S.L., V. Kaul, and L.T. Chadderton|Uranium Uptake and the Cytology of Cyclanthera pedata: A Fission Track Study|Environ. Exp. Bot.23(4): 379-392|1983|10.1016/0098-8472(83)90014-X
177634|T||Vanhoudt,N., H. Vandenhove, N. Horemans, D.M. Bello, M. Van Hees, J. Wannijn, R. Carleer, J. Vangronsveld, and A. Cuype|Uranium Induced Effects on Development and Mineral Nutrition of Arabidopsis thaliana|J. Plant Nutr.34(13): 1940-1956|2011|10.1080/01904167.2011.610482
177635|T||Rewal,H.S., and J.S. Jhooty|Differential Response of Wheat Varieties to Systemic Fungitoxicants Applied to Control Ustilago tritici (Pers.) Rostr.|Indian J. Agric. Sci.55(8): 548-549|1985|
177636|T||Haroon,M., K.A. Billah, and M.A.T. Mia|Response of Fungicidal Seed Treatment on Emergence, Germination and Seedling Growth in Rice|Seed Res.22(1): 83-84|1994|
177637|T||Panchbhai,S.D., C.R. Reddy, and B.K. Verma|Effect of Sorghum Seed Treatment with Double Dose of Mercurial Fungicides on Seed Viability and Smut Spore Germination|Seed Res.12(2): 33-37|1984|
177638|T||Kratka,J.|Some Biochemical Changes in Young Barley Plants, Due to the Vitavax Disinfection of Seeds Against Ustilago nuda (Jens.) Rostr|Zentbl. Bakteriol. Parasitenkd. Infektionskr. Hyg. Naturwissen.130(2): 165-170|1975|10.1016/S0044-4057(75)80021-9
177640|T||Whipps,J.M., H.W. Roderick, B.C. Clifford, and D.H. Lewis|Effects of Two Carboxylic Acid Anilide Fungicides on Pustule Development and Carbohydrate Movement and Metabolism in Barley Leaves Infected by Brown Rust (Puccinia hordei Otth.)|J. Phytopathol. (Berl.)120(3): 216-234|1987|10.1111/j.1439-0434.1987.tb04436.x
177641|T||Hong,S.S., and D.Q. Xu|Reversible Inactivation of PS II Reaction Centers and the Dissociation of LHC II from PS II Complex in Soybean Leaves|Plant Sci.147(2): 111-118|1999|10.1016/S0168-9452(99)00106-5
177643|T||Wiersma,J.J., and H.J. Kandel|The Response of Fusarium graminearum-Infected Seed of Hard Red Spring Wheat to Vitavax Extra RTU and Dividend XL Seed Treatments|Plant Health Prog.:5 p.|2004|
177644|T||Enayathullah,S., and V. Mariappan|Systemic Uptake and Translocation of New Fungicides - Panoram and Vitavax in Sorghum|Pesticides 23(3): 26,30|1989|
177645|T||Lafond,G.P., and Y. Gan|Row Spacing and Seeding Rate Studies in No-Till Winter Wheat for the Northern Great Plains|J. Prod. Agric.12(4): 624-629|1999|10.2134/jpa1999.0624
177646|A||Neely,W.C., R.C. Smith, R.M. Cody, J.R. McDuffie, J.A. Lansden, and S.P. Ellis|Biological and Photobiological Action of Pollutants on Aquatic Microorganisms|NTIS/OTS PB220167:129 p.|1973|
177647|T||Udeogalanya,A.C.C.|The Rate of Penetration of Leaf Tissues by the Systemic Fungicides Benodanil (2-Iodobenzanilide) and Oxycarboxin (2,3-Dihydro-6 Methyl-5 Phenylcarbamoyl-1,4-Oxathin-4,4-Dioxide)|Beitr. Trop. Landwirtsch. Vetmed.22(1): 91-94|1984|
177648|T||Murray,G.M., and J. Kuiper|Emergence of Wheat may be Reduced by Seed Weather Damage and Azole Fungicides and is Related to Coleoptile Length|Aust. J. Exp. Agric.28(2): 253-261|1988|10.1071/EA9880253
177649|T||Prusky,D., A. Dinoor, and B. Jacoby|The Fungicide or Heat Induced Hypersensitive Reaction of Oats to Crown Rust: Relations Between Various Treatments and Infection Type|Physiol. Plant Pathol.18(2): 181-186|1981|10.1016/S0048-4059(81)80039-2
177650|A||Isidori,M., E. Coppola, M.R. Iesce, F. Cermola, G. Papa, and A. Parrella|Comparative Abiotic or Biotic Degradation of Carboxin by Two Entisols with Different Surface Properties or Pseudomonas aeruginosa Strain: A Toxicity Study Using the Crustacean Thamnocephalus platyurus|Pesticides 47(9): 891-900|2012|
177651|T||Dubey,S.C., B. Singh, and A. Tripathi|Integrated Management of Wet Root Rot, Yellow Mosaic, and Leaf Crinkle Diseases of Urdbean by Seed Treatment and Foliar Spray of Insecticide, Fungicide, and Biocontrol Agent|Crop Prot.112:269-273|2018|10.1016/j.cropro.2018.06.012
177652|T||Udeogalanya,A.C.C., and B.C. Clifford|Control of Barley Brown Rust, Puccinia hordei Otth., by Benodanil and Oxycarboxin in the Field and the Effects on Yield|Crop Prot.1(3): 299-308|1982|10.1016/0261-2194(82)90005-9
177653|T||Gusta,L.V., B.J. O'Connor, G.P. Lafond, and H.M. Austenson|The Effect of Fungicides and Plant Growth Regulators Applied as a Seed Treatment on the Freezing Tolerance of Winter Wheat|Can. J. Plant Sci.74(1): 63-69|1994|10.4141/cjps94-012
177654|T||Bricker,T.M., J.G. Metz, D. Miles, and L.A. Sherman|Biochemical Characterization of a Highly Active O2-Evolving Photosystem II Preparation from Maize|Biochim. Biophys. Acta - Bioenergetics724(3): 447-455|1983|10.1016/0005-2728(83)90105-6
177655|T||Way,M.O., and R.G. Wallace|Compatibility of EXP 80698A 75 FS and Common Rice Seed Treatments for Rice Water Weevil Control, 1997|Arthropod Manag. Tests23:267-268|1998|
177656|T||Ruark,S.J., and B.B. Shew|Evaluation of Microbial, Botanical, and Organic Treatments for Control of Peanut Seedling Diseases|Plant Dis.94(4): 445-454|2010|10.1094/PDIS-94-4-0445
177657|T||Behera,L.M., and N.K. Choudhury|Changes in the Chlorophyll Fluorescence Characteristics of Chloroplasts from Intact Pumpkin Cotyledons, Caused by Organ Excision and Kinetin Treatment|Photosynthetica (Praha)34(2): 161-168|1997|10.1023/A:1006828221038
177658|T||Singh-Rawal,P., A. Jajoo, and S. Bharti|Fluoride Affects Distribution of Absorbed Excitation Energy More in Favour of Photosystem 1|Biol. Plant. (Praha)54(3): 556-560|2010|10.1007/s10535-010-0099-7
177659|T||McCaffrey,J.P., and B.L. Harmon|Seed Treatments for Flea Beetle Control in Canola, 1993|Arthropod Manag. Tests19(0): 180-181|1994|10.1093/amt/19.1.180
177660|T||Noetzel,D., and D. Nordick|Flea Beetle Control in Canola Using Coated Seed, 1993|Arthropod Manag. Tests19(0): 183-|1994|10.1093/amt/19.1.183
177661|T||Gao,P., Z. Zuo, X. Wu, Y. Gao, R. Gao, and R. Zhang|Effects of Cycloheximide on Photosynthetic Abilities, Reflectance Spectra and Fluorescence Emission Spectra in Phyllostachys edulis|Trees30(3): 719-732|2016|10.1007/s00468-015-1315-z
177662|T||Durrant,M.J., P.A. Payne, J.W.F. Prince, and R. Fletcher|Thiram Steep Seed Treatment to Control Phoma betae and Improve the Establishment of the Sugar-Beet Plant Stand|Crop Prot.7:319-326|1988|10.1016/0261-2194(88)90079-8
177664|T||Lopez-Antia,A., M.E. Ortiz-Santaliestra, E. Garcia-De Blas, P.R. Camarero, F. Mougeot, and R. Mateo|Adverse Effects of Thiram-Treated Seed Ingestion on the Reproductive Performance and the Offspring Immune Function of the Red-Legged Partridge|Environ. Toxicol. Chem.34(6): 1320-1329|2015|10.1002/etc.2925
177665|T||Grolleau,G., and F. Biaddi|Note on the Effects of Thiram on the Laying and Rearing of the Red-Legged Partridge (Alectoris rufa)|J. Appl. Ecol.3:249-251|1966|10.2307/2401463
177666|T||Ditman,L.P., C.E. Cox, and J.G. Kantzes|Treatment of Pea, Snap Bean, and Lima Bean Seed with Insecticides and Fungicides|J. Econ. Entomol.48(6): 688-693|1955|10.1093/jee/48.6.688
177667|T||Kaushik,P., N.A. Shakil, J. Kumar, M.K. Singh, M.K. Singh, and S.K. Yadav|Development of Controlled Release Formulations of Thiram Employing Amphiphilic Polymers and Their Bioefficacy Evaluation in Seed Quality Enhancement Studies|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes48(8): 677-685|2013|
177668|T||Alvarez,I.F., and R.G. Linderman|Effects of Ethylene and Fungicide Dips During Cold Storage on Root Regeneration and Survival of Western Conifers and Their Mycorrhizal Fungi|Can. J. For. Res.13(5): 962-971|1983|10.1139/x83-128
177669|T||Hausbeck,M.K., C.T. Stephens, and R.D. Heins|Control of Disease Caused by Pythium ultimum in Seed-Propagated Geraniums Sprayed or not Sprayed with Silver Thiosulfate|Plant Dis.72(9): 764-768|1988|10.1094/PD-72-0764
177670|A||Singh,A.K., and R. Singh|In Vivo Response of Melatonin, Gonadal Activity and Biochemical Changes During CYP19 Inhibited Sex Reversal in Common Carp Cyprinus carpio (L)|Anim. Reprod. Sci.136(4): 317-325|2013|10.1016/j.anireprosci.2012.11.004
177671|T||Tabashnik,B.E., and N.L. Cushing|Leaf Residues vs. Topical Bioassay for Assessing Insecticide Resistance in Diamond-Back Moth, Plutella xylostella L.|FAO Plant Prot.Bull.35:11-14|1987|
177672|T||Richardson,J.M., J.C. Stutz, and R.A. Backhaus|Incorporating Fungicides into Fluid Drilling Gel to Control Damping-Off of Guayule|Hortscience20(4): 717-719|1985|10.21273/HORTSCI.20.4.717
177673|T||Savikin-Fodulovic,K., D. Grubisic, L. Culafic, N. Menkovic, and M. Ristic|Diosgenin and Phytosterols Content in Five Callus Lines of Dioscorea balcanica|Plant Sci.135(1): 63-67|1998|10.1016/S0168-9452(98)00036-3
177674|T||Zimowski,J.|Specificity and Properties of UDP-Galactose:Tomatidine Galactosyltransferase from Tomato Leaves|Plant Sci.136(2): 139-148|1998|10.1016/S0168-9452(98)00109-5
177675|T||Itzhaki,H., S. Mayak, and A. Borochov|Phosphatidylcholine Turnover During Senescence of Rose Petals|Plant Physiol. Biochem.36(6): 457-462|1998|10.1016/S0981-9428(98)80210-6
177676|T||Berglund,A.H., R. Nilsson, and C. Liljenberg|Permeability of Large Unilamellar Digalactosyldiacylglycerol Vesicles for Protons and Glucose - Influence of alpha-Tocopherol, beta-Carotene, Zeaxanthin and Cholesterol|Plant Physiol. Biochem.37(3): 179-186|1999|10.1016/S0981-9428(99)80032-1
177677|T||Merkli,A., P. Christen, and I. Kapetanidis|Production of Diosgenin by Hairy Root Cultures of Trigonella foenum-graecum L.|Plant Cell Rep.16(9): 632-636|1997|10.1007/BF01275505
177678|T||Klahre,U., T. Noguchi, S. Fujioka, S. Takatsuto, T. Yokota, T. Nomura, S. Yoshida, and N.H. Chua|The Arabidopsis DIMINUTO/DWARF1 Gene Encodes a Protein Involved in Steroid Synthesis|Plant Cell10(10): 1677-1690|1998|10.1105/tpc.10.10.1677
177679|T||Granado,J., G. Felix, and T. Boller|Perception of Fungal Sterols in Plants: Subnanomolar Concentrations of Ergosterol Elicit Extracellular Alkalinization in Tomato Cells|Plant Physiol.107(2): 485-490|1995|10.1104/pp.107.2.485
177680|T||Fonteneau,P., M.A. Hartmann-Bouillon, and P. Benveniste|A 24-Methylene Lophenol C-28 Methyltransferase from Suspension Cultures of Bramble Cells|Plant Sci. Lett.10(2): 147-155|1977|10.1016/0304-4211(77)90122-5
177681|T||Toda,T., D. Leszczynski, and F. Kummerow|Vasculotoxic Effects of Dietary Testosterone, Estradiol, and Cholesterol on Chick Artery|J. Pathol.134(3): 219-231|1981|10.1002/path.1711340306
177682|T||Yi,R., T. Tachikawa, H. Mukaiyama, Y. Mochida, M. Ishikawa, and T. Aimi|DNA-Mediated Transformation System in a Bipolar Basidiomycete, Pholiota microspora (P. nameko)|Mycoscience50(2): 123-129|2009|10.1007/S10267-008-0456-Y
177683|T||Kilaru,S., C.M. Collins, A.J. Hartley, A.M. Bailey, and G.D. Foster|Establishing Molecular Tools for Genetic Manipulation of the Pleuromutilin-Producing Fungus Clitopilus passeckerianus|Appl. Environ. Microbiol.75(22): 7196-7204|2009|10.1128/AEM.01151-09
177684|T||Colbaugh,P.F.|Influence of Soil Fungicide Treatments on Greenhouse Cropping Efficiency in Pathogen-Infested Growing Media|Meded. Fac. Landbouwwet. Rijksuniv. Gent52(3a): 867-874|1987|
177685|A||Forsgren,K.L., and G. Young|Stage-Specific Effects of Androgens and Estradiol-17beta on the Development of Late Primary and Early Secondary Ovarian Follicles of Coho Salmon (Oncorhynchus kisutch) In Vitro|Biol. Reprod.87(3): 1-14|2012|10.1095/biolreprod.111.098772
177686|A||Kobayashi,Y., R. Nozu, and M. Nakamura|Role of Estrogen in Spermatogenesis in Initial Phase Males of the Three-Spot Wrasse (Halichoeres trimaculatus): Effect of Aromatase Inhibitor on the Testis|Dev. Dyn.240(1): 116-121|2011|10.1002/dvdy.22507
177687|A||Lopez,J.J.B., J.C.Q. Velez, H.O. Alfonso, F. Barreiro-Sanchez, and M.O. Angel|Effectiveness of the Aromatase (P450 Arom) Inhibitors Letrozole and Exemestane for Masculinization of Red Tilapia (Oreochromis spp.) |Rev. Colomb. Cienc. Pecuar.27(1): 47-53|2014|
177688|A||Ruksana,S., N.P. Pandit, and M. Nakamura|Efficacy of Exemestane, a New Generation of Aromatase Inhibitor, on Sex Differentiation in a Gonochoristic Fish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(1): 69-74|2010|10.1016/j.cbpc.2010.02.014
177689|T||Ramaraj,B., and P. Vidhyasekaran|Inhibitory Effect of Fungicides on Pectolytic Enzymes of Phytophthora parasitica var. piperina|Indian Phytopathol.36(1): 32-35|1983|
177690|T||Tantera,D.M., M. Bustaman, and R.P. Molina|Efficacy of Three Systemic Fungicides Against Downy Mildew Peronosclerospora maydis (Rac) Butler) of Maize (Zea mays. L)|Indonesian J. Crop Sci.2(1): 37-50|1986|
177691|T||Rodgers,G.A., A. Penny, and M.V. Hewitt|Effects of Nitrification Inhibitors on Uptakes of Mineralized Nitrogen and on Yields of Winter Cereals Grown on Sandy Soil After Ploughing Old Grassland|J. Sci. Food Agric.36(10): 915-924|1985|10.1002/jsfa.2740361003
177692|T||Yamamoto,B.T., and M. Aragaki|Etiology and Control of Seedling Blight of Brassica actinophylla Caused by Pythium splendens in Hawaii|Plant Dis.67(4): 396-399|1983|10.1094/PD-67-396
177693|T||Ohep,J., R.T.,Jr. McMillan, H.H. Bryan, and D.J. Cantliffe|Control of Damping-Off of Tomatoes by Incorporation of Fungicides in Direct-Seeding Gel|Plant Dis.68(1): 66-67|1984|10.1094/PD-68-66
177694|T||Kitto,S.L., W.G. Pill, and D.M. Molloy|Fluid Drilling as a Delivery System for Somatic Embryo-Derived Plantlets of Carrot (Daucus carota L.)|Sci. Hortic.47(3/4): 209-220|1991|10.1016/0304-4238(91)90004-I
177695|T||Lim,T.K., and H.L. Nio|Control of Phytophthora palmivora on Orchids with Some New Systemic and Standard Fungicides|Pertanika6(1): 34-39|1983|
177696|T||Falloon,R.E.|Fungicide Seed Treatment of Maize to Improve Establishment and Control Seedling Pathogens|N. Z. J. Exp. Agric.10(2): 197-202|1982|10.1080/03015521.1982.10427870
177697|T||Falloon,R.E.|Seedling Emergence Responses in Ryegrasses (Lolium spp.) to Fungicide Seed Treatments|N. Z. J. Agric. Res.23(3): 385-391|1980|10.1080/00288233.1980.10425372
177698|T||Stratton,M.L., and A.V. Barker|Growth and Mineral Composition of Radish in Response to Nitrification Inhibitors|J. Am. Soc. Hortic. Sci.112(1): 13-17|1987|10.21273/JASHS.112.1.13
177699|T||Afzal,R., S.M. Mughal, M. Munir, K. Sultana, R. Qureshi, M. Arshad, and M.K. Laghari|Mycoflora Associated with Seeds of Different Sunflower Cultivars and Its Management|Pak. J. Bot.42(1): 435-445|2010|
177700|T||Begum,M., and S. Lokesh|Synergistic Effect of Fungicides on the Incidence of Seed Mycoflora of Okra|Int. J. Bot.4(1): 24-32|2008|10.3923/ijb.2008.24.32
177701|T||Reinbergs,E., L.V. Edgington, D.R. Metcalfe, and V.M. Bendelow|Field Control of Loose Smut in Barley with the Systemic Fungicides Vitavax and Plantvax|Can. J. Plant Sci.48:31-35|1968|10.4141/cjps68-005
177702|T||Chin,W.T., G.M. Stone, and A.E. Smith|Metabolism of Carboxin (Vitavax) by Barley and Wheat Plants|J. Agric. Food Chem.18(4): 709-712|1970|10.1021/jf60170a036
177703|T||Sahu,K.C., A. Narain, and N.C. Swain|Bioassay of Selected Seed Treating Fungicides Against Sclerotium rolfsii on Groundnut|Environ. Ecol.8(1B): 485-487|1990|
177704|T||Sultana,N., and A. Ghaffar|Effect of Fungicides, Microbial Antagonists and Oilcakes in the Control of Fusarium solani, the Cause of Seed Rot, Seedling and Root Infection of Bottle Gourd, Bitter Gourd and Cucumber|Pak. J. Bot.42(4): 2921-2934|2010|
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177802|T||Du,L., X. Feng, Z. Huang, B. Liu, Y. Jin, Z. Fang, D. Zhang, N. Liu, R. Wang, and C. Xia|The Effect of U Speciation in Cultivation Solution on the Uptake of U by Variant Sedum alfredii|Environ. Sci. Pollut. Res.23(10): 9964-9971|2016|10.1007/s11356-016-6226-z
177803|A||Al Kaddissi,S., O. Simon, A.C. Elia, P. Gonzalez, M. Floriani, I. Cavalie, V. Camilleri, S. Frelon, and A. Legeay|How Toxic is the Depleted Uranium to Crayfish Procambarus clarkii Compared with Cadmium?|Environ. Toxicol.31(2): 211-223|2016|10.1002/tox.22036
177804|T||Panda,B.B., K.K. Panda, J. Patra, G.K. Sahu, and R.K. Mitra|Evaluation of Phytotoxicity and Genotoxicity of Uranyl Nitrate in Allium Assay System|Indian J. Exp. Biol.39:57-62|2001|
177805|T||Saenen,E., N. Horemans, N. Vanhoudt, H. Vandenhove, G. Biermans, M. Van Hees, J. Wannijn, J. Vangronsveld, and A. Cuype|Oxidative Stress Responses Induced by Uranium Exposure at Low pH in Leaves of Arabidopsis thaliana Plants|J. Environ. Radioact.150:36-43|2015|10.1016/j.jenvrad.2015.07.021
177806|T||Berthet,S., F. Villiers, C. Alban, N.B.C. Serre, J. Martin-Laffon, S. Figuet, A.M. Boisson, R. Bligny, M. Kuntz, G. Fin|Arabidopsis thaliana Plants Challenged with Uranium Reveal New Insights into Iron and Phosphate Homeostasis|New Phytol.217(2): 657-670|2018|10.1111/nph.14865
177807|T||Aranjuelo,I., F. Doustaly, J. Cela, R. Porcel, M. Muller, R. Aroca, S. Munne-Bosch, and J. Bourguignon|Glutathione and Transpiration as Key Factors Conditioning Oxidative Stress in Arabidopsis thaliana Exposed to Uranium|Planta (Multiple Languages)239(4): 817-830|2014|10.1007/s00425-013-2014-x
177808|T||Mitrovic,B., G. Vitorovic, M. Jovanovic, M. Lazarevic-Macanovic, V. Andric, M. Stojanovic, A. Dakovic, and D. Vitorovic|Uranium Distribution in Broiler Organs and Possibilities for Protection|Radiat. Environ. Biophys.53(1): 151-157|2014|10.1007/s00411-013-0496-3
177809|A||Markich,S., and C. Camilleri|Investigation of Metal Toxicity to Tropical Biota: Recommendations for Revision of the Australian Water Quality Guidelines|Super. Sci. Rep.127:94 p.|1997|
177810|T||Guarino,J.L., and J.E. Forbes|Preventing Bird Damage to Sprouting Corn with a Carbamate Repellent|N. Y. Fish Game J.17(2): 117-120|1970|
177811|T||Aveling,T.A.S., H.G. Snyman, and S.P. Naude|Evaluation of Seed Treatments for Reducing Alternaria porri and Stemphylium vesicarium on Onion Seed|Plant Dis.77(10): 1009-1011|1993|10.1094/PD-77-1009
177812|T||Reddi,P.S.R., A.S. Reddy, and S.V. Rao|Effect of Synthetic Pyrethroids on Leucinodes orbonalis Guen. and Myzus persicae Sulzer on Brinjal|In: S.Jayaraj (Ed.), Resurgence of Sucking Pests, Natl.Symp., Tamil Nadu Agric.Univ., Coimbatore, India:44-49|1987|
177814|T||Zarrabi,A., and A. Imani|Effects of Fungicides on In-Vitro Pollen Germination, Tube Growth and Morphology of Almond (Prunus dulcis)|Afr. J. Agric. Res.6(25): 5645-5649|2011|
177815|T||Shahzad,M., J. Liu, J. Gao, Z. Wang, D. Zhang, F. Nabi, K. Li, and J. Li|Differential Expression of Extracellular Matrix Metalloproteinase Inducer (EMMPRIN/CD147) in Avian Tibial Dyschondroplasia|Avian Pathol.44(1): 13-18|2015|10.1080/03079457.2014.987210
177816|T||Tian,W.X., W.P. Zhang, J.K. Li, D.R. Bi, D.Z. Guo, S.Y. Pan, Y.H. Zhang, and P. Qin|Identification of Differentially Expressed Genes in the Growth Plate of Broiler Chickens with Thiram-Induced Tibial Dyschondroplasia|Avian Pathol.38(2): 161-166|2009|10.1080/03079450902737789
177817|T||Nabi,F., M. Shahzad, J. Liu, K. Li, Z. Han, D. Zhang, M.K. Iqbal, and J. Li|Hsp90 Inhibitor Celastrol Reinstates Growth Plate Angiogenesis in Thiram-Induced Tibial Dyschondroplasia|Avian Pathol.45(2): 187-193|2016|10.1080/03079457.2016.1141170
177818|T||Kutcher,H.R., G. Lafond, A.M. Johnston, P.R. Miller, K.S. Gill, W.E. May, T. Hogg, E. Johnson, V.O. Biederbeck, and B. |Rhizobium Inoculant and Seed-Applied Fungicide Effects on Field Pea Production|Can. J. Plant Sci.82(4): 645-651|2002|10.4141/P01-180
177819|T||Babu,K.D., S. Sathiamoorthy, N. Chezhiyan, and K.D.N. Singh|Gentamycin and Carbendazim for Axillary Bud Culture of Papaya (Carica papaya L.) In Vitro|Asian J. Microbiol. Biotechnol. Environ. Sci.6(2): 309-311|2004|
177820|T||Wildermuth,G.B., and B.J. Radford|Effect of Carboxin Seed Dressing on Emergence, Coleoptile Length and Primary Leaf Growth of Wheat and Barley|Plant Prot. Q.3(3): 102-104|1988|
177821|T||Khan,M.I., S.K. Saxena, and M.N. Khare|In Vitro Effects of Fungicides Against Leaf Blight of Wheat Caused by Alternaria triticina|Tests Agrochem. Cultiv.0(16): 34-35|1995|
177822|T||Panwar,P., R. Kumawat, and S.C. Jain|Efficacy of Fungicidal Seed Treatment Against Seed Borne Altrnaria alternata Associated with Radish (Raphanus sativus) Seeds|J. Plant Sci. Res.30(2): 201-203|2014|
177823|T||Agarwal,P., and S.C. Jain|Efficacy of Fungicidal Seed Treatment Against Seed Borne Mycoflora of Lucerne (Medicago sativa L.)|J. Plant Sci. Res.30(1): 103-105|2014|
177824|T||Kore,S.S., and R.B. Solanke|Effect of Fungicides on Seeds Mycoflora and Longevity of Seeds of Walbean|J. Maharashtra Agric. Univ.6(3): 188-190|1981|
177825|T||Bhaktavatsalam,G., and R.K. Tripathi|Persistence and Degradation of Carboxin and Oxycarboxin in Pearl Millet|Indian Phytopathol.34(4): 449-451|1981|
177826|T||Agnihotri,V.P.|Degradation of Carboxin in Mycoflora Isolated from Sugar Cane Rhizosphere|Indian Phytopathol.39(3): 418-422|1986|
177827|T||Wysocki,K., and T. Banaszkiewicz|The Effect of Selected Fungicides on the Chemical Composition of Strawberry Fruits and Contamination with Dithiocarbamate Residues|Folia Hortic.26(2): 125-132|2014|10.1515/fhort-2015-0003
177828|T||Bhaktavatsalam,G., and R.K. Tripathi|Uptake and Translocation of Carboxin and Oxycarboxin in Pearl Millet (Pennisetum typhoides)|Indian J. Mycol. Plant Pathol.4(1): 21-24|1974|
177829|T||Sinha,V.C., and D.P. Singh|Tebuconazole in the Control of Loose Smut of Wheat|Indian J. Mycol. Plant Pathol.26(3): 279-281|1996|
177830|T||Tara Mohan,S.|Cytological Effects of Fungicides, Plantvax and Vitavax on Somatic Cells of Allium cepa|Curr. Sci.44(22): 813-814|1975|
177831|T||Minton,E.B., and J.A. Green|Germination and Stand with Cottonseed Treatment Fungicides: Formulations and Rates|Crop Sci.20:5-7|1980|10.2135/cropsci1980.0011183X002000010002x
177832|T||Ruiz-De-La-Cruz,G., C.L. Aguirre-Mancilla, N.A. Godinez-Garrido, N.M. Osornio-Flores, and J.A. Torres-Castillo|Chitosan Mixed with Beneficial Fungal Conidia or Fungicide for Bean (Phaseolus vulgaris L.) Seed Coating|Interciencia42(5): 307-312|2017|
177833|T||Huang,S., M.U. Rehman, G. Qiu, H. Luo, M.K. Iqbal, H. Zhang, K. Mehmood, and J. Li|Tibial Dyschondroplasia is Closely Related to Suppression of Expression of Hypoxia-Inducible Factors 1a, 2a, and 3a in Chickens|J. Vet. Sci.19(1): 107-115|2018|10.4142/jvs.2018.19.1.107
177834|T||Ann,P.J., and W.H. Ko|Effect of Chloroneb and Ethazol on Mating Type of Phytophthora parasitica and P. cinnamomi|Bot. Bull. Acad. Sin. (Taipei)30(3): 207-210|1989|
177835|T||Everwand,G., C. Scherber, and T. Tscharntke|Slug Responses to Grassland Cutting and Fertilizer Application Under Plant Functional Group Removal|Acta Oecol. (Montrouge)48:62-68|2013|10.1016/j.actao.2013.01.015
177836|T||Veltmann,J.R.,Jr., and S.S. Linton|Influence of Dietary Tetramethylthiuram Disulfide (a Fungicide) on Growth and Incidence of Tibial Dyschondroplasia in Single Comb White Leghorn Chicks|Poult. Sci.65(6): 1205-1207|1986|10.3382/ps.0651205
177837|T||Ben-Bassat,S., O. Genina, I. Lavelin, R.M. Leach, and M. Pines|Parathyroid Receptor Gene Expression by Epiphyseal Growth Plates in Rickets and Tibial Dyschondroplasia|Mol. Cell. Endocrinol.149(1): 185-195|1999|10.1016/S0303-7207(98)00231-7
177838|T||Rosselot,G., C. Sokol, and R. Leach|Effect of Lesion Size on the Metabolic Activity of Tibial Dyschondroplastic Chondrocytes|Poult. Sci.73(3): 452-456|1994|10.3382/ps.0730452
177839|T||Nageswara,A.R.N., V.R. Reddy, and C. Srilatha|Effects of Thiram on Performance of Layers|Indian J. Poult. Sci.31(3): 173-180|1996|
177840|T||Rennie,R.J., and S. Dubetz|Effect of Fungicides and Herbicides on Nodulation and N2 Fixation in Soybean Fields Lacking Indigenous Rhizobium japonicum|Agron. J.76(3): 451-454|1984|10.2134/agronj1984.00021962007600030019x
177842|T||Singh,N., and M.S. Kang|Effect of Seed Treatment on Seed Rot, Germination and Seedling Mortality of Rice|Seed Res.20(1): 56-57|1992|
177843|T||Sudheer Reddy,V., H. Savitri, and S.H. Hussaini|Effect of Pre-Storage Seed Treatment on Oviposition and Development of Pulse Beetle, Mycoflora, Viability and Yield of Redgram|Seed Res.16(1): 92-97|1988|
177844|T||Subrahmanya,K.N., H.S. Prakash, H.S. Shetty, and N.G.K. Karanth|Effect of Thiram and Bavistin on Sorghum Seed Stored Under Different Conditions|Pesticides 22(8): 25-27|1988|
177845|T||Vera Lopez,P., C. Ruiz Rejon, R. Lozano, and M. Ruiz Rejon|Effects or Thiram on the Mitotic Division Rhythm in Roots of Allium sativum L.|Cytobios62(250/251): 135-140|1990|
177847|T||Iqbal,M.K., J. Liu, F. Nabi, M.U. Rehman, H. Zhang, A.H. Tahir, and J. Li|Recovery of Chicken Growth Plate by Heat-Shock Protein 90 Inhibitors Epigallocatechin-3-Gallate and Apigenin in Thiram-Induced Tibial Dyschondroplasia|Avian Dis.60(4): 773-778|2016|10.1637/11425-041816-Reg
177848|T||Li,J., D. Bi, S. Pan, and Y. Zhang|Effect of Diet with Thiram on Liver Antioxidant Capacity and Tibial Dyschondroplasia in Broilers|Br. Poult. Sci.48(6): 724-728|2007|10.1080/00071660701665858
177850|T||Thapliyal,P.N., and J.B. Sinclair|Translocation of Benomyl, Carboxin and Chloroneb in Soybean Seedlings|Phytopathology61:1301-1302|1971|10.1094/Phyto-61-1301
177851|T||Allam,A.I., and J.B. Sinclair|Degradation of DMOC (Vitavax) in Cotton Seedlings|Phytopathology59:1548-1549|1969|
177852|T||Allam,A.I., P.E. Schilling, and J.B. Sinclair|Uptake of Vitavax (DCMO) by Germinating Cottonseed|Phytopathology59:265-266|1969|
177853|T||Borum,D.E., and J.B. Sinclair|Evidence for Systemic Protection Against Rhizoctonia solani with Vitavax in Cotton Seedlings|Phytopathology58:976-980|1968|
177854|T||Bates,A.N., G.M. Henry, and C.B. McKenney|Tolerance of Hooker's Evening Primrose (Oenothera elata) Transplants to Postemergence Herbicides|Weed Technol.27(2): 401-404|2013|10.1614/WT-D-12-00090.1
177855|T||Ramaiah,K.S., and M.N.L. Sastry|Chemical Control of the Seed Mycoflora of Sesamum (Sesamum indicum L.)|Mysore J. Agric. Sci.17(2): 141-143|1983|
177856|T||Chopra,S.L., and S.P. Pruthi|Effect of Plantvax on the Chemical Composition of Black-Gram (Phaseolus mungo Roxb.)|Indian J. Agric. Sci.41(4): 345-349|1971|
177857|T||Bonea,D., and E. Bonciu|Cytogenetic Effects Induced by the Fungicide Royal Flo to Maize (Zea mays L.)|Caryologia (Multiple Languages)70(3): 195-199|2017|10.1080/00087114.2017.1318232
177858|T||Nafade,S.D., and J.P. Verma|Effect of Chemical on Translocation of Streptomycin in Cotton Seedling|Indian Phytopathol.37(3): 524-528|1984|
177859|T||Lopez-Reyes,J.G., G. Gilardi, A. Garibaldi, and M.L. Gullino|Efficacy of Bacterial and Fungal Biocontrol Agents as Seed Treatments Against Fusarium oxysporum f. sp Lactucae on Lettuce|J. Plant Pathol.96(3): 535-539|2014|
177860|T||Oloumi-Sadeghi,H., and E. Levine|Controlling Fungi that Colonize Eggs of the Western Corn Rootworm in the Laboratory|Entomol. Exp. Appl.50(3): 271-279|1989|10.1111/j.1570-7458.1989.tb01202.x
177861|T||Wood,B.W., and C.H. Bock|Influence of Fungicides on Gas Exchange of Pecan Foliage|Plant Pathol.67(2): 265-276|2018|10.1111/ppa.12753
177862|T||Wang,C.X., S. Niu, A.R. Jahejo, F.J. Jia, Z. Li, N. Zhang, G.B. Ning, D. Zhang, H.Q. Li, H.L. Ma, W.F. Hao, W.W. Gao, S|Identification of Apoptosis-Related Genes in Erythrocytes of Broiler Chickens and Their Response to Thiram-Induced Tibial Dyschondroplasia and Recombinant Glutathione-S-Transferase A3 Protein|Res. Vet. Sci.120:11-16|2018|10.1016/j.rvsc.2018.08.001
177863|T||Iloba,C.|The Influence of Age and Application Methods on the Susceptibility of Pine and Spruce Ectomycorrhization to Thiram Treatment|Trop. Ecol.24(2): 153-161|1983|
177864|A||Notenboom,J., and J.J. Boessenkool|Acute Toxicity Testing with the Groundwater Copepod Parastenocaris germanica (Crustacea)|First International Conference on Ground Water Ecology, U.S.EPA, American Water Resources Association:301-309|1992|
177865|T||Singh,V.S., and R. Ramachandran|Seed Treatment of Barley for the Control of Aphid, Rhopalosiphum maidis (Fitch) and Disease Covered Smut|J. Entomol. Res.7(2): 115-126|1983|
177866|T||Purohit,M., D.K. Pandey, and Jamaluddin |Fungicidal Effect on Germination of Butea monosperma Seeds During Storage|Indian For.122(2): 185-186|1996|
177867|T||Pavlica,M., N. Ljubesic, and D. Papes|Effects of Thiram on Shallot Root-Tip Cells|Acta Pharm. (Zagreb)45(2): 347-350|1995|
177868|A||Sindhe,S.C.S., M.S.B. Ram, M.J. Naik, and I. Pala|Effect of Sublethal Concentration of Ziram on Oxygen Consumption of the Freshwater Fish Labeo rohita|J. Ecotoxicol. Environ. Monit.21(1): 77-81|2011|
177870|T||Nabi,F., M.K. Iqbal, H. Zhang, M.U. Rehman, M. Shahzad, S. Huang, Z. Han, K. Mehmood, N. Ahmed, B. Chachar, M.A. Arain,|Clinical Efficiency and Safety of Hsp90 Inhibitor Novobiocin in Avian Tibial Dyschondroplasia|J. Vet. Pharmacol. Ther.:10 p.|2018|
177871|T||Falloon,R.E.|Effects of Fungicide Seed Treatments on Seedling Emergence of Pasture and Turf Grasses|N. Z. J. Exp. Agric.8(3/4): 287-289|1980|10.1080/03015521.1980.10426274
177872|T||Kler,D.S., and R.P. Gupta|Effect of Mulching and Rhizobium Culture with and Without Fungicide (Thiram) Seed Treatment on the Pod Yield of Groundnut|Environ. Ecol.11(2): 471-472|1993|
177874|T||Solanke,R.B., M.M. Hussaini, L.N. Jawale, and V.J. Bonde|Effect of Fungicidal Seed Treatment on Seed Health of Sunflower Under Storage Conditions|J. Maharashtra Agric. Univ.22(3): 349-350|1997|
177875|T||Solanke,R.B., S.S. Kore, and L.N. Jawale|Effects of Seed Treatment with Fungicides on Viability and Mycoflora During Storage of the Cotton Seeds|J. Maharashtra Agric. Univ.21(1): 164-165|1996|
177876|T||Pensalwar,S.N., R.B. Solanke, and S.S. Kore|Effects of DS Formulation on Seed Health of Sunflower Under Storage Conditions|J. Maharashtra Agric. Univ.22(2): 248-249|1997|
177877|A||Emmanouil,C., K.M. Kasiotis, and K. Machera|Bioaccumulation of Thiram in Mytilus galloprovincialis and Its Effect on Different Tissues|Hellen. Plant Prot. J.4(2): 57-69|2011|
177878|T||Iqbal,M.K., F. Nabi, M.U. Rehman, K. Mehmood, S. Huang, H. Zhang, L. Zhang, M. Iqbal, and J. Li|FK228 Recovers Thiram-Induced Tibial Dyschondroplasia in Chicken Via Hypoxia Inducible Factor-1a|J. Biol. Regul. Homeost. Agents32(1): 89-95|2018|
177879|T||Somani,R.B., N.R. Potdukhe, V.B. Shekar, R.S. Wadhokar, and S.K. Jilani|A Study on Germination and Seed Mycoflora of Sorghum as Influenced by Fungicide Seed Treatment|J. Maharashtra Agric. Univ.18(3): 475-476|1993|
177880|T||Sirois,J.C., E.A. Peterson, and R.W. Miller|Potential Effects of Thiram on Medicago - R. meliloti Symbiotic Association|J. Biol. Regul. Homeost. AgentsB16(3): 293-307|1981|
177882|T||Rajora,M.P., M.S. Yadav, and S.K. Sharma|Effect of Crop Age and Seed Hardening on Seed Germination in Buffel Grass|Ann. Arid Zone41(1): 75-78|2002|
177883|T||Wu,W., M.E. Cook, and E.B. Smalley|Prevention of Thiram-Induced Dyschondroplasia by Copper|Nutr. Res.10(5): 555-566|1990|10.1016/S0271-5317(05)80065-X
177884|A||Silicone Health Council|(Octamethylcyclotetrasiloxane) - Acute Toxicity to Daphnids (Daphnia magna) During a 48-Hour Flow-Through Exposure|Report No.90-2-3243. Silicones Environmental, Health, and Safety Center:64 p.|1990|
177885|T||Randhawa,A.S., S.K. Sharma, and P.S. Bagga|Improvement in the Germination of Wheat Through Seed-Dressing|Crop Improv.19(1): 72-73|1992|
177886|T||Dang,J.K., and R.C. Tyagi|Chemical Control of Loose Smut of Wheat by Vitavax|Pesticides 7(11): 19-20|1973|
177887|T||Mittal,R.K.|In Vitro Screening of Chemicals for Green Gram Seed Treatment|Seed Res.20(1): 54-55|1992|
177888|T||Pavlica,M., Z. Lorkovic, N. Ljubesic, and D. Papes|Cytogenetical, Immunofluorescence, Ultrastructural and Biochemical Investigations of Pesticide Genotoxicity in Plants|Period. Biol.96(4): 410-412|1994|
177889|T||Mercer,P.C., and N.V. Hardwick|Chemical Control of Seed-Borne Diseases of Linseed in the UK|Bull. SROP - WPRS Bull.16:73-83|1993|
177890|T||Ozden,E., R.A. Delialioglu, S. Hussein, and I. Demir|Prediction of Germination of Commercially Available Seed Lots by Regression Models Developed by Artificial and Natural Ageing and Electrical Conductivity in Leek|Seed Sci. Technol.45(2): 465-474|2017|10.15258/sst.2017.45.2.01
177891|T||Barik,K.C., and A.S. Chandel|Effect of Copper Nutrition on Nodulation, Leghaemoglobin Content and Nitrogen Uptake in Different Varieties of Soybean (Glycine max)|Indian J. Agric. Sci.72(12): 739-741|2002|
177892|T||Reitz,L.P., E.D. Hansing, F.E. Davidson, and A.E. Decker|Viability and Seed Treatment of Flax|J. Am. Soc. Agron.39(11): 959-970|1947|10.2134/agronj1947.00021962003900110003x
177893|T||Chavan,A.K., and R.K. Pannu|Effect of Different Management Practices on Dry Matter Accumulation and Mobilization of Preanthesis Assimilates in Late Sown Wheat (Triticum aestivum L.)|Environ. Ecol.34(1): 196-199|2016|
177894|T||Harish,S., N.K. Biradarpatil, M.D. Patil, and S.B. Vinodkumar|Influence of Growing Condition and Seed Treatments on Storability of Tomato (Solanum lycopersicum L.) Seeds|Environ. Ecol.32(4): 1223-1229|2014|
177895|T||Mohana,D.C., S. Satish, and K.A. Raveesha|Antifungal Activity of 2-Hydroxy-4-Methoxybenzaldehyde Isolated from Decalepis hamiltonii (Wight & Arn.) on Seed-Borne Fungi Causing Biodeterioration of Paddy|J. Plant Prot. Res.49(3): 250-256|2009|10.2478/v10045-009-0038-9
177897|T||Ragab,M.T.H.|Thiram Dormant Spray for the Control of Taphrina communis (Sadeb) and Its Residues in Plum Fruit|Proc. N.S. Inst. Sci.35(3/4): 107-108|1985|
177898|T||Rao,K.L., and C.P. Rao|Effect of Sowing Date on the Pod Yield of Groundnut in North Coastal Zone of Andhra Pradesh |Indian J. Agron.34(4): 448-449|1989|
177900|T||Sterk,G., and N. Gocha|Studies on the Effects of Thiram on Beneficial Insects|Meded. Fac. Landbouwwet. Rijksuniv. Gent57(2b): 551-557|1992|
177901|A||Mottier,A., V. Kientz-Bouchart, C. Dubreule, A. Serpentini, J.M. Lebel, and K. Costil|Effects of Acute Exposures to Mecoprop, Mecoprop-p and Their Biodegradation Product (2-MCP) on the Larval Stages of the Pacific Oyster, Crassostrea gigas|Aquat. Toxicol.146:165-175|2014|10.1016/j.aquatox.2013.11.008
177902|T||Harman,G.E., and A.G. Taylor|Improved Seedling Performance by Integration of Biological Control Agents at Favorable pH Levels with Solid Matrix Priming|Phytopathology78(5): 520-525|1988|10.1094/Phyto-78-520
177903|T||Mehmood,K., H. Zhang, M.K. Iqbal, M.U. Rehman, M. Shahzad, K. Li, S. Huang, F. Nabi, L. Zhang, and J. Li|In Vitro Effect of Apigenin and Danshen in Tibial Dyschondroplasia Through Inhibition of Heat-Shock Protein 90 and Vascular Endothelial Growth Factor Expressions in Avian Growth Plate Cells|Avian Dis.61(3): 372-377|2017|10.1637/11641-032817-RegR
177904|A||Groliere,C.A., S. Sefrioui, and J. Dupy-Blanc|Bioconversion of Thiram (TMTD) by Tetrahymena pyriformis|Arch. Protistenkd.141(1): 135-140|1992|10.1016/S0003-9365(11)80053-9
177905|T||Bhan,U., and M.S. Chatrath|Translocation of Seed Applied Carbendazim in Wheat as Influenced by Other Pesticides|J. Nucl. Agric. Biol.20(4): 268-271|1991|
177906|T||Edwards,H.M.,Jr.|Observations on Several Factors Influencing the Incidence of Tibial Dyschondroplasia in Broiler Chickens|Poult. Sci.64(12): 2325-2334|1985|10.3382/ps.0642325
177907|T||Hornshaw,T.C.|Development of Dietary LC50 and Reproduction Test Protocols Using Mink and Ferrets as Representative Mammalian Carnivores|Ph.D. Thesis, Michigan State University, East Lansing, MI:228 p.|1984|
177908|T||Franekic,J., N. Bratulic, M. Pavlica, and D. Papes|Genotoxicity of Dithiocarbamates and Their Metabolites|Mutat. Res.325(2): 65-74|1994|
177909|T||Hocking,P.J., and M.B. Thomas|Effect of Fungicide and IBA Mixtures on the Rooting of Cuttings of Three Ornamental Shrub Species|N. Z. J. Exp. Agric.9(3/4): 343-349|1981|10.1080/03015521.1981.10425432
177910|T||Shafi,M., S.A. Kamil, M.S. Mir, M.M. Darzi, A.S. Bhat, S. Shah, and K.H. Dar|Haematological Study on the Fungicide Ziram Induced Acute, Subacute and Subchronic Toxicity in Broiler Chickens|Nat. Environ. Pollut. Technol.15(2): 635-638|2016|
177911|T||Shafi,M., S.A. Kamil, M.S. Mir, M.M. Darzi, A.S. Bhat, S.A. Shah, and O.K. Baba|Gross and Histopathological Study of Ziram Induced Subchronic Toxicity in Broiler Chickens|Nat. Environ. Pollut. Technol.16(3): 821-828|2017|
177912|T||Martin,C.A., A. Barajas, G. Lawless, H.O. Lawal, K. Assani, Y.P. Lumintang, V. Nunez, and D.E. Krantz|Synergistic Effects on Dopamine Cell Death in a Drosophila Model of Chronic Toxin Exposure|Neurotoxicology44:344-351|2014|10.1016/j.neuro.2014.08.005
177913|T||El-Guindy,M.A., S.M. Madi, and M.M. Abdel-Sattar|Joint Action of Two Pyrethroids with Several Insecticides on the Egyptian Cotton Leafworm (Spodoptera littoralis Boisd)|Int. Pest Control23(4): 99-101|1981|
177914|T||Jayaswal,A.P., and R.K. Saini|Effect of Some Synthetic Pyrethroids on Pink Bollworm Incidence and Yield of Cotton|Pesticides 15(1): 33-35|1981|
177915|T||Kim,Y.H., J.H. Lee, and S.H. Lee|Determination of Organophosphate and Carbamate Resistance Allele Frequency in Diamondback Moth Populations by Quantitative Sequencing and Inhibition Tests|J. Asia Pac. Entomol.14:29-33|2011|10.1016/j.aspen.2010.11.007
177917|T||Adamczyk,D., and B. Jankiewicz|Effects of Thiuram on Uptake of Copper, Zinc and Manganese by Valeriana officinalis L.|Pol. J. Environ. Stud.17(5): 823-826|2008|
177918|T||Shafi,M., S.A. Kamil, M.S. Mir, S. Adil, M.M. Darzi, and A.S. Bhat|Biochemical Studies on Ziram Induced Acute, Subacute and Subchronic Toxicity in Broiler Chicken|Sci. Res. Essays10(20): 624-632|2015|10.5897/SRE2015.6314
177919|T||Guene,N.F.D., A. Diouf, and M. Gueye|Nodulation and Nitrogen Fixation of Field Grown Common Bean (Phaseolus vulgaris) as Influenced by Fungicide Seed Treatment|Afr. J. Biotechnol.2(7): 198-201|2003|10.5897/AJB2003.000-1041
177920|T||Bikrol,A., N. Saxena, and K. Singh|Response of Glycine max in Relation to Nitrogen Fixation as Influenced by Fungicide Seed Treatment|Afr. J. Biotechnol.4(7): 667-671|2005|10.5897/AJB2005.000-3122
177921|T||Simsa,S., A. Hasdai, H. Dan, and E.M. Ornan|Differential Regulation of MMPs and Matrix Assembly in Chicken and Turkey Growth-Plate Chondrocytes|Am. J. Physiol., Regul. Integr. Comp. Physiol.292(6): R2216-R2224|2007|10.1152/ajpregu.00864.2006
177922|A||Taylor,G.T., and M.L. Pace|Validity of Eucaryote Inhibitors for Assessing Production and Grazing Mortality of Marine Bacterioplankton|Appl. Environ. Microbiol.53(1): 119-128|1987|10.1128/aem.53.1.119-128.1987
177923|A||Babo,S., and P. Vasseur|In Vitro Effects of Thiram on Liver Antioxidant Enzyme Activities of Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.22(1): 61-68|1992|10.1016/0166-445X(92)90036-M
177924|T||Wu,W., M.E. Cook, Q. Chu, and E.B. Smalley|Tibial Dyschondroplasia of Chickens Induced by Fusarochromanone, a Mycotoxin|Avian Dis.37(2): 302-309|1993|10.2307/1591653
177925|T||Veltmann,J.R.,Jr., G.N. Rowland, and S.S. Linton|Tibial Dyschondroplasia in Single-Comb White Leghorn Chicks Fed Tetramethylthiuram Disulfide (a Fungicide)|Avian Dis.29(4): 1269-1272|1985|10.2307/1590484
177926|T||Orth,M.W., R.M. Leach, A.C. Vailas, and M.E. Cook|Non-Reducible Collagen Cross-Linking in Cartilage from Broiler Chickens with Tibial Dyschondroplasia|Avian Dis.38(1): 44-49|1994|10.2307/1591835
177927|T||Page,R.K.|Teratogenic Activity of Arasan Fed to Broiler Breeder Hens|Avian Dis.19(3): 463-472|1975|10.2307/1589071
177928|T||Storey,W.B., L.S. Jordan, and J.D. Mann|Carbamate Herbicides - New Tools for Cytological Studies|Calif. Agric.22(8): 12-13|1968|
177929|T||Tu,C.M.|Effect of Fungicidal Seed Treatments on Alfalfa Growth and Nodulation by Rhizobium meliloti|Chemosphere10(1): 127-134|1981|10.1016/0045-6535(81)90176-4
177930|T||Lennox,L.B., and M. Alexander|Fungicide Enhancement of Nitrogen Fixation and Colonization of Phaseolus vulgaris by Rhizobium phaseoli|Appl. Environ. Microbiol.41(2): 404-411|1981|10.1128/aem.41.2.404-411.1981
177932|T||Medill,N.J.|Expression of Parathyroid Hormone -Related Peptide and Indian Hedgehog in Chick Growth Plate Chondrocytes|Ph.D Thesis, Pennsylvania State University, University Park, PA:98 p.|2000|
177933|T||Robertson,S.P.|The Role of Pheromones and Larval Behavior in the Management of the Tufted Apple Bud Moth, Platynota idaeusalis (Lepidoptera: Tortricidae) in Apples|Ph.D Thesis, Pennsylvania State University, University Park, PA:208 p.|2001|
177934|T||Boutin,C., B. Strandberg, D. Carpenter, S.K. Mathiassen, and P.J. Thomas|Herbicide Impact on Non-Target Plant Reproduction: What are the Toxicological and Ecological Implications?|Environ. Pollut.185:295-306|2014|10.1016/j.envpol.2013.10.009
177935|T||Wu,W.|Etiology and Physiology of Chemical-Induced Tibial Dyschondroplasia in Broiler Chickens|Ph.D Thesis, University of Wisconsin, Madison, WI:181 p.|1990|
177936|T||Prister,B.S., V.A. Kal'chenko, V.I. Polyakova, V.A. Shevchenko, G.P. Shein, and R.M. Aleksakhin|Biological Effects of Radionuclides on Plants|Biol. Bull. Acad. Sci. USSR6(4): 468-475|1979|
177937|T||Pishchik,V.N., S.V. Tymofeyeva, A.A. Glavin, N.I. Vorobyov, and B.L. Rubenchik|Effect of N-Nitrosoamines and Nitrosationable Pesticide Tetramethylthiuram Disulfide on Soil Microbiocenosis and Potato Yield: A Model System|J. Environ. Pathol. Toxicol. Oncol.13(4): 235-242|1994|
177938|T||Burrows,R.L., and I. Ahmed|Fungicide Seed Treatments Minimally Affect Arbuscular-Mycorrhizal Fungal (AMF) Colonization of Selected Vegetable Crops|J. Biol. Sci. (Faisalabad)7(2): 417-420|2007|10.3923/jbs.2007.417.420
177939|T||Aksoy,O., and A. Deveci|The Investigation of the Cytotoxic Effects of Some Pesticides on Soybean (Glycine max L.)|Cytologia77(4): 475-483|2012|10.1508/cytologia.77.475
177940|T||Hung,R., S. Lee, C. Rodriguez-Saona, and J.W. Bennett|Common Gas Phase Molecules from Fungi Affect Seed Germination and Plant Health in Arabidopsis thaliana|AMB Express4(1): 1-7|2014|10.1186/s13568-014-0053-8
177941|A||BASF Corp.|Report on the Study of the Acute Toxicity on the Golden Orfe (Leuciscus idus L., Golden Variety) (April 5, 1989) (Final Report) with Cover Letter Dated 121691|EPA/OTS 86-920000670:19 p.|1991|
177942|A||Union Carbide Corp.|Letter from Union Carbide Submitting Ecotoxicological Studies on a Number of Chemicals with Cover Letter Dated 022593|EPA/OTS 86-930000141:18 p.|1993|
177944|T||Young,W.R., and D.C. Zevallos|Studies with Chemical Seed Treatments as Bird Repellents for the Protection of Germinating Maize in the Mexican Tropics|FAO Plant Prot.Bull.8(4): 37-42|1960|
177946|T||Strandberg,B., S.K. Mathiassen, M. Bruus, C. Kjaer, C. Damgaard, H.V. Andersen, R. Bossi, P. Lofstrom, S.E. Larsen, J. |Effects of Herbicides on Non-Target Plants: How do Effects in Standard Plant Test Relate to Effects in Natural Habitats?|Danish Ministry of the Environment, Environmenta Protection Agency, Pesticide Research No.137:115 p.|2012|
177947|T||Lakshman,M., B.J. Sharma, and S.R. Ahmed|Serum Calcium and Alkaline Phosphatase Activity in Thiuram Induced Tibial Dyschondroplasia in Experimental Broilers|Indian Vet. J.81(6): 631-633|2004|
177948|T||Narayanaswamy,S., and Channarayappa |Effect of Pre-Sowing Treatment on Seed Germination and Yield in Groundnut (Arachis hypogaea L.)|Seed Res.24(2): 166-168|1996|
177949|T||Redfearn,M., and D.J. Osborne|Effects of Advancement on Nucleic Acids in Sugarbeet (Beta vulgaris) Seeds|Seed Sci. Res.7(3): 261-267|1997|10.1017/S0960258500003615
177950|T||Solanke,R.B., S.S. Kore, and S.N. Pensalwar|Effect of Fungicidal Seed Treatment on Seed Viability and Mycoflora During Storage of Sorghum|Indian J. Mycol. Plant Pathol.27(3): 297-298|1997|
177951|T||El-Bahrawy,S.A., and N.S. Ghazal|Effect of Different Pesticides on Plant Root Nodules and Rhizosphere Microflora in Cowpea (Vigna sinensis)|Zentbl. Mikrobiol.144(4): 271-278|1989|10.1016/S0232-4393(89)80089-7
177952|A||Silicones Health Council|(Octamethylcyclotetrasiloxane) - The Subchronic Toxicity to Midge Larvae Under Flow-Through Conditions (Supplemental Study) with Cover Letter Dated 072691|EPA/OTS Doc.#86-910000939:100 p.|1991|
177953|T||Shirkot,P., C.K. Shirkot, and K.G. Gupta|Effect of Tetramethylthiuram Disulfide (TMTD) on Nodulation, Plant Yield, and Nitrogen Fixation by Cicer arietinum in Presence of TMTD-Utilizing Bacteria|Zentbl. Mikrobiol.146(6): 413-418|1991|10.1016/S0232-4393(11)80267-2
177955|T||Golakiya,B.A.|Drought Response of Groundnut: II. Effect of Dry Seeding and Seeding Treatments on Seedling Emergence|Adv. Plant Sci.3(2): 315-317|1990|
177956|T||Goodyear Tire and Rubber|Evaluation of Methyl Tuads (Peroxide Process) with Drosophila melanogaster with Cover Letter Dated 060387|EPA/OTS 86870000353:9 p.|1987|
177957|T||Hall,T.J., and G.S. Taylor|Aerated-Steam Treatment for Control of Alternaria tenuis on Lobelia Seed|Ann. Appl. Biol.103(2): 219-228|1983|10.1111/j.1744-7348.1983.tb02758.x
177958|A||Putnam,J.G., J.E. Nelson, E.M. Leis, R.A. Erickson, T.D. Hubert, and J.J. Amberg|Using Silver and Bighead Carp Cell Lines for the Identification of a Unique Metabolite Fingerprint from Thiram-Specific Chemical Exposure|Chemosphere168:1477-1485|2017|10.1016/j.chemosphere.2016.11.046
177959|T||Tian,W.X., J.K. Li, P. Qin, R. Wang, G.B. Ning, J.G. Qiao, H.Q. Li, D.R. Bi, S.Y. Pan, and D.Z. Guo|Screening of Differentially Expressed Genes in the Growth Plate of Broiler Chickens with Tibial Dyschondroplasia by Microarray Analysis|BMC Genomics14:12 p.|2013|
177960|T||Rath,N.C., M.P. Richards, W.E. Huff, G.R. Huff, and J.M. Balog|Changes in the Tibial Growth Plates of Chickens with Thiram-Induced Dyschondroplasia|J. Comp. Pathol.133(1): 41-52|2005|10.1016/j.jcpa.2005.01.005
177962|A||Bayona,Y., M. Roucaute, K. Cailleaud, L. Lagadic, A. Basseres, and T. Caquet|Isotopic Niche Metrics as Indicators of Toxic Stress in Two Freshwater Snails|Sci. Total Environ.484:102-113|2014|10.1016/j.scitotenv.2014.03.005
177963|T||Merwin,I.A., J.A. Ray, and P.D. Curtis|Orchard Groundcover Management Systems Affect Meadow Vole Populations and Damage to Apple Trees|Hortscience34(2): 271-274|1999|10.21273/HORTSCI.34.2.271
177964|A||Giari,L., F. Vincenzi, S. Badini, C. Guerranti, B.S. Dezfuli, E.A. Fano, and G. Castaldelli|Common Carp Cyprinus carpio Responses to Sub-Chronic Exposure to Perfluorooctanoic Acid|Environ. Sci. Pollut. Res. Int.23(15): 15321-15330|2016|10.1007/s11356-016-6706-1
177965|T||Martin,C.A., K.M. Myers, A. Chen, N.T. Martin, A. Barajas, F.E. Schweizer, and D.E. Krantz|Ziram, a Pesticide Associated with Increased Risk for Parkinson's Disease, Differentially Affects the Presynaptic Function of Aminergic and Glutamatergic Nerve Terminals at the Drosophila Neuromuscular Junction|Exp. Neurol.275(1): 232-241|2016|10.1016/j.expneurol.2015.09.017
177966|T||Toll,J.|Duplosan - New Phenoxy-Propionic Acids with Biotechnology|Weeds Weed Control1(128): 100-107|1987|
177967|A||Shimeta,J., and P.L.M. Cook|Testing Assumptions of the Eukaryotic Inhibitor Method for Investigating Interactions Between Aquatic Protozoa and Bacteria, Applied to Marine Sediment|Limnol. Oceanogr.9:288-295|2011|
177970|T||Rath,N.C., W.E. Huff, G.R. Bayyari, and J.M. Balog|Effect of Thiram on Chick Chondrocytes in Culture|J. Toxicol. Environ. Health44(3): 369-376|1995|10.1080/15287399509531965
177971|A||Truong,L., S.M. Bugel, A. Chlebowski, C.Y. Usenko, M.T. Simonich, S.L.M. Simonich, and R.L. Tanguay|Optimizing Multi-Dimensional High Throughput Screening Using Zebrafish|Reprod. Toxicol.10(65): 139-147|2016|10.1016/j.reprotox.2016.05.015
177973|T||Kumhar,G.R., J.P. Agnihorti, and A.K. Gupta|Seed Mycoflora of Chickpea (Cicer arietinum L.), Their Effect on Germination and Vigour of Seedlings and Their Control|Indian Bot. Rep.6(2): 87-94|1987|
177974|T||Genin,O., A. Hasdai, D. Shinder, and M. Pines|Hypoxia, Hypoxia-Inducible Factor-1a (HIF-1a), and Heat-Shock Proteins in Tibial Dyschondroplasia|Poult. Sci.87(8): 1556-1564|2008|10.3382/ps.2008-00124
177975|T||Simsa,S., A. Hasdai, H. Dan, and E.M. Ornan|Induction of Tibial Dyschondroplasia in Turkeys by Tetramethylthiuram Disulfide (Thiram)|Poult. Sci.86(8): 1766-1771|2007|10.1093/ps/86.8.1766
177976|T||Rath,N.C., W.E. Huff, and G.R. Huff|Thiram-Induced Changes in the Expression of Genes Relating to Vascularization and Tibial Dyschondroplasia|Poult. Sci.86(11): 2390-2395|2007|10.3382/ps.2007-00219
177977|T||West,R.R., and J.H. Dunks|Repelling Boat-Tailed Grackles from Sprouting Corn with a Carbamate Compound|Texas J. Sci.21(2): 231-233|1969|
177979|T||Rosario,J.M., H. Cruz-Hipolito, R.J. Smeda, and R. De Prado|White Mustard (Sinapis alba) Resistance to ALS-Inhibiting Herbicides and Alternative Herbicides for Control in Spain|Eur. J. Agron.35:57-62|2011|10.1016/j.eja.2011.03.002
177980|A||ICI Americas Inc.|Initial Submission: Determination of the Acute Toxicity of GFU 064 a 4lb/US Gallon Formulation (46.7% W/W) to Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 082892|EPA/OTS 88-920007496:32 p.|1992|
177981|A||ICI Americas Inc.|Initial Submission: The Acute and Chronic Toxicity of PP009 to Mysid Shrimp with Cover Letter Dated 082892|EPA/OTS 88-920007324:9 p.|1992|
177982|A||ICI Americas Inc.|Initial Submission: The Acute Toxicity of PP009 Formulation GFU063 to Fiddler Crabs with Cover Letter Dated 082892|EPA/OTS 88-920007323:8 p.|1992|
177983|AT||Carve,M., T.L. Coggan, J.H. Myers, B. Clarke, D. Nugegoda, and J. Shimeta|Impacts on the Seagrass, Zostera nigricaulis, from the Herbicide Fusilade Forte Used in the Management of Spartina anglica Infestations|Aquat. Toxicol.195:15-23|2018|10.1016/j.aquatox.2017.11.021
177984|T||Mahar,G.M., F.C. Oad, U.A. Buriro, and G.S. Solangi|Effect of Post-Emergence Herbicides on the Growth and Yield of Up-Land Cotton|Asian J. Plant Sci.6(8): 1282-1286|2007|10.3923/ajps.2007.1282.1286
177985|T||Erban,T., K. Harant, J. Chalupnikova, F. Kocourek, and J. Stara|Beyond the Survival and Death of the Deltamethrin-Threatened Pollen Bettle Meligethes aeneus: An In-Depth Proteomic Study Employing a Transcriptome Database|J. Proteom.150:281-289|2017|10.1016/j.jprot.2016.09.016
177986|T||Schultz,C.B., J.L. Zemaitis, C.C. Thomas, M.D. Bowers, and E.E. Crone|Non-Target Effects of Grass-Specific Herbicides Differ Among Species, Chemicals and Host Plants in Euphydryas Butterflies|J. Insect Conserv.20(5): 867-877|2016|10.1007/s10841-016-9920-8
177987|T||Russell,C., and C.B. Schultz|Effects of Grass-Specific Herbicides on Butterflies: An Experimental Investigation to Advance Conservation Efforts|J. Insect Conserv.14(1): 53-63|2010|10.1007/s10841-009-9224-3
177988|T||Glaeser,R.M., and C.B. Schultz|Characterizing a Contentious Management Tool: The Effects of a Grass-Specific Herbicide on the Silvery Blue Butterfly|J. Insect Conserv.18(6): 1047-1058|2014|10.1007/s10841-014-9714-9
177989|T||McCarty,L.B., J.M. Higgins, L.C. Miller, and T. Whitwell|Centipedegrass Tolerance to Postemergence Grass Herbicides|Hortscience21(6): 1405-1407|1986|10.21273/HORTSCI.21.6.1405
177990|T||Wang,C.S., W.T. Lin, Y.J. Chiang, and C.Y. Wang|Metabolism of Fluazifop-P-Butyl in Resistant Goosegrass (Eleusine indica) in Taiwan|Weed Sci.65(2): 228-238|2017|10.1017/wsc.2016.35
177991|T||Enloe,S.F., M.D. Netherland, and D.K. Lauer|Can Low Rates of Imazapyr or Glyphosate Improve Graminicide Actvity on Torpedograss?|J. Aquat. Plant Manag.56(1): 13-17|2018|
177992|AT||Schaefer,C.H., and W.H. Wilder|Insecticide Resistance and Cross-Resistance in Aedes nigromaculis|J. Econ. Entomol.63(4): 1224-1226|1970|10.1093/jee/63.4.1224
177993|T||Silveira,R.R., M.V. Santos, E.A. Ferreira, J.B. Santos, and L.D. Silva|Chlorophyll Fluorescence in Brachiaria decumbens and Brachiaria ruziziensis Submitted to Herbicides|Planta Daninha (Impr.) (Multiple Languages)35:9 p.|2017|10.1590/s0100-83582017350100042
177994|T||Queiroz,J.R.G., A.C.,Jr. Silva, and D. Martins|Herbicide Selectivity in Tropical Ornamental Species|Planta Daninha (Impr.) (Multiple Languages)34(4): 795-801|2016|10.1590/s0100-83582016340400020
177995|T||Jain,R., and W.H. Vanden Born|Morphological and Histological Effects of Three Grass Selective Herbicides on Developing Wild Oat (Avena fatua) Stems|Weed Sci.37(4): 575-584|1989|10.1017/S004317450007243X
177996|T||Kaushik,S.K., P. Tarai, P.K. Rai, and P. Chakraborti|Efficacy of Polymer Dye on Storability of Wheat (Triticum aestivum L.) Seeds|Environ. Ecol.33(3): 1022-1025|2015|
177997|T||Kuhns,L.J., G. Twerdok, and C. Haramaki|Screening Woody Ornamentals for Tolerance to Fluazifop-Butyl and Sethoxydim|Proc. Annu. Meet. Northeast. Weed Sci. Soc.38:254-255|1984|
177998|T||Lewis,D.F., J.S. McElroy, J.C. Sorochan, T.C. Mueller, T.J. Samples, and G.K. Breeden|Efficacy and Safening of Aryloxyphenoxypropionate Herbicides when Tank-Mixed with Triclopyr for Bermudagrass Control in Zoysiagrass Turf|Weed Technol.24(4): 489-494|2010|10.1614/WT-D-10-00029.1
177999|T||Patil,S., S.R. Prasad, B. Badiger, S.B. Ramagondappa, K. Maruthi, and B. Tejagouda|Influence of Seed Treatment on Biochemical Changes During Storability of Pigeonpea (Cajanus cajan (L.) Millsp.)|Environ. Ecol.32(4A): 1527-1531|2014|
178000|T||Orth,M.W.|Homocysteine-Induced Changes in the Growth Plate of Broiler Chicks|Ph.D Thesis, University of Wisconsin, Madison, WI:134 p.|1993|
178001|T||Mohamed,H.I., and S.A. Akladious|Changes in Antioxidants Potential, Secondary Metabolites and Plant Hormones Induced by Different Fungicides Treatment in Cotton Plants|Pestic. Biochem. Physiol.142:117-122|2017|10.1016/j.pestbp.2017.04.001
178002|T||Minton,N.A., A.S. Csinos, R.E. Lynch, and T.B. Brenneman|Effects of Two Cropping and Two Tillage Systems and Pesticides on Peanut Pest Management|Peanut Sci.18(1): 41-46|1991|10.3146/i0095-3679-18-1-12
178003|A||Yang,Y., S. Qi, J. Chen, Y. Liu, M. Teng, and C. Wang|Toxic Effects of Bromothalonil and Flutolanil on Multiple Developmental Stages in Zebrafish|Bull. Environ. Contam. Toxicol.97(1): 91-97|2016|10.1007/s00128-016-1833-4
178004|A||Teng,M., W. Zhu, D. Wang, J. Yan, S. Qi, M. Song, and C. Wang|Acute Exposure of Zebrafish Embryo (Danio rerio) to Flutolanil Reveals Its Developmental Mechanism of Toxicity Via Disrupting the Thyroid System and Metabolism|Environ. Pollut.242:1157-1165|2018|10.1016/j.envpol.2018.07.092
178005|T||Elliott,M.L., R.B. Hickman, and M. Hopkins|Flutolanil for Control of Necrotic Fairy Rings on Bermudagrass Putting Greens|HortTechnology12(4): 656-659|2002|10.21273/HORTTECH.12.4.656
178006|T||Michitte,P., N. Espinoza, and R. De Prado|Cross-Resistance to ACCase Inhibitors of Lolium multiflorum, Lolium perenne and Lolium rigidum Found in Chile|Commun. Agric. Appl. Biol. Sci.68(4a): 397-402|2003|
178007|T||Varnagy,L., T. Varga, I. Hlubik, P. Budai, and E. Molnar|Toxicity of the Herbicides Flubalex, Fusilade S and Maloran 50 WP to Chicken Embryos After Administration as Single Compounds or in Combination|Acta Vet. Hung.44(3): 363-376|1996|
178008|T||Singh,D.P., S.K. Tomar, and R.D. Vaishya|Weed Control in White Jute (Corchorus capsularis)|Indian J. Agron.39(3): 437-441|1994|
178009|T||Jalaludin,A., Q. Yu, and S.B. Powles|Multiple Resistance Across Glufosinate, Glyphosate, Paraquat and ACCase-Inhibiting Herbicides in an Eleusine indica Population|Weed Res. (Multiple Languages)55(1): 82-89|2015|10.1111/wre.12118
178010|T||Swanson,M.H., P.E. Waibel, N.V. Helbacka, and E.L. Johnson|Shell Egg Quality as Affected by Arasan in the Diet|Poult. Sci.35:92-95|1956|10.3382/ps.0350092
178011|T||Pan,L., J. Li, T. Zhang, D. Zhang, and L.Y. Dong|Cross-Resistance Patterns to Acetyl Coenzyme A Carboxylase (ACCase) Inhibitors Associated with Different ACCase Mutations in Beckmannia syzigachne|Weed Res. (Multiple Languages)55(6): 609-620|2015|10.1111/wre.12170
178013|T||Radko,L., W. Cybulski, and W. Rzeski|The Protective Effects of Silybin on the Cytotoxicity of Thiram in Human, Rat and Chicken Cell Cultures|Pestic. Biochem. Physiol.143:154-160|2017|10.1016/j.pestbp.2017.08.003
178014|T||Ingle,A., and G.K. Burge|Herbicides for Gentians|Proc. N. Z. Plant Prot. Conf.49:173-176|1996|10.30843/nzpp.1996.49.11414
178015|T||Singh,D.P., and V.K. Agarwal|Purple Stain of Soybean and Seed Viability|Seed Res.14(1): 126-|1986|
178016|T||Johnson,E.L., P.E. Waibel, and B.S. Pomeroy|The Toxicity of Arasan-Treated Corn to Hens and Chicks|Proc. Am. Vet. Med. Assoc.92:322-323|1955|
178017|T||Hitchmough,J.D., R.A. Kilgour, J.W. Morgan, and I.G. Shears|Efficacy of Some Grass Specific Herbicides in Controlling Exotic Grass Seedlings in Native Grassy Vegetation|Plant Prot. Q.9(1): 28-34|1994|
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178020|T||Roseberg,R.J.|Cultural Practices for Lesquerella Production|J. Am. Oil Chem. Soc.70(12): 1241-1244|1993|10.1007/BF02564234
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178022|A||Sant,K.E., P.P. Sinno, H.M. Jacobs, and A.R. Timme-Laragy|Nrf2a Modulates the Embryonic Antioxidant Response to Perfluorooctanesulfonic Acid (PFOS) in the Zebrafish, Danio rerio|Aquat. Toxicol.198:92-102|2018|10.1016/j.aquatox.2018.02.010
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178046|T||Samsoe-Petersen,L.|Laboratory Method for Testing Side-Effects of Pesticides on the Rove Beetle Aleochara bilineata - Adults|IOBC-WPRS Bull.:82-88|1992|
178047|T||San Martin,C., D. Andujar, C. Fernandez-Quintanilla, and J. Dorado|Spatio-Temporal Dynamics of Sorghum halepense in Poplar Short-Rotation Coppice Under Several Vegetation Management Systems|For. Ecol. Manag.379:37-49|2016|10.1016/j.foreco.2016.08.001
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178089|T||Cain,M.D.|Woody and Herbaceous Competition Effects on the Growth of Naturally Regenerated Loblolly and Shortleaf Pines Through 11 Years|New For. 14(2): 107-125|1996|10.1023/A:1006512721318
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178096|T||Weber,A., and U. Luttge|The Effects of the Herbicide Sethoxydim on Transport Processes in Sensitive and Tolerant Grass Species II. Effects on Membrane-Bound Redox Systems in Plant Cells|Z. Naturforsch. C Biosci.43(3/4): 257-263|1988|10.1515/znc-1988-3-417
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178098|T||Stark,J.D., X.D. Chen, and C.S. Johnson|Effects of Herbicides on Behr's Metalmark Butterfly, a Surrogate Species for the Endangered Butterfly, Lange's Metalmark|Environ. Pollut.164:24-27|2012|10.1016/j.envpol.2012.01.011
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178103|T||Wilson,A.K.|Two Pot Experiments to Assess the Post-Emergence Activity of Various Herbicides for the Control of Pennisetum setosum|Tests Agrochem. Cultiv.114 Supp(10): 112-113|1989|
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178109|T||Stoltenberg,D.E., J.W. Gronwald, D.L. Wyse, J.D. Burton, D.A. Somers, and B.G. Gengenbach|Effect of Sethoxydim and Haloxyfop on Acetyl-Coenzyme A Carboxylase Activity in Festuca Species|Weed Sci.37:512-516|1989|10.1017/S0043174500072325
178110|T||Broatch,J.S., L.M. Dosdall, J.T. O'Donovan, K.N. Harker, and G.W. Clayton|Herbicide Rate Effects on Weed and Root Maggot Dynamics in Canola|Weed Sci.56(3): 477-483|2008|10.1614/WS-07-172.1
178111|T||Weber,A., E. Fischer, H.S. Branitz, and U. Luttge|The Effects of the Herbicide Sethoxydim on Transport Processes in Sensitive and Tolerant Grass Species I.  Effects on the Electrical Membrane Potential and Alanine Uptake|Z. Naturforsch. Sect. C J. Biosci.43c(3/4): 249-256|1988|10.1515/znc-1988-3-416
178112|T||Bravin,F., G. Zanin, and C. Preston|Resistance to Diclofop-Methyl in Two Lolium spp. Populations from Italy: Studies on the Mechanism of Resistance|Weed Res. (Multiple Languages)41(5): 461-473|2001|10.1046/j.1365-3180.2001.00250.x
178113|T||Leon,R.G., J.B. Unruh, B.J. Brecke, and K.E. Kenworthy|Characterization of Fluazifop-P-Butyl Tolerance in Zoysiagrass Cultivars|Weed Technol.28(2): 385-394|2014|10.1614/WT-D-13-00142.1
178114|T||Wiles,L.J., R.D. William, G.D. Crabtree, and S.R. Radosevich|Analyzing Competition Between a Living Mulch and a Vegetable Crop in an Interplanting System|J. Am. Soc. Hortic. Sci.114(6): 1029-1034|1989|10.21273/JASHS.114.6.1029
178115|T||Westbury,D.B., and N.P. Dunnett|The Promotion of Grassland Forb Abundance: A Chemical or Biological Solution?|Basic Appl. Ecol.9(6): 653-662|2008|10.1016/j.baae.2007.08.006
178116|T||Wells,D.W., R.J. Constantin, and J.F. Fontenot|Postemerge Weed Control in Ornamentals|La. Agric.29(3): 13-14, 17|1986|
178117|A||ICI Americas Inc.|Initial Submission: Acute Toxicity Study with 1-(8-Methoxy-4,8-Dimethylnonyl)-4-(1-Methylethyl)Benzene in Daphnia magna Straus with Cover Letter Dated 082892|EPA/OTS 88-920006949:21 p.|1992|
178118|A||ICI Americas Inc.|Initial Submission: Toxicity Study with PP009 in Fathead Minnow Embryos and Larvae with Cover Letter Dated 082892|EPA/OTS 88-920006951:9 p.|1992|
178119|A||ICI Americas Inc.|Initial Submission: Acute Toxicity Study with PP009 Formulation GFU063 in Pink Shrimp with Cover Letter Dated 082892|EPA/OTS 88-920006950:9 p.|1992|
178120|A||ICI Americas Inc.|Initial Submission: Toxicity of Formulation GFU063 to First Instar Daphnia magna with Cover Letter Dated 082892|EPA/OTS 88-920007631:18 p.|1992|
178121|A||Tantawy,A.A.|Effect of Two Herbicides on Some Biological and Biochemical Parameters of Biomphalaria alexandrina|J. Egypt. Soc. Parasitol.32(3): 837-847|2002|
178122|A||ICI Americas Inc.|Initial Submission: Acute Toxicity Study with GFU 064 in Bluegill Salmon (Lepomis macrochirus) with Cover Letter Dated 082892|EPA/OTS 88-920006959:31 p.|1992|
178123|A||ICI Americas Inc.|Initial Submission: Determination of the Acute Toxicity of GFU 063 to Bluegill Sunfish with Cover Letter Dated 082892|EPA/OTS 88-920007630:30 p.|1992|
178124|T||Lewis,D.F., S. McElroy, and G.K. Breeden|Control of Summer Annual Grasses During Seeded Zoysiagrass Establishment with Various Timings and Rates of Fluazifop, Triclopyr, and Fluazifop Plus Triclopyr|Weed Technol.26(2): 267-271|2012|10.1614/WT-D-11-00117.1
178125|T||Malik,N., and J. Waddington|No-Till Pasture Renovation After Sward Suppression by Herbicides|Can. J. Plant Sci.70(1): 261-267|1990|10.4141/cjps90-028
178126|T||Brighenti,A.M., W.S.D. Rocha, F.S. Sobrinho, C. Castro, C.E. Martins, and M.D. Muller|Application of Reduced Rates of ACCase- Inhibiting Herbicides to Sunflower Intercropped with Brachiaria ruziziensis|Helia34(54): 39-48|2014|10.2298/HEL1154039B
178127|T||Van Heerden,P.D.R.|Evaluation of Moddus as a New Chemical Ripener for the South African Sugar Industry: Preliminary Findings|Int. Sugar J.115(1375): 503-504|2013|
178128|T||Blake,R.J., B.A. Woodcock, D.B. Westbury, P. Sutton, and S.G. Potts|New Tools to Boost Butterfly Habitat Quality in Existing Grass Buffer Strips|J. Insect Conserv.15(1/2): 221-232|2011|10.1007/s10841-010-9339-6
178129|T||Davidson,J.A., and M.D. Ramsey|Pea Yield Decline Syndrome in South Australia: The Role of Diseases and the Impact of Agronomic Practices|Aust. J. Agric. Res.51(3): 347-354|2000|10.1071/AR99111
178130|T||Yuan,G.H., W.L. Guo, L. Du, W.T. Liu, Q. Li, L.X. Li, and J.X. Wang|Alleles Contributing to Acetyl Coenzyme A Carboxylase (ACCase) Resistance in Keng Stiffgrass (Pseudosclerochloa kengiana) Populations from China|J. Integr. Agric.16(1): 125-134|2017|10.1016/S2095-3119(16)61452-1
178131|T||Couderchet,M., and G. Retzlaff|Bentazone-Sethoxydim Antagonism: The Role of ATP and Plasma Membrane ATPase|Pestic. Sci.30(4): 430-433|1990|
178132|T||Couderchet,M., and G. Retzlaff|The Role of the Plasma Membrane ATPase in Bentazone-Sethoxydim Antagonism|Pest Manag. Sci.32(3): 295-306|1991|10.1002/ps.2780320304
178133|T||Jaisani,B.G., B.K. Patel, N.V. Upadhyay, and C.H. Patel|Weed Control in Green Manuring Crop of Sann Hemp (Crotalaria juncea L.)|Pesticides 21(4): 42-43|1987|
178134|T||Struve,I., B. Golle, and U. Luttge|Sethoxydim-Uptake by Leaf Slices of Sethoxydim Resistant and Sensitive Grasses|Z. Naturforsch. C Biosci.42c(3): 279-282|1987|10.1515/znc-1987-0318
178135|T||Martins,B.A.B., E. Sanchez-Olguin, A. Perez-Jones, A.G. Hulting, and C. Mallory-Smith|Alleles Contributing to ACCase-Resistance in an Italian Ryegrass (Lolium perenne ssp multiflorum) Population from Oregon|Weed Sci.62(3): 468-473|2014|10.1614/WS-D-13-00169.1
178136|T||Izadi-Darbandi,E., A. Aliverdi, and H. Hammami|Behavior of Vegetable Oils in Relation to Their Influence on Herbicides' Effectiveness|Ind. Crops Prod.44:712-717|2013|10.1016/j.indcrop.2012.08.023
178138|T||Pearsaul,D.G., R.G. Leon, B.A. Sellers, M.L. Silveira, and D.C. Odero|Evaluation of Verticutting and Herbicides for Tropical Signalgrass (Urochloa subquadripara) Control in Turf|Weed Technol.32(4): 392-397|2018|10.1017/wet.2018.25
178140|T||Patches,K.M., W.S. Curran, and D.D. Lingenfelter|Effectiveness of Herbicides for Control of Common Pokeweed (Phytolacca americana) in Corn and Soybean|Weed Technol.31(2): 193-201|2017|10.1614/WT-D-16-00043.1
178141|T||De Cauwer,B., R. Rombaut, R. Bulcke, and D. Reheul|Differential Sensitivity of Echinochloa muricata and Echinochloa crus-galli to 4-Hydroxyphenyl Pyruvate Dioxygenase- and Acetolactate Synthase-Inhibiting Herbicides in Maize|Weed Res. (Multiple Languages)52(6): 500-509|2012|10.1111/j.1365-3180.2012.00944.x
178142|T||Shergill,L.S., B.R. Barlow, M.D. Bish, and K.W. Bradley|Investigations of 2,4-D and Multiple Herbicide Resistance in a Missouri Waterhemp (Amaranthus tuberculatus) Population|Weed Sci.66(3): 386-394|2018|10.1017/wsc.2017.82
178143|T||Brewer,J.R., J. Willis, S.S. Rana, and S.D. Askew|Response of Six Turfgrass Species and Four Weeds to Three HPPD-Inhibiting Herbicides|Agron. J.109(4): 1777-1784|2017|10.2134/agronj2016.06.0345
178144|T||De Cauwer,B., R. Rombaut, R. Bulcke, and D. Reheul|Sensitivity of Echinochloa muricata and Echinochloa crus-galli to HPPD- and ALS-Inhibiting Herbicides in Corn|Commun. Agric. Appl. Biol. Sci.76(3): 513-520|2011|
178145|T||Hoyle,J.A., F.H. Yelverton, and T.W. Gannon|Evaluating Multiple Rating Methods Utilized in Turfgrass Weed Science|Weed Technol.27(2): 362-368|2013|10.1614/WT-D-12-00126.1
178146|T||Mueller,T.C., D.K. Robinson, J.E. Beeler, C.L. Main, D. Soehn, and K. Johnson|Dioscorea oppositifolia L. Phenotypic Evaluations and Comparison of Control Strategies|Weed Technol.17(4): 705-710|2003|10.1614/WT-02-116
178147|T||Correia,N.M.|Chemical Control of Morning Glory Species in Sugarcane Harvested in the Dry and Semi-Wet Seasons|Planta Daninha (Impr.) (Multiple Languages)34(2): 333-343|2016|10.1590/S0100-83582016340200015
178148|T||Malardo,M.R., P.A. Monquero, P.V. Da Silva, and A.C.S. Hirata|Differential Tolerance of Crotalaria Species to Herbicides|Comun. Sci.8(3): 414-423|2017|10.14295/cs.v8i3.2415
178149|T||Ma,H.J., J.H. Zhang, X.D. Xia, M.H. Xu, J. Ning, and J.H. Li|Design, Synthesis and Herbicidal Activities of Novel 4-(1H-Pyrazol-1-yl)-6-(Alkynyloxy)pyrimidine Derivatives as Potential Pigment Biosynthesis Inhibitors|Pest Manag. Sci.70(6): 946-952|2014|10.1002/ps.3633
178150|T||McCurdy,J.D., J.S. McElroy, D.A. Kopsell, C.E. Sams, and J.C. Sorochan|Effects of Mesotrione on Perennial Ryegrass (Lolium perenne L.) Carotenoid Concentrations Under Varying Environmental Conditions|J. Agric. Food Chem.56(19): 9133-9139|2008|10.1021/jf801574u
178151|T||Wang,D.W., H.Y. Lin, R.J. Cao, T. Chen, F.X. Wu, G.F. Hao, Q. Chen, W.C. Yang, and G.F. Yang|Synthesis and Herbicidal Activity of Triketone-Quinoline Hybrids as Novel 4-Hydroxyphenylpyruvate Dioxygenase Inhibitors|J. Agric. Food Chem.63(23): 5587-5596|2015|10.1021/acs.jafc.5b01530
178152|T||Wang,D.W., H.Y. Lin, B. He, F.X. Wu, T. Chen, Q. Chen, W.C. Yang, and G.F. Yang|An Efficient One-Pot Synthesis of 2-(Aryloxyacetyl)Cyclohexane-1,3-Diones as Herbicidal 4-Hydroxyphenylpyruvate Dioxygenase Inhibitors|J. Agric. Food Chem.64(47): 8986-8993|2016|10.1021/acs.jafc.6b04110
178153|T||Besler,B.A., W.J. Grichar, and A.J. Jaks|Southern Blight and Leafspot Control in Peanut Using Selected Fungicides|Texas J. Agric. Nat. Res.9:105-114|1996|
178154|T||Woodward,J.E., and T.B. Brenneman|Development of an Inoculation Method for Quantifying Fungicide Residues on Peanut Foliage|Peanut Sci.35(1): 25-31|2008|10.3146/PS06-045.1
178155|T||Henry,G.M., J.A. Hoyle, L.L. Beck, T. Cooper, T. Montague, and C. Mckenney|Evaluation of Mulch and Preemergence Herbicide Combinations for Weed Control in High-Density Olive (Olea europaea L.) Production|Hortscience50(9): 1338-1341|2015|10.21273/HORTSCI.50.9.1338
178156|A||Xu,K., F. Racine, Z. He, and P. Juneau|Impacts of Hydroxyphenylpyruvate Dioxygenase (HPPD) Inhibitor (Mesotrione) on Photosynthetic Processes in Chlamydomonas reinhardtii|Environ. Pollut.244:295-303|2018|10.1016/j.envpol.2018.09.121
178157|T||Torma,M., B. Radvany, and L. Hodi|Effect of Mesotrione Residues on Following Crops|J. Plant Dis. Prot.:801-805|2004|
178158|T||Vitek,P., K. Novotna, P. Hodanova, B. Rapantova, and K. Klem|Detection of Herbicide Effects on Pigment Composition and PSII Photochemistry in Helianthus annuus by Raman Spectroscopy and Chlorophyll A Fluorescence|Spectrochim. Acta Part A170:234-241|2017|10.1016/j.saa.2016.07.025
178159|T||Bradley,K.W., E.S.,Jr. Hagood, and P.H. Davis|Evaluation of Postemergence Herbicide Combinations for Long-Term Trumpetcreeper (Campsis radicans) Control in Corn (Zea mays)|Weed Technol.17(4): 718-723|2003|10.1614/WT02-124
178160|T||Riddle,R.N., J. O'Sullivan, C.J. Swanton, and R.C. Van Acker|Field and Greenhouse Bioassays to Determine Mesotrione Residues in Soil|Weed Technol.27(3): 565-572|2013|10.1614/WT-D-12-00146.1
178161|T||Crouzet,O., I. Batisson, P. Besse-Hoggan, F. Bonnemoy, C. Bardot, F. Poly, J. Bohatier, and C. Mallet|Response of Soil Microbial Communities to the Herbicide Mesotrione: A Dose-Effect Microcosm Approach|Soil Biol. Biochem.42(2): 193-202|2010|10.1016/j.soilbio.2009.10.016
178162|A||Markovic,M., M. Jovic, D. Stankovic, V. Kovacevic, G. Roglic, G. Gojgic-Cvijovic, and D. Manojlovic|Application of Non-Thermal Plasma Reactor and Fenton Reaction for Degradation of Ibuprofen|Sci. Total Environ.505:1148-1155|2015|10.1016/j.scitotenv.2014.11.017
178163|T||Radivojevic,L., M. Saric-Krsmanovic, J.G. Umiljendic, D. Bozic, and L. Santric|The Impacts of Temperature, Soil Type and Soil Herbicides on Seed Germination and Early Establishment of Common Milkweed (Asclepias syriaca L.)|Notulae Bot. Horti Agrobot. Cluj-Napoca44(1): 291-295|2016|10.15835/nbha44110265
178164|T||Borowik,A., J. Wyszkowska, J. Kucharski, M. Bacmaga, and M. Tomkiel|Response of Microorganisms and Enzymes to Soil Contamination with a Mixture of Terbuthylazine, Mesotrione, and S-Metolachlor|Environ. Sci. Pollut. Res.24(2): 1910-1925|2017|10.1007/s11356-016-7919-z
178165|T||Radivojevic,L., S. Gasic, M.S. Krsmanovic, D. Marisavljevic, L. Santric, D. Pavlovic, and J.G. Umiljendic|The Impact of Mesotrione on Several Microbiological Activity of Chernozem Soil|Commun. Agric. Appl. Biol. Sci.78(2): 161-167|2013|
178166|T||Wyszkowska,J., M. Tomkiel, M. Bacmaga, A. Borowik, and J. Kucharski|Response of Microorganisms and Enzymes to Soil Contamination with a Mixture of Pethoxamid Terbuthylazine|Environ. Earth Sci.75(18): 12 p.|2016|10.1007/s12665-016-6092-5
178167|T||Huang,S.C., M.U. Rehman, Y.F. Lan, G. Qiu, H. Zhang, M.K. Iqbal, H.Q. Luo, K. Mehmood, L.H. Zhang, and J.K. Li|Tibial Dyschondroplasia is Highly Associated with Suppression of Tibial Angiogenesis Through Regulating the HIF-1a/VEGF/VEGFR Signaling Pathway in Chickens|Sci. Rep.:15 p.|2017|
178168|A||Cheng,C., L. Huang, J. Diao, and Z. Zhou|Enantioselective Toxic Effects and Degradation of Myclobutanil Enantiomers in Scenedesmus obliquus|Chirality25(12): 858-864|2013|10.1002/chir.22226
178169|AT||El-Sayed,N.N.E., M.A. Abdelaziz, W.W. Wardakhan, and R.M. Mohareb|The Knoevenagel Reaction of Cyanoacetylhydrazine with Pregnenolone: Synthesis of Thiophene, Thieno(2,3-d)Pyrimidine, 1,2,4-Triazole, Pyran and Pyridine Derivatives with Anti-Inflammatory and Anti-Ulcer Activities|Steroids107:98-111|2016|10.1016/j.steroids.2015.12.023
178170|A||Cao,F., C.L. Souders, P. Li, O. Adamovsky, S. Pang, L. Qiu, and C.J. Martyniuk|Developmental Toxicity of the Fungicide Ziram in Zebrafish (Danio rerio)|Chemosphere214:303-313|2019|10.1016/j.chemosphere.2018.09.105
178171|T||Elliott,M.L.|Effect of Systemic Fungicides on a Bermudagrass Putting Green Infested with Gaeumannomyces graminis var. graminis|Plant Dis.79(9): 945-949|1995|10.1094/PD-79-0945
178172|T||Singh,K., M.P. Tandon, and D.N. Shukla|Effect of Different Fungicides on Seed Mycoflora, Seed Germination and Survival of Seedlings of Some Vegetable and Fruit Seeds. |Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.64 (B)(3): 325-329|1994|
178173|T||Barnett,J.P.|Oleoresin Capsicum has Potential as a Rodent Repellent in Direct Seeding Longleaf Pine|In: T.A.Waldrop (Ed.), Proceedings of the Ninth Biennial Southern Silvicultural Research Conference, Clemson, SC:326-328|1998|
178174|T||Lugo,M.L., and A. Acosta|Performance of Paraquat and Sethoxydim in Arracacha|J. Agric. Univ. P. R.85(1/2): 63-68|2001|10.46429/jaupr.v85i1-2.3156
178175|T||Srivastava,S.N., R. Kapur, S. Bhatnagar, and S.K. Awasthi|Management of Seedling Diseases of Sugarbeet Through Fungicides and Bio-Agent|Sugar Technol.9(4): 312-317|2007|
178176|T||Guo,M.J., Y.G. Wang, S.Q. Dong, Y.Y. Wen, X.E. Song, and P.Y. Guo|Photochemical Changes and Oxidative Damage in Four Foxtail Millet Varieties Following Exposure to Sethoxydim|Photosynthetica (Praha)56(3): 820-831|2018|10.1007/s11099-017-0734-z
178177|T||Irigaray,F.J.S.C., and F.G. Zalom|Transovarial Biotransference of Etoxazole Through a Terrestrial Trophic Web|Pest Manag. Sci.68(11): 1467-1470|2012|10.1002/ps.3329
178178|T||Malhat,F., and A. Hassan|Level and Fate of Etoxazole in Green Bean (Phaseolus vulgaris)|Bull. Environ. Contam. Toxicol.87(2): 190-193|2011|10.1007/s00128-011-0336-6
178179|T||Milligan,A.L., R.H. Marrs, and P.D. Putwain|Control of Molinia caerulea (L) Moench in Upland Britain|Br. Crop Prot. Conf. Weeds1-3:679-680|1997|
178180|T||Reissig,W.H., and D. Combs|Evaluation of Miticides for Control of European Red Mite, 2005|Arthropod Manag. Tests31:2 p.|2006|
178181|T||De Ruiter,H., E. Meinen, and A.J.M. Uffing|Influence of Adjuvants on the Efficacy of Herbicides Applied to Plants Grown Indoors and Outdoors|BCPC Monogr. - Br. Crop Prot. Counc.59:245-250|1994|
178182|T||Walgenbach,J.F., and S.C. Schoof|European Red Mite Control on Apples, 2004|Arthropod Manag. Tests30(1): 2 p.|2005|
178183|T||Reissig,W.H., D. Combs, and C. Smith|Evaluation of Miticides for Control of European Red Mite, 2004|Arthropod Manag. Tests30(1): 2 p.|2005|
178184|T||Li,W., L. Zhang, N. Zhao, W. Guo, W. Liu, L. Li, and J. Wang|Multiple Resistance to ACCase and ALS-Inhibiting Herbicides in Beckmannia syzigachne (Steud.) Fernald Without Mutations in the Target Enzymes|Chil. J. Agric. Res.77(3): 257-265|2017|10.4067/S0718-58392017000300257
178185|T||Radova,S.|Effect of Selected Pesticides on the Vitality and Virulence of the Entomopathogenic Nematode Steinernema feltiae (Nematoda: Steinernematidae)|Plant Prot. Sci.46(2): 83-88|2010|10.17221/35/2009-PPS
178187|T||Holmes,G.J., and J.W. Eckert|Sensitivity of Penicillium digitatum and P. italicum to Postharvest Citrus Fungicides in California|Phytopathology89(9): 716-721|1999|10.1094/PHYTO.1999.89.9.716
178189|T||Gohet,E., T.V. Canh, M. Louanchi, and D. Despreaux|New Developments in Chemical Control of White Root Disease of Hevea brasiliensis in Africa|Crop Prot.10(3): 234-238|1991|10.1016/0261-2194(91)90049-W
178191|T||Han,W., Y. Wang, J. Gao, S. Wang, S. Zhao, J. Liu, Y. Zhong, and D. Zhao|Acute Toxicity and Sublethal Effects of Myclobutanil on Respiration, Flight and Detoxification Enzymes in Apis cerana cerana|Pestic. Biochem. Physiol.147:133-138|2018|10.1016/j.pestbp.2017.11.001
178192|T||Mitkowski,N.A., and A. Chaves|Impact of Demethylation Inhibitor (DMI) Fungicides on Clipping Yield and Rooting Depth of Creeping Bentgrass|Hortscience48(8): 1052-1055|2013|10.21273/HORTSCI.48.8.1052
178193|A||Zhu,B., L. Liu, Y.X. Gong, F. Ling, and G.X. Wang|Triazole-Induced Toxicity in Developing Rare Minnow (Gobiocypris rarus) Embryos|Environ. Sci. Pollut. Res.21:13625-13635|2014|10.1007/s11356-014-3317-6
178194|A||Li,Y., F. Dong, X. Liu, J. Xu, Y. Han, and Y. Zheng|Enantioselectivity in Tebuconazole and Myclobutanil Non-Target Toxicity and Degradation in Soils|Chemosphere122:145-153|2015|10.1016/j.chemosphere.2014.11.031
178195|T||Holmes,G.J., J.W. Eckert, and J.I. Pitt|Revised Description of Penicillium ulaiense and Its Role as a Pathogen of Citrus Fruits|Phytopathology84(7): 719-727|1994|10.1094/Phyto-84-719
178196|T||Wade,N.L., and S.C. Morris|Causes and Control of Cantaloupe Postharvest Wastage in Australia|Plant Dis.66(7): 549-552|1982|10.1094/PD-66-549
178197|T||Wang,X., Y. Li, G. Xu, H. Sun, J. Xu, X. Zheng, and F. Wang|Dissipation and Residues of Myclobutanil in Tobacco and Soil Under Field Conditions|Bull. Environ. Contam. Toxicol.88(5): 759-763|2012|10.1007/s00128-012-0596-9
178198|T||Sembratowicz,I., K. Ognik, J. Truchlinski, and B. Modzelewska-Banachiewicz|The Influence of 1,2,4-Triazole and 5-Oxo-1,2,4-Triazyne Derivatives on Some Blood and Performance Indices of Turkey Hens|J. Anim. Feed Sci.13(2): 39-42|2004|10.22358/jafs/70293/2004
178199|T||Mao,W., M.A. Schuler, and M.R. Berenbaum|Disruption of Quercetin Metabolism by Fungicide Affects Energy Production in Honey Bees (Apis mellifera)|Proc. Natl. Acad. Sci. U.S.A.114(10): 2538-2543|2017|10.1073/pnas.1614864114
178200|A||Salerno,J., C.J. Bennett, E. Holman, P.L. Gillis, P.K. Sibley, and R.S. Prosser|Sensitivity of Multiple Life Stages of 2 Freshwater Mussel Species (Unionidae) to Various Pesticides Detected in Ontario (Canada) Surface Waters|Environ. Toxicol. Chem.37(11): 2871-2880|2018|10.1002/etc.4248
178201|A||Huang,A.G., X. Tu, L. Liu, G.X. Wang, and F. Ling|The Oxidative Stress Response of Myclobutanil and Cyproconazole on Tetrahymena thermophila|Environ. Toxicol. Pharmacol.41:211-218|2016|10.1016/j.etap.2015.12.008
178202|T||Hull,L.A., and C. Myers|Mite Threshold Airblast Study, 2004 'Delicious', 'Golden Delicious', 'Yorking'|Arthropod Manag. Tests30:6 p.|2005|
178203|T||Carmona,M.A., M. Ferrazini, and D.E. Barreto|Tan Spot of Wheat Caused by Drechslera tritici-repentis : Detection, Transmission, and Control in Wheat Seed|Cereal Res. Commun.34(2/3): 1043-1049|2006|10.1556/CRC.34.2006.2-3.236
178204|T||Everts,K.L., D.S. Egel, D. Langston, and X.G. Zhou|Chemical Management of Fusarium Wilt of Watermelon|Crop Prot.66:114-119|2014|10.1016/j.cropro.2014.09.003
178205|T||Hysing,S.C., and L. Wiik|The Role of Seed Infection Level and Fungicide Seed Treatments in Control of Net Blotch in Barley|Eur. J. Plant Pathol.137(1): 169-180|2013|10.1007/s10658-013-0230-7
178206|T||Beal,S.J., P. Cavell, and T. Holt|Triticonazole Based Cereal Seed Treatments for the Control of Seed- and Soil-Borne Diseases|BCPC Monogr. - Br. Crop Prot. Counc.76:99-104|2001|
178207|T||Mentese,E., H. Bektas, B.B. Sokmen, M. Emirik, D. Cakir, and B. Kahveci|Synthesis and Molecular Docking Study of Some 5,6-Dichloro-2-cyclopropyl-1H-Benzimidazole Derivatives Bearing Triazole, Oxadiazole, and Imine Functionalities as Potent Inhibitors of Urease|Bioorg. Med. Chem.27(13): 3014-3018|2017|10.1016/j.bmcl.2017.05.019
178208|T||Biradar,D.P., W.L. Pedersen, and A.L. Rayburn|Nuclear DNA Analysis of Maize Seedlings Treated with the Triazole Fungicide, Triticonazole|Pestic. Sci.41(4): 291-295|1994|10.1002/ps.2780410402
178209|T||Hafez,Y.M., K.A.A. Abdelaal, M.E. Eid, and F.F. Mehiar|Morpho-Physiological and Biochemical Responses of Barley Plants (Hordeum vulgare L.) Against Barley Net Blotch Disease with Application of Non-Traditional Compounds and Fungicides|Egypt. J. Biol. Pest Control26(2): 261-268|2016|
178210|T||Querou,R., M. Euvrard, and C. Gauvrit|Uptake of Triticonazole, During Imbibition, by Wheat Caryopses After Seed Treatment|Pestic. Sci.49(3): 284-290|1997|10.1002/(SICI)1096-9063(199703)49:3<284::AID-PS530>3.0.CO;2-U
178211|T||Montfort,F., B.L. Klepper, and R.W. Smiley|Effects of Two Triazole Seed Treatments, Triticonazole and Triadimenol, on Growth and Development of Wheat|Pestic. Sci.46(4): 315-322|1996|10.1002/(SICI)1096-9063(199604)46:4<315::AID-PS369>3.0.CO;2-R
178212|T||Charnay,M.P., C. Verge, and E. Barriuso|Influence of Soil Type and Water Content on Release of Triticonazole from Coated Maize Seed|Pest Manag. Sci.56(3): 249-256|2000|10.1002/(SICI)1526-4998(200003)56:3<249::AID-PS135>3.0.CO;2-0
178213|T||Trotus,E., M. Naie, A.A. Buburuz, and P. Zaharia|Wheat Crops Protection Against Harmful Organisms Using Chemical Treatment of Seed|Cercet. Agron. Moldova44(4): 19-26|2011|
178214|T||Radwan,M.A., and S.R. El-Zemity|Synthesis and Molluscicidal Structure-Activity Relationships of Some Novel 1,2,4-Triazole N-Methyl Carbamates|Pest Manag. Sci.57(8): 707-712|2001|10.1002/ps.344
178215|T||Cohen,E., and Y. Shalom|Fenpropimorph: A Promising Fungicide for Postharvest Diseases in Citrus Fruits|Phytoparasitica18(1): 17-26|1990|10.1007/BF02980823
178216|T||Bottoms,R.M., and T.D. Whitson|A Systems Approach for the Control of Russian Knapweed|Br. Crop Prot. Conf. Weeds1-3:699-704|1997|
178217|A||Hermsen,S.A.B., T.E. Pronk, E.J. Van Den Brandhof, L.T.M. Van der Ven, and A.H. Piersma|Triazole-Induced Gene Expression Changes in the Zebrafish Embryo|Reprod. Toxicol.34(2): 216-224|2012|10.1016/j.reprotox.2012.05.093
178218|T||Tappeiner,J.C., R.J. Pabst, and M. Cloughesy|Stem Treatments to Control Tanoak Sprouting|West. J. Appl. For.2(2): 41-45|1987|10.1093/wjaf/2.2.41
178219|T||Whitford,K.R., G.L. Stoneman, I.A. Freeman, M.J. Reynolds, and T.C. Birmingham|Mortality of Eucalyptus marginata (Jarrah) and E. calophylla (Marri) Trees Following Stem Injection: Effects of Herbicide, Dose, Season, and Spacing of Injections|Aust.For.58(4): 172-178|1995|10.1080/00049158.1995.10674662
178220|A||Gan,Q., W. Zhou, S. Wang, X. Li, Z. Xie, J. Wang, J. Jiang, and Y. Lu|A Customized Contamination Controlling Approach for Culturing Oleaginous Nannochloropsis oceanica|Algal Res.27:376-382|2017|10.1016/j.algal.2017.07.013
178221|T||Rinella,M.J., S.E. Bellows, and A.D. Roth|Aminopyralid Constrains Seed Production of the Invasive Annual Grasses Medusahead and Ventenata|Rangeland Ecol. Manag.67(4): 406-411|2014|10.2111/REM-D-13-00138.1
178222|A||Uner,N., E. Oruc, and Y. Sevgiler|Neurotoxicity Evaluation of the Organofluorine Pesticide Etoxazole in the Brain of Oreochromis niloticus|Drug Chem. Toxicol.29(2): 157-165|2006|10.1080/01480540600561403
178223|T||Finnis,J.M., and J.D. Sund|Planting of Douglas-Fir Seedlings Following Aerial Application of Tordon 101 Mixture Herbicide|Down Earth26(1): 10-11|1970|
178224|T||Sterrett,J.P.|Injection of Red Maple and Hickory with Picloram, 2,4-D and 2,4,5-T|Down Earth25(2): 18-21|1969|
178225|T||Geyer,W.A., and M.W. Melichar|Chainsaw Girdling for Tree Control with Garlon and Tordon Herbicides|Down Earth37(3): 24-27|1981|
178226|T||Holt,H.A., and H.A. Nation|Pine Response to Chemical Site Preparation with Tordon 101 Mixture Herbicide|Ind. Veg. Manage.6(2): 15-20|1974|
178227|T||Teague,W.R., and D.M. Killilea|The Application of Various Picloram Formulations to Cut Stumps of Brachystegia spiciformis Benth., Julbernardia globiflora (Benth.) Troupin, Terminalia sericea Burch. Ex DC. and Acacia karroo Hayne Trees|J. Grassl. Soc. South. Afr. 7(2): 125-132|1990|10.1080/02566702.1990.9648218
178228|T||Teague,W.R., and D.M. Killilea|The Effect of Ringbarking Brachystegia spiciformis Benth., Julbernardia globiflora (Benth.) Troupin and Terminalia sericea Burch. Ex DC. Trees at Different Heights with or Without the Addition of a Picloram/2,4-D Mixtur|J. Grassl. Soc. South. Afr. 7(3): 157-165|1990|10.1080/02566702.1990.9648225
178229|T||Teague,W.R., and D.M. Killilea|The Application of Various Chemicals to Cuts Made in the Stem Bases of Brachystegia spiciformis Benth., Julbernardia globiflora (Benth.) Troupin and Terminalia sericea Burch. Ex DC.|J. Grassl. Soc. South. Afr. 7(2): 116-124|1990|10.1080/02566702.1990.9648217
178230|T||Van Rensburg,E., and L. Morgan|Picloram Herbicide for Bush Control on Powerline Servitude|Appl. Plant Sci.10(1): 35-36|1996|
178231|T||Byrd,B.C., and J. Foster|Pine Growth Twelve Years Following Site Preparation with Picloram Plus 2,4-D|Proc. South. Weed Sci. Soc.35:200-209|1982|
178232|T||Yeiser,J.L.|Triclopyr and Picloram Mixtures for Tree Injection|Proc. South. Weed Sci. Soc.45:250-254|1992|
178233|T||Peevy,F.A.|Application Date and Dosage Influence Kill of Hardwoods by Soil Application of Bromacil, Fenuron, and Picloram|Proc. South. Weed Sci. Soc.24:271-273|1971|
178234|T||Barry,T., and J.L. Yeiser|Screening of Triclopyr and Picloram Granules for Woody Plant Control|Proc. South. Weed Sci. Soc.44:240-243|1991|
178235|A||Qian,L., S. Qi, F. Cao, J. Zhang, C. Li, M. Song, and C. Wang|Effects of Penthiopyrad on the Development and Behaviour of Zebrafish in Early-Life Stages|Chemosphere214:184-194|2019|10.1016/j.chemosphere.2018.09.117
178236|A||Xu,C., W. Tu, M. Deng, Y. Jin, B. Lu, C. Zhang, C. Lin, Y. Wu, and W. Liu|Stereoselective Induction of Developmental Toxicity and Immunotoxicity by Acetochlor in the Early Life Stage of Zebrafish|Chemosphere164:618-626|2016|10.1016/j.chemosphere.2016.09.004
178237|A||He,H., G. Chen, J. Yu, J. He, X. Huang, S. Li, Q. Guo, T. Yu, and H. Li|Individual and Joint Toxicity of Three Chloroacetanilide Herbicides to Freshwater Cladoceran Daphnia carinata|Bull. Environ. Contam. Toxicol.90(3): 344-350|2013|10.1007/s00128-012-0898-y
178238|T||Zhang,J., W. Liang, X. Wu, S. Jiang, and Q. Li|Toxic Effects of Acetochlor on Mortality, Reproduction and Growth of Caenorhabditis elegans and Pristionchus pacificus|Bull. Environ. Contam. Toxicol.90(3): 364-368|2013|10.1007/s00128-012-0915-1
178239|T||Bovey,R.W., H.L. Morton, J.R. Baur, J.D. Diaz-Colon, and S.K. Lehman|Granular Herbicides for Woody Plant Control|Prog. Rep. Texas Agric. Exp. Stn.2806:22-26|1970|
178240|T||Beger,H.W.|Treatment of Bloodwood (Eucalyptus dichromophloia) with Picloram/2,4-D and the Penetrant Dimethyl Sulphoxide|Qld. J. Agric. Anim. Sci.27(1): 17-20|1970|
178241|T||Knowe,S.A., B.D. Shiver, and W.N. Kline|Fourth-Year Response of Loblolly Pine Following Chemical and Mechanical Site Preparation in the Georgia Piedmont|South. J. Appl. For.16(2): 99-105|1992|10.1093/sjaf/16.2.99
178242|T||Gous,S., P. Raal, M.O. Kimberley, and M.S. Watt|Chemical Control of Isolated Invasive Conifers Using a Novel Aerial Spot Application Method|Weed Res. (Multiple Languages)55(4): 380-386|2015|10.1111/wre.12147
178243|T||Ralphs,M.H., M.C. Williams, and D.L. Turner|Herbicidal Control of Velvet Lupine (Lupinus leucophyllus)|Weed Technol.1(3): 212-216|1987|10.1017/S0890037X00029559
178244|T||Martin,S.C., and H.L. Morton|Responses of Falsemesquite, Native Grasses and Forbs, and Lehmann Lovegrass After Spraying with Picloram|J. Range Manag.33(2): 104-106|1980|10.2307/3898420
178245|T||Ralphs,M.H.|Long Term Change in Vegetation Following Herbicide Control of Larkspur|J. Range Manag.48(5): 459-464|1995|10.2307/4002253
178246|T||Lym,R.G., and C.G. Messersmith|Absinth Wormwood Control with Clopyralid and Picloram|Res. Prog. Rep. West. Soc. Weed Sci.:8-|1986|
178247|T||Scheffer,J.J.C., J.A. Douglas, and C.M. Triggs|Evaluation of Some Pre- and Post-Emergence Herbicides for Weed Control in Yacon|Proc. N. Z. Plant Prot. Conf.55:228-234|2002|10.30843/nzpp.2002.55.3895
178248|T||Lym,R.G.|Integration of Biological Control Agents with Other Weed Management Technologies: Successes from the Leafy Spurge (Euphorbia esula) IPM Program|Biol. Control35(3): 366-375|2005|10.1016/j.biocontrol.2005.05.009
178249|T||Sullivan,J.J., J. Mather, and W. Stahel|Control of Wild Kiwifruit (Actinidia Species) in Bay of Plenty, New Zealand|Acta Hortic.753:583-590|2007|10.17660/ActaHortic.2007.753.77
178250|T||Jablonkai,I., A. Hulesch, and I.C. Barta|Factors Affecting the Phytotoxicity of the Herbicide Acetochlor to Monocotyledonous and Dicotyledonous Weeds|Pestic. Sci.49(4): 395-397|1997|10.1002/(SICI)1096-9063(199704)49:4<395::AID-PS476>3.0.CO;2-2
178251|T||Cohen,R., B. Blaier, A.A. Schaffer, and J. Katan|Effect of Acetochlor Treatment on Fusarium Wilt and Sugar Content in Melon Seedlings|Eur. J. Plant Pathol.102(1): 45-50|1996|10.1007/BF01877114
178252|T||Anesio,A.H.C., M.V. Santos, R.R. Silveira, E.A. Ferreira, J.B. Dos Santos, and L.D.D. Silva|Persistence of Auxinic Herbicides Applied on Pasture and Toxicity for Succeeding Crops|An. Acad. Bras. Cienc.90(2): 1717-1732|2018|10.1590/0001-3765201820170134
178253|T||Balasubramanya,S., L. Rajanna, and M. Anuradha|Effect of Plant Growth Regulators on Morphogenesis and Forskolin Production in Plectranthus barbatus Andrews|In Vitro Cell. Dev. Biol.48(2): 208-215|2012|10.1007/s11627-011-9417-9
178254|T||Gous,S., P. Raal, and M.S. Watt|The Evaluation of Aerially Applied Triclopyr Mixtures for the Control of Dense Infestations of Wilding Pinus contorta in New Zealand|N. Z. J. For. Sci.45:4 p.|2015|10.1186/s40490-014-0031-6
178255|T||Balneaves,J.M., and N.A. Davenhill|Triclopyr - The Forest Managers' Alternative to 2,4,5-T?|N. Z. J. For. Sci.20(3): 295-306|1990|
178256|T||Gous,S., P. Raal, and M.S. Watt|Aerial Spot Treatment Using an Oil Carrier to Apply Ester Based Herbicides for Control of Pinus contorta and P. nigra in New Zealand|N. Z. J. For. Sci.44:6 p.|2014|
178257|T||Scifres,C.J., G.P. Durham, and J.L. Mutz|Range Forage Production and Consumption Following Aerial Spraying of Mixed Brush|Weed Sci.25(1): 48-54|1977|10.1017/S0043174500032902
178258|T||Johnsen,T.N.,Jr.|Conditions Influencing Turbinella Oak (Quercus turbinella) Mortality from Picloram or Picloram and 2,4-D|Weed Sci.36(6): 810-817|1988|10.1017/S0043174500075883
178260|T||Crone,E.E., M. Marler, and D.E. Pearson|Non-Target Effects of Broadleaf Herbicide on a Native Perennial Forb: A Demographic Framework for Assessing and Minimizing Impacts|J. Appl. Ecol.46(3): 673-682|2009|10.1111/j.1365-2664.2009.01635.x
178262|T||Murray,R.B., H.F. Mayland, and G.E. Shewmaker|Response of Montane Tall-Forb Communities to 2,4-D and Mixtures of 2,4-D and Picloram|J. Range Manag.44(4): 311-318|1991|10.2307/4002389
178263|T||Garcia-Holquin,M., R.W. Bovey, and J.L. Schuster|Control of Woody Plants in Grazing Lands on the Pacific Coast of Mexico|J. Range Manag.44(5): 508-512|1991|10.2307/4002754
178264|T||Bowes,G.|Control of Aspen Poplar, Balsam Poplar, and Prickly Rose by Picloram Alone and in Mixtures with 2,4-D|J. Range Manag.29(2): 148-150|1976|10.2307/3897415
178265|T||Van Epps,G.A.|Control of Gambel Oak with Three Herbicides|J. Range Manag.27(4): 297-301|1974|10.2307/3896828
178266|T||McDaniel,K.C., J.H. Brock, and R.H. Haas|Changes in Vegetation and Grazing Capacity Following Honey Mesquite Control|J. Range Manag.35(5): 551-557|1982|10.2307/3898636
178267|T||Scifres,C.J.|Sand Shinnery Oak Response to Dicamba Granules and Picloram Pellets|J. Range Manag.25(2): 155-156|1972|10.2307/3896809
178268|T||Hall,J.C., S.M.M. Alam, and D.P. Murr|Ethylene Biosynthesis Following Foliar Application of Picloram to Biotypes of Wild Mustard (Sinapis arvensis L.) Susceptible or Resistant to Auxinic Herbicides|Pestic. Biochem. Physiol.47(1): 36-43|1993|10.1006/pest.1993.1060
178269|T||Luczkiewicz,M., A. Kokotkiewicz, and D. Glod|Plant Growth Regulators Affect Biosynthesis and Accumulation Profile of Isoflavone Phytoestrogens in High-Productive In Vitro Cultures of Genista tinctoria|Plant Cell Tissue Organ Cult.118(3): 419-429|2014|10.1007/s11240-014-0494-4
178272|T||Mccaffery,K.R., L.D. Martoglio, and F.L. Johnson|Maintaining Wildlife Openings with Picloram Pellets|Wildl. Soc. Bull.2(2): 40-45|1974|
178273|T||Melichar,M.W., A.B. Hall, and R.J. Hendler|Low-Volume Basal Application - a New Selective Technique for Woody Plant Control|Down Earth43(3): 6-9|1987|
178274|T||Chang,I.K., and C.L. Foy|Effects of Picloram on the Synthesis of Soluble Plant Proteins as Determined by Gel Electrophoresis|Pestic. Biochem. Physiol.2(4): 397-407|1973|10.1016/0048-3575(73)90052-7
178275|T||Haywood,J.D., and A.E. Tiarks|Eleventh-Year Results of Fertilization, Herbaceous, and Woody Plant Control in a Loblolly Pine Plantation|South. J. Appl. For.14(4): 173-177|1990|10.1093/sjaf/14.4.173
178276|T||Hix,D.M., C.A. McNeel, and E.C. Townsend|Treatments for Enhancing Early Survival and Growth of Northern Red Oak Seedlings|Tree Plant. Notes45(4): 137-141|1994|
178277|T||Britt,J.R., B.R. Zutter, R.J. Mitchell, D.H. Gjerstad, and J.F. Dickson|Influence of Herbaceous Interference on Growth and Biomass Partitioning in Planted Loblolly Pine (Pinus taeda)|Weed Sci.38(6): 497-503|1990|10.1017/S0043174500051377
178278|T||Mohassel,M.H.R., A. Aliverdi, and S. Rahimi|Optimizing Dosage of Sethoxydim and Fenoxaprop-P-Ethyl with Adjuvants to Control Wild Oat|Ind. Crops Prod.34(3): 1583-1587|2011|10.1016/j.indcrop.2011.05.023
178279|T||Beckie,H.J., L.M. Hall, S. Meers, J.J. Laslo, and F.C. Stevenson|Management Practices Influencing Herbicide Resistance in Wild Oat|Weed Technol.18(3): 853-859|2004|10.1614/WT-03-124R
178281|T||Walsh,M.J., K. Stratford, K. Stone, and S.B. Powles|Synergistic Effects of Atrazine and Mesotrione on Susceptible and Resistant Wild Radish (Raphanus raphanistrum) Populations and the Potential for Overcoming Resistance to Triazine Herbicides|Weed Technol.26(2): 341-347|2012|10.1614/WT-D-11-00132.1
178282|T||Soltani,N., C. Shropshire, and P.H. Sikkema|Control of Wild Carrot (Daucus carota L.) in Corn, Soybean, and Winter Wheat|Can. J. Plant Sci.98(2): 425-431|2018|
178283|T||Harker,K.N., R.E. Blackshaw, and G.W. Clayton|Wild Oat (Avena fatua) vs. Redstem Filaree (Erodium cicutarium) Interference in Dry Pea|Weed Technol.21(1): 235-240|2007|10.1614/WT-06-093.1
178284|T||Bell,G.A., C.A. Formstone, J.H.N. Hammond, and R.H. Sohm|The Development and Herbicidal Activity of Adjuvant-Containing Water-Dispersible Granule Formulations of Fluazifop-P-Butyl|Pestic. Sci.54(4): 401-407|1998|10.1002/(SICI)1096-9063(199812)54:4<401::AID-PS826>3.0.CO;2-T
178285|T||Smith,A.M., and W.H. Vanden Born|Ammonium Sulfate Increases Efficacy of Sethoxydim Through Increased Absorption and Translocation|Weed Sci.40(3): 351-358|1992|10.1017/S0043174500051730
178286|T||Smith,A.M., and W.H. Vanden Born|A Chlorophyll Assay to Assess Sethoxydim Activity in Two Grass Species|Weed Technol.5(2): 355-362|1991|10.1017/S0890037X00028232
178287|T||Blackshaw,R.E.|Agronomic Merits of Cereal Cover Crops in Dry Bean Production Systems in Western Canada|Crop Prot.27(2): 208-214|2008|10.1016/j.cropro.2007.05.006
178288|A||Raby,M., X. Zhao, C. Hao, D.G. Poirier, and P.K. Sibley|Chronic Toxicity of 6 Neonicotinoid Insecticides to Chironomus dilutus and Neocloeon triangulifer|Environ. Toxicol. Chem.37(10): 2727-2739|2018|10.1002/etc.4234
178289|T||Kawana,T., K. Segi, H. Inaba, and K. Kikkawa|Field Evaluation of Sethoxydim as a Postemergence Herbicide for Gramineous Weeds|J. Pestic. Sci. (Multiple Languages)10(2): 195-203|1985|10.1584/jpestics.10.195
178290|A||Raby,M., M. Nowierski, D. Perlov, X. Zhao, C. Hao, D.G. Poirier, and P.K. Sibley|Acute Toxicity of 6 Neonicotinoid Insecticides to Freshwater Invertebrates|Environ. Toxicol. Chem.37(5): 1430-1445|2018|10.1002/etc.4088
178291|T||Rokich,D.P., J. Harma, S.R. Turner, R.J. Sadler, and B.H. Tan|Fluazifop-P-Butyl Herbicide: Implications for Germination, Emergence and Growth of Australian Plant Species|Biol. Conserv.142(4): 850-869|2009|10.1016/j.biocon.2008.12.013
178292|T||Bleckman,C.A., H.M. Hull, and H.L. Morton|Ultrastructural Effects of Formulated Picloram on Leaflets of Velvet Mesquite and Catclaw Acacia|Weed Res. (Multiple Languages)19(4): 225-230|1979|10.1111/j.1365-3180.1979.tb01531.x
178293|T||Catanzaro,C.J., W.A. Skroch, and J.D. Burton|Resistance of Selected Ornamental Grasses to Graminicides|Weed Technol.7(2): 326-330|1993|10.1017/S0890037X00027676
178294|T||Wang,X., G. Xu, F. Wang, H. Sun, and Y. Li|Iprodione Residues and Dissipation Rates in Tobacco Leaves and Soil|Bull. Environ. Contam. Toxicol.89(4): 877-881|2012|10.1007/s00128-012-0783-8
178295|A||Murray,D., B. Jefferson, P. Jarvis, and S.A. Parsons|Inhibition of Three Algae Species Using Chemicals Released from Barley Straw|Environ. Technol.31(4): 455-466|2010|10.1080/09593331003663294
178296|T||Beres,I., J. Ivancsics, and J. Nyeki|Herbicide Sensitivity of Pear Understocks|Acta Hortic.475:189-191|1998|10.17660/ActaHortic.1998.475.23
178297|T||Studt,D.M., R.S. Fawcett, and J.E. Nelson|Eastern Black Nightshade Control in Soybeans|Proc. North Cent. Weed Control Conf.36:92-94|1981|
178298|T||Frantzios,G., K. Paptsiki, B. Sidiropoulou, I. Lazaridis, G. Theophilidis, and P. Mavragani-Tsipidou|Evaluation of Insecticidal and Genotoxic Effects of Imidacloprid and Acetochlor in Drosophila melanogaster|J. Appl. Entomol.132(7): 583-590|2008|10.1111/j.1439-0418.2008.01269.x
178299|A||Bowman,J., and R.E. Howell|Acute Toxicity of Poast Herbicide (BAS 9052 06 H) to Rainbow Trout (Oncorhynchus mykiss)|BASF Corporation, Document 90/5136:30 p.|1991|
178300|A||Bowman,J., and R.E. Howell|Acute Toxicity of Poast Herbicide (BAS 9052 06 H) to Bluegill  (Lepomis macrochirus)|BASF Corporation, Document 90/5135:30 p.|1991|
178301|T||Peacock,C.H., and M.S. Flanagan|Effects of Plant Growth Regulators on Bahiagrass|Turfgrass Research in Florida Technical Report, University of Florida, Gainesville, FL1986:41-45|1986|
178303|T||Langer,E.R.|Chemical Control of Wilding Conifer Seedlings in New Zealand|Plant Prot. Q.7(3): 135-139|1992|
178304|T||Beneke,T.W., and W.W. Schwippert|The Effects of Several Biocides on a Simple Muscle Preparation of the Ecologically Relevant Soil-Organism Lumbricus terrestris L.|Comp. Biochem. Physiol. C Comp. Pharmacol.89C(2): 133-139|1988|10.1016/0742-8413(88)90199-5
178305|T||Feyaerts,H., and J. Coosemans|Influence of the Thiocarbamate Herbicide Cycloate on the Attraction of Beet Cyst Nematodes (Heterodera schachtii Schmidt) by Their Host Plants|Meded. Fac. Landbouwwet. Rijksuniv. Gent57(3a): 839-846|1992|
178306|T||Foucart,G., B. Galmart, P. Deltenre, and J.F. Ledent|Persistence Effects on Maize of Sugar Beet Herbicides and Effect of Treatments Against Black Nightshade|Meded. Fac. Landbouwwet. Rijksuniv. Gent53(3b): 1329-1334|1988|
178307|T||Duray,S.A., and F.T.,Jr. Davies|Field Evaluation of Preemergence Herbicides for Weed Control in Container Grown Woody Landscape Plants|J. Environ. Hortic.7(4): 140-142|1989|10.24266/0738-2898-7.4.140
178308|T||Matolcsy,G., A. Tombor, and A. Gimesi|Dithiocarbamate Derivatives as Herbicide Safeners|Z. Naturforsch. Sect. C J. Biosci.46(9/10): 815-818|1991|10.1515/znc-1991-9-1016
178309|T||Xiao,N.W., X.H. Liu, W. Li, and F. Ge|Effect of Herbicide Acetochlor on Cytochrome P450 Monooxygenases and GST of Earthworms Eisenia fetida|J. Environ. Sci.18(1): 135-140|2006|
178310|T||Mathers,H.M., and L.T. Case|Microencapsulated Herbicide-Treated Bark Mulches for Nursery Container Weed Control|Weed Technol.24:529-537|2010|10.1614/WT-09-048.1
178311|A||Roubeix,V., V. Fauvelle, J. Tison-Rosebery, N. Mazzella, M. Coste, and F. Delmas|Assessing the Impact of Chloroacetanilide Herbicides and Their Metabolites on Periphyton in the Leyre River (SW France) via Short Term Growth Inhibition Tests on Autochthonous Diatoms|J. Environ. Monit.14(6): 1655-1663|2012|10.1039/c2em10887a
178312|T||Ervin,E.H., X. Zhang, S.D. Askew, and J.M.,Jr. Goatley|Trinexapac-Ethyl, Propiconazole, Iron, and Biostimulant Effects on Shaded Creeping Bentgrass|HortTechnology14(4): 500-506|2004|10.21273/HORTTECH.14.4.0500
178313|A||Heidari,F., H. Riahi, M.R. Aghamiri, F. Zakeri, Z. Shariatmadari, and T. Hauer|226Ra, 238U and Cd Adsorption Kinetics and Binding Capacity of Two Cyanobacterial Strains Isolated from Highly Radioactive Springs and Optimal Conditions for Maximal Removal Effects in Contaminated Water|Int. J. Phytoremediat.20(4): 369-377|2018|10.1080/15226514.2017.1393392
178314|T||Kasianenko,A.A., G.A. Kulieva, A.N. Ratnikov, T.L. Jigareva, and V.A. Kalchenko|"The Migration of U-238 in the System ""Soil-Plant"" and Its Effect on Plant Growth"|Int. Congr. Ser.1276:223-224|2005|10.1016/j.ics.2004.12.006
178315|T||Moitra,P.K., K. Paul, C.R. Maity, and S.K. Ghosal|Teratogenic Effect of Uranyl Acetate on Developing Chick Embryos|Indian J. Physiol. Allied Sci.51(2): 65-71|1997|
178317|A||Liber,K., S. De Rosemond, and K. Budnick|Uranium Toxicity to Regionally-Representative Algae and Invertebrate Species|Final Report, AREVA Resources Inc. and Cameco Corporation, Saskatoon, SK:62 p.|2007|
178318|A||Trapp,K.E.|Acute Toxicity of Uranium to Waterfleas (Daphnia pulex) and Bluegill (Lepomis macrochirus)|ECS-SR-30, Environmental and Chemical Sciences, Aiken, S.C.:44 p.|1986|
178322|T||Gunasekera,L., and J. Bonila|Alligator Weed: Tasty Vegetable in Australian Backyards?|J. Aquat. Plant Manag.39(1): 17-20|2001|
178323|A||Hofstra,D.E., P.D. Champion, and T.M. Dugdale|Herbicide Trials for the Control of Parrotsfeather|J. Aquat. Plant Manag.44:13-18|2006|
178324|T||Thomas,J.W., G.R. Armel, M.D. Best, J.T. Brosnan, W.E. Klingeman, D.A. Kopsell, H.E. Bostic, J.J. Vargas, and C. Do-Tha|Herbicidal Activity of Heterocyclic Dichlobenil Analogues|J. Pestic. Sci. (Multiple Languages)38(4): 220-222|2013|10.1584/jpestics.D12-081
178325|A||Langeland,K.A., and G.L. Pesacreta|Management Program for Hydrilla (a Monoecious Strain) in North Carolina|North Carolina Water Resource Institute, UNC-WRRI-86-225, Raleigh, NC:26 p.|1986|
178326|T||Guerriero,G., L. Silvestrini, M. Obersriebnig, M. Salerno, D. Pum, and J. Strauss|Sensitivity of Aspergillus nidulans to the Cellulose Synthase Inhibitor Dichlobenil: Insights from Wall-Related Genes' Expression and Ultrastructural Hyphal Morphologies|PLoS One8(11): 12 p.|2013|10.1371/journal.pone.0080038
178327|T||Wang,X., Y. Jing, B. Zhang, Y. Zhou, and R. Lin|Glycosyltransferase-Like Protein ABI8/ELD1/KOB1 Promotes Arabidopsis Hypocotyl Elongation Through Regulating Cellulose Biosynthesis|Plant Cell Environ.38(3): 411-422|2015|10.1111/pce.12395
178328|T||Vaughn,K.C., and R.B. Turley|Ultrastructural Effects of Cellulose Biosynthesis Inhibitor Herbicides on Developing Cotton Fibers|Protoplasma (Multiple Languages)216(1/2): 80-93|2001|10.1007/BF02680135
178330|T||Elshahawy,I.E., N.M. Saied, and A.A. Morsy|Fusarium proliferatum, the Main Cause of Clove Rot During Storage, Reduces Clove Germination and Causes Wilt of Established Garlic Plants|J. Plant Pathol.99(1): 85-93|2017|
178331|A||Hosoya,N., K. Motomura, E. Tagawa, M. Nagano, C. Ogiwara, and H. Hosoya|Effects of the Fungicide Ortho-Phenylphenol (OPP) on the Early Development of Sea Urchin Eggs|Mar. Environ. Res.143:24-29|2019|10.1016/j.marenvres.2018.10.018
178332|T||Garcia-Angulo,P., A. Alonso-Simon, A. Encina, J.M. Alvarez, and J.L. Acebes|Cellulose Biosynthesis Inhibitors: Comparative Effect on Bean Cell Cultures|Int. J. Mol. Sci.13(3): 3685-3702|2012|10.3390/ijms13033685
178333|T||Shedletzky,E., M. Shmuel, D.P. Delmer, and D.T.A. Lamport|Adaptation and Growth of Tomato Cells on the Herbicide 2,6-Dichlorobenzonitrile Leads to Production of Unique Cell Walls Virtually Lacking a Cellulose-Xyloglucan Network|Plant Physiol.94(3): 980-987|1990|10.1104/pp.94.3.980
178334|T||Rajangam,A.S., M. Kumar, H. Aspeborg, G. Guerriero, L. Arvestad, P. Pansri, C.J.L. Brown, S. Hober, K. Blomqvist, C. Di|Map20, a Microtubule-Associated Protein in the Secondary Cell Walls of Hybrid Aspen, is a Target of the Cellulose Synthesis Inhibitor 2,6-Dichlorobenzonitrile|Plant Physiol.148(3): 1283-1294|2008|10.1104/pp.108.121913
178335|T||Herz,M.J., C.E. Spooner, and A. Cherkin|EEG and Multiple Unit Responses to the Amnesic Agent Flurothyl in Chicks|Proc. West. Pharmacol. Soc.12:62-64|1969|
178336|A||Martin,J., F. Hidalgo, M.T. Garcia-Corcoles, A.J. Ibanez-Yuste, E. Alonso, J.L. Vilchez, and A. Zafra-Gomez|Bioaccumulation of Perfluoroalkyl Substances in Marine Echinoderms: Results of Laboratory-Scale Experiments with Holothuria tubulosa Gmelin, 1791|Chemosphere215:261-271|2019|10.1016/j.chemosphere.2018.10.037
178337|A||Wu,Y., M. Deng, Y. Jin, X. Mu, X. He, N.T. Luu, C. Yang, and W. Tu|Uptake and Elimination of Emerging Polyfluoroalkyl Substance F-53B in Zebrafish Larvae: Response of Oxidative Stress Biomarkers|Chemosphere215:182-188|2019|10.1016/j.chemosphere.2018.10.025
178338|A||Kovacevic,V., A.J. Simpson, and M.J. Simpson|The Concentration of Dissolved Organic Matter Impacts the Metabolic Response in Daphnia magna Exposed to 17a-Ethynylestradiol and Perfluorooctane Sulfonate|Ecotoxicol. Environ. Saf.170:468-478|2019|10.1016/j.ecoenv.2018.12.008
178339|A||Wu,Y., M. Deng, Y. Jin, X. Liu, Z. Mai, H. You, X. Mu, X. He, R. Alharthi, D.J. Kostyniuk, C. Yang, and W. Tu|Toxicokinetics and Toxic Effects of a Chinese PFOS Alternative F-53B in Adult Zebrafish|Ecotoxicol. Environ. Saf.171:460-466|2019|10.1016/j.ecoenv.2019.01.010
178340|A||Zhang,J., B. Wang, B. Zhao, Y. Li, X. Zhao, and Z. Yuan|Blueberry Anthocyanin Alleviate Perfluorooctanoic Acid-Induced Toxicity in Planarian (Dugesia japonica) by Regulating Oxidative Stress Biomarkers, ATP Contents, DNA Methylation and mRNA Expression|Environ. Pollut.245:957-964|2019|10.1016/j.envpol.2018.11.094
178341|T||Carvalho,A.S., R.F.S. Menna-Barreto, N.C. Romeiro, S.L. De Castro, and N. Boechat|Design, Synthesis and Activity Against Trypanosoma cruzi of Azaheterocyclic Analogs of Megazol|Med. Chem.3(5): 460-465|2007|10.2174/157340607781745519
178342|T||Kaul,J.L., and R.L. Munjal|Fruit Wrappers and Skin Coatings for Control of Post-Harvest Decay of Apple|Indian J. Mycol. Plant Pathol.12(2): 179-184|1982|
178343|T||Burger,D.W., and R.M. Davis|New Fungicides for the Postharvest Control of Stem-End-Rot in Texas Grapefruit|Hortscience17(6): 976-977|1982|10.21273/HORTSCI.17.6.976
178344|T||Gutter,Y.|Comparative Effectiveness of Sonax, Thiabendazole and Sodium Orthophenylphenate in Controlling Green Mould of Citrus Fruits|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)89(6): 332-336|1982|
178345|T||Burger,D.W., and R.M. Davis|Effect of Film Wrapping on Postharvest Decay Incidence of Texas Grapefruit|J. Rio Grande Val. Hortic. Soc.39(0): 23-30|1986|
178346|A||Davoren,M., and A.M. Fogarty|In Vitro Cytotoxicity Assessment of the Biocidal Agents Sodium O-Phenylphenol, Sodium O-Benzyl-P-Chlorophenol, and Sodium P-Tertiary Amylphenol Using Established Fish Cell Lines|Toxicol. In Vitro20(7): 1190-1201|2006|10.1016/j.tiv.2006.03.005
178347|T||Spotts,R.A.|Effect of a Surfactant on Control of Decay of Anjou Pear with Several Fungicides|Plant Dis.68(10): 860-862|1984|10.1094/PD-69-860
178348|T||Chen,L., J. Diao, W. Zhang, L. Zhang, Z. Wang, Y. Li, Y. Deng, and Z. Zhou|Effects of beta-Cypermethrin and Myclobutanil on Some Enzymes and Changes of Biomarkers Between Internal Tissues and Saliva in Reptiles (Eremias argus)|Chemosphere216:69-74|2019|10.1016/j.chemosphere.2018.10.099
178349|T||Chen,L., R. Li, J. Diao, Z. Tian, S. Di, W. Zhang, C. Cheng, and Z. Zhou|Tissue Distribution and Toxicity Effects of Myclobutanil Enantiomers in Lizards (Eremias argus)|Ecotoxicol. Environ. Saf.145:623-629|2017|10.1016/j.ecoenv.2017.07.017
178350|T||Hao,W., Y. Zhang, Y. Xie, B. Guo, J. Chang, J. Li, P. Xu, and H. Wang|Myclobutanil Accumulation, Transcriptional Alteration, and Tissue Injury in Lizards (Eremias argus) Treated with Myclobutanil Enantiomers|Ecotoxicol. Environ. Saf.171:247-255|2019|10.1016/j.ecoenv.2018.12.094
178351|T||Shirk,H.G., and R.R.,Jr. Corey|The Influence of Chemical Structure on Fungal Activity. III. Effect of O-Chlorination on Phenols|Arch. Biochem. Biophys.38(1): 417-423|1952|10.1016/0003-9861(52)90048-9
178352|T||Leskey,T.C., S.E. Wright, J. Saguez, and C. Vincent|Impact of Insecticide and Fungicide Residue Contact on Plum Curculio, Conotrachelus nenuphar (Herbst), Mobility and Mortality: Implications for Pest Management|Pest Manag. Sci.69(4): 464-470|2013|10.1002/ps.3445
178353|T||Kinay,P., M.F. Mansour, F.M. Gabler, D.A. Margosan, and J.L. Smilanick|Characterization of Fungicide-Resistant Isolates of Penicillium digitatum Collected in California|Crop Prot.26(4): 647-656|2007|10.1016/j.cropro.2006.06.002
178354|T||Spotts,R.A., and L.A. Cervantes|Evaluation of Disinfestant-Flotation Salt-Surfactant Combinations on Decay Fungi of Pear in a Model Dump Tank|Phytopathology79(1): 121-126|1989|10.1094/Phyto-79-121
178356|T||Sugar,D., and S.A. Basile|Effects of Flotation Solutions on Sodium o-Phenyl Phenate Injury to Pears and on Incidence of Postharvest Decay|Postharvest Biol. Technol.37(2): 122-128|2005|10.1016/j.postharvbio.2005.04.007
178357|T||Maldonado,M.C., R. Santa Runco, and A.R. Navarro|Isolation, Identification and Antifungal Susceptibility of Lemon Pathogenic and Non Pathogenic Fungi|Rev. Iberoam. Micol.22(1): 57-59|2005|10.1016/S1130-1406(05)70009-7
178358|T||Whaley,C.M., G.R. Armel, H.P. Wilson, and T.E. Hines|Comparison of Mesotrione Combinations with Standard Weed Control Programs in Corn|Weed Technol.20(3): 605-611|2006|10.1614/WT-05-042R1.1
178359|T||Abit,M.J.M., K. Al-Khatib, D.L. Regehr, M.R. Tuinstra, M.M. Claassen, P.W. Geier, P.W. Stahlman, B.W. Gordon, and R.S. |Differential Response of Grain Sorghum Hybrids to Foliar-Applied Mesotrione|Weed Technol.23:28-33|2009|10.1614/WT-08-086.1
178360|T||Abit,M.J.M., K. Al-Khatib, R.S. Currie, P.W. Stahlman, P.W. Geier, B.W. Gordon, B.L.S. Olson, M.M. Claassen, and D.L. R|Effect of Postemergence Mesotrione Application Timing on Grain Sorghum|Weed Technol.24:85-90|2010|10.1614/WT-09-067.1
178361|T||Crouzet,O., J. Wiszniowski, F. Donnadieu, F. Bonnemoy, J. Bohatier, and C. Mallet|Dose-Dependent Effects of the Herbicide Mesotrione on Soil Cyanobacterial Communities|Arch. Environ. Contam. Toxicol.64(1): 23-31|2013|10.1007/s00244-012-9809-9
178362|A||Wang,C., J.D. Harwood, and Q. Zhang|Oxidative Stress and DNA Damage in Common Carp (Cyprinus carpio) Exposed to the Herbicide Mesotrione|Chemosphere193:1080-1086|2018|10.1016/j.chemosphere.2017.11.148
178363|T||Buckley,G.P., K.G. Chilton, and V.G. Devonald|The Influence of Sward Control on the Establishment and Early Growth of Ash (Fraxinus excelsior L.) and Norway Maple (Acer platanoides L.)|J. Environ. Manag.13(3): 223-240|1981|
178364|T||Du,Z., Y. Zhu, L. Zhu, J. Zhang, B. Li, J. Wang, C. Zhang, and C. Cheng|Effects of the Herbicide Mesotrione on Soil Enzyme Activity and Microbial Communities|Ecotoxicol. Environ. Saf.164:571-578|2018|10.1016/j.ecoenv.2018.08.075
178365|T||Joly,P., B. Misson, F. Perriere, F. Bonnemoy, M. Joly, F. Donnadieu-Bernard, J.P. Aguer, J. Bohatier, and C. Mallet|Soil Surface Colonization by Phototrophic Indigenous Organisms, in Two Contrasted Soils Treated by Formulated Maize Herbicide Mixtures|Ecotoxicology23(9): 1648-1658|2014|10.1007/s10646-014-1304-9
178366|A||Carles,L., F. Rossi, M. Joly, P. Besse-Hoggan, I. Batisson, and J. Artigas|Biotransformation of Herbicides by Aquatic Microbial Communities Associated to Submerged Leaves|Environ. Sci. Pollut. Res.24(4): 3664-3674|2017|10.1007/s11356-016-8035-9
178367|A||Moro,C.V., G. Bricheux, C. Portelli, and J. Bohatier|Comparative Effects of the Herbicides Chlortoluron and Mesotrione on Freshwater Microalgae|Environ. Toxicol. Chem.31(4): 778-786|2012|10.1002/etc.1749
178368|T||Li,H., C. Liu, A. Guan, Z. Wang, H. Ma, and D. Cui|Synthesis and Biological Activity of Benzoylcyclohexanedione Herbicide SYP-9121|Pestic. Biochem. Physiol.142:155-160|2017|10.1016/j.pestbp.2017.07.002
178369|A||Zhao,F., Y. Li, L. Huang, Y. Gu, H. Zhang, D. Zeng, and H. Tan|Individual and Combined Toxicity of Atrazine, Butachlor, Halosulfuron-Methyl and Mesotrione on the Microalga Selenastrum capricornutum|Ecotoxicol. Environ. Saf.148:969-975|2018|10.1016/j.ecoenv.2017.11.069
178370|A||Arad,S., O. Dubinsky, and B. Simon|A Modified Cell Wall Mutant of the Red Microalga Rhodella reticulata Resistant to the Herbicide 2,6-Dichlorobenzonitrile|J. Phycol.29(3): 309-313|1993|10.1111/j.0022-3646.1993.00309.x
178371|T||Kiedaisch,B.M., R.L. Blanton, and C.H. Haigler|Characterization of a Novel Cellulose Synthesis Inhibitor|Planta (Multiple Languages)217(6): 922-930|2003|10.1007/s00425-003-1071-y
178372|T||Mendu,N., and C.D. Silflow|Elevated Levels of Tubulin Transcripts Accompany the GA3-Induced Elongation of Oat Internode Segments|Plant Cell Physiol.34(7): 973-983|1993|
178373|T||Sandler,H.A.|Response of Four Cranberry Varieties to Delayed Applications of Dichlobenil|Weed Technol.27(1): 108-112|2013|10.1614/WT-D-12-00082.1
178374|T||Binns,A.N.|Transformation of Wall Deficient Cultured Tobacco Protoplasts by Agrobacterium tumefaciens|Plant Physiol.96(2): 498-506|1991|10.1104/pp.96.2.498
178375|T||Xu,P., J. Diao, D. Liu, and Z. Zhou|Enantioselective Bioaccumulation and Toxic Effects of Metalaxyl in Earthworm Eisenia foetida|Chemosphere83(8): 1074-1079|2011|10.1016/j.chemosphere.2011.01.047
178376|T||Rani,R., V.K. Sharma, G.S. Rattan, B. Singh, and N. Sharma|Dissipation of Residues of Mancozeb and Metalaxyl in Tomato (Solanum lycopersicum L.)|Bull. Environ. Contam. Toxicol.90(2): 248-251|2013|10.1007/s00128-012-0910-6
178377|T||Gutter,Y., A. Shachnai, M. Schiffmann-Nadel, and A. Dinoor|Chemical Control in Citrus of Green and Blue Molds Resistant to Benzimidazoles|Phytopathol. Z. (Multiple Languages)102(2): 127-138|1981|10.1111/j.1439-0434.1981.tb03372.x
178378|T||Taylor,J.G., and C.H. Haigler|Patterned Secondary Cell-Wall Assembly in Tracheary Elements Occurs in a Self-Perpetuating Cascade|Acta Bot. Neerl.42(2): 153-163|1993|10.1111/j.1438-8677.1993.tb00692.x
178379|T||Taylor,J.G., T.P.,Jr. Owen, L.T. Koonce, and C.H. Haigler|Dispersed Lignin in Tracheary Elements Treated with Cellulose Synthesis Inhibitors Provides Evidence that Molecules of the Secondary Cell Wall Mediate Wall Patterning|Plant J.2(6): 959-970|1992|10.1111/j.1365-313X.1992.00959.x
178380|A||Siegfried,C.A.|The Benthos of a Eutrophic Mountain Reservoir: Influence of Reservoir Level on Community Composition, Abundance, and Production|Calif. Fish Game70(1): 39-52|1984|
178382|T||Fugelstad,J., J. Bouzenzana, S. Djerbi, G. Guerriero, I. Ezcurra, T.T. Teeri, L. Arvestad, and V. Bulone|Identification of the Cellulose Synthase Genes from the Oomycete Saprolegnia monoica and Effect of Cellulose Synthesis Inhibitors on Gene Expression and Enzyme Activity|Fungal Genet. Biol.46(10): 759-767|2009|10.1016/j.fgb.2009.07.001
178383|T||Lawrence,J.M., and H.H.,Jr. Funderburk|Effectiveness of Herbicidal Combinations on Alligatorweed Growing in Flowing Water|Proc. South. Weed Conf.18:558-566|1965|
178384|T||O'Brien,S.R., A.S. Davis, and D.E. Riechers|Quantifying Resistance to Isoxaflutole and Mesotrione and Investigating Their Interactions with Metribuzin POST in Waterhemp (Amaranthus tuberculatus)|Weed Sci.66(5): 586-594|2018|10.1017/wsc.2018.36
178385|T||Garcia-Angulo,P., A. Alonso-Simon, H. Melida, A. Encina, J.L. Acebes, and J.M. Alvarez|High Peroxidase Activity and Stable Changes in the Cell Wall are Related to Dichlobenil Tolerance|J. Plant Physiol.166(12): 1229-1240|2009|10.1016/j.jplph.2009.01.014
178386|A||Kersting,K.|Normalized Ecosystem Strain: a System Parameter for the Analysis of Toxic Stress in (Micro)-Ecosystems|Ecol. Bull.36:150-153|1984|
178387|A||Ni,Y., J. Lai, J. Wan, and L. Chen|Photosynthetic Responses and Accumulation of Mesotrione in Two Freshwater Algae|Environ. Sci. Proc. Impacts16:2288-2294|2014|10.1039/C4EM00254G
178388|A||Mitchell,R.J.|The Toxicity of Fluorotelomer Acids to Freshwater Organisms and a Preliminary Evaluation of Mechanism of Action|M.S. Thesis, University of Guelph, Ontario, Canada:118 p.|2010|
178389|T||Herz,M.J., C.E. Spooner, and A. Cherkin|Effects of the Amnesic Agent Flurothyl on EEG and Multiple-Unit Activity in the Chick|Exp. Neurol.27(2): 227-237|1970|10.1016/0014-4886(70)90216-5
178390|T||Brosnan,R.J., B.H. Pypendop, L.S. Barter, and M.G. Hawkins|Pharmacokinetics of Inhaled Anesthetics in Green Iguanas (Iguana iguana)|Am. J. Vet. Res.67(10): 1670-1674|2006|10.2460/ajvr.67.10.1670
178391|A||Steward,K.K.|Improving Technology for Chemical Control of Aquatic Plants|Miscellaneous Paper, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS:51 p.|1982|
178392|T||Wright,A.A., R. Sasidharan, L. Koski, M. Rodriguez-Carres, D.G. Peterson, V.K. Nandula, J.D. Ray, J.A. Bond, and D.R. S|Transcriptomic Changes in Echinochloa colona in Response to Treatment with the Herbicide Imazamox|Planta (Multiple Languages)247:369-379|2018|10.1007/s00425-017-2784-7
178393|T||Prigge,M.J., K. Greenham, Y. Zhang, A. Santner, C. Castillejo, A.M. Mutka, R.C. O'Malley, J.R. Ecker, B.N. Kunkel, and |The Arabidopsis Auxin Receptor F-Box Proteins AFB4 and AFB5 are Required for Response to the Synthetic Auxin Picloram|G3 Bethesda6(5): 1383-1390|2016|10.1534/g3.115.025585
178394|T||Petersen,J.L., D.N. Ueckert, and R.L. Potter|Herbicidal Control of Pricklypear Cactus in Western Texas |J. Range Manag.41(4): 313-316|1988|10.2307/3899386
178395|T||Sheley,R.L., J.M. Mangold, and J.L. Anderson|Potential for Successional Theory to Guide Restoration of Invasive-Plant-Dominated Rangeland|Ecol. Monogr.76(3): 365-379|2006|10.1890/0012-9615(2006)076[0365:PFSTTG]2.0.CO;2
178396|A||Kersting,K.|Normalized Ecosystem Strain in Micro-Ecosystems Using Different Sets of State Variables|Verh. Int. Ver. Theor. Angew. Limnol.23(3): 1641-1646|1988|
178397|T||Skurski,T.C., B.D. Maxwell, and L.J. Rew|Ecological Tradeoffs in Non-Native Plant Management|Biol. Conserv.159:292-302|2013|10.1016/j.biocon.2012.10.017
178398|T||Shinn,S.L., and D.C. Thill|Tolerance of Several Perennial Grasses to Imazapic|Weed Technol.18(1): 60-65|2004|10.1614/WT-02-169
178399|T||Shinn,S.L., and D.C. Thill|The Response of Yellow Starthistle (Centaurea solstitialis), Annual Grasses, and Smooth Brome (Bromus inermis) to Imazapic and Picloram|Weed Technol.16(2): 366-370|2002|10.1614/0890-037X(2002)016[0366:TROYSC]2.0.CO;2
178400|T||Shinn,S.L., and D.C. Thill|The Response of Yellow Starthistle (Centaurea solstitialis), Spotted Knapweed (Centaurea maculosa), and Meadow Hawkweed (Hieracium caespitosum) to Imazapic|Weed Technol.17(1): 94-101|2003|10.1614/0890-037X(2003)017[0094:TROYSC]2.0.CO;2
178401|T||Wilson,B.J., and R.K. Nishimoto|Ammonium Sulfate Enhancement of Picloram Absorption by Detached Leaves|Weed Sci.23(4): 297-301|1975|10.1017/S0043174500053066
178402|T||Radosevich,S.R., and D.E. Bayer|Effect of Temperature and Photoperiod on Triclopyr, Picloram, and 2,4,5-T Translocation|Weed Sci.27(1): 22-27|1979|10.1017/S0043174500043411
178403|T||Ligerot,Y., A. De Saint Germain, T. Waldie, C. Troadec, S. Citerne, N. Kadakia, J.P. Pillot, M. Prigge, G. Aubert, A. B|The Pea Branching RMS2 Gene Encodes the PsAFB4/5 Auxin Receptor and is Involved in an Auxin-Strigolactone Regulation Loop|PLoS Genet.13(12): 29 p.|2017|10.1371/journal.pgen.1007089
178404|T||Goldschmidt,E.E., and B. Leshem|Style Abscission in the Citron (Citrus medica L.) and Other Citrus Species: Morphology, Physiology, and Chemical Control with Picloram|Am. J. Bot.58(1): 14-23|1971|10.1002/j.1537-2197.1971.tb09940.x
178405|T||Rana,K.S., and V.K. Gupta|In Vitro and In Vivo Efficacy of Systemic and Protectant Fungicides Against Phytophthora cactorum|Indian J. Mycol. Plant Pathol.13(3): 272-276|1983|
178406|A||Kluver,N., M. Konig, J. Ortmann, R. Massei, A. Paschke, R. Kuhne, and S. Scholz|Fish Embryo Toxicity Test: Identification of Compounds with Weak Toxicity and Analysis of Behavioral Effects to Improve Prediction of Acute Toxicity for Neurotoxic Compounds|Environ. Sci. Technol.49(11): 7002-7011|2015|10.1021/acs.est.5b01910
178407|T||Gupta,P.C., S.K. Maheshwari, and L.S. Suhag|Efficacy of Some Seed Dressing Fungicides in Controlling the Wilt and Root Rot Complex of Pea|Indian J. Mycol. Plant Pathol.18(2): 176-9999|1988|
178408|T||Singh,U.S., and R.K. Tripathi|Physicochemical and Biological Properties of Metalaxyl II. Absorption by Excised Maize Roots|Indian J. Mycol. Plant Pathol.12(3): 295-307|1982|
178410|T||Kotwal,I., S.C. Vyas, R.K. Verma, and A.C. Jain|Translocation and Persistence of Acylon in Pigeon Pea|Indian Phytopathol.34(4): 492-493|1981|
178411|T||Vyas,S.C., I. Vadhera, R. Singh, and M.N. Khare|Ambimobile Movement and Persistence of Metalaxyl in Pigeonpeas and Its Effect on Nodulation|Indian J. Mycol. Plant Pathol.13(3): 265-271|1983|
178412|T||Khan,A.A., G.S. Abawi, and J.D. Maguire|Integrating Matriconditioning and Fungicidal Treatment of Table Beet Seed to Improve Stand Establishment and Yield|Crop Sci.32(1): 231-237|1992|10.2135/cropsci1992.0011183X003200010047x
178413|T||Guy,S.O., and E.S. Oplinger|Soybean Cultivar Performance as Influenced by Tillage System and Seed Treatment|J. Prod. Agric.2(1): 57-62|1989|10.2134/jpa1989.0057
178414|T||Turkington,T.K., B.L. Beres, H.R. Kutcher, B. Irvine, E.N. Johnson, J.T. O'Donovan, K.N. Harker, C.B. Holzapfel, R. Moh|Winter Wheat Yields are Increased by Seed Treatment and Fall-Applied Fungicide|Agron. J.108(4): 1379-1389|2016|10.2134/agronj2015.0573
178415|T||Silva,A.M.T., N.R. Zilhao, R.A. Segundo, M. Azenha, F. Fidalgo, A.F. Silva, J.L. Faria, and J. Teixeira|Photo-Fenton Plus Solanum nigrum L. Weed Plants Integrated Process for the Abatement of Highly Concentrated Metalaxyl on Waste Waters|Chem. Eng. J.184:213-220|2012|10.1016/j.cej.2012.01.038
178416|T||Teixeira,J., A. De Sousa, M. Azenha, J.T. Moreira, F. Fidalgo, A.F. Silva, J.L. Faria, and A.M.T. Silva|Solanum nigrum L. Weed Plants as a Remediation Tool for Metalaxyl-Polluted Effluents and Soils|Chemosphere85(5): 744-750|2011|10.1016/j.chemosphere.2011.06.049
178417|T||Ault,J.R., and S.S. Siqueira|Morphogenetic Response of Lilium michiganense to Four Auxin-Type Plant Growth Regulators In Vitro|Hortscience43(6): 1922-1924|2008|10.21273/HORTSCI.43.6.1922
178418|T||Endress,B.A., C.G. Parks, B.J. Naylor, S.R. Radosevich, and M. Porter|Grassland Response to Herbicides and Seeding of Native Grasses 6 Years Posttreatment|Invasive Plant Sci. Manag.5(3): 311-316|2012|10.1614/IPSM-D-11-00050.1
178419|T||Sands,R., and E.P. Bachelard|Uptake of Picloram by Eucalypt Leaf Discs. I. Effect of Surfactants and Nature of the Leaf Surfaces|New Phytol.72(1): 69-86|1973|10.1111/j.1469-8137.1973.tb02012.x
178420|T||Sands,R., and E.P. Bachelard|Uptake of Picloram by Eucalypt Leaf Discs. II. Role of Stomata|New Phytol.72(1): 87-99|1973|10.1111/j.1469-8137.1973.tb02013.x
178421|T||Rinella,M.J., R.A. Masters, and S.E. Bellows|Growth Regulator Herbicides Prevent Invasive Annual Grass Seed Production Under Field Conditions|Rangeland Ecol. Manag.63(4): 487-490|2010|10.2111/REM-D-09-00141.1
178422|T||McManamen,C., C.R. Nelson, and V. Wagner|Timing of Seeding After Herbicide Application Influences Rates of Germination and Seedling Biomass of Native Plants Used for Grassland Restoration|Restor. Ecol.26(6): 1137-1148|2018|10.1111/rec.12679
178423|T||Arnold,W.R., and P.W. Santelmann|The Response of Native Grasses and Forbs to Picloram|Weeds (Urbana)14(1): 74-76|1966|10.2307/4041128
178424|T||Yu,J., P.E. McCullough, and M.A. Czarnota|Seashore Paspalum Tolerance to Amicarbazone at Various Seasonal Application Timings|Weed Technol.29(1): 42-47|2015|10.1614/WT-D-14-00074.1
178425|T||Farnworth,J., and G.M. Davies|The Response of Hill Bracken and the Associated Pasture to Applications of Picloram and Dicambra|Weed Res. (Multiple Languages)14(6): 401-404|1974|10.1111/j.1365-3180.1974.tb01082.x
178426|T||Ostrowski,M., and A. Jakubowska|GH3 Expression and IAA-Amide Synthetase Activity in Pea (Pisum sativum L.) Seedlings are Regulated by Light, Plant Hormones and Auxinic Herbicides|J. Plant Physiol.170(4): 361-368|2013|10.1016/j.jplph.2012.10.016
178427|T||Vilich,V., B. Lohndorf, R.A. Sikora, and A. Friebe|Metabolism of Benzoxazolinone Allelochemicals of Zea mays by Fusarium subglutinans|Mycol. Res.103(12): 1529-1532|1999|10.1017/S0953756299008862
178428|T||Tunnell,S.J., J. Stubbendieck, S. Palazzolo, and R.A. Masters|Forb Response to Herbicides in a Degraded Tallgrass Prairie|Nat. Areas J.26(1): 72-77|2006|10.3375/0885-8608(2006)26[72:FRTHIA]2.0.CO;2
178429|T||Ayling,R.D.|Ultrastructural Changes in Leaf and Needle Segments Treated with Herbicides Containing Picloram|Weed Res. (Multiple Languages)16(5): 301-304|1976|10.1111/j.1365-3180.1976.tb00417.x
178430|T||Mclemore,B.F.|A Comparison of Herbicides for Tree Injection|Proc. South. Weed Sci. Soc.37:161-167|1984|
178431|T||Diaz-Colon,J.D., R.W. Bovey, F.S. Davis, and J.R. Baur|Comparative Effects and Concentration of Picloram, 2,4,5-T and Dicamba in Tissue Culture|Physiol. Plant. (Multiple Languages)27:60-64|1972|10.1111/j.1399-3054.1972.tb08568.x
178432|T||Wu,C.C., T.T. Kozlowski, R.F. Evert, and S. Sasaki|Effects of Direct Contact of Pinus resinosa Seeds and Young Seedlings with 2,4-D or Picloram on Seedling Development|Can. J. Bot.49:1737-1741|1971|10.1139/b71-246
178433|T||Dye,K.L., D.N. Ueckert, and S.G. Whisenant|Redberry Juniper-Herbaceous Understory Interactions|J. Range Manag.48(2): 100-107|1995|10.2307/4002794
178434|T||Reid,C.P.P., and W. Hurtt|Root Exudation of Herbicides by Woody Plants: Allelopathic Implications|Nature225:291-|1970|10.1038/225291a0
178435|T||Shipman,R.D.|Picloram Pellets for Converting Low-Quality Hardwood Forests to Japanese Larch|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:223-227|1982|
178436|T||Miklas,P.N., K.F. Grafton, G.A. Secor, and P.E. McClean|Use of Pathogen Filtrate to Differentiate Physiological Resistance of Dry Bean to White Mold Disease|Crop Sci.32(2): 310-312|1992|10.2135/cropsci1992.0011183X003200020004x
178437|T||Chaleff,R.S.|Further Characterization of Picloram -Tolerant Mutants of Nicotiana tabacum|Theor. Appl. Genet.58(2): 91-95|1980|10.1007/BF00277772
178438|T||Miller,J.H.|Chemical vs Mechanical Site Preparation After Fuelwood Harvesting|Proc. South. Weed Sci. Soc.40:156-166|1987|
178439|T||Haywood,J.D.|Preparing Pine Planting Sites with Picloram Pellets|Proc. South. Weed Sci. Soc.33:115-118|1980|
178441|A||Piancini,L.D.S., I.C. Guiloski, H.C.S. De Assis, and M.M. Cestari|Mesotrione Herbicide Promotes Biochemical Changes and DNA Damage in Two Fish Species|Toxicol. Rep.2:1157-1163|2015|10.1016/j.toxrep.2015.08.007
178442|T||Fonseca,H., J.N. Nogueira, M.A. Calori-Domingues, I.V. Zambello, and E.L. Fonseca|Post-Harvest Chemical Treatment of Unshelled Moist Peanuts with Sodium Ortho-Phenylphenate to Control Aflatoxigenic Fungi. I. Field Tests|Rev. Microbiol.23(4): 279-283|1992|
178444|T||Velovitch,J.J.|Studies on Postemergence Grass Herbicides for Soybeans and Uptake, Translocation and Metabolism of Fluazifop-Butyl in Several Plants|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:123 p.|1983|
178445|T||Murphy,B.R., F.M. Doohan, and T.R. Hodkinson|A Seed Dressing Combining Fungal Endophyte Spores and Fungicides Improves Seedling Survival and Early Growth in Barley and Oat|Symbiosis71(1): 69-76|2017|10.1007/s13199-016-0418-7
178446|T||Elmore,M.T., J.T. Brosnan, G.R. Armel, J.J. Vargas, and G.K. Breeden|Influence of Herbicide Safeners on Creeping Bentgrass (Agrostis stolonifera) Tolerance to Herbicides|Weed Technol.29(3): 550-560|2015|10.1614/WT-D-14-00045.1
178447|T||Perry,D.H., J.S. McElroy, and R.H. Walker|Effects of Soil vs. Foliar Application of Amicarbazone on Annual Bluegrass (Poa annua)|Weed Technol.25(4): 604-608|2011|10.1614/WT-D-11-00021.1
178448|T||Jeffries,M.D., F.H. Yelverton, and T.W. Gannon|Annual Bluegrass (Poa annua) Control in Creeping Bentgrass Putting Greens with Amicarbazone and Paclobutrazol|Weed Technol.27(3): 520-526|2013|10.1614/WT-D-12-00144.1
178449|T||Jeffries,M.D., T.W. Gannon, T.W. Rufty, and F.H. Yelverton|Effect of Selective Amicarbazone Placement on Annual Bluegrass (Poa annua) and Creeping Bentgrass Growth|Weed Technol.27(4): 718-724|2013|10.1614/WT-D-13-00015.1
178450|T||Elmore,M.T., J.T. Brosnan, G.K. Breeden, and A.J. Patton|Mesotrione, Topramezone, and Amicarbazone Combinations for Postemergence Annual Bluegrass (Poa annua) Control|Weed Technol.27(3): 596-603|2013|10.1614/WT-D-12-00153.1
178451|T||Hudec,K.|Pathogenicity of Fungi Associated with Wheat and Barley Seedling Emergence and Fungicide Efficacy of Seed Treatment|Biologia62(3): 287-291|2007|10.2478/s11756-007-0050-3
178452|T||Dayan,F.E., M.L.B. Trindade, and E.D. Velini|Amicarbazone, a New Photosystem II Inhibitor|Weed Sci.57(6): 579-583|2009|10.1614/WS-09-099.1
178453|T||Da Silva,A.C.,Jr., J.L.C.D.S. Dias, and D. Martins|Selectivity of Herbicides in Initial Growth of Pre-Budded Seedlings of Sugarcane|Comun. Sci.9(3): 393-401|2018|10.14295/cs.v9i3.1895
178454|T||Simoes,P.S., C.A. Carbonari, R.F. Nascentes, A. Stasievski, and E.D. Velini|Selectivity of Herbicides Inhibitors of Photosystem II for Sugarcane Cultivars|Planta Daninha (Impr.) (Multiple Languages)34(4): 803-814|2016|10.1590/s0100-83582016340400021
178455|T||Yu,J., P.E. McCullough, and W.K. Vencill|Absorption, Translocation, and Metabolism of Amicarbazone in Annual Bluegrass (Poa annua), Creeping Bentgrass (Agrostis stolonifera), and Tall Fescue (Festuca arundinacea)|Weed Sci.61(2): 217-221|2012|10.1614/WS-D-12-00136.1
178456|T||Brosnan,J.T., S. Calvache, G.K. Breeden, and J.C. Sorochan|Rooting Depth, Soil Type, and Application Rate Effects on Creeping Bentgrass Injury with Amicarbazone and Methiozolin|Crop Sci.53(2): 655-659|2013|10.2135/cropsci2012.07.0414
178457|T||McCullough,P.E., J.T. Brosnan, and G.K. Breeden|Tall Fescue and Perennial Ryegrass Reseeding Intervals for Amicarbazone|Hortscience46(4): 648-650|2011|10.21273/HORTSCI.46.4.648
178458|T||Yu,J., P.E. McCullough, and T. Grey|Physiological Effects of Temperature on Turfgrass Tolerance to Amicarbazone|Pest Manag. Sci.71(4): 571-578|2015|10.1002/ps.3853
178459|T||Perry,D.H.|Annual Bluegrass (Poa annua L.) Control and Turfgrass Response to Amicarbazone|Ph.D.Thesis, Auburn University, Auburn, AL:131 p.|2011|
178460|T||Jenkins,E.|Sandbur Seed Ecology and Control in Bermudagrass Turf and Pastures|M.S.Thesis, Oklahoma State University, Stillwater, OK:75 p.|2016|
178461|T||Williams,A.P.|Plant Growth Regulators and Herbicides for Management of Poa annua: Impact of Biotypes and Behavior of Flurprimidol in Turfgrass Species|Ph.D.Thesis, University of Kentucky, Lexington, KY:138 p.|2014|
178462|T||Cross,R.B., L.B. McCarty, and A.G. Estes|Postemergence Tropical Signalgrass (Urochloa subquadripara) Control with Nonorganic Arsenical Herbicides|Weed Technol.30(3): 815-821|2015|10.1614/WT-D-16-00012.1
178463|T||Groth,D.E., and J.A. Bond|Effects of Cultivars and Fungicides on Rice Sheath Blight, Yield, and Quality|Plant Dis.91(12): 1647-1650|2007|10.1094/PDIS-91-12-1647
178464|T||Gaulliard,J.M., M. Chazalet, A. Sailland, and J.M. Gouot|Efficacy of Triticonazole Seed Treatment Against Common Eyespot in Wheat|BCPC Monogr. - Br. Crop Prot. Counc.:79-84|1994|
178465|A||MacDonald,M.M.|Fluorotelomer Acid Toxicity to Aquatic Organisms|M.S.Thesis, University of Guelph, Canada:151 p.|2006|
178466|AT||Hu,W., P.D. Jones, B.L. Upham, J.E. Trosko, C. Lau, and J.P. Giesy|Inhibition of Gap Junctional Intercellular Communication by Perfluorinated Compounds in Rat Liver and Dolphin Kidney Epithelial Cell Lines In Vitro and Sprague-Dawley Rats In Vivo|Toxicol. Sci.68(2): 429-436|2002|10.1093/toxsci/68.2.429
178467|A||Monahan,C., and J.M. Caffrey|The Effect of Weed Control Practices on Macroinvertebrate Communities in Irish Canals|Hydrobiologia (Multiple Languages)340(1-3): 205-211|1996|10.1007/BF00012756
178468|T||Delaleu,J.C., and G. Sicard|Physiological and Histological Recovery of the Olfactory Mucosa of the Frog After a Dichlobenil Injection|Chem. Senses20(4): 433-440|1995|10.1093/chemse/20.4.433
178469|A||Walker,C.R.|Dichlobenil as a Herbicide in Fish Habitats|Weeds (Urbana)12:267-269|1964|10.2307/4040750
178470|T||Nickle,T.C., and D.W. Meinke|A Cytokinesis-Defective Mutant of Arabidopsis (cyt1) Characterized by Embryonic Lethality, Incomplete Cell Walls, and Excessive Callose Accumulation|Plant J.15(3): 321-332|1998|10.1046/j.1365-313X.1998.00212.x
178471|T||Ohmiya,Y., T. Nakai, Y.W. Park, T. Aoyama, A. Oka, F. Sakai, and T. Hayashi|The Role of PopCel1 and PopCel2 in Poplar Leaf Growth and Cellulose Biosynthesis|Plant J.33(6): 1087-1097|2003|10.1046/j.1365-313X.2003.01695.x
178472|T||Kampfraath,A.A., D. Giesen, C.A.M. Van Gestel, and C. Le Lann|Pesticide Stress on Plants Negatively Affects Parasitoid Fitness Through a Bypass of Their Phytophage Hosts|Ecotoxicology26(3): 383-395|2017|10.1007/s10646-017-1771-x
178474|T||Subramanyan,J., and N.S. Rangaswamy|Effects of Dichlobenil on Two Tip Growth Systems - Pollen Tube and Root Hair|Natl. Acad. Sci. Lett.22(7/8): 113-118|1999|
178477|A||Arad,S.M., R. Kolani, B. Simon-Berkovitch, and A. Sivan|Inhibition by DCB of Cell Wall Polysaccharide Formation in the Red Microalga Porphyridium sp. (Rhodophyta)|Phycologia33(3): 158-162|1994|10.2216/i0031-8884-33-3-158.1
178478|T||Franke,M.D., T.B. Brenneman, and K.L. Stevenson|Stem Rot of Peanut: Relationship Between In Vitro Fungicide Sensitivity and Field Efficacy of Fungicides|Peanut Sci.25(2): 76-80|1998|10.3146/i0095-3679-25-2-4
178479|A||Comes,R.D., and L.A. Morrow|Control of Waterlilies with Dichlobenil|Weed Sci.19(4): 402-405|1971|10.1017/S0043174500049237
178481|A||Kwok,A.C.M., and J.T.Y. Wong|Lipid Biosynthesis and Its Coordination with Cell Cycle Progression|Plant Cell Physiol.46(12): 1973-1986|2005|10.1093/pcp/pci213
178482|T||Garcia-Angulo,P., W.G.T. Willats, A.E. Encina, A. Alonso-Simon, J.M. Alvarez, and J.L. Acebes|Immunocytochemical Characterization of the Cell Walls of Bean Cell Suspensions During Habituation and Dehabituation to Dichlobenil|Physiol. Plant. (Multiple Languages)127(1): 87-99|2006|10.1111/j.1399-3054.2006.00648.x
178483|T||Aragao,F.B., P.M. Bernardes, A. Ferreira, M.F.D. Ferreira, and L.F. Andrade-Vieira|Cyto(Geno)toxicity of Commercial Fungicides Based on the Active Compounds Tebuconazole, Difenoconazole, Procymidone, and Iprodione in Lactuca sativa L. Meristematic Cells|Water Air Soil Pollut.230(1): 9 p.|2019|10.1007/s11270-019-4080-6
178484|T||Cui,J.K., W.K. Huang, H. Peng, Y. Lv, L.A. Kong, H.X. Li, S.J. Luo, Y. Wang, and D.L. Peng|Efficacy Evaluation of Seed-Coating Compounds Against Cereal Cyst Nematodes and Root Lesion Nematodes on Wheat|Plant Dis.101(3): 428-433|2017|10.1094/PDIS-06-16-0862-RE
178485|T||Fisher,A., C. Coleman, C. Hoffmann, B. Fritz, and J. Rangel|The Synergistic Effects of Almond Protection Fungicides on Honey Bee (Hymenoptera: Apidae) Forager Survival|J. Econ. Entomol.110(3): 802-808|2017|10.1093/jee/tox031
178486|T||Wade,A., C.H. Lin, C. Kurkul, E.R. Regan, and R.M. Johnson|Combined Toxicity of Insecticides and Fungicides Applied to California Almond Orchards to Honey Bee Larvae and Adults|Insects10(1): 11 p.|2019|10.3390/insects10010020
178487|T||Ahmed,A., A. Shamsi, and B. Bano|Deciphering the Toxic Effects of Iprodione, a Fungicide and Malathion, an Insecticide on Thiol Protease Inhibitor Isolated from Yellow Indian Mustard Seeds|Environ. Toxicol. Pharmacol.61:52-60|2018|10.1016/j.etap.2018.05.019
178488|T||Reynolds,A.G., P.L. Sholberg, and D.A. Wardle|Canopy Manipulation of Okanagan Riesling Vines for Improvement of Winegrape Quality|Can. J. Plant Sci.72(2): 489-496|1992|10.4141/cjps92-062
178489|T||Fadic,X., F. Placencia, A.M. Dominguez, and F. Cereceda-Balic|Tradescantia as a Biomonitor for Pesticide Genotoxicity Evaluation of Iprodione, Carbaryl, Dimethoate and 4,4'-DDE|Sci. Total Environ.575:146-151|2017|10.1016/j.scitotenv.2016.09.198
178490|A||Radice,S., M. Ferraris, L. Marabini, S. Grande, and E. Chiesara|Effect of Iprodione, a Dicarboximide Fungicide, on Primary Cultured Rainbow Trout (Oncorhynchus mykiss) Hepatocytes|Aquat. Toxicol.54(1/2): 51-58|2001|10.1016/S0166-445X(00)00175-2
178492|T||Schwippert,W.W., and T.W. Beneke|Evidence that Herbicides Relaxing Smooth and Oblique-Striated Muscles Affect the Muscle Cell Membrane|Comp. Biochem. Physiol. C Comp. Pharmacol.88(1): 99-111|1987|10.1016/0742-8413(87)90053-3
178493|T||Fonseca,H., M.A. Calori-Domingues, P.J. Approbatto, I.V. Zambello, and E.L. Fonseca|Post Harvest Control of Aflatoxin Production on in-Shell Moist Peanuts by Sodium Ortho-Phenylphenate. II. Harvester Tests|Rev. Microbiol.25(2): 97-100|1994|
178494|T||Grindle,M., and Y. Zhou|Isolation, Characterization and Genetic Analysis of Mutants of Aspergillus nidulans Resistant to Tolclofos-Methyl|Br. Crop Prot. Conf. Pests Dis.1:409-414|1988|
178495|T||Horowitz,M.|Experiments with Granules of Dichlobenil Under Glasshouse Conditions|Weed Res. (Multiple Languages)6:91-103|1966|10.1111/j.1365-3180.1966.tb00872.x
178496|A||Mottley,J., and R.C. Kirkwood|The Uptake, Translocation and Metabolism of Dichlobenil in Selected Aquatic Species|Weed Res. (Multiple Languages)18(4): 187-198|1978|10.1111/j.1365-3180.1978.tb01608.x
178497|T||Schnepf,E., W. Herth, and D.J. Morre|Elongation Growth of Setae of Pellia (Bryophyta): Effects of Auxin and Inhibitors|Z. Pflanzenphysiol. (Multiple Languages)94(3): 211-217|1979|10.1016/S0044-328X(79)80160-9
178498|A||Blackburn,R.D., E.O. Gangstad, R.R. Yeo, N. Dechoretz, P.A. Frank, J.A. Foret, J.R. Barry, S.J. Langlinais, S.L. Solymo|Aquatic Use Pattern for Diquat for Control of Egeria and Hydrilla|Technical Report, Army Engineer Waterways Experiment Station, Visckburg, MS:162 p.|1976|
178499|A||Saka,M., N. Tada, and Y. Kamata|Chronic Toxicity of 1,3,5-Triazine Herbicides in the Postembryonic Development of the Western Clawed Frog Silurana tropicalis|Ecotoxicol. Environ. Saf.147:373-381|2018|10.1016/j.ecoenv.2017.08.063
178500|T||Rana,S.S., and S.D. Askew|Long-Term Roughstalk Bluegrass Control in Creeping Bentgrass Fairways|Weed Technol.31(5): 714-723|2017|10.1017/wet.2017.72
178501|T||Svyantek,A.W., P. Aldahir, S. Chen, M.L. Flessner, P.E. McCullough, S.S. Sidhu, and J.S. McElroy|Target and Nontarget Resistance Mechanisms Induce Annual Bluegrass (Poa annua) Resistance to Atrazine, Amicarbazone, and Diuron|Weed Technol.30:773-782|2016|10.1614/WT-D-15-00173.1
178502|T||Bovey,R.W., J.R. Baur, M.G. Merkle, and E.C. Bashaw|Response of Kleingrass and Buffelgrass to Herbicides|Agron. J.72(1): 53-55|1980|10.2134/agronj1980.00021962007200010011x
178503|T||Zhang,J.J., Y.K. Wang, J.H. Zhou, F. Xie, Q.N. Guo, F.F. Lu, S.F. Jin, H.M. Zhu, and H. Yang|Reduced Phytotoxicity of Propazine on Wheat, Maize and Rapeseed by Salicylic Acid|Ecotoxicol. Environ. Saf.162:42-50|2018|10.1016/j.ecoenv.2018.06.068
178504|T||Gu,M., and W.T. Crow|Abamectin, Thiophanate-Methyl, and Iprodione for Management of Sting Nematode on Golf Turf|Nematropica48(1): 38-44|2018|
178505|T||El Ibaoui,H., S. Delrot, J. Besson, and J.L. Bonnemain|Compartmental Analysis of the Entry (and Exit) of a Nonsystemic (Iprodione) and of a Systemic (Glyphosate) Pesticide in Leaf Tissues|In: A.S.Crafts (Ed.), Phloem Transport in Plants, W.A.Freeman and Co., San Francisco, CA1:627-628|1986|
178506|A||Van Dord,D.C., B.J. Hoogers, and J.C.J. Van Zon|Studies on the Side-Effects of Herbicides Used in the Aquatic Environment|In: Proceedings of the EWRS Symposium on Aquatic Weeds:173-179|1974|
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178688|T||Russell,D.P., J.D.,Jr. Byrd, and M.L.M. Zaccaro|Preemergence and Postemergence Control of Perilla Mint (Perilla frutescens): Avoiding Toxicity to Livestock|Weed Technol.32(3): 290-296|2018|10.1017/wet.2018.12
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178692|T||Sridhara,A.M., K.R.V. Reddy, J. Keshavayya, P.S.K. Goud, B.C. Somashekar, P. Bose, S.K. Peethambar, and S.K. Gaddam|Synthesis and Antimicrobial Activity of 2-Substituted [4-(1,3,4-Oxadiazol-2-Yl Methyl) Phthalazin-1(2H)-One Derivatives|Eur. J. Med. Chem.45:4983-4989|2010|10.1016/j.ejmech.2010.08.005
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178738|T||Zhu,Y.C., J. Yao, J. Adamczyk, and R. Luttrell|Synergistic Toxicity and Physiological Impact of Imidacloprid Alone and Binary Mixtures with Seven Representative Pesticides on Honey Bee (Apis mellifera)|PLoS One12(5): 16 p.|2017|
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178741|T||De Aguiar,L.M., F.H. Figueira, M.S. Gottschalk, and C.E. Da Rosa|Glyphosate-Based Herbicide Exposure Causes Antioxidant Defence Responses in the Fruit Fly Drosophila melanogaster|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.185/186:94-101|2016|10.1016/j.cbpc.2016.03.006
178742|T||Baldwin,C.M., A.D. Brede, and J.J. Mayer|Growth Regulation and Tank Mixing Associated with a Glyphosate-Tolerant Perennial Ryegrass Cultivar|HortTechnology25(2): 214-220|2015|10.21273/HORTTECH.25.2.214
178743|T||Jander,G., S.R. Baerson, J.A. Hudak, K.A. Gonzalez, K.J. Gruys, and R.L. Last|Ethylmethanesulfonate Saturation Mutagenesis in Arabidopsis to Determine Frequency of Herbicide Resistance|Plant Physiol.131(1): 139-146|2003|10.1104/pp.102.010397
178744|A||Leveroni,F.A., J.D. Caffetti, and M.C. Pastori|Genotoxic Response of Blood, Gill and Liver Cells of Piaractus mesopotamicus After an Acute Exposure to a Glyphosate-Based Herbicide|Caryologia (Multiple Languages)70(1): 21-28|2017|10.1080/00087114.2016.1254454
178745|A||Int Veldt,A.|Effects of Glyphosate on Anti-Predator Morphology in Daphnia pulex|Ph.D Thesis, Hood College, Frederick, MD:45 p.|2016|
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178749|A||Ren,L., P. Wang, C. Wang, J. Chen, J. Hou, and J. Qian|Algal Growth and Utilization of Phosphorus Studied by Combined Mono-Culture and Co-Culture Experiments|Environ. Pollut.220:274-285|2017|10.1016/j.envpol.2016.09.061
178750|A||Gomes,M.P., D.S. Tavares, V.S. Richardi, R.Z. Marques, N. Wistuba, J.C. Moreira De Brito, P. Soffiatti, B.F. Sant'Anna-|Enrofloxacin and Roundup Interactive Effects on the Aquatic Macrophyte Elodea canadensis Physiology|Environ. Pollut.249:453-462|2019|10.1016/j.envpol.2019.03.026
178751|T||Niedobova,J., M. Skalsky, J. Ourednickova, R. Michalko, and A. Bartoskova|Synergistic Effects of Glyphosate Formulation Herbicide and Tank-Mixing Adjuvants on Pardosa Spiders|Environ. Pollut.249:338-344|2019|10.1016/j.envpol.2019.03.031
178752|T||Seide,V.E., R.C. Bernardes, E.J.G. Pereira, and M.A.P. Lima|Glyphosate is Lethal and Cry Toxins Alter the Development of the Stingless Bee Melipona quadrifasciata|Environ. Pollut.243:1854-1860|2018|10.1016/j.envpol.2018.10.020
178754|A||Gattas,F., A. Vinocur, M. Graziano, M. Dos Santos Afonso, H. Pizarro, and D. Cataldo|Differential Impact of Limnoperna fortunei-Herbicide Interaction Between Roundup Max and Glyphosate on Freshwater Microscopic Communities|Environ. Sci. Pollut. Res.23:18869-18882|2016|10.1007/s11356-016-7005-6
178755|A||Garza-Leon,C.V., M.A. Arzate-Cardenas, and R. Rico-Martinez|Toxicity Evaluation of Cypermethrin, Glyphosate, and Malathion, on Two Indigenous Zooplanktonic Species|Environ. Sci. Pollut. Res.24:18123-18134|2017|10.1007/s11356-017-9454-y
178756|A||Canosa,I.S., G.R. Silveyra, L. Avigliano, D.A. Medesani, and E.M. Rodriguez|Ovarian Growth Impairment After Chronic Exposure to Roundup Ultramax in the Estuarine Crab Neohelice granulata|Environ. Sci. Pollut. Res.25:1568-1575|2018|10.1007/s11356-017-0581-2
178757|T||Niemeyer,J.C., F.B. De Santo, N. Guerra, A.M. Ricardo Filho, and T.M. Pech|Do Recommended Doses of Glyphosate-Based Herbicides Affect Soil Invertebrates? Field and Laboratory Screening Tests to Risk Assessment|Chemosphere198:154-160|2018|10.1016/j.chemosphere.2018.01.127
178758|T||Behrend,J.E., and A.L. Rypstra|Contact with a Glyphosate-Based Herbicide has Long-Term Effects on the Activity and Foraging of an Agrobiont Wolf Spider|Chemosphere194:714-721|2018|10.1016/j.chemosphere.2017.12.038
178759|A||Zhong,G., Z. Wu, J. Yin, and L. Chai|Responses of Hydrilla verticillata (L.f.) Royle and Vallisneria natans (Lour.) Hara to Glyphosate Exposure|Chemosphere193:385-393|2018|10.1016/j.chemosphere.2017.10.173
178760|T||Hackenberger,D.K., N. Stjepanovic, Z. Loncaric, and B.K. Hackenberger|Acute and Subchronic Effects of Three Herbicides on Biomarkers and Reproduction in Earthworm Dendrobaena veneta|Chemosphere208:722-730|2018|10.1016/j.chemosphere.2018.06.047
178761|A||De Moura,F.R., K.R. Brentegani, A. Gemelli, A.P. Sinhorin, and V.D.G. Sinhorin|Oxidative Stress in the Hybrid Fish Jundiara (Leiarius marmoratus x Pseudoplatystoma reticulatum) Exposed to Roundup Original|Chemosphere185:445-451|2017|10.1016/j.chemosphere.2017.07.030
178762|A||Hong,Y., X. Yang, Y. Huang, G. Yan, and Y. Cheng|Assessment of the Oxidative and Genotoxic Effects of the Glyphosate-Based Herbicide Roundup on the Freshwater Shrimp, Macrobrachium nipponensis|Chemosphere210:896-906|2018|10.1016/j.chemosphere.2018.07.069
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178767|T||Anza,M., L. Epelde, U. Artetxe, J.M. Becerril, and C. Garbisu|Control of Cortaderia selloana with a Glyphosate-Based Herbicide Led to a Short-Term Stimulation of Soil Fungal Communities|Environ. Monit. Assess.188(11): 6 p.|2016|10.1007/s10661-016-5649-9
178768|T||Warnock,A.D., S.K. Florentine, F.P. Graz, and M.E. Westbrooke|Short-Term Gain and Long-Term Pain: Lessons Learnt from the Control of Lachnagrostis filiformis (Fairy Grass) in Victoria, Australia|Weed Biol. Manag.12:156-167|2012|10.1111/j.1445-6664.2012.00448.x
178769|T||Siroski,P.A., G.L. Poletta, M.A. Latorre, M.E. Merchant, H.H. Ortega, and M.D. Mudry|Immunotoxicity of Commercial-Mixed Glyphosate in Broad Snouted Caiman (Caiman latirostris)|Chem.-Biol. Interact.244:64-70|2016|10.1016/j.cbi.2015.11.031
178770|A||Lanzarin,G.A.B., L.M. Felix, D. Santos, C.A.S. Venancio, and S.M. Monteiro|Dose-Dependent Effects of a Glyphosate Commercial Formulation - Roundup UltraMax - on the Early Zebrafish Embryogenesis|Chemosphere223:514-522|2019|10.1016/j.chemosphere.2019.02.071
178771|A||Zhang,H.C., K.X. Ma, Y.J. Yang, C.Y. Shi, G.W. Chen, and D.Z. Liu|CuZnSOD and MnSOD from Freshwater Planarian Dugesia japonica: cDNA Cloning, mRNA Expression and Enzyme Activity in Response to Environmental Pollutants|Aquat. Toxicol.208:12-19|2019|10.1016/j.aquatox.2018.12.013
178772|T||Stellin,F., F. Gavinelli, P. Stevanato, G. Concheri, A. Squartini, and M.G. Paoletti|Effects of Different Concentrations of Glyphosate (Roundup 360) on Earthworms (Octodrilus complanatus, Lumbricus terrestris and Aporrectodea caliginosa) in Vineyards in the North-East of Italy|Appl. Soil Ecol.123:802-808|2018|10.1016/j.apsoil.2017.07.028
178773|T||Hansen,A.A., A. Chatterjee, G. Gramig, and D.A. Prischmann-Voldseth|Weed and Insect Management Alter Soil Arthropod Densities, Soil Nutrient Availability, Plant Productivity, and Aphid Densities in an Annual Legume Cropping System|Appl. Soil Ecol.130:120-133|2018|10.1016/j.apsoil.2018.06.006
178774|T||Garcia-Perez,J.A., E. Alarcon, Y. Hernandez, and C. Hernandez|Impact of Litter Contaminated with Glyphosate-Based Herbicide on the Performance of Pontoscolex corethrurus, Soil Phosphatase Activities and Soil pH|Appl. Soil Ecol.104:31-41|2016|10.1016/j.apsoil.2016.03.007
178775|T||Babiker,E.M., S.H. Hulbert, K.L. Schroeder, and T.C. Paulitz|Optimum Timing of Preplant Applications of Glyphosate to Manage Rhizoctonia Root Rot in Barley|Plant Dis.95(3): 304-310|2011|10.1094/PDIS-05-10-0354
178776|A||Kramer,N.I., F.J.M. Busser, M.T.T. Oosterwijk, K. Schirmer, B.I. Escher, and J.L.M. Hermens|Development of a Partition-Controlled Dosing System for Cell Assays|Chem. Res. Toxicol.23(11): 1806-1814|2010|10.1021/tx1002595
178779|AT||Ujszegi,J., Z. Gal, Z. Miko, and A. Hettyey|No Effect of a Glyphosate-Based Herbicide on Larval Dragonflies (Aeshna cyanea) and Adult Newts (Lissotriton vulgaris) in a Laboratory-Based Experiment|Acta Zool. Acad. Sci. Hung.62(4): 355-367|2016|10.17109/AZH.62.4.355.2016
178780|A||Miko,Z., J. Ujszegi, Z. Gal, and A. Hettyey|Standardize or Diversify Experimental Conditions in Ecotoxicology? A Case Study on Herbicide Toxicity to Larvae of Two Anuran Amphibians|Arch. Environ. Contam. Toxicol.73(4): 562-569|2017|10.1007/s00244-017-0427-4
178782|A||Ripley,B.J., K.C. Davis, B.J. Carter, and M.A. Simovich|Toxicity of Malathion and Roundup to the San Diego Fairy Shrimp|Trans. West. Wildl. Soc.38/39:13-21|2002|
178783|A||Sheehan,N., and C. Hoegler|Glyphosate-Containing Herbicide Impacts Physical and Behavioral Changes During Head Regeneration in Dugesia (Girardia) tigrina|Bios89(1): 14-22|2018|10.1893/0005-3155-89.1.14
178784|A||Hong,Y., X. Yang, G. Yan, Y. Huang, F. Zuo, Y. Shen, Y. Ding, and Y. Cheng|Effects of Glyphosate on Immune Responses and Haemocyte DNA Damage of Chinese Mitten Crab, Eriocheir sinensis|Fish Shellfish Immunol.71:19-27|2017|10.1016/j.fsi.2017.09.062
178785|A||Hong,Y., Y. Huang, G. Yan, C. Pan, and J. Zhang|Antioxidative Status, Immunological Responses, and Heat Shock Protein Expression in Hepatopancreas of Chinese Mitten Crab, Eriocheir sinensis Under the Exposure of Glyphosate|Fish Shellfish Immunol.86:840-845|2019|10.1016/j.fsi.2018.12.020
178786|A||Carvalho,W.F., F.C. Franco, F.R. Godoy, D. Folador, J.B. Avelar, F. Nomura, A.D. Cruz, S.M.T. De Saboia-Morais, R.P. Ba|Evaluation of Genotoxic and Mutagenic Effects of Glyphosate Roundup Original in Dendropsophus minutus Peters, 1872 Tadpoles|South Am. J. Herpetol.13(3): 220-229|2018|10.2994/SAJH-D-17-00016.1
178787|A||Jiraungkoorskul,W., E.S. Upatham, M. Kruatrachue, S. Sahaphong, S. Vichasri-Grams, and P. Pokethitiyook|Histopathological Effects of Roundup, a Glyphosate Herbicide, on Nile Tilapia (Oreochromis niloticus)|ScienceAsia28:121-127|2002|10.2306/scienceasia1513-1874.2002.28.121
178788|A||Dal Santo,G., A. Grotto, A.A. Boligon, B. Da Costa, C.L. Rambo, E.A. Fantini, E. Sauer, L.M.V. Lazzarotto, K.T. Bertonc|Protective Effect of Uncaria tomentosa Extract Against Oxidative Stress and Genotoxicity Induced by Glyphosate-Roundup Using Zebrafish (Danio rerio) as a Model|Environ. Sci. Pollut. Res.25:11703-11715|2018|10.1007/s11356-018-1350-6
178789|T||Stephenson IV,D.O., J.A. Bond, J.L. Griffin, R.L. Landry, B.C. Woolam, H.M. Edwards, and J.M. Hardwick|Weed Management Programs with Pyroxasulfone in Field Corn (Zea mays)|Weed Technol.31:496-502|2017|10.1017/wet.2017.39
178790|A||Kondera,E., B. Teodorczuk, K. Lugowska, and M. Witeska|Effect of Glyphosate-Based Herbicide on Hematological and Hemopoietic Parameters in Common Carp (Cyprinus carpio L)|Fish Physiol. Biochem.44:1011-1018|2018|10.1007/s10695-018-0489-x
178791|A||Lugowska,K.|The Effects of Roundup on Gametes and Early Development of Common Carp (Cyprinus carpio L)|Fish Physiol. Biochem.44:1109-1117|2018|10.1007/s10695-018-0498-9
178792|A||Deveci,H.A., S. Unal, M. Karapehlivan, M.K. Ayata, M. Gaffaroglu, I. Kaya, and M. Yilmaz|Effects of Glyphosate (Herbicide) on Serum Paraoxonase Activity, High Density Lipoprotein, Total Antioxidant and Oxidant Levels in Kars Creek Transcaucasian Barbs (Capoeta capoeta [Guldenstaedt, 1773])|Fresenius Environ. Bull.26(5): 3514-3518|2017|
178793|A||Dabney,B.L., and R. Patino|Low-Dose Stimulation of Growth of the Harmful Alga, Prymnesium parvum, by Glyphosate and Glyphosate-Based Herbicides|Harmful Algae80:130-139|2018|10.1016/j.hal.2018.11.004
178794|T||Slopek,J.I., and E.G. Lamb|Long-Term Efficacy of Glyphosate for Smooth Brome Control in Native Prairie|Invasive Plant Sci. Manag.10:350-355|2017|10.1017/inp.2017.33
178795|A||Costa,R.N., and F. Nomura|Measuring the Impacts of Roundup Original on Fluctuating Asymmetry and Mortality in a Neotropical Tadpole|Hydrobiologia (Multiple Languages)765:85-96|2016|10.1007/s10750-015-2404-0
178796|T||Da Silveira,H.M., A.C. Langaro, R. Alcantara-De La Cruz, T. Sediyama, and A.A. Da Silva|Glyphosate Efficacy on Sourgrass Biotypes with Suspected Resistance Collected in GR-Crop Fields|Acta Sci. Agron.40:6 p.|2018|10.4025/actasciagron.v40i1.35120
178797|T||Kuang,Y., S.X. Yang, D.A. Sampietro, X.F. Zhang, J. Tan, Q.X. Gao, H.W. Liu, Q.X. Ni, and Y.Z. Zhang|Phytotoxicity of Leaf Constituents from Bamboo (Shibataea chinensis Nakai) on Germination and Seedling Growth of Lettuce and Cucumber|Allelopathy J.40(2): 133-142|2017|10.26651/2017-40-2-1072
178798|A||Baglan,H., C.R. Lazzari, and F.J. Guerrieri|Glyphosate Impairs Learning in Aedes aegypti Mosquito Larvae at Field-Realistic Doses|J. Exp. Biol.221:5 p.|2018|
178799|A||Ruiz de Arcaute,C., S. Soloneski, and M.L. Larramendy|Opposite Effects of Mixtures of Commercial Formulations of Glyphosate with Auxinic Herbicides on the Ten Spotted Live-Bearer Fish Cnesterodon decemmaculatus (Pisces, Poeciliidae)|Environ. Pollut.240:858-866|2018|10.1016/j.envpol.2018.05.036
178800|A||Wagner,N., M. Veith, S. Lotters, and B. Viertel|Population and Life-Stage-Specific Effects of Two Herbicide Formulations on the Aquatic Development of European Common Frogs (Rana temporaria)|Environ. Toxicol. Chem.36(1): 190-200|2017|10.1002/etc.3525
178801|T||Levinson,Z.H.|Chemicals Affecting the Preimaginal Stages of the Housefly. V. Vapour Toxicity of the Dichlorobenzenes to Housefly Pupae|Riv. Parassitol.16(4): 253-256|1955|
178802|A||Sanchez,J.A.A., A.S. Varela Junior, C.D. Corcini, J.C. Da Silva, E.G. Primel, S. Caldas, R.D. Klein, and C.M.G. Martins|Effects of Roundup Formulations on Biochemical Biomarkers and Male Sperm Quality of the Livebearing Jenynsia multidentata|Chemosphere177:200-210|2017|10.1016/j.chemosphere.2017.02.147
178803|A||Matozzo,V., M.G. Marin, L. Masiero, M. Tremonti, S. Biamonte, S. Viale, L. Finos, G. Lovato, P. Pastore, and S. Bogiall|Effects of Aminomethylphosphonic Acid, the Main Breakdown Product of Glyphosate, on Cellular and Biochemical Parameters of the Mussel Mytilus galloprovincialis|Fish Shellfish Immunol.83:321-329|2018|10.1016/j.fsi.2018.09.036
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178810|A||Roy,N.M., B. Carneiro, and J. Ochs|Glyphosate Induces Neurotoxicity in Zebrafish|Environ. Toxicol. Pharmacol.42:45-54|2016|10.1016/j.etap.2016.01.003
178811|A||Bohn,T., C.M. Rover, and P.R. Semenchuk|Daphnia magna Negatively Affected by Chronic Exposure to Purified Cry-Toxins|Food Chem. Toxicol.91:130-140|2016|10.1016/j.fct.2016.03.009
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178813|A||Goncalves,B.B., N.F. Nascimento, M.P. Santos, R.M. Bertolini, G.S. Yasui, and P.C. Giaquinto|Low Concentrations of Glyphosate-Based Herbicide Cause Complete Loss of Sperm Motility of Yellowtail Tetra Fish Astyanax lacustris|J. Fish Biol.92:1218-1224|2018|10.1111/jfb.13571
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178818|T||Rosenbaum,K.K., and K.W. Bradley|A Survey of Glyphosate-Resistant Waterhemp (Amaranthus rudis) in Missouri Soybean Fields and Prediction of Glyphosate Resistance in Future Waterhemp Populations Based on In-Field Observations and Management Practices|Weed Technol.27(4): 656-663|2013|10.1614/WT-D-13-00042.1
178819|T||Rosenbaum,K.K., R.E. Massey, and K.W. Bradley|Comparison of Weed Control, Yield, and Net Income in Conventional, Glyphosate-Resistant, and Glufosinate-Resistant Soybean|Crop Manag.12(1): 9 p.|2013|10.1094/CM-2013-0028-RS
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178825|T||Della Torre,C.J., W.T. Haller, and L.A. Gettys|Effect of Soil Carbon on Phytotoxicity of Topramezone-Treated Irrigation Water to St. Augustinegrass|HortTechnology28:22-27|2018|10.21273/HORTTECH03858-17
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178828|T||Matuleviciute,D.|The Role of Willowherbs (Epilobium) in the Recovery of Vegetation Cover a Year After Use of Herbicide: A Case Study from Central Lithuania|Bot. Lith.22(2): 101-112|2016|10.1515/botlit-2016-0011
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178875|T||Sharma-Poudyal,D., T.C. Paulitz, and L.J. Du Toit|Timing of Glyphosate Applications to Wheat Cover Crops to Reduce Onion Stunting Caused by Rhizoctonia solani|Plant Dis.100:1474-1481|2016|10.1094/PDIS-10-15-1234-RE
178876|T||Rose,T.J., L. Van Zwieten, A. Claassens, C. Scanlan, and M.T. Rose|Phytotoxicity of Soilborne Glyphosate Residues is Influenced by the Method of Phosphorus Fertiliser Application|Plant Soil422:455-465|2018|10.1007/s11104-017-3482-8
178878|T||Roberts,J.C., K.M. Little, and M.E. Light|A Comparison of the Cost-Effectiveness of Different Eucalypt Cut-Stump Control Management Options to Reduce Competition from Coppice Regrowth During Stand Establishment in Mpumalanga, South Africa|South. For.80:261-268|2018|10.2989/20702620.2017.1354283
178879|T||Zhu,S., S. Xu, W. Jing, Z. Zhao, and J. Jiang|Synthesis and Herbicidal Activities of P-Menth-3-En-1-Amine and Its Schiff Base Derivatives|J. Agric. Food Chem.64(51): 9702-9707|2016|10.1021/acs.jafc.6b03977
178880|T||Waryszak,P., T.I. Lenz, M.R. Leishman, and P.O. Downey|Herbicide Effectiveness in Controlling Invasive Plants Under Elevated CO2: Sufficient Evidence to Rethink Weeds Management|J. Environ. Manag.226:400-407|2018|10.1016/j.jenvman.2018.08.050
178881|T||Willoughby,I.H., J. Forster, and V.J. Stokes|Gaultheria shallon can be Controlled by the Herbicides Picloram, Triclopyr or Glyphosate if they are Applied at the Correct Time of Year|New For. 49:757-774|2018|10.1007/s11056-017-9615-3
178882|T||Gallagher,P.W.|Genetic Variation and Growth Regulator Effects on Wound Response Among Acer and Populus taxa|Ph.D. Thesis, The Ohio State University, Columbus, OH:105 p.|1982|
178883|T||Neary,D.G., J.E. Douglass, J.L. Ruehle, and W. Fox|Converting Rhododendron-Laurel Thickets to White Pine with Picloram and Mycorrhizae-Inoculated Seedlings|South. J. Appl. For.8(3): 163-168|1984|10.1093/sjaf/8.3.163
178884|T||Maciel,G.M., F.D. Inacio, A.B. De Sa-Nakanishi, C.W.I. Haminiuk, R. Castoldi, J.F. Comar, A. Bracht, and R.M. Peralta|Response of Ganoderma lucidum and Trametes sp. to the Herbicide Picloram: Tolerance, Antioxidants and Production of Ligninolytic Enzymes|Pestic. Biochem. Physiol.105(2): 84-92|2013|10.1016/j.pestbp.2012.12.002
178885|T||Ralphs,M.H., L. Woolsey, and J.E. Bowns|Individual Plant Control of Tall Larkspur (Delphinium barbeyi)with Tebuthiuron|Weed Technol.18(2): 248-251|2004|10.1614/WT-03-027R2
178886|T||Bunderson,F.B., M.H. Ralphs, J.O. Evans, C.A. Call, and D.B. Nielsen|Carpeted Roller Application of Herbicides for Larkspur (Delphinium spp.) Control|Weed Technol.9(2): 392-396|1995|10.1017/S0890037X00023538
178887|T||Weese,Z., and T.G. Barnes|Efficacy of Dormant Season Herbicide Application on Control of Japanese Honeysuckle (Lonicera japonica) in Kentucky|Nat. Areas J.37(3): 286-293|2017|10.3375/043.037.0304
178888|A||Jin,J., T. Kurobe, W.F. Ramirez-Duarte, M.B. Bolotaolo, C.H. Lam, P.K. Pandey, T.C. Hung, M.E. Stillway, L. Zweig, J. C|Sub-Lethal Effects of Herbicides Penoxsulam, Imazamox, Fluridone and Glyphosate on Delta Smelt (Hypomesus transpacificus)|Aquat. Toxicol.197:79-88|2018|10.1016/j.aquatox.2018.01.019
178889|A||Miko,Z., J. Ujszegi, and A. Hettyey|Age-Dependent Changes in Sensitivity to a Pesticide in Tadpoles of the Common Toad (Bufo bufo)|Aquat. Toxicol.187:48-54|2017|10.1016/j.aquatox.2017.03.016
178890|A||Abdel-Ghaffar,F., A.K. Ahmed, F. Bakry, I. Rabei, and A. Ibrahim|The Impact of Three Herbicides on Biological and Histological Aspects of Biomphalaria alexandrina, Intermediate Host of Schistosoma mansoni|Malacologia59(2): 197-210|2016|10.4002/040.059.0201
178891|A||Iummato,M.M., A. Fassiano, M. Graziano, M. Dos Santos Afonso, M.D.C. Rios de Molina, and A.B. Juarez|Effect of Glyphosate on the Growth, Morphology, Ultrastructure and Metabolism of Scenedesmus vacuolatus|Ecotoxicol. Environ. Saf.172:471-479|2019|10.1016/j.ecoenv.2019.01.083
178892|A||Ferreira,D.F.Jr., R.A. Sarmento, A.D. Saraiva, R.R. Pereira, M.C. Picanco, J.L.T. Pestana, and A.M.V.M. Soares|Low Concentrations of Glyphosate-Based Herbicide Affects the Development of Chironomus xanthus|Water Air Soil Pollut.228(390): 8 p.|2017|
178893|A||Liu,N., G. Zhong, J. Zhou, Y. Liu, Y. Pang, H. Cai, and Z. Wu|Separate and Combined Effects of Glyphosate and Copper on Growth and Antioxidative Enzymes in Salvinia natans (L.) All|Sci. Total Environ.655:1448-1456|2019|10.1016/j.scitotenv.2018.11.213
178894|A||Monte,T.C.D., T.Q. Chometon, A.L. Bertho, V.S. De Moura, M.C. De Vasconcellos, J. Garcia, R. Ferraz-Nogueira, A.,Jr. Ma|Changes in Hemocytes of Biomphalaria glabrata Infected with Echinostoma paraensei and Exposed to Glyphosate-Based Herbicide|J. Invertebr. Pathol.160:67-75|2019|10.1016/j.jip.2018.11.007
178895|A||Bonifacio,A.F., J. Cazenave, C. Bacchetta, M.L. Ballesteros, M.A. Bistoni, M.V. Ame, L. Bertrand, and A.C. Hued|Alterations in the General Condition, Biochemical Parameters and Locomotor Activity in Cnesterodon decemmaculatus Exposed to Commercial Formulations of Chlorpyrifos, Glyphosate and Their Mixtures|Ecol. Indic.67:88-97|2016|10.1016/j.ecolind.2016.02.011
178896|AT||Dey,S., P. Samanta, S. Pal, A.K. Mukherjee, D. Kole, and A.R. Ghosh|Integrative Assessment of Biomarker Responses in Teleostean Fishes Exposed to Glyphosate-Based Herbicide (Excel Mera 71)|Emerg. Contam.2:191-203|2016|10.1016/j.emcon.2016.12.002
178897|A||Yu,S., Y. Liu, J. Zhang, and B. Gao|Influence of Mixed Antibiotics on Microcystis aeruginosa During the Application of Glyphosate and Hydrogen Peroxide Algaecides|J. Phycol.55:457-465|2019|10.1111/jpy.12832
178898|A||Bach,N.C., G.S. Natale, G.M. Somoza, and A.E. Ronco|Effect on the Growth and Development and Induction of Abnormalities by a Glyphosate Commercial Formulation and Its Active Ingredient During Two Developmental Stages of the South-American Creole Frog, Leptodactylus latra|Environ. Sci. Pollut. Res.23:23959-23971|2016|10.1007/s11356-016-7631-z
178899|T||Belz,R.G., M. Patama, and A. Sinkkonen|Low Doses of Six Toxicants Change Plant Size Distribution in Dense Populations of Lactuca sativa|Sci. Total Environ.631-632:510-523|2018|10.1016/j.scitotenv.2018.02.336
178900|A||Fiorino,E., P. Sehonova, L. Plhalova, J. Blahova, Z. Svobodova, and C. Faggio|Effects of Glyphosate on Early Life Stages: Comparison Between Cyprinus carpio and Danio rerio|Environ. Sci. Pollut. Res.25:8542-8549|2018|10.1007/s11356-017-1141-5
178901|A||Slaby,S., P. Titran, G. Marchand, J. Hanotel, A. Lescuyer, A. Lepretre, J.F. Bodart, M. Marin, and S. Lemiere|Effects of Glyphosate and a Commercial Formulation Roundup Exposures on Maturation of Xenopus laevis Oocytes|Environ. Sci. Pollut. Res. Int.:9 p.|2019|
178902|A||Iummato,M.M., S.E. Sabatini, L.C. Cacciatore, A.C. Cochon, D. Cataldo, M.D.C.R. De Molina, and A.B. Juarez|Biochemical Responses of the Golden Mussel Limnoperna fortunei Under Dietary Glyphosate Exposure|Ecotoxicol. Environ. Saf.163:69-75|2018|10.1016/j.ecoenv.2018.07.046
178903|A||Giaquinto,P.C., M.B. De Sa, V.S. Sugihara, B.B. Goncalves, H.C. Delicio, and A. Barki|Effects of Glyphosate-Based Herbicide Sub-Lethal Concentrations on Fish Feeding Behavior|Bull. Environ. Contam. Toxicol.98(4): 460-464|2017|10.1007/s00128-017-2037-2
178904|A||Bach,N.C., D.J.G. Marino, G.S. Natale, and G.M. Somoza|Effects of Glyphosate and Its Commercial Formulation, Roundup Ultramax, on Liver Histology of Tadpoles of the Neotropical Frog, Leptodactylus latrans (Amphibia: Anura)|Chemosphere202:289-297|2018|10.1016/j.chemosphere.2018.03.110
178905|A||Zhang,S., J. Xu, X. Kuang, S. Li, X. Li, D. Chen, X. Zhao, and X. Feng|Biological Impacts of Glyphosate on Morphology, Embryo Biomechanics and Larval Behavior in Zebrafish (Danio rerio)|Chemosphere181:270-280|2017|10.1016/j.chemosphere.2017.04.094
178906|A||Sulukan,E., M. Kokturk, H. Ceylan, S. Beydemir, M. Isik, M. Atamanalp, and S.B. Ceyhun|An Approach to Clarify the Effect Mechanism of Glyphosate on Body Malformations During Embryonic Development of Zebrafish (Daino rerio)|Chemosphere180:77-85|2017|10.1016/j.chemosphere.2017.04.018
178907|A||Li,M.H., L.Y. Ruan, J.W. Zhou, Y.H. Fu, L. Jiang, H. Zhao, and J.S. Wang|Metabolic Profiling of Goldfish (Carassius auratis) After Long-Term Glyphosate-Based Herbicide Exposure|Aquat. Toxicol.188:159-169|2017|10.1016/j.aquatox.2017.05.004
178908|A||Ayanda,O.I., S.J. Oniye, J.A. Auta, V.O. Ajibola, and O.A. Bello|Responses of the African Catfish Clarias gariepinus to Long-Term Exposure to Glyphosate- and Paraquat-Based Herbicides|Afr. J. Aquat. Sci.40(3): 261-267|2015|10.2989/16085914.2015.1074882
178910|A||Wang,C., X. Lin, L. Li, and S. Lin|Differential Growth Responses of Marine Phytoplankton to Herbicide Glyphosate|PLoS One11(3): 20 p.|2016|
178911|T||Yang,X., Z.T. Beres, L. Jin, J.T. Parrish, W. Zhao, D. Mackey, and A.A. Snow|Effects of Over-Expressing a Native Gene Encoding 5-Enolpyruvylshikimate-3-Phosphate Synthase (EPSPS) on Glyphosate Resistance in Arabidopsis thaliana|PLoS One12:13 p.|2017|
178912|T||Seong,E.S., J.H. Yoo, N.J. Kim, J.H. Choi, J.G. Lee, B.K. Ghimire, I.M. Chung, and C.Y. Yu|Morphological Changes and Increase of Resistance to Oxidative Stress by Overexpression of the LebZIP2 Gene in Nicotiana benthamiana|Russ. J. Plant Physiol.63(1): 124-131|2016|10.1134/S1021443716010143
178913|T||Weng,Z., M.T. Rose, E. Tavakkoli, L. Van Zwieten, G. Styles, W. Bennett, and E. Lombi|Assessing Plant-Available Glyphosate in Contrasting Soils by Diffusive Gradient in Thin-Films Technique (DGT)|Sci. Total Environ.646:735-744|2019|10.1016/j.scitotenv.2018.07.221
178914|T||Zantedeschi,R., A.D. Grutzmacher, J.B. Pazini, F.A. Bueno, and L.L. Machado|Selectivity of Pesticides Registered for Soybean Crop on Telenomus podisi and Trissolcus basalis|Pesqui. Agropecu. Trop. (Multiple Languages)48(1): 52-58|2018|10.1590/1983-40632018v4850348
178915|T||Zobiole,L.H.S., V.G.C. Pereira, A.J.P. Albrecht, R.S. Rubin, F.S. Adegas, and L.P. Albrecht|Paraquat Resistance of Sumatran Fleabane (Conyza sumatrensis)|Planta Daninha (Impr.) (Multiple Languages)37:8 p.|2019|10.1590/s0100-83582019370100018
178916|T||Widderick,M., and A. Mclean|Optimal Intervals Differ for Double Knock Application of Paraquat After Glyphosate or Haloxyfop for Improved Control of Echinochloa colona, Chloris virgata and Chloris truncata|Crop Prot.113:1-5|2018|10.1016/j.cropro.2018.07.003
178917|T||Wang,Y.Y., Z.L. Zhou, X.X. Wang, X.Y. Cai, X.N. Li, C.Y. Wang, Y.H. Wang, L. Fang, and K.B. Wang|Genome-Wide Association Mapping of Glyphosate-Resistance in Gossypium hirsutum Races|Euphytica209:209-221|2016|10.1007/s10681-016-1663-9
178918|T||Bracamonte,E., H.M. Da Silveira, R. Alcantara-De La Cruz, J.A. Dominguez-Valenzuela, H.E. Cruz-Hipolito, and R. De Prad|From Tolerance to Resistance: Mechanisms Governing the Differential Response to Glyphosate in Chloris barbata|Pest Manag. Sci.74:1118-1124|2018|10.1002/ps.4874
178919|A||De Melo,M.S., T.P.G. Dos Santos, M. Jaramillo, L. Nezzi, Y.M. Rauh Muller, and E.M. Nazari|Histopathological and Ultrastructural Indices for the Assessment of Glyphosate-Based Herbicide Cytotoxicity in Decapod Crustacean Hepatopancreas|Aquat. Toxicol.210:207-214|2019|10.1016/j.aquatox.2019.03.007
178920|T||Ngo,T.D., J.M. Malone, P. Boutsalis, G. Gill, and C. Preston|EPSPS Gene Amplification Conferring Resistance to Glyphosate in Windmill Grass (Chloris truncata) in Australia|Pest Manag. Sci.74:1101-1108|2018|10.1002/ps.4573
178921|T||Brunharo,C., E.L. Patterson, D.R. Carrijo, M.S.C. De Melo, M. Nicolai, T.A. Gaines, S.J. Nissen, and P.J. Christoffolet|Confirmation and Mechanism of Glyphosate Resistance in Tall Windmill Grass (Chloris elata) from Brazil|Pest Manag. Sci.72:1758-1764|2016|10.1002/ps.4205
178922|A||Jaramillo,M.L., A.G. Pereira, C.E. Davico, L. Nezzi, D. Ammar, Y.M.R. Muller, and E.M. Nazari|Evaluation of Reference Genes for Reverse Transcription-Quantitative PCR Assays in Organs of Zebrafish Exposed to Glyphosate-Based Herbicide, Roundup|Animal12(7): 1424-1434|2018|10.1017/S1751731117003111
178923|A||Magbanua,F.S., C.R. Townsend, K.J. Hageman, J.J. Piggott, and C.D. Matthaei|Individual and Combined Effects of Fine Sediment and Glyphosate Herbicide on Invertebrate Drift and Insect Emergence: A Stream Mesocosm Experiment|Freshw. Sci.35:139-151|2016|10.1086/684363
178924|T||Webb,W.L., and M. Newton|Release of Picloram from Roots|Weed Res. (Multiple Languages)12(4): 391-394|1972|10.1111/j.1365-3180.1972.tb01234.x
178925|T||Risdiono,B.|The Inter-Influence Between Chromolaena odorata L. and Brachiaria brizantha Stapf. and the Effect of Picloram on These Plants|In: Proceedings of the Third Indonesian Weed Science Conference, Bandung:367-376|1975|
178926|T||Brooks,J.J., A.S. Johnson, and K.V. Miller|Effects of Chemical Site Preparation on Wildlife Habitat and Plant Species Diversity in the Georgia Sandhills|Gen. Tech. Rep. SO:605-612|1993|
178927|T||Malinowski,D.P., W.E. Pinchak, T.A. Baughman, and G. Antilley|Effects of Herbicide and Liquid Nitrogen Fertilizer Application on the Establishment of Wheatgrass Pastures in the Texas Rolling Plains|Texas J. Agric. Nat. Res.14:58-67|2001|
178928|T||Eliasson,L., and U. Hallmen|Translocation and Metabolism of Picloram and 2,4-D in Populus tremula|Physiol. Plant. (Multiple Languages)28(1): 182-187|1973|10.1111/j.1399-3054.1973.tb01172.x
178929|T||Adams,J., E. Van Wyk, and T. Riddin|First Record of Spartina alterniflora in Southern Africa Indicates Adaptive Potential of this Saline Grass|Biol. Invasions18(8): 2153-2158|2016|10.1007/s10530-015-0957-5
178930|T||Ivens,G.W.|Movement of Herbicide Applied to Cut Ends of Populus x gelrica Stems|Weed Res. (Multiple Languages)12:279-283|1972|10.1111/j.1365-3180.1972.tb01219.x
178931|T||Haas,R.H., S.K. Lehman, and H.L. Morton|Influence of Mowing and Spraying Dates on Herbicidal Control of Macartney Rose|Weed Sci.18(1): 33-37|1970|10.1017/S0043174500077298
178932|T||Svobodova,Z., O.S. Habustova, J. Holec, M. Holec, J. Bohac, M. Jursik, J. Soukup, and F. Sehnal|Split Application of Glyphosate in Herbicide-Tolerant Maize Provides Efficient Weed Control and Favors Beneficial Epigeic Arthropods|Agric. Ecosyst. Environ.251:171-179|2018|10.1016/j.agee.2017.09.018
178933|T||Peters,E.J., and S.A. Lowance|Gains in Timothy Forage from Goldenrod Control with 2,4-D, 2,4-DB, and Picloram|Weed Sci.17(4): 473-474|1969|10.1017/S004317450005459X
178934|T||Reid,C.P.P., W. Hurtt, and W.A. Wells|Absorption, Distribution and Root Exudation of 2,4,5-T and Picloram by Ash and Maple|Technical Memorandum 225, Department of the Army, Fort Detrick, MD:27 p.|1971|
178935|T||Huffman,J.R.|MJM Electric Cooperative Finds Tordon 10K Herbicide Pellets to be Useful and Effective|Ind. Veg. Manage.5(3): 12-13|1973|
178936|T||McCaffery,K.R., and F.L. Johnson|Maintaining Wildlife Openings with Pellets Containing Picloram|Ind. Veg. Manage.6(3): 2-7|1974|
178937|T||Phillips,M.C., C.R. Riches, and R.J. Sweet|Chemical Control of the Poisonous Plant Dichapetalum cymosum (Hook) Engl.|Int. J. Pest Manag.39(3): 358-365|1993|10.1080/09670879309371821
178938|A||Pereira,A.G., M.L. Jaramillo, A.P. Remor, A. Latini, C.E. Davico, M.L. Da Silva, Y.M.R. Muller, D. Ammar, and E.M. Naza|Low-Concentration Exposure to Glyphosate-Based Herbicide Modulates the Complexes of the Mitochondrial Respiratory Chain and Induces Mitochondrial Hyperpolarization in the Danio rerio Brain|Chemosphere209:353-362|2018|10.1016/j.chemosphere.2018.06.075
178939|T||Turner,D.J., and M.C.P. Loader|Interactions Between Tri-S-Butyl Phosphorotrithioate (DEF) and Growth Regulator Herbicides.  I.-A Preliminary Report|Pestic. Sci.1(3): 107-111|1970|10.1002/ps.2780010307
178940|T||Blair,B.K., C.M. Britton, and D.N. Ueckert|Pricklypear Control with Fire and Herbicides on the Texas Rolling Plains|Texas J. Agric. Nat. Res.6:87-97|1993|
178941|T||Martinelli,R., P.A. Monquero, A. Fontanetti, P.M. Conceicao, and F.A. Azevedo|Ecological Mowing: An Option for Sustainable Weed Management in Young Citrus Orchards|Weed Technol.31:260-268|2017|10.1017/wet.2017.3
178942|A||Zebral,Y.D., L.R. Lansini, P.G. Costa, M. Roza, A. Bianchini, and R.B. Robaldo|A Glyphosate-Based Herbicide Reduces Fertility, Embryonic Upper Thermal Tolerance and Alters Embryonic Diapause of the Threatened Annual Fish Austrolebias nigrofasciatus|Chemosphere196:260-269|2018|10.1016/j.chemosphere.2017.12.196
178943|T||Friesen,H.A.|Picloram, Ioxynil, Bromoxynil, and 2,4-DP to Control Green Smartweed, Wild Buckwheat, and Hemp Nettle in Wheat|Res. Rep. N. Central Weed Control Conf.21:54-55|1964|
178944|T||Keys,C.H.|Influence of Picloram on Varieties of Wheat|Res. Rep. N. Central Weed Control Conf.:61-|1964|
178945|A||Smedbol,E., M.P. Gomes, S. Paquet, M. Labrecque, L. Lepage, M. Lucotte, and P. Juneau|Effects of Low Concentrations of Glyphosate-Based Herbicide Factor 540  on an Agricultural Stream Freshwater Phytoplankton Community|Chemosphere192:133-141|2018|10.1016/j.chemosphere.2017.10.128
178946|A||Tanneberger,K., M. Knobel, F.J.M. Busser, T.L. Sinnige, J.L.M. Hermens, and K. Schirmer|Predicting Fish Acute Toxicity Using a Fish Gill Cell Line-Based Toxicity Assay|Environ. Sci. Technol.47(2): 1110-1119|2013|10.1021/es303505z
178947|A||Pizarro,H., M.S. Vera, A. Vinocur, G. Perez, M. Ferraro, R.J. Menendez Helman, and M. Santos Afonso|Glyphosate Input Modifies Microbial Community Structure in Clear and Turbid Freshwater Systems|Environ. Sci. Pollut. Res. Int.23:5143-5153|2016|10.1007/s11356-015-5748-0
178948|A||Bhatia,H., A. Kumar, J.C. Chapman, and M.J. McLaughlin|Long-Term Exposures to Di-n-butyl phthalate Inhibit Body Growth and Impair Gonad Development in Juvenile Murray Rainbowfish (Melanotaenia fluviatilis)|J. Appl. Toxicol.35(7): 806-816|2015|10.1002/jat.3076
178949|AT||Mankidy,R., S. Wiseman, H. Ma, and J.P. Giesy|Biological Impact of Phthalates|Toxicol. Lett.217(1): 50-58|2013|10.1016/j.toxlet.2012.11.025
178950|T||Ma,T., P. Christie, Y. Teng, and Y. Luo|Rape (Brassica chinensis L.) Seed Germination, Seedling Growth, and Physiology in Soil Polluted with Di-n-Butyl Phthalate and Bis(2-Ethylhexyl) Phthalate|Environ. Sci. Pollut. Res.20(8): 5289-5298|2013|10.1007/s11356-013-1520-5
178951|T||Savaldi-Goldstein,S., T.J. Baiga, F. Pojer, T. Dabi, C. Butterfield, G. Parry, A. Santner, N. Dharmasiri, Y. Tao, M. Es|New Auxin Analogs with Growth-Promoting Effects in Intact Plants Reveal a Chemical Strategy to Improve Hormone Delivery|Proc. Natl. Acad. Sci. U.S.A.105(39): 15190-15195|2008|10.1073/pnas.0806324105
178952|T||Turner,D.J.|The Influence of Additives on the Penetration of Foliar Applied Growth Regulator Herbicides|Pestic. Sci.3(3): 323-331|1972|10.1002/ps.2780030309
178953|T||Hilton,H.W., S.S. Kameda, and N.S. Nomura|Distribution of Picloram Residues in Sugarcane|J. Agric. Food Chem.21(1): 124-126|1973|10.1021/jf60185a031
178954|T||Mayeux,H.S.,Jr., and C.J. Scifres|Foliar Uptake and Transport of 2,4-D and Picloram by Drummond's Goldenweed (Isocoma drummondii)|Weed Sci.28(6): 678-682|1980|10.1017/S0043174500061506
178955|T||Sterling,T.M., and H.S. Jochem|Uptake, Translocation, and Metabolism of Picloram and Metsulfuron Methyl by Two Locoweed Species|Weed Sci.43(1): 13-17|1995|10.1017/S0043174500080759
178956|T||Bovey,R.W., M.L. Ketchersid, and M.G. Merkle|Comparison of Salt and Ester Formulations of Picloram|Weed Sci.18(4): 447-451|1970|10.1017/S0043174500078401
178957|T||Renney,A.J., and E.C. Hughes|Control of Knapweed, Centaurea Species, in British Columbia with Tordon Herbicide|Down Earth24(4): 6-8|1969|
178958|T||Williams,M.C., and M.H. Ralphs|Effect of Herbicides on Miserotoxin Concentration in Wasatch Milkvetch (Astragalus miser var oblongifolius)|Weed Sci.35(6): 746-748|1987|10.1017/S0043174500079261
178959|T||Perez-Iglesias,J.M., L. Franco-Belussi, L. Moreno, S. Tripole, C. De Oliveira, and G.S. Natale|Effects of Glyphosate on Hepatic Tissue Evaluating Melanomacrophages and Erythrocytes Responses in Neotropical Anuran Leptodactylus latinasus|Environ. Sci. Pollut. Res. Int.23:9852-9861|2016|10.1007/s11356-016-6153-z
178960|T||Willoughby,I.H., M.K. Seier, V.J. Stokes, S.E. Thomas, and S. Varia|Synthetic Herbicides were more Effective than a Bioherbicide Based on Chondrostereum purpureum in Reducing Resprouting of Rhododendron ponticum, a Host of Phytophthora ramorum in the UK|Forestry88(3): 336-344|2015|10.1093/forestry/cpv004
178961|A||Amid,C., M. Olstedt, J.S. Gunnarsson, H.L. Lan, H.T.T. Minh, P.J.V.D. Brink, M. Hellstrom, and M. Tedengren|Additive Effects of the Herbicide Glyphosate and Elevated Temperature on the Branched Coral Acropora formosa in Nha Trang, Vietnam|Environ. Sci. Pollut. Res. Int.25:13360-13372|2018|10.1007/s11356-016-8320-7
178962|T||Baur,J.R., R.W. Bovey, and J.D. Smith|Herbicide Concentrations in Live Oak Treated with Mixtures of Picloram and 2,4,5-T|Weed Sci.17(4): 567-570|1969|10.1017/S0043174500054825
178963|T||Sharma,M.P., and W.H. Vanden Born|Foliar Penetration of Picloram and 2,4-D in Aspen and Balsam Poplar|Weed Sci.18(1): 57-63|1970|10.1017/S0043174500077341
178964|A||Wagner,N., H. Muller, and B. Viertel|Effects of a Commonly Used Glyphosate-Based Herbicide Formulation on Early Developmental Stages of Two Anuran Species|Environ. Sci. Pollut. Res. Int.24:1495-1508|2017|10.1007/s11356-016-7927-z
178965|T||Hallmen,U., and L. Eliasson|Translocation and Complex Formation of Picloram and 2,4-D in Wheat Seedlings|Physiol. Plant. (Multiple Languages)27:143-149|1972|10.1111/j.1399-3054.1972.tb03591.x
178966|T||Flater,R.L., W. Yarish, and H. Vaartnou|Effects of Picloram on Germination and Development of Six Crop Species|Can. J. Plant Sci.54:219-221|1974|10.4141/cjps74-033
178967|T||Gawn,T.L., K.C. Harrington, and C. Matthew|Susceptibility of Great Bindweed (Calystegia silvatica) to Herbicides|N. Z. Plant Prot.66:94-98|2013|10.30843/nzpp.2013.66.5714
178968|T||Sato,M.|Inhibition by Oxalates of Spinach Chloroplast Phenolase in Unfrozen and Frozen States|Phytochemistry19(8): 1613-1617|1980|10.1016/S0031-9422(00)83780-2
178969|T||Bracamonte,E.R., P.T. Fernandez-Moreno, F. Bastida, M.D. Osuna, R. Alcantara-De La Cruz, H.E. Cruz-Hipolito, and R. De |Identifying Chloris Species from Cuban Citrus Orchards and Determining Their Glyphosate-Resistance Status|Front. Plant Sci.8:11 p.|2017|10.3389/fpls.2017.01977
178970|T||Dor,E., S. Galili, E. Smirnov, Y. Hacham, R. Amir, and J. Hershenhorn|The Effects of Herbicides Targeting Aromatic and Branched Chain Amino Acid Biosynthesis Support the Presence of Functional Pathways in Broomrape|Front. Plant Sci.8:15 p.|2017|10.3389/fpls.2017.00707
178971|T||Fang,J., P. Nan, Z. Gu, X. Ge, Y.Q. Feng, and B.R. Lu|Overexpressing Exogenous 5-Enolpyruvylshikimate-3-Phosphate Synthase (EPSPS) Genes Increases Fecundity and Auxin Content of Transgenic Arabidopsis Plants|Front. Plant Sci.9:9-|2018|10.3389/fpls.2018.00009
178972|T||Noland,T.L., R. Man, and M. Irvine|Glyphosate Tolerance of Eastern White Cedar: Third Year Results|For. Chron.93(2): 190-193|2017|10.5558/tfc2017-025
178974|T||Laird,A.S., D.K. Miller, J.L. Griffin, E.K. Twidwell, M.W. Alison, and D.C. Blouin|Residual Effect of Herbicides Used in Pastures on Clover Establishment and Productivity|Weed Technol.30(4): 929-936|2016|10.1614/WT-D-15-00142.1
178975|T||Perry,P.W., and R.P. Upchurch|Growth Analysis of Red Maple and White Ash Seedlings Treated with Eight Herbicides|Weed Sci.16(1): 32-37|1968|10.1017/S0043174500030460
178976|T||Yu,J., N.S. Boyd, and Z. Guan|Relay-Cropping and Fallow Programs for Strawberry-Based Production System: Effects on Crop Productivity and Weed Control|Hortscience53(4): 445-450|2018|10.21273/HORTSCI12658-17
178977|T||Edwards,J.T., and L.R. Oliver|Trumpetcreeper (Campsis radicans) can be Controlled by Herbicide Application in Soybean|Crop Manag.3(1): 5 p.|2004|10.1094/CM-2004-0323-01-RS
178978|T||Faus,I., R. Ninoles, V. Kesari, P. Llabata, E. Tam, S.G. Nebauer, J. Santiago, M.T. Hauser, and J. Gadea|Arabidopsis ILITHYIA Protein is Necessary for Proper Chloroplast Biogenesis and Root Development Independent of eIF2a Phosphorylation|J. Plant Physiol.224-225:173-182|2018|10.1016/j.jplph.2018.04.003
178979|T||Smith,S.D., and J. Stubbendieck|Chemical Control of Eastern Redcedar in Mixed Prairie|Proceedings of the North American Prairie Conference:147-150|1989|
178980|T||Heck,W.W., and E.G. Pires|Growth of Plants Fumigated with Saturated and Unsaturated Gases and Their Derivatives|Texas Agric. Exp. Stn. Misc. Publ.:3-12|1962|
178981|T||Mitchell,B.J.F., and G.R. Stephenson|The Selective Action of Picloram in Red Maple and White Ash|Weed Res. (Multiple Languages)13(2): 169-178|1973|10.1111/j.1365-3180.1973.tb01261.x
178982|T||Meyer,R.E.|Picloram and 2,4,5-T Influence on Honey Mesquite Morphology|Weed Sci.18(4): 525-531|1970|10.1017/S0043174500078620
178983|A||Sun,L., H. Tan, T. Peng, S. Wang, W. Xu, H. Qian, Y. Jin, and Z. Fu|Developmental Neurotoxicity of Organophosphate Flame Retardants in Early Life Stages of Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.35(12): 2931-2940|2016|10.1002/etc.3477
178984|T||McCarty,M.K., and C.J. Scifres|Smooth Bromegrass Response to Herbicides as Affected by Time of Application in Relation to Nitrogen Fertilization|Weed Sci.16:443-446|1968|10.1017/S004317450004769X
178985|T||Gibbs,L.A., and T.M. Sterling|Seasonal Variation of Picloram Metabolism in Broom (Gutierrezia sarothrae) and Threadleaf (Gutierrezia microcephala) Snakeweed Populations in a Common Garden|Weed Sci.52(2): 206-212|2004|10.1614/WS-03-009R1
178986|T||Jacoby,P.W., and C.H. Meadors|Control of Sand Shinnery Oak (Quercus havardii) with Pelleted Picloram and Tebuthiuron|Weed Sci.30(6): 594-597|1982|10.1017/S0043174500041254
178987|A||Jarema,K.A., D.L. Hunter, R.M. Shaffer, M. Behl, and S. Padilla|Acute and Developmental Behavioral Effects of Flame Retardants and Related Chemicals in Zebrafish|Neurotoxicol. Teratol.52:194-209|2015|10.1016/j.ntt.2015.08.010
178988|T||McDaniel,K.C., and L. Whitetrifaro|Selective Control of Pinyon-Juniper with Herbicides|Gen. Tech. Rep. INT215:448-455|1987|
178989|A||Kingsley,K.C.|Acute Toxicity of Copper Hydroxide and Glyphosate Mixture in Clarias gariepinus: Interaction and Prediction Using Mixture Assessment Models|Environ. Health Toxicol.34(1): 8 p.|2019|10.5620/eht.e2019003
178990|T||Schuster,J.L.|Redberry Juniper Control with Picloram|Proc. South. Weed Sci. Soc.23:241-243|1970|
178991|T||Goodman,L.E., A.F. Cibils, S.C. Lopez, R.L. Steiner, J.D. Graham, K.C. McDaniel, L.B. Abbott, B.L. Stegelmeier, and D.M|Targeted Grazing of White Locoweed: Short-Term Effects of Herbivory Regime on Vegetation and Sheep|Rangeland Ecol. Manag.67:680-692|2014|10.2111/REM-D-13-00035.1
178992|A||Krynak,K.L., D.J. Burke, and M.F. Benard|Rodeo Herbicide Negatively Affects Blanchard's Cricket Frogs (Acris blanchardi) Survival and Alters the Skin-Associated Bacterial Community|J. Herpetol.51(3): 402-410|2017|10.1670/16-092
178993|T||Meyer,R.E., and R.W. Bovey|Control of Live Oak (Quercus virginiana) and Understory Vegetation with Soil-Applied Herbicides|Weed Sci.28(1): 51-58|1980|10.1017/S0043174500027764
178994|A||Levis,N.A., M.L. Schooler, J.R. Johnson, and M.L. Collyer|Non-Adaptive Phenotypic Plasticity: The Effects of Terrestrial and Aquatic Herbicides on Larval Salamander Morphology and Swim Speed|Biol. J. Linn. Soc.118:569-581|2016|10.1111/bij.12761
178995|T||Meyer,R.E., and R.W. Bovey|Control of Whitebrush (Aloysia lycioides) and Associated Species with Soil-Applied Herbicides|Weed Sci.28(2): 204-212|1980|10.1017/S0043174500055120
178996|A||Lopes,F.M., J.Z. Sandrini, and M.M. Souza|Toxicity Induced by Glyphosate and Glyphosate-Based Herbicides in the Zebrafish Hepatocyte Cell Line (ZF-L)|Ecotoxicol. Environ. Saf.162:201-207|2018|10.1016/j.ecoenv.2018.07.005
178997|T||Mayeux,H.S.Jr., and A.D. Chamrad|Response of False Broomweed (Ericameria austrotexana) and Associated Herbaceous Vegetation to Pelleted Herbicides|Weed Sci.30(6): 668-671|1982|10.1017/S0043174500041394
178998|T||Tueller,P.T., and R.A. Evans|Control of Green Rabbitbrush and Big Sagebrush with 2,4-D and Picloram|Weed Sci.17(2): 233-235|1969|10.1017/S0043174500031398
178999|T||Martin,S.C., S.J. Shellhorn, and H.M. Hull|Emergence of Fourwing Saltbush After Spraying Shrubs with Picloram|Weed Sci.18(3): 389-392|1970|10.1017/S0043174500080048
179000|T||Haggblom,P., T. Unestam, and G. Ekbohm|Killing Effect and Translocation of Picloram in the Stem of Aspen, Populus tremula|Eur. J. For. Pathol.7(4): 220-229|1977|10.1111/j.1439-0329.1977.tb00582.x
179001|T||Harrington,G.N.|The Effect of Foliar Spraying of Acacia hockii de Wild with Picloram and 2,4-D/Picloram Mixtures and Additional Treatment with Picloram Granules|East Afr. Agric. For. J.37(3): 197-200|1972|10.1080/00128325.1972.11662525
179003|T||Tunnell,S.J., and R. Mitchell|Redberry Juniper Response to Picloram and Top Removal in the Texas Rolling Plains|Texas J. Agric. Nat. Res.14:112-116|2001|
179004|T||Loveless,A.|Qualitative Aspects of the Chemistry and Biology of Radiomimetic (Mutagenic) Substances|Nature167(4244): 338-342|1951|10.1038/167338a0
179005|T||Roos,K., H.G. Rodel, and E. Beck|Short- and Long-Term Effects of Weed Control on Pastures Infested with Pteridium arachnoideum and an Attempt to Regenerate Abandoned Pastures in South Ecuador|Weed Res. (Multiple Languages)51(2): 165-176|2010|10.1111/j.1365-3180.2010.00833.x
179006|T||Gylling,S.R., and W.E. Arnold|Efficacy and Economics of Leafy Spurge (Euphorbia esula) Control in Pasture|Weed Sci.33(3): 381-385|1985|10.1017/S0043174500082461
179007|T||Bovey,R.W., F.S. Davis, and H.L. Morton|Herbicide Combinations for Woody Plant Control|Weed Sci.16(3): 332-335|1968|10.1017/S0043174500047299
179008|T||Mayeux,H.S.,Jr., and R.A. Crane|Application of Herbicides on Rangelands with a Carpeted Roller: Control of Goldenweeds (Isocoma spp.) and False Broomweed (Ericameria austrotexana)|Weed Sci.32(6): 845-849|1984|10.1017/S0043174500060100
179009|T||Meyer,R.E., and T.E. Riley|Influence of Picloram Granules and Sprays on Whitebrush|Weed Sci.17(3): 293-295|1969|10.1017/S0043174500054047
179010|T||Mayeux,H.S.,Jr., and H.B. Johnson|Absorption and Translocation of Picloram by Lindheimer Pricklypear (Opuntia lindheimeri)|Weed Sci.37(2): 161-166|1989|10.1017/S0043174500071721
179011|T||Evans,R.A., and J.A. Young|Plant Succession Following Control of Western Juniper (Juniperus occidentalis) with Picloram|Weed Sci.33(1): 63-68|1985|10.1017/S0043174500083934
179012|T||Defelice,M.S.|Buckbrush (Symphoricarpos orbiculatus) Control in Tall Fescue (Festuca arundinacea) Pastures|Weed Technol.5(4): 841-844|1991|10.1017/S0890037X00033959
179013|T||Nowak,C.A., L.P. Abrahamson, E.F. Neuhauser, C.G. Foreback, H.D. Freed, S.B. Shaheen, and C.H. Stevens|Cost Effective Vegetation Management on a Recently Cleared Electric Transmission Line Right-of-Way|Weed Technol.6(4): 828-837|1992|10.1017/S0890037X00036344
179014|T||Ferrell,M.A., T.D. Whitson, and H.P. Alley|Control of Leafy Spurge (Euphorbia esula) with Growth Regulator-Herbicide Combinations|Weed Technol.3(3): 479-484|1989|10.1017/S0890037X00032619
179015|T||Davis,F.S., M.G. Merkle, and R.W. Bovey|Effect of Moisture Stress on the Absorption and Transport of Herbicides in Woody Plants|Bot. Gaz.129(3): 183-189|1968|10.1086/336433
179016|T||Ueckert,D.N., J.L. Petersen, R.L. Potter, J.D. Whipple, and M.W. Wagner|Managing Pricklypear with Herbicides and Fire|Texas Agric. Exp. Stn. Prog. Rep.4565-4591:10-15|1988|
179017|T||Schmutz,E.M., and D.E. Little|Effects of 2,4,5-T and Picloram on Broom Snakeweed in Arizona|J. Range Manag.23(5): 354-357|1970|10.2307/3896166
179018|T||Ueckert,D.N., C.J. Scifres, S.G. Whisenant, and J.L. Mutz|Control of Bitterweed with Herbicides|J. Range Manag.33(6): 465-469|1980|10.2307/3898587
179019|T||Mayeux,H.S.,Jr.|Application of Herbicides on Rangelands with a Carpeted Roller: Timing of Treatment in Dense Stands of Honey Mesquite|J. Range Manag.40(4): 348-352|1987|10.2307/3898736
179020|T||Schuster,J.L.|Redberry Juniper Control with Picloram|J. Range Manag.29(6): 490-491|1976|10.2307/3897259
179021|T||Young,J.A., and R.A. Evans|Control of Pinyon Saplings with Picloram or Karbutilate|J. Range Manag.29(2): 144-147|1976|10.2307/3897413
179022|T||Newton,M., F. Roberts, A. Allen, B. Kelpsas, D. White, and P. Boyd|Deposition and Dissipation of Three Herbicides in Foliage, Litter, and Soil of Brushfields of Southwest Oregon |J. Agric. Food Chem.38(2): 574-583|1990|10.1021/jf00092a052
179023|T||Sterling,T.M., and N.K. Lownds|Picloram Absorption by Broom Snakeweed (Gutierrezia sarothrae) Leaf Tissue|Weed Sci.40(3): 390-394|1992|10.1017/S0043174500051791
179024|T||Stanley,R.A., A.T.,Jr. Tabereaux, and T.F. Hall|Control of Buttonball with Picloram|Hyacinth Control J.12:38-40|1974|
179025|T||Perala,D.A.|Aerial Release of Red Pine with Picloram|Down Earth30(1): 22-25|1974|
179026|T||Lesica,P., and B. Martin|Effects of Prescribed Fire and Season of Burn on Recruitment of the Invasive Exotic Plant, Potentilla recta, in a Semiarid Grassland|Restor. Ecol.11(4): 516-523|2003|10.1046/j.1526-100X.2003.rec0298.x
179027|T||Ho,T.H., B.B. Abu Bakar, and C.H. Teo|Phytotoxicity Studies of Picloram on Rubber|In: Proceedings of the Third Indonesian Weed Science Conference, Bandung:180-200|1975|
179028|T||Nair,N.G.|Picloram Spot Sprays Control Sifton (Biddy) Bush|Agric. Gaz. N. S. W.81:417-419|1970|
179029|T||Fears,R.D., and D.M. Frederick|Kudzu Control with Tordon 10k Pellets Brush Killer for Timber Site Preparation in Central Alabama|Down Earth33(1): 6-9|1977|
179030|T||Nascimento,A.F., F.R. Pires, K. Chagas, S.O. Procopio, M.A. Oliveira, A.C. Filho, A.F. Belo, and F.B.E. Filho|Risk of Soil Recontamination Due to Using Eleusine coracana and Panicum maximum Straw After Phytoremediation of Picloram|Int. J. Phytoremediat.17:313-321|2015|10.1080/15226514.2014.909775
179032|T||Ralphs,M.H., J.O. Evans, and S.A. Dewey|Timing of Herbicide Applications for Control of Larkspurs (Delphinium spp.)|Weed Sci.40(2): 264-269|1992|10.1017/S0043174500057325
179033|T||Sterling,T.M., N.K. Lownds, and L.W. Murray|Environmental Effects on Picloram Uptake and Ethylene Production by Broom Snakeweed|J. Range Manag.49(3): 245-250|1996|10.2307/4002886
179034|T||Wilson,R.G.|Sand Sagebrush (Artemisia filifolia) and Brittle Pricklypear (Opuntia fragilis) Control|Weed Technol.3(2): 272-274|1989|10.1017/S0890037X00031791
179035|T||Regehr,D.L., and A. El Brahli|Wild Jujube (Ziziphus lotus) Control in Morocco|Weed Technol.9(2): 326-330|1995|10.1017/S0890037X00023423
179036|T||Johnson,J.R., W.L. Tucker, C.E. Stymiest, and E.J. Bowker|Pricklypear Cactus Control in Western South Dakota|S.D. Beef Rep.:128-134|1986|
179037|T||Bose,A.K., R.G. Wagner, B.E. Roth, and A.R. Weiskittel|Influence of Browsing Damage and Overstory Cover on Regeneration of American Beech and Sugar Maple Nine Years Following Understory Herbicide Release in Central Maine|New For. 49(1): 67-85|2018|10.1007/s11056-017-9605-5
179038|T||McDaniel,K.C., and K.W. Duncan|Broom Snakeweed (Gutierrezia sarothrae) Control with Picloram and Metsulfuron|Weed Sci.35(6): 837-841|1987|10.1017/S0043174500079431
179039|T||Scotter,G.W.|Effect of Picloram on Cinquefoil and Forage Production at the Ya-Ha-Tinda Ranch, Alberta|J. Range Manag.28(2): 132-138|1975|10.2307/3897445
179040|T||Rinella,M.J., M.R. Haferkamp, R.A. Masters, J.M. Muscha, S.E. Bellows, and L.T. Vermeire|Growth Regulator Herbicides Prevent Invasive Annual Grass Seed Production|Invasive Plant Sci. Manag.3(1): 12-16|2010|10.1614/IPSM-D-09-00007.1
179041|T||Wei,W.J., Q.Y. Song, Z.Q. Zheng, X. Yao, Y. Li, and K. Gao|Phytotoxic Ent-Isopimarane-Type Diterpenoids from Euphorbia hylonoma|J. Nat. Prod.81:2381-2391|2018|10.1021/acs.jnatprod.8b00365
179042|T||Claassen,M.M., and L.J. Moshier|Honeyvine Milkweed (Ampelamus albidus) Control in a Winter Wheat (Triticum aestivum) - Grain Sorghum (Sorghum bicolor) Rotation|Weed Technol.3(2): 345-348|1989|10.1017/S0890037X00031924
179043|T||Caplan,J.S., R.D. Whitehead, A.E. Gover, and J.C. Grabosky|Extended Leaf Phenology Presents an Opportunity for Herbicidal Control of Invasive Forest Shrubs|Weed Res. (Multiple Languages)58:244-249|2018|10.1111/wre.12305
179044|T||Moshier,L.J.|Response of Honeyvine Milkweed (Ampelamus albidus) to Herbicide Applications|Weed Sci.28(6): 722-724|1980|10.1017/S0043174500061609
179045|T||Fadin,D.A., V.L. Tornisielo, A.A.M. Barroso, S. Ramos, F.C. Dos Reis, and P.A. Monquero|Absorption and Translocation of Glyphosate in Spermacoce verticillata and Alternative Herbicide Control|Weed Res. (Multiple Languages)58:389-396|2018|10.1111/wre.12329
179046|T||Kehrli,P., and N. Delabays|Controlling 'Bois Noir' Disease on Grapevine: Does the Timing of Herbicide Application Affect Vector Emergence?|J. Appl. Entomol.136:234-237|2012|10.1111/j.1439-0418.2011.01635.x
179047|T||Karn,E., and M. Jasieniuk|Nucleotide Diversity at Site 106 of EPSPS in Lolium perenne L. ssp. multiflorum from California Indicates Multiple Evolutionary Origins of Herbicide Resistance|Front. Plant Sci.8(777): 9 p.|2017|
179048|T||Karn,E., and M. Jasieniuk|Genetic Diversity and Structure of Lolium perenne ssp. multiflorum in California Vineyards and Orchards Indicate Potential for Spread of Herbicide Resistance via Gene Flow|Evol. Appl.10:616-629|2017|10.1111/eva.12478
179049|A||Relyea,R.A.|The Interactive Effects of Predator Stress, Predation, and the Herbicide Roundup|Ecosphere9(11): 1-16|2018|10.1002/ecs2.2476
179050|A||Boone,M.D.|An Amphibian with a Contracting Range is not more Vulnerable to Pesticides in Outdoor Experimental Communities than Common Species|Environ. Toxicol. Chem.37(10): 2699-2704|2018|10.1002/etc.4236
179051|T||Heritier,L., D. Duval, R. Galinier, A.L. Meistertzheim, and O. Verneau|Oxidative Stress Induced by Glyphosate-Based Herbicide on Freshwater Turtles|Environ. Toxicol. Chem.36(12): 3343-3350|2017|10.1002/etc.3916
179052|T||Burge,O.R., K.A. Bodmin, B.R. Clarkson, S. Bartlam, C.H. Watts, and C.C. Tanner|Glyphosate Redirects Wetland Vegetation Trajectory Following Willow Invasion|Appl. Veg. Sci.20(4): 620-630|2017|10.1111/avsc.12320
179053|A||Burraco,P., and I. Gomez-Mestre|Physiological Stress Responses in Amphibian Larvae to Multiple Stressors Reveal Marked Anthropogenic Effects Even Below Lethal Levels|Physiol. Biochem. Zool.89(6): 462-472|2016|10.1086/688737
179054|A||Da Luz,D.S., D.G. Da Silva, M.M. Souza, D. Giroldo, and C.D.G. Martins|Efficiency of Neutral Red, Evans Blue and MTT to Assess Viability of the Freshwater Microalgae Desmodesmus communis and Pediastrum boryanum|Phycol. Res.64:56-60|2016|10.1111/pre.12114
179055|T||Ghanizadeh,H., K.C. Harrington, and T.K. James|Genetic Inheritance of Restricted Herbicide Translocation in a Glyphosate-Resistant Lolium perenne Population|N. Z. J. Agric. Res.59(3): 269-279|2016|10.1080/00288233.2016.1189438
179056|T||Tursun,N., D. Isik, Z. Demir, and K. Jabran|Use of Living, Mowed, and Soil-Incorporated Cover Crops for Weed Control in Apricot Orchards|Agronomy8(150): 10 p.|2018|
179057|A||Drzyzga,D., and J. Lipok|Glyphosate Dose Modulates the Uptake of Inorganic Phosphate by Freshwater Cyanobacteria|J. Appl. Phycol.30(1): 299-309|2018|10.1007/s10811-017-1231-2
179058|A||Kittle,R.P., and K.J. Mcdermid|Glyphosate Herbicide Toxicity to Native Hawaiian Macroalgal and Seagrass Species|J. Appl. Phycol.28(4): 2597-2604|2016|10.1007/s10811-016-0790-y
179059|T||Lawrence,P.R., and J.T. Dijkman|The Introduction of Animal Traction into Inland Valley Regions. 2. Dry Season Cultivation and the Use of Herbicides in Rice|J. Agric. Sci.129(1): 71-75|1997|10.1017/S0021859697004528
179060|A||Sanchis,J., M. Olmos, P. Vincent, M. Farre, and D. Barcelo|New Insights on the Influence of Organic Co-Contaminants on the Aquatic Toxicology of Carbon Nanomaterials|Environ. Sci. Technol.50(2): 961-969|2016|10.1021/acs.est.5b03966
179061|T||Shoenholtz,S.H., and B.L. Barber|The Impact of Herbicides on Loblolly Pine Plantation Establishment in East Texas|Gen. Tech. Rep. SO74:341-348|1989|
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179078|A||Samanta,P., A.K. Mukherjee, S. Pal, D. Kole, and A.R. Ghosha|Toxic Effects of Glyphosate-Based Herbicide, Excel Mera 71 on Gill, Liver, and Kidney of Heteropneustes fossilis Under Laboratory and Field Conditions|J. Microscop. Ultra.4(3): 147-155|2016|10.1016/j.jmau.2016.01.002
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179087|T||Gil-Monreal,M., A. Zabalza, T.D. Missihoun, P. Dormann, D. Bartels, and M. Royuela|Induction of the PDH Bypass and Upregulation of the ALDH7b4 in Plants Treated with Herbicides Inhibiting Amino Acid Biosynthesis|Plant Sci.264:16-28|2017|10.1016/j.plantsci.2017.08.003
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179089|T||Pacheco,L.C.P.S., V. Damin, A.P. Pelosi, K.R.S. Ferreira, and P.C.O. Trivelin|Herbicides Increase Emission of Ammonia by Pearl Millet and Congo Grass|Agron. J.109(4): 1232-1239|2017|10.2134/agronj2016.04.0242
179090|T||Kretschmer,M., D. Croll, and J.W. Kronstad|Chloroplast-Associated Metabolic Functions Influence the Susceptibility of Maize to Ustilago maydis|Mol. Plant Pathol.18(9): 1210-1221|2017|10.1111/mpp.12485
179091|T||Nedunchezhiyan,M., K. Laxminarayana, and V.B.S. Chauhan|Soil Microbial Activities and Yield of Elephant Foot Yam as Influenced by Weed Management Practices in Alfisols|Int. J. Veg. Sci.24(6): 583-596|2018|10.1080/19315260.2018.1454567
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179095|T||Saska,P., J. Skuhrovec, J. Lukas, M. Vlach, H. Chi, S.J. Tuan, and A. Honek|Treating Prey with Glyphosate does not Alter the Demographic Parameters and Predation of the Harmonia axyridis (Coleoptera: Coccinellidae)|J. Econ. Entomol.110:392-399|2017|
179096|T||Santos,J.I., C.L. Amaral, P.L.C.A. Alves, and E.C. Gasparino|Can Light Intensity Influence the Tolerance of Synedrellopsis grisebachii to Glyphosate?|Weed Biol. Manag.16:3-15|2016|10.1111/wbm.12085
179097|T||Watts,C., D. Thornburrow, and V. Cave|Responses of Invertebrates to Herbicide in Salix cinerea Invaded Wetlands: Restoration Implications|Ecol. Manag. Restor.17(3): 243-249|2016|10.1111/emr.12223
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179101|T||Tahir,H.M., T. Basheer, S. Ali, R. Yaqoob, S. Naseem, and S.Y. Khan|Effect of Pesticides on Biological Control Potential of Neoscona theisi (Araneae: Araneidae)|J. Insect Sci.9(2): 1-6|2019|
179102|T||Stecca,C.S., A.F. Bueno, A. Pasini, D.M. Silva, K. Andrade, and D.M.Z. Filho|Side-Effects of Glyphosate to the Parasitoid Telenomus remus Nixon (Hymenoptera: Platygastridae)|Neotrop. Entomol. (Multiple Languages)45:192-200|2016|10.1007/s13744-016-0363-4
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179104|T||Vazquez,D.E., N. Ilina, E.A. Pagano, J.A. Zavala, and W.M. Farina|Glyphosate Affects the Larval Development of Honey Bees Depending on the Susceptibility of Colonies|PLoS One13(10): 19 p.|2018|10.1371/journal.pone.0205074
179105|T||Simoes,T., S.C. Novais, T. Natal-Da-Luz, S. Leston, J. Rosa, F. Ramos, A.S.V. Pouca, A. Freitas, J. Barbosa, D. Roelofs|Fate and Effects of Two Pesticide Formulations in the Invertebrate Folsomia candida Using a Natural Agricultural Soil|Sci. Total Environ.675:90-97|2019|10.1016/j.scitotenv.2019.04.191
179106|T||Carranza,C.S., C.L. Barberis, S.M. Chiacchiera, A.M. Dalcero, and C.E. Magnoli|Isolation of Culturable Mycobiota from Agricultural Soils and Determination of Tolerance to Glyphosate of Nontoxigenic Aspergillus Section Flavi Strains|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes51(1): 35-43|2016|
179107|T||Masin,C.E., M.R. Lescano, A.R. Rodriguez, J.L. Godoy, and C.S. Zalazar|Earthworms to Assess the Innocuousness of Spent Biomixtures Employed for Glyphosate Degradation|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes53:519-525|2018|
179108|T||Monte,T.C.C., B.V. Braga, M.C. De Vasconcellos, A.D. Jurberg, E.M. Mota, H.S. Barbosa, J.S. Garcia, and A. Maldonado Ju|Morphological Effects on Helminth Parasites Caused by Herbicide Under Experimental Conditions|Rev. Bras. Parasitol. Vet.27(1): 42-51|2018|
179109|T||Saska,P., J. Skuhrovec, J. Lukas, H. Chi, S.J. Tuan, and A. Honek|Treatment by Glyphosate-Based Herbicide Alters Life History Parameters of the Rose-Grain Aphid Metopolophium dirhodum|Sci. Rep.6:10 p.|2016|10.1038/srep27801
179110|T||Dennis,P.G., T. Kukulies, C. Forstner, T.G. Orton, and A.B. Pattison|The Effects of Glyphosate, Glufosinate, Paraquat and Paraquat-Diquat on Soil Microbial Activity and Bacterial, Archaeal and Nematode Diversity|Sci. Rep.8(2119): 9 p.|2018|
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179113|T||Gul,B., A. Khan, and H. Khan|Management of Cattail in Standing Water of Swabi District, Khyber Pakhtunkhwa (KPK) Province, Pakistan|J. Aquat. Plant Manag.56:31-34|2018|
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179115|T||Enloe,S.F., and M.D. Netherland|Evaluation of Three Grass-Specific Herbicides on Torpedograss (Panicum repens) and Seven Nontarget, Native Aquatic Plants|J. Aquat. Plant Manag.55:65-70|2017|
179116|T||Enloe,S.F., and D.K. Lauer|Uruguay Waterprimrose Control with Herbicides|J. Aquat. Plant Manag.55:71-75|2017|
179117|T||Gomes,M.P., S.G. Le Manac'h, M. Moingt, E. Smedbol, S. Paquet, M. Labrecque, M. Lucotte, and P. Juneau|Impact of Phosphate on Glyphosate Uptake and Toxicity in Willow|J. Hazard. Mater.304:269-279|2016|10.1016/j.jhazmat.2015.10.043
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179119|T||Dos Santos,S.A., L.D. Tuffi-Santos, F.A.O. Tanaka, B.F. Sant'Anna-Santos, F.D. Rodrigues, and A.C. Alfenas|Carfentrazone-Ethyl and Glyphosate Drift Inhibits Uredinial Formation of Austropuccinia psidii on Eucalyptus grandis Leaves|Pest Manag. Sci.75:53-62|2019|10.1002/ps.5163
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179128|T||Druille,M., P.A. Garcia-Parisi, R.A. Golluscio, F.P. Cavagnaro, and M. Omacini|Repeated Annual Glyphosate Applications may Impair Beneficial Soil Microorganisms in Temperate Grassland|Agric. Ecosyst. Environ.230:184-190|2016|10.1016/j.agee.2016.06.011
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179144|T||Mandl,K., C. Cantelmo, E. Gruber, F. Faber, B. Friedrich, and J.G. Zaller|Effects of Glyphosate-, Glufosinate- and Flazasulfuron-Based Herbicides on Soil Microorganisms in a Vineyard|Bull. Environ. Contam. Toxicol.101(5): 562-569|2018|10.1007/s00128-018-2438-x
179145|T||Vannini,A., M. Guarnieri, L. Paoli, S. Sorbo, A. Basile, and S. Loppi|Bioaccumulation, Physiological and Ultrastructural Effects of Glyphosate in the Lichen Xanthoria parietina (L.) Th. Fr.|Chemosphere164:233-240|2016|10.1016/j.chemosphere.2016.08.058
179146|T||Ainalidou,A., K. Karamanoli, U. Menkissoglu-Spiroudi, G. Diamantidis, and T. Matsi|CPPU Treatment and Pollination: Their Combined Effect on Kiwifruit Growth and Quality|Sci. Hortic.193:147-154|2015|10.1016/j.scienta.2015.07.011
179147|T||Morishita,Y., Y. Okazaki, Y.Y. Luo, J. Nunoki, T. Taniguchi, Y. Oshima, and T. Asai|Use of Plant Hormones to Activate Silent Polyketide Biosynthetic Pathways in Arthrinium sacchari, a Fungus Isolated from a Spider|Org. Biomol. Chem.17:780-784|2019|10.1039/C8OB02837K
179148|T||Olorunsogo,O.O., E.A. Bababunmi, and O. Bassir|Toxicity of n-(Phosphonomethyl)Glycine to Chick Embryo|Toxicol. Lett.2:319-321|1978|10.1016/0378-4274(78)90032-2
179149|T||Abraham,J., G.S. Benhotons, I. Krampah, J. Tagba, C. Amissah, and J.D. Abraham|Commercially Formulated Glyphosate can Kill Non-Target Pollinator Bees Under Laboratory Conditions|Entomol. Exp. Appl.166:1-8|2018|10.1111/eea.12694
179150|T||Szilagyi,M., F. Anton, I. Pocsi, and T. Emri|Autolytic Enzymes Are Responsible for Increased Melanization of Carbon Stressed Aspergillus nidulans Cultures|J. Basic Microbiol.58:440-447|2018|10.1002/jobm.201700545
179151|T||Carranza,C.S., M.E. Aluffi, N. Benito, K. Magnoli, C.L. Barberis, and C.E. Magnoli|Effect of In Vitro Glyphosate on Fusarium spp. Growth and Disease Severity on Maize|J. Sci. Food Agric.12:9 p.|2019|
179152|A||Oliver,S.V., and B.D. Brooke|The Effect of Commercial Herbicide Exposure on the Life History and Insecticide Resistance Phenotypes of the Major Malaria Vector Anopheles arabiensis (Diptera: Culicidae)|Acta Trop.188:152-160|2018|10.1016/j.actatropica.2018.08.030
179153|T||Samal,S., C.S.K. Mishra, and S. Sahoo|Setal-Epidermal, Muscular and Enzymatic Anomalies Induced by Certain Agrochemicals in the Earthworm Eudrilus eugeniae (Kinberg)|Environ. Sci. Pollut. Res.26:8039-8049|2019|10.1007/s11356-019-04204-3
179154|T||Von Merey,G., P.S. Manson, A. Mehrsheikh, P. Sutton, and S.L. Levine|Glyphosate and Aminomethylphosphonic Acid Chronic Risk Assessment for Soil Biota|Environ. Toxicol. Chem.35(11): 2742-2752|2016|10.1002/etc.3438
179155|AT||Rodrigues,L.D., R. De Oliveira, F.R. Abe, L.B. Brito, D.S. Moura, M.C. Valadares, C.K. Grisolia, D.P. De Oliveira, and |Ecotoxicological Assessment of Glyphosate-Based Herbicides: Effects on Different Organisms|Environ. Toxicol. Chem.36(7): 1755-1763|2017|10.1002/etc.3580
179156|T||Druart,C., F. Gimbert, R. Scheifler, and A. De Vaufleury|A Full Life-Cycle Bioassay with Cantareus aspersus Shows Reproductive Effects of a Glyphosate-Based Herbicide Suggesting Potential Endocrine Disruption|Environ. Pollut.226:240-249|2017|10.1016/j.envpol.2017.03.061
179157|T||Fagundez,G.A., D.C. Blettler, C.G. Krumrick, M.A. Bertos, and C.G. Trujillo|Do Agrochemicals Used During Soybean Flowering Affect the Visits of Apis mellifera L.?|Spanish J. Agric. Res.14(1): 8 p.|2016|10.5424/sjar/2016141-7492
179159|T||Homan,H.J., G.M. Linz, R.C. Carlson, and W.J. Bleier|Spring Distribution of Ring-Necked Pheasants (Phasianus colchicus) Following Cattail Reduction with Glyphosate Herbicide|Wildl. Res.30:159-166|2003|10.1071/WR01003
179160|T||Hawkins,J.W., M.W. Lankester, R.A. Lautenschlager, and F.W. Bell|Effects of Alternative Conifer Release Treatments on Terrestrial Gastropods in Northwestern Ontario|For. Chron.73(1): 91-98|1997|10.5558/tfc73091-1
179161|T||Blot,N., L. Veillat, R. Rouze, and H. Delatte|Glyphosate, but not Its Metabolite AMPA, Alters the Honeybee Gut Microbiota|PLoS One14:16 p.|2019|10.1371/journal.pone.0215466
179162|T||Clarke,C.W., A.J. Carnegie, F. Yousuf, R. Bashford, H.I. Nicol, R.A. Bedding, and G.M. Gurr|Minimizing the Disruptive Effect of Ips grandicollis (Coleoptera: Scolytinae) on Biocontrol of Sirex noctilio (Hymenoptera: Siricidae)|For. Ecol. Manag.381:134-143|2016|10.1016/j.foreco.2016.09.023
179163|T||Shilo,T., L. Zygier, B. Rubin, S. Wolf, and H. Eizenberg|Mechanism of Glyphosate Control of Phelipanche aegyptiaca|Planta (Multiple Languages)244:1095-1107|2016|10.1007/s00425-016-2565-8
179164|T||Liu,M.M., X.J. Zhang, Y. Gao, Z.C. Shen, and C.Y. Lin|Molecular Characterization and Efficacy Evaluation of a Transgenic Corn Event for Insect Resistance and Glyphosate Tolerance|J. Zhejiang Univ., Sci. B19(8): 610-619|2018|10.1631/jzus.B1700345
179165|T||Olszyk,D., T. Pfleeger, T. Shiroyama, M. Blakeley-Smith, E.H. Lee, and M. Plocher|Plant Reproduction is Altered by Simulated Herbicide Drift to Constructed Plant Communities|Environ. Toxicol. Chem.36(10): 2799-2813|2017|10.1002/etc.3839
179166|T||Foureman,P., J.M. Mason, R. Valencia, and S. Zimmering|Chemical Mutagenesis Testing in Drosophila. IX. Results of 50 Coded Compounds Tested for the National Toxicology Program|Environ. Mol. Mutagen.23(1): 51-63|1994|10.1002/em.2850230109
179168|A||Brown,A.C.|Molecular Connectivity Indices of Organic Pollutants: Correlation with Cessation of Burrowing in the Whelk Bullia digitalis (Dillwyn)|Trans. R. Soc. S. Afr.46(2): 109-114|1986|10.1080/00359198609520112
179169|T||Michalski,J., and Z. Cheng|"Effects of ""Lights Out"" Turfgrass Renovation on Plants, Soil Arthropod and Nematode Communities"|Appl. Soil Ecol.127:144-154|2018|10.1016/j.apsoil.2018.03.016
179170|T||Imaoka,A., M. Ueno, J. Kihara, and S. Arase|Effect of Glyphosate on Tryptamine Production and Sekiguchi Lesion Formation in Rice Infected with Magnaporthe grisea|J. Gen. Plant Pathol.74(2): 109-116|2008|10.1007/s10327-007-0066-0
179171|T||Davies,L.R., R. Hull, S. Moss, and P. Neve|The First Cases of Glyphosate Resistance in UK Poverty Brome (Bromus sterilis) Populations|Weed Sci.67(1): 41-47|2019|10.1017/wsc.2018.61
179172|T||Waddington,J., and S. Bittman|Effect of Number of Passes with a Roller-Applicator Using Dilute Herbicide Solutions on Control of Brush Regrowth in Northeastern Saskatchewan|Can. J. Plant Sci.67(3): 845-848|1987|10.4141/cjps87-120
179173|A||Zhang,R., B. Cui, and S. Huang|Degradation of Forchlorfenuron by Nitrification and Denitrification Reactions in the Gut and Shell Biofilm of Limnoperna fortunei|Ecotoxicology24(2): 381-390|2015|10.1007/s10646-014-1386-4
179174|T||Hedin,P.A., J.N. Jenkins, A.C. Thompson, J.C.,Jr. McCarty, D.H. Smith, W.L. Parrott, and R.L. Shepherd|Effects of Bioregulators on Flavonoids, Insect Resistance, and Yield of Seed Cotton|J. Agric. Food Chem.36:1055-1061|1988|10.1021/jf00083a036
179175|A||Muhamad,S.N.S., A.P.K. Ling, and C.L. Wong|Effect of Plant Growth Regulators on Direct Regeneration and Callus Induction from Sargassum polycystum C. Agardh|J. Appl. Phycol.30:3299-3310|2018|10.1007/s10811-018-1649-1
179176|T||Omokawa,H., H. Kuramochi, Y. Kawata, and M. Konnai|Structural Characteristics of s-Triazine Compounds Inducing Rhizome in Cyperus serotinus Rottb|J. Pestic. Sci. (Multiple Languages)19(1): 25-32|1994|10.1584/jpestics.19.25
179177|T||Kim,J.G., Y. Takami, T. Mizugami, K. Beppu, T. Fukuda, and I. Kataoka|CPPU Application on Size and Quality of Hardy Kiwifruit|Sci. Hortic.110:219-222|2006|10.1016/j.scienta.2006.06.017
179178|T||Millan-Mendoza,B., and J. Graham|Organogenesis and Micropropagation in Red Raspberry Using Forchlorfenuron (CPPU)|J. Hortic. Sci. Biotechnol.74(2): 219-223|1999|10.1080/14620316.1999.11511098
179179|T||Cruz-Castillo,J.G., D.J. Woolley, and G.S. Lawes|Kiwifruit Size and CPPU Response are Influenced by the Time of Anthesis|Sci. Hortic.95:23-30|2002|10.1016/S0304-4238(01)00384-3
179180|T||Dong,J., W. Guo, F. Zhao, and D. Liu|"Discrimination of ""Hayward"" Kiwifruits Treated with Forchlorfenuron at Different Concentrations Using Hyperspectral Imaging Technology"|Food Anal. Methods10:477-486|2017|10.1007/s12161-016-0603-6
179181|T||Liu,D., and W. Guo|Identifying CPPU-Treated Kiwifruits Using Near-Infrared Hyperspectral Imaging Technology|Food Anal. Methods10:1273-1283|2017|10.1007/s12161-016-0681-5
179182|T||Cruz-Castillo,J.G., A. Baldicchi, T. Frioni, F. Marocchi, S. Moscatello, S. Proietti, A. Battistelli, and F. Famiani|Pre-Anthesis CPPU Low Dosage Application Increases 'Hayward' Kiwifruit Weight Without Affecting the Other Qualitative and Nutritional Characteristics|Food Chem.158:224-228|2014|10.1016/j.foodchem.2014.01.131
179183|T||Yan,Z., J. Nie, G. Xu, H. Li, J. Li, Z. Li, Y. Wu, and L. Kuang|Simultaneous Determination of Plant Growth Regulators in Fruits Using a Modified QuEChERs Procedure and UPLC-MS/MS|Hortic. Plant J.2(4): 203-208|2016|10.1016/j.hpj.2016.07.002
179185|T||Jo,Y.S., H.S. Cho, M.Y. Park, J.O. Park, T.D. Park, and K.K. Shim|Comparison of CPPU Effect on Fruit Development in Several Actinidia Species|Acta Hortic.:539-543|2003|10.17660/ActaHortic.2003.610.72
179187|T||Nishijima,T., and K. Shima|Change in Flower Morphology of Torenia fournieri Lind. Induced by Forchlorfenuron Application|Sci. Hortic.109:254-261|2006|10.1016/j.scienta.2006.05.005
179189|T||Narumi,T., R. Aida, T. Niki, T. Nishijima, N. Mitsuda, K. Hiratsu, M. Ohme-Takagi, and N. Ohtsubo|Chimeric AGAMOUS Repressor Induces Serrated Petal Phenotype in Torenia fournieri Similar to that Induced by Cytokinin Application|Plant Biotechnol.25(1): 45-53|2008|10.5511/plantbiotechnology.25.45
179190|T||Froschle,M., H. Horn, and O. Spring|Effects of the Cytokinins 6-Benzyladenine and Forchlorfenuron on Fruit-, Seed- and Yield Parameters According to Developmental Stages of Flowers of the Biofuel Plant Jatropha curcas L. (Euphorbiaceae)|Plant Growth Regul.81:293-303|2017|10.1007/s10725-016-0206-7
179191|T||Emamipoor,Y., and M. Maziah|An Efficient Method in Breaking of Dormancy from Bunium persicum (Boiss) Fedtsch Seeds: A Valuable Herb of Middle East and Central Asia|Asian Pac. J. Trop. Biomed.4(8): 642-649|2014|10.12980/APJTB.4.2014APJTB-2014-0042
179192|T||Niki,T., T. Mahesumu, T. Niki, and T. Nishijima|Localized High Expression of Type-A Response Regulator and Cytokinin Oxidase/Dehydrogenase Genes in Relation to Forchlorfenuron-Induced Changes in Flower Morphology in Torenia fournieri Lind|J. Jpn. Soc. Hortic. Sci.82(1): 69-77|2013|10.2503/jjshs1.82.69
179193|T||Niki,T., M. Hirai, T. Niki, A. Kanno, and T. Nishijima|Role of Floral Homeotic Genes in the Morphology of Forchlorfenuron-Induced Paracorollas in Torenia fournieri Lind|J. Jpn. Soc. Hortic. Sci.81(2): 204-212|2012|10.2503/jjshs1.81.204
179194|T||Murthy,B.N.S., R.P. Singh, and P.K. Saxena|Induction of High-Frequency Somatic Embryogenesis in Geranium (Pelargonium x hortorum bailey cv Ringo Rose) Cotyledonary Cultures|Plant Cell Rep.15:423-426|1996|10.1007/BF00232068
179195|T||Sunagawa,H., S. Agarie, M. Umemoto, Y. Makishi, and A. Nose|Effect of Urea-Type Cytokinins on the Adventitious Shoots Regeneration from Cotyledonary Node Explant in the Common Ice Plant, Mesembryanthemum crystallinum|Plant Prod. Sci.10(1): 47-56|2007|10.1626/pps.10.47
179196|T||Marble,S.C., and A. Chandler|Control of Skunk-Vine (Paederia foetida L.) with Preemergence and Postemergence Herbicides in Central Florida During the Winter Season|Invasive Plant Sci. Manag.12:51-59|2019|10.1017/inp.2019.1
179197|T||Miele,K.M., J.J. Henderson, and J.C. Inguagiato|Glyphosate Efficacy as Influenced by Cultivation Practices on a Creeping Bentgrass Fairway Turf|Hortscience52(11): 1621-1626|2017|10.21273/HORTSCI12221-17
179198|T||Loeb,R.E., W. Peters, and S. Ward|Management of the Invasive Shrub Amur Honeysuckle (Lonicera maackii) for the Endangered Perennial Wild Dill (Perideridia americana)|Invasive Plant Sci. Manag.12:68-73|2019|10.1017/inp.2018.31
179200|A||Newete,S.W., B.F.N. Erasmus, I.M. Weiersbye, M.A. Cho, and M.J. Byrne|Hyperspectral Reflectance Features of Water Hyacinth Growing Under Feeding Stresses of Neochetina spp. and Different Heavy Metal Pollutants|Int. J. Remote Sens.35(3): 799-817|2014|10.1080/01431161.2013.873145
179201|T||Chao,Z., S. Yin-Hua, D. De-Xin, L. Guang-Yue, C. Yue-Ting, H. Nan, Z. Hui, D. Zhong-Ran, L. Feng, S. Jing, and W. Yong-|Aspergillus niger Changes the Chemical Form of Uranium to Decrease Its Biotoxicity, Restricts Its Movement in Plant and Increase the Growth of Syngonium podophyllum|Chemosphere224:316-323|2019|10.1016/j.chemosphere.2019.01.098
179202|T||Ren,C.G., C.C. Kong, S.X. Wang, and Z.H. Xie|Enhanced Phytoremediation of Uranium-Contaminated Soils by Arbuscular Mycorrhiza and Rhizobium|Chemosphere217:773-779|2019|10.1016/j.chemosphere.2018.11.085
179203|A||Mkandawire,M., and E.G. Dudel|Homeostatic Regulation of Elemental Stoichiometry by Lemna gibba L. G3 when Nutrient Interact with Toxic Metals|Ecotoxicology21(2): 456-464|2012|10.1007/s10646-011-0805-z
179204|A||Goulet,R.R., and P. Thompson|Bioaccumulation and Toxicity of Uranium, Arsenic, and Nickel to Juvenile and Adult Hyalella azteca in Spiked Sediment Bioassays|Environ. Toxicol. Chem.37(9): 2340-2349|2018|10.1002/etc.4179
179205|A||Simon,O., B. Gagnaire, V. Sommard, S. Pierrisnard, V. Camilleri, L. Carasco, R. Gilbin, and S. Frelon|Uranium Transfer and Accumulation in Organs of Danio rerio After Waterborne Exposure Alone or Combined with Diet-Borne Exposure|Environ. Toxicol. Chem.38(1): 90-98|2019|10.1002/etc.4283
179206|T||Rodriguez,P.B., F.V. Tome, M.P. Fernandez, and J.C. Lozano|Linearity Assumption in Soil-To-Plant Transfer Factors of Natural Uranium and Radium in Helianthus annuus L.|Sci. Total Environ.361:1-7|2006|10.1016/j.scitotenv.2005.08.020
179207|T||Hu,N., T. Lang, D. Ding, J. Hu, C. Li, H. Zhang, and G. Li|Enhancement of Repeated Applications of Chelates on Phytoremediation of Uranium Contaminated Soil by Macleaya cordata|J. Environ. Radioact.199/200:58-65|2019|10.1016/j.jenvrad.2018.12.023
179208|A||Li,C., M. Wang, X. Luo, L. Liang, X. Han, and X. Lin|Accumulation and Effects of Uranium on Aquatic Macrophyte Nymphaea tetragona Georgi: Potential Application to Phytoremediation and Environmental Monitoring|J. Environ. Radioact.198:43-49|2019|10.1016/j.jenvrad.2018.12.018
179209|T||Qi,X., X. Hao, X. Chen, S. Xiao, S. Chen, X. Luo, S. Wang, J. Tian, D. Wang, and Y. Tang|Integrated Phytoremediation System for Uranium-Contaminated Soils by Adding a Plant Growth Promoting Bacterial Mixture and Mowing Grass|J. Soils Sediments19(4): 1799-1808|2019|10.1007/s11368-018-2182-1
179210|T||Mitrovic,B., M. Stojanovic, Z. Sekulic, V. Andric, M. Vicentijevic, and B. Vranjes|Toxicity of High Uranium Doses in Broilers and Protection with Mineral Adsorbents|Radiat. Environ. Biophys.58:385-391|2019|10.1007/s00411-019-00790-5
179211|T||Meng,F., D. Jin, K. Guo, S.L. Larson, J.H. Ballard, L. Chen, Z. Arslan, G. Yuan, J.R. White, L. Zhou, Y. Ma, C.A. Waggo|Influences of U Sources and Forms on Its Bioaccumulation in Indian Mustard and Sunflower|Water Air Soil Pollut.229(369): 11 p.|2018|
179212|A||Nunes,B., B.B. Castro, J. Gomes, T. Carvalho, and F. Goncalves|Cholinesterases as Environmental Biomarkers to Address the Putative Effects of Low, Realistic Levels of Waterborne Uranium|Ecol. Indic.95:1019-1025|2018|10.1016/j.ecolind.2017.05.028
179213|T||Serre,N.B.C., C. Alban, J. Bourguignon, and S. Ravanel|Uncovering the Physiological and Cellular Effects of Uranium on the Root System of Arabidopsis thaliana|Environ. Exp. Bot.157:121-130|2019|10.1016/j.envexpbot.2018.10.004
179214|T||Huang,Z., S. Tang, L. Zhang, L. Ma, S. Ding, L. Du, D. Zhang, Y. Jin, R. Wang, C. Huang, and C. Xia|Interaction Between U and Th on Their Uptake, Distribution, and Toxicity in V S. Alfredii Based on the Phytoremediation of U and Th|Environ. Sci. Pollut. Res. Int.24(3): 2996-3005|2017|10.1007/s11356-016-8037-7
179215|T||Imran,M., S. Hu, X. Luo, Y. Cao, and N. Samo|Phytoremediation Through Bidens pilosa L., a Nonhazardous Approach for Uranium Remediation of Contaminated Water|Int. J. Phytoremediat.:1-8|2019|
179216|T||Ault,K., V. Viswanath, J. Jayawickrama, C. Ma, J. Eaton, R. Meilan, G. Beauchamp, W. Hohenschuh, G. Murthy, and S.H. St|Improved Growth and Weed Control of Glyphosate-Tolerant Poplars|New For. 47:653-667|2016|10.1007/s11056-016-9536-6
179217|T||Stensvand,A., and J. Borve|Evaluation of Four New Fungicides Against Brown Rot and Grey Mould in Sweet Cherries (Prunus avium L.)|Ann. Appl. Biol.134(suppl.): 14-15|1999|
179218|T||Jorgensen,L.N., and B.J. Nielsen|Reduced Dosages of Fungicides for Controlling Wheat Diseases in Denmark|Br. Crop Prot. Conf. Pests Dis.:609-614|1992|
179219|T||Wainwright,A., J. Jeitner, and P. Cazin-Bourguignon|Reduction in the Wheat Ear Disease Complex with Tebuconazole Sprays|Br. Crop Prot. Conf. Pests Dis.:621-626|1992|
179220|T||Bolton,B.J.G., and N.M. Adam|The Use of Tebuconazole for Disease Control and Subsequent Effects on Lodging in Oilseed Rape|Br. Crop Prot. Conf. Pests Dis.:675-680|1992|
179221|T||Noegel,K.A., J.W. Bell, and R.D. Rudolph|Control of Soilborne and Foliar Diseases of Peanut|Br. Crop Prot. Conf. Pests Dis.:939-944|1992|
179222|T||Suty,A., A. Mauler-Machnik, and R. Courbon|New Findings on the Epidemiology of Fusarium Ear Blight on Wheat and Its Control with Tebuconazole|Br. Crop Prot. Conf. Pests Dis.:511-516|2001|
179223|T||Grant,C., and R. Kennedy|Evaluation of Fungicides for Control of Leek Rust (Puccinia allii)|Tests Agrochem. Cultiv.16:16-17|1995|
179224|T||Hack,C.|Fungicidal and Plant Growth Regulatory Effects of Tebuconazole on Linseed|Tests Agrochem. Cultiv.15:22-23|1994|
179225|T||Suty,A., and K.H. Kuck|Sensitivity of Wheat Leaf Spot Septoria tritici to Tebuconazole|Br. Crop Prot. Conf. Pests Dis.:689-694|1996|
179226|T||Cotterill,P.J.|Evaluation of Fungicides, Applied at Seeding, Against Rhizoctonia Root Rot of Wheat|Tests Agrochem. Cultiv.11:48-49|1990|
179227|T||San Miguel,A., P. Schroder, R. Harpaintner, T. Gaude, P. Ravanel, and M. Raveton|Response of Phase II Detoxification Enzymes in Phragmites australis Plants Exposed to Organochlorines|Environ. Sci. Pollut. Res.20(5): 3464-3471|2013|10.1007/s11356-012-1301-6
179228|T||Wainwright,A., D.B. Morris, and R.H. Meredith|New Seed Treatments Based on Bitertanol, Tebuconazole and Triazoxide for Seed Borne Disease Control in Barley|BCPC Monogr. - Br. Crop Prot. Counc.57:103-108|1994|
179229|T||Maiti,M.K., S.K. Raj, and S. Das|Management of Leaf Spot (Cercospora arachidicola and Phaeoisariopsis personata) of Groundnut (Arachis hypogaea) by Seed Treatment with Non-Conventional Chemicals|Indian J. Agric. Sci.75(7): 452-453|2005|
179230|T||Brazauskiene,I., and E. Petraitiene|Disease Incidence and Severity of Phoma Stem Canker (Phoma lingam) on Winter Oilseed Rape (Brassica napus L.) in Lithuania as Affected by Different Prochloraz and Tebuconazole Application Times|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)111(5): 439-450|2004|
179232|T||Chakraborti,S.P., K. Vijayan, B.N. Roy, and S.M.H. Qadri|In Vitro Induction of Tetraploidy in Mulberry (Morus alba L.)|Plant Cell Rep.17(10): 799-803|1998|10.1007/s002990050486
179233|T||Mann,J.D., and W.B. Storey|Rapid Action of Carbamate Herbicides Upon Plant Cell Nuclei|Cytologia31(2): 203-207|1966|10.1508/cytologia.31.203
179234|T||Hollomon,D.W., and J. Butters|Variation in Sensitivity to Tebuconazole in Cereal Mildews|In: J.H.Jorgensen (Ed.), Integrated Control of Cereal Mildews: Virulence Patterns and Their Change, RISO National Laboratory, Roskilde, Denmark:155-160|1991|
179235|T||Jorgensen,L.N., and B.J. Nielsen|Control of Leaf Diseases in Winter Wheat Using Ergosterol Inhibiting Fungicides|Tidsskr. Planteavl (Multiple Languages)94(2): 241-248|1990|
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179238|T||Zange,B.J., Z. Kang, and H. Buchenauer|Effect of Folicur on Infection Process of Fusarium culmorum in Wheat Spikes|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(1): 52-64|2005|
179239|T||Baijal,S.K., and B.K. Kaul|Karyomorphological Studies in Coriandrum sativum L. and Cuminum cyminum L.|Cytologia38(2): 211-217|1973|10.1508/cytologia.38.211
179240|T||Owen,H.R., and A.R. Miller|A Comparison of Staining Techniques for Somatic Chromosomes of Strawberry|Hortscience28(2): 155-156|1993|10.21273/HORTSCI.28.2.155
179241|T||Meharg,A.A., Q.J. Cumbes, and M.R. Macnair|Pre-Adaptation of Yorkshire Fog, Holcus lanatus L. (Poaceae) to Arsenate Tolerance|Evolution47(1): 313-316|1993|10.2307/2410139
179242|T||Yunis,H., Y. Elad, and Y. Mahrer|Influence of Fungicidal Control of Cucumber and Tomato Grey Mold (Botrytis cinerea) on Fruit Yield|Pestic. Sci.31(3): 325-336|1991|10.1002/ps.2780310307
179243|AT||Monsanto Co.|Toxicity Data with Cover Letter|EPA/OTS 878210865:109 p.|1983|
179244|T||Jaiman,R.K., and S.C. Jain|Effect of Fungicides on Root Rot of Cluster Bean Caused by Macrophomina phaseolina|Environ. Ecol.28(2A): 1138-1140|2010|
179245|T||Prados-Ligero,A.M., J. Bascon-Fernandez, C. Calvet-Pinos, C. Corpas-Hervias, A.L. Ruiz, J.M. Melero-Vara, and M.J. Basa|Effect of Different Soil and Clove Treatments in the Control of White Rot of Garlic|Ann. Appl. Biol.140(3): 247-253|2002|10.1111/j.1744-7348.2002.tb00178.x
179246|T||Mathew,K.A., and S.K. Gupta|Studies on Web Blight of French Bean Caused by Rhizoctonia solani and Its Management|Indian J. Mycol. Plant Pathol.26(2): 171-177|1996|
179247|T||Singh,K.P., and R. Pal|Performance of Fungicides to Control Hill Bunt of Wheat in Central Himalaya|J. Mycol. Plant Pathol.28(2): 206-208|1998|
179248|T||Homdork,S., H. Fehrmann, and R. Beck|Effects of Field Application of Tebuconazole on Yield, Yield Components and the Mycotoxin Content of Fusarium-Infected Wheat Grain|J. Phytopathol.148(1): 1-6|2000|10.1111/j.1439-0434.2000.tb04617.x
179249|T||Barnard,A., and J.L. Purchase|The Relationship of Preharvest Sprouted Seed and Seed Treatment to Emergence and Yield of Winter Wheat (Triticum aestivum L.) in the Eastern Free State|Seed Sci. Technol.26(3): 711-718|1998|
179250|T||San Miguel,A., M. Faure, P. Ravanel, and M. Raveton|Biological Responses of Maize (Zea mays) Plants Exposed to Chlorobenzenes. Case Study of Monochloro-, 1,4-Dichloro- and 1,2,4-Trichloro-Benzenes|Ecotoxicology21(2): 315-324|2012|10.1007/s10646-011-0792-0
179251|T||Fettig,C.J., D.M. Grosman, and A.S. Munson|Efficacy of Abamectin and Tebuconazole Injections to Protect Lodgepole Pine from Mortality Attributed to Mountain Pine Beetle (Coleoptera: Curculionidae) Attack and Progression of Blue Stain Fungi|J. Entomol. Sci.48(4): 270-278|2013|10.18474/0749-8004-48.4.270
179252|T||Raske,A.G., and J.K. Robins|Wood Borer Control in Spruce Logs with p-Dichlorobenzene and Plastic Sheeting (Coleoptera: Cerambycidae)|J. Entomol. Soc. B. C.72:15-17|1975|
179253|T||Fullerton,R.A., A. Stewart, and E.A. Slade|Use of Demethylation Inhibiting Fungicides (DMIs) for the Control of Onion White Rot (Sclerotium cepivorum Berk.) in New Zealand|N. Z. J. Crop Hortic. Sci.23(2): 121-125|1995|10.1080/01140671.1995.9513878
179254|T||Wojcik,A., and A. Krajewski|Preliminary Research on Mortality of Wood Destroying Anobiidae (Coleoptera) Following the Application of P-Dichlorobenzene in Combination with Low Oxygen Atmosphere Fumigation|Pol. J. Entomol.87(2): 141-151|2018|10.2478/pjen-2018-0010
179255|T||Tiwari,S., and D.P. Tiwari|Cytological Effects of Colchicine, Paradichlorobenzene and 8-Hydroxyquinoline on Root Tips of Lentils|LENS Newsl.10(1): 22-24|1983|
179256|A||Khalil Bey,M., and A. Halawani|Cloroben as Snail Poison for Control of Bilharziasis - Its Danger to the Rice Plant|J. Egypt. Med. Assoc.30(9): 454-460|1947|
179257|T||Kakiichi,N., T. Yamamoto, S.I. Kamata, H. Otsuka, and K. Uchida|Toxicity of Amphoteric Surfactant, Biguanide Compounds and Orthodichlorobenzene Preparation Against Ciliate Colpoda aspera|Anim. Sci. Technol.64(10): 1013-1016|1993|
179258|T||Singh,P., and G. Prasad|Poplar Stem Borer, Apriona cinerea Chevrolat (Coleoptera: Cerambycidae): Its Biology, Ecology and Control|Indian For.111(7): 517-524|1985|
179259|T||Sarbhoy,R.K.|Effect of Paradichlorobenzene on the Somatic Chromosomes and Mitosis of Lens esculenta (L.) Moench|Cytologia45(3): 381-388|1980|10.1508/cytologia.45.381
179260|T||Bhardwaj,S.P.|Field Evaluation of Various Chemicals for the Control of Leopard Moth, Zeuzera multistrigata, on Cherry (Prunus avium)|Indian J. Agric. Sci.58(1): 79-80|1988|
179261|T||Miranda,C.L., J.L. Wang, M.C. Henderson, H.S. Nakaue, and D.R. Buhler|Effects of Chlorobenzenes on Hepatic Porphyrin and Drug Metabolism in Chick Embryo and Day-Old Chick|Res. Commun. Mol. Pathol. Pharmacol.46(1): 13-24|1984|
179262|T||Chauvin,G., and G. Vannier|Insecticidal Properties of Paradichlorobenzene and Camphor: Effects on Behaviour, Transpiration and Heat Resistance. A Preliminary Study on Tineola bisselliella Hum. (Lepidoptera: Tineidae)|Acta Oecol. (Montrouge)15(1): 23-29|1994|
179263|T||Zhang,Y., M. Wu, H. Yi, Y. Zhang, W. Zhai, and J. Feng|Studies on Mitotic Chromosome Preparation and Karyotype Analysis of Two Different Groups of Melon in China|Acta Hortic.871:665-671|2010|10.17660/ActaHortic.2010.871.91
179264|A||McIntyre,D.O.|The Effect of Temperature on Uptake Rate Constants, Depuration Rate Constants, and Bioconcentration Factors (BCF) for Six Organochlorines in the Aquatic Insect, Chironomus riparius|Ph.D. Thesis, The Ohio State University, Columbus, OH:158 p.|1988|
179265|T||Solomon,J.D.|Comparative Effectiveness of Gallery-Injected Insecticides and Fumigants to Control Carpenterworms  (Lepidoptera: Cossidae) and Oak Clearwing Borers (Lepidoptera: Sesiidae)|J. Econ. Entomol.78(2): 485-488|1985|10.1093/jee/78.2.485
179266|T||Jaffe,B.D., A.N. Lois, and C. Guedot|Effect of Fungicide on Pollen Foraging by Honeybees (Hymenoptera: Apidae) in Cranberry Differs by Fungicide Type|J. Econ. Entomol.112(1): 499-503|2019|10.1093/jee/toy353
179267|T||Lehoczki-Krsjak,S., M. Varga, A. Szabo-Hever, and A. Mesterhazy|Translocation and Degradation of Tebuconazole and Prothioconazole in Wheat Following Fungicide Treatment at Flowering|Pest Manag. Sci.69:1216-1224|2013|10.1002/ps.3486
179268|T||Bruhl,C.A., B. Guckenmus, M. Ebeling, and R. Barfknecht|Exposure Reduction of Seed Treatments Through Dehusking Behaviour of the Wood Mouse (Apodemus sylvaticus)|Environ. Sci. Pollut. Res. Int.18:31-37|2011|10.1007/s11356-010-0351-x
179269|T||Xie,Y., L.Y.Z. Li, W. Hao, J. Chang, P. Xu, B. Guo, J. Li, and H. Wang|Comparative Toxicokinetics and Tissue Distribution of Prothioconazole and Prothioconazole-Desthio in Chinese Lizards (Eremias argus) and Transcriptional Responses of Metabolic-Related Genes|Environ. Pollut.247:524-533|2019|10.1016/j.envpol.2019.01.055
179270|AT||Zhai,W., L. Zhang, J. Cui, Y. Wei, P. Wang, D. Liu, and Z. Zhou|The Biological Activities of Prothioconazole Enantiomers and Their Toxicity Assessment on Aquatic Organisms|Chirality31:468-475|2019|10.1002/chir.23075
179272|A||Reno,U., L. Regaldo, E. Vidal, M. Mariani, C. Zalazar, and A.M. Gagneten|Water Polluted with Glyphosate Formulations: Effectiveness of a Decontamination Process Using Chlorella vulgaris Growing as Bioindicator|J. Appl. Phycol.28(4): 2279-2286|2016|10.1007/s10811-015-0755-6
179273|A||Antunes,A.M., T.L. Rocha, F.S. Pires, M.A. De Freitas, V.R.M.C. Leite, S. Arana, P.C. Moreira, and S.M.T. Saboia-Morais|Gender-Specific Histopathological Response in Guppies Poecilia reticulata Exposed to Glyphosate or Its Metabolite Aminomethylphosphonic Acid|J. Appl. Toxicol.37:1098-1107|2017|10.1002/jat.3461
179274|A||Liu,H., T. Chu, L. Chen, W. Gui, and G. Zhu|In Vivo Cardiovascular Toxicity Induced by Acetochlor in Zebrafish Larvae|Chemosphere181:600-608|2017|10.1016/j.chemosphere.2017.04.090
179275|T||Zafeiridou,G., A. Geronikaki, C. Papaefthimiou, M. Tryfonos, E.K. Kosmidis, and G. Theophilidis|Assessing the Effects of the Three Herbicides Acetochlor, 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T) and 2,4-Dichlorophenoxyacetic Acid on the Compound Action Potential of the Sciatic Nerve of the Frog (Rana ridibunda)|Chemosphere65(6): 1040-1048|2006|10.1016/j.chemosphere.2006.03.032
179276|T||Tahir,H.M., A. Butt, S.Y. Khan, K.R. Ahmad, M. Arshad, and S. Nawaz|Effects of Acetochlor (Herbicide) on the Survival and Avoidance Behaviour of Spiders|Afr. J. Biotechnol.10(33): 6265-6268|2011|
179277|A||Jiang,J., S. Wu, X. Liu, Y. Wang, X. An, L. Cai, and X. Zhao|Effect of Acetochlor on Transcription of Genes Associated with Oxidative Stress, Apoptosis, Immunotoxicity and Endocrine Disruption in the Early Life Stage of Zebrafish|Environ. Toxicol. Pharmacol.40(2): 516-523|2015|10.1016/j.etap.2015.08.005
179278|A||Yang,M., J. Hu, S. Li, Y. Ma, W. Gui, and G. Zhu|Thyroid Endocrine Disruption of Acetochlor on Zebrafish (Danio rerio) Larvae|J. Appl. Toxicol.36(6): 844-852|2016|10.1002/jat.3230
179279|T||Sewell,T.R., S. Moloney, M. Ashworth, F. Ritchie, A. Mashanova, Y.J. Huang, H.U. Stotz, and B.D.L. Fitt|Effects of a Penthiopyrad and Picoxystrobin Fungicide Mixture on Phoma Stem Canker (Leptosphaeria spp.) on UK Winter Oilseed Rape|Eur. J. Plant Pathol.145:675-685|2016|10.1007/s10658-016-0916-8
179280|T||Komives,T., G. Gullner, H. Rennenberg, and J.E. Casida|Ability of Poplar (Populus spp.) to Detoxify Chloroacetanilide Herbicides|Water Air Soil Pollut. Focus3:277-283|2003|10.1023/A:1023957112930
179281|T||Jursik,M., J. Soukup, J. Holec, J. Andr, and K. Hamouzova|Efficacy and Selectivity of Pre-Emergent Sunflower Herbicides Under Different Soil Moisture Conditions|Plant Prot. Sci.51(4): 214-222|2015|10.17221/82/2014-PPS
179282|T||Grichar,W.J., P.A. Dotray, and L.M. Etheredge|Weed Control and Peanut (Arachis hypogaea L.) Cultivar Response to Encapsulated Acetochlor|Peanut Sci.42(2): 100-108|2015|10.3146/0095-3679-42.2.100
179283|T||Yang,G., C. Chen, Y. Yu, H. Zhao, W. Wang, Y. Wang, L. Cai, Y. He, and X. Wang|Combined Effects of Four Pesticides and Heavy Metal Chromium (VI) on the Earthworm Using Avoidance Behavior as an Endpoint|Ecotoxicol. Environ. Saf.157:191-200|2018|10.1016/j.ecoenv.2018.03.067
179284|T||Garcia-Torres,L., and F. Lopez-Granados|Control of Broomrape (Orobanche crenata Forsk.) in Broad Bean (Vicia faba L.) with Imidazolinones and Other Herbicides|Weed Res. (Multiple Languages)31(4): 227-235|1991|10.1111/j.1365-3180.1991.tb01762.x
179285|T||Smith,J.L., V. Limay-Rios, D.C. Hooker, and A.W. Schaafsma|Fusarium graminearum Mycotoxins in Maize Associated with Striacosta albicosta (Lepidoptera: Noctuidae) Injury|J. Econ. Entomol.111(3): 1227-1242|2018|10.1093/jee/toy005
179286|T||Marois,J.J., M.T. Dunn, and G.C. Papavizas|Reinvasion of Fumigated Soil by Fusarium oxysporum F.sp. melonis|Phytopathology73(5): 680-684|1983|10.1094/Phyto-73-680
179287|T||Degani,O., S. Dor, D. Movshowitz, E. Fraidman, O. Rabinovitz, and S. Graph|Effective Chemical Protection Against the Maize Late Wilt Causal Agent, Harpophora maydis, in the Field|PLoS One13:29 p.|2018|10.1371/journal.pone.0208353
179288|T||Pasini,R.A., J.B. Pazini, A.D. Grutzmacher, M. Rakes, and F.S. Armas|Comparative Selectivity of Herbicides Used in Wheat Crop on the Predators Chrysoperla externa and Eriopis connexa|Planta Daninha (Impr.) (Multiple Languages)36:13 p.|2018|10.1590/s0100-83582018360100135
179289|A||Xu,C., X. Sun, L. Niu, W. Yang, W. Tu, L. Lu, S. Song, and W. Liu|Enantioselective Thyroid Disruption in Zebrafish Embryo-Larvae Via Exposure to Environmental Concentrations of the Chloroacetamide Herbicide Acetochlor|Sci. Total Environ.653:1140-1148|2019|10.1016/j.scitotenv.2018.11.037
179290|T||Mesterhazy,A., M. Varga, B. Toth, C. Kotai, T. Bartok, A. Veha, K. Acs, C. Vagvolgyi, and S. Lehoczki-Krsjak|Reduction of Deoxynivalenol (DON) Contamination by Improved Fungicide Use in Wheat. Part 2. Farm Scale Tests with Different Nozzle Types and Updating the Integrated Approach|Eur. J. Plant Pathol.151:1-20|2018|
179291|A||Wang,H., Z. Meng, L. Zhou, Z. Cao, X. Liao, R. Ye, and H. Lu|Effects of Acetochlor on Neurogenesis and Behaviour in Zebrafish at Early Developmental Stages|Chemosphere220:954-964|2019|10.1016/j.chemosphere.2018.12.199
179292|T||Bioassay Systems Corporation|Nine Reports Regarding the Effects of Various Chlorinated Benzenes - with Cover Letter Dated 051183|EPA/OTS 40-83205458320545:181 p.|1983|
179293|T||Acs,K., S. Lehoczki-Krsjak, M. Varga, C. Kotai, E. Acs, A. Salgo, and A. Mesterhazy|Reduction of Deoxynivalenol (DON) Contamination by Improved Fungicide Use in Wheat. Part 3. Reduction of Fusarium Head Blight and Influence on Quality Traits in Cultivars with Different Resistance Levels|Eur. J. Plant Pathol.151:21-38|2018|
179294|T||Limay-Rios,V., and A.W. Schaafsma|Effect of Prothioconazole Application Timing on Fusarium Mycotoxin Content in Maize Grain|J. Agric. Food Chem.66:4809-4819|2018|10.1021/acs.jafc.8b00788
179295|T||Lin,H., B. Dong, and J. Hu|Residue and Intake Risk Assessment of Prothioconazole and Its Metabolite Prothioconazole-Desthio in Wheat Field|Environ. Monit. Assess.189:9 p.|2017|
179296|A||Hinther,A., D. Domanski, S. Vawda, and C.C. Helbing|C-Fin:  A Cultured Frog Tadpole Tail Fin Biopsy Approach for Detection of Thyroid Hormone-Disrupting Chemicals|Environ. Toxicol. Chem.29(2): 380-388|2010|10.1002/etc.44
179297|T||Bien,B.|A Comparison of a Tannic Acid Biopesticide and a Commercial Fungicide Used for Crop Protection Against Fusarium Head Blight|M.S.Thesis, Western Carolina University, Cullowhee, NC:75 p.|2016|
179298|A||Xie,J., L. Zhao, K. Liu, and W. Liu|Enantiomeric Environmental Behavior, Oxidative Stress and Toxin Release of Harmful Cyanobacteria Microcystis aeruginosa in Response to Napropamide and Acetochlor|Environ. Pollut.246:728-733|2019|10.1016/j.envpol.2018.12.056
179299|T||Owen,M.D.K.|A Comparison of the Herbicidal Activity of Several Chloroacetamides and Their Effects on Protein Synthesis in Carrot and Soybean Cell Suspension Cultures|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:154 p.|1982|
179300|T||Shen,H., Z. Liu, K. Yan, L. Zou, J. Wen, Y. Guo, K. Li, and X. Guo|Cytological Study of Gender Conversion in Amur Grape|J. Am. Soc. Hortic. Sci.143(4): 289-295|2018|10.21273/JASHS04408-18
179301|T||Mezzari,M.P.|Enzymatic Transformations of Chloroacetanilide Herbicides and Explosive Chemicals by Plants: In Vivo and In Vitro Studies|Ph.D. Thesis, University of Iowa, Iowa City, IA:209 p.|2004|
179302|T||Morris,D.B., A. Wainwright, and R.H. Meredith|New Seed Treatments Based on Bitertanol and Tebuconazole for Seed-Borne Disease Control in Wheat|BCPC Monogr. - Br. Crop Prot. Counc.57:97-102|1994|
179303|T||Child,R.D., D.E. Evans, J. Allen, and G.M. Arnold|Growth Responses in Oilseed Rape (Brassica napus L.) to Combined Applications of the Triazole Chemicals Triapenthenol and Tebuconazole and Interactions with Gibberellin|Plant Growth Regul.13(2): 203-212|1993|10.1007/BF00024263
179304|T||Ivic,D., A.M. Domijan, M. Peraica, and B. Cvjetkovic|Fumonisin B1 and Zearalenone Contamination of Wheat in Croatia and Influence of Fungicide Treatments|Phytoprotection (Multiple Languages)90(1): 31-34|2009|10.7202/038984ar
179305|T||Duker,A., and R. Kubiak|Stem Injection of Triazoles for the Protection of Vitis vinifera L. ('Riesling') Against Powdery Mildew (Uncinula necator)|Vitis (Multiple Languages)50(2): 73-79|2011|
179306|T||Melero-Vara,J.M., A.M. Prados-Ligero, and M.J. Basallote-Ureba|Comparison of Physical, Chemical and Biological Methods of Controlling Garlic White Rot|Eur. J. Plant Pathol.106(6): 581-588|2000|10.1023/A:1008777706814
179307|T||Paton,L.G., M.D.R. Marrero, and D.P. Llamas|In Vitro and Field Efficacy of Three Fungicides Against Fusarium Bulb Rot of Garlic|Eur. J. Plant Pathol.148(2): 321-328|2017|10.1007/s10658-016-1091-7
179308|T||Pazini,J.D., R.A. Pasini, M. Rakes, F.S. De Armas, E.J. Seidel, J.F.D.S. Martins, and A.D. Grutzmacher|Toxicity of Pesticide Tank Mixtures from Rice Crops Against Telenomus podisi Ashmead (Hymenoptera: Platygastridae)|Neotrop. Entomol. (Multiple Languages)46(4): 461-470|2017|10.1007/s13744-017-0483-5
179309|T||Doohan,F.M.|Molecular Techniques for Studying Fusarium Ear Blight of Wheat|Ph.D. Thesis, Aston University, United Kingdom:302 p.|1998|
179310|T||Herbert,L.T., D.E. Vazquez, A. Arenas, and W.M. Farina|Effects of Field-Realistic Doses of Glyphosate on Honeybee Appetitive Behaviour|J. Exp. Biol.217:3457-3464|2014|
179311|T||Balbuena,M.S., L. Tison, M.L. Hahn, U. Greggers, R. Menzel, and W.M. Farina|Effects of Sublethal Doses of Glyphosate on Honeybee Navigation|J. Exp. Biol.218:2799-2805|2015|10.1242/jeb.117291
179312|T||Gonalons,C.M., and W.M. Farina|Impaired Associative Learning After Chronic Exposure to Pesticides in Young Adult Honey Bees|J. Exp. Biol.221(7): 8 p.|2018|
179313|T||Thompson,H.M., S.L. Levine, J. Doering, S. Norman, P. Manson, P. Sutton, and G. Von Merey|Evaluating Exposure and Potential Effects on Honeybee Brood (Apis mellifera) Development Using Glyphosate as an Example|Integr. Environ. Assess. Manag.10(3): 463-470|2014|10.1002/ieam.1529
179315|A||Shimada,N., and K. Yamauchi|Characteristics of 3,5,3'-Triiodothyronine (T3)-Uptake System of Tadpole Red Blood Cells: Effect of Endocrine-Disrupting Chemicals on Cellular T3 Response|J. Endocrinol.183(3): 627-637|2004|10.1677/joe.1.05893
179316|T||Grichar,W.J., J.J. Rose, P.A. Dotray, T.A. Baughman, D.R. Langham, K. Werner, and M. Bagavathiannan|Response of Sesame to Selected Herbicides Applied Early in the Growing Season|Int. J. Agron.2018:11 p.|2018|10.1155/2018/9373721
179317|T||Hao,Y., L. Zhao, Y. Sun, X. Li, L. Weng, H. Xu, and Y. Li|Enhancement Effect of Earthworm (Eisenia fetida) on Acetochlor Biodegradation in Soil and Possible Mechanisms|Environ. Pollut.242:728-737|2018|10.1016/j.envpol.2018.07.029
179319|T||Scheerer,U., R. Haensch, R.R. Mendel, S. Kopriva, H. Rennenberg, and C. Herschbach|Sulphur Flux Through the Sulphate Assimilation Pathway is Differently Controlled by Adenosine 5'-Phosphosulphate Reductase Under Stress and in Transgenic Poplar Plants Overexpressing gamma-ECS, SO, or APR|J. Exp. Bot.61(2): 609-622|2010|10.1093/jxb/erp327
179320|T||Coventry,E., R. Noble, A. Mead, F.R. Marin, J.A. Perez, and J.M. Whipps|Allium White Rot Suppression with Composts and Trichoderma viride in Relation to Sclerotia Viability|Phytopathology96(9): 1009-1020|2006|10.1094/PHYTO-96-1009
179321|T||Koehler,A.M., and H.D. Shew|Enhanced Overwintering Survival of Stevia by Qol Fungicides Used for Management of Sclerotium rolfsii|Plant Dis.101(8): 1417-1421|2017|10.1094/PDIS-02-17-0277-RE
179322|T||Salam,K.P., G.J. Thomas, C. Beard, R. Loughman, W.J. MacLeod, and M.U. Salam|Application of Meta-Analysis in Plant Pathology: A Case Study Examining the Impact of Fungicides on Wheat Yield Loss from the Yellow Spot-Septoria nodorum Blotch Disease Complex in Western Australia|Food Security5(3): 319-325|2013|10.1007/s12571-013-0255-y
179323|T||Knaflewski,M., Z. Weber, A. Biniek, and M. Werner|Fungicide Control of Fusarium Infection of Asparagus|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)58(3B): 1493-1499|1993|
179324|T||Le,C.N., R. Mendes, M. Kruijt, and J.M. Raaijmakers|Genetic and Phenotypic Diversity of Sclerotium rolfsii in Groundnut Fields in Central Vietnam|Plant Dis.96(3): 389-397|2012|10.1094/PDIS-06-11-0468
179325|T||Bowen,K.L., A.K. Hagan, and R. Weeks|Seven Years of Sclerotium rolfsii in Peanut Fields: Yield Losses and Means of Minimization|Plant Dis.76(10): 982-985|1992|10.1094/PD-76-0982
179326|T||Resende,M.L.V., G.B.A. Nojosa, L.S. Cavalcanti, M.A.G. Aguilar, L.H.C.P. Silva, J.O. Perez, G.C.G. Andrade, G.A. Carval|Induction of Resistance in Cocoa Against Crinipellis perniciosa and Verticillium dahliae by Acibenzolar-S-Methyl (ASM)|Plant Pathol.51(5): 621-628|2002|10.1046/j.1365-3059.2002.00754.x
179327|T||Cazar,M.E., G. Schmeda-Hirschmann, and L. Astudillo|Antimicrobial Butyrolactone I Derivatives from the Ecuadorian Soil Fungus Aspergillus terreus Thorn. var terreus|World J. Microbiol. Biotechnol.21(6/7): 1067-1075|2005|10.1007/s11274-004-8150-5
179328|T||Qin,Y.M., C.Y. Hu, Y. Pang, A.J. Kastaniotis, J.K. Hiltunen, and Y.X. Zhu|Saturated Very-Long-Chain Fatty Acids Promote Cotton Fiber and Arabidopsis Cell Elongation by Activating Ethylene Biosynthesis|Plant Cell19(11): 3692-3704|2007|10.1105/tpc.107.054437
179329|T||Cromey,M.G., D.R. Lauren, R.A. Parkes, K.I. Sinclair, S.C. Shorter, and A.R. Wallace|Control of Fusarium Head Blight of Wheat with Fungicides|Australas. Plant Pathol.30(4): 301-308|2001|10.1071/AP01065
179330|T||Wang,H., M.R. Fernandez, F.R. Clarke, R.M. DePauw, and J.M. Clarke|Effect of Leaf Spotting Diseases on Grain Yield and Seed Traits of Wheat in Southern Saskatchewan|Can. J. Plant Sci.82(3): 507-512|2002|10.4141/P01-128
179331|T||Robinson,M.A., M.J. Cowbrough, P.H. Sikkema, and F.J. Tardif|Winter Wheat (Triticum aestivum L.) Tolerance to Mixtures of Herbicides and Fungicides Applied at Different Timings|Can. J. Plant Sci.93(3): 491-501|2013|10.4141/cjps2012-181
179332|T||Jiang,J., L. Chen, Q. Sun, M. Sang, and Y. Huang|Application of Herbicides is Likely to Reduce Greenhouse Gas (N2O and CH4) Emissions from Rice-Wheat Cropping Systems|Atmos. Environ.107:62-69|2015|10.1016/j.atmosenv.2015.02.029
179333|T||Shtienberg,D., and D. Zohar|Fungicidal Disease Suppression and Yield Losses Associated with Sunflower Rust in Israel|Crop Prot.11(6): 529-534|1992|10.1016/0261-2194(92)90170-A
179334|T||Jorgensen,L.N., and B.J. Nielsen|Control of Yellow Rust (Puccinia striiformis) on Winter Wheat by Ergosterol Inhibitors at Full and Reduced Dosages|Crop Prot.13(5): 323-330|1994|10.1016/0261-2194(94)90045-0
179335|T||Ahmed,N.E., H.O. Kanan, S. Inanaga, Y.Q. Ma, and Y. Sugimoto|Impact of Pesticide Seed Treatments on Aphid Control and Yield of Wheat in the Sudan|Crop Prot.20(10): 929-934|2001|10.1016/S0261-2194(01)00047-3
179336|T||Cotterill,P.J.|Fungicide Treatments, Applied In-Furrow to Undisturbed or Cultivated Soils, for Control of Rhizoctonia Root Rot of Barley|Crop Prot.12(4): 273-278|1993|10.1016/0261-2194(93)90046-L
179337|T||Bai,Z., H.J. Xu, H.B. He, L.C. Zheng, and X.D. Zhang|Alterations of Microbial Populations and Composition in the Rhizosphere and Bulk Soil as Affected by Residual Acetochlor|Environ. Sci. Pollut. Res.20(1): 369-379|2013|10.1007/s11356-012-1061-3
179338|T||Li,X.Y., Z.C. Su, X. Li, C.G. Zhang, and H.W. Zhang|Assessing the Effects of Acetochlor on Soil Fungal Communities by DGGE and Clone Library Analysis|Ecotoxicology19(6): 1111-1116|2010|10.1007/s10646-010-0493-0
179339|A||Wang,J., Y. Lou, X. Zhuang, S. Song, W. Liu, and C. Xu|Magnetic Pr6O11/SiO2@Fe3O4 Particles as the Heterogeneous Catalyst for the Catalytic Ozonation of Acetochlor: Performance and Aquatic Toxicity|Sep. Purif. Technol.197:63-69|2018|10.1016/j.seppur.2017.12.052
179340|T||Wei,Y., S.Q. Li, and S.H. Hao|New Angular Oxazole-Fused Coumarin Derivatives: Synthesis and Biological Activities|Nat. Prod. Res.32(15): 1824-1831|2018|10.1080/14786419.2017.1405408
179341|T||Wu,Q., C. Liu, J. Yang, A. Guan, and H. Ma|Design, Synthesis, and Herbicidal Activity of Novel Quaternary Ammonium Salt Derivatives|Pestic. Biochem. Physiol.143:246-251|2017|10.1016/j.pestbp.2017.05.006
179342|T||Qiao,L., and S. Hao|Novel Trifluoromethylcoumarinyl Urea Derivatives: Synthesis, Characterization, Fluorescence, and Bioactivity|Molecules07:14 p.|2018|
179343|T||Jin,Y., H. Zhao, H. Lu, C.M. Kuemmel, J. Zhang, and D. Wang|Synthesis and Herbicidal Activity of Novel 1-(Diethoxy-Phosphoryl)-3-(4-One-1H-1,2,3-Triazol-1-yl)-Propan-2-yl Carboxylic Esters|Molecules20(1): 1088-1103|2015|10.3390/molecules20011088
179344|T||Wei,Y., K.L. Miao, and S.H. Hao|Novel 4-Methylumbelliferone Amide Derivatives: Synthesis, Characterization and Pesticidal Activities|Molecules23(122): 13 p.|2018|
179345|A||Mount,D.R., R.J. Erickson, T.L. Highland, J.R. Hockett, D.J. Hoff, C.T. Jenson, T.J. Norberg-King, K.N. Peterson, Z.M. |The Acute Toxicity of Major Ion Salts to Ceriodaphnia dubia: I. Influence of Background Water Chemistry|Environ. Toxicol. Chem.35(12): 3039-3057|2016|10.1002/etc.3487
179346|T||Motta,E.V.S., K. Raymann, and N.A. Moran|Glyphosate Perturbs the Gut Microbiota of Honey Bees|Proc. Natl. Acad. Sci. U.S.A.115(41): 10305-10310|2018|10.1073/pnas.1803880115
179348|T||Watson,A., H. Pung, and B.H. Hall|Managing Leaf Diseases of Carrots with Traditional and Alternative Fungicides Including Baseline Sensitivity Studies|Crop Prot.93:52-59|2017|10.1016/j.cropro.2016.11.017
179349|T||Soto-Arias,J.P., and G.P. Munkvold|Impacts of Foliar Fungicides on Infection of Soybean by Phomopsis spp. in Iowa, USA|Crop Prot.30(5): 577-580|2011|10.1016/j.cropro.2010.11.018
179350|T||Koehler,A.M., and H.D. Shew|Field Efficacy and Baseline Sensitivity of Septoria steviae to Fungicides Used for Managing Septoria Leaf Spot of Stevia|Crop Prot.109:95-101|2018|10.1016/j.cropro.2018.03.006
179351|T||Guo,Y., Q. Yang, W. Yan, B. Li, K. Qian, T. Li, W. Xiao, and L. He|Controlled Release of Acetochlor from Poly (Butyl Methacrylate-Diacetone Acrylamide) Based Formulation Prepared by Nanoemulsion Polymerisation Method and Evaluation of the Efficacy|Int. J. Environ. Anal. Chem.94(10): 1001-1012|2014|10.1080/03067319.2014.930844
179352|T||Amarasinghe,C.C., L. Tamburic-Ilincic, J. Gilbert, A.L. Brule-Babel, and W.G.D. Fernando|Evaluation of Different Fungicides for Control of Fusarium Head Blight in Wheat Inoculated with 3ADON and 15ADON Chemotypes of Fusarium graminearum in Canada|Can. J. Plant Pathol.35(2): 200-208|2013|10.1080/07060661.2013.773942
179353|T||Schisler,D.A., M.J. Boehm, P.A. Paul, A.P. Rooney, and C.A. Dunlap|Reduction of Fusarium Head Blight Using Prothioconazole and Prothioconazole-Tolerant Variants of the Fusarium Head Blight Antagonist Cryptococcus flavescens OH 182.9|Biol. Control86:36-45|2015|10.1016/j.biocontrol.2015.04.002
179354|T||Modderman,C.T., S. Markell, M. Wunsch, and J.S. Pasche|Efficacy of in-Furrow Fungicides for Management of Field Pea Root Rot Caused by Fusarium avenaceum and F. solani Under Greenhouse and Field Conditions|Plant Health Prog.19:212-219|2018|10.1094/PHP-06-18-0030-RS
179355|T||Tsai,Y.C., and T.B. Brenneman|Early-Season Fungicide Programs for Peanut Disease Management|Plant Health Prog.19:103-106|2018|10.1094/PHP-05-17-0029-RS
179356|T||Culbreath,A.K., A.J. Gevens, and K.L. Stevenson|Relative Effects of Demethylation-Inhibiting Fungicides on Late Leaf Spot of Peanut|Plant Health Prog.19:23-26|2018|10.1094/PHP-09-17-0053-RS
179357|T||Kharbikar,L.L., E.T. Dickin, and S.G. Edwards|Impact of Post-Anthesis Rainfall, Fungicide and Harvesting Time on the Concentration of Deoxynivalenol and Zearalenone in Wheat|Food Addit. Contam. Part A32(12): 2075-2085|2015|
179358|T||Lupwayi,N.Z., K.N. Harker, J.T. O'Donovan, T.K. Turkington, R.E. Blackshaw, L.M. Hall, C.J. Willenborg, Y. Gan, G.P. La|Relating Soil Microbial Properties to Yields of No-Till Canola on the Canadian Prairies|Eur. J. Agron.62:110-119|2015|10.1016/j.eja.2014.10.004
179359|T||Harveson,R.M.|Observations on Sunflower Rust in Nebraska and Management Efforts with Fungicide Application Timings|Proceedings of the National Sunflower Association Research Forum:6 p.|2010|
179360|T||Edwards,S.G., and N.P. Godley|Reduction of Fusarium Head Blight and Deoxynivalenol in Wheat with Early Fungicide Applications of Prothioconazole|Food Addit. Contam. Part A27(5): 629-635|2010|
179361|T||Reiss,A., and L.N. Jorgensen|Biological Control of Yellow Rust of Wheat (Puccinia striiformis) with Serenade ASO (Bacillus subtilis Strain QST713)|Crop Prot.93:1-8|2017|10.1016/j.cropro.2016.11.009
179362|T||Caldwell,C.D., D. MacDonald, Y. Jiang, M.A. Cheema, and J. Li|Effect of Fungicide Combinations for Fusarium Head Blight Control on Disease Incidence, Grain Yield, and Quality of Winter Wheat, Spring Wheat, and Barley|Can. J. Plant Sci.97(6): 1036-1045|2017|
179364|T||Wieczorek,T.M., G. Berg, R. Semaskiene, A. Mehl, H. Sierotzki, G. Stammler, A.F. Justesen, and L.N. Jorgensen|Impact of DMI and SDHI Fungicides on Disease Control and CYP51 Mutations in Populations of Zymoseptoria tritici from Northern Europe|Eur. J. Plant Pathol.143(4): 861-871|2015|10.1007/s10658-015-0737-1
179365|T||Augusto,J., T.B. Brenneman, A.K. Culbreath, and P. Sumner|Night Spraying Peanut Fungicides II. Application Timings and Spray Deposition in the Lower Canopy|Plant Dis.94:683-689|2010|10.1094/PDIS-94-6-0683
179366|T||Augusto,J., and T.B. Brenneman|Assessing Systemicity of Peanut Fungicides Through Bioassay of Plant Tissues with Sclerotium rolfsii|Plant Dis.96(3): 330-337|2012|10.1094/PDIS-04-11-0303
179367|T||Willyerd,K.T., C.A. Bradley, V. Chapara, S.P. Conley, P.D. Esker, L.V. Madden, K.A. Wise, and P.A. Paul|Revisiting Fungicide-Based Management Guidelines for Leaf Blotch Diseases in Soft Red Winter Wheat|Plant Dis.99(10): 1434-1444|2015|10.1094/PDIS-02-15-0218-RE
179368|T||Scarpino,V., A. Reyneri, M. Sulyok, R. Krska, and M. Blandino|Effect of Fungicide Application to Control Fusarium Head Blight and 20 Fusarium and Alternaria Mycotoxins in Winter Wheat (Triticum aestivum L.)|World Mycotoxin J.8:499-510|2015|10.3920/WMJ2014.1814
179369|T||Odstrcilova,L.|Changes in the Occurrence of Mycoflora on Caraway Seeds After Fungicide Application|Plant Prot. Sci.43(4): 146-150|2007|10.17221/2240-PPS
179370|T||Anderson,N.R., M.P. Romero Luna, J.D. Ravellette, and K.A. Wise|Impact of Foliar Fungicides on Gibberella Ear Rot and Deoxynivalenol Levels in Indiana Corn|Plant Health Prog.18:186-191|2017|10.1094/PHP-01-17-0010-RS
179371|T||Culbreath,A.K., R.C.,Jr. Kemerait, Y.C. Tsai, T.B. Brenneman, K.L. Stevenson, and E.G. Cantonwine|Effect of In-Furrow and Early-Season Banded Applications of Fungicides on Incidence of Early Leaf Spot of Peanut|Plant Health Prog.16:225-229|2015|10.1094/PHP-RS-15-0029
179372|T||Haidukowski,M., A. Visconti, G. Perrone, S. Vanadia, D. Pancaldi, L. Covarelli, R. Balestrazzi, and M. Pascale|Effect of Prothioconazole-Based Fungicides on Fusarium Head Blight, Grain Yield and Deoxynivalenol Accumulation in Wheat Under Field Conditions|Phytopathol. Mediterr.51(1): 236-246|2012|
179373|T||Wenda-Piesik,A., G. Lemanczyk, D. Panka, and D. Piesik|Risk Assessment Posed by Diseases in Context of Integrated Management of Wheat|J. Plant Dis. Prot.123:3-18|2016|10.1007/s41348-016-0008-1
179374|T||Khan,M.F.R., I. Qandah, and M.D. Bolton|The Effect of Temperature on Rhizoctonia Disease Development and Fungicide Efficacy in Controlling Rhizoctonia Root Rot on Sugarbeet|In: Sugarbeet Research and Extension Reports, North Dakota State University:3 p.|2009|
179375|T||Suproniene,S., A. Mankeviciene, and I. Gaurilcikiene|The Effects of Fungicides on Fusarium spp. and Their Associated Mycotoxins in Naturally Infected Winter Wheat Grain|Hodowla Rosl. Aklim. Nasienn.64:123-130|2012|
179377|T||Westerdahl,B.B., D. Giraud, J.D. Radewald, C.A. Anderson, and J. Darso|Management of Pratylenchus penetrans on Oriental Lilies with Drip and Foliar-Applied Nematicides|J. Nematol.25(4S): 758-767|1993|
179378|T||Zamani-Noor,N., and J. Knufer|Effects of Host Plant Resistance and Fungicide Application on Phoma Stem Canker, Growth Parameters and Yield of Winter Oilseed Rape|Crop Prot.112:313-321|2018|10.1016/j.cropro.2018.06.004
179379|T||Oxley,S.J.P., and D.R. Walters|Control of Light Leaf Spot (Pyrenopeziza brassicae) on Winter Oilseed Rape (Brassica napus) with Resistance Elicitors|Crop Prot.40:59-62|2012|10.1016/j.cropro.2012.04.028
179380|T||Treikale,O., I. Afanasjeva, and J. Pugacheva|Control of Fusarium Head Blight of Winter Wheat by Artificial and Natural Infection Using New Fungicides|Acta Agrobot. (Multiple Languages)59:151-162|2013|10.5586/aa.2006.070
179381|T||Salgado,J.D., L.V. Madden, and P.A. Paul|Efficacy and Economics of Integrating In-Field and Harvesting Strategies to Manage Fusarium Head Blight of Wheat|Plant Dis.98:1407-1421|2014|10.1094/PDIS-01-14-0093-RE
179382|T||Selim,S., C. Roisin-Fichter, J.B. Andry, B. Bogdanow, and R. Sambou|Real-Time PCR to Study the Effect of Timing and Persistence of Fungicide Application and Wheat Varietal Resistance on Mycosphaerella graminicola and Its Sterol 14 alpha-Demethylation-Inhibitor-Resistant Genotypes|Pest Manag. Sci.70:60-69|2014|10.1002/ps.3525
179383|T||Ahonsi,M.O., K.A. Ames, M.E. Gray, and C.A. Bradley|Biomass Reducing Potential and Prospective Fungicide Control of a New Leaf Blight of Miscanthus x giganteus Caused by Leptosphaerulina chartarum|BioEnergy Res.6(2): 737-745|2013|10.1007/s12155-012-9293-0
179384|T||Soltani,N., D.C. Hooker, J. Brinkman, and P.H. Sikkema|Effect of the Addition of a Fungicide to Glyphosate Applied Postemergence on Crop Injury, Disease Control, and Corn Yield|Can. J. Plant Sci.98(4): 971-974|2018|10.1139/cjps-2017-0178
179385|T||Chyle,A.C.|Evaluation of a Systematic, Multichemical Program Approach for Wheat Pest Management and Evaluation of a New Fungicide for Tan Spot in Spring Wheat (Triticum aestivum L.)|MS Thesis, North Dakota State University, Fargo, ND:53 p.|2012|
179386|T||Weems,J.D., and C.A. Bradley|Sensitivity of Exserohilum turcicum to Demethylation Inhibitor Fungicides|Crop Prot.99:85-92|2017|10.1016/j.cropro.2017.05.011
179387|T||Weems,J.D., J.S. Haudenshield, J.P. Bond, G.L. Hartman, K.A. Ames, and C.A. Bradley|Effect of Fungicide Seed Treatments on Fusarium virguliforme Infection of Soybean and Development of Sudden Death Syndrome|Can. J. Plant Pathol.37(4): 435-447|2015|10.1080/07060661.2015.1115781
179388|T||Weems,J.D.|Evaluation of Race Population Distribution, Fungicide Sensitivity, and Fungicide Control of Exserohilum turcicum, the Causal Agent of Northern Leaf Blight of Corn|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:136 p.|2016|
179389|T||Corden,M.E., and J.J. Morrell|Evaluating Potential Decay Control Agents with a Small Block Test|Wood Fiber Sci.20(4): 477-486|1988|
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179391|T||Eiden,A.L., P.E. Kaufman, F.M. Oi, M.J. Dark, J.R. Bloomquist, and R.J. Miller|Determination of Metabolic Resistance Mechanisms in Pyrethroid-Resistant and Fipronil-Tolerant Brown Dog Ticks|Med. Vet. Entomol.31(3): 243-251|2017|10.1111/mve.12240
179392|T||Zhang,Y., B. Yang, J. Li, M. Liu, and Z. Liu|Point Mutations in Acetylcholinesterase 1 Associated with Chlorpyrifos Resistance in the Brown Planthopper, Nilaparvata lugens Stal|Insect Mol. Biol.26(4): 453-460|2017|10.1111/imb.12309
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179424|A||Monsanto Co.|Acute Toxicity of Triphenyl Phosphate to Chironomus tentans|EPA/OTS 878211837:11 p.|1983|
179425|A||Monsanto Co.|Acute Toxicity of Triphenyl Phosphate (AB-78-116) to Daphnia magna|EPA/OTS 878211834:8 p.|1983|
179426|A||Monsanto Co.|Results of Four-Day Static Fish Toxicity Studies Rainbow Trout and Bluegills|EPA/OTS 878211832:3 p.|1983|
179427|A||Monsanto Co.|Toxicity of Triphenyl Phosphate (BN-78-1384305-3) to Sheepshead Minnows (Cyprinodon variegatus)|EPA/OTS 878211829:9 p.|1983|
179428|A||Monsanto Co.|Acute Toxicity of Triphenyl Phosphate (BN-78-1384305-C) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878211828:13 p.|1983|
179429|A||Monsanto Co.|Acute Toxicity of Santicizer 148 to Chironomus tentans|EPA/OTS 878211583:15 p.|1983|
179430|A||Monsanto Co.|Acute Toxicity of Santicizer 141 to Chironomus tentans|EPA/OTS 878211126:15 p.|1983|
179431|A||Monsanto Co.|Pydraul 50E, Pydraul 115E and Triphenyl Phosphate Natural Water Die-Away Toxicity Tests with Daphnia magna|EPA/OTS 878212362:21 p.|1983|
179432|A||Arukwe,A., C.C. Carteny, and T. Eggen|Lipid Peroxidation and Oxidative Stress Responses in Juvenile Salmon Exposed to Waterborne Levels of the Organophosphate Compounds tris(2-Butoxyethyl)- and tris(2-Chloroethyl) Phosphates|J. Toxicol. Environ. Health Part A79(13-15): 515-525|2016|10.1080/15287394.2016.1171978
179433|A||Dishaw,L.V., D.L. Hunter, B. Padnos, S. Padilla, and H.M. Stapleton|Developmental Exposure to Organophosphate Flame Retardants Elicits Overt Toxicity and Alters Behavior in Early Life Stage Zebrafish (Danio rerio)|Toxicol. Sci.142(2): 445-454|2014|10.1093/toxsci/kfu194
179434|T||Scaglioni,P.T., M. Blandino, V. Scarpino, D. Giordano, G. Testa, and E. Badiale-Furlong|Application of Fungicides and Microalgal Phenolic Extracts for the Direct Control of Fumonisin Contamination in Maize|J. Agric. Food Chem.66:4835-4841|2018|10.1021/acs.jafc.8b00540
179435|T||Diaz,G.A., B.A. Latorre, E. Ferrada, and M. Lolas|Identification and Characterization of Diplodia mutila, D. seriata, Phacidiopycnis washingtonensis and Phacidium lacerum Obtained from Apple (Malus X domestica) Fruit Rot in Maule Region, Chile|Eur. J. Plant Pathol.153:1259-1273|2019|10.1007/s10658-018-01640-8
179436|T||Xu,T., P. Li, S. Wu, L. Lei, and D. He|Tris(2-Chloroethyl) Phosphate (TCEP) and Tris(2-Chloropropyl) Phosphate (TCPP) Induce Locomotor Deficits and Dopaminergic Degeneration in Caenorhabditis elegans|Toxicol. Res. (Oxf.)6(1): 63-72|2017|
179437|T||Long,C.E., and W.A. Geyer|Direct-Seeded Kentucky Coffeetree Seed Tolerance to Preemergent Herbicides|J. Environ. Hortic.7(3): 99-101|1989|10.24266/0738-2898-7.3.99
179439|T||Giaccone,M., C. Cirillo, P. Scognamiglio, M. Teobaldelli, A. Mataffo, A. Stinca, A. Pannico, B. Immirzi, G. Santagata, |Biodegradable Mulching Spray for Weed Control in the Cultivation of Containerized Ornamental Shrubs|Chem. Biol. Technol. Agric.5(21): 1-8|2018|
179440|A||Ando,I., T. Ohtsuka, N. Miki, T. Takahashi, Y. Hayase, and Y. Hayashi|Synthesis and Biological Activity of Cyclic Imide Derivatives and Related Compounds|Agric. Biol. Chem.53(7): 2001-2003|1989|
179441|T||Kruse,T., and J.A. Verreet|Epidemiological Studies on Winter Oilseed Rape (Brassica napus L. var. napus) Infected by Phoma lingam (Teleomorph Leptosphaeria maculans) and the Effects of Different Fungicide Applications with Folicur (Tebuconazole)|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)112(1): 17-41|2005|
179442|A||Li,S.N., and D.F. Fan|Activity of Esterases from Different Tissues of Freshwater Fish and Responses of Their Isoenzymes to Inhibitors|J. Toxicol. Environ. Health51(2): 149-157|1997|10.1080/00984109708984018
179443|T||Sasek,V., M. Novakova, P.I. Dobrev, O. Valentova, and L. Burketova|Beta-Aminobutyric Acid Protects Brassica napus Plants from Infection by Leptosphaeria maculans. Resistance Induction or a Direct Antifungal Effect?|Eur. J. Plant Pathol.133:279-289|2012|10.1007/s10658-011-9897-9
179444|T||Sprague,G.L., T.R. Castles, and A.A. Bickford|Assessment of the Delayed Neurotoxic Potential of Isopropyl Triphenylphosphate Using a Nontraditional Testing Strategy|J. Toxicol. Environ. Health14(5/6): 773-788|1984|10.1080/15287398409530626
179445|T||Ribas,A.D., E.M. Del Ponte, A.M. Dalbem, D. Dalla-Lana, C. Bundchen, R.K. Donato, H.S. Schrekker, and A.M. Fuentefria|Imidazolium Salts with Antifungal Potential for the Control of Head Blight of Wheat Caused by Fusarium graminearum|J. Appl. Microbiol.121:445-452|2016|10.1111/jam.13125
179446|T||Xie,M., N.N. Ren, Y.C. You, W.J. Chen, Q.S. Song, and M.S. You|Molecular Characterisation of Two alpha-Esterase Genes Involving Chlorpyrifos Detoxification in the Diamondback Moth, Plutella xylostella|Pest Manag. Sci.73(6): 1204-1212|2017|10.1002/ps.4445
179447|A||Hong,X., R. Chen, L. Yuan, and J. Zha|Global MicroRNA and IsomiR Expression Associated with Liver Metabolism is Induced by Organophosphorus Flame Retardant Exposure in Male Chinese Rare Minnow (Gobiocypris rarus)|Sci. Total Environ.649:829-838|2019|10.1016/j.scitotenv.2018.08.305
179448|T||Vinodkumar,S., and S. Nakkeeran|Characterization and Management of Botrytis cinerea Inciting Blossom Blight of Carnation Under Protected Cultivation|J. Environ. Biol.38:527-537|2017|10.22438/jeb/38/4/MRN-342
179449|T||Schalamuk,S., S. Velazquez, M.R. Simon, and M. Cabello|Effect of Septoria Leaf Blotch and Its Control with Commercial Fungicides, on Arbuscular-Mycorrhizal-Fungal Colonization, Spore Numbers, and Morphotype Diversity|J. Plant Prot. Res.54(1): 9-14|2014|10.2478/jppr-2014-0002
179450|T||Palazzini,J.M., A.M. Torres, and S.N. Chulze|Tolerance of Triazole-Based Fungicides by Biocontrol Agents Used to Control Fusarium Head Blight in Wheat in Argentina|Lett. Appl. Microbiol.66:434-438|2018|10.1111/lam.12869
179451|T||Besler,B.A., W.J. Grichar, J.A. Starr, S.A. Senseman, R.G. Lemon, and A.J. Jaks|Effects of Peanut Row Pattern, Cultivar, and Fungicides on Control of Southern Stem Rot, Early Leaf Spot, and Rust|Peanut Sci.33(1): 1-6|2006|10.3146/0095-3679(2006)33[1:EOPRPC]2.0.CO;2
179452|T||Fuzi,I.|Control of Leaf Rust of Winter Wheat, Triticum aestivum, in Hungary|Pestic. Sci.49:397-399|1997|10.1002/(SICI)1096-9063(199704)49:4<397::AID-PS477>3.0.CO;2-Y
179453|A||Zhang,Q., C. Ji, X. Yin, L. Yan, M. Lu, and M. Zhao|Thyroid Hormone-Disrupting Activity and Ecological Risk Assessment of Phosphorus-Containing Flame Retardants by in Vitro, in Vivo and in Silico Approaches|Environ. Pollut.210:27-33|2016|10.1016/j.envpol.2015.11.051
179454|T||Yang,Y., Y. Xiao, Y. Chang, Y. Cui, G. Klobucar, and M. Li|Intestinal Damage, Neurotoxicity and Biochemical Responses Caused by Tris (2-Chloroethyl) Phosphate and Tricresyl Phosphate on Earthworm|Ecotoxicol. Environ. Saf.158:78-86|2018|10.1016/j.ecoenv.2018.04.012
179455|A||Arukwe,A., C.C. Carteny, T. Eggen, and M. Moder|Novel Aspects of Uptake Patterns, Metabolite Formation and Toxicological Responses in Salmon Exposed to the Organophosphate Esters-Tris(2-Butoxyethyl)- and Tris(2-Chloroethyl) Phosphate|Aquat. Toxicol.196:146-153|2018|10.1016/j.aquatox.2018.01.014
179456|T||Ciba-Geigy Corp.|Delayed Neurotoxicity in Domestic Hens - Phosphoric Acid, Triphenyl Ester|EPA/OTS Doc.#86-870001723:10 p.|1987|
179457|T||Obersteiner,E.J., and R.P. Sharma|Evaluation of Cytotoxic Responses Caused by Selected Organophosphorus Esters in Chick Sympathetic Ganglia Cultures|Can. J. Comp. Med.42(1): 80-88|1978|
179458|T||Sun,H., B. Yang, Y. Zhang, and Z. Liu|Metabolic Resistance in Nilaparvata lugens to Etofenprox, a Non-Ester Pyrethroid Insecticide|Pestic. Biochem. Physiol.136:23-28|2017|10.1016/j.pestbp.2016.08.009
179459|T||Yin,C., R. Wang, C. Luo, K. Zhao, Q. Wu, Z. Wang, and G. Yang|Monitoring, Cross-Resistance, Inheritance, and Synergism of Plutella xylostella (Lepidoptera: Plutellidae) Resistance to Pyridalyl in China|J. Econ. Entomol.112(1): 329-334|2019|10.1093/jee/toy334
179460|A||Shi,Q., M.M.P. Tsui, C. Hu, J.C.W. Lam, B. Zhou, and L. Chen|Acute Exposure to Triphenyl Phosphate (TPhP) Disturbs Ocular Development and Muscular Organization in Zebrafish Larvae|Ecotoxicol. Environ. Saf.179:119-126|2019|10.1016/j.ecoenv.2019.04.056
179461|T||Hunaiti,A.A., and B.R. Ali|The Induction of Chickpea Glutathione S-Transferase by Oxadiazon|Phytochemistry30(7): 2131-2134|1991|10.1016/0031-9422(91)83600-P
179462|T||Geyer,W.A., L. Melichar, and C.E. Long|Preemergent Herbicide Trials with Direct-Seeded Black Locust Grown in Different Soils|J. Arboric.13(4): 105-107|1987|
179463|T||Wei,X., Y. Pan, X. Xin, C. Zheng, X. Gao, J. Xi, and Q. Shang|Cross-Resistance Pattern and Basis of Resistance in a Thiamethoxam-Resistant Strain of Aphis gossypii Glover|Pestic. Biochem. Physiol.138:91-96|2017|10.1016/j.pestbp.2017.03.007
179464|T||Patro,G.K., J.C. Prusty, and S.C. Panda|Performance of New Herbicides with Nitrogen Levels on Upland Rice in Orissa |Pesticides 23:36-38|1989|
179465|T||Pandey,J., and K.N. Thakur|Effects of Anilofos, Butachlor and Oxadiazon on Phosphorus Availability and Its Uptake Pattern by Upland Rice|Pesticides 21:40-43|1987|
179466|T||Smith,E.M., and S.A. Treaster|Tolerance of Clematis and Wisteria to Ronstar and Devrinol|Spec. Circ. Ohio Agric. Res. Dev. Ctr.135:38-39|1990|
179467|T||Daughtrey,W., R. Biles, B. Jortner, and M. Ehrich|Subchronic Delayed Neurotoxicity Evaluation of Jet Engine Lubricants Containing Phosphorus Additives|Fundam. Appl. Toxicol.32(2): 244-249|1996|10.1006/faat.1996.0127
179468|T||Smith,E.M., and S.A. Treaster|Evaluation of Ronstar Wettable Powder on Woody Landscape Crops|Spec. Circ. Ohio Agric. Res. Dev. Ctr.115:6-7|1988|
179469|T||Frangi,P., R. Piatti, G. Amoroso, and A. Fini|Non-Chemical Alternatives for Weed Control in Containerized Plants|Acta Hortic.885:119-122|2010|10.17660/ActaHortic.2010.885.15
179470|A||Sato,R., M. Yamamoto, H. Shibata, H. Oshio, E.H. Harris, N.W. Gillham, and J.E. Boynton|Characterization of a Mutant of Chlamydomonas reinhardtii Resistant to Protoporphyrinogen Oxidase Inhibitors|ACS Symp. Ser.559:91-104|1994|10.1021/bk-1994-0559.ch007
179471|T||Ichinose,K., F.S. Che, Y. Kimura, A. Matsunobu, F. Sato, and S. Yoshida|Selection and Characterization of Protoporphyrinogen Oxidase Inhibiting Herbicide (S23142) Resistant Photomixotrophic Cultured Cells of Nicotiana tabacum|J. Plant Physiol.146:693-698|1995|10.1016/S0176-1617(11)81935-8
179472|T||Ricci,P., and G. Rousse|Absence of Induction of Phytoalexins and Resistance in Carnation by the Selective Herbicide Oxadiazon|Acta Hortic.141:109-113|1983|10.17660/ActaHortic.1983.141.15
179473|T||Kalmowitz,K., and T. Whitwell|Comparison of Ronstar Formulations for Efficacy and Phytotoxicity in Container Grown Landscape Plants|J. Environ. Hortic.6(3): 77-80|1988|10.24266/0738-2898-6.3.77
179474|T||Gilliam,C.H., D.J. Eakes, and J.W. Olive|Herbicide Use During Propagation Affects Root Initiation and Development|J. Environ. Hortic.11(4): 157-159|1993|10.24266/0738-2898-11.4.157
179476|AT||Xie,J., L. Zhao, K. Liu, F. Guo, and W. Liu|Enantioselective Effects of Chiral Amide Herbicides Napropamide, Acetochlor and Propisochlor: The More Efficient R-Enantiomer and Its Environmental Friendly|Sci. Total Environ.626:860-866|2018|10.1016/j.scitotenv.2018.01.140
179477|T||Calkins,J.B., and B.T. Swanson|Comparison of Conventional and Alternative Nursery Weed Management Strategies|Weed Technol.9:761-767|1995|10.1017/S0890037X00024179
179478|T||Silva,K.S., L.K. Urban, A. Balbinot, F.S. Gnocato, N.D. Kruse, E. Marchesan, and S.L.O. Machado|Electrolyte Leakage and the Protective Effect of Nitric Oxide on Leaves of Flooded Rice Exposed to Herbicides|Planta Daninha (Impr.) (Multiple Languages)34(4): 777-785|2016|10.1590/s0100-83582016340400018
179479|T||Bercerril,J.M., and S.O. Duke|Protoporphyrin IX Content Correlates with Activity of Photobleaching Herbicides|Plant Physiol.90:1175-1181|1989|10.1104/pp.90.3.1175
179480|T||Imeokparia,P.O.|Performance of a New Selective Rice Herbicide in a Lowland Rice Field in Nigeria|Trop. Pest Manag.36(4): 343-345|1990|10.1080/09670879009371506
179481|T||Imeokparia,P.O.|Comparison of Pre-Emergence Herbicides for the Control of Sedge Weeds in Flooded Rice|Tests Agrochem. Cultiv.0:58-59|1990|
179482|T||Amoroso,G., P. Frangi, R. Piatti, M. Faoro, L. Martinetti, and A. Fini|Biodegradable Mulch Effectiveness Under Different Conditions of Water and Weed Management|Acta Hortic.937:995-1002|2012|10.17660/ActaHortic.2012.937.123
179483|T||Smith,E.M., and S.A. Treaster|Effects of Ronstar Wettable Powder on Herbaceous and Woody Landscape Crops|Spec. Circ. Ohio Agric. Res. Dev. Ctr.123:3-6|1989|
179484|T||Kuhns,L.J.|A Comparison of Two Formulations of Oxadiazon Alone and Varying Rates of Butralin Plus Oxadiazon|Proc. Annu. Meet. Northeast. Weed Sci. Soc.46:97-101|1992|
179485|T||Ahrens,J.F.|Fall vs. Spring Applied Herbicides in Taxus|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:249-252|1986|
179486|T||Mingo,V., C. Leeb, A.K. Fahl, S. Lotters, C. Bruhl, and N. Wagner|Validating Buccal Swabbing as a Minimal-Invasive Method to Detect Pesticide Exposure in Squamate Reptiles|Chemosphere229:529-537|2019|10.1016/j.chemosphere.2019.05.025
179487|T||Imeokparia,P.O.|Weed Control in Flooded Rice with Various Herbicide Combinations in the Southern Guinea Savanna Zone of Nigeria|Int. J. Pest Manag.40(1): 31-39|1994|10.1080/09670879409371850
179488|A||Moreira,L.F., S.J. Zomer, and S.M. Marques|Modulation of the Multixenobiotic Resistance Mechanism in Danio rerio Hepatocyte Culture (ZF-L) After Exposure to Glyphosate and Roundup|Chemosphere228:159-165|2019|10.1016/j.chemosphere.2019.04.140
179489|A||Ma,J., J. Zhu, W. Wang, P. Ruan, S. Rajeshkumar, and X. Li|Biochemical and Molecular Impacts of Glyphosate-Based Herbicide on the Gills of Common Carp|Environ. Pollut.252:1288-1300|2019|10.1016/j.envpol.2019.06.040
179490|T||Engel,R.E., and R.D. Ilnicki|Preemergence Crabgrass Control in Merion Kentucky Bluegrass Turf with RP 17623 and Other Herbicides|Proc. Northeast. Weed Control Conf.24:375-378|1970|
179491|T||Butt,S.K., and A.A. Vahidy|Cytotoxic Effects of Herbicide Ronstar on Meristematic Cells of Allium cepa L.|Pak. J. Bot.26(1): 69-74|1994|
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179493|T||Hatzios,K.K.|Comparative Effects of Oxadiazon and Its Metabolites on Biochemical Processes of Enzymatically Isolated Leaf Cells of Soybean|Zizaniology1:235-242|1985|
179494|T||Baker,J.E., and R.T. Arbogast|Malathion Resistance in Field Strains of the Warehouse Pirate Bug (Heteroptera: Anthocoridae) and a Prey Species Tribolium castaneum (Coleoptera: Tenebrionidae)|J. Econ. Entomol.88(2): 241-245|1995|10.1093/jee/88.2.241
179495|T||Amoroso,G., P. Frangi, R. Piatti, and A. Fini|Mulching as Alternative to Chemical Weed Control in Nursery Containerized Crops|Adv. Hortic. Sci.23(4): 276-279|2009|
179496|AT||Janiya,J.D., and K. Moody|Response of Azolla to Herbicides Used in Rice|J. Plant Prot. Trop.5(2): 87-91|1988|
179497|T||Kettering Lab|Report on the Toxicity of Triphenyl Phosphate|EPA/OTS 40-4542664:9 p.|1983|
179498|T||Creager,R.A.|A Comparison of Oxadiazon and Oryzalin in Container-Grown Nursery Stock|SNA Nursery Res.J.7(2): 15-28|1981|
179499|A||Shi,Q., Z. Wang, L. Chen, J. Fu, J. Han, B. Hu, and B. Zhou|Optical Toxicity of Triphenyl Phosphate in Zebrafish Larvae|Aquat. Toxicol.210:139-147|2019|10.1016/j.aquatox.2019.02.024
179500|T||Gilreath,J.P., F.M. Melton, and S.A. Shives|Preemergence Control of Spotted Spurge in Italian Cypress|Proc. Annu. Meet. Fla. State Hortic. Soc.113:176-178|2000|
179501|T||Smith,E.M., and S.A. Treaster|An Evaluation of Ronstar Plus Diflufenican on Container-Grown Landscape Crops|Spec. Circ. Ohio Agric. Res. Dev. Ctr.115:8-9|1988|
179502|T||Routaboul,J.M., F. Nurit, P. Ravanel, and M. Tissut|Effects of Bifenox and Oxadiazon on Isolated Chloroplasts, Plant Mitochondria and Leaf Pieces|Pestic. Sci.30:149-158|1990|10.1002/ps.2780300204
179503|T||Sadi,M., and S. Saeedipour|Sequential Postemergence Applications for the Control of Yellow Nutsedge in Bermudagrass Turf|Res. J. Environ. Sci.9(7): 342-348|2015|10.3923/rjes.2015.342.348
179504|T||Amoroso,G., P. Frangi, R. Piatti, and A. Fini|Effect of Mulching and Irrigation on Container-Grown Plant Production|Acta Hortic.889:573-579|2011|10.17660/ActaHortic.2011.889.73
179505|T||Kuhns,L.J., and A. Michael|The Effectiveness of Preemergence Herbicides Under, Above, or Without Mulch|Proc. Annu. Meet. Northeast. Weed Sci. Soc.46:90-95|1992|
179506|T||Easton-Smith,V.A., and J. DeFrank|Chemical Weed Control in Seashore Paspalum|Res. Ext. Ser. Hawaii Inst. Trop. Agric. Hum. Resour.157:15-16|1995|
179507|T||Backman,P.A., R. Rodriguez-Kabana, and G.A. Buchanan|Interactions of Oxadiazon and Dinoseb with Stem Rot in Peanuts|Weed Sci.25(3): 260-263|1977|10.1017/S0043174500033427
179508|T||Richard,E.P.,Jr., T.C. Miller, and D.H. Bowman|Oxadiazon for Barnyardgrass Control in Rice|MAFES Res. Highl.46:8-|1983|
179509|A||Saravanan,M., J.Y. Kim, K.J. Hur, M. Ramesh, and J.H. Hur|Responses of the Freshwater Fish Cyprinus carpio Exposed to Different Concentrations of Butachlor and Oxadiazon|Biocatal. Agric. Biotechnol.11:275-281|2017|10.1016/j.bcab.2017.06.011
179510|T||Hartley,M.J.|Weed Control in Perilla|Proc. N. Z. Plant Prot. Conf.:165-168|1996|10.30843/nzpp.1996.49.11412
179511|T||Staats,D., D. Hillock, and J.E. Klett|Weed Control and Phytotoxicity of Preemergence Herbicides Applied to Container-Grown Herbaceous Plants|HortTechnology8(3): 325-328|1998|10.21273/HORTTECH.8.3.325
179512|T||Lukas,S.B., J. Defrank, O.C. Baldos, and G.S. Sakamoto|Response of Seashore Dropseed and Weed Species to the Preemergence Herbicide Oxadiazon Applied as a Component of a Hydromulch Cap|HortTechnology25(4): 565-568|2015|10.21273/HORTTECH.25.4.565
179513|T||Singh,G., and O.P. Singh|Herbicidal Control of Weed in Transplanted Rice (Oryza sativa) in Rainfed Lowland Condition|Indian J. Agron.39(3): 463-465|1994|
179514|T||Bean,R.R., and C.E. Whitcomb|Performance of Ronstar, Treflan and Lasso for Weed Control in Field Grown Nursery Stock|Res. Rep. Okla. Agric. Exp. Stn.704:51-53|1974|
179515|T||Bean,R.R., and C.E. Whitcomb|Weed Control in Container Grown Ilex cornuta 'Burford' and Juniperus chinensis 'Hetzi' Using Ronstar and Treflan|Res. Rep. Okla. Agric. Exp. Stn.704:54-55|1974|
179516|T||Whitcomb,C.E., and C. Boyer|Activity of Ronstar (Oxidiazon) in Containers as Affected by the Growing Media|SNA Nursery Res.J.6(2): 14-18|1979|
179517|T||Stephenson,D.O., J.A. Bond, R.L. Landry, and H.M. Edwards|Weed Management in Corn with Postemergence Applications of Tembotrione or Thiencarbazone : Tembotrione|Weed Technol.29:350-358|2015|10.1614/WT-D-14-00104.1
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179522|T||Subramanyam,B., and P.K. Harein|Status of Malathion and Pirimiphos-Methyl Resistance in Adults of Red Flour Beetle and Sawtoothed Grain Beetle Infesting Farm-Stored Corn in Minnesota|J. Agric. Entomol.7(2): 127-136|1990|
179523|T||Zhao,S., T. Liang, L. Zhu, L. Yang, T. Liu, J. Fu, B. Wang, J. Zhan, and L. Liu|Fate of 6:2 Fluorotelomer Sulfonic Acid in Pumpkin (Cucurbita maximaL.) Based on Hydroponic Culture: Uptake, Translocation andBiotransformation|Environ. Pollut.252:804-812|2019|10.1016/j.envpol.2019.06.020
179524|T||Price,N.R.|Carboxyesterase Degradation of Malathion In Vitro by Susceptible and Resistant Strains of Tribolium castaneum (Herbst) (Coleoptera, Tenebrionidae)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.77(1): 95-98|1984|10.1016/0742-8413(84)90136-1
179525|A||Du,J., J. Cai, S. Wang, and H. You|Oxidative Stress and Apotosis to Zebrafish (Danio rerio) Embryos Exposed to Perfluorooctane Sulfonate (PFOS) and ZnO Nanoparticles|Int. J. Occup. Med. Environ. Health30(2): 213-229|2017|
179526|A||Kariuki,M.N., E.G. Nagato, B.P. Lankadurai, A.J. Simpson, and M.J. Simpson|Analysis of Sub-Lethal Toxicity of Perfluorooctane Sulfonate (PFOS) to Daphnia magna Using 1H Nuclear Magnetic Resonance-Based Metabolomics|Metabolites7(15): 13 p.|2017|
179527|T||Hu,Z., G. Li, Y. Sun, Y. Niu, L. Ma, B. He, M. Ai, J. Han, and B. Zeng|Gene Transcription Profiling of Aspergillus oryzae 3.042 Treated with Ergosterol Biosynthesis Inhibitors|Braz. J. Microbiol.50:43-52|2019|10.1007/s42770-018-0026-1
179528|A||Rastogi,A., C.W. Clark, S.M. Conlin, S.E. Brown, and A.R. Timme-Laragy|Mapping Glutathione Utilization in the Developing Zebrafish (Danio rerio) Embryo|Redox Biol.26:12 p.|2019|10.1016/j.redox.2019.101235
179529|A||Du,J., J. Tang, S. Xu, J. Ge, Y. Dong, H. Li, and M. Jin|Parental Transfer of Perfluorooctane Sulfonate and ZnO Nanoparticles Chronic Co-Exposure and Inhibition of Growth in F1 Offspring|Regul. Toxicol. Pharmacol.98:41-49|2018|10.1016/j.yrtph.2018.07.005
179530|A||Du,Z., Y. Zhang, G. Wang, J. Peng, Z. Wang, and S. Gao|TPhP Exposure Disturbs Carbohydrate Metabolism, Lipid Metabolism, and the DNA Damage Repair System in Zebrafish Liver|Sci. Rep.6:10 p.|2016|
179531|A||Dimitrov,M.R., S. Kosol, H. Smidt, L. Buijse, P.J. Van den Brink, R.P.A. Van Wijngaarden, T.C.M. Brock, and L. Maltby|Assessing Effects of the Fungicide Tebuconazole to Heterotrophic Microbes in Aquatic Microcosms|Sci. Total Environ.490:1002-1011|2014|10.1016/j.scitotenv.2014.05.073
179532|T||Navarro,S., Y. Carmi, Y. Kashanchi, and E. Shaaya|Malathion Resistance of Stored-Product Insects in Israel|Phytoparasitica14(4): 273-280|1986|10.1007/BF02980731
179533|T||Van Hoesel,W., A. Tiefenbacher, N. Konig, V.M. Dorn, J.F. Hagenguth, U. Prah, T. Widhalm, V. Wiklicky, R. Koller, M. Bo|Single and Combined Effects of Pesticide Seed Dressings and Herbicides on Earthworms, Soil Microorganisms, and Litter Decomposition|Front. Plant Sci.8:1-12|2017|10.3389/fpls.2017.00215
179534|T||Pereira,J.L., M.C. Lopes, J.B. Parish, A.A. Silva, and M.C. Picanco|Impact of RR Soybeans and Glyphosate on the Community of Soil Surface Arthropods|Planta Daninha (Impr.) (Multiple Languages)36:12 p.|2018|
179535|A||Murussi,C.R., M.D. Costa, J.W. Leitemperger, L. Guerra, C.C.R. Rodrigues, C.C. Menezes, E.S. Severo, F. Flores-Lopes, J|Exposure to Different Glyphosate Formulations on the Oxidative and Histological Status of Rhamdia quelen|Fish Physiol. Biochem.42:445-455|2016|10.1007/s10695-015-0150-x
179537|A||EPA/OTS|Tables of Detection Limits of Aryl Phosphates in Aquatic Organisms|EPA/OTS 40-8142725:5 p.|1981|
179538|T||Nicolli,C.P., F.J. Machado, P. Spolti, and E.M. Del Ponte|Fitness Traits of Deoxynivalenol and Nivalenol-Producing Fusarium graminearum Species Complex Strains from Wheat|Plant Dis.102:1341-1347|2018|10.1094/PDIS-12-17-1943-RE
179539|T||FMC Corp.|Kronitex 200B Triaryl Phosphate Neurotoxicity Screening Study in Hens (Report No. ICG/T-77-110)|EPA/OTS 40-7742030:16 p.|2000|
179540|A||EPA/OTS|Tables and Notes Concerning Aquatic Toxicity of Aryl Phosphates|EPA/OTS 40-0042261:38 p.|2000|
179541|A||Monsanto Co.|Acute Toxicity of Pydraul 90E (BN-77-409B) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878212317:14 p.|1983|
179542|T||Monsanto Co.|Neurotoxicity Study with Pydraul 30E in Chickens- BTL 72-26|EPA/OTS 878212325:16 p.|1983|
179543|A||Monsanto Co.|Acute Toxicity of Pydraul 29 ELT (BN-77-467) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878212335:16 p.|1983|
179544|A||Monsanto Co.|Acute Toxicity of Pydraul 230C (BN-77-410A) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878212344:15 p.|1983|
179545|A||Monsanto Co.|Acute Toxicity of Pydraul 312C to the Water Flea (Daphnia magna)|EPA/OTS 878212353:16 p.|1983|
179546|A||Monsanto Co.|Acute Toxicity of Pydraul MC to the Water Flea (Daphnia magna)|EPA/OTS 878212354:16 p.|1983|
179547|A||Monsanto Co.|Initial Submission: Field Confirmation of Laboratory Derived Acute and Chronic Toxicity Data with Santicizer 154 with Cover Letter Dated 081492|EPA/OTS 88-920007497:40 p.|1992|
179548|T||Monsanto Co.|Initial Submission: Neurotoxicity Study with MCS 1122 in Chickens with Cover Letter Dated 080792|EPA/OTS 88-920007241:19 p.|1992|
179549|A||Monsanto Co.|Acute Toxicity of Pydraul 50E (BN-78-1384305-2) to Mysid Shrimp (Mysidopsis bahia)|EPA/OTS 878212322:11 p.|1983|
179550|A||Silva,A.F., W.R.,Jr. Cerveira, M.C. Ferreira, and C. Cruz|Floating Macrophyte Control with Glyphosate According to Adjuvants and Spray Nozzles|Planta Daninha (Impr.) (Multiple Languages)36:8 p.|2018|
179551|T||Clements,D., T.M. Dugdale, K.L. Butler, S.K. Florentine, and J. Sillitoe|Herbicide Efficacy for Aquatic Alternanthera philoxeroides Management in an Early Stage of Invasion: Integrating Above-Ground Biomass, Below-Ground Biomass and Viable Stem Fragmentation|Weed Res. (Multiple Languages)57:257-266|2017|10.1111/wre.12257
179552|T||Tang,H.X., S.S. Liu, K. Li, and L. Feng|Combining the Uniform Design-Based Ray Procedure with Combination Index to Investigate Synergistic Lethal Toxicities of Ternary Mixtures on Caenorhabditis elegans|Anal. Methods8:4466-4472|2016|10.1039/C6AY00582A
179553|A||Forbis,A., P. Boudreau, and M. Schofield|Dynamic 96-Hour Acute Toxicity of Roundup (AB-82-34) to Rainbow Trout (Salmo gairdneri)|Analytical Bio-Chemistry Lab.Inc., Columbia, MO:10 p.|1982|
179554|T||Nash,A.S., and P.H. Dernoeden|Effectiveness and Persistence of Oxadiazon as a Preemergence Crabgrass Herbicide and Subsequent Effects on Overseeded Perennial Ryegrass|Proc. Annu. Meet. Northeast. Weed Sci. Soc.36:301-306|1982|
179555|T||Achhireddy,N.R., R.C. Kirkwood, and W.W. Fletcher|The Uptake and Distribution of MCPA and Oxadiazon in Excised Leaves|J. Pestic. Sci. (Multiple Languages)9(4): 611-615|1984|10.1584/jpestics.9.611
179556|T||Li,H.X., K.L. Stevenson, and M.T. Brewer|Differences in Sensitivity to a Triazole Fungicide Among Stagonosporopsis Species Causing Gummy Stem Blight of Cucurbits|Plant Dis.100(10): 2106-2112|2016|10.1094/PDIS-03-16-0341-RE
179557|T||Dongyi,H., and S. Kelemu|Acremonium implicatum, a Seed-Transmitted Endophytic Fungus in Brachiaria Grasses|Plant Dis.88(11): 1252-1254|2004|10.1094/PDIS.2004.88.11.1252
179558|AT||Teraoka,T., G. Sandmann, P. Boger, and K. Wakabayashi|Effect of Cyclic Imide Herbicides on Pigment Formation in Plants|J. Pestic. Sci. (Multiple Languages)12(3): 499-504|1987|10.1584/jpestics.12.499
179559|T||Gremillion,S.K., A.K. Culbreath, D.W. Gorbet, B.G.,Jr. Mullinix, R.N. Pittman, K.L. Stevenson, J.W. Todd, R.E. Escobar,|Field Evaluations of Leaf Spot Resistance and Yield in Peanut Genotypes in the United States and Bolivia|Plant Dis.95:263-268|2011|10.1094/PDIS-06-10-0454
179560|T||Aiello,D., G. Cirvilleri, G. Polizzi, and A. Vitale|Effects of Fungicide Treatments for the Control of Epidemic and Exotic Calonectria Diseases in Italy|Plant Dis.97:37-43|2013|10.1094/PDIS-03-12-0266-RE
179561|T||Cottrill,D.J., D.T. Earlywine, and G.L. Miller|Assessment of Nitrogen Source, Sulfur, and Fall Fungicide Applications on the Management of Spring Dead Spot of Bermudagrass|Plant Dis.100:473-482|2016|10.1094/PDIS-05-15-0565-RE
179562|T||Villareal,R.L., A. Mujeeb-Kazi, L.I. Gilchrist, and E. Del Toro|Yield Loss to Spot Blotch in Spring Bread Wheat in Warm Nontraditional Wheat Production Areas|Plant Dis.79:893-897|1995|10.1094/PD-79-0893
179563|T||Spolti,P., E.M. Del Ponte, Y. Dong, J.A. Cummings, and G.C. Bergstrom|Triazole Sensitivity in a Contemporary Population of Fusarium graminearum from New York Wheat and Competitiveness of a Tebuconazole-Resistant Isolate|Plant Dis.98:607-613|2014|10.1094/PDIS-10-13-1051-RE
179564|A||Chen,P., Q. Wang, M. Chen, J. Yang, R. Wang, W. Zhong, L. Zhu, and L. Yang|Antagonistic Estrogenic Effects Displayed by Bisphenol AF and Perfluorooctanoic Acid on Zebrafish (Danio rerio) at an Early Developmental Stage|Environ. Sci. Technol. Lett.5(11): 655-661|2018|10.1021/acs.estlett.8b00559
179565|A||Guo,J., P. Wu, J. Cao, Y. Luo, J. Chen, G. Wang, W. Guo, T. Wang, and X. He|The PFOS Disturbed Immunomodulatory Functions Via Nuclear Factor-kappaB Signaling in Liver of Zebrafish (Danio rerio)|Fish Shellfish Immunol.91:87-98|2019|10.1016/j.fsi.2019.05.018
179566|A||Shi,G., J. Wang, H. Guo, N. Sheng, Q. Cui, Y. Pan, Y. Guo, Y. Sun, and J. Dai|Parental Exposure to 6:2 Chlorinated Polyfluorinated Ether Sulfonate (F-53B) Induced Transgenerational Thyroid Hormone Disruption in Zebrafish|Sci. Total Environ.665:855-863|2019|10.1016/j.scitotenv.2019.02.198
179567|A||Chhetri,R.K., A. Baun, and H.R. Andersen|Acute Toxicity and Risk Evaluation of the CSO Disinfectants Performic Acid, Peracetic Acid, Chlorine Dioxide and Their by-Products Hydrogen Peroxide and Chlorite|Sci. Total Environ.677:1-8|2019|10.1016/j.scitotenv.2019.04.350
179568|A||Monsanto Co.|Acute Toxicity of Santicizer 148 to the Midge Paratanytarsus parthenogenetica|EPA/OTS 878211582:8 p.|1983|
179569|A||Monsanto Co.|Acute Toxicity of S-148 (AB-79-1384345-1C) to Daphnia magna|EPA/OTS 878211572:9 p.|1983|
179570|A||Monsanto Co.|Acute Toxicity of Santicizer 141 to the Midge Paratanytarsus parthenogenetica|EPA/OTS 878211125:10 p.|1983|
179571|A||Monsanto Co.|Toxicity of S-141 (BN-79-1384348-1D) to the Freshwater Alga Selenastrum capricornutum|EPA/OTS 878211122:9 p.|1983|
179572|T||Monsanto Co.|Neurotoxicity Study with XP 718 in Chickens|EPA/OTS 878211836:14 p.|1983|
179573|T||Monsanto Co.|Progress Report on the Toxicity of Triphenyl Phosphate Prepared by Kettering Lab of Applied Physiology Univ of Cincinnati|EPA/OTS 878211833:8 p. |1983|
179574|A||Monsanto Co.|Toxicity of S-154 (Bn-79-1384328-2a) to the Freshwater Alga Selenastrum capricornutum|EPA/OTS 878211873:12 p.|1983|
179575|A||Monsanto Co.|Acute Toxicity of Santicizer 154 to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878211878:13 p.|1983|
179576|A||Monsanto Co.|Acute Toxicity of Santicizer 154 to the Midge Paratanytarsus parthenogenetica|EPA/OTS 878211884:13 p.|1983|
179577|A||Monsanto Co.|Acute Toxicity of Santicizer 154 (S-154) to Chironomus tentans|EPA/OTS 878211886:12 p.|1983|
179578|A||Monsanto Co.|Initial Submission: Acute Toxicity of Santicizer 141 to Chironomus tentans with Cover Letter Dated 112592|EPA/OTS 88-920010325:15 p.|1992|
179579|T||Monsanto Co.|Neurotoxicity Study with Santicizer XP 728, Lot No. MIC 248788 in Chickens with Package of Materials Relating to Validation of Indus Bio Test Labs Report|EPA/OTS 878211875:40 p.|1983|
179580|A||Monsanto Co.|The Chronic Toxicity of TB 220H (BN-78-1384329-1) to the Water Flea (Daphnia magna)|EPA/OTS 878211871:81 p.|1983|
179582|T||FMC Corp.|Pydraul 50e Neurotoxicity Study in Domestic Hens|NTIS/OTS0206297(878213756): 9 p.|1982|
179583|A||Monsanto Co.|The Toxicity of Santicizer 141 to Early Life Stages of Rainbow Trout (Salmo gairdneri)|EPA/OTS 878211114(878211114): 29 p.|1983|
179584|T||Monsanto Co.|Neurotoxicity Study with Santicizer 143 in Chickens with Cover Letter|EPA/OTS 878211882(878211882): 46 p.|1983|
179585|A||Monsanto Co.|Acute Toxicity of Santicizer 154 to Fathead Minnow (Pimephales promelas)|EPA/OTS 878211879(878211879): 12 p.|1983|
179586|A||Monsanto Co.|Acute Toxicity of Santicizer 154 to Bluegill (Lepomis macrochirus)|EPA/OTS 878211877(878211877): 13 p.|1983|
179587|T||Monsanto Co.|Eight-Day Dietary LC50-Mallard Duck Pydraul 50E Final Report|EPA/OTS 878212318:17 p.|1983|
179588|T||Amoroso,G., P. Frangi, R. Piatti, A. Fini, and F. Ferrini|Effect of Mulching on Plant and Weed Growth, Substrate Water Content, and Temperature in Container-Grown Giant Arborvitae|HortTechnology20:957-962|2010|10.21273/HORTTECH.20.6.957
179589|AT||Wakabayashi,K., K. Matsuya, T. Teraoka, G. Sandmann, and P. Boger|Effect of Cyclic Imide Herbicides on Chlorophyll Formation in Higher Plants|J. Pestic. Sci. (Multiple Languages)11:635-640|1986|10.1584/jpestics.11.635
179590|T||Handiseni,M., J. Sibiya, V. Ogunlela, and I. Koomen|Comparative Study of the Effect of Different Weed Management Strategies on Disease Severity and Marketable Yield of Paprika (Capsicum annuum L.) in the Smallholder Farming Sector of Zimbabwe|J. Plant Prot. Res.48(1): 107-117|2008|10.2478/v10045-008-0011-z
179591|T||Lim,C.A.A., T.H. Awan, P.C.S. Cruz, and B.S. Chauhan|Influence of Environmental Factors, Cultural Practices, and Herbicide Application on Seed Germination and Emergence Ecology of Ischaemum rugosum Salisb|PLoS One10:28 p.|2015|
179592|T||Warabi,E., K. Usui, Y. Tanaka, and H. Matsumoto|Resistance of a Soybean Cell Line to Oxyfluorfen by Overproduction of Mitochondrial Protoporphyrinogen Oxidase|Pest Manag. Sci.57:743-748|2001|10.1002/ps.357
179593|T||Matringe,M., D. Clair, and R. Scalla|Effects of Peroxidizing Herbicides on Protoporphyrin IX Levels in Non-Chlorophyllous Soybean Cell Culture|Pestic. Biochem. Physiol.36:300-307|1990|10.1016/0048-3575(90)90039-5
179594|T||Molin,W.T., and R.A. Khan|Microbioassays to Determine the Activity of Membrane Disrupter Herbicides|Pestic. Biochem. Physiol.53:172-179|1995|10.1006/pest.1995.1065
179595|T||Stamps,R.H.|Effects of Preemergence Herbicides on Newly Established Leatherleaf Fern|Proc. Annu. Meet. Fla. State Hortic. Soc.104:325-327|1991|
179596|T||Knox,G.W.|Efficacy of a Wettable Powder Formulation of the Preemergent Herbicide, Oxadiazon, and Phytotoxicity of Woody Ornamentals|Proc. Annu. Meet. Fla. State Hortic. Soc.99:270-272|1986|
179597|T||Shrestha,S., G. Sharma, N.R. Burgos, and T.M. Tseng|Response of Weedy Rice (Oryza spp.) Germplasm from Arkansas to Glyphosate, Glufosinate, and Flumioxazin|Weed Sci.67(3): 303-310|2019|10.1017/wsc.2018.92
179598|T||Stamps,R.H., and W.H.,Jr. Bodnaruk|Herbicide Application to Heartleaf Philodendron Stock Beds|Proc. Annu. Meet. Fla. State Hortic. Soc.94:117-119|1981|
179599|T||Leela,D.|Studies on Crop Tolerance to Oxadiazon for Selection of Companion Crops and Bioassays for Persistence Study|Pesticides 21:44-45|1987|
179600|T||Ngo,T.D., M. Krishnan, P. Boutsalis, G. Gill, and C. Preston|Target-Site Mutations Conferring Resistance to Glyphosate in Feathertop Rhodes Grass (Chloris virgata) Populations in Australia|Pest Manag. Sci.74:1094-1100|2018|10.1002/ps.4512
179601|T||Glaze,N.C., M. Singh, and S.C. Phatak|Ornamental Response to Two Methods of Oxadiazon Application|Hortscience22(2): 265-268|1987|10.21273/HORTSCI.22.2.265
179603|T||Nascentes,R.F., C.A. Carbonari, P.S. Simoes, M.C. Brunelli, E.D. Velini, and S.O. Duke|Low Doses of Glyphosate Enhance Growth, CO2 Assimilation, Stomatal Conductance and Transpiration in Sugarcane and Eucalyptus|Pest Manag. Sci.74:1197-1205|2018|10.1002/ps.4606
179604|T||Varsano,R., M. Matringe, N. Magnin, R. Mornet, and R. Scalla|Competitive Interaction of Three Peroxidizing Herbicides with the Binding of [3H]Acifluorfen to Corn Etioplast Membranes|FEBS Lett.272(1/2): 106-108|1990|10.1016/0014-5793(90)80459-V
179605|T||Malone,J.M., S. Morran, N. Shirley, P. Boutsalis, and C. Preston|EPSPS Gene Amplification in Glyphosate-Resistant Bromus diandrus|Pest Manag. Sci.72:81-88|2016|10.1002/ps.4019
179607|T||Monsanto Co.|Eight-Day Dietary LC50 - Bobwhite Quail Pydraul 50E Final Report|EPA/OTS 878212319:16 p.|1983|
179609|T||EF Houghton|Product Data Sheet from Ef Houghton & Co. Containing Acute Toxicity Values for Four Triaryl Phosphate Esters|EPA/OTS 40-0042432:4 p.|2000|
179610|A||Liu,M., S. Yi, P. Chen, M. Chen, W. Zhong, J. Yang, B. Sun, and L. Zhu|Thyroid Endocrine Disruption Effects of Perfluoroalkyl Phosphinic Acids on Zebrafish at Early Development|Sci. Total Environ.676:290-297|2019|10.1016/j.scitotenv.2019.04.177
179611|T||Warmund,M.R., W.A. Geyer, and C.E. Long|Preemergent Herbicides for Direct Seeding Kentucky Coffeetree, Honeylocust, and Black Locust|Tree Plant. Notes34(3): 24-27|1983|
179612|T||Qian,J., B. Lu, H. Chen, P. Wang, C. Wang, K. Li, X. Tian, W. Jin, X. He, and H. Chen|Phytotoxicity and Oxidative Stress of Perfluorooctanesulfonate to Two Riparian Plants: Acorus calamus and Phragmites communis|Ecotoxicol. Environ. Saf.180:215-226|2019|10.1016/j.ecoenv.2019.04.078
179613|T||Velini,E.D., E. Alves, M.C. Godoy, D.K. Meschede, R.T. Souza, and S.O. Duke|Glyphosate Applied at Low Doses can Stimulate Plant Growth|Pest Manag. Sci.64:489-496|2008|10.1002/ps.1562
179614|T||Ciba-Geigy Corp.|Delayed Neurotoxicity in Domestic Hens (ED50) - Phosphoric Acid, Triphenyl Ester with Cover Letter Dated 083187|EPA/OTS Doc.#86-870001722:11 p.|1987|
179615|T||Willoughby,I.H., V.J. Stokes, and T. Connolly|Using Ecoplugs Containing Glyphosate can be an Effective Method of Killing Standing Trees|Forestry90:719-727|2017|10.1093/forestry/cpx028
179616|T||FMC Corp.|Neurotoxicity Study in Hens on Commercially Available Phosphate Ester Products II Monsanto|EPA/OTS 878210587:19 p.|1982|
179617|T||Walker,K.J., C. Auld, E. Austin, and J. Rook|Effectiveness of Methods to Control the Invasive Non-Native Pitcherplant Sarracenia purpurea L. on a European Mire|J. Nat. Conserv.31:1-8|2016|10.1016/j.jnc.2016.02.003
179618|A||Zhao,B., X. Shao, B. Zhao, Z. Yuan, and J. Zhang|Application of Blueberry Anthocyanins Reduces Perfluorooctane Sulfonate Toxicity on Planarians (Dugesia japonica) in Locomotion, Regeneration, and Gene Expression and Contents|Environ. Sci. Pollut. Res.25(22): 22095-22105|2018|10.1007/s11356-018-2127-7
179619|T||Barroso,A.A.M., M.G.S. Costa, N.J. Neto, J.I. Dos Santos, T.S. Balbuena, C.A. Carbonari, and P.L.C.A. Alves|Protein Identification Before and After Glyphosate Exposure in Lolium multiflorum Genotypes|Pest Manag. Sci.74:1125-1133|2018|10.1002/ps.4831
179620|T||Schuld,M.|BSN 2060 SC 240: Toxicity to the Aphid Parasitoid, Aphidius rhopalosiphi DeStefani-Perez (Hymenoptera, Braconidae) Using an Extended Laboratory Test|Internal Rep., Bayer CropScience AG:35 p.|2002|
179621|AT||U.S. Environmental Protection Agency|Letter from USEPA to the Monsanto Chemical Company Regarding Environmental Monitoring Method for Water & Sediment & Acute and Chronic Toxicity for Aquatic Organisms W-Attachments|EPA/OTS 40-81421242:11 p.|1981|
179622|T||Coburn,C.W., A.T. Adjesiwor, and A.R. Kniss|Creeping Bellflower Response to Glyphosate and Synthetic Auxin Herbicides|HortTechnology28(1): 6-9|2018|10.21273/HORTTECH03853-17
179623|T||Bakker,F.|A Laboratory Dose-Response Study to Evaluate the Effects of BSN 2060 SC 240 on Survival and Reproduction of the Predaceous Mite Typhlodromus pyri Scheuten (Acari, Phytoseiide) in Ventilated Glass Cages, Source: Mitox|Internal Rep., Bayer CropScience AG:31 p.|2001|
179624|T||Schuld,M.|BSN 2060 SC 240: Acute Toxicity to the Aphid Parasitoid, Aphidius rhopalosiphi (Hymenoptera, Braconidae) in the Laboratory|Internal Rep., Bayer CropScience AG:40 p.|2000|
179625|A||Monsanto Co.|Chronic Toxicity Study with Santicizer 141 in Water Fleas (Daphnia magna) with Cover Letter Dated 100692 and Attachments|EPA/OTS 86-930000016:37 p.|1992|
179626|A||Monsanto Co.|Acute Toxicity Study with Santicizer 141 in Daphnia magna with Cover Letter Dated 100692 and Attachments|EPA/OTS 86-930000012:30 p.|1992|
179627|T||Salgado,T.P., F.C.M. Pereira, M.A. Kuva, and P.L.C.A. Alves|Effects of Glyphosate on Growth, Yield and Wood Quality of Eucalyptus urograndis|J. Trop. For. Sci.29(3): 257-266|2017|10.26525/jtfs2017.29.3.257266
179629|AT||Monsanto Chemical Co.|Letter from Monsanto Chemical Company to the USEPA Regarding the Bioconcentration Factors for Aryl Phosphates with Attachments|EPA/OTS 40-8242828:7 p.|1982|
179630|T||Briels,N., T.M. Ciesielski, D. Herzke, and V.L.B. Jaspers|Developmental Toxicity of Perfluorooctanesulfonate (PFOS) and Its Chlorinated Polyfluoroalkyl Ether Sulfonate Alternative F-53B in the Domestic Chicken|Environ. Sci. Technol.52(21): 12859-12867|2018|10.1021/acs.est.8b04749
179631|A||Xin,Y., X.M. Ren, B. Wan, and L.H. Guo|Comparative In Vitro and In Vivo Evaluation of the Estrogenic Effect of Hexafluoropropylene Oxide Homologues|Environ. Sci. Technol.53(14): 8371-8380|2019|10.1021/acs.est.9b01579
179632|A||Vitorino,H.A., L. Mantovanelli, F.P. Zanotto, and B.P. Esposito|Iron Metallodrugs: Stability, Redox Activity and Toxicity Against Artemia salina|PLoS One10(4): 11 p.|2015|10.1371/journal.pone.0121997
179634|A||Cuco,A.P., N. Abrantes, F. Goncalves, J. Wolinska, and B.B. Castro|Toxicity of Two Fungicides in Daphnia: Is It Always Temperature-Dependent?|Ecotoxicology25(7): 1376-1389|2016|10.1007/s10646-016-1689-8
179635|A||Nur,G., M. Yilmaz, M. Karapehlivan, I. Kaya, O. Nur, and A. Deveci|The Effect of Tebuconazole on Serum Paraoxonase and Aminotransferase Activities in Cyprinus carpio (L. 1758)|Fresenius Environ. Bull.26(10): 6212-6216|2017|
179636|A||Raby,M., E. Maloney, D.G. Poirier, and P.K. Sibley|Acute Effects of Binary Mixtures of Imidacloprid and Tebuconazole on 4 Freshwater Invertebrates|Environ. Toxicol. Chem.38(5): 1093-1103|2019|10.1002/etc.4386
179637|T||Druille,M., M. Omacini, R.A. Golluscio, and M.N. Cabello|Arbuscular Mycorrhizal Fungi are Directly and Indirectly Affected by Glyphosate Application|Appl. Soil Ecol.72:143-149|2013|10.1016/j.apsoil.2013.06.011
179638|T||Jabran,K., and M.N. Dogan|High Carbon Dioxide Concentration and Elevated Temperature Impact the Growth of Weeds but do not Change the Efficacy of Glyphosate|Pest Manag. Sci.74:766-771|2018|10.1002/ps.4788
179640|T||Guerra-Garcia,A., D. Barrales-Alcala, M. Argueta-Guzman, A. Cruz, M.C. Mandujano, J.A. Arevalo-Ramirez, B.G. Milligan, |Biomass Allocation, Plantlet Survival, and Chemical Control of the Invasive Chandelier Plant (Kalanchoe delagoensis) (Crassulaceae)|Invasive Plant Sci. Manag.11:33-39|2018|10.1017/inp.2018.6
179641|A||U.S. Environmental Protection Agency|Letter from the USEPA to Monsanto Chemical Company Regarding the Calculated Bioconcentration Factors for Aryl Phosphates in Fish with Attachment|EPA/OTS 40-82421526:7 p.|2000|
179642|T||Wiggins,M.S., R.M. Hayes, R.L. Nichols, and L.E. Steckel|Cover Crop and Postemergence Herbicide Integration for Palmer amaranth Control in Cotton|Weed Technol.31:348-355|2017|10.1017/wet.2017.10
179643|T||Ciba-Geigy Corp.|(Tri-Phenyl Phosphate) Delayed Neurotoxicty in Domestic Hens (Ed-50) with Cover Letter Dated 010987|EPA/OTS 86870000074:11 p.|2000|
179644|A||Ciba-Geigy Corp.|Report on the Acute Toxicity of TK 12 869/A to Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 010987|EPA/OTS 86870000075:17 p.|2000|
179645|T||Ciba-Geigy Corp.|(Reomol TPP) Delayed Neurotoxicity in Domestic Hens with Cover Letter Dated 010987|EPA/OTS 86870000072:13 p.|2000|
179646|A||Monsanto Co.|Initial Submission: Toxicity of S-141 to the Freshwater Alga Selenastrum capricornutum with Cover Letter Dated 081492|EPA/OTS 88-920007614:13 p.|1992|
179647|A||Monsanto Co.|Initial Submission: Acute and Chronic Toxicity of Santicizer 141 in the Water Flea with Cover Letter Dated 081492|EPA/OTS 88-920007910:33 p.|1992|
179648|A||Monsanto Co.|Initial Submission: Acute Toxicity of S-141 to Daphnia magna with Cover Letter Dated 08/14/92|EPA/OTS 88-920008201:25 p.|1992|
179649|A||Monsanto Co.|Initial Submission: The Toxicity of Santicizer 141 to Early Life Stages of Rainbow Trout (Salmo gairdneri) with Cover Letter Dated 112592|EPA/OTS 88-920010308:31 p.|1992|
179651|A||Monsanto Co.|Chronic Toxicity Study with Santicizer 154 in Water Fleas (Daphnia magna) with Cover Letter Dated 100692 & Attachments|EPA/OTS 86-930000011:37 p.|1992|
179652|A||Coors,A., P. Vollmar, F. Sacher, and A. Kehrer|Is There Synergistic Interaction Between Fungicides Inhibiting Different Enzymes in the Ergosterol Biosynthesis Pathway in Toxicity Tests with the Green Alga Raphidocelis subcapitata?|Ecotoxicology27(7): 936-944|2018|10.1007/s10646-018-1917-5
179653|A||Wrubleswski,J., F.W.,Jr. Reichert, L. Galon, P.A. Hartmann, and M.T. Hartmann|Acute and Chronic Toxicity of Pesticides on Tadpoles of Physalaemus cuvieri (Anura, Leptodactylidae)|Ecotoxicology27(3): 360-368|2018|10.1007/s10646-018-1900-1
179654|A||Fort,D.J., M.B. Mathis, P.D. Guiney, and J.A. Weeks|Evaluation of the Developmental Toxicity of Perfluorooctanesulfonate in the Anuran, Silurana tropicalis|J. Appl. Toxicol.39(2): 365-374|2019|10.1002/jat.3727
179655|A||Liu,N., F. Dong, J. Xu, Y. Zheng, and X. Liu|Chiral Bioaccumulation Behavior of Tebuconazole in the Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.126:78-84|2016|10.1016/j.ecoenv.2015.12.007
179656|A||Sancho,E., M.J. Villarroel, and M.D. Ferrando|Assessment of Chronic Effects of Tebuconazole on Survival, Reproduction and Growth of Daphnia magna After Different Exposure Times|Ecotoxicol. Environ. Saf.124:10-17|2016|10.1016/j.ecoenv.2015.09.034
179657|A||Perez-Rodriguez,V., C.L.,II Souders, C. Tischuk, and C.J. Martyniuk|Tebuconazole Reduces Basal Oxidative Respiration and Promotes Anxiolytic Responses and Hypoactivity in Early-Staged Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.217:87-97|2019|10.1016/j.cbpc.2018.11.017
179658|A||Altenhofen,S., D.D. Nabinger, M.T. Wiprich, T.C.B. Pereira, M.R. Bogo, and C.D. Bonan|Tebuconazole Alters Morphological, Behavioral and Neurochemical Parameters in Larvae and Adult Zebrafish (Danio rerio)|Chemosphere180:483-490|2017|10.1016/j.chemosphere.2017.04.029
179659|T||Machado-Neves,M., M.J.O. Neto, D.C. Miranda, A.C.F. Souza, M.M. Castro, M.N. Sertorio, T.F. Carvalho, S.L.P. Matta, and|Dietary Exposure to Tebuconazole Affects Testicular and Epididymal Histomorphometry in Frugivorous Bats|Bull. Environ. Contam. Toxicol.101(2): 197-204|2018|10.1007/s00128-018-2377-6
179660|A||Bernabo,I., A. Guardia, R. Macirella, S. Sesti, A. Crescente, and E. Brunelli|Effects of Long-Term Exposure to Two Fungicides, Pyrimethanil and Tebuconazole, on Survival and Life History Traits of Italian Tree Frog (Hyla intermedia)|Aquat. Toxicol.172:56-66|2016|10.1016/j.aquatox.2015.12.017
179661|T||Arase,S., R.Y. Parada, J. Kihara, and M. Ueno|Elicitor(s) Production is Involved in Red-Light-Induced Resistance During Spore Germination of Bipolaris oryzae in the Presence of Host Tissues|J. Gen. Plant Pathol.83(6): 337-343|2017|10.1007/s10327-017-0747-2
179662|A||Poulsen,R., X. Luong, M. Hansen, B. Styrishave, and T. Hayes|Tebuconazole Disrupts Steroidogenesis in Xenopus laevis|Aquat. Toxicol.168:28-37|2015|10.1016/j.aquatox.2015.09.008
179663|A||Cuco,A.P., J.I. Santos, N. Abrantes, F. Goncalves, J. Wolinska, and B.B. Castro|Concentration and Timing of Application Reveal Strong Fungistatic Effect of Tebuconazole in a Daphnia-Microparasitic Yeast Model|Aquat. Toxicol.193:144-151|2017|10.1016/j.aquatox.2017.10.013
179664|A||Vetri Selvi,C., and K. Revathi|A Study on the Toxic Effect of Tebuconazole on Total Protein Levels in Labeo rohita|Biochem. Cell. Arch.11(1): 245-247|2011|
179665|A||Ferreira,D., H.C. Rocha, L.C. Kreutz, V.L. Loro, A. Marqueze, G. Koakoski, J.G. Santos da Rosa, D. Gusso, T.A. Oliveira|Bee Products Prevent Agrichemical-Induced Oxidative Damage in Fish|PLoS One8(10): 11 p.|2013|
179666|T||Han,W.B., Y.J. Zhai, Y. Gao, H.Y. Zhou, J. Xiao, G. Pescitelli, and J.M. Gao|Cytochalasins and an Abietane-Type Diterpenoid with Allelopathic Activities from the Endophytic Fungus Xylaria Species|J. Agric. Food Chem.67:3643-3650|2019|10.1021/acs.jafc.9b00273
179667|A||Cuco,A.P., N. Abrantes, F. Goncalves, J. Wolinska, and B.B. Castro|Interplay Between Fungicides and Parasites: Tebuconazole, but not Copper, Suppresses Infection in a Daphnia-Metschnikowia Experimental Model|PLoS One12(2): 16 p.|2017|10.1371/journal.pone.0172589
179668|A||Kumar,N., O. Awoyemi, A. Willis, C. Schmitt, L. Ramalingam, N. Moustaid-Moussa, and J. Crago|Comparative Lipid Peroxidation and Apoptosis in Embryo-Larval Zebrafish Exposed to 3 Azole Fungicides, Tebuconazole, Propiconazole, and Myclobutanil, at Environmentally Relevant Concentrations|Environ. Toxicol. Chem.38(7): 1455-1466|2019|10.1002/etc.4429
179669|A||Saraiva,A.S., R.A. Sarmento, O. Golovko, T. Randak, J.L.T. Pestana, and A.M.V.M. Soares|Lethal and Sub-Lethal Effects of Cyproconazole on Freshwater Organisms: A Case Study with Chironomus riparius and Dugesia tigrina|Environ. Sci. Pollut. Res.25:12169-12176|2018|10.1007/s11356-017-1180-y
179670|A||Cao,F., C.L. Souders, P. Li, S. Pang, L. Qui, and C.J. Martyniuk|Developmental Toxicity of the Triazole Fungicide Cyproconazole in Embryo-Larval Stages of Zebrafish (Danio rerio)|Environ. Sci. Pollut. Res.26:4913-4923|2019|10.1007/s11356-018-3957-z
179671|T||Thiele,N., and C. Koppl|Gas Anesthesia Impairs Peripheral Auditory Sensitivity in Barn Owls (Tyto alba)|eNeuro5(5): 14 p.|2018|10.1523/ENEURO.0140-18.2018
179672|T||Zhao,S., Q. Yang, B. Wang, Y. Peng, J. Zhan, and L. Liu|Effects of Combined Exposure to Perfluoroalkyl Acids and Heavy Metals on Bioaccumulation and Subcellular Distribution in Earthworms (Eisenia fetida) from Co-Contaminated Soil|Environ. Sci. Pollut. Res.25(29): 29335-29344|2018|10.1007/s11356-018-2951-9
179673|T||Jacobsen,A.V., M. Norden, M. Engwall, and N. Scherbak|Effects of Perfluorooctane Sulfonate on Genes Controlling Hepatic Fatty Acid Metabolism in Livers of Chicken Embryos|Environ. Sci. Pollut. Res.25(23): 23074-23081|2018|10.1007/s11356-018-2358-7
179674|T||Zhao,S., T. Liu, B. Wang, J. Fu, T. Liang, Z. Zhong, J. Zhan, and L. Liu|Accumulation, Biodegradation and Toxicological Effects of N-Ethyl Perfluorooctane Sulfonamidoethanol on the Earthworms Eisenia fetida Exposed to Quartz Sands|Ecotoxicol. Environ. Saf.181:138-145|2019|10.1016/j.ecoenv.2019.05.062
179675|A||Li,S., Q. Sun, Q. Wu, W. Gui, G. Zhu, and D. Schlenk|Endocrine Disrupting Effects of Tebuconazole on Different Life Stages of Zebrafish (Danio rerio)|Environ. Pollut.249:1049-1059|2019|10.1016/j.envpol.2019.03.067
179676|A||Chmist,J., K. Szoszkiewicz, and D. Drozdzynski|Behavioural Responses of Unio tumidus Freshwater Mussels to Pesticide Contamination|Arch. Environ. Contam. Toxicol.:11 p.|2019|
179677|A||Li,S., Q. Wu, Q. Sun, S. Coffin, W. Gui, and G. Zhu|Parental Exposure to Tebuconazole Causes Thyroid Endocrine Disruption in Zebrafish and Developmental Toxicity in Offspring|Aquat. Toxicol.211:116-123|2019|10.1016/j.aquatox.2019.04.002
179678|A||Qi,S.Z., X.F. Chen, Y. Liu, J.Z. Jiang, and C.J. Wang|Comparative Toxicity of Rac- and S-Tebuconazole to Daphnia magna|Chinese Chem. Lett.50:456-462|2015|
179679|A||Qi,S., X. Liu, L. Zhu, X. Chen, and C. Wang|Racemic, R-, and S-Tebuconazole Altered Chitinase and Chitobiase Activity of Daphnia magna|Chinese Chem. Lett.53(3): 171-175|2018|
179680|A||Cuco,A.P., B.B. Castro, F. Goncalves, J. Wolinska, and N. Abrantes|Temperature Modulates the Interaction Between Fungicide Pollution and Disease: Evidence from a Daphnia-Microparasitic Yeast Model|Parasitology145:939-947|2018|10.1017/S0031182017002062
179681|A||Macirella,R., M. Tripepi, and E. Brunelli|Morphological and Immunohistochemical Modifications in Zebrafish (Danio rerio) Gills After Short-Term Exposure to the Fungicide Tebuconazole|Zebrafish00:12 p.|2018|
179682|A||Ferreira,D., T.C. Unfer, H.C. Rocha, L.C. Kreutz, G. Koakoski, and L.J.G. Barcellos|Antioxidant Activity of Bee Products Added to Water in Tebuconazole-Exposed Fish|Neotrop. Ichthyol.10(1): 215-220|2012|10.1590/S1679-62252012000100021
179683|A||Rossi,F., S. Pesce, C. Mallet, C. Margoum, A. Chaumot, M. Masson, and J. Artigas|Interactive Effects of Pesticides and Nutrients on Microbial Communities Responsible of Litter Decomposition in Streams|Front. Microbiol.9:13 p.|2018|10.3389/fmicb.2018.02437
179684|A||Lutnicka,H., B. Bojarski, A. Ludwikowska, D. Wronska, T. Kaminska, J. Szczygiel, A. Troszok, K. Szambelan, and G. Formi|Hematological Alterations as a Response to Exposure to Selected Fungicides in Common Carp (Cyprinus carpio L.)|Folia Biol. (Krakow)64(4): 235-244|2016|10.3409/fb64_4.235
179685|A||Castro,T.F.D., J.G. Da Silva Sousa, A.F.S. De Carvalho, I. De Lima Assis, M.J. Palmieri, L.F.A. Vieira, S. Marcussi, M.|Anxiety-Associated Behavior and Genotoxicity Found in Adult Danio rerio Exposed to Tebuconazole-Based Commercial Product|Environ. Toxicol. Pharmacol.62:140-146|2018|10.1016/j.etap.2018.06.011
179686|A||Martinez,R.S., W.D. Di Marzio, and M.E. Saenz|Genotoxic Effects of Commercial Formulations of Chlorpyrifos and Tebuconazole on Green Algae|Ecotoxicology24(1): 45-54|2015|10.1007/s10646-014-1353-0
179687|A||Feckler,A., A. Thielsch, K. Schwenk, R. Schulz, and M. Bundschuh|Differences in the Sensitivity Among Cryptic Lineages of the Gammarus fossarum Complex|Sci. Total Environ.439:158-164|2012|10.1016/j.scitotenv.2012.09.003
179688|A||Donnadieu,F., P. Besse-Hoggan, C. Forestier, and J. Artigas|Influence of Streambed Substratum Composition on Stream Microbial Communities Exposed to the Fungicide Tebuconazole|Freshw. Biol.61:2026-2036|2016|10.1111/fwb.12679
179689|A||Talk,A., S. Kublik, M. Uksa, M. Engel, R. Berghahn, G. Welzl, M. Schloter, and S. Mohr|Effects of Multiple but Low Pesticide Loads on Aquatic Fungal Communities Colonizing Leaf Litter|J. Environ. Sci.46:116-125|2016|10.1016/j.jes.2015.11.028
179690|T||Svobodova,M., K. Smidova, M. Hvezdova, and J. Hofman|Uptake Kinetics of Pesticides Chlorpyrifos and Tebuconazole in the Earthworm Eisenia andrei in Two Different Soils|Environ. Pollut.236:257-264|2018|10.1016/j.envpol.2018.01.082
179692|T||Ciba-Geigy Corp.|(TPP - Dec 1980) Delayed Neurotoxicity in Domestic Hens (ED-50) with Cover Letter Dated 010987|EPA/OTS 86870000073:11 p.|2000|
179693|A||Ciba-Geigy Corp.|Report on the Acute Immobilization of Daphnia magna Straus by TK 12 869/A (EPA) with Cover Letter Dated 010987|EPA/OTS 86870000076:11 p.|2000|
179694|T||Baurand,P.E., N. Capelli, and A. De Vaufleury|Genotoxicity Assessment of Pesticides on Terrestrial Snail Embryos by Analysis of Random Amplified Polymorphic DNA Profiles|J. Hazard. Mater.298:320-327|2015|10.1016/j.jhazmat.2015.05.051
179695|T||Cui,N., H. Xu, S. Yao, Y. He, H. Zhang, and Y. Yu|Chiral Triazole Fungicide Tebuconazole: Enantioselective Bioaccumulation, Bioactivity, Acute Toxicity, and Dissipation in Soils|Environ. Sci. Pollut. Res.25:25468-25475|2018|10.1007/s11356-018-2587-9
179697|T||Siqueira,H.A.A., R.N.C. Guedes, and M.C. Picanco|Cartap Resistance and Synergism in Populations of Tuta absoluta (Lep., Gelechiidae)|J. Appl. Entomol.124(5/6): 233-238|2000|10.1046/j.1439-0418.2000.00470.x
179698|T||Goldsby,T., and J. Fry|Evaluation of Turf Reinforcement Mats and Their Effect on Establishment of Buffalograss and Zoysiagrass |Int. Turfgrass Soc. Res. J.:47-51|2011|
179699|T||Velki,M., A. Weltmeyer, T.B. Seiler, and H. Hollert|Acute Toxicities and Effects on Multixenobiotic Resistance Activity of Eight Pesticides to the Earthworm Eisenia andrei|Environ. Sci. Pollut. Res.26:4821-4832|2019|10.1007/s11356-018-3959-x
179700|T||Hemingway,J., and G. Davidson|Resistance to Organophosphate and Carbamate Insecticides in Anopheles atroparvus|Parassitologia (Rome)25(1): 1-8|1983|
179701|T||Laznik,Z., M. Vidrih, and S. Trdan|The Effects of Different Fungicides on the Viability of Entomopathogenic Nematodes Steinernema feltiae (Filipjev), S. carpocapsae Weiser, and Heterorhabditis downesi Stock, Griffin & Burnell (Nematoda: Rhabditida) Under|Chil. J. Agric. Res.72(1): 62-67|2012|
179702|T||Li,S., H. Jiang, K. Qiao, W. Gui, and G. Zhu|Insights into the Effect on Silkworm (Bombyx mori) Cocooning and Its Potential Mechanisms Following Non-Lethal Dose Tebuconazole Exposure|Chemosphere234:338-345|2019|10.1016/j.chemosphere.2019.06.105
179703|T||Chen,J., M. Saleem, C. Wang, W. Liang, and Q. Zhang|Individual and Combined Effects of Herbicide Tribenuron-Methyl and Fungicide Tebuconazole on Soil Earthworm Eisenia fetida|Sci. Rep.8(2967): 9 p.|2018|
179704|T||Willow,J., A. Silva, E. Veromann, and G. Smagghe|Acute Effect of Low-Dose Thiacloprid Exposure Synergised by Tebuconazole in a Parasitoid Wasp|PLoS One14(2): 13 p.|2019|10.1371/journal.pone.0212456
179705|T||Guimaraes,B., C. Bandow, M.J.B. Amorim, A. Kehrer, and A. Coors|Mixture Toxicity Assessment of a Biocidal Product Based on Reproduction and Avoidance Behaviour of the Collembolan Folsomia candida|Ecotoxicol. Environ. Saf.165:284-290|2018|10.1016/j.ecoenv.2018.08.094
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179707|A||Wells,R.D.S., and J.S. Clayton|Evaluation of Endothall for Aquatic Weed Control in New Zealand|N. Z. Plant Prot.:102-106|1993|10.30843/nzpp.1993.46.11157
179708|A||Daniel,T.C.|Evaluation of Diquat and Endothall for the Control of Water Milfoil (Myriophyllum exalbescens) and the Effect of Weedkill on the Nitrogen and Phosphorus Status of a Waterbody. II. Design and Construction of a Shallow Wa|Ph.D Thesis, University of Wisconsin, Madison, WI:132 p.|1972|
179709|T||Ciba-Geigy Corp.|Tri-Phenyl Phosphate Delayed Neurotoxicity in Domestic Hens (ED50) with Cover Letters|EPA/OTS 878213965:57 p.|1983|
179710|T||E.I.DuPont Denemours and Co.|Toxicity Data on Triphenyl Phosphate from Monsanto|EPA/OTS 878221343:2 p.|1983|
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179712|A||Monsanto Co.|Initial Submission: The Effects of Continuous Exposure of Triphenyl Phosphate on Hatchability of Eggs and Growth and Survivial of Fathead Minnow Fry with Cover Letter Dated 08149|EPA/OTS 88-920007737:102 p.|1992|
179715|A||FMC Corp.|Six Potential PCB Substitutes: Acute and Chronic Toxicity to Algae and Invertebrates|EPA/OTS 878210515:57 p.|1982|
179716|T||Szoor,B., Z. Feher, E. Bako, F. Erdodi, G. Szabo, P. Gergely, and V. Dombradi|Isolation and Characterization of the Catalytic Subunit of Protein Phosphatase 2A from Neurospora crassa|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.112(3): 515-522|1995|10.1016/0305-0491(95)00110-7
179717|A||Bishop,W.M., B.E. Willis, and C.T. Horton|Affinity and Efficacy of Copper Following an Algicide Exposure: Application of the Critical Burden Concept for Lyngbya wollei Control in Lay Lake, Al|Environ. Manag.55(4): 983-990|2015|10.1007/s00267-014-0433-5
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179719|AT||EPA/OTS|Technical and Toxicological Information on Various Materials from the FMC Corp|EPA/OTS 40-7942486:370 p.|2000|
179720|A||Nichols,D.S., and D.R. Keeney|Nitrogen and Phosphorus Release from Decaying Water Milfoil|Hydrobiologia (Multiple Languages)42(4): 509-525|1973|10.1007/BF00047023
179721|A||Monsanto Co.|Initial Submission: Acute and Chronic Toxicity of Santicizer 154 in the Water Flea with Cover Letter Dated 081492|EPA/OTS 88-920007913:32 p.|1992|
179722|A||Monsanto Co.|Initial Submission: Acute Toxicity of Santicizer 154 in Daphnia magna with Cover Letter Dated 081492|EPA/OTS 88-920008547:18 p.|1992|
179723|A||Guastello,P.R., and R.A. Thum|Mesocosm and Field Evaluation of Eurasian and Hybrid Watermilfoil Response to Endothall in Jefferson Slough, Montana|J. Aquat. Plant Manag.56:63-67|2018|
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179728|A||Clements,D., T.M. Dugdale, K.L. Butler, and T.D. Hunt|Control of Delta Arrowhead (Sagittaria platyphylla) in Australian Irrigation Channels with Long Exposure to Endothall Dipotassium Salt During Winter|J. Aquat. Plant Manag.53:165-170|2015|
179729|A||Monsanto Co.|Acute Toxicity of Pydraul 50E (AB-78-113) to Daphnia magna|EPA/OTS 878212320:14 p.|1983|
179730|A||Monsanto Co.|Toxicity of Pydraul 50E (BN-78-1384305-2) to Sheepshead Minnows (Cyprinodon variegatus)|EPA/OTS 878212321:11 p.|1983|
179731|A||Carter,C.C., and R.S. Hestand|Relationship of Regrowth of Aquatic Macrophytes After Treatment with Herbicides to Water Quality and Phytoplankton Populations|J. Aquat. Plant Manag.15:65-69|1977|
179732|A||Monsanto Co.|Acute Toxicity of Pydraul 29 ELT (BN-77-332)B to Bluegill (Lepomis macrochirus)|EPA/OTS 878212334:16 p. |1983|
179733|T||Monsanto Co.|Neurotoxicity Study with Pydraul 29E LT in Chickens|EPA/OTS 878212331:17 p.|1983|
179734|A||Clements,D., K.L. Butler, T.D. Hunt, Z. Liu, and T.M. Dugdale|Efficacy of Endothall Dimethylalkylamine Salt Applied to Static Irrigation Channels During Winter to Control Aquatic Weeds in Temperate Australia|J. Aquat. Plant Manag.56:84-92|2018|
179735|T||Ciba-Geigy Corp.|Initial Submission: Letter from Ciba-Geigy Corp Submitting Information on a Delayed Neurotoxicity Study with Reomol TPP in Domestic Hens|EPA/OTS 88-920002912:4 p.|1992|
179736|T||Willey,L.N., M.D. Netherland, W.T. Haller, and K.A. Langeland|Evaluation of Aquatic Herbicide Activity Against Crested Floating Heart|J. Aquat. Plant Manag.52:47-56|2014|
179737|A||Monsanto Co.|Acute Toxicity of Pydraul 29 ELT (BN-77-333) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878212333:15 p.|1983|
179738|A||Monsanto Co.|Acute Toxicity of Pydraul 29 ELT to the Water Flea (Daphnia magna)|EPA/OTS 878212332:13 p.|1983|
179739|T||Monsanto Co.|Neurotoxicity Study with Pydraul 30E in Chickens- BTL-72-77|EPA/OTS 878212324:17 p.|1983|
179741|A||Monsanto Co.|Acute Toxicity of S-141 (AB-79-1384348-1B) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878211121:10 p.|1983|
179742|A||Monsanto Co.|Acute Toxicity of Pydraul MC (BN-77-412B) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878212356:15 p.|1983|
179743|A||Monsanto Co.|Acute Toxicity of Pydraul MC (BN-77-412A) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878212355:15 p.|1983|
179744|A||Monsanto Co.|Acute Toxicity of Pydraul 230C (BN-77-410B) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878212342:16 p.|1983|
179745|A||Drotter,K.R., and H. Krueger|MON 77360: A 48-Hour Static Acute Toxicity Test with the Cladoceran (Daphnia magna)|Project 139A-205, Wildlife International Ltd., Easton, MD:13 p.|2000|
179746|A||Monsanto Co.|Acute Toxicity of Pydraul 230C to the Water Flea (Daphnia magna)|EPA/OTS 878212343:15 p.|1983|
179747|A||Monsanto Co.|Acute Toxicity of Pydraul 312C (BN-77-411A) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878212351:16 p.|1983|
179748|A||Turnage,G., and J.D. Madsen|Curlyleaf Pondweed (Potamogeton crispus) Control Using Copper-Ethylenediamine Alone and in Combination with Endothall|J. Aquat. Plant Manag.55:116-119|2017|
179749|A||Monsanto Co.|Acute Toxicity of Pydraul 312C (BN-77-411B) to Fathead Minnow (Pimephales promelas)|EPA/OTS 878212352:14 p.|1983|
179750|A||Poovey,A.G., and K.D. Getsinger|Comparative Response of Monoecious and Dioecious Hydrilla to Endothall|J. Aquat. Plant Manag.48:15-20|2010|
179751|AT||Skogerboe,J.G., and K.D. Getsinger|Endothall Species Selectivity Evaluation: Southern Latitude Aquatic Plant Community|J. Aquat. Plant Manag.39:129-135|2001|
179752|T||Monsanto Co.|Neurotoxicity Study with XP 728 in Chickens with Package of Materials Relating to the Validation of Indus Bio Test Labs Report|EPA/OTS 878211872:39 p.|1983|
179753|A||Sorsa,K.K., E.V. Nordheim, and J.H. Andrews|Integrated Control of Eurasian Watermilfoil, Myriophyllum spicatum, by a Fungal Pathogen and a Herbicide|J. Aquat. Plant Manag.26:12-17|1988|
179754|T||Hirayama,Y., S. Asano, K. Okayama, S.T. Ohki, and M. Tojo|Weeds as the Potential Inoculum Source of Colletotrichum fructicola Responsible for Strawberry Anthracnose in Nara, Japan|J. Gen. Plant Pathol.84(1): 12-19|2018|10.1007/s10327-017-0753-4
179755|A||Drottar,K., and H. Krueger|MON 77360: A 96-Hour Static Acute Toxicity Test with the Rainbow Trout (Oncorhynchus mykiss)|Project 139A-207, Wildlife International Ltd., Easton, MD:13 p.|2000|
179756|T||Macdonald,G.E., D.G. Shilling, and T.A. Bewick|Effects of Endothall and Other Aquatic Herbicides on Chlorophyll Fluorescence, Respiration and Cellular Integrity|J. Aquat. Plant Manag.31:50-55|1993|
179757|A||Mudge,C.R.|Impact of Aquatic Herbicide Combinations on Nontarget Submersed Plants|J. Aquat. Plant Manag.51:39-44|2013|
179758|A||Mudge,C.R., K.D. Getsinger, and C.J. Gray|Endothall (Dimethylalkylamine) Concentration Exposure Time Evaluation Against Two Populations of Elodea canadensis|J. Aquat. Plant Manag.53:130-133|2015|
179759|T||Liu,F., and Y. Cao|Improvement of Glyphosate Resistance Through Concurrent Mutations in Three Amino Acids of the Pantoea sp. 5-Enolpyruvylshikimate-3-Phosphate Synthase|J. Microbiol. Biotechnol.28(8): 1384-1390|2018|10.4014/jmb.1801.01026
179760|T||Khaled,A.A.A., E.M. El Menofy, A.A. Nessem, and M.A. Elhaak|The Allelopathy Potential and Glyphosate Influence on Anatomical Features of Egyptian Clover Plant (Trifolium alexandrinum L.) Infested with Dodder Weed (Cuscuta campestris L.)|Fresenius Environ. Bull.28(2A): 1262-1269|2019|
179761|T||Martin,D.E., and M.A. Latheef|Efficacy of Electrostatically Charged Glyphosate on Ryegrass|Journal of Electrostatics90:45-53|2017|10.1016/j.elstat.2017.08.006
179762|T||Besancon,T.E.|Carolina Redroot (Lachnanthes caroliniana) in Cranberry: Assessment of Shoot and Rhizome Control with POST Herbicides|Weed Technol.33:210-216|2019|10.1017/wet.2018.94
179763|T||Dupont,Y.L., B. Strandberg, and C. Damgaard|Effects of Herbicide and Nitrogen Fertilizer on Non-Target Plant Reproduction and Indirect Effects on Pollination in Tanacetum vulgare (Asteraceae)|Agric. Ecosyst. Environ.262:76-82|2018|10.1016/j.agee.2018.04.014
179764|T||Burchfield,S.L., D.C. Bailey, C.E. Todt, R.D. Denney, R. Negga, and V.A. Fitsanakis|Acute Exposure to a Glyphosate-Containing Herbicide Formulation Inhibits Complex II and Increases Hydrogen Peroxide in the Model Organism Caenorhabditis elegans|Environ. Toxicol. Pharmacol.66:36-42|2019|10.1016/j.etap.2018.12.019
179766|T||Lautenschlager,R.A., F.W. Bell, and R.G. Wagner|Alternative Conifer Release Treatments Affect Small Mammals in Northwestern Ontario|For. Chron.73(1): 99-106|1997|
179767|T||Di'Tomaso,J.M., and G.B. Kyser|Shoreline Drizzle Applications for Control of Incipient Patches of Yellowflag Iris (Iris pseudacorus)|Invasive Plant Sci. Manag.9(3): 205-213|2016|10.1614/IPSM-D-16-00023.1
179768|T||Prince,C.M., G.E. MacDonald, and J.E. Erickson|Effects of Elevated Temperature and Carbon Dioxide Concentrations on the Response of Two Common Reed (Phragmites australis) Haplotypes to Glyphosate|Invasive Plant Sci. Manag.11:181-190|2018|10.1017/inp.2018.25
179769|AT||Sartain,B.T., and C.R. Mudge|Effect of Winter Herbicide Applications on Bald Cypress (Taxodium distichum) and Giant Salvinia (Salvinia molesta)|Invasive Plant Sci. Manag.11:136-142|2018|10.1017/inp.2018.20
179770|T||Brecke,B.J.|Studies on the Mechanism of Action of N-(Phosphonomethyl) Glycine (Glyphosate)|Ph.D.Thesis, Cornell University, Ithaca, NY:254 p.|1976|
179771|T||Kuhns,L.J.|Efficacy and Phytotoxicity of Three Landscape Herbicides with and Without a Light Mulch|Proc. Annu. Meet. Northeast. Weed Sci. Soc.46:85-89|1992|
179772|A||Parsons,J.K., K.S. Hamel, S.L. O'Neal, and A.W. Moore|The Impact of Endothall on the Aquatic Plant Community of Kress Lake, Washington|J. Aquat. Plant Manag.42:109-114|2004|
179773|T||Hatti,V., B.K. Ramachandrappa, Mudalagiriyappa, A. Sathish, and M.N. Thimmegowda|Soil Properties and Productivity of Rainfed Finger Millet Under Conservation Tillage and Nutrient Management in Eastern Dry Zone of Karnataka|J. Environ. Biol.39:612-624|2018|10.22438/jeb/39/5/MRN-724
179774|A||White,R.L., and R.L. Bounds|A Plastic Barrier for Spot Treatment of Aquatic Vegetation|Prog. Fish-Cult.33(1): 57-59|1971|10.1577/1548-8640(1971)33[57:APBFST]2.0.CO;2
179775|A||Funk,W.H., and A.R. Gaufin|Control of Taste- and Odor-Producing Algae in Deer Creek Reservoir|Trans. Am. Microsc. Soc.84(2): 263-269|1965|10.2307/3224295
179777|A||Fort,D.J., M.B. Mathis, C.E. Fort, H.M. Fort, T.D. Fort, P.D. Guiney, and J.A. Weeks|Effect of Perfluorooctanesulfonate Exposure on Steroid Hormone Levels and Steroidogenic Enzyme Activities in Juvenile Silurana tropicalis|J. Appl. Toxicol.39(7): 1066-1078|2019|10.1002/jat.3794
179778|T||3M Co.|Support: PFOS: A Dietary LC50 Study with the Northern Bobwhite with Cover Letter Dated 042500|EPA/OTS:90 p.|2000|
179779|A||3M Co.|Letter from 3M Spec Chems to USEPA Re Studies of Perfluorooctane Sulfonate Mixtures (3M Company Cmpds T-2136, T-2138, T-2140, & T-3651), with Attachments & Dated 06/28/00|EPA/OTS:3099|2000|
179780|T||3M Co.|Support: Ltr Fr 3M to USEPA W/Initial Results & Summaries of Draft Reproduction Studies of Perfluorooctanesulfonate in Mallards & Bobwhite Quail, Dated 020102|EPA/OTS:3|2002|
179781|A||3M Co.|Letter from 3M Co to USEPA Re Additional Information on Perfluorooctane Sulfonates & Related Compounds with Studies Attached & Dated 051800|EPA/OTS FYI-0500-1378:7883 p.|2000|
179782|A||Netherland,M.D., and W.T. Haller|Impact of Management on the Sprouting of Dioecious Hydrilla Tubers|J. Aquat. Plant Manag.44(1): 32-36|2006|
179783|A||Spencer,D.F., P.S. Liow, and C.A. Lembi|Influence of a Non-Copper Algicide on the Cyanobacterium, Nostoc spongiaeforme, and the Green Alga, Hydrodictyon reticulatum, in Field and Laboratory Experiments|Paddy Water Environ.11(1-4): 611-617|2013|10.1007/s10333-012-0343-1
179784|T||Lee,M.S., E.K. Anderson, D. Stojsin, M.A. Mcpherson, B. Baltazar, M.J. Horak, J.M. De La Fuente, K. Wu, J.H. Crowley, A|Assessment of the Potential for Gene Flow from Transgenic Maize (Zea mays L.) to Eastern Gamagrass (Tripsacum dactyloides L.)|Transgenic Res.26:501-514|2017|10.1007/s11248-017-0020-7
179785|A||Jaka,J.D.|Control of Curlyleaf Pondweed (Potamogeton crispus) with Endothall Herbicide Treatments and the Response of the Native Plant Community in Suburban Lakes|M.S. Thesis, University of Minnesota, Minneapolis, MN:102 p.|2015|
179786|A||Meadows,S.L.T.|Monoecious Hydrilla Biology and Response to Selected Herbicides|Ph.D.Thesis, North Carolina State University, Raleigh, NC:171 p.|2013|
179787|T||Nepomuceno,M., N. Chinchilla, R.M. Varela, J.M.G. Molinillo, R. Lacret, P.L.C.A. Alves, and F.A. Macias|Chemical Evidence for the Effect of Urochloa ruziziensis on Glyphosate-Resistant Soybeans|Pest Manag. Sci.73(10): 2071-2078|2017|10.1002/ps.4578
179788|A||Courter,L.A., T.M. Garrison, and I.I. Courter|Latent Toxicity of Endothall to Anadromous Salmonids During Seawater Challenge|Bull. Environ. Contam. Toxicol.96(5): 573-579|2016|10.1007/s00128-016-1781-z
179789|T||Arfarita,N., T. Imai, A. Kanno, T. Yarimizu, S. Xiaofeng, W. Jie, T. Higuchi, and R. Akada|The Potential Use of Trichoderma viride Strain FRP3 in Biodegradation of the Herbicide Glyphosate|Biotechnol. Biotechnol. Equip.27(1): 3518-3521|2013|10.5504/BBEQ.2012.0118
179790|T||Helander,M., I. Saloniemi, M. Omacini, M. Druille, J.P. Salminen, and K. Saikkonen|Glyphosate Decreases Mycorrhizal Colonization and Affects Plant-Soil Feedback|Sci. Total Environ.642:285-291|2018|10.1016/j.scitotenv.2018.05.377
179791|T||Monsanto Co.|Neurotoxicity Study with Pydraul 90E in Chickens|EPA/OTS 878212314:15 p.|1983|
179792|A||Monsanto Co.|Acute Toxicity of Pydraul 90E (BN-77-409A) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878212316:14 p.|1983|
179793|A||Monsanto Co.|Toxicity of S-148 (BN-79-1384345-1D) to the Freshwater Alga Selenastrum capricornutum|EPA/OTS 878211569:9 p.|1983|
179794|A||Monsanto Co.|Acute Toxicity of S-148 (AB-79-1384345-1B) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878211121:10 p.|1983|
179795|A||Monsanto Co.|Acute Toxicity of S-148 (AB-79-1384345-1A) to Fathead Minnows (Pimephales promelas)|EPA/OTS 878211570:11 p.|1983|
179796|T||Young,C.C., J.C. Bell, C.S. Gross, L.W. Morrison, and J.L. Haack-Gaynor|Point Mapping Integrates Data Collection and Weed Control Operations|Invasive Plant Sci. Manag.10:33-43|2017|10.1017/inp.2017.5
179797|T||Ferguson,J.C., B.S. Chauhan, R.G. Chechetto, A.J. Hewitt, S.W. Adkins, G.R. Kruger, and C.C. O'Donnell|Droplet-Size Effects on Control of Chloris spp. with Six Post Herbicides|Weed Technol.33:153-158|2019|10.1017/wet.2018.99
179799|T||Menkis,A., I.L. Ostbrant, K. Wagstrom, and R. Vasaitis|Dutch Elm Disease on the Island of Gotland: Monitoring Disease Vector and Combat Measures|Scand. J. For. Res.31:237-241|2016|10.1080/02827581.2015.1076888
179800|T||Cole,E., A. Lindsay, M. Newton, and J.D. Bailey|Vegetation Control and Soil Moisture Depletion Related to Herbicide Treatments on Forest Plantations in Northeastern Oregon|Weed Technol.32:461-474|2018|10.1017/wet.2018.24
179801|T||Freedman,B., R. Morash, and D. MacKinnon|Short-Term Changes in Vegetation After the Silvicultural Spraying of Glyphosate Herbicide onto Regenerating Clearcuts in Nova Scotia, Canada|Can. J. For. Res.23:2300-2311|1993|10.1139/x93-284
179802|T||Sparks,O.C.,Jr.|Weed Control and Heliothine Management in Transgenic Cotton (Gossypium hirsutum) Cultivars and the Physiological Response of Selected Weed Species to Glyphosate|Ph.D. Thesis,  University of Arkansas:211 p.|2004|
179803|T||Hanlon,S.M., and M.J. Parris|The Impact of Pesticides on the Pathogen Batrachochytrium dendrobatidis Independent of Potential Hosts|Arch. Environ. Contam. Toxicol.63(1): 137-143|2012|10.1007/s00244-011-9744-1
179804|T||Nivelle,E., J. Verzeaux, A. Chabot, D. Roger, Q. Chesnais, A. Ameline, J. Lacoux, J.E. Nava-Saucedo, T. Tetu, and M. Ca|Effects of Glyphosate Application and Nitrogen Fertilization on the Soil and the Consequences on Aboveground and Belowground Interactions|Geoderma (Amst.)311:45-57|2018|10.1016/j.geoderma.2017.10.002
179806|T||Sparks,O.C., J.L. Barrentine, N.R. Burgos, and M.R. McClelland|The Effect of Glyphosate and Insecticide Tank Mixtures on Cotton Bollworm (Helicoverpa zea) and Selected Weed Species|Res. Rep. Ser.521:159-166|2003|
179807|T||Sparks,O.C., J.L. Barrentine, and M.R. McClelland|The Effect of Seeding Rate and Glyphosate Application Timing and Rate on Fruiting Patterns and Yield of Roundup Ready Cotton|Res. Rep. Ser.507:60-66|2002|
179808|T||Karczmarczyk,S.J., I.I. Zbiec, and R.M. Devlin|Influence of V-53482 on Monocot and Dicot Plant Growth|Proc. Annu. Meet. Northeast. Weed Sci. Soc.46:1-4|1992|
179809|T||Silva,D.V., M.A.M. Freitas, M.F. Souza, G.P. Queiroz, C.A.D. Melo, A.A. Silva, L.R. Ferreira, and M.R. Reis|Glyphosate Herbicide Use in Urochloa brizantha Management in Intercropping with Herbicide-Resistant Maize|Planta Daninha (Impr.) (Multiple Languages)34(1): 133-141|2016|10.1590/S0100-83582016340100014
179810|A||Paraschiv,M., E. Serbanescu, G.H. Popovici, and C. Djendov|The Algicide Action of Chemical Substances on Blue-Green Algae|Rev. Roum. Biol. Ser. Bot.17(3): 195-201|1972|
179811|T||Piotrowicz-Cielak,A.I., B. Adomas, G. Nalecz-Jawecki, and D.J. Michalczyk|Phytotoxicity of Sulfamethazine Soil Pollutant to Six Legume Plant Species|J. Toxicol. Environ. Health Part A73(17): 1220-1229|2010|10.1080/15287394.2010.492006
179812|T||Handayani,V.D.S., Y. Tanno, M. Yamashita, H. Tobina, M. Ichihara, Y. Ishida, and H. Sawada|Influence of Weed Management Measures on Glyphosate Resistance and Endophyte Infection in Naturalized Italian Ryegrass (Lolium multiflorum)|Weed Biol. Manag.17(2): 84-90|2017|10.1111/wbm.12122
179813|T||Roberts,J.C., K.M. Little, and M.E. Light|The Use of Glyphosate for the Management of Secondary Coppice Regrowth in a Eucalyptus grandis x E. urophylla Coppice Stand in Zululand, South Africa|South. For.78(3): 217-223|2016|10.2989/20702620.2016.1183094
179814|T||Brunharo,C.A.C.G., and B.D. Hanson|Vacuolar Sequestration of Paraquat is Involved in the Resistance Mechanism in Lolium perenne L. spp. multiflorum|Front. Plant Sci.8:1485-1485|2017|10.3389/fpls.2017.01485
179815|AT||Swabey,Y.H., and C.F. Schenk|Algicides and Aquatic Herbicides - Taste and Odour in Water Laboratory Studies on Fish Toxicity Field Toxicity Studies|Ontario Water Resour.Commiss., Ottawa, Ont., Can.:28 p.|1963|
179816|T||Yanniccari,M., M. Vila-Aiub, C. Istilart, H. Acciaresi, and A.M. Castro|Glyphosate Resistance in Perennial Ryegrass (Lolium perenne L.) is Associated with a Fitness Penalty|Weed Sci.64:71-79|2016|10.1614/WS-D-15-00065.1
179817|A||Janes,G.A.|Development and Evaluation of Controlled Release Herbicides|Miscellaneous Paper A-77-3. Proceedings of the Research Planning Conference on the Aquatic Plant Control Program:217-220|1977|
179818|A||Guerra,L.V.|Response of Hydrilla to Various Herbicides|Miscellaneous Paper A-77-3. Proceedings of the Research Planning Conference on the Aquatic Plant Control Program:187-194|1977|
179819|A||Clements,D., T.M. Dugdale, and T.D. Hunt|Determining the Efficacy of the Herbicides Endothal and Diquat on the Aquatic Weed Sagittaria in Irrigation Channels|Plant Prot. Q.28(3): 85-87|2013|
179820|T||Hadder,J.C.|Endothal Induced Mutations in Drosophila melanogaster|Trans. Ill. State Acad. Sci.63(2): 157-159|1970|
179821|A||McComas,S.R., Y.E. Christianson, and U. Singh|Effects of Curlyleaf Pondweed Control on Water Quality and Coontail Abundance in Gleason Lake, Minnesota|Lake Reserv. Manag.31(2): 109-114|2015|10.1080/10402381.2015.1014583
179822|A||Woon,G.W., and G.W. Mason|Endothal as an Aquatic Herbicide|Proc. N. Z. Weed Pest Control Conf.22:30-35|1969|10.30843/nzpp.1969.22.10434
179823|T||Brauen,S.E., R.L. Goss, and J.L. Nus|Control of Acrocarpous Moss with Endothal|J. Sports Turf Res. Inst.62:138-140|1986|
179824|A||Simsiman,G.V., G. Chesters, and T.C. Daniel|Chemical Control of Aquatic Weeds and Its Effect on the Nutrient and Redox Status of Water and Sediment|Proceedings of the Fifteenth Conference on Great Lakes Research, Madison,WI:166-180|1972|
179825|T||Oladele,S., and O. Ayodele|Glyphosate, 1,1'-Dimethyl-4,4'-Bipyridinium Dichloride and Atrazine Induces Changes in Soil Organic Carbon, Bacterial and Fungal Communities in a Tropical Alfisol|Eurasian J. Soil Sci.6(3): 238-248|2017|
179826|T||Nicolas,V., N. Oestreicher, and C. Velot|Multiple Effects of a Commercial Roundup Formulation on the Soil Filamentous Fungus Aspergillus nidulans at Low Doses: Evidence of an Unexpected Impact on Energetic Metabolism|Environ. Sci. Pollut. Res.23:14393-14404|2016|10.1007/s11356-016-6596-2
179827|A||Mottier,A., A. Seguin, A. Devos, C. Le Pabic, C. Voiseux, J.M. Lebel, A. Serpentini, B. Fievet, and K. Costil|Effects of Subchronic Exposure to Glyphosate in Juvenile Oysters (Crassostrea gigas): From Molecular to Individual Levels|Mar. Pollut. Bull.95(2): 665-677|2015|10.1016/j.marpolbul.2014.10.026
179828|T||Warmund,M.R., C.E. Long, and W.A. Geyer|Preemergent Herbicides for Seeded Nursery Crops|Hortscience15(6): 825-826|1980|10.21273/HORTSCI.15.6.825
179829|A||Magbanua,F.S., C.R. Townsend, K.J. Hageman, and C.D. Matthaei|Individual and Combined Effects of Fine Sediment and the Herbicide Glyphosate on Benthic Macroinvertebrates and Stream Ecosystem Function|Freshw. Biol.58(8): 1729-1744|2013|10.1111/fwb.12163
179830|T||Lange,A.H., C. Elmore, B. Fischer, H. Kempen, and E.E. Stevenson|Devrinol and Surflan: New Selective Weed Control in Young Orchards and Vineyards|Calif. Agric.30(3): 6-8|1976|
179831|T||Ferreira,S.D., A.C. Salvalaggio, G. Moratelli, E. Vasconcelos, and N.V. Costa|Commelina Species Control with Desiccants Alone and in Mixtures|Planta Daninha (Impr.) (Multiple Languages)35:9 p.|2017|10.1590/s0100-83582017350100074
179832|T||Correia,N.M., and I. Resende|Response of Three Chloris elata Populations to Herbicides Sprayed in Pre- and Post-Emergence|Planta Daninha (Impr.) (Multiple Languages)36:12 p.|2018|10.1590/s0100-83582018360100078
179833|T||Kim,G., C.R. Clarke, H. Larose, H.T. Tran, D.C. Haak, L. Zhang, S. Askew, J. Barney, and J.H. Westwood|Herbicide Injury Induces DNA Methylome Alterations in Arabidopsis|PeerJ5(e3360): 17 p.|2017|
179834|T||Osipe,J.B., R.S.,Jr. Oliveira, J. Constantin, H.K. Takano, and D.F. Biffe|Spectrum of Weed Control with 2,4-D and Dicamba Herbicides Associated to Glyphosate or Not|Planta Daninha (Impr.) (Multiple Languages)35:12 p.|2017|10.1590/s0100-83582017350100053
179835|T||Anesio,A.H.C., M.V. Santos, R.R. Silveira, E.A. Ferreira, T.G.S. Braz, L.D. Tuffi Santos, and J.B. Santos|Herbicide Selectivity to Signal Grass and Congo Grass|Planta Daninha (Impr.) (Multiple Languages)35:12 p.|2017|10.1590/s0100-83582017350100062
179836|T||Panigo,E.S., C.A. Alesso, I.M. Dellaferrera, J. Olivella, and M.G. Perreta|Morpho-Architectural Traits that Allow the Regeneration of Eustachys retusa (Poaceae) in Systems with Intensive Glyphosate Application|Planta Daninha (Impr.) (Multiple Languages)34(4): 709-719|2016|10.1590/s0100-83582016340400011
179837|T||Pereira,G.R., N.V. Costa, G. Moratelli, and A.C.P. Rodrigues-Costa|Growth and Development of Digitaria insularis Biotypes Susceptible and Resistant to Glyphosate|Planta Daninha (Impr.) (Multiple Languages)35:7 p.|2017|
179838|T||Swierszcz,S., M. Szymura, K. Wolski, and T.H. Szymura|Comparison of Methods for Restoring Meadows Invaded by Solidago Species|Pol. J. Environ. Stud.26(3): 1251-1258|2017|10.15244/pjoes/67338
179839|A||Hodson,R.G., G.J. Davis, and K.E. Langeland|Hydrilla Management in North Carolina|Water Resources Research Institute of the University of North Carolina, Raleigh, NC217:63 p.|1984|
179840|T||Alcantara-De La Cruz,R., P.T. Fernandez-Moreno, C.V. Ozuna, A.M. Rojano-Delgado, H.E. Cruz-Hipolito, J.A. Dominguez-Val|Target and Non-Target Site Mechanisms Developed by Glyphosate-Resistant Hairy Beggarticks (Bidens pilosa L.) Populations from Mexico|Front. Plant Sci.7(1492): 12 p.|2016|
179841|T||Fernandez-Moreno,P.T., R. Alcantara-De La Cruz, H.E. Cruz-Hipolito, A.M. Rojano-Delgado, I. Travlos, and R. De Prado|Non-Target Site Tolerance Mechanisms Describe Tolerance to Glyphosate in Avena sterilis|Front. Plant Sci.7(1220): 11 p.|2016|
179842|A||Schreck,C.B., C.R. Berry, R.J. Strange, S.L. Van Horn, and R.V. Corning|Aquatic Plant Control Using Herbicides in a Large Potable Water Supply|In: Proceedings of the Research Planning Conference on Integrated Systems of Aquatic Plant Control, Army Engineer Waterways Experiment Station, Vicksburg, MS:61-70|1974|
179843|T||Simard,S., and J. Heinemann|Nine-Year Response of Douglas-Fir and the Mixed Hardwood-Shrub Complex to Chemical and Manual Release Treatments on an ICHmw2 Site Near Salmon Arm|FRDA Rep.257:28 p.|1996|
179844|T||McAdoo,J.K., J.C. Swanson, P.J. Murphy, and N.L. Shaw|Evaluating Strategies for Facilitating Native Plant Establishment in Northern Nevada Crested Wheatgrass Seedings|Restor. Ecol.25:53-62|2017|10.1111/rec.12404
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179846|A||Kang,J.S., T.G. Ahn, and J.W. Park|Perfluorooctanoic Acid (PFOA) and Perfluooctane Sulfonate (PFOS) Induce Different Modes of Action in Reproduction to Japanese Medaka (Oryzias latipes)|J. Hazard. Mater.368:97-103|2019|10.1016/j.jhazmat.2019.01.034
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179848|A||Kenanoglu,G., M.A. Karaaslan, and O. Cakal-Arslan|Hazardous Effects of Perfluorooctane Sulfonyl Fluoride on Embryonal Development of Sea Urchin (Arbacia lixula)|Fresenius Environ. Bull.27(12): 8347-8350|2018|
179850|T||Montagnolli,R.N., P.R.M. Lopes, J.M. Cruz, E.M.T. Claro, G.M. Quiterio, and E.D. Bidoia|The Effects of Fluoride Based Fire-Fighting Foams on Soil Microbiota Activity and Plant Growth During Natural Attenuation of Perfluorinated Compounds|Environ. Toxicol. Pharmacol.50:119-127|2017|10.1016/j.etap.2017.01.017
179852|A||Olufsen,M., M.V. Cangialosi, and A. Arukwe|Modulation of Membrane Lipid Composition and Homeostasis in Salmon Hepatocytes Exposed to Hypoxia and Perfluorooctane Sulfonamide, Given Singly or in Combination|PLoS One9(7): 1-13|2014|10.1371/journal.pone.0102485
179853|A||Olufsen,M., and A. Arukwe|Endocrine, Biotransformation, and Oxidative Stress Responses in Salmon Hepatocytes Exposed to Chemically Induced Hypoxia and Perfluorooctane Sulfonamide (PFOSA), Given Singly or in Combination|Environ. Sci. Pollut. Res.22(22): 17350-17366|2015|10.1007/s11356-014-3847-y
179854|A||Roland,K., P. Kestemont, M. Dieu, M. Raes, and F. Silvestre|"Using a Novel ""Integrated Biomarker Proteomic"" Index to Assess the Effects of Freshwater Pollutants in European Eel Peripheral Blood Mononuclear Cells"|J. Proteom.137:83-96|2016|10.1016/j.jprot.2016.01.007
179855|T||Mcnally,S.R., D.C. Laughlin, S. Rutledge, M.B. Dodd, J. Six, and L.A. Schipper|Herbicide Application During Pasture Renewal Initially Increases Root Turnover and Carbon Input to Soil in Perennial Ryegrass and White Clover Pasture|Plant Soil412(1/2): 133-142|2017|10.1007/s11104-016-3050-7
179856|T||Gomes,M.P., S.G. Le Manac'h, L. Henault-Ethier, M. Labrecque, M. Lucotte, and P. Juneau|Glyphosate-Dependent Inhibition of Photosynthesis in Willow|Front. Plant Sci.8(207): 13 p.|2017|
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179858|A||Deng,M., Y. Wu, C. Xu, Y. Jin, X. He, J. Wan, X. Yu, H. Rao, and W. Tu|Multiple Approaches to Assess the Effects of F-53B, a Chinese PFOS Alternative, on Thyroid Endocrine Disruption at Environmentally Relevant Concentrations|Sci. Total Environ.624:215-224|2018|10.1016/j.scitotenv.2017.12.101
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179868|A||Simes,J.C.|Control of the Pondweed, Potamogeton crispus, in Both Flowing and Static Situations with Endothall|Proc. Northeast. Weed Control Conf.15:558-559|1961|
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179874|T||Jagschitz,J.A., and J.F. Cornman|Studies in the Control of Veronica filiformis in Turf Using KOCN, Endothal, 2,4-D and 2,4,5-T|Proc. Northeast. Weed Control Conf.:365-369|1955|
179875|A||Liu,X., Y. Cai, Y. Wang, S. Xu, K. Ji, and K. Choi|Effects of Tris(1,3-Dichloro-2-Propyl) Phosphate (TDCPP) and Triphenyl Phosphate (TPP) on Sex-Dependent Alterations of Thyroid Hormones in Adult Zebrafish|Ecotoxicol. Environ. Saf.170:25-32|2019|10.1016/j.ecoenv.2018.11.058
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179877|T||Sterrett,J.P., G.R. Leather, and W.E. Tozer|Defoliation Response of Woody Seedlings to Endothall/Ethephon|Hortscience8(5): 387-388|1973|10.21273/HORTSCI.8.5.387
179878|T||Serfling,A., and F. Ordon|Virulence and Toxin Synthesis of an Azole Insensitive Fusarium culmorum Strain in Wheat Cultivars with Different Levels of Resistance to Fusarium Head Blight|Plant Pathol.63:1230-1240|2014|10.1111/ppa.12203
179879|T||Crane,J.H., R.E. Sanford, and R.T.,Jr. McMillan|"Control of Lychee Anthracnose by Foliar Applications of Tebuconazole, Mancozeb, and Copper Hydroxide on ""Mauritius' Lychee Fruit Under South Florida Conditions"|Proc. Annu. Meet. Fla. State Hortic. Soc.110:149-152|1997|
179880|T||McMillan,R.T.,Jr.|Control of Postbloom Fruit Drop on 'Tahiti' Lime by Foliar Applications of Folicur|Proc. Annu. Meet. Fla. State Hortic. Soc.110:147-149|1998|
179881|T||Turgeon,A.J., W.F. Meggitt, and D. Penner|Role of Endothall in the Control of Annual Bluegrass in Turf|Weed Sci.20(6): 562-565|1972|10.1017/S0043174500078759
179882|T||Tsai,T.M., and H.J. Huang|Effects of Iron Excess on Cell Viability and Mitogen-Activated Protein Kinase Activation in Rice Roots|Physiol. Plant. (Multiple Languages)127(4): 583-592|2006|10.1111/j.1399-3054.2006.00696.x
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179884|T||Wan,W., H. Huang, J. Lv, R. Han, and S. Zhang|Uptake, Translocation, and Biotransformation of Organophosphorus Esters in Wheat (Triticum aestivum L.)|Environ. Sci. Technol.51:13649-13658|2017|10.1021/acs.est.7b01758
179885|A||Monsanto Co.|Initial Submission: Acute Toxicity of Tb 220-16-H to Rainbow Trout (Salmo gairdner) with Cover Letter Dated 081492|EPA/OTS 88-920008737:20 p.|1992|
179887|T||Tresch,S., J. Schmotz, and K. Grossmann|Probing Mode of Action in Plant Cell Cycle by the Herbicide Endothall, a Protein Phosphatase Inhibitor|Pestic. Biochem. Physiol.99(1): 86-95|2011|10.1016/j.pestbp.2010.11.004
179888|T||Jwa,N.S., G.K. Agrawal, R. Rakwal, C.H. Park, and V.P. Agrawal|Molecular Cloning and Characterization of a Novel Jasmonate Inducible Pathogenesis-Related Class 10 Protein Gene, JIOsPR10, from Rice (Oryza sativa L.) Seedling Leaves|Biochem. Biophys. Res. Commun.286(5): 973-983|2001|10.1006/bbrc.2001.5507
179889|AT||Bajsa,J., Z. Pan, F.E. Dayan, D.K. Owens, and S.O. Duke|Validation of Serine/Threonine Protein Phosphatase as the Herbicide Target Site of Endothall|Pestic. Biochem. Physiol.102(1): 38-44|2012|10.1016/j.pestbp.2011.10.007
179890|T||Wilson,S.M., A. Daniel, and G.B. Wilson|Cytological and Genetical Effects of the Defoliant Endothall|J. Hered.47(4): 151-155|1956|10.1093/oxfordjournals.jhered.a106627
179891|T||Hofmann,M.G., A.K. Sinha, R.K. Proels, and T. Roitsch|Cloning and Characterization of a Novel LpWRKY1 Transcription Factor in Tomato|Plant Physiol. Biochem.46(5-6): 533-540|2008|10.1016/j.plaphy.2008.02.009
179892|T||Lin,C.W., C.Y. Lin, C.C. Chang, R.H. Lee, T.M. Tsai, P.Y. Chen, W.C. Chi, and H.J. Huang|Early Signalling Pathways in Rice Roots Under Vanadate Stress|Plant Physiol. Biochem.47(5): 369-376|2009|10.1016/j.plaphy.2009.01.005
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179895|T||Garces-Fiallos,F.R., A.L.D. Danelli, R. Baldiga-Tonin, and W. Boller|Droplet Spectrum and Fungicide Efficiency in the Control of Asian Soybean Rust (Phakopsora pachyrhizi Syd. &  P. Syd.)|Acta Agron. (Non-English)67(2): 362-367|2018|10.15446/acag.v67n2.62865
179896|T||Tann,H., and K. Soytong|Biological Control of Brown Leaf Spot Disease Caused by Curvularia lunata and Field Application Method on Rice Variety IR66 in Cambodia|Agrivita39:111-117|2017|
179897|T||Fernandez-Moreno,P.T., R. Alcantara-De La Cruz, R.J. Smeda, and R. De Prado|Differential Resistance Mechanisms to Glyphosate Result in Fitness Cost for Lolium perenne and L. multiflorum|Front. Plant Sci.8(1796): 16 p.|2017|
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179899|T||Fernandez-Moreno,P.T., F. Bastida, and R. De Prado|Evidence, Mechanism and Alternative Chemical Seedbank-Level Control of Glyphosate Resistance of a Rigid Ryegrass (Lolium rigidum) Biotype from Southern Spain|Front. Plant Sci.8(450): 16 p.|2017|
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179914|T||Fernandez,M.R., W.E. May, S. Chalmers, M.E. Savard, and A.K. Singh|Are Early Foliar Fungicide Applications on Durum Wheat Grown in Southeast Saskatchewan Beneficial in Increasing Grain Productivity?|Can. J. Plant Sci.94:891-903|2013|10.4141/cjps2013-325
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179925|T||Vinodkumar,S., and S. Nakkeeran|Bacillus amyloliquefaciens (VB7) with Diverse Antimicrobial Peptide Genes: A Potential Antagonist for the Management of Fairy Ring Spot in Carnations|Curr. Sci.115(8): 1519-1524|2018|10.18520/cs/v115/i8/1519-1524
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180014|T||Lv,T., Y. Zhang, M.E. Casas, P.N. Carvalho, C.A. Arias, K. Bester, and H. Brix|Phytoremediation of Imazalil and Tebuconazole by Four Emergent Wetland Plant Species in Hydroponic Medium|Chemosphere148:459-466|2016|10.1016/j.chemosphere.2016.01.064
180015|A||Lyu,T., L. Zhang, X. Xu, C.A. Arias, H. Brix, and P.N. Carvalho|Removal of the Pesticide Tebuconazole in Constructed Wetlands: Design Comparison, Influencing Factors and Modelling|Environ. Pollut.233:71-80|2018|10.1016/j.envpol.2017.10.040
180016|T||Lv,T., P.N. Carvalho, M.E. Casas, U.E. Bollmann, C.A. Arias, H. Brix, and K. Bester|Enantioselective Uptake, Translocation and Degradation of the Chiral Pesticides Tebuconazole and Imazalil by Phragmites australis|Environ. Pollut.229:362-370|2017|10.1016/j.envpol.2017.06.017
180017|A||Rajput,V.|Toxic Effect of Expired Pesticides on Catla catla of the Gaula Stream, India|Ribarstvo70(4): 187-196|2012|
180018|T||Miles Inc.|Initial Submission: Tebuconazole: Study for Acute Toxicity in Hens and Quail with Cover Letter Dated 080392|EPA/OTS Doc.#88-920006735:23 p|1992|
180019|A||Foulquier,A., S. Morin, A. Dabrin, C. Margoum, N. Mazzella, and S. Pesce|Effects of Mixtures of Dissolved and Particulate Contaminants on Phototrophic Biofilms: New Insights from a PICT Approach Combining Toxicity Tests with Passive Samplers and Model Substances|Environ. Sci. Pollut. Res.22:4025-4036|2015|10.1007/s11356-014-3289-6
180020|T||De Souza-Pimentel,G.C., P.R. Reis, E.C. Da Silveira, P.D.P. Marafeli, E.A. Silva, and H.B. De Andrade|Biological Control of Tetranychus urticae (Tetranychidae) on Rosebushes Using Neoseiulus californicus (Phytoseiidae) and Agrochemical Selectivity|Rev. Colombiana Entomol.40(1): 80-84|2014|
180021|T||Benada,J., and M. Vanova|Varietal Sensitivity of Cereal Crops to Seed Protectants|Ochr. Rostl. (Multiple Languages)32(1): 33-48|1996|
180022|T||Berrie,A.M., K. Lower, and R. Saville|Integrated Control of Fungal Rots of Cherry in the UK|Acta Hortic.1161:449-455|2017|10.17660/ActaHortic.2017.1161.72
180023|T||Dai,Q., Z. Sun, and G. Schnabel|Development of Spontaneous Hygromycin B Resistance in Monilinia fructicola and Its Impact on Growth Rate, Morphology, Susceptibility to Demethylation Inhibitor Fungicides, and Sporulation|Phytopathology93(11): 1354-1359|2003|10.1094/PHYTO.2003.93.11.1354
180024|T||Pfeufer,E.E., and H.K. Ngugi|Orchard Factors Associated with Resistance and Cross Resistance to Sterol Demethylation Inhibitor Fungicides in Populations of Venturia inaequalis from Pennsylvania|Phytopathology102(3): 272-282|2012|10.1094/PHYTO-04-11-0117
180025|T||Katna,S., J.K. Dubey, S.K. Patyal, N. Devi, A. Chauhan, and A. Sharma|Residue Dynamics and Risk Assessment of Luna Experience (Fluopyram + Tebuconazole) and Chlorpyrifos on French Beans (Phaseolus vulgaris L.)|Environ. Sci. Pollut. Res.25:27594-27605|2018|10.1007/s11356-018-2733-4
180026|T||Bradley,C.A., C.D. Chesrown, and V.L. Hofman|Evaluation of Foliar Fungicide Application Methods on Soybean|Can. J. Plant Pathol.29(2): 197-202|2007|10.1080/07060660709507457
180027|T||Stander,O.P.J., M.J. Gilbert, S.D. Moore, W. Kirkman, and G.C. Schutte|Benefits of Reducing the Size of the Navel-End Opening in 'Navel' Sweet Oranges (Citrus sinensis)|Crop Prot.96:123-129|2017|10.1016/j.cropro.2017.02.009
180028|T||Madeiras,A.M.|Identification and Epidemiological Features of Important Fungal Species Causing Sooty Blotch on Apples in the Northeastern United States|Ph.D. Thesis,  University of Massachusetts Amherst, MA:161 p.|2014|
180029|A||Monsanto Co.|Acute Toxicity of S-148 (Ab-79-1384345-1b) to Rainbow Trout (Salmo gairdneri)|EPA/OTS 878211571:10 p.|1983|
180030|T||Bernardes,P.M., L.F. Andrade-Vieira, F.B. Aragao, A. Ferreira, and M.F.D.S. Ferreira|Toxicity of Difenoconazole and Tebuconazole in Allium cepa|Water Air Soil Pollut.226(207): 11 p.|2015|
180031|T||Abril-Castillo,M.T.|In Vitro and In Vivo Techniques for Screening New Natural Product-Based Fungicides for Control of Strawberry Anthracnose|Ph.D Thesis, University of Southern Mississippi, Hattiesburg, MS:144 p.|2008|
180032|T||Slawecki,R.A., E.P. Ryan, and D.H. Young|Novel Fungitoxicity Assays for Inhibition of Germination-Associated Adhesion of Botrytis cinerea and Puccinia recondita Spores|Appl. Environ. Microbiol.68(2): 597-601|2002|10.1128/AEM.68.2.597-601.2002
180034|T||Beresford,R.M., P.J. Wright, P.N. Wood, N.M. Park, N.J. Larsen, and B.M. Fisher|Resistance of Venturia inaequalis to Demethylation Inhibitor and Dodine Fungicides in Four New Zealand Apple-Growing Regions|N. Z. Plant Prot.66:274-283|2013|10.30843/nzpp.2013.66.5654
180035|T||Ritenour,M.A., R.R. Pelosi, M.S. Burton, E.W. Stover, H. Dou, and T.G. McCollum|Assessing the Efficacy of Preharvest Fungicide Applications to Control Postharvest Diseases of Florida Citrus|HortTechnology14(1): 58-62|2004|10.21273/HORTTECH.14.1.0058
180036|T||Neuwirthova,N., Z. Bilkova, J. Vasickova, J. Hofman, and L. Bielska|Concentration/Time-Dependent Dissipation, Partitioning and Plant Accumulation of Hazardous Current-Used Pesticides and 2-Hydroxyatrazine in Sand and Soil|Chemosphere203:219-227|2018|10.1016/j.chemosphere.2018.03.177
180037|T||Mohapatra,S., M. Deepa, and G.K. Jagdish|Residue Dynamics of Tebuconazole and Quinalphos in Immature Onion Bulb with Leaves, Mature Onion Bulb and Soil|Bull. Environ. Contam. Toxicol.87(6): 703-707|2011|10.1007/s00128-011-0403-z
180038|T||Johnson,M.K., and R. Lauwerys|Protection by Some Carbamates Against the Delayed Neurotoxic Effects of Di-Isopropyl Phosphorofluoridate|Nature222:1066-1069|1969|10.1038/2221066a0
180039|T||Kundu,C., A. Goon, and A. Bhattacharyya|Persistence Behaviour of Fungicide Tebuconazole in a Viticulture Application|Bull. Environ. Contam. Toxicol.92(4): 415-419|2014|10.1007/s00128-014-1223-8
180040|AT||Chiconela,T.F.|Effect of Surfactants and Herbicide Combinations on Phytotoxicity of Diquat|Ph.D Thesis, University of Florida, Gainesville, FL:165 p.|2008|
180041|T||Cangussu,L.V.D., A.M.S.S. David, E.F. Araujo, R.A. Alves, R.A. Nunes, and H.T.R. Amaro|Physiological Quality of Seeds of Crambe Desiccated at Pre-Harvest with Glyphosate|Rev. Bras. Eng. Agric. Ambient.22(8): 577-582|2018|10.1590/1807-1929/agriambi.v22n8p577-582
180042|T||Che,J.Y., X.Y. Xu, Z.L. Tang, Y.C. Gu, and D.Q. Shi|Synthesis and Herbicidal Activity Evaluation of Novel alpha-Amino Phosphonate Derivatives Containing a Uracil Moiety|Bioorg. Med. Chem. Lett.26:1310-1313|2016|10.1016/j.bmcl.2016.01.010
180043|T||Costa,N.V., G. Moratelli, S.D. Ferreira, A.C. Salvalaggio, and A.C.P. Rodrigues-Costa|Resistance to Glyphosate in Populations of Digitaria insularis|Planta Daninha (Impr.) (Multiple Languages)36:9 p.|2018|10.1590/s0100-83582018360100131
180044|T||Gomes,L.J.P., J.I. Santos, E.C. Gasparino, and N.M. Correia|Chemical Control and Morphoanatomical Analysis of Leaves of Different Populations of Sourgrass|Planta Daninha (Impr.) (Multiple Languages)35:11 p.|2017|10.1590/s0100-83582017350100008
180045|T||Martins,J.F., A.A.M. Barroso, and P.L.C.A. Alves|Effects of Environmental Factors on Seed Germination and Emergence of Glyphosate Resistant and Susceptible Sourgrass|Planta Daninha (Impr.) (Multiple Languages)35:8 p.|2017|10.1590/s0100-83582017350100039
180046|T||Machado,L., E. Comunello, U. Cecato, and G. Concenco|Susceptibility of Perennial Tropical Forage Plants to Glyphosate Herbicide in Integrated Crop-Livestock Farming Systems|Planta Daninha (Impr.) (Multiple Languages)36:8 p.|2018|10.1590/s0100-83582018360100105
180047|T||Rugg,D., A.C. Kotze, D.R. Thompson, and H.A. Rose|Susceptibility of Laboratory-Selected and Field Strains of the Lucilia cuprina (Diptera: Calliphoridae) to Ivermectin|J. Econ. Entomol.91(3): 601-607|1998|10.1093/jee/91.3.601
180048|T||Armstrong,J.W., and D.L. Garcia|Methyl Bromide Quarantine Fumigations for Hawaii-Grown Cucumbers Infested with Melon Fly and Oriental Fruit Fly (Diptera: Tephritidae)|J. Econ. Entomol.78(6): 1308-1310|1985|10.1093/jee/78.6.1308
180049|T||Su,G., D. Crump, R.J. Letcher, and S.W. Kennedy|Rapid In Vitro Metabolism of the Flame Retardant Triphenyl Phosphate and Effects on Cytotoxicity and mRNA Expression in Chicken Embryonic Hepatocytes|Environ. Sci. Technol.48(22): 13511-13519|2014|10.1021/es5039547
180050|T||Yorulmaz,S., and R. Ay|Multiple Resistance, Detoxifying Enzyme Activity, and Inheritance of Abamectin Resistance in Tetranychus urticae Koch (Acarina: Tetranychidae)|Turk. J. Agric. For.33:393-402|2009|
180051|T||Graat,Y., A.L. Bacha, M.P. Nepomuceno, and P.L.C.A. Alves|Initial Development of Eucalyptus According to Different Desiccation Periods of Signalgrass|Planta Daninha (Impr.) (Multiple Languages)36:8 p.|2018|10.1590/s0100-83582018360100020
180052|T||Gershon,H., R. Parmegiani, and J.B. Hauck|Reversal of Fungitoxicity of 8-Quinolinols and Their Copper (II) Bischelates. I. Amino Acids and Related Compounds|Can. J. Microbiol.21(3): 409-411|1975|10.1139/m75-056
180053|T||Diffie,S., B. Sparks, and M. Bass|Insecticide Evaluation for Control of the Red Imported Fire Ant in Oconee County, Georgia, 1990|Insectic. Acaric. Tests17:313-|1992|
180054|T||Yang,D., N. Wang, X. Yan, J. Shi, M. Zhang, Z. Wang, and H. Yuan|Microencapsulation of Seed-Coating Tebuconazole and Its Effects on Physiology and Biochemistry of Maize Seedlings|Colloids Surf. B Biointerfaces114:241-246|2014|10.1016/j.colsurfb.2013.10.014
180055|T||Klosowski,A.C., C. Castellar, G. Stammler, and L.L.M. De Mio|Fungicide Sensitivity and Monocyclic Parameters Related to the Phakopsora pachyrhizi-Soybean Pathosystem from Organic and Conventional Soybean Production Systems|Plant Pathol.67:1697-1705|2018|10.1111/ppa.12883
180056|T||Gallagher,S.P., C.S. Casey, J.B. Beavers, and R.L. Van Hoven|PFOS: A Dietary LC50 Study with the Mallard. Amended Report|Project 454-102, Wildlife International Ltd., Easton, MD:72 p.|2004|
180057|T||Gallagher,S.P., R.L. Van Hoven, J.B. Beavers, and M. Jaber|PFOS: A Reproduction Study with the Mallard. Final Report|Project 454-109, Wildlife International Ltd., Easton, MD:202 p.|2003|
180058|A||Houser,A., and J.Y. Gaylor|Results of Endothal and Two Formulations of Silvex for the Control of Aquatic Plants in Oklahoma|Proc. South. Weed Conf.15:244-253|1962|
180059|T||Artigas,J., F. Rossi, M. Gerphagnon, and C. Mallet|Sensitivity of Laccase Activity to the Fungicide Tebuconazole in Decomposing Litter|Sci. Total Environ.584-585:1084-1092|2017|10.1016/j.scitotenv.2017.01.167
180060|T||Machado,M., L.R. Ferreira, G.A.M. Pereira, V.A. Goncalves, and G.P. Paixao|Protective Effect on Eucalyptus Plants and Signal Grass Control with a Tank Mixture of Glyphosate and Liquid Fertilizer|Planta Daninha (Impr.) (Multiple Languages)35:8 p.|2017|10.1590/s0100-83582017350100079
180061|T||Branch,W.D., and S.M. Fletcher|Evaluation of Advanced Georgia Peanut Breeding Lines with Reduced-Input and Without Irrigation|Crop Prot.23:1085-1088|2004|10.1016/j.cropro.2004.03.015
180062|T||Besler,B.A., W.J. Grichar, K.D. Brewer, and M.R. Baring|Assessment of Six Peanut Cultivars for Control of Rhizoctonia Pod Rot when Sprayed with Azoxystrobin or Tebuconazole|Peanut Sci.30:49-52|2003|10.3146/pnut.30.1.0010
180063|T||Machado,F.J., C.P. Nicolli, P.A. Moller, R. Arruda, T.J. Ward, and E.M. Del Ponte|Differential Triazole Sensitivity Among Members of the Fusarium graminearum Species Complex Infecting Barley Grains in Brazil|Trop. Plant Pathol.42:197-202|2017|10.1007/s40858-017-0158-0
180064|T||Saha,S., M.R. Jadhav, T.P. Ahammed Shabeer, K. Banerjee, B.K. Sharma, M. Loganathan, and A.B. Rai|Safety Assessment and Bioefficacy of Fluopyram 20 %+Tebuconazole 20 %-40 SC in Chilli, Capsicum annum L. Against Anthracnose Disease|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.86(2): 359-366|2016|10.1007/s40011-014-0450-4
180065|T||Surviliene,E., A. Valiuskaite, L. Duchovskiene, and D. Kavaliauskaite|Influence of Fungicide Treatment on Grey Mould of Cabbage|Veg. Crops Res. Bull.73:133-142|2010|
180066|T||Whitaker,C., N.W. Pammenter, and P. Berjak|Infection of the Cones and Seeds of Welwitschia mirabilis by Aspergillus niger var. phoenicis in the Namib- Naukluft Park|S. Afr. J. Bot.74(1): 41-50|2008|10.1016/j.sajb.2007.08.008
180067|T||Yuan,N.N., S.N. Chen, L.X. Zhai, G. Schnabel, L.F. Yin, and C.X. Luo|Baseline Sensitivity of Monilia yunnanensis to the DMI Fungicides Tebuconazole and Triadimefon|Eur. J. Plant Pathol.136:651-655|2013|10.1007/s10658-013-0200-0
180068|T||Andersen,K.F., L. Morris, R.C. Derksen, L.V. Madden, and P.A. Paul|Rainfastness of Prothioconazole + Tebuconazole for Fusarium Head Blight and Deoxynivalenol Management in Soft Red Winter Wheat|Plant Dis.98(10): 1398-1406|2014|10.1094/PDIS-01-14-0092-RE
180069|T||Keinath,A.P.|Baseline Sensitivity of Didymella bryoniae to Cyprodinil and Fludioxonil and Field Efficacy of These Fungicides Against Isolates Resistant to Pyraclostrobin and Boscalid|Plant Dis.99:815-822|2015|10.1094/PDIS-09-14-0993-RE
180070|T||McMillan,R.T.,Jr., W.R. Graves, and R.L. Vande Hei|Potential New Chemistry for the Control of Sclerotinia sclerotiorum|Annu. Rep. Bean Improv. Coop.42:61-62|1999|
180071|T||Lawrence,K.S., D.P. Delaney, M.A. Delaney, E.J. Sikora, G.W. Lawrence, and M. Pegues|Evaluation of Absolute, Folicur, and Stratego on Soybean Rust and Yield in Alabama, 2006|Res. Rep. Ser.:7-|2008|
180072|A||Nirmal Kumar,J.I., A. Bora, R.N. Kumar, M.K. Amb, and S. Khan|Toxicity Analysis of Pesticides on Cyanobacterial Species by 16S rDNA Molecular Characterization|Proc. Int. Acad. Ecol. Environ. Sci.3(2): 101-132|2013|
180073|T||Jordan,L.M., T. Bjorkman, and J.E. Vanden Heuvel|Annual Under-Vine Cover Crops did not Impact Vine Growth or Fruit Composition of Mature Cool-Climate 'Riesling' Grapevines|HortTechnology26(1): 36-45|2016|10.21273/HORTTECH.26.1.36
180074|T||Nakajima,T.|Progress and Outlook for the Control of Nivalenol and Deoxynivalenol Contamination Due to Fusarium Head Blight in Wheat|Mycotoxins57(2): 129-134|2007|10.2520/myco.57.129
180075|T||Besler,B.A., W.J. Grichar, O.D. Smith, and A.J. Jaks|Response of Peanut Cultivars to Full and Reduced Spray Programs of Tebuconazole for Control of Southern Stem Rot|Peanut Sci.28:5-8|2001|10.3146/i0095-3679-28-1-2
180076|T||Olmo,D., D. Gramaje, and J. Armengol|Evaluation of Fungicides to Protect Pruning Wounds from Botryosphaeriaceae Species Infections on Almond Trees|Phytopathol. Mediterr.56(1): 77-86|2017|
180077|T||Pereyra,M.A., F.M. Ballesteros, C.M. Creus, R.J. Sueldo, and C.A. Barassi|Seedlings Growth Promotion by Azospirillum brasilense Under Normal and Drought Conditions Remains Unaltered in Tebuconazole-Treated Wheat Seeds|Eur. J. Soil Sci.45(1): 20-27|2009|
180078|T||Emmitt,R.S., and J.W. Buck|Management of Daylily Rust with Different Fungicides and Fungicide Combinations|Plant Health Prog.18:162-165|2017|10.1094/PHP-03-17-0021-RS
180079|T||Maldaner,L., C.C. Santana, and I.C.S.F. Jardim|HPLC Determination of Pesticides in Soybeans Using Matrix Solid Phase Dispersion|J. Liq. Chromatogr. Related Technol.31(7): 972-983|2008|10.1080/10826070801924675
180080|T||Culbreath,A.K., R.C.,Jr. Kemerait, and T.B. Brenneman|Management of Early Leaf Spot of Peanut as Affected by Fungicide and Date of Spray Program Initiation|Plant Health Prog.7:14 p.|2006|10.1094/PHP-2006-0214-01-RS
180081|T||Varga,B., Z. Svecnjak, D. Macesic, and D. Uher|Winter Wheat Cultivar Responses to Fungicide Application are Affected by Nitrogen Fertilization Rate|J. Agron. Crop Sci.191(2): 130-137|2005|10.1111/j.1439-037X.2004.00133.x
180082|T||Gallagher,S.P., R.L. Van Hoven, J.B. Beavers, and M. Jaber|PFOS: A Reproduction Study with the Northern Bobwhite. Final Report|Project 454-108, Wildlife International Ltd., Easton, MD:196 p.|2003|
180084|T||Palmer,C.L., M.R. Bonde, S.E. Nester, J.M. Revell, and D.G. Luster|Fungicide Impact on In Vitro Germination of Basidiospores of Puccinia horiana, the Causal Agent of Chrysanthemum White Rust|Plant Health Prog.16(2): 73-76|2015|10.1094/PHP-RS-14-0032
180085|T||Rios,E., A. Blount, P. Harmon, C. Mackowiak, K. Kenworthy, and K. Quesenberry|Ergot Resistant Tetraploid Bahiagrass and Fungicide Effects on Seed Yield and Quality|Plant Health Prog.16(2): 56-62|2015|10.1094/PHP-RS-14-0051
180086|T||Nath,B.C., J.P. Singh, S. Srivastava, and R.B. Singh|Management of Late Leaf Spot of Groundnut by Different Fungicides and Their Impact on Yield|Plant Pathol. J.12(2): 85-91|2013|10.3923/ppj.2013.85.91
180087|T||Norden,M., O. Westman, N. Venizelos, and M. Engwall|Perfluorooctane Sulfonate Increases beta-Oxidation of Palmitic Acid in Chicken Liver|Environ. Sci. Pollut. Res.19:1859-1863|2012|10.1007/s11356-012-0869-1
180088|T||Zhang,B., S. Liao, and T. Ren|Utilization of the Fermentation Residues of Validamycin as a Potential Platform for Seed Treatment|RSC Adv.8:9956-9962|2018|10.1039/C7RA12298E
180089|T||Paparu,P., M. Katafiire, M. Mcharo, and M. Ugen|Evaluation of Fungicide Application Rates, Spray Schedules and Alternative Management Options for Rust and Angular Leaf Spot of Snap Beans in Uganda|Int. J. Pest Manag.60(1): 82-89|2014|10.1080/09670874.2014.903445
180090|T||Turedi,M., D. Esen, and B. Cetin|Seed Screening of Three Pine Species for Glyphosate Sensitivity for Forest Restoration|Plant Biosyst.152(3): 502-507|2018|10.1080/11263504.2018.1435581
180091|T||Suty,A., and A. Mauler-Machnik|Fusarium Ear Blight on Wheat - Epidemiology and Control of Gibberella zeae, the Teleomorph of Fusarium graminearum, with Folicur|In: Diagnosis and Identification of Plant Pathogens. Proceedings of the International Symposium of the European Foundation for Plant Pathology, Bonn, Germany:243-246|1997|
180092|T||Rijckaert,G.|The Effect of Fungicides on Seed Yield and Disease Control in Italian Ryegrass|Commun. Agric. Appl. Biol. Sci.74(3): 907-912|2009|
180093|T||Braga,A.F., A.A.M. Barroso, C.L. Amaral, M.P. Nepomuceno, and P.L.C.A. Alves|Population Interference of Glyphosate Resistant and Susceptible Ryegrass on Eucalyptus Initial Development|Planta Daninha (Impr.) (Multiple Languages)36:10 p.|2018|10.1590/s0100-83582018360100086
180094|T||Doukas,E.G., A.N. Markoglou, J.G. Vontas, and B.N. Ziogas|Effect of DMI-Resistance Mechanisms on Cross-Resistance Patterns, Fitness Parameters and Aflatoxin Production in Aspergillus parasiticus Speare|Fungal Genet. Biol.49:792-801|2012|10.1016/j.fgb.2012.07.008
180095|A||U.S. Environmental Protection Agency|"Graphics Prepared for Technical Presentation ""An Environmental Hazard Assessment for a Commonly Used Fire Retardant Plasticizer"" with Attachments"|EPA/OTS 40-00421454:46|2000|
180096|T||Parolini,M., G. Colombo, S. Valsecchi, M. Mazzoni, C.D. Possenti, M. Caprioli, I. Dalle-Donne, A. Milzani, N. Saino, an|Potential Toxicity of Environmentally Relevant Perfluorooctane Sulfonate (PFOS) Concentrations to Yellow-Legged Gull Larus michahellis Embryos|Environ. Sci. Pollut. Res.23(1): 426-437|2016|10.1007/s11356-015-5248-2
180097|T||Koehler,J.F., and G.L. Miller|Impact of Nitrogen Application Timing, Nitrogen Source, and a Single Fungicide Application on Large Patch of Zoysiagrass|Crop Sci.59:1285-1293|2019|10.2135/cropsci2018.09.0540
180098|T||Yanniccari,M., M.E. Gomez-Lobato, C. Istilart, C. Natalucci, D.O. Gimenez, and A.M. Castro|Mechanism of Resistance to Glyphosate in Lolium perenne from Argentina|Front. Ecol. Evol.5(123): 8 p.|2017|
180099|T||Le,C.N., T.K. Hoang, T.H. Thai, T.L. Tran, T.P.N. Phan, and J.M. Raaijmakers|Isolation, Characterization and Comparative Analysis of Plant-Associated Bacteria for Suppression of Soil-Borne Diseases of Field-Grown Groundnut in Vietnam|Biol. Control121:256-262|2018|10.1016/j.biocontrol.2018.03.014
180100|T||Xue,A.G., Y. Chen, H.D. Voldeng, G. Fedak, M.E. Savard, T. Langle, J. Zhang, and G.E. Harman|Concentration and Cultivar Effects on Efficacy of CLO-1 Biofungicide in Controlling Fusarium Head Blight of Wheat|Biol. Control73:2-7|2014|10.1016/j.biocontrol.2014.02.010
180101|T||Hagan,A.K., C.H. Gilliam, and D.C. Fare|Evaluation of Systhane and Folicur for the Control of Rose Blackspot|Res. Rep. Ser.5:20-21|1987|
180102|T||Conesa,E., V. Cortell, and D. Tormo|Tebuconazole Effect over Penicillium sp. Control During Postharvest of Citrus Fruit in Commercial Conditions|Acta Hortic.:187-192|2018|10.17660/ActaHortic.2018.1194.28
180103|T||Pattapu,S., T.B. Mathew, A. Josephrajkumar, and A. Paul|Synergist Induced Susceptibility of Tobacco Caterpillar, Spodoptera litura (Fabricius) from Kerala, India Exposed to Conventional Insecticides|Phytoparasitica46:97-104|2018|10.1007/s12600-018-0641-2
180104|T||Belisario,A., A. Santori, G. Potente, A. Fiorin, B. Saphy, J.L. Reigne, C. Pezzini, E. Bortolin, and A. Valier|Brown Apical Necrosis (BAN): A Fungal Disease Causing Fruit Drop of English Walnut|Acta Hortic.:449-452|2010|10.17660/ActaHortic.2010.861.63
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180138|T||Pieterse,A.H., G.G.M. Schulten, and W. Kuyken|A Study on Insecticide Resistance in Tribolium castaneum (Herbst) (Coleoptera, Tenebrionidae) in Malawi (Central Africa)|J. Stored Prod. Res.8:183-191|1972|10.1016/0022-474X(72)90038-0
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180140|T||Mao,C., H. Xie, S. Chen, B.E. Valverde, and S. Qiang|Error-Prone PCR Mutation of Ls-EPSPS Gene from Liriope spicata Conferring to Its Enhanced Glyphosate-Resistance|Pestic. Biochem. Physiol.141:90-95|2017|10.1016/j.pestbp.2016.12.004
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180142|T||Veness,J.|Evaluation of Spring Wheat Head Morphologies on Fusarium graminearum Infection and Tebuconazole Efficacy|M.S. Thesis, University of Guelph, Ontario, Canada:148 p.|2007|
180143|T||Wojdyla,A.T.|Falcon 460 EC in the Control of Foliage Diseases of Some Ornamentals|Commun. Agric. Appl. Biol. Sci.71(3B): 1071-1079|2006|
180144|T||Stover,H.J., M.A. Naeth, and S.R. Wilkinson|Glyphosate, Steam and Cutting for Non-Native Plant Control in Alberta Fescue Grassland Restoration|Appl. Veg. Sci.20:608-619|2017|10.1111/avsc.12316
180145|T||Kato,Y.|The Induction of Phosphatase in Various Organs of the Chick Embryo|Dev. Biol.1:477-510|1959|10.1016/0012-1606(59)90014-4
180146|T||Bell,F.W., K.R. Ride, M.L. St-Amour, and M. Ryans|Productivity, Cost, Efficacy and Cost Effectiveness of Motor-Manual, Mechanical, and Herbicide Release of Boreal Spruce Plantations|For. Chron.73(1): 39-46|1997|10.5558/tfc73039-1
180147|T||Brose,P.H., and G.W. Miller|A Comparison of Three Foliar-Applied Herbicides for Controlling Mountain Laurel Thickets in the Mixed-Oak Forests of the Central Appalachian Mountains, USA|For. Ecol. Manag.432:568-574|2019|10.1016/j.foreco.2018.09.034
180149|T||Dogan,O., and S. Benlioglu|Evaluation of the Effectiveness of Some Fungicides Against Fig Endosepsis Disease|Acta Hortic.:263-268|2017|10.17660/ActaHortic.2017.1173.45
180150|T||Mateo,E.M., J.V. Gomez, J.V. Gimeno-Adelantado, D. Romera, R. Mateo-Castro, and M. Jimenez|Assessment of Azole Fungicides as a Tool to Control Growth of Aspergillus flavus and Aflatoxin B1 and B2 Production in Maize|Food Addit. Contam. Part A34:1039-1051|2017|
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180154|T||Madege,R.R., K. Audenaert, M. Kimanya, B. Tiisekwa, B. De Meulenaer, B. Bekaert, S. Landschoot, and G. Haesaert|Control of Fusarium verticillioides (Sacc.) Nirenberg and Fumonisins by Using a Combination of Crop Protection Products and Fertilization|Toxins (Basel)10(2): 14 p.|2018|10.3390/toxins10020067
180155|A||Nirmal Kumar,J.I., A. Bora, and M.K. Amb|Chronic Toxicity of the Triazole Fungicide Tebuconazole on a Heterocystous, Nitrogen-Fixing Rice Paddy Field Cyanobacterium, Westiellopsis prolifica Janet|J. Microbiol. Biotechnol.20(7): 1134-1139|2010|10.4014/jmb.0907.07013
180156|T||Ahemad,M., and M.S. Khan|Plant-Growth-Promoting Fungicide-Tolerant Rhizobium Improves Growth and Symbiotic Characteristics of Lentil (Lens esculentus) in Fungicide-Applied Soil|J. Plant Growth Regul.30:334-342|2011|10.1007/s00344-011-9195-y
180157|T||Liang,R., X. Li, W. Yuan, S. Jin, S. Hou, M. Wang, and H. Wang|Antifungal Activity of Nanochitin Whisker Against Crown Rot Diseases of Wheat|J. Agric. Food Chem.66:9907-9913|2018|10.1021/acs.jafc.8b02718
180158|T||Shoaib,A., A. Dliferoze, A. Khan, S. Khurshid, and S. Akhtar|Effect of Fungicides on the Morphology, Physiology and Biochemistry of Tomato Seedlings Infected with Fusarium oxysporum f. sp Lycopersici|Philipp. Agric. Sci.97(4): 416-421|2014|
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180161|T||Duff,A.A., K.J. Jackson, and W.E. O'Donnell|Tebuconazole (Folicur) Shows Potential in the Control of White Rot (Sclerotium cepivorum) in Garlic in Subtropical Queensland, Australia|Acta Hortic.555:247-250|2001|10.17660/ActaHortic.2001.555.37
180162|T||Elshahawy,I.E., N.M. Saied, F. Abd-El-Kareem, and A.A. Morsy|Field Application of Selected Bacterial Strains and Their Combinations for Controlling Onion and Garlic White Rot Disease Caused by Stromatinia cepivora|J. Plant Pathol.100:493-503|2018|10.1007/s42161-018-0113-z
180163|T||Yanniccari,M., C. Istilart, D. Gimenez, and A. Castro|Dynamics of Glyphosate Resistance in Lolium perenne: Pollen-Mediated Gene Flow Under Field Conditions in Argentina|Agronomy8(286): 11 p.|2018|
180164|T||Foster,J.M., and M.R. Mcdonald|Management of Stemphylium Leaf Spot (Stemphylium vesicarium) and Rust (Puccinia asparagi) of Asparagus (Asparagus officinalis) with Cultivar Selection and Fungicides|Acta Hortic.1223:219-225|2018|10.17660/ActaHortic.2018.1223.30
180165|T||MacDonald,N.W., K.M. Dykstra, and L.M. Martin|Restoration of Native-Dominated Plant Communities on a Centaurea stoebe-Infested Site|Appl. Veg. Sci.22:300-316|2019|10.1111/avsc.12427
180166|T||Gupta,V., H. Kumar, D. Kumar, and V.K. Razdan|In Vitro Evaluation of Fungicides Against Fusarium Wilt Fungus of Chilli|Environ. Ecol.28(4A): 2658-2659|2010|
180167|T||He,L., X. Li, Y. Gao, B. Li, W. Mu, and F. Liu|Characterization and Fungicide Sensitivity of Colletotrichum spp. from Different Hosts in Shandong, China|Plant Dis.103:34-43|2019|10.1094/PDIS-04-18-0597-RE
180168|A||Daniel,T.C.|I. Evaluation of Diquat and Endothall for the Control of Water Milfoil (Myriophyllum exalbescens) and the Effect of Weedkill on the Nitrogen and Phosphorus Status of a Waterbody. II. Design and Construction of a Shallow|Ph.D Thesis, University of Wisconsin, Madison, WI:132 p.|1972|
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180173|T||Travlos,I., I. Tabaxi, D. Papadimitriou, D. Bilalis, and D. Chachalis|Lolium rigidum Gaud. Biotypes from Greece with Resistance to Glyphosate and Other Herbicides|Bull. Univ. Agric. Sci. Vet. Med. Cluj-Napoca. Hortic.73(1): 3 p.|2016|
180176|T||Steele,G.L.|Interference and Control of Sharppod Morningglory (Ipomoea cordatotriloba Dennstedt) in Glyphosate-Resistant Cotton|Ph.D. Thesis,  Texas A&M University:108 p.|2004|
180177|T||Zhang,C., L. Zhu, J. Wang, J. Wang, Z. Du, B. Li, T. Zhou, C. Cheng, and Z. Wang|Evaluating Subchronic Toxicity of Fluoxastrobin Using Earthworms (Eisenia fetida)|Sci. Total Environ.642:567-573|2018|10.1016/j.scitotenv.2018.06.091
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180179|T||Tehranchian,P., V. Nandula, M. Jugulam, K. Putta, and M. Jasieniuk|Multiple Resistance to Glyphosate, Paraquat and ACCase-Inhibiting Herbicides in Italian Ryegrass Populations from California: Confirmation and Mechanisms of Resistance|Pest Manag. Sci.74:868-877|2018|10.1002/ps.4774
180180|T||Minogue,P.J., A. Osiecka, and D.K. Lauer|Selective Herbicides for Establishment of Eucalyptus benthamii Plantations|New For. 49:529-550|2018|10.1007/s11056-018-9637-5
180181|T||Tong,M., W. Gao, W. Jiao, J. Zhou, Y. Li, L. He, and R. Hou|Uptake, Translocation, Metabolism, and Distribution of Glyphosate in Nontarget Tea Plant (Camellia sinensis L.)|J. Agric. Food Chem.65:7638-7646|2017|10.1021/acs.jafc.7b02474
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180183|T||Pereira,F.C.M., R. Tayengwa, P.L.C.A. Alves, and W.A. Peer|Phosphate Status Affects Phosphate Transporter Expression and Glyphosate Uptake and Transport in Grand Eucalyptus (Eucalyptus grandis)|Weed Sci.67(1): 29-40|2019|10.1017/wsc.2018.58
180184|T||Alcantara-De La Cruz,R., Y. Romano, M.D. Osuna-Ruiz, J.A. Dominguez-Valenzuela, J. Menendez, and R. De Prado|Genetic Relationships Between Tropical Sprangletop (Leptochloa virgata) Populations from Mexico: Understanding Glyphosate Resistance Spread|Weed Sci.64(4): 579-587|2016|10.1614/WS-D-15-00183.1
180185|T||Griffiths,J., H. Armstrong, R. Innes, and J. Terry|Can Aerial Herbicide Application Control Grey Willow (Salix cinerea L.) and Stimulate Native Plant Recovery in New Zealand Wetlands?|Ecol. Manag. Restor.19(1): 49-57|2018|10.1111/emr.12299
180186|T||Tennakoon,K.M.S., H.J. Ridgway, M.V. Jaspers, G. Langford, and E.E. Jones|Evaluation of Fungicide Efficacy Against Neofusicoccum Species Causing Dieback Disease of Blueberries in New Zealand|Australas. Plant Pathol.:1-10|2018|
180187|T||Friskop,A.J., T.J. Gulya, S.A. Halley, B.G. Schatz, J.P. Schaefer, J.G. Jordahl, S.M. Meyer, K.W. Misek, P. Hendrickson|Effect of Fungicide and Timing of Application on Management of Sunflower Rust|Plant Dis.99(9): 1210-1215|2015|10.1094/PDIS-10-14-1036-RE
180188|T||Ghosh,D., U.P. Singh, K. Brahmachari, N.K. Singh, and A. Das|An Integrated Approach to Weed Management Practices in Direct-Seeded Rice Under Zero-Tilled Rice-Wheat Cropping System|Int. J. Pest Manag.63(1): 37-46|2017|10.1080/09670874.2016.1213460
180189|T||Shilo,T., B. Rubin, D. Plakhine, S. Gal, R. Amir, Y. Hacham, S. Wolf, and H. Eizenberg|Secondary Effects of Glyphosate Action in Phelipanche aegyptiaca: Inhibition of Solute Transport from the Host Plant to the Parasite|Front. Plant Sci.8:16 p.|2017|10.3389/fpls.2017.00255
180190|T||Iannotta,N., D. Monardo, and L. Perri|Effects of Different Treatments Against Spilocaea oleagina (Cast.) Hugh|Acta Hortic.:741-744|2002|10.17660/ActaHortic.2002.586.159
180191|T||Tahmasebi,B.K., R. Alcantara-De La Cruz, E. Alcantara, J. Torra, J.A. Dominguez-Valenzuela, H.E. Cruz-Hipolito, A.M. Ro|Multiple Resistance Evolution in Bipyridylium-Resistant Epilobium ciliatum After Recurrent Selection|Front. Plant Sci.9(695): 11 p.|2018|
180192|T||Nerya,O., A. Tzviling, H. Hibrahim, and R. Ben-Arie|Coniella granati - a New Pathogen of Pomegranates in Israel - Postharvest Fungicide Screening for Control of Storage Decay|Acta Hortic.1144:465-468|2016|10.17660/ActaHortic.2016.1144.69
180193|T||Saha,S.|Evaluation of New Fungicidal Formulations Against Sheath Blight of Rice in West Bengal|Environ. Ecol.21(1): 237-239|2003|
180194|T||Sosnowski,M.R., and D.C. Mundy|Pruning Wound Protection Strategies for Simultaneous Control of Eutypa and Botryosphaeria Dieback in New Zealand|Plant Dis.103:519-525|2019|10.1094/PDIS-05-18-0728-RE
180196|T||Santos,L., S. Marin, V. Sanchis, and A.J. Ramos|In Vitro Effect of Some Fungicides on Growth and Aflatoxins Production by Aspergillus flavus Isolated from Capsicum Powder|Food Addit. Contam. Part A28(1): 98-106|2011|
180197|T||Massot,F., M.E. Smith, V.A. Vitali, A.M. Giulietti, and L.J. Merini|Assessing the Glyphosate Tolerance of Lotus corniculatus and L. tenuis to Perform Rhizoremediation Strategies in the Humid Pampa (Argentina)|Ecol. Eng.90:392-398|2016|10.1016/j.ecoleng.2016.01.031
180198|T||Blandino,M., L. Minelli, and A. Reyneri|Strategies for the Chemical Control of Fusarium Head Blight: Effect on Yield, Alveographic Parameters and Deoxynivalenol Contamination in Winter Wheat Grain|Eur. J. Agron.25(3): 193-201|2006|10.1016/j.eja.2006.05.001
180199|T||Machado,M.S., L.R. Ferreira, J.L. De Paula, G.A.M. Pereira, and V.A. Goncalves|Use of Liquid Fertilizer to Reduce the Phytotoxic Effects of Glyphosate on Eucalyptus|Rev. Caatinga30:730-737|2017|10.1590/1983-21252017v30n321rc
180200|T||Metier,E.P., L.J. Rew, and M.J. Rinella|Establishing Wyoming Big Sagebrush in Annual Brome-Invaded Landscapes with Seeding and Herbicides|Rangeland Ecol. Manag.71:705-713|2018|10.1016/j.rama.2018.06.001
180201|T||Brazauskiene,I., and E. Petraitiene|Effects of Fungicide Application Timing on the Incidence and Severity of Alternaria Blight (Alternaria brassicae) and on the Productivity of Spring Oilseed Rape (Brassica napus L. ssp. oleifera annua Metzg.)|Agron. Res.2(2): 121-133|2004|
180202|T||Freitas,N.M., F.C.L. Freitas, I.F. Furtado, M.F.F. Teixeira, and V.F. Silva|Herbicide Mixtures to Control Dayflowers and Drift Effect on Coffee Cultures|Planta Daninha (Impr.) (Multiple Languages)36:9 p.|2018|10.1590/s0100-83582018360100047
180203|T||Eynard,R., and M.C. Shephard|Comparative Activity of Fungicides Against Septoria nodorum and S. tritici on Wheat|Br. Crop Prot. Conf. Pests Dis.:861-866|1990|
180204|T||Ahemad,M., and M.S. Khan|Effect of Tebuconazole-Tolerant and Plant Growth Promoting Rhizobium Isolate MRP1 on Pea-Rhizobium Symbiosis|Sci. Hortic.129:266-272|2011|10.1016/j.scienta.2011.03.036
180205|T||Layton,C.N.|The Biology and Control of Switchgrass Head Smut (Tilletia maclaganii) in New York State|Ph.D.Thesis, Cornell University, Ithaca, NY:118 p.|2014|
180206|T||De Jesus,W.C.,Jr., F.X.R. Vale, R.R. Coelho, B. Hau, L. Zambolim, and R.D. Berger|Management of Angular Leaf Spot in Common Bean (Phaseolus vulgaris L.) with Molybdenum and Fungicide|Agron. J.96:665-670|2004|10.2134/agronj2004.0665
180207|T||Spink,J.H.|Evaluation of Fungicides for Control of (Sclerotinia sclerotiorum) on Winter Oilseed Rape|Tests Agrochem. Cultiv.16:18-19|1995|
180208|T||Kucharek,T.A., J.D. Atkins, D.W. Gorbet, and R.C. Kemerait|The Performance of Select Genotypes of Peanut to Natural Inocula of Cylindrocladium Black Rot and Tomato Spotted Wilt Virus in Florida|Proc. Soil Crop Sci. Soc. Fla.59:72-76|2000|
180209|T||Singh,C.K., Sarvjeet, S.P. Singh, R.K. Singh, N.K. Tiwari, P.K. Singh, and P. Sharma|Antifungal Efficacy of Fungicides Against Foliar Blight of Barley, Bipolaris sorokiniana|Ann. Biol.31(2): 245-247|2015|
180210|T||Xue,A.G., H.D. Voldeng, M.E. Savard, and G. Fedak|Biological Management of Fusarium Head Blight and Mycotoxin Contamination in Wheat|World Mycotoxin J.2(2): 193-201|2009|10.3920/WMJ2008.1121
180211|T||Hudec,K.|Influence of Seed Treatment, Temperature and Origin of Inocula on Pathogenicity of Fusarium Species to Wheat and Barley Seedlings|Cereal Res. Commun.34(2/3): 1059-1066|2006|10.1556/CRC.34.2006.2-3.238
180212|T||Xue,A., Y. Chen, H. Voldeng, M. Savard, and X. Tian|Biological Control of Fusarium Head Blight of Wheat with Clonostachys rosea Strain ACM941|Cereal Res. Commun.36(62): 695-699|2008|10.1556/CRC.36.2008.Suppl.B.62
180213|T||Barros,G., C. Magnoli, M.M. Reynoso, M.L. Ramirez, M.C. Farnochi, A. Torres, M. Dalcero, J. Sequeira, C. Rubinstein, an|Fungal and Mycotoxin Contamination in Bt Maize and Non-Bt Maize Grown in Argentina|World Mycotoxin J.2(1): 53-60|2009|10.3920/WMJ2008.1029
180214|T||Pradhanang,P.M., and S.R. Ghimire|Fungicide Management of Maize Head Smut (Sphacelotheca reiliana) by Seed Treatment|Trop. Agric.73(4): 325-328|1996|
180215|T||Hutcheon,J.A.|Evaluation of Triapenthenol, Prochloraz and an Experimental Fungicide, HWG 1608, Against Oilseed Rape Diseases|Ann. Appl. Biol.10(114): 52-53|1989|
180216|T||Halldin,K., C. Berg, A. Bergman, I. Brandt, and B. Brunstrom|Distribution of Bisphenol A and Tetrabromobisphenol A in Quail Eggs, Embryos and Laying Birds and Studies on Reproduction Variables in Adults Following In Ovo Exposure|Arch. Toxicol.75:597-603|2001|10.1007/s002040100277
180217|A||He,Q., X. Wang, P. Sun, Z. Wang, and L. Wang|Acute and Chronic Toxicity of Tetrabromobisphenol A to Three Aquatic Species Under Different pH Conditions|Aquat. Toxicol.164:145-154|2015|10.1016/j.aquatox.2015.05.005
180218|A||Ji,C., H. Wu, L. Wei, and J. Zhao|iTRAQ-Based Quantitative Proteomic Analyses on the Gender-Specific Responses in Mussel Mytilus galloprovincialis to Tetrabromobisphenol A|Aquat. Toxicol.157:30-40|2014|10.1016/j.aquatox.2014.09.008
180219|A||Canesi,L., L.C. Lorusso, C. Ciacci, M. Betti, and G. Gallo|Effects of the Brominated Flame Retardant Tetrabromobisphenol-A (TBBPA) on Cell Signaling and Function of Mytilus Hemocytes: Involvement of MAP Kinases and Protein Kinase C|Aquat. Toxicol.75(3): 277-287|2005|10.1016/j.aquatox.2005.08.010
180220|A||Hu,F., L. Pan, M. Xiu, Q. Jin, G. Wang, and C. Wang|Bioaccumulation and Detoxification Responses in the Scallop Chlamys farreri Exposed to Tetrabromobisphenol A (TBBPA)|Environ. Toxicol. Pharmacol.39(3): 997-1007|2015|10.1016/j.etap.2015.03.006
180221|T||Crous,P.W., S. Denman, and M. Scott|Puccinia mesembryanthemi Causing a New Disease Inhibiting the Growth of Sceletium tortuosum in South Africa|Mycotaxon72:231-236|1999|
180222|T||Galeano,E., A.A.M. Barroso, T.S. Vasconcelos, A. Lopez-Rubio, A.J.P. Albrecht, R. Victoria Filho, and H. Carrer|EPSPS Variability, Gene Expression, and Enzymatic Activity in Glyphosate-Resistant Biotypes of Digitaria insularis|Genet. Mol. Res.15(3): 15 p.|2016|10.4238/gmr.15038730
180223|T||Takano,H.K., R.S.,Jr. De Oliveira, J. Constantin, C.A. Mangolim, M.D.F.P.S. Machado, and M.R.R. Bevilaqua|Spread of Glyphosate-Resistant Sourgrass (Digitaria insularis): Independent Selections or Merely Propagule Dissemination?|Weed Biol. Manag.18:50-59|2018|10.1111/wbm.12143
180224|T||Damin,V., P.C.O. Trivelin, J.A. Bonassi, and A.C. Vitti|Emissions of Ammonia Following Glyphosate Application on Urochloa decumbens|Plant Soil Environ.62(10): 467-473|2016|10.17221/353/2016-PSE
180225|T||Sauer,N.J., J. Narvaez-Vasquez, J. Mozoruk, R.B. Miller, Z.J. Warburg, M.J. Woodward, Y.A. Mihiret, T.A. Lincoln, R.E. |Oligonucleotide-Mediated Genome Editing Provides Precision and Function to Engineered Nucleases and Antibiotics in Plants|Plant Physiol.170:1917-1928|2016|10.1104/pp.15.01696
180226|A||Gottardi,M., and N. Cedergreen|The Synergistic Potential of Azole Fungicides does not Directly Correlate to the Inhibition of Cytochrome P450 Activity in Aquatic Invertebrates|Aquat. Toxicol.207:187-196|2019|10.1016/j.aquatox.2018.12.010
180227|A||Rosch,A., S. Anliker, and J. Hollender|How Biotransformation Influences Toxicokinetics of Azole Fungicides in the Aquatic Invertebrate Gammarus pulex|Environ. Sci. Technol.50(13): 7175-7188|2016|10.1021/acs.est.6b01301
180228|T||Brant,M.C., L.D. Tuffi Santos, I.C. Freitas, L.A. Frazao, M.S.N. Silva, V.D. Machado, and M.V. Santos|Productivity, Control, and Decomposition of Irrigated Forage Species Under Glyphosate Doses and Shading|Planta Daninha (Impr.) (Multiple Languages)36:9 p.|2018|10.1590/s0100-83582018360100130
180229|T||Rabert,G.A., P. Manivannan, R. Somasundaram, and R. Panneerselvam|Triazole Compounds Alters the Antioxidant and Osmoprotectant Status in Drought Stressed Helianthus annuus L. Plants|Emirates J. Food Agric.26(3): 265-276|2014|10.9755/ejfa.v26i3.17385
180230|T||Diesel,F., M.M. Trezzi, M. Gallon, A.A.,Jr. Balbinot, and F.B. Pagnoncelli|Tolerance to Glyphosate in Broadleaf Buttonweed and White-Eye Biotypes|Planta Daninha (Impr.) (Multiple Languages)36:14 p.|2018|10.1590/s0100-83582018360100093
180231|T||Padmanabhan,K.R.|Understanding Plant Response to Stress Using Gene Model Quality Evaluation and Transcriptome Analysis|Ph.D.Thesis, Purdue University, West Lafayette, IN:141 p.|2016|
180233|T||Cotterill,P.J.|Evaluation of In-Furrow Fungicide Treatments to Control Rhizoctonia Root Rot of Wheat|Crop Prot.10(6): 473-478|1991|10.1016/S0261-2194(91)80136-4
180234|T||Smith,B.J., and M.A. Miller-Butler|Effect of Nitrogen Fertilization and Fungicides on Botryosphaeria Stem Blight Lesion Development on Detached Blueberry Stems|Acta Hortic.1180:61-70|2017|10.17660/ActaHortic.2017.1180.9
180235|T||McLaren,N.W.|Efficacy of Fungicides in the Control of Ergot (Claviceps africana) in Sorghum (Sorghum bicolor) Hybrid Seed Production|S. Afr. J. Plant Soil20(3): 154-156|2003|10.1080/02571862.2003.10634926
180236|T||Boshoff,W.H.P., Z.A. Pretorius, and B.D. Van Niekerk|Fungicide Efficacy and the Impact of Stripe Rust on Spring and Winter Wheat in South Africa|S. Afr. J. Plant Soil20(1): 11-17|2003|10.1080/02571862.2003.10634898
180237|T||Sharma-Poudyal,D., R.C. Sharma, and E. Duveiller|Control of Helminthosporium Leaf Blight of Spring Wheat Using Seed Treatments and Single Foliar Spray in Indo-Gangetic Plains of Nepal|Crop Prot.88:161-166|2016|10.1016/j.cropro.2016.06.017
180238|T||Sharma-Poudyal,D., E. Duveiller, and R.C. Sharma|Effects of Seed Treatment and Foliar Fungicides on Helminthosporium Leaf Blight and on Performance of Wheat in Warmer Growing Conditions|J. Phytopathol.153(7/8): 401-408|2005|10.1111/j.1439-0434.2005.00992.x
180239|T||Ma,Z., D.P. Morgan, D. Felts, and T.J. Michailides|Sensitivity of Botryosphaeria dothidea from California Pistachio to Tebuconazole|Crop Prot.21(9): 829-835|2002|10.1016/S0261-2194(02)00046-7
180240|T||Mauler-Machnik,A., and A. Suty|New Findings on the Epidemiology, Importance and Control of Fusarium Ear Blight on Wheat|Cereal Res. Commun.25(3/2): 705-709|1997|10.1007/BF03543817
180241|T||Diaz,G.A., B.A. Latorre, M. Lolas, E. Ferrada, P. Naranjo, and J.P. Zoffoli|Identification and Characterization of Diaporthe ambigua, D. australafricana, D. novem, and D. rudis Causing a Postharvest Fruit Rot in Kiwifruit|Plant Dis.101(8): 1402-1410|2017|10.1094/PDIS-10-16-1535-RE
180242|T||Barker,S.J., P. Si, L. Hodgson, M. Ferguson-Hunt, Y. Khentry, P. Krishnamurthy, S. Averis, K. Mebus, C. O'Lone, D. Dalu|Regeneration Selection Improves Transformation Efficiency in Narrow-Leaf Lupin|Plant Cell Tissue Organ Cult.126:219-228|2016|10.1007/s11240-016-0992-7
180243|T||Vemanna,R.S., A.R. Vennapusa, M. Easwaran, B.K. Chandrashekar, H. Rao, K. Ghanti, C. Sudhakar, K.S. Mysore, and U. Maka|Aldo-Keto Reductase Enzymes Detoxify Glyphosate and Improve Herbicide Resistance in Plants|Plant Biotechnol. J.15:794-804|2017|10.1111/pbi.12632
180244|T||Schonherr,J.|A Mechanistic Analysis of Penetration of Glyphosate Salts Across Astomatous Cuticular Membranes|Pest Manag. Sci.58(4): 343-351|2002|10.1002/ps.462
180245|T||Sebiomo,A., V.W. Ogundero, and S.A. Bankole|Effect of Four Herbicides on Microbial Population, Soil Organic Matter and Dehydrogenase Activity|Afr. J. Biotechnol.10(5): 770-778|2011|
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180251|T||Zhang,D.Y., X.Y. Shen, and X.L. Xu|The Effects of Perfluorooctane Sulfonate (PFOS) on Chinese Cabbage (Brassica rapa pekinensis) Germination and Development|Procedia Eng.18:206-213|2011|10.1016/j.proeng.2011.11.033
180252|T||Zhang,L., H. Sun, Q. Wang, H. Chen, Y. Yao, Z. Zhao, and A.C. Alder|Uptake Mechanisms of Perfluoroalkyl Acids with Different Carbon Chain Lengths (C2-C8) by Wheat (Triticum aestivum L.)|Sci. Total Environ.654:19-27|2019|10.1016/j.scitotenv.2018.10.443
180253|T||Xu,Z., T. Tang, H. Cheng, Q. Bao, J. Yu, C. Zhang, T. Wu, X. Zhao, K.W. Schramm, and Y. Wang|Negligible Effects of TiO2 Nanoparticles at Environmentally Relevant Concentrations on the Translocation and Accumulation of Perfluorooctanoic Acid and Perfluorooctanesulfonate in Hydroponically Grown Pumpkin Seedlings |Sci. Total Environ.686:171-178|2019|10.1016/j.scitotenv.2019.05.473
180254|T||Xiang,L., L. Chen, L.Y. Yu, P.F. Yu, H.M. Zhao, C.H. Mo, Y.W. Li, H. Li, Q.Y. Cai, D.M. Zhou, and M.H. Wong|Genotypic Variation and Mechanism in Uptake and Translocation of Perfluorooctanoic Acid (PFOA) in Lettuce (Lactuca sativa L.) Cultivars Grown in PFOA-Polluted Soils|Sci. Total Environ.636:999-1008|2018|10.1016/j.scitotenv.2018.04.354
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180257|T||Carvalho,R.F., and K.M. Folta|Assessment of Promoters and a Selectable Marker for Development of Strawberry Intragenic Vectors|Plant Cell Tissue Organ Cult.128(2): 259-271|2017|10.1007/s11240-016-1105-3
180258|T||Van Rensen,J.J.S.|Effects of N-(Phosphonomethyl) Glycine on Photosynthetic Reactions in Scenedesmus and in Isolated Spinach Chloroplasts|In: M.Avron (Ed.), Proceedings of the Third International Congress on Photosynthesis. Elsevier Publishing Co, Amsterdam:683-687|1974|
180259|T||Quezado Duval,A.M., G.P. Henz, M.L. Paz-Lima, A.R. Medeiros, B.E.C. Miranda, L.H. Pfenning, and A. Reis|New Hosts of Myrothecium spp. in Brazil and a Preliminary In Vitro Assay of Fungicides|Braz. J. Microbiol.41:246-252|2010|10.1590/S1517-83822010000100034
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180261|T||Miller,G.L.|Effect of Watered-in Demethylation-Inhibitor Fungicide and Paclobutrazol Applications on Foliar Disease Severity and Turfgrass Quality of Creeping Bentgrass Putting Greens|Crop Prot.79:64-69|2016|10.1016/j.cropro.2015.10.008
180262|AT||Everest,J.W.|Predicting Phosphorus Movement and Pesticide Action in Salt Marshes with Microecosystems|M.S. Thesis, Auburn University, Auburn, AL:90 p.|1978|
180263|T||Steed,J.M., A. Baierl, and B.D.L. Fitt|Relating Plant and Pathogen Development to Optimise Fungicide Control of Phoma Stem Canker (Leptosphaeria maculans) on Winter Oilseed Rape (Brassica napus)|Eur. J. Plant Pathol.118(4): 359-373|2007|10.1007/s10658-007-9137-5
180264|T||Hill,Z.T., J.K. Norsworthy, L.T. Barber, T.L. Roberts, and E.E. Gbur|Assessing the Potential for Fluridone Carryover to Six Crops Rotated with Cotton|Weed Technol.30(2): 346-354|2016|10.1614/WT-D-15-00048.1
180265|T||Balmas,V., G. Delogu, S. Sposito, D. Rau, and Q. Migheli|Use of a Complexation of Tebuconazole with beta-Cyclodextrin for Controlling Foot and Crown Rot of Durum Wheat Incited by Fusarium culmorum|J. Agric. Food Chem.54(2): 480-484|2006|10.1021/jf0523014
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180267|T||Shi,F.|Control of Maize Head Smut with 6% Tebuconazole FS|Agric. Sci. Technol.15(5): 860-861|2014|
180268|T||McMillan,R.T.,Jr.|New Chemistry for Rhizoctonia Root Rot of Snap Bean|Proc. Annu. Meet. Fla. State Hortic. Soc.113:210-211|2000|
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180270|T||Xue,A.G., Y.H. Chen, S.M.R. Sant'Anna, H.D. Voldeng, G. Fedak, M.E. Savard, T. Langle, J.X. Zhang, and G.E. Harman|Efficacy of CLO-1 Biofungicide in Suppressing Perithecial Production by Gibberella zeae on Crop Residues|Can. J. Plant Pathol.36(2): 161-169|2014|10.1080/07060661.2014.881920
180271|T||Wujian,C., Y. Xiufen, Z. Changjie, H. Yufeng, W. Jianguo, C. Rongyao, and Z. Zhen|Preliminary Study on Control Effects of Five Kinds of Fungicides Against Wheat Scab|Plant Dis. Pests4(3): 9-11|2013|
180272|T||Lofgren,C.S., W.A. Banks, R.K. Vander Meer, and D.F. Williams|Residual Toxicity of Some Fluoroaliphatic Sulfones to the Red Imported Fire Ant, Solenopsis invicta (Hymenoptera: Formicidae)|Fla. Entomol.72(1): 140-146|1989|10.2307/3494980
180273|T||Jeyaraman,M., and P.S.A. Robert|Integrated Management of Branch Canker Disease (Macrophoma sp.) in Tea Under Field Level|J. Plant Dis. Prot.124:115-119|2017|10.1007/s41348-017-0072-1
180274|T||Su,N.Y., and R.H. Scheffrahn|Toxicity and Lethal Time of N-Ethyl Perfluorooctane Sulfonamide Against Two Subterranean Termite Species (Isoptera: Rhinotermitidae)|Fla. Entomol.71(1): 73-78|1988|10.2307/3494895
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180277|T||Pereira,W.V., A.C.N. Padilha, J.A.O. Kaiser, C.N. Nesi, J.M.M. Fischer, and L.L. May-De-Mio|Monilinia spp. from Imported Stone Fruits may Represent a Risk to Brazilian Fruit Production|Trop. Plant Pathol.44:120-131|2019|10.1007/s40858-018-0243-z
180278|T||Sun,H.Y., Y.F. Zhu, Y.Y. Liu, Y.Y. Deng, W. Li, A.X. Zhang, and H.G. Chen|Evaluation of Tebuconazole for the Management of Fusarium Head Blight in China|Australas. Plant Pathol.43:631-638|2014|10.1007/s13313-014-0309-4
180279|T||Talbert,R.E., L.R. Oliver, R.E. Frans, D.H. Johnson, and J.A. Kendig|Field Screening of New Chemicals for Herbicidal Activity, 1987|Ark. Agric. Exp. Stn. Bull.363:1-17|1987|
180280|T||Gaur,A., and O. Sharma|Comparative Efficacy of Some Systemic Fungicides Against Loose Smut of Wheat|Seed Res.20(1): 61-63|1992|
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180282|T||Simpfendorfer,S.|Evaluation of Fungicide Timing and Preventative Application on the Control of Fusarium Head Blight and Resulting Yield|Australas. Plant Pathol.45:513-516|2016|10.1007/s13313-016-0441-4
180283|A||Wang,Y., Y. Li, Z. Qin, and W. Wei|Re-Evaluation of Thyroid Hormone Signaling Antagonism of Tetrabromobisphenol A for Validating the T3-Induced Xenopus Metamorphosis Assay|J. Environ. Sci.52:325-332|2017|10.1016/j.jes.2016.09.021
180284|T||Mostafa,M.T., M.S. Reiad, R.M. El-Shahawy, and E.A. Saleh|Response of the Cotton Plant and Soil Microflora to Different Levels of Cotoran Multi Herbicide and Nutrin Foliar Fertilizer|Egypt. J. Agron.8(1/2): 13-25|1983|
180286|A||Usenko,C.Y., E.L. Abel, A. Hopkins, G. Martinez, J. Tijerina, M. Kudela, N. Norris, L. Joudeh, and E.D. Bruce|Evaluation of Common Use Brominated Flame Retardant (BFR) Toxicity Using a Zebrafish Embryo Model|Toxics4(21): 13 p.|2016|
180287|A||Arrhenius,A., F. Gronvall, M. Scholze, T. Backhaus, and H. Blanck|Predictability of the Mixture Toxicity of 12 Similarly Acting Congeneric Inhibitors of Photosystem II in Marine Periphyton and Epipsammon Communities|Aquat. Toxicol.68(4): 351-367|2004|10.1016/j.aquatox.2004.04.002
180288|T||Murray,D.S., W.L. Rieck, and J.Q. Lynd|Microbial Degeneration of Five Substituted Urea Herbicides|Weed Sci.17(1): 52-55|1969|10.1017/S0043174500030885
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180291|T||Matheron,M.E., and J.C. Matejka|In Vitro and Field Comparison of Six New Fungicides with Iprodione and Vinclozolin for Control of Leaf Drop of Lettuce Caused by Sclerotinia sclerotiorum|Plant Dis.73(9): 727-730|1989|10.1094/PD-73-0727
180292|T||Anderson,S.J., H.E. Simmons, and G.P. Munkvold|Real-Time PCR Assay for Detection of Sphacelotheca reiliana Infection in Maize (Zea mays) Seedlings and Evaluation of Seed Treatment Efficacy|Plant Dis.99(12): 1847-1852|2015|10.1094/PDIS-07-14-0776-RE
180293|A||Mengeling,B.J., Y. Wei, L.N. Dobrawa, M. Streekstra, J. Louisse, V. Singh, L. Singh, P.J. Lein, H. Wulff, A.J. Murk, an|A Multi-Tiered, In Vivo, Quantitative Assay Suite for Environmental Disruptors of Thyroid Hormone Signaling|Aquat. Toxicol.190:1-10|2017|10.1016/j.aquatox.2017.06.019
180294|A||Parsons,A., A. Lange, T.H. Hutchinson, S. Miyagawa, T. Iguchi, T. Kudoh, and C.R. Tyler|Molecular Mechanisms and Tissue Targets of Brominated Flame Retardants, BDE-47 and TBBPA, in Embryo-Larval Life Stages of Zebrafish (Danio rerio)|Aquat. Toxicol.209:99-112|2019|10.1016/j.aquatox.2019.01.022
180295|A||Wang,B., H. Wang, D. Xiao, and D. Han|In Vitro Effects of Brominated Flame Retardants, Selected Metals and Their Mixtures on Ethoxyresorufin-O-Deethylase Activity in Mossambica tilapia Liver|Ecotoxicol. Environ. Saf.161:350-355|2018|10.1016/j.ecoenv.2018.05.084
180296|T||Ma,Z., and T.J. Michailides|Characterization of Iprodione-Resistant Alternaria Isolates from Pistachio in California|Pestic. Biochem. Physiol.80(2): 75-84|2004|10.1016/j.pestbp.2004.06.007
180297|T||Mantecon,J.D.|Potato Yield Increases Due to Fungicide Treatment in Argentinian Early Blight (Alternaria solani) and Late Blight (Phytophthora infestans) Field Trials During the 1996-2005 Seasons|Plant Health Prog.8(1): 8 p.|2007|10.1094/PHP-2007-0202-01-RS
180298|T||Phongdara,A., A. Nakkaew, and S. Nualkaew|Isolation of the Detoxification Enzyme EgP450 from an Oil Palm EST Library|Pharm. Biol.50(1): 120-127|2012|10.3109/13880209.2011.631019
180299|T||Snipes,C.E., and T.C. Mueller|Cotton (Gossypium hirsutum) Yield Response to Mechanical and Chemical Weed Control Systems|Weed Sci.40(2): 249-254|1992|10.1017/S0043174500057301
180300|A||Zhang,Y., Y. Li, Z. Qin, H. Wang, and J. Li|A Screening Assay for Thyroid Hormone Signaling Disruption Based on Thyroid Hormone-Response Gene Expression Analysis in the Frog Pelophylax nigromaculatus|J. Environ. Sci.34:143-154|2015|10.1016/j.jes.2015.01.028
180302|T||Brecke,B.J., and D.O. Stephenson IV|Weed Control in Cotton (Gossypium hirsutum) with Postemergence Applications of Trifloxysulfuron-Sodium|Weed Technol.20(2): 377-383|2006|10.1614/WT-05-081R.1
180303|T||Cavanagh,J.B., D.R. Davies, P. Holland, and M. Lancaster|Comparison of the Functional Effects of Dyflos, Tri-o-Cresyl Phosphate and Tri-p-Ethylphenyl Phosphate in Chickens|Br. J. Pharmacol.17:21-27|1961|
180305|T||Cook,R.J., D.M. Weller, A.Y. El-Banna, D. Vakoch, and H. Zhang|Yield Responses of Direct-Seeded Wheat to Rhizobacteria and Fungicide Seed Treatments|Plant Dis.86(7): 780-784|2002|10.1094/PDIS.2002.86.7.780
180306|T||Youssef,B.A., and R. Heitefuss|Side-Effects of Herbicides on Cotton Wilt Caused by Fusarium oxysporum f.sp. Vasinfectum . I. Effect of Herbicides on Fungal Growth and Wilt Incidence of Cotton Plants|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)89(12): 730-736|1982|
180307|T||Filho,E.S., and O.D. Dhingra|Effect of Herbicides on Survival of Macrophomina phaseolina in Soil|Trans. Br. Mycol. Soc.74(1): 61-64|1980|10.1016/S0007-1536(80)80007-6
180308|A||Fini,J.B., S. Le Mevel, K. Palmier, V.M. Darras, I. Punzon, S.J. Richardson, M.S. Clerget-Froidevaux, and B.A. Demeneix|Thyroid Hormone Signaling in the Xenopus laevis Embryo is Functional and Susceptible to Endocrine Disruption|Endocrinology153(10): 5068-5081|2012|10.1210/en.2012-1463
180309|T||Bondy,H.F., E.J. Field, A.N. Worden, and J.P.W. Hughes|A Study on the Acute Toxicity of the Tri-aryl Phosphates Used as Plasticizers|Br. J. Ind. Med.17(3): 190-200|1960|
180310|T||Cavanagh,J.B.|The Toxic Effects of Tri-Ortho-Cresyl Phosphate on the Nervous System. An Experimental Study in Hens|J. Neurol., Neurosurg. Psychiatry17:163-172|1954|10.1136/jnnp.17.3.163
180312|T||Aldridge,W.N., and J.M. Barnes|Neurotoxic and Biochemical Properties of Some Triaryl Phosphates|Biochem. Pharmacol.6:177-188|1961|10.1016/0006-2952(61)90162-9
180313|A||Younis,M.E., M.E.H. Osman, and A.I. Soliman|Fluometuron Induced Growth, Chemical and Photosynthetic Changes in Chlorella vulgaris|Qatar Univ. Sci. Bull.8(0): 85-102|1988|
180314|T||Johnson,M.K.|Structure-Activity Relationships for Substrates and Inhibitors of Hen Brain Neurotoxic Esterase|Biochem. Pharmacol.24:797-805|1975|10.1016/0006-2952(75)90123-9
180315|T||Johnson,M.K., and J.M. Barnes|Age and the Sensitivity of Chicks to the Delayed Neurotoxic Effects of Some Organophosphorus Compounds|Biochem. Pharmacol.19:3045-3047|1970|10.1016/0006-2952(70)90092-4
180316|T||Aldridge,W.N., and J.M. Barnes|Further Observations on the Neurotoxicity of Organophosphorus Compounds|Biochem. Pharmacol.15:541-548|1966|10.1016/0006-2952(66)90020-7
180317|A||Gong,X., L. Pan, J. Miao, and N. Liu|Application of SSH and Quantitative Real Time PCR to Construction of Gene Expression Profiles from Scallop Chlamys farreri in Response to Exposure to Tetrabromobisphenol A|Environ. Toxicol. Pharmacol.34(3): 911-918|2012|10.1016/j.etap.2012.08.006
180318|A||Meng,Y., S. Wang, Z. Wang, N. Ye, and H. Fang|Algal Toxicity of Binary Mixtures of Zinc Oxide Nanoparticles and Tetrabromobisphenol A: Roles of Dissolved Organic Matters|Environ. Toxicol. Pharmacol.64:78-85|2018|10.1016/j.etap.2018.09.010
180319|A||Sharma,P., P. Chadha, and H.S. Saini|Tetrabromobisphenol A Induced Oxidative Stress and Genotoxicity in Fish Channa punctatus|Drug Chem. Toxicol.:1-6|2018|
180320|A||Kusk,K.O., A.M. Christensen, and N. Nyholm|Algal Growth Inhibition Test Results of 425 Organic Chemical Substances|Chemosphere204:405-412|2018|10.1016/j.chemosphere.2018.04.047
180322|T||Ge,H.L., and F.L. Zhang|The Effects of Composite Photosynthetic Bacterial Inoculant PS21 on the Biochemical Characteristics of Wheat Seedlings Under Tetrabromobisphenol A Stress|Biotechnol. Biotechnol. Equip.29(2): 289-298|2015|10.1080/13102818.2014.999298
180323|T||Chen,X., X. Gu, X. Zhao, Y. Wang, Y. Pan, X. Ma, X. Wang, and R. Ji|Species-Dependent Effects of Earthworms on the Fates and Bioavailability of Tetrabromobisphenol A and Cadmium Coexisted in Soils|Sci. Total Environ.658:1416-1422|2019|10.1016/j.scitotenv.2018.12.196
180324|T||Gu,J., Y. Jing, Y. Ma, F. Sun, L. Wang, J. Chen, H. Guo, and R. Ji|Effects of the Earthworm Metaphire guillelmi on the Mineralization, Metabolism, and Bound-Residue Formation of Tetrabromobisphenol A (TBBPA) in Soil|Sci. Total Environ.595:528-536|2017|10.1016/j.scitotenv.2017.03.273
180325|A||Gong,W., L. Zhu, and Y. Hao|Lethal and Sublethal Toxicity Comparison of BFRs to Three Marine Planktonic Copepods: Effects on Survival, Metabolism and Ingestion|PLoS One11(1): 16 p.|2016|
180326|A||Sendra,M., M.G. Pintado-Herrera, G.V. Aguirre-Martinez, I. Moreno-Garrido, L.M. Martin-Diaz, P.A. Lara-Martin, and J. B|"Are the TiO2 NPs a ""Trojan Horse"" for Personal Care Products (PCPs) in the Clam Ruditapes philippinarum?"|Chemosphere185:192-204|2017|10.1016/j.chemosphere.2017.07.009
180327|T||Kabissa,J.C.B.|Studies on the Performance of the 'Electrodyn' on Cotton in Eastern Tanzania|Crop Prot.10(5): 354-356|1991|10.1016/S0261-2194(06)80023-2
180328|A||Mansy,A.E.R., and E. El-Bestawy|Toxicity and Biodegradation of Fluometuron by Selected Cyanobacterial Species|World J. Microbiol. Biotechnol.18(2): 125-131|2002|10.1023/A:1014490811121
180329|T||Christian,F.A., and T.M. Tate|Effects of Fluometuron on Embryonic Development and Hatching of Fasciola hepatica's Miracidia|Bull. Environ. Contam. Toxicol.28:353-357|1982|10.1007/BF01608520
180330|T||Zablotowicz,R.M., M.A. Locke, and L.A. Gaston|Tillage and Cover Effects on Soil Microbial Properties and Fluometuron Degradation|Biol. Fertil. Soils44(1): 27-35|2007|10.1007/s00374-007-0175-0
180331|A||Carlsson,G., J. Pohl, I. Athanassiadis, L. Norrgren, and J. Weiss|Thyroid Disruption Properties of Three Indoor Dust Chemicals Tested in Silurana tropicalis Tadpoles|J. Appl. Toxicol.:1-9|2019|
180332|A||Linhartova,P., I. Gazo, A. Shaliutina-Kolesova, M. Hulak, and V. Kaspar|Effects of Tetrabrombisphenol A on DNA Integrity, Oxidative Stress, and Sterlet (Acipenser ruthenus) Spermatozoa Quality Variables|Environ. Toxicol.30(7): 735-745|2015|10.1002/tox.21953
180333|T||Xue,Y., X. Gu, X. Wang, C. Sun, X. Xu, J. Sun, and B. Zhang|The Hydroxyl Radical Generation and Oxidative Stress for the Earthworm Eisenia fetida Exposed to Tetrabromobisphenol A|Ecotoxicology18(6): 693-699|2009|10.1007/s10646-009-0333-2
180334|T||Elad,Y.|Reduced Sensitivity of Botrytis cinerea to Two Sterol Biosynthesis-Inhibiting Fungicides: Fenetrazole and Fenethanil|Plant Pathol.41:47-54|1992|10.1111/j.1365-3059.1992.tb02315.x
180335|A||Springborn Bionomics Inc.|Acute Toxicity of Thirteen Phthalate Esters to the Sheepshead Minnow (Cyprinodon variegatus)|Final Report No BP-84-2-14, EPA/OTS 40-8426151:51 p.|1984|
180336|A||E.G. and G. Bionomics|Acute Toxicity of Fourteen Phthalate Esters to Fathead Minnows|Final Report BW-83-3-1374, EPA/OTS 40-8326129:42 p.|1983|
180338|A||Springborn Bionomics Inc.|Acute Toxicity of Fourteen Phthalate Esters to Daphnia magna (Final Report) Report No BW-84-4-1567|EPA/OTS 40-8426150:54 p.|1984|
180339|T||San Miguel,A., P. Ravanel, and M. Raveton|A Comparative Study on the Uptake and Translocation of Organochlorines by Phragmites australis|J. Hazard. Mater.244-245:60-69|2013|10.1016/j.jhazmat.2012.11.025
180341|A||Felline,S., L. Del Coco, S. Kaleb, G. Guarnieri, S. Fraschetti, A. Terlizzi, F.P. Fanizzi, and A. Falace|The Response of the Algae Fucus virsoides (Fucales, Ochrophyta) to Roundup Solution Exposure: A Metabolomics Approach|Environ. Pollut.254(112977): 11 p.|2019|
180342|A||Daam,M.A., M.F. Moutinho, E.L.G. Espindola, and L. Schiesari|Lethal Toxicity of the Herbicides Acetochlor, Ametryn, Glyphosate and Metribuzin to Tropical Frog Larvae|Ecotoxicology28(6): 707-715|2019|10.1007/s10646-019-02067-5
180343|A||Yang,X., Y. Song, C. Zhang, Y. Pang, X. Song, M. Wu, and Y. Cheng|Effects of the Glyphosate-Based Herbicide Roundup on the Survival, Immune Response, Digestive Activities and Gut Microbiota of the Chinese Mitten Crab, Eriocheir sinensis|Aquat. Toxicol.214(105243): 7 p.|2019|
180344|A||Erkmen,B., A.C.K. Benli, H.H. Agus, Z. Yildirim, R. Mert, and F. Erkoc|Impact of Sublethal Di-N-Butyl Phthalate on the Aquaculture Fish Species Nile Tilapia (Oreochromis niloticus): Histopathology and Oxidative Stress Assessment|Aquac. Res.48(2): 675-685|2017|10.1111/are.12914
180345|A||Arancio,A.L., K.D. Cole, A.R. Dominguez, E.R. Cohenour, J. Kadie, W.C. Maloney, C. Cilliers, and S.M. Schuh|Bisphenol A, Bisphenol AF, Di-n-Butyl Phthalate, and 17beta-Estradiol have Shared and Unique Dose-Dependent Effects on Early Embryo Cleavage Divisions and Development in Xenopus laevis|Reprod. Toxicol.84:65-74|2019|10.1016/j.reprotox.2018.12.005
180346|T||Xu,Q.M., J.S. Cheng, Z.Q. Ge, and Y.J. Yuan|Effects of Organic Solvents on Membrane of Taxus cuspidata Cells in Two-Liquid-Phase Culture|Plant Cell Tissue Organ Cult.79(1): 63-69|2004|10.1007/s11240-004-4709-y
180347|T||Ma,T., L. Chen, L. Wu, H. Zhang, and Y. Luo|Oxidative Stress, Cytotoxicity and Genotoxicity in Earthworm Eisenia fetida at Different Di-n-Butyl Phthalate Exposure Levels|PLoS One11(3): 11 p.|2016|
180348|A||Agus,H.H., B. Erkmen, S. Sumer, A. Sepici-Dincel, and F. Erkoc|Impact of DBP on Histology and Expression of HSP 70 in Gill and Liver Tissue of Cyprinus carpio|Mol. Biol. Rep.42(9): 1409-1417|2015|10.1007/s11033-015-3920-8
180349|T||Kulkarni,S.M.|Laboratory Evaluation of Some Repellents Against Larval Trombiculid Mites|J. Med. Entomol.14(1): 64-70|1977|10.1093/jmedent/14.1.64
180350|T||Kapanen,A., J.R. Stephen, J. Bruggemann, A. Kiviranta, D.C. White, and M. Itavaara|Diethyl Phthalate in Compost: Ecotoxicological Effects and Response of the Microbial Community|Chemosphere67(11): 2201-2209|2007|10.1016/j.chemosphere.2006.12.023
180351|A||Ehiguese,F.O., M.D.C. Fernandez, P.A. Lara-Martin, M.L. Martin-Diaz, and C.V.M. Araujo|Avoidance Behaviour of the Shrimp Palaemon varians Regarding a Contaminant Gradient of Galaxolide and Tonalide in Seawater|Chemosphere232:113-120|2019|10.1016/j.chemosphere.2019.05.196
180353|A||Van Wezel,A.P., D.A.M. De Vries, D.T.H.M. Sijm, and A. Opperhuizen|Use of Lethal Body Burden in the Evaluation of Mixture Toxicity|Ecotoxicol. Environ. Saf.35:236-241|1996|10.1006/eesa.1996.0105
180354|T||DeRuiter,H.|Control of Psychoda Flies|Water Sewage Works107(6): 211-213|1960|
180355|T||Liu,Y.T., G.D. Lian, D.W. Yin, and B.J. Su|Synthesis, Characterization and Biological Activity of Ferrocene-Based Schiff Base Ligands and Their Metal (II) Complexes|Spectrochim. Acta Part A100:131-137|2013|10.1016/j.saa.2012.03.049
180356|T||Evola,S.V.|Chlorate-Resistant Variants of Nicotiana tabacum L. II. Parasexual Genetic Characterization|Mol. Gen. Genet.189:455-457|1983|10.1007/BF00325908
180357|T||Batth,S.S.|Influence of Temperature on the Effectiveness of Paradichlorobenzene Fumigation of Webbing Clothes Moth Larvae|J. Econ. Entomol.64(4): 989-990|1971|10.1093/jee/64.4.989
180359|A||Zimmerman,L.L., R.J. Neves, and D.G. Smith|Control of Predacious Flatworms Macrostomum sp. in Culturing Juvenile Freshwater Mussels|N. Am. J. Aquacult.65:28-32|2003|10.1577/1548-8454(2003)065<0028:COPFMS>2.0.CO;2
180360|T||Trindle,B.D., L.D. Lewis, and L.H. Lauerman|Techniques for Evaluating Humoral and Cell-Mediated Immunity in Mule Deer Fawns (Odocoileus hemionus)|J. Wildl. Dis.15(1): 25-31|1979|10.7589/0090-3558-15.1.25
180361|T||Batth,S.S.|Evaluation of Vinyl Garment Bags as Chambers for Paradichlorobenzene Fumigation of Fabric-Insect Pests|J. Econ. Entomol.65(4): 1074-1080|1972|10.1093/jee/65.4.1074
180362|T||Evola,S.V.|Chlorate-Resistant Variants of Nicotiana tabacum L. I. Selection In Vitro and Phenotypic Characterization of Cell Lines and Regenerated Plants|Mol. Gen. Genet.189:447-454|1983|10.1007/BF00325907
180363|T||Graves,D.H., and J.M. Ringe|European Black Alder Survival and Growth Responses to Herbicide Treatment on an Eastern Kentucky Vegetated Coal Surface Mine Excess Spoil Area After Three and Eight Years|Int. J. Surface Mining Reclam. Environ.7(1): 37-40|1993|10.1080/09208119308964682
180364|T||Lawson,H.M., and J.S. Wiseman|Evaluation of Crop Tolerance to Napropamide Applied as a Late Winter Treatment in Strawberry and Raspberry Plantations|Crop Prot. North. Britain:389-393|1987|
180365|T||Dixon,F.L., and D.V. Clay|Tolerance to Herbicides of Broad-Leaf Trees Grown from Seed Treated with Animal Repellents|Tests Agrochem. Cultiv.:16-17|2005|
180366|T||South,D.B., and W.D. Kelley|The Effect of Selected Pesticides on Short-Root Development of Greenhouse-Grown Pinus taeda Seedlings|Can. J. For. Res.12(1): 29-35|1982|10.1139/x82-004
180367|T||Whitwell,J.D., and D. Senior|Summer Cabbage - Evaluation of New Herbicide Programmes for Field Drilled Crops|Crop Prot. North. Britain:411-415|1987|
180368|T||Barrett,M.|Responses of Susceptible and Resistant Species to Napropamide|Proc. Calif. Weed Conf.:25-29|1979|
180369|T||Roy,S., A.K. Chakraborty, S. Juliet, S. Das, T.K. Mandal, T.K. Ghosh, D.K. Basak, and R. Duttagupta|Short Term Oral Toxicity Study of Napropamide in Growing Broiler Chicks|Indian J. Anim. Sci.73(6): 603-606|2003|
180373|A||Chemical Manufacturers Association|Acute Toxicity of Twelve Phthalate Esters to Paratanytarsus parthenogenica (Final Report) Report No BW-83-6-1424|EPA/OTS 40-8426146:41 p.|2000|
180374|A||Chemical Manufacturers Association|Exhibit III: Acute Toxicity of Thirteen Phthalate Esters to Bluegill (Lepomis macrochirus)|Final Report BW-83-3-1374, EPA/OTS 40-8326129:43 p.|2000|
180375|T||Wilkins,P.|Perfluorooctanesulfonate, Potassium Salt (PFOS): An Acute Oral Toxicity Study with the Honey Bee|Study HT5602, Environmental Biology Group, Central Science Laboratory, York, UK:38 p.|2001|
180376|A||Swift,M.C., K.W. Cummins, and R.A. Smucker|Effects of Dimilin on Stream Leaf-Litter Processing Rates|Verh. Int. Ver. Theor. Angew. Limnol.23:1255-1260|1988|
180378|T||Bing,A., A.F. Senesac, and M. Macksel|The Effect on Corm Yield of a Planting of Four Varieties of Gladiolus Cormels by Postemergence Applications of Fluazifop-Butyl or Sethoxydim and Preemergence Applications of Napropamide and Oryzalin|Proc. Annu. Meet. Northeast. Weed Sci. Soc.40:254-258|1986|
180379|T||Grenoble,D.W., and P.A. Ferretti|Weed Control for Cabbage, Cauliflower, and Broccoli Using Alachlor and Napropamide|Proc. Annu. Meet. Northeast. Weed Sci. Soc.:175-176|1981|
180380|T||Barney,D.L., and T.L. Finnerty|A Comparison of Raspberry Weed Control Methods|J. Small Fruit Viticult.2(2): 21-29|1994|10.1300/J065v02n02_04
180381|T||Ricotta,J.A., and J.B. Masiunas|The Effects of Black Plastic Mulch and Weed Control Strategies on Herb Yield|Hortscience26(5): 539-541|1991|10.21273/HORTSCI.26.5.539
180382|T||Willoughby,I., F.L. Dixon, D.V. Clay, and R.L. Jinks|Tolerance of Broadleaved Tree and Shrub Seedlings to Preemergence Herbicides|New For. 34(1): 1-12|2007|10.1007/s11056-006-9031-6
180383|A||Cocci,P., G. Mosconi, A. Arukwe, M. Mozzicafreddo, M. Angeletti, G. Aretusi, and F.A. Palermo|Effects of Diisodecyl Phthalate on PPAR:RXR-Dependent Gene Expression Pathways in Sea Bream Hepatocytes|Chem. Res. Toxicol.28(5): 935-947|2015|10.1021/tx500529x
180384|T||Lanini,W.T., E. Roncoroni, M. Battista, R. Carner, and C. Fernandez|Comparison of Additives on Glyphosate Suppression of Winter Weeds|Proc. West. Soc. Weed Sci.51:85-86|1998|
180385|T||Devlin,R.M., J. Karczmarczyk, and I. Zbiec|Stimulation of Plant Growth by Low Concentration of Napropamide|Plant Growth Regul.1(2): 113-117|1982|10.1007/BF00024504
180386|T||Sumaryono, and G. Crabtree|Differential Tolerance of Woody Nursery Crop Seedlings to Napropamide|Weed Technol.3(4): 584-589|1989|10.1017/S0890037X00032851
180387|A||Cocci,P., M. Capriotti, G. Mosconi, and F.A. Palermo|Effects of Endocrine Disrupting Chemicals on Estrogen Receptor Alpha and Heat Shock Protein 60 Gene Expression in Primary Cultures of Loggerhead Sea Turtle (Caretta caretta) Erythrocytes|Environ. Res.158:616-624|2017|10.1016/j.envres.2017.07.024
180388|A||Yurdakok-Dikmen,B., P. Arslan, O. Kuzukiran, A. Filazi, and F. Erkoc|Unio sp. Primary Cell Culture Potential in Ecotoxicology Research|Toxin Rev.37(1): 75-81|2018|10.1080/15569543.2017.1331360
180390|T||Trappe,J.M.|Effects of the Herbicides Bifenox, DCPA, and Napropamide on Mycorrhiza Development of Ponderosa Pine and Douglas-Fir Seedlings in Six Western Nurseries|For. Sci.29(3): 464-468|1983|
180391|A||AFEAS|The Toxicity of Sodium Trifluoroacetate to the Freshwater Alga Chlamydomonas reinhardtii, with Cover Letter Dated 10/8/96|EPA/OTS 86970000015:20 p.|1996|
180392|T||Kurtz,M.E., A.W. Cole, and M.L. Salin|Some Metabolic Responses of Rhizoctonia solani to Napropamide|Weed Sci.30(5): 491-494|1982|10.1017/S0043174500041035
180393|T||Harvey,A.E., R.A. Ryker, and M.F. Jurgensen|Effects of Bifenox, DCPA, and Napropamide on Ectomycorrhizal Development of Conifer Seedlings in Central and Northern Rocky Mountain Nurseries|USDA For. Serv. Res. Pap. INT341:7 p.|1985|
180394|A||AFEAS|The Toxicity of Sodium Trifluoroacetate to the Marine Alga Dunaliella tertiolecta, with Cover Letter Dated 10/8/96|EPA/OTS 86970000013:21 p.|1996|
180395|A||AFEAS|The Toxicity of Sodium Trifluoroacetate to the Freshwater Alga Euglena gracilis, with Cover Letter Dated 10/8/96|EPA/OTS 86970000012:20 p.|1996|
180396|A||AFEAS|The Toxicity of Sodium Trifluoroacetate to the Alga Microcystis aeruginosa, with Cover Letter Dated 10/8/96|EPA/OTS 86970000011:20 p.|1996|
180397|T||Villegas,L.|Non-Electrolyte Diffusion Across the Frog Gastric Mucosa Under Osmotic Gradients|Biochim. Biophys. Acta - Biomembr.735(1): 35-39|1983|10.1016/0005-2736(83)90258-4
180398|T||AFEAS|Trifluoroacetic Acid - Characterisation of Accumulated Residues in Leaf Tissue of Sunflower (Helianthus annuus), with Cover Letter Dated 8/14/96|EPA/OTS 86960000584:17 p.|1996|
180399|T||Robak,J., and A. Dobrzanski|The Control of Club-Root (Plasmodiophora brassicae Wor.) on Cabbage Seedlings with Trifluralin and Napropamid Herbicides|Acta Agrobot. (Multiple Languages)31(1/2): 151-157|1978|
180400|T||AFEAS|Sodium Trifluoroacetate: Toxicity to Wheat (Triticum aestivum) in Relation to Bioaccumulation (by Aqueous Exposure of the Roots) with Cover Letter Dated 12/28/95|EPA/OTS 86960000249:31 p.|1996|
180401|A||Cocci,P., G. Mosconi, and F.A. Palermo|Changes in Expression of MicroRNA Potentially Targeting Key Regulators of Lipid Metabolism in Primary Gilthead Sea Bream Hepatocytes Exposed to Phthalates or Flame Retardants|Aquat. Toxicol.209:81-90|2019|10.1016/j.aquatox.2019.02.002
180402|A||Wu,X., H. Wu, S. Wang, Y. Wang, R. Zhang, X. Hu, and J. Ye|Effect of Propionamide on the Growth of Microcystis flos-aquae Colonies and the Underlying Physiological Mechanisms|Sci. Total Environ.630:526-535|2018|10.1016/j.scitotenv.2018.02.217
180403|T||Schmidt-Jeffris,R.A., and M.A. Cutulle|Non-Target Effects of Herbicides on Tetranychus urticae and Its Predator, Phytoseiulus persimilis: Implications for Biological Control|Pest Manag. Sci.10:9 p.|2019|
180404|T||AFEAS|Sodium Trifluoroacetate: Toxicity to Plantago major, by Aqueous Exposure of the Roots with Cover Letter Dated 12/28/95|EPA/OTS 86960000248:16 p.|1996|
180405|T||AFEAS|Sodium Trifluoroacetae: Effects on Seed Germination (Ten Species, by Aqueous Exposure) with Cover Letter Dated 05/12/95|EPA/OTS 86950000253:22 p.|1995|
180406|A||AFEAS|Sodium Trifluoroacetate: Toxicity to the Blue-Green Alga, Anabaena flos-aquae, and to the Freshwater Diatom, Navicula pelliculosa, with Cover Letter Dated 06/27/94|EPA/OTS 86940001162:50 p.|1994|
180407|A||Monsanto Co.|Acute Toxicity of Triphenyl Phosphate (Bn-78-138405-3) to Mysid Shrimp (Mysidopsis bahia)|EPA/OTS 878211830:9 p.|1983|
180408|T||Fukuto,T.R., and R.L. Metcalf|Structure and Insecticidal Activity of Some Diethyl Substituted Phenyl Phosphates|J. Agric. Food Chem.4(11): 930-935|1956|10.1021/jf60069a001
180409|A||Serra,H., M. Scholze, R. Altenburger, W. Busch, H. Budzinski, F. Brion, and S. Ait-Aissa|Combined Effects of Environmental Xeno-Estrogens Within Multi-Component Mixtures: Comparison of In Vitro Human- and Zebrafish-Based Estrogenicity Bioassays|Chemosphere227:334-344|2019|10.1016/j.chemosphere.2019.04.060
180410|T||Cheng,S., R. Lin, L. Wang, Q. Qiu, M. Qu, X. Ren, F. Zong, H. Jiang, and C. Yu|Comparative Susceptibility of Thirteen Selected Pesticides to Three Different Insect Egg Parasitoid Trichogramma Species|Ecotoxicol. Environ. Saf.166:86-91|2018|10.1016/j.ecoenv.2018.09.050
180411|T||South,D., R.H. Crowley, and D.H. Gjerstad|Herbicide Weed Control Results in Pine Seedbeds|In: Proceedings of 1976 Southeastern Area Nurserymen's Conference. USDA Forest Service, Charleston, SC:95-106|1976|
180412|A||AFEAS|Sodium Trifluoroacetate: Toxicity to the Duckweed (Lemma gibba) with Cover Letter Dated 03/24/94|EPA/OTS 86940000222:28 p.|1994|
180413|T||AFEAS|Sodium Trifluoroacetate: Determination of Its Effect in Soil on Seed Germination and Early Plant Growth of Sunflower and Mung Bean with Cover Letter Dated 03/24/94|EPA/OTS 86940000221:26 p.|1994|
180414|A||Wang,J., X. Shi, Y. Du, and B. Zhou|Effects of Xenoestrogens on the Expression of Vitellogenin (vtg) and Cytochrome P450 Aromatase (cyp19a and b) Genes in Zebrafish (Danio rerio) Larvae|Toxics46(9): 960-967|2011|
180415|A||Jiang,S., J. Miao, X. Wang, P. Liu, and L. Pan|Inhibition of Growth in Juvenile Manila Clam Ruditapes philippinarum: Potential Adverse Outcome Pathway of TBBPA|Chemosphere224:588-596|2019|10.1016/j.chemosphere.2019.02.157
180416|A||Carlsson,G., and L. Norrgren|Comparison of Embryo Toxicity Using Two Classes of Aquatic Vertebrates|Environ. Toxicol. Pharmacol.37:24-27|2014|10.1016/j.etap.2013.10.015
180417|T||Eng,M.L., T.D. Williams, K.J. Fernie, N.K.K. Renier, P.F.P. Henry, R.J. Letcher, and J.E. Elliott|In Ovo Exposure to Brominated Flame Retardants Part I: Assessment of Effects of TBBPA-BDBPE on Survival, Morphometric and Physiological Endpoints in Zebra Finches|Ecotoxicol. Environ. Saf.179:104-110|2019|10.1016/j.ecoenv.2019.04.048
180418|T||Eng,M.L., N.K. Karouna-Renier, P.F.P. Henry, R.J. Letcher, S.L. Schultz, T.G. Bean, L.E. Peters, V.P. Palace, T.D. Will|In Ovo Exposure to Brominated Flame Retardants Part II: Assessment of Effects of TBBPA-BDBPE and BTBPE on Hatching Success, Morphometric and Physiological Endpoints in American Kestrels|Ecotoxicol. Environ. Saf.179:151-159|2019|10.1016/j.ecoenv.2019.04.047
180419|T||Saul,N., N. Baberschke, S. Chakrabarti, S.R. Sturzenbaum, T. Lieke, R. Menzel, A. Jonas, and C.E.W. Steinberg|Two Organobromines Trigger Lifespan, Growth, Reproductive and Transcriptional Changes in Caenorhabditis elegans|Environ. Sci. Pollut. Res.21(17): 10419-10431|2014|10.1007/s11356-014-2932-6
180420|A||Li,L., F. Bonneton, M. Tohme, L. Bernard, X.Y. Chen, and V. Laudet|In Vivo Screening Using Transgenic Zebrafish Embryos Reveals New Effects of HDAC Inhibitors Trichostatin A and Valproic Acid on Organogenesis|PLoS One11(2): 21 p.|2016|
180421|A||Desjardins,D., C.A. Sutherland, R. VanHoven, and H.O. Krueger|PFOS: A 7-Day Toxicity Test with Duckweed (Lemna gibba G3) Final Report|Project 454A-111, Wildlife International Ltd., Easton, MD:47 p.|2001|
180422|A||Huang,Q., Y. Chen, L. Lin, Y. Liu, Y. Chi, Y. Lin, G. Ye, H. Zhu, and S. Dong|Different Effects of Bisphenol A and Its Halogenated Derivatives on the Reproduction and Development of Oryzias melastigma Under Environmentally Relevant Doses|Sci. Total Environ.595:752-758|2017|10.1016/j.scitotenv.2017.03.263
180423|A||Drottar,K.R., and H.O. Krueger|PFOS: A 96-Hour Static Acute Toxicity Test with the Fathead Minnow (Pimephales promelas)|Project 454A-102, Wildlife International Ltd., Easton, MD:58 p.|2000|
180424|A||Hu,F., L. Pan, Y. Cai, T. Liu, and Q. Jin|Deep Sequencing of the Scallop Chlamys farreri Transcriptome Response to Tetrabromobisphenol A (TBBPA) Stress|Mar. Genomics19:31-38|2015|10.1016/j.margen.2014.09.004
180425|A||Kuiper,R.V., S. Kimpfler, and G.C.M. Grinwis|Case Report: Epitheliotropic Lymphoma in a Zebrafish (Danio rerio)|Tijdschr. Diergeneeskd. (Multiple Languages)134(24): 1018-1020|2009|
180426|A||AFEAS|The Toxicity of Sodium Trifluoroacetate to the Marine Alga Phaeodactylum tricornutum, with Cover Letter Dated 10/8/96|EPA/OTS 86970000014:20 p.|1996|
180429|T||Cline,W.O.|Blueberry Bud Set and Yield Following the Use of Fungicides for Leaf Spot Control in North Carolina|Acta Hortic.574:71-74|2002|10.17660/ActaHortic.2002.574.7
180432|T||Du Rieu,A.G., R.J. Burke, and A. Murray|Effectiveness of a Novel Propiconazole/Fenbuconazole Mixture for the Control of Septoria spp and Puccinia spp in Wheat|Br. Crop Prot. Conf. Pests Dis.1-3:319-324|1994|
180433|A||Great Lakes Chemical Corp.|Acute Toxicity of FMBP4A (Tetrabromobisphenol A) to the Bluegill Sunfish, Lepomis macrochirus rafinesque|EPA/OTS 878216107:10 p.|1985|
180434|A||Great Lakes Chemical Corp.|Acute Toxicity of FMBP4A (Tetrabromobisphenol A) to the Rainbow Trout, Salmo gairdneri Richardson|EPA/OTS 878216108:10 p.|1985|
180435|T||Sunderland,M.R., R.H. Cruickshank, and S.J. Leighs|The Efficacy of Antifungal Azole and Antiprotozoal Compounds in Protection of Wool from Keratin-Digesting Insect Larvae|Tex. Res. J.84(9): 924-931|2014|10.1177/0040517513515312
180436|A||Great Lakes Chemical Corp.|Acute Toxicity of FMBP4A (Tetrabromobisphenol A) to the Water Flea Daphnia magna Straus|EPA/OTS 878216112:11 p.|1985|
180437|A||Great Lakes Chemical Corp.|Bioaccumulation of Tetrabromobisphenol in the Bluegill Sunfish|EPA/OTS 878216119:12 p.|1985|
180439|T||Waples,J.G., and P. Payne|EM 1503: A Broad-Spectrum Cereal Fungicide|Br. Crop Prot. Conf. Pests Dis.1-3:257-262|1996|
180440|A||Cytec Industries|Tetrabromobisphenol A: Report of Analytical Results - CAM Bioassay Screen in Pimephales promelas and Fathead Minnows with Cover Letter Dated 122292|EPA/OTS 86-930000091:5 p.|1992|
180441|AT||Lassalle,Y., E. Nicol, C. Genty, S. Bourcier, and S. Bouchonnet|Isomerization of Fenbuconazole Under UV-Visible Irradiation - Chemical and Toxicological Approaches|Rapid Commun. Mass Spectrom.29(14): 1335-1342|2015|10.1002/rcm.7227
180442|A||Springborn Laboratories Inc.|The Subchronic Toxicity of Sediment-Sorbed Tetrabromobisphenol A to Chironomus tentans Under Flow-Through Conditions (Final Report) with Cover Sheet and Letter Dated 101689|EPA/OTS Doc.#40-8998109:102 p.|1989|
180443|T||Gaurilcikiene,I.|Effect of Seed Treatment on Seed and Seedling Health of Spring Triticale|Trans. Estonian Agric. Univ.209:35-37|2000|
180444|A||Great Lakes Chemical Corp.|Acute Toxicity of Tetrabromobisphenol A to Eastern Oysters (Crassostrea virginica) Under Flow-Through Conditions with Cover Letters Dated 021489 and 021789|EPA/OTS 40-8998102:65 p.|1989|
180445|T||Driant,D., L. Hede-Hauy, A. Perrot, J.A. Quinn, and S.H. Shaber|RH-7592, a New Triazole Fungicide with High Specific Activity on Cereals and Other Crops|Br. Crop Prot. Conf. Pests Dis.1-3:33-40|1988|
180447|A||Great Lakes Chemical Corp.|The Chronic Toxicity of Tetrabromobisphenol A to Daphnia magna Under Flow-Through Conditions (Final Report) with Cover Letter Dated 081989|EPA/OTS 40-8998117:60 p.|1989|
180448|T||Mou,Y., D. Xu, Z. Mao, X. Dong, F. Lin, A. Wang, D. Lai, L. Zhou, and B. Xie|Enhancement of Palmarumycin C12 and C13 Production by the Endophytic Fungus Berkleasmium sp. Dzf12 in an Aqueous-Organic Solvent System|Molecules20(11): 20320-20333|2015|10.3390/molecules201119700
180449|T||Barbon,A.R., A. Routh, and J. Lopez|Inhalatory Isoflurane Anesthesia in Mountain Chicken Frogs (Leptodactylus fallax)|J. Zoo Wildl. Med.50(2): 453-456|2019|10.1638/2018-0138
180451|A||Great Lakes Chemical Corp.|Bioconcentration and Elimination of C-Residues by Eastern Oysters (Crassostrea virginica) Exposed to Tetrabromobisphenol A (Final Report) with Attached Studies & Letter 081889|EPA/OTS 40-8998118:139 p.|1989|
180452|T||Williams,M.J., L. Wiemerslage, P. Gohel, S. Kheder, L.V. Kothegala, and H.B. Schioth|Dibutyl Phthalate Exposure Disrupts Evolutionarily Conserved Insulin and Glucagon-Like Signaling in Drosophila Males|Endocrinology157(6): 2309-2321|2016|10.1210/en.2015-2006
180455|T||DeBoer,G.J., P. Nott, and G.M. Kemmitt|Use of Uptake Spraying Oil to Improve Fungicidal Activity of the Triazole Fungicide Fenbuconazole on Puccinia triticina and Puccinia striiformis Rusts of Wheat|Plant Health Prog.14(1): 9 p.|2013|10.1094/PHP-2013-0528-01-RS
180456|T||Schnabel,G., D. Fernandez-Ortuno, W.C. Bridges, and S.B. Hudson|Multiyear Evaluation of an Orange Peel Oil-Based Spray Additive for Managing Insect Pests and Brown Rot of Nectarine|Plant Health Prog.13(1): 8 p.|2012|10.1094/PHP-2012-0617-01-RS
180457|A||Great Lakes Chemical Corp.|Acute Toxicity of Tetrabromobisphenol A to Fathead Minnow (Pimephales promelas) Under Flow-Through Conditions with Attachments and Cover Letter Dated 111788|EPA/OTS 40-8898095:85 p.|2000|
180458|A||Gong,W.J., L.Y. Zhu, T.T. Jiang, and C. Han|The Occurrence and Spatial-Temporal Distribution of Tetrabromobisphenol A in the Coastal Intertidal Zone of Qingdao in China, with a Focus on Toxicity Assessment by Biological Monitoring|Chemosphere185:462-467|2017|10.1016/j.chemosphere.2017.07.033
180459|T||Wells,L.D., R.S. Perry, and P.S. Mcmanus|Fungicide Efficacy and Specificity Toward Fungi in the Cranberry Fruit Rot Disease Complex|Plant Health Prog.15(1): 31-35|2014|10.1094/PHP-RS-13-0024
180460|T||Dogan,M., M. Korkunc, and O. Yumrutas|Effects of Bisphenol A and Tetrabromobisphenol A on Bread and Durum Wheat Varieties|Ekoloji21(85): 114-122|2012|10.5053/ekoloji.2012.8513
180461|T||Thomas-Sharma,S., and H. Scherm|Pre- and Post-Anthesis Activity of Fenbuconazole and Triforine Against Blueberry Flower Infection by Monilinia vaccinii-corymbosi|Crop Prot.96:180-187|2017|10.1016/j.cropro.2017.02.016
180462|T||Bushong,P.M., and L.W. Timmer|Evaluation of Postinfection Control of Citrus Scab and Melanose with Benomyl, Fenbuconazole, and Azoxystrobin|Plant Dis.84(11): 1246-1249|2000|10.1094/PDIS.2000.84.11.1246
180463|A||Sazawa,K., Y. Furuhashi, N. Hata, S. Taguchi, M. Fukushima, and H. Kuramitz|Evaluation of the Toxicity of Tetrabromobisphenol A and Some of Its Oxidation Products Using a Micro-Scale Algal Growth Inhibition Test |Toxicol. Environ. Chem.95(3): 472-482|2013|10.1080/02772248.2013.775290
180464|T||Mondal,S.N., and L.W. Timmer|Relationship of the Severity of Citrus Greasy Spot, Caused by Mycosphaerella citri, to Ascospore Dose, Epiphytic Growth, Leaf Age, and Fungicide Timing|Plant Dis.90(2): 220-224|2006|10.1094/PD-90-0220
180465|A||Baumann,L., H. Segner, A. Ros, D. Knapen, and L. Vergauwen|Thyroid Hormone Disruptors Interfere with Molecular Pathways of Eye Development and Function in Zebrafish|Int. J. Mol. Sci.20(7): 17 p.|2019|10.3390/ijms20071543
180466|T||Markell,S., B.G. Schatz, S. Halley, J. Schaefer, T. Gulya, F. Mathew, J. Jordahl, and S. Meyer|Evaluation of Fungicides and Fungicide Timing on Control of Sunflower Rust (Puccinia helianthi) at Three Locations in North Dakota in 2008|N. D. Agric. Exp. Stn. Bull.:9 p.|2009|
180467|AT||Gottardi,M., J.D. Tyzack, A. Bender, and N. Cedergreen|Can the Inhibition of Cytochrome P450 in Aquatic Invertebrates Due to Azole Fungicides be Estimated with In Silico and In Vitro Models and Extrapolated Between Species?|Aquat. Toxicol.201:11-20|2018|10.1016/j.aquatox.2018.05.017
180468|T||Turkoglu,S.|Determination of Genotoxic Effects of Chlorfenvinphos and Fenbuconazole in Allium cepa Root Cells by Mitotic Activity, Chromosome Aberration, DNA Content, and Comet Assay|Pestic. Biochem. Physiol.103(3): 224-230|2012|10.1016/j.pestbp.2012.06.001
180469|A||Wu,Y., Q. Yang, M. Chen, Y. Zhang, Z. Zuo, and C. Wang|Fenbuconazole Exposure Impacts the Development of Zebrafish Embryos|Ecotoxicol. Environ. Saf.158:293-299|2018|10.1016/j.ecoenv.2018.04.048
180470|A||Santangeli,S., F. Maradonna, M. Zanardini, V. Notarstefano, G. Gioacchini, I. Forner-Piquer, H. Habibi, and O. Carneval|Effects of Diisononyl Phthalate on Danio rerio Reproduction|Environ. Pollut.231:1051-1062|2017|10.1016/j.envpol.2017.08.060
180471|A||Forner-Piquer,I., S. Santangeli, F. Maradonna, A. Rabbito, F. Piscitelli, H.R. Habibi, V. Di Marzo, and O. Carnevali|Disruption of the Gonadal Endocannabinoid System in Zebrafish Exposed to Diisononyl Phthalate|Environ. Pollut.241:1-8|2018|10.1016/j.envpol.2018.05.007
180472|T||Hirase,K., M. Nishida, and T. Shinmi|Effects of Lodging of Echinochloa crus-galli L. on the Herbicidal Efficacy of MTB-951, a Mycoherbicide Using Drechslera monoceras (Drechsler) Subram. Et Jain (= Exserohilum monoceras [Drechsler] Leonard Et Suggs)|Weed Biol. Manag.6(1): 30-34|2006|10.1111/j.1445-6664.2006.00191.x
180473|A||Carnevali,O., M. Santobuono, I. Forner-Piquer, B. Randazzo, C.C. Mylonas, D. Ancillai, E. Giorgini, and F. Maradonna|Dietary Diisononylphthalate Contamination Induces Hepatic Stress: A Multidisciplinary Investigation in Gilthead Seabream (Sparus aurata) Liver|Arch. Toxicol.93(8): 2361-2373|2019|10.1007/s00204-019-02494-7
180474|A||Forner-Piquer,I., F. Maradonna, G. Gioacchini, S. Santangeli, M. Allara, F. Piscitelli, H.R. Habibi, V. Di Marzo, and O|Dose-Specific Effects of Di-Isononyl Phthalate on the Endocannabinoid System and on Liver of Female Zebrafish|Endocrinology158(10): 3462-3476|2017|10.1210/en.2017-00458
180475|A||Forner-Piquer,I., C.C. Mylonas, J. Calduch-Giner, F. Maradonna, G. Gioacchini, M. Allara, F. Piscitelli, V. Di Marzo, J|Endocrine Disruptors in the Diet of Male Sparus aurata: Modulation of the Endocannabinoid System at the Hepatic and Central Level by Di-Isononyl Phthalate and Bisphenol A|Environ. Int.119:54-65|2018|10.1016/j.envint.2018.06.011
180476|A||Carnevali,O., E. Giorgini, D. Canuti, C.C. Mylonas, I. Forner-Piquer, and F. Maradonna|Diets Contaminated with Bisphenol A and Di-Isononyl Phtalate Modify Skeletal Muscle Composition: A New Target for Environmental Pollutant Action|Sci. Total Environ.658:250-259|2019|10.1016/j.scitotenv.2018.12.134
180477|A||Exxon|The Acute Toxicity of MRD-80-5 to the Water Flea Daphnia magna Straus|EPA/OTS 878210434:8 p.|1982|
180478|A||E.I. Du Pont De Nemours|96-Hour LC50 to Fathead Minnows|EPA/OTS 87-8220479:4 p.|1982|
180479|T||EPA/OTS|Drosophila Sex-Linked Recessive Lethal Assay of 1,1,1-Trichloroethane|EPA/OTS 40-8524528:14 p.|1985|
180480|A||Springborn Bionomics Inc.|Toxicity of Fourteen Phthalate Esters to the Freshwater Green Alga Selenastrum capricornutum|EPA/OTS FYI-AX 0485-0392:66 p.|1984|
180482|T||Reid,B.L.|Evaluation of Butyl Benzyl Phthalate with Laying Hens|Animal Sciences Department, University of Arizona:16 p.|1979|
180483|T||Kwon,H.C., J.Y. Roh, D. Lim, J. Choi, and J.H. Kwon|Maintaining the Constant Exposure Condition for an Acute Caenorhabditis elegans Mortality Test Using Passive Dosing|Environ. Health Toxicol.26:7 p.|2011|10.5620/eht.2011.26.e2011015
180484|T||Sabatini,S., A. Fracasso, G. Bazzato, and N.A. Kurtzman|Effect of Phthalate Acid Esters on Transport in Toad Bladder Membrane|J. Pharmacol. Exp. Ther.250(3): 910-914|1989|
180485|T||Guedes,R.N.C., S. Kambhampati, B.A. Dover, and K.Y. Zhu|Biochemical Mechanisms of Organophosphate Resistance in Rhyzopertha dominica (Coleoptera: Bostrichidae) Populations from the United States and Brazil|Bull. Entomol. Res.87(6): 581-586|1997|10.1017/S0007485300038670
180487|A||Monsanto Co.|Acute Toxicity of Santicizer 160 to the Midge Paratanytarsus parthenogenetica with Cover Letter|EPA/OTS 878213576:12 p.|1983|
180488|A||Monsanto Co.|Initial Submission: Acute Toxicity of S-160 to the Freshwater Green Alga, Selenastrum capricornutum with Cover Letter Dated 081492|EPA/OTS 88-920008294:22 p.|1992|
180489|A||Monsanto Co.|Acute Toxicity Study with Santicizer 160 in Mysid Shrimp (Mysidopsis bahia) with Cover Letter Dated 100692 and Attachment|EPA/OTS 86-930000013:17 p.|1992|
180492|A||Monsanto Co.|Uptake and Elimination of 14C-Residue by Eastern Oysters (Crassostrea virginica) Exposed to Butylbenzyl Phthalate (BBP)|EPA/OTS 40-8626233:40 p.|1986|
180493|T||Ashizawa,K., N. Oyama, S. Katayama, K. Narumi, H. Tatemoto, and Y. Tsuzuki|Regulation of Fowl Sperm Motility: Evidence for the Indirect, but not Direct, Involvement of Dynein-ATPase Activity on the Reversible Temperature-Dependent Immobilization|Theriogenology79(3): 558-565|2013|10.1016/j.theriogenology.2012.11.010
180494|T||Tateishi,H., T. Saishoji, T. Suzuki, and T. Chida|"Antifungal Properties of the Seed Disinfectant Ipconazole and Its Protection Against ""Bakanae"" and Other Diseases of Rice"|Ann. Phytopathol. Soc. Jpn.64(5): 443-450|1998|10.3186/jjphytopath.64.443
180495|A||Calvert,C., W.J. Adams, and R.G. Mosher|Acute Toxicity of Santicizer 160 to Chironomus tentans|EPA/OTS 878213591:16 p.|1983|
180496|A||Zhou,Y., C. Shen, H. Du, Y. Bao, C. He, C. Wang, and Z. Zuo|Bioassay System for the Detection of Aryl Hydrocarbon Receptor Agonists in Waterborne Pesticides Using Zebrafish Cyp1a1 Promoter-Luciferase Recombinant Hepatic Cells|Chemosphere220:61-68|2019|10.1016/j.chemosphere.2018.12.115
180498|A||Monsanto Co.|Acute Toxicity of Butylbenzyl Phthalate to Grass Shrimp (Paleomonetes vulgaris) Under Flow-Through Conditions|EPA/OTS 40-8626237:30 p.|1986|
180502|T||Ito,A., T. Saishoji, and S. Kumazawa|Synthesis of Stereoisomers of Ipconazole and Their Fungicidal and Plant Growth Inhibitory Activities|J. Pestic. Sci. (Multiple Languages)22(2): 119-125|1997|10.1584/jpestics.22.119
180505|A||Monsanto Co.|Final Report of the Flow-Through Acute Toxicity of Butyl Benzyl Phthalate to Hydra littoralis|EPA/OTS 40-8626215:112 p.|1986|
180506|T||Eizuka,T., K. Saitoh, T. Chida, K. Satake, and I. Yamaguchi|Metabolism of Ipconazole, a New Triazole Fungicide for Seed Treatment, in Rice Plants|J. Pestic. Sci. (Multiple Languages)19(4): 285-297|1994|10.1584/jpestics.19.4_285
180509|T||Wise,K.A., R.A. Henson, and C.A. Bradley|Fungicide Seed Treatment Effects on Seed-Borne Ascochyta rabiei in Chickpea|HortTechnology19(3): 533-537|2009|10.21273/HORTTECH.19.3.533
180510|T||Tateishi,H., and T. Chida|Sensitivity of Fusarium moniliforme Isolates to Ipconazole|J. Gen. Plant Pathol.66(4): 353-359|2000|10.1007/PL00012977
180511|T||Eizuka,T., A. Ito, and T. Chida|Degradation of Ipconazole by Microorganisms Isolated from Paddy Soil|J. Pestic. Sci. (Multiple Languages)28(2): 200-207|2003|10.1584/jpestics.28.200
180513|T||Ochiai,N., T. Tokai, N. Takahashi-Ando, M. Fujimura, and M. Kimura|Genetically Engineered Fusarium as a Tool to Evaluate the Effects of Environmental Factors on Initiation of Trichothecene Biosynthesis|FEMS Microbiol. Lett.275(1): 53-61|2007|10.1111/j.1574-6968.2007.00869.x
180514|T||Saishoji,T., A. Ito, S. Kumazawa, and H. Chuman|Structure-Activity Relationships of Enantiomers of the Azole Fungicide Ipconazole and Its Related Compounds:  Fungicidal and Plant Growth Inhibitory Activities|J. Pestic. Sci. (Multiple Languages)23(2): 129-136|1998|10.1584/jpestics.23.129
180515|T||Ajayi-Oyetunde,O.O., C.J. Butts-Wilmsmeyer, and C.A. Bradley|Sensitivity of Rhizoctonia solani to Succinate Dehydrogenase Inhibitor and Demethylation Inhibitor Fungicides|Plant Dis.101:487-495|2017|10.1094/PDIS-07-16-1015-RE
180516|A||Ratzlaff,D.|Bioconcentration and Biotransformation of Selected Phthalate Esters in Rainbow Trout (Oncorhynchus mykiss)|Research Project, Simon Fraser University, British Columbia:87 p.|2004|
180517|A||Hutton,D.G.|Daphnia magna Static Acute 48-Hour EC50 of Methyl Chloroform (Sanitized)|EPA/OTS 86-880000121S:14 p.|2000|
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180613|T||Kettlewell,P.S., W.P. Davies, and T.J. Hocking|Disease Development and Senescence of the Flag Leaf of Winter Wheat in Response to Propiconazole|J. Agric. Sci.99(3): 661-663|1982|10.1017/S002185960003135X
180614|T||Baird,R.E., T.B. Brenneman, D.K. Bell, and A.P. Murphy|The Effects of the Fungicide Propiconazole (Tilt) on the Groundnut Shell Mycobiota|Mycol. Res.95(5): 571-576|1991|10.1016/S0953-7562(09)80071-3
180615|T||Suryakumari,T., and K. Vaidyanath|Evaluation of Genotoxic Potential of Ethylene Dibromide Using Genetic Systems of Higher Plants|Asian J. Plant Sci.1(1): 77-88|1989|
180616|T||Ferguson,D.L., C.F. Morris, and G.M. Paulsen|Seeding Rate Management with Foliar Fungicide and Growth Regulator for Hard Winter Wheat Production|Appl. Agric. Res.4(1): 19-24|1989|
180617|AT||Pan,X., Y. Cheng, F. Dong, N. Liu, J. Xu, X. Liu, X. Wu, and Y. Zheng|Stereoselective Bioactivity, Acute Toxicity and Dissipation in Typical Paddy Soils of the Chiral Fungicide Propiconazole|J. Hazard. Mater.359:194-202|2018|10.1016/j.jhazmat.2018.07.061
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180625|T||Pfender,W.F., and S.C. Alderman|Evaluation of Postharvest Burning and Fungicides to Reduce the Polyetic Rate of Increase of Choke Disease in Orchardgrass Seed Production|Plant Dis.87(4): 375-379|2003|10.1094/PDIS.2003.87.4.375
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180628|T||Kale,P.G., and J.W. Baum|Sensitivity of Drosophila melanogaster to Low Concentration of Gaseous Mutagens: III. Dose-Rate Effects|Environ. Mutagen.3(1): 65-70|1981|10.1002/em.2860030107
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180632|T||Latha,P.|Compatibility of Trichoderma viride with Commercial Fungicides Formulation|J. Ecobiol.23(1): 43-47|2008|
180633|T||Temsamani,K.R., D. Bouchta, T. Fahmi, M. Benicha, M. Bennouna, and A. Azmani|Evaluation of the Photosynthesis Inhibitory Effect of New Sulfonylureas Derivatives on Oxalis pes-caprae|Bioelectrochem. Bioenerg.38(1): 63-66|1995|10.1016/0302-4598(95)01826-Z
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180635|T||Kovacs,G., and K. Moller|Novel Application of the Agar Diffusion Test for Control of Seed Treatments|Seed Sci. Technol.19(1): 175-184|1991|
180636|T||Marks,C.F., I.J. Thomason, and C.E. Castro|Dynamics of the Permeation of Nematodes by Water, Nematocides and Other Substances|Exp. Parasitol.22(3): 321-337|1968|10.1016/0014-4894(68)90109-4
180637|T||Kwok,I.M.Y., and R.T. Loeffler|The Biomedical Mode of Action of Some Newer Azole Fungicides|Pestic. Sci.39(1): 1-11|1993|10.1002/ps.2780390102
180638|T||Liao,W., T. Liu, L. Wang, T. Shu, G. Zhang, S. Yang, and J. Yang|Molecular Mechanisms of Drug Sensitivity of Rice Blast Fungi Magnaporthe grisea to Triazoles in China|Fresenius Environ. Bull.27(1): 320-326|2018|
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180642|T||Swaine,G., R.J. Corcoran, and M.A. Davey|Residual Fumigant Effect of 1,2 Dibromoethane (EDB) in Fumigations Against Queensland Fruit Fly, Dacus tryoni (Froggatt), Infestations in Mangoes|Pestic. Sci.7(5): 465-470|1976|10.1002/ps.2780070508
180643|T||McDonald,S.J.|Dollar Spot and Gray Leaf Spot Severity as Influenced by Irrigation Practice and Plant Protection Materials|M.S. Thesis, University of Maryland, College Park, MD:222 p.|2005|
180645|T||Swaine,G., R.J. Corcoran, A.E. Cranny, and M.A. Davey|The Effect of the Fruit Container on a Commodity Treatment of Mangoes with 1,2-Dibromoethane Against the Queensland Fruit Fly, Dacus tryoni (Froggatt)|Pestic. Sci.11(5): 467-470|1980|10.1002/ps.2780110504
180646|T||Wilkins,P.|Perfluorooctanesulfonate, Potassium Salt (PFOS): An Acute Contact Toxicity Study with the Honey Bee|Study HT5601, Environmental Biology Group, Central Science Laboratory, York, UK:28 p.|2001|
180647|T||Lichtemberg,P.S.F., W.M. Zeviani, T.J. Michailides, and L.L.M. De Mio|Comparison of the Sensitivity of Monilinia fructicola Isolates to Tebuconazole in Brazil Using Three Methods|Can. J. Plant Pathol.38(1): 55-63|2016|10.1080/07060661.2016.1147496
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180649|T||Peacock,K.L.|Control of Oak Wilt and the Genetic Structure of Ceratocystis fagacearum|Ph.D. Thesis, Michigan State University, East Lansing, MI:107 p.|2008|
180650|T||Nohara,K., F. Ichinohe, K. Sunagawa, S. Nakasone, and T. Hashimoto|Control of Melon Fly in Pumpkins with Ethylene Dibromide Fumigation|Shokubutsu Boekijo Chosa Kenkyu Hokoku (Non-English)14:47-51|1977|
180651|T||Eklo,O.M., R. Aspmo, and O. Lode|Runoff and Leaching Experiments of Dichlorprop, MCPA, Propiconazole, Dimethoate and Chlorsulfuron in Outdoor Lysimeters and Field Catchment Areas|Norw. J. Agric. Sci.0(13): 53-78|1994|
180652|T||Kale,P., and J.W. Baum|Genetic Effects of Ethylene Dibromide in Drosophila melanogaster|Environ. Sci. Res.25:291-300|1982|
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180654|T||Hockemeyer,K.|Spatial and Temporal Distribution of Fungicides Applied to Creeping Bentgrass|Ph.D.Thesis, Purdue University, West Lafayette, IN:69 p.|2014|
180655|T||Sutton,J.C., and P. Steele|Effects of Seed and Foliar Fungicides on Progress of Net Blotch and Yield in Barley|Can. J. Plant Sci.63(3): 631-639|1983|10.4141/cjps83-080
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180658|T||Webster,G.S., and D.F. Keetch|The Effect of E.D.B. Potassium and Nitrogen on the Yield of Smooth Cayenne Pineapple Plants in the Eastern Cape|Citrus Sub-Trop. Fruit J.498:13-14|1975|
180660|T||Seo,S.T., D.L. Chambers, E.K. Akamine, E.J. Harris, C.Y.L. Lee, and M. Komura|Oriental Fruit Fly: Factors Affecting Ethylene Dibromide Fumigation of Infested Papayas|J. Econ. Entomol.72(3): 350-353|1979|10.1093/jee/72.3.350
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180664|T||Raghunathan,A.N., M. Muthu, and S.K. Majumder|Control of Internal Fungi of Sorghum by Fumigation|J. Stored Prod. Res.5:389-392|1969|10.1016/0022-474X(69)90012-5
180665|A||Monsanto Co.|Telephone Communication from Monsanto Company to USEPA Regarding the Results of the Mysid Acute Toxicity Test on Benzyl Butyl Phthalate|EPA/OTS 40-8726285:3 p.|2000|
180666|T||Kale,P.G., and J.W. Baum|Sensitivity of Drosophila melanogaster to Low Concentrations of Gaseous Mutagens. II. Chronic Exposures|Mutat. Res.68(1): 59-68|1979|10.1016/0165-1218(79)90078-8
180667|T||Kale,P.G., and J.W. Baum|Sensitivity of Drosophila melanogaster to Low Concentrations of Gaseous Mutagens. IV. Mutations in Embryonic Spermatogonia|Mutat. Res.113(2): 135-143|1983|10.1016/0165-1161(83)90225-X
180668|T||Biju,C.N., M.F. Peeran, and R. Gowri|Identification and Characterization of Neopestalotiopsis clavispora Associated with Leaf Blight of Small Cardamom (Elettaria cardamomum Maton)|J. Phytopathol.166(7/8): 532-546|2018|10.1111/jph.12715
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180672|T||Agarwal,M.L., and M.S. Tayal|Gibberellin Antagonizing the Nematicidal Effects on Two Hydrolyzing Enzymes, Protease and Invertase, and Related Chemical Metabolites in Lycopersicon esculentum and Solanum melongena|Pestic. Biochem. Physiol.28:297-300|1987|10.1016/0048-3575(87)90123-4
180674|T||De Los Santos Garcia De Paredes,B., and F. Romero Munoz|Effect of Different Fungicides in the Control of Colletotrichum acutatum, Causal Agent of Anthracnose Crown Rot in Strawberry Plants|Crop Prot.21(1): 11-15|2002|10.1016/S0261-2194(01)00054-0
180675|A||Watanuki,H., Y. Gushiken, and M. Sakai|In Vitro Modulation of Common Carp (Cyprinus carpio L.) Phagocytic Cells by Di-n-Butyl Phthalate and Di-2-Ethylhexyl Phthalate|Aquat. Toxicol.63(2): 119-126|2003|10.1016/S0166-445X(02)00172-8
180676|T||Wu,H.Q., J. Li, Z.D. He, and Z.G. Liu|Acaricidal Activities of Traditional Chinese Medicine Against the House Dust Mite, Dermatophagoides farinae|Parasitology137(6): 975-983|2010|10.1017/S0031182009991879
180677|T||Davies,W.P., P.S. Kettlewell, L.D. Sankey, and P.R.H. Burgis|Evaluation of Late-Season Applications of the Fungicide Propiconazole to Winter Wheat|Ann. Appl. Biol.100(3): 42-43|1982|
180678|T||Wang,K., N. Song, M. Cui, and Y. Shi|Phthalate Esters Migration from Two Kinds of Plastic Films and the Enrichment in Peanut Plant|Fresenius Environ. Bull.26(7): 4409-4415|2017|
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180680|T||Mebalds,M.I., and T.V. Price|Chemical Control of Blind Seed Disease in Perennial Ryegrass (Lolium perenne) in Victoria|Australas. Plant Pathol.37(2): 148-153|2008|10.1071/AP08003
180681|T||Pandey,S.|Effect of Fungicides on Leaf Blast and Grain Yield of Rice in Kymore Region of Madhya Pradesh in India|Bangladesh J. Bot.45(2): 353-359|2016|
180682|T||Kontaxis,D.G.|Managing Powdery Mildew and Rust on Sunflower|Calif. Agric.40(7/8): 18-|1986|
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180686|T||Rashid,M.H., M. Ashraf Hossain, M.A. Kashem, S. Kumar, M.Y. Rafii, and M.A. Latif|Efficacy of Combined Formulations of Fungicides with Different Modes of Action in Controlling Botrytis Gray Mold Disease in Chickpea|Sci. World J.2014:6 p.|2014|
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180688|T||Shukla,R.S., K. Abdul, and M. Alam|Chemical Control of Blossom Blight Disease of Sarpagandha Caused by Colletotrichum capsici|Afr. J. Biotechnol.9(38): 6397-6400|2010|
180689|T||Zhao,H.M., H. Du, L. Xiang, Y.W. Li, H. Li, Q.Y. Cai, C.H. Mo, G. Cao, and M.H. Wong|Physiological Differences in Response to Di-N-Butyl Phthalate (DBP) Exposure Between Low- and High-DBP Accumulating Cultivars of Chinese Flowering Cabbage (Brassica parachinensis L.)|Environ. Pollut.208:840-849|2016|10.1016/j.envpol.2015.11.009
180691|T||Naprstkova,I., Z. Dusek, Z. Zemanova, and B. Novotna|Assessment of Nephrotoxicity in the Chick Embryo: Effects of Cisplatin and 1,2-Dibromoethane|Folia Biol. (Prague)49:78-86|2003|
180692|A||Dong,X., X. Qiu, S. Meng, H. Xu, X. Wu, and M. Yang|Proteomic Profile and Toxicity Pathway Analysis in Zebrafish Embryos Exposed to Bisphenol A and Di-N-Butyl Phthalate at Environmentally Relevant Levels|Chemosphere193:313-320|2018|10.1016/j.chemosphere.2017.11.042
180693|T||Gao,M., Y. Dong, Z. Zhang, W. Song, and Y. Qi|Growth and Antioxidant Defense Responses of Wheat Seedlings to Di-N-Butyl Phthalate and Di (2-Ethylhexyl) Phthalate Stress|Chemosphere172:418-428|2017|10.1016/j.chemosphere.2017.01.034
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180697|T||Ayala-Silva,T., G.G. Gordon, R. Schnell, and M. Winterstein|Application of Propiconazole in Management of Laurel Wilt Disease in Avocado (Persea americana Mill.) Trees|Acta Hortic.948:71-78|2012|10.17660/ActaHortic.2012.948.7
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180699|T||Bello,U.M., M.C. Madekurozwa, H.B. Groenewald, T.A. Aire, and A. Arukwe|The Effects on Steroidogenesis and Histopathology of Adult Male Japanese Quails (Coturnix coturnix japonica) Testis Following Pre-Pubertal Exposure to Di(N-Butyl) Phthalate (DBP)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.166:24-33|2014|10.1016/j.cbpc.2014.06.005
180700|T||Smith,B.J., and L.L. Black|In Vitro Fungicide Studies Show the Occurrence of Benomyl-Resistant Colletrichum spp. from Strawberry|Adv. Strawberry Res.12:42-48|1993|
180701|A||Bissegger,S., M.A. Pineda Castro, V. Yargeau, and V.S. Langlois|Phthalates Modulate Steroid 5-Reductase Transcripts in the Western Clawed Frog Embryo|Comp. Biochem. Physiol. C Toxicol. Pharmacol.213:39-46|2018|10.1016/j.cbpc.2018.07.005
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180704|T||Sardana,H.R., and M.N. Bhat|Farmers' Centred Approach for Area Wide Implementation of Sustainable IPM Technology and Economic Analysis for Onion (Allium cepa) During Rabi Season|Indian J. Agric. Sci.87(1): 83-86|2017|10.56093/ijas.v87i1.67044
180705|T||Gossen,B.D., and G.D. Turnbull|Head Smut (Ustilago bullata) of Grasses on the Canadian Prairies: Distribution, Impact, and Control|Can. J. Plant Pathol.17(1): 49-56|1995|10.1080/07060669509500719
180706|T||Wang,S.G., X.G. Lin, R. Yin, and Y.L. Hou|Effects of Di-N-Butyl Phthalate on Mycorrhizal and Non-Mycorrhizal Cowpea Plants|Biol. Plant. (Praha)47(4): 637-639|2003|10.1023/B:BIOP.0000041080.85525.bc
180707|T||Dusek,Z., I. Holejsovska, B. Novotna, and Z. Zemanova|Embryotoxicity of 1,2-Dibromoethane in Chick Embryos In Ovo: Early and Late Effects|Eur. J. Morphol.39(2): 105-112|2001|10.1076/ejom.39.2.105.7374
180708|T||Reuveni,R., J. Krikun, and U. Shani|The Role of Monosporascus eutypoides in a Collapse of Melon Plants in an Arid Area of Israel|Phytopathology73(9): 1223-1226|1983|10.1094/Phyto-73-1223
180709|T||Zegeye,W., M. Dejene, and D. Ayalew|Management of Loose Smut (Ustilago nuda) of Barley (Hordeum vulgare) Through Seed Dressing and Coating Materials on Barley in Western Amhara Region, Ethiopia|Seed Sci. Technol.45(1): 56-71|2017|10.15258/sst.2017.45.1.12
180710|T||Barnwal,M.K., R.N. Singh, A. Sah, and S.K. Sathi|Efficacy of Fungicides for the Management of False Smut of Rice Under Field Condition|Environ. Ecol.28(1B): 504-507|2010|
180711|T||Spotts,R.A., L.A. Cervantes, and T.J. Facteau|Integrated Control of Brown Rot of Sweet Cherry Fruit with a Preharvest Fungicide, a Postharvest Yeast, Modified Atmosphere Packaging, and Cold Storage Temperature|Postharvest Biol. Technol.24(3): 251-257|2002|10.1016/S0925-5214(01)00155-7
180712|T||Gupta,A.K., R. Raj, R. Choudhary, S.P. Singh, and I.S. Solanki|Effect of Mineral Nutrients, Seed Treatment and Foliar Fungicides on Spot Blotch (Bipolaris sorokiniana) Severity and Agronomic Performance of Wheat (Triticum aestivum) in Hot-Humid Environment of Eastern Gangetic Plain|Indian J. Agric. Sci.87(4): 505-511|2017|10.56093/ijas.v87i4.69419
180714|T||Zhang,X., E.H. Ervin, and R.E. Schmidt|Plant Growth Regulators can Enhance the Recovery of Kentucky Bluegrass Sod from Heat Injury|Crop Sci.43(3): 952-956|2003|10.2135/cropsci2003.9520
180715|T||Choudhary,N.L., S. Zacharia, M.K. Meena, and S.R. Bana|Efficacy of Fungicides and Bio-Agents in the Management of Powdery Mildew of Fenugreek (Trigonella foenum-graecum L.)|J. Plant Sci. Res.31(2): 149-151|2015|
180716|T||Annis,S.L., and C.S. Stubbs|Stem and Leaf Diseases and Their Effects on Yield in Maine Lowbush Blueberry Fields|Proceedings of the Ninth North American Blueberry Research and Extension Workers Conference:159-167|2004|
180717|A||Kretschmann,A., N. Cedergreen, and J.H. Christensen|Measuring Internal Azole and Pyrethroid Pesticide Concentrations in Daphnia magna Using QuEChERS and GC-ECD Method Development with a Focus on Matrix Effects|Anal. Bioanal. Chem.408(4): 1055-1066|2016|10.1007/s00216-015-9197-x
180718|T||Buitelaar,R.M., M.H. Vermue, J.E. Schlatmann, and J. Tramper|The Influence of Various Organic Solvents on the Respiration of Free and Immobilized Cells of Tagetes minuta|Biotechnol. Tech.4(6): 415-418|1990|10.1007/BF00159388
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180721|T||Haydu,J.J., and D.E. Legard|An Economic Analysis of Preharvest Fungicide Applications to Control Botrytis Fruit Rot in Annual Strawberries in Florida|Hortscience38(1): 124-127|2003|10.21273/HORTSCI.38.1.124
180722|T||Strandberg,J.O.|Efficacy of Fungicides Against Persistence of Alternaria dauci on Carrot Seed|Plant Dis.68(1): 39-42|1984|10.1094/PD-68-39
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180726|T||Zhou,T., and R.D. Reeleder|Application of Epicoccum purpurascens Spores to Control White Mold of Snap Bean|Plant Dis.73(8): 639-642|1989|10.1094/PD-73-0639
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180728|T||Ma,H.X., X.J. Feng, Y. Chen, C.J. Chen, and M.G. Zhou|Occurrence and Characterization of Dimethachlon Insensitivity in Sclerotinia sclerotiorum in Jiangsu Province of China|Plant Dis.93(1): 36-42|2009|10.1094/PDIS-93-1-0036
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180736|T||Gao,M., Y. Liu, Y. Dong, and Z. Song|Physiological Responses of Wheat Planted in Fluvo-Aquic Soils to Di (2-Ethylhexyl) and Di-N-Butyl Phthalates|Environ. Pollut.244:774-782|2019|10.1016/j.envpol.2018.10.095
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180739|T||Ben-Yephet,Y., D. Letham, and G. Evans|Toxicity of 1,2-Dibromoethane and 1,3-Dichloropropene to Microsclerotia of Verticillium dahliae|Pestic. Sci.12:170-174|1981|10.1002/ps.2780120210
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180745|T||Zhou,M., H. Xu, X. Wei, Z. Ye, L. Wei, W. Gong, Y. Wang, and Z. Zhu|Identification of a Glyphosate-Resistant Mutant of Rice 5-Enolpyruvylshikimate 3-Phosphate Synthase Using a Directed Evolution Strategy|Plant Physiol.140:184-195|2006|10.1104/pp.105.068577
180747|T||Wang,C., J. Wu, and X. Mei|Enhanced Taxol Production and Release in Taxus chinensis Cell Suspension Cultures with Selected Organic Solvents and Sucrose Feeding|Biotechnol. Prog.17(1): 89-94|2001|10.1021/bp0001359
180748|T||Mazarura,U., C. Chisango, and M. Goss|Management of the Root Knot Nematode (Meloidogyne javanica. Treub) and Sore Shin (Rhizoctonia solani. Kuhn) Using a Nematicide and Poor Host Crops in Rotations|Asian J. Agric. Rural Dev.2(4): 668-675|2012|
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180753|T||Wang,Z., H.K. Kim, W. Tao, M. Wang, and Y.J. Ahn|Contact and Fumigant Toxicity of Cinnamaldehyde and Cinnamic Acid and Related Compounds to Dermatophagoides farinae and Dermatophagoides pteronyssinus (Acari: Pyroglyphidae)|J. Med. Entomol.48(2): 366-371|2011|10.1603/ME10127
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180756|T||Lee,C.H., B.K. Sung, and H.S. Lee|Acaricidal Activity of Fennel Seed Oils and Their Main Components Against Tyrophagus putrescentiae, a Stored-Food Mite|J. Stored Prod. Res.42(1): 8-14|2006|10.1016/j.jspr.2004.10.004
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180760|T||Ochoa,J., and J.E. Parlevliet|Effect of Partial Resistance to Barley Leaf Rust, Puccinia hordei, on the Yield of Three Barley Cultivars|Euphytica 153(3): 309-312|2007|10.1007/s10681-006-9168-6
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180763|T||Mohamadi,M.H.S., N. Etemadi, A. Nikbakht, and M. Pessarakli|Physiological Responses of Two Cool-Season Grass Species to Trinexapac-Ethyl Under Traffic Stress|Hortscience52(1): 99-109|2017|10.21273/HORTSCI11228-16
180764|T||Lee,J.H., J.R. Kim, Y.R. Koh, and Y.J. Ahn|Contact and Fumigant Toxicity of Pinus densiflora Needle Hydrodistillate Constituents and Related Compounds and Efficacy of Spray Formulations Containing the Oil to Dermatophagoides farinae|Pest Manag. Sci.69(6): 696-702|2013|10.1002/ps.3421
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180766|T||Tsialtas,J.T., G.S. Theologidou, and G.S. Karaoglanidis|Effect of Pyraclostrobin on Disease Control, Leaf Physiology, Seed Yield and Quality of Sunflower|Crop Prot.99:151-159|2017|10.1016/j.cropro.2017.05.022
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180769|T||Barrios,K., C. Knott, and J. Geaghan|Improving Sea Oats Seedling Production from Seed with Fungicides|HortTechnology24(6): 630-636|2014|10.21273/HORTTECH.24.6.630
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180786|T||Tang,F., X. Shen, and X.W. Gao|In Vitro Inhibition of the Diphenolase Activity of Tyrosinase by Insecticides and Allelochemicals in Micromelalopha troglodyta (Lepidoptera: Notodontidae)|J. Entomol. Sci.44(2): 111-119|2009|10.18474/0749-8004-44.2.111
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180788|T||Abu-El Samen,F.M., K. Oberoi, R.J. Taylor, G.A. Secor, and N.C. Gudmestad|Inheritance of Mefenoxam Resistance in Selfed Populations of the Homothallic Oomycete Phytophthora erythroseptica (Pethybr.), Cause of Pink Rot of Potato|Am. J. Potato Res.82(2): 105-115|2005|10.1007/BF02853647
180789|T||Srivastava,C., S. Chander, S.R. Sinha, and R.K. Palta|Toxicity of Various Insecticides Against Delhi and Palla Population of Brown Plant Hopper (Nilaparvata lugens)|Indian J. Agric. Sci.79(12): 1003-1006|2009|
180790|T||Mesbah,H.A., A.S.A. Saad, A.K. Mourad, F.A. Taman, and I.B. Mohamed|Joint Action of Quercetin with Four Insecticides on the Cotton Leaf-Worm Larvae, Spodoptera littoralis Boisd. (Lep. : Noctuidae) in Egypt|Commun. Agric. Appl. Biol. Sci.72(3): 445-457|2007|
180791|T||Chowdappa,P., S. Madhura, B.J.N. Kumar, S.P.M. Kumar, and K.R. Hema|Phytophthora boehmeriae Revealed as the Dominant Pathogen Responsible for Severe Foliar Blight of Capsicum annuum in South India|Plant Dis.98(1): 90-98|2014|10.1094/PDIS-06-13-0601-RE
180792|T||Choudhary,C.E., M.L. Burgos-Garay, G.W. Moorman, and C. Hong|Pythium and Phytopythium Species in Two Pennsylvania Greenhouse Irrigation Water Tanks|Plant Dis.100(5): 926-932|2016|10.1094/PDIS-07-15-0836-RE
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180794|T||Saude,C., O.P. Hurtado-Gonzales, K.H. Lamour, and M.K. Hausbeck|Occurrence and Characterization of a Phytophthora sp. Pathogenic to Asparagus (Asparagus officinalis) in Michigan|Phytopathology98(10): 1075-1083|2008|10.1094/PHYTO-98-10-1075
180795|T||Isogai,Y., Y. Komoda, and T. Okamoto|Biological Activities of N-Butyl Phthalate and Its Analogous Compounds on Various Bioassays of Plant Growth Regulators|Sci. Pap. Coll. Gen. Educ. Univ. Tokyo (Biol. Part)22(2): 129-135|1972|
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180797|T||Adhikari,T.B., J.Q. Liu, S. Mathur, C.X. Wu, and S.R. Rimmer|Genetic and Molecular Analyses in Crosses of Race 2 and Race 7 of Albugo candida|Phytopathology93(8): 959-965|2003|10.1094/PHYTO.2003.93.8.959
180798|T||Gevens,A.J., R.S. Donahoo, K.H. Lamour, and M.K. Hausbeck|Characterization of Phytophthora capsici from Michigan Surface Irrigation Water|Phytopathology97(4): 421-428|2007|10.1094/PHYTO-97-4-0421
180799|T||Berger,F., H. Li, D. White, R. Frazer, and C. Leifert|Effect of Pathogen Inoculum, Antagonist Density, and Plant Species on Biological Control of Phytophthora and Pythium Damping-Off by Bacillus subtilis Cot1 in High-Humidity Fogging Glasshouses|Phytopathology86(5): 428-433|1996|10.1094/Phyto-86-428
180800|T||Wirtz,R.A., J.D.,Jr. Turrentine, and L.C. Rutledge|Mosquito Area Repellents: Laboratory Testing of Candidate Materials Against Aedes aegypti|Mosq. News40(3): 432-439|1980|
180801|T||Hulvey,J., D. Gobena, L. Finley, and K. Lamour|Co-Occurrence and Genotypic Distribution of Phytophthora Species Recovered from Watersheds and Plant Nurseries of Eastern Tennessee|Mycologia102(5): 1127-1133|2010|10.3852/09-221
180802|T||Fichtner,S.M., T. Isakeit, T.A. Wheeler, H.W. Kaufman, and J.R. Gannaway|Evaluation of Several Approaches to Manage Meloidogyne incognita and Cotton Seedling Disease Complexes in the High Plains of Texas|J. Nematol.37(1): 66-70|2005|
180803|A||Annunziato,K.M.|Low Molecular Weight PFAS Alternatives (C-6) Result in Fewer Cellular and Behavioral Alterations than Long Chain (C-8/C-9) PFASS in Larval Zebrafish|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:188 p.|2018|
180804|T||Abkhoo,J., and S.K. Sabbagh|Control of Phytophthora melonis Damping-Off, Induction of Defense Responses, and Gene Expression of Cucumber Treated with Commercial Extract from Ascophyllum nodosum|J. Appl. Phycol.28(2): 1333-1342|2016|10.1007/s10811-015-0693-3
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180806|T||Haderlie,L.C., F.W. Slife, and H.S. Butler|14C-Glyphosate Absorption and Translocation in Germinating Maize (Zea mays) and Soybean (Glycine max) Seeds and in Soybean Plants|Weed Res. (Multiple Languages)18:269-273|1978|10.1111/j.1365-3180.1978.tb01159.x
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180808|T||Chacon,M.G., N.E. Adler, F. Jarrin, W.G. Flier, C. Gessler, and G.A. Forbes|Genetic Structure of the Population of Phytophthora infestans Attacking Solanum ochranthum in the Highlands of Ecuador|Eur. J. Plant Pathol.115(2): 235-245|2006|10.1007/s10658-006-9012-9
180809|T||Manasfi,Y., M.A. Cannesan, W. Riah, M. Bressan, K. Laval, A. Driouich, M. Vicre, and I. Trinsoutrot-Gattin|Potential of Combined Biological Control Agents to Cope with Phytophthora parasitica, a Major Pathogen of Choisya ternata|Eur. J. Plant Pathol.152(4): 1011-1025|2018|10.1007/s10658-018-1495-7
180811|T||Marshall-Farrar,K.D., M. Mcgrath, R.V. James, and W.R. Stevenson|Characterization of Phytophthora infestans in Wisconsin from 1993-1995|Plant Dis.82(4): 434-436|1998|10.1094/PDIS.1998.82.4.434
180812|T||Burns,J.R., and D.M. Benson|Biocontrol of Damping-Off of Catharanthus roseus Caused by Pythium ultimum with Trichoderma virens and Binucleate Rhizoctonia Fungi|Plant Dis.84(6): 644-648|2000|10.1094/PDIS.2000.84.6.644
180813|T||Hill,S.N., and M.K. Hausbeck|Virulence and Fungicide Sensitivity of Phytophthora cactorum Isolated from American Ginseng Gardens in Wisconsin and Michigan|Plant Dis.92(8): 1183-1189|2008|10.1094/PDIS-92-8-1183
180814|A||Hu,W.Y., P.O. Jones, W. DeCoen, L. King, P. Fraker, J. Newsted, and J.P. Giesy|Alterations in Cell Membrane Properties Caused by Perfluorinated Compounds|Comp. Biochem. Physiol. C Toxicol. Pharmacol.135(1): 77-88|2002|10.1016/S1532-0456(03)00043-7
180815|T||Wu,J., and L. Lin|Enhancement of Taxol Production and Release in Taxus chinensis Cell Cultures by Ultrasound, Methyl Jasmonate and In Situ Solvent Extraction|Appl. Microbiol. Biotechnol.62(2/3): 151-155|2003|10.1007/s00253-003-1275-x
180816|T||Chuah,T.S., H.Y. Oh, M. Habsah, M.Z. Norhafizah, and B.S. Ismail|Potential of Crude Extract and Isolated Compounds from Golden Beard Grass (Chrysopogon serrulatus) for Control of Sprangletop (Leptochloa chinensis) in Aerobic Rice Systems|Crop Pasture Sci.65(5): 461-469|2014|10.1071/CP13339
180817|T||Bell,C.H., B.D. Hole, and A.L. Clifton|The Toxicity of Mixtures of Methyl Bromide and Methyl Chloroform to Stored Product Insects|J. Stored Prod. Res.24(2): 115-122|1988|10.1016/0022-474X(88)90040-9
180818|T||Laturnus,F., and M. Matucha|Chloride - a Precursor in the Formation of Volatile Organochlorines by Forest Plants?|J. Environ. Radioact.99(1): 119-125|2008|10.1016/j.jenvrad.2007.07.008
180820|T||Ahuactzin-Perez,M., J.L. Torres, B.R. Rodriguez-Pastrana, J. Soriano-Santos, G. Diaz-Godinez, R. Diaz, S. Tlecuitl-Beri|Fungal Biodegradation of Dibutyl Phthalate and Toxicity of Its Breakdown Products on the Basis of Fungal and Bacterial Growth|World J. Microbiol. Biotechnol.30(11): 2811-2819|2014|10.1007/s11274-014-1705-1
180821|T||Wu,H.Q., L. Li, J. Li, Z.D. He, Z.G. Liu, Q.Q. Zeng, and Y.S. Wang|Acaricidal Activity of DHEMH, Derived from Patchouli Oil, Against House Dust Mite, Dermatophagoides farinae|Chem. Pharm. Bull.60(2): 178-182|2012|10.1248/cpb.60.178
180822|A||Fernandez,M., L. Gauthier, and A. Jaylet|Use of a Newt Larvae for In Vivo Genotoxicity Testing of Water: Results on 19 Compounds Evaluated by the Micronucleus Test|Mutagenesis4(1): 17-26|1989|10.1093/mutage/4.1.17
180823|T||Jongen,W.M.F., R.J. Topp, K.J.H. Wienk, and E.C. Homan|Modulating Effects of Naturally Occurring Indoles on SCE Induction Depend Largely on the Type of Mutagen|Mutat. Res.222(3): 263-269|1989|10.1016/0165-1218(89)90142-0
180824|T||Kramers,P.G.N., H.C.A. Mout, B. Bissumbhar, and C.R. Mulder|Inhalation Exposure in Drosophila Mutagenesis Assays: Experiments with Aliphatic Halogenated Hydrocarbons, with Emphasis on the Genetic Activity Profile of 1,2-Dichloroethane|Mutat. Res.252(1): 17-33|1991|10.1016/0165-1161(91)90248-7
180825|T||Isaacson,P.J., and M.P.N. Gent|Uptake of Transpiration of 1,2-Dibromoethane by Leaves|Plant Soil95(3): 431-434|1986|10.1007/BF02374623
180826|T||Hartsell,P.L., J.S. Tebbets, and J.C. Tebbets|Ethylene Dibromide Fumigation of California-Grown Citrus: Effects of Fumigating Unpacked, Bulk Fruits, or Commercially Packed Fruits on Applied Dosage and Residues|J. Econ. Entomol.79(1): 166-171|1986|10.1093/jee/79.1.166
180827|T||Havens,C., B.K.S. Hu, G.J. Farias, S.T. Seo, and E.J. Harris|Dacus dorsalis: Fumigation of Papayas with Ethylene Dibromide|J. Econ. Entomol.72(1): 4-5|1979|10.1093/jee/72.1.4
180828|T||Rutledge,L.C., R.K. Gupta, and Z.A. Mehr|Evolution of Repellent Tolerances in Representative Arthropods|J. Am. Mosq. Control Assoc.13(4): 329-334|1997|
180829|T||Spiegel,Y., E. Cohn, and I. Chet|Use of Chitin for Controlling Heterodera avenae and Tylenchulus semipenetrans|J. Nematol.21(3): 419-422|1989|
180830|T||Rudinsky,J.A., and L.C. Ryker|Multifunctionality of Douglas-Fir Beetle Pheromone 3,2-MCH Confirmed with Solvent Dibutyl Phthalate|J. Chem. Ecol.6(1): 193-201|1980|10.1007/BF00987538
180832|T||Marks,C.F.|Respiration Responses of a Caenorhabditis sp. and Aphelenchus avenae to the Nematicide, 1,2-Dibromoethane (EDB)|J. Nematol.3(2): 113-118|1971|
180833|T||Kaneko,H., Y. Takamatsu, N. Kitamura, A. Yoshitake, and J. Miyamoto|In Vivo and In Vitro Conversion of Tralomethrin to Deltamethrin in Larvae of Tobacco Cutworm, Spodoptera litura|J. Pestic. Sci. (Multiple Languages)11(4): 533-540|1986|10.1584/jpestics.11.533
180834|AT||Sandler,H.A.|Factors Influencing Colonization and Establishment of Plant Species on Cranberry Bogs|Ph.D Thesis, University of Massachusetts, Amherst, MA:296 p.|2004|
180835|T||Ryu,S.H., B. Kim, M. Kim, and J.H. Seo|Molecular Characterization of Manganese Peroxidases from White-Rot Fungus Polyporus brumalis|Bioprocess Biosyst. Eng.37(3): 393-400|2014|10.1007/s00449-013-1004-5
180836|T||Lawson,H.M., and J.S. Wiseman|Crop Tolerance to Trifluralin and Isoxaben, Applied Alone or in Mixture with Napropamide, as Late Winter Herbicide Treatments in Established Strawberry and Raspberry|Proc. Br. Crop Prot. Conf. Weeds2:657-663|1987|
180837|T||Rodriguez-Kabana,R., H.W. Penick, P.S. King, F.A. Gray, E.L. Carden, N.R. McDaniel, F.B. Selman, and H.W. Ivey|Control of Nematodes on Soybeans with Planting-Time Applications of Ethylene Dibromide (Combate de Nematodos en la Soya con Aplicaciones en la Siembra de Bibromuro de Etileno)|Nematropica9(1): 61-66|1979|
180838|T||Yang,H., T. Su, W. Yang, C.P. Yang, Z.M. Chen, L. Lu, Y.L. Liu, and Y.Y. Tao|Molecular Characterization, Expression Pattern and Ligand-Binding Properties of the Pheromone-Binding Protein Gene from Cyrtotrachelus buqueti|Physiol. Entomol.42(4): 369-378|2017|10.1111/phen.12209
180839|T||Chuman,H., A. Ito, T. Saishoji, and S. Kumazawa|QSARs and Three-Dimensional Shape Studies of Fungicidal Azolylmethylcyclopentanols - Molecular Design of Novel Fungicides Metconazole and Ipconazole|ACS Symp. Ser.606:171-185|1995|10.1021/bk-1995-0606.ch013
180840|T||Duan,Y., M. Li, H. Zhao, F. Lu, J. Wang, and M. Zhou|Molecular and Biological Characteristics of Laboratory Metconazole-Resistant Mutants in Fusarium graminearum|Pestic. Biochem. Physiol.152:55-61|2018|10.1016/j.pestbp.2018.08.011
180841|T||Lehning,E.J.|Concentration, Distribution, and Withdrawal of Ethylene Dibromide (EDB) in Eggs and Tissues Obtained from Chickens Fed Diet Containing EDB-Contaminated Flour|Ph.D. Thesis, Michigan State University, East Lansing, MI:152 p.|1986|
180842|T||Li,M., T. Li, Y. Duan, Y. Yang, J. Wu, D. Zhao, X. Xiao, X. Pan, W. Chen, J. Wang, C. Chen, and M. Zhou|Evaluation of Phenamacril and Ipconazole for Control of Rice Bakanae Disease Caused by Fusarium fujikuroi|Plant Dis.102(7): 1234-1239|2018|10.1094/PDIS-10-17-1521-RE
180843|T||Von Windeguth,D.L., and J.R. King|A Comparison of Ethylene Dibromide Levels in Fumigated Fruit Fly Infested Grapefruit and Insect Mortality|Proc. Annu. Meet. Fla. State Hortic. Soc.95:219-221|1982|
180844|T||Jimenez,D.R.C., M.L. Ellis, G.P. Munkvold, and L.F.S. Leandro|Isolate-Cultivar Interactions, In Vitro Growth, and Fungicide Sensitivity of Fusarium oxysporum Isolates Causing Seedling Disease on Soybean|Plant Dis.102(10): 1928-1937|2018|10.1094/PDIS-03-17-0380-RE
180845|T||Von Windeguth,D.L., J.R. King, and V. Chew|Low Dose Ethylene Dibromide Fumigation for Quarantine Control of Caribbean Fruit Fly in Grapefruit|Proc. Annu. Meet. Fla. State Hortic. Soc.97:120-122|1984|
180846|T||Tateishi,H., and H. Suga|Species Composition, Gibberellin Production and Sensitivity to Ipconazole of the Fusarium fujikuroi Species Complex Isolates Obtained Before and After Its Launch|J. Pestic. Sci. (Multiple Languages)40(3): 124-129|2015|10.1584/jpestics.D14-083
180847|T||Tateishi,H., T. Miyake, and H. Suga|Polymorphism and Expression Level of CYP51 (Cytochrome P450) and Sensitivity to Ipconazole in Fusarium fujikuroi Isolates|J. Pestic. Sci. (Multiple Languages)44(1): 25-32|2019|10.1584/jpestics.D18-011
180848|T||Walker,K.|The Influence of Cultural Practices on Endophyte Expression in Turf-Type Tall Fescue|Ph.D.Thesis, Purdue University, West Lafayette, IN:197 p.|2008|
180849|A||Lee,H., J. Lee, K. Choi, and K.T. Kim|Comparative Analysis of Endocrine Disrupting Effects of Major Phthalates in Employed Two Cell Lines (MVLN and H295R) and Embryonic Zebrafish Assay|Environ. Res.172:319-325|2019|10.1016/j.envres.2019.02.033
180850|A||Kennedy,A.A.|The Effects of Ethylene Dibromide (EDB) and Glutathione (GSH) on Egg and Larval Development in Arbacia punctulata|Ph.D.Thesis, University of Maryland, Eastern Shore, MD:153 p.|1995|
180851|T||Permin,O., L.N. Jorgensen, and K. Persson|Application of Pesticides in Cereals Using Different Types of Field Sprayers and Very Low Spray Volume|Tidsskr. Planteavl (Multiple Languages)96(5): 517-530|1992|
180852|T||Bowen,K.L.|Epidemiological Studies of Northern Corn Leaf Blight on Corn Inbreds: Loss Assessment and Disease Modeling|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:116 p.|1987|
180853|T||Secher,B.J.M.|Site Specific Control of Diseases in Winter Wheat|Asp. Appl. Biol.48:57-64|1997|
180854|T||Zhang,X.Z., and R.E. Schmidt|Application of Trinexapac-Ethyl and Propiconazole Enhances Superoxide Dismutase and Photochemical Activity in Creeping Bentgrass (Agrostis stoloniferous var. palustris)|J. Am. Soc. Hortic. Sci.125(1): 47-51|2000|10.21273/JASHS.125.1.47
180855|T||Goatley,J.M.,Jr., and R.E. Schmidt|Anti-Senescence Activity of Chemicals Applied to Kentucky Bluegrass|J. Am. Soc. Hortic. Sci.115(4): 654-656|1990|10.21273/JASHS.115.4.654
180856|T||Bayman,P., E.J. Gonzalez, J.J. Fumero, and R.L. Tremblay|Are Fungi Necessary? How Fungicides Affect Growth and Survival of the Orchid Lepanthes rupestris in the Field|J. Ecol.90(6): 1002-1008|2002|10.1046/j.1365-2745.2002.00733.x
180858|T||Kannan,S., and S. Ramani|Mechanisms of Fe-Deficiency Tolerance in Crop Cultivars: Effects of Dibutyl Phthalate and Caffeic Acid on Fe-Chlorosis Recovery|J. Plant Nutr.10(9-16): 1051-1058|1987|10.1080/01904168709363633
180859|T||Kannan,S.|Effects of Dibutyl Phthalate and Phthalic Acid on Chlorosis Recovery in Iron-Deficiency Stressed Sorghum Cultivars|J. Plant Nutr.9(12): 1543-1551|1986|10.1080/01904168609363548
180860|T||Hackenberger,D.K., G. Palijan, Z. Loncaric, O. Jovanovic Glavas, and B.K. Hackenberger|Influence of Soil Temperature and Moisture on Biochemical Biomarkers in Earthworm and Microbial Activity After Exposure to Propiconazole and Chlorantraniliprole|Ecotoxicol. Environ. Saf.148:480-489|2018|10.1016/j.ecoenv.2017.10.072
180861|T||Garcia-Valcarcel,A.I., I. Loureiro, C. Escorial, E. Molero, and J.L. Tadeo|Uptake of Azoles by Lamb's Lettuce (Valerianella locusta L.) Grown in Hydroponic Conditions|Ecotoxicol. Environ. Saf.124:138-146|2016|10.1016/j.ecoenv.2015.10.021
180862|T||Kannan,S., S. Ramani, and A.V. Patankar|Excretion of Dibutyl Phthalate by Sorghum Roots Under Fe-Stress: Evidence of Its Action on Chlorosis Recovery|J. Plant Nutr.7(12): 1717-1729|1984|10.1080/01904168409363315
180864|T||Markman,S., S. Leitner, C. Catchpole, S. Barnsley, C.T. Muller, D. Pascoe, and K.L. Buchanan|Pollutants Increase Song Complexity and the Volume of the Brain Area HVC in a Songbird|PLoS One3(2): 6 p.|2008|10.1371/journal.pone.0001674
180865|A||Hinfray,N., J.M. Porcher, and F. Brion|Inhibition of Rainbow Trout (Oncorhynchus mykiss) P450 Aromatase Activities in Brain and Ovarian Microsomes by Various Environmental Substances|Comp. Biochem. Physiol. C Toxicol. Pharmacol.144:252-262|2006|10.1016/j.cbpc.2006.09.002
180866|T||Mahmud,H., and I. Hossain|Comparative Efficacy of BAU-Biofungicide and Synthetic Fungicides in Management of Diseases of Rice (Oryza sativa L.) for Quality Seed Production|Braz. J. Bot.40(2): 389-397|2017|10.1007/s40415-017-0361-8
180867|T||Asher,M.J.C., and G.E. Williams|Fungicides for the Control of Powdery Mildew in Sugar Beet|Asp. Appl. Biol.32:97-104|1992|
180868|T||Cotterill,P.J., and L.K. Mclean|Evaluation of Fungicides to Control Take-All and Rhizoctonia Root Rot of Wheat|Plant Prot. Q.7(2): 51-54|1992|
180869|T||Kettlewell,P.S., J.A. Lawson, W.P. Davies, and T.J. Hocking|Disease and Grain Quality of Avalon Winter Wheat in Response to Late-Season Applications of Propiconazole Fungicide|Asp. Appl. Biol.15:403-411|1987|
180870|A||Dalhoff,K., M. Gottardi, A. Kretschmann, and N. Cedergreen|What Causes the Difference in Synergistic Potentials of Propiconazole and Prochloraz Toward Pyrethroids in Daphnia magna?|Aquat. Toxicol.172:95-102|2016|10.1016/j.aquatox.2015.12.007
180871|T||Rutledge,L.C., N.M. Echano, and R.K. Gupta|Responses of Male and Female Mosquitoes to Repellents in the World Health Organization Insecticide Irritability Test System|Am. Mosq. Control Assoc. J.15(1): 60-64|1999|
180872|A||Tu,T.Y., C.Y. Hong, T. Sasado, S. Kashiwada, and P.J. Chen|Early Life Exposure to a Rodent Carcinogen Propiconazole Fungicide Induces Oxidative Stress and Hepatocarcinogenesis in Medaka Fish|Aquat. Toxicol.170:52-61|2016|10.1016/j.aquatox.2015.11.014
180874|A||Hoover,G.M.|Effects of Per/Polyfluoroalkyl Substance Exposure on Larval Amphibians|Ph.D.Thesis, Purdue University, West Lafayette, IN:119 p.|2018|
180875|A||Melvin,S.D., F.D.L. Leusch, and A.R. Carroll|Metabolite Profiles of Striped Marsh Frog (Limnodynastes peronii) Larvae Exposed to the Anti-Androgenic Fungicides Vinclozolin and Propiconazole are Consistent with Altered Steroidogenesis and Oxidative Stress|Aquat. Toxicol.199:232-239|2018|10.1016/j.aquatox.2018.04.004
180876|T||Bittner,T., S. Nadler, E. Schulze, and C. Fischer-Iglesias|Two Homolog Wheat Glycogen Synthase Kinase 3/SHAGGY - Like Kinases are Involved in Brassinosteroid Signaling|BMC Plant Biol.15(247): 20 p.|2015|
180877|T||Jones,M.E., J. Kabashima, A. Eskalen, M. Dimson, J.S. Mayorquin, J.D. Carrillo, C.C. Hanlon, and T.D. Paine|Evaluations of Insecticides and Fungicides for Reducing Attack Rates of a New Invasive Ambrosia Beetle (Euwallacea sp., Coleoptera: Curculionidae: Scolytinae) in Infested Landscape Trees in California|J. Econ. Entomol.110(4): 1611-1618|2017|10.1093/jee/tox163
180878|T||Ishihara,A., N. Nishiyama, S.I. Sugiyama, and K. Yamauchi|The Effect of Endocrine Disrupting Chemicals on Thyroid Hormone Binding to Japanese Quail Transthyretin and Thyroid Hormone Receptor|Gen. Comp. Endocrinol.134(1): 36-43|2003|10.1016/S0016-6480(03)00197-7
180879|T||Karthika,C., and N. Muraleedharan|Influence of Manufacturing Process on the Residues of Certain Fungicides Used on Tea|Toxicol. Environ. Chem.92(7): 1249-1257|2010|10.1080/02772240903362469
180880|T||Hartwig,T., G.S. Chuck, S. Fujioka, A. Klempien, R. Weizbauer, D.P.V. Potluri, S. Choe, G.S. Johal, and B. Schulz|Brassinosteroid Control of Sex Determination in Maize|Proc. Natl. Acad. Sci. U.S.A.108(49): 19814-19819|2011|10.1073/pnas.1108359108
180881|T||Hesketh,H., E. Lahive, A.A. Horton, A.G. Robinson, C. Svendsen, A. Rortais, J.L. Dorne, J. Baas, D.J. Spurgeon, and M.S|Extending Standard Testing Period in Honeybees to Predict Lifespan Impacts of Pesticides and Heavy Metals Using Dynamic Energy Budget Modelling|Sci. Rep.6:12 p.|2016|10.1038/srep37655
180883|A||Tollefsen,K.E.|Interaction of Estrogen Mimics, Singly and in Combination, with Plasma Sex Steroid-Binding Proteins in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.56(3): 215-225|2002|10.1016/S0166-445X(01)00154-0
180885|A||Randall,R.C., R.J. Ozretich, and B.L. Boese|Acute Toxicity of Butyl Benzene Phthalate to the Saltwater Fish English Sole, Parophrys vetulus|Environ. Sci. Technol.17(11): 670-672|1983|10.1021/es00117a009
180886|A||Sun,G., and K. Liu|Developmental Toxicity and Cardiac Effects of Butyl Benzyl Phthalate in Zebrafish Embryos|Aquat. Toxicol.192:165-170|2017|10.1016/j.aquatox.2017.09.020
180887|T||Guy,S.O.|Fungicides and Agronomic Management Practices on Soybean and Winter Wheat|Ph.D Thesis, University of Wisconsin, Madison, WI:176 p.|1988|
180888|T||Lawson,J.A.|The Effect of Propiconazole on the Physiology and Pathology of Winter Wheat|Ph.D Thesis, University of Wolverhampton, UK:445 p.|1989|
180889|A||Nomura,Y., N. Mitsui, U.K. Bhawal, M. Sawajiri, O. Tooi, T. Takahashi, and M. Okazaki|Estrogenic Activity of Phthalate Esters by In Vitro VTG Assay Using Primary-Cultured Xenopus Hepatocytes|Dent. Mater.25(3): 533-537|2006|10.4012/dmj.25.533
180890|T||Fettig,C.J., A.S. Munson, D.M. Grosman, and P.B. Bush|Evaluations of Emamectin Benzoate and Propiconazole for Protecting Individual Pinus contorta from Mortality Attributed to Colonization by Dendroctonus ponderosae and Associated Fungi|Pest Manag. Sci.70:771-778|2014|10.1002/ps.3612
180891|T||Dubey,P., A.K. Mishra, P. Shukla, and A.K. Singh|Differential Sensitivity of Barley (Hordeum vulgare l.) to Chlorpyrifos and Propiconazole: Morphology, Cytogenetic Assay and Photosynthetic Pigments|Pestic. Biochem. Physiol.124:29-36|2015|10.1016/j.pestbp.2015.03.013
180892|A||Jarmolowicz,S., K. Demska-Zakes, and Z. Zakes|Impact of Butyl Benzyl Phthalate on Development of the Reproductive System of European Pikeperch, Sander lucioperca (L.)|Acta Vet. Hung.62(3): 397-407|2014|10.1556/avet.2014.008
180893|T||Brattsten,L.B., D.A. Berger, and L.B. Dungan|In Vitro Inhibition of Midgut Microsomal P450s from Spodoptera eridania Caterpillars by Demethylation Inhibitor Fungicides and Plant Growth Regulators|Pestic. Biochem. Physiol.49:234-243|1994|10.1006/pest.1994.1025
180894|T||Blaedow,R.A., J. Juzwik, and B. Barber|Propiconazole Distribution and Effects on Ceratocystis fagacearum Survival in Roots of Treated Red Oaks|Phytopathology100(10): 979-985|2010|10.1094/PHYTO-01-10-0008
180895|T||Latham,A.J., and J.M. Hammond|Control of Cladosporium caryigenum on Pecan Leaves and Nut Shucks with Propiconazole (CGA-64250)|Plant Dis.67(10): 1136-1139|1983|10.1094/PD-67-1136
180896|A||Monsanto Co.|Initial Submission: 14-Day Algal Bottle Assay with Cover Letter Dated 081492|EPA/OTS 88-920007502:29 p.|1992|
180897|T||Ahmed,F., K.M. Khalequzzaman, N. Islam, M.K. Anam, and M.T. Islam|Effect of Fungicides Against Bipolaris oryzae of Rice Under In Vitro Condition|Plant Pathol. J.1(1): 4-7|2002|10.3923/ppj.2002.4.7
180898|T||Gupta,A.K., R. Rishi, K. Kumari, S.P. Singh, I.S. Solanki, and R. Choudhary|Management of Major Diseases of Indian Mustard Through Balanced Fertilization, Cultural Practices and Fungicides in Calcareous Soils|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.88(1): 229-239|2018|10.1007/s40011-016-0749-4
180899|T||Reeves,D.W., P.L. Mask, C.W. Wood, and D.P. Delaney|Determination of Wheat Nitrogen Status with a Hand-Held Chlorophyll Meter: Influence of Management Practices|J. Plant Nutr.16(5): 781-796|1993|10.1080/01904169309364574
180900|T||Latham,A.J.|Laboratory and Greenhouse Techniques for Evaluating Selected Fungicides Against Cristulariella moricola on Pecan Leaves|Plant Dis.71(11): 1010-1014|1987|10.1094/PD-71-1010
180901|T||AFEAS|Final Report, Effects of Trifluoroacetic Acid (TFA) on Symbiotic Nitrogen Fixation in Soybean Plants, with Cover Letter Dated 9/29/1997|EPA/OTS 86-980000011:18 p.|1997|
180902|T||Monsanto Co.|Initial Submission: Evaluation of Butyl Benzyl Phthalate with Laying Hens with Cover Letter Dated 080792|EPA/OTS 88-920007247:18 p.|1992|
180903|A||Monsanto Co.|Acute Toxicity of Santicizer 711 (BN-78-1384309-1) to the Freshwater Algae Microcystis aeruginosa, Selenastrum capricornutum, and Navicula pelliculosa, and the Marine Algae Skeletonema costatum and Dunaliella tertiolect|EPA/OTS 878211494:20 p.|1992|
180905|A||Monsanto Co.|Flow-Through Acute Toxicity Study of Benzyl Butyl Phthalate to the Mayfly, Hexagenia sp. with Attached Protocol and Cover Letter Dated 092586|EPA/OTS 40-8626257:141 p.|2000|
180907|A||Monsanto Co.|Initial Submission: Acute Toxicity of Benzyl Butyl Phthalate to Freshwater and Marine Algae with Cover Letter Dated 08/14/92|EPA/OTS 88-920008595:56 p.|1992|
180909|A||De Solla,S.R., and V.S. Langlois|Toxicity and Endocrine Disruption of Phthalates in Fish and Amphibians|SRAD Progress Report 2013-14:20 p.|2014|
180911|A||Monsanto Co.|Acute Toxicity of 14C-Butylbenzyl Phthalate to Eastern Oysters (Crassostrea virginica)|EPA/OTS 40-8626238:32 p.|1986|
180914|T||King,J.R., D.L. Von Windeguth, and A.K.,Jr. Burditt|Ethylene Dibromide Residues in Fruit Fumigated for Quarantine Treatment Against the Caribbean Fruit Fly, 1979-80|Insectic. Acaric. Tests6:178-|1981|10.1093/iat/6.1.178a
180916|A||Monsanto Co.|Acute Toxicity of Butylbenzyl Phthalate to Pink Shrimp (Penaeus duorarum) Under Flow-Through Conditions|EPA/OTS 40-8626236:29 p.|1986|
180918|A||Monsanto Co.|Acute Toxicity Studies on S-160 Using Two Midge Species as the Test Organisms|EPA/OTS 878213936:18 p.|1984|
180919|A||Hoke,R.A., B.D. Ferrell, T.L. Sloman, R.C. Buck, and L.W. Buxton|Aquatic Hazard, Bioaccumulation and Screening Risk Assessment for Ammonium 2,3,3,3-Tetrafluoro-2-(Heptafluoropropoxy)-Propanoate|Chemosphere149:336-342|2016|10.1016/j.chemosphere.2016.01.009
180920|T||Stutts,L., Y. Wang, and A.E. Stapleton|Plant Growth Regulators Ameliorate or Exacerbate Abiotic, Biotic and Combined Stress Interaction Effects on Zea mays Kernel Weight with Inbred-Specific Patterns|Environ. Exp. Bot.147:179-188|2018|10.1016/j.envexpbot.2017.12.012
180921|T||Sarpkaya,K., and A. Yilmaz|A Preliminary Study: The Effect of Kaolin to Control Septoria Leaf Spot Disease on Pistachio in Turkey|Acta Hortic.1028:195-199|2014|10.17660/ActaHortic.2014.1028.31
180922|T||Juntunen,M.L., and V. Kitunen|Leaching of Pesticides Through Container Peat Medium in Forest Seedling Production|Acta Hortic.779:221-229|2008|10.17660/ActaHortic.2008.779.27
180923|A||Hemalatha,D., A. Muthukumar, B. Rangasamy, B. Nataraj, and M. Ramesh|Impact of Sublethal Concentration of a Fungicide Propiconazole on Certain Health Biomarkers of Indian Major Carp Labeo rohita|Biocatal. Agric. Biotechnol.8:321-327|2016|10.1016/j.bcab.2016.10.009
180924|T||Bock,C.H., M.W. Hotchkiss, and B.W. Wood|Fruit and Nut Weight in Pecan Tree Canopies in Relation to the Severity of Pecan Scab at Different Heights|For. Pathol.47(3): 11 p.|2017|10.1111/efp.12331
180925|T||Jorgensen,L.N.|Rainfastness of Propiconazole: Effects of Formulations, Dose and Adjuvants in Cereals|Asp. Appl. Biol.48:91-98|1997|
180926|T||Ruske,R.E., M.J. Gooding, and B.J. Dobraszczyk|Effects of Triazole and Strobilurin Fungicide Programmes, with and Without Late-Season Nitrogen Fertiliser, on the Baking Quality of Malacca Winter Wheat|J. Cereal Sci.40(1): 1-8|2004|10.1016/j.jcs.2004.03.003
180927|T||Jakubowska,D., and M. Janicka|The Role of Brassinosteroids in the Regulation of the Plasma Membrane H+-ATPase and NADPH Oxidase Under Cadmium Stress|Plant Sci.264:37-47|2017|10.1016/j.plantsci.2017.08.007
180928|T||Stapleton,P.G.|The Effect of Sowing Date, Autumn Fungicide and Seed Rate on the Growth, Development and Yield of Winter Barley|Res. Dev. Agric.1(2): 89-93|1984|
180929|T||Juntunen,M.L., and V. Kitunen|Leaching of Propiconazole and Chlorothalonil During Production of Pinus sylvestris Seedlings in Containers|Scand. J. For. Res.18(1): 45-53|2003|10.1080/02827581.2003.10383137
180930|T||Babiker,E.M., S.H. Hulbert, and T.C. Paulitz|Hyaloperonospora camelinae on Camelina sativa in Washington State: Detection, Seed Transmission, and Chemical Control|Plant Dis.96(11): 1670-1674|2012|10.1094/PDIS-02-12-0212-RE
180931|A||Monsanto Co.|Santicizer 160 (S-160) Natural Water Die-Away Toxicity Test with Daphnia magna|EPA/OTS 878213611:27 p.|1983|
180932|T||Alvarez,L.A., A. Vicent, J.M. Soler, E. De La Roca, J. Bascon, and J. Garcia-Jimenez|Comparison of Application Methods of Systemic Fungicides to Suppress Branch Cankers in Clementine Trees Caused by Phytophthora citrophthora|Plant Dis.92(9): 1357-1363|2008|10.1094/PDIS-92-9-1357
180933|A||Monsanto Co.|Acute Toxicity of Santicizer 160 (Butyl Benzyl Phthalate) to Daphnia magna in the Presence of Fulvic Acid|EPA/OTS 878213612:16 p.|1983|
180934|T||Al-Mughrabi,K.I., R.D. Peters, H.W. Platt, G. Moreau, A. Vikram, R. Poirier, and I. Macdonald|In-Furrow Applications of Metalaxyl and Phosphite for Control of Pink Rot (Phytophthora erythroseptica) of Potato in New Brunswick, Canada|Plant Dis.91(10): 1305-1309|2007|10.1094/PDIS-91-10-1305
180935|A||Monsanto Co.|Acute Toxicity of GLP-1 (9AB981018) to Midge (Paratanytarsus parthenogenetica) with Cover Letter|EPA/OTS 878213934:37 p.|1984|
180936|T||Antonopoulos,D.F., T. Melton, and A.L. Mila|Effects of Chemical Control, Cultivar Resistance, and Structure of Cultivar Root System on Black Shank Incidence of Tobacco|Plant Dis.94(5): 613-620|2010|10.1094/PDIS-94-5-0613
180937|A||Monsanto Co.|Chronic Toxicity of Santicizer 160 to Daphnia magna: 21-Day Chronic Renewal Study|EPA/OTS 878213583:160 p.|1983|
180938|T||Morales-Rodriguez,C., C. Palo, E. Palo, and M.C. Rodriguez-Molina|Control of Phytophthora nicotianae with Mefenoxam, Fresh Brassica Tissues, and Brassica Pellets|Plant Dis.98(1): 77-83|2014|10.1094/PDIS-04-13-0393-RE
180939|T||Nelson,B.D., I. Mallik, D. Mcewen, and T. Christianson|Pathotypes, Distribution, and Metalaxyl Sensitivity of Phytophthora sojae from North Dakota|Plant Dis.92(7): 1062-1066|2008|10.1094/PDIS-92-7-1062
180941|A||Monsanto Co.|Flow-Through Acute Toxicity Report - 96 Hr Flow-Through Toxicity Study of Benzyl Butyl Phthalate to the Freshwater Crayfish, Procambarus sp (Final Report) W-Attach & Letter 072888|EPA/OTS 40-8626254:111 p.|1986|
180944|A||Monsanto Co.|Report on the Toxicity of Butylbenzyl Phthalate to the Early Life Stages of Rainbow Trout|EPA/OTS 40-8626223:443 p.|2000|
180945|A||Chemical Manufacturers Association|Acute Toxicity of Fourteen Phthalate Esters to Rainbow Trout (Salmo gairdneri) Under Flow-Through Conditions (Final Report)|EPA/OTS 40-8326144, Report No. BW-83-3-1373:58 p.|1983|
180948|T||Niranjan Raj,S., G. Chaluvaraju, K.N. Amruthesh, H.S. Shetty, M.S. Reddy, and J.W. Kloepper|Induction of Growth Promotion and Resistance Against Downy Mildew on Pearl Millet (Pennisetum glaucum) by Rhizobacteria|Plant Dis.87(4): 380-384|2003|10.1094/PDIS.2003.87.4.380
180949|T||Rebollar-Alviter,A., L.V. Madden, and M.A. Ellis|Efficacy of Azoxystrobin, Pyraclostrobin, Potassium Phosphite, and Mefenoxam for Control of Strawberry Leather Rot Caused by Phytophthora cactorum|Plant Health Prog.:6 p.|2005|
180950|T||Kanjanamaneesathian,M., V. Phetcharat, A. Pengnoo, and S. Upawan|Use of Trichoderma harzianum Cultured on Ground Mesocarp Fibre of Oil-Palm as Seed Treatment to Control Pythium aphanidermatum, a Causal Agent of Damping-Off of Chinese Kale Seedling|World J. Microbiol. Biotechnol.19(8): 825-829|2003|10.1023/A:1026004315223
180951|T||Nawaz,K., A.A. Shahid, L. Bengyella, M.N. Subhani, M. Ali, W. Anwar, S. Iftikhar, and S.W. Ali|Evidence of Genetically Diverse Virulent Mating Types of Phytophthora capsici from Capsicum annum L.|World J. Microbiol. Biotechnol.34(9): 15 p.|2018|10.1007/s11274-018-2511-y
180952|T||Nickle,T.C.|A Phenotypic Survey of the Arabidopsis thaliana Cytokinesis Defective Mutant Cyt1|Ph.D.Thesis, Oklahoma State Univ., Oklahoma:192 p.|1998|
180953|T||Hoagland,L., L. Carpenter-Boggs, J.P. Reganold, and M. Mazzola|Role of Native Soil Biology in Brassicaceous Seed Meal-Induced Weed Suppression|Soil Biol. Biochem.40(7): 1689-1697|2008|10.1016/j.soilbio.2008.02.003
180954|A||Arenas-Sanchez,A., I. Lopez-Heras, L. Nozal, M. Vighi, and A. Rico|Effects of Increased Temperature, Drought, and an Insecticide on Freshwater Zooplankton Communities|Environ. Toxicol. Chem.38(2): 396-411|2019|10.1002/etc.4304
180956|A||Martinez,R., L. Herrero-Nogareda, M. Van Antro, M.P. Campos, M. Casado, C. Barata, B. Pina, and L. Navarro-Martin|Morphometric Signatures of Exposure to Endocrine Disrupting Chemicals in Zebrafish Eleutheroembryos|Aquat. Toxicol.214(105232): 17 p.|2019|
180957|A||Agbohessi,P.T., I. Imorou Toko, A. Houndji, V. Gillardin, S.N.M. Mandiki, and P. Kestemont|Acute Toxicity of Agricultural Pesticides to Embryo-Larval and Juvenile African Catfish Clarias gariepinus|Arch. Environ. Contam. Toxicol.64(4): 692-700|2013|10.1007/s00244-012-9871-3
180958|T||Browne,G.T., and M.A. Viveros|Effects of Phosphonate and Mefenoxam Treatments on Development of Perennial Cankers Caused by Two Phytophthora spp. on Almond|Plant Dis.89(3): 241-249|2005|10.1094/PD-89-0241
180959|T||Sutan,N.A., A. Popescu, C. Mihaescu, L.C. Soare, and M.V. Marinescu|Evaluation of Cytotoxic and Genotoxic Potential of the Fungicide Ridomil in Allium cepa L.|An. Stiint. Univ. Al.I Cuza Lasi60(1): 5-12|2014|
180960|T||Kamalakannan,A., and V. Shanmugam|Management Approaches of Maize Downy Mildew Using Biocontrol Agents and Plant Extracts|Acta Phytopathol. Entomol. Hung.44(2): 255-266|2009|10.1556/APhyt.44.2009.2.4
180961|T||Ji,P., A.S. Csinos, L.L. Hickman, and U. Hargett|Efficacy and Application Methods of Oxathiapiprolin for Management of Black Shank on Tobacco|Plant Dis.98(11): 1551-1554|2014|10.1094/PDIS-02-14-0172-RE
180962|A||Lu,Y., P. Zhang, C. Li, X. Su, C. Jin, Y. Li, Y. Xu, and T. Li|Characterisation of Immune-Related Gene Expression in Clam (Venerupis philippinarum) Under Exposure to Di(2-Ethylhexyl) Phthalate|Fish Shellfish Immunol.34(1): 142-146|2013|10.1016/j.fsi.2012.10.015
180963|T||Moya-Elizondo,E.A., and B.J. Jacobsen|Integrated Management of Fusarium Crown Rot of Wheat Using Fungicide Seed Treatment, Cultivar Resistance, and Induction of Systemic Acquired Resistance (SAR)|Biol. Control92:153-163|2016|10.1016/j.biocontrol.2015.10.006
180964|T||Ndoungue,M., S. Petchayo, Z. Techou, W.G. Nana, C. Nembot, D. Fontem, and G.M. Ten Hoopen|The Impact of Soil Treatments on Black Pod Rot (Caused by Phytophthora megakarya) of Cacao in Cameroon|Biol. Control123:9-17|2018|10.1016/j.biocontrol.2018.04.016
180965|A||Ganesan,P., A. Stalin, M.G. Paulraj, K. Balakrishna, S. Ignacimuthu, and N.A. Al-Dhabi|Biocontrol and Non-Target Effect of Fractions and Compound Isolated from Streptomyces rimosus on the Immature Stages of Filarial Vector Culex quinquefasciatus Say (Diptera: Culicidae) and the Compound Interaction with A|Ecotoxicol. Environ. Saf.161:120-128|2018|10.1016/j.ecoenv.2018.05.061
180966|T||Taylor,R.J., J.S. Pasche, and N.C. Gudmestad|Susceptibility of Eight Potato Cultivars to Tuber Infection by Phytophthora erythroseptica and Pythium ultimum and Its Relationship to Mefenoxam-Mediated Control of Pink Rot and Leak|Ann. Appl. Biol.152(2): 189-199|2008|10.1111/j.1744-7348.2007.00203.x
180967|A||Ahmadivand,S., H. Farahmand, L. Teimoori-Toolabi, A. Mirvaghefi, S. Eagderi, T. Geerinckx, S. Shokrpoor, and H. Rahmati|Boule Gene Expression Underpins the Meiotic Arrest in Spermatogenesis in Male Rainbow Trout (Oncorhynchus mykiss) Exposed to DEHP and Butachlor|Gen. Comp. Endocrinol.225:235-241|2016|10.1016/j.ygcen.2015.05.011
180968|A||Szczerbik,P., M. Socha, T. Mikolajczyk, M. Sokolowska-Mikolajczyk, J. Chyb, and P. Epler|The Effect of Di(2-Ethylheksyl) Phthalate (DEHP) on LH Secretion in Prussian Carp (Carassius auratus Gibelio B.) and Common Carp (Cyprinus carpio L.)|Cybium32(2): 52-53|2008|
180972|T||Jones,C.R., and D.A. Samac|Biological Control of Fungi Causing Alfalfa Seedling Damping-Off with a Disease-Suppressive Strain of Streptomyces|Biol. Control7(2): 196-204|1996|10.1006/bcon.1996.0084
180973|T||El-Tarabily,K.A.|Rhizosphere-Competent Isolates of Streptomycete and Non-Streptomycete Actinomycetes Capable of Producing Cell-Wall-Degrading Enzymes to Control Pythium aphanidermatum Damping-Off Disease of Cucumber|Can. J. Bot.84(2): 211-222|2006|10.1139/b05-153
180974|T||Hovius,M.H.Y., O. Carisse, V. Philion, and M.R. McDonald|Field Evaluation of Weather-Based Spray Programs for the Control of Downy Mildew of Lettuce (Lactuca sativa), Caused by Bremia lactucae, in Quebec and Ontario|Can. J. Plant Pathol.29(1): 9-17|2007|10.1080/07060660709507432
180975|T||Fontem,D.A., O.M. Olanya, G.R. Tsopmbeng, and M.A.P. Owona|Pathogenicity and Metalaxyl Sensitivity of Phytophthora infestans Isolates Obtained from Garden Huckleberry, Potato and Tomato in Cameroon|Crop Prot.24(5): 449-456|2005|10.1016/j.cropro.2004.09.012
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180978|T||Deacon,V.E., M.A. Van den Berg, and B. Sutherland|A Further Comparison of Chitin Synthesis Inhibitors for the Control of Trioza erytreae (Hemiptera: Triozidae) in South Africa|Tests Agrochem. Cultiv.:6-7|1989|
180979|A||Anonymous|Bioassay Report Acute Toxicity of Compounds to Bluegill (Lepomis macrochirus). Prepared by Bionomics Inc with Cover Letter|EPA/OTS 878220808:14|1982|
180980|A||Monsanto Co.|Acute Toxicity of Di (2-Ethylhexyl) Phthalate to Chironomus tentans|EPA/OTS 878211612:20 p.|1983|
180981|A||Monsanto Co.|Acute Toxicity of Di-(2-Ethylhexyl) Phthalate (DEHP) to the Midge Paratanytarsus parthenogenetica|EPA/OTS 878211610:16|1983|
180982|A||Monsanto Co.|Acute Toxicity of Di-2-Ethylhexyl Phthalate (DEHP) to Daphnia magna in the Presence of Fulvic Acid|EPA/OTS 878211609:11 p.|1983|
180983|A||Monsanto Co.|Acute Toxicity of Di-2-Ethylhexyl Phthalate (DEHP) to Daphnia magna|EPA/OTS 878211607:20 p.|1983|
180984|A||Ibrahim,A.M., A.K. Ahmed, F.A. Bakry, and F. Abdel-Ghaffar|Hematological, Physiological and Genotoxicological Effects of Match 5% EC Insecticide on Biomphalaria alexandrina Snails|Ecotoxicol. Environ. Saf.147:1017-1022|2018|10.1016/j.ecoenv.2017.09.059
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180986|A||Chikae,M., Y. Hatano, R. Ikeda, Y. Morita, Q. Hasan, and E. Tamiya|Effects of Bis(2-Ethylhexyl) Phthalate and Benzo(a)Pyrene on the Embryos of Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Pharmacol.16(3): 141-145|2004|10.1016/j.etap.2003.11.007
180987|A||Kamstra,J.H., L.B. Sales, P. Alestrom, and J. Legler|Differential DNA Methylation at Conserved Non-Genic Elements and Evidence for Transgenerational Inheritance Following Developmental Exposure to Mono(2-Ethylhexyl) Phthalate and 5-Azacytidine in Zebrafish|Epigenetics Chromatin10:18 p.|2017|10.1186/s13072-017-0126-4
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180990|A||Cui,F., T. Chai, L. Qian, and C. Wang|Effects of Three Diamides (Chlorantraniliprole, Cyantraniliprole and Flubendiamide) on Life History, Embryonic Development and Oxidative Stress Biomarkers of Daphnia magna|Chemosphere169:107-116|2017|10.1016/j.chemosphere.2016.11.073
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180992|T||Rank,J., L.C. Lopez, M.H. Nielsen, and J. Moretton|Genotoxicity of Maleic Hydrazide, Acridine and DEHP in Allium cepa Root Cells Performed by Two Different Laboratories|Hereditas136(1): 13-18|2002|10.1034/j.1601-5223.2002.1360103.x
180993|T||Ono,E.K., O.Z. Zanardi, K.F.A. Santos, and P.T. Yamamoto|Susceptibility of Ceraeochrysa cubana Larvae and Adults to Six Insect Growth-Regulator Insecticides|Chemosphere168:49-57|2017|10.1016/j.chemosphere.2016.10.061
180994|T||Wu,L., K.F. Chang, S.F. Hwang, R. Conner, R. Fredua-Agyeman, D. Feindel, and S.E. Strelkov|Evaluation of Host Resistance and Fungicide Application as Tools for the Management of Root Rot of Field Pea Caused by Aphanomyces euteiches|Crop J.7(1): 38-48|2019|10.1016/j.cj.2018.07.005
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180996|T||Anderson,T.R.|Fungi Isolated from Stems and Roots of Soybean in Ontario |Can. Plant Dis. Surv.67(1): 3-5|1987|
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180999|T||Li,S.W., C.M. How, and V.H.C. Liao|Prolonged Exposure of Di(2-Ethylhexyl) Phthalate Induces Multigenerational Toxic Effects in Caenorhabditis elegans|Sci. Total Environ.634:260-266|2018|10.1016/j.scitotenv.2018.03.355
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181002|T||Zhang,G., M. Babadoost, A. De Young, E.T. Johnson, and D.A. Schisler|Evaluation of Selected Fungicide Application Regimes and Biotic Agents for the Management of Basil Downy Mildew|HortTechnology28(6): 822-829|2018|10.21273/HORTTECH04076-18
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181017|A||Liu,K.C., R.S.S. Wu, and W. Ge|Luteinizing Hormone Receptor (lhcgr) as a Marker Gene for Characterizing Estrogenic Endocrine-Disrupting Chemicals in Zebrafish Ovarian Follicle Cells|Gen. Comp. Endocrinol.192:89-94|2013|10.1016/j.ygcen.2013.06.023
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181020|A||Ye,T., M. Kang, Q. Huang, C. Fang, Y. Chen, L. Liu, and S. Dong|Accumulation of Di(2-Ethylhexyl) Phthalate Causes Endocrine-Disruptive Effects in Marine Medaka (Oryzias melastigma) Embryos|Environ. Toxicol.31(1): 116-127|2016|10.1002/tox.22028
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181022|A||Soares,P.R.L., A.L.C. De Andrade, T.P. Santos, S.C.B.L. Da Silva, J.F. Da Silva, A.R. Dos Santos, E.H.L. Da Silva Souza|Acute and Chronic Toxicity of the Benzoylurea Pesticide, Lufenuron, in the Fish, Colossoma macropomum|Chemosphere161:412-421|2016|10.1016/j.chemosphere.2016.07.033
181023|A||Zhang,Y., X. Li, J. Gao, and H. Wang|Influence of DEHP on Thyroid, Sex Steroid-Related Genes and Gonadal Differentiation in Rana chensinensis Tadpoles|Environ. Toxicol.33(1): 112-121|2018|10.1002/tox.22504
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181031|T||Bedmar,F.|Evaluation of Preemergence Applications of Flupoxam and Diflufenican with and Without Acetochlor on Control of Weeds in Sunflower|Tests Agrochem. Cultiv.16:68-69|1995|
181032|A||Wagbo,A.M., M.V. Cangialosi, N. Cicero, R.J. Letcher, and A. Arukwe|Perfluorooctane Sulfonamide-Mediated Modulation of Hepatocellular Lipid Homeostasis and Oxidative Stress Responses in Atlantic Salmon Hepatocytes|Chem. Res. Toxicol.25(6): 1253-1264|2012|10.1021/tx300110u
181033|T||Bains,S.S., and N.K. Sharma|Differential Response of Certain Cucurbits to Isolates of Pseudoperonospora cubensis and Characteristics of Identified Races|Phytophylactica18(1): 31-34|1986|
181034|T||Gilardi,G., S. Demarchi, M.L. Gullino, and A. Garibaldi|Nursery Treatments with Non-Conventional Products Against Crown and Root Rot, Caused by Phytophthora capsici, on Zucchini|Phytoparasitica43(4): 501-508|2015|10.1007/s12600-015-0461-6
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181039|T||Kithan,C., and L. Daiho|In Vitro Evaluation of Botanicals, Bio-Agents and Fungicides Against Leaf Blight of Etlingera linguiformis Caused by Curvularia lunata var. Aeria|J. Plant Pathol. Microbiol.5(3): 6 p.|2014|10.4172/2157-7471.1000232
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181045|T||Jabaji-Hare,S.H., and W.B. Kendrick|Response of an Endomycorrhizal Fungus in Allium porrum L. to Different Concentrations of the Systemic Fungicides, Metalaxyl (Ridomil) and Fosetyl-Al (Aliette)|Soil Biol. Biochem.19(1): 95-99|1987|10.1016/0038-0717(87)90131-3
181046|T||Achar,P.N.|Effect of Metalaxyl on Sporulation of Peronospora parasitica in Raphanus sativus|Geobios (Jodhpur)19(6): 272-277|1992|
181047|T||Owens,D., G.S. Nuessly, D.R. Seal, and T.A. Colquhoun|Variable Pyrethroid Susceptibility Among the Sweet Corn-Infesting Ulidiidae (Diptera) in Florida and New Baseline Susceptibilities|J. Econ. Entomol.109(3): 1283-1288|2016|10.1093/jee/tow054
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181049|T||Leenhouts,H.P., M.J. Sijsma, A. Cebulska-Wasilewska, and K.H. Chadwick|The Combined Effect of DBE and X-Rays on the Induction of Somatic Mutations in Tradescantia|Int. J. Radiat. Biol. Relat. Stud. Phys. Chem. Med.49(1): 109-119|1986|10.1080/09553008514552281
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181053|T||Kramers,P.G.N., B. Bissumbhar, and H.C.A. Mout|Studies with Gaseous Mutagens in Drosophila melanogaster|Environ. Sci. Res.32:65-73|1985|
181054|T||Moore,S.K., and V. Srivastava|A Bacterial Haloalkane Dehalogenase (dhlA) Gene as Conditional Negative Selection Marker for Rice Callus Cells|In Vitro Cell. Dev. Biol., Plant44(6): 468-473|2008|10.1007/s11627-008-9144-z
181055|T||Li,Y., N. Yang, X. Wei, Y. Ling, X. Yang, and Q. Wang|Evaluation of Etoxazole Against Insects and Acari in Vegetables in China|J. Insect Sci.14:104-104|2014|
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181061|A||Ethyl Corp.|Four-Day Static Fish Toxicity Studies with Methyl Chloride|EPA/OTS 86-870001697:48 p.|1971|
181063|T||Wang,W., Q. Wan, Y. Li, W. Xu, and X. Yu|Uptake, Translocation and Subcellular Distribution of Pesticides in Chinese Cabbage (Brassica rapa var. chinensis)|Ecotoxicol. Environ. Saf.183:6 p.|2019|
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181065|T||Liu,X., H.Y. Wang, Y.B. Ning, K. Qiao, and K.Y. Wang|Resistance Selection and Characterization of Chlorantraniliprole Resistance in Plutella xylostella (Lepidoptera: Plutellidae)|J. Econ. Entomol.108(4): 1978-1985|2015|10.1093/jee/tov098
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181068|T||Frei,H., and F.E. Wurgler|The Vicinal Chloroalcohols 1,3-Dichloro-2-Propanol (DC2P), 3-Chloro-1,2-Propanediol (3CPD) and 2-Chloro-1,3-Propanediol (2CPD) are not Genotoxic In Vivo in the Wing Spot Test of Drosophila melanogaster|Mutat. Res., Genet. Toxicol. Environ. Mutagen.394:59-68|1997|10.1016/S1383-5718(97)00125-3
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181073|T||Roditakis,E., C. Skarmoutsou, and M. Staurakaki|Toxicity of Insecticides to Populations of Tomato Borer Tuta absoluta (Meyrick) from Greece|Pest Manag. Sci.69(7): 834-840|2013|10.1002/ps.3442
181074|T||Campos,M.R., T.B.M. Silva, W.M. Silva, J.E. Silva, and H.A.A. Siqueira|Susceptibility of Tuta absoluta (Lepidoptera: Gelechiidae) Brazilian Populations to Ryanodine Receptor Modulators|Pest Manag. Sci.71:537-544|2015|10.1002/ps.3835
181075|T||Huang,Q., L. Zhang, C. Yang, X. Yun, and Y. He|The Competence of Hemocyte Immunity in the Armyworm Mythimna separata Larvae to Sublethal Hexaflumuron Exposure|Pestic. Biochem. Physiol.130:31-38|2016|10.1016/j.pestbp.2015.12.003
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181079|AT||Stauffer Chemical Co.|Four Toxicological Studies of 1,2-Dichloroethane with Attachments and Cover Letter Dated 072387|EPA/OTS 86-870000606:21 p.|1987|
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181085|T||Kao,C.H., and E.Y. Cheng|Study on Cross-Resistance Between BPU-Type IGRs and Other Insecticides Including Bacillus thuringiensis and Abamectin in the Diamondback Moth, Plutella xylostella L.|J. Taiwan Agric. Res. Inst. (Multiple Languages)48(4): 84-95|1999|
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181088|T||Bouchiat,R., E. Veignie, D. Grizard, C. Soebert, M. Vigier, and C. Rafin|Ability of Filamentous Fungi to Degrade Four Emergent Water Priority Pollutants|Desalination57(15): 6740-6746|2016|10.1080/19443994.2015.1013508
181090|A||Shell Oil Co.|The Effects of Water Hardness, Temperature and Size of Test Organism on the Susceptibility of Fresh Water Shrimp Gammarus pulex (L) to Toxicants with Cover Letter|EPA/OTS 878210074:24 p.|1982|
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181092|T||Zhu,X.Z., J. Guo, H. Shao, and G.Q. Yang|Effects of Allelochemicals from Ageratina adenophora (Spreng.) on Its Own Autotoxicity|Allelopathy J.34(2): 253-264|2014|
181093|T||Zhang,J., X. Tang, I. Ishaaya, S. Cao, J. Wu, J. Yu, H. Li, and X. Qian|Synthesis and Insecticidal Activity of Heptafluoroisopropyl-Containing Benzoylphenylurea Structures|J. Agric. Food Chem.58(5): 2736-2740|2010|10.1021/jf9025508
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181099|T||Harrington,T.B., D.H. Peter, and W.D. Devine|Two-Year Effects of Aminopyralid on an Invaded Meadow in the Washington Cascades|Invasive Plant Sci. Manag.7(1): 14-24|2014|10.1614/IPSM-D-13-00005.1
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181105|T||Fast,B.J.|Aminopyralid Fate in Plant Tissues and Soil|Ph.D Thesis, University of Florida, Gainesville, FL:63 p.|2010|
181106|A||Wang,J., Y. Li, J. Dai, X. Su, C. Li, and L. Shen|Long-Term Effects of Di-Octyl Phthalate on the Expression of Immune-Related Genes in Tegillarca granosa|Chin. J. Oceanol. Limnol.34(3): 423-429|2016|10.1007/s00343-015-4297-1
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181108|T||Saleem,M., D. Hussain, G. Ghouse, M. Abbas, and S.W. Fisher|Monitoring of Insecticide Resistance in Spodoptera litura (Lepidoptera: Noctuidae) from Four Districts of Punjab, Pakistan to Conventional and New Chemistry Insecticides|Crop Prot.79:177-184|2016|10.1016/j.cropro.2015.08.024
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181111|T||Suzuki,Y., T. Shiotsuki, A. Jouraku, K. Miura, and C. Minakuchi|Benzoylurea Resistance in Western Flower Thrips Frankliniella occidentalis (Thysanoptera: Thripidae): The Presence of a Point Mutation in Chitin Synthase 1|J. Pestic. Sci. (Multiple Languages)42(3): 93-96|2017|10.1584/jpestics.D17-023
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181304|T||Odvody,G.N., and R.A. Frederiksen|Use of Systemic Fungicides Metalaxyl and Fosetyl-Al for Control of Sorghum Downy Mildew in Corn and Sorghum in South Texas. I: Seed Treatment|Plant Dis.68(7): 604-607|1984|10.1094/PD-69-604
181305|T||Afek,U., J.A. Menge, and E.L.V. Johnson|Effect of Pythium ultimum and Metalaxyl Treatments on Root Length and Mycorrhizal Colonization of Cotton, Onion, and Pepper|Plant Dis.74(2): 117-120|1990|10.1094/PD-74-0117
181306|T||Moursi,S.K., A.S.H. Abo-Shanab, H.A. Mesbah, S.I. Abdel-Razak, A.K. Mourad, O.A. Zaghloul, and R.S. Abdel-Fatah|Efficacy of Some Oils and Chemical Compounds on Insignorthezia insignis (Browne) (Hemiptera: Ortheziidae) Infesting Lantana camara in Alexandria, Egypt|Commun. Agric. Appl. Biol. Sci.75(3): 345-357|2010|
181307|T||Mengistu,A., H.M. Kelly, P.R. Arelli, N. Bellaloui, and B. Lin|Quantifying the Effects of Fungicides and Tillage on Cercospora sojina Severity and Yield of Soybean|Plant Health Prog.19(3): 226-232|2018|10.1094/PHP-04-18-0017-RS
181308|T||Ghosh,S.K.|Climate Impact on Red Spider Mite (Tetranychus sp. Koch) Infesting Eggplant (Solanum melongena L.) and Their Management Using Plant Extracts|J. Entomol. Res.43(3): 345-350|2019|10.5958/0974-4576.2019.00062.8
181309|T||Durham,M.W., J.A. Ferrell, P.J. Minogue, G.E. MacDonald, and B.A. Sellers|Evaluation of Aminocyclopyrachlor Herbicide for Turf Tolerance and Weed Control on Florida Roadside Right-of-Ways|Weed Technol.30(1): 190-197|2016|10.1614/WT-D-14-00159.1
181310|T||Shah,R.M., S.A. Shad, and N. Abbas|Mechanism, Stability and Fitness Cost of Resistance to Pyriproxyfen in the House Fly, Musca domestica L. (Diptera:  Muscidae)|Pestic. Biochem. Physiol.119:67-73|2015|10.1016/j.pestbp.2015.02.003
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181313|T||Fick,W.H., and K. Harmoney|Great Plains Yucca (Yucca glauca) Control on Shortgrass Rangelands|Weed Technol.33(1): 192-195|2019|10.1017/wet.2018.85
181314|T||Harmoney,K.R.|Controlling Honey Locust (Gleditsia triacanthos) with Cut Stump- and Basal Bark-Applied Herbicides for Grazed Pasture|Weed Technol.30(3): 801-806|2016|10.1614/WT-D-15-00154.1
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181374|T||Bretag,T.W.|Evaluation of Fungicides for the Control of Chocolate Spot in Faba Beans|Tests Agrochem. Cultiv.10(114): 32-33|1989|
181375|T||Bretag,T.W.|Evaluation of Fungicides for the Control of Ascochyta Blight in Lentils|Tests Agrochem. Cultiv.10(114): 44-45|1989|
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181586|A||Valladao,G.M.R., L.O. Alves, and F. Pilarski|Trichodiniasis in Nile Tilapia Hatcheries: Diagnosis, Parasite: Host-Stage Relationship and Treatment|Aquaculture451:444-450|2016|10.1016/j.aquaculture.2015.09.030
181587|A||Tancredo,K.R., J.V. Ferrarezi, N.D.C. Marchiori, and M.L. Martins|Ecotoxicological Assays to Determine the Median Lethal Concentration (LC50) of Formalin for Fish|Aquac. Int.27(3): 685-694|2019|10.1007/s10499-019-00354-w
181588|A||Policar,T., O. Malinovskyi, J. Kristan, V. Stejskal, and A.M. Samarin|Post-Spawning Bath Treatments to Reduce Morbidity and Mortality of Pond-Cultured Pikeperch (Sander lucioperca L.) Broodstock|Aquac. Int.27(4): 1065-1078|2019|10.1007/s10499-019-00392-4
181589|A||Xu,D.H., C.A. Shoemaker, and D. Zhang|Treatment of Trichodina sp Reduced Load of Flavobacterium columnare and Improved Survival of Hybrid Tilapia|Aquac. Rep.2:126-131|2015|10.1016/j.aqrep.2015.09.007
181590|A||Sicuro,B.|The Use of Formaldehyde for the Disinfection of Maternally Incubated Eggs of Noble Crayfish (Astacus astacus)|Int. Aquat. Res.8(4): 353-359|2016|10.1007/s40071-016-0148-8
181591|A||Lahnsteiner,F., and M. Kletzl|Investigations on the Effect of Formalin and Iodophor on Embryo and Larvae Development in Pikeperch, Sander lucioperca|J. Appl. Aquacult.28(1): 47-51|2016|10.1080/10454438.2016.1164649
181592|A||Tancredo,K.R., N.D.C. Marchiori, S.A. Pereira, and M.L. Martins|Toxicity of Formalin for Fingerlings of Cyprinus carpio Var. Koi and In Vitro Efficacy Against Dactylogyrus minutus Kulwiec, 1927 (Monogenea: Dactylogyridae)|J. Parasit. Dis.43(1): 46-53|2019|10.1007/s12639-018-1056-1
181593|A||Garcia-Magana,L., M.A. Rodriguez-Santiago, M.I. Grano-Maldonado, L. Jimenez-Vasconcelos, and J. Guerra-Santos|The Effectiveness of Sodium Chloride and Formalin in Trichodiniasis of Farmed Freshwater Tilapia Oreochromis niloticus (Linnaeus, 1758) in Southeastern Mexico|Latin Am. J. Aquat. Res.47(1): 164-174|2019|10.3856/vol47-issue1-fulltext-18
181594|A||Sandoval-Gio,J.J., R.P. Rodriguez-Canul, V.M. Vidal-Martinez, E.J. Fajer-Avila, and M. Amendola-Pimenta|Formalin Toxicity to Oreochromis niloticus; Its Effectiveness Against Cichlidogyrus spp. and Host Stress Response|Latin Am. J. Aquat. Res.47(1): 34-41|2019|10.3856/vol47-issue1-fulltext-5
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181597|T||Larson,L.L.|Materials Under Trial: Information on Composition, Formulation, and Suppliers|Arthropod Manag. Tests21:429-462|1996|10.1093/amt/21.1.429
181598|T||Larson,L.L.|Materials Tested for Arthropod Management: Information on Composition, Formulation, and Suppliers|Arthropod Manag. Tests22:441-469|1997|10.1093/amt/22.1.441
181599|T||Larson,L.L.|Materials Tested for Arthropod Management: Information on Composition, Formulation, and Suppliers|Arthropod Manag. Tests23:387-418|1998|10.1093/amt/23.1.387
181600|T||Anonymous|Materials Tested for Arthropod Management, Volume 24. Part 1. Materials Evaluated: Known Composition|Arthropod Manag. Tests24:33 p.|1999|
181601|T||Larson,L.L.|Materials Under Trial:  Information on Compostion, Formulation, and Suppliers|Insectic. Acaric. Tests16:303-327|1991|10.1093/iat/16.1.303
181602|T||Anonymous|Materials Under Trial: Information on Composition, Formulation, and Suppliers|Insectic. Acaric. Tests17:395-421|1992|10.1093/iat/17.1.395
181603|T||Larson,L.L.|Materials Under Trial:  Information on Compostion, Formulation, and Suppliers|Insectic. Acaric. Tests18:375-405|1993|10.1093/iat/18.1.375
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181605|T||Anonymous|Materials Available for Testing|Insectic. Acaric. Tests16:301-302|1991|10.1093/iat/16.1.301
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181610|T||Eeken,J.C.J., and F.H. Sobels|The Effect of X-Irradiation and Formaldehyde Treatment of Spermatogonia on the Reversion of an Unstable, P-Element Insertion Mutation in Drosophila melanogaster|Mutat. Res. - Mutat. Res. Lett.175(2): 61-65|1986|10.1016/0165-7992(86)90126-0
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181614|T||Masaki,T., N. Yasokawa, M. Tohnishi, T. Nishimatsu, K. Tsubata, K. Inoue, K. Motoba, and T. Hirooka|Flubendiamide, a Novel Ca2+ Channel Modulator, Reveals Evidence for Functional Cooperation Between Ca2+ Pumps and Ca2+ Release|Mol. Pharmacol.69(5): 1733-1739|2006|10.1124/mol.105.020339
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181619|A||3M Co.|Draft Initial Assessment Report: Perfluorooctane Sulfonic Acid and Its Salts, Summaries of All Hlth & Envirnmntl Exposr & Risk Studies Available as of 072000, W/Cvr Ltr Dtd 121900|EPA/OTS:385 p.|2000|
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181640|T||Baldini,M., C. Ferfuia, and S. Pasquini|Effects of Some Chemical Treatments on Standard Germination, Field Emergence and Vigour in Hybrid Maize Seeds|Seed Sci. Technol.46(1): 41-51|2018|10.15258/sst.2018.46.1.04
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181643|A||Wolkers,C.P.B., A. Barbosa, L. Menescal-De-Oliveira, and A. Hoffmann|Stress-Induced Antinociception in Fish Reversed by Naloxone|PLoS One8(7): 7 p.|2013|10.1371/journal.pone.0071175
181644|A||Kouba,A., H. Niksirat, I. Kuklina, M. Buric, and P. Kozak|Ultraviolet Light and Semi-Recirculating Systems in Artificial Incubation of Noble Crayfish (Astacus astacus) Eggs: Opportunities and Limitations|Aquac. Res.44(1): 67-74|2012|10.1111/j.1365-2109.2011.03010.x
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181646|T||Sutherland,J.H., and W.K. Holloman|Loss of Cohesin Subunit Rec8 Switches Rad51 Mediator Dependence in Resistance to Formaldehyde Toxicity in Ustilago maydis|Genetics210(2): 559-572|2018|10.1534/genetics.118.301439
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181654|AT||Vasuki,V.|Studies on the Effects of an Insect Growth Regulator, OMS 30310 (XRD-473) on the Biology and Behaviour of Some Vector Mosquitoes (Diptera; Culicidae)|Ph.D Thesis, Pondicherry University, Pondicherry, India:267 p.|1990|
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181661|T||Kolbe,W.|Effect of Mildew Control with Bayleton on Vegetative and Generative Growth of Different Apple Varieties|Pflanzenschutz-Nachr. Bayer (English Ed.)34(52): 213-231|1981|
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181663|T||Kolbe,W.|Further Studies on the Fungicidal Activity of Baytan Cereal Seed Treatment and Its Effect on Yield (1975-1981)|Pflanzenschutz-Nachr. Bayer (English Ed.)35(53): 71-103|1982|
181664|T||Kraus,P.|Studies on Uptake and Translocation of Bayleton in Grape Plants|Pflanzenschutz-Nachr. Bayer (English Ed.)34(52): 197-212|1981|
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181669|T||Zhao,S., B. Wang, Z. Zhong, T. Liu, T. Liang, and J. Zhan|Contributions of Enzymes and Gut Microbes to Biotransformation of Perfluorooctane Sulfonamide in Earthworms (Eisenia fetida)|Chemosphere238:9 p.|2020|
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182075|A||Chen,W., H. Liu, Q. Zhang, and S. Dai|Effects of Nitrite and Toxic Microcystis aeruginosa PCC7806 on the Growth of Freshwater Rotifer Brachionus calyciflorus|Bull. Environ. Contam. Toxicol.86(3): 263-267|2011|10.1007/s00128-011-0208-0
182076|A||Cheng,C.H., H.L. Ma, Y.Q. Deng, J. Feng, X.L. Chen, and Z.X. Guo|Glutathione Peroxidase 3 in the Mud Crab Scylla paramamosain: Characterization and Regulation Under Nitrite Stress|Comp. Biochem. Physiol. C Toxicol. Pharmacol.229:9 p.|2020|10.1016/j.cbpc.2019.108673
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182078|A||Cheng,S.Y., L.W. Shieh, and J.C. Chen|Changes in Hemolymph Oxyhemocyanin, Acid-Base Balance, and Electrolytes in Marsupenaeus japonicus Under Combined Ammonia and Nitrite Stress|Aquat. Toxicol.130-131:132-138|2013|10.1016/j.aquatox.2012.12.015
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182081|A||Dutra,F.M., M. Ronnau, D. Sponchiado, S.C. Forneck, C.A. Freire, and E.L.C. Ballester|Histological Alterations in Gills of Macrobrachium amazonicum Juveniles Exposed to Ammonia and Nitrite|Aquat. Toxicol.187:115-123|2017|10.1016/j.aquatox.2017.04.003
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182086|A||Li,S.X., F.J. Liu, F.Y. Zheng, Y.G. Zuo, and X.G. Huang|Effects of Nitrate Addition and Iron Speciation on Trace Element Transfer in Coastal Food Webs Under Phosphate and Iron Enrichment|Chemosphere91(11): 1486-1494|2013|10.1016/j.chemosphere.2012.12.018
182087|A||Li,Z.S., S. Ma, H.W. Shan, T. Wang, and W. Xiao|Responses of Hemocyanin and Energy Metabolism to Acute Nitrite Stress in Juveniles of the Shrimp Litopenaeus vannamei|Ecotoxicol. Environ. Saf.186:12p.|2019|
182088|A||Liang,Y., X. Chen, X. Lu, S. Jin, Y. Min, and J. Yang|Combined Effects of Microcystin and Nitrite on the Growth, Lipid Peroxidation, and Antioxidant Responses of the Freshwater Rotifer Brachionus calyciflorus|Aquat. Toxicol.192:78-88|2017|10.1016/j.aquatox.2017.09.013
182089|A||Lv,J.S., T.F. Cao, C.L. Ji, M. Cong, J.M. Zhao, and H.F. Wu|Digital Gene Expression Analysis in the Gills of Ruditapes philippinarum After Nitrite Exposure|Ecotoxicol. Environ. Saf.184:7 p.|2019|10.1016/j.ecoenv.2019.109661
182090|A||Lyu,K., X. Zhu, R. Chen, Y. Chen, and Z. Yang|Molecular Cloning of Manganese Superoxide Dismutase Gene in the Cladoceran Daphnia magna: Effects of Microcystin, Nitrite, and Cadmium on Gene Expression Profiles|Aquat. Toxicol.148:55-64|2014|10.1016/j.aquatox.2013.12.031
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182097|T||Biswas,S., A. Roy, R. Islam, N. Alam, S. Chowdhury, and M. Rahman|Isolation of Seed-Borne and Seed Associated Fungi of Lablab purpureus (L.) Sweet and Their Biological Control|J. Microbiol. Biotechnol. Food Sci.5(2): 136-141|2015|10.15414/jmbfs.2015.5.2.136-141
182098|T||Rajput,A.Q., M.H. Arain, M.A. Pathan, M.M. Jiskani, and A.M. Lodhi|Efficacy of Different Fungicides Against Fusarium Wilt of Cotton Caused by Fusarium oxysporum F. sp Vasinfectum|Pak. J. Bot.38(3): 875-880|2006|
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182108|T||Jaleel,C.A., R. Gopi, and R. Panneerselvam|Biochemical Alterations in White Yam (Dioscorea rotundata Poir.) Under Triazole Fungicides: Impacts on Tuber Quality|Czech J. Food Sci.26(4): 298-307|2008|10.17221/1117-CJFS
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182111|T||Perez,L., and F. Mauri|Efficacy of EBI Fungicides on the Control of Sigatoka Disease of Bananas Caused by Mycosphaerella musicola Leach Ex Mulder in Cuba|Int. J. Pest Manag.40(1): 1-5|1994|10.1080/09670879409371844
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182161|T||Liu,J., H. Dai, W. Liu, and J. Fang|Synthesis and Biological Activity of 1H-1,2,4-Triazole Alcohol Derivatives|Synth. React. Inorg., Metal-Org., Nano-Metal Chem.38(8): 647-651|2008|10.1080/15533170802371224
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182164|T||Hippe,S., and W. Koller|Ultrastructure and Sterol Composition of Laboratory Strains of Ustilago avenae Resistant to Triazole Fungicides|Pestic. Biochem. Physiol.26(2): 209-219|1986|10.1016/0048-3575(86)90092-1
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182166|A||Sabourault,C., J.B. Berge, M. Lafaurie, J.P. Girard, and M. Amichot|Molecular Cloning of a Phthalate-Inducible CYP4 Gene (CYP4T2) in Kidney from the Sea Bass,Dicentrarchus labrax|Biochem. Biophys. Res. Commun.251:213-219|1998|10.1006/bbrc.1998.9429
182167|A||Saravanan,M., M. Ramesh, and R. Petkam|Alteration in Certain Enzymological Parameters of an Indian Major Carp, Cirrhinus mrigala Exposed to Short- and Long-Term Exposure of Clofibric Acid and Diclofenac|Fish Physiol. Biochem.39:1431-1440|2013|10.1007/s10695-013-9797-3
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182171|T||Alam Wani,A., H.S. Rewal, S. Sahoo, B. Singh, and J. Amad Bhat|Persistence of Metalaxyl and Mancozeb on Potato Leaves and Their Residues in Tubers|Pak. J. Biol. Sci.15(1): 44-48|2012|10.3923/pjbs.2012.44.48
182172|A||Araujo,G.S., D.M.S. Abessa, A.M.V.M. Soares, and S. Loureiro|Multi-Generational Effects Under Single and Pulse Exposure Scenarios in Two Monophyletic Daphnia Species|Sci. Total Environ.697:14 p.|2019|10.1016/j.scitotenv.2019.134031
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182180|T||Luo,D., C. Peng, M. Wang, T. Bai, P. Ding, Y. Zheng, T. Xian, and Y. Yang|Application Effect of Pesticide Synergist ' Jijian' on Wheat Stripe Rust|Agric. Biotechnol.7(4): 36-39|2018|
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182182|T||Ryparova,P., Z. Racova, Z. Prosek, J. Topic, P. Tesarek, P. Hrochova, and Tanger |Evaluation Biocidal Effect of Nanofiber Textiles Prepared Based on PVA and Biocidal Compounds Against Mold and Wood Decaying Fungi|In: Nanocon International Conference, Brno, Czech Republic:496-500|2015|
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182184|T||Van Eeckhout,E., M.C. Rush, and M. Blackwell|Effects of Rate and Timing of Fungicide Applications on Incidence and Severity of Sheath Blight and Grain-Yield of Rice|Plant Dis.75(12): 1254-1261|1991|10.1094/PD-75-1254
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182186|T||Da Silva,R.R., A.V. Teodoro, M.D.D. Silva, P.R. Reis, and S.S. Silva|Compatibility of Pesticides with the Generalist Predatory Mite Amblyseius Largoensis (Acari: Phytoseiidae)|Rev. Colombiana Entomol.41(1): 76-80|2015|
182187|T||Farhadi,M., A.M. Mansoji, S.K. Kazemitabar, and M.J. Chaichi|Studies on Effects of Endosulfan, Mancozeb and Pirimicarb Pesticides on Agronomic Characteristics of Tomato (Lycopersicum esculentum)|Asian J. Chem.18(3): 1845-1852|2006|
182188|T||Fatma,F., S. Verma, A. Kamal, and A. Srivastava|Phytotoxicity of Pesticides Mancozeb and Chlorpyrifos: Correlation with the Antioxidative Defence System in Allium cepa|Physiol. Mol. Biol. Plants24(1): 115-123|2018|10.1007/s12298-017-0490-3
182189|T||Hampton,J.G.|Effect of Storage of Fungicide-Treated Cereal Seed on Subsequent Seed Performance. 2. Mancozeb and Carbendazim + Mancozeb|N. Z. J. Exp. Agric.7(2): 207-214|1979|10.1080/03015521.1979.10426191
182190|T||Kreiter,S., P. Auger, and R. Bonafos|Side Effects of Pesticides on Phytoseiid Mites in French Vineyards and Orchards: Laboratory and Field Trials|In: M.W.Sabelis and J.Bruin (Eds.), Trends in Acarology:457-464|2010|10.1007/978-90-481-9837-5_76
182191|T||Majid,U., Mahmooduzzafar, T.O. Siddiqi, and M. Iqbal|Antioxidant Response of Cassia angustifolia Vahl. to Oxidative Stress Caused by Mancozeb, a Pyrethroid Fungicide|Acta Physiol. Plant.36(2): 307-314|2014|10.1007/s11738-013-1411-x
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182193|T||Mgocheki,N., and P. Addison|Effect of Contact Pesticides on Vine Mealybug Parasitoids, Anagyrus sp. Near Pseudococci (Girault) and Coccidoxenoides perminutus (Timberlake) (Hymenoptera: Encyrtidae)|S. Afr. J. Enol. Vitic.30(2): 110-116|2009|
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182195|T||Taniai,K., A.B. Inceoglu, K. Yukuhiro, and B.D. Hammock|Characterization and cDNA Cloning of a Clofibrate-Inducible Microsomal Epoxide Hydrolase in Drosophila melanogaster|Eur. J. Biochem.270:4696-705|2003|10.1046/j.1432-1033.2003.03868.x
182196|A||Claessens,M., L. Vanhaecke, K. Wille, and C.R. Janssen|Emerging Contaminants in Belgian Marine Waters: Single Toxicant and Mixture Risks of Pharmaceuticals|Mar. Pollut. Bull.71:41-50|2013|10.1016/j.marpolbul.2013.03.039
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182200|T||Singh,S.K., F. Bano, and B. Mohanty|Vitamin E Pretreatment Prevents the Immunotoxicity of Dithiocarbamate Pesticide Mancozeb In Vitro: A Comparative Age-Related Assessment in Mice and Chick|Pestic. Biochem. Physiol.126:76-84|2016|10.1016/j.pestbp.2015.08.001
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182202|T||Goltapeh,E.M., M. Shams-Bakhsh, and B.S. Pakdaman|Sensitivity of the Nematophagous Fungus Arthrobotrys oligospora to Fungicides, Insecticides and Crop Supplements Used in the Commercial Cultivation of Agaricus bisporus|J. Agric. Sci. Technol.10(4): 383-389|2008|
182203|T||Srivastava,K.D., D.V. Singh, and L.M. Joshi|Efficacy of Triadimefon in the Control of Leaf Rust of Wheat|Indian Phytopathol.36(4): 712-715|1983|
182204|T||Asare-Boamah,N.K., G. Hofstra, R.A. Fletcher, and E.B. Dumbroff|Triadimefon Protects Bean Plants from Water Stress Through Its Effects on Abscisic Acid|Plant Cell Physiol.27(3): 383-390|1986|
182205|T||Atabug,R.G., and M.O. San Juan|Comparative Effects of Several Fungicides on Coffee Leaf Rust Incidence and Yield|Philipp. Phytopathol.20(1/2): 20-26|1984|
182206|T||Abbas,S., R.A. Fletcher, and D.P. Murr|Alteration of Ethylene Synthesis in Cucumber Seedlings by Triadimefon|Can. J. Bot.67(1): 278-280|1989|10.1139/b89-040
182207|A||Sharma,G., F.A. Malla, and S. Singh|An Assay on the Effect of Indofil Toxicity on the Total Serum Protein Content of Channa punctatus (Bloch)|Biol. Med.1(2): 25-27|2009|
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182209|T||Finney,R.E., and G. Shaner|Control of Wheat Diseases with Bayleton, 1981|Fungic. Nematic. Tests37:116-|1982|
182210|T||Fowler,M.C., and R.W. Smiley|Control of Typhula Blight with October and November Applications of Bayleton, 1982|Fungic. Nematic. Tests38:191-|1983|
182211|T||English-Loeb,G.M., D.L. Flaherty, L.T. Wilson, W.W. Barnett, G.M. Leavitt, and W.H. Settle|Pest Management Affects Spider Mites in Vineyards|Calif. Agric.40(3): 28-30|1986|
182213|T||Heritage,A.D., M. Stapper, R.C.G. Smith, and R.L. Correll|Model of Stripe Rust Infection and Control on Irrigated Wheat in the Murrumbidgee Irrigation Areas of New South Wales|Field Crops Res.19(1): 51-61|1988|10.1016/0378-4290(88)90033-0
182214|T||Griffey,C.A., and R.E. Allan|Effectiveness of Stripe Rust Resistance Among Lemhi 53 Spring Wheat Near-Isogenic Lines|Crop Sci.26(3): 489-493|1986|10.2135/cropsci1986.0011183X002600030010x
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182216|T||Khalil,I.A.|Chlorophyll and Carotenoid Contents in Cereals as Affected by Growth Retardants of the Triazole Series|Cereal Res. Commun.23(1/2): 183-189|1995|
182217|T||Kelley,W.D.|Effect of Triadimefon (Bayleton) on Ectomycorrhizae of Loblolly and Slash Pines in Alabama|For. Sci.28(2): 232-236|1982|
182218|T||Line,R.F., E.B. Adams, and R.B. Scott|Use of Bayleton to Obtain Data on Losses Caused by Rust, 1981|Fungic. Nematic. Tests37:119-120|1982|
182219|T||Teng,P.S., and R.C. Close|A Preliminary Comparison of Benodanil and MEB 6447 for Control of Leaf Rust of Barley|Aust. Plant Pathol. Soc. Newsl.6(4): 55-57|1977|10.1071/APP9770055
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182223|T||Williams,M.W., and L.J. Edgerton|Vegetative Growth Control of Apple and Pear Trees with ICI PP333 (Paclobutrazol) a Chemical Analog of Bayleton|Acta Hortic.137:111-116|1983|10.17660/ActaHortic.1983.137.11
182224|T||Arab,L., A.A. Ehsanpour, and N.S. Jwa|Co-Treatment Effect of Triadimefon and Salt Stress on Antioxidant Responses, NHX1 and LEA Expression in Two Alfalfa Cultivars (Medicago sativa L.) Under In Vitro Culture|J. Korean Soc. Appl. Biol. Chem.56(4): 409-417|2013|10.1007/s13765-013-3047-3
182225|T||Ari,M., and N. Delen|Studies on the Fungicide Sensitivity of Vine Mildew (Uncinula necator (Schwein) Burr.) in Aegean Region of Turkey|J. Turk. Phytopathol.17(1): 19-30|1988|
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182228|T||Bonham-Smith,P.C., M. Kapoor, and J.D. Bewley|Exogenous Application of Abscisic Acid or Triadimefon Affects the Recovery of Zea mays Seedlings from Heat Shock|Physiol. Plant. (Multiple Languages)73(1): 27-30|1988|10.1111/j.1399-3054.1988.tb09188.x
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182232|T||Fu,Y., T. Yang, J. Zhao, L. Zhang, R. Chen, and Y. Wu|Determination of Eight Pesticides in Lycium barbarum by LC-MS/MS and Dietary Risk Assessment|Food Chem.218:192-198|2017|10.1016/j.foodchem.2016.09.014
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182248|T||Schulz,U.|Sensitivity of Apple Powdery Mildew (Podosphaera- leucotricha) to Triadimefon|Br. Crop Prot. Conf. Pests Dis.1-3:195-200|1992|
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182254|A||Saravanan,M., J.H. Hur, N. Arul, and M. Ramesh|Toxicological Effects of Clofibric Acid and Diclofenac on Plasma Thyroid Hormones of an Indian Major Carp, Cirrhinus mrigala During Short and Long-Term Exposures|Environ. Toxicol. Pharmacol.38:948-958|2014|10.1016/j.etap.2014.10.013
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182261|T||Pina,A.V., D.N. Angel, and G.M. Nevarez|Effect of Water Stress and Chemical Spray Treatments on Postharvest Quality in Mango Fruits Cv. Haden, in Michoacan, Mexico|Acta Hortic.509:617-630|2000|10.17660/ActaHortic.2000.509.70
182262|T||Fonne-Pfister,R., A. Simon, J.P. Salaun, and F. Durst|Xenobiotic Metabolism in Higher Plants Involvement of Microsomal Cytochrome P-450 in Aminopyrine N-Demethylation|Plant Sci.55:9-20|1988|10.1016/0168-9452(88)90036-2
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182264|T||Tuovinen,T.|Integrated Control of the Strawberry Mite (Phytonemus pallidus) in the Nordic Multi-Year Growing System|Acta Hortic.525:389-391|2000|10.17660/ActaHortic.2000.525.55
182265|T||Kuwano,E., J. Tanaka, M. Miyamoto, S. Sadakane, and M. Eto|The Ovicidal Activity of Some Antilipidemic Agents on Callosobruchus chinensis|J. Pestic. Sci. (Multiple Languages)5:619-621|1980|10.1584/jpestics.5.619
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182267|T||Wicks,T.J., D. Volle, and T.C. Lee|Effect of Fungicides on Infection of Apricot and Cherry Pruning Wounds Inoculated with Chondrostereum purpureum|Aust. J. Exp. Agric. Anim. Husb.23(120): 91-94|1983|10.1071/EA9830091
182269|T||Zheng,Y., Y. Zhao, X. Liu, J. Yao, and F. Dong|Chemical Inducement of 2,4-Dihyroxy-7-Methoxy-1,4-Benzoxazin-3-One (DIMBOA) in Wheat Seedlings|Allelopathy J.21(2): 263-271|2008|
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182271|T||Griffey,C.A., M.K. Das, and E.L. Stromberg|Effectiveness of Adult-Plant Resistance in Reducing Grain-Yield Loss to Powdery Mildew in Winter-Wheat|Plant Dis.77(6): 618-622|1993|10.1094/pd-77-0618
182272|T||Marx,D.H.|Triadimefon and Pisolithus Ectomycorrhizae Affect Second-Year Field Performance of Loblolly Pine|USDA For. Serv. Res. Note SE349:6 p.|1987|
182273|T||Nakhooda,M., M.P. Watt, and D. Mycock|The Properties and Interaction of Auxins and Cytokinins Influence Rooting of Shoot Cultures of Eucalyptus|Afr. J. Biotechnol.11(100): 16568-16578|2012|
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182275|A||Forwood,J.M., J.O. Harris, M. Landos, and M.R. Deveney|Minimum Effective Concentrations of Formalin and Sodium Percarbonate on the Free-Living Stages of an Australian Isolate of Ichthyophthirius multifilis|Parasitol. Res.113(9): 3251-3258|2014|10.1007/s00436-014-3987-5
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182283|T||Matthee,F.N.|Treatment of Pruning Wounds on Fruit Trees and Grapevines with Baycor and Bayleton|Pflanzenschutz-Nachr. Bayer (English Ed.)35(2): 134-151|1982|
182284|T||Myram,C.|The Bayleton Range on Winter Cereals|Agrochem Courier23(2): 6-7|1979|
182285|T||Sailerova,E., and J.J. Zwiazek|Effects of Triadimefon and Osmotic-Stress on Plasma Membrane Composition and ATPase Activity in White Spruce (Picea glauca) Needles|Physiol. Plant. (Multiple Languages)87(4): 475-482|1993|10.1111/j.1399-3054.1993.tb02496.x
182287|T||Anderson,H.M.|Effect of Triadimenol Seed Dressing on Vegetative Growth in Winter-Wheat|Crop Res. 29(1): 29-36|1989|
182288|T||Bockus,W.W.|Reducing Fall Foliar Disease Incidence on Winter Wheat with Triadimenol Seed Treatment, 1982|Fungic. Nematic. Tests38:36-|1983|
182289|T||Koller,W.|Plant Growth Regulator Activities of Stereochemical Isomers of Triadimenol|Physiol. Plant. (Multiple Languages)71(3): 309-315|1987|10.1111/j.1399-3054.1987.tb04348.x
182290|T||Mansour,F., H. Cohen, and Z. Shain|Integrated Mite Management in Apples in Israel - Augmentation of a Beneficial Mite and Sensitivity of Tetranychid and Phytoseiid Mites to Pesticides|Phytoparasitica21(1): 39-51|1993|10.1007/bf02980870
182291|T||Mordvinov,V.A., A.G. Shilov, and M.Y. Pakharukova|Anthelmintic Activity of Cytochrome P450 Inhibitors Miconazole and Clotrimazole: In Vitro Effect on the Liver Fluke Opisthorchis felineus|Int. J. Antimicrob. Agents50(1): 97-100|2017|10.1016/j.ijantimicag.2017.01.037
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182294|T||Tredway,L.P., E.L. Butler, M.D. Soika, and M.L. Bunting|Etiology and Management of Spring Dead Spot of Hybrid Bermudagrass in North Carolina, USA|Acta Hortic.783:535-545|2008|10.17660/ActaHortic.2008.783.55
182295|T||Yamaleev,A.M., L.G. Yarullin, F.M. Shakirova, N.N. Karavaiko, G.R. Kudoyarova, A.R. Mustafina, and I.E. Moshkov|Effect of the Fungicide Baytan on Content of Indoleacetic and Abscisic Acids in Wheat Plants Infected with Root-Rot|Sov. Plant Physiol.36(2): 325-328|1989|
182296|T||Worf,G.L., T.R. Tolkacz, and R.J. Smith|Evaluation of Triademefon Formulations and Combinations for Fairway Dollarspot Control, 1982|Fungic. Nematic. Tests38:198-199|1983|
182297|T||Yurina,T.P., E.V. Yurina, V.A. Karavaev, and M.K. Solntsev|Effect of Systemic Fungicides on the Enzymatic Activity and the Resistance of Wheat to Obligate Phytopathogens|In: H.Lyr, P.E.Russell, H.W.Dehne and H.D.Sisler (Eds.), Modern Fungicides and Antifungal Compounds II, Friedrichroda, Germany:241-244|1999|
182298|T||Andrivon,D.|Population Structure of Erysiphe graminis f. sp. Hordei in Barley Plots Seed-Treated with Various Systemic Fungicides|J. Plant Dis. Prot.100(1): 11-18|1993|
182299|T||Arthur,K.S., W.G. Hairston, and C.T. Graham|Utilizing Triadimenol as a Co-Fungicide to Enhance Disease Suppression of Rhizoctonia and Thielaviopsis in Cotton Stand Establishment|Proc. Beltwide Cotton Conf.1:169-172|1991|
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182301|T||Leath,S.|Effects of Powdery Mildew, Triadimenol Seed Treatments, and Triademefon Foliar Sprays on Yield of Winter Wheat in North Carolina|Phytopathology79(2): 152-155|1989|10.1094/Phyto-79-152
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182303|T||Spadafora,V.J., and H.,Jr. Cole|Interactions Between Septoria nodorum Leaf Blotch and Leaf Rust on Soft Red Winter Wheat|Phytopathology77(9): 1308-1310|1987|10.1094/Phyto-77-1308
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182305|T||Mannall,H.G.|A New Bayleton Compound for the Combined Control of Powdery and Downy Mildew in Hops|Agrochem Courier22(3): 11-|1978|
182306|T||Martin,T.J., and D.B. Morris|Baytan Seed Treatment on Spring Barley. Results of a 60 Site Evaluation in the United Kingdom, 1980|Pflanzenschutz-Nachr. Bayer (English Ed.)34(3): 232-263|1981|
182307|T||Miller,H.N., and K.A. Noegel|Control of Azalea Flower Blight with a New Fungicide, Bay Meb 6447|Plant Dis. Rep.61(2): 111-115|1977|
182308|T||Muthappa,B.N.|Field Efficacy of Bayleton 25 EC for Control of Coffee Leaf Rust|J. Coffee Res.11(1): 4-6|1981|
182309|T||Muthusamy,S., and N. Ragupathy|Efficacy of Bayleton in Control of Rust and Powdery Mildew of Blackgram|Pestology10(11): 18-19|1986|
182310|T||Oosthuyse,S.A.|Cost Reduction of Powdery Mildew Control in Mango with Mono Potassium Phosphate|Acta Hortic.509:719-723|2000|10.17660/ActaHortic.2000.509.83
182311|T||Reed,H.E., and A.Y. Chambers|Loss Assessment and Control of Foliar Diseases of Wheat with Fungicides|Tenn. Farm Home Sci.127:2-4|1983|
182312|T||Rowan,S.J.|Control of Fusiform Rust in Pine Tree Nurseries with Bayleton|Technical Publication SA-TP. US Department of Agriculture, Forest Service, Southeastern Area:100-106|1981|
182313|T||San Juan,M.O., and G. Atabug|Evaluation of Drenching Triadimenol for Efficacy Against the Black Leaf Streak and Sigatoka Diseases in Giant Cavendish Banana|Philipp. Phytopathol.24(1-2): 20-28|1988|
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182315|T||Shaw,S.|Evaluation of Baytan for Control of Ergot Contaminants in Cereal Seed|Pflanzenschutz-Nachr.39(1): 47-70|1986|
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182319|T||Line,R.F., and R.B. Scott|Control of Stripe Rust and Leaf Rust of Wheat with Foliar Application of Bayleton and Tilt, 1984|Fungic. Nematic. Tests40:132-133|1985|
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182327|T||Entwistle,A.R., and S.E. Marian|Evaluation of Carboxin, Oxycarboxin, Triadimefon and Tolclofos-Methyl for the Control of White Rot in Spring-Sown Salad Onions|Ann. Appl. Biol.102:64-65|1983|
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182329|T||Stranger,C.E.|Bayleton Fungicide Treatments in Sugar Beets|Oreg. Agric. Exp. Stn. Spec. Rep.683:103-106|1983|
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182332|T||Natarajan,S., K. Sachidanantham, B. Rajamanickam, and S. Madhava Rao|Chemical Control of Groundnut Rust with Triadimefon|Pesticides 17(1): 17-18|1983|
182333|T||Worf,G.L., R.C. Avenius, T.R. Harrison, and R.J. Smith|Dollar Spot Control with Actidione TGF, Bayleton, & Daconil 2787, 1980|Fungic. Nematic. Tests36:143-144|1981|
182334|T||Gopi,R., B.M. Sujatha, S.N. Rajan, L. Karikalan, and R. Panneerselvam|Effect of Triadimefon in the Sodium Chloride Stressed Cowpea (Vigna unguiculata) Seedlings|Indian J. Agric. Sci.69(10): 743-745|1999|
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182358|T||Vuyyuru,M., H.S. Sandhu, M.J. Mccray, R.N. Raid, and J.E. Erickson|Effects of Nitrogen Fertilization and Seed Piece Applied Fungicides on Establishment, Tiller Dynamics, and Sucrose Yields in Successively Planted Sugarcane|Agronomy9(7): 22 p.|2019|10.3390/agronomy9070387
182359|T||Lee,D.J., H.J. Choi, M. Moon, X, Eum, Y. Chi, Tae, K. Ji, Young, and D. Choi|Superoxide Serves as a Putative Signal Molecule for Plant Cell Division: Overexpression of CaRLK 1 Promotes the Plant Cell Cycle Via Accumulation of O2-and Decrease in H2O2|Physiol. Plant. (Multiple Languages)159(2): 228-243|2017|10.1111/ppl.12487
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182361|T||Debieu,D., M.F. Coriocostet, H. Steva, C. Malosse, and P. Leroux|Sterol Composition of the Vine Powdery Mildew Fungus, Uncinula necator: Comparison of Triadimenol-Sensitive and Resistant Strains|Phytochemistry39(2): 293-300|1995|10.1016/0031-9422(95)00015-y
182362|T||Khanzada,A.K., and S.B. Mathur|Control of Loose Smut of Wheat by Carboxin, Fenfuram and Triadimenol|Seed Sci. Technol.11(3): 947-949|1983|
182363|T||Knaflewski,M., and C. Sadowski|Effect of Chemical Treatment of Seeds on the Healthiness of Asparagus Seeds and Crowns|Acta Hortic.:383-387|1990|10.17660/ActaHortic.1990.271.54
182364|T||Lopes,U.P., L. Zambolim, P.N. Souza Neto, H.S.S. Duarte, J.I. Ribeiro, A.F. Souza, and F.A. Rodrigues|Silicon and Triadimenol for the Management of Coffee Leaf Rust|J. Phytopathol.162(2): 124-128|2014|10.1111/jph.12166
182365|T||Loughman,R., and T.N. Khan|Effect of Fungicide Seed Dressings on Leaf Stripe of Barley Caused by Pyrenophora graminea S-Ito and Kuribay|Aust. J. Exp. Agric.33(4): 465-467|1993|10.1071/ea9930465
182366|T||Loughman,R., E.J. Speijers, G.J. Thomas, and D.J. Ballinger|Chemical Control of Loose Smut (Ustilago segetum var tritici) of Barley and the Effects of Cultivar and Environment on Disease Incidence|Aust. J. Exp. Agric.31(3): 373-378|1991|10.1071/ea9910373
182367|T||Martin,R.A., and L.V. Edgington|Effect of Temperature on Efficacy of Triadimenol and Fenapanil to Control Loose Smut of Barley|Can. J. Plant Pathol.2(4): 201-204|1980|10.1080/07060668009501409
182368|T||Nasraoui,B., A. Mansour, and G. Univ|Effect of Treatment with Antitranspirant (NU Film 17) and Fungicide (Triadimenol) on Barley Scald|Meded. Fac. Landbouwwet. Univ. Gent61(2/3): 581-588|1996|
182369|T||Prinsloo,G.C., D.A. De Villiers, and D.J. De Bruin|Activity of Triadimenol and Flusilazol Against Thielaviopsis basicola in Tobacco|Phytophylactica21(1): 83-84|1989|
182370|T||Savocchia,S., B.E. Stummer, T.J. Wicks, R. Van Heeswijck, and E.S. Scott|Reduced Sensitivity of Uncinula necator to Sterol Demethylation Inhibiting Fungicides in Southern Australian Vineyards|Australas. Plant Pathol.33(4): 465-473|2004|10.1071/ap04066
182371|T||Wu,H.C., and W.S. Wu|Sporulation, Pathogenicity and Chemical Control of Alternaria protenta, a New Seedborne Pathogen on Sunflower|Australas. Plant Pathol.32(2): 309-312|2003|10.1071/ap03003
182372|T||Babar,A.M., M.Z. Khan, S. Ahmad, A. Khan, H.A. Bachaya, and M.I. Anwar|Toxico-Pathological Effects of Formalin (37% Formaldehyde) Feeding in Broiler Chicks|Pak. Vet. J.21:13-16|2001|
182373|T||Richardson,H.H., and H. Roth|Ethylene Dibromide Fumigation of Mangoes Infested with West Indian Fruit Fly at Temperatures Near 55 Degrees F.|Ibid49:715-717|1956|
182374|T||Shaw,J.G., and D. Lopez|Ethylene Dibromide as a Fumigant for Mangoes Infested with the Mexican Fruit Fly|Ibid47(5): 891-893|1954|
182375|T||Bateman,R.P., E. Hidalgo, J. Garcia, C. Arroyo, G.M. Ten Hoopen, V. Adonijah, and U. Krauss|Application of Chemical and Biological Agents for the Management of Frosty Pod Rot (Moniliophthora roreri) in Costa Rican Cocoa (Theobroma cacao)|Ann. Appl. Biol.147(2): 129-138|2005|10.1111/j.1744-7348.2005.00012.x
182376|T||Hollomon,D.W.|The Effects of Tridemorph on Barley Powdery Mildew: Its Mode of Action and Cross Senstivity Relationships|Phytopathol. Z. (Multiple Languages)105:279-287|1982|10.1111/j.1439-0434.1982.tb00686.x
182377|T||Gilstrap,D.M.|Strategies for the Management of Fungicide -Resistant Rutstroemia floccosum (Syn. Sclerotinia homoeocarpa), the Causal Organism of Dollar Spot|Ph.D. Thesis, Michigan State University, East Lansing, MI:217 p.|2005|
182378|T||Toubia-Rahme,H., D.E. Ali-Haimoud, G. Barrault, and L. Albertini|Effect of 4 Fungicides on Barley Net Blotch Caused by Drechslera teres|J. Phytopathol.143(6): 335-339|1995|10.1111/j.1439-0434.1995.tb00271.x
182379|T||Michniewicz,M., A. Rozej, and E. Czerwinska|Effect of Ethrel Treatment of Wheat on the Effectiveness of Some Fungicides Used as Seed Dressing|Acta Agrobot. (Multiple Languages)42(1/2): 165-170|2013|10.5586/aa.1989.013
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182381|T||Gendle,P., Clifford, P.C. Mercer, and S.A. Kirk|Movement, Persistence and Performance of Fungitoxicants Applied as Pruning Wound Treatments on Apple Trees|Ann. Appl. Biol.102(2): 281-291|1983|10.1111/j.1744-7348.1983.tb02695.x
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182384|T||Wainwright,A., and D.B. Morris|Evaluation of Triadimenol Seed Treatments Against Soil-Borne Bunt of Wheat|Tests Agrochem. Cultiv.10(114): 68-69|1989|
182385|T||Conner,R.L., and A.D. Kuzyk|Evaluation of Seed-Treatment Fungicides for Control of Take-All in Soft White Spring Wheat|Can. J. Plant Pathol.12(2): 213-216|1990|10.1080/07060669009501030
182386|T||Mccracken,A.R., and L.R. Cooke|A Comparison of Alternatives to Scraping Before Application of Fungicides to Active Cankers|Rec. Agric. Res. (Belfast)36:53-59|1988|
182387|T||Rawlinson,C.J., G. Muthyalu, and G.R. Cayley|Fungicides Effects on Light Leaf Spot, Canker, Crop Growth and Yield of Winter Oil-Seed Rape|J. Agric. Sci.103(pt 3): 613-628|1984|10.1017/S0021859600043732
182388|T||Jiang,Y., H. Lu, K. Xia, Q. Wang, J. Yang, H. Hong, J. Liu, and C. Yan|Effect of Mangrove Species on Removal of Tetrabromobisphenol A from Contaminated Sediments|Chemosphere244:11p.|2020|
182389|A||Wang,P., Z. Wang, P. Xia, and X. Zhang|Concentration-Dependent Transcriptome of Zebrafish Embryo for Environmental Chemical Assessment|Chemosphere245:10 p.|2020|
182390|T||Hanas,A.K., M.F. Guigueno, K.J. Fernie, R.J. Letcher, F.S.M. Chamberland, and J.A. Head|Assessment of the Effects of Early Life Exposure to Triphenyl Phosphate on Fear, Boldness, Aggression, and Activity in Japanese Quail (Coturnix japonica) Chicks|Environ. Pollut.258:9 p.|2020|10.1016/j.envpol.2019.113695
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182392|A||Sitja-Bobadilla,A., M. Conde de Felipe, and P. Alvarez-Pellitero|In Vivo and In Vitro Treatments Sparicotyle chrysophrii (Monogenea: Microcotylidae) Parasitizing the Gills of Gilthead Sea Bream (Sparus aurata L.)|Aquaculture261(3): 856-864|2006|10.1016/j.aquaculture.2006.09.012
182393|T||Ayubi,A., G. Moravvej, J. Karimi, and A. Jooyandeh|Lethal Effects of Four Insecticides on Immature Stages of Chrysoperla carneo (Stephens) (Neuroptera: Chrysopidae) in Laboratory Conditions|Turk. Entomol. Derg.37(4): 399-407|2013|
182394|T||Burtet,L.M., O. Bernardi, A.A. Melo, M.P. Pes, T.T. Strahl, and J.V.C. Guedes|Managing Fall Armyworm, Spodoptera frugiperda (Lepidoptera: Noctuidae), with Bt Maize and Insecticides in Southern Brazil|Pest Manag. Sci.73(12): 2569-2577|2017|10.1002/ps.4660
182395|A||Wang,C., Y. Zhao, and Y. Jin|The Emerging PFOS Alternative OBS Exposure Induced Gut Microbiota Dysbiosis and Hepatic Metabolism Disorder in Adult Zebrafish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.230:11 p.|2020|10.1016/j.cbpc.2020.108703
182396|T||Fontes,J., I.S. Roja, J. Tavares, and L. Oliveira|Lethal and Sublethal Effects of Various Pesticides on Trichogramma achaeae (Hymenoptera: Trichogrammatidae)|J. Econ. Entomol.111(3): 1219-1226|2018|10.1093/jee/toy064
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182398|A||Lee,H., J. Park, K. Shin, S. Depuydt, S. Choi, J. De Saeger, and T. Han|Application of a Programmed Semi-Automated Ulva pertusa Bioassay for Testing Single Toxicants and Stream Water Quality|Aquat. Toxicol.221:7p.|2020|10.1016/j.aquatox.2020.105426
182399|T||Vivan,L.M., J.B. Torres, and P.L.S. Fernandes|Activity of Selected Formulated Biorational and Synthetic Insecticides Against Larvae of Helicoverpa armigera (Lepidoptera: Noctuidae)|J. Econ. Entomol.110(1): 118-126|2017|
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182403|T||Fletcher,R.A., and V. Arnold|Stimulation of Cytokinins and Chlorophyll Synthesis in Cucumber Cotyledons by Triadimefon|Physiol. Plant. (Multiple Languages)66(2): 197-201|1986|10.1111/j.1399-3054.1986.tb02408.x
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182405|T||Line,R.F., and R.B. Scott|Evaluation of New Fungicides for Control of Stripe Rust in Eastern Washington, 1984|Fungic. Nematic. Tests40:133-134|1985|
182406|T||Sugha,S.K.|Management of Purple Blotch (Alternaria porri) of Garlic (Allium sativum) with Fungicides|Indian J. Agric. Sci.65(6): 455-458|1995|
182407|T||Aladesanwa,R.D.|The Influence of Selected Sulfonylurea Herbicides Including Chlorsulfuron Mixtures and Seed Treatment with Baytan Universal on the Incidence of Net Blotch (Drechslera teres) of Barley (Hordeum sativum)|J. Agric. Sci.138:177-183|2002|10.1017/S0021859601001794
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182409|T||Anwar,M.I., M.Z. Khan, G. Muhammad, A. Bachaya, and A.M. Babar|Effects of Dietary Formalin on the Health and Testicular Pathology of Male Japanese Quails (Coturnix coturnix japonica)|Vet. Hum. Toxicol.43:330-333|2001|
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182414|T||Fitzpatrick,G.E., and R.V. Dowell|Survival and Emergence of Citrus Blackfly Parasitoids After Exposure to Insecticides|Environ. Entomol.10(5): 728-731|1981|10.1093/ee/10.5.728
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182416|T||Allen,T.C., and E. Fisher|"Increase Yield of Wax Beans with ""Hormone"" Insecticide Dusts"|Canner96(22): 12-13|1943|
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182419|T||Hinduja,C.P., S.S. Duhoon, and S.K. Bunerjee|Effect of Different Combinations of Contact and Systemic Insecticides on Yield and Profit in Desi Cotton Gossypium-arboreum Linn.|Indian J. Entomol.46(1): 105-106|1984|
182420|T||Tonhasca,A.Jr., J.C. Palumbo, and D.N. Byrne|Aggregation Patterns of Bemisia tabaci in Response to Insecticide Applications|Entomol. Exp. Appl.72(3): 265-272|1994|10.1111/j.1570-7458.1994.tb01826.x
182421|T||Mehta,D.M., J.R. Patel, C.C. Patel, and R.P. Juneja|Resistance of Helicoverpa (Heliothis) armigera Hubner to Insecticides in Kheda District of Gujarat|Indian J. Plant Prot.20(2): 234-236|1992|
182422|T||Deng,J., Y. Zhang, J. Hu, J. Jiao, F. Hu, H. Li, and S. Zhang|Autotoxicity of Phthalate Esters in Tobacco Root Exudates: Effects on Seed Germination and Seedling Growth|Pedosphere27(6): 1073-1082|2017|10.1016/S1002-0160(17)60374-6
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182424|T||Davies,W.P., P.R.H. Burgis, and L.D. Sankey|Grain Yield and Quality Responses in Winter Wheat to Fungicide Treatments|Ann. Appl. Biol.100(3): 84-85|1982|
182425|A||Park,K., W.S. Kim, and I.S. Kwak|Endocrine-Disrupting Chemicals Impair the Innate Immune Prophenoloxidase System in the Intertidal Mud Crab, Macrophthalmus japonicus|Fish Shellfish Immunol.87:322-332|2019|10.1016/j.fsi.2019.01.025
182426|T||Hoyman,W.G., and E. Dingman|The Effect of Some Insecticides on the Growth of Verticillium albo-atrum|Phytopathology54:1434-|1964|
182427|A||Rehulka,J., B. Minarik, and M. Machala|Effects of Exposure to Three Environmental Chemicals on the Selected Biochemical Parameters of the Blood Plasma of Rainbow Trout, Oncorhynchus mykiss (Walbaum)|Acta Mus. Sil. Sci. Nat.65:15-32|2016|10.1515/cszma-2016-0002
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182429|T||Keiding,J.|Insecticide Resistance in Musca domestica|Danish Pest Infestation Laboratory Annual Report, Statens Skadedyrlaboratorium, Lyngby, Denmark:38-47|1983|
182430|T||Gurjar,R.B.S., O.P. Verma, and V.N. Pathak|Chemical Control of Leaf Blotch Drechslera specifera (Bainier Von Arx) Disease of Barley|Indian J. Mycol. Plant Pathol.20(3): 220-225|1990|
182431|T||Jenkyn,J.F., N. Carter, R.J. Darby, R.J. Gutteridge, L.A. Mullen, R.T. Plumb, G.J.S. Ross, A.D. Todd, F.V. Widdowson, a|Effects of Seven Factors on the Growth and Yield of Winter Barley Grown as a Third Consecutive Take-All Susceptible Crop and of Growing the Barley After Oats or a Fallow|J. Agric. Sci.119:303-333|1992|10.1017/S0021859600012168
182432|T||Clark,T., D.R. Clifford, A.H.B. Deas, P. Gendle, and D.A.M. Watkins|Photolysis, Metabolism and Other Factors Influencing the Performance of Triadimefon as a Powdery Mildew Fungicide|Pestic. Sci.9:497-506|1978|10.1002/ps.2780090602
182433|T||Lalithakumari,D., T. Ganesan, and M. Nageswara Rao|Effect of Systemic Fungicides on the Physicochemical Response of Groundnut Plant Against Tikka Leaf Spot|Indian Phytopathol.37(1): 111-114|1984|
182434|T||Latham,A.J., and N.R. McDaniel|Evaluation of Fungicides for Control of Pecan Scab During 1981|Fungic. Nematic. Tests37:52-|1982|
182435|T||McCallan,S.E.A.|Studies on Fungicides. II. Testing Protective Fungicides in the Laboratory|Cornell Univ. Agric. Exp. Stn. Mem.128:8-24|1930|
182436|T||Staub,T., H. Dahmen, P. Urech, and F.J. Schwinn|Failure to Select for In Vivo Resistance in Phytophthora infestans to Acylalanine Fungicides|Plant Dis. Rep.63(5): 385-389|1979|
182437|T||Patil,B.P., and A.R. Kalekar|Effect of Seven Fungicides and Antibiotics of the Intensity of Leaf of Groundnut (Puccinia arachidis) Speg.|Pesticides 8:23-25|1974|
182438|T||Ryan,E.W.|Control of Cauliflower Downy Mildew (Peronospora parasitica) with Systemic Fungicides|Symp. Proc. Br. Crop Prot. Counc.1:297-300|1977|
182439|T||Yoshinaga,E.|A Systemic Fungicide for Rice Blast Control|Proc. Br. Insectic. Fungic. Conf.2:593-599|1969|
182440|T||Putoo,B.L., G.D. Sheikh, M.L. Koul, M.A. Fazili, and S.N. Teng|Comparative Efficacy of Systemic and Non-Systemic Fungicides in Controlling Apple Scab (Venturia inaequalis) Under Field Conditions|Pesticides 10(2): 51-52|1976|
182441|T||Mathur,A.K., and S.L. Jhamaria|Translocation Studies of Two Systemic Fungicides|Pesticides 9(11): 40-|1975|
182442|T||Gattani,M.L.|Agar Plate Spore Germination Method for Testing Fungicides|Phytopathology44:113-115|1954|
182443|T||Newhall,A.G.|An Improved Method of Screening Potential Soil Fungicides Against Fusarium oxysporum f. cubense|Plant Dis. Rep.42(5): 677-679|1958|
182444|T||Singh,D.V., K.D. Srivastava, L.M. Joshi, and B.R. Verma|Evaluation of Some Fungicides for the Control of Karnal Bunt of Wheat|Indian Phytopathol.38(3): 571-573|1985|
182445|T||Corden,M.E., and R.A. Young|Evaluation of Eradicant Soil Fungicides in the Laboratory|Phytopathology52:503-509|1962|
182446|T||Richardson,L.T., and P.E. Munnecke|A Bioassay for Volatile Toxicants from Fungicides in Soil|Phytopathology54:836-839|1964|
182447|T||Consoli,F.L., P.S. Botelho, and J.R. Parra|Selectivity of Insecticides to the Egg Parasitoid Trichogramma galloi Zucchi, 1988, (Hym., Trichogrammatidae)|J. Appl. Entomol.125(1/2): 37-43|2001|10.1111/j.1439-0418.2001.00513.x
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182995|A||Mwila,K., M.H. Burton, J.S. Van Dyk, and B.I. Pletschke|The Effect of Mixtures of Organophosphate and Carbamate Pesticides on Acetylcholinesterase and Application of Chemometrics to Identify Pesticides in Mixtures|Environ. Monit. Assess.185:2315-2327|2013|10.1007/s10661-012-2711-0
182996|A||Oziolor,E.M., B. Dubansky, W.W. Burggren, and C.W. Matson|Cross-Resistance in Gulf Killifish (Fundulus grandis) Populations Resistant to Dioxin-like Compounds|Aquat. Toxicol.175:222-231|2016|10.1016/j.aquatox.2016.03.019
182997|A||Bendis,R.J., and R.A. Relyea|If You See One, Have You Seen Them All?: Community-Wide Effects of Insecticide Cross-Resistance in Zooplankton Populations Near and Far from Agriculture|Environ. Pollut.215:234-246|2016|10.1016/j.envpol.2016.05.020
182998|A||Troiano,A.T., and C.E. Grue|Plasma Cholinesterase Activity as a Biomarker for Quantifying Exposure of Green Sturgeon to Carbaryl Following Applications to Control Burrowing Shrimp in Washington State|Environ. Toxicol. Chem.35(8): 2003-2015|2016|10.1002/etc.3344
182999|A||De Araujo,M.C., C.R.D. Assis, L.C. Silva, D.C. Machado, K.C.C. Silva, A.V.A. Lima, L.B.,Jr. Carvalho, R. De Souza Bezer|Brain Acetylcholinesterase of Jaguar Cichlid (Parachromis managuensis): From Physicochemical and Kinetic Properties to Its Potential as Biomarker of Pesticides and Metal Ions|Aquat. Toxicol.177:182-189|2016|10.1016/j.aquatox.2016.05.019
183000|A||Ludington,T.S., and P.A. Moore|The Degree of Impairment of Foraging in Crayfish (Orconectes virilis) due to Insecticide Exposure is Dependent upon Turbulence Dispersion|Arch. Environ. Contam. Toxicol.72(2): 281-293|2017|10.1007/s00244-016-0341-1
183001|A||Stoler,A.B., B.M. Walker, W.D. Hintz, D.K. Jones, L. Lind, B.M. Mattes, M.S. Schuler, and R.A. Relyea|Combined Effects of Road Salt and an Insecticide on Wetland Communities|Environ. Toxicol. Chem.36(3): 771-779|2017|10.1002/etc.3639
183002|A||Oziolor,E.M., W. Howard, R. Lavado, and C.W. Matson|Induced Pesticide Tolerance Results from Detoxification Pathway Priming|Environ. Pollut.224:615-621|2017|10.1016/j.envpol.2017.02.046
183003|A||De Jesus Andino,F., B.P. Lawrence, and J. Robert|Long Term Effects of Carbaryl Exposure on Antiviral Immune Responses in Xenopus laevis|Chemosphere170:169-175|2017|10.1016/j.chemosphere.2016.12.018
183004|A||Brogan,W.R., and R.A. Relyea|Multiple Mitigation Mechanisms: Effects of Submerged Plants on the Toxicity of Nine Insecticides to Aquatic Animals|Environ. Pollut.220:688-695|2017|10.1016/j.envpol.2016.10.030
183005|A||Anguiano,O.L., M. Vacca, M.E.R. Araujo, M. Montagna, A. Venturino, and A. Ferrari|Acute Toxicity and Esterase Response to Carbaryl Exposure in Two Different Populations of Amphipods Hyalella curvispina|Aquat. Toxicol.188:72-79|2017|10.1016/j.aquatox.2017.04.013
183006|A||Gambardella,C., D. Nichino, C. Iacometti, S. Ferrando, C. Falugi, and M. Faimali|Long Term Exposure to Low Dose Neurotoxic Pesticides Affects Hatching, Viability and Cholinesterase Activity of Artemia sp.|Aquat. Toxicol.196:79-89|2018|10.1016/j.aquatox.2018.01.006
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183085|A||Toumi,H., M. Bejaoui, S. Touaylia, K.F. Burga Perez, and J.F. Ferard|Effect of Carbaryl (Carbamate Insecticide) on Acetylcholinesterase Activity of Two Strains of Daphnia magna (Crustacea, Cladocera)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes51(11): 777-780|2016|
183086|A||Bocquene,G., C. Bellanger, Y. Cadiou, and F. Galgani|Joint Action of Combinations of Pollutants on the Acetylcholinesterase Activity of Several Marine Species|Ecotoxicology4(4): 266-279|1995|10.1007/BF00116345
183087|A||Ozretic,B., and M. Krajnovic-Ozretic|Esterase Heterogeneity in Mussel Mytilus galloprovincialis: Effects of Organophosphate and Carbamate Pesticides In Vitro|Comp. Biochem. Physiol. C Comp. Pharmacol.103C(1): 221-225|1992|10.1016/0742-8413(92)90255-6
183089|T||Jindal,K.K., J.S. Chandel, V.P. Kanan, and P. Sharma|Effect of Hand Thinning and Plant Growth Regulators: Thidiazuron, Carbaryl and Ethrel on Fruit Size, Yield and Quality of Kiwifruit (Actinidia deliciosa Chev.) cv. Allison|Acta Hortic.(626): 415-421|2003|
183090|T||Johnson,D.L., and J.E. Henry|Low Rates of Insecticides and Nosema Locustae (Microsporidia: Nosematidae) on Baits Applied to Roadsides for Grasshopper (Orthoptera: Acrididae) Control|J. Econ. Entomol.80(3): 685-689|1987|10.1093/jee/80.3.685
183091|A||Jones,D.K., W.D. Hintz, M.S. Schuler, E.K. Yates, B.M. Mattes, and R.A. Relyea|Inducible Tolerance to Agrochemicals was Paved by Evolutionary Responses to Predators|Environ. Sci. Technol.51(23): 13913-13919|2017|10.1021/acs.est.7b03816
183092|T||Juvonen,R., M. Laitinen, E. Hietanen, and M. Nieminen|Glucuronidation in the Reindeer - Dietary Modification in the UDP-Glucuronosyltransferase Activity with 4-Nitrophenol, 1-Naphthol and Phenolphthalein as Acceptors|Int. J. Biochem.16(10): 1083-1086|1984|10.1016/0020-711x(84)90092-2
183094|A||Annelin,R.B., and C.L. Frye|The Piscine Bioconcentration Characteristics of Cyclic and Linear Oligomeric Permethylsiloxanes|Sci. Total Environ.83(1-2): 1-11|1989|10.1016/0048-9697(89)90002-8
183095|T||Hinderer,R.K., and R.E. Menzer|Enzyme Activities and Cytochrome P-450 Levels of Some Japanese Quail Tissues with Respect to Their Metabolism of Several Pesticides|Pestic. Biochem. Physiol.6(2): 161-169|1976|10.1016/0048-3575(76)90035-3
183096|T||Horton,D.L., G.R. Carner, and S.G. Turnipseed|Pesticide Inhibition of the Entomogenous Fungus Nomuraea rileyi in Soybeans|Environ. Entomol.9(3): 304-308|1980|10.1093/ee/9.3.304
183097|A||Hanlon,S.M., and M.J. Parris|Previous Exposure of Predatory Fish to a Pesticide Alters Palatability of Larval Amphibian Prey|Environ. Toxicol. Chem.32(12): 2861-2865|2013|10.1002/etc.2380
183098|A||Kaya,I., M. Yilmaz, M.M. Kaya, A. Kukurt, and M. Karapehlivan|The Effects of Carbaryl and 2,4-Dichlorophenoxyacetic Acid on Oxidative Stress Index in Capoeta capoeta (Guldensteadt 1773)|Pak. J. Zool.51(1): 189-193|2019|10.17582/journal.pjz/2019.51.1.189.193
183100|T||Ingham,E.R., D.C. Coleman, and D.A. Crossley|Use of Sulfamethoxazole-Penicillin, Oxytetracycline, Carbofuran, Carbaryl, Naphthalene and Temik to Remove Key Organism Groups in Soil in a Corn Agroecosystem|J. Sustain. Agric.4(3): 7-30|1994|10.1300/J064v04n03_03
183101|A||Koundinya,P.R., and R.R. Murthi|Hematological Studies in Sarotherodon (Tilapia) Mossambica (Peters) Exposed to Lethal (Lc50/48 Hrs) Concentration of Sumithion and Sevin|Curr. Sci. (Bangalore)48(19): 877-879|1979|
183103|T||Morgun,V.V., V.F. Logvinenko, and L.A. Savinskaya|Genetic Activity of Herbicides Banvel D, MCPA, MCPB, and 2,4-DB on Winter Wheat|Cytol. Genet.17(5): 37-40|1983|
183104|A||Krishnappa,G.R., and M. Venkateshwarlu|Genotoxic Effects of Carbaryl on Indian Cricket Frog Limnonectes limnocharis of Western Ghats|Bioscan2(1): 15-20|2007|
183105|A||Brown,D.R., B.W. Clark, L.V.T. Garner, and R.T. Di Giulio|Embryonic Cardiotoxicity of Weak Aryl Hydrocarbon Receptor Agonists and CYP1A Inhibitor Fluoranthene in the Atlantic Killifish (Fundulus heteroclitus)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.188:45-51|2016|10.1016/j.cbpc.2016.05.005
183106|A||Maskey,E., H. Crotty, T. Wooten, and I.A. Khan|Disruption of Oocyte Maturation by Selected Environmental Chemicals in Zebrafish|Toxicol. In Vitro54:123-129|2019|10.1016/j.tiv.2018.09.017
183107|A||Mukhopadhyay,S., and S. Chatterjee|Studies on Cell Growth and Development of Dictyostelium discoideum Treated with Carbaryl, a Pesticide|Indian J. Exp. Biol.30(6): 500-503|1992|
183108|A||Nataraj,M.B.R., and S.V.B. Krishnamurthy|Individual and Combined Effects of Organophosphate and Carbamate Pesticides on the Cricket Frog Fejervarya limnocharis|Environ. Geochem. Health:1-8|2019|
183109|A||Oda,Y., K. Sato, T. Hanazato, K.H. Chang, and M. Sakamoto|Enhanced Sensitivity to an Insecticide Carbaryl in Daphnia magna Mediated by Fish Kairomone|Limnology20(2): 137-141|2019|10.1007/s10201-019-00572-4
183110|T||Bhattacharya,T., and V.C. Joy|Effect of Banvel-D, a Herbicide, on the Microarthropod Population of Soil|Indian Biol.9(1): 47-51|1977|
183111|T||Broadhurst,N.A., M.L. Montgomery, and V.A. Freed|Metabolism of 2-Methoxy-3,6-Dichlorobenzoic Acid (Dicamba) by Wheat and Bluegrass Plants|J. Agric. Food Chem.14(6): 585-588|1966|10.1021/jf60148a009
183112|T||Cenkci,S., M. Yildiz, I.H. Cigerci, A. Bozdag, H. Terzi, and E.S. Terzi|Evaluation of 2,4-D and Dicamba Genotoxicity in Bean Seedlings Using Comet and RAPD Assays|Ecotoxicol. Environ. Saf.73(7): 1558-1564|2010|10.1016/j.ecoenv.2010.07.033
183113|T||Odhiambo,G.D., and J.K. Ransom|Effect of Dicamba on the Control of Striga hermonthica in Maize in Western Kenya|Afr. Crop Sci. J.1(2): 105-110|1993|
183114|T||Quimby,P.C.,Jr., and J. Nalewaja|Selectivity of Dicamba in Wheat and Wild Buckwheat|Weed Sci.19:598-601|1971|10.1017/S0043174500050797
183115|A||Ruiz de Arcaute,C., S. Soloneski, and M.L. Larramendy|Evaluation of the Genotoxicity of a Herbicide Formulation Containing 3,6-Dichloro-2-Metoxybenzoic Acid (Dicamba) in Circulating Blood Cells of the Tropical Fish Cnesterodon decemmaculatus|Mutat. Res., Genet. Toxicol. Environ. Mutagen.773:1-8|2014|10.1016/j.mrgentox.2014.08.001
183116|T||Samb,P.I., and A. Chamel|Foliar Absorption and Translocation of 14C-Dicamba into Host (Pearl Millet and Cowpea) and Parasite Plants of the Genus Striga|Weed Res. (Multiple Languages)32:129-136|1992|10.1111/j.1365-3180.1992.tb01870.x
183117|T||Samtani,J.B., J.B. Masiunas, and J.E. Appleby|Abnormal Leaf Development on White Oaks Linked to Drift of Chloroacetamide Herbicides|Plant Health Prog.:3p.|2005|
183118|T||Stacewicz-Sapuncakis,M., J. Vengris, H.V.,Jr. Marsh, P.H. Jennings, and T. Robinson|Response of Common Purslane to Dicamba|Weed Sci.21:385-389|1973|10.1017/S0043174500027284
183119|A||Khare,A., N. Chhawani, and K. Kumari|Glutathione Reductase and Catalase as Potential Biomarkers for Synergistic Intoxication of Pesticides in Fish|Biomarkers (Lond.)24(7): 666-676|2019|10.1080/1354750X.2019.1651902
183121|T||Burzynska,H., and K. Maciejska|The Effect of Some Contaminants Occurring in Food on the Growth of Aspergillus and the Production of Aflatoxins|Acta Aliment.4(2): 119-127|1978|
183122|T||Chandrika,S., and M.R.G.K. Nair|Relative Toxicity of Insecticides to Adults of Trichospilus pupivora (Ferriere)|Agric. Res. J. Kerala6(1): 33-36|1968|
183123|T||Erickson,E.H., B.H. Erickson, P.K. Flottum, J.A. Wyman, J.L. Wedberg, and R.E. Page|Effects of Selected Insecticide Formulations, Phased Application and Colony Management Strategies on Honey Bee Mortality in Processing Sweetcorn|J. Agric. Res.36(1): 3-13|1997|
183124|T||Farage-Elawar,M., and T.K. Rowles|Toxicology of Carbaryl and Aldicarb on Brain and Limb Cultures of Chick Embryos|J. Appl. Toxicol.12(4): 239-244|1992|10.1002/jat.2550120405
183125|T||Laguerre,C., J.C. Sanchez-Hernandez, H.R. Kohler, R. Triebskorn, Y. Capowiez, M. Rault, and C. Mazzia|B-Type Esterases in the Snail Xeropicta derbentina: An Enzymological Analysis to Evaluate Their Use as Biomarkers of Pesticide Exposure|Environ. Pollut.157(1): 199-207|2009|10.1016/j.envpol.2008.07.003
183126|T||Rajyalakshmi,A., and T.G. Reddy|Effect of Sublethal Concentration of Carbaryl and Lindane on the Protein-Content and TNPs of the Maternal Tissues and Embryos of the Viviparous Scorpion, Heterometrus fulvipes (Koch)|J. Environ. Biol.11(3): 299-311|1990|
183129|T||Rosenheim,J.A., M.A. Hoy, J. Gorden, and J.R. Stewart|Selecting for Insecticide Resistance in a California Red Scale Parasitoid|Calif. Agric.43(1): 17-18|1989|
183130|T||Alias,A., M. Al-Zubaidy, Y. Mousa, and F. Mohammad|Plasma and Whole Brain Cholinesterase Activities in Three Wild Bird Species in Mosul, Iraq: In Vitro Inhibition by Insecticides|Interdisciplinary Toxicol.4(3): 144-148|2011|10.2478/v10102-011-0022-x
183131|T||Shew,B.B., and M.K. Beute|Effects of Crop Management on the Epidemiology of Southern Stem Rot of Peanut|Phytopathology74(5): 530-535|1984|10.1094/Phyto-74-530
183132|T||Yeary,W., A. Fulcher, H. Zhu, W. Klingeman, and J. Grant|Spray Penetration and Natural Enemy Survival in Dense and Sparse Plant Canopies Treated with Carbaryl: Implications for Chemical and Biological Control|J. Environ. Hortic.36(1): 21-29|2018|10.24266/0738-2898-36.1.21
183133|T||Roskamp,J.M.|The Influence of Water pH, Water Hardness, and Co-Applied Herbicides and Fertilizers on the Efficacy of Selected Herbicides|M.S.Thesis, Purdue University, West Lafayette, IN:109 p.|2012|
183134|T||Park,D.S., H.J. Jeon, E.S. Park, I.K. Bae, Y.E. Kim, and S.E. Lee|Highly Selective Biomarkers for Pesticides Developed in Eisenia fetida Using SELDI-TOF MS|Environ. Toxicol. Pharmacol.39(2): 635-642|2015|10.1016/j.etap.2014.12.020
183135|T||Akca,I., C. Tuncer, A. Guler, and I. Saruhan|Determination of Lethal Concentration of Some Insecticides to Honey Bee Apis mellifera (Apidac, Hymenoptera) with Laboratory Biossays|J. Anim. Vet. Adv.8(11): 2380-2382|2009|
183136|A||Dierickx,P.J.|Correlation Between the Reduction of Protein Content in Cultured FHM Fish Cells and Fish Lethality Data|Toxicol. In Vitro7(4): 527-530|1993|10.1016/0887-2333(93)90059-E
183137|T||Ahmad,S., and A.J. Forgash|Toxicity of Carbaryl to Gypsy Moth Larvae Parasitized by Apanteles melanoscelus|Environ. Entomol.5(6): 1183-1186|1976|10.1093/ee/5.6.1183
183138|T||Yang,Y., S. Ma, F. Liu, Q. Wang, X. Wang, C. Hou, Y. Wu, J. Gao, L. Zhang, Y. Liu, Q. Diao, and P. Dai|Acute and Chronic Toxicity of Acetamiprid, Carbaryl, Cypermethrin and Deltamethrin to Apis mellifera Larvae Reared In Vitro|Pest Manag. Sci.76(3): 978-985|2020|10.1002/ps.5606
183139|T||Zinki,J.G., C.J. Henny, and L.R. Deweese|Brain Cholinesterase Activities of Birds from Forests Sprayed with Trichlorfon (Dylox) and Carbaryl (Sevin-4-Oil)|Bull. Environ. Contam. Toxicol.17(4): 379-386|1977|10.1007/BF01685928
183140|T||Parker,B.L., R.S. Kelley, and H.B. Teillon|Carbaryl Control of Maple Leafcutter in Vermont Sugarbushes|J. Econ. Entomol.72(5): 664-666|1979|10.1093/jee/72.5.664
183142|T||Verma,S.K.|Bioefficacy of Pesticides Against Pod Borer Lampides boeticus L. (Lycaenidae: Lepidoptera) in Summer Mung Bean|Ann. Arid Zone42(1): 75-78|2003|
183143|T||Morse,R.A., and A.F. Gunnison|Honey Bee Insecticide Loss - an Unusual Case|J. Econ. Entomol.60(5): 1196-1198|1967|10.1093/jee/60.5.1196
183144|T||Terriere,L.C., R.B. Boose, and W.T. Roubal|The Metabolism of Naphthalene and 1-Naphthol by Houseflies and Rats|Biochem. J. (Lond.)79:620-623|1961|10.1042/bj0790620
183145|T||Weiden,H.H.J., H.H. Moorefield, and L.K. Payne|O-(Methylcarbamoyl) Oximes: A New Class of Carbamate Insecticide-Acaricides|J. Econ. Entomol.58:154-155|1965|10.1093/jee/58.1.154
183146|T||Pattison,R.R., C.M. D'Antonio, and T.L. Dudley|Biological Control Reduces Growth, and Alters Water Relations of the Saltcedar Tree (Tamarix spp.) in Western Nevada, USA|J. Arid Environ.75(4): 346-352|2011|10.1016/j.jaridenv.2010.11.006
183148|T||Paulson,G.D., and V.J. Feil|The Fate of a Single Oral Dose of Carbaryl (1-Naphthyl N-Methylcarbamate) in the Chicken|Poult. Sci.48(5): 1593-1597|1969|10.3382/ps.0481593
183149|T||Singh,O., and R.A. Agarwal|Effects of Certain Carbamate and Organophosphorous Pesticides on Isolated Organs of Pila globosa (Gastropoda)|Toxicol. Appl. Pharmacol.50(3): 485-492|1979|10.1016/0041-008X(79)90402-2
183150|T||Smitley,D.R., and N.C. Peterson|"Twospotted Spider Mite (Acari Tetrany: chidae) Population Dynamics and Growth of Euonymus alata ""Compacta"" in Response to Irrigation Rate"|J. Econ. Entomol.84(6): 1806-1811|1991|10.1093/jee/84.6.1806
183151|T||Shaw,P.W., and Wallis |Biocontrol of Pests in Apples Under Integrated Fruit Production|N. Z. Plant Prot.61:333-337|2008|10.30843/nzpp.2008.61.6812
183152|A||Singh,V., V.K. Singh, and D.K. Singh|Seasonal Variation in the Toxicity of Carbaryl to the Snail Lymnaea acuminata: Implications for Dosing Regimes|Australas. J. Ecotoxicol.16(1): 1-8|2010|
183154|T||De Solla,S.R., and P.A. Martin|Absorption of Current Use Pesticides by Snapping Turtle (Chelydra serpentina) Eggs in Treated Soil|Chemosphere85(5): 820-825|2011|10.1016/j.chemosphere.2011.06.080
183155|T||Quinn,M.A., R.L. Kepner, D.D. Walgenbach, R.A. Bohls, P.D. Pooler, R.N. Foster, K.C. Reuter, and J.L. Swain|Habitat Characteristics and Grasshopper Community Dynamics on Mixed-Grass Rangeland|Can. Entomol.123(1): 89-105|1991|10.4039/Ent12389-1
183156|A||Relyea,R.A.|Predator Cues and Pesticides: A Double Dose of Danger for Amphibians|Ecol. Appl.13(6): 1515-1521|2003|10.1890/02-5298
183157|T||Adams,C.H., and W.H. Cross|Insecticide Resistance in Bracon mellitor, a Parasite of the Boll Weevil|J. Econ. Entomol.60(4): 1016-1020|1967|10.1093/jee/60.4.1016
183158|T||Peterson,C.J., and S.L. Costello|Presence of Carbaryl in the Smoke of Treated Lodgepole and Ponderosa Pine Bark|Atmos. Environ.66:141-144|2013|10.1016/j.atmosenv.2012.04.041
183159|T||Heunis,J.M., and K.L. Pringle|The Susceptibility of Aphelinus mali (Haldeman), a Parasitoid of Eriosoma lanigerum (Hausmann), to Pesticides Used in Apple Orchards in the Elgin Area, Western Cape Province, South Africa|Afr. Entomol.11(1): 91-95|2003|
183160|T||Godase,S., R.B. Dumbre, and S.B. Kharat|Evaluation of Some Insecticides for the Control of Tea Mosquito on Cashew|J. Maharashtra Agric. Univ.17(2): 319-220|1992|
183161|T||Stolz,M.|Testing Side Effects of Various Pesticides on the Predatory Mite Phytoseiulus Persimilis athias-Henriot (Acarina: Phytoseiidae) in Laboratory|Pflanzenschutzberichte (Multiple Languages)51(3): 127-138|1990|
183162|T||Sangha,K.S., and G.S. Makkar|Field Evaluation of Different Insecticides Against Bark Eating Caterpillar, Indarbela quadrinotata (Walker) on Populus deltoides|Indian For.131(5): 694-700|2005|
183163|T||Skalsky,H.L., and F.E. Guthrie|Affinities of Parathion, DDT, Dieldrin and Carbaryl for Macromolecules in the Blood of the Rat and American Cockroach and the Competitive Interactions of Steroids|Pestic. Biochem. Physiol.7:289-296|1977|10.1016/0048-3575(77)90020-7
183164|A||Li,W., S. Yuan, Q. Sun, and C. Liu|Toxicity of Tris(2-Chloroethyl) Phosphate in Daphnia magna After Lifetime Exposure: Changes in Growth, Reproduction, Survival and Gene Transcription|Ecotoxicol. Environ. Saf.200:11p.|2020|
183165|A||Chen,R., X. Hong, S. Yan, and J. Zha|Three Organophosphate Flame Retardants (OPFRs) Reduce Sperm Quality in Chinese Rare Minnows (Gobiocypris rarus)|Environ. Pollut.263:14p.|2020|
183166|A||Hao,H., Y. Dang, S. Chen, Q. Sun, R. Kong, S. Cheng, and C. Liu|Effects of Triphenyl Phosphate on Ciliate Protozoa Tetrahymena thermophila Following Acute Exposure and Sub-Chronic Exposure|Ecotoxicol. Environ. Saf.200:1-|2020|10.1016/j.ecoenv.2020.110757
183167|T||Guilbault,G.G., M.H. Sadar, S. Kuan, and D. Casey|Effect of Pesticides on Liver Cholinesterases from Rabbit, Pigeon, Chicken, Sheep and Pig|Anal. Chim. Acta51(1): 83-93|1970|10.1016/S0003-2670(01)81835-3
183168|A||Tran,C.M., and K.T. Kim|MiR-137 and MiR-141 Regulate Tail Defects in Zebrafish Embryos Caused by Triphenyl Phosphate (TPHP)|Environ. Pollut.262:10p.|2020|10.1016/j.envpol.2020.114286
183169|T||Scheuhammer,A.M., and L.K. Wilson|Effects of Lead and Pesticides on delta-Aminolevulinic Acid Dehydratase of Ring Doves (Streptopelia risoria)|Environ. Toxicol. Chem.9:1379-1386|1990|
183171|A||Cao,Y., S. Wang, J. Sun, S.T. Wang, and Z. Zhang|DEHP Induces Neutrophil Extracellular Traps Formation and Apoptosis in Carp Isolated from Carp Blood Via Promotion of ROS Burst and Autophagy|Environ. Pollut.262:10p.|2020|
183172|T||Speratti,A.B., J.K. Whalen, and P. Rochette|Earthworm Influence on Carbon Dioxide and Nitrous Oxide Fluxes from an Unfertilized Corn Agroecosystem|Biol. Fertil. Soils44(2): 405-409|2007|10.1007/s00374-007-0224-8
183173|T||Yuan,L., J. Cheng, Y. Wang, Y. Liu, W. Wang, R. Gao, and X. Yu|Uptake and Toxicity of Di-(2-Ethylhexyl) Phthalate in Brassica chinensis L|Chemosphere252:8p.|2020|10.1016/j.chemosphere.2020.126640
183174|T||Quinn,M.A., R.L. Kepner, D.D. Walgenbach, R.N. Foster, R.A. Bohls, P.D. Pooler, K.C. Reuter, and J.L. Swain|Effect of Habitat Characteristics and Perturbation from Insecticides on the Community Dynamics of Ground Beetles (Coleoptera, Carabidae) on Mixed-Grass Rangeland|Environ. Entomol.20(5): 1285-1294|1991|10.1093/ee/20.5.1285
183175|T||Rajyalakshmi,A., P. Umamaheshwara Reddy, B. Narasimha Rao, and T. Gopalakrishna Reddy|The Disposition of Carbaryl in the Hepatopancreas, Hemolymph and Embryos of the Viviparous Scorpion, Heterometrus fulvipes (Koch) During Gestation|Xenobiotica21(4): 429-432|1991|10.3109/00498259109039482
183176|T||Wang,H., T.Q. Guan, J.X. Sun, M. Talukder, Y.Q. Huang, Y.H. Li, and J.L. Li|Di-(2-Ethylhexyl) Phthalate Induced Nephrotoxicity in Quail (Coturnix japonica) by Triggering Nuclear Xenobiotic Receptors and Modulating the Cytochrome P450 System|Environ. Pollut.261:114162-114162|2020|10.1016/j.envpol.2020.114162
183178|T||Spollen,K.M., and M.A. Hoy|Resistance to Carbaryl in Populations of the Parasite Aphytis melinus Debach (Hymenoptera: Aphelinidae): Implications for California Citrus IPM|Biol. Control2(3): 203-210|1992|10.1016/1049-9644(92)90060-q
183179|A||Balaparameswara Rao,M.|Effect of Gamma-Hexachloran and Sevin on the Survival of the Black Sea Mussel, Mytilus Galloprovincialis Lam|Hydrobiologia Hydrobiologia78(1): 33-37|1981|10.1007/BF00011937
183180|A||De Araujo,M.C., C.R.D. Assis, L.C. Silva, D.C. Machado, K.C.C. Silva, A.V.A. Lima, L.B. Carvalho, R.D.S. Bezerra, and M|Brain Acetylcholinesterase of Jaguar Cichlid (Parachromis managuensis): From Physicochemical and Kinetic Properties to Its Potential as Biomarker of Pesticides and Metal Ions|Aquat. Toxicol.177:182-189|2016|10.1016/j.aquatox.2016.05.019
183181|T||Ardizzone,C., H. Krokos, and C. Lippe|Actions of Carbaryl on the Ionic Transport across the Isolated Skin of Rana esculenta|Comp. Biochem. Physiol. C Pharmacol. Toxicol. Endocrinol.97C(1): 49-51|1990|10.1016/0742-8413(90)90170-e
183182|A||Armstrong,D.A., and R.E. Millemann|Effects of the Insecticide Carbaryl on Clams and Some Other Intertidal Mud Flat Animals|J. Fish. Res. Board Can.31(4): 466-470|1974|10.1139/f74-078
183184|A||Chen,J.|Impaired Cardiovascular Function Caused by Different Stressors Elicits a Common Pathological and Transcriptional Response in Zebrafish Embryos|Zebrafish10(3): 389-400|2013|10.1089/zeb.2013.0875
183185|A||Christie,A.E.|Insecticides and Algae: Toxicity and Degradation|Ontario Water Resources Commision, Ontario, Canada27:30 p.|1968|
183186|A||Ghazala, S. Mahboob, K.A. Al-Ghanim, S. Sultana, H.F.A. Al-Balawi, T. Sultana, F. Al-Misned, and Z. Ahmed|Acute Toxicity II: Effect of Organophosphates and Carbmates to Catla catla Fingerlings|J. Anim. Plant Sci.24(6): 1795-1801|2014|
183187|A||Bridges,C.M.|The Effects of a Chemical Stressor on Amphibian Larvae: Individual, Population and Species Level Responses|Ph.D. Thesis, University of Missouri, Columbia, MO:148 p.|1999|
183188|A||Boone,M.D.|Effects of an Insecticide on Amphibian Communities|Ph.D. Thesis, University of Missouri, Columbia, MO:148 p.|2000|
183190|A||Beuter,L.K., L. Doren, U. Hommen, M. Kotthoff, C. Schafers, and K.P. Ebke|Testing Effects of Pesticides on Macroinvertebrate Communities in Outdoor Stream Mesocosms Using Carbaryl as Example Test Item|Environ. Sci. Eur.31(5): 17p.|2019|10.1186/s12302-019-0185-1
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183193|T||Wu,C.C., C. Chu, Y.S. Wang, and H.S. Lur|Dissipation of Carbofuran and Carbaryl on Oolong Tea During Tea Bushes, Manufacturing and Roasting Processes|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes42(6): 669-675|2007|10.1080/03601230701465783
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183292|T||Singh,K.P., K.C. Surana, A.B. Paralikar, and V.V. Divekar|Persistence of Carbaryl on Mango Fruit|Indian J. Entomol.45(2): 159-161|1983|
183293|T||Roszkowski,J.|Immuno-Morphological Investigations on the Effect of Lindane, Chlorphenvinphos, and Carbaryl on Immune Reactions .II. Experiments on Chickens|Bull. Vet. Inst. Pulawy23(1-2): 25-32|1979|
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183295|T||Zijp,J.P., and L.H.M. Blommers|Apple Sawfly Hoplocampa testudinea (Hym., Tenthredinidae) and Its Parasitoid Lathrolestes Ensator in Dutch Apple Orchards (Hym., Ichneumonidae, Ctenopelmatinae)|J. Appl. Entomol.126(6): 265-274|2002|10.1046/j.1439-0418.2002.00665.x
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183298|T||Cuevas,V.C., C.A. Lagman, and A.C. Cuevas|Potential Impacts of the Use of Trichoderma spp. on Farmers' Profit in the Field Control of Club Root Disease of Crucifers Caused by Plasmodiophora brassicae Wor.|Philipp. Agric. Sci.94(2): 171-178|2011|
183299|A||Qiu,L., Y. Luo, J. Qu, G. Hu, and J. Chen|Effects of 1-Naphthol on Physiological Parameters of Chlorella vulgaris|Agric. Biotechnol.3(4): 45-48|2014|
183300|T||Asif,M., A. Tanveer, M. Safdar, A. Ali, and S. Ahmad|Effect of Dicamba and Adjuvant Combination on Parthenium Control, Fodder Yield and Yield Components of Forage Sorghum (Sorghum Bicolor)|Planta Daninha (Impr.) (Multiple Languages)37:10p.|2019|10.1590/s0100-83582019370100036
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183302|A||Chen,W.Y., Y.T. Wu, H.C. Lin, M.I. Ieong, and B.H. Lee|Impact of Long-Term Parental Exposure to Tamiflu Metabolites on the Development Medaka Offspring (Oryzias latipes)|Environ. Pollut.261:9 p.|2020|
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183305|A||Riano,C., M. Ortiz-Ruiz, N.R. Pinto-Sanchez, and E. Gomez-Ramirez|Effect of Glyphosate (Roundup Active) on Liver of Tadpoles of the Colombian Endemic Frog Dendropsophus molitor (Amphibia: Anura)|Chemosphere250:126287-126287|2020|10.1016/j.chemosphere.2020.126287
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183310|T||Mestre,A.P., P.S. Amavet, I.S.V.D. Sloot, J.V. Carletti, G.L. Poletta, and P.A. Siroski|Effects of Glyphosate, Cypermethrin, and Chlorpyrifos on Hematological Parameters of the Tegu Lizard (Salvator merianae) in Different Embryo Stages|Chemosphere252:9 p.|2020|10.1016/j.chemosphere.2020.126433
183311|A||Park,S., J.Y. Lee, H. Park, G. Song, and W. Lim|Haloxyfop-P-Methyl Induces Developmental Defects in Zebrafish Embryos Through Oxidative Stress and Anti-Vasculogenesis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.233:9 p.|2020|10.1016/j.cbpc.2020.108761
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183313|A||Zhang,Y.Q., X.Y. Zhang, R. Guo, Q. Zhang, X.P. Cao, M. Suranjana, and Y. Liu|Effects of Florfenicol on Growth, Photosynthesis and Antioxidant System of the Non-Target Organism Isochrysis galbana|Comp. Biochem. Physiol. C Toxicol. Pharmacol.233:8 p.|2020|10.1016/j.cbpc.2020.108764
183314|T||Wang,H., M.K. Jin, L.L. Xu, H. Xi, B.H. Wang, S.T. Du, H.J. Liu, and Y.Z. Wen|Effects of Ketoprofen on Rice Seedlings: Insights from Photosynthesis, Antioxidative Stress, Gene Expression Patterns, and Integrated Biomarker Response Analysis|Environ. Pollut.263:12 p.|2020|
183315|A||Wang,L., Y. Chen, Y. Zhao, M.L. Du, Y. Wang, J.F. Fan, N.Q. Ren, and D.J. Lee|Toxicity of Two Tetracycline Antibiotics on Stentor coeruleus and Stylonychia lemnae: Potential Use as Toxicity Indicator|Chemosphere255:9 p.|2020|
183316|A||Wiprich,M.T., R. Zanandrea, S. Altenhofen, and C.D. Bonan|Influence of 3-Nitropropionic Acid on Physiological and Behavioral Responses in Zebrafish Larvae and Adults|Comp. Biochem. Physiol. C Toxicol. Pharmacol.234:12 p.|2020|10.1016/j.cbpc.2020.108772
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183318|A||Yan,S.H., M.M. Liang, R. Chen, X.S. Hong, and J.M. Zha|Reproductive Toxicity and Estrogen Activity in Japanese Medaka (Oryzias latipes) Exposed to Environmentally Relevant Concentrations of Octocrylene|Environ. Pollut.261:9 p.|2020|
183319|A||Yin,C., X.H. Yang, T.Y. Zhao, P. Watson, F.F. Yang, and H.H. Liu|Changes of the Acute and Chronic Toxicity of Three Antimicrobial Agents to Daphnia magna in the Presence/Absence of Micro-Polystyrene|Environ. Pollut.263:8 p.|2020|10.1016/j.envpol.2020.114551
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183325|T||Schadich,E., A.L.J. Cole, D. Mason, and M. Squire|Effect of the Pesticide Carbaryl on the Production of the Skin Peptides of Litoria Raniformis Frogs|Australas. J. Ecotoxicol.15(1): 17-24|2009|
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183346|T||Hasan,F., and M.S. Ansari|Lethal and Sublethal Effects of Insecticides on the Biological Attributes of Zygogramma Bicolorata pallister (Coleoptera: Chrysomelidae): A Biocontrol Agent of Parthenium hysterophorus L|Neotrop. Entomol. (Multiple Languages)46(5): 473-486|2017|10.1007/s13744-017-0485-3
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183373|T||Werner,R.A., F.L. Hastings, E.H. Holsten, and A.S. Jones|Carbaryl and Lindane Protect White Spruce from Attack by Spruce Beetles (Coleoptera, Scolytidae) for 3 Growing Seasons|J. Econ. Entomol.79(4): 1121-1124|1986|10.1093/jee/79.4.1121
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183648|T||Tengfei,L., W. Yao, Z. Lixia, X. Yongyu, Z. Zhengqun, and M. Wei|Sublethal Effects of Four Insecticides on the Seven-Spotted Lady Beetle (Coleoptera: Coccinellidae)|J. Econ. Entomol.112(5): 2177-2185|2019|10.1093/jee/toz146
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183650|A||Marlatt,V.L., T.Y.G. Leung, S. Calbick, C. Metcalfe, and C. Kennedy|Sub-Lethal Effects of a Neonicotinoid, Clothianidin, on Wild Early Life Stage Sockeye Salmon (Oncorhynchus nerka)|Aquat. Toxicol.217:14 p.|2019|10.1016/j.aquatox.2019.105335
183651|A||Miles,J.C., J. Hua, M.S. Sepulveda, C.H. Krupke, and J.T. Hoverman|Effects of Clothianidin on Aquatic Communities: Evaluating the Impacts of Lethal and Sublethal Exposure to Neonicotinoids|PLoS One12(3): 24|2017|
183652|A||Zhu,L.F., L. Wei, J.M. Zha, L. Na, and Z.J. Wang|Chronic Thiamethoxam Exposure Impairs the HPG and HPT Axes in Adult Chinese Rare Minnow (Gobiocypris rarus): Docking Study, Hormone Levels, Histology, and Transcriptional Responses|Ecotoxicol. Environ. Saf.185:109683-109683|2019|10.1016/j.ecoenv.2019.109683
183653|A||Paquet-Walsh,A., A. Bertolo, C. Landry, L. Deschamps, and M. Boily|Interactive Effects of Neonicotinoids and Natural Ultraviolet Radiation on Yellow Perch (Perca flavescens) Larvae|Sci. Total Environ.685:690-701|2019|10.1016/j.scitotenv.2019.05.113
183654|A||Allakhverdiyeva,T.N., and A.A. Mekhtiev|The Preconditioning Phenomenon and Its Mechanisms in the Common Carp as Affected by Actara Insecticide|J. Evol. Biochem. Physiol.53(5): 380-383|2017|10.1134/S0022093017050039
183655|A||Assalin,M.R., L.D.L. Dos Santos, D.R.C. De Souza, M.A. Rosa, R.R.M. Duarte, R.F. Castanha, P.P.R. Donaire, and N. Duran|Nanoformulation as a Tool for Improvement of Thiamethoxam Encapsulation and Evaluation of Ecotoxicological Impacts|Energy Ecol. Environ.4(6): 310-317|2019|10.1007/s40974-019-00138-1
183656|T||Mobley,M.W., and R.J. Gegear|One Size Does Not Fit All: Caste and Sex Differences in the Response of Bumblebees (Bombus impatiens) to Chronic Oral Neonicotinoid Exposure|PLoS One13(10): 1|2018|10.1371/journal.pone.0200041
183658|T||Abdelkader,F.B., G. Kairo, M. Bonnet, N. Barbouche, L.P. Belzunces, and J.L. Brunet|Effects of Clothianidin on Antioxidant Enzyme Activities and Malondialdehyde Level in Honey Bee Drone Semen|J. Apic. Res.58(5): 740-745|2019|10.1080/00218839.2019.1655182
183659|T||Jin,N.Y., Y.K. Lee, H.J. Kim, Y.S. Kim, Y.N. Youn, C. Yasunaga-Aoki, and Y.M. Yu|Pesticide Doses and Spraying Method for Optimal Pest Control in Paprika Cultivation|J. Fac. Agric. Kyushu Univ.63(2): 271-279|2018|10.5109/1955396
183660|T||Hashimoto,K., A. Kasai, D. Hayasaka, K. Goka, and T.I. Hayashi|Long-Term Monitoring Reveals Among-Year Consistency in the Ecological Impacts of Insecticides on Animal Communities in Paddies|Ecol. Indic.113:9p.|2020|10.1016/j.ecolind.2020.106227
183661|T||Toshima,K., M. Ihara, S. Kanaoka, K. Tarumoto, A. Yamada, D. B.Sattelle, and K. Matsuda|Potentiating and Blocking Actions of Neonicotinoids on the Response to Acetylcholine of the Neuronal [Alpha]4[Beta]2 Nicotinic Acetylcholine Receptor|J. Pestic. Sci. (Multiple Languages)33(2): 146-151|2008|10.1584/jpestics.G07-28
183662|T||Strobl,V., M. Albrecht, S. Radford, S. Wolf, and P. Neumann|A Short Note on Extreme Sex Ratio in Solitary Bees Osmia cornuta in Semi-Field Trials Testing the Impact of Neonicotinoids|J. Apic. Res.58(3): 469-470|2019|10.1080/00218839.2018.1552238
183663|T||Tadei,R., C.E.C. Domingues, J.B. Malaquias, E.V. Camilo, O. Malaspina, and E.C.M. Silva-Zacarin|Late Effect of Larval Co-Exposure to the Insecticide Clothianidin and Fungicide Pyraclostrobin in Africanized Apis mellifera|Sci. Rep.9:11|2019|10.1038/s41598-019-39383-z
183664|T||Pistorius,J., A. Wehner, M. Kriszan, H. Bargen, S. Knabe, O. Klein, M. Frommberger, M. Stahler, and U. Heimbach|Application of Predefined Doses of Neonicotinoid Containing Dusts in Field Trials and Acute Effects on Honey Bees|Bull. Insectol.68(2): 161-172|2015|
183665|T||Yao,J., Y.C. Zhu, and J. Adamczyk|Responses of Honey Bees to Lethal and Sublethal Doses of Formulated Clothianidin Alone and Mixtures|J. Econ. Entomol.111(4): 1517-1525|2018|10.1093/jee/toy140
183666|A||Punzo,F.|Effects of Insecticide (Carbaryl) Exposure on Activity and Swimming Performance of Tadpoles of the Rio Grande Leopard Frog, Rana berlandieri (Anura : Ranidae)|Texas J. Sci.57(3): 263-272|2005|
183667|T||Siefert,P., R. Hota, V. Ramesh, and B. Grunewald|Chronic Within-Hive Video Recordings Detect Altered Nursing Behaviour and Retarded Larval Development of Neonicotinoid Treated Honey Bees|Sci. Rep.10(1): 15|2020|10.1038/s41598-020-65425-y
183668|A||Rohonczy,J.L.M., J. Koprivnikar, N. Waltho, and S.A. Robinson|The Effects of the Commercially Formulated Neonicotinoids Imidacloprid and Thiamethoxam on the Survival of Infectious Stages of Two Trematode Parasites|Water Air Soil Pollut.231(3): 10 p.|2020|10.1007/s11270-020-04510-4
183669|A||Ferreira-Junior,D.F., R.A. Sarmento, A.S. Saraiva, A.S.P. Dornelas, J.L.T. Pestana, and A. Soares|Effects of a Thiamethoxam-Based Insecticide on the Life History of Chironomus xanthus|Water Air Soil Pollut.229(11): 8 p.|2018|10.1007/s11270-018-3994-8
183670|A||Raby,M., X. Zhao, C. Hao, D.G. Poirier, and P.K. Sibley|Chronic Effects of an Environmentally-Relevant, Short-Term Neonicotinoid Insecticide Pulse on Four Aquatic Invertebrates|Sci. Total Environ.639:1543-1552|2018|10.1016/j.scitotenv.2018.05.259
183671|T||Thompson,H., M. Coulson, N. Ruddle, S. Wilkins, P. Harrington, and S. Harkin|Monitoring the Effects of Thiamethoxam Applied as a Seed Treatment to Winter Oilseed Rape on the Development of Bumblebee (Bombus terrestris) Colonies|Pest Manag. Sci.72(9): 1737-1742|2016|10.1002/ps.4202
183672|T||Wilde,G., K. Roozeboom, A. Ahmad, M. Claassen, B. Gordon, W. Heer, L. Maddux, V. Martin, P. Evans, K. Kofoid, J. Long, |Seed Treatment Effects on Early-Season Pests of Corn and on Corn Growth and Yield in the Absence of Insect Pests|J. Agric. Urban Entomol.24(4): 177-193|2007|10.3954/1523-5475-24.4.177
183673|A||Yan,S.H., J.H. Wang, L.S. Zhu, A.M. Chen, and J. Wang|Thiamethoxam Induces Oxidative Stress and Antioxidant Response in Zebrafish (Danio rerio) Livers|Environ. Toxicol.31(12): 2006-2015|2016|10.1002/tox.22201
183674|T||Zhang,Z., X. Zhang, Y. Zhao, W. Mu, and F. Liu|Efficacy of Insecticidal Seed Treatments Against the Wireworm Pleonomus canaliculatus (Coleoptera: Elateridae) in China|Crop Prot.92:134-142|2017|10.1016/j.cropro.2016.11.004
183675|A||Baldissera,M.D., C.F. Souza, J.I. Golombieski, D. Seben, L.R. Sippert, J. Salbego, E. Marchesan, R. Zanella, and B. Bal|Purinergic Signaling as Potential Target of Thiamethoxam-Induced Neurotoxicity Using Silver Catfish (Rhamdia quelen) as Experimental Model|Mol. Cell. Biochem.449(1-2): 39-45|2018|10.1007/s11010-018-3340-x
183676|A||Clasen,B., V.L. Loro, C.R. Murussi, T.L. Tiecher, B. Moraes, and R. Zanella|Bioaccumulation and Oxidative Stress Caused by Pesticides in Cyprinus carpio Reared in a Rice-Fish System|Sci. Total Environ.626:737-743|2018|10.1016/j.scitotenv.2018.01.154
183677|A||El Euony,O.I., S.S. Elblehi, H.M. Abdel-Latif, M.M. Abdel-Daim, and Y.S. El-Sayed|Modulatory Role of Dietary Thymus vulgaris Essential Oil and Bacillus subtilis Against Thiamethoxam-Induced Hepatorenal Damage, Oxidative Stress, and Immunotoxicity in African Catfish (Clarias garipenus)|Environ. Sci. Pollut. Res. Int.27(18): 23108-23128|2020|10.1007/s11356-020-08588-5
183678|T||Pohorecka,K., P. Skubida, P. Semkiw, A. Miszczak, D. Teper, P. Sikorski, K. Zagibajlo, M. Skubida, D. Zdanska, and A. B|Effects of Exposure of Honey Bee Colonies to Neonicotinoid Seed-Treated Maize Crops|J. Apic. Sci.57(2): 199-208|2013|10.2478/jas-2013-0029
183679|T||Rauch,H., B.M. Steinwender, J. Mayerhofer, L. Sigsgaard, J. Eilenberg, J. Enkerli, R. Zelger, and H. Strasser|Field Efficacy of Heterorhabditis bacteriophora (Nematoda: Heterorhabditidae), Metarhizium brunneum (Hypocreales: Clavicipitaceae), and Chemical Insecticide Combinations for Diabrotica virgifera virgifera Larval Managem|Biol. Control107:1-10|2017|10.1016/j.biocontrol.2017.01.007
183680|T||Rinkevich,F.D., R.G. Danka, and K.B. Healy|Influence of Varroa Mite (Varroa destructor) Management Practices on Insecticide Sensitivity in the Honey Bee (Apis mellifera)|Insects8(1): 12|2017|10.3390/insects8010009
183681|T||Sgolastra,F., T. Renzi, S. Draghetti, P. Medrzycki, M. Lodesani, S. Maini, and C. Porrini|Effects of Neonicotinoid Dust from Maize Seed-Dressing on Honey Bees|Bull. Insectol.65(2): 273-280|2012|
183682|T||Nicholls,E., R. Fowler, J.E. Niven, J.D. Gilbert, and D. Goulson|Larval Exposure to Field-Realistic Concentrations of Clothianidin has no Effect on Development Rate, Over-Winter Survival or Adult Metabolic Rate in a Solitary Bee, Osmia bicornis|PeerJ5:22|2017|10.7717/peerj.3417
183683|T||Osterman,J., D. Wintermantel, B. Locke, O. Jonsson, E. Semberg, P. Onorati, E. Forsgren, P. Rosenkranz, T. Rahbek-Peder|Clothianidin Seed-Treatment has no Detectable Negative Impact on Honeybee Colonies and Their Pathogens|Nat. Commun.10(1): 14 p.|2019|10.1038/s41467-019-08523-4
183684|T||Piiroinen,S., C. Botias, E. Nicholls, and D. Goulson|No Effect of Low-Level Chronic Neonicotinoid Exposure on Bumblebee Learning and Fecundity|PeerJ4:18|2016|10.7717/peerj.1808
183685|T||Moffat,C., S.T. Buckland, A.J. Samson, R. McArthur, V. Chamosa Pino, K.A. Bollan, J.T.J. Huang, and C.N. Connolly|Neonicotinoids Target Distinct Nicotinic Acetylcholine Receptors and Neurons, Leading to Differential Risks to Bumblebees|Sci. Rep.6:10 p.|2016|10.1038/srep24764
183686|A||Ghaffar,A., R. Hussain, S. Noreen, G. Abbas, I.R. Chodhary, A. Khan, Z. Ahmed, M.K. Khan, K. Akram, M. Ulhaq, N. Ahmad,|Dose and Time-Related Pathological and Genotoxic Studies on Thiamethoxam in Fresh Water Fish (Labeo rohita) in Pakistan|Pak. Vet. J.40(2): 151-156|2020|10.29261/pakvetj/2020.002
183687|T||Mogren,C.L., R.G. Danka, and K.B. Healy|Larval Pollen Stress Increases Adult Susceptibility to Clothianidin in Honey Bees|Insects10(1): 10 p.|2019|10.3390/insects10010021
183688|T||Morfin,N., P.H. Goodwin, A. Correa-Benitez, and E. Guzman-Novoa|Sublethal Exposure to Clothianidin During the Larval Stage Causes Long-Term Impairment of Hygienic and Foraging Behaviours of Honey Bees|Apidologie50(5): 595-605|2019|10.1007/s13592-019-00672-1
183689|A||Kocamaz,D., and E. Oruc|Effect of Thiamethoxam and Lambda Cyhalothrin, Administered Individually and in Mixture on the Endocrine Function and Antioxidant Defense of Gonads of Oreochromis niloticus|Pak. J. Zool.52(3): 1085-1093|2020|10.17582/journal.pjz/20181014161054
183690|A||Li,X., L. Mao, Y. Zhang, X. Wang, Y. Wang, and X. Wu|Joint Toxic Impacts of Cadmium and Three Pesticides on Embryonic Development of Rare Minnow (Gobiocypris rarus)|Environ. Sci. Pollut. Res. Int.:9p.|2020|
183691|A||Salbego,J., D. Seben, L.R. Sippert, L.T. Gressler, J. Arruda Da Cunha, R. Zanella, R. De Almeida Vaucher, E. Marchesan,|Toxicological Response of Silver Catfish (Rhamdia quelen) After Acute Exposure to a Commercial Insecticide Containing Thiamethoxam|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes55(8): 749-755|2020|
183692|A||Cheghib,Y., S. Chouahda, and N. Soltani|Side-Effects of a Neonicotinoid Insecticide (Actara) on a Non-Target Larvivorous Fish Gambusia affinis: Growth and Biomarker Responses|Egypt. J. Aquat. Res.46(2): 167-172|2020|10.1016/j.ejar.2019.12.007
183693|T||Jiang,J.G., D.C. Ma, N. Zou, X. Yu, Z.Q. Zhang, F. Liu, and W. Mu|Concentrations of Imidacloprid and Thiamethoxam in Pollen, Nectar and Leaves from Seed-Dressed Cotton Crops and Their Potential Risk to Honeybees (Apis mellifera L.)|Chemosphere201:159-167|2018|10.1016/j.chemosphere.2018.02.168
183695|T||Mulvey,J., and J.E. Cresswell|Time-Dependent Effects on Bumble Bees of Dietary Exposures to Farmland Insecticides (Imidacloprid, Thiamethoxam and Fipronil)|Pest Manag. Sci.:8|2020|
183696|T||Gauthier,M., P. Aras, J. Paquin, and M. Boily|Chronic Exposure to Imidacloprid or Thiamethoxam Neonicotinoid Causes Oxidative Damages and Alters Carotenoid-Retinoid Levels in Caged Honey Bees (Apis mellifera)|Sci. Rep.8(1): 11 p.|2018|
183697|T||Byrne,F.J.|Evaluation of the Impact of Neonicotinoid Insecticides on the Glassy-Winged Sharpshooter and Its Egg Parasitoids|Proc. Pierce's Dis. Res. Symp.:70-72|2007|
183698|T||Lu,C., C.H. Chang, B. Lemos, Q. Zhang, and D. MacIntosh|Mitochondrial Dysfunction: A Plausible Pathway for Honeybee Colony Collapse Disorder (CCD)|Environ. Sci. Technol. Lett.7(4): 254-258|2020|10.1021/acs.estlett.0c00070
183699|T||Martinez-Ferrer,M.T., J.M. Campos-Rivela, M.D. Hernando-Guil, and A.I. Garcia-Valcarcel|Evaluation of Residue Levels of Imidacloprid and Thiamethoxam After Foliar Application to the Citrus Varieties Lane Late, Valencia Late, Rohde Summer, and Nules|J. Econ. Entomol.112(6): 2676-2685|2019|10.1093/jee/toz231
183700|T||Endres,L., N.G. Oliveira, V.M. Ferreira, J.V. Silva, G.V.S. Barbosa, and S.O. Maia Junior|Morphological and Physiological Response of Sugarcane Under Abiotic Stress to Neonicotinoid Insecticides|Theor. Exp. Plant Physiol.28(4): 347-355|2016|10.1007/s40626-016-0056-8
183701|T||Halder,J., D. Kushwaha, A.B. Rai, and B. Singh|Interaction Effects Between Entomopathogenic Fungi and Neonicotinoid Insecticides Against Lipaphis erysimi in Vegetable Ecosystem|Indian J. Agric. Sci.89(8): 1256-1261|2019|10.56093/ijas.v89i8.92841
183703|T||Cheng,S., R. Lin, N. Zhang, S. Yuan, X. Zhou, J. Huang, X. Ren, S. Wang, H. Jiang, and C. Yu|Toxicity of Six Insecticides to Predatory Mite Amblyseius cucumeris (Oudemans) (Acari: Phytoseiidae) in- and Off-Field|Ecotoxicol. Environ. Saf.161:715-720|2018|10.1016/j.ecoenv.2018.06.018
183704|T||Yao,F.L., Y. Zheng, J.W. Zhao, N. Desneux, Y.X. He, and Q.Y. Weng|Lethal and Sublethal Effects of Thiamethoxam on the Whitefly Predator Serangium japonicum (Coleoptera: Coccinellidae) Through Different Exposure Routes|Chemosphere128(0): 49-55|2015|10.1016/j.chemosphere.2015.01.010
183705|T||Tooming,E., E. Merivee, A. Must, M.I. Merivee, I. Sibul, K. Nurme, and I.H. Williams|Behavioural Effects of the Neonicotinoid Insecticide Thiamethoxam on the Predatory Insect Platynus assimilis|Ecotoxicology26(7): 902-913|2017|10.1007/s10646-017-1820-5
183706|T||Santos,K.F.A., O.Z. Zanardi, M.R. De Morais, C.R.O. Jacob, M.B. De Oliveira, and P.T. Yamamoto|The Impact of Six Insecticides Commonly Used in Control of Agricultural Pests on the Generalist Predator Hippodamia convergens (Coleoptera: Coccinellidae)|Chemosphere186:218-226|2017|10.1016/j.chemosphere.2017.07.165
183707|T||Jiang,J., Z. Zhang, X. Yu, C. Yu, F. Liu, and W. Mu|Sublethal and Transgenerational Effects of Thiamethoxam on the Demographic Fitness and Predation Performance of the Seven-Spot Ladybeetle Coccinella septempunctata L. (Coleoptera: Coccinellidae)|Chemosphere216:168-178|2019|10.1016/j.chemosphere.2018.10.126
183708|T||Morfin,N., P.H. Goodwin, G.J. Hunt, and E. Guzman-Novoa|Effects of Sublethal Doses of Clothianidin and/or V. destructor on Honey Bee (Apis mellifera) Self-Grooming Behavior and Associated Gene Expression|Sci. Rep.9:10|2019|10.1038/s41598-019-41365-0
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183710|A||Ozcan,K., S. Gul, H. Ozen, and M. Karaman|Acute Exposure of Transcaucasian Barb (Capoeta capoeta capoeta) to Nitrite: Determination of Median Lethal Concentration (LC50), Genotoxic and Histopathologic Effects|Fresenius Environ. Bull.19(7): 1351-1358|2010|
183711|A||Meinelt,T., H. Kroupova, A. Stueber, B. Rennert, A. Wienke, and C. Steinberg|Can Dissolved Aquatic Humic Substances Reduce the Toxicity of Ammonia and Nitrite in Recirculating Aquaculture Systems?|Aquaculture306(1-4): 378-383|2010|10.1016/j.aquaculture.2010.06.007
183712|A||Kroupova,H., M. Prokes, S. Macova, M. Penaz, V. Barus, L. Novotny, and J. Machova|Effect of Nitrite on Early-Life Stages of Common Carp (Cyprinus carpio L.)|Environ. Toxicol. Chem.29(3): 535-540|2010|10.1002/etc.84
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183714|A||Fontenot,Q.C., J.J. Isely, and J.R. Tomasso|Characterization and Inhibition of Nitrite Uptake in Shortnose Sturgeon Fingerlings|J. Aquat. Anim. Health11(1): 76-80|1999|10.1577/1548-8667(1999)011<0076:CAIONU>2.0.CO;2
183715|A||Kroupova,H., V. Stejskal, J. Kouril, J. Machova, V. Piackova, and E. Zuskova|A Wide Difference in Susceptibility to Nitrite Between Eurasian Perch (Perca fluviatilis L.) and Largemouth Bass (Micropterus salmoides Lac.)|Aquac. Int.21(4): 961-967|2013|10.1007/s10499-012-9580-y
183716|A||Jia,R., C. Han, J.L. Lei, B.L. Liu, B. Huang, H.H. Huo, and S.T. Yin|Effects of Nitrite Exposure on Haematological Parameters, Oxidative Stress and Apoptosis in Juvenile Turbot (Scophthalmus maximus)|Aquat. Toxicol.169:1-9|2015|10.1016/j.aquatox.2015.09.016
183717|A||Hvas,M., C. Damsgaard, L.T.H. Gam, D.T.T. Huong, F.B. Jensen, and M. Bayley|The Effect of Environmental Hypercapnia and Size on Nitrite Toxicity in the Striped Catfish (Pangasianodon hypophthalmus)|Aquat. Toxicol.176:151-160|2016|10.1016/j.aquatox.2016.04.020
183718|A||Xu,Z., E. Li, C. Xu, L. Gan, J.G. Qin, and L. Chen|Response of AMP-Activated Protein Kinase and Energy Metabolism to Acute Nitrite Exposure in the Nile Tilapia Oreochromis niloticus|Aquat. Toxicol.177:86-97|2016|10.1016/j.aquatox.2016.05.020
183719|A||Gam,L.T.H., F.B. Jensen, C. Damsgaard, D.T.T. Huong, N.T. Phuong, and M. Bayley|Extreme Nitrite Tolerance in the Clown Knifefish Chitala ornata is Linked to Up-Regulation of Methaemoglobin Reductase Activity|Aquat. Toxicol.187:9-17|2017|10.1016/j.aquatox.2017.03.013
183720|A||Xiao,C., Z. Liu, D. Li, M.M. Refaey, R. Tang, L. Li, and X. Zhang|Acute Nitrite Exposure Alters the Metabolism of Thyroid Hormones in Grass Carp (Ctenopharyngodon idellus)|Chemosphere186:798-804|2017|10.1016/j.chemosphere.2017.07.119
183721|A||Rosado-Berrios,C.A.|Water Quality Assessment of the Lower Cache and the Bayou Deview Rivers, Arkansas: An Assessment of Nutrients, Sediment, Lead, and Acute Toxicity of Acephate and Thiamethoxam|Ph.D Thesis, Arkansas State University, Jonesboro, AR:435 p.|2018|
183722|T||Espitia-Malagon,E.|Residual Activity of At-Planting Applications of Imidacloprid and Thiamethoxam to Control Colorado Potato Beetle, Leptinotarsa decemlineata (Say), Adults|M.S. Thesis, Michigan State University, East Lansing, MI:185 p.|2006|
183723|T||De Carvalho,V.M., R.M. Marques, A.S. Lapenta, and M.D.F.P.S. Machado|Functional Classification of Esterases from Leaves of Aspidosperma polyneuron M. Arg. (Apocynaceae)|Genet. Mol. Biol.26(2): 195-198|2003|10.1590/S1415-47572003000200013
183724|T||Saglam,O., C.G. Athanassiou, and T.N. Vassilakos|Comparison of Spinetoram, Imidacloprid, Thiamethoxam and Chlorantraniliprole Against Life Stages of Tribolium confusum Jacquelin Du Val (Coleoptera: Tenebrionidae) on Concrete|Crop Prot.53:85-95|2013|10.1016/j.cropro.2013.05.007
183725|T||Matsuura,A., and M. Nakamura|Development of Neonicotinoid Resistance in the Cotton Aphid Aphis gossypii (Hemiptera: Aphididae) in Japan|Appl. Entomol. Zool.49:535-540|2014|10.1007/s13355-014-0289-4
183726|T||Fanigliulo,A., C.G. Massa, R. Pacella, and A. Crescenzi|Evaluation of the Efficacy of Application of Systemic Insecticides by Radical in Containing Viral Infections (CMV and PVY) Transmitted by Aphid Vectors in Tomato|Acta Hortic.:321-324|2011|10.17660/ActaHortic.2011.914.58
183727|T||Gerami,S., K. Talebi, A. Bandani, M. Ghadamyari, and V. Hosseininaveh|Relationship Between Susceptibility to Neonicotinoids and Population Dynamics of Cotton Aphid, Aphis gossypii Glover (Hemiptera: Aphididae)|Arch. Phytopathol. Plant Prot.45:192-198|2012|10.1080/03235408.2010.522815
183728|T||Peck,D.C., and D. Olmstead|Neonicotinoid Insecticides Disrupt Predation on the Eggs of Turf-Infesting Scarab Beetles|Bull. Entomol. Res.100:689-700|2010|10.1017/S0007485310000040
183729|T||Herbert,K.S., A.A. Hoffmann, and K.S. Powell|Assaying the Potential Benefits of Thiamethoxam and Imidacloprid for Phylloxera Suppression and Improvements to Grapevine Vigour|Crop Prot.27(9): 1229-1236|2008|10.1016/j.cropro.2008.03.006
183730|A||Wang,J., H. Tang, X. Zhang, X. Xue, X. Zhu, Y. Chen, and Z. Yang|Mitigation of Nitrite Toxicity by Increased Salinity is Associated with Multiple Physiological Responses: A Case Study Using an Economically Important Model Species, the Juvenile Obscure Puffer (Takifugu obscurus)|Environ. Pollut.232:137-145|2018|10.1016/j.envpol.2017.09.026
183732|A||Gam,L.T.H., F.B. Jensen, D.T.T. Huong, N.T. Phuong, and M. Bayley|The Effects of Elevated Environmental CO2 on Nitrite Uptake in the Air-Breathing Clown Knifefish, Chitala ornata|Aquat. Toxicol.196:124-131|2018|10.1016/j.aquatox.2018.01.011
183733|A||Conlin,S.M., M.S. Tudor, J. Shim, J.A. Gosse, A. Neilson, and H.J. Hamlin|Elevated Nitrate Alters the Metabolic Activity of Embryonic Zebrafish|Environ. Pollut.235:180-185|2018|10.1016/j.envpol.2017.12.069
183734|A||Lin,W., J. Hou, H. Guo, L. Li, L. Wang, D. Zhang, D. Li, and R. Tang|The Synergistic Effects of Waterborne Microcystin-LR and Nitrite on Hepatic Pathological Damage, Lipid Peroxidation and Antioxidant Responses of Male Zebrafish|Environ. Pollut.235:197-206|2018|10.1016/j.envpol.2017.12.059
183735|T||Wallingford,A.K., T.P. Kuhari, and P.B. Schultz|Toxicity and Field Efficacy of Four Neonicotinoids on Harlequin Bug (Hemiptera: Pentatomidae)|Fla. Entomol.95(4): 1123-1126|2012|10.1653/024.095.0442
183736|T||Huiting,H.F., and A. Ester|Neonicotinoids as Seed Potato Treatments to Control Wireworms|Commun. Agric. Appl. Biol. Sci.74(1): 207-216|2009|
183737|T||Feng,Y.T., Q.J. Wu, B.Y. Xu, S.L. Wang, X.L. Chang, W. Xie, and Y.J. Zhang|Fitness Costs and Morphological Change of Laboratory-Selected Thiamethoxam Resistance in the B-Type Bemisia tabaci (Hemiptera: Aleyrodidae)|J. Appl. Entomol.133(6): 466-472|2009|10.1111/j.1439-0418.2009.01383.x
183738|T||Magalhaes,L.C., T.E. Hunt, and B.D. Siegfried|Efficacy of Neonicotinoid Seed Treatments to Reduce Soybean Aphid Populations Under Field and Controlled Conditions in Nebraska|Ecotoxicology102:187-195|2009|
183739|T||Reisig,D.D., D.A. Herbert, and S. Malone|Impact of Neonicotinoid Seed Treatments on Thrips (Thysanoptera: Thripidae) and Soybean Yield in Virginia and North Carolina|J. Econ. Entomol.105:884-889|2012|10.1603/EC11429
183740|T||Stamm,M.D., F.P. Baxendale, T.M. Heng-Moss, B.D. Siegfried, E.E. Blankenship, and R.E. Gaussoin|Dose-Response Relationships of Clothianidin, Imidacloprid, and Thiamethoxam to Blissus occiduus (Hemiptera: Blissidae)|J. Econ. Entomol.104:205-210|2011|10.1603/EC10268
183741|T||Lopez,J.D.,Jr., B.K. Fritz, M.A. Latheef, Y. Lan, D.E. Martin, and W.C. Hoffmann|Evaluation of Toxicity of Selected Insecticides Against Thrips on Cotton in Laboratory Bioassays|J. Cotton Sci.12:188-194|2008|
183742|T||Matsumura,M., H. Takeuchi, M. Satoh, S. Sanada-Morimura, A. Otuka, T. Watanabe, and D. Van Thanh|Species-Specific Insecticide Resistance to Imidacloprid and Fipronil in the Rice Planthoppers Nilaparvata lugens and Sogatella furcifera in East and South-East Asia|Pest Manag. Sci.64:1115-1121|2008|10.1002/ps.1641
183743|T||Babcock,J.M., C.B. Gerwick, J.X. Huang, M.R. Loso, G. Nakamura, S.P. Nolting, R.B. Rogers, T.C. Sparks, J. Thomas, G.B.|Biological Characterization of Sulfoxaflor, a Novel Insecticide|Pest Manag. Sci.67:328-334|2011|10.1002/ps.2069
183744|T||Foster,S.P., D. Cox, L. Oliphant, S. Mitchinson, and I. Denholm|Correlated Responses to Neonicotinoid Insecticides in Clones of the Peach-Potato Aphid, Myzus persicae (Hemiptera: Aphididae)|Pest Manag. Sci.64:1111-1114|2008|10.1002/ps.1648
183745|T||Schuster,D.J., R.S. Mann, M. Toapanta, R. Cordero, S. Thompson, S. Cyman, A. Shurtleff, and R.F.,II Morris|Monitoring Neonicotinoid Resistance in Biotype B of Bemisia tabaci in Florida|Pest Manag. Sci.66:186-195|2010|10.1002/ps.1853
183746|T||Tong,F., A.D. Gross, M.C. Dolan, and J.R. Coats|The Phenolic Monoterpenoid Carvacrol Inhibits the Binding of Nicotine to the Housefly Nicotinic Acetylcholine Receptor|Pest Manag. Sci.69:775-780|2013|10.1002/ps.3443
183747|T||Van Timmeren,S., J.C. Wise, C. Vandervoort, and R. Isaacs|Comparison of Foliar and Soil Formulations of Neonicotinoid Insecticides for Control of Potato Leafhopper, Empoasca fabae (Homoptera: Cicadellidae), in Wine Grapes|Pest Manag. Sci.67:560-567|2011|10.1002/ps.2097
183748|T||Zhang,L.P., S.M. Greenberg, Y.M. Zhang, and T.X. Liu|Effectiveness of Thiamethoxam and Imidacloprid Seed Treatments Against Bemisia tabaci (Hemiptera: Aleyrodidae) on Cotton|Pest Manag. Sci.67:226-232|2011|10.1002/ps.2056
183749|T||Markussen,M.D.K., and M. Kristensen|Cytochrome P450 Monooxygenase-Mediated Neonicotinoid Resistance in the House fly Musca domestica L.|Pestic. Biochem. Physiol.98:50-58|2010|10.1016/j.pestbp.2010.04.012
183750|T||Snodgrass,G.L., C. Abel, R. Jackson, and J. Gore|Bioassay for Determining Resistance Levels in Tarnished Plant Bug Populations to Neonicotinoid Insecticides|Southwest. Entomol.33(3): 173-180|2008|10.3958/0147-1724-33.3.173
183751|T||Warner,J., R.H. Scheffrahn, and R.L. Yang|Arboreal Bioassay for Toxicity of Residual and Liquid Bait Insecticides Against White-Footed Ants, Technomyrmex difficilis (Hymenoptera: Formicidae)|Sociobiology55:847-859|2010|
183752|T||Byrne,F.J., and N.C. Toscano|Understanding the Dynamics of Neonicotinoid Insecticidal Activity Against the Glassy-Winged Sharpshooter: Development of Target Thresholds in Grapevines|Proc. Pierce's Dis. Res. Symp.:31-33|2009|
183753|T||McLeod,P., S. Eaton, and L. Martin|Use of Neonicotinoid Insecticides Applied to Soil and Seed for Green Peach Aphid Management on Spinach|Plant Health Prog.:450-459|2008|
183754|T||Gordon,W.B.|Use of Soybean Seed Treatments|Rep. Prog. Kansas Agric. Exp. Stn.1017:72-75|2009|
183755|T||Spigler,M.I.|Effects of Thiamethoxam Seed Treatments on Nutritive Sources Available to Orius insidiosus Say in Indiana Soybean Agroecosystems|M.S.Thesis, Purdue University, West Lafayette, IN:81 p.|2013|
183756|T||Gong,W., M. Jiang, T. Zhang, W. Zhang, G. Liang, B. Li, B. Hu, and P. Han|Uptake and Dissipation of Metalaxyl-M, Fludioxonil, Cyantraniliprole and Thiamethoxam in Greenhouse Chrysanthemum|Environ. Pollut.257:113499-113499|2020|10.1016/j.envpol.2019.113499
183757|T||Atwood,L.W., D.A. Mortensen, R.T. Koide, and R.G. Smith|Evidence for Multi-Trophic Effects of Pesticide Seed Treatments on Non Targeted Soil Fauna|Soil Biol. Biochem.125:144-155|2018|10.1016/j.soilbio.2018.07.007
183758|A||Kim,J.H., J.Y. Kim, L.J. Lim, S.K. Kim, H.S. Choi, and Y.B. Hur|Effects of Waterborne Nitrite on Hematological Parameters and Stress Indicators in Olive Flounders, Paralichthys olivaceus, Raised in Bio-Floc and Seawater|Chemosphere209:28-34|2018|10.1016/j.chemosphere.2018.06.082
183759|A||Lin,W., H. Guo, Y. Li, L. Wang, D. Zhang, J. Hou, X. Wu, L. Li, D. Li, and X. Zhang|Single and Combined Exposure of Microcystin-LR and Nitrite Results inReproductive Endocrine Disruption via Hypothalamic-Pituitary-Gonadal-Liver Axis|Chemosphere211:1137-1146|2018|10.1016/j.chemosphere.2018.08.049
183760|T||Baron,G.L., N.E. Raine, and M.J.F. Brown|General and Species-Specific Impacts of a Neonicotinoid Insecticide on the Ovary Development and Feeding of Wild Bumblebee Queens|Proc. R. Soc. Lond. Ser. B Biol. Sci.284(1854): 8 p.|2017|
183761|A||Dos Santos Silva,M.J., F.F.B. Da Costa, F.P. Leme, R. Takata, D.C. Costa, C.C. Mattioli, R.K. Luz, and K.C. Miranda-Fil|Biological Responses of Neotropical Freshwater Fish Lophiosilurus alexandri Exposed to Ammonia and Nitrite|Sci. Total Environ.616-617:1566-1575|2018|10.1016/j.scitotenv.2017.10.157
183762|T||Afza,R., M.A. Riaz, and M. Afzal|Sublethal Effect of Six Insecticides on Predatory Activity and Survival of Coccinella septempunctata (Coleoptera: Coccinellidae) Following Contact with Contaminated Prey and Residues|Gesunde Pflanzen (Non-English)72(1): 77-86|2020|10.1007/s10343-019-00487-1
183763|A||Ciji,A., N.P. Sahu, A.K. Pal, and M.S. Akhtar|Nitrite-Induced Alterations in Sex Steroids and Thyroid Hormones of Labeo rohita Juveniles: Effects of Dietary Vitamin E and L-Tryptophan|Fish Physiol. Biochem.39(5): 1297-1307|2013|10.1007/s10695-013-9784-8
183764|T||Beloti,V.H., G.R. Alves, R.A. Moral, C.G.B. Demetrio, and P.T. Yamamoto|Acute Toxicity of Fresh and Aged Residues of Pesticides to the Parasitoid Tamarixia radiata and to the HLB-Bacteria Vector Diaphorina citri|Neotrop. Entomol. (Multiple Languages)47(3): 403-411|2018|10.1007/s13744-017-0575-2
183765|A||Xie,L., S. Chen, C. Yao, D. Li, L. Li, and R. Tang|Nitrite Induces Endoplasmic Reticulum Stress and Associates Apoptosis of Liver Cells in Grass Carp (Ctenopharyngodon idella)|Aquaculture507 (May 30:275-281|2019|10.1016/j.aquaculture.2019.04.016
183766|T||Brenner,R., and D.A. Prischmann-Voldseth|Influence of a Neonicotinoid Seed Treatment on a Nontarget Herbivore of Soybean (Twospotted Spider Mite) and Diet Switching by a Co-Occurring Omnivore (Western Flower Thrips)|Environ. Entomol.49(2): 461-472|2020|10.1093/ee/nvaa010
183767|A||Cano-Rocabayera,O., A. De Sostoa, F. Padros, L. Cardenas, and A. Maceda-Veiga|Ecologically Relevant Biomarkers Reveal that Chronic Effects of Nitrate Depend on Sex and Life Stage in the Invasive Fish Gambusia holbrooki|PLoS One14(1): 18 p.|2019|10.1371/journal.pone.0211389
183768|T||Dai,C.C., M. Ricupero, R. Puglisi, Y.H. Lu, N. Desneux, A. Biondi, and L. Zappala|Can Contamination by Major Systemic Insecticides Affect the Voracity of the Harlequin Ladybird?|Chemosphere256:26986-26986|2020|10.1016/j.chemosphere.2020.126986
183769|A||Alcaraz,G., and S. Espina|Effect of Nitrate on the Survival of Grass Carp, Ctenopharyngodon idella (Val.) with Relation to Chloride|Bull. Environ. Contam. Toxicol.52(1): 74-79|1994|10.1007/BF00197360
183770|T||De Paiva,A.C.R., F.H.I. Filho, E.A. Parro, D.P.L. Barbosa, and P.T. Yamamoto|Do Ready-Mix Insecticides Cause Lethal and Sublethal Effects on Trichogramma pretiosum (Hymenoptera: Trichogrammatidae) Pupa?|J. Econ. Entomol.113(3): 1227-1233|2020|10.1093/jee/toaa031
183771|T||Demares,F.J., K.L. Crous, C.W.W. Pirk, S.W. Nicolson, and H. Human|Sucrose Sensitivity of Honey Bees is Differently Affected by Dietary Protein and a Neonicotinoid Pesticide|PLoS One11(6): 17 p.|2016|10.1371/journal.pone.0156584
183772|T||Duarte,A.D.F., J. De Bastos Pazini, J.L.P. Duarte, L.R. Da Silva, and U.S. Da Cunha|Compatibility of Pesticides Used in Strawberry Crops with Predatory Mites Stratiolaelaps scimitus (Womersley) and Cosmolaelaps brevistilis (Karg)|Ecotoxicology29(2): 148-155|2020|10.1007/s10646-020-02164-w
183773|T||Dubey,A., M.T. Lewis, G.P. Dively, and K.A. Hamby|Ecological Impacts of Pesticide Seed Treatments on Arthropod Communities in a Grain Crop Rotation|J. Appl. Ecol.57(5): 936-951|2020|10.1111/1365-2664.13595
183774|T||El-Gendy,K.S., M.A. Radwan, A.F. Gad, A.E. Khamis, and E.H. Eshra|Physiological Traits of Land Snails Theba pisana as Simple Endpoints to Assess the Exposure to Some Pollutants|Environ. Sci. Pollut. Res.26(7): 6922-6930|2019|10.1007/s11356-019-04180-8
183775|T||Wang,Y., Y. Zhang, W. Li, L. Yang, and B. Guo|Distribution, Metabolism and Hepatotoxicity of Neonicotinoids in Small Farmland Lizard and Their Effects on GH/IGF Axis|Sci. Total Environ.662:834-841|2019|10.1016/j.scitotenv.2019.01.277
183776|T||Wang,Z., P. Dai, X. Yang, C.C. Ruan, A. Biondi, N. Desneux, and L.S. Zang|Selectivity of Novel and Traditional Insecticides Used for Management of Whiteflies on the Parasitoid Encarsia formosa|Pest Manag. Sci.75(10): 2716-2724|2019|10.1002/ps.5380
183777|T||Wood,S.C., I.M. De Mattos, I.V. Kozii, C.D. Klein, I. Dvylyuk, C.D.A. Folkes, R. De Carvalho Macedo Silva, I. Moshynsky|Effects of Chronic Dietary Thiamethoxam and Prothioconazole Exposure on Apis mellifera Worker Adults and Brood|Pest Manag. Sci.76(1): 85-94|2020|10.1002/ps.5501
183778|T||Weir,S.M., L.G. Talent, T.A. Anderson, and C.J. Salice|Insights into Reptile Dermal Contaminant Exposure: Reptile Skin Permeability to Pesticides|Chemosphere154:17-22|2016|10.1016/j.chemosphere.2016.03.084
183779|T||Wood,S.C., I.V. Kozii, R.V. Koziy, T. Epp, and E. Simko|Comparative Chronic Toxicity of Three Neonicotinoids on New Zealand Packaged Honey Bees|PLoS One13(1): 19 p.|2018|10.1371/journal.pone.0190517
183780|T||Yasuda,M., Y. Sakamoto, K. Goka, T. Nagamitsu, and H. Taki|Insecticide Susceptibility in Asian Honey Bees (Apis cerana (Hymenoptera: Apidae)) and Implications for Wild Honey Bees in Asia|J. Econ. Entomol.110(2): 447-452|2017|10.1093/jee/tox032
183781|T||Yue,M., S.D. Luo, J.L. Liu, and J. Wu|Apis cerana is Less Sensitive to Most Neonicotinoids, Despite of Their Smaller Body Mass|J. Econ. Entomol.111(1): 39-42|2018|10.1093/jee/tox342
183782|T||Zhai,N., H.H. Jia, M.L. Ma, Y.Z. Chao, X.Q. Guo, and H. Li|Characteristics of AccSTIP1 in Apis cerana cerana and Its Role During Oxidative Stress Responses|Cell Stress Chaperones23(6): 1165-1176|2018|10.1007/s12192-018-0920-3
183783|T||Hummel,J.D.|Insect and Agronomic Responses in Canola and Wheat Intercrops|Ph.D. Thesis, University of Alberta, Canada:195 p.|2010|
183784|T||Stanley,D.A., and N.E. Raine|Chronic Exposure to a Neonicotinoid Pesticide Alters the Interactions Between Bumblebees and Wild Plants|Funct. Ecol.30(7): 1132-1139|2016|10.1111/1365-2435.12644
183785|T||Stanley,D.A., A.L. Russell, S.J. Morrison, C. Rogers, and N.E. Raine|Investigating the Impacts of Field-Realistic Exposure to a Neonicotinoid Pesticide on Bumblebee Foraging, Homing Ability and Colony Growth|J. Appl. Ecol.53(5): 1440-1449|2016|10.1111/1365-2664.12689
183786|T||Stecca,C.D.S., D.M. Da Silva, A.D.F. Bueno, A. Pasini, M.D. Denez, and K. Andrade|Selectivity of Insecticides Used in Soybean Crop to the Predator Podisus nigrispinus (Hemiptera: Pentatomidae)|Semin. Cienc. Agrar.38(6): 3469-3480|2017|10.5433/1679-0359.2017v38n6p3469
183788|T||Tesovnik,T., I. Cizelj, M. Zorc, M. Citar, J. Bozic, G. Glavan, and M. Narat|Immune Related Gene Expression in Worker Honey Bee (Apis mellifera Carnica) Pupae Exposed to Neonicotinoid Thiamethoxam and Varroa Mites (Varroa destructor)|PLoS One12(10): 15|2017|10.1371/journal.pone.0187079
183789|T||Tosi,S., J.C. Nieh, F. Sgolastra, R. Cabbri, and P. Medrzycki|Neonicotinoid Pesticides and Nutritional Stress Synergistically Reduce Survival in Honey Bees|Proc. R. Soc. Lond. Ser. B Biol. Sci.284(1869): 9|2017|
183790|T||Turchen,L.M., V. Golin, A.R. Butnariu, R.N.C. Guedes, and M.J.B. Pereira|Lethal and Sublethal Effects of Insecticides on the Egg Parasitoid Telenomus podisi (Hymenoptera: Platygastridae)|J. Econ. Entomol.109(1): 84-92|2016|10.1093/jee/tov273
183791|T||Raimets,R., R. Karise, M. Mand, T. Kaart, S. Ponting, J. Song, and J.E. Cresswell|Synergistic Interactions Between a Variety of Insecticides and an Ergosterol Biosynthesis Inhibitor Fungicide in Dietary Exposures of Bumble Bees (Bombus terrestris L.)|Pest Manag. Sci.74(3): 541-546|2018|10.1002/ps.4756
183792|T||Renzi,M.T., N. Rodriguez-Gasol, P. Medrzycki, C. Porrini, A. Martini, G. Burgio, S. Maini, and F. Sgolastra|Combined Effect of Pollen Quality and Thiamethoxam on Hypopharyngeal Gland Development and Protein Content in Apis mellifera|Apidologie47(6): 779-788|2016|10.1007/s13592-016-0435-9
183793|T||Gontijo,P.C., D.O.A. Neto, R.L. Oliveira, J.P. Michaud, and G.A. Carvalho|Non-Target Impacts of Soybean Insecticidal Seed Treatments on the Life History and Behavior of Podisus nigrispinus, a Predator of Fall Armyworm|Chemosphere191:342-349|2018|10.1016/j.chemosphere.2017.10.062
183794|T||Grassl,J., S. Holt, N. Cremen, M. Peso, D. Hahne, and B. Baer|Synergistic Effects of Pathogen and Pesticide Exposure on Honey Bee (Apis mellifera) Survival and Immunity|J. Invertebr. Pathol.159:78-86|2018|10.1016/j.jip.2018.10.005
183795|T||Grillone,G., D. Laurino, A. Manino, and M. Porporato|Toxicity of Thiametoxam on In Vitro Reared Honey Bee Brood|Apidologie48(5): 635-643|2017|10.1007/s13592-017-0506-6
183796|T||Hamlet,S.A., S. Bensoltane, M. Djekoun, F. Yassi, and H. Berrebbah|Histological Changes and Biochemical Parameters in the Hepatopancreas of Terrestrial Gastropod Helix aspersa as Biomarkers of Neonicotinoid Insecticide Exposure|Afr. J. Biotechnol.11(96): 16277-16283|2012|10.5897/AJB12.1696
183797|T||Roat,T.C., J.R.A.D. Santos-Pinto, L. Miotelo, C.L. De Souza, M.S. Palma, and O. Malaspina|Using a Toxicoproteomic Approach to Investigate the Effects of Thiamethoxam into the Brain of Apis mellifera|Chemosphere258:127362-127362|2020|10.1016/j.chemosphere.2020.127362
183798|T||Roy,C.L., and P.L. Coy|Wildlife Consumption of Neonicotinoid-Treated Seeds at Simulated Seed Spills|Environ. Res.:|2020|
183799|T||Roy,C.L., P.L. Coy, D. Chen, J. Ponder, and M. Jankowski|Multi-Scale Availability of Neonicotinoid-Treated Seed for Wildlife in an Agricultural Landscape During Spring Planting|Sci. Total Environ.682:271-281|2019|10.1016/j.scitotenv.2019.05.010
183800|A||Atwood,H.L., Q.C. Fontenot, J.R. Tomasso, and J.J. Isely|Toxicity of Nitrite to Nile Tilapia: Effect of Fish Size and Environmental Chloride|N. Am. J. Aquacult.63(1): 49-51|2001|10.1577/1548-8454(2001)063<0049:TONTNT>2.0.CO;2
183801|A||Hamlin,H.J.|Nitrate Toxicity in Siberian Sturgeon (Acipenser baeri)|Aquaculture253(1-4): 688-693|2006|10.1016/j.aquaculture.2005.08.025
183802|A||Jannat,M., F. Ratu, and M. Kishida|Nitrate (NO3-) and Nitrite (NO2-) are Endocrine Disruptors to Downregulate Expression of Tyrosine Hydroxylase and Motor Behavior Through Conversion to Nitric Oxide in Early Development of Zebrafish|Biochem. Biophys. Res. Commun.452 (Sep 26:608-613|2014|10.1016/j.bbrc.2014.08.114
183803|A||McConkey,S., J. Saunders, and D.J. Speare|Comparison of NADH-dependent Cytochrome B5 Reductase Activity and In Vitro Methemoglobin Induction by Sodium Nitrite in Oncorhynchus mykiss, Salmo salar, and Salvelinus fontinalis|Fish Physiol. Biochem.39(3): 713-719|2013|10.1007/s10695-012-9734-x
183804|T||Scifres,C.J., T.J. Allen, C.L. Leinweber, and K.H. Pearson|Dissipation and Phytotoxicity of Dicamba Residues in Water|J. Environ. Qual.2(2): 306-309|1973|10.2134/jeq1973.00472425000200020032x
183805|T||Rugno,G.R., O.Z. Zanardi, J.R.P. Parra, and P.T. Yamamoto|Lethal and Sublethal Toxicity of Insecticides to the Lacewing Ceraeochrysa cubana|Neotrop. Entomol. (Multiple Languages)48(1): 162-170|2019|10.1007/s13744-018-0626-3
183806|T||Schlesener,D.C.H., J. Wollmann, J.D.B. Pazini, A.C. Padilha, A.D. Grutzmacher, and F.R.M. Garcia|Insecticide Toxicity to Drosophila suzukii (Diptera: Drosophilidae) Parasitoids: Trichopria anastrephae (Hymenoptera: Diapriidae) and Pachycrepoideus vindemmiae (Hymenoptera: Pteromalidae)|J. Econ. Entomol.112(3): 1197-1206|2019|10.1093/jee/toz033
183807|T||Seraguzi,E.F., C.H.Q. Rego, F.B. Cardoso, A.C.D.S. Candido, and C.Z. Alves|Physiological Quality of Brachiaria brizantha Seeds Treated with Fungicide and Insecticide|Rev. Caatinga31(3): 651-656|2018|10.1590/1983-21252018v31n313rc
183808|T||Shankarganesh,K., N.C. Naveen, and P. Bishwajeet|Effect of Insecticides on Different Stages of Predatory Green Lacewing, Chrysoperla zastrowi Sillemi (Esben.-Petersen)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.87(4): 1415-1422|2017|10.1007/s40011-016-0719-x
183809|T||Shi,T.F., S. Burton, Y.J. Zhu, Y.F. Wang, S.Y. Xu, and L.S. Yu|Effects of Field-Realistic Concentrations of Carbendazim on Survival and Physiology in Forager Honey Bees (Hymenoptera: Apidae)|J. Insect Sci.18(4): 5|2018|10.1093/jisesa/iey069
183810|T||Shi,T.F., Y.F. Wang, F. Liu, L. Qi, and L.S. Yu|Influence of the Neonicotinoid Insecticide Thiamethoxam on MiRNA Expression in the Honey Bee (Hymenoptera: Apidae)|J. Insect Sci.17(5): 5|2017|10.1093/jisesa/iex074
183811|T||Jiang,J.G., Z.Q. Zhang, J. Lin, F. Liu, and W. Mu|The Minimally Effective Dosages of Nitenpyram and Thiamethoxam Seed Treatments Against Aphids (Aphis gossypii Glover) and Their Potential Exposure Risks to Honeybees (Apis mellifera)|Sci. Total Environ.666:68-78|2019|10.1016/j.scitotenv.2019.02.156
183812|T||Ma,C., Y. Zhang, J. Sun, M. Imran, H. Yang, J. Wu, Y. Zou, H. Li-Byarlay, and S. Luo|Impact of Acute Oral Exposure to Thiamethoxam on the Homing, Flight, Learning Acquisition and Short-Term Retention of Apis cerana|Pest Manag. Sci.75(11): 2975-2980|2019|10.1002/ps.5411
183813|T||Ludicke,J.C., and J.C. Nieh|Thiamethoxam Impairs Honey Bee Visual Learning, Alters Decision Times, and Increases Abnormal Behaviors|Ecotoxicol. Environ. Saf.193:441367-110367|2020|10.1016/j.ecoenv.2020.110367
183814|T||Manjon,C., B.J. Troczka, M. Zaworra, K. Beadle, E. Randall, G. Hertlein, K.S. Singh, C.T. Zimmer, R.A. Homem, B. Lueke,|Unravelling the Molecular Determinants of Bee Sensitivity to Neonicotinoid Insecticides|Curr. Biol.28(7): 1137-1144|2018|10.1016/j.cub.2018.02.045
183815|T||Collison,E.J., H. Hird, C.R. Tyler, and J.E. Cresswell|Effects of Neonicotinoid Exposure on Molecular and Physiological Indicators of Honey Bee Immunocompetence|Apidologie49(2): 196-208|2018|10.1007/s13592-017-0541-3
183816|T||Moreira,D.R., A.A.S. Gigliolli, J.R.P. Falco, A.H.F. Julio, E.A. Volnistem, F. Das Chagas, V.D.A.A. De Toledo, and M.C.|Toxicity and Effects of the Neonicotinoid Thiamethoxam on Scaptotrigona bipunctata Lepeletier, 1836 (Hymenoptera: Apidae)|Environ. Toxicol.33(4): 463-475|2018|10.1002/tox.22533
183818|T||Camargo,C., T.E. Hunt, L.J. Giesler, and B.D. Siegfried|Thiamethoxam Toxicity and Effects on Consumption Behavior in Orius insidiosus (Hemiptera: Anthocoridae) on Soybean|Environ. Entomol.46(3): 693-699|2017|10.1093/ee/nvx050
183821|T||Grohs,M., E. Marchesan, R. Roso, and B.S. Moraes|Attenuation of Low-Temperature Stress in Rice Seedlings|Pesqui. Agropecu. Trop. (Multiple Languages)46(2): 197-205|2016|10.1590/1983-40632016v4640436
183822|T||Ajermoun,N., S. Lahrich, L. Bouarab, M. Bakasse, S. Saqrane, and M.A. El Mhammedi|Physiological Effects of Thiamethoxam on Zea mays and Its Electrochemical Detection Using a Silver Electrode|J. Sci. Food Agric.100(5): 2090-2098|2020|10.1002/jsfa.10232
183823|T||Batista Filho,A., J.E.M. Almeida, and C. Lamas|Effect of Thiamethoxam on Entomopathogenic Microorganisms|Neotrop. Entomol. (Multiple Languages)30(3): 437-447|2001|10.1590/S1519-566X2001000300017
183824|T||Battistus,A.G., T.L. Hachmann, T.M. Mioranza, M.A. Muller, T. Madalosso, P.A. Favorito, V.F. Guimaraes, J. Klein, D. Ke|Synergistic Action of Azospirillum brasilense Combined with Thiamethoxam on the Physiological Quality of Maize Seedlings|Afr. J. Biotechnol.13(49): 4501-4507|2014|10.5897/AJB2014.14059
183825|T||Bortoletto,W.V., W.R. Macedo, T.C. De Oliveira, and D.S. Souza|Agrochemicals and Storage Times on Soybean Seed Vigor|Pesqui. Agropecu. Bras. (Multiple Languages)52(2): 129-132|2017|10.1590/s0100-204x2017000200007
183827|T||Almeida,A.D.S., C. Deuner, C.T. Borges, G.E. Meneghello, A. Jauer, and F.A. Villela|Treatment of Rice Seeds with Thiamethoxam: Reflections on Physiological Performance|J. Seed Sci.36(4): 458-464|2014|10.1590/2317-1545v36n4980
183828|T||Shestakov,A.L., B.Y. Filippov, N.A. Zubrii, T. Klemola, I. Zezin, V. Zverev, E.L. Zvereva, and M.V. Kozlov|Doubling of Biomass Production in European Boreal Forest Trees by a Four-Year Suppression of Background Insect Herbivory|For. Ecol. Manag.462:8p.|2020|10.1016/j.foreco.2020.117992
183829|T||Balsamo,P.J., C.E.D.C. Domingues, E.C.M. Da Silva-Zacarin, A. Gregorc, S.P. Irazusta, R.F. Salla, M.J. Costa, and F.C. |Impact of Sublethal Doses of Thiamethoxam and Nosema ceranae Inoculation on the Hepato-Nephrocitic System in Young Africanized Apis mellifera|J. Apic. Res.59(4): 350-361|2020|10.1080/00218839.2019.1686575
183830|T||Baron,G.L., V.A.A. Jansen, M.J.F. Brown, and N.E. Raine|Pesticide Reduces Bumblebee Colony Initiation and Increases Probability of Population Extinction|Nat. Ecol. Evol.1(9): 1308-1316|2017|10.1038/s41559-017-0260-1
183831|T||Barros,E.M., C.S.A. Da Silva-Torres, J.B. Torres, and G.G. Rolim|Short-Term Toxicity of Insecticides Residues to Key Predators and Parasitoids for Pest Management in Cotton|Phytoparasitica46(3): 391-404|2018|10.1007/s12600-018-0672-8
183832|T||Muhammad,S., J. Tan, P. Deng, T. Li, H. He, J. Bian, and L. Wu|Pesticide Application has Little Influence on Coding and Non-Coding Gene Expressions in Rice|BMC Genomics20(1): 13|2019|10.1186/s12864-019-6381-y
183833|T||Kayis,T., M. Altun, and M. Coskun|Thiamethoxam-Mediated Alteration in Multi-Biomarkers of a Model Organism, Galleria mellonella L. (Lepidoptera: Pyralidae)|Environ. Sci. Pollut. Res.26(36): 36623-36633|2019|10.1007/s11356-019-06810-7
183834|T||Basley,K., B. Davenport, K. Vogiatzis, and D. Goulson|Effects of Chronic Exposure to Thiamethoxam on Larvae of the Hoverfly Eristalis tenax (Diptera, Syrphidae)|PeerJ6:15|2018|10.7717/peerj.4258
183835|T||Kim,H.W., S. Amirsadeghi, A. Mckenzie-Gopsill, M. Afifi, G. Bozzo, E.A. Lee, L. Lukens, and C.J. Swanton|Changes in Light Quality Alter Physiological Responses of Soybean to Thiamethoxam|Planta (Multiple Languages)244(3): 639-650|2016|10.1007/s00425-016-2531-5
183836|T||Brzezinski,C.R., A.A. Henning, J. Abati, F.A. Henning, J.D.B. Franca-Neto, F.C. Krzyzanowski, and C. Zucareli|Seeds Treatment Times in the Establishment and Yield Performance of Soybean Crops|J. Seed Sci.37(2): 147-153|2015|10.1590/2317-1545v37n2148363
183837|T||Coulon,M., A. Dalmon, G. Di Prisco, A. Prado, F. Arban, E. Dubois, M. Ribiere-Chabert, C. Alaux, R. Thiery, and Y. Le C|Interactions Between Thiamethoxam and Deformed Wing Virus can Drastically Impair Flight Behavior of Honey Bees|Front. Microbiol.11:12 p.|2020|10.3389/fmicb.2020.00766
183838|T||De Oliveira,R., M.D.S. De Souza, G.D.S. Nunes, J.D.L. Batista, and C.H. De Brito|Selectivity of Insecticides to Encarsia hispida (Hymenoptera: Aphelinidae)|Rev. Caatinga32(2): 312-317|2019|10.1590/1983-21252019v32n203rc
183839|T||Decio,P., P. Ustaoglu, T.C. Roat, O. Malaspina, J.M. Devaud, R. Stoger, and M. Soller|Acute Thiamethoxam Toxicity in Honeybees is not Enhanced by Common Fungicide and Herbicide and Lacks Stress-Induced Changes in mRNA Splicing|Sci. Rep.9:10 p.|2019|10.1038/s41598-019-55534-8
183840|T||Dolzhenko,T.V., E.G. Kozlova, and O.V. Dolzhenko|Evaluation of Effect of Insecticides on Beneficial Arthropods|Russ. Agric. Sci.42(3-4): 236-238|2016|10.3103/S1068367416030083
183841|T||Dos Santos,T.P., C.W.G. De Menezes, C.H. Batista, E.S.G. Brito, W.D.S. Tavares, and J.C. Zanuncio|Selectivity of Registered Pesticides for the Corn Crop on Immature Stages of Trichogramma pretiosum (Hymenoptera: Trichogrammatidae)|Cienc. Agrotecnol. (Non-English)43:9 p.|2019|
183842|T||Soares,V.N., A.K. Radke, M.A.A. Tillmann, A.B. Moura, and L.O.B. Schuch|Physiological Performance of Rice Seeds Treated with Thiamethoxam or Rhizobacteria Under Different Temperatures|J. Seed Sci.36(2): 186-193|2014|10.1590/2317-1545v32n2925
183843|T||Wright,G.A., S. Softley, and H. Earnshaw|Low Doses of Neonicotinoid Pesticides in Food Rewards Impair Short-Term Olfactory Memory in Foraging-Age Honeybees|Sci. Rep.5:7 p.|2015|
183844|T||Wood,S.C., J.C. Chalifour, I.V. Kozii, I.M.D. Mattos, C.D. Klein, M.W. Zabrodski, I. Moshynskyy, M.M. Guarna, P.W. Veig|In Vitro Effects of Pesticides on European Foulbrood in Honeybee Larvae|Insects11(4): 14 p.|2020|10.3390/insects11040252
183845|T||Ullah,M.I., M. Arshad, S. Ali, Y. Iftikhar, S.U. Mahmood, and M. Arshad|Effect of Thiamethoxam and Some Botanical Extracts on Cotesia glomerata L. (Braconidae: Hymenoptera): An Endoparasitoid of Pieris brassicae (L.) (Pieridae: Lepidoptera)|Egypt. J. Biol. Pest Control26(3): 545-549|2016|
183846|T||Tee,C.S., T.S. Siow, and A.S.Y. Ting|Plant Regeneration Studies of Jatropha curcas Using Induced Embryogenic Callus from Cotyledon Explants|Afr. J. Biotechnol.11(31): 8022-8031|2012|
183847|T||Tunes,L.M., A.D.S. Almeida, G.E. Meneghello, F.A. Villela, V.N. Soares, and M. Bortolotti|Bioactivator on Physiological Performance of Tomato and Onion Seeds|Comun. Sci.9(1): 19-25|2018|10.14295/cs.v9i1.1425
183849|T||Stanley,D.A., K.E. Smith, and N.E. Raine|Bumblebee Learning and Memory is Impaired by Chronic Exposure to a Neonicotinoid Pesticide|Sci. Rep.5:10 p.|2015|
183850|T||Stanley,D.A., and N.E. Raine|Bumblebee Colony Development Following Chronic Exposure to Field-Realistic Levels of the Neonicotinoid Pesticide Thiamethoxam Under Laboratory Conditions|Sci. Rep.7:7 p.|2017|
183851|T||Souza,J.R., G.A. Carvalho, A.P. Moura, M.H.G. Couto, and J.B. Maia|Impact of Insecticides Used to Control Spodoptera frugiperda (Je Smith) in Corn on Survival, Sex Ratio, and Reproduction of Trichogramma pretiosum Riley Offspring|Chil. J. Agric. Res.73(2): 122-127|2013|10.4067/S0718-58392013000200006
183852|T||Souza,J.R., G.A. Carvalho, A.P. Moura, M.H.G. Couto, and J.B. Maia|Toxicity of Some Insecticides Used in Maize Crop on Trichogramma pretiosum (Hymenoptera, Trichogrammatidae) Immature Stages|Chil. J. Agric. Res.74(2): 234-239|2014|10.4067/S0718-58392014000200016
183853|T||Wang,P., L.L. Zhou, F. Yang, X.M. Liu, Y. Wang, C.L. Lei, and S.Y. Si|Lethal and Behavioral Sublethal Side Effects of Thiamethoxam on the Predator Harmonia axyridis|Entomol. Exp. Appl.166(8): 703-712|2018|10.1111/eea.12702
183854|T||Zhang,W.X., Y.F. Yao, H.F. Wang, Z.G. Liu, L.T. Ma, Y. Wang, and B.H. Xu|The Roles of Four Novel P450 Genes in Pesticides Resistance in Apis cerana cerana Fabricius: Expression Levels and Detoxification Efficiency|Front. Gen.10:15 p.|2019|
183855|T||Tosi,S., G. Burgio, and J.C. Nieh|A Common Neonicotinoid Pesticide, Thiamethoxam, Impairs Honey Bee Flight Ability|Sci. Rep.7:8 p.|2017|
183856|T||Tosi,S., F.J. Demares, S.W. Nicolson, P. Medrzycki, C.W.W. Pirk, and H. Human|Effects of a Neonicotinoid Pesticide on Thermoregulation of African Honey Bees (Apis mellifera Scutellata)|J. Insect Physiol.93-94:56-63|2016|10.1016/j.jinsphys.2016.08.010
183857|T||Tosi,S., and J.C. Nieh|A Common Neonicotinoid Pesticide, Thiamethoxam, Alters Honey Bee Activity, Motor Functions, and Movement to Light|Sci. Rep.7:13 p.|2017|
183858|T||Quiroga-Murcia,D.E., M.J. Zotti, I.Z.D. Polania, and E.E. Pech-Pech|Toxicity Evaluation of Two Insecticides on Tetragonisca angustula and Scaptotrigona xanthotricha (Hymenoptera: Apidae)|Agron. Colombiana35(3): 340-349|2017|10.15446/agron.colomb.v35n3.65447
183859|T||Rezac,M., V. Rezacova, and P. Heneberg|Contact Application of Neonicotinoids Suppresses the Predation Rate in Different Densities of Prey and Induces Paralysis of Common Farmland Spiders|Sci. Rep.9:9 p.|2019|
183860|T||Ferreira,T.F., J.A. Oliveira, R.A. De Carvalho, L.S. Resende, C.G.M. Lopes, and V.D.F. Ferreira|Quality of Soybean Seeds Treated with Fungicides and Insecticides Before and After Storage|J. Seed Sci.38(4): 278-286|2016|10.1590/2317-1545v38n4161760
183862|T||Farooqi,M.A., M.U. Hasan, and M. Arshad|Toxicity of Three Commonly Used Nicotinoids and Spinosad to Apis mellifera L. (Hymenoptera: Apidae) Using Surface Residual Bioassays|Pak. J. Zool.48(6): 1983-1987|2016|
183864|T||Glinushkin,A.P., I.N. Yakovleva, and Y.I. Meshkov|The Impact of Pesticides Used in Greenhouses on the Predatory Mite Neoseiulus californicus (Parasitiformes, Phytoseiidae)|Russ. Agric. Sci.45(4): 356-359|2019|10.3103/S1068367419040037
183865|T||Grohs,M., E. Marchesan, M.B. Tomazetti, R. Roso, and T.C. Formentini|Physiological Potential of Oryza sativa Seeds Treated with Growth Regulators at Low Temperatures|Rev. Cienc. Agron.48(3): 473-479|2017|10.5935/1806-6690.20170055
183866|T||Gul,S.T., A. Khan, M. Ahmad, H. Ahmad, M.K. Saleemi, M.N. Naseem, and M. Bilal|Immuno-Toxicological Effects of Different Sub-Lethal Doses of Thiamethoxam (TMX) in Broiler Birds|Toxin Rev.38(3): 200-205|2019|10.1080/15569543.2018.1435554
183867|T||Heneberg,P., P. Bogusch, A. Astapenkova, and M. Rezac|Neonicotinoid Insecticides Hinder the Pupation and Metamorphosis into Adults in a Crabronid Wasp|Sci. Rep.10(1): 10 p.|2020|10.1038/s41598-020-63958-w
183868|T||Rodriguez-Saona,C., A.C. Wanumen, J. Salamanca, R. Holdcraft, and V. Kyryczenko-Roth|Toxicity of Insecticides on Various Life Stages of Two Tortricid Pests of Cranberries and on a Non-Target Predator|Insects7(2): 20 p.|2016|10.3390/insects7020015
183869|T||Samuelson,E.E.W., Z.P. Chen-Wishart, R.J. Gill, and E. Leadbeater|Effect of Acute Pesticide Exposure on Bee Spatial Working Memory Using an Analogue of the Radial-Arm Maze|Sci. Rep.6:11 p.|2016|10.1038/srep38957
183870|T||Shah,R., A.S.A. Al Maawali, and A. Al-Raeesi|Comparative Toxicity of Two Neonicotinoids and a Pyrethroid to Forager Honeybees (Apis mellifera L, 1758) (Hymenoptera: Apidae) by Different Exposure Methods|Turk. Entomol. Derg.44(1): 111-121|2020|
183871|T||Shankarganesh,K., B. Paul, and N.C. Naveen|Eco-Toxicological Effect of Insecticides on the Larval Parasitoid, Bracon brevicornis Wesmael (Hymenoptera : Braconidae)|Afr. Entomol.25(2): 367-374|2017|10.4001/003.025.0367
183872|T||Iverson,A., C. Hale, L. Richardson, O. Miller, and S. McArt|Synergistic Effects of Three Sterol Biosynthesis Inhibiting Fungicides on the Toxicity of a Pyrethroid and Neonicotinoid Insecticide to Bumble Bees|Apidologie50(5): 733-744|2019|10.1007/s13592-019-00681-0
183873|T||Jeker,L., and D. Grossar|Under Review: Data Requirements and Method Development of a New Bee Risk Assessment Scheme for Plant Protection Product Registration|Chimia74(3): 176-182|2020|10.2533/chimia.2020.176
183874|T||Jiang,X., Z. Wang, Q. He, Q. Liu, X. Li, L. Yu, and H. Cao|The Effect of Neonicotinoid Insecticide and Fungicide on Sugar Responsiveness and Orientation Behavior of Honey Bee (<I>Apis Mellifera</I>) in Semi-Field Conditions|Insects9(4): 9 p.|2018|10.3390/insects9040130
183875|T||Knodel,J.J., P.B. Beauzay, E.D. Eriksmoen, and J.D. Pederson|Pest Management of Wheat Stem Maggot (Diptera: Chloropidae) and Wheat Stem Sawfly (Hymenoptera: Cephidae) Using Insecticides in Spring Wheat|J. Agric. Urban Entomol.26(4): 183-197|2009|10.3954/1523-5475-26.4.183
183876|T||Lauxen,L.R., A.D.S. Almeida, C. Deuner, G.E. Meneghello, and F.A. Villela|Physiological Response of Cotton Seeds Treated with Thiamethoxam Under Heat Stress|J. Seed Sci.38(2): 140-147|2016|10.1590/2317-1545v38n2159076
183877|T||Mahmoudi-Dehpahni,B., M. Alizadeh, and H.R. Pourian|Short-Term Effect of Thiamethoxam Through Different Exposure Routes on Aphis gossypii (Hemiptera: Aphididae) and Its Predator, Orius albidipennis (Hemiptera: Anthocoridae)|Biocontrol Sci. Technol.30(4): 297-315|2020|10.1080/09583157.2019.1707482
183879|T||Nicuta,D., N. Badaluta, G. Lazar, and I.M. Lazar|Changes in Growth of Wheat Plantlets Induced by the Action of Thiamethoxam and Thiophanate-Methyl on Seeds|Environ. Eng. Manag. J.12(1): 85-96|2013|10.30638/eemj.2013.011
183880|T||Afza,R., M. Afzal, M.Z. Majeed, and M.A. Riaz|Effect of Intra-Guild Predation and Sub Lethal Concentrations of Insecticides on the Predation of Coccinellids|Pak. J. Zool.51(2): 611-617|2019|10.17582/journal.pjz/2019.51.2.611.617
183881|T||Balanza,V., J.E. Mendoza, and P. Bielza|Variation in Susceptibility and Selection for Resistance to Imidacloprid and Thiamethoxam in Mediterranean Populations of Orius laevigatus|Entomol. Exp. Appl.167(7): 626-635|2019|10.1111/eea.12813
183882|T||Cattaneo,A.J., J.R. Stangarlin, D. Bassegio, and R.F. Santos|Crambe Affected by Biological and Chemical Seed Treatments|Bragantia (Multiple Languages)75(3): 292-298|2016|10.1590/1678-4499.565
183883|T||Chanprasert,W., T. Myint, S. Srikul, and O. Wongsri|Effects of Neonicotinoid and Method of Breaking Dormancy on Seed Germination and Seedling Vigour of Oil Palm (Elaeis guineensis Jacq.)|J. Oil Palm Res.24:1227-1234|2012|
183884|T||De Almeida,A.A., V.H.F. Abe, R.M. Goncalves, M.I. Balbi-Pena, and D.C. Santiago|Seed Treatment for Management of Meloidogyne javanica in Soybean|Semin. Cienc. Agrar.38(5): 2995-3005|2017|10.5433/1679-0359.2017v38n5p2995
183885|T||Deuner,C., K.C. Rosa, G.E. Meneghello, C.T. Borges, A.D.S. Almeida, and A. Bohn|Physiological Performance During Storage of Corn Seed Treated with Insecticides and Fungicide|J. Seed Sci.36(2): 204-212|2014|10.1590/2317-1545v32n2928
183886|T||Dhawan,A.K., S. Singh, and S. Kumar|Integrated Pest Management (IPM) Helps Reduce Pesticide Load in Cotton|J. Agric. Sci. Technol.11(5): 599-611|2009|
183887|T||Gugala,M., and K. Zarzecka|Effect of Insecticides on Phosphorus and Potassium Content in Tubers of Three Potato Cultivars|J. Elem.16(1): 43-50|2011|
183888|T||Shirshikar,S.P.|Sunflower Necrosis Disease Management with Thiomethoxam|Helia33(53): 63-68|2014|10.1515/helia.2010.33.53.63
183889|T||Magnabosco,M.E.B., V. Andalo, and L.S. De Faria|Compatibility Between Entomopathogenic Nematodes and Crop Protection Products Used in Maize Seed Treatment|Semin. Cienc. Agrar.40(6): 2487-2495|2019|10.5433/1679-0359.2019v40n6p2487
183890|T||Martins,R.G., M.B.G. Martins, J.M. Silva, M.A. Pereira, B. Appezzato-Da-Gloria, and P.R.D.C. E Castro|Thiamethoxam on the Histological Characteristics of Sugarcane Young Roots|Ciencia Rural42(11): 1936-1940|2012|10.1590/S0103-84782012005000090
183891|T||Meena,H.L., K. Rana, M. Lal, R. Kanwar, and B. Ram|Effect of Seed Treatment, Soil Application and Foliar Spray with Some Insecticides on Growth of Bell Pepper (Capsicum annuum L.)|Environ. Ecol.35(4B): 3056|2017|
183892|T||Rezac,M., V. Rezacova, and P. Heneberg|Neonicotinoid Insecticides Limit the Potential of Spiders to Re-Colonize Disturbed Agroecosystems When Using Silk-Mediated Dispersal|Sci. Rep.9:10 p.|2019|
183894|T||Rigueira,L.M.B., K.D.L. Ribeiro, M.E.L.R. De Queiroz, A.A. Neves, L. Zambolim, and R.M. Oliveira|Determination of Chlorpyrifos and Thiamethoxam in Potato Tuber (Solanum tuberosum L.) and Soil of Brazil Using Solid-Liquid Extraction with Low Temperature Partitioning (SLE/LTP)|J. Braz. Chem. Soc.24(12): 2042-2049|2013|
183895|T||Huang,A., L. Meng, W. Zhang, J. Liu, G. Li, H. Tan, W. Lu, and X. Zheng|Effects of Five Pesticides on Toxicity, Detoxifying and Protective Enzymes in Phauda flammans Walker (Lepidoptera: Zygaenidae)|Pak. J. Zool.51(4): 1457-1463|2019|10.17582/journal.pjz/2019.51.4.1457.1463
183896|T||Khan,T., A.A. Shahid, and H.A.A. Khan|Could Biorational Insecticides be Used in the Management of Aflatoxigenic Aspergillus parasiticus and Its Insect Vectors in Stored Wheat?|PeerJ4:14|2016|10.7717/peerj.1665
183897|T||Korenko,S., P. Saska, K. Kysilkova, M. Rezac, and P. Heneberg|Prey Contaminated with Neonicotinoids Induces Feeding Deterrent Behavior of a Common Farmland Spider|Sci. Rep.9:8|2019|10.1038/s41598-019-52302-6
183898|T||Macedo,W.R., D.K. Araujo, V.M. Santos, P.R.D.C. E Castro, and G.M. Fernandes|Plant Growth Regulators on Sweet Sorghum: Physiological and Nutritional Value Analysis|Comun. Sci.8(1): 170-174|2017|10.14295/cs.v8i1.1315
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184079|T||Huerta,A., P. Medina, G. Smagghe, P. Castanera, and E. Vinuela|Topical Toxicity of Two Acetonic Fractions of Trichilia havanensis Jacq. and Four Insecticides to Larvae and Adults of Chrysoperla carnea (Stephens) (Neuroptera:  Chrysopidae)|Commun. Agric. Appl. Biol. Sci.68(4, Pt. A): 277-286|2003|
184080|T||Grey,T.L., G.D. Buntin, P.M. Roberts, and D.C. Bridges|Potential Interaction of Pendimethalin and Systemic Insecticides for Thrips Control in Cotton|Agron. J.98(1): 141-147|2006|10.2134/agronj2005-0145
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184083|T||Rogers,M.A., V.A. Krischik, and L.A. Martin|Effect of Soil Application of Imidacloprid on Survival of Adult Green Lacewing, Chrysoperla carnea (Neuroptera: Chrysopidae), Used for Biological Control in Greenhouse|Biol. Control42(2): 172-177|2007|10.1016/j.biocontrol.2007.05.006
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184085|A||Frew,J.A., M. Sadilek, and C.E. Grue|Assessing the Risk to Green Sturgeon from Application of Imidacloprid to Control Burrowing Shrimp in Willapa Bay, Washington. Part I: Exposure Characterization|Environ. Toxicol. Chem.34:2533-2541|2015|10.1002/etc.3089
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184087|A||Frew,J.A., and C.E. Grue|Assessing the Risk to Green Sturgeon from Application of Imidacloprid to Control Burrowing Shrimp in Willapa Bay, Washington -Part II: Controlled Exposure Studies |Environ. Toxicol. Chem.34(11): 2542-2548|2015|10.1002/etc.3090
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184090|A||Qi,S., D. Wang, L. Zhu, M. Teng, C. Wang, X. Xue, and L. Wu|Neonicotinoid Insecticides Imidacloprid, Guadipyr, and Cycloxaprid Induce Acute Oxidative Stress in Daphnia magna|Ecotoxicol. Environ. Saf.148:352-358|2018|10.1016/j.ecoenv.2017.10.042
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184099|A||Del Arco,A.I., F. Guerrero, F. Jimenez-Gomez, and G. Parra|Effects of Nitrate Concentration Within Legal Limits on Natural Assemblages of Plankton Communities|Fundam. Appl. Limnol.187(1): 1-10|2015|10.1127/fal/2015/0727
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184101|AT||Englert,D., J.P. Zubrod, C. Neubauer, R. Schulz, and M. Bundschuh|UV-Irradiation and Leaching in Water Reduce the Toxicity of Imidacloprid-Contaminated Leaves to the Aquatic Leaf-Shredding Amphipod Gammarus fossarum|Environ. Pollut.236:119-125|2018|10.1016/j.envpol.2018.01.050
184102|A||Wu,S., X. Li, X. Liu, G. Yang, X. An, Q. Wang, and Y. Wang|Joint Toxic Effects of Triazophos and Imidacloprid on Zebrafish (Danio rerio)|Environ. Pollut.235:470-481|2018|10.1016/j.envpol.2017.12.120
184103|A||Sohn,L., R.J. Brodie, G. Couldwell, E. Demmons, and J. Sturve|Exposure to a Nicotinoid Pesticide Reduces Defensive Behaviors in a Non-Target Organism, the Rusty Crayfish Orconectes rusticus|Ecotoxicology27(7): 900-907|2018|10.1007/s10646-018-1950-4
184104|T||Ratnadass,A., R. Randriamanantsoa, H.P. Aberlenc, E. Rafamatanantsoa, T.E. Rajaonera, and P. Letourmy|Impacts of Some Upland Rice-Based Cropping Systems on Soil Macrofauna Abundance and Diversity and Black Beetle Damage to Rice|Crop Prot.100:150-156|2017|10.1016/j.cropro.2017.06.023
184105|A||Hayasaka,D., K. Kobashi, and K. Hashimoto|Community Responses of Aquatic Insects in Paddy Mesocosms to Repeated Exposures of the Neonicotinoids Imidacloprid and Dinotefuran|Ecotoxicol. Environ. Saf.175:272-281|2019|10.1016/j.ecoenv.2019.03.051
184106|T||Skouras,P.J., M. Brokaki, G.J. Stathas, V. Demopoulos, G. Louloudakis, and J.T. Margaritopoulos|Lethal and Sub-Lethal Effects of Imidacloprid on the Aphidophagous Coccinellid Hippodamia variegata|Chemosphere229:392-400|2019|10.1016/j.chemosphere.2019.05.037
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184109|T||Pazini,J.D.B., A.C. Padilha, D. Cagliari, F.A. Bueno, M. Rakes, M.J. Zotti, J.F.D.S. Martins, and A.D. Grutzmacher|Differential Impacts of Pesticides on Euschistus heros (Hem.: Pentatomidae) and Its Parasitoid Telenomus podisi (Hym.: Platygastridae)|Sci. Rep.9:10 p.|2019|10.1038/s41598-019-42975-4
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184115|T||Zahid,M., M. Salman, A. Farid, S.A.K. Alamzeb, and K. Habib|Degree-Day Forecasting Method: A Tool for Increasing the Precision of Chemical Control for Managing Peach Flat-Headed Borer, Sphenoptera dadkhani (Oben.) (Coleoptera: Buprestidae)|Pak. J. Zool.47(6): 1771-1776|2015|
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184117|T||Jacobs,D.E., M.J. Hutchinson, M.T. Fox, and K.J. Krieger|Comparison of Flea Control Strategies Using Imidacloprid or Lufenuron on Cats in a Controlled Simulated Home Environment|Am. J. Vet. Res.58(11): 1260-1262|1997|10.2460/ajvr.1997.58.11.1260
184118|T||Arther,R.G., D.D. Bowmann, J.W. Mccall, O. Hansen, and D.R. Young|Feline Advantage Heart (Imidacloprid and Moxidectin) Topical Solution as Monthly Treatment for Prevention of Heartworm Infection (Dirofilaria immitis) and Control of Fleas (Ctenocephalides felis) on Cats|Parasitol. Res.90(3): S137-S139|2003|10.1007/s00436-003-0917-3
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184170|T||Arther,R.G., S. Charles, D.K. Ciszewski, W.L. Davis, and T.S. Settje|Imidacloprid/Moxidectin Topical Solution for the Prevention of Heartworm Disease and the Treatment and Control of Flea and Intestinal Nematodes of Cats|Vet. Parasitol.133(2-3): 219-225|2005|10.1016/j.vetpar.2005.04.001
184171|T||Avery,P.B., V. Kumar, E.A. Skvarch, C.M. Mannion, C.A. Powell, C.L. Mckenzie, and L.S. Osborne|An Ecological Assessment of Isaria fumosorosea Applications Compared to a Neonicotinoid Treatment for Regulating Invasive Ficus Whitefly|J. Fungi5(2): 18 p.|2019|10.3390/jof5020036
184172|T||Aziz,M.A., M. Ahmad, M.F. Nasir, and M. Naeem|Efficacy of Different Neem (Azadirachta indica) Products in Comparison with Imidacloprid Against English Grain Aphid (Sitobion avenae) on Wheat|Int. J. Agric. Biol.15(2): 279-284|2013|
184174|T||Balieira,K.V.B., M. Mazzo, P.F.V. Bizerra, A.R.D.J.S. Guimaraes, D. Nicodemo, and F.E. Mingatto|Imidacloprid-Induced Oxidative Stress in Honey Bees and the Antioxidant Action of Caffeine|Apidologie49(5): 562-572|2018|10.1007/s13592-018-0583-1
184175|T||Bandeira,F.O., P.R.L. Alves, T.B. Hennig, A. Schiehl, E. Cardoso, and D. Baretta|Toxicity of Imidacloprid to the Earthworm Eisenia andrei and Collembolan Folsomia candida in Three Contrasting Tropical Soils|J. Soils Sediments20(4): 1997-2007|2020|10.1007/s11368-019-02538-6
184176|T||Bao,H., X. Shao, Y. Zhang, Y. Deng, X. Xu, Z. Liu, and Z. Li|Specific Synergist for Neonicotinoid Insecticides: Ippa08, a Cis-Neonicotinoid Compound with a Unique Oxabridged Substructure|J. Agric. Food Chem.64(25): 5148-5155|2016|10.1021/acs.jafc.6b01512
184177|T||Barbara,G.S., C. Zube, J. Rybak, M. Gauthier, and B. Grunewald|Acetylcholine, GABA and Glutamate Induce Ionic Currents in Cultured Antennal Lobe Neurons of the Honeybee, Apis mellifera|J. Comp. Physiol.191(9): 823-836|2005|10.1007/s00359-005-0007-3
184178|T||Barraud,A., M. Vanderplanck, S. Nadarajah, and D. Michez|The Impact of Pollen Quality on the Sensitivity of Bumblebees to Pesticides|Acta Oecol. (Montrouge)105:6 p.|2020|10.1016/j.actao.2020.103552
184179|T||Barrera-Ruiz,U.M., D. Cibrian-Tovar, M.C.M. Llanderal-Cazares, V.D. Cibrian-Llanderal, and A. Lagunes-Tejeda|Chemical Combat of Gall Wasps Andricus quercuslaurinus Melika & Pujade-Villar (Cynipidae) in Quercus affinis Scheidw|Rev. Chapingo Ser. Cienc. For. Ambient.22(2): 115-123|2016|10.5154/r.rchscfa.2015.05.020
184180|T||Bashir,M.H., M. Zahid, M.A. Khan, M. Shahid, A.K. Khan, and L. Amrao|Pesticides Toxicity for Neoseiulus barkeri (Acari: Phytoseiidae) and Non-Target Organisms|Pak. J. Agric. Sci.55(1): 63-71|2018|10.21162/PAKJAS/18.5277
184181|T||Bebane,P.S.A., B.J. Hunt, M. Pegoraro, A.R.C. Jones, H. Marshall, E. Rosato, and E.B. Mallon|The Effects of the Neonicotinoid Imidacloprid on Gene Expression and DNA Methylation in the Buff-Tailed Bumblebee Bombus terrestris|Proc. R. Soc. Lond. Ser. B Biol. Sci.286(1905): 8 p.|2019|10.1098/rspb.2019.0718
184182|T||Berheim,E.H., J.A. Jenks, J.G. Lundgren, E.S. Michel, D. Grove, and W.F. Jensen|Effects of Neonicotinoid Insecticides on Physiology and Reproductive Characteristics of Captive Female and Fawn White-Tailed Deer|Sci. Rep.9:10 p.|2019|10.1038/s41598-019-40994-9
184183|T||Bhandari,B.P., and Z.Q. Cheng|Trunk Injection of Systemic Insecticides to Control Stem and Leaf Gall Wasps, Josephiella Species (Hymenoptera: Agaonidae), on Chinese Banyan (Rosales: Moraceae) in Hawaii|Fla. Entomol.99(2): 172-177|2016|10.1653/024.099.0203
184184|T||Blanken,L.J., F. Van Langevelde, and C. Van Dooremalen|Interaction Between Varroa destructor and Imidacloprid Reduces Flight Capacity of Honeybees|Proc. R. Soc. Lond. Ser. B Biol. Sci.282(1820): 1-9|2015|10.1098/rspb.2015.1738
184185|T||Bovi,T.S., R. Zaluski, and R.O. Orsi|Toxicity and Motor Changes in Africanized Honey Bees (Apis mellifera L.) Exposed to Fipronil and Imidacloprid|An. Acad. Bras. Cienc.90(1): 239-245|2018|10.1590/0001-3765201820150191
184186|T||Brar,G.S., X. Martini, and L.L. Stelinski|Lethal and Sub-Lethal Effects of a Novel Sulfoximine Insecticide, Sulfoxaflor, Against Asian Citrus Psyllid and Its Primary Parasitoid Under Laboratory and Field Conditions|Int. J. Pest Manag.63(4): 299-308|2017|10.1080/09670874.2016.1258501
184187|T||Brodschneider,R., A. Libor, V. Kupelwieser, and K. Crailsheim|Food Consumption and Food Exchange of Caged Honey Bees Using a Radioactive Labelled Sugar Solution|PLoS One12(3): 19p.|2017|10.1371/journal.pone.0174684
184188|T||Abd-Ella,A.A.|Susceptibility of the Pomegranate Whitefly, Siphoninus phillyreae (Haliday) (Homoptera: Aleyrodidae) and Its Parasitoid, Encarsia inaron (Walker) (Hymenoptera: Aphelinidae) to Certain Insecticides Under Laboratory Condi|Egypt. J. Biol. Pest Control25(3): 689-695|2015|
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184195|T||Di Vitantonio,C., L. Depalo, E. Marchetti, M.L. Dindo, and A. Masetti|Response of the European Ladybird Adalia bipunctata and the Invasive Harmonia axyridis to a Neonicotinoid and a Reduced-Risk Insecticide|J. Econ. Entomol.111(5): 2076-2080|2018|10.1093/jee/toy206
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184198|T||Dively,G.P., M.S. Embrey, A. Kamel, D.J. Hawthorne, and J.S. Pettis|Assessment of Chronic Sublethal Effects of Imidacloprid on Honey Bee Colony Health|PLoS One10(3): 1-25|2015|10.1371/journal.pone.0118748
184199|T||Dussaubat,C., A. Maisonnasse, D. Crauser, S. Tchamitchian, M. Bonnet, M. Cousin, A. Kretzschmar, J.L. Brunet, and Y. Le|Combined Neonicotinoid Pesticide and Parasite Stress Alter Honeybee Queens' Physiology and Survival|Sci. Rep.6:7|2016|10.1038/srep31430
184200|T||Eng,M.L., B.J.M. Stutchbury, and C.A. Morrissey|Imidacloprid and Chlorpyrifos Insecticides Impair Migratory Ability in a Seed-Eating Songbird|Sci. Rep.7(1): 1-9|2017|10.1038/s41598-017-15446-x
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184202|T||Erban,T., B. Sopko, P. Talacko, K. Harant, K. Kadlikova, T. Halesova, K. Riddellova, and A. Pekas|Chronic Exposure of Bumblebees to Neonicotinoid Imidacloprid Suppresses the Entire Mevalonate Pathway and Fatty Acid Synthesis|J. Proteom.196:69-80|2019|10.1016/j.jprot.2018.12.022
184203|T||Farinos,G.P., M. De la Poza, P. Hernandez-Crespo, F. Ortego, and P. Castanera|Diversity and Seasonal Phenology of Aboveground Arthropods in Conventional and Transgenic Maize Crops in Central Spain|Biol. Control44(3): 362-371|2008|10.1016/j.biocontrol.2007.11.007
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184206|T||Gomes,I.N., K.I.C. Vieira, L.M. Gontijo, and H.C. Resende|Honeybee Survival and Flight Capacity are Compromised by Insecticides Used for Controlling Melon Pests in Brazil|Ecotoxicology29(1): 97-107|2020|10.1007/s10646-019-02145-8
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184209|T||Hedau,M., V. Wankhede, and M.R. Wade|Effect of Butea monosperma Feeding in Ameliorating the Toxicity of Imidacloprid in Liver in Japanese Quails|Indian J. Anim. Res.52(12): 1766-1769|2018|10.18805/ijar.B-3435
184210|T||Chaimanee,V., J.D. Evans, Y. Chen, C. Jackson, and J.S. Pettis|Sperm Viability and Gene Expression in Honey Bee Queens (Apis mellifera) Following Exposure to the Neonicotinoid Insecticide Imidacloprid and the Organophosphate Acaricide Coumaphos|J. Insect Physiol.89:1-8|2016|10.1016/j.jinsphys.2016.03.004
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184256|T||Gong,P., K.B. Donohue, A.M. Mayo, Y. Wang, H. Hong, M.S. Wilbanks, N.D. Barker, X. Guan, and K.A. Gust|Comparative Toxicogenomics of Three Insensitive Munitions Constituents 2,4-Dinitroanisole, Nitroguanidine and Nitrotriazolone in the Soil Nematode Caenorhabditis elegans|BMC Syst. Biol.12(Suppl 7): 16 p.|2018|
184257|T||Jin,B., S. Mallula, S.A. Golovko, M.Y. Golovko, and F. Xiao|In Vivo Generation of PFOA, PFOS, and Other Compounds from Cationic and Zwitterionic Per- and Polyfluoroalkyl Substances in a Terrestrial Invertebrate (Lumbricus terrestris)|Environ. Sci. Technol.12:7378-7378|2020|10.1021/acs.est.0c01644
184258|T||Munoz,G., M. Desrosiers, L. Vetter, S.V. Duy, J. Jarjour, J. Liu, and S. Sauve|Bioaccumulation of Zwitterionic Polyfluoroalkyl Substances in Earthworms Exposed to Aqueous Film-Forming Foam Impacted Soils|Environ. Sci. Technol.3:1687-1697|2020|10.1021/acs.est.9b05102
184259|A||Tu,W., R. MartNez, L. Navarro-Martin, D.J. Kostyniuk, C. Hum, J. Huang, M. Deng, Y. Jin, H.M. Chan, and J.A. Mennigen|Bioconcentration and Metabolic Effects of Emerging PFOS Alternatives in Developing Zebrafish|Environ. Sci. Technol.22:13427-13439|2019|10.1021/acs.est.9b03820
184260|A||Yi,S., L. Zhu, and S.A. Mabury|First Report on In Vivo Pharmacokinetics and Biotransformation of Chlorinated Polyfluoroalkyl Ether Sulfonates in Rainbow Trout|Environ. Sci. Technol.1:345-354|2020|10.1021/acs.est.9b05258
184261|T||Jeyalakshmi,T., R. Shanmugasundaram, M. Saravanan, S. Geetha, S.S. Mohan, A. Goparaju, and B.R. Murthy|Comparative Toxicity of Certain Insecticides Against Apis cerana indica Under Semi Field and Laboratory Conditions|Pestology35(12): 23-28|2011|
184262|T||Jalgaonkar,V.N., S.A. Chavan, P.D. Patil, and B.N. Sawant|Effect of Some Insecticides Against Tea Mosquito Bug in Cashew|Pestology12:27-28|2011|
184263|A||Gomes,R.S.,Jr., J.P.V. De Lima, R.O. Cavalli, and E. De Souza Correia|Acute Toxicity of Ammonia and Nitrite to Painted River Prawn, Macrobrachium carcinus , Larvae|J. World Aquac. Soc.47(2): 239-247|2016|10.1111/jwas.12258
184264|A||Gosselin,J.R., W.T. Haller, L.A. Gettys, T. Griffin, and E.S. Crawford|Effects of Substrate Nutrients on Growth of Three Submersed Aquatic Plants|J. Aquat. Plant Manag.56:39-46|2018|
184265|A||Griffis-Kyle,K.L.|Ontogenic Delays in Effects of Nitrite Exposure on Tiger Salamanders (Ambystoma tigrinum tigrinum) and Wood Frogs (Rana sylvatica)|Environ. Toxicol. Chem.24(6): 1523-1527|2005|10.1897/04-452R.1
184266|A||Griffis-Kyle,K.L.|Sublethal Effects of Nitrite on Eastern Tiger Salamander (Ambystoma tigrinum tigrinum) and Wood Frog (Rana sylvatica) Embryos and Larvae: Implications for Field Populations|Aquat. Ecol.41(1): 119-127|2007|10.1007/s10452-006-9047-1
184267|A||Grizzle,J.M.|Effects on Channel Catfish of High Nitrite Concentrations that Occur in Fish Ponds|Water Resources Research Institute Completion Report:6 p.|1983|
184269|A||Haaland,H., and L.R. Njaa|Effects of Sodium Nitrite and Formaldehyde on the Lysine Content of Fish Muscle. Model Experiments|Food Chem.39(3): 337-345|1991|10.1016/0308-8146(91)90151-D
184270|A||Halmann,M., and A. Elgavish|The Role of Phosphate in Eutrophication. Stimulation of Plankton Growth and Residence Times of Inorganic Phosphate in Lake Kinneret Water|Int. Ver. Theor. Angew. Limnol.19(2): 1351-1356|1975|
184272|A||Hatch,A.C., and A.R. Blaustein|Combined Effects of UV-B Radiation and Nitrate Fertilizer on Larval Amphibians|Ecol. Appl.13(4): 1083-1093|2003|10.1890/1051-0761(2003)13[1083:CEOURA]2.0.CO;2
184273|A||Hayd,L.A., D. Lemos, and W.C. Valenti|Effects of Ambient Nitrite on Amazon River Prawn, Macrobrachium amazonicum, Larvae|J. World Aquac. Soc.45(1): 55-64|2014|10.1111/jwas.12071
184276|A||Hildebrand,M., and K. Dahlin|Nitrate Transporter Genes from the Diatom Cylindrotheca fusiformis (Bacillariophyceae): mRNA Levels Controlled by Nitrogen Source and by the Cell Cycle|J. Phycol.(4): 702-713|2000|10.1046/j.1529-8817.2000.99153.x
184277|A||Gott,R.C.|Development of Gene Expression-Based Biomarkers of Exposure to Metals and Pesticides in the Freshwater Amphipod Hyalella azteca|Ph.D.Thesis, University of Maryland, College Park, MD:218 p.|2016|
184278|T||Mamedova,V.F., and I.K. Alekperov|The Use of Ciliates (Ciliophora) for Bioassay of the Toxicity of Insecticides|Vestn. Zool.50(5): 467-470|2016|10.1515/vzoo-2016-0053
184279|T||Lukaszewicz,G., F.G. Iturburu, D.S. Garanzini, M.L. Menone, and S. Pflugmacher|Imidacloprid Modifies the Mitotic Kinetics and Causes Both Aneugenic and Clastogenic Effects in the Macrophyte Bidens laevis L|Heliyon5(7): 1-6|2019|10.1016/j.heliyon.2019.e02118
184280|A||McLuckie,C., N. Moltschaniwskyj, T. Gaston, R.H. Dunstan, M. Crompton, P. Butcherine, K. Benkendorff, and M.D. Taylor|Lethal and Sub-Lethal Effects of Environmentally Relevant Levels of Imidacloprid Pesticide to Eastern School Prawn, Metapenaeus macleayi|Sci. Total Environ.742:1-9|2020|10.1016/j.scitotenv.2020.140449
184281|A||Matsuda,K., S.D. Buckingham, J.C. Freeman, M.D. Squire, H.A. Baylis, and D.B. Satelle|Role of the Alpha Subunit of Nicotonic Acetylcholine Receptor in the Selective Action of Imidacloprid|Pestic. Sci.55(2): 211-213|1999|10.1002/(SICI)1096-9063(199902)55:2<211::AID-PS874>3.0.CO;2-S
184282|A||Marcal,R., M. Pacheco, and S. Guilherme|DNA of Crayfish Spermatozoa as a Target of Waterborne Pesticides - an Ex Vivo Approach as a Tool to Short-Term Spermiotoxicity Screening|J. Hazard. Mater.400:9 p.|2020|10.1016/j.jhazmat.2020.123300
184283|A||Islam,M.A., M.S. Hossen, K.A. Sumon, and M.M. Rahman|Acute Toxicity of Imidacloprid on the Developmental Stages of Common Carp Cyprinus carpio|Toxicol. Environ. Health Sci.11(3): 244-251|2019|10.1007/s13530-019-0410-8
184284|A||Hayasaka,D.|Study of the Impacts of Systemic Insecticides and Their Environmental Fate in Aquatic Communities of Paddy Mesocosms|J. Pestic. Sci. (Multiple Languages)39(3): 172-173|2014|10.1584/jpestics.J14-02
184285|A||Ansoar-Rodriguez,Y., C.A. Christofoletti, A.C. Marcato, J.E. Correia, O.C. Bueno, O. Malaspina, and C.S. Fontanetti|Genotoxic Potential of the Insecticide Imidacloprid in a Non-Target Organism (Oreochromis niloticus-Pisces)|J. Environ. Prot.6(12): 1360-1367|2015|10.4236/jep.2015.612118
184286|A||Shukla,S., R.C. Jhamtani, M.S. Dahiya, and R. Agarwal|Oxidative Injury Caused by Individual and Combined Exposure of Neonicotinoid, Organophosphate and Herbicide in Zebrafish|Toxicol. Rep.4:240-244|2017|10.1016/j.toxrep.2017.05.002
184287|A||Ozdemir,S., S. Altun, and H. Arslan|Imidacloprid Exposure Cause the Histopathological Changes, Activation of TNF-alpha, iNOS, 8-OHdG Biomarkers, and Alteration of Caspase 3, Inos, Cyp1a, Mt1 Gene Expression Levels in Common Carp (Cyprinus carpio L.)|Toxicol. Rep.5:125-133|2018|10.1016/j.toxrep.2017.12.019
184288|A||Neury-Ormanni,J., J. Vedrenne, and S. Morin|Benthic Diatom Growth Kinetics under Combined Pressures of Microalgal Competition, Predation and Chemical Stressors|Sci. Total Environ.734:1-9|2020|10.1016/j.scitotenv.2020.139484
184289|A||Ho,S.H., Y. Xie, C. Ming-Chang, L. Chen-Chun, C. Chun-Yen, D.J. Lee, H. Chieh-Chen, and C. Jo-Shu|Effects of Nitrogen Source Availability and Bioreactor Operating Strategies on Lutein Production with Scenedesmus obliquus FSP-3|Bioresour. Technol.184:131-138|2015|10.1016/j.biortech.2014.10.062
184290|T||Wu,C., D. Fengshou, X. Chen, T. Zhang, X. Mei, J. Ning, and D. She|Spatial and Temporal Distribution, Degradation, and Metabolism of Three Neonicotinoid Insecticides on Different Parts, Especially Pests' Target Feeding Parts of Apple Tree|Pest Manag. Sci.76(6): 2190-2197|2020|10.1002/ps.5756
184291|T||Chen,R., T. Zhang, L. Kuang, Z. Chen, D. Ran, Y. Niu, K. Xu, and H. Gu|Cholinergic Synaptic Transmissions Were Altered After Single Sevoflurane Exposure in Drosophila pupa|BioMed Res. Int.2015:1-7|2015|10.1155/2015/485709
184292|A||Wang,B., D. Li, Z. Yuan, Y. Zhang, X. Ma, Z. Lv, Y. Xiao, and J. Zhang|Evaluation of Joint Effects of Perfluorooctane Sulfonate and Wood Vinegar on Planarians, Dugesia japonica|Environ. Sci. Pollut. Res. Int.27(15): 18089-18089|2020|10.1007/s11356-020-08342-x
184295|A||Vogeler,S., T.S. Galloway, M. Isupov, and T.P. Bean|Cloning Retinoid and Peroxisome Proliferator-Activated Nuclear Receptors of the Pacific Oyster and In Silico Binding to Environmental Chemicals|PLoS One12(4): 21 p.|2017|10.1371/journal.pone.0176024
184296|T||Bizkarguenaga,E., I. Zabaleta, L. Mijangos, A. Iparraguirre, L.A. Fernandez, A. Prieto, and O. Zuloaga|Uptake of Perfluorooctanoic Acid, Perfluorooctane Sulfonate and Perfluorooctane Sulfonamide by Carrot and Lettuce from Compost Amended Soil|Sci. Total Environ.571:444-451|2016|10.1016/j.scitotenv.2016.07.010
184297|T||Hussain,G., M. Asrar, D. Hussain, K. Zia, A. Rashid, H. Anwar, M. Azeem, S. Hussain, and A. Sabeen|The Comparative Toxicity of Some Insecticides and Plant Extracts against Cotton Mealy Bug (Phenacocccus solenopsis)|Pak. J. Agric. Res.33(1): 17-21|2020|
184298|A||Huey,D.W., and T.L. Beitinger|Haematological Responses of Larval Rana catesbiana to Sublethal Nitrite Exposures|Bull. Environ. Contam. Toxicol.25(4): 574-577|1980|10.1007/BF01985574
184299|T||Stone,S.M., S.C. Clark-Price, J.M. Boesch, and M.A. Mitchell|Evaluation of Righting Reflex in Cane Toads (Bufo marinus) After Topical Application of Sevoflurane Jelly|Am. J. Vet. Res.74(6): 823-827|2013|10.2460/ajvr.74.6.823
184300|A||Wang,H., S. Tang, Q. Hao, and P. Wang|An Acute Toxicity Study of PFOS on Freshwater Organisms at Different Nutritional Levels|Fresenius Environ. Bull.29(1): 360-363|2020|
184301|A||Hu,H., and X. Zhang|Nitrite Utilization by Chaetoceros muelleri Under Elevated CO2 Concentration|World J. Microbiol. Biotechnol.24(6): 891-894|2008|10.1007/s11274-007-9553-x
184302|A||Xia,X., R. Yu, M. Li, L. Liu, K. Zhang, Y. Wang, B. Li, L. Zhang, G. Song, X. Zheng, and X.H. Bai|Molecular Cloning and Characterization of Two Genes Encoding Peroxiredoxins from Freshwater Bivalve Anodonta woodiana: Antioxidative Effect and Immune Defense|Fish Shellfish Immunol.82:476-491|2018|10.1016/j.fsi.2018.08.050
184303|A||Cormier,B., A. Batel, J. Cachot, M. Begout, T. Braunbeck, X. Cousin, and S.H. Keiter|Multi-Laboratory Hazard Assessment of Contaminated Microplastic Particles by Means of Enhanced Fish Embryo Test with the Zebrafish (Danio rerio)|Front. Environ. Sci.7:14 p.|2019|10.3389/fenvs.2019.00135
184304|A||Nelson,S.G., B.D. Smith, and B.R. Best|Kinetics of Nitrate and Ammonium Uptake by the Tropical Freshwater Macrophyte Pistia Stratiotes l|Aquaculture24:11-19|1981|10.1016/0044-8486(81)90039-9
184306|T||Schmahl,G., H. Mehlhorn, A. Harder, S. Klimpel, and K.J. Krieger|Efficacy of a Combination of Imidacloprid Plus Moxidectin Against Larval and Adult Stages of Nematodes (Trichuris Muris, Angiostrongylus cantonensis) in Rodents|Parasitol. Res.101:S85-S92|2007|10.1007/s00436-007-0615-7
184307|T||Englert,D., N. Bakanov, J.P. Zubrod, R. Schulz, and M. Bundschuh|Modeling Remobilization of Neonicotinoid Residues from Tree Foliage in Streams - a Relevant Exposure Pathway in Risk Assessment?|Environ. Sci. Technol.51(3): 1785-1794|2017|10.1021/acs.est.6b05213
184308|T||Shimada,S., M. Kamiya, S. Shigetou, K. Tomiyama, Y. Komori, L. Magara, M. Ihara, and K. Matsuda|The Mechanism of Loop C-Neonicotinoid Interactions at Insect Nicotinic Acetylcholine Receptor alpha1 Subunit Predicts Resistance Emergence in Pests|Sci. Rep.10(1): 8 p.|2020|10.1038/s41598-020-64258-z
184309|T||Shimomura,M., H. Okuda, K. Matsuda, K. Komai, M. Akamatsu, and D.B. Sattelle|Effects of Mutations of a Glutamine Residue in Loop D of the Alpha 7 Nicotinic Acetylcholine Receptor on Agonist Profiles for Neonicotinoid Insecticides and Related Ligands|Br. J. Pharmacol.137(2): 162-169|2002|10.1038/sj.bjp.0704848
184310|T||Simmons,W.R., and D.R. Angelini|Chronic Exposure to a Neonicotinoid Increases Expression of Antimicrobial Peptide Genes in the Bumblebee Bombus impatiens|Sci. Rep.7:9|2017|10.1038/srep44773
184311|T||Tan,K., W.W. Chen, S.H. Dong, X.W. Liu, Y.C. Wang, and J.C. Nieh|A Neonicotinoid Impairs Olfactory Learning in Asian Honey Bees (Apis cerana) Exposed as Larvae or as Adults|Sci. Rep.5:8 p.|2015|10.1038/srep10989
184312|T||Xu,T., C.M. Jacobsen, I.K. Cho, A.H. Hara, and Q.X. Li|Application of an Enzyme-Linked Immunosorbent Assay for the Analysis of Imidacloprid in Wiliwili Tree, Erythrina sandwicensis O. Deg, for Control of the Wasp Quadrastichus erythrinae|J. Agric. Food Chem.54(22): 8444-8449|2006|10.1021/jf062004e
184313|T||Yan,X., G.Y. Zhao, and R. Han|Integrated Management of Chive Gnats (Bradysia odoriphaga) in Chives Using Entomopathogenic Nematodes and Low-Toxicity Insecticides|Insects10(6): 15 p.|2019|10.3390/insects10060161
184314|T||Yang,D., C. Wan, Y. Xiao, C. Che, C. Rui, and Z. Qin|Design, Synthesis, and Insecticidal Activity of Novel 1-Alkoxy-2-Nitroguanidines|RSC Adv.8(4): 1838-1845|2018|10.1039/c7ra11454k
184315|T||Zhang,E., and J.C. Nieh|The Neonicotinoid Imidacloprid Impairs Honey Bee Aversive Learning of Simulated Predation|J. Exp. Biol.218(20): 8 p.|2015|
184316|T||Zhu,Y.C., Y.H. Wang, M. Portilla, K. Parys, and W.H. Li|Risk and Toxicity Assessment of a Potential Natural Insecticide, Methyl Benzoate, in Honey Bees (Apis mellifera L.)|Insects10(11): 17 p.|2019|10.3390/insects10110382
184317|T||Tappert,L., T. Pokorny, J. Hofferberth, and J. Ruther|Sublethal Doses of Imidacloprid Disrupt Sexual Communication and Host Finding in a Parasitoid Wasp|Sci. Rep.7:9 p.|2017|10.1038/srep42756
184319|T||Tesovnik,T., M. Zorc, A. Gregorc, T. Rinehart, J. Adamczyk, and M. Narat|Immune Gene Expression in Developing Honey Bees (Apis mellifera L.) Simultaneously Exposed to Imidacloprid and Varroa destructor in Laboratory Conditions|J. Apic. Res.58(5): 730-739|2019|10.1080/00218839.2019.1634463
184320|T||Halappa,B., J.S. Awaknavar, and D. Archana|Toxicity of Different Insecticides to Trichogramma chilonis Ishii (Trichogrammitidae:Hymenoptera) Under Laboratory Condition|Res. Crops13(2): 652-655|2012|
184321|T||Colin,T., J.A. Plath, S. Klein, P. Vine, J.M. Devaud, M. Lihoreau, W.G. Meikle, and A.B. Barron|The Miticide Thymol in Combination with Trace Levels of the Neonicotinoid Imidacloprid Reduces Visual Learning Performance in Honey Bees (Apis mellifera)|Apidologie51:499-509|2020|10.1007/s13592-020-00737-6
184322|T||Cook,N., J. Green, D.M. Shuker, and P.R. Whitehorn|Exposure to the Neonicotinoid Imidacloprid Disrupts Sex Allocation Cue Use During Superparasitism in the Parasitoid Wasp Nasonia vitripennis|Ecol. Entomol.41(6): 693-697|2016|10.1111/een.12344
184323|T||Czerwinski,M.A., and B.M. Sadd|Detrimental Interactions of Neonicotinoid Pesticide Exposure and Bumblebee Immunity|J. Exp. Zool. A Ecol. Integr. Physiol.327(5): 11 p.|2017|10.1002/jez.2087
184324|T||Dai,P.L., H.R. Jia, L.L. Geng, and Q.Y. Diao|Bt Toxin Cry1lie Causes no Negative Effects on Survival, Pollen Consumption, or Olfactory Learning in Worker Honey Bees (Hymenoptera: Apidae)|J. Econ. Entomol.109(3): 1028-1033|2016|10.1093/jee/tow088
184325|T||Dai,P.L., H.R. Jia, C.J. Jack, L.L. Geng, F. Liu, C.S. Hou, Q.Y. Diao, and J.D. Ellis|Bt Cry1ie Toxin does not Impact the Survival and Pollen Consumption of Chinese Honey Bees, Apis cerana cerana (Hymenoptera, Apidae)|J. Econ. Entomol.109(6): 2259-2263|2016|10.1093/jee/tow204
184326|T||Daisley,B.A., M. Trinder, T.W. McDowell, H. Welle, J.S. Dube, S.N. Ali, H.S. Leong, M.W. Sumarah, and G. Reid|Neonicotinoid-Induced Pathogen Susceptibility is Mitigated by Lactobacillus plantarum Immune Stimulation in a Drosophila melanogaster Model|Sci. Rep.7(1): 13 p.|2017|10.1038/s41598-017-02806-w
184327|T||Davis,M.J., and J.S. Elkinton|Efficacy of Two Systemic Insecticides with Stem Gall Wasp, Zapatella davisae (Hymenoptera: Cynipidae) on Black Oak|J. Econ. Entomol.111(2): 986-988|2018|10.1093/jee/tox358
184328|T||Dara,S.K., and F.C.C. Hountondji|Effects of Formulated Imidacloprid on Two Mite Pathogens, Neozygites floridana (Zygomycotina: Zygomycetes) and Hirsutella thompsonii (Deuteromycotina: Hyphomycetes)|Int. J. Trop. Insect Sci.21(2): 133-138|2001|10.1017/S174275840002018X
184329|T||Jiang,Q., R.M. Lust, M.J. Strynar, S. Dagnino, and J.C. Dewitt|Perfluorooctanoic Acid Induces Developmental Cardiotoxicity in Chicken Embryos and Hatchlings|Toxicology293(1-3): 97-106|2012|10.1016/j.tox.2012.01.005
184330|A||Phillips,M.M., M.J.A. Dinglasan-Panlilio, S.A. Mabury, K.R. Solomon, and P.K. Sibley|Chronic Toxicity of Fluorotelomer Acids to Daphnia magna and Chironomus dilutus|Environ. Toxicol. Chem.29:1123-1131|2010|10.1002/etc.141
184331|T||Yu,C.H., M. Fu, R.H. Lin, Y. Zhang, Y.Q. Liu, H. Jiang, and T.C.M. Brock|Toxic Effects of Hexaflumuron on the Development of Coccinella septempunctata|Environ. Sci. Pollut. Res.21:1418-1424|2014|10.1007/s11356-013-2036-8
184332|T||Sousa,K.K.A., R.D. Camargo, L.C. Forti, and N. Caldato|Effects of Cycloheximide on the Mortality of Atta sexdens Leaf-Cutting Worker Ants|Rev. Bras. Entomol.62(3): 169-171|2018|10.1016/j.rbe.2018.04.002
184333|T||Zhao,Y.X., J.M. Huang, H. Ni, D. Guo, F.X. Yang, X. Wang, S.F. Wu, and C.F. Gao|Susceptibility of Fall Armyworm, Spodoptera frugiperda (Jesmmith), to Eight Insecticides in China, with Special Reference to Lambda-Cyhalothrin|Pestic. Biochem. Physiol.168:4623-4623|2020|
184334|A||Han,Z.X., M. Zhang, and C.X. Lv|Toxicokinetic Behaviors and Modes of Perfluorooctane Sulfonate (PFOS) and Perfluorooctane Acid (PFOA) on Tilapia (Oreochromis niloticus)|Afr. J. Biotechnol.(60): 12943-12950|2011|
184336|T||Kannan,M., S. Uthamasamy, and S. Mohan|Impact of Insecticides on Sucking Pests and Natural Enemy Complex of Transgenic Cotton|Curr. Sci.86(5): 726-729|2004|
184337|T||McCullough,D.G., T.M. Poland, A.R. Tluczek, A. Anulewicz, J. Wieferich, and N.W. Siegert|Emerald Ash Borer (Coleoptera: Buprestidae) Densities over a 6-Yr Period on Untreated Trees and Trees Treated with Systemic Insecticides at 1-, 2-, and 3-Yr Intervals in a Central Michigan Forest|J. Econ. Entomol.112(1): 201-212|2019|10.1093/jee/toy282
184338|T||Kammon,A.M., R.S. Brar, H.S. Banga, and S. Sodhi|Patho-Biochemical Studies on Hepatotoxicity and Nephrotoxicity on Exposure to Chlorpyrifos and Imidacloprid in Layer Chickens|Vet. Arh. (Tisak)80(5): 663-672|2010|
184339|T||Klimes,P., and J. Okrouhlik|Invasive Ant Tapinoma melanocephalum (Hymenoptera: Formicidae): A Rare Guest or Increasingly Common Indoor Pest in Europe?|Eur. J. Entomol.112(4): 705-712|2015|10.14411/eje.2015.089
184340|T||Krauter,P.C., C.G. Sansone, and K.M. Heinz|Assessment of Gaucho Seed Treatment Effects on Beneficial Insect Abundance in Sorghum|Southwest. Entomol.26(2): 143-146|2001|
184341|T||Kremer,A.N., and B.H. King|Decaying Organic Matter does not Remove Sublethal Effects of Imidacloprid on Mating in Spalangia endius (Hymenoptera: Pteromalidae), a Parasitoid of Filth Flies|J. Econ. Entomol.112(5): 2502-2506|2019|10.1093/jee/toz156
184342|T||Kwizera,V., and I.A. Susurluk|Evaluation of the Effects of Some Insecticides Based on Neonicotinoids on Entomopathogenic Nematodes, Steinernema feltiae and S. carpocapsae|Invertebr. Surv. J. (ISJ)14:375-378|2017|
184343|T||Li,Y.G., and A.M. Fallon|Rearing the Soil Arthropod Folsomia candida (Collembola: Isotomidae) on Agar Plates and Estimating Biomass by Protein Staining with Ponceau S|Appl. Entomol. Zool.51(3): 489-494|2016|10.1007/s13355-016-0405-8
184344|T||Lu,C.S., K.M. Warchol, and R.A. Callahan|In Situ Replication of Honey Bee Colony Collapse Disorder|Bull. Insectol.65(1): 99-106|2012|
184345|T||Lunardi,J.S., R. Zaluski, and R.O. Orsi|Evaluation of Motor Changes and Toxicity of Insecticides Fipronil and Imidacloprid in Africanized Honey Bees (Hymenoptera: Apidae)|Sociobiology64(1): 50-56|2017|10.13102/sociobiology.v64i1.1190
184346|T||Marques,R.D., M.A.P. Lima, R.D. Marques, and R.C. Bernardes|A Spinosad-Based Formulation Reduces the Survival and Alters the Behavior of the Stingless Bee Plebeia lucii|Neotrop. Entomol. (Multiple Languages):8 p.|2020|10.1007/s13744-020-00766-x
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184351|T||Sharma,A., V. Kumar, H.W. Yuan, M.K. Kanwar, R. Bhardwaj, A.K. Thukral, and B.S. Zheng|Jasmonic Acid Seed Treatment Stimulates Insecticide Detoxification in Brassica juncea L|Front. Plant Sci.9:17 p.|2018|
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184356|T||Pashte,V.V., and C.S. Patil|Toxicity and Poisoning Symptoms of Selected Insecticides to Honey Bees (Apis mellifera mellifera L.)|Arch. Biol. Sci. (Beogr.)70(1): 5-12|2018|10.2298/abs170131020p
184357|T||Paleolog,J., J. Wilde, M. Siuda, B. Bak, L. Wojcik, and A. Strachecka|Imidacloprid Markedly Affects Hemolymph Proteolysis, Biomarkers, DNA Global Methylation, and the Cuticle Proteolytic Layer in Western Honeybees|Apidologie51:620-630|2020|10.1007/s13592-020-00747-4
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184360|T||Resende-Silva,G.A., D.A. Joseph, R.N.C. Guedes, and G.C. Cutler|Impact of Imidacloprid Soil Drenching on Survival, Longevity, and Reproduction of the Zoophytophagous Predator Podisus maculiventris (Hemiptera: Pentatomidae: Asopinae)|J. Econ. Entomol.113(1): 108-114|2020|10.1093/jee/toz283
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184363|T||Resende-Silva,G.A., L.M. Turchen, R.N.C. Guedes, and G.C. Cutler|Imidacloprid Soil Drenches Affect Weight and Functional Response of Spined Soldier Bug (Hemiptera: Pentatomidae)|J. Econ. Entomol.112(2): 558-564|2019|10.1093/jee/toy401
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184366|T||Whitehorn,P.R., G. Norville, A. Gilburn, and D. Goulson|Larval Exposure to the Neonicotinoid Imidacloprid Impacts Adult Size in the Farmland Butterfly Pieris brassicae|PeerJ6:15|2018|10.7717/peerj.4772
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184372|T||Nelson,P.N.|Conservation Biological Control in North Carolina Flue-Cured Tobacco, Focused on the Predator Jalysus wickhami Van Duzee (Hemiptera: Berytidae)|Ph.D.Thesis, North Carolina State University, Raleigh, NC:124 p.|2018|
184373|T||Challa,G.K., D.M. Firake, and G.T. Behere|Bio-Pesticide Applications may Impair the Pollination Services and Survival of Foragers of Honey Bee, Apis cerana Fabricius in Oilseed Brassica|Environ. Pollut.249:598-609|2019|10.1016/j.envpol.2019.03.048
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184378|T||D'Ambrosio,D.A., G.G. Kennedy, and A.S. Huseth|Frankliniella fusca and Frankliniella occidentalis Response to Thrips-Active Cry51Aa2.834_16 Bt Cotton with and Without Neonicotinoid Seed Treatment|Crop Prot.129:6 p.|2020|10.1016/j.cropro.2019.105042
184379|T||Dani,V.D., B.P. Lankadurai, E.G. Nagato, A.J. Simpson, and M.J. Simpson|Comparison of Metabolomic Responses of Earthworms to Sub-Lethal Imidacloprid Exposure in Contact and Soil Tests|Environ. Sci. Pollut. Res. Int.26(18): 18846-18855|2019|10.1007/s11356-019-05302-y
184380|T||Davidson,W., and L.K. Rieske|Establishment of Classical Biological Control Targeting Emerald Ash Borer is Facilitated by Use of Insecticides, with Little Effect on Native Arthropod Communities|Biol. Control101:78-86|2016|10.1016/j.biocontrol.2016.06.010
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184394|T||Maia,J.B., G.A. Carvalho, R.L. De Oliveira, O. Lasmar, and M.I.S. Leite|Effects of Insecticides Used in Corn on Immature Stages of Trichogramma atopovirilia (Hymenoptera: Trichogrammatidae)|Rev. Colombiana Entomol.39(2): 205-210|2013|10.25100/socolen.v39i2.8236
184395|T||Manzoor,F.|Synergism of Imidacloprid and Entomopathogenic Nematodes for the Control of Eastern Subterranean Termite, Reticulitermes flavipes (Isoptera: Rhinotermitidae)|Pak. J. Zool.44(5): 1397-1403|2012|
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184399|T||Hoy,M.A., R. Singh, and M.E. Rogers|Citrus Leafminer, Phyllocnistis citrella (Lepidoptera : Gracillariidae),and Natural Enemy Dynamics in Central Florida During 2005|Fla. Entomol.90(2): 358-369|2007|10.1653/0015-4040(2007)90[358:Clpclg]2.0.Co;2
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184401|T||Iqbal,J., A.S. Alqarni, and H.S.A. Raweh|Effect of Sub-Lethal Doses of Imidacloprid on Learning and Memory Formation of Indigenous Arabian Bee (Apis mellifera Jemenitica Ruttner) Adult Foragers|Neotrop. Entomol. (Multiple Languages)48(3): 373-380|2019|10.1007/s13744-018-0651-2
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184409|T||Gholamzadeh-Chitgar,M., and S. Pourmoradi|An Evaluation of the Effect of Botanical Insecticide, Palizin in Comparison with Chemical Insecticide, Imidacloprid on the Black Citrus Aphid, Toxoptera aurantii Boyer De Fonscolombe and Its Natural Enemy, Aphidius Cole|J. Plant Prot. Res.57(2): 101-106|2017|10.1515/jppr-2017-0013
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184607|T||Strajnar,P., and S. Sircar|The Effect of Some Insecticides, Natural Compounds and Tomato Cv. Venezia with Mi Gene on the Nematode Meloidogyne ethiopica (Nematoda) Reproduction|Acta Agric. Slovenica97(1): 5-10|2011|10.2478/v10014-011-0001-0
184608|T||Studebaker,G.E., T.J. Kring, and E. Gbur|Lambda-Cyhalothrin, Imidacloprid and Spinosad Impacts on Movement of Predatory Arthropods in Cotton|J. Entomol. Sci.38(4): 711-713|2003|10.18474/0749-8004-38.4.711
184609|T||Idinger,J.|Laboratory Studies to Detect Effects of Selected Plant Protection Products on Heteromurus nitidus (Collembola : Entomobryidae)|J. Plant Dis. Prot.110(3): 263-277|2003|
184610|T||Sillapawattana,P., and A. Schaffer|Effects of Imidacloprid on Detoxifying Enzyme Glutathione S-Transferase on Folsomia candida (Collembola)|Environ. Sci. Pollut. Res.24(12): 11111-11119|2017|10.1007/s11356-016-6686-1
184611|T||Nyoka,N.W.K., S.N. Kanyile, E. Bredenhand, G.J. Prinsloo, and P.V. Otomo|Biochar Alleviates the Toxicity of Imidacloprid and Silver Nanoparticles (AgNPs) to Enchytraeus albidus (Oligochaeta)|Environ. Sci. Pollut. Res.25(11): 10937-10945|2018|10.1007/s11356-018-1383-x
184612|T||Traversa,D., A. Di Cesare, E. Di Giulio, G. Castagna, R. Schaper, G. Braun, B. Lohr, F. Pampurini, P. Milillo, and K. S|Efficacy and Safety of Imidacloprid 10 %/Moxidectin 1 % Spot-on Formulation in the Treatment of Feline Infection by Capillaria aerophila|Parasitol. Res.111(4): 1793-1798|2012|10.1007/s00436-012-3025-4
184613|T||Lawrence,K.S., T.B. Hatchett, W.S. Gazaway, and J.R. Akridge|Evaluation of Experimental Gaucho Grande Seed Treatment Formulations for Reniform Nematode Management in Cotton in South Alabama, 2006|Res. Rep. Ser.(30): 47-|2007|
184614|T||Lawrence,K.S., T.B. Hatchett, C.H. Burmester, and B.E. Norris|Evaluation of Experimental Gaucho Grande Formulations for Reniform Nematode Management in Cotton in North Alabama, 2006|Res. Rep. Ser.30:46-|2007|
184615|T||Song,T.T., S.H. Ying, and M.G. Feng|High Resistance of Isaria fumosorosea to Carbendazim Arises from the Overexpression of an ATP-Binding Cassette Transporter (ifT1) Rather than Tubulin Mutation|J. Appl. Microbiol.112:175-184|2011|10.1111/j.1365-2672.2011.05188.x
184616|T||Accinelli,C., H.K. Abbas, N.S. Little, J.K. Kotowicz, and W.T. Shier|Biological Control of Aflatoxin Production in Corn Using Non-Aflatoxigenic Aspergillus flavus Administered as a Bioplastic-Based Seed Coating|Crop Prot.107:87-92|2018|10.1016/j.cropro.2018.02.004
184617|T||Accinelli,C., H.K. Abbas, N.S. Little, J.K. Kotowicz, M. Mencarelli, and W.T. Shier|A Liquid Bioplastic Formulation for Film Coating of Agronomic Seeds|Crop Prot.89:123-128|2016|10.1016/j.cropro.2016.07.010
184618|T||Moulas,C., C. Petsoulas, K. Rousidou, C. Perruchon, P. Karas, and D.G. Karpouzas|Effects of Systemic Pesticides Imidacloprid and Metalaxyl on the Phyllosphere of Pepper Plants|BioMed Res. Int.2013:1-9|2013|10.1155/2013/969750
184619|T||Chan-Cheng,M., J.C. Cambronero-Heinrichs, M. Masis-Mora, and C.E. Rodriguez-Rodriguez|Ecotoxicological Test Based on Inhibition of Fungal Laccase Activity: Application to Agrochemicals and the Monitoring of Pesticide Degradation Processes|Ecotoxicol. Environ. Saf.195:10 p.|2020|10.1016/j.ecoenv.2020.110419
184620|T||Astaykina,A.A., R.A. Streletskii, M.N. Maslov, A.A. Belov, V.S. Gorbatov, and A.L. Stepanov|The Impact of Pesticides on the Microbial Community of Agrosoddy-Podzolic Soil|Eurasian Soil Sci.53(5): 696-706|2020|10.1134/s1064229320050038
184621|T||Hu,Z.B., H.A. Luo, X.G. Wang, M.Z. Huang, L. Huang, H.L. Pang, C.H. Mao, H. Pei, C.Q. Huang, J. Sun, P.L. Liu, and A.P.|Synthesis and Evaluation O-Benzyl Oxi'me-Ether Derivatives Containing beta-Methoxyacrylate Moiety for Insecticidal and Fungicidal Activities|Bull. Kor. Chem. Soc.35(4): 1073-1076|2014|10.5012/bkcs.2014.35.4.1073
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184624|T||Sharma,A., S. Jaronski, and G.V.P. Reddy|Impact of Granular Carriers to Improve the Efficacy of Entomopathogenic Fungi Against Wireworms in Spring Wheat|J. Pest Sci.93(1): 275-290|2020|10.1007/s10340-019-01161-1
184625|T||Singh,V.P., S. Srivastava, S.K. Shrivastava, and H.B. Singh|Compatibility of Different Insecticides with Trichoderma harzianum Under In Vitro Condition|Plant Pathol. J.11(2): 73-76|2012|10.3923/ppj.2012.73.76
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184627|T||Liu,M., G. Wang, S.Y. Zhang, S. Zhong, G.L. Qi, C.J. Wang, M.L. Chuai, K.K.H. Lee, D.X. Lu, and X.S. Yang|Exposing Imidacloprid Interferes with Neurogenesis Through Impacting on Chick Neural Tube Cell Survival|Toxicol. Sci.153(1): 137-148|2016|10.1093/toxsci/kfw111
184628|T||Gobeli,A., D.,II Crossley, J. Johnson, and K. Reyna|The Effects of Neonicotinoid Exposure on Embryonic Development and Organ Mass in Northern Bobwhite Quail (Colinus virginianus)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.195:9-15|2017|10.1016/j.cbpc.2017.02.001
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184630|T||Wang,Y., Y. Han, P. Xu, B. Guo, W. Li, and X. Wang|The Metabolism Distribution and Effect of Imidacloprid in Chinese Lizards (Eremias argus) Following Oral Exposure|Ecotoxicol. Environ. Saf.165:476-483|2018|10.1016/j.ecoenv.2018.09.036
184631|T||Khani,A., F. Ahmadi, and M. Ghadamyari|Side Effects of Imidacloprid and Abamectin on the Mealybug Destroyer, Cryptolaemus montrouzieri|Trakia Jour. of Sci.10(3): 30-35|2012|
184632|T||Abu Zeid,E.H., R.T.M. Alam, S.A. Ali, and M.Y. Hendawi|Dose-Related Impacts of Imidacloprid Oral Intoxication on Brain and Liver of Rock Pigeon (Columba livia Domestica), Residues Analysis in Different Organs|Ecotoxicol. Environ. Saf.167:60-68|2019|10.1016/j.ecoenv.2018.09.121
184633|T||Birch,P.A., and T. Nicholson|A New Insecticidal Seed Treatment for Oilseed Rape|Symp. Proc. Br. Crop Prot. Counc.(76): 27-32|2001|
184636|T||Kumar,S., G. Bhanjana, A. Sharma, M.C. Sidhu, and N. Dilbaghi|Synthesis, Characterization and on Field Evaluation of Pesticide Loaded Sodium Alginate Nanoparticles|Carbohydr. Polym.101:1061-1067|2014|10.1016/j.carbpol.2013.10.025
184637|T||Farrag,R.M., L.M.A. El-Naby, and F.M. El-Sheikh|Relative Potency of Certain Insecticides Against the Insects on Common Bean (Phaseoli vulgaris)|Alex. Sci. Exch.9(2): 203-209|1988|
184638|T||Sharma,S., and B. Singh|Persistence of Imidacloprid and Its Major Metabolites in Sugarcane Leaves and Juice Following Its Soil Application|Int. J. Environ. Anal. Chem.94:319-331|2014|10.1080/03067319.2013.853759
184640|T||Bianchi,J., T. Cristina, C. Fernandes, and M.A. Marin-Morales|Induction of Mitotic and Chromosomal Abnormalities on Allium cepa Cells by Pesticides Imidacloprid and Sulfentrazone and the Mixture of Them|Chemosphere144:475-483|2016|10.1016/j.chemosphere.2015.09.021
184641|T||Sharma,A., V. Kumar, R. Singh, A.K. Thukral, and R. Bhardwaj|Effect of Seed Pre-Soaking with 24-Epibrassinolide on Growth and Photosynthetic Parameters of Brassica juncea L. in Imidacloprid Soil|Ecotoxicol. Environ. Saf.133:195-201|2016|10.1016/j.ecoenv.2016.07.008
184642|T||Sharma,A., V. Kumar, R. Bhardwaj, and A.K. Thukral|Seed Pre-Soaking with 24-Epibrassinolide Reduces the Imidacloprid Pesticide Residues in Green Pods of Brassica juncea L.|Toxicol. Environ. Chem.99(1): 95-103|2017|10.1080/02772248.2016.1146955
184643|T||Si,F., R. Zou, S. Jiao, X. Qiao, Y. Guo, and G. Zhu|Inner Filter Effect-Based Homogeneous Immunoassay for Rapid Detection of Imidacloprid Residue in Environmental and Food Samples|Ecotoxicol. Environ. Saf.148:862-868|2018|10.1016/j.ecoenv.2017.11.062
184644|T|OPP|U.S.Environmental Protection Agency|Pesticide Ecotoxicity Database: Bee Studies|Contact: Lee Kyle - Email: Kyle.Lee@epa.gov:|2020|
184645|T||Mach,B.M., S. Bondarenko, and D.A. Potter|Uptake and Dissipation of Neonicotinoid Residues in Nectar and Foliage of Systemically Treated Woody Landscape Plants|Environ. Toxicol. Chem.37(3): 860-870|2018|10.1002/etc.4021
184646|T||Shakir,S.K., S. Irfan, B. Akhtar, S.U. Rehman, M.K. Daud, N. Taimur, and A. Azizullah|Pesticide-Induced Oxidative Stress and Antioxidant Responses in Tomato (Solanum lycopersicum) Seedlings|Ecotoxicology27(7): 919-935|2018|10.1007/s10646-018-1916-6
184647|T||Li,Y., L. Yang, H. Yan, M. Zhang, J. Ge, and X. Yu|Uptake, Translocation and Accumulation of Imidacloprid in Six Leafy Vegetables at Three Growth Stages|Ecotoxicol. Environ. Saf.164:690-695|2018|10.1016/j.ecoenv.2018.08.082
184648|T||Sharma,A., H.W. Yuan, V. Kumar, M. Ramakrishnan, S.K. Kohli, R. Kaur, A.K. Thukral, R. Bhardwaj, and B.S. Zheng|Castasterone Attenuates Insecticide Induced Phytotoxicity in Mustard|Ecotoxicol. Environ. Saf.179:50-61|2019|10.1016/j.ecoenv.2019.03.120
184649|T||Singh,S.B., I. Mukherjee, J. Maisnam, P. Kumar, M. Gopal, and G. Kulshrestha|Determination of Pesticide Residues in IPM and Non-IPM Samples of Mango (Mangifera indica)|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(4): 300-306|2008|
184650|T||Zhang,X., L. Chen, R.Y. Leng, J. Zhang, Y. Zhou, Y. Zhang, S. Yang, K. He, and B. Huang|Mechanism Study of the Beneficial Effect of Sodium Selenite on Metabolic Disorders in Imidacloprid-Treated Garlic Plants|Ecotoxicol. Environ. Saf.200:9 p.|2020|
184651|T||Sharma,A., V. Kumar, A.K. Thukral, and R. Bhardwaj|Epibrassinolide-Imidacloprid Interaction Enhances Non-Enzymatic Antioxidants in Brassica juncea L.|Indian J. Plant Physiol.21(1): 70-75|2016|10.1007/s40502-016-0203-x
184652|T||Dai,Y.J., S. Yuan, F. Ge, T. Chen, S.C. Xu, and J.P. Ni|Microbial Hydroxylation of Imidacloprid for the Synthesis of Highly Insecticidal Olefin Imidacloprid|Appl. Microbiol. Biotechnol.71(6): 927-934|2006|10.1007/s00253-005-0223-3
184653|T||Mahapatra,B., T. Adak, N.K.B. Patil, G.P. Pandi G, G.B. Gowda, N.N. Jambhulkar, M.K. Yadav, P. Panneerselvam, U. Kumar,|Imidacloprid Application Changes Microbial Dynamics and Enzymes in Rice Soil|Ecotoxicol. Environ. Saf.144:123-130|2017|10.1016/j.ecoenv.2017.06.013
184654|T||Seifrtova,M., T. Halesova, K. Sulcova, K. Riddellova, and T. Erban|Distributions of Imidacloprid, Imidacloprid-Olefin and Imidacloprid-Urea in Green Plant Tissues and Roots of Rapeseed (Brassica napus) from Artificially Contaminated Potting Soil|Pest Manag. Sci.73(5): 1010-1016|2017|10.1002/ps.4418
184655|T||Sharma,A., R. Bhardwaj, V. Kumar, and A.K. Thukral|GC-MS Studies Reveal Stimulated Pesticide Detoxification by Brassinolide Application in Brassica juncea L. Plants|Environ. Sci. Pollut. Res. Int.23(14): 14518-14525|2016|10.1007/s11356-016-6650-0
184656|T||Yang,L., Q. Shen, T. Zeng, J. Li, W. Li, and Y. Wang|Enrichment of Imidacloprid and Its Metabolites in Lizards and Its Toxic Effects on Gonads|Environ. Pollut.258:9 p.|2020|
184657|T||Roy,C.L., M.D. Jankowski, J. Ponder, and D. Chen|Sublethal and Lethal Methods to Detect Recent Imidacloprid Exposure in Birds with Application to Field Studies|Environ. Toxicol. Chem.39(7): 1355-1366|2020|10.1002/etc.4721
184658|T||Sharma,A., V. Kumar, M.K. Kanwar, A.K. Thukral, and R. Bhardwaj|Ameliorating Imidacloprid Induced Oxidative Stress by 24-Epibrassinolide in Brassica juncea L|Russ. J. Plant Physiol.64(4): 509-517|2017|10.1134/S1021443717040124
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184660|A||Bao,H., X. Shao, Y. Zhang, J. Cheng, Y. Wang, X. Xu, J. Fang, Z. Liu, and Z. Li|IPPA08 Allosterically Enhances the Action of Imidacloprid on Nicotinic Acetylcholine Receptors|Insect Biochem. Mol. Biol.79:36-41|2016|10.1016/j.ibmb.2016.10.010
184662|T||Emam,H., E. Ahmed, and M. Abdel-Daim|Antioxidant Capacity of Omega-3-Fatty Acids and Vitamin E Against Imidacloprid-Induced Hepatotoxicity in Japanese Quails|Environ. Sci. Pollut. Res. Int.25(12): 11694-11702|2018|10.1007/s11356-018-1481-9
184663|T||Lv,Y.Y., Q.Z. Bing, Z.J. Lv, J.D. Xue, S.Y. Li, B. Han, Q.Y. Yang, X.Q. Wang, and Z.G. Zhang|Imidacloprid-Induced Liver Fibrosis in Quails Via Activation of the TGF-Beta 1/Smad Pathway|Sci. Total Environ.705:10 p.|2020|10.1016/j.scitotenv.2019.135915
184664|T||Rawi,S.M., A.S. Al-Logmani, and R.Z. Hamza|Neurological Alterations Induced by Formulated Imidacloprid Toxicity in Japanese Quails|Metab. Brain Dis.34(2): 443-450|2019|10.1007/s11011-018-0377-1
184665|T||Sharma,A., V. Kumar, A. Kumar Thukral, and R. Bhardwaj|24-Epibrassinolide Restores the Synthesis of Proteins and Amino Acids in Brassica juncea L. Leaves Under Imidacloprid Stress|J. Hortic. Res.25(2): 85-90|2017|10.1515/johr-2017-0024
184666|T||Sharma,A., S. Thakur, V. Kumar, A.K. Kesavan, A.K. Thukral, and R. Bhardwaj|24-Epibrassinolide Stimulates Imidacloprid Detoxification by Modulating the Gene Expression of Brassica juncea L|BMC Plant Biol.17:10 p.|2017|10.1186/s12870-017-1003-9
184667|T||Sun,D., J. Fu, Y. Lu, L. Chen, H. Gong, H. Zhao, S. Dai, Y. An, and H. Xu|Absorption, Transportation and Distribution of Imidacloprid in Maize|Int. J. Environ. Anal. Chem.97(8): 783-795|2017|10.1080/03067319.2017.1337110
184668|T||Thube,S.H., G.K. Mahapatro, and M.B. Arun Kumar|In Vitro Evaluation of Insecticides, Bio-Fungicide and Bio-Fertilizer for Strategic and Eco-Friendly Combinatorial Seed Treatments in Chickpea|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.88(2): 10 p.|2018|10.1007/s40011-016-0794-z
184671|T||Byrne,F.J., S.J. Castle, J.L. Bi, and N.C. Toscano|Application of Competitive Enzyme-Linked Immunosorbent Assay for the Quantification of Imidacloprid Titers in Xylem Fluid Extracted from Grapevines|J. Econ. Entomol.98(1): 182-187|2005|10.1093/jee/98.1.182
184672|T||Cang,T., C.X. Sun, H. Zhao, T. Tang, C.P. Zhang, R.X. Yu, X.Q. Wang, Q. Wang, F. Dai, and X.P. Zhao|Residue Behavior and Risk Assessment of Imidacloprid Applied on Greenhouse-Cultivated Strawberries Under Different Application Conditions|Environ. Sci. Pollut. Res.25(5): 5024-5032|2018|10.1007/s11356-017-0653-3
184673|T||Al-Ahmadi,M.S.|Cytogenetic Effects of Two Synthetic Pesticides on Mitotic Chromosome on Root Tip Cells of Allium cepa|Cytologia78(1): 3-8|2013|10.1508/cytologia.78.3
184675|T||Georgieva,N., I. Nikolova, T. Zhelyazkova, D. Pavlov, and Y. Naydenova|Energy Efficiency of Spring Vetch (Vicia sativa L.) Cultivated for Fresh Biomass|Bulg. J. Agric. Sci.17(5): 712-720|2011|
184676|A||Bartlett,A.J., A.O. De Silva, D.M. Schissler, A.M. Hedges, L.R. Brown, K. Shires, J. Miller, C. Sullivan, C. Spencer, a|Lethal and Sublethal Toxicity of Perfluorooctanoic Acid (PFOA) in Chronic Tests with Hyalella azteca (Amphipod) and Early-Life Stage Tests with Pimephales promelas (Fathead Minnow)|Ecotoxicol. Environ. Saf.207:10 p.|2021|10.1016/j.ecoenv.2020.111250
184677|A||Bao,M., S. Zheng, C. Liu, W. Huang, J. Xiao, and K. Wu|Perfluorooctane Sulfonate Exposure Alters Sexual Behaviors and Transcriptions of Genes in Hypothalamic-Pituitary-Gonadal-Liver Axis of Male Zebrafish (Danio rerio)|Environ. Pollut.267:115585-115585|2020|10.1016/j.envpol.2020.115585
184678|A||Annunziato,K.M., J. Doherty, J. Lee, J.M. Clark, W. Liang, C.W. Clark, M. Nguyen, M.A. Roy, and A.R. Timme-Laragy|Chemical Characterization of a Legacy Aqueous Film-Forming Foam Sample and Developmental Toxicity in Zebrafish (Danio rerio)|Environ. Health Perspect.128(9): 97006-97006|2020|10.1289/EHP6470
184679|T||Gerbig,S., H.E. Brunn, B. Spengler, and S. Schulz|Spatially Resolved Investigation of Systemic and Contact Pesticides in Plant Material by Desorption Electrospray Ionization Mass Spectrometry Imaging (DESI-MSI)|Anal. Bioanal. Chem.407(24): 7379-7389|2015|10.1007/s00216-015-8900-2
184680|A||Hu,Y., F.L. Meng, Y.Y. Hu, N. Habibul, and G.P. Sheng|Concentration- and Nutrient-Dependent Cellular Responses of Microalgae Chlorella pyrenoidosa to Perfluorooctanoic Acid|Water Res.185:116248-116248|2020|10.1016/j.watres.2020.116248
184682|A||Heusinkveld,H.J., W.G. Schoonen, H.M. Hodemaekers, A. Nugraha, J.J. Sirks, V. Veenma, C. Sujan, J.L.A. Pennings, P.F. W|Distinguishing Mode of Action of Compounds Inducing Craniofacial Malformations in Zebrafish Embryos to Support Dose-Response Modeling in Combined Exposures|Reprod. Toxicol.96:114-127|2020|10.1016/j.reprotox.2020.06.002
184683|T||Hurley,M., and V. Patel|Effect of Imidacloprid on the Growth of Eucalyptus nitens Seedlings|Aust.For.66(2): 100-101|2003|10.1080/00049158.2003.10674897
184684|T||Hao,Z.P., F. Huang, S.M. Hou, and F.M. Yan|Varietal Differences in Response to Imidacloprid Seed Treatment in Germination and Early Seedling Growth of Oilseed Rape|Seed Sci. Technol.47(1): 1-12|2019|10.15258/sst.2019.47.1.01
184685|T||Ferreira,J.A., V. Talamine, J.F. Facco, T.M. Rizzetti, J.M.S. Ferreira, F.A. Oliveira, O.D. Prestes, R. Zanella, M.L. M|Determination of Pesticide Residues in Coconut Tree Trunks by Modified QuEChERS Method and Ultra-High-Performance Liquid Chromatography Coupled to Triple Quadrupole Tandem Mass Spectrometry|Anal. Methods7(10): 4237-4245|2015|10.1039/c5ay00323g
184686|T||Fioresi,V.S., B. De Cassia Ribeiro Vieira, J.M.S. De Campos, and T. Da Silva Souza|Cytogenotoxic Activity of the Pesticides Imidacloprid and Iprodione on Allium cepa Root Meristem|Environ. Sci. Pollut. Res. Int.27(22): 28066-28076|2020|10.1007/s11356-020-09201-5
184687|A||Deng,J.W., Y.Y. Yang, M.Z. Xu, X.W. Wang, L. Lin, Z.P. Yao, and T.G. Luan|Surface-Coated Probe Nanoelectrospray Ionization Mass Spectrometry for Analysis of Target Compounds in Individual Small Organisms|Anal. Chem.87(19): 9923-9930|2015|10.1021/acs.analchem.5b03110
184688|T||Francis,M.I., A. Redondo, J.K. Burns, and J.H. Graham|Soil Application of Imidacloprid and Related SAR-Inducing Compounds Produces Effective and Persistent Control of Citrus Canker|Eur. J. Plant Pathol.124(2): 283-292|2009|10.1007/s10658-008-9415-x
184689|T||Fu,J., H. Zhao, Y. An, Y. Lu, L. Chen, X. Dai, H. Gong, and D. Sun|Spatial, Temporal Distribution and Efficacy of Imidacloprid Via Drip Irrigation in Sugarcane and Soil Applied in South China|Fresenius Environ. Bull.28(11A): 8540-8547|2019|
184690|T||Kurogochi,S.|Translocation and Metabolism of Pesticides in Rice Plants After Nursery Box Application|ACS Symp. Ser.853:139-156|2003|10.1021/bk-2003-0853.ch008
184691|T||Li,Y., L. Long, J. Ge, H.C. Li, M. Zhang, Q. Wan, and X.Y. Yu|Effect of Imidacloprid Uptake from Contaminated Soils on Vegetable Growth|J. Agric. Food Chem.67(26): 7232-7242|2019|10.1021/acs.jafc.9b00747
184692|T||Liang,Y.J., X.Q. Zhang, L. Yang, X.H. Liu, L.T. Yang, and Y.R. Li|Impact of Seed Coating Agents on Single-Bud Seedcane Germination and Plant Growth in Commercial Sugarcane Cultivation|Sugar Technol.21(3): 383-387|2019|10.1007/s12355-018-0645-8
184693|T||Jacob,S.R., M.B. Arunkumar, M. Gopal, C. Srivastava, and S.N. Sinha|An Analysis of the Persistence and Potency of Film-Coated Seed Protectant as Influenced by Various Storage Parameters|Pest Manag. Sci.65(7): 817-822|2009|10.1002/ps.1761
184694|T||De La Torre Roche,R., L. Pagano, S. Majumdar, B.D. Eitzer, N. Zuverza-Mena, C. Ma, A.D. Servin, N. Marmiroli, O. Dhankh|Co-Exposure of Imidacloprid and Nanoparticle Ag or CeO2 to Cucurbita pepo (Zucchini): Contaminant Bioaccumulation and Translocation|NanoImpact11:136-145|2018|10.1016/j.impact.2018.07.001
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184883|A||Liu,M., S. Song, C. Hu, L. Tang, J.C.W. Lam, P.K.S. Lam, and L. Chen|Dietary Administration of Probiotic Lactobacillus rhamnosus Modulates the Neurological Toxicities of Perfluorobutanesulfonate in Zebrafish|Environ. Pollut.265:12 p.|2020|10.1016/j.envpol.2020.114832
184884|A||Wang,W.X., and Q. Zhang|Dioxin and Phthalate Uptake and Assimilation by the Green Mussel Perna viridis|Environ. Pollut.178:455-462|2013|10.1016/j.envpol.2013.03.062
184885|T||Hua,C.P., Z.K. Xie, Z.J. Wu, Y.B. Zhang, Z.H. Guo, Y. Qiu, L. Wang, and Y.J. Wang|The Physiological and Biochemical Effects of Phthalic Acids and the Changes of Rhizosphere Fungi Diversity Under Continuous Cropping of Lanzhou Lily (Lilium davidii var. unicolor)|Hortscience54(2): 253-261|2019|10.21273/HORTSCI13527-18
184886|T||Lu,X.F., H. Zhang, S.S. Lyu, G.D. Du, X.Q. Wang, C.H. Wu, and D.G. Lyu|Effects of Exogenous Phenolic Acids on Photosystem Functions and Photosynthetic Electron Transport Rate in Strawberry Leaves|Photosynthetica (Praha)56(2): 616-622|2018|10.1007/s11099-017-0702-7
184887|T||Ullah,I., A.L. Khan, L. Ali, A.R. Khan, M. Waqas, I.J. Lee, and J.H. Shin|An Insecticidal Compound Produced by an Insect-Pathogenic Bacterium Suppresses Host Defenses Through Phenoloxidase Inhibition|Molecules19(12): 20913-20928|2014|10.3390/molecules191220913
184888|T||Egorov,I.V., V.I. Sutulova, I.N. L'Vova, and V.N. Gramenitskaya|Effect of Phthalic Acid Derivatives on the Number of Pistillate Flowers in Cucumber|Sov. Plant Physiol.34(2): 323-327|1987|
184889|T||Wang,X.Q., G.D. Du, X.F. Lu, H.Y. Ma, D.G. Lyu, H. Zhang, and J.L. Song|Characteristics of Mitochondrial Membrane Functions and Antioxidant Enzyme Activities in Strawberry Roots Under Exogenous Phenolic Acid Stress|Sci. Hortic.248:89-97|2019|10.1016/j.scienta.2018.12.051
184890|T||Yang,R.X., Z.G. Gao, X. Liu, Y. Yao, and Y. Cheng|Root Exudates from Muskmelon (Cucumis melon. L) Induce Autotoxicity and Promote Growth of Fusarium oxysporum F. sp melonis|Allelopathy J.33(2): 175-187|2014|
184891|T||Zhang,W.B., S.H. Zhang, E.P. Zhang, L.L. Li, and T.L. Li|Effects of Applied Phthalic Acid and Phloroglucionol Dihydrate on the Root Oxidative Damage in Tomato Seedlings|Allelopathy J.23(2): 437-444|2009|
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184893|A||Sun,X., X. Zhou, M. Cai, J. Zhou, and Y. Zhang|Significant Stimulation of O-Phthalic Acid in Biosynthesis of Aspergiolide A by a Marine Fungus Aspergillus glaucus|Bioresour. Technol.101(10): 3609-3616|2010|10.1016/j.biortech.2009.12.056
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184895|T||Wang,S.W., B.J. Shi, Y.C. Li, Q.M. Wang, and R.Q. Huang|Synthesis and Bioactivity of Novel Aminomethyl-2-(1,2, 4-Triazol)4, 4-Dimethyl-3-Pentanone (Ol)|Chinese Chem. Lett.15(3): 261-264|2004|
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184899|T||Tiersch,K.M., G. Das, G. Von Samson-Himmelstjerna, and M. Gauly|Artificial Infection of Chickens with Capillaria obsignata Eggs Embryonated in Different Media|Vet. Parasitol.200(1-2): 139-146|2014|10.1016/j.vetpar.2013.11.024
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184902|T||Francis,N.|Biology of Thalassa montezumae (Coleoptera: Coccinellidae) a Predaceous Beetle of the Invasive Soft Scale Phalacrococcus howertoni (Hemiptera: Coccidae) in South Florida|M.S.Thesis, Florida Agricultural and Mechanical University, Tallahassee, FL:81 p.|2016|
184903|A||Liu,W., J. Yang, J. Li, J. Zhang, J. Zhao, D. Yu, Y. Xu, X. He, and X. Zhang|Toxicokinetics and Persistent Thyroid Hormone Disrupting Effects of Chronic Developmental Exposure to Chlorinated Polyfluorinated Ether Sulfonate in Chinese Rare Minnow|Environ. Pollut.263:9 p.|2020|10.1016/j.envpol.2020.114491
184904|T||Wang,R., Z.D. Zeng, T. Liu, A. Liu, Y. Zhao, K.Z. Li, and L.M. Chen|A Novel Formaldehyde Metabolic Pathway Plays an Important Role During Formaldehyde Metabolism and Detoxification in Tobacco Leaves Under Liquid Formaldehyde Stress|Plant Physiol. Biochem.105:233-241|2016|10.1016/j.plaphy.2016.04.028
184905|T||Wu,P., M. Wang, T. Zhang, X. Tong, and T. Xiang|Mammalian CYP2E1 Gene Triggered Changes of Relative Ions Fluxes, CaM Content and Genes Expression Profiles in Petunia hybrida Cells to Enhance Resistance to Formaldehyde|Plant Cell Tissue Organ Cult.135(3): 433-444|2018|10.1007/s11240-018-1476-8
184906|T||Yan,S., H. Hua, Y. Zhang, and Q. Zhou|Study on Absorptive Capacity to Formaldehyde and Physiological and Biochemical Changes of Scindapsus aureus Based on the Regulation of LaCl3|Agric. Sci. Technol.16(12): 2596-2599|2015|
184907|T||Zeweil,H.S., R.E. Rizk, G.M. Bekhet, and M.R. Ahmed|Comparing the Effectiveness of Egg Disinfectants Against Bacteria and Mitotic Indices of Developing Chick Embryos|J. Basic Appl. Zool.70:1-15|2015|10.1016/j.jobaz.2014.12.005
184908|A||Zhang,W.N., D.P. Bai, X.Y. Lin, Q.X. Chen, X.H. Huang, and Y.F. Huang|Inactivation Kinetics of Formaldehyde on N-Acetyl-beta-D-Glucosaminidase from Nile Tilapia (Oreochromis niloticus)|Fish Physiol. Biochem.40(2): 561-569|2014|10.1007/s10695-013-9866-7
184909|T||Zhang,Y., S. Peng, and Y. Niu|Effects of Formaldehyde and Low-Light Stress on Growth and Nutrition of Hedera spp.|Agric. Biotechnol.7(5): 48-53|2018|
184911|T||Zhang,W., L. Tang, H. Sun, S. Han, X. Wang, S. Zhou, K. Li, and L. Chen|C1 Metabolism Plays an Important Role During Formaldehyde Metabolism and Detoxification in Petunia Under Liquid HCHO Stress|Plant Physiol. Biochem.83:327-336|2014|10.1016/j.plaphy.2014.08.017
184914|T||Zhou,S., S. Xiao, X. Xuan, Z. Sun, K. Li, and L. Chen|Simultaneous Functions of the Installed DAS/DAK Formaldehyde-Assimilation Pathway and the Original Formaldehyde Metabolic Pathways Enhance the Ability of Transgenic Geranium to Purify Gaseous Formaldehyde Polluted Envir|Plant Physiol. Biochem.89:53-63|2015|10.1016/j.plaphy.2015.02.009
184916|A||Magalhaes,F.E.A., C. De Sousa, S. Santos, R.B. Menezes, F.L.A. Batista, A.O. Abreu, M.V. De Oliveira, L. Moura, R.D. Ra|Adult Zebrafish (Danio rerio): An Alternative Behavioral Model of Formalin-Induced Nociception|Zebrafish14(5): 422-429|2017|10.1089/zeb.2017.1436
184918|A||Mallik,S.K., N. Shahi, P. Das, N.N. Pandey, R.S. Haldar, B.S.A. Kumar, and S. Chandra|Occurrence of Ichthyophthirius multifiliis (White Spot) Infection in Snow Trout, Schizothorax richardsonii (Gray) and Its Treatment Trial in Control Condition|Indian J. Anim. Res.49(2): 227-230|2015|10.5958/0976-0555.2015.00113.2
184919|A||Mares,L., P. Reznickova, and V. Brumovska|Elimination of Bryozoans in Intensive Fish Farming|Int. J. Mendel:331-336|2016|
184920|T||Melo,E.F., W.L.S. Climaco, M.V. Triginelli, D.P. Vaz, M.R. De Souza, N.C. Baiao, M.A. Pompeu, and L.J.C. Lara|An Evaluation of Alternative Methods for Sanitizing Hatching Eggs|Poult. Sci.98(6): 2466-2473|2019|10.3382/ps/pez022
184921|A||Militz,T.A., P.C. Southgate, A.G. Carton, and K.S. Hutson|Efficacy of Garlic (Allium sativum) Extract Applied as a Therapeutic Immersion Treatment for Neobenedenia sp. Management in Aquaculture|J. Fish Dis.37(5): 451-461|2014|10.1111/jfd.12129
184922|A||Milton,J., M.A. Haniffa, P.J. Sheela, K. Kavitha, and J. Sathik|Hatching Rate of Striped Murrel Channa striatus (Bloch 1797) Eggs Treated with Formalin, Hydrogen Peroxide and Copper Sulphate Pentahydrate|Indian J. Anim. Sci.85(2): 216-217|2015|10.56093/ijans.v85i2.46620
184923|T||Min,Y., W. Cao, Y. Xiong, Z. Si, D. Khan, and L. Chen|Formaldehyde Assimilation Through Coordination of the Glyoxylate Pathway and the Tricarboxylic Acid Cycle in Broad Bean Roots|Plant Physiol. Biochem.138:65-79|2019|10.1016/j.plaphy.2019.02.019
184924|T||Wang,M., T. Xiang, Y. Song, Y. Huang, Y. Han, and Y. Sun|The Physiological Mechanism of Improved Formaldehyde Resistance in Petunia Hybrida Harboring a Mammalian CYP2E1 Gene|Hortic. Plant J.1(1): 48-54|2015|10.16420/j.issn.2095-9885.2015-0005
184925|T||Moskalev,A., M. Shaposhnikov, A. Snezhkina, V. Kogan, E. Plyusnina, D. Peregudova, N. Melnikova, L. Uroshlev, S. Mylnik|Mining Gene Expression Data for Pollutants (Dioxin, Toluene, Formaldehyde) and Low Dose of Gamma-Irradiation|PLoS One9(1): 18 p.|2014|10.1371/journal.pone.0086051
184926|A||Mustafa,S.A., A.J. Al-Rudainy, and J.K. Al-Faragi|Assessment of Hydrogen Peroxide on Histopathology and Survival Rate in Common Carp, Cyprinus carpio L. Infected with Saprolegniasis|Iraqi J. Agric. Sci.50(2): 697-704|2019|
184927|A||Najmi,N., M. Yahyavi, and A. Haghshenas|Effect of Enriched Rotifer (Brachionus plicstilis) with Probiotic Lactobacilli on Growth, Survival and Resistance Indicators of Western White Shrimp (Litopenaeus vannamei) Larvae|Iran. J. Fish. Sci.17(1): 11-20|2018|
184928|T||Kammon,A.M., R.S. Brar, H.S. Banga, and S. Sodhi|Ameliorating Effects of Vitamin E and Selenium on Immunological Alterations Induced by Imidacloprid and Chronic Toxicity in Chickens|J. Environ. Anal. Toxicol.S4:4 p.|2012|10.4172/2161-0525.S4-007
184929|A||Park,K.H., S.R. Zeon, J.G. Lee, S.H. Choi, Y.K. Shin, and K.I. Park|In Vitro and In Vivo Efficacy of Drugs Against the Protozoan Parasite Azumiobodo hoyamushi that Causes Soft Tunic Syndrome in the Edible Ascidian Halocynthia roretzi (Drasche)|J. Fish Dis.37(4): 309-317|2014|10.1111/jfd.12104
184930|T||Oka,T., K. Ekino, K. Fukuda, and Y. Nomura|Draft Genome Sequence of the Formaldehyde-Resistant Fungus Byssochlamys spectabilis No. 5 (Anamorph Paecilomyces variotii No. 5) (NBRC109023)|Genome2(1): 2 p.|2014|10.1128/genomeA.01162-13
184931|A||Pietrak,M., and S. Backman|Treatment of Lumpfish (Cyclopterus lumpus L.) Infected with Gyrodactylus cyclopteri (Scyborskaya 1948)|J. Fish Dis.41(4): 721-723|2018|10.1111/jfd.12781
184932|A||Quach,K.Q., H. Kim, T.V. Nguyen, C. Xia, W.S. Cho, and T.S. Chon|Inferring Variance and Invariance in Multi-Individual Behavior of Zebrafish (Danio rerio) Responding to Chemical Stress|Anim. Cells Syst.19(4): 252-261|2015|10.1080/19768354.2015.1054308
184933|A||Rakka,M., and K. Ganias|Assessing Species and Stage-Specific Effects of Preservation on Fish Oocytes over Different Temporal Scales|Mediterr. Mar. Sci.16(3): 533-537|2015|10.12681/mms.1205
184934|T||Kostromytska,O.S., M.E. Scharf, and E.A. Buss|Behavioral Responses of Pest Mole Crickets, Neoscapteriscus spp. (Orthoptera: Gryllotalpidae), to Selected Insecticides|Pest Manag. Sci.74(3): 547-556|2018|10.1002/ps.4732
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184936|T||Nong,X., F.Z. Chen, Y.J. Yang, Z. Liang, B.L. Huang, Y. Li, T.F. Liu, and H. Yu|Aphicidal Activity of an Ageraphorone Extract from Eupatorium adenophorum Against Pseudoregma bambucicola (Homoptera: Aphididae, Takahashi)|J. Insect Sci.15(1): 5 p.|2015|10.1093/jisesa/iev060
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184939|T||Khaksar,G., C. Treesubsuntorn, and P. Thiravetyan|Euphorbia milii-Native Bacteria Interactions Under Airborne Formaldehyde Stress: Effect of Epiphyte and Endophyte Inoculation in Relation to IAA, Ethylene and ROS Levels|Plant Physiol. Biochem.111:284-294|2017|10.1016/j.plaphy.2016.12.011
184940|T||Khaksar,G., D. Siswanto, C. Treesubsuntorn, and P. Thiravetyan|Euphorbia milii-Endophytic Bacteria Interactions Affect Hormonal Levels of the Native Host Differently Under Various Airborne Pollutants|Mol. Plant-Microbe Interact.29(9): 663-673|2016|10.1094/MPMI-06-16-0117-R
184941|T||Khaksar,G., C. Treesubsuntorn, and P. Thiravetyan|Impact of Endophytic Colonization Patterns on Zamioculcas zamiifolia Stress Response and in Regulating ROS, Tryptophan and IAA Levels Under Airborne Formaldehyde and Formaldehyde-Contaminated Soil Conditions|Plant Physiol. Biochem.114:1-9|2017|10.1016/j.plaphy.2017.02.016
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184952|T||De Gouw,P., L.J.F. Van De Ven, S. Lourens, B. Kemp, and H. Van Den Brand|Effects of Dust, Formaldehyde and Delayed Feeding on Early Postnatal Development of Broiler Chickens|Res. Vet. Sci.112:201-207|2017|10.1016/j.rvsc.2017.04.021
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185161|A||Martins,A.P., O. Necchi, P. Colepicolo, and N.S. Yokoya|Effects of Nitrate and Phosphate Availabilities on Growth, Photosynthesis and Pigment and Protein Contents in Colour Strains of Hypnea musciformis (Wulfen in Jacqu.) J.V. Lamour. (Gigartinales, Rhodophyta)|Rev. Bras. Farmacog. - Braz. J. Pharmacog.21(2): 340-348|2011|10.1590/S0102-695X2011005000078
185163|A||Morris,A.L., H.J. Hamlin, R. Francis-Floyd, B.J. Sheppard, and L.J. Guillette|Nitrate-Induced Goiter in Captive Whitespotted Bamboo Sharks Chiloscyllium plagiosum|J. Aquat. Anim. Health23(2): 92-99|2011|10.1080/08997659.2011.574079
185164|A||Navarro-Peraza,R.S., S. Soto-Leon, I. Contreras-Andrade, P. Pina-Valdez, T. Viveros-Garcia, E.O. Cuevas-Rodriguez, and |Effects of Temperature and Nitrogen Limitation on Growth Kinetics, Proximate Composition and Fatty Acid Profele of Nannochloropsis sp|Rev. Mex. Ingen. Quim.16(2): 359-369|2017|
185165|A||Noori,F., G.A. Takami, M. Van Speybroeck, G. Van Stappen, and P. Sorgeloos|Feeding Acipenser persicus and Huso huso (Acipenseriformes) Larvae with Artemia urmiana Nauplii Enriched with HUFA and Vitamin C: II. Effect on Tolerance to Shock Exposure of Environmental Factors|J. Appl. Ichthyol.27(2): 787-795|2011|10.1111/j.1439-0426.2011.01700.x
185166|A||Parra,G., and M. Yufera|Tolerance Response to Ammonia and Nitrite Exposure in Larvae of Two Marine Fish Species (Gilthead Seabream Sparus aurata L. and Senegal Sole Solea senegalensis Kaup)|Aquac. Res.30(11-12): 857-863|1999|10.1046/j.1365-2109.1999.00414.x
185167|A||Pedrotti,F., C. Magnotti, F. Sterzelecki, and V. Cerqueira|Acute Exposition of Common Snook Juveniles to Sublethal Levels of Nitrate|Acta Biol. Colomb.23(3): 304-306|2018|10.15446/abc.v23n3.69726
185168|A||Rochon,E.R., M.A. Missinato, J.M. Xue, J. Tejero, M. Tsang, M.T. Gladwin, and P. Corti|Nitrite Improves Heart Regeneration in Zebrafish|Antioxid. Redox Signal.32(6): 363-377|2020|10.1089/ars.2018.7687
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185171|A||Brinkhuis,B.H., R. Li, C. Wu, and X.S. Jiang|Nitrite Uptake Transients and Consequences for In Vivo Algal Nitrate Reductase Assays|J. Phycol.25(3): 539-545|1989|10.1111/j.1529-8817.1989.tb00260.x
185172|A||Johnson,T.J., A. Jahandideh, I.C. Isaac, E.L. Baldwin, K. Muthukumarappan, R. Zhou, and W.R. Gibbons|Determining the Optimal Nitrogen Source for Large-Scale Cultivation of Filamentous Cyanobacteria|J. Appl. Phycol.29(1): 1-13|2017|10.1007/s10811-016-0923-3
185173|A||Lochab,S., P.A. Kumar, and N. Raghuram|Molecular Characterization of Nitrate Uptake and Assimilatory Pathway in Arthrospira platensis Reveals Nitrate Induction and Differential Regulation|Arch. Microbiol.196(6): 385-394|2014|10.1007/s00203-014-0973-3
185175|T||McInroy,S.G., M. Andrews, and J.I. Sprent|Growth, Nodulation and Nitrate Reductase Activity in the Aquatic Legume Neptunia plena (L.) Benth. at Different External Nitrate Concentrations|Aquat. Bot.30(4): 379-387|1988|10.1016/0304-3770(88)90069-1
185176|A||Paolacci,S., S. Harrison, and A.K.J. Marcel|A Comparative Study of the Nutrient Responses of the Invasive Duckweed Lemna minuta, and the Native, Co-Generic Species Lemna minor|Aquat. Bot.134:47-53|2016|10.1016/j.aquabot.2016.07.004
185178|A||Podevin,M., D. De Francisci, S.L. Holdt, and I. Angelidaki|Effect of Nitrogen Source and Acclimatization on Specific Growth Rates of Microalgae Determined by a High-Throughput In Vivo Microplate Autofluorescence Method|J. Appl. Phycol.27(4): 1415-1423|2015|10.1007/s10811-014-0468-2
185179|A||Qu,P., F. Fu, and D.A. Hutchins|Responses of the Large Centric Diatom Coscinodiscus sp. to Interactions Between Warming, Elevated CO2, and Nitrate Availability|Limnol. Oceanogr.63(3): 1407-1424|2018|10.1002/lno.10781
185181|A||Wang,T.H., H. Fu, and S. Yuh-Jang|Monomeric NarB Is a Dual-Affinity Nitrate Reductase, and Its Activity Is Regulated Differently from that of Nitrate Uptake in the Unicellular Diazotrophic Cyanobacterium Synechocossus sp. Strain RF-1|J. Bacteriol.185(19): 5838-5846|2003|10.1128/JB.185.19.5838-5846.2003
185182|A||Vilhauer,L., J. Jervis, W.K. Ray, and R.F. Helm|The Exo-Proteome and Exo-Metabolome of Nostoc punctiforme (Cyanobacteria) in the Presence and Absence of Nitrate|Arch. Microbiol.196(5): 357-367|2014|10.1007/s00203-014-0974-2
185185|A||Sun,H., J. Li, L. Tang, and Z. Yang|Responses of Crucian Carp Carassius auratus to Long-Term Exposure to Nitrite and Low Dissolved Oxygen Levels|Biochem. Syst. Ecol.44:224-232|2012|10.1016/j.bse.2012.06.011
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185188|A||Tomasso,J.R., M.I. Wright, B.A. Simco, and K.B. Davis|Inhibition of Nitrite-Induced Toxicity in Channel Catfish by Calcium Chloride and Sodium Chloride|Prog. Fish-Cult.42(3): 144-146|1980|10.1577/1548-8659(1980)42[144:IONTIC]2.0.CO;2
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185191|A||Kroupova,H., J. Machova, V. Piackova, J. Blahova, R. Dobsikova, L. Novotny, and Z. Svobodova|Effects of Subchronic Nitrite Exposure on Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.71(3): 813-820|2008|10.1016/j.ecoenv.2008.01.015
185192|A||Kroupova,H., J. Machova, Z. Svobodova, V. Piackova, and M. Smutna|The Ability of Recovery in Common Carp After Nitrite Poisoning|Vet. Med. (Praha)51(8): 423-431|2006|10.17221/5567-VETMED
185193|A||Khuda,L.V., O.I. Khudyi, and M.M. Marchenko|Peculiarities of Methemoglobin Recovery System in Erythrocytes of Sterlet Under Nitrite Intoxication|Inland Water Biol.8(2): 195-199|2015|10.1134/S199508291502008X
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185197|A||Zhang,J., L. Chen, X. Wei, M. Xu, C. Huang, W. Wang, and H. Wang|Characterization of a Novel CC Chemokine CCL4 in Immune Response Induced by Nitrite and Its Expression Differences Among Three Populations of Megalobrama amblycephala|Fish Shellfish Immunol.38(1): 88-95|2014|10.1016/j.fsi.2014.02.012
185198|A||Zhang,J., X. Wei, C. Lan, P. Li, N. Chen, Y. Li, W. He, M. Wei, and H.L. Wang|Sequence Analysis and Expression Differentiation of Chemokine Receptor CXCR4b Among Three Populations of Megalobrama amblycephala|Dev. Comp. Immunol.40( 2): 195-201|2013|10.1016/j.dci.2013.01.011
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185201|T||Lenssen,A.W., G.D. Johnson, S.L. Blodgett, and H.B. Goosey|Influence of Tillage System, Oilseed Species, and Insecticidal Seed Treatment on Flea Beetle (Coleoptera : Chrysomelidae) Damage, Oilseed Production, and Postharvest Residue Cover|J. Entomol. Sci.42(1): 1-10|2007|10.18474/0749-8004-42.1.1
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185206|T||Nelson,P.N., H.J. Burrack, and C.E. Sorenson|Imidacloprid is Compatible with Control Provided by the Predator Jalysus wickhami Van Duzee (Hemiptera: Berytidae) in Flue-Cured Tobacco (Nicotiana tabacum L.)|Crop Prot.118:15-20|2019|10.1016/j.cropro.2018.12.002
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185209|T||Wakhloo,J.L.|Studies on the Growth, Flowering, and Production of Female Sterile Flowers as Affected by Different Levels of Foliar Potassium in Solanum sisymbrifolium.  III.  Interaction Between Foliar Potassium and Applied Daminozid|J. Exp. Bot.26(92): 441-450|1975|10.1093/jxb/26.3.441
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185211|T||Sundberg,B., H. Tuominen, and C.H.A. Little|Effects of the Indole-3-Acetic Acid (IAA) Transport Inhibitors N-1-Naphthylphthalamic Acid and Morphactin on Endogenous IAA Dynamics in Relation to Compression Wood Formation in 1-Year-Old Pinus sylvestris (L.) Shoots|Plant Physiol.106(2): 469-476|1994|10.1104/pp.106.2.469
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185213|T||Kittock,D.L., H.F. Arle, T.J. Henneberry, L.A. Bariola, and V.T. Walhood|Timing Late-Season Fruiting Termination of Cotton with Potassium 3,4-Dichloroisothiazole-5-Carboxylate|Crop Sci.20:330-333|1980|10.2135/cropsci1980.0011183X002000030010x
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185215|T||Rugno,G.R., J.B. Cuervo Rugno, P. Anzolut Stansly, and P. Takao Yamamoto|Pest Management Systems and Insecticide Tolerance of Lacewings (Neuroptera: Chrysopidae)|J. Econ. Entomol.112(3): 1183-1189|2019|10.1093/jee/toz024
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185217|T||Singh,N., and D. Johnson|Baseline Susceptibility and Cross-Resistance in Adult and Larval Alphitobius diaperinus (Coleoptera: Tenebrionidae) Collected from Poultry Farms in Arkansas|J. Econ. Entomol.108(4): 1-6|2015|10.1093/jee/tov133
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185219|T||Steinbiss,M., M. Maczka, J. Langewald, B. London, R. Vallinayagam, P.G. Jones, H. Bastiaans, and S. Schulz|Sigillins from Springtails are Potent Natural Insecticides|J. Nat. Prod.83(2): 468-472|2020|10.1021/acs.jnatprod.9b01013
185220|T||Chailakhyan,M.K., and V.G. Kochankov|The Effects of CCC Retardant, Morphactin, and Abscisin on Growth and Flowering of Cone-Flower Plants|USSR Acad.Sci.187-189:117-120|1969|
185221|T||Yousafi,Q., Seeman, and S. Saleem|Benefit-Cost Ratio Evaluation for Management of Brevicoryne brassicae L. in Canola (Brassica napus L.) Crop Production|Phytoparasitica:673-683|2020|10.1007/s12600-020-00811-w
185222|T||Zhang,Z., X. Zhang, F. Liu, and W. Mu|Insecticide Susceptibility of the Green Plant Bug, Apolygus lucorum Meyer-Dur (Homoptera: Miridae) and Two Predatory Arthropods|J. Plant Prot. Res.55(4): 362-370|2015|10.1515/jppr-2015-0048
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185227|T||Barman,T.S., and C.M. Sarma|Effect of Morphactin on Seed-Germination and Seedling Growth of Tea (Camellia sinensis L)|Curr. Sci. (Bangalore)54(6): 291-292|1985|
185228|T||Bisaria,A.|Growth, Flowering, Seed Yield and Composition of Seed in Jute (Corchorus capsularis L.) as Affected by Morphactin|Trop. Agric.69(2): 153-156|1992|
185229|T||Ergenoglu,F.|Some Effects of Morphactin on Auxin Level and Apical Dominance of Snapdragon (Antirrhinum majus)|Ph.D. Thesis, Kansas State University, Manhattan, KS:50 p.|1972|
185230|T||Galan Sauco,V., J. Cabrera Cabrera, and C. Rodriguez Pastor|Use of Chlorflurenol on Pineapple (Ananas comosus L. Merr., Cv. Champaka 153) to Increase Sucker Production While Maintaining Marketable Fruit|Acta Hortic.1:382-388|1992|10.17660/ActaHortic.1992.321.41
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185233|T||Goyal,S., and K.G. Ramawat|Synergistic Effect of Morphactin on Cytokinin-Induced Production of Isoflavonoids in Cell Cultures of Pueraria tuberosa (Roxb. Ex. Willd.) DC|Plant Growth Regul.55(3): 175-181|2008|10.1007/s10725-008-9271-x
185234|T||Harada,J., K. Shimotsubo, and T. Tanaka|Effects of Foliar Application of Plant Growth Regulating Substances on Tuber Formation of Eleocharis kuroguwai, a Perennial Paddy Weed|Jpn. J. Crop Sci. (Multiple Languages)47(3): 395-399|1978|10.1626/jcs.47.395
185235|T||Hield,H., and S. Hemstreet|Growth Control of Laurel Fig with Chlorflurenol|Calif. Agric.36(11/12): 9-10|1982|
185236|T||Lewis,J.L., and B.T. Forschler|Transfer of Five Commercial Termite Bait Formulations Containing Benzoylphenyl Urea Chitin Synthesis Inhibitors Within Groups of the Subterranean Termite Reticulitermes flavipes (Blattodea: Rhinotermitidae)|Int. J. Pest Manag.63(3): 224-233|2016|10.1080/09670874.2016.1241911
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185238|T||Gupta,V., and D. Mukherjee|The Influence of Wax Emulsion, Morphactin and Gibberellic Acid on the Storage Behaviour of Indian Gooseberry Fruits|Sci. Hortic.16(2): 155-162|1982|10.1016/0304-4238(82)90087-5
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185241|T||El-Masry,R.R., A.A. Zakaria, R.E. Ebrahim, and I.O. Salah|Some Aspects on the Effect of Chlorflurenol (Morphactin CF125) on the Host-Parasite Relationships Between Vicia faba L and Orobanche crenata Forsk|Proceedings of the International Workshop on Orobanche and Related Striga Research, Amsterdam, Netherland:580-585|1994|
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185244|T||Krishnamoorthy,H.N.|Effect of Morphactin on Growth and Sex Expression of Luffa acutangula|Z. Pflanzenphysiol. (Multiple Languages)65(1): 88-91|1971|
185245|T||Kudo,M., and Y. Koga|Induction of Foliar Buds by Morphactin Treatment of Flower Bud of Pineapple (Ananas comosus Merr.)|Jpn. J. Breed.31(3): 261-272|1981|
185246|T||Kukulczanka,K., and J. Kwiecien|Modifications in Regeneration of Saintpaulia ionantha Wendl. Leaves, Due to Morphactin Added to In Vitro Cultures|Acta Soc. Bot. Pol.42(4): 521-531|1973|10.5586/asbp.1973.040
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185252|T||Okagami,N., and Y. Esashi|Dormancy Regulation by Morphactin in Aerial Tubers of Begonia evansiana|Planta (Multiple Languages)104(3): 195-200|1972|10.1007/BF00387074
185253|T||Orion,D., and G. Minz|The Influence of Morphactin on the Root-Knot Nematode, Meloidogyne javanica, and Its Galls|Nematologica17(1): 107-112|1971|10.1163/187529271X00468
185254|T||Ormrod,D.P.|Chlorflurenol Increases Branching of Evergreen Azaleas (Rhodolendron Cv)|Naturwissenschaften63(2): 2p.|1976|10.1007/BF00622414
185255|T||Benton,E., J.F. Grant, J. Webster, R. Nichols, R. Cowles, A. Lagalante, and C. Coots|Assessment of Imidacloprid and Its Metabolites in Foliage of Eastern Hemlock Multiple Years Following Treatment for Hemlock Woolly Adelgid, Adelges tsugae (Hemiptera: Adelgidae), in Forested Conditions|J. Econ. Entomol.108(6): 2672-2682|2015|10.1093/jee/tov241
185256|T||Doccola,J.J., S.L. Smith, B.L. Storm, A.C. Medeiros, and E. Von Allmen|Systemically Applied Insecticides for Treatment of Erythrina Gall Wasp, Quadrastichus erythrinae Kim (Hymenoptera: Eulophidae)|Arboric. Urban For.35(4): 173-181|2009|10.48044/jauf.2009.030
185257|T||Doccola,J.J., W. Hascher, J.J. Aiken, and P.M. Wild|Treatment Strategies Using Imidacloprid in Hemlock Woolly Adelgid (Adelges tsugae Annand) Infested Eastern Hemlock (Tsuga canadensis Carriere) Trees|Arboric. Urban For.38(2): 41-49|2012|10.48044/jauf.2012.008
185258|T||Leiva,J.A., P. Nkedi-Kizza, W.S. Borejsza-Wysocki, V.S. Bauder, and K.T. Morgan|Imidacloprid Extraction from Citrus Leaves and Analysis by Liquid Chromatography-Mass Spectrometry (HPLC-MS/MS)|Bull. Environ. Contam. Toxicol.96:671-677|2016|10.1007/s00128-016-1769-8
185259|T||Barker,J.R., and R.A. Shimabuku|Formaldehyde-Contaminated Fog Effects on Plant Growth|EPA 600/A-92/255:13 p.|1992|
185260|T||Phelps,J.E., E.A.,Jr. Mcginnes, J. Pieniazek, M. Saniewski, and M. Smolinski|A Scanning Electron Microscope Study of Structures of Normal, Tension and Morphactin IT 3456 Induced Wood in Aesculus hippocastanum|Bull. Acad. Pol. Sci. Ser. Sci. Biol.23(7): 495-497|1975|
185261|T||Phelps,J.E., E.A.,Jr. Mcginnes, M. Saniewski, J. Pieniazek, and M. Smolinski|Some Anatomical Observations on the Effect of Morphactin IT 3456 and Ethrel on Wood Formation in Salix fragilis L|IAWA J.1(1/2): 76-82|1980|10.1163/22941932-90000811
185262|T||Prakash,G.|Effect of Different Combinations of Growth Substances on the Abscission of Debladed Petioles of Catharanthus roseus in Different Seasons|Isr. J. Bot.25:24-27|1976|
185263|T||Mohan Ram,H.Y., and G. Mehta|Regeneration of Plantlets from Cultured Morphactin-Induced Barren Capitula of African Marigold (Tagetes erecta L.)|Plant Sci. Lett.26(2/3): 227-232|1982|10.1016/0304-4211(82)90095-5
185264|T||Ramawat,K.G., and H.C. Arya|Growth and Morphogenesis in Callus Cultures of Ephedra gerardiana|Phytomorphology26(4): 395-403|1976|
185265|T||Rani,A.|Effect of a Morphactin on Growth and Floral Morphogenesis in Nigella damascena|Curr. Sci. (Bangalore)45(11): 427-428|1976|
185266|T||Mohan Ram,H., and U. Mehta|Retardation of Inflorescence Development in Calendula officinalis by a Morphactin and Its Application|Biol. Plant. (Praha)15(2): 152-154|1973|10.1007/BF02922362
185267|T||Nanda,K.K., N.C. Bhattacharya, and N.P. Kaur|Effect of Morphactin on Peroxidases and Its Relationship to Rooting Hypocotyl Cuttings of Impatiens balsamina|Plant Cell Physiol.14(1): 207-211|1973|
185268|T||Nanda,K.K., V.K. Kochhar, and S. Gupta|Effects of Auxins, Sucrose and Morphactin in the Rooting of Hypocotyl Cuttings of Impatiens balsamina During Different Seasons|In: Biology of the Land Plants Symposium, Botany Department, Meerut University:181-187|1972|
185269|T||Nath,R., M. Mathur, and K.G. Mukerji|Morphological Changes in Sunnhemp Virus-Infected and Morphactin-Treated Plants of Crotalaria juncea Linn|Acta Agron. Acad. Sci. Hung.29(1/2): 104-107|1980|
185270|T||Nath,R., and K.G. Mukerji|Microbial Ecology of the Morphactin-Treated Leaves of Crotalaria juncea L|Acta Agron. Acad. Sci. Hung.32:138-139|1983|
185271|T||Nema,R.K., S. Dass, M. Mathur, and K.G. Ramawat|Morphactin and Cytokinin Promote High Frequency Bulbil Formation from Leaf Explants of Curculigo orchioides Grown in Shake Flask Cultures|Indian J. Biotechnol.7(4): 520-525|2008|
185272|T||Smolinski,M., M. Saniewski, and J. Pieniazek|The Suppression of Tension Wood Formation in Bent Shoots of Aesculus hippocastanum L. by Morphactin IT 3456|Bull. Acad. Pol. Sci. Ser. Sci. Biol.22(11): 809-812|1974|
185273|T||Smolinski,M., M. Saniewski, J. Pieniazek, J.E. Phelps, and E.A.,Jr. Mcginnes|Anatomical Observations on the Influence of Morphactin on Wood Formation of Carpinus betulus L. and Syringa vulgaris L. Shoots|Acta Agrobot. (Multiple Languages)33(1): 103-107|1980|10.5586/aa.1980.009
185274|AT||Sztajer,H., E. Zboinska, I. Zbyryt, J. Kieleczawa, B. Lejczak, and P. Kafarski|Preliminary Studies on the Mechanisms of Action of Phosphonic Analogs of Morphactins on Plants and Bacteria|Biol. Plant. (Praha)32(1): 28-34|1990|10.1007/BF02897339
185276|T||Tjia,B., D.C. Kiplinger, and P.C. Kozel|Studies of Morphactin on the Growth and Auxin Distribution on Chrysanthemum morifolium Ramat|J. Am. Soc. Hortic. Sci.98(2): 186-193|1973|10.21273/JASHS.98.2.186
185277|T||Tjia,B.O.S., T.C. McDowell, and D.C. Kiplinger|Morphactin as a Disbudding Agent for Chrysanthemum|Flor. Rev.145(3769): 28,29,50-52|1970|
185278|A||Aquilina-Beck,A.A., J.L. Reiner, K.W. Chung, M.J. DeLise, P.B. Key, and M.E. DeLorenzo|Uptake and Biological Effects of Perfluorooctane Sulfonate Exposure in the Adult Eastern Oyster Crassostrea virginica|Arch. Environ. Contam. Toxicol.79(3): 333-342|2020|10.1007/s00244-020-00765-4
185279|T||Vyas,L.N., D.K. Billore, A. Sharma, and K. Jindal|Morphactin-GA3 Interaction in Verbena bipinnatifida Nutt. Seeds|Comp. Physiol. Ecol.5(4): 334-337|1980|
185280|T||Zieslin,N., I. Biran, and A.H. Halevy|"Effect of Growth-Regulators on Growth and Pigmentation of ""Baccara"" Rose Flowers"|Plant Cell Physiol.15(2): 341-349|1974|
185281|T||Wegrzynowicz-Lesiak,E., J. Goraj, K. Miyamoto, J. Ueda, and M. Saniewski|Effects of Auxin Polar Transport Inhibitors on the Growth of the Excised Fourth Internode in Tulips|J. Hortic. Res.21(2): 31-39|2013|10.2478/johr-2013-0019
185282|T||White,L.M.|Growth Regulators' Effect on Crested Wheatgrass Forage Yield and Quality|J. Range Manag.42(1): 46-50|1989|10.2307/3899657
185283|T||Robbins,M.L., and C.H. Sherwood|Interaction of 2,4-D, Ethephon and Morphactin on Pepper and Zinnia|Proc. Iowa Acad. Sci.80(2): 72-73|1973|
185284|T||Saniewski,M., H. Okubo, and J. Puchalski|Effect of Morphactin on Stem Growth in Relation to Auxin in Precooled Rooted Tulip Bulbs|Acta Physiol. Plant.21(2): 167-174|1999|10.1007/s11738-999-0072-2
185285|T||Sankhla,N.|Production of Polypetalous Flowers in Snapdragon in Response to Added Morphactin|Curr. Sci. (Bangalore)39(15): 354-355|1970|
185286|T||Sawhney,S., and A. Mahajan|Morphactin-Induced Malmorphogenetic Effect and Its Transmission in Kalanchoe|Biol. Plant. (Praha)37(3): 443-447|1995|10.1007/BF02913996
185287|T||Setia,R.C., and J.J. Shah|Effect of Morphactin, IAA & Kinetin on Gum Canals in Sterculia urens Roxb.|Indian J. Exp. Biol.15(4): 297-301|1977|
185288|T||Singh,I., M.P. Kaushik, R. Ram, and Y.K. Sharma|Physiology of Seed-Germination and Seedling Growth in Coccinia indica L as Affected by Morphactin and Gamma-Radiation|Comp. Physiol. Ecol.8(1): 25-28|1983|
185289|T||Singh,K.P., I. Singh, and M.P. Kaushik|Growth, Flowering, Sex Behaviour, Pollen Sterility and Fruit Set in Lagenaria siceraria Standle as Affected by Morphactin|Indian J. Plant Physiol.26(1): 15-20|1983|
185290|T||Sharma,B.D., and R. Singh|Effects of Morphactin on Spore Germination and Differentiation in Actiniopteris radiata|Phytomorphology33(1/4): 13-16|1983|
185291|T||Degheele,D., S.X. Yi, and C. Bai|Toxicity of Benzoylphenylureas to the African Armyworm Spodoptera exempta (Walker)|Crop Prot.12(1): 35-38|1993|10.1016/0261-2194(93)90016-C
185292|T||Knott,C.M.|Evaluation of Herbicides for Weed Control in Runner Beans (Phaseolus coccineus)|Ann. Appl. Biol.128:38-39|1996|10.1111/j.1744-7348.1996.tb07898.x
185293|A||Cornwall,R., B.H. Toomey, S. Bard, C. Bacon, W.M. Jarman, and D. Epel|Characterization of Multixenobiotic/Multidrug Transport in the Gills of the Mussel Mytilus californianus and Identification of Environmental Substrates|Aquat. Toxicol.31(4): 277-296|1995|10.1016/0166-445X(94)00070-7
185294|T||Delkash-Roudsari,S., A. Zibaee, and Z. Bigham|Purification and Characterization of a Phenoloxidase in the Hemocytes of Ephestia kuehniella Zeller (Lepidoptera: Pyralidae): Effects of Insect Growth Regulators and Endogenous Inhibitors|J. Enzyme Inhib. Med. Chem.30(4): 569-574|2015|10.3109/14756366.2014.954107
185295|A||Galgani,F., R. Cornwall, B.H. Toomey, and D.D. Epel|Interaction of Environmental Xenobiotics with a Multixenobiotic Defense Mechanism in the Bay Mussel Mytilus galloprovincialis from the Coast of California|Environ. Toxicol. Chem.15(3): 325-331|1996|10.1002/etc.5620150316
185296|T||DeMark,J.J., and J.D. Thomas|Seasonal Activity, Wood Consumption Rates, and Response to Above-Ground Delivery of Hexaflumuron-Treated Bait to Reticulitermes flavipes (Isoptera: Rhinotermitidae) in Pennsylvania and Wisconsin|Sociobiology36(1): 181-200|2000|
185297|T||Southward,R.C., K.C. Harrington, J.G. Hampton, H. Han, and K.M. Pollock|Selective Herbicides for Dahlia Production|Proc. Agron. Soc. N.Z.28:11-15|1998|
185298|T||El-Barkey,N.M., A.E. Amer, and M.A. Kandeel|Ovicidal Activity and Biological Effects of Radiant and Hexaflumuron against Eggs of Pink Bollworm, Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae)|Egypt. Acad. J. Biol. Sci. Entomol.2(1): 23-36|2009|10.21608/eajbsa.2009.15450
185299|T||Sumner,D.R., and N.C. Glaze|Interactions of Herbicides and Nematicides with Root Diseases of Turnip Grown for Leafy Greens|Phytopathology68(1): 123-129|1978|10.1094/Phyto-68-123
185300|T||El-Sayed,A.A.A.|Effect of Sublethal Dose of Hexaflumuron on the Ovary and Egg Maturation of Spiny Bollworm, Earias insulana (Boisd.)|J. Entomol.13:26-32|2016|10.3923/je.2016.26.32
185301|T||Sumner,D.R.|Interactions of Herbicides and Nematicides with Root Diseases of Snapbean and Southern Pea|Phytopathology64(10): 1353-1358|1974|10.1094/Phyto-64-1353
185302|T||Wood,I.M.W.|Herbicides for the Control of Grass Weeds in Pastures of Townsville (Stylosanthes humilis)|Aust. J. Exp. Agric.10(47): 790-794|1970|10.1071/EA9700790
185304|T||Wood,I.M.W.|Herbicides for the Control of Grass Weeds in Peanut Crops at Katherine, NT|Aust. J. Exp. Agric.10(45): 462-466|1970|10.1071/EA9700462
185305|T||Almodovar-Vega,L., and J. Velez-Santiago|Evaluation of Preplant Incorporated Chemicals for Weed Control on Alfalfa in a Vertisol|J. Agric. Univ. P. R.64(1): 129-130|1980|10.46429/jaupr.v64i1.10255
185306|T||Dixon,K.W., K. Frost, and K. Sivasithamparam|The Effect of Amendment of Soil with Organic Matter, a Herbicide and a Fungicide on the Mortality of Seedlings of Two Species of Banksia Inoculated with Phytophthora cinnamomi|Acta Hortic.264:123-131|1990|10.17660/ActaHortic.1990.264.15
185307|T||Forschler,B.T., and J.C.,Jr. Ryder|Subterranean Termite, Reticulitermes spp. (Isoptera: Rhinotermitidae), Colony Response to Baiting with Hexaflumuron Using a Prototype Commercial Termite Baiting System|J. Entomol. Sci.31(2): 143-151|1996|10.18474/0749-8004-31.2.143
185308|T||El-Keltawi,N.E., and R. Croteau|Influence of Herbicides and Growth Regulators on the Growth and Essential Oil Content of Sage|Phytochemistry26(3): 675-679|1987|10.1016/S0031-9422(00)84764-0
185309|T||Gambetta,A., V. Zaffagnini, and E. De Capua|Use of Hexaflumuron Baits Against Subterranean Termites for Protection of Historical and Artistic Structures: Experiment Carried out in Selected Test Areas at the Church of Santa Maria Della Sanita in Naples|J. Cult. Herit.1(3): 207-216|2000|10.1016/S1296-2074(00)01080-3
185310|T||Epa,U.S.|Interaction of Herbicides and Soil Microorganisms|J. Water Pollut. Control Fed.:32-36|1971|
185311|T||Getty,G.M., C.W. Solek, R.J. Sbragia, M.I. Haverty, and V.R. Lewis|Large-Scale Suppression of a Subterranean Termite Community Using the Sentricon Termite Colony Elimination System: A Case Study in Chatsworth, California, USA|Sociobiology50(3): 1041-1050|2007|
185312|T||Fisher,M., and J.R. Ive|The Control of Grass Weeds in Townsville Stylo (Stylosanthes humilis) Experiments|Aust. J. Exp. Agric.10(47): 795-797|1970|10.1071/EA9700795
185313|T||Ghoneim,Y.F., M. Singab, H.M. Abou-Yousef, and N.S. Abd-El-Hai|Efficacy of Certain Insecticides and Their Mixtures with the Tested IGRs Against a Field Strain of the Cotton Leaf Worm, Spodoptera littoralis (Boisd.) Under Laboratory Conditions|Aust. J. Basic. Appl. Sci.6(6): 300-304|2012|
185314|T||Griffin,G.D., and J.L. Anderson|Effects of DCPA , EPTC , and Chlorpropham on Pathogenicity of Meloidogyne hapla to Alfalfa|J. Nematol.11(1): 32-36|1979|
185315|T||Iyer,J.G., G. Chesters, and S.A. Wilde|Chlorthal Degradation in Soils and Its Uptake by Pine Seedlings|Weed Res. (Multiple Languages)9(9): 53-61|1969|10.1111/j.1365-3180.1969.tb01449.x
185316|T||Jacobs,J.S., S.R. Winslow, and M.L. Pokorny|The Effect of Five Pre-Emergence Herbicides on Emergence and Establishment of Four Native Wildflowers|Native Plants J.8(3): 224-231|2007|10.2979/NPJ.2007.8.3.224
185317|T||LaMondia,J.A., W.H. Elmer, T.L. Mervosh, and R.S. Cowles|Integrated Management of Strawberry Pests by Rotation and Intercropping|Crop Prot.21(9): 837-846|2002|10.1016/S0261-2194(02)00050-9
185318|A||Daam,M.A., P. Ilha, and L. Schiesari|Acute Toxicity of Inorganic Nitrogen (Ammonium, Nitrate and Nitrite) to Tadpoles of Five Tropical Amphibian Species|Ecotoxicology29(9): 1516-1521|2020|10.1007/s10646-020-02247-8
185319|T||Zwart,R., M. Oortgiesen, and H.P.M. Vijverberg|Nitromethylene Heterocycles: Selective Agonists of Nicotinic Receptors in Locust Neurons Compared to Mouse NIE-115 and BC3H1 Cells|Pestic. Biochem. Physiol.48(3): 202-213|1994|10.1006/pest.1994.1021
185320|T||Beyer,W.W.|The Effect of Fungicide and Insecticide Spray Treatment on the Physico-Chemical Properties of Fresh and Processed Montmorency Cherries|Ph.D Thesis, University of Wisconsin, Madison, WI:118 p.|1960|
185321|T||Brown,I.F., and H.D. Sisler|Mechanism of Fungitoxic Action of n-Dodecylguanidine Acetate|Phytopathology50:830-839|1960|
185322|T||Denman,T.E.|Use of a Systemic Insecticide for Control of Pecan Aphids|Proc. Texas Pecan Growers Assoc.44:36-37|1965|
185323|A||Amer Cyanamid Co|Acute Toxicity of Cytox 3522 to Bluegill and Rainbow Trout, and Cytox 3711 to Bluegill with Cover Letter Dated 060789|EPA/OTS Doc.#86-890000312:12 p|1989|
185324|T||Hislop,R.G., P.J. Auditore, B.L. Weeks, and R.J. Prokopy|Repellency of Pesticides to the Mite Predator Amblyseius fallacis|Prot. Ecol.3(3): 253-257|1981|
185325|T||Ross,R.G., A.D. Crowe, and D.H. Webster|Effect of Fungicides on the Performance of Young McIntosh and Cartland Apples|Can. J. Plant Sci.50:529-536|1970|10.4141/cjps70-100
185326|T||Eggen,T., and C. Lillo|Antidiabetic II Drug Metformin in Plants: Uptake and Translocation to Edible Parts of Cereals, Oily Seeds, Beans, Tomato, Squash, Carrots, and Potatoes|J. Agric. Food Chem.60(28): 6929-6935|2012|10.1021/jf301267c
185328|T||Tot,A., I. Maksimovic, M. Putnik-Delic, M. Danicic, S. Gadzuric, M. Bester-Rogac, and M. Vranes|The Effect of Polar Head Group of Dodecyl Surfactants on the Growth of Wheat and Cucumber|Chemosphere254:12 p.|2020|10.1016/j.chemsophere.2020.126918
185329|T||Marsden,K.A., M. Scowen, P.W. Hill, D.L. Jones, and D.R. Chadwick|Plant Acquisition and Metabolism of the Synthetic Nitrification Inhibitor Dicyandiamide and Naturally-Occurring Guanidine from Agricultural Soils|Plant Soil395(1-2): 201-214|2015|10.1007/s11104-015-2549-7
185330|T||Payne,J.A., and D. Sparks|Pecan Foliage Susceptibility to Dodine|Plant Dis. Rep.62(11): 996-998|1978|
185331|T||Payne,J.A., and D. Sparks|Susceptibility of Pecan Foliage to Cyprex|Pecan South6(4): 28-30|1979|
185332|T||Rodriguez-Kabana,R., V. Estaun, J. Pinochet, and O. Marfa|Mixtures of Olive Pomace with Different Nitrogen Sources for the Control of Meloidogyne spp. on Tomato|J. Nematol.27(4S): 575-584|1995|
185333|T||Ross,R.G., A.D. Crowe, and R.P. Longley|Performance of Mcintosh Apple Trees Sprayed with Captan, Dodine or Pre-Cover and Cover Sprays of Dichlone|Can. J. Plant Sci.49(6): 655-658|1969|10.4141/cjps69-117
185334|T||Srivastava,S., D.J. Vashi, and B.I. Naik|Control of Senescence by Polyamines and Guanidines in Young and Mature Barley Leaves|Phytochemistry22(10): 2151-2154|1983|10.1016/S0031-9422(00)80135-1
185338|T||Alves,A.C., E. Capra, S. Morandi, P. Cremonesi, J.C.F. Pantoja, H. Langoni, A.P.C. De Vargas, M.M. Da Costa, T. Jagiels|In Vitro Algicidal Effect of Guanidine on Prototheca zopfii Genotype 2 Strains Isolated from Clinical and Subclinical Bovine Mastitis|Lett. Appl. Microbiol.64(6): 419-423|2017|10.1111/lam.12737
185339|T||Burns,D., and A. Watson|The Effect of Thyro-Parathyreoidectomy on the Heart and Circulation: Part II. Action of Guanidin on the Heart of the Frog|J. Physiol.53(6): 386-390|1920|10.1113/jphysiol.1920.sp001885
185340|T||Curry,A.N.|Plant Metabolism of Fungicides, Translocation and Metabolism of Dodecylguanidine Acetate (Dodine) Fungicide in Apple Trees, Using C14 Radiotagged Dodine|J. Agric. Food Chem.10(1): 13-17|1962|10.1021/jf60119a005
185341|T||Davis,D.R., W.A. Sistrunk, and S.C. Merrill|Cyprex Residues in Spinach|Ark. Farm Res.24(4): 6-|1975|
185342|A||Evans,L.V., M.E. Callow, and K.R. Wood|Chapter 4 Synergism Between Antifouling Biocides|Stud. Environ. Sci.28:55-64|1986|10.1016/S0166-1116(08)72170-8
185343|T||Holy,K., and J. Stara|Laboratory Evaluation of the Effect of Insecticides on Chrysoperla carnea (Neuroptera: Chrysopidae), Forficula auricularia (Dermaptera: Forficulidae), Adalia bipunctata (Coleoptera: Coccinellidae) and Harmonia axyridis |Acta Univ. Agric. Silvic. Mend. Brun.68(3): 497-506|2020|10.11118/actaun202068030497
185344|A||Buyuksoylu,S., M.E. Ozgur, C.C. Gul, A. Taslidere, S. Aydemir, and S. Erdogan|An Investigation of Histopathological Changes and Bioaccumulation in Tissues of Rainbow Trout (Oncorhynchus mykiss) After Exposure to Dodine|Drug Chem. Toxicol.:11 p.|2020|
185345|T||Chou,C.C., M.H. Lee, K.C. Tzeng, and D.S. Tzeng|Effect of L-Arginine and Its Analogues on the Hypersensitive Response of Tobacco (Nicotiana tabacum L. Cv. TT-5) Induced by Avirulent Ps61 Super(-) Strain of Ralstonia solanacearum|Plant Pathol. Bull.15(2): 97-105|2006|10.5423/PPJ.2006.22.1.097
185346|T||Cooke,B.K., P.J. Herrington, K.G. Jones, and N.G. Morgan|Pest and Disease Control on Intensive Apple Trees by Overhead Mobile Spraying|Pestic. Sci.6(6): 571-579|1975|10.1002/ps.2780060604
185347|T||Cooke,B.K., P.J. Herrington, K.G. Jones, and N.G. Morgan|Pest and Disease Control with Low Doses of Pesticides in Low and Ultralow Volumes Applied to Intensive Apple Trees|Pestic. Sci.7(1): 30-34|1976|10.1002/ps.2780070105
185348|T||Corduk,N., N. Akinci, G. Yucel, N. Kaya, and C. Aki|Evaluation of Genotoxicity and Cytotoxicity of Dodine (1-Dodecylguanidium Acetate) by Allium Test|Fresenius Environ. Bull.24(12A): 4527-4531|2015|
185349|T||Benoit,E.|Interactions of Guanidine and a Related Compound with Potassium Channels in Frog Myelinated Nerve Fiber|Receptors Channels1(3): 181-191|1993|
185350|T||Boulanger,L.W.|The Effect of Some Fungicides on European Red Mite Populations in Maine|J. Econ. Entomol.56:298-300|1963|10.1093/jee/56.3.298
185351|A||Pereira,A., A.P. Carvalho, C. Cruz, and A. Saraiva|Histopathological Changes and Zootechnical Performance in Juvenile Zebrafish (Danio rerio) Under Chronic Exposure to Nitrate|Aquaculture473 :197-205|2017|10.1016/j.aquaculture.2017.02.018
185352|T||Dabrowski,Z.T.|Density of Spider Mites (Tetranychidae) and Predatory Mites (Phytoseiidae) in Apple Orchards Treated and not Treated with Pesticides|Ekol. Pol.18:111-136|1970|
185353|T||Grafe,P., and U. Sonnhof|Effects of Guanidine on Synaptic Transmission in Spinal Cord of the Frog|Naunyn-Schmiedeberg's Arch. Pharmacol.301(2): 129-134|1977|10.1007/BF00501427
185354|T||Hatch,A.H.|Influence of Mineral Nutrition and Fungicides on Russeting of 'Goldspur' Apple Fruit|J. Am. Soc. Hortic. Sci.100(1): 52-55|1975|10.21273/JASHS.100.1.52
185356|T||Kaul,B.L., and D.K. Choudhary|Effect of Chemical Mutagens on Quantitative Characters in Atropa belladonna|Planta Med.27(4): 337-342|1975|10.1055/s-0028-1097811
185357|T||Korhonen,A., K. Hemminki, and H. Vainio|Embryotoxic Effects of Acrolein, Methacrylates, Guanidines and Resorcinol on Three Day Chicken Embryos|Acta Pharmacol. Toxicol.52(2): 95-99|1983|10.1111/j.1600-0773.1983.tb03409.x
185358|A||Roques,J.A.C., E. Schram, T. Spanings, T.V. Schaik, W. Abbink, J. Boerrigter, P.D. Vries, and H.V.D. Vis|The Impact of Elevated Water Nitrite Concentration on Physiology, Growth and Feed Intake of African Catfish Clarias gariepinus (Burchell 1822)|Aquac. Res.46(6): 1384-1395|2015|10.1111/are.12292
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185361|T||MacPhee,A.W., and K.H. Sanford|The Influence of Spray Programs on the Fauna of Apple-Orchards in Nova Scotia. XII. Second Supplement to VII. Effects of Beneficial Arthropods|Can. Entomol.93:671-673|1961|10.4039/Ent93671-8
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185363|T||Ries,S.M.|Germination of Apple Pollen as Influenced by Fungicides|Fruit Var. J.32(1): 12-16|1978|
185364|A||Voslarova,E., V. Pistekova, Z. Svobodova, and I. Bedanova|Nitrite Toxicity to Danio rerio: Effects of Subchronic Exposure on Fish Growth|Acta Vet. Brno77(3): 455-460|2008|10.2754/avb200877030455
185365|T||Venkataramaiah,T., and A. Gajanana|Evaluation of Plasmodium falciparum-Microsomal In Vitro System for Testing Pro-Drugs|Indian J. Med. Res.86:579-581|1987|
185366|T||Vijaykumar,N.K., and H.K. Jain|Comparative Studies on Induced Mutations with Physical and Chemical Mutagens in Drosophila melanogaster: Part-1. Specificity & Spectrum of Mutations|Indian J. Exp. Biol.17(1): 61-65|1979|
185367|T||Volle,R.L., and D.D. Branisteanu|Statistical Parameters of Transmitter Release at Frog Neuromuscular-Junctions Treated with Guanidine or Tetraethylammonium|J. Pharmacol. Exp. Ther.197(3): 653-661|1976|
185368|T||White,N.D.G., and J.E. Laing|Field Observations of Zetzellia mali (Ewing) (Acarina, Stigmaeidae) in Southern Ontario Apple Orchards|Proc. Entomol. Soc. Ont.108:23-30|1977|
185370|A||Serezli,R., A. Kucukagtas, and I.Z. Kurtoglu|Acute Toxicity of Ammonia and Nitrite to Angel Fish (Pterophyllum scalare, Liechtenstein 1823) and the Effect of Erythrocyte Morphology|Fresenius Environ. Bull.(8): 3119-3124|2016|
185371|A||Steinberg,K., J. Zimmermann, K.T. Stiller, L. Nwanna, S. Meyer, and C. Schulz|Elevated Nitrate Levels Affect the Energy Metabolism of Pikeperch (Sander lucioperca) in RAS|Aquaculture497:405-413|2018|10.1016/j.aquaculture.2018.08.017
185372|T||Kooner,R., S.K. Sahoo, B. Singh, and R.S. Battu|Dissipation Kinetics of Flubendiamide and Thiacloprid on Tomato (Lycopersicon esculentum Mill) and Soil|Qual. Assur. Saf. Crops Foods2(1): 36-40|2010|10.1111/j.1757-837X.2010.00048.x
185373|T||Indrayani,Y., T. Yoshimura, and Y. Imamura|A Novel Control Strategy for Dry-Wood Termite Incisitermes Minor Infestation Using a Bait System|J. Wood Sci.54(3): 220-224|2008|10.1007/s10086-007-0934-4
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185375|T||Horowitz,A.R., M. Klein, S. Yablonski, and I. Ishaaya|Evaluation of Benzoylphenyl Ureas for Controlling the Spiny Bollworm, Earias insulana (Boisd), in Cotton|Crop Prot.11(5): 465-469|1992|10.1016/0261-2194(92)90031-Y
185376|T||Khorshidi,M., R.F. Pour Abad, M. Saber, and A. Zibaee|Effects of Hexaflumuron, Lufenuron and Chlorfluazuron on Certain Biological and Physiological Parameters of Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae)|Biocatal. Agric. Biotechnol.21:8 p.|2019|10.1016/j.bcab.2019.101270
185377|T||Ioni,S., M. Moarefi, H. Farazmand, and E. Karami|The Effect of Regulating Compounds on the Growth of Tribolium confusum Du Val (Coleoptera: Tenebrionidae)|Munis Entomol. Zool.6(1): 377-385|2011|
185379|T||Lopez,J.D.,Jr., M.A. Latheef, and W.C. Hoffmann|Effect of Hexaflumuron on Gustation and Reproduction of Adult Boll Weevil|Southwest. Entomol.34(1): 31-41|2009|10.3958/059.034.0103
185380|T||Lopez,J.D.,Jr., M.A. Latheef, and W.C. Hoffmann|Effect of Hexaflumuron on Feeding Response and Reproduction of Bollworm, Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae)|Southwest. Entomol.36(3): 247-259|2011|10.3958/059.036.0303
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185382|T||Khorshidi,M., M.J. Hejazi, and S. Iranipour|Effect of Azadirachtin, Chlorantraniliprole and Some Insect Growth Regulators on Vegetable Leafminer, Liriomyza sativae (Blanchard) (Diptera: Agromyzidae)|J. Crop Prot.6(1): 115-123|2017|
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185386|T||Ascher,K.R.S., V. Melamed-Madjar, N.E. Nemny, and S. Tam|The Effect of Benzoylphenyl Urea Molting Inhibitors on Larvae and Eggs of the European Corn Borer, Ostrinia  nubilalis Hb. (Lepidoptera: Pyralidae)|J. Plant Dis. Prot.94(6): 584-589|1987|
185387|T||Ascher,K.R.S., S. Yathom, N.E. Nemny, and S. Tal|The Effect of XRD-473 and Other Benzoylphenyl Urea Chitin Synthesis Inhibitors on a Serpentine Leafminer, Liriomyza trifolii|J. Plant Dis. Prot.96(1): 60-70|1989|
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185391|T||Das,N.G., and V. Vasuki|Potential of Four Insect Growth Regulators in Housefly Control|Entomon17(1-2): 65-70|1992|
185392|T||Deepa,M., S.A. Jayaprakash, M. Paramasivam, D. Eswar, C. Selvi, and S. Chandrasekaran|Determination of Flubendiamide Residues and Its Safety Evaluation for Usage in Cardamom by Liquid Chromatography|Qual. Assur. Saf. Crops Foods7(3): 271-275|2015|10.3920/QAS2013.0321
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185395|A||Zheng,Y., and K. Gao|Impacts of Solar UV Radiation on the Photosynthesis, Growth, and UV-Absorbing Compounds in Gracilaria Lemaneiformis (Rhodophyta) Grown at Different Nitrate Concentrations|J. Phycol.45(2): 314-323|2009|10.1111/j.1529-8817.2009.00654.x
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185398|A||Bouchard,J.N., and H. Yamasaki|Heat Stress Stimulates Nitric Oxide Production in Symbiodinium microadriaticum: A Possible Linkage Between Nitric Oxide and the Coral Bleaching Phenomenon|Plant Cell Physiol.49(4): 641-652|2008|10.1093/pcp/pcn037
185399|T||Hegazy,G., A. De Cock, D. Degheele, and H. Salem|Chitin-Protein Biosynthesis in the Cuticle Relationships of Four Benzoylphenyl Ureas in the Last Instar Larva of Leptinotarsa cecemlineata (Say)|Meded. Fac. Landbouwwet. Rijksuniv. Gent54(1): 103-114|1989|
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185401|T||Kay,I.R.|Testing Insecticides Against Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae) Using a Tomato Plant Bioassay|Plant Prot. Q.21(1): 20-24|2006|
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185405|T||Murtagh,G.J.|Use of Herbicide to Reduce Grass Competition in a White Clover Sward|Trop. Grassl.11(2): 121-124|1977|
185406|T||Matar,A.M., and M.A.A. Kandel|Survey of Predatory Arthropods in Cotton Fields, with Special Reference to Effect of Hexalumuon on Certain Biological Aspects of the Spider Species, Thanatus albini (Audouin) (Araneida: Philodromidae)|Egypt. J. Biol. Pest Control21(1): 245-250|2011|
185407|T||Mahmoudvand,M., H. Abbasipour, A.S. Garjan, and A.R. Bandani|Sublethal Effects of Hexaflumuron on Development and Reproduction of the Diamondback Moth, Plutella xylostella (Lepidoptera: Yponomeutidae)|Insect Sci.18(6): 689-696|2011|10.1111/j.1744-7917.2011.01411.x
185408|T||Mahmoudvand,M., A.S. Garjan, and H. Abbasipour|Ovicidal Effect of Some Insecticides on the Diamondback Moth, Plutella xylostella (L.) (Lepidoptera: Yponomeutidae)|Chil. J. Agric. Res.71(2): 226-230|2011|10.4067/S0718-58392011000200007
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185410|T||Misbah-ul-Haq,M., and I.A. Khan|Study of Trail-Following Behavior of Subterranean Termite, Heterotermes indicola (Isoptera: Rhinotermitidae) After Exposure to Various Concentrations of Insect Growth Regulators|J. Entomol. Zool. Stud.3:406-411|2015|
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185731|A||Kesh,S., R.R. Kannan, and A. Balakrishnan|Naringenin Alleviates 6-Hydroxydopamine Induced Parkinsonism in SHSY5Y Cells and Zebrafish Model|Comp. Biochem. Physiol. C Comp. Pharmacol.239:7 p.|2021|
185732|A||Nagel,A.H., C.W. Cuss, G.G. Goss, W. Shotyk, and C.N. Glover|Chronic Toxicity of Waterborne Thallium to Daphnia magna|Environ. Pollut.268:8 p.|2021|10.1016/j.envpol.2020.115776
185733|T||Wu,Y.Y., P. Pasberg, Q.Y. Diao, and J.C. Nieh|Flupyradifurone Reduces Nectar Consumption and Foraging but Does Not Alter Honey Bee Recruitment Dancing|Ecotoxicol. Environ. Saf.207:111268-111268|2021|10.1016/j.ecoenv.2020.111268
185734|T||Wu,Z.Z., J.Y. Yang, Y.X. Zhang, C.Q. Wang, S.S. Guo, and Y.Q. Yu|Growth Responses, Accumulation, Translocation and Distribution of Vanadium in Tobacco and Its Potential in Phytoremediation|Ecotoxicol. Environ. Saf.207:13 p.|2021|
185735|A||Dal Santo,G., B.O. De Veras, E. Rico, J.D. Magro, J.F. Agostini, L.D. Vieira, J.F.F. Calisto, R. Mocelin, De SFonsecaa|Hexane Extract from Spondias mombin L. (Anacardiaceae) Prevents Behavioral and Oxidative Status Changes on Model of Parkinson's Disease in Zebrafish|Comp. Biochem. Physiol. C Comp. Pharmacol.241:10 p|2021|
185736|T||Liu,T., K. Fang, Y. Liu, X. Zhang, L. Han, and X. Wang|Enantioselective Residues and Toxicity Effects of the Chiral Triazole Fungicide Hexaconazole in Earthworms (Eisenia fetida)|Environ. Pollut.270:10 p.|2021|
185737|T||Cai,X., M. Jiang, J. Liao, Y. Yang, N. Li, Q. Cheng, X. Li, H. Song, Z. Luo, and S. Liu|Biomass Allocation Strategies and Pb-Enrichment Characteristics of Six Dwarf Bamboos Under Soil Pb Stress|Ecotoxicol. Environ. Saf.207:9 p.|2021|10.1016/j.ecoenv.2020.111500
185738|AT||Zhu,F., J. Wang, J. Jiao, and Y. Zhang|Exposure to Acrylamide Induces Skeletal Developmental Toxicity in Zebrafish and Rat Embryos|Environ. Pollut.271:10 p.|2021|10.1016/j.envpol.2020.116395
185739|A||Perrier,F., A. Bertucci, F. Pierron, A. Feurtet-Mazel, O. Simon, C. Klopp, F. Candaudap, O. Pokrovski, B. Etcheverria, |Transfer and Transcriptomic Profiling in Liver and Brain of European Eels (Anguilla anguilla) after Diet-Borne Exposure to Gold Nanoparticles|Environ. Toxicol. Chem.39(12): 2450-2461|2020|10.1002/etc.4858
185740|A||Tshering,G., T. Plengsuriyakarn, K. Na-Bangchang, and W. Pimtong|Embryotoxicity Evaluation of Atractylodin and Beta-Eudesmol Using the Zebrafish Model|Comp. Biochem. Physiol. C Comp. Pharmacol.239:8 p.|2021|
185741|A||Xia,Z.S., E.W. Hao, Y.T. Wei, X.T. Hou, Z.M. Chen, M. Wei, Z.C. Du, and J.G. Deng|Genipin Induces Developmental Toxicity through Oxidative Stress and Apoptosis in Zebrafish|Comp. Biochem. Physiol. C Comp. Pharmacol.241:10 p.|2021|
185742|AT||Shahnaz,T., V. Vishnu Priyan, S. Pandian, and S. Narayanasamy|Use of Nanocellulose Extracted from Grass for Adsorption Abatement of Ciprofloxacin and Diclofenac Removal with Phyto, and Fish Toxicity Studies|Environ. Pollut.268:14 p.|2021|10.1016/j.envpol.2020.115494
185743|T||Wen,S.F., C. Liu, Y.W. Wang, Y.N. Xue, X.T. Wang, J.H. Wang, X.M. Xia, and Y.M. Kim|Oxidative Stress and DNA Damage in Earthworm (Eisenia fetida) Induced by Triflumezopyrim Exposure|Chemosphere264:9 p.|2021|10.1016/j.chemosphere.2020.128499
185744|A||Zhu,P., H. Wang, and Q.F. Zeng|Comparative Transcriptome Reveals the Response of Oriental River Prawn (Macrobrachium nipponense) to Sulfide Toxicity at Molecular Level|Aquat. Toxicol.230:105700-105700|2021|10.1016/j.aquatox.2020.105700
185745|T||Sun,J., X. Yang, H. Shen, Y. Xu, A. Zhang, and J. Gan|Uptake and Metabolism of Nonylphenol in Plants: Isomer Selectivity Involved with Direct Conjugation|Environ. Pollut.270:8 p.|2021|10.1016/j.envpol.2020.116064
185746|A||Zhu,Q., B. Wu, and L. Zhao|Effect of Algicidal Compound N-Omega-Acetylhistamine on Physiological Response and Algal Toxins in Heterosigma akashiwo|Ecotoxicol. Environ. Saf.208:10 p.|2021|
185747|A||Xie,S.W., P. Yin, L.X. Tian, Y.J. Liu, B.P. Tan, and J. Niu|Interactions between Dietary Lipid Levels and Chronic Exposure of Legal Aquaculture Dose of Sulfamethoxazole in Juvenile Largemouth Bass Micropterus salmoides|Aquat. Toxicol.229:13 p.|2020|
185748|T||Zhang,C., K.M. Seong, W. Sun, O. Mittapalli, B. Qiu, J.M. Clark, and B.R. Pittendrigh|"The Insulin Signaling Pathway in Drosophila melanogaster: A Nexus Revealing an ""Achilles' Heel"" in DDT Resistance"|Pestic. Biochem. Physiol.171:10 p.|2021|
185749|T||Viana,D.G., F.R. Pires, A.D. Ferreira, F.B.E. Filho, C.F.M. De Carvalho, R. Bonomo, and L.F. Martins|Effect of Planting Density of the Macrophyte Consortium of Typha domingensis and Eleocharis acutangula on Phytoremediation of Barium from a Flooded Contaminated Soil|Chemosphere262:127869-127869|2021|10.1016/j.chemosphere.2020.127869
185750|T||Wahid,F., S. Baig, M.F. Bhatti, M. Manzoor, I. Ahmed, and M. Arshad|Growth Responses and Rubisco Activity Influenced by Antibiotics and Organic Amendments Used for Stress Alleviation in Lactuca sativa|Chemosphere264:128433-128433|2021|10.1016/j.chemosphere.2020.128433
185751|A||Yen,H.J., J.R. Lin, Y.H. Yeh, J.L. Horng, and L.Y. Lin|Exposure to Colistin Impairs Skin Keratinocytes and Lateral-Line Hair Cells in Zebrafish Embryos|Chemosphere263:128364-128364|2021|10.1016/j.chemosphere.2020.128364
185752|T||Adedara,I.A., B.O. Ajayi, B.A. Afolabi, I.O. Awogbindin, J.B.T. Rocha, and E.O. Farombi|Toxicological Outcome of Exposure to Psychoactive Drugs Carbamazepine and Diazepam on Non-Target Insect Nauphoeta cinerea|Chemosphere264:9 p.|2021|10.1016/j.chemosphere.2020.128449
185753|A||Capaldo,A., F. Gay, I. Caputo, L. Lionetti, G. Paolella, I. Di Gregorio, S. Martucciello, M. Di Lorenzo, L. Rosati, and|Effects of Environmental Cocaine Concentrations on COX and Caspase-3 Activity, GRP-78, ALT, CRP and Blood Glucose Levels in the Liver and Kidney of the European Eel (Anguilla anguilla)|Ecotoxicol. Environ. Saf.208:10 p.|2021|10.1016/j.ecoenv.2020.111475
185754|A||Novak,M., S. Baebler, B. Zegura, A. Rotter, G. Gajski, M. Geric, V. Garaj-Vrhovac, K. Bakos, Z. Csenki, R. Kovacs, A. H|Deregulation of Whole-Transcriptome Gene Expression in Zebrafish (Danio rerio) after Chronic Exposure to Low Doses of Imatinib Mesylate in a Complete Life Cycle Study|Chemosphere263:10 p.|2021|10.1016/j.chemosphere.2020.128097
185755|A||Xu,J., Q. Qian, M. Xia, X. Wang, and H. Wang|Trichlorocarban Induces Developmental and Immune Toxicity to Zebrafish (Danio rerio) by Targeting TLR4/MyD88/NF-kB Signaling Pathway|Environ. Pollut.273:10 p.|2021|
185756|T||Eze,M.O., S.C. George, and G.C. Hose|Dose-Response Analysis of Diesel Fuel Phytotoxicity on Selected Plant Species|Chemosphere263:8 p.|2021|10.1016/j.chemosphere.2020.128382
185757|A||Vineetha,V.P., P. Devika, K. Prasitha, and T.V. Anilkumar|Tinospora cordifolia Ameliorated Titanium Dioxide Nanoparticle-Induced Toxicity Via Regulating Oxidative Stress-Activated MAPK and NRF2/Keap1 Signaling Pathways in Nile Tilapia (Oreochromis niloticus)|Comp. Biochem. Physiol. C Comp. Pharmacol.240:13 p.|2021|
185758|A||Kropf,C., F. Begnaud, S. Gimeno, F. Berthaud, C. Debonneville, and H. Segner|In Vitro Biotransformation Assays Using Liver S9 Fractions and Hepatocytes from Rainbow Trout (Oncorhynchus mykiss): Overcoming Challenges with Difficult Test Fragrance Chemicals|Environ. Toxicol. Chem.39(12): 2396-2408|2020|10.1002/etc.4872
185759|T||Liu,X., J. Bonhomme, I. Merbach, S. Kummel, and H.H. Richnow|Uptake of alpha-HCH by Wheat from the Gas Phase and Translocation to Soil Analyzed by a Stable Carbon Isotope Labeling Experiment|Chemosphere264:8 p.|2021|
185760|A||Hung,G.Y., P.Y. Chen, J.L. Horng, and L.Y. Lin|Vincristine Exposure Impairs Skin Keratinocytes, Ionocytes, and Lateral-Line Hair Cells in Developing Zebrafish Embryos|Aquat. Toxicol.230:11 p.|2021|10.1016/j.aquatox.2020.105703
185761|T||Castro,B.M.D.C.E., L.C. Martinez, A. Plata-Rueda, M.A. Soares, C.F. Wilcken, A.J.V. Zanuncio, M. Fiaz, J.C. Zanuncio, a|Exposure to Chlorantraniliprole Reduces Locomotion, Respiration, and Causes Histological Changes in the Midgut of Velvetbean Caterpillar Anticarsia gemmatalis (Lepidoptera: Noctuidae)|Chemosphere263:8 p.|2021|10.1016/j.chemosphere.2020.128008
185762|A||Zhang,H., Y. Hu, L. Yang, Z. Lin, X. Zhao, J. Chen, X. Tang, and Y. Wang|Transcriptome Aberration in Marine Microalgae Phaeodactylum tricornutum Induced by Commercial Naphthenic Acids|Environ. Pollut.268:8 p.|2021|
185763|A||Liu,S.H., X.L. Deng, X.M. Zhou, and L.Y. Bai|"Assessing the Toxicity of Three ""Inert"" Herbicide Safeners Toward Danio rerio: Effects on Embryos Development"|Ecotoxicol. Environ. Saf.207:9 p.|2021|
185764|T||Li,Y., Y. Hu, X. Ai, J. Qiu, and X. Wang|Acute and Sub-Acute Effects of Enrofloxacin on the Earthworm Species Eisenia fetida in an Artificial Soil Substrate|Eur. J. Soil Biol.66:19-23|2015|10.1016/j.ejsobi.2014.11.004
185766|A||Haselman,J.T., P.A. Kosian, J.J. Korte, A.W. Olmstead, T. Iguchi, R.D. Johnson, and S.J. Degitz|Development of the Larval Amphibian Growth and Development Assay: Effects of Chronic 4-tert-octylphenol or 17beta-Trenbolone Exposure in Xenopus laevis from Embryo to Juvenile|J. Appl. Toxicol.36(12): 1639-1650|2016|10.1002/jat.3330
185767|A||Liu,X., J. Wang, and Y.W. Huang|Quantifying the Effect of Nano-TiO2 on the Toxicity of Lead on C. dubia Using a Two-Compartment Modeling Approach|Chemosphere263:9 p.|2021|
185768|T||Liu,Y., Y. Liang, C. Yang, R. Shi, W. Lu, X. Wang, R. Wang, Q. Xia, and S. Ma|A Deep Insight into the Transcriptome of Midgut and Fat Body Reveals the Toxic Mechanism of Fluoride Exposure in Silkworm|Chemosphere262:10 p.|2021|
185769|A||Lebreton,M., S. Sire, J.L. Carayon, J.M. Malgouyres, C. Vignet, F. Geret, and E. Bonnafe|Low Concentrations of Oxazepam Induce Feeding and Molecular Changes in Radix balthica Juveniles|Aquat. Toxicol.230:10 p.|2021|10.1016/j.aquatox.2020.105694
185770|A||Matten,K.J., P.L. Gillis, D. Milani, J.L. Parrott, A.J. Bartlett, J. Toito, V.K. Balakrishnan, and R.S. Prosser|Bioaccumulation of Sediment-Associated Dinonylnaphthalene Sulfonates in the Freshwater Mussel Lampsilis siliquoidea and Oligochaete Tubifex tubifex|Chemosphere264:9 p.|2021|10.1016/j.chemosphere.2020.128391
185771|A||Meina,E.G., S. Niyogi, and K. Liber|Investigating the Mechanism of Vanadium Toxicity in Freshwater Organisms|Aquat. Toxicol.229:10 p.|2020|
185772|T||Lu,H.L., J.N. Nkoh, M.R. Biswash, H. Hua, G. Dong, J.Y. Li, and R.K. Xu|Effects of Surface Charge and Chemical Forms of Manganese(II) on Rice Roots on Manganese Absorption by Different Rice Varieties|Ecotoxicol. Environ. Saf.207:8 p.|2021|10.1016/j.ecoenv.2020.111224
185773|A||Mennillo,E., C. Pretti, F. Cappelli, G. Luci, L. Intorre, V. Meucci, and A. Arukwe|Novel Organ-Specific Effects of Ketoprofen and Its Enantiomer, Dexketoprofen on Toxicological Response Transcripts and Their Functional Products in Salmon|Aquat. Toxicol.229:10 p.|2020|10.1016/j.aquatox.2020.105677
185774|T||Li,J., L. Zheng, Y. Fan, Y. Wang, Y. Ma, D. Gu, Y. Lu, S. Zhang, X. Chen, and W. Zhang|Pear Metal Transport Protein PbMTP8.1 Confers Manganese Tolerance When Expressed in Yeast and Arabidopsis thaliana|Ecotoxicol. Environ. Saf.208:9 p. |2021|
185775|T||Luo,J., D. Ni, C. Li, Y. Du, and Y. Chen|The Relationship Between Fluoride Accumulation in Tea Plant and Changes in Leaf Cell Wall Structure and Composition Under Different Fluoride Conditions|Environ. Pollut.270:11 p.|2021|10.1016/j.envpol.2020.116283
185776|T||Li,M., P. Zhang, M. Adeel, Z. Guo, A.J. Chetwynd, C. Ma, T. Bai, Y. Hao, and Y. Rui|Physiological Impacts of Zero Valent Iron, Fe3O4 and Fe2O3 Nanoparticles in Rice Plants and Their Potential as Fe Fertilizers|Environ. Pollut.269:11 p.|2021|
185777|A||Chen,X., W. Guo, L. Lei, Y. Guo, L. Yang, J. Han, and B. Zhou|Bioconcentration and Developmental Neurotoxicity of Novel Brominated Flame Retardants, Hexabromobenzene and Pentabromobenzene in Zebrafish|Environ. Pollut.268:10 p.|2021|
185778|T||Fisher,A., G. Degrandi-Hoffman, B.H. Smith, M. Johnson, O. Kaftanoglu, T. Cogley, J.H. Fewell, and J.F. Harrison|Colony Field Test Reveals Dramatically Higher Toxicity of a Widely-Used Mito-Toxic Fungicide on Honey Bees (Apis mellifera)|Environ. Pollut.269:10 p.|2021|10.1016/j.envpol.2020.115964
185780|A||Al Shuraiqi,A., A. Al-Habsi, and M.J. Barry|Time-, Dose- and Transgenerational Effects of Fluoxetine on the Behavioural Responses of Zebrafish to a Conspecific Alarm Substance|Environ. Pollut.270:116164-116164|2021|10.1016/j.envpol.2020.116164
185781|T||Banerjee,A., A. Singh, M. Sudarshan, and A. Roychoudhury|Silicon Nanoparticle-Pulsing Mitigates Fluoride Stress in Rice by Fine-Tuning the Ionomic and Metabolomic Balance and Refining Agronomic Traits|Chemosphere262:13 p.|2021|10.1016/j.chemosphere.2020.127826
185782|A||Chai,T., F. Cui, S. Di, S. Wu, Y. Zhang, and X. Wang|New Insights into Cardiotoxicity Induced by Chiral Fluoxetine at Environmental-Level: Enantioselective Arrhythmia in Developmental Zebrafish (Danio rerio)|Environ. Pollut.270:116182-116182|2021|10.1016/j.envpol.2020.116182
185784|T||Ranjan,J., T. Mandal, and D.D. Mandal|Mechanistic Insight for DBP Induced Growth Inhibition in Vigna radiata Via Oxidative Stress and DNA Damage|Chemosphere263:13 p.|2021|10.1016/j.chemosphere.2020.128062
185785|T||Shi,W., J. Zhou, J. Li, C. Ma, Y. Zhang, S. Deng, W. Yu, and Z.B. Luo|Lead Exposure-Induced Defense Responses Result in Low Lead Translocation from the Roots to Aerial Tissues of Two Contrasting Poplar Species|Environ. Pollut.271:11 p.|2021|10.1016/j.envpol.2020.116346
185786|T||Yan,J., M. Fischel, H. Chen, M.G. Siebecker, P. Wang, F.J. Zhao, and D.L. Sparks|Cadmium Speciation and Release Kinetics in a Paddy Soil as Affected by Soil Amendments and Flooding-Draining Cycle|Environ. Pollut.268:10 p.|2021|
185787|A||Saaristo,M., J.A. Craft, S. Tyagi, C.P. Johnstone, M. Allinson, K.S. Ibrahim, and B.B.M. Wong|Transcriptome-Wide Changes Associated with the Reproductive Behaviour of Male Guppies Exposed to 17alpha-Ethinyl Estradiol|Environ. Pollut.270:10 p.|2021|10.1016/j.envpol.2020.116286
185788|T||Wang,Y., L. Jiang, M.M. Wang, and J.T. Feng|Baseline Sensitivity and Action Mechanism of the Sterol Demethylation Inhibitor Flusilazole to Valsa mali|Pestic. Biochem. Physiol.171:104722-104722|2021|10.1016/j.pestbp.2020.104722
185790|A||Wang,Z., L. Song, F. Zhang, and D.G. Wang|Comparative Acute Toxicity and Oxidative Stress Responses in Three Aquatic Species Exposed to Stannic Oxide Nanoparticles and Stannic Chloride|Bull. Environ. Contam. Toxicol.105(6): 841-846|2020|10.1007/s00128-020-03052-z
185791|A||Phelan,R.R., and T.G. Downing|The Localization of Exogenous Microcystin LR Taken up by a Non-Microcystin Producing Cyanobacterium|Toxicon89:87-90|2014|10.1016/j.toxicon.2014.07.007
185792|A||Cao,H.S., K. Lyu, F.H. Xiang, and Z. Yang|Life History Responses of Daphnia similoides Simultaneously Exposed to Microcystin-LR and Ammonia and Their Postexposure Recovery|Environ. Toxicol. Chem.33(11): 2497-2505|2014|10.1002/etc.2701
185793|A||Britto,R.S., J.A. Flores, D.D.L. Mello, C.D.C. Porto, and J.M. Monserrat|Interaction of Carbon Nanomaterial Fullerene (C-60) and Microcystin-LR in Gills of Fish Cyprinus carpio (Teleostei: Cyprinidae) Under the Incidence of Ultraviolet Radiation|Water Air Soil Pollut.226(1): 9 p.|2015|10.1007/s11270-014-2215-3
185794|A||Carneiro,M., D. Gutierrez-Praena, H. Osorio, V. Vasconcelos, A.P. Carvalho, and A. Campos|Proteomic Analysis of Anatoxin-a Acute Toxicity in Zebrafish Reveals Gender Specific Responses and Additional Mechanisms of Cell Stress|Ecotoxicol. Environ. Saf.120:93-101|2015|10.1016/j.ecoenv.2015.05.031
185795|A||Markovic,M., P.A. Neale, B. Nidumolu, and A. Kumar|Combined Toxicity of Therapeutic Pharmaceuticals to Duckweed, Lemna minor|Ecotoxicol. Environ. Saf.208:111428-111428|2021|10.1016/j.ecoenv.2020.111428
185796|A||Li,H., J. Tan, T.L. Sun, Y.J. Wang, and F.P. Meng|Acclimation of Isochrysis galbana Parke (Isochrysidaceae) for Enhancing Its Tolerance and Biodegradation to High-Level Phenol in Seawater|Ecotoxicol. Environ. Saf.207:111571-111571|2021|10.1016/j.ecoenv.2020.111571
185797|A||Meyer-Alert,H., S. Wiseman, S. Tang, M. Hecker, and H. Hollert|Identification of Molecular Toxicity Pathways Across Early Life-Stages of Zebrafish Exposed to PCB126 Using a Whole Transcriptomics Approach|Ecotoxicol. Environ. Saf.208:13 p.|2021|10.1016/j.ecoenv.2020.111716
185798|A||Li,P., and Z.H. Li|Tributyltin Induces the Tissue-Specific Stresses in Zebrafish, a Study in Various Tissues of Muscle, Gill and Intestine|Bull. Environ. Contam. Toxicol.105(6): 847-852|2020|10.1007/s00128-020-03048-9
185799|A||Luu,I., H. Ikert, and P.M. Craig|Chronic Exposure to Anthropogenic and Climate Related Stressors Alters Transcriptional Responses in the Liver of Zebrafish (Danio rerio) Across Multiple Generations|Comp. Biochem. Physiol. C Comp. Pharmacol.240:9 p.|2021|
185800|A||Luo,S.W., Z.W. Mao, Z.Y. Luo, N.X. Xiong, K.K. Luo, S.J. Liu, T. Yan, Y.M. Ding, R.R. Zhao, C. Wu, F.Z. Hu, Q.F. Liu, a|Chimeric Ferritin H in Hybrid Crucian Carp Exhibits a Similar Down-Regulation in Lipopolysaccharide-Induced NF-kappaB Inflammatory Signal in Comparison with Carassius cuvieri and Carassius auratus red var|Comp. Biochem. Physiol. C Comp. Pharmacol.241:13 p.|2021|
185801|A||Munoz-Penuela,M., F.L. Lo Nostro, A. Dal'Olio Gomes, C.E. Tolussi, G.S. Branco, J.P.S. Pinheiro, F.G.A.D. Godoi, R.G. M|Diclofenac and Caffeine Inhibit Hepatic Antioxidant Enzymes in the Freshwater Fish Astyanax altiparanae (Teleostei: Characiformes)|Comp. Biochem. Physiol. C Comp. Pharmacol.240:8 p.|2021|
185802|A||Li,Y.Q., S.S. Liu, H.L. Cheng, X.N. Chen, X. Shen, and Y.F. Cai|Dynamic Transcriptome Response in Meretrix meretrix to Aroclor 1254 Exposure|Ecotoxicol. Environ. Saf.207:10 p.|2021|
185803|A||Li,Z.H., and P. Li|Effects of the Tributyltin on the Blood Parameters, Immune Responses and Thyroid Hormone System in Zebrafish|Environ. Pollut.268:15707-115707|2021|
185804|A||Fuertes,I., and C. Barata|Characterization of Neurotransmitters and Related Metabolites in Daphnia magna Juveniles Deficient in Serotonin and Exposed to Neuroactive Chemicals That Affect Its Behavior: A Targeted LC-MS/MS Method|Chemosphere263:12 p.|2021|10.1016/j.chemosphere.2020.127814
185805|A||Chu,S., B.R. Kwon, Y.M. Lee, K.D. Zoh, and K. Choi|Effects of 2-Ethylhexyl-4-Methoxycinnamate (EHMC) on Thyroid Hormones and Genes Associated with Thyroid, Neurotoxic, and Nephrotoxic Responses in Adult and Larval Zebrafish (Danio rerio)|Chemosphere263:7 p.|2021|
185806|A||Dreier,D.A., M.Z. Nouri, N.D. Denslow, and C.J. Martyniuk|Lipidomics Reveals Multiple Stressor Effects (Temperature x Mitochondrial Toxicant) in the Zebrafish Embryo Toxicity Test|Chemosphere264:128472-128472|2021|10.1016/j.chemosphere.2020.128472
185807|A||Cuccaro,A., L. De Marchi, M. Oliva, M.V. Sanches, R. Freitas, V. Casu, G. Monni, V. Miragliotta, and C. Pretti|Sperm Quality Assessment in Ficopomatus enigmaticus (Fauvel, 1923): Effects of Selected Organic and Inorganic Chemicals Across Salinity Levels|Ecotoxicol. Environ. Saf.207:11 p.|2021|10.1016/j.ecoenv.2020.111219
185808|A||Erhunmwunse,N.O., I. Tongo, and L.I. Ezemonye|Acute Effects of Acetaminophen on the Developmental, Swimming Performance and Cardiovascular Activities of the African Catfish Embryos/Larvae (Clarias gariepinus)|Ecotoxicol. Environ. Saf.208:10 p.|2021|10.1016/j.ecoenv.2020.111482
185809|T||Porch,J.R., T.Z. Kendall, and H.O. Krueger|Tetrabromobisphenol A: A Toxicity Test to Determine the Effects of the Test Substance on Seedling Emergence of Six Species of Plants|Project 439-102, Wildlife International:127 p.|2002|
185810|AT||Gomes,A.R., T.Q. Chagas, A.M. Silva, A.S.D. Rodrigues, T.M. Da Luz, J.E.D. Vieira, and G. Malafaia|Trophic Transfer of Carbon Nanofibers among Eisenia fetida, Danio rerio and Oreochromis niloticus and Their Toxicity at Upper Trophic Level|Chemosphere263:16 p.|2021|
185812|A||Parkerton,T.F., D.J. Letinski, E.J. Febbo, J.D. Butler, C.A. Sutherland, G.E. Bragin, B.M. Hedgpeth, B.A. Kelley, A.D. |Assessing Toxicity of Hydrophobic Aliphatic and Monoaromatic Hydrocarbons at the Solubility Limit Using Novel Dosing Methods|Chemosphere265:11 p.|2021|10.1016/j.chemosphere.2020.129174
185813|A||Xin,J., S. Yan, X. Hong, H. Zhang, and J. Zha|Environmentally Relevant Concentrations of Carbamazepine Induced Lipid Metabolism Disorder of Chinese Rare Minnow (Gobiocypris rarus) in a Gender-Specific Pattern|Chemosphere265:10 p.|2021|10.1016/j.chemosphere.2020.129080
185814|A||Aharchaou,I., F. Bahloul, and C. Fortin|Competition among Trivalent Elements (Al, Eu, Fe, Gd, Nd, Tm, and Y) for Uptake in Algae and Applicability of the Biotic Ligand Model|Arch. Environ. Contam. Toxicol.:9 p.|2021|10.1007/s00244-020-00786-z
185815|A||Gillis,P.L., J. Salerno, V.L. Mckay, C.J. Bennett, K.L.K. Lemon, Q.J. Rochfort, and R.S. Prosser|Salt-Laden Winter Runoff and Freshwater Mussels; Assessing the Effect on Early Life Stages in the Laboratory and Wild Mussel Populations in Receiving Waters|Arch. Environ. Contam. Toxicol.:16 p.|2021|10.1007/s00244-020-00791-2
185816|A||Hassan-Abdi,R., A. Brenet, and N. Soussi-Yanicostas|Bixafen, a Succinate Dehydrogenase Inhibitor Fungicide, Causes Microcephaly and Motor Neuron Axon Defects During Development|Chemosphere265:26 p.|2021|10.1016/j.chemosphere.2020.128781
185817|A||Cruces,E., A.C. Barrios, Y.P. Cahue, B. Januszewski, L.M. Gilbertson, and F. Perreault|Similar Toxicity Mechanisms Between Graphene Oxide and Oxidized Multi-Walled Carbon Nanotubes in Microcystis aeruginosa|Chemosphere265:11 p.|2021|10.1016/j.chemosphere.2020.129137
185818|A||Liu,L., F.Y. Wu, C.Y. Zhu, H.Y. Zou, R.Q. Kong, Y.K. Ma, D. Su, G.Q. Song, Y. Zhang, and K.C. Liu|Involvement of Dopamine Signaling Pathway in Neurodevelopmental Toxicity Induced by Isoniazid in Zebrafish|Chemosphere265:11 p.|2021|10.1016/j.chemosphere.2020.129109
185819|A||Lee,J.Y., H. Park, W. Lim, and G. Song|Benfuresate Induces Developmental Toxicity in Zebrafish Larvae by Generating Apoptosis and Pathological Modifications|Pestic. Biochem. Physiol.172:9 p.|2021|10.1016/j.pestbp.2020.104751
185820|A||Ren,B., B. Jia, X. Zhang, J. Wang, Y. Li, H. Liang, and H.W. Liang|Influence of Multi-Walled Carbon Nanotubes on Enantioselective Bioaccumulation and Oxidative Stress Toxicity of Indoxacarb in Zebrafish (Danio rerio)|Chemosphere267:11 p.|2021|
185821|A||Cheloni,G., and V.I. Slaveykova|Morphological Plasticity in Chlamydomonas reinhardtii and Acclimation to Micropollutant Stress|Aquat. Toxicol.231:9 p.|2021|10.1016/j.aquatox.2020.105711
185822|A||Daniel,G., A.R.R. Silva, D.M.D. Abessa, and S. Loureiro|Fire Suppression Agents Combined with Gasoline in Aquatic Ecosystems: A Mixture Approach|Environ. Toxicol. Chem.40(3): 767-779|2021|10.1002/etc.4889
185823|A||Logeshwaran,P., A.K. Sivaram, A. Surapaneni, K. Kannan, R. Naidu, and M. Megharaj|Exposure to Perfluorooctanesulfonate (PFOS) but not Perfluorooctanoic Acid (PFOA) at ppb Concentration Induces Chronic Toxicity in Daphnia carinata|Sci. Total Environ.769:8 p.|2021|10.1016/j.scitotenv.2020.144577
185824|T||Josan,A., and G. Singh|Sublethal Effects of Lufenuron on the Diamondback Moth, Plutella xylostella (Linnaeus)|Insect Sci. Appl.20(4): 303-308|2000|
185825|A||Roy,B., P.K. Suresh, N. Chandrasekaran, and A. Mukherjee|Antibiotic Tetracycline Enhanced the Toxic Potential of Photo Catalytically Active P25 Titanium Dioxide Nanoparticles Towards Freshwater Algae Scenedesmus obliquus|Chemosphere267:11 p.|2021|10.1016/j.chemosphere.2020.128923
185826|A||Peng,J., J. Guo, Y. Lei, J. Mo, H. Sun, and J. Song|Integrative Analyses of Transcriptomics and Metabolomics in Raphidocelis subcapitata Treated with Clarithromycin|Chemosphere266:12 p.|2021|
185827|A||Addison,E.L., K.T. Gerlach, C.D. Spellman, G. Santilli, A.R. Fairbrother, Z. Shepard, J.D. Dudle, and J.E. Goodwill|Physicochemical Implications of Cyanobacteria Oxidation with Fe(VI)|Chemosphere266:10 p.|2021|10.1016/j.chemosphere.2020.128956
185828|A||Eagles,E.J., R. Benstead, S. Macdonald, R.D. Handy, and T.H. Hutchinson|Environmental Risks to Freshwater Organisms from the Mycotoxins Deoxynivalenol and Zearalenone Using Species Sensitivity Distributions|Chemosphere267:10 p.|2021|10.1016/j.chemosphere.2020.129279
185829|A||Franco-Belussi,L., M. Jones-Costa, R.F. Salla, B.F.S. Souza, F.A. Pinto-Vidal, C.R. Oliveira, E.C.M. Silva-Zacarin, F.C|Hepatotoxicity of the Anionic Surfactant Linear Alkylbenzene Sulphonate (LAS) in Bullfrog Tadpoles|Chemosphere266:10 p.|2021|10.1016/j.chemosphere.2020.129014
185830|A||Xu,X., T. Chen, A. Xie, X. Yang, and X. Wei|Chronic Effects of Bromate on Sexual Reproduction of Freshwater Rotifer Brachionus calyciflorus|Bull. Environ. Contam. Toxicol.106(2): 270-277|2021|10.1007/s00128-021-03103-z
185831|A||Zhang,Y., P. Guo, M. Wang, Y. Wu, Y. Sun, H. Su, and J. Deng|Mixture Toxicity Effects of Chloramphenicol, Thiamphenicol, Florfenicol in Daphnia magna under Different Temperatures|Ecotoxicology30(1): 31-42|2021|10.1007/s10646-020-02311-3
185832|T||Shah,S., M. Ma, A. Ali, M. Kaya, X.G. Li, G. Wu, and F.L. Yang|Effects of Diallyl Trisulfide, an Active Substance from Garlic Essential Oil, on Structural Chemistry of Chitin in Sitotroga cerealella (Lepidoptera: Gelechiidae)|Pestic. Biochem. Physiol.172:6 p.|2021|10.1016/j.pestbp.2020.104765
185833|T||Li,Y.F., H. Sun, H. Yasoob, Z. Tian, Y. Li, R. Li, S. Zheng, J. Liu, and Y. Zhang|Biogenetic Cantharidin Is a Promising Leading Compound to Manage Insecticide Resistance of Mythimna separata (Lepidoptera: Noctuidae)|Pestic. Biochem. Physiol.172:7 p.|2021|
185834|A||Prosser,R.S., J.L. Parrott, M. Galicia, K. Shires, C. Sullivan, J. Toito, A.J. Bartlett, D. Milani, P.L. Gillis, and V.|Toxicity of Sediment-Associated Substituted Phenylamine Antioxidants on the Early Life Stages of Pimephales promelas and a Characterization of Effects on Freshwater Organisms|Environ. Toxicol. Chem.36(10): 2730-2738|2017|10.1002/etc.3828
185835|A||Prosser,R.S., P.L. Gillis, E.A.M. Holman, D. Schissler, H. Ikert, J. Toito, E. Gilroy, S. Campbell, A.J. Bartlett, D. M|Effect of Substituted Phenylamine Antioxidants on Three Life Stages of the Freshwater Mussel Lampsilis siliquoidea|Environ. Pollut.229:281-289|2017|10.1016/j.envpol.2017.05.086
185836|T||Vitkalova,I.Y., A.P. Gureev, E.A. Shaforostova, O.N. Boyko, A.U. Igamberdiev, and V.N. Popov|The Effect of Pesticides on the mtDNA Integrity and Bioenergetic Properties of Potato Mitochondria|Pestic. Biochem. Physiol.172:11 p.|2021|10.1016/j.pestbp.2020.104764
185837|T||Kalsi,M., A. Walter, B. Lee, A. Delaat, R.R. Trigueros, K. Happel, R. Sepesy, B. Nguyen, P.K. Manwill, L.H. Rakotondrai|Stop the Crop: Insights into the Insecticidal Mode of Action of Cinnamodial Against Mosquitoes|Pestic. Biochem. Physiol.171:8 p.|2021|10.1016/j.pestbp.2020.104743
185838|T||Kujur,A., A. Kumar, and B. Prakash|Elucidation of Antifungal and Aflatoxin B1 Inhibitory Mode of Action of Eugenia caryophyllata L. Essential Oil Loaded Chitosan Nanomatrix Against Aspergillus flavus|Pestic. Biochem. Physiol.172:12 p.|2021|10.1016/j.pestbp.2020.104755
185839|T||Gao,K., B. Li, R.Z. Chen, P.K. Qian, J.W. Dong, C.Y. Xue, X.J. Guo, and X.Y. Deng|A Feasibility Study of Using Silkworm Larvae as a Novel in Vivo Model to Evaluate the Biotoxicity of Ionic Liquids|Ecotoxicol. Environ. Saf.209:10 p.|2021|
185840|A||Miranda,F.R., K.M. Fernandes, R.C. Bernardes, and G.F. Martins|Biological, Histological and Immunohistochemical Studies on the Toxicity of Spent Coffee Grounds and Caffeine on the Larvae of Aedes aegypti (Diptera: Culicidae)|Environ. Pollut.271:11 p.|2021|10.1016/j.envpol.2020.116307
185841|T||Mushtaq,Z., H.N. Asghar, and Z.A. Zahir|Comparative Growth Analysis of Okra (Abelmoschus esculentus) in the Presence of PGPR and Press Mud in Chromium Contaminated Soil|Chemosphere262:127865-127865|2021|10.1016/j.chemosphere.2020.127865
185842|A||Gabe,H.B., A.D.S. Guerreiro, and J.Z. Sandrini|Molecular and Biochemical Effects of the Antifouling DCOIT in the Mussel Perna perna|Comp. Biochem. Physiol. C Comp. Pharmacol.239:8 p.|2021|
185843|T||Colson,T.L.L., S.R. De Solla, V.K. Balakrishnan, J. Toito, and V.S. Langlois|N-Phenyl-1-Naphthylamine (PNA) Accumulates in Snapping Turtle (Chelydra serpentina) Liver Activating the Detoxification Pathway|Bull. Environ. Contam. Toxicol.105(6): 813-818|2020|10.1007/s00128-020-03043-0
185844|T||Colson,T.L.L., S.R. De Solla, and V.S. Langlois|Bioaccumulation and Physiological Responses of the Turtle Chelydra serpentina Exposed to Polychlorinated Biphenyls During Early Life Stages|Chemosphere263:9 p.|2021|10.1016/j.chemosphere.2020.128146
185845|A||Dubreil,E., M. Laurentie, J.M. Delmas, M. Danion, T. Morin, D. Hurtaud-Pessel, A. Viel, P. Sanders, and E. Verdon|Tissue Distribution, Metabolism, and Elimination of Victoria Pure Blue BO in Rainbow Trout: Main Metabolite as an Appropriate Residue Marker|Chemosphere262:12 p.|2021|10.1016/j.chemosphere.2020.127636
185848|T||Elsherbiny,E.A., D.H. Dawood, and N.A. Safwat|Antifungal Action and Induction of Resistance By beta-Aminobutyric Acid Against Penicillium digitatum to Control Green Mold in Orange Fruit|Pestic. Biochem. Physiol.171:9 p.|2021|10.1016/j.pestbp.2020.104721
185849|T||Li,J.H., Y. Wang, Y.P. Wu, R.H. Li, S. Liang, J. Zhang, Y.G. Zhu, and B.J. Xie|Synthesis, Herbicidal Activity Study and Molecular Docking of Novel Pyrimidine Thiourea|Pestic. Biochem. Physiol.172:8 p.|2021|
185850|T||Liu,X., Y. Lv, S. Gao, and K. Xu|Ofloxacin Induces Etiolation in Welsh Onion Leaves|Chemosphere267:8 p.|2021|
185851|T||Barreales-Suarez,S., S. Azoulay, M.A. Bello-Lopez, and R. Fernandez-Torres|Uptake Study in Juncus sp. and Salicornia europaea of Six Pharmaceuticals by Liquid Chromatography Quadrupole Time-of-Flight Mass Spectrometry|Chemosphere266:9 p.|2021|10.1016/j.chemosphere.2020.128995
185852|T||Brito,P., R.A. Ferreira, S. Martins-Dias, O.M. Azevedo, M. Caetano, and I. Cacador|Cerium Uptake, Translocation and Toxicity in the Salt Marsh Halophyte Halimione portulacoides (L.), Aellen|Chemosphere266:11 p.|2021|10.1016/j.chemosphere.2020.128973
185853|T||Zhang,X., W. Hu, X. Xie, Y. Wu, M. Tang, and F. Liang|Arbuscular Mycorrhizal Fungi Promote Lead Immobilization by Increasing the Polysaccharide Content Within Pectin and Inducing Cell Wall Peroxidase Activity|Chemosphere267:8 p.|2021|
185854|T||WFO|A Project of the World Flora Online Consortium|http://www.worldfloraonline.org:|2021|
185855|T||Brodie,B.B., and P.D. Dukes|The Relationship Between Tobacco Yield and Time of Infection with Meloidogyne javanica|J. Nematol.4(2): 80-83|1971|
185856|T||Mankau,R., and J. Imbriani|Tolerance and Uptake of 1,2-Dibromoethane by Nematode-Trapping Fungi|Phytopathology61:1492-1497|1971|10.1094/Phyto-61-1492
185857|A||Liu,Z.D., D.P. Li, Y. Wang, W. Guo, Y. Gao, and R. Tang|Waterborne Exposure to Microcystin-LR Causes Thyroid Hormone Metabolism Disturbances in Juvenile Chinese Rare Minnow (Gobiocypris rarus)|Environ. Toxicol. Chem.34(9): 2033-2040|2015|10.1002/etc.3024
185859|T||Ates,M.B., and M. Ortatatli|Phase-1 Bioactivation Mechanisms of Aflatoxin Through AhR, CAR and PXR Nuclear Receptors and the Interactions with Nigella sativa Seeds and Thymoquinone in Broilers|Ecotoxicol. Environ. Saf.208:14 p.|2021|10.1016/j.ecoenv.2020.111774
185860|T||Wang,Q., J.Y. Wen, J.X. Zheng, J.Q. Zhao, C.S. Qiu, D. Xiao, L. Mu, and X.W. Liu|Arsenate Phytotoxicity Regulation by Humic Acid and Related Metabolic Mechanisms|Ecotoxicol. Environ. Saf.207:8 p.|2021|
185861|T||Zandvakili,O.R., M. Hashemi, M.R. Chaichi, A.V. Barker, R.K. Afshar, H.R. Mashhadi, M. Oveysi, and M. Sabet|Role of Cover Crops and Nicosulfuron Dosage on Weed Control and Productivity in Corn Crop|Weed Sci.68(6): 664-672|2020|10.1017/wsc.2020.71
185863|A||Gao,X.G., X.X. Liu, X.H. Song, P. Teng, H. Ji, L. Peng, Y.W. Qiu, D.W. Guo, and S.X. Jiang|Effect of Maduramicin on Crayfish (Procambarus clarkii): Hematological Parameters, Oxidative Stress, Histopathological Changes and Stress Response|Ecotoxicol. Environ. Saf.211:12 p.|2021|10.1016/j.ecoenv.2021.111896
185864|T||Boff,S., R. Scheiner, J. Raizer, and D. Lupi|Survival Rate and Changes in Foraging Performances of Solitary Bees Exposed to a Novel Insecticide|Ecotoxicol. Environ. Saf.211:7 p.|2021|10.1016/j.ecoenv.2020.111869
185865|T||Goodchild,C.G., M.L. Beck, I. VanDiest, F.N. Czesak, S.J. Lane, and K.B. Sewall|Male Zebra Finches Exposed to Lead (Pb) During Development Have Reduced Volume of Song Nuclei, Altered Sexual Traits, and Received Less Attention from Females as Adults|Ecotoxicol. Environ. Saf.210:11 p.|2021|10.1016/j.ecoenv.2020.111850
185867|T||Zhuang,J.H., G.H. Nie, R.M. Hu, C. Wang, C.H. Xing, G.Y. Li, G.L. Hu, F. Yang, and C.Y. Zhang|Inhibition of Autophagy Aggravates Molybdenum-Induced Mitochondrial Dysfunction by Aggravating Oxidative Stress in Duck Renal Tubular Epithelial Cells|Ecotoxicol. Environ. Saf.209:11 p.|2021|10.1016/j.ecoenv.2020.111771
185868|A||Kim,H., H. Wang, and J.S. Ki|Chloroacetanilides Inhibit Photosynthesis and Disrupt the Thylakoid Membranes of the Dinoflagellate Prorocentrum minimum as Revealed with Metazachlor Treatment|Ecotoxicol. Environ. Saf.211:111928-111928|2021|10.1016/j.ecoenv.2021.111928
185869|T||Fogliatto,S., L. Patrucco, M. Milan, and F. Vidotto|Sensitivity to Salinity at the Emergence and Seedling Stages of Barnyardgrass (Echinochloa crus-galli), Weedy Rice (Oryza sativa), and Rice with Different Tolerances to ALS-Inhibiting Herbicides|Weed Sci.69(1): 39-51|2021|10.1017/wsc.2020.72
185870|A||Faassen,E.J., M. Garcia-Altares, M.M.E. Mello, and M. Lurling|Trans Generational Effects of the Neurotoxin BMAA on the Aquatic Grazer Daphnia magna|Aquat. Toxicol.168:98-107|2015|10.1016/j.aquatox.2015.09.018
185871|T||Han,C.X., H. Shao, S.X. Zhou, Y. Mei, Z.R. Cheng, L. Huang, and G.H. Lv|Chemical Composition and Phytotoxicity of Essential Oil from Invasive Plant, Ambrosia artemisiifolia L|Ecotoxicol. Environ. Saf.211:9 p.|2021|10.1016/j.ecoenv.2020.111879
185872|T||Li,X.Y., N. Xiao, and Y.H. Zhang|Toxic Effects of Octylphenol on the Expression of Genes in Liver Identified by Suppression Subtractive Hybridization of Rana chensinensis|Ecotoxicology23:1-10|2014|10.1007/s10646-013-1144-z
185873|A||Joachim,S., R. Beaudouin, G. Daniele, A. Geffard, A. Bado-Nilles, C. Tebby, O. Palluel, O. Dedourge-Geffard, M. Fieu, M|Effects of Diclofenac on Sentinel Species and Aquatic Communities in Semi-Natural Conditions|Ecotoxicol. Environ. Saf.211:15 p.|2021|10.1016/j.ecoenv.2020.111812
185874|A||Zhang,C.N., J.H. Wang, Q. Qi, L. Yang, P. Sun, and X.Y. Yuan|Modulatory Effect of Fructooligosaccharide against Triphenyltin-Induced Oxidative Stress and Immune Suppression in Goldfish (Carassius auratus)|Ecotoxicol. Environ. Saf.212:10 p.|2021|
185875|A||Contardo-Jara,V., S. Kuehn, and S. Pflugmacher|Single and Combined Exposure to MC-LR and BMAA Confirm Suitability of Aegagropila linnaei for Use in Green Liver Systems(Registered) - a Case Study with Cyanobacterial Toxins|Aquat. Toxicol.165:101-108|2015|10.1016/j.aquatox.2015.05.017
185876|A||Esterhuizen-Londt,M., S. Kuhn, and S. Pflugmacher|Development and Validation of an In-House Quantitative Analysis Method for Cylindrospermopsin Using Hydrophilic Interaction Liquid Chromatography-Tandem Mass Spectrometry: Quantification Demonstrated in 4 Aquatic Organi|Environ. Toxicol. Chem.34(12): 2878-2883|2015|10.1002/etc.3138
185877|A||Faltermann,S., V. Grundler, K. Gademann, J. Pernthaler, and K. Fent|Comparative Effects of Nodularin and Microcystin-LR in Zebrafish: 2. Uptake and Molecular Effects in Eleuthero-Embryos and Adult Liver with Focus on Endoplasmic Reticulum Stress|Aquat. Toxicol.171:77-87|2016|10.1016/j.aquatox.2015.12.001
185878|A||Faltermann,S., R. Pretot, J. Pernthaler, and K. Fent|Comparative Effects of Nodularin and Microcystin-LR in Zebrafish: 1. Uptake by Organic Anion Transporting Polypeptide Oatp1d1 (Slco1d1)|Aquat. Toxicol.171:69-76|2016|10.1016/j.aquatox.2015.11.016
185879|A||Somdee,T., B. Thathong, and A. Somdee|The Removal of Cyanobacterial Hepatotoxin [DHA(7)] Microcystin-LR via Bioaccumulation in Water Lettuce (Pistia stratiotes L.)|Bull. Environ. Contam. Toxicol.96(3): 388-394|2016|10.1007/s00128-015-1715-1
185880|A||Iwinski,K.J., A.J. Calomeni, T.D. Geer, and J.H.,Jr. Rodgers|Cellular and Aqueous Microcystin-LR Following Laboratory Exposures of Microcystis aeruginosa to Copper Algaecides|Chemosphere147:74-81|2016|10.1016/j.chemosphere.2015.12.070
185881|A||Hou,J., L. Li, N. Wu, Y.J. Su, W. Lin, G.Y. Li, and Z.M. Gu|Reproduction Impairment and Endocrine Disruption in Female Zebrafish After Long-Term Exposure to MC-LR:  A Life Cycle Assessment|Environ. Pollut.208:477-485|2016|10.1016/j.envpol.2015.10.018
185882|A||Su,Y.J., L. Li, J. Hou, N. Wu, W. Lin, and G.Y. Li|Life-Cycle Exposure to Microcystin-LR Interferes with the Reproductive Endocrine System of Male Zebrafish|Aquat. Toxicol.175:205-212|2016|10.1016/j.aquatox.2016.03.018
185883|A||Pinheiro,C., J. Azevedo, A. Campos, V. Vasconcelos, and S. Loureiro|The Interactive Effects of Microcystin-LR and Cylindrospermopsin on the Growth Rate of the Freshwater Algae Chlorella vulgaris|Ecotoxicology25(4): 745-758|2016|10.1007/s10646-016-1633-y
185885|A||Qi,M., Y. Dang, Q.L. Xu, L.Q. Yu, C.S. Liu, Y.C. Yuan, and J.H. Wang|Microcystin-LR Induced Developmental Toxicity and Apoptosis in Zebrafish (Danio rerio) Larvae by Activation of ER Stress Response|Chemosphere157:166-173|2016|10.1016/j.chemosphere.2016.05.038
185886|T||Han,X.Y., Y.P. Xi, Z.Z. Zhang, M.A. Mohammadi, J. Joshi, T. Borza, and G. Wang-Pruski|Effects of Phosphite as a Plant Biostimulant on Metabolism and Stress Response for Better Plant Performance in Solanum tuberosum|Ecotoxicol. Environ. Saf.210:13 p.|2021|
185887|A||Marqueno,A., C. Flores, M. Casado, and C. Porte|Dysregulation of Lipid Metabolism in PLHC-1 and ZFL Cells Exposed to Tributyltin an All-Trans Retinoic Acid|Aquat. Toxicol.231:9 p.|2021|10.1016/j.aquatox.2020.105733
185888|A||Palmer,S.J., R.L. Van Hoven, and H.O. Krueger|Perfluorooctanesulfonate, Potassium Salt (PFOS): A 96-Hr. Static Renewal Acute Toxicity Test with the Sheepshead Minnow (Cyprinodon variegatus)|Report 454A-146A, Wildlife International Ltd., Easton, MD:46 p.|2002|
185889|A||Wu,Q., W. Yan, C.S. Liu, L. Li, L.Q. Yu, S.J. Zhao, and G.Y. Li|Microcystin-LR Exposure Induces Developmental Neurotoxicity in Zebrafish Embryo|Environ. Pollut.213:793-800|2016|10.1016/j.envpol.2016.03.048
185890|A||Mayasich,S.A., J.J. Korte, J.S. Denny, P.C. Hartig, J.H. Olker, P. DeGoey, J. O'Flanagan, S.J. Degitz, and M.W. Hornung|Xenopus laevis and Human Type 3 Iodothyronine Deiodinase Enzyme Cross-Species Sensitivity to Inhibition by ToxCast Chemicals|Toxicol. In Vitro73:15 p.|2021|10.1016/j.tiv.2021.105141
185891|A||Yuan,J.L., Z.M. Gu, Y. Zheng, Y.Y. Zhang, J.C. Gao, S. Chen, and Z.Z. Wang|Accumulation and Detoxification Dynamics of Microcystin-LR and Antioxidant Responses in Male Red Swamp Crayfish Procambarus clarkii|Aquat. Toxicol.177:8-18|2016|10.1016/j.aquatox.2016.05.004
185892|A||Bieczynski,F., W.D.C. Torres, J.C. Painefilu, J.M. Castro, V.A. Bianchi, J.L. Frontera, D.A. Paz, C. Gonzalez, A. Marti|Alterations in the Intestine of Patagonian Silverside (Odontesthes hatcheri) Exposed to Microcystin-LR: Changes in the Glycosylation Pattern of the Intestinal Wall and Inhibition of Multidrug Resistance Proteins Efflux |Aquat. Toxicol.178:106-117|2016|10.1016/j.aquatox.2016.07.016
185893|A||Wozny,M., B. Lewczuk, N. Ziolkowska, P. Gomulka, S. Dobosz, A. Lakomiak, M. Florczyk, and P. Brzuzan|Intraperitoneal Exposure of Whitefish to Microcystin-LR Induces Rapid Liver Injury Followed by Regeneration and Resilience to Subsequent Exposures|Toxicol. Appl. Pharmacol.313:68-87|2016|10.1016/j.taap.2016.10.014
185894|T||Cao,Q., A.D. Steinman, L. Yao, and L. Xie|Increment of Root Membrane Permeability Caused by Microcystins Result in More Elements Uptake in Rice (Oryza sativa)|Ecotoxicol. Environ. Saf.145:431-435|2017|10.1016/j.ecoenv.2017.07.066
185895|A||Chen,L., Y.F. Hu, J. He, J. Chen, J.P. Giesy, and P. Xie|Responses of the Proteome and Metabolome in Livers of Zebrafish Exposed Chronically to Environmentally Relevant Concentrations of Microcystin-LR|Environ. Sci. Technol.51(1): 596-607|2017|10.1021/acs.est.6b03990
185896|A||Xiang,X.L., Y.Y. Chen, Q.L. Xu, L.Y. Zhu, X.L. Wen, and Y.L. Xi|Combined Effects of Temperature and the Microcystin MC-LR on the Feeding Behavior of the Rotifer Brachionus calyciflorus|Bull. Environ. Contam. Toxicol.99(4): 493-499|2017|10.1007/s00128-017-2172-9
185897|A||Chen,Y., X. Huang, J. Wang, and C. Li|Effect of Pure Microcystin-LR on Activity and Transcript Level of Immune-Related Enzymes in the White Shrimp (Litopenaeus vannamei)|Ecotoxicology26(5): 702-710|2017|10.1007/s10646-017-1802-7
185898|A||Dai,G., N. Peng, J. Zhong, P. Yang, B. Zou, H. Chen, Q. Lou, Y. Fang, and W. Zhang|Effect of Metals on Microcystin Abundance and Environmental Fate|Environ. Pollut.226:154-162|2017|10.1016/j.envpol.2017.04.013
185899|A||Cheng,H.C., W. Yan, Q. Wu, C.S. Liu, X.Y. Gong, T.C. Hung, and G.Y. Li|Parental Exposure to Microcystin-LR Induced Thyroid Endocrine Disruption in Zebrafish Offspring, a Transgenerational Toxicity|Environ. Pollut.230:981-988|2017|10.1016/j.envpol.2017.07.061
185901|A||Wu,Q., W. Yan, H.C. Cheng, C.S. Liu, T.C. Hung, X.C. Guo, and G.Y. Li|Parental Transfer of Microcystin-LR Induced Transgenerational Effects of Developmental Neurotoxicity in Zebrafish Offspring|Environ. Pollut.231:471-478|2017|10.1016/j.envpol.2017.08.038
185902|A||Liang,Y., X. Lu, Y. Min, L. Liu, and J. Yang|Interactive Effects of Microcystin and Ammonia on the Reproductive Performance and Phenotypic Traits of the Rotifer Brachionus calyciflorus|Ecotoxicol. Environ. Saf.147:413-422|2018|10.1016/j.ecoenv.2017.08.070
185903|T||Andersson,M., O. Karlsson, and I. Brandt|The Environmental Neurotoxin beta-N-Methylamino-l-Alanine (l-BMAA) is Deposited into Birds' Eggs|Ecotoxicol. Environ. Saf.147:720-724|2018|10.1016/j.ecoenv.2017.09.032
185904|A||Min,B.H., Y. Ravikumar, D.H. Lee, K.S. Choi, B.M. Kim, and J.S. Rhee|Age-Dependent Antioxidant Responses to the Bioconcentration of Microcystin-LR in the Mysid Crustacean, Neomysis awatschensis|Environ. Pollut.232:284-292|2018|10.1016/j.envpol.2017.09.050
185905|T||Cao,Q., R.R. Rediske, L. Yao, and L. Xie|Effect of Microcystins on Root Growth, Oxidative Response, and Exudation of Rice (Oryza sativa)|Ecotoxicol. Environ. Saf.149:143-149|2018|10.1016/j.ecoenv.2017.11.020
185906|A||Hou,J., Y.J. Su, W. Lin, H.H. Guo, L. Li, D.M. Anderson, D.P. Li, R. Tang, W. Chi, and X. Zhang|Estrogenic Potency of MC-LR is Induced via Stimulating Steroidogenesis: In Vitro and In Vivo Evidence|Environ. Pollut.240:615-622|2018|10.1016/j.envpol.2018.04.140
185907|T||Wang,N.Y., and C. Wang|Effects of Microcystin-LR on the Tissue Growth and Physiological Responses of the Aquatic Plant Iris pseudacorus L.|Aquat. Toxicol.200:197-205|2018|10.1016/j.aquatox.2018.04.019
185908|A||Chen,L., Y. Wang, J.P. Giesy, F. Chen, T. Shi, J. Chen, and P. Xie|Microcystin-LR Affects the Hypothalamic-Pituitary-Inter-Renal (HPI) Axis in Early Life Stages (Embryos and Larvae) of Zebrafish|Environ. Pollut.241:540-548|2018|10.1016/j.envpol.2018.05.024
185911|A||Azevedo-Linhares,M., A.T.C. Souza, C.A. Lenz, N.F. Leite, I.A. Brito, N.M.T. Folle, J.E. Garcia, F. Filipak Neto, and C|Microcystin and Pyriproxyfen are Toxic to Early Stages of Development in Rhamdia quelen: An Experimental and Modelling Study|Ecotoxicol. Environ. Saf.166:311-319|2018|10.1016/j.ecoenv.2018.09.064
185912|T||Pamplona-Silva,M.T., L.C. Goncalves, and M.A. Marin-Morales|Genetic Toxicity of Water Contaminated by Microcystins Collected During a Cyanobacteria Bloom|Ecotoxicol. Environ. Saf.166:223-230|2018|10.1016/j.ecoenv.2018.09.090
185913|A||Zhao,S.J., Y. Liu, F. Wang, D.X. Xu, and P. Xie|N-Acetylcysteine Protects Against Microcystin-LR-Induced Endoplasmic Reticulum Stress and Germ Cell Apoptosis in Zebrafish Testes|Chemosphere204:463-473|2018|10.1016/j.chemosphere.2018.04.020
185914|T||Cao,Q., A.D. Steinman, X. Wan, and L.Q. Xie|Combined Toxicity of Microcystin-LR and Copper on Lettuce (Lactuca sativa L.)|Chemosphere206:474-482|2018|10.1016/j.chemosphere.2018.05.051
185915|AT||Zhou,Z.Y., X.X. Tang, H.M. Chen, and Y. Wang|Comparative Studies of Saxitoxin (STX) -Induced Cytotoxicity in Neuro-2a and RTG-2 Cell Lines: An Explanation with Respect to Changes in ROS|Chemosphere192:66-74|2018|10.1016/j.chemosphere.2017.10.083
185916|A||Wang,Z., G. Li, Q. Wu, C. Liu, J. Shen, and W. Yan|Microcystin-LR Exposure Induced Nephrotoxicity by Triggering Apoptosis in Female Zebrafish|Chemosphere214:598-605|2019|10.1016/j.chemosphere.2018.09.103
185917|A||Wang,Q., Y. Liu, J. Guo, S. Lin, Y. Wang, T. Yin, H. Gregersen, T. Hu, and G. Wang|Microcystin-LR Induces Angiodysplasia and Vascular Dysfunction through Promoting Cell Apoptosis by the Mitochondrial Signaling Pathway|Chemosphere218:438-448|2019|10.1016/j.chemosphere.2018.11.019
185918|A||Calado,S.L.D.M., M. Vicentini, G.S. Santos, A. Pelanda, H. Santos, L.A. Coral, V.D.F. Magalhaes, M. Mela, M.M. Cestari,|Sublethal Effects of Microcystin-LR in the Exposure and Depuration Time in a Neotropical Fish: Multibiomarker Approach|Ecotoxicol. Environ. Saf.183:109527-109527|2019|10.1016/j.ecoenv.2019.109527
185919|T||Cao,Q., W. Liu, W. Jiang, X. Shu, and L. Xie|Glutathione Biosynthesis Plays an Important Role in Microcystin-LR Depuration in Lettuce and Spinach|Environ. Pollut.253:599-605|2019|10.1016/j.envpol.2019.07.064
185920|A||Cao,Q., X. Wan, X.B. Shu, and L.Q. Xie|Bioaccumulation and Detoxication of Microcystin-LR in Three Submerged Macrophytes: The Important Role of Glutathione Biosynthesis|Chemosphere225:935-942|2019|10.1016/j.chemosphere.2019.03.055
185921|T||Chen,G.Y., Q.S. Li, M.X. Bai, and Y. Chen|Nitrogen Metabolism in Acorus calamus L. Leaves Induced Changes in Response to Microcystin-LR at Environmentally Relevant Concentrations|Bull. Environ. Contam. Toxicol.103(2): 280-285|2019|10.1007/s00128-019-02597-y
185922|A||Gene,S.M., R.S. Shahmohamadloo, X. Ortiz, and R.S. Prosser|Effect of Microcystis aeruginosa-Associated Microcystin-LR on the Survival of 2 Life Stages of Freshwater Mussel (Lampsilis siliquoidea)|Environ. Toxicol. Chem.38(10): 2137-2144|2019|10.1002/etc.4527
185923|A||Li,X., J. Li, F. Meng, and L. Yao|Hepatotoxicity and Immunotoxicity of MC-LR on Silver Carp|Ecotoxicol. Environ. Saf.169:28-32|2019|10.1016/j.ecoenv.2018.10.110
185924|T||Li,B., S.S. Yu, G. Li, X. Chen, M. Huang, X.W. Liao, H.X. Li, F. Hu, and J. Wu|Transfer of a Cyanobacterial Neurotoxin, beta-Methylamino-L-Alanine from Soil to Crop and Its Bioaccumulation in Chinese Cabbage|Chemosphere219:997-1001|2019|10.1016/j.chemosphere.2018.12.104
185925|A||Martins,N.D., J.S. Yunes, D.J. Mckenzie, F.T. Rantin, A.L. Kalinin, and D.A. Monteiro|Microcystin-LR Exposure Causes Cardiorespiratory Impairments and Tissue Oxidative Damage in Trahira, Hoplias malabaricus|Ecotoxicol. Environ. Saf.173:436-443|2019|10.1016/j.ecoenv.2019.02.053
185926|A||Khadgi,N., and A.R. Upreti|Photocatalytic Degradation of Microcystin-LR by Visible Light Active and Magnetic, ZnFe2O4-Ag/rGO Nanocomposite and Toxicity Assessment of the Intermediates|Chemosphere221:441-451|2019|10.1016/j.chemosphere.2019.01.046
185927|A||Zhang,Y.Y., H. Zhuang, H. Yang, W. Xue, L.F. Wang, and W.Z. Wei|Microcystin-LR Disturbs Testicular Development of Giant Freshwater Prawn Macrobrachium rosenbergii|Chemosphere222:584-592|2019|10.1016/j.chemosphere.2019.01.146
185928|A||Lu,X., J. Tian, H. Wen, M. Jiang, W. Liu, F. Wu, L.J. Yu, and S. Zhong|Microcystin-LR-Regulated Transcriptome Dynamics in ZFL Cells|Aquat. Toxicol.212:222-232|2019|10.1016/j.aquatox.2019.04.018
185929|T||Peuthert,A., and S. Pflugmacher|Influence of the Cyanotoxin Microcystin-LR on Tocopherol in Alfalfa Seedlings (Medicago sativa)|Toxicon56(3): 411-417|2010|10.1016/j.toxicon.2010.04.004
185930|A||Kawan,A., T. Zhang, W. Liu, H. Mukhtar, C. Zhan, and X. Zhang|Recovery of Reproductive Function of Female Zebrafish from the Toxic Effects of Microcystin-LR Exposure|Aquat. Toxicol.214:11 p.|2019|10.1016/j.aquatox.2019.105240
185931|A||Malanga,G., L. Giannuzzi, and M. Hernando|The Possible Role of Microcystin (D-Leu1 MC-LR) as an Antioxidant on Microcystis aeruginosa (Cyanophyceae). In Vitro and In Vivo Evidence|Comp. Biochem. Physiol. C Toxicol. Pharmacol.225:108575-108575|2019|10.1016/j.cbpc.2019.108575
185932|A||Painefilu,J.C., M.M. Pascual, F. Bieczynski, C. Laspoumaderes, C. Gonzslez, S.S.M. Villanueva, and C.M. Luquet|Ex Vivo and in Vivo Effects of Arsenite on GST and ABCC2 Activity and Expression in the Middle Intestine of the Rainbow Trout Oncorhynchus mykiss|Comp. Biochem. Physiol. C Toxicol. Pharmacol.225:108566-108566|2019|10.1016/j.cbpc.2019.108566
185933|A||Liu,W., C. Zhan, T. Zhang, and X. Zhang|Microcystin-LR Influences the In Vitro Oocyte Maturation of Zebrafish by Activating the MAPK Pathway|Aquat. Toxicol.215:105261-105261|2019|10.1016/j.aquatox.2019.105261
185934|T||Qu,M., A. Nida, Y. Kong, H.H. Du, G.S. Xiao, and D.Y. Wang|Nanopolystyrene at Predicted Environmental Concentration Enhances Microcystin-LR Toxicity by Inducing Intestinal Damage in Caenorhabditis elegans|Ecotoxicol. Environ. Saf.183:8 p.|2019|10.1016/j.ecoenv.2019.109568
185935|A||Wan,X., A.D. Steinman, X.B. Shu, Q. Cao, L. Yao, and L.Q. Xie|Combined Toxic Effects of Microcystin-LR and Phenanthrene on Growth and Antioxidant System of Duckweed (Lemna gibba L.)|Ecotoxicol. Environ. Saf.185:109668-109668|2019|10.1016/j.ecoenv.2019.109668
185936|A||Wildlife International Ltd.|Perfluorobutane Sulfonate, Potassium Salt: (PFBS): A 48-Hour Static Acute Toxicity Test with the Cladoceran (Daphnia magna)|Wildlife International Ltd., Project No. 454A-118A:42 p.|2001|
185937|A||Wildlife International Ltd.|Perfluorobutane Sulfonate, Potassium Salt (PFBS): A 96-Hour Static Acute Toxicity Test with the Fathead Minnow (Pimephales promelas)|Wildlife International Ltd., Project No. 454A-115:42 p.|2001|
185938|A||Drottar,K.R., and H.O. Krueger|Perfluoro Butane Sulfonate, Potassium Salt (PFBS): A 96-Hour Static Acute Toxicity Test with Bluegill (Lepomis macrochirus)|Project 454A-114, Wildlife International Ltd.:43 p.|2001|
185939|A||Wildlife International Ltd.|PFBS: A 96-Hour Toxicity Test with the Saltwater Mysid (Mysidopsis bahia)|Wildlife International Ltd., Project No. 454A-128:40 p.|2001|
185940|A||Zhang,J.H., S. Chen, M.Z. Yuan, W. Zhang, H.T. Xu, X.Y. Wang, X.Y. Zheng, and L.Q. Wang|Interactions of the Cyanobacterium Chrysosporum ovalisporum with Antibiotics in Water|Arch. Environ. Contam. Toxicol.80(2): 402-413|2021|10.1007/s00244-021-00811-9
185941|A||Alves,N., T. Neuparth, S. Barros, and M.M. Santos|The Anti-Lipidemic Drug Simvastatin Modifies Epigenetic Biomarkers in the Amphipod Gammarus locusta|Ecotoxicol. Environ. Saf.209:9 p.|2021|10.1016/j.ecoenv.2020.111849
185942|A||Bhattacharya,R., A. Chatterjee, and N.C. Saha|Acute Toxicity and Ethological Responses of Oligochaete Worm Tubifex tubifex (Muller) Exposed to a Cationic Surfactant Cetylpyridinium Chloride|Int. J. Sci. Res. Biol. Sci.6(2): 8-14|2019|10.26438/ijsrbs/v6i2.814
185943|T||Wu,C., M.Y. He, F.S. Dong, J. Xu, X.H. Wu, B. Cai, C.B. Wang, T. Sun, Y.Q. Zheng, and X.G. Liu|The Influence of Tolfenpyrad on Fitness, Development, and Reproduction in Parents and Offspring of Coccinella septempunctata|Ecotoxicol. Environ. Saf.210:11 p.|2021|
185944|A||Puerari,R.C., E. Ferrari, B.V. Oscar, C. Simioni, L.C. Ouriques, D.S. Vicentini, and W.G. Matias|Acute and Chronic Toxicity of Amine-Functionalized SiO2 Nanostructures Toward Daphnia magna|Ecotoxicol. Environ. Saf.212:9 p.|2021|10.1016/j.ecoenv.2021.111979
185945|T||Hao,L.J., Z.C. Zhang, B.H. Hao, F.W. Diao, J.X. Zhang, Z.H. Bao, and W. Guo|Arbuscular Mycorrhizal Fungi Alter Microbiome Structure of Rhizosphere Soil to Enhance Maize Tolerance to La|Ecotoxicol. Environ. Saf.212:9 p.|2021|10.1016/j.ecoenv.2021.111996
185946|T||Qiao,Z.H., X.F. Yao, X. Liu, J.Y. Zhang, Q.Z. Du, F.W. Zhang, X.D. Li, and X.Y. Jiang|Transcriptomics and Enzymology Combined Five Gene Expressions to Reveal the Responses of Earthworms (Eisenia fetida) to the Long-Term Exposure of Cyantraniliprole in Soil|Ecotoxicol. Environ. Saf.209:10 p.|2021|10.1016/j.ecoenv.2020.111824
185947|A||Osswald,J., A.P. Carvalho, J. Claro, and V. Vasconcelos|Effects of Cyanobacterial Extracts Containing Anatoxin-a and of Pure Anatoxin-a on Early Developmental Stages of Carp|Ecotoxicol. Environ. Saf.72(2): 473-478|2009|10.1016/j.ecoenv.2008.05.011
185948|A||Lei,H., P. Xie, J. Chen, G. Liang, M. Dai, and X. Zhang|Distribution of Toxins in Various Tissues of Crucian Carp Intraperitoneally Injected with Hepatotoxic Microcystins|Environ. Toxicol. Chem.27(5): 1167-1174|2008|10.1897/07-522.1
185949|A||Wang,Y., X.X. Xiao, F.J. Wang, Z.P. Yang, J.K. Yue, J.L. Shi, F. Ke, Z.H. Xie, and Y.R. Fan|An Identified PfHMGB1 Promotes Microcystin-LR-Induced Liver Injury of Yellow Catfish (Pelteobagrus fulvidraco)|Ecotoxicol. Environ. Saf.207:111266-111266|2021|10.1016/j.ecoenv.2020.111266
185950|A||Sant,K.E., K. Annunziato, S. Conlin, G. Teicher, P. Chen, O. Venezia, G.B. Downes, Y. Park, and A.R. Timme-Laragy|Developmental Exposures to Perfluorooctanesulfonic Acid (PFOS) Impact Embryonic Nutrition, Pancreatic Morphology, and Adiposity in the Zebrafish, Danio rerio|Environ. Pollut.275:12 p.|2021|10.1016/j.envpol.2021.116644
185951|A||Prieto,A.I., A. Jos, S. Pichardo, I. Moreno, and A.M. Camean|Protective Role of Vitamin E on the Microcystin-Induced Oxidative Stress in Tilapia Fish (Oreochromis niloticus)|Environ. Toxicol. Chem.27(5): 1152-1159|2008|10.1897/07-496.1
185952|A||Williams,D.E., S.C. Dawe, M.L. Kent, R.J. Andersen, M. Craig, and C.F.B. Holmes|Bioaccumulation and Clearance of Microcystins from Salt Water Mussels, Mytilus edulis, and In Vivo Evidence for Covalently Bound Microcystins in Mussel Tissues|Toxicon35(11): 1617-1625|1997|10.1016/S0041-0101(97)00039-1
185953|A||El Ghazali,I., S. Saqrane, A.P. Carvalho, Y. Ouahid, F.F.D. Campo, V. Vasconcelos, B. Oudra, and F.F. Del Campo|Effects of the Microcystin Profile of a Cyanobacterial Bloom on Growth and Toxin Accumulation in Common Carp Cyprinus carpio Larvae|J. Fish Biol.76(6): 1415-1430|2010|10.1111/j.1095-8649.2010.02572.x
185954|T||Zhang,L., Q. Wang, H. Chen, Y. Yao, and H. Sun|Uptake and Translocation of Perfluoroalkyl Acids with Different Carbon Chain Lengths (C2-C8) in Wheat (Triticum aestivum L.) Under the Effect of Copper Exposure|Environ. Pollut.274:16550-|2021|
185955|A||Nince Ferreira,M.F., V.M. Oliveira, R. Oliveira, P. Vieira Da Cunha, C.K. Grisolia, and O.R.P. Junior|Histopathological Effects of [D-Leu1]Microcystin-LR Variants on Liver, Skeletal Muscle and Intestinal Tract of Hypophthalmichthys molitrix (Valenciennes, 1844)|Toxicon55(7): 1255-1262|2010|10.1016/j.toxicon.2010.01.016
185956|T||Lee,D.Y., G.H. Choi, D. Megson, K.Y. Oh, I.W. Choi, D.C. Seo, and J.H. Kim|Effect of Soil Organic Matter on the Plant Uptake of Perfluorooctanoic Acid (PFOA) and Perfluorooctanesulphonic Acid (PFOS) in Lettuce on Granular Activated Carbon-Applied Soil|Environ. Geochem. Health43:2193-2202|2021|10.1007/s10653-020-00793-y
185957|A||Li,F., Y. Yu, M. Guo, Y. Lin, Y. Jiang, M. Qu, X. Sun, Z. Li, Y. Zhai, and Z. Tan|Integrated Analysis of Physiological, Transcriptomics and Metabolomics Provides Insights into Detoxication Disruption of PFOA Exposure in Mytilus edulis|Ecotoxicol. Environ. Saf.214:11 p.|2021|10.1016/j.ecoenv.2021.112081
185958|T||Kim,J.H., B. Barbagallo, K. Annunziato, R. Farias-Pereira, J.J. Doherty, J. Lee, J. Zina, C. Tindal, C. Mcvey, R. Aresc|Maternal Preconception PFOS Exposure of Drosophila melanogaster Alters Reproductive Capacity, Development, Morphology and Nutrient Regulation|Food Chem. Toxicol.151:12 p.|2021|10.1016/j.fct.2021.112153
185959|T||Li,P., and J. Li|Perfluorooctanoic Acid (PFOA) Caused Oxidative Stress and Metabolic Disorders in Lettuce (Lactuca sativa) Root|Sci. Total Environ.770:7 p.|2021|10.1016/j.scitotenv.2020.144726
185960|A||Liu,M., L. Tang, C. Hu, B. Sun, Z. Huang, and L. Chen|Interaction Between Probiotic Additive and Perfluorobutanesulfonate Pollutant on Offspring Growth and Health After Parental Exposure Using Zebrafish|Ecotoxicol. Environ. Saf.214:112107|2021|10.1016/j.ecoenv.2021.112107
185962|T||Lupton,S.J., and H. Hakk|Perfluorooctanoic Acid Uptake by Alfalfa (Medicago sativa) and Bioavailability in Sprague-Dawley Rats|J. Food Prot.84(4): 688-694|2021|10.4315/JFP-20-389
185963|A||Li,Y., X. Liu, X. Zheng, M. Yang, X. Gao, J. Huang, L. Zhang, and Z. Fan|Toxic Effects and Mechanisms of PFOA and Its Substitute GenX on the Photosynthesis of Chlorella pyrenoidosa|Sci. Total Environ.765:144431|2021|10.1016/j.scitotenv.2020.144431
185964|T||Montvydiene,D., A. Jagminas, Z. Jurgelene, M. Kazlauskas, R. Butrimiene, Z. Zukauskaite, and N. Kazlauskiene|Toxicological Effects of Different-Sized Co-Fe (CoFe2O4) Nanoparticles on Lepidium sativum L.: Towards Better Understanding of Nanophytotoxicity|Ecotoxicology30(2): 277-291|2021|10.1007/s10646-020-02340-y
185965|T||Sobhani,Z., C. Fang, R. Naidu, and M. Megharaj|Microplastics as a Vector of Toxic Chemicals in Soil: Enhanced Uptake of Perfluorooctane Sulfonate and Perfluorooctanoic Acid by Earthworms Through Sorption and Reproductive Toxicity|Environ. Technol. Innov.22:6 p.|2021|10.1016/j.eti.2021.101476
185966|A||Zhang,H., L. Shen, W. Fang, X. Zhang, and Y. Zhong|Perfluorooctanoic Acid-Induced Immunotoxicity Via NF-Kappa B Pathway in Zebrafish (Danio rerio) Kidney|Fish Shellfish Immunol.113:9-19|2021|10.1016/j.fsi.2021.03.004
185967|A||Pan,Y., C. Liu, F. Li, C. Zhou, S. Yan, J. Dong, T. Li, and C. Duan|Norfloxacin Disrupts Daphnia magna-Induced Colony Formation in Scenedesmus quadricauda and Facilitates Grazing|Ecol. Eng.102:255-261|2017|10.1016/j.ecoleng.2017.02.037
185968|A||McCarthy,C.J., S.A. Roark, D. Wright, K. O'Neal, B. Muckey, M. Stanaway, J. Rewerts, J. Field, T. Anderson, and C.J. Sa|Toxicological Response of Chironomus dilutus in Single Chemical and Binary Mixture Exposure Experiments with 6 Perfluoralkyl Substances|Environ. Toxicol. Chem.40(8): 2319-2333|2021|10.1002/etc.5066
185969|T||Zhang,W., H. Cao, and Y. Liang|Degradation by Hydrothermal Liquefaction of Fluoroalkylether Compounds Accumulated in Cattails (Typha latifolia)|J. Environ. Chem. Eng.9(4): 7 p.|2021|
185970|A||Zhang,W., and Y. Liang|Interactions Between Lemna minor (Common Duckweed) and PFAS Intermediates: Perfluorooctanesulfonamide (PFOSA) and 6:2 Fluorotelomer Sulfonate (6:2 FTSA)|Chemosphere276:13 p.|2021|
185971|A||Zhu,Y., D. Yang, X. Duan, Y. Zhang, D. Chen, Z. Gong, and C. Liu|Perfluorooctane Sulfonate Promotes Doxycycline-Induced Liver Tumor Progression in Male Kras V12 Transgenic Zebrafish|Environ. Res.196:8 p.|2021|10.1016/j.envres.2021.110962
185972|T||Zhu,Y., Y. Jia, M. Liu, L. Yang, S. Yi, X. Feng, and L. Zhu|Mechanisms for Tissue-Specific Accumulation and Phase I/II Transformation of 6:2 Fluorotelomer Phosphate Diester in Earthworm (M. guillelmi )|Environ. Int.151:9 p.|2021|10.1016/j.envint.2021.106451
185973|A||Butt,C.M., D.C.G. Muir, and S.A. Mabury|Biotransformation of the 8:2 Fluorotelomer Acrylate in Rainbow Trout. 2. In Vitro Incubations with Liver and Stomach S9 Fractions|Environ. Toxicol. Chem.29(12): 2736-2741|2010|10.1002/etc.348
185974|T||Chen,D., Y. Zhao, W. Xu, Y. Pan, Q. Wei, and S. Xie|Biotransformation and Tissue Bioaccumulation of 8:2 Fluorotelomer Alcohol in Broiler by Oral Exposure|Environ. Pollut.267:11 p.|2020|
185975|A||Bernardini,I., V. Matozzo, S. Valsecchi, L. Peruzza, G.D. Rovere, S. Polesello, S. Iori, M.G. Marin, J. Fabrello, M. Ci|The New PFAS C6O4 and Its Effects on Marine Invertebrates: First Evidence of Transcriptional and Microbiota Changes in the Manila Clam Ruditapes philippinarum|Environ. Int.152:17 p.|2021|10.1016/j.envint.2021.106484
185976|A||Cui,W., Z. Tan, J. Chen, H. Wu, Q. Geng, M. Guo, and Y. Zhai|Uptake, Tissue Distribution and Elimination of 8:2 Polyfluoroalkyl Phosphate Diesters in Mytilus galloprovincialis|Environ. Toxicol. Chem.40(7): 1992-2004|2021|10.1002/etc.5060
185977|A||Huang, Sun, Mennigen, Liu, S. Liu, Zhang, Wang, and Tu |Developmental Toxicity of the Novel PFOS Alternative OBS in Developing Zebrafish: An Emphasis on Cilia Disruption|J. Hazard. Mater.409:11 p.|2021|10.1016/j.jhazmat.2020.124491
185979|A||Khan,E.A., X. Zhang, E.M. Hanna, F. Yadetie, I. Jonassen, A. Goksoyr, and A. Arukwe|Application of Quantitative Transcriptomics in Evaluating the Ex Vivo Effects of Per- and Polyfluoroalkyl Substances on Atlantic Cod (Gadus morhua) Ovarian Physiology|Sci. Total Environ.755(1): 11 p.|2021|
185980|T||Munoz,J.J.A., A.A.F. De Almeida, C.P. Pirovani, D. Ahnert, and V.C. Baligar|Mitigation of Pb Toxicity by Mn in Seedling of the Cacao Clonal CCN 51 Genotype Grown in Soil: Physiological, Biochemical, Nutritional and Molecular Responses|Ecotoxicology30(2): 240-256|2021|10.1007/s10646-021-02348-y
185981|A||Pan,Y., S.Y. Yan, R.Z. Li, Y.W. Hu, and X.X. Chan|Lethal/Sublethal Responses of Daphnia magna to Acute Norfloxacin Contamination and Changes in Phytoplankton-Zooplankton Interactions Induced by this Antibiotic|Sci. Rep.7:10 p.|2017|
185982|A||Oliveira,A.C., M.L. Fascineli, T.S. Andrade, D. Sousa-Moura, I. Domingues, N.S. Camargo, R. Oliveira, C.K. Grisolia, an|Exposure to Tricyclic Antidepressant Nortriptyline Affects Early-Life Stages of Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.210:8 p.|2021|10.1016/j.ecoenv.2020.111868
185983|T||Jafarirad,S., M. Kosari-Nasab, R.M. Tavana, S. Mahjouri, and R. Ebadollahi|Impacts of Manganese Bio-Based Nanocomposites on Phytochemical Classification, Growth and Physiological Responses of Hypericum perforatum L. Shoot Cultures|Ecotoxicol. Environ. Saf.209:11 p.|2021|10.1016/j.ecoenv.2020.111841
185984|T||Ruiz,S., S. Espin, M. Rainio, S. Ruuskanen, J.P. Salminen, T.M. Lilley, and T. Eeva|Effects of Dietary Lead Exposure on Vitamin Levels in Great Tit Nestlings - an Experimental Manipulation|Environ. Pollut.213:688-697|2016|10.1016/j.envpol.2016.03.042
185985|T||Li,X.N., Y.Z. Zuo, L. Qin, W. Liu, Y.H. Li, and J.L. Li|Atrazine-Xenobiotic Nuclear Receptor Interactions Induce Cardiac Inflammation and Endoplasmic Reticulum Stress in Quail (Coturnix coturnix coturnix)|Chemosphere206:549-559|2018|10.1016/j.chemosphere.2018.05.049
185986|T||Zhang,C., L. Qin, D.C. Dou, X.N. Li, J. Ge, and J.L. Li|Atrazine Induced Oxidative Stress and Mitochondrial Dysfunction in Quail (Coturnix C. coturnix) Kidney Via Modulating Nrf2 Signaling Pathway|Chemosphere212:974-982|2018|10.1016/j.chemosphere.2018.08.138
185987|T||Marteinson,S.C., and K,J. Fernie|Is the Current-Use Flame Retardant, DBE-DBCH, a Potential Obesogen? Effects on Body Mass, Fat Content and Associated Behaviors in American Kestrels|Ecotoxicol. Environ. Saf.169:770-777|2019|10.1016/j.ecoenv.2018.11.104
185988|T||Leidens,D., A. Bianchini, A.S. Varela Junior, I.F. Barcarolli, C.E. Rosa, J. Bonnel, C.P. Calabuig, and C.D. Corcini|Effects of Experimental Lead Exposure on Testis of the Chestnut Capped Blackbird Chrysomus ruficapillus|Bull. Environ. Contam. Toxicol.100(3): 324-330|2018|10.1007/s00128-017-2227-y
185989|T||Rattner,B.A., K.E. Horak, R.S. Lazarus, S.L. Schultz, S. Knowles, B.G. Abbo, and S.F. Volker|Toxicity Reference Values for Chlorophacinone and Their Application for Assessing Anticoagulant Rodenticide Risk to Raptors|Ecotoxicology24(4): 720-734|2015|10.1007/s10646-015-1418-8
185990|T||Rainio,M.J., T. Eeva, T. Lilley, J. Stauffer, and S. Ruuskanen|Effects of Early-Life Lead Exposure on Oxidative Status and Phagocytosis Activity in Great Tits (Parus major)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.167:24-34|2015|10.1016/j.cbpc.2014.08.004
185991|T||Cid,F.D., N.C. Fernandez, M.V. Perez-Chaca, R. Pardo, E. Caviedes-Vidal, and J.G. Chediack|House Sparrow Biomarkers as Lead Pollution Bioindicators. Evaluation of Dose and Exposition Length on Hematological and Oxidative Stress Parameters|Ecotoxicol. Environ. Saf.154:154-161|2018|10.1016/j.ecoenv.2018.02.040
185992|T||Flahr,L.M., N.L. Michel, A.R.D. Zahara, P.D. Jones, and C.A. Morrissey|Developmental Exposure to Aroclor 1254 Alters Migratory Behavior in Juvenile European Starlings (Sturnus vulgaris)|Environ. Sci. Technol.49(10): 6274-6283|2015|10.1021/acs.est.5b01185
185993|T||Liu,P.Q., Y.S. Cai, J.Z. Zhang, R.B. Wang, B.J. Li, Q.Y. Weng, and Q.H. Chen|Antifungal Activity of Liquiritin in Phytophthora capsici Comprises Not Only Membrane-Damage-Mediated Autophagy, Apoptosis, and Ca2+ Reduction but Also an Induced Defense Responses in Pepper|Ecotoxicol. Environ. Saf.209:7 p.|2021|
185994|T||Lindemann,D.M., D. Eshar, J.C. Nietfeld, and I.J. Kim|Suspected Fenbendazole Toxicity in an American White Pelican (Pelecanus erythrorhynchos)|J. Zoo Wildl. Med.47(2): 681-685|2016|10.1638/2015-0117.1
185995|T||Zhang,C., H. Li, L. Qin, J. Ge, Z. Qi, M. Talukder, Y.H. Li, and J.L. Li|Nuclear Receptor AHR-Mediated Xenobiotic Detoxification Pathway Involves in Atrazine-Induced Nephrotoxicity in Quail (Coturnix C. coturnix)|Environ. Pollut.253:889-898|2019|10.1016/j.envpol.2019.07.058
185996|T||Varian-Ramos,C.W., J.P. Swaddle, and D.A. Cristol|Mercury Reduces Avian Reproductive Success and Imposes Selection: An Experimental Study with Adult- or Lifetime-Exposure in Zebra Finch|PLoS One9(4): 9 p.|2014|10.1371/journal.pone.0095674
185997|T||Hall,J.K., and E.L. Wagy|Toxic and Teratogenic Effects of Sevoflurane in Drosophila melanogaster|Ph.D Thesis, Webster University, Webster Groves, MO:104 p.|2007|
185998|T||Crump,D., E. Boulanger, A. Farhat, K.L. Williams, N. Basu, M. Hecker, and J.A. Head|Effects on Apical Outcomes of Regulatory Relevance of Early-Life Stage Exposure of Double-Crested Cormorant Embryos to 4 Environmental Chemicals|Environ. Toxicol. Chem.40(2): 390-401|2021|10.1002/etc.4922
185999|T||Marteinson,S.C., R.J. Letcher, and K.J. Fernie|Exposure to the Androgenic Brominated Flame Retardant 1,2-Dibromo-4-(1,2-Dibromoethyl)-Cyclohexane Alters Reproductive and Aggressive Behaviors in Birds|Environ. Toxicol. Chem.34(10): 2395-2402|2015|10.1002/etc.3078
186000|T||Farhat,A., D. Crump, L. Bidinosti, E. Boulanger, N. Basu, M. Hecker, and J.A. Head|An Early-Life Stage Alternative Testing Strategy for Assessing the Impacts of Environmental Chemicals in Birds|Environ. Toxicol. Chem.39(1): 141-154|2020|10.1002/etc.4582
186001|T||Webster,K.H., K.E. Harr, D.C. Bennett, T.D. Williams, K.M. Cheng, F. Maisonneuve, and J.E. Elliott|Assessment of Toxicity and Coagulopathy of Brodifacoum in Japanese Quail and Testing in Wild Owls|Ecotoxicology24(5): 1087-1101|2015|10.1007/s10646-015-1449-1
186002|T||Rattner,B.A., S.F. Volker, J.S. Lankton, T.G. Bean, R.S. Lazarus, and K.E. Horak|Brodifacoum Toxicity in American Kestrels (Falco sparverius) with Evidence of Increased Hazard on Subsequent Anticoagulant Rodenticide Exposure|Environ. Toxicol. Chem.39(2): 468-481|2020|10.1002/etc.4629
186003|T||Guigueno,M.F., N.K. Karouna-Renier, P.F.P. Henry, L.E. Peters, V.P. Palace, R.J. Letcher, and K.J. Fernie|Sex-Specific Responses in Neuroanatomy of Hatchling American Kestrels in Response to Embryonic Exposure to the Flame Retardants Bis(2-Ethylhexyl)-2,3,4,5-Tetrabromophthalate and 2-Ethylhexyl-2,3,4,5-Tetrabromobenzoate|Environ. Toxicol. Chem.37(12): 3032-3040|2018|10.1002/etc.4238
186004|T||Page-Lariviere,F., S. Chiu, S.P. Jones, A. Farhat, D. Crump, and J.M. O'Brien|Prioritization of 10 Organic Flame Retardants Using an Avian Hepatocyte Toxicogenomic Assay|Environ. Toxicol. Chem.37(12): 3134-3144|2018|10.1002/etc.4260
186005|T||Lopez-Antia,A., M.E. Ortiz-Santaliestra, F. Mougeot, P.R. Camarero, and R. Mateo|Birds Feeding on Tebuconazole Treated Seeds Have Reduced Breeding Output|Environ. Pollut.271:9 p.|2021|
186006|T||Maymo,A.C., A. Cervera, M. Dolores Garcera, P. Bielza, and R. Martinez-Pardo|Relationship Between Esterase Activity and Acrinathrin and Methiocarb Resistance in Field Populations of Western Flower Thrips, Frankliniella occidentalis|Pest Manag. Sci.62(12): 1129-1137|2006|10.1002/ps.1280
186007|T||Osbrink,W., and M. Cornelius|Acoustic Evaluation of Trees for Coptotermes formosanus Shiraki (Isoptera: Rhinotermitidae) Treated with Imidacloprid and Noviflumuron in Historic Jackson Square, New Orleans, Louisiana|Sociobiology60(1): 77-95|2013|10.13102/sociobiology.v60i1.77-95
186008|T||Ameen,A., C. Wang, W. Kaakeh, G.W. Bennett, J.E. King, L.L. Karr, and J. Xie|Residual Activity and Population Effects of Noviflumuron for German Cockroach (Dictyoptera: Blattellidae) Control|J. Econ. Entomol.98(3): 899-905|2005|10.1603/0022-0493-98.3.899
186009|T||King,J.E.|Ovicidal Activity of Noviflumuron when Fed to Adult German Cockroaches (Dictyoptera: Blattellidae)|J. Econ. Entomol.98(3): 930-932|2005|10.1603/0022-0493-98.3.930
186010|A||Ali,J.M., M.T. Palandri, A.T. Kallenbach, E. Chavez, J. Ramirez, S. Onanong, D.D. Snow, and A.S. Kolok|Estrogenic Effects Following Larval Exposure to the Putative Anti-Estrogen, Fulvestrant, in the Fathead Minnow (Pimephales promelas)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.204:26-35|2018|10.1016/j.cbpc.2017.10.013
186011|A||Cai,M., Y.Y. Li, M. Zhu, J.B. Li, and Z.F. Qin|Evaluation of the Effects of Low Concentrations of Bisphenol AF on Gonadal Development Using the Xenopus laevis Model: A Finding of Testicular Differentiation Inhibition Coupled with Feminization|Environ. Pollut.260:10 p.|2020|10.1016/j.envpol.2020.113980
186012|T||Belfiore,T., E. Perri, S. Scalercio, N. Iannotta, and C. Tocci|A Systemic Fungicide (Tetraconazole) Against the Olive Leaf Spot, Spilocaea oleagina, in Italy|Acta Hortic.1057:185-189|2014|10.17660/ActaHortic.2014.1057.22
186013|T||Bolton,M.D., M.K. Ebert, L. Faino, V. Rivera-Varas, R. De Jonge, Y. Van De Peer, B. Thomma, and G.A. Secor|RNA-Sequencing of Cercospora beticola DMI-Sensitive and -Resistant Isolates After Treatment with Tetraconazole Identifies Common and Contrasting Pathway Induction|Fungal Genet. Biol.92:1-13|2016|10.1016/j.fgb.2016.04.003
186014|T||Bolton,M.D., V. Rivera-Varas, L.E.D. Mendoza, M.F.R. Khan, and G.A. Secor|Efficacy of Variable Tetraconazole Rates Against Cercospora beticola Isolates with Differing In Vitro Sensitivities to DMI Fungicides|Plant Dis.96(12): 1749-1756|2012|10.1094/PDIS-03-12-0255-RE
186015|T||Tong,Z., X. Dong, S. Yang, M. Sun, T. Gao, J. Duan, and H. Cao|Enantioselective Effects of the Chiral Fungicide Tetraconazole in Wheat: Fungicidal Activity and Degradation Behavior|Environ. Pollut.247:1-8|2019|10.1016/j.envpol.2019.01.013
186016|T||Bianchi,D., P. Cesti, S. Spezia, C. Garavaglia, and L. Mirenna|Chemoenzymatic Synthesis and Biological Activity of Both Enantiomeric Forms of Tetraconazole, a New Antifungal Triazole|J. Agric. Food Chem.39(1): 197-201|1991|10.1021/jf00001a040
186017|T||Arabiat,S.I.|Sensitivity of Rhizoctonia solani and Aphanomyces cochlioides  to Fungicides, and Fitness of Tetraconazole-Resistant Isolates of Cercospora beticola After Exposure to Different Temperature Regimes|Ph.D. Thesis, North Dakota State University, Fargo, ND:151 p.|2015|
186018|T||Arabiat,S., M.F.R. Khan, M. Bolton, and G. Secor|Stability of Tetraconazole-Resistance Isolates of Cercospora beticola After Exposure to Different Temperature and Time Treatments|J. Plant Pathol.99(1): 177-184|2017|
186020|T||Roseen,J.S., and F.A. Fuhrman|Comparison of the Effects of Atelopidtoxin with Those of Tetrodotoxin, Saxitoxin and Batrachotoxin on Beating of Cultured Chick Heart Cells|Toxicon9(4): 411-415|1971|10.1016/0041-0101(71)90140-1
186021|T||Marteinson,S.C., V. Palace, R.J. Letcher, and K.J. Fernie|Disruption of Thyroxine and Sex Hormones by 1,2-dibromo-4-(1,2-dibromoethyl)cyclohexane (DBE-DBCH) in American Kestrels (Falco sparverius) and Associations with Reproductive and Behavioral Changes|Environ. Res.154:389-397|2017|10.1016/j.envres.2017.01.005
186023|T||Varian-Ramos,C.W., M. Whitney, G.W. Rice, and D.A. Cristol|Form of Dietary Methylmercury does not Affect Total Mercury Accumulation in the Tissues of Zebra Finch|Bull. Environ. Contam. Toxicol.99(1): 1-8|2017|10.1007/s00128-017-2104-8
186024|T||Scoville,S.A., C.W. Varian-Ramos, G.A. Adkins, J.P. Swaddle, M.S. Saha, and D.A. Cristol|Mercury Delays Cerebellar Development in a Model Songbird Species, the Zebra Finch|Ecotoxicology29(8): 1128-1137|2020|10.1007/s10646-020-02270-9
186025|T||Han,C., X. Wang, D. Zhang, Y.Y. Wei, Y.Q. Cui, W.Y. Shi, and Y.Z. Bao|Synergistic Use of Florfenicol and Salvia miltiorrhiza Polysaccharide can Enhance Immune Responses in Broilers|Ecotoxicol. Environ. Saf.210:8 p.|2021|
186026|A||Lee,J.Y., S. Park, W. Lim, and G. Song|Picolinafen Exerts Developmental Toxicity Via the Suppression of Oxidative Stress and Angiogenesis in Zebrafish Embryos|Pestic. Biochem. Physiol.171:7 p.|2021|10.1016/j.pestbp.2020.104734
186027|A||De Medeiros,A.M.Z., L.U. Khan, G.H. Da Silva, C.A. Ospina, O.L. Alves, V.L. De Castro, and D.S.T. Martinez|Graphene Oxide-Silver Nanoparticle Hybrid Material: An Integrated Nanosafety Study in Zebrafish Embryos|Ecotoxicol. Environ. Saf.209:14 p.|2021|10.1016/j.ecoenv.2020.111776
186028|A||Praskova,E., D. Zivna, S. Stepanova, M. Sevcikova, J. Blahova, P. Marsalek, Z. Siroka, E. Voslarova, and Z. Svobodova|Acute Toxicity of Acetylsalicylic Acid to Juvenile and Embryonic Stages of Danio rerio|Neuroendocrinol. Lett.33(3): 72-76|2012|
186029|A||Zhong,X.Q., Y.L. Zhu, Y.J. Wang, Q.Y. Zhao, and H. Huang|Effects of Three Antibiotics on Growth and Antioxidant Response of Chlorella pyrenoidosa and Anabaena cylindrica|Ecotoxicol. Environ. Saf.211:10 p.|2021|10.1016/j.ecoenv.2021.111954
186030|AT||Brabham,C., P. Johnen, J. Hendriks, M. Betz, A. Zimmermann, J. Gollihue, W. Serson, C. Kempinski, and M. Barrett|Herbicide Symptomology and the Mechanism of Action of Methiozolin|Weed Sci.69(1): 18-30|2021|10.1017/wsc.2020.87
186031|T||Naidoo,V., M.A. Taggart, N. Duncan, K. Wolter, J. Chipangura, R.E. Green, and T.H. Galligan|The Use of Toxicokinetics and Exposure Studies to Show that Carprofen in Cattle Tissue Could Lead to Secondary Toxicity and Death in Wild Vultures|Chemosphere190:80-89|2018|10.1016/j.chemosphere.2017.08.167
186032|A||Chen,Y., S.F. Zeng, and Y.F. Cao|Oxidative Stress Response in Zebrafish (Danio rerio) Gill Experimentally Exposed to Subchronic Microcystin-LR|Environ. Monit. Assess.184(11): 6775-6787|2012|10.1007/s10661-011-2457-0
186033|T||Chen,G.Y., Z.H. Zheng, M.X. Bai, and Q.S. Li|Chronic Effects of Microcystin-LR at Environmental Relevant Concentrations on Photosynthesis of Typha angustifolia Linn|Ecotoxicology29(5): 514-523|2020|10.1007/s10646-020-02196-2
186034|T||Chen,J., H.Q. Zhang, L.B. Hu, and Z.Q. Shi|Microcystin-LR-Induced Phytotoxicity in Rice Crown Root is Associated with the Cross-Talk Between Auxin and Nitric Oxide|Chemosphere93(2): 283-293|2013|10.1016/j.chemosphere.2013.04.079
186035|A||Bakke,M.J., and T.E. Horsberg|Kinetic Properties of Saxitoxin in Atlantic Salmon (Salmo salar) and Atlantic Cod (Gadus morhua)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.152(4): 444-450|2010|10.1016/j.cbpc.2010.07.005
186036|T||Barbi,T., P.M.W. Drake, M. Drever, C.J. Van Dolleweerd, A.R. Porter, and J.K.C. Ma|Generation of Transgenic Plants Expressing Plasma Membrane-Bound Antibodies to the Environmental Pollutant Microcystin-LR|Transgenic Res.20(3): 701-707|2011|10.1007/s11248-010-9431-4
186037|A||Cai,Y., H.Y. Li, L. Hao, G.Y. Li, P. Xie, and J. Chen|Identification of CDA Gene in Bighead Carp and Its Expression in Response to Microcystin-LR|Ecotoxicol. Environ. Saf.79:206-213|2012|10.1016/j.ecoenv.2012.01.001
186038|A||Wang,M., D. Wang, L. Lin, and H. Hong|Protein Profiles in Zebrafish (Danio rerio) Brains Exposed to Chronic Microcystin-LR|Chemosphere81(6): 716-724|2010|10.1016/j.chemosphere.2010.07.061
186039|A||Wang,P.J., M.S. Chien, F.J. Wu, H.N. Chou, and S.J. Lee|Inhibition of Embryonic Development by Microcystin-LR in Zebrafish, Danio rerio|Toxicon45(3): 303-308|2005|10.1016/j.toxicon.2004.10.016
186040|T||Wang,S.C., Z.Z. Geng, Y. Wang, Z.H. Tong, and H.Q. Yu|Essential Roles of p53 and MAPK Cascades in Microcystin-LR-Induced Germline Apoptosis in Caenorhabditis elegans|Environ. Sci. Technol.46(6): 3442-3448|2012|10.1021/es203675y
186041|A||Wang,Z., B. Xiao, L. Song, C. Wang, and J. Zhang|Responses and Toxin Bioaccumulation in Duckweed (Lemna minor) Under Microcystin-LR, Linear Alkybenzene Sulfonate and Their Joint Stress|J. Hazard. Mater.229:137-144|2012|10.1016/j.jhazmat.2012.05.109
186042|T||Wang,Z., B. Xiao, L. Song, X. Wu, J. Zhang, and C. Wang|Effects of Microcystin-LR, Linear Alkylbenzene Sulfonate and Their Mixture on Lettuce (Lactuca sativa L.) Seeds and Seedlings|Ecotoxicology20(4): 803-814|2011|10.1007/s10646-011-0632-2
186043|T||Pflugmacher,S., K. Jung, L. Lundvall, S. Neumann, and A. Peuthert|Effects of Cyanobacterial Toxins and Cyanobacterial Cell-Free Crude Extract on Germination of Alfalfa (Medicago sativa) and Induction of Oxidative Stress|Environ. Toxicol. Chem.25(9): 2381-2387|2006|10.1897/05-615R.1
186044|A||Jiang,J., X. Gu, R. Song, Q. Zhang, J. Geng, X. Wang, and L. Yang|Time-Dependent Oxidative Stress and Histopathological Changes in Cyprinus carpio L. Exposed to Microcystin-LR|Ecotoxicology20(5): 1000-1009|2011|10.1007/s10646-011-0646-9
186045|A||Jiang,J., X.Y. Gu, R. Song, X. Wang, and L. Yang|Microcystin-LR Induced Oxidative Stress and Ultrastructural Alterations in Mesophyll Cells of Submerged Macrophyte Vallisneria natans (Lour.) Hara|J. Hazard. Mater.190(1-3): 188-196|2011|10.1016/j.jhazmat.2011.03.023
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186047|T||Hille,B.|Pharmacological Modifications of the Sodium Channels of Frog Nerve|J. Gen. Physiol.51:199-219|1968|10.1085/jgp.51.2.199
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186049|A||Gutierrez-Praena,D., A. Jos, S. Pichardo, R. Moyano, A. Blanco, J.G. Monterde, and A.M. Camean|Time-Dependent Histopathological Changes Induced in Tilapia (Oreochromis niloticus) After Acute Exposure to Pure Cylindrospermopsin by Oral and Intraperitoneal Route|Ecotoxicol. Environ. Saf.76(1): 102-113|2012|10.1016/j.ecoenv.2011.10.008
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186052|A||Narahashi,T., and H.G. Haas|Interaction of DDT with the Components of Lobster Nerve Membrane Conductance|J. Gen. Physiol.51:177-198|1968|10.1085/jgp.51.2.177
186053|A||Li,A., J. Espinoza, and A. Hamdoun|Inhibitory Effects of Neurotoxin beta-N-Methylamino-L-Alanine on Fertilization and Early Development of the Sea Urchin Lytechinus pictus|Aquat. Toxicol.221:9 p.|2020|10.1016/j.aquatox.2020.105425
186055|T||Currier,H.A., R.J. Letcher, T.D. Williams, and J.E. Elliott|Effects of the Bioaccumulative Polybrominated Diphenyl Ether Flame Retardant Congener BDE-47 on Growth, Development, and Reproductive Success in Zebra Finches|Bull. Environ. Contam. Toxicol.94(2): 140-145|2015|10.1007/s00128-014-1393-4
186056|T||Bianchini,K., and C.A. Morrissey|Polycyclic Aromatic Hydrocarbon Exposure Impairs Pre-Migratory Fuelling in Captively-Dosed Sanderling (Calidris alba)|Ecotoxicol. Environ. Saf.161:383-391|2018|10.1016/j.ecoenv.2018.05.036
186057|T||Whitlock,S.E., M.G. Pereira, R.F. Shore, J. Lane, and K.E. Arnold|Environmentally Relevant Exposure to an Antidepressant Alters Courtship Behaviours in a Songbird|Chemosphere211:17-24|2018|10.1016/j.chemosphere.2018.07.074
186058|T||Adawaren,E.O., L. Mukandiwa, J. Chipangura, K. Wolter, and V. Naidoo|Percentage of Faecal Excretion of Meloxicam in the Cape Vultures (Gyps corprotheres)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.215:41-46|2019|10.1016/j.cbpc.2018.10.001
186060|A||Pflugmacher,S., K.S. Kwon, S. Baik, S. Kim, S. Kuehn, and M. Esterhuizen-Londt|Physiological Responses of Cladophora glomerata to Cyanotoxins:  A Potential New Phytoremediation Species for the Green Liver Systems|Toxicol. Environ. Chem.98(2): 241-259|2016|10.1080/02772248.2015.1119835
186061|T||Hamidipoor,F., H.R. Pourkhabbaz, M. Banaee, and S. Javanmardi|Sub-Lethal Toxic Effects of Deltamethrin on Blood Biochemical Parameters of Japanese Quail, Coturnix japonica|Toxicol. Environ. Chem.97(9): 1217-1225|2015|10.1080/02772248.2015.1093131
186062|A||Esterhuizen,M., S. Pflugmacher, and T.G. Downing|Beta-n-Methylamino-l-Alanine (BMAA) Uptake by the Aquatic Macrophyte Ceratophyllum demersum|Ecotoxicol. Environ. Saf.74(1): 74-77|2011|10.1016/j.ecoenv.2010.04.005
186063|A||Gao,Y., Z.D. Liu, D. Jia, Q. Hu, L. Li, R. Tang, and D.P. Li| (Danio rerio)|Chemosphere243:10 p.|2020|10.1016/j.chemosphere.2019.125258
186064|T||Possenti,C.D., G. Poma, S. Defosse, M. Caprioli, B. De Felice, A. Romano, N. Saino, A. Covaci, and M. Parolini|Embryotoxic Effects of In-Ovo Triclosan Injection to the Yellow-Legged Gull|Chemosphere218:827-835|2019|10.1016/j.chemosphere.2018.11.187
186065|T||Jankowski,M.D., M.E. Moore, and E.K. Hofmeister|An Examination of the Effect of Aerosolized Permanone Insecticide on Zebra Finch Susceptibility to West Nile Virus|Environ. Toxicol. Chem.36(12): 3376-3386|2017|10.1002/etc.3918
186066|A||Ge,J., J.J. Li, J. Zhang, and Z. Yang|Time-Dependent Oxidative Stress Responses of Submerged Macrophyte Vallisneria natans Seedlings Exposed to Ammonia in Combination with Microcystin Under Laboratory Conditions|Bull. Environ. Contam. Toxicol.89(1): 67-72|2012|10.1007/s00128-012-0633-8
186067|A||Ozawa,K., A. Yokoyama, K. Ishikawa, M. Kumagai, M.F. Watanabe, and H.D. Park|Accumulation and Depuration of Microcystin Produced by the Cyanobacterium Microcystis in a Freshwater Snail|Limnology4(3): 131-138|2003|10.1007/s10201-003-0106-1
186068|T||Gu,Y.F., and C.J. Liang|Responses of Antioxidative Enzymes and Gene Expression in Oryza sativa L and Cucumis sativus L. Seedlings to Microcystins Stress|Ecotoxicol. Environ. Saf.193:110351-110351|2020|10.1016/j.ecoenv.2020.110351
186069|T||Zahara,A.R.D., N.L. Michel, L.M. Flahr, L.E. Ejack, and C.A. Morrissey|Latent Cognitive Effects from Low-Level Polychlorinated Biphenyl Exposure in Juvenile European Starlings (Sturnus vulgaris)|Environ. Toxicol. Chem.34(11): 2513-2522|2015|10.1002/etc.3084
186070|T||Su,G.Y., A.K. Greayes, D. Teclechiel, and R.J. Letcher|In Vitro Metabolism of Photolytic Breakdown Products of Tetradecabromo-1,4-Diphenoxybenzene Flame Retardant in Herring Gull and Rat Liver Microsomal Assays|Environ. Sci. Technol.50(15): 8335-8343|2016|10.1021/acs.est.6b02172
186071|T||Eng,M.L., R.J. Letcher, T.D. Williams, and J.E. Elliott|In Ovo tris(2-Butoxyethyl) Phosphate Concentrations Significantly Decrease in Late Incubation After a Single Exposure via Injection, with no Evidence of Effects on Hatching Success or Latent Effects on Growth or Reprodu|Environ. Toxicol. Chem.36(1): 83-88|2017|10.1002/etc.3502
186072|T||Marteinson,S.C., R.J. Letcher, L. Graham, S. Kimmins, G. Tomy, V.P. Palace, I.J. Ritchie, L.T. Gauthier, D.M. Bird, and|The Flame Retardant beta-1,2-Dibromo-4-(1,2-Dibromoethyl)Cyclohexane: Fate, Fertility, and Reproductive Success in American Kestrels (Falco sparverius)|Environ. Sci. Technol.46(15): 8440-8447|2012|10.1021/es301032a
186073|T||Contreras,J., P.J. Espinosa, V. Quinto, C. Gravalos, E. Fernandez, and P. Bielza|Stability of Insecticide Resistance in Frankliniella occidentalis to Acrinathrin, Formetanate and Methiocarb|Agric. For. Entomol.10:273-278|2008|10.1111/j.1461-9563.2008.00387.x
186074|T||Suiter,D.R., B.M. Schneider, C. Riegel, M.S. Smith, and G.W. Bennett|Brood Reduction in Noviflumuron-Fed Pharaoh's Ant, Monomorium pharaonis, and Argentine Ant, Linepithema humile, Colonies (Hymenoptera : Formicidae)|Sociobiology47(1): 149-164|2006|
186075|T||King,J.E., J.J. DeMark, and A.J. Griffin|Comparative Laboratory Efficacy of Noviflumuron and Diflubenzuron on Reticulitermes flavipes (Isoptera: Rhinotermitidae)|Sociobiology45(3): 779-785|2005|
186076|A||Wiegand,C., S. Pflugmacher, A. Oberemm, N. Meems, K.A. Beattle, C.E.W. Steinberg, and G.A. Codd|Uptake and Effects of Microcystin-LR on Detoxication Enzymes of Early Life Stages of the Zebra Fish (Danio rerio)|Environ. Toxicol.14:89-95|1999|10.1002/(SICI)1522-7278(199902)14:1<89::AID-TOX12>3.0.CO;2-7
186077|A||Tian,L., J.P. Cheng, X.P. Chen, S.H. Cheng, Y.L. Mak, P.K.S. Lam, L.L. Chan, and M.F. Wang|Early Developmental Toxicity of Saxitoxin on Medaka (Oryzias melastigma) Embryos|Toxicon77:16-25|2014|10.1016/j.toxicon.2013.10.022
186078|A||Rogers,E.D., T.B. Henry, M.J. Twiner, J.S. Gouffon, J.T. McPherson, G.L. Boyer, G.S. Sayler, and S.W. Wilhelm|Global Gene Expression Profiling in Larval Zebrafish Exposed to Microcystin-LR and Microcystis Reveals Endocrine Disrupting Effects of Cyanobacteria|Environ. Sci. Technol.45(5): 1962-1969|2011|10.1021/es103538b
186079|A||Shen,Q., J. Hu, D.H. Li, G.H. Wang, and Y.D. Liu|Investigation on Intake, Accumulation and Toxicity of Microcystins to Silver Carp|Fresenius Environ. Bull.14(12A): 1124-1128|2005|
186080|A||Juhel,G., J. Davenport, J. O'Halloran, S.C. Culloty, R.M. O'Riordan, K.F. James, A. Furey, and O. Allis|Impacts of Microcystins on the Feeding Behaviour and Energy Balance of Zebra Mussels, Dreissena polymorpha: A Bioenergetics Approach|Aquat. Toxicol.79(4): 391-400|2006|10.1016/j.aquatox.2006.07.007
186081|A||Kinnear,S.H.W., L.D. Fabbro, L.J. Duivenvoorden, and E.M.A. Hibberd|Multiple-Organ Toxicity Resulting from Cylindrospermopsin Exposure in Tadpoles of the Cane Toad (Bufo marinus)|Environ. Toxicol.22(6): 550-558|2007|10.1002/tox.20299
186082|A||Guzman-Guillen,R., A.I. Prieto, I. Moreno, V. Rios, V.M. Vasconcelos, and A.M. Camean|Effects of Depuration on Oxidative Biomarkers in Tilapia (Oreochromis niloticus) After Subchronic Exposure to Cyanobacterium Producing Cylindrospermopsin|Aquat. Toxicol.149:40-49|2014|10.1016/j.aquatox.2014.01.026
186083|T||Zhang,Y., Y. Zhang, N. Yang, W. Liao, and S. Yoshihara|Electrochemical Degradation and Mechanistic Analysis of Microcystin-LR|J. Chem. Technol. Biotechnol.88(8): 1529-1537|2013|10.1002/jctb.3999
186084|A||Guzman-Guillen,R., I.L. Manzano, I.M. Moreno, A.I. Prieto Ortega, R. Moyano, A. Blanco, and A.M. Camean|Cylindrospermopsin Induces Neurotoxicity in Tilapia Fish (Oreochromis niloticus) Exposed to Aphanizomenon ovalisporum|Aquat. Toxicol.161:17-24|2015|10.1016/j.aquatox.2015.01.024
186085|T||Liang,C., and W. Wang|Response and Recovery of Rice (Oryza sativa) Seedlings to Irrigation with Microcystin-Contaminated Water|Environ. Earth Sci.73(8): 4573-4580|2015|10.1007/s12665-014-3746-z
186086|A||Kaminski,A., E. Chrapusta, M. Adamski, B. Bober, K. Zabaglo, and J. Bialczyk|Determination of the Time-Dependent Response of Lemna trisulca to the Harmful Impact of the Cyanotoxin Anatoxin-a|Algal Res.16:368-375|2016|10.1016/j.algal.2016.04.004
186087|A||Kim,Y.D., K. Won Jin, Y.K. Shin, L. Do-Hee, K. Youn-Jung, J.K. Kim, and R. Jae-Sung|Microcystin-LR Bioconcentration Induces Antioxidant Responses in the Digestive Gland of Two Marine Bivalves Crassostrea gigas and Mytilus edulis|Aquat. Toxicol.188:119-129|2017|10.1016/j.aquatox.2017.05.003
186089|T||Levizou,E., T. Papadimitriou, E. Papavasileiou, N. Papadimitriou, and K.A. Kormas|Root Vegetables Bioaccumulate Microcystins-LR in a Developmental Stage-Dependent Manner under Realistic Exposure Scenario: The Case of Carrot and Radish|Agric. Water Manag.240:8 p.|2020|10.1016/j.agwat.2020.106274
186090|A||Rasmussen,J.P., M. Cursaro, S.M. Froscio, and C.P. Saint|An Examination of the Antibiotic Effects of Cylindrospermopsin on Common Gram-Positive and Gram-Negative Bacteria and the Protozoan Naegleria lovaniensis|Environ. Toxicol.23(1): 36-43|2008|10.1002/tox.20311
186091|T||Ruebhart,D.R., W.L. Radcliffe, and G.K. Eaglesham|Alternative Bioassay for the Detection of Saxitoxin Using the Speckled Cockroach (Nauphoeta cinerea)|J. Toxicol. Environ. Health Part A74(7-9): 621-637|2011|10.1080/15287394.2011.534426
186092|A||Li,J., C. Chen, T. Zhang, W. Liu, L. Wang, Y. Chen, L. Wu, A.M. Hegazy, A.F. El-Sayed, and X. Zhang|Mu Evaluation of Microcystin-LR Absorption Using an in Vivo Intestine Model and Its Effect on Zebrafish Intestine|Aquat. Toxicol.206:186-194|2019|10.1016/j.aquatox.2018.11.014
186093|T||Saul,N., S. Chakrabarti, S.R. Stuerzenbaum, R. Menzel, and C.E.W. Steinberg|Neurotoxic Action of Microcystin-LR is Reflected in the Transcriptional Stress Response of Caenorhabditis elegans|Chem.-Biol. Interact.223:51-57|2014|10.1016/j.cbi.2014.09.007
186094|T||Sopezki,M.S., M.E. Josende, L.C. Cruz, J.S. Yunes, J.V. Lima, and J. Zanette|The Effects of Microcystis aeruginosa Cells Lysate Containing Microcystins on Physiological and Molecular Responses in the Nematode Caenorhabditis elegans|Environ. Toxicol.35(5): 591-598|2020|10.1002/tox.22894
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186096|T||Campbell,M.H., H.W. Kemp, R.D. Murison, J.J. Dellow, and H. Ridings|Use of Herbicides for Selective Removal of Eragrostis curvula (Schrad) Nees from a Pennisetum clandestinum Pasture|Aust. J. Exp. Agric.27(3): 359-365|1987|10.1071/EA9870359
186097|A||Sole,M., S. Lacorte, and D. Vinyoles|Biochemical Aspects of Susceptibility to Stressors in Two Small Cyprinids Squalius laietanus and Barbus meridionalis from the NW Mediterranean|Comp. Biochem. Physiol. C Toxicol. Pharmacol.242:8 p.|2021|10.1016/j.cbpc.2020.108940
186098|T||Rakwal,R., K. Shii, G.K. Agrawal, and M. Yonekura|Protein Phosphatase Inhibitors Activate Defense Responses in Rice (Oryza sativa) Leaves|Physiol. Plant. (Multiple Languages)111(2): 151-157|2001|10.1034/j.1399-3054.2001.1110204.x
186099|A||Puerto,M., A.I. Prieto, A. Jos, I. Moreno, R. Moyano, A. Blanco, and A.M. Camean|Dietary N-Acetylcysteine (NAC) Prevents Histopathological Changes in Tilapias (Oreochromis niloticus) Exposed to a Microcystin-Producing Cyanobacterial Water Bloom|Aquaculture306(1-4): 35-48|2010|10.1016/j.aquaculture.2010.06.020
186100|T||Ma,Y., C.R. Perez, B.A. Branfireun, and C.G. Guglielmo|Dietary Exposure to Methylmercury Affects Flight Endurance in a Migratory Songbird|Environ. Pollut.234:894-901|2018|10.1016/j.envpol.2017.12.011
186101|T||Morran,S.A.M., J.E. Elliott, J.M.L. Young, M.L. Eng, N. Basu, and T.D. Williams|Ecologically-Relevant Exposure to Methylmercury During Early Development does not Affect Adult Phenotype in Zebra Finches (Taeniopygia guttata)|Ecotoxicology27(3): 259-266|2018|10.1007/s10646-017-1890-4
186102|T||Leclaire,S., M. Chatelain, A. Pessato, B. Buatois, A. Frantz, and J. Gasparini|Pigeon Odor Varies with Experimental Exposure to Trace Metal Pollution|Ecotoxicology28(1): 76-85|2019|10.1007/s10646-018-2001-x
186103|T||Head,J.A., and S.W. Kennedy|Interindividual Variation in the Cytochrome P4501A Response to 2,3,7,8-Tetrachlorodibenzo-P-Dioxin in Herring Gull Embryo Hepatocytes|Environ. Toxicol. Chem.38(3): 660-670|2019|10.1002/etc.4350
186104|T||Li,P., Z. Xiao, X. Xie, Z. Li, H. Yang, X. Ma, J. Sun, and J. Li|Perfluorooctanoic Acid (PFOA) Changes Nutritional Compositions in Lettuce (Lactuca sativa) Leaves by Activating Oxidative Stress|Environ. Pollut.285(15): 117246-117246|2020|10.1016/j.envpol.2021.117246
186105|T||Li,P., J. Sun, X. Xie, Z. Li, B. Huang, G. Zhang, J. Li, and Z. Xiao|Stress Response and Tolerance to Perfluorooctane Sulfonate (PFOS) in Lettuce (Lactuca sativa)|J. Hazard. Mater.404:12 p.|2021|10.1016/j.hazmat.2020.124213
186106|T||Milani,N.|The Resistance of Varroa jacobsoni Oud to Pyrethroids: A Laboratory Assay|Apidologie26:415-429|1995|10.1051/apido:19950507
186107|T||Kim,Y.J., H.M. Park, J.R. Cho, and Y.J. Ahn|Multiple Resistance and Biochemical Mechanisms of Pyridaben Resistance in Tetranychus urticae (Acari: Tetranychidae)|J. Econ. Entomol.99(3): 954-958|2006|10.1093/jee/99.3.954
186108|T||Guillen,J., M. Navarro, and P. Bielza|Cross-Resistance and Baseline Susceptibility of Spirotetramat in Frankliniella occidentalis (Thysanoptera: Thripidae)|J. Econ. Entomol.107(3): 1239-1244|2014|10.1603/EC13397
186109|T||Contreras,J., P.J. Espinosa, V. Quinto, J. Abellan, C. Gravalos, E. Fernandez, and P. Bielza|Life-Stage Variation in Insecticide Resistance of the Western Flower Thrips (Thysanoptera: Thripidae)|J. Econ. Entomol.103:2164-2168|2010|10.1603/EC09391
186110|T||Kwon,D.H., K. Kim, T.J. Kang, S.J. Kim, B.R. Choi, J.I. Kim, and S.H. Lee|Establishment of an Insecticide Resistance Monitoring Protocol Based on the Residual Contact Vial Bioassay for Frankliniella occidentalis|J. Asia Pac. Entomol.18(2): 311-314|2015|10.1016/j.aspen.2015.04.003
186111|A||Tisler,T., A. Krel, U. Gerzelj, B. Erjavec, M.S. Dolenc, and A. Pintar|Hazard Identification and Risk Characterization of Bisphenols A, F and AF to Aquatic Organisms|Environ. Pollut.212:472-479|2016|10.1016/j.envpol.2016.02.045
186112|T||Romanowska-Duda B,Z., M. Grzesik, J.T. Mankiewicz, and M. Zalewski|Bioindication of Microcystins Toxicity by Germinating Seeds|WIT Trans. Biomed. Health1:243-252|2006|10.2495/ETOX060241
186113|T||Arnoldi,A., S. Dallavalle, L. Merlini, L. Musso, G. Farina, M. Moretti, and L. Jayasinghe|Synthesis and Antifungal Activity of a Series of N-Substituted 2-(2,4-Dichlorophenyl)-3-(1,2,4-triazol-1-yl) Propylamines|J. Agric. Food Chem.55(20): 8187-8192|2007|10.1021/jf071631g
186114|T||Sun,H., S. Kasai, and J.G. Scott|Two Novel House Fly Vssc Mutations, D600N and T929I, Give Rise to New Insecticide Resistance Alleles|Pestic. Biochem. Physiol.143:116-121|2017|10.1016/j.pestbp.2017.08.013
186115|A||Lopes,C., F. Malhao, C. Guimaraes, I. Pinheiro, J.F. Goncalves, L.F.C. Castro, E. Rocha, and T.V. Madureira|Testosterone-Induced Modulation of Peroxisomal Morphology and Peroxisome-Related Gene Expression in Brown Trout (Salmo trutta F. Fario) Primary Hepatocytes|Aquat. Toxicol.193:30-39|2017|10.1016/j.aquatox.2017.09.026
186117|T||Sharin,T., H. Gyasi, K.L. Williams, D. Crump, and J.M. O'Brien|Effects of Two Bisphenol A Replacement Compounds, 1,7-Bis (4-Hydroxyphenylthio)-3,5-Dioxaheptane and Bisphenol AF, on Development and mRNA Expression in Chicken Embryos|Ecotoxicol. Environ. Saf.215:112140-|2021|10.1016/j.ecoenv.2021.112140
186118|T||Sharin,T., K.L. Williams, S. Chiu, D. Crump, and J.M. O'Brien|Toxicity Screening of Bisphenol A Replacement Compounds: Cytotoxicity and mRNA Expression in Primary Hepatocytes of Chicken and Double-Crested Cormorant|Environ. Toxicol. Chem.40(5): 1368-1378|2021|10.1002/etc.4985
186119|T||Chatelain,M., J. Gasparini, and A. Frantz|Do Trace Metals Select for Darker Birds in Urban Areas? An Experimental Exposure to Lead and Zinc|Global Change Biol.22:2380-2391|2016|10.1111/gcb.13170
186120|T||Chatelain,M., A. Pessato, A. Frantz, J. Gasparini, and S. Leclaire|Do Trace Metals Influence Visual Signals? Effects of Trace Metals on Iridescent and Melanic Feather Colouration in the Feral Pigeons|Oikos126(11): 1542-1553|2017|
186121|A||3M Co.|Information on Perfluorooctane Sulfonates: Post-1975 Studies Pertaining to Environmental Effects, Fate & Transport, and Health Effects, W/Attchmnts & Cvr Ltr Dtd 050400 [FC-95 DATA]|EPA/OTS:|2000|
186122|A||3M Co.|Information on Perfluorooctane Sulfonates: Post-1975 Studies Pertaining to Environmental Effects, Fate & Transport, and Health Effects, W/Attchmnts & Cvr Ltr Dtd 050400 [FM-3820 DATA]|EPA/OTS:|2000|
186123|T||Miles,M.R., C. Levy, W. Morel, T. Mueller, T. Steinlage, N. Van Rij, R.D. Frederick, and G.L. Hartman|International Fungicide Efficacy Trials for the Management of Soybean Rust|Plant Dis.91(11): 1450-1458|2007|10.1094/PDIS-91-11-1450
186124|T||Patricio,F.R.A., I.M.G. Almeida, B.C. Barros, A.S. Santos, and P.M. Frare|Effectiveness of Acibenzolar-S-Methyl, Fungicides and Antibiotics for the Control of Brown Eye Spot, Bacterial Blight, Brown Leaf Spot and Coffee Rust in Coffee|Ann. Appl. Biol.152(1): 29-39|2008|10.1111/j.1744-7348.2007.00187.x
186125|T||Paris,H.S., and R. Cohen|Powdery Mildew-Resistant Summer Squash Hybrids Having Higher Yields than Their Susceptible, Commercial Counterparts|Euphytica 124(1): 121-128|2002|10.1023/A:1015623013740
186126|T||McKay,A.H., H. Forster, and J.E. Adaskaveg|Toxicity and Resistance Potential of Selected Fungicides to Galactomyces and Penicillium spp. Causing Postharvest Fruit Decays of Citrus and Other Crops|Plant Dis.96(1): 87-96|2012|10.1094/PDIS-06-11-0466
186127|T||Cioni,F., M. Collina, G. Maines, M.F.R. Khan, G.A. Secor, and V.V. Rivera|A New Integrated Pest Management (IPM) Model for Cercospora Leaf Spot of Sugar Beets in the Po Valley, Italy|Sugar Technol.16(1): 92-99|2014|10.1007/s12355-013-0260-7
186128|T||Secor,G.A., V.V. Rivera-Varas, N.C. Gudmestad, and J.J. Weiland|Sensitivity of Cercospora beticola to Foliar Fungicides in the Red River Valley of North Dakota and Minnesota|In: R.T.Lartey, J.J.Weiland, L.Panella, P.W.Crous and C.E.Windels (Eds.), Cercospora Leaf Spot of Sugar Beet and Related Species, APS Press Minneapolis, MN:213-222|2013|
186129|T||Bolton,M.D., K. Birla, V. Rivera-Varas, K.D. Rudolph, and G.A. Secor|Characterization of CbCyp51 from Field Isolates of Cercospora beticola|Phytopathology102(3): 298-305|2012|10.1094/PHYTO-07-11-0212
186131|T||Garcia-Cela,E., J. Gil-Serna, S. Marin, H. Acevedo, B. Patino, and A.J. Ramos|Effect of Preharvest Anti-Fungal Compounds on Aspergillus steynii and A. carbonarius Under Fluctuating and Extreme Environmental Conditions|Int. J. Food Microbiol.159(2): 167-176|2012|10.1016/j.ijfoodmicro.2012.08.001
186132|T||Kano,R., H. Sobukawa, S.Y. Murayama, D. Hirose, Y. Tanaka, Y. Kosuge, A. Hasegawa, and H. Kamata|In Vitro Resistance of Aspergillus fumigatus to Azole Farm Fungicide|J. Infect. Chemother.22:133-136|2016|10.1016/j.jiac.2015.11.009
186133|T||Da Silva,J.C., N.D. Suassuna, and W. Bettiol|Management of Ramularia Leaf Spot on Cotton Using Integrated Control with Genotypes, a Fungicide and Trichoderma asperellum|Crop Prot.94:28-32|2017|10.1016/j.cropro.2016.12.006
186134|T||Reuveni,M., L. Gur, and A. Farber|Development of Improved Disease Management for Powdery Mildew on Mango Trees in Israel|Crop Prot.110:221-228|2018|10.1016/j.cropro.2017.07.017
186135|T||Gozzo,F., C. Garavaglia, and L. Mirenna|The Logic of Cereal Disease Control with Antifungal Azoles|Pestic. Biochem. Physiol.40(1): 68-79|1991|10.1016/0048-3575(91)90049-R
186136|T||Delaney,D.P., E.J. Sikora, K.S. Lawrence, and B. Durbin|Topguard Fungicide Rates and Timing for Asian Soybean Rust Control in Alabama's Gulf Coast Region, 2009|Res. Rep. Ser.37:16-|2010|
186137|T||Sandoval-Mojica,A.F., and M.E. Scharf|Silencing Gut Genes Associated with the Peritrophic Matrix of Reticulitermes flavipes (Blattodea: Rhinotermitidae) Increases Susceptibility to Termiticides|Insect Mol. Biol.25(6): 734-744|2016|10.1111/imb.12259
186138|T||Boisvenue,R.J., and G.O.P. O'Doherty|Systemic Animal External Parasiticidal Activity of Perfluoroalkylbenzimidazoles and Their Aminoanilide Precursors|Experientia36(2): 189-190|1980|10.1007/BF01953723
186139|T||Zhang,R., J. Zhang, X. Zhang, J.M. Zhang, G. Su, R. Farmahin, J.P. Giesy, and H. Yu|In Vitro Dioxin-like Potencies of HO- and MeO-PBDEs and Inter -Species Sensitivity Variation in Birds|Ecotoxicol. Environ. Saf.126:202-210|2016|10.1016/j.ecoenv.2015.12.040
186140|T||Yu,M.S., M.L. Eng, T.D. Williams, N. Basu, and J.E. Elliottz|Acute Embryotoxic Effects but No Long-Term Reproductive Effects of in Ovo Methylmercury Exposure in Zebra Finches (Taeniopygia guttata)|Environ. Toxicol. Chem.35(6): 1534-1540|2016|10.1002/etc.3307
186142|T||Chin,S.Y., W.A. Hopkins, and D.A. Cristol|Mercury Alters Initiation and Construction of Nests by Zebra Finches, but not Incubation or Provisioning Behaviors|Ecotoxicology26(9): 1271-1283|2017|10.1007/s10646-017-1852-x
186143|A||Xie,L., W. Yan, J. Li, L. Yu, J. Wang, G. Li, N. Chen, and A.D. Steinman|Microcystin-RR Exposure Results in Growth Impairment by Disrupting Thyroid Endocrine in Zebrafish Larvae|Aquat. Toxicol.164:16-22|2015|10.1016/j.aquatox.2015.04.014
186145|T||Perkins,M., B.D. Barst, J. Hadrava, and N. Basu|Mercury Speciation and Subcellular Distribution in Experimentally Dosed and Wild Birds|Environ. Toxicol. Chem.36(12): 3289-3298|2017|10.1002/etc.3905
186146|T||Swaddle,J.P., T.R. Diehl, C.E. Taylor, A.S. Fanaee, J.L. Benson, N.R. Huckstep, and D.A. Cristol|Exposure to Dietary Mercury Alters Cognition and Behavior of Zebra Finches|Curr. Zool.63(2): 213-219|2017|10.1093/cz/zox007
186147|T||Greene,V.W., J.P. Swaddle, D.L. Moseley, and D.A. Cristol|Attractiveness of Male Zebra Finches is not Affected by Exposure to an Environmental Stressor, Dietary Mercury|Condor120(1): 125-136|2018|10.1650/CONDOR-17-19.1
186148|T||Rodriguez-Martinez,S., and I. Galvan|A Source of Exogenous Oxidative Stress Improves Oxidative Status and Favors Pheomelanin Synthesis in Zebra Finches|Comp. Biochem. Physiol. C Toxicol. Pharmacol.228:7 p.|2020|10.1016/j.cbpc.2019.108667
186149|T||Paris,O.J., J.P. Swaddle, and D.A. Cristol|Exposure to Dietary Methyl-Mercury Solely During Embryonic and Juvenile Development Halves Subsequent Reproductive Success in Adult Zebra Finches|Environ. Sci. Technol.52(5): 3117-3124|2018|10.1021/acs.est.7b04752
186150|T||Grieves,L.A., C.L.J. Bottini, B.A. Branfireun, M.A. Bernards, S.A. Macdougall-Shackleton, and E.A. Macdougall-Shackleto|Food Stress, but not Experimental Exposure to Mercury, Affects Songbird Preen Oil Composition|Ecotoxicology29(3): 275-285|2020|10.1007/s10646-020-02171-x
186151|T||Nakayama,S.M.M., A. Morita, Y. Ikenaka, Y.K. Kawai, K.P. Watanabe, C. Ishii, H. Mizukawa, Y.B. Yohannes, K. Saito, Y. W|Avian Interspecific Differences in VKOR Activity and Inhibition: Insights from Amino Acid Sequence and mRNA Expression Ratio of VKORC1 and VKORC1L1|Comp. Biochem. Physiol. C Toxicol. Pharmacol.228:10 p.|2020|10.1016/j.cbpc.2019.108635
186152|T||Patton,T.G., S.L. Blamer, and K.E. Horak|Detecting Methemoglobinemia in Animals with a Drop of Blood|PLoS One11(12): 10 p.|2016|10.1371/journal.pone.0167942
186153|T||Santos,C.S.A., A. Sotillo, T. Gupta, S. Delgado, W. Muller, E.W.M. Stienen, L. De Neve, L. Lens, A. Soares, M.S. Montei|Mercury Uptake Affects the Development of Larus fuscus Chicks|Environ. Toxicol. Chem.39(10): 2008-2017|2020|10.1002/etc.4823
186154|T||Heddle,C., J.E. Elliott, T.M. Brown, M.L. Eng, M. Perkins, N. Basu, and T.D. Williams|Continuous Exposure to Mercury During Embryogenesis and Chick Development Affects Later Survival and Reproduction of Zebra Finch (Taeniopygia guttata)|Ecotoxicology29(8): 1117-1127|2020|10.1007/s10646-019-02074-6
186155|T||Katarzynska-Banasik,D., M. Grzesiak, K. Kowalik, and A. Sechman|Administration of Silver Nanoparticles Affects Ovarian Steroidogenesis and May Influence Thyroid Hormone Metabolism in Hens (Gallus domesticus)|Ecotoxicol. Environ. Saf.208:11 p.|2021|10.1016/j.ecoenv.2020.111427
186156|A||Jacob,R.S., C.V.M. Araujo, L.V.D.S. Santos, V.R. Moreira, Y.A.R. Lebron, and L.C. Lange|The Environmental Risks of Pharmaceuticals Beyond Traditional Toxic Effects: Chemical Differences that can Repel or Entrap Aquatic Organisms|Environ. Pollut.268:10 p.|2021|10.1016/j.envpol.2020.115902
186157|T||Kaur,K., D. Utreja, N.K. Dhillon, R.K. Pathak, and K. Singh|N-Alkyl Isatin Derivatives: Synthesis, Nematicidal Evaluation and Protein Target Identifications for Their Mode of Action|Pestic. Biochem. Physiol.171:9 p.|2021|10.1016/j.pestbp.2020.104736
186158|T||Wang,X., C. Han, Y. Cui, S. Li, G. Jin, W. Shi, and Y. Bao|Florfenicol Causes Excessive Lipid Peroxidation and Apoptosis Induced Renal Injury in Broilers|Ecotoxicol. Environ. Saf.207:8 p.|2021|
186159|T||Chen,X., X. Fan, Y. Ma, and J. Hu|Dissipation Behaviour, Residue Distribution and Dietary Risk Assessment of Tetraconazole and Kresoxim-Methyl in Greenhouse Strawberry via RRLC-QqQ-MS/MS Technique|Ecotoxicol. Environ. Saf.148:799-804|2018|10.1016/j.ecoenv.2017.11.019
186160|T||Li,S., X. Zheng, X. Zhang, H. Yu, B. Han, Y. Lv, Y. Liu, X. Wang, and Z. Zhang|Exploring the Liver Fibrosis Induced by Deltamethrin Exposure in Quails and Elucidating the Protective Mechanism of Resveratrol|Ecotoxicol. Environ. Saf.270:10 p.|2021|
186161|A||Tshering,G., W. Pimtong, T. Plengsuriyakarn, and K. Na-Bangchang|Anti-Angiogenic Effects of Beta-Eudesmol and Atractylodin in Developing Zebrafish Embryos|Comp. Biochem. Physiol. C Toxicol. Pharmacol.243:7 p.|2021|10.1016/j.cbpc.2021.108980
186162|A||Kumar,S., M. Moniruzzaman, A. Chakraborty, A. Sarbajna, and S.B. Chakraborty|Crosstalk Between Heat Shock Proteins, NRF2, NF-Kappa B and Different Endogenous Antioxidants During Lead-Induced Hepatotoxicity in Puntius ticto|Aquat. Toxicol.233:10 p.|2021|10.1016/j.aquatox.2021.105771
186163|A||Zhao,Y.G., S.Q. Zhang, X.D. Shu, Y.J. Yang, Y. Li, J.Q. Chen, Y. Pan, and S.C. Sun|Effects of Norfloxacin on Decomposition and Nutrient Release in Leaves of the Submerged Macrophyte Vallisneria natans (Lour.) Hara|Environ. Pollut.274:12 p.|2021|10.1016/j.envpol.2021.116557
186164|A||Hong,H.Z., J.X. Wang, and D.L. Shi|Effects of Salinity on the Chronic Toxicity of 4-Methylbenzylidene Camphor (4-MBC) in the Marine Copepod Tigriopus japonicus|Aquat. Toxicol.232:105742-105742|2021|10.1016/j.aquatox.2021.105742
186165|T||Tang,L., Y. Hamid, Z.Q. Chen, Q. Lin, M.J.I. Shohag, Z.L. He, and X.E. Yang|A Phytoremediation Coupled with Agro-Production Mode Suppresses Fusarium Wilt Disease and Alleviates Cadmium Phytotoxicity of Cucumber (Cucumis sativus L.) in Continuous Cropping Greenhouse Soil|Chemosphere270:13 p.|2021|10.1016/j.chemosphere.2020.128634
186166|T||Sukut,F., and N.D. Koycu|Effect of Fungicide Application on the Sensitivity of Fusarium culmorum|Fresenius Environ. Bull.28:1471-1479|2019|
186167|T||Glenn,G.J., J.W. Austin, and R.E. Gold|Efficacy of Commercial Termite Baiting Systems for Management of Subterranean Termites (Isoptera : Rhinotermitidae) in Texas|Sociobiology51(2): 333-362|2008|
186168|T||Wei,C.Y., Z. Zhou, L. Wang, Z.C. Huang, Y. Liang, and J. Zhang|Perfluorooctane Sulfonate (PFOS) Disturbs Fatty Acid Metabolism in Caenorhabditis elegans: Evidence from Chemical Analysis and Molecular Mechanism Exploration|Chemosphere277:10 p.|2021|10.1016/j.chemosphere.2021.130359
186169|A||Zhang,W.L., and Y.N. Liang|Interactions Between Lemna minor (Common Duckweed) and PFAS Intermediates: Perfluorooctanesulfonamide (PFOSA) and 6:2 Fluorotelomer Sulfonate (6:2 FTSA)|Chemosphere276:7 p.|2021|10.1016/j.chemosphere.2021.130165
186170|A||Hu,C.Y., Z.L. Huang, M.Y. Liu, B.L. Sun, L.Z. Tang, and L.G. Chen|Shift in Skin Microbiota and Immune Functions of Zebrafish after Combined Exposure to Perfluorobutanesulfonate and Probiotic Lactobacillus rhamnosus|Ecotoxicol. Environ. Saf.218:9 p.|2021|10.1016/j.ecoenv.2021.112310
186171|AT||Black,S.R., J.W. Nichols, K.A. Fay, S.R. Matten, and S.G. Lynn|Evaluation and Comparison of In Vitro Intrinsic Hepatic Clearance Rates Measured Using Cryopreserved Hepatocytes from Humans, Rats, and Rainbow Trout|Toxicology457:16 p.|2021|10.1016/j.tox.2021.152819
186172|AT||Han,J., J. Fu, J. Sun, D.R. Hall, D. Yang, D. Blatz, K. Houck, C. Ng, J. Doering, C. LaLone, and H. Peng|Quantitative Chemical Proteomics Reveals Interspecies Variations on Binding Schemes of Liver Fatty Acid Binding Protein with Perfluorooctanesulfonate|Environ. Sci. Technol.55(13): 9012-9023|2021|10.1021/acs.est.1c00509
186173|A||Guimaraes,A.T.B., F.N. Estrela, A.S.D. Rodrigues, R.H. Nobrega, I. Charlie-Silva, and G. Malafaia|Can Carbon Nanofibers Affect Anurofauna? Study Involving Neotropical Physalaemus cuvieri (Fitzinger, 1826) Tadpoles|Aquat. Toxicol.233:105795-105795|2021|10.1016/j.aquatox.2021.105795
186174|T||Ijaz,M., and S.A. Shad|Genetic Basis and Realized Heritability of Laboratory Selected Spirotetramat Resistance for Insecticide Resistance Management in Oxycarenus hyalinipennis costa (Hemiptera: Lygaeidae)|Chemosphere270:128617-128617|2021|10.1016/j.chemosphere.2020.128617
186175|A||Branco,G.S., R.G. Moreira, M.I. Borella, M.D.P. Camargo, M. Munoz-Penuela, A.D. Gomes, and C.E. Tolussi|Nonsteroidal Anti-Inflammatory Drugs Act as Endocrine Disruptors in Astyanax lacustris (Teleostei: Characidae) Reproduction: An Ex Vivo Approach|Aquat. Toxicol.232:8 p.|2021|10.1016/j.aquatox.2021.105767
186176|T||Sun,Z.H., X.W. Li, K. Wang, P. Zhao, J. Li, W.J. Wang, M. Ahmed, J. Shafi, B.C. Zhao, D.N. Fu, H. Zhu, and M.S. Ji|Molecular Basis of Cross-Resistance to Acetohydroxy Acid Synthase-Inhibiting Herbicides in Sagittaria trifolia L|Pestic. Biochem. Physiol.173:10 p.|2021|10.1016/j.pestbp.2021.104795
186177|A||Kong,R., Q. Sun, S.Y. Cheng, J. Fu, W. Liu, R.J. Letcher, and C.S. Liu|Uptake, Excretion and Toxicity of Titanate Nanotubes in Three Stains of Free-Living Ciliates of the Genus Tetrahymena|Aquat. Toxicol.233:4 p.|2021|10.1016/j.aquatox.2021.105790
186178|T||Li,T.T., H.L. Li, T.T. Liu, J.M. Zhu, L.Y. Zhang, W. Mu, and F. Liu|Evaluation of the Antifungal and Biochemical Activities of Mefentrifluconazole Against Botrytis cinerea|Pestic. Biochem. Physiol.173:104784-104784|2021|10.1016/j.pestbp.2021.104784
186179|A||Yang,Q., W.H. Xu, T.G. Luan, T.L. Pan, L.H. Yang, and L. Lin|Comparative Responses of Cell Growth and Related Extracellular Polymeric Substances in Tetraselmis sp. to Nonylphenol, Bisphenol A and 17 alpha-Ethinylestradiol|Environ. Pollut.274:116605-116605|2021|10.1016/j.envpol.2021.116605
186180|A||Zhang,C.F., X.D. Chen, W.C. Chou, and S.H. Ho|Phytotoxic Effect and Molecular Mechanism Induced by Nanodiamonds Towards Aquatic Chlorella pyrenoidosa by Integrating Regular and Transcriptomic Analyses|Chemosphere270:10 p.|2021|10.1016/j.chemosphere.2020.129473
186181|A||Villeneuve,D.L., B.R. Blackwell, J.E. Cavallin, W.Y. Cheng, D.J. Feifarek, K.M. Jensen, M.W. Kahl, R.Y. Milsk, S.T. Poo|Case Study in 21st Century Ecotoxicology: Using in Vitro Aromatase Inhibition Data to Predict Short-Term in Vivo Responses in Adult Female Fish|Environ. Toxicol. Chem.40(4): 1155-1170|2021|10.1002/etc.4968
186182|A||Cui,Y.H., Q.S. Shi, D.D. Zhang, L.L. Wang, J. Feng, Y.W. Chen, and X.B. Xie|Detoxification of Ionic Liquids Using Glutathione, Cysteine, and NADH: Toxicity Evaluation by Tetrahymena pyriformis|Environ. Pollut.276:116725-116725|2021|10.1016/j.envpol.2021.116725
186183|A||Shi,W.J., Y.Q. Liang, J.L. Zhao, L.X. Hu, G.Y. Huang, and G.G. Ying|Dydrogesterone Affects the Transcription of Genes in Innate Immune and Coagulation Cascade in Zebrafish Embryos|Bull. Environ. Contam. Toxicol.106(4): 594-599|2021|10.1007/s00128-021-03127-5
186184|T||Zhou,S.F., Y. Tang, L. Pan, C. Wang, Y.A. Guo, H.N. Yang, Z.R. Li, L.Y. Bai, and L.F. Wang|Effect of Fulvic Acid on Barnyardgrass (Echinochloa crus-galli) Seedling Growth Under Flooding Conditions|Weed Sci.69(2): 192-202|2021|10.1017/wsc.2020.95
186185|A||Yan,Z.F., C.L. Feng, X.W. Jin, D.Q. Liu, Y.J. Hong, Y. Qiao, Y.C. Bai, H.B. Moon, A. Qadeer, and F.C. Wu|In Vitro Metabolic Kinetics of Cresyl Diphenyl Phosphate (CDP) in Liver Microsomes of Crucian Carp (Carassius carassius)|Environ. Pollut.274:8 p.|2021|10.1016/j.envpol.2021.116586
186186|T||Liu,S., H. He, G. Feng, and Q. Chen|Effect of Nitrogen and Sulfur Interaction on Growth and Pungency of Different Pseudostem Types of Chinese Spring Onion (Allium fistulosum L.)|Sci. Hortic.121(1): 12-18|2009|10.1016/j.scienta.2009.01.019
186187|A||Martino,C., M. Byrne, M.C. Roccheri, and R. Chiarelli|Interactive Effects of Increased Temperature and Gadolinium Pollution in Paracentrotus lividus Sea Urchin Embryos: A Climate Change Perspective|Aquat. Toxicol.232:11 p.|2021|10.1016/j.aquatox.2021.105750
186188|A||Zou,T., Y.Q. Liang, X.L. Liao, X.F. Chen, T. Wang, Y.Y. Song, Z.C. Lin, Z.H. Qi, Z.F. Chen, and Z.W. Cai|Metabolomics Reveals the Reproductive Abnormality in Female Zebrafish Exposed to Environmentally Relevant Levels of Climbazole|Environ. Pollut.275:10 p.|2021|10.1016/j.envpol.2021.116665
186189|A||Gu,W.W., X.X. Li, M.J. Du, Z.X. Ren, Q. Li, and Y. Li|Identification and Regulation of Ecotoxicity of Polychlorinated Naphthalenes to Aquatic Food Chain (Green Algae-Daphnia magna-Fish)|Aquat. Toxicol.233:10 p.|2021|10.1016/j.aquatox.2021.105774
186190|A||Ierardi,J.L., A. Veloso, and A. Mancia|Transcriptome Analysis of Cadmium Exposure in Kidney Fibroblast Cells of the North Atlantic Right Whale (Eubalaena glacialis)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.242:10 p.|2021|10.1016/j.cbpc.2020.108946
186191|T||Stier,A., P. Bize, S. Massemin, and F. Criscuolo|Long-Term Intake of the Illegal Diet Pill DNP Reduces Lifespan in a Captive Bird Model|Comp. Biochem. Physiol. C Toxicol. Pharmacol.242:4 p.|2021|10.1016/j.cbpc.2020.108944
186192|A||Ussery,E.J., K.M. Nielsen, D. Simmons, Z. Pandelides, C. Mansfield, and D. Holdway|An 'Omics Approach to Investigate the Growth Effects of Environmentally Relevant Concentrations of Guanylurea Exposure on Japanese Medaka (Oryzias latipes)|Aquat. Toxicol.232:11 p.|2021|10.1016/j.aquatox.2021.105761
186193|A||Chen,J.J., Y.J. Luo, J.L. Cao, and L.T. Xie|Fluoride Exposure Changed the Expression of MicroRNAs in Gills of Male Zebrafish (Danio rerio)|Aquat. Toxicol.233:9 p.|2021|10.1016/j.aquatox.2021.105789
186194|A||Hossain,M.M., H. Huang, Y. Yuan, T. Wan, C. Jiang, Z. Dai, S. Xiong, M. Cao, and S. Tu|Silicone Stressed Response of Crayfish (Procambarus clarkii) in Antioxidant Enzyme Activity and Related Gene Expression|Environ. Pollut.274:115836-|2021|10.1016/j.envpol.2020.115836
186195|T||Rostami,S., A. Azhdarpoor, M.A. Baghapour, M. Dehghani, M.R. Samaei, M. Jaskulak, S. Jafarpour, and M. Samare-Najaf|The Effects of Exogenous Application of Melatonin on the Degradation of Polycyclic Aromatic Hydrocarbons in the Rhizosphere of Festuca|Environ. Pollut.274:8 p.|2021|10.1016/j.envpol.2021.116559
186196|T||Li,Z.Q., Y.L. Hu, M.M. Chang, M.H. Kashif, M.Q. Tang, D.J. Luo, S. Cao, H. Lu, W.X. Zhang, Z. Huang, J. Yue, and P. Che|5-Azacytidine Pre-Treatment Alters DNA Methylation Levels and Induces Genes Responsive to Salt Stress in Kenaf (Hibiscus cannabinus L.)|Chemosphere271:129562-129562|2021|10.1016/j.chemosphere.2021.129562
186197|A||Bhattacharya,R., A. Chatterjee, S. Chatterjee, and N.C. Saha|Acute Toxicity and Sublethal Effects of Sodium Laureth Sulfate on Oxidative Stress Enzymes in Benthic Oligochaete Worm, Tubifex tubifex|Comp. Biochem. Physiol. C Toxicol. Pharmacol.243:108998-108998|2021|10.1016/j.cbpc.2021.108998
186198|A||Tinguely,S.M., A. David, A. Lange, and C.R. Tyler|Effects of Maternal Exposure to Environmentally Relevant Concentrations of 17 alpha-Ethinyloestradiol in a Live Bearing Freshwater Fish, Xenotoca eiseni (Cyprinodontiformes, Goodeidae)|Aquat. Toxicol.232:10 p.|2021|10.1016/j.aquatox.2021.105746
186199|A||Pham,H.T., K.V. Dinh, and T.H.T. Hoang|Reversible and Irreversible Transgenerational Effects of Metal Exposure on Nine Generations of a Tropical Micro-Crustacean|Environ. Pollut.276:116631-116631|2021|10.1016/j.envpol.2021.116631
186200|T||Gallego,S., D. Nos, N. Montemurro, J.C. Sanchez-Hernandez, S. Perez, M. Sole, and F. Martin-Laurent|Ecotoxicological Impact of the Antihypertensive Valsartan on Earthworms, Extracellular Enzymes and Soil Bacterial Communities|Environ. Pollut.275:11 p.|2021|10.1016/j.envpol.2021.116647
186201|A||Thore,E.S.J., L. Brendonck, and T. Pinceel|Natural Daily Patterns in Fish Behaviour May Confound Results of Ecotoxicological Testing|Environ. Pollut.276:116738-116738|2021|10.1016/j.envpol.2021.116738
186203|T||Whitney,M., and D. Cristol|Rapid Depuration of Mercury in Songbirds Accelerated by Feather Molt|Environ. Toxicol. Chem.36(11): 3120-3126|2017|10.1002/etc.3888
186204|T||Finger,J.W., J. Botero, Y.F. Zhang, S.E. Still, A.J. Hoffman, A.N. Kavazis, D.A. Cristol, and H. Wada|No Effect of Lifelong Methylmercury Exposure on Oxidative Status in Zebra Finches (Taeniopygia guttata): A Demonstration of Methylmercury-Induced Selection?|Bull. Environ. Contam. Toxicol.99(6): 668-672|2017|10.1007/s00128-017-2202-7
186205|A||Rymuszka,A., and L. Adaszek|Cytotoxic Effects and Changes in Cytokine Gene Expression Induced by Microcystin-Containing Extract in Fish Immune Cells - an In Vitro and In Vivo Study|Fish Shellfish Immunol.34(6): 1524-1532|2013|10.1016/j.fsi.2013.03.364
186206|A||Rymuszka,A., and A. Sieroslawska|Study on Apoptotic Effects of Neurotoxin Anatoxin-a on Fish Immune Cells|Neuroendocrinol. Lett.31(2): 11-15|2010|
186207|A||Rymuszka,A., and A. Sieroslawska|Effects of Neurotoxin - Anatoxin-a on Common Carp (Cyprinus carpio L.) Innate Immune Cells In Vitro|Neuroendocrinol. Lett.32(1): 84-88|2011|
186208|A||Rymuszka,A., and A. Sieroslawska|Cytotoxic and Immunotoxic Effects of the Mixture Containing Cyanotoxins on Carp Cells Following In Vitro Exposure|Cent.-Eur. J. Immunol.38(2): 159-163|2013|10.5114/ceji.2013.35207
186209|A||Pavan Da Silva,R.R., O.R. Pires, and C.K. Grisolia|Genotoxicity in Oreochromis niloticus (Cichlidae) Induced by Microcystis spp Bloom Extract Containing Microcystins|Toxicon58(3): 259-264|2011|10.1016/j.toxicon.2011.06.005
186210|A||Pawlik-Skowronska,B., M. Toporowska, and H. Mazur-Marzec|Toxic Oligopeptides in the Cyanobacterium Planktothrix agardhii - Dominated Blooms and Their Effects on Duckweed (Lemnaceae) Development|Knowledge Manag. Aquat. Ecosyst.419:9 p.|2018|10.1051/kmae/2018026
186211|A||Yin,L., J. Huang, D. Li, and Y. Liu|Microcystin-RR Uptake and Its Effects on the Growth of Submerged Macrophyte Vallisneria natans (Iour.) Hara|Environ. Toxicol.20(3): 308-313|2005|10.1002/tox.20122
186212|T||Yin,L., J. Huang, W. Li, and Y. Liu|Microcystin-RR-Induced Apoptosis in Tobacco BY-2 Cells|Toxicon48(2): 204-210|2006|10.1016/j.toxicon.2006.05.002
186214|T||Samardzic,K., J.R. Steele, J.P. Violi, A. Colville, S.M. Mitrovic, and K.J. Rodgers|Toxicity and Bioaccumulation of Two Non-Protein Amino Acids Synthesised by Cyanobacteria, beta-N-Methylamino-L-Alanine (BMAA) and 2,4-Diaminobutyric Acid (DAB), on a Crop Plant|Ecotoxicol. Environ. Saf.208:7 p.|2021|10.1016/j.ecoenv.2020.111515
186215|AT||Perreault,F., M.S. Matias, S.P. Melegari, C.R.S.D.C. Pinto, E.E. Creppy, R. Popovic, and W.G. Matias|Investigation of Animal and Algal Bioassays for Reliable Saxitoxin Ecotoxicity and Cytotoxicity Risk Evaluation|Ecotoxicol. Environ. Saf.74(4): 1021-1026|2011|10.1016/j.ecoenv.2011.01.016
186216|A||Jambrik,K., C. Mathe, G. Vasas, I. Bacsi, G. Suranyi, S. Gonda, G. Borbely, and M. M-Hamvas|Cylindrospermopsin Inhibits Growth and Modulates Protease Activity in the Aquatic Plants Lemna minor L. and Wolffia arrhiza (L.) Horkel|Acta Biol. Hung.61(0): 77-94|2010|10.1556/ABiol.61.2010.Suppl.9
186217|A||Silva De Assis,H.C., C.A. Da Silva, E.T. Oba, J.H. Pamplona, M. Mela, H.B. Doria, I.C. Guiloski, W. Ramsdorf, and M.M. |Hematologic and Hepatic Responses of the Freshwater Fish Hoplias malabaricus After Saxitoxin Exposure|Toxicon66:25-30|2013|10.1016/j.toxicon.2013.01.012
186220|A||Hu,Z.Q., Y.D. Liu, D.H. Li, and A. Dauta|Growth and Antioxidant System of the Cyanobacterium Synechococcus elongatus in Response to Microcystin-RR|Hydrobiologia (Multiple Languages)534(1-3): 23-29|2005|10.1007/s10750-004-1319-y
186221|T||Hu,J., J. Liu, Y. Zhu, Z. Diaz-Perez, M. Sheridan, H. Royer, R. Leibensperger, D. Maizel, L. Brand, K.J. Popendorf, C.J|Exposure to Aerosolized Algal Toxins in South Florida Increases Short- and Long-Term Health Risk in Drosophila Model of Aging|Toxins (Basel)12(12): 15 p.|2020|10.3390/toxins12120787
186222|T||Esterhuizen-Londt,M., and S. Pflugmacher|Vegetables Cultivated with Exposure to Pure and Naturally Occurring beta-N-Methylamino-L-Alanine (BMAA) Via Irrigation|Environ. Res.169:357-361|2019|10.1016/j.envres.2018.11.030
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186224|T||Garda,T., M. Riba, G. Vasas, D. Beyer, M. M-Hamvas, G. Hajdu, I. Tandor, and C. Mathe|Cytotoxic Effects of Cylindrospermopsin in Mitotic and Non-Mitotic Vicia faba Cells|Chemosphere120:145-153|2015|10.1016/j.chemosphere.2014.06.035
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186317|A||Puerto,M., A. Jos, S. Pichardo, R. Moyano, A. Blanco, and A.M. Camean|Acute Exposure to Pure Cylindrospermopsin Results in Oxidative Stress and Pathological Alterations in Tilapia (Oreochromis niloticus)|Environ. Toxicol.29(4): 371-385|2014|10.1002/tox.21764
186318|A||Rabelo,J.C.S., A.L. Hanusch, L.W.O. De Jesus, L.A. Mesquita, F.C. Franco, R.A. Silva, and S.M.T. Saboia-Morais|DNA Damage Induced by Cylindrospermopsin on Different Tissues of the Biomonitor Fish Poecilia reticulata|Environ. Toxicol.36(6): 1125-1134|2021|10.1002/tox.23111
186319|A||Popova,A.A., U. Rasmussen, T.A. Semashko, V.M. Govorun, and O.A. Koksharova|Stress Effects of Cyanotoxin beta-Methylamino-L-Alanine (BMAA) on Cyanobacterial Heterocyst Formation and Functionality|Environ. Microbiol. Rep.10(3): 369-377|2018|10.1111/1758-2229.12647
186320|A||Huynh-Delerme,C., M. Edery, H. Huet, S. Puiseux-Dao, C. Bernard, J.J. Fontaine, F. Crespeau, and A. De Luze|Microcystin-LR and Embryo-Larval Development of Medaka Fish, Oryzias latipes. I. Effects on the Digestive Tract and Associated Systems|Toxicon46(1): 16-23|2005|10.1016/j.toxicon.2005.03.009
186321|A||Li,H., P. Xie, D. Zhang, and J. Chen|The First Study on the Effects of Microcystin-RR on Gene Expression Profiles of Antioxidant Enzymes and Heat Shock Protein-70 in Synechocystis sp. PCC6803|Toxicon53(6): 595-601|2009|10.1016/j.toxicon.2008.11.005
186324|AT||Starkus,J.G., and T. Narahashi|Sensitivity of Excitable and Inexcitable Membranes to a-Dihydrograyanotoxin II|Am. J. Physiol. Cell Physiol.4(3): |1978|10.1152/ajpcell.1978.235.5.c204
186325|A||Muller,J.P., D. Laloi, C. Yepremian, C. Bernard, and F.D. Hulot|To Flee or Not to Flee: Detection, Avoidance of and Attraction to Food Resources by Daphnia magna Studied with an Olfactometer|J. Limnol.72(3): 464-472|2013|10.4081/jlimnol.2013.e37
186326|T||El Khalloufi,F., K. Oufdou, M. Lahrouni, I. El Ghazali, S. Saqrane, V. Vasconcelos, and B. Oudra|Allelopatic Effects of Cyanobacteria Extracts Containing Microcystins on Medicago sativa-Rhizobia Symbiosis|Ecotoxicol. Environ. Saf.74(3): 431-438|2011|10.1016/j.ecoenv.2010.10.006
186327|T||Contardo-Jara,V., T. Schwanemann, and S. Pflugmacher|Uptake of a Cyanotoxin, beta-N-Methylamino-L-Alanine, by Wheat (Triticum aestivum)|Ecotoxicol. Environ. Saf.104:127-131|2014|10.1016/j.ecoenv.2014.01.039
186328|A||Popova,A.A., T.A. Semashko, N.V. Kostina, U. Rasmussen, V.M. Govorun, and O.A. Koksharova|The Cyanotoxin BMAA Induces Heterocyst Specific Gene Expression in Anabaena sp PCC 7120 Under Repressive Conditions|Toxins (Basel)10(11): 13 p.|2018|10.3390/toxins10110478
186330|A||Saker,M.L., J.S. Metcalf, G.A. Codd, and V.M. Vasconcelos|Accumulation and Depuration of the Cyanobacterial Toxin Cylindrospermopsin in the Freshwater Mussel Anodonta cygnea|Toxicon43(2): 185-194|2004|10.1016/j.toxicon.2003.11.022
186331|A||Kaminski,A., B. Bober, E. Chrapusta, and J. Bialczyk|Phytoremediation of Anatoxin-a by Aquatic Macrophyte Lemna trisulca L.|Chemosphere112:305-310|2014|10.1016/j.chemosphere.2014.04.064
186332|A||Sakuragui,M.M., M.G. Paulino, N.E. Da Silva E Souza, D. Tavares, A.P. Terezan, E. Pesenti, A. Giani, J.B. Fernandes, M.|Crude Extract of Cyanobacterium Radiocystis fernandoi Strain R28 Induces Anemia and Oxidative Stress in Fish Erythrocytes|Toxicon169:18-24|2019|10.1016/j.toxicon.2019.08.002
186333|A||Nogueira,I.C.G., A. Lobo-Da-Cunha, and V.M. Vasconcelos|Effects of Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum (Cyanobacteria) Ingestion on Daphnia magna Midgut and Associated Diverticula Epithelium|Aquat. Toxicol.80(2): 194-203|2006|10.1016/j.aquatox.2006.08.008
186334|A||Hu,Z., D. Li, B. Xiao, A. Dauta, and Y. Liu|Microcystin-RR Induces Physiological Stress and Cell Death in the Cyanobacterium Aphanizomenon sp. DC01 Isolated from Lake Dianchi, China|Fundam. Appl. Limnol.173(2): 111-120|2008|10.1127/1863-9135/2008/0173-0111
186336|A||Santos,C., J. Azevedo, A. Campos, V. Vasconcelos, and A.L. Pereira|Biochemical and Growth Performance of the Aquatic Macrophyte Azolla filiculoides to Sub-Chronic Exposure to Cylindrospermopsin|Ecotoxicology24(9): 1848-1857|2015|10.1007/s10646-015-1521-x
186337|A||Torokne,A.K., R. Vasdinnyei, and B.M. Asztalos|A Rapid Microbiotest for the Detection of Cyanobacterial Toxins|Environ. Toxicol.22(1): 64-68|2007|10.1002/tox.20235
186338|A||Berry,J.P., P.D.L. Gibbs, M.C. Schmale, and M.L. Saker|Toxicity of Cylindrospermopsin, and Other Apparent Metabolites from Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum, to the Zebrafish (Danio rerio) Embryo|Toxicon53(2): 289-299|2009|10.1016/j.toxicon.2008.11.016
186339|T||Beyer,D., G. Suranyi, G. Vasas, J. Roszik, F. Erdodi, M. M-Hamvas, I. Bacsi, R. Batori, Z. Serfozo, Z.M. Szigeti, G. Ve|Cylindrospermopsin Induces Alterations of Root Histology and Microtubule Organization in Common Reed (Phragmites australis) Plantlets Cultured In Vitro|Toxicon54(4): 440-449|2009|10.1016/j.toxicon.2009.05.008
186342|T||Cordeiro-Araujo,M.K., M.A. Chia, and M.D.C. Bittencourt-Oliveira|Potential Human Health Risk Assessment of Cylindrospermopsin Accumulation and Depuration in Lettuce and Arugula|Harmful Algae68:217-223|2017|10.1016/j.hal.2017.08.010
186343|A||Toporowska,M., B. Pawlik-Skowronska, and R. Kalinowska|Accumulation and Effects of Cyanobacterial Microcystins and Anatoxin-a on Benthic Larvae of Chironomus spp. (Diptera: Chironomidae)|Eur. J. Entomol.111(1): 83-90|2014|10.14411/eje.2014.010
186344|A||Kinnear,S.H.W., L.J. Duivenvoorden, and L.D. Fabbro|Sublethal Responses in Melanoides tuberculata Following Exposure to Cylindrospermopsis raciborskii Containing Cylindrospermopsin|Harmful Algae6:642-650|2007|10.1016/j.hal.2007.01.004
186345|A||Wang,L., G. Chen, G. Xiao, L. Han, Q. Wang, and T. Hu|Cylindrospermopsin Induces Abnormal Vascular Development Through Impairing Cytoskeleton and Promoting Vascular Endothelial Cell Apoptosis by the Rho/ROCK Signaling Pathway|Environ. Res.183:11 p.|2020|10.1016/j.envres.2020.109236
186346|A||Liebel,S., C.A. Oliveira Ribeiro, R.C. Silva, W.A. Ramsdorf, M.M. Cestari, V.F. Magalhaes, J.R.E. Garcia, B.M. Esquivel|Cellular Responses of Prochilodus lineatus Hepatocytes after Cylindrospermopsin Exposure|Toxicol. In Vitro25(7): 1493-1500|2011|10.1016/j.tiv.2011.05.010
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186366|A||Lage,S., L. Strom, A. Godhe, and S. Rydberg|The Effect of Exogenous beta-N-Methylamino-L-Alanine (BMAA) on the Diatoms Phaeodactylum tricornutum and Thalassiosira weissflogii|Harmful Algae58:85-92|2016|10.1016/j.hal.2016.08.005
186367|A||Ha,M.H., V. Contardo-Jara, and S. Pflugmacher|Uptake of the Cyanobacterial Neurotoxin, Anatoxin-a, and Alterations in Oxidative Stress in the Submerged Aquatic Plant Ceratophyllum demersum|Ecotoxicol. Environ. Saf.101:205-212|2014|10.1016/j.ecoenv.2013.12.023
186369|T||Okle,O., L. Rath, C.G. Galizia, and D.R. Dietrich|The Cyanobacterial Neurotoxin Beta-N-Methylamino-L-Alanine (BMAA) Induces Neuronal and Behavioral Changes in Honeybees|Toxicol. Appl. Pharmacol.270(1): 9-15|2013|10.1016/j.taap.2013.04.003
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186389|T||Prieto,A., A. Campos, A. Camean, and V. Vasconcelos|Effects on Growth and Oxidative Stress Status of Rice Plants (Oryza sativa) Exposed to Two Extracts of Toxin-Producing Cyanobacteria (Aphanizomenon ovalisporum and Microcystis aeruginosa)|Ecotoxicol. Environ. Saf.74(7): 1973-1980|2011|10.1016/j.ecoenv.2011.06.009
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186398|T||Bogomolni,A.L., A.L. Bass, S. Fire, L. Jasperse, M. Levin, O. Nielsen, G. Waring, and S. De Guise|Saxitoxin Increases Phocine Distemper Virus Replication Upon In Vitro Infection in Harbor Seal Immune Cells|Harmful Algae51:89-96|2016|10.1016/j.hal.2015.10.013
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186414|A||Montagnolli,W., A. Zamboni, R. Luvizotto-Santos, and J.S. Yunes|Acute Effects of Microcystis aeruginosa from the Patos Lagoon Estuary, Southern Brazil, on the Microcrustacean Kalliapseudes schubartii (Crustacea: Tanaidacea)|Arch. Environ. Contam. Toxicol.46(4): 463-469|2004|10.1007/s00244-003-2304-6
186415|A||Zhao,M., S. Xie, X. Zhu, Y. Yang, N. Gan, and L. Song|Effect of Dietary Cyanobacteria on Growth and Accumulation of Microcystins in Nile Tilapia (Oreochromis niloticus)|Aquaculture261( 3): 960-966|2006|10.1016/j.aquaculture.2006.08.019
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186419|T||Ondracek,K., H. Bandouchova, V. Damkova, K. Hilscherova, J. Kral, J. Osickova, V. Mlcakova, M. Pohanka, H. Skochova, F.|Risk of Combined Exposure of Birds to Cyanobacterial Biomass Containing Microcystins, Acetylcholinesterase Inhibitor and Anticoagulant|Neuroendocrinol. Lett.33(Supp 3): 155-160|2012|
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186421|T||Koodkaew,I., Y. Sunohara, S. Matsuyama, and H. Matsumoto|Phytotoxic Action Mechanism of Hapalocyclamide in Lettuce Seedlings|Plant Physiol. Biochem. (Amsterdam)58:23-28|2012|10.1016/j.plaphy.2012.06.002
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186425|A||Sarnelle,O., S. Gustafsson, and L.A. Hansson|Effects of Cyanobacteria on Fitness Components of the Herbivore Daphnia|J. Plankton Res.32(4): 471-477|2010|10.1093/plankt/fbp151
186426|A||Wang,Z.Q., S. Wang, J.Y. Zhang, G.M. Lin, N. Gan, L. Song, X. Zeng, and C.C. Zhang|The Proposed Neurotoxin Beta-N-Methylamino-L-Alanine (BMAA) is Taken up Through Amino-Acid Transport Systems in the Cyanobacterium Anabaena PCC 7120|Toxins (Basel)12(8): 14 p.|2020|10.3390/toxins12080518
186427|A||Dobronoki,D., V. B-Beres, G. Vasas, S. Gonda, S.A. Nagy, and I. Bacsi|Potential Role of the Cellular Matrix of Aphanizomenon Strains in the Effects of Cylindrospermopsin - an Experimental Study|J. Appl. Phycol.31(3): 1805-1817|2019|10.1007/s10811-018-1699-4
186428|A||Smutna,M., P. Babica, S. Jarque, K. Hilscherova, B. Marsalek, M. Haeba, and L. Blaha|Acute, Chronic and Reproductive Toxicity of Complex Cyanobacterial Blooms in Daphnia magna and the Role of Microcystins|Toxicon79:11-18|2014|10.1016/j.toxicon.2013.12.009
186429|A||Soares,R.M., V.F. Magalhaes, and S.M.F.O. Azevedo|Accumulation and Depuration of Microcystins (Cyanobacteria Hepatotoxins) in Tilapia rendalli (Cichlidae) Under Laboratory Conditions|Aquat. Toxicol.70(1): 1-10|2004|10.1016/j.aquatox.2004.06.013
186430|A||Zloch,I., A. Hebel, and H. Mazur-Marzec|Effect of Crude Extracts from Nodularia spumigena on Round Goby (Neogobius melanostomus)|Mar. Environ. Res.140:61-68|2018|10.1016/j.marenvres.2018.05.019
186431|A||Antas,P., M. Carneiro, B. Reis, R. Castelo-Branco, J. Azevedo, R. Urbatzka, A. Campos, V. Vasconcelos, and J.C. Martins|GST Transcriptional Changes Induced by a Toxic Microcystis aeruginosa Strain in Two Bivalve Species During Exposure and Recovery Phases|Ecotoxicology27(9): 1272-1280|2018|10.1007/s10646-018-1980-y
186432|A||Zhang,H., W. Fang, W. Xiao, L. Lu, and X. Jia|Protective Role of Oligomeric Proanthocyanidin Complex Against Hazardous Nodularin-Induced Oxidative Toxicity in Carassius auratus Lymphocytes|J. Hazard. Mater.274:247-257|2014|10.1016/j.jhazmat.2014.04.020
186433|AT||Palikova,M., O. Adamovsky, L. Blaha, J. Mares, R. Kopp, S. Navratil, Z. Cutakova, Z. Soukupova, and J. Pikula|Fish Tapeworm Khawia sinensis: An Indicator of Environmental Microcystins?|Neuroendocrinol. Lett.34(Supp. 2): 21-24|2013|
186434|A||Barrios,C.A.Z., S. Nandini, and S.S.S. Sarma|Effect of Crude Extracts from Cyanobacterial Blooms in Lake Texcoco (Mexico) on the Population Growth of Brachionus calyciflorus (Rotifera)|Toxicon139:45-53|2017|10.1016/j.toxicon.2017.09.013
186435|A||Mitrovic,S.M., S. Pflugmacher, K.J. James, and A. Furey|Anatoxin-a Elicits an Increase in Peroxidase and Glutathione S-Transferase Activity in Aquatic Plants|Aquat. Toxicol.68(2): 185-192|2004|10.1016/j.aquatox.2004.03.017
186436|A||Zhang,X., P. Xie, D. Li, R. Tang, H. Lei, and Y. Zhao|Time-Dependent Oxidative Stress Responses of Crucian Carp (Carassius auratus) to Intraperitoneal Injection of Extracted Microcystins|Bull. Environ. Contam. Toxicol.82(5): 574-578|2009|10.1007/s00128-009-9671-2
186437|A||Korpinen,S., M. Karjalainen, and M. Viitasalo|Effects of Cyanobacteria on Survival and Reproduction of the Littoral Crustacean Gammarus zaddachi (Amphipoda)|Hydrobiologia (Multiple Languages)559:285-295|2006|10.1007/s10750-005-1172-7
186438|T||Cao,Q., A.D. Steinman, L. Yao, and L. Xie|Toxicological and Biochemical Responses of the Earthworm Eisenia fetida to Cyanobacteria Toxins|Sci. Rep.7:9 p.|2017|10.1038/s41598-017-16267-8
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186440|AT||Monserrat,J.M., J.S. Yunes, and A. Bianchini|Effects of Anabaena spiroides (Cyanobacteria) Aqueous Extracts on the Acetylcholinesterase Activity of Aquatic Species|Environ. Toxicol. Chem.20(6): 1228-1235|2001|10.1002/etc.5620200611
186441|A||Nandini,S., C.A. Zamora-Barrios, and S.S.S. Sarma|A Long-Term Study on the Effect of Cyanobacterial Crude Extracts from Lake Chapultepec (Mexico City) on Selected Zooplankton Species|Environ. Toxicol. Chem.39(12): 2409-2419|2020|10.1002/etc.4875
186442|A||Nandini,S., C. Sanchez-Zamora, and S.S.S. Sarma|Seasonal Response of Daphnia pulex to Cyanobacterial Extracts at Different Temperatures in Valle De Bravo Reservoir (Mexico)|Water13(4): 13 p.|2021|10.3390/w13040526
186443|T||Lahrouni,M., K. Oufdou, F. El Khalloufi, M. Baz, A. Lafuente, M. Dary, E. Pajuelo, and B. Oudra|Physiological and Biochemical Defense Reactions of Vicia faba L.Rhizobium Symbiosis Face to Chronic Exposure to Cyanobacterial Bloom Extract Containing Microcystins|Environ. Sci. Pollut. Res. Int.20(8): 5405-5415|2013|10.1007/s11356-013-1535-y
186444|A||Nandini,S., Miracle, R. M, E. Vicente, Sarma, S. S.S, and R.D. Gulati|Microcystis Extracts and Single Cells Have Differential Impacts on the Demography of Cladocerans: A Case Study on Moina cf. micrura Isolated from the Mediterranean Coastal Shallow Lake (LAlbufera, Spain)|Hydrobiologia (Multiple Languages)798( 1): 127-139|2017|10.1007/s10750-016-2665-2
186445|A||Chen,G., L. Wang, W. Li, Q. Zhang, and T. Hu|Nodularin Induced Oxidative Stress Contributes to Developmental Toxicity in Zebrafish Embryos|Ecotoxicol. Environ. Saf.194:12 p.|2020|10.1016/j.ecoenv.2020.110444
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186449|A||Juhel,G., J. O'Halloran, S.C. Culloty, R.M. O'Riordan, J. Davenport, N.M. O'Brien, K.F. James, A. Furey, and O. Allis|In Vivo Exposure to Microcystins Induces DNA Damage in the Haemocytes of the Zebra Mussel, Dreissena polymorpha, as Measured with the Comet Assay|Environ. Mol. Mutagen.48(1): 22-29|2007|10.1002/em.20271
186450|A||Lehtonen,K.K., H. Kankaanpaa, S. Leinio, V.O. Sipia, S. Pflugmacher, and E. Sandberg-Kilpi|Accumulation of Nodularin-Like Compounds from the Cyanobacterium Nodularia spumigena and Changes in Acetylcholinesterase Activity in the Clam Macoma balthica During Short-Term Laboratory Exposure|Aquat. Toxicol.64(4): 461-476|2003|10.1016/S0166-445X(03)00101-2
186451|A||Li,W., J. Chen, P. Xie, J. He, X. Guo, X. Tuo, W. Zhang, and L. Wu|Rapid Conversion and Reversible Conjugation of Glutathione Detoxification of Microcystins in Bighead Carp (Aristichthys nobilis)|Aquat. Toxicol.147:18-25|2014|10.1016/j.aquatox.2013.12.001
186452|A||Suikkanen,S., J. Engstrom-Ost, J. Jokela, K. Sivonen, and M. Viitasalo|Allelopathy of Baltic Sea Cyanobacteria: No Evidence for the Role of Nodularin|J. Plankton Res.28(6): 543-550|2006|10.1093/plankt/fbi139
186453|A||Hansson,L.A., S. Gustafsson, K. Rengefors, and L. Bomark|Cyanobacterial Chemical Warfare Affects Zooplankton Community Composition|Freshw. Biol.52(7): 1290-1301|2007|10.1111/j.1365-2427.2007.01765.x
186456|A||Zhu,X., H. Nan, L. Zhang, C. Zhu, J. Liu, and Z. Yang|Does Microcystin Disrupt the Induced Effect of Daphnia Kairomone on Colony Formation in Scenedesmus?|Biochem. Syst. Ecol.57:169-174|2014|10.1016/j.bse.2014.08.001
186457|T||Liang,C., W. Wang, and Y. Wang|Effect of Irrigation with Microcystins-Contaminated Water on Growth, Yield and Grain Quality of Rice (Oryza sativa)|Environ. Earth Sci. 75( 6): 505-|2016|10.1007/s12665-015-5121-0
186458|A||Zhang,H., D. Shao, Y. Wu, C. Cai, C. Hu, X. Shou, B. Dai, B. Ye, M. Wang, and X. Jia|Apoptotic Responses of Carassius auratus Lymphocytes to Nodularin Exposure In Vitro|Fish Shellfish Immunol.33(6): 1229-1237|2012|10.1016/j.fsi.2012.08.016
186459|A||Zhang,H., D. Shao, Y. Wu, B. Dai, C. Cai, W. Fang, B. Ye, Y. Zhang, J. Liu, and X. Jia|Regulation of Nodularin-Induced Apoptosis by Epigallocatechin-3-Gallate on Fish Lymphocytes In Vitro|Fish Shellfish Immunol.34(5): 1085-1093|2013|10.1016/j.fsi.2013.01.012
186460|A||Du,B., G. Liu, M. Ke, Z. Zhang, M. Zheng, T. Lu, L. Sun, and H. Qian|Proteomic Analysis of the Hepatotoxicity of Microcystis aeruginosa in Adult Zebrafish (Danio rerio) and Its Potential Mechanisms|Environ. Pollut.254:10 p.|2019|10.1016/j.envpol.2019.113019
186461|A||Zhang,X., L. Song, P. Zhang, J. He, Y. Liu, H. Matsuura, and M.M. Watanabe|Grazing on Toxic Cyanobacterial Blooms by Tadpoles of Edible Frog Rana grylio|Phycol. Res.60(1): 20-26|2012|10.1111/j.1440-1835.2011.00627.x
186463|A||Wu,H., M. Jiang, Z.G. Zhu, Y. Zhao, R. Qu, and J.J. Liu|Toxic Response of Daphnia magna to Microcystis aeruginosa|Asian J. Chem.25(6): 2965-2969|2013|10.14233/ajchem.2013.13452
186464|A||Nandini,S., C. Sanchez-Zamora, and S.S.S. Sarma|Toxicity of Cyanobacterial Blooms from the Reservoir Valle De Bravo (Mexico): A Case Study on the Rotifer Brachionus calyciflorus|Sci. Total Environ. 688:1348-1358|2019|10.1016/j.scitotenv.2019.06.297
186465|A||Liang,H., W. Zhou, Y. Zhang, Q. Qiao, and X. Zhang|Are Fish Fed with Cyanobacteria Safe, Nutritious and Delicious? A Laboratory Study|Sci. Rep.5:17 p.|2015|10.1038/srep15166
186466|A||Contardo-Jara,V., S.K.B. Otterstein, S. Downing, T.G. Downing, and S. Pflugmacher|Response of Antioxidant and Biotransformation Systems of Selected Freshwater Mussels (Dreissena polymorpha, Anadonta cygnea, Unio tumidus, and Corbicula javanicus) to the Cyanobacterial Neurotoxin beta-N-Methylamino-L-A|Toxicol. Environ. Chem.96(3): 451-465|2014|10.1080/02772248.2014.945452
186467|A||Yan,M., P.T.Y. Leung, J.C.H. Ip, J.P. Cheng, J.J. Wu, J.R. Gu, and P.K.S. Lam|Developmental Toxicity and Molecular Responses of Marine Medaka (Oryzias melastigma) Embryos to Ciguatoxin P-CTX-1 Exposure|Aquat. Toxicol.185:149-159|2017|10.1016/j.aquatox.2017.02.006
186469|A||Kohler,E., V. Grundler, D. Haussinger, R. Kurmayer, K. Gademann, J. Pernthaler, and J.F. Blom|The Toxicity and Enzyme Activity of a Chlorine and Sulfate Containing Aeruginosin Isolated from a Non-Microcystin-Producing Planktothrix Strain|Harmful Algae 39:154-160|2014|10.1016/j.hal.2014.07.003
186470|A||Jang,M.H., K. Ha, and N. Takamura|Reciprocal Allelopathic Responses between Toxic Cyanobacteria (Microcystis aeruginosa) and Duckweed (Lemna japonica)|Toxicon49(5): 727-733|2007|10.1016/j.toxicon.2006.11.017
186471|A||Sieroslawska,A., and A. Rymuszka|Assessment of the Cytotoxic Impact of Cyanotoxin Beta-N-Methylamino-L-Alanine on a Fish Immune Cell Line|Aquat. Toxicol.212:214-221|2019|10.1016/j.aquatox.2019.05.012
186472|A||Lecoz,N., M. Malecot, C. Quiblier, S. Puiseux-Dao, C. Bernard, F. Crespeau, and M. Edery|Effects of Cyanobacterial Crude Extracts from Planktothrix agardhii on Embryo-Larval Development of Medaka Fish, Oryzias latipes|Toxicon51(2): 262-269|2008|10.1016/j.toxicon.2007.09.011
186473|A||Salierno,J.D., and A.S. Kane|Brevetoxin and Saxitoxin Alter Shoaling Dynamics in Mummichog, Fundulus heteroclitus|J. Exp. Mar. Biol. Ecol.520:151210-151210|2019|10.1016/j.jembe.2019.151210
186474|A||Gaillard,S., N. Le Goic, F. Malo, M. Boulais, C. Fabioux, L. Zaccagnini, L. Carpentier, M. Sibat, D. Reveillon, V. Sech|Cultures of Dinophysis sacculus, D. acuminata and Pectenotoxin 2 Affect Gametes and Fertilization Success of the Pacific Oyster, Crassostrea gigas|Environ. Pollut.265:17 p.|2020|10.1016/j.envpol.2020.114840
186477|A||Gibble,C.M., M.B. Peacock, and R.M. Kudela|Evidence of Freshwater Algal Toxins in Marine Shellfish: Implications for Human and Aquatic Health|Harmful Algae59:59-66|2016|10.1016/j.hal.2016.09.007
186479|A||Li,X., J. Ma, and Y. Li|Transcription Alterations of MicroRNAs, Cytochrome P4501A1 and 3A65, and AhR and PXR in the Liver of Zebrafish Exposed to Crude Microcystins|Toxicon73:17-22|2013|10.1016/j.toxicon.2013.07.002
186480|A||Pichardo,S., A. Jos, J.L. Zurita, M. Salguero, A.M. Camean, and G. Repetto|Acute and Subacute Toxic Effects Produced by Microcystin-YR on the Fish Cell Lines RTG-2 and PLHC-1|Toxicol. In Vitro21(8): 1460-1467|2007|10.1016/j.tiv.2007.06.012
186481|A||Kankaanpaa,H., S. Leinio, M. Olin, O. Sjovall, J. Meriluoto, and K.K. Lehtonen|Accumulation and Depuration of Cyanobacterial Toxin Nodularin and Biomarker Responses in the Mussel Mytilus edulis|Chemosphere68(7): 1210-1217|2007|10.1016/j.chemosphere.2007.01.076
186483|T||Lehtimaki,N., S. Shunmugam, J. Jokela, M. Wahlsten, D. Carmel, M. Keranen, K. Sivonen, E.M. Aro, Y. Allahverdiyeva, and|Nodularin Uptake and Induction of Oxidative Stress in Spinach (Spinachia oleracea)|J. Plant Physiol.168(6): 594-600|2011|10.1016/j.jplph.2010.09.013
186484|T||Liang,C., X. Ma, and H. Liu|Effect of Microcystins at Different Rice Growth Stages on Its Yield, Quality, and Safety|Environ. Sci. Pollut. Res.28:13942-13954|2021|10.1007/s11356-020-11642-x
186485|T||Kuang,X., J.D. Gu, B. Tie, B. Yao, and J. Shao|Interactive Effects of Cadmium and Microcystis aeruginosa (Cyanobacterium) on the Growth, Antioxidative Responses and Accumulation of Cadmium and Microcystins in Rice Seedlings|Ecotoxicology25(8): 1588-1599|2016|10.1007/s10646-016-1714-y
186486|A||Persson,K.J., C. Legrand, and T. Olsson|Detection of Nodularin in European Flounder (Platichthys flesus) in the West Coast of Sweden: Evidence of Nodularin Mediated Oxidative Stress|Harmful Algae8(6): 832-838|2009|10.1016/j.hal.2009.03.003
186487|A||Pflugmacher,S., M. Olin, and H. Kankaanpaa|Oxidative Stress Response in the Red Alga Furcellaria lumbricalis (Huds.) Lamour. Due to Exposure and Uptake of the Cyanobacterial Toxin Nodularin from Nodularia spumigena|Harmful Algae10(1): 49-55|2010|10.1016/j.hal.2010.06.004
186488|A||Clearwater,S.J., S.A. Wood, N.R. Phillips, S.M. Parkyn, R. Van Ginkel, and K.J. Thompson|Toxicity Thresholds for Juvenile Freshwater Mussels Echyridella menziesii and Crayfish Paranephrops planifrons, After Acute or Chronic Exposure to Microcystis sp.|Environ. Toxicol. 29( 5): 487-502|2014|10.1002/tox.21774
186489|A||Moreira,D.A., R.M. Soares, R.H. Valente, M.J. Bebianno, and M.F. Rebelo|Molecular Effects of Microcystin-LA in Tilapia (Oreochromis niloticus)|Toxicon166:76-82|2019|10.1016/j.toxicon.2019.05.002
186491|A||Palikova,M., S. Navratil, B. Marsalek, and L. Blaha|Toxicity of Crude Extract of Cyanobacteria for Embryos and Larvae of Carp (Cyprinus carpio L.)|Acta Veterinaria (Brno)72(3): 437-443|2003|10.2754/avb200372030437
186492|A||Palikova,M., S. Navratil, F. Tichy, F. Sterba, B. Marsalek, and L. Blaha|Histopathology of Carp (Cyprinus carpio L.) Larvae Exposed to Cyanobacteria Extract|Acta Veterinaria (Brno)73(2): 253-257|2004|10.2754/avb200473020253
186493|A||Palikova,M., M. Rabova, R. Krejci, S. Navratil, and L. Blaha|Chromosomal Aberrations in Early Embryos of Weatherfish (Misgurnus fossilis L.) Exposed to Crude Cyanobacterial Extract and Semipurified Compound of Microcystins - a Pilot Study|Acta Vet. Brno76:|2007|10.2754/avb200776S8S055
186495|T||Lilleheil,G., R.A. Andersen, O.M. Skulberg, and J. Alexander|Effects of a Homoanatoxin-a-Containing Extract from Oscillatoria formosa (Cyanophyceae/Cyanobacteria) on Neuromuscular Transmission|Toxicon35(8): 1275-1289|1997|10.1016/S0041-0101(97)00013-5
186496|A||Li,L., and P. Xie|Hepatic Histopathological Characteristics and Antioxidant Response of Phytoplanktivorous Silver Carp Intraperitoneally Injected with Extracted Microcystins|Biomed. Environ. Sci.22(4): 297-302|2009|10.1016/S0895-3988(09)60059-3
186497|A||Puerto,M., A.I. Prieto, S. Pichardo, I. Moreno, A. Jos, R. Moyano, and A.M. Camean|Effects of Dietary N-Acetylcysteine on the Oxidative Stress Induced in Tilapia (Oreochromis niloticus) Exposed to a Microcystin-Producing Cyanobacterial Water Bloom|Environ. Toxicol. Chem.28(8): 1679-1686|2009|10.1897/08-520.1
186498|A||Hulot,F.D., D. Carmignac, S. Legendre, C. Yepremian, and C. Bernard|Effects of Microcystin-Producing and Microcystin-Free Strains of Planktothrix agardhii on Long-Term Population Dynamics of Daphnia magna|Ann. Limnol. (Multiple Languages)48(3): 337-347|2012|10.1051/limn/2012023
186499|A||Puerto,M., D. Gutierrez-Praena, A. Isabel Prieto, S. Pichardo, A. Jos, J. Luis Miguel-Carrasco, C.M. Vazquez, and A.M. |Subchronic Effects of Cyanobacterial Cells on the Transcription of Antioxidant Enzyme Genes in Tilapia (Oreochromis niloticus)|Ecotoxicology20(2): 479-490|2011|10.1007/s10646-011-0600-x
186500|A||Rymuszka,A., and A. Sieroslawska|Comparative Studies on the Cytotoxic Effects Induced by Nodularin in Primary Carp Leukocytes and the Cells of the Fish CLC Line|Toxicon148:7-15|2018|10.1016/j.toxicon.2018.04.001
186503|A||Freitas,E.C., L.B. Printes, and O. Rocha|Use of Cholinesterase Activity as an Ecotoxicological Marker to Assess Anatoxin-a(s) Exposure: Responses of Two Cladoceran Species Belonging to Contrasting Geographical Regions|Harmful Algae55:150-162|2016|10.1016/j.hal.2016.03.005
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186603|A||DeMott,W.R., and S. Dhawale|Inhibition of In-Vitro Protein Phosphatase-Activity in Three Zooplankton Species by Microcystin-LR, a Toxin from Cyanobacteria|Arch. Hydrobiol.134(4): 417-424|1995|10.1127/archiv-hydrobiol/134/1995/417
186604|A||Urrutia-Cordero,P., R. Agha, S. Cires, M.A. Lezcano, M. Sanchez-Contreras, K.O. Waara, H. Utkilen, and A. Quesada|Effects of Harmful Cyanobacteria on the Freshwater Pathogenic Free-Living Amoeba Acanthamoeba castellanii|Aquat. Toxicol.130:9-17|2013|10.1016/j.aquatox.2012.12.019
186605|A||Chen,X.M., G.L. Guo, L. Sun, Q.S. Yang, G.Q. Wang, and D.M. Zhang|Modulatory Role of L-Carnitine Against Microcystin-LR-Induced Immunotoxicity and Oxidative Stress in Common Carp|Fish Physiol. Biochem.43(4): 1081-1093|2017|10.1007/s10695-017-0354-3
186606|A||Amado,L.L., M.L. Garcia, P.B. Ramos, J.S. Yunes, and J.M. Monserrat|Influence of a Toxic Microcystis aeruginosa Strain on Glutathione Synthesis and Glutathione-S-Transferase Activity in Common Carp Cyprinus carpio (Teleostei: Cyprinidae)|Arch. Environ. Contam. Toxicol.60(2): 319-326|2011|10.1007/s00244-010-9594-2
186607|A||Lance,E., F. Alonzo, M. Tanguy, C. Gerard, and M. Bormans|Impact of Microcystin-Producing Cyanobacteria on Reproductive Success of Lymnaea stagnalis (Gastropoda, Pulmonata) and Predicted Consequences at the Population Level|Ecotoxicology20(4): 719-730|2011|10.1007/s10646-011-0613-5
186608|A||Pichardo,S., F.F. Del Campo, A. Jos, A.M. Camean, V. Uria-Ovando, and Y. Ouahid|Changes of Superoxide Dismutase in Tilapia Fish (Oreochromis sp) Exposed to Extracts of Microcystin-Containing Cyanobacteria|Fresenius Environ. Bull.17(9b): 1511-1518|2008|
186609|A||Rojo,C., M. Segura, C. Francisco, and M.A. Rodrigo|Allelopathic Effects of Microcystin-LR on the Germination, Growth and Metabolism of Five Charophyte Species and a Submerged Angiosperm|Aquat. Toxicol.144-145:1-10|2013|10.1016/j.aquatox.2013.09.013
186610|A||Romanowska-Duda,Z., and M. Tarczynska|The Influence of Microcystin-LR and Hepatotoxic Cyanobacterial Extract on the Water Plant Spirodela oligorrhiza|Environ. Toxicol.17(5): 434-440|2002|10.1002/tox.10076
186611|A||Prieto,A.I., S. Pichardo, A. Jos, I. Moreno, and A.M. Camean|Time-Dependent Oxidative Stress Responses After Acute Exposure to Toxic Cyanobacterial Cells Containing Microcystins in Tilapia Fish (Oreochromis niloticus) Under Laboratory Conditions|Aquat. Toxicol.84(3): 337-345|2007|10.1016/j.aquatox.2007.06.012
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186617|A||Rymuszka,A., A. Sieroslawska, A. Bownik, and T. Skowronski|Microcystin-LR Modulates Selected Immune Parameters and Induces Necrosis/Apoptosis of Carp Leucocytes|Environ. Toxicol. Chem.29(3): 569-574|2010|10.1002/etc.87
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186622|T||Azevedo,C.C., J. Azevedo, H. Osorio, V. Vasconcelos, and A. Campos|Early Physiological and Biochemical Responses of Rice Seedlings to Low Concentration of Microcystin-LR|Ecotoxicology23(2): 107-107|2014|10.1007/s10646-013-1156-8
186624|A||Simpson,S.L., Y. Liu, D.A. Spadaro, X. Wang, R.S. Kookana, and G.E. Batley|Chronic Effects and Thresholds for Estuarine and Marine Benthic Organism Exposure to Perfluorooctane Sulfonic Acid (PFOS)-Contaminated Sediments: Influence of Organic Carbon and Exposure Routes|Sci. Total Environ.776:146008-146008|2021|10.1016/j.sciotenv.2021.146008
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186628|A||Martins,N.D., W.A. Colvara, F.T. Rantin, and A.L. Kalinin|Microcystin-LR: How it Affects the Cardio-Respiratory Responses to Hypoxia in Nile Tilapia, Oreochromis niloticus|Chemosphere84(1): 154-159|2011|10.1016/j.chemosphere.2011.02.016
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186631|A||Trinchet,I., C. Djediat, H. Huet, S.P. Dao, and M. Edery|Pathological Modifications Following Sub-Chronic Exposure of Medaka Fish (Oryzias latipes) to Microcystin-LR|Reprod. Toxicol.32(3): 329-340|2011|10.1016/j.reprotox.2011.07.006
186632|A||Song,C., H.W. Gao, and L.L. Wu|Transmembrane Transport of Microcystin to Danio rerio Zygotes: Insights into the Developmental Toxicity of Environmental Contaminants|Toxicol. Sci.122(2): 395-405|2011|10.1093/toxsci/kfr131
186633|A||Yan,W., Y. Zhou, J. Yang, S. Li, D. Hu, J. Wang, J. Chen, and G. Li|Waterborne Exposure to Microcystin-LR Alters Thyroid Hormone Levels and Gene Transcription in the Hypothalamic-Pituitary-Thyroid Axis in Zebrafish Larvae|Chemosphere87(11): 1301-1307|2012|10.1016/j.chemosphere.2012.01.041
186634|A||Li,H., Y. Cai, P. Xie, G. Li, L. Hao, and Q. Xiong|Identification and Expression Profiles of IL-8 in Bighead Carp (Aristichthys nobilis) in Response to Microcystin-LR|Arch. Environ. Contam. Toxicol.65(3): 537-545|2013|10.1007/s00244-013-9910-8
186635|A||Qiao,Q., W. Liu, K. Wu, T. Song, J. Hu, X. Huang, J. Wen, L. Chen, and X. Zhang|Female Zebrafish (Danio rerio) are more Vulnerable than Males to Microcystin-LR Exposure, Without Exhibiting Estrogenic Effects|Aquat. Toxicol.142/143:272-282|2013|10.1016/j.aquatox.2013.07.002
186636|AT||Bevan,C.L., D.M. Porter, C.R. Schumann, E.Y. Bryleva, T.J. Hendershot, H. Liu, M.J. Howard, and L.P. Henderson|The Endocrine-Disrupting Compound, Nonylphenol, Inhibits Neurotrophin-Dependent Neurite Outgrowth|Endocrinology147(9): 4192-4204|2006|10.1210/en.2006-0581
186637|A||Freitas,E.C., C. Pinheiro, O. Rocha, and S. Loureiro|Can Mixtures of Cyanotoxins Represent a Risk to the Zooplankton? The Case Study of Daphnia magna Straus Exposed to Hepatotoxic and Neurotoxic Cyanobacterial Extracts.|Harmful Algae31:143-152|2014|10.1016/j.hal.2013.11.004
186638|T||Pereira,A.L., J. Azevedo, and V. Vasconcelos|Assessment of Uptake and Phytotoxicity of Cyanobacterial Extracts Containing Microcystins or Cylindrospermopsin on Parsley (Petroselinum crispum L.) and Coriander (Coriandrum sativum L)|Environ. Sci. Pollut. Res. Int.24(2): 1999-2009|2017|10.1007/s11356-016-7910-8
186639|A||Pereira,A.L., C. Santos, J. Azevedo, T.P. Martins, R. Castelo-Branco, V. Ramos, V. Vasconcelos, and A. Campos|Effects of Two Toxic Cyanobacterial Crude Extracts Containing Microcystin-LR and Cylindrospermopsin on the Growth and Photosynthetic Capacity of the Microalga Parachlorella kessleri|Algal Res.34:198-208|2018|10.1016/j.algal.2018.07.016
186640|A||Reinikainen,M., F. Lindvall, J.A.O. Meriluoto, S. Repka, K. Sivonen, L. Spoof, and M. Wahlsten|Effects of Dissolved Cyanobacterial Toxins on the Survival and Egg Hatching of Estuarine Calanoid Copepods|Mar. Biol.140(3): 577-583|2002|10.1007/s00227-001-0720-6
186641|A||Martin,R.M., M.S. Bereman, and K.C. Marsden|BMAA and MCLR Interact to Modulate Behavior and Exacerbate Molecular Changes Related to Neurodegeneration in Larval Zebrafish|Toxicol. Sci.179(2): 251-261|2021|10.1093/toxsci/kfaa178
186642|T||Lankoff,A., W.W. Carmichael, K.A. Grasman, and M. Yuan|The Uptake Kinetics and Immunotoxic Effects of Microcystin-LR in Human and Chicken Peripheral Blood Lymphocytes In Vitro|Toxicology204(1): 23-40|2004|10.1016/j.tox.2004.05.016
186643|T||Ju,J., Q. Ruan, X. Li, R. Liu, Y. Li, Y. Pu, L. Yin, and D. Wang|Neurotoxicological Evaluation of Microcystin-LR Exposure at Environmental Relevant Concentrations on Nematode Caenorhabditis elegans|Environ. Sci. Pollut. Res. Int.20(3): 1823-1830|2013|10.1007/s11356-012-1151-2
186644|A||Lin,W., H. Guo, L. Wang, D. Zhang, X. Wu, L. Li, Y. Qiu, L. Yang, D. Li, and R. Tang|Parental Transfer of Microcystin-LR-Induced Innate Immune Dysfunction of Zebrafish: A Cross-Generational Study|Environ. Sci. Technol.54(2): 1014-1023|2020|10.1021/acs.est.9b04953
186645|T||Machado,J., J. Azevedo, M. Freitas, E. Pinto, A. Almeida, V. Vasconcelos, and A. Campos|Analysis of the Use of Microcystin-Contaminated Water in the Growth and Nutritional Quality of the Root-Vegetable, Daucus carota|Environ. Sci. Pollut. Res. Int.24(1): 752-764|2017|10.1007/s11356-016-7822-7
186647|A||Ma,H., Y. Wu, N. Gan, L. Zheng, T. Li, and L. Song|Growth Inhibitory Effect of Microcystis on Aphanizomenon flos-aquae Isolated from Cyanobacteria Bloom in Lake Dianchi, China|Harmful Algae42:43-51|2015|10.1016/j.hal.2014.12.009
186649|A||Romero-Oliva,C.S., V. Contardo-Jara, T. Block, and S. Pflugmacher|Accumulation of Microcystin Congeners in Different Aquatic Plants and Crops - a Case Study from Lake Amatitlan, Guatemala|Ecotoxicol. Environ. Saf.102:121-128|2014|10.1016/j.ecoenv.2014.01.031
186650|T||Mansoor,M.M., A.B.M. Raza, N. Abbas, M.A. Aqueel, and M. Afzal|Resistance of Green Lacewing, Chrysoperla carnea Stephens to Nitenpyram: Cross-Resistance Patterns, Mechanism, Stability, and Realized Heritability|Pestic. Biochem. Physiol.135:59-63|2017|10.1016/j.pestbp.2016.06.004
186651|A||Rymuszka,A., and L. Adaszek|Pro- and Anti-Inflammatory Cytokine Expression in Carp Blood and Head Kidney Leukocytes Exposed to Cyanotoxin Stress - an In Vitro Study|Fish Shellfish Immunol.33(2): 382-388|2012|10.1016/j.fsi.2012.05.021
186652|T||M-Hamvas,M., C. Mathe, G. Vasas, K. Jambrik, M. Papp, D. Beyer, I. Meszaros, and G. Borbely|Cylindrospermopsin and Microcystin-LR Alter the Growth, Development and Peroxidase Enzyme Activity of White Mustard (Sinapis alba L.) Seedlings, a Comparative Analysis|Acta Biol. Hung.61(0): 35-48|2010|10.1556/ABiol.61.2010.Suppl.5
186653|T||Fogel,M.N., M.I. Schneider, F. Rimoldi, L.S. Ladux, N. Desneux, and A.E. Ronco|Toxicity Assessment of Four Insecticides with Different Modes of Action on Pupae and Adults of Eriopis connexa (Coleoptera: Coccinellidae), a Relevant Predator of the Neotropical Region|Environ. Sci. Pollut. Res.23(15): 14918-14926|2016|10.1007/s11356-016-6654-9
186654|A||Zhang,H., and L.J. Zhao|Influence of Sublethal Doses of Acetamiprid and Halosulfuron-Methyl on Metabolites of Zebra Fish (Brachydanio rerio)|Aquat. Toxicol.191:85-94|2017|10.1016/j.aquatox.2017.08.002
186655|T||Rimoldi,F., M.N. Fogel, A.E. Ronco, and M.I. Schneider|Comparative Susceptibility of Two Neotropical Predators, Eriopis connexa and Chrysoperla externa, to Acetamiprid and Pyriproxyfen: Short and Long-Term Effects After Egg Exposure|Environ. Pollut.231:1042-1050|2017|10.1016/j.envpol.2017.08.097
186656|T||Mathe,C., G. Vasas, G. Borbely, F. Erdodi, D. Beyer, A. Kiss, G. Suranyi, S. Gonda, K. Jambrik, and M. M-Hamvas|Histological, Cytological and Biochemical Alterations Induced by Microcystin-LR and Cylindrospermopsin in White Mustard (Sinapis alba L.) Seedlings|Acta Biol. Hung.64(1): 71-85|2013|10.1556/ABiol.64.2013.1.7
186657|A||Li,Q., P. Gu, C. Zhang, X. Luo, H. Zhang, J. Zhang, and Z. Zheng|Combined Toxic Effects of Anatoxin-a and Microcystin-LR on Submerged Macrophytes and Biofilms|J. Hazard. Mater.389:|2020|10.1016/j.jhazmat.2020.122053
186658|T||Renaud,M., T. Akeju, T. Natal-Da-Luz, S. Leston, J. Rosa, F. Ramos, J.P. Sousa, and H.M.V.S. Azevedo-Pereira|Effects of the Neonicotinoids Acetamiprid and Thiacloprid in Their Commercial Formulations on Soil Fauna|Chemosphere194:85-93|2018|10.1016/j.chemosphere.2017.11.102
186659|A||Li,Q., P. Gu, H. Zhang, X. Luo, J. Zhang, and Z. Zheng|Response of Submerged Macrophytes and Leaf Biofilms to the Decline Phase of Microcystis aeruginosa: Antioxidant Response, Ultrastructure, Microbial Properties, and Potential Mechanism|Sci. Total Environ.699:10 p.|2020|10.1016/j.scitotenv.2019.134325
186660|A||Lin,W., H. Guo, L. Wang, D. Zhang, X. Wu, L. Li, Y. Qiu, L. Yang, D. Li, and R. Tang|Waterborne Microcystin-LR Exposure Induced Chronic Inflammatory Response Via MyD88-Dependent Toll-Like Receptor Signaling Pathway in Male Zebrafish|Sci. Total Environ.702:9 p.|2020|10.1016/j.scitotenv.2019.134969
186661|A||Lance,E., M.R. Neffling, C. Gerard, J. Meriluoto, and M. Bormans|Accumulation of Free and Covalently Bound Microcystins in Tissues of Lymnaea stagnalis (Gastropoda) Following Toxic Cyanobacteria or Dissolved Microcystin-LR Exposure|Environ. Pollut.158(3): 674-680|2010|10.1016/j.envpol.2009.10.025
186662|A||James,S.V., T.W. Valenti, D.L. Roelke, J.P. Grover, and B.W. Brooks|Probabilistic Ecological Hazard Assessment of Microcystin-LR Allelopathy to Prymnesium parvum|J. Plankton Res.33(2): 319-332|2011|10.1093/plankt/fbq116
186663|A||Li,Q., P. Gu, X. Luo, H. Zhang, S. Huang, J. Zhang, and Z. Zheng|Pilot-Scale Study on the Effects of Cyanobacterial Blooms on Vallisneria natans and Biofilms at Different Phosphorus Concentrations|Environ. Pollut.265:9 p.|2020|10.1016/j.envpol.2020.114996
186664|T||Jambrik,K., C. Mathe, G. Vasas, D. Beyer, E. Molnar, G. Borbely, and M. M-Hamvas|Microcystin-LR Induces Chromatin Alterations and Modulates Neutral Single-Strand-Preferring Nuclease Activity in Phragmites australis|J. Plant Physiol.168(7): 678-686|2011|10.1016/j.jplph.2010.10.007
186665|T||Francesena,N., and M.I. Schneider|Selectivity Assessment of Two Biorational Insecticides, Azadirachtin and Pyriproxyfen, in Comparison to a Neonicotinoid, Acetamiprid, on Pupae and Adults of a Neotropical Strain Eretmocerus mundus Mercet|Chemosphere206:349-358|2018|10.1016/j.chemosphere.2018.05.010
186666|T||Li,B., X. Xia, J. Wang, L. Zhu, J. Wang, and G. Wang|Evaluation of Acetamiprid-Induced Genotoxic and Oxidative Responses in Eisenia fetida|Ecotoxicol. Environ. Saf.161:610-615|2018|10.1016/j.ecoenv.2018.06.022
186667|A||Malecot,M., B. Guevel, C. Pineau, B. Holbech, M. Bormans, and C. Wiegand|Specific Proteomic Response of Unio pictorum Mussel to a Mixture of Glyphosate and Microcystin-LR|J. Proteome Res.12(11): 5281-5292|2013|10.1021/pr4006316
186668|A||Nogueira,I.C.G., M.L. Saker, S. Pflugmacher, C. Wiegand, and V.M. Vasconcelos|Toxicity of the Cyanobacterium Cylindrospermopsis raciborskii to Daphnia magna|Environ. Toxicol.19(5): 453-459|2004|10.1002/tox.20050
186669|A||Yang,G.L., M.J. Huang, A.J. Tan, and S.M. Lv|Joint Effects of Naphthalene and Microcystin-LR on Physiological Responses and Toxin Bioaccumulation of Landoltia punctata|Aquat. Toxicol.231:9 p.|2021|10.1016/j.aquatox.2020.105710
186670|A||Pereira,A.L., B. Monteiro, J. Azevedo, A. Campos, H. Osorio, and V. Vasconcelos|Effects of the Naturally-Occurring Contaminant Microcystins on the Azolla filiculoides-Anabaena azollae Symbiosis|Ecotoxicol. Environ. Saf.118:11-20|2015|10.1016/j.ecoenv.2015.04.008
186671|A||Li,X.Y., I.K. Chung, J.I. Kim, and J.A. Lee|Oral Exposure to Microcystis Increases Activity-Augmented Antioxidant Enzymes in the Liver of Loach (Misgurnus mizolepis) and Has No Effect on Lipid Peroxidation|Comp. Biochem. Physiol. C Toxicol. Pharmacol.141(3): 292-296|2005|10.1016/j.cca.2005.07.004
186672|AT||Zhang,W., G. Liang, L. Wu, X. Tuo, W. Wang, J. Chen, and P. Xie|Why Mammals more Susceptible to the Hepatotoxic Microcystins than Fish: Evidences from Plasma and Albumin Protein Binging Through Equilibrium Dialysis|Ecotoxicology:1012-1019|2013|10.1007/s10646-013-1086-5
186674|A||Qu,X., M. Hu, Y. Shang, L. Pan, P. Jia, C. Fu, Q. Liu, and Y. Wang|Liver Transcriptome and MiRNA Analysis of Silver Carp (Hypophthalmichthys molitrix) Intraperitoneally Injected with Microcystin-LR|Front. Physiol.9:12 p.|2018|10.3389/fphys.2018.00381
186676|AT||Sahin,A., F.G. Tencalla, Dietrich, and H. Naegeli|Biliary Excretion of Biochemically Active Cyanobacteria (Blue-Green Algae) Hepatotoxins in Fish|Toxicology106(1-3): 123-130|1996|10.1016/0300-483X(95)03173-D
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186678|T||Petrou,M., P.A. Karas, S. Vasileiadis, I. Zafiriadis, T. Papadimitriou, E. Levizou, K. Kormas, and D.G. Karpouzas|Irrigation of Radish (Raphanus sativus L.) with Microcystin-Enriched Water Holds Low Risk for Plants and Their Associated Rhizopheric and Epiphytic Microbiome|Environ. Pollut.266:12 p.|2020|10.1016/j.envpol.2020.115208
186680|T||Peuthert,A., L. Lawton, and S. Pflugmacher|In Vivo Influence of Cyanobacterial Toxins on Enzyme Activity and Gene Expression of Protein Phosphatases in Alfalfa (Medicago sativa)|Toxicon52(1): 84-90|2008|10.1016/j.toxicon.2008.04.172
186681|A||Pflugmacher,S.|Promotion of Oxidative Stress in the Aquatic Macrophyte Ceratophyllum demersum During Biotransformation of the Cyanobacterial Toxin Microcystin-LR|Aquat. Toxicol.70(3): 169-178|2004|10.1016/j.aquatox.2004.06.010
186682|T||Pflugmacher,S.|Reduction in Germination Rate and Elevation of Peroxidase Activity in Zea mays Seedlings Due to Exposure to Different Microcystin Analogues and Toxic Cell Free Cyanobacterial Crude Extract|J. Appl. Bot. Food Qual.81(1): 45-48|2007|
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186685|T||Pflugmacher,S., M. Aulhorn, and B. Grimm|Influence of a Cyanobacterial Crude Extract Containing Microcystin-LR on the Physiology and Antioxidative Defence Systems of Different Spinach Variants|New Phytol.175(3): 482-489|2007|10.1111/j.1469-8137.2007.02144.x
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186696|A||Kvitek,R.G., and M.K. Beitler|Relative Insensitivity of Butter Clam Neurons to Saxitoxin - a Pre-Adaptation for Sequestering Paralytic Shellfish Poisoning Toxins as a Chemical Defense|Mar. Ecol. Prog. Ser.69:47-54|1991|10.3354/meps069047
186697|T||Saggioro,E.M., D.G.D.E, Santo, S.F. Sales Junior, R.A. Hauser-Davis, and F.V. Correia|Lethal and Sublethal Effects of Acetamiprid on Eisenia andrei: Behavior, Reproduction, Cytotoxicity and Oxidative Stress|Ecotoxicol. Environ. Saf.183:8 p.|2019|10.1016/j.ecoenv.2019.109572
186698|A||Liu,W., C. Chen, L. Chen, L. Wang, J. Li, Y. Chen, J. Jin, A. Kawan, and X. Zhang|Sex-Dependent Effects of Microcystin-LR on Hypothalamic-Pituitary-Gonad Axis and Gametogenesis of Adult Zebrafish|Sci. Rep.6:12 p.|2016|10.1038/srep22819
186700|T||Lahrouni,M., K. Oufdou, M. Faghire, A. Peix, F. El Khalloufi, V. Vasconcelos, and B. Oudra|Cyanobacterial Extracts Containing Microcystins Affect the Growth, Nodulation Process and Nitrogen Uptake of Faba Bean (Vicia faba L., Fabaceae)|Ecotoxicology21( 3): 681-687|2012|10.1007/s10646-011-0826-7
186701|T||Jiang,J.G., X. Liu, X.P. Huang, X. Yu, W.W. Zhang, X.X. Zhang, and W. Mu|Comparative Ecotoxicity of Neonicotinoid Insecticides to Three Species of Trichogramma Parasitoid Wasps (Hymenoptera: Trichogrammatidae)|Ecotoxicol. Environ. Saf.183:7 p.|2019|10.1016.j.ecoenv.2019.109587
186702|T||Padilha,A.C., B. Piovesan, M.C. Morais, J.D.B. Pazini, M.J. Zotti, M. Botton, and A.D. Grutzmacher|Toxicity of Insecticides on Neotropical Stingless Bees Plebeia emerina (Friese) and Tetragonisca fiebrigi (Schwarz) (Hymenoptera: Apidae: Meliponini)|Ecotoxicology29(1): 119-128|2020|10.1007/s10646-019-02150-x
186703|A||Cossi,P.F., L.T. Herbert, M.S. Yusseppone, A.F. Perez, and G. Kristoff|Toxicity Evaluation of the Active Ingredient Acetamiprid and a Commercial Formulation (Assail 70) on the Non-Target Gastropod Biomphalaria straminea (Mollusca: Planorbidae)|Ecotoxicol. Environ. Saf.192:9 p.|2020|10.1016/j.ecoenv.2020.110248
186704|T||Wang,H., Z.T. Lu, M.X. Li, Y.L. Fang, J.W. Qu, T.T. Mao, J. Chen, F.C. Li, H.N. Sun, and B. Li|Responses of Detoxification Enzymes in the Midgut of Bombyx mori After Exposure to Low-Dose of Acetamiprid|Chemosphere251:8 p.|2020|10.1016/j.chemosphere.2020.126438
186705|T||Stara,J., and F. Kocourek|Cabbage Stem Flea Beetle's (Psylliodes chrysocephala L.) Susceptibility to Pyrethroids and Tolerance to Thiacloprid in the Czech Republic|PLoS One14(9): 12 p.|2019|10.1371/journal.pone.0214702
186706|T||Shi,J.L., R.N. Zhang, Y.L. Pei, C.H. Liao, and X.B. Wu|Exposure to Acetamiprid Influences the Development and Survival Ability of Worker Bees (Apis mellifera L.) from Larvae to Adults|Environ. Pollut.266:115345-115345|2020|10.1016/j.envpol.2020.115345
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186709|T||Lu,Z.T., M.X. Li, Y.L. Fang, J.W. Qu, W.T. Ye, M.L. Dai, D.D. Bian, T.T. Mao, F.C. Li, H.N. Sun, and B. Li|The Mechanism of Damage to the Posterior Silk Gland by Trace Amounts of Acetamiprid in the Silkworm, Bombyx mori|Pestic. Biochem. Physiol.170:8 p.|2020|10.1016/j.pestbp.2020.104676
186711|T||Levizou,E., G. Statiris, T. Papadimitriou, C.S. Laspidou, and K.A. Kormas|Lettuce Facing Microcystins-Rich Irrigation Water at Different Developmental Stages: Effects on Plant Performance and Microcystins Bioaccumulation|Ecotoxicol. Environ. Saf.143:193-200|2017|10.1016/j.ecoenv.2017.05.037
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186714|A||Hernandez-Garcia,A., and F. Martinez-Jeronimo|Multistressor Negative Effects on an Experimental Phytoplankton Community. The Case of Glyphosate and One Toxigenic Cyanobacterium on Chlorophycean Microalgae|Sci. Total Environ.717:11 p.|2020|10.1016/j.scitotenv.2020.137186
186715|A||Sieroslawska,A., and A. Rymuszka|Assessment of the Potential Genotoxic and Proapoptotic Impact of Selected Cyanotoxins on Fish Leukocytes|Cent.-Eur. J. Immunol.38(2): 190-195|2013|10.5114/ceji.2013.35208
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186719|T||Castle,N.A., and G.R. Strichartz|Palytoxin Induces a Relatively Non-Selective Cation Permeability in Frog Sciatic Nerve Which can be Inhibited by Cardiac Glycosides|Toxicon26(10): 941-951|1988|10.1016/0041-0101(88)90259-0
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186721|A||Chen,C.Y., and H.N. Chou|Ichthyotoxicity Studies of Milkfish Chanos chanos Fingerlings Exposed to a Harmful Dinoflagellate Alexandrium minutum|J. Exp. Mar. Biol. Ecol.262(2): 211-219|2001|10.1016/S0022-0981(01)00291-X
186722|A||Connell,L.B., S.P. Macquarrie, B.M. Twarog, M. Iszard, and V. Bricelj|Population Differences in Nerve Resistance to Paralytic Shellfish Toxins in Softshell Clam, Mya arenaria, Associated with Sodium Channel Mutations|Mar. Biol.150(6): 1227-1236|2007|10.1007/s00227-006-0432-z
186723|A||Sabatini,S.E., B.M. Brena, C.M. Luquet, M. San Julian, M. Pirez, and M.D. Carmen Rios De Molina|Microcystin Accumulation and Antioxidant Responses in the Freshwater Clam Diplodon chilensis patagonicus Upon Subchronic Exposure to Toxic Microcystis aeruginosa|Ecotoxicol. Environ. Saf.74(5): 1188-1194|2011|10.1016/j.ecoenv.2011.03.012
186727|A||Malecot,M., K. Mezhoud, A. Marie, D. Praseuth, S. Puiseux-Dao, and M. Edery|Proteomic Study of the Effects of Microcystin-LR on Organelle and Membrane Proteins in Medaka Fish Liver|Aquat. Toxicol.94(2): 153-161|2009|10.1016/j.aquatox.2009.06.012
186729|T||Mathe,C., D. Beyer, F. Erdodi, Z. Serfozo, L. Szekvolgyi, G. Vasas, M. M-Hamvas, K. Jambrik, S. Gonda, A. Kiss, Z.M. Sz|Microcystin-LR Induces Abnormal Root Development by Altering Microtubule Organization in Tissue-Cultured Common Reed (Phragmites australis) Plantlets|Aquat. Toxicol.92(3): 122-130|2009|10.1016/j.aquatox.2009.02.005
186730|T||Freitas,M., J. Azevedo, E. Pinto, J. Neves, A. Campos, and V. Vasconcelos|Effects of Microcystin-LR, Cylindrospermopsin and a Microcystin-LR/Cylindrospermopsin Mixture on Growth, Oxidative Stress and Mineral Content in Lettuce Plants (Lactuca sativa L.)|Ecotoxicol. Environ. Saf.116:59-67|2015|10.1016/j.ecoenv.2015.02.002
186731|A||Campos,A., P. Araujo, C. Pinheiro, J. Azevedo, H. Osorio, and V. Vasconcelos|Effects on Growth, Antioxidant Enzyme Activity and Levels of Extracellular Proteins in the Green Alga Chlorella vulgaris Exposed to Crude Cyanobacterial Extracts and Pure Microcystin and Cylindrospermopsin|Ecotoxicol. Environ. Saf.94:45-53|2013|10.1016/j.ecoenv.2013.04.019
186732|T||Chen,C., and Q.X. Zhou|Lipid Peroxidation and Gene Expression of Antioxidant Enzymes in Response to Polycyclic Musks in Earthworm Eisenia fetida|Adv. Mater. Res.365:245-251|2012|10.4028/www.scientific.net/AMR.365.245
186733|T||Van Oystaeyen,A., B.K. Klatt, C. Petit, N. Lenaerts, and F. Wackers|Short-Term Lab Assessments and Microcolonies are Insufficient for the Risk Assessment of Insecticides for Bees|Chemosphere273:10 p.|2021|10.1016/j.chemosphere.2020.128518
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186736|T||Camp,A.A., M.A. Batres, W.C. Williams, R.W. Koethe, K.A. Stoner, and D.M. Lehmann|Effects of the Neonicotinoid Acetamiprid in Pollen on Bombus impatiens Microcolony Development|Environ. Toxicol. Chem.39(12): 2560-2569|2020|10.1002/etc.4886
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186739|T||Kishi,Y.|Comparison of Toxicity Between Organophosphorus Toxicants and Ethylene Dibromide, Alone and in Combination, to Monochamus alternatus Hope (Coleoptera: Cerambycidae) (II) The Toxicity to M. alternatus in Pupal Cells|Nippon Rin Gakkai-Shi (Multiple Languages)62(3): 94-98|1980|
186740|T||Bommuraj,V., Y. Chen, M. Birenboim, S. Barel, and J.A. Shimshoni|Concentration- and Time-Dependent Toxicity of Commonly Encountered Pesticides and Pesticide Mixtures to Honeybees (Apis mellifera L.)|Chemosphere266:11 p.|2021|10.1016/j.chemosphere.2020.128974
186741|A||Saka,M., and N. Tada|Acute and Chronic Toxicity Tests of Systemic Insecticides, Four Neonicotinoids and Fipronil, Using the Tadpoles of the Western Clawed Frog Silurana tropicalis|Chemosphere270:8 p.|2021|10.1016/j.chemosphere.2020.129418
186742|T||Song,Y.Y., L.L. Li, C. Li, Z.B. Lu, F. Ouyang, L. Liu, Y. Yu, and X.Y. Men|Comparative Ecotoxicity of Insecticides with Different Modes of Action to Osmia excavata (Hymenoptera: Megachilidae)|Ecotoxicol. Environ. Saf.212:7 p.|2021|10.1016/j.ecoenv.2021.112015
186743|T||Akhtar,Z.R., K. Tariq, A.M. Handler, A. Ali, F. Ullah, F. Ali, L.S. Zang, A. Gulzar, and S. Ali|Toxicological Risk Assessment of Some Commonly Used Insecticides on Cotesia flavipes, a Larval Parasitoid of the Spotted Stem Borer Chilo partellus|Ecotoxicology30(3): 448-458|2021|10.1007/s10646-021-02372-y
186744|A||Mezhoud,K., D. Praseuth, S. Puiseux-Dao, J.C. Francois, C. Bernard, and M. Edery|Global Quantitative Analysis of Protein Expression and Phosphorylation Status in the Liver of the Medaka Fish (Oryzias latipes) Exposed to Microcystin-LR  I. Balneation Study|Aquat. Toxicol.86(2): 166-175|2008|10.1016/j.aquatox.2007.10.010
186745|A||Lin,W., J. Hou, H. Guo, Y. Qiu, L. Li, D. Li, and R. Tang|Dualistic Immunomodulation of Sub-Chronic Microcystin-LR Exposure on the Innate-Immune Defense System in Male Zebrafish|Chemosphere183:315-322|2017|10.1016/j.chemosphere.2017.05.079
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186754|A||Liu,W., Q. Qiao, Y. Chen, K. Wu, and X. Zhang|Microcystin-LR Exposure to Adult Zebrafish (Danio rerio) Leads to Growth Inhibition and Immune Dysfunction in F1 Offspring, a Parental Transmission Effect of Toxicity|Aquat. Toxicol.155:360-367|2014|10.1016/j.aquatox.2014.07.011
186755|A||Lakomiak,A., P. Brzuzan, E. Jakimiuk, M. Florczyk, and M. Wozny|Molecular Characterization of the Cyclin-Dependent Protein Kinase 6 in Whitefish (Coregonus lavaretus) and Its Potential Interplay with miR-34a|Gene699:115-124|2019|10.1016/j.gene.2019.03.012
186756|A||Wang,S., J. Qiu, M. Zhao, F. Li, R. Yu, and A. Li|Accumulation and Distribution of Neurotoxin BMAA in Aquatic Animals and Effect on the Behavior of Zebrafish in a T-Maze Test|Toxicon173:39-47|2020|10.1016/j.toxicon.2019.11.005
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186758|T||Gossmann,A.|Effects of HHCB on Reproduction and Growth of Earthworms Eisenia fetida (Savigny 1826) in Artificial Soil|EPA-HQ-OPPT-2018-0430-0037:39 p|1997|
186759|A||Croudace,C.P., J.E. Caunter, and P.A. Johnson|HHCB: Chronic Toxicity to Fathead Minnow (Pimephales promelas) Embryos and Larvae|EPA-HQ-OPPT-2018-0430-0037; BL5934/B:68 p.|1997|
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186761|AT||Oberholster,P.J., B.L.S. Mthethwa, and A.M. Botha|Development of a Rapid and Sensitive Battery of Bioassays for Risk Assessment of Cyanobacterial Microcystin-LR in Drinking Water of Rural Water Treatment Plants, South Africa|Afr. J. Biotechnol.8(18): 4562-4571|2009|
186762|A||Huang,L., Y. Xi, X. Xu, and X. Wen|Responses in Population Growth and Reproduction of the Freshwater Rotifer Brachionus calyciflorus to Microcystin-LR at Different Temperatures|Ann. Limnol. (Multiple Languages)48(4): 383-390|2012|10.1051/limn/2012029
186763|A||Hou,J., L. Li, T. Xue, M. Long, Y. Su, and N. Wu|Damage and Recovery of the Ovary in Female Zebrafish I.P.-Injected with MC-LR|Aquat. Toxicol.155:110-118|2014|10.1016/j.aquatox.2014.06.010
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186769|T||Damkova,V., V. Paskova, H. Bandouchova, K. Hilscherova, J. Sedlackova, L. Novotny, L. Peckova, F. Vitula, M. Pohanka, a|Testicular Toxicity of Cyanobacterial Biomass in Japanese Quails|Harmful Algae10(6): 612-618|2011|10.1016/j.hal.2011.04.013
186770|A||Xiang,J., Y. Mi, B. Luo, S. Gong, Y. Zhou, and T. Ma|Evaluating the Potential of KOH-Modified Composite Biochar Amendment to Alleviate the Ecotoxicity of Perfluorooctanoic Acid-Contaminated Sediment on Bellamya aeruginosa|Ecotoxicol. Environ. Saf.219:9 p.|2021|10.1016/j.ecoenv.2021.112346
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186948|T||Chen,J., and C. Jiao|Hydrogen Sulfide Alleviates Chlorobenzene Toxicity in Soybean Seedlings|Ciencia Rural46(10): 1743-1749|2016|10.1590/0103-8478cr20151503
186949|A||Liu,Z., D. Li, Q. Hu, R. Tang, and L. Li|Effects of Exposure to Microcystin-LR at Environmentally Relevant Concentrations on the Metabolism of Thyroid Hormones in Adult Zebrafish (Danio rerio)|Toxicon124:15-25|2016|10.1016/j.toxicon.2016.11.004
186950|A||Saraf,S.R., A. Frenkel, M.J. Harke, J.G. Jankowiak, C.J. Gobler, and A.E. Mcelroy|Effects of Microcystis on Development of Early Life Stage Japanese Medaka (Oryzias latipes): Comparative Toxicity of Natural Blooms, Cultured Microcystis and Microcystin-LR|Aquat. Toxicol.194:18-26|2018|10.1016/j.aquatox.2017.10.026
186951|A||Malbrouck,C., G. Trausch, P. Devos, and P. Kestemont|Effect of Microcystin-LR on Protein Phosphatase Activity in Fed and Fasted Juvenile Goldfish Carassius auratus L.|Toxicon43(3): 295-301|2004|10.1016/j.toxicon.2003.12.007
186952|A||Sotton,B., A. Devaux, N. Givaudan, J. Guillard, I. Domaizon, S. Bony, and O. Anneville|Short-Term Uptake of Microcystin-LR by Coregonus lavaretus: GST Activity and Genotoxicity|Ecotoxicology21(7): 1788-1796|2012|10.1007/s10646-012-0913-4
186953|A||Stankovic,N., I. Kostic, B. Jovanovic, D. Savic-Zdravkovic, S. Matic, J. Basic, T. Cvetkovic, J. Simeunovic, and D. Mil|Can Phytoplankton Blooming be Harmful to Benthic Organisms? The Toxic Influence of Anabaena sp. and Chlorella sp. on Chironomus riparius Larvae|Sci. Total Environ.729:9 p.|2020|10.1016/j.scitotenv.2020.138666
186954|A||Sieroslawska,A., A. Rymuszka, A. Bownik, and T. Skowronski|The Influence of Microcystin-LR on Fish Phagocytic Cells|Hum. Exp. Toxicol.26(7): 603-607|2007|10.1177/09603271060080075
186955|A||Schneider,J.E.,Jr., B.H. Beck, J.S. Terhune, and J.M. Grizzle|Cytotoxicity of Microcystin-LR to Primary Cultures of Channel Catfish Hepatocytes and to the Channel Catfish Ovary Cell Line|Adv. Exp. Med. Biol.619:752-753|2008|
186956|A||Sopezki,M.D.S., J.M. Monserrat, J.S. Yunes, and J. Zanette|Validation of Housekeeping Genes as Internal Controls for the Study of the Effects of Microcystin-LR in Zebrafish by Real-Time PCR|Zebrafish15(5): 6 p|2018|10.1089/zeb.2018.1598
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186959|A||Al-mammori,A.M.J., M.J. Al-Amari, and M.M. Khadairi|Study of Purified Microcystin-LR Toxicity on Biochemical Markers in Blood and Liver of Cyprinus carpio During Acute Exposure|Plant Arch.19:695-701|2019|
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186962|A||Cao,Q., W. Liu, Y. Gu, L. Xie, W. Jiang, Y. Gao, and L. Yang|Synergetic Enhancement Toxicity of Copper, Cadmium and Microcystin-LR to the Ceratophyllum demersum L|Toxicon186:151-159|2020|10.1016/j.toxicon.2020.08.008
186964|A||Brzuzan,P., M. Florczyk, A. Lakomiak, and M. Wozny|Illumina Sequencing Reveals Aberrant Expression of Micrornas and Their Variants in Whitefish (Coregonus lavaretus) Liver After Exposure to Microcystin-LR|PLoS One11(7): 1-26|2016|10.1371/journal.pone.0158899
186965|A||Brzuzan,P., C. Kramer, A. Akomiak, E. Jakimiuk, M. Florczyk, and M. Wony|C-Myc in Whitefish (Coregonus lavaretus): Structure, Expression, and Insights into Possible Posttranscriptional Regulatory Mechanism|Fish Physiol. Biochem.41(5): 1155-1171|2015|10.1007/s10695-015-0077-2
186966|A||Li,L., P. Xie, S. Li, T. Qiu, and L. Guo|Sequential Ultrastructural and Biochemical Changes Induced In Vivo by the Hepatotoxic Microcystins in Liver of the Phytoplanktivorous Silver Carp Hypophthalmichthys molitrix|Comp. Biochem. Physiol. C Toxicol. Pharmacol.146(3): 357-367|2007|10.1016/j.cbpc.2007.04.008
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187030|A||Zhang,Y., F. Nie, Q. Shi, W. Wei, F. Xu, and H. Yang|Effects of Microcystin-LR on the Immune Dysfunction and Ultrastructure of Hepatopancreas in Giant Freshwater Prawn Macrobrachium rosenbergii|Fish Shellfish Immunol.89:586-594|2019|10.1016/j.fsi.2019.04.039
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187042|T||Golowasch,J., D. Paupardin-Tritsch, and H.M. Gerschenfeld|Enhancement by Muscarinic Agonists of a High Voltage-Activated Ca2+ Current Via Phosphorylation in a Snail Neuron|J. Physiol. (Lond.)485(1): 21-28|1995|10.1113/jphysiol.1995.sp020709
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187046|A||Fang,L., X.F. Liang, W.X. Cheng, G.G. Li, S. He, X.X. Liu, Y. Yu, and D. Shen|Differential Regulation of Microcystin Detoxification-Related Liver Genes by LPS in Two Chinese Carps Resistant or Sensitive to Microcystin-LR|Fresenius Environ. Bull.24(3a): 997-1003|2015|
187047|A||Feng,Y., X. Chen, J. Ma, B. Zhang, and X. Li|Aberrant Expressional Profiling of Known MicroRNAs in the Liver of Silver Carp (Hypophthalmichthys molitrix) Following Microcystin-LR Exposure Based on SamllRNA Sequencing|Toxins (Basel)12(1): 18 p.|2020|10.3390/toxins12010041
187048|A||Feng,Y., J. Ma, X. Ruichen, and X. Li|Alterations in MicroRNA Expression in the Tissues of Silver Carp (Hypophthalmichthys molitrix) Following Microcystin-LR Exposure|Toxicon128:15-22|2017|10.1016/j.toxicon.2017.01.016
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187073|A||Hoffmann,F., and W. Kloas|The Antiestrogens Tamoxifen and Fulvestrant Abolish Estrogenic Impacts of 17 Alpha-Ethinylestradiol on Male Calling Behavior of Xenopus laevis|PLoS One7(9): 8 p.|2012|10.1371/journal.pone.0044715
187074|A||Huang,J., Q. Wang, S. Liu, M. Zhang, Y. Liu, L. Sun, Y. Wu, and W. Tu|Crosstalk Between Histological Alterations, Oxidative Stress and Immune Aberrations of the Emerging PFOS Alternative OBS in Developing Zebrafish|Sci. Total Environ.774:11 p.|2021|10.1016/j.scitotenv.2021.145443
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187078|T||Guerriero,G., C. Parisi, F.K. Abdel-Gawad, O. Hentati, and G. D'Errico|Seasonal and Pharmaceutical-Induced Changes in Selenoprotein Glutathione Peroxidase 4 Activity in the Reproductive Dynamics of the Soil Biosentinel Podarcis sicula (Chordata: Reptilia)|Mol. Reprod. Dev.86(10SI): 1378-1387|2019|10.1002/mrd.23143
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187084|T||Ahmed,M.A.I., and C.F.A. Vogel|The Role of Octopamine Receptor Agonists in the Synergistic Toxicity of Certain Insect Growth Regulators (IGRs) in Controlling Dengue Vector Aedes aegypti (Diptera: Culicidae) Mosquito|Acta Trop.155:1-5|2016|10.1016/j.actatropica.2015.11.015
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187089|T||Deletre,E.M., R. Bonafos, and T. Martin|Evaluation of Acaricide-Treated String Curtains for Control of Two-Spotted Spider Mite Tetranychus urticae Koch (Acari: Tetranychidae) on Greenhouse Roses and Impact of the String Curtain on the Predatory Mite Phytoseiu|Crop Prot.60:34-43|2014|10.1016/j.cropro.2014.02.005
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187091|T||Holm-Jensen,I., T.F. Jensen, and M.G. Nielsen|The Influence of Temperature Upon the Rate of CO2 Production in Enflurane Anesthetized Worker Ants of Formica rufa L|Insectes Sociaux27(2): 180-185|1980|10.1007/BF02229253
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187097|AT||Romanowska-Duda,Z., J. Mankiewicz, M. Tarczynska, Z. Walter, and M. Zalewski|The Effect of Toxic Cyanobacteria (Blue-Green Algae) on Water Plants and Animal Cells|Pol. J. Environ. Stud.11(5): 561-566|2002|
187098|A||Prakash,C., and S.K. Srivastav|Microcystin-LR: Effects on Freshwater Catfish Heteropneustes fossilis Prolactin Cells|Iran. J. Toxicol.13(4): 17-20|2019|10.32598/IJT.13.4.562.1
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187102|A||Rymuszka,A., A. Sieroslawska, A. Bownik, and T. Skowronski|In Vitro Effects of Pure Microcystin-LR on the Lymphocyte Proliferation in Rainbow Trout (Oncorhynchus mykiss)|Fish Shellfish Immunol.22(3): 289-292|2007|10.1016/j.fsi.2006.06.002
187103|A||Pawlik-Skowronska,B., M. Toporowska, and H. Mazur-Marzec|Effects of Secondary Metabolites Produced by Different Cyanobacterial Populations on the Freshwater Zooplankters Brachionus calyciflorus and Daphnia pulex|Environ. Sci. Pollut. Res. Int.26(12): 11793-11804|2019|10.1007/s11356-019-04543-1
187104|A||Shi,Y., J. Jiang, Z. Shan, Y. Bu, Z. Deng, and Y. Cheng|Oxidative Stress and Histopathological Alterations in Liver of Cyprinus carpio L. Induced by Intraperitoneal Injection of Microcystin-LR|Ecotoxicology24(3): 511-519|2015|10.1007/s10646-014-1399-z
187105|A||Wang,L., W. Lin, Q. Zha, H. Guo, D. Zhang, L. Yang, L. Li, D. Li, and R. Tang|Persistent Exposure to Environmental Levels of Microcystin-LR Disturbs Cortisol Production Via Hypothalamic-Pituitary-Interrenal (HPI) Axis and Subsequently Liver Glucose Metabolism in Adult Male Zebrafish (Danio rerio)|Toxins (Basel)12(5): 12 p.|2020|10.3390/toxins12050282
187106|A||Yang,Z., H. Wu, and Y. Li|Toxic Effect on Tissues and Differentially Expressed Genes in Hepatopancreas Identified by Suppression Subtractive Hybridization of Freshwater Pearl Mussel (Hyriopsis cumingii) Following Microcystin-LR Challenge|Environ. Toxicol.27(7): 393-403|2012|10.1002/tox.20652
187107|T||Saqrane,S., I.E. Ghazali, B. Oudra, L. Bouarab, and V. Vasconcelos|Effects of Cyanobacteria Producing Microcystins on Seed Germination and Seedling Growth of Several Agricultural Plants|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes43(5): 443-451|2008|10.1080/03601230802062307
187108|A||Yoon,D., H. Choi, H. Noh, Y.J. Ok, S. Oh, S. Ma, C. Yoon, and S. Kim|Toxicological Assessment of Microcystin-LR to Zebrafish (Danio rerio) Using Metabolomics|Bull. Kor. Chem. Soc.38(4): 459-465|2017|10.1002/bkcs.11112
187109|A||Yuan,J., X. Wang, Z. Gu, Y. Zhang, and Z. Wang|Activity and Transcriptional Responses of Hepatopancreatic Biotransformation and Antioxidant Enzymes in the Oriental River Prawn Macrobrachium nipponense Exposed to Microcystin-LR|Toxins (Basel)7(10): 4006-4022|2015|10.3390/toxins7104006
187110|A||Ou,D., L. Song, N. Gan, and W. Chen|Effects of Microcystins on the Toxin Degradation by Poterioochromonas sp.|Environ. Toxicol.20(3): 373-380|2005|10.1002/tox.20114
187111|T||Drobac,D., N. Tokodi, B. Kiprovski, D. Malencic, T. Vazic, S. Nybom, J. Meriluoto, and Z. Svircev|Microcystin Accumulation and Potential Effects on Antioxidant Capacity of Leaves and Fruits of Capsicum annuum|J. Toxicol. Environ. Health Part A80(3): 145-154|2017|10.1080/15287394.2016.1259527
187112|T||Elgawish,R.A., Y. Yoshimura, and N. Isobe|Microcystin-Leucine-Arginine Modulates the Expression Patterns of Proinflammatory Cytokines and an Apoptotic Gene in Chicken Liver|J. Poult. Sci.55(1): 70-77|2018|10.2141/jpsa.0170054
187113|T||Esterhuizen,M., N. Schmitner, and S. Pflugmacher|Bioavailability of Microcystin-LR in Two Different Soil Types to the Legume Alfalfa Medicago sativa L|Int. J. Environ. Sci. Technol. (Tehran):10 p|2021|10.1007/s13762-021-03132-5
187114|A||Garcia-Espin,L., E.A. Cantoral, A.D. Asencio, and M. Aboal|Microcystins and Cyanophyte Extracts Inhibit or Promote the Photosynthesis of Fluvial Algae. Ecological and Management Implications|Ecotoxicology26(5): 658-666|2017|10.1007/s10646-017-1798-z
187115|A||Bricelj,V.M., S.P. MacQuarrie, B.M. Twarog, and V.L. Trainer|Characterization of Sensitivity to PSP Toxins in North American Populations of the Softshell Clam Mya arenaria|In: K.A.Steidinger, J.H.Landsberg, C.R.Tomas, and G.A.Vargo (Eds.), Harmful Algae 2002, Florida Fish and Wildlife Conservation Commission, UNESCO:172-174|2004|
187116|T||Fernie,K.J., and S.C. Marteinson|Sex-Specific Changes in Thyroid Gland Function and Circulating Thyroid Hormones in Nestling American Kestrels (Falco sparverius) Following Embryonic Exposure to Polybrominated Diphenyl Ethers by Maternal Transfer|Environ. Toxicol. Chem.35(8): 2084-2091|2016|10.1002/etc.3366
187117|A||Liang,Y., T. Gao, L. Shao, Y. Min, and J. Yang|Effects of Microcystin-LR and Nitrite on the Lifespan, Reproduction, and Heat Shock Responses of Rotifer Brachionus calyciflorus at Different Temperatures|Aquat. Sci.82(4): 14 p.|2020|10.1007/s00027-020-00748-6
187118|A||Kopp,R., M. Palikova, S. Navratil, and J. Mares|Modulation of Biochemical Indices in Common Carp (Cyprinus carpio L.) Under the Influence of Toxic Cyanobacterial Biomass in Diet|Fish Physiol. Biochem.40(6): 1651-1658|2014|10.1007/s10695-014-9955-2
187119|A||Zhou,Y., K. Lu, Y. Chen, and D.J.S. Montagnes|The Interactive Effects of Ammonia and Microcystin on Life-History Traits of the Cladoceran Daphnia magna: Synergistic or Antagonistic?|PLoS One7(3): 12 p.|2012|10.1371/journal.pone.0032285
187120|T||Freytag,C., C. Mathe, G. Rigo, T. Nodzynski, Z. Konya, F. Erdodi, A. Cseplo, E. Pozer, L. Szabados, A. Kelemen, G. Vasa|Microcystin-LR, a Cyanobacterial Toxin Affects Root Development by Changing Levels of Pin Proteins and Auxin Response in Arabidopsis Roots|Chemosphere276:10 p.|2021|10.1016/j.chemosphere.2021.130183
187121|A||Gokce,S., and M.T. Sacan|Assessments of Algal Toxicity and PBT Behaviour of Pesticides with No Eco-Toxicological Data: Predictive Ability of QSA/(T)R Models|Mol. Inform.38:11 p.|2019|10.1002/minf.201800137
187122|A||Hussain,A., G. Audira, N. Malhotra, B. Uapipatanakul, J.R. Chen, Y.H. Lai, J.C. Huang, K.H.C. Chen, H.T. Lai, and C.D. |Multiple Screening of Pesticides Toxicity in Zebrafish and Daphnia Based on Locomotor Activity Alterations|Biomolecules10(9): 21 p.|2020|10.3390/biom10091224
187123|A||Ghayyur,S., M.F. Khan, S. Tabassum, M.S. Ahmad, M. Sajid, K. Badshah, M.A. Khan, Saira, S. Ghayyur, N.A. Khan, B. Ahmad|A Comparative Study on the Effects of Selected Pesticides on Hemato-Biochemistry and Tissue Histology of Freshwater Fish Cirrhinus mrigala (Hamilton, 1822)|Saudi J. Biol. Sci.28(1): 603-611|2021|10.1016/j.sjbs.2020.10.049
187124|A||Rufener,L., K. Kaur, A. Sarr, S.M. Aaen, and T.E. Horsberg|Nicotinic Acetylcholine Receptors: Ex-Vivo Expression of Functional, Non-Hybrid, Heteropentameric Receptors from a Marine Arthropod, Lepeophtheirus salmonis|PLoS Pathogens16(7): 22 p.|2020|10.1371/journal.ppat.1008715
187125|A||Miles,J.C., J. Hua, M.S. Sepulveda, C.H. Krupke, and J.T. Hoverman|Effects of Clothianidin on Aquatic Communities: Evaluating the Impacts of Lethal and Sublethal Exposure to Neonicotinoids|PLoS One12(3): 24 p.|2017|
187126|A||Hano,T., K. Ito, N. Ohkubo, M. Ito, A. Watanabe, and H. Sakaji|Involvement of Oxygenase Confers Higher Resistance to Neonicotinoid Insecticides in Estuarine Resident Sand Shrimp Crangon uritai than in Kuruma Prawn Penaeus japonicus and Mysid Americamysis bahia|Fish. Sci.86(6): 1079-1086|2020|10.1007/s12562-020-01467-5
187127|A||Mortl,M., A. Vehovszky, S. Klatyik, E. Takacs, J. Gyori, and A. Szekacs|Neonicotinoids: Spreading, Translocation and Aquatic Toxicity|Int. J. Environ. Res. Public Health17(6): 24 p.|2020|10.3390/ijerph17062006
187128|T||Broadley,R.A.|Control of Root-Knot of Tobacco with Ethylene Dibromide in North Queensland|Aust. J. Exp. Agric. Anim. Husb.19(100): 616-619|1979|10.1071/EA9790616
187129|T||Pappas,D., S. Gkelis, and E. Panteris|The Effects of Microcystin-LR in Oryza sativa Root Cells: F-Actin as a New Target of Cyanobacterial Toxicity|Plant Biol.22(5): 839-849|2020|10.1111/plb.13120
187130|A||Zhao,Y.H., L.S. Wang, H. Gao, and Z. Zhang|Quantitative Structure-Activity Relationships - Relationship Between Toxicity of Organic Chemicals to Fish and to Photobacterium Phosphoreum|Chemosphere26(11): 1971-1979|1993|10.1016/0045-6535(93)90024-Y
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187132|A||Dhandapani,P., R.A. Gopi, T.N. Sathya, and K.S. Pillai|Eco-Genotoxic Effects of Certain Pesticides Mixtures to Freshwater Fish, Oreochromis mossambicus Peters|Bull. Environ. Pharm. Life Sci.6(8): 58-63|2017|
187133|A||Guedegba,N.L., I.I. Toko, P.T. Agbohessi, B. Zoumenou, C. Douny, N.M.M. Syaghalirwa, B. Schiffers, M.L. Scippo, and P. |Comparative Acute Toxicity of Two Phytosanitary Molecules, Lambda-Cyhalothrin and Acetamiprid, on Nile Tilapia (Oreochromis niloticus) Juveniles|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes54(7): 580-589|2019|
187134|A||Zhang,Y.Y., D. Wu, Z. Fan, J.N. Li, L. Gao, Y.E. Wang, and L.S. Wang|Microcystin-LR Induces Ferroptosis in Intestine of Common Carp (Cyprinus carpio)|Ecotoxicol. Environ. Saf.223:11 p.|2021|10.1016/j.ecoenv.2021.112610
187135|A||Ibrahim,A.M., S.S.M. Sayed, and I.R.A. Shalash|Toxicological Assessment of Lambda-Cyhalothrin and Acetamiprid Insecticides Formulated Mixture on Hatchability Rate, Histological Aspects, and Protein Electrophoretic Pattern of Biomphalaria alexandrina (Ehrenberg, 1831|Environ. Sci. Pollut. Res. Int.25(32): 32582-32590|2018|10.1007/s11356-018-3238-x
187136|AT||Li,B., J. Lin, X. Pang, H. Li, F. Liu, and W. Mu|Binary Mixtures of Alcohol Ethoxylates, Nonylphenol Ethoxylates and Pesticides Exhibit Comparative Bioactivity Against Three Pests and Toxicological Risks to Aquatic Organisms|Chemosphere204:44-50|2018|10.1016/j.chemosphere.2018.04.034
187137|AT||Li,B.X., X.Y. Pang, P. Zhang, J. Lin, X.X. Li, Y. Liu, H. Li, F. Liu, and W. Mu|Alcohol Ethoxylates Significantly Synergize Pesticides Than Alkylphenol Ethoxylates Considering Bioactivity against Three Pests and Joint Toxicity to Daphnia magna|Sci. Total Environ.644:1452-1459|2018|10.1016/j.scitotenv.2018.07.012
187138|A||Houndji,M.A.B., I.I. Toko, L. Guedegba, E. Yacouto, P.T. Agbohessi, S.N.M. Mandiki, M.L. Scippo, and P. Kestemont|Joint Toxicity of Two Phytosanitary Molecules, Lambda-Cyhalothrin and Acetamiprid, on African Catfish (Clarias gariepinus) Juveniles|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes55(7): 669-676|2020|
187139|T||Anusha,C., R.A. Balikai, and R.H. Patil|Management of Cowpea Pests Through Newer and Conventional Insecticides|Int. J. Agric. Stat. Sci.10(1): 157-160|2014|
187141|T||Huiyong,Y., L. Hongbo, S. Guoming, D.A. Sampietro, and G. Xinxin|Effects of Allelochemicals from Tobacco Root Exudates on Seed Germination and Seedling Growth of Tobacco|Allelopathy J.33(1): 107-120|2014|
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187143|A||Hong,X., R. Chen, R. Hou, L. Yuan, and J. Zha|Triphenyl Phosphate (TPHP)-Induced Neurotoxicity in Adult Male Chinese Rare Minnows (Gobiocypris rarus)|Environ. Sci. Technol.52:11895-11903|2018|
187144|A||Wang,L., X. Huang, D.J. Lim, A.K.C. Laserna, and S.F.Y. Li|Uptake and Toxic Effects of Triphenyl Phosphate on Freshwater Microalgae Chlorella vulgaris and Scenedesmus obliquus: Insights from Untargeted Metabolomics|Sci. Total Environ.650:1239-1249|2019|10.1016/j.scitotenv.2018.09.024
187145|A||Mcgee,S.P., A. Konstantinov, H.M. Stapleton, and D.C. Volz|Aryl Phosphate Esters Within a Major PentaBDE Replacement Product Induce Cardiotoxicity in Developing Zebrafish Embryos: Potential Role of the Aryl Hydrocarbon Receptor|Toxicol. Sci.133(1): 144-156|2013|10.1093/toxsci/kft020
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187147|T||Wang,L., X. Huang, A.K.C. Laserna, and S.F.Y. Li|Untargeted Metabolomics Reveals Transformation Pathways and Metabolic Response of the Earthworm Perionyx excavatus After Exposure to Triphenyl Phosphate|Sci. Rep.8:13 p.|2018|
187148|AT||Qi,Z., M. Chen, Y. Song, X. Wang, B. Li, Z.F. Chen, S.Y. Tsang, and Z. Cai|Acute Exposure to Triphenyl Phosphate Inhibits the Proliferation and Cardiac Differentiation of Mouse Embryonic Stem Cells and Zebrafish Embryos|J. Cell. Physiol.29:21235-21248|2019|10.1002/jcp.28729
187149|T||Rama,M.V., and P. Narasimham|A Comparative Study on the Effect of Gibberellic Acid, Ethrel and Ethylene Chloride on Potato (Solanum tuberosum Linn.) Sprouting|J. Food Sci. Technol.19(4): 144-147|1982|
187150|T||Beloti,V.H., G.R. Alves, D.F.D. Araujo, M.M. Picoli, R.D.A. Moral, C.G.B. Demetrio, and P.T. Yamamoto|Lethal and Sublethal Effects of Insecticides Used on Citrus, on the Ectoparasitoid Tamarixia radiata|PLoS One10(7): 14p.|2015|10.1371/journal.pone.0132128
187151|T||Camp,A.A., W.C. Williams, B.D. Eitzer, R.W. Koethe, and D.M. Lehmann|Effects of the Neonicotinoid Acetamiprid in Syrup on Bombus impatiens (Hymenoptera: Apidae) Microcolony Development|PLoS One15:16 p.|2020|10.1371/journal.pone.0241111
187152|T||Chandler,A.J., F.A. Drummond, J.A. Collins, J. Lund, and G. Alnajjar|Exposure of the Common Eastern Bumble Bee, Bombus impatiens (Cresson), to Sub-Lethal Doses of Acetamiprid and Propiconazole in Wild Blueberry|J. Agric. Urban Entomol.36(1): 23 p.|2020|10.3954/1523-5475-36.1.1
187153|T||Chen,L., Q. Yan, J. Zhang, S. Yuan, and X. Liu|Joint Toxicity of Acetamiprid and the Co-Applied Pesticide Adjuvants on Honeybees under Semi-Field and Laboratory Conditions|Environ. Toxicol. Chem.38(9): 1940-1946|2019|10.1002/etc.4515
187154|T||Cheng,X., F. Li, J. Chen, H. Wang, T. Mao, J. Hu, and B. Li|Mechanism of Trace Acetamiprid-Caused Reproductive Disorders in Silkworm, Bombyx mori|Pest Manag. Sci.75(10): 2672-2681|2019|10.1002/ps.5373
187155|T||Khan,F.R., and S.S. Alhewairini|Effects of Insecticides on Natural Population of Hymenopterous Parasitoids in Alfalfa (Medicago sativa L.) Agro-Ecosystem|Pak. J. Agric. Sci.56(4): 1087-1093|2019|
187156|A||McCampbell Analytical, Inc.|Analytical Report R134a HazWaste Assessment|Report 2103036, created for California Air Resources Board, Sacramento, CA:72 p.|2021|
187157|T||Ngoc,P., E. Rajotte, and D. Biddinger|Impact of Pesticide Residue on Japanese Orchard Bees (Osmia cornifrons) Development and Mortality|Julius-Kuhn-Arch. (Multiple Languages)462:172-175|2018|
187158|T||Korenko,S., J. Sykora, M. Rezac, and P. Heneberg|Neonicotinoids Suppress Contact Chemoreception in a Common Farmland Spider|Sci. Rep.10(1): 8 p.|2020|10.1038/s41598-020-63955-z
187159|T||Nowak,M., P. Bernat, J. Mrozinska, and S. Rozalska|Acetamiprid Affects Destruxins Production but Its Accumulation in Metarhizium sp. Spores Increases Infection Ability of Fungi|Toxins (Basel)12(9): 14p.|2020|10.3390/toxins12090587
187160|T||Stejskalova,M., V. Konradyova, and J. Kazda|The Influence of Pesticides Repellency Used in Oilseed Rape (Brassica napus subsp. napus) on the Preference by Bees (Apis mellifera L.)|J. Apic. Res.60(2): 270-276|2021|10.1080/00218839.2019.1702322
187161|T||Taplamacioglu,D., and I. Karaca|Effects of Some Pesticides on Bombus terrestris Under Laboratory Conditions|Int. J. Agric. Environ. Food Sci.3(4): 217-219|2019|10.31015/jaefs.2019.4.3
187162|T||Thany,S.H., C.M. Bourdin, J. Graton, A.D. Laurent, M. Math-Allainmat, J. Lebreton, and J.Y. Le Questel|Similar Comparative Low and High Doses of Deltamethrin and Acetamiprid Differently Impair the Retrieval of the Proboscis Extension Reflex in the Forager Honey Bee (Apis mellifera)|Insects6(4): 805-814|2015|10.3390/insects6040805
187163|T||Troczka, Homem, Reid, Beadle, Kohler, Zaworra, Field, Williamson, Nauen, Bass, and Davies |Identification and Functional Characterisation of a Novel N-Cyanoamidine Neonicotinoid Metabolising Cytochrome P450, CYP9Q6, from the Buff-Tailed Bumblebee Bombus terrestris|Insect Biochem. Mol. Biol.111:8p.|2019|10.1016/j.ibmb.2019.05.006
187164|T||Paik,M.K., J.T. Im, K. Chon, K.H. Park, Y.S. Choi, M.L. Lee, C.H. Bae, J.H. Kim, and B.C. Moon|Synergistic and Antagonistic Interactions for Pesticide Mixtures to Honeybee Larvae Toxicity|Korean J Environ Agric.35(4): 241-246|2016|10.5338/KJEA.2016.35.4.32
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187167|A||McKenzie,J.D., P. Calow, J. Clyde, A. Miles, R. Dickinson, W.R. Lieb, and N.P. Franks|Effects of Temperature on the Anesthetic Potency of Halothane, Enflurane and Ethanol in Daphnia magna (Cladocera, Crustacea)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.101C(1): 15-19|1992|10.1016/0742-8413(92)90193-B
187168|A||Berends,A.G.|Toxicity of Sodium Trifluoroacetate to the Alga Chlorella vulgaris|Solvay Duphar Internal Document No.56835/29/93:16 p.|1993|
187169|A||Krzykwa,J.C., S.M. King, and M.K.S. Jeffries|Investigating the Predictive Power of Three Potential Sublethal Endpoints for the Fathead Minnow Fish Embryo Toxicity Test: Snout-Vent Length, Eye Size, and Pericardial Edema|Environ. Sci. Technol.55(10): 6907-6916|2021|10.1021/acs.est.1c00837
187170|A||Chen,K., N. Iwasaki, X. Qiu, H. Xu, Y. Takai, K. Tashiro, Y. Shimasaki, and Y. Oshima|Adipogenesis of Perfluorooctanesulfonate (PFOS) on Japanese Medaka (Oryzias latipes) Embryo Using Ovo-Nanoinjection-mRNA Seq Analysis|J. Fac. Agric. Kyushu Univ.65(2): 295-303|2020|10.5109/4103894
187171|T||Bursian,S.J., J.E. Link, M. Mccarty, K. Harr, J. Roberts, and M.F. Simcik|Dietary Exposure of Japanese Quail (Coturnix japonica) to Perfluorooctane Sulfonate (PFOS) and a Legacy Aqueous Film Forming Foam (AFFF) Containing PFOS: Effects on Reproduction and Chick Survivability and Growth|Environ. Toxicol. Chem.40(9): 2521-2537|2021|10.1002/etc.5138
187172|T||Narizzano,A.M., M.E. Bohannon, A.G. East, C. McDonough, S. Choyke, C.P. Higgins, and M.J.,Jr. Quinn|Patterns in Serum Toxicokinetics in Peromyscus Exposed to PFAS|Environ. Toxicol. Chem.40(10): 2886-2898|2021|10.1002/etc.5151
187173|T||Dennis,N.M., F. Hossain, S. Subbiah, A. Karnjanapiboonwong, M.L. Dennis, C. Mccarthy, C.G. Heron, W.A. Jackson, J.P. Cr|Chronic Reproductive Toxicity Thresholds for Northern Bobwhite Quail (Colinus virginianus) Exposed to Perfluorohexanoic Acid (PFHxA) and a Mixture of Perfluorooctane Sulfonic Acid (PFOS) and PFHXA|Environ. Toxicol. Chem.40(9): 2601-2614|2021|10.1002/etc.5135
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187175|A||Lu,W.J., L. Long, P.Q. Zhao, X. Zhang, C.Z. Yan, S.J. Dong, and Q.S. Huang|Perfluorinated Compounds Disrupted Osmoregulation in Oryzias melastigma During Acclimation to Hypoosmotic Environment|Ecotoxicol. Environ. Saf.223:10p.|2021|10.1016/j.ecoenv.2021.112613
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187178|A||Li,Y., J. Wang, M. Zheng, Y. Zhang, and S. Ru|Development of ELISAs for the Detection of Vitellogenin in Three Marine Fish from Coastal Areas of China|Mar. Pollut. Bull.133:415-422|2018|10.1016/j.marpolbul.2018.06.001
187179|A||Feng,M., X. Wang, C. Wang, L. Qin, Z. Wei, and Z. Wang|Antioxidant Status and Na+, K+-ATPase Activity in Freshwater Fish Carassius auratus Exposed to Different Combustion Products of Nafion 117 Membrane: An Integrated Biomarker Approach|Environ. Sci. Pollut. Res.22(5): 3408-3418|2015|10.1007/s11356-014-3826-3
187181|A||Jabir,T.F., H.A.N. Abbood, F.S. Salman, and A.Y. Hafit|Influence of pH, Pesticide and Radiation Interactions on the Chemical Composition of Chlorella vulgaris Algae|IOP Conf. Ser. Earth Environ. Sci.722(1): 13 p.|2021|10.1088/1755-1315/722/1/012046
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187183|A||Hornung,M.W., G.T. Ankley, and P.K. Schmieder|Induction of an Estrogen-Responsive Reporter Gene in Rainbow Trout Hepatoma Cells (RTH 149) at 11 or 18 Degrees C|Environ. Toxicol. Chem.22(4): 866-871|2003|
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187185|A||Hanson,A.M., J.D. Kittilson, and M.A. Sheridan|Environmental Estrogens Inhibit the Expression of Insulin-Like Growth Factor mRNAs in Rainbow Trout in Vitro by Altering Activation of the JAK-STAT, PI3K/AKT, and ERK Signaling Pathways|Gen. Comp. Endocrinol.309:10 p.|2021|10.1016/j.ygcen.2021.113792
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187188|A||Adam,A.H.B., L.H.J. De Haan, J. Louisse, I.M.C.M. Rietjens, and L. Kamelia|Assessment of the In Vitro Developmental Toxicity of Diethylstilbestrol and Estradiol in the Zebrafish Embryotoxicity Test|Toxicol. In Vitro72:8 p.|2021|10.1016/j.tiv.2021.105088
187190|A||Iwanowicz,L.R., J.L. Stafford, R. Patino, E. Bengten, N.W. Miller, and V.S. Blazer|Channel Catfish (Ictalurus punctatus) Leukocytes Express Estrogen Receptor Isoforms ERalpha and ERbeta2 and Are Functionally Modulated by Estrogens|Fish Shellfish Immunol.40(1): 109-119|2014|10.1016/j.fsi.2014.06.021
187191|T||Kadala,A., M. Charreton, and C. Collet|Flubendiamide, the First Phthalic Acid Diamide Insecticide, Impairs Neuronal Calcium Signalling in the Honey Bee's Antennae|J. Insect Physiol.125:7 p.|2020|10.1016/j.jinsphys.2020.104086
187193|T||Bender,A.T., and S.L. Veney|Treatment with the Specific Estrogen Receptor Antagonist ICI 182,780 Demasculinizes Neuron Soma Size in the Developing Zebra Finch Brain|Brain Res.1246:47-53|2008|10.1016/j.brainres.2008.09.089
187195|A||Bownik,A., M. Pawlocik, and N. Sokolowska|Effects of Neonicotinoid Insecticide Acetamiprid on Swimming Velocity, Heart Rate and Thoracic Limb Movement of Daphnia magna|Pol. J. Nat. Sci.32(3): 481-493|2017|
187196|A||Raj,S.B., and B. Joseph|Impact of Acetamiprid Toxicity on Biochemical Biomarkers (Protein and Carbohydrate) in Some Tissues of the Fish Oreochromis mossambicus|Int. J. Zool. Res.11(5): 222-227|2015|10.3923/ijzr.2015.222.227
187197|A||Raine,J.C., S. Su, E. Lin, Z.L. Yang, J.P. Giesy, and P.D. Jones|Prefertilization Exposure of Rainbow Trout Eggs to Per- and Polyfluoroalkyl Substances to Simulate Accumulation During Oogenesis|Environ. Toxicol. Chem.40(11): 3159-3165|2021|10.1002/etc.5200
187198|A||Bertotto,L.B., R. Bruce, S. Li, J. Richards, R. Sikder, L. Baljkas, M. Giroux, J. Gan, and D. Schlenk|Effects of Bifenthrin on Sex Differentiation in Japanese Medaka (Oryzias latipes)|Environ. Res.177:5 p.|2019|10.1016/j.envres.2019.108564
187200|A||Hathout,H.M.R., H.M. Sobhy, S. Abou-Ghanima, and I.M. El-Garawani|Ameliorative Role of Ascorbic Acid on the Oxidative Stress and Genotoxicity Induced by Acetamiprid in Nile Tilapia (Oreochromis niloticus)|Environ. Sci. Pollut. Res.28:13 p.|2021|10.1007/s11356-021-14856-9
187201|T||Humann-Guilleminot,S., C. Tassin de Montaigu, J. Sire, S. Grunig, O. Gning, G. Glauser, A. Vallat, and F. Helfenstein|A Sublethal Dose of the Neonicotinoid Insecticide Acetamiprid Reduces Sperm Density in a Songbird|Environ. Res.177:9p.|2019|10.1016/j.envres.2019.108589
187202|T||Morais,M.C., M. Rakes, A.C. Padilha, A.D. Grutzmacher, D.E. Nava, O. Bernardi, and D. Bernardi|Susceptibility of Brazilian Populations of Anastrepha fraterculus, Ceratitis capitata (Diptera: Tephritidae), and Drosophila suzukii (Diptera: Drosophilidae) to Selected Insecticides|J. Econ. Entomol.114(3): 1291-1297|2021|10.1093/jee/toab050
187204|T||Anes,K., and S. Ganguly|Pesticide Compatibility with Entomopathogenic Nematode, Steinernema thermophilum (Nematoda: Rhabditida)|Indian J. Nematol.46(1): 20-26|2016|
187205|A||Su,F., S. Zhang, M. Yang, and H. Li|In Vitro Acute Cytotoxicity of the Neonicotinoid Insecticide Acetamiprid to Fg Cells, the Gill Cell Line of Flounder Paralichthy olivaceus|Acta Oceanol. Sin.25(5): 135-140|2006|
187206|T||Camlica,Y., S.C. Bediz, U. Comelekoglu, and S.N. Yilmaz|Toxic Effect of Acetamiprid on Rana ridibunda Sciatic Nerve (Electrophysiological and Histopathological Potential)|Drug Chem. Toxicol.42(3): 264-269|2019|10.1080/01480545.2018.1442475
187207|T||Skalsky,M., J. Ourednickova, J. Niedobova, and B. Hortova|Efficacy of Agrochemicals Against Phyllobius oblongus|Plant Prot. Sci.56(2): 116-122|2020|10.17221/75/2019-PPS
187208|T||Roby,A.E.L., and S.M. Hussein|Behavior of Bio- and Chemical Insecticides in Tomato Ecosystem in Minia Governorate|Acta Ecol. Sin. (Multiple Languages)39(2): 152-156|2018|10.1016/j.chnaes.2018.08.004
187209|T||Faiha,A., M.J. Hajjar, and M. Jamal|Effect of Some Insecticides on Parasitoid, Aphelinus mali Hald (Hymenoptera: Aphelinidae) of the Woolly Apple Aphid Eriosoma lanigerum Hausmann|Int. J. Biol. Pharm. All. Sci.1(4): 494-502|2012|
187210|T||Desjardins,N.S., A.II Fisher, C. Ozturk, J.H. Fewell, G. Degrandi-Hoffman, J.F. Harrison, and B.H. Smith|A Common Fungicide, Pristine, Impairs Olfactory Associative Learning Performance in Honey Bees (Apis mellifera)|Environ. Pollut.288:8 p.|2021|10.1016/j.envpol.2021.117720
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187213|T||Ratnakar,V., S.R. Koteswara Rao, D. Sridevi, and B. Vidyasagar|Safety Evaluation of Certain Newer Insecticides to European Honeybee, Apis mellifera Linnaeus|J. Entomol. Res.40(3): 261-266|2016|10.5958/0974-4576.2016.00047.5
187214|T||Ulziibayar,D., and C. Jung|Comparison of Acute Toxicity of Different Groups of Pesticides to Honey Bee Workers (Apis mellifera L.)|J. Apic. Res.34(4): 305-313|2019|10.17519/apiculture.2019.11.34.4.305
187215|T||Vinothkumar,B., N. Kumaran, N. Boomathi, P.A. Saravanan, and S. Kuttalam|Toxicity of Spirotetramat 150 OD to Honeybees|Madras Agric. J.97(1/3): 86-87|2010|
187216|T||Wegorek,P., J. Zamojska, and D. Dworzanska|Impact of Selected Active Substances in Insecticides on the Behavior of Honey Bees (Apis mellifera L.) and Silver Y Moths (Autographa gamma L.) After Insecticide Plant Treatment|Fresenius Environ. Bull.24(5): 1742-1746|2015|
187217|T||Rukhosh,J.R., M.A. Abdulbast, and T.M. Talal|Toxicological and Biological Effect of Three Chemical Compounds on Different Honey Bee Races (Apis mellifera L.) (Hymenoptera: Apidae)|Appl. Ecol. Environ. Res.17(2): 5043-5057|2019|10.15666/aeer/1702_50435057
187218|T||Sanda,M., T. Vroumsia, M.N. Yahangar, M. Malla, D. Zroumba, and D. Bruckner|Sublethal Effects of Acetamiprid on Native Honey Bee Subspecies (Apis mellifera) in Cameroon|Int. J. Entomol. Res.5(3): 52-56|2020|
187219|T||Haas,J., and R. Nauen|Pesticide Risk Assessment at the Molecular Level Using Honey Bee Cytochrome P450 Enzymes: A Complementary Approach|Environ. Int.147:8 p.|2021|10.1016/j.envint.2020.106372
187220|T||Mazi,S., T. Vroumsia, M.N. Yahangar, M. Malla, and D. Zroumba|Determination of Acute Lethal Doses of Acetamiprid and Cypermethrin for the Native Bee Apis mellifera (Hymenoptera: Apidae) in Cameroon|Open J. Ecol.10(7): 404-417|2020|10.4236/oje.2020.107026
187221|T||Wu,J., J.L. Li, W.J. Peng, and F.L. Hu|Sensitivities of Three Bumblebee Species to Four Pesticides Applied Commonly in Greenhouses in China|Insect Sci.17(1): 67-72|2010|10.1111/j.1744-7917.2009.01286.x
187222|T||Imran,M., T. Naseem, A. Iqbal, K. Mahmood, and U.A.A. Sheikh|Assessment of Sensitivity Level of Honeybee (Apis mellifera) to Neonicotinoid Insecticides|Asian J. Agric. Biol.6(3): 327-334|2018|
187223|T||Mokkapati,J.S., A.J. Bednarska, and R. Laskowski|The Development of the Solitary Bee Osmia bicornis is Affected by Some Insecticide Agrochemicals at Environmentally Relevant Concentrations|Sci. Total Environ.775:10 p.|2021|10.1016/j.scitotenv.2021.145588
187224|T||Shi,J., H. Yang, L. Yu, C. Liao, Y. Liu, M. Jin, W. Yan, and X.B. Wu|Sublethal Acetamiprid Doses Negatively Affect the Lifespans and Foraging Behaviors of Honey Bee (Apis mellifera L.) Workers|Sci. Total Environ.738:7 p.|2020|10.1016/j.scitotenv.2020.139924
187225|T||Shi,J., C. Liao, Z. Wang, Z. Zeng, and X. Wu|Effects of Sublethal Acetamiprid Doses on the Lifespan and Memory-Related Characteristics of Honey Bee (Apis mellifera) Workers|Apidologie50(4): 553-563|2019|10.1007/s13592-019-00669-w
187228|T||Dwivedi,S.K.|In Vitro Cellulase Activity of Two Wilt Causing Soil Fusaria (Fusarium solani and F. oxysporum f. sp. lycopersici) and Efficacy of Some Pesticides Against the Said Fusaria|J. App. Hort.17(1): 58-65|2015|10.37855/jah.2015.v17i01.12
187231|T||Costa,H.|Interaction of Beauveria bassiana with Various Fungicides under Exposed Conditions, 1997|Arthropod Management Tests23:349-|1998|
187233|T||Patil,S.B., S.S. Udikeri, and N.B. Vandal|Bioefficacy of Verticillium lecanii (1.15% Wp) Against Sucking Pest Complex on Transgenic Bt Cotton|J. Cotton Res. Dev.26(2): 222-226|2012|
187234|T||Neves,P.M.O.J., E. Hirose, P.T. Tchujo, and A.,Jr. Moino|Compatibility of Entomopathogenic Fungi with Neonicotinoid Insecticides|Neotrop. Entomol. (Multiple Languages)30(2): 263-268|2001|10.1590/S1519-566X2001000200009
187236|T||Somsai,A.P., L. Lukacs, T. Florian, A.F. Sestras, C.I. Bunea, A. Hoble, and H. Vlasin|Chemical Control of Box Tree Moth Cydalima perspectalis (Walker, 1859) (Lepidoptera: Crambidae) in North-Western Romania|Agri.-Rev. St. Pract. Ag.28(3/4): 210-216|2019|
187237|T||Karahan,A., M.A. Kutlu, and I. Karaca|Determination of the Effect of Some Pesticides on Honey Bees|Int. J. Agric. Environ. Food Sci.2(3): 104-108|2018|10.31015/jaefs.18017
187238|T||Domingues,M.M., L.K. Becchi, S.G.M. Velozo, A.R. De Souza, L.R. Barbosa, M.A. Soares, J.E. Serrao, J.C. Zanuncio, and C|Selectivity of Mycoinsecticides and a Pyrethroid to the Egg Parasitoid Cleruchoides noackae (Hymenoptera: Mymaridae)|Sci. Rep.10(1): 7 p.|2020|10.1038/s41598-020-71151-2
187239|T||Kang,M., and C. Jung|Avoidance Behavior of Honey Bee, Apis mellifera from Commonly Used Fungicides, Acaricides and Insecticides in Apple Orchards|J. Apic. Res.32(4): 295-302|2017|10.17519/apiculture.2017.11.32.4.295
187240|T||Imran,M., U.A.A. Sheikh, M. Nasir, M.A. Ghaffar, T. Ansa, and M.A. Iqbal|Do Neonicotinoid Insecticides Impaired Olfactory Learning Behavior in Apis mellifera?|Int. J. Indust. Entomol.38(1): 1-5|2019|
187241|T||Nadaf,H.A., G.S. Yadav, H.D. Kaushik, and S.K. Sharma|Toxicity of New Molecules of Insecticides against Honeybee, Apis mellifera L|Trends Biosci.6(4): 445-447|2013|
187242|T||Abbad,M.K.R., and B.A. Besheli|Bioassay of the Botanical Insecticide, Tondexir, on Two Natural Enemies of the Common Pistachio Psyllid|Int. J. Agron. Plant Prod.4(6): 1191-1196|2013|
187243|T||Araujo,W.L.D., M.S.D. Godoy, P.B. Maracaja, W.A.C. Coelho, B.K.D.A. Silva, A.J.M. Rugama, E.L.D. Araujo, and J.D.L. Bat|Toxicity of Neonicotinoids Used in Melon Culture Towards Apis mellifera L|Afr. J. Agric. Res.12(14): 1204-1208|2017|
187245|T||Maia,J.B., P.D.F. Silva, M.V. Sampaio, A.R.C. De Oliveira, L.B.R. De Moura, and C.A. Silva|Effects of Acetamiprid on Lipaphis pseudobrassicae (Hemiptera: Aphididae) Resistant and Susceptible to the Parasitoid Diaeretiella rapae (Hymenoptera: Braconidae, Aphidiinae)|Rev. Ceres (Multiple Languages)67(3): 231-239|2020|10.1590/0034-737x202067030009
187246|T||Abbes,K., R. Rahmouni, and B. Chermiti|Toxicity of Insecticides Used in Tunisian Citrus Orchards on the Introduced Mealybug Parasitoid Leptomastix dactylopii (Hymenoptera: Encyrtidae)|IOBC-WPRS Bull.132:126-131|2018|
187247|T||Harbi,A., K. Abbes, B. Sabater-Munoz, F. Beitia, and B. Chermiti|Residual Toxicity of Insecticides Used in Tunisian Citrus Orchards on the Imported Parasitoid Diachasmimorpha longicaudata (Hymenoptera: Braconidae): Implications for IPM Program of Ceratitis capitata (Diptera: Tephriti|Spanish J. Agric. Res.15(3): 10p.|2017|10.5424/sjar/2017153-10734
187248|T||Esonbayev,S., A. Khasanov, and A. Kholliev|Almond Pest in Forest Agrobiocenosis and Measures Against Them|ES3 Web Conf.258:|2021|10.1051/e3sconf/202125804028
187249|T||Fytrou,N., A. Ilias, J. Sklivakis, and A. Tsagkarakou|Lethal and Sublethal Effects of Selected Insecticides on Commercially Available Natural Enemies of Whiteflies|IOBC-WPRS Bull.125:19-27|2017|
187250|T||Bangels,E., and T. Belien|Control of Sawflies in Apple and Pear in Belgium|Commun. Agric. Appl. Biol. Sci.78(2): 293-298|2013|
187252|T||Gorzka,D., and R.W. Olszak|Insecticide Selectivity Tests on Spider Mite Destroyer (Stethorus punctillum) (Weise) (Coleoptera: Coccinellidae) in Laboratory Conditions|IOBC-WPRS Bull.55:109-112|2010|
187253|T||Wegorek,P., and J. Zamojska|Resistance of Pollen Beetle (Meligethes aeneus F.) to Pyrethroids, Chloronicotinyls and Organophosphorous Insecticides in Poland|Bull. SROP - WPRS Bull.29(7): 135-140|2006|
187254|T||Basappa,H.|Toxicity of Biopesticides and Synthetic Insecticides to Egg Parasitoid, Trichogramma chilonis Ishii and Coccinellid Predator, Cheilomenes sexmaculata (Fabricius)|J. Biol. Control21(1): 31-36|2007|
187255|T||Mazeed,A.R.A.|Toxicity of Some Insecticides Against the Oriental Hornet Vespa orientalis (Hymenoptera: Vespidae)|Egypt. J. Plant Prot. Res. Inst.2(2): 315-321|2019|
187256|T||Payton,T.L., E.J. Rebek, and M. Payton|Foliar- and Soil-Applied Pesticide Compatibility with Aphidius colemani Parasitoids|Southwest. Entomol.45(1): 31-39|2020|10.3958/059.045.0103
187257|T||Khan,M.A., H. Khan, A. Farid, and A. Ali|Evaluation of Toxicity of Some Novel Pesticides to Parasitism by Trichogramma Chilonis (Hymenoptera: Trichogrammatidae)|Journal of Agricultural Research (Lahore)53(1): 63-73|2015|
187258|T||Roychoudhury,N.|Evaluation of Biopesticide, Spinosad and Neonicotinoids, Acetamiprid and Imidacloprid Against Eucalyptus Gall Insect, Leptocybe invasa Fisher and Lasalle|Pestology41(4): 23-32|2017|
187259|T||Ullah,M.I., S.M.A. Zahid, M. Arshad, Y. Iftikhar, S. Khalid, J.M. Ochoa, and M. Naveed|Toxicity of Botanicals and Conventional Insecticides to Aenasius Bambawalei Hayat, an Endoparasitoid of Cotton Mealybug, Phenacoccus solenopsis Tinsley|Southwest. Entomol.42(4): 941-951|2017|10.3958/059.042.0413
187261|T||Rezac,M., N. Glorikova, S.M. Wilder, and P. Heneberg|The Sublethal Effects of Neonicotinoids on Spiders are Independent of Their Nutritional Status|Sci. Rep.11(1): 11 p.|2021|10.1038/s41598-021-87935-z
187262|T||Gaikwad,B.B., S.S. Shetgar, M.M. Sonkamble, A.B. Bhosle, and S.T. Shinde|Efficacy of Different Insecticides against Population of Lady Bird Beetle on Safflower|J. Entomol. Res.38(2): 129-130|2014|
187263|T||Wegorek,P.|Preliminary Data on Resistance Appearance of Pollen Beetle Pb (Meligethes aeneus F.) to Selected Pyrethroids, Organophosphorus and Chloronicotinyl Insecticide, in 2004 Year in Poland|Resist. Pest Manag. Newsl.14(2): 19-21|2005|
187264|T||Poornima,M.H., and S.G. Rayar|Safety of Newer Insecticides and Biorationals to Mulberry Silkworm|J. Exp. Zool. India18(1): 305-307|2015|
187266|T||Poornima,M.H., and S.G. Rayar|Management of Mulberry Thrips Using Newer Insecticides and Biorationals and Its Effect on Silkworm Rearing Performance|J. Exp. Zool.18(1): 267-270|2015|
187267|T||Labanowska,B.H., R. Olszak, C. Tkaczuk, and A. Augustyniuk-Kram|Efficacy of Chemical and Biological Control of the Strawberry Root Weevil (Otiorhynchus ovatus L.) and the Vine Weevil (Otiorhynchus sulcatus F.) in Strawberry Plantations in Poland|Bull. SROP - WPRS Bull.27(4): 153-159|2004|
187268|T||Pan,H., H. Zhou, S. Miao, D. Guo, X. Zhang, Q. Hu, X. Mao, and S. Ji|Plant Metabolomics for Studying the Effect of Two Insecticides on Comprehensive Constituents of Lonicerae japonicae Flos|Chin. J. Nat. Med.19(1): 70-80|2021|10.1016/S1875-5364(21)60008-0
187269|T||Kim,Y.E., S.W. Kim, L. Dajung, and I.S. Kim|Residues Analysis of Acetamiprid, Boscalid, Imidacloprid and Pyraclostrobin in the Minor Crop Mustard Green Under Greenhouse Conditions for Evaluation of Their Potentiality of PLS Violation|Korean J Environ Agric.39(3): 214-221|2020|10.5338/KJEA.2020.39.3.25
187271|T||Wang,X., M. Yan, J. Zhou, W. Song, Y. Xiao, C. Cui, W. Gao, F. Ke, J. Zhu, Z. Gu, and R. Hou|Delivery of Acetamiprid to Tea Leaves Enabled by Porous Silica Nanoparticles: Efficiency, Distribution and Metabolism of Acetamiprid in Tea Plants|BMC Plant Biol.21(1): 15 p.|2021|10.1186/s12870-021-03120-4
187272|T||Wang,F., X. Li, S. Yu, S. He, D. Cao, S. Yao, H. Fang, and Y. Yu|Chemical Factors Affecting Uptake and Translocation of Six Pesticides in Soil by Maize (Zea mays L.)|J. Hazard. Mater.405:9 p.|2021|10.1016/j.jhazmat.2020.124269
187273|T||Kutuk,H., and A. Yigit|Residual Toxicity of Pymetrozine, Spiromesifen, Spinosad and Acetamiprid to the Predacious Ladybird Serangium parcesetosum (Coleoptera: Coccinellidae), a Predator of the Whitefly, Bemisia tabaci (Homoptera: Aleyrodidae)|IOBC-WPRS Bull.49:353-358|2009|
187274|T||Willoughby,I.H., R. Harmer, and J. Forster|Ten Conifer Species with the Potential for Wider Use in British Forestry Show Some Tolerance to Six Commonly Used Pesticides|Quart. J. Forest.112(2): 84-92|2018|
187275|T||Nag,S., R. Dutta, and K.K. Pal|Chromosomal Aberrations Induced by Acetamiprid in Allium cepa L. Root Meristem Cells|Indian JLS3(2): 1-5|2013|
187276|T||Neog,K., P. Dutta, R. Das, and V. Sivaprasad|Effects of Commonly Used Plant Protection Formulations on Rearing and Cocoon Production of Muga Silkworm Antheraea assamensis Helfer|Munis Entomol. Zool.16(1): 331-350|2021|
187279|T||Bemani,M., G. Moravvej, H. Izadi, and H. Sadeghi-Namaghi|Detoxifying Enzyme Activities in the Common Pistachio Psylla and the Coccinellid Predator|J. Agric. Sci. Technol.23(3): 575-587|2021|
187280|T||Bonnechere,A., V. Hanot, C. Bragard, T. Bedoret, and J. Van Loco|Effect of Household and Industrial Processing on the Levels of Pesticide Residues and Degradation Products in Melons|Food Addit. Contam. Part A29(7): 1058-1066|2012|
187281|T||El Din,A.M.S., M.M. Azab, T.R.A. El-Zaher, Z.H.A. Zidan, and A.R. Morsy|Persistence of Acetamiprid and Dinotefuran in Cucumber and Tomato Fruits|Am.-Euras. J. Toxicol. Sci.4(2): 103-107|2012|
187282|T||Eshra,E.S.H., M.S. El-Shahaat, and Y. Dewer|Molluscicidal Potential of Two Neonicotinoids and Fipronil Against Three Terrestrial Snail Species|Int. J. Zool. Invest.2(1): 1-8|2016|
187283|T||Balci,N., F. Turkan, H. Sakiroglu, A. Aygun, and F. Sen|Purification and Characterization of Glutathione S-Transferase from Blueberry Fruits (Vaccinium arctostaphylos L.) and Investigated of Some Pesticide Inhibition Effects on Enzyme Activity|Heliyon5(4): 18 p.|2019|10.1016/j.heliyon.2019. e01422
187284|T||Li,Z., H. Wang, S. An, and X. Yin|Nanochitin Whisker Enhances Insecticidal Activity of Chemical Pesticide for Pest Insect Control and Toxicity|J. Nanobiotechnol.19(1): 13 p.|2021|10.1186/s12951-021-00792-w
187285|A||Pinto,C., R. Hao, M. Grimaldi, S. Thrikawala, A. Boulahtouf, S. Ait-Aissa, F. Brion, J.A. Gustafsson, P. Balaguer, and |Differential Activity of BPA, BPAF, and BPC on Zebrafish Estrogen Receptors in Vitro and in Vivo|Toxicol. Appl. Pharmacol.380:9 p.|2019|10.1016/j.taap.2019.114709
187286|T||Newman,I.C., J.T.S. Walker, and D.J. Rogers|Mortality of the Leafroller Parasitoid dolichogenidea Tasmanica (Hym : Braconidae) Exposed to Orchard Pesticide Residues|N. Z. Plant Prot.57:8-12|2004|10.30843/nzpp.2004.57.6933
187287|T||Ratnakar,V., S.R.K. Rao, D. Sridevi, and B. Vidyasagar|Safety Evaluation of Some Insecticides on Honey Bee|Agric. Res. J. Kerala53(4): 599-602|2016|10.5958/2395-146X.2016.00121.6
187288|T||Popov,C., A. Barbulescu, E. Trotus, S. Vasilescu, and E. Bucurean|Control of Wireworms by Seed Treatment in Romania|Rom. Agric. Res.15:6 p|2001|
187289|T||Mandal,S.K., and N. Yadi|Non-Target Toxicity of Some Post-Emergent Herbicides and Insecticides Against the Mexican Beetle Zygogramma bicolorata Pallister (Chrysomelidae:Coleoptera)|Proc. South. Weed Sci. Soc.:274-279|2007|
187290|T||Saner,D., G.B. Kabre, and Y.A. Shinde|Impact of Newer Insecticides on Ladybird Beetles (Menochilus sexmaculatus L.) in Hybrid Cotton|J. Ind. Pollut. Control30(2): 251-253|2014|
187291|T||Daniel,R.A., and M. Ion|The Protection of the Rapeseed Crop Against the Attack of Athalia rosae in the S-E of Boianului Plain|Ann. Univ. Craiova Math. Comp. Sci.49(1): 258-263|2019|
187292|T||Wang,H., F. Li, J. Qu, T. Mao, J. Chen, M. Li, Z. Lu, Y. Fang, G. Shi, and B. Li|The Mechanism of Damage by Trace Amounts of Acetamiprid to the Midgut of the Silkworm, Bombyx mori|Environ. Toxicol.34(9): 1043-1051|2019|10.1002/tox.22775
187293|T||Halappa,B., J.S. Awaknavar, D. Archana, S. Bandi, and G.S.A. Kumar|Laboratory Evaluation of Insecticides Against Australian Beetle, Cryptolaemus montrouzieri Mulsant (Coccinellidae: Coleoptera)|Curr. Biotica7(3): 196-201|2013|
187294|T||Masheva,S., N. Valchev, and V. Yankova|Bioproducts against Diseases and Pests in Tomato Production in Cultivation Facilities|Agric. Sci. Technol.4(4): 411-416|2012|
187295|T||Mathirajan,V.G., and S. Raguraman|Feeding Toxicity of Acetamiprid 20 SP to Silkworm, Bombyx mori L|Entomon28(1): 61-62|2003|
187297|T||Zahid,M., M.H. Bashir, B.S. Khan, and M. Shahid|Toxicity of Some Selected Pesticides Against Neoseiulus baraki (Acari: Phytoseiidae) Under Laboratory Conditions|Pak. J. Zool.49(1): 163-170|2017|
187299|T||Bharpoda,T.M., N.B. Patel, R.K. Thumar, N.A. Bhatt, L.V. Ghetiya, H.C. Patel, and P.K. Borad|Evaluation of Insecticides Against Sucking Insect Pests Infesting BT Cotton BG-II|Bioscan9(3): 977-980|2014|
187300|T||Ahmed,S., M.S. Nisar, M.M. Shakir, M. Imran, and K. Iqbal|Comparative Efficacy of Some Neonicotinoids and Traditional Insecticides on Sucking Insect Pests and Their Natural Enemies on BT-121 Cotton Crop|J. Anim. Plant Sci.24(2): 660-663|2014|
187301|T||Colwell,C.K., G.M. Lorenz III, J. Fortner, N. Taillon, and B. Vonkanel|Efficacy of Selected Insecticides for Control of Plant Bugs in Arkansas, 2010|Ark. Agric. Exp. Stn. Bull.(589): 149-154|2011|
187302|T||Darwish,A.A.F.E., and M.M.R. Attia|Predicting Field Generations of the Green Peach Aphid, Myzus persicae (Sulzer) and Its Predator, Green Lace-Wing, Chrysoperla carnea (Stephens) by Using Heat Units Accumulation and Evaluation of Some Insecticides Agains|Alex. J. Agric. Res.62(1): 9 p.|2017|
187311|T||Rao,P.V., N. Srinivas, and A. Swamy|Influence of Crop Protective Agents on Okra (Abelmoschus esculentus L) Seed Germination and Seedling Emergence in Green House|Ecol. Environ. Conserv.26(1): 86-94|2020|
187314|T||Dhaka,S.S., H. Singh, F. Mohsin, N.C. Tripathi, and M. Kumar|Field Evaluation of Novel Insecticides Against Mustard Aphid, Lipaphis erysimi (Kalt)|J. Exp. Zool. India23(1): 607-610|2020|
187315|T||Tkaczuk,C., B.H. Labanowska, and A. Augustyniuk-Kram|The Potential of Entomopathogenic Fungi and Nematodes against Strawberry Root Weevil Otiorhynchus ovatus L. (Coleoptera, Curculionidae)|Bull. SROP - WPRS Bull.28(3): 173-177|2005|
187316|T||Kumar,D., D.V. Singh, A. Bhatnagar, and A.P.D. Singh|Insect Pest Complex and Evaluation of Chemical Insecticides against Shoot and Fruit Borer, Leucinodes orbonalis (Guenee) in Brinjal|J. Exp. Zool.19(Suppl. 1): 1501-1504|2016|
187317|T||Ahmed,A.B.|Effects of Neonicotinoids and Sulfoxaflor Application against Sucking Pests Infesting Watermelon and Their Associated Predators|Egypt. J. Plant Prot. Res. Inst.3(1): 316-325|2020|
187318|T||Labanowska,B.H.|The Efficacy of Some Neonicotinoid and Other New Insecticides in the Control of the Strawberry Root Weevils (Cucurlionidae) on Strawberry Plantations in Poland|J. Fruit Ornam. Plant Res.17(2): 211-218|2009|
187319|T||Abdou,G.Y., S.E.M. Shalaby, I. Ebadah, S.S. Moawad, and S.S. Marei|Efficacy of Some Low Toxicity Insecticides Against Some Faba Bean Pests with Special Reference to Chlorpyrifos Residues|J. Entomol. Res.39(1): 31-38|2015|
187320|T||Akashe,V.B., M.A. Gud, S.K. Shinde, and A.N. Deshpande|Bio-Efficacy of Some Newer Insecticides Against Uroleucon compositae (Theobald) Infesting Safflower, Carthamus tinctorius Linnaeus|In: 7th International Safflower Conference, Wagga Wagga, Australia:1-6|2008|
187321|A||Alam,A., A.B. Tabinda, Mahmood-ul-Hassan, and A. Yasar|Comparative Toxicity of Acetamiprid and Azadirachta indica Leave Extract on Biochemical Components of Blood of Labeo rohita|Pak. J. Zool.46(6): 1515-1520|2014|
187322|T||Dumaniya,S.G., M.B. Patel, and M.R. Siddhapara|Toxicity of Insecticides to Cryptolaemus montrouzieri (Mulsant)|J. Cotton Res. Dev.29(1): 121-124|2015|
187324|T||El-Kawas,H.M.G., and H.M.I. Mead|Assessment of Certain Neoniotinoid Compounds on Tetranychus cucurbitacearum (Sayed) and Predatory Mite, Phytoseiulus macropilis (Banks)|Acarines8(2): 57-64|2014|10.21608/ajesa.2014.163850
187326|T||Lazic,S., D. Sunjka, S. Panic, Z. Bjelica, and S. Vukovic|Dissipation Rate and Residues of Acetamiprid and Iprodione in Sweet Cherry Fruits|AGROFOR Int. J.1(1): 143-150|2016|
187328|T||Kendappa,G., S. Mallikarjunappa, G. Shankar, and M.S. Mithyantha|Field Efficacy of Tata Manik, a New Insecticide, on Myzus Persicae Sulzer (Hemiptera: Aphididae) Occurring on Tobacco (Nicotiana tabacum)|Pestology29(2): 25-27|2005|
187329|T||Keval,R., A. Yadav, C.P. Srivastava, and R. Kumar|Evaluation of Certain Newer Insecticides Against Pod Fly (Melanagromyza obtusa) and Pod Borer (Helicoverpa armigera) on Long Duration Pigeonpea|Res. Crops17(1): 129-133|2016|10.5958/2348-7542.2016.00023.1
187330|T||Cobellis,G., R. Pierantoni, S. Minucci, R. Pernas-Alonso, R. Meccariello, and S. Fasano|C-Fos Activity in Rana esculenta Testis: Seasonal and Estradiol-Induced Changes|Endocrinology140(7): 3238-3244|1999|10.1210/endo.140.7.6790
187331|A||Cocci,P., G. Mosconi, and F.A. Palermo|An In Silico and In Vitro Study for Investigating Estrogenic Endocrine Effects of Emerging Persistent Pollutants Using Primary Hepatocytes from Grey Mullet (Mugil cephalus)|Environments8(6): 13 p.|2021|10.3390/environments8060058
187332|A||Elango,A., B. Shepherd, and T.T. Chen|Effects of Endocrine Disrupters on the Expression of Growth Hormone and Prolactin mRNA in the Rainbow Trout Pituitary|Gen. Comp. Endocrinol.145(2): 116-127|2006|10.1016/j.ygcen.2005.08.003
187333|A||Dildy-Mayfield,J.E., E.I. Eger, and R.A. Harris|Anesthetics Produce Subunit-Selective Actions on Glutamate Receptors|J. Pharmacol. Exp. Ther.276(3): 1058-1065|1996|
187334|T||Cheng,S., R. Lin, Y. You, T. Lin, Z. Zeng, and C. Yu|Comparative Sensitivity of Neoseiulus cucumeris and Its Prey Tetranychus cinnabarinus, After Exposed to Nineteen Pesticides|Ecotoxicol. Environ. Saf.217:8 p.|2021|10.1016/j.ecoenv.2021.112234
187335|T||Liburd,O.E., H.A. Arevalo, and E.M. Rhodes|Efficacy of Reduced-Risk Insecticides to Control Flower Thrips in Early-Season Blueberries and Their Effect on Orius insidiosus, a Natural Enemy of Flower Thrips|Agric. Sci.8(5): 356-370|2017|10.4236/as.2017.85027
187336|T||Sunitha,N.D., and S.B. Jagginavar|Evaluation of Imidacloprid 200SL (Confidor 200SL)for Its Efficacy Against Grape Thrips Scirtothrips dorsalis(Hood) and Phytotoxicity|Agric. Sci. Dig.30(1): 66-68|2010|
187339|T||Olenici,N., O. Bouriaud, and I.A. Manea|Efficient Conifer Seedling Protection Against Pine Weevil Damage Using Neonicotinoids|Baltic For.24(2): 201-209|2018|
187340|T||Radrigan-Navarro,C., E.H. Beers, A. Alvear, and E. Fuentes-Contreras|Acute Toxicity of Lethal and Sublethal Concentrations of Neonicotinoid, Insect Growth Regulator and Diamide Insecticides on Natural Enemies of the Woolly Apple Aphid and the Obscure Mealybug|Chil. J. Agric. Res.81(3): 398-407|2021|10.4067/S0718-58392021000300398
187341|T||Mansoor,M.M., and S.A. Shad|Genetics, Cross-Resistance and Realized Heritability of Resistance to Acetamiprid in Generalist Predator, Chrysoperla carnea (Steph.) (Neuroptera: Chrysopidae) |Egypt. J. Biol. Pest Control30(1): 8 p.|2020|10.1186/s41938-020-0213-x
187342|T||Li,F., M. Li, Q. Zhu, T. Mao, M. Dai, W. Ye, D. Bian, W. Su, P. Feng, Y. Ren, H. Sun, J. Wei, and B. Li|Imbalance of Intestinal Microbial Homeostasis Caused by Acetamiprid is Detrimental to Resistance to Pathogenic Bacteria in Bombyx mori|Environ. Pollut.289:8 p.|2021|10.1016/j.envpol.2021.117866
187343|T||Wu,C., H. Zhang, M. He, F. Dong, J. Xu, X. Wu, T. Sun, X. Ouyang, Y. Zheng, and X. Liu|Toxicity of Neonicotinoid Insecticides on Key Non-Target Natural Predator the Larvae of Coccinella septempunctata in Environmental|Environ. Technol. Innov.23:9 p.|2021|10.1016/j.eti.2021.101523
187345|T||Vivek,S., B. Paul, G.G.P. Pandi, and K. Shankarganesh|Relative Toxicity of Insecticides on Larval Stages of Green Lacewing, Chrysoperla sp. (Carnea-Group) (Chrysopidae: Neuroptera)|Indian J. Entomol.74(4): 394-397|2012|
187346|T||Sharma,K., T. Shivashankar, and S. Kumar|A Novel Frond Injection Method Against Coconut Black Headed Caterpillar Opisina arenosella Walker|Indian J. Entomol.82(4): 700-704|2020|
187347|T||Varghese,B., and S.N. Beevi|Safety of Insecticides to the Green Lace-Wing, Chrysoperla carnea (Stephens)|Insect Environ.10(1): 45-47|2004|
187348|T||Shinde,C.U., M.B. Patel, and S.K. Mehendale|Studies on Relative Toxicity of Different Insecticides on Larvae of Chrysoperla carnea (Stephens)|Insect Environ.15(2): 67-69|2009|
187349|T||Mostafiz,M.M., E. Hassan, J.K. Shim, and K.Y. Lee|Lethal and Sublethal Effects of Methyl Benzoate on the Predatory Bug Nesidiocoris tenuis|Insects11(6): 1-10|2020|10.3390/insects11060377
187350|T||Vermora,J.M., K.L. Raghvani, M.D. Joshi, R.R. Makadia, H.V. Boricha, and N.G. Dalwadi|Chemical Control of Aphid Lipaphis erysimi (Kalt) on Cabbage|Int. J. Plant Prot.3(1): 101-103|2010|
187351|T||Keval,R., A. Yadav, R. Kumar, and C.P. Srivastava|Relative Performance of Certain Newer Insecticides Against Pod Bug Clavigralla gibbosa (Spinola) on Long Duration Pigeonpea|J. Pure Appl. Microbiol.9(4): 3051-3054|2015|
187352|T||Shahbaz,M., M. Khoobdel, M. Khanjani, A. Hosseininia, and S.J. Khederi|Sublethal Effects of Acetamiprid on Biological Aspects and Life Table of Amblyseius swirskii (Acari: Phytoseiidae) Fed on Aleuroclava jasmini (Hemiptera: Aleyrodidae)|Syst. Appl. Acarol.24(5): 814-824|2019|10.11158/saa.24.5.7
187353|T||Villanueva,R.T., and J.F. Walgenbach|Impact of New Pesticide Chemistry on Acarine Communities in Apple Orchards|Trends in Acarology:483-487|2010|10.1007/978-90-481-9837-5_80
187354|T||Turkyilmaz Unal,B., and A.E. Dereboylu|Some Physiological Effects of Acetamiprid on Two Cultivars of Corn Plants|Phyton (Horn) (Multiple Languages)84(1): 144-147|2015|10.32604/phyton.2015.84.144
187355|T||Subbireddy,K.B., H.P. Patel, K.D. Parmar, R.L. Kalasariya, and P.G. Shah|Persistence and Dissipation of Indoxacarb + Acetamiprid and Chlorantraniliprole + lambda Cyhalothrin in/on Okra Fruits|Pestic. Res. J.31(2): 139-143|2019|10.5958/2249-524X.2019.00025.6
187356|T||Tank,B.D., D.M. Korat, and P.K. Borad|Relative Toxicity of Some Insecticides Against Cheilomenes sexmaculata (Fab) in Laboratory|L. Krishna Naik20(3): 639-641|2007|
187357|T||Mansoor,M.M., and S.A. Shad|Inheritance of Polygenic but Stable Pyriproxyfen Resistance in a Bio-Control Agent Chrysoperla carnea (Neuroptera: Chrysopidae): Cross-Resistance and Realized Heritability|Pest Manag. Sci.76(12): 4009-4017|2020|10.1002/ps.5952
187358|T||Hedau,M., R.S. Ingole, S.W. Hajare, M.V. Ingawale, S.V. Kuralkar, and S.J. Manwar|Histopathological Alterations in Individual and Combined Toxicity of Chlorpyrifos and Acetamiprid in Broilers|Vet. Pathol.42(2): 109-112|2018|10.5958/0973-970X.2018.00020.2
187359|T||Nasreen,A., G. Mustafa, and M. Ashfaq|Mortality of Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae) After Exposure to Some Insecticides; Laboratory Studies|S. Pac. Stud.26(1): 1-6|2005|
187360|T||Naik,D.J., D. Thippesha, K.M. Devaraju, D. Lakshmana, and J. Venkatesha|Bio-Efficacy of Insecticides Against Hairy Caterpillars, Eupterote canarica Moore, (Eupterotidae: Lepidoptera) in Small Cardamom and Its Correlation of Weather Factors with Incidence|L. Krishna Naik23(1): 176-177|2010|
187361|T||Khan,S.M.|Varietal Performance and Chemical Control Used as Tactics Against Sucking Insect Pests of Cotton|Sarhad J. Agric.27(2): 255-261|2011|
187362|T||Sonter,C.A., R. Rader, G. Stevenson, J.R. Stavert, and S.C. Wilson|Biological and Behavioral Responses of European Honey Bee (Apis mellifera) Colonies to Perfluorooctane Sulfonate Exposure|Integr. Environ. Assess. Manag.:673-683|2021|10.1002/ieam.4421
187363|T||Souza,D., A.B. Monteiro, and L.D.B. Faria|Morphometry, Allometry, and Fluctuating Asymmetry of Egg Parasitoid Trichogramma Pretiosum Under Insecticide Influence|Entomol. Exp. Appl.166(4): 298-303|2018|10.1111/eea.12665
187364|T||Sudhanan,E.M., S.V. Krishnamoorthy, and S. Kuttalam|Toxicity of Flubendiamide 20 WG Against Egg Parasitoid, Trichogramma chilonis (Ishii). (Hymenoptera: Trichogrammatidae) Under Laboratory Conditions|J. Biol. Control28(3): 147-150|2014|
187365|T||Sasikala,K., P. Arjuna Rao, and P.V. Krishnayya|Comparative Efficacy of Eco-Friendly Methods Involving Egg Parasitoid, Trichogramma japonicum, Mechanical Control and Safe Chemicals Against Leucinodes orbonalis Guenee Infesting Brinjal|J. Entomol. Res.23(4): 369-372|1999|
187366|T||Sattar,S., Farmanullah, A.U.R. Saljoqi, M. Arif, H. Sattar, and J.I. Qazi|Toxicity of Some New Insecticides Against Trichogramma chilonis (Hymenoptera: Trichogrammatidae) Under Laboratory and Extended Laboratory Conditions|Pak. J. Zool.43(6): 1117-1125|2011|
187367|T||Hooshmandi,M., M. Alichi, and K. Minaei|Sublethal Toxicity of Two Insect Growth Regulators on Habrobracon hebetor (Hymenoptera: Braconidae) Under Laboratory Conditions|Arch. Phytopathol. Plant Prot.48(2): 200-204|2015|10.1080/03235408.2014.882546
187368|T||Halappa,B., J.S. Awaknavar, and D. Archana|Toxicity of Insecticides to Larval Endoparasitoid, Cotesia plutellae (Kurdj.) of Diamondback Moth, Plutella xylostella (L.) Under Laboratory Condition|Pestic. Res. J.24(2): 231-234|2012|
187369|A||Gibert,Y., S. Sassi-Messai, J.B. Fini, L. Bernard, D. Zalko, J.P. Cravedi, P. Balaguer, M. Andersson-Lendahl, B. Demene|Bisphenol A Induces Otolith Malformations During Vertebrate Embryogenesis|BMC Dev. Biol.11:17 p.|2011|10.1186/1471-213X-11-4
187370|A||Ghelichpour,M., and A.T. Mirghaed|Effects of Sublethal Exposure to New Pesticides Lufenuron and Flonicamid on Common Carp, Cyprinus carpio, Hydromineral Balance to Further Saltwater Exposure|Int. J. Aquat. Biol.7(4): 195-201|2019|
187371|T||Wang,Y., Y.C. Zhu, W. Li, J. Yao, G.V.P. Reddy, and L. Lv|Binary and Ternary Toxicological Interactions of Clothianidin and Eight Commonly Used Pesticides on Honey Bees (Apis mellifera)|Ecotoxicol. Environ. Saf.223:9 p.|2021|10.1016/j.ecoenv.2021.112563
187372|T||Thomson,C., A.R. Tomkins, and D.J. Wilson|Effect of Insecticides on Immature and Mature Stages of Encarsia citrina, an Armoured Scale Parasitoid|Proc. N. Z. Plant Prot. Conf.:1-5|1996|10.30843/nzpp.1996.49.11400
187373|A||Ulhaq,Z.S., and M. Kishida|Brain Aromatase Modulates Serotonergic Neuron by Regulating Serotonin Levels in Zebrafish Embryos and Larvae|Frontiers in Endocrinology9:13 p.|2018|10.3389/fendo.2018.00230
187374|T||Usman,A., I.A. Khan, and M. Shah|Evaluation of Some Selected Ipm Modules for the Management of Tomato Fruit Worm (Helicoverpa armigera Hub.)|J. Entomol. Zool. Stud.3(4): 379-382|2015|
187375|T||Wang,Y., Y.C. Zhu, and W. Li|Comparative Examination on Synergistic Toxicities of Chlorpyrifos, Acephate, or Tetraconazole Mixed with Pyrethroid Insecticides to Honey Bees (Apis mellifera L.)|Environ. Sci. Pollut. Res.27(7): 6971-6980|2020|10.1007/s11356-019-07214-3
187376|T||Wilson,J.M., T.D. Anderson, and T.P. Kuhar|Sublethal Effects of the Insecticide Pyrifluquinazon on the European Honey Bee (Hymenoptera: Apidae)|J. Econ. Entomol.112(3): 1050-1054|2019|10.1093/jee/toz014
187377|T||Yasuda,M., T. Maeda, and H. Taki|Acute Contact Toxicity of Three Insecticides on Asian Honeybees Apis cerana|Bulletin of FFPRI16(3): 143-146|2017|
187378|T||Diamond,B.I., H.S. Havdala, and H.C. Sabelli|Differential Membrane Effects of General and Local Anesthetics|Anesthesiology43(6): 651-660|1975|10.1097/00000542-197512000-00010
187379|A||Finlayson,K.A., and J.P. Van De Merwe|Differences in Marine Megafauna In Vitro Sensitivity Highlights the Need for Species-Specific Chemical Risk Assessments|Aquat. Toxicol.239:8p.|2021|10.1016/j.aquatox.2021.105939
187380|A||Meng,Z., Z. Wang, X. Chen, Y. Song, M. Teng, T. Fan, Y. Zheng, J. Cui, and W. Xu|Bioaccumulation and Toxicity Effects of Flubendiamide in Zebrafish (Danio rerio)|Environ. Sci. Pollut. Res.:10 p.|2021|10.1007/s11356-021-17868-7
187383|T||Khilevsky,V.A., M.N. Shorokhov, and V.I. Dolzhenko|Effective Preparations of Protection of Winter Wheat Against Main Pests in Conditions of the Precaucasian Steppe Zone|Russ. Agric. Sci.42(5): 332-338|2016|10.3103/S1068367416050116
187384|T||Bhut,J.B., and D.M. Jethva|Efficacy of Different Insecticides Against Inflorescence Thrips, Scirtothrips dorsalis Hood in Mango|Pest Manag. Hortic. Ecosyst.24(2): 87-90|2018|
187385|T||Nam,M.H., H.S. Kim, W.K. Lee, Y.K. Seong, M.L. Gleason, J.Y. Song, and H.G. Kim|Application of an IPM-Based Spray Program to Protected Cultivation of Strawberry in Korea|Hortic. Environ. Biotechnol.49(5): 352-356|2008|
187386|A||Lotufo,G.R., M.L. Ballentine, L.R. May, L.C. Moores, K.A. Gust, and P. Chappell|Multi-Species Aquatic Toxicity Assessment of 1-Methyl-3-Nitroguanidine (MeNQ)|Arch. Environ. Contam. Toxicol.80(2): 426-436|2021|10.1007/s00244-020-00796-x
187387|A||Kennedy,A.J., A.R. Poda, N.L. Melby, L.C. Moores, S.M. Jordan, K.A. Gust, and A.J. Bednar|Aquatic Toxicity of Photo-Degraded Insensitive Munition 101 (IMX-101) Constituents|Environ. Toxicol. Chem.36(8): 2050-2057|2017|10.1002/etc.3732
187389|A||Ran,L.L., Y. Yang, X. Zhou, X.X. Jiang, D.Y. Hu, and P. Lu|The Enantioselective Toxicity and Oxidative Stress of Dinotefuran on Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.226:9 p.|2021|10.1016/j.ecoenv.2021.112809
187391|T||McCall,J.W., E. Hodgkins, M. Varloud, A. Mansour, and U. Dicosty|Blocking the Transmission of Heartworm (Dirofilaria immitis) to Mosquitoes (Aedes aegypti) by Weekly Exposure for One Month to Microfilaremic Dogs Treated Once Topically with Dinotefuran-Permethrin-Pyriproxyfen|Parasites Vectors10(Suppl 2): 87-95|2017|10.1186/s13071-017-2439-3
187392|A||Gust,K.A., K.J. Indest, G. Lotufo, S.J. Everman, C.M. Jung, M.L. Ballentine, A.V. Hoke, B. Sowe, A. Gautam, R. Hammamie|Genomic Investigations of Acute Munitions Exposures on the Health and Skin Microbiome Composition of Leopard Frog (Rana pipiens) Tadpoles|Environ. Res.192:14 p.|2021|10.1016/j.envres.2020.110245
187394|A||Gust,K.A., G.R. Lotufo, A. Thiyagarajah, N.D. Barker, Q. Ji, K. Marshall, M.S. Wilbanks, and P. Chappell|Molecular Evaluation of Impacted Reproductive Physiology in Fathead Minnow Testes Provides Mechanistic Insights into Insensitive Munitions Toxicology|Aquat. Toxicol.213:14 p.|2019|10.1016/j.aquatox.2019.05.006
187396|T||Visal Kumar,S., K.P. Subhashchandran, T. George, A. Paul, G. Xavier, V. Vijayasree, and S. Suryamol|Dinotefuran Residues and Their Dissipation in Chilli Pepper (Capsicum annuum L.) and Soil and Their Risk Assessment|Pestic. Res. J.31(2): 211-219|2019|10.5958/2249-524X.2019.00032.3
187398|T||Cheng,S., R. Lin, C. Yu, R. Sun, and H. Jiang|Toxic Effects of Seven Pesticides to Aphid Parasitoid, Aphidius gifuensis (Hymenoptera: Braconidae) After Contact Exposure|Crop Prot.145:6 p.|2021|10.1016/j.cropro.2021.105634
187399|T||Chen,Z., X. Yao, F. Dong, H. Duan, X. Shao, X. Chen, T. Yang, G. Wang, and Y. Zheng|Ecological Toxicity Reduction of Dinotefuran to Honeybee: New Perspective from an Enantiomeric Level|Environ. Int.130:8 p.|2019|10.1016/j.envint.2019.05.048
187400|T||Liu,T., T. Li, L. Zhang, H. Li, S. Liu, S. Yang, Q. An, C. Pan, and N. Zou|Exogenous Salicylic Acid Alleviates the Accumulation of Pesticides and Mitigates Pesticide-Induced Oxidative Stress in Cucumber Plants (Cucumis sativus L.)|Ecotoxicol. Environ. Saf.208:9 p.|2021|10.1016/j.ecoenv.2020.111654
187401|T||Liu,T., D. Chen, Y. Li, X. Wang, and F. Wang|Enantioselective Bioaccumulation and Toxicity of the Neonicotinoid Insecticide Dinotefuran in Earthworms (Eisenia fetida)|J. Agric. Food Chem.66(17): 4531-4540|2018|10.1021/acs.jafc.8b00285
187402|T||Liu,S., Y. Liu, F. He, H. Zhang, X. Li, and H. Tan|Enantioselective Olfactory Effects of the Neonicotinoid Dinotefuran on Honey Bees (Apis mellifera L.)|J. Agric. Food Chem.67(43): 12105-12116|2019|10.1021/acs.jafc.9b04851
187405|T||Zhang,H., J.V. Aspinall, W. Lv, X. Zheng, H. Zhang, S. Li, J. Zhang, N. Bai, Y. Zhang, and X. Wang|Differences in Kinetic Metabolomics in Eisenia fetida Under Single and Dual Exposure of Imidacloprid and Dinotefuran at Environmentally Relevant Concentrations|J. Hazard. Mater.417:9 p.|2021|10.1016/j.jhazmat.2021.126001
187406|T||Yu,Z., O. Schmidt, Y. Zhao, M. Liu, A. Kumar, Y. Luo, and J. Xu|Dinotefuran Alters Collembola-Fungi-Bacteria Interactions That Control Mineralization of Maize and Soil Organic Carbon|J. Hazard. Mater.418:11 p.|2021|10.1016/j.jhazmat.2021.126391
187408|T||Yamada,T., and K. Yamada|Comparison of Long-Term Changes in Size and Longevity of Bee Colonies in Mid-West Japan and Maui with and Without Exposure to Pesticide, Cold Winters, and Mites|PeerJ8:28 p.|2020|10.7717/peerj.9505
187410|T||Huang,M., J. Dong, H. Guo, M. Xiao, and D. Wang|Identification of Long Noncoding RNAs Reveals the Effects of Dinotefuran on the Brain in Apis mellifera (Hymenopptera: Apidae)|BMC Genomics22(1): 13 p.|2021|10.1186/s12864-021-07811-y
187412|T||Kutuk,H., and A. Yigit|Toxicological Effects of Selected Insecticides on Delphastus catalinae (Horn) (Coleoptera, Coccinellidae), a Predator of Bemisia tabaci Genn (Homoptera, Aleyrodidae)|Uluslar. Tarim. Yaban Hay Bil. Derg.3(1): 12-17|2017|10.24180/ijaws.290463
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187414|T||Roy,D., P.K. Sarkar, and S. Sarkar|Field Efficacy, Non-Target Toxicity and Economics of Novel Systemic Molecules against Lipaphis erysimi and Its Seasonal Incidence in Mustard|Indian J. Entomol.80(2): 217-225|2018|10.5958/0974-8172.2018.00036.6
187415|T||Dhar,P., and G. Kaur|Compatibility of the Entomopathogenic Fungi, Beauveria bassiana and Metarhizium anisopliae with Neonicotinoid Insecticide, Acetamiprid|J. Entomol. Res.33(3): 195-202|2009|
187416|T||Ferreira,M.F.D.O., P.D. Fraga, E.C.D. Barros, and S.C. Augusto|Effects of Abamectin and Acetamiprid Pesticides on the Survival and Behavior of Scaptotrigona aff. xanthotricha (Apidae, Meliponini)|J. Apic. Res.61(1): 37-44|2022|10.1080/00218839.2020.1835262
187417|T||Kendappa,G.N., S. Mallikarjunappa, G. Shankar, and M.S. Mithyantha|Evaluation of Certain Insecticides Against Spiraling Whitefly, Aleurodicus dispersus Russell (Aleyrodidae: Homoptera) on Cotton|Pestology28(3): 32-33|2004|
187418|T||Khan,M.A.|Lethal and Parasitism Effects of Selected Novel Pesticides on Adult Trichogramma Chilonis (Hymenoptera: Trichogrammatidae)|J. Plant Dis. Prot.127(1): 81-90|2020|10.1007/s41348-019-00280-2
187419|T||Yadav,N.K., and P.S. Singh|Efficacy of Some New Insecticides Against Pod Borer in Mung Bean (Vigna radiata (L.) Wilczek)|J. Food Leg.29(1): 74-75|2016|
187420|T||Vastrad,A.S., N.K. Kumari, S.H. Ramanagouda, and K.B. Goud|Management of Eucalyptus Gall Wasp, Leptocybe invasa Fisher & La Salle in Greenhouse|Pestology35(3): 44-53|2011|
187421|T||Ahmad,H., I.A. Mir, D. Sharma, K. Srivastava, S.A. Ganai, and S. Sharma|Seasonal Incidence and Management of Wheat Aphid, Sitobion avenae (F.)|Indian J. Entomol.78(2): 148-152|2016|10.5958/0974-8172.2016.00054.7
187422|T||Ashtari,S., Q. Sabahi, and K.T. Jahromi|Evaluation of Toxicity of Some Biocompatible Insecticides on Trichogramma brassicae and T. evanescens Under Laboratory and Semi-Field Conditions|J. Crop Prot.7(4): 459-469|2018|
187423|T||Bemani,M., G. Moravvej, H. Izadi, H.S. Namaghi, M. Basirat, and A. Alizadeh|Energetic Costs of Resistance in the Agonoscena pistaciae Burckhardt & Lauterer, 1989 (Hemiptera: Aphalaridae), Against Spirotetramat, Acetamiprid and Hexaflumuron|Pol. J. Entomol.90(1): 1-13|2021|10.5604/01.3001.0014.7877
187424|T||Patten,K., and C. Metzger|Cranberry Pest Management with OP Alternative Insecticides|Acta Hortic.810:411-415|2009|10.17660/ActaHortic.2009.810.53
187425|T||Sreelakshmi,P., A. Paul, S.N. Beevi, M.S. Sheela, and N.P. Kumar|Management of Resistant Populations of Legume Pod Borer, Maruca vitrata (Fabricius) (Lepidoptera: Crambidae) Using New Generation Insecticides|Environ. Ecol.34(3): 917-921|2016|
187426|T||Niranjana,V., and P. Karuppuchamy|Screening of Insecticides for Ovicidal Action Against Brinjal Shoot and Fruit Borer, Leucinodes orbonalis Guenee|J. Entomol. Res.38(4): 279-280|2014|
187427|T||Singh,A.K.|Evaluation of New Molecule of Insecticides Against Pod Fly (Melanagromyza obtusa) of Pigeon Pea|SAARC J. Ag.12(1): 89-95|2014|10.3329/sja.v12i1.21115
187428|T||Mishra,H.P.|Chemical Management of the White Backed Planthopper, Sogatella furcifera Horvath Infesting Rice|Indian J. Entomol.68(4): 338-340|2006|
187429|T||Shyamrao,I.D., and M. Raghuraman|Management of Planthoppers Through Conventional and Newer Insecticides in Rice (O. sativa L.) Ecosystem|J. Exp. Zool. India22(2): 963-967|2019|
187430|T||Katare,S., B. Singh, S.D. Patil, T. Ruchira, J. Poonam, M.S. Saharan, and S. Indu|Evaluation of New Insecticides Against Wheat Foliar Aphid Complex|Indian J. Entomol.79(2): 185-190|2017|10.5958/0974-8172.2017.00038.4
187431|T||Patil,P.P., R.S. Gore, and N.G. Patil|Bioefficacy of New Insecticide Molecules Against Okra Aphids (Aphis gossypii Glover)|Int. J. Trop. Agric.34(8): 2475-2480|2016|
187432|T||Patil,P.P., R.S. Gore, and N.G. Patil|Bioefficacy of New Insecticide Molecules Against Okra Jassids (Amrasca biguttula biguttula Ishida)|Int. J. Trop. Agric.34(7): 1983-1988|2016|
187433|T||Poonam,J., K. Subhash, P.L. Kashyap, K. Sudheer, A.S. Kharub, and G.P. Singh|Efficacy of Few Selected Insecticides for the Management of Corn Leaf Aphid in Barley|J. Cereal Res.10(3): 228-230|2018|
187434|T||Bhanu,K.V., and P.S. Reddy|Field Evaluation of Certain Newer Insecticides Against Rice Insect Pests|J. Appl. Zool. Res.19(1): 11-14|2008|
187435|T||Chaudhari,A.J., D.M. Korat, and M.R. Dabhi|Bio-Efficacy of Newer Insecticides Against Major Insect Pests of Indian Bean, Lablab purpureus L|L. Krishna Naik28(4): 616-619|2015|
187436|T||Kumar,J., J.B. Khan, P.K. Gupta, S.V. Singh, and K. Charul|Field Efficacy of Some Insecticides Against Foliage Feeding Barley Aphid (Rhopalosiphum maidis Fitch.)|J. Cereal Res.11(1): 41-43|2019|
187437|T||Bantewad,S.D., R.A. Chavan, and J.E. Jahagirdar|Evaluation of Sequential Application of Insecticides Against Pigeonpea Pod Fly Melanagromyza obtusa (Mall)|Int. J. Plant Prot.11(1): 18-22|2018|10.15740/HAS/IJPP/11.1/18-22
187438|T||Misra,H.P.|Evaluation of Insecticides for Control of Rice Gall Midge, Orseolia oryzae Wood-Mason|Ann. Plant Prot. Sci.14(2): 329-331|2006|
187439|T||Ramudu,D.R., and H.P. Misra|Residual Effects of Some New Insecticides and Combination Against Rice Gundhi Bug, Leptocorisa spp|Plant Prot. Bull.57(1/2): 33-36|2005|
187440|T||Yadav,S.K., M. Agnihotri, and R.S. Bisht|Efficacy of Insecticides Against Pea Leaf Miner Chromatomyia horticola (Goweau) and Its Parasitoids|Indian J. Entomol.78(4): 373-375|2016|10.5958/0974-8172.2016.00096.1
187441|T||Taleh,M., H.R. Dastjerdi, B. Naseri, A.S. Garjan, and K.T. Jahromi|Efficacy of Mixture of Emamectin Benzoate with Some Insecticides on the Mortality and Esterase Activity of Fourth Instar Larvae of Tuta absoluta (Lepidotera: Gelechiidae)|J. Crop Prot.9(4): 699-709|2020|
187444|T||Kim,H.K., J.H. Tak, and Y.J. Ahn|Acaricidal Activity of Paeonia suffruticosa Root Bark-Derived Compounds Against Dermatophagoides farinae and Dermatophagoides pteronyssinus (Acari: Pyroglyphidae)|J. Agric. Food Chem.52:7857-7861|2004|10.1021/jf048708a
187445|A||Jantzen,C.E.|Toxicological Profiles of Perfluoroctanoic Acid (PFOA), Perfluorooctane Sulfonate (PFOS) and Perfluornonanoic Acid (PFNA) in Zebrafish (Danio rerio)|Ph.D.Thesis, Rutgers, The State University of New Jersey, New Brunswick, NJ:177 p.|2016|
187447|T||Ali,A.D., and D.L. Caldwell|Management of Staining and Galling Associated with Oxhorn bucida Trees in Florida|Fla. Entomol.100(3): 602-606|2017|10.1653/024.100.0318
187449|T||Shyamrao,I.D., M. Raghuraman, A. Kumar, and R.K. Gajbhiye|Impact of Insecticides on Abundance of Non-Target Soil Mesofauna in Rice Ecosystem|Indian J. Entomol.82(1): 364-368|2020|10.5958/0974-8172.2020.00081.4
187451|T||Xu,H.Q., M. Ma, Y.P. Ma, S.Y. Zhang, W.J. Li, D. Wei, and J.J. Wang|Identification and Expression Characterization of ATP-Binding Cassette (ABC) Transporter Genes in Melon Fly|Insects12(3): 15 p.|2021|10.3390/insects12030270
187452|T||Xie,Y., and X. Hou|Molecular Assessment of the Toxic Mechanism of the Latest Neonicotinoid Dinotefuran with Glutathione Peroxidase 6 from Arabidopsis thaliana|J. Agric. Food Chem.69(2): 638-645|2021|10.1021/acs.jafc.0c05948
187453|T||Qualls,W.A., G.C. Mueller, K. Khallaayoune, E.E. Revay, E. Zhioua, V.D. Kravchenko, K.L. Arheart, R.D. Xue, Y. Schlein,|Control of Sand Flies with Attractive Toxic Sugar Baits (ATSB) and Potential Impact on Non-Target Organisms in Morocco|Parasites Vectors8(87): 9 p.|2015|10.1186/s13071-015-0671-2
187454|T||Huang,M., J. Dong, H. Guo, and D. Wang|Effects of Dinotefuran on Brain miRNA Expression Profiles in Young Adult Honey Bees (Hymenopptera: Apidae)|J. Insect Sci.21(1): 8 p.|2021|10.1093/jisesa/ieaa131
187456|A||Bhatia,H., A. Kumar, J. Du, J. Chapman, and M.J. McLaughlin|Di-n-Butyl phthalate Causes Antiestrogenic Effects in Female Murray Rainbowfish (Melanotaenia fluviatilis)|Environ. Toxicol. Chem.32(10): 2335-2344|2013|10.1002/etc.2304
187457|T||Abdul-Ghani,S., J. Yanai, R. Abdul-Ghani, A. Pinkas, and Z. Abdeen|The Teratogenicity and Behavioral Teratogenicity of Di(2-ethylhexyl) phthalate (DEHP) and Di-butyl phthalate (DBP) in a Chick Model|Neurotoxicol. Teratol.34:56-62|2012|10.1016/j.ntt.2011.10.001
187458|A||Liang,W., J.Q. Deng, F.C. Zhan, and Z.B. Wu|Effects of Constructed Wetland System on the Removal of Dibutyl phthalate (DBP)|Microbiol. Res.164:206-211|2009|10.1016/j.micres.2006.11.013
187459|T||Rohokale,Y.A., M.M. Sonkamble, S.C. Bokan, and B.V. Bhede|Efficacy of Newer Insecticide Combinations Against Brinjal Shoot and Fruit Borer|Int. J. Entomol. Res.3(5): 36-39|2018|
187460|T||Herrick,N.J., and R.A. Cloyd|Direct and Indirect Effects of Pesticides on the Insidious Flower Bug (Hemiptera: Anthocoridae) Under Laboratory Conditions|J. Econ. Entomol.110(3): 931-940|2017|10.1093/jee/tox093
187461|T||Naik,D.J., D. Thippesha, V.V. Belavadi, K.M. Devaraju, D. Lakshmana, S.D. Rangaswamy, and J. Venkatesha|Evaluation of Insecticides and Organic Products against Pepper Mussel Scale, Lepidosaphes piperis Gr. and Its Correlation with Weather Factors|L. Krishna Naik22(3): 582-584|2009|
187462|T||Gulsar Banu,J., M. Amutha, and S. Rajalakshmi|Compatibility of Insecticides with Metarhizium anisopliae (ARSEF-9613), a Native Entomopathogenic Fungal Isolate from Mealybug|J. Insect Sci.27(1): 144-146|2014|
187463|T||Ecobici,M.M., T. Biro, and P. Alina|Research Concerning the Chemical Control Against Pseudococcus adonidum L|J. Cent. Eur. Agric.5(3): 137-142|2004|
187465|T||Jadhav,D.S., and A. Shukla|Relative Toxicity of Some Insecticides to Coccinella transversalis (F.)|Indian J. Entomol.75(4): 301-303|2013|
187466|T||Lazic,S., D. Sunjka, and S. Vukovic|Safe Use of Neonicotinoids in Some Vegetables in Terms of Residues|Proceedings of III International Congress on Food Technology, Quality and Safety:311-315|2016|
187467|T||Patke,Y.N., Gawande, M.B., and K.P. Budhvat|Efficacy of Different Treatment for Management of Mites (Tetranychus urticae) on Rose|Trends Biosci.8(18): 4855-4860|2015|
187468|T||Kumar,S., S. Pal, G. Lal, D.K. Singh, and R.S. Umrao|Bio-Efficacy of Insecticides and Bio-Pesticides against Pod Borer and Jassids on Cowpea, Vigna uniguiculata (L.) Walp|Ann. Plant Prot. Sci.22(2): 264-267|2014|
187469|T||Calderon,F., G. Rodriguez, E. Lopez, and A.M. Lopez-Colome|Calcium-Independent Release of [3H]Spermine from Chick Retina|Brain Res.854(1-2): 1-5|2000|10.1016/S0006-8993(99)02157-5
187470|T||Torii,Y., M. Mutoh, H. Saito, and N. Matsuki|Involvement of Free Radicals in Cisplatin-Induced Emesis in Suncus murinus|Eur. J. Pharmacol.55(1): 131-135|1993|
187471|A||Blanchard,M.P., N. Klauke, S. Zitzmann, and H. Plattner|Veratridine-Mediated Ca2+ Dynamics and Exocytosis in Paramecium Cells|J. Membr. Biol.169(3): 155-165|1999|10.1007/s002329900527
187472|A||Duch,D.S., E. Recio-Pinto, C. Frenkel, S.R. Levinson, and B.W. Urban|Veratridine Modification of the Purified Sodium Channel Alpha-Polypeptide from Eel Electroplax|J. Gen. Physiol.94(5): 813-831|1989|10.1085/jgp.94.5.813
187473|A||Shanes,A.M.|Potassium Movement in Relation to Nerve Activity|J. Gen. Physiol.63(11): 795-807|1951|10.1085/jgp.34.6.795
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187475|A||Duch,D.S., A. Hernandez, S.R. Levinson, and B.W. Urban|Grayanotoxin-I-Modified Eel Electroplax Sodium Channels. Correlation with Batrachotoxin and Veratridine Modifications|J. Gen. Physiol.100(4): 623-645|1992|10.1085/jgp.100.4.623
187476|A||Condrescu,M., and R. Villegas|Ion Selectivity of the Nerve Membrane Sodium Channel Incorporated into Liposomes|Biochim. Biophys. Acta688(2): 660-666|1982|10.1016/0005-2736(82)90377-7
187477|A||Barnola,F.V.|Sodium Channel Activity of Lobster Nerve Membrane Treated with Purified Phospholipase A2|Biochim. Biophys. Acta - Biomembr.686(1): 110-118|1982|10.1016/0005-2736(82)90156-0
187478|A||Correa,A.M., G.M. Villegas, and R. Villegas|Anemone Toxin II Receptor Site of the Lobster Nerve Sodium Channel. Studies in Membrane Vesicles and in Proteoliposomes|Biochim. Biophys. Acta897(3): 406-422|1987|10.1016/0005-2736(87)90438-X
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187487|T||Franks,C.J., D. Pemberton, I. Vinogradova, A. Cook, R.J. Walker, and L. Holden-Dye|Ionic Basis of the Resting Membrane Potential and Action Potential in the Pharyngeal Muscle of Caenorhabditis elegans|J. Neurophysiol.87(2): 954-961|2002|10.1152/jn.00233.2001
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187495|A||Allard,B., and O. Rougier|Reappraisal of the Role of Sodium Ions in Excitation-Contraction Coupling in Frog Twitch Muscle|J. Muscle Res. Cell Motil.13(1): 117-125|1992|10.1007/BF01738435
187498|AT||Nuske,J.H.|Protein Methylase II in Five Taxa from Three Phyla|Comp. Biochem. Physiol. B Comp. Biochem.86(1): 37-47|1987|10.1016/0305-0491(87)90172-6
187499|T||Tsai,P.S., J.B. Lunden, and J.T. Jones|Effects of Steroid Hormones on Spermatogenesis and GnRD Release in Male Leopard Frogs, Rana pipiens|Gen. Comp. Endocrinol.134(3): 330-338|2003|10.1016/j.ygcen.2003.07.001
187500|T||Tsai,P.S., and J.T. Jones|Steroid-Induced Changes in the Morphology of GnRH Neurons in the Male Leopard Frog, Rana pipiens: Correlation with Plasma Gonadotropin and Gonadal Size|Gen. Comp. Endocrinol.141(2): 152-160|2005|10.1016/j.ygcen.2004.12.009
187501|A||Chen,P., R. Wang, J. Yang, W. Zhong, M. Liu, S. Yi, and L. Zhu|Stronger Estrogenic and Antiandrogenic Effects on Zebrafish Larvae Displayed by 6:2 Polyfluoroalkyl Phosphate Diester than the 8:2 Congener at Environmentally Relevant Concentrations|Sci. Total Environ.695:9 p.|2019|10.1016/j.scitotenv.2019.133907
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187504|T||Okada,F., Y. Torii, H. Saito, and N. Matsuki|Antiemetic Effects of Serotonergic 5-HT1A-Receptor Agonists in Suncus murinus|Jpn. J. Pharmacol.64(2): 109-114|1994|10.1254/jjp.64.109
187505|T||Torii,Y., H. Saito, and N. Matsuki|Selective Blockade of Cytotoxic Drug-Induced Emesis by 5-HT3 Receptor Antagonists in Suncus murinus|Jpn. J. Pharmacol.55(1): 107-113|1991|10.1016/S0021-5198(19)39983-4
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187510|T||Ueno,S., N. Matsuki, and H. Saito|Suncus murinus: A New Experimental Model in Emesis Research|Life Sci.41(4): 513-518|1987|10.1016/0024-3205(87)90229-3
187511|T||Ujvary,I., B.K. Eya, R.L. Grendell, R.F. Toia, and J.E. Casida|Insecticidal Activity of Various 3-Acyl and Other Derivatives of Veracevine Relative to the Veratrum Alkaloids Veratridine and Cevadine|J. Agric. Food Chem.39(10): 1875-1881|1991|10.1021/jf00010a039
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187513|T||Sigel,E.|Properties of Single Sodium Channels Translated by Xenopus Oocytes After Injection with Messenger Ribonucleic Acid|J. Physiol.386:73-90|1987|10.1113/jphysiol.1987.sp016523
187514|T||Rando,T.A.|Rapid and Slow Gating of Veratridine-Modified Sodium Channels in Frog Myelinated Nerve|J. Gen. Physiol.93(1): 43-65|1989|10.1085/jgp.93.1.43
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187517|A||Ulbricht,W., and M. Stoye-Herzog|Distinctly Different Rates of Benzocaine Action on Sodium Channels of Ranvier Nodes Kept Open by Chloramine-T and Veratridine|Pflug. Arch. Eur. J. Phy.402(4): 439-445|1984|10.1007/BF00583945
187518|T||Smart,T.G.|Do Motor-Nerve Terminals Have Gamma-Aminobutyric Acid Receptors?|Br. J. Pharmacol.71(1): 279-286|1980|10.1111/j.1476-5381.1980.tb10937.x
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187520|T||Sigel,E.|Effects of Veratridine on Single Neuronal Sodium Channels Expressed in Xenopus Oocytes|Pflug. Arch. Eur. J. Phy.410(1-2): 112-120|1987|10.1007/BF00581903
187521|T||Son,S.L., K. Wong, and G. Strichartz|Antagonism by Local Anesthetics of Sodium Channel Activators in the Presence of Scorpion Toxins: Two Mechanisms for Competitive Inhibition|Cell. Mol. Neurobiol.24(4): 565-577|2004|10.1023/B:CEMN.0000023630.16308.54
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187526|A||Unsworth,C.D., and R.G. Johnson|Acetylcholine and ATP Are Coreleased from the Electromotor Nerve Terminals of Narcine brasiliensis by an Exocytotic Mechanism|Proc. Natl. Acad. Sci. U.S.A.87(2): 553-557|1990|10.1073/pnas.87.2.553
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187530|A||Spafford,J.D., N.G. Grigoriev, and A.N. Spencer|Pharmacological Properties of Voltage-Gated Na+ Currents in Motor Neurones from a Hydrozoan Jellyfish Polyorchis penicillatus|J. Exp. Biol.199(4): 941-948|1996|10.1242/jeb.199.4.941
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187533|AT||Rubin,J.G., and D.M. Soderlund|Interaction of Naturally Occurring Neurotoxins and the Pyrethroid Insecticide Deltamethrin with Rainbow Trout (Oncorhynchus mykiss) Brain Sodium Channels|Environ. Toxicol. Chem.11(5): 677-685|1992|10.1002/etc.5620110511
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187540|AT||Westlind-Danielsson,A., G. Ericsson, L. Sandell, F. Elinder, and P. Arhem|High Concentrations of the Neuroleptic Remoxipride Block Voltage-Activated Na+ Channels in Central and Peripheral Nerve Membranes|Eur. J. Pharmacol.224(1): 57-62|1992|10.1016/0014-2999(92)94818-G
187541|A||Warashina,A., S. Fujita, and M. Satake|Potential-Dependent Effects of Sea Anemone Toxins and Scorpion Venom on Crayfish Giant Axon|Pflug. Arch. Eur. J. Phy.391(4): 273-276|1981|10.1007/BF00581506
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187543|A||Clark,J.M., and F. Matsumura|Enhancement of Neurotransmitters Release from Invertebrate Synaptosomes by Pyrethroids During Pulsed-Depolarization: A Functional Assay for Effects on Repolarization|Pestic. Sci.31(1): 73-89|1991|10.1002/ps.2780310109
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187546|A||Finger,W., and C. Martin|Differential Effect of Intraterminal Sodium on Spontaneous Quantal Release of Transmitter in Two Neuromuscular Junctions of Crayfish|Neurosci. Lett.75(3): 293-298|1987|10.1016/0304-3940(87)90537-4
187547|A||Finger,W., and C. Martin|Effect of Lithium on Veratridine-Induced Quantal and Non-Quantal Release from Inhibitory Nerve Terminals in Crayfish Muscle|Pflug. Arch. Eur. J. Phy.411(5): 478-480|1988|10.1007/BF00582367
187548|A||Caille,J., M. Ildefonse, and O. Rougier|Evidence for an Action of Sodium Ions in the Activation of Contraction of Twitch Muscle Fibre|Pflug. Arch. Eur. J. Phy.379(1): 117-119|1979|10.1007/BF00622915
187549|A||Barnola,F.V., and M.E. Torres|Effect of Proteolysis on the Activity of the Sodium Channel in Isolated Lobster Nerve Membrane|J. Neurosci. Res.10(1): 73-81|1983|10.1002/jnr.490100109
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187551|A||Pierobon,P., A. Tino, R. Minei, and G. Marino|Different Roles of GABA and Glycine in the Modulation of Chemosensory Responses in Hydra vulgaris (Cnidaria, Hydrozoa)|Hydrobiologia (Multiple Languages)530(1-3): 59-66|2004|10.1007/s10750-004-2690-4
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187553|T||Nidheesh,T.D., A.N. Shylesha, and K. Sharma|Effect of Some Insecticides on Aenasius arizonensis (Girault) Parasitizing Cotton Mealybug Phenacoccus solenopsis Tinsley|Indian J. Entomol.82(4): 731-734|2020|10.5958/0974-8172.2020.00160.1
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187555|A||Cseri,J., M. Danko, L. Kovacs, G. Szucs, and E. Varga|Analysis of the Sensitizing Effect of Veratrum Alkaloids to Potassium on Frog Muscle|Acta Physiol. Acad. Sci. Hung.56(3): 289-301|1980|
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187559|T||Tian,Y., Z. Chen, X. Huang, L. Zhang, and Z. Zhang|Evaluation of Botanicals for Management of Piercing-Sucking Pests and the Effect on Beneficial Arthropod Populations in Tea Trees Camellia sinensis (L.) O. Kuntze (Theaceae)|J. Insect Sci.20(6): 1-7|2020|10.1093/jisesa/ieaa101
187560|T||Schwartz,E.A.|Calcium-Independent Release of GABA from Isolated Horizontal Cells of the Toad Retina|J. Physiol.323:211-227|1982|10.1113/jphysiol.1982.sp014069
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187562|A||Villegas,J., C. Sevcik, F.V. Barnola, and R. Villegas|Grayanotoxin, Veratrine, and Tetrodotoxin-Sensitive Sodium Pathways in the Schwann Cell Membrane of Squid Nerve Fibers|J. Gen. Physiol.67:369-380|1976|10.1085/jgp.67.3.369
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187564|T||Nanasi,P.P., M. Danko, and D.A. Lathrop|Effect of Antiarrhythmic Drugs, TTX, and 4-Aminopyridine on Repetitive Electrical Activity in Frog Skeletal Muscle|Gen. Pharmacol.21(4): 563-567|1990|10.1016/0306-3623(90)90716-Y
187565|A||Liou,J.C., Y.H. Chen, and W.M. Fu|Target-Dependent Regulation of Acetylcholine Secretion at Developing Motoneurons in Xenopus Cell Cultures|J. Physiol.517(3): 721-730|1999|10.1111/j.1469-7793.1999.0721s.x
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187567|T||Ito,H., M. Nishibayashi, K. Kawabata, S. Maeda, M. Seki, and S. Ebukuro|Immunohistochemical Demonstration of C-Fos Protein in Neurons of the Medulla Oblongata of the Musk Shrew (Suncus murinus) After Veratrine Administration|Exp. Anim.51(1): 19-25|2002|10.1538/expanim.51.19
187568|T||Ito,S., T. Ohta, and Y. Nakazato|Characteristics of 5-HT-Containing Chemoreceptor Cells of the Chicken Aortic Body|J. Physiol.515(1): 49-59|1999|10.1111/j.1469-7793.1999.049ad.x
187569|A||Inoue,I.|Modification of K Conductance of the Squid Axon Membrane by SITS|J. Gen. Physiol.88(4): 507-520|1986|10.1085/jgp.88.4.507
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187572|T||Nasreen,A., G.M. Cheema, M. Ashfaq, and M.A. Saleem|Surivival of Trichogramma chilonis Ishii (Hymenoptera: Trichogrammitidae) After Exposure to Different Insecticides: Laboratory Studies|Pak. J. Zool.36(1): 79-82|2004|
187573|T||Ughade,J., S.R. Katole, S.V. Sarode, and A.Y. Deshmukh|Effect of Third Day Insecticidal Application on the Emergence of Trichogramma chilonis Ishii from Parasitized Host Eggs|PKV Res. J.26(1-2): 44-46|2002|
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187575|T||Fedde,M.R., and D.F. Peterson|Intrapulmonary Receptor Response to Changes in Airway-Gas Composition in Gallus domesticus|J. Physiol.209(3): 609-625|1970|10.1113/jphysiol.1970.sp009182
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187577|A||Bohling,H.G., U. Borchard, and H. Drouin|Monomeric Methylmethacrylate (MMA) Acts on the Desheathed Myelinated Nerve and on the Node of Ranvier|Arch. Toxicol.38(4): 307-314|1977|10.1007/BF00352035
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187591|A||Krasznai,Z., T. Marian, L. Balkay, R. Gaspar, and L. Tron|Potassium Channels Regulate Hypo-Osmotic Shock-Induced Motility of Common Carp (Cyprinus carpio) Sperm|Aquaculture129:123-128|1995|10.1016/0044-8486(94)00234-F
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187594|T||Jacques,Y., G. Romey, M. Fosset, and M. Lazdunski|Properties of the Interaction of the Sodium Channel with Permeant Monovalent Cations|Eur. J. Biochem.106(1): 71-83|1980|10.1111/j.1432-1033.1980.tb05998.x
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187599|A||Danko,M., and E. Varga|Sodium Dependence of Membrane Potential Oscillation Induced by Veratrine|Acta Physiol. Acad. Sci. Hung.55(4): 319-327|1980|
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187601|T||Choate,B.A.|Ant Diversity in Maine Lowbush Blueberry and the Ecology of a Dominant Ant Species, Formica exsectoides|Ph.D.Thesis, University of Maine, Orono, ME:176 p.|2010|
187602|T||Toggenburger,G., D. Felix, M. Cuenod, and H. Henke|In Vitro Release of Endogenous Beta-Alanine, GABA, and Glutamate, and Electrophysiological Effect of Beta-Alanine in Pigeon Optic Tectum|J. Neurochem.39(1): 176-183|1982|10.1111/j.1471-4159.1982.tb04716.x
187603|T||Leicht,R., H. Meves, and H.H. Wellhoner|The Effect of Veratridine on Helix pomatia Neurones|Pflug. Arch. Eur. J. Phy.323(1): 50-62|1971|10.1007/BF00586566
187604|T||Kiss,T., and I. Ujvary|Effects of Veratridine and Its Derivatives on the Na-Conducting Channels in Helix Neurons|Acta Biol. Hung.50(1-3): 131-143|1999|10.1007/BF03543037
187605|A||Paunescu,A., C.M. Ponepal, O. Draghici, and A.G. Marinescu|Histologic Modification Induced by the Action of the Insecticide Samurai on the Skin and Liver of Rana ridibunda|Lucr. Stiint. Ser. C. Inst. Agron. Nicolae Balcescu (Bucuresti)51:666-670|2008|
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187608|T||Davidson,J.S., J.A. King, and R.P. Millar|Luteinizing Hormone Release from Chicken Pituitary Cells: Synergism Between Calcium and Protein Kinase C and Its Inhibition by Calmodulin Antagonists|Endocrinology120(2): 692-699|1987|10.1210/endo-120-2-692
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187610|T||Estavillo,J., and R.E. Burger|Cardiac Afferent Activity in Depressor Nerve of the Chicken|Am. J. Physiol.225(5): 1063-1066|1973|10.1152/ajplegacy.1973.225.5.1063
187611|A||Iwasa,K.|Anion Dependent Swelling of Crab Nerve Fibers During Potassium- and Veratridine Depolarization|Physiol. Chem. Phys.14(6): 503-512|1982|
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187615|T||Kubiak,R.|The Action of Veratrine on Mitoses in Allium cepa|Acta Biol. Crac., Ser. Zool.12(3): 37-41|1971|
187616|T||Kovacs,T., B. Szabo, and E. Varga|Effect of Veratrine on the 24Na Exchange of Frog Sartorius|Acta Physiol. Acad. Sci. Hung.43(2): 167-178|1973|
187617|A||Khodorov,B.I., and L.D. Zaborovskaya|Blockade of Sodium and Potassium Channels in the Node of Ranvier by Ajmaline and N-Propyl Ajmaline|Gen. Physiol. Biophys.2(4): 233-268|1983|
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187624|T||Devitt,B.D., B.J.R. Philogene, and C.F. Hinks|Effects of Veratrine, Berberine, Nicotine and Atropine on Developmental Characteristics and Survival of the Dark-Sided Cutworm, Euxoa messoria (Lepidoptera: Noctuidae)|Phytoprotection (Multiple Languages)61(3): 88-102|1980|
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187631|T||Cseri,J., and E. Varga|Effect of Veratrine on Water, Sodium and Potassium Transport in the Frog Sartorius Muscle|Acta Physiol. Acad. Sci. Hung.51(1-2): 1-12|1978|
187632|A||Martin,C., and W. Finger|Veratridine-Induced High-Frequency Asynchronous Release of Inhibitory Transmitter Quanta in Crayfish Nerve-Muscle Synapses Superfused with Normal and Low-Calcium Saline|Pflug. Arch. Eur. J. Phy.411(5): 469-477|1988|10.1007/BF00582366
187633|T||King,J.A., J.S. Davidson, A.E.I. Mehl, I.K. Wakefield, P.B. Andersson, and R.P. Millar|Gonadal Steroid Modulation of Signal Transduction and Luteinizing Hormone Release in Cultured Chicken Pituitary Cells|Endocrinology124(4): 1830-1840|1989|10.1210/endo-124-4-1830
187634|A||Vassort,G.M., M.J. Roulet, K.G. Mongo, and R.F. Ventura-Clapier|Control of the Frog Heart Relaxation by Na-Ca Exchange|Eur. J. Cardiol.7(Suppl.): 17-25|1978|
187635|T||Tashiro,N., M. Kataoka, K. Ozawa, and T. Ikeda|The Evaluation of Whole-Body Plethysmography as a Semiautomated Method for Analysis of Emesis in the House Musk Shrew (Suncus murinus)|J. Am. Assoc. Lab. Anim. Sci.46(2): 81-85|2007|
187636|A||Szabo,B., and E. Varga|The 24Na-Transport Increasing Effect of Veratrine in Frog Sartorius Muscle Influenced by the Tonicity, Composition and Temperature of the External Environment|Acta Physiol. Acad. Sci. Hung.53(1): 81-91|1979|
187637|A||Sattelle,D.B., K.H. Langley, A.L. Obaid, and B.M. Salzberg|Laser Light Scattering Determination of Size and Dispersity of Synaptosomes and Synaptic Vesicles Isolated from Squid (Loligo pealei) Optic Lobes|Eur. Biophys. J.15(2): 71-76|1987|10.1007/BF00257500
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187639|A||Wellhoner,H.H.|The Action of Veratridine on the Membrane Potential of the Crayfish Stretch Receptor Neuron|Naunyn-Schmiedeberg's Arch. Pharmacol.267(2): 185-188|1970|10.1007/BF00999401
187640|T||Varga,E., B. Szabo, M. Danko, and P. Jekel|The Effect of Veratrine on 24Na Uptake by Frog Sartorius Muscle in Hypertonic Media|Acta Physiol. Acad. Sci. Hung.51(3): 257-264|1978|
187641|A||Varga,E., T. Kovacs, and B. Szabo|The Effect of Veratrine on the Ion Transport of Frog Skeletal Muscle|Acta Physiol. Acad. Sci. Hung.41(3-4): 265-277|1972|
187642|T||Varga,E., L. Kovacs, and I. Gesztelyi|Depolarizing Effect of Veratrine on Frog Skeletal Muscle|Acta Physiol. Acad. Sci. Hung.41(1): 81-93|1972|
187643|A||Varga,E., I. Gesztelyi, and M. Danko|Concentration Dependence of the Veratrine Effect on Inducing Depolarization and Membrane Potential Oscillation in Skeletal Muscle|Acta Physiol. Acad. Sci. Hung.47(2-3): 117-125|1976|
187644|A||Van Goor,F., J.I. Goldberg, and J.P. Chang|Extracellular Sodium Dependence of GnRH-Stimulated Growth Hormone Release in Goldfish Pituitary Cells|J. Neuroendocrinol.9(3): 207-216|1997|10.1046/j.1365-2826.1997.00572.x
187645|A||Stoff,J.S., P. Silva, R. Lechan, R. Solomon, and F.H. Epstein|Neural Control of Shark Rectal Gland|Am. J. Physiol.255(2): 212|1988|
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187647|T||Shepherd,S.P., and M.A. Holzwarth|Chromaffin-Adrenocortical Cell Interactions: Effects of Chromaffin Cell Activation in Adrenal Cell Cocultures|Am. J. Physiol. Cell Physiol.280(1): C61- C71|2001|10.1152/ajpcell.2001.280.1.C61
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187650|A||Melinek,R., A. Lev-Tov, H. Meiri, S.D. Erulkar, and R. Rahamimoff|Regulatory Role of Intracellular Sodium Ions in Neurotransmitter Secretion|Isr. J. Med. Sci.18(1): 37-43|1982|
187651|A||McKinney,L.C.|Diphenylhydantoin Reduces Veratridine-Induced Sodium Permeability in Frog Skeletal Muscle|Neurosci. Lett.55(2): 173-178|1985|10.1016/0304-3940(85)90015-1
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187654|T||Sakaguchi,H., M. Asano, K. Yamamoto, and N. Saito|Release of Endogenous Gamma-Aminobutyric Acid from Vocalization Nucleus, the Robust Nucleus of the Archistriatum of Zebra Finch in Vitro|Brain Res.410(2): 380-384|1987|10.1016/0006-8993(87)90343-X
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187660|A||O'Grady,S.M.|Cyclic Nucleotide-Mediated Effects of ANF and VIP on Flounder Intestinal Ion Transport|Am. J. Physiol.256(1): 142|1989|10.1152/ajpcell.1989.256.1.C142
187661|T||Kostaropoulos,I., A.I. Papadopoulos, A. Metaxakis, E. Boukouvala, and E. Papadopoulou-Mourkidou|The Role of Glutathione S-Transferases in the Detoxification of Some Organophosphorus Insecticides in Larvae and Pupae of the Yellow Mealworm, Tenebrio molitor (Coleoptera: Tenebrionidae)|Pest Manag. Sci.57(6): 501-508|2001|10.1002/ps.323
187662|T||Khuri,S., M.R. Shmoury, R. Baalbaki, M. Maunder, and S.N. Talhouk|Conservation of the Cedrus libani Populations in Lebanon: History, Current Status and Experimental Application of Somatic Embryogenesis|Biodivers. Conserv.9(9): 1261-1273|2000|10.1023/A:1008936104581
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187664|A||Dierickx,P.J.|Hepatic Glutathione S-Transferases in Rainbow Trout and Their Interaction with 2,4-Dichlorophenoxyacetic Acid and 1,4-Benzoquinone|Comp. Biochem. Physiol. C Comp. Pharmacol.82:495-500|1985|10.1016/0742-8413(85)90199-9
187665|A||Hiltibran,R.C.|Oxygen and Phosphate Metabolism of Bluegill Liver Mitochondria in the Presence of 2,4-Dichlorophenoxyacetic Acid Derivatives|Trans. Ill. State Acad. Sci.62(2): 175-180|1969|
187666|A||Pritchard,J.B., and M.O. James|Determinants of the Renal Handling of 2,4-Dichlorophenoxyacetic Acid by Winter Flounder|J. Pharmacol. Exp. Ther.208(2): 280-286|1979|
187667|A||Atamaniuk,T.M., O.I. Kubrak, K.B. Storey, and V.I. Lushchak|Oxidative Stress as a Mechanism for Toxicity of 2,4-Dichlorophenoxyacetic acid (2,4-D):  Studies with Goldfish Gills|Ecotoxicology22(10): 1498-1508|2013|10.1007/s10646-013-1136-z
187668|A||Matviishyn,T.M., O.I. Kubrak, V.V. Husak, K.B. Storey, and V.I. Lushchak|Tissue-Specific Induction of Oxidative Stress in Goldfish by 2,4-Dichlorophenoxyacetic Acid:  Mild in Brain and Moderate in Liver and Kidney|Environ. Toxicol. Pharmacol.37(2): 861-869|2014|10.1016/j.etap.2014.02.007
187669|A||Thomas,M.L.J., and J.R. Duffy|Butoxyethanol Ester of 2,4-D in the Control of Eelgrass (Zostera marina L.) and Its Effects on Oysters (Crassostrea virginica Gmelin)  and Other Benthos|Proc. Northeast. Weed Control Conf.22:186-194|1968|
187670|A||De Arcaute,C.R., S. Soloneski, and M.L. Larramendy|Toxic and Genotoxic Effects of the 2,4-Dichlorophenoxyacetic Acid (2,4-D)-Based Herbicide on the Neotropical Fish Cnesterodon decemmaculatus|Ecotoxicol. Environ. Saf.128:222-229|2016|10.1016/j.ecoenv.2016.02.027
187671|A||DeQuattro,Z.A., and W.H. Karasov|Impacts of 2,4-Dichlorophenoxyacetic Acid Aquatic Herbicide Formulations on Reproduction and Development of the Fathead Minnow (Pimephales promelas)|Environ. Toxicol. Chem.35(6): 1478-1488|2016|10.1002/etc.3293
187672|A||Li,K., J.Q. Wu, L.L. Jiang, L.Z. Shen, J.Y. Li, Z.H. He, P. Wei, Z. Lv, and M.F. He|Developmental Toxicity of 2,4-Dichlorophenoxyacetic Acid in Zebrafish Embryos|Chemosphere171:40-48|2017|10.1016/j.chemosphere.2016.12.032
187674|A||Li,E., D.G. Bolser, K.J. Kroll, E.K. Brockmeier, F. Falciani, and N.D. Denslow|Comparative Toxicity of Three Phenolic Compounds on the Embryo of Fathead Minnow, Pimephales promelas|Aquat. Toxicol.201:66-72|2018|10.1016/j.aquatox.2018.05.024
187675|A||Dehnert,G.K., M.B. Freitas, Z.A. Dequattro, T. Barry, and W.H. Karasov|Effects of Low, Subchronic Exposure of 2,4-Dichlorophenoxyacetic Acid (2,4-D) and Commercial 2,4-D Formulations on Early Life Stages of Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.37(10): 2550-2559|2018|10.1002/etc.4209
187676|A||Dehnert,G.K., W.H. Karasov, and M.A. Wolman|2,4-Dichlorophenoxyacetic Acid Containing Herbicide Impairs Essential Visually Guided Behaviors of Larval Fish|Aquat. Toxicol.209:1-12|2019|10.1016/j.aquatox.2019.01.015
187677|A||Gaaied,S., M. Oliveira, F. Le Bihanic, J. Cachot, and M. Banni|Gene Expression Patterns and Related Enzymatic Activities of Detoxification and Oxidative Stress Systems in Zebrafish Larvae Exposed to the 2,4-Dichlorophenoxyacetic Acid Herbicide|Chemosphere224:289-297|2019|10.1016/j.chemosphere.2019.02.125
187678|A||Yuan,C., C. Zhang, Y.M. Qi, D. Li, Y. Hu, and D.J. Huang|2,4-Dichlorophenol Induced Feminization of Zebrafish by Down-Regulating Male-Related Genes through DNA Methylation|Ecotoxicol. Environ. Saf.189:8 p.|2020|10.1016/j.ecoenv.2019.110042
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187680|A||Dehnert,G.K., M.B. Freitas, P.P. Sharma, T.P. Barry, and W.H. Karasov|Impacts of Subchronic Exposure to a Commercial 2,4-D Herbicide on Developmental Stages of Multiple Freshwater Fish Species|Chemosphere263:11 p.|2021|10.1016/j.chemosphere.2020.127638
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187682|A||Anton,B.J., G.K. Dehnert, and W.H. Karasov|Subchronic Impacts of 2,4-D Herbicide Weedestroy AM40 on Associative Learning in Juvenile Yellow Perch (Perca flavescens)|Aquat. Toxicol.237:7 p.|2021|10.1016/j.aquatox.2021.105909
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187684|A||Singh,J.P.N., and R.Y. Yadav|Effect of the Herbicide 2,4-Dichlorophenoxyacetic acid (2,4-D) on Gills of an Intestinal Breather Peppered Loach Lepidocephalichthys guntea|J. Exp. Zool. India14(1): 233-239|2011|
187685|A||Tag El-Din,A., M.M. Abbas, H.A. Aly, G. Tantawy, and A. Askar|Acute Toxicities to Mugil cephalus Fry Caused by Some Herbicides and New Pyrethroids|Meded. Fac. Landbouwwet. Rijksuniv. Gent46:387-391|1981|
187686|A||Singh,J.P.N., and R.Y. Yadava|Histopathological Alterations in Labyrinthine Organ of an Air Breathing Climbing Perch Anabas testudineus Exposed to 2,4-Dichlorophenoxyacetic Acid|J. Exp. Zool.14(1): 69-76|2011|
187687|T||Ju,J.J., T. Lieke, N. Saul, Y.P. Pu, L.H. Yin, C. Kochan, A. Putschew, N. Baberschke, and C.E.W. Steinberg|Neurotoxic Evaluation of Two Organobromine Model Compounds and Natural AOBr-Containing Surface Water Samples by a Caenorhabditis elegans Test|Ecotoxicol. Environ. Saf.104:194-201|2014|10.1016/j.ecoenv.2014.03.009
187688|A||Singh,A., H.S. Singh, and J.P.N. Singh|Effect of 2,4-Dichlorophenoxy Acetic Acid (2,4-D) on Liver of a Fresh Water Catfish, Heteropneustes fossilis (Bloch)|Biochem. Cell. Arch.11(1): 187-190|2011|
187689|A||Singh,J.P.N., A.K. Singh, and R.Y. Yadav|Effect of Sub-lethal Concentration of Herbicide 2,4-Dichlorophenoxy Acetic Acid(2,4-D) on Enzymes in the Gills of Climbing Perch, Anabas testudineus|Biochem. Cell. Arch.11(1): 147-152|2011|
187690|A||Noyes,P.D., D.E. Haggard, G.D. Gonnerman, and R.L. Tanguay|Advanced Morphological - Behavioral Test Platform Reveals Neurodevelopmental Defects in Embryonic Zebrafish Exposed to Comprehensive Suite of Halogenated and Organophosphate Flame Retardants|Toxicol. Sci.145(1): 177-195|2015|10.1093/toxsci/kfv044
187691|T||Lieke,T., C.E.W. Steinberg, J. Ju, and N. Saul|Natural Marine and Synthetic Xenobiotics get on Nematode's Nerves: Neuro-Stimulating and Neurotoxic Findings in Caenorhabditis elegans|Mar. Drugs13(5): 2785-2812|2015|10.3390/md13052785
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187694|A||Alves,M.G., and P.F. Oliveira|2,4-Dichlorophenoxyacetic Acid Alters Intracellular pH and Ion Transport in the Outer Mantle Epithelium of the Bivalve Anodonta cygnea|Aquat. Toxicol.154:12-18|2014|10.1016/j.aquatox.2014.04.029
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187697|A||Wahedally,S.F., F.A. Mamboya, T.J. Lyimo, M. Bhikajee, and M. Bjork|Short-Term Effects of Three Herbicides on the Maximum Quantum Yield and Electron Transport Rate of Tropical Seagrass Thalassodendron ciliatum|Tanzania J. Nat. Appl. Sci.3(1): 458-466|2012|
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187699|AT||Mudge,C., and M.D. Netherland|Response of Giant Bulrush, Water Hyacinth, and Water Lettuce to Foliar Herbicide Applications|J. Aquat. Plant Manag.52:75-80|2014|
187701|A||da Silva Pinto,T.J., J.S. Freitas, R.A. Moreira, L.C.M. Da Silva, M.P.C. Yoshii, L.F.D.P. Lopes, B.V. Goulart, M.R. Van|Functional Responses of Hyalella meinerti after Exposure to Environmentally Realistic Concentrations of 2,4-D, Fipronil, and Vinasse (Individually and in Mixture)|Aquat. Toxicol.231:12 p.|2021|10.1016/j.aquatox.2020.105712
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187706|T||Richardson,L.T.|Effect of Insecticides and Herbicides Applied to Soil on the Development of Plant Diseases.  I.  The Seedling Disease of Barley Caused by Helminthosporium sativum, P.K. and B.|Can. J. Plant Sci.37(3): 196-204|1957|10.4141/cjps57-024
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187710|T||Huang,Z., K. He, Z. Song, G. Zeng, A. Chen, L. Yuan, H. Li, L. Hu, Z. Guo, and G. Chen|Antioxidative Response of Phanerochaete Chrysosporium against Silver Nanoparticle-Induced Toxicity and Its Potential Mechanism|Chemosphere211:573-583|2018|10.1016/j.chemosphere.2018.07.192
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187712|T||Schreuder,W., W. Du Plooy, A. Erasmus, C. Savage, E. Basson, C. Lennox, and P.H. Fourie|Postharvest Fungicide Treatments and Cold Storage Control Citrus Black Spot Infections|Crop Prot.112:332-342|2018|10.1016/j.cropro.2018.06.020
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187716|T||Laggner,P., M. Filek, M. Szechynska-Hebda, and M. Kriechbaum|X-Ray Structure Investigations of Winter Wheat Membrane Systems.  II.  Effect of Phytohormones on Structural Properties of Mixed Phospholipid-Sterols Membranes|Plant Sci.165(1): 271-275|2003|10.1016/S0168-9452(03)00192-4
187717|T||Mi,Y., C. Zhang, and K. Taya|Quercetin Protects Spermatogonial Cells from 2,4-D-Induced Oxidative Damage in Embryonic Chickens|J. Reprod. Dev.53(4): 749-754|2007|10.1262/jrd.19001
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187723|AT||Steenis,J.H.|Studies on the Use of Herbicides for Improving Waterfowl Habitat in Western Kentucky and Tennesse|J. Wildl. Manag.14(2): 162-169|1950|10.2307/3796326
187724|A||Dierickx,P.J.|Soluble Glutathione Transferase Isoenzymes in Daphnia magna Straus and Their Interaction with 2,4-Dichlorophenoxyacetic Acid and 1,4-Benzoquinone|Insect Biochem.17(1): 1-6|1987|10.1016/0020-1790(87)90136-3
187725|T||Mierzejewska,E., A. Baran, and M. Urbaniak|Biodegradation Potential and Ecotoxicity Assessment in Soil Extracts Amended with Phenoxy Acid Herbicide (2,4-D) and a Structurally-Similar Plant Secondary Metabolite (Ferulic Acid)|Bull. Environ. Contam. Toxicol.104:200-205|2020|10.1007/s00128-019-02760-5
187726|A||Dolui,D., I. Saha, and M.K. Adak|2,4-D Removal Efficiency of Salvinia natans L. and Its Tolerance to Oxidative Stresses Through Glutathione Metabolism Under Induction of Light and Darkness|Ecotoxicol. Environ. Saf.208:12 p.|2021|10.1016/j.ecoenv.2020.111708
187727|T||Petric,M., A. Subotic, S. Jevremovic, M. Trifunovic-Momcilov, V. Tadic, M. Grujic, and Z. Vujcic|Esterase and Peroxidase Isoforms in Different Stages of Morphogenesis in Fritillaria meleagris L. in Bulb-Scale Culture|C. R. Biol. (Multiple Languages)338(12): 793-802|2015|10.1016/j.crvi.2015.08.002
187728|A||Das,B., and P.K. Singh|Mutagenicity of Pesticides in Blue-Green Algae|Microbios Lett.5(19/20): 103-107|1977|
187729|T||Shirvani,M., E. Farajollahi, S. Bakhtiari, and O.A. Ogunseitan|Mobility and Efficacy of 2,4-D Herbicide from Slow-Release Delivery Systems Based on Organo-Zeolite and Organo-Bentonite Complexes|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes49:255-262|2014|10.1080/03601234.2014.868275
187730|T||Ninomiya,K., M. Nishioka, M. Kino-Oka, and M. Taya|Differences in Responses of Plant Hairy Roots to Chemical Toxicity Compared Between Primary and Ramified Roots|Environ. Sci.11(5): 283-291|2004|
187731|T||Rasmuson,B., and H. Svahlin|Mutagenicity Tests of 2,4-Dichlorophenoxyacetic Acid and 2,4,5-Trichlorophenoxyacetic Acid in Genetically Stable and Unstable Strains of Drosophila melanogster|In: C.Ramel (Ed.), Chlorinated Phenoxy Acids and Their Dioxins, Ecol.Bull.(Stockholm), NFR 27:190-192|1978|
187732|A||Jin,X.L., X.Q. Zhao, X.Y. Wang, and Z.R. Wang|Degradation and Toxicity Change of 4-Chlorophenol in Aqueous Solution During CGDE Treatment|Water Sci. Technol.67:2190-2194|2013|10.2166/wst.2013.042
187733|AT||King,C.C.|Effects of Herbicides on Honeybees and Nectar Secretion|Ph.D. Thesis, The Ohio State University, Columbus, OH:189 p.|1961|
187734|T||Elghniji,K., O. Hentati, N. Mlaik, A. Mahfoudh, and M. Ksibi|Photocatalytic Degradation of 4-Chlorophenol Under P-Modified TiO(2)/UV System: Kinetics, Intermediates, Phytotoxicity and Acute Toxicity|J. Environ. Sci.24(3): 479-487|2012|10.1016/S1001-0742(10)60659-6
187735|T||De Duffard,A.M.E., A.F. De Peretti, S.C. De Cantarini, and R. Duffard|Effects of 2,4-Dichlorophenoxyacetic Acid Butyl Ester on Chick Liver|Arch. Environ. Contam. Toxicol.25:204-211|1993|
187736|T||Hattab,S., I. Boughattas, H. Boussetta, A. Viarengo, M. Banni, and S. Sforzini|Transcriptional Expression Levels and Biochemical Markers of Oxidative Stress in the Earthworm Eisenia andrei After Exposure to 2,4-Dichlorophenoxyacetic Acid (2,4-D)|Ecotoxicol. Environ. Saf.122:76-82|2015|10.1016/j.ecoenv.2015.07.014
187737|T||Hugla,J.L., G. Goffinet, P. Kremers, M. Dubois, V. Lambert, N. Stouvenakers, and J.P. Thome|Ultrastructural Modifications in Cultured Fetal Quail Hepatocytes Exposed to Pesticides and PCBs|Ecotoxicol. Environ. Saf.34:145-155|1996|10.1006/eesa.1996.0056
187738|A||Hu,Y., D. Li, X. Ma, R.J. Liu, Y.M. Qi, C. Yuan, and D.J. Huang|Effects of 2,4-Dichlorophenol Exposure on Zebrafish: Implications for the Sex Hormone Synthesis|Aquat. Toxicol.236:8 p.|2021|10.1016/j.aquatox.2021.105868
187739|AT||Lawrence,J.M., R.D. Blackburn, and P.G. Beasley|Aquatic Herbicide Evaluation Tests Using Plastic Pools|Proc. South. Weed Conf.14:309-316|1961|
187740|T||Willis,A.J.|Long-Term Ecological Changes in Sward Composition Following Application of Maleic Hydrazide and 2,4-D|Br. Crop Prot. Conf. Weeds:360-367|1972|
187741|A||Abumourad,I.M., K.M. El-Sherbeny, and A.A. Farghaly|Detection of DNA Damage of Clarias gariepinus Exposed to 2,4-D Using Chromosomal Aberrations and RAPD Assays|Bull. Fac. Agric. Univ. Cairo57(4): 685-700|2006|
187742|T||Courtney,W.D., D.V.,Jr. Peabody, and H.M. Austenson|Effect of Herbicides on Nematodes in Bentgrass|Plant Dis. Rep.42:256-257|1962|
187743|T||Gysel,L.W.|Vegetation Changes and Animal Use of a Line Right-of-Way After Application of an HERBICIDE|Down Earth:7-10|1962|
187744|T||Volckaert,M., and O. Van Laere|Toxicity of an MCPP/2,4-D Mixture for the Larvae Stage of the Honeybee (Apis mellifera L.)|Meded. Fac. Landbouwwet. Rijksuniv. Gent49(3a): 751-757|1984|
187745|AT||Dwernychuk,L.W., and D.A. Boag|Effect of Herbicide-Induced Changes in Vegetation on Nesting Ducks|Can. Field Nat.87(2): 155-165|1973|10.5962/p.343738
187748|T||Hoover,M.E., and A.R. Colmer|The Action of Some Herbicides on the Microflora of a Sugarcane Soil|Proc. La. Acad. Sci.16:21-27|1953|
187749|T||Njagi,G.D.E., F. Oyolla, P. Hongo-Allego, and H.N.B. Gopalan|Mutagenicity Testing of Herbicides, Fungicides and Insecticides. III. Drosophila : Recessive Sex-Linked Lethals|Bangladesh J. Zool.8(1): 1-4|1980|
187750|A||Pinto,T.J.D., G.S. Rocha, R.A. Moreira, L.C.M. Da Silva, M.P.C. Yoshii, B.V. Goulart, C.C. Montagner, M.A. Daam, and E.|Multi-Generational Exposure to Fipronil, 2,4-D, and Their Mixtures in Chironomus sancticaroli: Biochemical, Individual, and Population Endpoints|Environ. Pollut.283:12 p.|2021|10.1016/j.envpol.2021.117384
187751|A||De Schamphelaere,K., L.V. Laer, N. Deleebeeck, B.T. Muyssen, F. Degryse, E. Smolders, and C. Janssen|Nickel Speciation and Ecotoxicity in European Natural Surface Waters: Development, Refinement and Validation of Bioavailability Models|Ghent University Laboratory for Environmental Toxicology and Aquatic Ecology:125 p.|2006|
187752|A||Deleebeeck,N.M.E., K.A.C. De Schamphelaere, and C.R. Janssen|A Novel Method for Predicting Chronic Nickel Bioavailability and Toxicity to Daphnia magna in Artificial and Natural Waters|Environ. Toxicol. Chem.27(10): 2097-2107|2008|10.1897/07-579.1
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187756|T||Mullison,W.R.|The Tomato as a Test Plant for Growth-Regulators|Bot. Gaz.112(4): 521-524|1951|10.1086/335685
187757|T||King,C.C.|Effects of Herbicides on Honeybees|Glean. Bee Cult.92:230-233|1964|
187758|A||Lenz,D., H. Segner, and W. Hanke|Comparison of Different Endpoint Methods for Acute Cytotoxicity Tests with the R1 Cell Line|In: T.Braunbeck, W.Hanke, and H.Segner (Eds.), Fish in Ecotoxicology and Ecophysiology, VCH Verlagsgem Weinheim:93-102|1993|
187760|T||Bowes,G.G.|Control of Aspen Regrowth in Western Canada When There is an Understory of Established Alfalfa|J. Range Manag.34(5): 412-415|1981|10.2307/3897917
187761|T||Capuana,M., G. Petrini, A. Di Marco, and R. Giannini|Plant Regeneration of Common Ash (Fraxinus excelsior L.) by Somatic Embryogenesis|In Vitro Cell. Dev. Biol., Plant43(2): 101-110|2007|10.1007/s 11627-007-9030-
187762|T||Chaloushi,B., R. Zarghami, C. Abd-Mishani, M. Omidi, Y.M. Agayev, and B.P. Sardood|Effects of Different Hormonal Treatments on the Callus Production and Plantlet Regeneration in Saffron (Crocus sativus L.)|Pak. J. Biol. Sci.10(10): 1625-1631|2007|10.3923/pjbs.2007.1625.1631
187763|T||Germaine,K.J., X. Liu, G.G. Cabellos, J.P. Hogan, D. Ryan, and D.N. Dowling|Bacterial Endophyte-Enhanced Phytoremediation of the Organochlorine Herbicide 2,4-Dichlorophenoxyacetic Acid|FEMS Microbiol. Ecol.57(2): 302-310|2006|10.1111/j.1574-6941.2006.00121.x
187764|T||Hiradate,S., S. Morita, A. Furubayashi, Y. Fujii, and J. Harada|Plant Growth Inhibition by cis-Cinnamoyl Glucosides and cis-Cinnamic Acid|J. Chem. Ecol.31(3): 591-601|2005|10.1007/s10886-005-2047-0
187765|T||Hoque,A., M.K. Biswas, and S. Alam|Variation of Callus Induction Through Anther Culture in Water Chestnut (Trapa sp.)|Turk. J. Biol.31(1): 41-45|2007|
187766|T||Indieka,S.A., D.W. Odee, G.M. Muluvi, K.N. Rao, and J. Machuka|Regeneration of Melia volkensii Gurke (Meliaceae) Through Direct Somatic Embryogenesis|New For. 34(1): 73-81|2007|10.1007/s11056-007-9038-7
187767|T||Kamble,S.I.|Effect of 2,4-D on Linear Growth of Seedling and Their Anatomical Characters of Hibiscus cannabinus Linn.|Biosci. Biotechnol. Res. Asia3(1a): 147-150|2006|
187768|T||Kamble,S.I.|Effect of Herbicide 2,4-D on Seed Germination and Early Seedling Growth of Hibiscus cannabinus Linn.|Biosci. Biotechnol. Res. Asia3(1a): 227-232|2006|
187769|T||Kamble,S.I.|Effect of Herbicide 2,4-D on DNA, RNA and Protein Contents of Seedlings of Hibiscus cannabinus Linn.|Biosci. Biotechnol. Res. Asia34(1a): 203-208|2006|
187771|T||Gupta,J.C., and O. Gupta|Influence of Pre-Harvest Fungicide Spray on Fusarium Species Associated with Lentil Seeds|Indian J. Mycol. Plant Pathol.21(2): 186-189|1991|
187772|T||Khan,M.S., A. Zaidi, and M. Aamil|Influence of Herbicides on Chickpea-Mesorhizobium Symbiosis|Agronomie (Multiple Languages)24(3): 123-127|2004|10.1051/agro:2004009
187773|T||Krefting,L.W., H.L. Hansen, and M.H. Stenlund|Stimulating Regrowth of Mountain Maple for Deer Browse by Herbicides, Cutting, and Fire|J. Wildl. Manag.20(4): 434-441|1956|10.2307/3797156
187774|T||Metivier,P.S.R., E.C. Yeung, K.R. Patel, and T.A. Thorpe|In Vitro Rooting of Microshoots of Cotinus coggygria Mill, a Woody Ornamental Plant|In Vitro Cell. Dev. Biol., Plant43(2): 119-123|2007|10.1007/s11627-007-9036-7
187775|T||Nazif,N.M., M.R. Rady, and M.M. Seif El-Nasr|Stimulation of Anthraquinone Production in Suspension Cultures of Cassia acutifolia by Salt Stress|Fitoterapia71(1): 34-40|2000|10.1016/S0367-326X(99)00101-X
187776|T||Ning,G.G., and M.Z. Bao|Plant Regeneration from Callus Derived from Immature Embryo Cotyledons of Prunus mume|Hortscience42(3): 744-747|2007|10.21273/HORTSCI.42.3.744
187777|T||Ninomiya,K., Y. Tsushima, M. Kino-Oka, and M. Taya|An Automatic Image Analyzing System for Evaluation of Elongating Behavior of Plant Hairy Roots Exposed to Herbicidal Stimuli|J. Biosci. Bioeng.96(1): 98-101|2003|10.1016/S1389-1723(03)90107-1
187778|T||Raghavan,C., E.K. Ong, M.J. Dalling, and T.W. Stevenson|Effect of Herbicidal Application of 2,4-Dichlorophenoxyacetic Acid in Arabidopsis|Funct. Integr. Geonom.5(1): 4-17|2005|10.1007/s10142-004-0119-9
187779|T||Rahman,A., A. Bannigan, W. Sulaman, P. Pechter, E.B. Blancaflor, and T.I. Baskin|Auxin, Actin and Growth of the Arabidopsis thaliana Primary Root|Plant J.34(3): 514-528|2007|10.1111/j.1365-313X.2007.3068.x
187781|T||Shadang,R., P. Dwivedi, S.N. Hegde, and N. Ahmed|Effects of Different Culture Media on Seed Germination and Subsequent In Vitro Development of Protocorms of Hygrochilus parishii (Veith and Rchb.f.) Pfitz (Orchidaceae)|Indian J. Biotechnol.6:256-261|2007|
187782|T||Sheley,R.L., and M.K. Denny|Community Response of Nontarget Species to Herbicide Application and Removal of the Nonindigenous Invader Potentilla recta L.|West. N. Am. Nat.66(1): 55-63|2006|10.3398/1527-0904(2006)66[55:CRONST]2.0.CO;2
187783|T||Swanson,C.P., G.A. LaVelle, and S.H. Goodgal|Ovule Abortion in Tradescantia as Affected by Aqueous Solutions of 2,4-Dichlorophenoxyacetic Acid|Am. J. Bot.36(2): 170-175|1949|10.1002/j.1537-2197.1949.tb05244.x
187784|T||Wambolt,C.L., and G.F. Payne|An 18-Year Comparison of Control Methods for Wyoming Big Sagebrush in Southwestern Montana|J. Range Manag.39(4): 314-319|1986|10.2307/3899770
187785|T||Feung,C.S., R.H. Hamilton, and R.O. Mumma|Metabolism of 2,4-Dichlorophenoxyacetic Acid. VII. Comparison of Metabolites from Five Species of Plant Callus Tissue Cultures|J. Agric. Food Chem.23(3): 373-376|1975|10.1021/jf60199a065
187786|T||Frihauf,J.C., P.W. Stahlman, and K. Al-Khatib|Saflufenacil Absorption and Translocation in Winter Wheat (Triticum aestivum L.)|Pestic. Biochem. Physiol.98(2): 243-247|2010|10.1016/j.pestbp.2010.06.014
187787|T||Hyder,D.N.|Controlling Big Sagebrush with Growth Regulators|J. Range Manag.6:109-116|1953|10.2307/3893968
187788|AT||Nault,M.E., M.D. Netherland, A. Mikulyuk, J.G. Skogerboe, T. Asplund, J. Hauxwell, and P. Toshner|Efficacy, Selectivity, and Herbicide Concentrations Following a Whole-Lake 2,4-D Application Targeting Eurasian Watermilfoil in Two Adjacent Northern Wisconsin Lakes|Lake Reserv. Manag.30:1-10|2014|10.1080/10402381.2013.862586
187789|T||Davis,D., and A.E. Dimond|Inducing Disease Resistance with Plant Growth-Regulators|Phytopathology43:137-140|1953|
187790|T||Colmer,A.R.|The Use of Plaques to Gauge the Effect of Some Herbicides upon the Microflora of the Soil|Proc. South. Weed Conf.7:237-|1954|
187791|T||Davis,D., and A.E. Dimond|Site of Disease Resistance Induced by Plant Growth Regulators in Tomato|Phytopathology46:551-552|1956|
187792|T||Fenner,L.M., and L.R. Fate|Ceratostomella ulmi on Elm Bark Treated with 2,4-Dichlorophenoxyacetic Acid|Phytopathology37:925-928|1947|
187793|T||Guiscafre-Arrillaga,J.|Sensitivity of Penicillium digitatum to 2,4-Dichlorophenoxyacetic Acid|Plant Dis. Rep.32(6): 248-250|1948|
187794|T||Gershater,M.C., I. Cummins, and R. Edwards|Role of a Carboxylesterase in Herbicide Bioactivation in Arabidopsis thaliana|J. Biol. Chem.282(29): 21460-21466|2007|10.1074/jbc.M701985200
187795|T||Karpoff,A.J.|Hormones and Early In Vitro Development of Epiphyllous Propagules on Bryophyllum calycinum|Am. J. Bot.69(3): 348-355|1982|10.1002/j.1537-2197.1982.tb13267.x
187796|T||Roberts,J.E., and W.B. Bollen|A Microplating Method for Soil Molds and Its Use to Detect Some Effects of Certain Insecticides and Herbicides|Appl. Microbiol.3(3): 190-194|1955|10.1128/am.3.3.190-194.1955
187797|A||Nagai,T., K. Taya, and I. Yoda|Comparative Toxicity of 20 Herbicides to 5 Periphytic Algae and the Relationship with Mode of Action|Environ. Toxicol. Chem.35(2): 368-375|2016|10.1002/etc.3150
187798|T||Ledger,T., A. Zuniga, T. Kraiser, P. Dasencich, R. Donoso, D. Perez-Pantoja, and B. Gonzalez|Aromatic Compounds Degradation Plays a Role in Colonization of Arabidopsis thaliana and Acacia caven by Cupriavidus pinatubonensis JMP134|Antonie van Leeuwenhoek (Gedrukt)101(4): 713-723|2012|10.1007/s10482-011-9685-8
187799|T||Li,J., Y. Wang, L. Lin, L. Zhou, N. Luo, Q. Deng, J. Xian, C. Hou, and Y. Qiu|Embryogenesis and Plant Regeneration from Anther Culture in Loquat (Eriobotrya japonica L.)|Sci. Hortic.115(4): 329-336|2008|10.1016/j.scienta.2007.10.007
187800|T||Lelu-Walter,M.A., M. Bernier-Cardou, and K. Klimaszewska|Clonal Plant Production from Self- and Cross-Pollinated Seed Families of Pinus sylvestris (L.) Through Somatic Embryogenesis|Plant Cell Tissue Organ Cult.92(1): 31-45|2008|10.1007/s11240-007-9300-x
187801|T||Hu,Z., Y. Hu, H.H. Gao, X.Q. Guan, and D.H. Zhuang|Callus Production, Somatic Embryogenesis and Plant Regeneration of Lycium barbarum Root Explants|Biol. Plant. (Praha)52(1): 93-96|2008|10.1007/s10535-008-0015-6
187803|T||Kanmegne,G., and N.D. Omokolo|Germination of Garcinia kola (Heckel) Seeds in Response to Different Hormone Treatments|Fruits (Les Ulis)63(3): 155-161|2008|
187804|T||Hoshino,Y., Y. Kashihara, T. Hirano, N. Murata, and K. Shinoda|Plant Regeneration from Suspension Cells Induced from Hypocotyls Derived from Interspecific Cross Alstroemeria pelegrina X A. Magenta and Transformation with Agrobacterium tumefaciens|Plant Cell Tissue Organ Cult.94(1): 45-54|2008|10.1007/s11240-008-9385-x
187805|T||Kim,Y.D., J.Y. Min, W.J. Kim, Y.M. Kang, H.S. Moon, C.H. Lee, D.T. Prasad, and M.S. Choi|High Frequency Plant Regeneration and Accumulation of Tropane Alkaloids in Regenerated Plants of Scopolia parviflora|In Vitro Cell. Dev. Biol., Plant44(3): 203-208|2008|10.1007/s11627-007-9073-2
187806|T||Liu,M., J. Yang, S.N. Lu, Z. Guo, X. Lin, and H. Wu|Somatic Embryogenesis and Plant Regeneration in Centipedegrass (Eremochloa ophiuroides [Munro] Hack.)|In Vitro Cell. Dev. Biol., Plant44(2): 100-104|2008|10.1007/s11627-008-9115-4
187807|T||Sliwinska,A., O. Olszowska, M. Furmanowa, and A. Nosov|Rapid Multiplication of Polyscias filicifolia by Secondary Somatic Embryogenesis|In Vitro Cell. Dev. Biol., Plant44(2): 69-77|2008|10.1007/s11627-008-9132-3
187808|T||Zhang,G.N., J.F. Jia, J.G. Hao, X.R. Wang, and T. He|Plant Regeneration from Mesophyll Protoplasts of Agrobacterium rhizogenes-Transformed Astragalus melilotoides|Biol. Plant. (Praha)52(2): 373-376|2008|10.1007/s10535-008-0078-4
187809|T||Zakizadeh,H., T. Debener, S. Sriskandarajah, S. Frello, and M. Serek|Regeneration of Miniature Potted Rose (Rosa hybrida L.) via Somatic Embryogenesis|Eur. J. Hortic. Sci.73(3): 111-117|2008|
187810|T||Maeda,T., D. Kami, S. Kido, I. Nakamura, K. Otokita, T. Sato, T. Suzuki, K. Oosawa, and M. Suzuki|Development of Asexual Propagation System via In Vitro Culture in Cardamine Yezoensis Maxim, and Its Application to Hydroponic Cultivation|J. Jpn. Soc. Hortic. Sci.77(3): 270-276|2008|10.2503/jjshs1.77.270
187811|T||Mng'Omba,S.A., E.S. Du Toit, and F.K. Akinnifesi|Plant Regeneration Through Somatic Embryogenesis of Jacket Plum (Pappea capensis)|N. Z. J. Crop Hortic. Sci.36(2): 137-144|2008|10.1080/01140670809510229
187813|T||Maruyama,E., Y. Hosoi, and K. Ishii|Somatic Embryogenesis and Plant Regeneration in Yakutanegoyou, Pinus armandii Franch. var. amamiana (Koidz.) Hatusima, an Endemic and Endangered Species in Japan|In Vitro Cell. Dev. Biol., Plant43(1): 28-34|2007|10.1007/s11627-006-9003-8
187814|T||Ptak,A., and A. Bach|Somatic Embryogenesis in Tulip (Tulipa gesneriana L.) Flower Stem Cultures|In Vitro Cell. Dev. Biol., Plant43(1): 35-39|2007|10.1007/s11627-006-9004-7
187815|T||Ma,G., G. Wu, and E. Bunn|Somatic Embryogenesis and Adventitious Shoot Formation in Burma Reed (Neyraudia arundinacea Henr.)|In Vitro Cell. Dev. Biol., Plant43(1): 16-20|2007|10.1007/s11627-006-9010-9
187816|T||Antognoni,F., S. Zheng, C. Pagnucco, R. Baraldi, F. Poli, and S. Biondi|Induction of Flavonoid Production by UV-B Radiation in Passiflora Quadrangularis callus Cultures|Fitoterapia78(5): 345-352|2007|10.1016/j.fitote.2007.02.001
187817|T||Wu,H.C., E.S. Du Toit, and C.F. Reinhardt|A Protocol for Direct Somatic Embryogenesis of Protea cynaroides L. Using Zygotic Embryos and Cotyledon Tissues|Plant Cell Tissue Organ Cult.89(2/3): 217-224|2007|10.1007/s11240-007-9242-3
187818|T||Bernard,F., H.S. Bazarnov, L.J. Khatab, A.S. Darabi, and M. Sheidai|Ferula gummosa Boiss. Embryogenic Culture and Karyological Changes|Pak. J. Biol. Sci.10(12): 1977-1983|2007|10.3923/pjbs.2007.1977.1983
187820|T||Kim,T.D., B.S. Lee, T.S. Kim, and Y.E. Choi|Developmental Plasticity of Glandular trichomes into Somatic Embryogenesis in Tilia amurensis|Ann. Bot.100(2): 177-183|2007|10.1093/aob/mcm094
187822|T||Kiong,A.L.P., H.H. Huan, and S. Hussein|Callus Induction from Leaf Explants of Melaleuca alternifolia|Int. J. Agric. Res.2(3): 227-237|2007|10.3923/ijar.2007.227.237
187823|T||Wungsintaweekul,J., C. Sriyapai, S. Kaewkerd, S. Tewtrakul, D. Kongduang, and W. De-Eknamkul|Establishment of Croton stellatopilosus Suspension Culture for Geranylgeraniol Production and Diterpenoid Biosynthesis|Z. Naturforsch. Sect. C J. Biosci.62(5/6): 389-396|2007|10.1515/znc-2007-5-612
187824|T||Zhang,C.X., Q. Li, and L. Kong|Induction, Development and Maturation of Somatic Embryos in Bunge's Pine (Pinus bungeana Zucc. ex Endl.)|Plant Cell Tissue Organ Cult.91(3): 273-280|2007|10.1007/s11240-007-9294-4
187825|T||Famiani,F., P. Proietti, M. Pilli, A. Battistelli, and S. Moscatello|Effects of Application of Thidiazuron (TDZ), Gibberellic Acid (GA 3), and 2,4-Dichlorophenoxyacetic Acid (2,4-D) on Fruit Size and Quality of Actinidia deliciosa 'Hayward'|N. Z. J. Crop Hortic. Sci.35(3): 341-347|2007|10.1080/01140670709510200
187826|T||Francoise,B., S. Hossein, H. Halimeh, and N.F. Zahra|Growth Optimization of Zataria multiflora Boiss. Tissue Cultures and Rosmarinic Acid Production Improvement|Pak. J. Biol. Sci.10(19): 3395-3399|2007|10.3923/pjbs.2007.3395.3399
187827|T||El-Mahrouk,M.E.S., Y.H. Dewir, and N. Singh|Indirect Shoot Organogenesis and Plantlets Regeneration from Stem of Ornamental dieffenbachia maculata cv. marianna|Acta Biol. Szeged.51(2): 113-116|2007|
187828|T||Kackar,A., and N.S. Shekhawat|Plant Regeneration Through Somatic Embryogenesis and Polyamine Levels in Cultures of Grasses of Thar Desert|J. Cell Mol. Biol.6(2): 121-127|2007|
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187830|T||Martin,K.P., A. Shahanaz Beegum, C.L. Zhang, A. Slater, and P.V. Madhusoodanan|In Vitro Propagation of Ophiorrhiza prostrata Through Somatic Embryogenesis|Biol. Plant. (Praha)51(4): 769-772|2007|10.1007/s10535-007-0157-y
187831|T||Hema,B.P., and H.N. Murthy|The Effect of Sugars on Niger Embryogenesis and Plant Regeneration in Anther Culture|Biol. Plant. (Praha)51(4): 773-776|2007|10.1007/s10535-007-0158-x
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187834|T||Portillo,L., F. Santacruz-Ruvalcaba, A. Gutierrez-Mora, and B. Rodriguez-Garay|Somatic Embryogenesis in Agave tequilana Weber Cultivar Azul|In Vitro Cell. Dev. Biol., Plant43(6): 569-575|2007|10.1007/s11627-007-9046-5
187835|T||Agrawal,V., and P.R. Sardar|In Vitro Regeneration Through Somatic Embryogenesis and Organogenesis Using Cotyledons of Cassia angustifolia Vahl|In Vitro Cell. Dev. Biol., Anim.43(6): 585-592|2007|10.1007/s11627-007-9058-1
187836|T||Raghavan,V.|Role of 2,4-Dichlorophenoxyacetic Acid (2,4-D) in Somatic Embryogenesis on Cultured Zygotic Embryos of Arabidopsis: Cell Expansion, Cell Cycling, and Morphogenesis During Continuous Exposure of Embryos to 2,4-D|Am. J. Bot.91(11): 1743-1756|2004|10.3732/ajb.91.11.1743
187837|T||Jackson,R.G., M. Kowalczyk, Y. Li, G. Higgins, J. Ross, G. Sandberg, and D.J. Bowles|Over-Expression of an Arabidopsis Gene Encoding a Glucosyltransferase of Indole-3-Acetic Acid:  Phenotypic Characterisation of Transgenic Lines|Plant J.32(4): 573-583|2002|10.1046/j.1365-313X.2002.01445.x
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187867|T||Rijnders,J., L. Bervoets, E. Prinsen, M. Eens, G.T.S. Beemster, H. Abdelgawad, and T. Groffen|Perfluoroalkylated Acids (PFAAs) Accumulate in Field-Exposed Snails (Cepaea sp.) and Affect Their Oxidative Status|Sci. Total Environ.790:11 p.|2021|10.1016/j.scitotenv.2021.148059
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187871|T||Zhang,L., Q. Wang, H. Chen, Y. Yao, and H. Sun|Uptake and Translocation of Perfluoroalkyl Acids with Different Carbon Chain Lengths (C2-C8) in Wheat (Triticum aestivum L.) under the Effect of Copper Exposure|Environ. Pollut.274:18p.|2021|10.1016/j.envpol.2021.116550
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187927|T||Lemes,P.G., M.F. De Matos, C.A.Jr. Araujo, J.E. Serrao, and J.C. Zanuncio|An Organic Bait Based on Palicourea marcgravii (Rubiaceae) and Tephrosia candida (Fabaceae) Does Not Control Nests of Atta laevigata (Hymenoptera: Formicidae) in Eucalyptus plantations|Agric. For. Entomol.23:512-517|2021|10.1111/afe.12455
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187929|T||Liu,J., Z.Y. Hu, Q.Q. Ye, and S.H. Dai|Development of Three Drosophila melanogaster Strains with Different Sensitivity to Volatile Anesthetics|Chin. Med. J.122(5): 561-565|2009|10.3760/cma.j.issn.0366-6999.2009.05.014
187930|T||MacPhail,C.M., E. Monnet, J.S. Gaynor, and A. Perini|Effect of Sevoflurane on Hemodynamic and Cardiac Energetic Parameters in Ferrets|Am. J. Vet. Res.65(5): 653-658|2004|10.2460/ajvr.2004.65.653
187931|T||Macmillan,H.A., M. Norgard, H.J. Maclean, J. Overgaard, and C.J.A. Williams|A Critical Test of Drosophila Anaesthetics: Isoflurane and Sevoflurane are Benign Alternatives to Cold and CO2|J. Insect Physiol.101:97-106|2017|10.1016/j.jinsphys.2017.07.005
187932|T||Mota Filho,T.M.M., R.S. Camargo, J.C. Zanuncio, L.E.P. Stefanelli, C.A.O. De Matos, and L.C. Forti|Contamination Routes and Mortality of the Leaf-Cutting Ant Atta sexdens (Hymenoptera: Formicidae) by the Insecticides Fipronil and Sulfluramid through Social Interactions|Pest Manag. Sci.77:4411-4417|2021|10.1002/ps.6475
187933|T||Morrison,K.E., D. Strahl-Heldreth, and S.C. Clark-Price|Isoflurane, Sevoflurane and Desflurane Use in Cane Toads (Rhinella Marina)|Vet. Rec. Open3(1): 6p.|2016|10.1136/vetreco-2016-000185
187934|T||Botman,J., F. Gabriel, A.H.A. Dugdale, and J.M. Vandeweerd|Anaesthesia with Sevoflurane in Pigeons: Minimal Anaesthetic Concentration (MAC) Determination and Investigation of Cardiorespiratory Variables at 1 MAC|Vet. Rec.178(22): 6 p.|2016|10.1136/vr.103654
187935|T||Breck,S.W., and J.S. Gaynor|Comparison of Isoflurane and Sevoflurane for Anesthesia in Beaver|J. Wildl. Dis.39(2): 387-392|2003|10.7589/0090-3558-39.2.387
187936|T||Campbell,J.L., Q. Gu, D. Guo, and H.A. Nash|Genetic Effects in Drosophila on the Potency of Diverse General Anesthetics: A Distinctive Pattern of Altered Sensitivity|J. Neurogenet.23(4): 412-421|2009|10.3109/01677060903177800
187937|T||Olufs,Z.P.G., C.A. Loewen, B. Ganetzky, D.A. Wassarman, and M. Perouansky|Genetic Variability Affects Absolute and Relative Potencies and Kinetics of the Anesthetics Isoflurane and Sevoflurane in Drosophila melanogaster|Sci. Rep.8:13 p.|2018|10.1038/s41598-018-20720-7
187938|A||Siddiqui,S., M. Fitzwater, J. Scarpa, and J.L. Conkle|Comparison of Bioconcentration and Kinetics of GenX in Tilapia Oreochromis mossambicus in Fresh and Brackish Water|Chemosphere287:9 p.|2022|10.1016/j.chemosphere.2021.132289
187939|A||Onizuka,S., M. Takasaki, and N.I. Syed|Long-Term Exposure to Local but Not Inhalation Anesthetics Affects Neurite Regeneration and Synapse Formation between Identified Lymnaea Neurons|Anesthesiology102(2): 353-363|2005|10.1097/00000542-200502000-00018
187940|A||Naruo,H., S. Onizuka, D. Prince, M. Takasaki, and N.I. Syed|Sevoflurane Blocks Cholinergic Synaptic Transmission Postsynaptically but Does Not Affect Sbort-Term Potentiation|Anesthesiology102(5): 920-928|2005|10.1097/00000542-200505000-00010
187942|T||Sanz Villar,A., and I. Cruz|Medetomidine-Ketamine or Propofol and Sevoflurane for Short Term Surgical Anaesthesia of Chelonian Trachemys scripta elegans. A Comparative Study|J. Am. Assoc. Lab. Anim. Sci.40(3): 240-249|2007|
187943|T||Ronaldson,H.L., P. Monticelli, A.R. Cuff, K.B. Michel, D. D'Ovidio, and C. Adami|Anesthesia and Anesthetic-Related Complications of 8 Elegant-Crested Tinamous (Eudromia elegans) Undergoing Experimental Surgery|J. Avian Med. Surg.34(1): 17-25|2020|10.1647/1082-6742-34.1.17
187944|A||Chen,X., M. Yamakage, Y. Yamada, N. Tohse, and A. Namiki|Inhibitory Effects of Volatile Anesthetics on Currents Produced on Heterologous Expression of KvLQT1 and MinK in Xenopus Oocytes|Vascul. Pharmacol.39(1-2): 33-38|2002|10.1016/S1537-1891(02)00279-3
187945|AT||Chini,E.N.|Signal Transduction in Smooth Muscle: Selected Contribution: Effect of Volatile Anesthetics on cADP-Ribose-Induced Ca2+ Release System|J. Appl. Physiol.91(1): 516-521|2001|10.1152/jappl.2001.91.1.516
187946|T||Fischer,J.A., Z.P.G. Olufs, R.J. Katzenberger, D.A. Wassarman, and M. Perouansky|Anesthetics Influence Mortality in a Drosophila Model of Blunt Trauma with Traumatic Brain Injury|Anesth. Analg.126(6): 1979-1986|2018|10.1213/ANE.0000000000002906
187947|T||Escobar,A., R. Thiesen, S.N. Vitaliano, E.A. Belmonte, K. Werther, N. Nunes, and C.A.A. Valadao|Some Cardiopulmonary Effects of Sevoflurane in Crested Caracara (Caracara plancus)|Vet. Anaesth. Analg.36(5): 436-441|2009|10.1111/j.1467-2995.2009.00481.x
187948|T||Escobar,A., C.A.A. Valadao, R.J. Brosnan, F.N. Flores, M.C.S. Lopes, and F.N. Gava|Cardiopulmonary Effects of Butorphanol in Sevoflurane-Anesthetized Guineafowl (Numida meleagris)|Vet. Anaesth. Analg.41(3): 284-289|2014|10.1111/vaa.12108
187950|T||Scharenbrock,A.R., H.J. Schiffman, Z.P.G. Olufs, D.A. Wassarman, and M. Perouansky|Interactions among Genetic Background, Anesthetic Agent, and Oxygen Concentration Shape Blunt Traumatic Brain Injury Outcomes in Drosophila melanogaster|Int. J. Mol. Sci.21(18): 22 p.|2020|10.3390/ijms21186926
187951|T||Schiffman,H.J., Z.P.G. Olufs, M.R. Lasarev, D.A. Wassarman, and M. Perouansky|Ageing and Genetic Background Influence Anaesthetic Effects in a D. melanogaster Model of Blunt Trauma with Brain Injury|Br. J. Anaesth.125(1): 77-86|2020|10.1016/j.bja.2020.03.029
187952|T||Shan,Z., S. Cai, T. Zhang, L. Kuang, Q. Wang, H. Xiu, J. Wen, H. Gu, and K. Xu|Effects of Sevoflurane on Leucine-Rich Repeat Kinase 2-Associated Drosophila Model of Parkinson's Disease|Mol. Med. Rep.11(3): 2062-2070|2015|10.3892/mmr.2014.2966
187953|T||Gaynor,J.S., J. Wimsatt, C. Mallinckrodt, and D. Biggins|A Comparison of Sevoflurane and Isoflurane for Short-Term Anesthesia in Polecats (Mustela eversmanni)|J. Zoo Wildl. Med.28(3): 274-279|1997|
187954|T||Velasco Gallego,M.L., O. Martin Jurado, and J.M. Hatt|Effects of Isoflurane and Sevoflurane Alone and in Combination with Butorphanol or Medetomidine on the Bispectral Index in Chickens|BMC Vet. Res.17(1): 11p.|2021|10.1186/s12917-021-02895-w
187955|T||Zhang,W., H. Cao, and Y. Liang|Plant Uptake and Soil Fractionation of Five Ether-PFAS in Plant-Soil Systems|Sci. Total Environ.771:8p.|2021|10.1016/j.scitotenv.2020.144805
187956|A||Zhou,M., H. Xia, Y. Xu, N. Xin, J. Liu, and S. Zhang|Anesthetic Action of Volatile Anesthetics by Using Paramecium as a Model|J. Huazhong Univ. Sci. Technol.32(3): 410-414|2012|10.1007/s11596-012-0071-1
187957|A||Weng,Y., L. Yang, P.J. Corringer, and J.M. Sonner|Anesthetic Sensitivity of the Gloeobacter violaceus Proton-Gated Ion Channel|Anesth. Analg.110(1): 59-63|2010|10.1213/ANE.0b013e3181c4bc69
187958|A||Yokoyama,T., K. Minami, Y. Sudo, T. Horishita, J. Ogata, T. Yanagita, and Y. Uezono|Effects of Sevoflurane on Voltage-Gated Sodium Channel NaV1.8, NaV1.7, and NaV1.4 Expressed in Xenopus Oocytes|Can. J. Anesthes.25(4): 609-613|2011|10.1007/s00540-011-1167-7
187959|T||Ferronato,C., S. Carbone, G. Vianello, and L.V. Antisari|Thallium Toxicity in Mediterranean Horticultural Crops (Fragaria vesca L., Mentha pulegium L., Ocimum basilicum L.)|Water Air Soil Pollut.227(10): 10 p.|2016|10.1007/s11270-016-3027-4
187960|A||Hou,L.P., Y. Yang, H. Shu, G.G. Ying, J.L. Zhao, Y.B. Chen, Y.H. Chen, G.Z. Fang, X. Li, and J.S. Liu|Changes in Histopathology, Enzyme Activities, and the Expression of Relevant Genes in Zebrafish (Danio rerio) Following Long-Term Exposure to Environmental Levels of Thallium|Bull. Environ. Contam. Toxicol.99(5): 574-581|2017|10.1007/s00128-017-2176-5
187961|A||Song,J., L. Qiao, L. Ji, B. Ren, Y. Hu, R. Zhao, and Z. Ren|Toxic Responses of Zebrafish (Danio rerio) to Thallium and Deltamethrin Characterized in the Electrocardiogram|Chemosphere212:1085-1094|2018|10.1016/j.chemosphere.2018.09.014
187962|A||Ma,J.C., L.L. Qiao, L.Z. Ji, B.X. Ren, Y.Y. Hu, R.B. Zhao, and Z.M. Ren|The Online Monitoring and Assessment of Thallium Stress Using Oxygen Consumption Rate and Carbon Dioxide Excretion Rate of Zebrafish (Danio rerio)|Chemosphere216:103-109|2019|10.1016/j.chemosphere.2018.10.127
187963|A||Nagel,A.H., C.W. Cuss, G.G. Goss, W. Shotyk, and C.N. Glover|The Effect of Major Ions and Dissolved Organic Matter on Complexation and Toxicity of Dissolved Thallium to Daphnia magna|Environ. Toxicol. Chem.38(11): 2472-2479|2019|10.1002/etc.4557
187964|A||Li,B., J.X. Zhang, J.C. Ma, L.L. Qiao, B.X. Ren, M. Chen, and Z.M. Ren|The Continuous Physiological Changes of Zebrafish (Danio rerio) Based on Metabolism Under Controlled Thallium Stress|Chemosphere240:8 p.|2020|
187965|A||Zhao,R.B., Y.Y. Hu, B. Li, M. Chen, and Z.M. Ren|Potential Effects of Internal Physio-Ecological Changes on the Online Biomonitoring of Water Quality: The Behavior Responses with Circadian Rhythms of Zebrafish (Danio rerio) to Different Chemicals|Chemosphere239:9 p.|2020|10.1016/j.chemosphere.2019.124752
187966|T||Yang,H., G. Liang, B.J. Hawkins, M. Madesh, A. Pierwola, and H. Wei|Inhalational Anesthetics Induce Cell Damage by Disruption of Intracellular Calcium Homeostasis with Different Potencies|Anesthesiology109(2): 243-250|2008|10.1097/ALN.0b013e31817f5c47.
187967|T||Goss,J.R.|The Influence of Ethephon on the Penetration and Translocation of (2,4-Dichlorophenoxy)Acetic Acid in Field Bindweed|Ph.D. Thesis, University of Illinois at Urbana-Champaign, Champaign, IL:142 p.|1978|
187968|A||Zhang,C., D. Li, T. Ge, J. Han, Y. Qi, and D. Huang|2,4-Dichlorophenol Induces Feminization of Zebrafish (Danio rerio) via DNA Methylation|Sci. Total Environ.708:10 p.|2020|
187969|A||Aruoja,V., M. Sihtmae, H.C. Dubourguier, and A. Kahru|Toxicity of 58 Substituted Anilines and Phenols to Algae Pseudokirchneriella subcapitata and Bacteria Vibrio fischeri: Comparison with Published Data and QSARs|Chemosphere84(10): 1310-1320|2011|10.1016/j.chemosphere.2011.05.023
187970|A||Freitas,J.S., L. Girotto, B.V. Goulart, L.D.O.G. Alho, R.C. Gebara, C.C. Montagner, L. Schiesari, and E.L.G. Espindola|Effects of 2,4-D-Based Herbicide (DMA 806) on Sensitivity, Respiration Rates, Energy Reserves and Behavior of Tadpoles|Ecotoxicol. Environ. Saf.182:12 p.|2019|10.1016/j.ecoenv.2019.109446
187971|A||Moutinho,M.F., E.A. De Almeida, E.L.G. Espindola, M.A. Daam, and L. Schiesari|Herbicides Employed in Sugarcane Plantations have Lethal and Sublethal Effects to Larval Boana pardalis (Amphibia, Hylidae)|Ecotoxicology29(7): 1043-1051|2020|10.1007/s10646-020-02226-z
187972|A||Silva,L.C.M., R.A. Moreira, T.J.S. Pinto, A.P. Ogura, M.P.C. Yoshii, L.F.P. Lopes, C.C. Montagner, B.V. Goulart, M.A. D|Acute and Chronic Toxicity of 2,4-D and Fipronil Formulations (Individually and in Mixture) to the Neotropical Cladoceran Ceriodaphnia silvestrii|Ecotoxicology29(9): 1462-1475|2020|10.1007/s10646-020-02275-4
187973|A||Moreira,R.A., O. Rocha, T.J.D.S. Pinto, L.C.M. Da Silva, B.V. Goulart, C.C. Montagner, and E.L.G. Espindola|Life-History Traits Response to Effects of Fish Predation (Kairomones), Fipronil and 2,4-D on Neotropical Cladoceran Ceriodaphnia silvestrii|Arch. Environ. Contam. Toxicol.79(3): 298-309|2020|10.1007/s00244-020-00754-7
187974|A||Pinto,T.J.D.S., R.A. Moreira, L.C.M. Da Silva, M.P.C. Yoshii, B.V. Goulart, P.D. Fraga, C.C. Montagner, M.A. Daam, and |Impact of 2,4-D and Fipronil on the Tropical Midge Chironomus sancticaroli (Diptera: Chironomidae)|Ecotoxicol. Environ. Saf.209:11 p.|2021|10.1016/j.ecoenv.2020.111778
187975|T||Fu,D., S. Zhang, M. Wang, X. Linag, Y. Zhang, C. Zhang, and Y. Xie|Dissipation Behavior, Residue Distribution and Dietary Risk Assessment of Cyromazine, Acetamiprid and Their Mixture in Cowpea and Cowpea Field Soil|J. Sci. Food Agric.100(12): 4540-4548|2020|10.1002/jsfa.10495
187977|T||Li,Y.G., Y.Q. Deng, and B.L. Chen|Sorption of Chlorophenols onto Fruit Cuticles and Potato Periderm|J. Environ. Sci.24(4): 675-681|2012|10.1016/S1001-0742(11)60891-7
187978|T||Bhakray,R.B., S.M. Thakre, S.K. Aherkar, N.S. Satpute, and B.T. Raut|Biosafety of Systemic Insecticides Through Seed Treatment and Stem Smearing to Some Predators|J. Maharashtra Agric. Univ.35(3): 488-489|2010|
187979|T||Ganapathy,T., and R. Karuppiah|Evaluation of New Insecticides for the Management of Whitefly (Bemisia tabaci Genn.), Mungbean Yellow Mosaic Virus (Mymv) and Urdbean Leaf Crinkle Virus (ULCV) Diseases in Mungbean (Vigna radiata (L.) Wilezek)|Indian J. Plant Prot.32(1): 35-38|2004|
187980|T||Breisch,H., J.P. Sarraquigne, and E. Couturie|An Insecticide Effectiveness Screening Method on Hazelnut Weevil (Curculio nucum L. Coleoptera, Curculionidae) for Field and Laboratory Studies|Acta Hortic.845:451-455|2009|10.17660/ActaHortic.2009.845.70
187981|T||Jasmine,R.S., and B. Rajendran|Bio-Efficacy of Insecticides Against Ceratovacuna lanigera Zehntner and Selectivity to Dipha aphidivora Meyrick in Sugarcane|J. Sugarcane Res.1(1): 85-87|2011|
187982|T||Herrick,N., and R. Cloyd|Direct and Indirect Effects of Pesticides and Pesticide Mixtures on the Insidious Flower Bug, Orius insidiosus, Under Laboratory Conditions|IOBC-WPRS Bull.124:99-104|2017|
187983|T||Lazic,S., D. Sunjka, P. Jovanov, N. Grahovac, M. Mojasevic, I. Stojanovic, S. Lazic, D. Sunjka, D. Jovanov, N. Grahovac|Determination of Acetamiprid Residues in Selected Vegetable and Fruit|"Proceedings of the 7th Congress on Plant Protection ""Integrated Plant Protection - a Knowledge-Based Step Towards Sustainable Agriculture, Forestry and Landscape Architecture"". November 24-28, 2014, Zlatibor, Serbia:343-348"|2015|
187984|T||Singh,R.K., R.A. Verma, and D.C. Rajak|Bio-Efficacy of Insecticides Against Mustard Sawfly on Mustard|Ann. Plant Prot. Sci.16(1): 208-209|2008|
187985|T||Soare,L.C., C.M. Dobrescu, L. Burtescu, and A.N. Sutan|Research on the Influence of Two Insecticides on the Gametophyte of Some Leptosporangiate Pteridophytes|An. Stiint. Univ. AI.I. Cuza Iasi Genet. Biol. Mol. (Multiple Languages)59(2): 5-12|2013|
187986|T||Yadav,A., S. Verhaegen, E. Verbruggen, M. Kerhoas, E.H.W. Huiberts, M.G. Hadera, H.F. Berntsen, K.E. Zimmer, E. Ropstad|A Human Relevant Mixture of Persistent Organic Pollutants (POPs) and Perfluorooctane Sulfonic Acid (PFOS) Differentially Affect Glutamate Induced Excitotoxic Responses in Chicken Cerebellum Granule Neurons (CGNs) in Vit|Reprod. Toxicol.100:109-119|2021|10.1016/j.reprotox.2021.01.008
187987|T||Matioli,T.F., M.R. Da Silva, J. De Bastos Pazini, G. Barroso, J.G.A. Vieira, and P.T. Yamamoto|Risk Assessment of Insecticides Used in Tomato to Control Whitefly on the Predator Macrolophus basicornis (Hemiptera: Miridae)|Insects12(12): 14 p.|2021|10.3390/insects12121092
187988|T||Reis,P.R., M.A. Toledo, and F.M.A. Silva|Cyazypyr Selectivity for Three Species of Phytoseiid for Coffee and Other Relevant Agricultural Crops in Brazil|Agric. Sci.5(4): 298-303|2014|10.4236/as.2014.54032
187989|T||Huang,J.M., H. Sun, H. Lin-Feng, C. Liu, G. Wen-Chao, H. Ni, G. Cong-Fen, and W. Shun-Fan|Double Ryanodine Receptor Mutations Confer Higher Diamide Resistance in Rice Stem Borer, Chilo suppressalis|Pest Manag. Sci.77(11): 4971-4979|2021|10.1002/ps.6539
187990|T||Melo,T.L., C.G. Raetano, A.D. Cardoso, A.A. Moreira, S.A. Leite, and M.A. Castellani|Insecticide Application Rate in Coffee Crop: Qualitative and Quantitative Aspects and Efficacy of Leaf Miner Control|Coffee Sci.15(1): 11 p.|2020|10.25186/.v15i.1722
187991|T||Dunn,T.P.S., D.E. Champagne, D.G. Riley, H. Smith, and J.E. Bennett|A Target Site Mutation Associated with Diamide Insecticide Resistance in the Diamondback Moth Plutella xylostella (Lepidoptera: Plutellidae) Is Widespread in South Georgia and Florida Populations|J. Econ. Entomol.115(1): 289-296|2022|10.1093/jee/toab223
187992|T||Sharanabasappa|Biorational Insecticides for the Management of Erionota torus Evans (Hesperiidae: Lepidoptera) on Banana|Pestic. Res. J.29(1): 93-97|2017|
187993|T||Chand,P., R. Vishwakarma, S.K. Mandal, and U. Chandra|Relative Toxicity of Cyazypyr 10% OD and 20% SC, Anthranilic Diamide Against Trichogramma chilonis (Hymenoptera: Trichogrammatidae) Laboratory Conditions|J. Entomol. Zool. Stud.7(9): 69-72|2018|
187994|T||Jiang,J., Y. Wang, W. Mu, and Z. Zhang|Sublethal Effects of Anthranilic Diamide Insecticides on the Demographic Fitness and Consumption Rates of the Coccinella septempunctata (Coleoptera: Coccinellidae) Fed on Aphis craccivora|Environ. Sci. Pollut. Res. Int.27(4): 4178-4189|2020|10.1007/s11356-019-06993-z
187995|T||Bem Junior,L.D., J.L. Ferrari, G. Dario, and C.G. Raetano|Impact of Storage on the Physiological Quality of Soybean Seeds after Treatment with Fungicides and Insecticides|J. Seed Sci.42:10 p.|2020|10.1590/2317-1545v42236236
187996|T||Patel,R.D., T.M. Bharpoda, H.V. Prajapati, N.B. Patel, and P.K. Borad|Cyantraniliprole 10 OD: A Second Generation Anthranilic Diamide Insecticide and Its Safety to Natural Enemies in Cotton Ecosystem|Indian J. Plant Prot.43(3): 290-293|2015|
187998|T||Palma-Bautista,C., H.E. Cruz-Hipolito, R. Alcantara-De La Cruz, J.G. Vazquez-Garcia, M. Yanniccari, and R. De Prado|Comparison of Premix Glyphosate and 2,4-D Formulation and Direct Tank Mixture for Control of Conyza canadensis and Epilobium ciliatum|Environ. Pollut.281:9p.  117013|2021|10.1016/j.envpol.2021.117013
187999|T||Harbour,J.D.|Surfactant and Drift Retardant Effects on Herbicide Retention and Efficacy|Ph.D. Thesis, North Dakota State University, Fargo, ND:166 p.|1997|
188000|T||McCarty,M.K., and C.J. Scifres|Western Whorled Milkweed and Its Control|Nebr. Agric. Exp. Stn.16(1): 4-7|1968|
188001|T||Quimado,M.O., and R.A. Avenido|Comparative Histology of Embryogenic Cell and Somatic Embryo Initiation in Callus Cultures of Mungbean Vigna radiata (L.) Wilczek , Pole Sitao V.unguiculata (L.) Walp. Var. Sesquipedalis (L.) Koern. and Mothbean V.aconi|Philipp. Agric. Sci.89(3): 227-237|2006|
188002|T||Wicks,G.A., C.R. Fenster, and O.C. Burnside|Selective Control of Plains Pricklypear in Rangeland with Herbicides|Nebr. Agric. Exp. Stn.17(4): 408-411|1969|
188003|T||Renkema,H., A. Koopmans, B. Hale, and E. Berkelaar|Thallium and Potassium Uptake Kinetics and Competition Differ Between Durum Wheat and Canola|Environ. Sci. Pollut. Res.22(3): 2166-2174|2015|10.1007/s11356-014-3490-7
188004|T||Abbaszadeh,G.|Efficacy of Different Insecticides Against Dubas Bug, Ommatissus lybicus (Deberg) Aschae and Wilson|Ann. Plant Prot. Sci.22(2): 240-243|2014|
188005|T||Heim,M., O. Wappelhorst, and B. Markert|Thallium in Terrestrial Environments - Occurrence and Effects|Ecotoxicology11(5): 369-377|2002|10.1023/A:1020513523462
188006|T||Vanek,A., O. Holubik, V. Oborna, M. Mihaljevic, J. Trubac, V. Ettler, L. Pavlu, P. Vokurkova, V. Penizek, T. Zadorova, |Thallium Stable Isotope Fractionation in White Mustard: Implications for Metal Transfers and Incorporation in Plants|J. Hazard. Mater.369:521-527|2019|10.1016/j.jhazmat.2019.02.060
188007|T||Wierzbicka,M., M. Pielichowska, A. Abratowska, B. Wilkomirski, I. Wysocka, D. Panufnik-Medrzycka, and E. Bulska|Thallium Hyperaccumulation in Polish Populations of Biscutella laevigata (Brassicaceae)|Acta Biol. Crac., Ser. Bot. 58(2): 7-19|2017|10.1515/abcsb-2016-0012
188009|A||Shvinka,N.E., and F.V. Toropova|Effect of Gramicidin A and Thallium Ions on Cation Effluxes In Frog Sartorius Muscle|Gen. Physiol. Biophys.4(5): 493-500|1985|
188010|T||Kim,D.J., B.C. Park, B.K. Ahn, and J.H. Lee|Thallium Uptake and Translocation in Barley and Sunflower Grown in Hydroponic Conditions|Int. J. Environ. Res.10(4): 575-582|2016|
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188012|AT||Ramborger,B.P., M.E.G. Paz, K.M.C. Kieling, M.R.S. Carrico, G.D. Gollino, M.T. Costa, V.B. Ribeiro, V. Folmer, E.L.G. D|Toxicological Parameters of Aqueous Residue after Using Plectranthus neochilus for 2,4-D Phytoremediation|Chemosphere270:10 p.|2021|10.1016/j.chemosphere.2020.128638
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188016|T||Kamimuro,T., S. Higashitarumizu, T. Fukuda, H. Suenaga, and M. Nomura|Effects of Direct or Indirect Treatment with Insecticides on Adult Tea Leafroller, Caloptilia theivora (Lepidoptera: Gracillariidae), and Its Progeny|Appl. Entomol. Zool.54(4): 377-387|2019|10.1007/s13355-019-00634-0
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188022|T||Yadav,D.S., A.S. Kamte, and R.S. Jadhav|Evaluation of Cyantraniliprole for Thrips and Red Spider Mite Management in Table Grapes|Pestic. Res. J.24(2): 217-222|2012|
188023|T||Dale,A.G., and M.A. Borden|Evaluation of Reduced-Risk Insecticides to Control Chilli Thrips (Thysanoptera: Thripidae) and Conserve Natural Enemies on Ornamental Plants|Fla. Entomol.101(2): 237-243|2018|10.1653/024.101.0213
188024|T||Abbes,K., A. Biondi, A. Kurtulus, M. Ricupero, A. Russo, G. Siscaro, B. Chermiti, and L. Zappala|Combined Non-Target Effects of Insecticide and High Temperature on the Parasitoid Bracon nigricans|PLoS One10(9): 14 p.|2015|10.1371/journal.pone.0138411
188025|T||Amarasekare,K.G., and P.W. Shearer|Comparing Effects of Insecticides on Two Green Lacewings Species, Chrysoperla johnsoni and Chrysoperla carnea (Neuroptera: Chrysopidae)|J. Econ. Entomol.106(3): 1126-1133|2013|10.1603/EC12483
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188027|T||Anderson,J.J., S.W. Bookhart III, J.M. Clark, K.M. Jernberg, C.K. Kingston, N. Snyder, K. Wallick, and L.J. Watson|Uptake of Cyantraniliprole into Tomato Fruit and Foliage under Hydroponic Conditions: Application to Calibration of a Plant/Soil Uptake Model|J. Agric. Food Chem.61(38): 9027-9035|2013|10.1021/jf4025757
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188029|T||Mundy-Heisz,K.A., R.S. Prosser, and N.E. Raine|Acute Oral Toxicity and Risks of Four Classes of Systemic Insecticide to the Common Eastern Bumblebee (Bombus impatiens)|Chemosphere295:13 p.|2022|10.1016/j.chemosphere.2022.133771
188030|T||Tiwari,S., and L.L. Stelinski|Effects of Cyantraniliprole, a Novel Anthranilic Diamide Insecticide, against Asian Citrus Psyllid under Laboratory and Field Conditions|Pest Manag. Sci.69(9): 1066-1072|2013|10.1002/ps.3468
188031|T||Cai,P., Y. Song, D Huo, J. Lin, H. Zhang, Z. Zhang, C. Xiao, F. Huang, and Q. Ji|Chemical Cues Induced from Fly-Oviposition Mediate the Host-Seeking Behaviour of Fopius arisanus (Hymenoptera: Braconidae), an Effective Egg Parasitoid of Bactrocera dorsalis (Diptera: Tephritidae), Within a Tritrophic |Insects11(4): 1-14|2020|10.3390/insects11040231
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188033|T||Cloyd,R.A., and N.J. Herrick|Effects of Pesticides on the Survival of Rove Beetle (Coleoptera: Staphylinidae) and Insidious Flower Bug (Hemiptera: Anthocoridae) Adults|J. Econ. Entomol.111(1): 78-88|2018|10.1093/jee/tox280
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188035|T||Qiao,Z., F. Zhang, X. Yao, H. Yu, S. Sun, X. Li, J. Zhang, and X. Jiang|Growth, DNA Damage and Biochemical Toxicity of Cyantraniliprole in Earthworms (Eisenia fetida)|Chemosphere236:10 p.|2019|
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188098|T||Robinson,G.A., D.C. Wasnidge, and F. Floto|Accumulation and Distribution of Ions of Group-IIIA Elements in the Tissues and Eggs of the Japanese Quail|Poult. Sci.69(2): 300-306|1990|10.3382/ps.0690300
188099|A||Li,Y., R. Chen, J. He, H. Ma, F. Zhao, S. Tao, J. Liu, and J. Hu|Triphenyl Phosphate at Environmental Levels Retarded Ovary Development and Reduced Egg Production in Japanese Medaka (Oryzias latipes)|Environ. Sci. Technol.53(24): 14709-14715|2019|10.1021/acs.est.9b05669
188100|T||Hille,B.|The Permeability of the Sodium Channel to Metal Cations in Myelinated Nerve|J. Gen. Plant Pathol.59(6): 637-658|1972|10.1085/jgp.59.6.637
188101|A||Chepilko,S., H. Zhou, H. Sackin, and L.G. Palmer|Permeation and Gating Properties of a Cloned Renal K+ Channel|Am. J. Physiol. Cell Physiol.268(2): 389-401|1995|10.1152/ajpcell.1995.268.2.C389
188102|A||Chen,R., R. Hou, X. Hong, S. Yan, and J. Zha|Organophosphate Flame Retardants (OPFRs) Induce Genotoxicity In Vivo: A Survey on Apoptosis, DNA Methylation, DNA Oxidative Damage, Liver Metabolites, and Transcriptomics|Environ. Int.130:9 p.|2019|10.1016/j.envint.2019.104914
188103|T||Bergquist,J.E., A. Edstrom, and P.A. Hansson|Bidirectional Axonal-Transport of Thallium in Frog Sciatic-Nerve|Acta Physiol. Scand.117(4): 513-518|1983|10.1111/j.1748-1716.1983.tb07220.x
188104|T||Leblanc,M., D. Petit, A. Deram, B.H. Robinson, and R.R. Brooks|The Phytomining and Environmental Significance of Hyperaccumulation of Thallium by Iberis intermedia from Southern France|Econ. Geol.94(1): 109-113|1999|10.2113/gsecongeo.94.1.109
188105|A||Van Losenoord,W., J. Krause, S. Parker-Nance, R. Krause, S. Stoychev, and C.L. Frost|Purification and Biochemical Characterisation of a Putative Sodium Channel Agonist Secreted from the South African Knobbly Sea Anemone Bunodosoma capense|Toxicon168:147-157|2019|10.1016/j.toxicon.2019.06.222
188106|A||Landowne,D.|Comparison of Radioactive Thallium and Potassium Fluxes in Giant Axon of Squid|J. Physiol. (Lond.)252(1): 79-96|1975|10.1113/jphysiol.1975.sp011135
188107|T||Kowalska,J., K. Kinska, M. Sadowska, M. Biesaga, and B. Krasnodebska-Ostrega|The Role of Phytochelatins in Sinapis alba L. Response to Stress Caused by Two Toxic Elements As and Tl|Int. J. Environ. Anal. Chem.95(12): 1148-1156|2015|10.1080/03067319.2015.1085527
188108|A||Labro,J., T. Craig, S.A. Wood, and M.A. Packer|Demonstration of the Use of a Photosynthetic Microbial Fuel Cell as an Environmental Biosensor|Int. J. Nanotechnol.14(1-6): 213-225|2017|10.1504/IJNT.2017.082467
188109|T||Harskamp,J.G., M.J. O'Donnell, and E. Berkelaar|Determining the Fluxes of Tl+ And K+ at the Root Surface of Wheat and Canola Using Tl(I) and K Ion-Selective Microelectrodes|Plant Soil335(1): 299-310|2010|10.1007/s11104-010-0416-0
188110|T||Jouraku,A., S. Kuwazaki, K. Miyamoto, M. Uchiyama, T. Kurokawa, E. Mori, M.X. Mori, Y. Mori, and S. Sonoda|Ryanodine Receptor Mutations (G4946E and I4790K) Differentially Responsible for Diamide Insecticide Resistance in Diamondback Moth, Plutella xylostella L.|Insect Biochem. Mol. Biol.118:12p.|2020|10.1016/j.ibmb.2019.103308
188111|A||Zeng,Y.Y., Z.N. Lai, W.L. Yang, C. Wang, H.Y. Li, and Y. Gao|Thallium Acute Toxicity to Aquatic Organisms from the Pearl River (China) and the Preliminary Implication for Water Quality Criteria|Fresenius Environ. Bull.28(12): 9849-9858|2019|
188112|T||Koefoed,B.M.|Cryptonephridial System in Mealworm Tenebrio-molitor - Transport of Radioactive Potassium, Thallium and Sodium - A Functional and Structural Study|Cell Tissue Res.165(1): 63-78|1975|10.1007/BF00222800
188113|A||Hagiwara,S., S. Miyazaki, S. Krasne, and S. Ciani|Anomalous Permeabilities of the Egg Cell Membrane of a Starfish in K+-Tl+ Mixtures|J. Gen. Plant Pathol.70(3): 269-281|1977|10.1085/jgp.70.3.269
188114|A||Li,M.H.|Survival, Mobility, and Membrane-Bound Enzyme Activities of Freshwater Planarian, Dugesia japonica, Exposed to Synthetic and Natural Surfactants|Environ. Toxicol. Chem.31(4): 843-850|2012|10.1002/etc.1748
188115|A||Lavorgna,M., C. Russo, B. D'Abrosca, A. Parrella, and M. Isidori|Toxicity and Genotoxicity of the Quaternary Ammonium Compound Benzalkonium Chloride (BAC) Using Daphnia magna and Ceriodaphnia dubia as Model Systems|Environ. Pollut.210:34-39|2016|10.1016/j.envpol.2015.11.042
188116|A||Carbajo,J.B., J.A. Perdigon-Melon, A.L. Petre, R. Rosal, P. Leton, and E. Garcia-Calvo|Personal Care Product Preservatives: Risk Assessment and Mixture Toxicities with an Industrial Wastewater|Water Res.72:174-185|2015|10.1016/j.watres.2014.12.040
188117|A||Castro,B.B., A.R. Freches, M. Rodrigues, B. Nunes, and S.C. Antunes|Transgenerational Effects of Toxicants: An Extension of the Daphnia 21-Day Chronic Assay?|Arch. Environ. Contam. Toxicol.74(4): 616-626|2018|10.1007/s00244-018-0507-0
188118|AT||Sreevidya,V.S., K.A. Lenz, K.R. Svoboda, and H.B. Ma|Benzalkonium Chloride, Benzethonium Chloride, and Chloroxylenol - Three Replacement Antimicrobials are More Toxic than Triclosan and Triclocarban in Two Model Organisms|Environ. Pollut.235:814-824|2018|10.1016/j.envpol.2017.12.108
188119|A||Garcia,M.T., I. Ribosa, R.T. Guindulain, J. Sanchez-Leal, and J. Vives-Rego|Fate and Effect of Monoalkyl Quaternary Ammonium Surfactants in the Aquatic Environment|Environ. Pollut.111(1): 169-175|2001|10.1016/S0269-7491(99)00322-X
188120|A||Sherstobitov,A.O., A.V. Lapin, and V.V. Glazunov|Transport of Monovalent Thallium in Oocytes of the Lamprey Lampetra fluviatilis|J. Evol. Biochem. Physiol.39(3): 387-388|2003|10.1023/A:1026164329277
188121|A||Buravlev,E.P., L.A. Sirenko, P.E. Strizhak, and N.N. Smirnova|Test Reactions for the Primary Evaluation of Biological-Activities of Several Metals and Radionuclides|Russ. J. Plant Physiol.41(2): 262-266|1994|
188122|A||Gupta,A., and G.S. Singhal|Changes in Ultrastructure and Inhibition of Electron Transport Activity Induced by Thallium in Nostoc muscorum|Photosynthetica (Praha)32(3): 393-398|1996|
188123|T||Krasnodebska-Ostrega,B., M. Asztemborska, J. Golimowski, and K. Strusinska|Determination of Thallium Forms in Plant Extracts by Anion Exchange Chromatography with Inductively Coupled Plasma Mass Spectrometry Detection (IC-ICP-MS)|J. Anal. At. Spectrom.23(12): 1632-1635|2008|10.1039/b804456b
188124|A||Sherstobitov,A.O., A.A. Lapin, V.V. Glazunov, and A.A. Nikiforov|Transport of Monovalent Thallium Across the Membrane of Oocyte of the Lamprey Lampetra fluviatilis|J. Evol. Biochem. Physiol.46(3): 235-240|2010|10.1134/S0022093010030026
188125|A||Skul'Skii,I.A., V.V. Glazunov, A.Y. Zesenko, and A.A. Lyubimov|Accumulation of Tl+ Ions in the Cells of the Black Sea Alga Ulva rigida|Biophysics (Oxf.)17(5): 863-871|1972|
188126|A||Comakli,V., E. Akkemik, M. Ciftci, and O.I. Kufrevioglu|Purification and Characterization of Glucose 6-Phosphate Dehydrogenase Enzyme from Rainbow Trout (Oncorhynchus mykiss) Liver and Investigation of the Effects of Some Metal Ions on Enzyme Activity|Toxicol. Ind. Health31(5): 403-411|2015|10.1177/0748233713475514
188127|T||Holubik,O., A. Vanek, M. Mihaljevic, and K. Vejvodova|Thallium Uptake/Tolerance in a Model (Hyper)Accumulating Plant: Effect of Extreme Contaminant Loads|Soil Water Res.16(2): 129-135|2021|10.17221/167/2020-SWR
188128|T||Redhead,T.D., and I.W. Saunders|Evaluation of Thallium Sulfate Baits Against Rats in Queensland (Australia) Sugar-Cane Fields Adjacent to Different Vegetation Types|Prot. Ecol.2(1): 1-19|1980|
188129|T||Naheed,G., and J.A. Khan|"""Poison Shyness"" and ""Bait Shyness"" Developed by Wild Rats (Rattus-rattus L). IV. Effect of Poisoning with Thallous Sulfate"|Appl. Anim. Behav. Sci.26:49-56|1990|10.1016/0168-1591(90)90086-S
188130|A||Lynch,N.R., T.C. Hoang, and T.E. O'Brien|Acute Toxicity of Binary-Metal Mixtures of Copper, Zinc, and Nickel to Pimephales promelas:  Evidence of More-than-Additive Effect|Environ. Toxicol. Chem.35(2): 446-457|2016|10.1002/etc.3204
188131|A||Naddy,R.B., A.S. Cohen, and W.A. Stubblefield|The Interactive Toxicity of Cadmium, Copper, and Zinc to Ceriodaphnia dubia and Rainbow Trout (Oncorhynchus mykiss)|Environ. Toxicol. Chem.34(4): 809-815|2015|10.1002/etc.2870
188132|T||Kitchens,S.C., J. Dahlen, and T.E. Johnson|Reducing Susceptibility of Heat-Treated Sweetgum and Pine to Mold Colonization by Incorporating Traditional Biocides|Wood Fiber Sci.46(4): 539-546|2014|
188133|T||Grobela,M.|Differences in the Uptake of Mn, Zn, and Cu by Hordeum vulgare L. Following Applications of MCPA-Based Herbicides and Their Ionic Liquid Forms|Pol. J. Environ. Stud.25:1931-1936|2016|10.15244/pjoes/62761
188134|AT||Sanmartin,P., and R. Carballeira|Changes in Heterotrophic Microbial Communities Induced by Biocidal Treatments in the Monastery of San Martino Pinario (Santiago de Compostela, NW Spain)|Int. Biodeterior. Biodegrad.156:11 p.|2021|10.1016/j.ibiod.2020.105130
188135|T||Terzi,E., C. Tascioglu, N. Kartal, and T. Yoshimura|Termite Resistance of Solid Wood and Plywood Treated with Quaternary Ammonia Compounds and Common Fire Retardants|Int. Biodeterior. Biodegrad.65(3): 565-568|2011|10.1016/j.ibiod.2010.10.014
188136|T||Terzi,E., S.N. Kartal, R.H. White, K. Shinoda, and Y. Imamura|Fire Performance and Decay Resistance of Solid Wood and Plywood Treated with Quaternary Ammonia Compounds and Common Fire Retardants|Eur. J. Wood Wood Prod.69(1): 41-51|2011|10.1007/s00107-009-0395-0
188137|T||Ursache,A.L., V. Mircean, M. Dumitrache, S. Andrei, L. Stefanut, V. Cozma, R. Catana, and M. Cernea|Is Routine Disinfection Efficient in Preventing Contamination with Toxocara canis Eggs?|J. Helminthol.94:4 p.|2020|10.1017/S0022149X1900052X
188138|A||Thomas,D.G., H. Shankaran, L. Truong, R.L. Tanguay, and K.M. Waters|Time-Dependent Behavioral Data from Zebrafish Reveals Novel Signatures of Chemical Toxicity Using Point of Departure Analysis|Comput. Toxicol.9:50-60|2019|10.1016/j.comtox.2018.11.001
188139|A||Van Slooten,C., L. Peperzak, and A.G.J. Buma|Assessment of Didecyldimethylammonium Chloride as a Ballast Water Treatment Method|Environ. Technol.36(4): 435-449|2015|10.1080/09593330.2014.951401
188140|T||Whitaker,C., P. Berjak, H. Kolberg, and N.W. Pammenter|Responses to Various Manipulations, and Storage Potential, of Seeds of the Unique Desert Gymnosperm, Welwitschia mirabilis Hook. Fil|S. Afr. J. Bot.70(4): 622-630|2004|10.1016/S0254-6299(15)30201-5
188141|T||Hwang,W.J., S.N. Kartal, T. Yoshimura, and Y. Imamura|Synergistic Effect of Heartwood Extractives and Quaternary Ammonium Compounds on Termite Resistance of Treated Wood|Pest Manag. Sci.63(1): 90-95|2007|10.1002/ps.1294
188142|T||Baysal-Gurel,F., R. Bika, C. Jennings, C. Palmer, and T. Simmons|Comparative Performance of Chemical and Biological-Based Products in Management of Algal Leaf Spot on Magnolia|HortTechnology30(6): 733-740|2020|10.21273/HORTTECH04692-20
188143|T||Bika,R., W. Copes, and F. Baysal-Gurel|Comparative Performance of Sanitizers in Managing Plant-to-Plant Transfer and Postharvest Infection of Calonectria pseudonaviculata and Pseudonectria foliicola on Boxwood|Plant Dis.105(10): 2809-2821|2021|10.1094/PDIS-03-21-0481-RE
188144|T||Eller,F.J., M.E. Mankowski, G.T. Kirker, and G.W. Selling|Effects of Loblolly Pine Extract, Primary and Quaternary Alkyl Ammonium Chlorides Combined with Burgundy Oil from Eastern Red Cedar Against Subterranean Termites and Wood-Decay Fungi|Bioresources16(1): 893-910|2021|10.15376/biores.16.1.893-910
188145|T||Huang,Y., W. Wang, and J. Cao|Boron Fixation Effect of Quaternary Ammonium Compounds (QACs) on Sodium Fluoroborate (NaBF4)-Treated Wood|Holzforschung72(8): 711-718|2018|10.1515/hf-2017-0201
188146|T||Hughes,M.A., J.J. Morrell, J. Cappellazzi, B. Mackey, J. Juzwik, and L.M. Keith|Borate and Quaternary Ammonia Dip Diffusion to Treat Fungal Pathogens of Metrosideros Polymorpha Wood|For. Prod. J.71(1): 20-26|2021|10.13073/FPJ-D-20-00068
188147|T||Hwang,W.J., S.N. Kartal, and Y. Imamura|Evaluation of New Quaternary Ammonium Compound, Didecyldimethylammonium Tetrafluoroborate (DBF) in Comparison with DDAC: Leachability and Termite Resistance Tests|Eur. J. Wood Wood Prod.64(2): 111-116|2006|10.1007/s00107-005-0049-9
188148|T||Hwang,W.J., T. Yoshimura, K. Tsunoda, and Y. Imamura|Efficacy of Two Alkylammonium Compounds in Controlling the Attack on Wood by Western Drywood Termite, Incisitermes minor (Isoptera: Kalotermitidae)|Sociobiology48(2): 471-478|2006|
188149|T||Hwang,W.J., S.N. Kartal, Y. Imamura, K. Tsunoda, and K. Shinoda|Comparative Effectiveness of Two Alkylammonium Compounds as Wood Preservatives|J. Wood Sci.53(4): 332-338|2007|10.1007/s10086-006-0857-5
188151|A||Zhang,X., Q. Zhou, X. Li, W. Zou, and X. Hu|Integrating Omics and Traditional Analyses to Profile the Synergistic Toxicity of Graphene Oxide and Triphenyl Phosphate|Environ. Pollut.263(A): 11 p.|2020|10.1016/j.envpol.2020114473
188152|A||Traudt,E.M., J.F. Ranville, and J.S. Meyer|Effect of Age on Acute Toxicity of Cadmium, Copper, Nickel, and Zinc in Individual-Metal Exposures to Daphnia magna Neonates|Environ. Toxicol. Chem.36(1): 113-119|2017|10.1002/etc.3507
188153|A||Van Regenmortel,T., O. Berteloot, C.R. Janssen, and K.A.C. De Schamphelaere|Analyzing the Capacity of the Daphnia magna and Pseudokirchneriella subcapitata Bioavailability Models to Predict Chronic Zinc Toxicity at High pH and Low Calcium Concentrations and Formulation of a Generalized Bioavail|Environ. Toxicol. Chem.36(10): 2781-2798|2017|10.1002/etc.3840
188154|A||Calfee,R.D., E.E. Little, H.J. Puglis, E. Scott, W.G. Brumbaugh, and C.A. Mebane|Acute Sensitivity of White Sturgeon (Acipenser transmontanus) and Rainbow Trout (Oncorhynchus mykiss) to Copper, Cadmium, or Zinc in Water-Only Laboratory Exposures|Environ. Toxicol. Chem.33(10): 2259-2272|2014|10.1002/etc.2684
188155|T||Misra,S., A. Singh, C.H. Ratnasekhar, V. Sharma, M.K.R. Mudiam, and K.R. Ram|Identification of Drosophila-Based Endpoints for the Assessment and Understanding of Xenobiotic-Mediated Male Reproductive Adversities|Toxicol. Sci.141(1): 278-291|2014|10.1093/toxsci/kfu125
188156|A||Jeanjean,R.|The Effect of Metabolic Poisons on ATP Level and on Active Phosphate Uptake in Chlorella pyrenoidosa|Physiol. Plant. (Multiple Languages)37(2): 107-110|1976|10.1111/j.1399-3054.1976.tb03941.x
188157|A||Statham,C.N., and J.J. Lech|Studies on Mechanism of Potentiation of Acute Toxicity of 2,4-D n-Butyl Ester and 2',5-Dichloro-4'-Nitrosalicylanilide in Rainbow Trout by Carbaryl|Toxicol. Appl. Pharmacol.36(2): 281-296|1976|10.1016/0041-008X(76)90007-7
188158|A||Lammer,E., H.G. Kamp, V. Hisgen, M. Koch, D. Reinhard, E.R. Salinas, K. Wendler, S. Zok, and T. Braunbeck|Development of a Flow-through System for the Fish Embryo Toxicity Test (FET) with the Zebrafish (Danio rerio)|Toxicol. In Vitro23(7): 1436-1442|2009|10.1016/j.tiv.2009.05.014
188159|A||Stengel,D., S. Wahby, and T. Braunbeck|In Search of a Comprehensible Set of Endpoints for the Routine Monitoring of Neurotoxicity in Vertebrates: Sensory Perception and Nerve Transmission in Zebrafish (Danio rerio) Embryos|Environ. Sci. Pollut. Res. Int.25(5): 4066-4084|2018|10.1007/s11356-017-0399-y
188161|A||Zhang,C., D. Li, T. Ge, J. Han, Y. Qi, and D. Huang|2,4-Dichlorophenol Induces Feminization of Zebrafish (Danio rerio) via DNA Methylation|Sci. Total Environ.708:10 p.|2020|10.1016/j.scitotenv.2019.135084
188162|A||Zhang,Y., M. Liu, J. Liu, X. Wang, C. Wang, W. Ai, S. Chen, and H. Wang|Combined Toxicity of Triclosan, 2,4-Dichlorophenol and 2,4,6-Trichlorophenol to Zebrafish (Danio rerio)|Environ. Toxicol. Pharmacol.57:9-18|2018|10.1016/j.etap.2017.11.006
188164|A||Isik,S., F. Kockar, O. Ozensoy, and O. Arslan|Differential in Vitro Effects of Some Pesticides on Carbonic Anhydrase Activities from Some Freshwater and Seawater Fish Erythrocytes|Fresenius Environ. Bull.13(1): 25-29|2004|
188166|A||Rogers,S.M.D.|Special Symposium:  Applications of In Vitro Culture for Habitat Restoration Tissue Culture and Wetland Establishment of the Freshwater Monocots Carex, Juncus, Scirpus, and Typha|In Vitro Cell. Dev. Biol.39(1): 1-5|2003|10.1079/IVP2002358
188167|A||Huang,D., X. Zhang, C. Zhang, H. Li, D. Li, Y. Hu, F. Yang, and Y. Qi|2,4-Dichlorophenol Induces DNA Damage Through ROS Accumulation and GSH Depletion in Goldfish Carassius auratus|Environ. Mol. Mutagen.59(9): 798-804|2018|10.1002/em.22209
188168|A||Zhang,J.F., H. Liu, Y.Y. Sun, X.R. Wang, J.C. Wu, and Y.Q. Xue|Responses of the Antioxidant Defenses of the Goldfish Carassius auratus, Exposed to 2,4-Dichlorophenol|Environ. Toxicol. Pharmacol.19(1): 185-190|2005|10.1016/j.etap.2004.07.001
188169|A||Qian,Y., Y. He, H. Li, M. Yi, L. Zhang, L.J. Zhang, L. Liu, and Z. Lu|Benzalkonium Chlorides (C12) Inhibits Growth but Motivates Microcystins Release of Microcystis aeruginosa Revealed by Morphological, Physiological, and Itraq Investigation|Environ. Pollut.292:9p.   118305|2022|10.1016/j.envpol.2021.118305
188170|T||Chowdhury,M.I., T. Sana, L. Panneerselvan, A.K. Sivaram, and M. Megharaj|Perfluorooctane Sulfonate (PFOS) Induces Several Behavioural Defects in Caenorhabditis elegans that can also be Transferred to the Next Generations|Chemosphere291:9 p.|2022|10.1016/j.chemosphere.2021.132896
188171|A||Tsukazawa,K.S., L. Li, and W.K.F. Tse|2,4-Dichlorophenol Exposure Induces Lipid Accumulation and Reactive Oxygen Species Formation in Zebrafish Embryos|Ecotoxicol. Environ. Saf.230:7 p.|2022|10.1016/j.ecoenv.2021.113133
188172|A||Kaila,K., E. Heinonen, and K.E.O. Akerman|Facilitation of Transmission at the Crayfish Neuromuscular Synapse by a Convulsant Phenol|Acta Physiol. Scand.122(4): 599-605|1984|10.1111/j.1748-1716.1984.tb07549.x
188173|A||Ozok,N., and A.R. Oguz|Effects of 4-Chlorophenoxy Acetic Acid on Oxidative Stress and Antioxidant Enzymes in Primary Hepatocyte Cell Culture in Lake Van Fish (Alburnus tarichi Guldenstadt 1814)|Fresenius Environ. Bull.29(2): 1200-1205|2020|
188174|A||Alishahi,M., and Z. Tulaby Dezfuly|Comparative Toxicities of Five Herbicides on Nauplii of Artemia franciscana as an Ecotoxicity Bioindicator|Iran. J. Fish. Sci.18(4): 716-726|2019|10.22092/ijfs.2019.118284
188175|A||Vijay,A.K., S. Prabha, J.S. Kurian, and B. George|Effect of Auxin and Its Synthetic Analogues on the Biomass Production and Biochemical Composition of Freshwater Microalga Ankistrodesmus falcatus CMSACR1001|J. Appl. Phycol.32(6): 3787-3797|2020|10.1007/s10811-020-02247-5
188176|T||Beets,J., D. Jones, M.D. Netherland, C. Prince, and J. Leary|The Suppressive Effects of Aquatic Foliar Herbicide Prescriptions on Nontarget Panicgrass (Paspalidium geminatum)|J. Aquat. Plant Manag.58:112-117|2020|
188177|A||Benli,A.C.K., D. Sahin, M. Selvi, R. Sarikaya, B.K. Memmi, and A.S. Dincel|The Sublethal Effects of (2,4-Dichlorophenoxy) Acetic Acid (2,4-D) on Narrow-Clawed Crayfish (Astacus leptodactylus Eschscholtz, 1823)|Arh. Hig. Rada Toksikol.67(4): 289-296|2016|10.1515/aiht-2016-67-2793
188178|A||Bernardi,F., J.R. Lirola, M.M. Cestari, and R.A. Bombardelli|Effects on Reproductive, Biochemical and Genotoxic Parameters of Herbicides 2,4-D and Glyphosate in Silver Catfish (Rhamdia quelen)|Environ. Toxicol. Pharmacol.89:10 p.|2022|10.1016/j.etap.2021.103787
188179|A||Buggeln,R.G.|Auxin, an Endogenous Regulator of Growth in Algae|J. Phycol.12(3): 355-358|1976|10.1111/j.1529-8817.1976.tb02856.x
188180|T||Cammareri,M., Errico, E. Filippone, Esposito, and C. Conicella|Induction of Variability in Chimeric Aster Cordifolius 'White Elegans' Through Somaclonal Variation|Euphytica 128(1): 19-25|2002|10.1023/A:1020692916980
188181|T||El-Antably,H.M.M., S.S. Ahmed, and M.N.A. Eid|Effects of Some Growth Hormones on Plant Vigor and Volatile Oil of Origanum majorana L|Pharmazie30(6): 400-401|1975|
188182|A||Green,R.M., and A.A. Abdelghani|Toxicity of a Mixture of 2,4-Dichlorophenoxyacetic Acid and Monosoduim Methanearsonate to the Red Swamp Crawfish, Procambarus clarkii|Int. J. Environ. Res. Public Health1(1): 35-38|2004|10.3390/ijerph2004010035
188183|A||Hamdi,Y.A., A.S. Elnawawy, and M.S. Tewfik|Effect of Herbicides on Growth and Nitrogen-Fixation of Alga, Tolypothrix tenuis|Acta Microbiol. Pol.2(1): 53-55|1970|
188184|T||Kouri,G., and G. Theophilidis|The Action of the Herbicide 2,4-Dichlorophenoxyacetic Acid on the Isolated Sciatic Nerve of the Frog (Rana ridibunda)|Neurotox. Res.4(1): 25-32|2002|10.1080/10298420290007592
188185|A||Kubrak,O.I., T.M. Atamaniuk, K.B. Storey, and V.I. Lushchak|Goldfish Can Recover after Short-Term Exposure to 2,4-Dichlorophenoxyacetate: Use of Blood Parameters as Vital Biomarkers|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.157:259-265|2013|10.1016/j.cbpc.2012.12.005
188186|T||Kuehne,L.M., A.K. Adey, T.M. Brownlee, and J.D. Olden|Field-Based Comparison of Herbicides for Control of Parrotfeather (Myriophyllum aquaticum)|J. Aquat. Plant Manag.56:18-23|2018|
188187|A||LeBlanc,G.A., B. Hilgenberg, and B.J. Cochrane|Relationships Between Structures of Chlorinated Phenols, Their Toxicity, and Their Ability to Induce Glutathione S-Transferase Activity in Daphnia magna|Aquat. Toxicol.12(2): 147-156|1988|10.1016/0166-445X(88)90032-X
188188|A||Menezes,C., M.B. Fonseca, J. Leitemperger, A. Pretto, B.S. Moraes, C.R. Murussi, B. Baldisserotto, and V.L. Loro|Commercial Formulation Containing 2,4-D Affects Biochemical Parameters and Morphological Indices of Silver Catfish Exposed for 90 Days|Fish Physiol. Biochem.41(2): 323-330|2015|10.1007/s10695-014-9985-9
188189|AT||Neogy,B.P., P. Kachroo, and K. Biswas|Aquatic Vegetation of Bokaro Reservoir in Relation to Anopheline Mosquito Larvae and Its Control by Application of Herbicides|Indian J. Malariol.11(2): 191-212|1957|
188190|A||Robles,W., J.D. Madsen, and R.M. Wersal|Herbicide Efficacy Assessment on Waterhyacinth and Aquatic Plant Community Monitoring in Lake Columbus, Mississippi|J. Aquat. Plant Manag.49(2): 89-93|2011|
188191|A||Czerpak,R., and A. Bajguz|Stimulatory Effect of Auxins and Cytokinins on Carotenes, with Differential Effects on Xanthophylls in the Green Alga Chlorella pyrenoidosa Chick|Acta Soc. Bot. Pol.66(1): 41-46|1997|10.5586/asbp.1997.006
188192|A||Shukla,G.S., and Omkar |Acute Toxicity of Weedar-96 to Freshwater Prawn, Macrobrachium lamarrei (M. Edwards)|Indian J. Environ. Health24(3): 242-243|1982|
188193|T||Rowe,F.P., C.J. Plant, and A. Bradfield|Trials of the Anticoagulant Rodenticides Bromadiolone and Difenacoum Against the House Mouse (Mus musculus L.)|J. Hyg.87(2): 171-177|1981|10.1017/S0022172400069370
188194|T||Sage,M., I. Fourel, M. Csurdassier, J. Barrat, P. Berny, and P. Giraudoux|Determination of Bromadiolone Residues in Fox Faeces by LC/ESI-MS in Relationship with Toxicological Data and Clinical Signs After Repeated Exposure|Environ. Res.110(7): 664-674|2010|10.1016/j.envres.2010.07.009
188195|T||Ahmad,N., C. Sheikher, and S.S. Guraya|Evaluation of Bromadiolone Against the House Rat, Rattus rattus gangutrianus Hinton|Z. Angew. Zool. (Multiple Languages)74:91-96|1987|
188196|T||Malhi,C.S., and C. Sheikher|Efficacy of Brodifacoum and Bromadiolone in the Fields|Comp. Physiol. Ecol.11(3): 121-122|1986|
188197|T||Jhala,R.C., A.H. Shah, R.C. Patel, and R.L. Patel|Effectiveness of Bromadiolone and Warfarin Wax Cakes Against Rats Damaging Coconut Palms in South Guajarat|Rodent Newsl.8:5-6|1984|
188198|AT||Freitas,I.B.F., A.P. Ogura, D.G.F. Cunha, A.S. Cossolin, M.D. Ferreira, B.V. Goulart, C.C. Montagner, and E.L.G. Espind|The Longitudinal Profile of a Stream Contaminated with 2,4-D and Its Effects on Non-Target Species|Arch. Environ. Contam. Toxicol.82(1): 131-141|2022|10.1007/s00244-021-00903-6
188199|A||Pinto,T.J.D., G.S. Rocha, R.A. Moreira, L.C.M. Da Silva, M.P.C. Yoshii, B.V. Goulart, C.C. Montagner, M.A. Daam, and E.|Chronic Environmentally Relevant Levels of Pesticides Disrupt Energy Reserves, Feeding Rates, and Life-Cycle Responses in the Amphipod Hyalella meinerti|Aquat. Toxicol.245:10 p.|2022|10.1016/j.aquatox.2022.106117
188200|AT||Kathiresan,R.M., and S. Deivasigamani|Herbicidal Control of Water Hyacinth (Eichhornia crassipes) and Its Impact on Aquatic Environment|Indian J. Agron.60(4): 606-609|2015|10.59797/ija.v60i4.4502
188201|A||Traudt,E.M., J.F. Ranville, S.A. Smith, and J.S. Meyer|A Test of the Additivity of Acute Toxicity of Binary-Metal Mixtures of Ni with Cd, Cu, and Zn to Daphnia magna, Using the Inflection Point of the Concentration-Response Curves|Environ. Toxicol. Chem.35(7): 1843-1851|2016|10.1002/etc.3342
188202|T||Wang,Z.F., F.J. Qi, Y.F. Shi, Z.B. Zhang, L. Liu, C.N. Li, and L. Meng|Evaluation of Single and Joint Toxicity of Perfluorooctanoic Acid and Arsenite to Earthworm (Eisenia fetida): A Multi-Biomarker Approach|Chemosphere291:11 p.|2022|
188203|A||Ogura,T., A. Mackay-Sim, and S.C. Kinnamon|Bitter Taste Transduction of Denatonium in the Mudpuppy Necturus maculosus|J. Neurosci.17(10): 3580-3587|1997|10.1523/JNEUROSCI.17-10-03580.1997
188204|T||Damin-Pernik,M., B. Espana, S. Besse, I. Fourel, H. Caruel, F. Popowycz, E. Benoit, and V. Lattard|Development of an Ecofriendly Anticoagulant Rodenticide Based on the Stereochemistry of Difenacoum|Drug Metab. Dispos.44(12): 1872-1880|2016|10.1124/dmd.116.071688
188205|T||Gul,N., N. Yigit, F. Saygili, E. Demirel, and C. Genis|Comparison of the Effects of Difenacoum and Brodifacoum on the Ultrastructure of Rat Liver Cells|Arh. Hig. Rada Toksikol.67(3): 204-209|2016|10.1515/aiht-2016-67-2783
188206|T||Endepols,S., N. Klemann, Y. Song, and M.H. Kohn|Vkorc1 Variation in House Mice During Warfarin and Difenacoum Field Trials|Pest Manag. Sci.69(3): 409-413|2013|10.1002/ps.3306
188207|A||Regnery,J., C. Riegraf, S. Jacob, and A. Friesen|New Insights on In Vitro Biotransformation of Anticoagulant Rodenticides in Fish|Chemosphere294:9 p.|2022|10.1016/j.chemosphere.2022.133727
188208|T||Key,G.E.|Control of the African Striped Ground Squirrel, Xerus erythropus, in Kenya|Proc. Vertebr. Pest Conf.:99-103|1990|
188209|T||Rehman,A.B., and S.I. Ahmad|Comparative Haematological Studies on Tatera indica with Three Anticoagulant Compounds|J. Pak. Med. Assoc.33(8): 203-207|1983|
188210|A||Wang,B., J. Zhu, A. Wang, J. Wang, Y. Wu, and W. Yao|Early Detection of Cyanide, Organophosphate and Rodenticide Pollution Based on Locomotor Activity of Zebrafish Larvae|PeerJ9:20 p.|2021|10.7717/peerj.12703
188213|T||Jacob,J., M. Budde, and A. Leukers|Efficacy and Attractiveness of Zinc Phosphide Bait in Common Voles (Microtus arvalis)|Pest Manag. Sci.66(2): 132-136|2010|10.1002/ps.1841
188214|T||Rivera,D.F., M. Smith, L. Staples, and L.K.P. Leung|Effect of Zinc Phosphide Baiting on Canefield Rat Populations in Teak|Crop Prot.27(3-5): 877-881|2008|10.1016/j.cropro.2007.10.010
188215|T||Shahwar,D., I. Hussain, M. Anwar, M.A. Beg, A. Kawan, and F. Akrim|Development of Cereal Baits and Comparative Field Efficacy of Some Additives as Bait Carrier for Zinc Phosphide and Coumatetralyl Against Rodent Pests of Poultry Farms in Rawalpindi-Islamabad, Pakistan|Int. Biodeterior. Biodegrad.104:460-471|2015|10.1016/j.ibiod.2015.08.001
188216|T||Shui,S.Y., J.B. Wen, M. Chen, X.L. Hu, F. Liu, and J. Li|Chemical Control of Apriona germari (Hope) Larvae with Zinc Phosphide Sticks|For. Stud. China11(1): 9-13|2009|10.1007/s11632-009-0002-9
188217|T||Veysi,A., H. Vatandoost, M.R. Yaghoobi-Ershadi, M.H. Arandian, R. Jafari, M. Hosseini, H. Abdoli, Y. Rassi, K. Heidari,|Comparative Study on the Effectiveness of Coumavec and Zinc Phosphide in Controlling Zoonotic Cutaneous Leishmaniasis in a Hyperendemic Focus in Central Iran|J. Arthropod-Borne Dis.6(1): 18-27|2012|
188219|T||Akhavan,A.A., A. Veysi, M.H. Arandian, H. Vatandoost, M.R. Yaghoobi-Ershadi, M. Hosseini, H. Abdoli, K. Heidari, A. Sad|Field Evaluation of Phostoxin and Zinc Phosphide for the Control of Zoonotic Cutaneous Leishmaniasis in a Hyperendemic Area, Central Iran|J. Vector Borne Dis.51(4): 307-312|2014|
188220|T||Baldwin,R.A., H. Halbritter, M. Ryan, L.K. Snell, and S.B. Orloff|Efficacy and Nontarget Impact of Zinc Phosphide-Coated Cabbage as a Ground Squirrel Management Tool|Pest Manag. Sci.75(7): 1847-1854|2019|10.1002/ps.5333
188221|T||El Okle,O.S., A. Derbalah, and E. Omnia El|Hepatic Damage Associated with Fatal Zinc Phosphide Poisoning in Broiler Chicks|Int. J. Vet. Sci. Med.4(1): 11-16|2016|10.1016/j.ijvsm.2016.10.002
188222|T||El-Bar,M.M., R.F. Sawaby, H. El-Hamouly, and R. Hamdy|A Preliminary Identification of Insect Successive Wave in Egypt on Control and Zinc Phosphide-Intoxicated Animals in Different Seasons|Egypt. J. Forensic Sci.6(3): 223-234|2016|10.1016/j.ejfs.2016.05.004
188223|T||Gavrila,L., A. Lungeanu, I. Rebedea, L. Ghetea, V.R. Gavrila, and L.B. Gavrila|The Study of the Mutagenic Effects of Zinc Phosphide (a Raticide) and of Mitomycin C (an Alkylating Agent) in the Presence of Activated Waters|Cytologia59(1): 81-86|1994|10.1508/cytologia.59.81
188224|T||Lefebvre,L.W., N.R. Holler, and D.G. Decker|Efficacy of Aerial Application of a 2% Zinc Phosphide Bait on Roof Rats in Sugarcane|Wildl. Soc. Bull.13(3): 324-327|1985|
188225|T||Poche,R.M., P. Sultana, Y. Mian, and E. Haque|Studies with Zinc Phosphide on Bandicota bengalensis (Gray) and Rattus rattus (Linnaeus) in Bangladesh|Bangladesh J. Zool.7(2): 117-123|1979|
188226|T||Ramey,C.A., J.B. Bourassa, and M.S. Furuta|Non-Target Hazard to Ring-Necked Pheasants from Zinc Phosphide Use in Northern California Agricultural Areas|Proc. Vertebr. Pest Conf.:247-252|2004|
188228|T||Stauffer Chemical Co.|Toxicology Reports on Fyrol FR-2 (Volume 1 - 11) with Attachments and Cover Letter Dated 020381|EPA/OTS 88-8100271:|1981|
188230|T||Seni,A., and B. Sen Naik|Evaluation of Some Botanicals and Insecticides Against Stem Borer, Plant Hoppers and Natural Enemies in Rice|J. Entomol. Res.43(4): 439-443|2019|10.5958/0974-4576.2019.00077.X
188232|A||Ueda,K., and T. Nagai|Relative Sensitivity of Duckweed Lemna minor and Six Algae to Seven Herbicides|J. Pestic. Sci. (Multiple Languages)46(3): 267-273|2021|10.1584/jpestics.D21-018
188233|A||Viriato,C., F.M. Franca, D.S. Santos, A.S. Marcantonio, C. Badaro-Pedroso, and C.M. Ferreira|Evaluation of the Potential Teratogenic and Toxic Effect of the Herbicide 2,4-D (DMA 806) in Bullfrog Embryos and Tadpoles (Lithobates catesbeianus)|Chemosphere266:12 p.|2021|10.1016/j.chemosphere.2020.129018
188234|AT||Wahl,C.F., C.R. Mudge, and R. Diaz|Does the Aquatic Herbicide 2,4-D and a Nonionic Surfactant Affect Survival of Salvinia Weevil?|J. Aquat. Plant Manag.56:113-113|2018|
188236|A||Yang,S., R.S.S. Wu, and R.Y.C. Kong|Physiological and Cytological Responses of the Marine Diatom Skelatonema costatum to 2,4-Dichlorophenol|Aquat. Toxicol.60(1): 33-41|2002|10.1016/S0166-445X(01)00258-2
188237|T||Tanimoto,S., and H. Harada|Hormonal Control of Morphogenesis in Leaf Explants of Perilla frutescens var. crispa f. viridi-crispa Makino|Ann. Bot.45(3): 321-327|1980|10.1093/oxfordjournals.aob.a085827
188238|T||Talwar,M., and A. Rashid|Somatic Embryo Formation from Unemerged Inflorescences and Immature Embryos of a Graminaceous Crop Echinochloa|Ann. Bot.64(2): 195-199|1989|10.1093/oxfordjournals.aob.a087825
188239|A||Fraser,T.W.K., A. Khezri, J.G.H. Jusdado, A.M. Lewandowska-Sabat, T. Henry, and E. Ropstad|Toxicant Induced Behavioural Aberrations in Larval Zebrafish are Dependent on Minor Methodological Alterations|Toxicol. Lett.276:62-68|2017|10.1016/j.toxlet.2017.05.021
188240|A||Yang,S., S. Wang, F. Sun, M. Zhang, F. Wu, F. Xu, and Z. Ding|Protective Effects of Puerarin Against Tetrabromobisphenol A-Induced Apoptosis and Cardiac Developmental Toxicity in Zebrafish Embryo-Larvae|Environ. Toxicol.30(9): 1014-1023|2015|10.1002/tox.21975
188242|T||King,C.C.|Effects of Feeding Herbicides to Honey Bees|Res. Rep. N. Central Weed Control Conf.:105-|1960|
188243|T||King,C.C.|Effect of Herbicides on the Foraging Activity of Honey Bees|Res. Rep. N. Central Weed Control Conf.:106-|1960|
188244|A||Chen,J., R.L. Tanguay, M. Simonich, S. Nie, Y. Zhao, L. Li, C. Bai, Q. Dong, C. Huang, and K. Lin|TBBPA Chronic Exposure Produces Sex-Specific Neurobehavioral and Social Interaction Changes in Adult Zebrafish|Neurotoxicol. Teratol.56:9-15|2016|10.1016/j.ntt.2016.05.008
188245|A||Jia,Z.Q., Y.C. Zhang, Q.T. Huang, A.K. Jones, Z.J. Han, and C.Q. Zhao|Acute Toxicity, Bioconcentration, Elimination, Action Mode and Detoxification Metabolism of Broflanilide in Zebrafish, Danio rerio|J. Hazard. Mater.394:8p.|2020|10.1016/j.jhazmat.2020.122521
188246|T||Martin,L.C., and S.L. Veney|The Specific Estrogen Receptor Antagonist ICI 182,780 Masculinizes Development of the Zebra Finch Syrinx|Gen. Comp. Endocrinol.156(2): 434-439|2008|10.1016/j.ygcen.2008.01.001
188247|A||Moreman,J., O. Lee, M. Trznadel, A. David, T. Kudoh, and C.R. Tyler|Acute Toxicity, Teratogenic, and Estrogenic Effects of Bisphenol A and Its Alternative Replacements Bisphenol S, Bisphenol F, and Bisphenol AF in Zebrafish Embryo-Larvae|Environ. Sci. Technol.51(21): 12796-12805|2017|10.1021/acs.est.7b03283
188248|A||Chen,H.P., X.F. Cui, Y.R. Wang, Z.Y. Li, C.X. Tian, D.N. Jiang, C.H. Zhu, Y. Zhang, S.S. Li, and G.L. Li|Identification, Functional Characterization, and Estrogen Regulation on Gonadotropin-Releasing Hormone in the Spotted Scat, Scatophagus argus|Fish Physiol. Biochem.46(5): 1743-1757|2020|10.1007/s10695-020-00825-5
188249|A||Duan,M., J. Zhang, J. Liu, L. Qian, X. Chen, F. Zhao, W. Zhao, Z. Zhong, Y. Yang, and C. Wang|Toxic Effects of Broflanilide Exposure on Development of Zebrafish (Danio rerio) Embryos and Its Potential Cardiotoxicity Mechanism|Environ. Pollut.286:8 p.|2021|10.1016/j.envpol.2021.117481
188250|A||Ghelichpour,M., A. Taheri Mirghaed, and A. Zargar|The Response of Lufenuron- and Flonicamid-Exposed Cyprinus carpio to Saltwater Challenge: Study on Ion-Regulation and Stress Genes Expression and Plasma Antioxidant Characteristics|Aquac. Res.51(12): 4829-4837|2020|10.1111/are.14773
188251|A||Ghelichpour,M., A.T. Mirghaed, S.M. Hoseini, and A. Perez Jimenez|Plasma Antioxidant and Hepatic Enzymes Activity, Thyroid Hormones Alterations and Health Status of Liver Tissue in Common Carp (Cyprinus carpio) Exposed to Lufenuron|Aquaculture516:8 p.|2020|10.1016/j.aquaculture.2019.734634
188252|A||Taheri Mirghaed,A., M. Baes, and S.M. Hoseini|Humoral Immune Responses and Gill Antioxidant-Related Gene Expression of Common Carp (Cyprinus carpio) Exposed to Lufenuron and Flonicamide|Fish Physiol. Biochem.46(2): 739-746|2020|10.1007/s10695-019-00747-x
188253|A||Tang,K.N., M.R. O'Connor, J. Landolfi, and W. Van Bonn|Safety and Efficacy of Milbemycin Oxime and Lufenuron to Treat Argulus spp. Infestation in Smooth Back River Stingrays (Potamotrygon orbignyi) and Magdalena River Stingrays (Potamotrygon magdalenae)|J. Zoo Wildl. Med.50(2): 383-388|2019|10.1638/2018-0162
188254|A||Zhang,K.W., T.L. Wu, H.P. Chen, D.N. Jiang, C.H. Zhu, S.P. Deng, Y. Zhang, and G.L. Li|Estradiol-17 Beta Regulates the Expression of Insulin-Like Growth Factors 1 and 2 via Estradiol Receptors in Spotted Scat (Scatophagus argus)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.237:8 p.|2019|10.1016/j.cbpb.2019.110328
188255|A||Ye,G., Y. Chen, H.O. Wang, T. Ye, Y. Lin, Q. Huang, Y. Chi, and S. Dong|Metabolomics Approach Reveals Metabolic Disorders and Potential Biomarkers Associated with the Developmental Toxicity of Tetrabromobisphenol A and Tetrachlorobisphenol A|Sci. Rep.6(1): 1-11|2016|10.1038/s41598-016-0001-8
188256|A||Sanders,N.G., D.J. Sullivan, G. Mlambo, G. Dimopoulos, and A.K. Tripathi|Gametocytocidal Screen Identifies Novel Chemical Classes with Plasmodium falciparum Transmission Blocking Activity|PLoS One9(8): 13 p.|2014|10.1371/journal.pone.0105817
188257|A||Entrix|Acute Water Exposures of Cadmium, Copper, and Zinc to Early Life-Stages of White Sturgeon (Acipenser transmontanus)|Report to Teck American Incorporated, Saskatoon, SK, Canada:19 p.|2011|
188258|T||Volk,R., E. Harel, A.M. Mayer, and E. Gan-Zvi|Catechol Oxidase in Suspension Cultures of Apple Fruit - Effects of Growth-Regulators|J. Exp. Bot.29(112): 1099-1109|1978|10.1093/jxb/29.5.1099
188259|T||Suri,S.S., and K.G. Ramawat|In-Vitro Hormonal-Regulation of Laticifer Differentiation in Calotropis-procera|Ann. Bot.75(5): 477-480|1995|10.1006/anbo.1995.1048
188260|T||Subhashini,P., S. Raja, and T. Thangaradjou|Establishment of Cell Suspension Culture Protocol for a Seagrass (Halodule pinifolia): Growth Kinetics and Histomorphological Characterization|Aquat. Bot.117:33-40|2014|10.1016/j.aquabot.2014.04.005
188261|T||Sreenath,H.L., and K.S. Jagadishchandra|Somatic Embryogenesis and Plant-Regeneration from Inflorescence Culture of Java Citronella (Cymbopogon-winterianus)|Ann. Bot.64(2): 211-215|1989|10.1093/oxfordjournals.aob.a087828
188262|T||Spencer,S.R., and G.W. Barrett|Meadow Vole Population Response to Vegetational Changes Resulting from 2,4-D Application|Am. Midl. Nat.103(1): 32-46|1980|10.2307/2425036
188263|T||Siwach,P., A.R. Gill, and K. Kumari|Effect of Season, Explants, Growth Regulators and Sugar Level on Induction and Long Term Maintenance of Callus Cultures of Ficus religiosa L|Afr. J. Biotechnol.10(24): 4879-4886|2011|
188264|T||Sinha,T., and A. Bandyopadhyay|Induction of Callogenesis in Ipomoea obscura (L.) Ker-Gawl, a Little Known Medicinal Plant|Afr. J. Biotechnol.10(82): 19161-19166|2011|
188265|T||Sinha,A.K., and R.K.S. Wood|The Effect of Growth Substances on Verticillium Wilt of Tomato Plants|Ann. Appl. Biol.60(1): 117-128|1967|10.1111/j.1744-7348.1967.tb05928.x
188266|T||Singh,M.N., R.N. Konar, and S.P. Bhatnagar|Haploid Plantlet Formation from Female Gametophytes of Ephedra foliata Boiss. In Vitro|Ann. Bot.48(2): 215-220|1981|10.1093/oxfordjournals.aob.a086115
188267|T||Shahzad,A., M. Faisal, and M. Anis|Micropropagation Through Excised Root Culture of Clitoria ternatea and Comparison Between In Vitro-Regenerated Plants and Seedlings|Ann. Appl. Biol.150(3): 341-349|2007|10.1111/j.1744-7348.2007.00132.x
188268|T||Shabbir,K., T. Ahmad, I.A. Hafiz, A. Hussain, N.A. Abbasi, and J. Ahmad|In Vitro Regeneration of Gerbera jamesonii Cv. Sunglow|Afr. J. Biotechnol.11(42): 9975-9984|2012|10.5897/AJB12.062
188269|T||Rose,J.B., J.M. Dunwell, and N. Sunderland|Anther Culture of Lolium-temulentum, Festuca-pratensis and Lolium X Festuca Hybrids .1. Influence of Pretreatment, Culture-Medium and Culture Incubation Conditions on Callus Production and Differentiation|Ann. Bot.60(2): 191-201|1987|10.1093/oxfordjournals.aob.a087437
188270|A||Stefaniak,B., A. Wozny, and I. Budna|Callus Induction and Plant Regeneration in Lemna minor L.|Biol. Plant. (Praha)45(3): 469-472|2002|10.1023/A:1016246507339
188272|T||Engeman,R.M., V.G.,Jr. Barnes, R.M. Anthony, and H.W. Krupa|Effect of Vegetation Management for Reducing Damage to Lodgepole Pine Seedlings from Northern Pocket Gophers|Crop Prot.16(5): 407-410|1997|10.1016/S0261-2194(97)00022-7
188273|T||Tinline,R.D., and J.H. Hunter|Herbicides and Common Root Rot of Wheat in Saskatchewan|Can. J. Plant Pathol.4(4): 341-348|1982|10.1080/07060668209501274
188274|A||Cleveland,B.M.|In Vitro and In Vivo Effects of Phytoestrogens on Protein Turnover in Rainbow Trout (Oncorhynchus mykiss) White Muscle|Comp. Biochem. Physiol. C Toxicol. Pharmacol.165:9-16|2014|10.1016/j.cbpc.2014.05.003
188275|A||Poley,J.D., L.M. Braden, A.M. Messmer, O.O. Igboeli, S.K. Whyte, A. Macdonald, J. Rodriguez, M. Gameiro, L. Rufener, J.|High Level Efficacy of Lufenuron against Sea Lice (Lepeophtheirus salmonis) Linked to Rapid Impact on Moulting Processes|Int. J. Parasitol. Drugs Drug Resist.8(2): 174-188|2018|10.1016/j.ijpddr.2018.02.007
188276|T||Matsumoto,Y., R. Yatsu, C. Taylor, and D. Crews|Changes in Gonadal Gene Network by Exogenous Ligands in Temperature-Dependent Sex Determination|J. Mol. Endocrinol.50(3): 389-400|2013|10.1530/JME-12-0260
188277|A||Myles,A.P., P. Calow, and C.S. Reilly|Clonal Variation in Response to Enflurane Anesthesia with Daphnia magna|Br. J. Anaesth.70(4): |1993|
188278|A||Chieffi,P., G.L. Colucci-D'Amato, S. Staibano, R. Franco, and D. Tramontano|Estradiol-Induced Mitogen-Activated Protein Kinase (Extracellular Signal-Regulated Kinase 1 and 2) Activity in the Frog (Rana esculenta) Testis|J. Endocrinol.167(1): 77-84|2000|10.1677/joe.0.1670077
188279|T||Cobellis,G., G. Cacciola, T. Chioccarelli, G. Izzo, R. Meccariello, R. Pierantoni, and S. Fasano|Estrogen Regulation of the Male Reproductive Tract in the Frog, Rana esculenta: A Role in Fra-1 Activation in Peritubular Myoid Cells and in Sperm Release|Gen. Comp. Endocrinol.155(3): 838-846|2008|10.1016/j.ygcen.2007.10.004
188280|A||Chen,S., X. Li, H. Li, S. Yuan, J. Li, and C. Liu|Greater Toxic Potency of Bisphenol AF than Bisphenol A in Growth, Reproduction, and Transcription of Genes in Daphnia magna|Environ. Sci. Pollut. Res.28(20): 25218-25227|2021|10.1007/s11356-020-12153-5
188281|T||Diaz-Hernandez,V., A. Vazquez-Gomez, A. Marmolejo-Valencia, L. Manuel Montano, and H. Merchant-Larios|17Beta-Estradiol Modulates Cell Proliferation of Medullary Cords During Ovarian Differentiation of the Lepidochelys olivacea Sea Turtle|Dev. Biol.431(2): 263-271|2017|10.1016/j.ydbio.2017.09.008
188282|A||Wolfe,B.A., C.A. Harms, J.D. Groves, and M.R. Loomis|Treatment of Argulus sp. Infestation of River Frogs|Contemp. Top. Lab. Anim. Sci.40(6): 35-36|2001|
188283|A||Deivasigamani,S., and R.M. Kathiresan|Impact of Herbicidal Control of Water Hyacinth [Eichhornia crassipes (Mart.) Solms] on Aquatic Water Shed|Plant Arch.13(1): 121-122|2013|
188284|T||Ondrej,M., K. Pesina, and D. Pavingerova|Hormonal Autonomy of Arabidopsis thaliana Calli|Biol. Plant. (Praha)26(3): 181-188|1984|10.1007/BF02895046
188285|T||Paterson,K.E.|Polarity of Regeneration in Excised Leaves of Crassula argentea. I. A Role of Auxin|Can. J. Bot.61(4): 1058-1063|1983|10.1139/b83-113
188286|T||Pepin,M.F., C. Chavarie, and J. Archambault|Growth and Immobilization of Tripterygium wilfordii Cultured Cells|Biotechnol. Bioeng.38(11): 1285-1291|1991|10.1002/bit.260381105
188288|T||Bowes,G.G., and R.P. Zentner|Effect of Vegetation Suppression on the Establishment of Sod-Seeded Alfalfa in the Aspen Parkland|Can. J. Plant Sci.72(4): 1349-1358|1992|10.4141/cjps92-167
188289|T||Rahman,S.M.Z., S. Hadiuzzman, M.M. Haque, and A.S. Islam|Shoot Formation in Corchorus capsularis var D-154 from Unorganized Callus|Bangladesh J. Bot.14(2): 141-145|1985|
188290|T||Bozhkov,P.V., L.H. Filonova, and S. Von Arnold|A Key Developmental Switch During Norway Spruce Somatic Embryogenesis is Induced by Withdrawal of Growth Regulators and is Associated with Cell Death and Extracellular Acidification|Biotechnol. Bioeng.77(6): 658-667|2002|10.1002/bit.10228
188291|T||Riera-Lizarazu,O., and A. Mujeeb-Kazi|Polyhaploid Production in the Triticeae: Wheat x Tripsacum Crosses|Crop Sci.33(5): 973-976|1993|10.2135/cropsci1993.0011183X003300050020x
188292|T||Rout,G.R., and P. Das|In Vitro Plant Regeneration Via Callogenesis and Organogenesis in Bambusa vulgaris|Biol. Plant. (Praha)39(4): 515-522|1997|10.1023/A:1000966428734
188293|T||Castillo,M., L. Sollenberger, A. Blount, J. Ferrell, C.I. Na, M. Williams, and C. Mackowiak|Seedbed Preparation Techniques and Weed Control Strategies for Strip-Planting Rhizoma Peanut into Warm-Season Grass Pastures|Crop Sci.54(4): 1868-1875|2015|10.2135/cropsci2013.06.0408
188294|A||Zhu,M., F. Ge, R. Zhu, X. Wang, and X. Zheng|A DFT-Based QSAR Study of the Toxicity of Quaternary Ammonium Compounds on Chlorella vulgaris|Chemosphere80(1): 46-52|2010|10.1016/j.chemosphere.2010.03.044
188295|T||Hilton,H.W., and J.M.L. Mee|Studies with Radioactive Phosphine-32P in Sugarcane|J. Agric. Food Chem.20(2): 334-336|1972|10.1021/jf60180a036
188296|T||Neelanarayanan,P., and R. Kanakasabai|Laboratory Evaluation of Zinc Phosphide and Its Impact on the Biochemistry of the Soft Furred Field Rat Millardia meltada (Gray)|J. Ecotoxicol. Environ. Monit.2:273-277|1992|
188297|T||Rao,A., and I. Prakash|Bait Shyness among the House Mouse Mus musculus bactrianus Blyth to Zinc Phosphide & RH-787|Indian J. Exp. Biol.18(12): 1490-1491|1980|
188298|T||Tkadlec,E., and B. Rychnovsky|Residues of Zn3P2 in the Common Vole (Microtus arvalis) and Secondary Poisoning Hazards to Predators|Folia Zool.39(2): 147-156|1990|
188299|T||Bai,K.M., and S.K. Majumdar|Enhancement of Mammalian Safety by Incorporation of Antimony Potassium Tartrate in Zinc Phosphide Baits|Pesticides 18(9): 34-37|1984|
188300|T||Sakthivel,P., and P. Neelanarayanan|Germinated Cereals as Bait Base for Zinc Phosphide and Bromadiolone Against Rodent Pests in Paddy Crop Fields|Indian J. Plant Prot.42(2): 141-148|2014|
188301|A||Tarar,J.L., and C.R. Salpekar|Effect of Zinc Phosphide (Rodenticide) on Soil Algae|Curr. Sci.47(20): 789-|1978|
188303|AT||Haag,K.H., and D.H. Habeck|Enhanced Biological Control of Water Hyacinth Following Limited Herbicide Application|J. Aquat. Plant Manag.29:24-28|1991|
188304|A||Netherland,M.D., and L. Willey|Mesocosm Evaluation of Three Herbicides on Eurasian Watermilfoil (Myriophyllum spicatum) and Hybrid Watermilfoil (Myriophyllum spicatum x Myriophyllum sibiricum): Developing a Predictive Assay|J. Aquat. Plant Manag.55:39-41|2017|
188305|T||Sartain,B.T., R.M. Wersal, J.D. Madsen, and J.C. Cheshier|Evaluation of Six Herbicides for the Control of Water Primrose (Ludwigia peploides (Kunth) P.H. Raven spp. Glabrescens)|J. Aquat. Plant Manag.53:134-137|2015|
188306|T||Cellarova,E., K. Grelakova, M. Repcak, and R. Honcariv|Morphogenesis in Callus Tissue Cultures of Some Matricaria and Achillea Species|Biol. Plant. (Praha)24(6): 430-433|1982|10.1007/BF02880439
188307|T||Chen,C.H., P.F. Lo, and J.G. Ross|Regeneration of Plantlets from Callus Cultures of Indiangrass|Crop Sci.19(1): 117-118|1979|10.2135/cropsci1979.0011183X001900010029x
188308|T||Salajova,T., and J. Salaj|Somatic Embryogenesis in European Black Pine (Pinus nigra Arn.)|Biol. Plant. (Praha)34(3-4): 213-218|1992|10.1007/BF02925871
188309|T||Saxena,P.K., and R. Gill|Callus Formation and Plant-Regeneration from Protonemal Protoplasts of the Moss Anoectangium thomsonii Mitt.|Biol. Plant. (Praha)28(4): 310-312|1986|10.1007/BF02902301
188310|T||Darwent,A.L., and J.H. Smith|Control of Broadleaved Weeds in Creeping Red Fescue Grown for Seed|Can. J. Plant Sci.64(4): 951-960|1984|10.4141/cjps84-129
188311|T||Singh,J.P.|Effect of Nitrogen Sources on Shoot Bud Differentiation of Dioscorea deltoidea Wall. Callus Cultures|Biol. Plant. (Praha)20(6): 436-439|1978|10.1007/BF02923347
188312|T||D'Onofrio,C., and S. Morini|Development of Adventitious Shoots from In Vitro Grown Cydonia oblonga Leaves as Influenced by Different Cytokinins and Treatment Duration|Biol. Plant. (Praha)49(1): 17-21|2005|10.1007/s10535-005-7021-8
188313|A||Perez,P., E. Fernandez, and R. Beiras|Toxicity of Benzalkonium Chloride on Monoalgal Cultures and Natural Assemblages of Marine Phytoplankton|Water Air Soil Pollut.201(1-4): 319-330|2009|10.1007/s11270-008-9947-x
188314|A||Chen,Y., M. Geurts, S.B. Sjollema, N.I. Kramer, J.L.M. Hermens, and S.T.J. Droge|Acute Toxicity of the Cationic Surfactant C12-Benzalkonium in Different Bioassays: How Test Design Affects Bioavailability and Effect Concentrations|Environ. Toxicol. Chem.33(3): 606-615|2014|10.1002/etc.2465
188315|T||Labare,M.P., H. Soohoo, D. Kim, K.Y. Tsoi, J.L. Liotta, and D.D. Bowman|Ineffectiveness of a Quaternary Ammonium Salt and Povidone-Iodine for the Inactivation of Ascaris suum Eggs|Am. J. Infect. Contr.41(4): 360-361|2013|10.1016/j.ajic.2012.05.013
188316|T||Ferk,F., M. Misik, C. Hoelzl, M. Uhl, M. Fuerhacker, B. Grillitsch, W. Parzefall, A. Nersesyan, K. Micieta, T. Grummt, |Benzalkonium Chloride (BAC) and Dimethyldioctadecyl-Ammonium Bromide (DDAB), Two Common Quaternary Ammonium Compounds, Cause Genotoxic Effects in Mammalian and Plant Cells at Environmentally Relevant Concentrations|Mutagenesis22(6): 363-370|2007|10.1093/mutage/gem027
188318|A||Sikka,H.C., H.T. Appleton, and E.O. Gangstad|Uptake and Metabolism of Dimethylamine Salt of 2,4-Dichlorophenoxyacetic Acid by Fish|J. Agric. Food Chem.25(5): 1030-1033|1977|10.1021/jf60213a005
188319|A||Thiel,N.A., A. Sachett, S.E. Schneider, Garbinato.C., L. Decui, T. Eichwald, G.M.M. Conterato, A. Latini, A. Piato, and|Exposure to the Herbicide 2,4-Dichlorophenoxyacetic Acid Impairs Mitochondrial Function, Oxidative Status, and Behavior in Adult Zebrafish|Environ. Sci. Pollut. Res.27(36): 45874-45882|2020|10.1007/s11356-20-10497-6
188320|A||Dierickx,P.J.|Purification and Partial Characterization of the Glutathione S-Transferases in Carp Liver, and Their Interaction with 2,4-Dichlorophenoxyacetic Acid and 1,4-Benzoquinone|Biochem. Int.11(5): 755-763|1985|
188321|A||Gaaied,S., M. Oliveira, I. Domingues, and M. Banni|2,4-Dichlorophenoxyacetic Acid Herbicide Effects on Zebrafish Larvae: Development, Neurotransmission and Behavior as Sensitive Endpoints|Environ. Sci. Pollut. Res. Int.27(4): 3686-3696|2020|10.1007/s11356-19-4488-5
188322|A||Carvalho,W.F., C. Ruiz De Arcaute, L. Torres, D. De Melo E Silva, S. Soloneski, and M.L. Larramendy|Genotoxicity of Mixtures of Glyphosate with 2,4-Dichlorophenoxyacetic Acid Chemical Forms Towards Cnesterodon decemmaculatus (Pisces, Poeciliidae)|Environ. Sci. Pollut. Res. Int.27(6): 6515-6525|2020|10.1007/s11356-19-7379-x
188323|T||Kocher,D., and R. Kaur|Survey of Rodent Damage in Sugarcane Fields of Punjab and Its Control by Rodenticidal Baiting|Pestology31(12): 40-43|2007|
188324|T||Gill,J.E., and R. Redfern|Laboratory Test of Seven Rodenticides for the Control of Mastomys natalensis|J. Hyg.83(2): 345-352|1979|10.1017/s0022172400026139
188325|T||Sahni,K., C. Prabha, P. Silotia, and B. Sharma|Bait Shyness Studies in Meriones hurrianae to Zinc Phosphide and Bromadiolone|J. Adv. Zool.32(1): 40-42|2011|
188327|A||Nunes,B., M.T. Miranda, and A.T. Correia|Absence of Effects of Different Types of Detergents on the Cholinesterasic Activity and Histological Markers of Mosquitofish (Gambusia holbrooki) After a Sub-Lethal Chronic Exposure|Environ. Sci. Pollut. Res. Int.23(15): 14937-14944|2016|10.1007/s11356-016-6608-2
188328|T||Reinprecht,L., V. Vacek, and T. Grznarik|Enhanced Fungal Resistance of Scots Pine (Pinus sylvestris L.) Sapwood by Treatment with Methyltrimethoxysilane and Benzalkoniumchloride|Eur. J. Wood Wood Prod.75(5): 817-824|2017|10.1007/s00107-016-1073-7
188329|T||Lasa,R., and T. Williams|Benzalkonium Chloride Provides Remarkable Stability to Liquid Protein Lures for Trapping Anastrepha obliqua (Diptera: Tephritidae)|J. Econ. Entomol.110(6): 2452-2458|2017|10.1093/jee/tox245
188330|A||Schisler,G.J., N.K.M. Vieira, and P.G. Walker|Application of Household Disinfectants to Control New Zealand Mudsnails|N. Am. J. Fish. Manag.28(4): 1172-1176|2008|10.1577/M07-028.1
188331|A||Gheorghe,S., D.N. Mitroi, M.S. Stan, C.A. Staicu, M. Cicirma, I.E. Lucaciu, M. Nita-Lazar, and A. Dinischiotu|Evaluation of Sub-Lethal Toxicity of Benzethonium Chloride in Cyprinus carpio Liver|Appl. Sci.10(23): 15 p.|2020|10.3390/app10238485
188332|A||Park,S.B., H.B. Jang, F.F. Fagutao, Y.K. Kim, S.W. Nho, I.S. Cha, J.E. Yu, and T.S. Jung|Combination Treatment Against Scuticociliatosis by Reducing the Inhibitor Effect of Mucus in Olive Flounder, Paralichthys olivaceus|Fish Shellfish Immunol.38(2): 282-286|2014|10.1016/j.fsi.2014.03.023
188333|T||Torres-Quezada,E.A., J.M. Marmolejos, A.R. Lara, W. Maurer, J.A.G. Cuesta, S.M.M. Carreno, and L. Lopez|Optimizing Torula Bait for Anastrepha suspensa (Diptera: Tephritidae) Trapping in the Dominican Republic|Fla. Entomol.104(1): 18-26|2021|10.1653/024.104.0104
188334|T||Bernardi,A.O., A. Stefanello, J.G. Lemos, M.V. Garcia, and M.V. Copetti|Antifungal Activity of Commercial Sanitizers Against Strains of Penicillium roqueforti, Penicillium paneum, Hyphopichia burtonii, and Aspergillus pseudoglaucus: Bakery Spoilage Fungi|Food Microbiol.83:59-63|2019|10.1016/j.fm.2019.04.005
188335|A||Kwon,Y.S., J.W. Jung, Y.J. Kim, C.B. Park, J.C. Shon, J.H. Kim, J.W. Park, S.G. Kim, and J.S. Seo|Proteomic Analysis of Whole-Body Responses in Medaka (Oryzias latipes) Exposed to Benzalkonium Chloride|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control55(12): 1387-1397|2020|
188336|T||Gough,C.S., G.M. Fairlamb, P. Bell, R.J. Nachman, N. Audsley, and R.E. Isaac|Peptidergic Control in a Fruit Crop Pest: The Spotted-Wing Drosophila, Drosophila suzukii|PLoS One12(11): 12|2017|10.1371/journal.pone.0188021
188337|T||Madsen,J.D., R.M. Wersal, and W. Robles|Evaluation of Six Herbicides for Control of Swamp Smartweed [Persicaria hydropiperoides (Michx.) Small] Under Flooded and Moist Soil Conditions|J. Aquat. Plant Manag.53:224-227|2015|
188338|A||Sung,H.H., S.C. Lin, W.L. Chen, Y.Y. Ting, and W.L. Chao|Influence of Timsen on Vibrio Populations of Culture Pond Water and Hepatopancreas and on the Hemocytic Activity of Tiger Shrimp (Penaeus monodon)|Aquaculture219(1-4): 123-133|2003|10.1016/S0044-8486(03)00021-8
188339|A||Tato,T., and R. Beiras|The Use of the Marine Microalga Tisochrysis lutea (T-iso) in Standard Toxicity Tests; Comparative Sensitivity with Other Test Species|Front. Mar. Sci.6:10 p.|2019|10.3389/fmars.2019.00488
188340|T||Ingram,P.R., N.Z.M. Homer, R.A. Smith, A.R. Pitt, C.G. Wilson, O. Olejnik, and C.M. Spickett|The Interaction of Sodium Chlorite with Phospholipids and Glutathione: A Comparison of Effects In Vitro, in Mammalian and in Microbial Cells|Arch. Biochem. Biophys.410(1): 121-133|2003|10.1016/S0003-9861(02)00659-8
188341|T||Wersal,R.M., A.G. Poovey, J.D. Madsen, K.D. Getsinger, and C.R. Mudge|Comparison of Late-Season Herbicide Treatments for Control of Emergent Flowering Rush in Mesocosms|J. Aquat. Plant Manag.52:85-89|2014|
188342|A||Bader,K.P.|Alkylbenzyldimethylammonium Chloride, a Stabilizer of the S-State System in the Filamentous Cyanobacterium Oscillatoria chalybea|Biochim. Biophys. Acta975(3): 399-402|1989|10.1016/S0005-2728(89)80349-4
188343|AT||Gazzano,C., S.E. Favero-Longo, P. Iacomussi, and R. Piervittori|Biocidal Effect of Lichen Secondary Metabolites against Rock-Dwelling Microcolonial Fungi, Cyanobacteria and Green Algae|Int. Biodeterior. Biodegrad.84:300-306|2013|10.1016/j.ibiod.2012.05.033
188344|A||Hirazawa,N.|Killing Effects of Various Treatments on Eggs of the Skin-Parasitic Monogeneans Neobenedenia girellae and Benedenia seriolae|Aquaculture498:285-288|2019|10.1016/j.aquaculture.2018.08.070
188345|A||Hirazawa,N., T. Goto, and K. Shirasu|Killing Effect of Various Treatments on the Monogenean Heterobothrium okamotoi Eggs and Oncomiracidia and the Ciliate Cryptocaryon irritans Cysts and Theronts|Aquaculture223(1): 1-13|2003|10.1016/S0044-8486(03)00167-4
188346|A||Russo,C., M. Kundi, M. Lavorgna, A. Parrella, and M. Isidori|Benzalkonium Chloride and Anticancer Drugs in Binary Mixtures: Reproductive Toxicity and Genotoxicity in the Freshwater Crustacean Ceriodaphnia dubia|Arch. Environ. Contam. Toxicol.74(4): 546-556|2018|10.1007/s00244-017-0473-y
188347|A||Antunes,S.C., B. Nunes, S. Rodrigues, R. Nunes, J. Fernandes, and A.T. Correia|Effects of Chronic Exposure to Benzalkonium Chloride in Oncorhynchus mykiss: Cholinergic Neurotoxicity, Oxidative Stress, Peroxidative Damage and Genotoxicity|Environ. Toxicol. Pharmacol.45:115-122|2016|10.1016/j.etap.2016.04.016
188348|A||Munoz,J.T.|Effects of Some Plant Growth Regulators on the Growth of the Seagrass Cymodocea nodosa (Ucria) Ascherson|Aquat. Bot.51:311-318|1995|10.1016/0304-3770(95)00481-E
188349|A||Theivendirarajah,K., and K. Jeyaseelan|Effect of the Herbicide, Isopropyl Ester of 2,4-Dichlorophenoxyacetic Acid (2,4-DIPE), on Blue-Green Algae|Ceylon J. Sci. Biol. Sci.14(1/2): 10-14|1981|
188350|A||Rehwoldt,R.E., E. Kelley, and M. Mahoney|Investigations into Acute Toxicity and Some Chronic Effects of Selected Herbicides and Pesticides on Several Fresh Water Fish Species|Bull. Environ. Contam. Toxicol.18(3): 361-365|1977|10.1007/BF01683433
188351|A||Cheney,M.A., D. Keil, and S. Qian|Uptake and Effect of Mercury on Amino Acid Losses from the Gills of the Bivalve Mollusks Mytilus californianus and Anodonta californiensis|J. Colloid Interface Sci.320(2): 369-375|2008|10.1016/j.jcis.2007.12.045
188352|A||Czarny,K., B. Krawczyk, and D. Szczukocki|Toxic Effects of Bisphenol A and Its Analogues on Cyanobacteria Anabaena variabilis and Microcystis aeruginosa|Chemosphere263:1-10|2021|10.1016/j.chemosphere.2020.128299
188353|T||Mentor,A., M. Wann, B. Brunstrom, M. Jonsson, and A. Mattsson|Bisphenol AF and Bisphenol F Induce Similar Feminizing Effects in Chicken Embryo Testis as Bisphenol A|Toxicol. Sci.178(2): 239-250|2020|10.1093/toxsci/kfaa152
188354|A||Catron,T.R., S.P. Keely, N.E. Brinkman, T.J. Zurlinden, C.E. Wood, J.R. Wright, D. Phelps, E. Wheaton, A. Kvasnicka, S.|Host Developmental Toxicity of BPA and BPA Alternatives Is Inversely Related to Microbiota Disruption in Zebrafish|Toxicol. Sci.167(2): 468-483|2019|10.1093/toxsci/kfy261
188355|A||Qiu,W., S. Liu, H. Chen, S. Luo, Y. Xiong, X. Wang, B. Xu, C. Zheng, and K.J. Wang|The Comparative Toxicities of BPA, BPB, BPS, BPF, and BPAF on the Reproductive Neuroendocrine System of Zebrafish Embryos and Its Mechanisms|J. Hazard. Mater.406:11 p.|2021|10.1016/j.jhazmat.2020.124303
188356|A||Li,J., J. Wang, S. Hou, Y. Huang, H. Chen, Z. Sun, and D. Chen|Exposure to Bisphenol Analogues Interrupts Growth, Proliferation, and Fatty Acid Compositions of Protozoa Tetrahymena thermophila|J. Hazard. Mater.395:9 p|2020|10.1016/j.jhazmat.2020.122643
188358|A||Yang,Y., T.L. Tang, Y.W. Chen, W.H. Tang, and F. Yang|The Role of Chorion Around Embryos in Toxic Effects of Bisphenol AF Exposure on Embryonic Zebrafish (Danio rerio) Development|Estuar. Coast. Shelf Sci.233:11 p.|2020|10.1016/j.ecss.2019.106540
188359|A||Zhu,X., G. Wu, Y. Xing, C. Wang, X. Yuan, and B. Li|Evaluation of Single and Combined Toxicity of Bisphenol A and Its Analogues Using a Highly-Sensitive Micro-Biosensor|J. Hazard. Mater.381:9p.|2020|10.1016/j.jhazmat.2019.120908
188360|A||Wei,P.H., G.B. Jiang, H.F. Wang, S.G. Ru, and F. Zhao|Bisphenol AF Exposure Causes Fasting Hyperglycemia in Zebrafish (Danio rerio) by Interfering with Glycometabolic Networks|Aquat. Toxicol.241:8 p.|2021|10.1016/j.aquatox.2021.106000
188361|A||Ji,G., J. Gu, M. Guo, L. Zhou, Z. Wang, L. Shi, and A. Gu|A Systematic Comparison of the Developmental Vascular Toxicity of Bisphenol A and Its Alternatives In Vivo and In Vitro|Chemosphere291:10 p.|2022|10.1016/j.chemosphere.2021.132936
188362|T||Hattori,N., N. Kajiyama, M. Maeda, and S. Murakami|Mutant Luciferase Enzymes from Fireflies with Increased Resistance to Benzalkonium Chloride|Biosci. Biotechnol. Biochem.66(12): 2587-2593|2002|10.1271/bbb.66.2587
188363|A||Park,K., and I.S. Kwak|Assessment of Potential Biomarkers, Metallothionein and Vitellogenin mRNA Expressions in Various Chemically Exposed Benthic Chironomus riparius Larvae|Ocean Sci. J.47(4): 435-444|2012|10.1007/s12601-12-39-x
188364|A||Zhang,Y., Y. Wang, B. Yang, and S. Chen|In Vitro Regeneration and Propagation of Pistia stratiotes: An Ideal Aquatic Plant for Biomanufacturing and Bioremediation|Chin. J. Appl. Environ. Biol.14(4): 445-449|2008|10.3724/SP.J.1145.2008.00445
188365|A||Amano,H., and H. Noda|Effects of Plan Growth Regulators, Organic Acids, and Sugars on Growth and Chemical Constituents in the Tissue Culture of Sea Lettuce Ulva pertusa|Fish. Sci.60(4): 449-454|1994|10.2331/fishsci.60.449
188366|A||Borgmann,U., and K.M. Ralph|Effects of Cadmium, 2,4-Dichlorophenol, and Pentachlorophenol on Feeding, Growth, and Particle-Size-Conversion Efficiency of White Sucker Larvae and Young Common Shiners|Arch. Environ. Contam. Toxicol.15(5): 473-480|1986|10.1007/BF01056558
188367|A||Xia,X., H. Chunxiu, S. Xue, B. Shi, G. Gui, D. Zhang, X. Wang, and L. Guo|Response of Selenium-Dependent Glutathione Peroxidase in the Freshwater Bivalve Anodonta woodiana Exposed to 2,4-Dichlorophenol, 2,4,6-Trichlorophenol and Pentachlorophenol|Fish Shellfish Immunol.55:499-509|2016|10.1016/j.fsi.2016.06.012
188368|A||Nagai,T.|Sensitivity Differences Among Seven Algal Species to 12 Herbicides with Various Modes of Action|J. Pestic. Sci. (Multiple Languages)44:225-232|2019|10.1584/jpestics.D19-039
188369|A||Mishra,A.K., A.B. Pandey, and H.D. Kumar|Effects of Three Pesticides on MSX-Induced Ammonia Photoproduction by the Cyanobacterium Nostoc linckia|Ecotoxicol. Environ. Saf.18(2): 145-148|1989|10.1016/0147-6513(89)90075-4
188370|A||Freitas,J.S., T.J.D. Pinto, M.P.C. Yoshii, L.C.M. Da Silva, L.F.D. Lopes, A.P. Ogura, L. Girotto, C.C. Montagner, L.D.G|Realistic Exposure to Fipronil, 2,4-D, Vinasse and Their Mixtures Impair Larval Amphibian Physiology|Environ. Pollut.299:10 p.|2022|10.1016/j.envpol.2022.118894
188371|A||Cason, C., and B. A. Roost|Species Selectivity of Granular 2,4-D Herbicide when Used to Control Eurasian Watermilfoil (Myriophyllum spicatum) in Wisconsin Lakes|Invasive Plant Sci. Manag.4(2): 251-259|2011|10.1614/IPSM-D-10-55.1
188373|A||Houssou,A.M., D. Cocan, V. Miresan, C.A. Bonou, and E. Montchowui|Effect of Spirotetramat and 2,4-Dichlorophenoxyacetic Pesticides on Two PhytoPlankton Species (Monoraphidium griffithii and Coscinodiscus sp.) in a Single and Compound Mixture Laboratory Exposure|Cogent Food Agric.6(1): 14 p.|2020|10.1080/23311843.2020.1724064
188374|A||Hu,Y., D. Li, X. Ma, R. Liu, Y. Qi, C. Yuan, and D. Huang|Effects of 2,4-Dichlorophenol Exposure on Zebrafish: Implications for the Sex Hormone Synthesis|Aquat. Toxicol.:8p.|2021|10.1016/j.aquatox.2021.105868
188375|A||Silva,L.C.M., R.A. Moreira, T.J.S. Pinto, M.R. Vanderlei, D.B. Athayde, L.F.P. Lopes, A.P. Ogura, M.P.C. Yoshii, J.S. F|Lethal and Sublethal Toxicity of Pesticides and Vinasse Used in Sugarcane Cultivation to Ceriodaphnia silvestrii (Crustacea: Cladocera)|Aquat. Toxicol.241:11 p.|2021|10.1016/j.aquatox.2021.106017
188376|A||Viana,N.P., L.C.M. Da Silva, N. Portruneli, M.P. Soares, I.L. Cardoso, R.I. Bonansea, B.V. Goulart, C.C. Montagner, E.L|Bioconcentration and Toxicological Impacts of Fipronil and 2,4-D Commercial Formulations (Single and in Mixture) in the Tropical Fish, Danio rerio|Environ. Sci. Pollut. Res.:11685-11698|2022|10.1007/s11356-21-16352-6
188377|A||Wang,Z., C. Wang, W. Li, M. Wang, and L. Xiao|Interspecies Competition Between Scrippsiella acuminata and Three Marine Diatoms: Growth Inhibition and Allelopathic Effects|Aquat. Toxicol.:11 p.|2021|10.1016/j.aquatox.2021.105878
188378|A||Statham,C.N., and J.J. Lech|Potentiation of Acute Toxicity of Several Pesticides and Herbicides in Trout by Carbaryl|Toxicol. Appl. Pharmacol.34(1): 83-87|1975|10.1016/0041-008X(75)90177-5
188379|A||Mayer,F.L.|2,4-D Reduces Saprolegnia on Fathead Minnow Eggs|Prog. Fish-Cult.:19-19|1976|10.1577/1548-8659(1976)38[19:DRSOFM]2.0.CO;2
188380|A||Dodson,J.J., and C.I. Mayfield|Dynamics and Behavioral Toxicology of Aqua-Kleen (2,4-D Butoxyethanol Ester) as Revealed by the Modification of Rheotropism in Rainbow Trout|Trans. Am. Fish. Soc.:632-640|1979|10.1577/1548-8659(1979)108<632:TDABTO>2.0.CO;2
188381|A||Stalling,D.L., and J.N. Huckins|Metabolism of 2,4-Dichlorophenoxyacetic (2,4-D) in Bluegills and Water|J. Agric. Food Chem.26(2): 447-452|1978|10.1021/jf60216a055
188383|T||Guimaraes,J.S.,Jr., A.L.G. Bogado, T.C.B. Da Cunha, and J.L. Garcia|In Vitro Evaluation of the Disinfection Efficacy on Eimeria tenella, Unsporulated Oocysts Isolated from Broilers|Rev. Bras. Parasitol. Vet.16(2): 67-71|2007|
188385|A||Miranda,C.E., C.D. Clauser, V.L. Lozano, D.H. Cataldo, and H.N. Pizarro|An Invasive Mussel is in Trouble: How do Glyphosate,2,4-D and Its Mixture Affect Limnoperna fortunei's Survival?|Aquat. Toxicol.239:9 p.|2021|10.1016/j.aquatox.2021.105957
188386|A||Yamamoto,T.O.|Induction of Reversal in Sex Differentiation of YY Zygotes in the Medaka, Oryzias latipes|Genetics48:293-306|1963|10.1093/genetics/48.2.293
188387|A||Martins,R.X., L. Vieira, J.A.C.R. Souza, M.G.F. Silva, M.S. Muniz, T. Souza, F.R. Queiroga, M.R.F. Machado, P.M. Da Sil|Exposure to 2,4-D Herbicide Induces Hepatotoxicity in Zebrafish Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol.248:8p.|2021|10.1016/j.cbpc.2021.109110
188388|A||Hosea,R.C., and B. Finlayson|Controlling the Spread of New Zealand Mud Snails on Wading Gear|State of California, The Resources Agency, Department of Fish and Game, Office of Spill Prevention and Response, Administrative Report 2005:45 p.|2005|
188389|T||Aygun,A., and D. Sert|Effects of Ultrasonic Treatment on Eggshell Microbial Activity, Hatchability, Tibia Mineral Content, and Chick Performance in Japanese Quail (Coturnix coturnix japonica) Eggs|Poult. Sci.91(3): 732-738|2012|10.3382/ps.2011-01901
188390|T||Calkins,T.L., P.M. Piermarini, and A. Delaat|Physiological Characterization and Regulation of the Contractile Properties of the Mosquito Ventral Diverticulum (Crop)|J. Insect Physiol.103:98-106|2017|10.1016/j.jinsphys.2017.10.012
188391|A||Carbajo,J.B., A.L. Petre, R. Rosal, A. Berna, P. Leton, E. Garcia-Calvo, and J.A. Perdigon-Melon|Ozonation as Pre-Treatment of Activated Sludge Process of a Wastewater Containing Benzalkonium Chloride and NiO Nanoparticles|Chem. Eng. J.283:740-749|2016|10.1016/j.cej.2015.08.001
188392|A||Kim,T.K., M. Jang, and Y.S. Hwang|Adsorption of Benzalkonium Chlorides onto Polyethylene Microplastics: Mechanism and Toxicity Evaluation|J. Hazard. Mater.426:7 p.|2022|
188393|T||Marco,A., S. Santos, J. Caetano, M. Pintado, E. Vieira, and P.R. Moreira|Basil Essential Oil as an Alternative to Commercial Biocides Against Fungi Associated with Black Stains in Mural Painting|Build. Environ.167:9 p.|2020|10.1016/j.buildenv.2019.106459
188394|T||Stoffolano,J.G., L. Danai, and J. Chambers|Effect of Channel Blockers on the Smooth Muscle of the Adult Crop of the Queen Blowfly, Phormia regina|J. Insect Sci.13(97): 10 p.|2013|10.1673/031.013.9701
188396|A||Vaerewijck,M.J.M., K. Sabbe, J. Bare, H.P. Spengler, H.W. Favoreel, and K. Houf|Assessment of the Efficacy of Benzalkonium Chloride and Sodium Hypochlorite Against Acanthamoeba polyphaga and Tetrahymena spp.|J. Food Prot.75(3): 541-546|2012|10.4315/0362-028X.JFP-11-359
188397|A||Wang,J., T. Zhang, X. Zhang, M. Asif, L. Jiang, S. Dong, T. Gu, and H. Liu|Inhibition Effects of Benzalkonium Chloride on Chlorella vulgaris Induced Corrosion of Carbon Steel|J. Mater. Sci. Technol.43:14-20|2020|10.1016/j.jmst.2020.
188398|T||Pozo-Antonio,J.S., P. Barreiro, G. Paz-Bermudez, P. Gonzalez, and A.B. Fernandes|Effectiveness and Durability of Chemical- and Laser-Based Cleanings of Lichen Mosaics on Schists at Archaeological Sites|Int. Biodeterior. Biodegrad.163:13 p.|2021|10.1016/j.ibiod.2021.105276
188399|A||Hoffman,G., and G.L. Hoffman|Studies on the Control of Whirling Disease (Myxosoma cerebralis). I. The Effects of Chemicals on Spores In Vitro, and of Calcium Oxide as a Disinfectant in Simulated Ponds|J. Wildl. Dis.8(1): 49-53|1972|10.7589/0090-3558-8.1.49
188400|A||Zhang,S.N., X. Guo, S. Lu, J. He, Q. Wu, X. Liu, Z.Y. Han, and P. Xie|Perfluorohexanoic Acid Caused Disruption of the Hypothalamus-Pituitary-Thyroid Axis in Zebrafish Larvae|Ecotoxicol. Environ. Saf.232:8 p.|2022|10.1016/j.ecoenv.2022.113283
188401|A||Manera,M., G. Castaldelli, C. Guerranti, and L. Giari|Effect of Waterborne Exposure to Perfluorooctanoic Acid on Nephron and Renal Hemopoietic Tissue of Common Carp Cyprinus carpio|Ecotoxicol. Environ. Saf.234:10 p.|2022|10.1016/j.ecoenv.2022.113407
188402|A||Christen,V., S. Faltermann, N.R. Brun, P.Y. Kunz, and K. Fent|Cytotoxicity and Molecular Effects of Biocidal Disinfectants (Quaternary Ammonia, Glutaraldehyde, Poly(Hexamethylene Biguanide) Hydrochloride PHMB) and Their Mixtures In Vitro and in Zebrafish Eleuthero-Embryos|Sci. Total Environ.586:1204-1218|2017|10.1016/j.scitotenv.2017.02.114
188403|T||Lees,R.S., P. Ambrose, J. Williams, J. Morgan, G. Praulins, V.A. Ingham, C.T. Williams, R.A.E. Logan, H.M. Ismail, and |Tenebenal: A Meta-Diamide with Potential for Use as a Novel Mode of Action Insecticide for Public Health|Malar. J.19(1): 17 p.|2020|10.1186/s12936-020-03466-4
188404|T||Ntwampe,S.K.O., and M.S. Sheldon|Effect of a Perfluorocarbon-Pluronic F 68-Based Emulsion on a Phanerochaete chrysosporium Biofilm Immobilised in a Membrane Gradostat Bioreactor|Asia-Pac. J. Chem. Eng.5(1SI): 101-110|2010|10.1002/apj.383
188405|A||Cowling,M.J., T. Hodgkiess, A.C.S. Parr, M.J. Smith, and S.J. Marrs|An Alternative Approach to Antifouling Based on Analogues of Natural Processes|Sci. Total Environ.258(1): 129-137|2000|10.1016/S0048-9697(00)00513-1
188406|T||Ngufor,C., R. Govoetchan, A. Fongnikin, E. Vigninou, T. Syme, M. Akogbeto, and M. Rowland|Efficacy of Broflanilide (Vectron T500), a New Meta-Diamide Insecticide, for Indoor Residual Spraying Against Pyrethroid-Resistant Malaria Vectors|Sci. Rep.11(1): 14 p.|2021|10.1038/s41598-021-86935-3
188407|A||Sabo-Attwood,T., J.L. Blum, K.J. Kroll, V. Patel, D. Birkhoiz, N.J. Szabo, S.Z. Fisher, R. Mckenna, M. Campbell-Thompso|Distinct Expression and Activity Profiles of Largemouth Bass (Micropterus salmoides) Estrogen Receptors in Response to Estradiol and Nonylphenol|J. Mol. Endocrinol.39:223-237|2007|10.1677/JME-07-0038
188408|T||Eidmann,H.H., H. Nordenhem, and J. Weslien|Physical Protection of Conifer Seedlings Against Pine Weevil Feeding|Scand. J. For. Res.11(1): 68-75|1996|10.1080/02827589609382913
188409|T||Snetselaar,J., M.W. Rowland, B.J. Manunda, E.M. Kisengwa, G.J. Small, D.J. Malone, F.W. Mosha, and M.J. Kirby|Efficacy of Indoor Residual Spraying with Broflanilide (Tenebenal), a Novel Meta-Diamide Insecticide, Against Pyrethroid-Resistant Anopheline Vectors in Northern Tanzania: An Experimental Hut Trial|PLoS One16(3): 17 p.|2021|10.1371/journal.pone.0248026
188410|T||Shen,N., Y. Li, K. Leviticus, X.L. Chang, T. Tang, L. Cui, Z.J. Han, and C.Q. Zhao|Effect of Broflanilide on the Phytophagous Mite Tetranychus urticae and the Predatory Mite Typhlodromips swirskii|Pest Manag. Sci.77(6): 2964-2970|2021|10.1002/ps.6335
188411|A||Garcia-Reyero,N., B.S. Jayasinghe, K.J. Kroll, T. Sabo-Attwood, and N.D. Denslow|Estrogen Signaling Through Both Membrane and Nuclear Receptors in the Liver of Fathead Minnow|Gen. Comp. Endocrinol.257:50-66|2018|10.1016/j.ygcen.2017.07.019
188412|T||Sun,X., R. Wei, L. Li, B. Zhu, P. Liang, and X. Gao|Resistance and Fitness Costs in Diamondback Moths After Selection Using Broflanilide, a Novel Meta-Diamide Insecticide|J. Insect Sci.29(1): 11 p.|2021|10.1111/1744-7917.12917
188413|T||Tang,T., F. Hu, P. Wang, W. Fu, and X. Liu|Broflanilide Effectively Controls Helicoverpa amigera and Spodoptera exigua Exhibiting Diverse Susceptibilities to Chlorantraniliprole and Emamectin Benzoate|Pest Manag. Sci.77(3): 1262-1272|2021|10.1002/ps.6139
188414|T||Van Herk,W.G., R.S. Vernon, L. Goudis, and T. Mitchell|Broflanilide, a Meta-Diamide Insecticide Seed Treatment for Protection of Wheat and Mortality of Wireworms (Agriotes obscurus) in the Field|J. Econ. Entomol.114(1): 161-173|2021|10.1093/jee/toaa239
188415|T||Jia,Z.Q., E.L. Zhan, S.G. Zhang, A.K. Jones, L. Zhu, Y.N. Wang, Q.T. Huang, Z.J. Han, and C.Q. Zhao|Sublethal Doses of Broflanilide Prevents Molting in the Fall Armyworm, Spodoptera frugiperda Via Altering Molting Hormone Biosynthesis|Pestic. Biochem. Physiol.181:7 p.|2022|10.1016/j.pestbp.2021.105017
188416|A||Bhuyar,P., M.M. Yusoff, M.H.A. Rahim, S. Sundararaju, G.P. Maniam, and N. Govindan|Effect of Plant Hormones on the Production of Biomass and Lipid Extraction for Biodiesel Production from MicroAlgae Chlorella sp.|J. Microbiol. Biotechnol. Food Sci.9(4): 671-674|2020|10.15414/JMBFS.2020.9.4.671-674
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188419|T||Hall,A.J., and G.E. Duke|Effect of Selective Gastric Intrinsic Denervation on Gastric Motility in Turkeys|Poult. Sci.79(2): 240-244|2000|10.1093/ps/79.2.240
188420|A||Holcombe,G.W., G.L. Phipps, and J.T. Fiandt|Effects of Phenol,2,4-Dimethylphenol,2,4-Dichlorophenol, and Pentachlorophenol on Embryo, Larval, and Early-Juvenile Fathead Minnows (Pimephales promelas)|Arch. Environ. Contam. Toxicol.11(1): 73-78|1982|10.1007/BF01055189
188421|A||Lu,G.H., C. Wang, Z.Y. Tang, and X.L. Guo|Quantitative Structure-Activity Relationships for Predicting the Joint Toxicity of Substituted Anilines and Phenols to Algae|Bull. Environ. Contam. Toxicol.78(2): 73-77|2007|10.1007/s00128-007-9005-1
188422|A||Madsen,J.D., and G.B. Kyser|Herbicides for Management of Waterhyacinth in the Sacramento-San Joaquin River Delta, California|J. Aquat. Plant Manag.58:98-104|2020|
188423|T||Yildirim,I., A. Aygun, and D. Sert|Effects of Preincubation Application of Low and High Frequency Ultrasound on Eggshell Microbial Activity, Hatchability, Supply Organ Weights at Hatch, and Chick Performance in Japanese Quail (Coturnix coturnix japonica)|Poult. Sci.94(7): 1678-1684|2015|10.3382/ps/pev110
188424|A||Piotrowska,A., A. Syguda, B. Wyrwas, L. Chrzanowski, T. Luckenbach, and H.J. Heipieper|Effects of Ammonium-Based Ionic Liquids and 2,4-Dichlorophenol on the Phospholipid Fatty Acid Composition of Zebrafish Embryos|PLoS One13(1): 11 p.|2018|10.1371/journal.pone.0190779
188425|A||Groothuis,F.A., N. Timmer, E. Opsahl, B. Nicol, S.T.J. Droge, B.J. Blaauboer, and N.I. Kramer|Influence of In Vitro Assay Setup on the Apparent Cytotoxic Potency of Benzalkonium Chlorides|Chem. Res. Toxicol.32(6): 1103-1114|2019|10.1021/acs.chemrestox.8b00412
188426|T||Chhokar,R.S., R.K. Sharma, S.C. Gill, and R.K. Singh|Mesotrione and Atrazine Combination to Control Diverse Weed Flora in Maize|Indian J. Weed Sci.51(2): 145-150|2019|10.5958/0974-8164.2019.00032.7
188427|A||Lv,H., Q.E. Wang, S. Wang, B. Qi, J. He, and S. Jia|Enhancing Biomass Production of Dunaliella salina via Optimized Combinational Application of Phytohormones|Aquaculture503:146-155|2019|10.1016/j.aquaculture.2018.12.077
188428|A||Nanayama,Y., K. Sazawa, Y. Yustiawati, M.S. Syawal, M. Fukushima, and H. Kuramitz|Effect of Humic Acids on the Toxicity of Pollutants to Chlamydomonas reinhardtii: Investigation by a Microscale Algal Growth Inhibition Test|Environ. Sci. Pollut. Res. Int.28(1): 211-219|2021|10.1007/s11356-20-10425-8
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188430|A||Wang,Q.L., Y.D. Liu, Y.W. Shen, C.Y. Jin, J.S. Lu, J.M. Zhu, S.H. Li, and S.H. Ley|Studies on Mixed Mass Cultivation of Anabaena ssp. (Nitrogen-Fixing Blue-Green-Algae, Cyanobacteria) on a Large-Scale|Bioresour. Technol.38:221-228|1991|10.1016/0960-8524(91)90158-G
188431|A||Sanchez-Fortun,S., M.T. Llorente, and A. Castano|Genotoxic Effects of Selected Biocides on RTG-2 Fish Cells by Means of a Modified Fast Micromethod Assay|Aquat. Toxicol.73(1): 55-64|2005|10.1016/j.aquatox.2005.03.002
188432|A||Elersek,T., M. Zenko, and M. Filipic|Ecotoxicity of Disinfectant Benzalkonium Chloride and Its Mixture with Antineoplastic Drug 5-Fluorouracil Towards Alga Pseudokirchneriella subcapitata|PeerJ6:14 p.|2018|10.7717/peerj.4986
188433|A||Kuzmina,V.V., A.F. Tarleva, and E.L. Gracheva|Influence of Various Concentrations of Phenol and Its Derivatives on the Activity of Fish Intestinal Peptidases|Inland Water Biol.10(2): 228-234|2017|10.1134/S1995082917020092
188434|A||McKim,J.M., P.K. Schmieder, R.W. Carlson, E.P. Hunt, and G.J. Niemi|Use of Respiratory-Cardiovascular Responses of Rainbow Trout (Salmo gairdneri) in Identifying Acute Toxicity Syndromes in Fish: Part 1. Pentachlorophenol,2,4-Dichlorophenol, Tricaine Methanesulphonate and 1-Octanol|Environ. Toxicol. Chem.6(4): 295-312|1987|10.1002/etc.5620060407
188435|A||Turner,N.A., A.D. Russell, J.R. Furr, and D. Lloyd|Emergence of Resistance to Biocides During Differentiation of Acanthamoeba castellanii|J. Antimicrob. Chemother.46(1): 27-34|2000|10.1093/jac/46.1.27
188436|A||Jo,T., M.K. Sakata, H. Murakami, R. Masuda, and T. Minamoto|Universal Performance of Benzalkonium Chloride for the Preservation of Environmental DNA in Seawater Samples|Limnol. Oceanogr.19(11): 758-768|2021|10.1002/lom3.10459
188437|A||Paul,E., S. Johnson, and K.M. Skinner|Fish and Invertebrate Sensitivity to the Aquatic Herbicide AquaKleen|J. Freshw. Ecol.21(1): 163-168|2006|10.1080/02705060.2006.9664109
188438|A||Utsunomiya,A., T. Watanuki, K. Matsushita, and I. Tomita|Toxic Effects of Linear Alkylbenzenesulfonate and Quaternary Alkylammonium Chloride on Dunaliella sp. as Measured by 1H-NMR Analysis of Glycerol|Chemosphere35(6): 1215-1226|1997|10.1016/S0045-6535(97)00194-X
188439|A||Kincheloe,J.W.|The Effect of the Disinfectant Additive (Anti-Germ 77) in Pfizer Poultry Formula Terramycin on Three Species of Salmonids|Prog. Fish-Cult.25(1): 40-41|1963|10.1577/1548-8659(1963)25[40:TEOTDA]2.0.CO;2
188440|T||Keiser,J., and C. Haberli|Assessment of FDA-Approved Drugs Against Strongyloides ratti In Vitro and In Vivo to Identify Potentially Active Drugs Against Strongyloidiasis|Parasites Vectors14(1): 7 p.|2021|10.1186/s13071-021-05117-2
188441|A||Hicks,S.L.|Tetrabromobisphenol A: Japanese Medaka Short-Term Reproduction Assay. Final Report|EAG Laboratories Study Number 84662:406 p.|2018|
188443|A||U.S. Environmental Protection Agency|Fish Short-Term Reproduction Assay of 3,3',5,5'-Tetrabromobisphenol A (TBBPA) in Pimephales promelas|Report Number BATT01-00411:477 p.|2018|
188444|T||Futami,T., and Y. Aizawa|Effect of Surface-Active Agent on the Active Transport of Sodium in Frog Skin|Chem. Pharm. Bull.24(2): 193-199|1976|10.1248/cpb.24.193
188445|A||Gabriel,U.U., B.K. Macaulay, and O.S. Edori|Acute Toxicity and Behavioural Responses of African Catfish, Clarias gariepinus to Amine Salt of 2,4-D|Chin. J. Appl. Environ. Biol.16(3): 347-352|2010|
188446|A||Garcia,S.N., A. Siddiqui, A. Milligan, L. Zhang, and S.Z. Schneider|Tetrabromobisphenol A: Zebrafish Short-Term Reproduction Assay. Final Report|EAG Laboratories Project Number: 607A-106:299 p.|2018|
188447|A||Zafra-Lemos,L., L.F. Cusioli, R. Bergamasco, L.A. Borin-Carvalho, and A.L.B. Portela-Castro|Evaluation of the Genotoxic and Cytotoxic Effects of Exposure to the Herbicide 2,4-Dichlorophenoxyacetic Acid in Astyanax lacustris (Pisces, Characidae) and the Potential for Its Removal from Contaminated Water Using a |Mutat. Res., Genet. Toxicol. Environ. Mutagen.865:8 p.|2021|10.1016/j.mrgentox.2021.503335
188448|A||Union Carbide Environmental Services|The Acute Toxicity of Firemaster, PHT4 Lot No. 6332-B to Waterflea, Daphnia magna Straus|UCES Project 11506-03-75:9 p.|1978|
188449|A||Union Carbide Environmental Services|The Acute Toxicity of Firemaster, PHT4 Lot No. 6332-B to the Rainbow Trout Salmo gairdneri Richardson|UCES Project 11506-03-63:10 p.|1978|
188450|A||Union Carbide Environmental Services|The Acute Toxicity of Firemaster, PHT4 Lot No. 6332-B to the Bluegill Sunfish, Lepomis macrochirus|UCES Project 11506-03-62:10 p.|1978|
188451|A||Brown,R.J., D.V. Smyth, and S.J. Kent|TBBPA: Determination of Effects on the Growth of the Common Mussel Mytilus edulis|Report Number BL8004/B:86 p.|2005|
188452|A||Tsukazawa,K.S., L. Li, and W.K.F. Tse|2,4-Dichlorophenol Exposure Induces Lipid Accumulation and Reactive Oxygen Species Formation in Zebrafish Embryos|Ecotoxicol. Environ. Saf.230:7 p.|2022|10.1016/j.ecoenv.2021.113133
188453|A||Ebke,K.P., C. Felten, and L. Doren|Impact of Heterophylly on the Sensitivity of Myriophyllum aquaticum Biotests|Environ. Sci. Eur.25(1): 1-9|2013|10.1186/2190-4715-25-6
188454|A||Ali,S., G. Liu, and Z. Li|The Acute Toxicity of Phenolic Compounds and Heavy Metals on Brine Shrimp Artemia sinica (Crustacea: Artemiidae)|Sind Univ. Res. J. (Sci. Ser. )45(1): 21-24|2013|
188455|T||Mitova,M.M., M. Iliev, A. Novakova, A.A. Gorbushina, V.I. Groudeva, and P.M. Martin-Sanchez|Diversity and Biocide Susceptibility of Fungal Assemblages Dwelling in the Art Gallery of Magura Cave, Bulgaria|Int. J. Speleol.46(1): 67-80|2017|10.5038/1827-806X.46.1.2061
188456|A||Martinez-Ruiz,E.B., and F. Martinez-Jeronimo|Exposure to the Herbicide 2,4-D Produces Different Toxic Effects in Two Different Phytoplankters: A Green Microalga (Ankistrodesmus falcatus) and a Toxigenic Cyanobacterium (Microcystis aeruginosa)|Sci. Total Environ.619-620:1566-1578|2018|10.1016/j.scitotenv.2017.10.145
188457|A||Kim,S., K. Ji, H. Shin, S. Park, Y. Kho, K. Park, K. Kim, and K. Choi|Occurrences of Benzalkonium Chloride in Streams Near a Pharmaceutical Manufacturing Complex in Korea and Associated Ecological Risk|Chemosphere256:9 p.|2020|10.1016/j.chemosphere.2020.127084
188458|A||Houssou,A.M., D. Cocan, C.A. Bonou, V. Miresan, and E. Montchowui|Survival and Reproduction of Cyclops abyssorum (Freshwater Copepod) Exposed to Spirotetramat and 2,4-D|Rom. Biotechnol. Lett.23(4): 13761-13770|2018|10.26327/RBL2018.174
188459|A||American Chemistry Council|Tetrabromobisphenol-A (TBBPA): A 28-Day Sediment Toxicity Test with Chironomus riparius Using Spiked Sediment|Project 439A-130, Wildlife International, Easton, MD:71 p.|2005|
188460|A||Ozaslan,M.S., Y. Demir, M. Aksoy, O.I. Kufrevioglu, and S. Beydemir|Inhibition Effects of Pesticides on Glutathione-S-Transferase Enzyme Activity of Van Lake Fish Liver|J. Biochem. Mol. Toxicol.32(9): 5 p.|2018|10.1002/jbt.22196
188461|A||Krueger,H., T.Z. Kendall, and M. Jaber|Tetrabromobisphenol A: A Prolonged Sediment Toxicity Test with Lumbriculus variegatus Using Spiked Sediment with 5% Total Organic Carbon|Project 439A-116, Wildlife International Ltd., Easton, MD:104 p.|2002|
188462|T||Van Meter,R.J., D.A. Glinski, S.T. Purucker, and W.M. Henderson|Influence of Exposure to Pesticide Mixtures on the Metabolomic Profile in Post-Metamorphic Green Frogs (Lithobates clamitans)|Sci. Total Environ.624:1348-1359|2018|10.1016/j.scitotenv.2017.12.175
188463|A||Krueger,H., T.Z. Kendall, and M. Jaber|Tetrabromobisphenol A: A Prolonged Sediment Toxicity Test with Lumbriculus variegatus Using Spiked Sediment with 2% Total Organic Carbon|Project 439a-115, Wildlife International Ltd., Easton, MD:103 p.|2002|
188464|A||American Chemistry Council|Tetrabromobisphenol-A (TBBPA): A Prolonged Sediment Toxicity Test with Hyalella azteca Using Spiked Sediment|Wildlife International Ltd, Easton, MD:104 p.|2006|
188465|A||Lozano,V.L., S.A. Dohle, M.S. Vera, A. Torremorell, and H.N. Pizarro|Primary Production of Freshwater Microbial Communities is Affected by a Cocktail of Herbicides in an Outdoor Experiment|Ecotoxicol. Environ. Saf.201:11 p.|2020|10.1016/j.ecoenv.2020.110821
188466|A||Thomas,M.C., F. Flores, S. Kaserzon, R. Fisher, and A.P. Negri|Toxicity of Ten Herbicides to the Tropical Marine MicroAlgae Rhodomonas salina|Sci. Rep.10(1): 1-16|2020|10.1038/s41598-20-64116-y
188467|A||Holdway,D.A., D.G. Dixon, and K.L.E. Kaiser|The Acute Toxicity of Pulse-Dosed, Para-Substituted Phenols to Larval American Flagfish (Jordanella floridae): A Comparison with Toxicity to Photoluminescent Bacteria and Predicted Toxicity Using Log Kow|Sci. Total Environ.104(3): 229-237|1991|10.1016/0048-9697(91)90074-O
188468|A||Segner,H., and D. Lenz|Cytotoxicity Assays with the Rainbow Trout R Sub(1) Cell Line|Toxicology In Vitro:537-540|1993|
188469|A||Burridge,T.R., T. Portelli, and P. Ashton|Effect of Sewage Effluents on Germination of Three Marine Brown Algal Macrophytes|Mar. Freshw. Res.47(8): 1009-1014|1996|10.1071/MF9961009
188470|AT||Bukowska,B., E. Reszka, and W. Duda|Influence of Phenoxyherbicides and Their Metabolities on the Form of Oxy- and Deoxyhemoglobin of Vertebrates|Biochem. Mol. Biol. Int.45(1): 47-59|1998|
188471|AT||Jin,R.G., Y.B. Liu, B.E. Tabashnik, and D. Borthakur|Tissue Culture and Agrobacterium-Mediated Transformation of Watercress|Plant Cell Tissue Organ Cult.58(3): 171-176|1999|10.1023/A:1006399130272
188472|A||Harada,T., S. Satoh, T. Yoshioka, and K. Ishizawa|Expression of Sucrose Synthase Genes Involved in Enhanced Elongation of Pondweed (Potamogeton distinctus) Turions Under Anoxia|Ann. Bot.96(4): 683-692|2005|10.1093/aob/mci220
188473|A||Wersal,R.M., J.D. Madsen, T.E. Woolf, and N. Eckberg|Assessment of Herbicide Efficacy on Eurasian Watermilfoil and Impacts to the Native Submersed Plant Community in Hayden Lake, Idaho, USA|J. Aquat. Plant Manag.48:5-11|2010|
188474|T||Bernardi,A.O., A. Stefanello, M.V. Garcia, and M.V. Copetti|The Control of Cheese and Meat Product Spoilage Fungi by Sanitizers: In Vitro Testing and Food Industry Usage|LWT Food Sci. Technol.144:7 p.|2021|10.1016/j.lwt.2021.111204
188476|A||D'Angelo,J., and E. Freeman|Research Article: Effects of Endocrine-Disrupting Chemical Exposure on Zebrafish Ovarian Follicles|Bios88(1): 9-18|2017|10.1893/BIOS-D-15-5.1
188477|A||Guarino,A.M., M.O. James, and J.R. Bend|Fate and Distribution of the Herbicides 2,4-Dichlor-Phenoxyacetic Acid (2,4-D) and 2,4,5-Trichlorophenoxyacetic Acid (2,4,5-T) in the Dogfish Shark|Xenobiotica7(10): 623-631|1977|10.3109/00498257709038684
188478|A||Shing,W.L., T.Y. Hwang, K.W. Yi, L.J. Han, and O.G. Hock|Using the Responses of Green Algae Spirogyra as Bioindicator for Metals and Pesticides Pollution|J. Environ. Sci. Manag.21(2): 1-6|2018|10.47125/jesam/2018_2/01
188479|A||Ceylan,Z., T. Sisman, H. Dane, and S. Adil|The Embryotoxicity of Some Phenol Derivatives on Zebrafish, Danio rerio|Caspian J. Environ. Sci.17(1): 11-22|2019|10.22124/cjes.2019.3340
188480|A||Della Torre,C.J.,III, L.A. Gettys, W.T. Haller, J.A. Ferrell, and R. Leon|Efficacy of Aquatic Herbicides on Dwarf Rotala (Rotala rotundifolia)|J. Aquat. Plant Manag.55:13-18|2017|
188481|T||Khan,A.H., M. Libby, D. Winnick, J. Palmer, M. Sumarah, M.B. Ray, and S.M. Macfie|Uptake and Phytotoxic Effect of Benzalkonium Chlorides in Lepidium sativum and Lactuca sativa|J. Environ. Manag.206:490-497|2018|10.1016/j.jenvman.2017.10.077
188482|A||Banaoui,A., F. El Hamidi, A. Kaaya, A. Bouhaimi, A. Zekhnini, and A. Moukrim|Assessment of Multimarker Responses in Perna perna, Mytilus galloprovincialis and Donax trunculus Bivalves Exposed to Malathion and 2,4- Dichlorophenoxyacetic Acid Pesticides|J. Mater. Environ. Sci.6(6): 1678-1683|2015|
188483|A||Zhang,H., W. Yin, D. Ma, X. Liu, K. Xu, and J. Liu|Phytohormone Supplementation Significantly Increases Fatty Acid Content of Phaeodactylum tricornutum in Two-Phase Culture|J. Appl. Phycol.33(1): 13-23|2021|10.1007/s10811-20-2074-8
188484|A||Liyanage,N.P., and S.A. Gunasekera|Integration of Myrothecium roridum and 2,4-D in Waterhyacinth Management|J. Aquat. Plant Manag.27:15-20|1989|
188485|A||Green,W.R., and H.E. Westerdahl|Response of Eurasian Watermilfoil to 2,4-D Concentrations and Exposure Times|J. Aquat. Plant Manag.28:27-32|1990|
188486|T||Aygun,A., D. Sert, and G. Copur|Effects of Propolis on Eggshell Microbial Activity, Hatchability, and Chick Performance in Japanese Quail (Coturnix coturnix japonica) Eggs|Poult. Sci.91(4): 1018-1025|2012|10.3382/ps.2011-01944
188487|A||Koksoy,H., and B. Aslim|Determination of Herbicide Resistance in Aquatic Cyanobacteria by Probit Analysis|J. Appl. Biol. Sci.7(2): 37-41|2013|
188488|A||Liu,T., F. Liu, C. Wang, Z. Wang, and Y. Li|The Boosted Biomass and Lipid Accumulation in Chlorella vulgaris by Supplementation of Synthetic Phytohormone Analogs|Bioresour. Technol.232:44-52|2017|10.1016/j.biortech.2017.02.004
188489|A||Pompermaier,A., K. Kirsten, S.M. Soares, M. Fortuna, F. Kalichak, R. Idalencio, G. Koakoski, R.E. Barreto, and L.J.G. B|Waterborne Agrichemicals Compromise the Anti-Predatory Behavior of Zebrafish|Environ. Sci. Pollut. Res. Int.27(31): 38559-38567|2020|10.1007/s11356-20-9862-2
188490|A||da Silva Pinto,T.J., R.A. Moreira, L.C.M. Da Silva, M.P.C. Yoshii, B.V. Goulart, P.D. Fraga, V.L. Da Silva Rolim, C.C. |Toxicity of Fipronil and 2,4-D Formulations (Alone and in a Mixture) to the Tropical Amphipod Hyalella meinerti|Environ. Sci. Pollut. Res. Int.28(28): 38308-38321|2021|10.1007/s11356-21-13296-9
188491|A||Waller,D.L., and S.W. Fisher|Evaluation of Several Chemical Disinfectants for Removing Zebra Mussels from Unionid Mussels|Prog. Fish-Cult.60(4): 307-310|1998|10.1577/1548-8640(1998)060<0307:EOSCDF>2.0.CO;2
188492|AT||Bader,K.P., and S. Hoper|Stimulatory Effects of an Ammonium Salt Biocide on Photosynthetic Electron Transport Reactions|Z. Naturforsch. Sect. C J. Biosci.49(1-2): 87-94|2014|10.1515/znc-1994-1-214
188493|T||Takeuchi,N., Y. Takikawa, and N. Shibuya|Actions of Benzalkonium Chloride as a Potent Depressant at the Neuromuscular Junction|Neuropharmacology32(4): 377-385|1993|10.1016/0028-3908(93)90160-5
188494|A||Niszl,I.A., and M.B. Markus|Anti-Acanthamoeba Activity of Contact Lens Solutions|Br. J. Ophthalmol.82(9): 1033-1038|1998|10.1136/bjo.82.9.1033
188495|AT||De,A., A. Ghosh, K. Biswas, and M.K. Adak|Moderation of Physiological Responses in Rice Plants with Azolla Under 2,4-Dichlorophenoxy Acetic Acid Stress|Mol. Biol. Rep.46(1): 59-66|2019|10.1007/s11033-18-4443-x
188496|T||Dos Santos,A.L.W., V. Silveira, N. Steiner, M. Vidor, and M.P. Guerra|Somatic Embryogenesis in Parana Pine (Araucaria angustifolia (Bert.) O. Kuntze)|Braz. Arch. Biol. Technol.45(1): 97-106|2002|10.1590/S1516-89132002000100015
188497|A||Al-Shami,S.A., M.R. Che Salmah, M.N. Siti Azizah, A. Abu Hassan, and M. Azmi|Toxicity of Two Herbicides 2,4-D Dimethylamine and Bensulfuron Methyl to Rice Field Chironomus kiiensis (Tokunaga) (Diptera: Chironomidae)|Wetland Sci.4(4): 241-246|2006|
188498|AT||Cheng,X., and H. Ni|Weed Control Efficacy and Winter Wheat Safety of a Novel Herbicide HW02|Crop Prot.43:246-250|2013|10.1016/j.cropro.2012.10.016
188499|A||Cope,O.B., E.M. Wood, and G.H. Wallen|Some Chronic Effects of 2,4-D on Bluegill (Lepomis macrochirus)|Trans. Am. Fish. Soc.99(1): 1-12|1970|10.1577/1548-8659(1970)99<1:SCEODO>2.0.CO;2
188500|T||Jacobs,R., J. Humphrys, K.S. Dodgson, and R.J. Richards|Light and Electron Microscope Studies of the Rat Digestive Tract Following Prolonged and Short-Term Ingestion of Chrysotile Asbestos|Int. J. Exp. Pathol.59(5): 443-453|1978|
188501|A||Zanetti,S., P.L. Fiori, A. Pinna, S. Usai, F. Carta, and G. Fadda|Susceptibility of Acanthamoeba castellanii to Contact Lens Disinfecting Solutions|Antimicrob. Agents Chemother.39(7): 1596-1598|1995|10.1128/AAC.39.7.1596
188502|T||Lenoir,J., C. Bachert, J.P. Remon, and E. Adriaens|The Slug Mucosal Irritation (SMI) Assay: A Tool for the Evaluation of Nasal Discomfort|Toxicol. In Vitro27(6): 1954-1961|2013|10.1016/j.tiv.2013.06.018
188503|T||Jessl,L., R. Lenz, F.G. Massing, J. Scheider, and J. Oehlmann|Effects of Estrogens and Antiestrogens on Gonadal Sex Differentiation and Embryonic Development in the Domestic Fowl (Gallus gallus domesticus)|PeerJ6:25 p.|2018|10.7717/peerj.5094
188504|T||Hasanoglu,H.C., E. Bayram, A. Hasanoglu, and F. Demirag|Orally Ingested Chrysotile Asbestos Affects Rat Lungs and Pleura|Arch. Environ. Occup. Health63(2): 71-75|2008|10.3200/AEOH.63.2.71-75
188505|T||Lee,M.Y., S.C. Jung, J.H. Lee, and H.J. Han|Estradiol-17 beta Protects Against Hypoxia-Induced Hepatocyte Injury Through ER-Mediated Upregulation of Bcl-2 as Well as ER-Independent Antioxidant Effects|Cell Res18(4): 491-499|2008|10.1038/cr.2008.42
188506|T||Badawy,M.E.I., A. Kenawy, and A.F. El-Aswad|Toxicity Assessment of Buprofezin, Lufenuron, and Triflumuron to the Earthworm Aporrectodea caliginosa|Int. J. Zool.2013:1-9|2013|10.1155/2013/174523
188507|T||Pelis,R.M., R.C. Hartman, S.H. Wright, T.M. Wunz, and C.E. Groves|Influence of Estrogen and Xenoestrogens on Basolateral Uptake of Tetraethylammonium by Opossum Kidney Cells in Culture|J. Pharmacol. Exp. Ther.323(2): 555-561|2007|10.1124/jpet.107.126748
188508|T||Saha,I., and V.C. Joy|Short-Term Biochemical Ill Effects of Insect Growth Regulator (IGR) Pesticides in Cyphoderus javanus Borner (Collembola: Insecta) as Potential Biomarkers of Soil Pollution|Environ. Monit. Assess.188(2): 9 p.|2016|10.1007/s10661-015-5083-4
188510|T||Duraimurugan,P., and M. Lakshminarayana|Effect of Novel Insecticides to Trichogramma chilonis and Snellenius maculipennis, the Potential Parasitoids of Castor Semilooper|J. Environ. Biol.39(5): 592-596|2018|10.22438/jeb/39/5/MRN-846
188511|T||Gancarczyk,M., A. Paziewska-Hejmej, S. Carreau, M. Tabarowski, and B. Bilinska|Dose- and Photoperiod-Dependent Effects of 17 beta-Estradiol and the Anti-Estrogen ICI 182,780 on Testicular Structure, Acceleration of Spermatogenesis, and Aromatase Immunoexpression in Immature Bank Voles|Acta Histochem.106(4): 269-278|2004|10.1016/j.acthis.2004.04.002
188512|T||Tan,W., H. Zheng, D. Wang, F. Tian, H. Li, and X. Liu|Expression Characteristics and Regulatory Mechanism of Apela Gene in Liver of Chicken (Gallus gallus)|PLoS One15(9): 16p.|2020|10.1371/journal.pone.0238784
188513|T||Schneider,U., and R.R. Maurer|Asbestos and Embryonic Development|Teratology15(3): 273-279|1977|10.1002/tera.1420150309
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188515|T||Williams,J.P., H.C. Blair, M.A. McKenna, S.E. Jordan, and J.M. McDonald|Regulation of Avian Osteoclastic H+-ATPase and Bone Resorption by Tamoxifen and Calmodulin Antagonists - Effects Independent of Steroid Receptors|J. Biol. Chem.271(21): 12488-12495|1996|10.1074/jbc.271.21.12488
188516|T||Wang,Z., C. Li, Y. Shao, W. Xue, N. Wang, X. Xu, and Z. Zhang|Antioxidant Defense System Responses, Lysosomal Membrane Stability and DNA Damage in Earthworms (Eisenia fetida) Exposed to Perfluorooctanoic Acid: An Integrated Biomarker Approach to Evaluating Toxicity|RSC Adv.11:26481-26492|2021|10.1039/d1ra04097a
188517|A||Mori,M., and M. Wakabayashi|Cytotoxicity Evaluation of Synthesized Chemicals Using Suspension-Cultured Fish Cells|Fish. Sci.66(5): 871-875|2000|10.1046/j.1444-2906.2000.00141.x
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188522|T||Boek,W.M., S.G. Romeijn, K. Graamans, J.C. Verhoef, F. Merkus, and E.H. Huizing|Validation of Animal Experiments on Ciliary Function In Vitro. II. The Influence of Absorption Enhancers, Preservatives and Physiologic Saline|Acta Oto-Laryngol.119(1): 98-101|1999|10.1080/00016489950182025
188523|T||Jain,A., S. Bhadauria, and A. Mendezvilas|Biofilm Formation by Algae on Sandstone Monuments and Their Inhibition: A Case Study of Agra (India)|In: Proceedings of the III International Conference on Environmental, Industrial and Applied Microbiology, December 2-4 2009, Lisbon, Portugal:277-280|2011|
188524|A||Nauheim,R.C., R.J. Brockman, S.S. Stopak, P.W. Turgeon, G. Keleti, M.I. Roat, and R.A. Thoft|Survival of Acanthamoeba in Contact Lens Rinse Solutions|Cornea9(4): 290-293|1990|10.1097/00003226-199010000-00004
188525|T||Mandal,P.K., M.K. Gupta, K.K. Singh, and R. Yadava|Biochemical Profile of Benzalkonium Chloride Toxicity in Broiler Birds|Indian J. Anim. Sci.74(2): 131-134|2004|
188526|T||Kumar,A., and R. Narasimhan|Ripening in Sugarcane with Polaris, Cetrimide and Hyamine 1622|Indian Sugar27(8): 437-441|1977|
188527|T||Braga,P.C., G. Piatti, A. Bernini, and M. Dal Sasso|Topical Tolerability of Calcitonin Nasal Preparation, Its Excipients and Sodium Taurocholate Studied by SEM and Mucociliary Transport Velocity|Drug Invest.4(1): 40-46|1992|10.1007/BF03258377
188528|T||Contreras-Miranda,J.A., B. Piovesan, B. Ueno, D. Bernardi, M. Botton, and D.E. Nava|Use of Preservatives in Vegetable Protein-Based Food Attractants for Monitoring Anastrepha fraterculus (Diptera: Tephritidae) in Peach Orchards|Neotrop. Entomol. (Multiple Languages)50(3): 476-483|2021|10.1007/s13744-021-00852-8
188529|T||Hough-Troutman,W.L., M. Smiglak, S. Griffin, W.M. Reichert, I. Mirska, J. Jodynis-Liebert, T. Adamska, J. Nawrot, M. St|Ionic Liquids with Dual Biological Function: Sweet and Anti-Microbial, Hydrophobic Quaternary Ammonium-Based Salts|New J. Chem.33(1): 26-33|2009|10.1039/B813213P
188530|T||Bell,P., R.E. Down, H.J. Matthews, R.E. Isaac, and N. Audsley|Peptidergic Control of the Crop of the Cabbage Root Fly, Delia radicum (L.) Diptera: Anthomyiidae): A Role for Myosuppressin|Gen. Comp. Endocrinol.278:50-57|2019|10.1016/j.ygcen.2018.08.001
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188533|A||Taft,C.H.|Some Observations on the Effects of a Mixture of High Molecular Alkyl-Dimethyl-Benzyl Ammonium Chlorides on Various Invertebrates|Texas Rep. Biol. Med.4(1): 27-34|1946|
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188535|T||Jordan,C.N., J.A. DiCristina, and D.S. Lindsay|Activity of Bleach, Ethanol and Two Commercial Disinfectants against Spores of Encephalitozoon cuniculi|Vet. Parasitol.136(3-4): 343-346|2006|10.1016/j.vetpar.2005.11.005
188536|T||Braga,P.C., G. Piatti, M. Dalsasso, and A. Bernini|The Effects of Calcitonin Nasal Preparations and Their Excipients on Mucociliary Clearance in an Ex-Vivo Frog Palate Test|J. Pharm. Pharmacol.44(11): 938-940|1992|10.1111/j.2042-7158.1992.tb03242.x
188538|A||Shah,S.I., A.C. Williams, W.M. Lau, and V.V. Khutoryanskiy|Planarian Toxicity Fluorescent Assay: A Rapid and Cheap Pre-Screening Tool for Potential Skin Irritants|Toxicol. In Vitro69:8 p.|2020|10.1016/j.tiv.2020.105004
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188540|AT||Silvany,R.E., J.M. Dougherty, and J.P. Mcculley|Effect of Contact Lens Preservatives on Acanthamoeba|Ophthalmology98(6): 854-857|1991|10.1016/S0161-6420(91)32210-3
188541|AT||Silvany,R.E., J.M. Dougherty, J.P. Mcculley, T.S. Wood, R.W. Bowman, and M.B. Moore|The Effect of Currently Available Contact Lens Disinfection Systems on Acanthamoeba castellanii and Acanthamoeba polyphaga|Ophthalmology97(3): 286-290|1990|10.1016/S0161-6420(90)32590-3
188542|A||Gotow,T., and T. Nishi|Involvement of a Go-Type G-Protein Coupled to Guanylate Cyclase in the Phototransduction cGMP Cascade of Molluscan Simple Photoreceptors|Brain Res.1144:42-51|2007|10.1016/j.brainres.2007.01.068
188543|T||Chaplin,S.B., G.E. Duke, H. Hunt, and L.A. Degernes|Chemical Denervation of the Myenteric Plexus of the Muscular Stomach of Turkeys|Comp. Biochem. Physiol. C Toxicol. Pharmacol.88C(1): 201-207|1987|10.1016/0742-8413(87)90069-7
188544|T||Cappitelli,F., P. Abbruscato, P. Foladori, E. Zanardini, G. Ranalli, P. Principi, F. Villa, A. Polo, and C. Sorlini|Detection and Elimination of Cyanobacteria from Frescoes: The Case of the St. Brizio Chapel (Orvieto Cathedral, Italy)|Microb. Ecol.57(4): 633-639|2009|10.1007/s00248-008-9441-4
188545|T||Romeijn,S.G., J.C. Verhoef, E. Marttin, and F.W.H.M. Merkus|The Effect of Nasal Drug Formulations on Ciliary Beating In Vitro|Int. J. Pharmaceut.135(1): 137-145|1996|10.1016/0378-5173(96)04460-2
188546|AT||Tu,E.Y., M.E. Shoff, W. Gao, and C.E. Joslin|Effect of Low Concentrations of Benzalkonium Chloride on Acanthamoebal Survival and Its Potential Impact on Empirical Therapy of Infectious Keratitis|JAMA Ophthalmol.131(5): 595-600|2013|10.1001/jamaophthalmol.2013.1644
188547|T||Singh,P., N. Arya, P. Tiwari, A. Suman, R.K. Rai, A.K. Shrivastava, and S. Solomon|Use of Glutaraldehyde and Benzalkonium Chloride for Minimizing Post-Harvest Physio-Chemical and Microbial Changes Responsible for Sucrose Losses in Sugar Cane|J. Agric. Food Chem.56(16): 7176-7183|2008|10.1021/jf801394j
188548|T||Lange,A.B., I. Orchard, Z. Wang, and R.J. Nachman|A Nonpeptide Agonist of the Invertebrate Receptor for SchistoFLRFamide (PDVDHVFLRFamide), a Member of a Subfamily of Insect FMRFamide-Related Peptides|Proc. Natl. Acad. Sci. U.S.A.92(20): 9250-9253|1995|10.1073/pnas.92.20.9250
188549|T||Richer,S., J.G. Stoffolano, C.M. Yin, and R. Nichols|Innervation of Dromyosuppressin (DMS) Immunoreactive Processes and Effect of DMS and Benzethonium Chloride on the Phormia regina (Meigen) Crop|J. Comp. Neurol.421(1): 136-142|2000|10.1002/(SICI)1096-9861(20000522)421:1<136::AID-CNE8>3.0.CO;2-C
188550|T||Singaram, Sweet, Gaumnitz, Bass, and Snipes |Evaluation of Early Events in the Creation of Amyenteric Opossum Model of Achalasia|Neurogastroenterol. Motil.8(4): 351-361|1996|10.1111/j.1365-2982.1996.tb00273.x
188551|A||Santillo,M.F., M.L. Heien, and A.G. Ewing|Temporal Analysis of Protozoan Lysis in a Microfluidic Device|Lab Chip9(19): 2796-2802|2009|10.1039/b907942d
188552|A||Wang,W.H., I.M. Chen, and Y.C. Wen|Effects of Benzalkonium Chloride (BKC) on Water Quality Dynamics in Shrimp Ponds|Proceedings of the Third Asian Fisheries Forum, Singapore:23-26|1994|
188553|A||Kreuzinger,N., M. Fuerhacker, S. Scharf, M. Uhl, O. Gans, and B. Grillitsch|Methodological Approach Towards the Environmental Significance of Uncharacterized Substances - Quaternary Ammonium Compounds as an Example|Desalination215(1-3): 209-222|2007|10.1016/j.desal.2006.10.036
188554|T||Jameson,E.W.|The Cost and Effectiveness of Controlling Microtus by Zinc Phosphide|J. Wildl. Manag.22:100-103|1958|10.2307/3797310
188555|A||Centre International de Toxicologie|Ammonium perfluorooctanoate (APFO): Daphnia magna Reproduction Test|Study No. 22658 ECD. Evreux (FR):52 p.|2003|
188556|A||Centre International de Toxicologie|Ammonium perfluorooctanoate (APFO): Early-Life Stage Toxicity Test in Rainbow Trout Under Flow-Through Conditions|Study No. 22659 ECP. Evreux (FR): OPPT Administrative Record AR226-1803.:112 p.|2004|
188557|A||Elnabarawy,M.T.|Aquatic Toxicity Testing: FC-143 (Lot-37) L.R. 5626 S|Report No. 037; OPPT Administrative Record AR226-0504:3780-3786|1980|
188558|A||Elnabarawy,M.T.|Multi-Phase Exposure/Recovery Algal Assay Test Method|Report No. 006; OPPT Administrative Record AR226-0506:3791-3810|1981|
188559|A||Rericha,Y., D. Cao, L. Truong, M. Simonich, J.A. Field, and R.L. Tanguay|Behavior Effects of Structurally Diverse Per- and Polyfluoroalkyl Substances in Zebrafish|Chem. Res. Toxicol.34(6): 1409-1416|2021|10.1021/acs.chemrestox.1c00101
188560|T||Dimmick,R.W.|Zinc Phosphide and Prolin for Controlling Prairie Voles in Virginia Pine Plantations|Proc. Annu. Conf. Southeast. Assoc. Fish Wildl. Agencies26:293-295|1973|
188561|T||Po-Yu,W.|Control of Sugarcane Field Rats with Zinc Phosphide|Taiwan Sugar20(3): 110-113|1973|
188562|T||Rowe,F.P., T. Swinney, and A. Bradfield|Field Trials of the Rodenticide Gophacide Against Wild House Mice (Mus musculus L.)|Epidemiol. Infect.74(1): 109-114|1975|10.1017/S0022172400046763
188563|T||Barnett,S.A., P.E. Cowan, G.G. Radford, and I. Prakash|Peripheral Anosmia and the Discrimination of Poisoned Food by Rattus rattus L.|Behav. Biol.13(2): 183-190|1975|10.1016/S0091-6773(75)91852-0
188564|T||Bhardwaj,D., and J.A. Khan|Mitigating Poison and Bait-Shyness Developed by Wild Rats (Rattus rattus L.): Effect of Poisoning at Short Intervals|Indian J. Exp. Biol.15(8): 624-626|1977|
188565|T||Rowe,F.P., T. Swinney, and A. Bradfield|Trials of the Rodenticide Pyriminil Against Wild House Mice (Mus musculus L.)|J. Hyg.80(2): 315-319|1978|10.1017/S0022172400053675
188566|A||Rider,C.V., P.C. Hartig, M.C. Cardon, and V.S. Wilson|Comparison of Chemical Binding to Recombinant Fathead Minnow and Human Estrogen Receptors alpha in Whole Cell and Cell-Free Binding Assays|Environ. Toxicol. Chem.28(10): 2175-2181|2009|10.1897/09-018.1
188567|A||Lam,S.H., S.G.P. Lee, C.Y. Lin, J.S. Thomsen, P.Y. Fu, K.R.K. Murthy, H. Li, K.R. Govindarajan, L.C.H. Nick, G. Bourque|Molecular Conservation of Estrogen-Response Associated with Cell Cycle Regulation, Hormonal Carcinogenesis and Cancer in Zebrafish and Human Cancer Cell Lines|BMC Med Genomics4:15 p.|2011|10.1186/1755-8794-4-41
188568|A||Liu,K.C., S.W. Lin, and W. Ge|Differential Regulation of Gonadotropin Receptors (FSHR and LHCGR) by Estradiol in the Zebrafish Ovary Involves Nuclear Estrogen Receptors that are Likely Located on the Plasma Membrane|Endocrinology152(11): 4418-4430|2011|10.1210/en.2011-1065
188569|A||Madureira,T.V., F. Malhao, I. Pinheiro, C. Lopes, N. Ferreira, R. Urbatzka, L.F.C. Castro, and E. Rocha|Estrogenic and Anti-Estrogenic Influences in Cultured Brown Trout Hepatocytes: Focus on the Expression of Some Estrogen and Peroxisomal Related Genes and Linked Phenotypic Anchors|Aquat. Toxicol.169:133-142|2015|10.1016/j.aquatox.2015.10.010
188570|A||Bouma,J., J.G. Cloud, and J.J. Nagler|In Vitro Effects of Estradiol-17 beta on Myoid and Fibroblastic Cell Proliferation in the Immature Rainbow Trout Testis|Fish Physiol. Biochem.28:191-192|2003|10.1023/B:FISH.0000030524.89979.a5
188571|T||Bhardwaj,D., and J.A. Khan|Effect of Texture on the Food Preferences of Bait-Shy Wild Rats (Rattus rattus L.) II|Proc. Indiana Acad. Sci87(3): 77-80|1978|10.1007/BF03179004
188572|A||Notch,E.G., and G.D. Mayer|17 alpha-Ethinylestradiol Hinders Nucleotide Excision Repair in Zebrafish Liver Cells|Aquat. Toxicol.95(4): 273-278|2009|10.1016/j.aquatox.2009.01.001
188573|A||Nelson,B.P., R.P. Henriet, A.W. Holt, K.C. Bopp, A.P. Houser, O.E.,Jr. Allgood, and J.E. Turner|"The Role of Estrogen in the Developmental Appearance of Sensory-Motor Behaviors in the Zebrafish (Danio rerio): The Characterization of the ""Listless"" Model"|Brain Res.1222:118-128|2008|10.1016/j.brainres.2008.05.049
188574|A||Radice,S., R. Fumagalli, E. Chiesara, M. Ferraris, S. Frigerio, and L. Marabini|Estrogenic Activity of Procymidone in Rainbow Trout (Oncorhynchus mykiss) Hepatocytes: A Possible Mechanism of Action|Chem.-Biol. Interact.147(2): 185-193|2004|10.1016/j.cbi.2003.12.006
188575|A||Zhang,S., Y. Zhang, W. Chen, Y. Wu, W. Ge, L. Zhang, and W. Zhang|Aromatase (Cyp19a1b) in the Pituitary is Dynamically Involved in the Upregulation of IHB but not Fshb in the Vitellogenic Female Ricefield Eel Monopterus albus|Endocrinology155(11): 4531-4541|2014|10.1210/en.2014-1069
188576|A||Zhang,X., Z. Han, H. Zhong, Q. Yin, J. Xiao, F. Wang, Y. Zhou, and Y. Luo|Regulation of Triglyceride Synthesis by Estradiol in the Livers of Hybrid Tilapia (Oreochromis niloticus Female x O. aureus Male)|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.238:9p.|2019|10.1016/j.cbpb.2019.110335
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188578|T||Srihari,K., S. Sridhara, and P.E. Cowan|Toxicity of Zinc Phosphide to Bandicota bengalensis|Mysore J. Agric. Sci.13(1): 57-59|1979|
188579|A||Wassmur,B., J. Grans, E. Norstrom, M. Wallin, and M.C. Celander|Interactions of Pharmaceuticals and Other Xenobiotics on Key Detoxification Mechanisms and Cytoskeleton in Poeciliopsis lucida Hepatocellular Carcinoma, PLHC-1 Cell Line|Toxicol. In Vitro27(1): 111-120|2013|10.1016/j.tiv.2012.10.002
188580|A||Yang,G., L. Lv, S. Di, X. Li, H. Weng, X. Wang, and Y. Wang|Combined Toxic Impacts of Thiamethoxam and Four Pesticides on the Rare Minnow (Gobiocypris rarus)|Environ. Sci. Pollut. Res.28(5): 5407-5416|2021|10.1007/s11356-020-10883-0
188581|T||Htun,P.T., and J.E. Brooks|Laboratory Evaluation of Zinc Phosphide as a Rodenticide Against Bandicota bengalensis|PANS (Pest Artic. News Summ.)25(3): 246-250|1979|
188582|A||Qiao,K., W. Fu, Y. Jiang, L. Chen, S. Li, Q. Ye, and W. Gui|QSAR Models for the Acute Toxicity of 1,2,4-Triazole Fungicides to Zebrafish (Danio rerio) Embryos|Environ. Pollut.265:11 p.|2020|10.1016/j.envpol.2020.114837
188584|T||Cowan,P.E., K. Srihari, and S. Sridhara|Preliminary Study on Bait Shyness in Bandicota bengalensis, Towards Zinc Phosphide|Curr. Sci. (Bangalore)48(2): 85-86|1979|
188585|T||Bhardwaj,D., and J.A. Khan|Effect of Texture of Food on Bait-Shy Behaviour in Wild Rats (Rattus rattus)|Appl. Anim. Ethol.5(4): 361-367|1979|10.1016/0304-3762(79)90106-8
188586|A||Pinto,C., M. Grimaldi, A. Boulahtouf, F. Pakdel, F. Brion, S. Ait-Aissa, V. Cavailles, W. Bourguet, J.A. Gustafsson, M.|Selectivity of Natural, Synthetic and Environmental Estrogens for Zebrafish Estrogen Receptors|Toxicol. Appl. Pharmacol.280(1): 60-69|2014|10.1016/j.taap.2014.07.020
188587|T||Bhardwaj,D., and J.A. Khan|Responses of Roof Rat, Rattus rattus L., to Non-Oily and Oily Foods After Poisoning in Oily Foods|Proc. Indian Acad. Sci. Anim. Sci.88 B Part 1(2): 125-129|1979|10.1007/BF03179085
188588|T||Sridhara,S., and K. Srihari|Zinc Phosphide and Vacor Induced Bait Shyness and Its Persistence in Mus-platythrix|Proc. Indian Acad. Sci. Anim. Sci.89(3): 221-225|1980|10.1007/BF03179163
188589|T||Bhardwaj,D., and J.A. Khan|Responses of Rattus-rattus L., to Foods Previously Used in a Mixture for Poisoning with Zinc Phosphide|Proc. Indian Acad. Sci. Anim. Sci.89(3): 215-219|1980|10.1007/BF03179162
188590|T||Jain,A.P., and V.A. Pawde|Responses of a Free-Living Population of Rattus rattus (Linn) Towards Poisoned Baits & New Food|Indian J. Exp. Biol.19(7): 678-679|1981|
188591|T||Merson,M.H., and R.E. Byers|Laboratory Efficacy of Some Commercial Zinc Phosphide Baits Used for Control of Meadow and Pine Voles in Orchards|Hortscience16(1): 49-51|1981|10.21273/HORTSCI.16.1.49
188593|T||Wallin,R., S.D. Patrick, and J.O. Ballard|Vitamin K Antagonism of Coumarin Intoxication in the Rat|Thromb. Haemostasis55(2): 235-239|1986|10.1055/s-0038-1661528
188594|T||Blazic,T., G. Jokic, A. Esther, and S. Dedovic|Susceptibility of House Mouse Carriers of Tyr139Cys and Leu128Ser/Tyr139Cys VKOR Variants to Difenacoum|Int. J. Pest Manag.:6 p.|2020|10.1080/09670874.2020.1853277
188595|T||Edwards,P.J.|Control of the Woodmouse, Apodemus sylvaticus on Arable Farmland by 'Ratak'|Proc. Br. Crop Prot. Conf. Pests Dis.2:461-467|1977|
188596|T||Liu,J., K. Xiong, X.Q. Ye, J. Zhang, Y. Yang, and L. Ji|Toxicity and Bioaccumulation of Bromadiolone to Earthworm Eisenia fetida|Chemosphere135:250-256|2015|10.1016/j.chemosphere.2015.04.058
188597|T||Jokic,G., M. Vuksa, S. Dedovic, and P. Kljajic|Laboratory Testing of Wood Mouse and Common Vole Sensitivity to Bromadiolone, Sodium Selenite, and Cellulose|J. Pest Sci.87(2): 309-314|2014|10.1007/s10340-014-0554-x
188598|T||Jokic,G., M. Vuksa, I. Elezovic, S. Dedovic, and D. Kataranovski|Application of Grain Baits to Control Common Vole Microtus arvalis (Pallas, 1778) in Alfalfa Crops, Serbia|Arch. Biol. Sci. (Beogr.)64(2): 629-637|2012|10.2298/ABS1202629J
188599|T||Barnes,V.G., R.M. Anthony, J. Evans, and G.D. Lindsey|Evaluation of Zinc Phosphide Bait for Pocket Gopher Control on Forest Land|Proc. Vertebr. Pest Conf.:1-8|1982|
188600|T||Saikia,S., and R.K. Borah|Evaluation of Rodenticides in the Rice Fields Against Bandicota bengalensis in Assam|Indian J. Entomol.75(3): 199-202|2013|
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188602|T||Bhardwaj,D., and I. Prakash|Mitigation of Poison Aversion in the House Rat Rattus rattus Rufescens (Gray) Through Acclimatization|Indian J. Exp. Biol.20(5): 396-398|1982|
188603|T||Sakthivel,P., and P. Neelanarayanan|Laboratory Evaluation of Germinated and Non-Germinated Bait Base for the Management of the House Rat, Rattus rattus|Afr. Zool.46(2): 406-412|2011|10.1080/15627020.2011.11407514
188604|T||Sridhara,S.|Bait Shyness in the Bandicoot Bandicota bengalensis|Indian J. Exp. Biol.21(10): 560-563|1983|
188605|T||Singla,N., and B.K. Babbar|Critical Timings of Rodenticide Bait Application for Controlling Rodents in Sugarcane Crop Grown in Situations Like Punjab, India|Sugar Technol.14(1): 76-82|2012|10.1007/s12355-011-0123-z
188606|T||Syeda,A.T., A. Pervez, S.M. Ahmed, and H. Zafar|Development of Vertebrate Pest Management Models for Sugarcane Crop|Pak. Sugar J.34(4): 15-22|2019|10.35380/sugar.034.04.0151
188607|T||Ahmad,N., and V.R. Parshad|Performance of Wax Bait in Rice Fields|Pestology25(9): 62-66|2001|
188608|T||Witmer,G., N.P. Snow, and R. Piergross|Identifying Effective Attractants and Rodenticide Baits for Gambian Giant Pouched Rats|Proc. Vertebr. Pest Conf.:218-221|2010|
188609|T||Matschke,G.H., M.P. Marsh, and D.L. Otis|Efficacy of Zinc Phosphide Broadcast Baiting for Controlling Richardson's Ground Squirrels on Rangeland|J. Range Manag.36(4): 504-506|1983|10.2307/3897954
188610|T||Dahiya,A.S., and A.N. Verma|Efficacy of 2 Rodenticides against Field Rodents|Ann. Arid Zone31(3): 211-212|1992|
188611|T||Pervez,A., S.M. Ahmed, A.A. Khan, and S.B. Lathiya|Comparative Field Efficacy of Some Additive Formulated Baits Against Rodent Pests of Wheat Crop in Sindh, Pakistan|Pak. J. Zool.37(4): 269-274|2005|
188612|T||Lindsey,G.D., and J. Evans|Evaluation of Zinc Phosphide for Control of Pocket Gophers on Christmas Tree Plantations|Tree Plant. Notes34(2): 11-14|1983|
188613|T||Bhattacharyya,B., and R.K. Borah|Comparative Evaluation of Second Generation Anticoagulant Rodenticides Against Mus musculus|Indian J. Agric. Res.50(1): 51-55|2016|10.18805/ijare.v50i1.8587
188614|T||Brooks,J., P. Sultana, and R.M. Poche|Damage by Bandicota bengalensis to Growing Wheat in Bangladesh and Methods of Control|Acta Zool. Fenn.173:135-137|1985|
188615|T||Uresk,D.W., R.M. King, A.D. Apa, and R.L. Linder|Efficacy of Zinc Phosphide and Strychnine for Black-Tailed Prairie Dog Control|J. Range Manag.39(4): 298-299|1986|10.2307/3899766
188616|T||Knowles,C.J.|Population Recovery of Black-Tailed Prairie Dogs Following Control with Zinc Phosphide|J. Range Manag.39(3): 249-251|1986|10.2307/3899060
188617|A||Zhao,W.C., Q. Li, F. Xiao, G.L. Song, Y. Lu, H.B. Yang, and C.X. Liao|The Study of Acute Toxicity of Perfluorooctanoic Acid on Zebra Fish|Architectural, Energy and Information Engineering: Proceedings of the 2015 International Conference on Architectural, Energy and Information Engineering (AEIE 2015), Xiamen, China:139-141|2016|
188618|T||Ahmad,N., M.L. Sood, and S.S. Guraya|Economics of Rodent Control in Sugarcane Fields in Ludhiana District|Indian J. Agric. Res.56(5): 375-378|1986|
188619|T||Sridhara,S., and K. Srihari|Susceptibility of the Indian Field Mouse, Mus platythrix, to Two Acute Rodenticides|Indian J. Exp. Biol.25(7): 491-492|1987|
188620|T||Saxena,Y., and P.R. Gupta|Effect of Addition of Urine in Poison Bait on Aversion-Shyness Syndrome in Meriones hurrianae Exposed to Sublethal Dose of Zinc Phosphide|Natl. Acad. Sci. Lett.12(11): 397-399|1989|
188621|T||Ahmad,N.|Protection of Wheat by Controlling Rodents in Sugarcane|Pestology20(7): 38-40|1996|
188623|T||Huang,M.J., J. Dong, H.K. Guo, M.H. Xiao, and D.Q. Wang|Identification of Circular RNAs and Corresponding Regulatory Networks Reveals Potential Roles in the Brains of Honey Bee Workers Exposed to Dinotefuran|Pestic. Biochem. Physiol.180:9 p.|2022|10.1016/j.pestbp.2021.104994
188624|T||Sterner,R.T.|The Bait Surcharge Program: Research Improves Zinc Phosphide Use for Vole Control in Alfalfa|Proc. Vertebr. Pest Conf.:176-180|1998|
188625|T||De Masi,E., P.J. Vilaca, and M.T. Pepe Razzolini|Evaluation on the Effectiveness of Actions for Controlling Infestation by Rodents in Campo Limpo Region, Sao Paulo Municipality, Brazil|Int. J. Environ. Health Res.19(4): 291-304|2009|10.1080/09603120802592723
188626|T||Prat-Mairet,Y., I. Fourel, J. Barrat, M. Sage, P. Giraudoux, and M. Coeurdassier|Non-Invasive Monitoring of Red Fox Exposure to Rodenticides from Scats|Ecol. Indic.72:777-783|2017|10.1016/j.ecolind.2016.08.058
188627|T||Salmon,T.P., D.A. Whisson, and W.P. Gorenzel|Use of Zinc Phosphide for California Ground Squirrel Control|Proc. Vertebr. Pest Conf.:346-357|2000|
188628|T||Ramalingam,K., and U.D.B. Rajan|Manifestation of a Rodenticide Bromadiolone (Coumarin) on Histology of Bandicota bengalensis|J. Ecobiol.20(3): 247-254|2007|
188629|T||Rao,N.S., and M.N. Kishore|Baiting through PVC Pipe Bait Stations - A Low Cost Baiting Technique for Rodent Control in Rice|Ann. Plant Prot. Sci.21(1): 167-171|2013|
188630|T||Raoul,F., D. Michelat, M. Ordinaire, Y. Decote, M. Aubert, P. Delattre, P. Deplazes, and P. Giraudoux|Echinococcus multilocularis: Secondary Poisoning of Fox Population During a Vole Outbreak Reduces Environmental Contamination in a High Endemicity Area|Int. J. Parasitol.33(9): 945-954|2003|10.1016/S0020-7519(03)00127-9
188631|T||Salim,H., H.M. Noor, N.H. Hamid, D. Omar, A. Kasim, C.S.M. Rawi, A.H. Ahmad, and M.R.Z. Abidin|Sub-Lethal Effects of the Anticoagulant Rodenticides Bromadiolone and Chlorophacinone on Breeding Performances of the Barn Owl (Tyto alba) in Oil Palm Plantations|Slov. Rapt. J.8(2): 113-122|2014|10.2478/srj-2014-0013
188632|T||Salim,H., H.M. Noor, N.H. Hamid, D. Omar, A. Kasim, and C.M.R.Z. Abidin|Secondary Poisoning of Captive Barn Owls, Tyto alba javanica Through Feeding with Rats Poisoned with Chlorophacinone and Bromadiolone|J. Oil Palm Res.26:62-72|2014|
188633|T||Salim,H., H.M. Noor, R. Tajudin, N.H. Hamid, D. Omar, A. Kasim, and C.M.R.Z. Abidin|Effects of Rodenticide on Growth of Nestling Barn Owl, Tyto alba javanica in Oil Palm Plantations|J. Oil Palm Res.28(1): 16-25|2016|10.21894/jopr.2016.2801.03
188635|T||Salim,H.N.M., N.H. Hamid, D. Omar, A. Kasim, and C.M.R.Z. Abidin|The Effects of Rodenticide Residues Deposited in Eggs of Tyto alba to Eggshell Thickness|Sains Malays.44(4): 559-564|2015|10.17576/jsm-2015-4404-10
188636|T||Saunders,G.R.|Evaluation of Mouse-Plague Control Techniques in Irrigated Sunflower Crops|Crop Prot.2(4): 437-445|1983|10.1016/0261-2194(83)90064-9
188637|T||Saxena,Y., and H. Bhasin|Agility of Novel Second Generation Anticoagulants Against Field Rodents|Natl. Acad. Sci. Lett.14(12): 483-485|1991|
188638|T||Twigg,L., G.R. Martin, and T.S. Stevens|Effect of Lengthy Storage on the Palatability and Efficacy of Zinc Phosphide Wheat Bait Used for Controlling House Mice|Wildl. Res.29(2): 141-149|2002|10.1071/WR00078
188639|T||Saxena,Y., V. Sharma, and D. Kumar|Toxicity of Brodifacoum and Bromadiolone Against Indian Desert Gerbil, Meriones hurrianae Jerdon|Natl. Acad. Sci. Lett.10(10): 361-363|1987|
188640|T||Brown,P.R., L.K. Chambers, and G.R. Singleton|Pre-Sowing Control of House Mice (Mus domesticus) Using Zinc Phosphide: Efficacy and Potential Non-Target Effects|Wildl. Res.29(1): 27-37|2002|10.1071/WR01023
188641|T||Kocher,D., and V.R. Parshad|Acceptance and Efficacy of Baits of Three Rodenticides Against Rattus rattus Alexandrinus|Pestology27(2): 13-15|2003|
188642|T||Scepovic,T., G. Jokic, A. Esther, D. Kataranovski, P. Vuksa, S. Dedovic, and M. Vuksa|VKOR Variant and Sex Are the Main Influencing Factors on Bromadiolone Tolerance of the House Mouse (Mus musculus L.)|Pest Manag. Sci.72(3): 574-579|2016|10.1002/ps.4027
188643|T||Sharew,H., and J.S. Kays|Vole Damage Control in Forest Plantations|North. J. Appl. For.23(4): 297-300|2006|10.1093/njaf/23.4.297
188644|T||Shafi,M.M., A. Pervez, S. Ahmad, and S.M. Ahmed|Some Approaches to Enhancing Poison Bait Acceptance in the Lesser Bandicoot Rat, Bandicota bengalensis|Trop. Sci.33(4): 350-358|1993|
188645|T||Kaur,R., and D.K. Kocher|Impact of Rodenticidal Baiting in Rodent Reservoir Crops on Damage in Adjoining Crops|Indian J. Agric. Sci.76(10): 611-613|2006|
188646|T||Brown,P.R.|Short- and Long-Term Demographic Changes in House Mouse Populations After Control in Dryland Farming Systems in Australia|Wildl. Res.33(6): 457-466|2006|10.1071/WR06026
188647|T||Shamsuddin,V.M., and K.I. Abdulla Koya|Efficacy of Bromadiolone Against Rodents of Coconut Palm and Houses in Lakshadweep Islands|Pestology9(10): 5-7|1985|
188648|T||Balliette,J., J.M. O'Brien, and J.D. Eisemann|Efficacy of Strychnine and Zinc Phosphide Cabbage Baits in Controlling Ground Squirrels in Diamond Valley, Nevada|Proc. Vertebr. Pest Conf.(22): 151-155|2006|
188649|T||Singh,D.D., and R.S. Chauhan|Evaluation of the In Vitro Immunotoxic Effect of Bromadiolone Rodenticide in Poultry|Indian J. Biochem. Biophys.55(2): 132-136|2018|
188650|T||McConnell,E.E., H.A. Rutter, B.M. Ulland, and J.A. Moore|Chronic Effects of Dietary Exposure to Amosite Asbestos and Tremolite in F344 Rats|Environ. Health Perspect.53:27-44|1983|10.1289/ehp.835327
188651|T||Singla,N., and B.K. Babbar|Critical Timings and Methods of Rodent Pest Management in Groundnut (Arachis hypogaea L.) Crop|Legume Res.38(5): 681-686|2015|10.18805/lr.v38i5.5950
188652|T||Witmer,G., R. Sayler, D. Huggins, and J. Capelli|Ecology and Management of Rodents in No-Till Agriculture in Washington, USA|Integr. Zool.3(2): 154-164|2007|10.1111/j.1749-4877.2007.00058.x
188653|T||Kocher,D.K., R. Kaur, and V.R. Parshad|Specific Timings of Rodent Control Measures in Zero Tillage Wheat Fields|Environ. Ecol.26(4C): 2186-2188|2008|
188654|T||McConnell,E.E., A.M. Shefner, J.H. Rust, and J.A. Moore|Chronic Effects of Dietary Exposure to Amosite and Chrysotile Asbestos in Syrian Golden Hamsters|Environ. Health Perspect.53:11-25|1983|10.1289/ehp.835311
188655|T||Witmer,G.W.|Rodent Population Management at Kansas City International Airport|Hum.-Wildl. Interact.5(2): 269-275|2011|10.26077/3mqj-6125
188656|T||National Toxicology Program (NTP)|NTP Toxicology and Carcinogenesis Studies of Chrysotile Asbestos (CAS No. 12001-29-5) in F344/N Rats (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.295:1-390|1985|
188657|T||Singla,N., and M. Mittal|Management of Post Control Rodent Population Rebuildup in Sugarcane|J. Res.49(1and 2): 60-64|2012|
188658|T||Haque,A.K., I. Ali, D.M. Vrazel, and T. Uchida|Chrysotile Asbestos Fibers Detected in the Newborn Pups Following Gavage Feeding of Pregnant Mice|J. Toxicol. Environ. Health Part A62(1): 23-31|2001|10.1080/00984100050201640
188660|T||Saxena,K.C., L. Srivastava, and R.K.S. Dogra|Biochemical and Histopathological Response to Chrysotile Ingestion in Guinea Pigs|Ind. Health20:19-25|1982|10.2486/indhealth.20.19
188662|T||Truhaut,R., and I. Chouroulinkov|Effect of Long-Term Ingestion of Asbestos Fibres in Rats|In: Non-Occupational Exposure to Mineral Fibres, Lyon, France:127-133|1989|
188663|T||Mushtaq,M., A. Mian, I. Hussain, S. Munir, I. Ahmed, and A.A. Khan|Testing of Groundnut - Maize Bait as Carrier of Zinc Phosphide for the Management of Indian Crested Porcupine, Hystrix indica Kerr (Rodentia: Hystricidae)|Pak. J. Zool.45(2): 291-298|2013|
188664|T||Singla,N., and D. Kanwar|Poultry Egg Components as Cereal Bait Additives for Enhancing Rodenticide Based Control Success and Trap Index of House Rat, Rattus rattus|Asian Pac. J. Trop. Biomed.:S341-S347|2014|10.12980/APJTB.4.2014C1260
188665|T||Witmer,G.W., R.A. Baldwin, and R.S. Moulton|Identifying Possible Alternative Rodenticide Baits to Replace Strychnine Baits for Pocket Gophers in California|Crop Prot.92:203-206|2017|10.1016/j.cropro.2016.09.014
188666|T||Horak,K.E., N.M. Hofmann, and B.A. Kimball|Assessment of Zinc Phosphide Bait Shyness and Tools for Reducing Flavor Aversions|Crop Prot.112:214-219|2018|10.1016/j.cropro.2018.06.002
188667|T||Saxena,Y.|Toxicity of Flocoumafen and Zinc Phosphide Against Field Rodents|Environ. Ecol.37(2): 580-581|2019|
188668|T||Hein,S., and J. Jacob|Population Recovery of a Common Vole Population (Microtus arvalis) After Population Collapse|Pest Manag. Sci.75(4): 908-914|2019|10.1002/ps.5211
188669|T||Syahputri,D.A.A., and S. Priyambodo|Flavor Ingredients in the Rodenticide Formulation to Improve Consumption Rate and Mortality of House Rat (Rattus tanezumi L.)|IOP Conf. Ser. Earth Environ. Sci.468:1-8|2020|10.1088/1755-1315/468/1/012005
188670|T||Henry,S., P.R. Brown, N. Van De Weyer, F. Robinson, and L.A. Hinds|Effects of Background Food on Alternative Grain Uptake and Zinc Phosphide Efficacy in Wild House Mice|Pest Manag. Sci.78(3): 1090-1098|2022|10.1002/ps.6720
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188674|T||Singleton,G.R., L.E. Twigg, K.E. Weaver, and B.J. Kay|Evaluation of Bromadiolone Against House Mouse (Mus domesticus) Populations in Irrigated Soybean Crops. II. Economics|Wildl. Res.18(3): 275-283|1991|10.1071/WR9910275
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188676|T||Sridhara,S., and T.R. Krishnamurthy|Potentiation of Anticoagulant Toxicity to Rattus rattus by Two Non-Steroid Anti-Inflammatory Drugs|Proc. Vertebr. Pest Conf.15:212-217|1992|
188677|T||Stuart,A.M., P. Kong, R. Then, R.J. Flor, and K. Sathya|Tailor-Made Solutions to Tackle Rodent Pests of Rice Through Community-Based Management Approaches in Cambodia|Crop Prot.135:9 p.|2020|10.1016/j.cropro.2019.01.023
188678|T||Tosh,D.G., R.A. McDonald, S. Bearhop, N.R. Llewellyn, W.I. Montgomery, and R.F. Shore|Rodenticide Exposure in Wood Mouse and House Mouse Populations on Farms and Potential Secondary Risk to Predators|Ecotoxicology21(5): 1325-1332|2012|10.1007/s10646-012-0886-3
188679|T||Khalil,R.A., B. Barbier, A. Rached, E. Benoit, A. Pinot, and V. Lattard|Water Vole Management - Could Anticoagulant Rodenticides Stereochemistry Mitigate the Ecotoxicity Issues Associated to Their Use?|Environ. Toxicol. Pharmacol.81:9 p.|2021|10.1016/j.etap.2020.103536
188680|T||Alomar,H., A. Chabert, M. Coeurdassier, D. Vey, and P. Berny|Accumulation of Anticoagulant Rodenticides (Chlorophacinone, Bromadiolone and Brodifacoum) in a Non-Target Invertebrate, the Slug, Deroceras reticulatum|Sci. Total Environ.610-611:576-582|2018|10.1016/j.scitotenv.2017.08.117
188681|T||Aristegui,E., M.H. Mino, P.R. Mansilla, J.S. Guidobono, and G.R. Cueto|Consumption Pattern of Bromadiolone in Presence of Alternative Food by House Mice (Mus musculus) Infesting Poultry Farms|Braz. J. Poult. Sci.19(1): 95-102|2017|10.1590/1806-9061-2016-0291
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188685|T||Bhandari,T., and Y. Saxena|Comparative Toxicity of Flocoumafen, Bromadiolone and Cholecalciferol Against Rodents in Captivity and Open-Field|J. Environ. Biol.15(4): 307-313|1994|
188686|T||Binev,R.G., I. Valchev, N. Groseva, L. L'Azarov, T. Hristov, and K. Uzunova|Morphological Investigations of Experimental Acute Intoxication with the Anticoagulant Rodenticide Bromadiolone in Pheasants|Acta Vet. Eur.38(2): 161-173|2012|
188687|T||Borah,R.K., and A. Mallick|Effect of Rodenticides and Traps Against Lesser Bandicoot Rat, (Bandicota bengalensis) in Rice Field|Indian J. Agric. Res.50(4): 354-357|2016|
188688|T||Vein,J., A. Grandemange, J.F. Cosson, E. Benoit, and P.J. Berny|Are Water Vole Resistant to Anticoagulant Rodenticides Following Field Treatments?|Ecotoxicology20(6): 1432-1441|2011|10.1007/s10646-011-0700-7
188689|T||Twigg,L., G.R. Singleton, and B.J. Kay|Evaluation of Bromadiolone Against House Mouse (Mus domesticus) Populations in Irrigated Soybean Crops. I. Efficacy of Control.|Wildl. Res.18(3): 265-274|1991|10.1071/WR9910265
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188692|T||Elmeros,M., R. Bossi, T.K. Christensen, L.J. Kjaer, P. Lassen, and C.J. Topping|Exposure of Non-Target Small Mammals to Anticoagulant Rodenticide During Chemical Rodent Control Operations|Environ. Sci. Pollut. Res.26(6): 6133-6140|2019|10.1007/s11356-018-04064-3
188693|T||Byers,R.E.|Performance of Rodenticides for Control of Pine Voles in Orchards|J. Am. Soc. Hortic. Sci.103(1): 65-69|1978|10.21273/JASHS.103.1.65
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188696|T||Garg,N., and N. Singla|Intoxication Potential of Sublethal Doses of Bromadiolone in House Rat (Rattus rattus)|J. Anim. Res.6(5): 955-959|2016|10.5958/2277-940X.2016.00124.8
188697|T||Imakando,C.I., G.M. Fernandez-Grandon, G.R. Singleton, and S.R. Belmain|Impact of Fertility Versus Mortality Control on the Demographics of Mastomys natalensis in Maize Fields|Integr. Zool.:13|2021|
188698|T||Fernandez-de-Simon,J., M. Coeurdassier, G. Couval, I. Fourel, and P. Giraudoux|Do Bromadiolone Treatments to Control Grassland Water Voles (Arvicola scherman) Affect Small Mustelid Abundance?|Pest Manag. Sci.75(4): 900-907|2019|10.1002/ps.5194
188699|T||Kaur,N., and D.K. Kocher|Evaluation of Standard Bromadiolone Bait (0.005%) Susceptibility in Rattus rattus, Trapped from Commensal Situations of District Ludhiana of Punjab|Pestology36(11): 22-25|2012|
188700|T||Kay,B., L.E. Twigg, and H.I. Nicol|The Strategic Use of Rodenticides Against House Mice (Mus domesticus) Prior to Crop Invasion|Wildl. Res.21(1): 11-19|1994|10.1071/WR9940011
188701|T||Kumar,D., and R.V. Kushwaha|Bioefficacy of Three Anticoagulants Against Bandicota bengalensis in Meghalaya|Pestology12(10): 60-63|1998|
188702|T||Leon,V.A., J. Fraschina, and M. Busch|Bromadiolone Susceptibility in Mus musculus (House Mice) of Argentina|Int. J. Pest Manag.66(1): 7-12|2020|10.1080/09670874.2018.1538543
188703|T||Mari Saez,A., M.C. Haidara, A. Camara, F. Kourouma, M. Sage, N. Magassouba, and E. Fichet-Calvet|Rodent Control to Fight Lassa Fever: Evaluation and Lessons Learned from a 4-Year Study in Upper Guinea|PLoS Neglected Trop. Dis.12(11): 16 p.|2018|10.1371/journal.pntd.0006829
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188707|T||Mutze,G.J.|Cost-Effectiveness of Poison Bait Trails for Control of House Mice in Mallee Cereal Crops|Wildl. Res.20(4): 445-456|1993|10.1071/WR9930445
188708|T||Pasahan,S.C., and V.P. Sabhlok|Migration of Field Rodents Due to Poison-Baiting|Ann. Arid Zone29(4): 313-317|1990|
188709|T||Pervez,A., S.W.A. Rizvi, and S.M. Ahmed|Laboratory Evaluation of Some Additives as Enchancers for Bait Acceptance in Short-Tailed Mole Rat, Nesokia indica|Pak. J. Zool.32(4): 351-354|2000|
188710|T||Pervez,A., S.M. Ahmed, and S.W.A. Rizvi|Evaluation of Some Additives to Improve Poison Bait Acceptance in the Lesser Bandicoot Rat, Bandicota bengalensis|Pak. J. Zool.35(2): 109-113|2003|
188711|T||Pervez,A., S.M. Ahmad, and S.A. Tariq|Assessment of Sugarcane Varietal Damage from Field Rats and Their Management Strategy in Sindh|Pak. Sugar J.34(1): 11-11|2019|10.35380/sugar.034.01.0140
188712|T||Singla,N., and V.R. Parshad|Efficacy of Acute and Anticoagulant Rodenticide Baiting in Sugarcane Fields of Punjab, India|Int. J. Pest Manag.56(3): 201-210|2010|10.1080/09670870903342547
188713|T||Kumar,P., S.C. Pasahan, V.P. Sabhlok, and R.K. Singal|Evaluation of Rodenticidal Baits Against Rodent Population in Long Melon (Cucumis melos var. utlissimus) Crop Fields|Ann. Arid Zone35(4): 373-376|1996|
188714|T||Salmon,T.P., and S.J. Lawrence|Zinc Phosphide-Treated Bracts as an Alternative Rodenticide in Artichoke Fields for Meadow Vole (Microtus californicus) Control|Proc. Vertebr. Pest Conf.:161-165|2006|10.5070/V422110201
188715|T||Hunter,R.E., L.R. Askham, and M.E.R. Godfrey|The Effectiveness of Five Rodenticides and Three Application Procedures in Controlling Microtine Voles (Microtus montanus) in Washington State Apple Orchards|Crop Prot.6(4): 277-279|1987|10.1016/0261-2194(87)90051-2
188716|T||Khan,Z., and J.I. Siddiqi|Poison- and Bait-Shyness of Northern Palm Squirrel, Funambulas pennanti pennanti Wroughton|Appl. Entomol. Zool.15(2): 175-177|1980|10.1303/aez.15.175
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188718|T||Kambarajan,P., P. Neelanarayanan, and R. Kanakasabai|Rodent Management in Three Modern Rice Mill Godowns|Pestology28(8): 34-37|2004|
188719|T||Jakel,T., Y. Khoprasert, P. Promkerd, and S. Hongnark|An Experimental Field Study to Assess the Effectiveness of Bait Containing the Parasitic Protozoan Sarcocystis singaporensis for Protecting Rice Crops Against Rodent Damage|Crop Prot.25:773-780|2006|10.1016/j.cropro.2005.10.008
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188721|T||Mushtaq,M., A. Mian, I. Hussain, S. Munir, and A.A. Khan|Evaluation of Fresh Food Baits for the Management of Indian Crested Porcupine, Hystrix indica Kerr (Rodentia: Hystricidae)|Pak. J. Zool.42(5): 507-513|2010|10.17582/journal.pjz/20181002061042
188722|T||Naseri,M., and H. Zohdi|Chemical Control on Nesokia indica (Bandicoot Rat) in Pistachio Orchards of Kerman Province|Arch. Phytopathol. Plant Prot.44(10): 981-986|2011|10.1080/03235401003633691
188723|T||Rowe,F.P., and A. Bradfield|Comparative Acute and Chronic Toxicity Tests on Confined Colonies of Wild House Mice (Mus musculus L.)| Proceedings of the Fourth British Pest Control Conference4(Paper 19): 1-6|1975|
188724|T||Parshad,V.R.|Conditioned Taste Aversion in Lesser Bandicoot Rat, Bandicota bengalensis|Indian J. Exp. Biol.27(11): 980-982|1989|
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188727|A||Blankinship,A.S., R.L. Van Hoven, and H.O. Krueger|Tetrabromobisphenol A: A 96-Hour Flow-Through Acute Toxicity Test with the Rainbow Trout (Oncorhynchus mykiss). Final Report|Wildlife International Ltd, Easton, MD:57 p.|2003|
188728|T||Kamler,M., M. Nesvorna, J. Stara, T. Erban, and J. Hubert|Comparison of Tau-Fluvalinate, Acrinathrin, and Amitraz Effects on Susceptible and Resistant Populations of Varroa destructor in a Vial Test|Exp. Appl. Acarol.69(1): 1-9|2016|10.1007/s10493-016-0023-8
188730|T||Ngangambe,M.H., and M.W. Mwatawala|Effects of Entomopathogenic Fungi (EPFS) and Cropping Systems on Parasitoids of Fall Armyworm (Spodoptera frugiperda) on Maize in Eastern Central, Tanzania|Biocontrol Sci. Technol.30(5): 418-430|2020|10.1080/09583157.2020.1726878
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188732|T||Sangamithra,S., B. Vinothkumar, N. Muthukrishnan, and T. Manoharan|Evaluation of Bioefficacy of Flubendiamide 24% W/V + Thiacloprid 24% Sc W/V against Shoot and Fruit Borer and Its Sucking Pests and Its Safety to Non-Target Organisms in Brinjal|J. Entomol. Zool. Stud.6(1): 245-249|2018|
188733|T||Reena, and K.B. Goud|Effect of Insecticides on Immature Stages of Cotesia plutellae Kurdj. (Hymenoptera; Braconidae), an Endo-Larval Parasitoid of Diamondback Moth|Biol. Control22(2): 463-466|2008|
188734|T||Deshmukh,Y.V., P.S. Chintkuntlawar, and D.B. Undirwade|Residual Effect of Some Insecticides on Adults of Trichogramma spp|Indian J. Entomol.81(4): 647-650|2019|10.5958/0974-8172.2019.00199.8
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188736|T||Ahmad,N., and V.R. Prashad|Rodent Control in Maturing Rice and Wheat Crops|Pestology23(9): 7-9|1999|
188737|T||Rowe,F.P., and R. Redfern|Comparative Toxicity of the Two Anti-Coagulants, Coumatetralyl and Warfarin, to Wild House-Mice (Mus musculus)|Ann. Appl. Biol.62:355-361|1968|10.1111/j.1744-7348.1968.tb05448.x
188738|T||Jaiswal,A.K., J.P. Singh, and P. Patamajhi|Evaluation of Flubendiamide Against the Lepidopteran Predators of the Lac Insect, Kerria Lacca (Kerr)|Proc. Natl. Acad. Sci. U.S.A.87(1): 39-44|2017|
188741|T||Tabozada,E.K., S.A. El-Arnaouty, and S.M. Sayed|Effectiveness of Two Chitin Synthesis Inhibitors; Flufenoxuron and Lufenuron on Spodoptera littoralis (Lepidoptera: Noctuidae) and Side Effects of Sublethal Concentrations of Them on Two Hymenopteran Parasitoids|Life Sci. J.11(10): 239-245|2014|
188742|A||Blankinship,A.S., R.L. Van Hoven, and H.O. Krueger|Tetrabromobisphenol A: A 48-Hour Flow-Through Acute Toxicity Test with the Cladoceran (Daphnia magna)|Wildlife International Ltd, Easton, MD:59 p.|2003|
188743|T||Ul Hassan,W., T. Nazir, S. Zaman, T. Anwar, N.H. Bashir, B. Abid, M.D. Gogi, and M.J. Arif|Cross-Negative Effects of Selective Insecticides Against Different Life Stages of Non-Target Pests, Dysdercus koenigii and Oxycarenus hyalipennis on Transgenic Cotton Under Laboratory Conditions|Pure Appl. Biol.9(3): 1895-1902|2020|10.19045/bspab.2020.90202
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188745|T||Smith,H.A., and C.A. Nagle|Effects of Pyrifluquinazon on Nymphal Stages of Bemisia tabaci MEAM1 (Hemiptera: Aleyrodidae)|J. Insect Sci.17(6): 1-4|2017|10.1093/jisesa/iex091
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188752|T||Mullins,L.R.|Testing the Effects of Glyphosate and a Possible Tradeoff with Immunity on Native and Non-Native Species of Crickets|Ph.D. Thesis, The Ohio State University, Columbus, OH:43 p.|2020|
188753|A||Bednarz,V.N., S. Choyke, L.F.B. Marangoni, E.I. Otto, E. Beraud, M. Metian, I. Tolosa, and C. Ferrier-Pages|Acute Exposure to Perfluorooctane Sulfonate Exacerbates Heat-Induced Oxidative Stress in a Tropical Coral Species|Environ. Pollut.302:10 p.|2022|10.1016/j.envpol.2022.119054
188754|T||Zhao,H.T., L.P. Yang, X.J. Yang, and S.Y. Zhao|Behaviors of 6:2 Fluorotelomer Sulfonamide Alkylbetaine (6:2 FTAB) in Wheat Seedlings: Bioaccumulation, Biotransformation and Ecotoxicity|Ecotoxicol. Environ. Saf.238:8 p.|2022|10.1016/j.ecoenv.2022.113585
188755|A||Wu,L.Y., Y. Dang, L.X. Liang, Y.C. Gong, M. Zeeshan, Z.M. Qian, S.D. Geiger, M.G. Vaughn, Y. Zhou, Q.Q. Li, C. Chu, Y.W|Perfluorooctane Sulfonates Induces Neurobehavioral Changes and Increases Dopamine Neurotransmitter Levels in Zebrafish Larvae|Chemosphere297:9 p.|2022|10.1016/j.chemosphere.2022.134234
188756|A||Bi,C.Q., M. Junaid, Y. Liu, W.J. Guo, X.L. Jiang, B.Z. Pan, Z.G.S. Li, and N. Xu|Graphene Oxide Chronic Exposure Enhanced Perfluorooctane Sulfonate Mediated Toxicity Through Oxidative Stress Generation in Freshwater Clam Corbicula fluminea|Chemosphere297:12 p.|2022|10.1016/j.chemosphere.2022.134242
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188758|T||Buckle,A.P., F.P. Rowe, and A. Rahman|Field Trials of Warfarin and Brodifacoum Wax Block Baits for the Control of the Rice Field Rat, Rattus argentiventer, in Peninsular Malaysia|Trop. Pest Manag.30(1): 51-58|1984|10.1080/09670878409370851
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188760|AT||Fladmark,K.E., M.H. Serres, N.L. Larsen, T. Yasumoto, T. Aune, and S.O. Doeskeland|Sensitive Detection of Apoptogenic Toxins in Suspension Cultures of Rat and Salmon Hepatocytes|Toxicon36(8): 1101-1114|1998|10.1016/S0041-0101(98)00083-X
188761|AT||Tanaka,J.C., D.D. Doyle, and L. Barr|Sodium Channels in Vertebrate Hearts. Three Types of Saxitoxin Binding Sites in Heart|Biochim. Biophys. Acta775(2): 203-214|1984|10.1016/0005-2736(84)90172-x
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188764|T||Douris,V., D. Steinbach, R. Panteleri, I. Livadaras, J.A. Pickett, T. Van Leeuwen, R. Nauen, and J. Vontas|Resistance Mutation Conserved Between Insects and Mites Unravels the Benzoylurea Insecticide Mode of Action on Chitin Biosynthesis|Proc. Natl. Acad. Sci. U.S.A.113(51): 14692-14697|2016|10.1073/pnas.1618258113
188765|T||Aboelhadid,S.M., W.M. Arafa, A.A. Wahba, L.N. Mahrous, S.M. Ibrahium, and P.J. Holman|Effect of High Concentrations of Lufenuron, Pyriproxfen and Hydroprene on Rhipicephalus (Boophilus) annulatus|Vet. Parasitol.256:35-42|2018|10.1016/j.vetpar.2018.05.005
188766|T||Ahmed,M.A.I., and C.F.A. Vogel|The Synergistic Effect of Octopamine Receptor Agonists on Selected Insect Growth Regulators on Culex quinquefasciatus Say (Diptera: Culicidae) Mosquitoes|One Health10:7 p.100138|2020|10.1016/j.onehlt.2020.100138
188767|T||Al-Zeeb,F.A.M., E.H. Ibrahim, and R.F.A. Bakr|Histopathological Changes in the Muscle of the Desert Locust, Schistocerca gregaria (Orthoptera: Acrididae) Treated with Insect Growth Regulator (IGR), Lufenuron|Egypt. Acad. J. BIol. Sci. D. Histol. Histochem.10(1): 13-25|2018|10.21608/eajbsd.2018.22716
188768|T||Suarez-Lopez,Y.A., A.E. Hatem, H.K. Aldebis, and E. Vargas-Osuna|Lethal and Sublethal Effects of Lufenuron on the Predator Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae)|Crop Prot.135:7 p.|2020|10.1016/j.cropro.2020.105217
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188770|T||Kim,D.S., and S.S. Kim|Suseptibility of the Predatory Mite, Neoseiulus californicus (Acari: Phytoseiidae), to Seven Insecticides|Entomol. Res.49(3): 131-135|2019|10.1111/1748-5967.12341
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188774|T||Lira,A.C.S., V. Wanderley-Teixeira, A.A.C. Teixeira, F.M. Cunha, G.S. Cruz, and C.J.C.L. Neto|Physiological and Behavioral Interactions of a Predator with Its Prey Under Indirect Exposure to the Insect Growth Regulator Lufenuron|Crop Prot.137:7 p.|2020|10.1016/j.cropro.2020.105289
188775|T||Barter,L.S., and J.F. Antognini|Kinetics and Potency of Halothane, Isoflurane, and Desflurane in the Northern Leopard Frog Rana pipiens|Vet. Res. Commun.32(5): 357-365|2008|10.1007/s11259-008-9041-2
188781|T||Metellus,D., M.V. Sampaio, and F.J. Celoto|Activity of Insecticides on Coffee Berry Borer, Hypothenemus hampei (Coleoptera: Curculionidae, Scolytinae)|J. Biosci.36(4): 1099-1115|2020|10.14393/BJ-v36n4a2020-46735
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188796|A||Huang,J., Q. Wang, S. Liu, H. Lai, and W. Tu|Comparative Chronic Toxicities of PFOS and Its Novel Alternatives on the Immune System Associated with Intestinal Microbiota Dysbiosis in Adult Zebrafish|J. Hazard. Mater.425:11 p|2022|10.1016/j.jhazmat.2021.127950
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188811|A||Hughes,J.S.|1,2-Dichloropropane: The Toxicity to Selenastrum capricornutum|EPA/OTS Doc.#40-8867156:39 p.|1988|
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188824|T||Hitchcock,B.E., and R.E. Kerkwyk|Evaluation of New Rodenticides in Queensland Cane Fields|Proc. Qld. Soc. Sugar Cane Technol.45:93-95|1978|
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188832|T||Stapleton,J.J., B. Lear, and J.E. DeVay|Effect of Combining Soil Solarization with Certain Nematicides on Target and Nontarget Organisms and Plant Growth|Ann. Appl. Nematol.1:107-112|1987|
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188835|T||Avikainen,H., H. Koponen, and R. Tahvonen|The Effect of Disinfectants on Fungal Diseases of Cucumber|Agric. Sci. Finl.2:179-188|1993|
188836|T||An,X., X. Li, H.T. Pan, Q.X. Zhang, and J. Wang|The Effectiveness of Eight English Ivy Cultivars in Removing the Indoor Air Pollutant Formaldehyde and Their Responses to Formaldehyde Stress|International Conference on Bioinformatics and Biomedical Engineering:5 p.|2010|
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188840|T||Bartzokas,C.A., K. McCarthy, W.B. Shackleton, and B.F. Baker|Observations of the Effects of Formaldehyde on Cockroaches and Their Flora: I. Survival of Vaccinia Virus-Infected Cockroaches During Fumigation with Formaldehyde|J. Hyg.80:125-129|1978|10.1017/S0022172400053444
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188843|T||Bartzokas,C.A., K. McCarthy, B.F. Baker, and R. Graham|Observations of the Effects of Formaldehyde on Cockroaches and Their Flora: III. The Effect of Formaldehyde in Eliminating the Normal Gut Flora|J. Hyg.80:137-141|1978|10.1017/S0022172400053468
188844|T||Warcup,J.H.|Effect of Partial Sterilization by Steam or Formalin on the Fungus Flora of an Old Forest Nursery Soil|Trans. Br. Mycol. Soc.:519-532|1951|10.1016/S0007-1536(51)80036-6
188845|T||Morita,S., and S. Nishida|Hematological and Histological Changes Induced by Adrenocorticotropic Hormone and Formaldehyde Stressor in the Domestic Fowl|Endocrinol. Jap.3(1): 39-47|1956|10.1507/endocrj1954.3.39
188846|T||Mollison,J.E.|Effect of Partial Sterilization and Acidification of Soil on the Fungal Population|Trans. Br. Mycol. Soc.36:215-229|1953|10.1016/S0007-1536(53)80006-9
188847|T||Warcup,J.H.|Effect of Partial Sterilization by Steam or Formalin on Damping-Off of Sitka Spruce|Trans. Br. Mycol. Soc.35(4): 248-262|1952|10.1016/S0007-1536(52)80034-8
188848|T||Buxton,E.W., I. Sinha, and V. Ward|Soil-Borne Diseases of Sitka Spruce Seedlings in a Forest Nursery|Trans. Br. Mycol. Soc.45(4): 433-448|1962|10.1016/S0007-1536(62)80001-1
188849|T||Evans,E.|Survival and Recolonization by Fungi in Soil Treated with Formalin or Carbon Disulphide|Trans. Br. Mycol. Soc.38(4): 335-346|1955|10.1016/S0007-1536(55)80037-X
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188854|T||Nicholson,R.A., and C.O. Kumi|The Effects of Pesticides, Brevetoxin B, and the Cardiotonic Drug DPI 201 106 on Release of Acetylcholine from Insect Control Nerve Terminals|Pestic. Biochem. Physiol.40(1): 86-97|1991|10.1016/0048-3575(91)90051-M
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188892|T||Bateman,E.|The Effect of Concentration on the Toxicity of Chemicals to Living Organisms|Technical Bulletin No. 346, United States Department of Agriculture, Washington, D.C.:1-54|1933|
188893|T||McMurtrey,J.E.,Jr.|Effect of Thallium on Growth of Tobacco Plants|Science76(1960): 86-|1932|10.1126/science.76.1960.86.a
188894|T||Crafts,A.S.|The Effects of Thallium Sulfate Upon Soils|Science79(2038): 62-|1934|10.1126/science.79.2038.62.a
188895|T||Sammour,E.A., M.A. Kandil, and N.F. Abdel-Aziz|The Reproductive Potential and Fate of Chlorfluazuron and Leufenuron Against Cotton Leafworm Spodoptera littoralis (Boisd.)|Am.-Eurasian J. Agric. Environ. Sci.4(1): 62-67|2008|
188896|T||Pelizza,S.A., A.C. Scorsetti, M.N. Fogel, S.G. Pacheco-Marino, S.A. Stenglein, M.N. Cabello, and C.E. Lange|Compatibility Between Entomopathogenic Fungi and Biorational Insecticides in Toxicity Against Ronderosia bergi Under Laboratory Conditions|Biocontrol60(1): 81-91|2015|10.1007/s10526-014-9606-7
188897|T||Pelizza,S.A., A.C. Scorsetti, M.L. Russo, V. Sy, S.G. Pacheco-Marino, and C.E. Lange|Use of Entomopathogenic Fungi Combined with Biorational Insecticides to Control Dichroplus maculipennis (Orthoptera: Acrididae: Melanoplinae) Under Semi-Field Conditions|Biocontrol Sci. Technol.25(11): 1241-1253|2015|10.1080/09583157.2015.1050354
188898|T||Hamm,R.L., J.J. DeMark, E. Chin-Heady, and M.P. Tolley|Consumption of a Durable Termite Bait Matrix by Subterranean Termites (Isoptera: Rhinotermitidae) and Resulting Insecticidal Activity|Pest Manag. Sci.69(4): 507-511|2013|10.1002/ps.3401
188899|T||Haverty,M.I., R.L. Tabuchi, E.L. Vargo, D.L. Cox, L.J. Nelson, and V.R. Lewis|Response of Reticulitermes hesperus (Isoptera: Rhinotermitidae) Colonies to Baiting with Lufenuron in Northern California|J. Econ. Entomol.103(3): 770-780|2010|10.1603/EC09088
188900|T||Haynes,J.W., and J.W. Smith|Test of a New Insect Growth-Regulator for Boll-Weevils (Coleoptera: Curculionidae) by Dipping and Feeding|J. Econ. Entomol.86(2): 310-313|1993|10.1093/jee/86.2.310
188901|A||Fettweis,A., K. De Schamphelaere, and E. Smolders|Zinc Toxicity to Daphnia magna in a Two-Species Microcosm can be Predicted from Single-Species Test Data: The Effects of Phosphorus Supply and pH|Environ. Toxicol. Chem.37(8): 2153-2164|2018|10.1002/etc.4171
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188903|AT||Qiao,W., R. Li, T. Tang, and Z. Anitta|Removal, Distribution and Plant Uptake of Perfluorooctane Sulfonate (PFOS) in a Simulated Constructed Wetland System|Front. Environ. Sci. Eng.15(2): 1-11|2021|10.1007/s11783-020-1312-3
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188909|T||Hector,R.F., A.P. Davidson, and S.M. Johnson|Comparison of Susceptibility of Fungal Isolates to Lufenuron and Nikkomycin Z Alone or in Combination with Itraconazole|Am. J. Vet. Res.66(6): 1090-1093|2005|10.2460/ajvr.2005.66.1090
188910|T||Grech,C.J., D.A. McLaren, J. Lowien, E.L. McWhirter, K.L. Butler, and B.M. Sindel|Effects of Flupropanate Application on Bare Ground and Broadleaf Weeds When Used to Control Chilean Needle Grass in Introduced Pastures|N. Z. J. Agric. Res.57(2): 100-109|2014|10.1080/00288233.2014.886597
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188912|T||Guneidy,N.A., D.A.M. Salem, N. Helmy, W.A. Radwan, R.F.A. Bakr, and S. Salah|Effect of a Chitin Synthesis Inhibitor and a Waste Product on Embryogenesis of Musca domestica|J. Am. Sci.7(12): 704-712|2011|
188913|T||Hafeez,M., S. Jan, M. Nawaz, E. Ali, B. Ali, M. Qasim, G.M. Fernandez-Grandon, M. Shahid, and M. Wang|Sub-Lethal Effects of Lufenuron Exposure on Spotted Bollworm Earias vittella (Fab): Key Biological Traits and Detoxification Enzymes Activity|Environ. Sci. Pollut. Res.26(14): 14300-14312|2019|10.1007/s11356-019-04655-8
188914|T||Hafez,M.M.E.A., and S.M. Abd El-Naby|Relationship Between Resistance Level and Some Biochemical Parameters to Spodoptera littoralis Against Some Insect Growth Regulators (IGRs)|Egypt. Acad. J. Biol. Sci., C Physiol. Mol. Biol.6(1): 123-130|2014|10.21608/eajbsc.2014.16053
188915|T||Hamada,E.S.G.I.|Side Effects of Some Cotton Pesticides on the Dominant Spider Families in Cotton Fields|Acarines10(1): 71-76|2016|10.21608/ajesa.2016.164144
188916|T||Abd El-Rahman,S.F., M.S. Salem, S.S. Yacoub, and H.N. Nancy|Impact of Host Plants on Detoxification Enzyme Activities to Certain Compounds Efficacy Against the Cotton Leafworm, Spodoptera littoralis (Boisd.)|Egypt. Acad. J. Biol. Sci. Entomol.12(3): 105-119|2019|10.21608/eajbsa.2019.37716
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188919|T||Abou-Taleb,H., E. Zahran, and A.A. Gad|Biochemical and Physiological Effects of Lufenuron and Chlorfluazuron on Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae)|J. Entomol.12(2): 77-86|2015|10.3923/je.2015.77.86
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188921|T||Aftab,M., M.K. Malik, M. Zubair, S. Ali, M.W.U. Hassan, K. Hanif, H. Qamar, and M.R. Khurshid|Field Evaluation of Synthetic Insecticides Against Capitulum Borer (Helicoverpa armigera) Infesting Sunflower (Helianthus annus L.)|Pure Appl. Biol.9(3): 1800-1806|2020|10.19045/bspab.2020.90191
188922|T||Nalini,R., M. Shanthi, D.S. Rajavel, and R.K.M. Baskaran|Bioefficacy of New Insecticide Molecules on Rice Leaf Folder Marasmia exigua (Butler)|Pestology32(9): 13-15|2008|
188923|T||Mounika,G., P.V. Krishnayya, and T. Madhumathi|Evaluation of Lufenuron, Diflubenzuron and Novaluron for Their Lethal Concentrations/Doses (LC50/LD50) and Chitin Inhibition Against Spodoptera litura|J. Entomol. Res.38(2): 95-99|2014|
188924|T||Shankarappa,A.M., and V.S. Bhushan|Bioefficacy of Different Insecticides Against Spodoptera litura F. on Potato (Solanum tuberosum L) in Zaheerabad, Medak District (Andhra Pradesh)|Pestology33(12): 39-42|2009|
188925|T||Shaila,O., S.R.K. Rao, and T.R. Babu|Chemical Compatibility of Avermectins and Chitin Synthesis Inhibitors with Common Fungicides Against Aspergillus flavus|Indian J. Plant Prot.40(4): 293-300|2012|
188926|T||Senguttuvan,K., S. Kuttalam, and K. Gunasekaran|Base Line Toxicity of Lufenuron 5.4 EC Against Diamondback Moth, Plutella xylostella L. for Resistance Monitoring|Trends Biosci.7(13): 1440-1443|2014|
188927|T||Sakthi,E., N. Seenivasan, K. Devrajan, and N. Selvaraj|Bio-Efficacy of New Insecticides Against Cabbage Diamond Back Moth Plutella xylostella L|Pestology27(4): 35-37|2003|
188928|T||Reddy,M.S.S., S.K. Sathua, A. Sulagitti, and N.N. Singh|Bio-Efficacy of Different Novel Insecticides and Their Interaction Between Numbers of Sprays Against Diamondback Moth (Plutella xylostella L.) Infesting Cabbage|J. Entomol. Res.42(1): 51-56|2018|10.5958/0974-4576.2018.00009.9
188929|T||Rao,P.V., N. Srinivas, and A.V.V.S. Swamy|Effect of Crop Protective Agents on Seed Germination and Seedling Emergence in Chilli (Capsicum annum L.) - an In-Vitro Study|Nat. Environ. Pollut. Technol.19(2): 775-782|2020|10.46488/NEPT.2020.v19102.034
188930|T||Ranganathan,T., and K. Govindan|Efficacy of Three New Chemicals Over Diamond Back Moth Plutella xylostella L. on Cauliflower|Pestology20(2): 16-18|1996|
188932|A||Dragojevic,J., N. Marakovic, M. Popovic, and T. Smital|Zebrafish (Danio rerio) Oatp2b1 as a Functional Ortholog of the Human OATP2B1 Transporter|Fish Physiol. Biochem.47(6): 1837-1849|2021|10.1007/s10695-21-1015-7
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188935|T||Purwar,J.P., and G.C. Sachan|Compatibility of Entomogenous Fungus, Beauveria bassiana with Commonly Used Insecticides|Pestology29(7): 25-31|2005|
188936|T||Pinto,H., and F.T. Corbin|Absorption and Translocation of Tetrafluron in Cotton (Gossypium hirsutum), Jimsonweed (Datura stramonium), Peanut (Arachis hypogaea), and Prickly Sida (Sida spinosa)|Weed Sci.28(5): 557-565|1980|10.1017/S0043174500061221
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188938|T||Patil,B.V., M. Bheemanna, A.R. Bardari Prasad, and S.B. Goudar|Integration of Insect Growth Regulators in the Management of Cotton Bollworm, Helicoverpa armigera (Hubner)|Pestology25(9): 10-12|2001|
188939|T||Patil,A.M., D.M. Korat, and P.M. Sangle|Relative Toxicity of Certain Insecticides to Australian Ladybird Beetle, Cryptolaemus montrouzieri Mulsant|Trends Biosci.8(14): 3585-3587|2015|
188940|T||Sohail,A., R.R. Khan, H. Haider, and F. Ahmad|Prospects of Integrated Pest Management of Phyllocnistis citrella (Stain.) in Punjab, Pakistan|IOBC-WPRS Bull.62:255-264|2011|
188941|T||Dharmadasa,M., T. Nagalingam, and P.H.M. Seneviratne|Identification and Screening of New Generation Insecticides against Cardamom Thrips (Sciothrips cardamomi) in Cardamom Cultivations in Sri Lanka|Ceylon J. Sci. Biol. Sci.37(2): 137-142|2008|
188943|A||De Schamphelaere,K.A.C., C. Nys, and C.R. Janssen|Toxicity of Lead (Pb) to Freshwater Green Algae: Development and Validation of a Bioavailability Model and Inter-Species Sensitivity Comparison|Aquat. Toxicol.155:348-359|2014|10.1016/j.aquatox.2014.07.008
188944|T||Morris,L.E.|1-Mildew in Cotton Goods. The Growth of Mould Fungi on Sizing and Finishing Materials|J. Text. Inst.17(1): 1-22|1926|10.1080/19447022608661357
188945|T||Prat,S.|Toxicity of Metallic Ions and the Antagonizing Action of the Nutrient Solutions|Proceedings of the Fourteenth International Congress of Physiology18(1-4): 289-291|1933|
188947|T||Wang,T.T., S. Wang, S. Shao, X.D. Wang, D.Y. Wang, Y.S. Liu, C.J. Ge, G.G. Ying, and Z.B. Chen|Perfluorooctanoic Acid (PFOA)-Induced Alterations of Biomolecules in the Wetland Plant Alisma orientale|Sci. Total Environ.820:9 p.|2022|10.1016/j.scitotenv.2022.153302
188948|T||Gill,G.S., and J.H. Chong|Efficacy of Selected Insecticides as Replacement for Neonicotinoids in Managing Sweetpotato Whitefly on Poinsettia|HortTechnology31(6): 745-752|2021|10.21273/HORTTECH04853-21
188949|T||Ahire,K.C., M.S. Arora, and S.N. Mukherjee|Development and Application of a Method for Analysis of Lufenuron in Wheat Flour by Gas Chromatography-Mass Spectrometry and Confirmation of Bio-Efficacy Against Tribolium castaneum (Herbst) (Coleoptera : Tenebrionidae)|J. Chromatogr. B Biomed. Sci. Appl.861(1): 16-21|2008|10.1016/j.jchromb.2007.11.026
188950|T||Alemany,A., A. Gonzalez, A. Juan, and C. Tur|Evaluation of a Chemosterilization Strategy Against Ceratitis capitata (Diptera: Tephritidae) in Mallorca Island (Spain)|J. Appl. Entomol.132:746-752|2008|10.1111/j.1439-0418.2008.01376.x
188951|T||Ali,Q., M.H. Ranjha, G.M. Sahi, M. Faisal, F. Ahmad, H.U. Shakir, H.U. Rehman, N.A. Anjum, J. Iqbal, M.S. Hanif, B. Sad|Ovicidal Effect of Insect Growth Regulators Against Eggs of Trogoderma granarium (Everts) and Tribolium castaneum (Herbst)|Pak. J. Agric. Sci.57(1): 73-79|2020|10.21162/PAKJAS/20.8047
188952|T||Ali,Q., A. Rasul, M.F. Akhtar, A. Aslam, H.U. Shakir, M.A. Rehman, K. Naveed, H.S.U. Rehman, B. Saddiq, N.A. Anjum, and|Effect of Insect Growth Regulators on Fecundity, Fertility and Adult Emergence of Tribolium castaneum (Herbst) and Trogoderma granarium (Everts)|Pak. J. Agric. Sci.57(3): 799-805|2020|10.21162/PAKJAS/20.198
188953|T||Ali,Q., M.U. Hasan, L.J. Mason, M. Sagheer, and N. Javed|Biological Activity of Insect Growth Regulators, Pyriproxyfen, Lufenuron and Methoxyfenozide Against Tribolium castaneum (Herbst)|Pak. J. Zool.48(5): 1337-1342|2016|
188954|T||Ali,Q., M.U. Hasan, M. Sagheer, S. Saleem, M. Faisal, A. Naeem, and J. Iqbal|Screening of Seven Insect Growth Regulators for Their Anti-Insect Activity Against the Larvae of Trogoderma granarium (Everts) and Tribolium castaneum (Herbst)|Pak. J. Agric. Sci.54(3): 589-595|2017|10.21162/PAKJAS/17.5088
188955|T||Ali,Q., M.U. Hasan, H.U. Shakir, N.A. Anjum, S. Saleem, M.Y. Iqbal, M.U. Qasim, H.U. Rehman, and M. Faisal|Transgenerational Effect of Insect Growth Regulators on the Trogoderma granarium (Everts) (Coleoptera: Dermestidae) Under Different Abiotic Factors|Pak. J. Agric. Sci.55(4): 897-903|2018|10.21162/PAKJAS/18.6077
188956|T||Alexander,B., D.S. Rajavel, and K. Suresh|Effect of IGRs on Biochemical Components of the Integument of Spodoptera litura (Fab.)|J. Entomol. Res.32(2): 103-104|2008|
188957|T||Ansari,M., and A.N. Sharma|Compatibility of Bacillus thuringiensis and Beauveria bassiana with New Insecticides Recommended for Insect Pest Control in Soybean|Pestology29(9): 18-20|2005|
188958|T||Arruda,L.S., A.R.S. Rodrigues, N.C.B. Bermudez, L.M.S. Ribeiro, J.E.L. Neto, and H.A.A. Siqueira|Field Resistance of Plutella xylostella (Lepidoptera: Plutellidae) to Lufenuron: Inheritance and Lack of Cross-Resistance to Methoxyfenozide|Crop Prot.136:7p.|2020|10.1016/j.cropro.2020.105237
188959|T||Khan,R.R., M. Arshad, A. Aslam, and M. Arshad|Additive Interactions of Some Reduced-Risk Biocides and Two Entomopathogenic Nematodes Suggest Implications for Integrated Control of Spodoptera litura (Lepidoptera: Noctuidae)|Sci. Rep.11(1): 9 p.|2021|10.1038/s41598-020-79725-w
188960|T||Josan,A., and G. Singh|Lethal Effects of a New Acylurea Insect Growth Regulator (Lufenuron) Against Plutella xylostella (Linn.)|J. Insect Sci.15(1-2): 53-55|2002|
188961|T||Kakkar,G., W. Osbrink, and N.Y. Su|Molting Site Fidelity Accounts for Colony Elimination of the Formosan Subterranean Termites (Isoptera: Rhinotermitidae) by Chitin Synthesis Inhibitor Baits|Sci. Rep.8:9 p.|2018|10.1038/s41598-018-19603-8
188962|T||Kakkar,G., and N.Y. Su|Molting Drives Mortality in Foraging Populations of Formosan Subterranean Termites (Isoptera: Rhinotermitidae) Baited with a Chitin Synthesis Inhibitor, Noviflumuron|Pest Manag. Sci.74(1): 219-224|2018|10.1002/ps.4699
188963|T||Kale,V.D., A.R. Walunj, R.S. Battu, S.K. Sahoo, B. Singh, M. Paramasivam, S. Roy, T. Banerjee, H. Banerjee, C.S. Rao, D|Assessment of Flubendiamide Residues in Pigeon Pea in Different Agro-Climatic Zones of India|Environ. Monit. Assess.184(7): 4267-4270|2012|10.1007/s10661-011-2261-x
188964|T||Kayamori,M., A. Zakharycheva, H. Saito, and K. Komatsu|Resistance to Demethylation Inhibitors in Cercospora beticola, a Pathogen of Sugar Beet in Japan, and Development of Unique Cross-Resistance Patterns|Eur. J. Plant Pathol.160(1): 39-52|2021|10.1007/s10658-021-02219-6
188965|T||Khan,H.A.A.|Posttreatment Temperature Influences Toxicity of Insect Growth Regulators in Musca domestica|Parasitol. Res.120(2): 435-441|2021|10.1007/s00436-020-06998-5
188966|T||Khan,H.A.A., W. Akram, M. Arshad, and F. Hafeez|Toxicity and Resistance of Field Collected Musca domestica (Diptera: Muscidae) Against Insect Growth Regulator Insecticides|Parasitol. Res.115(4): 1385-1390|2016|10.1007/s00436-015-4872-6
188967|T||Lee,Y.K., N.Y. Jin, Y.S. Kim, H.J. Kim, Y.A. Hur, Y.S. Kim, C.H. Lim, Y.N. Youn, C. Yasunaga-Aoki, and Y.M. Yu|The Effects of Unmanned Control Systems for Optimum Pest Control in Protected Paprika Cultivation Facilities|J. Fac. Agric. Kyushu Univ.62(2): 411-417|2017|10.5109/1854014
188968|T||Lodge,G.M., M.G. McMillan, L.H. McCormick, and A.S. Cook|Effects of Glyphosate, Flupropanate and 2,2-DPA on Hyparrhenia hirta (L) Stapf (Coolatai Grass)|Aust. J. Exp. Agric.34(4): 479-485|1994|10.1071/EA9940479
188970|T||Lusk,C.S., G.A. Hurrell, D.J. Saville, and G.W. Bourdot|Changes in Plant Species Composition After Flupropanate Application for Nassella tussock Control, in Canterbury Hill-Country Pastures|N. Z. J. Agric. Res.60(3): 263-276|2017|10.1080/00288233.2017.1321556
188971|A||Hayes,K.R., W.S. Douglas, Y. Terrell, J. Fisher, L.A. Lyons, and L.J. Briggs|Predictive Ability of the Daphnia magna IQ Toxicity Test(TM) for Ten Diverse Water Treatment Additives|Bull. Environ. Contam. Toxicol.51(6): 909-913|1993|10.1007/BF00198289
188972|A||Szenasy,E.|Assessing the Potential Impact of the Antisapstain Chemicals DDAC and IPBC, in the Fraser River; Fraser River Action Plan FRAP Report 7|Environmental Conservation Branch, Environment Canada, Vancouver, BC:89 p.|1998|
188973|T||Macar,O.|Multiple Toxic Effects of Tetraconazole in Allium cepa L. Meristematic Cells|Environ. Sci. Pollut. Res.28(8): 10092-10099|2021|10.1007/s11356-020-11584-4
188974|T||Kuldeep, S.M. Azizur Rahman, and S. Ram|Effect of Sublethal Doses of Lufenuron Against Spodoptera litura Fab. and Spilarctia obliqua Walk|Indian J. Entomol.66(4): 287-292|2004|
188975|T||Kundomal,Y.R., and J.M. Baden|Inhaled Anesthetics Have no Effect on Fertility in Drosophila melanogaster|Br. J. Anaesth.57(9): 900-903|1985|10.1093/bja/57.9.900
188976|T||Kundomal,Y.R., and J.M. Baden|Toxicity and Teratogenicity of Inhaled Anesthetics in Drosophila melanogaster|Toxicol. Lett.25(3): 287-291|1985|10.1016/0378-4274(85)90209-7
188977|T||Kundomal,Y.R., and J.M. Baden|Mutagenicity of Inhaled Anesthetics in Drosophila melanogaster|Anesthesiology62(3): 305-309|1985|10.1097/00000542-198503000-00016
188978|T||Little,N.S., A.L. Catchot, K.C. Allen, J. Gore, F.R. Musser, D.R. Cook, and R.G. Luttrell|Supplemental Control with Diamides for Heliothines1 in Bt Cotton|Southwest. Entomol.42(1): 15-26|2017|10.3958/059.042.0102
188979|T||Balazs,K., G. Bujaki, and K. Farkas|Incorporation of Apple Clearwing (Synanthedon myopaeformis Bork.) Control into the IPM System of Apple|Acta Hortic.422:134-139|1996|10.17660/ActaHortic.1996.422.21
188982|T||Bakr,R.F.A., M.F. Abd Elaziz, N.M. El-Barky, M.H. Awad, and H.M.E. Abd El-Halim|The Activity of Some Detoxification Enzymes in Spodoptera littoralis (Boisd.) Larvae (Lepidoptera - Noctuidae) Treated with Two Different Insect Growth Regulators|Egypt. Acad. J. Biol. Sci., C Physiol. Mol. Biol.5(2): 19-27|2013|10.21608/eajbsc.2013.16092
188983|T||Bakr,R.F.A., N.M. El-Barky, M.F. Abd Elaziz, M.H. Awad, and H.M.E. Abd El-Halim|Biological and Molecular Aspects of the Insect Growth Regulator Lufenuron on Spodoptera littoralis (Bosid) (Lepidoptera: Noctuidae)|Egypt. Acad. J. Biol. Sci., C Physiol. Mol. Biol.6(2): 1-16|2014|10.21608/eajbsc.2014.13709
188984|T||Basavanneppa,B.B., and R.A. Balikai|Bio-Efficacy of Newer Insecticide Molecules Against Pod Borer, Helicoverpa armigera (Hubner) in Chickpea|Int. J. Agric. Stat. Sci.12(1): 147-152|2016|
188985|T||Belaam-Kort,I., R. Mansour, S. Attia, and S. Boulahia Kheder|Thrips (Thysanoptera: Thripidae) in Northern Tunisian Citrus Orchards: Population Density, Damage and Insecticide Trial for Sustainable Pest Management|Phytoparasitica49(4): 527-538|2021|10.1007/s12600-021-00906-y
188986|T||Ben-Ziony,Y., and B. Arzi|Use of Lufenuron for Treating Fungal Infections of Dogs and Cats: 297 Cases (1997-1999)|J. Am. Vet. Med. Assoc.217(10): 1510-1513|2000|10.2460/javma.2000.217.1510
188988|T||Bezerra Do Nascimento,A.R., P. Fresia, F.L. Consoli, and C. Omoto|Comparative Transcriptome Analysis of Lufenuron-Resistant and Susceptible Strains of Spodoptera frugiperda (Lepidoptera: Noctuidae)|BMC Genomics16:12 p.|2015|10.1186/s12864-015-2183-z
188989|T||Bezerra do Nascimento,A.R., V.A.C. Pavinato, J.G. Rodrigues, K.L. Silva-Brandao, F.L. Consoli, A. Michel, and C. Omoto|There is more than Chitin Synthase in Insect Resistance to Benzoylureas: Molecular Markers Associated with Teflubenzuron Resistance in Spodoptera frugiperda|J. Pest Sci.95:129-144|2022|10.1007/s10340-021-01373-4
188990|T||Bhowmik,P., D. Mandal, and M.L. Chatterjee|Chemical Management of Melon Fruit Fly, Bactrocera cucurbitae Conquillett (Diptera:Tephritidae) on Bitter Gourd (Momordica charantia Linn.)|Pestic. Res. J.26(1): 68-73|2014|
188991|T||Bielza,P., V. Quinto, E. Fernandez, C. Gravalos, J. Abellan, and D. Cifuentes|Inheritance of Resistance to Acrinathrin in Frankliniella occidentalis (Thysanoptera : Thripidae)|Pest Manag. Sci.64(5): 584-588|2008|10.1002/ps.1540
188993|T||Bielza,P., V. Quinto, C. Gravalos, E. Fernandez, and J. Abellan|Impact of Production System on Development of Insecticide Resistance in Frankliniella occidentalis (Thysanoptera : Thripidae)|J. Econ. Entomol.101(5): 1685-1690|2008|10.1603/0022-0493(2008)101[1685:IOPSOD]2.0.CO;2
188994|T||Iordanou,N., and P. Charalambous|Chemical Control of the Citrus Leafminer, Phyllocnistis citrella (Stainton) (Lepidoptera, Phyllocnistidae), in Cyprus|Cyprus Agric. Res. Inst. Tech. Bull.(197): 16|1998|
188995|A||Campos,B., B. Pina, and C. Barata|Daphnia magna Gut-Specific Transcriptomic Responses to Feeding Inhibiting Chemicals and Food Limitation|Environ. Toxicol. Chem.40(9): 2510-2520|2021|10.1002/etc.5134
188996|T||Van den Meiracker,K.G., P.A. Zungoli, E.P. Benson, and W.C.,Jr. Bridges|Temperature Effect on Survival and Cellulose Consumption of Noviflumuron- or Hexaflumuron-Fed Reticulitermes flavipes (Isoptera : Rhinotermitidae)|Sociobiology45(1): 185-193|2005|
188997|T||Zalewska,E.D., Z. Machowicz-Stefaniak, and E.D. Krol|Harmfulness of Phomopsis diachenii Sacc. to Herbs from Apiaceae Family and Preparations Limiting the Growth of this Fungus|Acta Sci. Pol. Hortorum Cultus12(5): 69-83|2013|
188998|T||Nikam,T.A., A.G. Chandele, R.S. Gade, and S.M. Gaikwad|Efficacy of Chemical Insecticides Against Diamond Back Moth, Plutella xylostella L. on Cabbage Under Field Condition|Trends Biosci.7(12): 1196-1199|2014|
188999|T||Duraimurugan,P., and M. Lakshminarayana|Efficacy of Newer Insecticides Against Defoliators and Capsule Borer in Castor|Indian J. Plant Prot.42(4): 307-311|2014|
189000|T||Basavanneppa,B.B., and R.A. Balikai|Toxicity of Newer Insecticides Against Helicoverpa armigera (Hubner) Under Laboratory Condition|Int. J. Agric. Stat. Sci.10(1): 221-223|2014|
189001|T||Chavan,A.P., S.K. Patil, and S.B. Latake|Bio-Efficacy and Economics of Insecticides for Management of Helicoverpa armigera Hubner in Chick Pea|Ann. Plant Prot. Sci.23(1): 27-29|2015|
189002|T||Mandali,R., and M.S. Rani|New Insecticides Against Pulse Beetle, Callosobruchus chinensis in Stored Greengram|Indian J. Plant Prot.43(1): 44-48|2015|
189003|T||Yun,X., Q. Huang, W. Rao, C. Xiao, T. Zhang, Z. Mao, and Z. Wan|A Comparative Assessment of Cytotoxicity of Commonly Used Agricultural Insecticides to Human and Insect Cells|Ecotoxicol. Environ. Saf.137:179-185|2017|10.1016/j.ecoenv.2016.12.002
189004|T||Ahmad,M., and S. Gull|Susceptibility of Armyworm Spodoptera litura (Lepidoptera: Noctuidae) to Novel Insecticides in Pakistan|Can. Entomol.149(5): 649-661|2017|10.4039/tce.2017.29
189005|T||Hegde,M., and H. Gadad|Field Efficacy of Newer Insecticides Against Spodoptera litura (Fabricius) in Groundnut|Indian J. Entomol.79(4): 417-422|2017|10.5958/0974-8172.2017.00076.1
189006|A||Esbaugh,A.J., K.V. Brix, E.M. Mager, K. De Schamphelaere, and M. Grosell|Multi-Linear Regression Analysis, Preliminary Biotic Ligand Modeling, and Cross Species Comparison of the Effects of Water Chemistry on Chronic Lead Toxicity in Invertebrates|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 423-431|2012|10.1016/j.cbpc.2011.11.005
189007|T||Arias,O., E. Cordeiro, A.S. Correa, F.A. Domingues, A.S. Guidolin, and C. Omoto|Population Genetic Structure and Demographic History of Spodoptera frugiperda (Lepidoptera: Noctuidae): Implications for Insect Resistance Management Programs|Pest Manag. Sci.75(11): 2948-2957|2019|10.1002/ps.5407
189008|T||Lyu,D., and D.W. Lee|Occurrence of Gypsy Moth, Lymantria dispar Around Pier in Korea and Comparison of Insecticide Response Depending on Instar|Korean J. Pestic. Sci. (Multiple Languages)23(1): 1-7|2019|10.7585/kjps.2019.23.1.1
189009|T||Khorshidi,M., R.F. Pour Abad, M. Saber, and A. Zibaee|Effect of Hexaflumuron, Lufenuron and Chlorfluazuron on Certain Biological and Physiological Parameters of Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae)|Biocatal. Agric. Biotechnol.21:8|2019|10.1016/j.bcab.2019.101270
189010|T||Rahman,M.W., G. Das, and M.M. Uddin|Field Efficacy of Some New Insecticides Against Brinjal Shoot and Fruit Borer, Leucinodes orbonalis (Guen.) (Lepidoptera: Pyralidae) and Their Toxic Effects on Natural Enemies|JBAU17(3): 319-324|2019|10.3329/jbau.v17i3.43205
189011|T||Huang,J.M., C. Rao, S. Wang, L.F. He, S.Q. Zhao, L.Q. Zhou, Y.X. Zhao, F.X. Yang, C.F. Gao, and S.F. Wu|Multiple Target-Site Mutations Occurring in Lepidopterans Confer Resistance to Diamide Insecticides|Insect Biochem. Mol. Biol.121:10 p.|2020|10.1016/j.ibmb.2020.103367
189012|T||Mousavi,S.Q., A.R. Bandani, and E. Alaie|Combination of Antibiotics and Chitin Synthesis Inhibitors for the Control of Microcerotermes diversus (Isoptera: Termitidae)|J. Asia Pac. Entomol.23(4): 957-962|2020|10.1016/j.aspen.2020.08.001
189013|T||El-Zahi,E.Z.S., A.Y. Keratum, A.H. Hosny, and N.Y.E. Yousef|Efficacy and Field Persistence of Pyridalyl and Insect Growth Regulators Against Spodoptera littoralis (Boisduval) and the Induced Oxidative Stress in Cotton|Int. J. Trop. Insect Sci.:8p.|2021|10.1007/s42690-020-00419-x
189014|T||Zhu,J., L. Li, K. Xiao, S. He, and F. Gui|Genomic and Transcriptomic Analysis Reveals Cuticular Protein Genes Responding to Different Insecticides in Fall Armyworm Spodoptera frugiperda|Insects12(11): 13 p.|2021|10.3390/insects12110997
189016|T||Ascher,K.R.S., N.E. Nemny, D. Blumberg, and S. Goldenberg|Egg-Sterilizing Effect of Benzoylphenylureas Via the Adult Stage of the Nitidulid Beetle Carpophilus hemipterus|Phytoparasitica14(3): 187-192|1986|10.1007/BF02980486
189017|T||Meisner,J., M. Klein, and K.R.S. Ascher|The Effect of Some Benzoyl Phenylureas on the Larvae of Earias insulana|Phytoparasitica14(1): 3-9|1986|10.1007/BF02980473
189018|T||Ammar,I.M.A.|Residual Bioactivity of Insect Growth Regulators Against Sitophilus oryzae (L) in Wheat-Grain|Anz. Schaedlingskd. Pflanzenschutz Umweltschutz (Multiple Languages)61(3): 56-60|1988|10.1007/BF01906255
189020|AT||Li,B., H. Li, X. Pang, K. Cui, J. Lin, F. Liu, and W. Mu|Quaternary Ammonium Cationic Surfactants Increase Bioactivity of Indoxacarb on Pests and Toxicological Risk to Daphnia magna|Ecotoxicol. Environ. Saf.149:190-196|2018|10.1016/j.ecoenv.2017.11.038
189022|A||Liu,X., Y. Li, X. Zheng, L. Zhang, H. Lyu, H. Huang, and Z. Fan|Anti-Oxidant Mechanisms of Chlorella pyrenoidosa Under Acute GenX Exposure|Sci. Total Environ.797:11 p.|2021|10.1016/j.scitotenv.2021.149005
189024|A||Cara,A.L., A. Dos Santos Barboza Ortega, F.H. Pusceddu, D.M. De Souza Abessa, C.D.S. Pereira, and L.H. Maranho|Could Aqueous Film-Forming Foams (AFFFs) and Encapsulator Agents (EAs) Interfere on the Reproduction and Growth of Daphnia similis?|Water Air Soil Pollut.232(10): 9 p.|2021|10.1007/s11270-021-05362-2
189026|T||Ameta,O.|Efficacy of NNI 0001 (Flubendiamide) 480 SC Against Diamondback Moth, Plutella xylostella (Linn.) in Cabbage and Its Effects on Natural Enemies Under Field Conditions|Pestology31(6): 21-24|2007|
189027|T||Ameta,O.P., and A. Kumar|Efficacy of Flubendiamide Against Helicoverpo armigera (Hubner) and Spodoptera litura (Fab.) in Chilli|Pestology32(5): 26-29|2008|
189028|T||Biswas,K., S. Mallikarjunappa, and U.G. Bhat|Takumi - an Ultimate New Generation Product for the Management of Most Problematic Insect Pest, Shoot and Fruit Borer, Leucinodes orbonalis (Guen) of Brinjal|Pestology33(10): 23-25|2009|
189029|T||Ameta,O., U.S. Sharma, and H.K. Jain|Relative Efficacy of Flubendiamide 480SC Against Helicoverpa armigera (Hubner) in Chick Pea|Pestology34(11): 31-35|2010|
189030|T||Ameta,O.R., A. Kumar, and P.K. Dashora|Efficacy of Flubendiamide 480sc Against Shoot & Fruit Borer, Leucinodes orbonalis (Guen.) in Brinjal|Pestology34(8): 41-45|2010|
189031|T||Liu,M., Y. Wang, W.Z. Wangyang, F. Liu, Y.L. Cui, Y.S. Duan, M. Wang, S.Z. Liu, and C.H. Rui|Design, Synthesis, and Insecticidal Activities of Phthalamides Containing a Hydrazone Substructure|J. Agric. Food Chem.58(11): 6858-6863|2010|10.1021/jf1000919
189032|T||Belay,D.K., R.M. Huckaba, and J.E. Foster|Susceptibility of the Fall Armyworm, Spodoptera frugiperda (Lepidoptera: Noctuidae), at Santa Isabel, Puerto Rico, to Different Insecticides|Fla. Entomol.95(2): 476-478|2012|10.1653/024.095.0232
189033|T||Bhatti,S.S., M. Ahmad, K. Yousaf, and M. Naeem|Pyrethroids and New Chemistry Insecticides Mixtures Against Spodoptera litura (Noctuidae: Lepidoptera) Under Laboratory Conditions|Asian J. Agric. Biol.1(2): 45-50|2013|
189034|T||Yamazaki,E., S. Taniyasu, K. Noborio, H. Eun, P. Thaker, N.J.I. Kumar, X. Wang, and N. Yamashita|Accumulation of Perfluoroalkyl Substances in Lysimeter-Grown Rice in Japan Using Tap Water and Simulated Contaminated Water|Chemosphere231:502-509|2019|10.1016/j.chemosphere.2019.05.022
189035|A||Hu,C., Z. Huang, B. Sun, M. Liu, L. Tang, and L. Chen|Metabolomic Profiles in Zebrafish Larvae Following Probiotic and Perfluorobutanesulfonate Coexposure|Environ. Res.204:17 p.|2022|10.1016/j.envres.2021.112380
189036|T||Xu,Y., W. Du, Y. Yin, Y. Sun, R. Ji, H. He, S. Yang, S. Li, J. Wu, and H. Guo|CuO Nanoparticles Modify Bioaccumulation of Perfluorooctanoic Acid in Radish (Raphanus sativus L.)|Environ. Pollut. Bioavail.34(1): 34-41|2022|10.1080/26395940.2021.2025150
189037|T||Liu,S., J. Zhou, J. Guo, Z. Gao, Y. Jia, S. Li, T. Wang, and L. Zhu|Insights into the Impacts of Dissolved Organic Matter of Different Origins on Bioaccumulation and Translocation of Per- and Polyfluoroalkyl Substances (PFASs) in Wheat|Environ. Pollut.293:9 p.|2022|10.1016/j.envpol.2021.118604
189038|T||Lupton,S.J., F. Casey, D.J. Smith, and H. Hakk|Perfluorooctanoic Acid Transport in Soil and Absorption and Distribution in Alfalfa (Medicago sativa)|J. Food Prot.85(1): 164-172|2022|10.4315/JFP-21-276
189039|A||Hu,C., M. Liu, L. Tang, H. Liu, B. Sun, and L. Chen|Probiotic Intervention Mitigates the Metabolic Disturbances of Perfluorobutanesulfonate Along the Gut-Liver Axis of Zebrafish|Chemosphere284:8 p.|2021|10.1016/j.chemosphere.2021.131374
189040|A||Hu,C., M. Liu, L. Tang, B. Sun, Z. Huang, and L. Chen|Probiotic Lactobacillus rhamnosus Modulates the Impacts of Perfluorobutanesulfonate on Oocyte Developmental Rhythm of Zebrafish|Sci. Total Environ.776:9 p.|2021|10.1016/j.scitotenv.2021.145975
189041|A||Sun,B., M. Liu, L. Tang, C. Hu, Z. Huang, X. Zhou, and L. Chen|Probiotic Supplementation Mitigates the Developmental Toxicity of Perfluorobutanesulfonate in Zebrafish Larvae|Sci. Total Environ.799:9 p.|2021|10.1016/j.scitotenv.2021.149458
189042|A||Sun,B., M. Liu, L. Tang, C. Hu, Z. Huang, and L. Chen|Probiotics Inhibit the Stunted Growth Defect of Perfluorobutanesulfonate Via Stress and Thyroid Axes in Zebrafish Larvae|Environ. Pollut.290:8 p.|2021|10.1016/j.envpol.2021.118013
189044|A||Sukardi,H., X. Zhang, E.Y. Lui, C.Y. Ung, S. Mathavan, Z. Gong, and S.H. Lam|Liver X Receptor Agonist T0901317 Induced Liver Perturbation in Zebrafish: Histological, Gene Set Enrichment and Expression Analyses|Biochim. Biophys. Acta1820(1): 33-43|2012|10.1016/j.bbagen.2011.10.009
189045|T||Schneider,A., L. Gontijo, and L. Costa|Impact of Bt Sweet Corn on Lepidopteran Pests in Midwestern Brazil|Sci. Agric.76(3): 214-219|2019|10.1590/1678-992X-2017-176
189046|T||Li,J., Y. Gao, S. Shang, X. Rao, J. Song, and Z. Wang|Synthesis and Quantitative Structure-Activity Relationship (QSAR) Studies of Novel Rosin-Based Diamide Insecticides|RSC Adv.4(102): 58190-58199|2014|10.1039/c4ra10125a
189047|T||Basavanneppa,B.B., R.A. Balikai, and D.N. Kambrekar|Ovicidal Action of Newer Insecticide Molecules Against the Eggs of Helicoverpa armigera (Hubner)|Int. J. Agric. Stat. Sci.10(1): 189-191|2014|
189051|T||Bansode,A.G., C.S. Patil, and S.S. Jadhav|Efficacy of Insecticides Against Shoot and Fruit Borer, Earias vittella F. Infesting Okra|Pest Manag. Hortic. Ecosyst.21(1): 106-109|2015|
189052|T||Kodandaram,M.H., A.B. Rai, K. Sireesha, and J. Halder|Efficacy of Cyantraniliprole a New Anthranilic Diamide Insecticide Against Leucinodes orbonalis (Lepidoptera: Crambidae) of Brinjal|J. Environ. Biol.36(6): 1415-1420|2015|
189053|T||Kano,R., E. Kohata, A. Tateishi, S.Y. Murayama, D. Hirose, Y. Shibata, Y. Kosuge, H. Inoue, H. Kamata, and A. Hasegawa|Does Farm Fungicide Use Induce Azole Resistance in Aspergillus fumigatus?|Med. Mycol.53(2): 174-177|2015|10.1093/mmy/myu076
189054|T||Bilal,M., S. Freed, M.Z. Ashraf, S.M. Zaka, and M.B. Khan|Activity of Acetylcholinesterase and Acid and Alkaline Phosphatases in Different Insecticide-Treated Helicoverpa armigera (Hubner)|Environ. Sci. Pollut. Res.25(23SI): 22903-22910|2018|10.1007/s11356-018-2394-3
189055|T||Blagburn,B.L., C.M. Hendrix, J.L. Vaughan, D.S. Lindsay, and S.H. Barnett|Efficacy of Lufenuron Against Developmental Stages of Fleas (Ctenocephalides-felis felis) in Dogs Housed in Simulated Home Environments|Am. J. Vet. Res.56(4): 464-467|1995|10.2460/ajvr.1995.56.04.464
189056|T||Bilal,M., M.H. Ranjha, and N.H. Bashir|Comparison of Beauveria bassiana with IGRs Against Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) and Trogoderma granarium (Everts) (Coleoptera: Dermestidae)|J. Entomol. Zool. Stud.5(6): 113-117|2017|
189057|T||Biswas,A.|Evaluation of Bio-Efficacy and Compatibility of Fungicide and Insecticide Against Sheath Blight and Stem Borer in Rice|Pestology36(7): 34-36|2012|
189059|T||Adams,A., J. Gore, A. Catchot, F. Musser, D. Cook, N. Krishnan, and T. Irby|Susceptibility of Helicoverpa zea (Lepidoptera: Noctuidae) Neonates to Diamide Insecticides in the Midsouthern and Southeastern United States|J. Econ. Entomol.109(5): 2205-2209|2016|10.1093/jee/tow175
189060|T||Kang,W.J., H.N. Koo, D.H. Jeong, H.K. Kim, J. Kim, and G.H. Kim|Functional and Genetic Characteristics of Chlorantraniliprole Resistance in the Diamondback Moth, Plutella xylostella (Lepidoptera: Plutellidae)|Entomol. Res.47(6): 394-403|2017|10.1111/1748-5967.12258
189061|T||Kodandaram,M.H., A.B. Rai, S.K. Sharma, and B. Singh|Shift in the Level of Susceptibility and Relative Resistance of Brinjal Shoot and Fruit Borer Leucinodes orbonalis (Guen) to Diamide Insecticides|Phytoparasitica45(2): 151-154|2017|10.1007/s12600-017-0584-z
189062|T||Aiswarya,V.A., B.B. Bhosle, and B.V. Bhede|Evaluation of Some Recent Insecticides Against Diamondback Moth, Plutella Xylostella L. on Cabbage Under Field Condition|J. Entomol. Res.42(3): 383-386|2018|10.5958/0974-4576.2018.00064.6
189063|T||Ardez,K.P., D. Steinbach, R.P. Laude, and B.L. Caoili|Genotyping the Susceptibility of Philippine Geographic Populations of the Diamondback Moth, Plutella xylostella Linn. (Lepidoptera: Plutellidae), to Flubendiamide|Philippine Agricultural Scientist101(2): 128-135|2018|
189064|T||Jallow,M.F.A., A.A. Dahab, M.S. Albaho, V.Y. Devi, D.G. Awadh, and B.M. Thomas|Baseline Susceptibility and Assessment of Resistance Risk to Flubendiamide and Chlorantraniliprole in Tuta absoluta (Lepidoptera: Gelechiidae) Populations from Kuwait|Appl. Entomol. Zool.54(1): 91-99|2019|10.1007/s13355-018-0598-0
189066|T||Jallow,M.F.A., A.A. Dahab, M.S. Albaho, V.Y. Devi, J. Jacob, and O. Al-Saeed|Efficacy of Mating Disruption Compared with Chemical Insecticides for Controlling Tuta absoluta (Lepidoptera: Gelechiidae) in Kuwait|Appl. Entomol. Zool.55(2): 213-221|2020|10.1007/s13355-020-00673-y
189067|T||Boaventura,D., A. Bolzan, F.E.O. Padovez, D.M. Okuma, C. Omoto, and R. Nauen|Detection of a Ryanodine Receptor Target-Site Mutation in Diamide Insecticide Resistant Fall Armyworm, Spodoptera frugiperda|Pest Manag. Sci.76(1): 47-54|2020|10.1002/ps.5505
189068|T||Barros,L.S., P.T. Yamamoto, P. Merten, and S.E. Naranjo|Sublethal Effects of Diamide Insecticides on Development and Flight Performance of Chloridea virescens (Lepidoptera: Noctuidae): Implications for Bt Soybean Refuge Area Management|Insects11(5): 18 p.|2020|10.3390/insects11050269
189069|T||Li,Z., H. Jiang, S. Liu, Y. Li, Z. Yuchi, and Q. Gao|Ryanodine Receptor-Targeting Small Molecule Fluorescent Probes Enables Non-Isotopic Labeling and Efficient Drug Screening for Green Insecticides|Anal. Chim. Acta1108:108-117|2020|10.1016/j.aca.2020.02.047
189070|T||Kariyanna,B., A. Prabhuraj, R. Asokan, A. Agrawal, R. Gandhi Gracy, P. Jyoti, T. Venkatesan, M. Bheemanna, B. Kalmath, |Genome Mining and Expression Analysis of Carboxylesterase and Glutathione S-Transferase Genes Involved in Insecticide Resistance in Eggplant Shoot and Fruit Borer, Leucinodes orbonalis (Lepidoptera: Crambidae)|Front. Physiol.11:13 p.|2020|10.3389/fphys.2020.594845
189071|T||Kandil,M.A.A., R.A.M. Amer, and M.S.M. Salem|Life Table Basic Tool Parameters for Pectinophora gossypiella (Saunders) as Affected by Certain Treatments|International Journal of Entomology Research5(4): 145-148|2020|
189072|T||Kim,J., H.Y. Nam, M. Kwon, J.H. Choi, S.R. Cho, and G.H. Kim|Novel Diamide Resistance-Linked Mutation in Korean Spodoptera exigua and a LAMP Assay Based on a Mutation-Associated Intronic InDel|J. Pest Sci.94(3): 1017-1029|2021|10.1007/s10340-020-01314-7
189073|T||Jiang,D., C. Qian, D. Wang, F. Wang, S. Zhao, Y. Yang, S.W. Baxter, X. Wang, and Y. Wu|Varying Contributions of Three Ryanodine Receptor Point Mutations to Diamide Insecticide Resistance in Plutella xylostella|Pest Manag. Sci.77(11): 4874-4883|2021|10.1002/ps.6534
189074|T||Kong,F., Y. Song, Q. Zhang, Z. Wang, and Y. Liu|Sublethal Effects of Chlorantraniliprole on Spodoptera litura (Lepidoptera: Noctuidae) Moth: Implication for Attract-and-Kill Strategy|Toxics9(2): 9 p.|2021|10.3390/toxics9020020
189075|T||Adams,A., J. Gore, A. Catchot, F. Musser, D. Cook, N. Krishnan, and T. Irby|Residual and Systemic Efficacy of Chlorantraniliprole and Flubendiamide Against Corn Earworm (Lepidoptera: Noctuidae) in Soybean|J. Econ. Entomol.109(6): 2411-2417|2016|10.1093/jee/tow210
189076|T||Amoah,I.D., P. Reddy, and T.A. Stenstrom|Effect of Reagents Used During Detection and Quantification of Ascaris suum in Environmental Samples on Egg Viability|Water Sci. Technol.76(9): 2389-2400|2017|10.2166/wst.2017.324
189077|T||Carzaniga,R., F. Faoro, and G. Farina|Effects of Tetraconazole on Sporidia of Ustilago maydis. II. An Ultrastructural Study|J. Plant Pathol.3(3): 91-103|1993|
189078|T||Chia,T.|Growth, Distribution and Susceptibility of Major Rat Species to Anticoagulant Rodenticides and the Inheritance of Resistance to Warfarin in Rattus tiomanicus in Oil Palm Plantations in Peninsular Malaysia|Ph.D.Thesis, University of Reading, United Kingdom:278 p.|2000|
189079|T||Blagburn,B.L., J.L. Vaughan, J.M. Butler, and S.C. Parks|Dose Titration of an Injectable Formulation of Lufenuron in Cats Experimentally Infested with Fleas|Am. J. Vet. Res.60(12): 1513-1515|1999|10.2460/ajvr.1999.60.12.1513
189080|T||Blagburn,B.L., J.L. Vaughan, D.S. Lindsay, and G.L. Tebbitt|Efficacy Dosage Titration of Lufenuron Against Developmental Stages of Fleas (Ctenocephalides-felis-felis) in Cats|Am. J. Vet. Res.55(1): 98-101|1994|10.2460/ajvr.1994.55.01.98
189081|T||Boisvenue,R.J., and B.C. Clymer|Systemic Activity of Nifluridide Against Sucking Lice and the Common Scabies Mite on Cattle|Vet. Parasitol.11(2-3): 253-260|1982|10.1016/0304-4017(82)90048-6
189082|T||Kakar,A., M. Anwar, K. Kamran, and F. Iqbal|Chemical Control of Codling Moth, Cydia Pomonella L. (Lepidoptera: Tortricidae) in Relation to Pheromone Trap Catches and Degree Days in Upland Balochistan|Pak. J. Zool.47(2): 297-305|2015|
189083|T||Atta,B., M.D. Gogi, M.J. Arif, F. Mustafa, M.F. Raza, M.J. Hussain, M.A. Farooq, M.J. Nisar, and M. Iqbal|Toxicity of Some Insect Growth Regulators (IGRS) Against Different Life Stages of Dusky Cotton Bugs Oxycarenus hyalinipennis Costa (Hemiptera: Lygaeidae: Oxycareninae)|Bulg. J. Agric. Sci.21(2): 367-371|2015|
189084|T||Aulakh,S.S., and N.S. Butter|Toxicity of Chlorpyriphos with Pre-Treatment of Lufenuron on Helicoverpa armigera (Hubner) and Other Insects in Cotton|Indian J. Entomol.71(1): 35-47|2009|
189085|T||Badgery,W.B., D.R. Kemp, D.L. Michalk, and W.M. King|Studies of Competition Between Nassella trichotoma (Nees) Hack. Ex Arechav. (Serrated Tussock) and Native Pastures. 1. Adult Plants|Aust. J. Agric. Res.59(3): 226-236|2008|10.1071/AR07112
189086|T||Badgery,W.B., D.R. Kemp, D.L. Michalk, and W.M. King|Studies of Competition Between Nassella trichotoma (Nees) Hack. Ex Arechav. (Serrated Tussock) and Native Pastures. 2. Seedling Responses|Aust. J. Agric. Res.59(3): 237-246|2008|10.1071/AR07113
189087|T||Miller,P.F., B.A. Peters, and C.A. Hort|A Field Study to Evaluate Integrated Flea Control Using Lufenuron and Nitenpyram Compared to Imidacloprid Used Alone|Aust.Vet.Pract.31(2): 60-66|2001|
189088|T||Maymo,A.C., A. Cervera, R. Sarabia, R. Martinez-Pardo, and M.D. Garcera|Evaluation of Metabolic Detoxifying Enzyme Activities and Insecticide Resistance in Frankliniella occidentalis|Pest Manag. Sci.58(9): 928-934|2002|10.1002/ps.558
189089|T||Maqsood,S., M. Afzal, M.A. Aqueel, W. Wakil, and H.A.A. Khan|Comparative Evaluation of Selected Biorational Insecticides Against Spodoptera litura (Fabricius) on Cauliflower|Pak. J. Zool.50(5): 1645-1652|2018|10.17582/journal.pjz/2018.50.5.1645.1652
189090|T||Smith,J.|An Areawide Population Management Project for the Invasive Eastern Subterranean Termite (Isoptera: Rhinotermitidae) in a Low-Income Community in Santiago, Chile|Am. Entomol.52(4): 253-260|2006|10.1093/ae/52.4.253
189091|T||Tamboli,N.|Bio-Efficacy of Newer Insecticides Against Pod Borer, Helicoverpa armigera Hub (Noctuidae: Lepidoptera) on Pigeonpea|Pestology32(10): 29-32|2008|
189092|T||Tamboli,N., and G.R. Lolage|Field Efficacy of Newer Insecticides Against Pod Fly and Plume Moth Infesting Pigeonpea|Pestology32(10): 69-72|2008|
189093|T||Udikeri,S., S.B. Patil, H.M. Shaila, G.S. Guruprasad, R.B. Hirekurubar, C. Abhilash, and P.V. Matti|Flubendamide 480 SC: A Promising Insecticide Against Bollworm Complex of Cotton|Pestology32(7): 30-33|2008|
189094|T||Pertot,I., F. Fiamingo, A. Tizianel, S. Fratton, and Y. Elad|Effect of the Timing of Applications of Control Agents on Podosphaera aphanis and Effect of Fungicides on the Survival of Biocontrol Agents on Strawberry Leaves|Acta Hortic.807:733-738|2009|10.17660/ActaHortic.2009.807.110
189095|T||Prasad,S.S., P.K. Gupta, and U.S. Yadav|Comparative Efficacy of Certain New Insecticides Against Yellow Stem Borer, Scirpophaga Incertulas (Walker) in Semi-Deep Water Rice|Res. Crops11(1): 91-94|2010|
189096|T||Baden,J.M., and Y.R. Kundomal|Mutagenicity of the Combination of a Volatile Anaesthetic and Nitrous Oxide|Br. J. Anaesth.59(6): 772-775|1987|10.1093/bja/59.6.772
189097|T||Derbalah,A.S., S.M. El-Moghazy, and M.L. Godah|Alternative Control Methods of Sugar-Beet Leaf Spot Disease Caused by the Fungus Cercospora beticola (Sacc)|Egypt. J. Biol. Pest Control23(2): 247-254|2013|
189098|A||Esbaugh,A.J., K.V. Brix, E.M. Mager, and M. Grosell|Multi-Linear Regression Models Predict the Effects of Water Chemistry on Acute Lead Toxicity to Ceriodaphnia dubia and Pimephales promelas|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(3): 137-145|2011|10.1016/j.cbpc.2011.04.006
189099|T||Mancianti,F., S. Dabizzi, and S. Nardoni|A Lufenuron Pre-Treatment May Enhance the Effects of Enilconazole or Griseofulvin in Feline Dermatophytosis?|J. Feline Med. Surg.11(2): 91-95|2009|10.1016/j.jfms.2008.05.006
189100|T||Maffi,D., F. Cozzi, G. Violini, M. Bassi, and G.G. Conti|Ultrastructural Studies of the Effects of Tetraconazole on the Barley-Powdery Mildew Host-Pathogen Complex|Mycol. Res.99(7): 799-805|1995|10.1016/S0953-7562(09)80729-6
189101|T||Maharjan,R., and C. Jung|Insecticide-Mediated Behavioral Avoidance by Bean Bug, Riptortus pedestris (Heteroptera: Alydidae)|Entomol. Res.45(4): 184-192|2015|10.1111/1748-5967.12113
189102|T||Moya,P., S. Flores, I. Ayala, J. Sanchis, P. Montoya, and J. Primo|Evaluation of Lufenuron as a Chemosterilant Against Fruit Flies of the Genus Anastrepha (Diptera: Tephritidae)|Pest Manag. Sci.66(6): 657-663|2010|10.1002/ps.1925
189103|T||Mosson,H.J., J.E. Short, R. Schenker, and J.P. Edwards|The Effects of the Insect Growth Regulator Lufenuron on Oriental Cockroach, Blatta orientalis, and German Cockroach, Blattella germanica, Populations in Simulated Domestic Environments|Pestic. Sci.45(3): 237-246|1995|10.1002/ps.2780450307
189105|T||Morgan,P.G., and M.M. Sedensky|Mutations Conferring New Patterns of Sensitivity to Volatile Anesthetics in Caenorhabditis elegans|Anesthesiology81(4): 888-898|1994|10.1097/00000542-199410000-00016
189106|T||Morgan,P.G., M. Sedensky, and P.M. Meneely|Multiple Sites of Action of Volatile Anesthetics in Caenorhabditis elegans|Proc. Natl. Acad. Sci. U.S.A.87(8): 2965-2969|1990|10.1073/pnas.87.8.2965
189107|T||Hilding,A.C., D.A. Hilding, D.M. Larson, and A.C. Aufderheide|Biological Effects of Ingested Amosite Asbestos, Taconite Tailings, Diatomaceous Earth and Lake Superior Water in Rats|Arch. Environ. Health36(6): 298-303|1981|10.1080/00039896.1981.10667641
189108|T||Monteiro,L.B., L.G. Witt, I.C. Guiloski, R.S. Silva Dos Santos, and H.C. Silva De Assis|Evaluation of Resistance Management for the Oriental Fruit Moth (Lepidoptera: Tortricidae) to Insecticides in Brazilian Apple Orchards|J. Econ. Entomol.113(3): 1411-1418|2020|10.1093/jee/toaa023
189109|T||Zaidi,S.H., G.S.D. Gupta, Q. Rahman, J.L. Kaw, and R. Shanker|Early Response of Gastric Mucosa to Ingested Asbestos Dust and the Dissolution of Nickel|Environ. Res.12:139-143|1976|10.1016/0013-9351(76)90016-5
189110|T||Da Silva,K., M.A. Smaniotto, J.G. Acunha, M. D'Agostini, A. Rizzardo, L.E. Curioletti, L. Pasqualotto, R. Froehlich, an|Assessment of Insecticide Mortality on Fall Armyworm (Spodoptera frugiperda) Between Locations and Modes of Insecticide Entry|Aust. J. Crop Sci.14(6): 991-996|2020|10.21475/ajcs.20.14.06.p2403
189111|T||Shivanna,B.K., R.R. Kanth, M. Latha, A.C. Veerendra, and R. Sathish|Assessment of New Molecules Against Cut Worm, Spodoptera litura (Fabricius) on Chewing Tobacco|Environ. Ecol.33(1B): 581-584|2015|
189112|T||Mahendra,R., C.S.J. Babu, Y.S. Basanth, and R. Girish|Bioefficacy of New Insecticides Against Helicoverpa armigera on Chickpea Crop|Environ. Ecol.29(1A): 280-281|2011|
189113|T||Kubendran,D., S. Chandrasekaran, B.V. Kumar, and S. Kuttalam|Base Line Toxicity Studies of Flubendiamide 480 SC Against Tomato Fruit Borer Helicoverpa armigera Hubner|Pestology32(12): 46-48|2008|
189114|T||Javaregowda|Bioefficacy of Flubendiamide 20 WDG (RIL-038) Against Rice Stem Borer, Scirphophaga incertulas (WLK)|Pestology29(5): 19-20|2005|
189115|T||Pathipati,V.L., T.V.K. Singh, S.B. Vemuri, R.V.S.K. Reddy, and N.B. Bharathi|Bioefficacy of Certain Insecticides Against Blossom Midge, Asphondylia capsici Barens on Capsicum Under Field Conditions|Pest Manag. Hortic. Ecosyst.22(1): 63-66|2016|
189116|T||Pal,S., H. Chatterjee, and S.K. Senapati|Bioefficacy and Economics of Biopesticides and Insecticides Against Carnation Bud Borer, Helicoverpa armigera (Hubner)|Indian J. Ecol.40(2): 195-200|2013|
189117|T||Shukla,A., R.B. Tripathi, and I. Singh|Bio-Efficacy and Economics of Insecticides for Management of Heliothis armigera in Gram Pod of District Gonda, Uttar Pradesh|Flora Fauna22(1): 86-88|2016|
189118|T||Qi,S., P. Luemmen, R. Nauen, and J.E. Casida|Diamide Insecticide Target Site Specificity in the Heliothis and Musca Ryanodine Receptors Relative to Toxicity|J. Agric. Food Chem.62(18): 4077-4082|2014|10.1021/jf501236h
189119|T||Radwan,H.S.A., G.E.S.A. El-Ghar, and Z.A. El-Bermawy|Joint Action of Benzoylphenylureas in Binary-Mixtures Against Larvae of the Cotton Leafworm, Spodoptera littoralis|Phytoparasitica15(4): 269-276|1987|10.1007/BF02979542
189120|T||Rajawat,I.S., A. Kumar, M.A. Alam, R.K. Tiwari, and A.K. Pandey|Insect Pests of Black Gram (Vigna mungo L.) and Their Management in Vindhya Region|Legume Res.44(2): 225-232|2021|10.18805/LR-4171
189121|T||Rao,M.S., P. Sreelakshmi, K. Deekshita, M. Vanaja, I. Srinivas, M. Maheswari, K. Srinivas, K.S. Reddy, S. Bhaskar, and |Interactive Effects of Temperature and CO2 on Efficacy of Insecticides Against Spodoptera litura Fab. in a Global Warming Context|Phytoparasitica49(3): 417-431|2021|10.1007/s12600-020-00854-z
189123|T||Ribeiro,L.M.S., H.A.A. Siqueira, V. Wanderley-Teixeira, H.N. Ferreira, W.M. Silva, J.E. Silva, and A.A.C. Teixeira|Field Resistance of Brazilian Plutella xylostella to Diamides is not Metabolism-Mediated|Crop Prot.93:82-88|2017|10.1016/j.cropro.2016.11.027
189124|T||Rosenzweig,N., L.E. Hanson, S. Mambetova, Q.W. Jiang, C. Guza, J. Stewart, and P. Somohano|Fungicide Sensitivity Monitoring of Alternaria spp. Causing Leaf Spot of Sugarbeet (Beta vulgaris) in the Upper Great Lakes|Plant Dis.103(9): 2263-2270|2019|10.1094/PDIS-12-18-2282-RE
189125|T||Roy,D., A. Samanta, A. Biswas, G. Chakraborty, and P.K. Sarkar|Insecticide Resistance Status of Hyposidra talaca (Lepidoptera: Geometridae) in Major Tea Growing Zone of India|Phytoparasitica49:983-1002|2021|10.1007/s12600-021-00934-8
189126|T||Cunningham,H.M., C.A. Moodie, G.A. Lawrence, and R.D. Pontefract|Chronic Effects of Ingested Asbestos in Rats|Arch. Environ. Contam. Toxicol.6:507-513|1977|10.1007/BF02097789
189127|T||Sadeghi Nasab,F., S.A. Safavi, M. Ghadamyari, and V. Hosseini Naveh|Cellular Energy Allocation of Tuta absoluta (Lepidoptera: Gelechiidae) Treated with Flubendiamide and Thiocyclam Hydrogen Oxalate on Different Tomato Cultivars|Neotrop. Entomol. (Multiple Languages)50(3): 398-407|2021|10.1007/s13744-021-00856-4
189128|T||Rajasekar,B., and G. Sridevi|Biology and Efficacy of Insecticides Against Tobacco Caterpillar, Spodoptera litura (Fabricius) on Castor Leaves|Bull. Environ. Pharm. Life Sci.6(8): 24-27|2017|
189129|T||Smith,W.E., D.D. Hubert, H.J. Sobel, E.T. Peters, and T.E. Doerfler|Health of Experimental Animals Drinking Water with and Without Amosite Asbestos and Other Mineral Particles|J. Environ. Pathol. Toxicol.3:277-300|1980|
189130|T||Vinothkumar,B., N. Kumaran, D. Kubendran, and S. Kuttalam|Bioefficacy of Flubendiamide + Thiacloprid 480 SC Against Insect Pests of Tomato|Pestology34(1): 44-48|2010|
189131|T||Thilagam,P., P. Sivasubramanian, and S. Kuttalam|Flubendiamide 480 SC - A New Molecule for the Management of Pink Bollworm, Pectinophora gossypiella on Cotton|Pestology34(11): 25-27|2010|
189132|T||Subba Rao,B., S. Mallikarjunappa, G. Bhat, and N. Koneripalli|Bio-Efficacy of New Generation Insecticide Takumi 20 WG Against Rice Yellow Stem Borer (Scirpophaga incertulas)|Pestology34(4): 33-34|2010|
189133|T||Chakraborty,K.|Effective Management of Scirpophaga incertulas Walker on Rice Crop During Kharif Season in West Bengal, India|Am.-Eurasian J. Agric. Environ. Sci.12(9): 1176-1184|2012|10.5829/idosi.aejaes.2012.12.09.1670
189134|T||Sun,L., L. Cui, C. Rui, X. Yan, D. Yang, and H. Yuan|Modulation of the Expression of Ryanodine Receptor mRNA from Plutella xylostella as a Result of Diamide Insecticide Application|Gene511(2): 265-273|2012|10.1016/j.gene.2012.09.027
189135|T||Sinha,S.R., and V. Nath|Evaluation of New Insecticides Against Insect Pests of Brinjal|Ann. Plant Prot. Sci.20(2): 287-289|2012|
189136|T||Singh,A.K., and A. Kumar|Evaluation of New Molecules in IPM Modules Against Helicoverpa armigera (Hubner) in Chick Pea|Ann. Plant Prot. Sci.20(1): 19-23|2012|
189137|T||Chen,J., W. Jiang, H. Hu, X. Ma, Q. Li, X. Song, X. Ren, and Y. Ma|Joint Toxicity of Methoxyfenozide and Lufenuron on Larvae of Spodoptera exigua Hubner (Lepidoptera: Noctuidae)|J. Asia Pac. Entomol.22(3): 795-801|2019|10.1016/j.aspen.2019.06.004
189138|T||Boswell,M.V., P.G. Morgan, and M.M. Sedensky|Interaction of GABA and Volatile Anesthetics in the Nematode Caenorhabditis-elegans|FASEB J.4(8): 2506-2510|1990|10.1096/fasebj.4.8.2335273
189139|T||Breijo,M., F. Isnardi, M. Brauer, R. Schenker, M. Ferrari, and A.M. Ferreira|An Insect Growth Inhibitor - Lufenuron - Enhances Albendazole Activity Against Hydatid Cyst|Vet. Parasitol.181:341-344|2011|10.1016/j.vetpar.2011.04.011
189140|T||Murthy,M.S., and V.T. Sannaveerappanavar|Base-Line Values for Susceptibility of Plutella xylostella L. (Plutellidae: Lepidoptera) to New Insecticides|J. Entomol. Res.37(4): 293-296|2013|
189141|T||Chhavi, P.K. Sharma, and A. Srivastava|Evaluation of Insecticides Against Rice Leaf Folder, Cnaphalocrocis medinalis (Guenee)|J. Entomol. Res.42(4): 575-578|2018|10.5958/0974-4576.2018.00097.X
189142|T||Burrack,H.J., and A.V. Chapman|Evaluation of Biweekly Pesticide Applications of New Insecticides for Tobacco Budworm (Heliothis virescens (Fabricius)) Management in Tobacco (Nicotiana tabacum L.) Seed Production|Crop Prot.45:117-123|2013|10.1016/j.cropro.2012.12.004
189143|T||Cabrera,B.J., and E.M. Thoms|Versatility of Baits Containing Noviflumuron for Control of Structural Infestations of Formosan Subterranean Termites (Isoptera : Rhinotermitidae)|Fla. Entomol.89(1): 20-31|2006|10.1653/0015-4040(2006)89[20:VOBCNF]2.0.CO;2
189144|T||Chen,Y., Y. Li, L. Pan, J. Liu, Y. Wan, W. Chen, L. Xiong, N. Yang, H. Song, and Z. Li|Synthesis, Insecticidal Activities and SAR of Novel Phthalamides Targeting Calcium Channel|Bioorg. Med. Chem.22(22): 6366-6379|2014|10.1016/j.bmc.2014.09.052
189145|T||Campbell,D.B., and H.A. Nash|Use of Drosophila Mutants to Distinguish Among Volatile General Anesthetics|Proc. Natl. Acad. Sci. U.S.A.91(6): 2135-2139|1994|10.1073/pnas.91.6.2135
189146|T||Campbell,J.L., and H.A. Nash|The Visually-Induced Jump Response of Drosophila melanogaster is Sensitive to Volatile Anesthetics|J. Neurogenet.12(4): 241-51|1998|10.3109/01677069809108561
189147|T||Campbell,J.L., and H.A. Nash|Volatile General Anesthetics Reveal a Neurobiological Role for the White and Brown Genes of Drosophila melanogaster|J. Neurobiol.49(4): 339-349|2001|10.1002/neu.10009
189148|T||Campbell,M.H., and H.I. Ridings|Tolerance of Grazed and Ungrazed Phalaris aquatica to Glyphosate, Tetrapion and 2,2-DPA|Aust. J. Exp. Agric.28(6): 747-751|1988|10.1071/EA9880747
189149|T||Carnohan,L., and N.Y. Su|Mortality Time Trends of Three Subterranean Termite Species when Exposed to 20-Hydroxyecdysone, Alone and in Combination with Noviflumuron|J. Econ. Entomol.111(5): 2312-2316|2018|10.1093/jee/toy186
189150|T||Cui,L., C. Rui, D. Yang, Z. Wang, and H. Yuan|De Novo Transcriptome and Expression Profile Analyses of the Asian Corn Borer (Ostrinia furnacalis) Reveals Relevant Flubendiamide Response Genes|BMC Genomics18:18-20|2017|10.1186/s12864-016-3431-6
189151|T||Castilhos,R.V., A.D. Grutzmacher, M.B. Das Neves, I.L. De Moraes, and C.J. Gauer|Selectivity of Insecticides Used in Peach Farming to Larvae of Chrysoperla externa (Neuroptera: Chrysopidae) in Semi-Field Conditions|Rev. Caatinga30(1): 109-115|2017|10.1590/1983-21252017v30n112rc
189152|T||Cevik,D., M. Acker, P. Arefi, R. Ghaemi, J. Zhang, P.R. Selvaganapathy, I. Dworkin, and J.R. Jacobs|Chloroform and Desflurane Immobilization with Recovery of Viable Drosophila Larvae for Confocal Imaging|J. Insect Physiol.117:7p.|2019|10.1016/j.jinsphys.2019.103900
189153|T||Chaitanya,T., K. Sreedevi, T.M. Krishna, and L. Prasanthi|Efficacy of Newer Molecules of Insecticides Against Legume Pod Borer, Maruca vitrata (Geyer) in Pigeonpea|Pestic. Res. J.25(2): 181-184|2013|
189154|T||Chang,C.L., I.K. Cho, and Q.X. Li|Laboratory Evaluation of the Chemosterilant Lufenuron Against the Fruit Flies Ceratitis capitata, Bactrocera dorsalis, B. cucurbitae, and B. latifrons|J. Asia Pac. Entomol.15(1): 13-16|2012|10.1016/j.aspen.2011.07.012
189155|T||Chang,C.L., S. Geib, I.K. Cho, Q.X. Li, and D. Stanley|Dietary Lufenuron Reduces Egg Hatch and Influences Protein Expression in the Fruit Fly Bactrocera latifrons (Hendel)|Arch. Insect Biochem. Physiol.86(4): 193-208|2014|10.1002/arch.21169
189156|T||Panmei,K., R.R. Samal, P. Lanbiliu, and S. Kumar|Influence of Lufenuron on the Nutrient Content and Detoxification Enzyme Expression in Aedes aegypti L. (Diptera: Culicidae)|Int. J. Trop. Insect Sci.:9 p.|2021|10.1007/s42690-021-00481-z
189158|T||Pelizza,S.A., S. Schalamuk, M.R. Simon, S.A. Stenglein, S.G. Pacheco-Marino, and A.C. Scorsetti|Compatibility of Chemical Insecticides and Entomopathogenic Fungi for Control of Soybean Defoliating Pest, Rachiplusia nu|Rev. Argent. Microbiol.50(2): 189-201|2018|10.1016/j.ram.2017.06.002
189159|T||Demkovich,M.R., J.P. Siegel, S.S. Walse, and M.R. Berenbaum|Impact of Agricultural Adjuvants on the Toxicity of the Diamide Insecticides Chlorantraniliprole and Flubendiamide on Different Life Stages of the Navel Orangeworm (Amyelois transitella)|J. Pest Sci.91(3): 1127-1136|2018|10.1007/s10340-018-0959-z
189160|T||Wadaskar,R.M., S.K. Bhalkare, and A.N. Patil|Field Efficacy of Newer Insecticides Against Pod Borer Complex of Pigeonpea|J. Food Leg.26(1/2): 62-66|2013|
189161|T||Deshmukh,S., H.B. Pavithra, C.M. Kalleshwaraswamy, B.K. Shivanna, M.S. Maruthi, and D. Mota-Sanchez|Field Efficacy of Insecticides for Management of Invasive Fall Armyworm, Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae) on Maize in India|Fla. Entomol.103(2): 221-227|2020|10.1653/024.103.0211
189162|T||Deshmukh,S.G., B.V. Sureja, D.M. Jethva, and V.P. Chatar|Field Efficacy of Different Insecticides Against Helicoverpa armigera (Hubner) Infesting Chickpea|Legume Res.33(4): 269-273|2010|
189163|A||Vera,C.L., R.V. Hyne, R. Patra, S. Ramasamy, F. Pablo, M. Julli, and B.J. Kefford|Bicarbonate Toxicity to Ceriodaphnia dubia and the Freshwater Shrimp Paratya australiensis and Its Influence on Zinc Toxicity|Environ. Toxicol. Chem.33(5): 1179-1186|2014|10.1002/etc.2545
189164|T||Emam,A.K., and D. Degheele|Ovicidal Activity of Benzoylphenyl Ureas Applied Alone or Together with ATPLUS-411F on Spodoptera littoralis Boisd.|Meded. Fac. Landbouwwet. Univ. Gent58(2b): 677-683|1993|
189165|T||Chankapue,R.J., D.B. Undirwade, and A.M. Raut|Efficacy of New Molecules of Insecticides Against Helicoverpa armigera (Hub.) in Laboratory Condition|Trends Biosci.7(18): 2783-2785|2014|
189166|T||Fatima,M., M. Tariq, and A. Gulzar|Effect of Flubendiamide and Spirotetramat on the Haemocytes of American Bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae)|Pak. Entomol.35(2): 129-134|2013|
189167|A||Nys,C., C.R. Janssen, and K.A.C. De Schamphelaere|The Effect of pH on Chronic Zinc Toxicity Differs Between Daphnid Species: Development of a Preliminary Chronic Zinc Ceriodaphnia dubia Bioavailability Model|Environ. Toxicol. Chem.36(10): 2750-2755|2017|10.1002/etc.3831
189168|T||Othman,K.S.A., E.S. Swelam, and F.S. Ahmed|A Laboratory Study of the Toxicity of Indoxacarb Mixtures Against Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae)|Afr. Entomol.28(2): 290-299|2020|10.4001/003.028.0290
189169|T||Douris,V., K.M. Papapostolou, A. Ilias, E. Roditakis, S. Kounadi, M. Riga, R. Nauen, and J. Vontas|Investigation of the Contribution of RyR Target-Site Mutations in Diamide Resistance by CRISPR/Cas9 Genome Modification in Drosophila|Insect Biochem. Mol. Biol.87:127-135|2017|10.1016/j.ibmb.2017.06.013
189170|T||Feng,M.L., L. Yu-Feng, Z. Hong-Jun, N. Jue-Ping, X. Bin-Bin, and L. Zhao|Design, Synthesis, Insecticidal Activity and Structure-Activity Relationship of 3,3-Dichloro-2-Propenyloxy-Containing Phthalic Acid Diamide Structures|Pest Manag. Sci.68(7): 986-994|2012|10.1002/ps.3243
189171|T||Silva,J.E., C.P.O. Assis, L.M.S. Ribeiro, and H.A.A. Siqueira|Field-Evolved Resistance and Cross-Resistance of Brazilian Tuta absoluta (Lepidoptera: Gelechiidae) Populations to Diamide Insecticides|J. Econ. Entomol.109(5): 2190-2195|2016|10.1093/jee/tow161
189172|T||Sarkar,S., M. Dutta, and S. Roy|Potential Toxicity of Flubendiamide in Drosophila melanogaster and Associated Structural Alterations of Its Compound Eye|Environ. Toxicol. Chem.96(7): 13 p.|2014|10.1080/02772248.2014.997986
189173|T||Sreedhar,U.|Management of Tobacco Stem Borer, Scrobipalpa heliopa in Virginia Tobacco|Indian J. Plant Prot.42(1): 6-10|2014|
189174|T||Sonoda,S., and Y. Kataoka|Genotyping for the G4946E Site of Ryanodine Receptor Gene in Plutella xylostella (Lepidoptera: Yponomeutidae) Considering Gene Duplication|Appl. Entomol. Zool.51(2): 195-204|2016|10.1007/s13355-015-0385-0
189175|T||Sarkar,S., and S. Roy|Monitoring the Effects of a Lepidopteran Insecticide, Flubendiamide, on the Biology of a Non-Target Dipteran Insect, Drosophila melanogaster|Environ. Monit. Assess.189(11): 14 p.|2017|10.1007/s10661-017-6287-6
189176|T||Patil,R.R., and V.A. Phad|Bio-Efficacy of Some Promising Insecticides Against Stem Fly and Girdle Beetle of Soybean|J. Entomol. Res.38(3): 213-214|2014|
189177|T||Selvaraj,K., V.R. Babu, B.S. Gotyal, and S. Satpathy|Toxicity and Bioefficacy of Individual and Combination of Diversified Insecticides Against Jute Hairy Caterpillar, Spilarctia obliqua|J. Environ. Biol.36(6): 1409-1414|2015|
189178|T||Sharma,S., A. Kaur, and R. Kooner|Relative Toxicity of Newer Insecticides Against Spodoptera litura and Pieris brassicae Infesting Cole Crops in Punjab|Indian J. Hortic.76(2): 324-328|2019|10.5958/0974-0112.2019.00050.1
189179|T||Hudec,K., M. Mihok, T. Rohacik, and L. Mislan|Sensitivity of Cercospora beticola to Fungicides in Slovakia|Acta Fytotech. Zootech.23(3): 147-154|2020|10.15414/afz.2020.23.03.147-154
189180|T||Sarkar,S., S. Podder, and S. Roy|Flubendiamide-Induced HSP70 Expression in Transgenic Drosophila Melanogaster (hsp70-lacZ)|Can. Entomol.108(11): 2044-2050|2015|
189181|T||Toke,N.R., M.S. Purohit, and L.V. Ghetiya|Influence of Host Plants on the Susceptibility of Spodoptera litura (Fabricius) to Certain Insecticides|Trends Biosci.8(9): 2330-2334|2015|
189182|T||Singh,C., and N.N. Singh|Bioefficacy and Economics of Different Insecticides Against Legume Pod Borer (Maruca vitrata Fabricius) Infesting Cowpea (Vigna unguiculata Walpers)|Indian J. Agric. Res.49(4): 358-362|2015|10.5958/0976-058X.2015.00065.7
189183|T||Sreelakshmi,P., and A. Paul|Bioefficacy of Certain New Insecticide Molecules Against Spotted Pod Borer, Maruca vitrata (Lepidoptera: Crambidae) of Cowpea|J. Entomol. Res.40(2): 173-176|2016|10.5958/0974-4576.2016.00032.3
189184|T||Sridhar,V., S. Onkaranaik, and K.S. Nitin|Efficacy of New Molecules of Insecticides Against South American Tomato Moth, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae)|Pest Manag. Hortic. Ecosyst.22(2): 137-145|2016|
189185|T||Maqsood,S., M. Afzal, M.A. Aqueel, A.B.M. Raza, W. Wakil, and M.H. Babar|Efficacy of Nuclear Polyhedrosis Virus and Flubendiamide Alone and in Combination Against Spodoptera litura F|Pak. J. Zool.49(5): 1783-1788|2017|10.17582/journal.pjz/2017.49.5.1783.1788
189186|T||Sarkar,S., S. Khatun, M. Dutta, and S. Roy|Trans-Generational Transmission of Altered Phenotype Resulting from Flubendiamide-Induced Changes in Apoptosis in Larval Imaginal Discs of Drosophila melanogaster|Environ. Toxicol. Pharmacol.56:350-360|2017|10.1016/j.etap.2017.11.001
189187|T||Thakur,H., and R.P. Srivastava|Sub-Lethal and Antifeedant Effect of Spinosyn and Diamide Insecticides Against Spodoptera litura (Fab.) and Spilarctia obliqua (Wlk.)|J. Entomol. Res.43(4): 431-438|2019|10.5958/0974-4576.2019.00076.8
189188|T||Harini,K., and K. Elanchezhyan|Management of Jasmine Leaf Webworm, Nausinoe geometralis Guenee in Jasminum sambac L.|Pest Manag. Hortic. Ecosyst.24(2): 139-142|2018|
189189|T||Hardke,J.T., R.E. Jackson, and B.R. Leonard|Opportunities to Manage Fall Armyworm (Lepidoptera: Noctuidae) on Bollgard II Cotton with Reduced Rates of Insecticides|J. Cotton Sci.18(1): 59-67|2014|
189190|T||Gurve,S.S., Kulkarni, S.R., and S.K. Patil|Efficacy of Bio-Pesticides and Newer Insecticides Against Earias vittella Fab. Infesting Okra|Ann. Plant Prot. Sci.25(2): 281-286|2017|10.5958/0974-0163.2017.00010.6
189191|T||Girish,V.P., M. Hegde, and R.A. Balikai|Evaluation of Newer Insecticides and Botanical on Ear Head Bug and Yellow Stem Borer Population in Paddy|Int. J. Agric. Stat. Sci.11(1): 211-213|2015|
189192|T||Ghule,S.B., I.S. Sawant, S.D. Sawant, S. Saha, and R.M. Devarumath|Detection of Resistance to Demethylation Inhibitor Fungicides in Erysiphe necator from Tropical India by Biological and Molecular Assays|Indian Phytopathol.72(1): 53-61|2019|10.1007/s42360-018-0075-2
189193|T||Sarkar,S., S. Podder, and S. Roy|Flubendiamide Inflicts Tissue Damage and Alters Detoxification Status in Nontarget Dipteran Insect, Drosophila melanogaster|Drosoph. Inf. Serv.100:49-54|2017|
189194|T||Nareshkumar,B., S.M. Akbar, H.C. Sharma, S.K. Jayalakshmi, and K. Sreeramulu|Evaluation of Flubendiamide-Induced Mitochondrial Dysfunction and Metabolic Changes in Helicoverpa armigera (Hubner)|Arch. Insect Biochem. Physiol.96(1): 13 p.|2017|10.1002/arch.21401
189195|T||Sarkar,S., A. Roy, and S. Roy|Flubendiamide Affects Visual and Locomotory Activities of Drosophila melanogaster for Three Successive Generations (P, F-1 and F-2)|Invertebr. Neurosci.18(2): 11 p.|2018|10.1007/s10158-018-0210-x
189196|T||Navarro-Llopis,V., S. Vacas, J. Sanchis, J. Primo, and C. Alfaro|Chemosterilant Bait Stations Coupled with Sterile Insect Technique: An Integrated Strategy to Control the Mediterranean Fruit Fly (Diptera: Tephritidae)|J. Econ. Entomol.104(5): 1647-1655|2011|10.1603/EC10448
189197|T||Pereira,R.M., D.A. Neto, D. Amado, M.R. Durigan, R.A. Franciscatti, M. Mocheti, and C. Omoto|Baseline Susceptibility and Frequency of Resistance to Diamide Insecticides in Helicoverpa armigera (Lepidoptera: Noctuidae) Populations in Brazil|Crop Prot.137:9 p.|2020|10.1016/j.cropro.2020.105266
189198|T||Sreekanth,M., Seshamahalakshmi, M, and M.V. Ramana|Management of Pod Fly, Melanagromyza obtusa on Pigeonpea (Cajanus cajan L.)|Agric. Sci. Dig.40(4): 382-386|2020|10.18805/ag.D-5042
189199|T||Prasannakumar,N.R., N. Jyothi, S. Saroja, and G.R. Kumar|Relative Toxicity and Insecticide Resistance of Different Field Population of Tomato Leaf Miner, Tuta absoluta (Meyrick)|Int. J. Trop. Insect Sci.41(2): 1397-1405|2021|10.1007/s42690-020-00334-1
189200|T||Engelbrecht,F.M., and B.F. Burger|Biological Effect of Asbestos Dust on the Peritoneal Viscera of Rats|S. Afr. Med. J.47(38): 1746-1750|1973|
189201|T||Liao,M., Q. Li, Z. Yang, T. Feng, Z. Xu, Q. Liu, and S. Liu|A Highly Selective and Sensitive Fluorescence Probe for a Specific Binding Site on Insect Ryanodine Receptors|Ann. N. Y. Acad. Sci.1475(1): 43-51|2020|10.1111/nyas.14362
189202|T||Tamilselvan,R., J.S. Kennedy, and A. Suganthi|Monitoring the Resistance and Baseline Susceptibility of Plutella xylostella (L.) (Lepidoptera: Plutellidae) Against Spinetoram in Tamil Nadu, India|Crop Prot.142:8 p.|2021|10.1016/j.cropro.2020.105491
189203|T||Kariyanna,B., A. Prabhuraj, M. Mohan, M. Bheemanna, K. Basavaraj, Y. Pampanna, and J.R. Diwan|Insecticide Usage Pattern and Evolution of Resistance in Eggplant Shoot and Fruit Borer, Leucinodes orbonalis Guenee (Lepidoptera: Crambidae) in India|Plant Arch.20:1255-1261|2020|
189204|T||Kaur,A., S. Ravinder, Chandi, and S. Sharma|Field Efficacy of Green Chemistry Molecule (Chlorantraniliprole) Against Tomato Fruit Borer, Helicoverpa armigera (Hubner)|Indian J. Ext. Educ.56(3): 149-152|2020|10.5958/2454-552X.2020.00025.0
189205|T||LaMondia,J.A.|Curative Fungicide Activity Against Calonectria pseudonaviculata, the Boxwood Blight Pathogen|J. Environ. Hortic.38(2): 44-49|2020|10.24266/0738-2898-38.2.44
189206|T||Navarro-Llopis,V., J. Sanchis-Cabanes, I. Ayala, V. Casana-Giner, and E. Primo-Yufera|Efficacy of Lufenuron as Chemosterilant Against Ceratitis capitata in Field Trials|Pest Manag. Sci.60(9): 914-920|2004|10.1002/ps.902
189207|T||Khatri,I., A.A. Shaikh, R. Sultan, M.S. Wagan, and Z. Ahmed|Effect of Some Insect Growth Regulators Against Gram Pod Borer Helicoverpa armigera (Hb.) on Chickpea Cicer arietinum (L.) Under Laboratory Conditions|Pak. J. Zool.46(6): 1537-1540|2014|
189208|T||Singh,P., A. Kumar, A.B. Abidi, and R.S. Yadav|Flubendiamide Insecticide Residue Effect in Carbohydrates & Carotene Contents on Okra Fruits|Plant Arch.16(2): 978-981|2016|
189209|T||Spomer,N.A., and S.T. Kamble|Temperature Effect on Kinetics of Uptake, Transfer, and Clearance of [14C]Noviflumuron in Eastern Subterranean Termites (Isoptera: Rhinotermitidae)|J. Econ. Entomol.99(1): 134-140|2006|10.1093/jee/99.1.134
189210|T||Su,N.Y., E. Guidry, and C. Cottone|Sustainable Management of Subterranean Termite Populations (Isoptera: Rhinotermitidae) in Armstrong Park, New Orleans, with Durable Baits|J. Econ. Entomol.109(3): 7 p.|2016|10.1093/jee/tow051
189211|T||Suman,D.|Efficacy of Various Insect Growth Regulators on Organophosphate Resistant Immatures of Culex quinquefasciatus (Diptera: Culicidae) from Different Geographical Areas of India|J. Entomol.7(1): 33-43|2010|10.3923/je.2010.33.43
189212|T||Thoms,E.M., J.E. Eger, M.T. Messenger, E. Vargo, B. Cabrera, C. Riegel, S. Murphree, J. Mauldin, and P. Scherer|Bugs, Baits, and Bureaucracy: Completing the First Termite Bait Efficacy Trials (Quarterly Replenishment of Noviflumuron) Initiated After Adoption of Florida Rule|Am. Entomol.55(1): 29-39|2009|10.1093/ae/55.1.29
189213|T||Viljoen,B.D.|Influence of Adjuvants on Tetrapion Efficacy for Nassella Tussock (Stipa trichotoma Nees) Control and Subsequent Seedling Establishment: A Preliminary Study|S. Afr. J. Plant Soil16(2): 102-105|1999|10.1080/02571862.1999.10634855
189214|T||Viljoen,B.D.|Effect of Rate and Time of Application of Tetrapion on Nassella Tussock (Stipa trichotoma Nees) in South Africa|S. Afr. J. Plant Soil4(2): 79-81|1987|10.1080/02571862.1987.10634945
189215|T||Vinothkumar,B.|Impact of Insecticides and Botanicals on Leaf Folder and Stem Borer in the Mid Hill Rainfed Rice Agroecosystem|Indian J. Plant Prot.42(4): 317-323|2014|
189216|T||Williams,D.F.|The Development of Toxic Baits for the Control of the Imported Fire Ant|Fla. Entomol.66(1): 162-172|1983|10.2307/3494561
189217|T||El-Ghany,N.M.A., A.S. Abdel-Razek, I.M.A. Ebadah, and Y.A. Mahmoud|Evaluation of Some Microbial Agents, Natural and Chemical Compounds for Controlling Tomato Leaf Miner, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae)|J. Plant Prot. Res.56(4): 372-379|2016|10.1515/jppr-2016-0055
189218|T||Chieffi,P., L. Colucci D'Amato, F. Guarino, G. Salvatore, and F. Angelini|17 beta-Estradiol Induces Spermatogonial Proliferation Through Mitogen-Activated Protein Kinase (Extracellular Signal-Regulated Kinase 1/2) Activity in the Lizard (Podarcis s. sicula)|Mol. Reprod. Dev.61(2): 218-225|2002|10.1002/mrd.1151
189219|T||El Housni,Z., S. Ezrari, A. Tahiri, and A. Ouijja|Resistance of Cercospora beticola Sacc Isolates to Thiophanate Methyl (Benzimidazole), Demethylation Inhibitors and Quinone Outside Inhibitors in Morocco|Bull. OEPP/EPPO50(2): 350-357|2020|10.1111/epp.12673
189220|T||Latif,M., M. Abbas, F. Hafeez, and D. Hussain|Regulatory Efficacy of Novel Insecticides Against Major Pests of Vegetables in Faisalabad, Pakistan|Pak. J. Agric. Res.32(1): 41-45|2019|
189221|T||Abdel-Rahem,A.T., and R. A.K.Ragab|Somatic Chromosomal Aberrations Induced by Benzoylphenylurea (XRD 473 and IKI 7899) in Vicia faba L. and Hordeum vulgare L.|Cytologia54(4): 627-634|1989|10.1508/cytologia.54.627
189222|T||Pereira,J.L., M.C. Picanco, A.A. Da Silva, E.C. De Barros, R.S. Da Silva, T.V. Da Silva Galdino, and C.G. Santos Marinh|Ants as Environmental Impact Bioindicators from Insecticide Application on Corn|Sociobiology55(1): 153-164|2010|
189223|A||Tian,Z., H. Zhao, K.T. Peter, M. Gonzalez, J. Wetzel, C. Wu, X. Hu, J. Prat, E. Mudrock, R. Hettinger, A.E. Cortina, R.|A Ubiquitous Tire Rubber-Derived Chemical Induces Acute Mortality in Coho Salmon|Science371(6525): 185-189|2021|10.1126/science.abd6951
189224|T||Pete,U.D., C.M. Zade, J.D. Bhosale, S.G. Tupe, P.M. Chaudhary, A.G. Dikundwar, and R.S. Bendre|Hybrid Molecules of Carvacrol and Benzoyl Urea/Thiourea with Potential Applications in Agriculture and Medicine|Bioorg. Med. Chem. Lett.22(17): 5550-5554|2012|10.1016/j.bmcl.2012.07.017
189225|T||Nasir,M., M. Imran, and M. Ahmad|Pyrethroids Synergize New Chemical Insecticides in Field Populations of Plutella xylostella (Lepidoptera: Plutellidae)|Pak. J. Zool.45(3): 629-633|2013|
189226|A||Fabrello,J., F. Targhetta, M. Ciscato, D. Asnicar, I. Bernardini, M. Milan, T. Patarnello, M.G. Marin, and V. Matozzo|First Evidence of In Vitro Effects of C6O4 - A Substitute of PFOA-On Haemocytes of the Clam Ruditapes philippinarum|Toxics9(8): 12 p.|2021|10.3390/toxics9080191
189227|A||Lidke,A.K., S. Bannister, A.M. Loewer, D.M. Apel, M. Podleschny, M. Kollmann, C.F. Ackermann, J. Garcia-Alonso, F. Raib|17beta-Estradiol Induces Supernumerary Primordial Germ Cells in Embryos of the Polychaete Platynereis dumerilii|Gen. Comp. Endocrinol.196:52-61|2014|10.1016/j.ygcen.2013.11.017
189228|AT||Nakano,M., N. Yasokawa, A. Suwa, S. Fujioka, T. Furuya, and K. Sakata|Mode of Action of Novel Acaricide Pyflubumide: Effects on the Mitochondrial Respiratory Chain|J. Pestic. Sci. (Multiple Languages)40(1): 19-24|2015|10.1584/jpestics.D14-086
189229|A||Zhang,Q., C. You, F. Liu, W. Zhu, S. Wang, D. Xie, O. Monroig, D.R. Tocher, and Y. Li|Cloning and Characterization of Lxr and Srebp1, and Their Potential Roles in Regulation of LC-PUFA Biosynthesis in Rabbitfish Siganus canaliculatus|Lipids51(9): 1051-1063|2016|10.1007/s11745-016-4176-3
189230|A||Czarny-Krzyminska,K., B. Krawczyk, and D. Szczukocki|Toxicity of Bisphenol A and Its Structural Congeners to Microalgae Chlorella vulgaris and Desmodesmus armatus|J. Appl. Phycol.34(3): 1397-1410|2022|10.1007/s10811-022-02704-3
189231|T||Sato,K., and T. Kamada|Regulation of Bile Acid, Cholesterol, and Fatty Acid Synthesis in Chicken Primary Hepatocytes by Different Concentrations of T0901317, an Agonist of Liver X Receptors|Comp. Biochem. Physiol.158(2): 201-206|2011|10.1016/j.cbpa.2010.10.028
189232|T||Han,C., J. Wang, L. Li, L. Wang, and Z. Zhang|The Role of LXRalpha in Goose Primary Hepatocyte Lipogenesis|Mol. Cell. Biochem.322(1-2): 37-42|2009|10.1007/s11010-008-9937-8
189233|T||Opalka,M., B. Kaminska, A. Leska, and L. Dusza|Mechanism of Phytoestrogen Action in Leydig Cells of Ganders (Anser anser Domesticus): Interaction with Estrogen Receptors and Steroidogenic Enzymes|J. Environ. Sci. Health. Part A, Environ. Sci. Eng. Toxic Hazard. Substance Control47(9): 1335-1339|2012|
189234|A||Ciaramella,V., R. Meccariello, T. Chioccarelli, M. Sirleto, S. Fasano, R. Pierantoni, and R. Chianese|Anandamide Acts via Kisspeptin in the Regulation of Testicular Activity of the Frog, Pelophylax esculentus|Mol. Cell. Endocrinol.420:75-84|2016|10.1016/j.mce.2015.11.011
189235|T||Stabile,V., M. Russo, and P. Chieffi|17 beta-Estradiol Induces Akt-1 Through Estrogen Receptor-beta in the Frog (Rana esculenta) Male Germ Cells|Reproduction (Camb.)132(3): 477-484|2006|10.1530/rep.1.01107
189236|T||Kotula-Balak,M., K. Chojnacka, A. Hejmej, J. Galas, M. Satola, and B. Bilinska|Does 4-Tert-Octylphenol Affect Estrogen Signaling Pathways in Bank Vole Leydig Cells and Tumor Mouse Leydig Cells In Vitro?|Reprod. Toxicol.39:6-16|2013|10.1016/j.reprotox.2013.03.007
189239|T||Naveena,R., A.C. Hosamani, B. Kisan, and B. Jamuna|Effect of Lufenuron on Growth and Development of Fifth Instar Larvae of Spodoptera litura (Fab.)|Environ. Ecol.33(2A): 1003-1007|2015|
189240|T||Nisar,M.J., M.D. Gogi, M.J. Arif, and S.T. Sahi|Toxicity and Chemosterility Impact of Insect Growth Regulators Baited Diet on Adult Peach Fruit Fly, Bactrocera zonata (Saunders) (Diptera: Tephritidae)|Pak. J. Agric. Sci.57(4): 1089-1099|2020|10.21162/PAKJAS/20.9662
189241|A||Nys,C., C.R. Janssen, E.M. Mager, A.J. Esbaugh, K.V. Brix, M. Grosell, W.A. Stubblefield, K. Holtze, and K.A.C. De Scha|Development and Validation of a Biotic Ligand Model for Predicting Chronic Toxicity of Lead to Ceriodaphnia dubia|Environ. Toxicol. Chem.33(2): 394-403|2014|10.1002/etc.2433
189243|A||Mager,E.M., K.V. Brix, R.M. Gerdes, A.C. Ryan, and M. Grosell|Effects of Water Chemistry on the Chronic Toxicity of Lead to the Cladoceran, Ceriodaphnia dubia|Ecotoxicol. Environ. Saf.74(3): 238-243|2011|10.1016/j.ecoenv.2010.11.005
189244|A||Peng,W.J., C.S. Liu, D.Q. Chen, X.B. Duan, and L.Q. Zhong|Exposure to N-(1,3-Dimethylbutyl)-N'-Phenyl-p-Phenylenediamine (6PPD) Affects the Growth and Development of Zebrafish Embryos/Larvae|Ecotoxicol. Environ. Saf.232:10 p.|2022|10.1016/j.ecoenv.2022.113221
189245|T||Sreedhar,U.|Evaluation of IGRs Against Helicoverpa armigera on Virginia Tobacco|Ann. Plant Prot. Sci.19(2): 336-339|2011|
189246|T||Talikoti,L.S., Sridevi, D, and T. Ratnasudhakar|Relative Toxicity of Insect Growth Regulators Against Tobacco Caterpillar, Spodoptera litura (Fabricius)|J. Entomol. Res.36(1): 31-34|2012|
189247|T||Thilagam,P., P. Sivasubramanian, and G. Kubendran|Compatibility of Flubendiamide 480 SC (Fame) Against Trichoderma viride (Persoon) and Beauveria bassiana (Balsamo)|Pestology34(11): 53-55|2010|
189248|T||Usha, G. Kabadad, and S.K. Gali|Persistence and Dissipation of Flubendiamide Residues in Cabbage (Brassica oleracea L.) and Soil|Environ. Ecol.35(4): 2622-2626|2017|
189249|T||Wearing,C., and C. Colhoun|Response to Lufenuron of OP- and Tebufenozide-Resistant Greenheaded Leafroller, Planotortrix octo (Dugdale) (Lepidoptera: Tortricidae), from Central Otago, New Zealand|N. Z. Entomol.28(1): 5-14|2005|10.1080/00779962.2005.9722681
189250|T||Zakson,M., W.F. Hink, and J.J. MacKichan|Fate of the Benzoylphenyl Urea CGA-184699 in the Cat Flea Ctenocephalides felis|Pestic. Sci.35(2): 117-123|1992|10.1002/ps.2780350204
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189252|T||Santora,K.A., M. Zakson-Aiken, C. Rasa, and W. Shoop|Development of a Mouse Model to Determine the Systemic Activity of Potential Flea-Control Compounds|Vet. Parasitol.104(3): 257-264|2002|10.1016/S0304-4017(01)00627-6
189253|T||Sampson,B.J., D.A. Marshall, B.J. Smith, S.J. Stringer, C.T. Werle, D.J. Magee, and J.J. Adamczyk|Erythritol and Lufenuron Detrimentally Alter Age Structure of Wild Drosophila suzukii (Diptera: Drosophilidae) Populations in Blueberry and Blackberry|J. Econ. Entomol.110(2): 530-534|2017|10.1093/jee/tow307
189254|T||Sampson,B.J., C.T. Werle, S.J. Stringer, and J.J. Adamczyk|Ingestible Insecticides for Spotted Wing Drosophila Control: A Polyol, Erythritol, and an Insect Growth Regulator, Lufenuron|J. Appl. Entomol.141:8-18|2017|10.1111/jen.12350
189255|T||Terada,M., W. Chen, H.H. Wang, S. Kachi, and H.H. Lee|Effects of Gabergic Anthelmintics at Higher Concentrations on the Guanidine-Induced Twitch Responses in Isolated Frog Rectus Preparations|Parasitol. Res.80(7): 575-580|1994|10.1007/bf00933005
189256|T||Thilagam,P., P. Sivasubramanian, and S. Kuttalam|Diversity of Spiders in Rice Ecosystem Applied with Flubendiamide 480 SC Against Leaf Folder and Stem Borer|Pestology35(2): 17-20|2011|
189257|T||Craighead,J.E., S.A. Richards, J.D. Calore, H. Fan, and D.L. Weaver|Genetic Factors Influence Malignant Mesothelioma Development in Mice|Eur. Respir. Rev.3(11): 118-120|1993|
189258|A||Nys,C., C.R. Janssen, and K.A.C. De Schamphelaere|Development and Validation of a Chronic Pb Bioavailability Model for the Freshwater Rotifer Brachionus calyciflorus|Environ. Toxicol. Chem.35(12): 2977-2986|2016|10.1002/etc.3480
189259|T||Gadad,H., and A.S. Vastrad|Gut Bacteria Mediated Insecticide Resistance in Spodoptera litura (Fab.)|J. Exp. Zool. India19(2): 1099-1102|2016|
189260|T||Fugro,P.A., D.K. Jadhav, and P.D. Potphode|Domark 3.8% EW w/w, a Promising Fungicide Against Powdery Mildew of Mango|Pestology35(10): 65-66|2011|
189261|T||Ghosal,A., M.L. Chatterjee, and D. Manna|Management of Shoot and Fruit Borer (Leucinodes orbonalis Guen.) of Brinjal Using Some New Insecticides|Environ. Ecol.31(4A): 1898-1901|2013|
189262|T||Jindal,J., G.S. Sandhu, and R. Kumar|Efficacy of Some Biorational Insecticides Against Chilo partellus (Swinhoe) in Maize|Ann. Plant Prot. Sci.25(2): 244-247|2017|10.5958/0974-0163.2017.00003.9
189263|T||Yousafi,Q., M. Afzal, and M. Aslam|Management of Brinjal Shoot and Fruit Borer, Leucinodes orbonalis Guenee, with Selected Insecticides|Pak. J. Zool.47(5): 1413-1420|2015|
189264|T||Zhou,S., Y. Gu, M. Liu, C. Wu, S. Zhou, Y. Zhao, Z. Jia, B. Wang, L. Xiong, N. Yang, and Z. Li|Insecticidal Activities of Chiral N-Trifluoroacetyl Sulfiliminesas Potential Ryanodine Receptor Modulators|J. Agric. Food Chem.62(46): 11054-11061|2014|10.1021/jf503513n
189265|T||Mishra,S., and V. Gupta|Field Evaluation of Some Newer Insecticides Against Spodoptera litura in Soybean|Plant Arch.17(2): 1028-1032|2017|
189266|T||Maurer,K., R.S. Cowles, and J.A. LaMondia|Sensitivity of Calonectria pseudonaviculata, the Pathogen of Boxwood Blight, to Strobilurin and Demethylation Inhibitor Fungicides in Connecticut|J. Environ. Hortic.35(4): 138-145|2017|10.24266/JEH-D-17-00006.1
189267|T||Rahangdale,L.S., P.S. Neharkar, N.G. Dhurve, H.R. Sawai, and N.V. Lavhe|Safety of Some Newer Insecticides on Egg Hatchability and Fecundity of Chrysoperla carnea Under Laboratory Condition|J. Entomol. Zool. Stud.5(6): 1820-1823|2017|
189268|T||Rust,M.K., and W.L.H. Hemsarth|Intrinsic Activity of IGRs Against Larval Cat Fleas|J. Med. Entomol.54(2): 418-421|2017|10.1093/jme/tjw201
189271|T||Chouvenc,T.|Comparative Impact of Chitin Synthesis Inhibitor Baits and Non-Repellent Liquid Termiticides on Subterranean Termite Colonies over Foraging Distances: Colony Elimination Versus Localized Termite Exclusion|J. Econ. Entomol.111(5): 2317-2328|2018|10.1093/jee/toy210
189272|T||Chouvenc,T., and N.Y. Su|Subterranean Termites Feeding on CSI Baits for a Short Duration Still Results in Colony Elimination|J. Econ. Entomol.110(6): 2534-2538|2017|10.1093/jee/tox282
189273|T||Cifuentes,D., R. Chynoweth, J. Guillen, P. De La Rua, and P. Bielza|Novel Cytochrome P450 Genes, CYP6EB1 and CYP6EC1, are over-Expressed in Acrinathrin-Resistant Frankliniella occidentalis (Thysanoptera: Thripidae)|J. Econ. Entomol.105(3): 1006-1018|2012|10.1603/EC11335
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189278|T||Manjunatha,K.L., G.T. Thirumalaraju, and P.C. Ganiger|Relative Efficacy of Newer Molecules Against Castor Semilooper, Achaea janata Linn. on Castor|Trends Biosci.8(22): 6101-6103|2015|
189279|T||Mahendra,R., C.S.J. Babu, R. Girish, and Y.S. Basanth|Evaluation of New Insecticides Against Helicoverpa armigera on Pigeonpea Crop|Environ. Ecol.29(1A): 282-283|2011|
189280|T||Kalasariya,R.L.|Management of Aphid, Lipaphis erysimi in Mustard with Different Spray Schedules|Indian J. Plant Prot.44(1): 16-23|2016|
189281|T||Mahata,S., B.C. Das, S. Patra, A.K. Biswas, M.L. Chatterjee, and A. Samanta|New Diamide Insecticides Against Fruit and Shoot Borer (Leucinodes orbonalis Guen.) in Brinjal|Pestic. Res. J.26(2): 197-201|2014|
189282|T||Mahalakshmi,M.S., C.V.R. Rao, and Y.K. Rao|Efficacy of Certain Newer Insecticides Against Legume Pod Borer, Maruca vitrata in Urdbean|Indian J. Plant Prot.40(2): 115-117|2012|
189283|T||Tan,Y., L. Xiao, Y. Sun, J. Zhao, and L. Bai|Sublethal Effects of the Chitin Synthesis Inhibitor, Hexaflumuron, in the Cotton Mind Bug, Apolygus lucorum (Meyer-Dur)|Pestic. Biochem. Physiol.111:43-50|2014|10.1016/j.pestbp.2014.04.001
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189285|T||Lopez,J.D.,Jr., M.A. Latheef, and S. Li|Effect of Hexaflumuron on Feeding Response and Reproduction of Adult Boll Weevil|Proc. Beltwide Cotton Conf.2:1321-1324|2000|
189286|T||Lopez,J.D.,Jr., and M.A. Latheef|Effect of Hexaflumuron on Feeding Response and Reproduction of Adult Bollworm|Proc. Beltwide Cotton Conf.2:1316-1322|2000|
189287|T||Kuttalam,S., B.V. Kumar, N. Kumaran, and N. Boomathi|Evaluation of Bio-Efficacy of Flubendiamide 480 SC Against Fruit Borer Helicoverpa armigera Hub. in Tomato|Pestology32(3): 13-16|2008|
189288|T||Kumar,B.V., T. Srinivasan, N. Kumaran, and S. Kuttalam|Evaluation of Flubendiamide 480 SC Against Diamond Back Moth (Plutella xylostella L.) in Cabbage|Pestology31(11): 48-51|2007|
189289|T||Kubendran,D., S. Chandrasekaran, B.V. Kumar, and S. Kuttalam|Evaluation of Flubendiamide 480 SC Against Tomoto Fruit Borer Helicoverpa armigera Hubner|Pestology32(10): 54-57|2008|
189290|T||Thapa,N., and M.M. Dewdney|Efficacy Assessment of Demethylation Inhibitor (DMI) Fungicides Against Guignardia citricarpa, the Causal Agent of Citrus Black Spot (CBS)|Phytopathology104(S11): 117-|2014|
189291|T||Kiran,C.M., J.N. Hegde, A.K. Chakravarthy, D. Thippesha, and C.M. Kalleshwarswamy|Efficacy of Certain Insecticides Against Jasmine Gallery Worm, Elasmopalpus jasminophagus (Hampson) (Lepidoptera: Pyralidae)|Pest Manag. Hortic. Ecosyst.23(1): 97-100|2017|
189292|T||Kalyan,R.K., and O.P. Ameta|Efficacy of Various Insecticidal Spray Schedules Against Insect Pests of Soybean|Res. Crops17(1): 137-143|2016|10.5958/2348-7542.2016.00025.5
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189294|T||Kartikeyan,K., S.M. Purushothaman, S.G. Smitha, and P.G. Ajish|Efficacy of a New Insecticide Combination Against Major Pests of Paddy|Indian J. Plant Prot.40(4): 276-279|2012|
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189301|T||Mir,B., S. Iyer, M. Ramaswami, and K.S. Krishnan|A Genetic and Mosaic Analysis of a Locus Involved in the Anesthesia Response of Drosophila melanogaster|Genetics147(2): 701-712|1997|10.1093/genetics/147.2.701
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189304|T||Tommasini,M.G., and G. Ceredi|Damages on Nectarines by Thrips in Northern Italy: Monitoring and Control on Late Attacks|Bull. Insectol.60(1): 71-75|2007|
189305|T||Verwer,P.E.B., M.L. Van Duijn, M. Tavakol, I.A.J.M. Bakker-Woudenberg, and W.W.J. Van De Sande|Reshuffling of Aspergillus fumigatus Cell Wall Components Chitin and Beta-Glucan Under the Influence of Caspofungin or Nikkomycin Z Alone or in Combination|Antimicrob. Agents Chemother.56(3): 1595-1598|2012|10.1128/AAC.05323-11
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189308|T||Reasons,D.L., L.S. Jeffery, and T.C. McCutchen|Soybean (Glycine max) and Grain-Sorghum (Sorghum bicolor) Tolerance to Residues of Tetrafluron and Fluometuron|Weed Sci.26(6): 533-538|1978|10.1017/S0043174500064481
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189310|T||Saeed,Q., M.A. Saleem, and M. Ahmad|Toxicity of Some Commonly Used Synthetic Insecticides Against Spodoptera exigua (Fab) (Lepidoptera: Noctuidae)|Pak. J. Zool.44(5): 1197-1201|2012|
189311|T||Saeed,S., M.N. Naqqash, and W. Jaleel|Toxicological Studies on Some Important Chemicals Against Dysdercus koenigii Fabr (Hemiptera: Pyrrhocoridae)|Pak. J. Zool.48(5): 1249-1254|2016|
189312|T||Chormule,A.J., and S.S. Gurve|Efficacy of Chitin Synthesis Inhibitors Against Tobacco Leaf Eating Caterpiller, Spodoptera litura (Fabricius) (Noctuidae: Lepidoptera)|Trends Biosci.7(19): 2932-2935|2014|
189313|T||Taning,C.N.T., A. Vanommeslaeghe, and G. Smagghe|With or Without Foraging for Food, Field-Realistic Concentrations of Sulfoxaflor are Equally Toxic to Bumblebees (Bombus terrestris)|Entomol. Gen.39(2): 151-155|2019|10.1127/entomologia/2019/0784
189314|T||Shankar,M., D. Bhadru, M.P. Kumar, and G. Sivaprasad|Bio-Efficacy of Sulfoxaflor Against Plant Hoppers in Rice|J. Entomol. Res.42(3): 387-390|2018|10.5958/0974-4576.2018.00065.8
189316|T||Corallo,B., S. Tiscornia, U. Galvalisi, S. Lupo, and L. Bettucci|Combined Biological and Chemical Control of Neotropical Leaf-Cutting Ants (Acromyrmex spp.) Under Field Conditions|Trends Entomol.13:103-108|2017|
189317|T||Cruz,G.S., V. Wanderley-Teixeira, J.D. Antonino, G.G.A. Goncalves, H.N. Costa, M.C.N. Ferreira, C.L. Neto, L.C. Alves, |Lufenuron Indirectly Downregulates Vitellogenin in the Boll Weevil Females Reducing Egg Viability|Physiol. Entomol.46(1): 24-33|2021|10.1111/phen.12337
189318|T||Dader,B., I. Colomer, A. Adan, P. Medina, and E. Vinuela|Compatibility of Early Natural Enemy Introductions in Commercial Pepper and Tomato Greenhouses with Repeated Pesticide Applications|Insect Sci.27(5): 1111-1124|2020|10.1111/1744-7917.12723
189319|T||Dagli,F.|Spinosad Resistance in a Population of Frankliniella occidentalis (Pergande, 1895) from Antalya and Its Cross Resistance to Acrinathrin and Formetanate|Turk. Entomol. Derg.42(4): 241-251|2018|10.16970/entoted.424746
189320|T||Dal Maso,E., B.T. Linaldeddu, G. Fanchin, M. Faccoli, and L. Montecchio|The Potential for Pesticide Trunk Injections for Control of Thousand Cankers Disease of Walnut|Phytopathol. Mediterr.58(1): 73-79|2019|10.13128/Phytopathol_Mediterr-23598
189321|A||Gu,J., M. Guo, X. Yin, C. Huang, L. Qian, L. Zhou, Z. Wang, L. Wang, L. Shi, and G. Ji|A Systematic Comparison of Neurotoxicity of Bisphenol A and Its Derivatives in Zebrafish|Sci. Total Environ.805:9 pg.   150210|2022|10.1016/j.scitotenv.2021.150210
189322|A||Li,R., S. Liu, W. Qiu, F. Yang, Y. Zheng, Y. Xiong, G. Li, and C. Zheng|Transcriptomic Analysis of Bisphenol AF on Early Growth and Development of Zebrafish (Danio rerio) Larvae|Environ. Sci. Technol.4:11 p.|2020|10.1016/j.ese.2020.100054
189323|A||Takesono,A., P. Schirrmacher, A. Scott, J.M. Green, O. Lee, M.J. Winter, T. Kudoh, and C.R. Tyler|Estrogens Regulate Early Embryonic Development of the Olfactory Sensory System Via Estrogen-Responsive Glia|Development149(1): 15 p.|2022|10.1242/dev.199860
189324|T||El-Sheikh,E.A., and M.M. Aamir|Comparative Effectiveness and Field Persistence of Insect Growth Regulators on a Field Strain of the Cotton Leafworm, Spodoptera littoralis, Boisd (Lepidoptera: Noctuidae)|Crop Prot.30(6): 645-650|2011|10.1016/j.cropro.2011.02.009
189325|T||El-Ghar,G.E.S.A., A.E.G.M. El-Sayed, A.E. El-Shiekh, and H.S.A. Radwan|Field Tests with Insecticides and Insect Growth Regulators to Control Insect Pests of Cowpea and Its Effects on Certain Beneficial Insects|Arch. Phytopathol. Plant Prot.28(6): 531-543|1994|10.1080/03235409409383082
189326|T||El-Kawas,H., and M. Khedr|Performance of Certain Insect Growth Regulators on Cotton Leaf Worm, Sucking Pests and Their Impacts on Common Predators in Egyptian Cotton Fields|Pak. Entomol.41(2): 101-110|2019|
189327|T||El-Sayed,A.A.A., A.E.A. Amer, and W.M. Desuky|Side Effect of Some Insect Growth Regulators (IGRs) on the Associated Predators of Cotton Leaf Worm, Spodoptera littoralis (Boisd.) in Cotton Fields|Egypt. Acad. J. Biol. Sci. Entomol.8(3): 79-86|2015|10.21608/eajbsa.2015.12871
189328|T||Fisher,M.A., D.E. Jacobs, M.J. Hutchinson, and I.G.C. Dick|Evaluation of Flea Control Programmes for Cats Using Fenthion and Lufenuron|Vet. Rec.138(4): 79-81|1996|10.1136/vr.138.4.79
189329|T||Fiaz,M., A. Ali, F. Ahmad, H. Mansoor-Ul, M. Sagheer, J.E. Serrao, J.C. Zanuncio, M. Shareef, and J. Liu|Comparative Potential of Chitin Synthesis Inhibitors Against Trogoderma granarium E. (Coleoptera: Dermestidae) for Stored Wheat Management in Pakistan|Pak. J. Agric. Sci.55(4): 949-954|2018|10.21162/PAKJAS/18.5307
189331|T||Chen,X., P. Wang, Z. Meng, S. Chen, H. Gu, and X. Sha|Degradation Dynamics and Residue Analysis of Flubendiamide in Cabbage and Soil by Liquid Chromatography-Tandem Mass Spectrometry with Dispersive Solid Phase Extraction|Agric. Sci.5(10): 850-857|2014|10.4236/as.2014.510091
189333|A||Coumailleau,P., S. Trempont, E. Pellegrini, and T.D. Charlier|Impacts of Bisphenol A Analogues on Zebrafish Post-Embryonic Brain|J. Neuroendocrinol.32(8): 21 p.|2020|10.1111/jne.12879
189334|A||Bedell,V.M., Q.C. Meng, M.A. Pack, and R.G. Eckenhoff|A Vertebrate Model to Reveal Neural Substrates Underlying the Transitions Between Conscious and Unconscious States|Sci. Rep.10(1): 10 pg.|2020|10.1038/s41598-20-72669-1
189335|A||Adedara,I.A., T.P. Souza, J. Canzian, A.A. Olabiyi, J.V. Borba, E. Biasuz, G.R. Sabadin, F.L. Goncalves, F.V. Costa, M.|Induction of Aggression and Anxiety-Like Responses by Perfluorooctanoic Acid Is Accompanied by Modulation of Cholinergic- and Purinergic Signaling-Related Parameters in Adult Zebrafish|Ecotoxicol. Environ. Saf.239:10 p.|2022|10.1016/j.ecoenv.2022.113635
189336|A||Krupa,P.M., G.R. Lotufo, E.J. Mylroie, L.K. May, K.A. Gust, A.N. Kimble, M.G. Jung, J.A. Boyda, N. Garcia-Reyero, and D|Chronic Aquatic Toxicity of Perfluorooctane Sulfonic Acid (PFOS) to Ceriodaphnia dubia, Chironomus dilutus, Danio rerio, and Hyalella azteca|Ecotoxicol. Environ. Saf.241:8 p.|2022|10.1016/j.ecoenv.2022.113838
189337|A||Nilen,G., O.S. Obamwonyi, V. Liem-Nguyen, M. Engwall, M. Larsson, and S.H. Keiter|Observed and Predicted Embryotoxic and Teratogenic Effects of Organic and Inorganic Environmental Pollutants and Their Mixtures in Zebrafish (Danio rerio)|Aquat. Toxicol.248:12 p.|2022|10.1016/j.aquatox.2022.106175
189338|A||Flynn,R.W., G. Hoover, M. Iacchetta, S. Guffey, C. De Perre, B. Huerta, W.M. Li, J.T. Hoverman, L. Lee, and M.S. Sepulv|Comparative Toxicity of Aquatic Per- and Polyfluoroalkyl Substance Exposure in Three Species of Amphibians|Environ. Toxicol. Chem.41(6): 1407-1415|2022|10.1002/etc.5319
189339|T||Donham,K.J., L.A. Will, D. Denman, and J.R. Leininger|The Combined Effects of Asbestos Ingestion and Localized X - Irradiation of the Colon in Rats|J. Environ. Pathol. Toxicol. Oncol.5(4/5): 299-308|1984|
189340|T||De Queiroz,L.F., J.D.N. Corassa, S.M.M. Rodrigues, and R.M. Pitta|Susceptibility of Soybean Looper to Lufenuron and Spinosad|Arq. Inst. Biol. (Multiple Languages)87:8 p.|2020|10.1590/1808-1657000062019.
189341|T||Wang,C.L., and G.W. Bennett|Efficacy of Noviflumuron Gel Bait for Control of the German Cockroach, Blattella germanica (Dictyoptera : Blattellidae) - Laboratory Studies|Pest Manag. Sci.62(5): 434-439|2006|10.1002/ps.1184
189342|T||Zhao,Y.X., J.M. Huang, H. Ni, D. Guo, F.X. Yang, X. Wang, S.F. Wu, and C.F. Gao|Susceptibility of Fall Armyworm, Spodoptera frugiperda (J. E. Smith), to Eight Insecticides in China, with Special Reference to Lambda-Cyhalothrin|Pestic. Biochem. Physiol.168:8p.|2020|10.1016/j.pestbp.2020.104623
189343|T||Wari,D., R. Okada, M. Takagi, M. Yaguchi, T. Kashima, and T. Ogawara|Augmentation and Compatibility of Beauveria bassiana with Pesticides Against Different Growth Stages of Bemisia tabaci (Gennadius); an In Vitro and Field Approach|Pest Manag. Sci.76(9): 3236-3252|2020|10.1002/ps.5881
189344|T||Xing,L., T. Chouvenc, and N.Y. Su|Behavioral and Histological Changes in the Formosan Subterranean Termite (Isoptera: Rhinotermitidae) Induced by the Chitin Synthesis Inhibitor Noviflumuron|J. Econ. Entomol.107(2): 741-747|2014|10.1603/EC13254
189345|T||Nishida,Y., C. Haga, K. Oda, and T. Hayama|Disinfestation of Experimentally Infested Cat Fleas, Ctenocephalides felis, on Cats and Dogs by Oral Lufenuron|J. Vet. Med. Sci.57(4): 655-658|1995|10.1292/jvms.57.655
189346|T||Cork,A., S.N. Alam, F.M.A. Rouf, and N.S. Talekar|Development of Mass Trapping Technique for Control of Brinjal Shoot and Fruit Borer, Leucinodes orbonalis (Lepidoptera: Pyralidae)|Bull. Entomol. Res.95(6): 589-596|2005|10.1079/BER2005389
189348|T||Fadlelmawla,M.K., A.O. Abdelbagi, A.E.S.A. Ishag, A.M.A. Hammad, and J.H. Hur|Effects of Nitrogen Fertilization and Some Non-Conventional Insecticides on Sap Sucking Pests and Yield of Transgenic Bt Cotton in Sudan|Int. J. Trop. Insect Sci.41(2): 1471-1484|2021|10.1007/s42690-020-00345-y
189349|T||Wang,X., X. Cao, D. Jiang, Y. Yang, and Y. Wu|CRISPR/Cas9 Mediated Ryanodine Receptor I4790M Knockin Confers Unequal Resistance to Diamides in Plutella xylostella|Insect Biochem. Mol. Biol.125:7 p.|2020|10.1016/j.ibmb.2020.103453
189350|T||French,N., R. Porter, and L. Bednarski|Performance of a New Fungicide Premixture for Managing Soybeans Infested with Frogeye Leaf Spot|Phytopathology108(12): 6 p.|2018|
189351|A||Hawkins,M.B., and P. Thomas|The Unusual Binding Properties of the Third Distinct Teleost Estrogen Receptor Subtype ERbetaa are Accompanied by Highly Conserved Amino Acid Changes in the Ligand Binding Domain|Endocrinology145(6): 2968-2977|2004|10.1210/en.2003-0806
189352|T||Fahmy,M.M., and N.M.E. El-Dien|Control of Ctenocephalides felis on Dogs and Cats Using the Insect Growth Regulator (or Chitin Synthesis Inhibitor) Lufenuron Program, in Egypt|J. Egypt. Soc. Parasitol.32(1): 99-108|2002|
189353|A||Mouriec,K., J.J. Lareyre, S.K. Tong, Y. Le Page, C. Vaillant, E. Pellegrini, F. Pakdel, B.C. Chung, O. Kah, and I. Angl|Early Regulation of Brain Aromatase (Cyp19a1b) by Estrogen Receptors During Zebrafish Development|Dev. Dyn.238(10): 2641-2651|2009|10.1002/dvdy.22069
189354|T||Dryden,M.W., P.A. Payne, S. Vicki, R.L. Debra, and A. Lynn|Evaluation of the Ovicidal Activity of Lufenuron and Spinosad on Fleas' Eggs from Treated Dogs|Int. J. Appl. Res. Vet. Med.10(3): 198-204|2012|
189355|A||Cui,X.F., Y. Zhao, H.P. Chen, S.P. Deng, D.N. Jiang, T.L. Wu, C.H. Zhu, and G.L. Li|Cloning, Expression and Functional Characterization on Vitellogenesis of Estrogen Receptors in Scatophagus argus|Gen. Comp. Endocrinol.246:37-45|2017|10.1016/j.ygcen.2017.03.002
189356|A||Loomis,A.K., and P. Thomas|Effects of Estrogens and Xenoestrogens on Androgen Production by Atlantic Croaker Testes In Vitro: Evidence for a Nongenomic Action Mediated by an Estrogen Membrane Receptor|Biol. Reprod.62(4): 995-1004|2000|10.1095/biolreprod62.4.995
189358|T||Follas,G., R. Welsh, S. Bland, and T.M. Patterson|Lufenuron - an Insect Growth Inhibitor for the Control of Leafrollers in Apples and Kiwifruit|Proc. N. Z. Plant Prot. Conf.47:341-345|1994|10.30843/nzpp.1994.47.11051
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189360|T||Jia,X., Z. Liu, X. Lu, J. Tang, Y. Wu, Q. Du, J. He, X. Zhang, J. Jiang, W. Liu, Y. Zheng, Y. Ding, W. Zhu, and H. Zhan|Effects of MCLR Exposure on Sex Hormone Synthesis and Reproduction-Related Genes Expression of Testis in Male Rana nigromaculata|Environ. Pollut.236:12-20|2018|10.1016/j.envpol.2018.01.057
189361|A||Namdaran,P., K.E. Reinhart, K.N. Owens, D.W. Raible, and E.W. Rubel|Identification of Modulators of Hair Cell Regeneration in the Zebrafish Lateral Line|J. Neurosci.32(10): 3516-3528|2012|10.1523/JNEUROSCI.3905-11.2012
189362|A||Notch,E.G., and G.D. Mayer|Efficacy of Pharmacological Estrogen Receptor Antagonists in Blocking Activation of Zebrafish Estrogen Receptors|Gen. Comp. Endocrinol.173(1): 183-189|2011|10.1016/j.ygcen.2011.05.008
189363|A||Wu,Q., W. Yan, C. Liu, T.C. Hung, and G. Li|Co-Exposure with Titanium Dioxide Nanoparticles Exacerbates MCLR-Induced Brain Injury in Zebrafish|Sci. Total Environ.693:10 p.|2019|10.1016/j.scitotenv.2019.07.346
189364|A||Lance,E., E. Bugajny, M. Bormans, and C. Gerard|Consumption of Toxic Cyanobacteria by Potamopyrgus antipodarum (Gastropoda, Prosobranchia) and Consequences on Life Traits and Microcystin Accumulation|Harmful Algae7(4): 464-472|2008|10.1016/j.hal.2007.10.004
189365|A||Skjetne-Mortensen,A., and A. Arukwe|Targeted Salmon Gene Array (SalArray): A Toxicogenomic Tool for Gene Expression Profiling of Interactions Between Estrogen and Aryl Hydrocarbon Receptor Signalling Pathways|Chem. Res. Toxicol.20(3): 474-488|2007|10.1021/tx6002672
189366|A||Pinto,P.I.S., P.B. Singh, J.B. Condeca, H.R. Teodosio, D.M. Power, and A.V.M. Canario|ICI 182,780 has Agonistic Effects and Synergizes with Estradiol-17 beta in Fish Liver, but not in Testis|Reprod. Biol. Endocrinol.4:11 p.|2006|10.1186/1477-7827-4-67
189367|A||Liu,M.Y., B.L. Sun, X.Z. Zhou, and L.G. Chen|Disturbed Glucose Metabolism by Perfluorobutanesulfonate Pollutant and Benefit of Young Fecal Transplantation in Aged Zebrafish|Ecotoxicol. Environ. Saf.241:10 p.|2022|
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189375|A||Hornung,M.W., M.A. Tapper, J.S. Denny, B.R. Sheedy, R. Erickson, T.J. Sulerud, R.C. Kolanczyk, and P.K. Schmieder|Avoiding False Positives and Optimizing Identification of True Negatives in Estrogen Receptor Binding and Agonist/Antagonist Assays|Appl. Vitro Toxicol.3(2): 163-181|2017|10.1089/aivt.2016.0021
189376|T||Demeure,O., F. Lecerf, C. Duby, C. Desert, S. Ducheix, H. Guillou, and S. Lagarrigue|Regulation of LPCAT3 by LXR|Gene470(1-2): 7-11|2011|10.1016/j.gene.2010.09.002
189377|T||Folcher,L., A. Weissenberger, and M. Delos|Quantitative Relationships Between Ostrinia nubilalis Activity and Deoxynivalenol Contamination in French Maize|Int. J. Pest Manag.58(4): 302-309|2012|10.1080/09670874.2012.679641
189378|T||Wagner,J.C.|Asbestosis in Experimental Animals|Br. J. Ind. Med.20:1-12|1963|
189379|T||Kawachi,T., T. Komatsu, T. Kada, M. Ishidate, M. Sasaki, T. Sugiyama, and Y. Tazima|Results of Recent Studies on the Relevance of Various Short-Term Screening Tests in Japan|In: G.M.Williams (Eds.), The Predictive Value of Short-Term Screening Tests in Carcinogenicity Evaluation, Elsevier/North-Holland Biomedical Press, Amsterdam3:253-267|1980|
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189382|A||Vuorinen,P.J., V.O. Sipia, K. Karlsson, M. Keinanen, A. Furey, O. Allis, K. James, U. Perttila, E. Rimaila-Parnanen, an|Accumulation and Effects of Nodularin from A Single and Repeated Oral Doses of Cyanobacterium Nodularia spumigena on Flounder (Platichthys flesus L.)|Arch. Environ. Contam. Toxicol.57(1): 164-173|2009|10.1007/s00244-008-9258-7
189383|A||Shahmohamadloo,R.S., D.G. Poirier, X.O. Almirall, S.P. Bhavsar, and P.K. Sibley|Assessing The Toxicity of Cell-Bound Microcystins on Freshwater Pelagic and Benthic Invertebrates|Ecotoxicol. Environ. Saf.188:8 p.|2020|10.1016/j.ecoenv.2019.109945
189384|T||Dhanya,M., K.B. Anjumol, M. Murugan, and K.B. Deepthy|Compatibility of Trichoderma viride and Pseudomonas fluorescens with Plant Protection Chemicals and Fertilizers in Cardamom|J. Trop. Agric.54(2): 129-135|2016|
189385|T||Dhawan,A., and G.S. Simwat|Evaluation of Profenofos in Combination with Lufenuron for the Control of Bollworm Complex on Cotton|Pestology25(9): 19-23|2001|
189386|T||Edomwande,E.O., A.S. Schoeman, J.A. Brits, and M. Van Der Merwe|Effect of the Chitin Synthesis Inhibitor Lufenuron on the American Bollworm|Br. Crop Prot. Conf. Pests Dis.:523-526|2000|
189387|T||Follas,G.|The Efficacy of Bacillus thuringiensis and Lufenuron Against Lepidopteran Pests in Brassicas|Proc. N. Z. Plant Prot. Conf.48:285-288|1996|10.30843/nzpp.1995.48.11514
189388|T||Pelfrene,A.F.|Early Vascular Modifications Induced by Asbestos Fibers in the Hamster Cheek Pouch|Microvasc. Res.13:261-266|1977|10.1016/0026-2862(77)90091-7
189389|T||Silva,J.E., W.M. Silva, T.B. Martins Silva, M.R. Campos, A.B. Esteves Filho, and H.A. Abreu De Siqueira|High Resistance to Insect Growth Disruptors and Control Failure Likelihood in Brazilian Populations of the Tomato Pinworm Tuta absoluta|Phytoparasitica49:689-701|2021|10.1007/s12600-021-00895-y
189390|T||Singh,S., A. Siddiqui, N. Wast, and R. Kumar Choudhary|Effect of Insect Growth Regulators on the Development of Helicoverpa armigera|Environ. Conserv. J.11(3): 121-124|2010|10.36953/ECJ.2010.110324
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189397|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Amosite Asbestos (CAS No. 12172-73-5) in F344/N Rats (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.:343 p.|1990|
189398|T||Yao,R., D.D. Zhao, S. Zhang, L.Q. Zhou, X. Wang, C.F. Gao, and S.F. Wu|Monitoring and Mechanisms of Insecticide Resistance in Chilo suppressalis (Lepidoptera: Crambidae), with Special Reference to Diamides|Pest Manag. Sci.73(6): 1169-1178|2017|10.1002/ps.4439
189399|T||Smith,R.D., A.J. Paul, U.D. Kitron, J.R. Philip, S. Barnett, M.J. Piel, R.W. Ness, and M. Evilsizer|Impact of an Orally Administered Insect Growth Regulator (Lufenuron) on Flea Infestations of Dogs in a Controlled Simulated Home Environment|Am. J. Vet. Res.57(4): 502-504|1996|10.2460/ajvr.1996.57.04.502
189400|T||Song,X.P., Y.J. Liang, X.Q. Zhang, Z.Q. Qin, J.J. Wei, Y.R. Li, and J.M. Wu|Intrusion of Fall Armyworm (Spodoptera frugiperda) in Sugarcane and Its Control by Drone in China|Proc. Meet. West Indies Sugar Technol.22(4): 734-737|2020|10.1007/s12355-020-00799-x
189401|T||Soryia,E.H., K.A.H. Ragaa, and S.H. Laila|Morphological Changes Induced in the Antenna of Cowpea Beetle, Callosobruchus maculatus (Fabricius) (Coleoptera : Bruchidae) After Treatment with Lufenuron|Egypt. Acad. J. Biol. Sci., A Ent.2(1): 207-218|2009|10.21608/eajbsa.2009.15615
189402|T||Spomer,N.A., and S.T. Kamble|Effect of Temperature on Noviflumuron Performance Against the Eastern Subterranean Termite (Isoptera : Rhinotermitidae)|Sociobiology46(2): 335-348|2005|
189403|T||Sridhar,Y., and A.N. Sharma|Flubendiamide, a Novel Insecticide for Management of Lepidopteron Defoliators in Soybean|Legume Res.38(4): 551-554|2015|10.5958/0976-0571.2015.00029.6
189404|T||Zhou,S., Z. Jia, L. Xiong, T. Yan, N. Yang, G. Wu, H. Song, and Z. Li|Chiral Dicarboxamide Scaffolds Containing a Sulfiliminyl Moiety as Potential Ryanodine Receptor Activators|J. Agric. Food Chem.62(27): 6269-6277|2014|10.1021/jf501727k
189405|T||Yoruk,E.|Tetraconazole Leads to Alterations in Fusarium graminearum at Different Molecular Levels|Appl. Ecol. Environ. Res.16(5): 6155-6167|2018|10.15666/aeer/1605_61556167
189406|T||Wilson,B.E., M.T. VanWeelden, J.M. Beuzelin, T.E. Reagan, and J.A. Prado|Efficacy of Insect Growth Regulators and Diamide Insecticides for Control of Stem Borers (Lepidoptera: Crambidae) in Sugarcane|J. Econ. Entomol.110(2): 453-463|2017|10.1093/jee/tow305
189407|T||Wu,M., S. Zhang, R. Yao, S. Wu, J. Su, and C. Gao|Susceptibility of the Rice Stem Borer, Chilo suppressalis (Lepidoptera: Crambidae), to Flubendiamide in China|J. Econ. Entomol.107(3): 1250-1255|2014|10.1603/EC14053
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189410|T||Wu,S.F., D.D. Zhao, J.M. Huang, S.Q. Zhao, L.Q. Zhou, and C.F. Gao|Molecular Characterization and Expression Profiling of Ryanodine Receptor Gene in the Pink Stem Borer, Sesamia inferens (Walker)|Pestic. Biochem. Physiol.146:1-6|2018|10.1016/j.pestbp.2018.01.004
189411|T||Xie,Y., S. Zhou, Y. Li, S. Zhou, M. Chen, B. Wang, L. Xiong, N. Yang, and Z. Li|Design, Synthesis, Biological Evaluation and SARs of Novel N-Substituted Sulfoximines as Potential Ryanodine Receptor Modulators|Chin. J. Chem.36(2): 129-133|2018|10.1002/cjoc.201700555
189412|T||National Toxicology Program (NTP)|Toxicology and Carcinogenesis Studies of Crocidolite Asbestos (CAS No. 12001-28-4) in F344/N Rats (Feed Studies)|Natl. Toxicol. Program Tech. Rep. Ser.:180 p.|1990|
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189431|T||Pacheco-Marino,S.G., M.N. Cabello, and A. Salibian|Effect of Three Fungicides on In Vitro Growth of Fusarium solani and Fusarium semitectum, Parasitic on Odontesthes bonariensis Eggs|Int. J. Environ. Health5(4): 293-303|2011|10.1504/IJENVH.2011.044114
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189450|T||Singh,S.V., and V.S. Kavadia|Insecticidal Control Schedule for the Pests Attacking Brinjal II, During Fruiting Stage|Indian J. Entomol.51(1): 69-75|1989|
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189485|T||Obrtel,R.|Effects of Two Insecticides on Aphidius ervi Hal. (Hym: Braconidae), an Internal Parasite of Acyrthosiphon onobrychis (Boyer) (Ucinky Dvou Insekticido na Msicomara Aphidus Ervi hal. (Hym.: Braconidae))|Zool. Listy24:1-8|1961|
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189492|T||Des Vignes,W.G.|Promising Insecticide Candidates for Use in the IPM of the Sugarcane Froghopper, Aeneolamia varia saccharina Dist. (Homoptera: Cercopidae) on Sugar Cane in Trinidad|Proc. Meet. West Indies Sugar Technol.26:210-218|1997|
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189500|T||Burt,P.E., G.E. Gregory, and F.M. Molloy|A Histochemical and Electrophysiological Study of the Action of Diazoxon on Cholinesterase Activity and Nerve Conduction in Ganglia of the Cockroach Periplaneta americana L.|Ann. Appl. Biol.58:341-354|1966|10.1111/j.1744-7348.1966.tb04394.x
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189513|T||Lin,T.A., C.W. Huang, and C.C. Wei|Early-Life Perfluorooctanoic Acid (PFOA) and Perfluorooctane Sulfonic Acid (PFOS) Exposure Cause Obesity by Disrupting Fatty Acids Metabolism and Enhancing Triglyceride Synthesis in Caenorhabditis elegans|Aquat. Toxicol.251:9 p.|2022|10.1016/j.aquatox.2022.106274
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189516|T||Zabel,A., S. Rajkovic, B. Manojlovic, S. Stankovic, and I. Veljkovic|New Pesticides for Potato Protection Against the Colorado Potato Beetle (Leptinotarsa decemlineata Say.) and Late Blight (Phytophtora infestans Mont. De Bary)|Acta Hortic.579:491-496|2002|10.17660/ActaHortic.2002.579.85
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189525|A||Rolli,N.M., S.S. Suvarnakhandi, G.S. Mulgund, R.H. Ratageri, and T.C. Taranath|Biochemical Responses and Accumulation of Cadmium in Spirodela polyrhiza|J. Environ. Biol.31(4): 529-532|2010|
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189530|T||You,Y., T. Lin, H. Wei, Z. Zeng, J. Fu, X. Liu, R. Lin, and Y. Zhang|Laboratory Evaluation of the Sublethal Effects of Four Selective Pesticides on the Predatory Mite Neoseiulus cucumeris (Oudemans) (Acari: Phytoseiidae)|Syst. Appl. Acarol.21(11): 1506-1514|2016|10.11158/saa.21.11.6
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189538|T||Sharanabasava,H., M. Manjunatha, and S.G. Hanchainal|Interaction of Chrysoperla carnea (Neuroptera: Chrysopidae) with Botanicals and Recommended Pesticides Used Against Spider Mite Tetranychus neocaledonicus (Acari: Tetranychidae)|Indian J. Acarol.1/2(4): 10-14|1999|
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189550|T||Uchiyama,T., and A. Ozawa|Rapid Development of Resistance to Diamide Insecticides in the Smaller Tea Tortrix, Adoxophyes honmai (Lepidoptera: Tortricidae), in the Tea Fields of Shizuoka Prefecture, Japan|Nihon Ouyou Doubutsu Konchuu (Non-English)49(4): 529-534|2014|10.1007/s13355-014-0283-x
189551|T||Zhou,F., G. Zhu, H. Zhao, Z. Wang, M. Xue, X. Li, H. Xu, X. Ma, and Y. Liu|Sterilization Effects of Adult-Targeted Baits Containing Insect Growth Regulators on Delia antiqua|Sci. Rep.6:9 p.|2016|10.1038/srep32855
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189554|T||Seccacini,E.A., L.W. Juan, C.V. Vassena, E.N. Zerba, and R.A. Alzogaray|Lufenuron Kills Deltamethrin-Resistant Blattella germanica (Blattodea)|Rev. Soc. Ent. Argentina77(2): 32-38|2018|10.25085/rsea.770204
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189575|A||Clark,J.M., and F. Matsumura|Two Different Types of Inhibitory Effects of Pyrethroids on Nerve Ca- and Ca+ Mg ATPase in the Squid, Loligo pealei|Pestic. Biochem. Physiol.4:232-238|1982|
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189578|T||Pandey,S., R.K. Mishra, A.K. Singh, and D.K. Srivastava|Bioefficacy of Plant Extracts, Neem-Based Biopesticides and Insect Growth Regulators for Management of Onion Thrips|Biopestic. Int.7(1): 60-63|2011|
189579|T||Prasad,V.D., M. Bharati, and G.P.V. Reddy|Relative Resistance to Conventional Insecticides in Three Populations of Cotton Whitefly Bemisia tabaci Gennadius in Andhra Pradesh|Indian J. Plant Prot.21(1): 102-103|1993|
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189584|T||Schwassmann,M., G.A. Kunkle, D.I. Hepler, and D.T. Lewis|Use of Lufenuron for Treatment of Generalized Demodicosis in Dogs|Vet. Dermatol.8(1): 11-18|1997|10.1111/j.1365-3164.1997.tb00258.x
189585|T||Ismail,S.M.|Effect of Sublethal Doses of Some Insecticides and Their Role on Detoxication Enzymes and Protein-Content of Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae)|Bull. Natl. Res. Ctr.44(1): 6 p|2020|10.1186/s42269-020-00294-z
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189592|T||Hadapad,A.B., C.S. Chaudhari, and A.G. Chandele|Efficacy of Different Novel Insecticides Against Diamond Back Moth, Plutella xylostella (L.)|Pestology25(2): 26-28|2001|
189593|T||Gosic Dondo,S., D. Grcak, M. Grcak, D. Kondic, D. Hajder, Z. Popovic, and D. Knezevic|The Effect of Insecticides on the Total Percentage of Ostrinia nubilalis Hbn Attack on Maize Hybrids|Genetika (Non-English)52(1): 351-365|2020|10.2298/GENSR2001351G
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189597|T||Delorme,R., D. Auge, M.T. Bethenod, and F. Villatte|Insecticide Resistance in a Strata of Aphis gossypii from Southern France|Pestic. Sci.49(1): 90-96|1997|10.1002/(SICI)1096-9063(199701)49:1<90::AID-PS489>3.0.CO;2-S
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189603|T||Mohite,A.S., J.S. Shinde, and I.A. Raja|Laboratory Screening of Some Organosynthetic Insecticides Against Third Instar Larvae of Fruit Sucking Moth, Othreis materna (Linn.) (Lepidoptera: Noctuidae)|Environ. Ecol.22(4): 597-602|2004|
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189605|T||Sarkar,P.K., A.K. Somchoudhury, and T.K. Das|Efficacy of Some Pesticides in the Control of Tetranychus fijiensis (Acari: Tetranychidae) Infesting Coconut in West Bengal|Environ. Ecol.6(2): 465-466|1988|
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189610|T||Chaudhari,C.S., D.S. Pokharkar, B.L. Chaudhari, and D.M. Firake|Compatibility of Insecticides with Entomopathogenic Nomuraea rileyi Against Tobacco Caterpillar, Spodoptera litura (F.)|Indian J. Entomol.79(1): 37-40|2017|10.5958/0974-8172.2017.00009.8
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189612|T||Naveen,G., and S. Mondal|Efficacy of Some Insecticides Against Gram Pod Borer Helicoverpa armigera on Chickpea|Indian J. Entomol.82(3): 515-518|2020|10.5958/0974-8172.2020.00129.7
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189615|T||Narayana,R., Sunu Thomas, and M.S. Sheela|Management of Root-Knot Nematode Meloidogyne incognita Infecting Black Pepper|Indian J. Nematol.48(1): 51-55|2018|
189616|T||Russo,M., G. Troncone, F.M. Guarino, F. Angelini, and P. Chieffi|Estrogen-Induced Akt-1 Activity in the Lizard (Podarcis s. sicula) Testis|Mol. Reprod. Dev.71(1): 52-57|2005|10.1002/mrd.20284
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189619|T||Imran,M., K. Hanif, M. Ahmad, M. Nasir, and U.A.A. Sheikh|Comparative Toxicity of Insecticides Against Two Important Insect Pests of Cauliflower Crop|Asian J. Agric. Biol.5(2): 88-98|2017|
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189636|T||Saikia,R., K.K. Baruah, D. Sapcota, and M. Hazarika|Effect of Formaldehyde Fumigation and Antibiotic Treatment on Position of Dead Embryos in Unhatched Chicken (WLH) Eggs|Indian Vet. J.79:46-48|2002|
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189645|T||Ghoneim,K.S., A.S. Bream, M.A. Tanani, and M.M. Nassar|Effectiveness of IGRs (CGA-184699) and (CGA-259205) on the Respiratory Metabolism of the Red Palm Weevil, Rhynchophorus ferrugineus (Coleoptera: Curculionidae)|Meded. Rijksuniv. Gent Fak. Landbouwkd. Toegep. Biol. Wet. (Multiple Languages)66(2a): 413-423|2001|
189646|T||Ghazawy,N.|Ultrastructural Observations on the Gonads and Neurosecretory Cells of Schistocerca gregaria After Treatment with Lufenuron (CGA-184699)|J. Orthop. Res.21(2): 141-148|2012|10.1665/034.021.0202
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189650|T||Franc,M., and M.C. Cadiergues|Use of Injectable Lufenuron for Treatment of Infestations of Ctenocephalides felis in Cats|Am. J. Vet. Res.58(2): 140-142|1997|10.2460/ajvr.1997.58.02.140
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189657|T||Linfield,C.A.|A Comparative Study of the Effects of Five Chemicals on the Survival of Chlamydospores of Fusarium oxysporum f. sp. narcissi|J. Phytopathol. (Berl.)131(4): 297-304|1991|10.1111/j.1439-0434.1991.tb01200.x
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189659|T||Jin,C., X. Zhou, H. Zhao, X. Liu, and K. Feng|Comparison of Removal of Formaldehyde Capacity Between Hedera helix and Melissa officinalis|Asian J. Chem.25(7): 3823-3826|2013|10.14233/ajchem.2013.13802
189660|T||Park,M.A., J.H. Seo, J.S. Park, and M. Kwon|Proteomic Identification of Toxic Volatile Organic Compound-Responsive Proteins in Arabidopsis thaliana|Plant Cell Rep.28:1603-1614|2009|10.1007/s00299-009-0759-2
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189673|T||Singh,N.K., N. Agrawal, P.K. Mishra, and S. Singh|Effect of Chemical Insecticides, Bio-Pesticides and Botanicals on Parasitization and Emergence of Trichogramma chilonis (Ishii) - an Egg Parasitoid of Lepidopteran Pests|J. Exp. Zool. India18(1): 437-440|2015|
189674|T||Singh,N.K., N. Agrawal, P.K. Mishra, and S. Singh|Toxicity of Botanical Microbial and Chemical Pesticide to Trichogramma chilonis Ishii (Hymenoptera: Trichogrammatidae)|J. Exp. Zool. India18(1): 479-482|2015|
189675|T||Daniel,J.A., and K. Ramaraju|Effect of Profenofos 50 EC on Parasitization of Opius sp. (Hymenoptera: Braconidae) on Tea Leaf Miner Tropicomyia thea (Cotes)|J. Entomol. Res.42(1): 87-92|2018|10.5958/0974-4576.2018.00015.4
189676|A||Ji,J., Y. Zhang, Y. Liu, P. Zhu, and X. Yan|Biodegradation of Plastic Monomer 2,6-Dimethylphenol by Mycobacterium Neoaurum B5-4|Environ. Pollut.258:10 p.|2020|10.1016/j.envpol.2019.113793
189677|T||Okonkwo,C.A.C.|Efficacy of Formaldehyde in the Control of Stem Rot Disease of Cowpea in Nigeria|Crop Prot.8:280-282|1989|10.1016/0261-2194(89)90014-8
189678|A||Gatesoupe,F.J.|Probiotic and Formaldehyde Treatments of Artemia nauplii as Food for Larval Pollack, Pollachius pollachius|Aquaculture212:347-360|2002|10.1016/S0044-8486(02)00138-2
189679|A||Monsanto Co.|Initial Submission: Acute Toxicity of Santoflex 13 to Rainbow Trout and Bluegill with Cover Letter Dated 081492|EPA/OTS 88-920007606:9 p.|1977|
189680|A||Rishi,K.K., S. Rishi, S. Grewal, and P.K. Gill|Genotoxicity of 2,4-D and Butachlor on the Chromosomes of Fish Channa punctatus|Perspect. Cytol. Genet.10:781-790|2001|
189681|T||Wicks,T.J., B. Morgan, and B. Hall|Chemical and Biological Control of Rhizoctonia solani on Potato Seed Tubers|Aust. J. Exp. Agric.35:661-664|1995|10.1071/EA9950661
189682|A||Mischke,C.C., J.S. Terhune, and D.J. Wise|Acute Toxicity of Several Chemicals to the Oligochaete Dero digitata|J. World Aquac. Soc.32(2): 184-188|2001|10.1111/j.1749-7345.2001.tb01093.x
189683|T||Patterson,P.H., S.C. Ricke, M.L. Sunde, and D.M. Schaefer|Hatching Eggs Sanitized with Chlorine Dioxide Foam: Egg Hatchability and Bactericidal Properties|Avian Dis.34(1): 1-6|1990|10.2307/1591327
189685|T||Whitehead,A.G.|The Effect of Formalin on Potato Cyst-Nematode Heterodera rostochiensis|Ann. Appl. Biol.84:97-99|1976|10.1111/j.1744-7348.1976.tb01733.x
189686|A||Khodabandeh,S., and B. Abtahi|Effects of Sodium Chloride, Formalin and Iodine on the Hatching Success of Common Carp, Cyprinus carpio, Eggs|J. Appl. Ichthyol.22:54-56|2006|10.1111/j.1439-0426.2006.00662.x
189687|T||Bragg,D.B., H.R. Sharma, and J.R. Ingalls|Effect of Formalin-Treated Wheat in the Diet on the Performance of Growing Chicks|Can. J. Anim. Sci.50:601-604|1970|10.4141/cjas70-081
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189689|T||Rai,B.K., S. Kanta, and R. Lal|Relative Toxicity of Some Pesticides to Eutetranychus banksi (McGregor), (Tetranychidae: Acarina)|Indian Oilseeds J.8:360-363|1964|
189690|T||Livingston,J.M., W.C. Yearian, and S.Y. Young|Effect of Insecticides, Fungicides, and Insecticide-Fungicide Combinations on Development of Lepidopterous Larval Populations in Soybean|Environ. Entomol.7:823-828|1978|10.1093/ee/7.6.823
189691|T||Shanfield,B., and E. Kafer|Chemical Induction of Mitotic Recombination in Aspergillus nidulans|Genetics67(2): 209-219|1971|10.1093/genetics/67.2.209
189692|A||Veldhoen,N., R.C. Skirrow, L.L.Y. Brown, G. Van Aggelen, and C.C. Helbing|Effects of Acute Exposure to the Non-Steroidal Anti-Inflammatory Drug Ibuprofen on the Developing North American Bullfrog (Rana catesbeiana) Tadpole|Environ. Sci. Technol.48(17): 10439-10447|2014|10.1021/es502539g
189693|A||Ojha,N.K., and M.K. Pandey|Effects of Copper Nitrate on MCV, RBC and Hb of the Channa marulius (Ham.)|Asian J. Environ. Sci.2(1/2): 47-49|2007|
189694|A||Valenzuela-Miranda,D., G. Nunez-Acuna, V. Valenzuela-Munoz, S. Asgari, and C. Gallardo-Escarate|MicroRNA Biogenesis Pathway from the Salmon Louse (Caligus rogercresseyi): Emerging Role in Delousing Drug Response|Gene555(2): 231-241|2015|10.1016/j.gene.2014.11.008
189695|A||Khare,S., and S. Singh|Histochemical Alterations in the Gills of the Fish Nandus nandus Due to Pesticidal Exposure|Nat. Environ. Pollut. Technol.3(4): 535-538|2004|
189696|A||Shrivastava,S., and S. Singh|Toxic Effects of Carbaryl on Glucose Level in the Muscles of Heteropneustes fossilis|Nat. Environ. Pollut. Technol.2(2): 133-135|2003|
189697|A||Pandelides,Z., E.J. Ussery, M.D. Overturf, J. Guchardi, and D.A. Holdway|Inhibition of Swim Bladder Inflation in Japanese Medaka (Oryzias latipes) Embryos Following Exposure to Select Pharmaceuticals Alone and in Combination|Aquat. Toxicol.234:22 p.|2021|10.1016/j.aquatox.2021.105796
189698|A||Fischer,A.J., L. Kerr, T. Sultana, and C.D. Metcalfe|Effects of Opioids on Reproduction in Japanese Medaka, Oryzias latipes|Aquat. Toxicol.236:14 p.|2021|10.1016/j.aquatox.2021.105873
189699|A||Marqueno,A., E. Perez-Albaladejo, N.D. Denslow, J.A. Bowden, and C. Porte|Untargeted Lipidomics Reveals the Toxicity of Bisphenol A Bis(3-Chloro-2-Hydroxypropyl) Ether and Bisphenols A and F in Zebrafish Liver Cells|Ecotoxicol. Environ. Saf.219:69 p.|2021|10.1016/j.ecoenv.2021.112311
189700|A||Myosho,T., M. Hattori, J. Yamamoto, M. Toda, T. Okamura, Y. Onishi, Y. Takehana, and T. Kobayashi|Effects of Synthetic Sex Steroid Hormone Exposures on Gonadal Sex Differentiation and Dynamics of a Male-Related Gene, Gonadal Soma-Derived Factor (GSDF) and an Estrogen up-Regulated Gene, Choriogenine-H (ChgH) Gene Exp|Chemosphere274:15 p.|2021|10.1016/j.chemosphere.2021.129893
189701|A||Bittner,L., N. Kluever, L. Henneberger, M. Muehlenbrink, C. Zarfl, and B.I. Escher|Combined Ion-Trapping and Mass Balance Models to Describe the pH-Dependent Uptake and Toxicity of Acidic and Basic Pharmaceuticals in Zebrafish Embryos (Danio rerio)|Environ. Sci. Technol.53(13): 7877-7886|2019|10.1021/acs.est.9b02563
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189703|A||Pes,K., J.B. Ortiz-Delgado, C. Sarasquete, V. Laize, and I. Fernandez|Short-Term Exposure to Pharmaceuticals Negatively Impacts Marine Flatfish Species: Histological, Biochemical and Molecular Clues for an Integrated Ecosystem Risk Assessment|Environ. Toxicol. Pharmacol.90:12 p|2022|10.1016/j.etap.2022.103822
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189705|A||Andersson,T., and L. Forlin|Spectral Properties of Substrate-Cytochrome P-450 Interaction and Catalytic Activity of Xenobiotic Metabolizing Enzymes in Isolated Rainbow Trout Liver Cells|Biochem. Pharmacol.34(9): 1407-1413|1985|10.1016/0006-2952(85)90677-X
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189707|A||Li,X., Q. Duan, Y. Yu, K. Wang, H. Zhu, X. Zhang, C. Liu, P. Jia, Z. Li, W. Sheng, and B. Zhu|A Coumarin-Based Fluorescent Probe for Hg2+ and Its Application in Living Cells and Zebrafish|Luminescence35(6): 941-946|2020|10.1002/bio.3808
189708|AT||Ross,E.|The Effects of Sodium Cyanide and Methylene Blue on Oxygen Consumption by Nitella clavata|Ph.D. Thesis, University of California, Berkeley, CA:53 p.|1937|
189709|T||Dharam Vir, S. Gangopadhyay, and A. Gaur|Evaluation of Some Systemic Fungicides & Antibiotics Against Macrophomina phaseoli|Pesticides 6(11): 25-|1972|
189710|T||Westerman,R.B., D.S. Murray, and E.P. Castner|Hogpotato (Hoffmannseggia glauca) Control with Herbicides and Rotational Crop Response|Weed Technol.7(3): 650-656|1993|10.1017/S0890037X00037490
189711|T||Siddartha,D., and R. Revannavar|Median Lethal Time and Concentrations of Selected Insecticides Against Third Instar Larvae of Plutella xylostella (Lepidoptera: Plutellidae)|Trends Biosci.7(14): 1693-1699|2014|
189712|T||Patil,P.P., P.B. Mohite, and A.J. Chormule|Bioefficacy of Some Newer Insecticides Against Leaf Eating Caterpiller (Spodoptera litura Fab.) Infesting Soybean|Pestic. Res. J.27(2): 271-276|2015|
189713|T||Shivanna,B.K., M. Latha, S. Jeevitha, K.S. Chethan, and K. Priyanka|Management of Budworm, Helicoverpa armigera (Hubner) with New Molecules and Its Effect on Yield in FCV Tobacco|Environ. Ecol.32(1): 129-133|2014|
189714|T||Shirale,D., M. Patil, U. Zehr, and S. Parimi|Newer Insecticides for the Management of Brinjal Fruit and Shoot Borer, Leucinodes Orbonalis|Indian J. Plant Prot.40(4): 273-275|2012|
189715|T||Sharma,N., and K.S. Verma|Laboratory Evaluation of Some Novel Insecticides Against Agrotis segetum (Denis & Schiffermuller) Fed on Potato Leaves|Potato J.40(2): 109-113|2013|
189717|T||Rowe,F.P., and R. Redfern|Laboratory Studies on the Toxicity of Anti-Coagulant Rodenticides to Wild House Mice, Mus musculus L.|Ann. Appl. Biol.61:322-326|1968|
189718|T||Gora,D.R., N.L. Meena, and P.L. Shivran|Effect of Weed Control and Time of Nitrogen Application on Cumin (Cuminum cyminum)|Indian J. Agron.41(3): 500-501|1996|
189719|T||Matic,S., S. Stanic, S. Solujic, M. Mladenovic, and V. Mihailovic|In Vivo Antigenotoxic Potential and Possible Mechanism of Action of Selected 4-Hydroxy-2H-Chromen-2-One Derivatives|J. Biochem. Mol. Toxicol.26(8): 322-330|2012|10.1002/jbt.21426
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189723|A||Tencalla,F.|Toxicity of Cyanobacterial Peptide Toxins to Fish|Ph.D. Thesis, Swiss Federal Institute of Technology, Zurich:124 p.|1995|
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189726|T||Reissig,H., D.H. Dunham, and C. Smith|Apple Handgun Trials of New Insecticides Against OBLR, 1996|Arthropod Manag. Tests22:25-26|1997|
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189731|T||Phipps,P.M.|Evaluation of Biological Agents for Control of Sclerotinia Blight of Peanut, 1991|Biol. Cult. Tests. Control Plant Dis.7:60-|1992|
189732|T||Phipps,P.M.|Dosage-Response Effects of a Biological Agent (Asc-66920) on Sclerotinia Blight of Peanut in Virginia 1991|Biol. Cult. Tests. Control Plant Dis.7:59-|1992|
189733|A||Otero-Sabio,C., M. Giacomello, C. Centelleghe, F. Caicci, M. Bonato, A. Venerando, J.M. Graic, S. Mazzariol, L. Finos, |Cell Cycle Alterations Due to Perfluoroalkyl Substances PFOS, PFOA, PFBS, PFBA and the New PFAS C6O4 on Bottlenose Dolphin (Tursiops truncatus) Skin Cell|Ecotoxicol. Environ. Saf.244:10 p.|2022|10.1016/j.ecoenv.2022.113980
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189735|T||Guo,Y.J., J.H. Yuan, H. Ni, J. Ji, S.P. Zhong, Y.X. Zheng, and Q.X. Jiang|Perfluorooctanoic Acid-Induced Developmental Cardiotoxicity in Chicken Embryo: Roles of MiR-490-5p|Environ. Pollut.312:13 p.|2022|10.1016/j.envpol.2022.120022
189736|T||Baicu,T., and M. Oprea|Influence of Some Fungicides on the Foliage Microflora in Apricot - and Apple - Trees|In: European Foundation for Plant Pathology, Environmental Biotic Factors in Integrated Plant Disease Control:175-179|1995|
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189739|T||Restelatto,S.S., P.E. Wille, N. Buss, C.L. Wille, M.I.C. Boff, R.E. Contini, and C.R. Franco|Intraspecific Variation in the Chrysodeixis includens (Walker) (Lepidoptera: Noctuidae) Susceptibility to Insecticides|Pesqui. Agropecu. Trop. (Multiple Languages)51:8p.|2021|10.1590/1983-40632021v5167353
189740|T||Preetha,G.|Toxicity of Different Insecticides Against Rice Stem Borer|Pestic. Res. J.32(2): 311-315|2020|10.5958/2249-524X.2020.00025.4
189741|T||Rimpy, and K.S. Verma|Toxicity of Some Insecticides Against Agrotis spp. Infesting Cabbage|Indian J. Entomol.82(1): 139-142|2020|10.5958/0974-8172.2020.00031.0
189743|T||Rowan,S.J.|Triadimefon Controls Fusiform Rust in Young Slash Pine Plantations|South. J. Appl. For.10(2): 112-114|1986|10.1093/sjaf/10.2.112
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189745|T||Sastry,P.P., A.C. Jain, and S.C. Vyas|Screening of Systemic Fungicides for Field Control of Leaf Rust (Puccinia arachidis) of Peanut (Arachis hypogaea)|Indian J. Mycol. Plant Pathol.13(2): 159-163|1983|
189746|T||Rouchaud,J., C. Moons, and J. Meyer|Fate of 14C Triadimefon in Barley|Int. Symp. Crop Prot. Commun.46(1): 131-336|1981|
189747|A||Mekhed,O.B., B.V. Yakovenko, and Y.V. Iskevych|Seasonal Dynamics of Herbicides' Toxic Impact on Activity of Enzymes of Terminal Gluconeogenesis Reactions and Glucose Content in Carp Tissues|Hydrobiol. J.55(3): 67-73|2019|10.1615/HydrobJ.v55.i3.80
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189749|A||Boge,G., and H. Roche|Cytotoxicity of Phenolic Compounds on Dicentrarchus labrax Erythrocytes|Bull. Environ. Contam. Toxicol.57(2): 171-178|1996|10.1007/s001289900171
189750|A||Vardia,H.K., and V.S. Durve|Effects of Aquatic Weed Controlling Agent,2,4-D on Rasbora daniconius Neilgherriensis (Ham.)|Proceedings of the National Symposium on Advances in Limnology and Conservation of Endangered Fish Species:317-321|1993|
189751|T||Shaw,S.|Further Evaluation of Triadimenol Seed Treatments for the Control of Ergot in Cereal Seed|BCPC Monogr. - Br. Crop Prot. Counc.:105-112|1988|
189753|T||Thielert,W., K.H. Kuck, H. Scheinpflug, W. Steffens, and F. Fuhr|A Technique to Study Uptake of Triadimenol Through Wheat Caryopses|BCPC Monogr. - Br. Crop Prot. Counc.:75-81|1988|
189754|T||Verma,P.R.|Effect of Triadimenol, Imazalil, and Nuarimol Seed Treatment on Common Root Rot and Grain Yields in Spring Wheat|Can. J. Plant Pathol.5(3): 174-176|1983|10.1080/07060668309501621
189755|T||Zhang,Y., M. Bodmer, and J. Ruegg|Variation in Sensitivity to Sterol Biosynthesis Inhibitors (SBI) of Different Isolates of Monilinia Species|J. Plant Dis. Prot.98(3): 317-322|1991|
189756|T||Bala,M., K.P. Singh, S.K. Singh, and K.V. Prasad|Standardization of an Efficient Protocol for In Vitro Mass Multiplication of Hybrid Tea Rose Cv. Raktima|Indian J. Hortic.70(3): 404-410|2013|
189757|T||Szmagara,M.|Possibilities of Growth and Development Suppression of Topospora myrtilli (Feltg.) Boerema on Artificial Media and Stems of Highbush Blueberry (Vaccinium corymbosum L.)|Acta Sci. Pol. Hortorum Cultus7(3): 103-111|2008|
189758|T||Kumari,S., K.P. Singh, T. Janakiram, and D.V.S. Raju|Standardization of In Vitro Mass Multiplication Protocol for Hybrid Tea Rose Cv. Grand Gala|Indian J. Hortic.70(4): 560-565|2013|
189759|T||Shinde,P., and R. Hunje|Effect of Seed Priming on Growth and Seed Yield in Kabuli Chickpea (Cicer arietinum L.) Varieties|Legume Res.43(1): 68-74|2020|10.18805/lr-4116
189760|T||Morris,D.B., P.A. Birch, and T.J. Martin|The Development of the Systemic Fungicide, Triadimefon, for the Control of Foliar Diseases in Spring and Winter Barley in the U.K|BCPC Monogr. - Br. Crop Prot. Counc.1:9-16|1977|
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189762|T||Verma,A.K., K.V. Prasad, S.K. Singh, and S. Kumar|In Vitro Isolation of Red Coloured Mutant from Chimeric Ray Florets of Chrysanthemum Induced by Gamma-Ray|Indian J. Hortic.69(4): 562-567|2012|
189763|T||Clements,J., and N. Todd|Halothane and Nondisjunction in Drosophila|Mutat. Res.91:225-228|1981|
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189765|T||Kassil,V.G., I.P. Butkevich, and V.A. Mikhailenko|Interaction of Tonic and Phasic Pain in Rabbit Ontogenesis|J. Evol. Biochem. Physiol.37(6): 634-641|2001|10.1023/A:1014474412031
189766|T||Sandeep Kumar,J., J. Jayaraj, M. Shanthi, M. Theradimani, V. Balasubramani, S. Irulandi, and S. Prabhu|Toxicity of Insecticides to Tomato Pinworm, Tuta absoluta (Meyrick) Populations from Tamil Nadu|Indian J. Agric. Res.54(5): 585-591|2020|10.18805/IJARe.A-5443
189767|T||Zuo,Y.Y., H.H. Ma, W.J. Lu, X.L. Wang, S.W. Wu, R. Nauen, Y.D. Wu, and Y.H. Yang|Identification of the Ryanodine Receptor Mutation I4743M and Its Contribution to Diamide Insecticide Resistance in Spodoptera exigua (Lepidoptera: Noctuidae)|Insect Sci.27(4): 791-800|2020|10.1111/1744-7917.12695
189768|T||Tandon,V., and A. Srivastava|Efficacy of Some Insecticides and Biopesticides for the Management of White Stem Borer, Scirpophaga fusciflua Hampson in Paddy|Agric. Sci. Dig.38(1): 55-57|2018|10.18805/ag.D-4693
189770|T||Javed,Z.U.R.|Field Efficacy of Bayleton 25 Percent WP Against Coffee Leaf Rust in Kenya|Garcia de Orta, Ser. Estud. Agron9(1/2): 111-117|1982|
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189772|A||Li,X.F., P.F. Wang, C.L. Feng, D.Q. Liu, J.K. Chen, and F.C. Wu|Acute Toxicity and Hazardous Concentrations of Zinc to Native Freshwater Organisms Under Different pH Values in China|Bull. Environ. Contam. Toxicol.103(1): 120-126|2019|10.1007/s00128-018-2441-2
189773|A||Granadeiro,L., R.P. Dirks, J.B. Ortiz-Delgado, P.J. Gavaia, C. Sarasquete, V. Laize, M.L. Cancela, and I. Fernandez|Warfarin-Exposed Zebrafish Embryos Resembles Human Warfarin Embryopathy in a Dose and Developmental-Time Dependent Manner - from Molecular Mechanisms to Environmental Concerns|Ecotoxicol. Environ. Saf.181:559-571|2019|10.1016/j.ecoenv.2019.06.042
189774|T||Al-Rajhi,D.H.|Estimating Esterase and Monooxygenase Detoxication by Bioassay, Electrophoresis and Metabolic Studies in Pea Aphid, Acrythosiphon pisum (Harris) Populations (Homoptera: Aphididae)|Ph.D.Thesis, Utah State University, Logan, UT:91 p.|1982|
189775|T||Tang,Z.H., R.J. Wood, and S.L. Cammack|Acetylcholinesterase Activity in Organophosphorus and Carbamate Resistant and Susceptible Strains of the Culex pipiens Complex|Pestic. Biochem. Physiol.37(2): 192-199|1990|10.1016/0048-3575(90)90125-L
189777|A||Hiki,K., and H. Yamamoto|The Tire-Derived Chemical 6PPD-quinone Is Lethally Toxic to the White-Spotted Char Salvelinus leucomaenis pluvius but not to Two Other Salmonid Species|Environ. Sci. Technol. Lett.:6 p.|2022|
189778|T||Qin,C., C.H. Wang, Y.Y. Wang, S.Q. Sun, H.H. Wang, and C.B. Xue|Resistance to Diamide Insecticides in Plutella xylostella (Lepidoptera: Plutellidae): Comparison Between Lab-Selected Strains and Field-Collected Populations|J. Econ. Entomol.111(2): 853-859|2018|10.1093/jee/toy043
189779|A||Sassi-Messai,S., Y. Gilbert, L. Bernard, S. Nishio, K.F. Ferri Lagneau, J. Molina, M. Andersson-Lendahl, G. Benoit, P. |The Phytoestrogen Genistein Affects Zebrafish Development Through Two Different Pathways|PLoS One4(3): 13 p.|2009|10.1371/journal.pone.0004935
189780|T||Feng,Z.Y., McLamb.F., J.P. Vu, S. Gong, R.M. Gersberg, and G. Bozinovic|Physiological and Transcriptomic Effects of Hexafluoropropylene Oxide Dimer Acid in Caenorhabditis elegans During Development|Ecotoxicol. Environ. Saf.244:12 p.|2022|10.1016/j.ecoenv.2022.114047
189781|T||Tessier,M.|Toxicity of Carbaryl and Dimethoate to the Pea Aphid, Acyrthosiphon pisum (Homoptera: Aphididae), and Its Associated Parasite, Aphidius smithi (Hymenoptera: Aphididae)|M.S.Thesis, Simon Fraser University, Canada:70 p.|1985|
189782|A||Pritchard,J.B., C.U. Cotton, M.O. James, D. Giguere, and F.J. Koschier|Role of Metabolism and Transport in the Excretion of Phenylacetic Acid and 2,4-Dichlorophenoxyacetic Acid by Marine Fish|Bull. Mt. Desert Isl. Biol. Lab.18:58-60|1979|
189783|T||Boyle,F., J. Gilmour, J.H. Lennard, B.C. Clifford, and E.R.L. Jones|Sensitivity of Cereal Brown Rust Fungi to Triadimefon and Propiconazole|Br. Crop Prot. Conf. Pests Dis.:379-384|1988|
189784|T||Nitin,K.S., O.S. Naik, V. Sridhar, P.S. Bhat, and A.K. Chakravarthy|Development and Validation of Integrated Pest Management Modules Against South American Tomato Moth, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) in India: Blending Non-Insecticidal, Nature Friendly Tools|Pest Manag. Hortic. Ecosyst.24(2): 115-120|2018|
189785|A||Wang,N., C.D. Ivey, E.L. Brunson, D. Cleveland, C.G. Ingersoll, W.A. Stubblefield, and A.S. Cardwell|Acute and Chronic Toxicity of Aluminum to a Unionid Mussel (Lampsilis siliquoidea) and an Amphipod (Hyalella azteca) in Water-Only Exposures|Environ. Toxicol. Chem.37(1): 61-69|2018|10.1002/etc.3850
189786|T||Rajawat,I.S., M.A. Alam, A. Kumar, R.K. Tiwari, and S.K. Jaiswal|Efficacy of New Molecules of Insecticides Against White Fly Bemisia tabaci (Gennadius) and Aphid Aphis craccivora (Koch) in Urdbean (Vigna mungo L.)|Indian J. Agric. Res.51(5): 502-505|2017|10.18805/IJARe.A-4825
189787|T||Saengtienchai,A., Y. Ikenaka, N. Bortey-Sam, U. Jermnark, H. Mizukawa, Y.K. Kawai, S.M.M. Nakayama, and M. Ishizuka|The African Hedgehog (Atelerix albiventris): Low Phase I and Phase II Metabolism Activities|Comp. Biochem. Physiol. C Toxicol. Pharmacol.190:38-47|2016|10.1016/j.cbpc.2016.08.005
189788|T||Prasanthi,S.J., M.K. Chakravarty, and R. Kumar|Field Efficacy of Newer Insecticides Against Helicoverpa armigera Hubner in Chick Pea (Cicer arietinum L.)|Ann. Plant Prot. Sci.25(1): 49-52|2017|
189789|T||Watanabe,K.P., M. Kawata, Y. Ikenaka, S.M.M. Nakayama, C. Ishii, W.S. Darwish, A. Saengtienchai, H. Mizukawa, and M. Is|Cytochrome P450-Mediated Warfarin Metabolic Ability is not a Critical Determinant of Warfarin Sensitivity in Avian Species:  In Vitro Assays in Several Birds and In Vivo Assays in Chicken|Environ. Toxicol. Chem.34(10): 2328-2334|2015|10.1002/etc.3062
189790|T||Pathipati,V.L., T.V.K. Singh, S.B. Vemuri, R.V.S.K. Reddy, and N.B. Bharathi|Survey on Insect Pest Complex and Bioefficacy of Certain Insecticide Molecules Against Aphids, Myzus persicae (Sulz.) on Capsicum Under Poly House Conditions|Pest Manag. Hortic. Ecosyst.23(1): 17-26|2017|
189791|A||Fernandez,I., A. Santos, M.L. Cancela, V. Laize, and P.J. Gavaia|Warfarin, a Potential Pollutant in Aquatic Environment Acting Through Pxr Signaling Pathway and gamma-Glutamyl Carboxylation of Vitamin K-Dependent Proteins|Environ. Pollut.194:86-95|2014|10.1016/j.envpol.2014.07.015
189792|T||Natikar,P.K., R.A. Balikai, S. Jahagirdar, and J.A. Hosmath|Bio-Efficacy of Newer Insecticide Molecules Against Spodoptera litura (Fab.) Infesting Soybean|Int. J. Agric. Stat. Sci.12(1): 117-121|2016|
189793|T||Poche,R.M., and J.J. Mach|Wildlife Primary and Secondary Toxicity Studies with Warfarin|ACS Symp. Ser.771:181-196|2001|10.1021/bk-2001-0771.ch014
189794|T||Natikar,P.K., and R.A. Balikai|Relative Toxicity of Newer Insecticide Molecules Against Tobacco Caterpillar, Spodoptera litura (Fabricius)|Int. J. Agric. Stat. Sci.11:171-173|2015|
189795|T||Pushpalatha,D., R.A. Balikai, and D.N. Kambrekar|Ovicidal and Oviposition Deterrence of New Insecticides Against Guava Spiraling Whitefly, Aleurodicus dispersus Russell Under Laboratory Condition|Int. J. Agric. Stat. Sci.11(Supp 1): 227-231|2015|
189796|A||Andrews,M.I., and S. George|Toxic Effects of Pesticides on Tadpoles of Frog Rana hexadactyla|J. Ecotoxicol. Environ. Monit.1(2): 142-147|1991|
189797|T||Pushpalatha,D., and R.A. Balikai|Bio-Efficacy of New Insecticides Against Nymphs of Guava Spiraling Whitefly, Aleurodicus dispersus Russell Under Cage House|Int. J. Agric. Stat. Sci.11:25-28|2015|
189798|T||Singh,S.L., and P.S. Bedi|Determination of Effective Dose of Baytan as Compared with Dithane Z-78 for Control of Leaf Rust of Wheat, 1982|Fungic. Nematic. Tests38:64-65|1983|
189799|T||Li,J., X. Tian, Y. Gao, S. Shang, J. Feng, and X. Zhang|A Value-Added Use of Volatile Turpentine: Antifungal Activity and QSAR Study of beta-Pinene Derivatives Against Three Agricultural Fungi|RSC Adv.5(82): 66947-66955|2015|10.1039/C5RA10660E
189800|A||Mulla,M.S., and H.A. Darwazeh|Influence of Aliphatic Amines-Petroleum Oil Formulations on Aquatic NonTarget Insects|Proc. Pap. Annu. Conf. Calif. Mosq. Contr. Assoc.39:126-131|1971|
189801|T||Sarkar,S., P. Rajak, and S. Roy|Toxicological Evaluation of a New Lepidopteran Insecticide, Flubendiamide, in Non-Target Drosophila melanogaster Meigen (Diptera: Drosophilidae)|Iran. J. Toxicol.12(3): 45-50|2018|10.32598/IJT.12.3.477.1
189802|T||Pandey,S., B.K. Singh, R.K. Mishra, and M.K. Pathak|Efficacy of New Insecticides for the Management of Cowpea Pod Borer (Maruca vitrata Fab.)|J. Food Leg.29(2): 153-155|2016|
189803|T||Nikoshe,A.P., M.B. Zala, and T.M. Bharpoda|Schedule and Threshold Based Evaluation of Insecticides Applied on Concentration and Active Ingredient Against Helicoverpa armigera (Hubner) Hardwick in Chickpea|Trends Biosci.8(4): 1053-1060|2015|
189804|T||Sambathkumar,S., C. Durairaj, N. Ganapathy, and S. Mohankumar|Field Efficacy of Newer Insecticides Against Legume Pod Borer, Maruca vitrata in Greengram|Indian J. Plant Prot.42(1): 1-5|2014|
189805|T||Raut,A.S., U.P. Barkhade, S.K. Bhalkare, and U.H. Borkar|Efficacy of Newer Insecticides Against Major Pests of Soybean|Trends Biosci.7(20): 3133-3138|2014|
189806|T||Patel,P., D.M. Damsia, H.P. Patel, and C.M. Bhaliya|Effect of Various Insecticides Against Spodoptera litura (Fabricius) in Groundnut|Pestology38(4): 69-71|2014|
189807|T||Priyadarshini,G., C.N. Reddy, and D.J. Reddy|Bioefficacy of Selective Insecticides Against Lepidopteran Pod Borers in Pigeonpea|Indian J. Plant Prot.41(1): 6-10|2013|
189808|T||Prasannakumar,N.R., P.N.K. Moorthy, and S. Saroja|Efficacy of Botanicals Against Major Insect Pests of Cabbage (Brassica oleracea var capitata)|Pest Manag. Hortic. Ecosyst.19(1): 27-32|2013|
189809|T||Sidde Gowda,D.K., M.K. Prasanna Kumar, S.B. Yogananda, G.M. Dharshini, and K.T. Pandurangegowda|Pre Mixture Insecticides - a Novel Approach to Manage Rice Insect Pests with Different Mode of Feeding|Pestology36(2): 31-34|2012|
189810|T||Hardke,J.T., J.H. Temple, B.R. Leonard, and R.E. Jackson|Laboratory Toxicity and Field Efficacy of Selected Insecticides Against Fall Armyword (Lepidoptera: Noctuidae)|Fla. Entomol.94(2): 272-278|2011|10.1653/024.094.0221
189811|T||Chakraborti,S., and P.K. Sarkar|Management of Leucinodes orbonalis Guenee on Eggplants During the Rainy Season in India|J. Plant Prot. Res.51(4): 325-328|2011|10.2478/v10045-011-0053-5
189812|T||Gurjar,P.A., G.G. Radadia, and H.V. Pandya|Bioefficacy of Newer Insecticides Against Pest Complex of Cowpea|Insect Environ.13(2): 74-75|2007|
189813|T||Akhtar,J., H.C. Lal, Y. Kumar, P.K. Singh, J. Ghosh, Z. Khan, and N.K. Gautam|Multiple Disease Resistance in Greengram and Blackgram Germplasm and Management Through Chemicals Under Rain-Fed Conditions|Legume Res.37(1): 101-109|2014|10.5958/j.0976-0571.37.1.016
189814|T||Wu,W., J. Huang, K. Cui, L. Nie, Q. Wang, F. Yang, F. Shah, F. Yao, and S. Peng|Sheath Blight Reduces Stem Breaking Resistance and Increases Lodging Susceptibility of Rice Plants|Field Crops Res.128:101-108|2012|10.1016/j.fcr.2012.01.002
189815|T||Xu,L.Z., F.F. Jiang, H.R. Gao, and C.Y. Zhu|Synthesis, Structure and Biological Activities of S- Alpha-(4-Methoxyphenylcarbonyl)-2-(1,2,4-Triazole-1-Yl Ethyl-N, N-Dime-Thyldithiocarbamate|Chin. J. Chem.21(12): 1615-1618|2003|10.1002/cjoc.20030211218
189816|T||Takahashi,S., M. Nakajima, T. Kimoshita, H. Haruyama, S. Sugai, T. Honma, S. Sato, and T. Haneishi|Hydantocidin and Cornexistin New Herbicidal Antibiotics|ACS Symp. Ser.551:74-84|1994|10.1021/bk-1994-0551.ch006
189817|A||Michel,W.C., K. Sanfilippo, and J.F. Case|Drilling Mud-Evoked Hydranth Shedding in the Hydroid Tubularia crocea|Mar. Pollut. Bull.9:415-419|1986|10.1016/0025-326X(86)90320-6
189818|A||Williamson,K.B.|The Use of Gases and Vapours for Killing Mosquitoes Breeding in Wells|Trans. R. Soc. Trop. Med. Hyg.17(8): 485-519|1924|10.1016/S0035-9203(23)91201-0
189819|A||Heinecke,R.D., and K. Buchmann|Control of Ichthyophthirius multifilis Using a Combination of Water Filtration and Sodium Percarbonate: Dose-Response Studies|Aquaculture288:32-35|2009|10.1016/j.aquaculture.2008.11.017
189820|A||3M Environmental Laboratory|[Redacted] Data Summary Report on the Tests for Acute & Chronic Toxicity of Fluorochemicals to Daphnia magna (Water Flea) |Technical Report, Lab Request No. 81098:80 p.|1984|
189821|A||Dow Chemical Co.|"[Redacted] Reanalysis of Algal Growth Inhibition Data from 1,2-Dichloropropane Report ""1,2-Dichloropropane: The Toxicity to Skeletonema costatum"" "|Technical Report, ES-2014:145 p.|2010|
189822|T||Moreau,J.M., and H. Maraite|Evidence for a Heterothallic Mating System in Tapesia acuformis Using Benomyl Sensitivity and Esterase Isoenzyme Profiles|Mycol. Res.100(10): 1227-1236|1996|10.1016/s0953-7562(96)80185-7
189823|T||Aggarwal,A., and R.S. Mehrotra|Control of Phytophthora Leaf Blight of Taro (Colocasia esculenta) by Fungicides and Roguing|Phytoparasitica15(4): 299-305|1987|10.1007/BF02979545
189824|T||Pyck,N., P. Sedeyn, M. Demeulemeester, and H. Grogan|Evaluation of Metrafenone Against Verticillium and Cladobotrym spp. - Causal Agents of Dry Bubble and Cobweb Disease|In: J.J.P.Baars and A.S.M.Sonnenberg (Eds.), Science and Cultivation of Edible and Medicinal Fungi, Mushroom Science XIX:82-85|2016|
189825|T||Bahadur,P., and V.C. Sinha|An Analysis of Economics of the Control of Wheat Rusts with Dithane Z 78 in Madhya Pradesh|Pesticides 11(9): 35-37|1977|
189826|T||Gea,F.J., J. Carrasco, and M.J. Navarro|Effectiveness of Chlorothalonil, Metrafenone and Prochloraz-Mn on Dry Bubble Disease (Lecanicillium fungicola)|In: J.J.P.Baars and A.S.M.Sonnenberg (Eds.), Science and Cultivation of Edible and Medicinal Fungi, Mushroom Science XIX:1p.|2016|
189827|T||Wang,B.L., L.Y. Zhang, Y.Z. Zhan, Y. Zhang, X. Zhang, L.Z. Wang, and Z.M. Li|Synthesis and Biological Activities of Novel 1,2,4-Triazole Thiones and Bis(1,2,4-Triazole Thiones) Containing Phenylpyrazole and Piperazine Moieties|J. Fluorine Chem.184:36-44|2016|10.1016/j.jfluchem.2016.02.004
189828|T||Clifford,D.P., and J.P. Bruyns-Haylett|The Control of Plasmopara viticola with 1-1 Complex of Zineb with 2-(2-Aminoethylamino)Ethanol and Potential Effect of Use of This Complex on Ethylenethiourea Residues|Pestic. Sci.9(5): 493-495|1978|10.1002/ps.2780090517
189829|T||Kingsland,G.C., and W.R. Sitterly|Studies on Fungicides for Control of Corynespora cassiicola Leafspot of Tomatoes in the Republic of Seychelles|Trop. Pest Manag.32(1): 31-34|1986|10.1080/09670878609371023
189830|T||Murthy,P.K., and D. Rao|Effect of Dithane M-22 on the Physiological Variabilities in Brassica oleracea var. Botrytis L|Comp. Physiol. Ecol.6(4): 312-314|1981|
189831|T||Raut,J.G., and B.B. Bhombe|Efficacy of Some Fungicides and Hot Water in the Control of Seed-Borne Infection of Macrophomina phaseolina in Sunflower|Indian Phytopathol.36(2): 294-296|1983|
189832|A||Vaishampayan,A., and A.B. Prasad|A Pesticide-Resistant Mutant of the N2 -Fixing Blue-Green Alga Nostoc muscorum|Experientia37(12): 1285-1287|1981|10.1007/BF01948363
189833|T||Stammler,G., M. Semar, and D. Strobel|Resistance Management of Metrafenone in Powdery Mildew|In: H.Lyr, P.E.Russell, H.W.Dehne and H.D.Sisler (Eds.), Modern Fungicides and Antifungal Compounds II, Friedrichroda, Germany:179-184|2014|
189834|T||Singh,K.P., P. Kumari, and S. Bhadauria|Alternaria Leaf Spot of Cucurbitaceous Hosts and Its Management|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.80:266-272|2010|
189835|T||Xu,L.Z., F.F. Jian, J.G. Shi, and L. Li|Synthesis, Structure and Biological Activities of Novel Triazole Compounds Containing 4,6-Dimethyl-Pyrimidin-2-Ylthio Group|Chin. J. Chem.22(11): 1308-1312|2004|10.1002/cjoc.20040221119
189836|A||Silva,L.M.R.D., J.D.S.S. Lima, F.E.A. Magalhaes, A.R. Campos, J.I.F. Araujo, F.L.A. Batista, S.M.B. Araujo, P.H.M. Sous|Graviola Fruit Bar Added Acerola by-Product Extract Protects Against Inflammation and Nociception in Adult Zebrafish (Danio rerio)|J. Med. Food23(2): 173-180|2019|10.1089/jmf.2019.0078
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189838|T||Gotyal,B.S., K. Selvaraj, S. Satpathy, and S. Mitra|Effect of Sowing Dates and Insecticides on Yellow Mite, Polyphagotarsonemus latus Infestation in Jute|J. Entomol. Res.42(1): 13-18|2018|10.5958/0974-4576.2018.00003.8
189839|A||Liu,Y.|Acute Toxicity of Typical Environmental Estrogens to the Embryogenesis of the Abalone Haliotis diversicolor supertexta|Ph.D Thesis, City University of Hong Kong:246 p.|2012|
189840|AT||Villatte,F., V. Marcel, S. Estrada-Mondac, and D. Fournier|Engineering Sensitive Acetylcholinesterase for Detection of Organophosphate and Carbamate Insecticides|Biosens. Bioelectron.13(2): 157-164|1998|10.1016/S0956-5663(97)00108-5
189841|T||Wang,D., C. Zong, and K. Cheng|Chicken Thalamic Injury Induced by Copper (II) or / and Arsenite Exposure Involves Oxidative Stress and Inflammation-Induced Apoptosis|Ecotoxicol. Environ. Saf.197:9 p.|2020|
189842|A||Allemand,D., G. De Renzis, P. Payan, and J.P. Girard|Regulatory and Energetic Role of Na+ in Amino Acid Uptake by Fertilized Sea Urchin Eggs|Dev. Biol.118(1): 19-27|1986|10.1016/0012-1606(86)90069-2
189843|A||Allnutt,F.C.T., and W.D.,Jr. Bonner|Characteristics of Iron Uptake from Hydroxamate Siderophores by Chlorella vulgaris and the Correlation Between Uptake and Reduction|J. Plant Nutr.7(1): 427-435|1984|10.1080/01904168409363209
189844|T||Wani,T.A., and Paul |Effect of Neem Products and Dithane Z-78 on Rhizosphere Mycoflora of Chilli (Capsicum annum) Variety G4|Environ. Ecol.22(1): 197-199|2004|
189845|T||Fung,K.H., R.K.J. Luke, and N.C. Uren|Concentrations of Methomyl in Australian Tobacco Plants Following Transplant, Foliar, and Soil Treatments|Tob. Int.180(6): 6 p.|1978|
189846|T||Zhang,C., S. Li, B. Li, and Q. Zhang|The Effects of Humic Substances on the Activity of Metalaxyl+Mancozeb, Fungicide|In: Prospects for Coal Science in the 21st Century:1089-1092|1999|
189847|T||Mills,A.R., and H.G. Mcdonald|Effect of Sowing Date and Seed Treatment on Winter Rye (Secale cereale) on Grain Yield and Quality|Asp. Appl. Biol.36:267-275|1993|
189848|T||Basandrai,A.K., D. Basandrai, and B.K. Sharma|Fungicidal Management of Web Blight of Urdbean Caused by Rhizoctonia solani|Legume Res.39(6): 1038-1042|2016|
189849|T||Hope,R.J., A. Colleate, E.S. Baxter, and N. Magan|Interactions Between Environmental Stress and Fungicides Affect Growth and Mycotoxin Production by Fusarium culmorum Isolates from Wheat Grain|Br. Crop Prot. Conf. Pests Dis.1-3:889-894|2000|
189850|T||Jordan,V.W.L.|Aetiology of Barley Net Blotch Caused by Pyrenophora teres and Some Effects on Yield|Plant Pathol.30(2): 77-87|1981|10.1111/j.1365-3059.1981.tb01232.x
189851|T||Kumar,S., R.B. Singh, and R.N. Singh|Fungicides and Genotypes for the Management of Foliar Diseases of Rapeseed-Mustard|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.79(Pt.II): 189-193|2009|
189852|T||Laatikainen,T., M.L. Juntunen, and H. Heinonen-Tanski|The Effect of Nursery Applied Fungicides on the Growth and Mycorrhiza Abundance of Scots Pine Seedlings|In: R.Perry and J.R.Sutherland (Ed.), Diseases and Insects in Forest Nurseries, INRA, Paris, France781:177-187|2000|
189853|T||Lazo,J.V., and J. Ascencio|Some Morphometric and Physiological Responses Induced by Fungicide Opera (Pyraclostrobin + Epoxiconazole) in Corn (Zea mays L.)|Rev. Fac. Agron. Univ. Zulia31(1): 39-59|2014|
189854|T||Singh,R.B., R.N. Singh, and H.K. Singh|Evaluation of Fungicides and Genotypes for the Management of Alternaria Blight (Alternaria Species) of Linseed (Linum usitatissimum L.)|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.79(Pt.IV): 410-414|2009|
189855|T||Singh,R.N., A.K. Singh, and S.P. Singh|Prevalence and Management of Spot Blotch (Cochliobolus sativus) of Barley (Hordeum vulgare L.) in Eastern India|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.79:65-69|2009|
189856|T||Singh,V., and R.N. Singh|Management of Spot Blotch of Wheat (Triticum aestivum L.) Caused by Cochliobolus sativus (Ito & Kurib) Drechs. Ex. Dastur|Proc. Natl. Acad. Sci. India Sect. B Biol. Sci.79(Pt.IV): 431-437|2009|
189857|T||Somasekhara,Y.M., and B.G. Manasa|Integrated Management of Carnation, (Dianthus caryophyllus L.) Wilt Caused by Fusarium oxysporum f. sp Dianthi|Res. Crops13(3): 1064-1069|2012|
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189860|AT||Mokrosnop,V.M., and E.K. Zolotareva|Influence of Fungicides on the Growth of the Microalgal Culture Euglena gracilis Klebs (Euglenophyta)|Int. J. Algae15(2): 180-187|2013|10.1615/InterJAlgae.v15.i2.60
189861|T||Narayanaprasad, Gangadharaiah, Anand, C.R. Ravishankar, and H.P. Revanna|Effect of Sheath Rot on Seed Germination, Shoot Length, Root Length and Vigor Index in Rice (Oryza sativa L.)|Environ. Ecol.26(2): 457-459|2008|
189862|T||De,B.K., and P.C. Sengupta|Effect of Fungicide Spray in Controlling Late Blight of Potato Caused by Phytophthora infestans in the Indo-Gangetic Plains of West Bengal|Environ. Ecol.6(2): 402-405|1988|
189863|T||Sengupta,P.C., and B.K. De|Effect of Fungicide Spray in Controlling Early Blight of Potato Caused by Alternaria solani in the Indo-Gangetic Plain of West Bengal|Environ. Ecol.5(1): 18-21|1987|
189864|T||Kelley,W.D.|Seed Treatment with Bayleton Reduces Fusiform Rust in Forest Nurseries|Highlights Agric. Res.32(1): 8-|1985|
189865|T||Brown,J.S.|Comparison of Bayleton and Tilt for Control of Stripe Rust, 1983|Fungic. Nematic. Tests40:125-126|1985|
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189920|A||Han,Y., Y.Y. Ma, S.C. Yao, J.P. Zhang, and C.Q. Hu|In Vivo and In Silico Evaluations of Survival and Cardiac Developmental Toxicity of Quinolone Antibiotics in Zebrafish Embryos (Danio rerio)|Environ. Pollut.277:16 p.|2021|10.1016/j.envpol.2021.116779
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189923|A||Mehra,S., and P. Chadha|Naphthalene-2-Sulfonate Induced Toxicity in Blood Cells of Freshwater Fish Channa punctatus Using Comet Assay, Micronucleus Assay and ATIR-FTIR Approach|Chemosphere265:11|2021|10.1016/j.chemosphere.2020.129147
189924|A||Kouba,A., I. Kuklina, H. Niksirat, J. Machova, and P. Kozak|Tolerance of Signal Crayfish (Pacifastacus leniusculus) to Persteril 36 Supports Use of Peracetic Acid in Astaciculture|Aquaculture350-353:71-74|2012|10.1016/j.aquaculture.2012.04.016
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189926|T||Yadav,S.K., and C. Srivastava|Effect of Temperature and Life Stage of Khapra Beetle, Trogoderma granarium Everts on the Toxicity of Phosphine|J. Entomol. Res.41(2): 145-148|2017|10.5958/0974-4576.2017.00022.6
189927|T||Kishore,V., N. Loach, A. Kumar, C.N. Srivastava, and L. Mohan|Toxicity Evaluation of Cypermethrin, Deltamethrin, and Diazinon with Reference to Hyalomma anatolicum (Acari: Ixodidae)|J. Entomol. Res.41(3): 251-256|2017|10.5958/0974-4576.2017.00039.1
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189938|T||Bodhankar,D.S.|Effects of Pesticides on Some Ecophsysiological Aspects of the Land Slug, Laevicaulis alte|Ph.D Thesis, Marathwada University, Aurangabad, India:241 p.|1984|
189939|T||Negi,K., and R.P. Srivastava|Efficacy of Some Combination Insecticides Against Epilachna Beetle, Henosepilachna vigintioctopunctata (Fabricius)|J. Entomol. Res.42(2): 201-210|2018|10.5958/0974-4576.2018.00034.8
189940|T||Negi,K., and R.P. Srivastava|Persistent Toxicity of Certain Newer Insecticides on Mulberry, Rajmah Bean and Mung Bean Plants against Spodoptera litura (Fabricius)|J. Entomol. Res.42(3): 361-368|2018|10.5958/0974-4576.2018.00060.9
189941|T||Rajasekhar,N., N.V.V.S.D. Prasad, D.V.S.R. Kumar, and M. Adinarayana|Incidence and Management of Cotton Thrips (Thrips tabaci) in High Density Planting System (HDPS) Under Rain Fed Conditions|J. Entomol. Res.42(3): 373-376|2018|10.5958/0974-4576.2018.00062.2
189942|A||Bhattacharya,R., A. Chatterjee, and N.C. Saha|Sodium Dodecyl Sulphate Induced Acute Toxicity and Ethological Responses to Oligochaete Worm Tubifex tubifex (Muller)|Res. Rev. Int. J. Multidisciplin.4(6): 160-164|2019|
189943|T||Tombuloglu,H., Y. Slimani, T.M. Alshammari, G. Tombuloglu, M.A. Almessiere, H. Sozeri, A. Baykal, and I. Ercan|Delivery, Fate and Physiological Effect of Engineered Cobalt Ferrite Nanoparticles in Barley (Hordeum vulgare L.)|Chemosphere265:129138-129138|2021|10.1016/j.chemosphere.2020.129138
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189945|A||Durier,G., J.B. Nadalini, R. Saint-Louis, B. Genard, L.A. Comeau, and R. Tremblay|Sensitivity to Oil Dispersants: Effects on the Valve Movements of the Blue Mussel Mytilus edulis and the Giant Scallop Placopecten magellanicus, in Sub-Arctic Conditions|Aquat. Toxicol.234:11 p.|2021|10.1016/j.aquatox.2021.105797
189946|AT||Yamamura,Y., K. Takeda, Y.K. Kawai, Y. Ikenaka, C. Kitayama, S. Kondo, C. Kezuka, M. Taniguchi, M. Ishizuka, and S.M.M.|Sensitivity of Turtles to Anticoagulant Rodenticides: Risk Assessment for Green Sea Turtles (Chelonia mydas) in the Ogasawara Islands and Comparison of Warfarin Sensitivity Among Turtle Species|Aquat. Toxicol.233:12 p.|2021|10.1016/j.aquatox.2021.105792
189947|A||Kokturk,M., F. Altindag, G. Ozhan, M.H. Calimli, and M.S. Nas|Textile Dyes Maxilon Blue 5G and Reactive Blue 203 Induce Acute Toxicity and DNA Damage During Embryonic Development of Danio rerio|Comp. Biochem. Physiol. C Toxicol. Pharmacol.242:10 p.|2021|10.1016/j.cbpc.2020.108947
189949|A||Lefebvre-Raine,M., N. Paquet, G. Triffault-Bouchet, and V.S. Langlois|Embryotoxicity of Five Cytostatics in Fathead Minnow (Pimephales promelas) Larvae|Bull. Environ. Contam. Toxicol.106(5): 747-752|2021|10.1007/s00128-021-03146-2
189951|A||Garcia,P.M.A., C. Garcia-Balboa, J. Romero-Lopez, V. Lopez-Rodas, E. Costas, and B. Baselga-Cervera|Fluctuation Analysis to Select for Samarium Bio-Uptaking Microalgae Clones the Repurposing of a Classical Evolution Experiment|Ecotoxicol. Environ. Saf.215:9 p.|2021|
189952|T||Jiang,T., M. Geisler, W. Zhang, and Y. Liang|Fluoroalkylether Compounds Affect Microbial Community Structures and Abundance of Nitrogen Cycle-Related Genes in Soil-Microbe-Plant Systems|Ecotoxicol. Environ. Saf.228:8 p.|2021|10.1016/j.ecoenv.2021.113033
189953|A||Liu,H.S., S.S. Zhang, M. Qiu, A.L. Wang, J.M. Ye, and S.L. Fu|Garlic (Allium sativum) and Fu-Ling (Poria cocos) Mitigate Lead Toxicity by Improving Antioxidant Defense Mechanisms and Chelating Ability in the Liver of Grass Carp (Ctenopharyngodon idella)|Ecotoxicology30(5): 885-898|2021|10.1007/s10646-021-02405-6
189954|T||Paris,L., E. Peghaire, A. Mone, M. Diogon, D. Debroas, F. Delbac, and H. El Alaoui|Honeybee Gut Microbiota Dysbiosis in Pesticide/Parasite Co-Exposures in Mainly Induced by Nosema ceranae|J. Invertebr. Pathol.172:107348-107348|2020|10.1016/j.jip.2020.107348
189955|T||Liu,Z.H., C. Guo, P.D. Tai, L.Z. Sun, and Z.B. Chen|The Exposure of Gadolinium at Environmental Relevant Levels Induced Genotoxic Effects in Arabidopsis thaliana (L.)|Ecotoxicol. Environ. Saf.215:14 p.|2021|10.1016/j.ecoenv.2021.112138
189956|T||Xiao,Z.X., M. Peng, Y.C. Mei, L. Tan, and Y.C. Liang|Effect of Organosilicone and Mineral Silicon Fertilizers on Chemical Forms of Cadmium and Lead in Soil and Their Accumulation in Rice|Environ. Pollut.283:1-12|2021|10.1016/j.envpol.2021.117107
189957|A||Zhang,H.J., T.D. Ding, X. Luo, and J.Y. Li|Toxic Effect of Fluorene-9-Bisphenol to Green Algae Chlorella vulgaris and Its Metabolic Fate|Ecotoxicol. Environ. Saf.216:10 p.|2021|
189958|T||Zhu,M.K., S.S. Miao, W.T. Zhou, S.S. Elnesr, X.Y. Dong, and X.T. Zou|MAPK, AKT/FoxO3a and mTOR Pathways are Involved in Cadmium Regulating the Cell Cycle, Proliferation and Apoptosis of Chicken Follicular Granulosa Cells|Ecotoxicol. Environ. Saf.217:11 p.|2021|
189959|T||Shimomura,M., K. Matsuda, M. Akamatsu, D.B. Sattelle, and K. Komai|Responses to Neonicotinoids of Chicken Alpha 7 Nicotinic Acetylcholine Receptors: Effects of Mutations of Isoleucine 191 in Loop F to Aromatic Residues|J. Pestic. Sci. (Multiple Languages)29(4): 364-368|2004|10.1584/jpestics.29.364
189960|T||Jiao,W., G. Ge, R. Hua, J. Sun, Y. Li, and R. Hou|Study on the Metabolism of Six Systemic Insecticides in a Newly Established Cell Suspension Culture Derived from Tea (Camellia sinensis L.) Leaves|Biochemistry (Wash.)148:10 p.|2019|
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189967|T||Gorske,S.F., H.J. Hopen, and R. Randell|Host Specificity of Purslane Sawfly and Its Response to Selected Pesticides|Hortscience11(6): 580-582|1976|10.21273/HORTSCI.11.6.580
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189969|T||Kirkham,F.W., and W.G. Richardson|The Pre-Emergence Selectivity of Twelve Herbicides Between Perennial Ryegrass, White Clover and Four Grass-Weed Species|Ann. Appl. Biol.97:46-47|1981|
189970|A||Khoei,A.J.|Evaluation of Potential Immunotoxic Effects of Iron Oxide Nanoparticles (IONPs) on Antioxidant Capacity, Immune Responses and Tissue Bioaccumulation in Common Carp (Cyprinus carpio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.244:10 p.|2021|10.1016/j.cbpc.2021.109005
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189972|T||Zhang,X.F., C.S. Wu, X.Q. Nie, and B. Gao|Identification of a New Potential Cd-Accumulator Pterocypsela indica (L.) Shih|Bull. Environ. Contam. Toxicol.106(5): 859-865|2021|10.1007/s00128-021-03165-z
189973|A||Trapasso,G., F. Coppola, V. Queiros, B. Henriques, A.M.V.M. Soares, E. Pereira, S. Chiesa, and R. Freitas|How Ulva lactuca can Influence the Impacts Induced by the Rare Earth Element Gadolinium in Mytilus galloprovincialis? The Role of Macroalgae in Water Safety Towards Marine Wildlife|Ecotoxicol. Environ. Saf.215:9 p.|2021|10.1016/j.ecoenv.2021.112101
189974|A||Stara,A., E. Zuskova, L. Vesely, A. Kouba, and J. Velisek|Single and Combined Effects of Thiacloprid Concentration, Exposure Duration, and Water Temperature on Marbled Crayfish Procambarus virginalis|Chemosphere273:9 p.|2021|10.1016/j.chemosphere.2020.128463
189975|T||Olivero-Verbel,J., A.D. Parra-Guerra, K. Caballero-Gallardo, L. Sierra-Marquez, K. Fuentes-Lopez, J. Franco-Marmolejo, |The Aqueous Extract of Fridericia chica Grown in Northern Colombia Ameliorates Toxicity Induced by Tergitol on Caenorhabditis elegans|Comp. Biochem. Physiol. C Toxicol. Pharmacol.244:7 p.|2021|10.1016/j.cbpc.2021.109026
189976|A||Picone,M., G.G. Distefano, D. Marchetto, M. Russo, M. Vecchiato, A. Gambaro, C. Barbante, and A.V. Ghirardini|Fragrance Materials (FMS) Affect the Larval Development of the Copepod Acartia tonsa: An Emerging Issue for Marine Ecosystems|Ecotoxicol. Environ. Saf.215:6 p.|2021|10.1016/j.ecoenv.2021.112146
189977|T||Marques,R.Z., N. Wistuba, J.C.M. Brito, V. Bernardoni, D.C. Rocha, and M.P. Gomes|Crop Irrigation (Soybean, Bean, and Corn) with Enrofloxacin-Contaminated Water Leads to Yield Reductions and Antibiotic Accumulation|Ecotoxicol. Environ. Saf.216:7 p.|2021|10.1016/j.ecoenv.2021.112193
189978|A||Brown,C.T., J.M. Yahn, and W.H. Karasov|Warmer Temperature Increases Toxicokinetic Elimination of PCBs and PBDEs in Northern Leopard Frog Larvae (Lithobates pipiens)|Aquat. Toxicol.234:11 p.|2021|10.1016/j.aquatox.2021.105806
189979|A||Audira,G., J.S. Lee, P. Siregar, N. Malhotra, M.J.M. Rolden, J.C. Huang, K.H.C. Chen, H.S. Hsu, Y.C. Hsu, T.R. Ger, and|Comparison of the Chronic Toxicities of Graphene and Graphene Oxide Toward Adult Zebrafish by Using Biochemical and Phenomic Approaches|Environ. Pollut.278:14 p.|2021|10.1016/j.envpol.2021.116907
189980|A||Nibamureke,U.M.C., and G.M. Wagenaar|Histopathological Changes in Oreochromis mossambicus (Peters, 1852) Ovaries after a Chronic Exposure to a Mixture of the HIV Drug Nevirapine and the Antibiotics Sulfamethoxazole and Trimethoprim|Chemosphere274:12 p.|2021|10.1016/j.chemosphere.2021.129900
189981|A||Wu,X.Q., Y. Viner-Mozzini, Y.L. Jia, L.R. Song, and A. Sukenik|Alkyltrimethylammonium (ATMA) Surfactants as Cyanocides - Effects on Photosynthesis and Growth of Cyanobacteria|Chemosphere274:9 p.|2021|
189982|A||Nascimento,I.F., A.T.B. Guimaraes, F. Ribeiro, A.S.D. Rodrigues, F.N. Estrela, T.M. Da Luz, and G. Malafaia|Polyethylene Glycol Acute and Sub-Lethal Toxicity in Neotropical Physalaemus cuvieri Tadpoles (Anura, Leptodactylidae)|Environ. Pollut.283:11 p.|2021|10.1016/j.envpol.2021.117054
189983|T||Naikoo,M.I., F. Raghib, M.I. Dar, F.A. Khan, K. Hessini, and P. Ahmad|Uptake, Accumulation and Elimination of Cadmium in a Soil - Faba Bean (Vicia faba) - Aphid (Aphis fabae) - Ladybird (Coccinella transversalis) Food Chain|Chemosphere279:10 p.|2021|10.1016/j.chemosphere.2021.130522
189984|T||Joncour,B., and W.A. Nelson|Sublethal Concentration of Insecticide Amplifies Interference Competition in a Tortrix Moth|Ecotoxicol. Environ. Saf.220:8 p.|2021|10.1016/j.ecoenv.2021.112324
189985|A||Jmii,S., and D. Dewez|Toxic Responses of Palladium Accumulation in Duckweed (Lemna minor): Determination of Biomarkers|Environ. Toxicol. Chem.40(6): 1630-1638|2021|10.1002/etc.5011
189986|T||Banerjee,A., and A. Roychoudhury|Maghemite Nano-Fertilization Promotes Fluoride Tolerance in Rice by Restoring Grain Yield and Modulating the Ionome and Physiome|Ecotoxicol. Environ. Saf.215:13 p.|2021|10.1016/j.ecoenv.2021.112055
189987|A||Abbott,E.A., and C.C. Helbing|Sucralose Affects Thyroid Hormone Signaling in American Bullfrog Rana (Lithobates) catesbeiana Tadpoles|Arch. Environ. Contam. Toxicol.80(4): 735-744|2021|10.1007/s00244-021-00838-y
189988|A||Qin,L.T., M. Liu, X. Zhang, L.Y. Mo, H.H. Zeng, and Y.P. Liang|Concentration Addition, Independent Action, and Quantitative Structure-Activity Relationships for Chemical Mixture Toxicities of the Disinfection by Products of Haloacetic Acids on the Green Alga Raphidocelis subcapitat|Environ. Toxicol. Chem.40(5): 1431-1442|2021|10.1002/etc.4995
189989|A||Thomson,P., M. Pineda, V. Yargeau, and V.S. Langlois|Chronic Exposure to Two Gestagens Differentially Alters Morphology and Gene Expression in Silurana tropicalis|Arch. Environ. Contam. Toxicol.80(4): 745-759|2021|10.1007/s00244-021-00831-5
189990|A||Foldvik,A., F. Kryuchkov, R. Sandodden, and S. Uhlig|Acute Toxicity Testing of the Tire Rubber-Derived Chemical 6PPD-Quinone on Atlantic Salmon (Salmo salar) and Brown Trout (Salmo trutta)|Environ. Toxicol. Chem.41(12): 3041-3045|2022|10.1002/etc.5487
189991|T||Sukhoruchenko,G.I., N.A. Belyakova, I.M. Pazyuk, and G.P. Ivanova|  The Toxic Effect of Greenhouse Insecticides on the Predatory Bugs Nesidiocoris tenuis Reuter and Macrolophus pygmaeus H.-S. (Heteroptera, Miridae)|Entomol. Obozr.94(4): 777-787|2015|
189992|T||Rahmani,S., A.R. Bandani, and Q. Sabahi|Effects of Thiamethoxam in Sublethal Concentrations, on Life Expectancy (Ex) and Some Other Biological Characteristics of Hippodamia variegata (Goeze) Coleoptera: Coccinellidae)|Int. Res. J. App. Basic Sci.4(3): 556-560|2013|
189993|T||Kayukawa,T., K. Furuta, K. Yonesu, and T. Okabe|Identification of Novel Juvenile-Hormone Signaling Activators Via High-Throughput Screening with a Chemical Library|J. Pestic. Sci. (Multiple Languages)46(1): 53-59|2021|10.1584/jpestics.D20-070
189994|A||Kahn,J.S.|Physiological Adaptation of Euglena gracilis to Uncouplers and Inhibitors of Oxidative Phosphorylation|Arch. Biochem. Biophys.164(1): 266-274|1974|10.1016/0003-9861(74)90031-9
189995|T||Chakraborti,S., and A.K. Sahoo|Termite Management in Sugarcane Plantation Using Imidacloprid Granules|J. Entomol. Res.41(3): 303-306|2017|10.5958/0974-4576.2017.00048.2
189996|T||Chakraborti,S.|Assessing Effectiveness of an Alternate Management System for Termites in Sugarcane Plantation|J. Entomol. Res.41(1): 45-49|2017|10.5958/0974-4576.2017.00008.1
189998|A||Gao,Y.L., J.M. Hong, Y.K. Guo, M.X. Chen, A.K. Chang, L. Xie, and X.P. Ying|Assessment Spermatogenic Cell Apoptosis and the Transcript Levels of Metallothionein and P53 in Meretrix meretrix Induced by Cadmium|Ecotoxicol. Environ. Saf.217:10 p.|2021|10.1016/j.ecoenv.2021.112230
189999|T||Lotufo,G.R., R.E. Boyd, A.R. Harmon, A.J. Bednar, J.C. Smith, M. Simini, G.I. Sunahara, J. Hawari, and R.G. Kuperman|Accumulation of Insensitive Munition Compounds in the Earthworm Eisenia andrei from Amended Soil: Methodological Considerations for Determination of Bioaccumulation Factors|Environ. Toxicol. Chem.40(6): 1713-1725|2021|10.1002/etc.5028
190000|T||Shoaib,M., S. Hussain, X.R. Cheng, Y.L. Cui, H. Liu, Q. Chen, M.G. Ma, Y.F. Gu, K. Zhao, Q.J. Xiang, J. Zhou, J.H. Liu,|Synergistic Anti-Oxidative Effects of Pongamia pinnata against Nickel Mediated by Rhizobium pisi and Ochrobacterium pseudogrignonense|Ecotoxicol. Environ. Saf.217:11 p.|2021|10.1016/j.ecoenv.2021.112244
190001|T||Zhou,H., J.L. Liu, F.L. Wan, F.Y. Guo, Y.S. Ning, S.S. Liu, and W. Ding|Insight into the Mechanism of Action of Scoparone Inhibiting Egg Development of Tetranychus cinnabarinus Boisduval|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.246:9 p.|2021|
190002|T||Motaphale,A.A., B.B. Bhosle, and F.S. Khan|Effect of Some Insecticides and Biorationals on the Abundance of Predators in Soybean|J. Entomol. Res.41(1): 51-55|2017|10.5958/0974-4576.2017.00009.3
190003|T||Yadav,G.R., P. Srivastava, V.K. Mishra, D. Chauhan, and Rajveer |Impact of Various Insecticides on Natural Enemies in Cowpea Ecosystem|J. Entomol. Res.41(1): 57-62|2017|10.5958/0974-4576.2017.00010.X
190004|T||Manjunatha,R., S. Viraktamath, A.S. Vastrad, C.P. Mallapur, J.C. Mathad, and B. Halappa|Efficacy of Different Eco-Friendly Modules Against Mango Leafhoppers|J. Entomol. Res.41(2): 163-166|2017|10.5958/0974-4576.2017.00026.3
190005|T||Ojha,P.K., R. Kumari, and R.S. Chaudhary|Impact of Certain Bio-Pesticides on Larval Mortality of Helicoverpa armigera Hubner (Noctuidae: Lepidoptera) in Chickpea|J. Entomol. Res.41(2): 167-175|2017|10.5958/0974-4576.2017.00027.5
190006|T||Kitturmath,M.S., and V.T. Sannaveerappanavar|Base-Line Values for Susceptibility of Spodoptera litura Fab. (Lepidoptera: Noctuidae) to Different Insecticides|J. Entomol. Res.41(3): 239-242|2017|10.5958/0974-4576.2017.00037.8
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190011|T||Guo,Z.X., J.L. Lv, X.X. Dong, N.S. Du, and F.Z. Piao|Gamma-Aminobutyric Acid Improves Phenanthrene Phytotoxicity Tolerance in Cucumber Through the Glutathione-Dependent System of Antioxidant Defense|Ecotoxicol. Environ. Saf.217:9 p.|2021|10.1016/j.ecoenv.2021.112254
190012|A||Wang,Z., F. Zhang, M.G. Vijver, and W. Peijnenburg|Graphene Nanoplatelets and Reduced Graphene Oxide Elevate the Microalgal Cytotoxicity of Nano-Zirconium Oxide|Chemosphere276:9 p.|2021|
190013|T||Dhaliwal,A.K., D.S. Brar, and J. Jindahl|Evaluation of Different IPM Components for the Management of Maize Stem Borer, Chilo partellus (Swinhoe) in Kharif Maize|J. Entomol. Res.41(3): 287-291|2017|10.5958/0974-4576.2017.00045.7
190014|T||Ambarish,S., C. Shashikumar, B.G. Shekara, and G. Somu|Field Evaluation of Bio-Pesticides and Insecticides Against Sucking Insect Pests of Bt-Cotton Under Rainfed Condition|J. Entomol. Res.41(4): 383-386|2017|10.5958/0974-4576.2017.00061.5
190015|T||Patra,B.|Bioefficacy and Phytotoxicity Study Tolfenpyrad 15%EC, a Novel Pyrazole Insecticide for Management of Plutella xylostella (L.) and Brevicoryne brassicae (L.) Infesting Cabbage and Its Effect on Coccinellid Predator|J. Entomol. Res.41(4): 387-394|2017|10.5958/0974-4576.2017.00062.7
190016|T||Peixoto,M.L., F.F. Putti, and J.C. Moraes|Silicon and Acibenzolar-S-Methyl to Induce Resistance Against Bemisia tabaci Biotype B and the Effects on Common Bean Plants|J. Entomol. Res.42(1): 1-4|2018|10.5958/0974-4576.2018.00001.4
190017|T||Kumar,V., M.K. Mahla, J. Lal, I.M. Pinjara, and B. Prasad|Relative Efficacy of Bio-Pesticides Against Fruit Borer, Helicoverpa armigera (Hub.) on Tomato|J. Entomol. Res.42(1): 61-66|2018|10.5958/0974-4576.2018.00011.7
190018|T||Kumar,V., and G.K. Grewal|Insecticide Resistance in Whitefly, Bemisia tabaci (Gennadius) on Cotton in Punjab|J. Entomol. Res.42(1): 75-80|2018|10.5958/0974-4576.2018.00013.0
190019|T||Shalaby,S.E.M.|Influence of Sowing Dates and Insecticides on the Rice Stem Borer (Chilo agamemnon Bles) and Rice Leafminer (Hydrellia griseola Fallen)|J. Entomol. Res.42(2): 195-200|2018|10.5958/0974-4576.2018.00033.6
190020|A||Chabenat,A., F. Bidel, T. Knigge, and C. Bellanger|Alteration of Predatory Behaviour and Growth in Juvenile Cuttlefish by Fluoxetine and Venlafaxine|Chemosphere277:130169-130169|2021|10.1016/j.chemosphere.2021.130169
190021|T||Wei,C.Q., J.J. Huang, Y.Q. Luo, S.B. Wang, S.K. Wu, Z.F. Xing, and J.X. Chen|Novel Amide Derivatives Containing an Imidazo[1,2-alpha]Pyridine Moiety: Design, Synthesis as Potential Nematicidal and Antibacterial Agents|Pestic. Biochem. Physiol.175:12 p.|2021|10.1016/j.pestbp.2021.104857
190022|A||Cerveny,D., J. Fick, J. Klaminder, M.G. Bertram, and T. Brodin|Exposure via Biotransformation: Oxazepam Reaches Predicted Pharmacological Effect Levels in European Perch After Exposure to Temazepam|Ecotoxicol. Environ. Saf.217:6 p.|2021|10.1016/j.ecoenv.2021.112246
190023|AT||Candido,J.P., E.C. Almeida, D.N.D. Leite, M. Brienzo, and D.D. De Angelis|Vinasse from Sugarcane Bagasse (Hemicellulose) Acid Hydrolysate and Molasses Supplemented: Biodegradability and Toxicity|Ecotoxicology30(5): 818-827|2021|10.1007/s10646-021-02401-w
190024|T||Bora,M.S., and K.P. Sarma|Anatomical and Ultrastructural Alterations in Ceratopteris pteridoides Under Cadmium Stress: A Mechanism of Cadmium Tolerance|Ecotoxicol. Environ. Saf.218:11 p.|2021|10.1016/j.ecoenv.2021.112285
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190026|A||Han,C.Y., H.J. Kim, J.S. Lee, Y. Sakakura, and A. Hagiwara|Species-Specific Effects of Iron on Temperate and Tropical Marine Rotifers in Reproduction, Lipid and ROS Metabolisms|Chemosphere277:16 p.|2021|
190027|T||Zhang,H., K.T. Heal, X.D. Zhu, M. Tigabu, Y.A. Xue, and C.F. Zhou|Tolerance and Detoxification Mechanisms to Cadmium Stress by Hyperaccumulator Erigeron annuus Include Molecule Synthesis in Root Exudate|Ecotoxicol. Environ. Saf.219:10 p.|2021|
190028|T||Sun,Q.Q., C. Liu, K.X. Jiang, Y.S. Fang, C.C. Kong, J. Fu, and Y.G. Liu|A Preliminary Study on the Neurotoxic Mechanism of Harmine in Caenorhabditis elegans|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.245:9 p.|2021|
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190041|T||Holopainen,J.K., and A.L. Varis|Effects of a Mechanical Barrier and Formalin Preservative on Pitfall Catches of Carabid Beetles (Coleoptera, Carabidae) in Arable Fields|J. Appl. Entomol.102:440-445|1986|10.1111/j.1439-0418.1986.tb00943.x
190042|T||Hegna,I.K., and O.G. Clausen|An Investigation of the Bactericidal and Fungicidal Effects of Certain Disinfectants by Use of a Capacity Test|Ann. Inst. Pasteur Immunol. Microbiol.139(4): 473-483|1988|10.1016/0769-2609(88)90109-3
190043|T||Davidson,T.R., K.R. Stevenson, and J. Buchanan-Smith|Influence of Formic Acid and Formalin on the Production of Organic Acid in Direct-Cut Alfalfa Silage|Can. J. Plant Sci.53:81-85|1973|10.4141/cjps73-014
190044|A||Katharios,P., C. Hayward, N. Papandroulakis, and P. Divanach|Pathology of Lamellodiscus spp. (Monogenea) Parasitizing the Gills of Sharpsnout Seabream and Preliminary Results of Formalin Treatment|Bull. Eur. Assoc. Fish Pathol.26(5): 196-201|2006|
190045|A||Felitti,S.A., R.L. Chan, M.G. Sierra, and D.H. Gonzalez|The Cytochrome C Gene from the Green Alga Chlamydomonas reinhardtii. Structure and Expression in Wild-Type Cells and in Obligate Photoautotrophic (dk) Mutants|Plant Cell Physiol.41(10): 1149-1156|2000|10.1093/pcp/pcd044
190046|A||Ferguson,J.C.|Mechanical Responses of Isolated Starfish Digestive Glands to Metabolic Drugs, Inhibitors and Nutrients|Comp. Biochem. Physiol.19(1): 259-266|1966|10.1016/0010-406X(66)90564-0
190047|T||Bhede,B.V., B.B. Bhosle, D.G. More, and P.R. Zanwar|Bioefficacy of Different Insecticides Against Aphid Brevicoryne brassicae on Cauliflower|J. Entomol. Res.42(2): 211-215|2018|10.5958/0974-4576.2018.00035.X
190048|T||Kishore,V., N. Loach, A. Kumar, C.N. Srivastava, and L. Mohan|Susceptibility Status of Certain Synthetic Pesticides Against the Cattle Tick Rhipicephalus (Boophilus) microplus (Acari: Isodidae)|J. Entomol. Res.42(2): 281-286|2018|10.5958/0974-4576.2018.00047.6
190049|A||Fujita,Y., and R. Suzuki|Studies on the Hill Reaction of Membrane Fragments of Blue-Green Algae IV. Garotenoid Photobleaching Induced by Photosystem II Action|Plant Cell Physiol.14(2): 261-273|1973|
190050|A||Fujita,Y.|Further Investigation of the Light-Induced Cytochrome beta-559 Reaction in Membrane Fragments of the Blue-Green Alga Anabaena variabilis|Plant Cell Physiol.16(6): 1037-1048|1975|10.1093/oxfordjournals.pcp.a075223
190051|T||Chiranjeevi,B., and N.R. Patange|Bioefficacy of Newer Insecticides and Botanicals Against Population of Pigeonpea Pod Fly, Melanagromyza obtusa (Malloch)|J. Entomol. Res.42(3): 377-382|2018|10.5958/0974-4576.2018.00063.4
190052|T||Anuji,T., K.S. Raj, F. Sunny, and D.A. Evans|Transgenerational Effect of Bisphenol A on the Phenotypic Characters of Antennae in Drosophila ananassae (Doleschall)|J. Entomol. Res.42(4): 517-523|2018|10.5958/0974-4576.2018.00087.7
190053|T||Ajaykumar,A.P., M. Gokuldas, and V.S. Binitha|Hyperlipaemic Response of Topically Applied Synthetic Neuropeptides in the Plant Bug Iphita limbata Stal (Pyrrhocoridae: Heteroptera)|J. Entomol. Res.42(4): 525-528|2018|10.5958/0974-4576.2018.00088.9
190054|AT||Neves,B.J., R.F. Dantas, M.R. Senger, C.C. Melo-Filho, W.C.G. Valente, A.C.M. De Almeida, J.M. Rezende-Neto, E.F.C. Lim|Discovery of New Anti-Schistosomal Hits by Integration of QSAR-Based Virtual Screening and High Content Screening|J. Med. Chem.59(15): 7075-7088|2016|10.1021/acs.jmedchem.5b02038
190055|T||Smith,W.B., N. Abdullah, D. Herdman, and R.D. De Groot|Preservative Treatment of Red Maple|For. Prod. J.46(3): 35-41|1996|
190056|T||Selvaraj,R., and G. Archunan|Efficacy of Male Scent Glands and Urine in Masking Poison Bait Odour in Female House Rats, Rattus rattus|J. Pest Sci.79(4): 255-258|2006|10.1007/s10340-006-0136-7
190057|T||Vanitha,V., P. Neelanarayanan, and R. Kanakasabai|Laboratory Evaluation of Germinated Cereal as a Bait Base for the Control of Indian Mole Rat, Bandicota bengalensis (Gray)|Pestology11(6): 38-42|1997|
190058|T||Saini,R.K., and R.D. Dransfield|A Behavioural Bioassay to Identify Attractive Odours for Glossinidae|Med. Vet. Entomol.1:313-318|1987|10.1111/j.1365-2915.1987.tb00360.x
190059|T||Lensing,H.H., and H.L. Oei|Investigations on the Sporicidal and Fungicidal Activity of Disinfectants|Zbl. Bakt. Abt. II, Bd.181:487-495|1985|
190060|T||Udaiyan,K., V. Sugavanam, and S. Manian|Effects of Formaldehyde Fumigation and Fytolan Drench on VAM Fungi and Nodulation in Some Leguminous Forest Tree Seedlings in India|Pertanika J. Trop. Agric. Sci.19(1): 33-41|1996|
190061|T||Siddiqui,K.H., and P. Sarup|Compounding of Artificial Diets with Formaldehyde Affect Rearing of the Maize Stalk Borer, Chilo partellus (Swinhoe)|J. Entomol. Res.6(2): 197-201|1982|
190062|T||Joshi,S., R. Nagar, A.K. Meena, and R. Swaminathan|Non-Target Effect of Pesticides on Insect Pollinators in Coriander|J. Entomol. Res.42(4): 541-544|2018|10.5958/0974-4576.2018.00091.9
190063|T||Selvaraj,C., J.S. Kennedy, and M. Suganthy|Bio-Efficacy of EC Formulations of Strychnos nux-vomica Extracts Against Plutella xylostella Linn. in Cauliflower (Brassica oleracea L. var. boytrytis)|J. Entomol. Res.42(4): 563-568|2018|10.5958/0974-4576.2018.00095.6
190064|T||Daniel,J.A., and K. Ramaraju|Evaluation of Hexythiazox 5.45 EC Against Red Spider Mite Oligonychus coffeae Nietner on Tea|J. Entomol. Res.42(4): 579-583|2018|10.5958/0974-4576.2018.00098.1
190065|T||Kakde,A.M., and K.G. Patel|Effectiveness of Insecticides Against Rice Yellow Stem Borer, Scirpophaga incertulas wlk.|J. Entomol. Res.42(4): 585-590|2018|10.5958/0974-4576.2018.00099.3
190066|T||Vijayalakshmi,G., and K. Bhuvaneswari|Harvest Time Residues of Emamectin Benzoate 1.9 EC and 5 SG in Chickpea|J. Entomol. Res.42(4): 591-594|2018|10.5958/0974-4576.2018.00100.7
190067|A||Gallagher,K.E., and J.L. Howland|Cyanide-Induced Stimulation of Oxygen-Uptake by a Marine Sponge|Biochem. Arch.10(4): 273-276|1994|
190068|A||Mut,P.N., M.V. Espelt, G. Krumschnabel, and P.J. Schwarzbaum|Potassium Transmembrane Fluxes in Anoxic Hepatocytes from Goldfish (Carassius auratus L.)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.142(3/4): 205-211|2006|10.1016/j.cbpc.2005.10.002
190070|A||Neuparth,T., R. Capela, L. Rey-Salgueiro, S.M. Moreira, M.M. Santos, and M.A. Reis-Henriques|Simulation of a Hazardous and Noxious Substances (HNS) Spill in the Marine Environment: Lethal and Sublethal Effects of Acrylonitrile to the European Seabass|Chemosphere93(6): 978-985|2013|10.1016/j.chemosphere.2013.05.064
190071|A||Roesijadi,G., and M.E. Unger|Cadmium Uptake in Gills of the Mollusc Crassostrea virginica and Inhibition by Calcium Channel Blockers|Aquat. Toxicol.24:195-206|1993|10.1016/0166-445X(93)90071-8
190072|A||Stensberg,M.C., M.A. Zeitchek, K. Inn, E.S. Mclamore, D.M. Porterfield, and M.S. Sepulveda|Comparative Study of Non-Invasive Methods for Assessing Daphnia magna Embryo Toxicity|Environ. Sci. Pollut. Res.21:10803-10814|2014|10.1007/s11356-014-3058-6
190073|A||Ekelund,N.G.A.|Interactions Between Photosynthesis and 'Light-Enhanced Dark Respiration' (LEDR) in the Flagellate Euglena gracilis After Irradiation with Ultraviolet Radiation|J. Photochem. Photobiol. B Biol.55(1): 63-69|2000|10.1016/S1011-1344(00)00029-4
190074|A||Matsuo,M., and J. Obokata|Dual Roles of Photosynthetic Electron Transport in Photosystem I Biogenesis: Light Induction of MRNAs and Chromatic Regulation at Post-mRNA Level|Plant Cell Physiol.43(10): 1189-1197|2002|10.1093/pcp/pcf146
190075|T||Widdowson,F.V., and A. Penny|The Effects of Partially Sterilising Agricultural Soils with Formalin, and of Applying Nitrogen Fertilisers, on the Yields and N Contents of Spring and Winter Wheat, of Barley and of Grass|Rothamsted Exp. Stn. Rep.2:113-134|1970|
190076|T||Rai,R.P.|Effect of Formalin on Soil-Borne Pathogens of Potato|Indian Phytopathol.37:694-696|1984|
190077|A||Seenappa,D., and L. Manohar|In Vitro Effects of Chemicals and Disinfectants on the Spores of Myxobolus vanivilasae Seenappa and Manohar, 1980 (Myxosporida: Protozoa)|Mysore J. Agric. Sci.17:170-176|1983|
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190079|T||Owen,R.R.|The Effectiveness of Chemical Disinfection on Parasites in Sludge|In: A.M.Bruce (Ed.), Sewage Sludge Stabilisation and Disinfection, Ellis Horwood, Chichester, UK:426-439|1984|
190080|A||Wu,L.Y., M. Zeeshan, Y. Dang, L.Y. Liang, Y.C. Gong, Q.Q. Li, Y.W. Tan, Y.Y. Fan, L.Z. Lin, Y. Zhou, R.Q. Liu, L.W. Hu,|Environmentally Relevant Concentrations of F-53B Induce Eye Development Disorders-Mediated Locomotor Behavior in Zebrafish Larvae|Chemosphere308:|2022|10.1016/j.chemosphere.2022.136130
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190082|A||Alwyn,T., and V. Rees|Mitochondrial Oxidative Phosphorylation is Required for Ammonium Assimilation in Light in a Marine Diatom|Physiol. Plant. (Multiple Languages)117(4): 558-563|2003|10.1034/j.1399-3054.2003.00074.x
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190084|T||Alvarado,R.H., T.H. Dietz, and T.L. Mullen|Chloride Transport Across Isolated Skin of Rana pipiens|Am. J. Physiol.229(3): 869-876|1975|10.1152/ajplegacy.1975.229.3.869
190085|A||Adamyan,S., and A.A. Chubaryan|Effect of Uncouplers of Oxidative Phosphorylation on the Concentration of ATP in Cross-Striated Frog Muscles with Change in the Buffer Capacity of the Solution|Biophysics (Oxf.)22(1): 81-85|1977|
190086|AT||Karpenko,A.A., V.S. Odintsov, and A.A. Istomina|Micro-Nano-Sized Polytetrafluoroethylene (Teflon) Particles as a Model of Plastic Pollution Detection in Living Organisms|Environ. Sci. Pollut. Res. Int.29(8): 11281-11290|2022|10.1007/s11356-021-16487-6
190087|A||Anctil,M.|Ultrastructural Correlates of Luminescence in Porichthys Photophores. II. Effects of Metabolic Inhibitors|Rev. Can. Biol.38(2): 81-96|1979|
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190089|A||Drews,G., and K. Graszynski|The Transepithelial Potential Difference in the Gills of the Fiddler Crab, Uca tangeri: Influence of Some Inhibitors|J. Comp. Physiol.157B:345-353|1987|10.1007/BF00693361
190090|A||Ben-Amotz,A., and B.Z. Ginzburg|Light-Induced Proton Uptake in Whole Cells of Dunaliella parva|Biochim. Biophys. Acta - Biomembr.183(1): 144-154|1969|10.1016/0005-2736(69)90138-2
190091|T||Martin,J.F.|Effect of Seed Disinfection and Delayed Sowing on the Control of Bunt in Infested Soil|J. Am. Soc. Agron.:870-877|1938|10.2134/agronj1938.00021962003000100009x
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190094|T||Bowers,B.|Comparison of Pinocytosis and Phagocytosis in Acanthamoeba castellanii|Exp. Cell Res.110(2): 409-417|1977|10.1016/0014-4827(77)90307-X
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190096|A||Masamoto,K., and M. Nishimura|H+ Translocation in Lysozyme-Treated Cells of the Blue-Green Alga Plectonema boryanum: Difference Between Isotonically and Hypotonically Treated Preparations and Effects of Divalent Cations|J. Biochem. (Tokyo)82(2): 489-493|1977|
190097|A||Matsumura,F.|Ion-Sensitive ATP-Phosphorylation Processes in Axonic Membrane of Squid Retinal Nerve|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.58C(1): 13-20|1977|10.1016/0306-4492(77)90003-X
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190099|A||Felle,H., H. Liihring, and F.W. Bentrup|Serine Transport and Membrane Depolarization in the Liverwort Riccia fluitans|Z. Naturforsch. C Biosci.34(12): 1222-1223|1979|10.1515/znc-1979-1224
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190116|A||Sakihama,Y., S. Nakamura, and H. Yamasaki|Nitric Oxide Production Mediated by Nitrate Reductase in the Green Alga Chlamydomonas reinhardtii: An Alternative No Production Pathway in Photosynthetic Organisms|Plant Cell Physiol.43(3): 290-297|2002|10.1093/pcp/pcf034
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190122|A||Peschek,G.A.|Aerobic Hydrogenase Activity in Anacystis nidulans the Oxyhydrogen Reaction|Biochim. Biophys. Acta548(2): 203-215|1979|10.1016/0005-2728(79)90129-4
190123|T||Alam,M.M., A.M. Khan, and S.K. Saxena|Mechanism of Control of Plant Parasitic Nematodes as a Result of the Application of Organic Amendments to the Soil. IV - Role of Formaldehyde and Acetone|Indian J. Nematol.8(2): 172-174|1978|
190124|T||Sufka,K.J., and N.C. Weed|Construct Validation of Behavioral Indices of Isolation Stress and Inflammatory Nociception in Young Domestic Fowl|Physiol. Behav.55(4): 741-746|1994|10.1016/0031-9384(94)90054-X
190125|T||Wensley,R.N.|The Effect of Prewetting Naturally Infested Soils on Destruction of the Muskmelon Wilt Fungus by Formaldehyde|Can. J. Microbiol.14:309-313|1968|10.1139/m68-050
190126|T||Flegg,P.B.|Response of the Sporophores of the Cultivated Mushroom (Agaricus bisporus) to Volatile Substances|Sci. Hortic.21:301-310|1983|10.1016/0304-4238(83)90120-6
190128|A||Borgmann,U.|Electron Transport System Activity in Daphnia and Crayfish|Can. J. Zool.55(5): 847-854|1977|10.1139/z77-110
190129|A||Tsay,S.F., J.M. Lee, and J.Q. Lynd|The Interactions of Cu++ and CN- with Paraquat Phytotoxicity to a Chlorella|Weed Sci.18(5): 596-598|1970|10.1017/S0043174500034287
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190134|A||Furbank,R.T., and F. Rebeille|Dark Respiration in the Marine Macroalga Chondrus crispus (Rhodophyceae)|Planta (Multiple Languages)168(2): 267-272|1986|10.1007/BF00402973
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190142|T||Soliman,E.S., M.A.A. Sobeih, Z.H. Ahmad, M.M. Hussein, and H. Abdel-Latiff|Evaluation of Commercial Disinfectants Against Fungal Pathogens Isolated from Broiler Farms|Int. J. Poult. Sci.8(9): 836-841|2009|10.3923/ijps.2009.836.841
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190172|A||Skowronski,T.|Influence of Some Physico-Chemical Factors on Cadmium Uptake by the Green Alga Stichococcus bacillaris|Appl. Microbiol. Biotechnol.24(5): 423-425|1986|10.1007/BF00294601
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190240|T||Pisal,R.R., V.H. Surve, S.C. Jathar, and B.K. Sagarka|Impact of Weed Control Treatments on Weed Flora, Nutrient Uptake by Weeds and Wheat Crop|Agric. Sci. Dig.33(1): 47-51|2013|
190241|T||Rafiq,M., and M.U. Dahot|Callus and Azadirachtin Related Limonoids Production Through In Vitro Culture of Neem (Azadirachta indica A. Juss)|Afr. J. Biotechnol.9(4): 449-453|2010|
190242|T||Ranch,J.P., and K.L. Giles|Factors Affecting Growth and Aggregate Dissociation in Batch Suspension Cultures of Datura innoxia (Miller)|Ann. Bot.46(6): 667-683|1980|10.1093/oxfordjournals.aob.a085964
190243|T||Padua,M.S., L.V. Paiva, C.R. Labory, E. Alves, and V.C. Stein|Induction and Characterization of Oil Palm (Elaeis guineensis Jacq.) Pro-Embryogenic Masses|An. Acad. Bras. Cienc.85(4): 1545-1556|2013|10.1590/0001-37652013107912
190244|T||Rashmi,R., and M.P. Trivedi|Effect of Various Growth Hormone Concentration and Combination on Callus Induction, Nature of Callus and Callogenic Response of Nerium  odorum|Appl. Biochem. Biotechnol.172(5): 2562-2570|2014|10.1007/s12010-013-0693-1
190245|A||Xu,G., M.H. Wu, J.F. Zheng, Z. Jiao, and F.S. Li|Aquatic Toxicity of Di (2-Ethylhexyl) Phthalate (DEHP) to Duckweeds|Proceedings of the 2008 International Conference on Information Technology and Environmental System Science:978-981|2008|10.1007/s11741-010-0205-3
190246|A||Javaid,M.Y.|Effect of DDT on Temperature Selection of Some Salmonids|Pak. J. Sci. Ind. Res.15(3): 171-176|1972|
190247|A||Kim,W.S., J.W. Kim, J.H. Lee, and S.H. Huh|Effects of Sodium Cyanide (NaCN) on the Endogenous Rhythm of the Oxygen Consumption Rate in the Black Rockfish Sebastes schlegeli|Ocean Sci. J.43(2): 107-113|2008|10.1007/BF03020587
190248|A||Shaffi,S.A., and D.Y. Prasad|Effect of Sodium-Cyanide on Tissue Energy Reserve in a Fresh Water Catfish Clarias batrachus (Linn)|Curr. Sci.48(18): 829-830|1979|
190250|T||Dolan,S., M.D. Gunn, C. Crossan, and A.M. Nolan|Activation of Metabotropic Glutamate Receptor 7 in Spinal Cord Inhibits Pain and Hyperalgesia in a Novel Formalin Model in Sheep|Behav. Pharmacol.22:582-588|2011|10.1097/FBP.0b013e3283478802
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190256|A||Zachar,P.C., and M.G. Jonz|Oxygen Sensitivity of Gill Neuroepithelial Cells in the Anoxia-Tolerant Goldfish|Adv. Exp. Med. Biol.758:167-172|2012|10.1007/978-94-007-4584-1_23
190259|A||Gusev,G.P., and T.I. Ivanova|Homeostasis of Sodium and Potassium Ions in Erythrocytes of the Lamprey Lampetra fluviatilis: Effect of Ion Transport and Metabolic Blockers, and Ionophores|J. Evol. Biochem. Physiol.40(3): 250-257|2004|10.1023/B:JOEY.0000042627.78339.1f
190260|A||Gusev,G.P., and A.O. Sherstobitov|Effect of Metabolic Inhibitors on K+ Transport Across the Lamprey (Lampetra fluviatilis) Erythrocyte Membrane|Gen. Physiol. Biophys.13(6): 459-468|1994|
190261|A||Gusev,G.P., A.O. Sherstobitov, T.I. Ivanova, and A.Y. Bogdanova|Role of Oxidative Metabolism in the Energy Supply of Active Potassium Transport in Erythrocytes of the Lamprey Lampetra fluviatilis|J. Evol. Biochem. Physiol.37(3): 225-230|2001|10.1023/A:1012607021020
190262|A||Thaimuangphol,W., and P. Kasamesiri|Lethal Effects of Pesticides on the Nauplii Fairy Shrimp, Branchinella thailandensis|Commun. Agric. Appl. Biol. Sci.80(3): 385-392|2015|
190263|A||Samal,K.C., and S. Kannaiyan|Isolation of the Algal Symbiont Anabaena azollae and the Role of Vitamins in Growth, Heterocyst Development and Nitrogen-Fixing Activity|Folia Microbiol. (Prague)37(6): 421-426|1992|10.1007/BF02899900
190264|A||Trapido,M., and Y. Veressinina|Use of the Daphnia magna Test to Estimate the Toxicity of the Ozonation by-Products of Phenols and Chlorophenols|Alt. Lab. Anim. (ATLA)27(3): 425-431|1999|10.1177/026119299902700320
190265|A||Hugentobler,G., G. Fricker, J.L. Boyer, and P.J. Meier|Anion Transport in Basolateral (Sinusoidal) Liver Plasma-Membrane Vesicles of the Little Skate (Raja erinacea)|Biochem. J. (Lond.)247(3): 589-595|1987|10.1042/bj2470589
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190267|T||Rittirat,S., K. Thammasiri, and S. Klaocheed|In Vitro Rapid Multiplication of a Highly Valuable Ornamental Aquatic Plant Anubias heterophylla|Trends Sci.18(19): 12 p.|2021|10.48048/tis.2021.3
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190269|A||Turgut,C., and A. Fomin|Establishment of Standardized Growth Conditions of Myriophyllum aquaticum (Vell.) Verdcourt for Testing Sediment Toxicity|J. Appl. Bot.75:80-84|2001|
190270|A||Milsom,W.K., S.G. Reid, F.T. Rantin, and L. Sundin|Extrabranchial Chemoreceptors Involved in Respiratory Reflexes in the Neotropical Fish Colossoma macropomum (the Tambaqui)|J. Exp. Biol.205:1765-1774|2002|10.1242/jeb.205.12.1765
190271|A||Misra,H.P., and I. Fridovich|Purification and Properties of Superoxide Dismutase from a Red Alga, Porphyridium cruentum|J. Biol. Chem.252(18): 6421-6423|1977|10.1016/S0021-9258(17)39975-1
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190273|A||Moody,W.,Jr.|Gradual Increase in the Electrical Excitability of Crayfish Slow Muscle Fibers Produced by Anoxia or Uncouplers of Oxidative Phosphorylation|J. Comp. Physiol.125(4): 327-334|1978|10.1007/BF00656867
190274|A||Nishimura,H., M. Imai, and M. Ogawa|Sodium Chloride and Water Transport in the Renal Distal Tubule of the Rainbow Trout|Am. J. Physiol., Renal Fluid Electrolyte Physiol.244(3): |1983|10.1152/ajprenal.1983.244.3.f247
190275|T||Rezaeian,S.|Assessment of Diosgenin Production by Trigonella foenum-graecum L. In Vitro Condition|Am. J. Plant Physiol.6(5): 261-268|2011|10.3923/ajpp.2011.261.268
190276|A||Nakayama,K., K. Abe, and M. Okada|Light-Induced Absorbance Changes of Carotenoids in Brown Algae|Bot. Mag. Tokyo96(1): 29-36|1983|10.1007/BF02489572
190277|T||Ridge,R.W., G.L. Bender, and B.G. Rolfe|Nodule-Like Structures Induced on the Roots of Wheat Seedlings by the Addition of the Synthetic Auxin 2,4-Dichlorophenoxyacetic Acid and the Effects of Microorganisms|Aust. J. Plant Physiol.19(5): 481-492|1992|
190278|A||Han,T.J., and J. Liston|Lipid Peroxidation Enzyme System in Rainbow Trout (Salmo gairdnerii) Skeletal Muscle Microsomes|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.93B(2): 485-491|1989|10.1016/0305-0491(89)90111-9
190279|A||Hartmann,T., and E. Lohr|Decarboxylation of Environmental L-Leucine by Marine Red Algae|Mar. Biol.78(1): 7-12|1983|10.1007/BF00392965
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190282|A||Hader,D.P.|Further Evidence for the Electron Pool Hypothesis - the Effect of KCN and DSPD on the Photophobic Reaction in the Filamentous Blue-Green Alga Phormidium uncinatum|Arch. Microbiol.110(2/3): 301-303|1976|10.1007/BF00690242
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190288|A||Perry,S.F., B. Vulesevic, M. Braun, and K.M. Gilmour|Ventilation in Pacific Hagfish (Eptatretus stoutii) During Exposure to Acute Hypoxia or Hypercapnia|Resp. Physiol. Neurobiol.167(3): 227-234|2009|10.1016/j.resp.2009.04.025
190289|T||Rathore,M.S., J. Chikara, and N.S. Shekhawat|Plantlet Regeneration from Callus Cultures of Selected Genotype of Aloe vera L.--an Ancient Plant for Modern Herbal Industries|Appl. Biochem. Biotechnol.163(7): 860-868|2011|10.1007/s12010-010-9090-1
190290|A||Popova,L.G., A.G. Kornilova, G.A. Shumkova, I.M. Andreev, and Y.V. Balnokin|Na+-Transporting ATPase in the Plasma Membrane of Halotolerant Microalga Dunaliella maritima Operates as a Na+ Uniporter|Russ. J. Plant Physiol.53(4): 474-480|2006|10.1134/S1021443706040078
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190294|T||Arya,S., R. Tomar, and O.P. Toky|Effect of Plant Age and Auxin Treatment on Rooting Response in Stem Cuttings of Prosopis cineraria|J. Arid Environ.27(1): 99-103|1994|10.1006/jare.1994.1049
190295|T||Byers,R.E.|Pine Vole Control with Anti-Coagulant Baits in Apple Orchards|J. Am. Soc. Hortic. Sci.106(1): 101-105|1981|10.21273/JASHS.106.1.101
190296|A||Rees,T.A.V.|On Ammonia Futile Cycling in a Marine Unicellular Alga|Biochim. Biophys. Acta - Bioenergetics1228:254-260|1995|10.1016/0005-2728(94)00182-5
190297|A||Reid,S.G., and S.F. Perry|Peripheral O2 Chemoreceptors Mediate Humoral Catecholamine Secretion from Fish Chromaffin Cells|Am. J. Physiol., Regul. Integr. Comp. Physiol.284(4): 990-999|2003|10.1152/ajpregu.00412.2002
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190300|A||Tsukuda,N.|Studies on the Discoloration of Red Fishes-VII. Effect of Chemicals on Enzymatic Discoloration|Nippon Suisan Gakkaishi (Multiple Languages)36(8): 806-811|1970|10.2331/suisan.36.806
190302|A||Vulesevic,B., and S.F. Perry|Developmental Plasticity of Ventilatory Control in Zebrafish, Danio rerio|Resp. Physiol. Neurobiol.154(3): 396-405|2006|10.1016/j.resp.2006.01.001
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190304|A||Weiss,B., H.A. Abramson, and M.O. Baron|Lysergic Acid Diethylamide (LSD-25): XXV. Effect of Potassium Cyanide and Other Oxidase and Respiratory Inhibitors on the Siamese Fighting Fish|Arch. Neurol. Psychiatry80(3): 345-350|1958|10.1001/archneurpsyc.1958.02340090081013
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190306|AT||Yora,T., and Y. Sakagishi|Comparative Biochemical Study of Alkaline Phosphatase Isozymes in Fish, Amphibians, Reptiles, Birds and Mammals|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.85B(3): 649-658|1986|10.1016/0305-0491(86)90063-5
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190310|A||Galbraith,J.A., T.S. Reese, M.L. Schlief, and P.E. Gallant|Slow Transport of Unpolymerized Tubulin and Polymerized Neurofilament in the Squid Giant Axon|Proc. Natl. Acad. Sci. U.S.A.96(20): 11589-11594|1999|10.1073/pnas.96.20.11589
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190312|T||Moro,D.|Evaluation and Cost-Benefits of Controlling House Mice (Mus domesticus) on Islands: An Example from Thevenard Island, Western Australia|Biol. Conserv.99(3): 355-364|2001|10.1016/S0006-3207(00)00231-7
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190315|T||Crabtree,G., and L.H. Fuchigami|Vegetative Maturity of Red-Osier Dogwood and Response to Herbicides|Hortscience14(6): 753-755|1979|10.21273/HORTSCI.14.6.753
190316|A||Goyal,A., and N.E. Tolbert|Variations in the Alternative Oxidase in Chlamydomonas Grown in Air or High CO2|Plant Physiol.89:958-962|1989|10.1104/pp.89.3.958
190317|A||Grant,N.G., and M.H. Hommersand|Respiratory-Chain of Chlorella protothecoides I. Inhibitor Responses and Cytochrome Components of Whole Cells|Plant Physiol.54(1): 50-56|1974|10.1104/pp.54.1.50
190318|A||Guerrero,M.G., C. Manzano, and M. Losada|Nitrite Photoreduction by a Cell-Free Preparation of Anacystis nidulans|Plant Sci. Lett.3(4): 273-278|1974|10.1016/0304-4211(74)90098-4
190319|T||Amo-Marco,J.B., and I. Picazo|Effect of Growth Regulators on in-Vitro Propagation of Ficus benjamina cv. Exotica|Biol. Plant. (Praha)36(2): 167-173|1994|10.1007/BF02921081
190320|T||Chen,W.H., M.C. Liu, and C.Y. Chao|Growth of Sugarcane Downy Mildew Fungus in Tissue Culture|Can. J. Bot.57(5): 528-533|1979|10.1139/b79-068
190321|T||Dolferus,R., and M. Jacobs|Polymorphism of Alcohol Dehydrogenase in Arabidopsis thaliana (L.) Heynh.:  Genetic and Biochemical-Characterization|Biochem. Genet.22(9/10): 817-838|1984|10.1007/BF00499475
190322|T||Douglas,G.C., W.A. Keller, and G. Setterfield|Somatic Hybridization Between Nicotiana rustica and N. tabacum.I. Isolation and Culture of Protoplasts and Regeneration of Plants from Cell-Cultures of Wild-Type and Chlorophyll-Deficient Strains|Can. J. Bot.59(2): 208-219|1981|10.1139/b81-032
190323|T||Endemann,M., and E. Wilhelm|Factors Influencing the Induction and Viability of Somatic Embryos of Quercus robur L.|Biol. Plant. (Praha)42(4): 499-504|1999|10.1023/A:1002690309666
190324|T||Kalo,D., R. Hadas, O. Furman, J. Ben-Ari, Y. Maor, D.G. Patterson, C. Tomey, and Z. Roth|Carryover Effects of Acute DEHP Exposure on Ovarian Function and Oocyte Developmental Competence in Lactating Cows|PLoS One10(7): 25 p.|2015|10.1371/journal.pone.0130896
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190326|T||Fedak,G., and J. Grainger|Chromosome Instability in Somaclones of a Triticum crassum x Hordeum vulgare Hybrid|Can. J. Genet. Cytol.28(4): 618-623|1986|10.1139/g86-090
190327|T||Spjuth,L., K. Ljungvall, F. Saravia, N. Lundeheim, U. Magnusson, F. Hulten, and H. Rodriguez-Martinez|Does Exposure to di(2-ethylhexyl) Phthalate in Pre-Pubertal Boars Affect Semen Quality Post-Puberty?|Int. J. Androl.29:534-542|2006|10.1111/j.1365-2605.2006.00693.x
190328|A||Herrero,O., G. Morcillo, and R. Planello|Transcriptional Deregulation of Genetic Biomarkers in Chironomus riparius Larvae Exposed to Ecologically Relevant Concentrations of Di(2-ethylhexyl) Phthalate (DEHP)|PLoS One12(2): 20 p.|2017|10.1371/journal.pone.0171719
190329|A||Yang,W.K., L.F. Chiang, S.W. Tan, and P.J. Chen|Environmentally Relevant Concentrations of Di(2-Ethylhexyl)Phthalate Exposure Alter Larval Growth and Locomotion in Medaka Fish via Multiple Pathways|Sci. Total Environ.640-641:512-522|2018|10.1016/j.scitotenv.2018.05.312
190330|T||Zhu,F., C. Zhu, N. Chen, D. Zhou, and J. Gao|Will Spent Mushroom Substrate Application Affect the Dissipation and Plant Uptake of Phthalate Esters?|J. Soils Sediments18:1579-1589|2018|10.1007/s11368-017-1876-0
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190337|A||Hipkins,M.F., and F.W. Musto|The Effect of Classical Uncouplers and Potassium Cyanide on the Field-Indicating Absorption Change in Chlorella emersonii|Photobiochem. Photobiophys.9(3): 159-166|1985|
190338|A||Hirose,M.|Energy Supply System for the Gliding Movement of Hormogonia of the Cyanobacterium Nostoc cycadae|Plant Cell Physiol.28(4): 587-597|1987|
190339|T||Ganapathi,T.R., and K. Nataraja|Effect of Auxins and Cytokinins on Plant Regeneration from Hypocotyls and Cotyledons in Niger (Guizotia abyssinica Cass)|Biol. Plant. (Praha)35(2): 209-215|1993|10.1007/BF02925940
190340|T||Garcia,M.D., and M.D.C. Molina|Embryo Rescue and Induction of Somatic Embryogenesis as a Method to Overcome Seed Inviability in Zea mays ssp. mays x Zea mays ssp. parviglumis Crosses|Biol. Plant. (Praha)44(4): 497-501|2001|10.1023/A:1013718015315
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190637|A||Rees,J.F., P. Petit, and F. Baguet|Adrenergic Control of Luminescence and Cellular Metabolism in Porichthys Isolated Luminous Organs|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.94(2): 521-525|1989|10.1016/0742-8413(89)90107-2
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190687|A||Dow Corning Corp.|ZMAT Number 4054114: Acute Toxicity to the Cladoceran (Daphnia magna) Under Static Test Conditions|Report Number 2010-10000-62364:22 p.|2010|
190688|A||Dow Corning Corp.|Acute Toxicity to the Rainbow Trout (Oncorhynchus mykiss) Under Static Test Conditions|HES Study Number 10892-102:56 p.|2009|
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190826|T||Grolleau,F., and D.B. Sattelle|Single Channel Analysis of the Blocking Actions of BIDN and Fipronil on a Drosophila melanogaster GABA Receptor (RDL) Stably Expressed in a Drosophila Cell Line|Br. J. Pharmacol.130(8): 1833-1842|2000|10.1038/sj.bjp.0703507
190827|T||Hamon,A., H. Le Corronc, B. Hue, J.J. Rauh, and D.B. Sattelle|BIDN, a Bicyclic Dinitrile Convulsant, Selectively Blocks GABA-Gated Cl- Channels|Brain Res.780(1): 20-26|1998|10.1016/S0006-8993(97)00895-0
190828|T||Debus,R., and P. Schroder|Responses of Petunia hybrida and Phaseolus vulgaris to Fumigation with Difluoro-Chloro-Bromo-Methane (Halon 1211)|Chemosphere21(12): 1499-1505|1990|10.1016/0045-6535(90)90055-X
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190832|T||Yao,Y., Z. Lan, H. Zhu, J. Xu, and H. Sun|Foliar Uptake Overweighs Root Uptake for 8:2 Fluorotelomer Alcohol in Ryegrass (Lolium perenne L.): A Closed Exposure Chamber Study|Sci. Total Environ.829:8 p.|2022|10.1016/j.scitotenv.2022.154660
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190836|T||Nyanikova,G.G., L.M. Popova, I.N. Gaidukov, O.P. Shabrina, and S.V. Vershilov|Biocidal Activity of the Esterification Products of Polyfluoroalkyl Alcohols and Pentafluorophenol with Resin Acids|Russ. J. Gen. Chem.83(13): 2738-2744|2013|10.1134/S1070363213130203
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190839|T||Gorbunoff,M.J.|Exposure of Tyrosine Residues in Proteins. II. The Reactions of Cyanuric Fluoride and N-Acetylimidazole with Pepsinogen, Soybean Trypsin Inhibitor, and Ovomucoid|Biochemistry (Wash.)7(7): 2547-2554|1968|10.1021/bi00847a015
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190845|T||Saxena,Y., A. Pathak, R. Chawla, and K. Saxena|Field Efficacy of Four Second Generation Anticoagulants in Controlling Rodent infestation|Ann. Arid Zone32(4): 279-280|1993|
190846|T||Witmer,G.|Final Report: QA-1428 Evaluating Commercially Available Rodenticide Baits for Efficacy with Gambian Giant Pouched Rats|Final Report, QA-1428. USDA APHIS WS National Wildlife Research Center, Fort Collins, CO:11 p.|2008|
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190854|T||Spatz,B.|HHCB: Effects on Terrestrial (Non-Target) Plants: Seedling Emergence and Seedling Growth Test|Technical Report, International Flavors and Fragrances, New York:60 p.|2019|
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190864|T||Rowe,F.P., and R. Redfern|The Effect of Warfarin on Plasma Clotting Time in Wild House Mice (Mus musculus L.)|J. Hyg.66:159-174|1968|10.1017/S0022172400041024
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190867|T||Siddiqui,S.M., and J.L. Fry|Studies with Warfarin on the Incidence of Blood Spots and in Relation to Prothrombin Time, Egg Quality and Mortality in Laying Hens|Poult. Sci.42(5): 1125-1130|1963|10.3382/ps.0421125
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190872|A||Gui,W., H. Guo, X. Chen, J. Wang, Y. Guo, H. Zhang, X. Zhou, Y. Zhao, and J. Dai|Emerging Polyfluorinated Compound Nafion By-Product 2 Disturbs Intestinal Homeostasis in Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.249:8 p.|2023|10.1016/j.ecoenv.2022.114368
190873|T||Afek,U., J. Orenstein, S. Carmeli, V. Rodov, and M.B. Joseph|Umbelliferone, a Phytoalexin Associated with Resistance of Immature Marsh Grapefruit to Penicillium digitatum|Phytochemistry50(7): 1129-1132|1999|10.1016/S0031-9422(98)00671-2
190875|T||Ashraf,Z., M. Rafiq, S.Y. Seo, M.M. Babar, and N.U.S.S. Zaidi|Design, Synthesis and Bioevaluation of Novel Umbelliferone Analogues as Potential Mushroom Tyrosinase Inhibitors|J. Enzyme Inhib. Med. Chem.30(6): 874-883|2015|10.3109/14756366.2014.979346
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190877|T||Berenbaum,M.|Toxicity of a Furanocoumarin to Armyworms - Case of Biosynthetic Escape from Insect Herbivores|Science201(4355): 532-534|1978|10.1126/science.201.4355.532
190878|T||Cui,J., M.L. Li, and M.S. Yuan|Semisynthesis of N-Acyl Homoserinelactone Derivatives and the Antifeedant Activity Against Mythimna separata|J. Environ. Sci. Health Part B Pestic. Food Contam. Agric. Wastes48(8): 671-676|2013|
190879|T||De Andrade Goncalves,P., M.C. Dos Santos Junior, C. Do Sacramento Sousa, A. Goes-Neto, E.D.M.N. Luz, V.O. Damaceno, A.R|Study of Sodium 3-Hydroxycoumarin as Inhibitors In Vitro, In Vivo and In Silico of Moniliophthora perniciosa Fungus|Eur. J. Plant Pathol.153(1): 15-27|2019|10.1007/s10658-018-1536-2
190880|T||Dean,J.V., and J.H. Machota|Activation of Corn Glutathione-S-Transferase Enzymes by Coumaric Acid and 7-Hydroxycoumarin|Phytochemistry34(2): 361-365|1993|10.1016/0031-9422(93)80009-H
190881|A||Xu,Y., W.J. Xu, X.J. Hu, H.C. Su, G.L. Wen, K. Yang, and Y.C. Cao|Toxicity of the Microcystin-Producing Cyanobacteria Microcystis aeruginosa to Shrimp Litopenaeus vannamei|Ecotoxicology31(9): 1403-1412|2022|10.1007/s10646-022-02597-5
190882|A||Kang,H.M., J. Lee, Y.J. Lee, Y. Park, E. Lee, A.Y. Shin, J. Han, H.S. Lee, J.S. Lee, and K.W. Lee|Transcriptional and Toxic Responses to Saxitoxin Exposure in the Marine Copepod Tigriopus japonicus|Chemosphere309:9 p.|2022|10.1016/j.chemosphere.2022.136464
190883|T||Liu,X., J.C. Ye, F. Li, R.J. Gao, X.X. Wang, J.L. Cheng, B.L. Liu, L. Xiang, Y.W. Li, Q.Y. Cai, H.M. Zhao, C.H. Mo, and|Revealing Microcystin-LR Ecotoxicity to Earthworm (Eisenia fetida) at the Intestinal Cell Level|Chemosphere311:10 p.|2023|10.1016/j.chemosphere.2022.137046
190884|A||Cheng,C., A.D. Steinman, Q.J. Xue, X. Wan, and L.Q. Xie|The Disruption of Calcium and Hydrogen Ion Homeostasis of Submerged Macrophyte Vallisneria natans (Lour.) Hara Caused by Microcystin-LR|Aquat. Toxicol.254:11 p.|2023|10.1016/j.aquatox.2022.106377
190886|A||Wu,J.L., S.M. Hou, L. Yang, Y.R. Wang, C.E. Wen, Y.P. Guo, S.S. Luo, H.H. Fang, H. Jiao, H. Xu, and S.P. Zhang|P62/SQSTM1 Upregulates NQO1 Transcription via Nrf2/Keap1a Signaling Pathway to Resist Microcystins-Induced Oxidative Stress in Freshwater Mussel Cristaria plicata|Aquat. Toxicol.255:15 p.|2023|10.1016/j.aquatox.2023.106398
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190888|A||Ministry of Technology|Water Pollution Research 1965|Her Majesty's Stationery Office, HMSO, London, England, UK:116 p.|1965|
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190890|T||Roh,E.J.|Inhibitory Effects of Coumarin Derivatives on Tyrosinase|Molecules26(8): 2346-2346|2021|10.3390/molecules26082346
190891|T||Pan,L., X. Li, H. Jin, X. Yang, and B. Qin|Antifungal Activity of Umbelliferone Derivatives: Synthesis and Structure-Activity Relationships|Microb. Pathog.104:110-115|2017|10.1016/j.micpath.2017.01.024
190892|T||Pan,L., X.Z. Li, Z.Q. Yan, H.R. Guo, and B. Qin|Phytotoxicity of Umbelliferone and Its Analogs: Structure-Activity Relationships and Action Mechanisms|Plant Physiol. Biochem.97:272-277|2015|10.1016/j.plaphy.2015.10.020
190893|T||Hossain,M.D., and M. Fujita|Effect of Esculetin on Activities of Pumpkin Glutathione S-Transferases and Growth of Pumpkin Seedlings|Biol. Plant. (Praha)53(3): 565-568|2009|10.1007/s10535-009-0102-3
190894|AT||Liu,G.L., L. Liu, Y. Hu, and G.X. Wang|Evaluation of the Antiparasitic Activity of Coumarin Derivatives Against Dactylogyrus intermedius in Goldfish (Carassius auratus)|Aquaculture533:7 p.|2021|
190895|AT||Liu,G.L., B. Hao, S.P. Liu, and G.X. Wang|Synthesis and Anthelmintic Activity of Osthol Analogs Against Dactylogyrus intermedius in Goldfish|Eur. J. Med. Chem.54:582-590|2012|10.1016/j.ejmech.2012.06.009
190896|T||Matos,M.J., L. Santana, E. Uriarte, S. Serra, M. Corda, M.B. Fadda, B. Era, and A. Fais|Tyrosine-Like Condensed Derivatives as Tyrosinase Inhibitors|J. Pharm. Pharmacol.64(5): 742-746|2012|10.1111/j.2042-7158.2012.01467.x
190897|T||Misra,S., L.K. Singh, Priyanka, J. Gupta, S. Misra-Bhattacharya, and D. Katiyar|Synthesis and Biological Evaluation of 4-Oxycoumarin Derivatives as a New Class of Antifilarial Agents|Eur. J. Med. Chem.94:211-217|2015|10.1016/j.ejmech.2015.02.043
190898|T||Haas,J., J. Glaubitz, U. Koenig, and R. Nauen|A Mechanism-Based Approach Unveils Metabolic Routes Potentially Mediating Chlorantraniliprole Synergism in Honey Bees, Apis mellifera L., by Azole Fungicides|Pest Manag. Sci.78(3): 965-973|2022|10.1002/ps.6706
190899|A||Lovin,L.M., S. Kim, R.B. Taylor, K.R. Scarlett, L.M. Langan, C.K. Chambliss, S. Chatterjee, J.T. Scott, and B.W. Brooks|Differential Influences of () Anatoxin-A on Photolocomotor Behavior and Gene Transcription in Larval Zebrafish and Fathead Minnows|Environ. Sci. Eur.33(1): 1-24|2021|10.1186/s12302-021-00479-x
190900|T||Atkins,E.L.,Jr., L.D. Anderson, and T.O. Tuft|Effect of Pesticides on Honeybees Relative Toxicity of Pesticide Dusts Studied in Laboratory Tests with Controlled Temperature, Humidity and Time|Calif. Agric.9(4): 5,14|1955|
190901|T||De Paiva,A.C.R., V.H. Beloti, F.H. Iost Filho, and P.T. Yamamoto|Acute Toxicity and Duration of Harmful Activity of Nine Insecticides on Trichogramma pretiosum, a Parasitoid Used in Augmented Biological Control of Helicoverpa spp. in Brazilian Soybean Fields|Int. J. Pest Manag.:1-9|2021|10.1080/09670874.2021.1969468
190902|T||Carvalho,G.A., M.S. Godoy, D.S. Parreira, and D.T. Rezende|Effect of Chemical Insecticides Used in Tomato Crops on Immature Trichogramma pretiosum (Hymenoptera: Trichogrammatidae) (Efecto de Insecticidas Quimicos Usados en el Cultivo de Tomate Sobre Inmaduros de Trichogramma pr|Rev. Colombiana Entomol.36(1): 10-15|2010|10.25100/socolen.v36i1.9111
190903|T||Thomazoni,D., M.F. Soria, C. Kodama, V. Carbonari, R.P. Fortunato, P.E. Degrande, and V.A.,Jr. Valter|Selectivity of Insecticides for Adult Workers of Apis mellifera (Hymenoptera: Apidae) (Selectividad de Insecticidas Sobre Obreras Adultas de Apis mellifera (Hymenoptera: Apidae))|Rev. Colombiana Entomol.35(2): 173-176|2009|10.25100/socolen.v35i2.9212
190904|T||Nawaz,A., A. Habib, F. Sajid, M. Sufyan, M.A. Qayyum, R. Azad, N. Yasir, A. Bodlah Muhamamd, and K.A. Khan|Analysis of Food Resources, Host Availability and Insecticidal Impacts on the Fecundity, Longevity and Parasitism Efficiency of Diaeretiella rapae (M'intosh)|Int. J. Trop. Insect Sci.41(4): 2883-2896|2021|10.1007/s42690-21-472-0
190905|T||Gooley,Z.C., and A.C. Gooley|Metabolic Effects of Anesthetics (Cold, CO2, and Isoflurane) and Captivity Conditions in Isolated Honey Bee (Apis mellifera) Foragers under Different Ambient Temperatures|J. Apic. Res.:1-9|2021|10.1080/00218839.2021.1950994
190907|A||Hegarty,J.M., H. Yang, and N.C. Chi|UBIAD1-Mediated Vitamin K2 Synthesis is Required for Vascular Endothelial Cell Survival and Development|Bul. Gradinii Bot. Lasi 140(8): 1713-1719|2013|
190908|A||Neacsu,C.D., M. Grosch, M. Tejada, A. Winterpacht, M. Paulsson, R. Wagener, and A. Tagariello|Ucmaa (Grp-2) is Required for Zebrafish Skeletal Development. Evidence for a Functional Role of Its Glutamate gamma-Carboxylation|Matrix Biol.30(7-8): 369-378|2011|10.1016/j.matbio.2011.07.002
190909|A||Pes,K., A. Friese, C.J. Cox, V. Laize, and I. Fernandez|Biochemical and Molecular Responses of the Mediterranean Mussel (Mytilus galloprovincialis) to Short-Term Exposure to Three Commonly Prescribed Drugs|Mar. Environ. Res.168:11 p.|2021|10.1016/j.marenvres.2021.105309
190910|T||Rowe,F.P., and A.H.J. Chudley|Control of the House Mouse (Mus musculus L.) with Whole Wheat Soaked in a Solution of the Sodium Salt of Warfarin|Parasitica17:165-169|1961|
190911|T||Rowe,F.P., and A.H.J. Chudley|Combined Use of Rodenticidal Dust and Poison Solution Against House-Mice (Mus musculus L.) Infesting a Food Store|J. Hyg.61:169-174|1963|10.1017/S0022172400020878
190912|T||Rowe,F.P., and R. Redfern|The Toxicity of 0-025 Per Cent Warfarin to Wild House-Mice (Mus musculus L.)|J. Hyg.62:389-393|1964|10.1017/S0022172400040109
190913|T||Macias,F.A., A.M. Simonet, J.C.G. Galindo, and D. Castellano|Bioactive Phenolics and Polar Compounds from Melilotus messanensis|Phytochemistry50(1): 35-46|1999|10.1016/S0031-9422(98)00453-1
190914|T||Zhan,E.L., Y. Wang, J. Jiang, Z.Q. Jia, T. Tang, Z.J. Song, Z.J. Han, and C.Q. Zhao|Influence of Three Insecticides Targeting GABA Receptor on Fall Armyworm Spodoptera frugiperda: Analyses from Individual, Biochemical and Molecular Levels|Pestic. Biochem. Physiol.179:7 p.|2021|10.1016/j.pestbp.2021.104973
190915|T||Huang,Q.T., C.W. Sheng, A.K. Jones, J. Jiang, T. Tang, Z.J. Han, and C.Q. Zhao|Functional Characteristics of the Lepidopteran Ionotropic GABA Receptor 8916 Subunit Interacting with the LCCH3 or the RDL Subunit|J. Agric. Food Chem.69(39): 11582-11591|2021|10.1021/acs.jafc.1c00385
190918|T||Williams,D.F., and K.M. Vail|Control of a Natural Infestation of the Pharaoh Ant (Hymenoptera, Formicidae) with a Corn Grit Bait of Fenoxycarb|J. Econ. Entomol.87(1): 108-115|1994|10.1093/jee/87.1.108
190919|T||Shen,N., G.Y. Liu, T.Y. Mou, Y.B. Ma, Y. Li, Z.J. Song, T. Tang, Z.J. Han, and C.Q. Zhao|Novel Meta-Diamide Insecticide, Broflanilide, Suppresses the Population of Common Cutworm Spodoptera litura Through Its Lethal and Sublethal Effects|Pest Manag. Sci.78(3): 1081-1089|2022|10.1002/ps.6719
190921|T||Tsikolia,M., U.R. Bernier, D.E. Wedge, N. Tabanca, K.A. Abboud, and K.J. Linthicum|Fungicidal Properties of Some Novel Trifluoromethylphenyl Amides|Chem. Biodivers.16(5): 11 p.|2019|10.1002/cbdv.201800618
190922|A||Schweitzer,L.E., and J.E. Bay|Relative Toxicity of PCB Congeners to Sea Urchin Embryos|Southern California Coastal Water Research Project 1996 Annual Report:90-95|1996|
190923|T||Mota Filho,T.M.M., R. Camargo, L.E.P. Stefanelli, J.C. Zanuncio, A. Dos Santos, C. De Matos, and L.C. Forti|Allogrooming, Self-Grooming, and Touching Behavior as a Mechanism to Disperse Insecticides inside Colonies of a Leaf-Cutting Ant|Neotrop. Entomol. (Multiple Languages)51(1): 73-80|2022|10.1007/s13744-021-00927-6
190924|T||Hrudka,F., and A.H. Eljack|The Effect of Ethylene Dibromide on Differentiation of the Acrosome, Nucleus, and Transient Nuclear Appendages in Ram Spermatids|J. Ultrastruct. Res.67(2): 135-151|1979|10.1016/S0022-5320(79)80003-9
190925|T||Al-Ahmadi,M.S.|Cytogenetic and Cytotoxic Effect of Pirimiphos-Methyl 50% EC and Acetamiprid 20% SP Insecticides on Mitotic Chromosomes and DNA Content of Allium sativum|J. Food Agric. Environ.14(3/4): 41-47|2016|
190926|A||Wang,W., H. Zhang, L. Wei, Y. Ma, H. Jiang, C.N.T. Yuen, J. Zhang, H. Wu, and Y. Shu|Microcystin-Leucine Arginine Causes Brain Injury and Functional Disorder in Lithobates catesbeianus Tadpoles by Oxidative Stress and Inflammation|Aquat. Toxicol.258:9 p.|2023|
190927|A||He,Z., Y. Chen, D. Huo, J. Gao, Y. Xu, R. Yang, Y. Yang, and G. Yu|Combined Methods Elucidate the Multi-Organ Toxicity of Cylindrospermopsin (CYN) on Daphnia magna|Environ. Pollut.324:12 p.|2023|
190928|T||Wang,W., J. Zhang, J. Wu, R. Yu, Y. Zhang, L. Sun, and Y. Gao|Acute Toxicity and Ecotoxicological Risk Assessment of Three Volatile Pesticide Additives on the Earthworm - Eisenia fetida|Int. J. Environ. Res. Public Health18:11 p.|2021|
190929|T||Economou-Stamatelopoulou,C., G.P. Roussopoulos, J.C. Prouskas, and M. Apostolopoulos|Antifungal Activity of Intraocularly Used Liquids Against Aspergillus|Ophthalmologica218(5): 323-326|2004|10.1159/000079474
190931|A||Sotnikov,O.S., T.N. Kokurina, I.N. Kuznetsova, and N.Y. Vasyagina|Water Translocation from the Axial Cylinder to Myelin Sheath Structures of the Nerve Fiber|Bull. Exp. Biol. Med.151(6): 757-760|2011|10.1007/s10517-011-1433-6
190932|T||Roy,S., J. De, S. Kundu, A. Biswas, M. Pramanik, and A.K. Ray|Estradiol-17beta: Tracing Its Metabolic Significance in Female Fatbody of Fifth Instar Larvae of Silkworm, Bombyx mori L. (Race: Nistari)|Life Sci.80(5): 446-453|2007|10.1016/j.lfs.2006.09.032
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190935|A||Crespo-Picazo,J.L., D. Garcia-Parraga, F. Domenech, J. Tomas, F.J. Aznar, J. Ortega, and J.M. Corpa|Parasitic Outbreak of the Copepod Balaenophilus manatorum in Neonate Loggerhead Sea Turtles (Caretta caretta) from a Head-Starting Program|BMC Vet. Res.13(1): 7 p.|2017|10.1186/s12917-17-1074-8
190936|T||Park,M.K., M.R. Rhyu, B.K. Yoon, H.Y. Kwon, S. Jang, and Y.J. Lee|Modulation of the Genomic Estrogen Receptor Pathway by Water Extracts of Cirsium japonicum|Arch. Pharm. Res. (Seoul)31(2): 225-230|2008|10.1007/s12272-1-1145-y
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190938|T||Bushnell,W.R.|Elimination of Microflora from Barley Kernels with Ethylene-Oxide|Can. J. Plant Sci.53(1): 47-52|1973|10.4141/cjps73-007
190940|T||Xia,M., R. Huang, Q. Shi, W.A. Boyd, J. Zhao, N. Sun, J.R. Rice, P.E. Dunlap, A.J. Hackstadt, M.F. Bridge, M.V. Smith, |Comprehensive Analyses and Prioritization of Tox21 10k Chemicals Affecting Mitochondrial Function by in-Depth Mechanistic Studies|Environ. Health Perspect.126(7): 16 p.|2018|10.1289/EHP2589
190941|A||Zhao,Z.L., X.Y. Zheng, Z.S. Han, S.S. Yang, H.J. Zhang, T. Lin, and C. Zhou|Response Mechanisms of Chlorella sorokiniana to Microplastics and PFOA Stress: Photosynthesis, Oxidative Stress, Extracellular Polymeric Substances and Antioxidant System|Chemosphere323:10 p.|2023|10.1016/j.chemosphere.2023.138256
190942|A||Greer,J.B., E.M. Dalsky, R.F. Lane, and J.D. Hansen|Establishing an In Vitro Model to Assess the Toxicity of 6PPD-Quinone and Other Tire Wear Transformation Products|Environ. Sci. Technol. Lett.10:533-537|2023|10.1021/acs.estlett.3c00196
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190947|T||Lokke,H., and F. Bro-Rasmussen|Studies of Mobility of Di-iso-butyl phthalate (DiBP), Di-n-butyl phthalate (DBP), and Di-(2-ethyl hexyl) phthalate (DEHP) by Plant Foliage Treatment in a Closed Terrestrial Simulation Chamber|Chemosphere10(11/12): 1223-1235|1981|10.1016/0045-6535(81)90039-4
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190958|A||Wang,K., W. Che, M. Duan, C. Wang, X. Li, and L. He|Effects of Broflanilide on Oxidative Stress and Expression of Apoptotic Genes in Zebrafish (Danio rerio) Gill|Bull. Environ. Contam. Toxicol.110(5): 6 p.|2023|10.1007/s00128-023-03733-5
190959|A||Liu,Y., B. Gao, Q.Y. Yue, Y. Guan, Y. Wang, and L. Huang|Influences of Two Antibiotic Contaminants on the Production, Release and Toxicity of Microcystins|Ecotoxicol. Environ. Saf.77(1): 79-87|2012|10.1016/j.ecoenv.2011.10.027
190960|A||Wang,Y., S. Qin, Y. Li, G. Wu, Y. Sun, L. Zhang, Y. Huang, K. Lyu, Y. Chen, and Z. Yang|Combined Effects of ZnO Nanoparticles and Toxic Microcystis on Life-History Traits of Daphnia magna|Chemosphere233:482-492|2019|10.1016/j.chemosphere.2019.05.269
190961|A||Huang,J., Y.R. Li, Q.M. Zhou, Y.F. Sun, L. Zhang, L. Gu, K. Lyu, Y. Huang, Y.F. Chen, and Z. Yang|Non-Toxic and Toxic Microcystis aeruginosa Reduce the Tolerance of Daphnia pulex to Low Calcium in Different Degrees: Based on the Changes in the Key Life-History Traits|Chemosphere248:12 p.|2020|
190962|A||Li,Y., Y. Zhu, L. Ma, J. Huang, Y. Sun, L. Zhang, K. Lyu, and Z. Yang|Toxic Microcystis Reduces Tolerance of Daphnia to Increased Chloride, and Low Chloride Alleviates the Harm of Toxic Microcystis to Daphnia|Chemosphere260:11 p.|2020|10.1016/j.chemosphere.2020.127594
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190970|A||Guo,M., X. Liu, C. Dong, F. Wu, Q. Geng, F. Li, and Z. Tan|New Insights into the Oxidative Damage and Antioxidant Defense Mechanism in Manila Clams (Ruditapes philippinarum) Exposed to 8:2 Polyfluoroalkyl Phosphate Diester Stress|Aquat. Toxicol.259:9 p.|2023|10.1016/j.aquatox.2023.106500
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190972|T||Mullins,L.R., D.J. Brown, S.R. Lovsey, T.A. Bowers, and S.N. Gershman|Roundup and Immune Challenge Have Different Effects on a Native Field Cricket and Its Introduced Competitor|Environ. Sci. Pollut. Res.:13 p.|2023|10.1007/s11356-023-27866-6
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190977|T||Monro,H.A.U., A.J. Musgrave, and E. Upitis|Induced Tolerance of Stored-Product Beetles to Methyl Bromide|Ann. Appl. Biol.49(2): 373-377|1961|10.1111/j.1744-7348.1961.tb03626.x
190978|T||Gordon,J.M., J.F.,IV Velenovsky, and T. Chouvenc|Subterranean Termite Colony Elimination can be Achieved even when only a Small Proportion of Foragers Feed Upon a CSI Bait|J. Pest Sci.95(3): 1207-1216|2021|10.1007/s10340-21-1446-4
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190985|A||Yang,Y.M., A.F. Li, J.B. Qiu, W.H. Yan, L.L. Han, D.Y. Li, and C. Yin|Effects of Lipophilic Phycotoxin Okadaic Acid on the Early Development and Transcriptional Expression of Marine Medaka Oryzias melastigma|Aquat. Toxicol.260:11 p.|2023|10.1016/j.aquatox.2023.106576
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190989|A||Greer,J.B., E.M. Dalsky, R.F. Lane, and J.D. Hansen|Tire-Derived Transformation Product 6PPD-Quinone Induces Mortality and Transcriptionally Disrupts Vascular Permeability Pathways in Developing Coho Salmon|Environ. Sci. Technol.57:10940-10950|2023|10.1021/acs.est.3c01040
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190991|T||Soares,A.D.F.T., and G.A. Carvalho|Physiological Selectivity of Insecticides to Eggs and Larvae of Predator Chrysoperla externa (Hagen) (Neuroptera: Chrysopidae)|Coffee Science13(3): 292-303|2018|10.25186/cs.v13i3.1441
190992|A||Yan,X.J., F. Zhao, G.S. Wang, Z. Wang, M.X. Zhou, L.M. Zhang, G.X. Wang, and Y.S. Chen|Metabolomic Analysis of Microcystis aeruginosa after Exposure to the Algicide L-Lysine|Bull. Environ. Contam. Toxicol.110(1): 12 p.|2023|10.1007/s00128-022-03658-5
190993|A||Zhang,T.Y., X. Wang, Y. Qu, X.L. Zhang, Q.Q. Zhang, D.L. Yang, Q. Wang, Z.J. Dong, and J.M. Zhao|Intestinal Microbiota Perturbations in the Gastropod Trochus niloticus Concurrently Exposed to Ocean Acidification and Environmentally Relevant Concentrations of Sulfamethoxazole|Chemosphere311:11 p.|2023|10.1016/j.chemosphere.2022.137115
190994|T||Balasurya,S., M.K. Okla, H. Abdelgawad, A.A. Al-Ghamdi, M.A. Abdel-Maksoud, S.S. Al-Amri, M.M.Y. Madany, and S.S. Khan|Sunlight Promoted Self-Fenton Photodegradation and Pathway of Doxycycline: Interactive Effects of Nanomaterial on Bean Plant and Its Genotoxicity against Allium cepa|Chemosphere313:11 p.|2023|10.1016/j.chemosphere.2022.137286
190995|A||Li,H.M., Y.C. Zhang, Y.Y. Li, Q.Q. Zhu, J. Li, H.M. Xu, Y.M. Xiong, and Z.F. Qin|Low Concentrations of Benzophenone-Type UV-Filters Impair Testis Development in the Amphibian Xenopus laevis|Aquat. Toxicol.254:9 p.|2023|10.1016/j.aquatox.2022.106371
190996|A||Song,W., C.X. Fu, Y.N. Fang, Z.Y. Wang, J. Li, X.L. Zhang, K. Bhatt, L. Liu, N.J. Wang, F. Liu, and S.N. Zhu|Single and Combined Toxicity Assessment of Primary or UV-Aged Microplastics and Adsorbed Organic Pollutants on Microalga Chlorella pyrenoidosa|Environ. Pollut.318:9 p.|2023|10.1016/j.envpol.2022.120925
190997|A||Zhou,W., Z.F. Qin, Y.Y. Li, J.B. Li, Y.L. Shi, M.X. Dong, X. Li, Y.J. Zhang, and Y.D. He|Methimazole and Sodium Perchlorate Exert Anti-Thyroidal Effects in the T3-Induced Xenopus laevis Metamorphosis Assay: A Rapid Assay for Screening Thyroid Disrupting Chemicals|Aquat. Toxicol.257:6 p.|2023|10.1016/j.aquatox.2023.106431
190998|T||Liu,J., K. Sun, R. Zhu, X. Wang, M.G. Waigi, and S.Y. Li|Biotransformation of Bisphenol A In Vivo and In Vitro by Laccase-Producing Trametes hirsuta La-7: Kinetics, Products, and Mechanisms|Environ. Pollut.321:11 p.|2023|10.1016/j.envpol.2023.121155
190999|A||Pelaia,T., A.M. Rubin, and F. Seebacher|Bisphenol S Reduces Locomotor Performance and Modifies Muscle Protein Levels but not Mitochondrial Bioenergetics in Adult Zebrafish|Aquat. Toxicol.257:8 p.|2023|10.1016/j.aquatox.2023.106440
191000|A||Shinya,S., F. Nishibe, Y.B. Yohannes, M. Ishizuka, S.M. Nakayama, and Y. Ikenaka|Characteristics of Tissue Distribution, Metabolism, Effects on Brain Catecholamines, and Environmental Exposure of Frogs to Neonicotinoid Insecticides|Aquat. Toxicol.257:10 p.|2023|10.1016/j.aquatox.2023.106437
191001|A||Zhang,J., X.J. Xie, Q. Li, J. Wang, and S. Zhang|Combined Toxic Effects of TiO2 Nanoparticles and Organochlorines on Chlorella pyrenoidosa in Karst Area Natural Waters|Aquat. Toxicol.257:11 p.|2023|10.1016/j.aquatox.2023.106442
191002|T||Li,X.X., M.A. Li, N. Jiang, X.F. Yao, Q. Wang, H.J. Lv, C. Wang, and J. Wang|Evaluation of Soil Ecological Health after Exposure to Environmentally Relevant Doses of Di (2-Ethylhexyl) Phthalate: Insights from Toxicological Studies of Earthworms at Different Ecological Niches|Environ. Pollut.322:14 p.|2023|10.1016/j.envpol.2023.121204
191003|A||Hochmuth,J.D., C.R. Janssen, and K.A.C. De Schamphelaere|Temperature and Food Concentration have Limited Influence on the Mixture Toxicity of Copper and Microcystis aeruginosa to Daphnia magna|Environ. Toxicol. Chem.35(3): 742-749|2016|10.1002/etc.3235
191004|A||Guo,Y., N. Lu, Q. He, B.Y. Wang, S. Cao, and Y. Wang|Autophagy: A Newly Discovered Protective Mechanism in the Marine Rotifer Brachionus plicatilis in Response to BDE-47 Exposure|Aquat. Toxicol.259:7 p.|2023|10.1016/j.aquatox.2023.106536
191005|A||Baekelandt,S., N. Leroux, L. Burattin, C. Gerard, C. Delierneux, J.B. Robert, V. Cornet, and P. Kestemont|Estetrol Has a Lower Impact Than 17alpha-Ethinylestradiol on the Reproductive Capacity of Zebrafish (Danio rerio)|Aquat. Toxicol.259:8 p.|2023|10.1016/j.aquatox.2023.106505
191006|A||Alvarez-Mora,I., V. Bolliet, N. Lopez-Herguedas, M. Olivares, M. Monperrus, and N. Etxebarria|Metabolomics to Study the Sublethal Effects of Diazepam and Irbesartan on Glass Eels (Anguilla anguilla)|Aquat. Toxicol.259:11 p.|2023|10.1016/j.aquatox.2023.106547
191007|A||Zezulka,S., M. Kummerova, J. Smeringai, P. Babula, and J. Triska|Ambiguous Changes in Photosynthetic Parameters of Lemna minor L. After Short-Term Exposure to Naproxen and Paracetamol: Can the Risk Be Ignored?|Aquat. Toxicol.259:9 p.|2023|10.1016/j.aquatox.2023.106537
191008|A||Qian,Q.H., J. Song, Q. Pu, C. Chen, J. Yan, and H.L. Wang|Acute/Chronic Exposure to Bisphenol A Induced Immunotoxicity in Zebrafish and Its Potential Association with Pancreatic Cancer Risk|Aquat. Toxicol.258:12 p.|2023|10.1016/j.aquatox.2023.106514
191010|A||Zhao,C.S., X.H. Teng, W.Z. Yue, A.N. Suo, W.G. Zhou, and D.W. Ding|The Effect of Acute Toxicity from Tributyltin on Liza haematocheila Liver: Energy Metabolic Disturbance, Oxidative Stress, and Apoptosis|Aquat. Toxicol.258:11 p.|2023|10.1016/j.aquatox.2023.106506
191011|A||Wang,Y.H., S.N. Jiang, X. Chen, X.D. Liu, N. Li, Y. Nie, and G.H. Lu|Comparison of Developmental Toxicity of Benzophenone-3 and Its Metabolite Benzophenone-8 in Zebrafish|Aquat. Toxicol.258:9 p.|2023|10.1016/j.aquatox.2023.106515
191012|A||Wang,J.Y., L.J. Sun, X.J. Li, S.Q. Tao, F. Wang, Y. Shi, H.K. Guan, Y.H. Yang, and Z.G. Zhao|Alkali Exposure Induces Autophagy Through Activation of the MAPK pathway by ROS and Inhibition of mTOR in Eriocheir sinensis|Aquat. Toxicol.258:9 p.|2023|10.1016/j.aquatox.2023.106481
191013|A||Lei,D.Q., G.Y. Huang, S.Q. Qiu, X.P. Li, C.S. Wang, G.Z. Fang, L.T. Xie, and G.G. Ying|Exposure to Estrone Disrupts the Endocrine System of Western Mosquitofish (Gambusia affinis)|Aquat. Toxicol.257:10 p.|2023|10.1016/j.aquatox.2023.106457
191014|A||Wang,J., H.W. Cao, Y.P. Shi, H.B. Tian, F.F. Yu, M.X. Liu, and L. Gao|Exposure to Nitrate Induced Growth, Intestinal Histology and Microbiota Alterations of Bufo raddei Strauch Tadpoles|Aquat. Toxicol.258:10 p.|2023|10.1016/j.aquatox.2023.106477
191015|A||Sousa,M., S. Rodrigues, C. Pretti, V. Meucci, F. Battaglia, R. Freitas, and S.C. Antunes|A Forecast Effects of Climate Change and Anthropogenic Compounds in Gambusia holbrooki: Ecotoxicological Effects of Salinity and Metformin|Aquat. Toxicol.258:12 p.|2023|10.1016/j.aquatox.2023.106494
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191017|A||E.G. and G. Bionomics|[Sanitized] Acute Toxicity of S-160 to Rainbow Trout (Salmo gairdneri) |Report #BW-79-2-405:15 p.|1979|
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191029|T||Goblirsch,M., and J.J. Adamczyk|Using the Honey Bee (Apis mellifera L.) Cell Line AmE-711 to Evaluate Insecticide Toxicity|Environ. Toxicol. Chem.42(1): 88-99|2023|10.1002/etc.5500
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191032|T||Kim,S., K.A. Yoon, and S.H. Lee|Short Communication: Screening of Proof-of-Concept Mutations of Honey Bee Acetylcholinesterase 2 Conferring Resistance to Organophosphorus and Carbamate Insecticides|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.264:3 p.|2023|10.1016/j.cbpc.2022.109524
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191034|A||Roodt,A.P., S. Schaufelberger, and R. Schulz|Aquatic-Terrestrial Insecticide Fluxes: Midges as Neonicotinoid Vectors|Environ. Toxicol. Chem.42(1): 60-70|2023|10.1002/etc.5495
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191049|T||Stanley,J., S. Chandrasekaran, G. Preetha, and S. Kuttalam|Toxicity of Diafenthiuron to Honey Bees in Laboratory, Semi-Field and Field Conditions|Pest Manag. Sci.66(5): 505-510|2010|10.1002/ps.1900
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191053|T||Roth,M.A., C. Lahondere, and A.D. Gross|Discovering Aethina tumida Responses to Attractant and Repellent Molecules: A Potential Basis for Future Management Strategies|Pestic. Biochem. Physiol.192:10 p.|2023|10.1016/j.pestbp.2023.105386
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191056|T||Lourenco,C.T., S. Carvalho, S.M. Carvalho, O. Malaspina, and R.C. Nocelli|Determination of Fipronil LD50 for the Brazilian Bee Melipona scutellaris|Julius-Kuhn-Arch. (Multiple Languages)437:174-178|2012|10.5073/jka.2012.437.046
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191058|T||Lee,C., S. Jeong, C. Jung, and M. Burgett|Acute Oral Toxicity of Neonicotinoid Insecticides to Four Species of Honey Bee, Apis florea, A. cerana, A. mellifera, and A. dorsata|J. Apic31(1): 51-58|2016|10.17519/apiculture.2016.04.31.1.51
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191068|T||Hayward,A., K. Beadle, K.S. Singh, N. Exeler, M. Zaworra, M.T. Almanza, A. Nikolakis, C. Garside, J. Glaubitz, C. Bass,|The Leafcutter Bee, Megachile rotundata, is More Sensitive to N-Cyanoamidine Neonicotinoid and Butenolide Insecticides Than Other Managed Bees|Nat. Ecol. Evol.3(11): 1521-1524|2019|10.1038/s41559-019-1011-2
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191074|A||Savoca,D., A. Pace, V. Arizza, M. Arculeo, and R. Melfi|Controlled Uptake of PFOA in Adult Specimens of Paracentrotus lividus and Evaluation of Gene Expression in Their Gonads and Embryos|Environ. Sci. Pollut. Res.:26094-26106|2022|10.1007/s11356-022-23940-7
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191096|T||Hou,K., C. Cheng, B. Shi, W. Liu, Z. Du, B. Li, J. Wang, J.H. Wang, and L. Zhu|New Insights into the Effects of Chlorpyrifos on Soil Microbes: Carbon and Nitrogen Cycle Related Microbes in Wheat/Maize Rotation Agricultural Field|Environ. Pollut.318:12 p.|2023|10.1016/j.envpol.2022.120908
191097|A||Tan,J.F., C.Y. Liang, Y.F. Guo, H. Zou, Y.Q. Guo, J.H. Ye, L.P. Hou, and X.L. Wang|Thyroid Endocrine Disruption and Neurotoxicity of Gestodene in Adult Female Mosquitofish (Gambusia affinis)|Chemosphere313:8 p.|2023|
191098|T||Tian,L.L., L.Y. Ma, X.L. Chen, J. Ge, Y.N. Ma, R. Ji, and X.Y. Yu|Insights into the Accumulation, Distribution and Toxicity of Pyrene Associated with Microplastics in Rice (Oryza sativa L.) Seedlings|Chemosphere311:8 p.|2023|10.1016/j.chemosphere.2022.136988
191099|A||Li,Z., W.W. Wang, J.L. Li, and S.G. Ru|New Insight on the Mechanism of Eating Disorder in Females Based on Metabolic Differences of Bisphenol S in Female and Male Zebrafish|Environ. Pollut.317:12 p.|2023|10.1016/j.envpol.2022.120820
191100|A||Po,B.H.K., and C.M. Wood|Trans-Epithelial Potential (TEP) Response as an Indicator of Major Ion Toxicity in Rainbow Trout and Goldfish Exposed to 10 Different Salts in Ion-Poor Water|Environ. Pollut.276:12 p.|2021|10.1016/j.envpol.2021.116699
191101|A||Lu,W., W. Ahmed, M. Mahmood, W. Ou, J. Li, Y. Wang, Y. Jie, W. Xu, X. Fu, H. Zhao, W. Liu, W. Li, and S. Mehmood|A Study on the Effectiveness of Sodium Selenite in Treating Cadmium and Perfluoro Octane Sulfonic (PFOS) Poisoned Zebrafish (Danio rerio)|Biol. Trace Elem. Res.:13 p.|2023|10.1007/s12011-023-03654-8
191102|A||Suski,J.G., M.K. Chanov, C. Heron, J. Field, and C.J. Salice|Ecotoxicity and Accumulation of Perfluorononanoic Acid  in the Fathead Minnow (Pimephales promelas) and an Approach to Developing Protective Thresholds in the Aquatic Environment Through Species Sensitivity Distribution|Environ. Toxicol. Chem.:1-8|2023|10.1002/etc.5692
191103|A||Liu,S., L. Yan, Y. Zhang, M. Junaid, and J. Wang|Toxicological Effects of Polystyrene Nanoplastics and Perfluorooctanoic Acid to Gambusia affinis|Fish Shellfish Immunol.127:1100-1112|2022|10.1016/j.fsi.2022.06.064
191104|A||Manera,M., G. Castaldelli, and L. Giari|Perfluorooctanoic Acid Affects Thyroid Follicles in Common Carp (Cyprinus carpio)|Int. J. Environ. Res. Public Health19(15): 9049-9060|2022|10.3390/ijerph19159049
191105|T||Zhong,H., L.J. Hribar, J.C. Daniels, M.A. Feken, C. Brock, and M.D. Trager|Aerial Ultra-Low-Volume Application of Naled: Impact on Nontarget Imperiled Butterfly Larvae (Cyclargus thomasi bethunebakeri) and Efficacy Against Adult Mosquitoes (Aedes taeniorhynchus)|Environ. Entomol.39(6): 1961-1972|2010|10.1603/EN10089
191106|A||Manera,M., F. Casciano, and L. Giari|Ultrastructural Alterations of the Glomerular Filtration Barrier in Fish Experimentally Exposed to Perfluorooctanoic Acid|Int. J. Environ. Res. Public Health20(7): 5253-5264|2023|10.3390/ijerph20075253
191107|A||Zhang,J., N. Sun, J. Sun, B. Wang, X. Chen, J. Liu, B. Zhao, and Z. Yuan|The Combined Effects of Wood Vinegar and Perfluorooctanoic Acid on Enzymatic Activities, DNA Damage and Gene Transcription in Dugesia japonica|Chem. Ecol.38(6): 527-543|2022|10.1080/02757540.2022.2094371
191108|A||Solan,M.E., M.E. Franco, and R. Lavado|Effects of Perfluoroalkyl Substances (PFASs) and Benzo[a]Pyrene (BaP) Co-Exposure on Phase I Biotransformation in Rainbow Trout (Oncorhynchus mykiss)|Fish Physiol. Biochem.48(4): 925-935|2022|10.1007/s10695-022-01093-1
191109|A||Petre,V.A., F.L. Chiriac, I.E. Lucaciu, I. Paun, F. Pirvu, V.I. Iancu, L. Novac, and S. Gheorghe|Tissue Bioconcentration Pattern and Biotransformation of Per-Fluorooctanoic Acid (PFOA) in Cyprinus carpio (European Carp) - An Extensive In Vivo Study|Foods12(7): 1423-1444|2023|10.3390/foods12071423
191111|A||Lin,H., Y. Feng, Y. Zheng, Y. Han, X. Yuan, P. Gao, H. Zhang, Y. Zhong, and Z. Liu|Transcriptomic Analysis Reveals the Hepatotoxicity of Perfluorooctanoic Acid in Black-Spotted Frogs (Rana nigromaculata)|Diversity14(11): 10 p.|2022|10.3390/d14110971
191112|A||Xu,P., M. Junaid, Y. Liu, X. Jiang, Y. Chen, C. Bi, J. Wang, and N. Xu|Nanoplastics Influence the Perfluorooctane Sulfonate (PFOS) Mediated Toxicity on Marine Mussel Perna viridis: Single and Mixture Exposure Study|Gondwana Res.108:144-157|2022|10.1016/j.gr.2021.12.001
191113|A||Shi,C., H. Yang, M. Xu, T. Hua, M. He, Y. Yang, X. Hou, H. Zhang, and Z. Liu|PFOS Induces Lipometabolism Change, Immune Defense, and Endocrine Disorders in Black-Spotted Frogs: Application of Transcriptome Profiling|Diversity15(2): 196-209|2023|10.3390/d15020196
191114|A||Po,B.H.K., and C.M. Wood|Transepithelial Potential Remains Indicative of Major Ion Toxicity in Rainbow Trout (Oncorhynchus mykiss) After 4-Day Pre-Exposure to Major Salts|Aquat. Toxicol.246:10 p.|2022|10.1016/j.aquatox.2022.106132
191115|A||Horie,Y., M. Nomura, K. Okamoto, C. Takahashi, T. Sato, S. Miyagawa, H. Okamura, and T. Iguchi|Effect of Thyroid Hormone-Disrupting Chemicals on Swim Bladder Inflation and Thyroid Hormone-Related Gene Expression in Japanese Medaka and Zebrafish|J. Appl. Toxicol.42(8): 1385-1395|2022|10.1002/jat.4302
191116|A||Sun,B., M. Liu, L. Tang, X. Zhou, C. Hu, and L. Chen|Variability in Fecal Metabolome Depending on Age, PFBS Pollutant, and Fecal Transplantation in Zebrafish: A Non-Invasive Diagnosis of Health|J. Environ. Sci.127:530-540|2023|10.1016/j.jes.2022.06.019
191117|T||Beadle,K., K.S. Singh, B.J. Troczka, E. Randall, M. Zaworra, C.T. Zimmer, A. Hayward, R. Reid, L. Kor, M. Kohler, B. Bu|Genomic Insights into Neonicotinoid Sensitivity in the Solitary Bee Osmia bicornis|PLoS Genet.15(2): 19 p.|2019|10.1371/journal.pgen.1007903
191118|T||Hurst,T.P., P.A. Ryan, and B.H. Kay|Efficacy of Residual Insecticide Biflex AquaMax Applied as Barrier Treatments for Managing Mosquito Populations in Suburban Residential Properties in Southeast Queensland|J. Med. Entomol.49(5): 1021-1026|2012|10.1603/ME11278
191119|T||Trout,R.T., G.C. Brown, M.F. Potter, and J.L. Hubbard|Efficacy of Two Pyrethroid Insecticides Applied as Barrier Treatments for Managing Mosquito (Diptera: Culicidae) Populations in Suburban Residential Properties|J. Med. Entomol.44(3): 470-477|2007|10.1093/jmedent/44.3.470
191120|T||Salvato,M.H.|Influence of Mosquito Control Chemicals on Butterflies (Nymphalidae, Lycaenidae, Hersperiidae) of the Lower Florida Keys|J. Lepidop. Soc.55(1): 8-14|2001|
191121|A||Phelps,D.W., A.I. Palekar, H.E. Conley, G. Ferrero, J.H. Driggers, K.E. Linder, S.W. Kullman, D.M. Reif, M.K. Sheats, J|Legacy and Emerging Per- and Polyfluoroalkyl Substances Suppress the Neutrophil Respiratory Burst|J. Immunotoxicol.20(1): 16 p.|2023|10.1080/1547691X.2023.2176953
191122|A||Liu,S., W. Qiu, R. Li, B. Chen, X. Wu, J.T. Magnuson, B. Xu, S. Luo, E.G. Xu, and C. Zheng|Perfluorononanoic Acid Induces Neurotoxicity via Synaptogenesis Signaling in Zebrafish|Environ. Sci. Technol.57(9): 3783-3793|2023|10.1021/acs.est.2c06739
191123|A||Tang,L., W. Qiu, S. Zhang, J. Wang, X. Yang, B. Xu, J.T. Magnuson, E.G. Xu, M. Wu, and C. Zheng|Poly- and Perfluoroalkyl Substances Induce Immunotoxicity via the TLR Pathway in Zebrafish: Links to Carbon Chain Length|Environ. Sci. Technol.57(15): 6139-6149|2023|10.1021/acs.est.2c09716
191124|T||Shi,J., L. Zhang, and X. Gao|Characterisation of Spinosad Resistance in the Housefly Musca domestica (Diptera:  Muscidae)|Pest Manag. Sci.67(3): 335-340|2011|10.1002/ps.2073
191125|T||Kang,S.H., B.A. Song, J. Wu, M. He, D.Y. Hu, L.H. Jin, S. Zeng, W. Xue, and S. Yang|Design, Synthesis and Insecticidal Activities of Novel Acetamido Derivatives Containing N-Pyridylpyrazole Carboxamides|Eur. J. Med. Chem.67:14-18|2013|10.1016/j.ejmech.2013.06.023
191126|T||Meisner,J., K.R.S. Ascher, M. Zur, and C. Eizik|Synergistic and Antagonistic Interactions of Gossypol with Some OP-Compounds Demonstrated in Spodoptera littoralis Larvae by Topical Application|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)89(10): 571-574|1982|
191127|A||Rericha,Y., L. Truong, L. Connor, D. Cao, J.A. Field, and R.L. Tanguay|Dietary Perfluorohexanoic Acid (PFHxA) Exposures in Juvenile Zebrafish Produce Subtle Behavioral Effects Across Generations|Toxics10(7): 21 p.|2022|10.3390/toxics10070372
191128|A||Tang,L., J. Li, B. Sun, Y. Bai, X. Zhou, and L. Chen|Transcriptomic Interaction Between Young Fecal Transplantation and Perfluorobutanesulfonate in Aged Zebrafish Gonads|Toxics10(11): 16 p.|2022|10.3390/toxics10110631
191129|A||Hu,C., J. Li, M. Liu, P.K.S. Lam, and L. Chen|Young Fecal Transplantation Modulates the Visual Toxicity of Perfluorobutanesulfonate in Aged Zebrafish Recipients|Aquat. Toxicol.251:12 p.|2022|10.1016/j.aquatox.2022.106295
191130|A||Wu,Y., Q. Xiong, B. Wang, Y. Liu, P. Zhou, L. Hu, F. Liu, and G. Ying|Screening of Structural and Functional Alterations in Duckweed (Lemna minor) Induced by Per- and Polyfluoroalkyl Substances (PFASs) with FTIR Spectroscopy|Environ. Pollut.317:10 p.|2023|10.1016/j.envpol.2022.120671
191132|A||Xu,M., J. Legradi, and P. Leonards|A Comprehensive Untargeted Metabolomics Study in Zebrafish Embryos Exposed to Perfluorohexane Sulfonate (PFHxS)|Sci. Total Environ.887:11 p.|2023|10.1016/j.scitotenv.2023.163770
191133|A||Liu,G., X. Yan, C. Li, S. Hu, J. Yan, and B. Yan|Unraveling the Joint Toxicity of Transition-Metal Dichalcogenides and Per- and Polyfluoroalkyl Substances in Aqueous Mediums by Experimentation, Machine Learning and Molecular Dynamics|J. Hazard. Mater.443:13 p.|2023|10.1016/j.jhazmat.2022.130303
191134|A||Wasel,O., K.M. Thompson, and J.L. Freeman|Assessment of Unique Behavioral, Morphological, and Molecular Alterations in the Comparative Developmental Toxicity Profiles of PFOA, PFHxA, and PFBA Using the Zebrafish Model System|Environ. Int.170:14 p.|2022|10.1016/j.envint.2022.107642
191135|A||Min,E.K., H. Lee, E.J. Sung, S.W. Seo, M. Song, S. Wang, S.S. Kim, M.A. Bae, T. Kim, S. Lee, and K. Kim|Integrative Multi-Omics Reveals Analogous Developmental Neurotoxicity Mechanisms Between Perfluorobutanesulfonic Acid and Perfluorooctanesulfonic Acid in Zebrafish|J. Hazard. Mater.457:13 p.|2023|10.1016/j.jhazmat.2023.131714
191136|A||Truong,L., Y. Rericha, P. Thunga, S. Marvel, D. Wallis, M.T. Simonich, J.A. Field, D. Cao, D.M. Reif, and R.L. Tanguay|Systematic Developmental Toxicity Assessment of a Structurally Diverse Library of PFAS in Zebrafish|J. Hazard. Mater.431:10 p.|2022|10.1016/j.jhazmat.2022.128615
191137|T||Odetti,L.M., M.F. Simoniello, and G.L. Poletta|Alterations in the Expression of Antioxidant Enzyme Genes in Response to Pesticide Exposure During Embryonic Development in the Native Reptile Species Caiman latirostris|Bull. Environ. Contam. Toxicol.110(3): 6 p.|2023|
191138|T||Sugecti,S., A.B. Kepekci, and K. Buyukguzel|Effects of Midazolam on Antioxidant Levels, Biochemical and Metabolic Parameters in Eurygaster integriceps Puton (Hemiptera: Scutelleridae) Eggs Parasitized by Trissolcus semistriatus Nees (Hymenoptera: Scelionidae)|Bull. Environ. Contam. Toxicol.110(1): 7 p.|2023|10.1007/s00128-022-03648-7
191140|A||Ulhaq,Z.S., and W.K.F. Tse|Perfluorohexanesulfonic Acid (PFHxS) Induces Oxidative Stress and Causes Developmental Toxicities in Zebrafish Embryos|J. Hazard. Mater.457:16 p.|2023|10.1016/j.jhazmat.2023.131722
191141|T||Yang,H.X., J. Zhou, J.S. Fei, K.D. Ci, D. Li, J.B. Fan, C.Y. Wei, J.N. Liang, R.Z. Xia, and J. Zhou|Soil Ammonium (NH4+) Toxicity Thresholds for Restoration Grass Species|Environ. Pollut.318:11 p.|2023|
191142|T||Shi,X.X., J.L. Shi, L.T. Yu, and X.B. Wu|Metabolic Profiling of Apis mellifera Larvae Treated with Sublethal Acetamiprid Doses|Ecotoxicol. Environ. Saf.254:8 p.|2023|10.1016/j.ecoenv.2023.114716
191144|A||Hopkins,A.P., and J.T. Hoverman|Acute Aquatic Toxicity of Two Commonly Used Fungicides to Midwestern Amphibian Larvae|Ecotoxicology32(2): 188-195|2023|10.1007/s10646-023-02629-8
191145|A||Loureiro,C., A.P. Cuco, M.T. Claro, J.I. Santos, M.A. Pedrosa, F. Goncalves, and B.B. Castro|Progressive Acclimation Alters Interaction Between Salinity and Temperature in Experimental Daphnia Populations|Chemosphere139:126-132|2015|10.1016/j.chemosphere.2015.05.081
191146|A||Johnson,K.A.|Characterizing the Chronic Toxicity of Ion Mixtures to Ceriodaphnia dubia Using Two Experimental Designs|Ph.D. Thesis, Clemson University, Clemson, SC:56 p.|2014|
191147|A||Hanjavanit,C., K. Panchai, N. Kitancharoen, and K. Hatai|The Anti-Oomycetic Effects of Sodium Chloride and Potassium Permanganate and the Toxicity of These Compounds to Tilapia (Oreochromis niloticus) Eggs|Afr. J. Microbiol. Res.7(18): 1852-1857|2013|10.5897/AJMR12.2212
191148|T||Hoang,T.C., and G.M. Rand|Mosquito Control Insecticides: A Probabilistic Ecological Risk Assessment on Drift Exposures of Naled, Dichlorvos (Naled Metabolite) and Permethrin to Adult Butterflies|Sci. Total Environ.502:252-265|2015|10.1016/j.scitotenv.2014.09.027
191149|A||Munari,M., A. Devigili, D.P. Giulia, D. Asnicar, P. Pastore, D. Badocco, and M.G. Marin|Ocean Acidification, but not Environmental Contaminants, Affects Fertilization Success and Sperm Motility in the Sea Urchin Paracentrotus lividus|J. Mar. Sci. Eng.10(2): 14 p.|2022|10.3390/jmse10020247
191150|A||Liang,Y.Q., L.S. Zhong, M.L. Jiang, M.X. Lu, C.Y. Li, Z.D. Dong, and Z. Lin|Physiological and Transcriptional Effects in the Male Western Mosquitofish (Gambusia affinis) Following Exposure to Dexamethasone|Ecotoxicol. Environ. Saf.254:8 p.|2023|10.1016/j.ecoenv.2023.114722
191151|A||Wang,Y.Q., J.H. Bai, L.X. Wen, W. Wang, L. Zhang, Z. Liu, and H.Z. Liu|Phytotoxicity of Microplastics to the Floating Plant Spirodela polyrhiza (L.): Plant Functional Traits and Metabolomics|Environ. Pollut.322:12 p.|2023|10.1016/j.envpol.2023.121199
191152|A||Gao,X.L., Y.L. Zhang, L. Hou, Y. Zhao, H.Y. Zhang, Z.Z. Jia, S.G. Wang, H. Li, X. Pan, X.Y. Liu, and L.L. Wang|Co-Exposure to Nanoplastics and Acetaminophen Causes Skeletal Dysplasia and Behavioral Abnormalities in Zebrafish|Ecotoxicol. Environ. Saf.253:9 p.|2023|10.1016/j.ecoenv.2023.114640
191153|T||Wight,J., and W. Doucette|Quantifying the Root-to-Shoot Transfer of 4,4'-Methylenedianiline Using Pressure Chamber and Intact Plant Methods|Environ. Toxicol. Chem.42(3): 655-662|2023|10.1002/etc.5549
191154|A||Huang,S., L. Zuo, G. Cheng, Y. He, L. Zhang, Q. Han, and L. Feng|Design, Synthesis and Mechanism Research of Novel Algicide Based on Bioactive Fragments Synthesis Strategy|Pestic. Biochem. Physiol.191:9 p.|2023|10.1016/j.pestbp.2023.105344
191155|T||Wei,J., X. Guo, J. Jiang, L. Qian, J. Xu, Z. Che, X. Huang, and S. Liu|Resistance Risk Assessment of Fusarium pseudograminearum from Wheat to Prothioconazole|Pestic. Biochem. Physiol.191:10 p.|2023|10.1016/j.pestbp.2023.105346
191156|A||Sinclair,G.M., S.M. Long, N. Singh, T.L. Coggan, M.P.J. Askeland, and O.A.H. Jones|Exposure to Environmentally Relevant Levels of PFAS Causes Metabolic Changes in the Freshwater Amphipod Austrochiltonia subtenuis|Metabolites12(11): 19 p.|2022|10.3390/metabo12111135
191157|A||Abdullahi,M., J. Zhou, V. Dandhapani, A. Chaturvedi, and L. Orsini|Historical Exposure to Chemicals Reduces Tolerance to Novel Chemical Stress in Daphnia (Waterflea)|Mol. Ecol.31(11): 3098-3111|2022|10.5061/DRYAD.4XGXD2591
191158|T||Sinha,S.N., K.H. Lakhani, and B.N.K. Davis|Studies on the Toxicity of Insecticidal Drift to the First Instar Larvae of the Large White Butterfly Pieris brassicae (Lepidoptera: Pieridae)|Ann. Appl. Biol.116(1): 27-41|1990|10.1111/j.1744-7348.1990.tb06584.x
191159|A||Chen,H., W. Qiu, X. Yang, F. Chen, J. Chen, L. Tang, H. Zhong, J.T. Magnuson, C. Zheng, and E.G. Xu|Perfluorooctane Sulfonamide (PFOSA) Induces Cardiotoxicity via Aryl Hydrocarbon Receptor Activation in Zebrafish|Environ. Sci. Technol.56(12): 8438-8448|2022|10.1021/acs.est.1c08875
191160|A||Lech,M.E., Y.J. Choi, L.S. Lee, M.S. Sepulveda, and J.T. Hoverman|Effects of Per- and Polyfluoroalkyl Substance Mixtures on the Susceptibility of Larval American Bullfrogs to Parasites|Environ. Sci. Technol.56(22): 15953-15959|2022|10.1021/acs.est.2c04574
191161|A||Lin,H., Z. Liu, H. Yang, L. Lu, R. Chen, X. Zhang, Y. Zhong, and H. Zhang|Per- and Polyfluoroalkyl Substances (PFASs) Impair Lipid Metabolism in Rana nigromaculata: A Field Investigation and Laboratory Study|Environ. Sci. Technol.56(18): 13222-13232|2022|10.1021/acs.est.2c03452
191162|A||Shan,G., J. Zhao, X. Sun, L. Yang, H. Wei, and L. Zhu|Quantitative Estimation of Relative Contributions of Direct and Indirect Exposures to Perfluorooctane Sulfonate in Organisms Using the Isomer Profiling Technique|ACS ES&T Water2(5): 730-737|2022|10.1021/acsestwater.1c00368
191163|A||Mahoney,H., J. Cantin, J. Rybchuk, Y. Xie, J.P. Giesy, and M. Brinkmann|Acute Exposure of Zebrafish (Danio rerio) to the Next-Generation Perfluoroalkyl Substance, Perfluoroethylcyclohexanesulfonate, Shows Similar Effects as Legacy Substances|Environ. Sci. Technol.57(10): 4199-4207|2023|10.1021/acs.est.2c08463
191164|A||Myosho,T., A. Ishibashi, S. Fujimoto, S. Miyagawa, T. Iguchi, and T. Kobayashi|Preself-Feeding Medaka Fry Provides a Suitable Screening System for In Vivo Assessment of Thyroid Hormone-Disrupting Potential|Environ. Sci. Technol.56(10): 6479-6490|2022|10.1021/acs.est.1c06729
191165|A||Sun,X., Y. Xie, X. Zhang, J. Song, and Y. Wu|Estimation of Per- and Polyfluorinated Alkyl Substance Induction Equivalency Factors for Humpback Dolphins by Transactivation Potencies of Peroxisome Proliferator-Activated Receptors|Environ. Sci. Technol.57(9): 3713-3721|2023|10.1021/acs.est.2c05044
191166|A||Villeneuve,D.L., B.R. Blackwell, J.E. Cavallin, J. Collins, J.X. Hoang, R.N. Hofer, K.A. Houck, K.M. Jensen, M.D. Kahl,|Verification of In Vivo Estrogenic Activity for Four Per- and Polyfluoroalkyl Substances (PFAS) Identified as Estrogen Receptor Agonists via New Approach Methodologies|Environ. Sci. Technol.57(9): 3794-3803|2023|10.1021/acs.est.2c09315
191167|A||Mao,J.F., W.X. Li, X.T. Liu, Y.L. He, and K.Y.H. Gin|Responses of Cyanobacterium Microcystis aeruginosa Under Single and Repeated Ofloxacin Exposure|Ecotoxicol. Environ. Saf.253:7 p.|2023|10.1016/j.ecoenv.2023.114668
191168|A||Liang,D.X., Y.S. Li, S.Y. Li, D.L. Meng, F.C. Li, S.Y. Huang, M.J. Gong, J.H. Qin, and H.S. Li|Dose-Dependent Inhibitory Effects of Glyphosate on Invasive Pomacea canaliculata Reproductive and Developmental Growth under Oxidative Deposition|Ecotoxicol. Environ. Saf.253:9 p.|2023|10.1016/j.ecoenv.2023.114659
191169|A||Aguilar,L., G. Moreno-Ortiz, C. Caamal-Monsreal, C. Rosas, E. Norena-Barroso, M.C. Gomez-Maldonado, and G. Rodriguez-Fu|Effects of Phenanthrene Exposure on the B-Esterases Activities of Octopus maya (Voss and Solis Ramirez, 1996) Embryos|Bull. Environ. Contam. Toxicol.110(3): 7 p.|2023|10.1007/s00128-023-03706-8
191170|A||Bai,C.L., Y. Zheng, L.J. Tian, J. Lin, Y. Song, C.J. Huang, Q.X. Dong, and J.F. Chen|Structure-Based Developmental Toxicity and ASD-Phenotypes of Bisphenol A Analogues in Embryonic Zebrafish|Ecotoxicol. Environ. Saf.253:10 p.|2023|10.1016/j.ecoenv.2023.114643
191171|A||Miko,Z., and A. Hettyey|Toxicity of POEA-Containing Glyphosate-Based Herbicides to Amphibians is Mainly Due to the Surfactant, Not to the Active Ingredient|Ecotoxicology32(2): 150-159|2023|10.1007/s10646-023-02626-x
191172|A||Trenfield,M.A., S.L. Walker, C. Tanneberger, and A.J. Harford|Toxicity of Zinc to Aquatic Life in Tropical Freshwaters of Low Hardness|Environ. Toxicol. Chem.42(3): 679-683|2023|10.1002/etc.5556
191173|A||Horie,Y., and T. Chiba|Influence of Bisphenol A and 17 beta-Trenbolone Exposure in Oryzias Congeners|Environ. Toxicol. Chem.42(3): 673-678|2023|10.1002/etc.5552
191174|T||Casey,A., T. Kocher, S. Caygill, C. Champion, C. Bonnot, and L. Dolan|Transcriptome Changes in Chlorsulfuron-Treated Plants Are Caused by Acetolactate Synthase Inhibition and Not Induction of a Herbicide Detoxification System in Marchantia polymorpha|Pestic. Biochem. Physiol.191:14 p.|2023|10.1016/j.pestbp.2023.105370
191175|T||Zhang,J.J., Y.J. Niu, C. Ma, T. Zhao, H.W. Wang, Z.S. Yan, L. Zhou, X.Y. Liu, F.Z. Piao, and N.S. Du|Accumulation and Metabolism of Pyroxasulfone in Tomato Seedlings|Ecotoxicol. Environ. Saf.254:10 p.|2023|10.1016/j.ecoenv.2023.114765
191176|A||Zhou,Z., R. Guo, B. Chen, L. Wang, H. Cao, C. Wei, M. Hu, Y. Zhan, S. Li, Y. Wang, and Y. Liang|Development of a Completely New PFOS Alternative with Lower Surface Tension for Minimizing the Environmental Burden|Chem. Res. Chin. Univ.:408-414|2023|10.1007/s40242-023-3030-4
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191179|A||Fey,M.E., P.E. Goodrum, N.R. Razavi, C.M. Whipps, S. Fernando, and J.K. Anderson|Is Mixtures' Additivity Supported by Empirical Data? A Case Study of Developmental Toxicity of PFOS and 6:2 FTS in Wildtype Zebrafish Embryos|Toxics10(8): 17 p.|2022|10.3390/toxics10080418
191180|A||Chaousis,S., F.D.L. Leusch, A. Nouwens, S.D. Melvin, and J.P. Van De Merwe|Influence of Chemical Dose and Exposure Duration on Protein Synthesis in Green Sea Turtle Primary Cells|J. Proteom.285:9 p.|2023|10.1016/j.jprot.2023.104942
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191185|A||Zhang,S.L., A.X. Chen, H.Z. Deng, L. Jiang, X.L. Liu, and L.H. Chai|Intestinal Response of Rana chensinensis Larvae Exposed to Cr and Pb, Alone and in Combination|Ecotoxicol. Environ. Saf.255:13 p.|2023|
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191188|A||Lai,J.L., Y. Wang, Z.G. Li, H.L. Xi, and X.G. Luo|Assessing the Ecological Risk of Tritium and Carbon-14 Discharge on Cyanobacteria Through Metabolic Profiling|Environ. Pollut.323:13 p.|2023|10.1016/j.envpol.2023.121279
191189|T||Lian,C.Y., S. Wei, Z.F. Li, S.H. Zhang, Z.Y. Wang, and L. Wang|Glyphosate-Induced Autophagy Inhibition Results in Hepatic Steatosis via Mediating Epigenetic Reprogramming of PPAR alpha In Roosters|Environ. Pollut.324:9 p.|2023|10.1016/j.envpol.2023.121394
191190|A||Pinos-Velez,V., G.S. Araujo, G.M. Moulatlet, A. Perez-Gonzalez, I. Cipriani-Avila, P. Tripaldi, and M.V. Capparelli|Acute Toxicity of Daphnia magna Neonates Exposed to Single and Composite Mixtures of Four Emerging Contaminants|Bull. Environ. Contam. Toxicol.110(1): 7 p.|2023|10.1007/s00128-022-03663-8
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191192|A||Yu,Y.J., T. Zheng, H.Y. Li, Y.B. Hou, C.Y. Dong, H.B. Chen, C.H. Wang, M.D. Xiang, G.C. Hu, and Y. Dang|Growth Inhibition of Offspring Larvae Caused by the Maternal Transfer Effects of Tetrabromobisphenol A in Zebrafish|Environ. Pollut.322:8 p.|2023|
191193|A||Lin,W., Y. He, R. Li, C. Mu, C. Wang, C. Shi, and Y. Ye|Adaptive Changes of Swimming Crab (Portunus trituberculatus) Associated Bacteria Helping Host Against Dibutyl Phthalate Toxification|Environ. Pollut.324:9 p.|2023|10.1016/j.envpol.2023.121328
191194|A||Chae,H., B.R. Kwon, S. Lee, H.B. Moon, and K. Choi|Adverse Thyroid Hormone and Behavioral Alterations Induced by Three Frequently Used Synthetic Musk Compounds in Embryo-Larval Zebrafish (Danio rerio)|Chemosphere324:8 p.|2023|10.1016/j.chemosphere.2023.138273
191195|T||Huang,C.D., X. Feng, S.Z. Yue, L. Jia, K. Wang, W.H. Zhou, and Y.H. Qiao|Impact of Progressively Cumulative Exposure of AgNPs on Earthworms (Eisenia fetida) and Implication for Eco-Toxicological Risk Assessment|Chemosphere322:9 p.|2023|10.1016/j.chemosphere.2023.138163
191196|T||Sun,H., X. Lin, H. Zhang, Y. Zhang, and Z. Liu|A Consensus Phosphoserine Within the Large Cytoplasmic Loop of Insect nAChR a8 Subunits Modulated Interaction Between 14-3-3e and nAChRs to Regulate Neonicotinoid Efficacy|Pestic. Biochem. Physiol.192:7 p.|2023|10.1016/j.pestbp.2023.105384
191197|A||Lorente,C.J., L. Mesa, L. Montalto, M.F. Gutierrez, M.V. Miro, and A. Lifschitz|Ivermectin Bioaccumulation and Transfer through Developmental Stages in Culex pipiens (Diptera: Culicidae)|Chemosphere322:7 p.|2023|10.1016/j.chemosphere.2023.138106
191198|T||Wu,R.L., H.A. Liu, C.B. Lu, K.X. Hou, X.L. Wang, J. Wang, Z.K. Du, B. Li, L.S. Zhu, and J.H. Wang|The Effect of TiO(2)NPs on Cloransulam-Methyl Toxicity to Earthworm (Eisenia fetida)|Chemosphere322:9 p.|2023|10.1016/j.chemosphere.2023.138242
191199|A||Duan,F.F., H. Li, and H.Q. Lu|In Vivo and Molecular Docking Studies of the Pathological Mechanism Underlying Adriamycin Cardiotoxicity|Ecotoxicol. Environ. Saf.256:10 p.|2023|10.1016/j.ecoenv.2023.114778
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191206|A||Liu,H., Y. Chen, W. Hu, Y. Luo, P. Zhu, S. You, Y. Li, Z. Jiang, X. Wu, and X. Li|Impacts of PFOAC8, GenXC6, and Their Mixtures on Zebrafish Developmental Toxicity and Gene Expression Provide Insight About Tumor-Related Disease|Sci. Total Environ.858:13 p.|2023|10.1016/j.scitotenv.2022.160085
191207|T||Elango,D., N. Kayalvizhi, and P. Jayanthi|Effects of a Neonicotinoid on Indigenous Earthworm Perionyx excavatus Biochemical and Histopathological Alterations|Bull. Environ. Contam. Toxicol.110(5): 8 p.|2023|10.1007/s00128-023-03731-7
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191209|A||Belamy,T., A. Legeay, J. Cachot, C. Clerandeau, and M. Baudrimont|Locomotion Behavior of Juveniles of the Freshwater Pearl Mussel Margaritifera margaritifera: A New Non-Invasive Tool for the Evaluation of Stress Effects|Chemosphere327:8 p.|2023|10.1016/j.chemosphere.2023.138521
191210|T||Moin,N., R.S. Thakur, S. Singh, D.K. Patel, and A. Satish|Beta-Triketone Herbicide Exposure Cause Tyrosine and Fat Accumulation in Caenorhabditis elegans|Chemosphere326:10 p.|2023|10.1016/j.chemosphere.2023.138353
191211|A||Wang,J., Z.K. Wang, X.X. Chen, W.X. Wang, H.Q. Huang, Y.C. Chen, Z.Q. Du, Z. Zheng, and X.Z. Luo|Transcriptomic Analysis of the Effect of Deferoxamine Exposure on the Growth, Photosynthetic Activity and Iron Transfer of Microcystis aeruginosa|Chemosphere327:10 p.|2023|10.1016/j.chemosphere.2023.138506
191212|A||Zhang,H.Y., X.Y. Ren, T. Liu, Y. Zhao, Y.T. Gan, and L. Zheng|The Stereoselective Toxicity of Dinotefuran to Daphnia magna: A Systematic Assessment from Reproduction, Behavior, Oxidative Stress and Digestive Function|Chemosphere327:9 p.|2023|10.1016/j.chemosphere.2023.138489
191213|A||Wan,M.Q., J.H. Xiao, J.J. Liu, D. Yang, Y. Wang, J.P. Liu, L. Huang, F.S. Liu, G.H. Xiong, X.J. Liao, H.Q. Lu, Z.G. Cao|Cyclosporine A Induces Hepatotoxicity in Zebrafish Larvae via Upregulating Oxidative Stress|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.266:8 p.|2023|10.1016/j.cbpc.2023.109560
191214|T||Aderjan,E., E. Wagenhoff, E. Kandeler, and T. Moser|Natural Soils in OECD 222 Testing - Influence of Soil Water and Soil Properties on Earthworm Reproduction Toxicity of Carbendazim|Ecotoxicology32(4): 403-415|2023|10.1007/s10646-023-02636-9
191215|T||Contador-Kelsall,I., K. Maute, M. De Beer, and K. French|Individual Variation within Wild Populations of an Arid-Zone Lizard Dictates Oxidative Stress Levels Despite Exposure to Sublethal Pesticides|Ecotoxicology32(4): 470-486|2023|10.1007/s10646-023-02653-8
191216|A||Siddiqui,A., S.A.Z. Abidin, Z.A. Shah, I. Othman, and Y. Kumari|Behavioural, Genomics and Proteomic Approach to Examine Alzheimer's Disease in Zebrafish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.271:11 p.|2023|
191217|T||Prado,I.S., A.A. Da Rocha, L.A. Silva, and V.C. Gonzalez|Glyphosate-Based Formulation Affects Tetragonisca angustula Worker's Locomotion, Behavior and Biology|Ecotoxicology32(4): 12 p.|2023|10.1007/s10646-023-02658-3
191218|A||Santos,T.P., P.E.D. Bastos, J.F. Da Silva, S.M.D. Vieira, M.C.G. Da Silva, A.L.C. De Andrade, R.M.O. Padilha, A.R.D.S. |Single and Joint Toxic Effects of Thyroid Hormone, Levothyroxine, and Amiodarone on Embryo-Larval Stages of Zebrafish (Danio rerio)|Ecotoxicology32(4): 525-535|2023|10.1007/s10646-023-02655-6
191219|T||Walkowiak-Nowicka,K., J. Mirek, S. Chowanski, R. Sobkowiak, and M. Slocinska|Plant Secondary Metabolites as Potential Bioinsecticides? Study of the Effects of Plant-Derived Volatile Organic Compounds on the Reproduction and Behaviour of the Pest Beetle Tenebrio molitor|Ecotoxicol. Environ. Saf.257:13 p.|2023|10.1016/j.ecoenv.2023.114951
191220|T||Qin,G., Q. Zhang, Z. Zhang, Y. Chen, J. Zhu, Y. Yang, W. Peijnenburg, and H. Qian|Understanding the Ecological Effects of the Fungicide Difenoconazole on Soil and Enchytraeus crypticus Gut Microbiome|Environ. Pollut.326:10 p.|2023|10.1016/j.envpol.2023.121518
191221|A||Patel,N., E. Ivantsova, I. Konig, C.L. Soudersii, and C.J. Martyniuk|Perfluorotetradecanoic Acid (PFTeDA) Induces Mitochondrial Damage and Oxidative Stress in Zebrafish (Danio rerio) Embryos/Larvae|Toxics10(12): 16 p.|2022|10.3390/toxics10120776
191222|A||Zhang,J., Z. Ren, and M. Chen|Immunotoxicity and Transcriptome Analyses of Zebrafish (Danio rerio) Embryos Exposed to 6:2 FTSA|Toxics11(5): 14 p.|2023|10.3390/toxics11050459
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191226|A||Razak,M.R., A.Z. Aris, A.H. Zainuddin, F.M. Yusoff, Z.N.B. Yusof, S.D. Kim, and K.W. Kim|Acute Toxicity and Risk Assessment of Perfluorooctanoic Acid (PFOA) and Perfluorooctanesulfonate (PFOS) in Tropical Cladocerans Moina micrura|Chemosphere313:9 p.|2023|10.1016/j.chemosphere.2022.137377
191227|A||Lim,J.|Broad Toxicological Effects of Per-/Poly- Fluoroalkyl Substances (PFAS) on the Unicellular Eukaryote, Tetrahymena pyriformis|Environ. Toxicol. Pharmacol.95:7 p.|2022|10.1016/j.etap.2022.103954
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191232|A||Mao,W., M. Li, X. Xue, W. Cao, X. Wang, F. Xu, and W. Jiang|Bioaccumulation and Toxicity of Perfluorooctanoic Acid and Perfluorooctanesulfonate in Marine Algae Chlorella sp.|Sci. Total Environ.870:10 p.|2023|10.1016/j.scitotenv.2023.161882
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191235|A||Wang,X., X. Shi, S. Zheng, Q. Zhang, J. Peng, W. Tan, and K. Wu|Perfluorooctane Sulfonic Acid (PFOS) Exposures Interfere with Behaviors and Transcription of Genes on Nervous and Muscle System in Zebrafish Embryos|Sci. Total Environ.848:9 p.|2022|10.1016/j.scitotenv.2022.157816
191236|A||Hu,J., D. Wang, N. Zhang, K. Tang, Y. Bai, Y. Tian, Y. Li, and X. Zhang|Effects of Perfluorooctanoic Acid on Microcystis aeruginosa: Stress and Self-Adaptation Mechanisms|J. Hazard. Mater.445:12 p.|2023|10.1016/j.jhazmat.2022.130396
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191241|A||Wang,Q., Y. Ruan, L. Jin, H. Lin, M. Yan, J. Gu, C.N.T. Yuen, K.M.Y. Leung, and P.K.S. Lam|Tissue-Specific Uptake, Depuration Kinetics, and Suspected Metabolites of Three Emerging Per- and Polyfluoroalkyl Substances (PFASs) in Marine Medaka|Environ. Sci. Technol.56(10): 6182-6191|2022|10.1021/acs.est.1c07643
191242|A||Gong,S., F. Mclamb, D. Shea, J.P. Vu, M.F. Vasquez, Z. Feng, K. Bozinovic, K.K. Hirata, R.M. Gersberg, and G. Bozinovic|Toxicity Assessment of Hexafluoropropylene Oxide-Dimer Acid on Morphology, Heart Physiology, and Gene Expression During Zebrafish (Danio rerio) Development|Environ. Sci. Pollut. Res. Int.30(12): 32320-32336|2023|10.1007/s11356-022-24542-z
191243|T||Li,X., W. Fu, F. Meng, and C. Guan|Carotenoid-Mediated Regulation of Photosynthetic Performance and Antioxidant Defense Confer Tolerance to Perfluorooctanoic Acid Stress in Nicotiana tabacum|Plant Growth Regul.98(2): 307-319|2022|10.1007/s10725-022-00856-3
191244|T||Yang,S., L. Shan, and K. Chu|Fate and Transformation of 6:2 Fluorotelomer Sulfonic Acid Affected by Plant, Nutrient, Bioaugmentation, and Soil Microbiome Interactions|Environ. Sci. Technol.56(15): 10721-10731|2022|10.1021/acs.est.2c01867
191245|T||Wattier,B.D., A.K. Gonzales, and N.E. Martinez|Perfluorooctanoic Acid Uptake in the Mustard Species Brassica juncea|J. Environ. Qual.52(1): 199-206|2023|10.1002/jeq2.20431
191246|T||Narizzano,A.M., E.M. Lent, J.M. Hanson, A.G. East, M.E. Bohannon, and M.J. Quinn|Reproductive and Developmental Toxicity of Perfluorooctane Sulfonate (PFOS) in the White-Footed Mouse (Peromyscus leucopus)|Reprod. Toxicol.113:120-127|2022|10.1016/j.reprotox.2022.08.011
191247|T||Chen,R., J. Wang, L. Han, Y. Gu, Z. Xu, J. Cheng, X. Shao, X. Xu, and Z. Li|Design, Synthesis, and Insecticidal Activities of Novel Diamide Derivatives with alpha-Amino Acid Subunits|J. Heterocycl. Chem.58(7): 1429-1436|2021|10.1002/jhet.4268
191248|T||Zhang,J., Q. Wang, Y. Wang, Y. Xu, W. Du, and H. Guo|Joint Effects of CuO Nanoparticles and Perfluorooctanoic Acid on Cabbage (Brassica pekinensis L.)|Environ. Sci. Pollut. Res.30(25): 66745-66752|2023|10.1007/s11356-023-26862-0
191249|A||Wu,D., L. Cheng, Q. Rao, X. Wang, Q. Zhang, C. Yao, X. Yao, S. Chen, X. Liu, X. Song, J. Zhou, and W. Song|Toxic Effects and Transcriptional Responses in Zebrafish Liver Cells Following Perfluorooctanoic Acid Exposure|Aquat. Toxicol.253:9 p.|2022|10.1016/j.aquatox.2022.106328
191250|A||Yang,J., Y. Chen, H. Luan, J. Li, and W. Liu|Persistent Impairment of Gonadal Development in Rare Minnow (Gobiocypris rarus) After Chronic Exposure to Chlorinated Polyfluorinated Ether Sulfonate|Aquat. Toxicol.250:106256-|2022|10.1016/j.aquatox.2022.106256
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191252|A||Sun,B., J. Li, C. Hu, J.P. Giesy, P.K.S. Lam, and L. Chen|Toxicity of Perfluorobutanesulfonate on Gill Functions of Marine Medaka (Oryzias melastigma): A Time Course and Hypoxia Co-Exposure Study|Sci. Total Environ.872:12 p.|2023|10.1016/j.scitotenv.2023.162297
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191339|A||Lari,E., P. Razmara, S.J. Bogart, A. Azizishirazi, and G.G. Pyle|An Epithelium is not just an Epithelium: Effects of Na, Cl, and pH on Olfaction and/or Copper-Induced Olfactory Deficits|Chemosphere216:117-123|2019|10.1016/j.chemosphere.2018.10.079
191340|A||Salerno,J., P.L. Gillis, H. Khan, E. Burton, L.E. Deeth, C.J. Bennett, P.K. Sibley, and R.S. Prosser|Sensitivity of Larval and Juvenile Freshwater Mussels (Unionidae) to Ammonia, Chloride, Copper, Potassium, and Selected Binary Chemical Mixtures|Environ. Pollut.256:9 p.|2020|10.1016/j.envpol.2019.113398
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191349|T||Ni,H., J. Yuan, J. Ji, Y. Guo, S. Zhong, Y. Lin, Y. Zheng, and Q. Jiang|Long Term Toxicities Following Developmental Exposure to Perfluorooctanoic Acid: Roles of Peroxisome Proliferation Activated Receptor alpha|Environ. Pollut.317:13 p.|2023|10.1016/j.envpol.2022.120722
191352|T||Zheng,Y., Y. Zhou, X. Cui, H. Yin, and S. Ai|Enhanced Photoactivity of CdS Nanorods by MXene and ZnSnO3: Application in Photoelectrochemical Biosensor for the Effect of Environmental Pollutants on DNA Hydroxymethylation in Wheat Tissues|Mater. Today (Kidlington)24:10 p.|2022|10.1016/j.mtchem.2022.100878
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191357|T||Merino,N., N. Wang, Y. Gao, M. Wang, and S. Mahendra|Roles of Various Enzymes in the Biotransformation of 6:2 Fluorotelomer Alcohol (6:2 FTOH) by a White-Rot Fungus|J. Hazard. Mater.450:10 p.|2023|10.1016/j.jhazmat.2023.131007
191358|T||Fangninou,F.F., Z. Yu, Z. Li, A. Guadie, W. Li, L. Xue, and D. Yin|Metastatic Effects of Environmental Carcinogens Mediated by MAPK and UPR Pathways with an In Vivo Drosophila Model|J. Hazard. Mater.441:10 p.|2023|10.1016/j.jhazmat.2022.129826
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191362|T||Zhang,P., L. Sun, F. Liu, Q. Gao, R. Wang, Q. Ju, and J. Xu|Perfluorooctanoic Acid and Perfluorooctane Sulfonic Acid Inhibit Plant Growth Through the Modulation of Phytohormone Signalling Pathways: Evidence from Molecular and Genetic Analysis in Arabidopsis|Sci. Total Environ.851:11 p.|2022|10.1016/j.scitotenv.2022.158287
191363|T||Jiang,T., W. Zhang, and Y. Liang|Uptake of Individual and Mixed Per- and Polyfluoroalkyl Substances (PFAS) by Soybean and Their Effects on Functional Genes Related to Nitrification, Denitrification, and Nitrogen Fixation|Sci. Total Environ.838:10 p.|2022|
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191367|T||Li,H., Y. Zhang, X. Zhou, J. Lin, C. Liu, X. Li, and Y. Chang|Single-Base Resolution Methylome of Different Ecotype from Pyrus betulaefolia Reveals Epigenomic Changes in Response to Salt Stress|Sci. Hortic.306:15 p.|2022|10.1016/j.scienta.2022.111437
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191371|A||Soucek,D.J., D.R. Mount, A. Dickinson, and J.R. Hockett|Influence of Dilution Water Ionic Composition on Acute Major Ion Toxicity to the Mayfly Neocloeon triangulifer|Environ. Toxicol. Chem.37(5): 1330-1339|2018|10.1002/etc.4072
191372|T||Liu,S., J. Zhou, and L. Zhu|Investigating Long-Distance Transport of Perfluoroalkyl Acids in Wheat via a Split-Root Exposure Technique|J. Vis. Exp.187:10 p.|2022|10.3791/64400
191373|T||Sivaram,A.K., E. Lee, A. Curnow, A. Surapaneni, K. Kannan, and M. Megharaj|Uptake, Accumulation, and Toxicity of Per- and Polyfluoroalkyl Substances in Allium cepa Grown in Soils Amended with Biosolids|Environ. Challenges10:9 p.|2023|10.1016/j.envc.2022.100670
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191383|A||Rosa,I.C., R. Garrido, A. Re, G. Joao, J.L. Pereira, F. Goncalves, and R. Costa|Sensitivity of the Invasive Bivalve Corbicula fluminea to Candidate Control Chemicals: The Role of Dissolved Oxygen Conditions|Sci. Total Environ.536:825-830|2015|10.1016/j.scitotenv.2015.07.071
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191385|A||Ministry of the Environment, Japan|Algal Growth Inhibition Test of Pseudokirchneriella subcapitata Exposed to 1,1-Dichloroethane|Technical Report, Test Number A090027:39 p.|2009|
191386|A||Ministry of the Environment, Japan|Acute Immobilization Test on Daphnia magna Exposed to 1,1-Dichloroethane|Technical Report, Test Number A090026:43 p.|2009|
191387|A||Ministry of the Environment, Japan|Reproduction Test on Daphnia magna Exposed to 1,1-Dichloroethane|Technical Report, Test Number A090028:56 p.|2009|
191388|A||Ministry of the Environment, Japan|Acute Toxicity Test on Killifish (Oryzias latipes) Exposed to 1,1-Dichloroethane|Technical Report, Test Number A090025:43 p.|2009|
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191391|A||Salerno,J., P.L. Gillis, C.J. Bennett, P.K. Sibley, and R.S. Prosser|Investigation of Clearance Rate as an Endpoint in Toxicity Testing with Freshwater Mussels (Unionidae)|Ecotoxicol. Environ. Saf.163:165-171|2018|10.1016/j.ecoenv.2018.07.054
191393|A||Santos,B., T. Andrade, I. Domingues, R. Ribeiro, A.M.V.M. Soares, and I. Lopes|Influence of Salinity on the Toxicity of Copper and Cadmium to Zebrafish Embryos|Aquat. Toxicol.241:11 p.|2021|10.1016/j.aquatox.2021.106003
191394|A||Tornabene,B.J., C.W. Breuner, and B.R. Hossack|Relative Toxicity and Sublethal Effects of NaCl and Energy-Related Saline Wastewaters on Prairie Amphibians|Aquat. Toxicol.228:8 p.|2020|10.1016/j.aquatox.2020.105626
191395|A||Wang,S., F. Meng, Y. Liu, S. Xia, and R. Wang|Exogenous Inositol Ameliorates the Effects of Acute Ammonia Toxicity on Intestinal Oxidative Status, Immune Response, Apoptosis, and Tight Junction Barriers of Great Blue-Spotted Mudskippers (Boleophthalmus pectinirostr|Comp. Biochem. Physiol. C Comp. Pharmacol.240:9 p.|2021|10.1016/j.cbpc.2020.108911
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191399|T||Zhang,S.L., X.L. Ni, M. Arif, Z.X. Yuan, L.J. Li, and C.X. Li|Salinity Influences Cd Accumulation and Distribution Characteristics in Two Contrasting Halophytes, Suaeda glauca and Limonium aureum|Ecotoxicol. Environ. Saf.191:10 p.|2020|10.1016/j.ecoenv.2020.110230
191400|A||Willems,D.J., A. Kumar, and D. Nugegoda|Mixture Toxicity of Three Unconventional Gas Fracking Chemicals, Barium, o-Cresol, and Sodium Chloride, to the Freshwater Shrimp Paratya australiensis|Environ. Toxicol. Chem.42(2): 481-494|2023|10.1002/etc.5538
191401|A||Oldham,D., T. Black, T.J. Stewart, and M. Minghetti|Role of the Luminal Composition on Intestinal Metal Toxicity, Bioavailability and Bioreactivity: An In Vitro Approach Based on the Cell Line RTgutGC|Aquat. Toxicol.256:10 p.|2023|10.1016/j.aquatox.2023.106411
191402|A||Huang,J., Y.R. Li, Y.F. Sun, L. Zhang, K. Lyu, and Z. Yang|Size-Specific Sensitivity of Cladocerans to Freshwater Salinization: Evidences from the Changes in Life History and Population Dynamics|Environ. Pollut.296:10 p.|2022|10.1016/j.envpol.2021.118770
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191406|A||Vardy,D.W., R. Santore, A. Ryan, J.P. Giesy, and M. Hecker|Acute Toxicity of Copper, Lead, Cadmium, and Zinc to Early Life Stages of White Sturgeon (Acipenser transmontanus) in Laboratory and Columbia River Water|Environ. Sci. Pollut. Res.21:8176-8187|2014|10.1007/s11356-014-2754-6
191407|A||Besser,J.M., C.D. Ivey, W.G. Brumbaugh, and C.G. Ingersoll|Effect of Diet Quality on Chronic Toxicity of Aqueous Lead to the Amphipod Hyalella azteca|Environ. Toxicol. Chem.35(7): 1825-1834|2016|10.1002/etc.3341
191408|A||Ibrahim,M., and M. Minghetti|Effect of Chloride Concentration on the Cytotoxicity, Bioavailability, and Bioreactivity of Copper and Silver in the Rainbow Trout Gut Cell Line, RTgutGC|Ecotoxicology31(4): 626-636|2022|10.1007/s10646-022-02543-5
191409|A||Rogers,J.J., W.F. Henley, A.G. Weberg, J.W. Jones, and W.G. Cope|Histological Evaluations of Organ Tissues Reveal Sublethal Effects in a Freshwater Mussel (Villosa iris) Exposed to Chloride and Potassium Concentrations Below Benchmark Estimates|Aquat. Toxicol.258:9 p.|2023|10.1016/j.aquatox.2023.106476
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191412|A||Lewis, W.M.|Studies of Environmental Effects of Magnesium Chloride Deicer in Colorado|Report No. CDOT-DTD-R-99-10, Colorado Department of Transportation, Research Branch:113 p.|1999|
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191419|T||Luttge,U., and C.B. Osmond|Ion Absorption in Atriplex Leaf Tissue III. Site of Metabolic Control of Light-Dependent Chloride Secretion to Epidermal Bladders|Aust. J. Biol. Sci.23(1): 10 p.|1970|10.1071/BI9700017
191420|T||Zhang,Y., L. Zhao, Z. He, J. Zhang, B. Liu, X. Liu, and Y. Zhang|Effect Mechanism of Low-Level PFOS Isomers to A. thaliana Leaves Using High-Throughput Untargeted Metabolomics|Chem. Res. Chin. Univ.:472-480|2023|10.1007/s40242-023-3046-9
191421|A||Han,L.L., J.B. Qiu, A.F. Li, D.Y. Li, Y.M. Yang, G.X. Wang, and P.Y. Li|Effects of Marine Phycotoxin Dinophysistoxin-1 on the Growth and Cell Cycle of Isochrysis galbana|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.273:10 p.|2023|
191422|A||Du,S., and R.L. Murray|Road Salt Pollution Alters Sex Ratios in Emerging Mosquito Populations|Environ. Pollut.334:9 p.|2023|10.1016/j.envpol.2023.122203
191423|T||Kowalczyk-Pecka,D., E. Kowalczuk-Vasilev, A. Puchalski, B. Kiczorowska, W. Samolinska, R. Stryjecki, and K. Czepiel-Mil|Peroxidation and Unsaturation Coefficients as Biomarkers of Environmental Micro-Exposure to Molluscicides in Helix pomatia L|Chemosphere234:589-595|2019|10.1016/j.chemosphere.2019.06.026
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191425|A||Ciaramella,M.A., P.J. Allen, P. Joseph, L.R. D'Abramo, J.L. Silva, T. Kim, and M.W. Schilling|Effect of Salt Treatments on Survival and Consumer Acceptability of Freshwater Prawn, Macrobrachium rosenbergii|Aquaculture428-429:184-188|2014|10.1016/j.aquaculture.2014.03.014
191426|A||Iwasaki,Y., P. Cadmus, J. Ranville, and W.H. Clements|Stream Mesocosm Experiments Show No Protective Effects of Calcium on Copper Toxicity to Macroinvertebrates|Environ. Toxicol. Chem.41(5): 1304-1310|2022|10.1002/etc.5308
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191429|T||Fadlelmawla,M., A. Abdelbagi, A.E. Ishag, A. Hammad, and J.H. Hur|Effects of Nitrogenous Fertilization and Some Insecticides on the Natural Enemies of Transgenic Bt Cotton Pests|EntomoBrasilis14:8 p.|2021|10.12741/ebrasilis.v14.e948
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191431|T||Lekha,P.S., S. Jeyarani, N. Sathiah, and S. Mohankumar|Botanicals Vs Insecticides :Relative Safety of Recommended Botanicals / Insecticides for the Management of Fall Armyworm Against Telenomus remus|Madras Agric. J.109(10/12): 12-15|2022|10.29321/MAJ.10.000687
191432|A||Dai,L., Y. Xie, Y. Zhang, and Y. Wang|Treatment of Bisphenol Pollutant in Water by N,P-Co-Doped Carbon Nanosheet: Fast Degradation, Toxicity Elimination and Reaction Mechanism Investigation|Environ. Pollut.327:12 p.|2023|10.1016/j.envpol.2023.121586
191433|A||Wang,L., S. Cen, X. Shi, H. Zhang, L. Wu, X. Tian, W. Ma, X. Li, and X. Ma|Molecular Characterization and Functional Analysis of Esr1 and Esr2 in Gonads of Chinese Soft-Shelled Turtle (Pelodiscus sinensis)|J. Steroid Biochem. Mol. Biol.222:12 p.|2022|10.1016/j.jsbmb.2022.106147
191434|A||Wang,Q., F. Huang, X. Duan, H. Cheng, C. Zhang, L. Lihua, X. Ruan, Q. He, W. Niu, H. Yang, D. Lu, L. Zheng, and H. Zhao|The ER beta-CXCL19/CXCR4-NF kappa B Pathway is Critical in Mediating the E2-Induced Inflammation Response in the Orange-Spotted Grouper (Epinephelus coioides)|J. Steroid Biochem. Mol. Biol.212:16 p.|2021|10.1016/j.jsbmb.2021.105926
191435|A||Rao,C., X. Cao, L. Li, J. Zhou, D. Sun, B. Li, S. Guo, R. Yuan, H. Cui, and J. Chen|Bisphenol AF Induces Multiple Behavioral and Biochemical Changes in Zebrafish (Danio rerio) at Different Life Stages|Aquat. Toxicol.253:11 p.|2022|10.1016/j.aquatox.2022.106345
191436|A||Lopez-Arago,N., J. Nieto-Sandoval, M. Munoz, Z.M. De Pedro, and J.A. Casas|Insights on the Removal of the Azole Pesticides Included in the EU Watch List by Catalytic Wet Peroxide Oxidation|Environ. Technol. Innov.29:11 p.|2023|10.1016/j.eti.2022.103004
191437|A||Chen,P., R. Wang, G. Chen, B. An, M. Liu, Q. Wang, and Y. Tao|Thyroid Endocrine Disruption and Hepatotoxicity Induced by Bisphenol AF: Integrated Zebrafish Embryotoxicity Test and Deep Learning|Sci. Total Environ.822:8 p.|2022|10.1016/j.scitotenv.2022.153639
191438|A||Huang,W., X. Shi, Y. Chen, Q. Zhang, J. Peng, S. Zheng, and K. Wu|Comparative Pharyngeal Cartilage Developmental Toxicity of Bisphenol A, Bisphenol S and Bisphenol AF to Zebrafish (Danio rerio) Larvae: A Combination of Morphometry and Global Transcriptome Analyses|Sci. Total Environ.868:12 p.|2023|10.1016/j.scitotenv.2023.161702
191439|A||Deng,J., J. Gu, X. Zhao, B. Yan, L. Wang, G. Ji, and C. Huang|Improving the Protective Ability of Lignin against Vascular and Neurological Development in BPAF-induced Zebrafish by High-Pressure Homogenization Technology|Int. J. Biol. Macromol.231:13 p.|2023|10.1016/j.ijbiomac.2023.123356
191440|A||Dai,L., Y. Xie, Y. Zhang, and Y. Wang|Fe2P/N-Doped Biocarbon Composite Derived from Mycelial Pellet for Bisphenol AF Removal Through Peroxymonosulfate Activation|J. Environ. Chem. Eng.11(1): 12 p.|2023|10.1016/j.jece.2022.109130
191441|A||Collins,S.|Effects of De-Icing Salt (NaCl) on Amphibian Community Structure in Nova Scotia|B.S. Thesis, Saint Mary's University, Canada:70 p.|2007|
191442|A||Adelizzi,R., J. Portmann, and R. Van Meter|Effect of Individual and Combined Treatments of Pesticide, Fertilizer, and Salt on Growth and Corticosterone Levels of Larval Southern Leopard Frogs (Lithobates sphenocephala)|Arch. Environ. Contam. Toxicol.77(1): 29-39|2019|10.1007/s00244-019-00629-6
191443|A||Datko,A.H., and S.H. Mudd|Sulfate Uptake and Its Regulation in Lemna paucicostata Hegelm. 6746|Plant Physiol.75(2): 466-473|1984|10.1104/pp.75.2.466
191444|A||Meng,Z., Z. Wang, X. Chen, Y. Song, M. Teng, T. Fan, Y. Zheng, J. Cui, and W. Xu|Bioaccumulation and Toxicity Effects of Flubendiamide in Zebrafish (Danio rerio)|Environ. Sci. Pollut. Res.29(18): 26900-26909|2022|10.1007/s11356-021-17868-7
191445|A||Wang,K., Y. Liang, M. Duan, W. Che, and L. He|Chronic Toxicity of Broflanilide in Daphnia magna: Changes in Molting, Behavior, and Gene Expression|Environ. Sci. Pollut. Res.30(19): 54846-54856|2023|10.1007/s11356-023-26255-3
191446|T||Nawaz,A., H. Ali, S. Fiaz, M. Sufyan, M.A. Qayyum, R. Azad, Y. Niaz, M.A. Bodlah, and K.A. Khan|Analysis of Food Resources, Host Availability and Insecticidal Impacts on the Fecundity, Longevity and Parasitism Efficiency of Diaertiella rapae (M'intosh)|Int. J. Trop. Insect Sci.41(4): 2883-2896|2021|10.1007/s42690-021-00472-0
191447|T||Delkash-Roudsari,S., S.H. Goldansaz, K. Talebi Jahromi, A. Ashouri, and C.I. Abramson|Side Effects of Imidacloprid, Ethion, and Hexaflumuron on Adult and Larvae of Honey Bee Apis mellifera (Hymenoptera, Apidae)|Apidologie53(1): 15 p.|2022|10.1007/s13592-022-00910-z
191448|T||Abdel-Hamid,H.F.M., and A.A. Amal|Toxicological and Biological Studies of Some Pesticides from Different Groups on Red Mite, Tetranychus urticae Under Laboratory Conditions|Egypt. Acad. J. Biol. Sci.: Toxicol. Pest Control14(2): 171-181|2022|10.21608/EAJBSF.2022.272777
191449|T||Nidagundi,K.S., D.N. Kambrekar, C.P. Mallapur, and S. Jahagirdar|Toxicity of Insecticides and Biopesticides to Egg Parasitoid Trichogramma chilonis Ishii. (Hymenoptera: Trichogrammatidae)|Appl. Ecol. Environ. Res.:4807-4818|2022|10.15666/aeer/2006_48074818
191450|A||Huang,Z., J. Gao, Y. Chen, Z. Huan, Y. Liu, T. Zhou, and Z. Dong|Toxic Effects of Bisphenol AF on the Embryonic Development of Marine Medaka (Oryzias melastigma)|Environ. Toxicol.38(6): 1445-1454|2023|10.1002/tox.23779
191451|A||Wang,K., Z. Qi, M. Duan, R. Zhang, and L. He|Sub-Chronic Toxicity of Broflanilide on the Nervous System of Zebrafish (Danio rerio)|Chem. Ecol.39(2): 137-152|2023|10.1080/02757540.2022.2153836
191453|T||Asha,A.S., M.M. Mostafiz, M. Arifunnahar, M.A. Hossain, M. Ahmed, and M.A. Alim|A Bio-Rational Management Strategy Using Insect Growth Regulators Against Conopomorpha sinensis (Bradley) and Quality Assessment of Litchi Fruit|J. Kans. Entomol. Soc.94(1): 45-58|2021|10.2317/0022-8567-94.1.45
191454|A||Parveen,S.K., K. Veeraiah, G. Vani, and M.V. Kumar|Acute Toxicity and Effect of Flubendiamide (39.35% SC) on the Oxygen Consumption of the Fish, Catla catla (Hamilton)|Ecol. Environ. Conserv.27:1-8|2021|
191455|T||Gill,J.K., K.S. Sangha, P.S. Shera, and S. Sharma|Insecticidal Toxicity to Trichogramma chilonis Ishii (Hymenoptera: Trichogrammatidae) and Subsequent Effects on Parasitic Efficiency and Adult Emergence Rate of Descendant Generation|Int. J. Trop. Insect Sci.42(4): 3489-3498|2022|10.1007/s42690-022-00873-9
191456|A||Olsvik,P.A., K.E. Brokke, O.B. Samuelsen, and R. Hannisdal|Lufenuron Treatment Temporarily Represses Gene Expression and Affects the SUMO Pathway in Liver of Atlantic Salmon|J. Fish Dis.:14 p.|2023|
191457|A||Zhang,Y., T. Li, C. Pan, I.A. Khan, Z. Chen, Y. Yue, and M. Yang|Intergenerational Toxic Effects of Parental Exposure to Bisphenol AF on Offspring and Epigenetic Modulations in Zebrafish|Ecotoxicol. Environ. Saf.823:9 p.|2022|10.1016/j.scitotenv.2022.153714
191458|A||Zhu,N., R. Li, J. Zhang, Q. Yan, J. Jiao, D. Liang, H. Yue, N. Sang, and G. Li|Photo-Degradation Behavior of Seven Benzoylurea Pesticides with C3N4 Nanofilm and Its Aquatic Impacts on Scendesmus obliquus|Sci. Total Environ.799:8 p.|2021|10.1016/j.scitotenv.2021.149470
191459|A||Sydnes,M.O., V. Eikemo, P.G. Espedal, L.K. Sydnes, and F. Nilsen|Evaluation of Photodegradable Chitin Synthetase Inhibitors for the Treatment of Salmon Lice (Lepeophtheirus salmonis)|Aquaculture569:5 p.|2023|10.1016/j.aquaculture.2023.739372
191460|A||Li,X., X. He, X. Lin, W. Li, J. Gao, N. Zhang, Y. Guo, Z. Wang, N. Zhao, B. Zhang, and Z. Dong|Effects of Bisphenols on Lipid Metabolism and Neuro-Cardiovascular Toxicity in Marine Medaka Larvae|Aquat. Toxicol.259:12 p.|2023|10.1016/j.aquatox.2023.106551
191461|A||Yang,L., P. Chen, K. He, R. Wang, G. Chen, G. Shan, and L. Zhu|Predicting Bioconcentration Factor and Estrogen Receptor Bioactivity of Bisphenol A and Its Analogues in Adult Zebrafish by Directed Message Passing Neural Networks|Environ. Int.169:9 p.|2022|10.1016/j.envint.2022.107536
191462|A||Mu,X., S. Qi, H. Wang, L. Yuan, C. Wang, Y. Li, and J. Qiu|Bisphenol Analogues Induced Metabolic Effects Through Eliciting Intestinal Cell Heterogeneous Response|Environ. Int.165:13 p.|2022|10.1016/j.envint.2022.107287
191463|T||Yang,X., J. Wu, Q. Zhou, H. Zhu, A. Zhang, J. Sun, and J. Gan|Congener-Specific Uptake and Metabolism of Bisphenols in Carrot Cells: Dissipation Kinetics, Biotransformation, and Enzyme Responses|J. Agric. Food Chem.71(4): 1896-1906|2023|10.1021/acs.jafc.2c08197
191464|T||Ulziibayar,D., T. Begna, S. Ghosh, and C. Jung|Acute and Chronic Toxicity of Selected Pesticides Used in Strawberry Greenhouse to Honeybee (Apis mellifera) Larvae|J. Apic36(4): 281-287|2021|10.17519/apiculture.2021.11.36.4.281
191465|T||Khater,K.S.|Toxicological and Ultrastructural Effects of Chitin Synthesis Inhibitors (Lufenuron and Chlorfluazuron) on Third Larval Instars Integument of Chrysomya albiceps (Diptera: Calliphoridae)|Parasitol. United J.14(1): 95-103|2021|10.21608/puj.2021.63371.1108
191467|T||Harnett,K.G., L.G. Moore, A. Chin, I.C. Cohen, R.R. Lautrup, and S.M. Schuh|Teratogenicity and Toxicity of the New BPA Alternative TMBPF, and BPA, BPS, and BPAF in Chick Embryonic Development|Curr. Res. Toxicol.2:399-410|2021|10.1016/j.crtox.2021.11.001
191468|T||Asrar,M., S. Ali, N. Mushtaq, K. Zia, R. Bibi, I. Akhtar, D. Hussain, Y. Li, Y. Niaz, M.S. Alwahibi, M.S. Elshikh, and |Toxicity of Neem Seed Extract and Different Insecticides on Trichogramma chilonis (Hymenoptera: Trichogrammatidae)|J. King Saud Univ. Sci.34(6): 6 p.|2022|10.1016/j.jksus.2022.102135
191469|A||Yadav,N., H. Ahn, M.B. Kurade, Y. Ahn, Y.K. Park, M.A. Khan, E. Salama, X. Li, and B.H. Jeon|Fate of Five Bisphenol Derivatives in Chlamydomonas mexicana: Toxicity, Removal, Biotransformation and Microalgal Metabolism|J. Hazard. Mater.454:10 p.|2023|10.1016/j.jhazmat.2023.131504
191470|A||Chemicals Inspection and Testing Institute Japan|Prolonged Toxicity Test (21 Days) on Medaka (Oryzias latipes) Exposed to 1,2-Dichloroethane|Test Number 91505:41 p.|1996|
191471|A||Chemicals Inspection and Testing Institute Japan|Acute Immobilization Test on Daphnia magna Exposed to 1,2-Dichloroethane|Test Number 91502:35 p.|1996|
191472|A||Chemicals Inspection and Testing Institute Japan|Algal Growth Inhibition Test of Selenastrum capricornurum Exposed to 1,2-Dichloroethane|Test Number 91501:36 p.|1996|
191473|A||Fang,J., D. Wang, N.I. Kramer, I.M. Rietjens, P.J. Boogaard, and L. Kamelia|The Role of Receptor-Mediated Activities of 4- and 5-Ring Unsubstituted and Methylated Polycyclic Aromatic Hydrocarbons (PAHs) in Developmental Toxicity|J. Appl. Toxicol.43(6): 845-861|2023|10.1002/jat.4428
191474|A||Li,H., Y. Li, Y. Zhang, J. Li, H. Xu, Y. Xiong, and Z. Qin|Bisphenol B Disrupts Testis Differentiation Partly via the Estrogen Receptor-Mediated Pathway and Subsequently Causes Testicular Dysgenesis in Xenopus laevis|Ecotoxicol. Environ. Saf.236:11 p.|2022|10.1016/j.ecoenv.2022.113453
191475|T||Liu,Z., H. Su, B. Lyu, S. Yan, H. Lu, and J. Tang|Safety Evaluation of Chemical Insecticides to Tetrastichus howardi (Hymenoptera: Eulophidae), a Pupal Parasitoid of Spodoptera frugiperda (Lepidoptera: Noctuidae) Using Three Exposure Routes|Insects13(5): 13 p.|2022|10.3390/insects13050443
191476|A||Shi,L.X., X.D. Hu, N.H. Wang, H.F. Liang, C.X. Wu, and H. Cao|Histopathological Examination and Transcriptome Analyses to Assess the Acute Toxic Effects of Arsenite Exposure on Rare Minnows (Gobiocypris rarus)|Ecotoxicology29(5): 613-624|2020|10.1007/s10646-020-02222-3
191477|A||Chemicals Inspection and Testing Institute Japan|Reproductive Inhibition Test on Daphnia magna Exposed to 1,2-Dichloroethane|Test Number 91503:63 p.|1996|
191479|A||Lavanya,S., M. Ramesh, C. Kavitha, and A. Malarvizhi|Hematological, Biochemical and Ionoregulatory Responses of Indian Major Carp Catla catla During Chronic Sublethal Exposure to Inorganic Arsenic|Chemosphere82(7): 977-985|2011|10.1016/j.chemosphere.2010.10.071
191480|A||Milan,F.S., B.R.S. Maleki, M.H. Moosavy, S. Mousavi, N. Sheikhzadeh, and S.A. Khatibi|Ameliorating Effects of Dietary Haematococcus pluvialis on Arsenic-Induced Oxidative Stress in Rainbow Trout (Oncorhynchus mykiss) Fillet|Ecotoxicol. Environ. Saf.207:8 p.|2021|10.1016/j.ecoenv.2020.111559
191481|A||Palaniappan,P.L.R.M., V. Vijayasundaram, and S.M. Prabu|A Study of the Subchronic Effects of Arsenic Exposure on the Liver Tissues of Labeo rohita Using Fourier Transform Infrared Technique|Environ. Toxicol.26(4): 338-344|2011|10.1002/tox.20557
191482|A||Jamwal,A., and S. Niyogi|Dose and Chemical Species-Specific Effects of Selenium Against Arsenite Toxicity in Cultured Hepatocytes of Rainbow Trout (Oncorhynchus mykiss)|Metallomics9(6): 744-756|2017|10.1039/c7mt00006e
191483|T||Xu,J., H.L. Jia, H.R. Ma, C.Y. Tian, and C. Zhu|Salinity Relief Aniline Induced Oxidative Stress in Suaeda salsa: Activities of Antioxidative Enzyme and EPR Measurements|Ecotoxicol. Environ. Saf.205:10 p.|2020|10.1016/j.ecoenv.2020.111293
191484|A||Kumari,B., and J. Ahsan|Acute Exposure of Arsenic Tri-oxide Produces Hyperglycemia in Both Sexes of an Indian Teleost, Clarias batrachus (Linn.)|Arch. Environ. Contam. Toxicol.61(3): 435-442|2011|10.1007/s00244-011-9649-z
191485|A||Fuse,Y., V.T. Nguyen, and M. Kobayashi|NrF2-Dependent Protection Against Acute Sodium Arsenite Toxicity in Zebrafish|Toxicol. Appl. Pharmacol.305:136-142|2016|10.1016/j.taap.2016.06.012
191486|A||Chen,L.Z., W. Zhang, Z.Q. Guo, and L. Zhang|Effects of Acclimation on Arsenic Bioaccumulation and Biotransformation in Freshwater Medaka Oryzias mekongensis After Chronic Arsenic Exposure|Environ. Pollut.238:17-25|2018|10.1016/j.envpol.2018.03.011
191487|A||Ferreira,N.S., L.H.B. Oliveira, V. Agrelli, A.F. De Oliveira, A.R.A. Nogueira, A. Oliveira, and M.H. Gonzalez|Bioaccumulation and Acute Toxicity of As(III) and As(V) in Nile Tilapia (Oreochromis niloticus)|Chemosphere217:349-354|2019|10.1016/j.chemosphere.2018.11.013
191488|A||Erickson,R.J., D.R. Mount, T.L. Highland, J.R. Hockett, D.J. Hoff, C.T. Jenson, and T.J. Lahren|The Effects of Arsenic Speciation on Accumulation and Toxicity of Dietborne Arsenic Exposures to Rainbow Trout|Aquat. Toxicol.210:227-241|2019|10.1016/j.aquatox.2019.03.001.
191489|A||Chen,L.Z., D.D. Song, W. Zhang, C.C. Zhang, and L. Zhang|The Dynamic Changes of Arsenic Bioaccumulation and Antioxidant Responses in the Marine Medaka Oryzias melastigma During Chronic Exposure|Aquat. Toxicol.212:110-119|2019|10.1016/j.aquatox.2019.05.001
191490|T||Xu,Z., T. Feng, Q. Liu, H. Li, W. Wei, R. Shi, Y. Cao, and S. Liu|Design, Synthesis, Fungicidal and Insecticidal Activities of Novel Diamide Compounds Combining Pyrazolyl and Polyfluoro-Substituted Phenyl into Alanine or 2-Aminobutyric Acid Skeletons|Molecules28(2): 20 p.|2023|10.3390/molecules28020561
191491|T||Wen,Z., J. Feng, B. Zhu, W. Xu, F. Xu, H. Tan, D. Chu, and L. Guo|Pyrifluquinazon Baseline Susceptibility and Inhibition of Tomato Chlorosis Virus Transmission by Bemisia tabaci|Pest Manag. Sci.79:9 p.|2023|10.1002/ps.7532
191492|T||Idrees,A., Z.A. Qadir, A. Afzal, Q. Ranran, and J. Li|Laboratory Efficacy of Selected Synthetic Insecticides Against Second Instar Invasive Fall Armyworm, Spodoptera frugiperda (Lepidoptera: Noctuidae) Larvae|PLoS One17(5): 14 p.|2022|10.1371/journal.pone.0265265
191493|A||Erickson,R.J., D.R. Mount, T.L. Highland, J.R. Hockett, C.T. Jenson, and T.J. Lahren|The Relative Importance of Waterborne and Dietborne as Exposure on Survival and Growth of Juvenile Fathead Minnows|Aquat. Toxicol.211:18-28|2019|10.1016/j.aquatox.2019.03.008
191494|T||Roy,D., S. Biswas, S. Sarkar, S. Adhikary, G. Chakraborty, P.K. Sarkar, L.A. Al-Shuraym, S. Sayed, A. Gaber, and A. Hos|Risk Assessment of Fluxametamide Resistance and Fitness Costs in Fall Armyworm (Spodoptera frugiperda)|Toxics11(4): 18 p.|2023|10.3390/toxics11040307
191495|T||Prazaru,S.C., D. D'Ambrogioo, M. Dal Cero, M. Rasera, G. Cenedese, E. Guerrieri, M. Pavasini, N. Mori, F. Pavan, and C.|Efficacy of Conventional and Organic Insecticides Against Scaphoideus titanus: Field and Semi-Field Trials|Insects14(2): 16 p.|2023|10.3390/insects14020101
191496|A||Kumar,N., S.K. Gupta, S. Bhushan, and N.P. Singh|Impacts of Acute Toxicity of Arsenic (III) Alone and with High Temperature on Stress Biomarkers, Immunological Status and Cellular Metabolism in Fish|Aquat. Toxicol.214:12 p.|2019|10.1016/j.aquatox.2019.105233
191497|A||Das,S.C.S., S. Datta, A.K. Pal, and R.C. Das|Effect of Air Temperature on Acute Toxicity of Arsenic (As) and Mercury (Hg) to Cyprinus carpio var communis|Environ. Ecol.23:311-314|2005|
191498|A||Datta,S., S. Chandra, S. Das, and R.C. Das|Influence of Water pH on Acute Toxicity of Arsenic (As) and Mercury (Hg) to Cyprinus carpio var Communis|Environ. Ecol.24(2): 289-292|2006|
191499|T||Dong,Y., M. Gao, Z. Song, and W. Qiu|Microplastic Particles Increase Arsenic Toxicity to Rice Seedlings|Environ. Pollut.259:11 p.|2020|
191500|A||Nunez,A.A.G., J.P. Ferro, L.B. Campos, B.L. Eissa, M.M. Mastrangelo, L. Ferrari, and N.A. Ossana|Evaluation of the Acute Effects of Arsenic on Adults of the Neotropical Native Fish Cnesterodon decemmaculatus Using a Set of Biomarkers|Environ. Toxicol. Chem.41(5): 1246-1259|2022|10.1002/etc.5299
191501|A||Niemikoski,H., K.K. Lehtonen, A. Ahvo, I. Heiskanen, and P. Vanninen|Metabolism and Cytotoxicity of Diphenylarsinic Acid, a Degradation Product of Sea-Dumped Chemical Warfare Agents, in a Rainbow Trout Liver Cell Line RTL-W1|Aquat. Toxicol.241:8 p.|2021|10.1016/j.aquatox.2021.105993
191502|T||Govoetchan,R., A. Fongnikin, T. Syme, G. Small, M. Gbegbo, D. Todjinou, M. Rowland, D. Nimmo, G.G. Padonou, and C. Nguf|Vectron T500, a New Broflanilide Insecticide for Indoor Residual Spraying, Provides Prolonged Control of Pyrethroid-Resistant Malaria Vectors|Malar. J.21(1): 14 p.|2022|10.1186/s12936-022-04336-x
191503|T||Li,R., S. Cheng, Z. Chen, T. Guo, P. Liang, C. Zhen, J. Wang, L. Zhang, P. Liang, and X. Gao|Establishment of Toxicity and Susceptibility Baseline of Broflanilide for Aphis gossypii Glove|Insects13(11): 8 p.|2022|10.3390/insects13111033
191504|T||Pasupathi,E., Y.S.J.T. Edward, and M. Kannan|Safety of Diamide Group of Insecticides to Larval Endoparasitoid, Cotesia plutellae (Kurdj.) of Diamondback Moth, Plutella xylostella (L.)|J. Entomol. Res.45:881-885|2021|10.5958/0974-4576.2021.00137.7
191505|T||Li,Y., C. Qu, Q. Zhang, L. Zhang, C. Luo, and R. Wang|Baseline Susceptibility, Cross-Resistance, and Sublethal Effects of Broflanilide, a Novel Meta-Diamide Pesticide, in Spodoptera litura|Int. J. Mol. Sci.24(6): 12 p.|2023|10.3390/ijms24065351
191506|T||Wang,X., T. Shi, P. Tang, S. Liu, B. Hou, D. Jiang, J. Lu, Y. Yang, Y. Carriere, and Y. Wu|Baseline Susceptibility of Helicoverpa armigera, Plutella xylostella, and Spodoptera frugiperda to the Meta-Diamide Insecticide Broflanilide|Insect Sci.30:1118-1128|2023|10.1111/1744-7917.13142
191507|T||Sutherland,A.M., C. Hubble, and M. Barber|Installation Season May Significantly Impact Time Required for Subterranean Termites to Find and Feed on In-Ground Baits|Insects13(5): 9 p.|2022|10.3390/insects13050445
191508|T||Su,N., A. Mullins, and T. Chouvenc|Elimination of Structural and Tree Infestations of the Asian Subterranean Termite, Coptotermes gestroi (Wasmann) (Blattodea: Rhinotermitidae) with Noviflumuron Baits in Above-Ground Stations|J. Econ. Entomol.:909-915|2023|10.1093/jee/toad077
191509|A||Siegel,G.J., and R.W. Albers|Sodium-Potassium-Activated Adenosine Triphosphatase of Electrophorus Electric Organ. IV. Modification of Responses to Sodium and Potassium by Arsenite Plus 2,3-Dimercaptopropanol|J. Biol. Chem.242(21): 4972-4979|1967|10.1016/S0021-9258(18)99464-0
191510|T||Wang,J., J. Xiang, M. Wu, H. Long, D. Wu, and J. Liu|Design, Synthesis, and Insecticidal Activities of Novel Meta-Diamide Compounds Containing Ethyl Acetate and Their Derivatives|Chem. Biodivers.20(4): 8 p.|2023|10.1002/cbdv.202300060
191511|T||Jameel,M., M.F. Alam, H. Fatma, D. Singh, M.A. Khan, M.A. Qureshi, S. Javed, H. Younus, K. Jamal, and H.R. Siddique|Flubendiamide Induced Genetic and Cellular Damages Directly Influence the Life Cycle of the Oriental Leaf Worm, Spodoptera litura|Pestic. Biochem. Physiol.193:14 p.|2023|10.1016/j.pestbp.2023.105448
191512|T||Shi,T., P. Tang, X. Wang, Y. Yang, and Y. Wu|CRISPR-mediated Knockout of Nicotinic Acetylcholine Receptor (nAChR) A6 Subunit Confers High Levels of Resistance to Spinosyns in Spodoptera frugiperda|Pestic. Biochem. Physiol.187:7 p.|2022|10.1016/j.pestbp.2022.105191
191513|A||Hanson,A.M., J.D. Kittilson, and M.A. Sheridan|Environmental Estrogens Inhibit Insulin-Like Growth Factor (IGF) Receptor mRNA Expression, IGF Binding, and IGF Signaling Ex Vivo in Rainbow Trout (Oncorhynchus mykiss)|Gen. Comp. Endocrinol.330:10 p.|2023|10.1016/j.ygcen.2022.114125
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191780|T||Silva,R.S., L.P. Arcanjo, J.R.S. Soares, D.O. Ferreira, J.E. Serrao, J.C. Martins, A.H. Costa, and M.C. Picanco|Insecticide Toxicity to the Borer Neoleucinodes elegantalis (Guenee) (Lepidoptera: Crambidae): Developmental and Egg-Laying Effects|Neotrop. Entomol. (Multiple Languages)47(2): 318-325|2018|10.1007/s13744-17-553-8
191781|T||Souza,C.M., E.L. Baldin, L.P. Ribeiro, I.F. Silva, R. Morando, K.U. Bicalho, J.D. Vendramim, and J.B. Fernandes|Lethal and Growth Inhibitory Activities of Neotropical Annonaceae-Derived Extracts, Commercial Formulation, and an Isolated Acetogenin Against Helicoverpa armigera|J. Pest Sci.90(2): 701-709|2017|10.1007/s10340-16-817-9
191782|T||Dou,Y., J. An, X. Yan, Z. Dang, J. Guo, Z. Gao, and Y. Li|Influence of Pre-Exposure Time on the Toxicities of Different Temperature Effect Insecticides to Apolygus lucorum (Hemiptera: Miridae)|PLoS One17(8): 8 p.|2022|10.1371/journal.pone.0272429
191783|A||Mattingly,C.J., T.H. Hampton, K.M. Brothers, N.E. Griffin, and A. Planchart|Perturbation of Defense Pathways by Low-Dose Arsenic Exposure in Zebrafish Embryos|Environ. Health Perspect.117(6): 981-987|2009|10.1289/ehp.0900555
191784|T||Hanif,M.U., A.B.M. Raza, M.Z. Majeed, M. Arshad, and M.I. Ullah|Laboratory Evaluation of Selected Differential Chemistry and Botanical Insecticides Against Hadda Beetle Epilachna vigintioctopunctata Fabricius (Coleoptera: Coccinellidae)|Punjab Univ. J. Zool.36(2): 185-191|2021|10.17582/journal.pujz/2021.36.2.185.191
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191786|T||Hasnain,M., S. Shafqat, U. Naeem-Ullah, and S. Ullah|Evaluation of Chemosterility Effect of Different Insect Growth Regulators on Bactrocera zonata Population|Sci. Prog.106(1): 1-30|2023|10.1177/00368504231155388
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191789|T||Steinbach,D., O. Gutbrod, P. Lummen, S. Matthiesen, C. Schorn, and R. Nauen|Geographic Spread, Genetics and Functional Characteristics of Ryanodine Receptor Based Target-Site Resistance to Diamide Insecticides in Diamondback Moth, Plutella xylostella|Insect Biochem. Mol. Biol.63:14-22|2015|10.1016/j.ibmb.2015.05.001
191790|T||Taggar,G.K., R.K. Singh, H.S. Randhawa, and H.K. Cheema|Novel Insecticides for the Management of Pod Borer Complex in Pigeonpea Crop|Legume Res.44(10): 8 p.|2021|10.18805/LR-4158
191792|A||Dong,W.Q., H.J. Sun, Y. Zhang, H.J. Lin, J.R. Chen, and H.C. Hong|Impact on Growth, Oxidative Stress, and Apoptosis-Related Gene Transcription of Zebrafish After Exposure to Low Concentration of Arsenite|Chemosphere211:648-652|2018|10.1016/j.chemosphere.2018.08.010
191793|A||Heffern,K., K. Tierney, and E.P. Gallagher|Comparative Effects of Cadmium, Zinc, Arsenic and Chromium on Olfactory-Mediated Neurobehavior and Gene Expression in Larval Zebrafish (Danio rerio)|Aquat. Toxicol.201:83-90|2018|10.1016/j.aquatox.2018.05.016
191794|A||Szymkowicz,D.B., K.L. Schwendinger, C.M. Tatnall, J.R. Swetenburg, and L.J. Bain|Embryonic-Only Arsenic Exposure Alters Skeletal Muscle Satellite Cell Function in Killifish (Fundulus heteroclitus)|Aquat. Toxicol.198:276-286|2018|10.1016/j.aquatox.2018.03.015
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191798|T||Aliyu,R., Z.S.C. Okoye, and W.T. Shier|The Hepatoprotective Cytochrome P-450 Enzyme Inhibitor Isolated From the Nigerian Medicinal Plant Cochlospermum planchonii is a Zinc Salt|J. Ethnopharmacol.48(2): 89-97|1995|10.1016/0378-8741(95)01290-T
191799|T||Fan,X.Z., J.L. Wang, K.V. Soman, G.A.S. Ansari, and M.F. Khan|Aniline-Induced Nitrosative Stress in Rat Spleen: Proteomic Identification of Nitrated Proteins|Toxicol. Appl. Pharmacol.255(1): 103-112|2011|10.1016/j.taap.2011.06.005
191800|T||Furner,R.L., and R.E. Stitzel|Stress-Induced Alterations in Microsomal Metabolism in the Adrenalectomized Rat|Biochem. Pharmacol.17:121-127|1968|10.1016/0006-2952(68)90164-0
191801|A||Xu,H.J., S.H. Lam, Y. Shen, and Z. Gong|Genome-Wide Identification of Molecular Pathways and Biomarkers in Response to Arsenic Exposure in Zebrafish Liver|PLoS One8(7): 12 p.|2013|10.1371/annotation/659105c2-8364-4cc7-94e7-66620370637a
191802|A||D'Amico,A.R., A.W. Gibson, and L.J. Bain|Embryonic Arsenic Exposure Reduces the Number of Muscle Fibers in Killifish (Fundulus heteroclitus)|Aquat. Toxicol.146:196-204|2014|10.1016/j.aquatox.2013.11.010
191803|A||Kousar,S., and M. Javed|Assessment of DNA Damage in Peripheral Blood Erythrocytes of Fish Exposed to Arsenic Under Laboratory Conditions|Int. J. Curr. Microbiol. Appl. Sci.3(11): 877-888|2014|
191804|A||Thang,N.Q., B.T. Huy, L.V. Tan, and N.T.K. Phuong|Lead and Arsenic Accumulation and Its Effects on Plasma Cortisol Levels in Oreochromis sp.|Bull. Environ. Contam. Toxicol.99(2): 187-193|2017|10.1007/s00128-017-2113-7
191805|T||Ma,H., J. Wang, S.Z. Abdel-Rahman, P.J. Boor, and M.F. Khan|Oxidative DNA Damage and Its Repair in Rat Spleen Following Subchronic Exposure to Aniline|Toxicol. Appl. Pharmacol.233(2): 247-253|2008|10.1016/j.taap.2008.08.010
191806|T||Mehendale,H.M., M. Fields, and H.B. Mathews|Metabolism and Effects of Hexachlorobenzene on Hepatic Microsomal Enzymes in the Rat|J. Agric. Food Chem.23:261-265|1975|10.1021/jf60198a042
191808|A||Eisele,T.A., R.O. Sinnhuber, and J.E. Nixon|Dietary Antioxidant Effects on the Hepatic Mixed-Function Oxidase System of Rainbow Trout (Salmo gairdneri)|Food Chem. Toxicol.21(3): 273-277|1983|10.1016/0278-6915(83)90060-1
191809|A||Rocco,L., F. Mottola, M. Santonastaso, V. Saputo, E. Cusano, D. Costagliola, T. Suero, S. Pacifico, and V. Stingo|Anti-Genotoxic Ability of alpha-Tocopherol and Anthocyanin to Counteract Fish DNA Damage Induced by Musk Xylene|Ecotoxicology24(9): 2026-2035|2015|10.1007/s10646-015-1538-1
191810|A||Cengiz,E.I., A.S. Bayar, and V. Kizmaz|The Protective Effect of Vitamin E Against Changes in Fatty Acid Composition of Phospholipid Subclasses in Gill Tissue of Oreochromis niloticus Exposed to Deltamethrin|Chemosphere147:138-143|2016|10.1016/j.chemosphere.2015.12.110
191811|A||Jang,G.H., C.B. Park, B.J. Kang, Y.J. Kim, and K.H. Lee|Sequential Assessment via, Daphnia and Zebrafish for Systematic Toxicity Screening of Heterogeneous Substances|Environ. Pollut.216:292-303|2016|10.1016/j.envpol.2016.06.001
191812|A||Thawonsuwan,J., V. Kiron, S. Satoh, A. Panigrahi, and V. Verlhac|Epigallocatechin-3-Gallate (EGCG) Affects the Antioxidant and Immune Defense of the Rainbow Trout, Oncorhynchus mykiss|Fish Physiol. Biochem.36(3): 687-697|2010|10.1007/s10695-009-9344-4
191813|A||Farsani,H.G., H.B. Doria, H. Jamali, S. Hasanpour, N. Mehdipour, and G. Rashidiyan|The Protective Role of Vitamin E on Oreochromis niloticus Exposed to ZnONP|Ecotoxicol. Environ. Saf.145:1-7|2017|10.1016/j.ecoenv.2017.07.005
191814|A||Cornet,V., A. Ouaach, S.N.M. Mandiki, E. Flamion, A. Ferain, M. Van Larebeke, B. Lemaire, F.E.R. Lopez, L. Tort, Y. Lar|Environmentally-Realistic Concentration of Cadmium Combined with Polyunsaturated Fatty Acids Enriched Diets Modulated Non-Specific Immunity in Rainbow Trout|Aquat. Toxicol.196:104-116|2018|10.1016/j.aquatox.2018.01.012
191816|A||Naderi,M., S. Keyvanshokooh, A.P. Salati, and A. Ghaedi|Combined or Individual Effects of Dietary Vitamin E and Selenium Nanoparticles on Humoral Immune Status and Serum Parameters of Rainbow Trout (Oncorhynchus mykiss) Under High Stocking Density|Aquaculture474:40-47|2017|10.1016/j.aquaculture.2017.03.036
191817|A||Qu,L., C.M. Zhao, C.X. Wang, S.Q. Gu, M.C. Zhang, X.J. Deng, and W.M. Song|A Novel Zebrafish (Danio rerio) Assay for Assessing Musk Ambrette-Induced Toxicity|Bull. Environ. Contam. Toxicol.101(1): 80-85|2018|10.1007/s00128-018-2363-z
191818|A||Zhou,R.R., G.H. Lu, Z.H. Yan, R.R. Jiang, J. Shen, and X.H. Bao|Parental Transfer of Ethylhexyl Methoxy Cinnamate and Induced Biochemical Responses in Zebrafish|Aquat. Toxicol.206:24-32|2019|10.1016/j.aquatox.2018.11.001
191819|A||Szymkowicz,D.B., K.C. Sims, N.M. Castro, W.C. Bridges, and L.J. Bain|Embryonic-Only Arsenic Exposure in Killifish (Fundulus heteroclitus) Reduces Growth and Alters Muscle IGF Levels One Year Later|Aquat. Toxicol.186:1-10|2017|10.1016/j.aquatox.2017.02.020
191820|A||Cobbina,S.J., G.H. Mao, T. Zhao, H. Xu, Z. Zhang, H.Y. Liu, Y.M. Zou, X.Y. Wu, and L.Q. Yang|Modulation of N-Methyl-D-Aspartate Receptors (NMDAR), Bcl-2 and C-Fos Gene Expressions on Exposure to Individual and Mixtures of Low Concentration Metals in Zebrafish (Danio rerio)|Arch. Environ. Contam. Toxicol.72(3): 418-427|2017|10.1007/s00244-016-0352-y
191821|A||Olivares,C.I., J.A. Field, M. Simonich, R.L. Tanguay, and R. Sierra-Alvarez|Arsenic (III, V), Indium (III), and Gallium (III) Toxicity to Zebrafish Embryos Using a High-Throughput Multi-Endpoint In Vivo Developmental and Behavioral Assay|Chemosphere148:361-368|2016|10.1016/j.chemosphere.2016.01.050
191822|A||Carvan III,M.J., W.A. Solis, L. Gedamu, and D.W. Nebert|Activation of Transcription Factors in Zebrafish Cell Cultures by Environmental Pollutants|Arch. Biochem. Biophys.376(2): 320-327|2000|10.1006/abbi.2000.1727
191823|A||Hermann,A.C., and C.H. Kim|Effects of Arsenic on Zebrafish Inmate Immune System|Mar. Biotechnol.7(5): 494-505|2005|10.1007/s10126-004-4109-7
191824|A||Oliver,A.L.S., J. Sanz-Landaluze, R. Munoz-Olivas, J. Guinea, and C. Camara|Zebrafish Larvae as a Model for the Evaluation of Inorganic Arsenic and Tributyltin Bioconcentration|Water Res.45(19): 6515-6524|2011|10.1016/j.watres.2011.09.052
191825|A||Baldissarelli,L.A., K.M. Capiotti, M.R. Bogo, G. Ghisleni, and C.D. Bonan|Arsenic Alters Behavioral Parameters and Brain Ectonucleotidases Activities in Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(4): 566-572|2012|10.1016/j.cbpc.2012.01.006
191826|A||Gaworecki,K.M., R.W. Chapman, M.G. Neely, A.R. D'Amico, and L.J. Bain|Arsenic Exposure to Killifish During Embryogenesis Alters Muscle Development|Toxicol. Sci.125(2): 522-531|2012|10.1093/toxsci/kfr302
191827|A||Hamdi,M., M. Yoshinaga, C. Packianathan, J. Qin, J. Hallauer, J.R. McDermott, H.C. Yang, K.J. Tsai, and Z.J. Liu|Identification of an S-Adenosylmethionine (SAM) Dependent Arsenic Methyltransferase in Danio rerio|Toxicol. Appl. Pharmacol.262(2): 185-193|2012|10.1016/j.taap.2012.04.035
191828|A||Jung,D., B. MacIver, B.P. Jackson, R. Barnaby, J.D. Sato, M.L. Zeidel, J.R. Shaw, and B.A. Stanton|A Novel Aquaporin 3 in Killifish (Fundulus heteroclitus) is not an Arsenic Channel|Toxicol. Sci.127(1): 101-109|2012|10.1093/toxsci/kfs078
191829|A||Zhang,W., L.M. Huang, and W.X. Wang|Arsenic Bioaccumulation in a Marine Juvenile Fish Terapon jarbua|Aquat. Toxicol.105(3/4): 582-588|2011|10.1016/j.aquatox.2011.08.009
191830|A||Kumar,R., and T.K. Banerjee|Analysis of Arsenic Bioaccumulation in Different Organs of the Nutritionally Important Catfish, Clarias batrachus (L.) Exposed to the Trivalent Arsenic Salt, Sodium Arsenite|Bull. Environ. Contam. Toxicol.89(3): 445-449|2012|10.1007/s00128-012-0714-8
191831|A||Guardiola,F.A., M.P. Gonzalez-Parraga, A. Cuesta, J. Meseguer, S. Martinez, M.J. Martinez-Sanchez, C. Perez-Sirvent, an|Immunotoxicological Effects of Inorganic Arsenic on Gilthead Seabream (Sparus aurata L.)|Aquat. Toxicol.134/135:112-119|2013|10.1016/j.aquatox.2013.03.015
191832|A||Kumar,A., V.P. Kesari, A.K. Alok, S.N. Kazim, and P.K. Khan|Assessment of Arsenic-Induced DNA Damage in Goldfish by a Polymerase Chain Reaction-Based Technique Using Random Amplified Polymorphic DNA Markers|Arch. Environ. Contam. Toxicol.67(4): 630-638|2014|10.1007/s00244-014-0051-5
191833|A||Magellan,K., L. Barral-Fraga, M. Rovira, P. Srean, G. Urrea, E. Garcia-Berthou, and H. Guasch|Behavioural and Physical Effects of Arsenic Exposure in Fish are Aggravated by Aquatic Algae|Aquat. Toxicol.156:116-124|2014|10.1016/j.aquatox.2014.08.006
191834|A||Tuulaikhuu,B.A., A.M. Romani, and H. Guasch|Arsenic Toxicity Effects on Microbial Communities and Nutrient Cycling in Indoor Experimental Channels Mimicking a Fluvial System|Aquat. Toxicol.166:72-82|2015|10.1016/j.aquatox.2015.07.005
191835|A||Kumar,R., and T.K. Banerjee|Changes in the Level of Proteins, Free Amino Acids and Protease Activities of Clarias batrachus in Response to Sodium Meta-Arsenite Intoxication|Clean - Soil, Air, Water41(12): 1196-1200|2013|10.1002/clen.201200041
191836|A||Kumar,R., and T.K. Banerjee|Estimation of Arsenic Toxicity by Analysis of Certain Marker Enzymes of the Air-Breathing Catfish Clarias batrachus (Linn.)|Clean - Soil, Air, Water42(5): 690-695|2014|10.1002/clen.201200696
191837|A||Saunders,L.J., S. Fontanay, J.W. Nichols, and F. Gobas|Concentration Dependence of In Vitro Biotransformation Rates of Hydrophobic Organic Sunscreen Agents in Rainbow Trout S9 Fractions: Implications for Bioaccumulation Assessment|Environ. Toxicol. Chem.38(3): 548-560|2019|10.1002/etc.4342
191838|A||Lee,I., J. Lee, D. Jung, S. Kim, and K. Choi|Two-Generation Exposure to 2-Ethylhexyl 4-Methoxycinnamate (EHMC) in Japanese Medaka (Oryzias latipes) and Its Reproduction and Endocrine Related Effects|Chemosphere228:478-484|2019|10.1016/j.chemosphere.2019.04.123
191839|A||Zhou,R., G. Lu, Z. Yan, X. Bao, P. Zhang, and R. Jiang|Bioaccumulation and Biochemical Effects of Ethylhexyl Methoxy Cinnamate and Its Main Transformation Products in Zebrafish|Aquat. Toxicol.214:9 p.|2019|10.1016/j.aquatox.2019.105241
191840|A||Liang,X., Y. Zhao, W. Liu, Z. Li, C.L.,II Souders, and C.J. Martyniuk|Butylated Hydroxytoluene Induces Hyperactivity and Alters Dopamine-Related Gene Expression in Larval Zebrafish (Danio rerio)|Environ. Pollut.257:8 p.|2020|10.1016/j.envpol.2019.113624
191841|A||Saunders,L.J., A.D. Hoffman, J.W. Nichols, and F.A.P.C. Gobas|Dietary Bioaccumulation and Biotransformation of Hydrophobic Organic Sunscreen Agents in Rainbow Trout|Environ. Toxicol. Chem.39(3): 574-586|2020|10.1002/etc.4638
191842|A||Hashish,E.A., S.A. Elgaml, A. El-Murr, and R. Khalil|Nephroprotective and Antioxidant Significance of Selenium and alpha-Tocopherol on Lead Acetate-Induced Toxicity of Nile Tilapia (Oreochromis niloticus)|Fish Physiol. Biochem.41(3): 651-660|2015|10.1007/s10695-015-0035-z
191844|A||Saunders,L.J., P.N. Fitzsimmons, J.W. Nichols, and F.A.P.C. Gobas|In Vitro-in Vivo Extrapolation of Hepatic and Gastrointestinal Biotransformation Rates of Hydrophobic Chemicals in Rainbow Trout|Aquat. Toxicol.228:12 p.|2020|10.1016/j.aquatox.2020.105629
191846|A||Naderi,M., S. Keyvanshokooh, A.P. Salati, and A. Ghaedi|Proteomic Analysis of Liver Tissue from Rainbow Trout (Oncorhynchus mykiss) Under High Rearing Density After Administration of Dietary Vitamin E and Selenium Nanoparticles|Comp. Biochem. Physiol. D Genom. Proteom.22:10-19|2017|10.1016/j.cbd.2017.02.001
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191848|A||Cooney,R.V., R.O. Mumma, and A.A. Benson|Arsonium-Phospholipid in Algae|Proc. Natl. Acad. Sci. U.S.A.75:4262-4264|1978|10.1073/pnas.75.9.4262
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191850|A||Li,Z., W. Li, J. Zha, H. Chen, C. Martyniuk, and X. Liang|Transcriptome Analysis Reveals Benzotriazole Ultraviolet Stabilizers Regulate Networks Related to Inflammation in Juvenile Zebrafish (Danio rerio) Brain|Environ. Toxicol.34(2): 112-122|2019|10.1002/tox.22663
191852|A||Schaefer,E.D., and W.O. Pipes|Temperature and Toxicity of Chromate and Arsenate to Rotifer, Philodina roseola|Water Res.7:1781-1790|1973|10.1016/0043-1354(73)90033-X
191853|T||Uzcategui,N.L., K. Figarella, B. Bassarak, N.W. Meza, R. Mukhopadhyay, J.L. Ramirez, and M. Duszenko|Trypanosoma brucei Aquaglyceroporins Facilitate the Uptake of Arsenite and Antimonite in a pH Dependent Way|Cell. Physiol. Biochem.32:880-888|2013|10.1159/000354490
191854|A||Zhao,Y., C.Z. Yan, and Z. Zhen|Influence of Environmental Factors on Arsenite Transformation and Fate in the Hydrilla verticillata (L.F.) Royle - Medium System|Chemosphere259:10 p.|2020|10.1016/j.chemosphere.2020.127442
191855|T||Ghoshal,S.K., D. Mukhopadhyay, and T.K. Ghosh|Effect of Arsenic-Contaminated Irrigation Water on the Uptake of Arsenic and Phosphorus by Rice (cv. IET-4094)|Crop Res. (Hisar)26(2): 243-248|2003|
191856|AT||Huq,S.M.I., M.B. Abdullah, and J.C. Joardar|Bioremediation of Arsenic Toxicity by Algae in Rice Culture|Land Contam. Reclam.15(3): 327-334|2007|10.2462/09670513.831
191857|A||Ananth,S., and V. Mathivanan|Studies on Biochemical Changes in the Fish Ctenopharyngodon idella in Relation to Arsenic Toxicity|Int. J. Pharm. Biol. Arch.4(6): 1226-1232|2013|
191858|A||Singh,S., and A.K. Srivastava|Sub Lethal Effects of Copper and Arsenic on Some Biochemical and Hematological Parameters of the Blood in an Air Breathing Fish Heteropneustes fossilis|J. Ecophysiol. Occup. Health15(3/4): 105-114|2015|10.15512/joeoh/2015/v15i3-4/121592
191859|A||Goodale,B.C., T.H. Hampton, E.N. Ford, C.E. Jackson, J.R. Shaw, B.A. Stanton, and B.L. King|Profiling MicroRNA Expression in Atlantic Killifish (Fundulus heteroclitus) Gill and Responses to Arsenic and Hyperosmotic Stress|Aquat. Toxicol.206:142-153|2019|10.1016/j.aquatox.2018.11.009.
191860|A||Kollar,T., E. Kasa, B. Csorbai, B. Urbanyi, Z. Csenki-Bakos, and A. Horvath|In Vitro Toxicology Test System Based on Common Carp (Cyprinus carpio) Sperm Analysis|Fish Physiol. Biochem.44(6): 1577-1589|2018|10.1007/s10695-018-0541-x
191862|A||Ferain,A., E. Delbecque, I. Neefs, H. Dailly, N. De Saeyer, M. Van Larebeke, V. Cornet, Y. Larondelle, J.F. Rees, P. Ke|Interplay Between Dietary Lipids and Cadmium Exposure in Rainbow Trout Liver: Influence on Fatty Acid Metabolism, Metal Accumulation and Stress Response|Aquat. Toxicol.231:18 p.|2021|10.1016/j.aquatox.2020.105676
191863|A||Kollar,T., E. Kasa, A. Ferincz, B. Urbanyi, Z. Csenki-Bakos, and A. Horvath|Development of an In Vitro Toxicological Test System Based on Zebrafish (Danio rerio) Sperm Analysis|Environ. Sci. Pollut. Res.25(15): 14426-14436|2018|10.1007/s11356-018-1613-2
191864|A||Mohamed,A.S., H.A. Soliman, and H.E. Ghannam|Ameliorative Effect of Vitamins (E and C) on Biochemical Alterations Induced by Sublethal Concentrations of Zinc Oxide Bulk and Nanoparticles in Oreochromis niloticus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.242:11 p.|2021|10.1016/j.cbpc.2020.108952
191865|A||Sogaard,R., H. Holbech, U. Norum, and P. Bjerregaard|Investigation of the in Vivo Estrogenicity of the UV-Filters 4-Methylbenzy-Lidene Camphor and Octyl Methoxy Cinnamate in Rainbow Trout (Oncorhynchus mykiss)|Ecotoxicol. Environ. Saf.224:6 p.|2021|10.1016/j.ecoenv.2021.112657
191866|A||Morcillo,P., M.A. Esteban, and A. Cuesta|Heavy Metals Produce Toxicity, Oxidative Stress and Apoptosis in the Marine Teleost Fish SAF-1 Cell Line|Chemosphere144:225-233|2016|10.1016/j.chemosphere.2015.08.020
191867|A||Zhou,R.R., G.H. Lu, Z.H. Yan, R.R. Jiang, Y. Sun, and P. Zhang|Epigenetic Mechanisms of DNA Methylation in the Transgenerational Effect of Ethylhexyl Salicylate on Zebrafish|Chemosphere295:9 p.|2022|10.1016/j.chemosphere.2022.133926
191868|A||Goulletquer,P., M. Wolowicz, A. Latala, C. Brown, and S. Cragg|Application of a Micro-Respirometric Volumetric Method to Respiratory Measurements of Larvae of the Pacific Oyster Crassostrea gigas|Aquat. Living Resour.17:195-200|2004|10.1051/alr:2004018
191869|A||Martin,N., B. Wassmur, D. Slomberg, J. Labille, and T. Lammel|Influence of TiO2 Nanocomposite UV Filter Surface Chemistry and Their Interactions with Organic UV Filters on Uptake and Toxicity Toward Cultured Fish Gill Cells|Ecotoxicol. Environ. Saf.243:21 p.|2022|10.1016/j.ecoenv.2022.113984
191871|A||Bonato,T., M. Picone, G. Beggio, M. Vecchiato, M. Feltracco, A. Pivato, and R. Piazza|Fragrance Materials Affect Life History Parameters and Gene Expression in Daphnia magna: An Emerging Issue for Freshwater Ecosystems|Chemosphere331:17 p.|2023|10.1016/j.chemosphere.2023.138786
191874|A||Bandaralage,S.M.I., J.I. Bertucci, B. Park, D. Green, M. Brinkmann, A. Masse, D. Crump, N. Basu, N. Hogan, and M. Hecke|Maternal Transfer and Apical and Physiological Effects of Dietary Hexabromocyclododecane Exposure in Parental Fathead Minnows (Pimephales promelas)|Environ. Toxicol. Chem.42(1): 143-153|2023|10.1002/etc.5506
191875|T||Ding,K.N., M.H. Lu, Y.N. Guo, S.S. Liang, R.W. Mou, Y.M. He, and L.P. Tang|Resveratrol Relieves Chronic Heat Stress-Induced Liver Oxidative Damage in Broilers by Activating the Nrf2-Keap1 Signaling Pathway|Ecotoxicol. Environ. Saf.249:8 p.|2023|10.1016/j.ecoenv.2022.114411
191876|T||Sang,R., B.J. Ge, H. Li, H. Zhou, K. Yan, W. Wang, Q. Cui, and X. Zhang|Taraxasterol Alleviates Aflatoxin B1-Induced Liver Damage in Broiler Chickens via Regulation of Oxidative Stress, Apoptosis and Autophagy|Ecotoxicol. Environ. Saf.251:10 p.|2023|10.1016/j.ecoenv.2023.114546
191877|T||Humann-Guilleminot,S., L. Andreo, E. Blatti, G. Glauser, F. Helfenstein, and J. Desprat|Experimental Evidence for Clothianidin Deposition in Feathers of House Sparrows After Ingestion of Sublethal Doses Treated Seeds|Chemosphere315:9 p.|2023|10.1016/j.chemosphere.2022.137724
191878|A||Bao,Y., Y. Chen, Y. Zhou, Q. Wang, Z. Zuo, and C. Yang|Chronic Diflubenzuron Exposure Causes Reproductive Toxic Effects in Female Marine Medaka (Oryzias melastigma)|Aquat. Toxicol.258:11 p.|2023|10.1016/j.aquatox.2023.106511
191879|A||Uchida,M., S. Addai-Arhin, H. Ishibashi, M. Hirano, S. Fukushima, Y. Ishibashi, N. Tominaga, and K. Arizono|Developmental Toxicity and Transcriptome Analysis of Equine Estrogens in Developing Medaka (Oryzias latipes) Using Nanosecond Pulsed Electric Field Incorporation|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.266:8 p.|2023|10.1016/j.cbpc.2023.109547
191880|T||Wang,J., J. Tang, X. Li, X. Ning, C. Sun, X. Zhang, and S. Zhang|Curcumin Alleviates Spleen Immunotoxicity Induced by Decabrominated Diphenyl Ethers (BDE-209) by Improving Immune Function and Inhibiting Inflammation and Apoptosis in Broilers|Ecotoxicol. Environ. Saf.259:12 p.|2023|10.1016/j.ecoenv.2023.115048
191881|A||Horie,Y., M. Nomura, U.D.L. Ernesto, A. Naija, P. Akkajit, and H. Okamura|Impact of Acetyl Tributyl Citrate on Gonadal Sex Differentiation and Expression of Biomarker Genes for Endocrine Disruption in Japanese Medaka|Aquat. Toxicol.260:8 p.|2023|10.1016/j.aquatox.2023.106553
191882|A||Jeon,H., I.S. Song, J.G. Park, H. Lee, E. Han, S. Park, Y. Lee, C.M. Song, W. Hur, I.G. Lee, and J. Choi|Protective Effects of Esomeprazole Against Cisplatin-Induced Ototoxicity: An In Vitro and In Vivo Study|Aquat. Toxicol.260:9 p.|2023|10.1016/j.aquatox.2023.106573
191883|A||Lee,M.C., M.J.H. Libatique, H.Y. Yeh, and W.Q.C. Lung|Increasing Arsenic Accumulation as an Implication of Climate Change: A Case Study Using Red Algae|Bull. Environ. Contam. Toxicol.108(5): 839-847|2022|10.1007/s00128-022-03498-3
191884|A||Mccallum,E.S., D. Cerveny, A.P.H. Bose, J. Fick, and T. Brodin|Cost-Effective Pharmaceutical Implants in Fish: Validating the Performance of Slow-Release Implants for the Antidepressant Fluoxetine|Environ. Toxicol. Chem.42(6): 1326-1336|2023|10.1002/etc.5613
191885|T||Paus-Knudsen,J.S., H.A. Sveinsson, M. Grung, K. Borga, and A. Nielsen|The Neonicotinoid Imidacloprid Impairs Learning, Locomotor Activity Levels, and Sucrose Solution Consumption in Bumblebees (Bombus terrestris)|Environ. Toxicol. Chem.42(6): 1337-1345|2023|10.1002/etc.5611
191886|T||Jeantet,A., L. Sandmeyer, C. Campech, F. Audebert, S. Agostini, A. Pellerin, and J. Gasparini|"The ""Parasite Detoxification Hypothesis"": Lead Exposure Potentially Changes the Ecological Interaction from Parasitism to Mutualism"|Ecotoxicology32(5): 666-673|2023|10.1007/s10646-023-02678-z
191887|T||Ibrahim,E.S., A.E. Abd Alla, M.S. El-Masarawy, R.A. Salem, N.N. Hassan, and M.A.M. Moustafa|Sulfoxaflor Influences the Biochemical and Histological Changes on Honeybees (Apis mellifera L.)|Ecotoxicology32(5): 674-681|2023|10.1007/s10646-023-02677-0
191888|T||Liu,R., Y. Ding, W. Li, S. Li, X. Li, D. Zhao, Y. Zhang, G. Wei, and X. Zhang|Protective Role of Curcumin on Broiler Liver by Modulating Aflatoxin B1-Induced DNA Methylation and CYPs Expression|Ecotoxicol. Environ. Saf.260:9 p.|2023|10.1016/j.ecoenv.2023.115086
191889|A||Morshead,M.L., K.M. Jensen, G.T. Ankley, S. Vliet, C.A. Lalone, A.V. Aller, K.H. Watanabe, and D.L. Villeneuve|Putative Adverse Outcome Pathway Development Based on Physiological Responses of Female Fathead Minnows to Model Estrogen Versus Androgen Receptor Agonists|Aquat. Toxicol.261:11 p.|2023|10.1016/j.aquatox.2023.106607
191890|A||Long,X.B., W.J. Shi, C.R. Yao, S.Y. Li, J.G. Zhang, Z.J. Lu, D.D. Ma, Y.X. Jiang, and G.G. Ying|Norethindrone Suppress the Germ Cell Development via Androgen Receptor Resulting in Male Bias|Aquat. Toxicol.261:17 p.|2023|10.1016/j.aquatox.2023.106604
191891|T||Gao,X., K. Zhang, L. Zhao, X. Zhu, L. Wang, D. Li, J. Ji, L. Niu, J. Luo, and J. Cui|Sublethal Toxicity of Sulfoxaflor to Parasitoid Binodoxys communis Gahan|Ecotoxicol. Environ. Saf.262:11 p.|2023|10.1016/j.ecoenv.2023.115169
191892|T||Kast,C., B. Droz, and V. Kilchenmann|Toxicity of Coumaphos Residues in Beeswax Foundation to the Honey Bee Brood|Environ. Toxicol. Chem.42(8): 1816-1822|2023|10.1002/etc.5645
191893|T||Vazquez,D.E., L.E.V. Martinez, V. Medina, J.M. Latorre-Estivalis, J.A. Zavala, and W.M. Farina|Glyphosate Affects Larval Gut Microbiota and Metamorphosis of Honey Bees with Differences Between Rearing Procedures|Environ. Pollut.334:12 p.|2023|10.1016/j.envpol.2023.122200
191894|T||Azpiazu,C., S. Hinarejos, G. Sancho, S. Albacete, F. Sgolastra, C.A.H. Martins, X. Domene, J. Benrezkallah, A. Rodrigo,|Description and Validation of an Improved Method to Feed Solitary Bees (Osmia spp.) Known Amounts of Pesticides|Ecotoxicol. Environ. Saf.264:8 p.|2023|10.1016/j.ecoenv.2023.115398
191895|T||He,Q., S. Zhang, F. Yin, Q. Liu, Q. Gao, J. Xiao, Y. Huang, L. Yu, and H. Cao|Risk Assessment of Honeybee Larvae Exposure to Pyrethroid Insecticides in Beebread and Honey|Ecotoxicol. Environ. Saf.267:8 p.|2023|10.1016/j.ecoenv.2023.115591
191896|A||Wang,Y., C.H. Zhang, X.Y. Yu, and Y. Ge|Arsenite Oxidation by Dunaliella salina Is Affected by External Phosphate Concentration|Bull. Environ. Contam. Toxicol.105(6): 868-873|2020|10.1007/s00128-020-03045-y
191897|A||Wang,H.J., S.P. Cui, L. Ma, Z.Z. Wang, and H.B. Wang|Variations of Arsenic Forms and the Role of Arsenate Reductase in Three Hydrophytes Exposed to Different Arsenic Species|Ecotoxicol. Environ. Saf.221:10|2021|10.1016/j.ecoenv.2021.112415
191898|A||Nagam,S.M.B.|Effect of Thyroid Modulation on Arsenic-Induced Oxidative Stress in Zebrafish|M.S. Thesis, Southern Illinois University, Edwardsville, IL:76 p.|2013|
191899|A||Leon-Vaz,A., R. Leon, I. Giraldez, J.M. Vega, and J. Vigara|Impact of Heavy Metals in the Microalga Chlorella sorokiniana and Assessment of Its Potential Use in Cadmium Bioremediation|Aquat. Toxicol.239:7 p.|2021|10.1016/j.aquatox.2021.105941
191900|T||Mishra,V., and V.P. Singh|Implication of Nitric Oxide and Hydrogen Sulfide Signaling in Alleviating Arsenate Stress in Rice Seedlings|Environ. Pollut.291:9 p.|2021|10.1016/j.envpol.2021.117958
191901|A||Jiang,Z.Q., Y.T. Sun, H.Z. Guan, D.Q. Sun, S. Fang, X.I. Ma, Z.Y. Wang, Z. Li, C.H. Zhang, and Y. Ge|Contributions of Polysaccharides to Arsenate Resistance in Chlamydomonas reinhardtii|Ecotoxicol. Environ. Saf.229:8 p.|2022|10.1016/j.ecoenv.2021.113091
191902|A||Ye,M.L., Z.Q. Jiang, Z.Y. Wang, Y.Y. Wang, S. Fang, Y.T. Sun, H.Z. Guan, D.Q. Sun, X.N. Ma, C.H. Zhang, and Y. Ge|Physiological and Proteomic Responses of Chlamydomonas reinhardtii to Arsenate and Lead Mixtures|Ecotoxicol. Environ. Saf.242:11 p.|2022|10.1016/j.ecoenv.2022.113856
191903|T||Alok,N.K., S.K. Singh, and U. Chandra|Bioefficacy and Economics of Certain New Molecule of Insecticides Against Gram Pod Borer, Helicoverpa armigera (Hubner) in Chickpea|Environ. Conserv. J.23(3): 404-411|2022|10.36953/ECJ.10332235
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191910|T||Bart,S., T. Jager, S. Short, A. Robinson, D. Sleep, M.G. Pereira, D.J. Spurgeon, and R. Ashauer|Modelling the Effects of the Pyrethroid Insecticide Cypermethrin on the Life Cycle of the Soil Dwelling Annelid Enchytraeus crypticus, an Original Experimental Design to Calibrate a DEB-TKTD Model|Ecotoxicol. Environ. Saf.250:9 p.|2023|10.1016/j.ecoenv.2023.114499
191911|T||Prasannakumar,N.R., N. Jyothi, G. Ramkumar, R. Asokan, and V. Sridhar|Assessment of Cross-Resistance in South American Tomato moth, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae)|Pest Manag. Hortic. Ecosyst.27(2): 265-269|2021|
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191914|A||Grzesiuk,M., E. Gryglewicz, P. Bentkowski, and J. Pijanowska|Impact of Fluoxetine on Herbivorous Zooplankton and Planktivorous Fish|Environ. Toxicol. Chem.42(2): 385-392|2023|10.1002/etc.5525
191915|T||Graciani,T.S., F.O. Bandeira, E. Cardoso, and P.R.L. Alves|Influence of Temperature and Soil Moisture on the Toxic Potential of Clothianidin to Collembolan Folsomia candida in a Tropical Field Soil|Ecotoxicology32(1): 82-92|2023|10.1007/s10646-023-02621-2
191916|T||Corapi,A., L. Gallo, and L. Lucadamo|Simulation of Drift Depositional Rate of the Fungicide Fosetyl and Its Effects on Non-Vascular Plants: Study Case of the Epiphytic Lichen Pseudevernia furfuracea|Arch. Environ. Contam. Toxicol.84(1): 73-84|2023|10.1007/s00244-022-00973-0
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191918|A||Saha,S., P. Banerjee, N.C. Saha, and A.V. Chukwuka|Triazophos-Induced Respiratory and Behavioral Effects and Development of Adverse Outcome Pathway (AOP) for Short-Term Exposed Freshwater Snail, Bellamya bengalensis|Bull. Environ. Contam. Toxicol.110(5): 10 p.|2023|10.1007/s00128-023-03734-4
191919|T||Prasannakumar,N.R., N. Jyothi, K. Prasadbabu, G. Ramkumar, R. Asokan, S. Saroja, and V. Sridhar|Evidence-Based Insecticide Resistance in South American Tomato Leaf Miner, Phthorimaea absoluta (Meyrick) Under Laboratory Selection|Bull. Entomol. Res.113(3): 419-429|2023|10.1017/S0007485323000081
191920|A||Jorissen,S., L. Janssens, J. Verheyen, and R. Stoks|Synergistic Survival-Related Effects of Larval Exposure to an Aquatic Pollutant and Food Stress Get Stronger During and Especially After Metamorphosis and Shape Fitness of Terrestrial Adults|Environ. Pollut.326:9 p.|2023|10.1016/j.envpol.2023.121471
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191937|T||Wang,X., W. Liu, D. Zhang, Y.L. Jiao, Q.H. Zhao, Y. Liu, W.Y. Shi, and Y.Z. Bao|Salvia miltiorrhiza Polysaccharides Alleviate Florfenicol-Induced Inflammation and Oxidative Stress in Chick Livers by Regulating Phagosome Signaling Pathway|Ecotoxicol. Environ. Saf.249:12 p.|2023|
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191940|T||Khan,W.A., J. Nazir, N. Muhammad, K. Sajid Aleem, and A. Saeed|Evaluation of Integrated Management Approaches Against Citrus Nematode (Tylenchulus semipenetrans) in Pakistan|Int. J. Phytopathol.11(1): 19-33|2022|10.33687/phytopath.011.01.4092
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191985|T||De Paula,M.C., N.R. Batista, D.A.D.S. Cunha, P.G. Dos Santos, W.F. Antonialli-Junior, C.A.L. Cardoso, and E. Simionatto|Impacts of the Insecticide Thiamethoxam on the Native Stingless Bee Plebeia catamarcensis (Hymenoptera, Apidae, Meliponini)|Environ. Pollut.339:9 p.|2023|10.1016/j.envpol.2023.122742
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191990|T||Ma,Z.F., W.F. Zhu, J.G. Kang, X.Y. Ma, and G.J. Jiang|A Comprehensive Study on the Ecotoxicity of Ivermectin to Earthworms (Eisenia fetida)|Ecotoxicol. Environ. Saf.268:8 p.|2023|
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191995|T||Kiruthiga,G., S. Jeyarani, N. Sathiah, M. Murugan, U. Sivakumar, and D. Uma|Studies on Compatibility of Metarhizium anisopliae with Insecticides|Madras Agric. J.109:5 p.|2022|10.29321/MAJ.10.000684
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191998|T||Figueiredo,G.A.,Jr., R. Busi, D.E. Goggin, A. Porri, and H.J. Beckie|Sensitivity of Herbicide-Resistant Rigid Ryegrass (Lolium rigidum) Populations to Cinmethylin, a New Herbicide Site of Action|Weed Sci.71(1): 4-10|2023|10.1017/wsc.2023.2
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192009|T||Wang,H., R.Z. Tian, Y. Chen, W.Q. Li, S.P. Wei, Z.Q. Ji, and A.A.A. Aioub|In Vivo and in Vitro Antifungal Activities of Five Alkaloid Compounds Isolated from Picrasma quassioides (D. Don) Benn against Plant Pathogenic Fungi|Pestic. Biochem. Physiol.188:9 p.|2022|10.1016/j.pestbp.2022.105246
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192013|T||Koskova,S., P. Stochlova, K. Novotna, A. Amirbekov, and P. Hrabak|Influence of delta-Hexachlorocyclohexane (delta-HCH) to Phytophthora x alni Resistant Alnus glutinosa Genotypes- Evaluation of Physiological Parameters and Remediation Potential|Ecotoxicol. Environ. Saf.247:9 p.|2022|10.1016/j.ecoenv.2022.114235
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192023|A||Zhang,Q.Y., K. Demeestere, and K.A.C. De Schamphelaere|A Bioavailability Model to Predict the Impact of pH and Dissolved Organic Carbon on Ciprofloxacin Ecotoxicity to the Cyanobacterium Microcystis aeruginosa|Environ. Toxicol. Chem.41(11): 2835-2847|2022|10.1002/etc.5454
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192030|A||Stanton,C.R., R. Thibodeau, A. Lankowski, J.R. Shaw, J.W. Hamilton, and B.A. Stanton|Arsenic Inhibits CFTR-Mediated Chloride Secretion by Killifish (Fundulus heteroclitus) Opercular Membrane|Cell. Physiol. Biochem.17:269-278|2006|10.1159/000094139
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192032|A||Chen,Y.Y., and K.M. Chan|Differential Effects of Metal Ions on TCDD-Induced Cytotoxicity and Cytochrome P4501A1 Gene Expression in a Zebrafish Liver (ZFL) Cell-Line|Metallomics8(2): 236-251|2016|10.1039/c5mt00219b
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192044|A||Montalbano,G., G. Capillo, R. Laura, F. Abbate, M. Levanti, M.C. Guerrera, E. Ciriaco, and A. Germana|Neuromast Hair Cells Retain the Capacity of Regeneration During Heavy Metal Exposure|Ann. Anat.218:183-189|2018|10.1016/j.aanat.2018.03.007
192045|A||Oezen,G., E.M. Schentarra, J.S. Bolten, J. Huwyler, and G. Fricker|Sodium Arsenite but not Aluminum Chloride Stimulates ABC Transporter Activity in Renal Proximal Tubules of Killifish (Fundulus heteroclitus)|Aquat. Toxicol.252:12 p.|2022|10.1016/j.aquatox.2022.106314
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192047|A||Alacantara,F., K.K. Weighman, and P.A. Moore|Variable Background Flow on Aquatic Toxicant Exposure Alters Foraging Patterns on Crayfish|Bull. Environ. Contam. Toxicol.103(5): 663-669|2019|10.1007/s00128-019-02707-w
192048|T||Amacker,N., E.A.D. Mitchell, B.J.D. Ferrari, and N. Chevre|Development of a New Ecotoxicological Assay Using the Testate Amoeba Euglypha rotunda (Rhizaria; Euglyphida) and Assessment of the Impact of the Herbicide S-Metolachlor|Chemosphere201:351-360|2018|10.1016/j.chemosphere.2018.03.001
192050|T||Chen,L., D.Z. Wang, Z.N. Tian, S.S. Di, W.J. Zhang, F. Wang, Z.G. Zhou, and J.L. Diao|Comparative Toxic Responses of Male and Female Lizards (Eremias argus) Exposed to (S)-Metolachlor-Contaminated Soil|Environ. Pollut.227:476-483|2017|10.1016/j.envpol.2017.05.006
192053|A||Netzeva,T.I., J.C. Dearden, R. Edwards, A.D.P. Worgan, and M.T.D. Cronin|Toxicological Evaluation and QSAR Modelling of Aromatic Amines to Chlorella vulgaris|Bull. Environ. Contam. Toxicol.73(2): 385-391|2004|10.1007/s00128-004-0440-y
192058|T||Scharf,M.E., B.D. Siegfried, L.J. Meinke, R.J. Wright, and L.D. Chandler|Cytochrome P450-Mediated N-Demethylation Activity and Induction in Insecticide-Resistant and Susceptible Western Corn Rootworm Populations (Coleoptera: Chrysomelidae)|Pestic. Biochem. Physiol.67(2): 137-143|2000|10.1006/pest.2000.2481
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192061|A||Hansen,T.E., P. Puntervoll, O.M. Seternes, and J.B. Jorgensen|Atlantic Salmon Possess Three Mitogen Activated Protein Kinase Kinase 6 Paralogs Responding Differently to Stress|FEBS J.275(19): 4887-4902|2008|10.1111/j.1742-4658.2008.06628.x
192062|A||Sahu,G., and V. Kumar|The Toxic Effect of Fluoride and Arsenic on Behaviour and Morphology of Catfish (Clarias batrachus)|Nat. Environ. Pollut. Technol.20(1): 371-375|2021|10.46488/NEPT.2021.V20I01.43
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192065|A||Ali,A., P.H. Krone, D.S. Pearson, and J.J. Heikkila|Evaluation of Stress-Inducible Hsp90 Gene Expression as a Potential Molecular Biomarker in Xenopus laevis|Cell Stress Chaperones1(1): 62-69|1996|10.1379/1466-1268(1996)001<0062:EOSIHG>2.3.CO;2
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192068|A||Jin,Y., R. Chen, L. Wang, J. Liu, and Y. Yang|Effects of Metolachlor on Transcription of Thyroid System-Related Genes in Juvenile and Adult Japanese Medaka (Oryzias latipes)|Gen. Comp. Endocrinol.170(3): 487-493|2011|10.1016/j.ygcen.2010.11.001
192069|A||Gamain,P., P. Gonzalez, J. Cachot, P. Pardon, N. Tapie, P.Y. Gourves, H. Budzinski, and B. Morin|Combined Effects of Pollutants and Salinity on Embryo-Larval Development of the Pacific Oyster, Crassostrea gigas|Mar. Environ. Res.113:31-38|2016|10.1016/j.marenvres.2015.11.002
192070|A||Finlayson,K.A., F.D.L. Leusch, and J.P. Van De Merwe|Primary Green Turtle (Chelonia mydas) Skin Fibroblasts as an In Vitro Model for Assessing Genotoxicity and Oxidative Stress|Aquat. Toxicol.207:13-18|2019|10.1016/j.aquatox.2018.11.022
192071|A||Lanasa,S., M. Niedzwiecki, K.P. Reber, A. East, J.D. Sivey, and C.J. Salice|Comparative Toxicity of Herbicide Active Ingredients, Safener Additives, and Commercial Formulations to the Nontarget Alga Raphidocelis subcapitata|Environ. Toxicol. Chem.41(6): 1466-1476|2022|10.1002/etc.5327
192073|A||Banerjee,S., T. Mitra, G.K. Purohit, S. Mohanty, and B.P. Mohanty|Immunomodulatory Effect of Arsenic on Cytokine and HSP Gene Expression in Labeo rohita Fingerlings|Fish Shellfish Immunol.44(1): 43-49|2015|10.1016/j.fsi.2015.01.029
192074|A||Costa,C.L., I.S. Chaves, J. Ventura-Lima, J.L. Ferreira, L. Ferraz, L.M. De Carvalho, and J.M. Monserrat|In Vitro Evaluation of Co-Exposure of Arsenium and an Organic Nanomaterial (Fullerene, C60) in Zebrafish Hepatocytes|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(2): 206-212|2012|10.1016/j.cbpc.2011.08.005
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192076|A||Liu,S.H., L.F. Wang, K. Chen, H.A. Yang, M. Ling, L.M. Wu, X.M. Zhou, G.L. Ma, and L.Y. Bai|Combined Effects of S-Metolachlor and Benoxacor on Embryo Development in Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.238:10 p.|2022|10.1016/j.ecoenv.2022.113565
192077|A||Lizotte,R.E.,Jr., S.S. Knight, F.D.,Jr. Shields, and C.T. Bryant|Effects of an Atrazine, Metolachlor and Fipronil Mixture on Hyalella azteca (Saussure) in a Modified Backwater Wetland|Bull. Environ. Contam. Toxicol.83(6): 836-840|2009|10.1007/s00128-009-9850-1
192078|A||Shirinifard,A., C.W. McCollum, M.B. Bolin, J. Gustafsson, J.A. Glazier, and S.G. Clendenon|3D Quantitative Analyses of Angiogenic Sprout Growth Dynamics|Dev. Dyn.242(5): 518-526|2013|10.1002/dvdy.23946
192079|A||Wang,Y., H. Zhao, M. Xing, Y. Liu, and X. Nie|Zinc Exerts Its Renal Protection Effect on Arsenic-Exposed Common Carp: A Signaling Network Comprising Nrf2, NF-kappaB and MAPK Pathways|Fish Shellfish Immunol.104:383-390|2020|10.1016/j.fsi.2020.06.031
192080|A||Morcillo,P., H. Cordero, J. Meseguer, M.A. Esteban, and A. Cuesta|In Vitro Immunotoxicological Effects of Heavy Metals on European Sea Bass (Dicentrarchus labrax L.) Head-Kidney Leucocytes|Fish Shellfish Immunol.47(1): 245-254|2015|10.1016/j.fsi.2015.09.011
192081|A||Long,Y., Q. Li, J. Li, and Z. Cui|Molecular Analysis, Developmental Function and Heavy Metal-Induced Expression of ABCC5 in Zebrafish|Comp. Biochem. Physiol.158(1): 46-55|2011|10.1016/j.cbpb.2010.09.005
192082|A||Celino,F.T., S. Yamaguchi, C. Miura, and T. Miura|Arsenic Inhibits In Vitro Spermatogenesis and Induces Germ Cell Apoptosis in Japanese Eel (Anguilla japonica)|Reproduction (Camb.)138(2): 279-287|2009|10.1530/REP-09-0167
192083|A||Guarino,A.M., G. Di Mauro, G. Ruggiero, N. Geyer, A. Delicato, N.S. Foulkes, D. Vallone, and V. Calabro|YB-1 Recruitment to Stress Granules in Zebrafish Cells Reveals a Differential Adaptive Response to Stress|Sci. Rep.9:1-14|2019|10.1038/s41598-019-45468-6
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192087|A||Rozmankova,E., M. Pipal, L. Blahova, N. Njattuvetty Chandran, B. Morin, P. Gonzalez, and L. Blaha|Environmentally Relevant Mixture of S-Metolachlor and Its Two Metabolites Affects Thyroid Metabolism in Zebrafish Embryos|Aquat. Toxicol.221:10 p.|2020|10.1016/j.aquatox.2020.105444
192088|A||Stara,A., J. Kubec, E. Zuskova, M. Buric, C. Faggio, A. Kouba, and J. Velisek|Effects of S-Metolachlor and Its Degradation Product Metolachlor OA Marbled Crayfish (Procambarus virginalis)|Chemosphere224:616-625|2019|10.1016/j.chemosphere.2019.02.187
192089|A||Velisek,J., A. Stara, E. Zuskova, J. Kubec, M. Buric, and A. Kouba|Effects of S-Metolachlor on Early Life Stages of Marbled Crayfish|Pestic. Biochem. Physiol.153:87-94|2019|10.1016/j.pestbp.2018.11.007
192090|A||Johnson,M., K. Finlayson, T. Shelper, J.P. Van De Merwe, and F.D.L. Leusch|Optimisation of an Automated High-Throughput Micronucleus (HiTMiN) Assay to Measure Genotoxicity of Environmental Contaminants|Chemosphere298:8 p.|2022|10.1016/j.chemosphere.2022.134349
192091|A||Morcillo,P., E. Chaves-Pozo, J. Meseguer, M.A. Esteban, and A. Cuesta|Establishment of a New Teleost Brain Cell Line (DLB-1) from the European Sea Bass and Its Use to Study Metal Toxicology|Toxicol. In Vitro38:91-100|2017|10.1016/j.tiv.2016.10.005
192092|A||Wu,S.Y., N.N. Phan, S.H. Ho, Y.H. Lai, C.H. Tsai, C.H. Yang, H.G. Yu, J.C. Wang, P.L. Huang, and Y.C. Lin|Metabolomic Assessment of Arsenite Toxicity and Novel Biomarker Discovery in Early Development of Zebrafish Embryos|Toxicol. Lett.290:116-122|2018|10.1016/j.toxlet.2018.03.014
192093|A||Kabir,T., S. Anwar, J. Taslem Mourosi, J. Hossain, M.G. Rabbane, M.M. Rahman, T. Tahsin, M.N. Hasan, M.C. Shill, and M.|Arsenic Hampered Embryonic Development: An In Vivo Study Using Local Bangladeshi Danio rerio Model|Toxicol. Rep.7:155-161|2020|10.1016/j.toxrep.2019.12.009
192094|A||Banerjee,C., A. Singh, R. Raman, and S. Mazumder|Calmodulin-CaMKII Mediated Alteration of Oxidative Stress: Interplay of the cAMP/PKA-ERK 1/2-NF- Kappa B-NO Axis on Arsenic-Induced Head Kidney Macrophage Apoptosis|Toxicol. Res. (Oxf.)2(6): 413-426|2013|10.1039/c3tx50026h
192095|A||Chou,B.Y., C.M. Liao, M.C. Lin, and H.H. Cheng|Toxicokinetics/Toxicodynamics of Arsenic for Farmed Juvenile Milkfish Chanos chanos and Human Consumption Risk in BFD-Endemic Area of Taiwan|Environ. Int.32(4): 545-553|2006|10.1016/j.envint.2006.01.004
192096|A||Ebenezer,V., and J.S. Ki|Quantification of Toxic Effects of the Herbicide Metolachlor on Marine Microalgae Ditylum brightwellii (Bacillariophyceae), Prorocentrum minimum (Dinophyceae), and Tetraselmis suecica (Chlorophyceae)|J. Microbiol. (Seoul. Online)51(1): 136-139|2013|
192097|A||Jung,D., M.A. Adamo, R.M. Lehman, R. Barnaby, C.E. Jackson, B.P. Jackson, J.R. Shaw, and B.A. Stanton|A Novel Variant of Aquaporin 3 is Expressed in Killifish (Fundulus heteroclitus) Intestine|Comp. Biochem. Physiol.171:1-7|2015|10.1016/j.cbpc.2015.03.001
192098|A||Long,Y., Q. Li, Y. Wang, and Z. Cui|MRP Proteins as Potential Mediators of Heavy Metal Resistance in Zebrafish Cells|Comp. Biochem. Physiol. C Toxicol. Pharmacol.153(3): 310-317|2011|10.1016/j.cbpc.2010.12.001
192099|A||Guardiola,F.A., M. Dioguardi, M.G. Parisi, M.R. Trapani, J. Meseguer, A. Cuesta, M. Cammarata, and M.A. Esteban|Evaluation of Waterborne Exposure to Heavy Metals in Innate Immune Defences Present on Skin Mucus of Gilthead Seabream (Sparus aurata)|Fish Shellfish Immunol.45(1): 112-123|2015|10.1016/j.fsi.2015.02.010
192100|A||Araujo,M.C., C.R.D. Assis, K.C.C. Silva, K.S. Souza, R.S. Azevedoa, M.H.M.E. Alves, L.C. Silva, V.L. Silva, M.L. Adam, |Characterization of Brain Acetylcholinesterase of Bentonic Fish Hoplosternum littorale: Perspectives of Application in Pesticides and Metal Ions Biomonitoring|Aquat. Toxicol.205:213-226|2018|10.1016/j.aquatox.2018.10.017
192101|A||Nofouzi,K., N. Sheikhzadeh, G. Hamidian, A.A. Shahbazfar, and A. Marandi|Effects of Escherichia coli Strain Nissle 1917 on Arsenic-Challenged Goldfish (Carassius auratus): Histological Evidence|Vet. Res. Forum14(7): 367-372|2023|10.30466/vrf.2022.557449.3551
192102|A||Kumar,J.D., B.B. Mishra, P. Kumar, P.K. Khan, and N. Yashvardhini|Induction of Oxidative Stress upon Low Level Exposure of Arsenic Using Lipid Peroxidation Assay in Freshwater Fish Channa punctatus|Res J Biotechnol17(2): 102-106|2022|10.25303/1702rjbt102106
192103|A||Wang,J., L. Yin, W. Zheng, S. Shi, W. Hao, C. Liu, and L. Zheng|Lactobacillus rhamnosus GG Normalizes Gut Dysmotility Induced by Environmental Pollutants via Affecting Serotonin Level in Zebrafish Larvae|World J. Microbiol. Biotechnol.38(12): 14 p.|2022|10.1007/s11274-022-03409-y
192104|A||Machado,M.D., and E.V. Soares|Reproductive Cycle Progression Arrest and Modification of Cell Morphology (Shape and Biovolume) in the Alga Pseudokirchneriella subcapitata Exposed to Metolachlor|Aquat. Toxicol.222:9 p.|2020|10.1016/j.aquatox.2020.105449
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192107|A||Zhao,H., Y. Wang, X. Yang, D. Fei, M. Mu, M. Guo, H. Yu, and M. Xing|Zinc Alleviates Arsenism in Common Carp: Varied Change Profiles of Cytokines and Tight Junction Proteins Among Two Intestinal Segments|Fish Shellfish Immunol.94:761-768|2019|10.1016/j.fsi.2019.09.069
192108|A||Kuzu,M., V. Comakh, E. Akkemik, M. Ciftci, and O.I. Kufrevioglu|Inhibitory Properties of Some Heavy Metals on Carbonic Anhydrase I and II Isozymes Activities Purified from Van Lake Fish (Chalcalburnus tarichi) Gill|Fish Physiol. Biochem.44(4): 1119-1125|2018|10.1007/s10695-018-0499-8
192110|A||Vegh,S.L., F. Biole, M. Bavio, P. Tripodi, A.F. Gil, and A.V. Volpedo|Bioaccumulation of 10 Trace Elements in Juvenile Fishes of the Lower Parana River, Argentina: Implications Associated with Essential Fish Growing Habitat|Environ. Sci. Pollut. Res.28(1): 365-378|2021|10.1007/s11356-020-10466-z
192111|A||Liu,X., J. Jiang, Y. Yan, Y. Dai, B. Deng, S. Ding, S. Su, W. Sun, Z. Li, and Z. Gan|Distribution and Risk Assessment of Metals in Water, Sediments, and Wild Fish from Jinjiang River in Chengdu, China|Chemosphere196:45-52|2018|10.1016/j.chemosphere.2017.12.135
192112|A||Dipp,V.R., S. Valles, H. Ortiz-Kerbertt, J.V. Suarez, and U. Bardullas|Neurobehavioral Alterations in Zebrafish Due to Long-Term Exposure to Low Doses of Inorganic Arsenic|Zebrafish15(6): 575-585|2018|10.1089/zeb.2018.1627
192113|A||Hallauer,J., X. Geng, H.C. Yang, J. Shen, K.J. Tsai, and Z. Liu|The Effect of Chronic Arsenic Exposure in Zebrafish|Zebrafish13(5): 405-412|2016|10.1089/zeb.2016.1252
192114|A||Shaw,J.R., T.H. Hampton, B.L. King, A. Whitehead, F. Galvez, R.H. Gross, N. Keith, E. Notch, D. Jung, S.P. Glaholt, C.Y|Natural Selection Canalizes Expression Variation of Environmentally Induced Plasticity-Enabling Genes|Mol. Biol. Evol.31(11): 3002-3015|2014|10.1093/molbev/msu241
192115|A||Mohanty,B.P., S. Banerjee, P. Sadhukhan, A.N. Chowdhury, D. Golder, S. Bhattacharjee, S. Bhowmick, S.K. Manna, and S.I.|Pathophysiological Changes in Rohu (Labeo rohita, Hamilton) Fingerlings Following Arsenic Exposure|Natl. Acad. Sci. Lett.38(4): 315-319|2015|10.1007/s40009-014-0345-1
192116|A||Caglayan,C., P. Taslimi, C. Turk, I. Gulcin, F.M. Kandemir, Y. Demir, and S. Beydemir|Inhibition Effects of Some Pesticides and Heavy Metals on Carbonic Anhydrase Enzyme Activity Purified from Horse Mackerel (Trachurus trachurus) Gill Tissues|Environ. Sci. Pollut. Res.27(10): 10607-10616|2020|10.1007/s11356-020-07611-z
192117|A||Sun,H.J., P. Xiang, M.H. Tang, L. Sun, and L.Q. Ma|Arsenic Impacted the Development, Thyroid Hormone and Gene Transcription of Thyroid Hormone Receptors in Bighead Carp Larvae (Hypophthalmichthys nobilis)|J. Hazard. Mater.303:76-82|2016|10.1016/j.jhazmat.2015.10.032
192118|A||Sayed,A.H., D. Kitamura, S. Oda, S. Kashiwada, and H. Mitani|Cytotoxic and Genotoxic Effects of Arsenic on Erythrocytes of Oryzias latipes: Bioremediation Using Spirulina platensis|J. Trace Elem. Med. Biol.55:82-88|2019|10.1016/j.jtemb.2019.06.007
192119|A||Cui,D., P. Zhang, H. Li, Z. Zhang, Y. Song, and Z. Yang|The Dynamic Changes of Arsenic Biotransformation and Bioaccumulation in Muscle of Freshwater Food Fish Crucian Carp During Chronic Dietborne Exposure|J. Environ. Sci.100:74-81|2021|10.1016/j.jes.2020.07.005
192120|A||Soni,P., P.K. Pradhan, and N. Sood|Development, Characterization and In Vitro Applications of a Thymus Cell Line from Pangasianodon hypophthalmus (Sauvage 1878)|Indian J. Anim. Sci.93(2): 235-240|2023|10.56093/ijans.v93i2.128796
192121|A||Palaniappan,P.R., and V. Vijayasundaram|The Effect of Arsenic Exposure on the Biochemical and Mineral Contents of Labeo rohita Bones: An FT-IR Study|Infrared Phys. Technol.52(1): 32-36|2009|10.1016/j.infrared.2008.11.002
192122|A||Suarez,R.K., and P.W. Hochachka|The Pyruvate Branch Point in Fish Liver Mitochondria: Effects of Acylcarnitine Oxidation on Pyruvate Dehydrogenase and Pyruvate Carboxylase Activities|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.143(2): 275-279|1981|10.1007/BF00797708
192123|T||Lawrence,B.H., J.A. Bond, H.M. Edwards, B.R. Golden, G.B. Montgomery, T.W. Eubank, and T.W. Walker|Effect of Fall-Applied Residual Herbicides on Rice Growth and Yield|Weed Technol.32:526-531|2018|10.1017/wet.2018.41
192124|A||Shah,A.Q., T.G. Kazi, M.B. Arain, M.K. Jamali, H.I. Afridi, N. Jalbani, J.A. Baig, and G.A. Kandhro|Accumulation of Arsenic in Different Fresh Water Fish Species - Potential Contribution to High Arsenic Intakes|Food Chem.112(2): 520-524|2009|10.1016/j.foodchem.2008.05.095
192125|A||Nair,A.R., P. Lakhiani, C. Zhang, F. Macchi, and K.C. Sadler|A Permissive Epigenetic Landscape Facilitates Distinct Transcriptional Signatures of Activating Transcription Factor 6 in the Liver|Genomics114(1): 107-124|2022|10.1016/j.ygeno.2021.11.034
192126|A||Tengjaroenkul,B., S. Intamat, P. Thanomsangad, U. Phoonaploy, and L. Neeratanaphan|Cytotoxic Effect of Sodium Arsenite on Nile Tilapia (Oreochromis niloticus) In Vivo|Int. J. Environ. Stud.75(4): 12 p.|2017|10.1080/00207233.2017.1389572
192127|A||Kamari,A., N. Yusof, A. Hanisom, A. Haraguchi, and M.F. Abas|Assessment of Heavy Metals in Water, Sediment, Anabas testudineus and Eichhornia crassipes in a Former Mining Pond in Perak, Malaysia|Chem. Ecol.33(7): 637-651|2017|10.1080/02757540.2017.1351553
192128|A||Palaniappan,P.L.R.M., and V. Vijayasundaram|The FT-IR Study of the Brain Tissue of Labeo rohita Due to Arsenic Intoxication|Microchem. J.91(1): 118-124|2009|10.1016/j.microc.2008.08.014
192129|A||Babich,R., and R.J. Van Beneden|Effect of Arsenic Exposure on Early Eye Development in Zebrafish (Danio rerio)|J. Appl. Toxicol.39(6): 824-831|2018|10.1002/jat.3770
192130|A||Kocabas,F.K., M. Kocabas, O. Aksu, and Y. Cakir Sahilli|Ascorbic Acid Ameliorated the Sperm Quality of Rainbow Trout (Oncorhynchus mykiss) Against Arsenic Toxicity: Impact on Oxidative Stress, Fertility Ability and Embryo Development|J. Environ. Sci. Health C Toxicol. Carcinog.40(2): 119-132|2022|10.1080/26896583.2022.2060036
192131|A||Banerjee,S., A. Mahanty, S. Mohanty, D.G. Mazumder, P. Cash, and B.P. Mohanty|Identification of Potential Biomarkers of Hepatotoxicity by Plasma Proteome Analysis of Arsenic-Exposed Carp Labeo rohita|J. Hazard. Mater.336:71-80|2017|10.1016/j.jhazmat.2017.04.054
192132|A||Barral-Fraga,L., S. Morin, M.D.M. Rovira, G. Urrea, K. Magellan, and H. Guasch|Short-Term Arsenic Exposure Reduces Diatom Cell Size in Biofilm Communities|Environ. Sci. Pollut. Res.23(5): 4257-4270|2015|10.1007/s11356-015-4894-8
192133|A||Finlayson,K.A., F.D.L. Leusch, and J.P. Van de Merwe|Cytotoxicity of Organic and Inorganic Compounds to Primary Cell Cultures Established from Internal Tissues of Chelonia mydas|Sci. Total Environ.10(664): 958-967|2019|10.1016/j.scitotenv.2019.02.052
192134|A||Ou-Yang,K., Q. Zhang, L. Wang, H. Yang, Y. He, D. Li, and L. Li|New Insights into Endocrine Reproductive Toxicity of Microcystis aeruginosa Combined with Ammonia Exposure in Zebrafish|Environ. Pollut.342:9 p.|2024|10.1016/j.envpol.2023.123021
192135|A||Cao,L., N. Shao, J. Du, H. Zhu, J. Gao, Q. Li, Y. Sun, J. Hu, G. Yin, and G. Xu|Involvement of Reactive Oxygen Species (ROS) in the Hepatopancreatic Cytotoxicity, Oxidative Stress, and Apoptosis Induced by Microcystin-LR in Eriocheir sinensis|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.276:12 p.|2024|
192136|A||Cui,R.X., J.I. Kwak, and Y.J. An|A Novel Method for Preventing Surface Film Entrapment of Water Fleas and Its Application for Toxicity Testing with Heavy Metals|Environ. Sci. Pollut. Res.24(4): 4210-4219|2017|10.1007/s11356-016-8091-1
192137|A||Shimada,Y., A. Shima, and N. Egami|Effects of Heat, Release from Hypoxia, Cadmium and Arsenite on Radiation Sensitivity of Primordial Germ Cells in the Fish Oryzias latipes|J. Radiat. Res.26(4): 411-417|1985|10.1269/jrr.26.411
192138|A||Singh,A.K., and T.K. Banerjee|Recovery of Damages in the Skin of Arsenic Exposed Clarias batrachus (Linn.) Following Withdrawal of the Stress|Iran. J. Environ. Health Sci. Eng.5(4): 217-224|2008|
192139|AT||Raisuddin,S., and A.N. Jha|Relative Sensitivity of Fish and Mammalian Cells to Sodium Arsenate and Arsenite as Determined by Alkaline Single-Cell Gel Electrophoresis and Cytokinesis-Block Micronucleus Assay|Environ. Mol. Mutagen.44(1): 83-89|2004|10.1002/em.20027
192140|A||Wang,N., R. Jagani, N. Nwobodo, and J. Ma|Toxicity of Environmentally Relevant Concentration of PFAS Chemicals in Lumbriculus variegatus (Oligochaeta, Lumbriculidae) - a Multi-Bioindicator Study|Ecotoxicol. Environ. Saf.268:9 p.|2023|10.1016/j.ecoenv.2023.115722
192141|A||Dong,S., J. Xu, D. Yang, X. Zhao, X. Li, D. Chen, J. Xing, Y. Shi, Y. Sun, and G. Ding|Different Life-Stage Exposure to Hexafluoropropylene Oxide Trimer Acid Induces Reproductive Toxicity in Adult Zebrafish (Danio rerio)|Environ. Toxicol. Chem.42(11): 2490-2500|2023|10.1002/etc.5732
192142|A||Gonzales,A.K., S.E. Donaher, B.D. Wattier, and N.E. Martinez|Exposure of Lemna minor (Common Duckweed) to Mixtures of Uranium and Perfluorooctanoic Acid (PFOA)|Environ. Toxicol. Chem.42(11): 2412-2421|2023|10.1002/etc.5720
192143|A||Luo,D., S. Chen, X. Wang, Y. Wang, P.A. Khoso, S. Xu, and S. Li|Unraveling the Mechanism of Quercetin Alleviating Perfluorooctane Sulfonate-Induced Apoptosis in Grass Carp (Ctenopharyngodon idellus) Hepatocytes: AMPK/mTOR-Mediated Mitophagy|Aquat. Toxicol.265:14p. 106769|2023|10.1016/j.aquatox.2023.106769
192144|A||Canalejo,A., M. Diaz-De-Alba, M.D. Granado-Castro, F. Cordoba, E. Espada-Bellido, M.D. Galindo-Riano, and R. Torrontera|Early Genotoxic Response and Accumulation Induced by Waterborne Copper, Lead, and Arsenic in European Seabass, Dicentrarchus labrax|Environ. Sci. Pollut. Res.23(4): 3256-3266|2015|10.1007/s11356-015-5435-1
192145|A||Della Torre,C., R. Zaja, J. Loncar, T. Smital, S. Focardi, and I. Corsi|Interaction of ABC Transport Proteins with Toxic Metals at the Level of Gene and Transport Activity in the PLHC-1 Fish Cell Line|Chem.-Biol. Interact.198(1-3): 9-17|2012|10.1016/j.cbi.2012.04.008
192146|A||Hayat,N.M., S.A. Ahmad, N.A. Shamaan, M.K. Sabullah, M.Y.A. Shukor, M.A. Syed, A. Khalid, K.A. Khalil, and F.A. Dahalan|Characterisation of Cholinesterase from Kidney Tissue of Asian Seabass (Lates calcarifer) and Its Inhibition in Presence of Metal Ions|J. Environ. Biol.38(3): 383-388|2017|10.22438/jeb/38/3/MRN-987
192147|A||Kumari,B., and J. Ahsan|Study of Muscle Glycogen Content in both Sexes of an Indian Teleost Clarias batrachus (Linn.) Exposed to Different Concentrations of Arsenic|Fish Physiol. Biochem.37(1): 161-167|2010|10.1007/s10695-010-9427-2
192148|A||Maeda,S., A. Ohki, T. Tokuda, and M. Ohmine|Transformation of Arsenic Compounds in a Freshwater Food Chain|Appl. Organomet. Chem.4:251-254|1990|10.1002/aoc.590040312
192149|A||Edmonds,J.S., and K.A. Francesconi|Trimethylarsine Oxide in Estuary Catfish (Cnidoglanis macrocephalus) and School Whiting (Sillago bassensis) After Oral Administration of Sodium Arsenate; and as a Natural Component of Estuary Catfish|Sci. Total Environ.64(3): 317-323|1987|10.1016/0048-9697(87)90253-1
192150|A||Skelly,J.R.|Toxicity of 2-Sec-Butyl-4,6-Dinitrophenol (DINOSEB) and Monosodium Methanearsonate (MSMA), Individually and in a Mixture, to Channel Catfish (Ictalurus punctatus) and Fathead Minnows (Pimephales promealas)|Environ. Toxicol. Chem.:623-628|1989|
192151|A||Selamoglu,Z., A. Duran, M.F. Gulhan, and M.E. Erdemli|Effects of Propolis on Biochemical and Microbiological Parameters in Carp (Cyprinus carpio) Fillets Exposed to Arsenic|Iran. J. Fish. Sci.14(4): 896-907|2015|
192152|A||Talas,Z.S., S.P. Dundar, M.F. Gulhan, I. Orun, and S. Kakoolaki|Effects of Propolis on Some Blood Parameters and Enzymes in Carp Exposed to Arsenic|Iran. J. Fish. Sci.11(2): 405-414|2012|
192155|A||Molina,A., R. Carpeaux, J.A. Martial, and M. Muller|A Transformed Fish Cell Line Expressing a Green Fluorescent Protein Luciferase Fusion Gene Responding to Cellular Stress|Toxicol. In Vitro16(2): 201-207|2002|10.1016/S0887-2333(01)00106-0
192156|A||Morcillo,P., H. Cordero, J. Meseguer, M.A. Esteban, and A. Cuesta|Toxicological In Vitro Effects of Heavy Metals on Gilthead Seabream (Sparus aurata L). Head-Kidney Leucocytes|Toxicol. In Vitro30(1): 412-420|2015|10.1016/j.tiv.2015.09.021
192157|A||Ragupathi,S., A. Gunasekar, N. Chathalingath, and T.P. Mohan|Amelioration Effects of Leaf Extract of Centella asiatica on Sodium Arsenate Induced Hepatotoxicity in Zebra Fish|S. Afr. J. Bot.151:432-439|2022|10.1016/j.sajb.2022.04.052
192158|A||Varghese,V., N. Nagarani, and A. Balasubramani|Acute and Chronic Toxicity of Endocrine Disruptive Heavy Metals and Pesticides Exposed to Freshwater Fish P. reticulata and P. sphenops|Curr. World Environ.16(2): 427-435|2021|10.12944/CWE.16.2.09
192159|A||Kousar,S., and M. Javed|Determination of Arsenic Induced Nuclear Abnormalities in Peripheral Blood Erythrocytes of Carps Using Micronucleus Test|J. Anim. Plant Sci.26(5): 1501-1506|2016|
192160|A||Altikat,S., K. Uysal, and H.I. Kuru|Analysis of Bioaccumulation of Arsenic in the Brain and Eye Tissues of Mirror Carp (Cyprinus carpio Carpio) and Its Effects on Various Biochemical Parametres|J. Environ. Prot. Ecol.14(3A): 1225-1235|2013|
192161|A||Jeong,Y.N.|Arsenic Toxicity in PLHC-1 Cell Line and the Distribution of Arsenic in Central Appalachia|M.S.Thesis, Marshall University, Huntington, WV:81 p.|2007|
192162|A||Kousar,S., and M. Javed|Diagnosis of Metals Induced DNA Damage in Fish Using Comet Assay|Pak. Vet. J.35(2): 168-172|2015|
192163|A||Wan,G., W.K. Cheuk, and K.M. Chan|Differential Regulation of Zebrafish Metallothionein-II (zMT-II) Gene Transcription in ZFL and SJD Cell Lines by Metal Ions|Aquat. Toxicol.91(1): 33-43|2009|10.1016/j.aquatox.2008.10.004
192164|A||Winters,T.F.,Jr., S.J. Cooperstein, and D.T. Watkins|Effect of Sulfhydryl-Binding Reagents on Release of Somatostatin Immunoreactivity from Secretion Granules|Horm. Metab. Res.14(10): 525-529|1982|10.1055/s-2007-1019067
192165|A||Zahran,E., W. Awadin, E. Risha, A.A. Khaled, and T. Wang|Dietary Supplementation of Chlorella vulgaris Ameliorates Chronic Sodium Arsenite Toxicity in Nile Tilapia Oreochromis niloticus as Revealed by Histopathological, Biochemical and Immune Gene Expression Analysis|Fish. Sci.85(1): 199-215|2019|10.1007/s12562-018-1274-6
192166|A||Allahveisi,A., A. Miri, F. Ghorbani, and S.A. Johari|Binary Toxicity of Engineered Silica Nanoparticles (nSiO2) and Arsenic (III) to Zebrafish (Danio rerio): Application of Response Surface Methodology|Environ. Sci. Pollut. Res.30(26): 68655-68666|2023|10.1007/s11356-023-27066-2
192167|A||Humtsoe,N., R. Davoodi, B.G. Kulkarni, and B. Chavan|Effect of Arsenic on the Enzymes of the Rohu Carp, Labeo rohita (Hamilton, 1822)|Raffles Bull. Zool.(Suppl 14): 17-19|2007|
192168|A||Altikat,S., K. Uysal, H.I. Kuru, M. Kavasoglu, G.N. Ozturk, and A. Kucuk|The Effect of Arsenic on Some Antioxidant Enzyme Activities and Lipid Peroxidation in Various Tissues of Mirror Carp (Cyprinus carpio Carpio)|Environ. Sci. Pollut. Res.22(5): 3212-3218|2014|10.1007/s11356-014-2896-6
192169|A||Kumar,N., D.K. Singh, N.K. Chandan, S.T. Thorat, P.B. Patole, A. Gite, and K.S. Reddy|Nano-Zinc Enhances Gene Regulation of Non-Specific Immunity and Antioxidative Status to Mitigate Multiple Stresses in Fish|Sci. Rep.13(1): 1-20|2023|10.1038/s41598-023-32296-y
192170|A||Sunaina, and B.A. Ansari|Acute Toxicity of Copper, Cadmium and Arsenic to Zebrafish, Danio rerio (Cyprinidae)|Trends Biosci.7(17): 2357-2360|2014|
192171|A||Seok,S.H., M.W. Baek, H.Y. Lee, D.J. Kim, Y.R. Na, K.J. Noh, S.H. Park, H.K. Lee, B.H. Lee, D.Y. Ryu, and J.H. Park|Arsenite-Induced Apoptosis is Prevented by Antioxidants in Zebrafish Liver Cell Line|Toxicol. In Vitro:870-877|2007|10.1016/j.tiv.2007.02.011
192172|A||Uren Webster,T.|Investigating Mechanisms of Environmental Chemical Tolerance and Toxicity in Brown Trout Using RNA-Seq|Ph.D Thesis, University of Exeter, Exeter, England:317 p.|2013|
192173|A||Kumar,M.|A Study of Arsenic Effect on Blood and Tissue Glucose Concentrations in a Fish Model|Environ. Ecol.39(1A): 267-270|2021|
192174|A||Pazhanisamy,K., and N. Indra|Toxic Effects of Arsenic on Lactate Dehydrogenase (LDH) Activity of Labeo rohita|J. Ecotoxicol. Environ. Monit.17(5): 411-416|2007|
192175|A||Kothary,R.K., E.A. Burgess, and E.P.M. Candido|The Heat-Shock Phenomenon in Cultured Cells of Rainbow-Trout Hsp70 mRNA Synthesis and Turnover|Biochim. Biophys. Acta783(2): 137-143|1984|10.1016/0167-4781(84)90005-8
192176|A||Pan,F., J. Zarate, A. Choudhury, R. Rupprecht, and T.M. Bradley|Osmotic Stress of Salmon Stimulates Upregulation of a Cold Inducible RNA Binding Protein (CIRP) Similar to that of Mammals and Amphibians|Biochimie (Paris)86(7): 451-461|2004|10.1016/j.biochi.2004.06.006
192177|A||Sayed,A.E.D., H.A. Elbaghdady, and E. Zahran|Arsenic-Induced Genotoxicity in Nile Tilapia (Orechromis niloticus); the Role of Spirulina platensis Extract|Environ. Monit. Assess.187(12): 1-10|2015|10.1007/s10661-015-4983-7
192178|A||Smith,T., G. Tremblay, and T. Bradley|Characterization of the Heat Shock Protein Response of Atlantic Salmon (Salmo salar)|Fish Physiol. Biochem.20(3): 279-292|1999|10.1023/A:1007743329892
192179|A||Canpolat,O.|Accumulation Factor of Heavy Metals in Capoeta umbla Fish Species|Fresenius Environ. Bull.22(3): 755-763|2013|
192180|A||Chand,G.B., and S. Kumar|Arsenic Induced Oxidative Perturbations in Freshwater Air Breathing Fish Clarias batrachus: In Vivo Study|Jordan J. Biol. Sci.13:627-635|2020|
192181|A||Allen,T., and S.V.S. Rana|Effect of Arsenic (AsIII) on Glutathione-Dependent Enzymes in Liver and Kidney of the Freshwater Fish Channa punctatus|Biol. Trace Elem. Res.100(1): 39-48|2004|10.1385/BTER:100:1:039
192183|A||Chiellini,C., L. Guglielminetti, S. Sarrocco, and A. Ciurli|Isolation of Four Microalgal Strains from the Lake Massaciuccoli: Screening of Common Pollutants Tolerance Pattern and Perspectives for Their Use in Biotechnological Applications|Front. Plant Sci.11:18  p.|2020|10.3389/fpls.2020.607651
192184|A||Yi,X., Y. Wei, W. Zhai, P. Wang, D. Liu, and Z. Zhou|Effects of Three Surfactants on the Degradation and Environmental Risk of Metolachlor in Aquatic Environment|Chemosphere300:9 p.|2022|10.1016/j.chemosphere.2022.134295
192185|A||Mai,H., P. Gonzalez, P. Pardon, N. Tapie, H. Budzinski, J. Cachot, and B. Morin|Comparative Responses of Sperm Cells and Embryos of Pacific Oyster (Crassostrea gigas) to Exposure to Metolachlor and Its Degradation Products|Aquat. Toxicol.147:48-56|2014|10.1016/j.aquatox.2013.11.024
192186|A||Mai,H., B. Morin, P. Pardon, P. Gonzalez, H. Budzinski, and J. Cachot|Environmental Concentrations of Irgarol, Diuron and S-Metolachlor Induce Deleterious Effects on Gametes and Embryos of the Pacific Oyster, Crassostrea gigas|Mar. Environ. Res.89:1-8|2013|10.1016/j.marenvres.2013.04.003
192187|A||Coquille,N., G. Jan, A. Moreira, and S. Morin|Use of Diatom Motility Features as Endpoints of Metolachlor Toxicity|Aquat. Toxicol.158:202-210|2015|10.1016/j.aquatox.2014.11.021
192188|A||Liu,H.J., W.D. Cai, R.N. Huang, H.L. Xia, and Y.Z. Wen|Enantioselective Toxicity of Metolachlor to Scenedesmus obliquus in the Presence of Cyclodextrins|Chirality24(2): 181-187|2012|10.1002/chir.21981
192189|A||Coelho,C.D.P., V.R.L. Chaulet, K.L.T. Cappelli, R.A. Santos, H.C. Vieira, and M.M. Bernardi|Neurobehavioral Assessment of Danio rerio Intoxicated by Sodium Arsenate and the Use of Arsenicum Album to Reverse the Condition of Anxiety|Int. J. High Dilut. Res.17(2): 1-2|2018|
192190|A||Boone,A.N., B. Ducouret, and M.M. Vijayan|Glucocorticoid-Induced Glucose Release is Abolished in Trout Hepatocytes with Elevated Hsp70 Content|J. Endocrinol.172(1): 1-5|2002|10.1677/joe.0.172r001
192191|A||Kothary,R.K., D. Jones, and E.P. Candido|70-Kilodalton Heat Shock Polypeptides from Rainbow Trout: Characterization of cDNA Sequences|Mol. Cell. Biol.4(9): 1785-1791|1984|10.1128/MCB.4.9.1785
192192|A||Shelke,A.|Heavy Metals Induced Changes in the Hepatosomatic and Gonosomatic Indices (HSI and GSI) of a Freshwater Teleost Fish, Amblypharyngodon mola|Pollut. Res.30(2): 237-239|2011|
192193|A||Shelke,A.D., and G.P. Wani|Arsenic Trioxide Induced Protein Content of a Freshwater Teleost Fish, Amblyphryngodon mola|Pollut. Res.28(2): 309-311|2009|
192195|A||Dukovcic,S.R.|Chromatophores as Cell-Based Biosensors for the Detection of Chemically and Biologically Toxic Substances|Ph.D.Thesis, Oregon State University, Corvallis, OR:134 p.|2009|
192196|A||Bahunoothula,U.S.|Thyroid Gland Histopathology in Zebrafish Exposed to Perchlorate and Arsenic|M.S.Thesis, Southern Illinois University, Carbondale, IL:63 p.|2014|
192197|A||Huff,D., J. Harris, P. Brunkow, K.A. Johnson, Z.Q. Lin, and J. Schaefer|Accumulation and Distribution of Arsenic in Pond Snail and Fish with Different Feeding Strategies and Effects of Phosphorous Contamination in Wetland Microcosms|Arsenic in Geosphere and Human Diseases:204-205|2010|
192198|A||Brennan,L.M., M.W. Widder, L.E. Lee, and W.H. Van der Schalie|Long-Term Storage and Impedance-Based Water Toxicity Testing Capabilities of Fluidic Biochips Seeded with RTgill-W1 Cells|Toxicol. In Vitro26(5): 736-745|2012|10.1016/j.tiv.2012.03.010
192199|A||Dukovcic,S.R., J.R. Hutchison, and J.E. Trempy|Conservation of the Chromatophore Pigment Response|J. Appl. Toxicol.30(6): 574-581|2010|10.1002/jat.1528
192200|A||Tariang,K, K. Khongsti, and B. Das|Effect of Arsenic and Lead on Glucose Level and Expression of ERK in Air-Breathing Catfish, Heteropneustes fossilis|Int. Aquat. Res.13(2): 129-137|2021|10.22034/iar.2021.1923096.1136
192201|A||Haque,M.S., M.K. Hossain, and S.K. Roy|Effect of Arsenic Exposure on Metabolic Activities Involving Adaptive Responses in Liver of Fresh Water Fishes (Channa punctata)|Emirates J. Food Agric.24(4): 354-360|2012|
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192834|T||Bhattacharyya,S.K., K. Sen, R.K. De, A. Bandopadhyay, C. Sengupta, and N.K. Adhikary|Integration of Biocontrol Agents with Fungicide, Weedicide and Plant Growth Regulator for Management of Stem and Root Rot of Jute|J. Appl. Nat. Sci.9(2): 899-904|2017|10.31018/jans.v9i2.1295
192835|A||Arini,A., J. Gigault, Z. Venel, A. Bertucci, and M. Baudrimont|The Underestimated Toxic Effects of Nanoplastics Coming from Marine Sources: A Demonstration on Oysters (Isognomon alatus)|Chemosphere295:9 p.|2022|10.1016/j.chemosphere.2022.133824
192836|A||Smith,C.W., and S.T. Goldstein|The Effects of Selected Heavy Metal Elements (Arsenic, Cadmium, Nickel, Zinc) on Experimentally Grown Foraminiferal Assemblages from Sapelo Island, Georgia and Little Duck Key, Florida, U.S.A|J. Foraminifer. Res.49(3): 303-317|2019|10.2113/gsjfr.49.3.303
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192838|T||Chen,W., L. Wu, J. Wang, Q. Yu, L. Bai, and L. Pan|Quizalofop-P-Ethyl Resistance in Polypogon fugax Involves Glutathione S-Transferases|Pest Manag. Sci.76(11): 3800-3805|2020|10.1002/ps.5931
192839|T||Cheng,L.|The Synergism of Chemical Herbicides and Aureobasidium pullulans for Control Cleavers (Galium aparine L.) in Wheat|Agric. Sci. Technol.16(7): 1484-1489|2015|
192840|T||Ghanizadeh,H., C.E. Buddenhagen, K.C. Harrington, A.G. Griffiths, and Z. Ngow|Pinoxaden Resistance in Lolium perenne L. is Due to both Target-Site and Non-Target-Site Mechanisms|Pestic. Biochem. Physiol.184:7|2022|10.1016/j.pestbp.2022.105103
192841|T||Ghorai,A.|Integrated Weed Management in Jute (Corchorus olitorius)|Indian J. Agron.53(2): 149-151|2008|
192842|A||Zhu,L., C. Wang, H. Jiang, L. Zhang, L. Mao, Y. Zhang, S. Qi, and X. Liu|Quizalofop-p-Ethyl Induced Developmental Toxicity and Cardiotoxicity in Early Life Stage of Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.238:10 p.|2022|10.1016/j.ecoenv.2022.113596
192843|A||Zhu,L.Z., S.Z. Qi, F.J. Cao, X.Y. Mu, Y. Yang, and C. Wang|Quizalofop-p-Ethyl Exposure Increases Estrogen Axis Activity in Male and Slightly Decreases Estrogen Axis Activity in Female Zebrafish (Danio rerio)|Aquat. Toxicol.183:76-84|2017|10.1016/j.aquatox.2016.12.011
192844|A||Xu,Y., R. Feng, L. Wang, L. Dong, R. Liu, H. Lu, and C. Wang|Computational and Experimental Investigations on the Interactions of Aryloxy-Phenoxy-Propionate Herbicides to Estrogen Receptor Alpha in Zebrafish|Ecotoxicol. Environ. Saf.189:8 p.|2020|10.1016/j.ecoenv.2019.110003
192845|T||Ghorai,A.K., A.K. Chakraborty, N.C. Pandit, R.K. Mondal, and C.R. Biswas|Grass Weed Control in Jute by Targa Super (Quizalofop-ethyl 5% EC)|Pestology28(2): 31-34|2004|
192846|T||Ghorai,A.K., R. De, H. Chowdhury, B. Majumdar, A. Chakraborty, and M. Kumar|Integrated Management of Weeds in Raw Jute|Indian J. Weed Sci.45(1): 47-50|2013|
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192851|T||Moomaw,R.S.|An Oats (Avena sativa)-Soybean (Glycine max) Rotation Using Ecofarming Versus Conventional Tillage|Weed Sci.33(4): 544-550|1985|10.1017/S0043174500082813
192852|T||Ghosh,R.K., D. Shamurailatpam, A. Ghosh, S. Sentharagai, A. Labar, D. Nongmaithem, P.K. Jana, S. Ghosh, and R.K. Kole|Use of Botanical Herbicides in System Intensification|Indian J. Weed Sci.47(4): 401-407|2015|
192853|T||Gobi Queiroz,J.R., A.C. Silva Junior, M.R. Rocha Pereira, and D. Martins|Herbicide Selectivity in the Early Development of Alexander Palm and Peach Palm|Semin. Cienc. Agrar.37(5): 2891-2900|2016|
192854|T||Gomes,H.L.L., V.C. Sambatti, and G. Dalazen|Sourgrass Control in Response to the Association of 2,4-D to Accase Inhibitor Herbicides|Biosci. J.36(4): 1126-1136|2020|10.14393/BJ-v36n4a2020-47895
192855|T||Govindasamy,P., V. Singh, D.R. Palsaniya, R. Srinivasan, M. Chaudhary, and S.R. Kantwa|Herbicide Effect on Weed Control, Soil Health Parameters and Yield of Egyptian Clover (Trifolium alexandrinum L.)|Crop Prot.:7 p.|2021|10.1016/j.cropro.2020.105389
192856|A||David Moha-Leon,J., I. Alejandro Perez-Legaspi, L. Alfredo Ortega-Clemente, I. Rubio-Franchini, and E. Rios-Leal|Improving the Lipid Content of Nannochloropsis oculata by a Mutation-Selection Program Using UV Radiation and Quizalofop|J. Appl. Phycol.31(1): 191-199|2019|10.1007/s10811-018-1568-1
192857|T||De Oliveira,G.M.P., M.A.D.A.E. Silva, and G. Dalazen|ACCase Inhibitor Fractionation and Glyphosate Addition Improve Perennial Sourgrass Control|Semin. Cienc. Agrar.43(2): 657-674|2022|10.5433/1679-0359.2022v43n2p657
192858|T||Dhanda,S., V. Kumar, A. Sharma, and R. Liu|Tumble Windmill Grass (Chloris verticillata Nutt.) Control with Post Herbicides|Crop Forage Turfgrass Manag.:7 p.|2023|10.1002/cft2.20238
192859|T||Fipke,M.V., A.D.R. Feijo, N.S. Garcia, T. Heck, V.E. Viana, F.E. Dayan, D. Agostinetto, F.P. Lamego, G.M. Souza, E.R. C|Transgenerational Effect of Drought Stress and Sub-Lethal Doses of Quizalofop-P-Ethyl: Decreasing Sensitivity to Herbicide and Biochemical Adjustment in Eragrostis plana|Agriculture12(3): 19 p.|2022|
192860|T||Shergill,L.S., J. Malone, P. Boutsalis, C. Preston, and G. Gill|Target-Site Point Mutations Conferring Resistance to ACCase-Inhibiting Herbicides in Smooth Barley (Hordeum glaucum) and Hare Barley (Hordeum leporinum)|Weed Sci.63(2): 408-415|2015|10.1614/WS-D-14-00134.1
192861|T||Gao,H., J. Yu, L. Pan, X. Wu, and L. Dong|Target-Site Resistance to Fenoxaprop-P-Ethyl in Keng Stiffgrass (Sclerochloa kengiana) from China|Weed Sci.65(4): 452-460|2017|10.1017/wsc.2017.10
192862|T||Kaur,T., S. Kaur, and M.S. Bhullar|Management of Grass Weeds with Quizalofop in Soybean [Glycine max (L.) Merrill]|Phytoparasitica47(1): 155-162|2019|
192863|T||Napolitano,C., F. Benfatti, F.B. Hamdan, J.A. Bristow, F. Dapiaggi, L.C. Firth, M. Guest, H.A. Saunders, R.G. Hall, M.R|Synthesis and Insecticidal Activity of N-(5-Phenylpyrazin-2-Yl)-Benzamide Derivatives: Elucidation of Mode of Action on Chitin Biosynthesis Through Symptomology and Genetic Studies|Pestic. Biochem. Physiol.199:12 p.|2024|
192864|T||Chen,W., Y. Peng, Q. Lin, T. Zhang, B. Yan, L. Bai, and L. Pan|Germination Characteristics Associated with Glutathione S-Transferases Endowed Quizalofop-P-Ethyl Resistance in Polypogon fugax|Front. Plant Sci.13:11 p.|2022|10.3389/fpls.2022.861056
192865|T||Kumar,N., K.K. Hazra, S.L. Yadav, and S.S. Singh|Weed Dynamics and Productivity of Chickpea (Cicer arietinum) Under Pre- and Post-Emergence Application of Herbicides|Indian J. Agron.60(4): 570-575|2015|10.59797/ija.v60i4.4494
192866|T||Lhungdim,J., Y. Singh, P. Kumar, and S.K. Chongtham|Integrated Weed Management of Lambsquarter and Nut Sedge in Lentil|Indian J. Weed Sci.45(3): 192-197|2013|
192867|T||Liu,K., K. Luo, A. Mao, L. Pan, B. Yan, J. Wu, L. Hu, M. Liu, X. Liu, and L. Bai|Endophytes Enhance Asia Minor Bluegrass (Polypogon fugax) Resistance to Quizalofop-P-Ethyl|Plant Soil450(SI): 373-384|2020|10.1007/s11104-020-04509-0
192868|A||Lebordais,M., Z. Venel, J. Gigault, V.S. Langlois, and M. Baudrimont|Molecular Impacts of Dietary Exposure to Nanoplastics Combined or not with Arsenic in the Caribbean Mangrove Oysters (Isognomon alatus)|Nanomaterials11(5): 20 p.|2021|10.3390/nano11051151
192869|A||Sawada,N., and L.I. Rebhun|The Effect of Dinitrophenol and Other Phosphorylation Uncouplers on the Birefringence of the Mitotic Apparatus of Marine Eggs|Exp. Cell Res.55(1): 33-38|1969|10.1016/0014-4827(69)90450-9
192870|T||Liu,L.C., and N.M. Acin-Diaz|Two Grass Herbicides for Pineapple Fields|J. Agric. Univ. P. R.77:45-51|1993|
192871|T||Ma,D.Y., H.F. Guo, L. Qin, and J. Xu|Synthesis, Characterization, Luminescence and Biological Activity of Two Lanthanide Complexes Involving Mixed Ligands|Bull. Kor. Chem. Soc.34(9): 2774-2780|2013|
192872|A||Sturla Lompre,J., E. Giarratano, M.N. Gil, L. Bertrand, and G. Malanga|Oxidative Stress Response of Scallop Aequipecten tehuelchus from Patagonia Argentina Exposed to Inorganic Arsenic|Region. Stud. Mar. Sci.62:9 p.|2023|10.1016/j.rsma.2023.102944
192873|A||Giraud-Billoud,M., A.D. Campoy-Diaz, E.M. Munoz, and I.A. Vega|Evaluation of Female Masculinization in Pomacea canaliculata (Caenogastropoda, Ampullariidae) Induced by Tributyltin, Heavy Metals, and Uranium in Culture Water|Environ. Anal. Health Toxicol.37(3): 8 p.|2022|10.5620/eaht.2022023
192874|T||Dass,A., D. Dey, S.K. Lal, and G.A. Rajanna|Tank-Mix Insecticide and Herbicide Application Effects on Weeds, Insect-Pest Menace and Soybean Productivity in Semi-Arid Northern Plains of India|Legume Res.42(3): 385-391|2019|10.18805/LR-3855
192875|T||Dutta,S., and S. Kheroar|Effect of Integrated Weed Management on Weeds, Yield and Economics of Tossa Jute (Corchorus olitorius L.) Production|Indian J. Agron.65(4): 479-484|2020|
192876|AT||Deng,X., W. Zheng, Q. Zhan, Y. Deng, Y. Zhou, and L. Bai|New Lead Discovery of Herbicide Safener for Metolachlor Based on a Scaffold-Hopping Strategy|Molecules25(21): 1-18|2020|10.3390/molecules25214986
192877|T||Gupta,G., and A.K. Bhattacharya|Assessing Toxicity of Post-Emergence Herbicides to the Spilarctia obliqua Walker (Lepidoptera: Arctiidae)|J. Pest Sci.81(1): 9-15|2008|10.1007/s10340-007-0175-8
192878|T||Cojocaru,J.M., and D.I. Marin|Effectiveness of Some Herbicides and Herbicide Combinations Applied to Chickpea (Cicer arietinum L.) Culture|Rom. Agric. Res.39:431-438|2022|10.59665/rar3940
192879|T||Kaur,T., M.S. Bhullar, and S. Kaur|Weed Control in Bt ( Bacillus thuringiensis) Cotton with Pre Mix of Pyrithiobac Sodium plus Quizalofop Ethyl in North-West India|Crop Prot.119:69-75|2019|10.1016/j.cropro.2019.01.017
192880|T||Kirici,S., T. Caliskan, R. Hatipoglo, V. Celiktas, and H. Otu Borlu|Effects of Weed Control on Seed Yield and Fatty Oil Ratio of Black Cumin (Nigella sativa L.)|Turk. J. Field Crops26(2): 226-234|2021|10.17557/tjfc.1004955
192881|T||Kujur,A., N. Bhadauria, and R.L. Rajput|Effect of Weed Management Practices on Seed Yield and Nutrient (NPK) Uptake in Cowpea|Legume Res.38(4): 555-557|2015|10.5958/0976-0571.2015.00136.8
192882|T||Kumar,M., A.K. Ghorai, M.R. Naik, D.K. Kundu, and S. Mitra|Use of Post-Emergence Herbicides to Control Weeds in Ramie Plantation|Indian J. Weed Sci.47(4): 434-437|2015|
192883|A||Lokhanskaya,V.I., E.P. Scherban', and S.D. Mel'nichuk|"Acute Toxicity of the Herbicide ""Norvel"" for Fish and Crustacea"|Hydrobiol. J.44(3): 75-85|2008|10.1615/HydrobJ.v44.i3.60
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192885|T||Hallgren,E.|Selective Grass Herbicides, Especially Targa (Quizalofop-Ethyl) for Control of Elymus repens in Different Crops|Weeds Weed Control1(28): 31-42|1987|
192886|T||Lemerle,D., and R.B. Hinkley|Tolerances of Canola, Field Pea, Lupin and Faba Bean Cultivars to Herbicides|Aust. J. Exp. Agric.31(3): 379-386|1991|
192887|T||Herbert,D., J.L. Harwood, D.J. Cole, and K.E. Pallett|Comparative Effects of Different Grass-Specific Herbicides on Fatty Acid Synthesis in Resistant Weed Species|Br. Crop Prot. Conf. Weeds1-3:227-232|1993|
192888|T||Oliveira,L., R.F. Marques, A.C.D.S. Junior, S.R. De Marchi, and D. Martins|Selectivity of Herbicides Applied to Brazilian Tree Species at Post-Emergence|Arq. Inst. Biol. (Multiple Languages)89:9 p.|2022|10.1590/1808-1657000142021
192889|T||Oliveira,L., A.C.,Jr. Silva, C.G. Goncalves, M.R.R. Pereira, and D. Martins|Selectivity of Herbicides to Native Tree Species in Brazil|Planta Daninha (Impr.) (Multiple Languages)37:11 p.|2019|10.1590/S0100-83582019370100086
192890|A||Machado,M.D., and E.V. Soares|Palmelloid-Like Phenotype in the Alga Raphidocelis subcapitata Exposed to Pollutants: A Generalized Adaptive Strategy to Stress or a Specific Cellular Response?|Aquat. Toxicol.264:9 p.|2023|10.1016/j.aquatox.2023.106732
192891|T||Mosqueda,E.G., A.T. Adjesiwor, and A.R. Kniss|Relative Toxicity of Selected Herbicides and Household Chemicals to Earthworms|bioRxiv:17 p.|2019|10.1101/850222
192892|T||Olaya-Arenas,P., K. Hauri, M.E. Scharf, and I. Kaplan|Larval Pesticide Exposure Impacts Monarch Butterfly Performance|Sci. Rep.10(1): 12 p.|2020|10.1038/s41598-020-71211-7
192893|T||Pacanoski,Z., D.D. Kolevska, and A. Mehmeti|Tolerance of Black Locust (Robinia pseudoacacia L.) Seedlings to Pre Applied Herbicides|Poljopr. Sumar.66(2): 157-165|2020|10.17707/AgricultForest.66.2.15
192894|A||Sanchez,M.I., I. Pons, M. Martinez-Haro, M.A. Taggart, T. Lenormand, and A.J. Green|When Parasites are Good for Health: Cestode Parasitism Increases Resistance to Arsenic in Brine Shrimps|PLoS Pathogens12(3): 19 p.|2016|10.1371/journal.ppat.1005459
192895|T||Rigouin,C., E. Nylin, A.A. Cogswell, D. Schaumloffel, D. Dobritzsch, and D.L. Williams|Towards an Understanding of the Function of the Phytochelatin Synthase of Schistosoma mansoni|PLoS Neglected Trop. Dis.7(1): 11 p.|2013|10.1371/journal.pntd.0002037
192896|A||Sanchez,M.I., C. Petit, M. Martinez-Haro, M.A. Taggart, and A.J. Green|May Arsenic Pollution Contribute to Limiting Artemia franciscana Invasion in Southern Spain?|PeerJ4:22 p.|2016|10.7717/peerj.1703
192897|A||Smith,C.W., J.S. Fehrenbacher, and S.T. Goldstein|Incorporation of Heavy Metals in Experimentally Grown Foraminifera from Sapelo Island, Georgia and Little Duck Key, Florida, U.S.A|Mar. Micropaleontol.156:13 p.|2020|10.1016/j.marmicro.2020.101854
192898|A||Soucek,D.J., A. Dickinson, C. Schlekat, E. Van Genderen, and E.J. Hammer|Acute and Chronic Toxicity of Nickel and Zinc to a Laboratory Cultured Mayfly (Neocloeon triangulifer) in Aqueous but Fed Exposures|Environ. Toxicol. Chem.39(6): 1196-1206|2020|10.1002/etc.4683
192899|A||Wang,N., J.L. Kunz, D.M. Cleveland, J.A. Steevens, E.J. Hammer, E. Van Genderen, A.C. Ryan, and C.E. Schlekat|Evaluation of Acute and Chronic Toxicity of Nickel and Zinc to 2 Sensitive Freshwater Benthic Invertebrates Using Refined Testing Methods|Environ. Toxicol. Chem.39(11): 2256-2268|2020|10.1002/etc.4841
192900|A||Niyogi,S., K.V. Brix, and M. Grosell|Effects of Chronic Waterborne Nickel Exposure on Growth, Ion Homeostasis, Acid-Base Balance, and Nickel Uptake in the Freshwater Pulmonate Snail, Lymnaea stagnalis|Aquat. Toxicol.150:36-44|2014|10.1016/j.aquatox.2014.02.012
192901|A||Nys,C., C.R. Janssen, P. Van Sprang, and K.A.C. De Schamphelaere|The Effect of pH on Chronic Aquatic Nickel Toxicity is Dependent on the pH Itself:  Extending the Chronic Nickel Bioavailability Models|Environ. Toxicol. Chem.35(5): 1097-1106|2016|10.1002/etc.3232
192902|T||Sun,Y., L. Zhao, X. Li, H. Xu, L. Weng, L. Yang, and Y. Li|Response of Soil Bacterial and Fungal Community Structure Succession to Earthworm Addition for Bioremediation of Metolachlor|Ecotoxicol. Environ. Saf.189:10 p.|2020|
192903|T||Ward,W., B. Heinly, J. Preston, C. Johnson, A. Sweger, and M. Persons|Lethal and Sublethal Effects of Five Common Herbicides on the Wolf Spider, Pardosa milvina (Araneae: Lycosidae)|Ecotoxicology31(10): 1565-1582|2022|
192904|T||Bernat,P., A. Jasinska, K. Niedzialkowska, M. Slaba, S. Rozalska, K. Paraszkiewicz, L. Sas-Paszt, and H.J. Heipieper|Adaptation of the Metolachlor-Degrading Fungus Trichoderma harzianum to the Simultaneous Presence of Low-Density Polyethylene (LDPE) Microplastics|Ecotoxicol. Environ. Saf.267:10 p.|2023|
192905|A||Hernandez-Flores,S., G.E. Santos-Medrano, I. Rubio-Franchini, and R. Rico-Martinez|Evaluation of Bioconcentration and Toxicity of Five Metals in the Freshwater Rotifer Euchlanis dilatata Ehrenberg, 1832|Environ. Sci. Pollut. Res.27:14058-14069|2020|10.1007/S11356-020-07958-3
192906|A||Gibson,K.J., J.M. Miller, P.D. Johnson, and P.M. Stewart|Acute Toxicity of Chloride, Potassium, Nickel, and Zinc to Federally Threatened and Petitioned Mollusk Species|Southeast. Nat.17(2): 239-256|2018|10.1656/058.017.0206
192907|A||Cremazy,A., K.V. Brix, D.S. Smith, W. Chen, M. Grosell, C.E. Schlekat, E.R. Garman, E.T. Middleton, and C.M. Wood|A Mystery Tale: Nickel is Fickle when Snails Fail - Investigating the Variability in Ni Toxicity to the Great Pond Snail|Integr. Environ. Assess. Manag.16(6): 983-997|2020|10.1002/ieam.4300
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192909|A||Tanadul,O.U.M., W. Noochanong, P. Jirakranwong, and C. Sontichai|EMS-Induced Mutation Followed by Quizalofop-Screening Increased Lipid Productivity in Chlorella sp.|Bioprocess Biosyst. Eng.41(5): 613-619|2018|10.1007/s00449-018-1896-1
192910|T||Patel,B.D., D.D. Chaudhari, R.B. Patel, and V.B. Darji|Comparative Efficacy of Different Herbicides on Bt Cotton and Their Residual Effect on Succeeding Crops|Res. Crops17(1): 106-111|2016|10.5958/2348-7542.2016.00020.6
192911|T||Mathukia,R.K., B.K. Sagarka, P.R. Mathukia, and N.V. Savaliya|Efficiency of Some Herbicides and Manual Weeding for Weed Control in Irrigated Bt Cotton|Indian J. Agric. Res.52(3): 315-318|2018|
192912|T||Metier,E.P., E.A. Lehnhoff, J. Mangold, M.J. Rinella, and L.J. Rew|Control of Downy Brome (Bromus tectorum) and Japanese Brome (Bromus japonicus) Using Glyphosate and Four Graminicides: Effects of Herbicide Rate, Plant Size, Species, and Accession|Weed Technol.34(2): 284-291|2019|
192913|T||Milligan,A.L., P.D. Putwain, and R.H. Marrs|A Field Assessment of the Role of Selective Herbicides in the Restoration of British Moorland Dominated by Molinia|Biol. Conserv.109(3): 369-379|2003|
192914|A||Duncan,E.G., W.A. Maher, S.D. Foster, and F. Krikowa|Influence of Culture Regime on Arsenic Cycling by the Marine Phytoplankton Dunaliella tertiolecta and Thalassiosira pseudonana|Environ. Chem.10(2): 91-101|2013|10.1071/EN12191
192915|A||Leao,G.A., J.A. De Oliveira, R.T.A. Felipe, F.S. Farnese, and G.S. Gusman|Anthocyanins, Thiols, and Antioxidant Scavenging Enzymes Are Involved in Lemna gibba Tolerance to Arsenic|J. Plant Interact.9(1): 143-151|2013|10.1080/17429145.2013.784815
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193007|A||Podder,M.S., and C.B. Majumder|Arsenic Toxicity to Chlorella pyrenoidosa and Its Phycoremediation|Acta ecologica Sinica36(4): 256-268|2016|10.1016/j.chnaes.2016.04.012
193008|AT||Awasthi,S., R. Chauhan, S. Dwivedi, S. Srivastava, and T. Rudra Deo|A Consortium of Alga (Chlorella vulgaris) and Bacterium (Pseudomonas putida) for Amelioration of Arsenic Toxicity in Rice: A Promising and Feasible Approach|Environ. Exp. Bot.150:115-126|2018|10.1016/j.envexpbot.2018.03.001
193009|A||Manley,S.L.|Phosphate Uptake by Blades of Macrocystis pyrifera (Phaeophyta)|Bot. Mar.28(6): 237-244|1985|10.1515/botm.1985.28.6.237
193010|A||Paul,M., C. Goswami, M. Mukherjee, and T. Roychowdhury|Phyto-Remedial Detoxification of Arsenic by Pistia stratiotes and Assessment of Its Anti-Oxidative Enzymatic Changes|Bioremediat. J.23(3): 175-184|2019|10.1080/10889868.2019.1640182
193011|A||Gross,E.M., A. Nuttens, D. Paroshin, and A. Hussner|Sensitive Response of Sediment-Grown Myriophyllum spicatum L. to Arsenic Pollution Under Different CO2 Availability|Hydrobiologia (Multiple Languages)812(1): 177-191|2016|10.1007/s10750-016-2956-7
193012|A||Krayem,M., E. Pinault, V. Deluchat, and P. Labrousse|Are Cysteine, Glutathione and Phytochelatins Responses of Myriophyllum alterniflorum to Copper and Arsenic Stress Affected by Trophic Conditions?|BioMetals35(4): 729-739|2022|10.1007/s10534-022-00396-3
193013|A||Gong,Y., H.N. Chou, C.D. Tu, X. Liu, J. Liu, and L. Song|Effects of Arsenate on the Growth and Microcystin Production of Microcystis aeruginosa Isolated from Taiwan as Influenced by Extracellular Phosphate|J. Appl. Phycol.21(2): 225-231|2009|10.1007/s10811-008-9353-1
193014|A||Basualdo,J.P., V.J. Galzenati, C.A. Solari, and V. Conforti|Arsenic Contamination, Size, and Complexity: A Volvocine Green Algae Case Study|5th International Congress on Arsenic in the Environment, As 2014:372-374|2014|
193015|A||Bull,A., M.T. Brown, and A. Turner|Novel Use of Field-Portable-XRF for the Direct Analysis of Trace Elements in Marine Macroalgae|Environ. Pollut.220:228-233|2017|10.1016/j.envpol.2016.09.049
193016|A||Das,S., F. Lizon, F. Gevaert, C. Bialais, G. Duong, B. Ouddane, and S. Souissi|Assessing Indicators of Arsenic Toxicity Using Variable Fluorescence in a Commercially Valuable Microalgae: Physiological and Toxicological Aspects|J. Hazard. Mater.452:12 p.|2023|10.1016/j.jhazmat.2023.131215
193018|A||Luo,Z., Z. Wang, Y. Yan, J. Li, C. Yan, and B. Xing|Methods of Determining Titanium Dioxide Nanoparticles Enhance Inorganic Arsenic Bioavailability and Methylation in Two Freshwater Algae Species|Methodsx5:620-625|2018|10.1016/j.mex.2018.06.004
193019|A||Liu,X., G.X. Sun, A.A. Meharg, X.X. Yin, and Y.G. Zhu|Arsenic Accumulation and Transformation in Freshwater Microalgae|Arsenic in Geosphere and Human Diseases; Arsenic 2010:200-201|2010|
193020|A||Ma,Q., L. Chen, and L. Zhang|Effects of Phosphate on the Toxicity and Bioaccumulation of Arsenate in Marine Diatom Skeletonema costatum|Sci. Total Environ.857:8 p.|2023|10.1016/j.scitotenv.2022.159566
193022|A||Upadhyay,A.K., S. Mallick, R. Singh, L. Singh, N. Singh, S.K. Mandotra, A. Singh, R.P. Srivastava, S. Pandey, and G. Sa|Novel Cost-Effective Design for Bio-Volatilization Studies in Photosynthetic Microalgae Exposed to Arsenic with Emphasis on Growth and Glutathione Modulation|Front. Microbiol.14:9 p.|2023|10.3389/fmicb.2023.1170740
193023|A||Podder,M.S., and C.B. Majumder|Toxicity and Bioremediation of As(III) and As(V) in the Green Microalgae Botryococcus braunii: A Laboratory Study|Int. J. Phytoremediat.19(2): 157-173|2017|10.1080/15226514.2016.1207601
193025|A||Wang,N.X., Y. Li, X.H. Deng, A.J. Miao, R. Ji, and L.Y. Yang|Toxicity and Bioaccumulation Kinetics of Arsenate in Two Freshwater Green Algae Under Different Phosphate Regimes|Water Res.47:2497-2506|2013|10.1016/j.watres.2013.02.034
193026|A||Garman,G.D., M.C. Pillai, L.J. Goff, and G.N. Cherr|Nuclear Events During Early Development in Gametophytes of Macrocystis pyrifera, and the Temporal Effects of a Marine Contaminant|Mar. Biol.121(2): 355-362|1994|10.1007/BF00346745
193027|A||Yang,G.L., M.X. Yang, S.M. Lv, and A.J. Tan|The Effect of Chelating Agents on Iron Plaques and Arsenic Accumulation in Duckweed (Lemna minor)|J. Hazard. Mater.419:8 p.|2021|10.1016/j.jhazmat.2021.126410
193028|T||Herath,B.M., C. Bamunuarachchige, S.L. Stephenson, A.M. Elgorban, S. Asad, J. Kumla, N. Suwannarach, S.C. Karunarathna,|Soil Heavy Metal Absorption Potential of Azolla pinnata and Lemna gibba with Arbuscular Mycorrhizal Fungi in Rice (Oryza sativa L). Farming|Sustainability15(5): 27 p.|2023|10.3390/su15054320
193029|T||Varnagy,L., P. Budai, S. Fejes, M. Susan, T. Fancsi, M. Keseru, and R. Szabo|Toxicity and Degradation of Metolachlor (Dual Gold 960 Ec) in Chicken Embryos|Commun. Agric. Appl. Biol. Sci.68(4): 807-811|2003|
193030|AT||Deng,X., W. Zheng, C. Jin, Q. Zhan, and L. Bai|Novel Phenylpyrimidine Derivatives Containing a Hydrazone Moiety Protect Rice Seedlings from Injury by Metolachlor|Bioorg. Chem.108:11 p.|2021|10.1016/j.bioorg.2021.104645
193031|T||Crow,W., A. Catchot, J. Gore, D. Dodds, D.R. Cook, and T.W. Allen|Evaluation of Seed Treatment, Herbicide, and Nematicide on Tobacco Thrips (Thysanoptera: Thripdae) and Reniform Nematode (Tylenchida: Hoplolaimidae) Control|J. Cotton Sci.24(1): 10-16|2020|10.56454/OLYR7876)
193032|T||Qureshi,J.A., P.W. Stahlman, and J.P. Michaud|Plant Population and Weeds Influence Stalk Insects, Soil Moisture, and Yield in Rainfed Sunflowers|Insect Sci.14(5): 425-435|2007|10.1111/j.1744-7917.2007.00170.x
193033|A||Chen,Z., G. Zhang, M. Xie, Z. Zheng, Y. Chen, N. Zhang, Y. Guo, Z. Wang, and Z. Dong|Toxic Effects of Environmental Concentration Bisphenol AF Exposure on the Survival, Growth and Reproduction of Adult Male Oryzias curvinotus|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.280:11 p.|2024|
193034|A||Zhang,P., F. Meng, Y. Xia, Y. Leng, and J. Cui|Deriving Seawater Quality Criteria of Tris(2-chloroethyl) phosphate for Ecological Risk Assessment in China Seas Through Species Sensitivity Distributions|J. Environ. Manag.349:11 p.|2024|10.1016/j.envman.2023.119482
193035|A||Guedes Ferreira,F.A., M.W. Franco, D.M. De Oliveira, S.M. Starling Magalhaes, and F.A. Rodrigues Barbosa|Arsenic Tolerance of Microcystis novacekii (Komarek-Compere, 1974) and Its Arsenic Decontamination Potential|Braz. Arch. Biol. Technol.61:10p.|2018|10.1590/1678-4324-2018160644
193036|A||Eom,H., M. Park, A. Jang, S. Kim, and S.E. Oh|A Simple and Rapid Algal Assay Kit to Assess Toxicity of Heavy Metal Contaminated Water|Environ. Pollut.269:10 p.|2021|10.1016/j.envpol.2020.116135
193037|A||Patel,A., S. Tiwari, and S.M. Prasad|Arsenate and Arsenite-Induced Inhibition and Recovery in Two Diazotrophic Cyanobacteria Nostoc muscorum and Anabaena sp.: Study on Time-Dependent Toxicity Regulation|Environ. Sci. Pollut. Res.28(37): 51088-51104|2021|10.1007/s11356-021-13800-1
193038|A||Wang,Y., C.H. Zhang, M.M. Lin, and Y. Ge|A Symbiotic Bacterium Differentially Influences Arsenate Absorption and Transformation in Dunaliella salina Under Different Phosphate Regimes|J. Hazard. Mater.318:443-451|2016|10.1016/j.jhazmat.2016.07.031
193039|A||Yan,Y., K. Ding, X.W. Yu, J. Ye, and X.M. Xue|Ability of Periplasmic Phosphate Binding Proteins from Synechocystis sp. PCC 6803 to Discriminate Phosphate Against Arsenate|Water Air Soil Pollut.228(4): 9 p.|2017|10.1007/s11270-017-3334-4
193041|T||Hallgren,E.|Grass Herbicides, Particularly Targa (Quizalofop-Ethyl), for Control of Avena fatua in Spring Oilseeds and Volunteer Cereals in Winter Rape|Weeds Weed Control1(28): 43-47|1987|
193042|AT||Castillo,L.E., M. Pinnock, and E. Martinez|Evaluation of a Battery of Toxicity Tests for Use in the Assessment of Water Quality in a Costa Rican Laboratory|Environ. Toxicol.15(4): 312-321|2000|10.1002/1522-7278(2000)15:4<312::AID-TOX7>3.0.CO;2-J
193043|T||Yang,Y., L. Li, Z. Luo, Y. Zhao, Y. Mu, and Q. Zhang|Enantioselective Oxidative Stress and DNA Damage Induced by Rac- and S-Metolachlor on the Earthworm Eisenia fetida|Toxics11(3): 10 p.|2023|10.3390/toxics11030246
193044|T||Griffith,C.M., M.A. Morgan, M.M. Dinges, C. Mathon, and C.K. Larive|Metabolic Profiling of Chloroacetanilide Herbicides in Earthworm Coelomic Fluid Using 1H NMR and GC-MS|J. Proteome Res.17(8): 2611-2622|2018|10.1021/acs.jproteome.8b00081
193045|A||Haggerty,C.J.E., N.T. Halstead, D.J. Civitello, and J.R. Rohr|Reducing Disease and Producing Food: Effects of 13 Agrochemicals on Snail Biomass and Human Schistosomes|J. Appl. Ecol.59(3): 729-741|2022|10.1111/1365-2664.14087
193046|T||Hanson,P.M., and L.M. Smith|Economics of Chemical and Manual Weed Control in Hybrid Maize in the Kenya Highlands|Trop. Pest Manag.38(2): 210-213|1992|
193047|A||Martinez-Ruiz,E.B., R. Agha, S. Spahr, and J. Wolinska|Widely Used Herbicide Metolachlor can Promote Harmful Bloom Formation by Stimulating Cyanobacterial Growth and Driving Detrimental Effects on Their Chytrid Parasites|Environ. Pollut.344:10 p.|2024|10.1016/j.envpol.2024.123437
193048|A||Nusbaumer,D., L. Marques da Cunha, and C. Wedekind|Testing for Population Differences in Evolutionary Responses to Pesticide Pollution in Brown Trout (Salmo trutta)|Evol. Appl.14(2): 462-475|2021|
193049|A||Obando,W.S.|Evaluation of Sacred Lotus (Nelumbo nucifera Gaertn.) as an Alternative Crop for Phyto-Remediation|Ph.D.Thesis, The University of Alabama, Birmingham, AL:207 p.|2012|
193050|T||Olaya-Arenas,P., M.E. Scharf, and I. Kaplan|Do Pollinators Prefer Pesticide-Free Plants? An Experimental Test with Monarchs and Milkweeds|J. Appl. Ecol.57(10): 2019-2030|2020|10.1111/1365-2664.13711
193051|T||Vineyard,C.J., H. Kelly, L. Steckel, and S. Stewart|Potential Interaction of Pre-Emergence Herbicides and the Efficacy of Insecticide and Fungicide Seed Treatments in Cotton|J. Cotton Sci.21(4): 284-295|2017|10.56454/BTIN7241
193052|A||Goncalves,A.M.M., A.F. Mesquita, T. Verdelhos, J.A.P. Coutinho, J.C. Marques, and F. Goncalves|Fatty Acids' Profiles as Indicators of Stress Induced by of a Common Herbicide on Two Marine Bivalves Species: Cerastoderma edule (Linnaeus, 1758) and Scrobicularia plana (Da Costa, 1778)|Ecol. Indic.63:209-218|2016|10.1016/j.ecolind.2015.12.006
193053|A||Gutierrez,I.B., A.F. Mesquita, F.J.M. Goncalves, J.C. Marques, and A.M.M. Goncalves|Biomarkers' Responses of the Benthic Clam Scrobicularia plana to the Main Active Ingredients (S-Metolachlor and Terbuthylazine) of a Common Herbicide|Ecol. Indic.96(1): 611-619|2019|10.1016/j.ecolind.2018.09.044
193054|T||Debnath,M., and P. Bhadury|Adaptive Responses and Arsenic Transformation Potential of Diazotrophic Cyanobacteria Isolated from Rice Fields of Arsenic Affected Bengal Delta Plain|J. Appl. Phycol.28(5): 16 p.|2016|10.1007/s10811-016-0820-9
193055|A||Mermana,J., P. Sutthivaiyakit, C. Blaise, F. Gagne, S. Charnsethikul, P. Kidkhunthod, and S. Sutthivaiyakit|Photocatalysis of S-Metolachlor in Aqueous Suspension of Magnetic Cerium-Doped mTiO2 Core-Shell Under Simulated Solar Light|Environ. Sci. Pollut. Res. Int.24:4077-4092|2017|10.1007/s11356-016-8151-6
193056|A||Neves,M., B.B. Castro, T. Vidal, R. Vieira, J.C. Marques, J.A.P. Coutinho, F. Goncalves, and A.M.M. Goncalves|Biochemical and Populational Responses of an Aquatic Bioindicator Species, Daphnia longispina, to a Commercial Formulation of a Herbicide (Primextra Gold TZ) and Its Active Ingredient (S-Metolachlor)|Ecol. Indic.53:220-230|2015|10.1016/j.ecolind.2015.01.031
193057|T||Dhanda,S., K. Sharma, and B.S. Chauhan|Germination Responses of Vipergrass (Dinebra retroflexa) to Environmental Factors and Herbicide Options for Its Control|Weed Sci.71(2): 124-132|2023|10.1017/wsc.2023.3
193058|AT||Arkhipchuk,V., M.V. Malinovskaya, and N.N. Garanko|Cytogenetic Study of Organic and Inorganic Toxic Substances on Allium cepa, Lactuca sativa, and Hydra attenuata Cells|Environ. Toxicol.15(4): 338-344|2000|
193060|T||Besancon,T.E., B.L. Carr, and A. Ayeni|Weed Control and Tigernut Response to Preemergence Herbicides Applied at Transplanting|HortTechnology31(4): 514-523|2021|10.21273/HORTTECH04879-21
193061|T||Celar,F.A., and K. Kos|Compatibility of the Commercial Biological Control Agents Trichoderma asperellum (ICC 012) and Trichoderma gamsii (ICC 080) with Selected Herbicides|J. Plant Dis. Prot.129(1): 85-92|2022|10.1007/s41348-021-00547-7
193062|T||Chang,X., F. Fu, Y. Sun, L. Zhao, X. Li, and Y. Li|Coupling Multifactor Dominated the Biochemical Response and the Alterations of Intestinal Microflora of Earthworm Pheretima guillelmi Due to Typical Herbicides|Environ. Sci. Pollut. Res.30(41): 94126-94137|2023|10.1007/s11356-023-29032-4
193063|T||Santier,S., and A. Chamel|Penetration of Triolein and Methyl Oleate Through Isolated Plant Cuticles and Their Effect on Penetration of (14C)Quizalofop-Ethyl and (14C)Fenoxaprop-Ethyl|Weed Res. (Multiple Languages)36(2): 167-174|1996|10.1111/j.1365-3180.1996.tb01812.x
193064|A||Lee,H., G. Kim, S. Depuydt, K. Shin, T. Han, and J. Park|Metal Toxicity Across Different Thallus Sections of the Green Macroalga, Ulva australis|Toxics11(7): 17 p.|2023|10.3390/toxics11070548
193065|A||Diaz,S., P.D. Francisco, S. Olsson, A. Aguilera, E. Gonzalez-Toril, and A. Martin-Gonzalez|Toxicity, Physiological, and Ultrastructural Effects of Arsenic and Cadmium on the Extremophilic Microalga Chlamydomonas acidophila|Int. J. Environ. Res. Public Health17(5): 20 p.|2020|10.3390/ijerph17051650
193066|A||Libatique,M.J.H., M.C. Lee, H.Y. Yeh, and F.J. Jhang|The Response of Sarcodia suiae to Long-Term Exposure of Arsenic (Arsenate): Growth, Morphology, and Arsenic Alterations|Water Air Soil Pollut.231(5): 16 p.|2020|10.1007/s11270-020-04603-0
193067|A||Al-Hasawi,Z.M., M.I. Abdel-Hamid, A.W. Almutairi, and H.E. Touliabah|Response of Pseudokirchneriella subcapitata in Free and Alginate Immobilized Cells to Heavy Metals Toxicity|Molecules25(12): 15 p.|2020|10.3390/molecules25122847
193068|A||Deng,C., Q. Ma, and F. Guo|Triclocarban Enhances the Acute Toxicity of As(III) to Photosystem II of Chlorella pyrenoidosa|Fresenius Environ. Bull.28(11A): 8419-8427|2019|
193069|T||Nam,S.H., D. Kim, S. An, and Y.J. An|Validation of the Paper-Disc Soil Method Using Soil Alga Chlorococcum infusionum to Quantitatively Determine the Toxicity of Heavy Metals|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.258:5 p.|2022|10.1016/j.cbpc.2022.109380
193070|T||Ramarethinam,S., N.V. Murugesan, and S. Marimuthu|Compatibility Studies of Fungicides with Trichoderma viride Used in the Commercial Formulation - Bio-Cure-F|Pestology25(5): 2-6|2001|
193071|T||Rabelo,J.S., E.A. Dos Santos, E.I. De Melo, M. Gomes Marcal Vieira Vaz, and G.D.O. Mendes|Tolerance of Microorganisms to Residual Herbicides Found in Eucalyptus Plantations|Chemosphere329:6 p.|2023|10.1016/j.chemosphere.2023.138630
193072|T||Hua,X., G. Liang, J. Chao, and D. Wang|Exposure to 6-PPD Quinone Causes Damage on Mitochondrial Complex I/II Associated with Lifespan Reduction in Caenorhabditis elegans|J. Hazard. Mater.472:12 p.|2024|10.1016/j.jhazmat.2024.134598
193073|A||Foldvik,A., F. Kryuchkov, E.M. Ulvan, R. Sandodden, and E. Kvingedal|Acute Toxicity Testing of Pink Salmon (Oncorhynchus gorbuscha) with the Tire Rubber-Derived Chemical 6PPD-Quinone|Environ. Toxicol. Chem.43(6): 1332-1338|2024|10.1002/etc.5875
193074|A||Grasse,N., B. Seiwert, R. Massei, S. Scholz, Q. Fu, and T. Reemtsma|Uptake and Biotransformation of the Tire Rubber-Derived Contaminants 6-PPD and 6-PPD Quinone in the Zebrafish Embryo (Danio rerio)|Environ. Sci. Technol.57(41): 15598-15607|2023|10.1021/acs.est.3c02819
193075|T||Hua,X., and D. Wang|Exposure to 6-PPD Quinone at Environmentally Relevant Concentrations Inhibits both Lifespan and Healthspan in C. elegans|Environ. Sci. Technol.57(48): 19295-19303|2023|10.1021/acs.est.3c05325
193076|T||Hua,X., and D. Wang|Disruption of Dopamine Metabolism by Exposure to 6-PPD Quinone in Caenorhabditis elegans|Environ. Pollut.337:10 p.|2023|10.1016/j.envpol.2023.122649
193077|T||Hua,X., and D. Wang|Polyethylene Nanoparticles at Environmentally Relevant Concentrations Enhances Neurotoxicity and Accumulation of 6-PPD Quinone in Caenorhabditis elegans|Sci. Total Environ.918:11 p.|2024|10.1016/j.scitotenv.2024.170760
193078|A||Jiang,Y., M. Zhang, J. Li, K. Hu, and T. Chen|AHR/cyp1b1 Signaling-Mediated Extrinsic Apoptosis Contributes to 6PPDQ-induced Cardiac Dysfunction in Zebrafish Embryos|Environ. Pollut.345:10 p.|2024|10.1016/j.envpol.2024.123467
193079|A||Jiao,M., Y. Luo, F. Zhang, L. Wang, J. Chang, J.P. Croue, and T. Zhang|Transformation of 6PPDQ During Disinfection: Kinetics, Products, and Eco-Toxicity Assessment|Water Res.250:10 p.|2024|10.1016/j.watres.2023.121070
193080|A||Liao,X.L., Z.F. Chen, Q.Y. Liu, J.M. Zhou, W.X. Cai, Y. Wang, and Z. Cai|Tissue Accumulation and Biotransformation of 6PPD-Quinone in Adult Zebrafish and Its Effects on the Intestinal Microbial Community|Environ. Sci. Technol.58(23): 10275-10286|2024|10.1021/acs.est.4c01409
193081|A||Liao,X., Z. Chen, S. Ou, Q. Liu, S. Lin, J. Zhou, Y. Wang, and Z. Cai|Neurological Impairment is Crucial for Tire Rubber-Derived Contaminant 6PPDQ-induced Acute Toxicity to Rainbow Trout|Sci. Bull.69(5): 621-635|2024|10.1016/j.scib.2023.12.045
193082|T||Liu,H., X. Tan, Y. Wu, X. Li, Z. Hu, S. Lei, W. Fan, and Z. Wang|Long-Term Exposure to 6-PPD Quinone at Environmentally Relevant Concentrations Causes Neurotoxicity by Affecting Dopaminergic, Serotonergic, Glutamatergic, and GABAergic Neuronal Systems in Caenorhabditis elegans|Sci. Total Environ.922:12 p.|2024|10.1016/j.scitotenv.2024.171291
193083|T||Liu,Z., Q. Bian, and D. Wang|Exposure to 6-PPD Quinone Causes Ferroptosis Activation Associated with Induction of Reproductive Toxicity in Caenorhabditis elegans|J. Hazard. Mater.471:13 p.|2024|10.1016/j.jhazmat.2024.134356
193084|A||Montgomery,D., X. Ji, J. Cantin, D. Philibert, G. Foster, S. Selinger, N. Jain, J. Miller, J. Mcintyre, B. De Jourdan, |Interspecies Differences in 6PPD-Quinone Toxicity Across Seven Fish Species: Metabolite Identification and Semiquantification|Environ. Sci. Technol.57(50): 21071-21079|2023|10.1021/acs.est.3c06891
193085|A||Philibert,D., R.S. Stanton, C. Tang, N.L. Stock, T. Benfey, M. Pirrung, and B. De Jourdan|The Lethal and Sublethal Impacts of Two Tire Rubber-Derived Chemicals on Brook Trout (Salvelinus fontinalis) Fry and Fingerlings|Chemosphere360:10 p.|2024|10.1016/j.chemosphere.2024.142319
193086|A||Patel,A., S. Tiwari, and S.M. Prasad|Effect of Time Interval on Arsenic Toxicity to Paddy Field Cyanobacteria as Evident by Nitrogen Metabolism, Biochemical Constituent, and Exopolysaccharide Content|Biol. Trace Elem. Res.199(5): 2031-2046|2021|10.1007/s12011-020-02289-3
193088|A||Rao,C., F. Chu, F. Fang, D. Xiang, B. Xian, X. Liu, S. Bao, and T. Fang|Toxic Effects and Comparison of Common Amino Antioxidants (AAOs) in the Environment on Zebrafish: A Comprehensive Analysis Based on Cells, Embryos, and Adult Fish|Sci. Total Environ.924:11 p.|2024|10.1016/j.scitotenv.2024.171678
193089|A||Ricarte,M., E. Prats, J. Bedrossiantz, and D. Raldua|Analysis of Sleep/Wake Cycles in Zebrafish Larvae|MethodsX12:13 p.|2024|10.1016/j.mex.2023.102492
193090|A||Varshney,S., O.L. O'Connor, A.H. Gora, S. Rehman, V. Kiron, P. Siriyappagouder, D. Dahle, T. Kogel, R. Ornsrud, and P.A|Mixture Toxicity of 6PPD-Quinone and Polystyrene Nanoplastics in Zebrafish|Environ. Pollut.348:12 p.|2024|10.1016/j.envpol.2024.123835
193091|A||Ankley,P.J., F.C.,Jr. Da Silva, D. Montgomery, M. Schultz, S.K. Ed, M. Hecker, and M. Brinkmann|Biotransformation of 6PPD-quinone In Vitro Using RTL-W1 Cell Line|Environ. Sci. Technol. Lett.:7 p.|2024|10.1021/acs.estlett.4c00342
193092|AT||Fang,C., S. Di, Y. Yu, P. Qi, X. Wang, and Y. Jin|6PPD Induced Cardiac Dysfunction in Zebrafish Associated with Mitochondrial Damage and Inhibition of Autophagy Processes|J. Hazard. Mater.471:13 p.|2024|10.1016/j.jhazmat.2024.134357
193093|A||Ackerly,K.L., K.J. Roark, K. Lu, A.J. Esbaugh, Z. Liu, and K.M. Nielsen|Acute Toxicity Testing of 6PPD-quinone on the Estuarine-Dependent Sport Fish, Sciaenops ocellatus|Ecotoxicology:8 p.|2024|10.1007/s10646-024-02755-x
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193179|A||Andrews,F.W.|Water Plants in the Gezira Canals: A Study of Aquatic Plants and Their Control in the Canals of the Gezira Cotton Area (Anglo-Egyptian Sudan)|Ann. Appl. Biol.32(1): 1-14|1945|10.1111/j.1744-7348.1945.tb06752.x
193180|T||Agnihotri,P., S. Sikdar, M. Maitra, S.S. Choudhury, and A.K. Mitra|Effect of Combination of Azolla microphylla and As(V)-Resistant Bacterial Consortium on Growth, Oxidative Stress and Arsenic Accumulation in Rice Plant Under As(V) Stress|Vegetos35(3): 796-802|2022|10.1007/s42535-022-00345-y
193181|T||Winder,R.S., and C.G. Van Dyke|The Pathogenicity, Virulence, and Biocontrol Potential of Two Bipolaris Species on Johnsongrass (Sorghum halepense)|Weed Sci.38(1): 89-94|1990|10.1017/S0043174500056162
193182|T||Grau,C.R., E.S. Oplinger, E.A. Adee, E.A. Hinkens, and M.J. Martinka|Planting Date and Row Width Effect on Severity of Brown Stem Rot and Soybean Productivity|J. Prod. Agric.7(3): 347-351|1994|
193183|T||Da Silva,A.P., R.F. Marques, A.C.D.S. Junior, S.R. De Marchi, and D. Martins|Leaching Potential of S-Metolachlor in a Medium-Textured Oxisol Soil with Bioindicator Plants|Rev. Bras. Eng. Agric. Ambient.26(3): 159-165|2022|10.1590/1807-1929/agriambi.v26n3p159-165
193184|A||Baydoun,M., A. Da Silva, R. Decou, M. Krayem, P. Hourdin, K. Cleries, P. Fondaneche, T. Hak, and V. Deluchat|Assessment of Metal/Metalloid Occurrence in Rivers with Their Accumulation in Macrophyte Case Study with Myriophyllum alterniflorum|Environ. Monit. Assess.192(6): 21 p.|2020|10.1007/s10661-020-08257-7
193185|T||Alcantara-Martinez,N., F. Figueroa-Martinez, F. Rivera-Cabrera, and T. Volke-Sepulveda|An Unexpected Guest: A Green Microalga Associated with the Arsenic-Tolerant Shrub Acacia farnesiana|FEMS Microbiol. Ecol.98(4): 1-9|2022|10.1093/femsec/fiac041
193186|A||Amirnia,S., T. Asaeda, C. Takeuchi, and Y. Kaneko|Manganese-Mediated Immobilization of Arsenic by Calcifying Macro-Algae, Chara braunii|Sci. Total Environ.646:661-669|2019|10.1016/j.scitotenv.2018.07.275
193187|A||Zhang,X., Z. Wang, Z. Luo, Y. Chen, and X. Huang|Insights into the Conversion of Dissolved Organic Phosphorus Favors Algal Bloom, Arsenate Biotransformation and Microcystins Release of Microcystis aeruginosa|J. Environ. Sci.125:205-214|2023|10.1016/j.jes.2021.11.025
193189|T||Wachowska,U., and B. Rychcik|Plants Control the Structure of Mycorrhizal and Pathogenic Fungal Communities in Soil in a 50-Year Maize Monoculture Experiment|Plant Soil484:133-153|2023|10.1007/s11104-022-05779-6
193190|A||Srivastava,S., and M. Shrivastava|Zinc Supplementation Imparts Tolerance to Arsenite Stress in Hydrilla verticillata (L.F.) Royle|Int. J. Phytoremediat.19(4): 353-359|2017|10.1080/15226514.2016.1225288
193191|A||Islam,M.S., Y. Ueno, M.T. Sikder, and M. Kurasaki|Phytofiltration of Arsenic and Cadmium from the Water Environment Using Micranthemum umbrosum (J.F. Gmel) S.F. Blake as a Hyperaccumulator|Int. J. Phytoremediat.15(10): 1010-1021|2013|10.1080/15226514.2012.751356
193192|A||Upadhyay,A.K., S.K. Mandotra, N. Kumar, N.K. Singh, L. Singh, and U.N. Rai|Augmentation of Arsenic Enhances Lipid Yield and Defense Responses in Alga Nannochloropsis sp.|Bioresour. Technol.221:430-437|2016|10.1016/j.biortech.2016.09.061
193193|A||Aziz,A.|Azolla filiculoides Lam. and A. pinnata R. Brown to Measure Arsenic Pollution in Groundwater|Bangladesh J. Bot.30(1): 17-24|2001|
193194|A||Bahal,M., and E.R.S. Talpasayi|Effect of Some Metabolic Inhibitors on Heterocyst Development in Anabaena ambigua Rao|Z. Pflanzenphysiol. (Multiple Languages)64(3): 185-189|1971|
193195|A||Baker,J., and D. Wallschlager|The Role of Phosphorus in the Metabolism of Arsenate by a Freshwater Green Alga, Chlorella vulgaris|J. Environ. Sci.49:169-178|2016|10.1016/j.jes.2016.10.002
193196|A||Basu,A., S. Kumar, and S. Mukherjee|Arsenic Reduction from Aqueous Environment by Water Lettuce (Pistia stratiotes l.)|Indian J. Environ. Health45(2): 143-150|2003|
193197|A||Cooney,R.V., J.M. Herrera-Lasso, and A.A. Benson|Arsenate Detoxication by Dunaliella tertiolecta|Environ. Sci. Res.23:451-454|1982|
193198|A||Farnese,F.S., J.A. Oliveira, F.S. Lima, G.A. Leao, G.S. Gusman, and L.C. Silva|Evaluation of the Potential of Pistia stratiotes L. (Water Lettuce) for Bioindication and Phytoremediation of Aquatic Environments Contaminated with Arsenic|Braz. J. Biol.74(3): 10 p.|2014|10.1590/1519-6984.01113
193199|A||Herrera-Lasso,J.M., and A.A. Benson|Arsenic Detoxication in Macrocystis pyrifera|Environ. Sci. Res.23:501-505|1982|
193200|A||Glore,D.A., T.M. Kay, J.S. Michael, J.M. To, and B.E. Carlson|Effects of Metolachlor and Fish Cues on Tadpole Antipredator Behaviors|Ethol. Ecol. Evol.:323-342|2024|10.1080/03949370.2023.2298471
193201|A||Canatto,R.A., J.A. De Oliveira, C.J. da Silva, and B.E.S. Albino|Tolerance of Landoltia punctata to Arsenate: An Evaluation of the Potential Use in Phytoremediation Programs|Int. J. Phytoremediat.23(1): 102-110|2021|10.1080/15226514.2020.1797630
193202|A||Sufian,J., A. Golchin, A. Avanes, and S. Moradi|Potentials of Azolla (Azolla caroliniana) for Uptake of Arsenic from Contaminated Waters with Different Levels of Salinity|Int. J. Agric. Crop Sci.6(12): 778-783|2013|
193203|A||Mukherjee,S., and S. Kumar|Arsenic Uptake Potential of Water Lettuce (Pistia stratiotes L.)|Int. J. Environ. Stud.62(2): 249-258|2005|10.1080/00207230500037068
193204|A||Farnese,F.S., J.A. Oliveira, E.A.S. Paiva, P.E. Menezes-Silva, A.A. Da Silva, F.V. Campos, and C. Ribeiro|The Involvement of Nitric Oxide in Integration of Plant Physiological and Ultrastructural Adjustments in Response to Arsenic|Front. Plant Sci.8:14 p.|2017|10.3389/fpls.2017.00516
193205|A||Zhu,F., M. Yang, Z. Luo, R. Yu, G. Hu, and Y. Yan|Bioaccumulation and Biotransformation of Arsenic in Leptolyngbya boryana|Environ. Sci. Pollut. Res.27(24): 29993-30000|2020|10.1007/s11356-020-09294-y
193206|A||Giddings,J., and G.K. Eddlemon|Photosynthesis/Respiration Ratios in Aquatic Microcosms Under Arsenic Stress|Water Air Soil Pollut. Focus9(2): 207-212|1978|10.1007/BF00280707
193207|A||Tlili,A., M. Marechal, A. Berard, B. Volat, and B. Montuelle|Enhanced Co-Tolerance and Co-Sensitivity from Long-Term Metal Exposures of Heterotrophic and Autotrophic Components of Fluvial Biofilms|Sci. Total Environ.409(20): 4335-4343|2011|10.1016/j.scitotenv.2011.07.026
193208|A||Chatterjee,A., S. Singh, R. Rai, S. Rai, and L.C. Rai|Functional Characterization of Alr0765, a Hypothetical Protein from Anabaena PCC 7120 Involved in Cellular Energy Status Sensing, Iron acquisition and Abiotic Stress Management in E. coli Using Molecular, Biochemical an|Curr. Genom.21(4): 295-310|2020|10.2174/1389202921999200424181239
193209|A||Zhen,Z., C. Yan, and Y. Zhao|Epiphytic Bacterial Community Enhances Arsenic Uptake and Reduction by Myriophyllum verticillatum|Environ. Sci. Pollut. Res.27(35): 44205-44217|2020|10.1007/s11356-020-10274-5
193210|A||Campos,F.V.D., J.A.D. Oliveira, A.A.D. Silva, C. Ribeiro, S.G. Montoya, and F.D.S. Farnese|Involvement of Glutathione and Glutathione Metabolizing Enzymes in Pistia stratiotes Tolerance to Arsenite|Int. J. Phytoremediat.22(4): 404-411|2020|10.1080/15226514.2019.1667951
193211|A||Geng,Q.Q., L. Zou, M.M. Guo, J.X. Peng, F.L. Li, Y.J. Bi, S.Q. Jiang, H.L. Qin, and Z.J. Tan|Insights into the Combined Toxicity and Mechanisms of BDE-47 and PFOA in Marine Blue Mussel: An Integrated Study at the Physiochemical and Molecular Levels|Aquat. Toxicol.273:13 p.|2024|10.1016/j.aquatox.2024.106999
193212|A||De Souza Reis,I.N.R., J. Alves de Oliveira, M.C. Ventrella, W.C. Otoni, C.S. Marinato, and L. Paiva de Matos|Involvement of Glutathione Metabolism in Eichhornia crassipes Tolerance to Arsenic|Plant Biol. J22(2): 346-350|2019|10.1111/plb.12988
193213|A||Da Silva,A.A., J.A. De Oliveira, F.V. De Campos, C. Ribeiro, F.D.S. Farnese, and A.C. Costa|Phytoremediation Potential of Salvinia molesta for Arsenite Contaminated Water: Role of Antioxidant Enzymes|Theor. Exp. Plant Physiol.30(4): 275-286|2018|10.1007/s40626-018-0121-6
193214|A||Riegman,R., and L.R. Mur|Phosphate Uptake by P-Limited Oscillatoria agardhii|FEMS Microbiol. Lett.21(3): 335-339|1984|10.1111/j.1574-6968.1984.tb00332.x
193215|T||Zheng,W.N., Z.Y. Zhu, Y.N. Deng, Z.C. Wu, Y. Zhou, X.M. Zhou, L.Y. Bai, and X.L. Deng|Synthesis, Crystal Structure, Herbicide Safening, and Antifungal Activity of N-(4,6-Dichloropyrimidine-2-Yl)Benzamide|Crystals8(2): 10 p.|2018|10.3390/cryst8020075
193216|T||Follas,G.B.|Control of Jersey Cudweed (Gnaphalium luteo Album) in Asparagus|Proc. N. Z. Weed Pest Control Conf.:77-78|1990|10.30843/nzpp.1990.43.10945
193217|A||Picco,P., P. Hasuoka, E. Verni, M. Savio, and P. Pacheco|Arsenic Species Uptake and Translocation in Elodea canadensis|Int. J. Phytoremediat.21(7): 693-698|2019|10.1080/15226514.2018.1556588
193218|A||Pandey,K.D., and A.K. Kashyap|Factors Affecting Formation of Spores (Akinetes) in Cyanobacterium Anabaena doliolum (AdS Strain)|J. Plant Physiol.127(1-2): 123-134|1987|10.1016/S0176-1617(87)80046-9
193219|A||Maeda,S., K. Kusadome, H. Arima, A. Ohki, and K. Naka|Biomethylation of Arsenic and Its Excretion by the Alga Chlorella vulgaris|Appl. Organomet. Chem.6(4): 407-413|1992|10.1002/aoc.590060416
193220|A||Maeda,S., H. Arima, A. Ohki, and K. Naka|The Association Mode of Arsenic Accumulated in the Fresh-Water Alga Chlorella vulgaris|Appl. Organomet. Chem.6(4): 393-397|1992|10.1002/aoc.590060414
193221|A||Leao,G.A., J.A.D. Oliveira, R.T.A. Felipe, and F.S. Farnese|Phytoremediation of Arsenic-Contaminated Water: The Role of Antioxidant Metabolism of Azolla caroliniana Willd. (Salviniales)|Acta Bot. Bras.31(2): 161-168|2017|10.1590/0102-33062016abb0407
193222|A||Chowdhury,C., N. Majumder, S.K. Mandal, M.K. Dutta, R. Ray, and T.K. Jana|Cell Size Versus Taxonomic Composition as Determinants of As (III & V) Sensitivity in the Estuarine Diatom Communities|J. Water Resour. Prot.3(6): 363-369|2011|10.4236/jwarp.2011.36046
193223|A||Conway,H.L., and E.M. Uaguchi|Effect of Arsenic and Cadmium on the Growth Rate and Nutrient Utilization Rates of Asterionella formosa|Annual Report Argonne National Laboratory. Radiology Environment Research Division:74-77|1976|
193224|A||Chiellini,C., L. Guglielminetti, L. Pistelli, and A. Ciurli|Screening of Trace Metal Elements for Pollution Tolerance of Freshwater and Marine Microalgal Strains: Overview and Perspectives|Algal Res.45:13 p.|2020|10.1016/j.algal.2019.101751
193225|A||Bulbul,A., P. Bhattacharya, S.M.I. Huq, and K.R. Gunaratna|Bioremoval of Arsenic by Green Alga|In: P.Bhattacharya, et.al. (Eds.), Groundwater for Sustainable Development: Problems, Perspectives and Challenges:389-396|2008|
193226|A||Gounden,D., K. Kisten, R. Moodley, S. Shaik, and S.B. Jonnalagadda|Impact of Spiked Concentrations of Cd, Pb, As and Zn in Growth Medium on Elemental Uptake of Nasturtium officinale (Watercress)|Ecosphere51(1): 1-7|2015|10.1080/03601234.2015.1080477
193227|A||Huang,Z., B. Chen, J. Zhang, C. Yang, J. Wang, F. Song, and S. Li|Absorption and Speciation of Arsenic by Microalgae Under Arsenic-Copper Co-Exposure|Ecotoxicol. Environ. Saf.213:8 p.|2021|10.1016/j.ecoenv.2021.112024
193228|A||Kumar,R.T.K., D. Le, A. Ganguly, and S. Prasad|Coscinodiscus wailesii as Biogenic Charge-Based Sensors for Heavy Metal Ion Contamination Detection|The Mathematical Biology of Diatoms:413-426|2023|10.1002/9781119751939.ch14
193229|A||Zavaleta-Mancera,H., L. Ortega-Ramirez, L. Jimenez-Garcia, G. Sanchez-Viveros, and A. Alarcon|Effect of Arsenic on Chloroplast Ultrastructure in Azolla filliculoides Lam|Microsc. Microanal.22(S3): 1206-1207|2016|10.1017/S1431927616006875
193230|A||Naveed,S., C. Li, J. Zhang, C. Zhang, and Y. Ge|Sorption and Transformation of Arsenic by Extracellular Polymeric Substances Extracted from Synechocystis sp. PCC6803|Ecotoxicol. Environ. Saf.206:9 p.|2020|10.1016/j.ecoenv.2020.111200
193231|T||Smedbol,E., M. Lucotte, G. Tremblay, M. Moingt, S. Paquet, J. Bernier Brillon, and E. Samson-Brais|Weed Management Strategies Effect on Glyphosate-Tolerant Maize and Soybean Yields and Quality|Agrosyst. Geosci. Environ.3(1): 12 p.|2020|10.1002/agg2.20088
193232|A||Painuly,A.S., R. Gupta, and S. Vats|Bio-Accumulation of Arsenic (III) Using Nelumbo nucifera Gaertn|J. Health Pollut.9(23): 1-8|2019|10.5696/2156-9614-9.23.190902
193233|A||Koechler,S., P.N. Bertin, F. Plewniak, R. Baltenweck, C. Casiot, H.J. Heipieper, O. Bouchez, F. Arsene-Ploetze, P. Hugu|Arsenite Response in Coccomyxa sp. Carn Explored by Transcriptomic and Non-Targeted Metabolomic Approaches|Environ. Microbiol.18(4): 1289-1300|2016|10.1111/1462-2920.13227
193234|T||Beres,I., A. Horn, I. Liscsinszky, and G. Kazinczi|Weed Control with Flumioxazin in Maize|Z. Pflanzenkrankh. Pflanzenschutz (Multiple Languages)(18): 779-783|2002|
193235|A||Granchinho,S.C.R., W.R. Cullen, E. Polishchuk, and K.J. Reimer|The Effect of Phosphate on the Bioaccumulation and Biotransformation of Arsenic(V) by the Marine Alga Fucus gardneri|In: A.V.Himer and Emons,H. (Eds.), Organic Metal and Metalloid Species in the Environment, Analysis, Distribution, Processes and Toxicological Evaluation:155-166|2004|
193236|A||Jahan,K., P. Mosto, C. Mattson, E. Frey, and L. Derchak|Metal Uptake by Algae|WIT Trans. Ecol. Environ.78:223-232|2004|
193237|A||Domogalla,B.P.|Treatment of Algae and Weeds in Lakes at Madison|Eng. News Rec.97:950-954|1926|
193238|A||Shah,N., V.K. Dubey, S. Thakkar, H. Doshi, and P. Mahawar|Bioaccumulation of Arsenic(V) from Wastewater by Live and Dead Spirogyra sp.|J. Basic Microbiol.62(SI): 489-497|2022|10.1002/jobm.202100353
193239|A||Glabonjat,R.A., J. Ehgartner, E.G. Duncan, G. Raber, K.B. Jensen, F. Krikowa, W.A. Maher, and K.A. Francesconi|Arsenolipid Biosynthesis by the Unicellular Alga Dunaliella tertiolecta is Influenced by As/P Ratio in Culture Experiments|Metallomics10(1): 145-153|2018|10.1039/c7mt00249a
193240|T||Shyamrao,I.D., M. Raghuraman, K. Abhinav, and R.K. Gajbhiye|Evaluation of Safety of Some Insecticides on Predatory Spiders in Rice Ecosystem|Indian J. Entomol.84(2): 307-311|2022|10.55446/IJE.2021.263
193241|T||Pavithrakumar,K., M.S. Smitha, M. Chellappan, and M. Subramanian|Toxicity of Some Insecticides to Lifestages of Cheilomenes sexmaculata Under Laboratory Conditions|Indian J. Entomol.84(4): 878-880|2022|10.55446/IJE.2022.157
193242|T||Caputo,G.A., S. Branham, and M. Cutulle|Evaluation of Chemical Seed Treatment to Reduce Injury Caused by Preemergent Herbicides on Direct-Seeded Turnips and Collard Greens|Hortscience56(12): 1516-1520|2021|10.21273/HORTSCI16155-21
193243|T||Carmo,M.S.D., I.N.D. Silveira, D.R. Almeida, R.S.M. Jardim, and V. Damin|Effectiveness of the S-Metolachlor Herbicide in the Control of Urochloa decumbens in Brazilian Savanna Soils|Pesqui. Agropecu. Trop. (Multiple Languages)53:1-10|2023|10.1590/1983-40632023v5376359
193244|T||Chaplot,P.C., H.S. Dungarwal, and R. Kumar|Chemical Weed Control in Blond Psyllium (Plantago ovata)|Annals of Biology30(4): 631-634|2014|
193245|T||Sharpe,S.M., N.S. Boyd, and P.J. Dittmar|Fallow Management Input Strategies for Weed Management in Florida Cabbage Production|Pest Manag. Sci.77(10): 4340-4349|2021|10.1002/ps.6467
193246|T||Moreira,L.B., L.L.R. Lima, E. De Sa Farias, and G.A. Carvalho|Response of Doru luteipes (Dermaptera: Forficulidae) to Insecticides Used in Maize Crop as a Function of Its Life Stage and Exposure Route|Environ. Sci. Pollut. Res. Int.30(6): 15010-15019|2023|10.1007/s11356-022-23196-1
193247|T||Chaudhary,G.R.|Weed Management in Fenugreek (Trigonella foenum-graecum)|Indian J. Agron.44(4): 846-850|1999|
193248|T||Chaudhary,G.R.|Weed Management in Coriander (Coriandrum sativum)|Indian J. Agric. Sci.70(9): 603-605|2000|
193249|T||Dias,R.C.|Herbicides Selectivity on Seedlings of White Leadtree (Leucaena leucocephala)|Cientifica (Jaboticabal) (Non-English)48(1): 56-66|2020|10.15361/1984-5529.2020v48n1p56-66
193250|T||Shukla,D., R. Kesari, M. Tiwari, S. Dwivedi, R.D. Tripathi, P. Nath, and P.K. Trivedi|Expression of Ceratophyllum demersum Phytochelatin Synthase, CdPCS1, in Escherichia coli and Arabidopsis enhances Heavy Metal(Loid)S Accumulation|Protoplasma (Multiple Languages)250(6): 1263-1272|2013|10.1007/s00709-013-0508-9
193251|T||Dittmar,P.J.|Sweet Corn Tolerance and Weed Control of S-Metolachlor Applied Pre-Emergence Followed by Various Post-Emergence Herbicides|Proc. Annu. Meet. Fla. State Hortic. Soc.125:207-208|2012|
193252|T||Correia,N.M.|Chemical and Cultural Management Strategies for Glyphosate-Resistant Sourgrass in Central Brazil|Pesqui. Agropecu. Bras. (Multiple Languages)58(e02900): 1-10|2023|10.1590/S1678-3921. pab2023.v58.02900.
193253|A||Chetia,L., D. Kalita, A. Gogoi, and G.A. Ahmed|Enhanced Photoluminescence Properties of Arsenic-Treated Diatom Frustules of Cosmioneis reimeri|MRS Adv.7(13-14): 284-288|2021|10.1557/s43580-021-00131-z
193254|T||Banik,S., P. Dey, and P. Pandit|Effect of Different Insecticides on Yield, Yield Attributes and Pollinator Behaviour of Different Pigeon Pea Varieties|Legume Res.46(2): 211-214|2023|10.18805/LR-4387
193255|A||Sanchez-Viveros,G., J.L. Ruvalcaba-Sil, R. Ferrera-Cerrato, A. Alarcon, and B. Xoconostle-Cazares|Changes in Elemental Content in Fronds of Azolla filiculoides Due to Arsenic Accumulation|Plant Biosyst.150(6): 1332-1340|2015|10.1080/11263504.2015.1057257
193256|AT||Shukla,D., R. Kesari, S. Mishra, S. Dwivedi, R.D. Tripathi, P. Nath, and P.K. Trivedi|Expression of Phytochelatin Synthase from Aquatic Macrophyte Ceratophyllum demersum L. Enhances Cadmium and Arsenic Accumulation in Tobacco|Plant Cell Rep.31(9): 1687-1699|2012|10.1007/s00299-012-1283-3
193257|T||Correia,N.M., F.J. Perussi, and L.J.P. Gomes|S-Metolachlor Efficacy on the Control of Brachiaria decumbens, Digitaria horizontalis, and Panicum maximum in Mechanically Green Harvested Sugarcane|Planta Daninha (Impr.) (Multiple Languages)30(4): 861-870|2012|10.1590/S0100-83582012000400021
193258|T||Duque,T.S., F.S. Oliveira, I.M. Souza, B.C.C. Fernandes, L.L.L. Da Silva Rodrigues, D.V. Silva, and J.B. Dos Santos|Efficacy of S-Metolachlor +  Glyphosate for Weed Control in Different Levels of Eucalyptus Straw|Forests14(9): 8 p.|2023|10.3390/f14091828
193259|T||Pasini,R.A., M. Rakes, F.S. De Armas, J. De B.Pazini, and A.D. Grutzmacher|Lethal Effects of Insecticides on Adults of Eriopis connexa (Germar, 1824) (Coleoptera: Coccinellidae)|Entomol. Comm.4:4 p.|2022|10.37486/2675-1305.ec04007
193260|A||Bradley,M.J.|Acute Toxicity to Midges (Chironomus riparius) Under Static-Renewal Conditions|Smithers Study No. 14331-6102, Smithers, Wareham, MA:153 p.|2024|
193261|T||Eni,E., O.R. Adeyemi, S.T.O. Lagoke, and O.E. Asiribo|Enhancing the Weed Control Efficacy of Two Pre-Emergence Herbicides in Maize/Jack Bean and Maize/Groundnut Intercrops in Derived Savanna|J. Agric. Sci.66(4): 335-350|2021|10.2298/JAS2104335E
193262|T||Fageiry,K.|Weed Control in Soybean (Glycine max) in Vertisols of Sudan|Trop. Pest Manag.33(3): 220-223|1987|10.1080/09670878709371154
193263|T||Garcia-Torres,L., F. Lopez-Granados, and M. Castejon-Munoz|Pre-Emergence Herbicides for the Control of Broomrape (Orobanche cernua Loefl) in Sunflower (Helianthus annuus L).|Weed Res. (Multiple Languages)34(6): 395-402|1994|
193264|T||Gazola,T., D.M. Gomes, D. Belaport, M.F. Dias, C.A. Carbonari, and E.D. Velini|Selectivity and Residual Weed Control of Pre-Emergent Herbicides in Soybean Crop|Rev. Ceres (Multiple Languages)68(3): 219-229|2021|10.1590/0034-737X202168030008
193265|T||Gondal,M.R.|Role of Weedicides for Weed Management and Improvement in Production of Berseem (Trifolium alexandrinum L.) Fodder|Int. J. Agric. Technol.17(4): 1329-1344|2021|
193266|A||Sukkasam,N., A. Incharoensakdi, and T. Monshupanee|Chemicals Affecting Cyanobacterial Poly(3-Hydroxybutyrate) Accumulation: 2-Phenylethanol Treatment Combined with Nitrogen Deprivation Synergistically Enhanced Poly(3-Hydroxybutyrate) Storage in Synechocystis sp. PCC6803|Plant Cell Physiol.63(9): 1253-1272|2022|10.1093/pcp/pcac100
193267|A||Wagner,F., M. Gimona, H. Ahorn, G.A. Peschek, and G. Falkner|Isolation and Functional Reconstitution of a Phosphate Binding Protein of the Cyanobacterium Anacystis nidulans Induced During Phosphate-Limited Growth|J. Biol. Chem.269(8): 5509-5511|1994|10.1016/S0021-9258(17)37489-6
193268|T||Hugo,E., and A.E.J. Saayman du Toit|Effect of Chloroacetamide Herbicides on the Establishment, Growth and Yield of Different Sorghum Cultivars|S. Afr. J. Plant Soil28(4): 218-227|2011|
193269|A||Wang,Y., C. Zhang, Y. Zheng, and Y. Ge|Bioaccumulation Kinetics of Arsenite and Arsenate in Dunaliella salina Under Different Phosphate Regimes|Environ. Sci. Pollut. Res.24(26): 21213-21221|2017|10.1007/s11356-017-9758-y
193270|A||Wang,Z., Z. Luo, C. Yan, R.R. Rosenfeldt, F. Seitz, and H. Gui|Biokinetics of Arsenate Accumulation and Release in Microcystis aeruginosa Regulated by Common Environmental Factors: Practical Implications for Enhanced Bioremediation|J. Clean. Prod.199:112-120|2018|10.1016/j.jclepro.2018.07.131
193271|A||Wang,Z., Z. Luo, C. Yan, F. Che, and Y. Yameng|Arsenic Uptake and Depuration Kinetics in Microcystis aeruginosa Under Different Phosphate Regimes|J. Hazard. Mater.276:393-399|2014|10.1016/j.jhazmat.2014.05.049
193272|T||O'Sullivan,J., and P.H. Sikkema|Response of Glufosinate-Resistant Bt Sweet Corn (Zea mays) Cultivars to Glufosinate and Residual Herbicides|Can. J. Plant Sci.85(1): 285-289|2005|
193273|T||van Rensburg,H.J., and B.W. Strijdom|Effect of Herbicides on Survival of Rhizobia and Nodulation of Peas, Groundnuts and Lucerne|S. Afr. J. Plant Soil1(4): 135-138|1984|
193274|A||Wang,Z., Z. Luo, Y. Changzhou, and B. Xing|Impacts of Environmental Factors on Arsenate Biotransformation and Release in Microcystis aeruginosa Using the Taguchi Experimental Design Approach|Water Res.118:167-176|2017|10.1016/j.watres.2017.04.036
193275|T||Zaidan,U.R., L.M. Motta, W.M. De Souza, R.M. Faria, M.C.G. Paiva, K.F. Mendes, and F.C.L. De Freitas|Multi-Mixture Herbicides Provide Management Strategies in the Control of the Aquatic Weed Heteranthera reniformis|J. Crop Sci. Biotechnol.24(2): 137-144|2021|10.1007/s12892-020-00065-2
193276|A||Xie,S., J. Liu, F. Yang, H. Feng, C. Wei, and F. Wu|Arsenic Uptake, Transformation, and Release by Three Freshwater Algae Under Conditions with and Without Growth Stress|Environ. Sci. Pollut. Res.25(20): 19413-19422|2018|10.1007/s11356-018-2152-6
193277|A||Xue,X.M., Y. Yan, C. Xiong, G. Raber, K. Francesconi, T. Pan, J. Ye, and Y.G. Zhu|Arsenic Biotransformation by a Cyanobacterium Nostoc sp. PCC 7120|Environ. Pollut.228:111-117|2017|10.1016/j.envpol.2017.05.005
193278|A||Yin,X., L. Wang, G. Duan, and G. Sun|Characterization of Arsenate Transformation and Identification of Arsenate Reductase in a Green Alga Chlamydomonas reinhardtii|J. Environ. Sci.23(7): 1186-1193|2011|10.1016/S1001-0742(10)60492-5
193279|A||Yin,X.X., J. Chen, J. Qin, G.X. Sun, B.P. Rosen, and Y.G. Zhu|Biotransformation and Volatilization of Arsenic by Three Photosynthetic Cyanobacteria|Plant Physiol.156(3): 1631-1638|2011|10.1104/pp.111.178947
193280|A||Lefta,S.N.|Determine the Ability of Scenedesmus acuminatus to Uptake of Arsenic by Using Scanning Electron Microscope Technique|Plant Arch.19(2): 839-842|2019|
193281|T||Khan,I.A., O.U. Rehman, S.A. Khan, H. Alsamadany, and Y. Alzahrani|Effect of Different Herbicides, Plant Extracts and Mulches on Yield and Yield Components of Maize|Planta Daninha (Impr.) (Multiple Languages)38:8 p.|2020|10.1590/S0100-83582020380100028
193282|T||Correia,N.M., L.P. Gomes, and F.J. Perussi|Control of Brachiaria decumbens and Panicum maximum by S-Metolachlor as Influenced by the Occurrence of Rain and Amount of Sugarcane Straw on the Soil|Acta Sci. Agron.34(4): 379-387|2012|10.4025/actasciagron.v34i4.14676
193283|T||Cutulle,M.A., H.T. Campbell, M. Farfan, and P.A. Wadl|A Hydroponics Assay Distinguishes Between S-Metolachlor-Tolerant and -Sensitive Sweetpotato Cultivars|Hortscience55(7): 1022-1025|2020|10.21273/HORTSCI14936-20
193284|T||Folgart,A., A.J. Price, E. Van Santen, and G.R. Wehtje|Organic Weed Control in White Lupin (Lupinus albus L.)|Renew. Agric. Food Syst.26(3): 193-199|2011|10.1017/S1742170510000542
193285|T||Borges,M.P.D.S., M.M. Trezzi, K.F. Mendes, E. Fuzinatto, G. Pilatti, and A.A. Da Silva|Tolerance of Brazilian Bean Cultivars to S-Metolachlor and Poaceae Weed Control in Two Agricultural Soils|Agronomy13(12): 19 p.|2023|10.3390/agronomy13122919
193286|T||Mahmood,A., A. Khaliq, M.Z. Ihsan, M. Naeem, I. Daur, A. Matloob, and F.S. El-Nakhlawy|Estimation of Weed Dry Biomass and Grain Yield as a Function of Growth and Yield Traits Under Allelopathic Weed Management in Maize|Planta Daninha (Impr.) (Multiple Languages)33(1): 23-31|2015|10.1590/S0100-83582015000100003
193287|T||Malidza,G., D. Glusac, and A. Takac|Phytopharmacological Value of Herbicides in Carrot Production|Acta Hortic.1:549-552|1997|
193288|T||Stall,W.M., and E.J. McAvoy|Tolerance of Fresh Market Dill, Parsley, and Cilantro to Potential Herbicides in Florida|Proc. Annu. Meet. Fla. State Hortic. Soc.121:11 p.|2008|
193289|T||Mobli,A., A. Rinwa, Sahil, and B.S. Chauhan|Effects of Sorghum Residue in Presence of Pre-Emergence Herbicides on Emergence and Biomass of Echinochloa colona and Chloris virgata|PLoS One15(3): 12 p.|2020|10.1371/journal.pone.0229817
193290|T||Mahajan,G., and B.S. Chauhan|Evaluation of Preemergent Herbicides for Chloris virgata Control in Mungbean|Plants (Basel)10(8): 11 p.|2021|10.3390/plants10081632
193291|T||Naik,D.C., T.V. Muniyappa, and M.D. Kumar|Response of Transplanted Fingermillet (Eleusine coracana) on Yield and Economics as Influenced by Integrated Weed-Management Practices|Indian J. Agron.45(1): 138-142|2000|
193292|T||Quist,T.M., I. Sokolchik, H. Shi, R.J. Joly, R.A. Bressan, A. Maggio, M. Narsimhan, and X. Li|HOS3, an ELO-Like Gene, Inhibits Effects of ABA and Implicates a S-1-P/Ceramide Control System for Abiotic Stress Responses in Arabidopsis thaliana|Mol. Plant2(1): 138-151|2009|
193293|T||Xu,N., Q. Qu, Z. Zhang, W. Yuan, H. Cui, Y. Shen, W. Lin, T. Lu, and H. Qian|Effects of Residual S-Metolachlor in Soil on the Phyllosphere Microbial Communities of Wheat (Triticum aestivum L.)|Sci. Total Environ.748:7 p.|2020|10.1016/j.scitotenv.2020.141342
193294|T||Maciel,C.D.G., L.H.I. Vidal, S.O. Jadoski, C.E.L. Iuchemin, E.O. Helvig, A.A.P. Silva, A.C. Dranca, and M.H. Inoue|Selectivity of Herbicides Applied in Pre-Emergence in Chia Crop|Rev. Bras. Cienc. Agrar.14(1): 1-7|2019|
193295|T||Vaiyapuri,K., M.S. Sundar, R. Jayakumar, P. Rajendran, and P. Manikasundaram|Bioefficacy of Metolachlor for Weed Control in Turmeric (Curcuma longa L.)|Pestology28(3): 19-21|2004|
193296|T||Woods,P.W., Z. Shengwen, and J.N. Couchman|Weed Control in the Establishment of Limpo Grass (Hemarthria altissima)|Proc. N. Z. Plant Prot. Conf.47:44-48|1994|10.30843/nzpp.1994.47.11027
193297|T||Shulner,I., E. Asaf, Z. Ben-Simhon, M. Cohen-Zinder, A. Shabtay, Z. Peleg, and R.N. Lati|Optimizing Weed Management for the New Super-Forage Moringa oleifera|Agronomy (Basel)11(6): 14 p.|2021|10.3390/agronomy11061055
193298|T||Singh,V.P., A. Dixit, J.S. Mishra, and N.T. Yaduraju|Effect of Period of Soil Solarization and Weed-Control Measures on Weed Growth, and Productivity of Soybean (Glycine max)|Indian J. Agric. Sci.74(6): 324-328|2004|
193299|A||Agnihotri,P., M. Maitra, and A.K. Mitra|Effect of an As(V)-Resistant Plant Growth Promoting Bacterial Consortium on Growth, Antioxidant Content and Arsenic Accumulation in Azolla microphylla Kaulf. Under As(V) Stress|Russ. J. Plant Physiol.69(15): 7 p.|2022|10.1134/S1021443722010022
193300|T||Niewiadomska,A., G. Skrzypczak, L. Sobiech, A. Wolna-Maruwka, K. Borowiak, and A. Budka|The Effect of Diflufenican and Its Mixture with S-Metolachlor and Metribuzin on Nitrogenase and Microbial Activity of Soil Under Yellow Lupine (Lupinus luteus L.)|Tarim Bilimleri Dergisi24(1): 130-142|2018|10.15832/ankutbd.446412
193301|T||Wienberg,J., and B. Gerowitt|Intercropping with Lolium spp. Instead of Applying Soil-Active Herbicides Confined Weeds in Three Years of Continuous Maize Cropping|Crop Prot.173:9 p.|2023|10.1016/jcropro.2023.106373
193302|T||Liu,G.S., R. Sanchez-Fernandez, Z.S. Li, and P.A. Rea|Enhanced Multispecificity of Arabidopsis Vacuolar Multidrug Resistance-Associated Protein-Type ATP-Binding Cassette Transporter, AtMRP2|J. Biol. Chem.276(12): 8648-8656|2001|
193303|T||Namdjoyan,S.H., S.H. Namdjoyan, and H. Kermanian|Phytochelatin Synthesis and Responses of Antioxidants During Arsenic Stress in Nasturtium officinale|Russ. J. Plant Physiol.63(6): 739-748|2016|10.1134/S1021443716060078
193304|T||Alsendi,A., A.A. Kareem, M. Havasi, and G. Golmohammadi|A Study on the Toxicity and Sublethal Concentrations of Three Insecticides on the Population Dynamics of Green Lacewing Chrysoperla carnea Stephens|Arab J. Plant Prot.41(1): 28-36|2023|10.22268/AJPP-41.1.028036
193305|T||Raimondi,M.A., J.R.R.S. Oliveira, J. Constantin, F.A. Rios, A. Gemelli, and R.T. Raimondi|Dose-Response Curve to Soil Applied Herbicides and Susceptibility Evaluation of Different Amaranthus Species Using Model Identity|Planta Daninha (Impr.) (Multiple Languages)33(1): 137-146|2015|10.1590/S0100-83582015000100016
193306|T||Scroggs,D.M., D.K. Miller, J.L. Griffin, L.E. Steckel, D.C. Blouin, A.M. Stewart, and P.R. Vidrine|Reduced-Input, Postemergence Weed Control with Glyphosate and Residual Herbicides in Second-Generation Glyphosate-Resistant Cotton|Weed Technol.21(4): 997-1001|2007|
193307|T||Serdyuk,O., V. Trubina, and L. Gorlova|The Effect of Herbicides on Winter False Flax (Camelina sativa (L.) Crantz.)|BIO Web Conf.32:4 p.|2021|10.1051/bioconf/20213202011
193308|T||Richard,M.P., J.I. Morrison, and J.D. McCurdy|Effects of Preemergence Herbicides on Establishment of Little Bluestem and Sideoats Grama Golf Course Rough|Crop Forage Turfgrass Manag.6(1): 7 p.|2020|10.1002/cft2.20051
193309|T||Santos,B.M., J.P. Gilreath, M.D.L. Lugo, and L.E. Rivera|Efficacy of Drip-Applied Herbicides in Tomato in Puerto Rico and Dominican Republic|Proc. Annu. Meet. Fla. State Hortic. Soc.119:269-271|2006|
193310|T||Santos,P.H.V.D., B.F. Schedenffeldt, and P.A. Monquero|Control of Poaceae and Convolvulaceae Weed Species by Herbicides Applied to the Soil and Sugarcane Straw|Int. J. Agric. Biol.27(6): 431-440|2022|
193311|T||Sarpe,N., F. Ionescu, and A. Popescu|Studies Concerning the Residual Effect of Atrazine, Alachlor, Metolachlor, EPTC + R 25788, Trifluralin, EPTC, Metobromuron and Vernolate Applied to Maize or Beans on Succeeding Crops Such as Wheat, Flax, Beans and Sunfl|In: Symposium on Theory and Practice of the Use of Soil Applied Herbicides, European Weed Research Society, Paris:318-324|1981|
193312|T||Sartori,H.L., A.G.F. Costa, V. Sofiatti, and P.L.C.A. Alves|Application of Herbicides and Sugar Cane Straw on Controlling of Mucuna aterrima L. in Peanut Crop|Aust. J. Crop Sci.17(11): 835-840|2023|10.21475/ajcs.23.17.11.p3953
193313|A||Namdjoyan,S., and H. Kermanian|Exogenous Nitric Oxide (as Sodium Nitroprusside) Ameliorates Arsenic-Induced Oxidative Stress in Watercress (Nasturtium officinale R. Br.) Plants|Sci. Hortic.161:350-356|2013|10.1016/j.scienta.2013.07.035
193314|T||Cigerci,I.H., R. Liman, E.S. Istifli, D. Akyil, A. Ozkara, E. Bonciu, and F. Cola|Cyto-Genotoxic and Behavioral Effects of Flubendiamide in Allium cepa Root Cells, Drosophila melanogaster and Molecular Docking Studies|Int. J. Mol. Sci.24(2): 19 p.|2023|10.3390/ijms24021565
193315|T||Beena,R., and V. Selvi|Bioefficacy of Insecticides Used Against Diamondbackmoth and Their Potential Impact on Natural Enemies in Cauliflower|J. Appl. Nat. Sci.14(4): 1240-1245|2022|10.31018/jans.v14i4.3816
193316|T||Schmid,W., L. Kanyomeka, and J.D. Likango|Weed Control in Commercial Soyabean Production in Zambia: Efficacy of Herbicides in Rainfed Land Under Minimum Tillage|In: Proceedings of the Second International Weed Control Congress, Denmark:703-709|1996|
193317|A||Suzuki,Y., C. Takenaka, R. Tomioka, H. Tsubota, Y. Takasaki, and T. Umemura|Accumulation of Arsenic and Copper by Bryophytes Growing in an Aquatic Environment near Copper Mine Tailings (Acumulacion de Arsenico Y Cobre Por Briofitas Creciendo En un Ambiente Acuatico Cerca de Las Colas de Una Min|Mine Water Environ.35(3): 265-272|2015|10.1007/s10230-015-0335-7
193318|T||Zangoueinejad,R., B. Sirooeinejad, M.T. Alebrahim, and A.A. Bajwa|Integrated Use of Herbicides and Mulching for Sustainable Control of Purple Nutsedge (Cyperus rotundus) in a Tomato crop|Sustainability14(19): 11 p.|2022|10.3390/su141912737
193319|T||Uremis,I., M.E. Caliskan, A. Uludag, and S. Caliskan|Weed Management in Early-Season Potato Production in the Mediterranean Conditions of Turkey|Bulg. J. Agric. Sci.15(5): 423-434|2009|
193320|T||Wagner,U., R. Edwards, D.P. Dixon, and F. Mauch|Probing the Diversity of the Arabidopsis Glutathione S-Transferase Gene Family|Plant Mol. Biol.49(5): 515-532|2002|10.1023/a:1015557300450
193321|T||Wallace,J.M.|Can Relative Sensitivity of Cover Crop Species to Chloroacetamide and Pyrazole Herbicides be Exploited to Design Interseeding Mixtures?|Weed Technol.37(1): 100-107|2023|10.1017/wet.2023.11
193322|T||Wesz,A.M., L. Polidorio, G.F. Barbieri, L.O. Uhlmann, R. Tomiozzo, V.F. Guarienti, N.A. Streck, and A.D.R. Ulguim|Herbicide Selectivity and Weed Control in Gladiolus Cultivation|Pesqui. Agropecu. Bras. (Multiple Languages)58:10 p.|2023|10.1590/S1678-3921.pab2023.v58.03009
193323|A||Ma,H., W. Yang, Y. Li, J. Li, X. Yang, Y. Chen, Y. Ma, D. Sun, and H. Sun|Effects of Sodium Arsenite Exposure on Behavior, Ultrastructure and Gene Expression of Brain in Adult Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.273:11 p.|2024|
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193325|T||Neugebauerova,J., and K. Petrikova|Possibilities of Pre-Emergence and Post-Emergence Herbicide Applications in Prunella vulgaris L. Growth|Hortic. Sci.31(3): 115-118|2004|
193326|T||Nutricati,E., A. Miceli, F. Blando, and L. De Bellis|Characterization of Two Arabidopsis thaliana Glutathione S-Transferases|Plant Cell Rep.25(9): 997-1005|2006|10.1007/s00299-006-0146-1
193327|T||Pedroso,R.M., and M.L. Moretti|Hazelnut Growth and Weed Control in Response to Selected Preemergence Herbicides|Weed Technol.36(4): 570-575|2022|10.1017/wet.2022.58
193328|T||Petrova,S., S. Stamatov, and B. Andonov|Evaluation of the Effect of Different Herbicides and Herbicidal Combinations on Mixed Weed Flora and Vicia ervilia L. Yield|Bulg. J. Agric. Sci.28(3): 408-412|2022|
193329|T||Wilber,A.L., J.D. McCurdy, J. Czarnecki, B. Stewart, and H. Dong|Preemergence Herbicide Effects on St. Augustinegrass Establishment|Agron. J.115(3): 1344-1355|2023|10.1002/agj2.21304
193330|T||Wilber,A.L., J.D. McCurdy, J.M.P. Czarnecki, B.R. Stewart, and H. Dong|Aerial and Ground-Based Assessments of Preemergence Herbicide Effects on St. Augustinegrass Grow-In|Int. Turfgrass Soc. Res. J.14(1): 812-814|2022|10.1002/its2.79
193331|T||Brant Maia,L.C., V.M. Maia, M.H. Melo e Lima, I. Aspiazu, and R.F. Pegoraro|Growth, Production and Quality of Pineapple in Response to Herbicide Use|Rev. Bras. Fruticult. (Non-English)34(3): 799-805|2012|
193332|T||Braz,G.B.P., R.S. Oliveira Jr, J. Constantin, H.K. Takano, C.A. Chase, F.G.F. Fornazza, and R.T. Raimondi|Selection of Herbicides Targeting the Use in Crop Systems Cultivated with Showy Crotalaria|Planta Daninha (Impr.) (Multiple Languages)33(3): 521-534|2015|10.1590/S0100-8358201500300014
193333|T||Aulakh,J.S.|Weed Control Efficacy and Tolerance of Canaan Fir to Preemergence Herbicides|Weed Technol.34(2): 208-213|2019|10.1017/wet.2019.80
193334|T||Sharma,P.B., and R. Umat|Comparative Efficacy of S-Metolachlor for Weed Control in Soybean (Glycine max)|Indian J. Agron.50(2): 146-148|2005|
193335|T||Shivakumar,H.R., and T.V. Muniyappa|Economics of Weed Control in Mulberry (Morus indica)|Indian J. Agron.41(2): 318-320|1996|
193336|T||Wang,Y., Y.Q. Li, K. Lv, J.J. Cheng, X.L. Chen, Y. Ge, and X.Y. Yu|Soil Microalgae Modulate Grain Arsenic Accumulation by Reducing Dimethylarsinic Acid and Enhancing Nutrient Uptake in Rice (Oryza sativa L.)|Plant Soil430(1-2): 99-111|2018|10.1007/s11104-018-3719-1
193337|T||Silva,M.D.S.|Weed Control and Selectivity of Different Pre-Emergence Active Ingredients in a Soybean Crop|Agron. Colombiana39(3): 392-404|2021|
193338|T||Silva,P.V., B.F. Schedenffeldt, E.S. Medeiros, D.Z. Molina, M.K. Pagliarini, P.A.V. Salmazo, M. Mauad, P.A. Monquero, F|Selectivity of Herbicides Used in Corn on Crotalaria ochroleuca G. Don|Braz. J. Biol.83:10 p.|2023|10.1590/1519-6984.277798
193339|T||Stanojevic,M., L. Stefanovic, K. Mirkovic, and D. Bozic|Effect of Crop Density on Quantity of Weeds in Maize|In: Proceedings of the Second International Weed Control Congress, Denmark:197-202|1996|
193340|T||Stephenson IV,D.O., and B.J. Brecke|Weed Management in Single-Vs. Twin-Row Cotton (Gossypium hirsutum)|Weed Technol.24(3): 275-280|2010|10.1614/WT-D-09-00056.1
193341|T||Piasecki,C., R.F. Lopez Ovejero, G.J. Picoli Junior, L.F. Bellini, D. Agostinetto, and L. Vargas|Control of Italian Ryegrass and Alexandergrass in Corn Using Different Corn Sowing Date, Pre- and Post-Emergent Herbicides|Bragantia (Multiple Languages)79(3): 387-398|2020|10.1590/1678-4499.20190362
193342|A||Schlekat,C.E., E. Van Genderen, K.A. De Schamphelaere, P.M.C. Antunes, E.C. Rogevich, and W.A. Stubblefield|Cross-Species Extrapolation of Chronic Nickel Biotic Ligand Models|Sci. Total Environ.408(24): 6148-6157|2010|10.1016/j.scitotenv.2010.09.012
193343|A||Akter,M.S., K. Ahmed, A.A. Akhand, and M. Islam|Acute Toxicity of Arsenic and Mercury to Fresh Water Climbing Perch, Anabas testudineus (Bloch)|World J. Zool.3(1): 13-18|2008|
193344|A||Kovendan,K., S. Vincent, S. Janarthanan, and M. Saravanan|Expression of Metallothionein in Liver and Kidney of Freshwater Fish Cyprinus carpio var. communis (Linn) Exposed to Arsenic Trioxide|Am. J. Sci. Ind. Res.4(1): 10 p.|2013|
193345|A||Xiong,W.J., W. Wei, M. He, B. Hu, J. Men, J.W. Tu, and W. Miao|Construction of Tetrahymena Strains with Highly Active Arsenic Methyltransferase Genes for Arsenic Detoxification in Aquatic Environments|Ecotoxicol. Environ. Saf.275:9 p.|2024|10.1016/j.ecoenv.2024.116258
193346|T||Hoff,T., S.Y. Liu, and J.M. Bollag|Transformation of Halogen-, Alkyl-, and Alkoxy-Substituted Anilines by a Laccase of Trametes versicolor|Appl. Environ. Microbiol.49(5): 1040-1045|1985|10.1128/aem.49.5.1040-1045.1985
193347|T||Scott-Craig,J.S., J.E. Casida, L. Poduje, and J.D. Walton|Herbicide Safener-Binding Protein of Maize.  Purification, Cloning, and Expression of an Encoding cDNA|Plant Physiol.116(3): 1083-1089|1998|10.1104/pp.116.3.1083
193348|T||Lynch,K.M., F.A. McIver, and J.R. Cain|Pulmonary Tumors in Mice Exposed to Asbestos Dust|AMA Arch. Ind. Health15(3): 207-214|1957|
193349|A||Mattsson,M., and A. Cremazy|The Effects of Temperature on Nickel Bioaccumulation and Toxicity in the Freshwater Snail Lymnaea stagnalis|Environ. Pollut.337:9 p.|2023|10.1016/j.envpol.2023.122505
193350|A||Nys,C., C.R. Janssen, R. Blust, E. Smolders, and K.A.C. De Schamphelaere|Reproductive Toxicity of Binary and Ternary Mixture Combinations of Nickel, Zinc, and Lead to Ceriodaphnia dubia is Best Predicted with the Independent Action Model|Environ. Toxicol. Chem.35(7): 1796-1805|2016|10.1002/etc.3332
193351|A||Leung,J., J.D.S. Witt, W. Norwood, and D.G. Dixon|Implications of Cu and Ni Toxicity in Two Members of the Hyalella azteca Cryptic Species Complex: Mortality, Growth, and Bioaccumulation Parameters|Environ. Toxicol. Chem.35(11): 2817-2826|2016|10.1002/etc.3457
193352|A||Mebane,C.A., T.S. Schmidt, J.L. Miller, and L.S. Balistrieri|Bioaccumulation and Toxicity of Cadmium, Copper, Nickel, and Zinc and Their Mixtures to Aquatic Insect Communities|Environ. Toxicol. Chem.39(4): 812-833|2020|10.1002/etc.4663
193353|A||Lari,E., P. Gauthier, E. Mohaddes, and G.G. Pyle|Interactive Toxicity of Ni, Zn, Cu, and Cd on Daphnia magna at Lethal and Sub-Lethal Concentrations|J. Hazard. Mater.334:21-28|2017|
193354|A||Leonard,E.M., and C.M. Wood|Acute Toxicity, Critical Body Residues, Michaelis-Menton Analysis of Bioaccumulation, and Ionoregulatory Disturbance in Response to Waterborne Nickel in Four Invertebrates: Chironomus riparius, Lymnaea stagnalis, Lumbri|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.158(1): 10-21|2013|10.1016/j.cbpc.2013.03.008.
193355|A||Schroeder,J.E., U. Borgmann, and D.G. Dixon|Evaluation of the Biotic Ligand Model to Predict Long-Term Toxicity of Nickel to Hyalella azteca|Environ. Toxicol. Chem.29(11): 2498-2504|2010|10.1002/etc.323
193356|A||Revathy,V., and K.C. Chitra|Di-Isononyl Phthalate (DINP) Impairs Reproduction in the Freshwater Fish, Oreochromis mossambicus (Peters 1852)|Asian Fish. Sci.31:284-296|2018|
193357|A||Godoi,F.G.A., I. Forner-Piquer, B. Randazzo, H.R. Habibi, F.L. Lo Nostro, R.G. Moreira, and O. Carnevali|Effects of Di-Isononyl Phthalate (DiNP) on Follicular Atresia in Zebrafish Ovary|Front. Endocrin.12:10 p.|2021|
193358|A||Xu,Y., J. Jang, and M.C. Gye|The Xenopus laevis Teratogenesis Assay for Developmental Toxicity of Phthalate Plasticizers and Alternatives|Environ. Pollut.300:11 p.|2022|
193359|T||Liu,X., L. Gao, X. Li, Y. Liu, X. Lou, M. Yang, and W. Wu|DEHP and DINP Accelerate Aging Effects in Male and Female of Drosophila melanogaster Depend on AKT/FOXO Pathway|Toxicol. In Vitro95:10 p.|2024|10.1016/j.tiv/2023.105742
193360|A||Tan,H., P. Gao, Y. Luo, X. Gou, P. Xia, P. Wang, L. Yan, S. Zhang, J. Guo, X. Zhang, H. Yu, and W. Shi|Are New Phthalate Ester Substitutes Safer than Traditional DBP and DiBP? Comparative Endocrine-Disrupting Analyses on Zebrafish Using In Vivo, Transcriptome, and In Silico Approaches|Environ. Sci. Technol.57:13744-13756|2023|10.1021/acs.est.3c03282
193361|T||Feng,S., H. Tan, S. Zhong, J. Ji, J. Yuan, Y. Lin, Q. Dong, X. Liu, Y. Wang, Q. Wang, R. Xu, Y. Zhong, and Q. Jiang|Developmental 6:2 FTCA Exposure Impairs Renal Development in Chicken Embryos via IGF Signaling|Ecotoxicol. Environ. Saf.282:10 p.|2024|
193362|A||Wu,L.Y., J.L. Zhang, M. Zeeshan, Y. Zhou, Y.T. Zhang, W.T. He, N. Jin, Y. Dai, W. Chi, Z. Ou, G.H. Dong, and L.Z. Lin|Caspase-8 Promotes NLRP3 Inflammasome Activation Mediates Eye Development Defects in Zebrafish Larvae Exposed to Perfluorooctane Sulfonate (PFOS)|Environ. Pollut.356:11 p.|2024|
193363|A||Revathy,V., and K.C. Chitra|Acute Exposure to Diisononyl Phthalate (DINP) Influenced Histopathological and Behavioural Modification on the Freshwater Fish, Oreochromis mossambicus (Peters, 1852)|Int. J. Res.2(4): 465-477|2015|
193364|T||Dey,P.K.|Protective Action of Lemon Juice and Ascorbic Acid Against Lethality and Convulsive Property of Strychnine|Naturwissenschaften52(7): 164-|1965|10.1007/BF00609286
193365|A||Iriel,A., M.G. Lagorio, and A. Fernandez Cirelli|Biosorption of Arsenic from Groundwater Using Vallisneria gigantea Plants. Kinetics, Equilibrium and Photophysical Considerations|Chemosphere138:383-389|2015|10.1016/j.chemosphere.2015.06.053
193366|A||Wu,H., X. Liu, X. Zhang, C. Ji, J. Zhao, and J. Yu|Proteomic and Metabolomic Responses of Clam Ruditapes philippinarum to Arsenic Exposure Under Different Salinities|Aquat. Toxicol.136/137:91-100|2013|10.1016/j.aquatox.2013.03.020
193367|A||Zhang,S.Y., G.X. Sun, X.X. Yin, C. Rensing, and Y.G. Zhu|Biomethylation and Volatilization of Arsenic by the Marine Microalgae Ostreococcus tauri|Chemosphere93(1): 47-53|2013|10.1016/j.chemosphere.2013.04.063
193368|A||Moradi,S., R. Yosefi, and O. Ghaderi|Bioconcentration Factor and Relative Growth Rate of Azolla (Azolla caroliniana) in Arsenic and Salinity Stress Conditions|Int. J. Agron. Plant Prod.4(10): 2617-2623|2013|
193369|A||Chen,G., X. Liu, J. Xu, P.C. Brookes, and J. Wu|Arsenic Species Uptake and Subcellular Distribution in Vallisneria natans (Lour.) Hara as Influenced by Aquatic pH|Bull. Environ. Contam. Toxicol.92(4): 478-482|2014|10.1007/s00128-013-1195-0
193370|A||Zhang,S., C. Rensing, and Y.G. Zhu|Cyanobacteria-Mediated Arsenic Redox Dynamics is Regulated by Phosphate in Aquatic Environments|Environ. Sci. Technol.48(2): 994-1000|2014|10.1021/es403836g
193371|A||Wang,S.Z., D.Y. Zhang, and X.L. Pan|Effects of Arsenic on Growth and Photosystem II (PSII) Activity of Microcystis aeruginosa|Ecotoxicol. Environ. Saf.84:104-111|2012|10.1016/j.ecoenv.2012.06.028
193372|A||Ji,C., H. Wu, X. Liu, J. Zhao, J. Yu, and X. Yin|The Influence of Salinity on Toxicological Effects of Arsenic in Digestive Gland of Clam Ruditapes philippinarum Using Metabolomics|Chin. J. Oceanol. Limnol.31(2): 345-352|2013|10.1007/s00343-013-2124-0
193373|T||Tsakireli,D., M. Vandenhole, P. Spiros A, M. Riga, V. Balabanidou, S. De Rouck, J. Ray, C. Zimmer, L. Talmann, T. Van L|The Cytochrome P450 Subfamilies CYP392A and CYP392D are Key Players in Acaricide Metabolism in Tetranychus urticae|Pestic. Biochem. Physiol.204:10 p.|2024|
193374|A||Xue,P., C. Yan, G. Sun, and Z. Luo|Arsenic Accumulation and Speciation in the Submerged Macrophyte Ceratophyllum demersum L.|Environ. Sci. Pollut. Res. Int.19(9): 3969-3976|2012|10.1007/s11356-012-0856-6
193375|A||Matsuto,S., H. Kasuga, H. Okumoto, and A. Takahashi|Accumulation of Arsenic in Blue-Green Alga, Phormidium sp.|Comp. Biochem. Physiol. C Comp. Pharmacol.78:377-382|1984|10.1016/0742-8413(84)90102-6
193376|A||Penrose,W.R., H.B.S. Conacher, R. Black, J.C. Meranger, W. Miles, H.M. Cunningham, and W.R. Squires|Implications of Inorganic/Organic Interconversion on Fluxes of Arsenic in Marine Food Webs|Environ. Health Perspect.19:53-59|1977|10.1289/ehp.771953
193377|A||Samal,A., G. Bhar, and S.C. Santra|Biological Process of Arsenic Removal Using Selected Microalgae|Indian J. Exp. Biol.42(5): 522-528|2004|
193378|A||Baumann,Z.A.|Bioavailability of Arsenic, Cadmium and Chromium for the Deposit-Feeding Polychaete Nereis succinea|Ph.D. Thesis, State University of New York at Stony Brook, NY:163 p.|2011|
193379|AT||Walliwalagedara Kiribnagage,C.H.|Proteomic Approaches to Elucidate Molecular Mechanisms of Metal Accumulation in Plants with Focus on Arsenic|Ph.D Thesis, Cleveland State University, Cleveland, OH:178 p.|2012|
193380|A||Mishra,S., H.J. Staerk, and H. Kuepper|A Different Sequence of Events than Previously Reported Leads to Arsenic-Induced Damage in Ceratophyllum demersum L.|Metallomics6(3): 444-454|2014|10.1039/C3MT00317E
193381|A||Baker,J.A.|Biotransformation of Arsenic and Chromium by a Freshwater Alga, Chlorella vulgaris|M.S. Thesis, Trent Univ., Canada:113 p.|2010|
193382|T||Schlipalius,D.I., N. Valmas, A.G. Tuck, R. Jagadeesan, L. Ma, R. Kaur, A. Goldinger, C. Anderson, J. Kuang, S. Zuryn, Y|A Core Metabolic Enzyme Mediates Resistance to Phosphine Gas|Science338(6108): 807-810|2012|10.1126/science.1224951
193383|A||Goswami,C., A. Majumder, A.K. Misra, and K. Bandyopadhyay|Arsenic Uptake by Lemna minor in Hydroponic System|Int. J. Phytoremediat.16:1221-1227|2014|10.1080/15226514.2013.821452
193384|A||Leao,G.A., J.A. Oliveira, F.S. Farnese, G.S. Gusman, and R.T.A. Felipe|Sulfur Metabolism: Different Tolerances of Two Aquatic Macrophytes Exposed to Arsenic|Ecotoxicol. Environ. Saf.105:36-42|2014|10.1016/j.ecoenv.2014.03.011
193385|A||Huang,W.J., C.C. Wu, and W.C. Chang|Bioaccumulation and Toxicity of Arsenic in Cyanobacteria Cultures Separated from a Eutrophic Reservoir|Environ. Monit. Assess.186:805-814|2014|10.1007/s10661-013-3418-6
193386|T||Radha,K., R.S. Chandel, and M. Vasu|Laboratory Evaluation of Some Insecticides Against Adults of Brahmina coriacea (Hope)|Indian J. Entomol.84(2): 377-379|2022|10.55446/IJE.2021.302
193387|T||Kamakshi,N., A.S.R. Sarma, and C.V.C.M. Reddy|Efficacy of Insecticides Against Sorghum Spotted Stem Borer Chilo partellus (Swinhoe)|Indian J. Entomol.84(3): 647-650|2022|10.55446/IJE.2021.52
193388|A||Chen,W.Y., and C.M. Liao|Dynamic Features of Ecophysiological Response of Freshwater Clam to Arsenic Revealed by BLM-Based Toxicological Model|Ecotoxicology19(6): 1074-1083|2010|10.1007/s10646-010-0489-9
193389|A||Srivastava,S., S. Mishra, S. Dwivedi, and R.D. Tripathi|Role of Thiol Metabolism in Arsenic Detoxification in Hydrilla verticillata (L.f.) Royle.|Water Air Soil Pollut.212(1-4): 155-165|2010|10.1007/s11270-010-0329-9
193390|A||Yin,X.X., Y.Y. Zhang, J. Yang, and Y.G. Zhu|Rapid Biotransformation of Arsenic by a Model Protozoan Tetrahymena thermophila|Environ. Pollut.159(4): 837-840|2011|10.1016/j.envpol.2010.12.033
193391|A||Zhang,X., Y. Hu, Y. Liu, and B. Chen|Arsenic Uptake, Accumulation and Phytofiltration by Duckweed (Spirodela polyrhiza L.)|J. Environ. Sci.23(4): 601-606|2011|10.1016/S1001-0742(10)60454-8
193392|A||Nasi,M., M.N. Piol, C. Di Risio, and N.R.V. Guerrero|Investigating Arsenic Bioavailability and Bioaccumulation by the Freshwater Oligochaete Lumbriculus variegatus|Arch. Environ. Contam. Toxicol.61(3): 426-434|2011|10.1007/s00244-010-9639-6
193393|A||Casado-Martinez,M.C., E. Duncan, B.D. Smith, W.A. Maher, and P.S. Rainbow|Arsenic Toxicity in a Sediment-Dwelling Polychaete: Detoxification and Arsenic Metabolism|Ecotoxicology21(2): 576-590|2012|10.1007/s10646-011-0818-7
193394|T||Qian,X., J. Huang, C. Yan, J. Xiao, X. Li, L. Wang, and Z. Wei|Comparison of Eco-Improvement on Constructed Wetlands with Nano Zero Valent Iron Introduction Under Different Levels of PFOA Stress: Perspectives on Plant, Microbe, and PFOA Removal|Sci. Total Environ.891:12 p.|2023|10.1016/j.scitotenv.2023.164052
193395|A||Halter,D., C. Casiot, H.J. Heipieper, F. Plewniak, M. Marchal, S. Simon, F. Arsene-Ploetze, and P.N. Bertin|Surface Properties and Intracellular Speciation Revealed an Original Adaptive Mechanism to Arsenic in the Acid Mine Drainage Bio-Indicator Euglena mutabilis|Appl. Microbiol. Biotechnol.93(4): 1735-1744|2012|10.1007/s00253-011-3493-y
193396|A||Rajkumar,J.S.I.|Reduced Glutathione and Acetylcholinesterase Expressions in Perna indica Exposed to Trivalent Arsenic|Int. J. Biol. Res.1(1): 1-4|2013|10.14419/ijbr.v1i1.703
193397|A||Iriel,A., G. Dundas, A.F. Cirelli, and M.G. Lagorio|Effect of Arsenic on Reflectance Spectra and Chlorophyll Fluorescence of Aquatic Plants|Chemosphere119:697-703|2015|10.1016/j.chemosphere.2014.07.066
193398|A||Nunes,S.M., M.E. Josende, C.P. Ruas, M.A. Gelesky, F.M.R. Da Silva, D. Fattorini, F. Regoli, J.M. Monserrat, and J. Ven|Biochemical Responses Induced by Co-Exposition to Arsenic and Titanium Dioxide Nanoparticles in the Estuarine Polychaete Laeonereis acuta|Toxicology376:51-58|2017|10.1016/j.tox.2016.05.013
193399|A||Coppola,F., A. Pires, C. Velez, A.M.V.M. Soares, E. Pereira, E. Figueira, and R. Freitas|Biochemical and Physiological Alterations Induced in Diopatra neapolitana After a Long-Term Exposure to Arsenic|Comp. Biochem. Physiol. C Toxicol. Pharmacol.189:1-9|2016|10.1016/j.cbpc.2016.06.006
193400|A||Zhang,X., M.K. Uroic, W.Y. Xie, Y.G. Zhu, B.D. Chen, S.P. Mcgrath, J. Feldmann, and F.J. Zhao|Phytochelatins Play a Key Role in Arsenic Accumulation and Tolerance in the Aquatic Macrophyte Wolffia globosa|Environ. Pollut.165:18-24|2012|10.1016/j.envpol.2012.02.009
193401|T||Walliwalagedara,C., I. Atkinson, H. Van Keulen, T. Cutright, and R. Wei|Differential Expression of Proteins Induced by Lead in the Dwarf Sunflower Helianthus annuus|Phytochemistry71(13): 1460-1465|2010|10.1016/j.phytochem.2010.05.018
193402|A||Wang,X.H., R.J. Qu, A.A. Allam, J. Ajarem, Z.B. Wei, and Z.Y. Wang|Impact of Carbon Nanotubes on the Toxicity of Inorganic Arsenic [As(III) and as(V)] to Daphnia magna:  The Role of Certain Arsenic Species|Environ. Toxicol. Chem.35(7): 1852-1859|2016|10.1002/etc.3340
193403|A||Walliwalagedara,C., H. Van Keulen, B. Willard, and R. Wei|Differential Proteome Analysis of Chlamydomonas reinhardtii Response to Arsenic Exposure|Am. J. Plant Sci.3:764-772|2012|10.4236/ajps.2012.36092
193404|T||Walliwalagedara,C., H. Van Keulen, T. Cutright, and R. Wei|Comparison of Sample Preparation Methods for the Resolution of Metal-Regulated Proteins in Helianthus Annuus by 2-Dimensional Gel-Electrophoresis|Open Prot. J.3(1): 20-25|2010|
193405|A||Aranguiz-Acuna,A., and M. Serra|Diapause as Escape Strategy to Exposure to Toxicants: Response of Brachionus calyciforus to Arsenic|Ecotoxicology25(4): 708-719|2016|10.1007/s10646-016-1629-7
193406|A||Rahman,M.A., Ben Hogan, E. Duncan, C. Doyle, M.M. Rahman, T.V. Nguyen, R.P. Lim, W. Maher, R. Naidu, R. Krassoi, S. Vig|Ecotoxicological Effects of an Arsenic Remediation Method on Three Freshwater Organisms-Lemna disperma, Chlorella sp. CE-35 and Ceriodaphnia cf. dubia|Water Air Soil Pollut.226(12): 10 p.|2015|10.1007/s11270-015-2668-z
193407|A||Islam,M.S., T. Saito, and M. Kurasaki|Phytofiltration of Arsenic and Cadmium by Using an Aquatic Plant, Micranthemum umbrosum:  Phytotoxicity, Uptake Kinetics, and Mechanism|Ecotoxicol. Environ. Saf.112:193-200|2015|10.1016/j.ecoenv.2014.11.006
193408|A||Yin,X.X., L.H. Wang, R. Bai, H. Huang, and G.X. Sun|Accumulation and Transformation of Arsenic in the Blue-Green Alga Synechocysis sp. PCC6803|Water Air Soil Pollut.223(3): 1183-1190|2012|10.1007/s11270-011-0936-0
193410|A||Wang,M., B. Song, T. Song, K. Sun, J. He, J. Deng, L. Fang, T. Luan, and L. Lin|Efflux Transport Proteins of Tetrahymena thermophila Play Important Roles in Resistance to Perfluorooctane Sulfonate Exposure|J. Hazard. Mater.459:9 p.|2023|
193412|T||Li,X., Z. Wang, Y. Ge, H. Sun, and L. Zhang|Comparative Stress Response Assessment of PFOS and Its Alternatives, F-53B and OBS, in Wheat: An Insight of Toxic Mechanisms and Relative Magnitude|Ecotoxicol. Environ. Saf.263:11 p.|2023|10.1016/j.ecoenv.2023.115333
193413|A||Yang,Q., L. Huang, N. Yang, H. Cui, Y. Zhao, Z. Li, and Y. Tong|Transgenerational Effects of Extracts Containing Microcystin-LR Exposure on Reproductive Toxicity and Offspring Growth Inhibition in a Model Organism Zebrafish|Aquat. Toxicol.268:11 p.|2024|
193414|A||Zhang,C., F. Wang, F. Bao, J. Zhu, J. Xu, and D. Lin|The Effects of Nanoplastics and Microcystin-LR Coexposure on Aristichthys nobilis at the Early Developmental Stages|Aquat. Toxicol.273:9 p.|2024|10.1016/j.aquatox.2024.107006
193415|A||Yang,Y., Q. Li, Y. Shen, R. Wei, Y. Lan, Q. Wang, N. Lei, and Y. Xie|Combined Toxic Effects of Perfluorooctanoic Acid and Microcystin-LR on Submerged Macrophytes and Biofilms|J. Hazard. Mater.459:10 p.|2023|10.1016/j.jhazmat.2023.132193
193416|A||Duan,Y., Y. Nan, Y. Yang, and Y. Xing|Toxic Effects of Three Variants of Microcystins on the Intestinal Histology, Physiological and Metabolic Response of Litopenaeus vannamei|Aquat. Toxicol.267:8 p.|2024|10.1016/j.aquatox.2023.106809
193417|A||Duan,Y., Y. Nan, M. Xiao, and Y. Yang|Toxicity of Three Microcystin Variants on the Histology, Physiological and Metabolism of Hepatopancreas and Intestinal Microbiota of Litopenaeus vannamei|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.280:11p.|2024|
193418|A||Haque,M.S., S.K. Roy, and M. Shahjahan|Arsenic Impairs the Effect of Low Temperature on the Regulation of Na+-K+ ATPase Activity in Skeletal Muscle of Fish (Channa punctata)|Turk. J. Fish. Aquat. Sci.11:339-344|2011|10.4194/1303-2712-v11_3_01
193419|A||Guo,X.C., S.Y. Lu, S.N. Zhang, P. Xie, G.Y. Li, Z.Q. Shi, Y.T. Zhou, and Y.M. Wang|Combined Inhibitory Effects of Microcystin-LR and Microcystin-RR on Growth and Development in Zebrafish Larvae|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.277:8 p.|2024|
193420|T||Bartlet,A.L.|Actions of Putative Transmitters in the Chicken Vagus Nerve/Oesophagus and Remak Nerve/Rectum Preparations|Br. J. Pharmacol.51(4): 549-558|1974|10.1111/j.1476-5381.1974.tb09673.x
193421|A||Biswas,C., M. Adhikari, and K. Pramanick|Toxicological Effects of Nodularin on the Reproductive Endocrine System of Female Zebrafish (Danio rerio)|Aquat. Toxicol.273:10 p.|2024|
193422|A||Li,J., X. Chang, S. Zhao, Y. Zhang, Q. Pu, Y. Wang, and J.J. Li|Exudates of Microcystis aeruginosa on Oxidative Stress and Inflammatory Responses in Gills of Sinocyclocheilus grahami|Ecotoxicol. Environ. Saf.280:11 p.|2024|10.1016/j.ecoenv.2024.116587
193423|A||Ali,D.W., R.R. Buss, and P. Drapeau|Properties of Miniature Glutamatergic EPSCs in Neurons of the Locomotor Regions of the Developing Zebrafish|J. Neurophysiol.83(1): 181-191|2000|10.1152/jn.2000.83.1.181
193424|A||Ali,D.W., P. Drapeau, and P. Legendre|Development of Spontaneous Glycinergic Currents in the Mauthner Neuron of the Zebrafish Embryo|J. Neurophysiol.84(4): 1726-1736|2000|10.1152/jn.2000.84.4.1726
193425|T||Bartlet,A.L.|Myogenic Peristalsis in Isolated Preparations of Chicken Oesophagus|Br. J. Pharmacol.48(1): 36-47|1973|10.1111/j.1476-5381.1973.tb08220.x
193426|A||Moulding,B.J.G., G.K.K. King, M. Shenton, J.P. Bray, S.J. Nichols, and B. Kefford|Assessing the Relative Toxicity of Different Road Salts and Effect of Temperature on Salinity Toxicity: LCx Values Versus No-Effect Concentration (NEC) Values|Arch. Environ. Contam. Toxicol.82(2): 281-293|2022|10.1007/s00244-021-00908-1
193427|A||Wang,S., Y. Song, L. Luo, R. Zhang, K. Guo, and Z. Zhao|Untargeted LC-MS Metabolomics Reveals the Metabolic Responses in the Eriocheir sinensis Gills Exposed to Salinity and Alkalinity Stress|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.281:9 p.|2024|
193428|A||De Souza,T.D., A.C. Borges, A.F. Braga, R.W. Veloso, and A.T. De Matos|Phytoremediation of Arsenic-Contaminated Water by Lemna valdiviana: An Optimization Study|Chemosphere234:402-408|2019|10.1016/j.chemosphere.2019.06.004
193429|A||Krayem,M., V. Deluchat, P. Hourdin, and P. Labrousse|Are Myriophyllum alterniflorum Biomarker Responses to Arsenic Stress Differentially Affected by Hydrodynamic Conditions?|Chemosphere225:497-506|2019|10.1016/j.chemosphere.2019.03.065
193430|A||Mishra,S., M. Alfeld, R. Sobotka, E. Andresen, G. Falkenberg, and H. Kupper|Analysis of Sublethal Arsenic Toxicity to Ceratophyllum demersum: Subcellular Distribution of Arsenic and Inhibition of Chlorophyll Biosynthesis|J. Exp. Bot.67(15): 4639-4646|2016|10.1093/jxb/erw238
193431|T||Delor,L., M. Louzon, C. Pelosi, E. Michel, G. Maillet, and H. Carronnier|Ecotoxicity of Single and Mixture of Perfluoroalkyl Substances (PFOS and PFOA) in Soils to the Earthworm Aporrectodea caliginosa|Environ. Pollut.335:10 p.|2023|10.1016/j.envpol.2023.122221
193432|T||Currie,S.D., J.P. Doherty, K.S. Xue, J.S. Wang, and L. Tang|The Stage-Specific Toxicity of Per- and Polyfluoroalkyl Substances (PFAS) in Nematode Caenorhabditis elegans|Environ. Pollut.336:10 p.|2023|10.1016/j.envpol.2023.122429
193433|A||U.S. Environmental Protection Agency|Final Report on Acute and Chronic Toxicity of Nitrate, Nitrite, Boron, Manganese, Fluoride, Chloride, and Sulfate to Several Aquatic Animal Species|EP-C-09-001, U.S. EPA, Chicago, IL:174 p.|2010|
193434|A||Zhang,T., L. Zhu, Y. Sun, L. Yang, S. Yi, and W. Zhong|Novel Insights on 6:6 Perfluoroalkyl Phosphonic Acid-Induced Melanin Synthesis Disorders Leading to Pigmentation in Tadpoles|Environ. Sci. Technol.57(30): 11032-11042|2023|10.1021/acs.est.3c02920
193435|A||Hoskins,T.D., R.W. Flynn, G.S.M. Coogan, A.C. Catlin, C. De Perre, M. Modiri Gharehveran, Y.J. Choi, L.S. Lee, J.T. Hov|Chronic Exposure to a PFAS Mixture Resembling AFFF-Impacted Surface Water Decreases Body Size in Northern Leopard Frogs (Rana pipiens)|Environ. Sci. Technol.:10 p.|2023|10.1021/acs.est.3c01118
193436|T||Abad,L.R., M.P. D'Urzo, D. Liu, M.L. Narasimhan, M. Reuveni, J.K. Zhu, X. Niu, N.K. Singh, P.M. Hasegawa, and R.A. Bres|Antifungal Activity of Tobacco Osmotin has Specificity and Involves Plasma Membrane Permeabilization|Plant Sci.118(1): 11-23|1996|10.1016/0168-9452(96)04420-2
193437|A||Coppola,F.,  Almeida, B. Henriques, A.M.V.M. Soares, E. Figueira, E. Pereira, and R. Freitas|Biochemical Responses and Accumulation Patterns of Mytilus galloprovincialis Exposed to Thermal Stress and Arsenic Contamination|Ecotoxicol. Environ. Saf.147:954-962|2018|10.1016/j.ecoenv.2017.09.051
193438|A||Zheng,W., Z.Y. Zhong, H.B. Wang, H.J. Wang, and D.M. Wu|Effects of Oxalic Acid on Arsenic Uptake and the Physiological Responses of Hydrilla verticillata Exposed to Different Forms of Arsenic|Bull. Environ. Contam. Toxicol.100(5): 653-658|2018|10.1007/s00128-018-2304-x
193439|A||Al Mamun,M.A., I.M.M. Rahman, R.R. Datta, C. Kosugi, A.S. Mashio, T. Maki, and H. Hasegawa|Arsenic Speciation and Biotransformation by the Marine Macroalga Undaria pinnatifida in Seawater: A Culture Medium Study|Chemosphere222:705-713|2019|10.1016/j.chemosphere.2019.01.185
193440|A||De Souza,T.D., A.C. Borges, A.T. De Matos, R.W. Veloso, and A.F. Braga|Kinetics of Arsenic Absorption by the Species Eichhornia crassipes and Lemna valdiviana Under Optimized Conditions|Chemosphere209:866-874|2018|10.1016/j.chemosphere.2018.06.132
193441|AT||Taleei,M.M., N.K. Ghomi, and S.A. Jozi|Arsenic Removal of Contaminated Soils by Phytoremediation of Vetiver Grass, Chara Algae and Water Hyacinth|Bull. Environ. Contam. Toxicol.102(1): 134-139|2019|10.1007/s00128-018-2495-1
193442|A||Chen,G., T. Feng, Z. Li, Z. Chen, Y. Chen, H. Wang, and Y. Xiang|Influence of Sulfur on the Arsenic Phytoremediation Using Vallisneria natans (Lour.) Hara|Bull. Environ. Contam. Toxicol.99(3): 411-414|2017|10.1007/s00128-017-2135-1
193444|A||Kumar,R., and T.K. Banerjee|Arsenic Induced Hematological and Biochemical Responses in Nutritionally Important Catfish Clarias batrachus (L.)|Toxicol. Rep.3:148-152|2016|10.1016/j.toxrep.2016.01.001
193445|A||Ray,A., A. Bhaduri, N. Srivastava, and S. Mazumder|Identification of Novel Signature Genes Attesting Arsenic-Induced Immune Alterations in Adult Zebrafish (Danio rerio)|J. Hazard. Mater.321:121-131|2017|10.1016/j.jhazmat.2016.09.001
193446|A||Haque,M.S., and S.K. Roy|Cross Talk Between Arsenic and Cold on the Regulation of Inorganic Phosphate Level in Peripheral Tissues of Fresh Water Fishes (Channa punctata)|J. Saudi Soc. Agric. Sci.12:1-7|2013|10.1016/j.jssas.2012.04.001
193447|A||Kim,J.H., and J.C. Kang|The Arsenic Accumulation and Its Effect on Oxidative Stress Responses in Juvenile Rockfish, Sebastes Schlegelii, Exposed to Waterborne Arsenic (As3+)|Environ. Toxicol. Pharmacol.39:668-676|2015|10.1016/j.etap.2015.01.012
193448|A||Kim,J.H., and J.C. Kang|The Immune Responses and Expression of Metallothionein (MT) Gene and Heat Shock Protein 70 (HSP 70) in Juvenile Rockfish, Sebastes schlegelii, Exposed to Waterborne Arsenic (As3+)|Environ. Toxicol. Pharmacol.47:136-141|2016|10.1016/j.etap.2016.09.018
193449|A||National Institute of Technology and Evaluation|Acute Toxicity Study of Dicyclohexyl Phthalate on Japanese Medaka (Oryzias latipes) (Translation) |Report Number 9B503G, Japanese Ministry of the Environment:44 p.|2000|
193450|A||Chen,L., X. Lin, S. Shi, M. Li, M. Mortimer, W. Fang, F. Li, and L.H. Guo|Activation of Estrogen-Related Receptor: An Alternative Mechanism of Hexafluoropropylene Oxide Homologs Estrogenic Effects|Sci. Total Environ.901:12 p.|2023|10.1016/j.scitotenv.2023.166257
193451|A||Gui,W., H. Guo, C. Wang, M. Li, Y. Jin, K. Zhang, J. Dai, and Y. Zhao|Comparative Developmental Toxicities of Zebrafish Towards Structurally Diverse Per- and Polyfluoroalkyl Substances|Sci. Total Environ.902:8 p.|2023|10.1016/j.scitotenv.2023.166569
193452|A||National Institute of Technology and Evaluation|Dicyclohexyl Phthalate: Reproduction Inhibition Test for Daphnia magna (Translation)|Report Number 9B481G, Japanese Ministry of the Environment:57 p.|2000|
193453|A||Li,Q., Y. Xiao, W. Zhang, S. Li, J. Liu, Y. Yu, Y. Wen, Y. Zhang, N. Lei, and Q. Wang|Single and Combined Toxicity Effects of Microplastics and Perfluorooctanoic Acid on Submerged Macrophytes and Biofilms|Sci. Total Environ.897:9 p.|2023|10.1016/j.scitotenv.2023.165370
193454|A||National Institute of Technology and Evaluation|Acute Inhibition Test of Dicyclohexyl Phthalate on Daphnia magna (Translation)|Report Number 9B459G, Japanese Ministry of the Environment:37 p.|2000|
193455|A||Yang,D., X. Li, S. Dong, X. Zhao, M. Zhang, Y. Shi, and G. Ding|Developmental Toxicity and Cardiotoxicity Induced by PFOS and Its Novel Alternative OBS in Early Life Stage of Zebrafish (Danio rerio)|Water Air Soil Pollut.234(7): 13 p.|2023|10.1007/s11270-023-06512-4
193456|A||National Institute of Technology and Evaluation|Growth Inhibition Test of Dicyclohexyl Phthalate on Algae (Selenastrum capricornutum) (Translation)|Report Number 9B437G, Japanese Ministry of the Environment:41 p.|2000|
193457|A||Moreira,A., E. Figueira, N.C. Mestre, D. Schrama, A. Soares, R. Freitas, and M.J. Bebianno|Impacts of the Combined Exposure to Seawater Acidification and Arsenic on the Proteome of Crassostrea angulata and Crassostrea gigas|Aquat. Toxicol.203:117-129|2018|10.1016/j.aquatox.2018.07.021
193458|A||Chen,L., H. Wu, J. Zhao, W. Zhang, L. Zhang, S. Sun, D. Yang, B. Cheng, and Q. Wang|The Role of GST Omega in Metabolism and Detoxification of Arsenic in Clam Ruditapes philippinarum|Aquat. Toxicol.204:9-18|2018|10.1016/j.aquatox.2018.08.016
193459|A||Bhattacharya,P., and R. Pal|Response of Cyanobacteria to Arsenic Toxicity|J. Appl. Phycol.20:293-299|2008|10.1007/s10811-010-9617-4
193460|A||Kang,H.M., E. Byeon, H. Jeong, Y. Lee, U.K. Hwang, C.B. Jeong, C. Yoon, and J.S. Lee|Arsenic Exposure Combined with Nano- or Microplastic Induces Different Effects in the Marine Rotifer Brachionus plicatilis|Aquat. Toxicol.233:9 p.|2021|10.1016/j.aquatox.2021.105772
193461|A||Zhang,W., L. Zhang, and W.X. Wang|Prey-Specific Determination of Arsenic Bioaccumulation and Transformation in a Marine Benthic Fish|Sci. Total Environ.586:296-303|2017|10.1016/j.scitotenv.2017.01.222
193463|A||Jamwal,A., Y. Saibu, T.C. MacDonald, G.N. George, and S. Niyogi|The Effects of Dietary Selenomethionine on Tissue-Specific Accumulation and Toxicity of Dietary Arsenite in Rainbow Trout (Oncorhynchus mykiss) During Chronic Exposure|Metallomics11(3): 643-655|2019|10.1039/c8mt00309b
193464|A||Wang,X.Y., L.P. Liu, D.Y. Liang, S.Z. Chen, and W.H. Fan|Influence of Humic Acid on Oxidative Stress Induced by Arsenite and Arsenate Waterborne Exposure in Danio rerio|Bull. Environ. Contam. Toxicol.106(5): 786-791|2021|10.1007/s00128-021-03197-5
193465|A||Guo,M.H., Y. Wang, H.J. Zhao, D.X. Wang, K. Yin, Y.C. Liu, B.Y. Li, and M.W. Xing|Zinc Antagonizes Common Carp (Cyprinus carpio) Intestinal Arsenic Poisoning through PI3K/AKT/mTOR Signaling Cascade and MAPK Pathway|Aquat. Toxicol.240:9 p.|2021|10.1016/j.aquatox.2021.105986
193466|A||Wang,W.J., Y. Zhang, X.R. Geng, H. Li, X.H. Wang, Y.Z. Zhang, and H.J. Zhao|Zinc Attenuates Arsenic Overdose-Induced Brain Damage via PERK/ATF6 and TLR/MyD88/NF-kappa B Pathways|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.276:9 p.|2024|
193467|A||Doig,L.E.|Influence of Organic Matter on the Bioavailability and Toxicity of Nickel to the Amphipod Hyalella azteca|Ph.D. Thesis, University of Saskatchewan, Saskatoon, SK, Canada:284 p.|2004|
193468|A||Lobo,H., L. Mendez-Fernandez, M. Martinez-Madrid, P. Rodriguez, M.A. Daam, and E.L.G. Espindola|Bioaccumulation and Chronic Toxicity of Arsenic and Zinc in the Aquatic Oligochaetes Branchiura sowerbyi and Tubifex tubifex (Annelida, Clitellata)|Aquat. Toxicol.239:10 p.|2021|10.1016/j.aquatox.2021.105955
193469|A||Lown,L., J.E. Vernaz, S.M. Dunham-Cheatham, M.S. Gustin, and S.R. Hiibel|Phase Partitioning of Mercury, Arsenic, Selenium, and Cadmium in Chlamydomonas reinhardtii and Arthrospira maxima Microcosms|Environ. Pollut.329:9 p.|2023|10.1016/j.envpol.2023.121679
193470|A||Bi,X.Y., M.X. Qiu, D.N. Li, Y.J. Zhang, W.H. Zhan, Z.X. Wang, Z.W. Lv, H.S. Li, and G.K. Chen|Transcriptomic and Metabolomic Analysis of the Mechanisms Underlying Stress Responses of the Freshwater Snail, Pomacea canaliculata, Exposed to Different Levels of Arsenic|Aquat. Toxicol.267:10 p.|2024|10.1016/j.aquatox.2024.106835
193471|A||Kim,J., C. Lee, S.M. Lee, Lalhmunsiama, and J. Jung|Chemical and Toxicological Assessment of Arsenic Sorption onto Fe-Sericite Composite Powder and Beads|Ecotoxicol. Environ. Saf.147:80-85|2018|10.1016/j.ecoenv.2017.08.033
193472|A||Yang,F., L. Zeng, Z. Luo, Z. Wang, F. Huang, Q. Wang, D. Drobne, and C. Yan|Complex Role of Titanium Dioxide Nanoparticles in the Trophic Transfer of Arsenic from Nannochloropsis Maritima to Artemia salina Nauplii|Aquat. Toxicol.198:231-239|2018|10.1016/j.aquatox.2018.03.009
193473|A||Lee,M.C., M.J.H. Libatique, and S.Y. Yeh|The Effect of Environmental Factors on Total Arsenic Accumulation in Sarcodia suiae, Rhodophyta|Bull. Environ. Contam. Toxicol.102(3): 385-390|2019|10.1007/s00128-018-2520-4
193474|A||Krayem,M., M. Baydoun, V. Deluchat, J.F. Lenain, V. Kazpard, and P. Labrousse|Absorption and Translocation of Copper and Arsenic in an Aquatic Macrophyte Myriophyllum alterniflorum Dc. in Oligotrophic and Eutrophic Conditions|Environ. Sci. Pollut. Res.23:11129-11136|2016|10.1007/s11356-016-6289-x
193475|A||Libatique,M.J.H., M.C. Lee, H.Y. Yeh, and F.J. Jhang|Total and Inorganic Arsenic Biosorption by Sarcodia suiae (Rhodophyta), as Affected by Controlled Environmental Conditions|Chemosphere248:10 p.|2020|10.1016/j.chemosphere.2020.126084
193476|A||Li,B., B. Gu, Z. Yang, and T. Zhang|The Role of Submerged Macrophytes in Phytoremediation of Arsenic from Contaminated Water: A Case Study on Vallisneria natans (Lour.) Hara|Ecotoxicol. Environ. Saf.165:224-231|2018|10.1016/j.ecoenv.2018.09.023
193477|A||Naveed,S., Q.N. Yu, C.H. Zhang, and Y. Ge|Extracellular Polymeric Substances Alter Cell Surface Properties, Toxicity, and Accumulation of Arsenic in Synechocystis PCC6803|Environ. Pollut.261:12 p.|2020|10.1016/j.envpol.2020.114233
193478|A||Augspurger,T.P., N. Wang, J.L. Kunz, and C.G. Ingersoll|Pollutant Sensitivity of the Endangered Tar River Spinymussel as Assessed by Single Chemical and Effluent Toxicity Tests|U.S. Fish and Wildlife Service, Ecological Services, Raleigh, NC:46 p.|2014|
193479|A||Wesner,J.S., J.M. Kraus, T.S. Schmidt, D.M. Walters, and W.H. Clements|Metamorphosis Enhances the Effects of Metal Exposure on the Mayfly, Centroptilum triangulifer|Environ. Sci. Technol.48(17): 10415-10422|2014|10.1021/es501914y
193480|A||Diedrich,D.J., R.M. Sofield, J.F. Ranville, D.J. Hoff, V.D. Wall, and S.F. Brinkman|The Effects of Chronological Age and Size on Toxicity of Zinc to Juvenile Brown Trout|Arch. Environ. Contam. Toxicol.69(1): 123-131|2015|10.1007/s00244-015-0151-x
193481|A||Feng,G., Z. Yao, X. Shi, L. Zhang, and P. Zhuang|Copper and Zinc Toxicity Estimates for Juvenile Chinese Sturgeon Acipenser sinensis in the Yangtze River Estuary|Int. J. Agric. Biol.19(3): 539-544|2017|10.17957/IJAB/15.0332
193482|A||Klimek,B., E. Fialkowska, W. Kocerba-Soroka, J. Fyda, M. Sobczyk, and A. Pajdak-Stos|The Toxicity of Selected Trace Metals to Lecane inermis Rotifers Isolated from Activated Sludge|Bull. Environ. Contam. Toxicol.91(3): 330-333|2013|10.1007/s00128-013-1062-z
193483|A||Poynton,H.C., C. Chen, S.L. Alexander, K.M. Major, B.J. Blalock, and J.M. Unrine|Enhanced Toxicity of Environmentally Transformed ZnO Nanoparticles Relative to Zn Ions in the Epibenthic Amphipod Hyalella azteca|Environ. Sci. Nano6(1): 325-340|2019|10.1039/c8en00755a
193484|A||Davies,P.H., S. Brinkman, and D. Hansen|Water Pollution Studies|Federal Aid Project F-243R-10. Colorado Division of Wildlife, Fort Collins, CO:51p.|2003|
193485|A||Kallqvist,T., B.O. Rosseland, S. Hytterod, and T. Kristensen|Effect of Zinc on the Early Life Stages of Brown Trout (Salmo trutta) at Different Levels of Water Hardness|Norwegian Institute for Water Research, Oslo, Norway:35 p.|2003|
193486|A||Jasrotia,S., A. Kansal, and A. Mehra|Performance of Aquatic Plant Species for Phytoremediation of Arsenic-Contaminated Water|Appl. Water Sci.7:889-896|2017|10.1007/s13201-015-0300-4
193487|A||Deng,J., X. Zeng, C. He, D. Zhong, Y. Wu, N. Liu, T. Luan, and Y. Yang|Exploring the Accumulation Behavior and Heterogeneity of Perfluorooctanesulfonic Acid in Zebrafish Primary Organ Cells by Single-Cell Mass Cytometry|Anal. Chem.95(37): 13750-13755|2023|10.1021/acs.analchem.3c02398
193488|A||Chakraborty,S., M. Ray, and S. Ray|Arsenic Toxicity: A Heart-Breaking Saga of a Freshwater Mollusc|Tissue Cell44:151-155|2012|10.1016/j.tice.2012.01.004
193489|A||Papry,R.I., S. Fujisawa, Y. Zai, O. Akhyar, A.S. Mashio, and H. Hasegawa|Freshwater Phytoplankton: Salinity Stress on Arsenic Biotransformation|Environ. Pollut.270:10 p.|2021|10.1016/j.envpol.2020.116090
193490|A||Wu,L., J. Gu, X. Duan, F. Ge, H. Ye, L. Kong, W. Liu, R. Gao, J. Jiao, H. Chen, and G. Ji|Insight into the Mechanisms of Neuroendocrine Toxicity Induced by 6:2FTCA via Thyroid Hormone Disruption|Chemosphere341:11 p.|2023|10.1016/j.chemosphere.2023.140031
193491|A||Wang,Q., Y. Liu, M. Zhang, S. Liu, N. Wan, M. Li, and W. Tu|Novel PFOS Alternative OBS Inhibits Body Growth of Developing Zebrafish by Triggering Thyroid Function Disorder and Osteoclast Differentiation|Chemosphere341:10 p.|2023|10.1016/j.chemosphere.2023.140068
193492|A||Poonam, M.K. Upadhyay, A. Gautam, S. Mallick, and S. Srivastava|A Successive Application Approach for Effective Utilization of Three Aquatic Plants in Arsenic Removal|Water Air Soil Pollut.228:7 p.|2017|10.1007/s11270-016-3238-8
193493|A||Srivastava,S., S. Sounderajan, A. Udas, and P. Suprasanna|Effect of Combinations of Aquatic Plants (Hydrilla, Ceratophyllum, Eichhornia, Lemna and Wolffia) on Arsenic Removal in Field Conditions|Ecol. Eng.73:297-301|2014|10.1016/j.ecoleng.2014.09.029
193494|A||Zhao,R., C.T. Xie, Y. Xu, D.H. Ji, C.S. Chen, J. Ye, X.M. Xue, and W.L. Wang|The Response of Pyropia haitanensis to Inorganic Arsenic Under Laboratory Culture|Chemosphere261:10 p.|2020|
193495|A||Chen,G., X. Liu, P.C. Brookes, and J. Xu|Opportunities for Phytoremediation and Bioindication of Arsenic Contaminated Water Using a Submerged Aquatic Plant: Vallisneria natans (Lour.) Hara|Int. J. Phytoremediat.17(3): 249-255|2015|10.1080/15226514.2014.883496
193496|A||Czub,M., J. Nawala, S. Popiel, T. Brzezinski, P. Maszczyk, H. Sanderson, E. Maser, D. Gordon, D. Dziedzic, B. Dawidziuk|Acute Aquatic Toxicity of Arsenic-Based Chemical Warfare Agents to Daphnia magna|Aquat. Toxicol.230:11 p.|2021|10.1016/j.aquatox.2020.105693
193497|A||Hampton,T.H., C. Jackson, D. Jung, C.Y. Chen, S.P. Glaholt, B.A. Stanton, J.K. Colbourne, and J.R. Shaw|Arsenic Reduces Gene Expression Response to Changing Salinity in Killifish|Environ. Sci. Technol.52:8811-8821|2018|10.1021/acs.est.8b01550
193498|A||Brustein,E., N. Marandi, Y. Kovalchuk, P. Drapeau, and A. Konnerth|"""In Vivo"" Monitoring of Neuronal Network Activity in Zebrafish by Two-Photon Ca(2+) Imaging"|Pflug. Arch. Eur. J. Phy.446(6): 766-773|2003|10.1007/s00424-003-1138-4
193499|A||Graff,I.E., R. Waagbo, S. Fivelstad, C. Vermeer, O. Lie, and A.K. Lundebye|A Multivariate Study on the Effects of Dietary Vitamin K, Vitamin D3 and Calcium, and Dissolved Carbon Dioxide on Growth, Bone Minerals, Vitamin Status and Health Performance in Smolting Atlantic Salmon Salmo salar L|J. Fish Dis.25(10): 599-614|2002|10.1046/j.1365-2761.2002.00403.x
193500|A||Kumar,N., S.T. Thorat, A. Gite, and P.B. Patole|Selenium Nanoparticles and Omega-3 Fatty Acid Enhanced Thermal Tolerance in Fish Against Arsenic and High Temperature|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.261:12 p.|2022|10.1016/j.cbpc.2022.109447
193501|A||Liu,S., X. Li, X. Wang, X. Bu, E. Li, M. Zhang, C. Qin, J.G. Qin, and L. Chen|Molting, Tissue Calcium-Phosphorus Deposition and Immunity of Juvenile Chinese Mitten Crab (Eriocheir sinensis) Fed Different Levels of Calcium and Vitamin D3|Aquaculture554:11 p.|2022|10.1016/j.aquaculture.2022.738124
193502|A||O'Connell,J.P., and D.M. Gatlin|Effects of Dietary Calcium and Vitamin D3 on Weight Gain and Mineral Composition of the Blue Tilapia (Oreochromis aureus) in Low-Calcium Water|Aquaculture125(1-2): 107-117|1994|10.1016/0044-8486(94)90287-9
193503|A||Lebordais,M., J.M. Gutierrez-Villagomez, J. Gigault, M. Baudrimont, and V.S. Langlois|Molecular Impacts of Dietary Exposure to Nanoplastics Combined with Arsenic in Canadian Oysters (Crassostrea virginica) and Bioaccumulation Comparison with Caribbean Oysters (Isognomon alatus)|Chemosphere277:14 p.|2021|10.1016/j.chemosphere.2021.130331
193504|A||Huang,S.X., Q. Jiang, Y.F. Ding, F.J. Wang, and C. Zhu|Arsenic Contents and Speciation at Different Growth Stages of Sargassum fusiforme [Harv.] Setchell (Hijiki), an Edible Seaweed|Appl. Ecol. Environ. Res.18(1): 1941-1952|2020|10.15666/aeer/1801_19411952
193505|A||Llaneza,V., I. Rodea-Palomares, Z. Zhou, R. Rosal, F. Fernandez-Pinas, and J.C.J. Bonzongo|Polyvinylpyrrolidone and Arsenic-Induced Changes in Biological Responses of Model Aquatic Organisms Exposed to Iron-Based Nanoparticles|J. Nanopart. Res.18:1-12|2016|10.1007/s11051-015-3308-7
193506|A||Bai,Y., Q. Wang, J. Li, B. Zhou, P.K.S. Lam, C. Hu, and L. Chen|Significant Variability in the Developmental Toxicity of Representative Perfluoroalkyl Acids as a Function of Chemical Speciation|Environ. Sci. Technol.57(40): 14904-14916|2023|10.1021/acs.est.3c06178
193507|A||Li,Q., J. Jiang, Y. Lan, S. Kang, Y. Yang, and J. Zhang|Combined Toxic Effects of Polypropylene and Perfluorooctanoic Acid on Duckweed and Periphytic Microorganisms|Environ. Sci. Pollut. Res. Int.30:108606-108616|2023|10.1007/s11356-023-30006-9
193508|A||da-Silva,C.J., R.A. Canatto, A.A. Cardoso, C. Ribeiro, and J.A. Oliveira|Arsenic-Hyperaccumulation and Antioxidant System in the Aquatic Macrophyte Spirodela intermedia W. Koch (Lemnaceae)|Theor. Exp. Plant Physiol.29:203-213|2017|10.1007/s40626-017-0096-8
193509|A||Singh,M., Y. Verma, and S.V.S. Rana|Genotoxic Effects Induced by Arsenic, Cadmium, Chromium and Nickel in Peripheral Erythrocytes of a Fish, Channa punctatus|Cancer Med.7:37-38|2018|
193510|A||Townsend,L.S., N. Dejbod, W. Cullen, and D. Mandoli|Acetabularia acetabulum: A Novel Model for Arsenic Toxicity|Dev. Biol.235:245-246|2001|
193511|A||Wang,Y., H.J. Zhao, M.Y. Mu, M.H. Guo, and M.W. Xing|Zinc Offers Splenic Protection Through Suppressing PERK/IRE1-Driven Apoptosis Pathway in Common Carp (Cyprinus carpio) Under Arsenic Stress|Ecotoxicol. Environ. Saf.208:9 p.|2021|
193514|A||Jiao,X., Z.Y. Guo, B.L. Liu, L.T. Wang, Z.N. Yang, Y.R. Yang, A.D. Qian, and Y.H. Li|Toxic Effects of Perfluorocaproic Acid (PFHxA) on Crucian Carp (Carassius auratus) and the Response of the Intestinal Microbial Community|Comp. Biochem. Physiol. C Toxicol. Pharmacol.271:17 p.|2023|10.1016/j.cbpc.2023.109683
193515|A||Lech,M.E., Y.J. Choi, L.S. Lee, M.S. Sepulveda, and J.T. Hoverman|Assessing the Combined Effects of Host and Parasite Exposure to Forever Chemicals in an Amphibian-Echinostome System|Environ. Toxicol. Chem.43(7): 1537-1546|2024|10.1002/etc.5877
193516|A||Liu,M., S. Yi, H. Yu, T. Zhang, F. Dong, and L. Zhu|Underlying Mechanisms for the Sex- and Chemical-Specific Hepatotoxicity of Perfluoroalkyl Phosphinic Acids in Common Carp (Cyprinus carpio)|Environ. Sci. Technol.57(39): 14515-14525|2023|10.1021/acs.est.3c04964
193517|T||Narizzano,A.M., M.E. Bohannon, A.G. East, B.A. Guigni, and M.J.,Jr. Quinn|Reproductive and Immune Effects Emerge at Similar Thresholds of PFHxS in Deer Mice|Reprod. Toxicol.120:8 p.|2023|10.1016/j.reprotox.2023.108421
193518|T||Sonter,C.A., M. Tighe, R. Rader, and S.C. Wilson|Can Bees Detect Perfluorooctane Sulfonate (PFOS)?|Environ. Toxicol. Chem.43(7): 1638-1647|2024|10.1002/etc.5881
193519|A||Wu,H., W. Zhang, X. Huang, P. Gu, Q. Li, X. Luo, and Z. Zheng|Phosphorus Conditions Change the Cellular Responses of Microcystis aeruginosa to Perfluorooctanoic Acid|Sci. Total Environ.903:12 p.|2023|10.1016/j.scitotenv.2023.166707
193520|A||Xuan,R., X. Qiu, J. Wang, S. Liu, J.T. Magnuson, B. Xu, W. Qiu, and C. Zheng|Hepatotoxic Response of Perfluorooctane Sulfonamide (PFOSA) in Early Life Stage Zebrafish (Danio rerio) is Greater than Perfluorooctane Sulfonate (PFOS)|J. Hazard. Mater.461:10 p.|2024|10.1016/j.jhazmat.2023.132552
193521|A||Yang,D., F. Li, X. Zhao, S. Dong, G. Song, H. Wang, X. Li, and G. Ding|Hexafluoropropylene Oxide Trimer Acid (HFPO-TA) Disrupts Sex Differentiation of Zebrafish (Danio rerio) via an Epigenetic Mechanism of DNA Methylation|Aquat. Toxicol.275:11 p.|2024|10.1016/j.aquatox.2024.107077
193522|A||Yao,D., J. Shao, D. Jia, and W. Sun|Immunotoxicity of Legacy and Alternative Per- and Polyfluoroalkyl Substances on Zebrafish Larvae? |Environ. Pollut.358:10 p.|2024|10.1016/j.envpol.2024.124511
193523|A||Zhang,W., Q. Li, Y. Yang, Y. Yu, S. Li, J. Liu, Y. Xiao, Y. Wen, Q. Wang, N. Lei, and P. Gu|Joint Toxicity Mechanisms of Perfluorooctanoic Acid and Sulfadiazine on Submerged Macrophytes and Periphytic Biofilms|J. Hazard. Mater.458:9 p.|2023|10.1016/j.jhazmat.2023.131910
193524|T||Zou,Y.P., Y.P. Liu, W. Li, Q.Q. Cao, X. Wang, Z.B. Hu, Q.S. Cai, and L.Q. Lou|Ethylene is the Key Phytohormone to Enhance Arsenic Resistance in Arabidopsis thaliana|Ecotoxicol. Environ. Saf.281:13 p.|2024|10.1016/j.ecoenv.2024.116644
193525|A||Swarup,K., and S.P. Srivastav|Structure and Behaviour of Ultimobranchial Gland in Response to Vitamin D3-Induced Hypercalcemia in Male Clarias batrachus|Arch. Anat. Microsc. Morphol. Exp.73(4): 223-229|1984|
193526|A||Tzean,Y., K.T. Wang, P.Y. Lee, and T.M. Wu|Assessing the Impact of Arsenite and Arsenate on Sarcodia suae: A Tale of Two Toxicities|Ecotoxicology33(8): 937-947|2024|
193527|T||Veltmann,J.R.,Jr., and L.S. Jensen|Tibial Dyschondroplasia in Broilers: Comparison of Dietary Additives and Strains|Poult. Sci.60(7): 1473-1478|1981|10.3382/ps.0601473,10.3382/ps.0601473
193528|A||Niu,X., D. Zhang, R. Zhang, Q. Song, Y. Li, and M. Wang|Physiological and Biochemical Responses of Microcystis aeruginosa to Phosphine (PH3) Under Elevated CO2|J. Environ. Sci.94:171-178|2020|
193529|A||Bradley,M.J.|[14C]1,2-Dichloropropane - Acute Toxicity to Midges (Chironomus riparius) Under Static Conditions|Smithers Study No. 14339-6107, Smithers, Wareham, MA:91 p.|2024|
193530|A||Wang,Z., Z. Luo, and C. Yan|Accumulation, Transformation, and Release of Inorganic Arsenic by the Freshwater Cyanobacterium Microcystis aeruginosa|Environ. Sci. Pollut. Res. Int.20(10): 7286-7295|2013|10.1007/s11356-013-1741-7
193531|AT||Namikoshi,M., W.W. Carmichael, R. Sakai, E.A. Jares-Erijman, A.M. Kaup, and K.L. Rinehart|9-Deazaadenosine and Its 5'-alpha-D-Glucopyranoside Isolated from the Cyanobacterium Anabaena affinis Strain VS-1|J. Am. Chem. Soc.115(6): 2504-2505|1993|
193532|A||Saha,S., M. Ray, and S. Ray|Screening of Phagocytosis and Intrahemocytotoxicity in Arsenic Exposed Crab as Innate Immune Response|Asian J. Exp. Biol. Sci.1(1): 47-54|2010|
193533|A||Duan,Y., Z. Lu, S. Zeng, X. Dan, Z. Mo, J. Zhang, and Y. Li|Integration of Intestinal Microbiota and Transcriptomic and Metabolomic Responses Reveals the Toxic Responses of Litopenaeus vannamei to Microcystin-LR|Ecotoxicol. Environ. Saf.228:10 p.|2021|10.1016/j.ecoenv.2021.113030
193534|A||Duan,Y., Z. Lu, S. Zeng, X. Dan, J. Zhang, and Y. Li|Effects of Dietary Arachidonic Acid on Growth, Immunity and Intestinal Microbiota of Litopenaeus vannamei Under Microcystin-LR Stress|Aquaculture549:9 p.|2021|
193535|A||Duan,Y., S. Zeng, Z. Lu, X. Dan, Z. Mo, Y. Xing, J. Zhang, and Y. Li|Responses of Lipid Metabolism and Lipidomics in the Hepatopancreas of Pacific White Shrimp Litopenaeus vannamei to Microcystin-LR Exposure|Sci. Total Environ.820:8 p.|2022|
193536|A||Duan,Y., Y. Xing, S. Zeng, X. Dan, Z. Mo, J. Zhang, and Y. Li|Integration of Metagenomic and Metabolomic Insights into the Effects of Microcystin-LR on Intestinal Microbiota of Litopenaeus vannamei|Front. Microbiol.13:12 p.|2022|10.3389/fmicb.2022.994188
193537|A||Liu,S.Z., X.Y. Tan, T. Liu, J. Ke, F.Y. Zou, B.Y. Jia, Y.F. Song, and Z. Luo|Interactive Effect of Dietary Vitamin D3 and Zinc (Zn) on Growth Performance, Zn Metabolism, and Intestinal Health of Yellow Catfish Pelteobagrus fulvidraco|Aquaculture578:10 p.|2024|10.1016/j.aquaculture.2023.740096
193538|T||Mulligan,E.A., N. Ferry, L. Jouanin, J. Romeis, and A.M.R. Gatehouse|Characterisation of Adult Green Lacewing (Chrysoperla carnea) Digestive Physiology:  Impact of a Cysteine Protease Inhibitor and a Synthetic Pyrethroid|Pest Manag. Sci.66(3): 325-336|2010|10.1002/ps.1879
193540|A||Markich,S.J.|Sensitivity of the Glochidia (Larvae) of Freshwater Mussels (Bivalvia: Unionida: Hyriidae) to Cadmium, Cobalt, Copper, Lead, Nickel and Zinc: Differences Between Metals, Species and Exposure Time|Sci. Total Environ.601-602:1427-1436|2017|10.1016/j.scitotenv.2017.06.010
193541|A||Schneider,S.Z., A. Pevey, S.P. Gallagher, and L. Zhang|p-Dichlorobenzene: A Life Cycle Toxicity Test with the Midge (Chironomus dilutus) Using Spiked Sediment|Easton Study Number: 264A-117, eSM Project Number: S21-08513:150 p.|2024|
193542|A||Schneider,S.Z., A. Pevey, S.P. Gallagher, and L. Zhang|p-Dichlorobenzene: A 10-Day Toxicity Test with the Midge (Chironomus dilutus) Using Spiked Whole Sediment|Easton Study Number: 264A-116, eSM Project Number: S21-08512:103 p.|2023|
193543|A||Schneider,S.Z., K. Ramsey, S.P. Gallagher, and L. Zhang|o-Dichlorobenzene: A 10-Day Toxicity Test with the Midge (Chironomus dilutus) Using Spiked Whole Sediment|Eurofins Study Number: 264A-118, eSM Project Number: S22-208646:122 p.|2024|
193544|A||Jiao,X., Z.Y. Guo, J. Sun, C. Bi, A.D. Qian, and Y.H. Li|Trascriptome Analysis Reveals the Mechanism of the Effect of Perfluorocaproic Acid and Expsoure on Brain Injury in Carassius auratus|Aquat. Toxicol.263:9 p.|2023|10.1016/j.aquatox.2023.106709
193545|A||Zhang,W., J. Liu, Q. Li, Y. Xiao, Y. Zhang, N. Lei, and Q. Wang|Effects of Combined Exposure of PVC and PFOA on the Physiology and Biochemistry of Microcystis aeruginosa|Chemosphere338:10 p.|2023|10.1016/j.chemosphere.2023.139476
193546|T||Adedara,I.A., O.O. Abioye, G.T. Oyedele, C.N. Ikeji, B.A. Afolabi, J.B.T. Rocha, and E.O. Farombi|Perfluorooctanoic Acid Induces Behavioral Impairment and Oxidative Injury in Nauphoeta cinerea Nymphs|Environ. Sci. Pollut. Res. Int.30(51): 110340-110351|2023|10.1007/s11356-023-30156-w
193547|T||Breton,C., K. Kessel, A. Robinson, K. Altaf, and E.S. Luth|Sublethal Perfluorooctanoic Acid and Perfluorooctanesulfonic Acid Delay C. elegans Larval Development and Population Growth but do not Alter Egg Hatching|J. Toxicol. Environ. Health Part A87:22-32|2024|10.1080/15287394.2023.2265419
193548|A||Mahapatra,A., P. Gupta, A. Suman, S.S. Ray, and R.K. Singh|PFOS-Induced Dyslipidemia and Impaired Cholinergic Neurotransmission in Developing Zebrafish: Insight into Its Mechanisms|Neurotoxicol. Teratol.100:13 p.|2023|10.1016/j.ntt.2023.107304
193549|A||Wu,L., M. Zeeshan, Y. Dang, Y.T. Zhang, L.X. Liang, J.W. Huang, J.X. Zhou, L.H. Guo, Y.Y. Fan, M.K. Sun, T. Yu, Y. Wen,|Maternal Transfer of F-53B Inhibited Neurobehavior in Zebrafish Offspring Larvae and Potential Mechanisms: Dopaminergic Dysfunction, Eye Development Defects and Disrupted Calcium Homeostasis|Sci. Total Environ.894:10 p.|2023|10.1016/j.scitotenv.2023.164838
193550|T||Rico,C.M., D.C. Wagner, P.C. Ofoegbu, N.J. Kirwa, P. Clubb, K. Coates, J.E. Zenobio, and A.S. Adeleye|Toxicity Assessment of Perfluorooctanesulfonic Acid (PFOS) on a Spontaneous Plant, velvetleaf (Abutilon theophrasti), via Metabolomics|Sci. Total Environ.907:13 p.|2024|10.1016/j.scitotenv.2023.167894
193551|A||Arslan,P., G. Gul, and A.C. Gunal|How Does the Persistent Organic Pollutant Perfluorooctane Sulfonate (PFOS) Affect Health of the Common Carp?|Water Air Soil Pollut.234(10): 12 p.|2023|10.1007/s11270-023-06651-8
193552|A||Davies,P.H., S. Brinkman, and D. Hansen|Water Pollution Studies|Federal Aid Project F-243R-9, Colorado Division of Wildlife, Fort Collins, CO:33p.|2002|
193553|A||Shi,J., M. Hu, Z. Xia, J. Zhang, Z. Wang, L. Li, and Y. Zhao|Influence of Perfluoroalkyl Substances, with Focus on Perfluorobutanoic Acid on the Responding Characteristics and Molecular Mechanisms of Thalassiosira pseudonana|Ecotoxicol. Environ. Saf.285:10 p.|2024|10.1016/j.ecoenv.2024.117048
193554|A||Ahmad,M., C. Hu, M. Liu, H. Zhang, S.A.U.R. Shah, G. Nabi, Y. Hao, and L. Chen|Cytotoxicity and Mechanisms of Perfluorobutane Sulfonate (PFBS) in Umbilical Cord Fibroblast Cells of Yangtze Finless Porpoise|Aquat. Toxicol.276:9 p.|2024|
193555|A||Zhao,X., Y. Liu, D. Yang, S. Dong, J. Xu, X. Li, and G. Ding|Thyroid Endocrine Disruption Effects of OBS in Adult Zebrafish and Offspring After Parental Exposure at Early Life Stage|Aquat. Toxicol.276:12 p.|2024|
193556|A||Liu,X., R. Chen, Y. Peng, Y. Zhou, M. Xia, X. Wu, Y. Wang, W. Yin, Y. Han, and M. Yu|Perfluorooctanoic Acid (PFOA) Induces Cardiotoxicity by Activating the Keap1/Nrf2 Pathway in Zebrafish (Danio rerio) Embryos|Ecotoxicol. Environ. Saf.285:10 p.|2024|10.1016/j.ecoenv.2024.117098
193557|A||Wang,Y., Y. Huo, A. Khan, N. Ma, and W. Mai|Possible Mechanisms for Adverse Effects on Zebrafish Sperm and Testes Associated with Low-Level Chronic PFOA Exposure|Aquat. Toxicol.276:13 p.|2024|10.1016/j.aquatox.2024.107108
193558|A||Fuller,N., J.G. Suski, S. Lanasa, M.K. Chanov, D.K. Jones, D.L. Haskins, K.A. Quinlin, M.A. Wigren, J.T. Hoverman, Y.J.|Chronic Toxicity of Per- and Polyfluoroalkyl Substance-Free Firefighting Foams to Aquatic Organisms|Environ. Toxicol. Chem.43(11): 2436-2454|2024|10.1002/etc.5979
193559|A||Daus,B., H. Weiss, and R. Altenburger|Uptake and Toxicity of Hexafluoroarsenate in Aquatic Organisms|Chemosphere78:307-312|2010|10.1016/j.chemosphere.2009.10.033
193560|A||Awrahman,Z.A., P.S. Rainbow, B.D. Smith, F.R. Khan, N.R. Bury, and W. Fialkowski|Bioaccumulation of Arsenic and Silver by the Caddisfly Larvae Hydropsyche siltalai and H. pellucidula: A Biodynamic Modeling Approach|Aquat. Toxicol.161:196-207|2015|10.1016/j.aquatox.2015.01.004
193561|A||Xue,X.M., G. Raber, S. Foster, S.C. Chen, K.A. Francesconi, and Y.G. Zhu|Biosynthesis of Arsenolipids by the Cyanobacterium Synechocystis sp. PCC 6803|Environ. Chem.11(5): 506-513|2014|10.1071/EN14069
193562|A||Zhao,Q., Q.G. Tan, W.X. Wang, P. Zhang, Z. Ye, L. Huang, and W. Zhang|Metabolome Analysis Revealed the Critical Role of betaine for Arsenobetaine Biosynthesis in the Marine Medaka (Oryzias melastigma)|Environ. Pollut.359:9 p.|2024|
193563|A||Lu,H., Y. Zhang, X. Zhang, R. Wang, T. Guo, Q. Wang, H. Zhao, and M. Xing|New Insights into Zinc Alleviating Renal Toxicity of Arsenic-Exposed Carp (Cyprinus carpio) Through YAP-TFR/ROS Signaling Pathway|Pestic. Biochem. Physiol.205:13 p.|2024|
193564|A||Lv,X., Y. Han, Y. Li, X. Wang, T. Zhang, Q. Zhang, D. Yang, and J. Zhao|Nonylphenol Displays Immunotoxicity by Triggering Hemocyte Extracellular Traps in Manila Clam via ROS Burst, ERK Pathway and Glycolysis|Ecotoxicol. Environ. Saf.285:14 p.|2024|10.1016/j.ecoenv.2024.117145
193565|A||Matthiessen,P., Y.T. Allen, C.R. Allchin, S.W. Feist, M.F. Kirby, R.J. Law, A.P. Scott, J.E. Thain, and K.V. Thomas|Oestrogenic Endocrine Disruption in Flounder (Platichthys flesus L.) from United Kingdom Estuarine and Marine Waters|Science Series Technical Report No. 107:52 p.|1998|
193566|A||Sanders,M.B.|Biomarkers of xeno-Oestrogen Exposure in Decapod Crustaceans|Ph.D.Thesis, University of Plymouth, Plymouth, UK:384 p.|2004|
193567|A||Ward,A.J.W., A.J. Duff, J.S. Horsfall, and S. Currie|Scents and Scents-Ability: Pollution Disrupts Chemical Social Recognition and Shoaling in Fish|Proc. R. Soc. Lond. Ser. B Biol. Sci.275(1630): 101-105|2008|10.1098/rspb.2007.1283
193568|A||Chora,S., B. McDonagh, D. Sheehan, M. Starita-Geribaldi, M. Romeo, and M.J. Bebianno|Ubiquitination and Carbonylation of Proteins in the Clam Ruditapes decussatus, Exposed to Nonylphenol Using Redox Proteomics|Chemosphere81(10): 1212-1217|2010|10.1016/j.chemosphere.2010.09.038
193569|A||Park,C.J., H.S. Kang, and M.C. Gye|Effects of Nonylphenol on Early Embryonic Development, Pigmentation and 3,5,3'-Triiodothyronine-Induced Metamorphosis in Bombina orientalis (Amphibia:  Anura)|Chemosphere81(10): 1292-1300|2010|10.1016/j.chemosphere.2010.08.039
193570|A||Liu,C.L., and H.H. Sung|Genes are Differentially Expressed at Transcriptional Level of Neocaridina denticulata Following Short-Term Exposure to Nonylphenol|Bull. Environ. Contam. Toxicol.87(3): 220-225|2011|10.1007/s00128-011-0338-4
193571|A||Xuereb,B., L. Bezin, A. Chaumot, H. Budzinski, S. Augagneur, R. Tutundjian, J. Garric, and O. Geffard|Vitellogenin-like Gene Expression in Freshwater Amphipod Gammarus fossarum (Koch, 1835): Functional Characterization in Females and Potential for Use as an Endocrine Disruption Biomarker in Males|Ecotoxicology20(6): 1286-1299|2011|10.1007/s10646-011-0685-2
193572|A||Gao,Q.T., Y.S. Wong, and N.F.Y. Tam|Removal and Biodegradation of Nonylphenol by Different Chlorella Species|Mar. Pollut. Bull.63(5-12): 445-451|2011|10.1016/j.marpolbul.2011.03.030
193573|A||Qian,H., X. Pan, S. Shi, S. Yu, H. Jiang, Z. Lin, and Z. Fu|Effect of Nonylphenol on Response of Physiology and Photosynthesis-Related Gene Transcription of Chlorella vulgaris|Environ. Monit. Assess.182(1-4): 61-69|2011|10.1007/s10661-010-1858-9
193574|A||Ali,T.E.S., and J. Legler|Developmental Toxicity of Nonylphenol in Zebrafish (Danio rerio) Embryos|Indian J. Geo-Marine Sci.40(4): 509-515|2011|
193575|A||Burlando,B., E. Berti, and A. Viarengo|Effects of Seawater Pollutants on Protein Tyrosine Phosphorylation in Mussel Tissues|Aquat. Toxicol.78(Suppl. ): S79-S85|2006|
193576|A||Mortensen,A.S., and A. Arukwe|Estrogenic Effect of Dioxin-Like Aryl Hydrocarbon Receptor (AhR) Agonist (PCB Congener 126) in Salmon Hepatocytes|Mar. Environ. Res.66:119-120|2008|10.1016/j.marenvres.2008.02.041
193577|A||Zhou,G.J., F.Q. Peng, B. Yang, and G.G. Ying|Cellular Responses and Bioremoval of Nonylphenol and Octylphenol in the Freshwater Green Microalga Scenedesmus obliquus|Ecotoxicol. Environ. Saf.87:10-16|2012|10.1016/j.ecoenv.2012.10.002
193578|A||Nair,P.M.G., S.Y. Park, J.W. Chung, and J. Choi|Transcriptional Regulation of Glutathione Biosynthesis Genes, +-Glutamyl-Cysteine Ligase and Glutathione Synthetase in Response to Cadmium and Nonylphenol in Chironomus riparius|Environ. Toxicol. Pharmacol.36(2): 265-273|2013|10.1016/j.etap.2013.04.001
193579|A||Michalec,F.G., M. Holzner, D. Menu, J.S. Hwang, and S. Souissi|Behavioral Responses of the Estuarine Calanoid Copepod Eurytemora affinis to Sub-Lethal Concentrations of Waterborne Pollutants|Aquat. Toxicol.138/139:129-138|2013|10.1016/j.aquatox.2013.05.007
193580|A||Boagni,C.L., J. Arnie, A. Remenapp, and L. Zhang|TBBPA: A 7-Day Static-Renewal Toxicity Test with Duckweed (Lemna gibba G3)|Report Number 264P-103; S21-06613, American Chemistry Council, Washington, DC:83 p.|2023|
193581|A||Besser,J.M., C.G. Ingersoll, W.G. Brumbaugh, N.E. Kemble, T.W. May, N. Wang, D.D. MacDonald, and A.D. Roberts|Toxicity of Sediments from Lead-Zinc Mining Areas to Juvenile Freshwater Mussels (Lampsilis siliquoidea), Compared to Standard Test Organisms|Environ. Toxicol. Chem.34:626-639|2015|10.1002/etc.2849
193582|A||Baek,H.J., I.J. Hwang, Y.D. Lee, and H.B. Kim|Effects of Nonylphenol and 3,3',4',5-Pentachlorobiphenyl on In Vitro Oocyte Steroidogenesis in Redlip Mullet, Chelon haematochilus|Anim. Cells Syst.15:189-196|2011|10.1080/19768354.2011.604938
193583|A||Denny,J.S., M.A. Tapper, P.K. Schmieder, M.W. Hornung, K.M. Jensen, G.T. Ankley, and T.R. Henry|Comparison of Relative Binding Affinities of Endocrine Active Compounds to Fathead Minnow and Rainbow Trout Estrogen Receptors|Environ. Toxicol. Chem.24(11): 2948-2953|2005|10.1897/04-595R.1
193584|A||Ali,S., G.X. Liu, Y.S. Huang, H.J. Chen, and D.H. Xu|Evaluation of the Effectiveness of Artemia sinica (Crustacea: Artemiidae) Cysts Chorion as Barrier to Nonylphenol Exposure, Effect on Hatching and Survival|Fresenius Environ. Bull.21:3705-3710|2012|
193585|A||Liu,Y., X.K. Dai, and J. Wei|Toxicity of the Xenoestrogen Nonylphenol and Its Biodegradation by the Alga Cyclotella caspia|J. Environ. Sci.25(8): 1662-1671|2013|10.1016/S1001-0742(12)60182-X
193586|A||Dong,S.P., L. Mao, S.Q. Luo, L. Zhou, Y.P. Feng, and S.X. Gao|Comparison of Lignin Peroxidase and Horseradish Peroxidase for Catalyzing the Removal of Nonylphenol from Water|Environ. Sci. Pollut. Res.21(3): 2358-2366|2014|10.1007/s11356-013-2161-4
193587|A||Wang,X., W. Zhong, B. Xiao, Q. Liu, L. Yang, A. Covaci, and L. Zhu|Bioavailability and Biomagnification of Organophosphate Esters in the Food Web of Taihu Lake, China: Impacts of Chemical Properties and Metabolism|Environ. Int.125:25-32|2019|
193588|A||He,J., X. Yang, and H. Liu|Enhanced Toxicity of Triphenyl Phosphate to Zebrafish in the Presence of Micro- and Nano-Plastics|Sci. Total Environ.756:8 p.|2021|
193589|A||Ramesh,M., S. Angitha, S. Haritha, R.K. Poopal, Z. Ren, and S. Umamaheswari|Organophosphorus Flame Retardant Induced Hepatotoxicity and Brain AChE Inhibition on Zebrafish (Danio rerio)|Neurotoxicol. Teratol.82:13 p.|2020|10.1016/j.ntt.2020.106919
193590|A||Zhang,Y.T., M. Chen, S. He, C. Fang, M. Chen, D. Li, D. Wu, M. Chernick, D.E. Hinton, J. Bo, L. Xie, and J. Mu|Microplastics Decrease the Toxicity of Triphenyl Phosphate (TPhP) in the Marine Medaka (Oryzias melastigma) Larvae|Sci. Total Environ.763:13 p.|2021|
193591|A||Billa,N., P.M. Lowe, S.Z. Schneider, and L. Zhang|TPP: A Prolonged Sediment Toxicity Test with Lumbriculus variegatus Using Spiked Sediment|Easton Study Number: 264A-112, eSM Project Number: S21-06617:93 p.|2022|
193592|A||Puy-Azurmendi,E., A. Olivares, A. Vallejo, M. Ortiz-Zarragoitia, B. Pina, O. Zuloaga, and M.P. Cajaraville|Estrogenic Effects of Nonylphenol and Octylphenol Isomers In Vitro by Recombinant Yeast Assay (RYA) and In Vivo with Early Life Stages of Zebrafish|Sci. Total Environ.466:1-10|2014|10.1016/j.scitotenv.2013.06.060
193593|T||Tull,C.N., P. Lowe, J.R. Arnie, and L. Zhang|TPP: A Reproduction Study with the Earthworm in an Artificial Soil Substrate|	Easton Study Number: 264P-105, eSM Project Number: S21-06620:85 p.|2022|
193594|T||Hubbard,P.M., D.L. Temple, A. Remenapp, and L. Zhang|TPP: A Dietary LC50 Study with the Northern Bobwhite|Easton Study Number: 264B-111, eSM Project Number: S22-05833:75 p.|2023|
193595|A||Ghekiere,A.|Study of Invertebrate-Specific Effects of Endocrine Disrupting Chemicals in the Estuarine Mysid Neomysis integer (Leach 1814)|Ph.D. Thesis, University of Ghent, Ghent, Belgium:162 p.|2006|
193596|T||Hubbard,P.M., D.L. Temple, A. Remenapp, and L. Zhang|TPP: A Reproduction Study with the Northern Bobwhite|Easton Study Number: 264B-113, eSM Project Number: S22-05835:249 p.|2023|
193597|A||Duffy,T.A., L.R. Iwanowicz, and S.D. McCormick|Comparative Responses to Endocrine Disrupting Compounds in Early Life Stages of Atlantic Salmon, Salmo salar|Aquat. Toxicol.152:1-10|2014|10.1016/j.aquatox.2014.03.015
193598|A||Schneider,S.Z., P. Lowe, S.P. Gallagher, and L. Zhang|TPP: A Sediment-Water Life-Cycle Toxicity Test with the Midge (Chironomus riparius) Using Spiked Sediment|	Easton Study Number: 264A-114, eSM Project Number: S21-06619:175 p.|2023|
193599|A||Li,Y., C. Yao, Q. Zheng, W. Yang, X. Niu, Y. Zhang, and G. Lu|Occurrence and Ecological Implications of Organophosphate Triesters and Diester Degradation Products in Wastewater, River Water, and Tap Water|Environ. Pollut.259:11 p.|2020|10.1016/j.envpol.2019.113810
193600|A||Boagni,C.L., J. Arnie, L. McKelvey, and L. Zhang|TPP: A 7-Day Static-Renewal Toxicity Test with Duckweed (Lemna gibba G3)|Easton Study Number: 264P-104, eSM Project Number: S21-06616:78 p.|2023|
193601|A||Hu,X.L., Z.W. Sun, J.J. Wang, M. An, and S.S. Duan|Sublethal Toxic Effects of Nonylphenol Ethoxylate and Nonylphenol to Moina macrocopa|Bull. Environ. Contam. Toxicol.93(2): 204-208|2014|10.1007/s00128-014-1310-x
193603|A||Wu,F., L. Lin, J.W. Qiu, H. Chen, S. Weng, and T. Luan|Complex Effects of Two Presumably Antagonistic Endocrine Disrupting Compounds on the Goldfish Carassius aumtus:  A Comprehensive Study with Multiple Toxicological Endpoints|Aquat. Toxicol.155:43-51|2014|10.1016/j.aquatox.2014.06.003
193604|A||Dunn,F., S.E. Paquette, K.D. Pennell, J.S. Plavicki, and K.E. Manz|Metabolomic Changes Following GenX and PFBS Exposure in Developing Zebrafish|Aquat. Toxicol.271:10 p.|2024|10.1016/j.aquatox.2024.106908
193605|T||Al Zbedy,A., V. Muller, A. Kindness, R. Ebel, G.J. Norton, and J. Feldmann|GenX Uptake by Wheat and Rice in Flooded and Non-Flooded Soils: A Greenhouse Experiment|Environ. Sci. Pollut. Res. Int.31(1): 1607-1620|2023|10.1007/s11356-023-31160-w
193606|A||Paquette,S.E., N.R. Martin, A. Rodd, K.E. Manz, E. Allen, M. Camarillo, H.I. Weller, K. Pennell, and J.S. Plavicki|Evaluation of Neural Regulation and Microglial Responses to Brain Injury in Larval Zebrafish Exposed to Perfluorooctane Sulfonate|Environ. Health Perspect.131(11): 17 p.|2023|
193607|A||Ivantsova,E., V. Lopez-Scarim, A. Sultan, C. English, A. Biju, C.L.N.,II Souders, N.E. Padillo-Anthemides, I. Konig, an|Evidence for Neurotoxicity and Oxidative Stress in Zebrafish Embryos/Larvae Treated with HFPO-DA Ammonium Salt (GenX)|Environ. Toxicol. Pharmacol.104:9 p.|2023|10.1016/j.etap.2023.104315
193608|A||Sun,S., L. Zhang, X. Li, L. Zang, L. Huang, J. Zeng, Z. Cao, X. Liao, Z. Zhong, H. Lu, and J. Chen|Hexafluoropropylene Oxide Trimer Acid, a Perfluorooctanoic Acid Alternative, Induces Cardiovascular Toxicity in Zebrafish Embryos|J. Environ. Sci.139:460-472|2023|10.1016/j.jes.2023.05.009
193609|A||Gregorio,L.S., L. Franco-Belussi, and C. De Oliveira|Genotoxic Effects of 4-Nonylphenol and Cyproterone Acetate on Rana catesbeiana (Anura) Tadpoles and Juveniles|Environ. Pollut.251:879-884|2019|10.1016/j.envpol.2019.05.076
193610|A||Porseryd,T., J. Larsson, J. Lindman, E. Malmstrom, K. Smolarz, M. Grahn, and P. Dinnetz|Effects on Food Intake of gammarus spp. After Exposure to PFBA in Very Low Concentrations|Mar. Pollut. Bull.202:7 p.|2024|10.1016/j.marpolbul.2024.116369
193611|A||Singh,S., K. Gautam, S.S. Mir, and S. Anbumani|Genotoxicity and Cytotoxicity Assessment of 'Forever Chemicals' in Zebrafish (Danio rerio)|Mutat. Res., Genet. Toxicol. Environ. Mutagen.897:8 p.|2024|10.1016/j.mrgentox.2024.503788
193612|A||Du,Y., Q. Li, G. Zhou, Z. Cai, Q. Man, and W.C. Wang|Early-Life Perfluorooctanoic Acid Exposure Disrupts the Function of Dopamine Transporter Protein with Glycosylation Changes Implicating the Links Between Decreased Dopamine Levels and Disruptive Behaviors in Larval Zebr|Sci. Total Environ.917:11 p.|2024|10.1016/j.scitotenv.2024.170408
193613|A||Huang,J., J. Zhang, J. Sun, M. Gong, and Z. Yuan|Exposure to Polystyrene Microplastics and Perfluorooctane Sulfonate Disrupt the Homeostasis of Intact Planarians and the Growth of Regenerating Planarians|Sci. Total Environ.924:16 p.|2024|10.1016/j.scitotenv.2024.171653
193614|A||Gutsfeld,S., L. Wehmas, I. Omoyeni, N. Schweiger, D. Leuthold, P. Michaelis, X.M. Howey, S. Gaballah, N. Herold, C. Vog|Investigation of Peroxisome Proliferator-Activated Receptor Genes as Requirements for Visual Startle Response Hyperactivity in Larval Zebrafish Exposed to Structurally Similar per- and Polyfluoroalkyl Substances (PFAS)|Environ. Health Perspect.132(7): 18 p.|2024|10.1289/EHP13667
193615|A||Wasel,O., H. King, Y.J. Choi, L.S. Lee, and J.L. Freeman|Differential Developmental Neurotoxicity and Tissue Uptake of the per- and Polyfluoroalkyl Substance Alternatives, GenX and PFBS|Environ. Sci. Technol.57(48): 19274-19284|2023|10.1021/acs.est.3c05023
193616|A||Barragan,E.M., T.D. Hoskins, E.B. Allmon, J.L. Mcquigg, M.T. Hamilton, E.N. Christian, G.S.M. Coogan, C.L. Searle, Y.J.|Toxicities of Legacy and Current-Use PFAS in an Anuran: Do Larval Exposures Influence Responses to a Terrestrial Pathogen Challenge?|Environ. Sci. Technol.57(48): 19180-19189|2023|10.1021/acs.est.3c03191
193617|T||Bizzotto,E.C., G. Libralato, S. Breda, A. Siciliano, P. Scanferla, M. Vighi, and A. Marcomini|Toxicity and Bioaccumulation of the Fluorosurfactant cC6O4 in the Earthworm Eisenia foetida (Savigny, 1826)|Sci. Total Environ.919:9 p.|2024|10.1016/j.scitotenv.2024.170677
193618|T||Bizzotto,E.C., G. Libralato, A. De Natale, P. Scanferla, M. Vighi, and A. Marcomini|Uptake of Cyclic C6O4 in Maize and Tomato: Results from a Greenhouse Study|Sci. Total Environ.924:9 p.|2024|10.1016/j.scitotenv.2024.171613
193619|A||Gasparini,C., S. Iori, E. Pietropoli, M. Bonato, M. Giantin, A. Barbarossa, A. Bardhi, A. Pilastro, M. Dacasto, and M. |Sub-Acute Exposure of Male Guppies (Poecilia reticulata) to Environmentally Relevant Concentrations of PFOA and GenX Induces Significant Changes in the Testis Transcriptome and Reproductive Traits|Environ. Int.187:15 p.|2024|10.1016/j.envint.2024.108703
193620|A||Jia,J., S. Shi, C. Liu, T. Shu, T. Li, Q. Lou, X. Jin, J. He, Z. Du, G. Zhai, and Z. Yin|Use of All-Male Cyp17a1-Deficient Zebrafish (Danio rerio) for Evaluation of Environmental Estrogens|Environ. Toxicol. Chem.43(5): 1062-1074|2024|10.1002/etc.5839
193621|A||Jian,M., X. Chen, S. Liu, Y. Liu, Y. Liu, Q. Wang, and W. Tu|Combined Exposure with Microplastics Increases the Toxic Effects of PFOS and Its Alternative F-53B in Adult Zebrafish|Sci. Total Environ.920:11 p.|2024|10.1016/j.scitotenv.2024.170948
193622|A||Chen,Z.W., Z.L. Hua, and P. Guo|The Bioaccumulation and Ecotoxicity of Co-Exposure of Per(Poly)Fluoroalkyl Substances and Polystyrene Microplastics to Eichhornia crassipes|Water Res.260:16 p.|2024|10.1016/j.watres.2024.121878
193623|T||Li,D., J. Zhang, X. Liu, X. Wang, B. Li, Z. Du, A. Juhasz, J. Wang, J. Wang, and L. Zhu|Are PFBS, PFHxS, and 6:2FTSA More Friendly to the Soil Environment Compared to PFOS? a New Insight Based on Ecotoxicity Study in Soil Invertebrates (Eisenia fetida)|Sci. Total Environ.904:10 p.|2023|10.1016/j.scitotenv.2023.166689
193624|T||Pietrini,F., A. Wyrwicka-Drewniak, L. Passatore, I. Nogues, M. Zacchini, and E. Donati|PFOA Accumulation in the Leaves of Basil (Ocimum basilicum L.) and Its Effects on Plant Growth, Oxidative Status, and Photosynthetic Performance|BMC Plant Biol.24(1): 13 p.|2024|10.1186/s12870-024-05269-0
193625|A||Wang,K., L. He, X. Liu, and M. Wu|Sodium P-Perfluorinated oxybenzen Sulfonate (OBS) Induced Neurotoxicity in Zebrafish Through Mitochondrial Dysfunction|Chemosphere362:11 p.|2024|10.1016/j.chemosphere.2024.142651
193626|A||Kenyon,A., J. Masisak, M. Satchwell, J. Wu, and L. Newman|Uptake of Perfluoroalkyl Substances PFOS and PFOA by Free-Floating Hydrophytes Pistia stratiotes L. and Eichhornia crassipes (Mart.) Solms|Int. J. Phytoremediat.26(9): 1429-1438|2024|10.1080/15226514.2024.2326906
193627|A||Bernabo,I., P. Biasone, R. Macirella, S. Tripepi, and E. Brunelli|Liver Histology and Ultrastructure of the Italian Newt (Lissotriton italicus): Normal Structure and Modifications After Acute Exposure to Nonylphenol Ethoxylates|Exp. Toxicol. Pathol.66(9/10): 455-468|2014|10.1016/j.etp.2014.09.002
193628|A||Mariel,A.C., B.P. Alejandra, and P.C.C. Silvia|Developmental Toxicity and Risk Assessment of Nonylphenol to the South American Toad, Rhinella arenarum|Environ. Toxicol. Pharmacol.38(2): 634-642|2014|10.1016/j.etap.2014.08.014
193629|A||Maltais,D., and R.L. Roy|Effects of Nonylphenol and Ethinylestradiol on Copper Redhorse (Moxostoma hubbsi), an Endangered Species|Ecotoxicol. Environ. Saf.108:168-178|2014|10.1016/j.ecoenv.2014.07.004
193630|A||Hamlin,H.J., K. Marciano, and C.A. Downs|Migration of Nonylphenol from Food-Grade Plastic is Toxic to the Coral Reef Fish Species Pseudochromis fridmani|Chemosphere139:223-228|2015|10.1016/j.chemosphere.2015.06.032
193631|A||Biggers,W.J., and H. Laufer|Identification of Juvenile Hormone-Active Alkylphenols in the Lobster Homarus americanus and in Marine Sediments|Biol. Bull.206:13-24|2004|10.2307/1543194
193632|A||Shirdel,I., and M.R. Kalbassi|Effects of Nonylphenol on Key Hormonal Balances and Histopathology of the Endangered Caspian Brown Trout (Salmo trutta caspius)|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.183/184:28-35|2016|10.1016/j.cbpc.2016.01.003
193633|A||Aronzon,C.M., G.V. Svartz, and C.S.P. Coll|Synergy Between Diazinon and Nonylphenol in Toxicity During the Early Development of the Rhinella arenarum Toad|Water Air Soil Pollut.227(5): 10 Pg.|2016|10.1007/s11270-016-2799-x
193634|A||Boulange-Lecomte,C., B. Rocher, K. Cailleaud, P. Cosette, E. Legrand, D. Devreker, H. Budzinski, S. Souissi, and J. For|Differential Protein Expression in the Estuarine Copepod Eurytemora affinis After Diuron and Alkylphenol Exposures|Environ. Toxicol. Chem.35(7): 1860-1871|2016|10.1002/etc.3343
193635|A||Green,J.M., J. Metz, O. Lee, M. Trznadel, A. Takesono, A.R. Brown, S.F. Owen, T. Kudoh, and C.R. Tyler|High-Content and Semi-Automated Quantification of Responses to Estrogenic Chemicals Using a Novel Translucent Transgenic Zebrafish|Environ. Sci. Technol.50(12): 6536-6545|2016|10.1021/acs.est.6b01243
193636|A||Uchida,M., M. Hirano, H. Ishibashi, J. Kobayashi, Y. Kagami, A. Koyanagi, T. Kusano, M. Koga, and K. Arizono|Transcriptional Response of Mysid Crustacean, Americamysis bahia, is Affected by Subchronic Exposure to Nonylphenol|Ecotoxicol. Environ. Saf.133:360-365|2016|10.1016/j.ecoenv.2016.07.037
193637|A||Suzuki,E., M. Kunimoto, M. Nishizuka, and M. Imagawa|Evaluation of Ability of Chemicals to Bind Frog (Xenopus laevis) Estrogen Receptor by In Vitro Binding Assay|J. Health Sci.50:685-688|2004|10.1248/jhs.50.685
193638|A||Abd-Elkareem,M., N.S. Abou Khalil, and A.E.D.H. Sayed|Cytoprotective Effect of Nigella Sativa Seed on 4-Nonylphenol-Induced Renal Damage in the African Catfish (Clarias gariepinus)|Chemosphere259:12 p.|2020|10.1016/j.chemosphere.2020.127379
193639|A||Alla,L.N.R., M. Monshi, Z. Siddiqua, J. Shields, K. Alame, A. Wahls, C. Akemann, D. Meyer, E.J. Crofts, F. Saad, J. El-|Detection of Endocrine Disrupting Chemicals in Danio rerio and Daphnia pulex: Step-One, Behavioral Screen|Chemosphere271:13 p.|2021|10.1016/j.chemosphere.2020.129442
193641|A||Tompach,M.C., C.K. Gridley, S. Li, J.M. Clark, Y. Park, and A.R. Timme-Laragy|Comparing the Effects of Developmental Exposure to Alpha Lipoic Acid (ALA) and Perfluorooctanesulfonic Acid (PFOS) in Zebrafish (Danio rerio)|Food Chem. Toxicol.186:9 p.|2024|10.1016/j.fct.2024.114560
193642|A||Coe,S.T., S. Chakraborty, M. Faheem, K. Kupradit, and R.K. Bhandari|A Second Hit by PFOS Exposure Exacerbated Developmental Defects in Medaka Embryos with a History of Ancestral BPA Exposure|Chemosphere362:13 p.|2024|10.1016/j.chemosphere.2024.142796
193643|A||Chen,H., Y. Zou, X. Kang, G. Yang, X. Yang, Y. Yao, J.T. Magnuson, X. Cao, W. Qiu, E.G. Xu, and C. Zheng|Perfluorooctane Sulfonamide Induced Autotoxic Effects on the Zebrafish Immune System|Environ. Sci. Technol.58(30): 13205-13216|2024|
193644|A||Gadi,S., S. Niture, H. Hoang, Q. Qi, C. Hatcher, X. Huang, J. Haider, D.C. Norford, T. Leung, K.E. Levine, and D. Kumar|Deficiency of Spns1 Exacerbates Per- and Polyfluoroalkyl Substances Mediated Hepatic Toxicity and Steatosis in Zebrafish (Danio rerio)|Toxicology499:16 p.|2023|10.1016/j.tox.2023.153641
193645|A||Hamed,M., A. Vats, I.E. Lim, B. Sapkota, and A. Abdelmoneim|Effects of Developmental Exposure to Individual and Combined PFAS on Development and Behavioral Stress Responses in Larval Zebrafish|Environ. Pollut.349:12 p.|2024|10.1016/j.envpol.2024.123912
193646|A||Filip,N., A. Pustam, V. Ells, K.M.T. Grosicki, J. Yang, I. Oguejiofor, C.D. Bishop, M.E. Demont, T. Smith-Palmer, and R|Fouling-Release and Chemical Activity Effects of a Siloxane-Based Material on Tunicates|Mar. Environ. Res.116:41-50|2016|10.1016/j.marenvres.2016.02.015
193648|A||Sayed,A.E.D.H., A.M. Kotb, S. Oda, S. Kashiwada, and H. Mitani|Protective Effect of P53 Knockout on 4-Nonylphenol-Induced Nephrotoxicity in Medaka (Oryzias latipes)|Chemosphere236:8 p.|2019|10.1016/j.chemosphere.2019.07.045
193649|A||Ardeshir,R.A., S. Rastgar, A.P. Salati, E. Zabihi, A. Movahedinia, and F. Feizi|The Effect of Nonylphenol Exposure on the Stimulation of Melanomacrophage Centers, Estrogen and Testosterone Level, and ER Alpha Gene Expression in Goldfish|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.254:12 p.|2022|
193650|A||De Almeida,W., J.C. Matei, R.S.A. Kitamura, M.P. Gomes, D.M. Leme, H.C.S. De Assis, T. Vicari, and M.M. Cestari|Alkylphenols Cause Cytotoxicity and Genotoxicity Induced by Oxidative Stress in RTG-2 Cell Line|Chemosphere313:9 p.|2023|10.1016/j.chemosphere.2022.137387
193651|A||Desai,J.K., B.J. Trangadia, U.D. Patel, H.B. Patel, V.A. Kalaria, and J.B. Kathiriya|Neurotoxicity of 4-Nonylphenol in Adult Zebrafish: Evaluation of Behaviour, Oxidative Stress Parameters and Histopathology of Brain|Environ. Pollut.334:14 p.|2023|10.1016/j.envpol.2023.122206
193652|A||Horie,Y., N. Kanazawa, C. Takahashi, N. Tatarazako, and T. Iguchi|Gonadal Soma-Derived Factor Expression Is a Potential Biomarker for Predicting the Effects of Endocrine-Disrupting Chemicals on Gonadal Differentiation in Japanese Medaka (Oryzias latipes)|Environ. Toxicol. Chem.41(8): 1875-1884|2022|10.1002/etc.5353
193653|A||Islam,R., S.D. Melvin, R.M.K. Yu, W.A. O'Connor, T.K.A. Tran, M. Andrew-Priestley, F.D.L. Leusch, and G.R. Macfarlane|Estrogenic Mixtures Induce Alterations in Lipidomic Profiles in the Gonads of Female Oysters|Chemosphere291:14 p.|2022|
193654|A||Karmakar,S., S. Karmakar, P. Jana, B. Chhaba, S.A. Das, and S.K. Rout|Nonylphenol Exposure in Labeo rohita (Ham.): Evaluation of Behavioural Response, Histological, Haematological and Enzymatic Alterations|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.247:10 p.|2021|10.1016/j.cbpc.2021.109058
193655|A||Miyagawa,S., A. Lange, I. Hirakawa, S. Tohyama, Y. Ogino, T. Mizutani, Y. Kagami, T. Kusano, M. Ihara, H. Tanaka, N. Ta|Differing Species Responsiveness of Estrogenic Contaminants in Fish is Conferred by the Ligand Binding Domain of the Estrogen Receptor|Environ. Sci. Technol.48:5254-5263|2014|10.1021/es5002659
193656|T||Taylor,S.I., and M.R. Macnair|Within and Between Population Variation for Zinc and Nickel Accumulation in Two Species of Thlaspi (Brassicaceae)|New Phytol.169(3): 505-513|2006|10.1111/j.1469-8137.2005.01625.x
193657|A||Coddou,C., R.A. Lorca, C. Acuna-Castillo, M. Grauso, F. Rassendren, and J.P. Huidobro-Toro|Heavy Metals Modulate the Activity of the Purinergic P2X4 Receptor|Toxicol. Appl. Pharmacol.202(2): 121-131|2005|10.1016/j.taap.2004.06.015
193658|A||Pattnaik,S., G.B.N. Chainy, and J.K. Jena|Characterization of Ca2+-ATPase Activity in Gill Microsomes of Freshwater Mussel, Lamellidens marginalis (Lamarck) and Heavy Metal Modulations|Aquaculture270(1-4): 443-450|2007|10.1016/j.aquaculture.2007.05.012
193659|A||Attig,H., A. Dagnino, A. Negri, J. Jebali, H. Boussetta, A. Viarengo, F. Dondero, and M. Banni|Uptake and Biochemical Responses of Mussels Mytilus galloprovincialis Exposed to Sublethal Nickel Concentrations|Ecotoxicol. Environ. Saf.73(7): 1712-1719|2010|10.1016/j.ecoenv.2010.08.007
193660|A||Metian,M., L. Hedouin, M.M. Eltayeb, T. Lacoue-Labarthe, J.L. Teyssie, C. Mugnier, P. Bustamante, and M. Warnau|Metal and Metalloid Bioaccumulation in the Pacific Blue Shrimp Litopenaeus stylirostris (Stimpson) from New Caledonia:  Laboratory and Field Studies|Mar. Pollut. Bull.61(7-12): 576-584|2010|10.1016/j.marpolbul.2010.06.035
193661|A||Fechner,L.C., C. Gourlay-France, and M.H. Tusseau-Vuillemin|Low Exposure Levels of Urban Metals Induce Heterotrophic Community Tolerance:  A Microcosm Validation|Ecotoxicology20(4): 793-802|2011|10.1007/s10646-011-0630-4
193662|A||Hadad,H.R., M.A. Maine, M.M. Mufarrege, M.V.D. Sastre, and G.A.D. Luca|Bioaccumulation Kinetics and Toxic Effects of Cr, Ni and Zn on Eichhornia crassipes|J. Hazard. Mater.190(1-3): 1016-1022|2011|10.1016/j.jhazmat.2011.04.044
193663|A||Piazza,C.E., J.J. Mattos, G.S. Brocardo, and A.C.D. Bainy|Effects of 4-n-Nonylphenol in Liver of Male and Female Viviparous Fish (Poecilia vivipara)|Chemosphere308:7 p.|2022|10.1016/j.chemosphere.2022.136565
193664|A||Kubrak,O.I., B.M. Rovenko, V.V. Husak, J.M. Storey, K.B. Storey, and V.I. Lushchak|Nickel Induces Hyperglycemia and Glycogenolysis and Affects the Antioxidant System in Liver and White Muscle of Goldfish Carassius auratus L.|Ecotoxicol. Environ. Saf.80:231-237|2012|10.1016/j.ecoenv.2012.03.006
193665|A||Kubrak,O.I., V.V. Husak, B.M. Rovenko, H. Poigner, M. Kriews, D. Abele, and V.I. Lushchak|Antioxidant System Efficiently Protects Goldfish Gills from Ni(2+)-Induced Oxidative Stress|Chemosphere90(3): 971-976|2013|10.1016/j.chemosphere.2012.06.044
193666|A||Gorbi,G., M. Invidia, F. Savorelli, O. Faraponova, E. Giacco, M. Cigar, I. Buttino, T. Leoni, E. Prato, I. Lacchetti, a|Standardized Methods for Acute and Semichronic Toxicity Tests with the Copepod Acartia tonsa|Environ. Toxicol. Chem.31(9): 2023-2028|2012|10.1002/etc.1909
193667|A||Shirdel,I., M.R. Kalbassi, M. Esmaeilbeigi, and B. Tinoush|Disruptive Effects of Nonylphenol on Reproductive Hormones, Antioxidant Enzymes, and Histology of Liver, Kidney and Gonads in Caspian Trout Smolts|Comp. Biochem. Physiol. C Toxicol. Pharmacol.232:12 p.|2020|10.1016/j.cbpc.2020.108756
193668|A||Su,X.B., T. Li, X.W. Zhu, P.H. Zheng, H.K. Pan, and H. Guo|Exploring the Impact of Nonylphenol Exposure on Litopenaeus vannamei at the Histological and Molecular Levels|Ecotoxicol. Environ. Saf.279:9 p.|2024|10.1016/j.ecoenv.2024.116475
193670|A||Xiao,Q., D.Z. Li, and H.Y. Liu|A Flounder (Paralichthys olivaceus) Gill Cell Line as In Vitro Acute Assay System of Nonylphenol Cytotoxicity|Environ. Monit. Assess.175:315-319|2011|10.1007/s10661-010-1533-1
193671|A||Xu,Y., J.H. Jang, and M.C. Gye|4-Octylphenol Induces Developmental Abnormalities and Interferes the Differentiation of Neural Crest Cells in Xenopus laevis Embryos|Environ. Pollut.274:15 p.|2021|
193672|A||Yang,W.F., X.X. Gao, Y.X. Wu, L. Wan, L.C. Tan, S.M. Yuan, H.J. Ding, and W.H. Zhang|The Combined Toxicity Influence of Microplastics and Nonylphenol on Microalgae Chlorella pyrenoidosa|Ecotoxicol. Environ. Saf.195:10 p.|2020|10.1016/j.ecoenv.2020.110484
193673|A||Guo,H., L.L. Chen, G.L. Li, S.P. Deng, and C.H. Zhu|Accumulation and Depuration of Nonylphenol and Its Effect on the Expressions of Vitellogenin and Vitellogenin Receptor in Freshwater Prawn Macrobrachium rosenbergii|Bull. Environ. Contam. Toxicol.103(5): 729-733|2019|10.1007/s00128-019-02714-x
193674|A||Guo,R., M.A. Lee, and J.S. Ki|Different Transcriptional Responses of Heat Shock Protein 70/90 in the Marine Diatom Ditylum brightwellii Exposed to Metal Compounds and Endocrine-Disrupting Chemicals|Chemosphere92(5): 535-543|2013|10.1016/j.chemosphere.2013.03.052
193675|A||Nunez-Nogueira,G., L. Fernandez-Bringas, A. Ordiano-Flores, and A. Gomez-Ponce|Ni Accumulation and Regulation After Experimental Exposure to a Cd, Pb, and Zn Mixture in the Pacific White Shrimp Penaeus vannamei|Water Air Soil Pollut.224(8): 1-7|2013|10.1007/s11270-013-1644-8
193676|A||Dew,W.A., A. Azizishirazi, and G.G. Pyle|Contaminant-Specific Targeting of Olfactory Sensory Neuron Classes: Connecting Neuron Class Impairment with Behavioural Deficits|Chemosphere112:519-525|2014|10.1016/j.chemosphere.2014.02.047
193677|A||Banni,M., A. Hajer, S. Sforzini, C. Oliveri, H. Boussetta, and A. Viarengo|Transcriptional Expression Levels and Biochemical Markers of Oxidative Stress in Mytilus galloprovincialis Exposed to Nickel and Heat Stress|Comp. Biochem. Physiol. C Toxicol. Pharmacol.160:23-29|2014|10.1016/j.cbpc.2013.11.005
193678|A||Attig,H., N. Kamel, S. Sforzini, A. Dagnino, J. Jamel, H. Boussetta, A. Viarengo, and M. Banni|Effects of Thermal Stress and Nickel Exposure on Biomarkers Responses in Mytilus Galloprovincialis (Lam)|Mar. Environ. Res.94:65-71|2014|10.1016/j.marenvres.2013.12.006
193679|A||Howe,P.L., A.J. Reichelt-Brushett, and M.W. Clark|Investigating Lethal and Sublethal Effects of the Trace Metals Cadmium, Cobalt, Lead, Nickel and Zinc on the Anemone Aiptasia pulchella, a Cnidarian Representative for Ecotoxicology in Tropical Marine Environments|Mar. Freshw. Res.65(6): 551-561|2014|10.1071/MF13195
193680|A||Marcato,A.C.C., A.T. Yabuki, and C.S. Fontanetti|Nickel Exposure Promotes Osmoregulatory Disturbances in Oreochromis niloticus Gills: Histopathological and Energy Dispersive Spectrometry Analysis|Environ. Sci. Pollut. Res.21(22): 13095-13102|2014|10.1007/s11356-014-3248-2
193681|A||Tellis,M.S., M.M. Lauer, S. Nadella, A. Bianchini, and C.M. Wood|The Effects of Copper and Nickel on the Embryonic Life Stages of the Purple Sea Urchin (Strongylocentrotus purpuratus)|Arch. Environ. Contam. Toxicol.67(3): 453-464|2014|10.1007/s00244-014-0069-8
193682|A||Ackermann,G.E., E. Brombacher, and K. Fent|Development of a Fish Reporter Gene System for the Assessment of Estrogenic Compounds and Sewage Treatment Plant Effluents|Environ. Toxicol. Chem.21(9): 1864-1875|2002|10.1002/etc.5620210914
193683|A||Le Pabic,C., C. Caplat, J.P. Lehodey, T. Milinkovitch, N. Koueta, R.P. Cosson, and P. Bustamante|Trace Metal Concentrations in Post-Hatching Cuttlefish Sepia officinalis and Consequences of Dissolved Zinc Exposure|Aquat. Toxicol.159:23-35|2015|10.1016/j.aquatox.2014.11.012
193684|A||Bleakley,R.J., and P.J.S. Boaden|Effects of an Oil Spill Remover on Beach Meiofauna|Ann. Inst. Oceanogr.50(1): 51-58|1974|
193685|A||Wang,X.H., R.J. Qu, Q.G. Huang, Z.B. Wei, and Z.Y. Wang|Hepatic Oxidative Stress and Catalyst Metals Accumulation in Goldfish Exposed to Carbon Nanotubes Under Different pH Levels|Aquat. Toxicol.160:142-150|2015|10.1016/j.aquatox.2015.01.015
193686|A||Olah,V., A. Hepp, and I. Meszaros|Comparative Study on the Sensitivity of Turions and Active Fronds of Giant Duckweed (Spirodela polyrhiza (l.) Schleiden) to Heavy Metal Treatments|Chemosphere132:40-46|2015|10.1016/j.chemosphere.2015.01.050
193687|A||He,Y.J., H. Liao, G. Yang, W. Qiu, R. Xuan, G. Zheng, B. Xu, X. Yang, J.T. Magnuson, D. Schlenk, and C. Zheng|Perfluorohexanesulfonic Acid (PFHxS) Impairs Lipid Homeostasis in Zebrafish Larvae Through Activation of PPARa|Environ. Sci. Technol.58(37): 16258-16268|2024|10.1021/acs.est.4c03053
193688|A||Ismail,T., H.K. Lee, H. Lee, Y. Kim, E. Kim, J.Y. Lee, K.B. Kim, H.Y. Ryu, D.H. Cho, T.K. Kwon, T.J. Park, T. Kwon, and|Early Life Exposure to Perfluorooctanesulfonate (PFOS) Impacts Vital Biological Processes in Xenopus laevis: Integrated Morphometric and Transcriptomic Analyses|Ecotoxicol. Environ. Saf.269:10 p.|2024|
193689|A||Lee,H.S., S. Jang, Y. Eom, and K.T. Kim|Comparing Ocular Toxicity of Legacy and Alternative Per- and Polyfluoroalkyl Substances in Zebrafish Larvae|Toxics11(12): 12 p.|2023|10.3390/toxics11121021
193690|A||Li,J., C. Hu, B. Zhao, and L. Chen|Proteomic and Cardiac Dysregulation by Representative Perfluoroalkyl Acids of Different Chemical Speciation During Early Embryogenesis of Zebrafish|Sci. Total Environ.926:10 p.|2024|10.1016/j.scitotenv.2024.172000
193691|A||Lu,T., W. Zheng, F. Hu, X. Lin, R. Tao, M. Li, and L.H. Guo|Disruption of Zebrafish Sex Differentiation by Emerging Contaminants Hexafluoropropylene Oxides at Environmental Concentrations via Antagonizing Androgen Receptor Pathways|Environ. Int.190:10 p.|2024|
193692|A||Chen,H.L., L. Zhao, and Q.J. Yu|Determination and Reduced Life Expectancy Model and Molecular Docking Analyses of Estrogenic Potentials of 17 beta-Estradiol, Bisphenol A and Nonylphenol on Expression of Vitellogenin Gene (vtg1) in Zebrafish|Chemosphere221:727-734|2019|10.1016/j.chemosphere.2019.01.093
193693|A||Gale,W.L., R. Patino, and A.G. Maule|Interaction of Xenobiotics with Estrogen Receptors alpha and beta and a Putative Plasma Sex Hormone-Binding Globulin from Channel Catfish (Ictalurus punctatus)|Gen. Comp. Endocrinol.136(3): 338-345|2004|10.1016/j.ygcen.2004.01.009
193694|A||Boulange-Lecomte,C., B. Xuereb, G. Tremolet, A. Duflot, N. Giusti, S. Olivier, E. Legrand, and J. Forget-Leray|Controversial Use of Vitellogenin as a Biomarker of Endocrine Disruption in Crustaceans: New Adverse Pieces of Evidence in the Copepod Eurytemora affinis|Comp. Biochem. Physiol. C Toxicol. Pharmacol.201:66-75|2017|10.1016/j.cbpc.2017.09.011
193695|A||Breves,J.P., T.A. Duffy, I.E. Einarsdottir, B.T. Bjornsson, and S.D. Mccormick|In Vivo Effects of 17 alpha-Ethinylestradiol, 17 beta-Estradiol and 4-Nonylphenol on Insulin-Like Growth-Factor Binding Proteins (igfbps) in Atlantic Salmon|Aquat. Toxicol.203:28-39|2018|10.1016/j.aquatox.2018.07.018
193696|A||Gushiken,Y., H. Watanuki, and M. Sakai|In Vitro Effect of Carp Phagocytic Cells by Bisphenol A and Nonylphenol|Fish. Sci.68(1): 178-183|2002|10.1046/j.1444-2906.2002.00405.x
193697|A||Zielke,H., T.B. Seiler, S. Niebergall, E. Leist, M. Brinkmann, D. Spira, G. Streck, W. Brack, U. Feiler, T. Braunbeck, |The Impact of Extraction Methodologies on the Toxicity of Sediments in the Zebrafish (Danio rerio) Embryo Test|J. Soils Sediments11(2): 352-363|2011|10.1007/s11368-010-0317-0
193698|A||Islinger,M., S. Pawlowski, H. Hollert, A. Volkl, and T. Braunbeck|Measurement of Vitellogenin-mRNA Expression in Primary Cultures of Rainbow Trout Hepatocytes in a Non-Radioactive Dot Blot/RNAse Protection-Assay|Sci. Total Environ.233:109-122|1999|10.1016/S0048-9697(99)00218-1
193699|A||Ivey,C.D., N. Wang, D. Alvarez, E.J. Hammer, and C.R. Bauer|Chronic Toxicity of 4-Nonylphenol to Two Unionid Mussels in Water-Only Exposures|Bull. Environ. Contam. Toxicol.101(4): 423-427|2018|10.1007/s00128-018-2422-5
193700|A||Kortner,T.M., and A. Arukwe|The Xenoestrogen, 4-Nonylphenol, Impaired Steroidogenesis in Previtellogenc Oocyte Culture of Atlantic Cod (Gadus morhua) by Targeting the StAR Protein and P450scc Expression|Gen. Comp. Endocrinol.150:419-429|2007|10.1016/j.ygcen.2006.10.008
193701|A||Kortner,T.M., S.H. Vang, and A. Arukwe|Modulation of Salmon Ovarian Steroidogenesis and Growth Factor Responses by the Xenoestrogen, 4-Nonylphenol|Chemosphere77(7): 989-998|2009|10.1016/j.chemosphere.2009.07.075
193702|A||Lamche,G., and P. Burkhardt-Holm|Nonylphenol Provokes a Vesiculation of the Golgi Apparatus in Three Fish Epidermis Cultures|Ecotoxicol. Environ. Saf.47:137-148|2000|10.1006/eesa.2000.1957
193703|A||Lanzer,R., G. Pfister, K.W. Schramm, and A. Kettrup|Evaluation of the Toxicity of Nonylphenol in the Embryonic Development of Lymnaea stagnalis (Linne)|In: SECOTOX 99, 5th European Conference on Ecotoxicology and Environmental Safety, Neuherberg/Munich, Germany:4 p.|1999|
193704|A||Antunes,C., G. Magalhaes-Cardoso, D. Moura, D. Goncalves, and J. Machado|Effects of Al, Ni, Co, Zn, Cd, and Cu Metals on the Outer Mantle Epithelium of Anodonta cygnea (Unionidae)|Haliotis31:71-84|2002|
193706|A||Blewett,T.A., C.N. Glover, S. Fehsenfeld, M.J. Lawrence, S. Niyogi, G.G. Goss, and C.M. Wood|Making Sense of Nickel Accumulation and Sub-Lethal Toxic Effects in Saline Waters: Fate and Effects of Nickel in the Green Crab, Carcinus maenas|Aquat. Toxicol.164:23-33|2015|10.1016/j.aquatox.2015.04.010
193707|A||Zhou,C., V. Vitiello, E. Casals, V.F. Puntes, F. Iamunno, D. Pellegrini, W. Changwen, G. Benvenuto, and I. Buttino|Toxicity of Nickel in the Marine Calanoid Copepod Acartia tonsa: Nickel Chloride Versus Nanoparticles|Aquat. Toxicol.170:1-12|2016|10.1016/j.aquatox.2015.11.003
193708|A||Vitiello,V., C. Zhou, A. Scuderi, D. Pellegrini, and I. Buttino|Cold Storage of Acartia tonsa Eggs:  A Practical Use in Ecotoxicological Studies|Ecotoxicology25(5): 1033-1039|2016|10.1007/s10646-016-1660-8
193709|A||Brande-Lavridsen,N., B. Korsgaard, I. Dahllof, J. Strand, Z. Tairova, and P. Bjerregaard|Abnormalities in Eelpout Zoarces viviparus upon Chemical Exposure|Mar. Environ. Res.92:87-94|2013|10.1016/j.marenvres.2013.09.004
193710|A||Ma,T., Y. Jiang, P. Chen, F. Xiao, J. Zhang, Y. Ma, and T. Chen|PFOS and PFOSA Induce Oxidative Stress-Mediated Cardiac Defects in Zebrafish via PPARgamma and AHR Pathways, Respectively|Sci. Total Environ.951:11 p.|2024|10.1016/j.scitotenv.2024.175716
193711|A||Manera,M., and L. Giari|Segmentation of Renal Thyroid Follicle Colloid in Common Carp: Insights into Perfluorooctanoic Acid-Induced Morphometric Alterations|Toxics12(5): 17 p.|2024|10.3390/toxics12050369
193712|A||Marin,M., K.M. Annunziato, M.C. Tompach, W. Liang, S.M. Zahn, S. Li, J. Doherty, J. Lee, J.M. Clark, Y. Park, and A.R. |Maternal PFOS Exposure Affects Offspring Development in Nrf2-Dependent and Independent Ways in Zebrafish (Danio rerio)|Aquat. Toxicol.271:10 p.|2024|10.1016/j.aquatox.2024.106923
193713|A||Shu,Q., S. Xie, M. Junaid, R. Zheng, H. Tang, J. Zou, and A. Zhou|MPs and PFOS Single and Combined Exposure Significantly Alter Genetic Expressions of Growth Hormone and Insulin Growth Factor-Related Biomarkers During Zebrafish Embryonic Development|Sci. Total Environ.949:9 p.|2024|10.1016/j.scitotenv.2024.174925
193714|A||Sun,B., J. Li, Y. Bai, X. Zhou, P.K.S. Lam, and L. Chen|Hypoxic and Temporal Variation in the Endocrine Disrupting Toxicity of Perfluorobutanesulfonate in Marine Medaka (Oryzias melastigma)|J. Environ. Sci.136:279-291|2024|10.1016/j.jes.2022.10.017
193715|A||Tanabe,P., P.B. Key, K.W. Chung, E.C. Pisarski, J.L. Reiner, A.E. Rodowa, J.T. Magnuson, and M.E. Delorenzo|Mixture Effects of Per- and Polyfluoroalkyl Substances on Embryonic and Larval Sheepshead Minnows (Cyprinodon variegatus)|Toxics12(1): 15 p.|2024|10.3390/toxics12010091
193716|A||Abele,C., A. Perez, A. Hoglund, P. Pierozan, M. Breitholtz, and O. Karlsson|Automated Image-Based Fluorescence Screening of Mitochondrial Membrane Potential in Daphnia magna: An Advanced Ecotoxicological Testing Tool|Environ. Sci. Technol.58(36): 15926-15937|2024|10.1021/acs.est.4c02897.
193717|A||Calle,L., J. Le Du-Carree, I. Martinez, S. Sarih, D. Montero, M. Gomez, and R. Almeda|Toxicity of Tire Rubber-Derived Pollutants 6PPD-Quinone and 4-Tert-Octylphenol on Marine Plankton|J. Hazard. Mater.484:13 p.|2025|10.1016/j.jhazmat.2024.136694
193718|A||Chang,J., L. Zhang, J. Zhao, Z. Zhang, Z. Wang, H. Wang, and B. Wan|6PPD, not 6PPD-Quinone, Induced Serious Zebrafish Eye Damage by Disrupting the Thyroid Signaling Pathway|Environ. Sci. Technol.58(50): 22076-22088|2024|10.1021/acs.est.4c11264
193719|A||Chen,Y., L. Yuan, J. Chen, A. Gao, J. Hu, H. Wang, and X. Zhang|Response and Adaptation of Chlorella pyrenoidosa to 6PPD: Physiological and Genetic Mechanisms|J. Hazard. Mater.480:11 p.|2024|10.1016/j.jhazmat.2024.136122
193720|A||Di,S., H. Xu, Y. Yu, P. Qi, Z. Wang, Z. Liu, H. Zhao, Y. Jin, and X. Wang|Environmentally Relevant Concentrations of S-6PPD-Quinone Caused More Serious Hepatotoxicity than R-Enantiomer and Racemate in Oncorhynchus mykiss|Environ. Sci. Technol.58(40): 17617-17628|2024|10.1021/acs.est.4c06357
193721|A||Ge,Y., J. Liu, R. Shi, X. Li, A. Zeb, Q. Wang, J. Wang, Y. Zhao, M. Yu, C. Yin, H. Xiong, and W. Liu|Environmental Concentrations of 6PPD and 6PPD-Q Cause Oxidative Damage and Alter Metabolism in Eichhornia crassipes|Sci. Total Environ.951:8 p.|2024|10.1016/j.scitotenv.2024.175736
193722|T||Hua,X., and D. Wang|6-PPD Quinone at Environmentally Relevant Concentrations Induced Damage on Longevity in C. elegans: Mechanistic Insight from Inhibition in Mitochondrial UPR Response|Sci. Total Environ.954:11 p.|2024|10.1016/j.scitotenv.2024.176275
193723|A||Li,X., W. Liu, Y. Ge, R. Shi, C. Yin, J. Liu, Y. Zhao, Q. Wang, F. Mo, A. Zeb, and M. Yu|Response of Ceratophyllum demersum L. and Its Epiphytic Biofilms to 6PPD and 6PPD-Q Exposure: Based on Metabolomics and Microbial Community Analysis|J. Hazard. Mater.480:11 p.|2024|10.1016/j.jhazmat.2024.136420
193724|A||Liu,J., M. Yu, R. Shi, Y. Ge, J. Li, A. Zeb, Z. Cheng, and W. Liu|Comparative Toxic Effect of Tire Wear Particle-Derived Compounds 6PPD and 6PPD-Quinone to Chlorella vulgaris|Sci. Total Environ.951:9 p.|2024|10.1016/j.scitotenv.2024.175592
193725|T||Liu,Z., Y. Feng, W. Sun, B. Wang, C. Shi, R. Ran, Y. Zhang, L. Lu, and H. Zhang|Environmental Concentrations of 6PPD and 6PPD-Quinone Induce Hepatic Lipid Metabolism Disorders in Male Black-Spotted Frogs|J. Hazard. Mater.480:11 p.|2024|10.1016/j.jhazmat.2024.136400
193726|A||Mehinto,A.C., K.J. Kroll, B.S. Jayasinghe, C.M. Lavelle, D. Vandervort, O.K. Adeyemo, S.M. Bay, K.A. Maruya, and N.D. D|Linking In Vitro Estrogenicity to Adverse Effects in the Inland Silverside (Menidia beryllina)|Environ. Toxicol. Chem.37(3): 884-892|2018|10.1002/etc.4024
193727|A||Milligan,S.R., O. Khan, and M. Nash|Competitive Binding of Zenobiotic Estrogens to Rat alpha-Fetoprotein and to Sex Steroid Binding Proteins in Human and Rainbow Trout (Oncorhynchus mykiss) Plasma|Gen. Comp. Endocrinol.112:89-95|1998|10.1006/gcen.1998.7146
193728|A||Oliva,M., E. Mennillo, M. Barbaglia, G. Monni, F. Tardelli, V. Casu, and C. Pretti|The Serpulid Ficopomatus enigmaticus (Fauvel, 1923) as Candidate Organisms for Ecotoxicological Assays in Brackish and Marine Waters|Ecotoxicol. Environ. Saf.148:1096-1103|2018|10.1016/j.ecoenv.2015.10.006
193729|A||Puthumana,J., B.M. Kim, C.B. Jeong, D.H. Kim, H.M. Kang, J.H. Jung, I.C. Kim, U.K. Hwang, and J.S. Lee|Nine Co-Localized Cytochrome P450 Genes of the CYP2N, CYP2AD, and CYP2P Gene Families in the Mangrove Killifish Kryptolebias marmoratus Genome: Identification and Expression in Response to B alpha P, BPA, OP, and NP|Aquat. Toxicol.187:132-140|2017|10.1016/j.aquatox.2017.03.022
193730|A||Rastgar,S., R.A. Ardeshir, E. Zabihi, A. Movahedinia, and A.P. Salati|Immunotoxicity of Estrogen and Nonylphenol on Apoptosis and Expression of ERs in Goldfish Macrophage: Opening New Avenue for Discovering the Role of Experimental Model Systems and Sexes|Aquat. Toxicol.209:159-167|2019|10.1016/j.aquatox.2019.02.007
193731|T||Liu,Z., Y. Li, and D. Wang|Transgenerational Response of Glucose Metabolism in Caenorhabditis elegans Exposed to 6-PPD Quinone|Chemosphere367:10 p.|2024|10.1016/j.chemosphere.2024.143653
193732|T||Liu,Z., Y. Li, and D. Wang|Exposure to 6-PPD Quinone Disrupts Glucose Metabolism Associated with Lifespan Reduction by Affecting Insulin and AMPK Signals in Caenorhabditis elegans|Chemosphere363:10 p.|2024|10.1016/j.chemosphere.2024.14297
193733|A||Lv,M., X. Mao, Z. Lu, Y. Yang, J. Huang, Y. Cheng, C. Ye, Z. He, L. Shu, and D. Mo|6PPD Induces Cerebrovascular Defects by Triggering Oxidative Stress and Ferroptosis in Zebrafish|Sci. Total Environ.958:12 p.|2025|10.1016/j.scitotenv.2024.178004
193734|A||Qiu,X., J. Tang, Y. Zhang, M. Li, K. Chen, Y. Shi, and X. Wu|A Transcriptomics-Based Analysis of Mechanisms Involved in the Neurobehavioral Effects of 6PPD-Quinone on Early Life Stages of Zebrafish|Aquat. Toxicol.276:8 p.|2024|10.1016/j.aquatox.2024.107129
193735|A||Roberts,C., J. Lin, E. Kohlman, N. Jain, M. Amekor, A.J. Alcaraz, N. Hogan, M. Hecker, and M. Brinkmann|Acute and Subchronic Toxicity of 6PPD-Quinone to Early Life Stage Lake Trout (Salvelinus namaycush)|Environ. Sci. Technol.59(1): 791-797|2025|10.1021/acs.est.4c09090
193736|A||Jankowski,M.D., A.F. Carpenter, J.A. Harrill, F.R. Harris, B. Hill, R. Labiosa, S.S. Makarov, D. Martinovic-Weigelt, J.|Bioactivity of the Ubiquitous Tire Preservative 6PPD and Degradant, 6PPD-Quinone in Fish and Mammalian-Based Assays|Toxicol. Sci.:20 p.|2025|10.1093/toxsci/kfaf008
193737|A||Shi,C., F. Wu, Z. Zhao, T. Ye, X. Luo, Y. Wu, Z. Liu, and H. Zhang|Effects of Environmental Concentrations of 6PPD and Its Quinone Metabolite on the Growth and Reproduction of Freshwater Cladoceran|Sci. Total Environ.948:7 p.|2024|10.1016/j.scitotenv.2024.175018
193738|T||Song,M., Q. Ruan, and D. Wang|Paeoniflorin Alleviates Toxicity and Accumulation of 6-PPD Quinone by Activating ACS-22 in Caenorhabditis elegans|Ecotoxicol. Environ. Saf.286:10 p.|2024|10.1016/j.ecoenv.2024.117226
193739|A||Song,Z., X. Yu, M. Zhu, Z. Wu, Z. Fu, and J. Chen|Distinct Species-Specific and Toxigenic Metabolic Profiles for 6PPD and 6PPD Quinone by P450 Enzymes: Insights from In Vitro and in Silico Studies|Environ. Sci. Technol.58(34): 14994-15004|2024|
193740|T||Wang,J.X., Y. Zhang, J. Hu, Y.F. Li, K.V. Egorovich, P.N. Nikolaevna, M.V. Vasilevich, Z.F. Zhang, and Z.H. Tang|Metabolomics Combined with Physiology Reveal How White Clover (Trifolium repens L). Respond to 6PPD Stress|Sci. Total Environ.954:12 p.|2024|10.1016/j.scitotenv.2024.176121
193741|T||Wang,Y., J. Wu, and D. Wang|6-PPD Quinone Causes Lipid Accumulation Across Multiple Generations Differentially Affected by Metabolic Sensors and Components of COMPASS Complex in Caenorhabditis elegans|Environ. Pollut.366:12 p.|2025|10.1016/j.envpol.2024.125539
193742|A||Sfiligoj,B.J., C.K. King, S.G. Candy, and J.A. Mondon|Determining the Sensitivity of the Antarctic Amphipod Orchomenella pinguides to Metals Using a Joint Model of Survival Response to Exposure Concentration and Duration|Ecotoxicology24(3): 583-594|2015|10.1007/s10646-014-1406-4
193743|A||Seco,J.I., C. Fernandez-Pereira, and J. Vale|A Study of the Leachate Toxicity of Metal-Containing Solid Wastes Using Daphnia magna|Ecotoxicol. Environ. Saf.56:339-350|2003|10.1016/S0147-6513(03)00102-7
193744|A||Reichelt-Brushett,A., and M. Hudspith|The Effects of Metals of Emerging Concern on the Fertilization Success of Gametes of the Tropical Scleractinian Coral Platygyra daedalea|Chemosphere150:398-406|2016|10.1016/j.chemosphere.2016.02.048
193745|T||Wang,Y., and D. Wang|Transgenerational Intestinal Toxicity of 6-PPD Quinone in Causing ROS Production, Enhancement in Intestinal Permeability and Suppression in Innate Immunity in C. elegans|Environ. Pollut.363:9 p.|2024|10.1016/j.envpol.2024.125208
193746|T||Wu,J., S. Shen, and D. Wang|6-PPD Quinone at Environmentally Relevant Concentrations Induces Immunosenescenece by Causing Immunosuppression During the Aging Process|Chemosphere368:10 p.|2024|10.1016/j.chemosphere.2024.143719
193747|A||Xie,L., J. Yu, P. Nair, J. Sun, H. Barrett, O. Meek, X. Qian, D. Yang, L. Kennedy, D. Kozakiewicz, C. Hao, J.D. Hansen,|Structurally Selective Ozonolysis of P-Phenylenediamines and Toxicity in Coho Salmon and Rainbow Trout|Environ. Sci. Technol.58(49): 21423-21432|2024|10.1021/acs.est.4c04817
193748|A||Yan,X., C. Kiki, Z. Xu, H.P. Manzi, A. Rashid, T. Chen, and Q. Sun|Comparative Growth Inhibition of 6PPD and 6PPD-Q on Microalgae Selenastrum capricornutum, with Insights into 6PPD-Induced Phototoxicity and Oxidative Stress|Sci. Total Environ.957:9 p.|2024|10.1016/j.scitotenv.2024.177627
193749|A||Saravanan,M., S.E. Nam, H.J. Eom, D.H. Lee, and J.S. Rhee|Long-Term Exposure to Waterborne Nonylphenol Alters Reproductive Physiological Parameters in Economically Important Marine Fish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.216:10-18|2019|10.1016/j.cbpc.2018.11.009
193750|A||Sayed,A., and H.S. Hamed|Induction of Apoptosis and DNA Damage by 4-Nonylphenol in African Catfish (Clarias gariepinus) and the Antioxidant Role of Cydonia oblonga|Ecotoxicol. Environ. Saf.139:97-101|2017|10.1016/j.ecoenv.2017.01.024
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193752|A||You,X., X. Chen, Y. Jiang, H. Chen, J. Liu, Z. Wu, W. Sun, and J. Ni|6PPD-Quinone Affects the Photosynthetic Carbon Fixation in Cyanobacteria by Extracting Photosynthetic Electrons|Innovation5(4): 10 p.|2024|10.1016/j.xinn.2024.100630
193753|A||Zhao,Y., W. Liu, J. Liu, R. Shi, A. Zeb, X. Li, and Y. Ge|Phytotoxicity of 6PPD and Its Uptake by Myriophyllum verticillatum: Oxidative Stress and Metabolic Processes|Sci. Total Environ.955:10 p.|2024|10.1016/j.scitotenv.2024.177248
193754|A||Fang,C., S. Di, C. Wang, Q. Hu, and Y. Jin|Tire Rubber-Derived Contaminant 6PPD had the Potential to Induce Metabolism Disorder in Early Developmental Stage of Zebrafish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.287:8 p.|2025|10.1016/j.cbpc.2024.110062
193755|A||Huang,Z., C. Chen, K. Guan, S. Xu, X. Chen, Y. Lin, X. Li, and Y. Shan|Protective Role of Ghrelin Against 6PPD-Quinone-induced Neurotoxicity in Zebrafish Larvae (Danio rerio) via the GHSR Pathway|Ecotoxicol. Environ. Saf.285:8p.|2024|10.1016/j.ecoenv.2024.117031
193756|T||Liu,J., M. Yu, X. Li, Y. Ge, R. Shi, Y. Bao, Jianvi Liu, and W. Liu|Phytotoxicity of 6PPD and Its Oxidized Product 6PPD-Q on Pakchoi (Brassica rapa L. ssp. Chinensis)|Land Degrad. Dev.35(15): 4596-4606|2024|
193757|T||Wang,Y., and D. Wang|Exposure to 6-PPD Quinone Enhances Glycogen Accumulation in Caenorhabditis elegans|Environ. Pollut.359:9 p.|2024|10.1016/j.envpol.2024.124600
193758|A||Jin,L., S. Cheng, M. Ge, and L. Ji|Evidence for the Formation of 6PPD-Quinone from Antioxidant 6PPD by Cytochrome P450|J. Hazard. Mater.480:11 p.|2024|
193759|A||Santhi,J.J., A. Guru, M.R. Shaik, S.A. Hussain, and P.K. Issac|Understanding the Effects of Perfluorobutane Sulfonate in Zebrafish Larvae Model (Danio rerio): Insights into Potential Ecotoxicological Risks and Human Health|Comp. Biochem. Physiol. C Toxicol. Pharmacol.287:13 p.|2025|
193760|A||Xiao,J., D. Yang, B. Hu, W. Zha, W. Li, Y. Wang, F. Liu, X. Liao, H. Li, Q. Tao, S. Zhang, and Z. Cao|Perfluorodecanoic Acid Induces the Increase of Innate Cells in Zebrafish Embryos by Upregulating Oxidative Stress Levels|Comp. Biochem. Physiol. C Toxicol. Pharmacol.287:9 p.|2025|10.1016/j.cbpc.2024.110037
193761|A||Wu,L., J. Wang, H. Ye, Y. Yao, M. Hu, J. Cheng, L. Kong, W. Liu, and F. Ge|Impacts of Hexafluoropropylene Oxide Tetrameric Acid (HFPO-TeA) on Neurodevelopment and GABAergic Signaling in Zebrafish Larvae|Ecotoxicol. Environ. Saf.289:9 p.|2025|10.1016/j.ecoenv.2024.117424
193762|T||Zhang,X., Y. Kong, Z. He, W. Yu, W. Shao, C. Gong, W. Zhou, and X. Hu|Exploring the Effects of Perfluorooctanoic Acid (PFOA) and Tetrabromobisphenol A (TBBP-A) on Silkworm from the Insights of Metabolome|Ecotoxicol. Environ. Saf.289:8 p.|2025|10.1016/j.ecoenv.2024.117444
193763|A||Ankley,G.T., K.M. Jensen, J.E. Cavallin, C. Baettig, S. Balgooyen, B.R. Blackwell, C.A. Blanksma, J. Collins, M. Ellman|Effects of a Novel Estrogenic Perfluoroalkyl Substance on Reproductive Endocrinology and Function in the Fathead Minnow (Pimephales promelas) |Environ. Toxicol. Chem.:1-16|2025|
193764|A||Sayed,A.E.D.H., and H.A.M. Soliman|Modulatory Effects of Green Tea Extract Against the Hepatotoxic Effects of 4-Nonylphenol in Catfish (Clarias gariepinus)|Ecotoxicol. Environ. Saf.149:159-165|2018|10.1016/j.ecoenv.2017.11.007
193765|A||Ministry of International Trade and Industry Japan|Bioconcentration Test of 1,3-Dimethylbutylamine (Test Substance No. K-1051, 1203 Degradation Product B) in Koi|Final Report, Test Number 51203B:24 p.|1995|
193766|A||Toray Research Center, Inc.|Acute Immobilization Test on Daphnia magna exposed to N-(1,3-Dimethylbutyl)-N'-phenyl-1,4-benzenediamine|Test Number: NMMP/E99/2200:32 p.|2001|
193767|A||Toray Research Center, Inc.|Acute Toxicity Test on Oryzias latipes exposed to N-(1,3-Dimethylbutyl)-N'-phenyl-1,4-benzenediamine|Test Number: NMMP/E99/4200:33 p.|2001|
193768|A||Ministry of the Environment, Japan|Early-Life Stage Toxicity Test on Oryzias latipes Exposed to N-(1,3-Dimethylbutyl)-N'-phenyl-1,4-benzenediamine|Test Number: A020375:59 p.|2003|
193769|A||Ministry of International Trade and Industry Japan|Bioconcentration Test of N-Phenyl-p-benzoquinone imine (Test Substance No. K-1051, 1203 Degradation Product A) in Koi|Final Report, Test Number 51203A:22 p.|1995|
193770|AT||Sumida,K., N. Ooe, K. Saito, and H. Kaneko|Limited Species Difference in Estrogen Receptor alpha-Medicated Reporter Gene Transactivation by Xenoestrogens|J. Steroid Biochem. Mol. Biol.84(1): 33-40|2003|10.1016/S0960-0760(03)00003-7
193771|A||Tato,T., N. Salgueiro-Gonzalez, V.M. Leon, S. Gonzalez, and R. Beiras|Ecotoxicological Evaluation of the Risk Posed by Bisphenol A, Triclosan, and 4-Nonylphenol in Coastal Waters Using Early Life Stages of Marine Organisms (Isochrysis galbana, Mytilus galloprovincialis, Paracentrotus livi|Environ. Pollut.232:173-182|2018|10.1016/j.envpol.2017.09.031
193772|A||Tremblay,L., X. Yoa, and G. Van der Kraak|Interactions of the Environmental Estrogens Nonylphenol and beta-Estosterol with Liver Estrogen Receptors in Fish|In: F.W.Goetz and P.Thomas (Eds.), Proceedings of the Fifth International Symposium on the Reproductive Physiology of Fish, Austin, TX:1p.|1995|
193773|A||Zheng,R., Y. Zhang, C. Fang, M. Chen, F. Hong, and J. Bo|Joint Effects of Chronic Exposure to Environmentally Relevant Levels of Nonylphenol and Cadmium on the Reproductive Functions in Male Rockfish Sebastiscus marmoratus|Comp. Biochem. Physiol. C Toxicol. Pharmacol.215:25-32|2019|10.1016/j.cbpc.2018.09.006
193774|A||Flynn,K., K. Bush, J. Cavallin, M. Hazemi, A. Kasparek, P. Schumann, and D. Villeneuve|Transcriptomic Response of an Algal Species (Raphidocelis subcapitata) Exposed to 22 Per- and Polyfluoroalkyl Substances |Environ. Toxicol. Chem.:41 p.|2025|
193775|T||Wang,G., J. Sun, L. Li, J. Li, and P. Li|Perfluorobutanoic Acid Triggers Metabolic and Transcriptional Reprogramming in Wheat Seedlings|Sci. Total Environ.927:10 p.|2024|10.1016/j.scitotenv.2024.172343
193776|A||Burcham,L.E., T.D. Hoskins, E.B. Allmon, M.N. Scherer, A.G. Bushong, M.T. Hamilton, S. Macheri, G.S. Coogan, Y.J. Choi,|Does Salinity Mediate the Toxicity of Perfluorooctanesulfonic Acid (PFOS) in an Estuarine Fish?|Mar. Pollut. Bull.203:7 p.|2024|10.1016/j.marpolbul.2024.116446
193777|A||Li,J., L. Zhang, Q. Li, S. Zhang, W. Zhang, Y. Zhao, X. Zheng, and Z. Fan|Hormetic Effect of a Short-Chain PFBS on Microcystis aeruginosa and Its Molecular Mechanism|J. Hazard. Mater.467:12 p.|2024|10.1016/j.jhazmat.2024.133596
193778|A||Lin,Z., W. Zhou, Z. Ke, and Z. Wu|Ecotoxicity of Perfluorooctanoic Acid and Perfluorooctane Sulfonate on Aquatic Plant Vallisneria natans|Environ. Sci. Pollut. Res. Int.31(18): 26646-26664|2024|10.1007/s11356-024-32705-3
193779|A||Sun,B., Y. Shang, H. Chen, K. Khadka, Y. Pan, M. Hu, and Y. Wang|Perfluorooctanoate and Nano Titanium Dioxide Impair the Byssus Performance of the Mussel Mytilus coruscus|J. Hazard. Mater.469:18 p.|2024|10.1016/j.jhazmat.2024.134062
193780|A||Vega-Herrera,A., K. Savva, P. Lacoma, L.H.M.L.M. Santos, A. Hernandez, I. Marmelo, A. Marques, M. Llorca, and M. Farre|Bioaccumulation and Dietary Bioaccessibility of Microplastics Composition and Cocontaminants in Mediterranean Mussels|Chemosphere363:11 p.|2024|10.1016/j.chemosphere.2024.142934
193781|A||Canizares-Martinez,M.A., M.A. Quintanilla-Mena, M. Amendola-Pimenta, R. Rodriguez-Canul, F. Arcega-Cabrera, M. Del Rio-|Multiple-Integrated Biomarker Indexes to Assess the Responses of the Flatfish Achirus lineatus During Exposure to Light Crude Oil Water Accommodated Fraction|Bull. Environ. Contam. Toxicol.113(57): 8p.|2024|10.1007/s00128-024-03967-x
193782|A||Lyons,M., K. Mackeigan, W.L. Fairchild, and L.E. Burridge|Effects of 4-Nonylphenol and Formulations of Five Pesticides: Cypermethrin, Deltamethrin, Glyphosate, Imidacloprid and Mancozeb on Growth of Atlantic Salmon (Salmo salar L). During Parr-Smolt Transformation|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)3265:1-42|2018|
193783|A||Sei,S., M. Invidia, M. Giannetto, and G. Gorbi|Acartia tonsa Eggs as a Biomonitor to Evaluate Bioavailability/Toxicity of Persistent Contaminants in Anoxic/Sulfidic Conditions: The Case of Cadmium and Nickel|Ecotoxicol. Environ. Saf.132:1-8|2016|10.1016/j.ecoenv.2016.05.017
193784|A||Prophete,C., E.A. Carlson, Y. Li, J. Duffy, B. Steinetz, S. Lasano, and J.T. Zelikoff|Effects of Elevated Temperature and Nickel Pollution on the Immune Status of Japanese Medaka|Fish Shellfish Immunol.21(3): 325-334|2006|10.1016/j.fsi.2005.12.009
193785|A||Palermo,F.F., W.E. Risso, J.D. Simonato, and C.B.R. Martinez|Bioaccumulation of Nickel and Its Biochemical and Genotoxic Effects on Juveniles of the Neotropical Fish Prochilodus lineatus|Ecotoxicol. Environ. Saf.116:19-28|2015|10.1016/j.ecoenv.2015.02.032
193786|A||Niyogi,S., S.R. Nadella, and C.M. Wood|Interactive Effects of Waterborne Metals in Binary Mixtures on Short-Term Gill-Metal Binding and Ion Uptake in Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.165:109-119|2015|10.1016/j.aquatox.2015.05.016
193787|A||Nam,S.H., and Y.J. An|Paper-Disc Method:  An Efficient Assay for Evaluating Metal Toxicity to Soil Algae|Environ. Pollut.216:1-8|2016|10.1016/j.envpol.2016.04.061
193788|A||Olsen,C.M., E. Meussen-Elhom, J.K. Hongslo, J. Stenersen, and K.E. Tollefsen|Estrogenic Effects of Environmental Chemicals: An Interspecies Comparison|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.141:267-274|2005|10.1016/j.cca.2005.07.002
193789|A||Dutka,B.J., D. Liu, A. Jurkovic, R. Mcinnis, H.B. Lee, F. Onuska, and S.S. Rao|Observations from a Six Month Study on the Effect of Biodegradation Processes in Sediment on the Toxicity Potential of Targeted Chemicals|Environ. Toxicol. Chem.17(11): 313-322|1998|
193790|A||Van Emden,H.M., C.C.M. Kroon, E.N. Schoeman, and H.A. Van Seventer|Toxicity of Some Detergents Tested on Aedes aegypti L., Lebistes reticulatus Peters, and Biomphalaria glabrata (Say)|Environ. Pollut.6(4): 12 p.|1974|
193791|A||Fujiwara,K., Y. Matsumoto, H. Kawakami, M. Aoki, and M. Tuzuki|Evaluation of Metal Toxicity in Chlorella Kessleri from the Perspective of the Periodic Table|Bull. Chem. Soc. Jpn.81(4): 478-488|2008|
193792|T||Abdel-Gawad,R.M.|Insecticidal Activity of Moringa oleifera Synthesized Silver and Zinc Nanoparticles Against the House Fly, Musca domestica L.|Egypt. Acad. J. Biol. Sci., A Ent.11(4): 19-30|2018|
193793|A||Abdullah,S., and M. Javed|Studies on Acute Toxicity of Metals to the Fish, Catla catla|Pak. J. Biol. Sci.9(9): 1807-1811|2006|
193794|A||Antunes,P.M.C., and N.J. Kreager|Lead Toxicity to Lemna minor Predicted Using a Metal Speciation Chemistry Approach|Environ. Toxicol. Chem.33(10): 2225-2233|2014|10.1002/etc.2688
193796|A||Amaninejad,P., H. Hosseinzadeh Sahafi, M. Soltani, A. Kamali, and T. Naji|Effects of Endocrine Disruption by 4-Nonylphenol Ethoxylate on the Growth Performance and Immune Response of Female and Male Immature Koi Carp (Cyprinus carpio carpio)|Iran. J. Fish. Sci.17(4): 725-744|2018|10.22092/IJFS.2018.115509
193797|A||Miranda,R.A.|Effects of Exposure to Environmental Pollutants on Sexual Behavior, Reproduction, and Brain Gene Expression|Ph.D Thesis, Northern Arizona University, Flagstaff, AZ:161 p.|2013|
193798|A||Manakul,P., S. Peerakietkhajorn, T. Matsuura, Y. Kato, and H. Watanabe|Effects of Symbiotic Bacteria on Chemical Sensitivity of Daphnia magna|Mar. Environ. Res.128:70-75|2017|10.1016/j.marenvres.2017.03.001
193799|A||Sharma,M., P. Chadha, and S. Sharma|Acute and Sub Chronic Exposure of 4-Nonylphenol to Freshwater Fish Channa punctatus to Evaluate Its Cytotoxicity|Biochem. Cell. Arch.14(2): 5 p.|2014|
193800|AT||McClusky,L.M., S. Patrick, I.E.J. Barnhoorn, J.C. Van Dyk, C. De Jager, and M.S. Bornman|Immunohistochemical Study of Nuclear Changes Associated with Male Germ Cell Death and Spermiogenesis|J. Mol. Histol. (Berl.)40(4): 287-299|2009|10.1007/s10735-009-9240-3
193801|A||Beiras,R., and T. Tato|Microplastics do not Increase Toxicity of a Hydrophobic Organic Chemical to Marine Plankton|Mar. Pollut. Bull.138:58-62|2019|10.1016/j.marpolbul.2018.11.029
193802|A||Ping,L., Z. Qiong, and Z. Jiqiang|Toxicity of Nonylphenol on Microcystis aeruginosa Mediated by the Ascorbate-Glutathione (AsA-GSH) Cycle|Meteorol. Environ. Res10(2): 78-82,90|2019|
193803|A||Lerner,D.T., M.A. Sheridan, and S.D. Mccormick|Estrogenic Compounds Decrease Growth Hormone Receptor Abundance and Alter Osmoregulation in Atlantic Salmon|Gen. Comp. Endocrinol.179(2): 196-204|2012|10.1016/j.ygcen.2012.08.001
193804|A||Ahmadi,A., A. Noori, and M. Banaee|Acute Toxicity of Nonylphenol Ethoxylate-6 to Whiteleg Shrimp, Penaeus vannamei (Boone, 1931) (Decapoda, Penaeidae)|Int. J. Aquat. Biol.5(1): 1-6|2017|
193805|A||Bielmyer,G.K., J.B. Bullington, C.A. Decarlo, S.J. Chalk, and K. Smith|The Effects of Salinity on Acute Toxicity of Zinc to Two Euryhaline Species of Fish, Fundulus heteroclitus and Kryptolebias marmoratus|Integr. Comp. Biol.52(6): 753-760|2012|10.1093/icb/ics045
193806|A||Boran,H., and S. Saffak|Comparison of Dissolved Nickel and Nickel Nanoparticles Toxicity in Larval Zebrafish in Terms of Gene Expression and DNA Damage|Arch. Environ. Contam. Toxicol.74(1): 193-202|2018|10.1007/s00244-017-0468-8
193807|A||O'Halloran,S.L., K. Liber, J.A. Gangl, and M.L. Knuth|Effects of Repeated Exposure to 4-Nonyphenol on the Zooplankton Community in Littoral Enclosures|Environ. Toxicol. Chem.18(3): 376-385|1999|
193808|A||Asifa,K.P., P.V. Vidya, and K.C. Chitra|Assessment of Median Lethal Concentration (LC50-96h) and Behavioural Modification of Nonylphenol in the Cichlid Fish, Etroplus maculatus (Bloch, 1795)|Int. J. Adv. Life Sci.9(2): 190-195|2016|
193809|A||Zaitseva,T.B., B.L. Milman, N.V. Lugovkina, Y.N. Chernova, Y.V. Russkikh, S.M. Satayeva, and N.G. Medvedeva|Effect of Octyl- and Nonylphenols on Growth Photosynthetic Activity and Toxins' Forming of Cyanobacteria Planktothrix agardhii|Hydrobiol. J.51(6): 36-47|2015|10.1615/HydrobJ.v51.i6.40
193810|A||Amaninejad,P., H.H. Sahafi, M. Soltani, and S.P.H. Shekarabi|Endocrine Disrupting Effects of 4-Nonylphenol on Plasma Vitellogenin, Reproductive System and Histology in Koi Carp (Cyprinus carpio)|Int. Aquat. Res.10(3): 263-274|2018|10.1007/s40071-018-0203-8
193811|A||Chen,Z.W., and Z.L. Hua|Characteristics of Organic Matter Driven by Eichhornia crassipes During Co-Contamination with Per(Poly)Fluoroalkyl Substances (PFASS) and Microplastics (MPs)|Sci. Total Environ.953:15 p.|2024|10.1016/j.scitotenv.2024.176114
193812|A||David,N., E. Ivantsova, I. Konig, C.D. English, L. Avidan, M. Kreychman, M.L. Rivera, C. Escobar, E.M.A. Valle, A. Sult|Adverse Outcomes Following Exposure to Perfluorooctanesulfonamide (PFOSA) in Larval Zebrafish (Danio rerio): A Neurotoxic and Behavioral Perspective|Toxics12(10): 12 p.|2024|10.3390/toxics12100723
193813|A||Dong,S., J. Xu, X. Meng, X. Jiang, D. Yang, X. Zhao, X. Li, and G. Ding|Impact of Hexafluoropropylene Oxide Trimer Acid (HFPO-TA) on Sex Differentiation After Exposures During Different Development Stages of Zebrafish (Danio rerio)|Food Chem. Toxicol.194:|2024|
193814|T||Jiang,J.Y., C.M. How, C.W. Huang, Y.S. Luo, and C.C. Wei|Comparing the Obesogenic Effect and Regulatory Mechanisms of Long-Term Exposure to Per/Polyfluoroalkyl Substances with Different Terminal Groups in Caenorhabditis elegans|Chemosphere365:10p.|2024|10.1016/j.chemosphere.2024.143396
193815|A||Bozich,J., M.M. Hang, R. Hamers, and R. Klaper|Core Chemistry Influences the Toxicity of Multicomponent Metal Oxide Nanomaterials, Lithium Nickel Manganese Cobalt Oxide, and Lithium Cobalt Oxide to Daphnia magna|Environ. Toxicol. Chem.36(9): 2493-2502|2017|10.1002/etc.3791
193816|A||Cloran,C.E., G.A. Burton, C.R. Hammerschmidt, W.K. Taulbee, K.W. Custer, and K.L. Bowman|Effects of Suspended Solids and Dissolved Organic Carbon on Nickel Toxicity|Environ. Toxicol. Chem.29(8): 1781-1787|2010|10.1002/etc.226
193817|A||Dao,T.S., V.N. Le, B.T. Bui, K.V. Dinh, C. Wiegand, T.S. Nguyen, C.T. Dao, V.D. Nguyen, T.H. To, L.S.P. Nguyen, T.G. Vo|Sensitivity of a Tropical Micro-crustacean (Daphnia lumholtzi) to Trace Metals Tested in Natural Water of the Mekong River|Sci. Total Environ.574:1360-1370|2017|10.1016/j.scitotenv.2016.08.049
193818|A||Liu,M., B. Wang, S. Yi, X. Dou, Y. Zhang, H. Yu, X. Zhang, S. Dong, J. Feng, Z. Cao, and L. Zhu|Novel Insights into the Mechanisms of Bioaccumulation and Tissue-Specific Distribution of Hexafluoropropylene Oxide Homologues, Novel PFOA Alternatives, in Zebrafish (Danio rerio)|Environ. Int.192:10p.|2024|10.1016/j.envint.2024.109053
193819|A||Nozaka,T., T. Abe, T. Matsuura, T. Sakamotoa, N. Nakano, M. Maeda, and K. Kobayashi|Development of Vitellogenin Assay for Endocine Disruptors Using Medaka (Oryzias latipes)|Environ. Sci.11:99-121|2004|
193820|A||Park,S.Y., and J. Choi|Molecular Characterization and Expression Analysis of P38 MAPK Gene and Protein in Aquatic Midge, Chironomus riparius (Diptera: Chironomidae), Exposed to Environmental Contaminants|Arch. Environ. Contam. Toxicol.72(3): 428-438|2017|10.1007/s00244-017-0366-0
193821|A||Sayed,A.E.D.H., M. Abd-Elkareem, and N.S. Abou Khalil|Immunotoxic Effects of 4-Nonylphenol on Clarias gariepinus: Cytopathological Changes in Hepatic Melanomacrophages|Aquat. Toxicol.207:83-90|2019|10.1016/j.aquatox.2018.12.002
193822|A||Liu,S., M. Junaid, C. Wang, and J. Wang|Eco-Corona Enhanced the Interactive Effects of Nanoplastics and 6:2 Chlorinated Polyfluorinated Ether Sulfonate in Zebrafish Embryos|Sci. Total Environ.953:14 p.|2024|10.1016/j.scitotenv.2024.176223
193823|A||Min,E.K., S.Y. Park, K.H. Liu, and K.T. Kim|Applying Newly Suggested Simultaneous Analysis of Metabolomics and Lipidomics into Perfluorooctanesulfonate-Derived Neurotoxicity Mechanism in Zebrafish Embryos|J. Hazard. Mater.484:11 p.|2025|10.1016/j.jhazmat.2024.136712
193824|A||Soltanighias,T., A. Umar, M. Abdullahi, M.A. Abdallah, and L. Orsini|Combined Toxicity of Perfluoroalkyl Substances and Microplastics on the Sentinel Species Daphnia magna: Implications for Freshwater Ecosystems|Environ. Pollut.363(1): 11p.|2024|10.1016/j.envpol.2024.125133
193825|A||Wang,X., X. Yang, C. Lu, J. Zhang, B. Li, Z. Du, J. Wang, A. Juhasz, Y. Yang, and L. Zhu|Are HFPO-TA and HFPO-DA Safe Substitutes for PFOA? a Comprehensive Toxicity Study Using Zebrafish (Danio rerio) Embryos and Adults|J. Hazard. Mater.484:12 p.|2025|10.1016/j.jhazmat.2024.136718
193826|A||Wang,X., Y. Zhao, F. Li, Z. Li, J. Liang, H. Li, X. Zhang, and M. Zhang|Impact of the Novel Chlorinated Polyfluorinated Ether Sulfonate, F-53b, on Gill Structure and Reproductive Toxicity in Zebrafish|Aquat. Toxicol.275:10 p.|2024|10.1016/j.aquatox.2024.107072
193827|A||Xu,N., X. Jiang, Y. Liu, M. Junaid, M. Ahmad, C. Bi, W. Guo, C. Jiang, and S. Liu|Chronic Environmental Level Exposure to Perfluorooctane Sulfonate Overshadows Graphene Oxide to Induce Apoptosis Through Activation of the Ros-P53-Caspase Pathway in Marine Medaka Oryzias melastigma|Chemosphere365:14 p.|2024|
193828|T||Yeardley,R., M. Penrose, P.R. Montoyo, and M. Ateia|Acute, Chronic, and Behavioral Toxicity of Fluorine-Free Foams to Earthworm Species Eisenia fetida and Dendrobaena veneta|Chemosphere369:5 p.|2024|10.1016/j.chemosphere.2024.143860
193831|A||He,N., Z. Liu, X. Sun, S. Wang, W. Liu, D. Sun, and S. Duan|Phytotoxicity, Bioaccumulation, and Degradation of Nonylphenol in Different Microalgal Species Without Bacterial Influences|Int. J. Mol. Sci.21(4): 13 p.|2020|10.3390/ijms21041338
193832|A||Marcial,H.S., and A. Hagiwara|Multigenerational Effects of 17beta-Estradiol and Nonylphenol on Euryhaline Cladoceran Diaphanosoma celebensis|Fish. Sci.73:324-330|2007|
193833|A||Xiao,Q., S.C. Zhang, J.H. Hu, and Y.Y. Xu|Sperm of Rosy Barb (Puntius conchonius) as an In Vitro Assay System of Nonylphenol Cytotoxicity|J. Environ. Sci.18(3): 417-419|2006|
193834|A||Wang,L., Y. Kang, S.Y. Liang, D.Y. Chen, Q.Y. Zhang, L.X. Zeng, J.W. Luo, and F. Jiang|Synergistic Effect of Co-Exposure to Cadmium (II) and 4-N-Nonylphenol on Growth Inhibition and Oxidative Stress of Chlorella sorokiniana|Ecotoxicol. Environ. Saf.154:145-153|2018|10.1016/j.ecoenv.2018.02.039
193835|A||Yang,W., X. Gao, Y. Wu, L. Wan, C. Lu, J. Huang, H. Chen, Y. Yang, H. Ding, and W. Zhang|Chemical- and Species-Specific Toxicity of Nonylphenol and Octylphenol to Microalgae Chlorella pyrenoidosa and Scenedesmus obliquus|Environ. Toxicol. Pharmacol.81:10 p.|2021|10.1016/j.etap.2020.103517
193836|A||Demirel,S., B. Aslim, B. Ustun, and E.S. Yilmaz|Toxicity of Individual/Combined Effect of Zn+2, Fe+2, Cu+2 to Synechocystis sp. E35 Isolated from Kucukcekmece Lagoon, Istanbul|Hacettepe J. Biol. Chem.40(3): 227-231|2012|
193837|A||Garcia-Garcia,J.D., K.A. Pena-Sanabria, R. Sanchez-Thomas, and R. Moreno-Sanchez|Nickel Accumulation by the Green Algae-like Euglena gracilis|J. Hazard. Mater.343:10-18|2018|
193838|A||Gheorghe,S., G.G. Vasile, C. Gligor, I.E. Lucaciu, and M.N. Lazar|Metallic Elements (Cu, Zn, Ni and Mn) Toxicity Effects Determination on a Fresh Water Fish Cyprinus Carpio (Common Carp) Laboratory Acclimatized|Rev. Chim.68(8): 1711-1715|2017|
193839|A||Watanabe,H., Y. Horie, H. Takanobu, M. Koshio, K. Flynn, T. Iguchi, and N. Tatarazako|Medaka Extended One-Generation Reproduction Test Evaluating 4-Nonylphenol|Environ. Toxicol. Chem.36(12): 3254-3266|2017|10.1002/etc.3895
193840|A||Guclu,Z., and O.O. Ertan|Toxicity and Removal of Zinc in the Three Species (Acutodesmus obliquus, Desmodesmus subspicatus and Desmodesmus armatus) Belonging to the Family, Scenedesmaceae (Chlorophyta)|Turk. J. Fish. Aquat. Sci.12(2): 309-314|2012|10.4194/1303-2712-v12_2_16
193841|A||Hedayati,A., and Z. Ghaffari|Evaluation of the Effects of Exposure to Copper Sulfate on Some Eco-Physiological Parameters in Silver Carp (Hypophthalmichthys molitrix)|Iran. J. Toxicol.7(22): 887-893|2013|
193842|A||Magdaleno,A., C.G. Velez, M.T. Wenzel, and G. Tell|Effects of Cadmium, Copper and Zinc on Growth of Four Isolated Algae from a Highly Polluted Argentina River|Bull. Environ. Contam. Toxicol.92(2): 202-207|2014|10.1007/s00128-013-1171-8
193843|A||Holland,A., C.M. Wood, D.S. Smith, T.G. Correia, and A.L. Val|Nickel Toxicity to Cardinal Tetra (Paracheirodon axelrodi) Differs Seasonally and Among the Black, White and Clear River Waters of the Amazon Basin|Water Res.123:21-29|2017|10.1016/j.watres.2017.06.044
193844|AT||Han,X., D.L. Nabb, C.H. Yang, S.I. Snajdr, and R.T. Mingoia|Liver Microsomes and S9 from Rainbow Trout (Oncorhynchus mykiss): Comparison of Basal-Level Enzyme Activities with Rat and Determination of Xenobiotic Intrinsic Clearance in Support of Bioaccumulation Assessment|Environ. Toxicol. Chem.28(3): 481-488|2009|10.1897/08-269.1
193845|T||Bai,D.G., P.S. Ramu, S. Dhurua, and M. Suresh|Efficacy of Insecticidal Treatments on Natural Enemies of Sweet Corn|J. Entomol. Res.45(suppl): 953-957|2021|10.5958/0974-4576.2021.00149.3
193846|T||Gajbhiye,R.K., M. Raghuraman, I.D. Shyamrao, and A. Kumar|Bioefficacy of Conventional and Newer Insecticides Against Aphids, M. persicae (Sulzer) of Tomato in Varanasi Region|J. Entomol. Res.46(3): 576-580|2022|10.5958/0974-4576.2022.00100.1
193847|T||Gad,H.A., A.A.M. Atta, and S.A.M. Abdelgaleil|Effectiveness of Diatomaceous Earth Combined with Chlorfluazuron and Hexaflumuron in the Control of Callosobruchus maculatus and C. chinensis on Stored Cowpea Seeds|J. Stored Prod. Res.97:7 p.|2022|10.1016/j.jspr.2022.101985
193848|T||Gichere,S.N., K.S. Khakame, and O. Patrick|Susceptibility Evaluation of Fall Armyworm (Spodoptera frugiperda) Infesting Maize in Kenya Against a Range of Insecticides|J. Toxicol.2022:11 p.|2022|10.1155/2022/8007998
193849|A||Santos-Medrano,G.E., and R. Rico-Martinez|Lethal Effects of Five Metals on the Freshwater Rotifers Asplanchna brigthwellii and Brachionus calyciflorus|Hidrobiologica23(1): 82-86|2013|
193850|A||Gebara,R.C., L.D.G. Alho, G.S. Rocha, A.S. Mansano, and M.G.G. Melao|Zinc and Aluminum Mixtures Have Synergic Effects to the Algae Raphidocelis subcapitata at Environmental Concentrations|Chemosphere242:8 p.|2020|10.1016/j.chemosphere.2019.125231
193851|A||Singh,M., H. Khan, Y. Verma, and S.V.S. Rana|Distinctive Fingerprints of Genotoxicity Induced by as, Cr, Cd, and Ni in a Freshwater Fish|Environ. Sci. Pollut. Res.26:19445-19452|2019|10.1007/s11356-019-05274-z
193852|A||Marcial,H.S., and A. Hagiwara|Acute Toxic Concentrations of Endocrine Disrupting Compounds on the Copepod, the Cladoceran, and the Rotifer|Bull. Fac. Fish. Hokkaido Univ.89:37-43|2008|
193853|A||Jijie,R., G. Solcan, M. Nicoara, D. Micu, and S.A. Strungaru|Antagonistic Effects in Zebrafish (Danio rerio) Behavior and Oxidative Stress Induced by Toxic Metals and Deltamethrin Acute Exposure|Sci. Total Environ.698:12 p.|2020|10.1016/j.scitotenv.2019.134299
193854|A||Sbihi,K., O. Cherifi, A. El gharmali, B. Oudra, and F. Aziz|Accumulation and Toxicological Effects of Cadmium, Copper and Zinc on the Growth and Photosynthesis of the Freshwater Diatom Planothidium lanceolatum (Brebisson) Lange-Bertalot: A Laboratory Study|J. Mater. Environ. Sci.3(3): 497-506|2012|
193855|A||Kim,D., Y. Chae, and Y.J. An|Mixture Toxicity of Nickel and Microplastics with Different Functional Groups on Daphnia magna|Environ. Sci. Technol.51:12852-12858|2017|10.1021/acs.est.7b03732
193856|A||Krzykwa,J.C., A. Saeid, and M.K.S. Jeffries|Identifying Sublethal Endpoints for Evaluating Neurotoxic Compounds Utilizing the Fish Embryo Toxicity Test|Ecotoxicol. Environ. Saf.170:521-529|2019|10.1016/j.ecoenv.2018.11.118
193857|A||Mano,H., N. Shinohara, and W. Naito|Reproduction Sensitivity of Five Daphnia Species to Nickel|J. Water Environ. Technol.18(6): 372-382|2020|
193858|A||McKinley,K., I. McLellan, F. Gagne, and B. Quinn|The Toxicity of Potentially Toxic Elements (Cu, Fe, Mn, Zn and Ni) to the Cnidarian Hydra attenuata at Environmentally Relevant Concentrations|Sci. Total Environ.665:848-854|2019|10.1016/j.scitotenv.2019.02.193
193859|A||Park,C.B., J.W. Jung, D.H. Yeom, J. Jang, J.W. Park, and Y.J. Kim|Interactive Effects Between Components in Binary Mixtures of Zinc Sulfate and Iron Oxide Nanoparticles on Daphnia magna|Mol. Cell. Toxicol.15(3): 315-323|2019|10.1007/s13273-019-0035-7
193860|A||Parkerton,T.F., S.M. Stewart, K.L. Dickson, D.H.,Jr. Rodger, and F.Y. Saleh|Evaluation of the Indicator Species Procedure for Deriving Site-Specific Water Quality Criteria for Zinc|In: Adams WJ, Chapman GA, Landis WG, eds, Aquatic Toxicology and Hazard Assessment: 10th Volume, ASTM STP 97110:423-435|1988|
193861|A||Redelstein,R., H. Zielke, D. Spira, U. Feiler, L. Erdinger, H. Zimmer, S. Wiseman, M. Hecker, J.P. Giesy, T.B. Seiler, |Bioaccumulation and Molecular Effects of Sediment-Bound Metals in Zebrafish Embryos|Environ. Sci. Pollut. Res.22:16290-16304|2015|
193862|A||Rugnini,L., G. Costa, R. Congestri, and L. Bruno|Testing of Two Different Strains of Green Microalgae for Cu and Ni Removal from Aqueous Media|Sci. Total Environ.601-602:959-967|2017|10.1016/j.scitotenv.2017.05.222
193863|A||Gao,C., K.A.C. De Schamplielaere, and E. Smolders|Zinc Toxicity to the Alga Pseudokirchneriella subcapitata Decreases Under Phosphate Limiting Growth Conditions|Aquat. Toxicol.173:74-82|2016|10.1016/j.aquatox.2016.01.010
193865|A||Perez,E., and T.C. Hoang|Responses of Daphnia magna to Chronic Exposure of Cadmium and Nickel Mixtures|Chemosphere208:991-1001|2018|10.1016/j.chemosphere.2018.06.063
193866|A||Klemish,J.L., S.J. Bogart, A. Luek, M.J. Lannoo, and G.G. Pyle|Nickel Toxicity in Wood Frog Tadpoles: Bioaccumulation and Sublethal Effects on Body Condition, Food Consumption, Activity, and Chemosensory Function|Environ. Toxicol. Chem.37(9): 2458-2466|2018|10.1002/etc.4210
193867|A||Sivula,L., E.R. Vehniainen, A.K. Karjalainen, and J.V.K. Kukkonen|Toxicity of Biomining Effluents to Daphnia magna: Acute Toxicity and Transcriptomic Biomarkers|Chemosphere210:304-311|2018|10.1016/j.chemosphere.2018.07.030
193868|A||Peters,A., G. Merrington, C. Schlekat, K. De Schamphelaere, J. Stauber, G. Batley, A. Harford, R. Van Dam, C. Pease, T.|Validation of the Nickel Biotic Ligand Model for Locally Relevant Species in Australian Freshwaters|Environ. Toxicol. Chem.37(10): 2566-2574|2018|10.1002/etc.4213
193869|A||Lazzari,M., S. Bettini, L. Milani, M.G. Maurizii, and V. Franceschini|Differential Nickel-Induced Responses of Olfactory Sensory Neuron Populations in Zebrafish|Aquat. Toxicol.206:14-23|2019|10.1016/j.aquatox.2018.10.011
193870|A||Martinez,R.S., M.E. Saenz, J.L. Alberdi, and W.D. Di Marzio|Comparative Ecotoxicity of Single and Binary Mixtures Exposures of Nickel and Zinc on Growth and Biomarkers of Lemna gibba|Ecotoxicology28(6): 686-697|2019|10.1007/s10646-019-02065-7
193871|A||Pereira,C.M.S., K. Vlaeminck, K. Viaene, and K.A.C. De Schamphelaere|The Unexpected Absence of Nickel Effects on a Daphnia Population at 3 Temperatures is Correctly Predicted by a Dynamic Energy Budget Individual-Based Model|Environ. Toxicol. Chem.38(7): 1423-1433|2019|10.1002/etc.4407
193872|A||Nys,C., T. Van Regenmortel, and K. De Schamphelaere|The Effects of Nickel on the Structure and Functioning of a Freshwater Plankton Community Under High Dissolved Organic Carbon Conditions: A Microcosm Experiment|Environ. Toxicol. Chem.38(9): 1923-1939|2019|10.1002/etc.4504
193873|A||Wang,Z., K.W.Y. Yeung, G.J. Zhou, M.M.N. Yung, C.E. Schlekat, E.R. Garman, F. Gissi, J.L. Stauber, E.T. Middleton, Y.Y.|Acute and Chronic Toxicity of Nickel on Freshwater and Marine Tropical Aquatic Organisms|Ecotoxicol. Environ. Saf.206:9 p.|2020|10.1016/j.ecoenv.2020.111373
193874|A||Macoustra,G.K., D.F. Jolley, J.L. Stauber, D.J. Koppel, and A. Holland|Speciation of Nickel and Its Toxicity to Chlorella sp. in the Presence of Three Distinct Dissolved Organic Matter (DOM)|Chemosphere273:9 p.|2021|10.1016/j.chemosphere.2020.128454
193875|AT||Besser,J.M., W.G. Brumbaugh, N.E. Kemble, C.D. Ivey, J.L. Kunz, C.G. Ingersoll, and D. Rudel|Toxicity of Nickel-Spiked Freshwater Sediments to Benthic Invertebrates: Spiking Methodology, Species Sensitivity, and Nickel Bioavailability|Scientific Investigations Report 2011-5225, U.S.Geological Survey, Reston, VA:68 p.|2011|10.3133/sir20115225
193876|A||Deleebeeck,N.M.E., B.T.A. Muyssen, F. De Laender, C.R. Janssen, and K.A.C. De Schamphelaere|Comparison of Nickel Toxicity to Cladocerans in Soft Versus Hard Surface Waters|Aquat. Toxicol.84(2): 223-235|2007|10.1016/j.aquatox.2007.03.025
193877|A||Pereira,C.M.S., G. Everaert, R. Blust, and K.A.C. De Schamphelaere|Multigenerational Effects of Nickel on Daphnia magna Depend on Temperature and the Magnitude of the Effect in the First Generation|Environ. Toxicol. Chem.37(7): 1877-1888|2018|10.1002/etc.4135
193878|A||Nguyen,L.T.H., C.R. Janssen, and K.A.C. De Schamphelaere|Chronic Toxicity of Pb to Chironomus riparius in Five Natural Waters|Prepared for the International Lead Zinc Research Organisation. Ghent University, Ghent, Belgium:17 p.|2012|
193879|A||Besser,J.M., W.G. Brumbaugh, C.G. Ingersoll, C.D. Ivey, J.L. Kunz, N.E. Kemble, C.E. Schlekat, and E.R. Garman|Chronic Toxicity of Nickel-Spiked Freshwater Sediments: Variation in Toxicity Among Eight Invertebrate Taxa and Eight Sediments|Environ. Toxicol. Chem.32(11): 2495-2506|2013|
193880|A||Delahaut,V., B. Raskovic, M.S. Salvado, L. Bervoets, R. Blust, and G. De Boeck|Toxicity and Bioaccumulation of Cadmium, Copper and Zinc in a Direct Comparison at Equitoxic Concentrations in Common Carp (Cyprinus carpio) Juveniles|PLoS One15(4): 24 p.|2020|10.1371/journal.pone.0220485
193881|A||Qian,Q., J. Wu, C. Wang, Z. Yang, Y. Cheng, Y. Zheng, X. Wang, and H. Wang|6-PPD Triggered Lipid Metabolism Disorder and Inflammatory Response in Larval Zebrafish (Danio rerio) by Regulating PPARgamma/NF-kappaB Pathway|Environ. Pollut.368:12 p.|2025|10.1016/j.envpol.2025.125785
193882|A||Zhong,M., P. Yin, and L. Zhao|Toxic Effect of Nonylphenol on the Marine Macroalgae Gracilaria lemaneiformis (Gracilariales, Rhodophyta): Antioxidant System and Antitumor Activity|Environ. Sci. Pollut. Res.24(11): 10519-10527|2017|10.1007/s11356-017-8669-2
193883|A||Rios,F., A. Fernandez-Arteaga, M. Lechuga, and M. Fernandez-Serrano|Ecotoxicological Characterization of Polyoxyethylene Glycerol Ester Non-Ionic Surfactants and Their Mixtures with Anionic and Non-Ionic Surfactants|Environ. Sci. Pollut. Res.24(11): 10121-10130|2017|10.1007/s11356-017-8662-9
193884|A||Shao,Y., W. Zhao, J. Wei, S. Wang, Y. Wang, and Y. Zhang|Growth and Reproduction Effects and Transgenerational Effects of Nonylphenol in Moina mongolica Daday (Crustacea: Cladocera)|Environ. Sci. Pollut. Res.28(23): 29221-29230|2021|10.1007/s11356-021-12592-8
193885|A||Song,W.T., Z.J. Wang, and H.C. Liu|Effects of Individual and Binary Mixtures of Estrogens on Male Goldfish (Carassius auratus)|Fish Physiol. Biochem.40:1927-1935|2014|10.1007/s10695-014-9980-1
193886|A||Kawashima,Y., Y. Onishi, N. Tatarazako, H. Yamamoto, M. Koshio, T. Oka, Y. Horie, H. Watanabe, T. Nakamoto, J. Yamamoto|Summary of 17 Chemicals Evaluated by OECD TG229 Using Japanese Medaka, Oryzias latipes in EXTEND 2016|J. Appl. Toxicol.42(5): 750-777|2022|10.1002/jat.4255
193887|A||Omagari,R., M. Katsumata, K. Arizono, and Y. Ishibashi|Toxicity Evaluation of 4-Nonylphenol Isomers with Ecotoxicological Bioassay Using Delayed Luminescence in the Green Alga Pseudokirchneriella subcapitata|J. Env. Saf.8(2): 57-63|2017|10.11162/daikankyo.E16RP0801
193888|A||Mackay,S.B., C. Brereton, and D.A. Bergman|Chronic Effects of Nonylphenol on Reproductive Behavior and Development of Crayfish|Integr. Comp. Biol.57:1p.|2017|
193889|A||Feng,Y., A. Wang, W. Fu, and D. Song|Growth Performance, Antioxidant Response, Biodegradation and Transcriptome Analysis of Chlorella pyrenoidosa After Nonylphenol Exposure|Sci. Total Environ.806:9p.|2022|10.1016/j.scitotenv.2021.150507
193890|A||Beiras,R., S. Muniategui-Lorenzo, R. Rodil, T. Tato, R. Montes, S. Lopez-Ibanez, E. Concha-Grana, P. Campoy-Lopez, N. S|Polyethylene Microplastics do not Increase Bioaccumulation or Toxicity of Nonylphenol and 4-MBC to Marine Zooplankton|Sci. Total Environ.692:9p.|2019|10.1016/j.scitotenv.2019.07.106
193891|A||Cheng,Q., L. Du, L. Xu, Y. Zhao, J. Ma, and H. Lin|Toxicity Alleviation and Metabolism Enhancement of Nonylphenol in Green Algae Dictyosphaerium sp. by NaHCO3|Sci. Total Environ.848:11p.|2022|10.1016/j.scitotenv.2022.157698
193892|A||Rakaj,A., L. Morroni, L. Grosso, A. Fianchini, D. Pensa, D. Pellegrini, and F. Regoli|Towards Sea Cucumbers as a New Model in Embryo-Larval Bioassays: Holothuria tubulosa as Test Species for the Assessment of Marine Pollution|Sci. Total Environ.:11p.|2021|10.1016/j.scitotenv.2021.147593
193893|A||Kim,H., B. Yim, C. Bae, and Y.M. Lee|Acute Toxicity and Antioxidant Responses in the Water Flea Daphnia magna to Xenobiotics (Cadmium, Lead, Mercury, Bisphenol A, and 4-Nonylphenol)|Toxicol. Environ. Health Sci.9(1): 41-49|2017|10.1007/s13530-017-0302-8
193894|A||Shaliutina,O., A. Shaliutina-Kolesova, I. Lebeda, M. Rodina, and I. Gazo|The In Vitro Effect of Nonylphenol, Propranolol, and Diethylstilbestrol on Quality Parameters and Oxidative Stress in Sterlet (Acipenser ruthenus) Spermatozoa|Toxicol. In Vitro43:9-15|2017|10.1016/j.tiv.2017.05.006
193895|A||Ding,N., L. Wang, Y.H.O.O. Kang, K. Luo, D. Zeng, Y.B. Man, Q. Zhang, L. Zeng, J. Luo, and F. Jiang|The Comparison of Transcriptomic Response of Green Microalga Chlorella sorokiniana Exposure to Environmentally Relevant Concentration of Cadmium(II) and 4-N-Nonylphenol|Environ. Geochem. Health42(9): 2881-2894|2020|10.1007/s10653-020-00526-1
193896|A||Okai,Y., H. Okuwa-Hayashi, K. Higashi-Okai, T. Yamane, Y. Tanaka, H. Inui, T. Sakamoto, and Y. Nakano|Effects of an Environmental Endocrine Disruptor, Para-Nonylphenol on the Cell Growth of Euglena gracilis: Association with the Cellular Oxidative Stress|Environ. Microbiol. Rep.14(1): 25-33|2022|10.1111/1758-2229.13032
193897|A||Vered,G., and N. Shenkar|Limited Effects of Environmentally-Relevant Concentrations in Seawater of Dibutyl Phthalate, Dimethyl Phthalate, Bisphenol A, and 4-Nonylphenol on the Reproductive Products of Coral-Reef Organisms|Environ. Pollut.314:10 p.|2022|
193898|A||Roggio,M.A., A.C. Hued, and M.D.L.A. Bistoni|Effects of 4n-Nonylphenol Exposure on the Reproductive Behavior and Testis Histology of Jenynsia multidentata (Anablepidae: Cyprinodontiformes)|Environ. Sci.43:31-45|2012|
193899|A||Abdel-Wareth,M.T.A., and S.S.M. Sayed|Reprotoxicity of 4-Nonylphenol to Biomphalaria alexandrina Snails at Certain Temperatures|Environ. Sci. Pollut. Res.26(18): 18533-18540|2019|10.1007/s11356-019-05142-w
193900|A||Ke,Z., D. Wang, and Z. Wu|Separate and Combined Effects of Cadmium (Cd) and Nonylphenol (NP) on Growth and Antioxidative Enzymes in Hydrocharis dubia (Bl.) Backer|Environ. Sci. Pollut. Res.29(52): 78913-78925|2022|10.1007/s11356-022-21164-3
193901|A||Spadoto,M., A.P.E. Sueitt, C.A. Galinaro, T.D.S. Pinto, C.M.E. Pompei, C.M.R. Botta, and E.M. Vieira|Ecotoxicological Effects of Bisphenol A and Nonylphenol on the Freshwater Cladocerans Ceriodaphnia silvestrii and Daphnia similis|Drug Chem. Toxicol.41(4): 449-458|2018|10.1080/01480545.2017.1381109
193902|A||Hwang,I.J., Y.D. Lee, H.B. Kim, and H.J. Baek|Estrogenic Activity of Nonylphenol in Marine Fish, Hexagrammos otakii, During Oocyte Development by Evaluating Sex Steroid Levels|Cybium32(2): 251-252|2008|10.26028/cybium/2008-322SP-126
193903|A||Miura,C., N. Takahashi, F. Michino, and T. Miura|The Effect of Para-Nonylphenol on Japanese Eel (Anguilla japonica) Spermatogenesis In Vitro|Aquat. Toxicol.71(2): 133-141|2005|10.1016/j.aquatox.2004.10.015
193904|T||Patricio Silva,A.L., K. Enggrob, S. Slotsbo, M.J.B. Amorim, and M. Holmstrup|Importance of Freeze-Thaw Events in Low Temperature Ecotoxicology of Cold Tolerant Enchytraeids|Am. Chem. Soc. Conf. Proc. Ser.48(16): 9790-9796|2014|10.1021/es502161z
193905|A||Abdel Rahman,A.N., S.M. Mahmoud, T. Khamis, N. Rasheed, D.I. Mohamed, R. Ghanem, D.M. Mansour, T.A. Ismail, and H.H. Ma|Palliative Effect of Dietary Common Sage Leaves Against Toxic Impacts of Nonylphenol in Mirror Carp (Cyprinus carpio var. Specularis): Growth, Gene Expression, Immune-Antioxidant Status, and Histopathological Alteration|Aquac. Rep.25:10 p.|2022|10.1016/j.aqrep.2022.101200
193906|A||Celino-Brady,F.T., C.K. Petro-Sakuma, J.P. Breves, D.T. Lerner, and A.P. Seale|Early-Life Exposure to 17beta-Estradiol and 4-Nonylphenol Impacts the Growth Hormone/Insulin-Like Growth-Factor System and Estrogen Receptors in Mozambique Tilapia, Oreochromis mossambicus|Aquat. Toxicol.217:10 p.|2019|10.1016/j.aquatox.2019.105336
193907|A||Khots,M., K. Haya, L.E. Burridge, S.B. Brown, and W.L. Fairchild|Influence of Chemical Exposure on Growth of Atlantic Salmon Smolts: Time Series Models Approach|Can. Tech. Rep. Fish. Aquat. Sci. (Multiple Languages)2973:1-17|2011|
193908|A||Gautam,G.J., R. Chaube, and K.P. Joy|In Vitro Effects of 4-Nonylphenol on Oocyte Maturation and Ovarian Steroid Hormone Dynamics in the Catfish Heteropneustes fossilis|Aquacult. Stud.18(2): 89-101|2018|10.4194/2618-6381-v18_2_03
193909|A||Santos,F.M., L.P. Mazur, D.A. Mayer, V.J. Vilar, and J.C. Pires|Inhibition Effect of Zinc, Cadmium, and Nickel Ions in Microalgal Growth and Nutrient Uptake from Water: An Experimental Approach|Chem. Eng. J.366:358-367|2019|10.1016/j.cej.2019.02.080
193910|A||Shuhaimi-Othman,M., N. Yakub, N.A. Ramle, and A. Abas|Comparative Toxicity of Eight Metals on Freshwater Fish|Toxicol. Ind. Health31(9): 773-782|2012|10.1177/0748233712472519
193911|A||Yokota,S., K. Nakamura, and R. Kamata|A Comparative Study of Nickel Nanoparticle and Ionic Nickel Toxicities in Zebrafish: Histopathological Changes and Oxidative Stress|J. Toxicol. Sci.44(11): 737-751|2019|
193912|A||Yong,W.K., K.S. Sim, S.W. Poong, D. Wei, S.M. Phang, and P.E. Lim|Physiological and Metabolic Responses of Scenedesmus quadricauda (Chlorophyceae) to Nickel Toxicity and Warming|3 Biotech9(8): 1-11|2019|10.1007/s13205-019-1848-8
193913|A||Abou Khalil,N.S., M. Abd-Elkareem, and A.H. Sayed|Nigella sativa Seed Protects Against 4-Nonylphenol-Induced Haematotoxicity in Clarias gariepinus (Burchell, 1822): Oxidant/Antioxidant Rebalance|Aquac. Nutr.23(6): 1-8|2017|10.1111/anu.12522
193914|A||Bin-Dohaish,E.J.A,, T.H. Alazwary, H.A. Mohamed, and E.K.A. Hady|Effect of 4-Nonylphenol on Some Biochemical Parameters and Histological Changes in Liver of Toad Arab Bufo arabicus in Taif City, Saudi Arabia|World J. Fish Mar. Sci.6(6): 516-523|2014|10.5829/idosi.wjfms.2014.06.06.86139
193915|A||Fernandes,D., M.J. Bebianno, and C. Porte|Mitochondial Metabolism of 17alpha-Hydroxyprogesterone in Male Sea Bass (Dicentrarchus labrax): A Potential Target for Endocrine Disruptors|Aquat. Toxicol.85(4): 258-266|2007|10.1016/j.aquatox.2007.09.010
193916|A||Han,X., R.T. Mingoia, D.L. Nabb, C.H. Yang, S.I. Snajdr, and R.A. Hoke|Xenobiotic Intrinsic Clearance in Freshly Isolated Hepatocytes from Rainbow Trout (Oncorhynchus mykiss): Determination of Trout Hepatocellularity, Optimization of Cell Concentrations and Comparison of Serum and Serum-Fr|Aquat. Toxicol.89(1): 11-17|2008|10.1016/j.aquatox.2008.05.010
193917|A||Hart,C.E., M.J. Lauth, C.S. Hunter, B.R. Krasny, and K.M. Hardy|Effect of 4-Nonylphenol on the Immune Response of the Pacific Oyster Crassostrea gigas Following Bacterial Infection with Vibrio campbellii|Fish Shellfish Immunol.58:449-461|2016|
193918|A||Hwang,U.G., and J.C. Kang|Effect of Nonylphenol on Plasma Glutamate Oxaloacetate Transaminase (GOT) and Glutamate Pyruvate Transaminase (GPT) in the Juvenile Rockfish, Sebastes schlegeli|Fish. Aquat. Sci.5(4): 308-310|2002|
193919|A||Jana,P., N.P. Sahu, S. Dasgupta, G. Gupta, S.K. Ray, B.K. Mahapatra, and G.H. Pailan|Dietary Neem Oil and Nonylphenol Accelerate Somatic Growth by Suppressing Sex Steroids Mediated Gonadal Growth in Reproductively Active Labeo bata (Hamilton, 1822)|Aquac. Res.52:5247-5259|2021|10.1111/are.15393
193920|A||Kim,B.H., A. Takemura, and M. Nakamura|Comparison of In Vitro Vitellogenin Synthesis Among Different Nonylphenol Products Using Primary Cultures of Tilapia Hepatocytes|Fish. Sci.68(4): 838-842|2002|
193921|A||Farajizadeh,A., M. Giacomin, and G. Goss|Enhanced Uptake of Perfluorooctanoic Acid by Polystyrene Nanoparticles in Pacific Oyster (Magallana gigas)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:12 p.|2025|10.1016/j.cbpc.2024.110119
193922|T||Li,K., C. Zhang, Y. Ren, X. Liu, D. Pan, W. Dou, J.J. Wang, and G. Yuan|Risk Assessment of Broflanilide Resistance in Panonychus citri (McGregor): Cross-Resistance, Inheritance and Relative Fitness|Pestic. Biochem. Physiol.208:10 p.|2025|10.1016/j.pestbp.2024.106256
193923|A||Qian,M., W. Sun, L. Cheng, Y. Wu, L. Wang, and H. Liu|Transcriptome-Based Analysis Reveals the Toxic Effects of Perfluorononanoic Acid by Affecting the Development of the Cardiovascular System and Lipid Metabolism in Zebrafish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:13 p.|2025|10.1016/j.cbpc.2024.110108
193924|A||Santhi,J.J., P.K. Issac, M. Velayutham, S.A. Hussain, M.R. Shaik, B. Shaik, and A. Guru|Reproductive Toxicity of Perfluorobutane Sulfonate in Zebrafish (Danio rerio): Impacts on Oxidative Stress, Hormone Disruption and HPGL Axis Dysregulation|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:12 p.|2025|10.1016/j.cbpc.2025.110122
193925|A||Song,H., M. Dong, W. Wang, X. Wang, D. Tian, X. Wang, and D. Xu|Sub-Acute Exposure of Sea Urchin (Strongylocentrotus intermedius) to Environmentally Relevant Concentrations of PFOA and GenX Influences Gonadal Development|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:8 p.|2025|10.1016/j.cbpc.2024.110104
193926|T||Huang,Z.H., Q. Pan, Z. Wu, Y.C. Shen, S.C. Li, Q.Q. Yang, S.H. Zhang, S. Lei, Y.Y. Cui, L.L. Ding, S.J. Yu, L. Liu, L. |A UDP-glucuronosyltransferase Gene UGT379A1 Involved in Detoxification of Lufenuron in Diaphorina citri|Pestic. Biochem. Physiol.208:9 p.|2025|10.1016/j.pestbp.2024.106260
193927|A||Widhalm,R., S. Granitzer, B. Natha, O. Zoboli, J. Derx, H. Zeisler, H. Salzer, S. Weiss, N. Schmitner, R.A. Kimmel, T. |Perfluorodecanoic Acid (PFDA) Increases Oxidative Stress Through Inhibition of Mitochondrial beta-Oxidation|Environ. Pollut.367:12 p.|2025|10.1016/j.envpol.2024.125595
193928|A||Van Regenmortel,T., and K.A.C. De Schamphelaere|Mixtures of Cu, Ni, and Zn Act Mostly Noninteractively on Pseudokirchneriella subcapitata Growth in Natural Waters|Environ. Toxicol. Chem.37(2): 587-598|2018|
193929|A||Pham,C.H., K.S. Park, B.C. Kim, H.N. Kim, and M.B. Gu|Construction and Characterization of Japanese Medaka (Oryzias latipes) Hepatic cDNA Library and Its Implementation to Biomarker Screening in Aquatic Toxicology|Aquat. Toxicol.105(3/4): 569-575|2011|10.1016/j.aquatox.2011.08.019
193930|A||Rastgar,S., A. Movahedinia, N. Salamat, A.P. Salati, and E. Zabihi|Interruption of Immune Responses in Primary Macrophages Exposed to Nonylphenol Provides Insights into the Role of ER and NF-KB in Immunotoxicity of Persian Sturgeon|Fish Shellfish Immunol.86:125-134|2019|
193931|A||Robertson,L.S., and S.D. McCormick|The Effect of Nonylphenol on Gene Expression in Atlantic Salmon Smolts|Aquat. Toxicol.122-123:36-43|2012|10.1016/j.aquatox.2012.05.009
193932|A||Sole,M., and J.C. Sanchez-Hernandez|An In Vitro Screening with Emerging Contaminants Reveals Inhibition of Carboxylesterase Activity in Aquatic Organisms|Aquat. Toxicol.169:215-222|2015|10.1016/j.aquatox.2015.11.001
193933|A||Sung,H.H., and Y.J. Su|Effects of Nonylphenol and Nonylphenol Monoethoxylate on Hemocytes of the Giant Freshwater Prawn (Macrobrachium rosenbergii): An In Vitro Study on Viability and Immune Response|J. Fish. Soc. Taiwan32(2): 101-111|2005|10.29822/JFST.200506.0002
193934|A||Tse,A.C.K., K.Y.T. Lau, W. Ge, and R.S.S. Wu|A Rapid Screening Test for Endocrine Disrupting Chemicals Using Primary Cell Culture of the Marine Medaka|Aquat. Toxicol.144-145:50-58|2013|10.1016/j.aquatox.2013.09.022
193935|A||Turker,H., and A. Takemura|Effects of Environmental Contaminants and Natural Substances on Vitellogenesis in Tilapia Primary Hepatocytes|Turk. J. Fish. Aquat. Sci.11(4): 539-545|2011|10.4194/1303-2712-v11_4_07
193936|A||Maxwell,K.E., and W.D. Piper|Molecular Structure of Nonionic Surfactants in Relation to Laboratory Insecticidal Activity|J. Econ. Entomol.61(6): 1633-1636|1968|10.1093/jee/61.6.1633
193937|A||Ohkimoto,K., T. Sugahara, Y. Sakakibara, M. Suiko, M.Y. Liu, G. Carter, and M.C. Liu|Sulfonation of Environmental Estrogens by Zebrafish Cytosolic Sulfotransferases|Biochem. Biophys. Res. Commun.309:7-11|2003|10.1016/S0006-291X(03)01524-9
193938|A||Nilsen,M.M., S. Meier, B.K. Larsen, O.K. Andersen, and A. Hjelle|An Estrogen-Responsive Plasma Protein Expression Signature in Atlantic Cod (Gadus morhua) Revealed by SELDI-TOF MS|Ecotoxicol. Environ. Saf.74(8): 2175-2181|2011|10.1016/j.ecoenv.2011.07.036
193940|A||Zheng,P.H., Y.P. Lu, X.X. Zhang, K.E. Luan, Z.L. Zhang, J.J. Li, T. Xu, J.T. Li, J. Xian, H. Guo, and A.L. Wang|New Insights into the Regulation Mechanism of Pacific White Shrimp (Litopenaeus vannamei) Hepatopancreas Under 4-Nonylphenol Exposure Using Transcriptome Analysis|Fish Shellfish Immunol.141:12 p.|2023|
193941|A||Martinez-Ruiz,E.B., and F. Martinez-Jeronimo|Nickel has Biochemical, Physiological, and Structural Effects on the Green Microalga Ankistrodesmus falcatus:  An Integrative Study|Aquat. Toxicol.169:27-36|2015|10.1016/j.aquatox.2015.10.007
193942|A||Klempt,M., M. Vobach, H. Wiegand, T.G. Preuss, A. Schaffer, and U. Kammann|353-Nonylphenol Induces Expression of the T-BOX6 Gene in Zebrafish Embryos - Linking Transcriptional Information with Deformities|J. Fish. Sci.7(1): 30-42|2013|
193943|A||Liu,J., H. Chen, M. Zhao, S. Deng, G. Li, C. Zhu, and Y. Hong|Molecular Characterization of Estrogen-Related Receptor (ERR) of Macrobrachium rosenbergii and Its Differential Expression During Ovary Development Stages and NP Exposures|Turk. J. Fish. Aquat. Sci.19(7): 561-570|2019|10.4194/1303-2712-v19_7_03
193944|A||Ayoola,J.A.O., J. Garcia-Alonso, and J.D. Hardege|Glutathione-S-Transferase in Nereis succinea (Polychaeta) and Its Induction by Xeno-Estrogen|Environ. Toxicol.26(5): 559-565|2011|10.1002/tox.20580
193945|A||Mohamed,W.A.M., W. El-Houseiny, R.E. Ibrahim, and Y.M. Abd-Elhakim|Palliative Effects of Zinc Sulfate Against the Immunosuppressive, Hepato- and Nephrotoxic Impacts of Nonylphenol in Nile Tilapia (Oreochromis niloticus)|Aquaculture504:227-238|2019|10.1016/j.aquaculture.2019.02.004
193946|A||Abd-Elkareem,M., A.E.H. Sayed, N.S.A. Khalil, and M.H. Kotob|Nigella sativa Seeds Mitigate the Hepatic Histo-Architectural and Ultrastructural Changes Induced by 4-Nonylphenol in Clarias gariepinus|Sci. Rep.13(1): 13 p.|2023|
193947|A||Aliakbarzadeh,F., M. Rafiee, F. Khodagholi, M.R. Khorramizadeh, H. Manouchehri, A. Eslami, F. Sayehmiri, and A. Mohseni|Adverse Effects of Polystyrene Nanoplastic and Its Binary Mixtures with Nonylphenol on Zebrafish Nervous System: From Oxidative Stress to Impaired Neurotransmitter System|Environ. Pollut.317:9 p.|2023|10.1016/j.envpol.2022.120587
193948|A||Bottalico,L.N., J. Korlyakova, A.M. Weljie, and H.R. Habibi|Seasonally Related Disruption of Metabolism by Environmental Contaminants in Male Goldfish (Carassius auratus)|Front. Toxicol.3:1-16|2021|10.3389/ftox.2021.750870
193949|A||De Gregorio,L.S., L. Franco-Belussi, and C. De Oliveira|Leukocyte Profile of Tadpoles and Juveniles of Lithobates catesbeianus Shaw, 1802 (Anura) and the Effects of Nonylphenol and Cyproterone Acetate|South Am. J. Herpetol.20(1): 75-83|2021|10.2994/SAJH-D-19-00111.1
193950|A||Tollefsen,K.E.|Binding of Alkylphenols and Alkylated Non-Phenolics to the Rainbow Trout (Oncorhynchus mykiss) Plasma Sex Steroid-Binding Protein|Ecotoxicol. Environ. Saf.68:40-48|2007|10.1016/j.ecoenv.2006.07.002
193951|A||De la Fuente,M., R. Martin Folgar, P. Martinez-Paz, E. Cortes, J. Luis Martinez-Guitarte, and M. Morales|Effect of Environmental Stressors on the mRNA Expression of Ecdysone Cascade Genes in Chironomus riparius|Environ. Sci. Pollut. Res.29(7): 10210-10221|2022|10.1007/s11356-021-16339-3
193952|A||Eid,Z., U.M. Mahmoud, I.A.A. Mekkawy, H.S. Abdel-Tawab, and A.E.D.H. Sayed|4-Nonylphenol Induced Brain Damage in Juvenile African Catfish (Clarias garepinus)|Toxicol. Environ. Health Sci.13(3): 201-214|2021|10.1007 /s 13530-021-00080-y
193953|A||Gautam,G.J., and R. Chaube|Modulation of Antioxidant Defence System in Ovary and Liver of Catfish Heteropneustes fossilis (Bloch, 1794) and Induction of Atresia in Ovary After Chronic Exposure of 4-Nonylphenol|J. Exp. Zool. India24(1): 761-774|2021|
193954|A||Shanthanagouda,A.H., D. Nugegoda, K.L. Hassell, and J.G. Patil|Exposure to Estrogenic Chemicals Induces Ectopic Expression of VTG in the Testis of Rainbowfish, Melanotaenia fluviatilis|Bull. Environ. Contam. Toxicol.91(4): 438-443|2013|10.1007/s00128-013-1078-4
193955|A||Yamin,M., E. Supriyono, K. Nirmala, M. Zairin, E. Haris, and R. Rahmawati|The Effect of Nonylphenol on Spermiogram, Hematological Properties and Reproductive Ability of Comet Goldfish (Carassius auratus)|Aquacult. Aquarium Conserv. Legis.10(4): 786-796|2017|
193956|A||Tollefsen,K.E., and A. Julie Nilsen|Binding of Alkylphenols and Alkylated Non-phenolics to Rainbow Trout (Oncorhynchus mykiss) Hepatic Estrogen Receptors|Ecotoxicol. Environ. Saf.69(2): 163-172|2008|10.1016/j.ecoenv.2007.04.010
193957|A||Goncalves,Y.C., B.H. Da Silva, C.R. De Godoy, F.T. Rantin, A.L. Kalinin, and D.A. Monteiro|Subchronic Exposure to Nonylphenol Ethoxylate (NPE) Induces Cardiotoxicity and Oxidative Stress in American Bullfrog Tadpoles: A Mechanistic Approach|Ecotoxicology:12p.|2024|10.1007/s10646-024-02822-3
193958|A||Tollefsen,K.E., S. Eikvar, E.G. Finne, O. Fogelberg, and I.K. Gregersen|Estrogenicity of Alkylphenols and Alkylated Non-phenolics in a Rainbow Trout (Oncorhynchus mykiss) Primary Hepatocyte Culture|Ecotoxicol. Environ. Saf.71:370-383|2008|10.1016/j.ecoenv.2007.10.006
193959|A||Pawlowski,S., M. Islinger, A. Volkl, and T. Braunbeck|Temperature-Dependent Vitellogenin-mRNA Expression in Primary Cultures of Rainbow Trout (Oncorhynchus mykiss) Hepatocytes at 14 and 18 Degrees C|Toxicol. In Vitro14:531-540|2000|10.1016/S0887-2333(00)00048-5
193960|AT||Nishizuka,M., S. Heitaku, S. Maekawa, J.I. Nishikawa, and M. Imagawa|Development of Standardized In Vitro Assay System for Estrogen Receptors and Species Specificity of Binding Ability of 4-Nonylphenol and p-Octylphenol|J. Health Sci.50:511-517|2004|10.1248/jhs.50.511
193961|A||Gonzalez-Perez,B.K., S.S.S. Sarma, M.E. Castellanos-Paez, and S. Nandini|Effects of the Endocrine Disruptor 4-Nonylphenol on the Demography of Rotifers Plationus patulus and Brachionus havanaensis: A Multigenerational Study|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.56(13): 1357-1366|2021|10.1080/10934529.2021.1997281
193962|A||Shaalan,W.M., H.A.M. Elbaghdady, and A.E.H. Sayed|Synergistic Effects of Thermal Stress and 4-Nonylphenol on Oxidative Stress and Immune Responses in Juvenile Tilapia (Oreochromis niloticus)|Environ. Sci. Pollut. Res. Int.31:64024-64032|2024|
193963|A||Li,D., X. Cui, S. Chen, J. Xu, Y. Li, Q. Zhang, and Y. Sun|Mechanistic Insights into Nonylphenol Stress on BMP2 and BMP4 Gene Expression in Red Crucian Carp (Carassius auratus Red Var.)|Fishes9(5): 8 p.|2024|10.3390/fishes9050159
193964|A||Liu,Q., F. Li, W. Liu, B. Huang, L. Li, X. Wang, X. Sang, J. Dong, J. Ma, J. Chen, L. Wei, Y. Liu, M. Zhang, Y. Han, an|Transcriptional Expression Analysis Reveals Multiple Effects of Nonylphenol Exposure on Scallop Immune System|Fish Shellfish Immunol.123:290-297|2022|10.1016/j.fsi.2022.03.011
193965|A||Tian,Y., Y. Sun, M. Ou, X. Cui, D. Zhou, and W. Che|Cloning and Expression Analysis of GATA1 Gene in Carassius auratus Red Var.|BMC Genom. Data22(1): 13 p.|2021|
193966|A||Tollefsen,K.E., R. Mathisen, and J. Stenersen|Estrogen Mimics Bind with Similar Affinity and Specificity to the Hepatic Estrogen Receptor in Atlantic Salmon (Salmo salar) and Rainbow Trout (Oncorhynchus mykiss)|Gen. Comp. Endocrinol.126:14-22|2002|10.1006/gcen.2001.7743
193967|A||Schmidt,A.M., N. Sengupta, C.A. Saski, R.E. Noorai, and W.S. Baldwin|RNA Sequencing Indicates that Atrazine Induces Multiple Detoxification Genes in Daphnia magna and this is a Potential Source of Its Mixture Interactions with Other Chemicals|Chemosphere189:699-708|2017|10.1016/j.chemosphere.2017.09.107
193968|A||Hou,T., D. Xu, M. Cui, H. Liu, Y. Fu, L. Zhang, L. Tang, Y. Liu, and Q. Zhang|The Transcriptional Factor GATA-4 Negatively Regulates Hsp70 Transcription in Crassostrea hongkongensis|Mol. Biol. Rep.47(9): 7107-7114|2020|10.1007/s11033-020-05778-9
193969|A||Ishibashi,H., M. Uchida, Y. Temma, M. Hirano, N. Tominaga, and K. Arizono|Choriogenin Transcription in Medaka Embryos and Larvae as an Alternative Model for Screening Estrogenic Endocrine-Disrupting Chemicals|Ecotoxicol. Environ. Saf.193:9p.|2020|10.1016/j.ecoenv.2020.110324
193970|A||Zhang,L.J., J.H. Yang, H.Z. Li, J. You, N. Chatterjee, and X.W. Zhang|Development of the Transcriptome for a Sediment Ecotoxicological Model Species, Chironomus dilutus|Chemosphere244:12 p.|2020|
193971|A||Chen,K., M. Chen, G. Ma, Y. Fan, L. Liu, and W. Chen|Endocrine Disruptors Affect the Expression of Estrogen Receptor Genes and Proteins in the White Cloud Mountain Minnow Tanichthys albonubes (Teleostei: Cyprinidae)|Front. Physiol.13:11 p.|2022|10.3389/fphys.2022.1020840
193972|A||De Gregorio,L.S., L. Franco-Belussi, J. Goldberg, and C. De Oliveira|Nonylphenol and Cyproterone Acetate Effects in the Liver and Gonads of Lithobates catesbeianus (Anura) Tadpoles and Juveniles|Environ. Sci. Pollut. Res.28(44): 62593-62604|2021|10.1007/s11356-021-14599-7
193973|A||Zhao,A., J. Miao, L. Liu, and L. Pan|Potencies of Organotin Compounds in Scallop RXRa Responsive Activity with a GAL4-based Reconstituted Yeast Assay In Vitro|Environ. Sci. Pollut. Res.29(13): 19890-19897|2022|10.1007/s11356-022-18620-5
193974|A||Horie,Y., N. Kanazawa, C. Takahashi, N. Tatarazako, and T. Iguchi|Exposure to 4-Nonylphenol Induces a Shift in the Gene Expression of gsdf and Testis-Ova Formation and Sex Reversal in Japanese Medaka (Oryzias latipes)|J. Appl. Toxicol.41(3): 399-409|2021|10.1002/jat.4051
193975|A||Sun,D., Q. Chen, B. Zhu, H. Zhao, and S. Duan|Multigenerational Reproduction and Developmental Toxicity, and HPG Axis Gene Expression Study on Environmentally-Relevant Concentrations of Nonylphenol in Zebrafish|Sci. Total Environ.764:|2021|10.1016/j.scitotenv.2020.144259
193976|A||McGuire,C.C., B.P. Lawrence, and J. Robert|Thyroid Disrupting Chemicals in Mixture Perturb Thymocyte Differentiation in Xenopus laevis Tadpoles|Toxicol. Sci.181(2): 262-272|2021|10.1093/toxsci/kfab029
193977|A||Jiang,Y., L. Du, Q. Cheng, Z. Jin, C. Hui, Y. Zhao, H. Jiang, and L. Xu|Nanoscale Zero-Valent Iron Alters Physiological, Biochemical, and Transcriptomic Response of Nonylphenol-Exposed Algae (Dictyosphaerium sp.)|Environ. Sci. Pollut. Res.29(14): 20711-20720|2022|10.1007/s11356-021-17199-7
193978|A||Li,S., T. Hu, L.B. Bertotto, Y. Jiang, W. Gui, and D. Schlenk|Pesticide and Surfactant Mixtures Alter Sexual Differentiation in Japanese Medaka (Oryzias latipes)|ACS ES&T Water1(6): 1533-1540|2021|10.1021/acsestwater.1c00094
193979|A||Wang,X., R. Qi, S. Li, M. Ding, J. Miao, L. Han, Q. Fan, Y. Li, and L. Pan|Species Sensitivity Distribution for Nonylphenol: Acute Toxicity and Ecological Risk in Bohai Region|Mar. Pollut. Bull.206:8p.|2024|10.1016/j.marpolbul.2024.116765
193980|A||Lutz,I., S. Blodt, and W. Kloas|Regulation of Estrogen Receptors in Primary Cultured Hepatocytes of the Amphibian Xenopus laevis as Estrogenic Biomarker and Its Application in Environmental Monitoring|Comp. Biochem. Physiol. C Toxicol. Pharmacol.141(4): 384-392|2005|10.1016/j.cbpc.2005.08.003
193981|A||Lee,Y.M., J.S. Seo, I.C. Kim, Y.D. Yoon, and J.S. Lee|Endocrine Disrupting Chemicals (Bisphenol A, 4-Nonylphenol, 4-tert-Octylphenol) Modulate Expression of Two Distinct Cytochrome P450 Aromatase Genes Differently in Gender Types of the Hermaphroditic Fish Rivulus marmorat|Biochem. Biophys. Res. Commun.345(2): 894-903|2006|10.1016/j.bbrc.2006.04.137
193982|A||Lee,O., C.R. Tyler, and T. Kudoh|Development of a Transient Expression Assay for Detecting Environmental Oestrogens in Zebrafish and Medaka Embryos|BMC Biotechnol.12:12 p.|2012|10.1186/1472-6750-12-32.
193983|A||Ishibashi,H., K. Tachibana, M. Tsuchimoto, K. Soyano, N. Tatarazako, N. Matsumura, Y. Tomiyasu, N. Tominaga, and K. Ari|Effects of Nonylphenol and Phytoestrogen-Enriched Diet on Plasma Vitellogenin, Steroid Hormone, Hepatic Cytochrome P450 1A, and Glutathione-S-Transferase Values in Goldfish (Carassius auratus)|Comp. Med.54(1): 54-62|2004|
193984|A||Kim,B.M., M.C. Lee, H.M. Kang, J.S. Rhee, and J.S. Lee|Genomic Organization and Transcriptional Modulation in Response to Endocrine Disrupting Chemicals of Three Vitellogenin Genes in the Self-Fertilizing Fish Kryptolebias marmoratus|J. Environ. Sci.42:187-195|2016|10.1016/j.jes.2015.08.006
193985|T||Tamano,K., A. Miura, H. Koike, Y. Kamisaka, M. Umemura, and M. Machida|High-Efficiency Extracellular Release of Free Fatty Acids from Aspergillus oryzae Using Non-Ionic Surfactants|J. Biotechnol.248:9-14|2017|10.1016/j.jbiotec.2017.03.002
193986|A||Zhu,X.X., Z.S. Wang, Y.F. Sun, L. Gu, L. Zhang, J. Wang, Y. Huang, and Z. Yang|Surfactants at Environmentally Relevant Concentrations Interfere the Inducible Defense of Scenedesmus obliquus and the Implications for Ecological Risk Assessment|Environ. Pollut.261:14131-14131|2020|10.1016/j.envpol.2020.114131
193987|A||Stagg,R.M., and T.J. Shuttleworth|Surfactant Effects on Adrenergic Responses in the Gills of the Flounder (Platichthys flesus L).|J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol.156(5): 727-733|1986|
193988|A||Mortensen,A.S., and A. Arukwe|Activation of Estrogen Receptor Signaling by the Dioxin-Like Aryl Hydrocarbon Receptor Agonist, 3,3',4,4',5-Pentachlorobiphenyl (PCB126) in Salmon In Vitro System|Toxicol. Appl. Pharmacol.227(2): 313-324|2008|10.1016/j.taap.2007.11.003
193989|A||Ahmadpanah,K., M. Soltani, H.R. Islami, and M. Shamsaie|Effects of Nonylphenol on Hematological Parameters and Immune Responses in Immature Rainbow Trout (Oncorhynchus mykiss)|Mar. Freshw. Behav. Physiol.52(4): 151-165|2019|10.1080/10236244.2019.1661779
193990|A||Yu,Q., S. Wang, E. Li, Y. Yang, X. Wang, C. Qin, J.G. Qin, and L. Chen|Interactions of a PFOS/Sodium Nitrite Mixture in Chinese Mitten Crab (Eriocheir sinensis): Impacts on Survival, Growth, Behavior, Energy Metabolism and Hepatopancreas Transcriptome|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:12 p.|2025|10.1016/j.cbpc.2024.110114
193991|A||Palazzolo,S., S. Natale, F. Capparucci, M.G. Piro, S. Cuzzocrea, A.F. Peritore, R. Crupi, and D. Britti|Freshwater Pollution: Cardiotoxicity Effect of Perfluorooctane Sulfonic Acid and Neonicotinoid Imidacloprid Mixture|Environ. Toxicol. Chem.44(1): 136-145|2025|10.1093/etojnl/vgae013
193992|T||Mei,W., G. Yang, G. Ye, Y. Yang, and Y. Wu|Differential Contributions of the Ryanodine Receptor I4723M and I4723K Mutations to Diamide Resistance in Spodoptera litura|Pestic. Biochem. Physiol.208:7 p.|2025|10.1016/j.pestbp.2025.106292
193993|T||Ling,S., Z. Guo, M. Wu, J. Tang, H. Lv, J. Li, and K. Ma|Mir-9a and Mir-10482-5p Regulate the Expression of Chitin Synthase and Chitinase Genes, Enhancing Lufenuron Tolerance in Spodoptera frugiperda|Comp. Biochem. Physiol. C Toxicol. Pharmacol.289:9 p.|2025|10.1016/j.cbpc.2024.110115
193994|A||Al-Jandal,N.J.|The Effects of Estrogenic Endocrine Disruptors on the Osmoregulatory Functions in Euryhaline Fish|Ph.D Thesis, University of Exeter, Exeter, England:198 p.|2011|
193995|A||Gust,K.A., A.N. Kimble, J.E. Mylroie, M.L. Mayo, M.S. Wilbanks, C.S.C. Steward, K.A. Chapman, G.R. Lotufo, N. Garcia-Re|Bioconcentration, Maternal Transfer, and Toxicokinetics of PFOS in a Multi-Generational Zebrafish Exposure|Environ. Toxicol. Chem.44(1): 207-219|2025|10.1093/etojnl/vgae033
193996|A||Tollefsen,K.E., E. Bratsberg, O. Boyum, E.F. Finne, I.K. Gregersen, M. Hegseth, C. Sandberg, and K. Hylland|Use of Fish In Vitro Hepatocyte Assays to Detect Multi-Endpoint Toxicity in Slovenian River Sediments|Mar. Environ. Res.62(Supp 1): S356-S359|2006|10.1016/j.marenvres.2006.04.025
193997|A||Derakhshesh,N., A. Movahedinia, N. Salamat, M. Hashemitabar, and V. Bayati|Using a Liver Cell Culture from Epinephelus coioides as a Model to Evaluate the Nonylphenol-Induced Oxidative Stress|Mar. Pollut. Bull.122(1-2): 243-252|2017|10.1016/j.marpolbul.2017.06.049
193998|A||Kuzikova,I., V. Safronova, T. Zaytseva, and N. Medvedeva|Fate and Effects of Nonylphenol in the Filamentous Fungus Penicillium expansum Isolated from the Bottom Sediments of the Gulf of Finland|J. Mar. Syst.171:111-119|2017|
193999|A||Mortensen,A.S., C.C. Tolfsen, and A. Arukwe|Gene Expression Patterns in Estrogen (Nonylphenol) and Aryl Hydrocarbon Receptor Agonists (PCB-77) Interaction Using Rainbow Trout (Oncorhynchus mykiss) Primary Hepatocyte Culture|J. Toxicol. Environ. Health Part A69(1-2): 1-19|2006|10.1080/15287390500257792
194000|A||Matozzo,V., and L. Ballarin|In Vitro Effects of Nonylphenol on Functional Responses of Haemocytes of the Colonial Ascidian Botryllus schlosseri|Mar. Pollut. Bull.62(10): 2042-2046|2011|10.1016/j.marpolbul.2011.07.025
194001|A||Satyanarayanan,S.K., C. Kavitha, M. Ramesh, and T. Grummt|Toxicity Studies of Nonylphenol and Octylphenol: Hormonal, Hematological and Biochemical Effects in Clarias gariepinus|J. Appl. Toxicol.31(8): 752-761|2011|10.1002/jat.1629
194002|A||Mortazavi,S., A.R.R. Bakhtiari, A.E. Sari, F. Rahbarizadeh, and N. Hassanzadeh|Effects of Xenostrogen Treatment (4-Nonylphenol, Bisphenol A) on Vitellogenin Expression in Juvenile Cyprinus carpio|Caspian J. Environ. Sci.17(1): 43-53|2019|
194003|A||Prasatkaew,W., P. Nanthanawat, N. Khongchareonporn, and S. Kingtong|A Monoclonal Antibody Against Lates calcarifer Vitellogenin and a Competitive ELISA to Evaluate Vitellogenin Induction After Exposure to Xenoestrogen|J. Environ. Sci.75:325-333|2019|10.1016/j.jes.2018.05.001
194004|A||Sharma,M., and P. Chadha|Study on DNA Damaging Effects of 4-Nonylphenol Using Erythrocytes from Peripheral Circulation, Gill and Kidney of Fish Channa punctatus|J. Environ. Biol.37(2): 313-318|2016|
194005|A||Sahoo,T.P., and A. Oikari|Use of Early Juvenile Zebrafish Danio rerio for In Vivo Assessment of Endocrine Modulation by Xenoestrogens|J. Environ. Anal. Toxicol.4(1): |2013|10.4172/2161-0525.1000202
194006|A||Sun,D., Q. Chen, N. He, P. Diao, L. Jia, and S. Duan|Effect of Environmentally-Relevant Concentrations of Nonylphenol on Sexual Differentiation in Zebrafish: A Multi-Generational Study|Sci. Rep.7:8p.|2017|10.1038/srep42907
194007|A||Ammar,E., M. Hamed, M.S. Mohamed, and A.E.D.H. Sayed|The Synergetic Effects of 4-Nonylphenol and Polyethylene Microplastics in Cyprinus carpio Juveniles Using Blood Biomarkers|Sci. Rep.13(1): 12 p.|2023|
194008|A||Bushong,A., M. Sepulveda, M. Scherer, A.C. Valachovic, C.M. Neill, S. Horn, Y. Choi, L.S. Lee, P. Baloni, and T. Hoskin|Effects of Perfluorinated Alkyl Substances (PFAS) on Amphibian Body and Liver Conditions: Is Lipid Metabolism Being Perturbed Throughout Metamorphosis?|Toxics12(10): 22 p.|2024|10.3390/toxics12100732
194009|A||Calisi,A., N. Baranzini, G. Marcolli, C. Bon, D. Rotondo, D. Gualandris, L. Pulze, A. Grimaldi, and F. Dondero|Evaluation of Per- and Polyfluoroalkyl Substances (PFAS) Toxic Effects on the Acute Inflammatory Response in the Medicinal Leech Hirudo verbana|Chemosphere366:13 p.|2024|10.1016/j.chemosphere.2024.143519
194010|A||Perrotta,I., and S. Tripepi|Ultrastructural Alterations in the Ventricular Myocardium of the Adult Italian Newt (Lissotriton italicus) Following Exposure to Nonylphenol Ethoxylate|Micron43(2-3): 183-191|2012|10.1016/j.micron.2011.07.011
194011|A||Chen,Z.W., and Z.L. Hua|Eco-Environmental Responses of Eichhornia crassipes Rhizobacteria Community to Co-Stress of Per(Poly)Fluoroalkyl Substances and Microplastics|Aquat. Toxicol.276:14 p.|2024|10.1016/j.aquatox.2024.107109
194012|A||He,N., X. Sun, Y. Zhong, K. Sun, W. Liu, and S. Duan|Removal and Biodegradation of Nonylphenol by Four Freshwater Microalgae|Int. J. Environ. Res. Public Health13(12): 14 p.|2016|10.3390/ijerph13121239
194013|T||Currie,S.D., Y. Ji, Q. Huang, J.S. Wang, and L. Tang|The Impact of Early Life Exposure to Individual and Combined PFAS on Learning, Memory, and Bioaccumulation in C. elegans|Environ. Pollut.363(2): 13 p.|2024|10.1016/j.envpol.2024.125257
194014|A||Prasatkaew,W., P. Nanthanawat, and C. Thanomsit|Assessment of Endocrine Disrupting Chemicals Exposure in Sea Bass (Lates calcarifer) and Wild Fishes Using Vitellogenin as a Biomarker|Environ. Asia12(2): 69-78|2019|10.14456/ea.2019.28
194015|A||Lamche,G., and P. Burkhardt-Holm|Changes in Apoptotic Rate and Cell Viability in Three Fish Epidermis Cultures After Exposure to Nonylphenol and to a Wastewater Sample Containing Low Concentrations of Nonylphenol|Biomarkers (Lond.)5(3): 205-218|2000|
194016|A||Gupta,P., A. Mahapatra, B. Manna, A. Suman, S.S. Ray, N. Singhal, and R.K. Singh|Sorption of PFOS onto Polystyrene Microplastics Potentiates Synergistic Toxic Effects During Zebrafish Embryogenesis and Neurodevelopment|Chemosphere366:14 p.|2024|10.1016/j.chemosphere.2024.143462
194017|A||Li,X., Z. Niu, M. Jing, Y. Ma, Y. Zhang, and Y. Yang|Evanescent Hormesis Effect Induced by Environmentally Relevant PFOS to Marine Chlorella sp.|J. Hazard. Mater.480:13 p.|2024|10.1016/j.jhazmat.2024.136115
194018|A||Park,K., and I. Kwak|Characterize and Gene Expression of Heat Shock Protein 90 in Marine Crab Charybdis japonica Following Bisphenol A and 4-Nonylphenol Exposures|Environ. Health Toxicol.29:7 p.|2014|10.5620/eht.2014.29.e2014002
194019|A||Salazar,C., N. Ojeda, and L. Mercado|Dysregulated Proinflammatory Cytokines and Immune-Related miRNAs in ASK Cells Exposed to 17beta-Ethynyl Estradiol and 4-Nonylphenol|Dev. Comp. Immunol.162:12 p.|2025|
194020|A||Traversi,I., G. Gioacchini, A. Scorolli, D.G. Mita, O. Carnevali, and A. Mandich|Alkylphenolic Contaminants in the Diet: Sparus aurata Juveniles Hepatic Response|Gen. Comp. Endocrinol.205(SI): 185-196|2014|10.1016/j.ygcen.2014.06.015
194021|A||Guo,H., Z. Liang, P. Zheng, L. Li, J. Xian, and X. Zhu|Effects of Nonylphenol Exposure on Histological Changes, Apoptosis and Time-Course Transcriptome in Gills of White Shrimp Litopenaeus vannamei|Sci. Total Environ.781:13 p.|2021|
194022|A||Kamel,A., S.R. Matten, S.G. Lynn, J.C. Wolf, and D.J. Fort|Amphibian Metamorphosis Assay: Investigation of the Potential Effects of Five Chemicals on the Hypothalamic-Pituitary Thyroid Axis of Xenopus laevis|Regul. Toxicol. Pharmacol.134:12 p.|2022|10.1016/j.yrtph.2022.105241
194023|A||Salamat,N., and N. Derakhshesh|Oxidative Stress in Liver Cell Culture from Mullet, Liza klunzingeri, Induced by Short-Term Exposure to Benzo[a]pyrene and Nonylphenol|Fish Physiol. Biochem.46:1183-1197|2020|10.1007/s10695-020-00783-y
194024|T||Liao,S., C. Sun, F.A. Lagunas-Rangel, W. Liu, S. Yi, D. Browne-Johnson, F. Eklund, Y. Zhang, B. Kudlak, M.J. Williams, |Perfluorooctanoic Acid Induces Transgenerational Modifications in Reproduction, Metabolism, Locomotor Activity, and Sleep Behavior in Drosophila melanogaster and Deleterious Effects in Human Cancer Cells|Sci. Total Environ.957:13 p.|2024|10.1016/j.scitotenv.2024.177472
194025|A||Sayed,A.E.D.H., T. Watanabe-Asaka, S. Oda, S. Kashiwada, and H. Mitani|Gamma-H2AX Foci as Indication for the DNA Damage in Erythrocytes of Medaka (Oryzias latipes) Intoxicated with 4-Nonylphenol|Environ. Sci. Pollut. Res. Int.27:18966-18971|2020|10.1007/s11356-018-2985-z
194026|A||Polsuwan,A., and P. Damrongphol|Induction of Heat Shock Protein 70 Gene Expression in Early Life Stages of the Giant Freshwater Prawn, Macrobrachium rosenbergii (De Man, 1879) (Decapoda, Palaemonidae)|Crustaceana  (Leiden)93(2): 199-213|2020|10.2307/48572983
194027|A||Mahoney,H., P. Ankley, C. Roberts, A. Lamb, M. Schultz, Y. Zhou, J.P. Giesy, and M. Brinkmann|Unveiling the Molecular Effects of Replacement and Legacy PFASS: Transcriptomic Analysis of Zebrafish Embryos Reveals Surprising Similarities and Potencies|Environ. Sci. Technol.58(42): 12 p.|2024|10.1021/acs.est.4c04246
194028|AT||Kaur,R., J. Kaur, M. Kaur, V. Kalotra, P. Chadha, A. Kaur, and A. Kaur|An Endophytic Penicillium oxalicum Isolated from Citrus limon Possesses Antioxidant and Genoprotective Potential|J. Appl. Microbiol.128(5): 1400-1413|2020|10.1111/jam.14553
194029|A||Cheng,Q., Y. Jiang, Z. Jin, C. Hui, L. Xu, Q. Zhou, Y. Zhao, L. Du, and H. Jiang|Enhanced Excretion of Extracellular Polymeric Substances Associated with Nonylphenol Tolerance in Dictyosphaerium sp.|J. Hazard. Mater.395:8 p.|2020|10.1016/j.jhazmat.2020.122644
194030|T||Shan,J., P.F. Corvini, A. Schaffer, J.C. Chee-Sanford, X. Yan, and R. Ji|Influence of the Geophagous Earthworm Aporrectodea sp. on Fate of Bisphenol A and a Branched 4-Nonylphenol Isomer in Soil|Sci. Total Environ.693:11 p.|2019|10.1016/j.scitotenv.2019.07.380
194031|A||Kotb,A.M., M. Abd-Elkareem, N.S. Abou Khalil, and A.E.H. Sayed|Protective Effect of Nigella sativa on 4-Nonylphenol-Induced Nephrotoxicity in Clarias gariepinus (Burchell, 1822)|Sci. Total Environ.619-620:692-699|2018|
194032|A||Olsvik,P.A., and L. Softeland|Mixture Toxicity of Chlorpyrifos-Methyl, Pirimiphos-Methyl, and Nonylphenol in Atlantic Salmon (Salmo salar) Hepatocytes|Toxicol. Rep.7:547-558|2020|10.1016/j.toxrep.2020.03.008
194033|A||Xiao,Q., S. Zhang, H. Guo, F. Su, and Y. Xu|Nonylphenol Causes Decrease in Antioxidant Enzyme Activities, Increase in O2- Content, and Alteration in Ultrastructures of FG Cells, a Flounder (Paralichthys olivaceus) Gill Cell Line|Toxicol. Mech. Methods17(3): 127-134|2007|10.1080/15376510600860227
194034|A||Rohonczy,J., M.R. Forbes, A.M. Gilroy E, D.J. Carpenter, S.D. Young, A. Morrill, C. Brinovcar, A.O. De Silva, A.J. Bart|Effects of Perfluoroalkyl Sulfonic Acids on Developmental, Physiological, and Immunological Measures in Northern Leopard Frog Tadpoles|Chemosphere365:15 p.|2024|10.1016/j.chemosphere.2024.143333
194036|A||Rendell,J.L., and S. Currie|Intracellular Localization of Hsp90 is Influenced by Developmental Stage and Environmental Estrogens in Rainbow Trout Oncorhynchus mykiss|Physiol. Biochem. Zool.78(6): 937-946|2005|10.1086/432850
194037|A||Song,C., S. Chen, Z. Bi, L. Wang, M. Cao, Z. Zhou, H. Cao, M. Chen, J. Zhang, and Y. Liang|Perfluorohexane Sulfonate Exposure Caused Multiple Developmental Abnormalities in Early Life of Zebrafish|Environ. Res.265:9 p.|2024|10.1016/j.envres.2024.120461
194038|A||Tang,Z.Y., D. Sun, C.W. Qian, Q. Chen, S.S. Duan, and S.Y. Sun|Lycium barbarum Polysaccharide Alleviates Nonylphenol Exposure Induced Testicular Injury in Juvenile Zebrafish|Int. J. Biol. Macromol.104:618-623|2017|10.1016/j.ijbiomac.2017.06.035
194039|A||Verhille,M., and R. Hausler|Evaluation of the Impact of L-Tryptophan on the Toxicology of Perfluorooctanoic Acid in Daphnia magna: Characterization and Perspectives|Chemosphere367:9 p.|2024|10.1016/j.chemosphere.2024.143665
194040|A||Xiao,Y., Q. Li, Y. Yang, Y. Zhang, Y. Shen, J. Liu, N. Lei, W. Zhang, and Q. Wang|Unravelling the Mechanisms of PFAS Toxicity to Submerged Macrophytes and Epiphytic Biofilms at Metabolic and Molecular Levels|Sci. Total Environ.952:11 p.|2024|10.1016/j.scitotenv.2024.175726
194041|A||Qian,K., X. Jiang, L. Sun, G. Zhou, H. Ge, X. Fang, L. Xiao, and Q. Wu|Effect of Montmorillonite on 4-Nonylphenol Enrichment in Zebrafish|Int. J. Environ. Res. Public Health15(6): 13 p.|2018|10.3390/ijerph15061217
194042|A||Uguz,C., A.T. Dagcan, M. Iscan, and I. Togan|Accumulation of Nonylphenol in Gold Fish and Suckermouth Catfish in the Semi Static Aquarium System|Indian Vet. J.81(5): 581-583|2004|
194043|A||Reshmi,S., V.S. Remya, V.R. Anjali, S.S. Mahim, and C.A. Devi|Alterations in Hepatic Antioxidant Systems and Lipid Peroxidation Products in a Freshwater Fish, Labeo rohita, Exposed to 4-Nonylphenol, an Endocrine Disruptor|J. Endocrinol. Reprod.23(1): 13-24|2019|10.18311/jer/2019/26219
194044|A||Guart,A., M. Wagner, A. Mezquida, S. Lacorte, J. Oehlmann, and A. Borrell|Migration of Plasticisers from Tritan and Polycarbonate Bottles and Toxicological Evaluation|Food Chem.141(1): 373-380|2013|10.1016/j.foodchem.2013.02.129
194045|A||Remya,V.S., S. Reshmi, S.S. Mahim, V.R. Anjali, and C.A. Devi|The Efficacy of Intermediary and Mitochondria Metabolic Enzymes as Non-Estrogenic Biomarkers for the Assessment of 4-Nonylphenol Toxicity in the Freshwater Teleost Labeo rohita|J. Endocrinol. Reprod.25(2): 145-158|2021|10.18311/jer/2021/28984
194046|A||Stoffel,M.H., T. Wahli, A.E. Friess, and P. Burkhardt-Holm|Exposure of Rainbow Trout (Oncorhynchus mykiss) to Nonylphenol is Associated with an Increase in the Chloride Cell Fractional Surface Area|Schweiz. Arch. Tierheilkd.142(5): 16 p.|2000|
194047|A||Sharma,M., and P. Chadha|From Genotoxicity Induction to Recovery in Different Organs in Fish Channa punctatus After Sub Chronic Exposure to 4-Nonylphenol|Toxicol. Int.27:8-13|2020|10.18311/ti/2020/v27i1
194048|A||Ricciardi,F., V. Matozzo, and M.G. Marin|Effects of 4-Nonylphenol Exposure in Mussels (Mytilus galloprovincialis) and Crabs (Carcinus aestuarii) with Particular Emphasis on Vitellogenin Induction|Mar. Pollut. Bull.57(6-12): 365-372|2008|10.1016/j.marpolbul.2008.02.023
194049|A||Park,K., T.S. Kwak, and I.S. Kwak|Vitellogenin Gene Characterization and Expression of Asian Paddle Crabs (Charybdis japonica) Following Endocrine Disrupting Chemicals|Ocean Sci. J.49:127-135|2014|10.1007/s12601-014-0013-x
194050|A||Spieser,O.H., J. Schwaiger, H. Ferling, and R.D. Negele|An Introduction to Behavioral Monitoring - Effects of Nonylphenol and Ethinylestradiol on Swimming Behavior of Juvenile Carp|Biomonitors and Biomarkers as Indicators of Environmental Change 2: A Handbook. Boston, MA: Springer US56:93-111|2001|
194051|A||Fu,K.Y., C.Y. Chen, and W.M. Chang|Application of a Yeast Estrogen Screen in Non-Biomarker Species Varicorhinus barbatulus Fish with Two Estrogen Receptor Subtypes to Assess Xenoestrogens|Toxicol. In Vitro21:604-612|2007|10.1016/j.tiv.2006.12.003
194052|A||Wang,L., S. Chen, H. Hou, M. Cao, Z. Zhou, H. Cao, M. Chen, Y. Liang, and Y. Wang|Early Stage Exposure of 1H, 1H, 2H, 2H-Perfluorooctanesulfonate-Induced Cardiovascular Abnormality in Zebrafish Embryos and Larvae|ACS ES&T Water3(1): 106-117|2023|10.1021/acsestwater.2c00435
194053|A||Waalkes,W.C., and D.A. Bergman|Nonylphenol Effects on Chemosensory Orientation Behavior of the Crayfish, Orconectes propinquus|In: Student Summer Scholars Manuscripts53:12p.|2013|
194054|A||Park,C.B., B.H. Kim, O.S. Na, Y.C. Choi, Y.D. Lee, H.J. Baek, H.B. Kim, and A. Takemura|Induction of In Vitro Vitellogenin Synthesis by Bisphenol, Nonylphenol and Octylphenol in Chinese Minnow (Phoxinus oxycephalus) Hepatocytes|Kor. J. Biol. Sci.7(3): 227-235|2003|10.1080/12265071.2003.9647709
194055|A||Singh,B., P. Sharma, A. Kumar, P. Chadha, R. Kaur, and K. Amarjeet|Antioxidant and In Vivo Genoprotective Effects of Phenolic Compounds Identified from an Endophytic Cladosporium velox and Their Relationship with Its Host Plant Tinospora cordifolia|J. Ethnopharmacol.194:450-456|2016|10.1016/j.jep.2016.10.018
194056|A||Cilingir Yeltekin,A., and A.R. Oguz|Antioxidant Responses and DNA Damage in Primary Hepatocytes of Van Fish (Alburnus tarichi, Guldenstadt 1814) Exposed to Nonylphenol or Octylphenol|Drug Chem. Toxicol.41(4): 415-423|2018|10.1080/01480545.2018.1461899
194057|A||Gao,Q.T., Y.S. Wong, and N.F.Y. Tam|Antioxidant Responses of Different Microalgal Species to Nonylphenol-Induced Oxidative Stress|J. Appl. Phycol.29:1317-1329|2017|10.1007/s10811-017-1065-y
194058|AT||Yamauchi,K., A. Ishihara, H. Fukazawa, and Y. Terao|Competitive Interactions of Chlorinated Phenol Compounds with 3,3',5-Triiodothyronine Binding to Transthyretin: Detection of Possible Thyroid-Disrupting Chemicals in Environmental Waste Water|Toxicol. Appl. Pharmacol.187(2): 110-117|2003|
194059|A||Shirdel,I., and M.R. Kalbassi|Assessing the Sensitivity of Caspian Kutum (Rutilus kutum) and the Endangered Caspian Trout (Salmo trutta caspius) to Acute Toxicity of Nonylphenol|Caspian J. Environ. Sci.12(2): 225-232|2014|
194060|A||Lee,J.H., C. Cho, H.Y. Kim, and H.S. Cho|Characteristics of Bioconcentration and Depuration of Endocrine Disruption Chemicals in the Flounder, Paralichthys olivaceus, Under Flow-Through System|Toxicol. Environ. Health Sci.2(4): 221-230|2010|
194061|A||Chauhan,V.S., K.R. Yadav, S.P. Thacker, V. Ramamurthy, and R.M. Kothari|A Novel Isolate of Chlorella, Recalcitrant in an Outdoor Spirulina Cultivation|Fresenius Environ. Bull.3(11): 691-696|1994|
194062|A||Mulla,M.S., and M.F.B. Chaudhury|Effects of Surface Tension on Pupae of Culex pipiens quinquefasciatus and Aedes aegypti|Mosq. News28(2): 187-191|1968|
194063|A||Soleimani,A., A. Vahdati, H.K. Rostami, and M. Golalipour|Histopathological Effects of the 4-Nonylphenol on the Gill, Liver and Kidney in the Embryo of the Iranian Sturgeon (Acipenser persicus)|Int. J. Biol. Pharm. All. Sci.4(8): 667-678|2015|
194064|A||Tollefsen,K.E., C. Blikstad, S. Eikvar, E.F. Finne, and I.K. Gregersen|Cytotoxicity of Alkylphenols and Alkylated Non-Phenolics in a Primary Culture of Rainbow Trout (Onchorhynchus mykiss) Hepatocytes|Ecotoxicol. Environ. Saf.69(1): 64-73|2008|10.1016/j.ecoenv.2006.12.005
194065|A||El-Din,S.M.M., N.H. Noaman, and S.H. Zaky|Effects of Chloramphenicol, Clofibric Acid, Acetyl Salicylic Acid, Nonylphenol and Bisphenol on the Protein Profile and Ultrastructure of Marine Macroalgae Pterocladia capillacea and Ulva lactuca|Egypt. J. Bot.56(1): 335-351|2016|10.21608/ejbo.2016.392
194066|A||Larkin,P., L.C. Folmar, M.J. Hemmer, A.J. Poston, and N.D. Denslow|Expression Profiling of Estrogenic Compounds Using a Sheepshead Minnow cDNA Macroarray|Environ. Health Perspect.111(6): 839-846|2003|10.1289/ehp.111-1241505
194067|A||El-Din,S.M.M., N.H. Noaman, and S.H. Zaki|Removal of Some Pharmaceuticals and Endocrine Disrupting Compounds by the Marine Macroalgae Pterocladia capillacea and Ulva lactuca|Egypt. J. Bot.57(1): 139-155|2017|
194068|A||Zare,A., D. Henry, G. Chua, P. Gordon, and H.R. Habibi|Differential Hepatic Gene Expression Profile of Male Fathead Minnows Exposed to Daily Varying Dose of Environmental Contaminants Individually and in Mixture|Front. Endocrin.9(Article 749): 18p.|2018|10.3389/fendo.2018.00749
194069|A||Preuss,T.G., M. Telscher, and H.T. Ratte|Life Stage- Dependent Bioconcentration of a Nonylphenol Isomer in Daphnia magna|Environ. Pollut.156(3): 1211-1217|2008|
194070|A||Takase,M., H. Shinto, Y. Takao, and T. Iguchi|Accumulation and Pharmacokinetics of Estrogenic Chemicals in the Pre- and Post-Hatch Embryos of the Frog Rana rugosa|In Vivo26(6): 913-920|2012|
194071|A||Sharma,M., and P. Chadha|4-Nonylphenol Induced DNA Damage and Repair in Fish, Channa punctatus After Subchronic Exposure|Drug Chem. Toxicol.40(3): 321-325|2017|10.1080/01480545.2016.1223096
194073|A||Florence,A.T., and J.M.N. Gillan|Non-Ionic Surfactants and Membrane Transport of Thioridazine in Goldfish|J. Pharm. Pharmacol.27(3): 152-159|1975|
194074|A||Kitano,T., T. Koyanagi, R. Adachi, N. Sakimura, K. Takamune, and S.I. Abe|Assessment of Estrogenic Chemicals Using an Estrogen Receptor alpha (ERalpha)- and ERbeta-mediated Reporter Gene Assay in Fish|Mar. Biol.149:49-55|2006|10.1007/s00227-005-0206-z
194075|A||Jones,S.B., C.G. Ingersoll, J.T. Parris, and D.K. Hardesty|Effects of Carbaryl, Copper, and Other Organic Chemicals on Cholinesterase Activity in Brains of Surrogate and Listed Species of Fish|Int. Ver. Theor. Angew. Limnol.30(8): 1255-1258|2009|10.1080/03680770.2009.11923924
194076|A||Liu,C.H., C.Y. Hseih, C.H. Yen, and S.P. Yeh|Effects of Nonylphenol on the Immune Response and Disease Resistance of White Shrimp, Litopenaeus vannamei|J. Fish. Soc. Taiwan38(2): 125-139|2011|
194077|A||Hanson,A.M.|Effects of Environmental Estrogens on the Growth Hormone-Insulin-Like-Growth Factor System and Seawater Adaptation of Rainbow Trout (Oncorhynchus mykiss)|Ph.D. Thesis, North Dakota State University, Fargo, ND50:206p.|2013|
194078|A||El-Sayed Ali,T., S.H. Abdel-Aziz, A.F.M. El-Sayed, and S. Zeid|Structural and Functional Effects of Early Exposure to 4-Nonylphenol on Gonadal Development of Nile Tilapia (Oreochromis niloticus): A-Histological Alterations in Ovaries|Fish Physiol. Biochem.40:1509-1519|2014|10.1007/s10695-014-9943-6
194079|A||Bompadre,S., G. Pizzonia, A.M. Polzonetti-Magni, and O. Carnevali|Organ Distribution of Nonylphenol and Its Effect on Vitellogenin Synthesis in Juvenile Golden-Grey Mullet (Liza aurata)|In: Perspective in Comparative Endocrinology: Unity and Diversity, Monduzzi International Proceedings Division, Bologna, Italy:269-274|2001|
194080|A||Gerbron,M., P. Geraudie, J. Rotchell, and C. Minier|A New In Vitro Screening Bioassay for the Ecotoxicological Evaluation of the Estrogenic Responses of Environmental Chemicals Using Roach (Rutilus rutilus) Liver Explant Culture|Environ. Toxicol.25(5): 510-516|2010|10.1002/tox.20596
194081|A||Huang,W., Y. Zhang, X. Jia, X. Ma, S. Li, Y. Liu, P. Zhu, D. Lu, H. Zhao, W. Luo, S. Yi, X. Liu, and H. Lin|Distinct Expression of Three Estrogen Receptors in Response to Bisphenol A and Nonylphenol in Male Nile Tilapias (Oreochromis niloticus)|Fish Physiol. Biochem.36:237-249|2010|10.1007/s10695-008-9280-8
194082|A||Johnson,K.M., and S.C. Lema|Temporal Patterns of Induction and Recovery of Biomarker Transcriptional Responses to 4-Nonylphenol and 17beta-Estradiol in the Estuarine Arrow Goby, Clevelandia ios|Environ. Toxicol.32(5): 1513-1529|2017|10.1002/tox.22371
194083|A||Ripoche,P., M. Parisi, J. Bourguet, and I.L. Schwartz|Effects of a Very Hydrophobic Nonionic Surfactant (NP-EO 6) on the Apical Border of Frog  Urinary Bladder|INSERM (Inst. Natl. Sante Rech. Med. ) Colloq. 85:85-96|1979|
194084|A||Lye,C.M., M.G. Bentley, and T. Galloway|Effects of 4-Nonylphenol on the Endocrine System of the Shore Crab, Carcinus maenas|Environ. Toxicol.23(3): 309-318|2008|10.1002/tox.20344
194085|A||Wang,H.W., F. Cai, X. Liu, G. Wang, Y.N. Wu, Y.W. Liu, and A. Hasan|Effects of Nonylphenol on Expression Levels of GnRH-like Polypeptide in Cipangopaludina chinensis|In: 2015 International Symposium on Material, Energy and Environment Engineering. Atlantis Press46:106-109|2016|
194086|T||Wallace,H.R.|The Influence of a Non-Ionic Detergent on the Movement of Larvae of Meloidogyne javanica|Nematologica15(1): 107-114|1969|
194087|A||Palumbo,A.J.|Vitellogenin, a Marker of Estrogen Mimicking Contaminants in Fishes: Characterization, Quantification and Interference by Anti-Estrogens|Ph.D. Thesis,  University of California, Davis, CA:131 p.|2008|
194088|A||Skoloda,J.|Vitellogenin Induction as a Biomarker for Environmental Estrogens in Xenopus laevis|M.S.Thesis, Duquesne University, Pittsburgh, PA43:127 p.|2004|
194089|A||Sayed,A.E.D.H., and R.F.K. Ismail|Endocrine Disruption, Oxidative Stress, and Testicular Damage Induced by 4-Nonylphenol in Clarias gariepinus: The Protective Role of Cydonia oblonga|Fish Physiol. Biochem.43:1095-1104|2017|10.1007/s10695-017-0355-2
194090|A||Sayed,A.E.D.H., C. Kataoka, S. Oda, S. Kashiwada, and H. Mitani|Sensitivity of Medaka (Oryzias latipes) to 4-Nonylphenol Subacute Exposure; Erythrocyte Alterations and Apoptosis|Environ. Toxicol. Pharmacol.58:98-104|2018|10.1016/j.etap.2017.12.023
194091|A||Ali,T.E.S., S.H. Abdel-Aziz, A.F.M. El-Sayed, and S. Zeid|Effects of Nonylphenol on Plasma Steroids, Vitellogenin Synthesis and Sex Reversal in Nile Tilapia (Oreochromis niloticus) Fingerlings|Indian J. Geo-Marine Sci.46(3): 521-528|2017|
194092|A||Scaia,M.F., L.S. De Gregorio, L. Franco-Belussi, M. Succi-Domingues, and C. De Oliveira|Gonadal, Body Color, and Genotoxic Alterations in Lithobates catesbeianus Tadpoles Exposed to Nonylphenol|Environ. Sci. Pollut. Res.26(22): 22209-22219|2019|10.1007/s11356-019-05403-8
194093|A||Blalock,B.J., W.E. Robinson, A. Loguinov, C.D. Vulpe, K.S. Krick, and H.C. Poynton|Transcriptomic and Network Analyses Reveal Mechanistic-Based Biomarkers of Endocrine Disruption in the Marine Mussel, Mytilus edulis|Am. Chem. Soc. Conf. Proc. Ser.52(16): 9419-9430|2018|10.1021/acs.est.8b01604
194094|A||Lopez-Pacheco,I.Y., C. Salinas-Salazar, A. Silva-Nunez, L.I. Rodas-Zuluaga, J. Donoso-Quezada, S. Ayala-Mar, D. Barcelo|Removal and Biotransformation of 4-Nonylphenol by Arthrospira maxima and Chlorella vulgaris Consortium|Environ. Res.179:11p.|2019|10.1016/j.envres.2019.108848
194095|A||Sharma,M., and P. Chadha|Widely Used Non-Ionic Surfactant 4-Nonylphenol: Showing Genotoxic Effects in Various Tissues of Channa punctatus|Environ. Sci. Pollut. Res.24(12): 11331-11339|2017|10.1007/s11356-017-8759-1
194096|A||Feng,C.Y., J.F. Wei, Y.J. Li, Y.S. Yang, Y.H. Wang, L. Lu, and G.X. Zheng|An On-Chip Pollutant Toxicity Determination Based on Marine Microalgal Swimming Inhibition|Analyst (Lond.)141(5): 1761-1771|2016|10.1039/c5an02384j
194097|A||Lalah,J.O., A. Behechti, G.F. Severin, D. Lenoir, K. Guenther, A. Kettrup, and K.W. Schramm|The Bioaccumulation and Fate of a Branched Super(14)C-P-Nonylphenol Isomer in Lymnaea stagnalis L.|Environ. Toxicol. Chem.22(7): 1428-1436|2003|
194098|A||Xu,Y., S.J. Park, and M.C. Gye|Effects of Nonylphenols on Embryonic Development and Metamorphosis of Xenopus laevis: FETAX and Amphibian Metamorphosis Toxicity Test (OECD TG231)|Environ. Res.174:14-23|2019|10.1016/j.envres.2019.04.010
194099|A||Takamatsu,M., M. Goto, and Y. Abe|Bioconcentration of 4-N-Nonylphenol in the Common Carp (Cyprinus carpio)|Fresenius Environ. Bull.18(8): 1509-1512|2009|
194100|T||Patricio-Silva,A.L., and M.J.B. Amorim|Effect of Freeze-Thaw Cycles and 4-Nonylphenol on Cellular Energy Allocation in the Freeze-Tolerant Enchytraeid Enchytraeus albidus|Environ. Sci. Pollut. Res.23(4): 3548-3555|2016|10.1007/s11356-015-5593-1
194101|A||Syasina,I.G., and N.A. Shved|Hexestrol- and Nonylphenol-Induced Differential Vitellogenin Synthesis in Female and Male Barfin Plaice Liopsetta pinnifasciata|Environ. Toxicol. Pharmacol.39(2): 597-605|2015|10.1016/j.etap.2015.01.014
194102|A||Sole,M., and J.C. Sanchez-Hernandez|Elucidating the Importance of Mussel Carboxylesterase Activity as Exposure Biomarker of Environmental Contaminants of Current Concern: An In Vitro Study|Ecol. Indic.85:432-439|2018|10.1016/j.ecolind.2017.10.046
194103|A||Sayed,A.E.H., R.M. Zaki, A.M.K. El-Dean, and A.Y. Abdulrazzaq|The Biological Activity of New Thieno[2,3-C]Pyrazole Compounds as Anti-Oxidants Against Toxicity of 4-Nonylphenol in Clarias gariepinus|Toxicol. Rep.2:1445-1453|2015|10.1016/j.toxrep.2015.10.008
194104|A||Higaki,S., Y. Koyama, M. Shimada, Y. Ono, I. Tooyama, Y. Fujioka, N. Sakai, T. Ikeuchi, and T. Takada|Response to Fish Specific Reproductive Hormones and Endocrine Disrupting Chemicals of a Sertoli Cell Line Expressing Endogenous Receptors from an Endemic Cyprinid Gnathopogon caerulescens|Gen. Comp. Endocrinol.191:65-73|2013|10.1016/j.ygcen.2013.06.002
194105|A||Torres-Duarte,C., M. Teresa Viana, and R. Vazquez-Duhalt|Laccase-Mediated Transformations of Endocrine Disrupting Chemicals Abolish Binding Affinities to Estrogen Receptors and Their Estrogenic Activity in Zebrafish|Appl. Biochem. Biotechnol.168(4): 13 p.|2012|10.1007/s12010-012-9825-2
194106|A||Huff,M., W. Da Silveira, E.S. Hazard, S.M. Courtney, L. Renaud, and G. Hardiman|Systems Analysis of the Liver Transcriptome in Adult Male Zebrafish Exposed to the Non-Ionic Surfactant Nonylphenol|Gen. Comp. Endocrinol.271:1-14|2019|10.1016/j.ygcen.2018.10.016
194107|A||Wang,L., H. Xiao, N. He, D. Sun, and S. Duan|Biosorption and Biodegradation of the Environmental Hormone Nonylphenol by Four Marine Microalgae|Sci. Rep.9:11 p.|2019|10.1038/s41598-019-41808-8
194108|A||Katsu,Y., S. Kohno, H. Narita, H. Urushitani, K. Yamane, A. Hara, T.M. Clauss, M.T. Walsh, S. Miyagawa, Jr.L.J. Guillet|Cloning and Functional Characterization of Chondrichthyes, Cloudy Catshark, Scyliorhinus torazame and Whale Shark, Rhincodon typus Estrogen Receptors|Gen. Comp. Endocrinol.168(3): 496-504|2010|10.1016/j.ygcen.2010.06.010
194109|A||Medvedeva,N., T. Zaytseva, and I. Kuzikova|Cellular Responses and Bioremoval of Nonylphenol by the Bloom-Forming Cyanobacterium Planktothrix agardhii 1113|J. Mar. Syst.171(SI): 120-128|2017|10.1016/j.jmarsys.2017.01.009
194110|A||Wang,H., T. Wu, F. Qin, L. Wang, and Z. Wang|Molecular Cloning of FOXl2 Gene and the Effects of Endocrine-Disrupting Chemicals on Its mRNA Level in Rare Minnow, Gobiocypris rarus|Fish Physiol. Biochem.38:653-664|2012|10.1007/s10695-011-9548-2
194111|A||Zhao,Y., X. Wang, X. Lin, S. Zhao, and J. Lin|Comparative Developmental Toxicity of Eight Typical Organic Pollutants to Red Sea Bream (Pagrosomus major) Embryos and Larvae|Environ. Sci. Pollut. Res.24(10): 9067-9078|2017|
194112|A||Abd-Elkareem,M., N. Abou Khalil, and A. Sayed|Hepatotoxic Responses of 4-Nonylphenol on African Catfish (Clarias gariepinus): Antioxidant and Histochemical Biomarkers|Fish Physiol. Biochem.:969-981|2018|10.1007/s10695-018-0485-1
194113|A||Brunelli,E.|Histological and Ultrastructural Alterations of the Italian Newt (Lissotriton italicus) Skin After Exposure to Ecologically Relevant Concentrations of Nonylphenol Ethoxylates|Environ. Toxicol. Pharmacol.60:17-27|2018|10.1016/j.etap.2018.04.007
194114|A||Turoboyski,K.|The Effect of Rokafenol N and Sulfoxylate T on the Level of Chlorides and of Ninhydrin-Positive Substances in Two Species of Baltic Crustaceans|Bull. Pol. Acad. Sci.34(1-3): 35-40|1986|
194115|A||McCormick,S.D., M.F. O'Dea, A.M. Moeckel, D.T. Lerner, and B.T. Bjornsson|Endocrine Disruption of Parr-Smolt Transformation and Seawater Tolerance of Atlantic Salmon by 4-Nonylphenol and 17beta-Estradiol|Gen. Comp. Endocrinol.142(3): 280-288|2005|10.1016/j.ygcen.2005.01.015
194116|A||Pomatto,V., F. Palermo, G. Mosconi, E. Cottone, P. Cocci, M. Nabissi, L. Borgio, A.M. Polzonetti-Magni, and M.F. Franzo|Xenoestrogens Elicit a Modulation of Endocannabinoid System and Estrogen Receptors in 4NP Treated Goldfish, Carassius auratus|Gen. Comp. Endocrinol.174(1): 30-35|2011|10.1016/j.ygcen.2011.08.001
194117|A||Sole,M., I. Mueller, M.J. Pecyna, I. Fetzer, H. Harms, and D. Schlosser|Differential Regulation by Organic Compounds and Heavy Metals of Multiple Laccase Genes in the Aquatic Hyphomycete Clavariopsis aquatica|Appl. Environ. Microbiol.78(13): 4732-4739|2012|10.1128/aem.00635-12
194118|A||Tohyama,S., S. Miyagawa, A. Lange, Y. Ogino, T. Mizutani, N. Tatarazako, Y. Katsu, M. Ihara, H. Tanaka, H. Ishibashi, T|Understanding the Molecular Basis for Differences in Responses of Fish Estrogen Receptor Subtypes to Environmental Estrogens|Am. Chem. Soc. Conf. Proc. Ser.49(12): 7439-7447|2015|10.1021/acs.est.5b00704
194119|A||Turker,H.|Priming Effects of Xenoestrogen Treatments on Vitellogenin Synthesis Under In Vitro and In Vivo Conditions in the Mozambique Tilapia|Fresenius Environ. Bull.22(11): 3236-3246|2013|
194120|A||Casares,F.M.|Endogenous Morphine in the Lobster Homarus americanus (Coupling to Nitric Oxide Production and Neuroimmune Modulation in Response to Stress)|Ph.D. Thesis, State University of New York at Stony Brook, NY:129 p.|2005|
194121|A||Li,Y.|NR1L: A Novel Nuclear Receptor Group Activated by Juvenile Hormone Analogs|M.S. Thesis, Clemson University, Clemson, SC:107 p.|2011|
194122|A||Canesi,L., L.C. Lorusso, C. Ciacci, M. Betti, M. Zampini, and G. Gallo|Environmental Estrogens can Affect the Function of Mussel Hemocytes Through Rapid Modulation of Kinase Pathways|Gen. Comp. Endocrinol.138(1): 58-67|2004|10.1016/j.ygcen.2004.05.004
194123|A||Maeng,S., Y. Jung, E. Choi, J.K. Jeon, S. Kim, K. Gen, and Y.C. Sohn|Expression of Gonadotropin Subunit Genes Following 4-Nonylphenol Exposure in Masu Salmon: Effects on Transcript Levels and Promoter Activities via Estrogen Receptor alpha|Comp. Biochem. Physiol. Part B Biochem. Mol. Biol.142(4): 383-390|2005|10.1016/j.cbpb.2005.08.009
194124|A||Maradonna,F., and O. Carnevali|Vitellogenin, Zona Radiata Protein, Cathepsin D and Heat Shock Protein 70 as Biomarkers of Exposure to Xenobiotics|Biomarkers (Lond.)12(3): 240-255|2007|10.1080/13547500601070859
194125|A||Shelley,L.K., P.S. Ross, and C.J. Kennedy|The Effects of an In Vitro Exposure to 17beta-Estradiol and Nonylphenol on Rainbow Trout (Oncorhynchus mykiss) Peripheral Blood Leukocytes|Comp. Biochem. Physiol. C Toxicol. Pharmacol.155(3): 440-446|2012|10.1016/j.cbpc.2011.11.006
194126|A||Yum,S., Y.J. Jo, and S. Woo|Metabolic Changes in Marine Medaka Fish (Oryzias javanicus) in Response to Acute 4-Nonlyphenol Toxicity|BioChip J.9(4): 322-331|2015|
194127|A||Zhang,L., D. Xu, M. Cui, L. Tang, T. Hou, and Q. Zhang|The Guanine Nucleotide-Binding Protein a Subunit Protein ChGnaq Positively Regulates Hsc70 Transcription in Crassostrea hongkongensis|Biochem. Biophys. Res. Commun.499(2): 215-220|2018|10.1016/j.bbrc.2018.03.130
194128|A||Takeshita,J.I., M. Seki, and M. Kamo|Criteria for Deviation from Predictions by the Concentration Addition Model|Environ. Toxicol. Chem.35(7): 1806-1814|2016|10.1002/etc.3334
194129|A||Manwell,C., and C.M.A. Baker|A Study of Detergent Pollution by Molecular Methods: Starch-Gel Electrophoresis of a Variety of Enzymes and Other Proteins|J. Mar. Biol. Assoc. U.K.47:659-675|1967|
194130|T||BioDynamics Inc.|Skin Corrosivity Evaluation in Rabbits with Nonylphenol with Cover Letter Dated 02/24/1997|EPA/OTS Doc.#86970000255:10 p.|1982|
194131|T||Domene,X., S. Chelinho, and J.P. Sousa|Effects of Nonylphenol on a Soil Community Using Microcosms|J. Soils Sediments10(3): 556-567|2010|10.1007/s11368-009-0167-9
194132|T||Vanderen,J.M., and E.G. Jaworski|Ethoxyquin (Santonin) in Eggs, Chicken Muscle, and Chicken Liver|J. Assoc. Off. Agric. Chem.49(4): 712-714|1966|
194133|T||Waldroup,P.W., C.R. Douglas, J.T, McCall, and R.H. Harms|The Effects of Santoquin on the Performance of Broilers|Poult. Sci.39(6): 1313-1317|1960|
194135|T||Parrish,D.B., R.A. Zimmerman, P.E. Sanford, and E. Hung|Utilization of Alfalfa Carotene and Vitamin A by Growing Chicks|J. Nutr.79(1): 9-17|1963|
194136|A||Kim,R.O., H. Kim, and Y.M. Lee|Evaluation of 4-Nonylphenol and Bisphenol A Toxicity Using Multiple Molecular Biomarkers in the Water Flea Daphnia magna|Ecotoxicology28(2): 167-174|2019|10.1007/s10646-018-2009-2
194137|A||Celius,T., T.B. Haugen, T. Grotmol, and B.T. Walther|A Sensitive Zonagenetic Assay for Rapid In Vitro Assessment of Estrogenic Potency of Xenobiotics and Mycotoxins|Environ. Health Perspect.107(1): 63-68|1999|10.1289/ehp.9910763
194138|T||Biochemical Research Laboratory|Results of 90-Day Dietary Feeding Studies of Dowfax 9N40 [] and Dowfax 9N9 in Rats, with Cover Letter Dated 041000 (Sanitized)|EPA/OTS Doc.#86000000010S:20 p.|2000|
194139|T||Bushy Run Research Center|Nonylphenol RNH: Primary Skin Irritancy Study in the Rabbit by Department of Transportation (DOT) Procedures|EPA/OTS Doc.#86970000322:8 p.|1992|
194140|T||Bushy Run Research Center|Nonylphenol S:  Primary Skin Irritancy Study in the Rabbit by Dot Procedures|EPA/OTS Doc.#86970000321:8 p.|1992|
194141|T||Consumer Product Testing|Primary Dermal Irritation (Rabbit), Ocular Irritation (Rabbit), and Oral LD50 (Rat) of Igepal CO-530 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000623:28 p.|1978|
194142|T||Consumer Product Testing|Acute Oral LD50 in Rats with Igepal Co-850 Nonylphenoxypoly (Ethyleneoxy) Ethanol with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000603:21 p.|1982|
194143|T||Consumer Product Testing|Acute Oral LD50 in Rats with Igepal Co-990 (Polyethyleneoxy Derivative) with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000236:15 p.|2000|
194144|T||Consumer Product Testing|Dermal LD50 (Rabbit) with Igepal CO-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000609:17 p.|1977|
194145|T||Mellon Institute|Nonylphenol: Range Finding Toxicity and Repeated Skin Application Studies|EPA/OTS Doc.#86970000309:10 p.|1978|
194146|T||Huntingdon Life Sciences|Acute Oral Toxicity Study with Tergitol NP-9 in Rats|EPA/OTS Doc.#86970000446:23 p.|1996|
194147|T||Huntingdon Life Sciences|Acute Cutaneous Toxicity Study with Tergitol NP-9 in Rabbits|EPA/OTS Doc.#86970000447:19 p.|1996|
194148|T||Wan,X., G. Liang, and D. Wang|Neurotoxicity and Accumulation of CPPD Quinone at Environmentally Relevant Concentrations in Caenorhabditis elegans|Chemosphere361:9 p.|2024|
194149|T||Huntingdon Life Sciences|Primary Skin Irritation Study with Tergitol NP-9 in Rabbits|EPA/OTS Doc.#86970000448:19 p.|1996|
194150|A||Wang,J., Q. Ai, K. Mai, W. Xu, H. Xu, W. Zhang, X. Wang, and Z. Liufu|Effects of Dietary Ethoxyquin on Growth Performance and Body Composition of Large Yellow Croaker Pseudosciaena crocea|Aquaculture306(1-4): 80-84|2010|
194151|A||Pradhan,A., C. Bereketoglu, L. Martin, J. Duhagon, and P.E. Olsson|The Food Preservative Ethoxyquin Impairs Zebrafish Development, Behavior and Alters Gene Expression Profile|Food Chem. Toxicol.135:9 p.|2020|10.1016/j.fct.2019.110926
194152|A||Rabergh,C.M.I., and M.M. Lipsky|Toxicity of Chloroform and Carbon Tetrachloride in Primary Cultures of Rainbow Trout Hepatocytes|Aquat. Toxicol.37(2/3): 169-182|1997|
194153|T||Pizzarello,D.J., and R.V. Ford|Effects of Paradimethylaminoazobenzene and the Antioxidant N,N'-Diphenyl-P-Phenylene Diamine in Developing Chicks|Experientia24(6): 621-622|1968|
194155|T||Huntingdon Life Sciences|Primary Eye Irritation Study with Tergitol NP-9 in Rabbits|EPA/OTS Doc.#86970000449:19 p.|1996|
194156|T||Bartov,I.|Effect of Various Dietary Factors and Age on Plasma alpha-Tocopherol Concentration of Turkeys|Poult. Sci.62(4): 635-641|1983|10.3382/ps.0620635
194157|T||Donaldson,W.E.|Interactions of Dietary Lead with Fish Oil and Antioxidant in Chicks|Biol. Trace Elem. Res.31(3): 215-222|1991|10.1007/BF02990192
194158|T||Miller,D., and V. White|Chick Tissues Fatty Acid Composition as Affected by Selenium, DL-alpha-Tocopherol Acetate, Ethoxyquin and Polyunsaturated Oils|Nutr. Rep. Int.12(4): 245-254|1975|
194159|A||Osorio-Yanez,C., J.L. Garcia-Tavera, M.T. Perez-Nunez, I. Poblete-Naredo, B. Munoz, B.S. Barron-Vivanco, S.J. Rothenber|Benzo(a)pyrene Induces Hepatic AKR1A1 mRNA Expression in Tilapia Fish (Oreochromis niloticus)|Toxicol. Mech. Methods22:438-444|2012|10.3109/15376516.2012.666684
194160|T||Abbar,S., B. Amoah, M.W. Schilling, and T.W. Phillips|Efficacy of Selected Food-Safe Compounds to Prevent Infestation of the Ham Mite, Tyrophagus putrescentiae (Schrank) (Acarina: Acaridae), on Southern Dry-Cured Hams|Pest Manag. Sci.72(8): 1604-1612|2016|10.1002/ps.4196
194161|T||Drake,S.R., D.C. Elfving, P.L. Pusey, and E.M. Kupferman|Fruit Quality of 'D'anjou' Pears After Bin Storage and Late-Season Packing|J. Food Process. Preserv.30(4): 420-432|2006|10.1111/j.1745-4549.2006.0076.x
194162|A||Zhong,L., W. Peng, C. Liu, L. Gao, D. Chen, and X. Duan|IPPD-Induced Growth Inhibition and Its Mechanism in Zebrafish|Ecotoxicol. Environ. Saf.239:9 p.|2022|10.1016/j.ecoenv.2022.113614
194163|A||Petty,A.C.|The Effects of Dietary Antioxidants on Oxidative Status and Disease Resistance in the Pacific Whiteleg Shrimp, Litopenaeus vannamei|M.S.Thesis, College of Charleston, Charleston, SC:74 p.|2011|
194164|T||Potter,L.M., R.H. Bunnell, L.D. Matterson, and E.P. Singsen|The Effect of Antioxidants and a Vitamin B12 Concentrate on the Utilization of Carotenoid Pigments by the Chicks|Poult. Sci.35(2): 452-456|1956|
194165|T||Halpin,K.M., and D.H. Baker|Selenium Deficiency and Transsulfuration in the Chick|J. Nutr.114(3): 606-612|1984|
194169|T||Industrial Bio-Test Laboratories|Acute Oral Toxicity Study with General Aniline and Film Corporation - Igepal Co-880 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000604:13 p.|1960|
194170|T||Industrial Toxicology Laboratories|Acute Oral Toxicity Studies with Igepal Co-430 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000225:9 p.|2000|
194171|T||Industrial Toxicology Laboratories|Acute Oral Toxicity Studies with Igepal Co-610 - 10% W/V Aqueous Solution with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000232:9 p.|1997|
194172|T||Industrial Toxicology Laboratories|Acute Oral Toxicity Studies on White Rats and Guinea Pigs with Igepal Co-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000246:12 p.|1952|
194173|T||MB Research Laboratories|Uterine Weight Assay of p-Nonylphenol (NP) and P-Octylphenol Ethoxylate-5 (OPE-5) Administered Orally to Ovariectomized Sprague Dawley Rats with Cover Letter Dated 04/28/1997|EPA/OTS Doc.#86970000617:210 p.|1997|
194174|T||Mellon Institute|"Comparative Toxicity of November 1952 Production Batches of ""Tergitol"" NPX"|EPA/OTS Doc.#86970000037:18 p.|1953|
194177|T||Mellon Institute|"Comparison of Healing Time of Rabbit Eyes After Instillation of ""Tergitol"" NPX or TP-9"|EPA/OTS Doc.#86970000043:9 p.|1954|
194178|T||Mellon Institute|Range Finding Tests on Tergitol NP-44|EPA/OTS Doc.#86970000078:6 p.|1959|
194180|T||Mellon Institute|Range Finding Tests on Tergitol TP-9|EPA/OTS Doc.#86970000071:8 p.|1959|
194183|T||Hardenburg,R.E., and D.H. Spalding|Postharvest Benomyl and Thiabendazole Treatments, Alone and with Scald Inhibitors, to Control Blue and Gray Mold in Wounded Apples|J. Am. Soc. Hortic. Sci.97(2): 154-158|1972|
194184|T||Ratcliff,R.G., E.J. Day, and J.E. Hill|Comparison of Two Antioxidants and Two Sources of Xanthophyll in a Pigmentation Study with Broilers|Poult. Sci.40(3): 716-720|1961|
194186|A||Rehulka,J.|Hematological and Biochemical Profile of Rainbow Trout Oncorhynchus mykiss During Testing the Butlyhydroxytoluol (BHT) Based Antioxidant Neox|Zivoc. Vyroba (Multiple Languages)39(6): 515-537|1994|
194187|A||Rehulka,J.|The Effects of Antioxidant Neox and Lecithin on Production and Body Growth Indexes of Rainbow-Trout (Oncorhynchus mykiss)|Zivoc. Vyroba (Multiple Languages)39(2): 149-162|1994|
194189|T||Mellon Institute|Two-Year Feeding of Tergitol Nonionic TP-9 in the Diet of Dogs|EPA/OTS Doc.#86970000103:15 p.|1963|
194190|T||Mellon Institute|Acute Toxicity of Tergitol Nonionic TP-9|EPA/OTS Doc.#86970000104:8 p.|1963|
194192|T||Rath,I., and W. Barz|The Role of Lipid Peroxidation in Aluminium Toxicity in Soybean Cell Suspension Cultures|Z. Naturforsch.55c(11-12): 957-964|2000|
194194|T||Ascarelli,I.|The Use of Vitamin A Protected by DPPD (Diphenyl-P-Phenylene-Diamine) for the Growth of Chickens|Poult. Sci.36(3): 549-551|1957|
194199|T||Mellon Institute|Absorption, Metabolism, and Excretion of Tergitol Nonionic TP-9 in the Rat|EPA/OTS Doc.#86970000112:17 p.|1964|
194200|T||Harms,R.H., J.H. Quisenberry, and J.R. Couch|The Effects on Broiler Pigmentation of Incorporation Milo, Dehydrated Alfalfa Meal, and Diphenyl-P-Phenylenediamine (D.P.P.D.) in the Diet|Poult. Sci.37(1): 143-147|1958|
194201|A||Moccia,R.D., S.S.O. Hung, S.J. Slinger, and H.W. Ferguson|Effect of Oxidized Fish Oil, Vitamin-E and Ethoxyquin on the Histopathology and Hematology of Rainbow-Trout, Salmo gairdneri Richardson|J. Fish Dis.7(4): 269-282|1984|
194202|T||An,B.S., K.C. Choi, S.K. Kang, W.S. Hwang, and E.B. Jeung|Novel Calbindin-D9k Protein as a Useful Biomarker for Environmental Estrogenic Compounds in the Uterus of Immature Rats|Reprod. Toxicol.17(3): 311-319|2003|10.1016/S0890-6238(03)00003-0
194203|T||Madelin,T.M.|The Effect of a Surfactant in Media for the Enumeration, Growth and Identification of Airborne Fungi|J. Appl. Bacteriol.63(1): 47-52|1987|
194204|T||North,M., and J. Wooldridge|Effect of Adjuvants on Apple Fruit and Leaf Calcium and Nitrogen Concentrations at Three Fruit Growth Stages|S. Afr. J. Plant Soil22(1): 33-37|2005|
194205|T||North,M., J. Wooldridge, J. Mudzunga, and Bcpc |Effect of Adjuvants on Fruit and Leaf Calcium Concentrations in Golden Delicious Apple Following Calcium Nitrate Applications for the Control of Bitter Pit|The BCPC International Congress: Crop Science and Technology, Volumes 1 and 2. Proceedings of an international congress held at the SECC, Glasgow, Scotland, UK, 10-12 November 2003, 495-500 ref. 91-2:495-500|2003|
194206|A||Schneider,S.Z., A. Pevey, A. Milligan, and L. Zhang|o-Dichlorobenzene: A Life Cycle Toxicity Test with the Midge (Chironomus dilutus) Using Spiked Sediment|Easton Study Number: 264A-119, eSM Project Number: S22-208647:155 p.|2024|
194207|A||Barlocher,F., K. Guenzel, K.R. Sridhar, and S.J. Duffy|Effects of 4-N-Nonylphenol on Aquatic Hyphomycetes|Sci. Total Environ.409(9): 1651-1657|2011|10.1016/j.scitotenv.2011.01.043
194208|T||Ceylan,T., A.T. Akin, D. Karabulut, F.C. Tan, M. Taskiran, and B. Yakan|Therapeutic Effect of Thymoquinone on Brain Damage Caused by Nonylphenol Exposure in Rats|J. Biochem. Mol. Toxicol.37(11): 12 p.|2023|10.1002/jbt.23471
194209|T||Chamel,A., B. Gambonnet, and J. Coret|Effects of 2 Ethoxylated Nonylphenols on Sorption and Penetration of [C-14] Isoproturon Through Isolated Plant Cuticles|Plant Physiol. Biochem.30(6): 713-721|1992|
194210|T||Conlin,T.S.S., A.M. Hinshalwood, and P.N.P. Chow|Effect of Six Surfactants on Rhizospheric pH and Membrane Permeability of Wild Oat (Avena fatua L.) and Wheat (Triticum aestivum L.)|In:  Adjuvants and Agrochemicals Volume I Mode of Action and Physiology Activity1:63-71|2018|
194211|T||Dalgaard,M., K. Pilegaard, and O. Ladefoged|In Utero Exposure to Diethylstilbestrol or 4-N-Nonylphenol in Rats: Number of Sertoli Cells, Diameter and Length of Seminiferous Tubules Estimated by Stereological Methods|Pharmacol. Toxicol.90(2): 59-65|2002|10.1034/j.1600-0773.2002.900202.x
194212|T||Tinsley,I.J., G.H. Arscott, and R.R. Lowry|Fertility and Testicular Fatty Acid Composition in Chicken as Influenced by Vitamin E and Ethoxyquin|Lipids6(9): 657-660|1971|
194213|A||Tian,J., Q. Tao, Y. Li, and G. Wang|Ethoxyquin Attenuate Oxidant Stress, Inflammatory Response and Apoptosis in Liver of Channa argus Fed with High-Fat Dietary|Aquac. Rep.21:7 p.|2021|10.1016/j.aqrep.2021.100889
194214|T||Davies,R.A.H., and I.W. Mclaren|Tolerance of Aphytis melinus Debach (Hymenoptera-Aphelinidae) to 20 Orchard Chemical Treatments in Relation to Integrated Control of Red Scale, Aonidiella aurantii (Maskell) (Homoptera-Diaspididae)|Aust. J. Exp. Agric.17(85): 323-328|1977|
194215|T||Dhondt,M.M.M., E. Adriaens, and J.P. Remon|The Evaluation of the Local Tolerance of Vaginal Formulations, with or Without Nonoxynol-9, Using the Slug Mucosal Irritation Test|Sex. Transm. Dis.31(4): 229-235|2004|10.1097/01.olq.0000118422.62336.fa
194217|T||Hanafy,A.M., T. Sasanami, K. Ichikawa, K. Shimada, and M. Mori|Estrogen Receptor Binding of Xenoestrogens and Phytoestrogens in Japanese Quail (Coturnix japonica)|J. Poult. Sci.41(1): 30-37|2004|10.2141/jpsa.41.30
194218|T||Hu,Y., W. Wu, D. Xu, X. Guan, and S. Wang|Occurrence, Uptake, and Health Risk Assessment of Nonylphenol in Soil-Celery System Simulating Long-Term Reclaimed Water Irrigation|J. Hazard. Mater.406:9 p.|2021|10.1016/j.jhazmat.2020.124773
194219|T||Hu,Y., M. Ma, L. Gao, W. Wu, and D. Xu|Uptake, Translocation and Health Risk Assessment of Nonylphenol in Vegetables Under Reclaimed Water Irrigation|Irrig. Drain.74:627-640|2024|
194220|T||Research Triangle Institute|Initial Submission:  Letter From Union Carbide Corp. to USEPA Reporting Preliminary Information from Developmental Toxicity Study of Tergitol NP-4 Surfactant in Rats, Dated 6/2/1998|EPA/OTS Doc.#88980000156:3 p. |1998|
194221|T||Research Triangle Institute|Support: Final Report, Developmental Toxicity Evaluation of Tergitol NP-4 Surfactant Administered by Gavage to CD (Sprague-Dawley) Rats, with Cover Letter Dated 4/23/1999|EPA/OTS Doc.#89990000183:299 p.|1999|
194222|T||Kimura,N., T. Kimura, M. Suzuki, and K. Totsukawa|Effect of Gestational Exposure to Nonylphenol on the Development and Fertility of Mouse Offspring|J. Reprod. Dev.52(6): 789-795|2006|
194223|T||Opstvedt,J., S. Olsen, and N. Urdahl|Influence of Residual Lipids on the Nutritive Value of Fish Meal. I. the Effects of Adding 1,2-Dihydro-6-Ethoxy-2,2,4-Trimethylquinoline to Fish Meal on Protein Quality, Energy Value and Vitamin E Status in Chickens|Acta Agric. Scand.20(3): 174-184|1970|
194224|T||Kourouma,A., P. Duan, H. Keita, A. Osamuyimen, S. Qi, C. Quan, T. Yu, and K. Yang|In Vitro Assessment of ROS on Motility of Epididymal Sperm of Male Rat Exposed to Intraperitoneal Administration of Nonylphenol|Asian Pac. J. Reprod.4(3): 169-178|2015|10.1016/j.apjr.2015.05.002
194225|T||Lal,O.P., and H. Schmutterer|Effectiveness of Terramycin with Some Other Antibiotics and Surfactants Against Aphis fabae|Indian J. Entomol.38(2): 155-159|1976|
194226|T||Lee,J., B. Lee, S. Chang, H. Oh, B. Ryu, U. Kim, and J. Park|Establishment, Characterization, and Toxicological Application of a Spontaneous Immortalized Cell Line from the Striped Field Mouse, Apodemus agrarius|In Vitro Cell. Dev. Biol.54(10): 779-787|2018|10.1007/s11626-018-0290-2
194227|T||Opstvedt,J., E. Nygard, and S. Olsen|Influence of Residual Lipids on the Nutritive Value of Fish Meal. III Antioxidant Stabilized and Solvent Extracted Fish Meal in Diets for Broiler Chickens with Different Levels of Added Vitamin E and 1,2-Dihydro-6-Ethox|Acta Agric. Scand.21(2): 125-143|1971|
194228|T||Libardi Junior,N., R.M. Miranda Gern, S.A. Furlan, and D. Schlosser|Laccase Production by the Aquatic Ascomycete Phoma sp. UHH 5-1-03 and the White Rot Basidiomycete Pleurotus ostreatus DSM 1833 During Submerged Cultivation on Banana Peels and Enzyme Applicability for the Removal of End|Appl. Biochem. Biotechnol.167(5): 1144-1156|2012|
194229|T||Ohshima,M., D.V. Layug, H.O. Yokota, and H.T. Ostrowski-Meissner|Effect of Graded Levels of Ethoxyquin in Alfalfa Leaf Extracts on Carotenoid and Cholesterol Concentrations in Chicks|Anim. Feed Sci. Technol.62(2-4): 141-150|1996|
194230|T||Machlin,L.J., and R.S. Gordon|Linoleic Acid as a Causative Agent of Encephalomalacia in Chickens Fed Oxidized Fats|Proc. Soc. Exp. Biol. Med.103(4): 559-563|1960|10.3181/00379727-103-25626
194231|T||Liu,F., X. Cao, and L. Zhou|Lipid Metabolism Analysis Providing Insights into Nonylphenol Multi-Toxicity Mechanism|iScience26(12): 20 p.|2023|10.1016/ j.isci.2023.108417
194232|T||Li,S., M. Zheng, X. Yang, J. Zhang, J. Xu, and J. Yu|Effect of Nonylphenol on the Colonic Mucosa in Rats and Intervention with Zinc-Selenium Green Tea (Camellia sinensis)|Toxicol. Res. (Oxf.)11(1): 122-133|2022|10.1093/toxres/tfab119
194234|T||Machlin,L.J., R.S. Gordon, and K.H. Meisky|"The Effect of Antioxidants on Vitamin E Deficiency Symptoms and Production of Liver ""Peroxide"" in the Chicken"|J. Nutr.67(2): 333-343|1959|
194235|T||Machlin,L.J., and W.T. Shalkop|Muscular Degeneration in Chickens Fed Diets Low in Vitamin E and Sulfur|J. Nutr.60(1): 87-96|1956|
194236|T||Lu,J., J. Wu, P.J. Stoffella, and P.C. Wilson|Uptake and Distribution of Bisphenol A and Nonylphenol in Vegetable Crops Irrigated with Reclaimed Water|J. Hazard. Mater.:865-870|2015|10.1016/j.jhazmat.2014.10.018
194237|A||Bautista,M.N., P.F. Subosa, and C.R. Lavilla-Pitogo|Effects of Antioxidants on Feed Quality and Growth of Penaeus monodon Juveniles|J. Sci. Food Agric.60(1): 55-60|1992|
194238|T||Soto-Salanova,M., J.L. Sell, E.G. Mallarino, E.J. Piquer, D.L. Barker, P.E. Palo, and R.C. Ewan|Research Note: Vitamin E Status of Turkey Poults as Influenced by Different Dietary Vitamin E Sources, a Bile Salt, and an Antioxidant|Poult. Sci.72(6): 1184-1188|1993|
194239|T||Luo,Y., W. Xu, W. Ou, T. Wang, C. Yang, S. Xie, J. Yu, and J. Xu|Hospital-Based Case Control Study and Animal Study on the Relationship Between Nonylphenol Exposure and Depression|PeerJ9:17 p.|2021|10.7717/peerj.11384
194240|T||Madiedo,G., and M.L. Sunde|The Effect of Algae, Dried Lake Weed, Alfalfa and Ethoxyquin on Yolk Color|Poult. Sci.43(4): 1056-1061|1964|10.3382/ps.0431056
194241|T||Atkinson,A., R.P. Van der Merwe, and L.G. Swart|The Effect of High Levels of Different Fish Meals of Several Antioxidants and Poultry Byproduct Meal on the Flavor and Fatty Acid Composition of Broilers|Agroanimalia4(3): 63-68|1972|
194242|T||Xiao,Y., X. Gao, and J. Yuan|Comparative Study of an Antioxidant Compound and Ethoxyquin on Feed Oxidative Stability and on Performance, Antioxidant Capacity, and Intestinal Health in Starter Broiler Chickens|Antioxidants (Basel)13(10): 19 p.|2024|10.3390/antiox13101229
194244|T||Martin,H., and E.S. Salmon|The Fungicidal Properties of Certain Spray-Fluids, X. Glyceride Oils|J. Agric. Sci.23(2): 228-251|1933|10.1017/S0021859600053028
194245|A||Hua-Tao,L., L. Lei, Z. Rong-Mei, L. Lan, Y. Zhi, Z. Shan-Fu, J. Jun, L. Si-Miao, D. Ting-Ting, L. Qi, and H. Si-Pei|The Extracts of Angelica sinensis Inhibit Lipid Oxidation in Fish Erythrocytes and Improve Growth, Digestive, Absorptive and Antioxidant Capacity in Juvenile Jian Carp (Cyprinus carpio var. Jian)|Aquac. Nutr.25(1): 119-133|2019|10.1111/anu.12836
194246|T||Jensen,L.S., J.S. Carver, and J. Mcginnis|Effects of Vitamin E, N, N1-Diphenylpara-Phenylene Diamine, and Fish Liver Oil on Reproduction in Turkeys|Proc. Soc. Exp. Biol. Med.91(3): 386-388|1956|10.3181/00379727-91-22270
194247|T||Ni,C., K. Pan, J. Xu, X. Long, F. Lin, Y. Nie, Y. Yang, and J. Yu|Effects and Mechanism of Perinatal Nonylphenol Exposure on Cardiac Function and Myocardial Mitochondria in Neonatal Rats|Ecotoxicol. Environ. Saf.258:13 p.|2023|10.1016/j.ecoenv.2023.114977
194248|T||March,B.E., J. Biely, and V. Coates|The Influence of Diet on Toxicity of the Antioxidant 1,2-Dihydro-6-Ethoxy-2,2,4-Trimethylquinoline|Can. J. Physiol. Pharmacol.46(2): 145-149|1968|
194249|T||Elokil,A., S. Li, W. Chen, O. Farid, K. Abouelezz, K. Zohair, F. Nassar, E. El-Komy, S. Farag, and M. Elattrouny|Ethoxyquin Attenuates Enteric Oxidative Stress and Inflammation by Promoting Cytokine Expressions and Symbiotic Microbiota in Heat-Stressed Broilers|Poult. Sci.103(6): 15 p.|2024|10.1016/j.psj.2024.103761
194250|A||Bogevik,A.S., K. Kousoulaki, A.B. Skiftesvik, and I. Opstad|Fishmeal Quality and Ethoxyquin Effects on the Weaning Performance of Ballan Wrasse (Labrus bergylta) Larvae|Aquac. Nutr.22(1): 46-50|2016|
194251|T||Monson,W.J., E.T. Gade, M.D. Lloyd, and A.C. Groschke|Utilization of Vitamin A Activity from Alfalfa or Fish Oil by Chicks Receiving Diets with and Without Diphenyl-P-Pheaylenediamine (DPPD)|Poult. Sci.36(1): 166-170|1957|
194252|A||Murai,T., and J.W. Andrews|Interactions of Dietary alpha-Tocopherol, Oxidized Menhaden Oil and Ethoxyquin on Channel Catfish (Ictalurus punctatus)|J. Nutr.104(11): 1416-1431|1974|
194253|T||Foudin,A.S., L.L. Leaich, and J.C. Ayres|Effects of Ethoxyquin on Aflatoxin-Producing Strains of Aspergillus parasiticus and A. flavus|J. Food Sci.43(3): 731-734|1978|
194254|T||Nanto,F., C. Ito, M. Kikusato, and M. Toyomizu|Effect of Feeding Diets Combining Whole-Grain Paddy Rice and High Levels of Fat on Broiler Chicken Growth|J. Poult. Sci.53(1): 34-39|2016|10.2141/jpsa.0150070
194255|T||Sakimura,M., A. Tsukada, M. Usami, S. Hanzawa, N. Saito, Y. Ohno, and K. Shimada|Effect of Estradiol and Nonylphenol on mRNA Expression of Estrogen Receptors alpha and beta, and Cytochrome P450 Aromatase in the Gonad of Chicken Embryos|J. Poult. Sci.39(4): 302-309|2002|10.2141/jpsa.39.302
194256|T||Ehrich,M., C. Driscoll, and C. Larsen|Ability of Ethoxyquin and Butylated Hydroxytoluene to Counteract Deleterious Effects of Dietary Aflatoxin in Chicks|Avian Dis.30(4): 802-807|1986|10.2307/1590588
194257|T||Sakimura,M., S. Hanzawa, A. Tsukada, I. Yamamoto, N. Saito, M. Usami, Y. Ohno, and K. Shimada|Effect of Estradiol and Nonylphenol on mRNA Levels of VitellogeninII in the Liver of Chicken Embryos|J. Poult. Sci.38(3): 250-257|2001|
194259|T||Sciarrillo,R., M. Di Lorenzo, S. Valiante, L. Rosati, and M. De Falco|Octylphenol (OP) Alone and in Combination with Nonylphenol (NP) Alters the Structure and the Function of Thyroid Gland of the Lizard Podarcis siculus|Arch. Environ. Contam. Toxicol.80(3): 567-578|2021|10.1007/s00244-021-00823-5
194260|T||Soares,A., B. Guieysse, and B. Mattiasson|Influence of Agitation on the Removal of Nonylphenol by the White-Rot Fungi Trametes versicolor and Bjerkandera sp. BOL 13|Biotechnol. Lett.28(3): 139-143|2006|10.1007/s10529-005-5326-5
194261|T||Swait,A.A.J., and R.T. Burchill|Eradication of Apple Mildew from Nursery Material Using a Dormant Season Dip of Nonanol/Nonyl Phenol Ethoxylate|Plant Dis. Rep.62(10): 880-884|1978|
194262|T||Bartov,I., and S. Bornstein|Comparisons of BHT and Ethoxyquin as Antioxidants in the Nutrition of Broilers|Poult. Sci.51(3): 859-868|1972|
194263|A||Kestemont,P., E. Vandeloise, C. Melard, P. Fontaine, and P.B. Brown|Growth and Nutritional Status of Eurasian Perch Perca fluviatilis Fed Graded Levels of Dietary Lipids with or Without Added Ethoxyquin|Aquaculture203(1/2): 85-99|2001|10.1016/S0044-8486(01)00615-9
194264|T||Tomita,Y., and Y. Motokawa|GDPmannose Dolicholphosphate Mannosyltransferase of Chicken Liver Mitochondria|Biochim. Biophys. Acta842(2-3): 176-183|1985|10.1016/0304-4165(85)90200-4
194265|A||Neethumohan,T.V., N. Sumi, and K.C. Chitra|Ethoxyquin on Haematological and Biochemical Parameters in the Fish, Anabas testudineus (Bloch, 1792)|Int. J. Zool. Invest.3(1): 11 p.|2017|
194266|T||Harrington,L.A., and C.B. Harley|Effect of Vitamin E on Lifespan and Reproduction in Caenorhabditis elegans|Mech. Ageing Dev.43(1): 71-78|1988|
194267|T||Rojas,S.W., A.B. Lung, and R.V. Nino de Guzman|Effects of Peruvian Anchovy (Engraulis ringens) Meal Supplemented with Santoquin on Growth and Fishy Flavor of Broilers|Poult. Sci.48(6): 2045-2052|1969|
194268|T||Neudoerffer,T.S., and C.H. Lea|Effects of Dietary Fish Oil on the Composition and Stability of Turkey Depot Fat|Br. J. Nutr.20(3): 581-594|1966|
194269|T||Leong,V.Y.M., and T.P. Brown|Toxicosis in Broiler Chicks Due to Excess Dietary Ethoxyquin|Avian Dis.36(4): 1102-1106|1992|10.2307/1591583
194270|A||Li,H., S. Tang, W. Du, J. Jiang, P. Peng, P. Yuan, Y. Liao, J. Long, and S. Zhou|The Effects of Ethoxyquin and Angelica sinensis Extracts on Lipid Oxidation in Fish Feeds and Growth, Digestive and Absorptive Capacities and Antioxidant Status in Juvenile Red Carp (Cyprinus carpio var. xingguonensis):|Fish Physiol. Biochem.45(1): 43-61|2019|10.1007/s10695-018-0533-x
194271|T||Lauridsen,C., and J.F. Jensen|Effects of Synthetic Antioxidants in Feed of Different Technological Treatments on the Performance of Broilers|Arch. Gefluegelkd.59(1): 73-81|1995|
194272|T||Newberne,P.M., and G.L. Mceuen|Studies on Drug Toxicity in Chicks 5. the Influence of Various Levels of DPPD on Growth and Development of Chicks|Poult. Sci.36(4): 744-747|1957|
194273|T||Verderame,M., M. Prisco, P. Andreuccetti, F. Aniello, and E. Limatola|Experimentally Nonylphenol-Polluted Diet Induces the Expression of Silent Genes VTG and ERalpha in the Liver of Male Lizard Podarcis sicula|Environ. Pollut.159(5): 1101-1107|2011|10.1016/j.envpol.2011.02.017
194274|T||Verderame,M., and E. Limatola|Interferences of an Environmental Pollutant with Estrogen-Like Action in the Male Reproductive System of the Terrestrial Vertebrate Podarcis sicula|Gen. Comp. Endocrinol.213:9-15|2015|10.1016/j.ygcen.2015.01.027
194275|T||Cornille,P., C. Battesti, J.P. Agnel, and J.L. Montillet|Evidence Against a Role of Lipid Peroxidation in the Induction of Glyceollin Biosynthesis in Glycine max|Plant Physiol. Biochem.36(7): 525-532|1998|10.1016/S0981-9428(98)80178-2
194276|A||Dai,Q., and S.H. Cho|Dietary Inclusion Effect of Citrus Peel By-Product as an Additive on the Growth Performance, Body Composition, and Various Stress Resistance of Juvenile Abalone (Haliotis discus) Compared to Ethoxyquin|Aquac. Rep.24:9 p.|2022|10.1016/j.aqrep.2022.101187
194277|A||Desjardins,L.M., B.D. Hicks, and J.W. Hilton|Iron Catalyzed Oxidation of Trout Diets and Its Effect on the Growth and Physiological Response of Rainbow Trout|Fish Physiol. Biochem.3(4): 173-182|1987|10.1007/bf02180278
194278|A||Li,H., M. Wu, J. Jiang, X. Sun, L. Chen, M. Feng, D. Yuan, Z. Wen, and C. Qin|The Extracts of Angelica sinensis Restore the Digestive and Absorptive Capacity Through Improving Antioxidant Status in Digestive Organs of Fish Treated with Trichlorfon|Aquac. Res.50(2): 490-504|2019|10.1111/are.13917
194279|T||Kontek,R., R. Osiecka, K. Matlawska-Wasowska, and A. Blaszczyk|Clastogenic Effects of Antioxidant Ethoxyquin Observed in Vicia faba L. ssp. Minor Root Meristem Cells|Acta Toxicol.14(1/2): 105-110|2006|
194280|T||Wang,L., J. Xu, F. Zeng, X. Fu, W. Xu, and J. Yu|Influence of Nonylphenol Exposure on Basic Growth, Development, and Thyroid Tissue Structure in F1 Male Rats|PeerJ7:6 p.|2019|10.7717/peerj.7039
194281|T||Kratzer,F.H., and C.G. Payne|Effect of Autoclaving, Hot-Water Treating, Parboiling and Addition of Ethoxyquin on Value of Rice Bran as a Dietary Ingredient for Chickens|Br. Poult. Sci.18(4): 475-482|1977|
194282|T||Yalcin,B., G.O. Onder, O. Goktepe, P.A. Suna, O.C. Mat, E. Koseoglu, E. Cetindag, M. Baran, N. Bitgen, O.O. Gergin, and|Enhanced Kidney Damage Induced by Increasing Nonylphenol Doses: Impact on Autophagy-Related Proteins and Proinflammatory Cytokines in Rats|Toxicol. Mech. Methods34(8): 867-876|2024|10.1080/15376516.2024.2358348
194283|T||Consumer Product Testing|Primary Dermal Irritation (Rabbit), Ocular Irritation (Rabbit), and Oral LD50 (Rat) with Igepal Co-210 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000231:27 p.|1977|
194284|T||Yon,J.M., D.H. Kwak, Y.K. Cho, S.R. Lee, Y. Jin, I.J. Baek, J.E. Lee, S.S. Nahm, Y.K. Choo, B.J. Lee, Y.W. Yun, and S.Y|Expression Pattern of Sulfated Glycoprotein-2 (SGP-2) mRNA in Rat Testes Exposed to Endocrine Disruptors|J. Reprod. Dev.53(5): 1007-1013|2007|10.1262/jrd.19032
194285|T||Yu,J., F. Tuo, Y. Luo, and J. Xu|Effect of Gestational and Lactational Nonylphenol Exposure on Airway Inflammation in Ovalbumin-Induced Asthmatic Rat Pups|Chemosphere250:13 p.|2020|
194286|T||Yu,J., W. Li, L. Tang, Y. Luo, and J. Xu|In Vivo and In Vitro Effects of Chronical Exposure to Nonylphenol on Lipid Metabolism|Environ. Sci. Eur.32(1): 12 p.|2020|10.1186/s12302-020-00364-z
194287|T||Consumer Product Testing|Primary Dermal Irritation in Rabbits and Primary Ocular Irritation in Rabbits with Igepal Co-990 (Polyethyleneoxy Derivative) with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000234:25 p.|1982|
194288|T||Consumer Product Testing|Primary Dermal Irritation in Rabbits and Primary Ocular Irritation in Rabbits with Igepal Co-850 Nonylphenoxypoly (Ethyleneoxyl) Ethanol with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000250:26 p.|1982|
194289|T||Consumer Product Testing|Primary Ocular Irritation in Rabbits with Igepal Co-630, Nonylphenoxypoly-(Ethyleneoxy) Ethanol with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000245:21 p.|1982|
194290|T||Mellon Institute|Nonylphenol (PO)10(EO)5: Range Finding Toxicity Studies|EPA/OTS Doc.#86970000310:10 p.|1978|
194291|T||Addrah,M.E., Y. Zhang, J. Zhang, L. Liu, H. Zhou, W. Chen, and J. Zhao|Fungicide Treatments to Control Seed-Borne Fungi of Sunflower Seeds|Pathogens9(1): 17 p.|2020|10.3390/pathogens9010029
194292|T||Mellon Institute|Pharmacological Screening of Tergitol Nonionic NPX (Composite)|EPA/OTS Doc.#86970000064:8 p.|1954|
194293|T||Aydogan,M., A. Korkmaz, N. Barlas, and D. Kolankaya|Pro-Oxidant Effect of Vitamin C Coadministration with Bisphenol A, Nonylphenol, and Octylphenol on the Reproductive Tract of Male Rats|Drug Chem. Toxicol.33(2): 193-203|2010|10.3109/01480540903286468
194294|T||Campbell,P.L.|Efficacy of Glyphosate, Alternative Post-Emergence Herbicides and Tillage for Control of Cynodon dactylon|S. Afr. J. Plant Soil25(4): 220-228|2008|10.1080/02571862.2008.10639920
194295|T||Cavanagh,J.A.E., K. Trought, C. Mitchell, G. Northcott, and L.A. Tremblay|Assessment of Endocrine Disruption and Oxidative Potential of Bisphenol-A, Triclosan, Nonylphenol, Diethylhexyl Phthalate, Galaxolide, and Carbamazepine, Common Contaminants of Municipal Biosolids|Toxicol. In Vitro48:342-349|2018|10.1016/j.tiv.2018.02.003
194296|T||Gassner,F.X., E.G. Buss, M.L. Hopwood, and C.R. Thompson|Effect of Feeding 1,2-Di-Hydro-6-Ethoxy-2,2,4-Trimethylquinoline to Chickens|Poult. Sci.39(3): 524-533|1960|10.3382/ps.0390524
194298|T||Gitler,C., M.L. Sunde, and C.A. Baumann|Effect of Certain Necrosis-Preventing Factors on Hemolysis in Vitamin E-Deficient Rats and Chicks|J. Nutr.65(3): 397-407|1958|
194300|T||Wessels,J.P.H., and I. Moodie|The Effect of Long-Term Storage of Fish Meals on the Response of Chickens to the Amino-Acid Supplementation of Diets Containing Such Meals|J. Sci. Food Agric.26(5): 625-640|1975|10.1002/jsfa.2740260509
194302|T||Ascarelli,I., P. Budowski, S. Bornstein, and A. Bondi|Deposition of N,N'-Diphenyl-P-Phenylenediamine (DPPD) in Chicks and Eggs|J. Sci. Food Agric.11(9): 509-514|1960|
194303|T||March,B.E., V. Coates, and J. Biely|Reticulocytosis in Response to Dietary Antioxidants|Science164(3886): 1398-1400|1969|10.1126/science.164.3886.1398
194304|T||Matterson,L.D., R.H. Bunnell, L.D. Stinson, E.P. Singsen, and L.M. Potter|The Effect of Incorporating Diphenyl-P-Phenylenediamine (DPPD) into a Ration Containing Various Levels of Vitamin A from Fish Oils|Poult. Sci.34(5): 1080-1084|1955|10.3382/ps.0341080
194305|T||Matterson,L.D., L.M. Potter, A. Kozeff, and E.L. Jungherr|The Relative Non-Toxicity of Diphenyl-P-Phenylene Diamine (DPPD) to Chicks when Fed Continuously for 12 Weeks at the 1% Level|Poult. Sci.34(1): 239-240|1955|10.3382/ps.0340239
194306|A||Kubiriza,G.K., J. Arnarson, O. Sigurgeirsson, P. Hamaguchi, S. Snorrason, T. Tomasson, and H. Thorarensen|Growth and Hepatic Antioxidant Enzyme Activity of Juvenile Arctic Charr (Salvelinus alpinus) Fed on Diets Supplemented with Ethoxyquin, Rosemary (Rosmarinus officinalis), or Bladder Wrack (Fucus vesiculosus)|Aquac. Int.27(1): 287-301|2019|
194307|A||Bohne,V.J.B., A.K. Lundebye, and K. Hamre|Accumulation and Depuration of the Synthetic Antioxidant Ethoxyquin in the Muscle of Atlantic Salmon (Salmo salar L.)|Food Chem. Toxicol.46(5): 1834-1843|2008|10.1016/j.fct.2008.01.028
194308|T||Borsting,C.F., R.M. Engberg, S.K. Jensen, and B.M. Damgaard|Effects of High Amounts of Dietary Fish Oil of Different Oxidative Quality on Performance and Health of Growing-Furring Male Mink (Mustela vison) and of Female Mink During Rearing, Reproduction and Nursing Periods|J. Anim. Physiol. Anim. Nutr.79(1-5): 210-223|1998|
194310|A||Li,H., X. Zhou, P. Gao, Q. Li, L. Li, R. Huang, and M. Wu|Inhibition of Lipid Oxidation in Foods and Feeds and Hydroxyl Radical-Treated Fish Erythrocytes: A Comparative Study of Ginkgo Biloba Leaves Extracts and Synthetic Antioxidants|Anim. Nutr.2(3): 234-241|2016|10.1016/j.aninu.2016.04.007
194312|T||Budowski,P., H. Fisher, and P. Griminger|Medium-Chain Triglycerides as a Stress Factor in Vitamin E Deficiency of Chicks|Poult. Sci.48(1): 350-352|1969|10.3382/ps.0480350
194313|T||Dibner,J.J., C.A. Atwell, M.L. Kitchell, W.D. Shermer, and F.J. Ivey|Feeding of Oxidized Fats to Broilers and Swine: Effects on Enterocyte Turnover, Hepatocyte Proliferation and the Gut Associated Lymphoid Tissue|Anim. Feed Sci. Technol.62(1): 1-13|1996|10.1016/S0377-8401(96)01000-0
194314|T||Chang,B., Y. Chang, B.V. Chang, and Y.M. Chang|Biodegradation of Toxic Chemicals by Pleurotus eryngii in Submerged Fermentation and Solid-State Fermentation|J. Microbiol. Immunol. Infect. (Multiple Languages)49(2): 175-181|2016|10.1016/j.jmii.2014.04.012
194315|T||Darwent,A.L., K.N. Harker, J.M. Broatch, and P. Mills|"Evaluation of the ""Fall Rosette"" Procedure for Perennial Sowthistle Control in Fallow"|Can. J. Plant Sci.79(4): 633-637|1999|10.4141/P98-126
194316|T||Donaldson,W.E.|Effects of Dietary Lead, Fish Oil, and Ethoxyquin on Hepatic Fatty Acid Composition in Chicks|Biol. Trace Elem. Res.36(3): 319-326|1993|
194317|A||Egloff,S., and C. Pietsch|Ethoxyquin: A Feed Additive that Poses a Risk for Aquatic Life|Dis. Aquat. Org.131(1): 39-48|2018|10.3354/dao03279
194318|T||Di Lorenzo,M., A. Mileo, V. Laforgia, M. De Falco, and L. Rosati|Alkyphenol Exposure Alters Steroidogenesis in Male Lizard Podarcis siculus|Animals11(4): 14 p.|2021|10.3390/ani11041003
194319|T||Dorneles,J.,Jr., C.G. Raetano, E.P. Prado, and R.C.D. Oliveira|Application Technology of SfMNPV-6nd in the Control of Fall Armyworm|Pesqui. Agropecu. Bras. (Multiple Languages)57:9 p.|2022|10.1590/S1678-3921.pab2022.v57.02800
194320|A||Liu,D., S. Chi, B. Tan, X. Dong, Q. Yang, H. Liu, S. Zhang, F. Han, and Y. He|Effects of Fish Oil with Difference Oxidation Degree on Growth Performance and Expression Abundance of Antioxidant and Fat Metabolism Genes in Orange Spotted Grouper, Epinephelus coioides|Aquac. Res.50(1): 188-197|2019|10.1111/are.13883
194321|A||Merel,S., Regueiro J., M.H.G. Berntssen, R. Hannisdal, R. Ornsrud, and N. Negreira|Identification of Ethoxyquin and Its Transformation Products in Salmon After Controlled Dietary Exposure via Fish Feed|Food Chem.289:259-268|2019|10.1016/j.foodchem.2019.03.054
194322|T||Lopatecki,L.E., and H. Burdon|Suppression of Bull's Eye Rot of Apples and Growth of Neofabraea perennans by Scald Control Agents Diphenylamine and Ethoxyquin|Can. J. Plant Sci.46(6): 633-638|1966|10.4141/cjps66-106
194323|A||Lovell,R.T., T. Miyazaki, and S. Rabegnator|Requirement for alpha-Tocopherol by Channel Catfish Fed Diets Low in Poly-Unsaturated Triglycerides|J. Nutr.114(5): 894-901|1984|10.1093/jn/114.5.894
194324|A||Kim,H.S., K.W. Lee, H.S. Jung, J. Kim, A. Yun, S.H. Cho, and M. Kwon|Effects of Dietary Inclusion of Yacon, Ginger and Blueberry on Growth, Body Composition and Challenge Test of Juvenile Rockfish (Sebastes schlegeli) Against Edwardsiella Tarda|Aquac. Nutr.24(3): 9 p.|2018|
194326|T||Karunajeewa,H.|Effect of Triticale, Lucerne Pellets, Furazolidone, Ethoxyquin and Oxycarotenoids on Egg Yolk Color and Performance of Crossbred Layers|Aust. J. Exp. Agric.18(92): 396-403|1978|
194327|T||Xiao,Y., X. Gao, and J. Yuan|Substituting Ethoxyquin with Tea Polyphenols and Propyl Gallate Enhanced Feed Oxidative Stability, Broiler Hepatic Antioxidant Capacity and Gut Health|Poult. Sci.103(12): 10 p.|2024|10.1016/j.psj.2024.104368
194328|T||Fujita,M., T. Kinoshita, and Y. Yoshimura|Concentration of Orally Administered Nonylphenol in Blood, Liver and Egg Yolk of Maternal Japanese Quail (Coturnix japonica)|J. Poult. Sci.41(4): 269-274|2004|10.2141/jpsa.41.269
194329|T||Georgantzopoulou,A., E. Skoczynska, J.H.J. Van Den Berg, W. Brand, S. Legay, S.G. Klein, I.M.C.M. Rietjens, and A.J. Mu|P-GP Efflux Pump Inhibition Potential of Common Environmental Contaminants Determined In Vitro|Environ. Toxicol. Chem.33(4): 804-813|2014|10.1002/etc.2493
194330|T||Bunnell,R.H., L.D. Matterson, E.P. Singsen, and H.D. Eaton|Studies on Encephalomalacia in the Chick. 5. The Effect of Fish Oil and Diphenyl-P-Phenylenediamine on the Vitamin E Metabolism of the Chick|Poult. Sci.35(2): 436-451|1956|
194331|T||Mellon Institute|"Range Finding Tests on ""Tergitol"" NP-35"|EPA/OTS Doc.#86970000060:7 p.|1954|
194332|T||Mellon Institute|"Range Finding Tests on ""Tergitol"" NP-27"|EPA/OTS Doc.#86970000054:8 p.|1954|
194333|T||Cabel,M.C., P.W. Waldroup, W.D. Shermer, and D.F. Calabotta|Effects of Ethoxyquin Feed Preservative and Peroxide Level on Broiler Performance|Poult. Sci.67(12): 1725-1730|1988|
194334|T||Mellon Institute|"Range Finding Tests on ""Tergitol"" NP-40"|EPA/OTS Doc.#86970000051:7 p.|1954|
194335|T||Mellon Institute|"Range Finding Tests on ""Tergitol"" NPX"|EPA/OTS Doc.#86970000032:8 p.|1952|
194336|A||Gatlin III,D.M., S.C. Bai, and M.C. Erickson|Effects of Dietary Vitamin-E and Synthetic Antioxidants on Composition and Storage Quality of Channel Catfish, Ictalurus punctatus|Aquaculture106(3-4): 323-332|1992|10.1016/0044-8486(92)90264-L
194337|T||Richard,E.P.,Jr.|Influence of Surfactants on the Toxicity of Asulam to Johnsongrass (Sorghum halepense) and Sugarcane (Saccharum sp.)|Weed Sci.34(2): 299-303|1986|10.1017/S0043174500066856
194338|T||Imai,S., A. Shiraishi, K. Gamo, I. Watanabe, H. Okuhata, H. Miyasaka, K. Ikeda, T. Bamba, and K. Hirata|Removal of Phenolic Endocrine Disruptors by Portulaca oleracea|J. Biosci. Bioeng.103(5): 420-426|2007|10.1263/jbb.103.420
194340|AT||Janicki,T., J. Dlugonski, and M. Krupinski|Detoxification and Simultaneous Removal of Phenolic Xenobiotics and Heavy Metals with Endocrine-Disrupting Activity by the Non-Ligninolytic Fungus Umbelopsis isabellina|J. Hazard. Mater.360:661-669|2018|10.1016/j.jhazmat.2018.08.047
194341|A||Laohabanjong,R., C. Tantikitti, S. Benjakul, K. Supamattaya, and M. Boonyaratpalin|Lipid Oxidation in Fish Meal Stored Under Different Conditions on Growth, Feed Efficiency and Hepatopancreatic Cells of Black Tiger Shrimp (Penaeus monodon)|Aquaculture286(3-4): 283-289|2009|10.1016/j.aquaculture.2008.09.038
194342|T||Kim,Y., S. Yeo, H. Song, and H.T. Choi|Enhanced Expression of Laccase During the Degradation of Endocrine Disrupting Chemicals in Trametes versicolor|J. Microbiol.46(4): 402-407|2008|
194343|A||Bernhard,A., J.D. Rasinger, M.B. Betancor, M.J. Caballero, M.H.G. Berntssen, A.K. Lundebye, and R. Ornsrud|Tolerance and Dose-Response Assessment of Subchronic Dietary Ethoxyquin Exposure in Atlantic Salmon (Salmo salar L.)|PLoS One14(1): 36 p.|2019|10.1371/journal.pone.0211128
194344|T||Lauridsen,C., K. Jakobsen, and T.K. Hansen|The Influence of Dietary Ethoxyquin on the Vitamin E Status in Broilers|Arch. Tierernahr.47(3): 245-254|1995|10.1080/17450399509381809
194345|AT||Iqbal,M., and I.A. Bhatti|Gamma Radiation/H2O2 Treatment of a Nonylphenol Ethoxylates: Degradation, Cytotoxicity, and Mutagenicity Evaluation|J. Hazard. Mater.:|2015|
194346|AT||Janicki,T., A. Dlugonski, A. Felczak, J. Dlugonski, and M. Krupinski|Ecotoxicological Estimation of 4-Cumylphenol, 4-T-Octylphenol, Nonylphenol, and Volatile Leachate Phenol Degradation by the Microscopic Fungus Umbelopsis isabellina Using a Battery of Biotests|Int. J. Environ. Res. Public Health19(7): 17 p.|2022|
194347|T||Kirkland,W., and H.L. Fuller|Effect on the Nutritional Value of Poultry Byproduct Meal of Adding an Antioxidant During Processing|Feedstuffs41(11): 38-40|1969|
194348|T||Lass,L.W.|Some Effects of Antioxidants on the Plant Arabidopsis thaliana|Proc. Neb. Acad. Sci. Affil. Soc.:133 p.|1982|
194349|T||Yu,J., S. Li, M. Li, Y. Zhang, D. Tong, Y. Xu, C. Wang, and J. Xu|Amelioration of Nonylphenol-Induced Anxiety/Depression-Like Behaviors in Male Rats Using Green Tea and Zn-Se Tea Interventions|Toxicol. Res. (Oxf.)13(1): 1-9|2024|10.1093/toxres/tfae003
194350|T||Yamamoto,Y., K. Masamoto, S. Rikiishi, A. Hachiya, Y. Yamaguchi, and H. Matsumoto|Aluminum Tolerance Acquired During Phosphate Starvation in Cultured Tobacco Cells|Plant Physiol.112(1): 217-227|1996|10.1104/pp.112.1.217
194351|T||Ranhotra,H.S., and C.T. Teng|Assessing the Estrogenicity of Environmental Chemicals with a Stably Transfected Lactoferrin Gene Promoter Reporter in Hela Cells|Environ. Toxicol. Pharmacol.20(1): 42-47|2005|10.1016/j.etap.2004.10.002
194352|T||Lauridsen,C., K. Jakobsen, and J.F. Jensen|Comparative-Studies on the Effect of Butylhydroxytoluene and Ethoxyquin on the Antioxidative and Oxidative Balance in Broilers|J. Anim. Physiol. Anim. Nutr.72(1-5): 26-37|1994|
194353|T||Layug,D.V., M. Ohshima, H.T. Ostrowski-Meissner, and H. Yokota|The Effect of a High Level of Ethoxyquin on the Nutritive Value and Pigmenting Potency of Alfalfa Leaf Extracts|Ital. J. Food Sci.6(4): 397-406|1994|
194354|A||Lee,K.W., H.S. Jeong, and S.H. Cho|Dietary Inclusion Effect of Yacon, Ginger, and Blueberry on Growth, Body Composition, and Disease Resistance of Juvenile Black Rockfish (Sebastes schlegeli) Against Vibrio anguillarum|Fish. Aquat. Sci.23(1): 8 p.|2020|
194355|T||Hanafy,A.M., T. Sasanami, and M. Mori|Binding of Xenoestrogens and Phytoestrogens to Estrogen Receptor beta of Japanese Quail (Coturnix japonica)|J. Poult. Sci.42(3): 238-244|2005|10.2141/jpsa.42.238
194356|A||Chen,S., C. Wang, Y. Liu, Z. Zhou, L. Fu, and Y. Wang|The Effect of Feed Additive Ethoxyquin on Tilapia Growth Performance and Potential Secondary Hazard to Consumers|Food Sci. Human Well.13(6): 3236-3244|2024|10.26599/FSHW.2023.9250010
194357|T||Ciordia,H., D.A. Porter, and W.E. Bizzell|Effect of the Antioxidant 6-Ethoxy-1,2-Dihydro-2,2,4-Trimethylquinoline on the Development of the Free-Living Stages of Some Nematode Parasites of Cattle|J. Parasitol.53(4): 782-785|1967|
194358|T||Hofmann,U., and D. Schlosser|Biochemical and Physicochemical Processes Contributing to the Removal of Endocrine-Disrupting Chemicals and Pharmaceuticals by the Aquatic Ascomycete Phoma sp. UHH 5-1-03|Appl. Microbiol. Biotechnol.100(5): 2381-2399|2016|10.1007/s00253-015-7113-0
194359|T||Yuan,H.X., S.Q. Xu, and Y.H. Sima|Changes in Malondialdehyde Content, Antioxidative Enzyme Activity, and Their Gene Expression in Gonads During Different Developmental Stages of 4-N-Nonylphenol-Treated Bombyx mori (Lepidoptera: Bombycidae)|Ann. Entomol. Soc. Am.108(2): 193-200|2015|10.1093/aesa/sau012
194360|T||Kunimoto,M., K. Shibata, and T. Miura|Comparison of the Cytoskeleton Fractions of Rat Red Blood-Cells Prepared with Non-Ionic Detergents|J. Biochem. (Tokyo)105(2): 190-195|1989|10.1093/oxfordjournals.jbchem.a122638
194361|T||Ascarelli,I., U. Minkov, and I. Nir|Utilisation, by Chicks, of Carotene from Fresh and Dried Plant Sources|J. Sci. Food Agric.20(6): 336-339|1969|
194362|T||Hill,E.G.|Effects of Methionine, Menhaden Oil and Ethoxyquin on Serum Cholesterol of Chicks|J. Nutr.89(2): 143-148|1966|
194363|T||Hobson-Frohock,A.|Residues of Ethoxyquin in Poultry Tissues and Eggs|J. Sci. Food Agric.33(12): 1269-1274|1982|
194364|T||Bagchi,N., T.R. Brown, D.M. Herdegen, A. Dhar, and R.S. Sundick|Antioxidants Delay the Onset of Thyroiditis in Obese Strain Chickens|Endocrinology127(4): 1590-1595|1990|
194365|T||Uguz,C., O. Varisli, C. Agca, T. Evans, and Y. Agca|In Vitro Effects of Nonylphenol on Motility, Mitochondrial, Acrosomal and Chromatin Integrity of Ram and Boar Spermatozoa|Andrologia (Berl.)47(8): 910-919|2015|
194366|T||Bagchi,N., T.R. Brown, and R.S. Sundick|Thyroid Cell Injury is an Initial Event in the Induction of Autoimmune Thyroiditis by Iodine in Obese Strain Chickens|Endocrinology136(11): 5054-5060|1995|
194367|T||Babaev,M.S.|Antimutagenic Activity of Santoquin in Radiation Mutagenesis of Wheat|CitoI. Genet. (Non-English)25(3): 62-64|1991|
194369|T||Bartov,I.|Lack of Effect of Dietary Ascorbic-Acid on Stability of Carcass Fat and Meat of Broilers|Br. Poult. Sci.18(5): 553-555|1977|
194370|T||Sternlicht,M.|Trials in the Control of the Citrus Bud Mite, Aceria sheldoni (Ewing), in Israel|Isr. J. Agric. Res.16:115-124|1966|
194372|T||Lal,O.P., and H. Schmutterer|Contact and Systemic Actions of Flavomycin Along with Some Surfactants on the Development and Reproductivity of Aphis fabae Scop. on Vicia faba L.Plants|Indian J. Entomol.43(2): 158-164|1981|
194373|T||Schwartz,A., and F.J. Riekert|Effectiveness of Standard and New Compounds for the Control of the Bud Mite, Aceria sheldoni Ewing, on Navel Oranges|S. Afr. J. Agric. Sci.10:609-616|1967|
194374|T||Reglinski,T., G.D. Lyon, and A.C. Newton|The Control of Botrytis cinerea and Rhizoctonia solani on Lettuce Using Elicitors Extracted from Yeast-Cell Walls|Z. Pflanzenkrankh. Pflanzenpathol. Pflanzenschutz (Non-English)102(3): 257-266|1995|
194375|T||Maekawa,S., M. Nishizuka, S. Heitaku, M. Kunimoto, J.I. Nishikawa, K. Ichikawa, K. Shimada, and M. Imagawa|Development of a Competitive Enzyme Immunoassay for Detection of Capacity of Chemicals to Bind Quail Estrogen Receptor alpha and beta|J. Health Sci.50(1): 25-32|2004|10.1248/jhs.50.25
194376|T||Gregory,P.H., and G.W. Gibson|The Control of Narcissus Leaf Diseases. III Sclerotinia Polyblastis on Narcissus tazetta var. Soleil D'Or|Ann. Appl. Biol.33(1): 40-45|1946|10.1111/j.1744-7348.1946.tb06271.x
194378|T||Consumer Product Testing|Primary Dermal Irritation (Rabbit) with Igepal Co-730 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000605:16 p.|1978|
194379|T||Rhone-Poulenc|Rabbit Eye Irritation Study with General Aniline and Film Corporation (Igepal Co-880) with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000202:16 p.|1960|
194380|T||Kirkland,W.M., and H.L. Fuller|The Effect of Ethoxyquin on the Chemical and Nutritional Changes of Poultry By-Product Meal and Poultry Offal Fat During Storage|Poult. Sci.50(1): 137-143|1971|
194381|T||He,Y., J. Yang, S. Huang, R. Liu, H. Liu, D. Zheng, Q. Huang, Y. Yang, and C. Liu|Protective Effect of Mulberry Crude Extract Against Nonylphenol-Induced Thyroid Disruption by Inhibiting the Activity of Deiodinase in Rats|Gen. Comp. Endocrinol.270:90-95|2019|10.1016/j.ygcen.2018.10.010
194382|T||Suna,P.A., O. Cengiz, A. Ceyhan, E. Atay, T. Ertekin, M. Nisari, and A. Yay|The Protective Role of Curcumin Against Toxic Effect of Nonylphenol on Bone Development|Hum. Exp. Toxicol.40(12): S63-S76|2021|10.1177/09603271211030548
194383|T||Food and Drug Research Laboratories|Rabbit Eye Irritation Study of Igepal Co-430 Nonylphenoxypoly (Ethyleneoxy) Ethanol Lot. 292 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000226:11 p.|1977|
194384|T||Consumer Product Testing|Oral LD50 of Igepal Co-720 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000241:24 p.|1979|
194385|T||Industrial Bio-Test Laboratories|Four Week Feeding Study in Rats with General Aniline and Film Corporation - Igepal Co-850 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000249:15 p.|1961|
194386|T||Havranek,I., C. Coutris, E. Joner, and H.R. Norli|Degradation and Uptake of 4-Nonylphenol in Plants and Earthworms from Spiked Mineral Soil|Int. Multidiscip. Sci. GeoConference Surv. Geol.3:69-74|2016|
194387|T||Prophetou-Athanasiadou,D.A., M.E. Tzanakakis, D. Myroyannis, and G. Sakas|Deterrence of Oviposition in Dacus oleae by Copper Hydroxide|Entomol. Exp. Appl.61(1): 1-5|1991|10.1111/j.1570-7458.1991.tb02389.x
194388|T||Industrial Bio-Test Laboratories|Eye Irritation Study with Igepal Co-730 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000607:9 p.|1997|
194389|T||Nithya,R.S., M.M. Anuja, C. Rajamanickam, and M. Indira|Rat Sperm Immobilisation Effects of a Protein from Ricinus communis (Linn.): An In Vitro Comparative Study with Nonoxynol-9|Andrologia (Berl.)44(6): 381-387|2012|10.1111/j.1439-0272.2012.01291.x
194390|T||Industrial Bio-Test Laboratories|Ninety Day Feeding Study in Dogs with General Aniline and Film Corporation - Igepal Co-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000237:22 p.|1997|
194391|T||Mikkelsen,N., G.H. Mikkelsen, M. Holmstrup, and J. Jensen|Recovery Period of Folsomia candida Influence the Impact of Nonylphenol and Phenanthrene on the Tolerance of Drought and Heat Shock|Environ. Pollut.254:8 p.|2019|10.1016/j.envpol.2019.113105
194392|T||Industrial Biology Laboratories Inc.|Rabbit Eye Irritation Study of Igepal Co-730 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000606:9 p.|1961|
194393|T||Yang,J., J. Yu, P. Wang, Y. Luo, X.F. Yang, X.S. Yang, W.M. Li, and J. Xu|The Adverse Effects of Perinatal Exposure to Nonylphenol on Carbohydrate Metabolism in Male Offspring Rats|Int. J. Environ. Health Res.27(5): 368-376|2017|10.1080/09603123.2017.1373275
194394|T||Jiang,L., Y. Yang, Y. Zhang, Y. Liu, B. Pan, B. Wang, and Y. Lin|Accumulation and Toxicological Effects of Nonylphenol in Tomato (Solanum lycopersicum L). Plants|Sci. Rep.9:9 p.|2019|
194395|T||Industrial Biology Laboratories Inc.|Ninety Day Feeding Studies with General Aniline and Film Corp.  Igepal Co-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000238:|1997|
194396|T||Industrial Bio-Test Laboratories Inc.|Four Week Feeding Study in Rabbits with General Aniline and  Corporation - Igepal Co-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000240:15 p.|1961|
194397|T||Yang,J., Q. Huang, H. Liu, X. Zhou, Z. Huang, Q. Peng, and C. Liu|4-Nonylphenol and 4-Tert-Octylphenol Induce Anxiety-Related Behaviors Through Alternation of 5-Ht Receptors and Transporters in the Prefrontal Cortex|Comp. Biochem. Physiol. C Toxicol. Pharmacol.230:8 p.|2020|10.1016/j.cbpc.2020.108701
194398|T||MB Research Laboratories|Primary Dermal Irritation in Rabbits with Igepal Co-430 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000223:10 p.|1978|
194399|T||Mellon Institute|Range Finding Tests on Nonylphenoxy Polyethylene Glycol|EPA/OTS Doc.#86970000027:8 p.|1949|
194400|T||Mellon Institute|Comparison of Healing Time of Rabbit Eyes After Instillation of Surfactants|EPA/OTS Doc.#86970000041:1 p.|1953|
194401|T||Mellon Institute|Miscellaneous Toxicity Studies:  Results of Department of Transportation Corrosive Test [Nonyl Phenol]|EPA/OTS Doc.#86970000304:8 p.|1973|
194402|T||Industrial Toxicology Laboratories|Eye Irritation Studies with Igepal Co-630 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000247:10 p.|1997|
194403|T||Yu,J., W. Xu, Y. Luo, W. Ou, S. Li, X. Chen, and J. Xu|Dynamic Monitoring of Depressive Behavior Induced by Nonylphenol and Its Effect on Synaptic Plasticity in Rats|Sci. Total Environ.689:1012-1022|2019|10.1016/j.scitotenv.2019.06.250
194404|T||Colerangle,J.B., and D. Roy|Exposure to Environmental Estrogenic Compound Nonylphenol of Noble Rats Alters Cell-Cycle Kinetics in the Mammary Gland|Endocrine4(2): 115-122|1996|10.1007/BF02782756
194407|T||Sapone,A., A. Affatato, D. Canistro, M. Broccoli, S. Trespidi, L. Pozzetti, G.L. Biagi, G. Cantelli-Forti, and M. Paoli|Induction and Suppression of Cytochrome P450 Isoenzymes and Generation of Oxygen Radicals by Procymidone in Liver, Kidney and Lung of CD1 Mice|Mutat. Res.527(1/2): 67-80|2003|10.1016/S0027-5107(03)00055-1
194408|T||Surh,Y.J., S.G. Kim, K.K. Park, Y. Sohn, J.M. Lee, N.D. Kim, and J.A. Miller|Chemopreventive Effects of 2-(Allylthio)Pyrazine on Hepatic Lesion, Mutagenesis and Tumorigenesis Induced by Vinyl Carbamate or Vinyl Carbamate Epoxide|Carcinogenesis19(7): 1263-1267|1998|10.1093/carcin/19.7.1263
194409|T||Tanaka,M., R. Ohtani-Kaneko, M. Yokosuka, and C. Watanabe|Low-Dose Perinatal Diethylstilbestrol Exposure Affected Behaviors and Hypothalamic Estrogen Receptor-[alpha]-Positive Cells in the Mouse|Neurotoxicol. Teratol.26(2): 261-269|2004|10.1016/j.ntt.2003.11.003
194410|T||Wu,J.J., K.L. Wang, S.W. Wang, G.S. Hwang, I.F. Mao, M.L. Chen, and P.S. Wang|Differential Effects of Nonylphenol on Testosterone Secretion in Rat Leydig Cells|Toxicology268(1/2): 1-7|2010|10.1016/j.tox.2009.10.030
194411|T||Kanayama,T., N. Kobayashi, S. Mamiya, T. Nakanishi, and J.I. Nishikawa|Organotin Compounds Promote Adipocyte Differentiation as Agonists of the Peroxisome Proliferator-Activated Receptor gamma/Retinoid X Receptor Pathway|Mol. Pharmacol.67(3): 766-774|2005|10.1124/mol.104.008409
194412|T||Ferguson,S.A., K.M. Flynn, K.B. Delclos, R.R. Newbold, and B.J. Gough|Effects of Lifelong Dietary Exposure to Genistein or Nonylphenol on Amphetamine-Stimulated Striatal Dopamine Release in Male and Female Rats|Neurotoxicol. Teratol.24(1): 37-45|2002|10.1016/S0892-0362(01)00193-3
194413|T||Flynn,K.M., R.R. Newbold, and S.A. Ferguson|Multigenerational Exposure to Dietary Nonylphenol has no Severe Effects on Spatial Learning in Female Rats|Neurotoxicology23(1): 87-94|2002|10.1016/S0161-813X(02)00007-4
194414|T||Meulenberg,E.P., K. Koopal, R. Rhemrev, and R.EDITOR Pilloton|Immunoassays for Alkylphenolic Pollutants with Endocrine Disrupting Activity|Int. J. Environ. Anal. Chem.85(12/13): 871-883|2005|10.1080/03067310500154130
194415|T||Purchase,I.F.H., E. Longstaff, J. Ashby, J.A. Styles, D. Anderson, P.A. Lefevre, and F.R. Westwood|An Evaluation of 6 Short-Term Tests for Detecting Organic Chemical Carcinogens|Br. J. Cancer37:873-903|1978|10.1038/bjc.1978.132
194416|T||Sato,T., H. Saito, T. Uchiyama, Y. Fujimoto, T. Katase, and O. Kai|Effects of Synthetic para-Nonylphenol Isomers Administered Chronically Throughout Pregnancy and Lactation on Reproductive System of Mouse Pups|Arch. Toxicol.83(12): 1097-1108|2009|10.1007/s00204-009-0464-5
194417|T||Son,H.Y., A. Nishikawa, T. Ikeda, F. Furukawa, and M. Hirose|Lack of Modification by Environmental Estrogenic Compounds of Thyroid Carcinogenesis in Ovariectomized Rats Pretreated with N-bis(2-Hydroxypropyl)Nitrosamine (DHPN)|Jpn. J. Cancer Res.91:966-972|2000|10.1111/j.1349-7006.2000.tb00872.x
194419|A||Xie,G., C.A.M. Van Gestel, J.A. Vonk, and M.H.S. Kraak|Multigeneration Responses of Daphnia magna to Short-Chain Per- and Polyfluorinated Substances (PFAS)|Ecotoxicol. Environ. Saf.294:11 p.|2025|10.1016/j.ecoenv.2025.118078
194420|A||Farajizadeh,A., L. Sui, J. Wong, and G.G. Goss|Modulation of PFOA (Perfluorooctanoic Acid) Uptake in Daphnia (Daphnia magna) by TiO2 Nanoparticles|Comp. Biochem. Physiol. C Toxicol. Pharmacol.291:10 p.|2025|10.1016/j.cbpc.2025.110150
194421|T||Ohnishi,T., T. Yoshida, A. Igarashi, M. Muroi, and K. Tanamoto|Effects of Possible Endocrine Disruptors on MyD88-Independent TLR4 Signaling|FEMS Immunol. Med. Microbiol.52(2): 293-295|2008|10.1111/j.1574-695X.2007.00355.x
194422|T||Salice,C.J., A. East, C. Weible, C.D. Furst, J. Rewerts, C. Heron, and J. Field|Effects of Perfluorooctane Sulfonate (PFOS) on a Novel Reptilian Toxicity Test Species, the Brown Anole (Anolis sagrei)|Environ. Toxicol. Chem.44(4): 1080-1090|2025|10.1093/etojnl/vgaf038
194423|T||Kristensen,D.M., M.L. Skalkam, K. Audouze, L. Lesne, C. Desdoits-Lethimonier, H. Frederiksen, S. Brunak, N.E. Skakkebae|Many Putative Endocrine Disruptors Inhibit Prostaglandin Synthesis|Environ. Health Perspect.119(4): 534-541|2011|10.1289/ehp.1002635
194424|T||Mota,L.C., C. Barfield, J.P. Hernandez, and W.S. Baldwin|Nonylphenol-Mediated CYP Induction is PXR-Dependent: The Use of Humanized Mice and Human Hepatocytes Suggests that HPXR is Less Sensitive than Mouse PXR to Nonylphenol Treatment|Toxicol. Appl. Pharmacol.252(3): 259-267|2011|10.1016/j.taap.2011.02.017
194425|T||Fan,W.Q., T. Yanase, H. Morinaga, S. Gondo, T. Okabe, M. Nomura, T. Komatsu, K.I. Morohashi, T.B. Hayes, R. Takayanagi,|Atrazine-Induced Aromatase Expression is SF-1 Dependent: Implications for Endocrine Disruption in Wildlife and Reproductive Cancers in Humans|Environ. Health Perspect.115(5): 720-727|2008|10.1289/ehp.9758
194426|T||Jubendradass,R., S.C. D'Cruz, and P.P. Mathur|Long-Term Exposure to Nonylphenol Affects Insulin Signaling in the Liver of Adult Male Rats|Hum. Exp. Toxicol.31(9): 868-876|2012|10.1177/0960327111426587
194427|T||Benachour,N., S. Moslemi, H. Sipahutar, and G.E. Seralini|Cytotoxic Effects and Aromatase Inhibition by Xenobiotic Endocrine Disrupters Alone and in Combination|Toxicol. Appl. Pharmacol.222(2): 129-140|2007|10.1016/j.taap.2007.03.033
194428|T||Martinez Jurado,J.|Endocrine Disrupting Compound 4-Nonylphenol and Neurodegeneration|Ph.D.Thesis, University of Texas, El Paso, TX:66 p.|2013|
194429|T||Kanno,J., L. Onyon, S. Peddada, J. Ashby, E. Jacob, and W. Owens|The OECD Program to Validate the Rat Uterotrophic Bioassay, Phase 2: Dose-Response Studies|Environ. Health Perspect.111(12): 1530-1549|2003|10.1289/ehp.5780
194430|T||Jie,Y., Q.Y. Fan, B.L. Hu, Z. Biao, F. Zheng, J.M. Li, and X. Jie|Joint Neurodevelopmental and Behavioral Effects of Nonylphenol and Estradiol on F-1 Male Rats|Int. J. Environ. Health Res.23(4): 321-330|2013|10.1080/09603123.2012.733936
194431|T||Kanno,J., L. Onyon, S. Peddada, J. Ashby, E. Jacob, and W. Owens|The OECD Program to Validate the Rat Uterotrophic Bioassay. Phase 2: Coded Single-Dose Studies|Environ. Health Perspect.111(12): 1550-1558|2003|10.1289/ehp.5870
194432|T||Lukacova,J., Z. Knazicka, E. Tvrda, A. Gren, N. Lukac, and P. Massanyi|The Impact of Nonylphenol (NP) on the Spermatozoa Motility In Vitro|J. Microbiol. Biotechnol. Food Sci.1(6): 1551-1560|2012|
194433|T||Johannesen,S.T., M. Holmstrup, and J.G. Sorensen|High Temperature Tolerance and Heat Hardening Ability in Enchytraeus albidus Henle, 1837 (Oligochaeta) Show no Interaction with Lipophilic Organic Pollutants|Soil Organ.85(2): 75-83|2013|
194434|T||Spotts,R.A.|Apple Powdery Mildew Eradication and Bloom Delay with Dormant Season Surfactant Sprays|Ohio Agric. Res. Dev. Cent.239:43-45|1978|
194435|T||Yu,J., L. Tang, L. Yang, M. Zheng, H. Yu, Y. Luo, J. Liu, and J. Xu|Role and Mechanism of Mir-542-3p in Regulating TLR4 in Nonylphenol-Induced Neuronal Cell Pyroptosis|Phytomedicine123:14 p.|2024|10.1016/j.phymed.2023.155123
194436|T||Fu,N., J. Yu, L. Zhu, L. Yang, L. Ma, J. He, H. Yu, J. Liu, Y. Tian, and J. Xu|Role of MiR-219a-5p in Regulating NMDAR in Nonylphenol-Induced Synaptic Plasticity Damage|Ecotoxicol. Environ. Saf.252:12 p.|2023|10.1016/j.ecoenv.2023.114576
194437|T||Santos,P.D.S., M.A.Q. Da Silva, A.C. Monteiro, and C.A.T. Gava|Selection of Surfactant Compounds to Enhance the Dispersion of Beauveria bassiana|Biocontrol Sci. Technol.22(3): 281-292|2012|10.1080/09583157.2012.655708
194438|T||Lawrie,J., and T.M. West|A Short-Term Method to Study the Effect of Adjuvants on Herbicide Activity Against Young Plants of Pteridium aquilinum|Br. Crop Prot. Conf. Weeds1-3:337-342|1993|
194439|T||Li,S., W. Xu, L. Gong, J. Zhang, Y. Zhang, J. Chen, J. Yu, and J. Xu|Subchronic Nonylphenol Exposure Induced Anxiety-Like Behavior and Decreased Expressions of Regulators of Synaptic Plasticity in Rats|Chemosphere282:11 p.|2021|10.1016/j.chemosphere.2021.130994
194440|A||Ding,F., X. Zhou, Z. Wu, and Z. Xing|Synthesis of a Cleavable Vanillin-Based Polyoxyethylene Surfactant and Its Pilot Application in Cotton Fabric Pretreatment|ACS Sustainable Chem. Eng.7(5): 5494-5500|2019|10.1021/acssuschemeng.8b06668
194441|T||Xu,J., S. Li, X. Yang, H. Wang, L. Ma, Y. Shen, and J. Yu|Mechanism of Nonylphenol Induced Gastric Inflammation Through NF-kappaB/NLRP3 Signaling Pathway|Toxicology479:12 p.|2022|10.1016/j.tox.2022.153294
194443|T||Bokern,M., M. Nimtz, and H.H. Harms|Metabolites of 4-N-Nonylphenol in Wheat Cell Suspension Cultures|J. Agric. Food Chem.44(4): 1123-1127|1996|10.1021/jf950376
194444|A||Yang,H., C. Xu, J. Song, J. Li, C. Zhang, C. Teng, K. Ma, and F. Xie|Toxicokinetic and Liver Proteomic Study of the Chinese Rare Minnow (Gobiocypris rarus) Exposed to F-53B|Aquat. Toxicol.282:12 p.|2025|10.1016/j.aquatox.2025.107312
194445|T||Huang,X., and A.A. Keller|"Metabolomics Response of Wheat (Triticum aestivum) to ""Green"" and Conventional Nonionic Surfactants at Different Application Stages"|ACS Agri. Sci. Tech.2(5): 10 p.|2022|10.1021/acsagscitech.2c00176
194446|T||Verderame,M., E. Limatola, and R. Scudiero|Metallothionein Expression and Synthesis in the Testis of the Lizard Podarcis sicula Under Natural Conditions and Following Estrogenic Exposure|J. Histochem. Cytochem.61(2): 80-85|2017|10.4081/ejh.2017.2777
194447|T||Achilles,S.L., P.B. Shete, K.J. Whaley, T.R. Moench, and R.A. Cone|Microbicide Efficacy and Toxicity Tests in a Mouse Model for Vaginal Transmission of Chlamydia trachomatis|Sex. Transm. Dis.29(11): 655-664|2002|10.1097/00007435-200211000-00007
194448|T||Liu,H., J. Yang, S. Huang, R. Liu, Y. He, D. Zheng, and C. Liu|Mulberry Crude Extracts Induce Nrf2 Activation and Expression of Detoxifying Enzymes in Rat Liver: Implication for Its Protection Against NP-Induced Toxic Effects|J. Funct. Foods:367-374|2017|10.1016/j.jff.2017.03.024
194449|T||De Bruin,W., C.F. Van der Merwe, Q. Kritzinger, R.M.S. Bornman, and L. Korsten|Morphological Characterisation of Lettuce Plasma Membrane Ultrastructure and Vesicle Formation Caused by Nonylphenol: A Scanning Electron Microscopy Study|S. Afr. J. Bot.111:176-181|2017|10.1016/j.sajb.2017.03.027
194450|T||Liu,Z., Y. Sun, Y. Song, T. Saito, and M. Kurasaki|Nonylphenol Diethoxylate Inhibits Apoptosis Induced in PC12 Cells|Environ. Toxicol.31(11): 1389-1398|2016|10.1002/tox.22144
194451|T||Cao,X., C. Yan, X. Wu, L. Zhou, and G. Xiu|Nonylphenol Induced Individual and Population Fluctuation of Caenorhabditis elegans: Disturbances on Developmental and Reproductive System|Environ. Res.186:10 p.|2020|
194452|T||Cheng,M.C., H.I. Chiang, J.W. Liao, C.M. Hung, M.Y. Tsai, Y.H. Chen, J.C, Ju, M.P. Cheng, K.H. Tso, and Y.K. Fan|Nonylphenol Reduces Sperm Viability and Fertility of Mature Male Breeders in Brown Tsaiya Ducks (Anas platyrhynchos)|Anim. Reprod. Sci.174:114-122|2016|10.1016/j.anireprosci.2016.09.014
194453|T||Bokern,M., P. Raid, and H. Harms|Toxicity, Uptake and Metabolism of 4-N-Nonylphenol in Root Cultures and Intact Plants Under Septic and Aseptic Conditions|Environ. Sci. Pollut. Res. Int.5(1): 21-27|1998|10.1007/BF02986370
194454|T||Humpherson-Jones,F.M.|Effect of Surfactants and Fungicides of Clubroot (Plasmodiophora brassicae) of Brassicae|Ann. Appl. Biol.122(3): 457-465|1993|10.1111/j.1744-7348.1993.tb04049.x
194455|T||Ichikawa,K., Y. Ha, A. Tsukada, N. Saito, and K. Shimada|Effect of Endocrine Disrupters on mRNA Expression of Vitellogenin (VTG) II and very Low Density Lipoprotein (apoVLDL) II in the Liver of Quail Embryos|J. Poult. Sci.40:45-52|2003|10.2141/jpsa.40.45
194456|T||Ji,Y.J., H.O. Song, C.S. Park, and J. Ahnn|Isolation and Characterization of Bisphenol-A Resistant Mutants in Caenorhabditis elegans|Korean J. Genet.26:107-114|2004|
194457|T||Lu,B., and P. Zhan|Effects of Nonylphenol on Brain Gene Expression Profiles in F1 Generation Rats|Toxicol. Environ. Chem.91(3): 559-565|2009|10.1080/02772240802246433
194458|T||Lu,B., and P. Zhan|Effects of Nonylphenol on the Brain Cytochrome P450 Gene Expression in F1 Generation Rats|Toxicol. Environ. Chem.89(3): 555-562|2007|10.1080/02772240701224069
194459|T||Lu,B., and P. Zhan|Effects of Nonylphenol on the Brain Development-Associated Gene Expression Profiles of F1 Generation Rats|Toxicol. Environ. Chem.90(1): 127-134|2008|10.1080/02772240701340642
194460|T||Mellon Institute|Range Finding Tests on Nonylphenoxy Polyethylene Glycol|EPA/OTS Doc.#86970000029:9 p.|1949|
194461|T||Mellon Institute|Range Finding Tests on Tergitol Nonionic NP-33|EPA/OTS Doc.#86970000094:8 p.|1961|
194462|T||Mellon Institute|Results of Incorporating Tergitol TP-9 in the Diet of Rats for Three Months|EPA/OTS Doc.#86970000098:10 p.|1961|
194463|T||Lu,B., and P. Zhan|Effects of Nonylphenol on Endocrine Regulation-Associated Gene Expression Profiles in Whole Brain of F1 Generation Male Rats|Toxicol. Environ. Chem.90(5): 1027-1034|2008|10.1080/02772240701822466
194464|T||Mellon Institute|Range Finding Tests on Tergitol NP-44|EPA/OTS Doc.#86970000076:7 p.|1959|
194465|T||Mellon Institute|Range Finding Tests on Tergitol TP-9|EPA/OTS Doc.#86970000073:9 p.|1959|
194466|A||Wang,J., Q. Ai, K. Mai, H. Xu, R. Zuo, W. Xu, W. Zhang, and C. Zhang|Effects of Dietary Ethoxyquin on Growth, Feed Utilization and Residue in the Muscle of Juvenile Japanese Seabass, Lateolabrax japonicus|Aquac. Res.46(11): 2656-2664|2015|10.1111/are.12420
194467|T||Park,K.S., W.C. Jang, M.K. Kim, and H.G. Kim|Comparative Effects on Secretion of LH, FSH, Prolactin, and Testosterone by Chronic and Direct Hypothalamic Administration of Nonylphenol to Adult Male Rats|Korean J. Physiol. Pharmacol.3(2): 215-222|1999|
194468|T||Sakimura,M., M. Usami, S. Hanzawa, A. Tsukada, N. Saito, Y. Ohno, and K. Shimada|Suppressive Effect of p-Nonylphenol on Male-Specific mRNA Expression in the Embryonic Gonad of Chickens|J. Poult. Sci.39(2): 91-99|2002|10.2141/jpsa.39.91
194469|T||Tomlinson,J.A., and E.M. Faithfull|Effects of Fungicides and Surfactants on the Zoospores of Olpidium brassicae|Ann. Appl. Biol.93:13-19|1979|10.1111/j.1744-7348.1979.tb04720.x
194470|T||Mellon Institute|Range Finding Tests on [Tergitols]|EPA/OTS Doc.#86970000082:9 p.|1960|
194471|T||Biochemical Research Laboratory|Results of Range Finding Eye Irritation Tests to Evaluate Possible Potentiating Properties Btwn Cationic and Nonionic Surfactants [] with Cover Letter Dated 041000 (Sanitized)|EPA/OTS Doc.#86000000007S:9 p.|1961|
194472|T||Mellon Institute|"The Subacute Oral Toxicity of ""Tergitol"" Dispersant NPG"|EPA/OTS Doc.#86970000031:10 p.|1951|
194473|T||Mellon Institute|Two-Year Feeding of Tergitol TP-9 in the Diet of Rats|EPA/OTS Doc.#86970000100:19 p.|1963|
194474|T||Zhang,Q., F. Wang, C. Xue, C. Wang, S. Chi, and J. Zhang|Comparative Toxicity of Nonylphenol, Nonylphenol-4-Ethoxylate and Nonylphenol-10-Ethoxylate to Wheat Seedlings (Triticum aestivum L.)|Ecotoxicol. Environ. Saf.131:7-13|2016|10.1016/j.ecoenv.2016.04.035
194475|T||Esteban,S., P.M. Llamas, H. Garcia-Cortes, and M. Catala|The Endocrine Disruptor Nonylphenol Induces Sublethal Toxicity in Vascular Plant Development at Environmental Concentrations:  A Risk for Riparian Plants and Irrigated Crops?|Environ. Pollut.216:480-486|2016|10.1016/j.envpol.2016.05.086
194476|A||Eun,J.B., J.O. Hearnsberger, and J.M. Kim|Antioxidants, Activators, and Inhibitors Affect the Enzymic Lipid Peroxidation System of Catfish Muscle Microsomes|J. Food Sci.58(1): 71-74|1993|10.1111/j.1365-2621.1993.tb03214.x
194477|T||Xia,H., A. Wang, Y. Zhang, and H. Tian|Effects of Nonylphenol on Immune Function of Female Sprague-Dawley Rats|Toxicol. Environ. Chem.95(4): 658-668|2013|10.1080/02772248.2013.792987
194478|T||Pan,R.C., Y.X. Luo, and Y.L. Wang|Effect of Surfactant Agral 90 on the Activity of Plant Growth Retardants in the Physiology of Rice Plants|In:  Adjuvants and Agrochemicals Volume I Mode of Action and Physiology Activity1:73-82|1989|
194479|T||Choi,M.S., H.J. Park, J.H. Oh, E.H. Lee, S.M. Park, and S. Yoon|Nonylphenol-Induced Apoptotic Cell Death in Mouse TM4 Sertoli Cells via the Generation of Reactive Oxygen Species and Activation of the ERK Signaling Pathway|J. Appl. Toxicol.34(6): 628-636|2014|10.1002/jat.2886
194480|T||Li,F., D. Huang, W. Yang, X. Liu, S. Nie, and M. Xie|Polysaccharide from the Seeds of Plantago asiatica L. Alleviates Nonylphenol Induced Reproductive System Injury of Male Rats via PI3K/AKT/mTOR Pathway|J. Funct. Foods:9 p.|2020|10.1016/j.jff.2020.103828
194481|T||Jones,R.B., J.K. Truett, and M. Hill|Postharvest Handling of Cut Immature Eucalyptus Foliage|Aust. J. Exp. Agric.33(5): 663-667|1993|
194483|T||Heathcote,G.D., and J. Ward|The Preference Shown by Myzus persicae (Sulz.) for Brassica Plants Sprayed with Wetting Agents|Bull. Entomol. Res.49(2): 235-237|1958|10.1017/S000748530005358X
194484|T||Wang,L., M. Guo, G. Feng, P. Wang, J. Xu, and J. Yu|Effects of Chronic Exposure to Nonylphenol at Environmental Concentration on Thyroid Function and Thyroid Hyperplasia Disease in Male Rats|Toxicology461:18 p.|2021|10.1016/j.tox.2021.152918
194485|T||Razia,S., K. Soda, K. Yasuda, S. Tamotsu, and T. Oishi|Effects of Estrogen (17 beta-Estradiol) and P-Nonylphenol on the Development of Immune Organs in Male Japanese Quail|J. Anhui Norm. Univ.12(2): 99-110|2005|
194486|T||Jie,Y., W. Pan, Y. Wenxia, G. Feng, H. Liting, L. Wenmei, and X. Jie|The Effects of Gestational and Lactational Exposure to Nonylphenol on C-Jun, and C-Fos Expression and Learning and Memory in Hippocampus of Male F1 Rat|Iran. J. Basic Med. Sci.20(4): 386-391|2017|
194487|T||Cheng,Y., Z. Shan, J. Zhou, Y. Bu, P. Li, and S. Lu|Effects of Long-Term 4-Nonylphenol Dietary Exposure on Reproductive Ability of Japanese Quails (Coturnix japonica)|Environ. Sci. Pollut. Res.26(3): 2908-2917|2019|10.1007/s11356-018-3820-2
194488|T||Huang,Q., L. Bu, T. Yang, Y. Yang, S. Huang, J. Yang, Y. Guo, and C. Liu|Effects of Nonylphenol Administration on Serum, Liver and Testis Estrogen Metabolism|Chemosphere235:541-549|2019|
194489|T||Yoshimura,Y., V.S. Chowdhury, M. Fujita, T. Maeda, and T. Obitsu|Effects of Nonylphenol Injection into Maternal Japanese Quail (Coturnix japonica) on the Female Reproductive Functions of F1 Generation|J. Poult. Sci.39(4): 266-273|2002|10.2141/jpsa.39.266
194490|T||Avci,G., C. Uguz, I. Bayram, M. Erdogan, I. Kucukkurt, M.D. Akbulut, M. Ozdemir, O.F. Lenger, M. Iscan, and I. Togan|Effects of Nonylphenol on Growth Parameters and Antioxidant Defense System in Japanese Quails (Coturnix japonica)|Kafkas Ueniv. Vet. Fak. Derg.16(4): 537-546|2010|10.9775/kvfd.2009.1094
194491|T||Yu,J., Y. Luo, X.F. Yang, M.X. Yang, J. Yang, X.S. Yang, J. Zhou, F. Gao, L.T. He, and J. Xu|Effects of Perinatal Exposure to Nonylphenol on Delivery Outcomes of Pregnant Rats and Inflammatory Hepatic Injury in Newborn Rats|Braz. J. Med. Biol. Res.49(12): 8 p.|2016|10.1590/1414-431X20165647
194492|T||Stenroed,M., S.S. Klemsdal, H.R. Norli, and O.M. Eklo|Effects of Picoxystrobin and 4-N-Nonylphenol on Soil Microbial Community Structure and Respiration Activity|PLoS One(6): |2013|10.1371/journal.pone.0066989
194493|T||Bolton,W.|The Effects of Supplemental Detergents on the Digestibility of Poultry Diets|J. Agric. Sci.57(1): 83-86|1961|
194494|T||Fu,X., J. Xu, C. Ni, D. Yu, H. Wang, P. Wang, M. Luo, and J. Yu|Effects of Subchronic Exposure of Nonylphenol on the Expression of Immune-Related Factors and Estrogen Receptors in the Spleen of Rats|Environ. Sci. Eur.34(30): 10 p.|2022|10.1186/s12302-022-00610-6
194495|T||Zhang,M., W. Wang, W. Sun, J. Zhang, and L. Jia|Efficacy of Pleurotus djamor Zinc Polysaccharide Chewable Tablets Against Reproductive Damage Induced by Nonylphenol|Starch Staerke75(3-4): 8 p.|2023|
194496|T||Kourouma,A., H. Keita, P. Duan, C. Quan, K.K. Bilivogui, S. Qi, N.A. Christiane, A. Osamuyimen, and K. Yang|Effects of 4-Nonylphenol on Oxidant/Antioxidant Balance System Inducing Hepatic Steatosis in Male Rat|Toxicol. Rep.:1423-1433|2015|10.1016/j.toxrep.2015.10.006
194497|T||Cheng,Y., Z. Shan, J. Zhou, Y. Bu, P. Li, and S. Lu|Effects of 4-Nonylphenol in Drinking Water on the Reproductive Capacity of Japanese Quails (Coturnix japonica)|Chemosphere175:219-227|2017|10.1016/j.chemosphere.2017.02.041
194498|T||De Bruin,W., C. Van Der Merwe, Q. Kritzinger, R. Bornman, and L. Korsten|Ultrastructural and Developmental Evidence of Phytotoxicity on Cos Lettuce (Lactuca sativa) Associated with Nonylphenol Exposure|Chemosphere169:428-436|2017|10.1016/j.chemosphere.2016.11.020
194499|T||Girlanda,M., S.E. Favero-Longo, A. Lazzari, R. Segreto, S. Perotto, and C. Siniscalco|Indigenous Microfungi and Plants Reduce Soil Nonylphenol Contamination and Stimulate Resident Microfungal Communities|Appl. Microbiol. Biotechnol.82(2): 359-370|2009|10.1007/s00253-008-1832-4
194500|T||Wang,S.Y., F. Liu, W.Y. Wu, Y.Q. Hu, R.K. Liao, G.T. Chen, J.L. Wang, and J.L. Li|Migration and Health Risks of Nonylphenol and Bisphenol A in Soil-Winter Wheat Systems with Long-Term Reclaimed Water Irrigation|Ecotoxicol. Environ. Saf.158:28-36|2018|10.1016/j.ecoenv.2018.03.082
194501|T||Kim,Y., Q.N. Choudhry, N. Chatterjee, and J. Choi|Immune and Xenobiotic Response Crosstalk to Chemical Exposure by PA01 Infection in the Nematode Caenorhabditis elegans|Chemosphere210:1082-1090|2018|10.1016/j.chemosphere.2018.07.031
194502|T||Cao,X., X. Wang, H. Chen, H. Li, M. Tariq, C. Wang, Y. Zhou, and Y. Liu|Neurotoxicity of Nonylphenol Exposure on Caenorhabditis elegans Induced by Reactive Oxidative Species and Disturbance Synthesis of Serotonin|Environ. Pollut.244:947-957|2019|10.1016/j.envpol.2018.09.140
194504|T||Kim,D., J.I. Kwak, and Y.J. An|Physiological Response of Crop Plants to the Endocrine-Disrupting Chemical Nonylphenol in the Soil Environment|Environ. Pollut.251:573-580|2019|10.1016/j.envpol.2019.04.101
194505|T||Mattana,S., S. Chelinho, J.P. Sousa, J.M. Alcaniz, and X. Domene|Nonylphenol Causes Shifts in Microbial Communities and Nitrogen Mineralization in Soil Microcosms|Ecotoxicol. Environ. Saf.181:395-403|2019|10.1016/j.ecoenv.2019.06.032
194506|T||De La Parra-Guerra,A., and J. Olivero-Verbel|Toxicity of Nonylphenol and Nonylphenol Ethoxylate on Caenorhabditis elegans|Ecotoxicol. Environ. Saf.187:12 p.|2020|10.1016/j.ecoenv.2019.109709
194507|T||De La Parra-Guerra,A., S. Sturzenbaum, and J. Olivero-Verbel|Intergenerational Toxicity of Nonylphenol Ethoxylate (Np-9) in Caenorhabditis elegans|Ecotoxicol. Environ. Saf.197:14 p.|2020|10.1016/j.ecoenv.2020.110588
194508|T||Di Lorenzo,M., R. Sciarrillo, L. Rosati, A. Sellitti, T. Barra, A. De Luca, V. Laforgia, and M. De Falco|Effects of Alkylphenols Mixture on the Adrenal Gland of the Lizard Podarcis sicula|Chemosphere258:8 p.|2020|10.1016/j.chemosphere.2020.127239
194509|T||Dwivedi,S., L.C. D'Souza, N.G. Shetty, S.V. Raghu, and A. Sharma|Hsp27, a Potential EcR Target, Protects Nonylphenol-Induced Cellular and Organismal Toxicity in Drosophila melanogaster|Environ. Pollut.293:11 p.|2022|10.1016/j.envpol.2021.118484
194510|T||Frat,L., T. Chertemps, E. Pesce, F. Bozzolan, M. Dacher, R. Planello, O. Herrero, L. Llorente, D. Moers, and D. Siaussa|Impact of Single and Combined Exposure to Priority Pollutants on Gene Expression and Post-Embryonic Development in Drosophila melanogaster|Ecotoxicol. Environ. Saf.250:11 p.|2023|10.1016/j.ecoenv.2022.114491
194511|T||Karley,A.J., S.I. Powell, and J.M. Davies|Effect of Nonylphenol on Growth of Neurospora crassa and Candida albicans|Appl. Environ. Microbiol.63(4): 1312-1317|1997|
194512|T||Rodriguez,S.B., and N.E. Mahoney|Inhibition of Aflatoxin Production by Surfactants|Appl. Environ. Microbiol.60(1): 106-110|1994|
194513|T||Chang,L.L., W.S.A. Wun, and P.S. Wang|In Utero and Neonate Exposure to Nonylphenol Develops Hyperadrenalism and Metabolic Syndrome Later in Life. I. First Generation Rats (F(1))|Toxicology301(1-3): 40-49|2012|10.1016/j.tox.2012.06.017
194514|T||Mougin,C., A. Kollmann, and C. Jolivalt|Enhanced Production of Laccase in the Fungus Trametes versicolor by the Addition of Xenobiotics|Biotechnol. Lett.24:139-142|2002|
194515|T||Buitenhuis,R., and J.L. Shipp|Efficacy of Entomopathogenic Nematode Steinernema feltiae (Rhabditida: Steinernematidae) as Influenced by Frankliniella occidentalis (Thysanoptera: Thripidae) Development Stage and Host Plant Stage|J. Econ. Entomol.:1480-1485|2005|10.1093/jee/98.5.1480.
194516|T||Guilherme de Oliveira,K.M., E.H. De Sousa Carvalho, R. Dos Santos Filho, T.W. Sivek, E.L. Tha, I.R. De Souza, L.D. De S|Single and Mixture Toxicity Evaluation of Three Phenolic Compounds to the Terrestrial Ecosystem|J. Environ. Manag.296:10 p.|2021|10.1016/j.jenvman.2021.113226
194517|T||Kollmann,A., A. Brault, I. Touton, J. Dubroca, V. Chaplain, and C. Mougin|Effect of Nonylphenol Surfactants on Fungi Following the Application of Sewage Sludge on Agricultural Soils|J. Environ. Qual.32:1269-1276|2003|
194518|T||Krupinski,M., R. Szewczyk, and J. Dlugonski|Detoxification and Elimination of Xenoestrogen Nonylphenol by the Filamentous Fungus Aspergillus versicolor|Int. Biodeterior. Biodegrad.82:59-66|2013|10.1016/j.ibiod.2013.03.011
194519|T||Chen,B.S., and J.H. Yen|Effect of Endocrine Disruptor Nonylphenol on Physiologic Features and Proteome During Growth in Arabidopsis thaliana|Chemosphere91(4): 468-474|2013|10.1016/j.chemosphere.2012.11.072
194520|T||Atli,E.|The Effects of Three Selected Endocrine Disrupting Chemicals on the Fecundity of Fruit Fly, Drosophila melanogaster|Bull. Environ. Contam. Toxicol.91(4): 433-437|2013|10.1007/s00128-013-1083-7
194521|T||Loffredo,E., G. Castellana, A. Traversa, and N. Senesi|Comparative Assessment of Three Ligninolytic Fungi for Removal of Phenolic Endocrine Disruptors from Freshwaters and Sediments|Environ. Technol.34(9-12): 1601-1608|2013|10.1080/09593330.2012.760654
194522|T||Lee,H.I., S. Chattopadhyay, E.Y. Gong, R.S. Ahn, and K. Lee|Antiandrogenic Effects of Bisphenol A and Nonylphenol on the Function of Androgen Receptor|Toxicol. Sci.75:40-46|2003|10.1093/toxsci/kfg150
194523|T||Hu,C., Y. Cai, W. Wang, Y. Cui, and M. Li|Toxicological Effects of Multi-Walled Carbon Nanotubes Adsorbed with Nonylphenol on Earthworm Eisenia fetida|Environ. Sci. Proc. Impacts15(11): 2125-2130|2013|10.1039/c3em00376k
194524|T||Lukac,N., J. Lukacova, B. Pinto, Z. Knazicka, E. Tvrda, and P. Massanyi|The Effect of Nonylphenol on the Motility and Viability of Bovine Spermatozoa In Vitro|J. Environ. Sci. Health A Toxic Hazard. Subst. Environ. Eng.48(8): 973-979|2013|
194525|T||Zhang,H.Y., W.Y. Xue, Y.Y. Li, Y. Ma, Y.S. Zhu, W.Q. Huo, B. Xu, W. Xia, and S.Q. Xu|Perinatal Exposure to 4-Nonylphenol Affects Adipogenesis in First and Second Generation Rats Offspring|Toxicol. Lett.225(2): 325-332|2014|10.1016/j.toxlet.2013.12.011
194526|T||Omokawa,H., M. Takeuchi, and M. Konnai|Effects of Polyoxyethylene Nonylphenyl Ether and Silicon Surfactants on Penetration of Propanil Through Adaxial Epidermis of Commelina communis|J. Pestic. Sci. (Multiple Languages)18(1): 85-90|1993|10.1584/jpestics.18.85
194527|T||Jiang,L., B. Wang, J. Liang, B. Pan, Y. Yang, and Y. Lin|Reduced Phytotoxicity of Nonylphenol on Tomato (Solanum lycopersicum L). Plants by Earthworm Casts|Environ. Pollut.265:9 p.|2020|
194528|T||You,M., W. Gu, M. Li, Z. Qiu, S. Li, Z. Jiang, D. Yao, Y. Xu, and Y. Wang|Perinatal Exposure to Nonylphenol Impairs Dendritic Outgrowth of Cerebellar Purkinje Cells in Progeny|Chemosphere:758-766|2018|10.1016/j.chemosphere.2018.08.007
194529|T||Stanghellini,M.E., D.M. Mathews, and I.J. Misaghi|Pathogenicity and Management of Olpidium bornovanus, a Root Pathogen of Melons|Plant Dis.94:163-166|2010|10.1094/PDIS-94-2-0163
194530|T||Jiang,L., Y. Yang, L.X. Jia, Y. Liu, B. Pan, and Y. Lin|Effects of Earthworm Casts on Sorption-Desorption, Degradation, and Bioavailability of Nonylphenol in Soil|Environ. Sci. Pollut. Res.25(8SI): 7968-7977|2018|10.1007/s11356-017-1130-8
194531|T||Mellon Institute|The Pathological Effect of Certain Nonyl Phenoxy Ethylene Oxide Derivatives on the Heart|EPA/OTS Doc.#86970000113:10 p.|1965|
194532|T||Michereff,M., S.O.D. Oliveira, R.S. De Liz, and M. Faria|Cage and Field Assessments of Beauveria bassiana-Based Mycoinsecticides for Myzus persicae Sulzer (Hemiptera: Aphididae) Control in Cabbage|Neotrop. Entomol. (Multiple Languages)40:470-476|2011|
194533|T||Roig,B., A. Cadiere, S. Bressieux, S. Biau, S. Faure, and P. De Santa Barbara|Environmental Concentration of Nonylphenol Alters the Development of Urogenital and Visceral Organs in Avian Model|Environ. Int.62:78-85|2014|10.1016/j.envint.2013.10.006
194534|T||Rozalska,S., S. Glinska, and J. Dlugonski|Metarhizium robertsii Morphological Flexibility During Nonylphenol Removal|Int. Biodeterior. Biodegrad.95:285-293|2014|10.1016/j.ibiod.2014.08.002
194535|T||Blair,A.M.|The Pre-Emergence Selectivity Between Pasture Grasses of Twelve Herbicides: Haloxydine, Pronamide, NC 8438, ORGA 3045, Chlortoluron, Metoxuron, Dicamba, Isopropalin, Carbetamide, MC 4379, MBR 8251 and EMD-IT 5914|Weed Res. Org.:35 p.|1973|
194536|T||Thompson,L., C.H. Slack, R.D. Augenstein, and J.W. Herron|Action and Fate of 2,4-D and Dicamba in Trumpetcreeper|Weed Sci.21(5): 429-432|1973|10.1017/S0043174500027417
194537|T||Farnworth,J., and G.M. Davies|The Improvement of Bracken Dominated Hill Pasture Using Herbicides, Reseeding, Fertilizers and Cutting|J. Agric. Sci.83(3): 557-562|1974|10.1017/S0021859600027052
194538|T||Scifres,C.J.|Redberry Juniper Control with Soil-Applied Herbicides|J. Range Manag.25(4): 308-310|1972|10.2307/3896920
194539|T||McCall,H.G., C.J. Scifres, and M.G. Merkle|Influence of Foam Adjuvants on Activity of Selected Herbicides|Weed Sci.22(4): 384-388|1974|10.1017/S0043174500037498
194540|T||Meissner,R.|The Effect of Dicamba on Some Turf Grasses|Agroplantae8(3): 63-64|1976|
194541|T||Stewert,R.E.|Herbicides for Control of Western Swordfern and Western Bracken|USFS INT284:1-10|1976|
194542|T||Gonzalez-Ibanez,J.|Control of Resistant Broadleaf Species in Puerto Rico Pastures Using Mixtures of 2,4 D with Picloram and Dicamba|J. Agric. Univ. P. R.61(3): 326-331|1977|10.46429/jaupr.v61i3.10431
194543|T||Radosevich,S., W. Brooks, D. Adams, and W. McHenry|Bracken Fern Control with Several Herbicides|Calif. Agric.32(6): 7-8|1978|
194544|T||Corning Hazleton Inc.|90-Day Dietary Study in Rats Administered Para-nonylphenol with Cover Letter Dated 04/28/1997|EPA/OTS Doc.#86970000616:937 p.|1997|
194545|T||BioDynamics Inc.|Nonylphenol: Skin Corrosivity Evaluation in Rabbits|EPA/OTS Doc.#86970000445:11 p.|1982|
194546|T||MB Research Laboratories Inc.|Report on Oral LD 50 in Rats with Igepal Co-430 with Cover Letter Dated 02/27/1997|EPA/OTS Doc.#86970000228:10 p.|1978|
194547|T||Cooper,S.M.|Dietary Modulation of p-Nonylphenol Induced Renal Toxicity in Male Sprague-Dawley Rats|Ph.D. Thesis, University of Arkansas for Medical Sciences, Little Rock, AR:170 p.|2011|
194548|T||Aly,H.A.A., O. Domenech, and Z.M. Banjar|Effect of Nonylphenol on Male Reproduction: Analysis of Rat Epididymal Biochemical Markers and Antioxidant Defense Enzymes|Toxicol. Appl. Pharmacol.261(2): 134-141|2012|10.1016/j.taap.2012.02.015
194549|T||Scifres,C.J., and M.M. Kothmann|Site Relations, Regrowth Characteristics, and Control of Lotebush with Herbicides|J. Range Manag.29(2): 154-157|1976|10.2307/3897417
194550|T||O'Sullivan,P.A., and J.T. O'Donovan|Interaction Between Glyphosate and Various Herbicides for Broadleaved Weed Control|Weed Res. (Multiple Languages)20(4): 255-260|1980|10.1111/j.1365-3180.1980.tb00078.x
194551|T||Olson,W.A., and J.D. Nalewaja|Antagonistic Effects of MCPA on Wild Oat (Avena fatua) Control with Diclofop|Weed Sci.29(5): 566-571|1981|10.1017/S0043174500063748
194552|T||Sosebee,R.E., D.J. Bedunah, W. Seipp, G.L. Thompson, and R. Henard|Herbicidal Control of Broom Snakeweed Xanthocephalum sarothrae|Down Earth37(2): 17-24|1981|
194553|T||Mann,R.K., S.W. Rosser, and W.W. Witt|Biology and Control of Tall Ironweed (Vernonia altissima)|Weed Sci.31(3): 324-328|1983|10.1017/S0043174500069095
194554|T||Pusztai,T.|Herbicide-Induced Ear Morphoses in Barley in Relation to Chromosome Aberrations|Acta Bot. Hung.32:183-188|1986|
194555|T||Nagasawa,A., and J.J. Finer|Induction of Morphogenic Callus-Cultures from Leaf Tissue of Garlic|Hortscience23(6): 1068-1070|1988|10.21273/HORTSCI.23.6.1068
194556|T||Williams,M.C., and M.H. Ralphs|Control of Wasatch Milkvetch (Astragalus miser var. oblongifolius) and Associated Species on Mountain Rangeland|Weed Technol.3(1): 110-113|1989|10.1017/S0890037X00031432
194557|T||Anderson,T.M.D., and F.D. Panetta|Fireweed Response to Boomspray Applications of Different Herbicides and Adjuvants|Plant Prot. Q.10(4): 152-153|1995|
194558|T||Benega,R., M. Isidron, E. Arias, A. Cisneros, J. Martinez, and C.G. Borroto|Plant Regeneration from Pineapple Ovules|Acta Hortic.425(27): 247-250|1997|
194559|T||Hall,J., S. Webb, and S. Deshpande|An Overview of Auxinic Herbicide Resistance: Wild Mustard (Sinapis arvensis L). as a Case Study|ACS Symp. Ser.645:28-43|1996|
194560|T||Ralph,A.|Dicamba Control of Emex australis|Plant Prot. Q.11(4): 157-159|1996|
194561|T||Tribulato,A., P.C. Remotti, and H.J.M. Loffler|Occurrence of Embryo-Like Structures and Plant Regeneration from a Cell Suspension of Lilium longiflorum|Acta Hortic.:205-206|1997|10.17660/ActaHortic.1997.447.39
194562|T||Wang,Y., S. Deshpande, and J. Hall|Calcium Ion Dynamics in Auxinic-Herbicide Resistant and Susceptible Biotypes of Sinapis arvensis|Proc. Br. Crop Prot. Conf. Weeds:765-770|1997|
194563|T||Mellon Institute|Results of Testing Tergitol TP-9 for Tumorigenicity as well as for Its Potential Tumor-Promotor Action|EPA/OTS Doc.#86970000303:17 p.|1967|
194564|T||Bushy Run Research Center|Tergitol Nonionic Surfactant NP-6:  Range Finding Toxicity Studies|EPA/OTS Doc.#86970000314:10 p.|1980|
194566|T||Porras-Murillo,R., A. Andrade-Torres, and L.Y.H.O.O. Solis-Ramos|Expression Analysis of Two Somatic Embryogenesis Receptor Kinase (SERK) Genes During In Vitro Morphogenesis in Spanish Cedar (Cedrela odorata L.)|3 Biotech8(11): 10 p.|2018|10.1007/s13205-018-1492-8
194567|T||Beltran-Pena,E., R. Aguilar, A. Ortiz-Lopez, T.D. Dinkova, and E.S. De Jimenez|Auxin Stimulates S6 Ribosomal Protein Phosphorylation in Maize Thereby Affecting Protein Synthesis Regulation|Physiol. Plant. (Multiple Languages)115(2): 291-297|2002|10.1034/j.1399-3054.2002.1150216.x
194568|T||Kim,S.K., J.S. Lee, K.H. Huang, B.J. Ahn, F. Hammerschlag, and P. Saxena|Utilization of Embryogenic Cell Cultures for the Mass Production of Bulblets in Oriental and Easter Lilies|Acta Hortic.625:253-259|2003|10.17660/ActaHortic.2003.625.29
194569|T||Breaden,R., and T. Armstrong|The Susceptibility of Chinese Wormwood (Artemisia verlotiorum Lamotte) to Various Herbicides|Plant Prot. Q.19(3): 96-97|2004|
194570|T||Yajima,W., J.C. Hall, and N.N.V. Kav|Proteome-Level Differences Between Auxinic-Herbicide-Susceptible and -Resistant Wild Mustard (Sinapis arvensis L.)|J. Agric. Food Chem.52(16): 5063-5070|2004|10.1021/jf0495284
194571|T||Kim,S.K., B.J. Ahn, H. Okubo, W. Miller, and G. Chastagner|Utilization of Embryogenic Cell Cultures for the Mass Production of Bulblets in Lilies|Acta Hortic.673:731-736|2005|10.17660/ActaHortic.2005.673.103
194572|T||Mikula,A., A. Fiuk, and J.J. Rybczynski|Induction, Maintenance and Preservation of Embryogenic Competence of Gentiana cruciata L. Cultures|Acta Biol. Cracov. Bot.47(1): 227-236|2005|
194573|T||Mikula,A., M. Niedzielski, and J.J. Rybczyski|The Use of TTC Reduction Assay for Assessment of Gentiana spp. Cell Suspension Viability After Cryopreservation|Acta Physiol. Plant.28(4): 315-324|2006|10.1007/s11738-006-0027-9
194574|T||Alford,J.L.|Emergence Patterns, Growth, and Seed Viability of Selected Weeds|M.S. Thesis,  University of Arkansas:146 p.|2007|
194575|T||Bakacsy,L., and I. Bagi|Survival and Regeneration Ability of Clonal Common Milkweed (Asclepias syriaca L). After a Single Herbicide Treatment in Natural Open Sand Grasslands|Sci. Rep.10(1): 10 p.|2020|10.1038/s41598-020-71202-8
194576|T||Gonzalez-Rodriguez,J.A., and Y.J. Pena-Ramirez|Establishment of Efficient Protocols for Massive Propagation of Tropical Trees from Mesoamerica Through Somatic Embryogenesis: Cedrela odorata, Swietenia macrophylla, Cybistax donnell smithii, Crescentia cujete and Cord|Acta Hortic.:229-235|2007|10.17660/ActaHortic.2007.748.31
194577|T||Miri,S.M.|Micropropagation, Callus Induction and Regeneration of Ginger (Zingiber officinale Rosc.)|Open Agric.5(1): 75-84|2020|10.1515/opag-2020-0008
194578|T||Palma-Bautista,C., P. Belluccini, V. Gentiletti, J.G. Vazquez-Garcia, H.E. Cruz-Hipolito, and R. De Prado|Multiple Resistance to Glyphosate and 2,4-D in Carduus acanthoides L. from Argentina and Alternative Control Solutions|Agronomy10(11): |2020|10.3390/agronomy10111735
194579|T||Zangoueinejad,R., M.T. Alebrahim, and T. Tseng|Absorption and Translocation of Dicamba in Dicamba-Tolerant Wild Tomato|Can. J. Plant Sci.101(1): 30-38|2020|10.1139/cjps-2019-0314
194580|A||Attademo,A.M., R.C. Lajmanovich, P.M. Peltzer, A.P.C. Boccioni, C. Martinuzzi, F. Simonielo, and M.R. Repetti|Effects of the Emulsifiable Herbicide Dicamba on Amphibian Tadpoles: An Underestimated Toxicity Risk?|Environ. Sci. Pollut. Res.28(24): 31962-31974|2021|10.1007/s11356-021-13000-x
194581|T||Fiuk,A., and J.J. Rybczynski|Morphogenic Capability of Gentiana kurroo Royle Seedling and Leaf Explants|Acta Physiol. Plant.30(2): 157-166|2008|10.1007/s11738-007-0104-8
194582|T||Gazola,J., G.F. Barbieri, C. Piasecki, A.S. Mazon, and D. Agostinetto|Chemical Control of Wild Radish and Volunteer Enlist Soybean and Selectivity to Wheat Crop|Rev. Bras. Cienc. Agrar.16(3): 1-7|2021|10.5039/agraria.v16i3a413
194583|T||Hand,L.C., K.M. Eason, T.M. Randell, T.L. Grey, and A.S. Culpepper|2,4-D and Dicamba Removal from the Surface of Plastic Mulch Using Overhead Irrigation: Analytical Analysis and Cucurbit Bioassay Crop Response|Weed Technol.35(4): 662-668|2021|10.1017/wet.2021.48
194584|T||Kumar,V., R. Liu, A.J. Jhala, P. Jha, and M. Manuchehri|Palmer Amaranth (Amaranthus palmeri) Control in Postharvest Wheat Stubble in the Central Great Plains|Weed Technol.35(6): 945-949|2021|10.1017/wet.2021.64
194585|T||Makukh,Y., I. Ivaniuk, S. Remeniuk, S. Moshkivska, and V. Riznyk|Control of Heracleum sosnowskyi Plant Numbers in Agricultural and Forestry Phytocenoses of Ukraine|Sci. Horiz.24(11): 45-56|2021|10.48077/scihor.24(11).2021.45-56
194586|T||Rosli,N., M. Maziah, K.L. Chan, and S. Sreeramanan|Factors Affecting the Accumulation of 9-Methoxycanthin-6-One in Callus Cultures of Eurycoma longifolia|J. For. Res.20(1): 54-58|2009|10.1007/s11676-009-0010-6
194587|T||Spaunhorst,D., A. Triplett, E.S. Cyr, and G. Eggleston|Effect of Synthetic Auxin Herbicides Applied During Sugarcane Grand Growth on Starch Accumulation and Color|Sugar Tech23(5): 1018-1024|2021|10.1007/s12355-021-00972-w
194588|T||Gleason,C., R.C. Foley, and K.B. Singh|Mutant Analysis in Arabidopsis provides Insight into the Molecular Mode of Action of the Auxinic Herbicide Dicamba|PLoS One6(3): 12 p.|2011|10.1371/journal.pone.0017245
194589|T||Martinson,K.L., J. Wiersma, B. Durgan, L. Behnken, and F. Breitenbach|Response of Oat and Broadleaf Weeds to Postemergence Herbicides|Crop Manag.10(1): 1-9|2011|10.1094/CM-2011-0328-02-RS
194590|T||Wasacz,M.H., L.M. Sosnoskie, M.T. Elmore, and T.E. Besancon|Imaging Analysis Method to Quantify Leaf Deformation in Response to Sub-Lethal Rates of Dicamba|Weed Technol.35(5): 733-738|2021|10.1017/wet.2021.53
194591|T||Avila Neto,R.C., A.L.P. Berghetti, C.P. Tarouco, A.S. Holkem, F.T. Nicoloso, M.M. Araujo, and A.D.R. Ulguim|Phytotoxicity and Physiological Changes in Schinus terebinthifolius Raddi Under Simulated 2,4-D Drift and Dicamba|Rev. Ceres69(3): 314-322|2022|10.1590/0034-737X202269030009
194592|T||Canella Vieira,C., J. Zhou, C. Cross, J.W. Heiser, B. Diers, D.E. Riechers, J. Zhou, D. Hernandez Jarquin, H. Nguyen, J|Differential Responses of Soybean Genotypes to Off-Target Dicamba Damage|Crop Sci.62(4): 1472-1483|2022|10.1002/csc2.20757
194593|T||Figueiredo,M.R.A.D., A. Kupper, J.M. Malone, T. Petrovic, A.B.T.B.D. Figueiredo, G. Campagnola, O.B. Peersen, K.V.S.K. |An In-Frame Deletion Mutation in the Degron Tail of Auxin Coreceptor IAA2 Confers Resistance to the Herbicide 2,4-D in Sisymbrium orientale|Proc. Natl. Acad. Sci. U.S.A.119(9): 9 p.|2022|10.1073/pnas.2105819119
194594|T||Granetto,M., L. Serpella, S. Fogliatto, L. Re, C. Bianco, F. Vidotto, and T. Tosco|Natural Clay and Biopolymer-Based Nanopesticides to Control the Environmental Spread of a Soluble Herbicide|Sci. Total Environ.806:11 p.|2022|10.1016/j.scitotenv.2021.151199
194595|T||Iriart,V., R.S. Baucom, and T. Ashman|Interspecific Variation in Resistance and Tolerance to Herbicide Drift Reveals Potential Consequences for Plant Community Co-Flowering Interactions and Structure at the Agro-Eco Interface|Ann. Bot.130(7): 1015-1028|2022|10.1093/aob/mcac137
194596|T||Johnson,N.M., and R.S. Baucom|Dicamba Drift Alters Plant-Herbivore Interactions at the Agro-Ecological Interface|Ecosphere13(11): 12 p.|2022|10.1002/ecs2.4274
194597|T||Miroshnichenko,D., T. Sidorova, and S. Dolgov|Evaluation of In Vitro Morphogenic Response of Triticum urartu, a Donor of Au Genome of Modern Wheat|Agronomy12(12): 11 p.|2022|10.3390/agronomy12123123
194598|T||Stachowiak,W., M. Smolibowski, D.K. Kaczmarek, T. Rzemieniecki, and M. Niemczak|Toward Revealing the Role of the Cation in the Phytotoxicity of the Betaine-Based Esterquats Comprising Dicamba Herbicide|Sci. Total Environ.845:10 p.|2022|10.1016/j.scitotenv.2022.157181
194599|T||Wang,H., T. Liu, W. Zhao, X. Liu, M. Sun, P. Su, and J. Wen|Reduced Invasiveness of Common Ragweed (Ambrosia artemisiifolia) Using Low-Dose Herbicide Treatments for High-Efficiency and Eco-Friendly Control|Front. Plant Sci.13:12 p.|2022|10.3389/fpls.2022.861806
194600|T||Angonese,P.S., A.R.S. De Queiroz, L.S. Angonese, F.M. Machado, R. Napier, C. Markus, C.A. Delatorre, and A.,Jr. Merotto|Rapid Necrosis: Implications of Environmental Conditions and Plant Growth Stage on 2,4-D Resistance and Effect of Other Auxinic Herbicides in Sumatran Fleabane (Conyza sumatrensis)|Weed Technol.37(2): 174-184|2023|10.1017/wet.2023.21
194601|T||Godara,N., R.C. Williamson, D. Koo, and S.D. Askew|Effect of Herbicides on Pollinator Foraging Behavior and Flower Morphology in White Clover (Trifolium repens L.)-Infested Turfgrass|Weed Technol.37(3): 221-225|2023|10.1017/wet.2023.33
194602|T||Heedchim,W., C. Niha, S. Yenchon, and S. Te-Chato|Development of Somatic Embryogenesis of Mangrove Fan Palm (Licuala spinosa Thunb.) from Culturing Immature Zygotic Embryo|Plant Genet. Resour.21(2): 143-148|2023|10.1017/S1479262123000540
194603|T||Jones,E.A.L., R.J. Andres, M.D.K. Owen, J.C. Dunne, D.J. Contreras, C.W. Cahoon, K.M. Jennings, R.G. Leon, and W.J. Eve|Confirmation of a Five-Way Herbicide-Resistant Amaranthus tuberculatus Population in North Carolina|Weed Res63(5): 297-304|2023|10.1111/wre.12590
194604|T||Sharma,G., S. Shrestha, T. Tseng, and S. Shrestha|Screening and Selection for Herbicide Tolerance Among Diverse Tomato Germplasms|Horticulturae9(12): 11 p.|2023|10.3390/horticulturae9121354
194605|A||Homa,J., W. Stachowiak, A. Olejniczak, L. Chrzanowski, and M. Niemczak|Ecotoxicity Studies Reveal that Organic Cations in Dicamba-Derived Ionic Liquids Can Pose a Greater Environmental Risk than the Herbicide Itself|Sci. Total Environ.922:13 p.|2024|10.1016/j.scitotenv.2024.171062
194606|T||Harmoney,K., J. Jaeger, and J. Hadle|Vegetation and Animal Production in Pastures Sprayed for Western Ragweed Control|Crop Forage Turfgrass Manag.10(1): 7 p.|2024|10.1002/cft2.20279
194607|T||Egan,J.F., and D.A. Mortensen|Quantifying Vapor Drift of Dicamba Herbicides Applied to Soybean|Environ. Toxicol. Chem.31(5): 1023-1031|2012|10.1002/etc.1778
194608|T||Mithila,J., and J.C. Hall|Transfer of Auxinic Herbicide Resistance from Brassica kaber to Brassica juncea and Brassica rapa Through Embryo Rescue|In Vitro Cell. Dev. Biol., Plant49(4): 461-467|2013|10.1007/s11627-013-9515-y
194609|T||Li,L., M. Sousek, R. Gaussoin, and Z. Reicher|Herbicide Tolerance of Established Buffalograss|Crop Forage Turfgrass Manag.3(1): 1-4|2017|10.2134/cftm2016.10.0065
194610|T||Binning,L.K.|Chemical Control of Wild Garlic (Allium vineale L.) in Winter Wheat (Triticum aestivum L.) and the Movement and Metabolism of an Effective Herbicide 2-Methoxy-3,6-Dichlorobenzoic Acid (Dicamba)|Ph.D. Thesis, Michigan State University:73 p.|1969|
194611|T||Everitt,J.H., A.H. Gerbermann, and D.G. Akers|Chemical Control of Dryland Willow in the Lower Rio-Grande Valley of Texas Usa|J. Rio Grande Val. Hortic. Soc.32:89-93|1978|
194612|T||Hodgson,G.L.|Sodium 3,6-Dichloro-2-Methoxybenzoate for the Control of Bracken (Pteridium aquilinum L. Kuhn) Results of Preliminary Trials|Weed Res4(2): 167-168|1964|10.1111/j.1365-3180.1964.tb00284.x
194613|T||Riepma,P.|The Control of Tetracera scandens|J. Rubb. Res. Inst. Malaya18(4): 155-160|1964|
194614|T||Corns,W.G., and R.J. Schraa|Mechanical and Chemical Control of Silverberry (Elaeagnus commutata Bernh.) on Native Grass-Land|J. Range Manag.18(1): 15-19|1965|10.2307/3895741
194615|T||Robocker,W.C., and C.L. Canode|Effects of Litter, Incorporated Organic Matter, Soil Type, and Selective Herbicides on Seedlings of Downy Brome|Weed Sci.13(1): 8-10|1965|10.2307/4041084
194616|T||Quimby,P.C.,Jr., and J.D. Nalewaja|Effect of Dicamba on Wheat and Wild Buckwheat at Various Stages of Development|Weed Sci.14(3): 229-232|1966|10.2307/4040919
194617|T||Kirby,B., P. Stryker, and P. Santelmann|Ground Treatments for Control of Winged Elm on Rangeland|J. Range Manag.20(3): 158-160|1967|10.2307/3895797
194618|T||Brown,R.M.|Further Experiments on the Control of Bracken in Forestry with Dicamba|Proc. Br. Weed Control Conf.:981-988|1968|
194619|T||Erskine,D.S.C.|Experimental Work in the Chemical Control of Bracken Fern 1958-1968|Proc. Br. Weed Control Conf.:488-492|1968|
194620|A||Fettweis,A., S. Hansul, E. Smolders, and K. De Schamphelaere|Metal Mixture Effects of Ni, Cu, and Zn in a Multispecies, Two-Trophic-Level Algal-Daphnid Microcosm can be Predicted from Single-Trophic-Level Effects: The Role of Indirect Toxicity|Environ. Toxicol. Chem.43(11): 2350-2364|2024|10.1002/etc.5970
194621|A||Park,C.J., S.H. Song, D.H. Kim, and M.C. Gye|Nickel Affects Gill and Muscle Development in Oriental Fire-Bellied Toad (Bombina orientalis) Embryos|Aquat. Toxicol.182:67-78|2017|10.1016/j.aquatox.2016.11.011
194622|A||Duckworth,C.G., C.R. Picariello, R.K. Thomason, K.S. Patel, and G.K. Bielmyer-Fraser|Responses of the Sea Anemone, Exaiptasia pallida, to Ocean Acidification Conditions and Zinc or Nickel Exposure|Aquat. Toxicol.182:120-128|2017|10.1016/j.aquatox.2016.11.014
194623|A||Martinez-Ruiz,E.B., and F. Martinez-Jeronimo|How do Toxic Metals Affect Harmful Cyanobacteria?  An Integrative Study with a Toxigenic Strain of Microcystis aeruginosa Exposed to Nickel Stress|Ecotoxicol. Environ. Saf.133:36-46|2016|10.1016/j.ecoenv.2016.06.040
194624|T||Gomes,S.I.L., A.M.V.M. Soares, and M.J.B. Amorim|Effect of Cu and Ni on Cellular Energy Allocation in Enchytraeus albidus|Ecotoxicology25(8): 1523-1530|2016|10.1007/s10646-016-1706-y
194625|A||Fadhlaoui,M., and P. Couture|Combined Effects of Temperature and Metal Exposure on the Fatty Acid Composition of Cell Membranes, Antioxidant Enzyme Activities and Lipid Peroxidation in Yellow Perch (Perca flavescens)|Aquat. Toxicol.180:45-55|2016|10.1016/j.aquatox.2016.09.005
194626|A||Brix,K.V., M.S. Tellis, A. Cremazy, and C.M. Wood|Characterization of the Effects of Binary Metal Mixtures on Short-Term Uptake of Ag, Cu, and Ni by Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.180:236-246|2016|10.1016/j.aquatox.2016.10.008
194627|A||Kanold,J.M., J.B. Wang, F. Brummer, and L. Siller|Metallic Nickel Nanoparticles and Their Effect on the Embryonic Development of the Sea Urchin Paracentrotus lividus|Environ. Pollut.212:224-229|2016|10.1016/j.envpol.2016.01.050
194628|A||Mitsui,N., O. Tooi, and A. Kawahara|Vitellogenin-Inducing Activities of Natural, Synthetic, and Environmental Estrogens in Primary Cultured Xenopus laevis Hepatocytes|Comp. Biochem. Physiol. C Comp. Pharmacol. Toxicol.146(4): 581-587|2007|10.1016/j.cbpc.2007.07.004
194629|T||Farnworth,J., and G.M. Davies|A Progress Report on the Use of Paraquat, Picloram, and Dicamba on Bracken (Pteridum aquilinium (L) Kuhn) Dominated Hill Pasture|Proc. Br. Weed Control Conf.:493-497|1968|
194630|T||Haas,R.H., R.A. Darrow, and S.K. Lehman|Evaluation of Herbicides for the Control of Common Persimmon |Proc. South. Weed Conf.:278-283|1964|
194631|T||Martin,D.J.|Bracken Fern Control Trials in West Scotland|Proc. Br. Weed Control Conf.:1242-1244|1968|
194632|T||Mitchell,B.J.|Control of Bracken Fern with Herbicides|Proc. Br. Weed Control Conf.:498-501|1968|
194634|T||Arnold,W.E.|Effect of Dicamba on RNA, and Protein of Wheat and Wild Buckwheat and on Nucleohistone Formation|Ph.D. Thesis, North Dakota State University, Fargo, ND:74 p.|1969|
194635|T||Mathur,R.L., and G.G. Dalela|Effect of Dicamba (2-Methoxy-3, 6-Dichlorogenzoic Acid) on the Control Striga lutea on Pennisetum typhoides|Indian Phytopathol.23(4): 714-715|1970|
194636|T||Robison,L.R., and L.S. Jeffery|Hemp Dogbane Growth and Control|Weed Sci.20(2): 156-159|1972|10.1017/S0043174500035244
194637|T||Bragadin,M., G. Perin, A. Iero, S. Manente, V. Rizzoli, and G. Scutari|An In Vitro Study on the Toxic Effects of Nonylphenols (NP) in Mitochondria|Chemosphere38(9): 1997-2001|1999|10.1016/S0045-6535(98)00412-3
194638|T||Okuda,H., H. Nojima, N. Watanabe, and T. Watabe|Sulphotransferase-Mediated Activation of the Carcinogen 5-Hydroxymethyl-Chrysene: Species and Sex Differences in Tissue Distribution of the Enzyme Activity and a Possible Participation of Hydroxysteroid Sulphotransferas|Biochem. Pharmacol.38(18): 3003-3009|1989|10.1016/0006-2952(89)90008-7
194639|T||Leadley,J., D.F.V. Lewis, H. Wiseman, P.S. Goldfarb, and A. Wiseman|Environmental Oestrogen-Mimics Display Liposomal Membrane-Antioxidant Ability: Importance of Molecular Modelling Predictions|J. Chem. Technol. Biotechnol.73(2): 131-136|1998|10.1002/(SICI)1097-4660(1998100)73:2<131::AID-JCTB948>3.0.CO;2-B
194640|A||Blewett,T.A., C.M. Wood, and C.N. Glover|Salinity-Dependent Nickel Accumulation and Effects on Respiration, Ion Regulation and Oxidative Stress in the Galaxiid Fish, Galaxias maculatus|Environ. Pollut.214:132-141|2016|10.1016/j.envpol.2016.04.010
194641|A||Grasset,J., E. Ollivier, B. Bougas, G. Yannic, P.G.C. Campbell, L. Bernatchez, and P. Couture|Combined Effects of Temperature Changes and Metal Contamination at Different Levels of Biological Organization in Yellow Perch|Aquat. Toxicol.177:324-332|2016|10.1016/j.aquatox.2016.06.008
194642|T||Meyer,D., J.M. Birdsey, M.A. Wendolowski, K.K. Dobbin, and P.L. Williams|Differential Toxicities of Nickel Salts to the Nematode Caenorhabditis elegans|Bull. Environ. Contam. Toxicol.97(2): 166-170|2016|10.1007/s00128-016-1846-z
194643|A||Hedouin,L., M. Metian, J.L. Teyssie, F. Oberhansli, C. Ferrier-Pages, and M. Warnau|Bioaccumulation of Ni-63 in the Scleractinian Coral Stylophora pistillata and Isolated Symbiodinium Using Radiotracer Techniques|Chemosphere156:420-427|2016|10.1016/j.chemosphere.2016.04.097
194644|A||Custer,K.W., C.R. Hammerschmidt, and G.A. Burton|Nickel Toxicity to Benthic Organisms:  The Role of Dissolved Organic Carbon, Suspended Solids, and Route of Exposure|Environ. Pollut.208:309-317|2016|10.1016/j.envpol.2015.09.045
194645|A||Leduc,J., P. Echaubard, V. Trudeau, and D. Lesbarreres|Copper and Nickel Effects on Survival and Growth of Northern Leopard Frog (Lithobates pipiens) Tadpoles in Field-Collected Smelting Effluent Water|Environ. Toxicol. Chem.35(3): 687-694|2016|10.1002/etc.3227
194646|A||Dew,W.A., N. Veldhoen, A.C. Carew, C.C. Helbing, and G.G. Pyle|Cadmium-Induced Olfactory Dysfunction in Rainbow Trout: Effects of Binary and Quaternary Metal Mixtures|Aquat. Toxicol.172:86-94|2016|10.1016/j.aquatox.2015.12.018
194647|A||Gauthier,P.T., W.P. Norwood, E.E. Prepas, and G.G. Pyle|Metal-Polycyclic Aromatic Hydrocarbon Mixture Toxicity in Hyalella azteca. 1. Response Surfaces and Isoboles to Measure Non-Additive Mixture Toxicity and Ecological Risk|Environ. Sci. Technol.49(19): 11772-11779|2015|10.1021/acs.est.5b03231
194648|A||Blewett,T.A., V.E. Ransberry, G.B. McClelland, and C.M. Wood|Investigating the Mechanisms of Ni Uptake and Sub-Lethal Toxicity in the Atlantic Killifish Fundulus heteroclitus in Relation to Salinity|Environ. Pollut.211:370-381|2016|10.1016/j.envpol.2016.01.002
194649|A||Blewett,T.A., D.S. Smith, C.M. Wood, and C.N. Glover|Mechanisms of Nickel Toxicity in the Highly Sensitive Embryos of the Sea Urchin Evechinus chloroticus, and the Modifying Effects of Natural Organic Matter|Environ. Sci. Technol.50(3): 1595-1603|2016|10.1021/acs.est.5b05626
194650|A||Shankar,P., M. Hazemi, K. Mattingly, M.J. See, M.E. Bell, M.E. Ellman, J.E. Cavallin, S. Lasee, B.R. Blackwell, S.M. Vl|Comparison of Transcriptomic Points of Departure with Apical Endpoints in Developing Zebrafish Exposed to PFOS, PFOA, or PFHxS|Toxicol. Sci.206(1): 134-146|2025|10.1093/toxsci/kfaf047
194651|A||Santhi,J.J., P.K. Issac, M. Velayutham, P.S.S. Rajan, S.A. Hussain, M.R. Shaik, B. Shaik, and A. Guru|Neurotoxic Effects of Chronic Exposure to Perfluorobutane Sulfonate in Adult Zebrafish (Danio rerio)|Comp. Biochem. Physiol. C Toxicol. Pharmacol.292:13 p.|2025|10.1016/j.cbpc.2025.110162
194652|A||Wang,K., X. Mu, X. Liu, L. He, and C. Wang|Broflanilide Induces Zebrafish Neurobehavioral Defects by Interfering with Synaptic Homeostasis|Aquat. Toxicol.283:10 p.|2025|10.1016/j.aquatox.2025.107355
194653|A||Mathiron,A.G.E., L. Bertin, V. Brosselin, N. Delorme, M. Duny, O. Geffard, and G. Jubeaux|Does Exposure to Zinc, Methomyl, and Perfluorooctanoic Acid Alter Feeding Behavior on MUG in the Freshwater Amphipod Gammarus fossarum?|Environ. Toxicol. Chem.44(5): 1389-1399|2025|10.1093/etojnl/vgaf035
194654|A||Cai,Z., G. Zhou, X. Yu, Y. Du, Q. Man, and W.C. Wang|Perfluorooctanoic Acid Disrupts Thyroid Hormone Biosynthesis by Altering Glycosylation of Na+/I- Symporter in Larval Zebrafish|Ecotoxicol. Environ. Saf.297:12 p.|2025|10.1016/j.ecoenv.2025.118249
194655|A||Huang,Y., D. Guo, L. Qin, L. Mo, and Y. Zhao|Toxic Effects of Eight Azole Fungicides on the Growth, Photosynthetic Activity, and Oxidative Stress of Raphidocelis subcapitata|Environ. Toxicol. Chem.44(5): 1259-1271|2025|10.1093/etojnl/vgaf003
194656|T||Chandra Mohan,M.L.B., M. Marimuthu, B. Venkatasamy, H. Sankarasubramanian, K.K. Krish, and J. Mannu|Prevalence of Insecticide Resistance and Enhanced Detoxifying Enzymes in Field Populations of Tuta absoluta (Lepidoptera: Gelechiidae) in the Major Tomato Growing Regions of South India|Ecotoxicology34(4): 589-605|2025|10.1007/s10646-025-02859-y
194657|A||Custer,K.W., J.P. Kochersberger, P.D. Anderson, K.J. Fetters, S. Hummel, and G.A. Burton|Macroinvertebrate Responses to Nickel in Multisystem Exposures|Environ. Toxicol. Chem.35(1): 101-114|2016|10.1002/etc.3157
194658|A||Tlili,S., J. Ovaert, A. Souissi, B. Ouddane, and S. Souissi|Acute Toxicity, Uptake and Accumulation Kinetics of Nickel in an Invasive Copepod Species: Pseudodiaptomus marinus|Chemosphere144:1729-1737|2016|10.1016/j.chemosphere.2015.10.057
194659|A||Blewett,T.A., and C.M. Wood|Low Salinity Enhances Ni-Mediated Oxidative Stress and Sub-Lethal Toxicity to the Green Shore Crab (Carcinus maenas)|Ecotoxicol. Environ. Saf.122:159-170|2015|10.1016/j.ecoenv.2015.07.019
194660|A||Gauthier,P.T., W.P. Norwood, E.E. Prepas, and G.G. Pyle|Metal-Polycyclic Aromatic Hydrocarbon Mixture Toxicity in Hyalella azteca. 2. Metal Accumulation and Oxidative Stress as Interactive Co-Toxic Mechanisms|Environ. Sci. Technol.49(19): 11780-11788|2015|10.1021/acs.est.5b03233
194661|T||Furst,A., Y. Chien, and P.K. Chien|Worms as a Substitute of Rodents in Toxicology:  Acute Toxicity of Three Nickel Compounds|Toxicol. Methods3(1): 19-23|1993|10.3109/15376519309066108
194662|A||Hopfer,S.M., M.C. Plowman, K.R. Sweeney, J.A. Bantle, and F.W.,Jr. Sundermann|Teratogenicity of Ni2+ in Xenopus laevis|In: A.Aitio, et al.(Eds.), Trace Elements in Health and Disease, Int.Symp., Jun.5-8, 1990, Espoo, Findland, Royal Soc.of Chem., Cambridge, England, CRC Press Inc., Boca Raton, FL:169-175|1991|
194663|A||Javid,A., M. Javed, and S. Abdullah|Nickel Bio-Accumulation in the Bodies of Catla catla, Labeo rohita and Cirrhina mrigala During 96-hr LC50 Exposures|Int. J. Agric. Biol.9(1): 139-142|2007|
194664|A||Kara,Y., D. Basaran, I. Kara, A. Zeytunluoglu, and H. Genc|Bioaccumulation of Nickel by Aquatic Macrophyta Lemna minor (Duckweed)|Int. J. Agric. Biol.5(3): 281-283|2003|
194665|A||Kumari,M., N.P. Singh, and G. Ranjan|Effect of Nickel on the Haematological Parameters of an Exotic Carp, Cyprinus carpio var. communis (Linn.)|Nat. Environ. Pollut. Technol.6(4): 657-659|2007|
194666|A||Martinez-Tabche,L., L. Gomez-Olivan, M.G. Martinez, C.R. Castillo, and A.M. Santiago|Toxicity of Nickel in Artificial Sediment on Acetylcholinesterase Activity and Hemoglobin Concentration of the Aquatic Flea, Moina macrocopa|J. Environ. Hydrol.8:11 p.|2000|
194667|A||Hommen,U., B. Knopf, H. Rudel, C. Schafers, K. De Schamphelaere, C. Schlekat, and E.R. Garman|A Microcosm Study to Support Aquatic Risk Assessment of Nickel: Community-Level Effects and Comparison with Bioavailability-Normalized Species Sensitivity Distributions|Environ. Toxicol. Chem.35(5): 1172-1182|2016|10.1002/etc.3255
194669|A||Jarvis,T.A., T.R. Capo, and G.K. Bielmyer-Fraser|Dietary Metal Toxicity to the Marine Sea Hare, Aplysia californica|Comp. Biochem. Physiol. C Toxicol. Pharmacol.174/175:54-64|2015|10.1016/j.cbpc.2015.06.009
194670|A||Sorensen,M.A.|Assessing Impacts of Anthropogenic Pollutants on Selected Aquatic and Terrestrial Insects|Ph.D Thesis, University of California, Riverside, CA:140 p.|2007|
194671|A||Gissi,F., M.S. Adams, C.K. King, and D.F. Jolley|A Robust Bioassay to Assess the Toxicity of Metals to the Antarctic Marine Microalga Phaeocystis antarctica|Environ. Toxicol. Chem.34(7): 1578-1587|2015|10.1002/etc.2949
194672|A||Sun,H., W. Wang, L. Geng, Y. Chen, and Z. Yang|In Situ Studies on Growth, Oxidative Stress Responses, and Gene Expression of Juvenile Bighead Carp (Hypophthalmichthys nobilis) to Eutrophic Lake Water Dominated by Cyanobacterial Blooms|Chemosphere93(2): 421-427|2013|10.1016/j.chemosphere.2013.05.022
194673|A||LAB Research Ltd.|Acute Immobilisation Test with Ethylene Dibromide Industrial (EDB) on Daphnia (Daphnia magna)|Study Code - 10/112-023DA:35 p.|2010|
194674|A||LAB Research Ltd.|Acute Toxicity Test with Ethylene Dibromide Industrial (EDB) on Rainbow Trout (Oncorhynchus mykiss)|Study Code - 10/12-009HR:26 p.|2010|
194675|A||LAB Research Ltd.|Growth Inhibition Test with Ethylene Dibromide Industrial (EDB) on Algae (Pseudokirchneriella subcapitata)|Study Code - 10/112-022AL:32 p.|2010|
194676|A||Al-Attar,A.M.|The Influences of Nickel Exposure on Selected Physiological Parameters and Gill Structure in the Teleost Fish, Oreochromis niloticus|J. Biol. Sci. (Faisalabad)7(1): 77-85|2007|10.3923/jbs.2007.77.85
194677|A||David,M., S. Mushigeri, and M. Prashanth|Nickel Induced Changes on Some Aspects of Protein Metabolism in the Tissues of Pila globosa|J. Environ. Biol.24(1): 69-75|2003|
194678|A||Prakash,V., S. Das, and B.S. Khangarot|Experimental Studies on the Acute Toxicity of Nickel to Freshwater Fish Channa punctatus, Puntius sophore, Rasbora daniconius neilgeriensis, and Lebistes reticulatus|Indian J. Environ. Sci.10(2): 97-101|2006|
194679|A||Selvi,M.|Investigation of Acute Toxicity of Nickel (Nickel (II) Chloride) on Guppies (Poecilia reticulata Pallas, 1859)|Fresenius Environ. Bull.18(5a): 694-698|2009|
194680|A||Ojo,A.A., and C.M. Wood|In Vitro Analysis of the Bioavailability of Six Metals via the Gastro-Intestinal Tract of the Rainbow Trout (Oncorhynchus mykiss)|Aquat. Toxicol.83:10-23|2007|10.1016/j.aquatox.2007.03.006
194681|A||Kubrak,O.I., H. Poigner, V.V. Husak, B.M. Rovenko, S. Meyer, D. Abele, and V.I. Lushchak|Goldfish Brain and Heart are well Protected from Ni2+-Induced Oxidative Stress|Comp. Biochem. Physiol. C Toxicol. Pharmacol.162:43-50|2014|10.1016/j.cbpc.2014.03.011
194682|A||Lee,M.A., R. Guo, and J.S. Ki|Different Transcriptional Responses of Heat Shock Protein 20 in the Marine Diatom Ditylum brightwellii Exposed to Metals and Endocrine-Disrupting Chemicals|Environ. Toxicol.29(12): 1379-1389|2014|10.1002/tox.21868
194683|A||Jayaseelan,C., A.A. Rahuman, R. Ramkumar, P. Perumal, G. Rajakumar, A.V. Kirthi, T. Santhoshkumar, and S. Marimuthu|Effect of Sub-Acute Exposure to Nickel Nanoparticles on Oxidative Stress and Histopathological Changes in Mozambique Tilapia, Oreochromis mossambicus|Ecotoxicol. Environ. Saf.107:220-228|2014|10.1016/j.ecoenv.2014.06.012
194684|A||Magalhaes,D.P., M.R.C. Marques, D.F. Baptista, and D.F. Buss|Selecting a Sensitive Battery of Bioassays to Detect Toxic Effects of Metals in Effluents|Ecotoxicol. Environ. Saf.110:73-81|2014|10.1016/j.ecoenv.2014.08.019
194685|A||Chandler,G.T., C.E. Schlekat, E.R. Garman, L.J. He, K.M. Washburn, E.R. Stewart, and J.L. Ferry|Sediment Nickel Bioavailability and Toxicity to Estuarine Crustaceans of Contrasting Bioturbative Behaviors - An Evaluation of the SEM-AVS Paradigm|Environ. Sci. Technol.48(21): 12893-12901|2014|10.1021/es5025977
194686|A||Glover,C.N., T.A. Blewett, and C.M. Wood|Novel Route of Toxicant Exposure in an Ancient Extant Vertebrate: Nickel Uptake by Hagfish Skin and the Modifying Effects of Slime|Environ. Sci. Technol.49(3): 1896-1902|2015|10.1021/es5052815
194687|A||Mu,X., K. Wang, L. He, Z. Liu, Y. Zhang, R. Zhang, M. Duan, and C. Wang|Neural System Impairment and Involved Microglia-Neuron Regulation of Broflanilide in Zebrafish Larvae|Environ. Sci. Technol.57(38): 14138-14149|2023|10.1021/acs.est.3c03626
194688|A||Terreros,D.A., J.A. Knight, and E.R. Ashwood|Nickel Inhibition of the Osmotic-Sensitive Ionic Cellular Channels|Ann. Clin. Lab. Sci.18(6): 444-450|1988|
194689|A||Mohammed,E.H., G. Wang, and J. Jiang|The Effects of Nickel on the Reproductive Ability of Three Different Marine Copepods|Ecotoxicology19(5): 911-916|2010|10.1007/s10646-010-0471-6
194690|A||Hansen,A.T., R. Stark, and M. Hondzo|Uptake of Dissolved Nickel by Elodea canadensis and Epiphytes Influenced by Fluid Flow Conditions|Hydrobiologia (Multiple Languages)658(1): 127-138|2011|10.1007/s10750-010-0456-8
194691|A||Wang,M., and G. Wang|Oxidative Damage Effects in the Copepod Tigriopus japonicus Mori Experimentally Exposed to Nickel|Ecotoxicology19(2): 273-284|2010|10.1007/s10646-009-0410-6
194692|A||Nguyen,L.T., G.A.,Jr. Burton, C.E. Schlekat, and C.R. Janssen|Field Measurement of Nickel Sediment Toxicity:  Role of Acid Volatile Sulfide|Environ. Toxicol. Chem.30(1): 162-172|2011|10.1002/etc.358
194693|A||Price,N.M., and F.M.M. Morel|Colimitation of Phytoplankton Growth by Nickel and Nitrogen|Limnol. Oceanogr.36:1071-1077|1991|10.4319/lo.1991.36.6.1071
194694|A||Leonard,E.M., I. Barcarolli, K.R. Silva, W. Wasielesky, C.M. Wood, and A. Bianchini|The Effects of Salinity on Acute and Chronic Nickel Toxicity and Bioaccumulation in Two Euryhaline Crustaceans: Litopenaeus vannamei and Excirolana armata|Comp. Biochem. Physiol. C Toxicol. Pharmacol.154(4): 409-419|2011|10.1016/j.cbpc.2011.07.011
194695|A||Millward,G.E., S. Kadam, and A.N. Jha|Tissue-Specific Assimilation, Depuration and Toxicity of Nickel in Mytilus edulis|Environ. Pollut.162:406-412|2012|10.1016/j.envpol.2011.11.034
194696|A||Minguez,L., A. Boiche, S. Sroda, S. Mastitsky, N. Brule, J. Bouquerel, and L. Giamberini|Cross-Effects of Nickel Contamination and Parasitism on Zebra Mussel Physiology|Ecotoxicology21(2): 538-547|2012|10.1007/s10646-011-0814-y
194697|A||Kubrak,O.I., V.V. Husak, B.M. Rovenko, H. Poigner, M.A. Mazepa, M. Kriews, D. Abele, and V.I. Lushchak|Tissue Specificity in Nickel Uptake and Induction of Oxidative Stress in Kidney and Spleen of Goldfish Carassius auratus, Exposed to Waterborne Nickel|Aquat. Toxicol.118:88-96|2012|10.1016/j.aquatox.2012.03.016
194698|A||Andhale,A.V., P.A. Bhosale, and S.P. Zambare|Histopathological Study of Nickel Induced Alterations in the Fresh Water Bivalve, Lammellidens marginalis|J. Exp. Sci.2(4): 1-3|2011|
194699|A||Jiang,J.L., G.Z. Wang, M.G. Mao, K.J. Wang, S.J. Li, and C.S. Zeng|Differential Gene Expression Profile of the Calanoid Copepod, Pseudodiaptomus annandalei, in Response to Nickel Exposure|Comp. Biochem. Physiol. C Toxicol. Pharmacol.157(2): 203-211|2013|10.1016/j.cbpc.2012.11.001
194700|A||Ryu,T.K., G. Lee, Y. Rhee, H.S. Park, M. Chang, S. Lee, J. Lee, and T.K. Lee|Identification of Nickel Response Genes in Abnormal Early Developments of Sea Urchin by Differential Display Polymerase Chain Reaction|Ecotoxicol. Environ. Saf.84:18-24|2012|10.1016/j.ecoenv.2012.06.018
194701|A||Bielmyer,G.K., C. Decarlo, C. Morris, and T. Carrigan|The Influence of Salinity on Acute Nickel Toxicity to the Two Euryhaline Fish Species, Fundulus heteroclitus and Kryptolebias marmoratus|Environ. Toxicol. Chem.32(6): 1354-1359|2013|10.1002/etc.2185
194702|A||Akpiri,R.U., R.S. Konya, and N.J. Hodges|Development of Cultures of the Marine Sponge Hymeniacidon perleve for Genotoxicity Assessment Using the Alkaline Comet Assay|Environ. Toxicol. Chem.36(12): 3314-3323|2017|10.1002/etc.3907
194703|A||Almeida,A.R., M. Salimian, M. Ferro, P.A.A.P. Marques, G. Goncalves, E. Titus, and I. Domingues|Biochemical and Behavioral Responses of Zebrafish Embryos to Magnetic Graphene/Nickel Nanocomposites|Ecotoxicol. Environ. Saf.186:8 p.|2019|
194704|A||Alsop,D., S.P. Lall, and C.M. Wood|Reproductive Impacts and Physiological Adaptations of Zebrafish to Elevated Dietary Nickel|Comp. Biochem. Physiol. C Toxicol. Pharmacol.165:67-75|2014|10.1016/j.cbpc.2014.05.001
194705|A||Bougas,B., E. Normandeau, F. Pierron, P.G.C. Campbell, L. Bernatchez, and P. Couture|How Does Exposure to Nickel and Cadmium Affect the Transcriptome of Yellow Perch (Perca flavescens) -  Results from a 1000 Candidate-Gene Microarray|Aquat. Toxicol.142/143:355-364|2013|10.1016/j.aquatox.2013.09.009
194706|A||Anilkumar,P., and G. Meenakshi|Ascorbate Effect on Protein Content During Nickel Intoxication in the Freshwater Bivalve, Lamellidens corrianus|Biosci. Disc.3(2): 270-274|2012|
194707|A||Unadkat,K., P. Parikh, and V. Patel|Effect of Nickel Ion on Stem of Hydrilla verticillata L.|Environ. Conserv. J.13(1/2): 107-110|2012|10.36953/ECJ.2012.131219
194708|A||Dew,W.A.|The Effects of Copper, Calcium, and Nickel on the Olfactory Response of Fathead Minnows: From Neurophysiology to Behaviour|Ph.D Thesis, Lakehead University, Ontario, Canada:144 p.|2013|
194709|A||Okamoto,M.|Induction of Ocular Tumor by Nickel Subsulfide in the Japanese Common Newt, Cynops pyrrhogaster|Cancer Res.47:5213-5217|1987|
194710|A||Kaur,L., K. Gadgil, and S. Sharma|Effect of Ph on Nickel Removal by Lemna minor|J. Solid Waste Technol. Manag.39(3): 190-196|2013|10.5276/JSWTM.2013.190
194711|A||Thomas,A.|Studies on the Absorption of Metallic Salts by Fish in Their Natural Habitat. II. The Absorption of Nickel by Fundulus heteroclitus|J. Biol. Chem.58:671-674|1924|10.1016/S0021-9258(18)85326-1
194712|A||Zheng,G.H., C.M. Liu, J.M. Sun, Z.J. Feng, and C. Cheng|Nickel-Induced Oxidative Stress and Apoptosis in Carassius auratus Liver by JNK Pathway|Aquat. Toxicol.147:105-111|2014|10.1016/j.aquatox.2013.12.015
194713|A||Andersson,B., A. Godhe, H.L. Filipsson, K. Rengefors, and O. Berglund|Differences in Metal Tolerance among Strains, Populations, and Species of Marine Diatoms - Importance of Exponential Growth for Quantification|Aquat. Toxicol.226:14 p.|2020|10.1016/j.aquatox.2020.105551
194714|A||Binet,M.T., F. Gissi, S. Stone, C. Trinh, and K.S. McKnight|Use of Scanning and Image Recognition Technology to Semi-Automate Larval Development Assessment in Toxicity Tests with a Tropical Copepod|Ecotoxicol. Environ. Saf.180:1-11|2019|10.1016/j.ecoenv.2019.03.049
194715|A||Biscere,T., C. Ferrier-Pages, R. Grover, A. Gilbert, C. Rottier, A. Wright, C. Payri, and F. Houlbreque|Enhancement of Coral Calcification Via the Interplay of Nickel and Urease|Aquat. Toxicol.200:247-256|2018|10.1016/j.aquatox.2018.05.013
194716|A||Blewett,T.A., E.M. Dow, C.M. Wood, J.C. McGeer, and D.S. Smith|The Role of Dissolved Organic Carbon Concentration and Composition on Nickel Toxicity to Early Life-Stages of the Blue Mussel Mytilus edulis and Purple Sea Urchin Strongylocentrotus purpuratus|Ecotoxicol. Environ. Saf.160:162-170|2018|10.1016/j.ecoenv.2018.05.029
194717|A||Blewett,T.A., and C.M. Wood|Salinity-Dependent Nickel Accumulation and Oxidative Stress Responses in the Euryhaline Killifish (Fundulus heteroclitus)|Arch. Environ. Contam. Toxicol.68(2): 382-394|2015|10.1007/s00244-014-0115-6
194718|A||Bozcaarmutlu,A., and E. Arinc|Effect of Mercury, Cadmium, Nickel, Chromium and Zinc on Kinetic Properties of NADPH-Cytochrome P450 Reductase Purified from Leaping Mullet (Liza saliens)|Toxicol. In Vitro21(3): 408-416|2007|10.1016/j.tiv.2006.10.002
194719|A||Cabrita,M.T., C. Gameiro, A.B. Utkin, B. Duarte, I. Cacador, and P. Cartaxana|Photosynthetic Pigment Laser-Induced Fluorescence Indicators for the Detection of Changes Associated with Trace Element Stress in the Diatom Model Species Phaeodactylum tricornutum|Environ. Monit. Assess.188(5): 13 p.|2016|10.1007/s10661-016-5293-4
194720|A||Costello,D.M., C.R. Hammerschmidt, and G.A.,Jr. Burton|Nickel Partitioning and Toxicity in Sediment During Aging: Variation in Toxicity Related to Stability of Metal Partitioning|Environ. Sci. Technol.50(20): 11337-11345|2016|10.1021/acs.est.6b04033
194721|A||Crespo,E.B., P.J. Pereyra, A. Silvestro, K. Hidalgo, and G.B. Rossini|Acute Toxicity of Cd2+, Cr6+, and Ni2+ to the Golden Mussel Limnoperna fortunei (Dunker 1857)|Bull. Environ. Contam. Toxicol.104(6): 748-754|2020|10.1007/s00128-020-02854-5
194722|A||Da Silva Aires,M., C.L. Paganini, and A. Bianchini|Biochemical and Physiological Effects of Nickel in the Euryhaline Crab Neohelice granulata (Dana, 1851) Acclimated to Different Salinities|Comp. Biochem. Physiol. C Toxicol. Pharmacol.204:51-62|2018|10.1016/j.cbpc.2017.11.007
194723|A||Damasceno,E.P., L.P. De Figueredo, M.F. Pimentel, S. Loureiro, and L.V. Costa-Lotufo|Prediction of Toxicity of Zinc and Nickel Mixtures to Artemia sp at Various Salinities: From Additivity to Antagonism|Ecotoxicol. Environ. Saf.142:322-329|2017|10.1016/j.ecoenv.2017.04.020
194724|A||Dayras,P., C. Bialais, B. Ouddane, J.S. Lee, and S. Souissi|Effects of Different Routes of Exposure to Metals on Bioaccumulation and Population Growth of the Cyclopoid Copepod Paracyclopina nana|Chemosphere248:13 p.|2020|10.1016/j.chemosphere.2020.125926
194725|A||Defo,M.A., L. Bernatchez, P.G.C. Campbell, and P. Couture|Waterborne Cadmium and Nickel Impact Oxidative Stress Responses and Retinoid Metabolism in Yellow Perch|Aquat. Toxicol.154:207-220|2014|10.1016/j.aquatox.2014.05.024
194726|A||Demim,S., N. Drouiche, A. Aouabed, T. Benayad, O. Dendene-Badache, and S. Semsari|Cadmium and Nickel: Assessment of the Physiological Effects and Heavy Metal Removal Using a Response Surface Approach by L. Gibba.|Ecol. Eng.61(A): 426-435|2013|10.1016/j.ecoleng.2013.10.016
194727|A||Di Natale,M., C. Bennici, G. Biondo, T. Masullo, C. Monastero, M. Tagliavia, M. Torri, S. Costa, M.A. Ragusa, A. Cuttit|Aberrant Gene Expression Profiles in Mediterranean Sea Urchin Reproductive Tissues After Metal Exposures|Chemosphere216:48-58|2019|10.1016/j.chemosphere.2018.10.137
194728|A||Chan,K.|The Influence of Calcium and Dissolved Organic Matter on the Acute and Chronic Toxicity of Nickel to Hyalella azteca|M.S. Thesis, Wilfrid Laurier University, Waterloo, Ontario, Canada:111 p.|2013|
194729|A||Bogers,M.|Zebra Fish (Danio rerio), Early-Life Stage Toxicity Test with OTNE-14C (Flow-Through)|NOTOX Project 277267:61 p.|2001|
194730|A||Grutzner,I.|Musk Ketone: 21-Day Prolonged Toxicity Study in the Rainbow Trout Under Flow-Through Conditions|Report to RIFM, RCC Switzerland, Project 380700:48 p.|1995|
194731|A||Grutzner,I.|Influence of Musk Ketone on the Reproduction of Daphnia magna|Report to RIFM, RCC Switzerland, Project 380676:41 p.|1995|
194732|A||Garton,M.W.|7-Day Chronic Toxicity Test Results with LC50 and NOEC Endpoints for 25 Fragrance Chemicals Using Ceriodaphnia dubia and Fathead Minnows|Great Lakes Environmental Center, SOP Number: TOX 0023:66 p.|2005|
194733|A||Bayer AG|Nerolione H&R. Daphnia magna Reproduction Test|Study Number: 931 N/99 DL:26 p.|2000|
194734|A||Garton,M.W.|Chronic Toxicity Test Results with LC50 and NOEC Endpoints for Fragrance Chemicals Using Ceriodaphnia dubia and Fathead Minnows|Great Lakes Environmental Center:6 p.|2006|
194735|A||Bogers,M.|Daphnia magna, 21-Day Chronic Toxicity Test with OTNE-14C (Flow-Through)|NOTOX Project 277278:51 p.|2002|
194736|A||Bogers,M.|Daphnia magna, Reproduction Test with Methyl Cedryl Ketone (-14C) (Flow-Through)|NOTOX Project 277245:50 p.|2003|
194737|A||Sewell,I.G., and J. McKenzie|ST 11 C 01: Daphnia magna Reproduction Test|SPL Project Number: 161/344:67 p.|2003|
194738|A||Wetton,P.M., and D.M. Mullee|ST 16 C 01: Daphnia magna Reproduction Test|SPL Project Number: 161/310:67 p.|2003|
194739|A||Sewell,I.G., and J. McKenzie|ST 12 C 00: Fish, Early-Life Stage Toxicity Test|SPL Project Number: 161/301:79 p.|2003|
194740|A||Sewell,I.G., and D.M. Mullee|ST 12 C 00: Daphnia magna Reproduction Test|SPL Project Number: 161/302:73 p.|2002|
194741|A||Sewell,I.G., and J.W.F. Hill|CHS: Fish, Early-Life Stage Toxicity Test|SPL Project Number: 0309/0244:83 p.|2006|
194742|A||Bogers,M.|Daphnia magna, 21-Day Chronic Toxicity Test with Javanol (Flow-Through)|NOTOX Project 247501:35 p.|1999|
194743|A||Sewell,I.G., and J.W.F. Hill|M 019087: Daphnia magna Reproduction Test|SPL Project Number:  0766/0116:62 p.|2004|
194744|A||Sewell,I.G., and J. McKenzie|ST 16 C 01: Fish, Early-Life Stage Toxicity Test|SPL Project Number: 161/309:86 p.|2000|
194745|A||Lachausse,C., C. Schafers, and M. Simon|Daphnia magna, Reproduction Test (OECD 211) Semi-Static Exposure; Effect of Muscenone Dextro on the Reproduction of Daphnia magna|GLP Code: FIR-002/4-21:67 p.|2009|
194746|A||Huntingdon Life Sciences|Delta Damascone Prolonged Toxicity to Daphnia magna|HLS Study Number: IFF0429:48 p.|2009|
194747|A||Egeler,P.|Karanal: A Study on the Chronic Toxicity to Daphnia magna|Study Number (ECT): 13BZ2DB:134 p.|2014|
194748|A||Vizon SciTec|Final Report. Chronic Toxicity of Amber Extreme Using Daphnia magna Reproduction Test (OECD Guideline 211) (TOX0570)|Vizon Study No.: TOX0570:186 p.|2006|
194749|A||Minderhout,T., A.I. Siddiqui, S.P. Gallagher, and K.H. Martin|Methyl Ester of Rosin: A Flow-Through Life-Cycle Toxicity Test with the Cladoceran (Daphnia magna)|Wildlife International Project Number: 558A-157A:87 p.|2014|
194750|A||Minderhout,T., A.I. Siddiqui, S.P. Gallagher, and K.H. Martin|Undecavertol (CAS_81782-77-6): A Static-Renewal Life-Cycle Toxicity Test with the Cladoceran (Daphnia magna)|Wildlife International Project Number: 558A-158:101 p.|2017|
194751|A||El-Din,S.M.M.|Effects of Environmental Pollutants on the Growth Characteristics, Oxidative Stress and Biochemical Composition of Nannochloropsis salina for Biodiesel Production|Iran. J. Sci. Technol. A.44(3): 629-640|2020|
194752|A||Lee,C., E. Park, E.R. Park, K.C. Nam, S.S. Nam, S.H. Jeon, J.K. Na, D.I. Choi, and K. Park|Effects of 17[alpha]-Ethinylestradiol and Nonylphenol on the Induction of Vitellogenin Gene Expression in Medaka, Oryzias latipes|Organohalog. Compd.53:65-68|2001|
194753|A||Cui,L., Y. Zhang, J. Chu, Q. Kong, Y. Zhou, and H. Zhang|Effect of 4-N-Nonylphenol and Cadmium Co-Exposure on Liver Apoptosis and Lipid Metabolism in Zebrafish (Danio rerio)|Ecotoxicol. Environ. Saf.295:10 p.|2025|10.1016/j.ecoenv.2025.118165
194754|A||Mortensen,A.S., and A. Arukwe|Interactions Between Estrogen- and Ah-Receptor Signalling Pathways in Primary Culture of Salmon Hepatocytes Exposed to Nonylphenol and 3,3',4,4'-Tetrachlorobiphenyl (Congener 77)|Comp. Hepatol.6(2): 14 p.|2007|10.1186/1476-5926-6-2
194755|A||Nguyen,T.V., A. Kumar, M. Taraji, and N.D.R. Lloyd|Assessment of PFDA Toxicity on RTgill-W1 Cell Line via Metabolomics and Lipidomics Approaches|Aquat. Toxicol.284:12 p.|2025|
194756|A||Liao,J., L. Huang, Y. Liu, B. Sun, K. Zhang, C. Wang, H. Lei, Z. Cao, and Y. Lu|Metabolomic Analysis Reveals Contrasting Effects of PFOS and PFAS on Cyanobacterial Bloom and Metabolic Pathways in Eutrophic Water|Environ. Pollut.375:13 p.|2025|10.1016/j.envpol.2025.126340
194757|A||Zhang,B., Z. Fan, X. Liu, Y. Wu, L. Cheng, L. Wang, and H. Liu|Bisphenol AF Induces Lipid Metabolism Disorders, Oxidative Stress and Upregulation of Heat Shock Protein 70 in Zebrafish|Comp. Biochem. Physiol. C Toxicol. Pharmacol.293:14 p.|2025|
194758|A||Zeng,S., C. Tong, and F. Yang|Hexafluoropropylene Oxide Trimer Acid Induces Olfactory Toxicity to Crucian Carp by Disrupting Olfactory Function and Olfactory-Mediated Behavior|Aquat. Toxicol.284:8 p.|2025|
194759|A||Yu,Y., K. Yuan, D. Tong, W. Zhang, W. Zhou, W. Li, W. Shi, W. Yang, X. Zhao, and G. Liu|Perfluorooctanoic Acid (PFOA) Disrupts Cardiac Performance of Thick-Shell Mussel by Inserting into the Binding Pocket of Proliferator-Activated Receptor gamma and Thereby Causing Lipid Metabolism Disorders|Environ. Pollut.376:10 p.|2025|10.1016/j.envpol.2025.126369
194760|A||Mohamed,B., A. Hajer, S. Susanna, O. Caterina, M. Flavio, B. Hamadi, and V. Aldo|Transcriptomic Responses to Heat Stress and Nickel in the Mussel Mytilus galloprovincialis|Aquat. Toxicol.148:104-112|2014|10.1016/j.aquatox.2014.01.004
194761|A||Athikeshvan,S., S. Vincent, and B. Velmurugan|Genotoxic Effect of Nickel Chloride and Zinc Sulphate on Fish Hypophthalmichthys molitrix|J. Indian Fish. Assoc.32:111-117|2005|
194762|A||Leonard,E.M., U. Banerjee, J.J. D'Silva, and C.M. Wood|Chronic Nickel Bioaccumulation and Sub-Cellular Fractionation in Two Freshwater Teleosts, the Round Goby and the Rainbow Trout, Exposed Simultaneously to Waterborne and Dietborne Nickel|Aquat. Toxicol.154:141-153|2014|10.1016/j.aquatox.2014.04.028
194763|T||Kasprzak,K.S., and F.W.,Jr. Sundermann|Metabolism of Nickel Carbonyl 14C|Toxicol. Appl. Pharmacol.15:295-303|1969|10.1016/0041-008X(69)90030-1
194764|A||Driessnack,M.K., A. Jamwal, and S. Niyogi|Effects of Chronic Exposure to Waterborne Copper and Nickel in Binary Mixture on Tissue-Specific Metal Accumulation and Reproduction in Fathead Minnow (Pimephales promelas)|Chemosphere185:964-974|2017|10.1016/j.chemosphere.2017.07.100
194765|A||Fadhlaoui,M., F. Pierron, and P. Couture|Temperature and Metal Exposure Affect Membrane Fatty Acid Composition and Transcription of Desaturases and Elongases in Fathead Minnow Muscle and Brain|Ecotoxicol. Environ. Saf.148:632-643|2018|10.1016/j.ecoenv.2017.10.040
194766|A||Fadhlaoui,M., V. Laderriere, I. Lavoie, and C. Fortin|Influence of Temperature and Nickel on Algal Biofilm Fatty Acid Composition|Environ. Toxicol. Chem.39(8): 1566-1577|2020|10.1002/etc.4741
194767|A||Fang,B.B., J. Guo, F.X. Li, J.P. Giesy, L.J. Wang, and W. Shi|Bioassay Directed Identification of Toxicants in Sludge and Related Reused Materials from Industrial Wastewater Treatment Plants in the Yangtze River Delta|Chemosphere168:191-198|2017|10.1016/j.chemosphere.2016.10.046
194768|T||Fourati,E., K. Vogel-Mikus, T. Bettaieb, A. Kavcic, M. Kelemen, P. Vavpetic, P. Pelicon, C. Abdelly, and T. Ghnaya|Physiological Response and Mineral Elements Accumulation Pattern in Sesuvium portulacastrum L. Subjected In Vitro to Nickel|Chemosphere219:463-471|2019|10.1016/j.chemosphere.2018.12.081
194769|A||Gissi,F., J. Stauber, A. Reichelt-Brushett, P.L. Harrison, and D.F. Jolley|Inhibition in Fertilisation of Coral Gametes Following Exposure to Nickel and Copper|Ecotoxicol. Environ. Saf.145:32-41|2017|10.1016/j.ecoenv.2017.07.009
194770|A||Gissi,F., J.L. Stauber, M.T. Binet, M.A. Trenfield, J.W. Van Dam, and D.F. Jolley|Assessing the Chronic Toxicity of Nickel to a Tropical Marine Gastropod and Two Crustaceans|Ecotoxicol. Environ. Saf.159:284-292|2018|10.1016/j.ecoenv.2018.05.010
194771|A||Harvey,E.F., M.E. Cristescu, J. Dale, H. Hunter, C. Randall, and T.J. Crease|Metal Exposure Causes rDNA Copy Number to Fluctuate in Mutation Accumulation Lines of Daphnia pulex|Aquat. Toxicol.226:10 p.|2020|10.1016/j.aquatox.2020.105556
194772|A||Huang,X.G., S.X. Li, F.J. Liu, and W.R. Lan|Regulated Effects of Prorocentrum donghaiense Lu Exudate on Nickel Bioavailability when Cultured with Different Nitrogen Sources|Chemosphere197:57-64|2018|10.1016/j.chemosphere.2018.01.014
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